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gerrit.omnirom.org / android_frameworks_av / 8d087d13aeb9efbb5a5df890aec92f991a3684e8 / . / media / codec2 / components / apv / C2SoftApvEnc.cpp
blob: 9c5e0b2c74b1efdd25599bd2dc0b970f6770056e [file] [log] [blame]
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]1/*
2 * Copyright (C) 2024 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 "C2SoftApvEnc"
19#include <log/log.h>
20
Fyodor Kyslov6379ef22024-11-07 16:44:51 +0000[diff] [blame]21#include <android_media_swcodec_flags.h>
22
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]23#include <media/hardware/VideoAPI.h>
24#include <media/stagefright/MediaDefs.h>
25#include <media/stagefright/MediaErrors.h>
26#include <media/stagefright/MetaData.h>
27#include <media/stagefright/foundation/AUtils.h>
28
29#include <C2Debug.h>
30#include <C2PlatformSupport.h>
31#include <Codec2BufferUtils.h>
32#include <Codec2CommonUtils.h>
33#include <Codec2Mapper.h>
34#include <SimpleC2Interface.h>
35#include <media/stagefright/foundation/ABitReader.h>
36#include <util/C2InterfaceHelper.h>
37#include <cmath>
38#include "C2SoftApvEnc.h"
39
40namespace android {
41
42namespace {
43
44constexpr char COMPONENT_NAME[] = "c2.android.apv.encoder";
45constexpr uint32_t kMinOutBufferSize = 524288;
46constexpr uint32_t kMaxBitstreamBufSize = 16 * 1024 * 1024;
47constexpr int32_t kApvQpMin = 0;
48constexpr int32_t kApvQpMax = 51;
49constexpr int32_t kApvDefaultQP = 32;
50
51#define PROFILE_APV_DEFAULT 0
52#define LEVEL_APV_DEFAULT 0
53#define MAX_NUM_FRMS (1) // supports only 1-frame input
54
55} // namespace
56
57class C2SoftApvEnc::IntfImpl : public SimpleInterface<void>::BaseParams {
58 public:
59 explicit IntfImpl(const std::shared_ptr<C2ReflectorHelper>& helper)
60 : SimpleInterface<void>::BaseParams(helper, COMPONENT_NAME, C2Component::KIND_ENCODER,
61 C2Component::DOMAIN_VIDEO, MEDIA_MIMETYPE_VIDEO_APV) {
62 noPrivateBuffers();
63 noInputReferences();
64 noOutputReferences();
65 noTimeStretch();
66 setDerivedInstance(this);
67
68 addParameter(DefineParam(mAttrib, C2_PARAMKEY_COMPONENT_ATTRIBUTES)
69 .withConstValue(new C2ComponentAttributesSetting(
70 C2Component::ATTRIB_IS_TEMPORAL))
71 .build());
72
73 addParameter(DefineParam(mUsage, C2_PARAMKEY_INPUT_STREAM_USAGE)
74 .withConstValue(new C2StreamUsageTuning::input(
75 0u, (uint64_t)C2MemoryUsage::CPU_READ))
76 .build());
77
78 // matches size limits in codec library
79 addParameter(DefineParam(mSize, C2_PARAMKEY_PICTURE_SIZE)
80 .withDefault(new C2StreamPictureSizeInfo::input(0u, 320, 240))
81 .withFields({
82 C2F(mSize, width).inRange(2, 4096, 2),
83 C2F(mSize, height).inRange(2, 4096, 2),
84 })
85 .withSetter(SizeSetter)
86 .build());
87
88 // matches limits in codec library
89 addParameter(DefineParam(mBitrateMode, C2_PARAMKEY_BITRATE_MODE)
90 .withDefault(new C2StreamBitrateModeTuning::output(
91 0u, C2Config::BITRATE_VARIABLE))
92 .withFields({C2F(mBitrateMode, value)
93 .oneOf({C2Config::BITRATE_CONST,
94 C2Config::BITRATE_VARIABLE,
95 C2Config::BITRATE_IGNORE})})
96 .withSetter(Setter<decltype(*mBitrateMode)>::StrictValueWithNoDeps)
97 .build());
98
99 addParameter(DefineParam(mBitrate, C2_PARAMKEY_BITRATE)
100 .withDefault(new C2StreamBitrateInfo::output(0u, 512000))
101 .withFields({C2F(mBitrate, value).inRange(512000, 240000000)})
102 .withSetter(BitrateSetter)
103 .build());
104
105 addParameter(DefineParam(mFrameRate, C2_PARAMKEY_FRAME_RATE)
106 .withDefault(new C2StreamFrameRateInfo::output(0u, 15.))
107 .withFields({C2F(mFrameRate, value).greaterThan(0.)})
108 .withSetter(Setter<decltype(*mFrameRate)>::StrictValueWithNoDeps)
109 .build());
110
111 addParameter(DefineParam(mQuality, C2_PARAMKEY_QUALITY)
112 .withDefault(new C2StreamQualityTuning::output(0u, 40))
113 .withFields({C2F(mQuality, value).inRange(0, 100)})
114 .withSetter(Setter<decltype(*mQuality)>::NonStrictValueWithNoDeps)
115 .build());
116
117 addParameter(
118 DefineParam(mProfileLevel, C2_PARAMKEY_PROFILE_LEVEL)
119 .withDefault(new C2StreamProfileLevelInfo::output(
120 0u, C2Config::PROFILE_APV_422_10, LEVEL_APV_1_BAND_0))
121 .withFields({
122 C2F(mProfileLevel, profile).oneOf({C2Config::PROFILE_APV_422_10}),
123 C2F(mProfileLevel, level)
124 .oneOf({
125 C2Config::LEVEL_APV_1_BAND_0,
126 C2Config::LEVEL_APV_1_1_BAND_0,
127 C2Config::LEVEL_APV_2_BAND_0,
128 C2Config::LEVEL_APV_2_1_BAND_0,
129 C2Config::LEVEL_APV_3_BAND_0,
130 C2Config::LEVEL_APV_3_1_BAND_0,
131 C2Config::LEVEL_APV_4_BAND_0,
132 C2Config::LEVEL_APV_4_1_BAND_0,
133 C2Config::LEVEL_APV_5_BAND_0,
134 C2Config::LEVEL_APV_5_1_BAND_0,
135 C2Config::LEVEL_APV_6_BAND_0,
136 C2Config::LEVEL_APV_6_1_BAND_0,
137 C2Config::LEVEL_APV_7_BAND_0,
138 C2Config::LEVEL_APV_7_1_BAND_0,
139 C2Config::LEVEL_APV_1_BAND_1,
140 C2Config::LEVEL_APV_1_1_BAND_1,
141 C2Config::LEVEL_APV_2_BAND_1,
142 C2Config::LEVEL_APV_2_1_BAND_1,
143 C2Config::LEVEL_APV_3_BAND_1,
144 C2Config::LEVEL_APV_3_1_BAND_1,
145 C2Config::LEVEL_APV_4_BAND_1,
146 C2Config::LEVEL_APV_4_1_BAND_1,
147 C2Config::LEVEL_APV_5_BAND_1,
148 C2Config::LEVEL_APV_5_1_BAND_1,
149 C2Config::LEVEL_APV_6_BAND_1,
150 C2Config::LEVEL_APV_6_1_BAND_1,
151 C2Config::LEVEL_APV_7_BAND_1,
152 C2Config::LEVEL_APV_7_1_BAND_1,
153 C2Config::LEVEL_APV_1_BAND_2,
154 C2Config::LEVEL_APV_1_1_BAND_2,
155 C2Config::LEVEL_APV_2_BAND_2,
156 C2Config::LEVEL_APV_2_1_BAND_2,
157 C2Config::LEVEL_APV_3_BAND_2,
158 C2Config::LEVEL_APV_3_1_BAND_2,
159 C2Config::LEVEL_APV_4_BAND_2,
160 C2Config::LEVEL_APV_4_1_BAND_2,
161 C2Config::LEVEL_APV_5_BAND_2,
162 C2Config::LEVEL_APV_5_1_BAND_2,
163 C2Config::LEVEL_APV_6_BAND_2,
164 C2Config::LEVEL_APV_6_1_BAND_2,
165 C2Config::LEVEL_APV_7_BAND_2,
166 C2Config::LEVEL_APV_7_1_BAND_2,
167 C2Config::LEVEL_APV_1_BAND_3,
168 C2Config::LEVEL_APV_1_1_BAND_3,
169 C2Config::LEVEL_APV_2_BAND_3,
170 C2Config::LEVEL_APV_2_1_BAND_3,
171 C2Config::LEVEL_APV_3_BAND_3,
172 C2Config::LEVEL_APV_3_1_BAND_3,
173 C2Config::LEVEL_APV_4_BAND_3,
174 C2Config::LEVEL_APV_4_1_BAND_3,
175 C2Config::LEVEL_APV_5_BAND_3,
176 C2Config::LEVEL_APV_5_1_BAND_3,
177 C2Config::LEVEL_APV_6_BAND_3,
178 C2Config::LEVEL_APV_6_1_BAND_3,
179 C2Config::LEVEL_APV_7_BAND_3,
180 C2Config::LEVEL_APV_7_1_BAND_3,
181 }),
182 })
183 .withSetter(ProfileLevelSetter, mSize, mFrameRate, mBitrate)
184 .build());
185
186 addParameter(DefineParam(mColorAspects, C2_PARAMKEY_COLOR_ASPECTS)
187 .withDefault(new C2StreamColorAspectsInfo::input(
188 0u, C2Color::RANGE_UNSPECIFIED, C2Color::PRIMARIES_UNSPECIFIED,
189 C2Color::TRANSFER_UNSPECIFIED, C2Color::MATRIX_UNSPECIFIED))
190 .withFields({C2F(mColorAspects, range)
191 .inRange(C2Color::RANGE_UNSPECIFIED,
192 C2Color::RANGE_OTHER),
193 C2F(mColorAspects, primaries)
194 .inRange(C2Color::PRIMARIES_UNSPECIFIED,
195 C2Color::PRIMARIES_OTHER),
196 C2F(mColorAspects, transfer)
197 .inRange(C2Color::TRANSFER_UNSPECIFIED,
198 C2Color::TRANSFER_OTHER),
199 C2F(mColorAspects, matrix)
200 .inRange(C2Color::MATRIX_UNSPECIFIED,
201 C2Color::MATRIX_OTHER)})
202 .withSetter(ColorAspectsSetter)
203 .build());
204
205 addParameter(DefineParam(mCodedColorAspects, C2_PARAMKEY_VUI_COLOR_ASPECTS)
206 .withDefault(new C2StreamColorAspectsInfo::output(
207 0u, C2Color::RANGE_LIMITED, C2Color::PRIMARIES_UNSPECIFIED,
208 C2Color::TRANSFER_UNSPECIFIED, C2Color::MATRIX_UNSPECIFIED))
209 .withFields({C2F(mCodedColorAspects, range)
210 .inRange(C2Color::RANGE_UNSPECIFIED,
211 C2Color::RANGE_OTHER),
212 C2F(mCodedColorAspects, primaries)
213 .inRange(C2Color::PRIMARIES_UNSPECIFIED,
214 C2Color::PRIMARIES_OTHER),
215 C2F(mCodedColorAspects, transfer)
216 .inRange(C2Color::TRANSFER_UNSPECIFIED,
217 C2Color::TRANSFER_OTHER),
218 C2F(mCodedColorAspects, matrix)
219 .inRange(C2Color::MATRIX_UNSPECIFIED,
220 C2Color::MATRIX_OTHER)})
221 .withSetter(CodedColorAspectsSetter, mColorAspects)
222 .build());
223 std::vector<uint32_t> pixelFormats = {
Fyodor Kyslov7f64e012024-11-15 20:17:33 +0000[diff] [blame]224 HAL_PIXEL_FORMAT_IMPLEMENTATION_DEFINED,
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]225 };
226 if (isHalPixelFormatSupported((AHardwareBuffer_Format)HAL_PIXEL_FORMAT_YCBCR_P010)) {
227 pixelFormats.push_back(HAL_PIXEL_FORMAT_YCBCR_P010);
228 }
Fyodor Kyslov7f64e012024-11-15 20:17:33 +0000[diff] [blame]229 if (isHalPixelFormatSupported((AHardwareBuffer_Format)AHARDWAREBUFFER_FORMAT_YCbCr_P210)) {
230 pixelFormats.push_back(AHARDWAREBUFFER_FORMAT_YCbCr_P210);
231 }
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]232 addParameter(DefineParam(mPixelFormat, C2_PARAMKEY_PIXEL_FORMAT)
233 .withDefault(new C2StreamPixelFormatInfo::input(
234 0u, HAL_PIXEL_FORMAT_YCBCR_P010))
235 .withFields({C2F(mPixelFormat, value).oneOf({pixelFormats})})
236 .withSetter((Setter<decltype(*mPixelFormat)>::StrictValueWithNoDeps))
237 .build());
238 }
239
240 static C2R BitrateSetter(bool mayBlock, C2P<C2StreamBitrateInfo::output>& me) {
241 (void)mayBlock;
242 C2R res = C2R::Ok();
243 if (me.v.value < 1000000) {
244 me.set().value = 1000000;
245 }
246 return res;
247 }
248
249 static C2R SizeSetter(bool mayBlock, const C2P<C2StreamPictureSizeInfo::input>& oldMe,
250 C2P<C2StreamPictureSizeInfo::input>& me) {
251 (void)mayBlock;
252 C2R res = C2R::Ok();
253 if (!me.F(me.v.width).supportsAtAll(me.v.width)) {
254 res = res.plus(C2SettingResultBuilder::BadValue(me.F(me.v.width)));
255 me.set().width = oldMe.v.width;
256 }
257 if (!me.F(me.v.height).supportsAtAll(me.v.height)) {
258 res = res.plus(C2SettingResultBuilder::BadValue(me.F(me.v.height)));
259 me.set().height = oldMe.v.height;
260 }
261 return res;
262 }
263
264 static C2R ProfileLevelSetter(bool mayBlock, C2P<C2StreamProfileLevelInfo::output>& me,
265 const C2P<C2StreamPictureSizeInfo::input>& size,
266 const C2P<C2StreamFrameRateInfo::output>& frameRate,
267 const C2P<C2StreamBitrateInfo::output>& bitrate) {
268 (void)mayBlock;
269 if (!me.F(me.v.profile).supportsAtAll(me.v.profile)) {
270 me.set().profile = C2Config::PROFILE_APV_422_10;
271 }
272 if (!me.F(me.v.level).supportsAtAll(me.v.level)) {
273 me.set().level = LEVEL_APV_1_BAND_0;
274 }
275 return C2R::Ok();
276 }
277
278 static C2R ColorAspectsSetter(bool mayBlock, C2P<C2StreamColorAspectsInfo::input>& me) {
279 (void)mayBlock;
280 if (me.v.range > C2Color::RANGE_OTHER) {
281 me.set().range = C2Color::RANGE_OTHER;
282 }
283 if (me.v.primaries > C2Color::PRIMARIES_OTHER) {
284 me.set().primaries = C2Color::PRIMARIES_OTHER;
285 }
286 if (me.v.transfer > C2Color::TRANSFER_OTHER) {
287 me.set().transfer = C2Color::TRANSFER_OTHER;
288 }
289 if (me.v.matrix > C2Color::MATRIX_OTHER) {
290 me.set().matrix = C2Color::MATRIX_OTHER;
291 }
292 return C2R::Ok();
293 }
294
295 static C2R CodedColorAspectsSetter(bool mayBlock, C2P<C2StreamColorAspectsInfo::output>& me,
296 const C2P<C2StreamColorAspectsInfo::input>& coded) {
297 (void)mayBlock;
298 me.set().range = coded.v.range;
299 me.set().primaries = coded.v.primaries;
300 me.set().transfer = coded.v.transfer;
301 me.set().matrix = coded.v.matrix;
302 return C2R::Ok();
303 }
304
305 uint32_t getProfile_l() const {
306 int32_t profile = PROFILE_UNUSED;
307
308 switch (mProfileLevel->profile) {
309 case C2Config::PROFILE_APV_422_10:
310 profile = 33;
311 break;
312 case C2Config::PROFILE_APV_422_12:
313 profile = 44;
314 break;
315 case C2Config::PROFILE_APV_444_10:
316 profile = 55;
317 break;
318 case C2Config::PROFILE_APV_444_12:
319 profile = 66;
320 break;
321 case C2Config::PROFILE_APV_4444_10:
322 profile = 77;
323 break;
324 case C2Config::PROFILE_APV_4444_12:
325 profile = 88;
326 break;
327 case C2Config::PROFILE_APV_400_10:
328 profile = 99;
329 break;
330 default:
331 ALOGD("Unrecognized profile: %x", mProfileLevel->profile);
332 }
333 return profile;
334 }
335
336 uint32_t getLevel_l() const {
337 int32_t level = LEVEL_UNUSED;
338
339 // TODO: Add Band settings
340 switch (mProfileLevel->level) {
341 case C2Config::LEVEL_APV_1_BAND_0:
342 level = 10;
343 break;
344 case C2Config::LEVEL_APV_1_1_BAND_0:
345 level = 11;
346 break;
347 case C2Config::LEVEL_APV_2_BAND_0:
348 level = 20;
349 break;
350 case C2Config::LEVEL_APV_2_1_BAND_0:
351 level = 21;
352 break;
353 case C2Config::LEVEL_APV_3_BAND_0:
354 level = 30;
355 break;
356 case C2Config::LEVEL_APV_3_1_BAND_0:
357 level = 31;
358 break;
359 case C2Config::LEVEL_APV_4_BAND_0:
360 level = 40;
361 break;
362 case C2Config::LEVEL_APV_4_1_BAND_0:
363 level = 41;
364 break;
365 case C2Config::LEVEL_APV_5_BAND_0:
366 level = 50;
367 break;
368 case C2Config::LEVEL_APV_5_1_BAND_0:
369 level = 51;
370 break;
371 case C2Config::LEVEL_APV_6_BAND_0:
372 level = 60;
373 break;
374 case C2Config::LEVEL_APV_6_1_BAND_0:
375 level = 61;
376 break;
377 case C2Config::LEVEL_APV_7_BAND_0:
378 level = 70;
379 break;
380 case C2Config::LEVEL_APV_7_1_BAND_0:
381 level = 71;
382 break;
383 default:
384 ALOGD("Unrecognized level: %x", mProfileLevel->level);
385 }
386 // Convert to APV level_idc according to APV spec
387 return level * 3;
388 }
389
390 int32_t getBitrateMode_l() const {
391 int32_t bitrateMode = C2Config::BITRATE_CONST;
392
393 switch (mBitrateMode->value) {
394 case C2Config::BITRATE_CONST:
395 bitrateMode = OAPV_RC_CQP;
396 break;
397 case C2Config::BITRATE_VARIABLE:
398 bitrateMode = OAPV_RC_ABR;
399 break;
400 case C2Config::BITRATE_IGNORE:
401 bitrateMode = 0;
402 break;
403 default:
404 ALOGE("Unrecognized bitrate mode: %x", mBitrateMode->value);
405 }
406 return bitrateMode;
407 }
408
409 std::shared_ptr<C2StreamPictureSizeInfo::input> getSize_l() const { return mSize; }
410 std::shared_ptr<C2StreamFrameRateInfo::output> getFrameRate_l() const { return mFrameRate; }
411 std::shared_ptr<C2StreamBitrateInfo::output> getBitrate_l() const { return mBitrate; }
412 std::shared_ptr<C2StreamQualityTuning::output> getQuality_l() const { return mQuality; }
413 std::shared_ptr<C2StreamColorAspectsInfo::input> getColorAspects_l() const {
414 return mColorAspects;
415 }
416 std::shared_ptr<C2StreamColorAspectsInfo::output> getCodedColorAspects_l() const {
417 return mCodedColorAspects;
418 }
419 std::shared_ptr<C2StreamPictureQuantizationTuning::output> getPictureQuantization_l() const {
420 return mPictureQuantization;
421 }
422 std::shared_ptr<C2StreamProfileLevelInfo::output> getProfileLevel_l() const {
423 return mProfileLevel;
424 }
425 std::shared_ptr<C2StreamPixelFormatInfo::input> getPixelFormat_l() const {
426 return mPixelFormat;
427 }
428
429 private:
430 std::shared_ptr<C2StreamProfileLevelInfo::output> mProfileLevel;
431 std::shared_ptr<C2StreamUsageTuning::input> mUsage;
432 std::shared_ptr<C2StreamPictureSizeInfo::input> mSize;
433 std::shared_ptr<C2StreamFrameRateInfo::output> mFrameRate;
434 std::shared_ptr<C2StreamBitrateInfo::output> mBitrate;
435 std::shared_ptr<C2StreamBitrateModeTuning::output> mBitrateMode;
436 std::shared_ptr<C2StreamQualityTuning::output> mQuality;
437 std::shared_ptr<C2StreamColorAspectsInfo::input> mColorAspects;
438 std::shared_ptr<C2StreamColorAspectsInfo::output> mCodedColorAspects;
439 std::shared_ptr<C2StreamPictureQuantizationTuning::output> mPictureQuantization;
440 std::shared_ptr<C2StreamColorInfo::input> mColorFormat;
441 std::shared_ptr<C2StreamPixelFormatInfo::input> mPixelFormat;
442};
443
444C2SoftApvEnc::C2SoftApvEnc(const char* name, c2_node_id_t id,
445 const std::shared_ptr<IntfImpl>& intfImpl)
446 : SimpleC2Component(std::make_shared<SimpleInterface<IntfImpl>>(name, id, intfImpl)),
447 mIntf(intfImpl),
448 mColorFormat(OAPV_CF_PLANAR2),
449 mStarted(false),
450 mSignalledEos(false),
451 mSignalledError(false),
452 mOutBlock(nullptr) {
453 reset();
454}
455
456C2SoftApvEnc::~C2SoftApvEnc() {
457 onRelease();
458}
459
460c2_status_t C2SoftApvEnc::onInit() {
461 return C2_OK;
462}
463
464c2_status_t C2SoftApvEnc::onStop() {
465 return C2_OK;
466}
467
468void C2SoftApvEnc::onReset() {
469 releaseEncoder();
470 reset();
471}
472
473void C2SoftApvEnc::onRelease() {
474 releaseEncoder();
475}
476
477c2_status_t C2SoftApvEnc::onFlush_sm() {
478 return C2_OK;
479}
480
481static void fillEmptyWork(const std::unique_ptr<C2Work>& work) {
482 uint32_t flags = 0;
483 if (work->input.flags & C2FrameData::FLAG_END_OF_STREAM) {
484 flags |= C2FrameData::FLAG_END_OF_STREAM;
485 ALOGV("Signalling EOS");
486 }
487 work->worklets.front()->output.flags = (C2FrameData::flags_t)flags;
488 work->worklets.front()->output.buffers.clear();
489 work->worklets.front()->output.ordinal = work->input.ordinal;
490 work->workletsProcessed = 1u;
491}
492
493int32_t C2SoftApvEnc::getQpFromQuality(int32_t quality) {
494 int32_t qp = ((kApvQpMin - kApvQpMax) * quality / 100) + kApvQpMax;
495 qp = std::min(qp, (int)kApvQpMax);
496 qp = std::max(qp, (int)kApvQpMin);
497 return qp;
498}
499
500c2_status_t C2SoftApvEnc::reset() {
501 ALOGV("reset");
502 mInitEncoder = false;
503 mStarted = false;
504 mSignalledEos = false;
505 mSignalledError = false;
506 mBitDepth = 10;
507 mMaxFrames = MAX_NUM_FRMS;
508 mReceivedFrames = 0;
509 mReceivedFirstFrame = false;
510 mColorFormat = OAPV_CF_PLANAR2;
Fyodor Kyslov3fea66b2024-11-08 18:32:26 +0000[diff] [blame]511 memset(&mInputFrames, 0, sizeof(mInputFrames));
512 memset(&mReconFrames, 0, sizeof(mReconFrames));
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]513 return C2_OK;
514}
515
516c2_status_t C2SoftApvEnc::releaseEncoder() {
517 for (int32_t i = 0; i < MAX_NUM_FRMS; i++) {
518 if (mInputFrames.frm[i].imgb != nullptr) {
519 imgb_release(mInputFrames.frm[i].imgb);
Fyodor Kyslov3fea66b2024-11-08 18:32:26 +0000[diff] [blame]520 mInputFrames.frm[i].imgb = nullptr;
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]521 }
522 }
523
524 if (mBitstreamBuf) {
525 std::free(mBitstreamBuf);
526 mBitstreamBuf = nullptr;
527 }
528 return C2_OK;
529}
530
531c2_status_t C2SoftApvEnc::drain(uint32_t drainMode, const std::shared_ptr<C2BlockPool>& pool) {
532 return drainInternal(drainMode, pool, nullptr);
533}
534
535void C2SoftApvEnc::showEncoderParams(oapve_cdesc_t* cdsc) {
536 std::string title = "APV encoder params:";
537 ALOGD("%s width = %d, height = %d", title.c_str(), cdsc->param[0].w, cdsc->param[0].h);
538 ALOGD("%s FrameRate = %f", title.c_str(),
539 (double)cdsc->param[0].fps_num / cdsc->param[0].fps_den);
540 ALOGD("%s BitRate = %d Kbps", title.c_str(), cdsc->param[0].bitrate);
541 ALOGD("%s QP = %d", title.c_str(), cdsc->param[0].qp);
542 ALOGD("%s profile_idc = %d, level_idc = %d, band_idc = %d", title.c_str(),
543 cdsc->param[0].profile_idc, cdsc->param[0].level_idc / 3, cdsc->param[0].band_idc);
544 ALOGD("%s Bitrate Mode: %d", title.c_str(), cdsc->param[0].rc_type);
545 ALOGD("%s mColorAspects primaries: %d, transfer: %d, matrix: %d, range: %d", title.c_str(),
546 mColorAspects->primaries, mColorAspects->transfer, mColorAspects->matrix,
547 mColorAspects->range);
548 ALOGD("%s mCodedColorAspects primaries: %d, transfer: %d, matrix: %d, range: %d", title.c_str(),
549 mCodedColorAspects->primaries, mCodedColorAspects->transfer, mCodedColorAspects->matrix,
550 mCodedColorAspects->range);
551 ALOGD("%s Input color format: %s", title.c_str(),
552 mColorFormat == OAPV_CF_YCBCR422 ? "YUV422P10LE" : "P210");
553 ALOGD("%s max_num_frms: %d", title.c_str(), cdsc->max_num_frms);
554}
555
556c2_status_t C2SoftApvEnc::initEncoder() {
557 if (mInitEncoder) {
558 return C2_OK;
559 }
560 ALOGV("initEncoder");
561
562 mSize = mIntf->getSize_l();
563 mFrameRate = mIntf->getFrameRate_l();
564 mBitrate = mIntf->getBitrate_l();
565 mQuality = mIntf->getQuality_l();
566 mColorAspects = mIntf->getColorAspects_l();
567 mCodedColorAspects = mIntf->getCodedColorAspects_l();
568 mProfileLevel = mIntf->getProfileLevel_l();
569 mPixelFormat = mIntf->getPixelFormat_l();
570
571 mCodecDesc = std::make_unique<oapve_cdesc_t>();
572 if (mCodecDesc == nullptr) {
573 ALOGE("Allocate ctx failed");
574 return C2_NO_INIT;
575 }
576 mCodecDesc->max_bs_buf_size = kMaxBitstreamBufSize;
577 mCodecDesc->max_num_frms = MAX_NUM_FRMS;
578 // TODO: Bound parameters to CPU count
579 mCodecDesc->threads = 4;
580
581 int32_t ret = C2_OK;
582 /* set params */
583 for (int32_t i = 0; i < mMaxFrames; i++) {
584 oapve_param_t* param = &mCodecDesc->param[i];
585 ret = oapve_param_default(param);
586 if (OAPV_FAILED(ret)) {
587 ALOGE("cannot set default parameter");
588 return C2_NO_INIT;
589 }
590 setParams(*param);
591 }
592
593 showEncoderParams(mCodecDesc.get());
594
595 /* create encoder */
596 mEncoderId = oapve_create(mCodecDesc.get(), NULL);
597 if (mEncoderId == NULL) {
598 ALOGE("cannot create APV encoder");
599 return C2_CORRUPTED;
600 }
601
602 /* create metadata */
603 mMetaId = oapvm_create(&ret);
604 if (mMetaId == NULL) {
605 ALOGE("cannot create APV encoder");
606 return C2_NO_MEMORY;
607 }
608
609 /* create image buffers */
610 for (int32_t i = 0; i < mMaxFrames; i++) {
611 if (mBitDepth == 10) {
612 mInputFrames.frm[i].imgb = imgb_create(mCodecDesc->param[0].w, mCodecDesc->param[0].h,
613 OAPV_CS_SET(mColorFormat, mBitDepth, 0));
614 mReconFrames.frm[i].imgb = nullptr;
615 } else {
616 mInputFrames.frm[i].imgb = imgb_create(mCodecDesc->param[0].w, mCodecDesc->param[0].h,
617 OAPV_CS_SET(mColorFormat, 10, 0));
618 mReconFrames.frm[i].imgb = nullptr;
619 }
620 }
621
622 /* allocate bitstream buffer */
623 mBitstreamBuf = new unsigned char[kMaxBitstreamBufSize];
624 if (mBitstreamBuf == nullptr) {
625 ALOGE("cannot allocate bitstream buffer, size= %d", kMaxBitstreamBufSize);
626 return C2_NO_MEMORY;
627 }
628
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]629 mStarted = true;
630 mInitEncoder = true;
631 return C2_OK;
632}
633
634void C2SoftApvEnc::setParams(oapve_param_t& param) {
635 param.w = mSize->width;
636 param.h = mSize->height;
637 param.fps_num = (int)(mFrameRate->value * 100);
638 param.fps_den = 100;
639 param.bitrate = mBitrate->value / 1000;
640 param.rc_type = mIntf->getBitrateMode_l();
641
642 int ApvQP = kApvDefaultQP;
643 if (param.rc_type == OAPV_RC_CQP) {
644 ApvQP = getQpFromQuality(mQuality->value);
645 ALOGI("Bitrate mode is CQ, so QP value is derived from Quality. Quality is %d, QP is %d",
646 mQuality->value, ApvQP);
647 }
648 param.qp = ApvQP;
649 param.band_idc = 0; // TODO: Get from the Level setting
650 param.profile_idc = mIntf->getProfile_l();
651 C2Config::level_t level = decisionApvLevel(
652 param.w, param.h, (int)(param.fps_num / param.fps_den), param.bitrate, param.band_idc);
653 if (mProfileLevel->level != level) {
654 mProfileLevel->level = level;
655 ALOGI("Need to update level to %d", mIntf->getLevel_l());
656 }
657 param.level_idc = mIntf->getLevel_l();
658}
659
660c2_status_t C2SoftApvEnc::setEncodeArgs(oapv_frms_t* inputFrames, const C2GraphicView* const input,
661 uint64_t workIndex) {
662 if (input->width() < mSize->width || input->height() < mSize->height) {
663 /* Expect width height to be configured */
664 ALOGW("unexpected Capacity Aspect %d(%d) x %d(%d)", input->width(), mSize->width,
665 input->height(), mSize->height);
666 return C2_BAD_VALUE;
667 }
668 const C2PlanarLayout& layout = input->layout();
669 uint8_t* yPlane = const_cast<uint8_t*>(input->data()[C2PlanarLayout::PLANE_Y]);
670 uint8_t* uPlane = const_cast<uint8_t*>(input->data()[C2PlanarLayout::PLANE_U]);
671 uint8_t* vPlane = const_cast<uint8_t*>(input->data()[C2PlanarLayout::PLANE_V]);
672 int32_t yStride = layout.planes[C2PlanarLayout::PLANE_Y].rowInc;
673 int32_t uStride = layout.planes[C2PlanarLayout::PLANE_U].rowInc;
674 int32_t vStride = layout.planes[C2PlanarLayout::PLANE_V].rowInc;
675
676 uint32_t width = mSize->width;
677 uint32_t height = mSize->height;
678
679 /* width and height must be even */
680 if (width & 1u || height & 1u) {
681 ALOGW("height(%u) and width(%u) must both be even", height, width);
682 return C2_BAD_VALUE;
683 }
684
685 /* Set num frames */
686 inputFrames->num_frms = MAX_NUM_FRMS;
687 inputFrames->frm[mReceivedFrames].group_id = 1;
688 inputFrames->frm[mReceivedFrames].pbu_type = OAPV_PBU_TYPE_PRIMARY_FRAME;
689
690 switch (layout.type) {
691 case C2PlanarLayout::TYPE_RGB:
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]692 ALOGE("Not supported RGB color format");
693 return C2_BAD_VALUE;
Fyodor Kyslov7f64e012024-11-15 20:17:33 +0000[diff] [blame]694 case C2PlanarLayout::TYPE_RGBA: {
695 [[fallthrough]];
696 }
697 case C2PlanarLayout::TYPE_YUVA: {
698 ALOGV("Convert from ABGR2101010 to P210");
699 uint16_t *dstY, *dstU, *dstV;
700 dstY = (uint16_t*)inputFrames->frm[0].imgb->a[0];
701 dstU = (uint16_t*)inputFrames->frm[0].imgb->a[1];
702 dstV = (uint16_t*)inputFrames->frm[0].imgb->a[2];
703 convertRGBA1010102ToYUV420Planar16(dstY, dstU, dstV, (uint32_t*)(input->data()[0]),
704 layout.planes[layout.PLANE_Y].rowInc / 4, width,
705 height, mColorAspects->matrix,
706 mColorAspects->range);
707 break;
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]708 }
709 case C2PlanarLayout::TYPE_YUV: {
710 if (IsP010(*input)) {
711 if (mColorFormat == OAPV_CF_YCBCR422) {
712 ColorConvertP010ToYUV422P10le(input, inputFrames->frm[0].imgb);
713 } else if (mColorFormat == OAPV_CF_PLANAR2) {
Fyodor Kyslov7f64e012024-11-15 20:17:33 +0000[diff] [blame]714 uint16_t *srcY = (uint16_t*)(input->data()[0]);
715 uint16_t *srcUV = (uint16_t*)(input->data()[1]);
716 uint16_t *dstY = (uint16_t*)inputFrames->frm[0].imgb->a[0];
717 uint16_t *dstUV = (uint16_t*)inputFrames->frm[0].imgb->a[1];
718 convertP010ToP210(dstY, dstUV, srcY, srcUV,
719 input->width(), input->width(), input->width(),
720 input->height());
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]721 } else {
722 ALOGE("Not supported color format. %d", mColorFormat);
723 return C2_BAD_VALUE;
724 }
725 } else if (IsNV12(*input)) {
Fyodor Kyslov7f64e012024-11-15 20:17:33 +0000[diff] [blame]726 uint8_t *srcY = (uint8_t*)input->data()[0];
727 uint8_t *srcUV = (uint8_t*)input->data()[1];
728 uint16_t *dstY = (uint16_t*)inputFrames->frm[0].imgb->a[0];
729 uint16_t *dstUV = (uint16_t*)inputFrames->frm[0].imgb->a[1];
730 convertSemiPlanar8ToP210(dstY, dstUV, srcY, srcUV,
731 input->width(), input->width(), input->width(),
732 input->width(), input->width(), input->height(),
733 CONV_FORMAT_I420);
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]734 } else if (IsYUV420(*input)) {
735 return C2_BAD_VALUE;
736 } else if (IsI420(*input)) {
737 return C2_BAD_VALUE;
738 } else {
739 ALOGE("Not supported color format. %d", mColorFormat);
740 return C2_BAD_VALUE;
741 }
742 break;
743 }
744
745 default:
746 ALOGE("Unrecognized plane type: %d", layout.type);
747 return C2_BAD_VALUE;
748 }
749
750 return C2_OK;
751}
752
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]753C2Config::level_t C2SoftApvEnc::decisionApvLevel(int32_t width, int32_t height, int32_t fps,
754 int32_t bitrate, int32_t band) {
755 C2Config::level_t level = C2Config::LEVEL_APV_1_BAND_0;
756
757 struct LevelLimits {
758 C2Config::level_t level;
759 uint64_t samplesPerSec;
760 uint32_t bitratesOfBand;
761 };
762
763 constexpr LevelLimits kLimitsBand0[] = {
764 {LEVEL_APV_1_BAND_0, 3'041'280, 7'000},
765 {LEVEL_APV_1_1_BAND_0, 6'082'560, 14'000},
766 {LEVEL_APV_2_BAND_0, 15'667'200, 36'000},
767 {LEVEL_APV_2_1_BAND_0, 31'334'400, 71'000},
768 {LEVEL_APV_3_BAND_0, 66'846'720, 101'000},
769 {LEVEL_APV_3_1_BAND_0, 133'693'440, 201'000},
770 {LEVEL_APV_4_BAND_0, 265'420'800, 401'000},
771 {LEVEL_APV_4_1_BAND_0, 530'841'600, 780'000},
772 {LEVEL_APV_5_BAND_0, 1'061'683'200, 1'560'000},
773 {LEVEL_APV_5_1_BAND_0, 2'123'366'400, 3'324'000},
774 {LEVEL_APV_6_BAND_0, 4'777'574'400, 6'648'000},
775 {LEVEL_APV_6_1_BAND_0, 8'493'465'600, 13'296'000},
776 {LEVEL_APV_7_BAND_0, 16'986'931'200, 26'592'000},
777 {LEVEL_APV_7_1_BAND_0, 33'973'862'400, 53'184'000},
778 };
779
780 constexpr LevelLimits kLimitsBand1[] = {
781 {LEVEL_APV_1_BAND_1, 3'041'280, 11'000},
782 {LEVEL_APV_1_1_BAND_1, 6'082'560, 21'000},
783 {LEVEL_APV_2_BAND_1, 15'667'200, 53'000},
784 {LEVEL_APV_2_1_BAND_1, 31'334'400, 106'00},
785 {LEVEL_APV_3_BAND_1, 66'846'720, 151'000},
786 {LEVEL_APV_3_1_BAND_1, 133'693'440, 301'000},
787 {LEVEL_APV_4_BAND_1, 265'420'800, 602'000},
788 {LEVEL_APV_4_1_BAND_1, 530'841'600, 1'170'000},
789 {LEVEL_APV_5_BAND_1, 1'061'683'200, 2'340'000},
790 {LEVEL_APV_5_1_BAND_1, 2'123'366'400, 4'986'000},
791 {LEVEL_APV_6_BAND_1, 4'777'574'400, 9'972'000},
792 {LEVEL_APV_6_1_BAND_1, 8'493'465'600, 19'944'000},
793 {LEVEL_APV_7_BAND_1, 16'986'931'200, 39'888'000},
794 {LEVEL_APV_7_1_BAND_1, 33'973'862'400, 79'776'000},
795 };
796
797 constexpr LevelLimits kLimitsBand2[] = {
798 {LEVEL_APV_1_BAND_2, 3'041'280, 14'000},
799 {LEVEL_APV_1_1_BAND_2, 6'082'560, 28'000},
800 {LEVEL_APV_2_BAND_2, 15'667'200, 71'000},
801 {LEVEL_APV_2_1_BAND_2, 31'334'400, 141'000},
802 {LEVEL_APV_3_BAND_2, 66'846'720, 201'000},
803 {LEVEL_APV_3_1_BAND_2, 133'693'440, 401'000},
804 {LEVEL_APV_4_BAND_2, 265'420'800, 780'000},
805 {LEVEL_APV_4_1_BAND_2, 530'841'600, 1'560'000},
806 {LEVEL_APV_5_BAND_2, 1'061'683'200, 3'324'000},
807 {LEVEL_APV_5_1_BAND_2, 2'123'366'400, 6'648'000},
808 {LEVEL_APV_6_BAND_2, 4'777'574'400, 13'296'000},
809 {LEVEL_APV_6_1_BAND_2, 8'493'465'600, 26'592'000},
810 {LEVEL_APV_7_BAND_2, 16'986'931'200, 53'184'000},
811 {LEVEL_APV_7_1_BAND_2, 33'973'862'400, 106'368'000},
812 };
813
814 constexpr LevelLimits kLimitsBand3[] = {
815 {LEVEL_APV_1_BAND_3, 3'041'280, 21'000},
816 {LEVEL_APV_1_1_BAND_3, 6'082'560, 42'000},
817 {LEVEL_APV_2_BAND_3, 15'667'200, 106'000},
818 {LEVEL_APV_2_1_BAND_3, 31'334'400, 212'000},
819 {LEVEL_APV_3_BAND_3, 66'846'720, 301'000},
820 {LEVEL_APV_3_1_BAND_3, 133'693'440, 602'000},
821 {LEVEL_APV_4_BAND_3, 265'420'800, 1'170'000},
822 {LEVEL_APV_4_1_BAND_3, 530'841'600, 2'340'000},
823 {LEVEL_APV_5_BAND_3, 1'061'683'200, 4'986'000},
824 {LEVEL_APV_5_1_BAND_3, 2'123'366'400, 9'972'000},
825 {LEVEL_APV_6_BAND_3, 4'777'574'400, 19'944'000},
826 {LEVEL_APV_6_1_BAND_3, 8'493'465'600, 39'888'000},
827 {LEVEL_APV_7_BAND_3, 16'986'931'200, 79'776'000},
828 {LEVEL_APV_7_1_BAND_3, 33'973'862'400, 159'552'000},
829 };
830
831 uint64_t samplesPerSec = width * height * fps;
832 if (band == 0) {
833 for (const LevelLimits& limit : kLimitsBand0) {
834 if (samplesPerSec <= limit.samplesPerSec && bitrate <= limit.bitratesOfBand) {
835 level = limit.level;
836 break;
837 }
838 }
839 } else if (band == 1) {
840 for (const LevelLimits& limit : kLimitsBand1) {
841 if (samplesPerSec <= limit.samplesPerSec && bitrate <= limit.bitratesOfBand) {
842 level = limit.level;
843 break;
844 }
845 }
846 } else if (band == 2) {
847 for (const LevelLimits& limit : kLimitsBand2) {
848 if (samplesPerSec <= limit.samplesPerSec && bitrate <= limit.bitratesOfBand) {
849 level = limit.level;
850 break;
851 }
852 }
853 } else if (band == 3) {
854 for (const LevelLimits& limit : kLimitsBand3) {
855 if (samplesPerSec <= limit.samplesPerSec && bitrate <= limit.bitratesOfBand) {
856 level = limit.level;
857 break;
858 }
859 }
860 } else {
861 ALOGE("Invalid band_idc on calculte level");
862 }
863
864 return level;
865}
866
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]867void C2SoftApvEnc::ColorConvertP010ToYUV422P10le(const C2GraphicView* const input,
868 oapv_imgb_t* imgb) {
869 uint32_t width = input->width();
870 uint32_t height = input->height();
871
872 uint8_t* yPlane = (uint8_t*)input->data()[0];
873 auto* uvPlane = (uint8_t*)input->data()[1];
874 uint32_t stride[3];
875 stride[0] = width * 2;
876 stride[1] = stride[2] = width;
877
878 uint8_t *dst, *src;
879 uint16_t tmp;
880 for (int32_t y = 0; y < height; ++y) {
881 src = yPlane + y * stride[0];
882 dst = (uint8_t*)imgb->a[0] + y * stride[0];
883 for (int32_t x = 0; x < stride[0]; x += 2) {
884 tmp = (src[x + 1] << 2) | (src[x] >> 6);
885 dst[x] = tmp & 0xFF;
886 dst[x + 1] = tmp >> 8;
887 }
888 }
889
890 uint8_t *dst_u, *dst_v;
891 for (int32_t y = 0; y < height / 2; ++y) {
892 src = uvPlane + y * stride[1] * 2;
893 dst_u = (uint8_t*)imgb->a[1] + (y * 2) * stride[1];
894 dst_v = (uint8_t*)imgb->a[2] + (y * 2) * stride[2];
895 for (int32_t x = 0; x < stride[1] * 2; x += 4) {
896 tmp = (src[x + 1] << 2) | (src[x] >> 6); // cb
897 dst_u[x / 2] = tmp & 0xFF;
898 dst_u[x / 2 + 1] = tmp >> 8;
899 dst_u[x / 2 + stride[1]] = dst_u[x / 2];
900 dst_u[x / 2 + stride[1] + 1] = dst_u[x / 2 + 1];
901
902 tmp = (src[x + 3] << 2) | (src[x + 2] >> 6); // cr
903 dst_v[x / 2] = tmp & 0xFF;
904 dst_v[x / 2 + 1] = tmp >> 8;
905 dst_v[x / 2 + stride[2]] = dst_v[x / 2];
906 dst_v[x / 2 + stride[2] + 1] = dst_v[x / 2 + 1];
907 }
908 }
909}
910
911void C2SoftApvEnc::finishWork(uint64_t workIndex, const std::unique_ptr<C2Work>& work,
912 const std::shared_ptr<C2BlockPool>& pool, oapv_bitb_t* bitb,
913 oapve_stat_t* stat) {
914 std::shared_ptr<C2LinearBlock> block;
915 C2MemoryUsage usage = {C2MemoryUsage::CPU_READ, C2MemoryUsage::CPU_WRITE};
916 c2_status_t status = pool->fetchLinearBlock(stat->write, usage, &block);
917 if (C2_OK != status) {
918 ALOGE("fetchLinearBlock for Output failed with status 0x%x", status);
919 mSignalledError = true;
920 work->result = status;
921 work->workletsProcessed = 1u;
922 return;
923 }
924
925 C2WriteView wView = block->map().get();
926 if (C2_OK != wView.error()) {
927 ALOGE("write view map failed with status 0x%x", wView.error());
928 mSignalledError = true;
929 work->result = wView.error();
930 work->workletsProcessed = 1u;
931 return;
932 }
933 if ((!mReceivedFirstFrame)) {
934 createCsdData(work, bitb, stat->write);
935 mReceivedFirstFrame = true;
936 }
937
938 memcpy(wView.data(), bitb->addr, stat->write);
939 std::shared_ptr<C2Buffer> buffer = createLinearBuffer(block, 0, stat->write);
940
941 /* All frames are SYNC FRAME */
942 buffer->setInfo(std::make_shared<C2StreamPictureTypeMaskInfo::output>(0u /* stream id */,
943 C2Config::SYNC_FRAME));
944
945 auto fillWork = [buffer](const std::unique_ptr<C2Work>& work) {
946 work->worklets.front()->output.flags = (C2FrameData::flags_t)0;
947 work->worklets.front()->output.buffers.clear();
948 work->worklets.front()->output.buffers.push_back(buffer);
949 work->worklets.front()->output.ordinal = work->input.ordinal;
950 work->workletsProcessed = 1u;
951 };
952 if (work && c2_cntr64_t(workIndex) == work->input.ordinal.frameIndex) {
953 fillWork(work);
954 if (mSignalledEos) {
955 work->worklets.front()->output.flags = C2FrameData::FLAG_END_OF_STREAM;
956 }
957 } else {
958 finish(workIndex, fillWork);
959 }
960}
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]961
Fyodor Kyslov8d087d12024-11-18 23:08:44 +0000[diff] [blame^]962void C2SoftApvEnc::createCsdData(const std::unique_ptr<C2Work>& work,
963 oapv_bitb_t* bitb,
964 uint32_t encodedSize) {
965 if (encodedSize < 31) {
966 ALOGE("the first frame size is too small, so no csd data will be created.");
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]967 return;
968 }
Fyodor Kyslov8d087d12024-11-18 23:08:44 +0000[diff] [blame^]969 ABitReader reader((uint8_t*)bitb->addr, encodedSize);
970
971 uint8_t number_of_configuration_entry = 0;
972 uint8_t pbu_type = 0;
973 uint8_t number_of_frame_info = 0;
974 bool color_description_present_flag = false;
975 bool capture_time_distance_ignored = false;
976 uint8_t profile_idc = 0;
977 uint8_t level_idc = 0;
978 uint8_t band_idc = 0;
979 uint32_t frame_width_minus1 = 0;
980 uint32_t frame_height_minus1 = 0;
981 uint8_t chroma_format_idc = 0;
982 uint8_t bit_depth_minus8 = 0;
983 uint8_t capture_time_distance = 0;
984 uint8_t color_primaries = 0;
985 uint8_t transfer_characteristics = 0;
986 uint8_t matrix_coefficients = 0;
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]987
988 /* pbu_header() */
Fyodor Kyslov8d087d12024-11-18 23:08:44 +0000[diff] [blame^]989 reader.skipBits(32); // pbu_size
990 reader.skipBits(32); // currReadSize
991 pbu_type = reader.getBits(8); // pbu_type
992 reader.skipBits(16); // group_id
993 reader.skipBits(8); // reserved_zero_8bits
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]994
995 /* frame info() */
Fyodor Kyslov8d087d12024-11-18 23:08:44 +0000[diff] [blame^]996 profile_idc = reader.getBits(8); // profile_idc
997 level_idc = reader.getBits(8); // level_idc
998 band_idc = reader.getBits(3); // band_idc
999 reader.skipBits(5); // reserved_zero_5bits
1000 frame_width_minus1 = reader.getBits(32); // width
1001 frame_height_minus1 = reader.getBits(32); // height
1002 chroma_format_idc = reader.getBits(4); // chroma_format_idc
1003 bit_depth_minus8 = reader.getBits(4); // bit_depth
1004 capture_time_distance = reader.getBits(8); // capture_time_distance
1005 reader.skipBits(8); // reserved_zero_8bits
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]1006
1007 /* frame header() */
Fyodor Kyslov8d087d12024-11-18 23:08:44 +0000[diff] [blame^]1008 reader.skipBits(8); // reserved_zero_8bit
1009 color_description_present_flag = reader.getBits(1); // color_description_present_flag
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]1010 if (color_description_present_flag) {
Fyodor Kyslov8d087d12024-11-18 23:08:44 +0000[diff] [blame^]1011 color_primaries = reader.getBits(8); // color_primaries
1012 transfer_characteristics = reader.getBits(8); // transfer_characteristics
1013 matrix_coefficients = reader.getBits(8); // matrix_coefficients
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]1014 }
1015
Fyodor Kyslov8d087d12024-11-18 23:08:44 +0000[diff] [blame^]1016 number_of_configuration_entry = 1; // The real-time encoding on the device is assumed to be 1.
1017 number_of_frame_info = 1; // The real-time encoding on the device is assumed to be 1.
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]1018
Fyodor Kyslov8d087d12024-11-18 23:08:44 +0000[diff] [blame^]1019 std::vector<uint8_t> csdData;
1020 csdData.push_back((uint8_t)0x1);
1021 csdData.push_back(number_of_configuration_entry);
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]1022
Fyodor Kyslov8d087d12024-11-18 23:08:44 +0000[diff] [blame^]1023 for (uint8_t i = 0; i < number_of_configuration_entry; i++) {
1024 csdData.push_back(pbu_type);
1025 csdData.push_back(number_of_frame_info);
1026 for (uint8_t j = 0; j < number_of_frame_info; j++) {
1027 csdData.push_back((uint8_t)((color_description_present_flag << 1) |
1028 capture_time_distance_ignored));
1029 csdData.push_back(profile_idc);
1030 csdData.push_back(level_idc);
1031 csdData.push_back(band_idc);
1032 csdData.push_back((uint8_t)((frame_width_minus1 >> 24) & 0xff));
1033 csdData.push_back((uint8_t)((frame_width_minus1 >> 16) & 0xff));
1034 csdData.push_back((uint8_t)((frame_width_minus1 >> 8) & 0xff));
1035 csdData.push_back((uint8_t)(frame_width_minus1 & 0xff));
1036 csdData.push_back((uint8_t)((frame_height_minus1 >> 24) & 0xff));
1037 csdData.push_back((uint8_t)((frame_height_minus1 >> 16) & 0xff));
1038 csdData.push_back((uint8_t)((frame_height_minus1 >> 8) & 0xff));
1039 csdData.push_back((uint8_t)(frame_height_minus1 & 0xff));
1040 csdData.push_back((uint8_t)(((chroma_format_idc << 4) & 0xf0) |
1041 (bit_depth_minus8 & 0xf)));
1042 csdData.push_back((uint8_t)(capture_time_distance));
1043 if (color_description_present_flag) {
1044 csdData.push_back(color_primaries);
1045 csdData.push_back(transfer_characteristics);
1046 csdData.push_back(matrix_coefficients);
1047 }
1048 }
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]1049 }
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]1050
1051 std::unique_ptr<C2StreamInitDataInfo::output> csd =
Fyodor Kyslov8d087d12024-11-18 23:08:44 +0000[diff] [blame^]1052 C2StreamInitDataInfo::output::AllocUnique(csdData.size(), 0u);
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]1053 if (!csd) {
1054 ALOGE("CSD allocation failed");
1055 mSignalledError = true;
1056 work->result = C2_NO_MEMORY;
1057 work->workletsProcessed = 1u;
1058 return;
1059 }
1060
Fyodor Kyslov8d087d12024-11-18 23:08:44 +0000[diff] [blame^]1061 memcpy(csd->m.value, csdData.data(), csdData.size());
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]1062 work->worklets.front()->output.configUpdate.push_back(std::move(csd));
1063}
Fyodor Kyslov8d087d12024-11-18 23:08:44 +0000[diff] [blame^]1064
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]1065c2_status_t C2SoftApvEnc::drainInternal(uint32_t drainMode,
1066 const std::shared_ptr<C2BlockPool>& pool,
1067 const std::unique_ptr<C2Work>& work) {
1068 fillEmptyWork(work);
1069 return C2_OK;
1070}
1071
1072void C2SoftApvEnc::process(const std::unique_ptr<C2Work>& work,
1073 const std::shared_ptr<C2BlockPool>& pool) {
1074 c2_status_t error;
1075 work->result = C2_OK;
1076 work->workletsProcessed = 0u;
1077 work->worklets.front()->output.flags = work->input.flags;
1078
1079 nsecs_t timeDelay = 0;
1080 uint64_t workIndex = work->input.ordinal.frameIndex.peekull();
1081
1082 mSignalledEos = false;
1083 mOutBlock = nullptr;
1084
1085 if (work->input.flags & C2FrameData::FLAG_END_OF_STREAM) {
1086 ALOGV("Got FLAG_END_OF_STREAM");
1087 mSignalledEos = true;
1088 }
1089
1090 /* Initialize encoder if not already initialized */
1091 if (initEncoder() != C2_OK) {
1092 ALOGE("Failed to initialize encoder");
1093 mSignalledError = true;
1094 work->result = C2_CORRUPTED;
1095 work->workletsProcessed = 1u;
1096 ALOGE("[%s] Failed to make Codec context", __func__);
1097 return;
1098 }
1099 if (mSignalledError) {
1100 ALOGE("[%s] Received signalled error", __func__);
1101 return;
1102 }
1103
1104 if (mSignalledEos) {
1105 drainInternal(DRAIN_COMPONENT_WITH_EOS, pool, work);
1106 return;
1107 }
1108
1109 if (work->input.buffers.empty()) {
1110 return;
1111 }
1112
1113 std::shared_ptr<C2GraphicView> view;
1114 std::shared_ptr<C2Buffer> inputBuffer = nullptr;
1115 if (!work->input.buffers.empty()) {
1116 inputBuffer = work->input.buffers[0];
1117 view = std::make_shared<C2GraphicView>(
1118 inputBuffer->data().graphicBlocks().front().map().get());
1119 if (view->error() != C2_OK) {
1120 ALOGE("graphic view map err = %d", view->error());
1121 work->workletsProcessed = 1u;
1122 return;
1123 }
1124 }
1125 if (!inputBuffer) {
1126 fillEmptyWork(work);
1127 return;
1128 }
1129
1130 oapve_stat_t stat;
1131 auto outBufferSize =
1132 mCodecDesc->param[mReceivedFrames].w * mCodecDesc->param[mReceivedFrames].h * 4;
1133 if (!mOutBlock) {
1134 C2MemoryUsage usage = {C2MemoryUsage::CPU_READ, C2MemoryUsage::CPU_WRITE};
1135 c2_status_t err = pool->fetchLinearBlock(outBufferSize, usage, &mOutBlock);
1136 if (err != C2_OK) {
1137 work->result = err;
1138 work->workletsProcessed = 1u;
1139 ALOGE("fetchLinearBlock has failed. err = %d", err);
1140 return;
1141 }
1142 }
1143
1144 C2WriteView wView = mOutBlock->map().get();
1145 if (wView.error() != C2_OK) {
1146 work->result = wView.error();
1147 work->workletsProcessed = 1u;
1148 return;
1149 }
1150
1151 error = setEncodeArgs(&mInputFrames, view.get(), workIndex);
1152 if (error != C2_OK) {
1153 mSignalledError = true;
1154 work->result = error;
1155 work->workletsProcessed = 1u;
1156 return;
1157 }
1158
1159 if (++mReceivedFrames < mMaxFrames) {
1160 return;
1161 }
1162 mReceivedFrames = 0;
1163
1164 std::shared_ptr<oapv_bitb_t> bits = std::make_shared<oapv_bitb_t>();
1165 std::memset(mBitstreamBuf, 0, kMaxBitstreamBufSize);
1166 bits->addr = mBitstreamBuf;
1167 bits->bsize = kMaxBitstreamBufSize;
1168 bits->err = C2_OK;
1169
1170 if (mInputFrames.frm[0].imgb) {
1171 int32_t status =
1172 oapve_encode(mEncoderId, &mInputFrames, mMetaId, bits.get(), &stat, &mReconFrames);
1173 if (status != C2_OK) {
1174 mSignalledError = true;
1175 work->result = C2_CORRUPTED;
1176 work->workletsProcessed = 1u;
1177 return;
1178 }
1179 } else if (!mSignalledEos) {
1180 fillEmptyWork(work);
1181 }
1182 finishWork(workIndex, work, pool, bits.get(), &stat);
1183}
1184
1185class C2SoftApvEncFactory : public C2ComponentFactory {
1186 public:
1187 C2SoftApvEncFactory()
1188 : mHelper(std::static_pointer_cast<C2ReflectorHelper>(
1189 GetCodec2PlatformComponentStore()->getParamReflector())) {}
1190
1191 virtual c2_status_t createComponent(c2_node_id_t id,
1192 std::shared_ptr<C2Component>* const component,
1193 std::function<void(C2Component*)> deleter) override {
1194 *component = std::shared_ptr<C2Component>(
1195 new C2SoftApvEnc(COMPONENT_NAME, id,
1196 std::make_shared<C2SoftApvEnc::IntfImpl>(mHelper)),
1197 deleter);
1198 return C2_OK;
1199 }
1200
1201 c2_status_t createInterface(c2_node_id_t id,
1202 std::shared_ptr<C2ComponentInterface>* const interface,
1203 std::function<void(C2ComponentInterface*)> deleter) override {
1204 *interface = std::shared_ptr<C2ComponentInterface>(
1205 new SimpleInterface<C2SoftApvEnc::IntfImpl>(
1206 COMPONENT_NAME, id, std::make_shared<C2SoftApvEnc::IntfImpl>(mHelper)),
1207 deleter);
1208 return C2_OK;
1209 }
1210
1211 ~C2SoftApvEncFactory() override = default;
1212
1213 private:
1214 std::shared_ptr<C2ReflectorHelper> mHelper;
1215};
1216
1217} // namespace android
1218
1219__attribute__((cfi_canonical_jump_table)) extern "C" ::C2ComponentFactory* CreateCodec2Factory() {
Fyodor Kyslov6379ef22024-11-07 16:44:51 +0000[diff] [blame]1220 if (!android::media::swcodec::flags::apv_software_codec()) {
1221 ALOGV("APV SW Codec is not enabled");
1222 return nullptr;
1223 }
Fyodor Kyslovdd7d5992024-11-05 21:40:16 +0000[diff] [blame]1224 return new ::android::C2SoftApvEncFactory();
1225}
1226
1227__attribute__((cfi_canonical_jump_table)) extern "C" void DestroyCodec2Factory(
1228 ::C2ComponentFactory* factory) {
1229 delete factory;
1230}