Revert "Reland c91b178b07b0d - Delete dead signin code (SigninGlobalError)"
[chromium-blink-merge.git] / net / spdy / hpack / hpack_huffman_table_test.cc
bloba48ccb42450cd9070e8dfcb449e6dcabe0199502
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/hpack_huffman_table.h"
7 #include <bitset>
8 #include <string>
10 #include "base/logging.h"
11 #include "net/spdy/hpack/hpack_constants.h"
12 #include "net/spdy/hpack/hpack_input_stream.h"
13 #include "net/spdy/hpack/hpack_output_stream.h"
14 #include "net/spdy/spdy_test_utils.h"
15 #include "testing/gmock/include/gmock/gmock.h"
16 #include "testing/gtest/include/gtest/gtest.h"
18 using base::StringPiece;
19 using std::string;
20 using testing::ElementsAreArray;
21 using testing::Pointwise;
23 namespace net {
25 namespace test {
27 typedef HpackHuffmanTable::DecodeEntry DecodeEntry;
28 typedef HpackHuffmanTable::DecodeTable DecodeTable;
30 class HpackHuffmanTablePeer {
31 public:
32 explicit HpackHuffmanTablePeer(const HpackHuffmanTable& table)
33 : table_(table) {}
35 const std::vector<uint32>& code_by_id() const { return table_.code_by_id_; }
36 const std::vector<uint8>& length_by_id() const {
37 return table_.length_by_id_;
39 const std::vector<DecodeTable>& decode_tables() const {
40 return table_.decode_tables_;
42 char pad_bits() const {
43 // Cast to match signed-ness of bits8().
44 return static_cast<char>(table_.pad_bits_);
46 uint16 failed_symbol_id() const { return table_.failed_symbol_id_; }
47 std::vector<DecodeEntry> decode_entries(const DecodeTable& decode_table) {
48 std::vector<DecodeEntry>::const_iterator begin =
49 table_.decode_entries_.begin() + decode_table.entries_offset;
50 return std::vector<DecodeEntry>(begin, begin + decode_table.size());
53 private:
54 const HpackHuffmanTable& table_;
57 namespace {
59 class HpackHuffmanTableTest : public ::testing::Test {
60 protected:
61 HpackHuffmanTableTest() : table_(), peer_(table_) {}
63 string EncodeString(StringPiece input) {
64 string result;
65 HpackOutputStream output_stream;
66 table_.EncodeString(input, &output_stream);
68 output_stream.TakeString(&result);
69 // Verify EncodedSize() agrees with EncodeString().
70 EXPECT_EQ(result.size(), table_.EncodedSize(input));
71 return result;
74 HpackHuffmanTable table_;
75 HpackHuffmanTablePeer peer_;
78 MATCHER(DecodeEntryEq, "") {
79 const DecodeEntry& lhs = std::tr1::get<0>(arg);
80 const DecodeEntry& rhs = std::tr1::get<1>(arg);
81 return lhs.next_table_index == rhs.next_table_index &&
82 lhs.length == rhs.length && lhs.symbol_id == rhs.symbol_id;
85 uint32 bits32(const string& bitstring) {
86 return std::bitset<32>(bitstring).to_ulong();
88 char bits8(const string& bitstring) {
89 return static_cast<char>(std::bitset<8>(bitstring).to_ulong());
92 TEST_F(HpackHuffmanTableTest, InitializeHpackCode) {
93 std::vector<HpackHuffmanSymbol> code = HpackHuffmanCode();
94 EXPECT_TRUE(table_.Initialize(&code[0], code.size()));
95 EXPECT_TRUE(table_.IsInitialized());
96 EXPECT_EQ(peer_.pad_bits(), bits8("11111111")); // First 8 bits of EOS.
99 TEST_F(HpackHuffmanTableTest, InitializeEdgeCases) {
101 // Verify eight symbols can be encoded with 3 bits per symbol.
102 HpackHuffmanSymbol code[] = {
103 {bits32("00000000000000000000000000000000"), 3, 0},
104 {bits32("00100000000000000000000000000000"), 3, 1},
105 {bits32("01000000000000000000000000000000"), 3, 2},
106 {bits32("01100000000000000000000000000000"), 3, 3},
107 {bits32("10000000000000000000000000000000"), 3, 4},
108 {bits32("10100000000000000000000000000000"), 3, 5},
109 {bits32("11000000000000000000000000000000"), 3, 6},
110 {bits32("11100000000000000000000000000000"), 8, 7}};
111 HpackHuffmanTable table;
112 EXPECT_TRUE(table.Initialize(code, arraysize(code)));
115 // But using 2 bits with one symbol overflows the code.
116 HpackHuffmanSymbol code[] = {
117 {bits32("01000000000000000000000000000000"), 3, 0},
118 {bits32("01100000000000000000000000000000"), 3, 1},
119 {bits32("00000000000000000000000000000000"), 2, 2},
120 {bits32("10000000000000000000000000000000"), 3, 3},
121 {bits32("10100000000000000000000000000000"), 3, 4},
122 {bits32("11000000000000000000000000000000"), 3, 5},
123 {bits32("11100000000000000000000000000000"), 3, 6},
124 {bits32("00000000000000000000000000000000"), 8, 7}}; // Overflow.
125 HpackHuffmanTable table;
126 EXPECT_FALSE(table.Initialize(code, arraysize(code)));
127 EXPECT_EQ(7, HpackHuffmanTablePeer(table).failed_symbol_id());
130 // Verify four symbols can be encoded with incremental bits per symbol.
131 HpackHuffmanSymbol code[] = {
132 {bits32("00000000000000000000000000000000"), 1, 0},
133 {bits32("10000000000000000000000000000000"), 2, 1},
134 {bits32("11000000000000000000000000000000"), 3, 2},
135 {bits32("11100000000000000000000000000000"), 8, 3}};
136 HpackHuffmanTable table;
137 EXPECT_TRUE(table.Initialize(code, arraysize(code)));
140 // But repeating a length overflows the code.
141 HpackHuffmanSymbol code[] = {
142 {bits32("00000000000000000000000000000000"), 1, 0},
143 {bits32("10000000000000000000000000000000"), 2, 1},
144 {bits32("11000000000000000000000000000000"), 2, 2},
145 {bits32("00000000000000000000000000000000"), 8, 3}}; // Overflow.
146 HpackHuffmanTable table;
147 EXPECT_FALSE(table.Initialize(code, arraysize(code)));
148 EXPECT_EQ(3, HpackHuffmanTablePeer(table).failed_symbol_id());
151 // Symbol IDs must be assigned sequentially with no gaps.
152 HpackHuffmanSymbol code[] = {
153 {bits32("00000000000000000000000000000000"), 1, 0},
154 {bits32("10000000000000000000000000000000"), 2, 1},
155 {bits32("11000000000000000000000000000000"), 3, 1}, // Repeat.
156 {bits32("11100000000000000000000000000000"), 8, 3}};
157 HpackHuffmanTable table;
158 EXPECT_FALSE(table.Initialize(code, arraysize(code)));
159 EXPECT_EQ(2, HpackHuffmanTablePeer(table).failed_symbol_id());
162 // Canonical codes must begin with zero.
163 HpackHuffmanSymbol code[] = {
164 {bits32("10000000000000000000000000000000"), 4, 0},
165 {bits32("10010000000000000000000000000000"), 4, 1},
166 {bits32("10100000000000000000000000000000"), 4, 2},
167 {bits32("10110000000000000000000000000000"), 8, 3}};
168 HpackHuffmanTable table;
169 EXPECT_FALSE(table.Initialize(code, arraysize(code)));
170 EXPECT_EQ(0, HpackHuffmanTablePeer(table).failed_symbol_id());
173 // Codes must match the expected canonical sequence.
174 HpackHuffmanSymbol code[] = {
175 {bits32("00000000000000000000000000000000"), 2, 0},
176 {bits32("01000000000000000000000000000000"), 2, 1},
177 {bits32("11000000000000000000000000000000"), 2, 2}, // Not canonical.
178 {bits32("10000000000000000000000000000000"), 8, 3}};
179 HpackHuffmanTable table;
180 EXPECT_FALSE(table.Initialize(code, arraysize(code)));
181 EXPECT_EQ(2, HpackHuffmanTablePeer(table).failed_symbol_id());
184 // At least one code must have a length of 8 bits (to ensure pad-ability).
185 HpackHuffmanSymbol code[] = {
186 {bits32("00000000000000000000000000000000"), 1, 0},
187 {bits32("10000000000000000000000000000000"), 2, 1},
188 {bits32("11000000000000000000000000000000"), 3, 2},
189 {bits32("11100000000000000000000000000000"), 7, 3}};
190 HpackHuffmanTable table;
191 EXPECT_FALSE(table.Initialize(code, arraysize(code)));
195 TEST_F(HpackHuffmanTableTest, ValidateInternalsWithSmallCode) {
196 HpackHuffmanSymbol code[] = {
197 {bits32("01100000000000000000000000000000"), 4, 0}, // 3rd.
198 {bits32("01110000000000000000000000000000"), 4, 1}, // 4th.
199 {bits32("00000000000000000000000000000000"), 2, 2}, // 1st assigned code.
200 {bits32("01000000000000000000000000000000"), 3, 3}, // 2nd.
201 {bits32("10000000000000000000000000000000"), 5, 4}, // 5th.
202 {bits32("10001000000000000000000000000000"), 5, 5}, // 6th.
203 {bits32("10011000000000000000000000000000"), 8, 6}, // 8th.
204 {bits32("10010000000000000000000000000000"), 5, 7}}; // 7th.
205 EXPECT_TRUE(table_.Initialize(code, arraysize(code)));
206 ASSERT_EQ(arraysize(code), peer_.code_by_id().size());
207 ASSERT_EQ(arraysize(code), peer_.length_by_id().size());
208 for (size_t i = 0; i < arraysize(code); ++i) {
209 EXPECT_EQ(code[i].code, peer_.code_by_id()[i]);
210 EXPECT_EQ(code[i].length, peer_.length_by_id()[i]);
213 EXPECT_EQ(1u, peer_.decode_tables().size());
215 std::vector<DecodeEntry> expected;
216 expected.resize(128, DecodeEntry(0, 2, 2)); // Fills 128.
217 expected.resize(192, DecodeEntry(0, 3, 3)); // Fills 64.
218 expected.resize(224, DecodeEntry(0, 4, 0)); // Fills 32.
219 expected.resize(256, DecodeEntry(0, 4, 1)); // Fills 32.
220 expected.resize(272, DecodeEntry(0, 5, 4)); // Fills 16.
221 expected.resize(288, DecodeEntry(0, 5, 5)); // Fills 16.
222 expected.resize(304, DecodeEntry(0, 5, 7)); // Fills 16.
223 expected.resize(306, DecodeEntry(0, 8, 6)); // Fills 2.
224 expected.resize(512, DecodeEntry()); // Remainder is empty.
226 EXPECT_THAT(peer_.decode_entries(peer_.decode_tables()[0]),
227 Pointwise(DecodeEntryEq(), expected));
229 EXPECT_EQ(bits8("10011000"), peer_.pad_bits());
231 char input_storage[] = {2, 3, 2, 7, 4};
232 StringPiece input(input_storage, arraysize(input_storage));
233 // By symbol: (2) 00 (3) 010 (2) 00 (7) 10010 (4) 10000 (6 as pad) 1001100.
234 char expect_storage[] = {bits8("00010001"), bits8("00101000"),
235 bits8("01001100")};
236 StringPiece expect(expect_storage, arraysize(expect_storage));
238 string buffer_in = EncodeString(input);
239 EXPECT_EQ(expect, buffer_in);
241 string buffer_out;
242 HpackInputStream input_stream(kuint32max, buffer_in);
243 EXPECT_TRUE(table_.DecodeString(&input_stream, input.size(), &buffer_out));
244 EXPECT_EQ(buffer_out, input);
247 TEST_F(HpackHuffmanTableTest, ValidateMultiLevelDecodeTables) {
248 HpackHuffmanSymbol code[] = {
249 {bits32("00000000000000000000000000000000"), 6, 0},
250 {bits32("00000100000000000000000000000000"), 6, 1},
251 {bits32("00001000000000000000000000000000"), 11, 2},
252 {bits32("00001000001000000000000000000000"), 11, 3},
253 {bits32("00001000010000000000000000000000"), 12, 4},
255 EXPECT_TRUE(table_.Initialize(code, arraysize(code)));
257 EXPECT_EQ(2u, peer_.decode_tables().size());
259 std::vector<DecodeEntry> expected;
260 expected.resize(8, DecodeEntry(0, 6, 0)); // Fills 8.
261 expected.resize(16, DecodeEntry(0, 6, 1)); // Fills 8.
262 expected.resize(17, DecodeEntry(1, 12, 0)); // Pointer. Fills 1.
263 expected.resize(512, DecodeEntry()); // Remainder is empty.
265 const DecodeTable& decode_table = peer_.decode_tables()[0];
266 EXPECT_EQ(decode_table.prefix_length, 0);
267 EXPECT_EQ(decode_table.indexed_length, 9);
268 EXPECT_THAT(peer_.decode_entries(decode_table),
269 Pointwise(DecodeEntryEq(), expected));
272 std::vector<DecodeEntry> expected;
273 expected.resize(2, DecodeEntry(1, 11, 2)); // Fills 2.
274 expected.resize(4, DecodeEntry(1, 11, 3)); // Fills 2.
275 expected.resize(5, DecodeEntry(1, 12, 4)); // Fills 1.
276 expected.resize(8, DecodeEntry()); // Remainder is empty.
278 const DecodeTable& decode_table = peer_.decode_tables()[1];
279 EXPECT_EQ(decode_table.prefix_length, 9);
280 EXPECT_EQ(decode_table.indexed_length, 3);
281 EXPECT_THAT(peer_.decode_entries(decode_table),
282 Pointwise(DecodeEntryEq(), expected));
284 EXPECT_EQ(bits8("00001000"), peer_.pad_bits());
287 TEST_F(HpackHuffmanTableTest, DecodeWithBadInput) {
288 HpackHuffmanSymbol code[] = {
289 {bits32("01100000000000000000000000000000"), 4, 0},
290 {bits32("01110000000000000000000000000000"), 4, 1},
291 {bits32("00000000000000000000000000000000"), 2, 2},
292 {bits32("01000000000000000000000000000000"), 3, 3},
293 {bits32("10000000000000000000000000000000"), 5, 4},
294 {bits32("10001000000000000000000000000000"), 5, 5},
295 {bits32("10011000000000000000000000000000"), 6, 6},
296 {bits32("10010000000000000000000000000000"), 5, 7},
297 {bits32("10011100000000000000000000000000"), 16, 8}};
298 EXPECT_TRUE(table_.Initialize(code, arraysize(code)));
300 string buffer;
301 const size_t capacity = 4;
303 // This example works: (2) 00 (3) 010 (2) 00 (6) 100110 (pad) 100.
304 char input_storage[] = {bits8("00010001"), bits8("00110100")};
305 StringPiece input(input_storage, arraysize(input_storage));
307 HpackInputStream input_stream(kuint32max, input);
308 EXPECT_TRUE(table_.DecodeString(&input_stream, capacity, &buffer));
309 EXPECT_EQ(buffer, "\x02\x03\x02\x06");
312 // Expect to fail on an invalid code prefix.
313 // (2) 00 (3) 010 (2) 00 (too-large) 101000 (pad) 100.
314 char input_storage[] = {bits8("00010001"), bits8("01000111")};
315 StringPiece input(input_storage, arraysize(input_storage));
317 HpackInputStream input_stream(kuint32max, input);
318 EXPECT_FALSE(table_.DecodeString(&input_stream, capacity, &buffer));
319 EXPECT_EQ(buffer, "\x02\x03\x02");
322 // Repeat the shortest 0b00 code to overflow |buffer|. Expect to fail.
323 std::vector<char> input_storage(1 + capacity / 4, '\0');
324 StringPiece input(&input_storage[0], input_storage.size());
326 HpackInputStream input_stream(kuint32max, input);
327 EXPECT_FALSE(table_.DecodeString(&input_stream, capacity, &buffer));
329 std::vector<char> expected(capacity, '\x02');
330 EXPECT_THAT(buffer, ElementsAreArray(expected));
331 EXPECT_EQ(capacity, buffer.size());
334 // Expect to fail if more than a byte of unconsumed input remains.
335 // (6) 100110 (8 truncated) 1001110000
336 char input_storage[] = {bits8("10011010"), bits8("01110000")};
337 StringPiece input(input_storage, arraysize(input_storage));
339 HpackInputStream input_stream(kuint32max, input);
340 EXPECT_FALSE(table_.DecodeString(&input_stream, capacity, &buffer));
341 EXPECT_EQ(buffer, "\x06");
345 TEST_F(HpackHuffmanTableTest, SpecRequestExamples) {
346 std::vector<HpackHuffmanSymbol> code = HpackHuffmanCode();
347 EXPECT_TRUE(table_.Initialize(&code[0], code.size()));
349 string buffer;
350 string test_table[] = {
351 a2b_hex("f1e3c2e5f23a6ba0ab90f4ff"),
352 "www.example.com",
353 a2b_hex("a8eb10649cbf"),
354 "no-cache",
355 a2b_hex("25a849e95ba97d7f"),
356 "custom-key",
357 a2b_hex("25a849e95bb8e8b4bf"),
358 "custom-value",
360 // Round-trip each test example.
361 for (size_t i = 0; i != arraysize(test_table); i += 2) {
362 const string& encodedFixture(test_table[i]);
363 const string& decodedFixture(test_table[i + 1]);
364 HpackInputStream input_stream(kuint32max, encodedFixture);
366 EXPECT_TRUE(
367 table_.DecodeString(&input_stream, decodedFixture.size(), &buffer));
368 EXPECT_EQ(decodedFixture, buffer);
369 buffer = EncodeString(decodedFixture);
370 EXPECT_EQ(encodedFixture, buffer);
374 TEST_F(HpackHuffmanTableTest, SpecResponseExamples) {
375 std::vector<HpackHuffmanSymbol> code = HpackHuffmanCode();
376 EXPECT_TRUE(table_.Initialize(&code[0], code.size()));
378 string buffer;
379 string test_table[] = {
380 a2b_hex("6402"), "302", a2b_hex("aec3771a4b"), "private",
381 a2b_hex("d07abe941054d444a8200595040b8166"
382 "e082a62d1bff"),
383 "Mon, 21 Oct 2013 20:13:21 GMT",
384 a2b_hex("9d29ad171863c78f0b97c8e9ae82ae43"
385 "d3"),
386 "https://www.example.com", a2b_hex("94e7821dd7f2e6c7b335dfdfcd5b3960"
387 "d5af27087f3672c1ab270fb5291f9587"
388 "316065c003ed4ee5b1063d5007"),
389 "foo=ASDJKHQKBZXOQWEOPIUAXQWEOIU; max-age=3600; version=1",
391 // Round-trip each test example.
392 for (size_t i = 0; i != arraysize(test_table); i += 2) {
393 const string& encodedFixture(test_table[i]);
394 const string& decodedFixture(test_table[i + 1]);
395 HpackInputStream input_stream(kuint32max, encodedFixture);
397 EXPECT_TRUE(
398 table_.DecodeString(&input_stream, decodedFixture.size(), &buffer));
399 EXPECT_EQ(decodedFixture, buffer);
400 buffer = EncodeString(decodedFixture);
401 EXPECT_EQ(encodedFixture, buffer);
405 TEST_F(HpackHuffmanTableTest, RoundTripIndvidualSymbols) {
406 std::vector<HpackHuffmanSymbol> code = HpackHuffmanCode();
407 EXPECT_TRUE(table_.Initialize(&code[0], code.size()));
409 for (size_t i = 0; i != 256; i++) {
410 char c = static_cast<char>(i);
411 char storage[3] = {c, c, c};
412 StringPiece input(storage, arraysize(storage));
414 string buffer_in = EncodeString(input);
415 string buffer_out;
417 HpackInputStream input_stream(kuint32max, buffer_in);
418 EXPECT_TRUE(table_.DecodeString(&input_stream, input.size(), &buffer_out));
419 EXPECT_EQ(input, buffer_out);
423 TEST_F(HpackHuffmanTableTest, RoundTripSymbolSequence) {
424 std::vector<HpackHuffmanSymbol> code = HpackHuffmanCode();
425 EXPECT_TRUE(table_.Initialize(&code[0], code.size()));
427 char storage[512];
428 for (size_t i = 0; i != 256; i++) {
429 storage[i] = static_cast<char>(i);
430 storage[511 - i] = static_cast<char>(i);
432 StringPiece input(storage, arraysize(storage));
434 string buffer_in = EncodeString(input);
435 string buffer_out;
437 HpackInputStream input_stream(kuint32max, buffer_in);
438 EXPECT_TRUE(table_.DecodeString(&input_stream, input.size(), &buffer_out));
439 EXPECT_EQ(input, buffer_out);
442 TEST_F(HpackHuffmanTableTest, EncodedSizeAgreesWithEncodeString) {
443 std::vector<HpackHuffmanSymbol> code = HpackHuffmanCode();
444 EXPECT_TRUE(table_.Initialize(&code[0], code.size()));
446 string test_table[] = {
448 "Mon, 21 Oct 2013 20:13:21 GMT",
449 "https://www.example.com",
450 "foo=ASDJKHQKBZXOQWEOPIUAXQWEOIU; max-age=3600; version=1",
451 string(1, '\0'),
452 string("foo\0bar", 7),
453 string(256, '\0'),
455 for (size_t i = 0; i != 256; ++i) {
456 // Expand last |test_table| entry to cover all codes.
457 test_table[arraysize(test_table) - 1][i] = static_cast<char>(i);
460 HpackOutputStream output_stream;
461 string encoding;
462 for (size_t i = 0; i != arraysize(test_table); ++i) {
463 table_.EncodeString(test_table[i], &output_stream);
464 output_stream.TakeString(&encoding);
465 EXPECT_EQ(encoding.size(), table_.EncodedSize(test_table[i]));
469 } // namespace
471 } // namespace test
473 } // namespace net