/* * Copyright (c) 1999, 2007, Oracle and/or its affiliates. All rights reserved. * Copyright 2009, 2010 Red Hat, Inc. * 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. * */ #include "incls/_precompiled.incl" #include "incls/_sharkNativeWrapper.cpp.incl" using namespace llvm; void SharkNativeWrapper::initialize(const char *name) { // Create the function _function = Function::Create( SharkType::entry_point_type(), GlobalVariable::InternalLinkage, name); // Get our arguments Function::arg_iterator ai = function()->arg_begin(); Argument *method = ai++; method->setName("method"); Argument *base_pc = ai++; base_pc->setName("base_pc"); code_buffer()->set_base_pc(base_pc); Argument *thread = ai++; thread->setName("thread"); set_thread(thread); // Create and push our stack frame builder()->SetInsertPoint(CreateBlock()); _stack = SharkStack::CreateBuildAndPushFrame(this, method); NOT_PRODUCT(method = NULL); // Create the oopmap. We use the one oopmap for every call site in // the wrapper, which results in the odd mild inefficiency but is a // damn sight easier to code. OopMap *oopmap = new OopMap( SharkStack::oopmap_slot_munge(stack()->oopmap_frame_size()), SharkStack::oopmap_slot_munge(arg_size())); oopmap->set_oop(SharkStack::slot2reg(stack()->method_slot_offset())); // Set up the oop_tmp slot if required: // - For static methods we use it to handlize the class argument // for the call, and to protect the same during slow path locks // (if synchronized). // - For methods returning oops, we use it to protect the return // value across safepoints or slow path unlocking. if (is_static() || is_returning_oop()) { _oop_tmp_slot = stack()->slot_addr( stack()->oop_tmp_slot_offset(), SharkType::oop_type(), "oop_tmp_slot"); oopmap->set_oop(SharkStack::slot2reg(stack()->oop_tmp_slot_offset())); } // Set up the monitor slot, for synchronized methods if (is_synchronized()) { Unimplemented(); _lock_slot_offset = 23; } // Start building the argument list std::vector param_types; std::vector param_values; const PointerType *box_type = PointerType::getUnqual(SharkType::oop_type()); // First argument is the JNIEnv param_types.push_back(SharkType::jniEnv_type()); param_values.push_back( builder()->CreateAddressOfStructEntry( thread, JavaThread::jni_environment_offset(), SharkType::jniEnv_type(), "jni_environment")); // For static methods, the second argument is the class if (is_static()) { builder()->CreateStore( builder()->CreateInlineOop( JNIHandles::make_local( target()->method_holder()->klass_part()->java_mirror())), oop_tmp_slot()); param_types.push_back(box_type); param_values.push_back(oop_tmp_slot()); _receiver_slot_offset = stack()->oop_tmp_slot_offset(); } else if (is_returning_oop()) { // The oop_tmp slot is registered in the oopmap, // so we need to clear it. This is one of the // mild inefficiencies I mentioned earlier. builder()->CreateStore(LLVMValue::null(), oop_tmp_slot()); } // Parse the arguments for (int i = 0; i < arg_size(); i++) { int slot_offset = stack()->locals_slots_offset() + arg_size() - 1 - i; int adjusted_offset = slot_offset; BasicBlock *null, *not_null, *merge; Value *box; PHINode *phi; switch (arg_type(i)) { case T_VOID: break; case T_OBJECT: case T_ARRAY: null = CreateBlock("null"); not_null = CreateBlock("not_null"); merge = CreateBlock("merge"); box = stack()->slot_addr(slot_offset, SharkType::oop_type()); builder()->CreateCondBr( builder()->CreateICmp( ICmpInst::ICMP_EQ, builder()->CreateLoad(box), LLVMValue::null()), null, not_null); builder()->SetInsertPoint(null); builder()->CreateBr(merge); builder()->SetInsertPoint(not_null); builder()->CreateBr(merge); builder()->SetInsertPoint(merge); phi = builder()->CreatePHI(box_type, "boxed_object"); phi->addIncoming(ConstantPointerNull::get(box_type), null); phi->addIncoming(box, not_null); box = phi; param_types.push_back(box_type); param_values.push_back(box); oopmap->set_oop(SharkStack::slot2reg(slot_offset)); if (i == 0 && !is_static()) _receiver_slot_offset = slot_offset; break; case T_LONG: case T_DOUBLE: adjusted_offset--; // fall through default: const Type *param_type = SharkType::to_stackType(arg_type(i)); param_types.push_back(param_type); param_values.push_back( builder()->CreateLoad(stack()->slot_addr(adjusted_offset, param_type))); } } // The oopmap is now complete, and everything is written // into the frame except the PC. int pc_offset = code_buffer()->create_unique_offset(); _oop_maps = new OopMapSet(); oop_maps()->add_gc_map(pc_offset, oopmap); builder()->CreateStore( builder()->code_buffer_address(pc_offset), stack()->slot_addr(stack()->pc_slot_offset())); // Set up the Java frame anchor stack()->CreateSetLastJavaFrame(); // Lock if necessary if (is_synchronized()) Unimplemented(); // Change the thread state to _thread_in_native CreateSetThreadState(_thread_in_native); // Make the call BasicType result_type = target()->result_type(); const Type* return_type; if (result_type == T_VOID) return_type = SharkType::void_type(); else if (is_returning_oop()) return_type = box_type; else return_type = SharkType::to_arrayType(result_type); Value* native_function = builder()->CreateIntToPtr( LLVMValue::intptr_constant((intptr_t) target()->native_function()), PointerType::getUnqual( FunctionType::get(return_type, param_types, false))); Value *result = builder()->CreateCall( native_function, param_values.begin(), param_values.end()); // Start the transition back to _thread_in_Java CreateSetThreadState(_thread_in_native_trans); // Make sure new state is visible in the GC thread if (os::is_MP()) { if (UseMembar) builder()->CreateMemoryBarrier(SharkBuilder::BARRIER_STORELOAD); else CreateWriteMemorySerializePage(); } // Handle safepoint operations, pending suspend requests, // and pending asynchronous exceptions. BasicBlock *check_thread = CreateBlock("check_thread"); BasicBlock *do_safepoint = CreateBlock("do_safepoint"); BasicBlock *safepointed = CreateBlock("safepointed"); Value *global_state = builder()->CreateLoad( builder()->CreateIntToPtr( LLVMValue::intptr_constant( (intptr_t) SafepointSynchronize::address_of_state()), PointerType::getUnqual(SharkType::jint_type())), "global_state"); builder()->CreateCondBr( builder()->CreateICmpNE( global_state, LLVMValue::jint_constant(SafepointSynchronize::_not_synchronized)), do_safepoint, check_thread); builder()->SetInsertPoint(check_thread); Value *thread_state = builder()->CreateValueOfStructEntry( thread, JavaThread::suspend_flags_offset(), SharkType::jint_type(), "thread_state"); builder()->CreateCondBr( builder()->CreateICmpNE( thread_state, LLVMValue::jint_constant(0)), do_safepoint, safepointed); builder()->SetInsertPoint(do_safepoint); builder()->CreateCall( builder()->check_special_condition_for_native_trans(), thread); builder()->CreateBr(safepointed); // Finally we can change the thread state to _thread_in_Java builder()->SetInsertPoint(safepointed); CreateSetThreadState(_thread_in_Java); // Clear the frame anchor stack()->CreateResetLastJavaFrame(); // If there is a pending exception then we can just unwind and // return. It seems totally wrong that unlocking is skipped here // but apparently the template interpreter does this so we do too. BasicBlock *exception = CreateBlock("exception"); BasicBlock *no_exception = CreateBlock("no_exception"); builder()->CreateCondBr( builder()->CreateICmpEQ( CreateLoadPendingException(), LLVMValue::null()), no_exception, exception); builder()->SetInsertPoint(exception); CreateResetHandleBlock(); stack()->CreatePopFrame(0); builder()->CreateRet(LLVMValue::jint_constant(0)); builder()->SetInsertPoint(no_exception); // If the result was an oop then unbox it before // releasing the handle it might be protected by if (is_returning_oop()) { BasicBlock *null = builder()->GetInsertBlock(); BasicBlock *not_null = CreateBlock("not_null"); BasicBlock *merge = CreateBlock("merge"); builder()->CreateCondBr( builder()->CreateICmpNE(result, ConstantPointerNull::get(box_type)), not_null, merge); builder()->SetInsertPoint(not_null); Value *unboxed_result = builder()->CreateLoad(result); builder()->CreateBr(merge); builder()->SetInsertPoint(merge); PHINode *phi = builder()->CreatePHI(SharkType::oop_type(), "result"); phi->addIncoming(LLVMValue::null(), null); phi->addIncoming(unboxed_result, not_null); result = phi; } // Reset handle block CreateResetHandleBlock(); // Unlock if necessary. if (is_synchronized()) Unimplemented(); // Unwind and return Value *result_addr = stack()->CreatePopFrame(type2size[result_type]); if (result_type != T_VOID) { bool needs_cast = false; bool is_signed = false; switch (result_type) { case T_BOOLEAN: result = builder()->CreateICmpNE(result, LLVMValue::jbyte_constant(0)); needs_cast = true; break; case T_CHAR: needs_cast = true; break; case T_BYTE: case T_SHORT: needs_cast = true; is_signed = true; break; } if (needs_cast) { result = builder()->CreateIntCast( result, SharkType::to_stackType(result_type), is_signed); } builder()->CreateStore( result, builder()->CreateIntToPtr( result_addr, PointerType::getUnqual(SharkType::to_stackType(result_type)))); } builder()->CreateRet(LLVMValue::jint_constant(0)); }