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gerrit.omnirom.org / android_hardware_interfaces / f2c7c12139dbced957c087c6f2d15f518734b2fd / . / tv / tuner / 1.1 / vts / functional / DvrTests.cpp
blob: 1e478f56dcfd41c4d57b4eb3be93f4a16a975214 [file] [log] [blame]
Amy Zhang68afca62020-07-20 18:28:58 -0700[diff] [blame]1/*
2 * Copyright 2020 The Android Open Source Project
3 *
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
7 *
8 * http://www.apache.org/licenses/LICENSE-2.0
9 *
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
15 */
16
17#include "DvrTests.h"
18
19void DvrCallback::startPlaybackInputThread(string& dataInputFile, PlaybackSettings& settings,
20 MQDesc& playbackMQDescriptor) {
21 mInputDataFile = dataInputFile;
22 mPlaybackSettings = settings;
23 mPlaybackMQ = std::make_unique<FilterMQ>(playbackMQDescriptor, true /* resetPointers */);
24 EXPECT_TRUE(mPlaybackMQ);
25 pthread_create(&mPlaybackThread, NULL, __threadLoopPlayback, this);
26 pthread_setname_np(mPlaybackThread, "test_playback_input_loop");
27}
28
29void DvrCallback::stopPlaybackThread() {
30 mPlaybackThreadRunning = false;
31 mKeepWritingPlaybackFMQ = false;
32
33 android::Mutex::Autolock autoLock(mPlaybackThreadLock);
34}
35
36void* DvrCallback::__threadLoopPlayback(void* user) {
37 DvrCallback* const self = static_cast<DvrCallback*>(user);
38 self->playbackThreadLoop();
39 return 0;
40}
41
42void DvrCallback::playbackThreadLoop() {
43 android::Mutex::Autolock autoLock(mPlaybackThreadLock);
44 mPlaybackThreadRunning = true;
45
46 // Create the EventFlag that is used to signal the HAL impl that data have been
47 // written into the Playback FMQ
48 EventFlag* playbackMQEventFlag;
49 EXPECT_TRUE(EventFlag::createEventFlag(mPlaybackMQ->getEventFlagWord(), &playbackMQEventFlag) ==
50 android::OK);
51
52 int fd = open(mInputDataFile.c_str(), O_RDONLY | O_LARGEFILE);
53 int readBytes;
54 uint32_t regionSize = 0;
55 uint8_t* buffer;
56 ALOGW("[vts] playback thread loop start %s", mInputDataFile.c_str());
57 if (fd < 0) {
58 mPlaybackThreadRunning = false;
59 ALOGW("[vts] Error %s", strerror(errno));
60 }
61
62 while (mPlaybackThreadRunning) {
63 while (mKeepWritingPlaybackFMQ) {
64 int totalWrite = mPlaybackMQ->availableToWrite();
65 if (totalWrite * 4 < mPlaybackMQ->getQuantumCount()) {
66 // Wait for the HAL implementation to read more data then write.
67 continue;
68 }
69 MessageQueue<uint8_t, kSynchronizedReadWrite>::MemTransaction memTx;
70 if (!mPlaybackMQ->beginWrite(totalWrite, &memTx)) {
71 ALOGW("[vts] Fail to write into Playback fmq.");
72 mPlaybackThreadRunning = false;
73 break;
74 }
75 auto first = memTx.getFirstRegion();
76 buffer = first.getAddress();
77 regionSize = first.getLength();
78
79 if (regionSize > 0) {
80 readBytes = read(fd, buffer, regionSize);
81 if (readBytes <= 0) {
82 if (readBytes < 0) {
83 ALOGW("[vts] Read from %s failed.", mInputDataFile.c_str());
84 } else {
85 ALOGW("[vts] playback input EOF.");
86 }
87 mPlaybackThreadRunning = false;
88 break;
89 }
90 }
91 if (regionSize == 0 || (readBytes == regionSize && regionSize < totalWrite)) {
92 auto second = memTx.getSecondRegion();
93 buffer = second.getAddress();
94 regionSize = second.getLength();
95 int ret = read(fd, buffer, regionSize);
96 if (ret <= 0) {
97 if (ret < 0) {
98 ALOGW("[vts] Read from %s failed.", mInputDataFile.c_str());
99 } else {
100 ALOGW("[vts] playback input EOF.");
101 }
102 mPlaybackThreadRunning = false;
103 break;
104 }
105 readBytes += ret;
106 }
107 if (!mPlaybackMQ->commitWrite(readBytes)) {
108 ALOGW("[vts] Failed to commit write playback fmq.");
109 mPlaybackThreadRunning = false;
110 break;
111 }
112 playbackMQEventFlag->wake(static_cast<uint32_t>(DemuxQueueNotifyBits::DATA_READY));
113 }
114 }
115
116 mPlaybackThreadRunning = false;
117 ALOGW("[vts] Playback thread end.");
118 close(fd);
119}
120
121void DvrCallback::testRecordOutput() {
122 android::Mutex::Autolock autoLock(mMsgLock);
123 while (mDataOutputBuffer.empty()) {
124 if (-ETIMEDOUT == mMsgCondition.waitRelative(mMsgLock, WAIT_TIMEOUT)) {
125 EXPECT_TRUE(false) << "record output matching pid does not output within timeout";
126 stopRecordThread();
127 return;
128 }
129 }
130 stopRecordThread();
131 ALOGW("[vts] record pass and stop");
132}
133
134void DvrCallback::startRecordOutputThread(RecordSettings recordSettings,
135 MQDesc& recordMQDescriptor) {
136 mRecordMQ = std::make_unique<FilterMQ>(recordMQDescriptor, true /* resetPointers */);
137 EXPECT_TRUE(mRecordMQ);
138 struct RecordThreadArgs* threadArgs =
139 (struct RecordThreadArgs*)malloc(sizeof(struct RecordThreadArgs));
140 threadArgs->user = this;
141 threadArgs->recordSettings = &recordSettings;
142 threadArgs->keepReadingRecordFMQ = &mKeepReadingRecordFMQ;
143
144 pthread_create(&mRecordThread, NULL, __threadLoopRecord, (void*)threadArgs);
145 pthread_setname_np(mRecordThread, "test_record_input_loop");
146}
147
148void* DvrCallback::__threadLoopRecord(void* threadArgs) {
149 DvrCallback* const self =
150 static_cast<DvrCallback*>(((struct RecordThreadArgs*)threadArgs)->user);
151 self->recordThreadLoop(((struct RecordThreadArgs*)threadArgs)->recordSettings,
152 ((struct RecordThreadArgs*)threadArgs)->keepReadingRecordFMQ);
153 return 0;
154}
155
156void DvrCallback::recordThreadLoop(RecordSettings* /*recordSettings*/, bool* keepReadingRecordFMQ) {
157 ALOGD("[vts] DvrCallback record threadLoop start.");
158 android::Mutex::Autolock autoLock(mRecordThreadLock);
159 mRecordThreadRunning = true;
160 mKeepReadingRecordFMQ = true;
161
162 // Create the EventFlag that is used to signal the HAL impl that data have been
163 // read from the Record FMQ
164 EventFlag* recordMQEventFlag;
165 EXPECT_TRUE(EventFlag::createEventFlag(mRecordMQ->getEventFlagWord(), &recordMQEventFlag) ==
166 android::OK);
167
168 while (mRecordThreadRunning) {
169 while (*keepReadingRecordFMQ) {
170 uint32_t efState = 0;
171 android::status_t status = recordMQEventFlag->wait(
172 static_cast<uint32_t>(DemuxQueueNotifyBits::DATA_READY), &efState, WAIT_TIMEOUT,
173 true /* retry on spurious wake */);
174 if (status != android::OK) {
175 ALOGD("[vts] wait for data ready on the record FMQ");
176 continue;
177 }
178 // Our current implementation filter the data and write it into the filter FMQ
179 // immediately after the DATA_READY from the VTS/framework
180 if (!readRecordFMQ()) {
181 ALOGD("[vts] record data failed to be filtered. Ending thread");
182 mRecordThreadRunning = false;
183 break;
184 }
185 }
186 }
187
188 mRecordThreadRunning = false;
189 ALOGD("[vts] record thread ended.");
190}
191
192bool DvrCallback::readRecordFMQ() {
193 android::Mutex::Autolock autoLock(mMsgLock);
194 bool result = false;
Amy Zhang4a6663f2020-10-19 16:13:35 -0700[diff] [blame]195 int readSize = mRecordMQ->availableToRead();
Amy Zhang68afca62020-07-20 18:28:58 -0700[diff] [blame]196 mDataOutputBuffer.clear();
Amy Zhang4a6663f2020-10-19 16:13:35 -0700[diff] [blame]197 mDataOutputBuffer.resize(readSize);
198 result = mRecordMQ->read(mDataOutputBuffer.data(), readSize);
Amy Zhang68afca62020-07-20 18:28:58 -0700[diff] [blame]199 EXPECT_TRUE(result) << "can't read from Record MQ";
200 mMsgCondition.signal();
201 return result;
202}
203
204void DvrCallback::stopRecordThread() {
205 mKeepReadingRecordFMQ = false;
206 mRecordThreadRunning = false;
207}
208
209AssertionResult DvrTests::openDvrInDemux(DvrType type, uint32_t bufferSize) {
210 Result status;
211 EXPECT_TRUE(mDemux) << "Test with openDemux first.";
212
213 // Create dvr callback
214 if (type == DvrType::PLAYBACK) {
215 mDvrPlaybackCallback = new DvrCallback();
216 mDemux->openDvr(type, bufferSize, mDvrPlaybackCallback,
217 [&](Result result, const sp<IDvr>& dvr) {
218 mDvrPlayback = dvr;
219 status = result;
220 });
221 if (status == Result::SUCCESS) {
222 mDvrPlaybackCallback->setDvr(mDvrPlayback);
223 }
224 }
225
226 if (type == DvrType::RECORD) {
227 mDvrRecordCallback = new DvrCallback();
228 mDemux->openDvr(type, bufferSize, mDvrRecordCallback,
229 [&](Result result, const sp<IDvr>& dvr) {
230 mDvrRecord = dvr;
231 status = result;
232 });
233 if (status == Result::SUCCESS) {
234 mDvrRecordCallback->setDvr(mDvrRecord);
235 }
236 }
237
238 return AssertionResult(status == Result::SUCCESS);
239}
240
241AssertionResult DvrTests::configDvrPlayback(DvrSettings setting) {
242 Result status = mDvrPlayback->configure(setting);
243
244 return AssertionResult(status == Result::SUCCESS);
245}
246
247AssertionResult DvrTests::configDvrRecord(DvrSettings setting) {
248 Result status = mDvrRecord->configure(setting);
249
250 return AssertionResult(status == Result::SUCCESS);
251}
252
253AssertionResult DvrTests::getDvrPlaybackMQDescriptor() {
254 Result status;
255 EXPECT_TRUE(mDemux) << "Test with openDemux first.";
256 EXPECT_TRUE(mDvrPlayback) << "Test with openDvr first.";
257
258 mDvrPlayback->getQueueDesc([&](Result result, const MQDesc& dvrMQDesc) {
259 mDvrPlaybackMQDescriptor = dvrMQDesc;
260 status = result;
261 });
262
263 return AssertionResult(status == Result::SUCCESS);
264}
265
266AssertionResult DvrTests::getDvrRecordMQDescriptor() {
267 Result status;
268 EXPECT_TRUE(mDemux) << "Test with openDemux first.";
269 EXPECT_TRUE(mDvrRecord) << "Test with openDvr first.";
270
271 mDvrRecord->getQueueDesc([&](Result result, const MQDesc& dvrMQDesc) {
272 mDvrRecordMQDescriptor = dvrMQDesc;
273 status = result;
274 });
275
276 return AssertionResult(status == Result::SUCCESS);
277}
278
279AssertionResult DvrTests::attachFilterToDvr(sp<IFilter> filter) {
280 Result status;
281 EXPECT_TRUE(mDemux) << "Test with openDemux first.";
282 EXPECT_TRUE(mDvrRecord) << "Test with openDvr first.";
283
284 status = mDvrRecord->attachFilter(filter);
285
286 return AssertionResult(status == Result::SUCCESS);
287}
288
289AssertionResult DvrTests::detachFilterToDvr(sp<IFilter> filter) {
290 Result status;
291 EXPECT_TRUE(mDemux) << "Test with openDemux first.";
292 EXPECT_TRUE(mDvrRecord) << "Test with openDvr first.";
293
294 status = mDvrRecord->detachFilter(filter);
295
296 return AssertionResult(status == Result::SUCCESS);
297}
298
299AssertionResult DvrTests::startDvrPlayback() {
300 Result status;
301 EXPECT_TRUE(mDemux) << "Test with openDemux first.";
302 EXPECT_TRUE(mDvrPlayback) << "Test with openDvr first.";
303
304 status = mDvrPlayback->start();
305
306 return AssertionResult(status == Result::SUCCESS);
307}
308
309AssertionResult DvrTests::stopDvrPlayback() {
310 Result status;
311 EXPECT_TRUE(mDemux) << "Test with openDemux first.";
312 EXPECT_TRUE(mDvrPlayback) << "Test with openDvr first.";
313
314 status = mDvrPlayback->stop();
315
316 return AssertionResult(status == Result::SUCCESS);
317}
318
319void DvrTests::closeDvrPlayback() {
320 ASSERT_TRUE(mDemux);
321 ASSERT_TRUE(mDvrPlayback);
322 ASSERT_TRUE(mDvrPlayback->close() == Result::SUCCESS);
323}
324
325AssertionResult DvrTests::startDvrRecord() {
326 Result status;
327 EXPECT_TRUE(mDemux) << "Test with openDemux first.";
328 EXPECT_TRUE(mDvrRecord) << "Test with openDvr first.";
329
330 status = mDvrRecord->start();
331
332 return AssertionResult(status == Result::SUCCESS);
333}
334
335AssertionResult DvrTests::stopDvrRecord() {
336 Result status;
337 EXPECT_TRUE(mDemux) << "Test with openDemux first.";
338 EXPECT_TRUE(mDvrRecord) << "Test with openDvr first.";
339
340 status = mDvrRecord->stop();
341
342 return AssertionResult(status == Result::SUCCESS);
343}
344
345void DvrTests::closeDvrRecord() {
346 ASSERT_TRUE(mDemux);
347 ASSERT_TRUE(mDvrRecord);
348 ASSERT_TRUE(mDvrRecord->close() == Result::SUCCESS);
349}