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Update navigator.services API to use the new services.onconnect event [2/3].
[chromium-blink-merge.git] / net / spdy / hpack_header_table_test.cc
blob647cd03fb87afe730d8d3c1eb1d9114473731bd7
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.
4
5 #include "net/spdy/hpack_header_table.h"
6
7 #include <algorithm>
8 #include <set>
9 #include <string>
10 #include <vector>
11
12 #include "base/basictypes.h"
13 #include "base/macros.h"
14 #include "net/spdy/hpack_constants.h"
15 #include "net/spdy/hpack_entry.h"
16 #include "testing/gtest/include/gtest/gtest.h"
17
18 namespace net {
19
20 using base::StringPiece;
21 using std::distance;
22 using std::string;
23
24 namespace test {
25
26 class HpackHeaderTablePeer {
27 public:
28 explicit HpackHeaderTablePeer(HpackHeaderTable* table)
29 : table_(table) {}
30
31 const HpackHeaderTable::EntryTable& dynamic_entries() {
32 return table_->dynamic_entries_;
33 }
34 const HpackHeaderTable::EntryTable& static_entries() {
35 return table_->static_entries_;
36 }
37 size_t index_size() {
38 return table_->static_index_.size() + table_->dynamic_index_.size();
39 }
40 std::vector<HpackEntry*> EvictionSet(StringPiece name, StringPiece value) {
41 HpackHeaderTable::EntryTable::iterator begin, end;
42 table_->EvictionSet(name, value, &begin, &end);
43 std::vector<HpackEntry*> result;
44 for (; begin != end; ++begin) {
45 result.push_back(&(*begin));
46 }
47 return result;
48 }
49 size_t total_insertions() {
50 return table_->total_insertions_;
51 }
52 size_t dynamic_entries_count() {
53 return table_->dynamic_entries_.size();
54 }
55 size_t EvictionCountForEntry(StringPiece name, StringPiece value) {
56 return table_->EvictionCountForEntry(name, value);
57 }
58 size_t EvictionCountToReclaim(size_t reclaim_size) {
59 return table_->EvictionCountToReclaim(reclaim_size);
60 }
61 void Evict(size_t count) {
62 return table_->Evict(count);
63 }
64
65 void AddDynamicEntry(StringPiece name, StringPiece value) {
66 table_->dynamic_entries_.push_back(
67 HpackEntry(name, value, false, table_->total_insertions_++));
68 }
69
70 private:
71 HpackHeaderTable* table_;
72 };
73
74 } // namespace test
75
76 namespace {
77
78 class HpackHeaderTableTest : public ::testing::Test {
79 protected:
80 typedef std::vector<HpackEntry> HpackEntryVector;
81
82 HpackHeaderTableTest() : table_(), peer_(&table_) {}
83
84 // Returns an entry whose Size() is equal to the given one.
85 static HpackEntry MakeEntryOfSize(uint32 size) {
86 EXPECT_GE(size, HpackEntry::kSizeOverhead);
87 string name((size - HpackEntry::kSizeOverhead) / 2, 'n');
88 string value(size - HpackEntry::kSizeOverhead - name.size(), 'v');
89 HpackEntry entry(name, value);
90 EXPECT_EQ(size, entry.Size());
91 return entry;
92 }
93
94 // Returns a vector of entries whose total size is equal to the given
95 // one.
96 static HpackEntryVector MakeEntriesOfTotalSize(uint32 total_size) {
97 EXPECT_GE(total_size, HpackEntry::kSizeOverhead);
98 uint32 entry_size = HpackEntry::kSizeOverhead;
99 uint32 remaining_size = total_size;
100 HpackEntryVector entries;
101 while (remaining_size > 0) {
102 EXPECT_LE(entry_size, remaining_size);
103 entries.push_back(MakeEntryOfSize(entry_size));
104 remaining_size -= entry_size;
105 entry_size = std::min(remaining_size, entry_size + 32);
106 }
107 return entries;
108 }
109
110 // Adds the given vector of entries to the given header table,
111 // expecting no eviction to happen.
112 void AddEntriesExpectNoEviction(const HpackEntryVector& entries) {
113 for (HpackEntryVector::const_iterator it = entries.begin();
114 it != entries.end(); ++it) {
115 HpackHeaderTable::EntryTable::iterator begin, end;
116
117 table_.EvictionSet(it->name(), it->value(), &begin, &end);
118 EXPECT_EQ(0, distance(begin, end));
119
120 const HpackEntry* entry = table_.TryAddEntry(it->name(), it->value());
121 EXPECT_NE(entry, static_cast<HpackEntry*>(NULL));
122 }
123
124 for (size_t i = 0; i != entries.size(); ++i) {
125 // Static table has 61 entries, dynamic entries follow those.
126 size_t index = 61 + entries.size() - i;
127 const HpackEntry* entry = table_.GetByIndex(index);
128 EXPECT_EQ(entries[i].name(), entry->name());
129 EXPECT_EQ(entries[i].value(), entry->value());
130 EXPECT_EQ(index, table_.IndexOf(entry));
131 }
132 }
133
134 HpackEntry DynamicEntry(string name, string value) {
135 peer_.AddDynamicEntry(name, value);
136 return peer_.dynamic_entries().back();
137 }
138
139 HpackHeaderTable table_;
140 test::HpackHeaderTablePeer peer_;
141 };
142
143 TEST_F(HpackHeaderTableTest, StaticTableInitialization) {
144 EXPECT_EQ(0u, table_.size());
145 EXPECT_EQ(kDefaultHeaderTableSizeSetting, table_.max_size());
146 EXPECT_EQ(kDefaultHeaderTableSizeSetting, table_.settings_size_bound());
147
148 EXPECT_EQ(0u, peer_.dynamic_entries_count());
149 EXPECT_EQ(peer_.static_entries().size(), peer_.total_insertions());
150
151 // Static entries have been populated and inserted into the table & index.
152 EXPECT_NE(0u, peer_.static_entries().size());
153 EXPECT_EQ(peer_.index_size(), peer_.static_entries().size());
154 for (size_t i = 0; i != peer_.static_entries().size(); ++i) {
155 const HpackEntry* entry = &peer_.static_entries()[i];
156
157 EXPECT_TRUE(entry->IsStatic());
158 EXPECT_EQ(entry, table_.GetByIndex(i + 1));
159 EXPECT_EQ(entry, table_.GetByNameAndValue(entry->name(), entry->value()));
160 }
161 }
162
163 TEST_F(HpackHeaderTableTest, BasicDynamicEntryInsertionAndEviction) {
164 size_t static_count = peer_.total_insertions();
165 const HpackEntry* first_static_entry = table_.GetByIndex(1);
166
167 EXPECT_EQ(1u, table_.IndexOf(first_static_entry));
168
169 const HpackEntry* entry = table_.TryAddEntry("header-key", "Header Value");
170 EXPECT_EQ("header-key", entry->name());
171 EXPECT_EQ("Header Value", entry->value());
172 EXPECT_FALSE(entry->IsStatic());
173
174 // Table counts were updated appropriately.
175 EXPECT_EQ(entry->Size(), table_.size());
176 EXPECT_EQ(1u, peer_.dynamic_entries_count());
177 EXPECT_EQ(peer_.dynamic_entries().size(), peer_.dynamic_entries_count());
178 EXPECT_EQ(static_count + 1, peer_.total_insertions());
179 EXPECT_EQ(static_count + 1, peer_.index_size());
180
181 // Index() of entries reflects the insertion.
182 EXPECT_EQ(1u, table_.IndexOf(first_static_entry));
183 // Static table has 61 entries.
184 EXPECT_EQ(62u, table_.IndexOf(entry));
185 EXPECT_EQ(first_static_entry, table_.GetByIndex(1));
186 EXPECT_EQ(entry, table_.GetByIndex(62));
187
188 // Evict |entry|. Table counts are again updated appropriately.
189 peer_.Evict(1);
190 EXPECT_EQ(0u, table_.size());
191 EXPECT_EQ(0u, peer_.dynamic_entries_count());
192 EXPECT_EQ(peer_.dynamic_entries().size(), peer_.dynamic_entries_count());
193 EXPECT_EQ(static_count + 1, peer_.total_insertions());
194 EXPECT_EQ(static_count, peer_.index_size());
195
196 // Index() of |first_static_entry| reflects the eviction.
197 EXPECT_EQ(1u, table_.IndexOf(first_static_entry));
198 EXPECT_EQ(first_static_entry, table_.GetByIndex(1));
199 }
200
201 TEST_F(HpackHeaderTableTest, EntryIndexing) {
202 const HpackEntry* first_static_entry = table_.GetByIndex(1);
203
204 // Static entries are queryable by name & value.
205 EXPECT_EQ(first_static_entry, table_.GetByName(first_static_entry->name()));
206 EXPECT_EQ(first_static_entry, table_.GetByNameAndValue(
207 first_static_entry->name(), first_static_entry->value()));
208
209 // Create a mix of entries which duplicate names, and names & values of both
210 // dynamic and static entries.
211 const HpackEntry* entry1 = table_.TryAddEntry(first_static_entry->name(),
212 first_static_entry->value());
213 const HpackEntry* entry2 =
214 table_.TryAddEntry(first_static_entry->name(), "Value Four");
215 const HpackEntry* entry3 = table_.TryAddEntry("key-1", "Value One");
216 const HpackEntry* entry4 = table_.TryAddEntry("key-2", "Value Three");
217 const HpackEntry* entry5 = table_.TryAddEntry("key-1", "Value Two");
218 const HpackEntry* entry6 = table_.TryAddEntry("key-2", "Value Three");
219 const HpackEntry* entry7 = table_.TryAddEntry("key-2", "Value Four");
220
221 // Entries are queryable under their current index.
222 EXPECT_EQ(entry7, table_.GetByIndex(62));
223 EXPECT_EQ(entry6, table_.GetByIndex(63));
224 EXPECT_EQ(entry5, table_.GetByIndex(64));
225 EXPECT_EQ(entry4, table_.GetByIndex(65));
226 EXPECT_EQ(entry3, table_.GetByIndex(66));
227 EXPECT_EQ(entry2, table_.GetByIndex(67));
228 EXPECT_EQ(entry1, table_.GetByIndex(68));
229 EXPECT_EQ(first_static_entry, table_.GetByIndex(1));
230
231 // Querying by name returns the lowest-value matching entry.
232 EXPECT_EQ(entry3, table_.GetByName("key-1"));
233 EXPECT_EQ(entry7, table_.GetByName("key-2"));
234 EXPECT_EQ(entry2->name(),
235 table_.GetByName(first_static_entry->name())->name());
236 EXPECT_EQ(NULL, table_.GetByName("not-present"));
237
238 // Querying by name & value returns the lowest-index matching entry among
239 // static entries, and the highest-index one among dynamic entries.
240 EXPECT_EQ(entry3, table_.GetByNameAndValue("key-1", "Value One"));
241 EXPECT_EQ(entry5, table_.GetByNameAndValue("key-1", "Value Two"));
242 EXPECT_EQ(entry4, table_.GetByNameAndValue("key-2", "Value Three"));
243 EXPECT_EQ(entry7, table_.GetByNameAndValue("key-2", "Value Four"));
244 EXPECT_EQ(first_static_entry,
245 table_.GetByNameAndValue(first_static_entry->name(),
246 first_static_entry->value()));
247 EXPECT_EQ(entry2, table_.GetByNameAndValue(first_static_entry->name(),
248 "Value Four"));
249 EXPECT_EQ(NULL, table_.GetByNameAndValue("key-1", "Not Present"));
250 EXPECT_EQ(NULL, table_.GetByNameAndValue("not-present", "Value One"));
251
252 // Evict |entry1|. Queries for its name & value now return the static entry.
253 // |entry2| remains queryable.
254 peer_.Evict(1);
255 EXPECT_EQ(first_static_entry,
256 table_.GetByNameAndValue(first_static_entry->name(),
257 first_static_entry->value()));
258 EXPECT_EQ(entry2, table_.GetByNameAndValue(first_static_entry->name(),
259 "Value Four"));
260
261 // Evict |entry2|. Queries by its name & value are not found.
262 peer_.Evict(1);
263 EXPECT_EQ(NULL, table_.GetByNameAndValue(first_static_entry->name(),
264 "Value Four"));
265 }
266
267 TEST_F(HpackHeaderTableTest, SetSizes) {
268 string key = "key", value = "value";
269 const HpackEntry* entry1 = table_.TryAddEntry(key, value);
270 const HpackEntry* entry2 = table_.TryAddEntry(key, value);
271 const HpackEntry* entry3 = table_.TryAddEntry(key, value);
272
273 // Set exactly large enough. No Evictions.
274 size_t max_size = entry1->Size() + entry2->Size() + entry3->Size();
275 table_.SetMaxSize(max_size);
276 EXPECT_EQ(3u, peer_.dynamic_entries().size());
277
278 // Set just too small. One eviction.
279 max_size = entry1->Size() + entry2->Size() + entry3->Size() - 1;
280 table_.SetMaxSize(max_size);
281 EXPECT_EQ(2u, peer_.dynamic_entries().size());
282
283 // Changing SETTINGS_HEADER_TABLE_SIZE doesn't affect table_.max_size(),
284 // iff SETTINGS_HEADER_TABLE_SIZE >= |max_size|.
285 EXPECT_EQ(kDefaultHeaderTableSizeSetting, table_.settings_size_bound());
286 table_.SetSettingsHeaderTableSize(kDefaultHeaderTableSizeSetting*2);
287 EXPECT_EQ(max_size, table_.max_size());
288 table_.SetSettingsHeaderTableSize(max_size + 1);
289 EXPECT_EQ(max_size, table_.max_size());
290 EXPECT_EQ(2u, peer_.dynamic_entries().size());
291
292 // SETTINGS_HEADER_TABLE_SIZE upper-bounds |table_.max_size()|,
293 // and will force evictions.
294 max_size = entry3->Size() - 1;
295 table_.SetSettingsHeaderTableSize(max_size);
296 EXPECT_EQ(max_size, table_.max_size());
297 EXPECT_EQ(max_size, table_.settings_size_bound());
298 EXPECT_EQ(0u, peer_.dynamic_entries().size());
299 }
300
301 TEST_F(HpackHeaderTableTest, EvictionCountForEntry) {
302 string key = "key", value = "value";
303 const HpackEntry* entry1 = table_.TryAddEntry(key, value);
304 const HpackEntry* entry2 = table_.TryAddEntry(key, value);
305 size_t entry3_size = HpackEntry::Size(key, value);
306
307 // Just enough capacity for third entry.
308 table_.SetMaxSize(entry1->Size() + entry2->Size() + entry3_size);
309 EXPECT_EQ(0u, peer_.EvictionCountForEntry(key, value));
310 EXPECT_EQ(1u, peer_.EvictionCountForEntry(key, value + "x"));
311
312 // No extra capacity. Third entry would force evictions.
313 table_.SetMaxSize(entry1->Size() + entry2->Size());
314 EXPECT_EQ(1u, peer_.EvictionCountForEntry(key, value));
315 EXPECT_EQ(2u, peer_.EvictionCountForEntry(key, value + "x"));
316 }
317
318 TEST_F(HpackHeaderTableTest, EvictionCountToReclaim) {
319 string key = "key", value = "value";
320 const HpackEntry* entry1 = table_.TryAddEntry(key, value);
321 const HpackEntry* entry2 = table_.TryAddEntry(key, value);
322
323 EXPECT_EQ(1u, peer_.EvictionCountToReclaim(1));
324 EXPECT_EQ(1u, peer_.EvictionCountToReclaim(entry1->Size()));
325 EXPECT_EQ(2u, peer_.EvictionCountToReclaim(entry1->Size() + 1));
326 EXPECT_EQ(2u, peer_.EvictionCountToReclaim(entry1->Size() + entry2->Size()));
327 }
328
329 // Fill a header table with entries. Make sure the entries are in
330 // reverse order in the header table.
331 TEST_F(HpackHeaderTableTest, TryAddEntryBasic) {
332 EXPECT_EQ(0u, table_.size());
333 EXPECT_EQ(table_.settings_size_bound(), table_.max_size());
334
335 HpackEntryVector entries = MakeEntriesOfTotalSize(table_.max_size());
336
337 // Most of the checks are in AddEntriesExpectNoEviction().
338 AddEntriesExpectNoEviction(entries);
339 EXPECT_EQ(table_.max_size(), table_.size());
340 EXPECT_EQ(table_.settings_size_bound(), table_.size());
341 }
342
343 // Fill a header table with entries, and then ramp the table's max
344 // size down to evict an entry one at a time. Make sure the eviction
345 // happens as expected.
346 TEST_F(HpackHeaderTableTest, SetMaxSize) {
347 HpackEntryVector entries = MakeEntriesOfTotalSize(
348 kDefaultHeaderTableSizeSetting / 2);
349 AddEntriesExpectNoEviction(entries);
350
351 for (HpackEntryVector::iterator it = entries.begin();
352 it != entries.end(); ++it) {
353 size_t expected_count = distance(it, entries.end());
354 EXPECT_EQ(expected_count, peer_.dynamic_entries().size());
355
356 table_.SetMaxSize(table_.size() + 1);
357 EXPECT_EQ(expected_count, peer_.dynamic_entries().size());
358
359 table_.SetMaxSize(table_.size());
360 EXPECT_EQ(expected_count, peer_.dynamic_entries().size());
361
362 --expected_count;
363 table_.SetMaxSize(table_.size() - 1);
364 EXPECT_EQ(expected_count, peer_.dynamic_entries().size());
365 }
366 EXPECT_EQ(0u, table_.size());
367 }
368
369 // Fill a header table with entries, and then add an entry just big
370 // enough to cause eviction of all but one entry. Make sure the
371 // eviction happens as expected and the long entry is inserted into
372 // the table.
373 TEST_F(HpackHeaderTableTest, TryAddEntryEviction) {
374 HpackEntryVector entries = MakeEntriesOfTotalSize(table_.max_size());
375 AddEntriesExpectNoEviction(entries);
376
377 const HpackEntry* survivor_entry = table_.GetByIndex(61 + 1);
378 HpackEntry long_entry =
379 MakeEntryOfSize(table_.max_size() - survivor_entry->Size());
380
381 // All dynamic entries but the first are to be evicted.
382 EXPECT_EQ(peer_.dynamic_entries().size() - 1, peer_.EvictionSet(
383 long_entry.name(), long_entry.value()).size());
384
385 const HpackEntry* new_entry =
386 table_.TryAddEntry(long_entry.name(), long_entry.value());
387 EXPECT_EQ(62u, table_.IndexOf(new_entry));
388 EXPECT_EQ(2u, peer_.dynamic_entries().size());
389 EXPECT_EQ(table_.GetByIndex(63), survivor_entry);
390 EXPECT_EQ(table_.GetByIndex(62), new_entry);
391 }
392
393 // Fill a header table with entries, and then add an entry bigger than
394 // the entire table. Make sure no entry remains in the table.
395 TEST_F(HpackHeaderTableTest, TryAddTooLargeEntry) {
396 HpackEntryVector entries = MakeEntriesOfTotalSize(table_.max_size());
397 AddEntriesExpectNoEviction(entries);
398
399 const HpackEntry long_entry = MakeEntryOfSize(table_.max_size() + 1);
400
401 // All entries are to be evicted.
402 EXPECT_EQ(peer_.dynamic_entries().size(), peer_.EvictionSet(
403 long_entry.name(), long_entry.value()).size());
404
405 const HpackEntry* new_entry =
406 table_.TryAddEntry(long_entry.name(), long_entry.value());
407 EXPECT_EQ(new_entry, static_cast<HpackEntry*>(NULL));
408 EXPECT_EQ(0u, peer_.dynamic_entries().size());
409 }
410
411 TEST_F(HpackHeaderTableTest, ComparatorNameOrdering) {
412 HpackEntry entry1("header", "value");
413 HpackEntry entry2("HEADER", "value");
414
415 HpackHeaderTable::EntryComparator comparator;
416 EXPECT_FALSE(comparator(&entry1, &entry2));
417 EXPECT_TRUE(comparator(&entry2, &entry1));
418 }
419
420 TEST_F(HpackHeaderTableTest, ComparatorValueOrdering) {
421 HpackEntry entry1("header", "value");
422 HpackEntry entry2("header", "VALUE");
423
424 HpackHeaderTable::EntryComparator comparator;
425 EXPECT_FALSE(comparator(&entry1, &entry2));
426 EXPECT_TRUE(comparator(&entry2, &entry1));
427 }
428
429 TEST_F(HpackHeaderTableTest, ComparatorIndexOrdering) {
430 HpackHeaderTable::EntryComparator comparator;
431 HpackEntry entry1(DynamicEntry("name", "value"));
432 HpackEntry entry2(DynamicEntry("name", "value"));
433
434 // |entry1| has lower insertion index than |entry2|.
435 EXPECT_TRUE(comparator(&entry1, &entry2));
436 EXPECT_FALSE(comparator(&entry2, &entry1));
437 }
438
439 TEST_F(HpackHeaderTableTest, ComparatorEqualityOrdering) {
440 HpackEntry entry1("name", "value");
441 HpackEntry entry2(DynamicEntry("name", "value"));
442
443 HpackHeaderTable::EntryComparator comparator;
444 EXPECT_FALSE(comparator(&entry1, &entry1));
445 EXPECT_FALSE(comparator(&entry2, &entry2));
446 }
447
448 } // namespace
449
450 } // namespace net