| /* |
| * Copyright (C) 2018 The Android Open Source Project |
| * |
| * Licensed under the Apache License, Version 2.0 (the "License"); |
| * you may not use this file except in compliance with the License. |
| * You may obtain a copy of the License at |
| * |
| * http://www.apache.org/licenses/LICENSE-2.0 |
| * |
| * Unless required by applicable law or agreed to in writing, software |
| * distributed under the License is distributed on an "AS IS" BASIS, |
| * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
| * See the License for the specific language governing permissions and |
| * limitations under the License. |
| */ |
| |
| //#define LOG_NDEBUG 0 |
| #define LOG_TAG "CCodecConfig" |
| |
| #include <initializer_list> |
| |
| #include <cutils/properties.h> |
| #include <log/log.h> |
| #include <utils/NativeHandle.h> |
| |
| #include <android-base/properties.h> |
| |
| #include <C2Component.h> |
| #include <C2Param.h> |
| #include <util/C2InterfaceHelper.h> |
| |
| #include <media/stagefright/CodecBase.h> |
| #include <media/stagefright/MediaCodecConstants.h> |
| |
| #include "CCodecConfig.h" |
| #include "Codec2Mapper.h" |
| |
| #define DRC_DEFAULT_MOBILE_REF_LEVEL 64 /* 64*-0.25dB = -16 dB below full scale for mobile conf */ |
| #define DRC_DEFAULT_MOBILE_DRC_CUT 127 /* maximum compression of dynamic range for mobile conf */ |
| #define DRC_DEFAULT_MOBILE_DRC_BOOST 127 /* maximum compression of dynamic range for mobile conf */ |
| #define DRC_DEFAULT_MOBILE_DRC_HEAVY 1 /* switch for heavy compression for mobile conf */ |
| #define DRC_DEFAULT_MOBILE_DRC_EFFECT 3 /* MPEG-D DRC effect type; 3 => Limited playback range */ |
| #define DRC_DEFAULT_MOBILE_DRC_ALBUM 0 /* MPEG-D DRC album mode; 0 => album mode is disabled, 1 => album mode is enabled */ |
| #define DRC_DEFAULT_MOBILE_OUTPUT_LOUDNESS -1 /* decoder output loudness; -1 => the value is unknown, otherwise dB step value (e.g. 64 for -16 dB) */ |
| #define DRC_DEFAULT_MOBILE_ENC_LEVEL (-1) /* encoder target level; -1 => the value is unknown, otherwise dB step value (e.g. 64 for -16 dB) */ |
| // names of properties that can be used to override the default DRC settings |
| #define PROP_DRC_OVERRIDE_REF_LEVEL "aac_drc_reference_level" |
| #define PROP_DRC_OVERRIDE_CUT "aac_drc_cut" |
| #define PROP_DRC_OVERRIDE_BOOST "aac_drc_boost" |
| #define PROP_DRC_OVERRIDE_HEAVY "aac_drc_heavy" |
| #define PROP_DRC_OVERRIDE_ENC_LEVEL "aac_drc_enc_target_level" |
| #define PROP_DRC_OVERRIDE_EFFECT "ro.aac_drc_effect_type" |
| |
| namespace android { |
| |
| // CCodecConfig |
| |
| namespace { |
| |
| void C2ValueToMessageItem(const C2Value &value, AMessage::ItemData &item) { |
| int32_t int32Value; |
| uint32_t uint32Value; |
| int64_t int64Value; |
| uint64_t uint64Value; |
| float floatValue; |
| if (value.get(&int32Value)) { |
| item.set(int32Value); |
| } else if (value.get(&uint32Value) && uint32Value <= uint32_t(INT32_MAX)) { |
| // SDK does not support unsigned values |
| item.set((int32_t)uint32Value); |
| } else if (value.get(&int64Value)) { |
| item.set(int64Value); |
| } else if (value.get(&uint64Value) && uint64Value <= uint64_t(INT64_MAX)) { |
| // SDK does not support unsigned values |
| item.set((int64_t)uint64Value); |
| } else if (value.get(&floatValue)) { |
| item.set(floatValue); |
| } |
| } |
| |
| /** |
| * mapping between SDK and Codec 2.0 configurations. |
| */ |
| struct ConfigMapper { |
| /** |
| * Value mapper (C2Value => C2Value) |
| */ |
| typedef std::function<C2Value(C2Value)> Mapper; |
| |
| /// shorthand |
| typedef CCodecConfig::Domain Domain; |
| |
| ConfigMapper(std::string mediaKey, C2String c2struct, C2String c2field) |
| : mDomain(Domain::ALL), mMediaKey(mediaKey), mStruct(c2struct), mField(c2field) { } |
| |
| /// Limits this parameter to the given domain |
| ConfigMapper &limitTo(uint32_t domain) { |
| C2_CHECK(domain & Domain::GUARD_BIT); |
| mDomain = Domain(mDomain & domain); |
| return *this; |
| } |
| |
| /// Adds SDK => Codec 2.0 mapper (should not be in the SDK format) |
| ConfigMapper &withMapper(Mapper mapper) { |
| C2_CHECK(!mMapper); |
| C2_CHECK(!mReverse); |
| mMapper = mapper; |
| return *this; |
| } |
| |
| /// Adds SDK <=> Codec 2.0 value mappers |
| ConfigMapper &withMappers(Mapper mapper, Mapper reverse) { |
| C2_CHECK(!mMapper); |
| C2_CHECK(!mReverse); |
| mMapper = mapper; |
| mReverse = reverse; |
| return *this; |
| } |
| |
| /// Adds SDK <=> Codec 2.0 value mappers based on C2Mapper |
| template<typename C2Type, typename SdkType=int32_t> |
| ConfigMapper &withC2Mappers() { |
| C2_CHECK(!mMapper); |
| C2_CHECK(!mReverse); |
| mMapper = [](C2Value v) -> C2Value { |
| SdkType sdkValue; |
| C2Type c2Value; |
| if (v.get(&sdkValue) && C2Mapper::map(sdkValue, &c2Value)) { |
| return c2Value; |
| } |
| return C2Value(); |
| }; |
| mReverse = [](C2Value v) -> C2Value { |
| SdkType sdkValue; |
| C2Type c2Value; |
| using C2ValueType=typename _c2_reduce_enum_to_underlying_type<C2Type>::type; |
| if (v.get((C2ValueType*)&c2Value) && C2Mapper::map(c2Value, &sdkValue)) { |
| return sdkValue; |
| } |
| return C2Value(); |
| }; |
| return *this; |
| } |
| |
| /// Maps from SDK values in an AMessage to a suitable C2Value. |
| C2Value mapFromMessage(const AMessage::ItemData &item) const { |
| C2Value value; |
| int32_t int32Value; |
| int64_t int64Value; |
| float floatValue; |
| double doubleValue; |
| if (item.find(&int32Value)) { |
| value = int32Value; |
| } else if (item.find(&int64Value)) { |
| value = int64Value; |
| } else if (item.find(&floatValue)) { |
| value = floatValue; |
| } else if (item.find(&doubleValue)) { |
| value = (float)doubleValue; |
| } |
| if (value.type() != C2Value::NO_INIT && mMapper) { |
| value = mMapper(value); |
| } |
| return value; |
| } |
| |
| /// Maps from a C2Value to an SDK value in an AMessage. |
| AMessage::ItemData mapToMessage(C2Value value) const { |
| AMessage::ItemData item; |
| if (value.type() != C2Value::NO_INIT && mReverse) { |
| value = mReverse(value); |
| } |
| C2ValueToMessageItem(value, item); |
| return item; |
| } |
| |
| Domain domain() const { return mDomain; } |
| std::string mediaKey() const { return mMediaKey; } |
| std::string path() const { return mField.size() ? mStruct + '.' + mField : mStruct; } |
| Mapper mapper() const { return mMapper; } |
| Mapper reverse() const { return mReverse; } |
| |
| private: |
| Domain mDomain; ///< parameter domain (mask) containing port, kind and config domains |
| std::string mMediaKey; ///< SDK key |
| C2String mStruct; ///< Codec 2.0 struct name |
| C2String mField; ///< Codec 2.0 field name |
| Mapper mMapper; ///< optional SDK => Codec 2.0 value mapper |
| Mapper mReverse; ///< optional Codec 2.0 => SDK value mapper |
| }; |
| |
| template <typename PORT, typename STREAM> |
| AString QueryMediaTypeImpl( |
| const std::shared_ptr<Codec2Client::Configurable> &configurable) { |
| AString mediaType; |
| std::vector<std::unique_ptr<C2Param>> queried; |
| c2_status_t c2err = configurable->query( |
| {}, { PORT::PARAM_TYPE, STREAM::PARAM_TYPE }, C2_DONT_BLOCK, &queried); |
| if (c2err != C2_OK && queried.size() == 0) { |
| ALOGD("Query media type failed => %s", asString(c2err)); |
| } else { |
| PORT *portMediaType = |
| PORT::From(queried[0].get()); |
| if (portMediaType) { |
| mediaType = AString( |
| portMediaType->m.value, |
| strnlen(portMediaType->m.value, portMediaType->flexCount())); |
| } else { |
| STREAM *streamMediaType = STREAM::From(queried[0].get()); |
| if (streamMediaType) { |
| mediaType = AString( |
| streamMediaType->m.value, |
| strnlen(streamMediaType->m.value, streamMediaType->flexCount())); |
| } |
| } |
| ALOGD("read media type: %s", mediaType.c_str()); |
| } |
| return mediaType; |
| } |
| |
| AString QueryMediaType( |
| bool input, const std::shared_ptr<Codec2Client::Configurable> &configurable) { |
| typedef C2PortMediaTypeSetting P; |
| typedef C2StreamMediaTypeSetting S; |
| if (input) { |
| return QueryMediaTypeImpl<P::input, S::input>(configurable); |
| } else { |
| return QueryMediaTypeImpl<P::output, S::output>(configurable); |
| } |
| } |
| |
| } // namespace |
| |
| /** |
| * Set of standard parameters used by CCodec that are exposed to MediaCodec. |
| */ |
| struct StandardParams { |
| typedef CCodecConfig::Domain Domain; |
| |
| // standard (MediaCodec) params are keyed by media format key |
| typedef std::string SdkKey; |
| |
| /// used to return reference to no config mappers in getConfigMappersForSdkKey |
| static const std::vector<ConfigMapper> NO_MAPPERS; |
| |
| /// Returns Codec 2.0 equivalent parameters for an SDK format key. |
| const std::vector<ConfigMapper> &getConfigMappersForSdkKey(std::string key) const { |
| auto it = mConfigMappers.find(key); |
| if (it == mConfigMappers.end()) { |
| if (mComplained.count(key) == 0) { |
| ALOGD("no c2 equivalents for %s", key.c_str()); |
| mComplained.insert(key); |
| } |
| return NO_MAPPERS; |
| } |
| ALOGV("found %zu eqs for %s", it->second.size(), key.c_str()); |
| return it->second; |
| } |
| |
| /** |
| * Adds a SDK <=> Codec 2.0 parameter mapping. Multiple Codec 2.0 parameters may map to a |
| * single SDK key, in which case they shall be ordered from least authoritative to most |
| * authoritative. When constructing SDK formats, the last mapped Codec 2.0 parameter that |
| * is supported by the component will determine the exposed value. (TODO: perhaps restrict this |
| * by domain.) |
| */ |
| void add(const ConfigMapper &cm) { |
| auto it = mConfigMappers.find(cm.mediaKey()); |
| ALOGV("%c%c%c%c %c%c%c %04x %9s %s => %s", |
| ((cm.domain() & Domain::IS_INPUT) ? 'I' : ' '), |
| ((cm.domain() & Domain::IS_OUTPUT) ? 'O' : ' '), |
| ((cm.domain() & Domain::IS_CODED) ? 'C' : ' '), |
| ((cm.domain() & Domain::IS_RAW) ? 'R' : ' '), |
| ((cm.domain() & Domain::IS_CONFIG) ? 'c' : ' '), |
| ((cm.domain() & Domain::IS_PARAM) ? 'p' : ' '), |
| ((cm.domain() & Domain::IS_READ) ? 'r' : ' '), |
| cm.domain(), |
| it == mConfigMappers.end() ? "adding" : "extending", |
| cm.mediaKey().c_str(), cm.path().c_str()); |
| if (it == mConfigMappers.end()) { |
| std::vector<ConfigMapper> eqs = { cm }; |
| mConfigMappers.emplace(cm.mediaKey(), eqs); |
| } else { |
| it->second.push_back(cm); |
| } |
| } |
| |
| // Updates or adds a mapper for a "sdkkey" |
| void updateConfigMappersForKey(const SdkKey& key, |
| const std::vector<ConfigMapper>& vec_cm) { |
| mConfigMappers.insert_or_assign(key, vec_cm); |
| } |
| |
| /** |
| * Returns all paths for a specific domain. |
| * |
| * \param any maximum domain mask. Returned parameters must match at least one of the domains |
| * in the mask. |
| * \param all minimum domain mask. Returned parameters must match all of the domains in the |
| * mask. This is restricted to the bits of the maximum mask. |
| */ |
| std::vector<std::string> getPathsForDomain( |
| Domain any, Domain all = Domain::ALL) const { |
| std::vector<std::string> res; |
| for (const auto &[key, mappers] : mConfigMappers) { |
| for (const ConfigMapper &cm : mappers) { |
| ALOGV("filtering %s %x %x %x %x", cm.path().c_str(), cm.domain(), any, |
| (cm.domain() & any), (cm.domain() & any & all)); |
| if ((cm.domain() & any) && ((cm.domain() & any & all) == (any & all))) { |
| res.push_back(cm.path()); |
| } |
| } |
| } |
| return res; |
| } |
| |
| /** |
| * Returns SDK <=> Codec 2.0 mappings. |
| * |
| * TODO: replace these with better methods as this exposes the inner structure. |
| */ |
| const std::map<SdkKey, std::vector<ConfigMapper>> getKeys() const { |
| return mConfigMappers; |
| } |
| |
| private: |
| std::map<SdkKey, std::vector<ConfigMapper>> mConfigMappers; |
| mutable std::set<std::string> mComplained; |
| }; |
| |
| const std::vector<ConfigMapper> StandardParams::NO_MAPPERS; |
| |
| |
| CCodecConfig::CCodecConfig() |
| : mInputFormat(new AMessage), |
| mOutputFormat(new AMessage), |
| mUsingSurface(false), |
| mTunneled(false), |
| mPushBlankBuffersOnStop(false) { } |
| |
| void CCodecConfig::initializeStandardParams() { |
| typedef Domain D; |
| mStandardParams = std::make_shared<StandardParams>(); |
| std::function<void(const ConfigMapper &)> add = |
| [params = mStandardParams](const ConfigMapper &cm) { |
| params->add(cm); |
| }; |
| std::function<void(const ConfigMapper &)> deprecated = add; |
| |
| // allow int32 or float SDK values and represent them as float |
| ConfigMapper::Mapper makeFloat = [](C2Value v) -> C2Value { |
| // convert from i32 to float |
| int32_t i32Value; |
| float fpValue; |
| if (v.get(&i32Value)) { |
| return (float)i32Value; |
| } else if (v.get(&fpValue)) { |
| return fpValue; |
| } |
| return C2Value(); |
| }; |
| |
| ConfigMapper::Mapper negate = [](C2Value v) -> C2Value { |
| int32_t value; |
| if (v.get(&value)) { |
| return -value; |
| } |
| return C2Value(); |
| }; |
| |
| add(ConfigMapper(KEY_MIME, C2_PARAMKEY_INPUT_MEDIA_TYPE, "value") |
| .limitTo(D::INPUT & D::READ)); |
| add(ConfigMapper(KEY_MIME, C2_PARAMKEY_OUTPUT_MEDIA_TYPE, "value") |
| .limitTo(D::OUTPUT & D::READ)); |
| |
| add(ConfigMapper(KEY_BIT_RATE, C2_PARAMKEY_BITRATE, "value") |
| .limitTo(D::ENCODER & D::CODED)); |
| // Some audio decoders require bitrate information to be set |
| add(ConfigMapper(KEY_BIT_RATE, C2_PARAMKEY_BITRATE, "value") |
| .limitTo(D::AUDIO & D::DECODER & D::CODED)); |
| // we also need to put the bitrate in the max bitrate field |
| add(ConfigMapper(KEY_MAX_BIT_RATE, C2_PARAMKEY_BITRATE, "value") |
| .limitTo(D::ENCODER & D::READ & D::OUTPUT)); |
| add(ConfigMapper(PARAMETER_KEY_VIDEO_BITRATE, C2_PARAMKEY_BITRATE, "value") |
| .limitTo(D::ENCODER & D::VIDEO & D::PARAM)); |
| add(ConfigMapper(KEY_BITRATE_MODE, C2_PARAMKEY_BITRATE_MODE, "value") |
| .limitTo(D::ENCODER & D::CODED) |
| .withC2Mappers<C2Config::bitrate_mode_t>()); |
| // remove when codecs switch to PARAMKEY and new modes |
| deprecated(ConfigMapper(KEY_BITRATE_MODE, "coded.bitrate-mode", "value") |
| .limitTo(D::ENCODER)); |
| add(ConfigMapper(KEY_FRAME_RATE, C2_PARAMKEY_FRAME_RATE, "value") |
| .limitTo(D::VIDEO) |
| .withMappers(makeFloat, [](C2Value v) -> C2Value { |
| // read back always as int |
| float value; |
| if (v.get(&value)) { |
| return (int32_t) (value + 0.5); |
| } |
| return C2Value(); |
| })); |
| |
| add(ConfigMapper(KEY_MAX_INPUT_SIZE, C2_PARAMKEY_INPUT_MAX_BUFFER_SIZE, "value") |
| .limitTo(D::INPUT)); |
| // remove when codecs switch to PARAMKEY |
| deprecated(ConfigMapper(KEY_MAX_INPUT_SIZE, "coded.max-frame-size", "value") |
| .limitTo(D::INPUT)); |
| |
| // Rotation |
| // Note: SDK rotation is clock-wise, while C2 rotation is counter-clock-wise |
| add(ConfigMapper(KEY_ROTATION, C2_PARAMKEY_VUI_ROTATION, "value") |
| .limitTo((D::VIDEO | D::IMAGE) & D::CODED) |
| .withMappers(negate, negate)); |
| add(ConfigMapper(KEY_ROTATION, C2_PARAMKEY_ROTATION, "value") |
| .limitTo((D::VIDEO | D::IMAGE) & D::RAW) |
| .withMappers(negate, negate)); |
| |
| // android 'video-scaling' |
| add(ConfigMapper("android._video-scaling", C2_PARAMKEY_SURFACE_SCALING_MODE, "value") |
| .limitTo(D::VIDEO & D::DECODER & D::RAW)); |
| |
| // Color Aspects |
| // |
| // configure default for decoders |
| add(ConfigMapper(KEY_COLOR_RANGE, C2_PARAMKEY_DEFAULT_COLOR_ASPECTS, "range") |
| .limitTo((D::VIDEO | D::IMAGE) & D::DECODER & D::CODED & (D::CONFIG | D::PARAM)) |
| .withC2Mappers<C2Color::range_t>()); |
| add(ConfigMapper(KEY_COLOR_TRANSFER, C2_PARAMKEY_DEFAULT_COLOR_ASPECTS, "transfer") |
| .limitTo((D::VIDEO | D::IMAGE) & D::DECODER & D::CODED & (D::CONFIG | D::PARAM)) |
| .withC2Mappers<C2Color::transfer_t>()); |
| add(ConfigMapper("color-primaries", C2_PARAMKEY_DEFAULT_COLOR_ASPECTS, "primaries") |
| .limitTo((D::VIDEO | D::IMAGE) & D::DECODER & D::CODED & (D::CONFIG | D::PARAM))); |
| add(ConfigMapper("color-matrix", C2_PARAMKEY_DEFAULT_COLOR_ASPECTS, "matrix") |
| .limitTo((D::VIDEO | D::IMAGE) & D::DECODER & D::CODED & (D::CONFIG | D::PARAM))); |
| |
| // read back default for decoders. This is needed in case the component does not support |
| // color aspects. In that case, these values get copied to color-* keys. |
| // TRICKY: We read these values at raw port, since that's where we want to read these. |
| add(ConfigMapper("default-color-range", C2_PARAMKEY_DEFAULT_COLOR_ASPECTS, "range") |
| .limitTo((D::VIDEO | D::IMAGE) & D::DECODER & D::RAW & D::READ) |
| .withC2Mappers<C2Color::range_t>()); |
| add(ConfigMapper("default-color-transfer", C2_PARAMKEY_DEFAULT_COLOR_ASPECTS, "transfer") |
| .limitTo((D::VIDEO | D::IMAGE) & D::DECODER & D::RAW & D::READ) |
| .withC2Mappers<C2Color::transfer_t>()); |
| add(ConfigMapper("default-color-primaries", C2_PARAMKEY_DEFAULT_COLOR_ASPECTS, "primaries") |
| .limitTo((D::VIDEO | D::IMAGE) & D::DECODER & D::RAW & D::READ)); |
| add(ConfigMapper("default-color-matrix", C2_PARAMKEY_DEFAULT_COLOR_ASPECTS, "matrix") |
| .limitTo((D::VIDEO | D::IMAGE) & D::DECODER & D::RAW & D::READ)); |
| |
| // read back final for decoder output (also, configure final aspects as well. This should be |
| // overwritten based on coded/default values if component supports color aspects, but is used |
| // as final values if component does not support aspects at all) |
| add(ConfigMapper(KEY_COLOR_RANGE, C2_PARAMKEY_COLOR_ASPECTS, "range") |
| .limitTo((D::VIDEO | D::IMAGE) & D::DECODER & D::RAW & D::READ) |
| .withC2Mappers<C2Color::range_t>()); |
| add(ConfigMapper(KEY_COLOR_TRANSFER, C2_PARAMKEY_COLOR_ASPECTS, "transfer") |
| .limitTo((D::VIDEO | D::IMAGE) & D::DECODER & D::RAW & D::READ) |
| .withC2Mappers<C2Color::transfer_t>()); |
| add(ConfigMapper("color-primaries", C2_PARAMKEY_COLOR_ASPECTS, "primaries") |
| .limitTo((D::VIDEO | D::IMAGE) & D::DECODER & D::RAW & D::READ)); |
| add(ConfigMapper("color-matrix", C2_PARAMKEY_COLOR_ASPECTS, "matrix") |
| .limitTo((D::VIDEO | D::IMAGE) & D::DECODER & D::RAW & D::READ)); |
| |
| // configure transfer request |
| add(ConfigMapper("color-transfer-request", C2_PARAMKEY_COLOR_ASPECTS, "transfer") |
| .limitTo((D::VIDEO | D::IMAGE) & D::DECODER & D::RAW & D::CONFIG) |
| .withC2Mappers<C2Color::transfer_t>()); |
| |
| // configure source aspects for encoders and read them back on the coded(!) port. |
| // This is to ensure muxing the desired aspects into the container. |
| add(ConfigMapper(KEY_COLOR_RANGE, C2_PARAMKEY_COLOR_ASPECTS, "range") |
| .limitTo((D::VIDEO | D::IMAGE) & D::ENCODER & D::CODED) |
| .withC2Mappers<C2Color::range_t>()); |
| add(ConfigMapper(KEY_COLOR_TRANSFER, C2_PARAMKEY_COLOR_ASPECTS, "transfer") |
| .limitTo((D::VIDEO | D::IMAGE) & D::ENCODER & D::CODED) |
| .withC2Mappers<C2Color::transfer_t>()); |
| add(ConfigMapper("color-primaries", C2_PARAMKEY_COLOR_ASPECTS, "primaries") |
| .limitTo((D::VIDEO | D::IMAGE) & D::ENCODER & D::CODED)); |
| add(ConfigMapper("color-matrix", C2_PARAMKEY_COLOR_ASPECTS, "matrix") |
| .limitTo((D::VIDEO | D::IMAGE) & D::ENCODER & D::CODED)); |
| |
| // read back coded aspects for encoders (on the raw port), but also configure |
| // desired aspects here. |
| add(ConfigMapper(KEY_COLOR_RANGE, C2_PARAMKEY_VUI_COLOR_ASPECTS, "range") |
| .limitTo((D::VIDEO | D::IMAGE) & D::ENCODER & D::RAW) |
| .withC2Mappers<C2Color::range_t>()); |
| add(ConfigMapper(KEY_COLOR_TRANSFER, C2_PARAMKEY_VUI_COLOR_ASPECTS, "transfer") |
| .limitTo((D::VIDEO | D::IMAGE) & D::ENCODER & D::RAW) |
| .withC2Mappers<C2Color::transfer_t>()); |
| add(ConfigMapper("color-primaries", C2_PARAMKEY_VUI_COLOR_ASPECTS, "primaries") |
| .limitTo((D::VIDEO | D::IMAGE) & D::ENCODER & D::RAW)); |
| add(ConfigMapper("color-matrix", C2_PARAMKEY_VUI_COLOR_ASPECTS, "matrix") |
| .limitTo((D::VIDEO | D::IMAGE) & D::ENCODER & D::RAW)); |
| |
| // Dataspace |
| add(ConfigMapper("android._dataspace", C2_PARAMKEY_DATA_SPACE, "value") |
| .limitTo((D::VIDEO | D::IMAGE) & D::RAW)); |
| |
| // HDR |
| add(ConfigMapper("smpte2086.red.x", C2_PARAMKEY_HDR_STATIC_INFO, "mastering.red.x") |
| .limitTo((D::VIDEO | D::IMAGE) & D::RAW)); |
| add(ConfigMapper("smpte2086.red.y", C2_PARAMKEY_HDR_STATIC_INFO, "mastering.red.y") |
| .limitTo((D::VIDEO | D::IMAGE) & D::RAW)); |
| add(ConfigMapper("smpte2086.green.x", C2_PARAMKEY_HDR_STATIC_INFO, "mastering.green.x") |
| .limitTo((D::VIDEO | D::IMAGE) & D::RAW)); |
| add(ConfigMapper("smpte2086.green.y", C2_PARAMKEY_HDR_STATIC_INFO, "mastering.green.y") |
| .limitTo((D::VIDEO | D::IMAGE) & D::RAW)); |
| add(ConfigMapper("smpte2086.blue.x", C2_PARAMKEY_HDR_STATIC_INFO, "mastering.blue.x") |
| .limitTo((D::VIDEO | D::IMAGE) & D::RAW)); |
| add(ConfigMapper("smpte2086.blue.y", C2_PARAMKEY_HDR_STATIC_INFO, "mastering.blue.y") |
| .limitTo((D::VIDEO | D::IMAGE) & D::RAW)); |
| add(ConfigMapper("smpte2086.white.x", C2_PARAMKEY_HDR_STATIC_INFO, "mastering.white.x") |
| .limitTo((D::VIDEO | D::IMAGE) & D::RAW)); |
| add(ConfigMapper("smpte2086.white.y", C2_PARAMKEY_HDR_STATIC_INFO, "mastering.white.y") |
| .limitTo((D::VIDEO | D::IMAGE) & D::RAW)); |
| add(ConfigMapper("smpte2086.max-luminance", C2_PARAMKEY_HDR_STATIC_INFO, "mastering.max-luminance") |
| .limitTo((D::VIDEO | D::IMAGE) & D::RAW)); |
| add(ConfigMapper("smpte2086.min-luminance", C2_PARAMKEY_HDR_STATIC_INFO, "mastering.min-luminance") |
| .limitTo((D::VIDEO | D::IMAGE) & D::RAW)); |
| add(ConfigMapper("cta861.max-cll", C2_PARAMKEY_HDR_STATIC_INFO, "max-cll") |
| .limitTo((D::VIDEO | D::IMAGE) & D::RAW)); |
| add(ConfigMapper("cta861.max-fall", C2_PARAMKEY_HDR_STATIC_INFO, "max-fall") |
| .limitTo((D::VIDEO | D::IMAGE) & D::RAW)); |
| |
| add(ConfigMapper(C2_PARAMKEY_HDR_FORMAT, C2_PARAMKEY_HDR_FORMAT, "value") |
| .limitTo((D::VIDEO | D::IMAGE) & D::CODED & D::CONFIG)); |
| |
| add(ConfigMapper(std::string(KEY_FEATURE_) + FEATURE_SecurePlayback, |
| C2_PARAMKEY_SECURE_MODE, "value")); |
| |
| add(ConfigMapper(KEY_PREPEND_HEADER_TO_SYNC_FRAMES, |
| C2_PARAMKEY_PREPEND_HEADER_MODE, "value") |
| .limitTo(D::ENCODER & D::VIDEO) |
| .withMappers([](C2Value v) -> C2Value { |
| int32_t value; |
| if (v.get(&value)) { |
| return value ? C2Value(C2Config::PREPEND_HEADER_TO_ALL_SYNC) |
| : C2Value(C2Config::PREPEND_HEADER_TO_NONE); |
| } |
| return C2Value(); |
| }, [](C2Value v) -> C2Value { |
| C2Config::prepend_header_mode_t value; |
| using C2ValueType=typename _c2_reduce_enum_to_underlying_type<decltype(value)>::type; |
| if (v.get((C2ValueType *)&value)) { |
| switch (value) { |
| case C2Config::PREPEND_HEADER_TO_NONE: return 0; |
| case C2Config::PREPEND_HEADER_TO_ALL_SYNC: return 1; |
| case C2Config::PREPEND_HEADER_ON_CHANGE: [[fallthrough]]; |
| default: return C2Value(); |
| } |
| } |
| return C2Value(); |
| })); |
| // remove when codecs switch to PARAMKEY |
| deprecated(ConfigMapper(KEY_PREPEND_HEADER_TO_SYNC_FRAMES, |
| "coding.add-csd-to-sync-frames", "value") |
| .limitTo(D::ENCODER & D::VIDEO)); |
| // convert to timestamp base |
| add(ConfigMapper(KEY_I_FRAME_INTERVAL, C2_PARAMKEY_SYNC_FRAME_INTERVAL, "value") |
| .limitTo(D::VIDEO & D::ENCODER & D::CONFIG) |
| .withMapper([](C2Value v) -> C2Value { |
| // convert from i32 to float |
| int32_t i32Value; |
| float fpValue; |
| if (v.get(&i32Value)) { |
| return int64_t(1000000) * i32Value; |
| } else if (v.get(&fpValue)) { |
| return int64_t(c2_min(1000000 * fpValue + 0.5, (double)INT64_MAX)); |
| } |
| return C2Value(); |
| })); |
| // remove when codecs switch to proper coding.gop (add support for calculating gop) |
| deprecated(ConfigMapper("i-frame-period", "coding.gop", "intra-period") |
| .limitTo(D::ENCODER & D::VIDEO)); |
| add(ConfigMapper(KEY_INTRA_REFRESH_PERIOD, C2_PARAMKEY_INTRA_REFRESH, "period") |
| .limitTo(D::VIDEO & D::ENCODER) |
| .withMappers(makeFloat, [](C2Value v) -> C2Value { |
| // read back always as int |
| float value; |
| if (v.get(&value)) { |
| return (int32_t)value; |
| } |
| return C2Value(); |
| })); |
| deprecated(ConfigMapper(PARAMETER_KEY_REQUEST_SYNC_FRAME, |
| "coding.request-sync", "value") |
| .limitTo(D::PARAM & D::ENCODER) |
| .withMapper([](C2Value) -> C2Value { return uint32_t(1); })); |
| add(ConfigMapper(PARAMETER_KEY_REQUEST_SYNC_FRAME, |
| C2_PARAMKEY_REQUEST_SYNC_FRAME, "value") |
| .limitTo(D::PARAM & D::ENCODER) |
| .withMapper([](C2Value) -> C2Value { return uint32_t(1); })); |
| |
| add(ConfigMapper(KEY_OPERATING_RATE, C2_PARAMKEY_OPERATING_RATE, "value") |
| .limitTo(D::PARAM | D::CONFIG) // write-only |
| .withMapper(makeFloat)); |
| // C2 priorities are inverted |
| add(ConfigMapper(KEY_PRIORITY, C2_PARAMKEY_PRIORITY, "value") |
| .withMappers(negate, negate)); |
| // remove when codecs switch to PARAMKEY |
| deprecated(ConfigMapper(KEY_OPERATING_RATE, "ctrl.operating-rate", "value") |
| .withMapper(makeFloat)); |
| deprecated(ConfigMapper(KEY_PRIORITY, "ctrl.priority", "value")); |
| |
| add(ConfigMapper(KEY_WIDTH, C2_PARAMKEY_PICTURE_SIZE, "width") |
| .limitTo(D::VIDEO | D::IMAGE)); |
| add(ConfigMapper(KEY_HEIGHT, C2_PARAMKEY_PICTURE_SIZE, "height") |
| .limitTo(D::VIDEO | D::IMAGE)); |
| |
| add(ConfigMapper("crop-left", C2_PARAMKEY_CROP_RECT, "left") |
| .limitTo(D::VIDEO | D::IMAGE)); |
| add(ConfigMapper("crop-top", C2_PARAMKEY_CROP_RECT, "top") |
| .limitTo(D::VIDEO | D::IMAGE)); |
| add(ConfigMapper("crop-width", C2_PARAMKEY_CROP_RECT, "width") |
| .limitTo(D::VIDEO | D::IMAGE)); |
| add(ConfigMapper("crop-height", C2_PARAMKEY_CROP_RECT, "height") |
| .limitTo(D::VIDEO | D::IMAGE)); |
| |
| add(ConfigMapper(KEY_MAX_WIDTH, C2_PARAMKEY_MAX_PICTURE_SIZE, "width") |
| .limitTo((D::VIDEO | D::IMAGE) & D::RAW)); |
| add(ConfigMapper(KEY_MAX_HEIGHT, C2_PARAMKEY_MAX_PICTURE_SIZE, "height") |
| .limitTo((D::VIDEO | D::IMAGE) & D::RAW)); |
| |
| add(ConfigMapper("csd-0", C2_PARAMKEY_INIT_DATA, "value") |
| .limitTo(D::OUTPUT & D::READ)); |
| |
| deprecated(ConfigMapper(KEY_HDR10_PLUS_INFO, C2_PARAMKEY_INPUT_HDR10_PLUS_INFO, "value") |
| .limitTo(D::VIDEO & D::PARAM & D::INPUT & (D::CONFIG | D::PARAM))); |
| |
| deprecated(ConfigMapper(KEY_HDR10_PLUS_INFO, C2_PARAMKEY_OUTPUT_HDR10_PLUS_INFO, "value") |
| .limitTo(D::VIDEO & D::OUTPUT & D::READ)); |
| |
| add(ConfigMapper( |
| std::string(C2_PARAMKEY_INPUT_HDR_DYNAMIC_INFO) + ".type", |
| C2_PARAMKEY_INPUT_HDR_DYNAMIC_INFO, "type") |
| .limitTo(D::VIDEO & D::PARAM & D::INPUT & (D::CONFIG | D::PARAM))); |
| |
| add(ConfigMapper( |
| std::string(C2_PARAMKEY_INPUT_HDR_DYNAMIC_INFO) + ".data", |
| C2_PARAMKEY_INPUT_HDR_DYNAMIC_INFO, "data") |
| .limitTo(D::VIDEO & D::PARAM & D::INPUT & (D::CONFIG | D::PARAM))); |
| |
| add(ConfigMapper( |
| std::string(C2_PARAMKEY_OUTPUT_HDR_DYNAMIC_INFO) + ".type", |
| C2_PARAMKEY_OUTPUT_HDR_DYNAMIC_INFO, "type") |
| .limitTo(D::VIDEO & D::OUTPUT & D::READ)); |
| |
| add(ConfigMapper( |
| std::string(C2_PARAMKEY_OUTPUT_HDR_DYNAMIC_INFO) + ".data", |
| C2_PARAMKEY_OUTPUT_HDR_DYNAMIC_INFO, "data") |
| .limitTo(D::VIDEO & D::OUTPUT & D::READ)); |
| |
| add(ConfigMapper(C2_PARAMKEY_TEMPORAL_LAYERING, C2_PARAMKEY_TEMPORAL_LAYERING, "") |
| .limitTo(D::ENCODER & D::VIDEO & D::OUTPUT)); |
| |
| // Pixel Format (use local key for actual pixel format as we don't distinguish between |
| // SDK layouts for flexible format and we need the actual SDK color format in the media format) |
| add(ConfigMapper("android._color-format", C2_PARAMKEY_PIXEL_FORMAT, "value") |
| .limitTo((D::VIDEO | D::IMAGE) & D::RAW) |
| .withMappers([](C2Value v) -> C2Value { |
| int32_t value; |
| if (v.get(&value)) { |
| uint32_t result; |
| if (C2Mapper::mapPixelFormatFrameworkToCodec(value, &result)) { |
| return result; |
| } |
| } |
| return C2Value(); |
| }, [](C2Value v) -> C2Value { |
| uint32_t value; |
| if (v.get(&value)) { |
| int32_t result; |
| if (C2Mapper::mapPixelFormatCodecToFramework(value, &result)) { |
| return result; |
| } |
| } |
| return C2Value(); |
| })); |
| |
| add(ConfigMapper(KEY_PIXEL_ASPECT_RATIO_WIDTH, C2_PARAMKEY_PIXEL_ASPECT_RATIO, "width") |
| .limitTo((D::VIDEO | D::IMAGE) & D::RAW)); |
| add(ConfigMapper(KEY_PIXEL_ASPECT_RATIO_HEIGHT, C2_PARAMKEY_PIXEL_ASPECT_RATIO, "height") |
| .limitTo((D::VIDEO | D::IMAGE) & D::RAW)); |
| |
| add(ConfigMapper(KEY_CHANNEL_COUNT, C2_PARAMKEY_CHANNEL_COUNT, "value") |
| .limitTo(D::AUDIO)); // read back to both formats |
| add(ConfigMapper(KEY_CHANNEL_COUNT, C2_PARAMKEY_CODED_CHANNEL_COUNT, "value") |
| .limitTo(D::AUDIO & D::CODED)); |
| |
| add(ConfigMapper(KEY_SAMPLE_RATE, C2_PARAMKEY_SAMPLE_RATE, "value") |
| .limitTo(D::AUDIO)); // read back to both port formats |
| add(ConfigMapper(KEY_SAMPLE_RATE, C2_PARAMKEY_CODED_SAMPLE_RATE, "value") |
| .limitTo(D::AUDIO & D::CODED)); |
| |
| auto pcmEncodingMapper = [](C2Value v) -> C2Value { |
| int32_t value; |
| C2Config::pcm_encoding_t to; |
| if (v.get(&value) && C2Mapper::map(value, &to)) { |
| return to; |
| } |
| return C2Value(); |
| }; |
| auto pcmEncodingReverse = [](C2Value v) -> C2Value { |
| C2Config::pcm_encoding_t value; |
| int32_t to; |
| using C2ValueType=typename _c2_reduce_enum_to_underlying_type<decltype(value)>::type; |
| if (v.get((C2ValueType*)&value) && C2Mapper::map(value, &to)) { |
| return to; |
| } |
| return C2Value(); |
| }; |
| add(ConfigMapper(KEY_PCM_ENCODING, C2_PARAMKEY_PCM_ENCODING, "value") |
| .limitTo(D::AUDIO) |
| .withMappers(pcmEncodingMapper, pcmEncodingReverse)); |
| add(ConfigMapper("android._codec-pcm-encoding", C2_PARAMKEY_PCM_ENCODING, "value") |
| .limitTo(D::AUDIO & D::READ) |
| .withMappers(pcmEncodingMapper, pcmEncodingReverse)); |
| |
| add(ConfigMapper(KEY_IS_ADTS, C2_PARAMKEY_AAC_PACKAGING, "value") |
| .limitTo(D::AUDIO & D::CODED) |
| .withMappers([](C2Value v) -> C2Value { |
| int32_t value; |
| if (v.get(&value) && value) { |
| return C2Config::AAC_PACKAGING_ADTS; |
| } |
| return C2Value(); |
| }, [](C2Value v) -> C2Value { |
| uint32_t value; |
| if (v.get(&value) && value == C2Config::AAC_PACKAGING_ADTS) { |
| return (int32_t)1; |
| } |
| return C2Value(); |
| })); |
| |
| std::shared_ptr<C2Mapper::ProfileLevelMapper> mapper = |
| C2Mapper::GetProfileLevelMapper(mCodingMediaType); |
| |
| add(ConfigMapper(KEY_PROFILE, C2_PARAMKEY_PROFILE_LEVEL, "profile") |
| .limitTo(D::CODED) |
| .withMappers([mapper](C2Value v) -> C2Value { |
| C2Config::profile_t c2 = PROFILE_UNUSED; |
| int32_t sdk; |
| if (mapper && v.get(&sdk) && mapper->mapProfile(sdk, &c2)) { |
| return c2; |
| } |
| return PROFILE_UNUSED; |
| }, [mapper](C2Value v) -> C2Value { |
| C2Config::profile_t c2; |
| int32_t sdk; |
| using C2ValueType=typename _c2_reduce_enum_to_underlying_type<decltype(c2)>::type; |
| if (mapper && v.get((C2ValueType*)&c2) && mapper->mapProfile(c2, &sdk)) { |
| return sdk; |
| } |
| return C2Value(); |
| })); |
| |
| add(ConfigMapper(KEY_LEVEL, C2_PARAMKEY_PROFILE_LEVEL, "level") |
| .limitTo(D::CODED) |
| .withMappers([mapper](C2Value v) -> C2Value { |
| C2Config::level_t c2 = LEVEL_UNUSED; |
| int32_t sdk; |
| if (mapper && v.get(&sdk) && mapper->mapLevel(sdk, &c2)) { |
| return c2; |
| } |
| return LEVEL_UNUSED; |
| }, [mapper](C2Value v) -> C2Value { |
| C2Config::level_t c2; |
| int32_t sdk; |
| using C2ValueType=typename _c2_reduce_enum_to_underlying_type<decltype(c2)>::type; |
| if (mapper && v.get((C2ValueType*)&c2) && mapper->mapLevel(c2, &sdk)) { |
| return sdk; |
| } |
| return C2Value(); |
| })); |
| |
| add(ConfigMapper(KEY_AAC_PROFILE, C2_PARAMKEY_PROFILE_LEVEL, "profile") |
| .limitTo(D::AUDIO & D::ENCODER & (D::CONFIG | D::PARAM)) |
| .withMapper([mapper](C2Value v) -> C2Value { |
| C2Config::profile_t c2 = PROFILE_UNUSED; |
| int32_t sdk; |
| if (mapper && v.get(&sdk) && mapper->mapProfile(sdk, &c2)) { |
| return c2; |
| } |
| return PROFILE_UNUSED; |
| })); |
| |
| // convert to dBFS and add default |
| add(ConfigMapper(KEY_AAC_DRC_TARGET_REFERENCE_LEVEL, C2_PARAMKEY_DRC_TARGET_REFERENCE_LEVEL, "value") |
| .limitTo(D::AUDIO & D::DECODER & (D::CONFIG | D::PARAM | D::READ)) |
| .withMappers([](C2Value v) -> C2Value { |
| int32_t value; |
| if (!v.get(&value) || value < -1) { |
| value = property_get_int32(PROP_DRC_OVERRIDE_REF_LEVEL, DRC_DEFAULT_MOBILE_REF_LEVEL); |
| } |
| return float(-0.25 * c2_min(value, 127)); |
| },[](C2Value v) -> C2Value { |
| float value; |
| if (v.get(&value)) { |
| return (int32_t) (-4. * value); |
| } |
| return C2Value(); |
| })); |
| |
| // convert to 0-1 (%) and add default |
| add(ConfigMapper(KEY_AAC_DRC_ATTENUATION_FACTOR, C2_PARAMKEY_DRC_ATTENUATION_FACTOR, "value") |
| .limitTo(D::AUDIO & D::DECODER & (D::CONFIG | D::PARAM | D::READ)) |
| .withMappers([](C2Value v) -> C2Value { |
| int32_t value; |
| if (!v.get(&value) || value < 0) { |
| value = property_get_int32(PROP_DRC_OVERRIDE_CUT, DRC_DEFAULT_MOBILE_DRC_CUT); |
| } |
| return float(c2_min(value, 127) / 127.); |
| },[](C2Value v) -> C2Value { |
| float value; |
| if (v.get(&value)) { |
| return (int32_t) (value * 127. + 0.5); |
| } |
| else { |
| return C2Value(); |
| } |
| })); |
| |
| // convert to 0-1 (%) and add default |
| add(ConfigMapper(KEY_AAC_DRC_BOOST_FACTOR, C2_PARAMKEY_DRC_BOOST_FACTOR, "value") |
| .limitTo(D::AUDIO & D::DECODER & (D::CONFIG | D::PARAM | D::READ)) |
| .withMappers([](C2Value v) -> C2Value { |
| int32_t value; |
| if (!v.get(&value) || value < 0) { |
| value = property_get_int32(PROP_DRC_OVERRIDE_BOOST, DRC_DEFAULT_MOBILE_DRC_BOOST); |
| } |
| return float(c2_min(value, 127) / 127.); |
| },[](C2Value v) -> C2Value { |
| float value; |
| if (v.get(&value)) { |
| return (int32_t) (value * 127. + 0.5); |
| } |
| else { |
| return C2Value(); |
| } |
| })); |
| |
| // convert to compression type and add default |
| add(ConfigMapper(KEY_AAC_DRC_HEAVY_COMPRESSION, C2_PARAMKEY_DRC_COMPRESSION_MODE, "value") |
| .limitTo(D::AUDIO & D::DECODER & (D::CONFIG | D::PARAM)) |
| .withMapper([](C2Value v) -> C2Value { |
| int32_t value; |
| if (!v.get(&value) || value < 0) { |
| value = property_get_int32(PROP_DRC_OVERRIDE_HEAVY, DRC_DEFAULT_MOBILE_DRC_HEAVY); |
| } |
| return value == 1 ? C2Config::DRC_COMPRESSION_HEAVY : C2Config::DRC_COMPRESSION_LIGHT; |
| })); |
| |
| // convert to dBFS and add default |
| add(ConfigMapper(KEY_AAC_ENCODED_TARGET_LEVEL, C2_PARAMKEY_DRC_ENCODED_TARGET_LEVEL, "value") |
| .limitTo(D::AUDIO & D::DECODER & (D::CONFIG | D::PARAM | D::READ)) |
| .withMappers([](C2Value v) -> C2Value { |
| int32_t value; |
| if (!v.get(&value) || value < 0) { |
| value = property_get_int32(PROP_DRC_OVERRIDE_ENC_LEVEL, DRC_DEFAULT_MOBILE_ENC_LEVEL); |
| } |
| return float(-0.25 * c2_min(value, 127)); |
| },[](C2Value v) -> C2Value { |
| float value; |
| if (v.get(&value)) { |
| return (int32_t) (-4. * value); |
| } |
| else { |
| return C2Value(); |
| } |
| })); |
| |
| // convert to effect type (these map to SDK values) and add default |
| add(ConfigMapper(KEY_AAC_DRC_EFFECT_TYPE, C2_PARAMKEY_DRC_EFFECT_TYPE, "value") |
| .limitTo(D::AUDIO & D::DECODER & (D::CONFIG | D::PARAM | D::READ)) |
| .withMappers([](C2Value v) -> C2Value { |
| int32_t value; |
| if (!v.get(&value) || value < -1 || value > 8) { |
| value = property_get_int32(PROP_DRC_OVERRIDE_EFFECT, DRC_DEFAULT_MOBILE_DRC_EFFECT); |
| // ensure value is within range |
| if (value < -1 || value > 8) { |
| value = DRC_DEFAULT_MOBILE_DRC_EFFECT; |
| } |
| } |
| return value; |
| },[](C2Value v) -> C2Value { |
| int32_t value; |
| if (v.get(&value)) { |
| return value; |
| } |
| else { |
| return C2Value(); |
| } |
| })); |
| |
| // convert to album mode and add default |
| add(ConfigMapper(KEY_AAC_DRC_ALBUM_MODE, C2_PARAMKEY_DRC_ALBUM_MODE, "value") |
| .limitTo(D::AUDIO & D::DECODER & (D::CONFIG | D::PARAM | D::READ)) |
| .withMappers([](C2Value v) -> C2Value { |
| int32_t value; |
| if (!v.get(&value) || value < 0 || value > 1) { |
| value = DRC_DEFAULT_MOBILE_DRC_ALBUM; |
| // ensure value is within range |
| if (value < 0 || value > 1) { |
| value = DRC_DEFAULT_MOBILE_DRC_ALBUM; |
| } |
| } |
| return value; |
| },[](C2Value v) -> C2Value { |
| int32_t value; |
| if (v.get(&value)) { |
| return value; |
| } |
| else { |
| return C2Value(); |
| } |
| })); |
| |
| add(ConfigMapper(KEY_AAC_DRC_OUTPUT_LOUDNESS, C2_PARAMKEY_DRC_OUTPUT_LOUDNESS, "value") |
| .limitTo(D::OUTPUT & D::DECODER & D::READ) |
| .withMappers([](C2Value v) -> C2Value { |
| int32_t value; |
| if (!v.get(&value) || value < -1) { |
| value = DRC_DEFAULT_MOBILE_OUTPUT_LOUDNESS; |
| } |
| return float(-0.25 * c2_min(value, 127)); |
| },[](C2Value v) -> C2Value { |
| float value; |
| if (v.get(&value)) { |
| return (int32_t) (-4. * value); |
| } |
| return C2Value(); |
| })); |
| |
| add(ConfigMapper(KEY_AAC_MAX_OUTPUT_CHANNEL_COUNT, C2_PARAMKEY_MAX_CHANNEL_COUNT, "value") |
| .limitTo(D::AUDIO & (D::CONFIG | D::PARAM | D::READ))); |
| |
| add(ConfigMapper(KEY_MAX_OUTPUT_CHANNEL_COUNT, C2_PARAMKEY_MAX_CHANNEL_COUNT, "value") |
| .limitTo(D::AUDIO & (D::CONFIG | D::PARAM | D::READ))); |
| |
| add(ConfigMapper(KEY_CHANNEL_MASK, C2_PARAMKEY_CHANNEL_MASK, "value") |
| .limitTo(D::AUDIO & D::DECODER & D::READ)); |
| |
| add(ConfigMapper(KEY_CHANNEL_MASK, C2_PARAMKEY_CHANNEL_MASK, "value") |
| .limitTo(D::AUDIO & D::ENCODER & D::CONFIG)); |
| |
| add(ConfigMapper(KEY_AAC_SBR_MODE, C2_PARAMKEY_AAC_SBR_MODE, "value") |
| .limitTo(D::AUDIO & D::ENCODER & (D::CONFIG | D::PARAM | D::READ)) |
| .withMapper([](C2Value v) -> C2Value { |
| int32_t value; |
| if (!v.get(&value) || value < 0) { |
| return C2Config::AAC_SBR_AUTO; |
| } |
| switch (value) { |
| case 0: return C2Config::AAC_SBR_OFF; |
| case 1: return C2Config::AAC_SBR_SINGLE_RATE; |
| case 2: return C2Config::AAC_SBR_DUAL_RATE; |
| default: return C2Config::AAC_SBR_AUTO + 1; // invalid value |
| } |
| })); |
| |
| add(ConfigMapper("android._encoding-quality-level", C2_PARAMKEY_ENCODING_QUALITY_LEVEL, "value") |
| .limitTo(D::ENCODER & (D::CONFIG | D::PARAM))); |
| add(ConfigMapper(KEY_QUALITY, C2_PARAMKEY_QUALITY, "value") |
| .limitTo(D::ENCODER & (D::CONFIG | D::PARAM))); |
| add(ConfigMapper(KEY_FLAC_COMPRESSION_LEVEL, C2_PARAMKEY_COMPLEXITY, "value") |
| .limitTo(D::AUDIO & D::ENCODER)); |
| add(ConfigMapper(KEY_COMPLEXITY, C2_PARAMKEY_COMPLEXITY, "value") |
| .limitTo(D::ENCODER & (D::CONFIG | D::PARAM))); |
| |
| add(ConfigMapper(KEY_GRID_COLUMNS, C2_PARAMKEY_TILE_LAYOUT, "columns") |
| .limitTo(D::IMAGE)); |
| add(ConfigMapper(KEY_GRID_ROWS, C2_PARAMKEY_TILE_LAYOUT, "rows") |
| .limitTo(D::IMAGE)); |
| add(ConfigMapper(KEY_TILE_WIDTH, C2_PARAMKEY_TILE_LAYOUT, "tile.width") |
| .limitTo(D::IMAGE)); |
| add(ConfigMapper(KEY_TILE_HEIGHT, C2_PARAMKEY_TILE_LAYOUT, "tile.height") |
| .limitTo(D::IMAGE)); |
| |
| add(ConfigMapper(KEY_LATENCY, C2_PARAMKEY_PIPELINE_DELAY_REQUEST, "value") |
| .limitTo(D::VIDEO & D::ENCODER)); |
| |
| add(ConfigMapper(C2_PARAMKEY_INPUT_TIME_STRETCH, C2_PARAMKEY_INPUT_TIME_STRETCH, "value")); |
| |
| add(ConfigMapper(KEY_LOW_LATENCY, C2_PARAMKEY_LOW_LATENCY_MODE, "value") |
| .limitTo(D::DECODER & (D::CONFIG | D::PARAM)) |
| .withMapper([](C2Value v) -> C2Value { |
| int32_t value = 0; |
| (void)v.get(&value); |
| return value == 0 ? C2_FALSE : C2_TRUE; |
| })); |
| |
| add(ConfigMapper("android._trigger-tunnel-peek", C2_PARAMKEY_TUNNEL_START_RENDER, "value") |
| .limitTo(D::PARAM & D::VIDEO & D::DECODER) |
| .withMapper([](C2Value v) -> C2Value { |
| int32_t value = 0; |
| (void)v.get(&value); |
| return value == 0 ? C2_FALSE : C2_TRUE; |
| })); |
| |
| add(ConfigMapper("android._tunnel-peek-set-legacy", C2_PARAMKEY_TUNNEL_PEEK_MODE, "value") |
| .limitTo(D::PARAM & D::VIDEO & D::DECODER) |
| .withMapper([](C2Value v) -> C2Value { |
| int32_t value = 0; |
| (void)v.get(&value); |
| return value == 0 |
| ? C2Value(C2PlatformConfig::SPECIFIED_PEEK) |
| : C2Value(C2PlatformConfig::UNSPECIFIED_PEEK); |
| })); |
| |
| add(ConfigMapper(KEY_VIDEO_QP_AVERAGE, C2_PARAMKEY_AVERAGE_QP, "value") |
| .limitTo(D::ENCODER & D::VIDEO & D::READ)); |
| |
| add(ConfigMapper(KEY_PICTURE_TYPE, C2_PARAMKEY_PICTURE_TYPE, "value") |
| .limitTo(D::ENCODER & D::VIDEO & D::READ) |
| .withMappers([](C2Value v) -> C2Value { |
| int32_t sdk; |
| C2Config::picture_type_t c2; |
| if (v.get(&sdk) && C2Mapper::map(sdk, &c2)) { |
| return C2Value(c2); |
| } |
| return C2Value(); |
| }, [](C2Value v) -> C2Value { |
| C2Config::picture_type_t c2; |
| int32_t sdk = PICTURE_TYPE_UNKNOWN; |
| using C2ValueType=typename _c2_reduce_enum_to_underlying_type<decltype(c2)>::type; |
| if (v.get((C2ValueType*)&c2) && C2Mapper::map(c2, &sdk)) { |
| return sdk; |
| } |
| return C2Value(); |
| })); |
| |
| /* still to do |
| not yet used by MediaCodec, but defined as MediaFormat |
| KEY_AUDIO_SESSION_ID // we use "audio-hw-sync" |
| KEY_OUTPUT_REORDER_DEPTH |
| */ |
| } |
| |
| status_t CCodecConfig::initialize( |
| const std::shared_ptr<C2ParamReflector> &reflector, |
| const std::shared_ptr<Codec2Client::Configurable> &configurable) { |
| C2ComponentDomainSetting domain(C2Component::DOMAIN_OTHER); |
| C2ComponentKindSetting kind(C2Component::KIND_OTHER); |
| |
| std::vector<std::unique_ptr<C2Param>> queried; |
| c2_status_t c2err = configurable->query({ &domain, &kind }, {}, C2_DONT_BLOCK, &queried); |
| if (c2err != C2_OK) { |
| ALOGD("Query domain & kind failed => %s", asString(c2err)); |
| // TEMP: determine kind from component name |
| if (kind.value == C2Component::KIND_OTHER) { |
| if (configurable->getName().find("encoder") != std::string::npos) { |
| kind.value = C2Component::KIND_ENCODER; |
| } else if (configurable->getName().find("decoder") != std::string::npos) { |
| kind.value = C2Component::KIND_DECODER; |
| } |
| } |
| |
| // TEMP: determine domain from media type (port (preferred) or stream #0) |
| if (domain.value == C2Component::DOMAIN_OTHER) { |
| AString mediaType = QueryMediaType(true /* input */, configurable); |
| if (mediaType.startsWith("audio/")) { |
| domain.value = C2Component::DOMAIN_AUDIO; |
| } else if (mediaType.startsWith("video/")) { |
| domain.value = C2Component::DOMAIN_VIDEO; |
| } else if (mediaType.startsWith("image/")) { |
| domain.value = C2Component::DOMAIN_IMAGE; |
| } |
| } |
| } |
| |
| mDomain = (domain.value == C2Component::DOMAIN_VIDEO ? Domain::IS_VIDEO : |
| domain.value == C2Component::DOMAIN_IMAGE ? Domain::IS_IMAGE : |
| domain.value == C2Component::DOMAIN_AUDIO ? Domain::IS_AUDIO : Domain::OTHER_DOMAIN) |
| | (kind.value == C2Component::KIND_DECODER ? Domain::IS_DECODER : |
| kind.value == C2Component::KIND_ENCODER ? Domain::IS_ENCODER : Domain::OTHER_KIND); |
| |
| mInputDomain = Domain(((mDomain & IS_DECODER) ? IS_CODED : IS_RAW) | IS_INPUT); |
| mOutputDomain = Domain(((mDomain & IS_ENCODER) ? IS_CODED : IS_RAW) | IS_OUTPUT); |
| |
| ALOGV("domain is %#x (%u %u)", mDomain, domain.value, kind.value); |
| |
| std::vector<C2Param::Index> paramIndices; |
| switch (kind.value) { |
| case C2Component::KIND_DECODER: |
| mCodingMediaType = QueryMediaType(true /* input */, configurable).c_str(); |
| break; |
| case C2Component::KIND_ENCODER: |
| mCodingMediaType = QueryMediaType(false /* input */, configurable).c_str(); |
| break; |
| default: |
| mCodingMediaType = ""; |
| } |
| |
| c2err = configurable->querySupportedParams(&mParamDescs); |
| if (c2err != C2_OK) { |
| ALOGD("Query supported params failed after returning %zu values => %s", |
| mParamDescs.size(), asString(c2err)); |
| return UNKNOWN_ERROR; |
| } |
| for (const std::shared_ptr<C2ParamDescriptor> &desc : mParamDescs) { |
| mSupportedIndices.emplace(desc->index()); |
| } |
| |
| mReflector = reflector; |
| if (mReflector == nullptr) { |
| ALOGE("Null param reflector"); |
| return UNKNOWN_ERROR; |
| } |
| |
| // enumerate all fields |
| mParamUpdater = std::make_shared<ReflectedParamUpdater>(); |
| mParamUpdater->clear(); |
| mParamUpdater->supportWholeParam( |
| C2_PARAMKEY_TEMPORAL_LAYERING, C2StreamTemporalLayeringTuning::CORE_INDEX); |
| mParamUpdater->addParamDesc(mReflector, mParamDescs); |
| |
| // TEMP: add some standard fields even if not reflected |
| if (kind.value == C2Component::KIND_ENCODER) { |
| mParamUpdater->addStandardParam<C2StreamInitDataInfo::output>(C2_PARAMKEY_INIT_DATA); |
| } |
| if (domain.value == C2Component::DOMAIN_IMAGE || domain.value == C2Component::DOMAIN_VIDEO) { |
| if (kind.value != C2Component::KIND_ENCODER) { |
| addLocalParam<C2StreamPictureSizeInfo::output>(C2_PARAMKEY_PICTURE_SIZE); |
| addLocalParam<C2StreamCropRectInfo::output>(C2_PARAMKEY_CROP_RECT); |
| addLocalParam( |
| new C2StreamPixelAspectRatioInfo::output(0u, 1u, 1u), |
| C2_PARAMKEY_PIXEL_ASPECT_RATIO); |
| addLocalParam(new C2StreamRotationInfo::output(0u, 0), C2_PARAMKEY_ROTATION); |
| addLocalParam( |
| new C2StreamColorAspectsTuning::output(0u), |
| C2_PARAMKEY_DEFAULT_COLOR_ASPECTS); |
| addLocalParam<C2StreamDataSpaceInfo::output>(C2_PARAMKEY_DATA_SPACE); |
| addLocalParam<C2StreamHdrStaticInfo::output>(C2_PARAMKEY_HDR_STATIC_INFO); |
| addLocalParam( |
| new C2StreamSurfaceScalingInfo::output(0u, VIDEO_SCALING_MODE_SCALE_TO_FIT), |
| C2_PARAMKEY_SURFACE_SCALING_MODE); |
| } else { |
| addLocalParam(new C2StreamColorAspectsInfo::input(0u), C2_PARAMKEY_COLOR_ASPECTS); |
| |
| if (domain.value == C2Component::DOMAIN_VIDEO) { |
| addLocalParam(new C2AndroidStreamAverageBlockQuantizationInfo::output(0u, 0), |
| C2_PARAMKEY_AVERAGE_QP); |
| addLocalParam(new C2StreamPictureTypeInfo::output(0u, 0), |
| C2_PARAMKEY_PICTURE_TYPE); |
| } |
| } |
| } |
| |
| initializeStandardParams(); |
| |
| // subscribe to all supported standard (exposed) params |
| // TODO: limit this to params that are actually in the domain |
| std::vector<std::string> formatKeys = mStandardParams->getPathsForDomain(Domain(1 << 30)); |
| std::vector<C2Param::Index> indices; |
| mParamUpdater->getParamIndicesForKeys(formatKeys, &indices); |
| mSubscribedIndices.insert(indices.begin(), indices.end()); |
| |
| // also subscribe to some non-SDK standard parameters |
| // for number of input/output buffers |
| mSubscribedIndices.emplace(C2PortSuggestedBufferCountTuning::input::PARAM_TYPE); |
| mSubscribedIndices.emplace(C2PortSuggestedBufferCountTuning::output::PARAM_TYPE); |
| mSubscribedIndices.emplace(C2ActualPipelineDelayTuning::PARAM_TYPE); |
| mSubscribedIndices.emplace(C2PortActualDelayTuning::input::PARAM_TYPE); |
| mSubscribedIndices.emplace(C2PortActualDelayTuning::output::PARAM_TYPE); |
| // for output buffer array allocation |
| mSubscribedIndices.emplace(C2StreamMaxBufferSizeInfo::output::PARAM_TYPE); |
| // init data (CSD) |
| mSubscribedIndices.emplace(C2StreamInitDataInfo::output::PARAM_TYPE); |
| |
| for (const std::shared_ptr<C2ParamDescriptor> &desc : mParamDescs) { |
| if (desc->index().isVendor()) { |
| std::vector<std::string> keys; |
| mParamUpdater->getKeysForParamIndex(desc->index(), &keys); |
| for (const std::string &key : keys) { |
| mVendorParams.insert_or_assign(key, desc); |
| } |
| } |
| } |
| |
| // Parameters that are not subscribed initially, but can be subscribed |
| // upon explicit request. |
| static const std::initializer_list<C2Param::Index> kOptionalParams = { |
| C2AndroidStreamAverageBlockQuantizationInfo::output::PARAM_TYPE, |
| C2StreamPictureTypeInfo::output::PARAM_TYPE, |
| }; |
| for (const C2Param::Index &index : kOptionalParams) { |
| mSubscribedIndices.erase(index); |
| } |
| subscribeToConfigUpdate(configurable, {}, C2_MAY_BLOCK); |
| |
| return OK; |
| } |
| |
| status_t CCodecConfig::subscribeToConfigUpdate( |
| const std::shared_ptr<Codec2Client::Configurable> &configurable, |
| const std::vector<C2Param::Index> &indices, |
| c2_blocking_t blocking) { |
| static const int32_t kProductFirstApiLevel = |
| base::GetIntProperty<int32_t>("ro.product.first_api_level", 0); |
| static const int32_t kBoardApiLevel = |
| base::GetIntProperty<int32_t>("ro.board.first_api_level", 0); |
| static const int32_t kFirstApiLevel = |
| (kBoardApiLevel != 0) ? kBoardApiLevel : kProductFirstApiLevel; |
| mSubscribedIndices.insert(indices.begin(), indices.end()); |
| if (mSubscribedIndices.size() != mSubscribedIndicesSize |
| && kFirstApiLevel >= __ANDROID_API_T__) { |
| std::vector<uint32_t> indicesVector; |
| for (C2Param::Index ix : mSubscribedIndices) { |
| indicesVector.push_back(ix); |
| } |
| std::unique_ptr<C2SubscribedParamIndicesTuning> subscribeTuning = |
| C2SubscribedParamIndicesTuning::AllocUnique(indicesVector); |
| std::vector<std::unique_ptr<C2SettingResult>> results; |
| c2_status_t c2Err = configurable->config({ subscribeTuning.get() }, blocking, &results); |
| if (c2Err != C2_OK && c2Err != C2_BAD_INDEX) { |
| ALOGD("Failed to subscribe to parameters => %s", asString(c2Err)); |
| // TODO: error |
| } |
| ALOGV("Subscribed to %zu params", mSubscribedIndices.size()); |
| mSubscribedIndicesSize = mSubscribedIndices.size(); |
| } |
| #if defined(LOG_NDEBUG) && !LOG_NDEBUG |
| ALOGV("subscribed to %zu params:", mSubscribedIndices.size()); |
| std::stringstream ss; |
| for (const C2Param::Index &index : mSubscribedIndices) { |
| ss << index << " "; |
| if (ss.str().length() > 70) { |
| ALOGV("%s", ss.str().c_str()); |
| std::stringstream().swap(ss); |
| } |
| } |
| if (!ss.str().empty()) { |
| ALOGV("%s", ss.str().c_str()); |
| } |
| #endif |
| return OK; |
| } |
| |
| status_t CCodecConfig::queryConfiguration( |
| const std::shared_ptr<Codec2Client::Configurable> &configurable) { |
| // query all subscribed parameters |
| std::vector<C2Param::Index> indices(mSubscribedIndices.begin(), mSubscribedIndices.end()); |
| std::vector<std::unique_ptr<C2Param>> queried; |
| c2_status_t c2Err = configurable->query({}, indices, C2_MAY_BLOCK, &queried); |
| if (c2Err != OK) { |
| ALOGI("query failed after returning %zu values (%s)", queried.size(), asString(c2Err)); |
| // TODO: error |
| } |
| |
| updateConfiguration(queried, ALL); |
| return OK; |
| } |
| |
| bool CCodecConfig::updateConfiguration( |
| std::vector<std::unique_ptr<C2Param>> &configUpdate, Domain domain) { |
| ALOGV("updating configuration with %zu params", configUpdate.size()); |
| bool changed = false; |
| for (std::unique_ptr<C2Param> &p : configUpdate) { |
| if (p && *p) { |
| // Allow unsubscribed vendor parameters to go through --- it may be |
| // later handled by the format shaper. |
| if (!p->isVendor() && mSubscribedIndices.count(p->index()) == 0) { |
| ALOGV("updateConfiguration: skipped unsubscribed param %08x", p->index()); |
| continue; |
| } |
| auto insertion = mCurrentConfig.emplace(p->index(), nullptr); |
| if (insertion.second || *insertion.first->second != *p) { |
| if (mSupportedIndices.count(p->index()) || mLocalParams.count(p->index())) { |
| // only track changes in supported (reflected or local) indices |
| changed = true; |
| } else { |
| ALOGV("an unlisted config was %s: %#x", |
| insertion.second ? "added" : "updated", p->index()); |
| } |
| } |
| insertion.first->second = std::move(p); |
| } |
| } |
| if (mInputSurface |
| && (domain & mOutputDomain) |
| && mInputSurfaceDataspace != mInputSurface->getDataspace()) { |
| changed = true; |
| mInputSurfaceDataspace = mInputSurface->getDataspace(); |
| } |
| |
| ALOGV("updated configuration has %zu params (%s)", mCurrentConfig.size(), |
| changed ? "CHANGED" : "no change"); |
| if (changed) { |
| return updateFormats(domain); |
| } |
| return false; |
| } |
| |
| bool CCodecConfig::updateFormats(Domain domain) { |
| // get addresses of params in the current config |
| std::vector<C2Param*> paramPointers; |
| for (const auto &it : mCurrentConfig) { |
| paramPointers.push_back(it.second.get()); |
| } |
| |
| ReflectedParamUpdater::Dict reflected = mParamUpdater->getParams(paramPointers); |
| std::string config = reflected.debugString(); |
| std::set<std::string> configLines; |
| std::string diff; |
| for (size_t start = 0; start != std::string::npos; ) { |
| size_t end = config.find('\n', start); |
| size_t count = (end == std::string::npos) |
| ? std::string::npos |
| : end - start + 1; |
| std::string line = config.substr(start, count); |
| configLines.insert(line); |
| if (mLastConfig.count(line) == 0) { |
| diff.append(line); |
| } |
| start = (end == std::string::npos) ? std::string::npos : end + 1; |
| } |
| if (!diff.empty()) { |
| ALOGD("c2 config diff is %s", diff.c_str()); |
| } |
| mLastConfig.swap(configLines); |
| |
| bool changed = false; |
| if (domain & mInputDomain) { |
| sp<AMessage> oldFormat = mInputFormat; |
| mInputFormat = mInputFormat->dup(); // trigger format changed |
| mInputFormat->extend(getFormatForDomain(reflected, mInputDomain)); |
| if (mInputFormat->countEntries() != oldFormat->countEntries() |
| || mInputFormat->changesFrom(oldFormat)->countEntries() > 0) { |
| changed = true; |
| } else { |
| mInputFormat = oldFormat; // no change |
| } |
| } |
| if (domain & mOutputDomain) { |
| sp<AMessage> oldFormat = mOutputFormat; |
| mOutputFormat = mOutputFormat->dup(); // trigger output format changed |
| mOutputFormat->extend(getFormatForDomain(reflected, mOutputDomain)); |
| if (mOutputFormat->countEntries() != oldFormat->countEntries() |
| || mOutputFormat->changesFrom(oldFormat)->countEntries() > 0) { |
| changed = true; |
| } else { |
| mOutputFormat = oldFormat; // no change |
| } |
| } |
| ALOGV_IF(changed, "format(s) changed"); |
| return changed; |
| } |
| |
| sp<AMessage> CCodecConfig::getFormatForDomain( |
| const ReflectedParamUpdater::Dict &reflected, |
| Domain portDomain) const { |
| sp<AMessage> msg = new AMessage; |
| for (const auto &[key, mappers] : mStandardParams->getKeys()) { |
| for (const ConfigMapper &cm : mappers) { |
| if ((cm.domain() & portDomain) == 0 // input-output-coded-raw |
| || (cm.domain() & mDomain) != mDomain // component domain + kind (these must match) |
| || (cm.domain() & IS_READ) == 0) { |
| continue; |
| } |
| auto it = reflected.find(cm.path()); |
| if (it == reflected.end()) { |
| continue; |
| } |
| C2Value c2Value; |
| sp<ABuffer> bufValue; |
| AString strValue; |
| AMessage::ItemData item; |
| if (it->second.find(&c2Value)) { |
| item = cm.mapToMessage(c2Value); |
| } else if (it->second.find(&bufValue)) { |
| item.set(bufValue); |
| } else if (it->second.find(&strValue)) { |
| item.set(strValue); |
| } else { |
| ALOGD("unexpected untyped query value for key: %s", cm.path().c_str()); |
| continue; |
| } |
| msg->setItem(key.c_str(), item); |
| } |
| } |
| |
| bool input = (portDomain & Domain::IS_INPUT); |
| std::vector<std::string> vendorKeys; |
| for (const auto &[key, value] : reflected) { |
| auto it = mVendorParams.find(key); |
| if (it == mVendorParams.end()) { |
| continue; |
| } |
| C2Param::Index index = it->second->index(); |
| if (mSubscribedIndices.count(index) == 0) { |
| continue; |
| } |
| // For vendor parameters, we only care about direction |
| if ((input && !index.forInput()) |
| || (!input && !index.forOutput())) { |
| continue; |
| } |
| C2Value c2Value; |
| sp<ABuffer> bufValue; |
| AString strValue; |
| AMessage::ItemData item; |
| if (value.find(&c2Value)) { |
| C2ValueToMessageItem(c2Value, item); |
| } else if (value.find(&bufValue)) { |
| item.set(bufValue); |
| } else if (value.find(&strValue)) { |
| item.set(strValue); |
| } else { |
| ALOGD("unexpected untyped query value for key: %s", key.c_str()); |
| continue; |
| } |
| msg->setItem(key.c_str(), item); |
| } |
| |
| { // convert from Codec 2.0 rect to MediaFormat rect and add crop rect if not present |
| int32_t left, top, width, height; |
| if (msg->findInt32("crop-left", &left) && msg->findInt32("crop-width", &width) |
| && msg->findInt32("crop-top", &top) && msg->findInt32("crop-height", &height) |
| && left >= 0 && width >=0 && width <= INT32_MAX - left |
| && top >= 0 && height >=0 && height <= INT32_MAX - top) { |
| msg->removeEntryAt(msg->findEntryByName("crop-left")); |
| msg->removeEntryAt(msg->findEntryByName("crop-top")); |
| msg->removeEntryAt(msg->findEntryByName("crop-width")); |
| msg->removeEntryAt(msg->findEntryByName("crop-height")); |
| msg->setRect("crop", left, top, left + width - 1, top + height - 1); |
| } else if (msg->findInt32("width", &width) && msg->findInt32("height", &height)) { |
| msg->setRect("crop", 0, 0, width - 1, height - 1); |
| } |
| } |
| |
| { // convert temporal layering to schema |
| sp<ABuffer> tmp; |
| if (msg->findBuffer(C2_PARAMKEY_TEMPORAL_LAYERING, &tmp) && tmp != nullptr) { |
| C2StreamTemporalLayeringTuning *layering = |
| C2StreamTemporalLayeringTuning::From(C2Param::From(tmp->data(), tmp->size())); |
| if (layering && layering->m.layerCount > 0 |
| && layering->m.bLayerCount < layering->m.layerCount) { |
| // check if this is webrtc compatible |
| AString mime; |
| if (msg->findString(KEY_MIME, &mime) && |
| mime.equalsIgnoreCase(MIMETYPE_VIDEO_VP8) && |
| layering->m.bLayerCount == 0 && |
| (layering->m.layerCount == 1 |
| || (layering->m.layerCount == 2 |
| && layering->flexCount() >= 1 |
| && layering->m.bitrateRatios[0] == .6f) |
| || (layering->m.layerCount == 3 |
| && layering->flexCount() >= 2 |
| && layering->m.bitrateRatios[0] == .4f |
| && layering->m.bitrateRatios[1] == .6f) |
| || (layering->m.layerCount == 4 |
| && layering->flexCount() >= 3 |
| && layering->m.bitrateRatios[0] == .25f |
| && layering->m.bitrateRatios[1] == .4f |
| && layering->m.bitrateRatios[2] == .6f))) { |
| msg->setString(KEY_TEMPORAL_LAYERING, AStringPrintf( |
| "webrtc.vp8.%u-layer", layering->m.layerCount)); |
| } else if (layering->m.bLayerCount) { |
| msg->setString(KEY_TEMPORAL_LAYERING, AStringPrintf( |
| "android.generic.%u+%u", |
| layering->m.layerCount - layering->m.bLayerCount, |
| layering->m.bLayerCount)); |
| } else if (layering->m.bLayerCount) { |
| msg->setString(KEY_TEMPORAL_LAYERING, AStringPrintf( |
| "android.generic.%u", layering->m.layerCount)); |
| } |
| } |
| msg->removeEntryAt(msg->findEntryByName(C2_PARAMKEY_TEMPORAL_LAYERING)); |
| } |
| } |
| |
| // Remove KEY_AAC_SBR_MODE from SDK message if it is outside supported range |
| // as SDK doesn't have a way to signal default sbr mode based on profile and |
| // requires that the key isn't present in format to signal that |
| int sbrMode; |
| if (msg->findInt32(KEY_AAC_SBR_MODE, &sbrMode) && (sbrMode < 0 || sbrMode > 2)) { |
| msg->removeEntryAt(msg->findEntryByName(KEY_AAC_SBR_MODE)); |
| } |
| |
| { // convert color info |
| // move default color to color aspect if not read from the component |
| int32_t tmp; |
| int32_t range; |
| if (msg->findInt32("default-color-range", &range)) { |
| if (!msg->findInt32(KEY_COLOR_RANGE, &tmp)) { |
| msg->setInt32(KEY_COLOR_RANGE, range); |
| } |
| msg->removeEntryAt(msg->findEntryByName("default-color-range")); |
| } |
| int32_t transfer; |
| if (msg->findInt32("default-color-transfer", &transfer)) { |
| if (!msg->findInt32(KEY_COLOR_TRANSFER, &tmp)) { |
| msg->setInt32(KEY_COLOR_TRANSFER, transfer); |
| } |
| msg->removeEntryAt(msg->findEntryByName("default-color-transfer")); |
| } |
| C2Color::primaries_t primaries; |
| if (msg->findInt32("default-color-primaries", (int32_t*)&primaries)) { |
| if (!msg->findInt32("color-primaries", &tmp)) { |
| msg->setInt32("color-primaries", primaries); |
| } |
| msg->removeEntryAt(msg->findEntryByName("default-color-primaries")); |
| } |
| C2Color::matrix_t matrix; |
| if (msg->findInt32("default-color-matrix", (int32_t*)&matrix)) { |
| if (!msg->findInt32("color-matrix", &tmp)) { |
| msg->setInt32("color-matrix", matrix); |
| } |
| msg->removeEntryAt(msg->findEntryByName("default-color-matrix")); |
| } |
| |
| if (msg->findInt32("color-primaries", (int32_t*)&primaries) |
| && msg->findInt32("color-matrix", (int32_t*)&matrix)) { |
| int32_t standard; |
| |
| if (C2Mapper::map(primaries, matrix, &standard)) { |
| msg->setInt32(KEY_COLOR_STANDARD, standard); |
| } |
| |
| msg->removeEntryAt(msg->findEntryByName("color-primaries")); |
| msg->removeEntryAt(msg->findEntryByName("color-matrix")); |
| } |
| |
| // calculate dataspace for raw graphic buffers if not specified by component, or if |
| // using surface with unspecified aspects (as those must be defaulted which may change |
| // the dataspace) |
| if ((portDomain & IS_RAW) && (mDomain & (IS_IMAGE | IS_VIDEO))) { |
| android_dataspace dataspace; |
| ColorAspects aspects = { |
| ColorAspects::RangeUnspecified, ColorAspects::PrimariesUnspecified, |
| ColorAspects::TransferUnspecified, ColorAspects::MatrixUnspecified |
| }; |
| ColorUtils::getColorAspectsFromFormat(msg, aspects); |
| ColorAspects origAspects = aspects; |
| if (mUsingSurface) { |
| // get image size (default to HD) |
| int32_t width = 1280; |
| int32_t height = 720; |
| int32_t left, top, right, bottom; |
| if (msg->findRect("crop", &left, &top, &right, &bottom)) { |
| width = right - left + 1; |
| height = bottom - top + 1; |
| } else { |
| (void)msg->findInt32(KEY_WIDTH, &width); |
| (void)msg->findInt32(KEY_HEIGHT, &height); |
| } |
| ColorUtils::setDefaultCodecColorAspectsIfNeeded(aspects, width, height); |
| ColorUtils::setColorAspectsIntoFormat(aspects, msg); |
| } |
| |
| if (!msg->findInt32("android._dataspace", (int32_t*)&dataspace) |
| || aspects.mRange != origAspects.mRange |
| || aspects.mPrimaries != origAspects.mPrimaries |
| || aspects.mTransfer != origAspects.mTransfer |
| || aspects.mMatrixCoeffs != origAspects.mMatrixCoeffs) { |
| dataspace = ColorUtils::getDataSpaceForColorAspects(aspects, true /* mayExpand */); |
| msg->setInt32("android._dataspace", dataspace); |
| } |
| } |
| |
| if (mInputSurface) { |
| android_dataspace dataspace = mInputSurface->getDataspace(); |
| ColorUtils::convertDataSpaceToV0(dataspace); |
| int32_t standard; |
| ColorUtils::getColorConfigFromDataSpace(dataspace, &range, &standard, &transfer); |
| if (range != 0) { |
| msg->setInt32(KEY_COLOR_RANGE, range); |
| } |
| if (standard != 0) { |
| msg->setInt32(KEY_COLOR_STANDARD, standard); |
| } |
| if (transfer != 0) { |
| msg->setInt32(KEY_COLOR_TRANSFER, transfer); |
| } |
| msg->setInt32("android._dataspace", dataspace); |
| } |
| |
| // HDR static info |
| |
| C2HdrStaticMetadataStruct hdr; |
| if (msg->findFloat("smpte2086.red.x", &hdr.mastering.red.x) |
| && msg->findFloat("smpte2086.red.y", &hdr.mastering.red.y) |
| && msg->findFloat("smpte2086.green.x", &hdr.mastering.green.x) |
| && msg->findFloat("smpte2086.green.y", &hdr.mastering.green.y) |
| && msg->findFloat("smpte2086.blue.x", &hdr.mastering.blue.x) |
| && msg->findFloat("smpte2086.blue.y", &hdr.mastering.blue.y) |
| && msg->findFloat("smpte2086.white.x", &hdr.mastering.white.x) |
| && msg->findFloat("smpte2086.white.y", &hdr.mastering.white.y) |
| && msg->findFloat("smpte2086.max-luminance", &hdr.mastering.maxLuminance) |
| && msg->findFloat("smpte2086.min-luminance", &hdr.mastering.minLuminance) |
| && msg->findFloat("cta861.max-cll", &hdr.maxCll) |
| && msg->findFloat("cta861.max-fall", &hdr.maxFall)) { |
| if (hdr.mastering.red.x >= 0 && hdr.mastering.red.x <= 1 |
| && hdr.mastering.red.y >= 0 && hdr.mastering.red.y <= 1 |
| && hdr.mastering.green.x >= 0 && hdr.mastering.green.x <= 1 |
| && hdr.mastering.green.y >= 0 && hdr.mastering.green.y <= 1 |
| && hdr.mastering.blue.x >= 0 && hdr.mastering.blue.x <= 1 |
| && hdr.mastering.blue.y >= 0 && hdr.mastering.blue.y <= 1 |
| && hdr.mastering.white.x >= 0 && hdr.mastering.white.x <= 1 |
| && hdr.mastering.white.y >= 0 && hdr.mastering.white.y <= 1 |
| && hdr.mastering.maxLuminance >= 0 && hdr.mastering.maxLuminance <= 65535 |
| && hdr.mastering.minLuminance >= 0 && hdr.mastering.minLuminance <= 6.5535 |
| && hdr.maxCll >= 0 && hdr.maxCll <= 65535 |
| && hdr.maxFall >= 0 && hdr.maxFall <= 65535) { |
| HDRStaticInfo meta; |
| meta.mID = meta.kType1; |
| meta.sType1.mR.x = hdr.mastering.red.x / 0.00002 + 0.5; |
| meta.sType1.mR.y = hdr.mastering.red.y / 0.00002 + 0.5; |
| meta.sType1.mG.x = hdr.mastering.green.x / 0.00002 + 0.5; |
| meta.sType1.mG.y = hdr.mastering.green.y / 0.00002 + 0.5; |
| meta.sType1.mB.x = hdr.mastering.blue.x / 0.00002 + 0.5; |
| meta.sType1.mB.y = hdr.mastering.blue.y / 0.00002 + 0.5; |
| meta.sType1.mW.x = hdr.mastering.white.x / 0.00002 + 0.5; |
| meta.sType1.mW.y = hdr.mastering.white.y / 0.00002 + 0.5; |
| meta.sType1.mMaxDisplayLuminance = hdr.mastering.maxLuminance + 0.5; |
| meta.sType1.mMinDisplayLuminance = hdr.mastering.minLuminance / 0.0001 + 0.5; |
| meta.sType1.mMaxContentLightLevel = hdr.maxCll + 0.5; |
| meta.sType1.mMaxFrameAverageLightLevel = hdr.maxFall + 0.5; |
| msg->setBuffer(KEY_HDR_STATIC_INFO, ABuffer::CreateAsCopy(&meta, sizeof(meta))); |
| } else { |
| ALOGD("found invalid HDR static metadata %s", msg->debugString(8).c_str()); |
| } |
| msg->removeEntryAt(msg->findEntryByName("smpte2086.red.x")); |
| msg->removeEntryAt(msg->findEntryByName("smpte2086.red.y")); |
| msg->removeEntryAt(msg->findEntryByName("smpte2086.green.x")); |
| msg->removeEntryAt(msg->findEntryByName("smpte2086.green.y")); |
| msg->removeEntryAt(msg->findEntryByName("smpte2086.blue.x")); |
| msg->removeEntryAt(msg->findEntryByName("smpte2086.blue.y")); |
| msg->removeEntryAt(msg->findEntryByName("smpte2086.white.x")); |
| msg->removeEntryAt(msg->findEntryByName("smpte2086.white.y")); |
| msg->removeEntryAt(msg->findEntryByName("smpte2086.max-luminance")); |
| msg->removeEntryAt(msg->findEntryByName("smpte2086.min-luminance")); |
| msg->removeEntryAt(msg->findEntryByName("cta861.max-cll")); |
| msg->removeEntryAt(msg->findEntryByName("cta861.max-fall")); |
| } |
| |
| // HDR dynamic info |
| std::string keyPrefix = input ? C2_PARAMKEY_INPUT_HDR_DYNAMIC_INFO |
| : C2_PARAMKEY_OUTPUT_HDR_DYNAMIC_INFO; |
| std::string typeKey = keyPrefix + ".type"; |
| std::string dataKey = keyPrefix + ".data"; |
| int32_t type; |
| sp<ABuffer> data; |
| if (msg->findInt32(typeKey.c_str(), &type) |
| && msg->findBuffer(dataKey.c_str(), &data)) { |
| if (type == HDR_DYNAMIC_METADATA_TYPE_SMPTE_2094_40) { |
| msg->setBuffer(KEY_HDR10_PLUS_INFO, data); |
| msg->removeEntryAt(msg->findEntryByName(typeKey.c_str())); |
| msg->removeEntryAt(msg->findEntryByName(dataKey.c_str())); |
| } |
| } |
| } |
| |
| ALOGV("converted to SDK values as %s", msg->debugString().c_str()); |
| return msg; |
| } |
| |
| /// converts an AMessage value to a ParamUpdater value |
| static void convert(const AMessage::ItemData &from, ReflectedParamUpdater::Value *to) { |
| int32_t int32Value; |
| int64_t int64Value; |
| sp<ABuffer> bufValue; |
| AString strValue; |
| float floatValue; |
| double doubleValue; |
| |
| if (from.find(&int32Value)) { |
| to->set(int32Value); |
| } else if (from.find(&int64Value)) { |
| to->set(int64Value); |
| } else if (from.find(&bufValue)) { |
| to->set(bufValue); |
| } else if (from.find(&strValue)) { |
| to->set(strValue); |
| } else if (from.find(&floatValue)) { |
| to->set(C2Value(floatValue)); |
| } else if (from.find(&doubleValue)) { |
| // convert double to float |
| to->set(C2Value((float)doubleValue)); |
| } |
| // ignore all other AMessage types |
| } |
| |
| /// relaxes Codec 2.0 specific value types to SDK types (mainly removes signedness and counterness |
| /// from 32/64-bit values.) |
| static void relaxValues(ReflectedParamUpdater::Value &item) { |
| C2Value c2Value; |
| int32_t int32Value; |
| int64_t int64Value; |
| (void)item.find(&c2Value); |
| if (c2Value.get(&int32Value) || c2Value.get((uint32_t*)&int32Value) |
| || c2Value.get((c2_cntr32_t*)&int32Value)) { |
| item.set(int32Value); |
| } else if (c2Value.get(&int64Value) |
| || c2Value.get((uint64_t*)&int64Value) |
| || c2Value.get((c2_cntr64_t*)&int64Value)) { |
| item.set(int64Value); |
| } |
| } |
| |
| ReflectedParamUpdater::Dict CCodecConfig::getReflectedFormat( |
| const sp<AMessage> ¶ms_, Domain configDomain) const { |
| // create a modifiable copy of params |
| sp<AMessage> params = params_->dup(); |
| ALOGV("filtering with config domain %x", configDomain); |
| |
| // convert some macro parameters to Codec 2.0 specific expressions |
| |
| { // make i-frame-interval frame based |
| float iFrameInterval; |
| if (params->findAsFloat(KEY_I_FRAME_INTERVAL, &iFrameInterval)) { |
| float frameRate; |
| if (params->findAsFloat(KEY_FRAME_RATE, &frameRate)) { |
| params->setInt32("i-frame-period", |
| (frameRate <= 0 || iFrameInterval < 0) |
| ? -1 /* no sync frames */ |
| : (int32_t)c2_min(iFrameInterval * frameRate + 0.5, |
| (float)INT32_MAX)); |
| } |
| } |
| } |
| |
| if (mDomain == (IS_VIDEO | IS_ENCODER)) { |
| // convert capture-rate into input-time-stretch |
| float frameRate, captureRate; |
| if (params->findAsFloat(KEY_FRAME_RATE, &frameRate)) { |
| if (!params->findAsFloat("time-lapse-fps", &captureRate) |
| && !params->findAsFloat(KEY_CAPTURE_RATE, &captureRate)) { |
| captureRate = frameRate; |
| } |
| if (captureRate > 0 && frameRate > 0) { |
| params->setFloat(C2_PARAMKEY_INPUT_TIME_STRETCH, captureRate / frameRate); |
| } |
| } |
| |
| // add HDR format for video encoding |
| if (configDomain == IS_CONFIG) { |
| // don't assume here that transfer is set for HDR, only require it for HLG |
| int transfer = 0; |
| params->findInt32(KEY_COLOR_TRANSFER, &transfer); |
| |
| int profile; |
| if (params->findInt32(KEY_PROFILE, &profile)) { |
| std::shared_ptr<C2Mapper::ProfileLevelMapper> mapper = |
| C2Mapper::GetProfileLevelMapper(mCodingMediaType); |
| C2Config::hdr_format_t c2 = C2Config::hdr_format_t::UNKNOWN; |
| if (mapper && mapper->mapHdrFormat(profile, &c2)) { |
| if (c2 == C2Config::hdr_format_t::HLG && |
| transfer != COLOR_TRANSFER_HLG) { |
| c2 = C2Config::hdr_format_t::UNKNOWN; |
| } |
| params->setInt32(C2_PARAMKEY_HDR_FORMAT, c2); |
| } |
| } |
| } |
| } |
| |
| { // reflect temporal layering into a binary blob |
| AString schema; |
| if (params->findString(KEY_TEMPORAL_LAYERING, &schema)) { |
| unsigned int numLayers = 0; |
| unsigned int numBLayers = 0; |
| int tags; |
| char dummy; |
| std::unique_ptr<C2StreamTemporalLayeringTuning::output> layering; |
| if (sscanf(schema.c_str(), "webrtc.vp8.%u-layer%c", &numLayers, &dummy) == 1 |
| && numLayers > 0) { |
| switch (numLayers) { |
| case 1: |
| layering = C2StreamTemporalLayeringTuning::output::AllocUnique( |
| {}, 0u, 1u, 0u); |
| break; |
| case 2: |
| layering = C2StreamTemporalLayeringTuning::output::AllocUnique( |
| { .6f }, 0u, 2u, 0u); |
| break; |
| case 3: |
| layering = C2StreamTemporalLayeringTuning::output::AllocUnique( |
| { .4f, .6f }, 0u, 3u, 0u); |
| break; |
| default: |
| layering = C2StreamTemporalLayeringTuning::output::AllocUnique( |
| { .25f, .4f, .6f }, 0u, 4u, 0u); |
| break; |
| } |
| } else if ((tags = sscanf(schema.c_str(), "android.generic.%u%c%u%c", |
| &numLayers, &dummy, &numBLayers, &dummy)) |
| && (tags == 1 || (tags == 3 && dummy == '+')) |
| && numLayers > 0 && numLayers < UINT32_MAX - numBLayers) { |
| layering = C2StreamTemporalLayeringTuning::output::AllocUnique( |
| {}, 0u, numLayers + numBLayers, numBLayers); |
| } else { |
| ALOGD("Ignoring unsupported ts-schema [%s]", schema.c_str()); |
| } |
| if (layering) { |
| params->setBuffer(C2_PARAMKEY_TEMPORAL_LAYERING, |
| ABuffer::CreateAsCopy(layering.get(), layering->size())); |
| } |
| } |
| } |
| |
| { // convert from MediaFormat rect to Codec 2.0 rect |
| int32_t offset; |
| int32_t end; |
| AMessage::ItemData item; |
| if (params->findInt32("crop-left", &offset) && params->findInt32("crop-right", &end) |
| && offset >= 0 && end >= offset - 1) { |
| size_t ix = params->findEntryByName("crop-right"); |
| params->setEntryNameAt(ix, "crop-width"); |
| item.set(end - offset + 1); |
| params->setEntryAt(ix, item); |
| } |
| if (params->findInt32("crop-top", &offset) && params->findInt32("crop-bottom", &end) |
| && offset >= 0 && end >= offset - 1) { |
| size_t ix = params->findEntryByName("crop-bottom"); |
| params->setEntryNameAt(ix, "crop-height"); |
| item.set(end - offset + 1); |
| params->setEntryAt(ix, item); |
| } |
| } |
| |
| { // convert color info |
| int32_t standard; |
| if (params->findInt32(KEY_COLOR_STANDARD, &standard)) { |
| C2Color::primaries_t primaries; |
| C2Color::matrix_t matrix; |
| |
| if (C2Mapper::map(standard, &primaries, &matrix)) { |
| params->setInt32("color-primaries", primaries); |
| params->setInt32("color-matrix", matrix); |
| } |
| } |
| |
| sp<ABuffer> hdrMeta; |
| if (params->findBuffer(KEY_HDR_STATIC_INFO, &hdrMeta) |
| && hdrMeta->size() == sizeof(HDRStaticInfo)) { |
| HDRStaticInfo *meta = (HDRStaticInfo*)hdrMeta->data(); |
| if (meta->mID == meta->kType1) { |
| params->setFloat("smpte2086.red.x", meta->sType1.mR.x * 0.00002); |
| params->setFloat("smpte2086.red.y", meta->sType1.mR.y * 0.00002); |
| params->setFloat("smpte2086.green.x", meta->sType1.mG.x * 0.00002); |
| params->setFloat("smpte2086.green.y", meta->sType1.mG.y * 0.00002); |
| params->setFloat("smpte2086.blue.x", meta->sType1.mB.x * 0.00002); |
| params->setFloat("smpte2086.blue.y", meta->sType1.mB.y * 0.00002); |
| params->setFloat("smpte2086.white.x", meta->sType1.mW.x * 0.00002); |
| params->setFloat("smpte2086.white.y", meta->sType1.mW.y * 0.00002); |
| params->setFloat("smpte2086.max-luminance", meta->sType1.mMaxDisplayLuminance); |
| params->setFloat("smpte2086.min-luminance", meta->sType1.mMinDisplayLuminance * 0.0001); |
| params->setFloat("cta861.max-cll", meta->sType1.mMaxContentLightLevel); |
| params->setFloat("cta861.max-fall", meta->sType1.mMaxFrameAverageLightLevel); |
| } |
| } |
| |
| sp<ABuffer> hdrDynamicInfo; |
| if (params->findBuffer(KEY_HDR10_PLUS_INFO, &hdrDynamicInfo)) { |
| for (const std::string &prefix : { C2_PARAMKEY_INPUT_HDR_DYNAMIC_INFO, |
| C2_PARAMKEY_OUTPUT_HDR_DYNAMIC_INFO }) { |
| params->setInt32((prefix + ".type").c_str(), |
| HDR_DYNAMIC_METADATA_TYPE_SMPTE_2094_40); |
| params->setBuffer((prefix + ".data").c_str(), hdrDynamicInfo); |
| } |
| } |
| } |
| |
| // this is to verify that we set proper signedness for standard parameters |
| bool beVeryStrict = property_get_bool("debug.stagefright.ccodec_strict_type", false); |
| // this is to allow vendors to use the wrong signedness for standard parameters |
| bool beVeryLax = property_get_bool("debug.stagefright.ccodec_lax_type", false); |
| |
| ReflectedParamUpdater::Dict filtered; |
| for (size_t ix = 0; ix < params->countEntries(); ++ix) { |
| AMessage::Type type; |
| AString name = params->getEntryNameAt(ix, &type); |
| AMessage::ItemData msgItem = params->getEntryAt(ix); |
| ReflectedParamUpdater::Value item; |
| convert(msgItem, &item); // convert item to param updater item |
| |
| if (name.startsWith("vendor.")) { |
| // vendor params pass through as is |
| filtered.emplace(name.c_str(), item); |
| continue; |
| } |
| // standard parameters may get modified, filtered or duplicated |
| for (const ConfigMapper &cm : mStandardParams->getConfigMappersForSdkKey(name.c_str())) { |
| // note: we ignore port domain for configuration |
| if ((cm.domain() & configDomain) |
| // component domain + kind (these must match) |
| && (cm.domain() & mDomain) == mDomain) { |
| // map arithmetic values, pass through string or buffer |
| switch (type) { |
| case AMessage::kTypeBuffer: |
| case AMessage::kTypeString: |
| break; |
| case AMessage::kTypeInt32: |
| case AMessage::kTypeInt64: |
| case AMessage::kTypeFloat: |
| case AMessage::kTypeDouble: |
| // for now only map settings with mappers as we are not creating |
| // signed <=> unsigned mappers |
| // TODO: be precise about signed unsigned |
| if (beVeryStrict || cm.mapper()) { |
| item.set(cm.mapFromMessage(params->getEntryAt(ix))); |
| // also allow to relax type strictness |
| if (beVeryLax) { |
| relaxValues(item); |
| } |
| } |
| break; |
| default: |
| continue; |
| } |
| filtered.emplace(cm.path(), item); |
| } |
| } |
| } |
| ALOGV("filter src msg %s", params->debugString(4).c_str()); |
| ALOGV("filter dst params %s", filtered.debugString(4).c_str()); |
| return filtered; |
| } |
| |
| status_t CCodecConfig::getConfigUpdateFromSdkParams( |
| std::shared_ptr<Codec2Client::Configurable> configurable, |
| const sp<AMessage> &sdkParams, Domain configDomain, |
| c2_blocking_t blocking, |
| std::vector<std::unique_ptr<C2Param>> *configUpdate) const { |
| // update the mappers if we know something more of this format. |
| // AV1 10b or 8b encoding request. |
| AString mime; |
| int32_t requestedSdkProfile = -1; |
| if ((mDomain == (IS_VIDEO | IS_ENCODER)) && |
| sdkParams->findString(KEY_MIME, &mime) && |
| mime == MIMETYPE_VIDEO_AV1) { |
| |
| sdkParams->findInt32(KEY_PROFILE, &requestedSdkProfile); |
| bool is10bAv1EncodeRequested = (requestedSdkProfile == AV1ProfileMain10); |
| |
| int32_t bitDepth = (is10bAv1EncodeRequested) ? 10 : 8; |
| // we always initilze with an 8b mapper. Update this only if needed. |
| if (bitDepth != 8) { |
| std::shared_ptr<C2Mapper::ProfileLevelMapper> mapper = |
| C2Mapper::GetBitDepthProfileLevelMapper(mCodingMediaType, bitDepth); |
| mStandardParams->updateConfigMappersForKey(StandardParams::SdkKey(KEY_PROFILE), |
| { |
| ConfigMapper(KEY_PROFILE, C2_PARAMKEY_PROFILE_LEVEL, "profile") |
| .limitTo(Domain::CODED) |
| .withMappers([mapper](C2Value v) -> C2Value { |
| C2Config::profile_t c2 = PROFILE_UNUSED; |
| int32_t sdk; |
| if (mapper && v.get(&sdk) && mapper->mapProfile(sdk, &c2)) { |
| return c2; |
| } |
| return PROFILE_UNUSED; |
| }, [mapper](C2Value v) -> C2Value { |
| C2Config::profile_t c2; |
| int32_t sdk; |
| using C2ValueType = |
| typename _c2_reduce_enum_to_underlying_type<decltype(c2)>::type; |
| if (mapper && v.get((C2ValueType*)&c2) && mapper->mapProfile(c2, &sdk)) { |
| return sdk; |
| } |
| return C2Value(); |
| })}); |
| mStandardParams->updateConfigMappersForKey(StandardParams::SdkKey(KEY_LEVEL), |
| { |
| ConfigMapper(KEY_LEVEL, C2_PARAMKEY_PROFILE_LEVEL, "level") |
| .limitTo(Domain::CODED) |
| .withMappers([mapper](C2Value v) -> C2Value { |
| C2Config::level_t c2 = LEVEL_UNUSED; |
| int32_t sdk; |
| if (mapper && v.get(&sdk) && mapper->mapLevel(sdk, &c2)) { |
| return c2; |
| } |
| return LEVEL_UNUSED; |
| }, [mapper](C2Value v) -> C2Value { |
| C2Config::level_t c2; |
| int32_t sdk; |
| using C2ValueType = |
| typename _c2_reduce_enum_to_underlying_type<decltype(c2)>::type; |
| if (mapper && v.get((C2ValueType*)&c2) && mapper->mapLevel(c2, &sdk)) { |
| return sdk; |
| } |
| return C2Value(); |
| })}); |
| } |
| } |
| |
| ReflectedParamUpdater::Dict params = getReflectedFormat(sdkParams, configDomain); |
| |
| std::vector<C2Param::Index> indices; |
| mParamUpdater->getParamIndicesFromMessage(params, &indices); |
| if (indices.empty()) { |
| ALOGD("no recognized params in: %s", params.debugString().c_str()); |
| return OK; |
| } |
| |
| configUpdate->clear(); |
| std::vector<C2Param::Index> supportedIndices; |
| for (C2Param::Index ix : indices) { |
| if (mSupportedIndices.count(ix)) { |
| supportedIndices.push_back(ix); |
| } else if (mLocalParams.count(ix)) { |
| // query local parameter here |
| auto it = mCurrentConfig.find(ix); |
| if (it != mCurrentConfig.end()) { |
| configUpdate->emplace_back(C2Param::Copy(*it->second)); |
| } |
| } |
| } |
| |
| c2_status_t err = configurable->query({ }, supportedIndices, blocking, configUpdate); |
| if (err != C2_OK) { |
| ALOGD("query failed after returning %zu params => %s", configUpdate->size(), asString(err)); |
| } |
| |
| if (configUpdate->size()) { |
| mParamUpdater->updateParamsFromMessage(params, configUpdate); |
| } |
| return OK; |
| } |
| |
| status_t CCodecConfig::setParameters( |
| std::shared_ptr<Codec2Client::Configurable> configurable, |
| std::vector<std::unique_ptr<C2Param>> &configUpdate, |
| c2_blocking_t blocking) { |
| status_t result = OK; |
| if (configUpdate.empty()) { |
| return OK; |
| } |
| |
| std::vector<C2Param::Index> indices; |
| std::vector<C2Param *> paramVector; |
| for (const std::unique_ptr<C2Param> ¶m : configUpdate) { |
| if (mSupportedIndices.count(param->index())) { |
| // component parameter |
| paramVector.push_back(param.get()); |
| indices.push_back(param->index()); |
| } else if (mLocalParams.count(param->index())) { |
| // handle local parameter here |
| LocalParamValidator validator = mLocalParams.find(param->index())->second; |
| c2_status_t err = C2_OK; |
| std::unique_ptr<C2Param> copy = C2Param::Copy(*param); |
| if (validator) { |
| err = validator(copy); |
| } |
| if (err == C2_OK) { |
| ALOGV("updated local parameter value for %s", |
| mParamUpdater->getParamName(param->index()).c_str()); |
| |
| mCurrentConfig[param->index()] = std::move(copy); |
| } else { |
| ALOGD("failed to set parameter value for %s => %s", |
| mParamUpdater->getParamName(param->index()).c_str(), asString(err)); |
| result = BAD_VALUE; |
| } |
| } |
| } |
| // update subscribed param indices |
| subscribeToConfigUpdate(configurable, indices, blocking); |
| |
| std::vector<std::unique_ptr<C2SettingResult>> failures; |
| c2_status_t err = configurable->config(paramVector, blocking, &failures); |
| if (err != C2_OK) { |
| ALOGD("config failed => %s", asString(err)); |
| // This is non-fatal. |
| } |
| for (const std::unique_ptr<C2SettingResult> &failure : failures) { |
| switch (failure->failure) { |
| case C2SettingResult::BAD_VALUE: |
| ALOGD("Bad parameter value"); |
| result = BAD_VALUE; |
| break; |
| default: |
| ALOGV("failure = %d", int(failure->failure)); |
| break; |
| } |
| } |
| |
| // Re-query parameter values in case config could not update them and update the current |
| // configuration. |
| configUpdate.clear(); |
| err = configurable->query({}, indices, blocking, &configUpdate); |
| if (err != C2_OK) { |
| ALOGD("query failed after returning %zu params => %s", configUpdate.size(), asString(err)); |
| } |
| (void)updateConfiguration(configUpdate, ALL); |
| |
| // TODO: error value |
| return result; |
| } |
| |
| const C2Param *CCodecConfig::getConfigParameterValue(C2Param::Index index) const { |
| auto it = mCurrentConfig.find(index); |
| if (it == mCurrentConfig.end()) { |
| return nullptr; |
| } else { |
| return it->second.get(); |
| } |
| } |
| |
| status_t CCodecConfig::subscribeToAllVendorParams( |
| const std::shared_ptr<Codec2Client::Configurable> &configurable, |
| c2_blocking_t blocking) { |
| for (const auto &[path, desc] : mVendorParams) { |
| mSubscribedIndices.insert(desc->index()); |
| } |
| return subscribeToConfigUpdate(configurable, {}, blocking); |
| } |
| |
| status_t CCodecConfig::querySupportedParameters(std::vector<std::string> *names) { |
| if (!names) { |
| return BAD_VALUE; |
| } |
| names->clear(); |
| // TODO: expand to standard params |
| for (const auto &[key, desc] : mVendorParams) { |
| if (desc->isVisible()) { |
| names->push_back(key); |
| } |
| } |
| return OK; |
| } |
| |
| status_t CCodecConfig::describe(const std::string &name, CodecParameterDescriptor *desc) { |
| if (!desc) { |
| return BAD_VALUE; |
| } |
| // TODO: expand to standard params |
| desc->name = name; |
| switch (mParamUpdater->getTypeForKey(name)) { |
| case C2FieldDescriptor::INT32: |
| case C2FieldDescriptor::UINT32: |
| case C2FieldDescriptor::CNTR32: |
| desc->type = AMessage::kTypeInt32; |
| return OK; |
| case C2FieldDescriptor::INT64: |
| case C2FieldDescriptor::UINT64: |
| case C2FieldDescriptor::CNTR64: |
| desc->type = AMessage::kTypeInt64; |
| return OK; |
| case C2FieldDescriptor::FLOAT: |
| desc->type = AMessage::kTypeFloat; |
| return OK; |
| case C2FieldDescriptor::STRING: |
| desc->type = AMessage::kTypeString; |
| return OK; |
| case C2FieldDescriptor::BLOB: |
| desc->type = AMessage::kTypeBuffer; |
| return OK; |
| default: |
| return NAME_NOT_FOUND; |
| } |
| } |
| |
| status_t CCodecConfig::subscribeToVendorConfigUpdate( |
| const std::shared_ptr<Codec2Client::Configurable> &configurable, |
| const std::vector<std::string> &names, |
| c2_blocking_t blocking) { |
| for (const std::string &name : names) { |
| auto it = mVendorParams.find(name); |
| if (it == mVendorParams.end()) { |
| ALOGD("%s is not a recognized vendor parameter; ignored.", name.c_str()); |
| continue; |
| } |
| mSubscribedIndices.insert(it->second->index()); |
| } |
| return subscribeToConfigUpdate(configurable, {}, blocking); |
| } |
| |
| status_t CCodecConfig::unsubscribeFromVendorConfigUpdate( |
| const std::shared_ptr<Codec2Client::Configurable> &configurable, |
| const std::vector<std::string> &names, |
| c2_blocking_t blocking) { |
| for (const std::string &name : names) { |
| auto it = mVendorParams.find(name); |
| if (it == mVendorParams.end()) { |
| ALOGD("%s is not a recognized vendor parameter; ignored.", name.c_str()); |
| continue; |
| } |
| mSubscribedIndices.erase(it->second->index()); |
| } |
| return subscribeToConfigUpdate(configurable, {}, blocking); |
| } |
| |
| } // namespace android |