cygprofile: increase timeouts to allow showing web contents
[chromium-blink-merge.git] / components / drive / job_queue_unittest.cc
blobdc4ae5ec79a0d4efb70949b7fd444ca1e3601cad
1 // Copyright 2013 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 "components/drive/job_queue.h"
7 #include "testing/gtest/include/gtest/gtest.h"
9 namespace drive {
11 TEST(JobQueueTest, BasicJobQueueOperations) {
12 const size_t kNumMaxConcurrentJobs = 3;
13 const size_t kNumPriorityLevels = 2;
14 const size_t kNumMaxBatchJob = 0;
15 const size_t kMaxBatchSize = 0;
16 enum {HIGH_PRIORITY, LOW_PRIORITY};
18 // Create a queue. Number of jobs are initially zero.
19 JobQueue queue(kNumMaxConcurrentJobs, kNumPriorityLevels, kNumMaxBatchJob,
20 kMaxBatchSize);
21 EXPECT_EQ(0U, queue.GetNumberOfJobs());
23 // Push 4 jobs.
24 queue.Push(101, LOW_PRIORITY, false, 0);
25 queue.Push(102, HIGH_PRIORITY, false, 0);
26 queue.Push(103, LOW_PRIORITY, false, 0);
27 queue.Push(104, HIGH_PRIORITY, false, 0);
29 // High priority jobs should be popped first.
30 std::vector<JobID> ids;
31 queue.PopForRun(LOW_PRIORITY, &ids);
32 ASSERT_EQ(1u, ids.size());
33 EXPECT_EQ(102, ids[0]);
34 queue.PopForRun(LOW_PRIORITY, &ids);
35 ASSERT_EQ(1u, ids.size());
36 EXPECT_EQ(104, ids[0]);
38 // Then low priority jobs follow.
39 queue.PopForRun(LOW_PRIORITY, &ids);
40 ASSERT_EQ(1u, ids.size());
41 EXPECT_EQ(101, ids[0]);
43 // The queue allows at most 3 parallel runs. So returns false here.
44 queue.PopForRun(LOW_PRIORITY, &ids);
45 ASSERT_EQ(0u, ids.size());
47 // No jobs finished yet, so the job count is four.
48 EXPECT_EQ(4U, queue.GetNumberOfJobs());
50 // Mark one job as finished.
51 queue.MarkFinished(104);
52 EXPECT_EQ(3U, queue.GetNumberOfJobs());
54 // Then the next jobs can be popped.
55 queue.PopForRun(LOW_PRIORITY, &ids);
56 ASSERT_EQ(1u, ids.size());
57 EXPECT_EQ(103, ids[0]);
59 // Push 1 more job.
60 queue.Push(105, LOW_PRIORITY, false, 0);
62 // Finish all 3 running jobs.
63 queue.MarkFinished(101);
64 queue.MarkFinished(102);
65 queue.MarkFinished(103);
66 EXPECT_EQ(1U, queue.GetNumberOfJobs());
68 // The remaining jobs is of low priority, so under HIGH_PRIORITY context, it
69 // cannot be popped for running.
70 queue.PopForRun(HIGH_PRIORITY, &ids);
71 ASSERT_EQ(0u, ids.size());
73 // Under the low priority context, it is fine.
74 queue.PopForRun(LOW_PRIORITY, &ids);
75 ASSERT_EQ(1u, ids.size());
76 EXPECT_EQ(105, ids[0]);
79 TEST(JobQueueTest, JobQueueRemove) {
80 const size_t kNumMaxConcurrentJobs = 3;
81 const size_t kNumPriorityLevels = 2;
82 const size_t kNumMaxBatchJob = 0;
83 const size_t kMaxBatchSize = 0;
84 enum {HIGH_PRIORITY, LOW_PRIORITY};
86 // Create a queue. Number of jobs are initially zero.
87 JobQueue queue(kNumMaxConcurrentJobs, kNumPriorityLevels, kNumMaxBatchJob,
88 kMaxBatchSize);
89 EXPECT_EQ(0U, queue.GetNumberOfJobs());
91 // Push 4 jobs.
92 queue.Push(101, LOW_PRIORITY, false, 0);
93 queue.Push(102, HIGH_PRIORITY, false, 0);
94 queue.Push(103, LOW_PRIORITY, false, 0);
95 queue.Push(104, HIGH_PRIORITY, false, 0);
96 EXPECT_EQ(4U, queue.GetNumberOfJobs());
98 // Remove 2.
99 queue.Remove(101);
100 queue.Remove(104);
101 EXPECT_EQ(2U, queue.GetNumberOfJobs());
103 // Pop the 2 jobs.
104 std::vector<JobID> ids;
105 queue.PopForRun(LOW_PRIORITY, &ids);
106 ASSERT_EQ(1u, ids.size());
107 EXPECT_EQ(102, ids[0]);
108 queue.PopForRun(LOW_PRIORITY, &ids);
109 ASSERT_EQ(1u, ids.size());
110 EXPECT_EQ(103, ids[0]);
111 queue.MarkFinished(102);
112 queue.MarkFinished(103);
114 // 0 job left.
115 EXPECT_EQ(0U, queue.GetNumberOfJobs());
116 queue.PopForRun(LOW_PRIORITY, &ids);
117 ASSERT_EQ(0u, ids.size());
120 TEST(JobQueueTest, BatchRequest) {
121 const size_t kNumMaxConcurrentJobs = 1;
122 const size_t kNumPriorityLevels = 2;
123 const size_t kNumMaxBatchJob = 100;
124 const size_t kMaxBatchSize = 5;
125 enum { HIGH_PRIORITY, LOW_PRIORITY };
127 // Create a queue. Number of jobs are initially zero.
128 JobQueue queue(kNumMaxConcurrentJobs, kNumPriorityLevels, kNumMaxBatchJob,
129 kMaxBatchSize);
130 EXPECT_EQ(0U, queue.GetNumberOfJobs());
132 // Push 6 jobs.
133 queue.Push(101, LOW_PRIORITY, true, 1);
134 queue.Push(102, HIGH_PRIORITY, true, 1);
135 queue.Push(103, LOW_PRIORITY, false, 1);
136 queue.Push(104, HIGH_PRIORITY, true, 1);
137 queue.Push(105, LOW_PRIORITY, true, 1);
138 queue.Push(106, HIGH_PRIORITY, true, 10);
140 EXPECT_EQ(6U, queue.GetNumberOfJobs());
142 // Pop the 6 jobs.
143 std::vector<JobID> ids;
144 queue.PopForRun(LOW_PRIORITY, &ids);
145 ASSERT_EQ(2u, ids.size());
146 EXPECT_EQ(102, ids[0]);
147 EXPECT_EQ(104, ids[1]);
148 queue.MarkFinished(102);
149 queue.MarkFinished(104);
150 queue.PopForRun(LOW_PRIORITY, &ids);
151 ASSERT_EQ(1u, ids.size());
152 EXPECT_EQ(106, ids[0]);
153 queue.MarkFinished(106);
154 queue.PopForRun(LOW_PRIORITY, &ids);
155 ASSERT_EQ(1u, ids.size());
156 EXPECT_EQ(101, ids[0]);
157 queue.MarkFinished(101);
158 queue.PopForRun(LOW_PRIORITY, &ids);
159 ASSERT_EQ(1u, ids.size());
160 EXPECT_EQ(103, ids[0]);
161 queue.MarkFinished(103);
162 queue.PopForRun(LOW_PRIORITY, &ids);
163 ASSERT_EQ(1u, ids.size());
164 EXPECT_EQ(105, ids[0]);
165 queue.MarkFinished(105);
166 queue.PopForRun(LOW_PRIORITY, &ids);
167 EXPECT_EQ(0u, ids.size());
170 TEST(JobQueueTest, BatchRequstNumMaxJobs) {
171 const size_t kNumMaxConcurrentJobs = 1;
172 const size_t kNumPriorityLevels = 2;
173 const size_t kNumMaxBatchJob = 5;
174 const size_t kMaxBatchSize = 100;
175 enum { HIGH_PRIORITY, LOW_PRIORITY };
177 // Create a queue. Number of jobs are initially zero.
178 JobQueue queue(kNumMaxConcurrentJobs, kNumPriorityLevels, kNumMaxBatchJob,
179 kMaxBatchSize);
180 EXPECT_EQ(0U, queue.GetNumberOfJobs());
182 // Push 6 jobs.
183 queue.Push(101, LOW_PRIORITY, true, 1);
184 queue.Push(102, LOW_PRIORITY, true, 1);
185 queue.Push(103, LOW_PRIORITY, true, 1);
186 queue.Push(104, LOW_PRIORITY, true, 1);
187 queue.Push(105, LOW_PRIORITY, true, 1);
188 queue.Push(106, LOW_PRIORITY, true, 1);
190 EXPECT_EQ(6U, queue.GetNumberOfJobs());
192 // Pop the 5 of 6 jobs.
193 std::vector<JobID> ids;
194 queue.PopForRun(LOW_PRIORITY, &ids);
195 EXPECT_EQ(5u, ids.size());
198 } // namespace drive