// Copyright (c) 2021, Alliance for Open Media. All rights reserved // // This source code is subject to the terms of the BSD 2 Clause License and // the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License // was not distributed with this source code in the LICENSE file, you can // obtain it at www.aomedia.org/license/software. If the Alliance for Open // Media Patent License 1.0 was not distributed with this source code in the // PATENTS file, you can obtain it at www.aomedia.org/license/patent. #include "avifinfo.h" #include #include #include //------------------------------------------------------------------------------ // Status returned when reading the content of a box (or file). typedef enum { kFound, // Input correctly parsed and information retrieved. kNotFound, // Input correctly parsed but information is missing or elsewhere. kTruncated, // Input correctly parsed until missing bytes to continue. kAborted, // Input correctly parsed until stopped to avoid timeout or crash. kInvalid, // Input incorrectly parsed. } AvifInfoInternalStatus; static AvifInfoStatus AvifInfoInternalConvertStatus(AvifInfoInternalStatus s) { return (s == kFound) ? kAvifInfoOk : (s == kNotFound || s == kTruncated) ? kAvifInfoNotEnoughData : (s == kAborted) ? kAvifInfoTooComplex : kAvifInfoInvalidFile; } // uint32_t is used everywhere in this file. It is unlikely to be insufficient // to parse AVIF headers. #define AVIFINFO_MAX_SIZE UINT32_MAX // AvifInfoInternalFeatures uses uint8_t to store values and the number of // values is clamped to 32 to limit the stack size. #define AVIFINFO_MAX_VALUE UINT8_MAX #define AVIFINFO_UNDEFINED 0 // Maximum number of stored associations. Past that, they are skipped. #define AVIFINFO_MAX_TILES 16 #define AVIFINFO_MAX_PROPS 32 #define AVIFINFO_MAX_FEATURES 8 // Reads an unsigned integer from 'input' with most significant bits first. // 'input' must be at least 'num_bytes'-long. static uint32_t AvifInfoInternalReadBigEndian(const uint8_t* input, uint32_t num_bytes) { uint32_t value = 0; for (uint32_t i = 0; i < num_bytes; ++i) { value = (value << 8) | input[i]; } return value; } //------------------------------------------------------------------------------ // Convenience macros. #if defined(AVIFINFO_LOG_ERROR) // Toggle to log encountered issues. static void AvifInfoInternalLogError(const char* file, int line, AvifInfoInternalStatus status) { const char* kStr[] = {"Found", "NotFound", "Truncated", "Invalid", "Aborted"}; fprintf(stderr, " %s:%d: %s\n", file, line, kStr[status]); // Set a breakpoint here to catch the first detected issue. } #define AVIFINFO_RETURN(check_status) \ do { \ const AvifInfoInternalStatus status_checked = (check_status); \ if (status_checked != kFound && status_checked != kNotFound) { \ AvifInfoInternalLogError(__FILE__, __LINE__, status_checked); \ } \ return status_checked; \ } while (0) #else #define AVIFINFO_RETURN(check_status) \ do { \ return (check_status); \ } while (0) #endif #define AVIFINFO_CHECK(check_condition, check_status) \ do { \ if (!(check_condition)) AVIFINFO_RETURN(check_status); \ } while (0) #define AVIFINFO_CHECK_STATUS_IS(check_status, expected_status) \ do { \ const AvifInfoInternalStatus status_returned = (check_status); \ AVIFINFO_CHECK(status_returned == (expected_status), status_returned); \ } while (0) #define AVIFINFO_CHECK_FOUND(check_status) \ AVIFINFO_CHECK_STATUS_IS((check_status), kFound) #define AVIFINFO_CHECK_NOT_FOUND(check_status) \ AVIFINFO_CHECK_STATUS_IS((check_status), kNotFound) //------------------------------------------------------------------------------ // Streamed input struct and helper functions. typedef struct { void* stream; // User-defined data. read_stream_t read; // Used to fetch more bytes from the 'stream'. skip_stream_t skip; // Used to advance the position in the 'stream'. // Fallback to 'read' if 'skip' is null. } AvifInfoInternalStream; // Reads 'num_bytes' from the 'stream'. They are available at '*data'. // 'num_bytes' must be greater than zero. static AvifInfoInternalStatus AvifInfoInternalRead( AvifInfoInternalStream* stream, uint32_t num_bytes, const uint8_t** data) { *data = stream->read(stream->stream, num_bytes); AVIFINFO_CHECK(*data != NULL, kTruncated); return kFound; } // Skips 'num_bytes' from the 'stream'. 'num_bytes' can be zero. static AvifInfoInternalStatus AvifInfoInternalSkip( AvifInfoInternalStream* stream, uint32_t num_bytes) { // Avoid a call to the user-defined function for nothing. if (num_bytes > 0) { if (stream->skip == NULL) { const uint8_t* unused; while (num_bytes > AVIFINFO_MAX_NUM_READ_BYTES) { AVIFINFO_CHECK_FOUND( AvifInfoInternalRead(stream, AVIFINFO_MAX_NUM_READ_BYTES, &unused)); num_bytes -= AVIFINFO_MAX_NUM_READ_BYTES; } return AvifInfoInternalRead(stream, num_bytes, &unused); } stream->skip(stream->stream, num_bytes); } return kFound; } //------------------------------------------------------------------------------ // Features are parsed into temporary property associations. typedef struct { uint8_t tile_item_id; uint8_t parent_item_id; } AvifInfoInternalTile; // Tile item id <-> parent item id associations. typedef struct { uint8_t property_index; uint8_t item_id; } AvifInfoInternalProp; // Property index <-> item id associations. typedef struct { uint8_t property_index; uint32_t width, height; } AvifInfoInternalDimProp; // Property <-> features associations. typedef struct { uint8_t property_index; uint8_t bit_depth, num_channels; } AvifInfoInternalChanProp; // Property <-> features associations. typedef struct { uint8_t has_primary_item; // True if "pitm" was parsed. uint8_t has_alpha; // True if an alpha "auxC" was parsed. uint8_t primary_item_id; AvifInfoFeatures primary_item_features; // Deduced from the data below. uint8_t data_was_skipped; // True if some loops/indices were skipped. uint8_t num_tiles; AvifInfoInternalTile tiles[AVIFINFO_MAX_TILES]; uint8_t num_props; AvifInfoInternalProp props[AVIFINFO_MAX_PROPS]; uint8_t num_dim_props; AvifInfoInternalDimProp dim_props[AVIFINFO_MAX_FEATURES]; uint8_t num_chan_props; AvifInfoInternalChanProp chan_props[AVIFINFO_MAX_FEATURES]; } AvifInfoInternalFeatures; // Generates the features of a given 'target_item_id' from internal features. static AvifInfoInternalStatus AvifInfoInternalGetItemFeatures( AvifInfoInternalFeatures* f, uint32_t target_item_id, uint32_t tile_depth) { for (uint32_t prop_item = 0; prop_item < f->num_props; ++prop_item) { if (f->props[prop_item].item_id != target_item_id) continue; const uint32_t property_index = f->props[prop_item].property_index; // Retrieve the width and height of the primary item if not already done. if (target_item_id == f->primary_item_id && (f->primary_item_features.width == AVIFINFO_UNDEFINED || f->primary_item_features.height == AVIFINFO_UNDEFINED)) { for (uint32_t i = 0; i < f->num_dim_props; ++i) { if (f->dim_props[i].property_index != property_index) continue; f->primary_item_features.width = f->dim_props[i].width; f->primary_item_features.height = f->dim_props[i].height; if (f->primary_item_features.bit_depth != AVIFINFO_UNDEFINED && f->primary_item_features.num_channels != AVIFINFO_UNDEFINED) { return kFound; } break; } } // Retrieve the bit depth and number of channels of the target item if not // already done. if (f->primary_item_features.bit_depth == AVIFINFO_UNDEFINED || f->primary_item_features.num_channels == AVIFINFO_UNDEFINED) { for (uint32_t i = 0; i < f->num_chan_props; ++i) { if (f->chan_props[i].property_index != property_index) continue; f->primary_item_features.bit_depth = f->chan_props[i].bit_depth; f->primary_item_features.num_channels = f->chan_props[i].num_channels; if (f->primary_item_features.width != AVIFINFO_UNDEFINED && f->primary_item_features.height != AVIFINFO_UNDEFINED) { return kFound; } break; } } } // Check for the bit_depth and num_channels in a tile if not yet found. for (uint32_t tile = 0; tile < f->num_tiles && tile_depth < 3; ++tile) { if (f->tiles[tile].parent_item_id != target_item_id) continue; AVIFINFO_CHECK_NOT_FOUND(AvifInfoInternalGetItemFeatures( f, f->tiles[tile].tile_item_id, tile_depth + 1)); } AVIFINFO_RETURN(kNotFound); } // Generates the 'f->primary_item_features' from the AvifInfoInternalFeatures. // Returns kNotFound if there is not enough information. static AvifInfoInternalStatus AvifInfoInternalGetPrimaryItemFeatures( AvifInfoInternalFeatures* f) { // Nothing to do without the primary item ID. AVIFINFO_CHECK(f->has_primary_item, kNotFound); // Early exit. AVIFINFO_CHECK(f->num_dim_props > 0 && f->num_chan_props, kNotFound); AVIFINFO_CHECK_FOUND( AvifInfoInternalGetItemFeatures(f, f->primary_item_id, /*tile_depth=*/0)); // "auxC" is parsed before the "ipma" properties so it is known now, if any. if (f->has_alpha) ++f->primary_item_features.num_channels; return kFound; } //------------------------------------------------------------------------------ // Box header parsing and various size checks. typedef struct { uint32_t size; // In bytes. uint8_t type[4]; // Four characters. uint32_t version; // 0 or actual version if this is a full box. uint32_t flags; // 0 or actual value if this is a full box. uint32_t content_size; // 'size' minus the header size. } AvifInfoInternalBox; // Reads the header of a 'box' starting at the beginning of a 'stream'. // 'num_remaining_bytes' is the remaining size of the container of the 'box' // (either the file size itself or the content size of the parent of the 'box'). static AvifInfoInternalStatus AvifInfoInternalParseBox( AvifInfoInternalStream* stream, uint32_t num_remaining_bytes, uint32_t* num_parsed_boxes, AvifInfoInternalBox* box) { const uint8_t* data; // See ISO/IEC 14496-12:2012(E) 4.2 uint32_t box_header_size = 8; // box 32b size + 32b type (at least) AVIFINFO_CHECK(box_header_size <= num_remaining_bytes, kInvalid); AVIFINFO_CHECK_FOUND(AvifInfoInternalRead(stream, 8, &data)); box->size = AvifInfoInternalReadBigEndian(data, sizeof(uint32_t)); memcpy(box->type, data + 4, 4); // 'box->size==1' means 64-bit size should be read after the box type. // 'box->size==0' means this box extends to all remaining bytes. if (box->size == 1) { box_header_size += 8; AVIFINFO_CHECK(box_header_size <= num_remaining_bytes, kInvalid); AVIFINFO_CHECK_FOUND(AvifInfoInternalRead(stream, 8, &data)); // Stop the parsing if any box has a size greater than 4GB. AVIFINFO_CHECK(AvifInfoInternalReadBigEndian(data, sizeof(uint32_t)) == 0, kAborted); // Read the 32 least-significant bits. box->size = AvifInfoInternalReadBigEndian(data + 4, sizeof(uint32_t)); } else if (box->size == 0) { box->size = num_remaining_bytes; } AVIFINFO_CHECK(box->size >= box_header_size, kInvalid); AVIFINFO_CHECK(box->size <= num_remaining_bytes, kInvalid); const int has_fullbox_header = !memcmp(box->type, "meta", 4) || !memcmp(box->type, "pitm", 4) || !memcmp(box->type, "ipma", 4) || !memcmp(box->type, "ispe", 4) || !memcmp(box->type, "pixi", 4) || !memcmp(box->type, "iref", 4) || !memcmp(box->type, "auxC", 4); if (has_fullbox_header) box_header_size += 4; AVIFINFO_CHECK(box->size >= box_header_size, kInvalid); box->content_size = box->size - box_header_size; // Avoid timeouts. The maximum number of parsed boxes is arbitrary. ++*num_parsed_boxes; AVIFINFO_CHECK(*num_parsed_boxes < 4096, kAborted); box->version = 0; box->flags = 0; if (has_fullbox_header) { AVIFINFO_CHECK_FOUND(AvifInfoInternalRead(stream, 4, &data)); box->version = AvifInfoInternalReadBigEndian(data, 1); box->flags = AvifInfoInternalReadBigEndian(data + 1, 3); // See AV1 Image File Format (AVIF) 8.1 // at https://aomediacodec.github.io/av1-avif/#avif-boxes (available when // https://github.com/AOMediaCodec/av1-avif/pull/170 is merged). uint32_t is_parsable = 1; if (!memcmp(box->type, "meta", 4)) is_parsable = (box->version <= 0); if (!memcmp(box->type, "pitm", 4)) is_parsable = (box->version <= 1); if (!memcmp(box->type, "ipma", 4)) is_parsable = (box->version <= 1); if (!memcmp(box->type, "ispe", 4)) is_parsable = (box->version <= 0); if (!memcmp(box->type, "pixi", 4)) is_parsable = (box->version <= 0); if (!memcmp(box->type, "iref", 4)) is_parsable = (box->version <= 1); if (!memcmp(box->type, "auxC", 4)) is_parsable = (box->version <= 0); // Instead of considering this file as invalid, skip unparsable boxes. if (!is_parsable) memcpy(box->type, "\0skp", 4); // \0 so not a valid type } return kFound; } //------------------------------------------------------------------------------ // Parses a 'stream' of an "ipco" box into 'features'. // "ispe" is used for width and height, "pixi" and "av1C" are used for bit depth // and number of channels, and "auxC" is used for alpha. static AvifInfoInternalStatus ParseIpco(AvifInfoInternalStream* stream, uint32_t num_remaining_bytes, uint32_t* num_parsed_boxes, AvifInfoInternalFeatures* features) { uint32_t box_index = 1; // 1-based index. Used for iterating over properties. do { AvifInfoInternalBox box; AVIFINFO_CHECK_FOUND(AvifInfoInternalParseBox(stream, num_remaining_bytes, num_parsed_boxes, &box)); if (!memcmp(box.type, "ispe", 4)) { // See ISO/IEC 23008-12:2017(E) 6.5.3.2 const uint8_t* data; AVIFINFO_CHECK(box.content_size >= 8, kInvalid); AVIFINFO_CHECK_FOUND(AvifInfoInternalRead(stream, 8, &data)); const uint32_t width = AvifInfoInternalReadBigEndian(data + 0, 4); const uint32_t height = AvifInfoInternalReadBigEndian(data + 4, 4); AVIFINFO_CHECK(width != 0 && height != 0, kInvalid); if (features->num_dim_props < AVIFINFO_MAX_FEATURES && box_index <= AVIFINFO_MAX_VALUE) { features->dim_props[features->num_dim_props].property_index = box_index; features->dim_props[features->num_dim_props].width = width; features->dim_props[features->num_dim_props].height = height; ++features->num_dim_props; } else { features->data_was_skipped = 1; } AVIFINFO_CHECK_FOUND(AvifInfoInternalSkip(stream, box.content_size - 8)); } else if (!memcmp(box.type, "pixi", 4)) { // See ISO/IEC 23008-12:2017(E) 6.5.6.2 const uint8_t* data; AVIFINFO_CHECK(box.content_size >= 1, kInvalid); AVIFINFO_CHECK_FOUND(AvifInfoInternalRead(stream, 1, &data)); const uint32_t num_channels = AvifInfoInternalReadBigEndian(data + 0, 1); AVIFINFO_CHECK(num_channels >= 1, kInvalid); AVIFINFO_CHECK(box.content_size >= 1 + num_channels, kInvalid); AVIFINFO_CHECK_FOUND(AvifInfoInternalRead(stream, 1, &data)); const uint32_t bit_depth = AvifInfoInternalReadBigEndian(data, 1); AVIFINFO_CHECK(bit_depth >= 1, kInvalid); for (uint32_t i = 1; i < num_channels; ++i) { AVIFINFO_CHECK_FOUND(AvifInfoInternalRead(stream, 1, &data)); // Bit depth should be the same for all channels. AVIFINFO_CHECK(AvifInfoInternalReadBigEndian(data, 1) == bit_depth, kInvalid); AVIFINFO_CHECK(i <= 32, kAborted); // Be reasonable. } if (features->num_chan_props < AVIFINFO_MAX_FEATURES && box_index <= AVIFINFO_MAX_VALUE && bit_depth <= AVIFINFO_MAX_VALUE && num_channels <= AVIFINFO_MAX_VALUE) { features->chan_props[features->num_chan_props].property_index = box_index; features->chan_props[features->num_chan_props].bit_depth = bit_depth; features->chan_props[features->num_chan_props].num_channels = num_channels; ++features->num_chan_props; } else { features->data_was_skipped = 1; } AVIFINFO_CHECK_FOUND( AvifInfoInternalSkip(stream, box.content_size - (1 + num_channels))); } else if (!memcmp(box.type, "av1C", 4)) { // See AV1 Codec ISO Media File Format Binding 2.3.1 // at https://aomediacodec.github.io/av1-isobmff/#av1c // Only parse the necessary third byte. Assume that the others are valid. const uint8_t* data; AVIFINFO_CHECK(box.content_size >= 3, kInvalid); AVIFINFO_CHECK_FOUND(AvifInfoInternalRead(stream, 3, &data)); const int high_bitdepth = (data[2] & 0x40) != 0; const int twelve_bit = (data[2] & 0x20) != 0; const int monochrome = (data[2] & 0x10) != 0; if (twelve_bit) { AVIFINFO_CHECK(high_bitdepth, kInvalid); } if (features->num_chan_props < AVIFINFO_MAX_FEATURES && box_index <= AVIFINFO_MAX_VALUE) { features->chan_props[features->num_chan_props].property_index = box_index; features->chan_props[features->num_chan_props].bit_depth = high_bitdepth ? twelve_bit ? 12 : 10 : 8; features->chan_props[features->num_chan_props].num_channels = monochrome ? 1 : 3; ++features->num_chan_props; } else { features->data_was_skipped = 1; } AVIFINFO_CHECK_FOUND(AvifInfoInternalSkip(stream, box.content_size - 3)); } else if (!memcmp(box.type, "auxC", 4)) { // See AV1 Image File Format (AVIF) 4 // at https://aomediacodec.github.io/av1-avif/#auxiliary-images const char* kAlphaStr = "urn:mpeg:mpegB:cicp:systems:auxiliary:alpha"; const uint32_t kAlphaStrLength = 44; // Includes terminating character. if (box.content_size >= kAlphaStrLength) { const uint8_t* data; AVIFINFO_CHECK_FOUND( AvifInfoInternalRead(stream, kAlphaStrLength, &data)); const char* const aux_type = (const char*)data; if (strcmp(aux_type, kAlphaStr) == 0) { // Note: It is unlikely but it is possible that this alpha plane does // not belong to the primary item or a tile. Ignore this issue. features->has_alpha = 1; } AVIFINFO_CHECK_FOUND( AvifInfoInternalSkip(stream, box.content_size - kAlphaStrLength)); } else { AVIFINFO_CHECK_FOUND(AvifInfoInternalSkip(stream, box.content_size)); } } else { AVIFINFO_CHECK_FOUND(AvifInfoInternalSkip(stream, box.content_size)); } ++box_index; num_remaining_bytes -= box.size; } while (num_remaining_bytes > 0); AVIFINFO_RETURN(kNotFound); } // Parses a 'stream' of an "iprp" box into 'features'. The "ipco" box contain // the properties which are linked to items by the "ipma" box. static AvifInfoInternalStatus ParseIprp(AvifInfoInternalStream* stream, uint32_t num_remaining_bytes, uint32_t* num_parsed_boxes, AvifInfoInternalFeatures* features) { do { AvifInfoInternalBox box; AVIFINFO_CHECK_FOUND(AvifInfoInternalParseBox(stream, num_remaining_bytes, num_parsed_boxes, &box)); if (!memcmp(box.type, "ipco", 4)) { AVIFINFO_CHECK_NOT_FOUND( ParseIpco(stream, box.content_size, num_parsed_boxes, features)); } else if (!memcmp(box.type, "ipma", 4)) { // See ISO/IEC 23008-12:2017(E) 9.3.2 uint32_t num_read_bytes = 4; const uint8_t* data; AVIFINFO_CHECK(box.content_size >= num_read_bytes, kInvalid); AVIFINFO_CHECK_FOUND(AvifInfoInternalRead(stream, 4, &data)); const uint32_t entry_count = AvifInfoInternalReadBigEndian(data, 4); const uint32_t id_num_bytes = (box.version < 1) ? 2 : 4; const uint32_t index_num_bytes = (box.flags & 1) ? 2 : 1; const uint32_t essential_bit_mask = (box.flags & 1) ? 0x8000 : 0x80; for (uint32_t entry = 0; entry < entry_count; ++entry) { if (entry >= AVIFINFO_MAX_PROPS || features->num_props >= AVIFINFO_MAX_PROPS) { features->data_was_skipped = 1; break; } num_read_bytes += id_num_bytes + 1; AVIFINFO_CHECK(box.content_size >= num_read_bytes, kInvalid); AVIFINFO_CHECK_FOUND( AvifInfoInternalRead(stream, id_num_bytes + 1, &data)); const uint32_t item_id = AvifInfoInternalReadBigEndian(data, id_num_bytes); const uint32_t association_count = AvifInfoInternalReadBigEndian(data + id_num_bytes, 1); uint32_t property; for (property = 0; property < association_count; ++property) { if (property >= AVIFINFO_MAX_PROPS || features->num_props >= AVIFINFO_MAX_PROPS) { features->data_was_skipped = 1; break; } num_read_bytes += index_num_bytes; AVIFINFO_CHECK(box.content_size >= num_read_bytes, kInvalid); AVIFINFO_CHECK_FOUND( AvifInfoInternalRead(stream, index_num_bytes, &data)); const uint32_t value = AvifInfoInternalReadBigEndian(data, index_num_bytes); // const int essential = (value & essential_bit_mask); // Unused. const uint32_t property_index = (value & ~essential_bit_mask); if (property_index <= AVIFINFO_MAX_VALUE && item_id <= AVIFINFO_MAX_VALUE) { features->props[features->num_props].property_index = property_index; features->props[features->num_props].item_id = item_id; ++features->num_props; } else { features->data_was_skipped = 1; } } if (property < association_count) break; // Do not read garbage. } // If all features are available now, do not look further. AVIFINFO_CHECK_NOT_FOUND( AvifInfoInternalGetPrimaryItemFeatures(features)); AVIFINFO_CHECK_FOUND( AvifInfoInternalSkip(stream, box.content_size - num_read_bytes)); } else { AVIFINFO_CHECK_FOUND(AvifInfoInternalSkip(stream, box.content_size)); } num_remaining_bytes -= box.size; } while (num_remaining_bytes != 0); AVIFINFO_RETURN(kNotFound); } //------------------------------------------------------------------------------ // Parses a 'stream' of an "iref" box into 'features'. // The "dimg" boxes contain links between tiles and their parent items, which // can be used to infer bit depth and number of channels for the primary item // when the latter does not have these properties. static AvifInfoInternalStatus ParseIref(AvifInfoInternalStream* stream, uint32_t num_remaining_bytes, uint32_t* num_parsed_boxes, AvifInfoInternalFeatures* features) { do { AvifInfoInternalBox box; AVIFINFO_CHECK_FOUND(AvifInfoInternalParseBox(stream, num_remaining_bytes, num_parsed_boxes, &box)); if (!memcmp(box.type, "dimg", 4)) { // See ISO/IEC 14496-12:2015(E) 8.11.12.2 const uint32_t num_bytes_per_id = (box.version == 0) ? 2 : 4; uint32_t num_read_bytes = num_bytes_per_id + 2; const uint8_t* data; AVIFINFO_CHECK(box.content_size >= num_read_bytes, kInvalid); AVIFINFO_CHECK_FOUND( AvifInfoInternalRead(stream, num_bytes_per_id + 2, &data)); const uint32_t from_item_id = AvifInfoInternalReadBigEndian(data, num_bytes_per_id); const uint32_t reference_count = AvifInfoInternalReadBigEndian(data + num_bytes_per_id, 2); for (uint32_t i = 0; i < reference_count; ++i) { if (i >= AVIFINFO_MAX_TILES) { features->data_was_skipped = 1; break; } num_read_bytes += num_bytes_per_id; AVIFINFO_CHECK(box.content_size >= num_read_bytes, kInvalid); AVIFINFO_CHECK_FOUND( AvifInfoInternalRead(stream, num_bytes_per_id, &data)); const uint32_t to_item_id = AvifInfoInternalReadBigEndian(data, num_bytes_per_id); if (from_item_id <= AVIFINFO_MAX_VALUE && to_item_id <= AVIFINFO_MAX_VALUE && features->num_tiles < AVIFINFO_MAX_TILES) { features->tiles[features->num_tiles].tile_item_id = to_item_id; features->tiles[features->num_tiles].parent_item_id = from_item_id; ++features->num_tiles; } else { features->data_was_skipped = 1; } } // If all features are available now, do not look further. AVIFINFO_CHECK_NOT_FOUND( AvifInfoInternalGetPrimaryItemFeatures(features)); } else { AVIFINFO_CHECK_FOUND(AvifInfoInternalSkip(stream, box.content_size)); } num_remaining_bytes -= box.size; } while (num_remaining_bytes > 0); AVIFINFO_RETURN(kNotFound); } //------------------------------------------------------------------------------ // Parses a 'stream' of a "meta" box. It looks for the primary item ID in the // "pitm" box and recurses into other boxes to find its 'features'. static AvifInfoInternalStatus ParseMeta(AvifInfoInternalStream* stream, uint32_t num_remaining_bytes, uint32_t* num_parsed_boxes, AvifInfoInternalFeatures* features) { do { AvifInfoInternalBox box; AVIFINFO_CHECK_FOUND(AvifInfoInternalParseBox(stream, num_remaining_bytes, num_parsed_boxes, &box)); if (!memcmp(box.type, "pitm", 4)) { // See ISO/IEC 14496-12:2015(E) 8.11.4.2 const uint32_t num_bytes_per_id = (box.version == 0) ? 2 : 4; const uint8_t* data; AVIFINFO_CHECK(num_bytes_per_id <= num_remaining_bytes, kInvalid); AVIFINFO_CHECK_FOUND( AvifInfoInternalRead(stream, num_bytes_per_id, &data)); const uint32_t primary_item_id = AvifInfoInternalReadBigEndian(data, num_bytes_per_id); AVIFINFO_CHECK(primary_item_id <= AVIFINFO_MAX_VALUE, kAborted); features->has_primary_item = 1; features->primary_item_id = primary_item_id; AVIFINFO_CHECK_FOUND( AvifInfoInternalSkip(stream, box.content_size - num_bytes_per_id)); } else if (!memcmp(box.type, "iprp", 4)) { AVIFINFO_CHECK_NOT_FOUND( ParseIprp(stream, box.content_size, num_parsed_boxes, features)); } else if (!memcmp(box.type, "iref", 4)) { AVIFINFO_CHECK_NOT_FOUND( ParseIref(stream, box.content_size, num_parsed_boxes, features)); } else { AVIFINFO_CHECK_FOUND(AvifInfoInternalSkip(stream, box.content_size)); } num_remaining_bytes -= box.size; } while (num_remaining_bytes != 0); // According to ISO/IEC 14496-12:2012(E) 8.11.1.1 there is at most one "meta". AVIFINFO_RETURN(features->data_was_skipped ? kAborted : kInvalid); } //------------------------------------------------------------------------------ // Parses a file 'stream'. The file type is checked through the "ftyp" box. static AvifInfoInternalStatus ParseFtyp(AvifInfoInternalStream* stream) { AvifInfoInternalBox box; uint32_t num_parsed_boxes = 0; AVIFINFO_CHECK_FOUND(AvifInfoInternalParseBox(stream, AVIFINFO_MAX_SIZE, &num_parsed_boxes, &box)); AVIFINFO_CHECK(!memcmp(box.type, "ftyp", 4), kInvalid); // Iterate over brands. See ISO/IEC 14496-12:2012(E) 4.3.1 AVIFINFO_CHECK(box.content_size >= 8, kInvalid); // major_brand,minor_version for (uint32_t i = 0; i + 4 <= box.content_size; i += 4) { const uint8_t* data; AVIFINFO_CHECK_FOUND(AvifInfoInternalRead(stream, 4, &data)); if (i == 4) continue; // Skip minor_version. if (!memcmp(data, "avif", 4) || !memcmp(data, "avis", 4)) { AVIFINFO_CHECK_FOUND( AvifInfoInternalSkip(stream, box.content_size - (i + 4))); return kFound; } AVIFINFO_CHECK(i <= 32 * 4, kAborted); // Be reasonable. } AVIFINFO_RETURN(kInvalid); // No AVIF brand no good. } // Parses a file 'stream'. 'features' are extracted from the "meta" box. static AvifInfoInternalStatus ParseFile(AvifInfoInternalStream* stream, uint32_t* num_parsed_boxes, AvifInfoInternalFeatures* features) { while (1) { AvifInfoInternalBox box; AVIFINFO_CHECK_FOUND(AvifInfoInternalParseBox(stream, AVIFINFO_MAX_SIZE, num_parsed_boxes, &box)); if (!memcmp(box.type, "meta", 4)) { return ParseMeta(stream, box.content_size, num_parsed_boxes, features); } else { AVIFINFO_CHECK_FOUND(AvifInfoInternalSkip(stream, box.content_size)); } } AVIFINFO_RETURN(kInvalid); // No "meta" no good. } //------------------------------------------------------------------------------ // Helpers for converting the fixed-size input public API to the streamed one. typedef struct { const uint8_t* data; size_t data_size; } AvifInfoInternalForward; static const uint8_t* AvifInfoInternalForwardRead(void* stream, size_t num_bytes) { AvifInfoInternalForward* forward = (AvifInfoInternalForward*)stream; if (num_bytes > forward->data_size) return NULL; const uint8_t* data = forward->data; forward->data += num_bytes; forward->data_size -= num_bytes; return data; } static void AvifInfoInternalForwardSkip(void* stream, size_t num_bytes) { AvifInfoInternalForward* forward = (AvifInfoInternalForward*)stream; if (num_bytes > forward->data_size) num_bytes = forward->data_size; forward->data += num_bytes; forward->data_size -= num_bytes; } //------------------------------------------------------------------------------ // Fixed-size input public API AvifInfoStatus AvifInfoIdentify(const uint8_t* data, size_t data_size) { AvifInfoInternalForward stream; stream.data = data; stream.data_size = data_size; // Forward null 'data' as a null 'stream' to handle it the same way. return AvifInfoIdentifyStream( (void*)&stream, (data == NULL) ? NULL : AvifInfoInternalForwardRead, AvifInfoInternalForwardSkip); } AvifInfoStatus AvifInfoGetFeatures(const uint8_t* data, size_t data_size, AvifInfoFeatures* features) { AvifInfoInternalForward stream; stream.data = data; stream.data_size = data_size; return AvifInfoGetFeaturesStream( (void*)&stream, (data == NULL) ? NULL : AvifInfoInternalForwardRead, AvifInfoInternalForwardSkip, features); } //------------------------------------------------------------------------------ // Streamed input API AvifInfoStatus AvifInfoIdentifyStream(void* stream, read_stream_t read, skip_stream_t skip) { if (read == NULL) return kAvifInfoNotEnoughData; AvifInfoInternalStream internal_stream; internal_stream.stream = stream; internal_stream.read = read; internal_stream.skip = skip; // Fallbacks to 'read' if null. return AvifInfoInternalConvertStatus(ParseFtyp(&internal_stream)); } AvifInfoStatus AvifInfoGetFeaturesStream(void* stream, read_stream_t read, skip_stream_t skip, AvifInfoFeatures* features) { if (features != NULL) memset(features, 0, sizeof(*features)); if (read == NULL) return kAvifInfoNotEnoughData; AvifInfoInternalStream internal_stream; internal_stream.stream = stream; internal_stream.read = read; internal_stream.skip = skip; // Fallbacks to 'read' if null. uint32_t num_parsed_boxes = 0; AvifInfoInternalFeatures internal_features; memset(&internal_features, AVIFINFO_UNDEFINED, sizeof(internal_features)); // Go through all relevant boxes sequentially. const AvifInfoInternalStatus status = ParseFile(&internal_stream, &num_parsed_boxes, &internal_features); if (status == kFound && features != NULL) { memcpy(features, &internal_features.primary_item_features, sizeof(*features)); } return AvifInfoInternalConvertStatus(status); }