// Copyright (c) 2012 The WebM project authors. All Rights Reserved. // // Use of this source code is governed by a BSD-style license // that can be found in the LICENSE file in the root of the source // tree. An additional intellectual property rights grant can be found // in the file PATENTS. All contributing project authors may // be found in the AUTHORS file in the root of the source tree. #include "mkvmuxerutil.hpp" #ifdef __ANDROID__ #include #endif #include #include #ifdef _WIN32 #define _CRT_RAND_S #endif #include #include #include #include #include "mkvwriter.hpp" #include "webmids.hpp" namespace mkvmuxer { int32 GetCodedUIntSize(uint64 value) { if (value < 0x000000000000007FULL) return 1; else if (value < 0x0000000000003FFFULL) return 2; else if (value < 0x00000000001FFFFFULL) return 3; else if (value < 0x000000000FFFFFFFULL) return 4; else if (value < 0x00000007FFFFFFFFULL) return 5; else if (value < 0x000003FFFFFFFFFFULL) return 6; else if (value < 0x0001FFFFFFFFFFFFULL) return 7; return 8; } int32 GetUIntSize(uint64 value) { if (value < 0x0000000000000100ULL) return 1; else if (value < 0x0000000000010000ULL) return 2; else if (value < 0x0000000001000000ULL) return 3; else if (value < 0x0000000100000000ULL) return 4; else if (value < 0x0000010000000000ULL) return 5; else if (value < 0x0001000000000000ULL) return 6; else if (value < 0x0100000000000000ULL) return 7; return 8; } uint64 EbmlMasterElementSize(uint64 type, uint64 value) { // Size of EBML ID int32 ebml_size = GetUIntSize(type); // Datasize ebml_size += GetCodedUIntSize(value); return ebml_size; } uint64 EbmlElementSize(uint64 type, uint64 value) { // Size of EBML ID int32 ebml_size = GetUIntSize(type); // Datasize ebml_size += GetUIntSize(value); // Size of Datasize ebml_size++; return ebml_size; } uint64 EbmlElementSize(uint64 type, float /* value */ ) { // Size of EBML ID uint64 ebml_size = GetUIntSize(type); // Datasize ebml_size += sizeof(float); // Size of Datasize ebml_size++; return ebml_size; } uint64 EbmlElementSize(uint64 type, const char* value) { if (!value) return 0; // Size of EBML ID uint64 ebml_size = GetUIntSize(type); // Datasize ebml_size += strlen(value); // Size of Datasize ebml_size++; return ebml_size; } uint64 EbmlElementSize(uint64 type, const uint8* value, uint64 size) { if (!value) return 0; // Size of EBML ID uint64 ebml_size = GetUIntSize(type); // Datasize ebml_size += size; // Size of Datasize ebml_size += GetCodedUIntSize(size); return ebml_size; } int32 SerializeInt(IMkvWriter* writer, int64 value, int32 size) { if (!writer || size < 1 || size > 8) return -1; for (int32 i = 1; i <= size; ++i) { const int32 byte_count = size - i; const int32 bit_count = byte_count * 8; const int64 bb = value >> bit_count; const uint8 b = static_cast(bb); const int32 status = writer->Write(&b, 1); if (status < 0) return status; } return 0; } int32 SerializeFloat(IMkvWriter* writer, float f) { if (!writer) return -1; const uint32& val = reinterpret_cast(f); for (int32 i = 1; i <= 4; ++i) { const int32 byte_count = 4 - i; const int32 bit_count = byte_count * 8; const uint32 bb = val >> bit_count; const uint8 b = static_cast(bb); const int32 status = writer->Write(&b, 1); if (status < 0) return status; } return 0; } int32 WriteUInt(IMkvWriter* writer, uint64 value) { if (!writer) return -1; int32 size = GetCodedUIntSize(value); return WriteUIntSize(writer, value, size); } int32 WriteUIntSize(IMkvWriter* writer, uint64 value, int32 size) { if (!writer || size < 0 || size > 8) return -1; if (size > 0) { const uint64 bit = 1LL << (size * 7); if (value > (bit - 2)) return -1; value |= bit; } else { size = 1; int64 bit; for (;;) { bit = 1LL << (size * 7); const uint64 max = bit - 2; if (value <= max) break; ++size; } if (size > 8) return false; value |= bit; } return SerializeInt(writer, value, size); } int32 WriteID(IMkvWriter* writer, uint64 type) { if (!writer) return -1; writer->ElementStartNotify(type, writer->Position()); const int32 size = GetUIntSize(type); return SerializeInt(writer, type, size); } bool WriteEbmlMasterElement(IMkvWriter* writer, uint64 type, uint64 size) { if (!writer) return false; if (WriteID(writer, type)) return false; if (WriteUInt(writer, size)) return false; return true; } bool WriteEbmlElement(IMkvWriter* writer, uint64 type, uint64 value) { if (!writer) return false; if (WriteID(writer, type)) return false; const uint64 size = GetUIntSize(value); if (WriteUInt(writer, size)) return false; if (SerializeInt(writer, value, static_cast(size))) return false; return true; } bool WriteEbmlElement(IMkvWriter* writer, uint64 type, float value) { if (!writer) return false; if (WriteID(writer, type)) return false; if (WriteUInt(writer, 4)) return false; if (SerializeFloat(writer, value)) return false; return true; } bool WriteEbmlElement(IMkvWriter* writer, uint64 type, const char* value) { if (!writer || !value) return false; if (WriteID(writer, type)) return false; const int32 length = strlen(value); if (WriteUInt(writer, length)) return false; if (writer->Write(value, length)) return false; return true; } bool WriteEbmlElement(IMkvWriter* writer, uint64 type, const uint8* value, uint64 size) { if (!writer || !value || size < 1) return false; if (WriteID(writer, type)) return false; if (WriteUInt(writer, size)) return false; if (writer->Write(value, static_cast(size))) return false; return true; } uint64 WriteSimpleBlock(IMkvWriter* writer, const uint8* data, uint64 length, uint64 track_number, int64 timecode, uint64 is_key) { if (!writer) return false; if (!data || length < 1) return false; // Here we only permit track number values to be no greater than // 126, which the largest value we can store having a Matroska // integer representation of only 1 byte. if (track_number < 1 || track_number > 126) return false; // Technically the timestamp for a block can be less than the // timestamp for the cluster itself (remember that block timestamp // is a signed, 16-bit integer). However, as a simplification we // only permit non-negative cluster-relative timestamps for blocks. if (timecode < 0 || timecode > kMaxBlockTimecode) return false; if (WriteID(writer, kMkvSimpleBlock)) return 0; const int32 size = static_cast(length) + 4; if (WriteUInt(writer, size)) return 0; if (WriteUInt(writer, static_cast(track_number))) return 0; if (SerializeInt(writer, timecode, 2)) return 0; uint64 flags = 0; if (is_key) flags |= 0x80; if (SerializeInt(writer, flags, 1)) return 0; if (writer->Write(data, static_cast(length))) return 0; const uint64 element_size = GetUIntSize(kMkvSimpleBlock) + GetCodedUIntSize(size) + 4 + length; return element_size; } // We must write the metadata (key)frame as a BlockGroup element, // because we need to specify a duration for the frame. The // BlockGroup element comprises the frame itself and its duration, // and is laid out as follows: // // BlockGroup tag // BlockGroup size // Block tag // Block size // (the frame is the block payload) // Duration tag // Duration size // (duration payload) // uint64 WriteMetadataBlock(IMkvWriter* writer, const uint8* data, uint64 length, uint64 track_number, int64 timecode, uint64 duration) { // We don't backtrack when writing to the stream, so we must // pre-compute the BlockGroup size, by summing the sizes of each // sub-element (the block and the duration). // We use a single byte for the track number of the block, which // means the block header is exactly 4 bytes. // TODO(matthewjheaney): use EbmlMasterElementSize and WriteEbmlMasterElement const uint64 block_payload_size = 4 + length; const int32 block_size = GetCodedUIntSize(block_payload_size); const uint64 block_elem_size = 1 + block_size + block_payload_size; const int32 duration_payload_size = GetUIntSize(duration); const int32 duration_size = GetCodedUIntSize(duration_payload_size); const uint64 duration_elem_size = 1 + duration_size + duration_payload_size; const uint64 blockg_payload_size = block_elem_size + duration_elem_size; const int32 blockg_size = GetCodedUIntSize(blockg_payload_size); const uint64 blockg_elem_size = 1 + blockg_size + blockg_payload_size; if (WriteID(writer, kMkvBlockGroup)) // 1-byte ID size return 0; if (WriteUInt(writer, blockg_payload_size)) return 0; // Write Block element if (WriteID(writer, kMkvBlock)) // 1-byte ID size return 0; if (WriteUInt(writer, block_payload_size)) return 0; // Byte 1 of 4 if (WriteUInt(writer, track_number)) return 0; // Bytes 2 & 3 of 4 if (SerializeInt(writer, timecode, 2)) return 0; // Byte 4 of 4 const uint64 flags = 0; if (SerializeInt(writer, flags, 1)) return 0; // Now write the actual frame (of metadata) if (writer->Write(data, static_cast(length))) return 0; // Write Duration element if (WriteID(writer, kMkvBlockDuration)) // 1-byte ID size return 0; if (WriteUInt(writer, duration_payload_size)) return 0; if (SerializeInt(writer, duration, duration_payload_size)) return 0; // Note that we don't write a reference time as part of the block // group; no reference time(s) indicates that this block is a // keyframe. (Unlike the case for a SimpleBlock element, the header // bits of the Block sub-element of a BlockGroup element do not // indicate keyframe status. The keyframe status is inferred from // the absence of reference time sub-elements.) return blockg_elem_size; } uint64 WriteVoidElement(IMkvWriter* writer, uint64 size) { if (!writer) return false; // Subtract one for the void ID and the coded size. uint64 void_entry_size = size - 1 - GetCodedUIntSize(size-1); uint64 void_size = EbmlMasterElementSize(kMkvVoid, void_entry_size) + void_entry_size; if (void_size != size) return 0; const int64 payload_position = writer->Position(); if (payload_position < 0) return 0; if (WriteID(writer, kMkvVoid)) return 0; if (WriteUInt(writer, void_entry_size)) return 0; const uint8 value = 0; for (int32 i = 0; i < static_cast(void_entry_size); ++i) { if (writer->Write(&value, 1)) return 0; } const int64 stop_position = writer->Position(); if (stop_position < 0 || stop_position - payload_position != static_cast(void_size)) return 0; return void_size; } void GetVersion(int32* major, int32* minor, int32* build, int32* revision) { *major = 0; *minor = 2; *build = 1; *revision = 0; } } // namespace mkvmuxer mkvmuxer::uint64 mkvmuxer::MakeUID(unsigned int* seed) { uint64 uid = 0; for (int i = 0; i < 7; ++i) { // avoid problems with 8-byte values uid <<= 8; // TODO(fgalligan): Move random number generation to platform specific code. #ifdef _WIN32 (void)seed; unsigned int random_value; const errno_t e = rand_s(&random_value); (void)e; const int32 nn = random_value; #elif __ANDROID__ int32 temp_num = 1; int fd = open("/dev/urandom", O_RDONLY); if (fd != -1) { read(fd, &temp_num, sizeof(int32)); close(fd); } const int32 nn = temp_num; #else const int32 nn = rand_r(seed); #endif const int32 n = 0xFF & (nn >> 4); // throw away low-order bits uid |= n; } return uid; }