Turn the DLOG(FATAL) for incorrect referrer policies in a LOG(FATAL)
[chromium-blink-merge.git] / remoting / base / compound_buffer_unittest.cc
blobe5f4bef381463a6aa972a12134e01bcc94ad961d
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>
7 #include "base/bind.h"
8 #include "base/callback.h"
9 #include "base/memory/scoped_ptr.h"
10 #include "net/base/io_buffer.h"
11 #include "remoting/base/compound_buffer.h"
12 #include "testing/gtest/include/gtest/gtest.h"
14 using net::IOBuffer;
16 namespace remoting {
18 namespace {
19 const int kDataSize = 1024;
21 // Chunk sizes used to append and prepend data to the buffer.
22 const int kChunkSizes0[] = {kDataSize, -1};
23 const int kChunkSizes1[] = {1, 10, 20, -1};
25 // Chunk sizes used to test CopyFrom().
26 const int kCopySizes0[] = {10, 3, -1};
27 const int kCopySizes1[] = {20, -1};
29 const int kCropSizes[] = {1, -1};
31 } // namespace
33 class CompoundBufferTest : public testing::Test {
34 public:
36 // Following 5 methods are used with IterateOverPieces().
37 void Append(int pos, int size) {
38 target_.Append(data_.get(), data_->data() + pos, size);
41 void AppendCopyOf(int pos, int size) {
42 target_.AppendCopyOf(data_->data() + pos, size);
45 void Prepend(int pos, int size) {
46 target_.Prepend(data_.get(), data_->data() + kDataSize - pos - size, size);
49 void PrependCopyOf(int pos, int size) {
50 target_.PrependCopyOf(data_->data() + (kDataSize - pos - size), size);
53 void TestCopyFrom(int pos, int size) {
54 CompoundBuffer copy;
55 copy.CopyFrom(target_, pos, pos + size);
56 EXPECT_TRUE(CompareData(copy, data_->data() + pos, size));
59 void TestCropFront(int pos, int size) {
60 CompoundBuffer cropped;
61 cropped.CopyFrom(target_, 0, target_.total_bytes());
62 cropped.CropFront(pos);
63 EXPECT_TRUE(CompareData(cropped, data_->data() + pos,
64 target_.total_bytes() - pos));
67 void TestCropBack(int pos, int size) {
68 CompoundBuffer cropped;
69 cropped.CopyFrom(target_, 0, target_.total_bytes());
70 cropped.CropBack(pos);
71 EXPECT_TRUE(CompareData(cropped, data_->data(),
72 target_.total_bytes() - pos));
75 protected:
76 void SetUp() override {
77 data_ = new IOBuffer(kDataSize);
78 for (int i = 0; i < kDataSize; ++i) {
79 data_->data()[i] = i;
83 // Iterate over chunks of data with sizes specified in |sizes| in the
84 // interval [0..kDataSize]. |function| is called for each chunk.
85 void IterateOverPieces(const int sizes[],
86 const base::Callback<void(int, int)>& function) {
87 DCHECK_GT(sizes[0], 0);
89 int pos = 0;
90 int index = 0;
91 while (pos < kDataSize) {
92 int size = std::min(sizes[index], kDataSize - pos);
93 ++index;
94 if (sizes[index] <= 0)
95 index = 0;
97 function.Run(pos, size);
99 pos += size;
103 bool CompareData(const CompoundBuffer& buffer, char* data, int size) {
104 scoped_refptr<IOBuffer> buffer_data = buffer.ToIOBufferWithSize();
105 return buffer.total_bytes() == size &&
106 memcmp(buffer_data->data(), data, size) == 0;
109 static size_t ReadFromInput(CompoundBufferInputStream* input,
110 void* data, size_t size) {
111 uint8* out = reinterpret_cast<uint8*>(data);
112 int out_size = size;
114 const void* in;
115 int in_size = 0;
117 while (true) {
118 if (!input->Next(&in, &in_size)) {
119 return size - out_size;
121 EXPECT_GT(in_size, -1);
123 if (out_size <= in_size) {
124 memcpy(out, in, out_size);
125 if (in_size > out_size) {
126 input->BackUp(in_size - out_size);
128 return size; // Copied all of it.
131 memcpy(out, in, in_size);
132 out += in_size;
133 out_size -= in_size;
137 static void ReadString(CompoundBufferInputStream* input,
138 const std::string& str) {
139 SCOPED_TRACE(str);
140 scoped_ptr<char[]> buffer(new char[str.size() + 1]);
141 buffer[str.size()] = '\0';
142 EXPECT_EQ(ReadFromInput(input, buffer.get(), str.size()), str.size());
143 EXPECT_STREQ(str.data(), buffer.get());
146 // Construct and prepare data in the |buffer|.
147 static void PrepareData(scoped_ptr<CompoundBuffer>* buffer) {
148 static const std::string kTestData =
149 "Hello world!"
150 "This is testing"
151 "MultipleArrayInputStream"
152 "for Chromoting";
154 // Determine how many segments to split kTestData. We split the data in
155 // 1 character, 2 characters, 1 character, 2 characters ...
156 int segments = (kTestData.length() / 3) * 2;
157 int remaining_chars = kTestData.length() % 3;
158 if (remaining_chars) {
159 if (remaining_chars == 1)
160 ++segments;
161 else
162 segments += 2;
165 CompoundBuffer* result = new CompoundBuffer();
166 const char* data = kTestData.data();
167 for (int i = 0; i < segments; ++i) {
168 int size = i % 2 == 0 ? 1 : 2;
169 result->Append(new net::WrappedIOBuffer(data), size);
170 data += size;
172 result->Lock();
173 buffer->reset(result);
176 CompoundBuffer target_;
177 scoped_refptr<IOBuffer> data_;
180 TEST_F(CompoundBufferTest, Append) {
181 target_.Clear();
182 IterateOverPieces(kChunkSizes0, base::Bind(
183 &CompoundBufferTest::Append, base::Unretained(this)));
184 EXPECT_TRUE(CompareData(target_, data_->data(), kDataSize));
186 target_.Clear();
187 IterateOverPieces(kChunkSizes1, base::Bind(
188 &CompoundBufferTest::Append, base::Unretained(this)));
189 EXPECT_TRUE(CompareData(target_, data_->data(), kDataSize));
192 TEST_F(CompoundBufferTest, AppendCopyOf) {
193 target_.Clear();
194 IterateOverPieces(kChunkSizes0, base::Bind(
195 &CompoundBufferTest::AppendCopyOf, base::Unretained(this)));
196 EXPECT_TRUE(CompareData(target_, data_->data(), kDataSize));
198 target_.Clear();
199 IterateOverPieces(kChunkSizes1, base::Bind(
200 &CompoundBufferTest::AppendCopyOf, base::Unretained(this)));
201 EXPECT_TRUE(CompareData(target_, data_->data(), kDataSize));
204 TEST_F(CompoundBufferTest, Prepend) {
205 target_.Clear();
206 IterateOverPieces(kChunkSizes0, base::Bind(
207 &CompoundBufferTest::Prepend, base::Unretained(this)));
208 EXPECT_TRUE(CompareData(target_, data_->data(), kDataSize));
210 target_.Clear();
211 IterateOverPieces(kChunkSizes1, base::Bind(
212 &CompoundBufferTest::Prepend, base::Unretained(this)));
213 EXPECT_TRUE(CompareData(target_, data_->data(), kDataSize));
216 TEST_F(CompoundBufferTest, PrependCopyOf) {
217 target_.Clear();
218 IterateOverPieces(kChunkSizes0, base::Bind(
219 &CompoundBufferTest::PrependCopyOf, base::Unretained(this)));
220 EXPECT_TRUE(CompareData(target_, data_->data(), kDataSize));
222 target_.Clear();
223 IterateOverPieces(kChunkSizes1, base::Bind(
224 &CompoundBufferTest::PrependCopyOf, base::Unretained(this)));
225 EXPECT_TRUE(CompareData(target_, data_->data(), kDataSize));
228 TEST_F(CompoundBufferTest, CropFront) {
229 target_.Clear();
230 IterateOverPieces(kChunkSizes1, base::Bind(
231 &CompoundBufferTest::Append, base::Unretained(this)));
232 IterateOverPieces(kCropSizes, base::Bind(
233 &CompoundBufferTest::TestCropFront, base::Unretained(this)));
236 TEST_F(CompoundBufferTest, CropBack) {
237 target_.Clear();
238 IterateOverPieces(kChunkSizes1, base::Bind(
239 &CompoundBufferTest::Append, base::Unretained(this)));
240 IterateOverPieces(kCropSizes, base::Bind(
241 &CompoundBufferTest::TestCropBack, base::Unretained(this)));
244 TEST_F(CompoundBufferTest, CopyFrom) {
245 target_.Clear();
246 IterateOverPieces(kChunkSizes1, base::Bind(
247 &CompoundBufferTest::Append, base::Unretained(this)));
249 SCOPED_TRACE("CopyFrom.kCopySizes0");
250 IterateOverPieces(kCopySizes0, base::Bind(
251 &CompoundBufferTest::TestCopyFrom, base::Unretained(this)));
254 SCOPED_TRACE("CopyFrom.kCopySizes1");
255 IterateOverPieces(kCopySizes1, base::Bind(
256 &CompoundBufferTest::TestCopyFrom, base::Unretained(this)));
260 TEST_F(CompoundBufferTest, InputStream) {
261 scoped_ptr<CompoundBuffer> buffer;
262 PrepareData(&buffer);
263 CompoundBufferInputStream stream(buffer.get());
265 ReadString(&stream, "Hello world!");
266 ReadString(&stream, "This ");
267 ReadString(&stream, "is test");
268 EXPECT_TRUE(stream.Skip(3));
269 ReadString(&stream, "MultipleArrayInput");
270 EXPECT_TRUE(stream.Skip(6));
271 ReadString(&stream, "f");
272 ReadString(&stream, "o");
273 ReadString(&stream, "r");
274 ReadString(&stream, " ");
275 ReadString(&stream, "Chromoting");
278 } // namespace remoting