1 /* 2 * Copyright (C) 2009 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 #ifndef META_DATA_H_ 18 19 #define META_DATA_H_ 20 21 #include <sys/types.h> 22 23 #include <stdint.h> 24 25 #include <binder/Parcel.h> 26 #include <utils/RefBase.h> 27 #include <utils/KeyedVector.h> 28 #include <utils/String8.h> 29 30 namespace android { 31 32 // The following keys map to int32_t data unless indicated otherwise. 33 enum { 34 kKeyMIMEType = 'mime', // cstring 35 kKeyWidth = 'widt', // int32_t, image pixel 36 kKeyHeight = 'heig', // int32_t, image pixel 37 kKeyDisplayWidth = 'dWid', // int32_t, display/presentation 38 kKeyDisplayHeight = 'dHgt', // int32_t, display/presentation 39 kKeySARWidth = 'sarW', // int32_t, sampleAspectRatio width 40 kKeySARHeight = 'sarH', // int32_t, sampleAspectRatio height 41 42 // a rectangle, if absent assumed to be (0, 0, width - 1, height - 1) 43 kKeyCropRect = 'crop', 44 45 kKeyRotation = 'rotA', // int32_t (angle in degrees) 46 kKeyIFramesInterval = 'ifiv', // int32_t 47 kKeyStride = 'strd', // int32_t 48 kKeySliceHeight = 'slht', // int32_t 49 kKeyChannelCount = '#chn', // int32_t 50 kKeyChannelMask = 'chnm', // int32_t 51 kKeySampleRate = 'srte', // int32_t (audio sampling rate Hz) 52 kKeyPcmEncoding = 'PCMe', // int32_t (audio encoding enum) 53 kKeyFrameRate = 'frmR', // int32_t (video frame rate fps) 54 kKeyBitRate = 'brte', // int32_t (bps) 55 kKeyMaxBitRate = 'mxBr', // int32_t (bps) 56 kKeyStreamHeader = 'stHd', // raw data 57 kKeyESDS = 'esds', // raw data 58 kKeyAACProfile = 'aacp', // int32_t 59 kKeyAVCC = 'avcc', // raw data 60 kKeyHVCC = 'hvcc', // raw data 61 kKeyD263 = 'd263', // raw data 62 kKeyVorbisInfo = 'vinf', // raw data 63 kKeyVorbisBooks = 'vboo', // raw data 64 kKeyOpusHeader = 'ohdr', // raw data 65 kKeyOpusCodecDelay = 'ocod', // uint64_t (codec delay in ns) 66 kKeyOpusSeekPreRoll = 'ospr', // uint64_t (seek preroll in ns) 67 kKeyVp9CodecPrivate = 'vp9p', // raw data (vp9 csd information) 68 kKeyWantsNALFragments = 'NALf', 69 kKeyIsSyncFrame = 'sync', // int32_t (bool) 70 kKeyIsCodecConfig = 'conf', // int32_t (bool) 71 kKeyTime = 'time', // int64_t (usecs) 72 kKeyDecodingTime = 'decT', // int64_t (decoding timestamp in usecs) 73 kKeyNTPTime = 'ntpT', // uint64_t (ntp-timestamp) 74 kKeyTargetTime = 'tarT', // int64_t (usecs) 75 kKeyDriftTime = 'dftT', // int64_t (usecs) 76 kKeyAnchorTime = 'ancT', // int64_t (usecs) 77 kKeyDuration = 'dura', // int64_t (usecs) 78 kKeyPixelFormat = 'pixf', // int32_t 79 kKeyColorFormat = 'colf', // int32_t 80 kKeyColorSpace = 'cols', // int32_t 81 kKeyPlatformPrivate = 'priv', // pointer 82 kKeyDecoderComponent = 'decC', // cstring 83 kKeyBufferID = 'bfID', 84 kKeyMaxInputSize = 'inpS', 85 kKeyMaxWidth = 'maxW', 86 kKeyMaxHeight = 'maxH', 87 kKeyThumbnailTime = 'thbT', // int64_t (usecs) 88 kKeyTrackID = 'trID', 89 kKeyIsDRM = 'idrm', // int32_t (bool) 90 kKeyEncoderDelay = 'encd', // int32_t (frames) 91 kKeyEncoderPadding = 'encp', // int32_t (frames) 92 93 kKeyAlbum = 'albu', // cstring 94 kKeyArtist = 'arti', // cstring 95 kKeyAlbumArtist = 'aart', // cstring 96 kKeyComposer = 'comp', // cstring 97 kKeyGenre = 'genr', // cstring 98 kKeyTitle = 'titl', // cstring 99 kKeyYear = 'year', // cstring 100 kKeyAlbumArt = 'albA', // compressed image data 101 kKeyAlbumArtMIME = 'alAM', // cstring 102 kKeyAuthor = 'auth', // cstring 103 kKeyCDTrackNumber = 'cdtr', // cstring 104 kKeyDiscNumber = 'dnum', // cstring 105 kKeyDate = 'date', // cstring 106 kKeyWriter = 'writ', // cstring 107 kKeyCompilation = 'cpil', // cstring 108 kKeyLocation = 'loc ', // cstring 109 kKeyTimeScale = 'tmsl', // int32_t 110 kKeyCaptureFramerate = 'capF', // float (capture fps) 111 112 // video profile and level 113 kKeyVideoProfile = 'vprf', // int32_t 114 kKeyVideoLevel = 'vlev', // int32_t 115 116 // Set this key to enable authoring files in 64-bit offset 117 kKey64BitFileOffset = 'fobt', // int32_t (bool) 118 kKey2ByteNalLength = '2NAL', // int32_t (bool) 119 120 // Identify the file output format for authoring 121 // Please see <media/mediarecorder.h> for the supported 122 // file output formats. 123 kKeyFileType = 'ftyp', // int32_t 124 125 // Track authoring progress status 126 // kKeyTrackTimeStatus is used to track progress in elapsed time 127 kKeyTrackTimeStatus = 'tktm', // int64_t 128 129 kKeyRealTimeRecording = 'rtrc', // bool (int32_t) 130 kKeyNumBuffers = 'nbbf', // int32_t 131 132 // Ogg files can be tagged to be automatically looping... 133 kKeyAutoLoop = 'autL', // bool (int32_t) 134 135 kKeyValidSamples = 'valD', // int32_t 136 137 kKeyIsUnreadable = 'unre', // bool (int32_t) 138 139 // An indication that a video buffer has been rendered. 140 kKeyRendered = 'rend', // bool (int32_t) 141 142 // The language code for this media 143 kKeyMediaLanguage = 'lang', // cstring 144 145 // To store the timed text format data 146 kKeyTextFormatData = 'text', // raw data 147 148 kKeyRequiresSecureBuffers = 'secu', // bool (int32_t) 149 150 kKeyIsADTS = 'adts', // bool (int32_t) 151 kKeyAACAOT = 'aaot', // int32_t 152 153 // If a MediaBuffer's data represents (at least partially) encrypted 154 // data, the following fields aid in decryption. 155 // The data can be thought of as pairs of plain and encrypted data 156 // fragments, i.e. plain and encrypted data alternate. 157 // The first fragment is by convention plain data (if that's not the 158 // case, simply specify plain fragment size of 0). 159 // kKeyEncryptedSizes and kKeyPlainSizes each map to an array of 160 // size_t values. The sum total of all size_t values of both arrays 161 // must equal the amount of data (i.e. MediaBuffer's range_length()). 162 // If both arrays are present, they must be of the same size. 163 // If only encrypted sizes are present it is assumed that all 164 // plain sizes are 0, i.e. all fragments are encrypted. 165 // To programmatically set these array, use the MetaData::setData API, i.e. 166 // const size_t encSizes[]; 167 // meta->setData( 168 // kKeyEncryptedSizes, 0 /* type */, encSizes, sizeof(encSizes)); 169 // A plain sizes array by itself makes no sense. 170 kKeyEncryptedSizes = 'encr', // size_t[] 171 kKeyPlainSizes = 'plai', // size_t[] 172 kKeyCryptoKey = 'cryK', // uint8_t[16] 173 kKeyCryptoIV = 'cryI', // uint8_t[16] 174 kKeyCryptoMode = 'cryM', // int32_t 175 176 kKeyCryptoDefaultIVSize = 'cryS', // int32_t 177 178 kKeyPssh = 'pssh', // raw data 179 180 // Please see MediaFormat.KEY_IS_AUTOSELECT. 181 kKeyTrackIsAutoselect = 'auto', // bool (int32_t) 182 // Please see MediaFormat.KEY_IS_DEFAULT. 183 kKeyTrackIsDefault = 'dflt', // bool (int32_t) 184 // Similar to MediaFormat.KEY_IS_FORCED_SUBTITLE but pertains to av tracks as well. 185 kKeyTrackIsForced = 'frcd', // bool (int32_t) 186 187 // H264 supplemental enhancement information offsets/sizes 188 kKeySEI = 'sei ', // raw data 189 190 // MPEG user data offsets 191 kKeyMpegUserData = 'mpud', // size_t[] 192 193 // Size of NALU length in mkv/mp4 194 kKeyNalLengthSize = 'nals', // int32_t 195 196 // HDR related 197 kKeyHdrStaticInfo = 'hdrS', // HDRStaticInfo 198 199 // color aspects 200 kKeyColorRange = 'cRng', // int32_t, color range, value defined by ColorAspects.Range 201 kKeyColorPrimaries = 'cPrm', // int32_t, 202 // color Primaries, value defined by ColorAspects.Primaries 203 kKeyTransferFunction = 'tFun', // int32_t, 204 // transfer Function, value defined by ColorAspects.Transfer. 205 kKeyColorMatrix = 'cMtx', // int32_t, 206 // color Matrix, value defined by ColorAspects.MatrixCoeffs. 207 kKeyTemporalLayerId = 'iLyr', // int32_t, temporal layer-id. 0-based (0 => base layer) 208 kKeyTemporalLayerCount = 'cLyr', // int32_t, number of temporal layers encoded 209 }; 210 211 enum { 212 kTypeESDS = 'esds', 213 kTypeAVCC = 'avcc', 214 kTypeHVCC = 'hvcc', 215 kTypeD263 = 'd263', 216 }; 217 218 class MetaData : public RefBase { 219 public: 220 MetaData(); 221 MetaData(const MetaData &from); 222 223 enum Type { 224 TYPE_NONE = 'none', 225 TYPE_C_STRING = 'cstr', 226 TYPE_INT32 = 'in32', 227 TYPE_INT64 = 'in64', 228 TYPE_FLOAT = 'floa', 229 TYPE_POINTER = 'ptr ', 230 TYPE_RECT = 'rect', 231 }; 232 233 void clear(); 234 bool remove(uint32_t key); 235 236 bool setCString(uint32_t key, const char *value); 237 bool setInt32(uint32_t key, int32_t value); 238 bool setInt64(uint32_t key, int64_t value); 239 bool setFloat(uint32_t key, float value); 240 bool setPointer(uint32_t key, void *value); 241 242 bool setRect( 243 uint32_t key, 244 int32_t left, int32_t top, 245 int32_t right, int32_t bottom); 246 247 bool findCString(uint32_t key, const char **value); 248 bool findInt32(uint32_t key, int32_t *value); 249 bool findInt64(uint32_t key, int64_t *value); 250 bool findFloat(uint32_t key, float *value); 251 bool findPointer(uint32_t key, void **value); 252 253 bool findRect( 254 uint32_t key, 255 int32_t *left, int32_t *top, 256 int32_t *right, int32_t *bottom); 257 258 bool setData(uint32_t key, uint32_t type, const void *data, size_t size); 259 260 bool findData(uint32_t key, uint32_t *type, 261 const void **data, size_t *size) const; 262 263 bool hasData(uint32_t key) const; 264 265 String8 toString() const; 266 void dumpToLog() const; 267 268 status_t writeToParcel(Parcel &parcel); 269 status_t updateFromParcel(const Parcel &parcel); 270 static sp<MetaData> createFromParcel(const Parcel &parcel); 271 272 protected: 273 virtual ~MetaData(); 274 275 private: 276 struct typed_data { 277 typed_data(); 278 ~typed_data(); 279 280 typed_data(const MetaData::typed_data &); 281 typed_data &operator=(const MetaData::typed_data &); 282 283 void clear(); 284 void setData(uint32_t type, const void *data, size_t size); 285 void getData(uint32_t *type, const void **data, size_t *size) const; 286 // may include hexdump of binary data if verbose=true 287 String8 asString(bool verbose) const; 288 289 private: 290 uint32_t mType; 291 size_t mSize; 292 293 union { 294 void *ext_data; 295 float reservoir; 296 } u; 297 usesReservoirtyped_data298 bool usesReservoir() const { 299 return mSize <= sizeof(u.reservoir); 300 } 301 302 void *allocateStorage(size_t size); 303 void freeStorage(); 304 storagetyped_data305 void *storage() { 306 return usesReservoir() ? &u.reservoir : u.ext_data; 307 } 308 storagetyped_data309 const void *storage() const { 310 return usesReservoir() ? &u.reservoir : u.ext_data; 311 } 312 }; 313 314 struct Rect { 315 int32_t mLeft, mTop, mRight, mBottom; 316 }; 317 318 KeyedVector<uint32_t, typed_data> mItems; 319 320 // MetaData &operator=(const MetaData &); 321 }; 322 323 } // namespace android 324 325 #endif // META_DATA_H_ 326