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[chromium-blink-merge.git] / net / filter / sdch_filter_unittest.cc
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1 // Copyright 2014 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 <limits.h>
7 #include <algorithm>
8 #include <string>
9 #include <vector>
11 #include "base/logging.h"
12 #include "base/memory/scoped_ptr.h"
13 #include "base/test/histogram_tester.h"
14 #include "base/test/simple_test_clock.h"
15 #include "net/base/io_buffer.h"
16 #include "net/base/sdch_dictionary.h"
17 #include "net/base/sdch_manager.h"
18 #include "net/base/sdch_observer.h"
19 #include "net/filter/mock_filter_context.h"
20 #include "net/filter/sdch_filter.h"
21 #include "net/url_request/url_request_context.h"
22 #include "net/url_request/url_request_http_job.h"
23 #include "testing/gtest/include/gtest/gtest.h"
24 #include "third_party/zlib/zlib.h"
26 namespace net {
28 //------------------------------------------------------------------------------
29 // Provide sample data and compression results with a sample VCDIFF dictionary.
30 // Note an SDCH dictionary has extra meta-data before the VCDIFF dictionary.
31 static const char kTestVcdiffDictionary[] = "DictionaryFor"
32 "SdchCompression1SdchCompression2SdchCompression3SdchCompression\n";
33 // Pre-compression test data. Note that we pad with a lot of highly gzip
34 // compressible content to help to exercise the chaining pipeline. That is why
35 // there are a PILE of zeros at the start and end.
36 // This will ensure that gzip compressed data can be fed to the chain in one
37 // gulp, but (with careful selection of intermediate buffers) that it takes
38 // several sdch buffers worth of data to satisfy the sdch filter. See detailed
39 // CHECK() calls in FilterChaining test for specifics.
40 static const char kTestData[] = "0000000000000000000000000000000000000000000000"
41 "0000000000000000000000000000TestData "
42 "SdchCompression1SdchCompression2SdchCompression3SdchCompression"
43 "00000000000000000000000000000000000000000000000000000000000000000000000000"
44 "000000000000000000000000000000000000000\n";
46 // Note SDCH compressed data will include a reference to the SDCH dictionary.
47 static const char kSdchCompressedTestData[] =
48 "\326\303\304\0\0\001M\0\201S\202\004\0\201E\006\001"
49 "00000000000000000000000000000000000000000000000000000000000000000000000000"
50 "TestData 00000000000000000000000000000000000000000000000000000000000000000"
51 "000000000000000000000000000000000000000000000000\n\001S\023\077\001r\r";
53 //------------------------------------------------------------------------------
55 class SdchFilterTest : public testing::Test {
56 protected:
57 SdchFilterTest()
58 : test_vcdiff_dictionary_(kTestVcdiffDictionary,
59 sizeof(kTestVcdiffDictionary) - 1),
60 vcdiff_compressed_data_(kSdchCompressedTestData,
61 sizeof(kSdchCompressedTestData) - 1),
62 expanded_(kTestData, sizeof(kTestData) - 1),
63 sdch_manager_(new SdchManager),
64 filter_context_(new MockFilterContext) {
65 URLRequestContext* url_request_context =
66 filter_context_->GetModifiableURLRequestContext();
68 url_request_context->set_sdch_manager(sdch_manager_.get());
71 // Attempt to add a dictionary to the manager and probe for success or
72 // failure.
73 bool AddSdchDictionary(const std::string& dictionary_text,
74 const GURL& gurl) {
75 return sdch_manager_->AddSdchDictionary(dictionary_text, gurl, nullptr) ==
76 SDCH_OK;
79 MockFilterContext* filter_context() { return filter_context_.get(); }
81 // Sets both the GURL and the SDCH response for a filter context.
82 void SetupFilterContextWithGURL(GURL url) {
83 filter_context_->SetURL(url);
84 filter_context_->SetSdchResponse(
85 sdch_manager_->GetDictionarySet(url).Pass());
88 std::string NewSdchCompressedData(const std::string dictionary) {
89 std::string client_hash;
90 std::string server_hash;
91 SdchManager::GenerateHash(dictionary, &client_hash, &server_hash);
93 // Build compressed data that refers to our dictionary.
94 std::string compressed(server_hash);
95 compressed.append("\0", 1);
96 compressed.append(vcdiff_compressed_data_);
97 return compressed;
100 const std::string test_vcdiff_dictionary_;
101 const std::string vcdiff_compressed_data_;
102 const std::string expanded_; // Desired final, decompressed data.
104 scoped_ptr<SdchManager> sdch_manager_;
105 scoped_ptr<MockFilterContext> filter_context_;
108 TEST_F(SdchFilterTest, Hashing) {
109 std::string client_hash, server_hash;
110 std::string dictionary("test contents");
111 SdchManager::GenerateHash(dictionary, &client_hash, &server_hash);
113 EXPECT_EQ(client_hash, "lMQBjS3P");
114 EXPECT_EQ(server_hash, "MyciMVll");
117 //------------------------------------------------------------------------------
118 // Provide a generic helper function for trying to filter data.
119 // This function repeatedly calls the filter to process data, until the entire
120 // source is consumed. The return value from the filter is appended to output.
121 // This allows us to vary input and output block sizes in order to test for edge
122 // effects (boundary effects?) during the filtering process.
123 // This function provides data to the filter in blocks of no-more-than the
124 // specified input_block_length. It allows the filter to fill no more than
125 // output_buffer_length in any one call to proccess (a.k.a., Read) data, and
126 // concatenates all these little output blocks into the singular output string.
127 static bool FilterTestData(const std::string& source,
128 size_t input_block_length,
129 const size_t output_buffer_length,
130 Filter* filter, std::string* output) {
131 CHECK_GT(input_block_length, 0u);
132 Filter::FilterStatus status(Filter::FILTER_NEED_MORE_DATA);
133 size_t source_index = 0;
134 scoped_ptr<char[]> output_buffer(new char[output_buffer_length]);
135 size_t input_amount = std::min(input_block_length,
136 static_cast<size_t>(filter->stream_buffer_size()));
138 do {
139 int copy_amount = std::min(input_amount, source.size() - source_index);
140 if (copy_amount > 0 && status == Filter::FILTER_NEED_MORE_DATA) {
141 memcpy(filter->stream_buffer()->data(), source.data() + source_index,
142 copy_amount);
143 filter->FlushStreamBuffer(copy_amount);
144 source_index += copy_amount;
146 int buffer_length = output_buffer_length;
147 status = filter->ReadData(output_buffer.get(), &buffer_length);
148 output->append(output_buffer.get(), buffer_length);
149 if (status == Filter::FILTER_ERROR)
150 return false;
151 // Callers assume that FILTER_OK with no output buffer means FILTER_DONE.
152 if (Filter::FILTER_OK == status && 0 == buffer_length)
153 return true;
154 if (copy_amount == 0 && buffer_length == 0)
155 return true;
156 } while (1);
159 static std::string NewSdchDictionary(const std::string& domain) {
160 std::string dictionary;
161 if (!domain.empty()) {
162 dictionary.append("Domain: ");
163 dictionary.append(domain);
164 dictionary.append("\n");
166 dictionary.append("\n");
167 dictionary.append(kTestVcdiffDictionary, sizeof(kTestVcdiffDictionary) - 1);
168 return dictionary;
171 static std::string NewSdchExpiredDictionary(const std::string& domain) {
172 std::string dictionary;
173 if (!domain.empty()) {
174 dictionary.append("Domain: ");
175 dictionary.append(domain);
176 dictionary.append("\n");
178 dictionary.append("Max-Age: -1\n");
179 dictionary.append("\n");
180 dictionary.append(kTestVcdiffDictionary, sizeof(kTestVcdiffDictionary) - 1);
181 return dictionary;
184 TEST_F(SdchFilterTest, EmptyInputOk) {
185 std::vector<Filter::FilterType> filter_types;
186 filter_types.push_back(Filter::FILTER_TYPE_SDCH);
187 char output_buffer[20];
188 std::string url_string("http://ignore.com");
189 filter_context()->SetURL(GURL(url_string));
190 scoped_ptr<Filter> filter(Filter::Factory(filter_types, *filter_context()));
192 // With no input data, try to read output.
193 int output_bytes_or_buffer_size = sizeof(output_buffer);
194 Filter::FilterStatus status = filter->ReadData(output_buffer,
195 &output_bytes_or_buffer_size);
197 EXPECT_EQ(0, output_bytes_or_buffer_size);
198 EXPECT_EQ(Filter::FILTER_NEED_MORE_DATA, status);
201 // Make sure that the filter context has everything that might be
202 // nuked from it during URLRequest teardown before the SdchFilter
203 // destructor.
204 TEST_F(SdchFilterTest, SparseContextOk) {
205 std::vector<Filter::FilterType> filter_types;
206 filter_types.push_back(Filter::FILTER_TYPE_SDCH);
207 char output_buffer[20];
208 std::string url_string("http://ignore.com");
209 filter_context()->SetURL(GURL(url_string));
210 scoped_ptr<Filter> filter(Filter::Factory(filter_types, *filter_context()));
212 // With no input data, try to read output.
213 int output_bytes_or_buffer_size = sizeof(output_buffer);
214 Filter::FilterStatus status = filter->ReadData(output_buffer,
215 &output_bytes_or_buffer_size);
217 EXPECT_EQ(0, output_bytes_or_buffer_size);
218 EXPECT_EQ(Filter::FILTER_NEED_MORE_DATA, status);
220 // Partially tear down context. Anything that goes through request()
221 // without checking it for null in the URLRequestJob::HttpFilterContext
222 // implementation is suspect. Everything that does check it for null should
223 // return null. This is to test for incorrectly relying on filter_context()
224 // from the SdchFilter destructor.
225 filter_context()->NukeUnstableInterfaces();
228 TEST_F(SdchFilterTest, PassThroughWhenTentative) {
229 std::vector<Filter::FilterType> filter_types;
230 // Selective a tentative filter (which can fall back to pass through).
231 filter_types.push_back(Filter::FILTER_TYPE_GZIP_HELPING_SDCH);
232 char output_buffer[20];
233 // Response code needs to be 200 to allow a pass through.
234 filter_context()->SetResponseCode(200);
235 std::string url_string("http://ignore.com");
236 filter_context()->SetURL(GURL(url_string));
237 scoped_ptr<Filter> filter(Filter::Factory(filter_types, *filter_context()));
239 // Supply enough data to force a pass-through mode..
240 std::string non_gzip_content("not GZIPed data");
242 char* input_buffer = filter->stream_buffer()->data();
243 int input_buffer_size = filter->stream_buffer_size();
245 EXPECT_LT(static_cast<int>(non_gzip_content.size()),
246 input_buffer_size);
247 memcpy(input_buffer, non_gzip_content.data(),
248 non_gzip_content.size());
249 filter->FlushStreamBuffer(non_gzip_content.size());
251 // Try to read output.
252 int output_bytes_or_buffer_size = sizeof(output_buffer);
253 Filter::FilterStatus status = filter->ReadData(output_buffer,
254 &output_bytes_or_buffer_size);
256 EXPECT_EQ(non_gzip_content.size(),
257 static_cast<size_t>(output_bytes_or_buffer_size));
258 ASSERT_GT(sizeof(output_buffer),
259 static_cast<size_t>(output_bytes_or_buffer_size));
260 output_buffer[output_bytes_or_buffer_size] = '\0';
261 EXPECT_TRUE(non_gzip_content == output_buffer);
262 EXPECT_EQ(Filter::FILTER_NEED_MORE_DATA, status);
265 TEST_F(SdchFilterTest, RefreshBadReturnCode) {
266 std::vector<Filter::FilterType> filter_types;
267 // Selective a tentative filter (which can fall back to pass through).
268 filter_types.push_back(Filter::FILTER_TYPE_SDCH_POSSIBLE);
269 char output_buffer[20];
270 // Response code needs to be 200 to allow a pass through.
271 filter_context()->SetResponseCode(403);
272 // Meta refresh will only appear for html content
273 filter_context()->SetMimeType("text/html");
274 std::string url_string("http://ignore.com");
275 filter_context()->SetURL(GURL(url_string));
276 scoped_ptr<Filter> filter(Filter::Factory(filter_types, *filter_context()));
278 // Supply enough data to force a pass-through mode, which means we have
279 // provided more than 9 characters that can't be a dictionary hash.
280 std::string non_sdch_content("This is not SDCH");
282 char* input_buffer = filter->stream_buffer()->data();
283 int input_buffer_size = filter->stream_buffer_size();
285 EXPECT_LT(static_cast<int>(non_sdch_content.size()),
286 input_buffer_size);
287 memcpy(input_buffer, non_sdch_content.data(),
288 non_sdch_content.size());
289 filter->FlushStreamBuffer(non_sdch_content.size());
291 // Try to read output.
292 int output_bytes_or_buffer_size = sizeof(output_buffer);
293 Filter::FilterStatus status = filter->ReadData(output_buffer,
294 &output_bytes_or_buffer_size);
296 // We should have read a long and complicated meta-refresh request.
297 EXPECT_TRUE(sizeof(output_buffer) == output_bytes_or_buffer_size);
298 // Check at least the prefix of the return.
299 EXPECT_EQ(0, strncmp(output_buffer,
300 "<head><META HTTP-EQUIV=\"Refresh\" CONTENT=\"0\"></head>",
301 sizeof(output_buffer)));
302 EXPECT_EQ(Filter::FILTER_OK, status);
305 TEST_F(SdchFilterTest, ErrorOnBadReturnCode) {
306 std::vector<Filter::FilterType> filter_types;
307 // Selective a tentative filter (which can fall back to pass through).
308 filter_types.push_back(Filter::FILTER_TYPE_SDCH_POSSIBLE);
309 char output_buffer[20];
310 // Response code needs to be 200 to allow a pass through.
311 filter_context()->SetResponseCode(403);
312 // Meta refresh will only appear for html content, so set to something else
313 // to induce an error (we can't meta refresh).
314 filter_context()->SetMimeType("anything");
315 std::string url_string("http://ignore.com");
316 filter_context()->SetURL(GURL(url_string));
317 scoped_ptr<Filter> filter(Filter::Factory(filter_types, *filter_context()));
319 // Supply enough data to force a pass-through mode, which means we have
320 // provided more than 9 characters that can't be a dictionary hash.
321 std::string non_sdch_content("This is not SDCH");
323 char* input_buffer = filter->stream_buffer()->data();
324 int input_buffer_size = filter->stream_buffer_size();
326 EXPECT_LT(static_cast<int>(non_sdch_content.size()),
327 input_buffer_size);
328 memcpy(input_buffer, non_sdch_content.data(),
329 non_sdch_content.size());
330 filter->FlushStreamBuffer(non_sdch_content.size());
332 // Try to read output.
333 int output_bytes_or_buffer_size = sizeof(output_buffer);
334 Filter::FilterStatus status = filter->ReadData(output_buffer,
335 &output_bytes_or_buffer_size);
337 EXPECT_EQ(0, output_bytes_or_buffer_size);
338 EXPECT_EQ(Filter::FILTER_ERROR, status);
341 TEST_F(SdchFilterTest, ErrorOnBadReturnCodeWithHtml) {
342 std::vector<Filter::FilterType> filter_types;
343 // Selective a tentative filter (which can fall back to pass through).
344 filter_types.push_back(Filter::FILTER_TYPE_SDCH_POSSIBLE);
345 char output_buffer[20];
346 // Response code needs to be 200 to allow a pass through.
347 filter_context()->SetResponseCode(403);
348 // Meta refresh will only appear for html content
349 filter_context()->SetMimeType("text/html");
350 std::string url_string("http://ignore.com");
351 filter_context()->SetURL(GURL(url_string));
352 scoped_ptr<Filter> filter(Filter::Factory(filter_types, *filter_context()));
354 // Supply enough data to force a pass-through mode, which means we have
355 // provided more than 9 characters that can't be a dictionary hash.
356 std::string non_sdch_content("This is not SDCH");
358 char* input_buffer = filter->stream_buffer()->data();
359 int input_buffer_size = filter->stream_buffer_size();
361 EXPECT_LT(static_cast<int>(non_sdch_content.size()),
362 input_buffer_size);
363 memcpy(input_buffer, non_sdch_content.data(),
364 non_sdch_content.size());
365 filter->FlushStreamBuffer(non_sdch_content.size());
367 // Try to read output.
368 int output_bytes_or_buffer_size = sizeof(output_buffer);
369 Filter::FilterStatus status = filter->ReadData(output_buffer,
370 &output_bytes_or_buffer_size);
372 // We should have read a long and complicated meta-refresh request.
373 EXPECT_EQ(sizeof(output_buffer),
374 static_cast<size_t>(output_bytes_or_buffer_size));
375 // Check at least the prefix of the return.
376 EXPECT_EQ(0, strncmp(output_buffer,
377 "<head><META HTTP-EQUIV=\"Refresh\" CONTENT=\"0\"></head>",
378 sizeof(output_buffer)));
379 EXPECT_EQ(Filter::FILTER_OK, status);
382 TEST_F(SdchFilterTest, BasicBadDictionary) {
383 std::vector<Filter::FilterType> filter_types;
384 filter_types.push_back(Filter::FILTER_TYPE_SDCH);
385 char output_buffer[20];
386 std::string url_string("http://ignore.com");
387 filter_context()->SetURL(GURL(url_string));
388 scoped_ptr<Filter> filter(Filter::Factory(filter_types, *filter_context()));
390 // Supply bogus data (which doesn't yet specify a full dictionary hash).
391 // Dictionary hash is 8 characters followed by a null.
392 std::string dictionary_hash_prefix("123");
394 char* input_buffer = filter->stream_buffer()->data();
395 int input_buffer_size = filter->stream_buffer_size();
397 EXPECT_LT(static_cast<int>(dictionary_hash_prefix.size()),
398 input_buffer_size);
399 memcpy(input_buffer, dictionary_hash_prefix.data(),
400 dictionary_hash_prefix.size());
401 filter->FlushStreamBuffer(dictionary_hash_prefix.size());
403 // With less than a dictionary specifier, try to read output.
404 int output_bytes_or_buffer_size = sizeof(output_buffer);
405 Filter::FilterStatus status = filter->ReadData(output_buffer,
406 &output_bytes_or_buffer_size);
408 EXPECT_EQ(0, output_bytes_or_buffer_size);
409 EXPECT_EQ(Filter::FILTER_NEED_MORE_DATA, status);
411 // Provide enough data to complete *a* hash, but it is bogus, and not in our
412 // list of dictionaries, so the filter should error out immediately.
413 std::string dictionary_hash_postfix("4abcd\0", 6);
415 CHECK_LT(dictionary_hash_postfix.size(),
416 static_cast<size_t>(input_buffer_size));
417 memcpy(input_buffer, dictionary_hash_postfix.data(),
418 dictionary_hash_postfix.size());
419 filter->FlushStreamBuffer(dictionary_hash_postfix.size());
421 // With a non-existant dictionary specifier, try to read output.
422 output_bytes_or_buffer_size = sizeof(output_buffer);
423 status = filter->ReadData(output_buffer, &output_bytes_or_buffer_size);
425 EXPECT_EQ(0, output_bytes_or_buffer_size);
426 EXPECT_EQ(Filter::FILTER_ERROR, status);
428 EXPECT_EQ(SDCH_DOMAIN_BLACKLIST_INCLUDES_TARGET,
429 sdch_manager_->IsInSupportedDomain(GURL(url_string)));
430 sdch_manager_->ClearBlacklistings();
431 EXPECT_EQ(SDCH_OK, sdch_manager_->IsInSupportedDomain(GURL(url_string)));
434 TEST_F(SdchFilterTest, DictionaryAddOnce) {
435 // Construct a valid SDCH dictionary from a VCDIFF dictionary.
436 const std::string kSampleDomain = "sdchtest.com";
437 std::string dictionary(NewSdchDictionary(kSampleDomain));
439 std::string url_string = "http://" + kSampleDomain;
440 GURL url(url_string);
441 EXPECT_TRUE(AddSdchDictionary(dictionary, url));
443 // Check we can't add it twice.
444 EXPECT_FALSE(AddSdchDictionary(dictionary, url));
446 const std::string kSampleDomain2 = "sdchtest2.com";
448 // Construct a second SDCH dictionary from a VCDIFF dictionary.
449 std::string dictionary2(NewSdchDictionary(kSampleDomain2));
451 std::string url_string2 = "http://" + kSampleDomain2;
452 GURL url2(url_string2);
453 EXPECT_TRUE(AddSdchDictionary(dictionary2, url2));
456 TEST_F(SdchFilterTest, BasicDictionary) {
457 // Construct a valid SDCH dictionary from a VCDIFF dictionary.
458 const std::string kSampleDomain = "sdchtest.com";
459 std::string dictionary(NewSdchDictionary(kSampleDomain));
461 std::string url_string = "http://" + kSampleDomain;
463 GURL url(url_string);
464 EXPECT_TRUE(AddSdchDictionary(dictionary, url));
466 std::string compressed(NewSdchCompressedData(dictionary));
468 std::vector<Filter::FilterType> filter_types;
469 filter_types.push_back(Filter::FILTER_TYPE_SDCH);
471 SetupFilterContextWithGURL(url);
473 scoped_ptr<Filter> filter(Filter::Factory(filter_types, *filter_context()));
475 size_t feed_block_size = 100;
476 size_t output_block_size = 100;
477 std::string output;
478 EXPECT_TRUE(FilterTestData(compressed, feed_block_size, output_block_size,
479 filter.get(), &output));
480 EXPECT_EQ(output, expanded_);
482 // Decode with really small buffers (size 1) to check for edge effects.
483 filter.reset(Filter::Factory(filter_types, *filter_context()));
485 feed_block_size = 1;
486 output_block_size = 1;
487 output.clear();
488 EXPECT_TRUE(FilterTestData(compressed, feed_block_size, output_block_size,
489 filter.get(), &output));
490 EXPECT_EQ(output, expanded_);
493 TEST_F(SdchFilterTest, NoDecodeHttps) {
494 // Construct a valid SDCH dictionary from a VCDIFF dictionary.
495 const std::string kSampleDomain = "sdchtest.com";
496 std::string dictionary(NewSdchDictionary(kSampleDomain));
498 std::string url_string = "http://" + kSampleDomain;
500 GURL url(url_string);
501 EXPECT_TRUE(AddSdchDictionary(dictionary, url));
503 std::string compressed(NewSdchCompressedData(dictionary));
505 std::vector<Filter::FilterType> filter_types;
506 filter_types.push_back(Filter::FILTER_TYPE_SDCH);
508 GURL filter_context_gurl("https://" + kSampleDomain);
509 SetupFilterContextWithGURL(GURL("https://" + kSampleDomain));
510 scoped_ptr<Filter> filter(Filter::Factory(filter_types, *filter_context()));
512 const size_t feed_block_size(100);
513 const size_t output_block_size(100);
514 std::string output;
516 EXPECT_FALSE(FilterTestData(compressed, feed_block_size, output_block_size,
517 filter.get(), &output));
520 // Current failsafe TODO/hack refuses to decode any content that doesn't use
521 // http as the scheme (see use of DICTIONARY_SELECTED_FOR_NON_HTTP).
522 // The following tests this blockage. Note that blacklisting results, so we
523 // we need separate tests for each of these.
524 TEST_F(SdchFilterTest, NoDecodeFtp) {
525 // Construct a valid SDCH dictionary from a VCDIFF dictionary.
526 const std::string kSampleDomain = "sdchtest.com";
527 std::string dictionary(NewSdchDictionary(kSampleDomain));
529 std::string url_string = "http://" + kSampleDomain;
531 GURL url(url_string);
532 EXPECT_TRUE(AddSdchDictionary(dictionary, url));
534 std::string compressed(NewSdchCompressedData(dictionary));
536 std::vector<Filter::FilterType> filter_types;
537 filter_types.push_back(Filter::FILTER_TYPE_SDCH);
539 SetupFilterContextWithGURL(GURL("ftp://" + kSampleDomain));
540 scoped_ptr<Filter> filter(Filter::Factory(filter_types, *filter_context()));
542 const size_t feed_block_size(100);
543 const size_t output_block_size(100);
544 std::string output;
546 EXPECT_FALSE(FilterTestData(compressed, feed_block_size, output_block_size,
547 filter.get(), &output));
550 TEST_F(SdchFilterTest, NoDecodeFileColon) {
551 // Construct a valid SDCH dictionary from a VCDIFF dictionary.
552 const std::string kSampleDomain = "sdchtest.com";
553 std::string dictionary(NewSdchDictionary(kSampleDomain));
555 std::string url_string = "http://" + kSampleDomain;
557 GURL url(url_string);
558 EXPECT_TRUE(AddSdchDictionary(dictionary, url));
560 std::string compressed(NewSdchCompressedData(dictionary));
562 std::vector<Filter::FilterType> filter_types;
563 filter_types.push_back(Filter::FILTER_TYPE_SDCH);
565 SetupFilterContextWithGURL(GURL("file://" + kSampleDomain));
566 scoped_ptr<Filter> filter(Filter::Factory(filter_types, *filter_context()));
568 const size_t feed_block_size(100);
569 const size_t output_block_size(100);
570 std::string output;
572 EXPECT_FALSE(FilterTestData(compressed, feed_block_size, output_block_size,
573 filter.get(), &output));
576 TEST_F(SdchFilterTest, NoDecodeAboutColon) {
577 // Construct a valid SDCH dictionary from a VCDIFF dictionary.
578 const std::string kSampleDomain = "sdchtest.com";
579 std::string dictionary(NewSdchDictionary(kSampleDomain));
581 std::string url_string = "http://" + kSampleDomain;
583 GURL url(url_string);
584 EXPECT_TRUE(AddSdchDictionary(dictionary, url));
586 std::string compressed(NewSdchCompressedData(dictionary));
588 std::vector<Filter::FilterType> filter_types;
589 filter_types.push_back(Filter::FILTER_TYPE_SDCH);
591 SetupFilterContextWithGURL(GURL("about://" + kSampleDomain));
592 scoped_ptr<Filter> filter(Filter::Factory(filter_types, *filter_context()));
594 const size_t feed_block_size(100);
595 const size_t output_block_size(100);
596 std::string output;
598 EXPECT_FALSE(FilterTestData(compressed, feed_block_size, output_block_size,
599 filter.get(), &output));
602 TEST_F(SdchFilterTest, NoDecodeJavaScript) {
603 // Construct a valid SDCH dictionary from a VCDIFF dictionary.
604 const std::string kSampleDomain = "sdchtest.com";
605 std::string dictionary(NewSdchDictionary(kSampleDomain));
607 std::string url_string = "http://" + kSampleDomain;
609 GURL url(url_string);
610 EXPECT_TRUE(AddSdchDictionary(dictionary, url));
612 std::string compressed(NewSdchCompressedData(dictionary));
614 std::vector<Filter::FilterType> filter_types;
615 filter_types.push_back(Filter::FILTER_TYPE_SDCH);
617 SetupFilterContextWithGURL(GURL("javascript://" + kSampleDomain));
618 scoped_ptr<Filter> filter(Filter::Factory(filter_types, *filter_context()));
620 const size_t feed_block_size(100);
621 const size_t output_block_size(100);
622 std::string output;
624 EXPECT_FALSE(FilterTestData(compressed, feed_block_size, output_block_size,
625 filter.get(), &output));
628 TEST_F(SdchFilterTest, CanStillDecodeHttp) {
629 // Construct a valid SDCH dictionary from a VCDIFF dictionary.
630 const std::string kSampleDomain = "sdchtest.com";
631 std::string dictionary(NewSdchDictionary(kSampleDomain));
633 std::string url_string = "http://" + kSampleDomain;
635 GURL url(url_string);
636 EXPECT_TRUE(AddSdchDictionary(dictionary, url));
638 std::string compressed(NewSdchCompressedData(dictionary));
640 std::vector<Filter::FilterType> filter_types;
641 filter_types.push_back(Filter::FILTER_TYPE_SDCH);
643 SetupFilterContextWithGURL(GURL("http://" + kSampleDomain));
644 scoped_ptr<Filter> filter(Filter::Factory(filter_types, *filter_context()));
646 const size_t feed_block_size(100);
647 const size_t output_block_size(100);
648 std::string output;
650 base::HistogramTester tester;
652 EXPECT_TRUE(FilterTestData(compressed, feed_block_size, output_block_size,
653 filter.get(), &output));
654 // The filter's destructor is responsible for uploading total ratio
655 // histograms.
656 filter.reset();
658 tester.ExpectTotalCount("Sdch3.Network_Decode_Ratio_a", 1);
659 tester.ExpectTotalCount("Sdch3.NetworkBytesSavedByCompression", 1);
662 TEST_F(SdchFilterTest, CrossDomainDictionaryUse) {
663 // Construct a valid SDCH dictionary from a VCDIFF dictionary.
664 const std::string kSampleDomain = "sdchtest.com";
665 std::string dictionary(NewSdchDictionary(kSampleDomain));
667 std::string url_string = "http://" + kSampleDomain;
669 GURL url(url_string);
670 EXPECT_TRUE(AddSdchDictionary(dictionary, url));
672 std::string compressed(NewSdchCompressedData(dictionary));
674 std::vector<Filter::FilterType> filter_types;
675 filter_types.push_back(Filter::FILTER_TYPE_SDCH);
677 // Decode with content arriving from the "wrong" domain.
678 // This tests SdchManager::CanSet().
679 GURL wrong_domain_url("http://www.wrongdomain.com");
680 SetupFilterContextWithGURL(wrong_domain_url);
681 scoped_ptr<Filter> filter(Filter::Factory(filter_types, *filter_context()));
683 size_t feed_block_size = 100;
684 size_t output_block_size = 100;
685 std::string output;
686 EXPECT_FALSE(FilterTestData(compressed, feed_block_size, output_block_size,
687 filter.get(), &output));
688 EXPECT_EQ(output.size(), 0u); // No output written.
690 EXPECT_EQ(SDCH_OK, sdch_manager_->IsInSupportedDomain(GURL(url_string)));
691 EXPECT_EQ(SDCH_DOMAIN_BLACKLIST_INCLUDES_TARGET,
692 sdch_manager_->IsInSupportedDomain(wrong_domain_url));
693 sdch_manager_->ClearBlacklistings();
694 EXPECT_EQ(SDCH_OK, sdch_manager_->IsInSupportedDomain(wrong_domain_url));
697 TEST_F(SdchFilterTest, DictionaryPathValidation) {
698 // Construct a valid SDCH dictionary from a VCDIFF dictionary.
699 const std::string kSampleDomain = "sdchtest.com";
700 std::string dictionary(NewSdchDictionary(kSampleDomain));
702 std::string url_string = "http://" + kSampleDomain;
704 GURL url(url_string);
705 EXPECT_TRUE(AddSdchDictionary(dictionary, url));
707 // Create a dictionary with a path restriction, by prefixing dictionary.
708 const std::string path("/special_path/bin");
709 std::string dictionary_with_path("Path: " + path + "\n");
710 dictionary_with_path.append(dictionary);
711 GURL url2(url_string + path);
712 EXPECT_TRUE(AddSdchDictionary(dictionary_with_path, url2));
714 std::string compressed_for_path(NewSdchCompressedData(dictionary_with_path));
716 std::vector<Filter::FilterType> filter_types;
717 filter_types.push_back(Filter::FILTER_TYPE_SDCH);
719 // Test decode the path data, arriving from a valid path.
720 SetupFilterContextWithGURL(GURL(url_string + path));
721 scoped_ptr<Filter> filter(Filter::Factory(filter_types, *filter_context()));
723 size_t feed_block_size = 100;
724 size_t output_block_size = 100;
725 std::string output;
727 EXPECT_TRUE(FilterTestData(compressed_for_path, feed_block_size,
728 output_block_size, filter.get(), &output));
729 EXPECT_EQ(output, expanded_);
731 // Test decode the path data, arriving from a invalid path.
732 SetupFilterContextWithGURL(GURL(url_string));
733 filter.reset(Filter::Factory(filter_types, *filter_context()));
735 feed_block_size = 100;
736 output_block_size = 100;
737 output.clear();
738 EXPECT_FALSE(FilterTestData(compressed_for_path, feed_block_size,
739 output_block_size, filter.get(), &output));
740 EXPECT_EQ(output.size(), 0u); // No output written.
742 EXPECT_EQ(SDCH_DOMAIN_BLACKLIST_INCLUDES_TARGET,
743 sdch_manager_->IsInSupportedDomain(GURL(url_string)));
744 sdch_manager_->ClearBlacklistings();
745 EXPECT_EQ(SDCH_OK, sdch_manager_->IsInSupportedDomain(GURL(url_string)));
748 TEST_F(SdchFilterTest, DictionaryPortValidation) {
749 // Construct a valid SDCH dictionary from a VCDIFF dictionary.
750 const std::string kSampleDomain = "sdchtest.com";
751 std::string dictionary(NewSdchDictionary(kSampleDomain));
753 std::string url_string = "http://" + kSampleDomain;
755 GURL url(url_string);
756 EXPECT_TRUE(AddSdchDictionary(dictionary, url));
758 // Create a dictionary with a port restriction, by prefixing old dictionary.
759 const std::string port("502");
760 std::string dictionary_with_port("Port: " + port + "\n");
761 dictionary_with_port.append("Port: 80\n"); // Add default port.
762 dictionary_with_port.append(dictionary);
763 EXPECT_TRUE(AddSdchDictionary(dictionary_with_port,
764 GURL(url_string + ":" + port)));
766 std::string compressed_for_port(NewSdchCompressedData(dictionary_with_port));
768 std::vector<Filter::FilterType> filter_types;
769 filter_types.push_back(Filter::FILTER_TYPE_SDCH);
771 // Test decode the port data, arriving from a valid port.
772 SetupFilterContextWithGURL(GURL(url_string + ":" + port));
773 scoped_ptr<Filter> filter(Filter::Factory(filter_types, *filter_context()));
775 size_t feed_block_size = 100;
776 size_t output_block_size = 100;
777 std::string output;
778 EXPECT_TRUE(FilterTestData(compressed_for_port, feed_block_size,
779 output_block_size, filter.get(), &output));
780 EXPECT_EQ(output, expanded_);
782 // Test decode the port data, arriving from a valid (default) port.
783 SetupFilterContextWithGURL(GURL(url_string)); // Default port.
784 filter.reset(Filter::Factory(filter_types, *filter_context()));
786 feed_block_size = 100;
787 output_block_size = 100;
788 output.clear();
789 EXPECT_TRUE(FilterTestData(compressed_for_port, feed_block_size,
790 output_block_size, filter.get(), &output));
791 EXPECT_EQ(output, expanded_);
793 // Test decode the port data, arriving from a invalid port.
794 SetupFilterContextWithGURL(GURL(url_string + ":" + port + "1"));
795 filter.reset(Filter::Factory(filter_types, *filter_context()));
797 feed_block_size = 100;
798 output_block_size = 100;
799 output.clear();
800 EXPECT_FALSE(FilterTestData(compressed_for_port, feed_block_size,
801 output_block_size, filter.get(), &output));
802 EXPECT_EQ(output.size(), 0u); // No output written.
804 EXPECT_EQ(SDCH_DOMAIN_BLACKLIST_INCLUDES_TARGET,
805 sdch_manager_->IsInSupportedDomain(GURL(url_string)));
806 sdch_manager_->ClearBlacklistings();
807 EXPECT_EQ(SDCH_OK, sdch_manager_->IsInSupportedDomain(GURL(url_string)));
810 // Helper function to perform gzip compression of data.
811 static std::string gzip_compress(const std::string &input) {
812 z_stream zlib_stream;
813 memset(&zlib_stream, 0, sizeof(zlib_stream));
814 int code;
816 // Initialize zlib
817 code = deflateInit2(&zlib_stream, Z_DEFAULT_COMPRESSION, Z_DEFLATED,
818 -MAX_WBITS,
819 8, // DEF_MEM_LEVEL
820 Z_DEFAULT_STRATEGY);
822 CHECK_EQ(Z_OK, code);
824 // Fill in zlib control block
825 zlib_stream.next_in = bit_cast<Bytef*>(input.data());
826 zlib_stream.avail_in = input.size();
828 // Assume we can compress into similar buffer (add 100 bytes to be sure).
829 size_t gzip_compressed_length = zlib_stream.avail_in + 100;
830 scoped_ptr<char[]> gzip_compressed(new char[gzip_compressed_length]);
831 zlib_stream.next_out = bit_cast<Bytef*>(gzip_compressed.get());
832 zlib_stream.avail_out = gzip_compressed_length;
834 // The GZIP header (see RFC 1952):
835 // +---+---+---+---+---+---+---+---+---+---+
836 // |ID1|ID2|CM |FLG| MTIME |XFL|OS |
837 // +---+---+---+---+---+---+---+---+---+---+
838 // ID1 \037
839 // ID2 \213
840 // CM \010 (compression method == DEFLATE)
841 // FLG \000 (special flags that we do not support)
842 // MTIME Unix format modification time (0 means not available)
843 // XFL 2-4? DEFLATE flags
844 // OS ???? Operating system indicator (255 means unknown)
846 // Header value we generate:
847 const char kGZipHeader[] = { '\037', '\213', '\010', '\000', '\000',
848 '\000', '\000', '\000', '\002', '\377' };
849 CHECK_GT(zlib_stream.avail_out, sizeof(kGZipHeader));
850 memcpy(zlib_stream.next_out, kGZipHeader, sizeof(kGZipHeader));
851 zlib_stream.next_out += sizeof(kGZipHeader);
852 zlib_stream.avail_out -= sizeof(kGZipHeader);
854 // Do deflate
855 code = deflate(&zlib_stream, Z_FINISH);
856 gzip_compressed_length -= zlib_stream.avail_out;
857 std::string compressed(gzip_compressed.get(), gzip_compressed_length);
858 deflateEnd(&zlib_stream);
859 return compressed;
862 //------------------------------------------------------------------------------
864 class SdchFilterChainingTest {
865 public:
866 static Filter* Factory(const std::vector<Filter::FilterType>& types,
867 const FilterContext& context, int size) {
868 return Filter::FactoryForTests(types, context, size);
872 // Test that filters can be cascaded (chained) so that the output of one filter
873 // is processed by the next one. This is most critical for SDCH, which is
874 // routinely followed by gzip (during encoding). The filter we'll test for will
875 // do the gzip decoding first, and then decode the SDCH content.
876 TEST_F(SdchFilterTest, FilterChaining) {
877 // Construct a valid SDCH dictionary from a VCDIFF dictionary.
878 const std::string kSampleDomain = "sdchtest.com";
879 std::string dictionary(NewSdchDictionary(kSampleDomain));
881 std::string url_string = "http://" + kSampleDomain;
883 GURL url(url_string);
884 EXPECT_TRUE(AddSdchDictionary(dictionary, url));
886 std::string sdch_compressed(NewSdchCompressedData(dictionary));
888 // Use Gzip to compress the sdch sdch_compressed data.
889 std::string gzip_compressed_sdch = gzip_compress(sdch_compressed);
891 // Construct a chained filter.
892 std::vector<Filter::FilterType> filter_types;
893 filter_types.push_back(Filter::FILTER_TYPE_SDCH);
894 filter_types.push_back(Filter::FILTER_TYPE_GZIP);
896 // First try with a large buffer (larger than test input, or compressed data).
897 const size_t kLargeInputBufferSize(1000); // Used internally in filters.
898 CHECK_GT(kLargeInputBufferSize, gzip_compressed_sdch.size());
899 CHECK_GT(kLargeInputBufferSize, sdch_compressed.size());
900 CHECK_GT(kLargeInputBufferSize, expanded_.size());
901 SetupFilterContextWithGURL(url);
902 scoped_ptr<Filter> filter(
903 SdchFilterChainingTest::Factory(filter_types, *filter_context(),
904 kLargeInputBufferSize));
905 EXPECT_EQ(static_cast<int>(kLargeInputBufferSize),
906 filter->stream_buffer_size());
908 // Verify that chained filter is waiting for data.
909 char tiny_output_buffer[10];
910 int tiny_output_size = sizeof(tiny_output_buffer);
911 EXPECT_EQ(Filter::FILTER_NEED_MORE_DATA,
912 filter->ReadData(tiny_output_buffer, &tiny_output_size));
914 // Make chain process all data.
915 size_t feed_block_size = kLargeInputBufferSize;
916 size_t output_block_size = kLargeInputBufferSize;
917 std::string output;
918 EXPECT_TRUE(FilterTestData(gzip_compressed_sdch, feed_block_size,
919 output_block_size, filter.get(), &output));
920 EXPECT_EQ(output, expanded_);
922 // Next try with a mid-sized internal buffer size.
923 const size_t kMidSizedInputBufferSize(100);
924 // Buffer should be big enough to swallow whole gzip content.
925 CHECK_GT(kMidSizedInputBufferSize, gzip_compressed_sdch.size());
926 // Buffer should be small enough that entire SDCH content can't fit.
927 // We'll go even further, and force the chain to flush the buffer between the
928 // two filters more than once (that is why we multiply by 2).
929 CHECK_LT(kMidSizedInputBufferSize * 2, sdch_compressed.size());
930 filter_context()->SetURL(url);
931 filter.reset(
932 SdchFilterChainingTest::Factory(filter_types, *filter_context(),
933 kMidSizedInputBufferSize));
934 EXPECT_EQ(static_cast<int>(kMidSizedInputBufferSize),
935 filter->stream_buffer_size());
937 feed_block_size = kMidSizedInputBufferSize;
938 output_block_size = kMidSizedInputBufferSize;
939 output.clear();
940 EXPECT_TRUE(FilterTestData(gzip_compressed_sdch, feed_block_size,
941 output_block_size, filter.get(), &output));
942 EXPECT_EQ(output, expanded_);
944 // Next try with a tiny input and output buffer to cover edge effects.
945 filter.reset(SdchFilterChainingTest::Factory(filter_types, *filter_context(),
946 kLargeInputBufferSize));
947 EXPECT_EQ(static_cast<int>(kLargeInputBufferSize),
948 filter->stream_buffer_size());
950 feed_block_size = 1;
951 output_block_size = 1;
952 output.clear();
953 EXPECT_TRUE(FilterTestData(gzip_compressed_sdch, feed_block_size,
954 output_block_size, filter.get(), &output));
955 EXPECT_EQ(output, expanded_);
958 TEST_F(SdchFilterTest, DefaultGzipIfSdch) {
959 // Construct a valid SDCH dictionary from a VCDIFF dictionary.
960 const std::string kSampleDomain = "sdchtest.com";
961 std::string dictionary(NewSdchDictionary(kSampleDomain));
963 std::string url_string = "http://" + kSampleDomain;
965 GURL url(url_string);
966 EXPECT_TRUE(AddSdchDictionary(dictionary, url));
968 std::string sdch_compressed(NewSdchCompressedData(dictionary));
970 // Use Gzip to compress the sdch sdch_compressed data.
971 std::string gzip_compressed_sdch = gzip_compress(sdch_compressed);
973 // Only claim to have sdch content, but really use the gzipped sdch content.
974 // System should automatically add the missing (optional) gzip.
975 std::vector<Filter::FilterType> filter_types;
976 filter_types.push_back(Filter::FILTER_TYPE_SDCH);
978 filter_context()->SetMimeType("anything/mime");
979 SetupFilterContextWithGURL(url);
981 Filter::FixupEncodingTypes(*filter_context(), &filter_types);
982 ASSERT_EQ(filter_types.size(), 2u);
983 EXPECT_EQ(filter_types[0], Filter::FILTER_TYPE_SDCH);
984 EXPECT_EQ(filter_types[1], Filter::FILTER_TYPE_GZIP_HELPING_SDCH);
986 // First try with a large buffer (larger than test input, or compressed data).
987 scoped_ptr<Filter> filter(Filter::Factory(filter_types, *filter_context()));
989 // Verify that chained filter is waiting for data.
990 char tiny_output_buffer[10];
991 int tiny_output_size = sizeof(tiny_output_buffer);
992 EXPECT_EQ(Filter::FILTER_NEED_MORE_DATA,
993 filter->ReadData(tiny_output_buffer, &tiny_output_size));
995 size_t feed_block_size = 100;
996 size_t output_block_size = 100;
997 std::string output;
998 EXPECT_TRUE(FilterTestData(gzip_compressed_sdch, feed_block_size,
999 output_block_size, filter.get(), &output));
1000 EXPECT_EQ(output, expanded_);
1002 // Next try with a tiny buffer to cover edge effects.
1003 filter.reset(Filter::Factory(filter_types, *filter_context()));
1005 feed_block_size = 1;
1006 output_block_size = 1;
1007 output.clear();
1008 EXPECT_TRUE(FilterTestData(gzip_compressed_sdch, feed_block_size,
1009 output_block_size, filter.get(), &output));
1010 EXPECT_EQ(output, expanded_);
1013 TEST_F(SdchFilterTest, AcceptGzipSdchIfGzip) {
1014 // Construct a valid SDCH dictionary from a VCDIFF dictionary.
1015 const std::string kSampleDomain = "sdchtest.com";
1016 std::string dictionary(NewSdchDictionary(kSampleDomain));
1018 std::string url_string = "http://" + kSampleDomain;
1020 GURL url(url_string);
1021 EXPECT_TRUE(AddSdchDictionary(dictionary, url));
1023 std::string sdch_compressed(NewSdchCompressedData(dictionary));
1025 // Use Gzip to compress the sdch sdch_compressed data.
1026 std::string gzip_compressed_sdch = gzip_compress(sdch_compressed);
1028 // Some proxies strip the content encoding statement down to a mere gzip, but
1029 // pass through the original content (with full sdch,gzip encoding).
1030 // Only claim to have gzip content, but really use the gzipped sdch content.
1031 // System should automatically add the missing (optional) sdch.
1032 std::vector<Filter::FilterType> filter_types;
1033 filter_types.push_back(Filter::FILTER_TYPE_GZIP);
1035 filter_context()->SetMimeType("anything/mime");
1036 SetupFilterContextWithGURL(url);
1037 Filter::FixupEncodingTypes(*filter_context(), &filter_types);
1038 ASSERT_EQ(filter_types.size(), 3u);
1039 EXPECT_EQ(filter_types[0], Filter::FILTER_TYPE_SDCH_POSSIBLE);
1040 EXPECT_EQ(filter_types[1], Filter::FILTER_TYPE_GZIP_HELPING_SDCH);
1041 EXPECT_EQ(filter_types[2], Filter::FILTER_TYPE_GZIP);
1043 // First try with a large buffer (larger than test input, or compressed data).
1044 scoped_ptr<Filter> filter(Filter::Factory(filter_types, *filter_context()));
1046 // Verify that chained filter is waiting for data.
1047 char tiny_output_buffer[10];
1048 int tiny_output_size = sizeof(tiny_output_buffer);
1049 EXPECT_EQ(Filter::FILTER_NEED_MORE_DATA,
1050 filter->ReadData(tiny_output_buffer, &tiny_output_size));
1052 size_t feed_block_size = 100;
1053 size_t output_block_size = 100;
1054 std::string output;
1055 EXPECT_TRUE(FilterTestData(gzip_compressed_sdch, feed_block_size,
1056 output_block_size, filter.get(), &output));
1057 EXPECT_EQ(output, expanded_);
1059 // Next try with a tiny buffer to cover edge effects.
1060 filter.reset(Filter::Factory(filter_types, *filter_context()));
1062 feed_block_size = 1;
1063 output_block_size = 1;
1064 output.clear();
1065 EXPECT_TRUE(FilterTestData(gzip_compressed_sdch, feed_block_size,
1066 output_block_size, filter.get(), &output));
1067 EXPECT_EQ(output, expanded_);
1070 TEST_F(SdchFilterTest, DefaultSdchGzipIfEmpty) {
1071 // Construct a valid SDCH dictionary from a VCDIFF dictionary.
1072 const std::string kSampleDomain = "sdchtest.com";
1073 std::string dictionary(NewSdchDictionary(kSampleDomain));
1075 std::string url_string = "http://" + kSampleDomain;
1077 GURL url(url_string);
1078 EXPECT_TRUE(AddSdchDictionary(dictionary, url));
1080 std::string sdch_compressed(NewSdchCompressedData(dictionary));
1082 // Use Gzip to compress the sdch sdch_compressed data.
1083 std::string gzip_compressed_sdch = gzip_compress(sdch_compressed);
1085 // Only claim to have non-encoded content, but really use the gzipped sdch
1086 // content.
1087 // System should automatically add the missing (optional) sdch,gzip.
1088 std::vector<Filter::FilterType> filter_types;
1090 filter_context()->SetMimeType("anything/mime");
1091 SetupFilterContextWithGURL(url);
1092 Filter::FixupEncodingTypes(*filter_context(), &filter_types);
1093 ASSERT_EQ(filter_types.size(), 2u);
1094 EXPECT_EQ(filter_types[0], Filter::FILTER_TYPE_SDCH_POSSIBLE);
1095 EXPECT_EQ(filter_types[1], Filter::FILTER_TYPE_GZIP_HELPING_SDCH);
1097 // First try with a large buffer (larger than test input, or compressed data).
1098 scoped_ptr<Filter> filter(Filter::Factory(filter_types, *filter_context()));
1100 // Verify that chained filter is waiting for data.
1101 char tiny_output_buffer[10];
1102 int tiny_output_size = sizeof(tiny_output_buffer);
1103 EXPECT_EQ(Filter::FILTER_NEED_MORE_DATA,
1104 filter->ReadData(tiny_output_buffer, &tiny_output_size));
1106 size_t feed_block_size = 100;
1107 size_t output_block_size = 100;
1108 std::string output;
1109 EXPECT_TRUE(FilterTestData(gzip_compressed_sdch, feed_block_size,
1110 output_block_size, filter.get(), &output));
1111 EXPECT_EQ(output, expanded_);
1113 // Next try with a tiny buffer to cover edge effects.
1114 filter.reset(Filter::Factory(filter_types, *filter_context()));
1116 feed_block_size = 1;
1117 output_block_size = 1;
1118 output.clear();
1119 EXPECT_TRUE(FilterTestData(gzip_compressed_sdch, feed_block_size,
1120 output_block_size, filter.get(), &output));
1121 EXPECT_EQ(output, expanded_);
1124 TEST_F(SdchFilterTest, AcceptGzipGzipSdchIfGzip) {
1125 // Construct a valid SDCH dictionary from a VCDIFF dictionary.
1126 const std::string kSampleDomain = "sdchtest.com";
1127 std::string dictionary(NewSdchDictionary(kSampleDomain));
1129 std::string url_string = "http://" + kSampleDomain;
1131 GURL url(url_string);
1132 EXPECT_TRUE(AddSdchDictionary(dictionary, url));
1134 std::string sdch_compressed(NewSdchCompressedData(dictionary));
1136 // Vodaphone (UK) Mobile Broadband provides double gzipped sdch with a content
1137 // encoding of merely gzip (apparently, only listing the extra level of
1138 // wrapper compression they added, but discarding the actual content encoding.
1139 // Use Gzip to double compress the sdch sdch_compressed data.
1140 std::string double_gzip_compressed_sdch = gzip_compress(gzip_compress(
1141 sdch_compressed));
1143 // Only claim to have gzip content, but really use the double gzipped sdch
1144 // content.
1145 // System should automatically add the missing (optional) sdch, gzip decoders.
1146 std::vector<Filter::FilterType> filter_types;
1147 filter_types.push_back(Filter::FILTER_TYPE_GZIP);
1149 filter_context()->SetMimeType("anything/mime");
1150 SetupFilterContextWithGURL(url);
1151 Filter::FixupEncodingTypes(*filter_context(), &filter_types);
1152 ASSERT_EQ(filter_types.size(), 3u);
1153 EXPECT_EQ(filter_types[0], Filter::FILTER_TYPE_SDCH_POSSIBLE);
1154 EXPECT_EQ(filter_types[1], Filter::FILTER_TYPE_GZIP_HELPING_SDCH);
1155 EXPECT_EQ(filter_types[2], Filter::FILTER_TYPE_GZIP);
1157 // First try with a large buffer (larger than test input, or compressed data).
1158 scoped_ptr<Filter> filter(Filter::Factory(filter_types, *filter_context()));
1160 // Verify that chained filter is waiting for data.
1161 char tiny_output_buffer[10];
1162 int tiny_output_size = sizeof(tiny_output_buffer);
1163 EXPECT_EQ(Filter::FILTER_NEED_MORE_DATA,
1164 filter->ReadData(tiny_output_buffer, &tiny_output_size));
1166 size_t feed_block_size = 100;
1167 size_t output_block_size = 100;
1168 std::string output;
1169 EXPECT_TRUE(FilterTestData(double_gzip_compressed_sdch, feed_block_size,
1170 output_block_size, filter.get(), &output));
1171 EXPECT_EQ(output, expanded_);
1173 // Next try with a tiny buffer to cover edge effects.
1174 filter.reset(Filter::Factory(filter_types, *filter_context()));
1176 feed_block_size = 1;
1177 output_block_size = 1;
1178 output.clear();
1179 EXPECT_TRUE(FilterTestData(double_gzip_compressed_sdch, feed_block_size,
1180 output_block_size, filter.get(), &output));
1181 EXPECT_EQ(output, expanded_);
1184 // Test to make sure we decode properly with an unexpected dictionary.
1185 TEST_F(SdchFilterTest, UnexpectedDictionary) {
1186 // Setup a dictionary, add it to the filter context, and create a filter
1187 // based on that dictionary.
1188 const std::string kSampleDomain = "sdchtest.com";
1189 std::string dictionary(NewSdchDictionary(kSampleDomain));
1190 std::string url_string = "http://" + kSampleDomain;
1191 GURL url(url_string);
1192 EXPECT_TRUE(AddSdchDictionary(dictionary, url));
1194 SetupFilterContextWithGURL(url);
1196 std::vector<Filter::FilterType> filter_types;
1197 filter_types.push_back(Filter::FILTER_TYPE_SDCH);
1198 scoped_ptr<Filter> filter(Filter::Factory(filter_types, *filter_context()));
1200 // Setup another dictionary, expired. Don't add it to the filter context.
1201 // Delete stored dictionaries first to handle platforms which only
1202 // have room for a single dictionary.
1203 sdch_manager_->ClearData();
1204 std::string expired_dictionary(NewSdchExpiredDictionary(kSampleDomain));
1206 // Don't use the Helper function since its insertion check is indeterminate
1207 // for a Max-Age: 0 dictionary.
1208 sdch_manager_->AddSdchDictionary(expired_dictionary, url, nullptr);
1210 std::string client_hash;
1211 std::string server_hash;
1212 SdchManager::GenerateHash(expired_dictionary, &client_hash, &server_hash);
1214 SdchProblemCode problem_code;
1215 scoped_ptr<SdchManager::DictionarySet> hash_set(
1216 sdch_manager_->GetDictionarySetByHash(
1217 url, server_hash, &problem_code).Pass());
1218 ASSERT_TRUE(hash_set);
1219 ASSERT_EQ(SDCH_OK, problem_code);
1221 // Encode output with the second dictionary.
1222 std::string sdch_compressed(NewSdchCompressedData(expired_dictionary));
1224 // See if the filter decodes it.
1225 std::string output;
1226 EXPECT_TRUE(FilterTestData(sdch_compressed, 100, 100, filter.get(), &output));
1227 EXPECT_EQ(expanded_, output);
1230 class SimpleSdchObserver : public SdchObserver {
1231 public:
1232 explicit SimpleSdchObserver(SdchManager* manager)
1233 : dictionary_used_(0), manager_(manager) {
1234 manager_->AddObserver(this);
1236 ~SimpleSdchObserver() override { manager_->RemoveObserver(this); }
1238 // SdchObserver
1239 void OnDictionaryUsed(const std::string& server_hash) override {
1240 dictionary_used_++;
1241 last_server_hash_ = server_hash;
1244 int dictionary_used_calls() const { return dictionary_used_; }
1245 std::string last_server_hash() const { return last_server_hash_; }
1247 void OnDictionaryAdded(const GURL& /* dictionary_url */,
1248 const std::string& /* server_hash */) override {}
1249 void OnDictionaryRemoved(const std::string& /* server_hash */) override {}
1250 void OnGetDictionary(const GURL& /* request_url */,
1251 const GURL& /* dictionary_url */) override {}
1252 void OnClearDictionaries() override {}
1254 private:
1255 int dictionary_used_;
1256 std::string last_server_hash_;
1257 SdchManager* manager_;
1259 DISALLOW_COPY_AND_ASSIGN(SimpleSdchObserver);
1262 TEST_F(SdchFilterTest, DictionaryUsedSignaled) {
1263 // Construct a valid SDCH dictionary from a VCDIFF dictionary.
1264 const std::string kSampleDomain = "sdchtest.com";
1265 std::string dictionary(NewSdchDictionary(kSampleDomain));
1266 SimpleSdchObserver observer(sdch_manager_.get());
1268 std::string url_string = "http://" + kSampleDomain;
1270 GURL url(url_string);
1271 EXPECT_TRUE(AddSdchDictionary(dictionary, url));
1273 std::string client_hash;
1274 std::string server_hash;
1275 SdchManager::GenerateHash(dictionary, &client_hash, &server_hash);
1277 std::string compressed(NewSdchCompressedData(dictionary));
1279 std::vector<Filter::FilterType> filter_types;
1280 filter_types.push_back(Filter::FILTER_TYPE_SDCH);
1282 SetupFilterContextWithGURL(url);
1284 scoped_ptr<Filter> filter(Filter::Factory(filter_types, *filter_context()));
1286 size_t feed_block_size = 100;
1287 size_t output_block_size = 100;
1288 std::string output;
1289 EXPECT_TRUE(FilterTestData(compressed, feed_block_size, output_block_size,
1290 filter.get(), &output));
1291 EXPECT_EQ(output, expanded_);
1293 filter.reset(nullptr);
1295 // Confirm that we got a "DictionaryUsed" signal from the SdchManager
1296 // for our dictionary.
1297 EXPECT_EQ(1, observer.dictionary_used_calls());
1298 EXPECT_EQ(server_hash, observer.last_server_hash());
1301 } // namespace net