1 /*
2 * Copyright 2018, 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 #ifdef __LP64__
18 #define OMX_ANDROID_COMPILE_AS_32BIT_ON_64BIT_PLATFORMS
19 #endif
20
21 //#define LOG_NDEBUG 0
22 #define LOG_TAG "C2OMXNode"
23 #include <log/log.h>
24
25 #include <C2AllocatorGralloc.h>
26 #include <C2BlockInternal.h>
27 #include <C2Component.h>
28 #include <C2PlatformSupport.h>
29
30 #include <OMX_Component.h>
31 #include <OMX_Index.h>
32 #include <OMX_IndexExt.h>
33
34 #include <android/fdsan.h>
35 #include <media/stagefright/omx/OMXUtils.h>
36 #include <media/stagefright/MediaErrors.h>
37 #include <ui/Fence.h>
38 #include <ui/GraphicBuffer.h>
39 #include <utils/Thread.h>
40
41 #include "C2OMXNode.h"
42
43 namespace android {
44
45 namespace {
46
47 class Buffer2D : public C2Buffer {
48 public:
Buffer2D(C2ConstGraphicBlock block)49 explicit Buffer2D(C2ConstGraphicBlock block) : C2Buffer({ block }) {}
50 };
51
52 } // namespace
53
54 class C2OMXNode::QueueThread : public Thread {
55 public:
QueueThread()56 QueueThread() : Thread(false) {}
57 ~QueueThread() override = default;
queue(const std::shared_ptr<Codec2Client::Component> & comp,int fenceFd,std::unique_ptr<C2Work> && work,android::base::unique_fd && fd0,android::base::unique_fd && fd1)58 void queue(
59 const std::shared_ptr<Codec2Client::Component> &comp,
60 int fenceFd,
61 std::unique_ptr<C2Work> &&work,
62 android::base::unique_fd &&fd0,
63 android::base::unique_fd &&fd1) {
64 Mutexed<Jobs>::Locked jobs(mJobs);
65 auto it = jobs->queues.try_emplace(comp, comp, systemTime()).first;
66 it->second.workList.emplace_back(
67 std::move(work), fenceFd, std::move(fd0), std::move(fd1));
68 jobs->cond.broadcast();
69 }
70
71 protected:
threadLoop()72 bool threadLoop() override {
73 constexpr nsecs_t kIntervalNs = nsecs_t(10) * 1000 * 1000; // 10ms
74 constexpr nsecs_t kWaitNs = kIntervalNs * 2;
75 for (int i = 0; i < 2; ++i) {
76 Mutexed<Jobs>::Locked jobs(mJobs);
77 nsecs_t nowNs = systemTime();
78 bool queued = false;
79 for (auto it = jobs->queues.begin(); it != jobs->queues.end(); ) {
80 Queue &queue = it->second;
81 if (queue.workList.empty()
82 || nowNs - queue.lastQueuedTimestampNs < kIntervalNs) {
83 ++it;
84 continue;
85 }
86 std::shared_ptr<Codec2Client::Component> comp = queue.component.lock();
87 if (!comp) {
88 it = jobs->queues.erase(it);
89 continue;
90 }
91 std::list<std::unique_ptr<C2Work>> items;
92 std::vector<int> fenceFds;
93 std::vector<android::base::unique_fd> uniqueFds;
94 while (!queue.workList.empty()) {
95 items.push_back(std::move(queue.workList.front().work));
96 fenceFds.push_back(queue.workList.front().fenceFd);
97 uniqueFds.push_back(std::move(queue.workList.front().fd0));
98 uniqueFds.push_back(std::move(queue.workList.front().fd1));
99 queue.workList.pop_front();
100 }
101
102 jobs.unlock();
103 for (int fenceFd : fenceFds) {
104 sp<Fence> fence(new Fence(fenceFd));
105 fence->waitForever(LOG_TAG);
106 }
107 comp->queue(&items);
108 for (android::base::unique_fd &ufd : uniqueFds) {
109 (void)ufd.release();
110 }
111 jobs.lock();
112
113 it = jobs->queues.upper_bound(comp);
114 queued = true;
115 }
116 if (queued) {
117 return true;
118 }
119 if (i == 0) {
120 jobs.waitForConditionRelative(jobs->cond, kWaitNs);
121 }
122 }
123 return true;
124 }
125
126 private:
127 struct WorkFence {
WorkFenceandroid::C2OMXNode::QueueThread::WorkFence128 WorkFence(std::unique_ptr<C2Work> &&w, int fd) : work(std::move(w)), fenceFd(fd) {}
129
WorkFenceandroid::C2OMXNode::QueueThread::WorkFence130 WorkFence(
131 std::unique_ptr<C2Work> &&w,
132 int fd,
133 android::base::unique_fd &&uniqueFd0,
134 android::base::unique_fd &&uniqueFd1)
135 : work(std::move(w)),
136 fenceFd(fd),
137 fd0(std::move(uniqueFd0)),
138 fd1(std::move(uniqueFd1)) {}
139
140 std::unique_ptr<C2Work> work;
141 int fenceFd;
142 android::base::unique_fd fd0;
143 android::base::unique_fd fd1;
144 };
145 struct Queue {
Queueandroid::C2OMXNode::QueueThread::Queue146 Queue(const std::shared_ptr<Codec2Client::Component> &comp, nsecs_t timestamp)
147 : component(comp), lastQueuedTimestampNs(timestamp) {}
148 Queue(const Queue &) = delete;
149 Queue &operator =(const Queue &) = delete;
150
151 std::weak_ptr<Codec2Client::Component> component;
152 std::list<WorkFence> workList;
153 nsecs_t lastQueuedTimestampNs;
154 };
155 struct Jobs {
156 std::map<std::weak_ptr<Codec2Client::Component>,
157 Queue,
158 std::owner_less<std::weak_ptr<Codec2Client::Component>>> queues;
159 Condition cond;
160 };
161 Mutexed<Jobs> mJobs;
162 };
163
C2OMXNode(const std::shared_ptr<Codec2Client::Component> & comp)164 C2OMXNode::C2OMXNode(const std::shared_ptr<Codec2Client::Component> &comp)
165 : mComp(comp), mFrameIndex(0), mWidth(0), mHeight(0), mUsage(0),
166 mAdjustTimestampGapUs(0), mFirstInputFrame(true),
167 mQueueThread(new QueueThread) {
168 android_fdsan_set_error_level(ANDROID_FDSAN_ERROR_LEVEL_WARN_ALWAYS);
169 mQueueThread->run("C2OMXNode", PRIORITY_AUDIO);
170 }
171
freeNode()172 status_t C2OMXNode::freeNode() {
173 mComp.reset();
174 android_fdsan_set_error_level(ANDROID_FDSAN_ERROR_LEVEL_WARN_ONCE);
175 return mQueueThread->requestExitAndWait();
176 }
177
sendCommand(OMX_COMMANDTYPE cmd,OMX_S32 param)178 status_t C2OMXNode::sendCommand(OMX_COMMANDTYPE cmd, OMX_S32 param) {
179 if (cmd == OMX_CommandStateSet && param == OMX_StateLoaded) {
180 // Reset first input frame so if C2OMXNode is recycled, the timestamp does not become
181 // negative. This is a workaround for HW codecs that do not handle timestamp rollover.
182 mFirstInputFrame = true;
183 }
184 return ERROR_UNSUPPORTED;
185 }
186
getParameter(OMX_INDEXTYPE index,void * params,size_t size)187 status_t C2OMXNode::getParameter(OMX_INDEXTYPE index, void *params, size_t size) {
188 status_t err = ERROR_UNSUPPORTED;
189 switch ((uint32_t)index) {
190 case OMX_IndexParamConsumerUsageBits: {
191 OMX_U32 *usage = (OMX_U32 *)params;
192 *usage = mUsage;
193 err = OK;
194 break;
195 }
196 case OMX_IndexParamPortDefinition: {
197 if (size < sizeof(OMX_PARAM_PORTDEFINITIONTYPE)) {
198 return BAD_VALUE;
199 }
200 OMX_PARAM_PORTDEFINITIONTYPE *pDef = (OMX_PARAM_PORTDEFINITIONTYPE *)params;
201 // TODO: read these from intf()
202 pDef->nBufferCountActual = 16;
203 pDef->eDomain = OMX_PortDomainVideo;
204 pDef->format.video.nFrameWidth = mWidth;
205 pDef->format.video.nFrameHeight = mHeight;
206 err = OK;
207 break;
208 }
209 default:
210 break;
211 }
212 return err;
213 }
214
setParameter(OMX_INDEXTYPE index,const void * params,size_t size)215 status_t C2OMXNode::setParameter(OMX_INDEXTYPE index, const void *params, size_t size) {
216 if (params == NULL) {
217 return BAD_VALUE;
218 }
219 switch ((uint32_t)index) {
220 case OMX_IndexParamMaxFrameDurationForBitrateControl:
221 // handle max/fixed frame duration control
222 if (size != sizeof(OMX_PARAM_U32TYPE)) {
223 return BAD_VALUE;
224 }
225 // The incoming number is an int32_t contained in OMX_U32.
226 mAdjustTimestampGapUs = (int32_t)((OMX_PARAM_U32TYPE*)params)->nU32;
227 return OK;
228
229 case OMX_IndexParamConsumerUsageBits:
230 if (size != sizeof(OMX_U32)) {
231 return BAD_VALUE;
232 }
233 mUsage = *((OMX_U32 *)params);
234 return OK;
235 }
236 return ERROR_UNSUPPORTED;
237 }
238
getConfig(OMX_INDEXTYPE index,void * config,size_t size)239 status_t C2OMXNode::getConfig(OMX_INDEXTYPE index, void *config, size_t size) {
240 (void)index;
241 (void)config;
242 (void)size;
243 return ERROR_UNSUPPORTED;
244 }
245
setConfig(OMX_INDEXTYPE index,const void * config,size_t size)246 status_t C2OMXNode::setConfig(OMX_INDEXTYPE index, const void *config, size_t size) {
247 (void)index;
248 (void)config;
249 (void)size;
250 return ERROR_UNSUPPORTED;
251 }
252
setPortMode(OMX_U32 portIndex,IOMX::PortMode mode)253 status_t C2OMXNode::setPortMode(OMX_U32 portIndex, IOMX::PortMode mode) {
254 (void)portIndex;
255 (void)mode;
256 return ERROR_UNSUPPORTED;
257 }
258
prepareForAdaptivePlayback(OMX_U32 portIndex,OMX_BOOL enable,OMX_U32 maxFrameWidth,OMX_U32 maxFrameHeight)259 status_t C2OMXNode::prepareForAdaptivePlayback(
260 OMX_U32 portIndex, OMX_BOOL enable,
261 OMX_U32 maxFrameWidth, OMX_U32 maxFrameHeight) {
262 (void)portIndex;
263 (void)enable;
264 (void)maxFrameWidth;
265 (void)maxFrameHeight;
266 return ERROR_UNSUPPORTED;
267 }
268
configureVideoTunnelMode(OMX_U32 portIndex,OMX_BOOL tunneled,OMX_U32 audioHwSync,native_handle_t ** sidebandHandle)269 status_t C2OMXNode::configureVideoTunnelMode(
270 OMX_U32 portIndex, OMX_BOOL tunneled,
271 OMX_U32 audioHwSync, native_handle_t **sidebandHandle) {
272 (void)portIndex;
273 (void)tunneled;
274 (void)audioHwSync;
275 *sidebandHandle = nullptr;
276 return ERROR_UNSUPPORTED;
277 }
278
getGraphicBufferUsage(OMX_U32 portIndex,OMX_U32 * usage)279 status_t C2OMXNode::getGraphicBufferUsage(OMX_U32 portIndex, OMX_U32* usage) {
280 (void)portIndex;
281 *usage = 0;
282 return ERROR_UNSUPPORTED;
283 }
284
setInputSurface(const sp<IOMXBufferSource> & bufferSource)285 status_t C2OMXNode::setInputSurface(const sp<IOMXBufferSource> &bufferSource) {
286 c2_status_t err = GetCodec2PlatformAllocatorStore()->fetchAllocator(
287 C2PlatformAllocatorStore::GRALLOC,
288 &mAllocator);
289 if (err != OK) {
290 return UNKNOWN_ERROR;
291 }
292 mBufferSource = bufferSource;
293 return OK;
294 }
295
allocateSecureBuffer(OMX_U32 portIndex,size_t size,buffer_id * buffer,void ** bufferData,sp<NativeHandle> * nativeHandle)296 status_t C2OMXNode::allocateSecureBuffer(
297 OMX_U32 portIndex, size_t size, buffer_id *buffer,
298 void **bufferData, sp<NativeHandle> *nativeHandle) {
299 (void)portIndex;
300 (void)size;
301 (void)nativeHandle;
302 *buffer = 0;
303 *bufferData = nullptr;
304 return ERROR_UNSUPPORTED;
305 }
306
useBuffer(OMX_U32 portIndex,const OMXBuffer & omxBuf,buffer_id * buffer)307 status_t C2OMXNode::useBuffer(
308 OMX_U32 portIndex, const OMXBuffer &omxBuf, buffer_id *buffer) {
309 (void)portIndex;
310 (void)omxBuf;
311 *buffer = 0;
312 return ERROR_UNSUPPORTED;
313 }
314
freeBuffer(OMX_U32 portIndex,buffer_id buffer)315 status_t C2OMXNode::freeBuffer(OMX_U32 portIndex, buffer_id buffer) {
316 (void)portIndex;
317 (void)buffer;
318 return ERROR_UNSUPPORTED;
319 }
320
fillBuffer(buffer_id buffer,const OMXBuffer & omxBuf,int fenceFd)321 status_t C2OMXNode::fillBuffer(
322 buffer_id buffer, const OMXBuffer &omxBuf, int fenceFd) {
323 (void)buffer;
324 (void)omxBuf;
325 (void)fenceFd;
326 return ERROR_UNSUPPORTED;
327 }
328
emptyBuffer(buffer_id buffer,const OMXBuffer & omxBuf,OMX_U32 flags,OMX_TICKS timestamp,int fenceFd)329 status_t C2OMXNode::emptyBuffer(
330 buffer_id buffer, const OMXBuffer &omxBuf,
331 OMX_U32 flags, OMX_TICKS timestamp, int fenceFd) {
332 std::shared_ptr<Codec2Client::Component> comp = mComp.lock();
333 if (!comp) {
334 return NO_INIT;
335 }
336
337 uint32_t c2Flags = (flags & OMX_BUFFERFLAG_EOS)
338 ? C2FrameData::FLAG_END_OF_STREAM : 0;
339 std::shared_ptr<C2GraphicBlock> block;
340
341 android::base::unique_fd fd0, fd1;
342 C2Handle *handle = nullptr;
343 if (omxBuf.mBufferType == OMXBuffer::kBufferTypeANWBuffer
344 && omxBuf.mGraphicBuffer != nullptr) {
345 std::shared_ptr<C2GraphicAllocation> alloc;
346 handle = WrapNativeCodec2GrallocHandle(
347 omxBuf.mGraphicBuffer->handle,
348 omxBuf.mGraphicBuffer->width,
349 omxBuf.mGraphicBuffer->height,
350 omxBuf.mGraphicBuffer->format,
351 omxBuf.mGraphicBuffer->usage,
352 omxBuf.mGraphicBuffer->stride);
353 if (handle != nullptr) {
354 // unique_fd takes ownership of the fds, we'll get warning if these
355 // fds get closed by somebody else. Onwership will be released before
356 // we return, so that the fds get closed as usually when this function
357 // goes out of scope (when both items and block are gone).
358 native_handle_t *nativeHandle = reinterpret_cast<native_handle_t*>(handle);
359 fd0.reset(nativeHandle->numFds > 0 ? nativeHandle->data[0] : -1);
360 fd1.reset(nativeHandle->numFds > 1 ? nativeHandle->data[1] : -1);
361 }
362 c2_status_t err = mAllocator->priorGraphicAllocation(handle, &alloc);
363 if (err != OK) {
364 (void)fd0.release();
365 (void)fd1.release();
366 return UNKNOWN_ERROR;
367 }
368 block = _C2BlockFactory::CreateGraphicBlock(alloc);
369 } else if (!(flags & OMX_BUFFERFLAG_EOS)) {
370 return BAD_VALUE;
371 }
372
373 std::unique_ptr<C2Work> work(new C2Work);
374 work->input.flags = (C2FrameData::flags_t)c2Flags;
375 work->input.ordinal.timestamp = timestamp;
376
377 // WORKAROUND: adjust timestamp based on gapUs
378 {
379 work->input.ordinal.customOrdinal = timestamp; // save input timestamp
380 if (mFirstInputFrame) {
381 // grab timestamps on first frame
382 mPrevInputTimestamp = timestamp;
383 mPrevCodecTimestamp = timestamp;
384 mFirstInputFrame = false;
385 } else if (mAdjustTimestampGapUs > 0) {
386 work->input.ordinal.timestamp =
387 mPrevCodecTimestamp
388 + c2_min((timestamp - mPrevInputTimestamp).peek(), mAdjustTimestampGapUs);
389 } else if (mAdjustTimestampGapUs < 0) {
390 work->input.ordinal.timestamp = mPrevCodecTimestamp - mAdjustTimestampGapUs;
391 }
392 mPrevInputTimestamp = work->input.ordinal.customOrdinal;
393 mPrevCodecTimestamp = work->input.ordinal.timestamp;
394 ALOGV("adjusting %lld to %lld (gap=%lld)",
395 work->input.ordinal.customOrdinal.peekll(),
396 work->input.ordinal.timestamp.peekll(),
397 (long long)mAdjustTimestampGapUs);
398 }
399
400 work->input.ordinal.frameIndex = mFrameIndex++;
401 work->input.buffers.clear();
402 if (block) {
403 std::shared_ptr<C2Buffer> c2Buffer(
404 new Buffer2D(block->share(
405 C2Rect(block->width(), block->height()), ::C2Fence())));
406 work->input.buffers.push_back(c2Buffer);
407 }
408 work->worklets.clear();
409 work->worklets.emplace_back(new C2Worklet);
410 mBufferIdsInUse.lock()->emplace(work->input.ordinal.frameIndex.peeku(), buffer);
411 mQueueThread->queue(comp, fenceFd, std::move(work), std::move(fd0), std::move(fd1));
412
413 return OK;
414 }
415
getExtensionIndex(const char * parameterName,OMX_INDEXTYPE * index)416 status_t C2OMXNode::getExtensionIndex(
417 const char *parameterName, OMX_INDEXTYPE *index) {
418 (void)parameterName;
419 *index = OMX_IndexMax;
420 return ERROR_UNSUPPORTED;
421 }
422
dispatchMessage(const omx_message & msg)423 status_t C2OMXNode::dispatchMessage(const omx_message& msg) {
424 if (msg.type != omx_message::EVENT) {
425 return ERROR_UNSUPPORTED;
426 }
427 if (msg.u.event_data.event != OMX_EventDataSpaceChanged) {
428 return ERROR_UNSUPPORTED;
429 }
430 android_dataspace dataSpace = (android_dataspace)msg.u.event_data.data1;
431 uint32_t pixelFormat = msg.u.event_data.data3;
432
433 // TODO: set dataspace on component to see if it impacts color aspects
434 ALOGD("dataspace changed to %#x pixel format: %#x", dataSpace, pixelFormat);
435 return OK;
436 }
437
getSource()438 sp<IOMXBufferSource> C2OMXNode::getSource() {
439 return mBufferSource;
440 }
441
setFrameSize(uint32_t width,uint32_t height)442 void C2OMXNode::setFrameSize(uint32_t width, uint32_t height) {
443 mWidth = width;
444 mHeight = height;
445 }
446
onInputBufferDone(c2_cntr64_t index)447 void C2OMXNode::onInputBufferDone(c2_cntr64_t index) {
448 if (!mBufferSource) {
449 ALOGD("Buffer source not set (index=%llu)", index.peekull());
450 return;
451 }
452
453 int32_t bufferId = 0;
454 {
455 decltype(mBufferIdsInUse)::Locked bufferIds(mBufferIdsInUse);
456 auto it = bufferIds->find(index.peeku());
457 if (it == bufferIds->end()) {
458 ALOGV("Untracked input index %llu (maybe already removed)", index.peekull());
459 return;
460 }
461 bufferId = it->second;
462 (void)bufferIds->erase(it);
463 }
464 (void)mBufferSource->onInputBufferEmptied(bufferId, -1);
465 }
466
467 } // namespace android
468