Re-enable WebInputEventAuraTest.TestMakeWebKeyboardEventWindowsKeyCode
[chromium-blink-merge.git] / components / visitedlink / test / visitedlink_perftest.cc
blobfd598c15d5c33da9c50835214f1d27f680128eec
1 // Copyright (c) 2010 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 <algorithm>
6 #include <string>
7 #include <vector>
9 #include "base/files/file_path.h"
10 #include "base/files/file_util.h"
11 #include "base/memory/shared_memory.h"
12 #include "base/strings/stringprintf.h"
13 #include "base/test/perf_log.h"
14 #include "base/test/perf_time_logger.h"
15 #include "base/test/test_file_util.h"
16 #include "base/timer/elapsed_timer.h"
17 #include "components/visitedlink/browser/visitedlink_master.h"
18 #include "testing/gtest/include/gtest/gtest.h"
19 #include "url/gurl.h"
21 using base::TimeDelta;
23 namespace visitedlink {
25 namespace {
27 // how we generate URLs, note that the two strings should be the same length
28 const int add_count = 10000;
29 const int load_test_add_count = 250000;
30 const char added_prefix[] = "http://www.google.com/stuff/something/foo?session=85025602345625&id=1345142319023&seq=";
31 const char unadded_prefix[] = "http://www.google.org/stuff/something/foo?session=39586739476365&id=2347624314402&seq=";
33 // Returns a URL with the given prefix and index
34 GURL TestURL(const char* prefix, int i) {
35 return GURL(base::StringPrintf("%s%d", prefix, i));
38 // We have no slaves, so all methods on this listener are a no-ops.
39 class DummyVisitedLinkEventListener : public VisitedLinkMaster::Listener {
40 public:
41 DummyVisitedLinkEventListener() {}
42 void NewTable(base::SharedMemory* table) override {}
43 void Add(VisitedLinkCommon::Fingerprint) override {}
44 void Reset() override {}
48 // this checks IsVisited for the URLs starting with the given prefix and
49 // within the given range
50 void CheckVisited(VisitedLinkMaster& master, const char* prefix,
51 int begin, int end) {
52 for (int i = begin; i < end; i++)
53 master.IsVisited(TestURL(prefix, i));
56 // Fills that master's table with URLs starting with the given prefix and
57 // within the given range
58 void FillTable(VisitedLinkMaster& master, const char* prefix,
59 int begin, int end) {
60 for (int i = begin; i < end; i++)
61 master.AddURL(TestURL(prefix, i));
64 class VisitedLink : public testing::Test {
65 protected:
66 base::FilePath db_path_;
67 void SetUp() override { ASSERT_TRUE(base::CreateTemporaryFile(&db_path_)); }
68 void TearDown() override { base::DeleteFile(db_path_, false); }
71 } // namespace
73 // This test tests adding many things to a database, and how long it takes
74 // to query the database with different numbers of things in it. The time
75 // is the total time to do all the operations, and as such, it is only
76 // useful for a regression test. If there is a regression, it might be
77 // useful to make another set of tests to test these things in isolation.
78 TEST_F(VisitedLink, TestAddAndQuery) {
79 // init
80 VisitedLinkMaster master(new DummyVisitedLinkEventListener(),
81 NULL, true, true, db_path_, 0);
82 ASSERT_TRUE(master.Init());
84 base::PerfTimeLogger timer("Visited_link_add_and_query");
86 // first check without anything in the table
87 CheckVisited(master, added_prefix, 0, add_count);
89 // now fill half the table
90 const int half_size = add_count / 2;
91 FillTable(master, added_prefix, 0, half_size);
93 // check the table again, half of these URLs will be visited, the other half
94 // will not
95 CheckVisited(master, added_prefix, 0, add_count);
97 // fill the rest of the table
98 FillTable(master, added_prefix, half_size, add_count);
100 // check URLs, doing half visited, half unvisited
101 CheckVisited(master, added_prefix, 0, add_count);
102 CheckVisited(master, unadded_prefix, 0, add_count);
105 // Tests how long it takes to write and read a large database to and from disk.
106 TEST_F(VisitedLink, TestLoad) {
107 // create a big DB
109 base::PerfTimeLogger table_initialization_timer("Table_initialization");
111 VisitedLinkMaster master(new DummyVisitedLinkEventListener(),
112 NULL, true, true, db_path_, 0);
114 // time init with empty table
115 base::PerfTimeLogger initTimer("Empty_visited_link_init");
116 bool success = master.Init();
117 initTimer.Done();
118 ASSERT_TRUE(success);
120 // add a bunch of stuff
121 // TODO(maruel): This is very inefficient because the file gets rewritten
122 // many time and this is the actual bottleneck of this test. The file should
123 // only get written that the end of the FillTable call, not 4169(!) times.
124 FillTable(master, added_prefix, 0, load_test_add_count);
126 // time writing the file out out
127 base::PerfTimeLogger flushTimer("Visited_link_database_flush");
128 master.RewriteFile();
129 // TODO(maruel): Without calling FlushFileBuffers(master.file_); you don't
130 // know really how much time it took to write the file.
131 flushTimer.Done();
133 table_initialization_timer.Done();
136 // test loading the DB back, we do this several times since the flushing is
137 // not very reliable.
138 const int load_count = 5;
139 std::vector<double> cold_load_times;
140 std::vector<double> hot_load_times;
141 for (int i = 0; i < load_count; i++) {
142 // make sure the file has to be re-loaded
143 base::EvictFileFromSystemCache(db_path_);
145 // cold load (no OS cache, hopefully)
147 base::ElapsedTimer cold_timer;
149 VisitedLinkMaster master(new DummyVisitedLinkEventListener(),
150 NULL,
151 true,
152 true,
153 db_path_,
155 bool success = master.Init();
156 TimeDelta elapsed = cold_timer.Elapsed();
157 ASSERT_TRUE(success);
159 cold_load_times.push_back(elapsed.InMillisecondsF());
162 // hot load (with OS caching the file in memory)
164 base::ElapsedTimer hot_timer;
166 VisitedLinkMaster master(new DummyVisitedLinkEventListener(),
167 NULL,
168 true,
169 true,
170 db_path_,
172 bool success = master.Init();
173 TimeDelta elapsed = hot_timer.Elapsed();
174 ASSERT_TRUE(success);
176 hot_load_times.push_back(elapsed.InMillisecondsF());
180 // We discard the max and return the average time.
181 cold_load_times.erase(std::max_element(cold_load_times.begin(),
182 cold_load_times.end()));
183 hot_load_times.erase(std::max_element(hot_load_times.begin(),
184 hot_load_times.end()));
186 double cold_sum = 0, hot_sum = 0;
187 for (int i = 0; i < static_cast<int>(cold_load_times.size()); i++) {
188 cold_sum += cold_load_times[i];
189 hot_sum += hot_load_times[i];
191 base::LogPerfResult(
192 "Visited_link_cold_load_time", cold_sum / cold_load_times.size(), "ms");
193 base::LogPerfResult(
194 "Visited_link_hot_load_time", hot_sum / hot_load_times.size(), "ms");
197 } // namespace visitedlink