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提交 f6759736 编写于 作者: S shshahma
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8141551: C2 can not handle returns with inccompatible interface arrays 

Reviewed-by: kvn
上级 7815e8f0
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Showing with 436 addition and 19 deletion
src/share/vm/opto/cfgnode.cpp
浏览文件 @ f6759736
......@@ -973,7 +973,7 @@ const Type *PhiNode::Value( PhaseTransform *phase ) const {
#ifdef ASSERT
// The following logic has been moved into TypeOopPtr::filter.
const Type* jt = t->join_speculative(_type);
if( jt->empty() ) { // Emptied out???
if (jt->empty()) { // Emptied out???
// Check for evil case of 't' being a class and '_type' expecting an
// interface. This can happen because the bytecodes do not contain
......@@ -984,14 +984,21 @@ const Type *PhiNode::Value( PhaseTransform *phase ) const {
// be 'I' or 'j/l/O'. Thus we'll pick 'j/l/O'. If this then flows
// into a Phi which "knows" it's an Interface type we'll have to
// uplift the type.
if( !t->empty() && ttip && ttip->is_loaded() && ttip->klass()->is_interface() )
{ assert(ft == _type, ""); } // Uplift to interface
else if( !t->empty() && ttkp && ttkp->is_loaded() && ttkp->klass()->is_interface() )
{ assert(ft == _type, ""); } // Uplift to interface
if (!t->empty() && ttip && ttip->is_loaded() && ttip->klass()->is_interface()) {
assert(ft == _type, ""); // Uplift to interface
} else if (!t->empty() && ttkp && ttkp->is_loaded() && ttkp->klass()->is_interface()) {
assert(ft == _type, ""); // Uplift to interface
} else {
// We also have to handle 'evil cases' of interface- vs. class-arrays
Type::get_arrays_base_elements(jt, _type, NULL, &ttip);
if (!t->empty() && ttip != NULL && ttip->is_loaded() && ttip->klass()->is_interface()) {
assert(ft == _type, ""); // Uplift to array of interface
} else {
// Otherwise it's something stupid like non-overlapping int ranges
// found on dying counted loops.
else
{ assert(ft == Type::TOP, ""); } // Canonical empty value
assert(ft == Type::TOP, ""); // Canonical empty value
}
}
}
else {
......
src/share/vm/opto/parse1.cpp
浏览文件 @ f6759736
......@@ -962,13 +962,18 @@ void Parse::do_exits() {
// In case of concurrent class loading, the type we set for the
// ret_phi in build_exits() may have been too optimistic and the
// ret_phi may be top now.
#ifdef ASSERT
// Otherwise, we've encountered an error and have to mark the method as
// not compilable. Just using an assertion instead would be dangerous
// as this could lead to an infinite compile loop in non-debug builds.
{
MutexLockerEx ml(Compile_lock, Mutex::_no_safepoint_check_flag);
assert(ret_type->isa_ptr() && C->env()->system_dictionary_modification_counter_changed(), "return value must be well defined");
}
#endif
if (C->env()->system_dictionary_modification_counter_changed()) {
C->record_failure(C2Compiler::retry_class_loading_during_parsing());
} else {
C->record_method_not_compilable("Can't determine return type.");
}
}
return;
}
_exits.push_node(ret_type->basic_type(), ret_phi);
}
......@@ -2093,15 +2098,24 @@ void Parse::return_current(Node* value) {
// here.
Node* phi = _exits.argument(0);
const TypeInstPtr *tr = phi->bottom_type()->isa_instptr();
if( tr && tr->klass()->is_loaded() &&
tr->klass()->is_interface() ) {
if (tr && tr->klass()->is_loaded() &&
tr->klass()->is_interface()) {
const TypeInstPtr *tp = value->bottom_type()->isa_instptr();
if (tp && tp->klass()->is_loaded() &&
!tp->klass()->is_interface()) {
// sharpen the type eagerly; this eases certain assert checking
if (tp->higher_equal(TypeInstPtr::NOTNULL))
tr = tr->join_speculative(TypeInstPtr::NOTNULL)->is_instptr();
value = _gvn.transform(new (C) CheckCastPPNode(0,value,tr));
value = _gvn.transform(new (C) CheckCastPPNode(0, value, tr));
}
} else {
// Also handle returns of oop-arrays to an arrays-of-interface return
const TypeInstPtr* phi_tip;
const TypeInstPtr* val_tip;
Type::get_arrays_base_elements(phi->bottom_type(), value->bottom_type(), &phi_tip, &val_tip);
if (phi_tip != NULL && phi_tip->is_loaded() && phi_tip->klass()->is_interface() &&
val_tip != NULL && val_tip->is_loaded() && !val_tip->klass()->is_interface()) {
value = _gvn.transform(new (C) CheckCastPPNode(0, value, phi->bottom_type()));
}
}
phi->add_req(value);
......
src/share/vm/opto/type.cpp
浏览文件 @ f6759736
......@@ -149,6 +149,33 @@ BasicType Type::array_element_basic_type() const {
return bt;
}
// For two instance arrays of same dimension, return the base element types.
// Otherwise or if the arrays have different dimensions, return NULL.
void Type::get_arrays_base_elements(const Type *a1, const Type *a2,
const TypeInstPtr **e1, const TypeInstPtr **e2) {
if (e1) *e1 = NULL;
if (e2) *e2 = NULL;
const TypeAryPtr* a1tap = (a1 == NULL) ? NULL : a1->isa_aryptr();
const TypeAryPtr* a2tap = (a2 == NULL) ? NULL : a2->isa_aryptr();
if (a1tap != NULL && a2tap != NULL) {
// Handle multidimensional arrays
const TypePtr* a1tp = a1tap->elem()->make_ptr();
const TypePtr* a2tp = a2tap->elem()->make_ptr();
while (a1tp && a1tp->isa_aryptr() && a2tp && a2tp->isa_aryptr()) {
a1tap = a1tp->is_aryptr();
a2tap = a2tp->is_aryptr();
a1tp = a1tap->elem()->make_ptr();
a2tp = a2tap->elem()->make_ptr();
}
if (a1tp && a1tp->isa_instptr() && a2tp && a2tp->isa_instptr()) {
if (e1) *e1 = a1tp->is_instptr();
if (e2) *e2 = a2tp->is_instptr();
}
}
}
//---------------------------get_typeflow_type---------------------------------
// Import a type produced by ciTypeFlow.
const Type* Type::get_typeflow_type(ciType* type) {
......@@ -1982,7 +2009,11 @@ const Type* TypeAry::remove_speculative() const {
bool TypeAry::interface_vs_oop(const Type *t) const {
const TypeAry* t_ary = t->is_ary();
if (t_ary) {
return _elem->interface_vs_oop(t_ary->_elem);
const TypePtr* this_ptr = _elem->make_ptr(); // In case we have narrow_oops
const TypePtr* t_ptr = t_ary->_elem->make_ptr();
if(this_ptr != NULL && t_ptr != NULL) {
return this_ptr->interface_vs_oop(t_ptr);
}
}
return false;
}
......@@ -2834,8 +2865,17 @@ const Type *TypeOopPtr::filter_helper(const Type *kills, bool include_speculativ
// be 'I' or 'j/l/O'. Thus we'll pick 'j/l/O'. If this then flows
// into a Phi which "knows" it's an Interface type we'll have to
// uplift the type.
if (!empty() && ktip != NULL && ktip->is_loaded() && ktip->klass()->is_interface())
if (!empty()) {
if (ktip != NULL && ktip->is_loaded() && ktip->klass()->is_interface()) {
return kills; // Uplift to interface
}
// Also check for evil cases of 'this' being a class array
// and 'kills' expecting an array of interfaces.
Type::get_arrays_base_elements(ft, kills, NULL, &ktip);
if (ktip != NULL && ktip->is_loaded() && ktip->klass()->is_interface()) {
return kills; // Uplift to array of interface
}
}
return Type::TOP; // Canonical empty value
}
......
src/share/vm/opto/type.hpp
浏览文件 @ f6759736
......@@ -367,6 +367,11 @@ public:
return _const_basic_type[type];
}
// For two instance arrays of same dimension, return the base element types.
// Otherwise or if the arrays have different dimensions, return NULL.
static void get_arrays_base_elements(const Type *a1, const Type *a2,
const TypeInstPtr **e1, const TypeInstPtr **e2);
// Mapping to the array element's basic type.
BasicType array_element_basic_type() const;
......
test/compiler/types/TestMeetIncompatibleInterfaceArrays.java 0 → 100644
浏览文件 @ f6759736
/*
* Copyright 2015 SAP AG. All Rights Reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
/*
* @test
* @bug 8141551
* @summary C2 can not handle returns with inccompatible interface arrays
* @library /testlibrary /testlibrary/whitebox/
* @build sun.hotspot.WhiteBox
* @run main ClassFileInstaller sun.hotspot.WhiteBox
* sun.hotspot.WhiteBox$WhiteBoxPermission
* @run main/othervm
* -Xbootclasspath/a:.
* -XX:+UnlockDiagnosticVMOptions
* -XX:+WhiteBoxAPI
* -Xbatch
* -XX:CompileThreshold=1
* -XX:-TieredCompilation
* -XX:CICompilerCount=1
* -XX:+PrintCompilation
* -XX:+PrintInlining
* -XX:CompileCommand=compileonly,MeetIncompatibleInterfaceArrays*.run
* -XX:CompileCommand=dontinline,TestMeetIncompatibleInterfaceArrays$Helper.createI2*
* -XX:CompileCommand=quiet
* TestMeetIncompatibleInterfaceArrays 0
* @run main/othervm
* -Xbootclasspath/a:.
* -XX:+UnlockDiagnosticVMOptions
* -XX:+WhiteBoxAPI
* -Xbatch
* -XX:CompileThreshold=1
* -XX:-TieredCompilation
* -XX:CICompilerCount=1
* -XX:+PrintCompilation
* -XX:+PrintInlining
* -XX:CompileCommand=compileonly,MeetIncompatibleInterfaceArrays*.run
* -XX:CompileCommand=inline,TestMeetIncompatibleInterfaceArrays$Helper.createI2*
* -XX:CompileCommand=quiet
* TestMeetIncompatibleInterfaceArrays 1
* @run main/othervm
* -Xbootclasspath/a:.
* -XX:+UnlockDiagnosticVMOptions
* -XX:+WhiteBoxAPI
* -Xbatch
* -XX:CompileThreshold=1
* -XX:Tier0InvokeNotifyFreqLog=0 -XX:Tier2InvokeNotifyFreqLog=0 -XX:Tier3InvokeNotifyFreqLog=0 -XX:Tier23InlineeNotifyFreqLog=0
* -XX:Tier3InvocationThreshold=2 -XX:Tier3MinInvocationThreshold=2 -XX:Tier3CompileThreshold=2
* -XX:Tier4InvocationThreshold=1 -XX:Tier4MinInvocationThreshold=1 -XX:Tier4CompileThreshold=1
* -XX:+TieredCompilation
* -XX:CICompilerCount=2
* -XX:+PrintCompilation
* -XX:+PrintInlining
* -XX:CompileCommand=compileonly,MeetIncompatibleInterfaceArrays*.run
* -XX:CompileCommand=compileonly,TestMeetIncompatibleInterfaceArrays$Helper.createI2*
* -XX:CompileCommand=inline,TestMeetIncompatibleInterfaceArrays$Helper.createI2*
* -XX:CompileCommand=quiet
* TestMeetIncompatibleInterfaceArrays 2
*
* @author volker.simonis@gmail.com
*/
import java.io.FileOutputStream;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import jdk.internal.org.objectweb.asm.ClassWriter;
import jdk.internal.org.objectweb.asm.MethodVisitor;
import static jdk.internal.org.objectweb.asm.Opcodes.*;
import sun.hotspot.WhiteBox;
public class TestMeetIncompatibleInterfaceArrays extends ClassLoader {
private static final WhiteBox WB = WhiteBox.getWhiteBox();
public static interface I1 { public String getName(); }
public static interface I2 { public String getName(); }
public static class I2C implements I2 { public String getName() { return "I2";} }
public static class I21C implements I2, I1 { public String getName() { return "I2 and I1";} }
public static class Helper {
public static I2 createI2Array0() {
return new I2C();
}
public static I2[] createI2Array1() {
return new I2C[] { new I2C() };
}
public static I2[][] createI2Array2() {
return new I2C[][] { new I2C[] { new I2C() } };
}
public static I2[][][] createI2Array3() {
return new I2C[][][] { new I2C[][] { new I2C[] { new I2C() } } };
}
public static I2[][][][] createI2Array4() {
return new I2C[][][][] { new I2C[][][] { new I2C[][] { new I2C[] { new I2C() } } } };
}
public static I2[][][][][] createI2Array5() {
return new I2C[][][][][] { new I2C[][][][] { new I2C[][][] { new I2C[][] { new I2C[] { new I2C() } } } } };
}
public static I2 createI21Array0() {
return new I21C();
}
public static I2[] createI21Array1() {
return new I21C[] { new I21C() };
}
public static I2[][] createI21Array2() {
return new I21C[][] { new I21C[] { new I21C() } };
}
public static I2[][][] createI21Array3() {
return new I21C[][][] { new I21C[][] { new I21C[] { new I21C() } } };
}
public static I2[][][][] createI21Array4() {
return new I21C[][][][] { new I21C[][][] { new I21C[][] { new I21C[] { new I21C() } } } };
}
public static I2[][][][][] createI21Array5() {
return new I21C[][][][][] { new I21C[][][][] { new I21C[][][] { new I21C[][] { new I21C[] { new I21C() } } } } };
}
}
// Location for the generated class files
public static final String PATH = System.getProperty("test.classes", ".") + java.io.File.separator;
/*
* With 'good == false' this helper method creates the following classes
* (using the nested 'Helper' class and the nested interfaces 'I1' and 'I2').
* For brevity I omit the enclosing class 'TestMeetIncompatibleInterfaceArrays' in the
* following examples:
*
* public class MeetIncompatibleInterfaceArrays0ASM {
* public static I1 run() {
* return Helper.createI2Array0(); // returns I2
* }
* public static void test() {
* I1 i1 = run();
* System.out.println(i1.getName());
* }
* }
* public class MeetIncompatibleInterfaceArrays1ASM {
* public static I1[] run() {
* return Helper.createI2Array1(); // returns I2[]
* }
* public static void test() {
* I1[] i1 = run();
* System.out.println(i1[0].getName());
* }
* }
* ...
* // MeetIncompatibleInterfaceArrays4ASM is special because it creates
* // an illegal class which will be rejected by the verifier.
* public class MeetIncompatibleInterfaceArrays4ASM {
* public static I1[][][][] run() {
* return Helper.createI2Array3(); // returns I1[][][] which gives a verifier error because return expects I1[][][][]
* }
* public static void test() {
* I1[][][][][] i1 = run();
* System.out.println(i1[0][0][0][0][0].getName());
* }
* ...
* public class MeetIncompatibleInterfaceArrays5ASM {
* public static I1[][][][][] run() {
* return Helper.createI2Array5(); // returns I2[][][][][]
* }
* public static void test() {
* I1[][][][][] i1 = run();
* System.out.println(i1[0][0][0][0][0].getName());
* }
* }
*
* Notice that this is not legal Java code. We would have to use a cast in "run()" to make it legal:
*
* public static I1[] run() {
* return (I1[])Helper.createI2Array1(); // returns I2[]
* }
*
* But in pure bytecode, the "run()" methods are perfectly legal:
*
* public static I1[] run();
* Code:
* 0: invokestatic #16 // Method Helper.createI2Array1:()[LI2;
* 3: areturn
*
* The "test()" method calls the "getName()" function from I1 on the objects returned by "run()".
* This will epectedly fail with an "IncompatibleClassChangeError" because the objects returned
* by "run()" (and by createI2Array()) are actually of type "I2C" and only implement "I2" but not "I1".
*
*
* With 'good == true' this helper method will create the following classes:
*
* public class MeetIncompatibleInterfaceArraysGood0ASM {
* public static I1 run() {
* return Helper.createI21Array0(); // returns I2
* }
* public static void test() {
* I1 i1 = run();
* System.out.println(i1.getName());
* }
* }
*
* Calling "test()" on these objects will succeed and output "I2 and I1" because now the "run()"
* method calls "createI21Array()" which actually return an object (or an array of objects) of
* type "I21C" which implements both "I2" and "I1".
*
* Notice that at the bytecode level, the code for the "run()" and "test()" methods in
* "MeetIncompatibleInterfaceArraysASM" and "MeetIncompatibleInterfaceArraysGoodASM" look exactly
* the same. I.e. the verifier has no chance to verify if the I2 object returned by "createI1Array()"
* or "createI21Array()" implements "I1" or not. That's actually the reason why both versions of
* generated classes are legal from a verifier point of view.
*
*/
static void generateTestClass(int dim, boolean good) throws Exception {
String baseClassName = "MeetIncompatibleInterfaceArrays";
if (good)
baseClassName += "Good";
String createName = "createI2" + (good ? "1" : "") + "Array";
String a = "";
for (int i = 0; i < dim; i++)
a += "[";
ClassWriter cw = new ClassWriter(ClassWriter.COMPUTE_FRAMES);
cw.visit(V1_8, ACC_PUBLIC, baseClassName + dim + "ASM", null, "java/lang/Object", null);
MethodVisitor constr = cw.visitMethod(ACC_PUBLIC, "<init>", "()V", null, null);
constr.visitCode();
constr.visitVarInsn(ALOAD, 0);
constr.visitMethodInsn(INVOKESPECIAL, "java/lang/Object", "<init>", "()V", false);
constr.visitInsn(RETURN);
constr.visitMaxs(0, 0);
constr.visitEnd();
MethodVisitor run = cw.visitMethod(ACC_PUBLIC | ACC_STATIC, "run",
"()" + a + "LTestMeetIncompatibleInterfaceArrays$I1;", null, null);
run.visitCode();
if (dim == 4) {
run.visitMethodInsn(INVOKESTATIC, "TestMeetIncompatibleInterfaceArrays$Helper", createName + 3,
"()" + "[[[" + "LTestMeetIncompatibleInterfaceArrays$I2;", false);
} else {
run.visitMethodInsn(INVOKESTATIC, "TestMeetIncompatibleInterfaceArrays$Helper", createName + dim,
"()" + a + "LTestMeetIncompatibleInterfaceArrays$I2;", false);
}
run.visitInsn(ARETURN);
run.visitMaxs(0, 0);
run.visitEnd();
MethodVisitor test = cw.visitMethod(ACC_PUBLIC | ACC_STATIC, "test", "()V", null, null);
test.visitCode();
test.visitMethodInsn(INVOKESTATIC, baseClassName + dim + "ASM", "run",
"()" + a + "LTestMeetIncompatibleInterfaceArrays$I1;", false);
test.visitVarInsn(ASTORE, 0);
if (dim > 0) {
test.visitVarInsn(ALOAD, 0);
for (int i = 1; i <= dim; i++) {
test.visitInsn(ICONST_0);
test.visitInsn(AALOAD);
}
test.visitVarInsn(ASTORE, 1);
}
test.visitFieldInsn(GETSTATIC, "java/lang/System", "out", "Ljava/io/PrintStream;");
test.visitVarInsn(ALOAD, dim > 0 ? 1 : 0);
test.visitMethodInsn(INVOKEINTERFACE, "TestMeetIncompatibleInterfaceArrays$I1", "getName",
"()Ljava/lang/String;", true);
test.visitMethodInsn(INVOKEVIRTUAL, "java/io/PrintStream", "println", "(Ljava/lang/Object;)V", false);
test.visitInsn(RETURN);
test.visitMaxs(0, 0);
test.visitEnd();
// Get the bytes of the class..
byte[] b = cw.toByteArray();
// ..and write them into a class file (for debugging)
FileOutputStream fos = new FileOutputStream(PATH + baseClassName + dim + "ASM.class");
fos.write(b);
fos.close();
}
public static String[][] tier = { { "interpreted", "C2 (tier 4) without inlining", "C2 (tier4) without inlining" },
{ "interpreted", "C2 (tier 4) with inlining", "C2 (tier4) with inlining" },
{ "interpreted", "C1 (tier 3) with inlining", "C2 (tier4) with inlining" } };
public static void main(String[] args) throws Exception {
final int pass = Integer.parseInt(args.length > 0 ? args[0] : "0");
// Load and initialize some classes required for compilation
Class.forName("TestMeetIncompatibleInterfaceArrays$I1");
Class.forName("TestMeetIncompatibleInterfaceArrays$I2");
Class.forName("TestMeetIncompatibleInterfaceArrays$Helper");
for (int g = 0; g < 2; g++) {
String baseClassName = "MeetIncompatibleInterfaceArrays";
boolean good = (g == 0) ? false : true;
if (good)
baseClassName += "Good";
for (int i = 0; i < 6; i++) {
System.out.println();
System.out.println("Creating " + baseClassName + i + "ASM.class");
System.out.println("========================================" + "=" + "=========");
// Create the "MeetIncompatibleInterfaceArrays<i>ASM" class
generateTestClass(i, good);
Class<?> c = null;
try {
c = Class.forName(baseClassName + i + "ASM");
} catch (VerifyError ve) {
if (i == 4) {
System.out.println("OK - must be (" + ve.getMessage() + ").");
} else {
throw ve;
}
continue;
}
// Call MeetIncompatibleInterfaceArrays<i>ASM.test()
Method m = c.getMethod("test");
Method r = c.getMethod("run");
for (int j = 0; j < 3; j++) {
System.out.println((j + 1) + ". invokation of " + baseClassName + i + "ASM.test() [should be "
+ tier[pass][j] + "]");
try {
m.invoke(null);
} catch (InvocationTargetException ite) {
if (good) {
throw ite;
} else {
if (ite.getCause() instanceof IncompatibleClassChangeError) {
System.out.println(" OK - catched InvocationTargetException("
+ ite.getCause().getMessage() + ").");
} else {
throw ite;
}
}
}
}
System.out.println("Method " + r + (WB.isMethodCompiled(r) ? " has" : " has not") + " been compiled.");
if (!WB.isMethodCompiled(r)) {
throw new Exception("Method " + r + " must be compiled!");
}
}
}
}
}
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