rel32_finder.cc - platform/external/zucchini - Git at Google

 // Copyright 2017 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "components/zucchini/rel32_finder.h"

 #include <algorithm>

 #include "base/numerics/safe_conversions.h"

 namespace zucchini {

 /******** Abs32GapFinder ********/

 Abs32GapFinder::Abs32GapFinder(ConstBufferView image,
                                ConstBufferView region,
                                const std::vector<offset_t>& abs32_locations,
                                size_t abs32_width)
     : base_(image.begin()),
       region_end_(region.end()),
       abs32_end_(abs32_locations.end()),
       abs32_width_(abs32_width) {
   DCHECK_GT(abs32_width, size_t(0));
   DCHECK_GE(region.begin(), image.begin());
   DCHECK_LE(region.end(), image.end());

   const offset_t begin_offset =
       base::checked_cast<offset_t>(region.begin() - image.begin());
   // Find the first |abs32_cur_| with |*abs32_cur_ >= begin_offset|.
   abs32_cur_ = std::lower_bound(abs32_locations.begin(), abs32_locations.end(),
                                 begin_offset);

   // Find lower boundary, accounting for the possibility that |abs32_cur_[-1]|
   // may straddle across |region.begin()|.
   cur_lo_ = region.begin();
   if (abs32_cur_ > abs32_locations.begin())
     cur_lo_ = std::max(cur_lo_, image.begin() + abs32_cur_[-1] + abs32_width_);
 }

 Abs32GapFinder::~Abs32GapFinder() = default;

 bool Abs32GapFinder::FindNext() {
   // Iterate over |[abs32_cur_, abs32_end_)| and emit segments.
   while (abs32_cur_ != abs32_end_ && base_ + *abs32_cur_ < region_end_) {
     ConstBufferView::const_iterator hi = base_ + *abs32_cur_;
     gap_ = ConstBufferView::FromRange(cur_lo_, hi);
     cur_lo_ = hi + abs32_width_;
     ++abs32_cur_;
     if (!gap_.empty())
       return true;
   }
   // Emit final segment.
   if (cur_lo_ < region_end_) {
     gap_ = ConstBufferView::FromRange(cur_lo_, region_end_);
     cur_lo_ = region_end_;
     return true;
   }
   return false;
 }

 /******** Rel32Finder ********/

 Rel32Finder::Rel32Finder(ConstBufferView image,
                          const AddressTranslator& translator)
     : image_(image), offset_to_rva_(translator) {}

 Rel32Finder::~Rel32Finder() = default;

 void Rel32Finder::SetRegion(ConstBufferView region) {
   region_ = region;
   accept_it_ = region.begin();
 }

 bool Rel32Finder::FindNext() {
   NextIterators next_iters = Scan(region_);
   if (next_iters.reject == nullptr) {
     region_.seek(region_.end());
     return false;
   }
   region_.seek(next_iters.reject);
   accept_it_ = next_iters.accept;
   DCHECK_GE(accept_it_, region_.begin());
   DCHECK_LE(accept_it_, region_.end());
   return true;
 }

 void Rel32Finder::Accept() {
   region_.seek(accept_it_);
 }

 /******** Rel32FinderIntel ********/

 Rel32Finder::NextIterators Rel32FinderIntel::SetResult(
     ConstBufferView::const_iterator cursor,
     uint32_t opcode_size,
     bool can_point_outside_section) {
   offset_t location =
       base::checked_cast<offset_t>((cursor + opcode_size) - image_.begin());
   rva_t location_rva = offset_to_rva_.Convert(location);
   DCHECK_NE(location_rva, kInvalidRva);
   rva_t target_rva = location_rva + 4 + image_.read<uint32_t>(location);
   rel32_ = {location, target_rva, can_point_outside_section};
   return {cursor + 1, cursor + (opcode_size + 4)};
 }

 /******** Rel32FinderX86 ********/

 Rel32Finder::NextIterators Rel32FinderX86::Scan(ConstBufferView region) {
   ConstBufferView::const_iterator cursor = region.begin();
   while (cursor < region.end()) {
     // Heuristic rel32 detection by looking for opcodes that use them.
     if (cursor + 5 <= region.end()) {
       if (cursor[0] == 0xE8 || cursor[0] == 0xE9)  // JMP rel32; CALL rel32
         return SetResult(cursor, 1, false);
     }
     if (cursor + 6 <= region.end()) {
       if (cursor[0] == 0x0F && (cursor[1] & 0xF0) == 0x80)  // Jcc long form
         return SetResult(cursor, 2, false);
     }
     ++cursor;
   }
   return {nullptr, nullptr};
 }

 /******** Rel32FinderX64 ********/

 Rel32Finder::NextIterators Rel32FinderX64::Scan(ConstBufferView region) {
   ConstBufferView::const_iterator cursor = region.begin();
   while (cursor < region.end()) {
     // Heuristic rel32 detection by looking for opcodes that use them.
     if (cursor + 5 <= region.end()) {
       if (cursor[0] == 0xE8 || cursor[0] == 0xE9)  // JMP rel32; CALL rel32
         return SetResult(cursor, 1, false);
     }
     if (cursor + 6 <= region.end()) {
       if (cursor[0] == 0x0F && (cursor[1] & 0xF0) == 0x80) {  // Jcc long form
         return SetResult(cursor, 2, false);
       } else if ((cursor[0] == 0xFF &&
                   (cursor[1] == 0x15 || cursor[1] == 0x25)) ||
                  ((cursor[0] == 0x89 || cursor[0] == 0x8B ||
                    cursor[0] == 0x8D) &&
                   (cursor[1] & 0xC7) == 0x05)) {
         // 6-byte instructions:
         // [2-byte opcode] [disp32]:
         //  Opcode
         //   FF 15: CALL QWORD PTR [rip+disp32]
         //   FF 25: JMP  QWORD PTR [rip+disp32]
         //
         // [1-byte opcode] [ModR/M] [disp32]:
         //  Opcode
         //   89: MOV DWORD PTR [rip+disp32],reg
         //   8B: MOV reg,DWORD PTR [rip+disp32]
         //   8D: LEA reg,[rip+disp32]
         //  ModR/M : MMRRRMMM
         //   MM = 00 & MMM = 101 => rip+disp32
         //   RRR: selects reg operand from [eax|ecx|...|edi]
         return SetResult(cursor, 2, true);
       }
     }
     ++cursor;
   }
   return {nullptr, nullptr};
 }

 }  // namespace zucchini
	// Copyright 2017 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "components/zucchini/rel32_finder.h"

	#include <algorithm>

	#include "base/numerics/safe_conversions.h"

	namespace zucchini {

	/****** Abs32GapFinder ******/

	Abs32GapFinder::Abs32GapFinder(ConstBufferView image,
	ConstBufferView region,
	const std::vector<offset_t>& abs32_locations,
	size_t abs32_width)
	: base_(image.begin()),
	region_end_(region.end()),
	abs32_end_(abs32_locations.end()),
	abs32_width_(abs32_width) {
	DCHECK_GT(abs32_width, size_t(0));
	DCHECK_GE(region.begin(), image.begin());
	DCHECK_LE(region.end(), image.end());

	const offset_t begin_offset =
	base::checked_cast<offset_t>(region.begin() - image.begin());
	// Find the first \|abs32_cur_\| with \|*abs32_cur_ >= begin_offset\|.
	abs32_cur_ = std::lower_bound(abs32_locations.begin(), abs32_locations.end(),
	begin_offset);

	// Find lower boundary, accounting for the possibility that \|abs32_cur_[-1]\|
	// may straddle across \|region.begin()\|.
	cur_lo_ = region.begin();
	if (abs32_cur_ > abs32_locations.begin())
	cur_lo_ = std::max(cur_lo_, image.begin() + abs32_cur_[-1] + abs32_width_);
	}

	Abs32GapFinder::~Abs32GapFinder() = default;

	bool Abs32GapFinder::FindNext() {
	// Iterate over \|[abs32_cur_, abs32_end_)\| and emit segments.
	while (abs32_cur_ != abs32_end_ && base_ + *abs32_cur_ < region_end_) {
	ConstBufferView::const_iterator hi = base_ + *abs32_cur_;
	gap_ = ConstBufferView::FromRange(cur_lo_, hi);
	cur_lo_ = hi + abs32_width_;
	++abs32_cur_;
	if (!gap_.empty())
	return true;
	}
	// Emit final segment.
	if (cur_lo_ < region_end_) {
	gap_ = ConstBufferView::FromRange(cur_lo_, region_end_);
	cur_lo_ = region_end_;
	return true;
	}
	return false;
	}

	/****** Rel32Finder ******/

	Rel32Finder::Rel32Finder(ConstBufferView image,
	const AddressTranslator& translator)
	: image_(image), offset_to_rva_(translator) {}

	Rel32Finder::~Rel32Finder() = default;

	void Rel32Finder::SetRegion(ConstBufferView region) {
	region_ = region;
	accept_it_ = region.begin();
	}

	bool Rel32Finder::FindNext() {
	NextIterators next_iters = Scan(region_);
	if (next_iters.reject == nullptr) {
	region_.seek(region_.end());
	return false;
	}
	region_.seek(next_iters.reject);
	accept_it_ = next_iters.accept;
	DCHECK_GE(accept_it_, region_.begin());
	DCHECK_LE(accept_it_, region_.end());
	return true;
	}

	void Rel32Finder::Accept() {
	region_.seek(accept_it_);
	}

	/****** Rel32FinderIntel ******/

	Rel32Finder::NextIterators Rel32FinderIntel::SetResult(
	ConstBufferView::const_iterator cursor,
	uint32_t opcode_size,
	bool can_point_outside_section) {
	offset_t location =
	base::checked_cast<offset_t>((cursor + opcode_size) - image_.begin());
	rva_t location_rva = offset_to_rva_.Convert(location);
	DCHECK_NE(location_rva, kInvalidRva);
	rva_t target_rva = location_rva + 4 + image_.read<uint32_t>(location);
	rel32_ = {location, target_rva, can_point_outside_section};
	return {cursor + 1, cursor + (opcode_size + 4)};
	}

	/****** Rel32FinderX86 ******/

	Rel32Finder::NextIterators Rel32FinderX86::Scan(ConstBufferView region) {
	ConstBufferView::const_iterator cursor = region.begin();
	while (cursor < region.end()) {
	// Heuristic rel32 detection by looking for opcodes that use them.
	if (cursor + 5 <= region.end()) {
	if (cursor[0] == 0xE8 \|\| cursor[0] == 0xE9) // JMP rel32; CALL rel32
	return SetResult(cursor, 1, false);
	}
	if (cursor + 6 <= region.end()) {
	if (cursor[0] == 0x0F && (cursor[1] & 0xF0) == 0x80) // Jcc long form
	return SetResult(cursor, 2, false);
	}
	++cursor;
	}
	return {nullptr, nullptr};
	}

	/****** Rel32FinderX64 ******/

	Rel32Finder::NextIterators Rel32FinderX64::Scan(ConstBufferView region) {
	ConstBufferView::const_iterator cursor = region.begin();
	while (cursor < region.end()) {
	// Heuristic rel32 detection by looking for opcodes that use them.
	if (cursor + 5 <= region.end()) {
	if (cursor[0] == 0xE8 \|\| cursor[0] == 0xE9) // JMP rel32; CALL rel32
	return SetResult(cursor, 1, false);
	}
	if (cursor + 6 <= region.end()) {
	if (cursor[0] == 0x0F && (cursor[1] & 0xF0) == 0x80) { // Jcc long form
	return SetResult(cursor, 2, false);
	} else if ((cursor[0] == 0xFF &&
	(cursor[1] == 0x15 \|\| cursor[1] == 0x25)) \|\|
	((cursor[0] == 0x89 \|\| cursor[0] == 0x8B \|\|
	cursor[0] == 0x8D) &&
	(cursor[1] & 0xC7) == 0x05)) {
	// 6-byte instructions:
	// [2-byte opcode] [disp32]:
	// Opcode
	// FF 15: CALL QWORD PTR [rip+disp32]
	// FF 25: JMP QWORD PTR [rip+disp32]
	//
	// [1-byte opcode] [ModR/M] [disp32]:
	// Opcode
	// 89: MOV DWORD PTR [rip+disp32],reg
	// 8B: MOV reg,DWORD PTR [rip+disp32]
	// 8D: LEA reg,[rip+disp32]
	// ModR/M : MMRRRMMM
	// MM = 00 & MMM = 101 => rip+disp32
	// RRR: selects reg operand from [eax\|ecx\|...\|edi]
	return SetResult(cursor, 2, true);
	}
	}
	++cursor;
	}
	return {nullptr, nullptr};
	}

	} // namespace zucchini