1/*
2 * Copyright (C) 2012 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_NDEBUG 0
18#define LOG_TAG "SoftAVCEncoder"
19#include <utils/Log.h>
20#include <utils/misc.h>
21
22#include "avcenc_api.h"
23#include "avcenc_int.h"
24#include "OMX_Video.h"
25
26#include <HardwareAPI.h>
27#include <MetadataBufferType.h>
28#include <media/stagefright/foundation/ADebug.h>
29#include <media/stagefright/foundation/AUtils.h>
30#include <media/stagefright/MediaDefs.h>
31#include <media/stagefright/MediaErrors.h>
32#include <media/stagefright/MetaData.h>
33#include <media/stagefright/Utils.h>
34#include <ui/Rect.h>
35#include <ui/GraphicBufferMapper.h>
36
37#include "SoftAVCEncoder.h"
38
39#if LOG_NDEBUG
40#define UNUSED_UNLESS_VERBOSE(x) (void)(x)
41#else
42#define UNUSED_UNLESS_VERBOSE(x)
43#endif
44
45namespace android {
46
47template<class T>
48static void InitOMXParams(T *params) {
49    params->nSize = sizeof(T);
50    params->nVersion.s.nVersionMajor = 1;
51    params->nVersion.s.nVersionMinor = 0;
52    params->nVersion.s.nRevision = 0;
53    params->nVersion.s.nStep = 0;
54}
55
56static const CodecProfileLevel kProfileLevels[] = {
57    { OMX_VIDEO_AVCProfileBaseline, OMX_VIDEO_AVCLevel2  },
58};
59
60typedef struct LevelConversion {
61    OMX_U32 omxLevel;
62    AVCLevel avcLevel;
63    uint32_t maxMacroBlocks;
64} LevelConcersion;
65
66static LevelConversion ConversionTable[] = {
67    { OMX_VIDEO_AVCLevel1,  AVC_LEVEL1_B, 99 },
68    { OMX_VIDEO_AVCLevel1b, AVC_LEVEL1,   99 },
69    { OMX_VIDEO_AVCLevel11, AVC_LEVEL1_1, 396 },
70    { OMX_VIDEO_AVCLevel12, AVC_LEVEL1_2, 396 },
71    { OMX_VIDEO_AVCLevel13, AVC_LEVEL1_3, 396 },
72    { OMX_VIDEO_AVCLevel2,  AVC_LEVEL2,   396 },
73#if 0
74    // encoding speed is very poor if video resolution
75    // is higher than CIF or if level is higher than 2
76    { OMX_VIDEO_AVCLevel21, AVC_LEVEL2_1, 792 },
77    { OMX_VIDEO_AVCLevel22, AVC_LEVEL2_2, 1620 },
78    { OMX_VIDEO_AVCLevel3,  AVC_LEVEL3,   1620 },
79    { OMX_VIDEO_AVCLevel31, AVC_LEVEL3_1, 3600 },
80    { OMX_VIDEO_AVCLevel32, AVC_LEVEL3_2, 5120 },
81    { OMX_VIDEO_AVCLevel4,  AVC_LEVEL4,   8192 },
82    { OMX_VIDEO_AVCLevel41, AVC_LEVEL4_1, 8192 },
83    { OMX_VIDEO_AVCLevel42, AVC_LEVEL4_2, 8704 },
84    { OMX_VIDEO_AVCLevel5,  AVC_LEVEL5,   22080 },
85    { OMX_VIDEO_AVCLevel51, AVC_LEVEL5_1, 36864 },
86#endif
87};
88
89static status_t ConvertOmxAvcLevelToAvcSpecLevel(
90        OMX_U32 omxLevel, AVCLevel *avcLevel) {
91    for (size_t i = 0, n = sizeof(ConversionTable)/sizeof(ConversionTable[0]);
92        i < n; ++i) {
93        if (omxLevel == ConversionTable[i].omxLevel) {
94            *avcLevel = ConversionTable[i].avcLevel;
95            return OK;
96        }
97    }
98
99    ALOGE("ConvertOmxAvcLevelToAvcSpecLevel: %d level not supported",
100            (int32_t)omxLevel);
101
102    return BAD_VALUE;
103}
104
105static status_t ConvertAvcSpecLevelToOmxAvcLevel(
106    AVCLevel avcLevel, OMX_U32 *omxLevel) {
107    for (size_t i = 0, n = sizeof(ConversionTable)/sizeof(ConversionTable[0]);
108        i < n; ++i) {
109        if (avcLevel == ConversionTable[i].avcLevel) {
110            *omxLevel = ConversionTable[i].omxLevel;
111            return OK;
112        }
113    }
114
115    ALOGE("ConvertAvcSpecLevelToOmxAvcLevel: %d level not supported",
116            (int32_t) avcLevel);
117
118    return BAD_VALUE;
119}
120
121static void* MallocWrapper(
122        void * /* userData */, int32_t size, int32_t /* attrs */) {
123    void *ptr = malloc(size);
124    if (ptr)
125        memset(ptr, 0, size);
126    return ptr;
127}
128
129static void FreeWrapper(void * /* userData */, void* ptr) {
130    free(ptr);
131}
132
133static int32_t DpbAllocWrapper(void *userData,
134        unsigned int sizeInMbs, unsigned int numBuffers) {
135    SoftAVCEncoder *encoder = static_cast<SoftAVCEncoder *>(userData);
136    CHECK(encoder != NULL);
137    return encoder->allocOutputBuffers(sizeInMbs, numBuffers);
138}
139
140static int32_t BindFrameWrapper(
141        void *userData, int32_t index, uint8_t **yuv) {
142    SoftAVCEncoder *encoder = static_cast<SoftAVCEncoder *>(userData);
143    CHECK(encoder != NULL);
144    return encoder->bindOutputBuffer(index, yuv);
145}
146
147static void UnbindFrameWrapper(void *userData, int32_t index) {
148    SoftAVCEncoder *encoder = static_cast<SoftAVCEncoder *>(userData);
149    CHECK(encoder != NULL);
150    return encoder->unbindOutputBuffer(index);
151}
152
153SoftAVCEncoder::SoftAVCEncoder(
154            const char *name,
155            const OMX_CALLBACKTYPE *callbacks,
156            OMX_PTR appData,
157            OMX_COMPONENTTYPE **component)
158    : SoftVideoEncoderOMXComponent(
159            name, "video_encoder.avc", OMX_VIDEO_CodingAVC,
160            kProfileLevels, NELEM(kProfileLevels),
161            176 /* width */, 144 /* height */,
162            callbacks, appData, component),
163      mIDRFrameRefreshIntervalInSec(1),
164      mAVCEncProfile(AVC_BASELINE),
165      mAVCEncLevel(AVC_LEVEL2),
166      mNumInputFrames(-1),
167      mPrevTimestampUs(-1),
168      mStarted(false),
169      mSawInputEOS(false),
170      mSignalledError(false),
171      mHandle(new tagAVCHandle),
172      mEncParams(new tagAVCEncParam),
173      mInputFrameData(NULL),
174      mSliceGroup(NULL) {
175
176    const size_t kOutputBufferSize =
177        320 * ConversionTable[NELEM(ConversionTable) - 1].maxMacroBlocks;
178
179    initPorts(
180            kNumBuffers, kNumBuffers, kOutputBufferSize,
181            MEDIA_MIMETYPE_VIDEO_AVC, 2 /* minCompressionRatio */);
182
183    ALOGI("Construct SoftAVCEncoder");
184}
185
186SoftAVCEncoder::~SoftAVCEncoder() {
187    ALOGV("Destruct SoftAVCEncoder");
188    releaseEncoder();
189    List<BufferInfo *> &outQueue = getPortQueue(1);
190    List<BufferInfo *> &inQueue = getPortQueue(0);
191    CHECK(outQueue.empty());
192    CHECK(inQueue.empty());
193}
194
195OMX_ERRORTYPE SoftAVCEncoder::initEncParams() {
196    CHECK(mHandle != NULL);
197    memset(mHandle, 0, sizeof(tagAVCHandle));
198    mHandle->AVCObject = NULL;
199    mHandle->userData = this;
200    mHandle->CBAVC_DPBAlloc = DpbAllocWrapper;
201    mHandle->CBAVC_FrameBind = BindFrameWrapper;
202    mHandle->CBAVC_FrameUnbind = UnbindFrameWrapper;
203    mHandle->CBAVC_Malloc = MallocWrapper;
204    mHandle->CBAVC_Free = FreeWrapper;
205
206    CHECK(mEncParams != NULL);
207    memset(mEncParams, 0, sizeof(*mEncParams));
208    mEncParams->rate_control = AVC_ON;
209    mEncParams->initQP = 0;
210    mEncParams->init_CBP_removal_delay = 1600;
211
212    mEncParams->intramb_refresh = 0;
213    mEncParams->auto_scd = AVC_ON;
214    mEncParams->out_of_band_param_set = AVC_ON;
215    mEncParams->poc_type = 2;
216    mEncParams->log2_max_poc_lsb_minus_4 = 12;
217    mEncParams->delta_poc_zero_flag = 0;
218    mEncParams->offset_poc_non_ref = 0;
219    mEncParams->offset_top_bottom = 0;
220    mEncParams->num_ref_in_cycle = 0;
221    mEncParams->offset_poc_ref = NULL;
222
223    mEncParams->num_ref_frame = 1;
224    mEncParams->num_slice_group = 1;
225    mEncParams->fmo_type = 0;
226
227    mEncParams->db_filter = AVC_ON;
228    mEncParams->disable_db_idc = 0;
229
230    mEncParams->alpha_offset = 0;
231    mEncParams->beta_offset = 0;
232    mEncParams->constrained_intra_pred = AVC_OFF;
233
234    mEncParams->data_par = AVC_OFF;
235    mEncParams->fullsearch = AVC_OFF;
236    mEncParams->search_range = 16;
237    mEncParams->sub_pel = AVC_OFF;
238    mEncParams->submb_pred = AVC_OFF;
239    mEncParams->rdopt_mode = AVC_OFF;
240    mEncParams->bidir_pred = AVC_OFF;
241
242    mEncParams->use_overrun_buffer = AVC_OFF;
243
244    if (mColorFormat != OMX_COLOR_FormatYUV420Planar || mInputDataIsMeta) {
245        // Color conversion is needed.
246        free(mInputFrameData);
247        mInputFrameData =
248            (uint8_t *) malloc((mWidth * mHeight * 3 ) >> 1);
249        CHECK(mInputFrameData != NULL);
250    }
251
252    // PV's AVC encoder requires the video dimension of multiple
253    if (mWidth % 16 != 0 || mHeight % 16 != 0) {
254        ALOGE("Video frame size %dx%d must be a multiple of 16",
255            mWidth, mHeight);
256        return OMX_ErrorBadParameter;
257    }
258
259    mEncParams->width = mWidth;
260    mEncParams->height = mHeight;
261    mEncParams->bitrate = mBitrate;
262    mEncParams->frame_rate = (1000 * mFramerate) >> 16;  // In frames/ms!, mFramerate is in Q16
263    mEncParams->CPB_size = (uint32_t) (mBitrate >> 1);
264
265    int32_t nMacroBlocks = divUp(mWidth, 16) * divUp(mHeight, 16);
266    CHECK(mSliceGroup == NULL);
267    mSliceGroup = (uint32_t *) malloc(sizeof(uint32_t) * nMacroBlocks);
268    CHECK(mSliceGroup != NULL);
269    for (int ii = 0, idx = 0; ii < nMacroBlocks; ++ii) {
270        mSliceGroup[ii] = idx++;
271        if (idx >= mEncParams->num_slice_group) {
272            idx = 0;
273        }
274    }
275    mEncParams->slice_group = mSliceGroup;
276
277    // Set IDR frame refresh interval
278    if (mIDRFrameRefreshIntervalInSec < 0) {
279        mEncParams->idr_period = -1;
280    } else if (mIDRFrameRefreshIntervalInSec == 0) {
281        mEncParams->idr_period = 1;  // All I frames
282    } else {
283        mEncParams->idr_period =
284            (mIDRFrameRefreshIntervalInSec * mFramerate) >> 16; // mFramerate is in Q16
285    }
286
287    // Set profile and level
288    mEncParams->profile = mAVCEncProfile;
289    mEncParams->level = mAVCEncLevel;
290
291    return OMX_ErrorNone;
292}
293
294OMX_ERRORTYPE SoftAVCEncoder::initEncoder() {
295    CHECK(!mStarted);
296
297    OMX_ERRORTYPE errType = OMX_ErrorNone;
298    if (OMX_ErrorNone != (errType = initEncParams())) {
299        ALOGE("Failed to initialized encoder params");
300        mSignalledError = true;
301        notify(OMX_EventError, OMX_ErrorUndefined, 0, 0);
302        return errType;
303    }
304
305    AVCEnc_Status err;
306    err = PVAVCEncInitialize(mHandle, mEncParams, NULL, NULL);
307    if (err != AVCENC_SUCCESS) {
308        ALOGE("Failed to initialize the encoder: %d", err);
309        mSignalledError = true;
310        notify(OMX_EventError, OMX_ErrorUndefined, 0, 0);
311        return OMX_ErrorUndefined;
312    }
313
314    mNumInputFrames = -2;  // 1st two buffers contain SPS and PPS
315    mSpsPpsHeaderReceived = false;
316    mReadyForNextFrame = true;
317    mIsIDRFrame = false;
318    mStarted = true;
319
320    return OMX_ErrorNone;
321}
322
323OMX_ERRORTYPE SoftAVCEncoder::releaseEncoder() {
324    if (!mStarted) {
325        return OMX_ErrorNone;
326    }
327
328    PVAVCCleanUpEncoder(mHandle);
329    releaseOutputBuffers();
330
331    free(mInputFrameData);
332    mInputFrameData = NULL;
333
334    free(mSliceGroup);
335    mSliceGroup = NULL;
336
337    delete mEncParams;
338    mEncParams = NULL;
339
340    delete mHandle;
341    mHandle = NULL;
342
343    mStarted = false;
344
345    return OMX_ErrorNone;
346}
347
348void SoftAVCEncoder::releaseOutputBuffers() {
349    for (size_t i = 0; i < mOutputBuffers.size(); ++i) {
350        MediaBuffer *buffer = mOutputBuffers.editItemAt(i);
351        buffer->setObserver(NULL);
352        buffer->release();
353    }
354    mOutputBuffers.clear();
355}
356
357OMX_ERRORTYPE SoftAVCEncoder::internalGetParameter(
358        OMX_INDEXTYPE index, OMX_PTR params) {
359    switch (index) {
360        case OMX_IndexParamVideoBitrate:
361        {
362            OMX_VIDEO_PARAM_BITRATETYPE *bitRate =
363                (OMX_VIDEO_PARAM_BITRATETYPE *) params;
364
365            if (bitRate->nPortIndex != 1) {
366                return OMX_ErrorUndefined;
367            }
368
369            bitRate->eControlRate = OMX_Video_ControlRateVariable;
370            bitRate->nTargetBitrate = mBitrate;
371            return OMX_ErrorNone;
372        }
373
374        case OMX_IndexParamVideoAvc:
375        {
376            OMX_VIDEO_PARAM_AVCTYPE *avcParams =
377                (OMX_VIDEO_PARAM_AVCTYPE *)params;
378
379            if (avcParams->nPortIndex != 1) {
380                return OMX_ErrorUndefined;
381            }
382
383            avcParams->eProfile = OMX_VIDEO_AVCProfileBaseline;
384            OMX_U32 omxLevel = AVC_LEVEL2;
385            if (OMX_ErrorNone !=
386                ConvertAvcSpecLevelToOmxAvcLevel(mAVCEncLevel, &omxLevel)) {
387                return OMX_ErrorUndefined;
388            }
389
390            avcParams->eLevel = (OMX_VIDEO_AVCLEVELTYPE) omxLevel;
391            avcParams->nRefFrames = 1;
392            avcParams->nBFrames = 0;
393            avcParams->bUseHadamard = OMX_TRUE;
394            avcParams->nAllowedPictureTypes =
395                    (OMX_VIDEO_PictureTypeI | OMX_VIDEO_PictureTypeP);
396            avcParams->nRefIdx10ActiveMinus1 = 0;
397            avcParams->nRefIdx11ActiveMinus1 = 0;
398            avcParams->bWeightedPPrediction = OMX_FALSE;
399            avcParams->bEntropyCodingCABAC = OMX_FALSE;
400            avcParams->bconstIpred = OMX_FALSE;
401            avcParams->bDirect8x8Inference = OMX_FALSE;
402            avcParams->bDirectSpatialTemporal = OMX_FALSE;
403            avcParams->nCabacInitIdc = 0;
404            return OMX_ErrorNone;
405        }
406
407        default:
408            return SoftVideoEncoderOMXComponent::internalGetParameter(index, params);
409    }
410}
411
412OMX_ERRORTYPE SoftAVCEncoder::internalSetParameter(
413        OMX_INDEXTYPE index, const OMX_PTR params) {
414    int32_t indexFull = index;
415
416    switch (indexFull) {
417        case OMX_IndexParamVideoBitrate:
418        {
419            OMX_VIDEO_PARAM_BITRATETYPE *bitRate =
420                (OMX_VIDEO_PARAM_BITRATETYPE *) params;
421
422            if (bitRate->nPortIndex != 1 ||
423                bitRate->eControlRate != OMX_Video_ControlRateVariable) {
424                return OMX_ErrorUndefined;
425            }
426
427            mBitrate = bitRate->nTargetBitrate;
428            return OMX_ErrorNone;
429        }
430
431        case OMX_IndexParamVideoAvc:
432        {
433            OMX_VIDEO_PARAM_AVCTYPE *avcType =
434                (OMX_VIDEO_PARAM_AVCTYPE *)params;
435
436            if (avcType->nPortIndex != 1) {
437                return OMX_ErrorUndefined;
438            }
439
440            // PV's AVC encoder only supports baseline profile
441            if (avcType->eProfile != OMX_VIDEO_AVCProfileBaseline ||
442                avcType->nRefFrames != 1 ||
443                avcType->nBFrames != 0 ||
444                avcType->bUseHadamard != OMX_TRUE ||
445                (avcType->nAllowedPictureTypes & OMX_VIDEO_PictureTypeB) != 0 ||
446                avcType->nRefIdx10ActiveMinus1 != 0 ||
447                avcType->nRefIdx11ActiveMinus1 != 0 ||
448                avcType->bWeightedPPrediction != OMX_FALSE ||
449                avcType->bEntropyCodingCABAC != OMX_FALSE ||
450                avcType->bconstIpred != OMX_FALSE ||
451                avcType->bDirect8x8Inference != OMX_FALSE ||
452                avcType->bDirectSpatialTemporal != OMX_FALSE ||
453                avcType->nCabacInitIdc != 0) {
454                return OMX_ErrorUndefined;
455            }
456
457            if (OK != ConvertOmxAvcLevelToAvcSpecLevel(avcType->eLevel, &mAVCEncLevel)) {
458                return OMX_ErrorUndefined;
459            }
460
461            return OMX_ErrorNone;
462        }
463
464        default:
465            return SoftVideoEncoderOMXComponent::internalSetParameter(index, params);
466    }
467}
468
469void SoftAVCEncoder::onQueueFilled(OMX_U32 /* portIndex */) {
470    if (mSignalledError || mSawInputEOS) {
471        return;
472    }
473
474    if (!mStarted) {
475        if (OMX_ErrorNone != initEncoder()) {
476            return;
477        }
478    }
479
480    List<BufferInfo *> &inQueue = getPortQueue(0);
481    List<BufferInfo *> &outQueue = getPortQueue(1);
482
483    while (!mSawInputEOS && !inQueue.empty() && !outQueue.empty()) {
484        BufferInfo *inInfo = *inQueue.begin();
485        OMX_BUFFERHEADERTYPE *inHeader = inInfo->mHeader;
486        BufferInfo *outInfo = *outQueue.begin();
487        OMX_BUFFERHEADERTYPE *outHeader = outInfo->mHeader;
488
489        outHeader->nTimeStamp = 0;
490        outHeader->nFlags = 0;
491        outHeader->nOffset = 0;
492        outHeader->nFilledLen = 0;
493        outHeader->nOffset = 0;
494
495        uint8_t *outPtr = (uint8_t *) outHeader->pBuffer;
496        uint32_t dataLength = outHeader->nAllocLen;
497
498        if (!mSpsPpsHeaderReceived && mNumInputFrames < 0) {
499            // 4 bytes are reserved for holding the start code 0x00000001
500            // of the sequence parameter set at the beginning.
501            outPtr += 4;
502            dataLength -= 4;
503        }
504
505        int32_t type;
506        AVCEnc_Status encoderStatus = AVCENC_SUCCESS;
507
508        // Combine SPS and PPS and place them in the very first output buffer
509        // SPS and PPS are separated by start code 0x00000001
510        // Assume that we have exactly one SPS and exactly one PPS.
511        while (!mSpsPpsHeaderReceived && mNumInputFrames <= 0) {
512            encoderStatus = PVAVCEncodeNAL(mHandle, outPtr, &dataLength, &type);
513            if (encoderStatus == AVCENC_WRONG_STATE) {
514                mSpsPpsHeaderReceived = true;
515                CHECK_EQ(0, mNumInputFrames);  // 1st video frame is 0
516                outHeader->nFlags = OMX_BUFFERFLAG_CODECCONFIG;
517                outQueue.erase(outQueue.begin());
518                outInfo->mOwnedByUs = false;
519                notifyFillBufferDone(outHeader);
520                return;
521            } else {
522                switch (type) {
523                    case AVC_NALTYPE_SPS:
524                        ++mNumInputFrames;
525                        memcpy((uint8_t *)outHeader->pBuffer, "\x00\x00\x00\x01", 4);
526                        outHeader->nFilledLen = 4 + dataLength;
527                        outPtr += (dataLength + 4);  // 4 bytes for next start code
528                        dataLength = outHeader->nAllocLen - outHeader->nFilledLen;
529                        break;
530                    default:
531                        CHECK_EQ(AVC_NALTYPE_PPS, type);
532                        ++mNumInputFrames;
533                        memcpy((uint8_t *) outHeader->pBuffer + outHeader->nFilledLen,
534                                "\x00\x00\x00\x01", 4);
535                        outHeader->nFilledLen += (dataLength + 4);
536                        outPtr += (dataLength + 4);
537                        break;
538                }
539            }
540        }
541
542        // Get next input video frame
543        if (mReadyForNextFrame) {
544            // Save the input buffer info so that it can be
545            // passed to an output buffer
546            InputBufferInfo info;
547            info.mTimeUs = inHeader->nTimeStamp;
548            info.mFlags = inHeader->nFlags;
549            mInputBufferInfoVec.push(info);
550            mPrevTimestampUs = inHeader->nTimeStamp;
551
552            if (inHeader->nFlags & OMX_BUFFERFLAG_EOS) {
553                mSawInputEOS = true;
554            }
555
556            if (inHeader->nFilledLen > 0) {
557                AVCFrameIO videoInput;
558                memset(&videoInput, 0, sizeof(videoInput));
559                videoInput.height = align(mHeight, 16);
560                videoInput.pitch = align(mWidth, 16);
561                videoInput.coding_timestamp = (inHeader->nTimeStamp + 500) / 1000;  // in ms
562                const uint8_t *inputData = NULL;
563                if (mInputDataIsMeta) {
564                    if (inHeader->nFilledLen != 8) {
565                        ALOGE("MetaData buffer is wrong size! "
566                                "(got %u bytes, expected 8)", inHeader->nFilledLen);
567                        mSignalledError = true;
568                        notify(OMX_EventError, OMX_ErrorUndefined, 0, 0);
569                        return;
570                    }
571                    inputData =
572                        extractGraphicBuffer(
573                                mInputFrameData, (mWidth * mHeight * 3) >> 1,
574                                inHeader->pBuffer + inHeader->nOffset, inHeader->nFilledLen,
575                                mWidth, mHeight);
576                    if (inputData == NULL) {
577                        ALOGE("Unable to extract gralloc buffer in metadata mode");
578                        mSignalledError = true;
579                        notify(OMX_EventError, OMX_ErrorUndefined, 0, 0);
580                        return;
581                    }
582                    // TODO: Verify/convert pixel format enum
583                } else {
584                    inputData = (const uint8_t *)inHeader->pBuffer + inHeader->nOffset;
585                    if (mColorFormat != OMX_COLOR_FormatYUV420Planar) {
586                        ConvertYUV420SemiPlanarToYUV420Planar(
587                            inputData, mInputFrameData, mWidth, mHeight);
588                        inputData = mInputFrameData;
589                    }
590                }
591
592                CHECK(inputData != NULL);
593                videoInput.YCbCr[0] = (uint8_t *)inputData;
594                videoInput.YCbCr[1] = videoInput.YCbCr[0] + videoInput.height * videoInput.pitch;
595                videoInput.YCbCr[2] = videoInput.YCbCr[1] +
596                    ((videoInput.height * videoInput.pitch) >> 2);
597                videoInput.disp_order = mNumInputFrames;
598
599                encoderStatus = PVAVCEncSetInput(mHandle, &videoInput);
600                if (encoderStatus == AVCENC_SUCCESS || encoderStatus == AVCENC_NEW_IDR) {
601                    mReadyForNextFrame = false;
602                    ++mNumInputFrames;
603                    if (encoderStatus == AVCENC_NEW_IDR) {
604                        mIsIDRFrame = 1;
605                    }
606                } else {
607                    if (encoderStatus < AVCENC_SUCCESS) {
608                        ALOGE("encoderStatus = %d at line %d", encoderStatus, __LINE__);
609                        mSignalledError = true;
610                        notify(OMX_EventError, OMX_ErrorUndefined, 0, 0);
611                        return;
612                    } else {
613                        ALOGV("encoderStatus = %d at line %d", encoderStatus, __LINE__);
614                        inQueue.erase(inQueue.begin());
615                        inInfo->mOwnedByUs = false;
616                        notifyEmptyBufferDone(inHeader);
617                        return;
618                    }
619                }
620            }
621        }
622
623        // Encode an input video frame
624        CHECK(encoderStatus == AVCENC_SUCCESS || encoderStatus == AVCENC_NEW_IDR);
625        dataLength = outHeader->nAllocLen;  // Reset the output buffer length
626        if (inHeader->nFilledLen > 0) {
627            if (outHeader->nAllocLen >= 4) {
628                memcpy(outPtr, "\x00\x00\x00\x01", 4);
629                outPtr += 4;
630                dataLength -= 4;
631            }
632            encoderStatus = PVAVCEncodeNAL(mHandle, outPtr, &dataLength, &type);
633            dataLength = outPtr + dataLength - outHeader->pBuffer;
634            if (encoderStatus == AVCENC_SUCCESS) {
635                CHECK(NULL == PVAVCEncGetOverrunBuffer(mHandle));
636            } else if (encoderStatus == AVCENC_PICTURE_READY) {
637                CHECK(NULL == PVAVCEncGetOverrunBuffer(mHandle));
638                if (mIsIDRFrame) {
639                    outHeader->nFlags |= OMX_BUFFERFLAG_SYNCFRAME;
640                    mIsIDRFrame = false;
641                }
642                mReadyForNextFrame = true;
643                AVCFrameIO recon;
644                if (PVAVCEncGetRecon(mHandle, &recon) == AVCENC_SUCCESS) {
645                    PVAVCEncReleaseRecon(mHandle, &recon);
646                }
647            } else {
648                dataLength = 0;
649                mReadyForNextFrame = true;
650            }
651
652            if (encoderStatus < AVCENC_SUCCESS) {
653                ALOGE("encoderStatus = %d at line %d", encoderStatus, __LINE__);
654                mSignalledError = true;
655                notify(OMX_EventError, OMX_ErrorUndefined, 0, 0);
656                return;
657            }
658        } else {
659            dataLength = 0;
660        }
661
662        inQueue.erase(inQueue.begin());
663        inInfo->mOwnedByUs = false;
664        notifyEmptyBufferDone(inHeader);
665
666        outQueue.erase(outQueue.begin());
667        CHECK(!mInputBufferInfoVec.empty());
668        InputBufferInfo *inputBufInfo = mInputBufferInfoVec.begin();
669        outHeader->nTimeStamp = inputBufInfo->mTimeUs;
670        outHeader->nFlags |= (inputBufInfo->mFlags | OMX_BUFFERFLAG_ENDOFFRAME);
671        if (mSawInputEOS) {
672            outHeader->nFlags |= OMX_BUFFERFLAG_EOS;
673        }
674        outHeader->nFilledLen = dataLength;
675        outInfo->mOwnedByUs = false;
676        notifyFillBufferDone(outHeader);
677        mInputBufferInfoVec.erase(mInputBufferInfoVec.begin());
678    }
679}
680
681int32_t SoftAVCEncoder::allocOutputBuffers(
682        unsigned int sizeInMbs, unsigned int numBuffers) {
683    CHECK(mOutputBuffers.isEmpty());
684    size_t frameSize = (sizeInMbs << 7) * 3;
685    for (unsigned int i = 0; i <  numBuffers; ++i) {
686        MediaBuffer *buffer = new MediaBuffer(frameSize);
687        buffer->setObserver(this);
688        mOutputBuffers.push(buffer);
689    }
690
691    return 1;
692}
693
694void SoftAVCEncoder::unbindOutputBuffer(int32_t index) {
695    CHECK(index >= 0);
696}
697
698int32_t SoftAVCEncoder::bindOutputBuffer(int32_t index, uint8_t **yuv) {
699    CHECK(index >= 0);
700    CHECK(index < (int32_t) mOutputBuffers.size());
701    *yuv = (uint8_t *) mOutputBuffers[index]->data();
702
703    return 1;
704}
705
706void SoftAVCEncoder::signalBufferReturned(MediaBuffer *buffer) {
707    UNUSED_UNLESS_VERBOSE(buffer);
708    ALOGV("signalBufferReturned: %p", buffer);
709}
710
711}  // namespace android
712
713android::SoftOMXComponent *createSoftOMXComponent(
714        const char *name, const OMX_CALLBACKTYPE *callbacks,
715        OMX_PTR appData, OMX_COMPONENTTYPE **component) {
716    return new android::SoftAVCEncoder(name, callbacks, appData, component);
717}
718