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312 lines
11 KiB
312 lines
11 KiB
// Copyright 2006-2008 the V8 project authors. All rights reserved.
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are
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// met:
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//
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// * Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// * Redistributions in binary form must reproduce the above
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// copyright notice, this list of conditions and the following
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// disclaimer in the documentation and/or other materials provided
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// with the distribution.
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// * Neither the name of Google Inc. nor the names of its
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// contributors may be used to endorse or promote products derived
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// from this software without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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#include "v8.h"
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#include "code-stubs.h"
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#include "codegen-inl.h"
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#include "debug.h"
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#include "disasm.h"
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#include "disassembler.h"
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#include "macro-assembler.h"
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#include "serialize.h"
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#include "string-stream.h"
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namespace v8 {
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namespace internal {
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#ifdef ENABLE_DISASSEMBLER
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void Disassembler::Dump(FILE* f, byte* begin, byte* end) {
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for (byte* pc = begin; pc < end; pc++) {
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if (f == NULL) {
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PrintF("%" V8PRIxPTR " %4" V8PRIdPTR " %02x\n", pc, pc - begin, *pc);
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} else {
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fprintf(f, "%" V8PRIxPTR " %4" V8PRIdPTR " %02x\n",
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reinterpret_cast<uintptr_t>(pc), pc - begin, *pc);
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}
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}
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}
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class V8NameConverter: public disasm::NameConverter {
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public:
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explicit V8NameConverter(Code* code) : code_(code) {}
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virtual const char* NameOfAddress(byte* pc) const;
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virtual const char* NameInCode(byte* addr) const;
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Code* code() const { return code_; }
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private:
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Code* code_;
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};
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const char* V8NameConverter::NameOfAddress(byte* pc) const {
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static v8::internal::EmbeddedVector<char, 128> buffer;
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const char* name = Builtins::Lookup(pc);
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if (name != NULL) {
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OS::SNPrintF(buffer, "%s (%p)", name, pc);
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return buffer.start();
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}
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if (code_ != NULL) {
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int offs = static_cast<int>(pc - code_->instruction_start());
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// print as code offset, if it seems reasonable
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if (0 <= offs && offs < code_->instruction_size()) {
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OS::SNPrintF(buffer, "%d (%p)", offs, pc);
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return buffer.start();
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}
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}
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return disasm::NameConverter::NameOfAddress(pc);
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}
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const char* V8NameConverter::NameInCode(byte* addr) const {
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// The V8NameConverter is used for well known code, so we can "safely"
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// dereference pointers in generated code.
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return (code_ != NULL) ? reinterpret_cast<const char*>(addr) : "";
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}
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static void DumpBuffer(FILE* f, char* buff) {
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if (f == NULL) {
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PrintF("%s", buff);
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} else {
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fprintf(f, "%s", buff);
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}
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}
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static const int kOutBufferSize = 2048 + String::kMaxShortPrintLength;
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static const int kRelocInfoPosition = 57;
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static int DecodeIt(FILE* f,
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const V8NameConverter& converter,
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byte* begin,
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byte* end) {
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NoHandleAllocation ha;
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AssertNoAllocation no_alloc;
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ExternalReferenceEncoder ref_encoder;
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v8::internal::EmbeddedVector<char, 128> decode_buffer;
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v8::internal::EmbeddedVector<char, kOutBufferSize> out_buffer;
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byte* pc = begin;
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disasm::Disassembler d(converter);
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RelocIterator* it = NULL;
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if (converter.code() != NULL) {
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it = new RelocIterator(converter.code());
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} else {
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// No relocation information when printing code stubs.
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}
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int constants = -1; // no constants being decoded at the start
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while (pc < end) {
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// First decode instruction so that we know its length.
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byte* prev_pc = pc;
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if (constants > 0) {
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OS::SNPrintF(decode_buffer,
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"%08x constant",
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*reinterpret_cast<int32_t*>(pc));
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constants--;
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pc += 4;
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} else {
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int num_const = d.ConstantPoolSizeAt(pc);
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if (num_const >= 0) {
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OS::SNPrintF(decode_buffer,
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"%08x constant pool begin",
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*reinterpret_cast<int32_t*>(pc));
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constants = num_const;
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pc += 4;
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} else if (it != NULL && !it->done() && it->rinfo()->pc() == pc &&
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it->rinfo()->rmode() == RelocInfo::INTERNAL_REFERENCE) {
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// raw pointer embedded in code stream, e.g., jump table
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byte* ptr = *reinterpret_cast<byte**>(pc);
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OS::SNPrintF(decode_buffer,
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"%08" V8PRIxPTR " jump table entry %4" V8PRIdPTR,
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ptr,
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ptr - begin);
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pc += 4;
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} else {
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decode_buffer[0] = '\0';
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pc += d.InstructionDecode(decode_buffer, pc);
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}
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}
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// Collect RelocInfo for this instruction (prev_pc .. pc-1)
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List<const char*> comments(4);
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List<byte*> pcs(1);
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List<RelocInfo::Mode> rmodes(1);
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List<intptr_t> datas(1);
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if (it != NULL) {
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while (!it->done() && it->rinfo()->pc() < pc) {
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if (RelocInfo::IsComment(it->rinfo()->rmode())) {
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// For comments just collect the text.
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comments.Add(reinterpret_cast<const char*>(it->rinfo()->data()));
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} else {
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// For other reloc info collect all data.
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pcs.Add(it->rinfo()->pc());
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rmodes.Add(it->rinfo()->rmode());
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datas.Add(it->rinfo()->data());
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}
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it->next();
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}
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}
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StringBuilder out(out_buffer.start(), out_buffer.length());
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// Comments.
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for (int i = 0; i < comments.length(); i++) {
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out.AddFormatted(" %s\n", comments[i]);
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}
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// Write out comments, resets outp so that we can format the next line.
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DumpBuffer(f, out.Finalize());
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out.Reset();
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// Instruction address and instruction offset.
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out.AddFormatted("%p %4d ", prev_pc, prev_pc - begin);
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// Instruction.
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out.AddFormatted("%s", decode_buffer.start());
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// Print all the reloc info for this instruction which are not comments.
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for (int i = 0; i < pcs.length(); i++) {
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// Put together the reloc info
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RelocInfo relocinfo(pcs[i], rmodes[i], datas[i]);
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// Indent the printing of the reloc info.
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if (i == 0) {
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// The first reloc info is printed after the disassembled instruction.
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out.AddPadding(' ', kRelocInfoPosition - out.position());
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} else {
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// Additional reloc infos are printed on separate lines.
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out.AddFormatted("\n");
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out.AddPadding(' ', kRelocInfoPosition);
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}
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RelocInfo::Mode rmode = relocinfo.rmode();
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if (RelocInfo::IsPosition(rmode)) {
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if (RelocInfo::IsStatementPosition(rmode)) {
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out.AddFormatted(" ;; debug: statement %d", relocinfo.data());
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} else {
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out.AddFormatted(" ;; debug: position %d", relocinfo.data());
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}
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} else if (rmode == RelocInfo::EMBEDDED_OBJECT) {
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HeapStringAllocator allocator;
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StringStream accumulator(&allocator);
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relocinfo.target_object()->ShortPrint(&accumulator);
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SmartPointer<const char> obj_name = accumulator.ToCString();
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out.AddFormatted(" ;; object: %s", *obj_name);
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} else if (rmode == RelocInfo::EXTERNAL_REFERENCE) {
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const char* reference_name =
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ref_encoder.NameOfAddress(*relocinfo.target_reference_address());
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out.AddFormatted(" ;; external reference (%s)", reference_name);
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} else if (RelocInfo::IsCodeTarget(rmode)) {
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out.AddFormatted(" ;; code:");
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if (rmode == RelocInfo::CONSTRUCT_CALL) {
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out.AddFormatted(" constructor,");
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}
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Code* code = Code::GetCodeFromTargetAddress(relocinfo.target_address());
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Code::Kind kind = code->kind();
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if (code->is_inline_cache_stub()) {
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if (rmode == RelocInfo::CODE_TARGET_CONTEXT) {
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out.AddFormatted(" contextual,");
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}
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InlineCacheState ic_state = code->ic_state();
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out.AddFormatted(" %s, %s", Code::Kind2String(kind),
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Code::ICState2String(ic_state));
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if (ic_state == MONOMORPHIC) {
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PropertyType type = code->type();
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out.AddFormatted(", %s", Code::PropertyType2String(type));
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}
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if (code->ic_in_loop() == IN_LOOP) {
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out.AddFormatted(", in_loop");
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}
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if (kind == Code::CALL_IC) {
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out.AddFormatted(", argc = %d", code->arguments_count());
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}
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} else if (kind == Code::STUB) {
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// Reverse lookup required as the minor key cannot be retrieved
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// from the code object.
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Object* obj = Heap::code_stubs()->SlowReverseLookup(code);
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if (obj != Heap::undefined_value()) {
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ASSERT(obj->IsSmi());
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// Get the STUB key and extract major and minor key.
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uint32_t key = Smi::cast(obj)->value();
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uint32_t minor_key = CodeStub::MinorKeyFromKey(key);
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ASSERT(code->major_key() == CodeStub::MajorKeyFromKey(key));
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out.AddFormatted(" %s, %s, ",
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Code::Kind2String(kind),
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CodeStub::MajorName(code->major_key(), false));
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switch (code->major_key()) {
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case CodeStub::CallFunction:
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out.AddFormatted("argc = %d", minor_key);
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break;
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default:
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out.AddFormatted("minor: %d", minor_key);
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}
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}
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} else {
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out.AddFormatted(" %s", Code::Kind2String(kind));
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}
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} else {
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out.AddFormatted(" ;; %s", RelocInfo::RelocModeName(rmode));
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}
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}
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out.AddString("\n");
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DumpBuffer(f, out.Finalize());
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out.Reset();
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}
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delete it;
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return static_cast<int>(pc - begin);
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}
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int Disassembler::Decode(FILE* f, byte* begin, byte* end) {
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V8NameConverter defaultConverter(NULL);
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return DecodeIt(f, defaultConverter, begin, end);
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}
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// Called by Code::CodePrint.
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void Disassembler::Decode(FILE* f, Code* code) {
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byte* begin = Code::cast(code)->instruction_start();
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byte* end = begin + Code::cast(code)->instruction_size();
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V8NameConverter v8NameConverter(code);
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DecodeIt(f, v8NameConverter, begin, end);
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}
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#else // ENABLE_DISASSEMBLER
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void Disassembler::Dump(FILE* f, byte* begin, byte* end) {}
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int Disassembler::Decode(FILE* f, byte* begin, byte* end) { return 0; }
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void Disassembler::Decode(FILE* f, Code* code) {}
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#endif // ENABLE_DISASSEMBLER
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} } // namespace v8::internal
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