third_party/courgette/disassembler.cc - Issue 115062: Move Courgette...

Unified Diff: third_party/courgette/disassembler.cc

Issue 115062: Move Courgette... (Closed) Base URL: svn://chrome-svn/chrome/trunk/src/

Patch Set: '' Created 11 years, 7 months ago

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Index: third_party/courgette/disassembler.cc

===================================================================

--- third_party/courgette/disassembler.cc (revision 15668)

+++ third_party/courgette/disassembler.cc (working copy)

@@ -1,436 +0,0 @@

-// Use of this source code is governed by a BSD-style license that can be

-// found in the LICENSE file.

-#include "third_party/courgette/disassembler.h"

-#include <algorithm>

-#include <iostream>

-#include <string>

-#include <vector>

-#include "base/basictypes.h"

-#include "base/logging.h"

-#include "third_party/courgette/assembly_program.h"

-#include "third_party/courgette/courgette.h"

-#include "third_party/courgette/encoded_program.h"

-#include "third_party/courgette/image_info.h"

-// COURGETTE_HISTOGRAM_TARGETS prints out a histogram of how frequently

-// different target addresses are referenced. Purely for debugging.

-#define COURGETTE_HISTOGRAM_TARGETS 0

-namespace courgette {

-class DisassemblerWin32X86 : public Disassembler {

- public:

- explicit DisassemblerWin32X86(PEInfo* pe_info)

- : pe_info_(pe_info),

- incomplete_disassembly_(false) {

- }

- virtual bool Disassemble(AssemblyProgram* target);

- virtual void Destroy() { delete this; }

- protected:

- PEInfo& pe_info() { return *pe_info_; }

- void ParseFile(AssemblyProgram* target);

- bool ParseAbs32Relocs();

- void ParseRel32RelocsFromSections();

- void ParseRel32RelocsFromSection(const Section* section);

- void ParseNonSectionFileRegion(uint32 start_file_offset,

- uint32 end_file_offset,

- AssemblyProgram* program);

- void ParseFileRegion(const Section* section,

- uint32 start_file_offset, uint32 end_file_offset,

- AssemblyProgram* program);

-#if COURGETTE_HISTOGRAM_TARGETS

- void HistogramTargets(const char* kind, const std::map<RVA, int>& map);

-#endif

- PEInfo* pe_info_;

- bool incomplete_disassembly_; // 'true' if can leave out 'uninteresting' bits

- std::vector<RVA> abs32_locations_;

- std::vector<RVA> rel32_locations_;

-#if COURGETTE_HISTOGRAM_TARGETS

- std::map<RVA, int> abs32_target_rvas_;

- std::map<RVA, int> rel32_target_rvas_;

-#endif

-};

-bool DisassemblerWin32X86::Disassemble(AssemblyProgram* target) {

- if (!pe_info().ok())

- return false;

- target->set_image_base(pe_info().image_base());

- if (!ParseAbs32Relocs())

- return false;

- ParseRel32RelocsFromSections();

- ParseFile(target);

- target->DefaultAssignIndexes();

- return true;

-static uint32 Read32LittleEndian(const void* address) {

- return *reinterpret_cast<const uint32*>(address);

-bool DisassemblerWin32X86::ParseAbs32Relocs() {

- abs32_locations_.clear();

- if (!pe_info().ParseRelocs(&abs32_locations_))

- return false;

- std::sort(abs32_locations_.begin(), abs32_locations_.end());

-#if COURGETTE_HISTOGRAM_TARGETS

- for (size_t i = 0; i < abs32_locations_.size(); ++i) {

- RVA rva = abs32_locations_[i];

- // The 4 bytes at the relocation are a reference to some address.

- uint32 target_address = Read32LittleEndian(pe_info().RVAToPointer(rva));

- ++abs32_target_rvas_[target_address - pe_info().image_base()];

- }

-#endif

- return true;

-void DisassemblerWin32X86::ParseRel32RelocsFromSections() {

- uint32 file_offset = 0;

- while (file_offset < pe_info().length()) {

- const Section* section = pe_info().FindNextSection(file_offset);

- if (section == NULL)

- break;

- if (file_offset < section->file_offset_of_raw_data)

- file_offset = section->file_offset_of_raw_data;

- ParseRel32RelocsFromSection(section);

- file_offset += section->size_of_raw_data;

- }

- std::sort(rel32_locations_.begin(), rel32_locations_.end());

-#if COURGETTE_HISTOGRAM_TARGETS

- LOG(INFO) << "abs32_locations_ " << abs32_locations_.size();

- LOG(INFO) << "rel32_locations_ " << rel32_locations_.size();

- LOG(INFO) << "abs32_target_rvas_ " << abs32_target_rvas_.size();

- LOG(INFO) << "rel32_target_rvas_ " << rel32_target_rvas_.size();

- int common = 0;

- std::map<RVA, int>::iterator abs32_iter = abs32_target_rvas_.begin();

- std::map<RVA, int>::iterator rel32_iter = rel32_target_rvas_.begin();

- while (abs32_iter != abs32_target_rvas_.end() &&

- rel32_iter != rel32_target_rvas_.end()) {

- if (abs32_iter->first < rel32_iter->first)

- ++abs32_iter;

- else if (rel32_iter->first < abs32_iter->first)

- ++rel32_iter;

- else {

- ++common;

- ++abs32_iter;

- ++rel32_iter;

- }

- LOG(INFO) << "common " << common;

-#endif

-void DisassemblerWin32X86::ParseRel32RelocsFromSection(const Section* section) {

- // TODO(sra): use characteristic.

- bool isCode = strcmp(section->name, ".text") == 0;

- if (!isCode)

- return;

- uint32 start_file_offset = section->file_offset_of_raw_data;

- uint32 end_file_offset = start_file_offset + section->size_of_raw_data;

- RVA relocs_start_rva = pe_info().base_relocation_table().address_;

- const uint8* start_pointer = pe_info().FileOffsetToPointer(start_file_offset);

- const uint8* end_pointer = pe_info().FileOffsetToPointer(end_file_offset);

- RVA start_rva = pe_info().FileOffsetToRVA(start_file_offset);

- RVA end_rva = start_rva + section->virtual_size;

- // Quick way to convert from Pointer to RVA within a single Section is to

- // subtract 'pointer_to_rva'.

- const uint8* const adjust_pointer_to_rva = start_pointer - start_rva;

- std::vector<RVA>::iterator abs32_pos = abs32_locations_.begin();

- // Find the rel32 relocations.

- const uint8* p = start_pointer;

- while (p < end_pointer) {

- RVA current_rva = p - adjust_pointer_to_rva;

- if (current_rva == relocs_start_rva) {

- uint32 relocs_size = pe_info().base_relocation_table().size_;

- if (relocs_size) {

- p += relocs_size;

- continue;

- }

- //while (abs32_pos != abs32_locations_.end() && *abs32_pos < current_rva)

- // ++abs32_pos;

- // Heuristic discovery of rel32 locations in instruction stream: are the

- // next few bytes the start of an instruction containing a rel32

- // addressing mode?

- const uint8* rel32 = NULL;

- if (p + 5 < end_pointer) {

- if (*p == 0xE8 || *p == 0xE9) { // jmp rel32 and call rel32

- rel32 = p + 1;

- }

- if (p + 6 < end_pointer) {

- if (*p == 0x0F && (*(p+1) & 0xF0) == 0x80) { // Jcc long form

- if (p[1] != 0x8A && p[1] != 0x8B) // JPE/JPO unlikely

- rel32 = p + 2;

- }

- if (rel32) {

- RVA rel32_rva = rel32 - adjust_pointer_to_rva;

- // Is there an abs32 reloc overlapping the candidate?

- while (abs32_pos != abs32_locations_.end() && *abs32_pos < rel32_rva - 3)

- ++abs32_pos;

- // Now: (*abs32_pos > rel32_rva - 4) i.e. the lowest addressed 4-byte

- // region that could overlap rel32_rva.

- if (abs32_pos != abs32_locations_.end()) {

- if (*abs32_pos < rel32_rva + 4) {

- // Beginning of abs32 reloc is before end of rel32 reloc so they

- // overlap. Skip four bytes past the abs32 reloc.

- p += (*abs32_pos + 4) - current_rva;

- continue;

- }

- RVA target_rva = rel32_rva + 4 + Read32LittleEndian(rel32);

- // To be valid, rel32 target must be within image, and within this

- // section.

- if (pe_info().IsValidRVA(target_rva) &&

- start_rva <= target_rva && target_rva < end_rva) {

- rel32_locations_.push_back(rel32_rva);

-#if COURGETTE_HISTOGRAM_TARGETS

- ++rel32_target_rvas_[target_rva];

-#endif

- p += 4;

- continue;

- }

- p += 1;

- }

-void DisassemblerWin32X86::ParseFile(AssemblyProgram* program) {

- // Walk all the bytes in the file, whether or not in a section.

- uint32 file_offset = 0;

- while (file_offset < pe_info().length()) {

- const Section* section = pe_info().FindNextSection(file_offset);

- if (section == NULL) {

- // No more sections. There should not be extra stuff following last

- // section.

- // ParseNonSectionFileRegion(file_offset, pe_info().length(), program);

- break;

- }

- if (file_offset < section->file_offset_of_raw_data) {

- uint32 section_start_offset = section->file_offset_of_raw_data;

- ParseNonSectionFileRegion(file_offset, section_start_offset, program);

- file_offset = section_start_offset;

- }

- uint32 end = file_offset + section->size_of_raw_data;

- ParseFileRegion(section, file_offset, end, program);

- file_offset = end;

- }

-#if COURGETTE_HISTOGRAM_TARGETS

- HistogramTargets("abs32 relocs", abs32_target_rvas_);

- HistogramTargets("rel32 relocs", rel32_target_rvas_);

-#endif

-void DisassemblerWin32X86::ParseNonSectionFileRegion(

- uint32 start_file_offset,

- uint32 end_file_offset,

- AssemblyProgram* program) {

- if (incomplete_disassembly_)

- return;

- const uint8* start = pe_info().FileOffsetToPointer(start_file_offset);

- const uint8* end = pe_info().FileOffsetToPointer(end_file_offset);

- const uint8* p = start;

- while (p < end) {

- program->EmitByteInstruction(*p);

- ++p;

- }

-void DisassemblerWin32X86::ParseFileRegion(

- const Section* section,

- uint32 start_file_offset, uint32 end_file_offset,

- AssemblyProgram* program) {

- RVA relocs_start_rva = pe_info().base_relocation_table().address_;

- const uint8* start_pointer = pe_info().FileOffsetToPointer(start_file_offset);

- const uint8* end_pointer = pe_info().FileOffsetToPointer(end_file_offset);

- RVA start_rva = pe_info().FileOffsetToRVA(start_file_offset);

- RVA end_rva = start_rva + section->virtual_size;

- // Quick way to convert from Pointer to RVA within a single Section is to

- // subtract 'pointer_to_rva'.

- const uint8* const adjust_pointer_to_rva = start_pointer - start_rva;

- std::vector<RVA>::iterator rel32_pos = rel32_locations_.begin();

- std::vector<RVA>::iterator abs32_pos = abs32_locations_.begin();

- program->EmitOriginInstruction(start_rva);

- const uint8* p = start_pointer;

- while (p < end_pointer) {

- RVA current_rva = p - adjust_pointer_to_rva;

- // The base relocation table is usually in the .relocs section, but it could

- // actually be anywhere. Make sure we skip it because we will regenerate it

- // during assembly.

- if (current_rva == relocs_start_rva) {

- program->EmitMakeRelocsInstruction();

- uint32 relocs_size = pe_info().base_relocation_table().size_;

- if (relocs_size) {

- p += relocs_size;

- continue;

- }

- while (abs32_pos != abs32_locations_.end() && *abs32_pos < current_rva)

- ++abs32_pos;

- if (abs32_pos != abs32_locations_.end() && *abs32_pos == current_rva) {

- uint32 target_address = Read32LittleEndian(p);

- RVA target_rva = target_address - pe_info().image_base();

- // TODO(sra): target could be Label+offset. It is not clear how to guess

- // which it might be. We assume offset==0.

- program->EmitAbs32(program->FindOrMakeAbs32Label(target_rva));

- p += 4;

- continue;

- }

- while (rel32_pos != rel32_locations_.end() && *rel32_pos < current_rva)

- ++rel32_pos;

- if (rel32_pos != rel32_locations_.end() && *rel32_pos == current_rva) {

- RVA target_rva = current_rva + 4 + Read32LittleEndian(p);

- program->EmitRel32(program->FindOrMakeRel32Label(target_rva));

- p += 4;

- continue;

- }

- if (incomplete_disassembly_) {

- if ((abs32_pos == abs32_locations_.end() || end_rva <= *abs32_pos) &&

- (rel32_pos == rel32_locations_.end() || end_rva <= *rel32_pos) &&

- (end_rva <= relocs_start_rva || current_rva >= relocs_start_rva)) {

- // No more relocs in this section, don't bother encoding bytes.

- break;

- }

- program->EmitByteInstruction(*p);

- p += 1;

- }

-#if COURGETTE_HISTOGRAM_TARGETS

-// Histogram is printed to std::cout. It is purely for debugging the algorithm

-// and is only enabled manually in 'exploration' builds. I don't want to add

-// command-line configuration for this feature because this code has to be

-// small, which means compiled-out.

-void DisassemblerWin32X86::HistogramTargets(const char* kind,

- const std::map<RVA, int>& map) {

- int total = 0;

- std::map<int, std::vector<RVA> > h;

- for (std::map<RVA, int>::const_iterator p = map.begin();

- p != map.end();

- ++p) {

- h[p->second].push_back(p->first);

- total += p->second;

- }

- std::cout << total << " " << kind << " to "

- << map.size() << " unique targets" << std::endl;

- std::cout << "indegree: #targets-with-indegree (example)" << std::endl;

- const int kFirstN = 15;

- bool someSkipped = false;

- int index = 0;

- for (std::map<int, std::vector<RVA> >::reverse_iterator p = h.rbegin();

- p != h.rend();

- ++p) {

- ++index;

- if (index <= kFirstN || p->first <= 3) {

- if (someSkipped) {

- std::cout << "..." << std::endl;

- }

- size_t count = p->second.size();

- std::cout << std::dec << p->first << ": " << count;

- if (count <= 2) {

- for (size_t i = 0; i < count; ++i)

- std::cout << " " << pe_info().DescribeRVA(p->second[i]);

- }

- std::cout << std::endl;

- someSkipped = false;

- } else {

- someSkipped = true;

- }

-#endif // COURGETTE_HISTOGRAM_TARGETS

-Disassembler* Disassembler::MakeDisassemberWin32X86(PEInfo* pe_info) {

- return new DisassemblerWin32X86(pe_info);

-////////////////////////////////////////////////////////////////////////////////

-Status ParseWin32X86PE(const void* buffer, size_t length,

- AssemblyProgram** output) {

- *output = NULL;

- PEInfo* pe_info = new PEInfo();

- pe_info->Init(buffer, length);

- if (!pe_info->ParseHeader()) {

- delete pe_info;

- return C_INPUT_NOT_RECOGNIZED;

- }

- Disassembler* disassembler = Disassembler::MakeDisassemberWin32X86(pe_info);

- AssemblyProgram* program = new AssemblyProgram();

- if (!disassembler->Disassemble(program)) {

- delete program;

- disassembler->Destroy();

- delete pe_info;

- return C_DISASSEMBLY_FAILED;

- }

- disassembler->Destroy();

- delete pe_info;

- *output = program;

- return C_OK;

-void DeleteAssemblyProgram(AssemblyProgram* program) {

- delete program;

-} // namespace courgette

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