利用GPAC生成MP4文件

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        GPAC主要针对学生和内容创作者,代表了一个跨平台的多媒体框架,开发人员可以使用它在 LGPL 许可下制作开源媒体。GPAC多媒体框架兼容范围广泛的流行文件类型,从常见格式(如 AVI、MPEG 和 MOV)到复杂格式(如 MPEG-4 系统或 VRML/X3D)和 360 电影。

        一、MP4Writer类

MP4Writer.h文件

#ifndef _MP4WRITER_H_
#define _MP4WRITER_H_
 
#define GPAC_MP4BOX_MINI
#include "gpac/setup.h"
 
 
 
#define MP4_AUDIO_TYPE_INVALID      0
#define MP4_AUDIO_TYPE_AAC_MAIN     1
#define MP4_AUDIO_TYPE_AAC_LC       2
#define MP4_AUDIO_TYPE_AAC_SSR      3
#define MP4_AUDIO_TYPE_AAC_LD      23
 
 
 
 
#ifdef __cplusplus
extern "C" 
#endif
 
void* MP4_Init();
s32  MP4_CreatFile(void *pCMP4Writer, char *strFileName);
s32  MP4_InitVideo265(void *pCMP4Writer, u32 TimeScale);
s32  MP4_Write265Sample(void *pCMP4Writer, u8 *pData, u32 Size, u64 TimeStamp);
s32  MP4_InitVideo264(void *pCMP4Writer, u32 TimeScale);
s32  MP4_Write264Sample(void *pCMP4Writer, u8 *pData, u32 Size, u64 TimeStamp);
s32  MP4_InitAudioAAC(void *pCMP4Writer, u8 AudioType, u32 SampleRate, u8 Channel, u32 TimeScale);
s32  MP4_WriteAACSample(void *pCMP4Writer, u8 *pData, u32 Size, u64 TimeStamp);
void MP4_CloseFile(void *pCMP4Writer);
void MP4_Exit(void *pCMP4Writer);
 
 
#ifdef __cplusplus

#endif
 
 
 
#endif

MP4Writer.cpp文件

#include "MP4Writer.h"
 
#include <Winsock2.h>
 
 
extern "C" 
#include "gpac/isomedia.h"
#include "gpac/constants.h"
#include "gpac/internal/media_dev.h"

 
 
#define INIT_STATUS    0
#define CONFIG_STATUS  1
#define CONFIG_FINISH  2
 
 
static s8 GetSampleRateID(u32 SamplRate)

    switch (SamplRate)
    
         case 96000: return  0;
         case 88200: return  1;
         case 64000: return  2;
         case 48000: return  3;
         case 44100: return  4;
         case 32000: return  5;
         case 24000: return  6;
         case 22050: return  7;
         case 16000: return  8;
         case 12000: return  9;
         case 11025: return 10;
         case 8000 : return 11;
         case 7350 : return 12;
         default:    return -1;
    

 
 
//gf_m4a_get_profile
static u8 GetAACProfile(u8 AudioType, u32 SampleRate, u8 Channel)

    switch (AudioType)
    
        case 2: /* AAC LC */
        
            if (Channel <= 2)  return (SampleRate <= 24000) ? 0x28 : 0x29; /* LC@L1 or LC@L2 */
            if (Channel <= 5)  return (SampleRate <= 48000) ? 0x2A : 0x2B; /* LC@L4 or LC@L5 */
                               return (SampleRate <= 48000) ? 0x50 : 0x51; /* LC@L4 or LC@L5 */
        
        case 5: /* HE-AAC - SBR */
        
            if (Channel <= 2)  return (SampleRate <= 24000) ? 0x2C : 0x2D; /* HE@L2 or HE@L3 */
            if (Channel <= 5)  return (SampleRate <= 48000) ? 0x2E : 0x2F; /* HE@L4 or HE@L5 */
                               return (SampleRate <= 48000) ? 0x52 : 0x53; /* HE@L6 or HE@L7 */
        
        case 29: /*HE-AACv2 - SBR+PS*/
        
            if (Channel <= 2)  return (SampleRate <= 24000) ? 0x30 : 0x31; /* HE-AACv2@L2 or HE-AACv2@L3 */
            if (Channel <= 5)  return (SampleRate <= 48000) ? 0x32 : 0x33; /* HE-AACv2@L4 or HE-AACv2@L5 */
                               return (SampleRate <= 48000) ? 0x54 : 0x55; /* HE-AACv2@L6 or HE-AACv2@L7 */
        
        default: /* default to HQ */
        
            if (Channel <= 2)  return (SampleRate <  24000) ? 0x0E : 0x0F; /* HQ@L1 or HQ@L2 */
                               return 0x10; /* HQ@L3 */
        
    

 
static void GetAudiospecificConfig(u8 AudioType, u8 SampleRateID, u8 Channel, u8 *pHigh, u8 *pLow)

    u16 Config;
 
    Config = (AudioType & 0x1f);
    Config <<= 4;
    Config |= SampleRateID & 0x0f;
    Config <<= 4;
    Config |= Channel & 0x0f;
    Config <<= 3;
 
    *pLow  = Config & 0xff;
    Config >>= 8;
    *pHigh = Config & 0xff;

 
/* 返回的数据包括起始的4个字节0x00000001 */
static u8* FindNalu(u8 *pStart, u32 Size, u8 *pNaluType, u32 *pNaluSize)

    u8 *pEnd;
    u8 *pCur;
    u8 *pOut;
    u8  NaluType;
 
    if (4 >= Size)
        return NULL;
 
    /* 找第一个0x00000001 */
    pCur = pStart;
    pEnd = pStart + Size - 4;
    while (pCur < pEnd)
    
        if ( (0 == pCur[0]) && (0 == pCur[1]) && (0 == pCur[2]) && (1 == pCur[3]) )
            break;
        pCur++;
    
    if (pCur >= pEnd)
        return NULL;
 
    NaluType = (pCur[4] >> 1) & 0x3f;
    *pNaluType = NaluType;
    if (1 == NaluType || 19 == NaluType) /* P帧、I帧, 假设每一包里P帧I帧都是最后一个 */
    
        *pNaluSize  = Size - (pCur - pStart);
        return pCur;
    
 
    pOut = pCur;
 
    /* 找第二个0x00000001 */
    pCur += 5;
    while (pCur <= pEnd)
    
        if ( (0 == pCur[0]) && (0 == pCur[1]) && (0 == pCur[2]) && (1 == pCur[3]) )
            break;
        pCur++;
    
    if (pCur <= pEnd)
    
        *pNaluSize  = pCur - pOut;
        return pOut;
    
 
    *pNaluSize  = Size - (pOut - pStart);
    return pOut;

 
/* 返回的数据包括起始的4个字节0x00000001 */
static u8* FindNalu264(u8 *pStart, u32 Size, u8 *pNaluType, u32 *pNaluSize)

	u8 *pEnd;
	u8 *pCur;
	u8 *pOut;
	u8  NaluType;
 
	if (4 >= Size)
		return NULL;
 
	/* 找第一个0x00000001 */
	pCur = pStart;
	pEnd = pStart + Size - 4;
	while (pCur < pEnd)
	
		if ((0 == pCur[0]) && (0 == pCur[1]) && (0 == pCur[2]) && (1 == pCur[3]))
			break;
		pCur++;
	
	if (pCur >= pEnd)
		return NULL;
 
	NaluType = (pCur[4]) & 0x1f;
	*pNaluType = NaluType;
 
	if (1 == NaluType || 5 == NaluType) /* P帧、I帧, 假设每一包里P帧I帧都是最后一个 */
	
		*pNaluSize = Size - (pCur - pStart);
		return pCur;
	
 
	pOut = pCur;
 
	/* 找第二个0x00000001 */
	pCur += 5;
	while (pCur <= pEnd)
	
		if ((0 == pCur[0]) && (0 == pCur[1]) && (0 == pCur[2]) && (1 == pCur[3]))
			break;
		pCur++;
	
	if (pCur <= pEnd)
	
		*pNaluSize = pCur - pOut;
		return pOut;
	
 
	*pNaluSize = Size - (pOut - pStart);
	return pOut;

 
 
// aac数据时记得除掉adts头
static int AdtsDemux(unsigned char * data, unsigned int size, unsigned char** raw, int* raw_size)

	int ret = 1;
	if (size < 7) 
		ttf_human_trace("adts: demux size too small");
		return 0;
	
	unsigned char* p = data;
	unsigned char* pend = data + size;
	//unsigned char* startp = 0;
 
	while (p < pend) 
 
		// decode the ADTS.
		// @see aac-iso-13818-7.pdf, page 26
		//      6.2 Audio Data Transport Stream, ADTS
		// @see https://github.com/ossrs/srs/issues/212#issuecomment-64145885
		// byte_alignment()
 
		// adts_fixed_header:
		//      12bits syncword,
		//      16bits left.
		// adts_variable_header:
		//      28bits
		//      12+16+28=56bits
		// adts_error_check:
		//      16bits if protection_absent
		//      56+16=72bits
		// if protection_absent:
		//      require(7bytes)=56bits
		// else
		//      require(9bytes)=72bits
 
		//startp = p;
 
		// for aac, the frame must be ADTS format.
		/*if (p[0] != 0xff || (p[1] & 0xf0) != 0xf0) 
			ttf_human_trace("adts: not this format.");
			return 0;
		*/
 
		// syncword 12 bslbf
		p++;
		// 4bits left.
		// adts_fixed_header(), 1.A.2.2.1 Fixed Header of ADTS
		// ID 1 bslbf
		// layer 2 uimsbf
		// protection_absent 1 bslbf
		int8_t pav = (*p++ & 0x0f);
		//int8_t id = (pav >> 3) & 0x01;
		/*int8_t layer = (pav >> 1) & 0x03;*/
		int8_t protection_absent = pav & 0x01;
 
		/**
		* ID: MPEG identifier, set to '1' if the audio data in the ADTS stream are MPEG-2 AAC (See ISO/IEC 13818-7)
		* and set to '0' if the audio data are MPEG-4. See also ISO/IEC 11172-3, subclause 2.4.2.3.
		*/
		//if (id != 0x01) 
		//	//ttf_human_trace("adts: id must be 1(aac), actual 0(mp4a).");
 
		//	// well, some system always use 0, but actually is aac format.
		//	// for example, houjian vod ts always set the aac id to 0, actually 1.
		//	// we just ignore it, and alwyas use 1(aac) to demux.
		//	id = 0x01;
		//
		//else 
		//	//ttf_human_trace("adts: id must be 1(aac), actual 1(mp4a).");
		//
 
		//int16_t sfiv = (*p << 8) | (*(p + 1));
		p += 2;
		// profile 2 uimsbf
		// sampling_frequency_index 4 uimsbf
		// private_bit 1 bslbf
		// channel_configuration 3 uimsbf
		// original/copy 1 bslbf
		// home 1 bslbf
		//int8_t profile = (sfiv >> 14) & 0x03;
		//int8_t sampling_frequency_index = (sfiv >> 10) & 0x0f;
		/*int8_t private_bit = (sfiv >> 9) & 0x01;*/
		//int8_t channel_configuration = (sfiv >> 6) & 0x07;
		/*int8_t original = (sfiv >> 5) & 0x01;*/
		/*int8_t home = (sfiv >> 4) & 0x01;*/
		//int8_t Emphasis; @remark, Emphasis is removed, @see https://github.com/ossrs/srs/issues/212#issuecomment-64154736
		// 4bits left.
		// adts_variable_header(), 1.A.2.2.2 Variable Header of ADTS
		// copyright_identification_bit 1 bslbf
		// copyright_identification_start 1 bslbf
		/*int8_t fh_copyright_identification_bit = (fh1 >> 3) & 0x01;*/
		/*int8_t fh_copyright_identification_start = (fh1 >> 2) & 0x01;*/
		// frame_length 13 bslbf: Length of the frame including headers and error_check in bytes.
		// use the left 2bits as the 13 and 12 bit,
		// the frame_length is 13bits, so we move 13-2=11.
		//int16_t frame_length = (sfiv << 11) & 0x1800;
 
		//int32_t abfv = ((*p) << 16)
		//	| ((*(p + 1)) << 8)
		//	| (*(p + 2));
		p += 3;
		// frame_length 13 bslbf: consume the first 13-2=11bits
		// the fh2 is 24bits, so we move right 24-11=13.
		//frame_length |= (abfv >> 13) & 0x07ff;
		// adts_buffer_fullness 11 bslbf
		/*int16_t fh_adts_buffer_fullness = (abfv >> 2) & 0x7ff;*/
		// number_of_raw_data_blocks_in_frame 2 uimsbf
		/*int16_t number_of_raw_data_blocks_in_frame = abfv & 0x03;*/
		// adts_error_check(), 1.A.2.2.3 Error detection
		if (!protection_absent) 
			if (size < 9) 
				ttf_human_trace("adts: protection_absent disappare.");
				return 0;
			
			// crc_check 16 Rpchof
			/*int16_t crc_check = */p += 2;
		
 
		// TODO: check the sampling_frequency_index
		// TODO: check the channel_configuration
 
		// raw_data_blocks
		/*int adts_header_size = p - startp;
		int raw_data_size = frame_length - adts_header_size;
		if (raw_data_size > pend - p) 
			ttf_human_trace("adts: raw data size too little.");
			return 0;
		*/
 
		//adts_codec_.protection_absent = protection_absent;
		//adts_codec_.aac_object = srs_codec_aac_ts2rtmp((SrsAacProfile)profile);
		//adts_codec_.sampling_frequency_index = sampling_frequency_index;
		//adts_codec_.channel_configuration = channel_configuration;
		//adts_codec_.frame_length = frame_length;
 
		 @see srs_audio_write_raw_frame().
		 TODO: FIXME: maybe need to resample audio.
		//adts_codec_.sound_format = 10; // AAC
		//if (sampling_frequency_index <= 0x0c && sampling_frequency_index > 0x0a) 
		//	adts_codec_.sound_rate = SrsCodecAudioSampleRate5512;
		//
		//else if (sampling_frequency_index <= 0x0a && sampling_frequency_index > 0x07) 
		//	adts_codec_.sound_rate = SrsCodecAudioSampleRate11025;
		//
		//else if (sampling_frequency_index <= 0x07 && sampling_frequency_index > 0x04) 
		//	adts_codec_.sound_rate = SrsCodecAudioSampleRate22050;
		//
		//else if (sampling_frequency_index <= 0x04) 
		//	adts_codec_.sound_rate = SrsCodecAudioSampleRate44100;
		//
		//else 
		//	adts_codec_.sound_rate = SrsCodecAudioSampleRate44100;
		//	//srs_warn("adts invalid sample rate for flv, rate=%#x", sampling_frequency_index);
		//
		//adts_codec_.sound_type = srs_max(0, srs_min(1, channel_configuration - 1));
		 TODO: FIXME: finger it out the sound size by adts.
		//adts_codec_.sound_size = 1; // 0(8bits) or 1(16bits).
 
									// frame data.
		*raw = p;
		*raw_size = pend - p;
 
		break;
	
 
	return ret;

 
class MP4Writer

public:
    MP4Writer();
    ~MP4Writer();
 
    s32  CreatFile(char *strFileName);
    s32  Init265(u32 TimeScale);
    s32  Write265Sample(u8 *pData, u32 Size, u64 TimeStamp);
	s32  Init264(u32 TimeScale);
	s32  Write264Sample(u8 *pData, u32 Size, u64 TimeStamp);
    s32  InitAAC(u8 AudioType, u32 SampleRate, u8 Channel, u32 TimeScale);
    s32  WriteAACSample(u8 *pData, u32 Size, u64 TimeStamp);
    void CloseFile();
 
private:
    GF_ISOFile *m_ptFile;
 
    u32 m_265TrackIndex;
    u32 m_265StreamIndex;
    u8  m_Video265Statue;
	u32 m_264TrackIndex;
	u32 m_264StreamIndex;
	u8  m_Video264Statue;
    s64 m_VideoTimeStampStart;
 
    GF_HEVCConfig     *m_ptHEVCConfig;
    GF_HEVCParamArray*  m_tHEVCNaluParam_VPS;
    GF_HEVCParamArray*  m_tHEVCNaluParam_SPS;
    GF_HEVCParamArray*  m_tHEVCNaluParam_PPS;
    GF_AVCConfigSlot*   m_tAVCConfig_VPS;
    GF_AVCConfigSlot*   m_tAVCConfig_SPS;
    GF_AVCConfigSlot*   m_tAVCConfig_PPS;
 
	GF_AVCConfigSlot*   m_tAVCConfig_SPS264;
	GF_AVCConfigSlot*   m_tAVCConfig_PPS264;
 
	GF_AVCConfig      *m_ptAVCConfig;
 
	HEVCState    *m_ptHEVCState;
	AVCState     *m_ptAVCState;
 
    u32 m_AACTrackIndex;
    u32 m_AACStreamIndex;
    u8  m_AudioAACStatue;
    s64 m_AudioTimeStampStart;
	bool findfirsidr_;
 
 
    void FreeAllMem();
;
 
 
MP4Writer::MP4Writer()

    m_ptFile = NULL;
    m_ptHEVCConfig = NULL;
	m_ptAVCConfig = NULL;
 
    m_Video265Statue = INIT_STATUS;
    m_AudioAACStatue = INIT_STATUS;
	m_Video264Statue = INIT_STATUS;
 
	m_tHEVCNaluParam_VPS = NULL;
	m_tHEVCNaluParam_SPS = NULL;
	m_tHEVCNaluParam_PPS = NULL;
	m_tAVCConfig_VPS = NULL;
	m_tAVCConfig_SPS = NULL;
	m_tAVCConfig_PPS = NULL;
 
	m_tAVCConfig_SPS264 = NULL;
	m_tAVCConfig_PPS264 = NULL;
 
	m_ptHEVCState = NULL;
	m_ptAVCState = NULL;
 
	findfirsidr_ = false;

 
MP4Writer::~MP4Writer()

    CloseFile();

 
s32 MP4Writer::CreatFile(char *strFileName)

    if (NULL != m_ptFile)
    
        return -1;
    
 
    m_ptFile = gf_isom_open(strFileName, GF_ISOM_OPEN_WRITE, NULL);
    if (NULL == m_ptFile)
    
        return -1;
    
 
    gf_isom_set_brand_info(m_ptFile, GF_ISOM_BRAND_MP42, 0);
 
    return 0;

 
 
void MP4Writer::CloseFile()

    if (m_ptFile)
    
        gf_isom_close(m_ptFile);
        m_ptFile = NULL;
 
        FreeAllMem();
    

 
void MP4Writer::FreeAllMem()

 
    if (m_ptHEVCConfig)
    
		gf_odf_hevc_cfg_del(m_ptHEVCConfig);
        //gf_list_del(m_ptHEVCConfig->param_array);
        //free(m_ptHEVCConfig);
        m_ptHEVCConfig = NULL;
    
 
	if (m_ptAVCConfig) 
		gf_odf_avc_cfg_del(m_ptAVCConfig);
		//gf_list_del(m_ptAVCConfig->param_array);
		//free(m_ptAVCConfig);
		m_ptAVCConfig = NULL;
	
 
	if (m_ptHEVCState) 
		free(m_ptHEVCState);
		m_ptHEVCState = NULL;
	
		
	if (m_ptAVCState) 
		free(m_ptAVCState);
		m_ptAVCState = NULL;
	
 
	m_tHEVCNaluParam_VPS = NULL;
	m_tHEVCNaluParam_SPS = NULL;
	m_tHEVCNaluParam_PPS = NULL;
	m_tAVCConfig_VPS = NULL;
	m_tAVCConfig_SPS = NULL;
	m_tAVCConfig_PPS = NULL;
 
	m_tAVCConfig_SPS264 = NULL;
	m_tAVCConfig_PPS264 = NULL;
 
	m_Video265Statue = INIT_STATUS;
	m_AudioAACStatue = INIT_STATUS;
	m_Video264Statue = INIT_STATUS;
 
	findfirsidr_ = false;
	

 
s32 MP4Writer::Init265(u32 TimeScale)

    if (NULL == m_ptFile || INIT_STATUS != m_Video265Statue)
        return -1;
 
 
    m_VideoTimeStampStart = -1;
 
    /* 创建Track */
    m_265TrackIndex = gf_isom_new_track(m_ptFile, 0, GF_ISOM_MEDIA_VISUAL, TimeScale);
    if (0 == m_265TrackIndex)
        return -1;
    if (GF_OK != gf_isom_set_track_enabled(m_ptFile, m_265TrackIndex, 1))
        return -1;
 
 
    /* 创建流 */
    m_ptHEVCConfig = gf_odf_hevc_cfg_new();
    if (NULL == m_ptHEVCConfig)
        return -1;
    m_ptHEVCConfig->nal_unit_size = 4;
    m_ptHEVCConfig->configurationVersion = 1;
 
    if (GF_OK != gf_isom_hevc_config_new(m_ptFile, m_265TrackIndex, m_ptHEVCConfig, NULL, NULL, &m_265StreamIndex))
        return -1;
 
 
 
    /* 初始化流的配置结构 */
	GF_SAFEALLOC(m_tHEVCNaluParam_VPS, GF_HEVCParamArray);
	GF_SAFEALLOC(m_tHEVCNaluParam_SPS, GF_HEVCParamArray);
	GF_SAFEALLOC(m_tHEVCNaluParam_PPS, GF_HEVCParamArray);
	GF_SAFEALLOC(m_tAVCConfig_VPS, GF_AVCConfigSlot);
	GF_SAFEALLOC(m_tAVCConfig_SPS, GF_AVCConfigSlot);
	GF_SAFEALLOC(m_tAVCConfig_PPS, GF_AVCConfigSlot);
 
    if (GF_OK != gf_list_add(m_ptHEVCConfig->param_array, m_tHEVCNaluParam_VPS))
        return -1;
    if (GF_OK != gf_list_add(m_ptHEVCConfig->param_array, m_tHEVCNaluParam_SPS))
        return -1;
    if (GF_OK != gf_list_add(m_ptHEVCConfig->param_array, m_tHEVCNaluParam_PPS))
        return -1;
 
    m_tHEVCNaluParam_VPS->nalus = gf_list_new();
    if (NULL == m_tHEVCNaluParam_VPS->nalus)
        return -1;
    m_tHEVCNaluParam_SPS->nalus = gf_list_new();
    if (NULL == m_tHEVCNaluParam_SPS->nalus)
        return -1;
    m_tHEVCNaluParam_PPS->nalus = gf_list_new();
    if (NULL == m_tHEVCNaluParam_PPS->nalus)
        return -1;
    m_tHEVCNaluParam_VPS->type  = GF_HEVC_NALU_VID_PARAM;
    m_tHEVCNaluParam_SPS->type  = GF_HEVC_NALU_SEQ_PARAM;
    m_tHEVCNaluParam_PPS->type  = GF_HEVC_NALU_PIC_PARAM;
    m_tHEVCNaluParam_VPS->array_completeness = 1;
    m_tHEVCNaluParam_SPS->array_completeness = 1;
    m_tHEVCNaluParam_PPS->array_completeness = 1;
 
    if (GF_OK != gf_list_add(m_tHEVCNaluParam_VPS->nalus, m_tAVCConfig_VPS))
        return -1;
    if (GF_OK != gf_list_add(m_tHEVCNaluParam_SPS->nalus, m_tAVCConfig_SPS))
        return -1;
    if (GF_OK != gf_list_add(m_tHEVCNaluParam_PPS->nalus, m_tAVCConfig_PPS))
        return -1;
 
 
	m_ptHEVCState = (HEVCState *)malloc(sizeof(HEVCState));//gf_malloc
	if (NULL == m_ptHEVCState)
			return -1;
	memset(m_ptHEVCState, 0, sizeof(HEVCState));
 
 
    m_Video265Statue = CONFIG_STATUS;
 
    return 0;

 
 
s32 MP4Writer::Write265Sample(u8 *pData, u32 Size, u64 TimeStamp)

    u8  *pStart = pData;
    u8   NaluType;
    u32  NaluSize = 0;
    s32  ID;
 
    GF_ISOSample  tISOSample;
 
    /* 265还未初始化 */
    if (INIT_STATUS == m_Video265Statue)
        return -1;
 
    while (1)
    
        pData = FindNalu(pData + NaluSize, Size - (u32)(pData - pStart) - NaluSize, &NaluType, &NaluSize);
        if (NULL == pData)
            break;
 
        /* 配置完成后只处理IP帧 */
        if (CONFIG_FINISH == m_Video265Statue)
        
            if (1 != NaluType && 19 != NaluType) /* P帧 I帧 */
                continue;
 
            if (-1 == m_VideoTimeStampStart)
                m_VideoTimeStampStart = TimeStamp;
 
            *((u32 *)pData) = htonl(NaluSize - 4); /* 这里的长度不能包括前四个字节的头! */
            tISOSample.data = (char *)pData;
            tISOSample.dataLength = NaluSize;
            tISOSample.IsRAP = (19 == NaluType)? RAP: RAP_NO;
            tISOSample.DTS = TimeStamp - m_VideoTimeStampStart;
            tISOSample.CTS_Offset = 0;
            tISOSample.nb_pack = 0;
            if (GF_OK != gf_isom_add_sample(m_ptFile, m_265TrackIndex, m_265StreamIndex, &tISOSample))
            
                *((u32 *)pData) = htonl(1); /* 恢复0x00000001的头 */
                return -1;
            
 
            *((u32 *)pData) = htonl(1); /* 恢复0x00000001的头 */
        
        /* 配置未完成时只处理vps sps pps头 */
        else if (CONFIG_STATUS == m_Video265Statue)
        
            pData += 4;
            NaluSize -= 4;
 
            if (32 == NaluType && NULL == m_tAVCConfig_VPS->data) /* VPS */
            
                ID = gf_media_hevc_read_vps((char *)pData , NaluSize, m_ptHEVCState);
                m_ptHEVCConfig->avgFrameRate      = m_ptHEVCState->vps[ID].rates[0].avg_pic_rate;
                m_ptHEVCConfig->temporalIdNested  = m_ptHEVCState->vps[ID].temporal_id_nesting;
                m_ptHEVCConfig->constantFrameRate = m_ptHEVCState->vps[ID].rates[0].constand_pic_rate_idc;
                m_ptHEVCConfig->numTemporalLayers = m_ptHEVCState->vps[ID].max_sub_layers;
                m_tAVCConfig_VPS->id   = ID;
                m_tAVCConfig_VPS->size = (u16)NaluSize;
                m_tAVCConfig_VPS->data = (char *)malloc(NaluSize);
                if (NULL == m_tAVCConfig_VPS->data)
                    continue;
                memcpy(m_tAVCConfig_VPS->data, pData, NaluSize);
            
            else if (33 == NaluType && NULL == m_tAVCConfig_SPS->data) /* SPS */
            
                ID = gf_media_hevc_read_sps((char *)pData, NaluSize, m_ptHEVCState);
                m_ptHEVCConfig->tier_flag     = m_ptHEVCState->sps[ID].ptl.tier_flag;
                m_ptHEVCConfig->profile_idc   = m_ptHEVCState->sps[ID].ptl.profile_idc;
                m_ptHEVCConfig->profile_space = m_ptHEVCState->sps[ID].ptl.profile_space;
                m_tAVCConfig_SPS->id   = ID;
                m_tAVCConfig_SPS->size = (u16)NaluSize;
                m_tAVCConfig_SPS->data = (char *)malloc(NaluSize);
                if (NULL == m_tAVCConfig_SPS->data)
                    continue;
                memcpy(m_tAVCConfig_SPS->data, pData, NaluSize);
 
                gf_isom_set_visual_info(m_ptFile, m_265TrackIndex, m_265StreamIndex, m_ptHEVCState->sps[ID].width, m_ptHEVCState->sps[ID].height);
            
            else if (34 == NaluType && NULL == m_tAVCConfig_PPS->data) /* PPS */
            
            	  ID = gf_media_hevc_read_pps((char *)pData, NaluSize, m_ptHEVCState);
                m_tAVCConfig_PPS->id   = ID;
                m_tAVCConfig_PPS->size = (u16)NaluSize;
                m_tAVCConfig_PPS->data = (char *)malloc(NaluSize);
                if (NULL == m_tAVCConfig_PPS->data)
                    continue;
                memcpy(m_tAVCConfig_PPS->data, pData, NaluSize);
            
            else
            
                continue;
            
 
            if (m_tAVCConfig_VPS->data && m_tAVCConfig_SPS->data && m_tAVCConfig_PPS->data)
            
                gf_isom_hevc_config_update(m_ptFile, m_265TrackIndex, m_265StreamIndex, m_ptHEVCConfig);
                m_Video265Statue = CONFIG_FINISH;
				if (m_ptHEVCState) 
					free(m_ptHEVCState);
					m_ptHEVCState = NULL;
				
            
        
    
 
    return 0;

 
s32 MP4Writer::Init264(u32 TimeScale)

	if (NULL == m_ptFile || INIT_STATUS != m_Video265Statue)
		return -1;
 
 
	m_VideoTimeStampStart = -1;
 
	/* 创建Track */
	m_264TrackIndex = gf_isom_new_track(m_ptFile, 0, GF_ISOM_MEDIA_VISUAL, TimeScale);
	if (0 == m_264TrackIndex)
		return -1;
	if (GF_OK != gf_isom_set_track_enabled(m_ptFile, m_264TrackIndex, 1))
		return -1;
 
 
	/* 创建流 */
	m_ptAVCConfig = gf_odf_avc_cfg_new();
	if (NULL == m_ptAVCConfig)
		return -1;
	//m_ptAVCConfig->nal_unit_size = 4;
	m_ptAVCConfig->configurationVersion = 1;
 
	if (GF_OK != gf_isom_avc_config_new(m_ptFile, m_264TrackIndex, m_ptAVCConfig, NULL, NULL, &m_264StreamIndex))
		return -1;
 
	/* 初始化流的配置结构 */
	GF_SAFEALLOC(m_tAVCConfig_SPS264, GF_AVCConfigSlot);
	GF_SAFEALLOC(m_tAVCConfig_PPS264, GF_AVCConfigSlot);
 
	gf_list_add(m_ptAVCConfig->sequenceParameterSets, m_tAVCConfig_SPS264);
	gf_list_add(m_ptAVCConfig->pictureParameterSets, m_tAVCConfig_PPS264);
 
	m_ptAVCState = (AVCState *)malloc(sizeof(AVCState));//gf_malloc
	if (NULL == m_ptAVCState)
		return -1;
	memset(m_ptAVCState, 0, sizeof(AVCState));
 
 
	m_Video264Statue = CONFIG_STATUS;
 
	return 0;

 
 
s32 MP4Writer::Write264Sample(u8 *pData, u32 Size, u64 TimeStamp)

	u8  *pStart = pData;
	u8   NaluType;
	u32  NaluSize = 0;
	s32  ID;
 
	GF_ISOSample  tISOSample;
 
	/* 265还未初始化 */
	if (INIT_STATUS == m_Video264Statue)
		return -1;
 
	while (1)
	
		pData = FindNalu264(pData + NaluSize, Size - (u32)(pData - pStart) - NaluSize, &NaluType, &NaluSize);
		if (NULL == pData)
			break;
 
		/* 配置完成后只处理IP帧 */
		if (CONFIG_FINISH == m_Video264Statue)
		
			if (!findfirsidr_) 
				if (5 != NaluType)
					continue;
				else
					findfirsidr_ = true;
			
				
			if (1 != NaluType && 5 != NaluType) /* P帧 I帧 */
				continue;
 
			if (-1 == m_VideoTimeStampStart)
				m_VideoTimeStampStart = TimeStamp;
 
			*((u32 *)pData) = htonl(NaluSize - 4); /* 这里的长度不能包括前四个字节的头! */
			tISOSample.data = (char *)pData;
			tISOSample.dataLength = NaluSize;
			tISOSample.IsRAP = (5 == NaluType) ? RAP : RAP_NO;
			tISOSample.DTS = TimeStamp - m_VideoTimeStampStart;
			tISOSample.CTS_Offset = 0;
			tISOSample.nb_pack = 0;
			int ret = gf_isom_add_sample(m_ptFile, m_264TrackIndex, m_264StreamIndex, &tISOSample);
			if (GF_OK != ret)
			
 
				//*((u32 *)pData) = htonl(1); /* 恢复0x00000001的头 */
				return -1;
			
 
			//*((u32 *)pData) = htonl(1); /* 恢复0x00000001的头 */
		
		/* 配置未完成时只处理vps sps pps头 */
		else if (CONFIG_STATUS == m_Video264Statue)
		
			pData += 4;
			NaluSize -= 4;
 
			if (7 == NaluType && NULL == m_tAVCConfig_SPS264->data) /* SPS */
			
				ID = gf_media_avc_read_sps((char *)pData, NaluSize, m_ptAVCState,0,NULL);
				m_ptAVCConfig->AVCProfileIndication = m_ptAVCState->sps[ID].profile_idc;
				m_ptAVCConfig->profile_compatibility = m_ptAVCState->sps[ID].prof_compat;
				m_ptAVCConfig->AVCLevelIndication = m_ptAVCState->sps[ID].level_idc;
				m_tAVCConfig_SPS264->id = ID;
				m_tAVCConfig_SPS264->size = (u16)NaluSize;
				m_tAVCConfig_SPS264->data = (char *)malloc(NaluSize);
				if (NULL == m_tAVCConfig_SPS264->data)
					continue;
				memcpy(m_tAVCConfig_SPS264->data, pData, NaluSize);
 
				gf_isom_set_visual_info(m_ptFile, m_264TrackIndex, m_264StreamIndex, m_ptAVCState->sps[ID].width, m_ptAVCState->sps[ID].height);
			
			else if (8 == NaluType && NULL == m_tAVCConfig_PPS264->data) /* PPS */
			
				m_tAVCConfig_PPS264->id = ID;
				m_tAVCConfig_PPS264->size = (u16)NaluSize;
				m_tAVCConfig_PPS264->data = (char *)malloc(NaluSize);
				if (NULL == m_tAVCConfig_PPS264->data)
					continue;
				memcpy(m_tAVCConfig_PPS264->data, pData, NaluSize);
			
			else
			
				continue;
			
 
			if (m_tAVCConfig_SPS264->data && m_tAVCConfig_PPS264->data)
			
				gf_isom_avc_config_update(m_ptFile, m_264TrackIndex, m_264StreamIndex, m_ptAVCConfig);
				m_Video264Statue = CONFIG_FINISH;
				if (m_ptAVCState) 
					free(m_ptAVCState);
					m_ptAVCState = NULL;
				
			
		
	
 
	return 0;

 
 
s32 MP4Writer::InitAAC(u8 AudioType, u32 SampleRate, u8 Channel, u32 TimeScale)

    GF_ESD *ptStreamDesc;
    s8      SampleRateID;
    u16     AudioConfig = 0;
    u8      AACProfile;
    s32     res = 0;
 
 
    if (NULL == m_ptFile || INIT_STATUS != m_AudioAACStatue)
        return -1;
 
 
    m_AudioTimeStampStart = -1;
 
    /* 创建Track */
    m_AACTrackIndex = gf_isom_new_track(m_ptFile, 0, GF_ISOM_MEDIA_AUDIO, TimeScale);
    if (0 == m_AACTrackIndex)
        return -1;
 
    if (GF_OK != gf_isom_set_track_enabled(m_ptFile, m_AACTrackIndex, 1))
        return -1;
 
 
    /* 创建并配置流 */
    SampleRateID = GetSampleRateID(SampleRate);
    if (0 > SampleRateID)
        return -1;
    GetAudioSpecificConfig(AudioType, (u8)SampleRateID, Channel, (u8*)(&AudioConfig), ((u8*)(&AudioConfig))+1);
 
    ptStreamDesc = gf_odf_desc_esd_new(SLPredef_MP4);
    ptStreamDesc->slConfig->timestampResolution = TimeScale;
    ptStreamDesc->decoderConfig->streamType = GF_STREAM_AUDIO;
    //ptStreamDesc->decoderConfig->bufferSizeDB = 20; //这参数干什么的
    ptStreamDesc->decoderConfig->objectTypeIndication = 0x40;//ptStreamDesc->decoderConfig->objectTypeIndication = GPAC_OTI_AUDIO_AAC_MPEG4;
    ptStreamDesc->decoderConfig->decoderSpecificInfo->dataLength = 2;
    ptStreamDesc->decoderConfig->decoderSpecificInfo->data = (char *)&AudioConfig;
    ptStreamDesc->ESID = gf_isom_get_track_id(m_ptFile, m_AACTrackIndex);
    if (GF_OK != gf_isom_new_mpeg4_description(m_ptFile, m_AACTrackIndex, ptStreamDesc, NULL, NULL, &m_AACStreamIndex))
    
        res = -1;
        goto ERR;
    
 
    if (gf_isom_set_audio_info(m_ptFile, m_AACTrackIndex, m_AACStreamIndex, SampleRate, Channel, 16, GF_IMPORT_AUDIO_SAMPLE_ENTRY_NOT_SET))
    
        res = -1;
        goto ERR;
    
 
    AACProfile = GetAACProfile(AudioType, SampleRate, Channel);
    gf_isom_set_pl_indication(m_ptFile, GF_ISOM_PL_AUDIO, AACProfile);
 
    m_AudioAACStatue = CONFIG_FINISH;
 
 
    ERR:
    ptStreamDesc->decoderConfig->decoderSpecificInfo->data = NULL;
    gf_odf_desc_del((GF_Descriptor *)ptStreamDesc);
 
    return res;

 
 
s32 MP4Writer::WriteAACSample(u8 *pData, u32 Size, u64 TimeStamp)

    GF_ISOSample tISOSample;
 
    if (CONFIG_FINISH != m_AudioAACStatue)
        return 0;
 
	if (!findfirsidr_) 
		return 0;
	
 
    if (-1 == m_AudioTimeStampStart)
        m_AudioTimeStampStart = TimeStamp;
 
    tISOSample.IsRAP = RAP;
    tISOSample.dataLength = Size;
    tISOSample.data = (char *)pData;
    tISOSample.DTS = TimeStamp - m_AudioTimeStampStart;
    tISOSample.CTS_Offset = 0;
	tISOSample.nb_pack = 0;
    if (GF_OK != gf_isom_add_sample(m_ptFile, m_AACTrackIndex, m_AACStreamIndex, &tISOSample))
        return -1;
 
    return 0;

 
 
 
 
extern "C" 
 
 
void* MP4_Init()

    return (void *)(new MP4Writer());

 
s32 MP4_CreatFile(void *pCMP4Writer, char *strFileName)

    if (NULL == pCMP4Writer)
        return -1;
 
    return ((MP4Writer *)pCMP4Writer)->CreatFile(strFileName);

 
s32 MP4_InitVideo265(void *pCMP4Writer, u32 TimeScale)

    if (NULL == pCMP4Writer)
        return -1;
 
    return ((MP4Writer *)pCMP4Writer)->Init265(TimeScale);

 
s32 MP4_Write265Sample(void *pCMP4Writer, u8 *pData, u32 Size, u64 TimeStamp)

    if (NULL == pCMP4Writer)
        return -1;
 
    return ((MP4Writer *)pCMP4Writer)->Write265Sample(pData, Size, TimeStamp);

 
s32 MP4_InitVideo264(void * pCMP4Writer, u32 TimeScale)

	if (NULL == pCMP4Writer)
		return -1;
 
	return ((MP4Writer *)pCMP4Writer)->Init264(TimeScale);

 
s32 MP4_Write264Sample(void * pCMP4Writer, u8 * pData, u32 Size, u64 TimeStamp)

	if (NULL == pCMP4Writer)
		return -1;
 
	return ((MP4Writer *)pCMP4Writer)->Write264Sample(pData, Size, TimeStamp);

 
s32 MP4_InitAudioAAC(void *pCMP4Writer, u8 AudioType, u32 SampleRate, u8 Channel, u32 TimeScale)

    if (NULL == pCMP4Writer)
        return -1;
 
    return ((MP4Writer *)pCMP4Writer)->InitAAC(AudioType, SampleRate, Channel, TimeScale);

 
s32 MP4_WriteAACSample(void *pCMP4Writer, u8 *pData, u32 Size, u64 TimeStamp)

    if (NULL == pCMP4Writer)
        return -1;
 
    return ((MP4Writer *)pCMP4Writer)->WriteAACSample(pData, Size, TimeStamp);

 
void MP4_CloseFile(void *pCMP4Writer)

    if (NULL == pCMP4Writer)
        return;
 
    ((MP4Writer *)pCMP4Writer)->CloseFile();

 
void MP4_Exit(void *pCMP4Writer)

    if (NULL == pCMP4Writer)
        return;
 
    delete pCMP4Writer;

 
 

注意:
1)MP4_InitAudioAAC那个audiotype指的是aac的profile,lc就是2。
 

    GF_M4A_AAC_MAIN = 1,
	GF_M4A_AAC_LC = 2,
	GF_M4A_AAC_SSR = 3,
	GF_M4A_AAC_LTP = 4,
	GF_M4A_AAC_SBR = 5,
	GF_M4A_AAC_SCALABLE = 6,
	GF_M4A_TWINVQ = 7,
	GF_M4A_CELP = 8,
	GF_M4A_HVXC = 9,
	GF_M4A_TTSI = 12,
	GF_M4A_MAIN_SYNTHETIC = 13,
	GF_M4A_WAVETABLE_SYNTHESIS = 14,
	GF_M4A_GENERAL_MIDI = 15,
	GF_M4A_ALGO_SYNTH_AUDIO_FX = 16,
	GF_M4A_ER_AAC_LC = 17,
	GF_M4A_ER_AAC_LTP = 19,
	GF_M4A_ER_AAC_SCALABLE = 20,
	GF_M4A_ER_TWINVQ = 21,
	GF_M4A_ER_BSAC = 22,
	GF_M4A_ER_AAC_LD = 23,
	GF_M4A_ER_CELP = 24,
	GF_M4A_ER_HVXC = 25,
	GF_M4A_ER_HILN = 26,
	GF_M4A_ER_PARAMETRIC = 27,
	GF_M4A_SSC = 28,
	GF_M4A_AAC_PS = 29,
	GF_M4A_LAYER1 = 32,
	GF_M4A_LAYER2 = 33,
	GF_M4A_LAYER3 = 34,
	GF_M4A_DST = 35,
	GF_M4A_ALS = 36

2)填aac数据时记得除掉adts头,使用上面的AdtsDemux函数即可。

        二、写h264流数据为mp4文件步骤

void * handleMp4 = NULL;
handleMp4 = MP4_Init();
Mp4_CreateFile(handleMp4,"d:\\\\test.mp4");
MP4_InitVideo264(handleMp4,1000);
//写h264流数据,包含00 00 00 01标记头的数据
MP4_Write264Sample(handleMp4,h264data,datasize,timestamp);//h264data表示264数据,datasize表示数据大小,timestamp表示时间戳,需要转换成基准为1000时间戳(1000\\90000两种)
...
MP4_CloseFile(handleMp4);
MP4_Exit(handleMp4);

         三、写h265流数据为mp4文件步骤

void * handleMp4 = NULL;
handleMp4 = MP4_Init();
Mp4_CreateFile(handleMp4,"d:\\\\test.mp4");
MP4_InitVideo265(handleMp4,1000);
//写h265流数据,包含00 00 00 01标记头的数据
MP4_Write265Sample(handleMp4,h264data,datasize,timestamp);//h264data表示264数据,datasize表示数据大小,timestamp表示时间戳,需要转换成基准为1000时间戳
...
MP4_CloseFile(handleMp4);
MP4_Exit(handleMp4);

        四、利用命令行生成mp4文件

GPAC除了 GPAC 核心,完整的软件包还包括一个 GPAC 插件:MPEG-4 BIF(场景解码器)、MPEG-4 ODF(对象描述符解码器)、MPEG-4 LASeR(场景解码器)、MPEG-4 SAF 解复用器、文本 MPEG- 4 加载器(支持未压缩的 MPEG-4 BT 和 XMT、VRML 和 X3D 文本格式)、图像包(支持 PNG、JPEG、BMP、JPEG2000)等。


 

 1)将h265流转换成MP4,执行下面命令行。

./MP4Box -v -add Catus_1920x1080_50_qp32.bin:FMT=HEVC -fps 50 -new output.mp4
./MP4Box -add name_of_annexB_bitstream.(bit,bin,265) -fps 50 -new output.mp4

  播放h265视频文件信息,执行下面命令。

./MP4Client output.mp4

2)将h265流转换成ts,执行下面命令行。

./mp42ts -prog=hevc.mp4 -dst-file=test.ts

播放h265视频文件流信息,执行下面命令。

./MP4Client test.ts

备注:

1、GPAC模块下载链接
GitHub - gpac/gpac: Modular Multimedia framework for packaging, streaming and playing your favorite content, see http://netflix.gpac.ioDownloads | GPAC

2、编译指导

Build Introduction · gpac/gpac Wiki · GitHub

Windows:GPAC Build Guide for Windows · gpac/gpac Wiki · GitHub

Linux:GPAC Build Guide for Linux · gpac/gpac Wiki · GitHub

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