// Copyright (c) 2012, 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/code_descriptors.h" #include "vm/compiler/compiler_state.h" #include "vm/log.h" namespace dart { void DescriptorList::AddDescriptor(RawPcDescriptors::Kind kind, intptr_t pc_offset, intptr_t deopt_id, TokenPosition token_pos, intptr_t try_index) { ASSERT((kind == RawPcDescriptors::kRuntimeCall) || (kind == RawPcDescriptors::kOther) || (deopt_id != DeoptId::kNone)); // When precompiling, we only use pc descriptors for exceptions. if (!FLAG_precompiled_mode || try_index != -1) { int32_t merged_kind_try = RawPcDescriptors::MergedKindTry::Encode(kind, try_index); PcDescriptors::EncodeInteger(&encoded_data_, merged_kind_try); PcDescriptors::EncodeInteger(&encoded_data_, pc_offset - prev_pc_offset); prev_pc_offset = pc_offset; if (!FLAG_precompiled_mode) { PcDescriptors::EncodeInteger(&encoded_data_, deopt_id - prev_deopt_id); PcDescriptors::EncodeInteger(&encoded_data_, token_pos.value() - prev_token_pos); prev_deopt_id = deopt_id; prev_token_pos = token_pos.value(); } } } RawPcDescriptors* DescriptorList::FinalizePcDescriptors(uword entry_point) { if (encoded_data_.length() == 0) { return Object::empty_descriptors().raw(); } return PcDescriptors::New(&encoded_data_); } void StackMapTableBuilder::AddEntry(intptr_t pc_offset, BitmapBuilder* bitmap, intptr_t register_bit_count) { stack_map_ = StackMap::New(pc_offset, bitmap, register_bit_count); list_.Add(stack_map_, Heap::kOld); } bool StackMapTableBuilder::Verify() { intptr_t num_entries = Length(); StackMap& map1 = StackMap::Handle(); StackMap& map2 = StackMap::Handle(); for (intptr_t i = 1; i < num_entries; i++) { map1 = MapAt(i - 1); map2 = MapAt(i); // Ensure there are no duplicates and the entries are sorted. if (map1.PcOffset() >= map2.PcOffset()) { return false; } } return true; } RawArray* StackMapTableBuilder::FinalizeStackMaps(const Code& code) { ASSERT(Verify()); intptr_t num_entries = Length(); if (num_entries == 0) { return Object::empty_array().raw(); } return Array::MakeFixedLength(list_); } RawStackMap* StackMapTableBuilder::MapAt(intptr_t index) const { StackMap& map = StackMap::Handle(); map ^= list_.At(index); return map.raw(); } RawExceptionHandlers* ExceptionHandlerList::FinalizeExceptionHandlers( uword entry_point) const { intptr_t num_handlers = Length(); if (num_handlers == 0) { return Object::empty_exception_handlers().raw(); } const ExceptionHandlers& handlers = ExceptionHandlers::Handle(ExceptionHandlers::New(num_handlers)); for (intptr_t i = 0; i < num_handlers; i++) { // Assert that every element in the array has been initialized. if (list_[i].handler_types == NULL) { // Unreachable handler, entry not computed. // Initialize it to some meaningful value. const bool has_catch_all = false; // Check it is uninitialized. ASSERT((list_[i].outer_try_index == -1) && (list_[i].pc_offset == ExceptionHandlers::kInvalidPcOffset)); handlers.SetHandlerInfo(i, list_[i].outer_try_index, list_[i].pc_offset, list_[i].needs_stacktrace, has_catch_all, list_[i].token_pos, list_[i].is_generated); handlers.SetHandledTypes(i, Array::empty_array()); } else { const bool has_catch_all = ContainsDynamic(*list_[i].handler_types); handlers.SetHandlerInfo(i, list_[i].outer_try_index, list_[i].pc_offset, list_[i].needs_stacktrace, has_catch_all, list_[i].token_pos, list_[i].is_generated); handlers.SetHandledTypes(i, *list_[i].handler_types); } } return handlers.raw(); } static uint8_t* ZoneAllocator(uint8_t* ptr, intptr_t old_size, intptr_t new_size) { Zone* zone = Thread::Current()->zone(); return zone->Realloc(ptr, old_size, new_size); } #if !defined(DART_PRECOMPILED_RUNTIME) class CatchEntryMovesMapBuilder::TrieNode : public ZoneAllocated { public: TrieNode() : move_(), entry_state_offset_(-1) {} TrieNode(CatchEntryMove move, intptr_t index) : move_(move), entry_state_offset_(index) {} intptr_t Offset() { return entry_state_offset_; } TrieNode* Insert(TrieNode* node) { children_.Add(node); return node; } TrieNode* Follow(CatchEntryMove next) { for (intptr_t i = 0; i < children_.length(); i++) { if (children_[i]->move_ == next) return children_[i]; } return NULL; } private: CatchEntryMove move_; const intptr_t entry_state_offset_; GrowableArray children_; }; CatchEntryMovesMapBuilder::CatchEntryMovesMapBuilder() : zone_(Thread::Current()->zone()), root_(new TrieNode()), current_pc_offset_(0), buffer_(NULL), stream_(&buffer_, ZoneAllocator, 64) {} void CatchEntryMovesMapBuilder::Append(const CatchEntryMove& move) { moves_.Add(move); } void CatchEntryMovesMapBuilder::NewMapping(intptr_t pc_offset) { moves_.Clear(); current_pc_offset_ = pc_offset; } void CatchEntryMovesMapBuilder::EndMapping() { intptr_t suffix_length = 0; TrieNode* suffix = root_; // Find the largest common suffix, get the last node of the path. for (intptr_t i = moves_.length() - 1; i >= 0; i--) { TrieNode* n = suffix->Follow(moves_[i]); if (n == NULL) break; suffix_length++; suffix = n; } intptr_t length = moves_.length() - suffix_length; intptr_t current_offset = stream_.bytes_written(); typedef WriteStream::Raw Writer; Writer::Write(&stream_, current_pc_offset_); Writer::Write(&stream_, length); Writer::Write(&stream_, suffix_length); Writer::Write(&stream_, suffix->Offset()); // Write the unshared part, adding it to the trie. TrieNode* node = suffix; for (intptr_t i = length - 1; i >= 0; i--) { moves_[i].WriteTo(&stream_); TrieNode* child = new (zone_) TrieNode(moves_[i], current_offset); node->Insert(child); node = child; } } RawTypedData* CatchEntryMovesMapBuilder::FinalizeCatchEntryMovesMap() { TypedData& td = TypedData::Handle(TypedData::New( kTypedDataInt8ArrayCid, stream_.bytes_written(), Heap::kOld)); NoSafepointScope no_safepoint; uint8_t* dest = reinterpret_cast(td.DataAddr(0)); uint8_t* src = stream_.buffer(); for (intptr_t i = 0; i < stream_.bytes_written(); i++) { dest[i] = src[i]; } return td.raw(); } #endif // !defined(DART_PRECOMPILED_RUNTIME) const TokenPosition CodeSourceMapBuilder::kInitialPosition = TokenPosition(TokenPosition::kDartCodeProloguePos); CodeSourceMapBuilder::CodeSourceMapBuilder( bool stack_traces_only, const GrowableArray& caller_inline_id, const GrowableArray& inline_id_to_token_pos, const GrowableArray& inline_id_to_function) : buffered_pc_offset_(0), buffered_inline_id_stack_(), buffered_token_pos_stack_(), written_pc_offset_(0), written_inline_id_stack_(), written_token_pos_stack_(), caller_inline_id_(caller_inline_id), inline_id_to_token_pos_(inline_id_to_token_pos), inline_id_to_function_(inline_id_to_function), inlined_functions_( GrowableObjectArray::Handle(GrowableObjectArray::New(Heap::kOld))), buffer_(NULL), stream_(&buffer_, ZoneAllocator, 64), stack_traces_only_(stack_traces_only) { buffered_inline_id_stack_.Add(0); buffered_token_pos_stack_.Add(kInitialPosition); written_inline_id_stack_.Add(0); written_token_pos_stack_.Add(kInitialPosition); } void CodeSourceMapBuilder::FlushBuffer() { FlushBufferStack(); FlushBufferPosition(); FlushBufferPC(); } void CodeSourceMapBuilder::FlushBufferStack() { for (intptr_t i = buffered_inline_id_stack_.length() - 1; i >= 0; i--) { intptr_t buffered_id = buffered_inline_id_stack_[i]; if (i < written_inline_id_stack_.length()) { intptr_t written_id = written_inline_id_stack_[i]; if (buffered_id == written_id) { // i is the top-most position where the buffered and written stack // match. while (written_inline_id_stack_.length() > i + 1) { WritePop(); } for (intptr_t j = i + 1; j < buffered_inline_id_stack_.length(); j++) { TokenPosition buffered_pos = buffered_token_pos_stack_[j - 1]; TokenPosition written_pos = written_token_pos_stack_[j - 1]; if (buffered_pos != written_pos) { WriteChangePosition(buffered_pos); } WritePush(buffered_inline_id_stack_[j]); } return; } } } UNREACHABLE(); } void CodeSourceMapBuilder::FlushBufferPosition() { ASSERT(buffered_token_pos_stack_.length() == written_token_pos_stack_.length()); intptr_t top = buffered_token_pos_stack_.length() - 1; TokenPosition buffered_pos = buffered_token_pos_stack_[top]; TokenPosition written_pos = written_token_pos_stack_[top]; if (buffered_pos != written_pos) { WriteChangePosition(buffered_pos); } } void CodeSourceMapBuilder::FlushBufferPC() { if (buffered_pc_offset_ != written_pc_offset_) { WriteAdvancePC(buffered_pc_offset_ - written_pc_offset_); } } void CodeSourceMapBuilder::StartInliningInterval(int32_t pc_offset, intptr_t inline_id) { if (buffered_inline_id_stack_.Last() == inline_id) { // No change in function stack. return; } if (inline_id == -1) { // Basic blocking missing an inline_id. return; } if (!stack_traces_only_) { FlushBuffer(); } // Find a minimal set of pops and pushes to bring us to the new function // stack. // Pop to a common ancestor. intptr_t common_parent = inline_id; while (!IsOnBufferedStack(common_parent)) { common_parent = caller_inline_id_[common_parent]; } while (buffered_inline_id_stack_.Last() != common_parent) { BufferPop(); } // Push to the new top-of-stack function. GrowableArray to_push; intptr_t id = inline_id; while (id != common_parent) { to_push.Add(id); id = caller_inline_id_[id]; } for (intptr_t i = to_push.length() - 1; i >= 0; i--) { intptr_t callee_id = to_push[i]; TokenPosition call_token; if (callee_id != 0) { // TODO(rmacnak): Should make this array line up with the others. call_token = inline_id_to_token_pos_[callee_id - 1]; } else { UNREACHABLE(); } // Report caller as at the position of the call. BufferChangePosition(call_token); BufferPush(callee_id); } } void CodeSourceMapBuilder::BeginCodeSourceRange(int32_t pc_offset) {} void CodeSourceMapBuilder::EndCodeSourceRange(int32_t pc_offset, TokenPosition pos) { if (pc_offset == buffered_pc_offset_) { return; // Empty intermediate instruction. } if (pos != buffered_token_pos_stack_.Last()) { if (!stack_traces_only_) { FlushBuffer(); } BufferChangePosition(pos); } BufferAdvancePC(pc_offset - buffered_pc_offset_); } void CodeSourceMapBuilder::NoteDescriptor(RawPcDescriptors::Kind kind, int32_t pc_offset, TokenPosition pos) { const uint8_t kCanThrow = RawPcDescriptors::kIcCall | RawPcDescriptors::kUnoptStaticCall | RawPcDescriptors::kRuntimeCall | RawPcDescriptors::kOther; if (stack_traces_only_ && ((kind & kCanThrow) != 0)) { BufferChangePosition(pos); BufferAdvancePC(pc_offset - buffered_pc_offset_); FlushBuffer(); } } void CodeSourceMapBuilder::NoteNullCheck(int32_t pc_offset, TokenPosition pos, intptr_t name_index) { BufferChangePosition(pos); BufferAdvancePC(pc_offset - buffered_pc_offset_); FlushBuffer(); WriteNullCheck(name_index); } intptr_t CodeSourceMapBuilder::GetFunctionId(intptr_t inline_id) { const Function& function = *inline_id_to_function_[inline_id]; for (intptr_t i = 0; i < inlined_functions_.Length(); i++) { if (inlined_functions_.At(i) == function.raw()) { return i; } } RELEASE_ASSERT(!function.IsNull()); inlined_functions_.Add(function, Heap::kOld); return inlined_functions_.Length() - 1; } RawArray* CodeSourceMapBuilder::InliningIdToFunction() { if (inlined_functions_.Length() == 0) { return Object::empty_array().raw(); } return Array::MakeFixedLength(inlined_functions_); } RawCodeSourceMap* CodeSourceMapBuilder::Finalize() { if (!stack_traces_only_) { FlushBuffer(); } intptr_t length = stream_.bytes_written(); const CodeSourceMap& map = CodeSourceMap::Handle(CodeSourceMap::New(length)); NoSafepointScope no_safepoint; memmove(map.Data(), buffer_, length); return map.raw(); } void CodeSourceMapBuilder::WriteChangePosition(TokenPosition pos) { stream_.Write(kChangePosition); if (FLAG_precompiled_mode) { intptr_t line = -1; intptr_t inline_id = buffered_inline_id_stack_.Last(); if (inline_id < inline_id_to_function_.length()) { const Function* function = inline_id_to_function_[inline_id]; Script& script = Script::Handle(function->script()); line = script.GetTokenLineUsingLineStarts(pos.SourcePosition()); } stream_.Write(static_cast(line)); } else { stream_.Write(static_cast(pos.value())); } written_token_pos_stack_.Last() = pos; } void CodeSourceMapReader::GetInlinedFunctionsAt( int32_t pc_offset, GrowableArray* function_stack, GrowableArray* token_positions) { function_stack->Clear(); token_positions->Clear(); NoSafepointScope no_safepoint; ReadStream stream(map_.Data(), map_.Length()); int32_t current_pc_offset = 0; function_stack->Add(&root_); token_positions->Add(CodeSourceMapBuilder::kInitialPosition); while (stream.PendingBytes() > 0) { uint8_t opcode = stream.Read(); switch (opcode) { case CodeSourceMapBuilder::kChangePosition: { int32_t position = stream.Read(); (*token_positions)[token_positions->length() - 1] = TokenPosition(position); break; } case CodeSourceMapBuilder::kAdvancePC: { int32_t delta = stream.Read(); current_pc_offset += delta; if (current_pc_offset > pc_offset) { return; } break; } case CodeSourceMapBuilder::kPushFunction: { int32_t func = stream.Read(); function_stack->Add( &Function::Handle(Function::RawCast(functions_.At(func)))); token_positions->Add(CodeSourceMapBuilder::kInitialPosition); break; } case CodeSourceMapBuilder::kPopFunction: { // We never pop the root function. ASSERT(function_stack->length() > 1); ASSERT(token_positions->length() > 1); function_stack->RemoveLast(); token_positions->RemoveLast(); break; } case CodeSourceMapBuilder::kNullCheck: { stream.Read(); break; } default: UNREACHABLE(); } } } #ifndef PRODUCT void CodeSourceMapReader::PrintJSONInlineIntervals(JSONObject* jsobj) { { JSONArray inlined_functions(jsobj, "_inlinedFunctions"); Function& function = Function::Handle(); for (intptr_t i = 0; i < functions_.Length(); i++) { function ^= functions_.At(i); ASSERT(!function.IsNull()); inlined_functions.AddValue(function); } } GrowableArray function_stack; JSONArray inline_intervals(jsobj, "_inlinedIntervals"); NoSafepointScope no_safepoint; ReadStream stream(map_.Data(), map_.Length()); int32_t current_pc_offset = 0; function_stack.Add(0); while (stream.PendingBytes() > 0) { uint8_t opcode = stream.Read(); switch (opcode) { case CodeSourceMapBuilder::kChangePosition: { stream.Read(); break; } case CodeSourceMapBuilder::kAdvancePC: { int32_t delta = stream.Read(); // Format: [start, end, inline functions...] JSONArray inline_interval(&inline_intervals); inline_interval.AddValue(static_cast(current_pc_offset)); inline_interval.AddValue( static_cast(current_pc_offset + delta - 1)); for (intptr_t i = 0; i < function_stack.length(); i++) { inline_interval.AddValue(function_stack[i]); } current_pc_offset += delta; break; } case CodeSourceMapBuilder::kPushFunction: { int32_t func = stream.Read(); function_stack.Add(func); break; } case CodeSourceMapBuilder::kPopFunction: { // We never pop the root function. ASSERT(function_stack.length() > 1); function_stack.RemoveLast(); break; } case CodeSourceMapBuilder::kNullCheck: { stream.Read(); break; } default: UNREACHABLE(); } } } #endif // !PRODUCT void CodeSourceMapReader::DumpInlineIntervals(uword start) { GrowableArray function_stack; LogBlock lb; NoSafepointScope no_safepoint; ReadStream stream(map_.Data(), map_.Length()); int32_t current_pc_offset = 0; function_stack.Add(&root_); THR_Print("Inline intervals {\n"); while (stream.PendingBytes() > 0) { uint8_t opcode = stream.Read(); switch (opcode) { case CodeSourceMapBuilder::kChangePosition: { stream.Read(); break; } case CodeSourceMapBuilder::kAdvancePC: { int32_t delta = stream.Read(); THR_Print("%" Px "-%" Px ": ", start + current_pc_offset, start + current_pc_offset + delta - 1); for (intptr_t i = 0; i < function_stack.length(); i++) { THR_Print("%s ", function_stack[i]->ToCString()); } THR_Print("\n"); current_pc_offset += delta; break; } case CodeSourceMapBuilder::kPushFunction: { int32_t func = stream.Read(); function_stack.Add( &Function::Handle(Function::RawCast(functions_.At(func)))); break; } case CodeSourceMapBuilder::kPopFunction: { // We never pop the root function. ASSERT(function_stack.length() > 1); function_stack.RemoveLast(); break; } case CodeSourceMapBuilder::kNullCheck: { stream.Read(); break; } default: UNREACHABLE(); } } THR_Print("}\n"); } void CodeSourceMapReader::DumpSourcePositions(uword start) { GrowableArray function_stack; GrowableArray token_positions; LogBlock lb; NoSafepointScope no_safepoint; ReadStream stream(map_.Data(), map_.Length()); int32_t current_pc_offset = 0; function_stack.Add(&root_); token_positions.Add(CodeSourceMapBuilder::kInitialPosition); THR_Print("Source positions {\n"); while (stream.PendingBytes() > 0) { uint8_t opcode = stream.Read(); switch (opcode) { case CodeSourceMapBuilder::kChangePosition: { int32_t position = stream.Read(); token_positions[token_positions.length() - 1] = TokenPosition(position); break; } case CodeSourceMapBuilder::kAdvancePC: { int32_t delta = stream.Read(); THR_Print("%" Px "-%" Px ": ", start + current_pc_offset, start + current_pc_offset + delta - 1); for (intptr_t i = 0; i < function_stack.length(); i++) { THR_Print("%s@%" Pd " ", function_stack[i]->ToCString(), token_positions[i].value()); } THR_Print("\n"); current_pc_offset += delta; break; } case CodeSourceMapBuilder::kPushFunction: { int32_t func = stream.Read(); function_stack.Add( &Function::Handle(Function::RawCast(functions_.At(func)))); token_positions.Add(CodeSourceMapBuilder::kInitialPosition); break; } case CodeSourceMapBuilder::kPopFunction: { // We never pop the root function. ASSERT(function_stack.length() > 1); ASSERT(token_positions.length() > 1); function_stack.RemoveLast(); token_positions.RemoveLast(); break; } case CodeSourceMapBuilder::kNullCheck: { const intptr_t name_index = stream.Read(); THR_Print("%" Px "-%" Px ": null check PP#%" Pd "\n", start + current_pc_offset, start + current_pc_offset, name_index); break; } default: UNREACHABLE(); } } THR_Print("}\n"); } intptr_t CodeSourceMapReader::GetNullCheckNameIndexAt(int32_t pc_offset) { NoSafepointScope no_safepoint; ReadStream stream(map_.Data(), map_.Length()); int32_t current_pc_offset = 0; while (stream.PendingBytes() > 0) { uint8_t opcode = stream.Read(); switch (opcode) { case CodeSourceMapBuilder::kChangePosition: { stream.Read(); break; } case CodeSourceMapBuilder::kAdvancePC: { int32_t delta = stream.Read(); current_pc_offset += delta; RELEASE_ASSERT(current_pc_offset <= pc_offset); break; } case CodeSourceMapBuilder::kPushFunction: { stream.Read(); break; } case CodeSourceMapBuilder::kPopFunction: { break; } case CodeSourceMapBuilder::kNullCheck: { const int32_t name_index = stream.Read(); if (current_pc_offset == pc_offset) { return name_index; } break; } default: UNREACHABLE(); } } UNREACHABLE(); return -1; } } // namespace dart