/* * Copyright (c) 2021 Huawei Device Co., Ltd. * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ import rpc from '@ohos.rpc'; import fileio from '@ohos.fileio'; import FA from '@ohos.ability.featureAbility'; import {describe, expect, beforeAll, it} from 'deccjsunit/index'; var gIRemoteObject = null; export default function actsRpcClientJsTest() { describe('ActsRpcClientJsTest', function(){ console.info("-----------------------SUB_Softbus_IPC_Compatibility_MessageParce_Test is starting-----------------------"); beforeAll(async function () { console.info('beforeAll called'); gIRemoteObject = new Stub("rpcTestAbility"); return gIRemoteObject; }); beforeEach(async function (){ console.info('beforeEach called'); }); afterEach(async function (){ console.info('afterEach called'); }); afterAll(async function (){ console.info('afterAll called'); }); const K = 1024; const M = 1024*1024; const G = 1024*1024*1024; const CODE_WRITE_BYTEARRAY = 1; const CODE_SAME_PROCESS = 1; const CODE_WRITE_INTARRAY = 2; const CODE_WRITE_FLOATARRAY = 3; const CODE_WRITE_SHORT = 4; const CODE_WRITE_LONG = 5; const CODE_WRITE_DOUBLE = 6; const CODE_WRITE_BOOLEAN = 7; const CODE_WRITE_CHAR = 8; const CODE_WRITE_STRING = 9; const CODE_WRITE_BYTE = 10; const CODE_WRITE_INT = 11; const CODE_WRITE_FLOAT = 12; const CODE_WRITE_RAWDATA = 13; const CODE_WRITE_REMOTEOBJECT = 14; const CODE_WRITE_SEQUENCEABLE = 15; const CODE_WRITE_NOEXCEPTION = 16; const CODE_WRITE_SEQUENCEABLEARRAY = 17; const CODE_WRITE_REMOTEOBJECTARRAY = 18; const CODE_ALL_TYPE = 20; const CODE_ALL_ARRAY_TYPE = 21; const CODE_IPCSKELETON_INT = 22; const CODE_WRITESEQUENCEABLE = 23 const CODE_WRITE_SHORT_MULTI = 24; const CODE_WRITE_BYTE_MULTI = 25; const CODE_WRITE_INT_MULTI = 26; const CODE_TRANSACTION = 27; const CODE_IPCSKELETON = 28; const CODE_FILESDIR = 29; const CODE_WRITE_REMOTEOBJECTARRAY_1 = 30; const CODE_WRITE_REMOTEOBJECTARRAY_2 = 31; const CODE_ONREMOTEMESSAGE_OR_ONREMOTE = 32; const CODE_ONREMOTEMESSAGEREQUEST = 33; const CODE_INTERFACETOKEN = 34; const CODE_WRITE_SHORTARRAY = 35; const CODE_WRITE_LONGARRAY = 36; const CODE_WRITE_DOUBLEARRAY = 37; const CODE_WRITE_BOOLEANARRAY = 38; const CODE_WRITE_CHARARRAY = 39; const CODE_WRITE_STRINGARRAY = 40; function sleep(numberMillis) { var now = new Date(); var exitTime = now.getTime() + numberMillis; while (true) { now = new Date(); if (now.getTime() > exitTime) return; } } class TestRemoteObject extends rpc.RemoteObject { constructor(descriptor) { super(descriptor); } asObject(){ return this; } } class TestProxy { remote = rpc.RemoteObject; constructor(remote) { this.remote = remote; console.info("test remote") } asObject() { console.info("server remote") return this.remote; } } class MyDeathRecipient { constructor(gIRemoteObject, done) { this.gIRemoteObject = gIRemoteObject; this.done = done; } onRemoteDied() { console.info("server died"); expect(this.proxy.removeDeathRecipient(this, 0)).assertTrue(); let _done = this.done; setTimeout(function() { _done() }, 1000); } } class MyregisterDeathRecipient { constructor(gIRemoteObject, done) { this.gIRemoteObject = gIRemoteObject; this.done = done; } onRemoteDied() { console.info("server died"); expect(this.proxy.unregisterDeathRecipient(this, 0)).assertTrue(); let _done = this.done; setTimeout(function() { _done() }, 1000); } } class Stub extends rpc.RemoteObject { constructor(descriptor) { super(descriptor); } onRemoteRequest(code, data, reply, option) { try{ console.info("onRemoteRequest: " + code); if (code === 32){ console.info("case 32 start"); let tmp1 = data.readString(); let result = reply.writeString("onRemoteRequest invoking"); return true; } else if (code === 33){ console.info("case 33 start"); let tmp1 = data.readString(); let result = reply.writeString(tmp1); return true; }else { console.error("default case " + code); return super.onRemoteRequest(code, data, reply, option); } } catch (error) { console.info("onRemoteRequest: " + error); } return false } onRemoteMessageRequest(code, data, reply, option) { try{ console.info("onRemoteMessageRequest: " + code); switch(code) { case 1: { console.info("case 1 start"); let tmp1 = data.readByteArray(); let result = reply.writeByteArray(tmp1); return true; } case 2: { console.info("case 2 start"); let tmp1 = data.readIntArray(); let result = reply.writeIntArray(tmp1); return true; } case 3: { console.info("case 3 start"); let tmp1 = data.readFloatArray(); let result = reply.writeFloatArray(tmp1); return true } case 4: { console.info("case 4 start"); let tmp1 = data.readShort(); let result = reply.writeShort(tmp1); return true } case 5: { console.info("case 5 start"); let tmp1 = data.readLong(); let result = reply.writeLong(tmp1); return true } case 6: { console.info("case 6 start"); let tmp1 = data.readDouble(); let result = reply.writeDouble(tmp1); return true } case 7: { console.info("case 7 start"); let tmp1 = data.readBoolean(); let result = reply.writeBoolean(tmp1); return true } case 8: { console.info("case 8 start"); let tmp1 = data.readChar(); let result = reply.writeChar(tmp1); return true } case 9: { console.info("case 9 start"); let tmp1 = data.readString(); let result = reply.writeString(tmp1); return true } case 10: { console.info("case 10 start"); let tmp1 = data.readByte(); let result = reply.writeByte(tmp1); return true } case 11: { console.info("case 11 start"); let tmp1 = data.readInt(); let result = reply.writeInt(tmp1); return true } case 12: { console.info("case 12 start"); let tmp1 = data.readFloat(); let result = reply.writeFloat(tmp1); return true } case 13: { console.info("case 13 start"); var size = data.readInt(); let tmp = data.readRawData(size); let size1 = reply.writeInt(size); let result = reply.writeRawData(tmp, tmp.length); return true } case 14: { console.info("case 14 start"); let listener = data.readRemoteObject(); let num = data.readInt(); let str = data.readString(); let option2 = new rpc.MessageOption(); let data2 = rpc.MessageParcel.create(); let reply2 = rpc.MessageParcel.create(); data2.writeInt(num); data2.writeString(str); listener.sendRequest(1, data2, reply2, option2) .then(function(result) { console.info("14 send request done, error code: " + result.errCode ); }) .catch(function(e) { console.error("14 send request got exception: " + e); }) .finally(() => { data2.reclaim(); reply2.reclaim(); console.info("case 14 test done"); }) reply.writeNoException(); return true } case 15: { console.info("case 15 start"); let s = new MySequenceable(null, null); var tmp1 = data.readParcelable(s); let result = reply.writeParcelable(s); return true } case 16: { console.info("case 16 start"); data.readException(); var tmp = data.readInt(); reply.writeNoException(); var result = reply.writeInt(tmp); return true } case 17: { console.info("case 17 start"); var s = [new MySequenceable(null, null), new MySequenceable(null, null), new MySequenceable(null, null)]; data.readParcelableArray(s); let result = reply.writeParcelableArray(s); return true } case 18: { console.info("case 18 start"); let listeners = data.readRemoteObjectArray(); for (let i = 0; i < listeners.length; i++) { let option2 = new rpc.MessageOption(); let data2 = rpc.MessageParcel.create(); let reply2 = rpc.MessageParcel.create(); listeners[i].sendRequest(1, data2, reply2, option2) .then(function(result) { console.info("18 send request done, error code: " + result.errCode + ", index: " + i); }) .catch(function(e) { console.error("18 send request got exception: " + e); }) .finally(() => { data2.reclaim(); reply2.reclaim(); console.info("case 18 test done"); }) } console.info("18 The server's writeRemoteObjectArray result is " + result); return true } case 19: { console.info("case 19 start"); let tmp1 = data.readDoubleArray(); let result = reply.writeDoubleArray(tmp1); return true } case 20: { console.info("case 20 start"); let tmp1 = data.readByte(); let tmp2 = data.readShort(); let tmp3 = data.readInt(); let tmp4 = data.readLong(); let tmp5 = data.readFloat(); let tmp6 = data.readDouble(); let tmp7 = data.readBoolean(); let tmp8 = data.readChar(); let tmp9 = data.readString(); let s = new MySequenceable(null, null); let tmp10 = data.readParcelable(s); let result1 = reply.writeByte(tmp1); let result2 = reply.writeShort(tmp2); let result3 = reply.writeInt(tmp3); let result4 = reply.writeLong(tmp4); let result5 = reply.writeFloat(tmp5); let result6 = reply.writeDouble(tmp6); let result7 = reply.writeBoolean(tmp7); let result8 = reply.writeChar(tmp8); let result9 = reply.writeString(tmp9); let result10 = reply.writeParcelable(s); return true } case 21: { console.info("case 21 start"); let tmp1 = data.readByteArray(); let tmp2 = data.readShortArray(); let tmp3 = data.readIntArray(); let tmp4 = data.readLongArray(); let tmp5 = data.readFloatArray(); let tmp6 = data.readDoubleArray(); let tmp7 = data.readBooleanArray(); let tmp8 = data.readCharArray(); let tmp9 = data.readStringArray(); let s = [new MySequenceable(null, null), new MySequenceable(null, null), new MySequenceable(null, null)]; let tmp10 = data.readParcelableArray(s); let result1 = reply.writeByteArray(tmp1); let result2 = reply.writeShortArray(tmp2); let result3 = reply.writeIntArray(tmp3); let result4 = reply.writeLongArray(tmp4); let result5 = reply.writeFloatArray(tmp5); let result6 = reply.writeDoubleArray(tmp6); let result7 = reply.writeBooleanArray(tmp7); let result8 = reply.writeCharArray(tmp8); let result9 = reply.writeStringArray(tmp9); let result10 = reply.writeParcelableArray(s); return true } case 22: { console.info("case 22 start"); let callingPid = rpc.IPCSkeleton.getCallingPid(); let callingUid = rpc.IPCSkeleton.getCallingUid(); reply.writeNoException(); reply.writeInt(callingPid); reply.writeInt(callingUid); reply.writeInt(this.getCallingPid()); reply.writeInt(this.getCallingUid()); let id = rpc.IPCSkeleton.resetCallingIdentity(); rpc.IPCSkeleton.setCallingIdentity(id); reply.writeInt(rpc.IPCSkeleton.getCallingPid()); reply.writeInt(rpc.IPCSkeleton.getCallingUid()); reply.writeInt(rpc.IPCSkeleton.flushCommands(this)); return true; } case 23: { console.info("case 23 start"); let s = new MySequenceable(null, null); var tmp1 = data.readParcelable(s); var result = reply.writeParcelable(s); return true; } case 24: { console.info("case 24 start"); var tmp1 = data.readShort(); var tmp2 = data.readShort(); var tmp3 = data.readShort(); var tmp4 = data.readShort(); var tmp5 = data.readShort(); var result1 = reply.writeShort(tmp1); var result2 = reply.writeShort(tmp2); var result3 = reply.writeShort(tmp3); var result4 = reply.writeShort(tmp4); var result5 = reply.writeShort(tmp5); return true } case 25: { console.info("case 25 start"); var tmp1 = data.readByte(); var tmp2 = data.readByte(); var tmp3 = data.readByte(); var tmp4 = data.readByte(); var tmp5 = data.readByte(); var result1 = reply.writeByte(tmp1); var result2 = reply.writeByte(tmp2); var result3 = reply.writeByte(tmp3); var result4 = reply.writeByte(tmp4); var result5 = reply.writeByte(tmp5); return true } case 26: { console.info("case 26 start"); var tmp1 = data.readInt(); var tmp2 = data.readInt(); var tmp3 = data.readInt(); var tmp4 = data.readInt(); var tmp5 = data.readInt(); var result1 = reply.writeInt(tmp1); var result2 = reply.writeInt(tmp2); var result3 = reply.writeInt(tmp3); var result4 = reply.writeInt(tmp4); var result5 = reply.writeInt(tmp5); return true } case 28: { console.info("case 28 start"); let callingPid = rpc.IPCSkeleton.getCallingPid(); let callingUid = rpc.IPCSkeleton.getCallingUid(); let callingDeviceID = rpc.IPCSkeleton.getCallingDeviceID(); let localDeviceID = rpc.IPCSkeleton.getLocalDeviceID(); let isLocalCalling = rpc.IPCSkeleton.isLocalCalling(); reply.writeNoException(); reply.writeInt(callingPid); reply.writeInt(callingUid); reply.writeString(callingDeviceID); reply.writeString(localDeviceID); reply.writeBoolean(isLocalCalling); reply.writeInt(this.getCallingPid()); reply.writeInt(this.getCallingUid()); let id = rpc.IPCSkeleton.resetCallingIdentity(); rpc.IPCSkeleton.setCallingIdentity(id); reply.writeInt(rpc.IPCSkeleton.getCallingPid()); reply.writeInt(rpc.IPCSkeleton.getCallingUid()); reply.writeInt(rpc.IPCSkeleton.flushCommands(this)); return true; } case 29: { console.info("case 29 starts"); let bytesWr = data.readInt(); let fd = data.readFileDescriptor(); reply.writeFileDescriptor(fd); fileio.writeSync(fd, "HELLO RPC", {position: bytesWr + 1}); reply.writeFileDescriptor(fd); rpc.MessageSequence.closeFileDescriptor(fd) return true } case 30: { console.info("case 30 start"); let listeners = data.readRemoteObjectArray(); let num = data.readInt(); let str = data.readString(); for (let i = 0; i < listeners.length; i++) { let option2 = new rpc.MessageOption(); let data2 = rpc.MessageParcel.create(); let reply2 = rpc.MessageParcel.create(); data2.writeInt(num); data2.writeString(str); listeners[i].sendRequest(1, data2, reply2, option2) .then(function(result) { console.info("30 send request done, error code: " + result.errCode + ", index: " + i); }) .catch(function(e) { console.error("30 send request got exception: " + e); }) .finally(() => { data2.reclaim(); reply2.reclaim(); console.info("case 30 test done"); }) } reply.writeNoException(); return true } case 31: { console.info("case 31 start"); let listeners = data.readRemoteObjectArray(); let num = data.readInt(); let str = data.readString(); console.info("31 num: " + num); console.info("31 str: " + str); for (let i = 0; i < listeners.length; i++) { let option2 = new rpc.MessageOption(); let data2 = rpc.MessageParcel.create(); let reply2 = rpc.MessageParcel.create(); data2.writeInt(num); data2.writeString(str); listeners[i].sendRequest(1, data2, reply2, option2) .then(function(result) { console.info("31 send request done, error code: " + result.errCode + ", index: " + i); }) .catch(function(e) { console.error("31 send request got exception: " + e); }) .finally(() => { data2.reclaim(); reply2.reclaim(); console.info("case 31 test done"); }) } reply.writeNoException(); return true; } case 32: { console.info("case 32 start"); let tmp1 = data.readString(); let result = reply.writeString("onRemoteMessageRequest invoking"); return true; } case 34: { console.info("case 34 start"); let tmp = data.readInterfaceToken(); let result = reply.writeInterfaceToken(tmp); return true } case 35: { console.info("case 35 start"); let tmp1 = data.readShortArray(); let result = reply.writeShortArray(tmp1); return true } case 36: { console.info("case 36 start"); let tmp1 = data.readLongArray(); let result = reply.writeLongArray(tmp1); return true } case 37: { console.info("case 37 start"); let tmp1 = data.readDoubleArray(); let result = reply.writeDoubleArray(tmp1); return true } case 38: { console.info("case 38 start"); let tmp1 = data.readBooleanArray(); let result = reply.writeBooleanArray(tmp1); return true } case 39: { console.info("case 39 start"); let tmp1 = data.readCharArray(); let result = reply.writeCharArray(tmp1); return true } case 40: { console.info("case 40 start"); let tmp1 = data.readStringArray(); let result = reply.writeStringArray(tmp1); return true } default: this.onRemoteRequest(code, data, reply, option); } } catch (error) { console.info("onRemoteMessageRequest: " + error); } return false } } class TestAbilityStub extends rpc.RemoteObject { constructor(descriptor) { super(descriptor); } onRemoteRequest(code, data, reply, option) { console.info("TestAbilityStub: onRemoteRequest called, code: " + code); let descriptor = data.readInterfaceToken(); if (descriptor !== "TestAbilityStub") { console.error("received unknown descriptor: " + descriptor); return false } switch (code) { case 1: { let tmp1 = data.readByte(); let tmp2 = data.readShort(); let tmp3 = data.readInt(); let tmp4 = data.readLong(); let tmp5 = data.readFloat(); let tmp6 = data.readDouble(); let tmp7 = data.readBoolean(); let tmp8 = data.readChar(); let tmp9 = data.readString(); let s = new MySequenceable(null, null); data.readSequenceable(s); reply.writeNoException(); reply.writeByte(tmp1); reply.writeShort(tmp2); reply.writeInt(tmp3); reply.writeLong(tmp4); reply.writeFloat(tmp5); reply.writeDouble(tmp6); reply.writeBoolean(tmp7); reply.writeChar(tmp8); reply.writeString(tmp9); reply.writeSequenceable(s); return true } default: { console.error("default case, code: " + code); return false } } } } class TestAbilityMessageStub extends rpc.RemoteObject { constructor(descriptor) { super(descriptor); } onRemoteMessageRequest(code, data, reply, option) { console.info("TestAbilityMessageStub: onRemoteMessageRequest called, code: " + code); let descriptor = data.readInterfaceToken(); if (descriptor !== "TestAbilityMessageStub") { console.error("received unknown descriptor: " + descriptor); return false } switch (code) { case 1: { let tmp1 = data.readByte(); let tmp2 = data.readShort(); let tmp3 = data.readInt(); let tmp4 = data.readLong(); let tmp5 = data.readFloat(); let tmp6 = data.readDouble(); let tmp7 = data.readBoolean(); let tmp8 = data.readChar(); let tmp9 = data.readString(); let s = new MySequenceable(null, null); data.readParcelable(s); reply.writeNoException(); reply.writeByte(tmp1); reply.writeShort(tmp2); reply.writeInt(tmp3); reply.writeLong(tmp4); reply.writeFloat(tmp5); reply.writeDouble(tmp6); reply.writeBoolean(tmp7); reply.writeChar(tmp8); reply.writeString(tmp9); reply.writeParcelable(s); return true } default: { console.error("default case, code: " + code); return false } } } } class TestListener extends rpc.RemoteObject { constructor(descriptor, checkResult) { super(descriptor); this.checkResult = checkResult; } onRemoteRequest(code, data, reply, option) { let result = false; if (code == 1) { console.info("onRemoteRequest called, descriptor: " + this.getInterfaceDescriptor()); result = true; } else { console.info("unknown code: " + code); } let _checkResult = this.checkResult let _num = data.readInt(); let _str = data.readString(); setTimeout(function(){ _checkResult(_num, _str) }, 2*1000); return result } } class MySequenceable { constructor(num, string) { this.num = num; this.str = string; } marshalling(messageParcel) { messageParcel.writeInt(this.num); messageParcel.writeString(this.str); return true; } unmarshalling(messageParcel) { this.num = messageParcel.readInt(); this.str = messageParcel.readString(); return true; } } function assertArrayElementEqual(actual, expected) { expect(actual.length).assertEqual(expected.length); for (let i = 0; i < actual.length; i++) { expect(actual[i]).assertEqual(expected[i]); } } /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_00100 * @tc.name Call the writeinterfacetoken interface, write the interface descriptor, and read interfacetoken * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_00100", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_00100---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var token = "hello ruan zong xian"; data.writeInterfaceToken(token); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_INTERFACETOKEN, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readInterfaceToken()).assertEqual(token); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_00100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_00200 * @tc.name The writeInterfaceToken interface is looping, the interface descriptor is written, and the InterfaceToken is read * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_00200", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_00200---------------------------"); try{ for (let i = 0; i < 5;i++){ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); let token = "hello ruan zong xian"; data.writeInterfaceToken(token); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_INTERFACETOKEN, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readInterfaceToken()).assertEqual(token); }); data.reclaim(); reply.reclaim(); } } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_00200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_00300 * @tc.name Call the WriteInterfaceToken interface, write the maximum length interface descriptor, and read the InterfaceToken * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_00300", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_00300---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var token = ""; for(let i = 0; i < (40*K - 1); i++){ token += 'a'; } data.writeInterfaceToken(token); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_INTERFACETOKEN, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readInterfaceToken()).assertEqual(token); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_00300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_00400 * @tc.name The WriteInterfaceToken interface is called, the exceeding-length interface descriptor is written, and the InterfaceToken is read * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_00400", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_00400---------------------------"); try{ var data = rpc.MessageSequence.create(); var token = ""; for(let i = 0; i < 40*K; i++){ token += 'a'; } data.writeInterfaceToken(token); } catch (error) { let errCode = `${rpc.ErrorCode.WRITE_DATA_TO_MESSAGE_SEQUENCE_ERROR}`; expect(error.code != errCode).assertTrue(); expect(error.message != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_00400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_00500 * @tc.name Call the writeinterfacetoken interface to write a non string interface descriptor and read interfacetoken * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_00500", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_00500---------------------------"); try{ var data = rpc.MessageSequence.create(); var token = 123; data.writeInterfaceToken(token); } catch (error) { let errCode = `${rpc.ErrorCode.WRITE_DATA_TO_MESSAGE_SEQUENCE_ERROR}`; expect(error.code != errCode).assertTrue(); expect(error.message != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_00500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_00600 * @tc.name Call the writeshortarray interface, write the array to the MessageSequence instance, * and call readshortarray to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_00600", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_00600---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var wShortArryData = [-1, 0, 1]; data.writeShortArray(wShortArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_SHORTARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); assertArrayElementEqual(result.reply.readShortArray(),wShortArryData); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_00600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_00700 * @tc.name Call the writeshortarray interface, write the short integer array to the MessageSequence instance, * and call readshortarray (datain: number []) to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_00700", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_00700---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var wShortArryData = []; for(let i=0;i<(50*1024 - 1);i++){ wShortArryData[i] = 1; } data.writeShortArray(wShortArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_SHORTARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); var rShortArryData =[]; result.reply.readShortArray(rShortArryData); assertArrayElementEqual(rShortArryData,wShortArryData); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_00700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_00800 * @tc.name Writeshortarray interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_00800", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_00800---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var wShortArryData = [-32768, 0, 1, 2, 32767]; data.writeShortArray(wShortArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_SHORTARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); assertArrayElementEqual(result.reply.readShortArray(),wShortArryData); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_00800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_00900 * @tc.name Writeshortarray interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_00900", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_00900---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var eShortArryData = [-32769, 32768]; data.writeShortArray(eShortArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_SHORTARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); var erShortArryData = [32767, -32768]; assertArrayElementEqual(result.reply.readShortArray(),erShortArryData); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_00900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_01000 * @tc.name Writeshortarray interface, transmission length verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_01000", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_01000---------------------------"); try{ var data = rpc.MessageSequence.create(); var eShortArryData = []; for(let i=0;i<50*K;i++){ eShortArryData[i] = 1; }; data.writeShortArray(eShortArryData); } catch (error) { let errCode = `${rpc.ErrorCode.WRITE_DATA_TO_MESSAGE_SEQUENCE_ERROR}`; expect(error.code != errCode).assertTrue(); expect(error.message != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_01000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_01100 * @tc.name Call the writelongarray interface, write the long integer array to the MessageSequence instance, * and call readlongarray to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_01100", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_01100---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var wLongArryData = [3276826, 123456, 9999999]; data.writeLongArray(wLongArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_LONGARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); assertArrayElementEqual(result.reply.readLongArray(),wLongArryData); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_01100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_01200 * @tc.name Call the writelongarray interface, write the long integer array to the MessageSequence instance, * and call readlongarray (datain: number []) to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_01200", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_01200---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var wLongArryData = []; for(let i=0;i<(25*K - 1);i++){ wLongArryData[i] = 11; }; data.writeLongArray(wLongArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_LONGARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); var rLongArryData = []; result.reply.readLongArray(rLongArryData); assertArrayElementEqual(rLongArryData,wLongArryData); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_01200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_01300 * @tc.name Writelongarray interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_01300", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_01300---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var wLongArryData = [-9007199254740992, 0, 1, 2, 9007199254740991]; data.writeLongArray(wLongArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_LONGARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); var rLongArryData = []; result.reply.readLongArray(rLongArryData); assertArrayElementEqual(rLongArryData,wLongArryData); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_01300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_01400 * @tc.name Writelongarray interface, long type precision verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_01400", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_01400---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var wLongArryData = [-9999999999999999, 9999999999999999]; data.writeLongArray(wLongArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_LONGARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); var rLongArryData = result.reply.readLongArray(); let newlongdata = [-10000000000000000,10000000000000000]; expect(rLongArryData[0]).assertEqual(newlongdata[0]); expect(rLongArryData[1]).assertEqual(newlongdata[1]); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_01400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_01500 * @tc.name Writelongarray Indicates an interface for verifying the input length * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_01500", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_01500---------------------------"); try{ var data = rpc.MessageSequence.create(); var wLongArryData = []; for(let i=0;i<25*K;i++){ wLongArryData[i] = 11; }; data.writeLongArray(wLongArryData); } catch (error) { let errCode = `${rpc.ErrorCode.WRITE_DATA_TO_MESSAGE_SEQUENCE_ERROR}`; expect(error.code != errCode).assertTrue(); expect(error.message != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_01500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_01600 * @tc.name Call the writedoublearray interface, write the array to the MessageSequence instance, * and call readdoublearra to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_01600", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_01600---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var wDoubleArryData = [1.2, 235.67, 99.76]; data.writeDoubleArray(wDoubleArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_DOUBLEARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); assertArrayElementEqual(result.reply.readDoubleArray(), wDoubleArryData); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_01600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_01700 * @tc.name Call the writedoublearray interface, write the array to the MessageSequence instance, * and call readdoublearra (datain: number []) to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_01700", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_01700---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var wDoubleArryData = []; for(let i = 0;i < (25*K - 1);i++){ wDoubleArryData[i] = 11.1; }; data.writeDoubleArray(wDoubleArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_DOUBLEARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); var rDoubleArryData = []; result.reply.readDoubleArray(rDoubleArryData); assertArrayElementEqual(rDoubleArryData, wDoubleArryData); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_01700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_01800 * @tc.name Writedoublearray interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_01800", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_01800---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var wDoubleArryData = [4.9E-324, 235.67, 1.79E+308]; data.writeDoubleArray(wDoubleArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_DOUBLEARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); assertArrayElementEqual(result.reply.readDoubleArray(), wDoubleArryData); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_01800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_01900 * @tc.name Writedoublearray interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_01900", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_01900---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var eDoubleArryData = [(4.9E-324) - 1, (1.79E+308) + 1]; data.writeDoubleArray(eDoubleArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_DOUBLEARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); var rDoubleArryData = result.reply.readDoubleArray(); expect(rDoubleArryData[0]).assertEqual(-1); expect(rDoubleArryData[1]).assertEqual(1.79e+308); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_01900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_02000 * @tc.name Writedoublearray interface, Out-of-bounds value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_02000", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_02000---------------------------"); try{ var data = rpc.MessageSequence.create(); var eDoubleArryData = []; for(let i = 0;i < 25*K;i++){ eDoubleArryData[i] = 11.1; } data.writeDoubleArray(eDoubleArryData); } catch (error) { let errCode = `${rpc.ErrorCode.WRITE_DATA_TO_MESSAGE_SEQUENCE_ERROR}`; expect(error.code != errCode).assertTrue(); expect(error.message != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_02000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_02100 * @tc.name Call the writebooleanarray interface, write the array to the MessageSequence instance, * and call readbooleanarray to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_02100", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_02100---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var wBooleanArryData = [true, false, false]; data.writeBooleanArray(wBooleanArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_BOOLEANARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); assertArrayElementEqual(result.reply.readBooleanArray(),wBooleanArryData); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_02100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_02200 * @tc.name Call the writebooleanarray interface, write the array to the MessageSequence instance, * and call readbooleanarray (datain: number []) to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_02200", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_02200---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var wBooleanArryData = []; for (let i=0;i<(50*K - 1);i++){ if (i % 2 == 0){ wBooleanArryData[i] = false; }else { wBooleanArryData[i] = true; } } data.writeBooleanArray(wBooleanArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_BOOLEANARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); var rBooleanArryData = []; result.reply.readBooleanArray(rBooleanArryData); assertArrayElementEqual(rBooleanArryData,wBooleanArryData); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_02200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_02300 * @tc.name Writebooleanarray interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_02300", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_02300---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var errorBooleanArryData = [true, 9, false]; data.writeBooleanArray(errorBooleanArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_BOOLEANARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); var eCharArrayData = [true, false, false]; assertArrayElementEqual(result.reply.readBooleanArray(),eCharArrayData); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_02300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_02400 * @tc.name Writebooleanarray Interface for length verification of input parameters * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_02400", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_02400---------------------------"); try{ var data = rpc.MessageSequence.create(); var wBooleanArryData = []; for (let i=0;i<50*K;i++){ if (i % 2 == 0){ wBooleanArryData[i] = false; }else { wBooleanArryData[i] = true; }; } data.writeBooleanArray(wBooleanArryData); } catch (error) { let errCode = `${rpc.ErrorCode.WRITE_DATA_TO_MESSAGE_SEQUENCE_ERROR}`; expect(error.code != errCode).assertTrue(); expect(error.message != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_02400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_02500 * @tc.name Call the writechararray interface, write the array to the MessageSequence instance, * and call readchararray to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_02500", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_02500---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var wCharArryData = [0,97,255]; data.writeCharArray(wCharArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_CHARARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); assertArrayElementEqual(result.reply.readCharArray(),wCharArryData); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_02500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_02600 * @tc.name Call the writechararray interface, write the array to the MessageSequence instance, * and call readchararray (datain: number []) to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_02600", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_02600---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var wCharArryData = []; for(let i=0;i<(50*K - 1);i++){ wCharArryData[i] = 96; }; data.writeCharArray(wCharArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_CHARARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); var rCharArryData = []; result.reply.readCharArray(rCharArryData); assertArrayElementEqual(rCharArryData,wCharArryData); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_02600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_02700 * @tc.name Writechararray interface, illegal value validation * @tc.desc Function test */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_02700", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_02700---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var errorCharArryData = [96, 'asfgdgdtu', 97]; data.writeCharArray(errorCharArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_CHARARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); let eCharArrayData = [96, 0, 97]; let readchardata = result.reply.readCharArray(); assertArrayElementEqual(readchardata, eCharArrayData); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_02700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_02800 * @tc.name Writechararray Indicates the length of an interface input parameter * @tc.desc Function test */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_02800", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_02800---------------------------"); try{ var data = rpc.MessageSequence.create(); var errorCharArryData = []; for(let i=0;i<50*K;i++){ errorCharArryData[i] = 96; }; data.writeCharArray(errorCharArryData); } catch (error) { let errCode = `${rpc.ErrorCode.WRITE_DATA_TO_MESSAGE_SEQUENCE_ERROR}`; expect(error.code != errCode).assertTrue(); expect(error.message != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_02800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_02900 * @tc.name Call the writestringarray interface, write the array to the MessageSequence instance, * and call readstringarray (datain: number []) to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_02900", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_02900---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var wStringArryData = ['abc', 'hello', 'beauty']; data.writeStringArray(wStringArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_STRINGARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); assertArrayElementEqual(result.reply.readStringArray(),wStringArryData); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_02900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_03000 * @tc.name Call the writestringarray interface, write the array to the MessageSequence instance, * and call readstringarray() to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_03000", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_03000---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var wStringArryData = []; for (let i = 0;i < (10*K - 1);i++){ wStringArryData[i] = "heddSDF"; }; data.writeStringArray(wStringArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_STRINGARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); var rStringArryData = []; result.reply.readStringArray(rStringArryData); assertArrayElementEqual(rStringArryData,wStringArryData); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_03000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_03100 * @tc.name Writestringarray interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_03100", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_03100---------------------------"); try{ var data = rpc.MessageSequence.create(); var errorStringArryData = ['abc' , 123, 'beauty']; data.writeStringArray(errorStringArryData); } catch (error) { let errCode = `${rpc.ErrorCode.WRITE_DATA_TO_MESSAGE_SEQUENCE_ERROR}`; expect(error.code != errCode).assertTrue(); expect(error.message != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_03100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_03200 * @tc.name writeStringArray Interface for length verification of input parameters * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_03200", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_03200---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var wStringArryData = []; for (let i = 0;i < 10 * K;i++){ wStringArryData[i] = "heddSDF"; } data.writeStringArray(wStringArryData); } catch (error) { expect(error != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_03200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_03300 * @tc.name Call the writebytearray interface, write the array to the MessageSequence instance, * and call readbytearray to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_03300", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_03300---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); let ByteArrayVar = [1, 2, 3, 4, 5]; data.writeByteArray(ByteArrayVar); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_BYTEARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); assertArrayElementEqual(result.reply.readByteArray(),ByteArrayVar); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_03300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_03400 * @tc.name Call the writebytearray interface, write the array to the MessageSequence instance, * and call readbytearray (datain: number []) to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_03400", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_03400---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); let ByteArrayVar = [-128, 0, 1, 2, 127]; data.writeByteArray(ByteArrayVar); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_BYTEARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); var newArr = new Array(5); result.reply.readByteArray(newArr); assertArrayElementEqual(ByteArrayVar,newArr); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_03400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_03500 * @tc.name Writebytearray interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_03500", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_03500---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); let ByteArrayVar = []; for (let i=0;i<(40*K - 1);i++){ ByteArrayVar[i] = 1; } data.writeByteArray(ByteArrayVar); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_BYTEARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); var newArr = new Array(5) result.reply.readByteArray(newArr); assertArrayElementEqual(newArr,ByteArrayVar); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_03500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_03600 * @tc.name Writebytearray interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_03600", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_03600---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); let ByteArrayVar = [-129, 0, 1, 2, 128]; data.writeByteArray(ByteArrayVar); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_BYTEARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); var shortArryDataReply = result.reply.readByteArray(); expect(shortArryDataReply[0] == 127).assertTrue(); expect(shortArryDataReply[1] == ByteArrayVar[1]).assertTrue(); expect(shortArryDataReply[2] == ByteArrayVar[2]).assertTrue(); expect(shortArryDataReply[3] == ByteArrayVar[3]).assertTrue(); expect(shortArryDataReply[4] == -128).assertTrue(); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_03600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_03700 * @tc.name Writebytearray Interface,input parameter length verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_03700", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_03700---------------------------"); try{ var data = rpc.MessageSequence.create(); let ByteArrayVar = []; for (let i=0;i<40*K;i++){ ByteArrayVar[i] = 1; } data.writeByteArray(ByteArrayVar) data.reclaim(); } catch (error) { let errCode = `${rpc.ErrorCode.WRITE_DATA_TO_MESSAGE_SEQUENCE_ERROR}`; expect(error.code != errCode).assertTrue(); expect(error.message != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_03700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_03800 * @tc.name Call the writeintarray interface, write the array to the MessageSequence instance, * and call readintarray to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_03800", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_03800---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var intArryData = [100, 111, 112]; data.writeIntArray(intArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_INTARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); assertArrayElementEqual(result.reply.readIntArray(),intArryData); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_03800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_03900 * @tc.name Call the writeintarray interface, write the array to the MessageSequence instance, * and call readintarray (datain: number []) to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_03900", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_03900---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var intArryData = []; for (let i=0;i<(50*K - 1);i++){ intArryData[i] = 1; }; data.writeIntArray(intArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_INTARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); var newArr = new Array(3); result.reply.readIntArray(newArr); assertArrayElementEqual(newArr,intArryData); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_03900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_04000 * @tc.name Writeintarray interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_04000", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_04000---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var intArryData = [-2147483648, 0, 1, 2, 2147483647]; data.writeIntArray(intArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_INTARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); assertArrayElementEqual(result.reply.readIntArray(),intArryData); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_04000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_04100 * @tc.name Writeintarray interface, illegal value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_04100", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_04100---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var intArryData = [-2147483649, 0, 1, 2, 2147483648]; data.writeIntArray(intArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_INTARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); var shortArryDataReply = result.reply.readIntArray(); expect(shortArryDataReply[0] == 2147483647).assertTrue(); expect(shortArryDataReply[1] == intArryData[1]).assertTrue(); expect(shortArryDataReply[2] == intArryData[2]).assertTrue(); expect(shortArryDataReply[3] == intArryData[3]).assertTrue(); expect(shortArryDataReply[4] == -2147483648).assertTrue(); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_04100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_04200 * @tc.name Writeintarray interface, input parameter length verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_04200", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_04200---------------------------"); try{ var data = rpc.MessageSequence.create(); var intArryData = []; for (let i=0;i<50*K;i++){ intArryData[i] = 1; } data.writeIntArray(intArryData); } catch (error) { let errCode = `${rpc.ErrorCode.WRITE_DATA_TO_MESSAGE_SEQUENCE_ERROR}`; expect(error.code != errCode).assertTrue(); expect(error.message != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_04200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_04300 * @tc.name Call the writefloatarray interface, write the array to the MessageSequence instance, * and call readfloatarray to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_04300", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_04300---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var floatArryData = [1.2, 1.3, 1.4]; data.writeFloatArray(floatArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_FLOATARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); assertArrayElementEqual(result.reply.readFloatArray(),floatArryData); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_04300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_04400 * @tc.name Call the writefloatarray interface, write the array to the MessageSequence instance, * and call readfloatarray (datain: number []) to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_04400", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_04400---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var floatArryData = [1.4E-45, 1.3, 3.4028235E38]; data.writeFloatArray(floatArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_FLOATARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); var newArr = new Array(3); result.reply.readFloatArray(newArr); assertArrayElementEqual(newArr,floatArryData); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_04400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_04500 * @tc.name Writefloatarray interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_04500", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_04500---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var floatArryData = [(1.4E-45) - 1, 1.3, (3.4028235E38) + 1]; data.writeFloatArray(floatArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_FLOATARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); var newArr = result.reply.readFloatArray(); expect(newArr[0]).assertEqual(-1); expect(newArr[1]).assertEqual(1.3); expect(newArr[2]).assertEqual(3.4028235e+38); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_04500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_04600 * @tc.name Writefloatarray interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_04600", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_04600---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var floatArryData = []; for (let i = 0;i < (25*K - 1);i++){ floatArryData[i] = 1.1; }; data.writeFloatArray(floatArryData); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_FLOATARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); assertArrayElementEqual(result.reply.readFloatArray(),floatArryData); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_04600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_04700 * @tc.name Writefloatarray interface, Longest array verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_04700", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_04700---------------------------"); try{ var data = rpc.MessageSequence.create(); var floatArryData = []; for (let i = 0;i < (25*K);i++){ floatArryData[i] = 1.1; }; data.writeFloatArray(floatArryData); } catch (error) { let errCode = `${rpc.ErrorCode.WRITE_DATA_TO_MESSAGE_SEQUENCE_ERROR}`; expect(error.code != errCode).assertTrue(); expect(error.message != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_04700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_04800 * @tc.name Call the writeShort interface to write the short integer data to the MessageSequence instance, * and call readshort to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_04800", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_04800---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var short = 8; data.writeShort(short); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_SHORT, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); assertArrayElementEqual(result.reply.readShort(),short); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_04800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_04900 * @tc.name WriteShort interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_04900", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_04900---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); data.writeShort(-32768); data.writeShort(0); data.writeShort(1); data.writeShort(2); data.writeShort(32767); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_SHORT_MULTI, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readShort() == -32768).assertTrue(); expect(result.reply.readShort() == 0).assertTrue(); expect(result.reply.readShort() == 1).assertTrue(); expect(result.reply.readShort() == 2).assertTrue(); expect(result.reply.readShort() == 32767).assertTrue(); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_04900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_05000 * @tc.name WriteShort interface, Boundary value minimum value out of bounds verification * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_05000", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_05000---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); data.writeShort(-32769); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_SHORT_MULTI, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readShort() == 32767).assertTrue(); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_05000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_05100 * @tc.name WriteShort interface, Boundary value maximum value out of bounds verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_05100", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_05100---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); data.writeShort(32768); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_SHORT_MULTI, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readShort() == -32768).assertTrue(); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_05100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_05200 * @tc.name Call writelong interface to write long integer data to MessageSequence instance * and call readlong to read data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_05200", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_05200---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var long = 9007199254740991; data.writeLong(long); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_LONG, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readLong()).assertEqual(long); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_05200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_05300 * @tc.name Writelong interface, Verification of maximum accuracy value * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_05300", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_05300---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var long = -9007199254740992; data.writeLong(long); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_LONG, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readLong() == long).assertTrue(); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_05300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_05400 * @tc.name Writelong interface, Minimum loss accuracy verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_05400", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_05400---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var long = -9223372036854775300; data.writeLong(long); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_LONG, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readLong()).assertEqual(-9223372036854776000); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_05400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_05500 * @tc.name Writelong interface, Maximum loss accuracy verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_05500", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_05500---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var short = 9223372036854775300; data.writeLong(short); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_LONG, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); let readlong = result.reply.readLong(); expect(readlong != 0).assertTrue(); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_05500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_05600 * @tc.name Call the parallel interface to read and write data to the double instance * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_05600", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_05600---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var token = 4.9E-324; data.writeDouble(token); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_DOUBLE, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readDouble()).assertEqual(token); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_05600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_05700 * @tc.name Writedouble interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_05700", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_05700---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var token = 1.79E+308; data.writeDouble(token); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_DOUBLE, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readDouble()).assertEqual(token); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_05700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_05800 * @tc.name Writedouble interface, Minimum boundary value out of bounds verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_05800", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_05800---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var token = (4.9E-324) - 1; data.writeDouble(token); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_DOUBLE, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readDouble()).assertEqual(-1); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_05800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_05900 * @tc.name Writedouble interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_05900", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_05900---------------------------"); try{ var data = rpc.MessageSequence.create(); var token = "1.79E+465312156"; data.writeDouble(token); data.reclaim(); } catch (error) { let errCode = `${rpc.ErrorCode.WRITE_DATA_TO_MESSAGE_SEQUENCE_ERROR}`; expect(error.code != errCode).assertTrue(); expect(error.message != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_05900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_06000 * @tc.name Call the writeboolean interface to write the data to the MessageSequence instance, * and call readboolean to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_06000", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_06000---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var token = true; data.writeBoolean(token); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_BOOLEAN, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readBoolean()).assertEqual(token); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_06000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_06100 * @tc.name Call the writeboolean interface to write the data to the MessageSequence instance, * and call readboolean to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_06100", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_06100---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var token = false; data.writeBoolean(token); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_BOOLEAN, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readBoolean()).assertEqual(token); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_06100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_06200 * @tc.name Writeboolean interface, illegal value number type verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_06200", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_06200---------------------------"); try{ var data = rpc.MessageSequence.create(); data.writeBoolean(9); } catch (error) { let errCode = `${rpc.ErrorCode.WRITE_DATA_TO_MESSAGE_SEQUENCE_ERROR}`; expect(error.code != errCode).assertTrue(); expect(error.message != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_06200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_06300 * @tc.name Writeboolean interface, illegal value string type verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_06300", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_06300---------------------------"); try{ var data = rpc.MessageSequence.create(); var token = "true"; data.writeBoolean(token); } catch (error) { let errCode = `${rpc.ErrorCode.WRITE_DATA_TO_MESSAGE_SEQUENCE_ERROR}`; expect(error.code != errCode).assertTrue(); expect(error.message != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_06300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_06400 * @tc.name Call the writechar interface to write the minimum data to the MessageSequence instance, * and call readchar to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_06400", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_06400---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var token = 0; data.writeChar(token); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_CHAR, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readChar()).assertEqual(token); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_06400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_06500 * @tc.name Call the writechar interface to write the maximum data to the MessageSequence instance, * and call readchar to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_06500", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_06500---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var token = 255; data.writeChar(token); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_CHAR, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readChar()).assertEqual(token); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_06500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_06600 * @tc.name Call the writechar interface to write the minimum out of range data to the MessageSequence instance, * and call readchar to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_06600", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_06600---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var token = -1; data.writeChar(token); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_CHAR, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readChar()).assertEqual(255); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_06600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_06700 * @tc.name Call the writechar interface to write the maximum out of range data to the MessageSequence instance, * and call readchar to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_06700", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_06700---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var token = 256; data.writeChar(token); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_CHAR, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readChar()).assertEqual(0); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_06700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_06800 * @tc.name Writechar interface, illegal value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_06800", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_06800---------------------------"); try{ var data = rpc.MessageSequence.create(); var token = 'ades'; data.writeChar(token); } catch (error) { let errCode = `${rpc.ErrorCode.WRITE_DATA_TO_MESSAGE_SEQUENCE_ERROR}`; expect(error.code != errCode).assertTrue(); expect(error.message != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_06800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_06900 * @tc.name Call the writestring interface to write the data to the MessageSequence instance, * and call readstring() to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_06900", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_06900---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var token = ''; for(var i = 0; i < (40*K - 1); i++){ token += 'a'; } data.writeString(token); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_STRING, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readString()).assertEqual(token); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_06900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_07000 * @tc.name Writestring interface Maximum data out of range verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_07000", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_07000---------------------------"); try{ var data = rpc.MessageSequence.create(); var token = ''; for(var i = 0; i < 40*K; i++){ token += 'a'; } data.writeString(token); } catch (error) { let errCode = `${rpc.ErrorCode.WRITE_DATA_TO_MESSAGE_SEQUENCE_ERROR}`; expect(error.code != errCode).assertTrue(); expect(error.message != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_07000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_07100 * @tc.name Writestring interface, illegal value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_07100", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_07100---------------------------"); try{ var data = rpc.MessageSequence.create(); var token = 123; data.writeString(token); } catch (error) { let errCode = `${rpc.ErrorCode.WRITE_DATA_TO_MESSAGE_SEQUENCE_ERROR}`; expect(error.code != errCode).assertTrue(); expect(error.message != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_07100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_07200 * @tc.name Call the writebyte interface to write data to the MessageSequence instance, * and call readbyte to read data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_07200", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_07200---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var token = 2; data.writeByte(token); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_BYTE, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readByte()).assertEqual(token); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_07200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_07300 * @tc.name Writebyte interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_07300", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_07300---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); data.writeByte(128); data.writeByte(0); data.writeByte(1); data.writeByte(2); data.writeByte(127); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_BYTE_MULTI, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(reply.readByte()).assertEqual(-128); expect(reply.readByte()).assertEqual(0); expect(reply.readByte()).assertEqual(1); expect(reply.readByte()).assertEqual(2); expect(reply.readByte()).assertEqual(127); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim() reply.reclaim() done() console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_07300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_07400 * @tc.name Writebyte interface, Maximum boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_07400", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_07400---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); data.writeByte(-129); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_BYTE, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readByte()).assertEqual(127); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_07400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_07500 * @tc.name Writebyte interface, Minimum boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_07500", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_07500---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); data.writeByte(128); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_BYTE, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readByte()).assertEqual(-128); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_07500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_07600 * @tc.name Writebyte interface, illegal value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_07600", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_07600---------------------------"); try{ var data = rpc.MessageSequence.create(); data.writeByte("error"); } catch (error) { let errCode = `${rpc.ErrorCode.WRITE_DATA_TO_MESSAGE_SEQUENCE_ERROR}`; expect(error.code != errCode).assertTrue(); expect(error.message != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_07600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_07700 * @tc.name Call the writeint interface to write the data to the MessageSequence instance, * and call readint to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_07700", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_07700---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var token = 2; data.writeInt(token); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_INT, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readInt()).assertEqual(token); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_07700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_07800 * @tc.name Writeint interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_07800", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_07800---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); data.writeInt(-2147483648); data.writeInt(0); data.writeInt(1); data.writeInt(2); data.writeInt(2147483647); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_INT_MULTI, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readInt()).assertEqual(-2147483648); expect(result.reply.readInt()).assertEqual(0); expect(result.reply.readInt()).assertEqual(1); expect(result.reply.readInt()).assertEqual(2); expect(result.reply.readInt()).assertEqual(2147483647); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_07800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_07900 * @tc.name Writeint interface, Verification of minimum boundary overrun value * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_07900", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_07900---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); data.writeInt(-2147483649); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_INT_MULTI, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readInt()).assertEqual(2147483647); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_07900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_08000 * @tc.name Writeint interface, Verification of maximum boundary overrun value * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_08000", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_08000---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); data.writeInt(2147483648); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_INT_MULTI, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readInt()).assertEqual(-2147483648); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_08000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_08100 * @tc.name Writeint interface, illegal value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_08100", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_08100---------------------------"); try{ var data = rpc.MessageSequence.create(); data.writeInt("error"); } catch (error) { let errCode = `${rpc.ErrorCode.WRITE_DATA_TO_MESSAGE_SEQUENCE_ERROR}`; expect(error.code != errCode).assertTrue(); expect(error.message != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_08100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_08200 * @tc.name Call the writefloat interface to write data to the MessageSequence instance, * and call readfloat to read data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_08200", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_08200---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var token = 2.2; data.writeFloat(token); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_FLOAT, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readFloat()).assertEqual(token); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_08200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_08300 * @tc.name Writefloat interface, Minimum boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_08300", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_08300---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var token = 1.4E-45; data.writeFloat(token); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_FLOAT, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readFloat()).assertEqual(token); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_08300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_08400 * @tc.name Writefloat interface, Maximum boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_08400", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_08400---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var token = 3.4028235E38; data.writeFloat(token); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_FLOAT, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readFloat()).assertEqual(token); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_08400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_08500 * @tc.name Writefloat interface, Verification of maximum boundary overrun value * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_08500", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_08500---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var token = (3.4028235E38) + 1; data.writeFloat(token); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_FLOAT, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readFloat()).assertEqual(3.4028235e+38); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_08500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_08600 * @tc.name Writefloat interface, Verification of minimum boundary overrun value * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_08600", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_08600---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var token = (1.4E-45) - 1; data.writeFloat(token); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_FLOAT, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readFloat()).assertEqual(-1); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_08600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_08700 * @tc.name Writefloat interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_08700", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_08700---------------------------"); try{ var data = rpc.MessageSequence.create(); var token = 'a'; data.writeFloat(token); } catch (error) { let errCode = `${rpc.ErrorCode.WRITE_DATA_TO_MESSAGE_SEQUENCE_ERROR}`; expect(error.code != errCode).assertTrue(); expect(error.message != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_08700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_08800 * @tc.name Call the getRawDataCapacity interface to get the maximum amount of raw data that a MessageSequence can hold * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_08800", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_08800---------------------------"); try{ let parcel = new rpc.MessageSequence(); let reply = new rpc.MessageSequence(); let option = new rpc.MessageOption(); expect(parcel.getRawDataCapacity()).assertEqual(128*M); parcel.writeIntArray([1, 2, 3, 4, 5]); expect(parcel.getRawDataCapacity()).assertEqual(128*M); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_INTARRAY, parcel, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.getRawDataCapacity()).assertEqual(128*M); assertArrayElementEqual(result.reply.readIntArray(),[1, 2, 3, 4, 5]); expect(result.reply.getRawDataCapacity()).assertEqual(128*M); }); parcel.reclaim(); reply.reclaim(); } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_08800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_08900 * @tc.name Test MessageSequence to deliver rawdata data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_08900", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_08900---------------------------"); try{ let parcel = new rpc.MessageSequence(); let reply = new rpc.MessageSequence(); let option = new rpc.MessageOption(); let arr = [1, 2, 3, 4, 5]; parcel.writeInt(arr.length); parcel.writeRawData(arr, arr.length); expect(parcel.getRawDataCapacity()).assertEqual(128*M); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_RAWDATA, parcel, reply, option).then((result) => { expect(result.errCode).assertEqual(0); let size = result.reply.readInt(); expect(size).assertEqual(arr.length); expect(result.reply.getRawDataCapacity()).assertEqual(128*M); assertArrayElementEqual(result.reply.readRawData(size),arr); }); parcel.reclaim(); reply.reclaim(); } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_08900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_09000 * @tc.name Test MessageSequence to pass abnormal rawdata data, and expand the capacity for verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_09000", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_09000---------------------------"); try{ let parcel = new rpc.MessageSequence(); let reply = new rpc.MessageSequence(); let option = new rpc.MessageOption(); let arr = [1, 2, 3, 4, 5]; parcel.writeInt(arr.length + 1); parcel.writeRawData(arr, (arr.length + 1)); expect(parcel.getRawDataCapacity()).assertEqual(128*M); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_RAWDATA, parcel, reply, option).then((result) => { expect(result.errCode).assertEqual(0); let size = result.reply.readInt(); expect(size).assertEqual(arr.length + 1); expect(result.reply.getRawDataCapacity()).assertEqual(128*M); let newReadResult = result.reply.readRawData(size); expect(arr[0]).assertEqual(newReadResult[0]); expect(arr[1]).assertEqual(newReadResult[1]); expect(arr[2]).assertEqual(newReadResult[2]); expect(arr[3]).assertEqual(newReadResult[3]); expect(arr[4]).assertEqual(newReadResult[4]); }); parcel.reclaim(); reply.reclaim(); } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_09000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_09100 * @tc.name Test MessageSequence to pass exception rawdata data data interception verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_09100", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_09100---------------------------"); try{ let parcel = new rpc.MessageSequence(); let reply = new rpc.MessageSequence(); let option = new rpc.MessageOption(); let arr = [1, 2, 3, 4, 5]; parcel.writeInt(arr.length - 1); parcel.writeRawData(arr, (arr.length - 1)); expect(parcel.getRawDataCapacity()).assertEqual(128*M); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_RAWDATA, parcel, reply, option).then((result) => { expect(result.errCode).assertEqual(0); let size = result.reply.readInt(); expect(size).assertEqual(arr.length - 1); expect(result.reply.getRawDataCapacity()).assertEqual(128*M); let newReadResult = result.reply.readRawData(size); expect(arr[0]).assertEqual(newReadResult[0]); expect(arr[1]).assertEqual(newReadResult[1]); expect(arr[2]).assertEqual(newReadResult[2]); expect(arr[3]).assertEqual(newReadResult[3]); }); parcel.reclaim(); reply.reclaim(); } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_09100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_09200 * @tc.name Test MessageSequence to deliver out-of-bounds RawData data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_09200", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_09200---------------------------"); try{ let parcel = new rpc.MessageSequence(); let reply = new rpc.MessageSequence(); let option = new rpc.MessageOption(); let arr = [-129, 2, 3, 4, 128]; parcel.writeInt(arr.length); parcel.writeRawData(arr, arr.length); expect(parcel.getRawDataCapacity()).assertEqual(128*M); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_RAWDATA, parcel, reply, option).then((result) => { expect(result.errCode).assertEqual(0); let size = result.reply.readInt(); expect(size).assertEqual(arr.length); expect(result.reply.getRawDataCapacity()).assertEqual(128*M); assertArrayElementEqual(result.reply.readRawData(size),arr); }); parcel.reclaim(); reply.reclaim(); } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_09200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_09300 * @tc.name Test MessageSequence to deliver illegal RawData data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_09300", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_09300---------------------------"); try{ let parcel = new rpc.MessageSequence(); let arr = ["aaa", 1, 2, 3]; parcel.writeInt(arr.length); parcel.writeRawData(arr, arr.length); expect(parcel.getRawDataCapacity()).assertEqual(128*M); parcel.reclaim(); } catch (error) { expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_09300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_09400 * @tc.name Call the writeremoteobject interface to serialize the remote object * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_09400", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_09400---------------------------"); try{ let data = rpc.MessageSequence.create(); let testRemoteObject = new TestRemoteObject("testObject"); data.writeRemoteObject(testRemoteObject); expect( data.readRemoteObject() != null).assertTrue(); data.reclaim(); } catch (error) { expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_09400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_09500 * @tc.name Call the writeremoteobject interface to serialize the remote object and pass in the empty object * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_09500", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_09500---------------------------"); try{ var data = rpc.MessageSequence.create(); var token = new TestRemoteObject(null); data.writeRemoteObject(token); } catch (error) { expect(error != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_09500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_09600 * @tc.name Call the writeremoteobject interface to serialize the remote object and pass in the empty object * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_09600", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_09600---------------------------"); try{ var data = rpc.MessageSequence.create(); var token = {}; data.writeRemoteObject(token); } catch (error) { let errCode = `${rpc.ErrorCode.PROXY_OR_REMOTE_OBJECT_INVALID_ERROR}`; expect(error.code == errCode).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_MessageSequence_09600: errorMessage " + error.message); expect(error.message != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_09600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_09700 * @tc.name Call the writeParcelable interface to write the custom serialized * object to the MessageSequence instance * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_09700", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_09700---------------------------"); try{ var data = rpc.MessageSequence.create(); let sequenceable = new MySequenceable(1, "aaa"); data.writeParcelable(sequenceable); let ret = new MySequenceable(0, ""); data.readParcelable(ret); } catch (error) { expect(error).assertEqual(null); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_09700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_09800 * @tc.name Call the writeParcelable interface to write the custom serialized * object to the MessageSequence instance, Migration to read * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_09800", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_09800---------------------------"); try{ var data = rpc.MessageSequence.create(); let sequenceable = new MySequenceable(1, "aaa"); data.writeParcelable(sequenceable); let ret = new MySequenceable(1, ""); data.readParcelable(ret); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_09800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_09900 * @tc.name After the server finishes processing, write noexception first before writing the result, * and the client calls readexception to judge whether the server is abnormal * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_09900", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_09900---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); data.writeNoException(); data.writeInt(6); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_NOEXCEPTION, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); result.reply.readException(); expect(result.reply.readInt()).assertEqual(6); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_09900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_10000 * @tc.name If the data on the server is abnormal, the client calls readexception * to judge whether the server is abnormal * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_10000", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_10000---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); data.writeNoException(); data.writeInt(1232222223444); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_NOEXCEPTION, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); result.reply.readException(); expect(result.reply.readInt() != 1232222223444).assertTrue(); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_10000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_10100 * @tc.name Serializable object marshaling and unmarshalling test * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_10100", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_10100---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var sequenceable = new MySequenceable(1, "aaa"); data.writeParcelable(sequenceable); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_SEQUENCEABLE, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); var s = new MySequenceable(null,null); result.reply.readParcelable(s); expect(s.str).assertEqual(sequenceable.str); expect(s.num).assertEqual(sequenceable.num); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_10100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_10200 * @tc.name Non serializable object marshaling test * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_10200", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_10200---------------------------"); try{ var data = rpc.MessageSequence.create(); var sequenceable = new MySequenceable(1, 1); data.writeParcelable(sequenceable); } catch (error) { let errCode = `${rpc.ErrorCode.WRITE_DATA_TO_MESSAGE_SEQUENCE_ERROR}`; expect(error.code == errCode).assertTrue(); expect(error.message != null).assertTrue(); } data.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_10200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_10300 * @tc.name The server did not send a serializable object, and the client was ungrouped * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_10300", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_10300---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var sequenceable = 10; data.writeInt(sequenceable); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_INT, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); var s = new MySequenceable(0,null); result.reply.readParcelable(s); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_10300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_10400 * @tc.name Call the writeParcelable interface to write the custom serialized object to the * MessageSequence instance, and call readParcelable to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_10400", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_10400---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var sequenceable = new MySequenceable(2, "abc"); data.writeParcelable(sequenceable); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_SEQUENCEABLE, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); var s = new MySequenceable(null,null); result.reply.readParcelable(s); expect(s.str).assertEqual(sequenceable.str); expect(s.num).assertEqual(sequenceable.num); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_10400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_10500 * @tc.name Call the writeParcelablearray interface to write the custom serialized object array (1, 2, 3) to * the MessageSequence instance, and call readParcelablearray to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_10500", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_10500---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var sequenceable = [new MySequenceable(1, "aaa"), new MySequenceable(2, "bbb"), new MySequenceable(3, "ccc")]; data.writeParcelableArray(sequenceable); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_SEQUENCEABLEARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); var s = [new MySequenceable(null, null), new MySequenceable(null, null), new MySequenceable(null, null)]; result.reply.readParcelableArray(s); for (let i = 0; i < s.length; i++) { expect(s[i].str).assertEqual(sequenceable[i].str); expect(s[i].num).assertEqual(sequenceable[i].num); } }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_10500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_10600 * @tc.name Call the writeParcelablearray interface to write the custom serialized object to the * MessageSequence instance, and call readParcelablearray to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_10600", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_10600---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var sequenceable = [new MySequenceable(4, "abc"), new MySequenceable(5, "bcd"), new MySequenceable(6, "cef")]; data.writeParcelableArray(sequenceable); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_SEQUENCEABLEARRAY, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); var s = [new MySequenceable(null, null), new MySequenceable(null, null), new MySequenceable(null, null)]; result.reply.readParcelableArray(s); for (let i = 0; i < s.length; i++) { expect(s[i].str).assertEqual(sequenceable[i].str); expect(s[i].num).assertEqual(sequenceable[i].num); }; }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_10600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_10700 * @tc.name Call the writeParcelablearray interface to write the custom * serialized object to the MessageSequence instance * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_10700", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_10700---------------------------"); try{ var data = rpc.MessageSequence.create(); var sequenceable = 1; data.writeParcelableArray(sequenceable); } catch (error) { let errCode = `${rpc.ErrorCode.CHECK_PARAM_ERROR}`; expect(error.code == errCode).assertTrue(); expect(error.message != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_10700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_10800 * @tc.name Call the writeremoteobjectarray interface to write the object array to the MessageSequence * instance, and call readremoteobjectarray to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_10800", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_10800---------------------------"); try{ let count = 0; function checkResult(num, str) { expect(num).assertEqual(123); expect(str).assertEqual("rpcListenerTest"); count++; console.info("check result done, count: " + count); if (count == 3) { done(); }; }; let data = rpc.MessageSequence.create(); let reply = rpc.MessageSequence.create(); let option = new rpc.MessageOption(); data.writeInterfaceToken("rpcTestAbility"); let listeners = [new TestListener("rpcListener", checkResult), new TestListener("rpcListener2", checkResult), new TestListener("rpcListener3", checkResult)]; data.writeRemoteObjectArray(listeners); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_REMOTEOBJECTARRAY, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageSequence_10800: sendMessageRequest is " + result.errCode); expect(result.errCode).assertEqual(0); expect(result.code).assertEqual(CODE_WRITE_REMOTEOBJECTARRAY); expect(result.data).assertEqual(data); expect(result.reply).assertEqual(reply); }); data.reclaim(); reply.reclaim(); } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_10800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_10900 * @tc.name Call the writeremoteobjectarray interface to write the object array to the MessageSequence instance, * and call readremoteobjectarray (objects: iremoteobject []) to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_10900", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_10900---------------------------"); try{ let count = 0; function checkResult(num, str) { expect(num).assertEqual(123); expect(str).assertEqual("rpcListenerTest"); count++; console.info("check result done, count: " + count); if (count == 3) { done(); } } let data = rpc.MessageSequence.create(); let reply = rpc.MessageSequence.create(); let option = new rpc.MessageOption(); data.writeInterfaceToken("rpcTestAbility"); let listeners = [new TestListener("rpcListener", checkResult), new TestListener("rpcListener2", checkResult), new TestListener("rpcListener3", checkResult)]; data.writeRemoteObjectArray(listeners); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_REMOTEOBJECTARRAY, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageSequence_10900: sendMessageRequest is " + result.errCode); expect(result.errCode == 0).assertTrue(); }); data.reclaim(); reply.reclaim(); } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_10900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_11000 * @tc.name Test MessageSequence to deliver the reply message received in promise across processes * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_11000", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_11000---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); data.writeByte(2); data.writeShort(3); data.writeInt(4); data.writeLong(5); data.writeFloat(1.2); data.writeDouble(10.2); data.writeBoolean(true); data.writeChar(97); data.writeString("HelloWorld"); data.writeParcelable(new MySequenceable(1, "aaa")); await gIRemoteObject.sendMessageRequest(CODE_ALL_TYPE, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readByte()).assertEqual(2); expect(result.reply.readShort()).assertEqual(3); expect(result.reply.readInt()).assertEqual(4); expect(result.reply.readLong()).assertEqual(5); expect(result.reply.readFloat()).assertEqual(1.2); expect(result.reply.readDouble()).assertEqual(10.2); expect(result.reply.readBoolean()).assertTrue(); expect(result.reply.readChar()).assertEqual(97) expect(result.reply.readString()).assertEqual("HelloWorld"); let s = new MySequenceable(null, null); result.reply.readParcelable(s); expect(s.num).assertEqual(1); expect(s.str).assertEqual("aaa"); }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_11000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_11100 * @tc.name Test the cross process delivery of MessageSequence and receive the reply message * in the callback function * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_11100", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_11100---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); data.writeByte(2); data.writeShort(3); data.writeInt(4); data.writeLong(5); data.writeFloat(1.2); data.writeDouble(10.2); data.writeBoolean(true); data.writeChar(97); data.writeString("HelloWorld"); data.writeParcelable(new MySequenceable(1, "aaa")); function sendMessageRequestCallback(result) { try{ console.info("sendMessageRequest Callback"); expect(result.errCode).assertEqual(0); expect(result.reply.readByte()).assertEqual(2); expect(result.reply.readShort()).assertEqual(3); expect(result.reply.readInt()).assertEqual(4); expect(result.reply.readLong()).assertEqual(5); expect(result.reply.readFloat()).assertEqual(1.2); expect(result.reply.readDouble()).assertEqual(10.2); expect(result.reply.readBoolean()).assertTrue(); expect(result.reply.readChar()).assertEqual(97); expect(result.reply.readString()).assertEqual("HelloWorld"); let s = new MySequenceable(null, null); result.reply.readParcelable(s); expect(s.num).assertEqual(1); expect(s.str).assertEqual("aaa"); } finally { result.data.reclaim(); result.reply.reclaim(); console.info("test done"); done(); } } console.info("start send request"); await gIRemoteObject.sendMessageRequest(CODE_ALL_TYPE, data, reply, option, sendMessageRequestCallback); } catch (error) { expect(error == null).assertTrue(); } console.info("--------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_11100--------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_11200 * @tc.name Test the cross process transmission of MessageSequence. * After receiving the reply message in promise, read various types of arrays in order * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_11200", 0,async function(done){ console.info("--------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_11200--------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); data.writeByteArray([1, 2, 3]); data.writeShortArray([4, 5, 6]); data.writeIntArray([7, 8, 9]); data.writeLongArray([10, 11, 12]); data.writeFloatArray([1.1, 1.2, 1.3]); data.writeDoubleArray([2.1, 2.2, 2.3]); data.writeBooleanArray([true, true, false]); data.writeCharArray([65,97,122]); data.writeStringArray(['abc', 'seggg']); let a = [new MySequenceable(1, "aaa"), new MySequenceable(2, "bbb"), new MySequenceable(3, "ccc")] data.writeParcelableArray(a); await gIRemoteObject.sendMessageRequest(CODE_ALL_ARRAY_TYPE, data, reply, option,(err, result) => { expect(result.errCode).assertEqual(0); assertArrayElementEqual(result.reply.readByteArray(), [1, 2, 3]); assertArrayElementEqual(result.reply.readShortArray(), [4, 5, 6]); assertArrayElementEqual(result.reply.readIntArray(), [7, 8, 9]); assertArrayElementEqual(result.reply.readLongArray(), [10, 11, 12]); assertArrayElementEqual(result.reply.readFloatArray(), [1.1, 1.2, 1.3]); assertArrayElementEqual(result.reply.readDoubleArray(), [2.1, 2.2, 2.3]); assertArrayElementEqual(result.reply.readBooleanArray(), [true, true, false]); assertArrayElementEqual(result.reply.readCharArray(), [65,97,122]); assertArrayElementEqual(result.reply.readStringArray(), ['abc', 'seggg']); let b = [new MySequenceable(null, null), new MySequenceable(null, null), new MySequenceable(null, null)]; result.reply.readParcelableArray(b); for (let i = 0; i < b.length; i++) { expect(b[i].str).assertEqual(a[i].str); expect(b[i].num).assertEqual(a[i].num); } }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_11200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_11300 * @tc.name Test MessageSequence cross process delivery. After receiving the reply message in promise, * the client constructs an empty array in sequence and reads the data from the reply message * into the corresponding array * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_11300", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_11300---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); data.writeByteArray([1, 2, 3]); data.writeShortArray([4, 5, 6]); data.writeIntArray([7, 8, 9]); data.writeLongArray([10, 11, 12]); data.writeFloatArray([1.1, 1.2, 1.3]); data.writeDoubleArray([2.1, 2.2, 2.3]); data.writeBooleanArray([true, true, false]); data.writeCharArray([65,97,122]); data.writeStringArray(['abc', 'seggg']); let a = [new MySequenceable(1, "aaa"), new MySequenceable(2, "bbb"), new MySequenceable(3, "ccc")] data.writeParcelableArray(a); await gIRemoteObject.sendMessageRequest(CODE_ALL_ARRAY_TYPE, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); assertArrayElementEqual(result.reply.readByteArray(), [1, 2, 3]); assertArrayElementEqual(result.reply.readShortArray(), [4, 5, 6]); assertArrayElementEqual(result.reply.readIntArray(), [7, 8, 9]); assertArrayElementEqual(result.reply.readLongArray(), [10, 11, 12]); assertArrayElementEqual(result.reply.readFloatArray(), [1.1, 1.2, 1.3]); assertArrayElementEqual(result.reply.readDoubleArray(), [2.1, 2.2, 2.3]); assertArrayElementEqual(result.reply.readBooleanArray(), [true, true, false]); assertArrayElementEqual(result.reply.readCharArray(), [65,97,122]); assertArrayElementEqual(result.reply.readStringArray(), ['abc', 'seggg']); let b = [new MySequenceable(null, null), new MySequenceable(null, null), new MySequenceable(null, null)]; result.reply.readParcelableArray(b); for (let i = 0; i < b.length; i++) { expect(b[i].str).assertEqual(a[i].str); expect(b[i].num).assertEqual(a[i].num); } }); } catch (error) { expect(error == null).assertTrue(); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_11300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_11400 * @tc.name Test MessageSequence to pass an object of type iremoteobject across processes * @tc.desc Function test * @tc.level 3 */ it('SUB_Softbus_IPC_Compatibility_MessageSequence_11400', 0, async function(done) { console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_11400---------------------------"); function checkResult(num, str) { expect(num).assertEqual(123); expect(str).assertEqual("rpcListenerTest"); done(); }; try{ let option = new rpc.MessageOption(); let data = rpc.MessageSequence.create(); let reply = rpc.MessageSequence.create(); let listener = new TestListener("rpcListener", checkResult); data.writeRemoteObject(listener); data.writeInt(123); data.writeString("rpcListenerTest"); await gIRemoteObject.sendMessageRequest(CODE_WRITE_REMOTEOBJECT, data, reply, option).then((result)=> { expect(result.errCode).assertEqual(0); result.reply.readException(); }); data.reclaim(); reply.reclaim(); done(); } catch(error) { expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_11400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_11500 * @tc.name Test MessageSequence to pass an array of iremoteobject objects across processes * @tc.desc Function test * @tc.level 3 */ it('SUB_Softbus_IPC_Compatibility_MessageSequence_11500', 0, async function(done) { console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_11500---------------------------"); let count = 0; function checkResult(num, str) { expect(num).assertEqual(123); expect(str).assertEqual("rpcListenerTest"); count++; console.info("check result done, count: " + count); if (count == 3) { done(); } } try{ let option = new rpc.MessageOption(); let data = rpc.MessageSequence.create(); let reply = rpc.MessageSequence.create(); let listeners = [new TestListener("rpcListener", checkResult), new TestListener("rpcListener2", checkResult), new TestListener("rpcListener3", checkResult)]; data.writeRemoteObjectArray(listeners); data.writeInt(123); data.writeString("rpcListenerTest"); await gIRemoteObject.sendMessageRequest(CODE_WRITE_REMOTEOBJECTARRAY_1, data, reply, option) .then((result)=> { expect(result.errCode).assertEqual(0); result.reply.readException(); }); data.reclaim(); reply.reclaim(); } catch(error) { expect(error == null).assertTrue(); } done() console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_11500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_11600 * @tc.name Test MessageSequence to pass the array of iremoteobject objects across processes. The server * constructs an empty array in onremoterequest and reads it from MessageSequence * @tc.desc Function test * @tc.level 3 */ it('SUB_Softbus_IPC_Compatibility_MessageSequence_11600', 0, async function(done) { console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_11600---------------------------"); let count = 0; function checkResult(num, str) { expect(num).assertEqual(123); expect(str).assertEqual("rpcListenerTest"); count++; console.info("check result done, count: " + count); if (count == 3) { done(); } } try{ let option = new rpc.MessageOption(); let data = rpc.MessageSequence.create(); let reply = rpc.MessageSequence.create(); let listeners = [new TestListener("rpcListener", checkResult), new TestListener("rpcListener2", checkResult), new TestListener("rpcListener3", checkResult)]; data.writeRemoteObjectArray(listeners); data.readRemoteObjectArray(); data.writeInt(123); data.writeString("rpcListenerTest"); await gIRemoteObject.sendMessageRequest(CODE_WRITE_REMOTEOBJECTARRAY_2, data, reply, option) .then((result)=> { expect(result.errCode).assertEqual(0); result.reply.readException(); }) data.reclaim(); reply.reclaim(); } catch(error) { expect(error == null).assertTrue(); } done() console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_11600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_11700 * @tc.name Invoke the rewindRead interface,Set 0-bit offset and read the data after offset * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_11700", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_11700---------------------------"); try{ let data = rpc.MessageSequence.create(); let option = new rpc.MessageOption(); let reply = rpc.MessageSequence.create(); data.writeInt(12); data.writeString("parcel"); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_INT, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readInt()).assertEqual(12); result.reply.rewindRead(0); expect(result.reply.readInt()).assertEqual(12); expect(result.reply.readString()).assertEqual(""); }); data.reclaim(); reply.reclaim(); } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_11700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_11800 * @tc.name Invoke the rewindRead interface,Set 1-bit offset and read the data after offset * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_11800", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_11700---------------------------"); try{ let data = rpc.MessageSequence.create(); let option = new rpc.MessageOption(); let reply = rpc.MessageSequence.create(); data.writeInt(12); data.writeString("parcel"); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_INT, data, reply, option).then((result) => { expect(result.errCode == 0).assertTrue(); expect(result.reply.readInt()).assertEqual(12); result.reply.rewindRead(1); expect(result.reply.readInt()).assertEqual(0); }); data.reclaim(); reply.reclaim(); } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_11800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_11900 * @tc.name Invoke the rewindWrite interface, Set 0-bit offset and write the data after offset * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_11900", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_11800---------------------------"); try{ let data = rpc.MessageSequence.create(); let option = new rpc.MessageOption(); let reply = rpc.MessageSequence.create(); data.writeInt(4); data.rewindWrite(0); data.writeInt(5); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_INT, data, reply, option).then((result) => { expect(result.errCode == 0).assertTrue(); expect(result.reply.readInt()).assertEqual(5); }); data.reclaim(); reply.reclaim(); } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_11900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_12000 * @tc.name Invoke the rewindWrite interface, Set 1-bit offset and write the data after offset * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_12000", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_12000---------------------------"); try{ let data = rpc.MessageSequence.create(); let option = new rpc.MessageOption(); let reply = rpc.MessageSequence.create(); data.writeInt(4); data.rewindWrite(1); data.writeInt(5); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_INT, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readInt() != 5).assertTrue(); }); data.reclaim(); reply.reclaim(); } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_12000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_12100 * @tc.name setCapacity Sets the storage capacity of the null MessageSequence instance. The getCapacity obtains the current MessageSequence capacity * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_12100", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_12100---------------------------"); try{ let data = rpc.MessageSequence.create(); let option = new rpc.MessageOption(); let reply = rpc.MessageSequence.create(); expect(data.getCapacity()).assertEqual(0); data.setCapacity(100); data.writeString("constant"); expect(data.getCapacity()).assertEqual(100); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_STRING, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.getCapacity()).assertEqual("constant".length * 8); expect(result.reply.readString()).assertEqual("constant"); }); data.reclaim(); reply.reclaim(); } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_12100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_12200 * @tc.name setCapacity Sets the storage capacity of the MessageSequence instance. The getCapacity obtains the current MessageSequence capacity * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_12200", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_12200---------------------------"); try{ let data = rpc.MessageSequence.create(); let option = new rpc.MessageOption(); let reply = rpc.MessageSequence.create(); data.writeString("constant"); data.setCapacity(100); expect(data.getCapacity()).assertEqual(100); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_STRING, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readString()).assertEqual("constant"); expect(result.reply.getCapacity()).assertEqual("constant".length * 8); }); data.reclaim(); reply.reclaim(); } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_12200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_12300 * @tc.name Setcapacity test: size limit verification of MessageSequence instance * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_12300", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_12300---------------------------"); try{ let data = rpc.MessageSequence.create(); expect(data.getCapacity()).assertEqual(0); data.writeString("constant"); let getSizedata = data.getSize(); data.setCapacity(getSizedata + 1); data.setCapacity(getSizedata); data.reclaim(); } catch (error) { let errCode = `${rpc.ErrorCode.PARCEL_MEMORY_ALLOC_ERROR}`; expect(error.message != null).assertTrue(); expect(error.code == errCode).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_12300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_12400 * @tc.name SetCapacity Tests the storage capacity threshold of the MessageSequence instance * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_12400", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_12400---------------------------"); try{ let data = rpc.MessageSequence.create(); let option = new rpc.MessageOption(); let reply = rpc.MessageSequence.create(); data.writeString("constant"); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_STRING, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); let getSizeresult = result.reply.getSize(); expect(result.reply.getCapacity()).assertEqual("constant".length * 8); result.reply.setCapacity(getSizeresult + 1); result.reply.setCapacity(getSizeresult); }); data.reclaim(); reply.reclaim(); } catch (error) { let errCode = `${rpc.ErrorCode.PARCEL_MEMORY_ALLOC_ERROR}`; expect(error.message != null).assertTrue(); expect(error.code == errCode).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_12400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_12500 * @tc.name Setcapacity test storage capacity boundary value verification of MessageSequence instance * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_12500", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_12500---------------------------"); try{ let data = rpc.MessageSequence.create(); expect(data.getSize()).assertEqual(0); data.setCapacity(M); expect(data.getCapacity()).assertEqual(M); data.setCapacity(2*G); data.reclaim(); } catch (error) { let errCode = `${rpc.ErrorCode.PARCEL_MEMORY_ALLOC_ERROR}`; expect(error.message != null).assertTrue(); expect(error.code == errCode).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_12500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_12600 * @tc.name setSize Sets the size of the data contained in the MessageSequence instance. The getSize command reads the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_12600", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_12600---------------------------"); try{ let data = rpc.MessageSequence.create(); let option = new rpc.MessageOption(); let reply = rpc.MessageSequence.create(); expect(data.getSize()).assertEqual(0); data.setSize(0); data.writeString("constant"); expect(data.getSize()).assertEqual(("constant".length * 2) + 8); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_STRING, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.getSize()).assertEqual(("constant".length * 2) + 8); expect(result.reply.readString()).assertEqual("constant"); }); data.reclaim(); reply.reclaim(); } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_12600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_12700 * @tc.name SetSize: Increases the value of the data contained in the MessageSequence instance by 1, Write setSize * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_12700", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_12700---------------------------"); try{ let data = rpc.MessageSequence.create(); let option = new rpc.MessageOption(); let reply = rpc.MessageSequence.create(); data.writeString("constant"); expect(data.getSize()).assertEqual(("constant".length * 2) + 8); data.setSize(0); expect(data.getSize()).assertEqual(0); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_STRING, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.getSize()).assertEqual(8); expect(result.reply.readString()).assertEqual(""); }); data.reclaim(); reply.reclaim(); } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_12700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_12800 * @tc.name Verify the MessageSequence instance SetSize setting and the instance capacitydata qualification verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_12800", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_12800---------------------------"); try{ let data = rpc.MessageSequence.create(); expect(data.getSize()).assertEqual(0); data.writeString("constant"); expect(data.getSize()).assertEqual(("constant".length * 2) + 8); let getCapacitydata = data.getCapacity(); expect(getCapacitydata).assertEqual(64); data.setSize(getCapacitydata); expect(data.getSize()).assertEqual(getCapacitydata); data.setSize(getCapacitydata + 1); data.reclaim(); } catch (error) { expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_12800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_12900 * @tc.name setSize Sets the storage capacity of the MessageSequence instance to decrease by one. The getSize obtains the current MessageSequence capacity * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_12900", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_12900---------------------------"); try{ let data = rpc.MessageSequence.create(); let option = new rpc.MessageOption(); let reply = rpc.MessageSequence.create(); data.writeString("constant"); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_STRING, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readString()).assertEqual("constant"); expect(result.reply.getSize()).assertEqual(("constant".length * 2) + 8); let getCapacityresult = result.reply.getCapacity(); result.reply.setSize(getCapacityresult); expect(result.reply.getSize()).assertEqual(getCapacityresult); result.reply.setSize(getCapacityresult + 1); }); data.reclaim(); reply.reclaim(); } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_12900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_13000 * @tc.name Validate the setSize boundary value in the MessageSequence instance * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_13000", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_13000---------------------------"); try{ let data = rpc.MessageSequence.create(); expect(data.getCapacity()).assertEqual(0); data.setSize(4*G); expect(data.getSize()).assertEqual(0); data.setSize(4*G - 1); data.reclaim(); } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_13000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_13100 * @tc.name Verify that setSize is out of bounds in a MessageSequence instance * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_13100", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_13100---------------------------"); try{ let data = rpc.MessageSequence.create(); data.setSize(0); expect(data.getSize()).assertEqual(0); data.setSize(2*4*G); expect(data.getSize()).assertEqual(0); data.setSize(2*G); data.reclaim(); } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_13100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_13200 * @tc.name Obtains the write and read positions of the MessageSequence * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_13200", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_13200---------------------------"); try{ let data = rpc.MessageSequence.create(); let option = new rpc.MessageOption(); let reply = rpc.MessageSequence.create(); expect(data.getWritePosition()).assertEqual(0); data.writeInt(10); expect(data.getWritePosition()).assertEqual(4); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_INT, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.getReadPosition()).assertEqual(0); expect(result.reply.readInt()).assertEqual(10); expect(result.reply.getReadPosition()).assertEqual(4); }); data.reclaim(); reply.reclaim(); } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_13200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_13300 * @tc.name Obtaining the Writable and Readable Byte Spaces of MessageSequence * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_13300", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_13300---------------------------"); try{ let data = rpc.MessageSequence.create(); let option = new rpc.MessageOption(); let reply = rpc.MessageSequence.create(); expect(data.getWritableBytes()).assertEqual(0); data.writeInt(10); expect(data.getWritableBytes()).assertEqual(60); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_INT, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readInt()).assertEqual(10); expect(result.reply.getReadableBytes()).assertEqual(0); }); data.reclaim(); reply.reclaim(); } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_13300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_13400 * @tc.name Obtains the writeable and readable byte space and read position of the MessageSequence * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_13400", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_13400---------------------------"); try{ let data = rpc.MessageSequence.create(); let option = new rpc.MessageOption(); let reply = rpc.MessageSequence.create(); data.writeInt(10); expect(data.getWritePosition()).assertEqual(4); expect(data.getWritableBytes()).assertEqual(60); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_INT, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.getReadableBytes()).assertEqual(4); expect(result.reply.getReadPosition()).assertEqual(0); expect(result.reply.readInt()).assertEqual(10); expect(result.reply.getReadableBytes()).assertEqual(0); expect(result.reply.getReadPosition()).assertEqual(4); }); data.reclaim(); reply.reclaim(); } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_13400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_13500 * @tc.name Get the space size of MessageSequence to pass rawdata data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_13500", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_13500---------------------------"); try{ let data = rpc.MessageSequence.create(); let option = new rpc.MessageOption(); let reply = rpc.MessageSequence.create(); data.writeInt(10); expect(data.getWritePosition()).assertEqual(4); expect(data.getWritableBytes()).assertEqual(60); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_INT, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.getReadPosition()).assertEqual(0); expect(result.reply.getReadableBytes()).assertEqual(4); expect(result.reply.readInt()).assertEqual(10); expect(result.reply.getReadPosition()).assertEqual(4); expect(result.reply.getReadableBytes()).assertEqual(0); }); data.reclaim(); reply.reclaim(); } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_13500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_13600 * @tc.name Test fixed MessageSequence space size to pass rawData data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_13600", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_13600---------------------------"); try{ let maxsize = 1024; let data = rpc.MessageSequence.create(); expect(data.getRawDataCapacity()).assertEqual(128*M); let rawdata = [1, 2, 3]; let option = new rpc.MessageOption(); let reply = rpc.MessageSequence.create(); data.writeInt(maxsize); data.writeRawData(rawdata, maxsize); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_RAWDATA, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); let size = result.reply.readInt(); expect(result.reply.readRawData(size) != rawdata).assertTrue(); }); data.reclaim(); reply.reclaim(); } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_13600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_13700 * @tc.name Test MessageSequence delivery file descriptor object * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_13700", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_13700---------------------------"); try{ let testab = new TestProxy(gIRemoteObject).asObject(); expect(testab != null).assertTrue(); } catch (error) { expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_13700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_13800 * @tc.name Test that the asObject interface is called by a RemoteObject and returns itself * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_13800", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_13800---------------------------"); try{ let testRemoteObject = new TestRemoteObject("testObject"); expect(testRemoteObject.asObject() != null).assertTrue(); } catch (error) { expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_13800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_13900 * @tc.name MessageSequence sendMessageRequest API test * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_13900", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_13900---------------------------"); try{ let data = rpc.MessageSequence.create(); let rawdata = [1, 2, 3]; let option = new rpc.MessageOption(); let reply = rpc.MessageSequence.create(); data.getRawDataCapacity(); data.writeInt(K); data.writeRawData(rawdata, K); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_WRITE_RAWDATA, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readInt()).assertEqual(K); expect(result.reply.readRawData(K) != rawdata).assertTrue(); }); data.reclaim(); reply.reclaim(); } catch (error) { expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_13900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_14000 * @tc.name Invoke the writestring interface to write data to the MessageSequence instance. sendMessageRequest asynchronously * verifies the priority processing levels of onRemoteMessageRequest and onRemoteRequest * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_14000", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_14000---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var token = "onRemoteRequest or onRemoteMessageRequest invoking"; data.writeString(token); expect(gIRemoteObject != undefined).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_ONREMOTEMESSAGE_OR_ONREMOTE, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); expect(result.reply.readString()).assertEqual("onRemoteMessageRequest invoking"); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_14000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_14100 * @tc.name writeRemoteObject is proxy or remote object is invalid Error message verification * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_14100", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_14100---------------------------"); try{ var data = rpc.MessageSequence.create(); var token = {}; data.writeRemoteObject(token); } catch (error) { let errCode = `${rpc.ErrorCode.PROXY_OR_REMOTE_OBJECT_INVALID_ERROR}`; expect(error.code == errCode).assertTrue(); expect(error.message != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_14100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_14200 * @tc.name readParcelable is Call JS callback function failedv Error message verification * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_14200", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_14200---------------------------"); try{ var data = rpc.MessageSequence.create(); let sequenceable = new MySequenceableCode(1, "aaa"); data.writeParcelable(sequenceable); data.setCapacity(0); data.setSize(0); let ret = new MySequenceable(1, ""); data.readParcelable(ret); } catch (error) { let errCode = `${rpc.ErrorCode.CALL_JS_METHOD_ERROR}`; expect(error.message != null).assertTrue(); expect(error.code != errCode).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_14200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_14300 * @tc.name Call the writeinterfacetoken interface, write the interface descriptor, and read interfacetoken * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_14300", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_14300---------------------------"); try{ var data = rpc.MessageSequence.create(); var token = "hello ruan zong xian"; data.writeInterfaceToken(token); data.setCapacity(0); data.setSize(0); data.readInterfaceToken(); data.reclaim(); } catch (error) { let errCode = `${rpc.ErrorCode.READ_DATA_FROM_MESSAGE_SEQUENCE_ERROR}`; expect(error.message != null).assertTrue(); expect(error.code != errCode).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_14300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_14400 * @tc.name writeString check param error Error message verification * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_14400", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_14400---------------------------"); try{ var data = rpc.MessageSequence.create(); var token = ''; for(var i = 0; i < 40*K; i++){ token += 'a'; }; data.writeString(token); data.reclaim(); } catch (error) { let errCode = `${rpc.ErrorCode.CHECK_PARAM_ERROR}`; expect(error.code == errCode).assertTrue(); expect(error.message != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_14400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_14500 * @tc.name writeInterfaceToken Sequence memory alloc failed Error message verification * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_14500", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_14500---------------------------"); try{ var data = rpc.MessageSequence.create(); data.setSize(0); data.setCapacity(0); var token = "hello ruan zong xian"; data.writeInterfaceToken(token); data.reclaim(); } catch (error) { let errCode = `${rpc.ErrorCode.PARCEL_MEMORY_ALLOC_ERROR}`; expect(error.code == errCode).assertTrue(); expect(error.message != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_14500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_14600 * @tc.name writeInterfaceToken Write data to message sequence failed Error message verification * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_14600", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_14600---------------------------"); try{ var data = rpc.MessageSequence.create(); data.setSize(true); data.setCapacity(true); var token = "hello ruan zong xian"; data.writeInterfaceToken(token); data.reclaim(); } catch (error) { let errCode = `${rpc.ErrorCode.WRITE_DATA_TO_MESSAGE_SEQUENCE_ERROR}`; expect(error.code != errCode).assertTrue(); expect(error.message != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_14600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_14700 * @tc.name readParcelable Sequence memory alloc failed Error message verification * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_14700", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_14700---------------------------"); try{ var data = rpc.MessageSequence.create(); let sequenceable = new MySequenceable(1, "aaa"); data.writeParcelable(sequenceable); let ret = new MySequenceable(0, ""); data.setCapacity(0); data.readParcelable(ret); } catch (error) { let errCode = `${rpc.ErrorCode.PARCEL_MEMORY_ALLOC_ERROR}`; expect(error.code == errCode).assertTrue(); expect(error.message != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_14700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageSequence_14800 * @tc.name Test messageparcel delivery file descriptor object * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageSequence_14800", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageSequence_14800---------------------------"); let context = FA.getContext(); await context.getFilesDir() .then(async function(path) { expect(path != null).assertTrue(); let basePath = path; let filePath = basePath + "/test1.txt"; let fd = fileio.openSync(filePath, 0o2| 0o100 | 0o2000, 0o666); expect(fd >= 0).assertTrue(); let str = "HELLO RPC"; let bytesWr = fileio.writeSync(fd, str); let option = new rpc.MessageOption(); let data = rpc.MessageSequence.create(); let reply = rpc.MessageSequence.create(); data.containFileDescriptors(); data.writeInt(bytesWr); data.writeFileDescriptor(fd); data.containFileDescriptors(); data.containFileDescriptors(); await gIRemoteObject.sendMessageRequest(CODE_FILESDIR, data, reply, option) .then(function(result) { expect(result.errCode).assertEqual(0); let buf = new ArrayBuffer(str.length * 2); let bytesRd = fileio.readSync(fd, buf, {position:0,}); expect(bytesRd == (bytesWr + bytesWr)).assertTrue(); let fdResult = result.reply.readFileDescriptor(); expect(fdResult >= fd).assertTrue(); let content = String.fromCharCode.apply(null, new Uint8Array(buf)); expect(content).assertEqual(str + str); let dupFd = rpc.MessageSequence.dupFileDescriptor(fd); expect(dupFd >= fd).assertTrue(); let buf2 = new ArrayBuffer(str.length * 2); let byteRd2 = fileio.readSync(dupFd, buf2, {position:0,}); expect(byteRd2 == (bytesWr + bytesWr)).assertTrue(); let content2 = String.fromCharCode.apply(null, new Uint8Array(buf2)); expect(content2).assertEqual(str + str); rpc.MessageSequence.closeFileDescriptor(fd); rpc.MessageSequence.closeFileDescriptor(dupFd); }) try { console.info("after close fd, write again"); fileio.writeSync(fd, str); expect(0).assertEqual(1); } catch(e) { console.error("got exception: " + e); } }) done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageSequence_14800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_00100 * @tc.name Call the writeinterfacetoken interface, write the interface descriptor, and read interfacetoken * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_00100", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_00100---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00100: create object successfully."); var token = "hello ruan zong xian"; var result = data.writeInterfaceToken(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00100:run writeInterfaceToken result is " + result); expect(result).assertTrue(); var resultToken = data.readInterfaceToken(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00100:run readInterfaceToken result is " + resultToken); expect(resultToken).assertEqual(token); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00100:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_00100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_00200 * @tc.name Call the writeinterfacetoken interface, write the interface descriptor, and read interfacetoken * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_00200", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_00200---------------------------"); try{ for (let i = 0; i<5; i++){ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00200: create object successfully."); var token = "hello ruan zong xian"; var result = data.writeInterfaceToken(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00200:run writeInterfaceToken result is " + result); expect(result).assertTrue(); var resultToken = data.readInterfaceToken(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00200:run readInterfaceToken result is " + resultToken); expect(resultToken).assertEqual(token); data.reclaim(); } } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00200:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_00200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_00300 * @tc.name Call the writeinterfacetoken interface to write a non string interface descriptor and read interfacetoken * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_00300", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_00300---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00300: create object successfully."); var token = ""; for(let i = 0; i < (40*K -1); i++){ token += 'a'; }; var result = data.writeInterfaceToken(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00300:run writeInterfaceToken is" + result); expect(result).assertTrue(); var resultToken = data.readInterfaceToken(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00300:run readInterfaceToken is " + resultToken.length); expect(resultToken).assertEqual(token); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00300: error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_00300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_00400 * @tc.name The WriteInterfaceToken interface is called, the exceeding-length interface descriptor is written, and the InterfaceToken is read * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_00400", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_00400---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00400: create object successfully."); var token = ""; for(let i = 0; i < 40*K; i++){ token += 'a'; }; var result = data.writeInterfaceToken(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00400:run writeInterfaceToken is " + result); expect(result).assertEqual(false); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00400: error = " + error); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_00400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_00500 * @tc.name Call the writeinterfacetoken interface to write a non string interface descriptor and read interfacetoken * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_00500", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_00500---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00500: create object successfully."); var token = 123; var result = data.writeInterfaceToken(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00500:run writeInterfaceToken is " + result); expect(result).assertEqual(false); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00500: error = " + error); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_00500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_00600 * @tc.name The data size of the messageparcel obtained by calling the getSize interface * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_00600", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_00600---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00600: create object successfully."); var size = data.getSize(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00600:run getSize is " + size); expect(size).assertEqual(0); var addData = 1; var result = data.writeInt(addData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00600:run writeInt is " + result); expect(result).assertTrue(); size = data.getSize(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00600:run getSize is " + size); expect(size).assertEqual(4); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00600: error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_00600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_00700 * @tc.name The capacity of the messageparcel obtained by calling the getcapacity interface * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_00700", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_00700---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00700: create object successfully."); var size = data.getCapacity(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00700:run getCapacity is " + size); expect(size).assertEqual(0); var addData = 1; var result = data.writeInt(addData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00700:run writeInt is " + result); expect(result).assertTrue(); size = data.getCapacity(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00700:run getCapacity is " + size); expect(size).assertEqual(64); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00700: error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_00700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_00800 * @tc.name Call the SetSize interface to set the data size of messageparcel * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_00800", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_00800---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00800: create object successfully."); var addData = 1; var result = data.writeInt(addData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00800:run writeInt is " + result); expect(result).assertTrue(); var size = 6; var setResult = data.setSize(size); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00800:run setSize " + setResult); expect(setResult).assertTrue(); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00800: error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_00800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_00900 * @tc.name Call the SetSize interface to set the data size of messageparcel * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_00900", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_00900---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00900: create object successfully."); var addData = 1; var result = data.writeInt(addData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00900:run writeInt is " + result); expect(result).assertTrue(); var size = 4*G; var setResult = data.setSize(size); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00900:run setSize " + setResult); expect(setResult).assertTrue(); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_00900: error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_00900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_01000 * @tc.name Call the SetSize interface to set the data size of messageparcel * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_01000", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_01000---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01000: create object successfully."); var addData = 1; var result = data.writeInt(addData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01000:run writeInt is " + result); expect(result).assertTrue(); var size = 4*G - 4; var setResult = data.setSize(size); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01000:run setSize " + setResult); expect(setResult).assertEqual(false); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01000: error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_01000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_01100 * @tc.name Call the SetSize interface to set the data size of messageparcel. The write data size does not match the set value * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_01100", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_01100---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01100: create object successfully."); var capacity = 64; var setResult = data.setCapacity(capacity); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01100:run setCapacity " + setResult); expect(setResult).assertTrue(); var size = 4; setResult = data.setSize(size); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01100:run setSize " + setResult); expect(setResult).assertTrue(); var addData = 2; var result = data.writeLong(addData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01100:run writeInt is " + result); expect(result).assertTrue(); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01100: error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_01100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_01200 * @tc.name Call the setcapacity interface to set the capacity of messageparcel * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_01200", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_01200---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01200: create object successfully."); var size = 64; var setResult = data.setCapacity(size); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01200:run setSize " + setResult); expect(setResult).assertTrue(); var addData = 1; var result = data.writeInt(addData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01200:run writeInt is " + result); expect(result).assertTrue(); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01200: error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_01200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_01300 * @tc.name Call the setcapacity interface to set the capacity of messageparcel * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_01300", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_01300---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01300: create object successfully."); var size = M; var setResult = data.setCapacity(size); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01300:run setSize " + setResult); expect(setResult).assertTrue(); var addData = 1; var result = data.writeInt(addData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01300:run writeInt is " + result); expect(result).assertTrue(); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01300: error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_01300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_01400 * @tc.name Call the setcapacity interface to set the capacity of messageparcel * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_01400", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_01400---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01400: create object successfully."); var size = 4*G; var setResult = data.setCapacity(size); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01400:run setSize " + setResult); expect(setResult).assertEqual(false); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01400: error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_01400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_01500 * @tc.name Call the setcapacity interface to set the capacity of messageparcel. * The write data capacity is inconsistent with the set value * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_01500", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_01500---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01500: create object successfully."); var size = 4; var setResult = data.setCapacity(size); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01500:run setSize " + setResult); expect(setResult).assertTrue(); var addData = [1, 2, 3, 4, 5, 6, 7, 8]; var result = data.writeIntArray(addData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01500:run writeInt is " + result); expect(result).assertEqual(false); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01500: error = " + error); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_01500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_01600 * @tc.name Empty object to obtain the readable byte space, read location, * writable byte space and write location information of messageparcel * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_01600", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_01600---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01600: create object successfully."); var result1 = data.getWritableBytes(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01600: run getWritableBytes is " + result1); expect(result1).assertEqual(0); var result2 = data.getReadableBytes(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01600: run getReadableBytes is " + result2); expect(result2).assertEqual(0); var result3 = data.getReadPosition(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01600: run getReadPosition is " + result2); expect(result3).assertEqual(0); var result4 = data.getWritePosition(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01600: run getWritePosition is " + result2); expect(result4).assertEqual(0); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01600: error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_01600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_01700 * @tc.name Create an object and write data to obtain the readable byte space, read location, * writable byte space and write location information of messageparcel * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_01700", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_01700---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01700: create object successfully."); var dataInt = 1; var resultInt = data.writeInt(dataInt); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01700: run writeInt is " + resultInt); var dataLong = 2; var resultLong = data.writeLong(dataLong); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01700: run writeLong is " + resultLong); var result1 = data.getWritableBytes(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01700: run getWritableBytes is " + result1); expect(result1).assertEqual(52); var result2 = data.getReadableBytes(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01700: run getReadableBytes is " + result2); expect(result2).assertEqual(12); var result3 = data.getReadPosition(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01700: run getReadPosition is " + result3); expect(result3).assertEqual(0); var result4 = data.getWritePosition(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01700: run getWritePosition is " + result4); expect(result4).assertEqual(12); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01700: error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_01700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_01800 * @tc.name Call rewindread interface to offset the read position to the specified position * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_01800", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_01800---------------------------"); try{ var data = rpc.MessageParcel.create(); expect(data.getWritableBytes()).assertEqual(0); expect(data.getReadableBytes()).assertEqual(0); expect(data.getReadPosition()).assertEqual(0); expect(data.getWritePosition()).assertEqual(0); var dataInt = 1; var resultInt = data.writeInt(dataInt); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01800: run writeInt is " + resultInt); var dataLong = 2; var resultLong = data.writeLong(dataLong); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01800: run writeLong is " + resultLong); expect(data.getWritableBytes()).assertEqual(52); expect(data.getReadableBytes()).assertEqual(12); expect(data.getReadPosition()).assertEqual(0); expect(data.getWritePosition()).assertEqual(12); var readIntData = data.readInt(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01800: run readInt is " + readIntData); expect(readIntData).assertEqual(dataInt); var writePosition = 0; var writeResult = data.rewindWrite(writePosition); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01800: run rewindWrite is " + writeResult); expect(writeResult).assertTrue(); expect(data.getWritePosition()).assertEqual(0); dataInt = 3; resultInt = data.writeInt(dataInt); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01800: run writeInt is " + resultInt); var readPosition = 0; var readResult = data.rewindRead(readPosition); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01800: run rewindWrite is " + readResult); expect(readResult).assertTrue(); readIntData = data.readInt(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01800: run readInt is " + readIntData); expect(readIntData).assertEqual(dataInt); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01800: error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_01800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_01900 * @tc.name The rewindread interface is called to re offset the read position to the specified position. The specified position is out of range * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_01900", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_01900---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01900: create object successfully."); var result1 = data.getWritableBytes(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01900: run getWritableBytes is " + result1); expect(result1 == 0).assertTrue(); var result2 = data.getReadableBytes(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01900: run getReadableBytes is " + result2); expect(result2 == 0).assertTrue(); var result3 = data.getReadPosition(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01900: run getReadPosition is " + result3); expect(result3 == 0).assertTrue(); var result4 = data.getWritePosition(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01900: run getWritePosition is " + result4); expect(result4 == 0).assertTrue(); var dataInt = 1; var resultInt = data.writeInt(dataInt); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01900: run writeInt is " + resultInt); expect(resultInt).assertTrue(); var dataLong = 2; var resultLong = data.writeLong(dataLong); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01900: run writeLong is " + resultLong); expect(resultLong).assertTrue(); result1 = data.getWritableBytes(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01900: run getWritableBytes is " + result1); expect(result1 == 52).assertTrue(); result2 = data.getReadableBytes(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01900: run getReadableBytes is " + result2); expect(result2 == 12).assertTrue(); result3 = data.getReadPosition(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01900: run getReadPosition is " + result3); expect(result3 == 0).assertTrue(); result4 = data.getWritePosition(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01900: run getWritePosition is " + result4); expect(result4 == 12).assertTrue(); var readPosition = 100; var readResult = data.rewindRead(readPosition); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01900: run rewindRead is " + readResult); expect(readResult == false).assertTrue(); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_01900: error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_01900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_02000 * @tc.name Call rewindwrite and the interface offsets the write position to the specified position * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_02000", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_02000---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02000: create object successfully."); var dataInt = 1; var resultInt = data.writeInt(dataInt); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02000: run writeInt is " + resultInt); expect(resultInt).assertTrue(); var readIntData = data.readInt(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02000: run readInt is " + readIntData); expect(readIntData).assertEqual(dataInt); var writePosition = 0; var rewindWriteResult = data.rewindWrite(writePosition); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02000: run rewindWrite is" + rewindWriteResult); expect(rewindWriteResult).assertTrue(); dataInt = 3; resultInt = data.writeInt(dataInt); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02000: run writeInt is " + resultInt); expect(resultInt).assertTrue(); var readPosition = 0; var rewindReadResult = data.rewindRead(readPosition); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02000: run rewindRead is " + rewindReadResult); expect(rewindReadResult); readIntData = data.readInt(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02000: run readInt is " + readIntData); expect(readIntData).assertEqual(dataInt); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02000: error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_02000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_02100 * @tc.name Call rewindwrite and the interface offsets the write position to the specified position. The specified position is out of range * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_02100", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_02100---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02100: create object successfully."); var dataInt = 1; var resultInt = data.writeInt(dataInt); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02100: run writeInt result is " + resultInt); expect(resultInt).assertTrue(); var readIntData = data.readInt(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02100: run readInt is" + readIntData); expect(readIntData == dataInt).assertTrue(); var writePosition = 99; var rewindWriteResult = data.rewindWrite(writePosition); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02100: run rewindWrite is " + rewindWriteResult); expect(rewindWriteResult).assertEqual(false); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02100: error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_02100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_02200 * @tc.name Call the writeshortarray interface, write the array to the messageparcel instance, * and call readshortarray to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_02200", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_02200---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02200: create object successfully."); var wShortArryData = [3, 5, 9]; var writeShortArrayResult = data.writeShortArray(wShortArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02200: run writeShortArray " + writeShortArrayResult); expect(writeShortArrayResult).assertTrue(); var rShortArryData = data.readShortArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02200: run readShortArray is " + rShortArryData); assertArrayElementEqual(rShortArryData,wShortArryData); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02200: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_02200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_02300 * @tc.name Call the writeshortarray interface, write the short integer array to the messageparcel instance, * and call readshortarray (datain: number []) to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_02300", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_02300---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02300: create object successfully."); var wShortArryData = []; for(let i=0;i<(50*K - 1);i++){ wShortArryData[i] = 1; } var writeShortArrayResult = data.writeShortArray(wShortArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02300: run writeShortArray " + writeShortArrayResult); expect(writeShortArrayResult).assertTrue(); var rShortArryData = []; data.readShortArray(rShortArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02300: run readShortArray is " + rShortArryData.length); assertArrayElementEqual(rShortArryData,wShortArryData); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02300: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_02300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_02400 * @tc.name Writeshortarray interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_02400", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_02400---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02400: create object successfully."); var wShortArryData = [-32768, 0, 1, 2, 32767]; var writeShortArrayResult = data.writeShortArray(wShortArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02400: run writeShortArray is " + writeShortArrayResult); expect(writeShortArrayResult).assertTrue(); var rShortArryData = []; data.readShortArray(rShortArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02400: run readShortArray is " + rShortArryData); assertArrayElementEqual(rShortArryData,wShortArryData); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02400: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_02400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_02500 * @tc.name Writeshortarray interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_02500", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_02500---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02500: create object successfully."); var wShortArryData = [-32769, 0, 1, 2]; var writeShortArrayResult = data.writeShortArray(wShortArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02500: run writeShortArray is " + writeShortArrayResult); expect(writeShortArrayResult).assertTrue(); var rShotrArrayData = data.readShortArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02500: run readShortArray is " + rShotrArrayData); expect(32767).assertEqual(rShotrArrayData[0]); expect(wShortArryData[1]).assertEqual(rShotrArrayData[1]); expect(wShortArryData[2]).assertEqual(rShotrArrayData[2]); expect(wShortArryData[3]).assertEqual(rShotrArrayData[3]); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02500: error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_02500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_02600 * @tc.name Writeshortarray interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_02600", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_02600---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02600: create object successfully."); var wShortArryData = [0, 1, 2, 32768]; var writeShortArrayResult = data.writeShortArray(wShortArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02600: run writeShortArray is " + writeShortArrayResult); expect(writeShortArrayResult).assertTrue(); var rShotrArrayData = data.readShortArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02600: run readShortArray " + rShotrArrayData); expect(wShortArryData[0]).assertEqual(rShotrArrayData[0]); expect(wShortArryData[1]).assertEqual(rShotrArrayData[1]); expect(wShortArryData[2]).assertEqual(rShotrArrayData[2]); expect(-32768).assertEqual(rShotrArrayData[3]); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02600: error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_02600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_02700 * @tc.name Writeshortarray interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_02700", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_02700---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02700: create object successfully."); var wShortArryData = []; for (let i = 0; i < 50*K; i++){ wShortArryData[i] = 11111; } var writeShortArrayResult = data.writeShortArray(wShortArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02700: run writeShortArray " + writeShortArrayResult); expect(writeShortArrayResult).assertEqual(false); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02700: error = " + error); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_02700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_02800 * @tc.name Call the writelongarray interface, write the long integer array to the messageparcel instance, * and call readlongarray to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_02800", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_02800---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02800: create object successfully."); var LongArryData = []; for (let i = 0;i<(25*K - 1);i++){ LongArryData[i] = 11; } var WriteLongArray = data.writeLongArray(LongArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03200: run writeShortArray is " + WriteLongArray); expect(WriteLongArray).assertTrue(); var rLongArryData = data.readLongArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03200: run readShortArray is " + rLongArryData.length); assertArrayElementEqual(LongArryData,rLongArryData); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02800: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_02800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_02900 * @tc.name Writelongarray interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_02900", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_02900---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02900: create object successfully."); var wLongArryData = [-2147483648, 0, 1, 2, 2147483647]; var writeLongArrayResult = data.writeLongArray(wLongArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02900: run writeShortArrayis is " + writeLongArrayResult); expect(writeLongArrayResult).assertTrue(); var rLongArryData = data.readLongArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02900: run readShortArray is " + rLongArryData); assertArrayElementEqual(wLongArryData,rLongArryData); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_02900: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_02900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_03000 * @tc.name Writelongarray interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_03000", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_03000---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03000: create object successfully."); var errorLongArryData = [-2147483649, 0, 1, 2, 3]; var erWriteLongArray = data.writeLongArray(errorLongArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03000: run writeShortArrayis is " + erWriteLongArray); expect(erWriteLongArray).assertTrue(); var erLongArryData = data.readLongArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03000: run readShortArray is " + erLongArryData); assertArrayElementEqual(errorLongArryData,erLongArryData); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03000: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_03000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_03100 * @tc.name Writelongarray interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_03100", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_03100---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03100: create object successfully."); var errorLongArryData = [0, 1, 2, 3, 2147483648]; var erWriteLongArray = data.writeLongArray(errorLongArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03100: run writeShortArrayis is " + erWriteLongArray); expect(erWriteLongArray).assertTrue(); var erLongArryData = data.readLongArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03100: run readShortArray is " + erLongArryData); assertArrayElementEqual(errorLongArryData,erLongArryData); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03100: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_03100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_03200 * @tc.name Writelongarray interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_03200", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_03200---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03200: create object successfully."); var errorLongArryData = []; for (let i = 0;i<25*K;i++){ errorLongArryData[i] = 11; } var erWriteLongArray = data.writeLongArray(errorLongArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03200: run writeShortArrayis is " + erWriteLongArray); expect(erWriteLongArray).assertEqual(false); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03200: error " + error); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_03200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_03300 * @tc.name Call the writedoublearray interface, write the array to the messageparcel instance, * and call readdoublearra to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_03300", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_03300---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03300: create object successfully."); var wDoubleArryData = [1.2, 235.67, 99.76]; var writeDoubleArrayResult = data.writeDoubleArray(wDoubleArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03300: run writeShortArrayis is " + writeDoubleArrayResult); expect(writeDoubleArrayResult).assertTrue(); var rDoubleArryData = data.readDoubleArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03300: run readShortArray is " + rDoubleArryData); assertArrayElementEqual(wDoubleArryData,rDoubleArryData); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03300: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_03300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_03400 * @tc.name Call the writedoublearray interface, write the array to the messageparcel instance, * and call readdoublearra (datain: number []) to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_03400", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_03400---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03400: create object successfully."); var wDoubleArryData = []; for(let i = 0;i < (25*K - 1);i++){ wDoubleArryData[i] = 11.1; } var writeDoubleArrayResult = data.writeDoubleArray(wDoubleArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03400: run writeShortArrayis is " + writeDoubleArrayResult); expect(writeDoubleArrayResult).assertTrue(); var rDoubleArryData = []; data.readDoubleArray(rDoubleArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03400: run readShortArray is " + rDoubleArryData.length); assertArrayElementEqual(wDoubleArryData,rDoubleArryData); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03400: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_03400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_03500 * @tc.name Writedoublearray interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_03500", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_03500---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03500: create object successfully."); var wDoubleArryData = [-1235453.2, 235.67, 9987659.76]; var writeDoubleArrayResult = data.writeDoubleArray(wDoubleArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03500: run writeShortArrayis is " + writeDoubleArrayResult); expect(writeDoubleArrayResult).assertTrue(); var rDoubleArryData = data.readDoubleArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03500: run readShortArray is " + rDoubleArryData); assertArrayElementEqual(wDoubleArryData,rDoubleArryData); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03500: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_03500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_03600 * @tc.name Writedoublearray interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_03600", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_03600---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03600: create object successfully."); var DoubleArryData = [-12354883737337373873853.2, 235.67, 99999999999999993737373773987659.76]; var WriteDoubleArrayResult = data.writeDoubleArray(DoubleArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03600: run writeDoubleArrayis is " + WriteDoubleArrayResult); expect(WriteDoubleArrayResult).assertTrue(); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03600: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_03600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_03700 * @tc.name Writedoublearray interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_03700", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_03700---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03700: create object successfully."); var errorDoubleArryData = []; for (let i=0;i<25*K;i++){ errorDoubleArryData[i] = 11.1; } var WriteDoubleArrayResult = data.writeDoubleArray(errorDoubleArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03700: run writeDoubleArrayis is " + WriteDoubleArrayResult); expect(WriteDoubleArrayResult).assertEqual(false); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03700: error " + error); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_03700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_03800 * @tc.name Call the writeboolean array interface, write the array to the messageparcel instance, * and call readboolean array to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_03800", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_03800---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03800: create object successfully."); var wBooleanArryData = [true, false, false]; var writeBooleanArrayResult = data.writeBooleanArray(wBooleanArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03800: run writeShortArrayis is " + writeBooleanArrayResult); expect(writeBooleanArrayResult).assertTrue(); var rBooleanArryData = data.readBooleanArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03800: run readShortArray is " + rBooleanArryData); assertArrayElementEqual(wBooleanArryData,rBooleanArryData); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03800: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_03800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_03900 * @tc.name Call the writeboolean array interface, write the array to the messageparcel instance, * and call readboolean array (datain: number []) to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_03900", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_03900---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03900: create object successfully."); var wBooleanArryData = []; for (let i=0;i<(50*K - 1);i++){ if (i % 2 == 0){ wBooleanArryData[i] = false; }else { wBooleanArryData[i] = true; } } var writeBooleanArrayResult = data.writeBooleanArray(wBooleanArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03900: run writeShortArrayis is " + writeBooleanArrayResult); expect(writeBooleanArrayResult).assertTrue(); var rBooleanArryData = []; data.readBooleanArray(rBooleanArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03900: run readShortArray is " + rBooleanArryData.length); assertArrayElementEqual(wBooleanArryData,rBooleanArryData); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_03900: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_03900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_04000 * @tc.name Writeboolean array interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_04000", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_04000---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04000: create object successfully."); var BooleanArryData = [true, 'abc', false]; var WriteBooleanArrayResult = data.writeBooleanArray(BooleanArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04000: run writeShortArrayis is " + WriteBooleanArrayResult); expect(WriteBooleanArrayResult).assertTrue(); var rBooleanArryData = data.readBooleanArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04000: run readShortArray is " + rBooleanArryData); var newboolean = [true,false,false]; assertArrayElementEqual(newboolean,rBooleanArryData); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04000: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_04000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_04100 * @tc.name Writeboolean array interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_04100", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_04100---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04100: create object successfully."); var errorBooleanArryData = []; for (let i=0;i<50*K;i++){ if (i % 2 == 0){ errorBooleanArryData[i] = false; }else { errorBooleanArryData[i] = true; }; } var WriteBooleanArrayResult = data.writeBooleanArray(errorBooleanArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04100: run writeShortArrayis is " + WriteBooleanArrayResult); expect(WriteBooleanArrayResult).assertEqual(false); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04100: error " + error); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_04100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_04200 * @tc.name Call the writechararray interface, write the array to the messageparcel instance, * and call readchararray to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_04200", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_04200---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04200: create object successfully."); var wCharArryData = []; for(let i=0;i<(50*K - 1);i++){ wCharArryData[i] = 96; } var writeCharArrayResult = data.writeCharArray(wCharArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04200: run writeShortArrayis is " + writeCharArrayResult); expect(writeCharArrayResult).assertTrue(); var rCharArryData = data.readCharArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04200: run readShortArray is " + rCharArryData.length); assertArrayElementEqual(wCharArryData,rCharArryData); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04200: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_04200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_04300 * @tc.name Call the writechararray interface, write the array to the messageparcel instance, * and call readchararray (datain: number []) to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_04300", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_04300---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04300: create object successfully."); var wCharArryData = []; for(let i=0;i<(50*K - 1);i++){ wCharArryData[i] = 96; } var writeCharArrayResult = data.writeCharArray(wCharArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04300: run writeShortArrayis is " + writeCharArrayResult); expect(writeCharArrayResult).assertTrue(); var rCharArryData = []; data.readCharArray(rCharArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04300: run readShortArray is " + rCharArryData.length); assertArrayElementEqual(wCharArryData,rCharArryData); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04300: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_04300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_04400 * @tc.name Writechararray interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_04400", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_04400---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04400: create object successfully."); var errorCharArryData = [10, 'asfgdgdtu', 20]; var WriteCharArrayResult = data.writeCharArray(errorCharArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04400: run writeShortArrayis is " + WriteCharArrayResult); expect(WriteCharArrayResult).assertTrue(); var rCharArryData = data.readCharArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04400: run readShortArray is " + rCharArryData); var xresult = [10,0,20]; assertArrayElementEqual(xresult,rCharArryData); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04400: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_04400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_04500 * @tc.name Call the writestringarray interface, write the array to the messageparcel instance, * and call readstringarray (datain: number []) to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_04500", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_04500---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04500: create object successfully."); var wStringArryData = ['abc', 'hello', 'beauty']; var writeStringArrayResult = data.writeStringArray(wStringArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04500: run writeShortArrayis is " + writeStringArrayResult); expect(writeStringArrayResult).assertTrue(); var rStringArryData = data.readStringArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04500: run readShortArray is " + rStringArryData); assertArrayElementEqual(wStringArryData,rStringArryData); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04500: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_04500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_04600 * @tc.name Call the writestringarray interface, write the array to the messageparcel instance, * and call readstringarray() to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_04600", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_04600---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04600: create object successfully."); var wStringArryData = ['abc', 'hello', 'beauty']; var writeStringArrayResult = data.writeStringArray(wStringArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04600: run writeShortArrayis is " + writeStringArrayResult); expect(writeStringArrayResult).assertTrue(); var rStringArryData = []; data.readStringArray(rStringArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04600: run readShortArray is " + rStringArryData); assertArrayElementEqual(wStringArryData,rStringArryData); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04600: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_04600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_04700 * @tc.name Writestringarray interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_04700", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_04700---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04700: create object successfully."); var errorStringArryData = ['abc', 123, 'beauty']; var WriteStringArrayResult = data.writeStringArray(errorStringArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04700: run writeStringArrayis is " + WriteStringArrayResult); expect(WriteStringArrayResult).assertEqual(false); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04700: error " + error); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_04700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_04800 * @tc.name Writestringarray interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_04800", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_04800---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04800: create object successfully."); var errorStringArryData = []; for (let i=0;i<(10*K - 1);i++){ errorStringArryData[i] = "heddSDF"; } var WriteStringArrayResult = data.writeStringArray(errorStringArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04800: run writeStringArrayis is " + WriteStringArrayResult); expect(WriteStringArrayResult).assertTrue(); var errorStringArray = data.readStringArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04800: run writeStringArrayis is " + errorStringArray.length); assertArrayElementEqual(errorStringArray,errorStringArryData); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04800: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_04800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_04900 * @tc.name Call the writebytearray interface, write the array to the messageparcel instance, * and call readbytearray to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_04900", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_04900---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04900: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var ByteArrayVar = [1, 2, 3, 4, 5]; var writeShortArrayResult = data.writeByteArray(ByteArrayVar); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04900: run writeShortArrayis is " + writeShortArrayResult); expect(writeShortArrayResult == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04900: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_BYTEARRAY, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04900: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); var shortArryDataReply = result.reply.readByteArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04900: run readByteArray is " + shortArryDataReply); assertArrayElementEqual(ByteArrayVar,shortArryDataReply); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_04900: error " +error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_04900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_05000 * @tc.name Call the writebytearray interface, write the array to the messageparcel instance, * and call readbytearray (datain: number []) to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_05000", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_05000---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05000: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var ByteArrayVar = [1, 2, 3, 4, 5]; var writeShortArrayResult = data.writeByteArray(ByteArrayVar); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05000: run writeShortArrayis is " + writeShortArrayResult); expect(writeShortArrayResult == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05000: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_BYTEARRAY, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05000: sendRequestis is " + result.errCode); var newArr = new Array(5); result.reply.readByteArray(newArr); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05000: run readByteArray is " + newArr); assertArrayElementEqual(ByteArrayVar,newArr); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05000: error " +error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_05000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_05100 * @tc.name Writebytearray interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_05100", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_05100---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05100: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var teArrayVar = [-128, 0, 1, 2, 127]; var writeShortArrayResult = data.writeByteArray(teArrayVar); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05100: run writeShortArrayis is " + writeShortArrayResult); expect(writeShortArrayResult == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05100: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_BYTEARRAY, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05100: sendRequestis is " + result.errCode); var newArr = new Array(5) result.reply.readByteArray(newArr); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05100: run readByteArray is " + newArr); assertArrayElementEqual(newArr,teArrayVar); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05100: error " +error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_05100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_05200 * @tc.name Writebytearray interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_05200", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_05200---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05200: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var teArrayVar = [-128, 0, 1, 2, 128]; var writeShortArrayResult = data.writeByteArray(teArrayVar); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05200: run writeShortArrayis is " + writeShortArrayResult); expect(writeShortArrayResult == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05200: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_BYTEARRAY, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05200: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); var shortArryDataReply = result.reply.readByteArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05200: run readByteArray is " + shortArryDataReply); expect(shortArryDataReply[0] == teArrayVar[0]).assertTrue(); expect(shortArryDataReply[1] == teArrayVar[1]).assertTrue(); expect(shortArryDataReply[2] == teArrayVar[2]).assertTrue(); expect(shortArryDataReply[3] == teArrayVar[3]).assertTrue(); expect(shortArryDataReply[4] == -128).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05200: error " +error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_05200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_05300 * @tc.name Writebytearray interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_05300", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_05300---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05300: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var ByteArrayVar = [-129, 0, 1, 2, 127]; var writeShortArrayResult = data.writeByteArray(ByteArrayVar); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05300: run writeShortArrayis is " + writeShortArrayResult); expect(writeShortArrayResult == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05300: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_BYTEARRAY, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05300: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); var shortArryDataReply = result.reply.readByteArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05300: run readByteArray is " + shortArryDataReply); expect(shortArryDataReply[0] == 127).assertTrue(); expect(shortArryDataReply[1] == ByteArrayVar[1]).assertTrue(); expect(shortArryDataReply[2] == ByteArrayVar[2]).assertTrue(); expect(shortArryDataReply[3] == ByteArrayVar[3]).assertTrue(); expect(shortArryDataReply[4] == ByteArrayVar[4]).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05300: error " +error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_05300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_05400 * @tc.name Call the writeintarray interface, write the array to the messageparcel instance, * and call readintarray to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_05400", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_05400---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05400: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var intArryData = [100, 111, 112]; var writeShortArrayResult = data.writeIntArray(intArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05400: run writeShortArrayis is " + writeShortArrayResult); expect(writeShortArrayResult == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05400: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_INTARRAY, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05400: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); var shortArryDataReply = result.reply.readIntArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05400: run readByteArray is " + shortArryDataReply); assertArrayElementEqual(intArryData,shortArryDataReply); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05400: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_05400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_05500 * @tc.name Call the writeintarray interface, write the array to the messageparcel instance, * and call readintarray (datain: number []) to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_05500", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_05500---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05500: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var intArryData = [100, 111, 112]; var writeShortArrayResult = data.writeIntArray(intArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05500: run writeShortArrayis is " + writeShortArrayResult); expect(writeShortArrayResult == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05500: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_INTARRAY, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05500: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); var newArr = []; result.reply.readIntArray(newArr); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05500: run readIntArray is " + newArr); assertArrayElementEqual(intArryData,newArr); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05500: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_05500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_05600 * @tc.name Writeintarray interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_05600", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_05600---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05600: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var intArryData = [-2147483648, 0, 1, 2, 2147483647]; var writeIntArrayResult = data.writeIntArray(intArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05600: run writeShortArrayis is " + writeIntArrayResult); expect(writeIntArrayResult == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05600: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_INTARRAY, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05600: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); var shortArryDataReply = result.reply.readIntArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05600: run readByteArray is " + shortArryDataReply); assertArrayElementEqual(intArryData,shortArryDataReply); }); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05600: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_05600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_05700 * @tc.name Writeintarray interface, illegal value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_05700", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_05700---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05700: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var intArryData = [-2147483649, 0, 1, 2, 2147483647]; var writeIntArrayResult = data.writeIntArray(intArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05700: run writeShortArrayis is " + writeIntArrayResult); expect(writeIntArrayResult == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05700: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_INTARRAY, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05700: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); var shortArryDataReply = result.reply.readIntArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05700: run readByteArray is " + shortArryDataReply); expect(shortArryDataReply[0] == 2147483647).assertTrue(); expect(shortArryDataReply[1] == intArryData[1]).assertTrue(); expect(shortArryDataReply[2] == intArryData[2]).assertTrue(); expect(shortArryDataReply[3] == intArryData[3]).assertTrue(); expect(shortArryDataReply[4] == intArryData[4]).assertTrue(); }); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05700: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_05700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_05800 * @tc.name Writeintarray interface, illegal value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_05800", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_05800---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05800: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var intArryData = [0, 1, 2, 3, 2147483648]; var writeIntArrayResult = data.writeIntArray(intArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05800: run writeShortArrayis is " + writeIntArrayResult); expect(writeIntArrayResult == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05800: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_INTARRAY, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05800: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); var shortArryDataReply = result.reply.readIntArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05800: run readByteArray is " + shortArryDataReply); var newintArryData = [0, 1, 2, 3, -2147483648]; assertArrayElementEqual(newintArryData,shortArryDataReply); }); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05800: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_05800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_05900 * @tc.name Call the writefloatarray interface, write the array to the messageparcel instance, * and call readfloatarray to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_05900", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_05900---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05900: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var floatArryData = [1.2, 1.3, 1.4]; var writeShortArrayResult = data.writeFloatArray(floatArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05900: run writeFloatArrayis is " + writeShortArrayResult); expect(writeShortArrayResult == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05900: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_FLOATARRAY, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05900: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); var floatArryDataReply = result.reply.readFloatArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05900: run readFloatArray is " + floatArryDataReply); assertArrayElementEqual(floatArryData,floatArryDataReply); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_05900: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_05900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_06000 * @tc.name Call the writefloatarray interface, write the array to the messageparcel instance, * and call readfloatarray (datain: number []) to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_06000", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_06000---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06000: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var floatArryData = [1.2, 1.3, 1.4] var writeShortArrayResult = data.writeFloatArray(floatArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06000: run writeFloatArrayis is " + writeShortArrayResult); expect(writeShortArrayResult == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06000: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_FLOATARRAY, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06000: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); var newArr = [] result.reply.readFloatArray(newArr); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06000: readFloatArray is " + newArr); assertArrayElementEqual(floatArryData,newArr); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06000: error " +error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_06000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_06100 * @tc.name Writefloatarray interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_06100", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_06100---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06100: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var floatArryData = [-3.40E+38, 1.3, 3.40E+38]; var writeShortArrayResult = data.writeFloatArray(floatArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06100: run writeFloatArrayis is " + writeShortArrayResult); expect(writeShortArrayResult == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06100: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_FLOATARRAY, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06100: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); var newArr = result.reply.readFloatArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06100: run readFloatArray is " + newArr); assertArrayElementEqual(floatArryData,newArr); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06100: error " +error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_06100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_06200 * @tc.name Writefloatarray interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_06200", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_06200---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06200: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var floatArryData = [-4.40E+38, 1.3, 3.40E+38]; var writeShortArrayResult = data.writeFloatArray(floatArryData); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06200: run writeFloatArrayis is " + writeShortArrayResult); expect(writeShortArrayResult == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06200: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_FLOATARRAY, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06200: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); var newArr = result.reply.readFloatArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06200: run readFloatArray is " + newArr); expect(newArr[0] == floatArryData[0]).assertTrue(); expect(newArr[1] == floatArryData[1]).assertTrue(); expect(newArr[2] == floatArryData[2]).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06200: error " +error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_06200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_06300 * @tc.name Call the writeShort interface to write the short integer data to the messageparcel instance, * and call readshort to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_06300", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_06300---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06300: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var short = 8; var writeShor = data.writeShort(short); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06300: run writeShort success, writeShor is " + writeShor); expect(writeShor == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06300: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_SHORT, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06300: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); var readShort = result.reply.readShort(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06300: run readFloatArray is success, readShort is " + readShort); expect(readShort == short).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06300: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_06300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_06400 * @tc.name WriteShort interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_06400", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_06400---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06400: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); expect(data.writeShort(-32768) == true).assertTrue(); expect(data.writeShort(0) == true).assertTrue(); expect(data.writeShort(1) == true).assertTrue(); expect(data.writeShort(2) == true).assertTrue(); expect(data.writeShort(32767) == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06400: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_SHORT_MULTI, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06400: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); expect(result.reply.readShort() == -32768).assertTrue(); expect(result.reply.readShort() == 0).assertTrue(); expect(result.reply.readShort() == 1).assertTrue(); expect(result.reply.readShort() == 2).assertTrue(); expect(result.reply.readShort() == 32767).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06400: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_06400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_06500 * @tc.name WriteShort interface, illegal value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_06500", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_06500---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06500: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); expect(data.writeShort(32768) == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06500: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_SHORT_MULTI, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06500: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); expect(result.reply.readShort() == -32768).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06500: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_06500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_06600 * @tc.name Call the writeShort interface to write the short integer data to the messageparcel instance, * and call readshort to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_06600", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_06600---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06600: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var short = -32769; var writeShor = data.writeShort(short); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06600: run writeShort success, writeShor is " + writeShor); expect(writeShor == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06600: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_SHORT, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06600: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); var readShort = result.reply.readShort(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06600: run readFloatArray is " + readShort); expect(readShort == 32767).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06600: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_06600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_06700 * @tc.name Call the writeShort interface to write the short integer data to the messageparcel instance, * and call readshort to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_06700", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_06700---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06700: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var short = 32768; var writeShor = data.writeShort(short); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06700: run writeShort success, writeShor is " + writeShor); expect(writeShor == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06700: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_SHORT, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06700: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); var readShort = result.reply.readShort(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06700: run readFloatArray is " + readShort); expect(readShort == -32768).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06700: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_06700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_06800 * @tc.name Call writelong interface to write long integer data to messageparcel instance * and call readlong to read data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_06800", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_06800---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06800: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var short = 10000; var writelong = data.writeLong(short); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06800: run writeLong success, writelong is " + writelong); expect(writelong == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06800: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_LONG, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06800: run sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); var readlong = result.reply.readLong(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06800: run readLong is success, readlong is " + readlong); expect(readlong == short).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06800: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_06800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_06900 * @tc.name Writelong interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_06900", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_06900---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06900: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var short = 2147483647; var writelong = data.writeLong(short); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06900: run writeLong success, writelong is " + writelong); expect(writelong == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06900: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_LONG, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06900: run sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); var readlong = result.reply.readLong(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06900: run readLong is success, readlong is " + readlong); expect(readlong == short).assertTrue(); }); data.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_06900: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_06900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_07000 * @tc.name Writelong interface, illegal value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_07000", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_07000---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07000: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var short = 214748364887; var writelong = data.writeLong(short); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07000: run writeLong success, writelong is " + writelong); expect(writelong == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07000: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_LONG, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07000: run sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); var readlong = result.reply.readLong(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07000: run readLong is success, readlong is " + readlong); expect(readlong == short).assertTrue(); }); data.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07000: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_07000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_07100 * @tc.name Writelong interface, illegal value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_07100", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_07100---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07100: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var short = 2147483649; var writelong = data.writeLong(short); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07100: run writeLong success, writelong is " + writelong); expect(writelong == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07100: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_LONG, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07100: run sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); var readlong = result.reply.readLong(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07100: run readLong is success, readlong is " + readlong); expect(readlong == short).assertTrue(); }); data.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07100: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_07100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_07200 * @tc.name Call the parallel interface to read and write data to the double instance * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_07200", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_07200---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07200: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var token = 10.2; var result = data.writeDouble(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07200:run writeDoubleis is " + result); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07200: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_DOUBLE, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07200: run sendRequestis is " + result.errCode); var replyReadResult = reply.readDouble(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07200: run replyReadResult is " + replyReadResult); expect(replyReadResult == token).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07200:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_07200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_07300 * @tc.name Writedouble interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_07300", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_07300---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07300: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var token = 1.79E+308; var result = data.writeDouble(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07300:run writeDoubleis is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07300: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_DOUBLE, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07300: run sendRequestis is " + result.errCode); var replyReadResult = reply.readDouble(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07300: run rreplyReadResult is " + replyReadResult); expect(replyReadResult == token).assertTrue(); }); data.reclaim(); reply.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07300:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_07300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_07400 * @tc.name Writedouble interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_07400", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_07400---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07400: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var token = 4.9000000e-32; var result = data.writeDouble(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07400:run writeDoubleis is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07400: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_DOUBLE, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07400: run sendRequestis is " + result.errCode); var replyReadResult = reply.readDouble(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07400: run replyReadResult is " + replyReadResult); expect(replyReadResult == token).assertTrue(); }); data.reclaim(); reply.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07400:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_07400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_07500 * @tc.name Writedouble interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_07500", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_07500---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07500: create object successfully."); var token = "1.79E+465312156"; var result = data.writeDouble(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07500:run writeDoubleis is " + result); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07500:error = " + error); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_07500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_07600 * @tc.name Call the writeboolean interface to write the data to the messageparcel instance, * and call readboolean to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_07600", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_07600---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07600: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var token = true; var result = data.writeBoolean(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07600:run writeBooleanis is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07600: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_BOOLEAN, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07600: run sendRequestis is " + result.errCode); var replyReadResult = result.reply.readBoolean(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07600: run readBoolean is " + replyReadResult); expect(replyReadResult == token).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07600:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_07600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_07700 * @tc.name Call the writeboolean interface to write the data to the messageparcel instance, * and call readboolean to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_07700", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_07700---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07700: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var token = false; var result = data.writeBoolean(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07700:run writeBooleanis is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07700: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_BOOLEAN, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07700: run sendRequestis is " + result.errCode); var replyReadResult = result.reply.readBoolean(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07700: run readBoolean is " + replyReadResult); expect(replyReadResult == token).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07700:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_07700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_07800 * @tc.name Writeboolean interface, illegal value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_07800", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_07800---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07800: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var token = 9; var result = data.writeBoolean(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07800:run writeBooleanis is " + result); expect(result == false).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07800:error = " + error); expect(error != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_07800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_07900 * @tc.name Writeboolean interface, illegal value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_07900", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_07900---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07900: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var token = "aaa"; var result = data.writeBoolean(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07900:run writeBooleanis is " + result); expect(result == false).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_07900:error = " + error); expect(error != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_07900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_08000 * @tc.name Call the writechar interface to write the data to the messageparcel instance, * and call readchar to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_08000", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_08000---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08000: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var token = 65; var result = data.writeChar(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08000:run writeCharis is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08000: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_CHAR, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08000: sendRequestis is " + result.errCode); var replyReadResult = result.reply.readChar(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08000: run readChar is " + replyReadResult); expect(replyReadResult == token).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08000:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_08000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_08100 * @tc.name Call the writechar interface to write the data to the messageparcel instance, * and call readchar to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_08100", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_08100---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08100: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var token = 122; var result = data.writeChar(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08100:run writeCharis is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08100: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_CHAR, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08100: sendRequestis is " + result.errCode); var replyReadResult = result.reply.readChar(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08100: run readChar is " + replyReadResult); expect(replyReadResult == token).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08100:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_08100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_08200 * @tc.name Call the writechar interface to write the data to the messageparcel instance, * and call readchar to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_08200", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_08200---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08200: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var token = 64; var result = data.writeChar(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08200:run writeCharis is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08200: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_CHAR, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08200: sendRequestis is " + result.errCode); var replyReadResult = result.reply.readChar(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08200: run readChar is " + replyReadResult); expect(replyReadResult == token).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08200:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_08200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_08300 * @tc.name Call the writechar interface to write the data to the messageparcel instance, * and call readchar to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_08300", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_08300---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08300: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var token = 123; var result = data.writeChar(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08300:run writeCharis is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08300: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_CHAR, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08300: sendRequestis is " + result.errCode); var replyReadResult = result.reply.readChar(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08300: run readChar is " + replyReadResult); expect(replyReadResult == token).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08300:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_08300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_08400 * @tc.name Call the writechar interface to write the data to the messageparcel instance, * and call readchar to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_08400", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_08400---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08400: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var token = 65; var result = data.writeChar(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08400:run writeCharis is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08400: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_CHAR, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08400: sendRequestis is " + result.errCode); var replyReadResult = result.reply.readChar(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08400: run readChar is " + replyReadResult); expect(replyReadResult == token).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08400:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_08400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_08500 * @tc.name Writechar interface, illegal value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_08500", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_08500---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08500: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var token = 'ades'; var result = data.writeChar(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08500:run writeCharis is " + result); expect(result == false).assertTrue() } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08500:error = " + error); expect(error != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_08500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_08600 * @tc.name Call the writestring interface to write the data to the messageparcel instance, * and call readstring() to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_08600", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_08600---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08600: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var token = ''; for(var i = 0; i < (40*K - 1); i++){ token += 'a'; }; var result = data.writeString(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08600:run writeStringis is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08600: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_STRING, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08600: sendRequestis is " + result.errCode); var replyReadResult = result.reply.readString(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08600: run readString is " + replyReadResult.length); expect(replyReadResult == token).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08600:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_08600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_08700 * @tc.name Call the writestring interface to write the data to the messageparcel instance, * and call readstring() to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_08700", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_08700---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08700: create object successfully."); var token = ''; for(var i = 0; i < 40*K; i++){ token += 'a'; }; var result = data.writeString(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08700:run writeStringis is " + result); expect(result == false).assertTrue(); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08700:error = " + error); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_08700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_08800 * @tc.name Writestring interface, illegal value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_08800", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_08800---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08800: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var token = 123; var result = data.writeString(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08800:run writeStringis is " + result); expect(result == false).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08800:error = " + error); expect(error != null).assertTrue(); } data.reclaim(); reply.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_08800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_08900 * @tc.name Call the writebyte interface to write data to the messageparcel instance, * and call readbyte to read data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_08900", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_08900---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08900: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var token = 2; var result = data.writeByte(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08900:run writeByteis is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08900: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_BYTE, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08900: sendRequestis is " + result.errCode); var replyReadResult = result.reply.readByte(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08900: run readByte is " + replyReadResult); expect(replyReadResult == token).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_08900:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_08900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_09000 * @tc.name Writebyte interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_09000", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_09000---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09000: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); expect(data.writeByte(-128) == true).assertTrue(); expect(data.writeByte(0) == true).assertTrue(); expect(data.writeByte(1) == true).assertTrue(); expect(data.writeByte(2) == true).assertTrue(); expect(data.writeByte(127) == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09000: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_BYTE_MULTI, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09000: sendRequestis is " + result.errCode); expect(reply.readByte() == -128).assertTrue(); expect(reply.readByte() == 0).assertTrue(); expect(reply.readByte() == 1).assertTrue(); expect(reply.readByte() == 2).assertTrue(); expect(reply.readByte() == 127).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09000:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_09000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_09100 * @tc.name Writebyte interface, illegal value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_09100", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_09100---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09100: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); expect(data.writeByte(-129) == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09100: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_BYTE_MULTI, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09100: sendRequestis is " + result.errCode); expect(reply.readByte() == 127).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09100:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_09100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_09200 * @tc.name Writebyte interface, illegal value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_09200", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_09200---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09200: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); expect(data.writeByte(128) == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09200: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_BYTE_MULTI, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09200: sendRequestis is " + result.errCode); expect(reply.readByte() == -128).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09200:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_09200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_09300 * @tc.name Writebyte interface, illegal value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_09300", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_09300---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09300: create object successfully."); let writeby = data.writeByte("error"); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09300: writeByte is" + writeby); expect(writeby).assertEqual(false); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09300:error = " + error); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_09300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_09400 * @tc.name Call the writeint interface to write the data to the messageparcel instance, * and call readint to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_09400", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_09400---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09400: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var token = 2; var result = data.writeInt(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09400:run writeIntis is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09400: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_INT, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09400: sendRequestis is " + result.errCode); var replyReadResult = result.reply.readInt(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09400: run readInt is " + replyReadResult); expect(replyReadResult == token).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09400:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_09400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_09500 * @tc.name Writeint interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_09500", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_09500---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09500: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); expect(data.writeInt(-2147483648) == true).assertTrue(); expect(data.writeInt(0) == true).assertTrue(); expect(data.writeInt(1) == true).assertTrue(); expect(data.writeInt(2) == true).assertTrue(); expect(data.writeInt(2147483647) == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09500: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_INT_MULTI, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09500: sendRequestis is " + result.errCode); expect(result.reply.readInt() == -2147483648).assertTrue(); expect(result.reply.readInt() == 0).assertTrue(); expect(result.reply.readInt() == 1).assertTrue(); expect(result.reply.readInt() == 2).assertTrue(); expect(result.reply.readInt() == 2147483647).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09500:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_09500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_09600 * @tc.name Writeint interface, illegal value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_09600", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_09600---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09600: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); expect(data.writeInt(2147483648) == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09600: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_INT_MULTI, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09600: sendRequestis is " + result.errCode); expect(result.reply.readInt() == -2147483648).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09600:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_09600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_09700 * @tc.name Writeint interface, illegal value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_09700", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_09700---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09700: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); expect(data.writeInt(-2147483649) == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09700: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_INT_MULTI, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09700: sendRequestis is " + result.errCode); expect(result.reply.readInt() == 2147483647).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09700:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_09700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_09800 * @tc.name Call the writefloat interface to write data to the messageparcel instance, * and call readfloat to read data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_09800", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_09800---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09800: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var token = 2.2; var result = data.writeFloat(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09800:run writeDoubleis is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09800: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_FLOAT, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09800: sendRequestis is " + result.errCode); var replyReadResult = result.reply.readFloat(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09800: run readFloat is " + replyReadResult); expect(replyReadResult == token).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09800:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_09800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_09900 * @tc.name Writefloat interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_09900", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_09900---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09900: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var token = 3.4E+38; var result = data.writeFloat(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09900:run writeFloatis is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09900: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_FLOAT, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09900: sendRequestis is " + result.errCode); var newReadResult = result.reply.readFloat(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09900: readFloat result is " + newReadResult); expect(newReadResult == token).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_09900:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_09900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_10000 * @tc.name Writefloat interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_10000", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_10000---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10000: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var token = 1.4E-45; var result = data.writeFloat(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10000:run writeFloatis is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10000: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_FLOAT, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10000: sendRequestis is " + result.errCode); var newReadResult = result.reply.readFloat(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10000: readFloat result is " + newReadResult); expect(newReadResult == token).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10000:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_10000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_10100 * @tc.name Writefloat interface, boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_10100", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_10100---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10100: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var token = 4.4E+38; var result = data.writeFloat(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10100:run writeFloatis is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10100: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_FLOAT, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10100: sendRequestis is " + result.errCode); var newReadResult = result.reply.readFloat(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10100: readFloat result is " + newReadResult); expect(newReadResult == token).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10100:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_10100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_10200 * @tc.name Writefloat interface, illegal value validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_10200", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_10200---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10200: create object successfully."); var token = 'a'; var result = data.writeFloat(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10200:run writeFloatis is " + result); expect(result == false).assertTrue(); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10200:error = " + error); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_10200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_10300 * @tc.name Test messageparcel to deliver rawdata data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_10300", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_10300---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10300: create object successfully."); var Capacity = data.getRawDataCapacity() console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10300:run Capacity success, Capacity is " + Capacity); expect(Capacity).assertEqual(128*M); var rawdata = [1, 2, 3] var result = data.writeRawData(rawdata, rawdata.length); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10300:run writeRawDatais is " + result); expect(result == true).assertTrue(); var newReadResult = data.readRawData(rawdata.length) console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10300:run readRawDatais is " + newReadResult); assertArrayElementEqual(newReadResult,rawdata); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10300:error = " + error); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_10300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_10400 * @tc.name Illegal value passed in from writerawdata interface * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_10400", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_10400---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10400: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var Capacity = data.getRawDataCapacity() console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10400:run Capacityis is " + Capacity); expect(Capacity).assertEqual(128*M); var token = [2,1,4,3,129] ; var result = data.writeRawData(token, 149000000); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10400:run writeRawDatais is " + result); expect(result == false).assertTrue(); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10400:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_10400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_10500 * @tc.name Illegal value passed in from writerawdata interface * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_10500", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_10500---------------------------"); try{ let parcel = new rpc.MessageParcel(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10500: create object successfully."); let reply = new rpc.MessageParcel(); let option = new rpc.MessageOption(); let arr = [1, 2, 3, 4, 5]; expect(parcel.writeInt(arr.length)).assertTrue(); let isWriteSuccess = parcel.writeRawData(arr, arr.length); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10500: parcel write raw data result is : " + isWriteSuccess); expect(isWriteSuccess).assertTrue(); let Capacity = parcel.getRawDataCapacity() console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10500:run Capacity success, Capacity is " + Capacity); expect(Capacity).assertEqual(128*M); if (gIRemoteObject == undefined){ console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10500: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_RAWDATA, parcel, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10500: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); let size = result.reply.readInt(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10500:run readIntis is " + size); expect(size).assertEqual(arr.length); let reCapacity = parcel.getRawDataCapacity() console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10500:run Capacity is " + reCapacity); expect(reCapacity).assertEqual(128*M); let newReadResult = result.reply.readRawData(size); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10500:run readRawDatais " + newReadResult); assertArrayElementEqual(newReadResult,arr); }); parcel.reclaim(); reply.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10500:error = " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_10500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_10600 * @tc.name Test messageParcel to deliver abnormal RawData data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_10600", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_10600---------------------------"); try{ let parcel = new rpc.MessageParcel(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10600: create object successfully."); let reply = new rpc.MessageParcel(); let option = new rpc.MessageOption(); let arr = [1, 2, 3, 4, 5]; expect(parcel.writeInt(arr.length + 1)).assertTrue(); let isWriteSuccess = parcel.writeRawData(arr, (arr.length + 1)); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10600: parcel write raw data result is : " + isWriteSuccess); expect(isWriteSuccess).assertTrue(); let Capacity = parcel.getRawDataCapacity() console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10600:run Capacity success, Capacity is " + Capacity); expect(Capacity).assertEqual(128*M); if (gIRemoteObject == undefined){ console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10600: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_RAWDATA, parcel, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10600: result is " + result.errCode); expect(result.errCode == 0).assertTrue(); let size = result.reply.readInt(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10600:run readIntis is " + size); expect(size).assertEqual(arr.length + 1); let reCapacity = parcel.getRawDataCapacity() console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10600:run Capacity is " + reCapacity); expect(reCapacity).assertEqual(128*M); let newReadResult = result.reply.readRawData(size); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10600:run readRawDatais " + newReadResult); expect(arr[0]).assertEqual(newReadResult[0]); expect(arr[1]).assertEqual(newReadResult[1]); expect(arr[2]).assertEqual(newReadResult[2]); expect(arr[3]).assertEqual(newReadResult[3]); expect(arr[4]).assertEqual(newReadResult[4]); }); parcel.reclaim(); reply.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10600:error = " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_10600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_10700 * @tc.name Test messageParcel to deliver abnormal RawData data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_10700", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_10700---------------------------"); try{ let parcel = new rpc.MessageParcel(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10700: create object successfully."); let reply = new rpc.MessageParcel(); let option = new rpc.MessageOption(); let arr = [1, 2, 3, 4, 5]; expect(parcel.writeInt(arr.length-1)).assertTrue(); let isWriteSuccess = parcel.writeRawData(arr, (arr.length - 1)); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10700: parcel write raw data result is : " + isWriteSuccess); expect(isWriteSuccess).assertTrue(); let Capacity = parcel.getRawDataCapacity() console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10700:run Capacity success, Capacity is " + Capacity); if (gIRemoteObject == undefined){ console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10700: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_RAWDATA, parcel, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10700: result is " + result.errCode); expect(result.errCode == 0).assertTrue(); let size = result.reply.readInt(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10700:run readIntis is " + size); expect(size).assertEqual(arr.length - 1); let reCapacity = parcel.getRawDataCapacity() console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10700:run Capacity success, Capacity is " + reCapacity); expect(reCapacity).assertEqual(128*M); let newReadResult = result.reply.readRawData(size); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10700:run readRawDatais is " + newReadResult); expect(arr[0]).assertEqual(newReadResult[0]); expect(arr[1]).assertEqual(newReadResult[1]); expect(arr[2]).assertEqual(newReadResult[2]); expect(arr[3]).assertEqual(newReadResult[3]); }); parcel.reclaim(); reply.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10700:error = " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_10700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_10800 * @tc.name Test messageParcel to deliver out-of-bounds RawData data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_10800", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_10800---------------------------"); try{ let parcel = new rpc.MessageParcel(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10800: create object successfully."); let reply = new rpc.MessageParcel(); let option = new rpc.MessageOption(); let arr = [-129, 2, 3, 4, 128]; expect(parcel.writeInt(arr.length)).assertTrue(); let isWriteSuccess = parcel.writeRawData(arr, arr.length); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10800: parcel write raw data result is : " + isWriteSuccess); expect(isWriteSuccess).assertTrue(); let Capacity = parcel.getRawDataCapacity() console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10800:run Capacity success, Capacity is " + Capacity); if (gIRemoteObject == undefined){ console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10800: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_RAWDATA, parcel, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10800: result is " + result.errCode); expect(result.errCode == 0).assertTrue(); let size = result.reply.readInt(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10800:run readIntis is " + size); expect(size).assertEqual(arr.length); let reCapacity = parcel.getRawDataCapacity() console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10800:run Capacity is " + reCapacity); expect(reCapacity).assertEqual(128*M); let newReadResult = result.reply.readRawData(size); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10800:run readRawDatais is " + newReadResult); assertArrayElementEqual(newReadResult,arr); }); parcel.reclaim(); reply.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10800:error = " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_10800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_10900 * @tc.name Test messageParcel to deliver illegal RawData data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_10900", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_10900---------------------------"); try{ let parcel = new rpc.MessageParcel(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10900: create object successfully."); let reply = new rpc.MessageParcel(); let option = new rpc.MessageOption(); let arr = ["aaa", 1, 2, 3]; expect(parcel.writeInt(arr.length)).assertTrue(); let isWriteSuccess = parcel.writeRawData(arr, arr.length); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10900: parcel write raw data result is : " + isWriteSuccess); expect(isWriteSuccess).assertTrue(); let reCapacity = parcel.getRawDataCapacity() console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10900:run Capacity success, Capacity is " + reCapacity); expect(reCapacity).assertEqual(128*M); parcel.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_10900:error = " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_10900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_11000 * @tc.name Call the writeremoteobject interface to serialize the remote object * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_11000", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_11000---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11000: create object successfully."); let testRemoteObject = new TestRemoteObject("testObject"); var result = data.writeRemoteObject(testRemoteObject); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11000: result is " + result); expect(result == true).assertTrue(); data.readRemoteObject() } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11000:error = " + error); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_11000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_11100 * @tc.name Call the writeremoteobject interface to serialize the remote object and pass in the empty object * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_11100", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_11100---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11100: create object successfully."); var token = {} var result = data.writeRemoteObject(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11100: result is " + result); expect(result == false).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11100:error = " + error); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_11100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_11200 * @tc.name Call the writeSequenceable interface to write the custom serialized * object to the messageparcel instance * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_11200", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_11200---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11200: create object successfully."); let sequenceable = new MySequenceable(1, "aaa"); let result = data.writeSequenceable(sequenceable); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11200: writeSequenceable is " + result); expect(result == true).assertTrue(); let ret = new MySequenceable(0, ""); let result2 = data.readSequenceable(ret); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11200: readSequenceable is " + result2); expect(result2 == true).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11200:error = " + error); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_11200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_11300 * @tc.name After the server finishes processing, write noexception first before writing the result, * and the client calls readexception to judge whether the server is abnormal * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_11300", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_11300---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11300: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); data.writeNoException(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11300: run writeNoException success"); expect(data.writeInt(6) == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11300: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_NOEXCEPTION, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11300: sendRequestis is " + result.errCode); result.reply.readException() var replyData = result.reply.readInt(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11300: readResult is " + replyData); expect(replyData == 6).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11300:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_11300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_11400 * @tc.name If the data on the server is abnormal, the client calls readexception * to judge whether the server is abnormal * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_11400", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_11400---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11400: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); data.writeNoException(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11400: run writeNoException success"); expect(data.writeInt(1232222223444) == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11400: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_NOEXCEPTION, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11400: sendRequestis is " + result.errCode); result.reply.readException() var replyData = result.reply.readInt(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11400: readResult is " + replyData); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11400:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_11400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_11500 * @tc.name Serializable object marshaling and unmarshalling test * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_11500", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_11500---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11500: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var sequenceable = new MySequenceable(1, "aaa"); var result = data.writeSequenceable(sequenceable); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11500: writeSequenceable is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11500: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_SEQUENCEABLE, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11500: sendRequestis is " + result.errCode); var s = new MySequenceable(null,null) var resultReply = result.reply.readSequenceable(s); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11500: run readSequenceable is " + resultReply); expect(resultReply == true).assertTrue(); expect(s.str == sequenceable.str).assertTrue(); expect(s.num == sequenceable.num).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11500:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_11500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_11600 * @tc.name Non serializable object marshaling test * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_11600", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_11600---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11600: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var sequenceable = new MySequenceable(1, "aaa"); var result = data.writeSequenceable(sequenceable); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11600: writeSequenceable is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11600: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_SEQUENCEABLE, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11600: sendRequestis is " + result.errCode); var s = new MySequenceable(null,null) var replyReadResult = reply.readSequenceable(s); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11600: run readSequenceable is " + replyReadResult); expect(replyReadResult == true).assertTrue(); expect(s.str == sequenceable.str).assertTrue(); expect(s.num == sequenceable.num).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11600:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_11600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_11700 * @tc.name The server did not send a serializable object, and the client was ungrouped * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_11700", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_11700---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11700: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var sequenceable = 10; var result = data.writeInt(sequenceable); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11700 writeInt is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11700: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_INT, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11700: sendRequestis is " + result.errCode); var s = new MySequenceable(0,null) var replyReadResult = result.reply.readSequenceable(s); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11700: run readSequenceable is" + replyReadResult); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11700:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_11700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_11800 * @tc.name Call the writeSequenceable interface to write the custom serialized object to the * messageparcel instance, and call readSequenceable to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_11800", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_11800---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11800: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var sequenceable = new MySequenceable(2, "abc"); var result = data.writeSequenceable(sequenceable); console.info("RpcClient: writeSequenceable is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11800: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_SEQUENCEABLE, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11800: sendRequestis is " + result.errCode); var s = new MySequenceable(null,null) var replyReadResult = result.reply.readSequenceable(s); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11800: run readSequenceable is" + replyReadResult); expect(s.str == sequenceable.str).assertTrue(); expect(s.num == sequenceable.num).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11800:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_11800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_11900 * @tc.name Call the writeSequenceablearray interface to write the custom serialized object to the * messageparcel instance, and call readSequenceablearray to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_11900", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_11900---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11900: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var sequenceable = [new MySequenceable(1, "aaa"), new MySequenceable(2, "bbb"), new MySequenceable(3, "ccc")]; var result = data.writeSequenceableArray(sequenceable); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11900: writeSequenceableArray is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11900: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_SEQUENCEABLEARRAY, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11900: sendRequestis is " + result.errCode); var s = [new MySequenceable(null, null), new MySequenceable(null, null), new MySequenceable(null, null)]; result.reply.readSequenceableArray(s); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11900: run readSequenceableArray is" + s); for (let i = 0; i < s.length; i++) { expect(s[i].str).assertEqual(sequenceable[i].str) expect(s[i].num).assertEqual(sequenceable[i].num) } }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_11900:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_11900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_12000 * @tc.name Call the writeSequenceablearray interface to write the custom serialized object to the * messageparcel instance, and call readSequenceablearray to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_12000", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_12000---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12000: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var sequenceable = [new MySequenceable(4, "abc"), new MySequenceable(5, "bcd"), new MySequenceable(6, "cef")]; var result = data.writeSequenceableArray(sequenceable); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12000: writeSequenceable is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12000: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_SEQUENCEABLEARRAY, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12000: sendRequestis is " + result.errCode); var s = [new MySequenceable(null, null), new MySequenceable(null, null), new MySequenceable(null, null)] result.reply.readSequenceableArray(s); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12000: run readSequenceableArray is" +s); for (let i = 0; i < s.length; i++) { expect(s[i].str).assertEqual(sequenceable[i].str) expect(s[i].num).assertEqual(sequenceable[i].num) } }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12000:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_12000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_12100 * @tc.name Call the writeSequenceablearray interface to write the custom * serialized object to the messageparcel instance * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_12100", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_12100---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12100: create object successfully."); var sequenceable = 1; var result = data.writeSequenceableArray(sequenceable); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12100: writeSequenceable is " + result); expect(result == false).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12100:error = " + error); expect(error != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_12100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_12200 * @tc.name Call the writeremoteobjectarray interface to write the object array to the messageparcel * instance, and call readremoteobjectarray to read the data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_12200", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_12200---------------------------"); try{ let count = 0 function checkResult(num, str) { expect(num).assertEqual(123); expect(str).assertEqual("rpcListenerTest"); count++; console.info("check result done, count: " + count); if (count == 3) { done(); } } var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12200: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); expect(data.writeInterfaceToken("rpcTestAbility")).assertTrue(); var listeners = [new TestListener("rpcListener", checkResult), new TestListener("rpcListener2", checkResult), new TestListener("rpcListener3", checkResult)]; var result = data.writeRemoteObjectArray(listeners); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12200: writeRemoteObjectArray is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12200: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_REMOTEOBJECTARRAY, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12200: sendRequestis is " + result.errCode); expect(result.errCode).assertEqual(0); expect(result.code).assertEqual(CODE_WRITE_REMOTEOBJECTARRAY); expect(result.data).assertEqual(data); expect(result.reply).assertEqual(reply); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12200:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_12200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_12300 * @tc.name Call the writeremoteobjectarray interface to write the object array to the messageparcel instance, * and call readremoteobjectarray (objects: iremoteobject []) to read the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_12300", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_12300---------------------------"); try{ let count = 0; function checkResult(num, str) { expect(num).assertEqual(123); expect(str).assertEqual("rpcListenerTest"); count++; console.info("check result done, count: " + count); if (count == 3) { done(); } } var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12300: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); expect(data.writeInterfaceToken("rpcTestAbility")).assertTrue() var listeners = [new TestListener("rpcListener", checkResult), new TestListener("rpcListener2", checkResult), new TestListener("rpcListener3", checkResult)]; var result = data.writeRemoteObjectArray(listeners); console.info("RpcClient: writeRemoteObjectArray is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12300: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_REMOTEOBJECTARRAY, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12300: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12300:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_12300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_12400 * @tc.name Test messageparcel delivery file descriptor object * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_12400", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_12400---------------------------"); let context = FA.getContext(); await context.getFilesDir() .then(async function(path) { expect(path != null).assertTrue(); let basePath = path; let filePath = basePath + "/test1.txt"; let fd = fileio.openSync(filePath, 0o2| 0o100 | 0o2000, 0o666); expect(fd >= 0).assertTrue(); let str = "HELLO RPC"; let bytesWr = fileio.writeSync(fd, str); let option = new rpc.MessageOption(); let data = rpc.MessageParcel.create(); let reply = rpc.MessageParcel.create(); let result = data.containFileDescriptors(); let writeInt = data.writeInt(bytesWr); expect(writeInt == true).assertTrue(); let writeFileDescriptor = data.writeFileDescriptor(fd) expect(writeFileDescriptor == true).assertTrue(); let result1 = data.containFileDescriptors(); expect(data.containFileDescriptors()).assertTrue(); await gIRemoteObject.sendRequest(CODE_FILESDIR, data, reply, option) .then(function(result) { expect(result.errCode).assertEqual(0); let buf = new ArrayBuffer(str.length * 2); let bytesRd = fileio.readSync(fd, buf, {position:0,}); let fdResult = reply.readFileDescriptor(); let content = String.fromCharCode.apply(null, new Uint8Array(buf)); expect(content).assertEqual(str + str); let dupFd = rpc.MessageParcel.dupFileDescriptor(fd); let buf2 = new ArrayBuffer(str.length * 2); let byteRd2 = fileio.readSync(dupFd, buf2, {position:0,}); let content2 = String.fromCharCode.apply(null, new Uint8Array(buf2)); console.info("dupFd bytes read: " + byteRd2 + ", content2: " + content2); expect(content2).assertEqual(str + str); rpc.MessageParcel.closeFileDescriptor(fd); rpc.MessageParcel.closeFileDescriptor(dupFd); }) try { console.info("after close fd, write again"); fileio.writeSync(fd, str); expect(0).assertEqual(1); } catch(e) { console.error("got exception: " + e); } }) done() console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_12400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_12500 * @tc.name Test messageparcel to deliver the reply message received in promise across processes * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_12500", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_12500---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12500: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); expect(data.writeByte(2)).assertTrue(); expect(data.writeShort(3)).assertTrue(); expect(data.writeInt(4)).assertTrue(); expect(data.writeLong(5)).assertTrue(); expect(data.writeFloat(1.2)).assertTrue(); expect(data.writeDouble(10.2)).assertTrue(); expect(data.writeBoolean(true)).assertTrue(); expect(data.writeChar(5)).assertTrue(); expect(data.writeString("HelloWorld")).assertTrue(); expect(data.writeSequenceable(new MySequenceable(1, "aaa"))).assertTrue(); await gIRemoteObject.sendRequest(CODE_ALL_TYPE, data, reply, option).then((result) => { console.info("sendRequest done, error code: " + result.errCode); expect(result.errCode).assertEqual(0); expect(result.reply.readByte()).assertEqual(2); expect(result.reply.readShort()).assertEqual(3); expect(result.reply.readInt()).assertEqual(4); expect(result.reply.readLong()).assertEqual(5); expect(result.reply.readFloat()).assertEqual(1.2); expect(result.reply.readDouble()).assertEqual(10.2); expect(result.reply.readBoolean()).assertTrue(); expect(result.reply.readChar()).assertEqual(5); expect(result.reply.readString()).assertEqual("HelloWorld"); let s = new MySequenceable(null, null); expect(result.reply.readSequenceable(s)).assertTrue(); expect(s.num).assertEqual(1); expect(s.str).assertEqual("aaa"); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12500:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_12500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_12600 * @tc.name Test the cross process delivery of messageparcel and receive the reply message * in the callback function * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_12600", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_12600---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12600: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); expect(data.writeByte(2)).assertTrue(); expect(data.writeShort(3)).assertTrue(); expect(data.writeInt(4)).assertTrue(); expect(data.writeLong(5)).assertTrue(); expect(data.writeFloat(1.2)).assertTrue(); expect(data.writeDouble(10.2)).assertTrue(); expect(data.writeBoolean(true)).assertTrue(); expect(data.writeChar(5)).assertTrue(); expect(data.writeString("HelloWorld")).assertTrue(); expect(data.writeSequenceable(new MySequenceable(1, "aaa"))).assertTrue(); function sendRequestCallback(result) { try{ console.info("sendRequest Callback"); console.info("sendRequest done, error code: " + result.errCode); expect(result.errCode).assertEqual(0); expect(result.reply.readByte()).assertEqual(2); expect(result.reply.readShort()).assertEqual(3); expect(result.reply.readInt()).assertEqual(4); expect(result.reply.readLong()).assertEqual(5); expect(result.reply.readFloat()).assertEqual(1.2); expect(result.reply.readDouble()).assertEqual(10.2); expect(result.reply.readBoolean()).assertTrue(); expect(result.reply.readChar()).assertEqual(5); expect(result.reply.readString()).assertEqual("HelloWorld"); let s = new MySequenceable(null, null); expect(result.reply.readSequenceable(s)).assertTrue(); expect(s.num).assertEqual(1); expect(s.str).assertEqual("aaa"); } finally { result.data.reclaim(); result.reply.reclaim(); console.info("test done"); done(); } } console.info("start send request"); await gIRemoteObject.sendRequest(CODE_ALL_TYPE, data, reply, option, sendRequestCallback); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12600:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_12600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_12700 * @tc.name Test the cross process transmission of messageparcel. * After receiving the reply message in promise, read various types of arrays in order * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_12700", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_12700---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12700: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); expect(data.writeByteArray([1, 2, 3])).assertTrue(); expect(data.writeShortArray([4, 5, 6])).assertTrue(); expect(data.writeIntArray([7, 8, 9])).assertTrue(); expect(data.writeLongArray([10, 11, 12])).assertTrue(); expect(data.writeFloatArray([1.1, 1.2, 1.3])).assertTrue(); expect(data.writeDoubleArray([2.1, 2.2, 2.3])).assertTrue(); expect(data.writeBooleanArray([true, true, false])).assertTrue(); expect(data.writeCharArray([10, 20, 30])).assertTrue(); expect(data.writeStringArray(['abc', 'seggg'])).assertTrue(); let a = [new MySequenceable(1, "aaa"), new MySequenceable(2, "bbb"), new MySequenceable(3, "ccc")]; expect(data.writeSequenceableArray(a)).assertTrue(); gIRemoteObject.sendRequest(CODE_ALL_ARRAY_TYPE, data, reply, option,(err, result) => { expect(result.errCode).assertEqual(0); assertArrayElementEqual(result.reply.readByteArray(), [1, 2, 3]); assertArrayElementEqual(result.reply.readShortArray(), [4, 5, 6]); assertArrayElementEqual(result.reply.readIntArray(), [7, 8, 9]); assertArrayElementEqual(result.reply.readLongArray(), [10, 11, 12]); assertArrayElementEqual(result.reply.readFloatArray(), [1.1, 1.2, 1.3]); assertArrayElementEqual(result.reply.readDoubleArray(), [2.1, 2.2, 2.3]); assertArrayElementEqual(result.reply.readBooleanArray(), [true, true, false]); assertArrayElementEqual(result.reply.readCharArray(), [10, 20, 30]); assertArrayElementEqual(result.reply.readStringArray(), ['abc', 'seggg']); let b = [new MySequenceable(null, null), new MySequenceable(null, null), new MySequenceable(null, null)]; result.reply.readSequenceableArray(b); for (let i = 0; i < b.length; i++) { expect(b[i].str).assertEqual(a[i].str); expect(b[i].num).assertEqual(a[i].num); } }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12700:error = " + error); } sleep(2000); data.reclaim(); reply.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_12700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_12800 * @tc.name Test messageparcel cross process delivery. After receiving the reply message in promise, * the client constructs an empty array in sequence and reads the data from the reply message * into the corresponding array * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_12800", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_12800---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12800: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); expect(data.writeByteArray([1, 2, 3])).assertTrue(); expect(data.writeShortArray([4, 5, 6])).assertTrue(); expect(data.writeIntArray([7, 8, 9])).assertTrue(); expect(data.writeLongArray([10, 11, 12])).assertTrue(); expect(data.writeFloatArray([1.1, 1.2, 1.3])).assertTrue(); expect(data.writeDoubleArray([2.1, 2.2, 2.3])).assertTrue(); expect(data.writeBooleanArray([true, true, false])).assertTrue(); expect(data.writeCharArray([10, 20, 30])).assertTrue(); expect(data.writeStringArray(['abc', 'seggg'])).assertTrue(); let a = [new MySequenceable(1, "aaa"), new MySequenceable(2, "bbb"), new MySequenceable(3, "ccc")]; expect(data.writeSequenceableArray(a)).assertTrue(); gIRemoteObject.sendRequest(CODE_ALL_ARRAY_TYPE, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); assertArrayElementEqual(result.reply.readByteArray(), [1, 2, 3]); assertArrayElementEqual(result.reply.readShortArray(), [4, 5, 6]); assertArrayElementEqual(result.reply.readIntArray(), [7, 8, 9]); assertArrayElementEqual(result.reply.readLongArray(), [10, 11, 12]); assertArrayElementEqual(result.reply.readFloatArray(), [1.1, 1.2, 1.3]); assertArrayElementEqual(result.reply.readDoubleArray(), [2.1, 2.2, 2.3]); assertArrayElementEqual(result.reply.readBooleanArray(), [true, true, false]); assertArrayElementEqual(result.reply.readCharArray(), [10, 20, 30]); assertArrayElementEqual(result.reply.readStringArray(), ['abc', 'seggg']); let b = [new MySequenceable(null, null), new MySequenceable(null, null), new MySequenceable(null, null)]; result.reply.readSequenceableArray(b); for (let i = 0; i < b.length; i++) { expect(b[i].str).assertEqual(a[i].str); expect(b[i].num).assertEqual(a[i].num); }; }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12800:error = " + error); } sleep(2000); data.reclaim(); reply.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_12800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_12900 * @tc.name Test messageparcel to pass an object of type iremoteobject across processes * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_12900", 0, async function(done) { console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_12900---------------------------"); function checkResult(num, str) { expect(num).assertEqual(123); expect(str).assertEqual("rpcListenerTest"); done(); } try{ let option = new rpc.MessageOption(); let data = rpc.MessageParcel.create(); let reply = rpc.MessageParcel.create(); let listener = new TestListener("rpcListener", checkResult); let result = data.writeRemoteObject(listener); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12900 result is:" + result); expect(result == true).assertTrue(); expect(data.writeInt(123)).assertTrue(); expect(data.writeString("rpcListenerTest")).assertTrue(); await gIRemoteObject.sendRequest(CODE_WRITE_REMOTEOBJECT, data, reply, option) .then((result)=> { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12900 sendRequest done, error code: " + result.errCode); expect(result.errCode).assertEqual(0); result.reply.readException(); }) data.reclaim(); reply.reclaim(); console.info("test done"); } catch(error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_12900: error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_12900---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_13000 * @tc.name Test messageparcel to pass an array of iremoteobject objects across processes * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_13000", 0, async function(done) { console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_13000---------------------------"); let count = 0; function checkResult(num, str) { expect(num).assertEqual(123); expect(str).assertEqual("rpcListenerTest"); count++; console.info("check result done, count: " + count); if (count == 3) { done(); } } try{ let option = new rpc.MessageOption(); let data = rpc.MessageParcel.create(); let reply = rpc.MessageParcel.create(); let listeners = [new TestListener("rpcListener", checkResult), new TestListener("rpcListener2", checkResult), new TestListener("rpcListener3", checkResult)]; let result = data.writeRemoteObjectArray(listeners); expect(result == true).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13000 result is:" + result); expect(data.writeInt(123)).assertTrue(); expect(data.writeString("rpcListenerTest")).assertTrue(); await gIRemoteObject.sendRequest(CODE_WRITE_REMOTEOBJECTARRAY_1, data, reply, option) .then((result)=> { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13000 sendRequest done, error code: " + result.errCode); expect(result.errCode).assertEqual(0); result.reply.readException(); }) data.reclaim(); reply.reclaim(); done(); } catch(error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13000: error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_13000---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_13100 * @tc.name Test messageparcel to pass the array of iremoteobject objects across processes. The server * constructs an empty array in onremoterequest and reads it from messageparcel * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_13100", 0, async function(done) { console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_13100---------------------------"); let count = 0; function checkResult(num, str) { expect(num).assertEqual(123); expect(str).assertEqual("rpcListenerTest"); count++; console.info("check result done, count: " + count); if (count == 3) { done(); } } try{ let option = new rpc.MessageOption(); let data = rpc.MessageParcel.create(); let reply = rpc.MessageParcel.create(); let listeners = [new TestListener("rpcListener", checkResult), new TestListener("rpcListener2", checkResult), new TestListener("rpcListener3", checkResult)]; let result = data.writeRemoteObjectArray(listeners); expect(result == true).assertTrue(); data.readRemoteObjectArray(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13100 result is:" + result); expect(data.writeInt(123)).assertTrue(); expect(data.writeString("rpcListenerTest")).assertTrue(); await gIRemoteObject.sendRequest(CODE_WRITE_REMOTEOBJECTARRAY_2, data, reply, option) .then((result)=> { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13100 error code: " + result.errCode); expect(result.errCode).assertEqual(0); result.reply.readException(); }) data.reclaim(); reply.reclaim(); console.info("test done"); } catch(error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13100: error = " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_13100---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_13200 * @tc.name Invoke the rewindRead interface, write the POS, and read the offset value * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_13200", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_13200---------------------------"); try{ let data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13200: create object successfully"); let option = new rpc.MessageOption(); let reply = rpc.MessageParcel.create(); data.writeInt(12); data.writeString("parcel"); if (gIRemoteObject == undefined){ console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13200: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_INT, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13200: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); let number1 = result.reply.readInt(); expect(number1).assertEqual(12); expect(result.reply.rewindRead(0)).assertTrue(); let number2 = result.reply.readInt(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13200:run readIntis is " + number1 + ";" + number2); expect(number2).assertEqual(12); let reString = result.reply.readString(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13200:run readStringis is " + reString); expect(reString).assertEqual(""); }); data.reclaim(); reply.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13200:error = " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_13200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_13300 * @tc.name Invoke the rewindRead interface, write the POS, and read the offset value * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_13300", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_13300---------------------------"); try{ let data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13300: create object successfully"); let option = new rpc.MessageOption(); let reply = rpc.MessageParcel.create(); data.writeInt(12); data.writeString("parcel"); if (gIRemoteObject == undefined){ console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13300: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_INT, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13300: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); let number1 = result.reply.readInt(); expect(result.reply.rewindRead(1)).assertTrue(); let number2 = result.reply.readInt(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13300:run readIntis is " + number1 + ";" + number2); expect(number1).assertEqual(12); expect(number2).assertEqual(0); }); data.reclaim(); reply.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13300:error = " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_13300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_13400 * @tc.name Invoke the rewindWrite interface, write the POS, and read the offset value * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_13400", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_11800---------------------------"); try{ let data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13400: create object successfully"); let option = new rpc.MessageOption(); let reply = rpc.MessageParcel.create(); data.writeInt(4); data.rewindWrite(0); data.writeInt(5); if (gIRemoteObject == undefined){ console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13400: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_INT, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13400: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); let number = result.reply.readInt(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13400:run readIntis is " + number); expect(number).assertEqual(5); }); data.reclaim(); reply.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13400:error = " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_13400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_13500 * @tc.name Invoke the rewindWrite interface, write the POS, and read the offset value * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_13500", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_13500---------------------------"); try{ let data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13500: create object successfully"); let option = new rpc.MessageOption(); let reply = rpc.MessageParcel.create(); data.writeInt(4); data.rewindWrite(1); data.writeInt(5); if (gIRemoteObject == undefined){ console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13500: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_INT, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13500: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); let number = result.reply.readInt(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13500:run readIntis is " + number); expect(number != 5).assertTrue(); }); data.reclaim(); reply.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13500:error = " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_13500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_13600 * @tc.name setCapacity Sets the storage capacity of the MessageParcel instance. The getCapacity obtains the current MessageParcel capacity * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_13600", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_13600---------------------------"); try{ let data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13600: create object successfully."); let option = new rpc.MessageOption(); let reply = rpc.MessageParcel.create(); expect(data.getCapacity()).assertEqual(0); let setMePaCapacity = data.setCapacity(100); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13600:run setCapacityis is " + setMePaCapacity); expect(setMePaCapacity).assertTrue(); expect(data.writeString("constant")).assertTrue(); expect(data.getCapacity()).assertEqual(100); if (gIRemoteObject == undefined){ console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13600: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_STRING, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13600: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); let getMePaCapacity = result.reply.getCapacity(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13600:run getCapacityis is " + getMePaCapacity); expect(getMePaCapacity).assertEqual("constant".length * 8); expect(result.reply.readString()).assertEqual("constant"); }); data.reclaim(); reply.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13600:error = " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_13600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_13700 * @tc.name setCapacity Sets the storage capacity of the MessageParcel instance. The getCapacity obtains the current MessageParcel capacity * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_13700", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_13700---------------------------"); try{ let data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13700: create object successfully."); let option = new rpc.MessageOption(); let reply = rpc.MessageParcel.create(); expect(data.writeString("constant")).assertTrue(); expect(data.setCapacity(100)).assertTrue(); expect(data.getCapacity()).assertEqual(100); if (gIRemoteObject == undefined){ console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13700: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_STRING, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13700: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); expect(result.reply.readString()).assertEqual("constant"); let getMeCa = result.reply.getCapacity(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13700:run getCapacityis is " + getMeCa); expect(getMeCa).assertEqual("constant".length * 8); }); data.reclaim(); reply.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13700:error = " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_13700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_13800 * @tc.name SetCapacity Tests the storage capacity threshold of the MessageParcel instance * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_13800", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_13800---------------------------"); try{ let data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13800: create object successfully."); let getCapacitydata0 = data.getCapacity(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13800:run getCapacityis is " + getCapacitydata0); expect(data.writeString("constant")).assertTrue(); let getSizedata = data.getSize(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13800:run getSizeis is " + getSizedata); let getCapacitydata = data.getCapacity(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13800:run getCapacityis is " + getCapacitydata); let setCapacitydata1 = data.setCapacity(getSizedata + 1); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13800:run setCapacityis is " + setCapacitydata1); expect(setCapacitydata1).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13800:run getCapacityis is " + data.getCapacity()); expect(data.getCapacity()).assertEqual((getSizedata + 1)); let setCapacitydata2 = data.setCapacity(getSizedata); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13800:run setCapacityis is " + setCapacitydata2); expect(setCapacitydata2).assertEqual(false); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13800:run getCapacityis is " + data.getCapacity()); expect(data.getCapacity()).assertEqual((getSizedata + 1)); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13800:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_13800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_13900 * @tc.name SetCapacity Tests the storage capacity threshold of the MessageParcel instance * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_13900", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_13900---------------------------"); try{ let data = rpc.MessageParcel.create(); let option = new rpc.MessageOption(); let reply = rpc.MessageParcel.create(); expect(data.writeString("constant")).assertTrue(); if (gIRemoteObject == undefined){ console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13900: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_STRING, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13900: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); let getSizeresult = result.reply.getSize(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13900:run getSizeis is " + getSizeresult); let setCapacityresult = result.reply.getCapacity(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13900:run getCapacityis is " + setCapacityresult); expect(setCapacityresult).assertEqual("constant".length * 8); }); data.reclaim(); reply.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_13900:error = " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_13900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_14000 * @tc.name SetCapacity Tests the storage capacity threshold of the MessageParcel instance * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_14000", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_14000---------------------------"); try{ let data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14000: create object successfully."); let getSizedata = data.getSize(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14000:run setCapacityis is " + getSizedata); expect(getSizedata).assertEqual(0); let setMeCapacity = data.setCapacity(M); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14000:run setCapacityis is " + setMeCapacity); expect(setMeCapacity).assertTrue(); let getCapacitydata = data.getCapacity(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14000:run getCapacityis is " + getCapacitydata); expect(getCapacitydata).assertEqual(M); let setMeCapacity1 = data.setCapacity(4*G); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14000:run setCapacityis is " + setMeCapacity1); expect(setMeCapacity1).assertEqual(false); let getCapacitydata1 = data.getCapacity(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14000:run getCapacityis is " + getCapacitydata1); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14000:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_14000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_14100 * @tc.name setCapacity Sets the storage capacity of the MessageParcel instance to decrease by one. The getCapacity obtains the current MessageParcel capacity * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_14100", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_14100---------------------------"); try{ let data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14100: create object successfully."); let option = new rpc.MessageOption(); let reply = rpc.MessageParcel.create(); expect(data.getSize()).assertEqual(0); let setSizedata = data.setSize(0); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14100:run setSizeis is " + setSizedata); expect(setSizedata).assertTrue(); expect(data.writeString("constant")).assertTrue(); let getSizedata = data.getSize(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14100:run getSizeis is " + getSizedata); expect(getSizedata).assertEqual(("constant".length * 2) + 8); if (gIRemoteObject == undefined){ console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14100: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_STRING, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14100: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); let getSizeresult = result.reply.getSize(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14100:run getSizeis is " + getSizeresult); expect(getSizeresult).assertEqual(("constant".length * 2) + 8); expect(result.reply.readString()).assertEqual("constant"); }); data.reclaim(); reply.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14100:error = " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_14100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_14200 * @tc.name setSize Sets the size of the data contained in the MessageParcel instance. The getSize command reads the data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_14200", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_14200---------------------------"); try{ let data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14200: create object successfully."); let option = new rpc.MessageOption(); let reply = rpc.MessageParcel.create(); expect(data.writeString("constant")).assertTrue(); expect(data.getSize()).assertEqual(("constant".length * 2) + 8); expect(data.setSize(0)).assertTrue(); let getSizedata = data.getSize(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14200:run setSizeis is " + getSizedata); expect(getSizedata).assertEqual(0); if (gIRemoteObject == undefined){ console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14200: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_STRING, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14200: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); let getSizeresult = result.reply.getSize(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14200:run getSizeis is " + getSizeresult); expect(getSizeresult).assertEqual( 8); let writeresult = result.reply.readString(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14200:run readStringis is " + writeresult); expect(writeresult).assertEqual(""); }); data.reclaim(); reply.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14200:error = " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_14200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_14300 * @tc.name SetSize: Increases the value of the data contained in the MessageParcel instance by 1, Write setSize * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_14300", 0, async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_14300---------------------------"); try{ let data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14300: create object successfully."); expect(data.getSize()).assertEqual(0); expect(data.writeString("constant")).assertTrue(); expect(data.getSize()).assertEqual(("constant".length * 2) + 8); let getCapacitydata = data.getCapacity(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14300:run getCapacityis is " + getCapacitydata); let setSizedata1 = data.setSize(getCapacitydata); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14300:run setSizeis is " + setSizedata1); expect(setSizedata1).assertTrue(); expect(data.getSize()).assertEqual(getCapacitydata); let setSizedata2 = data.setSize(getCapacitydata + 1); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14300:run setSizeis is " + setSizedata2); expect(setSizedata2).assertEqual(false); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14300:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_14300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_14400 * @tc.name SetSize: Increases the value of the data contained in the MessageParcel instance by 1, Write the setSize boundary value * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_14400", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_14400---------------------------"); try{ let data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14400: create object successfully."); let option = new rpc.MessageOption(); let reply = rpc.MessageParcel.create(); expect(data.writeString("constant")).assertTrue(); if (gIRemoteObject == undefined){ console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14400: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_STRING, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14400: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); expect(result.reply.readString()).assertEqual("constant"); expect(result.reply.getSize()).assertEqual(("constant".length * 2) + 8); let getCapacityresult = result.reply.getCapacity(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14400:run getCapacityis is " + getCapacityresult); let setSizeresult1 = result.reply.setSize(getCapacityresult); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14400:run setSizeis is " + setSizeresult1); expect(setSizeresult1).assertTrue(); expect(result.reply.getSize()).assertEqual(getCapacityresult); let setSizeresult2 = result.reply.setSize(getCapacityresult + 1); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14400:run setSizeis is " + setSizeresult2); expect(setSizeresult2).assertEqual(false); }); data.reclaim(); reply.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14400:error = " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_14400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_14500 * @tc.name Validate the setSize boundary value in the MessageParcel instance * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_14500", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_14500---------------------------"); try{ let data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14500: create object successfully."); let getCapacitydata = data.getCapacity(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14500:run getCapacityis is " + getCapacitydata); expect(getCapacitydata).assertEqual(0); let setSizedata1 = data.setSize(4*G); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14500:run setSizeis is " + setSizedata1); expect(setSizedata1).assertTrue(); let getSizedata1 = data.getSize(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14500:run getCapacityis is " + getSizedata1); expect(getSizedata1).assertEqual(0); let setSizedata = data.setSize(4*G - 1); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14500:run setSizeis is " + setSizedata); expect(setSizedata).assertEqual(false); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14500:error = " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_14500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_14600 * @tc.name Verify that setSize is out of bounds in a MessageParcel instance * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_14600", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_14600---------------------------"); try{ let data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14600: create object successfully."); let setSizedata = data.setSize(0); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14600:run setCapacityis is " + setSizedata); expect(setSizedata).assertTrue(); expect(data.getSize()).assertEqual(0); let setSizedata1 = data.setSize(2*4*G); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14600:run setCapacityis is " + setSizedata1); expect(setSizedata1).assertTrue(); expect(data.getSize()).assertEqual(0); let setSizedata2 = data.setSize(2*G); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14600:run setCapacityis is " + setSizedata2); expect(setSizedata2).assertEqual(false); data.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14600:error = " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_14600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_14700 * @tc.name Obtaining the Writable and Readable Byte Spaces of MessageParcel * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_14700", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_14700---------------------------"); try{ let data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14700: create object successfully."); let option = new rpc.MessageOption(); let reply = rpc.MessageParcel.create(); let getwbyte1 = data.getWritableBytes(); data.writeInt(10); let getwbyte2 = data.getWritableBytes(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14700:result getWritePosition is getWritableBytes is " + getwbyte1 + ";" + getwbyte2); if (gIRemoteObject == undefined){ console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14700: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_INT, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14700: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); let getrbyte1 = result.reply.getReadableBytes(); let readint = result.reply.readInt(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14700:result readInt is " + readint); let getrbyte2 = result.reply.getReadableBytes(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14700:result getReadPosition is getReadableBytes is" + getrbyte1 + ";" + getrbyte2); expect(readint).assertEqual(10); expect(getrbyte2).assertEqual(0); }); data.reclaim(); reply.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14700:error = " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_14700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_14800 * @tc.name Obtains the writeable and readable byte space and read position of the MessageParcel * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_14800", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_14800---------------------------"); try{ let data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14800: create object successfully."); let option = new rpc.MessageOption(); let reply = rpc.MessageParcel.create(); data.writeInt(10); let getwPos = data.getWritePosition(); let getwbyte = data.getWritableBytes(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14800:result getWritePosition is " + getwPos + "getWritableBytes is " + getwbyte); if (gIRemoteObject == undefined){ console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14800: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_INT, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14800: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); let getrbyte = result.reply.getReadableBytes(); let readint = result.reply.readInt(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14800:result readInt is " + readint); let getrPos = result.reply.getReadPosition(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14800:result getReadPosition is " + getrPos + "getReadableBytes is" + getrbyte); expect(readint).assertEqual(10); expect(getrPos).assertEqual(getwPos); }); data.reclaim(); reply.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14800:error = " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_14800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_14900 * @tc.name Obtains the writeable and readable byte space and read position of the MessageParcel * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_14900", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_14900---------------------------"); try{ let data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14900: create object successfully."); let option = new rpc.MessageOption(); let reply = rpc.MessageParcel.create(); data.writeInt(10); let getwPos = data.getWritePosition(); let getwbyte = data.getWritableBytes(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14900:result getWritePosition is " + getwPos + "getWritableBytes is " + getwbyte); if (gIRemoteObject == undefined){ console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14900: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_INT, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14900: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); let readint = result.reply.readInt(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14900:result readInt is " + readint); let getrPos = result.reply.getReadPosition(); let getrbyte = result.reply.getReadableBytes(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14900:result getReadPosition is " + getrPos + "getReadableBytes is" + getrbyte); expect(readint).assertEqual(10); let getrPos1 = result.reply.getReadPosition(); expect(getrPos1).assertEqual(getwPos); let getrbyte1 = result.reply.getReadableBytes(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14900:result getReadPosition is " + getrPos1 + "getReadableBytes is" + getrbyte1); expect(getrbyte1).assertEqual(0); }); data.reclaim(); reply.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_14900:error = " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_14900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_15000 * @tc.name Test fixed MessageParcel space size to pass rawData data * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_15000", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_15000---------------------------"); try{ let data = rpc.MessageParcel.create(); let rawdata = [1, 2, 3]; let option = new rpc.MessageOption(); let reply = rpc.MessageParcel.create(); expect(data.writeInt(rawdata.length)).assertTrue(); let result = data.writeRawData(rawdata, rawdata.length); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15000:run writeRawDatais is " + result); expect(result).assertTrue(); if (gIRemoteObject == undefined){ console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15000: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_RAWDATA, data, reply, option).then((result) => { expect(result.errCode == 0).assertTrue(); let size = result.reply.readInt(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15000:run readIntis is " + size); var newReadResult = result.reply.readRawData(size) console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15000:run readRawDatais is " + newReadResult.length); expect(newReadResult != rawdata).assertTrue(); }); data.reclaim(); reply.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15000:error = " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_15000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_15100 * @tc.name Obtains the write and read positions of the MessageParcel * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_15100", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_15100---------------------------"); try{ let data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15100: create object successfully."); let option = new rpc.MessageOption(); let reply = rpc.MessageParcel.create(); let getwPos1 = data.getWritePosition(); expect(data.writeInt(10)).assertTrue(); let getwPos2 = data.getWritePosition(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15100:result getWritePosition is " + getwPos1 + ";" + getwPos2); if (gIRemoteObject == undefined){ console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15100: gIRemoteObject undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_INT, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15100: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); let getrPos1 = result.reply.getReadPosition(); let readint = result.reply.readInt(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15100:result readInt is " + readint); let getrPos2 = result.reply.getReadPosition(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15100:result getReadPosition is " + getrPos1 + ";" + getrPos2); expect(getwPos1).assertEqual(getrPos1); expect(getwPos2).assertEqual(getrPos2); }); data.reclaim(); reply.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15100:error = " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_15100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_15200 * @tc.name Test messageparcel delivery file descriptor object * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_15200", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_15200---------------------------"); try{ let testab = new TestProxy(gIRemoteObject).asObject(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15200: run TestProxy success" + testab); expect(testab != null).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15200:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_15200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_15300 * @tc.name Test messageparcel delivery file descriptor object * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_15300", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_15300---------------------------"); try{ let testRemoteObject = new TestRemoteObject("testObject"); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15300: TestRemoteObject is" + testRemoteObject); let testab = testRemoteObject.asObject(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15300: asObject is" + testab); expect(testab != null).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15300:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_15300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_15400 * @tc.name MessageParcel sendMessageRequest API test * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_15400", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_15400---------------------------"); try{ let data = rpc.MessageSequence.create(); let Capacity = data.getRawDataCapacity() let rawdata = [1, 2, 3]; let option = new rpc.MessageOption(); let reply = rpc.MessageSequence.create(); data.writeInt(rawdata.length); data.writeRawData(rawdata, rawdata.length); if (gIRemoteObject == undefined){ console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15400: gIRemoteObject undefined"); } await gIRemoteObject.sendMessageRequest(CODE_WRITE_RAWDATA, data, reply, option).then((result) => { expect(result.errCode == 0).assertTrue(); let size = result.reply.readInt(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15400:run readInt is " + size); var newReadResult = result.reply.readRawData(size) console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15400:run readRawData is " + newReadResult.length); expect(newReadResult != rawdata).assertTrue(); }); data.reclaim(); reply.reclaim(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15400 : error = " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_15400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_15500 * @tc.name Invoke the writestring interface to write data to the messageparcel instance SendRequest Asynchronous * Authentication onRemoteMessageRequest Server Processing * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_15500", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_15500---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15500: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var token = 'onRemoteMessageRequest invoking'; var result = data.writeString(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15500:run writeStringis is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15500: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_STRING, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15500: sendRequestis is " + result.errCode); var replyReadResult = result.reply.readString(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15500: run readString is " + replyReadResult); expect(replyReadResult).assertEqual(token); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15500:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_15500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_15600 * @tc.name Invoke the writestring interface to write data to the messageparcel instance sendMessageRequest Asynchronous * Authentication onRemoteMessageRequest Server Processing * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_15600", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_15600---------------------------"); try{ var data = rpc.MessageSequence.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15600: create object successfully."); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var token = 'onRemoteMessageRequest invoking'; data.writeString(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15600:run writeStringis is success"); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15600: gIRemoteObject is undefined"); } await gIRemoteObject.sendMessageRequest(CODE_WRITE_STRING, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15600: sendRequestis is " + result.errCode); var replyReadResult = result.reply.readString(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15600: run readString is " + replyReadResult); expect(replyReadResult).assertEqual(token); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15600:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_15600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_15700 * @tc.name Invoke the writestring interface to write data to the messageparcel instance. SendRequest asynchronously * verifies the priority processing levels of onRemoteMessageRequest and onRemoteRequest * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_15700", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_15700---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15700: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); var token = "onRemoteRequest or onRemoteMessageRequest invoking"; var result = data.writeString(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15700:run writeStringis is " + result); expect(result == true).assertTrue(); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15700: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_ONREMOTEMESSAGE_OR_ONREMOTE, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15700: sendRequestis is " + result.errCode); var replyReadResult = result.reply.readString(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15700: run readString is " + replyReadResult); expect(replyReadResult).assertEqual("onRemoteMessageRequest invoking"); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15700:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_15700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_15800 * @tc.name Invoke the writestring interface to write data to the messageparcel instance. sendMessageRequest asynchronously verifies * the priority processing levels of onRemoteMessageRequest and onRemoteRequest * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_15800", 0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_15800---------------------------"); try{ var data = rpc.MessageSequence.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15800: create object successfully."); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var token = 'onRemoteRequest or onRemoteMessageRequest invoking'; data.writeString(token); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15800: gIRemoteObject is undefined"); } await gIRemoteObject.sendMessageRequest(CODE_ONREMOTEMESSAGE_OR_ONREMOTE, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15800: sendRequestis is " + result.errCode); var replyReadResult = result.reply.readString(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15800: run readString is " + replyReadResult); expect(replyReadResult).assertEqual("onRemoteMessageRequest invoking"); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15800:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_15800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_15900 * @tc.name Call the 401 interface to set the writeString of MessageSequence * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_15900", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_15900---------------------------"); try{ var data = rpc.MessageSequence.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15900: create object successfully."); var token = ''; for(var i = 0; i < 40*K; i++){ token += 'a'; }; var result = data.writeString(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15900:run writeStringis is " + result); data.reclaim(); } catch (error) { let errCode = `${rpc.ErrorCode.CHECK_PARAM_ERROR}` console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15900: errorCode " + error.code); expect(error.code == errCode).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_15900: errorMessage " + error.message); expect(error.message != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_15900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_16000 * @tc.name Call the 1900011 interface, write the interface descriptor, and read interfacetoken * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_16000", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_16000---------------------------"); try{ var data = rpc.MessageSequence.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16000: create object successfully"); data.setSize(0); data.setCapacity(0); var token = "hello ruan zong xian"; data.writeInterfaceToken(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16000:run writeInterfaceToken result "); data.reclaim(); } catch (error) { let errCode = `${rpc.ErrorCode.PARCEL_MEMORY_ALLOC_ERROR}`; console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16000: errorCode " + error.code); expect(error.code == errCode).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16000: errorMessage " + error.message); expect(error.message != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_16000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_16100 * @tc.name Call the 1900009 interface, write the interface descriptor, and read interfacetoken * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_16100", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_16100---------------------------"); try{ var data = rpc.MessageSequence.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16100: create object successfully."); data.setSize(true); data.setCapacity(true); var token = "hello ruan zong xian"; data.writeInterfaceToken(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16100:run writeInterfaceToken result is "); data.reclaim(); } catch (error) { let errCode = `${rpc.ErrorCode.WRITE_DATA_TO_MESSAGE_SEQUENCE_ERROR}`; console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16100: errorCode " + error.code); expect(error.code != errCode).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16100: errorMessage " + error.message); expect(error.message != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_16100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_16200 * @tc.name Call the setcapacity interface to set the capacity of messageparcel * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_16200", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_16200---------------------------"); try{ var data = rpc.MessageSequence.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16200: create object successfully."); let sequenceable = new MySequenceable(1, "aaa"); data.writeParcelable(sequenceable); let ret = new MySequenceable(0, ""); data.setCapacity(0); data.readParcelable(ret); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16200: readParcelable is." + ret); } catch (error) { let errCode = `${rpc.ErrorCode.PARCEL_MEMORY_ALLOC_ERROR}`; console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16000: errorCode " + error.code); expect(error.code == errCode).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16000: errorMessage " + error.message); expect(error.message != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_16200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_16300 * @tc.name Call the 1900008 interface to serialize the remote object and pass in the empty object * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_16300", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_16300---------------------------"); try{ var data = rpc.MessageSequence.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16300: create object successfully."); var token = {} var result = data.writeRemoteObject(token); } catch (error) { let errCode = `${rpc.ErrorCode.PROXY_OR_REMOTE_OBJECT_INVALID_ERROR}`; console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16300: errorCode " + error.code); expect(error.code == errCode).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16300: errorMessage " + error.message); expect(error.message != null).assertTrue(); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_16300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_16400 * @tc.name Call the writeparcelable 1900012 interface to write the custom serialized * object to the MessageSequence instance * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_16400", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_16400---------------------------"); try{ var data = rpc.MessageSequence.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16400: create object successfully."); let sequenceable = new MySequenceableCode(1, "aaa"); data.writeParcelable(sequenceable); data.setCapacity(0); data.setSize(0); let ret = new MySequenceable(1, ""); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16400 : setCapacity and setSize"); data.readParcelable(ret); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16100: readParcelable is." + ret); } catch (error) { let errCode = `${rpc.ErrorCode.CALL_JS_METHOD_ERROR}`; console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16400:error = " + error.message); expect(error.message != null).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16400:error = " + error.code); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_16400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_16500 * @tc.name Call the writeinterfacetoken interface, write the interface descriptor, and read interfacetoken * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_16500", 0, function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_16500---------------------------"); try{ var data = rpc.MessageSequence.create(); var token = "hello ruan zong xian"; data.writeInterfaceToken(token); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16500:run writeInterfaceToken result is success"); data.setCapacity(0); data.setSize(0); var resultToken = data.readInterfaceToken(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16500:run readInterfaceToken result is " + resultToken); data.reclaim(); } catch (error) { let errCode = `${rpc.ErrorCode.READ_DATA_FROM_MESSAGE_SEQUENCE_ERROR}`; console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16500:error = " + error.message); expect(error.message != null).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16500:error = " + error.code); expect(error.code != errCode).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_16500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageParcel_16600 * @tc.name Test 1900013 messageparcel delivery file descriptor object * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageParcel_16600", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageParcel_16600---------------------------"); try { let filePath = "path/to/file"; let fd = fileio.openSync(filePath, null); let newFd = rpc.MessageSequence.dupFileDescriptor(fd); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16600: newFd " +newFd); } catch(error) { let errCode = `${rpc.ErrorCode.OS_DUP_ERROR}`; console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16600: errorCode " + error.code); expect(error.code != errCode).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_MessageParcel_16600: errorMessage" + error.message); expect(error.message != null).assertTrue(); } done() console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageParcel_16600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageOption_00100 * @tc.name Basic method of testing messageoption * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageOption_00100",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageOption_00100---------------------------"); try{ let option = new rpc.MessageOption(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00100: create object successfully."); let time = option.getWaitTime(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00100: run getWaitTime success, time is " + time); expect(time).assertEqual(rpc.MessageOption.TF_WAIT_TIME); option.setWaitTime(16); let time2 = option.getWaitTime(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00100: run getWaitTime success, time is " + time2); expect(time2).assertEqual(16); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00100: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageOption_00100---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageOption_00200 * @tc.name Basic method of testing messageoption * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageOption_00200",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageOption_00200---------------------------"); try{ let option = new rpc.MessageOption(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00200: create object successfully."); let time = option.getWaitTime(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00200: run getWaitTime success, time is " + time); expect(time).assertEqual(rpc.MessageOption.TF_WAIT_TIME); option.setWaitTime(0); let time2 = option.getWaitTime(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00200: run getWaitTime success, time is " + time2); expect(time2).assertEqual(rpc.MessageOption.TF_WAIT_TIME); option.setWaitTime(60); let time3 = option.getWaitTime(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00200: run getWaitTime success, time is " + time3); expect(time3).assertEqual(60); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00200: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageOption_00200---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageOption_00300 * @tc.name Basic method of testing messageoption * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageOption_00300",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageOption_00300---------------------------"); try{ let option = new rpc.MessageOption(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00300: create object successfully."); let time = option.getWaitTime(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00300: run getWaitTime success, time is " + time); expect(time).assertEqual(rpc.MessageOption.TF_WAIT_TIME); option.setWaitTime(-1); let time2 = option.getWaitTime(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00300: run getWaitTime success, time is " + time2); expect(time2).assertEqual(rpc.MessageOption.TF_WAIT_TIME); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00300: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageOption_00300---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageOption_00400 * @tc.name Basic method of testing messageoption * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageOption_00400",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageOption_00400---------------------------"); try{ let option = new rpc.MessageOption(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00400: create object successfully."); let time = option.getWaitTime(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00400: run getWaitTime success, time is " + time); expect(time).assertEqual(rpc.MessageOption.TF_WAIT_TIME); option.setWaitTime(61); let time2 = option.getWaitTime(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00400: run getWaitTime success, time is " + time2); expect(time2).assertEqual(61); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00400: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageOption_00400---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageOption_00500 * @tc.name Basic method of testing messageoption * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageOption_00500",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageOption_00500---------------------------"); try{ let option = new rpc.MessageOption(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00500: create object successfully."); let flog = option.getFlags(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00500: run getFlags success, flog is " + flog); expect(flog).assertEqual(rpc.MessageOption.TF_SYNC); option.setFlags(1) console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00500: run setFlags success"); let flog2 = option.getFlags(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00500: run getFlags success, flog2 is " + flog2); expect(flog2).assertEqual(rpc.MessageOption.TF_ASYNC); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00500: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageOption_00500---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageOption_00600 * @tc.name Basic method of testing messageoption * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageOption_00600",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageOption_00600---------------------------"); try{ let option = new rpc.MessageOption(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00600: create object successfully."); let flog = option.getFlags(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00600: run getFlags success, flog is " + flog); expect(flog).assertEqual(rpc.MessageOption.TF_SYNC); option.setFlags(1); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00600: run setFlags success"); let flog2 = option.getFlags(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00600: run getFlags success, flog2 is " + flog2); expect(flog2).assertEqual(rpc.MessageOption.TF_ASYNC); option.setFlags(0); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00600: run setFlags success"); let flog3 = option.getFlags(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00600: run getFlags success, flog2 is " + flog3); expect(flog2).assertEqual(rpc.MessageOption.TF_ASYNC); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00600: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageOption_00600---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageOption_00700 * @tc.name Basic method of testing messageoption * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageOption_00700",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageOption_00700---------------------------"); try{ let option = new rpc.MessageOption(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00700: create object successfully."); let flog = option.getFlags(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00700: run getFlags success, flog is " + flog); expect(flog).assertEqual(rpc.MessageOption.TF_SYNC); option.setFlags(-1); let flog2 = option.getFlags(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00700: run getFlags success, flog2 is " + flog2); expect(flog2).assertEqual(-1); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00700: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageOption_00700---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageOption_00800 * @tc.name Basic method of testing messageoption * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageOption_00800",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageOption_00800---------------------------"); try{ let option = new rpc.MessageOption(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00800: create object successfully."); let flog = option.getFlags(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00800: run getFlags success, flog is " + flog); expect(flog).assertEqual(rpc.MessageOption.TF_SYNC); option.setFlags(3); let flog2 = option.getFlags(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00800: run getFlags success, flog2 is " + flog2); expect(flog2).assertEqual(3); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00800: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageOption_00800---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageOption_00900 * @tc.name Basic method of testing messageoption * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageOption_00900",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageOption_00900---------------------------"); try{ expect(rpc.MessageOption.TF_SYNC).assertEqual(0); expect(rpc.MessageOption.TF_ASYNC).assertEqual(1); expect(rpc.MessageOption.TF_WAIT_TIME).assertEqual(4); expect(rpc.MessageOption.TF_ACCEPT_FDS).assertEqual(0x10); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_MessageOption_00900: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageOption_00900---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageOption_01000 * @tc.name Basic method of testing messageoption * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageOption_01000",0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageOption_01000---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01000: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); option.setWaitTime(20); option.setFlags(0); var token = "option"; var result = data.writeString(token); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01000:run writeStringis is " + result); expect(result).assertTrue(); expect(option.getFlags()).assertEqual(0); expect(option.getWaitTime()).assertEqual(20); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01000: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_STRING, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01000: sendRequestis is " + result.errCode); var replyReadResult = result.reply.readString(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01000: run readString is " + replyReadResult); expect(replyReadResult).assertEqual(token); expect(option.getFlags()).assertEqual(0); expect(option.getWaitTime()).assertEqual(20); }); data.reclaim(); reply.reclaim(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01000: error " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageOption_01000---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageOption_01100 * @tc.name Basic method of testing messageoption * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageOption_01100",0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageOption_01100---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01100: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); option.setFlags(1); var token = "option"; var result = data.writeString(token); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01100:run writeStringis is " + result); expect(result).assertTrue(); expect(option.getFlags()).assertEqual(1); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01100: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_STRING, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01100: sendRequestis is " + result.errCode); var replyReadResult = result.reply.readString(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01100: run readString is " + replyReadResult); expect(replyReadResult).assertEqual("option"); expect(option.getFlags()).assertEqual(1); }); data.reclaim(); reply.reclaim(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01100: error " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageOption_01100---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageOption_01200 * @tc.name Basic method of testing messageoption * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageOption_01200",0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageOption_01200---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01200: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); option.setFlags(3); var token = "option"; var result = data.writeString(token); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01200:run writeStringis is " + result); expect(result).assertTrue(); expect(option.getFlags()).assertEqual(3); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01200: gIRemoteObject is undefined"); } await gIRemoteObject.sendRequest(CODE_WRITE_STRING, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01200: sendRequestis is " + result.errCode); var replyReadResult = result.reply.readString(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01200: run readString is " + replyReadResult); expect(replyReadResult).assertEqual("option"); expect(option.getFlags()).assertEqual(3); }); data.reclaim(); reply.reclaim(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01200: error " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageOption_01200---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageOption_01300 * @tc.name MessageOption sendMessageRequest test * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageOption_01300",0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageOption_01300---------------------------"); try{ var data = rpc.MessageSequence.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01300: create object successfully."); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); option.setFlags(1); var token = "option"; data.writeString(token); expect(option.getFlags()).assertEqual(1); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01300: gIRemoteObject is undefined"); } await gIRemoteObject.sendMessageRequest(CODE_WRITE_STRING, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01300: sendMessageRequest is " + result.errCode); var replyReadResult = result.reply.readString(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01300: run readString is " + replyReadResult); expect(replyReadResult).assertEqual("option"); expect(option.getFlags()).assertEqual(1); }); data.reclaim(); reply.reclaim(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01300: error " + error); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageOption_01300---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageOption_01400 * @tc.name MessageOption sendMessageRequest test * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_MessageOption_01400",0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageOption_01400---------------------------"); try{ var data = rpc.MessageSequence.create(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01400: create object successfully."); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); var token = "option"; data.writeString(token); let isAsyncData0 = option.isAsync(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01400: run isAsync is " + isAsyncData0); expect(isAsyncData0).assertEqual(false); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01400: gIRemoteObject is undefined"); } await gIRemoteObject.sendMessageRequest(CODE_WRITE_STRING, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01400: sendMessageRequest is " + result.errCode); let isAsyncData = option.isAsync(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01400: run isAsync is " + isAsyncData); expect(isAsyncData).assertEqual(false); var replyReadResult = result.reply.readString(); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01400: run readString is " + replyReadResult); expect(replyReadResult).assertEqual(token); }); data.reclaim(); reply.reclaim(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01400: error " + error); expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageOption_01400---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageOption_01500 * @tc.name MessageOption setAsync is true test * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageOption_01500",0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageOption_01500---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); option.setAsync(true); var token = "option"; data.writeString(token); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01500: gIRemoteObject is undefined"); } await gIRemoteObject.sendMessageRequest(CODE_WRITE_STRING, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); let isAsyncData = option.isAsync(); expect(isAsyncData).assertTrue(); var replyReadResult = result.reply.readString(); expect(replyReadResult).assertEqual("option"); }); data.reclaim(); reply.reclaim(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01500: error " + error); expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageOption_01500---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageOption_01600 * @tc.name setAsync is false sendMessageRequest test * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageOption_01600",0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageOption_01600---------------------------"); try{ var data = rpc.MessageSequence.create(); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); option.setAsync(false); var token = "option"; data.writeString(token); if (gIRemoteObject == undefined) { console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01600: gIRemoteObject is undefined"); } await gIRemoteObject.sendMessageRequest(CODE_WRITE_STRING, data, reply, option).then((result) => { expect(result.errCode).assertEqual(0); let isAsyncData = option.isAsync(); expect(isAsyncData).assertEqual(false); var replyReadResult = result.reply.readString(); expect(replyReadResult).assertEqual(token); }); data.reclaim(); reply.reclaim(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01600: error " + error); expect(error == null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageOption_01600---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_MessageOption_01700 * @tc.name setAsync sendMessageRequest test * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_MessageOption_01700",0, async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_MessageOption_01700---------------------------"); try{ var option = new rpc.MessageOption(); option.setAsync(3); console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01700: setAsync is success"); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_MessageOption_01700: error " + error); expect(error != null).assertTrue(); } done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_MessageOption_01700---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_00100 * @tc.name Exception parameter validation of the created anonymous shared memory object * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_00100",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_00100---------------------------"); try{ let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", -1); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00100: ashmem " + ashmem); let ashmem2 = rpc.Ashmem.createAshmem(null, K); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00100: ashmem2 " + ashmem2); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00100: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_00100---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_00200 * @tc.name Call the getashmemsize interface to get the size of the shared memory object * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_00200",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_00200---------------------------"); try{ var mapSize = 2*G - 1; var jsash = ""; for (let i = 0;i < (256 - 1);i++){ jsash += "a"; } console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00200: run createAshmem success" + jsash.length); let ashmem = rpc.Ashmem.createAshmem(jsash, mapSize); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00200: run createAshmem success" + ashmem); expect(ashmem != null).assertTrue(); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00200: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_00200---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_00300 * @tc.name Call the getashmemsize interface to get the size of the shared memory object * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_00300",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_00300---------------------------"); try{ let mapSize = 2*G - 1; let jsash = ''; for (let i = 0;i < 256;i++){ jsash += 'a'; } console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00300: run createAshmem success" + jsash.length); let ashmem = rpc.Ashmem.createAshmem(jsash, mapSize); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00300: run createAshmem success" + ashmem); ashmem.closeAshmem(); }catch(error){ expect(error != null).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00300: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_00300---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_00400 * @tc.name Call the getashmemsize interface to get the size of the shared memory object * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_00400",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_00400---------------------------"); try{ let mapSize = 2*G - 1; let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", mapSize); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00400: run createAshmem success" + ashmem); let size = ashmem.getAshmemSize(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00400: run getAshmemSize success, size is " + size); expect(size).assertEqual(mapSize); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00400: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_00400---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_00500 * @tc.name Call the getashmemsize interface to get the size of the shared memory object * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_00500",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_00500---------------------------"); try{ let mapSize = 2*G; let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest ", mapSize); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00500: run createAshmem success " + ashmem); let size = ashmem.getAshmemSize(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00500: run getAshmemSize success, size is " + size); expect(size).assertEqual(mapSize); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00500: error " + error); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_00500---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_00600 * @tc.name Writeashmem exception validation * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_00600",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_00600---------------------------"); try{ let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", 4096); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00600: ashmem " + ashmem); ashmem.closeAshmem(); var data = rpc.MessageParcel.create(); let writeAshmem = data.writeAshmem(ashmem); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00600: run writeAshmem success, writeAshmem is " + writeAshmem); expect(writeAshmem).assertEqual(false); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00600: error " + error); } data.reclaim(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_00600---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_00700 * @tc.name Readfromashmem exception validation * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_00700",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_00700---------------------------"); try{ let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", 4096); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00700: ashmem " + ashmem); ashmem.unmapAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00700: run unmapAshmem success"); let bytes = [1, 2, 3, 4, 5]; let ret = ashmem.readFromAshmem(bytes.length, 0); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00700: run readFromAshmem result is " + ret); expect(ret==null).assertTrue(); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00700: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_00700---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_00800 * @tc.name Mapashmem interface creates shared file mappings * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_00800",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_00800---------------------------"); try{ let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", 4096); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00800: ashmem " + ashmem); let result = ashmem.mapAshmem(rpc.Ashmem.PROT_READ); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00800: run mapAshmemis is " + result); expect(result).assertTrue(); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00800: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_00800---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_00900 * @tc.name Mapashmem exception validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_00900",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_00900---------------------------"); try{ let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", (2*G - 1)) console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00900: ashmem " + ashmem); let result = ashmem.mapAshmem(999); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00900: run mapAshmemis is " + result); expect(result).assertEqual(false); ashmem.closeAshmem() }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_00900: error " + error); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_00900---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_01000 * @tc.name Mapreadandwriteashmem interface creates a shared file map with the protection level of read-write * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_01000",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_01000---------------------------"); try{ let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", K); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01000: ashmem " + ashmem); let result = ashmem.mapReadAndWriteAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01000: run mapAshmemis is " + result); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01000: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_01000---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_01100 * @tc.name Mapreadandwriteashmem exception validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_01100",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_01100---------------------------"); try{ let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", 4096); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01100: ashmem " + ashmem); let result = ashmem.mapAshmem(rpc.Ashmem.PROT_READ); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01100: run mapAshmemis is " + result); expect(result).assertTrue(); ashmem.unmapAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01100: run unmapAshmem success"); let result2 = ashmem.mapReadAndWriteAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01100: run mapReadAndWriteAshmemis2 is " + result2); expect(result2).assertTrue(); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01100: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_01100---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_01200 * @tc.name Mapreadonlyashmem interface creates a shared file map with the protection level of read-write * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_01200",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_01200---------------------------"); try{ let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", 4096); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01200: ashmem " + ashmem); let result = ashmem.mapReadOnlyAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01200: run mapReadAndWriteAshmemis is " + result); expect(result).assertTrue(); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01200: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_01200---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_01300 * @tc.name Mapreadonlyashmem exception validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_01300",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_01300---------------------------"); try{ let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", K); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01300: ashmem " + ashmem); let result = ashmem.mapAshmem(rpc.Ashmem.PROT_WRITE); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01300: run mapAshmemis is " + result); expect(result).assertTrue(); ashmem.unmapAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01300: run unmapAshmem success"); ashmem.closeAshmem(); let result2 = ashmem.mapReadOnlyAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01300: run mapReadAndWriteAshmemis2 is " + result2); expect(result2).assertEqual(false); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01300: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_01300---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_01400 * @tc.name Mapreadonlyashmem exception validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_01400",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_01400---------------------------"); try{ let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", K); let resultwrite = ashmem.setProtection(rpc.Ashmem.PROT_WRITE); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01400: run setProtectioniswrite is " + resultwrite); expect(resultwrite).assertTrue(); let resultread = ashmem.setProtection(rpc.Ashmem.PROT_READ); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01400: run setProtectionisread is " + resultread); expect(resultread).assertEqual(false); let resultreadAndwrite = ashmem.mapReadAndWriteAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01400: run setProtection success, mapReadAndWriteAshmem is " + resultreadAndwrite); expect(resultreadAndwrite ).assertEqual(false); let resultnone = ashmem.setProtection(rpc.Ashmem.PROT_NONE); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01400: run setProtectionisnone is " + resultnone); expect(resultnone).assertTrue(); let resultread2 = ashmem.setProtection(rpc.Ashmem.PROT_READ); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01400: run setProtectionisread2 is " + resultread2); expect(resultread2).assertEqual(false); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01400: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_01400---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_01500 * @tc.name Setprotection exception input parameter verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_01500",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_01500---------------------------"); try{ let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", K); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01500: ashmem " + ashmem); let result = ashmem.setProtection(3); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01500: run setProtectionis is " + result); expect(result).assertTrue(); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01500: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_01500---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_01600 * @tc.name The writetoashmem interface writes the shared file associated with the object * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_01600",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_01600---------------------------"); try{ let mapSize = 4096; let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", mapSize); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01600: ashmem " + ashmem); let resultMapRAndW = ashmem.mapReadAndWriteAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01600: run mapReadAndWriteAshmemis2 is " + resultMapRAndW); expect(resultMapRAndW).assertTrue(); let bytes = [1, 2, 3, 4, 5]; let result = ashmem.writeToAshmem(bytes, bytes.length, 0); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01600: run writeToAshmemis is " + result); expect(result).assertTrue(); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01600: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_01600---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_01700 * @tc.name The writetoashmem interface writes the shared file associated with the object * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_01700",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_01700---------------------------"); try{ let mapSize = 4096; let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", mapSize); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01700: ashmem " + ashmem); let resultMapRAndW = ashmem.mapReadAndWriteAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01700: run mapReadAndWriteAshmemis2 is " + resultMapRAndW); expect(resultMapRAndW).assertTrue(); let bytes = [-2147483648,2147483647]; let result = ashmem.writeToAshmem(bytes, bytes.length, 0); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01700: run writeToAshmemis is " + result); expect(result).assertTrue(); let reresult = ashmem.readFromAshmem(bytes.length,0); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01700: run readFromAshmemis is " + reresult); assertArrayElementEqual(reresult,bytes); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01700: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_01700---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_01800 * @tc.name The writetoashmem interface writes the shared file associated with the object * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_01800",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_01800---------------------------"); try{ let mapSize = 4096; let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", mapSize); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01800: ashmem " + ashmem); let resultMapRAndW = ashmem.mapReadAndWriteAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01800: run mapReadAndWriteAshmemis2 is " + resultMapRAndW); expect(resultMapRAndW).assertTrue(); let bytes = [-2147483649,2147483647]; let result = ashmem.writeToAshmem(bytes, bytes.length, 0); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01800: run writeToAshmemis is " + result); expect(result).assertTrue(); let readresult = ashmem.readFromAshmem(bytes.length,0); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01800: run readFromAshmemis is " + readresult); expect(readresult[0]).assertEqual(2147483647); expect(readresult[1]).assertEqual(bytes[1]); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01800: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_01800---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_01900 * @tc.name The writetoashmem interface writes the shared file associated with the object * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_01900",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_01900---------------------------"); try{ let mapSize = 4096; let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", mapSize); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01900: ashmem " + ashmem); let resultMapRAndW = ashmem.mapReadAndWriteAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01900: run mapReadAndWriteAshmemis2 is " + resultMapRAndW); expect(resultMapRAndW).assertTrue(); let bytes = [-2147483648,2147483648]; let result = ashmem.writeToAshmem(bytes, bytes.length, 0); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01900: run writeToAshmemis is " + result); expect(result).assertTrue(); let reresult = ashmem.readFromAshmem(bytes.length,0); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01900: run readFromAshmemis is " + reresult); expect(reresult[0]).assertEqual(bytes[0]); expect(reresult[1]).assertEqual(-2147483648); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_01900: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_01900---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_02000 * @tc.name The writetoashmem interface writes the shared file associated with the object * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_02000",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_02000---------------------------"); try{ let mapSize = 2*M; let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", mapSize); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02000: ashmem " + ashmem); let resultMapRAndW = ashmem.mapReadAndWriteAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02000: run mapReadAndWriteAshmemis2 is " + resultMapRAndW); expect(resultMapRAndW).assertTrue(); let bytes = [0,1]; let result = ashmem.writeToAshmem(bytes, bytes.length, 2147483647); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02000: run writeToAshmemis is " + result); expect(result).assertEqual(false); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02000: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_02000---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_02100 * @tc.name The writetoashmem interface writes the shared file associated with the object * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_02100",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_02100---------------------------"); try{ let mapSize = 2*M; let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", mapSize); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02100: ashmem " + ashmem); let resultMapRAndW = ashmem.mapReadAndWriteAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02100: run mapReadAndWriteAshmemis2 is " + resultMapRAndW); expect(resultMapRAndW).assertTrue(); let bytes = [0,1]; let result = ashmem.writeToAshmem(bytes, bytes.length, 2147483648); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02100: run writeToAshmemis is " + result); expect(result).assertTrue(); let readresult1 = ashmem.readFromAshmem(bytes.length,0); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02100: run readFromAshmemis is " + readresult1); assertArrayElementEqual(readresult1,bytes); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02100: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_02100---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_02200 * @tc.name The writetoashmem interface writes the shared file associated with the object * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_02200",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_02200---------------------------"); try{ let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", 4096); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02200: ashmem " + ashmem); let resultMapRAndW = ashmem.mapReadAndWriteAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02200: run mapReadAndWriteAshmemis2 is " + resultMapRAndW); expect(resultMapRAndW).assertTrue(); let bytes = [1, 2, 3, 4, 5]; let result = ashmem.writeToAshmem(bytes, bytes.length, 0); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02200: run writeToAshmemis is " +result); expect(result).assertTrue(); let resultread = ashmem.setProtection(rpc.Ashmem.PROT_READ); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02200: run setProtectionisread is " + resultread); expect(resultread).assertTrue(); let result2 = ashmem.writeToAshmem(bytes, bytes.length, 0); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02200: run writeToAshmemis is2 " + result2); expect(result2).assertEqual(false); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02200: error " +error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_02200---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_02300 * @tc.name Writetoashmem exception validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_02300",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_02300---------------------------"); try{ let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", 4096); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02300: ashmem " + ashmem); let resultMapRAndW = ashmem.mapReadAndWriteAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02300: run mapReadAndWriteAshmemis2 is " + resultMapRAndW); expect(resultMapRAndW).assertTrue(); let bytes = [1, 2, 3, 4, 5]; let size = bytes.length + 10; let result = ashmem.writeToAshmem(bytes, 3, 0); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02300: run writeToAshmemis is " + result); expect(result).assertTrue(); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02300: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_02300---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_02400 * @tc.name Read data from the shared file associated with readfromashmem * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_02400",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_02400---------------------------"); try{ let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", 4096); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02400: ashmem " + ashmem); let resultMapRAndW = ashmem.mapReadAndWriteAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02400: run mapReadAndWriteAshmemis2 is " + resultMapRAndW); expect(resultMapRAndW).assertTrue(); let bytes = [1, 2, 3, 4, 5]; let result = ashmem.writeToAshmem(bytes, bytes.length, 0); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02400: run writeToAshmemis is " + result); expect(result).assertTrue(); var resultRead = ashmem.readFromAshmem(bytes.length, 0); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02400: run readFromAshmemis is " + resultRead); assertArrayElementEqual(resultRead,bytes); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02400: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_02400---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_02500 * @tc.name Readfromashmem exception validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_02500",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_02500---------------------------"); try{ let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", 4096); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02500: ashmem " + ashmem); let resultMapRAndW = ashmem.mapReadAndWriteAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02500: run mapReadAndWriteAshmemis2 is " + resultMapRAndW); expect(resultMapRAndW).assertTrue(); let bytes = [1, 2, 3, 4, 5]; let result = ashmem.writeToAshmem(bytes, bytes.length, 1); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02500: run writeToAshmemis is " + result); expect(result).assertTrue(); let result2 = ashmem.readFromAshmem(bytes.length, 3); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02500: run readFromAshmemis2 is " + result2); expect(bytes[2]).assertEqual(result2[0]); expect(bytes[3]).assertEqual(result2[1]); expect(bytes[4]).assertEqual(result2[2]); ashmem.closeAshmem() }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02500: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_02500---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_02600 * @tc.name Createashmemfromexisting copies the ashmem object description and creates a new object * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_02600",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_02600---------------------------"); try{ let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", 4096); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02600: ashmem " + ashmem); let resultWriteAndRead = ashmem.mapReadAndWriteAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02600: run mapReadAndWriteAshmem result " + resultWriteAndRead); expect(resultWriteAndRead).assertTrue(); let bytes = [1, 2, 3]; let result = ashmem.writeToAshmem(bytes, bytes.length, 1); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02600: run writeToAshmemis " + result); expect(result).assertTrue() let newashmem = rpc.Ashmem.createAshmemFromExisting(ashmem); let resultWriteAndRead2 = newashmem.mapReadAndWriteAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02600: run mapReadAndWriteAshmem result " + resultWriteAndRead2); expect(resultWriteAndRead2).assertTrue(); let result2 = newashmem.readFromAshmem(bytes.length, 1); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02600: run readFromAshmemis2 is " + result2); expect(result).assertTrue(); assertArrayElementEqual(result2,bytes); ashmem.closeAshmem(); newashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02600: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_02600---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_02700 * @tc.name Create a shared memory object and call writeashmem to write the shared anonymous object into the messageparcel object * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_02700",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_02700---------------------------"); try{ let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", K); let data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02700: ashmem " + ashmem); let resultMapRAndW = ashmem.mapReadAndWriteAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02700: run mapReadAndWriteAshmem result is " + resultMapRAndW); expect(resultMapRAndW).assertTrue(); let bytes = [1, 2, 3]; let result = ashmem.writeToAshmem(bytes, bytes.length, 1); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02700: run writeToAshmemis is " + result); expect(result).assertTrue() let result2 = data.writeAshmem(ashmem) console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02700: run writeAshmemis is " + result2); expect(result2).assertTrue(); let retReadAshmem = data.readAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02700: run readAshmem is " + retReadAshmem); let retBytes = retReadAshmem.readFromAshmem(bytes.length, 1); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02700: run readFromAshmem result is " + retBytes); ashmem.closeAshmem(); data.reclaim(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02700: error " +error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_02700---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_02800 * @tc.name Create a non shared memory object and call writeashmem to write the messageparcel object object into the messageparcel object * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_02800",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_02800---------------------------"); try{ let data = rpc.MessageParcel.create(); let data2 = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02800: create MessageParcel object success"); let result = data.writeAshmem(data2); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02800: run writeAshmemis is " + result); data.reclaim(); data2.reclaim(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02800: error " + error); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_02800---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_02900 * @tc.name Create a non shared memory object and call writeashmem to write the messageparcel object object into the messageparcel object * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_02900",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_02900---------------------------"); try{ let ashmem = rpc.Ashmem.createAshmem("JsAshmemTest", K); let resultwrite = ashmem.setProtection(rpc.Ashmem.PROT_EXEC); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02900: run setProtectioniswrite is " + resultwrite); expect(resultwrite).assertTrue(); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_02900: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_02900---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_03000 * @tc.name mapTypedAshmem interface creates shared file mappings * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_03000",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_03000---------------------------"); try{ let ashmem = rpc.Ashmem.create("JsAshmemTest", 4*K) console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03000: ashmem " + ashmem); let result = ashmem.mapTypedAshmem(ashmem.PROT_READ | ashmem.PROT_WRITE); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03000: run mapTypedAshmem is success"); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03000: error " + error); expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_03000---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_03100 * @tc.name mapTypedAshmem exception validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_03100",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_03100---------------------------"); try{ let ashmem = rpc.Ashmem.create("JsAshmemTest", (2*G - 1)) console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03100: ashmem " + ashmem); let result = ashmem.mapTypedAshmem(999); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03100: run mapTypedAshmem is success"); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03100: errorCode " + error.code); expect(error.code == 401).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03100: errormessage" + error.message); expect(error.message != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_03100---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_03200 * @tc.name mapTypedAshmem exception errorcode validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_03200",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_03200---------------------------"); try{ let ashmem = rpc.Ashmem.create("JsAshmemTest", (2*G)) console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03200: ashmem " + ashmem); let result = ashmem.mapTypedAshmem(ashmem.PROT_READ | ashmem.PROT_WRITE); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03200: run mapTypedAshmem is success"); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03200: errorCode " + error.code); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03200: errormessage" + error.message); expect(error.message != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_03200---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_03300 * @tc.name mapReadWriteAshmem interface creates a shared file map with the protection level of read-write * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_03300",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_03300---------------------------"); try{ let ashmem = rpc.Ashmem.create("JsAshmemTest", K); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03300: ashmem " + ashmem); ashmem.mapReadWriteAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03300: run mapReadWriteAshmem is success"); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03300: error " + error); expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_03300---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_03400 * @tc.name mapReadWriteAshmem exception validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_03400",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_03400---------------------------"); try{ let ashmem = rpc.Ashmem.create("JsAshmemTest", 4096); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03400: ashmem " + ashmem); ashmem.mapTypedAshmem(rpc.Ashmem.PROT_READ); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03400: run mapTypedAshmem is success"); ashmem.unmapAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03400: run unmapAshmem success"); ashmem.mapReadWriteAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03400: run mapReadWriteAshmem is success"); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03400: error " + error); expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_03400---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_03500 * @tc.name Mapreadonlyashmem interface creates a shared file map with the protection level of read-write * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_03500",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_03500---------------------------"); try{ let ashmem = rpc.Ashmem.create("JsAshmemTest", 4096); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03500: ashmem " + ashmem); ashmem.mapReadonlyAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03500: run mapReadonlyAshmem is success"); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03500: error " + error); expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_03500---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_03600 * @tc.name mapReadWriteAshmem exception validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_03600",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_03600---------------------------"); try{ let ashmem = rpc.Ashmem.create("JsAshmemTest", K); ashmem.setProtectionType(rpc.Ashmem.PROT_WRITE); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03600: run setProtectionType is success"); ashmem.setProtectionType(rpc.Ashmem.PROT_READ); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03600: run setProtectionType is success"); ashmem.mapReadWriteAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03600: run mapReadWriteAshmem success"); ashmem.setProtectionType(rpc.Ashmem.PROT_NONE); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03600: run setProtectionType is success"); ashmem.setProtectionType(rpc.Ashmem.PROT_READ); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03600: run setProtectionType is success"); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03600: error " + error); expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_03600---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_03700 * @tc.name setProtectionType exception input parameter verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_03700",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_03700---------------------------"); try{ let ashmem = rpc.Ashmem.create("JsAshmemTest", K); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03700: ashmem " + ashmem); ashmem.setProtectionType(3); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03700: run setProtectionType is success"); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03700: error " + error); expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_03700---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_03800 * @tc.name The writetoashmem interface writes the shared file associated with the object * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_03800",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_03800---------------------------"); try{ let ashmem = rpc.Ashmem.create("JsAshmemTest", 4096); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03800: ashmem " + ashmem); ashmem.mapReadWriteAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03800: run mapReadWriteAshmem is success"); let bytes = [1, 2, 3, 4, 5]; let result = ashmem.writeToAshmem(bytes, bytes.length, 0); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03800: run writeToAshmemis is " +result); expect(result).assertTrue(); ashmem.setProtectionType(rpc.Ashmem.PROT_READ); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03800: run setProtectionType is success"); let result2 = ashmem.writeToAshmem(bytes, bytes.length, 0); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03800: run writeToAshmemis is2 " + result2); expect(result2).assertEqual(false); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03800: error " +error); expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_03800---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_03900 * @tc.name Create a non shared memory object and call setProtectionType to write the messageparcel object * object into the messageparcel object * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_03900",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_03900---------------------------"); try{ let ashmem = rpc.Ashmem.create("JsAshmemTest", K); ashmem.setProtectionType(rpc.Ashmem.PROT_EXEC); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03900: run setProtectioniswrite is success"); ashmem.closeAshmem(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_03900: error " + error); expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_03900---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_04000 * @tc.name Mapreadonlyashmem exception validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_04000",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_04000---------------------------"); try{ let ashmem = rpc.Ashmem.create("JsAshmemTest", K); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04000: ashmem " + ashmem); ashmem.mapTypedAshmem(rpc.Ashmem.PROT_WRITE); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04000: run mapTypedAshmem is success"); ashmem.unmapAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04000: run unmapAshmem success"); ashmem.closeAshmem() ashmem.mapReadonlyAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04000: run mapReadonlyAshmem is success"); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04000: error " + error); expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_04000---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_04100 * @tc.name create is errorcode 401 exception validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_04100",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_04100---------------------------"); try{ let ashmem = rpc.Ashmem.create("ashmem", (2*G + 1)); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04100: ashmem " + ashmem); }catch(error){ let errCode = `${rpc.ErrorCode.CHECK_PARAM_ERROR}`; console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04100: errorCode " + error.code); expect(error.code == errCode).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04100: errorMessage " + error.message); expect(error.message != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_04100---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_04200 * @tc.name mapReadWriteAshmem exception validation 1900001 * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_04200",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_04200---------------------------"); try{ let ashmem = rpc.Ashmem.create("ashmem", (4*G - 1)); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04200: ashmem " + ashmem); ashmem.mapReadWriteAshmem(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04200: run mapReadWriteAshmem is success"); }catch(error){ let errCode = `${rpc.ErrorCode.OS_MMAP_ERROR}`; console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04200: error " + error.code); expect(error.code != errCode).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04200: error " + error.message); expect(error.message != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_04200---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_04300 * @tc.name create 401 exception validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_04300",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_04300---------------------------"); try{ let ashmem = rpc.Ashmem.create("ashmem", 0); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04300: ashmem " + ashmem); }catch(error){ let errCode = `${rpc.ErrorCode.CHECK_PARAM_ERROR}`; console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04300: errorCode " + error.code); expect(error.code == errCode).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04300: errorMessage " + error.message); expect(error.message != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_04300---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_04400 * @tc.name setProtectionType exception validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_04400",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_04400---------------------------"); try{ let ashmem = rpc.Ashmem.create("ashmem", 1024*1024); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04400: ashmem " + ashmem); ashmem.setProtectionType(0); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04400: run setProtectionType is success"); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04400: error " + error); expect(error).assertEqual(null); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_04400---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_04500 * @tc.name 401 exception validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_04500",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_04500---------------------------"); try{ let ashmem = rpc.Ashmem.create("ashmem", 1024*1024); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04500: ashmem " + ashmem); ashmem.setProtectionType(rpc.Ashmem.PROT_WRITE, rpc.Ashmem.PROT_READ); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04500: run setProtectionType is success"); }catch(error){ let errCode = `${rpc.ErrorCode.CHECK_PARAM_ERROR}`; console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04500: errorCode " + error.code); expect(error.code == errCode).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04500: errorMessage " + error.message); expect(error.message != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_04500---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_04600 * @tc.name setProtectionType is 1900002 exception validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_04600",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_04600---------------------------"); try{ let ashmem = rpc.Ashmem.create("ashmem", 1024*1024); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04600: ashmem " + ashmem); ashmem.setProtectionType(null); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04600: run setProtectionType is success"); }catch(error){ let errCode = `${rpc.ErrorCode.OS_IOCTL_ERROR}`; console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04600: errorCode " + error.code); expect(error.code != errCode).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04600: errorMessage " + error.message); expect(error.message != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_04600---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_04700 * @tc.name writeAshmem errCode 1900003 exception validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_04700",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_04700---------------------------"); try{ let data = rpc.MessageSequence.create(); let data2 = rpc.MessageSequence.create(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04700: create MessageSequence object success"); data.writeAshmem(data2); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04700: run writeAshmemis is " ); data.reclaim(); data2.reclaim(); }catch(error){ let errCode = `${rpc.ErrorCode.WRITE_TO_ASHMEM_ERROR}`; console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04700: error " + error.code); expect(error.code != errCode).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04700: error " + error.message); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_04700---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_04800 * @tc.name readAshmem exception validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_04800",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_04800---------------------------"); try{ let ashmem = rpc.Ashmem.create("ashmem", 1024); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04800: ashmem " + ashmem); ashmem.mapReadWriteAshmem(); var ByteArrayVar = [1, 2, 3, 4, 5]; ashmem.writeAshmem(ByteArrayVar, 5, 0); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04800: run writeAshmem is success"); let readResult = ashmem.readAshmem(5, 0); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04800: readAshmem is : " + readResult); }catch(error){ let errCode = `${rpc.ErrorCode.READ_FROM_ASHMEM_ERROR}`; console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04800: error " + error.code); expect(error.code != errCode).assertEqual(null); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_04800---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_04900 * @tc.name Call the getashmemsize interface to get the size of the shared memory object * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_04900",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_04900---------------------------"); try{ let mapSize = 2*G; let ashmem = rpc.Ashmem.create("JsAshmemTest ", mapSize); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04900: run create success " + ashmem); let size = ashmem.getAshmemSize(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04900: run getAshmemSize success, size is " + size); expect(size).assertEqual(mapSize); ashmem.closeAshmem(); }catch(error){ let errCode = `${rpc.ErrorCode.CHECK_PARAM_ERROR}`; console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04900: errorcode " + error.code); expect(error.code == errCode).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_04900: errormessage " + error.message); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_04900---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_05000 * @tc.name mapTypedAshmem errorcode 401 exception validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_05000",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_05000---------------------------"); try{ let ashmem = rpc.Ashmem.create("JsAshmemTest", (2*G - 1)); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_05000: ashmem " + ashmem); let result = ashmem.mapTypedAshmem(999); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_05000: run mapAshmemis is " + result); expect(result).assertEqual(false); ashmem.closeAshmem() }catch(error){ let errCode = `${rpc.ErrorCode.CHECK_PARAM_ERROR}`; console.info("SUB_Softbus_IPC_Compatibility_Ashmem_05000: errorcode " + error.code); expect(error.code == errCode).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_05000: errormessage " + error.message); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_05000---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_05100 * @tc.name mapTypedAshmem exception validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_05100",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_05100---------------------------"); try{ let ashmem = rpc.Ashmem.create("JsAshmemTest", (2*G - 1)); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_05100: ashmem " + ashmem); let result = ashmem.mapTypedAshmem(999); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_05100: run mapTypedAshmem is success"); ashmem.closeAshmem(); }catch(error){ let errCode = `${rpc.ErrorCode.OS_MMAP_ERROR}`; console.info("SUB_Softbus_IPC_Compatibility_Ashmem_05100: error " + error.code); expect(error.code != errCode).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_05100: error " + error.message); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_05100---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_Ashmem_05200 * @tc.name mapTypedAshmem exception errorcode validation * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_Ashmem_05200",0,function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_Ashmem_05200---------------------------"); try{ let ashmem = rpc.Ashmem.create("JsAshmemTest", (2*G - 1)); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_05200: ashmem " + ashmem); let result = ashmem.mapTypedAshmem(ashmem.PROT_READ | ashmem.PROT_WRITE); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_05200: run mapTypedAshmem is success"); ashmem.closeAshmem(); }catch(error){ let errCode = `${rpc.ErrorCode.CHECK_PARAM_ERROR}`; console.info("SUB_Softbus_IPC_Compatibility_Ashmem_05200: error " + error.code); expect(error.code != errCode).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_Ashmem_05200: error " + error.message); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_Ashmem_05200---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_IRemoteObject_00100 * @tc.name Call sendrequestresult interface to send data * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_IRemoteObject_00100",0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_IRemoteObject_00100---------------------------"); try{ let data = rpc.MessageParcel.create(); let reply = rpc.MessageParcel.create(); let option = new rpc.MessageOption(); let sequenceable = new MySequenceable(1, "aaa"); let result = data.writeSequenceable(sequenceable); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00100: run writeSequenceableis is " + result); await gIRemoteObject.sendRequest(CODE_WRITESEQUENCEABLE, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00100: sendRequestis is " + result.errCode); expect(result.errCode == 0).assertTrue(); let ret = new MySequenceable(0, ""); var shortArryDataReply = result.reply.readSequenceable(ret); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00100: run readSequenceable is " + shortArryDataReply); expect(shortArryDataReply == true).assertTrue(); expect(ret.num).assertEqual(1); expect(ret.str).assertEqual("aaa"); }); data.reclaim(); reply.reclaim(); done(); }catch(error){ console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00100: error " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IRemoteObject_00100---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_IRemoteObject_00200 * @tc.name Test that messageparcel passes through the same process, and the client * receives the reply message in promise * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_IRemoteObject_00200", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_IRemoteObject_00200---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00200: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); expect(data.writeByte(1)).assertTrue(); expect(data.writeShort(2)).assertTrue(); expect(data.writeInt(3)).assertTrue(); expect(data.writeLong(10000)).assertTrue(); expect(data.writeFloat(1.2)).assertTrue(); expect(data.writeDouble(10.2)).assertTrue(); expect(data.writeBoolean(true)).assertTrue(); expect(data.writeChar(5)).assertTrue(); expect(data.writeString("HelloWorld")).assertTrue(); expect(data.writeSequenceable(new MySequenceable(1, "aaa"))).assertTrue(); await gIRemoteObject.sendRequest(CODE_ALL_TYPE, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00200: sendRequest done, error code: " + result.errCode); expect(result.errCode).assertEqual(0); expect(result.reply.readByte()).assertEqual(1); expect(result.reply.readShort()).assertEqual(2); expect(result.reply.readInt()).assertEqual(3); expect(result.reply.readLong()).assertEqual(10000); expect(result.reply.readFloat()).assertEqual(1.2); expect(result.reply.readDouble()).assertEqual(10.2); expect(result.reply.readBoolean()).assertTrue(); expect(result.reply.readChar()).assertEqual(5); expect(result.reply.readString()).assertEqual("HelloWorld"); let s = new MySequenceable(0, ''); expect(result.reply.readSequenceable(s)).assertTrue(); expect(s.num).assertEqual(1); expect(s.str).assertEqual("aaa"); }); data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00200:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IRemoteObject_00200---------------------------"); done(); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_IRemoteObject_00300 * @tc.name Test that messageparcel passes through the same process, and the client * receives the reply message in the callback function * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_IRemoteObject_00300", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_IRemoteObject_00300---------------------------"); try{ var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00300: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); expect(data.writeByte(2)).assertTrue(); expect(data.writeShort(3)).assertTrue(); expect(data.writeInt(4)).assertTrue(); expect(data.writeLong(5)).assertTrue(); expect(data.writeFloat(1.2)).assertTrue(); expect(data.writeDouble(10.2)).assertTrue(); expect(data.writeBoolean(true)).assertTrue(); expect(data.writeChar(5)).assertTrue(); expect(data.writeString("HelloWorld")).assertTrue(); expect(data.writeSequenceable(new MySequenceable(1, "aaa"))).assertTrue(); function sendRequestCallback(result) { try{ console.info("sendRequest Callback"); console.info("sendRequest done, error code: " + result.errCode); expect(result.errCode).assertEqual(0); expect(result.reply.readByte()).assertEqual(2); expect(result.reply.readShort()).assertEqual(3); expect(result.reply.readInt()).assertEqual(4); expect(result.reply.readLong()).assertEqual(5); expect(result.reply.readFloat()).assertEqual(1.2); expect(result.reply.readDouble()).assertEqual(10.2); expect(result.reply.readBoolean()).assertTrue(); expect(result.reply.readChar()).assertEqual(5); expect(result.reply.readString()).assertEqual("HelloWorld"); let s = new MySequenceable(null, null); expect(result.reply.readSequenceable(s)).assertTrue(); expect(s.num).assertEqual(1); expect(s.str).assertEqual("aaa"); } finally { result.data.reclaim(); result.reply.reclaim(); console.info("test done"); done(); } } console.info("start send request"); await gIRemoteObject.sendRequest(CODE_ALL_TYPE, data, reply, option, sendRequestCallback); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00300:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IRemoteObject_00300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_IRemoteObject_00400 * @tc.name Iremoteobject, register death notification verification * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_IRemoteObject_00400", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_IRemoteObject_00400---------------------------"); try{ let object = new TestAbilityStub("Test1"); var resultAdd1 = object.addDeathRecipient(null, 0); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00400:run addDeathRecipient first result is" + resultAdd1); expect(resultAdd1 == false).assertTrue(); var resultRemove1 = object.removeDeathRecipient(null, 0); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00400:run removeDeathRecipient1 result is" + resultRemove1); expect(resultRemove1 == false).assertTrue(); let isDead = object.isObjectDead(); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00400:run isDead result is " + isDead); expect(isDead == false).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00400:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IRemoteObject_00400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_IRemoteObject_00500 * @tc.name Do not get the server agent, do not create a remoteobject instance, and directly getcallingpid, * getcallingpid, getcallingdeviceid, getlocaldeviceid * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_IRemoteObject_00500", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_IRemoteObject_00500---------------------------"); try{ let callingPid = rpc.IPCSkeleton.getCallingPid(); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00500: run getCallingPid success, callingPid " + callingPid); expect(callingPid != null).assertTrue(); let callingUid = rpc.IPCSkeleton.getCallingUid(); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00500: run getCallingPid success, callingPid " + callingUid); expect(callingUid != null).assertTrue(); let callingDeviceID = rpc.IPCSkeleton.getCallingDeviceID(); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00500: run getCallingDeviceID success, callingDeviceID is " + callingDeviceID); expect(callingDeviceID == "").assertTrue(); let localDeviceID = rpc.IPCSkeleton.getLocalDeviceID(); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00500: run getLocalDeviceID success, localDeviceID is " + localDeviceID); expect(localDeviceID == "").assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00500:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IRemoteObject_00500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_IRemoteObject_00600 * @tc.name Querylocalinterface searches for objects based on descriptors * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_IRemoteObject_00600", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_IRemoteObject_00600---------------------------"); try{ let object = new TestAbilityStub("Test1"); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00600: run TestAbilityStub success"); let result = object.isObjectDead(); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00600: run isObjectDeadis is " + result); expect(result == false).assertTrue(); let callingPid = object.getCallingPid(); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00600: run getCallingPid success,callingPid " + callingPid); let callingUid = object.getCallingUid(); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00600: run getCallingPid success,callingPid " + callingUid); object.attachLocalInterface(object, "Test1"); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00600: run attachLocalInterface success"); let res = object.queryLocalInterface("Test1"); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00600: run queryLocalInterface success, res2 is " + res); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00600:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IRemoteObject_00600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_IRemoteObject_00700 * @tc.name Getinterfacedescriptor to get the interface description * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_IRemoteObject_00700", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_IRemoteObject_00700---------------------------"); try{ let object = new TestAbilityStub("Test1223"); let result = object.isObjectDead(); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00700: run isObjectDeadis is " + result); expect(result == false).assertTrue(); let callingPid = object.getCallingPid(); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00700: run getCallingPid success,callingPid " + callingPid); let callingUid = object.getCallingUid(); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00700: run getCallingPid success,callingPid " + callingUid); object.attachLocalInterface(object, "test1"); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00700: run attachLocalInterface success"); let result2 = object.getInterfaceDescriptor(); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00700: run getInterfaceDescriptoris2 is " + result2); expect(result2 != null).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00700:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IRemoteObject_00700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_IRemoteObject_00800 * @tc.name Test that messageparcel passes through the same process, and the client * receives the reply message in the callback function * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_IRemoteObject_00800", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_IRemoteObject_00800---------------------------"); try{ let object = new TestAbilityStub("TestAbilityStub"); var data = rpc.MessageParcel.create(); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00800: create object successfully."); var reply = rpc.MessageParcel.create(); var option = new rpc.MessageOption(); expect(data.writeInterfaceToken("TestAbilityStub")).assertTrue(); expect(data.writeByte(2)).assertTrue(); expect(data.writeShort(3)).assertTrue(); expect(data.writeInt(4)).assertTrue(); expect(data.writeLong(5)).assertTrue(); expect(data.writeFloat(1.2)).assertTrue(); expect(data.writeDouble(10.2)).assertTrue(); expect(data.writeBoolean(true)).assertTrue(); expect(data.writeChar(5)).assertTrue(); expect(data.writeString("HelloWorld")).assertTrue(); expect(data.writeSequenceable(new MySequenceable(1, "aaa"))).assertTrue(); function sendRequestCallback(result) { try{ console.info("sendRequest Callback"); console.info("sendRequest done, error code: " + result.errCode); expect(result.errCode).assertEqual(0); result.reply.readException(); expect(result.reply.readByte()).assertEqual(2); expect(result.reply.readShort()).assertEqual(3); expect(result.reply.readInt()).assertEqual(4); expect(result.reply.readLong()).assertEqual(5); expect(result.reply.readFloat()).assertEqual(1.2); expect(result.reply.readDouble()).assertEqual(10.2); expect(result.reply.readBoolean()).assertTrue(); expect(result.reply.readChar()).assertEqual(5); expect(result.reply.readString()).assertEqual("HelloWorld"); let s = new MySequenceable(null, null); expect(result.reply.readSequenceable(s)).assertTrue(); expect(s.num).assertEqual(1); expect(s.str).assertEqual("aaa"); } finally { result.data.reclaim(); result.reply.reclaim(); console.info("test done"); done(); } } console.info("start send request"); object.sendRequest(CODE_SAME_PROCESS, data, reply, option, sendRequestCallback); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00800:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IRemoteObject_00800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_IRemoteObject_00900 * @tc.name IRemoteObject sendMessageRequest API Test * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_IRemoteObject_00900", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_IRemoteObject_00900---------------------------"); try{ var data = rpc.MessageSequence.create(); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00900: create object successfully."); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); data.writeByte(1); data.writeShort(2); data.writeInt(3); data.writeLong(10000); data.writeFloat(1.2); data.writeDouble(10.2); data.writeBoolean(true); data.writeChar(96); data.writeString("HelloWorld"); data.writeParcelable(new MySequenceable(1, "aaa")); await gIRemoteObject.sendMessageRequest(CODE_ALL_TYPE, data, reply, option, (err, result) => { console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00900 errorcode: " + result.errCode); expect(result.errCode).assertEqual(0); expect(result.reply.readByte()).assertEqual(1); expect(result.reply.readShort()).assertEqual(2); expect(result.reply.readInt()).assertEqual(3); expect(result.reply.readLong()).assertEqual(10000); expect(result.reply.readFloat()).assertEqual(1.2); expect(result.reply.readDouble()).assertEqual(10.2); expect(result.reply.readBoolean()).assertTrue(); expect(result.reply.readChar()).assertEqual(96); expect(result.reply.readString()).assertEqual("HelloWorld"); let s = new MySequenceable(0, ''); expect(result.reply.readParcelable(s)).assertTrue(); expect(s.num).assertEqual(1); expect(s.str).assertEqual("aaa"); }); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_00900:error = " + error); } data.reclaim(); reply.reclaim(); done(); console.info("---------------------end SUB_Softbus_IPC_Compatibility_IRemoteObject_00900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_IRemoteObject_01100 * @tc.name getDescriptor to get the interface description * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_IRemoteObject_01100", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_IRemoteObject_01100---------------------------"); try{ let object = new TestAbilityMessageStub("Test1223"); let result = object.isObjectDead(); expect(result == false).assertTrue(); let callingPid = object.getCallingPid(); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_01100: run getCallingPid success,callingPid " + callingPid); expect(callingPid != null).assertTrue(); let callingUid = object.getCallingUid() console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_01100: run getCallingPid success,callingPid " + callingUid); expect(callingUid != null).assertTrue(); object.modifyLocalInterface(object, "test1"); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_01100: run modifyLocalInterface success"); let result2 = object.getDescriptor(); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_01100: run getDescriptor is " + result2); expect(result2 != null).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_01100:error = " + error); expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IRemoteObject_01100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_IRemoteObject_01200 * @tc.name Test that MessageSequence passes through the same process, and the client * receives the reply message in the callback function * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_IRemoteObject_01200", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_IRemoteObject_01200---------------------------"); try{ let object = new TestAbilityMessageStub("TestAbilityMessageStub"); var data = rpc.MessageSequence.create(); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_01200: create object successfully."); var reply = rpc.MessageSequence.create(); var option = new rpc.MessageOption(); data.writeInterfaceToken("TestAbilityMessageStub"); data.writeByte(2); data.writeShort(3); data.writeInt(4); data.writeLong(5); data.writeFloat(1.2); data.writeDouble(10.2); data.writeBoolean(true); data.writeChar(5); data.writeString("HelloWorld"); data.writeParcelable(new MySequenceable(1, "aaa")); console.info("data is success"); function sendRequestCallback(result) { try{ console.info("sendRequest Callback"); console.info("sendRequest done, error code: " + result.errCode); expect(result.errCode).assertEqual(0); result.reply.readException(); expect(result.reply.readByte()).assertEqual(2); expect(result.reply.readShort()).assertEqual(3); expect(result.reply.readInt()).assertEqual(4); expect(result.reply.readLong()).assertEqual(5); expect(result.reply.readFloat()).assertEqual(1.2); expect(result.reply.readDouble()).assertEqual(10.2); expect(result.reply.readBoolean()).assertTrue(); expect(result.reply.readChar()).assertEqual(5); expect(result.reply.readString()).assertEqual("HelloWorld"); let s = new MySequenceable(null, null); expect(result.reply.readParcelable(s)).assertTrue(); expect(s.num).assertEqual(1); expect(s.str).assertEqual("aaa"); } finally { result.data.reclaim(); result.reply.reclaim(); console.info("test done"); done(); } } console.info("start send request"); object.sendMessageRequest(CODE_SAME_PROCESS, data, reply, option, sendRequestCallback); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_01200:error = " + error); expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IRemoteObject_01200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_IRemoteObject_01300 * @tc.name Iremoteobject, register death notification verification * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_IRemoteObject_01300", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_IRemoteObject_01300---------------------------"); try{ let recipient = new MyregisterDeathRecipient(gIRemoteObject, null); gIRemoteObject.registerDeathRecipient(recipient, 0) console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_01300:run registerDeathRecipient is done"); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_01300:error = " + error); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IRemoteObject_01300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_IRemoteObject_01400 * @tc.name Iremoteobject, register death notification verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_IRemoteObject_01400", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_IRemoteObject_01400---------------------------"); try{ let recipient = new MyregisterDeathRecipient(gIRemoteObject, null); gIRemoteObject.registerDeathRecipient(recipient, 0); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_01400:run registerDeathRecipient is done"); gIRemoteObject.unregisterDeathRecipient(recipient, 0); console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_01400:run unregisterDeathRecipient is done"); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IRemoteObject_01400:error = " + error); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IRemoteObject_01400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_RemoteProxy_00100 * @tc.name Call adddeathrecipient to register the death notification * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_RemoteProxy_00100", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_RemoteProxy_00100---------------------------"); try{ let recipient = new MyDeathRecipient(gIRemoteObject, null); var resultAdd1 = gIRemoteObject.addDeathRecipient(recipient, 0); expect(resultAdd1 == false).assertTrue(); var resultAdd2 = gIRemoteObject.addDeathRecipient(recipient, 0); expect(resultAdd2 == false).assertTrue(); var resultRemove1 = gIRemoteObject.removeDeathRecipient(recipient, 0); expect(resultRemove1 == false).assertTrue(); var resultRemove2 = gIRemoteObject.removeDeathRecipient(recipient, 0); expect(resultRemove2 == false).assertTrue(); var resultRemove3 = gIRemoteObject.removeDeathRecipient(recipient, 0); expect(resultRemove3 == false).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00100:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_RemoteProxy_00100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_RemoteProxy_00200 * @tc.name AddDeathRecipient Validates the interface flags input parameter boundary value * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_RemoteProxy_00200", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_RemoteProxy_00200---------------------------"); try{ let recipient = new MyDeathRecipient(gIRemoteObject, null); var resultAdd = gIRemoteObject.addDeathRecipient(recipient, -(2*G)); expect(resultAdd == false).assertTrue(); var resultRemove = gIRemoteObject.removeDeathRecipient(recipient, -(2*G)); expect(resultRemove == false).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00200:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_RemoteProxy_00200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_RemoteProxy_00300 * @tc.name AddDeathRecipient Validates the interface flags input parameter boundary value * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_RemoteProxy_00300", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_RemoteProxy_00300---------------------------"); try{ let recipient = new MyDeathRecipient(gIRemoteObject, null); var resultAdd = gIRemoteObject.addDeathRecipient(recipient, (2*G - 1)); expect(resultAdd == false).assertTrue(); var resultRemove = gIRemoteObject.removeDeathRecipient(recipient, (2*G - 1)); expect(resultRemove == false).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00300:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_RemoteProxy_00300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_RemoteProxy_00400 * @tc.name AddDeathRecipient Validates the interface flags input parameter boundary value * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_RemoteProxy_00400", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_RemoteProxy_00400---------------------------"); try{ let recipient = new MyDeathRecipient(gIRemoteObject, null); var resultAdd = gIRemoteObject.addDeathRecipient(recipient, 2*G); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00400:run addDeathRecipient first is " + resultAdd); expect(resultAdd == false).assertTrue(); var resultRemove = gIRemoteObject.removeDeathRecipient(recipient, 2*G); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00400:run removeDeathRecipient1 is " + resultRemove); expect(resultRemove == false).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00400:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_RemoteProxy_00400---------------------------"); }); /* * @tc.number sendfile/trans_file_func_test.cppRemoteProxy_00500 * @tc.name AddDeathRecipient Validates the interface flags input parameter boundary value * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_RemoteProxy_00500", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_RemoteProxy_00500---------------------------"); try{ let recipient = new MyDeathRecipient(gIRemoteObject, null); var resultAdd = gIRemoteObject.addDeathRecipient(recipient, -(2*G + 1)); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00500:run addDeathRecipient first is " + resultAdd); expect(resultAdd == false).assertTrue(); var resultRemove = gIRemoteObject.removeDeathRecipient(recipient, -(2*G + 1)); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00500:run removeDeathRecipient1 is " + resultRemove); expect(resultRemove == false).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00500:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_RemoteProxy_00500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_RemoteProxy_00600 * @tc.name Call isobjectdead to check whether the object is dead * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_RemoteProxy_00600", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_RemoteProxy_00600---------------------------"); try{ let recipient = new MyDeathRecipient(gIRemoteObject, null); var isDead = gIRemoteObject.isObjectDead(); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00600: run isObjectDead result is " + isDead); expect(isDead == false).assertTrue(); var resultAdd1 = gIRemoteObject.addDeathRecipient(recipient, 0); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00600:run addDeathRecipient first result is " + resultAdd1); expect(resultAdd1 == false).assertTrue(); var isDead1 = gIRemoteObject.isObjectDead(); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00600: run isObjectDead result is " + isDead1); expect(isDead1 == false).assertTrue(); var resultRemove1 = gIRemoteObject.removeDeathRecipient(recipient, 0); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00600:run removeDeathRecipient result is " + resultRemove1); expect(resultRemove1 == false).assertTrue(); var resultAdd2 = gIRemoteObject.addDeathRecipient(recipient, 0); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00600:run addDeathRecipient second result is " + resultAdd2); expect(resultAdd2 == false).assertTrue(); var resultRemove2 = gIRemoteObject.removeDeathRecipient(recipient, 0); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00600:run removeDeathRecipient1 result is " + resultRemove2); expect(resultRemove2 == false).assertTrue(); var resultRemove3 = gIRemoteObject.removeDeathRecipient(recipient, 0); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00600:run removeDeathRecipient3 result is " + resultRemove3); expect(resultRemove3 == false).assertTrue(); var isDead2 = gIRemoteObject.isObjectDead(); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00600: run isObjectDead2 result is " + isDead2); expect(isDead2 == false).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00600:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_RemoteProxy_00600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_RemoteProxy_00700 * @tc.name Getinterfacedescriptor to get the object interface description * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_RemoteProxy_00700", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_RemoteProxy_00700---------------------------"); try{ let object = new TestAbilityStub("Test0300"); let result = object.getInterfaceDescriptor(); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00700: run getInterfaceDescriptor result is " + result); expect(result).assertEqual("Test0300"); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00700:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_RemoteProxy_00700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_RemoteProxy_00800 * @tc.name Querylocalinterface searches for objects based on descriptors * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_RemoteProxy_00800", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_RemoteProxy_00800---------------------------"); try{ let object = new TestAbilityStub("Test0400"); let result = object.isObjectDead(); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00800: run getInterfaceDescriptor is " + result); expect(result).assertEqual(false); object.attachLocalInterface(object, "Test2"); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00800: run attachLocalInterface success"); let res2 = object.queryLocalInterface('Test2'); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00800: run queryLocalInterface success, res2 is " + res2); let resultDescrip = object.getInterfaceDescriptor(); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00800: run getInterfaceDescriptor success resultDescrip is " + resultDescrip); expect(resultDescrip != null).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00800:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_RemoteProxy_00800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_RemoteProxy_00900 * @tc.name Transaction constant validation * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_RemoteProxy_00900", 0, async function(){ console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00900 is starting-------------") try { expect(rpc.RemoteProxy.PING_TRANSACTION).assertEqual(1599098439); expect(rpc.RemoteProxy.DUMP_TRANSACTION).assertEqual(1598311760); expect(rpc.RemoteProxy.INTERFACE_TRANSACTION).assertEqual(1598968902); expect(rpc.RemoteProxy.MIN_TRANSACTION_ID).assertEqual(0x1); expect(rpc.RemoteProxy.MAX_TRANSACTION_ID).assertEqual(0x00FFFFFF); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_00900 error is" + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_RemoteProxy_00900---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_RemoteProxy_01000 * @tc.name Call isobjectdead to check whether the object is dead * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_RemoteProxy_01000", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_RemoteProxy_01000---------------------------"); try{ let recipient = new MyregisterDeathRecipient(gIRemoteObject, null); var isDead = gIRemoteObject.isObjectDead(); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01000: run isObjectDead result is " + isDead); expect(isDead == false).assertTrue(); var resultAdd1 = gIRemoteObject.registerDeathRecipient(recipient, 0); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01000: registerDeathRecipient is success"); var isDead1 = gIRemoteObject.isObjectDead(); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01000: run isObjectDead result is " + isDead1); expect(isDead1 == false).assertTrue(); var resultRemove1 = gIRemoteObject.unregisterDeathRecipient(recipient, 0); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01000: unregisterDeathRecipient is success"); var resultAdd2 = gIRemoteObject.registerDeathRecipient(recipient, 0); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01000: registerDeathRecipient is success"); var resultRemove2 = gIRemoteObject.unregisterDeathRecipient(recipient, 0); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01000: unregisterDeathRecipient is success"); var resultRemove3 = gIRemoteObject.unregisterDeathRecipient(recipient, 0); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01000: unregisterDeathRecipient is success"); var isDead2 = gIRemoteObject.isObjectDead(); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01000: run isObjectDead2 result is " + isDead2); expect(isDead2 == false).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01000:error = " + error); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_RemoteProxy_01000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_RemoteProxy_01100 * @tc.name getDescriptor to get the object interface description * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_RemoteProxy_01100", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_RemoteProxy_01100---------------------------"); try{ let object = new TestAbilityStub("Test0300"); let result = object.getDescriptor(); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01100: run getDescriptor result is " + result); expect(result).assertEqual("Test0300"); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01100:error = " + error); expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_RemoteProxy_01100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_RemoteProxy_01200 * @tc.name getLocalInterface searches for objects based on descriptors * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_RemoteProxy_01200", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_RemoteProxy_01200---------------------------"); try{ let object = new TestAbilityStub("Test0400"); let result = object.isObjectDead(); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01200: run getDescriptor is " + result); expect(result).assertEqual(false); object.modifyLocalInterface(object, "Test2"); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01200: run modifyLocalInterface success"); let res2 = object.getLocalInterface('Test2'); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01200: run getLocalInterface success, res2 is " + res2); let resultDescrip = object.getDescriptor() console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01200: run getDescriptor success resultDescrip is " + resultDescrip); expect(resultDescrip != null).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01200:error = " + error); expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_RemoteProxy_01200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_RemoteProxy_01300 * @tc.name Call registerDeathRecipient to register the death notification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_RemoteProxy_01300", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_RemoteProxy_01300---------------------------"); try{ let recipient = new MyregisterDeathRecipient(gIRemoteObject, null); gIRemoteObject.registerDeathRecipient(recipient, 0); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01300: registerDeathRecipient is success"); gIRemoteObject.registerDeathRecipient(recipient, 0); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01300: registerDeathRecipient is success"); gIRemoteObject.unregisterDeathRecipient(recipient, 0); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01300: unregisterDeathRecipient is success"); gIRemoteObject.unregisterDeathRecipient(recipient, 0); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01300: unregisterDeathRecipient is success"); gIRemoteObject.unregisterDeathRecipient(recipient, 0); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01300: unregisterDeathRecipient is success"); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01300:error = " + error); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_RemoteProxy_01300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_RemoteProxy_01400 * @tc.name registerDeathRecipient Validates the interface flags input parameter boundary value * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_RemoteProxy_01400", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_RemoteProxy_01400---------------------------"); try{ let recipient = new MyregisterDeathRecipient(gIRemoteObject, null); gIRemoteObject.registerDeathRecipient(recipient, -(2*G)); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01400: registerDeathRecipient is success"); gIRemoteObject.unregisterDeathRecipient(recipient, -(2*G)); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01400: unregisterDeathRecipient is success"); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01400:error = " + error); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_RemoteProxy_01400---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_RemoteProxy_01500 * @tc.name registerDeathRecipient Validates the interface flags input parameter boundary value * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_RemoteProxy_01500", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_RemoteProxy_01500---------------------------"); try{ let recipient = new MyregisterDeathRecipient(gIRemoteObject, null); gIRemoteObject.registerDeathRecipient(recipient, (2*G - 1)); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01500: registerDeathRecipient is success"); gIRemoteObject.unregisterDeathRecipient(recipient, (2*G - 1)); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01500: unregisterDeathRecipient is success"); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01500:error = " + error); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_RemoteProxy_01500---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_RemoteProxy_01600 * @tc.name registerDeathRecipient Validates the interface flags input parameter boundary value * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_RemoteProxy_01600", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_RemoteProxy_01600---------------------------"); try{ let recipient = new MyregisterDeathRecipient(gIRemoteObject, null); var resultAdd = gIRemoteObject.registerDeathRecipient(recipient, 2*G); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01600: registerDeathRecipient is success"); var resultRemove = gIRemoteObject.unregisterDeathRecipient(recipient, 2*G); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01600: unregisterDeathRecipient is success"); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01600:error = " + error); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_RemoteProxy_01600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_RemoteProxy_01700 * @tc.name registerDeathRecipient Validates the interface flags input parameter boundary value * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_RemoteProxy_01700", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_RemoteProxy_01700---------------------------"); try{ let recipient = new MyregisterDeathRecipient(gIRemoteObject, null); var resultAdd = gIRemoteObject.registerDeathRecipient(recipient, -(2*G + 1)); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01700: registerDeathRecipient is success"); var resultRemove = gIRemoteObject.unregisterDeathRecipient(recipient, -(2*G + 1)); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01700: unregisterDeathRecipient is success"); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01700:error = " + error); expect(error != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_RemoteProxy_01700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_RemoteProxy_01800 * @tc.name getLocalInterface 1900005 searches for objects based on descriptors * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_RemoteProxy_01800", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_RemoteProxy_01800---------------------------"); try{ let object = new TestAbilityStub("Test0400"); let result = object.isObjectDead(); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01800: run getDescriptor is " + result); expect(result).assertEqual(false); object.modifyLocalInterface(object, "Test2"); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01800: run modifyLocalInterface success"); let res2 = object.getLocalInterface(null); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01800: run getLocalInterface success, res2 is " + res2); } catch (error) { let errCode = `${rpc.ErrorCode.ONLY_PROXY_OBJECT_PERMITTED_ERROR}`; console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01800:error = " + error.code); expect(error.code != errCode).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_RemoteProxy_01800:error = " + error.message); expect(error.message != null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_RemoteProxy_01800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_IPCSkeleton_00100 * @tc.name Create an empty object and verify the function of the flushcommands interface * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00100", 0, async function() { console.info("---------------------start SUB_Softbus_IPC_Compatibility_IPCSkeleton_00100---------------------------"); try { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00100"); let remoteObject = new TestRemoteObject("aaa"); let ret = rpc.IPCSkeleton.flushCommands(remoteObject); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00100 RpcServer: flushCommands result: " + ret); expect(ret != null).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00100 error is :" + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IPCSkeleton_00100---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_IPCSkeleton_00200 * @tc.name Create an empty object and verify the function of the flushcommands interface * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00200", 0, async function() { console.info("---------------------start SUB_Softbus_IPC_Compatibility_IPCSkeleton_00200---------------------------"); try { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00200 testcase"); let remoteObject = {}; let ret = rpc.IPCSkeleton.flushCommands(remoteObject); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00200 RpcServer: flushCommands result: " + ret); expect(ret != null).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00200 error is :" + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IPCSkeleton_00200---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_IPCSkeleton_00300 * @tc.name Create an empty object and verify the function of the flushcommands interface * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00300", 0, async function() { console.info("---------------------start SUB_Softbus_IPC_Compatibility_IPCSkeleton_00300---------------------------"); try { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00300 testcase"); let samgr = rpc.IPCSkeleton.getContextObject(); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00300 getContextObject result: " + samgr); expect(samgr != null).assertTrue(); let geinde = samgr.getInterfaceDescriptor(); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00300 getInterfaceDescriptor result: " + geinde); expect(geinde).assertEqual(""); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00300 error is :" + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IPCSkeleton_00300---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_IPCSkeleton_00400 * @tc.name Create an empty object and verify the function of the flushcommands interface * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00400", 0, async function() { console.info("---------------------start SUB_Softbus_IPC_Compatibility_IPCSkeleton_00400---------------------------"); try { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00400 testcase"); let getCallingPid = rpc.IPCSkeleton.getCallingPid(); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00400 getCallingPid result: " + getCallingPid); expect(getCallingPid != null).assertTrue(); let getCallingUid = rpc.IPCSkeleton.getCallingUid(); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00400 getCallingUid result: " + getCallingUid); expect(getCallingUid != null).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00400 error is :" + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IPCSkeleton_00400---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_IPCSkeleton_00500 * @tc.name Create an empty object and verify the function of the flushcommands interface * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00500", 0, async function() { console.info("---------------------start SUB_Softbus_IPC_Compatibility_IPCSkeleton_00500---------------------------"); try { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00500 testcase"); let getCallingPid = rpc.IPCSkeleton.getLocalDeviceID(); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00500 getCallingPid result: " + getCallingPid); expect(getCallingPid != null).assertTrue(); let getCallingUid = rpc.IPCSkeleton.getCallingDeviceID(); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00500 getCallingUid result: " + getCallingUid); expect(getCallingUid != null).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00500 error is :" + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IPCSkeleton_00500---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_IPCSkeleton_00600 * @tc.name Do not get the server agent, do not create a remoteobject instance, and directly getcallingpid, * getcallingpid, getcallingdeviceid, getlocaldeviceid * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00600", 0, async function() { console.info("---------------------start SUB_Softbus_IPC_Compatibility_IPCSkeleton_00600---------------------------"); try{ let getCallingPid = rpc.IPCSkeleton.getCallingPid(); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00600: run getCallingPid result is :" + getCallingPid); expect(getCallingPid != null).assertTrue(); let getCallingUid = rpc.IPCSkeleton.getCallingUid(); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00600: run getCallingUid result is :" + getCallingUid); expect(getCallingUid != null).assertTrue(); let getCallingToKenId = rpc.IPCSkeleton.getCallingTokenId(); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00600: run getCallingToKenId result is :" + getCallingToKenId); expect(getCallingToKenId != null).assertTrue(); let getLocalDeviceID = rpc.IPCSkeleton.getLocalDeviceID(); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00600: run getLocalDeviceID result is :" + getLocalDeviceID); expect(getLocalDeviceID != null).assertTrue(); let getCallingDeviceID = rpc.IPCSkeleton.getCallingDeviceID(); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00600: run getCallingDeviceID result is :" + getCallingDeviceID); expect(getCallingDeviceID != null).assertTrue(); } catch (error){ console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00600: error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IPCSkeleton_00600---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_IPCSkeleton_00700 * @tc.name Basic method of testing ipcskeleton * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00700", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_IPCSkeleton_00700---------------------------"); try{ expect(rpc.IPCSkeleton.getContextObject().getInterfaceDescriptor()).assertEqual(""); let callingPid = rpc.IPCSkeleton.getCallingPid(); let callingUid = rpc.IPCSkeleton.getCallingUid(); let option = new rpc.MessageOption(); let data = rpc.MessageParcel.create(); let reply = rpc.MessageParcel.create(); expect(data.writeInterfaceToken("rpcTestAbility")).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00700: callingPid: " + callingPid + ", callingUid: " + callingUid); expect(callingUid != null).assertTrue(); expect(callingPid != null).assertTrue(); await gIRemoteObject.sendRequest(CODE_IPCSKELETON, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00700: sendRequest done, error code: " + result.errCode) expect(result.errCode).assertEqual(0); result.reply.readException(); let rescallingPid = result.reply.readInt(); let rescallingUid = result.reply.readInt(); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00700:" + rescallingPid +" ;"+ rescallingUid); expect(rescallingPid).assertEqual(callingPid); expect(rescallingUid).assertEqual(callingUid); }) data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00700:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IPCSkeleton_00700---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_IPCSkeleton_00800 * @tc.name Basic method of testing ipcskeleton * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00800", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_IPCSkeleton_00800---------------------------"); try{ let callingPid = rpc.IPCSkeleton.getCallingPid(); let callingUid = rpc.IPCSkeleton.getCallingUid(); let option = new rpc.MessageOption(); let data = rpc.MessageParcel.create(); let reply = rpc.MessageParcel.create(); expect(data.writeInterfaceToken("rpcTestAbility")).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00800: callingPid: " + callingPid + ", callingUid: " + callingUid); await gIRemoteObject.sendRequest(CODE_IPCSKELETON_INT, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00800: sendRequest done, error code: " + result.errCode) expect(result.errCode).assertEqual(0); result.reply.readException(); let rescallingPid = result.reply.readInt(); let rescallingUid = result.reply.readInt(); let restcallingPid = result.reply.readInt(); let restcallingUid = result.reply.readInt(); let resicallingPid = result.reply.readInt(); let resicallingUid = result.reply.readInt(); let resflushCommands = result.reply.readInt(); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00800:" + resicallingUid +" ;"+ resflushCommands); expect(rescallingPid).assertEqual(callingPid); expect(rescallingUid).assertEqual(callingUid); expect(restcallingPid).assertEqual(callingPid); expect(restcallingUid).assertEqual(callingUid); expect(resicallingPid).assertEqual(callingPid); expect(resicallingUid).assertEqual(callingUid); expect(resflushCommands).assertEqual(101); }) data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00800:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IPCSkeleton_00800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_IPCSkeleton_00900 * @tc.name SetCallingIdentity Interface flags input parameter boundary value verification * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00900", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_IPCSkeleton_00900---------------------------"); try{ let id = ""; let ret = rpc.IPCSkeleton.setCallingIdentity(id); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00900: setCallingIdentity is: " + ret); expect(ret).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_00900:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IPCSkeleton_00900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_IPCSkeleton_01000 * @tc.name SetCallingIdentity Interface flags input parameter boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01000", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_IPCSkeleton_01000---------------------------"); try{ let id = 0; let ret = rpc.IPCSkeleton.setCallingIdentity(id); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01000: setCallingIdentity is: " + ret); expect(ret).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01000:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IPCSkeleton_01000---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_IPCSkeleton_01100 * @tc.name SetCallingIdentity Interface flags input parameter boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01100", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_IPCSkeleton_01100---------------------------"); try{ let id = ""; for (let i = 0; i < (40*K - 1); i++){ id += "a"; } console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01100: id length is: " + id.length); let ret = rpc.IPCSkeleton.setCallingIdentity(id); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01100: setCallingIdentity is: " + ret); expect(ret).assertTrue(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01100:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IPCSkeleton_01100---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_IPCSkeleton_01200 * @tc.name Basic method of testing ipcskeleton * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01200", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_IPCSkeleton_01200---------------------------"); try{ let object = rpc.IPCSkeleton.getContextObject(); let callingPid = rpc.IPCSkeleton.getCallingPid(); let callingUid = rpc.IPCSkeleton.getCallingUid(); let callingDeviceID = rpc.IPCSkeleton.getCallingDeviceID(); let localDeviceID = rpc.IPCSkeleton.getLocalDeviceID(); let isLocalCalling = rpc.IPCSkeleton.isLocalCalling(); let id = rpc.IPCSkeleton.resetCallingIdentity(); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01200:" + id); let ret = rpc.IPCSkeleton.setCallingIdentity(id); expect(object.getInterfaceDescriptor()).assertEqual(""); expect(callingDeviceID).assertEqual(""); expect(localDeviceID).assertEqual(""); expect(isLocalCalling).assertTrue(); expect(id).assertEqual(""); expect(ret).assertTrue(); expect(rpc.IPCSkeleton.flushCommands(gIRemoteObject)).assertEqual(101); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01200: callingPid: " + callingPid + ", callingUid: " + callingUid + ", callingDeviceID: " + callingDeviceID + ", localDeviceID: " + localDeviceID + ", isLocalCalling: " + isLocalCalling); let option = new rpc.MessageOption(); let data = rpc.MessageParcel.create(); let reply = rpc.MessageParcel.create(); expect(data.writeInterfaceToken("rpcTestAbility")).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01200: start send request"); await gIRemoteObject.sendRequest(CODE_IPCSKELETON, data, reply, option).then(function(result) { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01200: sendRequest done, error code: " + result.errCode) expect(result.errCode).assertEqual(0); result.reply.readException(); expect(result.reply.readInt()).assertEqual(callingPid); expect(result.reply.readInt()).assertEqual(callingUid); expect(result.reply.readString()).assertEqual(""); expect(result.reply.readString()).assertEqual(""); expect(result.reply.readBoolean()).assertTrue(); expect(result.reply.readInt()).assertEqual(callingPid); expect(result.reply.readInt()).assertEqual(callingUid); expect(result.reply.readInt()).assertEqual(callingPid); expect(result.reply.readInt()).assertEqual(callingUid); expect(result.reply.readInt()).assertEqual(101); }) data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01200:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IPCSkeleton_01200---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_IPCSkeleton_01300 * @tc.name IPCSkeleton sendMessageRequest API test * @tc.desc Function test * @tc.level 0 */ it("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01300", 0,async function(done){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_IPCSkeleton_01300---------------------------"); try{ expect(rpc.IPCSkeleton.getContextObject().getInterfaceDescriptor()).assertEqual(""); let callingPid = rpc.IPCSkeleton.getCallingPid(); let callingUid = rpc.IPCSkeleton.getCallingUid(); let option = new rpc.MessageOption(); let data = rpc.MessageSequence.create(); let reply = rpc.MessageSequence.create(); data.writeInterfaceToken("rpcTestAbility") console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01300 callingPid: " + callingPid + ", callingUid: " + callingUid); expect(callingUid != null).assertTrue(); expect(callingPid != null).assertTrue(); await gIRemoteObject.sendMessageRequest(CODE_IPCSKELETON, data, reply, option).then((result) => { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01300 sendRequest done, error code: " + result.errCode) expect(result.errCode).assertEqual(0); result.reply.readException(); let rescallingPid = result.reply.readInt(); let rescallingUid = result.reply.readInt(); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01300" + rescallingPid +" ;"+ rescallingUid); expect(rescallingPid).assertEqual(callingPid); expect(rescallingUid).assertEqual(callingUid); }) data.reclaim(); reply.reclaim(); done(); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01300:error = " + error); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IPCSkeleton_01300---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_IPCSkeleton_01400 * @tc.name Create an empty object and verify the function of the flushCmdBuffer interface * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01400", 0, async function() { console.info("---------------------start SUB_Softbus_IPC_Compatibility_IPCSkeleton_01400---------------------------"); try { let remoteObject = new TestRemoteObject("aaa"); let ret = rpc.IPCSkeleton.flushCmdBuffer(remoteObject); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01400 RpcServer: flushCmdBuffer is success"); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01400 error is :" + error); expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IPCSkeleton_01400---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_IPCSkeleton_01500 * @tc.name Create an empty object and verify the function of the flushCmdBuffer interface * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01500", 0, async function() { console.info("---------------------start SUB_Softbus_IPC_Compatibility_IPCSkeleton_01500---------------------------"); try { let remoteObject = {}; let ret = rpc.IPCSkeleton.flushCmdBuffer(remoteObject); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01500 RpcServer: flushCmdBuffer is success"); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01500 error is :" + error); expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IPCSkeleton_01500---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_IPCSkeleton_01600 * @tc.name Basic method of testing ipcskeleton 1900007 * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01600", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_IPCSkeleton_01600---------------------------"); try{ let object = rpc.IPCSkeleton.getContextObject(); object.getDescriptor(); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01600: is success"); } catch (error) { let errCode = `${rpc.ErrorCode.COMMUNICATION_ERROR}`; console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01600 error is :" + error.message); expect(error.message != null).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01600 error is :" + error.code); expect(error.code == errCode).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IPCSkeleton_01600---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_IPCSkeleton_01700 * @tc.name Create an empty object and verify the function of the flushCmdBuffer interface 1900006 * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01700", 0, async function() { console.info("---------------------start SUB_Softbus_IPC_Compatibility_IPCSkeleton_01700---------------------------"); try { let remoteObject = null; rpc.IPCSkeleton.flushCmdBuffer(remoteObject); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01700 RpcServer: flushCmdBuffer is success"); } catch (error) { let errCode = `${rpc.ErrorCode.ONLY_REMOTE_OBJECT_PERMITTED_ERROR}`; console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01700 error is :" + error.message); expect(error.message != null).assertTrue(); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01700 error is :" + error.code); expect(error.code != errCode).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IPCSkeleton_01700---------------------------"); }) /* * @tc.number SUB_Softbus_IPC_Compatibility_IPCSkeleton_01800 * @tc.name restoreCallingIdentity Interface flags input parameter boundary value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01800", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_IPCSkeleton_01800---------------------------"); try{ let id = ""; rpc.IPCSkeleton.restoreCallingIdentity(id); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01800 restoreCallingIdentity is success"); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01800:error = " + error); expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IPCSkeleton_01800---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_IPCSkeleton_01900 * @tc.name restoreCallingIdentity Interface flags input parameter 0 value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01900", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_IPCSkeleton_01900---------------------------"); try{ let id = 0; rpc.IPCSkeleton.restoreCallingIdentity(id); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01900 restoreCallingIdentity is success"); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_01900:error = " + error); expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IPCSkeleton_01900---------------------------"); }); /* * @tc.number SUB_Softbus_IPC_Compatibility_IPCSkeleton_02000 * @tc.name restoreCallingIdentity Interface flags input parameter null value verification * @tc.desc Function test * @tc.level 3 */ it("SUB_Softbus_IPC_Compatibility_IPCSkeleton_02000", 0,async function(){ console.info("---------------------start SUB_Softbus_IPC_Compatibility_IPCSkeleton_02000---------------------------"); try{ let id = ""; for (let i = 0; i < (40*K - 1); i++){ id += "a"; } console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_02000 id length is: " + id.length); rpc.IPCSkeleton.restoreCallingIdentity(id); console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_02000 restoreCallingIdentity is success"); } catch (error) { console.info("SUB_Softbus_IPC_Compatibility_IPCSkeleton_02000:error = " + error); expect(error == null).assertTrue(); } console.info("---------------------end SUB_Softbus_IPC_Compatibility_IPCSkeleton_02000---------------------------"); }); console.info("-----------------------SUB_Softbus_IPC_Compatibility_MessageParce_Test is end-----------------------"); }); }