#include "stdafx.h" #include "mp3_utils.h" #include "bitreader_helper.h" using namespace bitreader_helper; static unsigned extract_header_bits(const t_uint8 p_header[4],unsigned p_base,unsigned p_bits) { PFC_ASSERT(p_base+p_bits<=32); return (unsigned) extract_bits(p_header,p_base,p_bits); } namespace { class header_parser { public: header_parser(const t_uint8 p_header[4]) : m_bitptr(0) { memcpy(m_header,p_header,4); } unsigned read(unsigned p_bits) { unsigned ret = extract_header_bits(m_header,m_bitptr,p_bits); m_bitptr += p_bits; return ret; } private: t_uint8 m_header[4]; unsigned m_bitptr; }; } typedef t_uint16 uint16; static const uint16 bitrate_table_l1v1[16] = { 0, 32, 64, 96,128,160,192,224,256,288,320,352,384,416,448, 0}; static const uint16 bitrate_table_l2v1[16] = { 0, 32, 48, 56, 64, 80, 96,112,128,160,192,224,256,320,384, 0}; static const uint16 bitrate_table_l3v1[16] = { 0, 32, 40, 48, 56, 64, 80, 96,112,128,160,192,224,256,320, 0}; static const uint16 bitrate_table_l1v2[16] = { 0, 32, 48, 56, 64, 80, 96,112,128,144,160,176,192,224,256, 0}; static const uint16 bitrate_table_l23v2[16] = { 0, 8, 16, 24, 32, 40, 48, 56, 64, 80, 96,112,128,144,160, 0}; static const uint16 sample_rate_table[] = {11025,12000,8000}; unsigned mp3_utils::QueryMPEGFrameSize(const t_uint8 p_header[4]) { TMPEGFrameInfo info; if (!ParseMPEGFrameHeader(info,p_header)) return 0; return info.m_bytes; } bool mp3_utils::ParseMPEGFrameHeader(TMPEGFrameInfo & p_info,const t_uint8 p_header[4]) { enum {MPEG_LAYER_1 = 3, MPEG_LAYER_2 = 2, MPEG_LAYER_3 = 1}; enum {_MPEG_1 = 3, _MPEG_2 = 2, _MPEG_25 = 0}; header_parser parser(p_header); if (parser.read(11) != 0x7FF) return false; unsigned mpeg_version = parser.read(2); unsigned layer = parser.read(2); unsigned protection = parser.read(1); unsigned bitrate_index = parser.read(4); unsigned sample_rate_index = parser.read(2); if (sample_rate_index == 3) return false;//reserved unsigned paddingbit = parser.read(1); int paddingdelta = 0; parser.read(1);//private unsigned channel_mode = parser.read(2); unsigned channel_mode_ext = parser.read(2);//channel_mode_extension parser.read(1);//copyright parser.read(1);//original parser.read(2);//emphasis unsigned bitrate = 0,sample_rate = 0; switch(layer) { default: return false; case MPEG_LAYER_3: paddingdelta = paddingbit ? 1 : 0; p_info.m_layer = 3; switch(mpeg_version) { case _MPEG_1: p_info.m_duration = 1152; bitrate = bitrate_table_l3v1[bitrate_index]; break; case _MPEG_2: case _MPEG_25: p_info.m_duration = 576; bitrate = bitrate_table_l23v2[bitrate_index]; break; default: return false; } break; case MPEG_LAYER_2: paddingdelta = paddingbit ? 1 : 0; p_info.m_duration = 1152; p_info.m_layer = 2; switch(mpeg_version) { case _MPEG_1: bitrate = bitrate_table_l2v1[bitrate_index]; break; case _MPEG_2: case _MPEG_25: bitrate = bitrate_table_l23v2[bitrate_index]; break; default: return false; } break; case MPEG_LAYER_1: paddingdelta = paddingbit ? 4 : 0; p_info.m_duration = 384; p_info.m_layer = 1; switch(mpeg_version) { case _MPEG_1: bitrate = bitrate_table_l1v1[bitrate_index]; break; case _MPEG_2: case _MPEG_25: bitrate = bitrate_table_l1v2[bitrate_index]; break; default: return false; } break; } if (bitrate == 0) return false; sample_rate = sample_rate_table[sample_rate_index]; if (sample_rate == 0) return false; switch(mpeg_version) { case _MPEG_1: sample_rate *= 4; p_info.m_mpegversion = MPEG_1; break; case _MPEG_2: sample_rate *= 2; p_info.m_mpegversion = MPEG_2; break; case _MPEG_25: p_info.m_mpegversion = MPEG_25; break; } switch(channel_mode) { case 0: case 1: case 2: p_info.m_channels = 2; break; case 3: p_info.m_channels = 1; break; } p_info.m_channel_mode = channel_mode; p_info.m_channel_mode_ext = channel_mode_ext; p_info.m_sample_rate = sample_rate; p_info.m_sample_rate_idx = sample_rate_index; p_info.m_bitrate = bitrate; p_info.m_bitrate_idx = bitrate_index; p_info.m_bytes = ( bitrate /*kbps*/ * (1000/8) /* kbps-to-bytes*/ * p_info.m_duration /*samples-per-frame*/ ) / sample_rate + paddingdelta; if (p_info.m_layer == 1) p_info.m_bytes &= ~3; p_info.m_crc = protection == 0; return true; } unsigned mp3header::get_samples_per_frame() { mp3_utils::TMPEGFrameInfo fr; if (!decode(fr)) return 0; return fr.m_duration; } bool mp3_utils::IsSameStream(TMPEGFrameInfo const & p_frame1,TMPEGFrameInfo const & p_frame2) { return // FFmpeg writes VBR headers with null channel mode... /* p_frame1.m_channel_mode == p_frame2.m_channel_mode && */ p_frame1.m_sample_rate == p_frame2.m_sample_rate && p_frame1.m_layer == p_frame2.m_layer && p_frame1.m_mpegversion == p_frame2.m_mpegversion; } bool mp3_utils::ValidateFrameCRC(const t_uint8 * frameData, t_size frameSize, TMPEGFrameInfo const & info) { if (frameSize < info.m_bytes) return false; //FAIL, incomplete data if (!info.m_crc) return true; //nothing to check, frame appears valid return ExtractFrameCRC(frameData, frameSize, info) == CalculateFrameCRC(frameData, frameSize, info); } static t_uint32 CRC_update(unsigned value, t_uint32 crc) { enum { CRC16_POLYNOMIAL = 0x8005 }; unsigned i; value <<= 8; for (i = 0; i < 8; i++) { value <<= 1; crc <<= 1; if (((crc ^ value) & 0x10000)) crc ^= CRC16_POLYNOMIAL; } return crc; } void mp3_utils::RecalculateFrameCRC(t_uint8 * frameData, t_size frameSize, TMPEGFrameInfo const & info) { PFC_ASSERT( frameSize >= info.m_bytes && info.m_crc ); const t_uint16 crc = CalculateFrameCRC(frameData, frameSize, info); frameData[4] = (t_uint8)(crc >> 8); frameData[5] = (t_uint8)(crc & 0xFF); } static t_uint16 grabFrameCRC(const t_uint8 * frameData, t_size sideInfoLen) { t_uint32 crc = 0xffff; crc = CRC_update(frameData[2], crc); crc = CRC_update(frameData[3], crc); for (t_size i = 6; i < sideInfoLen; i++) { crc = CRC_update(frameData[i], crc); } return (t_uint32) (crc & 0xFFFF); } t_uint16 mp3_utils::ExtractFrameCRC(const t_uint8 * frameData, t_size frameSize, TMPEGFrameInfo const & info) { PFC_ASSERT( frameSize >= info.m_bytes && info.m_crc ); return ((t_uint16)frameData[4] << 8) | (t_uint16)frameData[5]; } t_uint16 mp3_utils::CalculateFrameCRC(const t_uint8 * frameData, t_size frameSize, TMPEGFrameInfo const & info) { PFC_ASSERT( frameSize >= info.m_bytes && info.m_crc ); t_size sideInfoLen = 0; if (info.m_mpegversion == MPEG_1) sideInfoLen = (info.m_channels == 1) ? 4 + 17 : 4 + 32; else sideInfoLen = (info.m_channels == 1) ? 4 + 9 : 4 + 17; //CRC sideInfoLen += 2; PFC_ASSERT( sideInfoLen <= frameSize ); return grabFrameCRC(frameData, sideInfoLen); } bool mp3_utils::ValidateFrameCRC(const t_uint8 * frameData, t_size frameSize) { if (frameSize < 4) return false; //FAIL, not a valid frame TMPEGFrameInfo info; if (!ParseMPEGFrameHeader(info, frameData)) return false; //FAIL, not a valid frame return ValidateFrameCRC(frameData, frameSize, info); } bool mp3_utils::ParseMPEGFrameHeader(TMPEGFrameInfo & p_info, const void * bytes, size_t bytesAvail) { if (bytesAvail < 4) return false; //FAIL, not a valid frame return ParseMPEGFrameHeader(p_info, reinterpret_cast(bytes)); }