// Copyright (c) 2013, the Dart project authors. Please see the AUTHORS file // for details. All rights reserved. Use of this source code is governed by a // BSD-style license that can be found in the LICENSE file. #include "vm/globals.h" // Needed here to get TARGET_ARCH_ARM. #if defined(TARGET_ARCH_ARM) #include "vm/code_patcher.h" #include "vm/flow_graph_compiler.h" #include "vm/instructions.h" #include "vm/object.h" namespace dart { uword CodePatcher::GetStaticCallTargetAt(uword return_address, const Code& code) { ASSERT(code.ContainsInstructionAt(return_address)); CallPattern call(return_address, code); return call.TargetAddress(); } void CodePatcher::PatchStaticCallAt(uword return_address, const Code& code, uword new_target) { ASSERT(code.ContainsInstructionAt(return_address)); CallPattern call(return_address, code); call.SetTargetAddress(new_target); } void CodePatcher::PatchInstanceCallAt(uword return_address, const Code& code, uword new_target) { ASSERT(code.ContainsInstructionAt(return_address)); CallPattern call(return_address, code); call.SetTargetAddress(new_target); } int32_t CodePatcher::GetPoolOffsetAt(uword return_address) { UNIMPLEMENTED(); return 0; } void CodePatcher::SetPoolOffsetAt(uword return_address, int32_t offset) { UNIMPLEMENTED(); } void CodePatcher::InsertCallAt(uword start, uword target) { // The inserted call should not overlap the lazy deopt jump code. ASSERT(start + CallPattern::LengthInBytes() <= target); CallPattern::InsertAt(start, target); } uword CodePatcher::GetInstanceCallAt(uword return_address, const Code& code, ICData* ic_data) { ASSERT(code.ContainsInstructionAt(return_address)); CallPattern call(return_address, code); if (ic_data != NULL) { *ic_data = call.IcData(); } return call.TargetAddress(); } intptr_t CodePatcher::InstanceCallSizeInBytes() { // The instance call instruction sequence has a variable size on ARM. UNREACHABLE(); return 0; } RawFunction* CodePatcher::GetUnoptimizedStaticCallAt( uword return_address, const Code& code, ICData* ic_data_result) { ASSERT(code.ContainsInstructionAt(return_address)); CallPattern static_call(return_address, code); ICData& ic_data = ICData::Handle(); ic_data ^= static_call.IcData(); if (ic_data_result != NULL) { *ic_data_result = ic_data.raw(); } return ic_data.GetTargetAt(0); } // This class pattern matches on a load from the object pool. Loading on // ARM is complicated because it can take four possible different forms. We // match backwards from the end of the sequence so we can reuse the code for // matching object pool loads at calls. class EdgeCounter : public ValueObject { public: EdgeCounter(uword pc, const Code& code) : end_(pc - FlowGraphCompiler::EdgeCounterIncrementSizeInBytes()), object_pool_(Array::Handle(code.ObjectPool())) { // An IsValid predicate is complicated and duplicates the code in the // decoding function. Instead we rely on decoding the pattern which // will assert partial validity. } RawObject* edge_counter() const { Register ignored; intptr_t index; InstructionPattern::DecodeLoadWordFromPool(end_, &ignored, &index); ASSERT(ignored == R0); return object_pool_.At(index); } private: // The object pool load is followed by the fixed-size edge counter // incrementing code: // ldr ip, [r0, #+11] // adds ip, ip, #2 // str ip, [r0, #+11] static const intptr_t kAdjust = 3 * Instr::kInstrSize; uword end_; const Array& object_pool_; }; RawObject* CodePatcher::GetEdgeCounterAt(uword pc, const Code& code) { ASSERT(code.ContainsInstructionAt(pc)); EdgeCounter counter(pc, code); return counter.edge_counter(); } } // namespace dart #endif // defined TARGET_ARCH_ARM