Revert of Hook up the Push API with GCM's new ability to own encryption keys. (patchs...
[chromium-blink-merge.git] / courgette / courgette_tool.cc
blob962e078f3bd16b3be5222c14b0b4b8e33d321303
1 // Copyright (c) 2011 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 <string>
6 #include <vector>
8 #include "base/at_exit.h"
9 #include "base/basictypes.h"
10 #include "base/command_line.h"
11 #include "base/files/file_path.h"
12 #include "base/files/file_util.h"
13 #include "base/logging.h"
14 #include "base/strings/string_number_conversions.h"
15 #include "base/strings/string_util.h"
16 #include "base/strings/utf_string_conversions.h"
17 #include "courgette/courgette.h"
18 #include "courgette/streams.h"
19 #include "courgette/third_party/bsdiff.h"
22 void PrintHelp() {
23 fprintf(stderr,
24 "Usage:\n"
25 " courgette -supported <executable_file>\n"
26 " courgette -dis <executable_file> <binary_assembly_file>\n"
27 " courgette -asm <binary_assembly_file> <executable_file>\n"
28 " courgette -disadj <executable_file> <reference> <binary_assembly_file>\n"
29 " courgette -gen <v1> <v2> <patch>\n"
30 " courgette -apply <v1> <patch> <v2>\n"
31 "\n");
34 void UsageProblem(const char* message) {
35 fprintf(stderr, "%s", message);
36 fprintf(stderr, "\n");
37 PrintHelp();
38 exit(1);
41 void Problem(const char* format, ...) {
42 va_list args;
43 va_start(args, format);
44 vfprintf(stderr, format, args);
45 fprintf(stderr, "\n");
46 va_end(args);
47 exit(1);
50 std::string ReadOrFail(const base::FilePath& file_name, const char* kind) {
51 int64 file_size = 0;
52 if (!base::GetFileSize(file_name, &file_size))
53 Problem("Can't read %s file.", kind);
54 std::string buffer;
55 buffer.reserve(static_cast<size_t>(file_size));
56 if (!base::ReadFileToString(file_name, &buffer))
57 Problem("Can't read %s file.", kind);
58 return buffer;
61 void WriteSinkToFile(const courgette::SinkStream *sink,
62 const base::FilePath& output_file) {
63 int count =
64 base::WriteFile(output_file,
65 reinterpret_cast<const char*>(sink->Buffer()),
66 static_cast<int>(sink->Length()));
67 if (count == -1)
68 Problem("Can't write output.");
69 if (static_cast<size_t>(count) != sink->Length())
70 Problem("Incomplete write.");
73 void Disassemble(const base::FilePath& input_file,
74 const base::FilePath& output_file) {
75 std::string buffer = ReadOrFail(input_file, "input");
77 courgette::AssemblyProgram* program = NULL;
78 const courgette::Status parse_status =
79 courgette::ParseDetectedExecutable(buffer.c_str(), buffer.length(),
80 &program);
82 if (parse_status != courgette::C_OK)
83 Problem("Can't parse input.");
85 courgette::EncodedProgram* encoded = NULL;
86 const courgette::Status encode_status = Encode(program, &encoded);
88 courgette::DeleteAssemblyProgram(program);
90 if (encode_status != courgette::C_OK)
91 Problem("Can't encode program.");
93 courgette::SinkStreamSet sinks;
95 const courgette::Status write_status =
96 courgette::WriteEncodedProgram(encoded, &sinks);
97 if (write_status != courgette::C_OK)
98 Problem("Can't serialize encoded program.");
100 courgette::DeleteEncodedProgram(encoded);
102 courgette::SinkStream sink;
103 if (!sinks.CopyTo(&sink))
104 Problem("Can't combine serialized encoded program streams.");
106 WriteSinkToFile(&sink, output_file);
109 bool Supported(const base::FilePath& input_file) {
110 bool result = false;
112 std::string buffer = ReadOrFail(input_file, "input");
114 courgette::ExecutableType type;
115 size_t detected_length;
117 DetectExecutableType(buffer.c_str(), buffer.length(),
118 &type,
119 &detected_length);
121 // If the detection fails, we just fall back on UNKNOWN
122 std::string format = "Unsupported";
124 switch (type)
126 case courgette::EXE_UNKNOWN:
127 break;
129 case courgette::EXE_WIN_32_X86:
130 format = "Windows 32 PE";
131 result = true;
132 break;
134 case courgette::EXE_ELF_32_X86:
135 format = "ELF 32 X86";
136 result = true;
137 break;
139 case courgette::EXE_ELF_32_ARM:
140 format = "ELF 32 ARM";
141 result = true;
142 break;
144 case courgette::EXE_WIN_32_X64:
145 format = "Windows 64 PE";
146 result = true;
147 break;
150 printf("%s Executable\n", format.c_str());
151 return result;
154 void DisassembleAndAdjust(const base::FilePath& program_file,
155 const base::FilePath& model_file,
156 const base::FilePath& output_file) {
157 std::string program_buffer = ReadOrFail(program_file, "program");
158 std::string model_buffer = ReadOrFail(model_file, "reference");
160 courgette::AssemblyProgram* program = NULL;
161 const courgette::Status parse_program_status =
162 courgette::ParseDetectedExecutable(program_buffer.c_str(),
163 program_buffer.length(),
164 &program);
165 if (parse_program_status != courgette::C_OK)
166 Problem("Can't parse program input.");
168 courgette::AssemblyProgram* model = NULL;
169 const courgette::Status parse_model_status =
170 courgette::ParseDetectedExecutable(model_buffer.c_str(),
171 model_buffer.length(),
172 &model);
173 if (parse_model_status != courgette::C_OK)
174 Problem("Can't parse model input.");
176 const courgette::Status adjust_status = Adjust(*model, program);
177 if (adjust_status != courgette::C_OK)
178 Problem("Can't adjust program.");
180 courgette::EncodedProgram* encoded = NULL;
181 const courgette::Status encode_status = Encode(program, &encoded);
183 courgette::DeleteAssemblyProgram(program);
185 if (encode_status != courgette::C_OK)
186 Problem("Can't encode program.");
188 courgette::SinkStreamSet sinks;
190 const courgette::Status write_status =
191 courgette::WriteEncodedProgram(encoded, &sinks);
192 if (write_status != courgette::C_OK)
193 Problem("Can't serialize encoded program.");
195 courgette::DeleteEncodedProgram(encoded);
197 courgette::SinkStream sink;
198 if (!sinks.CopyTo(&sink))
199 Problem("Can't combine serialized encoded program streams.");
201 WriteSinkToFile(&sink, output_file);
204 // Diffs two executable files, write a set of files for the diff, one file per
205 // stream of the EncodedProgram format. Each file is the bsdiff between the
206 // original file's stream and the new file's stream. This is completely
207 // uninteresting to users, but it is handy for seeing how much each which
208 // streams are contributing to the final file size. Adjustment is optional.
209 void DisassembleAdjustDiff(const base::FilePath& model_file,
210 const base::FilePath& program_file,
211 const base::FilePath& output_file_root,
212 bool adjust) {
213 std::string model_buffer = ReadOrFail(model_file, "'old'");
214 std::string program_buffer = ReadOrFail(program_file, "'new'");
216 courgette::AssemblyProgram* model = NULL;
217 const courgette::Status parse_model_status =
218 courgette::ParseDetectedExecutable(model_buffer.c_str(),
219 model_buffer.length(),
220 &model);
221 if (parse_model_status != courgette::C_OK)
222 Problem("Can't parse model input.");
224 courgette::AssemblyProgram* program = NULL;
225 const courgette::Status parse_program_status =
226 courgette::ParseDetectedExecutable(program_buffer.c_str(),
227 program_buffer.length(),
228 &program);
229 if (parse_program_status != courgette::C_OK)
230 Problem("Can't parse program input.");
232 if (adjust) {
233 const courgette::Status adjust_status = Adjust(*model, program);
234 if (adjust_status != courgette::C_OK)
235 Problem("Can't adjust program.");
238 courgette::EncodedProgram* encoded_program = NULL;
239 const courgette::Status encode_program_status =
240 Encode(program, &encoded_program);
241 courgette::DeleteAssemblyProgram(program);
242 if (encode_program_status != courgette::C_OK)
243 Problem("Can't encode program.");
245 courgette::EncodedProgram* encoded_model = NULL;
246 const courgette::Status encode_model_status = Encode(model, &encoded_model);
247 courgette::DeleteAssemblyProgram(model);
248 if (encode_model_status != courgette::C_OK)
249 Problem("Can't encode model.");
251 courgette::SinkStreamSet program_sinks;
252 const courgette::Status write_program_status =
253 courgette::WriteEncodedProgram(encoded_program, &program_sinks);
254 if (write_program_status != courgette::C_OK)
255 Problem("Can't serialize encoded program.");
256 courgette::DeleteEncodedProgram(encoded_program);
258 courgette::SinkStreamSet model_sinks;
259 const courgette::Status write_model_status =
260 courgette::WriteEncodedProgram(encoded_model, &model_sinks);
261 if (write_model_status != courgette::C_OK)
262 Problem("Can't serialize encoded model.");
263 courgette::DeleteEncodedProgram(encoded_model);
265 courgette::SinkStream empty_sink;
266 for (int i = 0; ; ++i) {
267 courgette::SinkStream* old_stream = model_sinks.stream(i);
268 courgette::SinkStream* new_stream = program_sinks.stream(i);
269 if (old_stream == NULL && new_stream == NULL)
270 break;
272 courgette::SourceStream old_source;
273 courgette::SourceStream new_source;
274 old_source.Init(old_stream ? *old_stream : empty_sink);
275 new_source.Init(new_stream ? *new_stream : empty_sink);
276 courgette::SinkStream patch_stream;
277 courgette::BSDiffStatus status =
278 courgette::CreateBinaryPatch(&old_source, &new_source, &patch_stream);
279 if (status != courgette::OK) Problem("-xxx failed.");
281 std::string append = std::string("-") + base::IntToString(i);
283 WriteSinkToFile(&patch_stream,
284 output_file_root.InsertBeforeExtensionASCII(append));
288 void Assemble(const base::FilePath& input_file,
289 const base::FilePath& output_file) {
290 std::string buffer = ReadOrFail(input_file, "input");
292 courgette::SourceStreamSet sources;
293 if (!sources.Init(buffer.c_str(), buffer.length()))
294 Problem("Bad input file.");
296 courgette::EncodedProgram* encoded = NULL;
297 const courgette::Status read_status = ReadEncodedProgram(&sources, &encoded);
298 if (read_status != courgette::C_OK)
299 Problem("Bad encoded program.");
301 courgette::SinkStream sink;
303 const courgette::Status assemble_status = courgette::Assemble(encoded, &sink);
304 if (assemble_status != courgette::C_OK)
305 Problem("Can't assemble.");
307 WriteSinkToFile(&sink, output_file);
310 void GenerateEnsemblePatch(const base::FilePath& old_file,
311 const base::FilePath& new_file,
312 const base::FilePath& patch_file) {
313 std::string old_buffer = ReadOrFail(old_file, "'old' input");
314 std::string new_buffer = ReadOrFail(new_file, "'new' input");
316 courgette::SourceStream old_stream;
317 courgette::SourceStream new_stream;
318 old_stream.Init(old_buffer);
319 new_stream.Init(new_buffer);
321 courgette::SinkStream patch_stream;
322 courgette::Status status =
323 courgette::GenerateEnsemblePatch(&old_stream, &new_stream, &patch_stream);
325 if (status != courgette::C_OK) Problem("-gen failed.");
327 WriteSinkToFile(&patch_stream, patch_file);
330 void ApplyEnsemblePatch(const base::FilePath& old_file,
331 const base::FilePath& patch_file,
332 const base::FilePath& new_file) {
333 // We do things a little differently here in order to call the same Courgette
334 // entry point as the installer. That entry point point takes file names and
335 // returns an status code but does not output any diagnostics.
337 courgette::Status status =
338 courgette::ApplyEnsemblePatch(old_file.value().c_str(),
339 patch_file.value().c_str(),
340 new_file.value().c_str());
342 if (status == courgette::C_OK)
343 return;
345 // Diagnose the error.
346 switch (status) {
347 case courgette::C_BAD_ENSEMBLE_MAGIC:
348 Problem("Not a courgette patch");
349 break;
351 case courgette::C_BAD_ENSEMBLE_VERSION:
352 Problem("Wrong version patch");
353 break;
355 case courgette::C_BAD_ENSEMBLE_HEADER:
356 Problem("Corrupt patch");
357 break;
359 case courgette::C_DISASSEMBLY_FAILED:
360 Problem("Disassembly failed (could be because of memory issues)");
361 break;
363 case courgette::C_STREAM_ERROR:
364 Problem("Stream error (likely out of memory or disk space)");
365 break;
367 default:
368 break;
371 // If we failed due to a missing input file, this will
372 // print the message.
373 std::string old_buffer = ReadOrFail(old_file, "'old' input");
374 old_buffer.clear();
375 std::string patch_buffer = ReadOrFail(patch_file, "'patch' input");
376 patch_buffer.clear();
378 // Non-input related errors:
379 if (status == courgette::C_WRITE_OPEN_ERROR)
380 Problem("Can't open output");
381 if (status == courgette::C_WRITE_ERROR)
382 Problem("Can't write output");
384 Problem("-apply failed.");
387 void GenerateBSDiffPatch(const base::FilePath& old_file,
388 const base::FilePath& new_file,
389 const base::FilePath& patch_file) {
390 std::string old_buffer = ReadOrFail(old_file, "'old' input");
391 std::string new_buffer = ReadOrFail(new_file, "'new' input");
393 courgette::SourceStream old_stream;
394 courgette::SourceStream new_stream;
395 old_stream.Init(old_buffer);
396 new_stream.Init(new_buffer);
398 courgette::SinkStream patch_stream;
399 courgette::BSDiffStatus status =
400 courgette::CreateBinaryPatch(&old_stream, &new_stream, &patch_stream);
402 if (status != courgette::OK) Problem("-genbsdiff failed.");
404 WriteSinkToFile(&patch_stream, patch_file);
407 void ApplyBSDiffPatch(const base::FilePath& old_file,
408 const base::FilePath& patch_file,
409 const base::FilePath& new_file) {
410 std::string old_buffer = ReadOrFail(old_file, "'old' input");
411 std::string patch_buffer = ReadOrFail(patch_file, "'patch' input");
413 courgette::SourceStream old_stream;
414 courgette::SourceStream patch_stream;
415 old_stream.Init(old_buffer);
416 patch_stream.Init(patch_buffer);
418 courgette::SinkStream new_stream;
419 courgette::BSDiffStatus status =
420 courgette::ApplyBinaryPatch(&old_stream, &patch_stream, &new_stream);
422 if (status != courgette::OK) Problem("-applybsdiff failed.");
424 WriteSinkToFile(&new_stream, new_file);
427 int main(int argc, const char* argv[]) {
428 base::AtExitManager at_exit_manager;
429 base::CommandLine::Init(argc, argv);
430 const base::CommandLine& command_line =
431 *base::CommandLine::ForCurrentProcess();
433 logging::LoggingSettings settings;
434 settings.logging_dest = logging::LOG_TO_ALL;
435 settings.log_file = FILE_PATH_LITERAL("courgette.log");
436 (void)logging::InitLogging(settings);
437 logging::SetMinLogLevel(logging::LOG_VERBOSE);
439 bool cmd_sup = command_line.HasSwitch("supported");
440 bool cmd_dis = command_line.HasSwitch("dis");
441 bool cmd_asm = command_line.HasSwitch("asm");
442 bool cmd_disadj = command_line.HasSwitch("disadj");
443 bool cmd_make_patch = command_line.HasSwitch("gen");
444 bool cmd_apply_patch = command_line.HasSwitch("apply");
445 bool cmd_make_bsdiff_patch = command_line.HasSwitch("genbsdiff");
446 bool cmd_apply_bsdiff_patch = command_line.HasSwitch("applybsdiff");
447 bool cmd_spread_1_adjusted = command_line.HasSwitch("gen1a");
448 bool cmd_spread_1_unadjusted = command_line.HasSwitch("gen1u");
450 std::vector<base::FilePath> values;
451 const base::CommandLine::StringVector& args = command_line.GetArgs();
452 for (size_t i = 0; i < args.size(); ++i) {
453 values.push_back(base::FilePath(args[i]));
456 // '-repeat=N' is for debugging. Running many iterations can reveal leaks and
457 // bugs in cleanup.
458 int repeat_count = 1;
459 std::string repeat_switch = command_line.GetSwitchValueASCII("repeat");
460 if (!repeat_switch.empty())
461 if (!base::StringToInt(repeat_switch, &repeat_count))
462 repeat_count = 1;
464 if (cmd_sup + cmd_dis + cmd_asm + cmd_disadj + cmd_make_patch +
465 cmd_apply_patch + cmd_make_bsdiff_patch + cmd_apply_bsdiff_patch +
466 cmd_spread_1_adjusted + cmd_spread_1_unadjusted
467 != 1)
468 UsageProblem(
469 "Must have exactly one of:\n"
470 " -supported -asm, -dis, -disadj, -gen or -apply, -genbsdiff"
471 " or -applybsdiff.");
473 while (repeat_count-- > 0) {
474 if (cmd_sup) {
475 if (values.size() != 1)
476 UsageProblem("-supported <executable_file>");
477 return !Supported(values[0]);
478 } else if (cmd_dis) {
479 if (values.size() != 2)
480 UsageProblem("-dis <executable_file> <courgette_file>");
481 Disassemble(values[0], values[1]);
482 } else if (cmd_asm) {
483 if (values.size() != 2)
484 UsageProblem("-asm <courgette_file_input> <executable_file_output>");
485 Assemble(values[0], values[1]);
486 } else if (cmd_disadj) {
487 if (values.size() != 3)
488 UsageProblem("-disadj <executable_file> <model> <courgette_file>");
489 DisassembleAndAdjust(values[0], values[1], values[2]);
490 } else if (cmd_make_patch) {
491 if (values.size() != 3)
492 UsageProblem("-gen <old_file> <new_file> <patch_file>");
493 GenerateEnsemblePatch(values[0], values[1], values[2]);
494 } else if (cmd_apply_patch) {
495 if (values.size() != 3)
496 UsageProblem("-apply <old_file> <patch_file> <new_file>");
497 ApplyEnsemblePatch(values[0], values[1], values[2]);
498 } else if (cmd_make_bsdiff_patch) {
499 if (values.size() != 3)
500 UsageProblem("-genbsdiff <old_file> <new_file> <patch_file>");
501 GenerateBSDiffPatch(values[0], values[1], values[2]);
502 } else if (cmd_apply_bsdiff_patch) {
503 if (values.size() != 3)
504 UsageProblem("-applybsdiff <old_file> <patch_file> <new_file>");
505 ApplyBSDiffPatch(values[0], values[1], values[2]);
506 } else if (cmd_spread_1_adjusted || cmd_spread_1_unadjusted) {
507 if (values.size() != 3)
508 UsageProblem("-gen1[au] <old_file> <new_file> <patch_files_root>");
509 DisassembleAdjustDiff(values[0], values[1], values[2],
510 cmd_spread_1_adjusted);
511 } else {
512 UsageProblem("No operation specified");
516 return 0;