/* * Copyright (C) 2012 The Android Open Source Project * * 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. */ #include "jni_compiler.h" #include "class_linker.h" #include "compilation_unit.h" #include "compiled_method.h" #include "compiler.h" #include "compiler_llvm.h" #include "ir_builder.h" #include "logging.h" #include "oat_compilation_unit.h" #include "object.h" #include "runtime.h" #include "runtime_support_func.h" #include "shadow_frame.h" #include "utils_llvm.h" #include #include #include #include #include namespace art { namespace compiler_llvm { JniCompiler::JniCompiler(CompilationUnit* cunit, Compiler const& compiler, OatCompilationUnit* oat_compilation_unit) : cunit_(cunit), compiler_(&compiler), module_(cunit_->GetModule()), context_(cunit_->GetLLVMContext()), irb_(*cunit_->GetIRBuilder()), oat_compilation_unit_(oat_compilation_unit), access_flags_(oat_compilation_unit->access_flags_), method_idx_(oat_compilation_unit->method_idx_), class_linker_(oat_compilation_unit->class_linker_), class_loader_(oat_compilation_unit->class_loader_), dex_cache_(oat_compilation_unit->dex_cache_), dex_file_(oat_compilation_unit->dex_file_), method_(dex_cache_->GetResolvedMethod(method_idx_)) { // Check: Ensure that the method is resolved CHECK_NE(method_, static_cast(NULL)); // Check: Ensure that JNI compiler will only get "native" method CHECK((access_flags_ & kAccNative) != 0); } CompiledMethod* JniCompiler::Compile() { const bool is_static = (access_flags_ & kAccStatic) != 0; const bool is_synchronized = (access_flags_ & kAccSynchronized) != 0; DexFile::MethodId const& method_id = dex_file_->GetMethodId(method_idx_); char const return_shorty = dex_file_->GetMethodShorty(method_id)[0]; llvm::Value* this_object_or_class_object; CreateFunction(); // Set argument name llvm::Function::arg_iterator arg_begin(func_->arg_begin()); llvm::Function::arg_iterator arg_end(func_->arg_end()); llvm::Function::arg_iterator arg_iter(arg_begin); DCHECK_NE(arg_iter, arg_end); arg_iter->setName("method"); llvm::Value* method_object_addr = arg_iter++; if (!is_static) { // Non-static, the second argument is "this object" this_object_or_class_object = arg_iter++; } else { // Load class object this_object_or_class_object = LoadFromObjectOffset(method_object_addr, Method::DeclaringClassOffset().Int32Value(), irb_.getJObjectTy()); } // Actual argument (ignore method and this object) arg_begin = arg_iter; // Count the number of Object* arguments uint32_t sirt_size = 1; // "this" object pointer for non-static // "class" object pointer for static for (unsigned i = 0; arg_iter != arg_end; ++i, ++arg_iter) { arg_iter->setName(StringPrintf("a%u", i)); if (arg_iter->getType() == irb_.getJObjectTy()) { ++sirt_size; } } // Get thread object llvm::Value* thread_object_addr = irb_.CreateCall(irb_.GetRuntime(runtime_support::GetCurrentThread)); // Shadow stack llvm::StructType* shadow_frame_type = irb_.getShadowFrameTy(sirt_size); llvm::AllocaInst* shadow_frame_ = irb_.CreateAlloca(shadow_frame_type); // Zero-initialization of the shadow frame llvm::ConstantAggregateZero* zero_initializer = llvm::ConstantAggregateZero::get(shadow_frame_type); irb_.CreateStore(zero_initializer, shadow_frame_); // Store the method pointer llvm::Value* method_field_addr = irb_.CreatePtrDisp(shadow_frame_, irb_.getPtrEquivInt(ShadowFrame::MethodOffset()), irb_.getJObjectTy()->getPointerTo()); irb_.CreateStore(method_object_addr, method_field_addr); // Store the number of the pointer slots StoreToObjectOffset(shadow_frame_, ShadowFrame::NumberOfReferencesOffset(), irb_.getInt32(sirt_size)); // Push the shadow frame llvm::Value* shadow_frame_upcast = irb_.CreateConstGEP2_32(shadow_frame_, 0, 0); irb_.CreateCall(irb_.GetRuntime(runtime_support::PushShadowFrame), shadow_frame_upcast); // Set top of managed stack to the method field in the SIRT StoreToObjectOffset(thread_object_addr, Thread::TopOfManagedStackOffset().Int32Value(), method_field_addr); // Get JNIEnv llvm::Value* jni_env_object_addr = LoadFromObjectOffset(thread_object_addr, Thread::JniEnvOffset().Int32Value(), irb_.getJObjectTy()); // Set thread state to kNative StoreToObjectOffset(thread_object_addr, Thread::StateOffset().Int32Value(), irb_.getInt32(Thread::kNative)); // Get callee code_addr llvm::Value* code_addr = LoadFromObjectOffset(method_object_addr, Method::NativeMethodOffset().Int32Value(), GetFunctionType(method_idx_, is_static, true)->getPointerTo()); // Load actual parameters std::vector args; // The 1st parameter: JNIEnv* args.push_back(jni_env_object_addr); // Variables for GetElementPtr llvm::Value* gep_index[] = { irb_.getInt32(0), // No displacement for shadow frame pointer irb_.getInt32(1), // SIRT NULL, }; size_t sirt_member_index = 0; // Store the "this object or class object" to SIRT gep_index[2] = irb_.getInt32(sirt_member_index++); llvm::Value* sirt_field_addr = irb_.CreateGEP(shadow_frame_, gep_index); irb_.CreateStore(this_object_or_class_object, sirt_field_addr); // Push the "this object or class object" to out args args.push_back(irb_.CreateBitCast(sirt_field_addr, irb_.getJObjectTy())); // Store arguments to SIRT, and push back to args for (arg_iter = arg_begin; arg_iter != arg_end; ++arg_iter) { if (arg_iter->getType() == irb_.getJObjectTy()) { // Store the reference type arguments to SIRT gep_index[2] = irb_.getInt32(sirt_member_index++); llvm::Value* sirt_field_addr = irb_.CreateGEP(shadow_frame_, gep_index); irb_.CreateStore(arg_iter, sirt_field_addr); // Note null is placed in the SIRT but the jobject passed to the native code must be null // (not a pointer into the SIRT as with regular references). llvm::Value* equal_null = irb_.CreateICmpEQ(arg_iter, irb_.getJNull()); llvm::Value* arg = irb_.CreateSelect(equal_null, irb_.getJNull(), irb_.CreateBitCast(sirt_field_addr, irb_.getJObjectTy())); args.push_back(arg); } else { args.push_back(arg_iter); } } // Acquire lock for synchronized methods. if (is_synchronized) { // Acquire lock irb_.CreateCall(irb_.GetRuntime(runtime_support::LockObject), this_object_or_class_object); // Check exception pending llvm::Value* exception_pending = irb_.CreateCall(irb_.GetRuntime(runtime_support::IsExceptionPending)); // Create two basic block for branch llvm::BasicBlock* block_cont = llvm::BasicBlock::Create(*context_, "B.cont", func_); llvm::BasicBlock* block_exception_ = llvm::BasicBlock::Create(*context_, "B.exception", func_); // Branch by exception_pending irb_.CreateCondBr(exception_pending, block_exception_, block_cont); // If exception pending irb_.SetInsertPoint(block_exception_); // TODO: Set thread state? // Pop the shadow frame irb_.CreateCall(irb_.GetRuntime(runtime_support::PopShadowFrame)); // Unwind if (return_shorty != 'V') { irb_.CreateRet(irb_.getJZero(return_shorty)); } else { irb_.CreateRetVoid(); } // If no exception pending irb_.SetInsertPoint(block_cont); } // saved_local_ref_cookie = env->local_ref_cookie llvm::Value* saved_local_ref_cookie = LoadFromObjectOffset(jni_env_object_addr, JNIEnvExt::LocalRefCookieOffset().Int32Value(), irb_.getInt32Ty()); // env->local_ref_cookie = env->locals.segment_state llvm::Value* segment_state = LoadFromObjectOffset(jni_env_object_addr, JNIEnvExt::SegmentStateOffset().Int32Value(), irb_.getInt32Ty()); StoreToObjectOffset(jni_env_object_addr, JNIEnvExt::LocalRefCookieOffset().Int32Value(), segment_state); // Call!!! llvm::Value* retval = irb_.CreateCall(code_addr, args); // Release lock for synchronized methods. if (is_synchronized) { irb_.CreateCall(irb_.GetRuntime(runtime_support::UnlockObject), this_object_or_class_object); } // Set thread state to kRunnable StoreToObjectOffset(thread_object_addr, Thread::StateOffset().Int32Value(), irb_.getInt32(Thread::kRunnable)); if (return_shorty == 'L') { // If the return value is reference, it may point to SIRT, we should decode it. retval = irb_.CreateCall2(irb_.GetRuntime(runtime_support::DecodeJObjectInThread), thread_object_addr, retval); } // env->locals.segment_state = env->local_ref_cookie llvm::Value* local_ref_cookie = LoadFromObjectOffset(jni_env_object_addr, JNIEnvExt::LocalRefCookieOffset().Int32Value(), irb_.getInt32Ty()); StoreToObjectOffset(jni_env_object_addr, JNIEnvExt::SegmentStateOffset().Int32Value(), local_ref_cookie); // env->local_ref_cookie = saved_local_ref_cookie StoreToObjectOffset(jni_env_object_addr, JNIEnvExt::LocalRefCookieOffset().Int32Value(), saved_local_ref_cookie); // Pop the shadow frame irb_.CreateCall(irb_.GetRuntime(runtime_support::PopShadowFrame)); // Return! if (return_shorty != 'V') { irb_.CreateRet(retval); } else { irb_.CreateRetVoid(); } // Verify the generated bitcode llvm::verifyFunction(*func_, llvm::PrintMessageAction); return new CompiledMethod(cunit_->GetInstructionSet(), cunit_->GetElfIndex()); } void JniCompiler::CreateFunction() { // LLVM function name std::string func_name(LLVMLongName(method_)); // Get function type llvm::FunctionType* func_type = GetFunctionType(method_idx_, method_->IsStatic(), false); // Create function func_ = llvm::Function::Create(func_type, llvm::Function::ExternalLinkage, func_name, module_); // Create basic block llvm::BasicBlock* basic_block = llvm::BasicBlock::Create(*context_, "B0", func_); // Set insert point irb_.SetInsertPoint(basic_block); } llvm::FunctionType* JniCompiler::GetFunctionType(uint32_t method_idx, bool is_static, bool is_native_function) { // Get method signature DexFile::MethodId const& method_id = dex_file_->GetMethodId(method_idx); uint32_t shorty_size; char const* shorty = dex_file_->GetMethodShorty(method_id, &shorty_size); CHECK_GE(shorty_size, 1u); // Get return type llvm::Type* ret_type = irb_.getJType(shorty[0], kAccurate); // Get argument type std::vector args_type; args_type.push_back(irb_.getJObjectTy()); // method object pointer if (!is_static || is_native_function) { // "this" object pointer for non-static // "class" object pointer for static naitve args_type.push_back(irb_.getJType('L', kAccurate)); } for (uint32_t i = 1; i < shorty_size; ++i) { args_type.push_back(irb_.getJType(shorty[i], kAccurate)); } return llvm::FunctionType::get(ret_type, args_type, false); } llvm::Value* JniCompiler::LoadFromObjectOffset(llvm::Value* object_addr, int32_t offset, llvm::Type* type) { // Convert offset to llvm::value llvm::Value* llvm_offset = irb_.getPtrEquivInt(offset); // Calculate the value's address llvm::Value* value_addr = irb_.CreatePtrDisp(object_addr, llvm_offset, type->getPointerTo()); // Load return irb_.CreateLoad(value_addr); } void JniCompiler::StoreToObjectOffset(llvm::Value* object_addr, int32_t offset, llvm::Value* new_value) { // Convert offset to llvm::value llvm::Value* llvm_offset = irb_.getPtrEquivInt(offset); // Calculate the value's address llvm::Value* value_addr = irb_.CreatePtrDisp(object_addr, llvm_offset, new_value->getType()->getPointerTo()); // Store irb_.CreateStore(new_value, value_addr); } } // namespace compiler_llvm } // namespace art