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Issue 1431723002: Add brotli content-encoding filter. (Closed) Base URL: https://chromium.googlesource.com/chromium/src.git@master
Patch Set: Rebaseline Created 4 years, 12 months ago
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« net/filter/brotli_filter.cc ('K') | « net/filter/brotli_filter_disabled.cc ('k') | net/filter/filter.h » ('j') | net/filter/filter.cc » ('J')
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1 // Copyright 2015 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.
4
5 #include "base/files/file_util.h"
6 #include "base/memory/scoped_ptr.h"
7 #include "base/path_service.h"
8 #include "net/base/io_buffer.h"
9 #include "net/filter/brotli_filter.h"
10 #include "net/filter/mock_filter_context.h"
11 #include "testing/gtest/include/gtest/gtest.h"
12 #include "testing/platform_test.h"
13
14 namespace {
15 const int kDefaultBufferSize = 4096;
16 const int kSmallBufferSize = 128;
17 } // namespace
18
19 namespace net {
20
21 // These tests use the path service, which uses autoreleased objects on the
22 // Mac, so this needs to be a PlatformTest.
23 class BrotliUnitTest : public PlatformTest {
24 protected:
25 void SetUp() override {
26 PlatformTest::SetUp();
27
28 // Get the path of data directory.
29 base::FilePath data_dir;
30 PathService::Get(base::DIR_SOURCE_ROOT, &data_dir);
31 data_dir = data_dir.AppendASCII("net");
32 data_dir = data_dir.AppendASCII("data");
33 data_dir = data_dir.AppendASCII("filter_unittests");
34
35 // Read data from the original file into buffer.
36 base::FilePath file_path;
37 file_path = data_dir.AppendASCII("google.txt");
38 ASSERT_TRUE(base::ReadFileToString(file_path, &source_buffer_));
39
40 // Read data from the encoded file into buffer.
41 base::FilePath encoded_file_path;
42 encoded_file_path = data_dir.AppendASCII("google.br");
43 ASSERT_TRUE(base::ReadFileToString(encoded_file_path, &encoded_buffer_));
44 ASSERT_GE(kDefaultBufferSize, static_cast<int>(encoded_buffer_.size()));
45 }
46
47 // Use filter to decode compressed data, and compare the decoded result with
48 // the orginal data.
49 // Parameters: |source| and |source_len| are original data and its size.
50 // |encoded_source| and |encoded_source_len| are compressed data and its size.
51 // |output_buffer_size| specifies the size of buffer to read out data from
52 // filter.
53 void DecodeAndCompareWithFilter(Filter* filter,
54 const char* source,
55 int source_len,
56 const char* encoded_source,
57 int encoded_source_len,
58 int output_buffer_size) {
59 // Make sure we have enough space to hold the decoding output.
60 ASSERT_GE(kDefaultBufferSize, source_len);
61 ASSERT_GE(kDefaultBufferSize, output_buffer_size);
62
63 char decode_buffer[kDefaultBufferSize];
64 char* decode_next = decode_buffer;
65 int decode_avail_size = kDefaultBufferSize;
66
67 const char* encode_next = encoded_source;
68 int encode_avail_size = encoded_source_len;
69
70 int code = Filter::FILTER_OK;
71 while (code != Filter::FILTER_DONE) {
72 int encode_data_len =
73 std::min(encode_avail_size, filter->stream_buffer_size());
74 memcpy(filter->stream_buffer()->data(), encode_next, encode_data_len);
75 filter->FlushStreamBuffer(encode_data_len);
76 encode_next += encode_data_len;
77 encode_avail_size -= encode_data_len;
78
79 while (true) {
80 int decode_data_len = std::min(decode_avail_size, output_buffer_size);
81
82 code = filter->ReadData(decode_next, &decode_data_len);
83 decode_next += decode_data_len;
84 decode_avail_size -= decode_data_len;
85
86 ASSERT_NE(Filter::FILTER_ERROR, code);
87
88 if (code == Filter::FILTER_NEED_MORE_DATA ||
89 code == Filter::FILTER_DONE) {
90 break;
91 }
92 }
93 }
94
95 // Compare the decoding result with source data
96 int decode_total_data_len = kDefaultBufferSize - decode_avail_size;
97 EXPECT_EQ(source_len, decode_total_data_len);
98 EXPECT_EQ(memcmp(source, decode_buffer, source_len), 0);
99 }
100
101 // Unsafe function to use filter to decode compressed data.
102 // Parameters: |source| and |source_len| are compressed data and its size.
103 // |dest| is the buffer for decoding results. Upon entry, |*dest_len| is the
104 // size of the output buffer. Upon exit, |*dest_len| is the number of chars
105 // written into the buffer.
106 int DecodeAllWithFilter(Filter* filter,
107 const char* source,
108 int source_len,
109 char* dest,
110 int* dest_len) {
111 memcpy(filter->stream_buffer()->data(), source, source_len);
112 filter->FlushStreamBuffer(source_len);
113 return filter->ReadData(dest, dest_len);
114 }
115
116 void InitFilter() {
117 std::vector<Filter::FilterType> filter_types;
118 filter_types.push_back(Filter::FILTER_TYPE_BROTLI);
119 filter_.reset(Filter::Factory(filter_types, filter_context_));
120 ASSERT_TRUE(filter_.get());
121 ASSERT_LE(kDefaultBufferSize, filter_->stream_buffer_size());
122 }
123
124 void InitFilterWithBufferSize(int buffer_size) {
125 std::vector<Filter::FilterType> filter_types;
126 filter_types.push_back(Filter::FILTER_TYPE_BROTLI);
127 filter_.reset(
128 Filter::FactoryForTests(filter_types, filter_context_, buffer_size));
129 ASSERT_TRUE(filter_.get());
130 }
131
132 const char* source_buffer() const { return source_buffer_.data(); }
133 int source_len() const { return static_cast<int>(source_buffer_.size()); }
134
135 const char* encoded_buffer() const { return encoded_buffer_.data(); }
136 int encoded_len() const { return static_cast<int>(encoded_buffer_.size()); }
137
138 scoped_ptr<Filter> filter_;
139
140 private:
141 MockFilterContext filter_context_;
142 std::string source_buffer_;
143 std::string encoded_buffer_;
144 };
145
146 // Basic scenario: decoding brotli data with big enough buffer.
147 TEST_F(BrotliUnitTest, DecodeBrotli) {
148 InitFilter();
149 memcpy(filter_->stream_buffer()->data(), encoded_buffer(), encoded_len());
150 filter_->FlushStreamBuffer(encoded_len());
151
152 ASSERT_GE(kDefaultBufferSize, source_len());
153 char decode_buffer[kDefaultBufferSize];
154 int decode_size = kDefaultBufferSize;
155 filter_->ReadData(decode_buffer, &decode_size);
156
157 // Compare the decoding result with source data
158 EXPECT_EQ(source_len(), decode_size);
159 EXPECT_EQ(memcmp(source_buffer(), decode_buffer, source_len()), 0);
160 }
161
162 // Tests we can call filter repeatedly to get all the data decoded.
163 // To do that, we create a filter with a small buffer that can not hold all
164 // the input data.
165 TEST_F(BrotliUnitTest, DecodeWithSmallBuffer) {
166 InitFilterWithBufferSize(kSmallBufferSize);
167 EXPECT_EQ(kSmallBufferSize, filter_->stream_buffer_size());
168 DecodeAndCompareWithFilter(filter_.get(), source_buffer(), source_len(),
169 encoded_buffer(), encoded_len(),
170 kDefaultBufferSize);
171 }
172
173 // Tests we can still decode with just 1 byte buffer in the filter.
174 // The purpose of this test: sometimes the filter will consume input without
175 // generating output. Verify filter can handle it correctly.
176 TEST_F(BrotliUnitTest, DecodeWithOneByteBuffer) {
177 InitFilterWithBufferSize(1);
178 EXPECT_EQ(1, filter_->stream_buffer_size());
179 DecodeAndCompareWithFilter(filter_.get(), source_buffer(), source_len(),
180 encoded_buffer(), encoded_len(),
181 kDefaultBufferSize);
182 }
183
184 // Tests we can decode when caller has small buffer to read out from filter.
185 TEST_F(BrotliUnitTest, DecodeWithSmallOutputBuffer) {
186 InitFilter();
187 DecodeAndCompareWithFilter(filter_.get(), source_buffer(), source_len(),
188 encoded_buffer(), encoded_len(), kSmallBufferSize);
189 }
190
191 // Tests we can decode when caller has small buffer and input is also broken
192 // into small parts. This may uncover some corner cases that doesn't happen with
193 // one-byte buffers.
194 TEST_F(BrotliUnitTest, DecodeWithSmallInputAndOutputBuffer) {
195 InitFilterWithBufferSize(kSmallBufferSize);
196 DecodeAndCompareWithFilter(filter_.get(), source_buffer(), source_len(),
197 encoded_buffer(), encoded_len(), kSmallBufferSize);
198 }
199
200 // Tests we can still decode with just 1 byte buffer in the filter and just 1
201 // byte buffer in the caller.
202 TEST_F(BrotliUnitTest, DecodeWithOneByteInputAndOutputBuffer) {
203 InitFilterWithBufferSize(1);
204 EXPECT_EQ(1, filter_->stream_buffer_size());
205 DecodeAndCompareWithFilter(filter_.get(), source_buffer(), source_len(),
206 encoded_buffer(), encoded_len(), 1);
207 }
208
209 // Decoding deflate stream with corrupted data.
210 TEST_F(BrotliUnitTest, DecodeCorruptedData) {
211 char corrupt_data[kDefaultBufferSize];
212 int corrupt_data_len = encoded_len();
213 memcpy(corrupt_data, encoded_buffer(), encoded_len());
214
215 int pos = corrupt_data_len / 2;
216 corrupt_data[pos] = !corrupt_data[pos];
217
218 // Decode the corrupted data with filter
219 InitFilter();
220 char corrupt_decode_buffer[kDefaultBufferSize];
221 int corrupt_decode_size = kDefaultBufferSize;
222
223 int code = DecodeAllWithFilter(filter_.get(), corrupt_data, corrupt_data_len,
224 corrupt_decode_buffer, &corrupt_decode_size);
225
226 // Expect failures
227 EXPECT_EQ(Filter::FILTER_ERROR, code);
228 }
229
230 // Decoding deflate stream with missing data.
231 TEST_F(BrotliUnitTest, DecodeMissingData) {
232 char corrupt_data[kDefaultBufferSize];
233 int corrupt_data_len = encoded_len();
234 memcpy(corrupt_data, encoded_buffer(), encoded_len());
235
236 int pos = corrupt_data_len / 2;
237 int len = corrupt_data_len - pos - 1;
238 memmove(&corrupt_data[pos], &corrupt_data[pos + 1], len);
239 --corrupt_data_len;
240
241 // Decode the corrupted data with filter
242 InitFilter();
243 char corrupt_decode_buffer[kDefaultBufferSize];
244 int corrupt_decode_size = kDefaultBufferSize;
245
246 int code = DecodeAllWithFilter(filter_.get(), corrupt_data, corrupt_data_len,
247 corrupt_decode_buffer, &corrupt_decode_size);
248
249 // Expect failures
250 EXPECT_EQ(Filter::FILTER_ERROR, code);
251 }
252
253 } // namespace net
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