Don't show supervised user as "already on this device" while they're being imported.
[chromium-blink-merge.git] / base / memory / discardable_shared_memory_unittest.cc
blob91b0b68523aed4d24a5425ea0f96fdb6cf96c04b
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 "base/basictypes.h"
6 #include "base/memory/discardable_shared_memory.h"
7 #include "base/process/process_metrics.h"
8 #include "testing/gtest/include/gtest/gtest.h"
10 namespace base {
11 namespace {
13 class TestDiscardableSharedMemory : public DiscardableSharedMemory {
14 public:
15 TestDiscardableSharedMemory() {}
17 explicit TestDiscardableSharedMemory(SharedMemoryHandle handle)
18 : DiscardableSharedMemory(handle) {}
20 void SetNow(Time now) { now_ = now; }
22 private:
23 // Overriden from DiscardableSharedMemory:
24 Time Now() const override { return now_; }
26 Time now_;
29 TEST(DiscardableSharedMemoryTest, CreateAndMap) {
30 const uint32 kDataSize = 1024;
32 TestDiscardableSharedMemory memory;
33 bool rv = memory.CreateAndMap(kDataSize);
34 ASSERT_TRUE(rv);
35 EXPECT_GE(memory.mapped_size(), kDataSize);
38 TEST(DiscardableSharedMemoryTest, CreateFromHandle) {
39 const uint32 kDataSize = 1024;
41 TestDiscardableSharedMemory memory1;
42 bool rv = memory1.CreateAndMap(kDataSize);
43 ASSERT_TRUE(rv);
45 SharedMemoryHandle shared_handle;
46 ASSERT_TRUE(
47 memory1.ShareToProcess(GetCurrentProcessHandle(), &shared_handle));
48 ASSERT_TRUE(SharedMemory::IsHandleValid(shared_handle));
50 TestDiscardableSharedMemory memory2(shared_handle);
51 rv = memory2.Map(kDataSize);
52 ASSERT_TRUE(rv);
55 TEST(DiscardableSharedMemoryTest, LockAndUnlock) {
56 const uint32 kDataSize = 1024;
58 TestDiscardableSharedMemory memory1;
59 bool rv = memory1.CreateAndMap(kDataSize);
60 ASSERT_TRUE(rv);
62 // Memory is initially locked. Unlock it.
63 memory1.SetNow(Time::FromDoubleT(1));
64 memory1.Unlock(0, 0);
66 // Lock and unlock memory.
67 auto lock_rv = memory1.Lock(0, 0);
68 EXPECT_EQ(DiscardableSharedMemory::SUCCESS, lock_rv);
69 memory1.SetNow(Time::FromDoubleT(2));
70 memory1.Unlock(0, 0);
72 // Lock again before duplicating and passing ownership to new instance.
73 lock_rv = memory1.Lock(0, 0);
74 EXPECT_EQ(DiscardableSharedMemory::SUCCESS, lock_rv);
76 SharedMemoryHandle shared_handle;
77 ASSERT_TRUE(
78 memory1.ShareToProcess(GetCurrentProcessHandle(), &shared_handle));
79 ASSERT_TRUE(SharedMemory::IsHandleValid(shared_handle));
81 TestDiscardableSharedMemory memory2(shared_handle);
82 rv = memory2.Map(kDataSize);
83 ASSERT_TRUE(rv);
85 // Unlock second instance.
86 memory2.SetNow(Time::FromDoubleT(3));
87 memory2.Unlock(0, 0);
89 // Lock second instance before passing ownership back to first instance.
90 lock_rv = memory2.Lock(0, 0);
91 EXPECT_EQ(DiscardableSharedMemory::SUCCESS, lock_rv);
93 // Memory should still be resident.
94 rv = memory1.IsMemoryResident();
95 EXPECT_TRUE(rv);
97 // Unlock first instance.
98 memory1.SetNow(Time::FromDoubleT(4));
99 memory1.Unlock(0, 0);
102 TEST(DiscardableSharedMemoryTest, Purge) {
103 const uint32 kDataSize = 1024;
105 TestDiscardableSharedMemory memory1;
106 bool rv = memory1.CreateAndMap(kDataSize);
107 ASSERT_TRUE(rv);
109 SharedMemoryHandle shared_handle;
110 ASSERT_TRUE(
111 memory1.ShareToProcess(GetCurrentProcessHandle(), &shared_handle));
112 ASSERT_TRUE(SharedMemory::IsHandleValid(shared_handle));
114 TestDiscardableSharedMemory memory2(shared_handle);
115 rv = memory2.Map(kDataSize);
116 ASSERT_TRUE(rv);
118 // This should fail as memory is locked.
119 rv = memory1.Purge(Time::FromDoubleT(1));
120 EXPECT_FALSE(rv);
122 memory2.SetNow(Time::FromDoubleT(2));
123 memory2.Unlock(0, 0);
125 ASSERT_TRUE(memory2.IsMemoryResident());
127 // Memory is unlocked, but our usage timestamp is incorrect.
128 rv = memory1.Purge(Time::FromDoubleT(3));
129 EXPECT_FALSE(rv);
131 ASSERT_TRUE(memory2.IsMemoryResident());
133 // Memory is unlocked and our usage timestamp should be correct.
134 rv = memory1.Purge(Time::FromDoubleT(4));
135 EXPECT_TRUE(rv);
137 // Lock should fail as memory has been purged.
138 auto lock_rv = memory2.Lock(0, 0);
139 EXPECT_EQ(DiscardableSharedMemory::FAILED, lock_rv);
141 ASSERT_FALSE(memory2.IsMemoryResident());
144 TEST(DiscardableSharedMemoryTest, LastUsed) {
145 const uint32 kDataSize = 1024;
147 TestDiscardableSharedMemory memory1;
148 bool rv = memory1.CreateAndMap(kDataSize);
149 ASSERT_TRUE(rv);
151 SharedMemoryHandle shared_handle;
152 ASSERT_TRUE(
153 memory1.ShareToProcess(GetCurrentProcessHandle(), &shared_handle));
154 ASSERT_TRUE(SharedMemory::IsHandleValid(shared_handle));
156 TestDiscardableSharedMemory memory2(shared_handle);
157 rv = memory2.Map(kDataSize);
158 ASSERT_TRUE(rv);
160 memory2.SetNow(Time::FromDoubleT(1));
161 memory2.Unlock(0, 0);
163 EXPECT_EQ(memory2.last_known_usage(), Time::FromDoubleT(1));
165 auto lock_rv = memory2.Lock(0, 0);
166 EXPECT_EQ(DiscardableSharedMemory::SUCCESS, lock_rv);
168 // This should fail as memory is locked.
169 rv = memory1.Purge(Time::FromDoubleT(2));
170 ASSERT_FALSE(rv);
172 // Last usage should have been updated to timestamp passed to Purge above.
173 EXPECT_EQ(memory1.last_known_usage(), Time::FromDoubleT(2));
175 memory2.SetNow(Time::FromDoubleT(3));
176 memory2.Unlock(0, 0);
178 // Usage time should be correct for |memory2| instance.
179 EXPECT_EQ(memory2.last_known_usage(), Time::FromDoubleT(3));
181 // However, usage time has not changed as far as |memory1| instance knows.
182 EXPECT_EQ(memory1.last_known_usage(), Time::FromDoubleT(2));
184 // Memory is unlocked, but our usage timestamp is incorrect.
185 rv = memory1.Purge(Time::FromDoubleT(4));
186 EXPECT_FALSE(rv);
188 // The failed purge attempt should have updated usage time to the correct
189 // value.
190 EXPECT_EQ(memory1.last_known_usage(), Time::FromDoubleT(3));
192 // Purge memory through |memory2| instance. The last usage time should be
193 // set to 0 as a result of this.
194 rv = memory2.Purge(Time::FromDoubleT(5));
195 EXPECT_TRUE(rv);
196 EXPECT_TRUE(memory2.last_known_usage().is_null());
198 // This should fail as memory has already been purged and |memory1|'s usage
199 // time is incorrect as a result.
200 rv = memory1.Purge(Time::FromDoubleT(6));
201 EXPECT_FALSE(rv);
203 // The failed purge attempt should have updated usage time to the correct
204 // value.
205 EXPECT_TRUE(memory1.last_known_usage().is_null());
207 // Purge should succeed now that usage time is correct.
208 rv = memory1.Purge(Time::FromDoubleT(7));
209 EXPECT_TRUE(rv);
212 TEST(DiscardableSharedMemoryTest, LockShouldAlwaysFailAfterSuccessfulPurge) {
213 const uint32 kDataSize = 1024;
215 TestDiscardableSharedMemory memory1;
216 bool rv = memory1.CreateAndMap(kDataSize);
217 ASSERT_TRUE(rv);
219 SharedMemoryHandle shared_handle;
220 ASSERT_TRUE(
221 memory1.ShareToProcess(GetCurrentProcessHandle(), &shared_handle));
222 ASSERT_TRUE(SharedMemory::IsHandleValid(shared_handle));
224 TestDiscardableSharedMemory memory2(shared_handle);
225 rv = memory2.Map(kDataSize);
226 ASSERT_TRUE(rv);
228 memory2.SetNow(Time::FromDoubleT(1));
229 memory2.Unlock(0, 0);
231 rv = memory2.Purge(Time::FromDoubleT(2));
232 EXPECT_TRUE(rv);
234 // Lock should fail as memory has been purged.
235 auto lock_rv = memory2.Lock(0, 0);
236 EXPECT_EQ(DiscardableSharedMemory::FAILED, lock_rv);
239 TEST(DiscardableSharedMemoryTest, LockAndUnlockRange) {
240 const uint32 kDataSize = 32;
242 uint32 data_size_in_bytes = kDataSize * base::GetPageSize();
244 TestDiscardableSharedMemory memory1;
245 bool rv = memory1.CreateAndMap(data_size_in_bytes);
246 ASSERT_TRUE(rv);
248 SharedMemoryHandle shared_handle;
249 ASSERT_TRUE(
250 memory1.ShareToProcess(GetCurrentProcessHandle(), &shared_handle));
251 ASSERT_TRUE(SharedMemory::IsHandleValid(shared_handle));
253 TestDiscardableSharedMemory memory2(shared_handle);
254 rv = memory2.Map(data_size_in_bytes);
255 ASSERT_TRUE(rv);
257 // Unlock first page.
258 memory2.SetNow(Time::FromDoubleT(1));
259 memory2.Unlock(0, base::GetPageSize());
261 rv = memory1.Purge(Time::FromDoubleT(2));
262 EXPECT_FALSE(rv);
264 // Lock first page again.
265 memory2.SetNow(Time::FromDoubleT(3));
266 auto lock_rv = memory2.Lock(0, base::GetPageSize());
267 EXPECT_NE(DiscardableSharedMemory::FAILED, lock_rv);
269 // Unlock first page.
270 memory2.SetNow(Time::FromDoubleT(4));
271 memory2.Unlock(0, base::GetPageSize());
273 rv = memory1.Purge(Time::FromDoubleT(5));
274 EXPECT_FALSE(rv);
276 // Unlock second page.
277 memory2.SetNow(Time::FromDoubleT(6));
278 memory2.Unlock(base::GetPageSize(), base::GetPageSize());
280 rv = memory1.Purge(Time::FromDoubleT(7));
281 EXPECT_FALSE(rv);
283 // Unlock anything onwards.
284 memory2.SetNow(Time::FromDoubleT(8));
285 memory2.Unlock(2 * base::GetPageSize(), 0);
287 // Memory is unlocked, but our usage timestamp is incorrect.
288 rv = memory1.Purge(Time::FromDoubleT(9));
289 EXPECT_FALSE(rv);
291 // The failed purge attempt should have updated usage time to the correct
292 // value.
293 EXPECT_EQ(Time::FromDoubleT(8), memory1.last_known_usage());
295 // Purge should now succeed.
296 rv = memory1.Purge(Time::FromDoubleT(10));
297 EXPECT_TRUE(rv);
300 TEST(DiscardableSharedMemoryTest, MappedSize) {
301 const uint32 kDataSize = 1024;
303 TestDiscardableSharedMemory memory;
304 bool rv = memory.CreateAndMap(kDataSize);
305 ASSERT_TRUE(rv);
307 EXPECT_LE(kDataSize, memory.mapped_size());
309 // Mapped size should be 0 after memory segment has been unmapped.
310 rv = memory.Unmap();
311 EXPECT_TRUE(rv);
312 EXPECT_EQ(0u, memory.mapped_size());
315 TEST(DiscardableSharedMemoryTest, Close) {
316 const uint32 kDataSize = 1024;
318 TestDiscardableSharedMemory memory;
319 bool rv = memory.CreateAndMap(kDataSize);
320 ASSERT_TRUE(rv);
322 // Mapped size should be unchanged after memory segment has been closed.
323 memory.Close();
324 EXPECT_LE(kDataSize, memory.mapped_size());
326 // Memory is initially locked. Unlock it.
327 memory.SetNow(Time::FromDoubleT(1));
328 memory.Unlock(0, 0);
330 // Lock and unlock memory.
331 auto lock_rv = memory.Lock(0, 0);
332 EXPECT_EQ(DiscardableSharedMemory::SUCCESS, lock_rv);
333 memory.SetNow(Time::FromDoubleT(2));
334 memory.Unlock(0, 0);
337 #if defined(DISCARDABLE_SHARED_MEMORY_SHRINKING)
338 TEST(DiscardableSharedMemoryTest, Shrink) {
339 const uint32 kDataSize = 1024;
341 TestDiscardableSharedMemory memory;
342 bool rv = memory.CreateAndMap(kDataSize);
343 ASSERT_TRUE(rv);
345 EXPECT_NE(0u, memory.mapped_size());
347 // Mapped size should be 0 after shrinking memory segment.
348 memory.Shrink();
349 EXPECT_EQ(0u, memory.mapped_size());
351 #endif
353 } // namespace
354 } // namespace base