Add OWNERS for chrome/android/java/res directory.
[chromium-blink-merge.git] / courgette / ensemble_apply.cc
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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 // This file contains the code to apply a Courgette patch.
7 #include "courgette/ensemble.h"
9 #include "base/basictypes.h"
10 #include "base/files/file_util.h"
11 #include "base/files/memory_mapped_file.h"
12 #include "base/logging.h"
13 #include "courgette/crc.h"
14 #include "courgette/patcher_x86_32.h"
15 #include "courgette/region.h"
16 #include "courgette/simple_delta.h"
17 #include "courgette/streams.h"
19 namespace courgette {
21 // EnsemblePatchApplication is all the logic and data required to apply the
22 // multi-stage patch.
23 class EnsemblePatchApplication {
24 public:
25 EnsemblePatchApplication();
26 ~EnsemblePatchApplication();
28 Status ReadHeader(SourceStream* header_stream);
30 Status InitBase(const Region& region);
32 Status ValidateBase();
34 Status ReadInitialParameters(SourceStream* initial_parameters);
36 Status PredictTransformParameters(SinkStreamSet* predicted_parameters);
38 Status SubpatchTransformParameters(SinkStreamSet* prediction,
39 SourceStream* correction,
40 SourceStreamSet* corrected_parameters);
42 Status TransformUp(SourceStreamSet* parameters,
43 SinkStreamSet* transformed_elements);
45 Status SubpatchTransformedElements(SinkStreamSet* elements,
46 SourceStream* correction,
47 SourceStreamSet* corrected_elements);
49 Status TransformDown(SourceStreamSet* transformed_elements,
50 SinkStream* basic_elements);
52 Status SubpatchFinalOutput(SourceStream* original,
53 SourceStream* correction,
54 SinkStream* corrected_ensemble);
56 private:
57 Status SubpatchStreamSets(SinkStreamSet* predicted_items,
58 SourceStream* correction,
59 SourceStreamSet* corrected_items,
60 SinkStream* corrected_items_storage);
62 Region base_region_; // Location of in-memory copy of 'old' version.
64 uint32 source_checksum_;
65 uint32 target_checksum_;
66 uint32 final_patch_input_size_prediction_;
68 std::vector<TransformationPatcher*> patchers_;
70 SinkStream corrected_parameters_storage_;
71 SinkStream corrected_elements_storage_;
73 DISALLOW_COPY_AND_ASSIGN(EnsemblePatchApplication);
76 EnsemblePatchApplication::EnsemblePatchApplication()
77 : source_checksum_(0), target_checksum_(0),
78 final_patch_input_size_prediction_(0) {
81 EnsemblePatchApplication::~EnsemblePatchApplication() {
82 for (size_t i = 0; i < patchers_.size(); ++i) {
83 delete patchers_[i];
87 Status EnsemblePatchApplication::ReadHeader(SourceStream* header_stream) {
88 uint32 magic;
89 if (!header_stream->ReadVarint32(&magic))
90 return C_BAD_ENSEMBLE_MAGIC;
92 if (magic != CourgettePatchFile::kMagic)
93 return C_BAD_ENSEMBLE_MAGIC;
95 uint32 version;
96 if (!header_stream->ReadVarint32(&version))
97 return C_BAD_ENSEMBLE_VERSION;
99 if (version != CourgettePatchFile::kVersion)
100 return C_BAD_ENSEMBLE_VERSION;
102 if (!header_stream->ReadVarint32(&source_checksum_))
103 return C_BAD_ENSEMBLE_HEADER;
105 if (!header_stream->ReadVarint32(&target_checksum_))
106 return C_BAD_ENSEMBLE_HEADER;
108 if (!header_stream->ReadVarint32(&final_patch_input_size_prediction_))
109 return C_BAD_ENSEMBLE_HEADER;
111 return C_OK;
114 Status EnsemblePatchApplication::InitBase(const Region& region) {
115 base_region_.assign(region);
116 return C_OK;
119 Status EnsemblePatchApplication::ValidateBase() {
120 uint32 checksum = CalculateCrc(base_region_.start(), base_region_.length());
121 if (source_checksum_ != checksum)
122 return C_BAD_ENSEMBLE_CRC;
124 return C_OK;
127 Status EnsemblePatchApplication::ReadInitialParameters(
128 SourceStream* transformation_parameters) {
129 uint32 number_of_transformations = 0;
130 if (!transformation_parameters->ReadVarint32(&number_of_transformations))
131 return C_BAD_ENSEMBLE_HEADER;
133 for (size_t i = 0; i < number_of_transformations; ++i) {
134 uint32 kind;
135 if (!transformation_parameters->ReadVarint32(&kind))
136 return C_BAD_ENSEMBLE_HEADER;
138 TransformationPatcher* patcher = NULL;
140 switch (kind)
142 case EXE_WIN_32_X86:
143 patcher = new PatcherX86_32(base_region_);
144 break;
145 case EXE_ELF_32_X86:
146 patcher = new PatcherX86_32(base_region_);
147 break;
148 case EXE_ELF_32_ARM:
149 patcher = new PatcherX86_32(base_region_);
150 break;
151 case EXE_WIN_32_X64:
152 patcher = new PatcherX86_32(base_region_);
153 break;
156 if (patcher)
157 patchers_.push_back(patcher);
158 else
159 return C_BAD_ENSEMBLE_HEADER;
162 for (size_t i = 0; i < patchers_.size(); ++i) {
163 Status status = patchers_[i]->Init(transformation_parameters);
164 if (status != C_OK)
165 return status;
168 // All transformation_parameters should have been consumed by the above loop.
169 if (!transformation_parameters->Empty())
170 return C_BAD_ENSEMBLE_HEADER;
172 return C_OK;
175 Status EnsemblePatchApplication::PredictTransformParameters(
176 SinkStreamSet* all_predicted_parameters) {
177 for (size_t i = 0; i < patchers_.size(); ++i) {
178 SinkStreamSet single_predicted_parameters;
179 Status status =
180 patchers_[i]->PredictTransformParameters(&single_predicted_parameters);
181 if (status != C_OK)
182 return status;
183 if (!all_predicted_parameters->WriteSet(&single_predicted_parameters))
184 return C_STREAM_ERROR;
186 return C_OK;
189 Status EnsemblePatchApplication::SubpatchTransformParameters(
190 SinkStreamSet* predicted_parameters,
191 SourceStream* correction,
192 SourceStreamSet* corrected_parameters) {
193 return SubpatchStreamSets(predicted_parameters,
194 correction,
195 corrected_parameters,
196 &corrected_parameters_storage_);
199 Status EnsemblePatchApplication::TransformUp(
200 SourceStreamSet* parameters,
201 SinkStreamSet* transformed_elements) {
202 for (size_t i = 0; i < patchers_.size(); ++i) {
203 SourceStreamSet single_parameters;
204 if (!parameters->ReadSet(&single_parameters))
205 return C_STREAM_ERROR;
206 SinkStreamSet single_transformed_element;
207 Status status = patchers_[i]->Transform(&single_parameters,
208 &single_transformed_element);
209 if (status != C_OK)
210 return status;
211 if (!single_parameters.Empty())
212 return C_STREAM_NOT_CONSUMED;
213 if (!transformed_elements->WriteSet(&single_transformed_element))
214 return C_STREAM_ERROR;
217 if (!parameters->Empty())
218 return C_STREAM_NOT_CONSUMED;
219 return C_OK;
222 Status EnsemblePatchApplication::SubpatchTransformedElements(
223 SinkStreamSet* predicted_elements,
224 SourceStream* correction,
225 SourceStreamSet* corrected_elements) {
226 return SubpatchStreamSets(predicted_elements,
227 correction,
228 corrected_elements,
229 &corrected_elements_storage_);
232 Status EnsemblePatchApplication::TransformDown(
233 SourceStreamSet* transformed_elements,
234 SinkStream* basic_elements) {
235 // Construct blob of original input followed by reformed elements.
237 if (!basic_elements->Reserve(final_patch_input_size_prediction_)) {
238 return C_STREAM_ERROR;
241 // The original input:
242 if (!basic_elements->Write(base_region_.start(), base_region_.length()))
243 return C_STREAM_ERROR;
245 for (size_t i = 0; i < patchers_.size(); ++i) {
246 SourceStreamSet single_corrected_element;
247 if (!transformed_elements->ReadSet(&single_corrected_element))
248 return C_STREAM_ERROR;
249 Status status = patchers_[i]->Reform(&single_corrected_element,
250 basic_elements);
251 if (status != C_OK)
252 return status;
253 if (!single_corrected_element.Empty())
254 return C_STREAM_NOT_CONSUMED;
257 if (!transformed_elements->Empty())
258 return C_STREAM_NOT_CONSUMED;
259 // We have totally consumed transformed_elements, so can free the
260 // storage to which it referred.
261 corrected_elements_storage_.Retire();
263 return C_OK;
266 Status EnsemblePatchApplication::SubpatchFinalOutput(
267 SourceStream* original,
268 SourceStream* correction,
269 SinkStream* corrected_ensemble) {
270 Status delta_status = ApplySimpleDelta(original, correction,
271 corrected_ensemble);
272 if (delta_status != C_OK)
273 return delta_status;
275 if (CalculateCrc(corrected_ensemble->Buffer(),
276 corrected_ensemble->Length()) != target_checksum_)
277 return C_BAD_ENSEMBLE_CRC;
279 return C_OK;
282 Status EnsemblePatchApplication::SubpatchStreamSets(
283 SinkStreamSet* predicted_items,
284 SourceStream* correction,
285 SourceStreamSet* corrected_items,
286 SinkStream* corrected_items_storage) {
287 SinkStream linearized_predicted_items;
288 if (!predicted_items->CopyTo(&linearized_predicted_items))
289 return C_STREAM_ERROR;
291 SourceStream prediction;
292 prediction.Init(linearized_predicted_items);
294 Status status = ApplySimpleDelta(&prediction,
295 correction,
296 corrected_items_storage);
297 if (status != C_OK)
298 return status;
300 if (!corrected_items->Init(corrected_items_storage->Buffer(),
301 corrected_items_storage->Length()))
302 return C_STREAM_ERROR;
304 return C_OK;
307 Status ApplyEnsemblePatch(SourceStream* base,
308 SourceStream* patch,
309 SinkStream* output) {
310 Status status;
311 EnsemblePatchApplication patch_process;
313 status = patch_process.ReadHeader(patch);
314 if (status != C_OK)
315 return status;
317 status = patch_process.InitBase(Region(base->Buffer(), base->Remaining()));
318 if (status != C_OK)
319 return status;
321 status = patch_process.ValidateBase();
322 if (status != C_OK)
323 return status;
325 // The rest of the patch stream is a StreamSet.
326 SourceStreamSet patch_streams;
327 patch_streams.Init(patch);
329 SourceStream* transformation_descriptions = patch_streams.stream(0);
330 SourceStream* parameter_correction = patch_streams.stream(1);
331 SourceStream* transformed_elements_correction = patch_streams.stream(2);
332 SourceStream* ensemble_correction = patch_streams.stream(3);
334 status = patch_process.ReadInitialParameters(transformation_descriptions);
335 if (status != C_OK)
336 return status;
338 SinkStreamSet predicted_parameters;
339 status = patch_process.PredictTransformParameters(&predicted_parameters);
340 if (status != C_OK)
341 return status;
343 SourceStreamSet corrected_parameters;
344 status = patch_process.SubpatchTransformParameters(&predicted_parameters,
345 parameter_correction,
346 &corrected_parameters);
347 if (status != C_OK)
348 return status;
350 SinkStreamSet transformed_elements;
351 status = patch_process.TransformUp(&corrected_parameters,
352 &transformed_elements);
353 if (status != C_OK)
354 return status;
356 SourceStreamSet corrected_transformed_elements;
357 status = patch_process.SubpatchTransformedElements(
358 &transformed_elements,
359 transformed_elements_correction,
360 &corrected_transformed_elements);
361 if (status != C_OK)
362 return status;
364 SinkStream original_ensemble_and_corrected_base_elements;
365 status = patch_process.TransformDown(
366 &corrected_transformed_elements,
367 &original_ensemble_and_corrected_base_elements);
368 if (status != C_OK)
369 return status;
371 SourceStream final_patch_prediction;
372 final_patch_prediction.Init(original_ensemble_and_corrected_base_elements);
373 status = patch_process.SubpatchFinalOutput(&final_patch_prediction,
374 ensemble_correction, output);
375 if (status != C_OK)
376 return status;
378 return C_OK;
381 Status ApplyEnsemblePatch(const base::FilePath::CharType* old_file_name,
382 const base::FilePath::CharType* patch_file_name,
383 const base::FilePath::CharType* new_file_name) {
384 // First read enough of the patch file to validate the header is well-formed.
385 // A few varint32 numbers should fit in 100.
386 base::FilePath patch_file_path(patch_file_name);
387 base::MemoryMappedFile patch_file;
388 if (!patch_file.Initialize(patch_file_path))
389 return C_READ_OPEN_ERROR;
391 // 'Dry-run' the first step of the patch process to validate format of header.
392 SourceStream patch_header_stream;
393 patch_header_stream.Init(patch_file.data(), patch_file.length());
394 EnsemblePatchApplication patch_process;
395 Status status = patch_process.ReadHeader(&patch_header_stream);
396 if (status != C_OK)
397 return status;
399 // Read the old_file.
400 base::FilePath old_file_path(old_file_name);
401 base::MemoryMappedFile old_file;
402 if (!old_file.Initialize(old_file_path))
403 return C_READ_ERROR;
405 // Apply patch on streams.
406 SourceStream old_source_stream;
407 SourceStream patch_source_stream;
408 old_source_stream.Init(old_file.data(), old_file.length());
409 patch_source_stream.Init(patch_file.data(), patch_file.length());
410 SinkStream new_sink_stream;
411 status = ApplyEnsemblePatch(&old_source_stream, &patch_source_stream,
412 &new_sink_stream);
413 if (status != C_OK)
414 return status;
416 // Write the patched data to |new_file_name|.
417 base::FilePath new_file_path(new_file_name);
418 int written =
419 base::WriteFile(
420 new_file_path,
421 reinterpret_cast<const char*>(new_sink_stream.Buffer()),
422 static_cast<int>(new_sink_stream.Length()));
423 if (written == -1)
424 return C_WRITE_OPEN_ERROR;
425 if (static_cast<size_t>(written) != new_sink_stream.Length())
426 return C_WRITE_ERROR;
428 return C_OK;
431 } // namespace