1 /*
2 * Copyright (C) 2017 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 #define LOG_TAG "media_omx_hidl_video_dec_test"
18 #ifdef __LP64__
19 #define OMX_ANDROID_COMPILE_AS_32BIT_ON_64BIT_PLATFORMS
20 #endif
21
22 #include <android-base/logging.h>
23
24 #include <android/hardware/media/omx/1.0/IOmx.h>
25 #include <android/hardware/media/omx/1.0/IOmxNode.h>
26 #include <android/hardware/media/omx/1.0/IOmxObserver.h>
27 #include <android/hardware/media/omx/1.0/types.h>
28 #include <android/hidl/allocator/1.0/IAllocator.h>
29 #include <android/hidl/memory/1.0/IMapper.h>
30 #include <android/hidl/memory/1.0/IMemory.h>
31 #include <gtest/gtest.h>
32 #include <hidl/GtestPrinter.h>
33
34 using ::android::hardware::media::omx::V1_0::IOmx;
35 using ::android::hardware::media::omx::V1_0::IOmxObserver;
36 using ::android::hardware::media::omx::V1_0::IOmxNode;
37 using ::android::hardware::media::omx::V1_0::Message;
38 using ::android::hardware::media::omx::V1_0::CodecBuffer;
39 using ::android::hardware::media::omx::V1_0::PortMode;
40 using ::android::hidl::allocator::V1_0::IAllocator;
41 using ::android::hidl::memory::V1_0::IMemory;
42 using ::android::hidl::memory::V1_0::IMapper;
43 using ::android::hardware::Return;
44 using ::android::hardware::Void;
45 using ::android::hardware::hidl_vec;
46 using ::android::hardware::hidl_string;
47 using ::android::sp;
48
49 #include <getopt.h>
50 #include <media/hardware/HardwareAPI.h>
51 #include <media_video_hidl_test_common.h>
52 #include <fstream>
53
54 // Resource directory
55 std::string sResourceDir = "";
56
57 // video decoder test fixture class
58 class VideoDecHidlTest
59 : public ::testing::TestWithParam<std::tuple<std::string, std::string, std::string>> {
60 public:
getTestCaseInfo() const61 ::std::string getTestCaseInfo() const {
62 return ::std::string() + "Component: " + component_ + " | " + "Role: " + role_ + " | " +
63 "Instance: " + instance_ + " | " + "Res: " + sResourceDir;
64 }
65
SetUp()66 virtual void SetUp() override {
67 instance_ = std::get<0>(GetParam());
68 component_ = std::get<1>(GetParam());
69 role_ = std::get<2>(GetParam());
70 ASSERT_NE(sResourceDir.empty(), true);
71
72 disableTest = false;
73 android::hardware::media::omx::V1_0::Status status;
74 omx = IOmx::getService(instance_);
75 ASSERT_NE(omx, nullptr);
76 observer =
77 new CodecObserver([this](Message msg, const BufferInfo* buffer) {
78 handleMessage(msg, buffer);
79 });
80 ASSERT_NE(observer, nullptr);
81 if (component_.find("OMX.") != 0) disableTest = true;
82 EXPECT_TRUE(omx->allocateNode(component_, observer,
83 [&](android::hardware::media::omx::V1_0::Status _s,
84 sp<IOmxNode> const& _nl) {
85 status = _s;
86 this->omxNode = _nl;
87 })
88 .isOk());
89 if (status == android::hardware::media::omx::V1_0::Status::NAME_NOT_FOUND) {
90 disableTest = true;
91 std::cout << "[ WARN ] Test Disabled, component not present\n";
92 return;
93 }
94 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
95 ASSERT_NE(omxNode, nullptr);
96 ASSERT_NE(role_.empty(), true) << "Invalid Component Role";
97 struct StringToName {
98 const char* Name;
99 standardComp CompName;
100 };
101 const StringToName kStringToName[] = {
102 {"h263", h263}, {"avc", avc}, {"mpeg2", mpeg2}, {"mpeg4", mpeg4},
103 {"hevc", hevc}, {"vp8", vp8}, {"vp9", vp9},
104 };
105 const size_t kNumStringToName =
106 sizeof(kStringToName) / sizeof(kStringToName[0]);
107 const char* pch;
108 char substring[OMX_MAX_STRINGNAME_SIZE];
109 strcpy(substring, role_.c_str());
110 pch = strchr(substring, '.');
111 ASSERT_NE(pch, nullptr);
112 compName = unknown_comp;
113 for (size_t i = 0; i < kNumStringToName; ++i) {
114 if (!strcasecmp(pch + 1, kStringToName[i].Name)) {
115 compName = kStringToName[i].CompName;
116 break;
117 }
118 }
119 if (compName == unknown_comp) disableTest = true;
120 struct CompToCompression {
121 standardComp CompName;
122 OMX_VIDEO_CODINGTYPE eCompressionFormat;
123 };
124 static const CompToCompression kCompToCompression[] = {
125 {h263, OMX_VIDEO_CodingH263}, {avc, OMX_VIDEO_CodingAVC},
126 {mpeg2, OMX_VIDEO_CodingMPEG2}, {mpeg4, OMX_VIDEO_CodingMPEG4},
127 {hevc, OMX_VIDEO_CodingHEVC}, {vp8, OMX_VIDEO_CodingVP8},
128 {vp9, OMX_VIDEO_CodingVP9},
129 };
130 static const size_t kNumCompToCompression =
131 sizeof(kCompToCompression) / sizeof(kCompToCompression[0]);
132 size_t i;
133 for (i = 0; i < kNumCompToCompression; ++i) {
134 if (kCompToCompression[i].CompName == compName) {
135 eCompressionFormat = kCompToCompression[i].eCompressionFormat;
136 break;
137 }
138 }
139 if (i == kNumCompToCompression) disableTest = true;
140 portMode[0] = portMode[1] = PortMode::PRESET_BYTE_BUFFER;
141 eosFlag = false;
142 framesReceived = 0;
143 timestampUs = 0;
144 timestampDevTest = false;
145 isSecure = false;
146 portSettingsChange = false;
147 size_t suffixLen = strlen(".secure");
148 if (component_.rfind(".secure") == component_.length() - suffixLen) {
149 isSecure = true;
150 }
151 if (isSecure) disableTest = true;
152 omxNode->configureVideoTunnelMode(
153 1, OMX_TRUE, 0,
154 [&](android::hardware::media::omx::V1_0::Status _s,
155 const ::android::hardware::hidl_handle& sidebandHandle) {
156 (void)sidebandHandle;
157 if (_s == android::hardware::media::omx::V1_0::Status::OK)
158 this->disableTest = true;
159 });
160 if (disableTest) std::cout << "[ WARN ] Test Disabled \n";
161 // NOTES: secure and tunneled components are not covered in these tests.
162 // we are disabling tests for them
163 }
164
TearDown()165 virtual void TearDown() override {
166 if (omxNode != nullptr) {
167 // If you have encountered a fatal failure, it is possible that
168 // freeNode() will not go through. Instead of hanging the app.
169 // let it pass through and report errors
170 if (::testing::Test::HasFatalFailure()) return;
171 EXPECT_TRUE((omxNode->freeNode()).isOk());
172 omxNode = nullptr;
173 }
174 }
175
176 // callback function to process messages received by onMessages() from IL
177 // client.
handleMessage(Message msg,const BufferInfo * buffer)178 void handleMessage(Message msg, const BufferInfo* buffer) {
179 (void)buffer;
180 if (msg.type == Message::Type::FILL_BUFFER_DONE) {
181 if (msg.data.extendedBufferData.flags & OMX_BUFFERFLAG_EOS) {
182 eosFlag = true;
183 }
184 if (msg.data.extendedBufferData.rangeLength != 0) {
185 framesReceived += 1;
186 // For decoder components current timestamp always exceeds
187 // previous timestamp
188 EXPECT_GE(msg.data.extendedBufferData.timestampUs, timestampUs);
189 timestampUs = msg.data.extendedBufferData.timestampUs;
190 // Test if current timestamp is among the list of queued
191 // timestamps
192 if (timestampDevTest) {
193 bool tsHit = false;
194 android::List<uint64_t>::iterator it =
195 timestampUslist.begin();
196 while (it != timestampUslist.end()) {
197 if (*it == timestampUs) {
198 timestampUslist.erase(it);
199 tsHit = true;
200 break;
201 }
202 it++;
203 }
204 if (tsHit == false) {
205 if (timestampUslist.empty() == false) {
206 EXPECT_EQ(tsHit, true)
207 << "TimeStamp not recognized";
208 } else {
209 std::cout << "[ INFO ] Received non-zero "
210 "output / TimeStamp not recognized \n";
211 }
212 }
213 }
214 #define WRITE_OUTPUT 0
215 #if WRITE_OUTPUT
216 static int count = 0;
217 FILE* ofp = nullptr;
218 if (count)
219 ofp = fopen("out.bin", "ab");
220 else
221 ofp = fopen("out.bin", "wb");
222 if (ofp != nullptr &&
223 portMode[1] == PortMode::PRESET_BYTE_BUFFER) {
224 fwrite(static_cast<void*>(buffer->mMemory->getPointer()),
225 sizeof(char),
226 msg.data.extendedBufferData.rangeLength, ofp);
227 fclose(ofp);
228 count++;
229 }
230 #endif
231 }
232 } else if (msg.type == Message::Type::EVENT) {
233 if (msg.data.eventData.event == OMX_EventPortSettingsChanged) {
234 if ((msg.data.eventData.data2 == OMX_IndexParamPortDefinition ||
235 msg.data.eventData.data2 == 0)) {
236 portSettingsChange = true;
237 }
238 }
239 }
240 }
241
242 enum standardComp {
243 h263,
244 avc,
245 mpeg2,
246 mpeg4,
247 hevc,
248 vp8,
249 vp9,
250 unknown_comp,
251 };
252
253 std::string component_;
254 std::string role_;
255 std::string instance_;
256
257 sp<IOmx> omx;
258 sp<CodecObserver> observer;
259 sp<IOmxNode> omxNode;
260 standardComp compName;
261 OMX_VIDEO_CODINGTYPE eCompressionFormat;
262 bool disableTest;
263 PortMode portMode[2];
264 bool eosFlag;
265 uint32_t framesReceived;
266 uint64_t timestampUs;
267 ::android::List<uint64_t> timestampUslist;
268 bool timestampDevTest;
269 bool isSecure;
270 bool portSettingsChange;
271
272 protected:
description(const std::string & description)273 static void description(const std::string& description) {
274 RecordProperty("description", description);
275 }
276 };
277
278 // Set Default port param.
setDefaultPortParam(sp<IOmxNode> omxNode,OMX_U32 portIndex,OMX_VIDEO_CODINGTYPE eCompressionFormat,OMX_COLOR_FORMATTYPE eColorFormat,OMX_U32 nFrameWidth=352,OMX_U32 nFrameHeight=288,OMX_U32 nBitrate=0,OMX_U32 xFramerate=(24U<<16))279 void setDefaultPortParam(sp<IOmxNode> omxNode, OMX_U32 portIndex,
280 OMX_VIDEO_CODINGTYPE eCompressionFormat,
281 OMX_COLOR_FORMATTYPE eColorFormat,
282 OMX_U32 nFrameWidth = 352, OMX_U32 nFrameHeight = 288,
283 OMX_U32 nBitrate = 0,
284 OMX_U32 xFramerate = (24U << 16)) {
285 switch ((int)eCompressionFormat) {
286 case OMX_VIDEO_CodingUnused:
287 setupRAWPort(omxNode, portIndex, nFrameWidth, nFrameHeight,
288 nBitrate, xFramerate, eColorFormat);
289 break;
290 default:
291 break;
292 }
293 }
294
295 // In decoder components, often the input port parameters get updated upon
296 // parsing the header of elementary stream. Client needs to collect this
297 // information to reconfigure other ports that share data with this input
298 // port.
getInputChannelInfo(sp<IOmxNode> omxNode,OMX_U32 kPortIndexInput,uint32_t * nFrameWidth,uint32_t * nFrameHeight,uint32_t * xFramerate)299 void getInputChannelInfo(sp<IOmxNode> omxNode, OMX_U32 kPortIndexInput,
300 uint32_t* nFrameWidth, uint32_t* nFrameHeight,
301 uint32_t* xFramerate) {
302 android::hardware::media::omx::V1_0::Status status;
303 *nFrameWidth = 352;
304 *nFrameHeight = 288;
305 *xFramerate = (24U << 16);
306
307 OMX_PARAM_PORTDEFINITIONTYPE portDef;
308 status = getPortParam(omxNode, OMX_IndexParamPortDefinition,
309 kPortIndexInput, &portDef);
310 EXPECT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
311 if (status == ::android::hardware::media::omx::V1_0::Status::OK) {
312 *nFrameWidth = portDef.format.video.nFrameWidth;
313 *nFrameHeight = portDef.format.video.nFrameHeight;
314 *xFramerate = portDef.format.video.xFramerate;
315 }
316 }
317
318 // number of elementary streams per component
319 #define STREAM_COUNT 2
320 // LookUpTable of clips and metadata for component testing
GetURLForComponent(VideoDecHidlTest::standardComp comp,char * mURL,char * info,size_t streamIndex=1)321 void GetURLForComponent(VideoDecHidlTest::standardComp comp, char* mURL,
322 char* info, size_t streamIndex = 1) {
323 struct CompToURL {
324 VideoDecHidlTest::standardComp comp;
325 const char mURL[STREAM_COUNT][512];
326 const char info[STREAM_COUNT][512];
327 };
328 ASSERT_TRUE(streamIndex < STREAM_COUNT);
329
330 static const CompToURL kCompToURL[] = {
331 {VideoDecHidlTest::standardComp::avc,
332 {"bbb_avc_176x144_300kbps_60fps.h264",
333 "bbb_avc_640x360_768kbps_30fps.h264"},
334 {"bbb_avc_176x144_300kbps_60fps.info",
335 "bbb_avc_640x360_768kbps_30fps.info"}},
336 {VideoDecHidlTest::standardComp::hevc,
337 {"bbb_hevc_176x144_176kbps_60fps.hevc",
338 "bbb_hevc_640x360_1600kbps_30fps.hevc"},
339 {"bbb_hevc_176x144_176kbps_60fps.info",
340 "bbb_hevc_640x360_1600kbps_30fps.info"}},
341 {VideoDecHidlTest::standardComp::mpeg2,
342 {"bbb_mpeg2_176x144_105kbps_25fps.m2v",
343 "bbb_mpeg2_352x288_1mbps_60fps.m2v"},
344 {"bbb_mpeg2_176x144_105kbps_25fps.info",
345 "bbb_mpeg2_352x288_1mbps_60fps.info"}},
346 {VideoDecHidlTest::standardComp::h263,
347 {"", "bbb_h263_352x288_300kbps_12fps.h263"},
348 {"", "bbb_h263_352x288_300kbps_12fps.info"}},
349 {VideoDecHidlTest::standardComp::mpeg4,
350 {"", "bbb_mpeg4_352x288_512kbps_30fps.m4v"},
351 {"", "bbb_mpeg4_352x288_512kbps_30fps.info"}},
352 {VideoDecHidlTest::standardComp::vp8,
353 {"bbb_vp8_176x144_240kbps_60fps.vp8",
354 "bbb_vp8_640x360_2mbps_30fps.vp8"},
355 {"bbb_vp8_176x144_240kbps_60fps.info",
356 "bbb_vp8_640x360_2mbps_30fps.info"}},
357 {VideoDecHidlTest::standardComp::vp9,
358 {"bbb_vp9_176x144_285kbps_60fps.vp9",
359 "bbb_vp9_640x360_1600kbps_30fps.vp9"},
360 {"bbb_vp9_176x144_285kbps_60fps.info",
361 "bbb_vp9_640x360_1600kbps_30fps.info"}},
362 };
363
364 for (size_t i = 0; i < sizeof(kCompToURL) / sizeof(kCompToURL[0]); ++i) {
365 if (kCompToURL[i].comp == comp) {
366 strcat(mURL, kCompToURL[i].mURL[streamIndex]);
367 strcat(info, kCompToURL[i].info[streamIndex]);
368 return;
369 }
370 }
371 }
372
373 // port settings reconfiguration during runtime. reconfigures frame dimensions
portReconfiguration(sp<IOmxNode> omxNode,sp<CodecObserver> observer,android::Vector<BufferInfo> * iBuffer,android::Vector<BufferInfo> * oBuffer,OMX_U32 kPortIndexInput,OMX_U32 kPortIndexOutput,Message msg,PortMode oPortMode,void * args)374 void portReconfiguration(sp<IOmxNode> omxNode, sp<CodecObserver> observer,
375 android::Vector<BufferInfo>* iBuffer,
376 android::Vector<BufferInfo>* oBuffer,
377 OMX_U32 kPortIndexInput, OMX_U32 kPortIndexOutput,
378 Message msg, PortMode oPortMode, void* args) {
379 android::hardware::media::omx::V1_0::Status status;
380 (void)args;
381
382 if (msg.data.eventData.event == OMX_EventPortSettingsChanged) {
383 ASSERT_EQ(msg.data.eventData.data1, kPortIndexOutput);
384 if (msg.data.eventData.data2 == OMX_IndexParamPortDefinition ||
385 msg.data.eventData.data2 == 0) {
386 // Components can send various kinds of port settings changed events
387 // all at once. Before committing to a full port reconfiguration,
388 // defer any events waiting in the queue to be addressed to a later
389 // point.
390 android::List<Message> msgQueueDefer;
391 while (1) {
392 status = observer->dequeueMessage(&msg, DEFAULT_TIMEOUT,
393 iBuffer, oBuffer);
394 if (status !=
395 android::hardware::media::omx::V1_0::Status::TIMED_OUT) {
396 msgQueueDefer.push_back(msg);
397 continue;
398 } else
399 break;
400 }
401 status = omxNode->sendCommand(
402 toRawCommandType(OMX_CommandPortDisable), kPortIndexOutput);
403 ASSERT_EQ(status, android::hardware::media::omx::V1_0::Status::OK);
404
405 status = observer->dequeueMessage(&msg, DEFAULT_TIMEOUT, iBuffer,
406 oBuffer);
407 if (status ==
408 android::hardware::media::omx::V1_0::Status::TIMED_OUT) {
409 for (size_t i = 0; i < oBuffer->size(); ++i) {
410 // test if client got all its buffers back
411 EXPECT_EQ((*oBuffer)[i].owner, client);
412 // free the buffers
413 status =
414 omxNode->freeBuffer(kPortIndexOutput, (*oBuffer)[i].id);
415 ASSERT_EQ(status,
416 android::hardware::media::omx::V1_0::Status::OK);
417 }
418 status = observer->dequeueMessage(&msg, DEFAULT_TIMEOUT,
419 iBuffer, oBuffer);
420 ASSERT_EQ(status,
421 android::hardware::media::omx::V1_0::Status::OK);
422 ASSERT_EQ(msg.type, Message::Type::EVENT);
423 ASSERT_EQ(msg.data.eventData.event, OMX_EventCmdComplete);
424 ASSERT_EQ(msg.data.eventData.data1, OMX_CommandPortDisable);
425 ASSERT_EQ(msg.data.eventData.data2, kPortIndexOutput);
426
427 // set Port Params
428 uint32_t nFrameWidth, nFrameHeight, xFramerate;
429 getInputChannelInfo(omxNode, kPortIndexInput, &nFrameWidth,
430 &nFrameHeight, &xFramerate);
431 // get configured color format
432 OMX_PARAM_PORTDEFINITIONTYPE portDef;
433 status = getPortParam(omxNode, OMX_IndexParamPortDefinition,
434 kPortIndexOutput, &portDef);
435 setDefaultPortParam(omxNode, kPortIndexOutput,
436 OMX_VIDEO_CodingUnused,
437 portDef.format.video.eColorFormat,
438 nFrameWidth, nFrameHeight, 0, xFramerate);
439
440 // If you can disable a port, then you should be able to
441 // enable it as well
442 status = omxNode->sendCommand(
443 toRawCommandType(OMX_CommandPortEnable), kPortIndexOutput);
444 ASSERT_EQ(status,
445 android::hardware::media::omx::V1_0::Status::OK);
446
447 // do not enable the port until all the buffers are supplied
448 status = observer->dequeueMessage(&msg, DEFAULT_TIMEOUT,
449 iBuffer, oBuffer);
450 ASSERT_EQ(
451 status,
452 android::hardware::media::omx::V1_0::Status::TIMED_OUT);
453
454 ASSERT_NO_FATAL_FAILURE(allocatePortBuffers(
455 omxNode, oBuffer, kPortIndexOutput, oPortMode, true));
456 status = observer->dequeueMessage(&msg, DEFAULT_TIMEOUT,
457 iBuffer, oBuffer);
458 ASSERT_EQ(status,
459 android::hardware::media::omx::V1_0::Status::OK);
460 ASSERT_EQ(msg.type, Message::Type::EVENT);
461 ASSERT_EQ(msg.data.eventData.data1, OMX_CommandPortEnable);
462 ASSERT_EQ(msg.data.eventData.data2, kPortIndexOutput);
463
464 // Push back deferred messages to the list
465 android::List<Message>::iterator it = msgQueueDefer.begin();
466 while (it != msgQueueDefer.end()) {
467 status = omxNode->dispatchMessage(*it);
468 ASSERT_EQ(
469 status,
470 ::android::hardware::media::omx::V1_0::Status::OK);
471 it++;
472 }
473
474 // dispatch output buffers
475 for (size_t i = 0; i < oBuffer->size(); i++) {
476 ASSERT_NO_FATAL_FAILURE(
477 dispatchOutputBuffer(omxNode, oBuffer, i, oPortMode));
478 }
479 } else {
480 ASSERT_TRUE(false);
481 }
482 } else if (msg.data.eventData.data2 ==
483 OMX_IndexConfigCommonOutputCrop) {
484 std::cout << "[ INFO ] OMX_EventPortSettingsChanged/ "
485 "OMX_IndexConfigCommonOutputCrop not handled \n";
486 } else if (msg.data.eventData.data2 == OMX_IndexVendorStartUnused + 3) {
487 std::cout << "[ INFO ] OMX_EventPortSettingsChanged/ "
488 "kDescribeColorAspectsIndex not handled \n";
489 }
490 } else if (msg.data.eventData.event == OMX_EventError) {
491 std::cerr << "[ ERROR ] OMX_EventError/ "
492 "Decode Frame Call might be failed \n";
493 ASSERT_TRUE(false);
494 } else {
495 // something unexpected happened
496 ASSERT_TRUE(false);
497 }
498 }
499
500 // blocking call to ensures application to Wait till all the inputs are consumed
waitOnInputConsumption(sp<IOmxNode> omxNode,sp<CodecObserver> observer,android::Vector<BufferInfo> * iBuffer,android::Vector<BufferInfo> * oBuffer,OMX_U32 kPortIndexInput,OMX_U32 kPortIndexOutput,PortMode oPortMode)501 void waitOnInputConsumption(sp<IOmxNode> omxNode, sp<CodecObserver> observer,
502 android::Vector<BufferInfo>* iBuffer,
503 android::Vector<BufferInfo>* oBuffer,
504 OMX_U32 kPortIndexInput, OMX_U32 kPortIndexOutput,
505 PortMode oPortMode) {
506 android::hardware::media::omx::V1_0::Status status;
507 Message msg;
508 int timeOut = TIMEOUT_COUNTER_Q;
509
510 while (timeOut--) {
511 size_t i = 0;
512 status =
513 observer->dequeueMessage(&msg, DEFAULT_TIMEOUT_Q, iBuffer, oBuffer);
514 if (status == android::hardware::media::omx::V1_0::Status::OK) {
515 ASSERT_EQ(msg.type, Message::Type::EVENT);
516 ASSERT_NO_FATAL_FAILURE(portReconfiguration(
517 omxNode, observer, iBuffer, oBuffer, kPortIndexInput,
518 kPortIndexOutput, msg, oPortMode, nullptr));
519 }
520 // status == TIMED_OUT, it could be due to process time being large
521 // than DEFAULT_TIMEOUT or component needs output buffers to start
522 // processing.
523 for (; i < iBuffer->size(); i++) {
524 if ((*iBuffer)[i].owner != client) break;
525 }
526 if (i == iBuffer->size()) break;
527
528 // Dispatch an output buffer assuming outQueue.empty() is true
529 size_t index;
530 if ((index = getEmptyBufferID(oBuffer)) < oBuffer->size()) {
531 ASSERT_NO_FATAL_FAILURE(
532 dispatchOutputBuffer(omxNode, oBuffer, index, oPortMode));
533 timeOut = TIMEOUT_COUNTER_Q;
534 }
535 }
536 }
537
538 // Decode N Frames
decodeNFrames(sp<IOmxNode> omxNode,sp<CodecObserver> observer,android::Vector<BufferInfo> * iBuffer,android::Vector<BufferInfo> * oBuffer,OMX_U32 kPortIndexInput,OMX_U32 kPortIndexOutput,std::ifstream & eleStream,android::Vector<FrameData> * Info,int offset,int range,PortMode oPortMode,bool signalEOS=true)539 void decodeNFrames(sp<IOmxNode> omxNode, sp<CodecObserver> observer,
540 android::Vector<BufferInfo>* iBuffer,
541 android::Vector<BufferInfo>* oBuffer,
542 OMX_U32 kPortIndexInput, OMX_U32 kPortIndexOutput,
543 std::ifstream& eleStream, android::Vector<FrameData>* Info,
544 int offset, int range, PortMode oPortMode,
545 bool signalEOS = true) {
546 android::hardware::media::omx::V1_0::Status status;
547 Message msg;
548 size_t index;
549 uint32_t flags = 0;
550 int frameID = offset;
551 int timeOut = TIMEOUT_COUNTER_Q;
552 bool iQueued, oQueued;
553
554 while (1) {
555 iQueued = oQueued = false;
556 status =
557 observer->dequeueMessage(&msg, DEFAULT_TIMEOUT_Q, iBuffer, oBuffer);
558 // Port Reconfiguration
559 if (status == android::hardware::media::omx::V1_0::Status::OK &&
560 msg.type == Message::Type::EVENT) {
561 ASSERT_NO_FATAL_FAILURE(portReconfiguration(
562 omxNode, observer, iBuffer, oBuffer, kPortIndexInput,
563 kPortIndexOutput, msg, oPortMode, nullptr));
564 }
565
566 if (frameID == (int)Info->size() || frameID == (offset + range)) break;
567
568 // Dispatch input buffer
569 if ((index = getEmptyBufferID(iBuffer)) < iBuffer->size()) {
570 char* ipBuffer = static_cast<char*>(
571 static_cast<void*>((*iBuffer)[index].mMemory->getPointer()));
572 ASSERT_LE((*Info)[frameID].bytesCount,
573 static_cast<int>((*iBuffer)[index].mMemory->getSize()));
574 eleStream.read(ipBuffer, (*Info)[frameID].bytesCount);
575 ASSERT_EQ(eleStream.gcount(), (*Info)[frameID].bytesCount);
576 flags = (*Info)[frameID].flags;
577 // Indicate to omx core that the buffer contains a full frame worth
578 // of data
579 flags |= OMX_BUFFERFLAG_ENDOFFRAME;
580 // Indicate the omx core that this is the last buffer it needs to
581 // process
582 if (signalEOS && ((frameID == (int)Info->size() - 1) ||
583 (frameID == (offset + range - 1))))
584 flags |= OMX_BUFFERFLAG_EOS;
585 ASSERT_NO_FATAL_FAILURE(dispatchInputBuffer(
586 omxNode, iBuffer, index, (*Info)[frameID].bytesCount, flags,
587 (*Info)[frameID].timestamp));
588 frameID++;
589 iQueued = true;
590 }
591 // Dispatch output buffer
592 if ((index = getEmptyBufferID(oBuffer)) < oBuffer->size()) {
593 ASSERT_NO_FATAL_FAILURE(
594 dispatchOutputBuffer(omxNode, oBuffer, index, oPortMode));
595 oQueued = true;
596 }
597 // Reset Counters when either input or output buffer is dispatched
598 if (iQueued || oQueued)
599 timeOut = TIMEOUT_COUNTER_Q;
600 else
601 timeOut--;
602 if (timeOut == 0) {
603 ASSERT_TRUE(false) << "Wait on Input/Output is found indefinite";
604 }
605 }
606 }
607
608 // DescribeColorFormatParams Copy Constructor (Borrowed from OMXUtils.cpp)
DescribeColorFormatParams(const android::DescribeColorFormat2Params & params)609 android::DescribeColorFormatParams::DescribeColorFormatParams(
610 const android::DescribeColorFormat2Params& params) {
611 eColorFormat = params.eColorFormat;
612 nFrameWidth = params.nFrameWidth;
613 nFrameHeight = params.nFrameHeight;
614 nStride = params.nStride;
615 nSliceHeight = params.nSliceHeight;
616 bUsingNativeBuffers = params.bUsingNativeBuffers;
617 };
618
isColorFormatFlexibleYUV(sp<IOmxNode> omxNode,OMX_COLOR_FORMATTYPE eColorFormat)619 bool isColorFormatFlexibleYUV(sp<IOmxNode> omxNode,
620 OMX_COLOR_FORMATTYPE eColorFormat) {
621 android::hardware::media::omx::V1_0::Status status;
622 unsigned int index = OMX_IndexMax, index2 = OMX_IndexMax;
623 omxNode->getExtensionIndex(
624 "OMX.google.android.index.describeColorFormat",
625 [&index](android::hardware::media::omx::V1_0::Status _s,
626 unsigned int _nl) {
627 if (_s == ::android::hardware::media::omx::V1_0::Status::OK)
628 index = _nl;
629 });
630 omxNode->getExtensionIndex(
631 "OMX.google.android.index.describeColorFormat2",
632 [&index2](android::hardware::media::omx::V1_0::Status _s,
633 unsigned int _nl) {
634 if (_s == ::android::hardware::media::omx::V1_0::Status::OK)
635 index2 = _nl;
636 });
637
638 android::DescribeColorFormat2Params describeParams;
639 describeParams.eColorFormat = eColorFormat;
640 describeParams.nFrameWidth = 128;
641 describeParams.nFrameHeight = 128;
642 describeParams.nStride = 128;
643 describeParams.nSliceHeight = 128;
644 describeParams.bUsingNativeBuffers = OMX_FALSE;
645 if (index != OMX_IndexMax) {
646 android::DescribeColorFormatParams describeParamsV1(describeParams);
647 status = getParam(omxNode, static_cast<OMX_INDEXTYPE>(index),
648 &describeParamsV1);
649 if (status == ::android::hardware::media::omx::V1_0::Status::OK) {
650 android::MediaImage& img = describeParamsV1.sMediaImage;
651 if (img.mType == android::MediaImage::MEDIA_IMAGE_TYPE_YUV) {
652 if (img.mNumPlanes == 3 &&
653 img.mPlane[img.Y].mHorizSubsampling == 1 &&
654 img.mPlane[img.Y].mVertSubsampling == 1) {
655 if (img.mPlane[img.U].mHorizSubsampling == 2 &&
656 img.mPlane[img.U].mVertSubsampling == 2 &&
657 img.mPlane[img.V].mHorizSubsampling == 2 &&
658 img.mPlane[img.V].mVertSubsampling == 2) {
659 if (img.mBitDepth <= 8) {
660 return true;
661 }
662 }
663 }
664 }
665 }
666 } else if (index2 != OMX_IndexMax) {
667 status = getParam(omxNode, static_cast<OMX_INDEXTYPE>(index2),
668 &describeParams);
669 android::MediaImage2& img = describeParams.sMediaImage;
670 if (img.mType == android::MediaImage2::MEDIA_IMAGE_TYPE_YUV) {
671 if (img.mNumPlanes == 3 &&
672 img.mPlane[img.Y].mHorizSubsampling == 1 &&
673 img.mPlane[img.Y].mVertSubsampling == 1) {
674 if (img.mPlane[img.U].mHorizSubsampling == 2 &&
675 img.mPlane[img.U].mVertSubsampling == 2 &&
676 img.mPlane[img.V].mHorizSubsampling == 2 &&
677 img.mPlane[img.V].mVertSubsampling == 2) {
678 if (img.mBitDepth <= 8) {
679 return true;
680 }
681 }
682 }
683 }
684 }
685 return false;
686 }
687
688 // get default color format for output port
getDefaultColorFormat(sp<IOmxNode> omxNode,OMX_U32 kPortIndexOutput,PortMode oPortMode,OMX_COLOR_FORMATTYPE * eColorFormat)689 void getDefaultColorFormat(sp<IOmxNode> omxNode, OMX_U32 kPortIndexOutput,
690 PortMode oPortMode,
691 OMX_COLOR_FORMATTYPE* eColorFormat) {
692 android::hardware::media::omx::V1_0::Status status;
693 OMX_VIDEO_PARAM_PORTFORMATTYPE portFormat;
694 *eColorFormat = OMX_COLOR_FormatUnused;
695 portFormat.nIndex = 0;
696 while (portFormat.nIndex < 512) {
697 status = getPortParam(omxNode, OMX_IndexParamVideoPortFormat,
698 kPortIndexOutput, &portFormat);
699 if (status != ::android::hardware::media::omx::V1_0::Status::OK) break;
700 EXPECT_EQ(portFormat.eCompressionFormat, OMX_VIDEO_CodingUnused);
701 if (oPortMode != PortMode::PRESET_BYTE_BUFFER) {
702 *eColorFormat = portFormat.eColorFormat;
703 break;
704 }
705 if (isColorFormatFlexibleYUV(omxNode, portFormat.eColorFormat)) {
706 *eColorFormat = portFormat.eColorFormat;
707 break;
708 }
709 if (OMX_COLOR_FormatYUV420SemiPlanar == portFormat.eColorFormat ||
710 OMX_COLOR_FormatYUV420Planar == portFormat.eColorFormat ||
711 OMX_COLOR_FormatYUV420PackedPlanar == portFormat.eColorFormat ||
712 OMX_COLOR_FormatYUV420PackedSemiPlanar == portFormat.eColorFormat) {
713 *eColorFormat = portFormat.eColorFormat;
714 break;
715 }
716 portFormat.nIndex++;
717 }
718 }
719
720 // set component role
TEST_P(VideoDecHidlTest,SetRole)721 TEST_P(VideoDecHidlTest, SetRole) {
722 description("Test Set Component Role");
723 if (disableTest) return;
724 android::hardware::media::omx::V1_0::Status status;
725 status = setRole(omxNode, role_);
726 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
727 }
728
729 // port format enumeration
TEST_P(VideoDecHidlTest,EnumeratePortFormat)730 TEST_P(VideoDecHidlTest, EnumeratePortFormat) {
731 description("Test Component on Mandatory Port Parameters (Port Format)");
732 if (disableTest) return;
733 android::hardware::media::omx::V1_0::Status status;
734 uint32_t kPortIndexInput = 0, kPortIndexOutput = 1;
735 OMX_COLOR_FORMATTYPE eColorFormat = OMX_COLOR_FormatYUV420Planar;
736 OMX_U32 xFramerate = (24U << 16);
737 status = setRole(omxNode, role_);
738 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
739 OMX_PORT_PARAM_TYPE params;
740 status = getParam(omxNode, OMX_IndexParamVideoInit, ¶ms);
741 if (status == ::android::hardware::media::omx::V1_0::Status::OK) {
742 ASSERT_EQ(params.nPorts, 2U);
743 kPortIndexInput = params.nStartPortNumber;
744 kPortIndexOutput = kPortIndexInput + 1;
745 }
746 status = setVideoPortFormat(omxNode, kPortIndexInput, eCompressionFormat,
747 OMX_COLOR_FormatUnused, 0U);
748 EXPECT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
749 status =
750 setVideoPortFormat(omxNode, kPortIndexOutput, OMX_VIDEO_CodingUnused,
751 eColorFormat, xFramerate);
752 EXPECT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
753 }
754
755 // test port settings reconfiguration, elementary stream decode and timestamp
756 // deviation
TEST_P(VideoDecHidlTest,DecodeTest)757 TEST_P(VideoDecHidlTest, DecodeTest) {
758 description("Tests Port Reconfiguration, Decode and timestamp deviation");
759 if (disableTest) return;
760 android::hardware::media::omx::V1_0::Status status;
761 uint32_t kPortIndexInput = 0, kPortIndexOutput = 1;
762 status = setRole(omxNode, role_);
763 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
764 OMX_PORT_PARAM_TYPE params;
765 status = getParam(omxNode, OMX_IndexParamVideoInit, ¶ms);
766 if (status == ::android::hardware::media::omx::V1_0::Status::OK) {
767 ASSERT_EQ(params.nPorts, 2U);
768 kPortIndexInput = params.nStartPortNumber;
769 kPortIndexOutput = kPortIndexInput + 1;
770 }
771 char mURL[512], info[512];
772 strcpy(mURL, sResourceDir.c_str());
773 strcpy(info, sResourceDir.c_str());
774 GetURLForComponent(compName, mURL, info);
775
776 std::ifstream eleStream, eleInfo;
777
778 eleInfo.open(info);
779 ASSERT_EQ(eleInfo.is_open(), true);
780 android::Vector<FrameData> Info;
781 int bytesCount = 0, maxBytesCount = 0;
782 uint32_t flags = 0;
783 uint32_t timestamp = 0;
784 timestampDevTest = true;
785 while (1) {
786 if (!(eleInfo >> bytesCount)) break;
787 eleInfo >> flags;
788 eleInfo >> timestamp;
789 Info.push_back({bytesCount, flags, timestamp});
790 if (timestampDevTest && (flags != OMX_BUFFERFLAG_CODECCONFIG))
791 timestampUslist.push_back(timestamp);
792 if (maxBytesCount < bytesCount) maxBytesCount = bytesCount;
793 }
794 eleInfo.close();
795
796 // As the frame sizes are known ahead, use it to configure i/p buffer size
797 maxBytesCount = ALIGN_POWER_OF_TWO(maxBytesCount, 10);
798 status = setPortBufferSize(omxNode, kPortIndexInput, maxBytesCount);
799 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
800
801 // set port mode
802 portMode[0] = PortMode::PRESET_BYTE_BUFFER;
803 portMode[1] = PortMode::DYNAMIC_ANW_BUFFER;
804 status = omxNode->setPortMode(kPortIndexInput, portMode[0]);
805 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
806 status = omxNode->setPortMode(kPortIndexOutput, portMode[1]);
807 if (status != ::android::hardware::media::omx::V1_0::Status::OK) {
808 portMode[1] = PortMode::PRESET_BYTE_BUFFER;
809 status = omxNode->setPortMode(kPortIndexOutput, portMode[1]);
810 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
811 }
812
813 // set Port Params
814 uint32_t nFrameWidth, nFrameHeight, xFramerate;
815 getInputChannelInfo(omxNode, kPortIndexInput, &nFrameWidth, &nFrameHeight,
816 &xFramerate);
817 // get default color format
818 OMX_COLOR_FORMATTYPE eColorFormat = OMX_COLOR_FormatUnused;
819 getDefaultColorFormat(omxNode, kPortIndexOutput, portMode[1],
820 &eColorFormat);
821 ASSERT_NE(eColorFormat, OMX_COLOR_FormatUnused);
822 status =
823 setVideoPortFormat(omxNode, kPortIndexOutput, OMX_VIDEO_CodingUnused,
824 eColorFormat, xFramerate);
825 EXPECT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
826 setDefaultPortParam(omxNode, kPortIndexOutput, OMX_VIDEO_CodingUnused,
827 eColorFormat, nFrameWidth, nFrameHeight, 0, xFramerate);
828
829 android::Vector<BufferInfo> iBuffer, oBuffer;
830
831 // set state to idle
832 ASSERT_NO_FATAL_FAILURE(changeStateLoadedtoIdle(
833 omxNode, observer, &iBuffer, &oBuffer, kPortIndexInput,
834 kPortIndexOutput, portMode, true));
835 // set state to executing
836 ASSERT_NO_FATAL_FAILURE(changeStateIdletoExecute(omxNode, observer));
837
838 // Port Reconfiguration
839 eleStream.open(mURL, std::ifstream::binary);
840 ASSERT_EQ(eleStream.is_open(), true);
841 ASSERT_NO_FATAL_FAILURE(decodeNFrames(
842 omxNode, observer, &iBuffer, &oBuffer, kPortIndexInput,
843 kPortIndexOutput, eleStream, &Info, 0, (int)Info.size(), portMode[1]));
844 eleStream.close();
845 ASSERT_NO_FATAL_FAILURE(
846 waitOnInputConsumption(omxNode, observer, &iBuffer, &oBuffer,
847 kPortIndexInput, kPortIndexOutput, portMode[1]));
848 ASSERT_NO_FATAL_FAILURE(testEOS(
849 omxNode, observer, &iBuffer, &oBuffer, false, eosFlag, portMode,
850 portReconfiguration, kPortIndexInput, kPortIndexOutput, nullptr));
851 if (timestampDevTest) EXPECT_EQ(timestampUslist.empty(), true);
852 // set state to idle
853 ASSERT_NO_FATAL_FAILURE(
854 changeStateExecutetoIdle(omxNode, observer, &iBuffer, &oBuffer));
855 // set state to executing
856 ASSERT_NO_FATAL_FAILURE(changeStateIdletoLoaded(omxNode, observer, &iBuffer,
857 &oBuffer, kPortIndexInput,
858 kPortIndexOutput));
859 }
860
861 // Test for adaptive playback support
TEST_P(VideoDecHidlTest,AdaptivePlaybackTest)862 TEST_P(VideoDecHidlTest, AdaptivePlaybackTest) {
863 description("Tests for Adaptive Playback support");
864 if (disableTest) return;
865 if (!(compName == avc || compName == hevc || compName == vp8 ||
866 compName == vp9 || compName == mpeg2))
867 return;
868 android::hardware::media::omx::V1_0::Status status;
869 uint32_t kPortIndexInput = 0, kPortIndexOutput = 1;
870 status = setRole(omxNode, role_);
871 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
872 OMX_PORT_PARAM_TYPE params;
873 status = getParam(omxNode, OMX_IndexParamVideoInit, ¶ms);
874 if (status == ::android::hardware::media::omx::V1_0::Status::OK) {
875 ASSERT_EQ(params.nPorts, 2U);
876 kPortIndexInput = params.nStartPortNumber;
877 kPortIndexOutput = kPortIndexInput + 1;
878 }
879
880 // set port mode
881 portMode[0] = PortMode::PRESET_BYTE_BUFFER;
882 portMode[1] = PortMode::DYNAMIC_ANW_BUFFER;
883 status = omxNode->setPortMode(kPortIndexInput, portMode[0]);
884 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
885 status = omxNode->setPortMode(kPortIndexOutput, portMode[1]);
886 if (status != ::android::hardware::media::omx::V1_0::Status::OK) {
887 portMode[1] = PortMode::PRESET_BYTE_BUFFER;
888 status = omxNode->setPortMode(kPortIndexOutput, portMode[1]);
889 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
890 }
891
892 // prepare for adaptive playback
893 uint32_t adaptiveMaxWidth = 320;
894 uint32_t adaptiveMaxHeight = 240;
895 status = omxNode->prepareForAdaptivePlayback(
896 kPortIndexOutput, true, adaptiveMaxWidth, adaptiveMaxHeight);
897 if (component_.find("OMX.google.") == 0) {
898 // SoftOMX Decoders donot support graphic buffer modes. So for them
899 // support for adaptive play back is mandatory in Byte Buffer mode
900 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
901 } else {
902 // for vendor codecs, support for adaptive play back is optional
903 // in byte buffer mode.
904 if (portMode[1] == PortMode::PRESET_BYTE_BUFFER) return;
905 if (status != ::android::hardware::media::omx::V1_0::Status::OK) return;
906 }
907
908 // TODO: Handle this better !!!
909 // Without the knowledge of the maximum resolution of the frame to be
910 // decoded it is not possible to choose the size of the input buffer.
911 // The value below is based on the info. files of clips in res folder.
912 status = setPortBufferSize(omxNode, kPortIndexInput, 482304);
913 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
914
915 // set Port Params
916 uint32_t nFrameWidth, nFrameHeight, xFramerate;
917 getInputChannelInfo(omxNode, kPortIndexInput, &nFrameWidth, &nFrameHeight,
918 &xFramerate);
919 // get default color format
920 OMX_COLOR_FORMATTYPE eColorFormat = OMX_COLOR_FormatUnused;
921 getDefaultColorFormat(omxNode, kPortIndexOutput, portMode[1],
922 &eColorFormat);
923 ASSERT_NE(eColorFormat, OMX_COLOR_FormatUnused);
924 status =
925 setVideoPortFormat(omxNode, kPortIndexOutput, OMX_VIDEO_CodingUnused,
926 eColorFormat, xFramerate);
927 EXPECT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
928 setDefaultPortParam(omxNode, kPortIndexOutput, OMX_VIDEO_CodingUnused,
929 eColorFormat, nFrameWidth, nFrameHeight, 0, xFramerate);
930
931 android::Vector<BufferInfo> iBuffer, oBuffer;
932
933 // set state to idle
934 ASSERT_NO_FATAL_FAILURE(changeStateLoadedtoIdle(
935 omxNode, observer, &iBuffer, &oBuffer, kPortIndexInput,
936 kPortIndexOutput, portMode, true));
937 // set state to executing
938 ASSERT_NO_FATAL_FAILURE(changeStateIdletoExecute(omxNode, observer));
939
940 timestampDevTest = true;
941 uint32_t timestampOffset = 0;
942 for (uint32_t i = 0; i < STREAM_COUNT * 2; i++) {
943 std::ifstream eleStream, eleInfo;
944 char mURL[512], info[512];
945 android::Vector<FrameData> Info;
946 strcpy(mURL, sResourceDir.c_str());
947 strcpy(info, sResourceDir.c_str());
948 GetURLForComponent(compName, mURL, info, i % STREAM_COUNT);
949 eleInfo.open(info);
950 ASSERT_EQ(eleInfo.is_open(), true);
951 int bytesCount = 0;
952 uint32_t flags = 0;
953 uint32_t timestamp = 0;
954 uint32_t timestampMax = 0;
955 while (1) {
956 if (!(eleInfo >> bytesCount)) break;
957 eleInfo >> flags;
958 eleInfo >> timestamp;
959 timestamp += timestampOffset;
960 Info.push_back({bytesCount, flags, timestamp});
961 if (timestampDevTest && (flags != OMX_BUFFERFLAG_CODECCONFIG))
962 timestampUslist.push_back(timestamp);
963 if (timestampMax < timestamp) timestampMax = timestamp;
964 }
965 timestampOffset = timestampMax;
966 eleInfo.close();
967
968 // Port Reconfiguration
969 eleStream.open(mURL, std::ifstream::binary);
970 ASSERT_EQ(eleStream.is_open(), true);
971 ASSERT_NO_FATAL_FAILURE(
972 decodeNFrames(omxNode, observer, &iBuffer, &oBuffer,
973 kPortIndexInput, kPortIndexOutput, eleStream, &Info,
974 0, (int)Info.size(), portMode[1], false));
975 eleStream.close();
976
977 getInputChannelInfo(omxNode, kPortIndexInput, &nFrameWidth,
978 &nFrameHeight, &xFramerate);
979 if ((nFrameWidth > adaptiveMaxWidth) ||
980 (nFrameHeight > adaptiveMaxHeight)) {
981 if (nFrameWidth > adaptiveMaxWidth) adaptiveMaxWidth = nFrameWidth;
982 if (nFrameHeight > adaptiveMaxHeight)
983 adaptiveMaxHeight = nFrameHeight;
984 EXPECT_TRUE(portSettingsChange);
985 } else {
986 // In DynamicANW Buffer mode, its ok to do a complete
987 // reconfiguration even if a partial reconfiguration is sufficient.
988 if (portMode[1] != PortMode::DYNAMIC_ANW_BUFFER)
989 EXPECT_FALSE(portSettingsChange);
990 }
991 portSettingsChange = false;
992 }
993 ASSERT_NO_FATAL_FAILURE(
994 waitOnInputConsumption(omxNode, observer, &iBuffer, &oBuffer,
995 kPortIndexInput, kPortIndexOutput, portMode[1]));
996 ASSERT_NO_FATAL_FAILURE(testEOS(
997 omxNode, observer, &iBuffer, &oBuffer, true, eosFlag, portMode,
998 portReconfiguration, kPortIndexInput, kPortIndexOutput, nullptr));
999 if (timestampDevTest) EXPECT_EQ(timestampUslist.empty(), true);
1000 // set state to idle
1001 ASSERT_NO_FATAL_FAILURE(
1002 changeStateExecutetoIdle(omxNode, observer, &iBuffer, &oBuffer));
1003 // set state to executing
1004 ASSERT_NO_FATAL_FAILURE(changeStateIdletoLoaded(omxNode, observer, &iBuffer,
1005 &oBuffer, kPortIndexInput,
1006 kPortIndexOutput));
1007 }
1008
1009 // end of sequence test
TEST_P(VideoDecHidlTest,EOSTest_M)1010 TEST_P(VideoDecHidlTest, EOSTest_M) {
1011 description("Test End of stream monkeying");
1012 if (disableTest) return;
1013 android::hardware::media::omx::V1_0::Status status;
1014 uint32_t kPortIndexInput = 0, kPortIndexOutput = 1;
1015 status = setRole(omxNode, role_);
1016 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
1017 OMX_PORT_PARAM_TYPE params;
1018 status = getParam(omxNode, OMX_IndexParamVideoInit, ¶ms);
1019 if (status == ::android::hardware::media::omx::V1_0::Status::OK) {
1020 ASSERT_EQ(params.nPorts, 2U);
1021 kPortIndexInput = params.nStartPortNumber;
1022 kPortIndexOutput = kPortIndexInput + 1;
1023 }
1024
1025 // set port mode
1026 status = omxNode->setPortMode(kPortIndexInput, portMode[0]);
1027 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
1028 status = omxNode->setPortMode(kPortIndexOutput, portMode[1]);
1029 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
1030
1031 // set Port Params
1032 uint32_t nFrameWidth, nFrameHeight, xFramerate;
1033 getInputChannelInfo(omxNode, kPortIndexInput, &nFrameWidth, &nFrameHeight,
1034 &xFramerate);
1035 // get default color format
1036 OMX_COLOR_FORMATTYPE eColorFormat = OMX_COLOR_FormatUnused;
1037 getDefaultColorFormat(omxNode, kPortIndexOutput, portMode[1],
1038 &eColorFormat);
1039 ASSERT_NE(eColorFormat, OMX_COLOR_FormatUnused);
1040 status =
1041 setVideoPortFormat(omxNode, kPortIndexOutput, OMX_VIDEO_CodingUnused,
1042 eColorFormat, xFramerate);
1043 EXPECT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
1044 setDefaultPortParam(omxNode, kPortIndexOutput, OMX_VIDEO_CodingUnused,
1045 eColorFormat, nFrameWidth, nFrameHeight, 0, xFramerate);
1046
1047 android::Vector<BufferInfo> iBuffer, oBuffer;
1048
1049 // set state to idle
1050 ASSERT_NO_FATAL_FAILURE(changeStateLoadedtoIdle(
1051 omxNode, observer, &iBuffer, &oBuffer, kPortIndexInput,
1052 kPortIndexOutput, portMode, true));
1053 // set state to executing
1054 ASSERT_NO_FATAL_FAILURE(changeStateIdletoExecute(omxNode, observer));
1055
1056 // request EOS at the start
1057 ASSERT_NO_FATAL_FAILURE(testEOS(
1058 omxNode, observer, &iBuffer, &oBuffer, true, eosFlag, portMode,
1059 portReconfiguration, kPortIndexInput, kPortIndexOutput, nullptr));
1060 ASSERT_NO_FATAL_FAILURE(flushPorts(omxNode, observer, &iBuffer, &oBuffer,
1061 kPortIndexInput, kPortIndexOutput));
1062 EXPECT_GE(framesReceived, 0U);
1063 framesReceived = 0;
1064 timestampUs = 0;
1065
1066 // set state to idle
1067 ASSERT_NO_FATAL_FAILURE(
1068 changeStateExecutetoIdle(omxNode, observer, &iBuffer, &oBuffer));
1069 // set state to executing
1070 ASSERT_NO_FATAL_FAILURE(changeStateIdletoLoaded(omxNode, observer, &iBuffer,
1071 &oBuffer, kPortIndexInput,
1072 kPortIndexOutput));
1073 }
1074
1075 // end of sequence test
TEST_P(VideoDecHidlTest,ThumbnailTest)1076 TEST_P(VideoDecHidlTest, ThumbnailTest) {
1077 description("Test Request for thumbnail");
1078 if (disableTest) return;
1079 android::hardware::media::omx::V1_0::Status status;
1080 uint32_t kPortIndexInput = 0, kPortIndexOutput = 1;
1081 status = setRole(omxNode, role_);
1082 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
1083 OMX_PORT_PARAM_TYPE params;
1084 status = getParam(omxNode, OMX_IndexParamVideoInit, ¶ms);
1085 if (status == ::android::hardware::media::omx::V1_0::Status::OK) {
1086 ASSERT_EQ(params.nPorts, 2U);
1087 kPortIndexInput = params.nStartPortNumber;
1088 kPortIndexOutput = kPortIndexInput + 1;
1089 }
1090 char mURL[512], info[512];
1091 strcpy(mURL, sResourceDir.c_str());
1092 strcpy(info, sResourceDir.c_str());
1093 GetURLForComponent(compName, mURL, info);
1094
1095 std::ifstream eleStream, eleInfo;
1096
1097 eleInfo.open(info);
1098 ASSERT_EQ(eleInfo.is_open(), true);
1099 android::Vector<FrameData> Info;
1100 int bytesCount = 0, maxBytesCount = 0;
1101 uint32_t flags = 0;
1102 uint32_t timestamp = 0;
1103 while (1) {
1104 if (!(eleInfo >> bytesCount)) break;
1105 eleInfo >> flags;
1106 eleInfo >> timestamp;
1107 Info.push_back({bytesCount, flags, timestamp});
1108 if (maxBytesCount < bytesCount) maxBytesCount = bytesCount;
1109 }
1110 eleInfo.close();
1111
1112 // As the frame sizes are known ahead, use it to configure i/p buffer size
1113 maxBytesCount = ALIGN_POWER_OF_TWO(maxBytesCount, 10);
1114 status = setPortBufferSize(omxNode, kPortIndexInput, maxBytesCount);
1115 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
1116
1117 // set port mode
1118 status = omxNode->setPortMode(kPortIndexInput, portMode[0]);
1119 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
1120 status = omxNode->setPortMode(kPortIndexOutput, portMode[1]);
1121 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
1122
1123 // set Port Params
1124 uint32_t nFrameWidth, nFrameHeight, xFramerate;
1125 getInputChannelInfo(omxNode, kPortIndexInput, &nFrameWidth, &nFrameHeight,
1126 &xFramerate);
1127 // get default color format
1128 OMX_COLOR_FORMATTYPE eColorFormat = OMX_COLOR_FormatUnused;
1129 getDefaultColorFormat(omxNode, kPortIndexOutput, portMode[1],
1130 &eColorFormat);
1131 ASSERT_NE(eColorFormat, OMX_COLOR_FormatUnused);
1132 status =
1133 setVideoPortFormat(omxNode, kPortIndexOutput, OMX_VIDEO_CodingUnused,
1134 eColorFormat, xFramerate);
1135 EXPECT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
1136 setDefaultPortParam(omxNode, kPortIndexOutput, OMX_VIDEO_CodingUnused,
1137 eColorFormat, nFrameWidth, nFrameHeight, 0, xFramerate);
1138
1139 android::Vector<BufferInfo> iBuffer, oBuffer;
1140
1141 // set state to idle
1142 ASSERT_NO_FATAL_FAILURE(changeStateLoadedtoIdle(
1143 omxNode, observer, &iBuffer, &oBuffer, kPortIndexInput,
1144 kPortIndexOutput, portMode, true));
1145 // set state to executing
1146 ASSERT_NO_FATAL_FAILURE(changeStateIdletoExecute(omxNode, observer));
1147
1148 // request EOS for thumbnail
1149 size_t i = 0;
1150 while (!(Info[i].flags & OMX_BUFFERFLAG_SYNCFRAME)) i++;
1151 eleStream.open(mURL, std::ifstream::binary);
1152 ASSERT_EQ(eleStream.is_open(), true);
1153 ASSERT_NO_FATAL_FAILURE(decodeNFrames(
1154 omxNode, observer, &iBuffer, &oBuffer, kPortIndexInput,
1155 kPortIndexOutput, eleStream, &Info, 0, i + 1, portMode[1]));
1156 eleStream.close();
1157 ASSERT_NO_FATAL_FAILURE(
1158 waitOnInputConsumption(omxNode, observer, &iBuffer, &oBuffer,
1159 kPortIndexInput, kPortIndexOutput, portMode[1]));
1160 ASSERT_NO_FATAL_FAILURE(testEOS(
1161 omxNode, observer, &iBuffer, &oBuffer, false, eosFlag, portMode,
1162 portReconfiguration, kPortIndexInput, kPortIndexOutput, nullptr));
1163 ASSERT_NO_FATAL_FAILURE(flushPorts(omxNode, observer, &iBuffer, &oBuffer,
1164 kPortIndexInput, kPortIndexOutput));
1165 EXPECT_GE(framesReceived, 1U);
1166 framesReceived = 0;
1167 timestampUs = 0;
1168
1169 eleStream.open(mURL, std::ifstream::binary);
1170 ASSERT_EQ(eleStream.is_open(), true);
1171 ASSERT_NO_FATAL_FAILURE(decodeNFrames(
1172 omxNode, observer, &iBuffer, &oBuffer, kPortIndexInput,
1173 kPortIndexOutput, eleStream, &Info, 0, i + 1, portMode[1], false));
1174 eleStream.close();
1175 ASSERT_NO_FATAL_FAILURE(
1176 waitOnInputConsumption(omxNode, observer, &iBuffer, &oBuffer,
1177 kPortIndexInput, kPortIndexOutput, portMode[1]));
1178 ASSERT_NO_FATAL_FAILURE(testEOS(
1179 omxNode, observer, &iBuffer, &oBuffer, true, eosFlag, portMode,
1180 portReconfiguration, kPortIndexInput, kPortIndexOutput, nullptr));
1181 ASSERT_NO_FATAL_FAILURE(flushPorts(omxNode, observer, &iBuffer, &oBuffer,
1182 kPortIndexInput, kPortIndexOutput));
1183 EXPECT_GE(framesReceived, 1U);
1184 framesReceived = 0;
1185 timestampUs = 0;
1186
1187 // set state to idle
1188 ASSERT_NO_FATAL_FAILURE(
1189 changeStateExecutetoIdle(omxNode, observer, &iBuffer, &oBuffer));
1190 // set state to executing
1191 ASSERT_NO_FATAL_FAILURE(changeStateIdletoLoaded(omxNode, observer, &iBuffer,
1192 &oBuffer, kPortIndexInput,
1193 kPortIndexOutput));
1194 }
1195
1196 // end of sequence test
TEST_P(VideoDecHidlTest,SimpleEOSTest)1197 TEST_P(VideoDecHidlTest, SimpleEOSTest) {
1198 description("Test End of stream");
1199 if (disableTest) return;
1200 android::hardware::media::omx::V1_0::Status status;
1201 uint32_t kPortIndexInput = 0, kPortIndexOutput = 1;
1202 status = setRole(omxNode, role_);
1203 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
1204 OMX_PORT_PARAM_TYPE params;
1205 status = getParam(omxNode, OMX_IndexParamVideoInit, ¶ms);
1206 if (status == ::android::hardware::media::omx::V1_0::Status::OK) {
1207 ASSERT_EQ(params.nPorts, 2U);
1208 kPortIndexInput = params.nStartPortNumber;
1209 kPortIndexOutput = kPortIndexInput + 1;
1210 }
1211 char mURL[512], info[512];
1212 strcpy(mURL, sResourceDir.c_str());
1213 strcpy(info, sResourceDir.c_str());
1214 GetURLForComponent(compName, mURL, info);
1215
1216 std::ifstream eleStream, eleInfo;
1217
1218 eleInfo.open(info);
1219 ASSERT_EQ(eleInfo.is_open(), true);
1220 android::Vector<FrameData> Info;
1221 int bytesCount = 0, maxBytesCount = 0;
1222 uint32_t flags = 0;
1223 uint32_t timestamp = 0;
1224 while (1) {
1225 if (!(eleInfo >> bytesCount)) break;
1226 eleInfo >> flags;
1227 eleInfo >> timestamp;
1228 Info.push_back({bytesCount, flags, timestamp});
1229 if (maxBytesCount < bytesCount) maxBytesCount = bytesCount;
1230 }
1231 eleInfo.close();
1232
1233 // As the frame sizes are known ahead, use it to configure i/p buffer size
1234 maxBytesCount = ALIGN_POWER_OF_TWO(maxBytesCount, 10);
1235 status = setPortBufferSize(omxNode, kPortIndexInput, maxBytesCount);
1236 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
1237
1238 // set port mode
1239 portMode[0] = PortMode::PRESET_BYTE_BUFFER;
1240 portMode[1] = PortMode::PRESET_ANW_BUFFER;
1241 status = omxNode->setPortMode(kPortIndexInput, portMode[0]);
1242 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
1243 status = omxNode->setPortMode(kPortIndexOutput, portMode[1]);
1244 if (status != ::android::hardware::media::omx::V1_0::Status::OK) {
1245 portMode[1] = PortMode::PRESET_BYTE_BUFFER;
1246 status = omxNode->setPortMode(kPortIndexOutput, portMode[1]);
1247 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
1248 }
1249
1250 // set Port Params
1251 uint32_t nFrameWidth, nFrameHeight, xFramerate;
1252 getInputChannelInfo(omxNode, kPortIndexInput, &nFrameWidth, &nFrameHeight,
1253 &xFramerate);
1254 // get default color format
1255 OMX_COLOR_FORMATTYPE eColorFormat = OMX_COLOR_FormatUnused;
1256 getDefaultColorFormat(omxNode, kPortIndexOutput, portMode[1],
1257 &eColorFormat);
1258 ASSERT_NE(eColorFormat, OMX_COLOR_FormatUnused);
1259 status =
1260 setVideoPortFormat(omxNode, kPortIndexOutput, OMX_VIDEO_CodingUnused,
1261 eColorFormat, xFramerate);
1262 EXPECT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
1263 setDefaultPortParam(omxNode, kPortIndexOutput, OMX_VIDEO_CodingUnused,
1264 eColorFormat, nFrameWidth, nFrameHeight, 0, xFramerate);
1265
1266 android::Vector<BufferInfo> iBuffer, oBuffer;
1267
1268 // set state to idle
1269 ASSERT_NO_FATAL_FAILURE(changeStateLoadedtoIdle(
1270 omxNode, observer, &iBuffer, &oBuffer, kPortIndexInput,
1271 kPortIndexOutput, portMode, true));
1272 // set state to executing
1273 ASSERT_NO_FATAL_FAILURE(changeStateIdletoExecute(omxNode, observer));
1274
1275 // request EOS at the end
1276 eleStream.open(mURL, std::ifstream::binary);
1277 ASSERT_EQ(eleStream.is_open(), true);
1278 ASSERT_NO_FATAL_FAILURE(decodeNFrames(omxNode, observer, &iBuffer, &oBuffer,
1279 kPortIndexInput, kPortIndexOutput,
1280 eleStream, &Info, 0, (int)Info.size(),
1281 portMode[1], false));
1282 eleStream.close();
1283 ASSERT_NO_FATAL_FAILURE(
1284 waitOnInputConsumption(omxNode, observer, &iBuffer, &oBuffer,
1285 kPortIndexInput, kPortIndexOutput, portMode[1]));
1286 ASSERT_NO_FATAL_FAILURE(testEOS(
1287 omxNode, observer, &iBuffer, &oBuffer, true, eosFlag, portMode,
1288 portReconfiguration, kPortIndexInput, kPortIndexOutput, nullptr));
1289 ASSERT_NO_FATAL_FAILURE(flushPorts(omxNode, observer, &iBuffer, &oBuffer,
1290 kPortIndexInput, kPortIndexOutput));
1291 framesReceived = 0;
1292 timestampUs = 0;
1293
1294 // set state to idle
1295 ASSERT_NO_FATAL_FAILURE(
1296 changeStateExecutetoIdle(omxNode, observer, &iBuffer, &oBuffer));
1297 // set state to executing
1298 ASSERT_NO_FATAL_FAILURE(changeStateIdletoLoaded(omxNode, observer, &iBuffer,
1299 &oBuffer, kPortIndexInput,
1300 kPortIndexOutput));
1301 }
1302
1303 // test input/output port flush
TEST_P(VideoDecHidlTest,FlushTest)1304 TEST_P(VideoDecHidlTest, FlushTest) {
1305 description("Test Flush");
1306 if (disableTest) return;
1307 android::hardware::media::omx::V1_0::Status status;
1308 uint32_t kPortIndexInput = 0, kPortIndexOutput = 1;
1309 status = setRole(omxNode, role_);
1310 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
1311 OMX_PORT_PARAM_TYPE params;
1312 status = getParam(omxNode, OMX_IndexParamVideoInit, ¶ms);
1313 if (status == ::android::hardware::media::omx::V1_0::Status::OK) {
1314 ASSERT_EQ(params.nPorts, 2U);
1315 kPortIndexInput = params.nStartPortNumber;
1316 kPortIndexOutput = kPortIndexInput + 1;
1317 }
1318 char mURL[512], info[512];
1319 strcpy(mURL, sResourceDir.c_str());
1320 strcpy(info, sResourceDir.c_str());
1321 GetURLForComponent(compName, mURL, info);
1322
1323 std::ifstream eleStream, eleInfo;
1324
1325 eleInfo.open(info);
1326 ASSERT_EQ(eleInfo.is_open(), true);
1327 android::Vector<FrameData> Info;
1328 int bytesCount = 0, maxBytesCount = 0;
1329 uint32_t flags = 0;
1330 uint32_t timestamp = 0;
1331 while (1) {
1332 if (!(eleInfo >> bytesCount)) break;
1333 eleInfo >> flags;
1334 eleInfo >> timestamp;
1335 Info.push_back({bytesCount, flags, timestamp});
1336 if (maxBytesCount < bytesCount) maxBytesCount = bytesCount;
1337 }
1338 eleInfo.close();
1339
1340 // As the frame sizes are known ahead, use it to configure i/p buffer size
1341 maxBytesCount = ALIGN_POWER_OF_TWO(maxBytesCount, 10);
1342 status = setPortBufferSize(omxNode, kPortIndexInput, maxBytesCount);
1343 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
1344
1345 // set port mode
1346 status = omxNode->setPortMode(kPortIndexInput, portMode[0]);
1347 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
1348 status = omxNode->setPortMode(kPortIndexOutput, portMode[1]);
1349 ASSERT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
1350
1351 // set Port Params
1352 uint32_t nFrameWidth, nFrameHeight, xFramerate;
1353 getInputChannelInfo(omxNode, kPortIndexInput, &nFrameWidth, &nFrameHeight,
1354 &xFramerate);
1355 // get default color format
1356 OMX_COLOR_FORMATTYPE eColorFormat = OMX_COLOR_FormatUnused;
1357 getDefaultColorFormat(omxNode, kPortIndexOutput, portMode[1],
1358 &eColorFormat);
1359 ASSERT_NE(eColorFormat, OMX_COLOR_FormatUnused);
1360 status =
1361 setVideoPortFormat(omxNode, kPortIndexOutput, OMX_VIDEO_CodingUnused,
1362 eColorFormat, xFramerate);
1363 EXPECT_EQ(status, ::android::hardware::media::omx::V1_0::Status::OK);
1364 setDefaultPortParam(omxNode, kPortIndexOutput, OMX_VIDEO_CodingUnused,
1365 eColorFormat, nFrameWidth, nFrameHeight, 0, xFramerate);
1366
1367 android::Vector<BufferInfo> iBuffer, oBuffer;
1368
1369 // set state to idle
1370 ASSERT_NO_FATAL_FAILURE(changeStateLoadedtoIdle(
1371 omxNode, observer, &iBuffer, &oBuffer, kPortIndexInput,
1372 kPortIndexOutput, portMode, true));
1373 // set state to executing
1374 ASSERT_NO_FATAL_FAILURE(changeStateIdletoExecute(omxNode, observer));
1375
1376 // Decode 128 frames and flush. here 128 is chosen to ensure there is a key
1377 // frame after this so that the below section can be convered for all
1378 // components
1379 int nFrames = 128;
1380 eleStream.open(mURL, std::ifstream::binary);
1381 ASSERT_EQ(eleStream.is_open(), true);
1382 ASSERT_NO_FATAL_FAILURE(decodeNFrames(
1383 omxNode, observer, &iBuffer, &oBuffer, kPortIndexInput,
1384 kPortIndexOutput, eleStream, &Info, 0, nFrames, portMode[1], false));
1385 ASSERT_NO_FATAL_FAILURE(flushPorts(omxNode, observer, &iBuffer, &oBuffer,
1386 kPortIndexInput, kPortIndexOutput));
1387 framesReceived = 0;
1388
1389 // Seek to next key frame and start decoding till the end
1390 int index = nFrames;
1391 bool keyFrame = false;
1392 while (index < (int)Info.size()) {
1393 if ((Info[index].flags & OMX_BUFFERFLAG_SYNCFRAME) ==
1394 OMX_BUFFERFLAG_SYNCFRAME) {
1395 timestampUs = Info[index - 1].timestamp;
1396 keyFrame = true;
1397 break;
1398 }
1399 eleStream.ignore(Info[index].bytesCount);
1400 index++;
1401 }
1402 if (keyFrame) {
1403 ASSERT_NO_FATAL_FAILURE(
1404 decodeNFrames(omxNode, observer, &iBuffer, &oBuffer,
1405 kPortIndexInput, kPortIndexOutput, eleStream, &Info,
1406 index, Info.size() - index, portMode[1], false));
1407 }
1408 eleStream.close();
1409 ASSERT_NO_FATAL_FAILURE(flushPorts(omxNode, observer, &iBuffer, &oBuffer,
1410 kPortIndexInput, kPortIndexOutput));
1411 framesReceived = 0;
1412
1413 // set state to idle
1414 ASSERT_NO_FATAL_FAILURE(
1415 changeStateExecutetoIdle(omxNode, observer, &iBuffer, &oBuffer));
1416 // set state to executing
1417 ASSERT_NO_FATAL_FAILURE(changeStateIdletoLoaded(omxNode, observer, &iBuffer,
1418 &oBuffer, kPortIndexInput,
1419 kPortIndexOutput));
1420 }
1421
1422 GTEST_ALLOW_UNINSTANTIATED_PARAMETERIZED_TEST(VideoDecHidlTest);
1423 INSTANTIATE_TEST_SUITE_P(PerInstance, VideoDecHidlTest, testing::ValuesIn(kTestParameters),
1424 android::hardware::PrintInstanceTupleNameToString<>);
1425
main(int argc,char ** argv)1426 int main(int argc, char** argv) {
1427 kTestParameters = getTestParameters("video_decoder");
1428 ::testing::InitGoogleTest(&argc, argv);
1429
1430 // Set the resource directory based on command line args.
1431 // Test will fail to set up if the argument is not set.
1432 for (int i = 1; i < argc; i++) {
1433 if (strcmp(argv[i], "-P") == 0 && i < argc - 1) {
1434 sResourceDir = argv[i + 1];
1435 break;
1436 }
1437 }
1438
1439 return RUN_ALL_TESTS();
1440 }