Port Android relocation packer to chromium build
[chromium-blink-merge.git] / net / spdy / hpack_output_stream_test.cc
blobf8e078065fff858a49672eb3ec139ac75e7e7b2b
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 "net/spdy/hpack_output_stream.h"
7 #include <cstddef>
9 #include "base/basictypes.h"
10 #include "testing/gtest/include/gtest/gtest.h"
12 namespace net {
14 namespace {
16 using std::string;
18 // Make sure that AppendBits() appends bits starting from the most
19 // significant bit, and that it can handle crossing a byte boundary.
20 TEST(HpackOutputStreamTest, AppendBits) {
21 HpackOutputStream output_stream;
22 string expected_str;
24 output_stream.AppendBits(0x1, 1);
25 expected_str.append(1, 0x00);
26 *expected_str.rbegin() |= (0x1 << 7);
28 output_stream.AppendBits(0x0, 1);
30 output_stream.AppendBits(0x3, 2);
31 *expected_str.rbegin() |= (0x3 << 4);
33 output_stream.AppendBits(0x0, 2);
35 // Byte-crossing append.
36 output_stream.AppendBits(0x7, 3);
37 *expected_str.rbegin() |= (0x7 >> 1);
38 expected_str.append(1, 0x00);
39 *expected_str.rbegin() |= (0x7 << 7);
41 output_stream.AppendBits(0x0, 7);
43 string str;
44 output_stream.TakeString(&str);
45 EXPECT_EQ(expected_str, str);
48 // Utility function to return I as a string encoded with an N-bit
49 // prefix.
50 string EncodeUint32(uint8 N, uint32 I) {
51 HpackOutputStream output_stream;
52 if (N < 8) {
53 output_stream.AppendBits(0x00, 8 - N);
55 output_stream.AppendUint32(I);
56 string str;
57 output_stream.TakeString(&str);
58 return str;
61 // The {Number}ByteIntegersEightBitPrefix tests below test that
62 // certain integers are encoded correctly with an 8-bit prefix in
63 // exactly {Number} bytes.
65 TEST(HpackOutputStreamTest, OneByteIntegersEightBitPrefix) {
66 // Minimum.
67 EXPECT_EQ(string("\x00", 1), EncodeUint32(8, 0x00));
68 EXPECT_EQ("\x7f", EncodeUint32(8, 0x7f));
69 // Maximum.
70 EXPECT_EQ("\xfe", EncodeUint32(8, 0xfe));
73 TEST(HpackOutputStreamTest, TwoByteIntegersEightBitPrefix) {
74 // Minimum.
75 EXPECT_EQ(string("\xff\x00", 2), EncodeUint32(8, 0xff));
76 EXPECT_EQ("\xff\x01", EncodeUint32(8, 0x0100));
77 // Maximum.
78 EXPECT_EQ("\xff\x7f", EncodeUint32(8, 0x017e));
81 TEST(HpackOutputStreamTest, ThreeByteIntegersEightBitPrefix) {
82 // Minimum.
83 EXPECT_EQ("\xff\x80\x01", EncodeUint32(8, 0x017f));
84 EXPECT_EQ("\xff\x80\x1e", EncodeUint32(8, 0x0fff));
85 // Maximum.
86 EXPECT_EQ("\xff\xff\x7f", EncodeUint32(8, 0x40fe));
89 TEST(HpackOutputStreamTest, FourByteIntegersEightBitPrefix) {
90 // Minimum.
91 EXPECT_EQ("\xff\x80\x80\x01", EncodeUint32(8, 0x40ff));
92 EXPECT_EQ("\xff\x80\xfe\x03", EncodeUint32(8, 0xffff));
93 // Maximum.
94 EXPECT_EQ("\xff\xff\xff\x7f", EncodeUint32(8, 0x002000fe));
97 TEST(HpackOutputStreamTest, FiveByteIntegersEightBitPrefix) {
98 // Minimum.
99 EXPECT_EQ("\xff\x80\x80\x80\x01", EncodeUint32(8, 0x002000ff));
100 EXPECT_EQ("\xff\x80\xfe\xff\x07", EncodeUint32(8, 0x00ffffff));
101 // Maximum.
102 EXPECT_EQ("\xff\xff\xff\xff\x7f", EncodeUint32(8, 0x100000fe));
105 TEST(HpackOutputStreamTest, SixByteIntegersEightBitPrefix) {
106 // Minimum.
107 EXPECT_EQ("\xff\x80\x80\x80\x80\x01", EncodeUint32(8, 0x100000ff));
108 // Maximum.
109 EXPECT_EQ("\xff\x80\xfe\xff\xff\x0f", EncodeUint32(8, 0xffffffff));
112 // The {Number}ByteIntegersOneToSevenBitPrefix tests below test that
113 // certain integers are encoded correctly with an N-bit prefix in
114 // exactly {Number} bytes for N in {1, 2, ..., 7}.
116 TEST(HpackOutputStreamTest, OneByteIntegersOneToSevenBitPrefixes) {
117 // Minimums.
118 EXPECT_EQ(string("\x00", 1), EncodeUint32(7, 0x00));
119 EXPECT_EQ(string("\x00", 1), EncodeUint32(6, 0x00));
120 EXPECT_EQ(string("\x00", 1), EncodeUint32(5, 0x00));
121 EXPECT_EQ(string("\x00", 1), EncodeUint32(4, 0x00));
122 EXPECT_EQ(string("\x00", 1), EncodeUint32(3, 0x00));
123 EXPECT_EQ(string("\x00", 1), EncodeUint32(2, 0x00));
124 EXPECT_EQ(string("\x00", 1), EncodeUint32(1, 0x00));
126 // Maximums.
127 EXPECT_EQ("\x7e", EncodeUint32(7, 0x7e));
128 EXPECT_EQ("\x3e", EncodeUint32(6, 0x3e));
129 EXPECT_EQ("\x1e", EncodeUint32(5, 0x1e));
130 EXPECT_EQ("\x0e", EncodeUint32(4, 0x0e));
131 EXPECT_EQ("\x06", EncodeUint32(3, 0x06));
132 EXPECT_EQ("\x02", EncodeUint32(2, 0x02));
133 EXPECT_EQ(string("\x00", 1), EncodeUint32(1, 0x00));
136 TEST(HpackOutputStreamTest, TwoByteIntegersOneToSevenBitPrefixes) {
137 // Minimums.
138 EXPECT_EQ(string("\x7f\x00", 2), EncodeUint32(7, 0x7f));
139 EXPECT_EQ(string("\x3f\x00", 2), EncodeUint32(6, 0x3f));
140 EXPECT_EQ(string("\x1f\x00", 2), EncodeUint32(5, 0x1f));
141 EXPECT_EQ(string("\x0f\x00", 2), EncodeUint32(4, 0x0f));
142 EXPECT_EQ(string("\x07\x00", 2), EncodeUint32(3, 0x07));
143 EXPECT_EQ(string("\x03\x00", 2), EncodeUint32(2, 0x03));
144 EXPECT_EQ(string("\x01\x00", 2), EncodeUint32(1, 0x01));
146 // Maximums.
147 EXPECT_EQ("\x7f\x7f", EncodeUint32(7, 0xfe));
148 EXPECT_EQ("\x3f\x7f", EncodeUint32(6, 0xbe));
149 EXPECT_EQ("\x1f\x7f", EncodeUint32(5, 0x9e));
150 EXPECT_EQ("\x0f\x7f", EncodeUint32(4, 0x8e));
151 EXPECT_EQ("\x07\x7f", EncodeUint32(3, 0x86));
152 EXPECT_EQ("\x03\x7f", EncodeUint32(2, 0x82));
153 EXPECT_EQ("\x01\x7f", EncodeUint32(1, 0x80));
156 TEST(HpackOutputStreamTest, ThreeByteIntegersOneToSevenBitPrefixes) {
157 // Minimums.
158 EXPECT_EQ("\x7f\x80\x01", EncodeUint32(7, 0xff));
159 EXPECT_EQ("\x3f\x80\x01", EncodeUint32(6, 0xbf));
160 EXPECT_EQ("\x1f\x80\x01", EncodeUint32(5, 0x9f));
161 EXPECT_EQ("\x0f\x80\x01", EncodeUint32(4, 0x8f));
162 EXPECT_EQ("\x07\x80\x01", EncodeUint32(3, 0x87));
163 EXPECT_EQ("\x03\x80\x01", EncodeUint32(2, 0x83));
164 EXPECT_EQ("\x01\x80\x01", EncodeUint32(1, 0x81));
166 // Maximums.
167 EXPECT_EQ("\x7f\xff\x7f", EncodeUint32(7, 0x407e));
168 EXPECT_EQ("\x3f\xff\x7f", EncodeUint32(6, 0x403e));
169 EXPECT_EQ("\x1f\xff\x7f", EncodeUint32(5, 0x401e));
170 EXPECT_EQ("\x0f\xff\x7f", EncodeUint32(4, 0x400e));
171 EXPECT_EQ("\x07\xff\x7f", EncodeUint32(3, 0x4006));
172 EXPECT_EQ("\x03\xff\x7f", EncodeUint32(2, 0x4002));
173 EXPECT_EQ("\x01\xff\x7f", EncodeUint32(1, 0x4000));
176 TEST(HpackOutputStreamTest, FourByteIntegersOneToSevenBitPrefixes) {
177 // Minimums.
178 EXPECT_EQ("\x7f\x80\x80\x01", EncodeUint32(7, 0x407f));
179 EXPECT_EQ("\x3f\x80\x80\x01", EncodeUint32(6, 0x403f));
180 EXPECT_EQ("\x1f\x80\x80\x01", EncodeUint32(5, 0x401f));
181 EXPECT_EQ("\x0f\x80\x80\x01", EncodeUint32(4, 0x400f));
182 EXPECT_EQ("\x07\x80\x80\x01", EncodeUint32(3, 0x4007));
183 EXPECT_EQ("\x03\x80\x80\x01", EncodeUint32(2, 0x4003));
184 EXPECT_EQ("\x01\x80\x80\x01", EncodeUint32(1, 0x4001));
186 // Maximums.
187 EXPECT_EQ("\x7f\xff\xff\x7f", EncodeUint32(7, 0x20007e));
188 EXPECT_EQ("\x3f\xff\xff\x7f", EncodeUint32(6, 0x20003e));
189 EXPECT_EQ("\x1f\xff\xff\x7f", EncodeUint32(5, 0x20001e));
190 EXPECT_EQ("\x0f\xff\xff\x7f", EncodeUint32(4, 0x20000e));
191 EXPECT_EQ("\x07\xff\xff\x7f", EncodeUint32(3, 0x200006));
192 EXPECT_EQ("\x03\xff\xff\x7f", EncodeUint32(2, 0x200002));
193 EXPECT_EQ("\x01\xff\xff\x7f", EncodeUint32(1, 0x200000));
196 TEST(HpackOutputStreamTest, FiveByteIntegersOneToSevenBitPrefixes) {
197 // Minimums.
198 EXPECT_EQ("\x7f\x80\x80\x80\x01", EncodeUint32(7, 0x20007f));
199 EXPECT_EQ("\x3f\x80\x80\x80\x01", EncodeUint32(6, 0x20003f));
200 EXPECT_EQ("\x1f\x80\x80\x80\x01", EncodeUint32(5, 0x20001f));
201 EXPECT_EQ("\x0f\x80\x80\x80\x01", EncodeUint32(4, 0x20000f));
202 EXPECT_EQ("\x07\x80\x80\x80\x01", EncodeUint32(3, 0x200007));
203 EXPECT_EQ("\x03\x80\x80\x80\x01", EncodeUint32(2, 0x200003));
204 EXPECT_EQ("\x01\x80\x80\x80\x01", EncodeUint32(1, 0x200001));
206 // Maximums.
207 EXPECT_EQ("\x7f\xff\xff\xff\x7f", EncodeUint32(7, 0x1000007e));
208 EXPECT_EQ("\x3f\xff\xff\xff\x7f", EncodeUint32(6, 0x1000003e));
209 EXPECT_EQ("\x1f\xff\xff\xff\x7f", EncodeUint32(5, 0x1000001e));
210 EXPECT_EQ("\x0f\xff\xff\xff\x7f", EncodeUint32(4, 0x1000000e));
211 EXPECT_EQ("\x07\xff\xff\xff\x7f", EncodeUint32(3, 0x10000006));
212 EXPECT_EQ("\x03\xff\xff\xff\x7f", EncodeUint32(2, 0x10000002));
213 EXPECT_EQ("\x01\xff\xff\xff\x7f", EncodeUint32(1, 0x10000000));
216 TEST(HpackOutputStreamTest, SixByteIntegersOneToSevenBitPrefixes) {
217 // Minimums.
218 EXPECT_EQ("\x7f\x80\x80\x80\x80\x01", EncodeUint32(7, 0x1000007f));
219 EXPECT_EQ("\x3f\x80\x80\x80\x80\x01", EncodeUint32(6, 0x1000003f));
220 EXPECT_EQ("\x1f\x80\x80\x80\x80\x01", EncodeUint32(5, 0x1000001f));
221 EXPECT_EQ("\x0f\x80\x80\x80\x80\x01", EncodeUint32(4, 0x1000000f));
222 EXPECT_EQ("\x07\x80\x80\x80\x80\x01", EncodeUint32(3, 0x10000007));
223 EXPECT_EQ("\x03\x80\x80\x80\x80\x01", EncodeUint32(2, 0x10000003));
224 EXPECT_EQ("\x01\x80\x80\x80\x80\x01", EncodeUint32(1, 0x10000001));
226 // Maximums.
227 EXPECT_EQ("\x7f\x80\xff\xff\xff\x0f", EncodeUint32(7, 0xffffffff));
228 EXPECT_EQ("\x3f\xc0\xff\xff\xff\x0f", EncodeUint32(6, 0xffffffff));
229 EXPECT_EQ("\x1f\xe0\xff\xff\xff\x0f", EncodeUint32(5, 0xffffffff));
230 EXPECT_EQ("\x0f\xf0\xff\xff\xff\x0f", EncodeUint32(4, 0xffffffff));
231 EXPECT_EQ("\x07\xf8\xff\xff\xff\x0f", EncodeUint32(3, 0xffffffff));
232 EXPECT_EQ("\x03\xfc\xff\xff\xff\x0f", EncodeUint32(2, 0xffffffff));
233 EXPECT_EQ("\x01\xfe\xff\xff\xff\x0f", EncodeUint32(1, 0xffffffff));
236 // Test that encoding an integer with an N-bit prefix preserves the
237 // upper (8-N) bits of the first byte.
238 TEST(HpackOutputStreamTest, AppendUint32PreservesUpperBits) {
239 HpackOutputStream output_stream;
240 output_stream.AppendBits(0x7f, 7);
241 output_stream.AppendUint32(0x01);
242 string str;
243 output_stream.TakeString(&str);
244 EXPECT_EQ(string("\xff\x00", 2), str);
247 TEST(HpackOutputStreamTest, AppendBytes) {
248 HpackOutputStream output_stream;
250 output_stream.AppendBytes("buffer1");
251 output_stream.AppendBytes("buffer2");
253 string str;
254 output_stream.TakeString(&str);
255 EXPECT_EQ("buffer1buffer2", str);
258 } // namespace
260 } // namespace net