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[chromium-blink-merge.git] / courgette / disassembler_elf_32.cc
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1 // Copyright 2013 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "courgette/disassembler_elf_32.h"
7 #include <algorithm>
8 #include <string>
9 #include <vector>
11 #include "base/basictypes.h"
12 #include "base/logging.h"
13 #include "base/memory/scoped_vector.h"
15 #include "courgette/assembly_program.h"
16 #include "courgette/courgette.h"
17 #include "courgette/encoded_program.h"
19 namespace courgette {
21 DisassemblerElf32::DisassemblerElf32(const void* start, size_t length)
22 : Disassembler(start, length),
23 header_(NULL),
24 section_header_table_(NULL),
25 section_header_table_size_(0),
26 program_header_table_(NULL),
27 program_header_table_size_(0),
28 default_string_section_(NULL) {
31 bool DisassemblerElf32::ParseHeader() {
32 if (length() < sizeof(Elf32_Ehdr))
33 return Bad("Too small");
35 header_ = (Elf32_Ehdr *)start();
37 // Have magic for elf header?
38 if (header_->e_ident[0] != 0x7f ||
39 header_->e_ident[1] != 'E' ||
40 header_->e_ident[2] != 'L' ||
41 header_->e_ident[3] != 'F')
42 return Bad("No Magic Number");
44 if (header_->e_type != ET_EXEC &&
45 header_->e_type != ET_DYN)
46 return Bad("Not an executable file or shared library");
48 if (header_->e_machine != ElfEM())
49 return Bad("Not a supported architecture");
51 if (header_->e_version != 1)
52 return Bad("Unknown file version");
54 if (header_->e_shentsize != sizeof(Elf32_Shdr))
55 return Bad("Unexpected section header size");
57 if (!IsArrayInBounds(header_->e_shoff, header_->e_shnum, sizeof(Elf32_Shdr)))
58 return Bad("Out of bounds section header table");
60 section_header_table_ = (Elf32_Shdr *)OffsetToPointer(header_->e_shoff);
61 section_header_table_size_ = header_->e_shnum;
63 if (!IsArrayInBounds(header_->e_phoff, header_->e_phnum, sizeof(Elf32_Phdr)))
64 return Bad("Out of bounds program header table");
66 program_header_table_ = (Elf32_Phdr *)OffsetToPointer(header_->e_phoff);
67 program_header_table_size_ = header_->e_phnum;
69 if (header_->e_shstrndx >= header_->e_shnum)
70 return Bad("Out of bounds string section index");
72 default_string_section_ = (const char *)SectionBody((int)header_->e_shstrndx);
74 if (!UpdateLength()) {
75 return Bad("Out of bounds section or segment");
78 return Good();
81 bool DisassemblerElf32::Disassemble(AssemblyProgram* target) {
82 if (!ok())
83 return false;
85 // The Image Base is always 0 for ELF Executables
86 target->set_image_base(0);
88 if (!ParseAbs32Relocs())
89 return false;
91 if (!ParseRel32RelocsFromSections())
92 return false;
94 if (!ParseFile(target))
95 return false;
97 target->DefaultAssignIndexes();
99 return true;
102 bool DisassemblerElf32::UpdateLength() {
103 Elf32_Off result = 0;
105 // Find the end of the last section
106 for (int section_id = 0; section_id < SectionHeaderCount(); section_id++) {
107 const Elf32_Shdr *section_header = SectionHeader(section_id);
109 if (section_header->sh_type == SHT_NOBITS)
110 continue;
112 if (!IsArrayInBounds(section_header->sh_offset, section_header->sh_size, 1))
113 return false;
115 Elf32_Off section_end = section_header->sh_offset + section_header->sh_size;
116 result = std::max(result, section_end);
119 // Find the end of the last segment
120 for (int i = 0; i < ProgramSegmentHeaderCount(); i++) {
121 const Elf32_Phdr *segment_header = ProgramSegmentHeader(i);
123 if (!IsArrayInBounds(segment_header->p_offset, segment_header->p_filesz, 1))
124 return false;
126 Elf32_Off segment_end = segment_header->p_offset + segment_header->p_filesz;
127 result = std::max(result, segment_end);
130 Elf32_Off section_table_end = header_->e_shoff +
131 (header_->e_shnum * sizeof(Elf32_Shdr));
132 result = std::max(result, section_table_end);
134 Elf32_Off segment_table_end = header_->e_phoff +
135 (header_->e_phnum * sizeof(Elf32_Phdr));
136 result = std::max(result, segment_table_end);
138 ReduceLength(result);
139 return true;
142 CheckBool DisassemblerElf32::IsValidRVA(RVA rva) const {
144 // It's valid if it's contained in any program segment
145 for (int i = 0; i < ProgramSegmentHeaderCount(); i++) {
146 const Elf32_Phdr *segment_header = ProgramSegmentHeader(i);
148 if (segment_header->p_type != PT_LOAD)
149 continue;
151 Elf32_Addr begin = segment_header->p_vaddr;
152 Elf32_Addr end = segment_header->p_vaddr + segment_header->p_memsz;
154 if (rva >= begin && rva < end)
155 return true;
158 return false;
161 // Returns RVA for an in memory address, or NULL.
162 CheckBool DisassemblerElf32::RVAToFileOffset(Elf32_Addr addr,
163 size_t* result) const {
165 for (int i = 0; i < ProgramSegmentHeaderCount(); i++) {
166 Elf32_Addr begin = ProgramSegmentMemoryBegin(i);
167 Elf32_Addr end = begin + ProgramSegmentMemorySize(i);
169 if (addr >= begin && addr < end) {
170 Elf32_Addr offset = addr - begin;
172 if (offset < ProgramSegmentFileSize(i)) {
173 *result = ProgramSegmentFileOffset(i) + offset;
174 return true;
179 return false;
182 RVA DisassemblerElf32::FileOffsetToRVA(size_t offset) const {
183 // File offsets can be 64 bit values, but we are dealing with 32
184 // bit executables and so only need to support 32bit file sizes.
185 uint32 offset32 = (uint32)offset;
187 for (int i = 0; i < SectionHeaderCount(); i++) {
189 const Elf32_Shdr *section_header = SectionHeader(i);
191 // These can appear to have a size in the file, but don't.
192 if (section_header->sh_type == SHT_NOBITS)
193 continue;
195 Elf32_Off section_begin = section_header->sh_offset;
196 Elf32_Off section_end = section_begin + section_header->sh_size;
198 if (offset32 >= section_begin && offset32 < section_end) {
199 return section_header->sh_addr + (offset32 - section_begin);
203 return 0;
206 CheckBool DisassemblerElf32::RVAsToOffsets(std::vector<RVA>* rvas,
207 std::vector<size_t>* offsets) {
208 offsets->clear();
210 for (std::vector<RVA>::iterator rva = rvas->begin();
211 rva != rvas->end();
212 rva++) {
214 size_t offset;
216 if (!RVAToFileOffset(*rva, &offset))
217 return false;
219 offsets->push_back(offset);
222 return true;
225 CheckBool DisassemblerElf32::RVAsToOffsets(ScopedVector<TypedRVA>* rvas) {
226 for (ScopedVector<TypedRVA>::iterator rva = rvas->begin();
227 rva != rvas->end();
228 rva++) {
230 size_t offset;
232 if (!RVAToFileOffset((*rva)->rva(), &offset))
233 return false;
235 (*rva)->set_offset(offset);
238 return true;
241 CheckBool DisassemblerElf32::ParseFile(AssemblyProgram* program) {
242 // Walk all the bytes in the file, whether or not in a section.
243 uint32 file_offset = 0;
245 std::vector<size_t> abs_offsets;
247 if (!RVAsToOffsets(&abs32_locations_, &abs_offsets))
248 return false;
250 if (!RVAsToOffsets(&rel32_locations_))
251 return false;
253 std::vector<size_t>::iterator current_abs_offset = abs_offsets.begin();
254 ScopedVector<TypedRVA>::iterator current_rel = rel32_locations_.begin();
256 std::vector<size_t>::iterator end_abs_offset = abs_offsets.end();
257 ScopedVector<TypedRVA>::iterator end_rel = rel32_locations_.end();
259 for (int section_id = 0;
260 section_id < SectionHeaderCount();
261 section_id++) {
263 const Elf32_Shdr *section_header = SectionHeader(section_id);
265 if (section_header->sh_type == SHT_NOBITS)
266 continue;
268 if (!ParseSimpleRegion(file_offset,
269 section_header->sh_offset,
270 program))
271 return false;
272 file_offset = section_header->sh_offset;
274 switch (section_header->sh_type) {
275 case SHT_REL:
276 if (!ParseRelocationSection(section_header, program))
277 return false;
278 file_offset = section_header->sh_offset + section_header->sh_size;
279 break;
280 case SHT_PROGBITS:
281 if (!ParseProgbitsSection(section_header,
282 &current_abs_offset, end_abs_offset,
283 &current_rel, end_rel,
284 program))
285 return false;
286 file_offset = section_header->sh_offset + section_header->sh_size;
287 break;
288 case SHT_INIT_ARRAY:
289 // Fall through
290 case SHT_FINI_ARRAY:
291 while (current_abs_offset != end_abs_offset &&
292 *current_abs_offset >= section_header->sh_offset &&
293 *current_abs_offset <
294 (section_header->sh_offset + section_header->sh_size)) {
295 // Skip any abs_offsets appear in the unsupported INIT_ARRAY section
296 VLOG(1) << "Skipping relocation entry for unsupported section: " <<
297 section_header->sh_type;
298 current_abs_offset++;
300 break;
301 default:
302 if (current_abs_offset != end_abs_offset &&
303 *current_abs_offset >= section_header->sh_offset &&
304 *current_abs_offset <
305 (section_header->sh_offset + section_header->sh_size))
306 VLOG(1) << "Relocation address in unrecognized ELF section: " << \
307 section_header->sh_type;
308 break;
312 // Rest of the file past the last section
313 if (!ParseSimpleRegion(file_offset,
314 length(),
315 program))
316 return false;
318 // Make certain we consume all of the relocations as expected
319 return (current_abs_offset == end_abs_offset);
322 CheckBool DisassemblerElf32::ParseProgbitsSection(
323 const Elf32_Shdr *section_header,
324 std::vector<size_t>::iterator* current_abs_offset,
325 std::vector<size_t>::iterator end_abs_offset,
326 ScopedVector<TypedRVA>::iterator* current_rel,
327 ScopedVector<TypedRVA>::iterator end_rel,
328 AssemblyProgram* program) {
330 // Walk all the bytes in the file, whether or not in a section.
331 size_t file_offset = section_header->sh_offset;
332 size_t section_end = section_header->sh_offset + section_header->sh_size;
334 Elf32_Addr origin = section_header->sh_addr;
335 size_t origin_offset = section_header->sh_offset;
336 if (!program->EmitOriginInstruction(origin))
337 return false;
339 while (file_offset < section_end) {
341 if (*current_abs_offset != end_abs_offset &&
342 file_offset > **current_abs_offset)
343 return false;
345 while (*current_rel != end_rel &&
346 file_offset > (**current_rel)->get_offset()) {
347 (*current_rel)++;
350 size_t next_relocation = section_end;
352 if (*current_abs_offset != end_abs_offset &&
353 next_relocation > **current_abs_offset)
354 next_relocation = **current_abs_offset;
356 // Rel offsets are heuristically derived, and might (incorrectly) overlap
357 // an Abs value, or the end of the section, so +3 to make sure there is
358 // room for the full 4 byte value.
359 if (*current_rel != end_rel &&
360 next_relocation > ((**current_rel)->get_offset() + 3))
361 next_relocation = (**current_rel)->get_offset();
363 if (next_relocation > file_offset) {
364 if (!ParseSimpleRegion(file_offset, next_relocation, program))
365 return false;
367 file_offset = next_relocation;
368 continue;
371 if (*current_abs_offset != end_abs_offset &&
372 file_offset == **current_abs_offset) {
374 const uint8* p = OffsetToPointer(file_offset);
375 RVA target_rva = Read32LittleEndian(p);
377 if (!program->EmitAbs32(program->FindOrMakeAbs32Label(target_rva)))
378 return false;
379 file_offset += sizeof(RVA);
380 (*current_abs_offset)++;
381 continue;
384 if (*current_rel != end_rel &&
385 file_offset == (**current_rel)->get_offset()) {
387 uint32 relative_target = (**current_rel)->relative_target();
388 // This cast is for 64 bit systems, and is only safe because we
389 // are working on 32 bit executables.
390 RVA target_rva = (RVA)(origin + (file_offset - origin_offset) +
391 relative_target);
393 if (! (**current_rel)->EmitInstruction(program, target_rva))
394 return false;
395 file_offset += (**current_rel)->op_size();
396 (*current_rel)++;
397 continue;
401 // Rest of the section (if any)
402 return ParseSimpleRegion(file_offset, section_end, program);
405 CheckBool DisassemblerElf32::ParseSimpleRegion(
406 size_t start_file_offset,
407 size_t end_file_offset,
408 AssemblyProgram* program) {
409 // Callers don't guarantee start < end
410 if (start_file_offset >= end_file_offset) return true;
412 const size_t len = end_file_offset - start_file_offset;
414 if (!program->EmitBytesInstruction(OffsetToPointer(start_file_offset), len))
415 return false;
417 return true;
420 CheckBool DisassemblerElf32::ParseAbs32Relocs() {
421 abs32_locations_.clear();
423 // Loop through sections for relocation sections
424 for (int section_id = 0; section_id < SectionHeaderCount(); section_id++) {
425 const Elf32_Shdr *section_header = SectionHeader(section_id);
427 if (section_header->sh_type == SHT_REL) {
429 Elf32_Rel *relocs_table = (Elf32_Rel *)SectionBody(section_id);
431 int relocs_table_count = section_header->sh_size /
432 section_header->sh_entsize;
434 // Elf32_Word relocation_section_id = section_header->sh_info;
436 // Loop through relocation objects in the relocation section
437 for (int rel_id = 0; rel_id < relocs_table_count; rel_id++) {
438 RVA rva;
440 // Quite a few of these conversions fail, and we simply skip
441 // them, that's okay.
442 if (RelToRVA(relocs_table[rel_id], &rva) && CheckSection(rva))
443 abs32_locations_.push_back(rva);
448 std::sort(abs32_locations_.begin(), abs32_locations_.end());
449 return true;
452 CheckBool DisassemblerElf32::CheckSection(RVA rva) {
453 size_t offset;
455 if (!RVAToFileOffset(rva, &offset)) {
456 return false;
459 for (int section_id = 0;
460 section_id < SectionHeaderCount();
461 section_id++) {
463 const Elf32_Shdr *section_header = SectionHeader(section_id);
465 if (offset >= section_header->sh_offset &&
466 offset < (section_header->sh_offset + section_header->sh_size)) {
467 switch (section_header->sh_type) {
468 case SHT_REL:
469 // Fall-through
470 case SHT_PROGBITS:
471 return true;
476 return false;
479 CheckBool DisassemblerElf32::ParseRel32RelocsFromSections() {
481 rel32_locations_.clear();
483 // Loop through sections for relocation sections
484 for (int section_id = 0;
485 section_id < SectionHeaderCount();
486 section_id++) {
488 const Elf32_Shdr *section_header = SectionHeader(section_id);
490 if (section_header->sh_type != SHT_PROGBITS)
491 continue;
493 if (!ParseRel32RelocsFromSection(section_header))
494 return false;
497 std::sort(rel32_locations_.begin(),
498 rel32_locations_.end(),
499 TypedRVA::IsLessThan);
500 return true;
503 } // namespace courgette