Overview

Flash Video(简称FLV),是一种流行的网络格式。目前国内外大部分视频分享网站都是采用的这种格式.

File Structure

从整个文件上开看,FLV是由The FLV header 和 The FLV File Body 组成.

1.The FLV header

Field

Type

Comment

Signature

UI8

Signature byte always 'F' (0x46)

Signature

UI8

Signature byte always 'L' (0x4C)

Signature

UI8

Signature byte always 'V' (0x56)

Version

UI8

File version (for example, 0x01 for FLV version 1)

TypeFlagsReserved

UB [5]

Shall be 0

TypeFlagsAudio

UB [1]

1 = Audio tags are present

TypeFlagsReserved

UB [1]

Shall be 0

TypeFlagsVideo

UB [1]

1 = Video tags are present

DataOffset

UI32

The length of this header in bytes

Signature: FLV 文件的前3个字节为固定的‘F’‘L’‘V’,用来标识这个文件是flv格式的.在做格式探测的时候，

如果发现前3个字节为“FLV”，就认为它是flv文件.

Version: 第4个字节表示flv版本号.

Flags: 第5个字节中的第0位和第2位,分别表示 video 与 audio 存在的情况.(1表示存在,0表示不存在)

DataOffset : 最后4个字节表示FLV header 长度.

2.The FLV File Body

Field

Type

Comment

PreviousTagSize0

UI32

Always 0

Tag1

FLVTAG

First tag

PreviousTagSize1

UI32

Size of previous tag, including its header, in bytes. For FLV version1,

this value is 11 plus the DataSize of the previous tag.

Tag2

FLVTAG

Second tag

...

...

...

PreviousTagSizeN-1

UI32

Size of second-to-last tag, including its header, in bytes.

TagN

FLVTAG

Last tag

PreviousTagSizeN

UI32

Size of last tag, including its header, in bytes

FLV header之后,就是 FLV File Body.

FLV File Body是由一连串的back-pointers + tags构成.back-pointers就是4个字节数据,表示前一个tag的size.

FLV Tag Definition

FLV文件中的数据都是由一个个TAG组成,TAG里面的数据可能是video、audio、scripts.

下表是TAG的结构:

1.FLVTAG

Field

Type

Comment

Reserved

UB [2]

Reserved for FMS, should be 0

Filter

UB [1]

Indicates if packets are filtered.
0 = No pre-processing required.
1 = Pre-processing (such as decryption) of the packet is
required before it can be rendered.
Shall be 0 in unencrypted files, and 1 for encrypted tags.
See Annex F. FLV Encryption for the use of filters.

TagType

UB [5]

Type of contents in this tag. The following types are
defined:
8 = audio
9 = video
18 = script data

DataSize

UI24

Length of the message. Number of bytes after StreamID to
end of tag (Equal to length of the tag – 11)

Timestamp

UI24

Time in milliseconds at which the data in this tag applies.
This value is relative to the first tag in the FLV file, which
always has a timestamp of 0.

TimestampExtended

UI8

Extension of the Timestamp field to form a SI32 value. This
field represents the upper 8 bits, while the previous
Timestamp field represents the lower 24 bits of the time in
milliseconds.

StreamID

UI24

Always 0.

AudioTagHeader

IF TagType == 8
AudioTagHeader

 

VideoTagHeader

IF TagType == 9
VideoTagHeader

 

EncryptionHeader

IF Filter == 1
EncryptionTagHeader

 

FilterParams

IF Filter == 1
FilterParams

 

Data

IF TagType == 8
AUDIODATA
IF TagType == 9
VIDEODATA
IF TagType == 18
SCRIPTDATA

Data specific for each media type.

TagType: TAG中第1个字节中的前5位表示这个TAG中包含数据的类型,8 = audio,9 = video,18 = script data.

DataSize:StreamID之后的数据长度.

Timestamp和TimestampExtended组成了这个TAG 包数据的PTS信息,记得刚开始做FVL demux的时候，并没有考虑TimestampExtended的值,直接就把Timestamp默认为是PTS，后来发生的现 象就是画面有跳帧的现象,后来才仔细看了一下文档发现真正数据的PTS是PTS= Timestamp | TimestampExtended<<24.

StreamID之后的数据就是每种格式的情况不一样了，接下格式进行详细的介绍.

Audio Tags

如果TAG包中的TagType==8时，就表示这个TAG是audio。

StreamID之后的数据就表示是AudioTagHeader，AudioTagHeader结构如下：

Field

Type

Comment

SoundFormat

UB [4]

Format of SoundData. The following values are defined:
0 = Linear PCM, platform endian
1 = ADPCM
2 = MP3
3 = Linear PCM, little endian
4 = Nellymoser 16 kHz mono
5 = Nellymoser 8 kHz mono
6 = Nellymoser
7 = G.711 A-law logarithmic PCM
8 = G.711 mu-law logarithmic PCM
9 = reserved
10 = AAC
11 = Speex
14 = MP3 8 kHz
15 = Device-specific sound
Formats 7, 8, 14, and 15 are reserved.
AAC is supported in Flash Player 9,0,115,0 and higher.
Speex is supported in Flash Player 10 and higher.

SoundRate

UB [2]

Sampling rate. The following values are defined:
0 = 5.5 kHz
1 = 11 kHz
2 = 22 kHz
3 = 44 kHz

SoundSize

UB [1]

Size of each audio sample. This parameter only pertains to
uncompressed formats. Compressed formats always decode
to 16 bits internally.
0 = 8-bit samples
1 = 16-bit samples

SoundType

UB [1]

Mono or stereo sound
0 = Mono sound
1 = Stereo sound

AACPacketType

IF SoundFormat == 10
UI8

The following values are defined:
0 = AAC sequence header
1 = AAC raw

AudioTagHeader的头1个字节，也就是接跟着StreamID的1个字节包含着音频类型、采样率等的基本信息.表里列的十分清楚.

AudioTagHeader之后跟着的就是AUDIODATA数据了，也就是audio payload 但是这里有个特例，如果音频格式（SoundFormat）是10 = AAC，AudioTagHeader中会多出1个字节的数据AACPacketType，这个字段来表示AACAUDIODATA的类型：0 = AAC sequence header，1 = AAC raw。

Field

Type

Comment

Data

IF AACPacketType ==0 AudioSpecificConfig

The AudioSpecificConfig is defined in ISO14496-3. Note that this is not the same as the contents of the esds box from an MP4/F4V file.

 

ELSE IF AACPacketType == 1 Raw AAC frame data in UI8 [ ]

audio payload

AAC sequence header也就是包含了AudioSpecificConfig，AudioSpecificConfig包含着一些更加详细音频的信息，AudioSpecificConfig的定义在ISO14496-3中1.6.2.1 AudioSpecificConfig，这里就不详细贴了。而且在ffmpeg中有对AudioSpecificConfig解析的函数，ff_mpeg4audio_get_config(),可以对比的看一下，理解更深刻。

AAC raw 这种包含的就是音频ES流了，也就是audio payload.

在FLV的文件中，一般情况下 AAC sequence header 这种包只出现1次，而且是第一个audio tag，为什么要提到这种tag，因为当时在做FLVdemux的时候，如果是AAC的音频，需要在每帧AAC ES流前边添加7个字节ADST头,ADST在音频的格式中会详细解读，这是解码器通用的格式，就是AAC的纯ES流要打包成ADST格式的AAC文件，解码器才能正常播放.就是在打包ADST的时候，需要samplingFrequencyIndex这个信息，samplingFrequencyIndex最准确的信息是在AudioSpecificConfig中，所以就对AudioSpecificConfig进行解析并得到了samplingFrequencyIndex。

到这步你就完全可以把FLV 文件中的音频信息及数据提取出来，送给音频解码器正常播放了。

Video Tags

如果TAG包中的TagType==9时，就表示这个TAG是video.

StreamID之后的数据就表示是VideoTagHeader，VideoTagHeader结构如下：

Field

Type

Comment

Frame Type

UB [4]

Type of video frame. The following values are defined:
1 = key frame (for AVC, a seekable frame)
2 = inter frame (for AVC, a non-seekable frame)
3 = disposable inter frame (H.263 only)
4 = generated key frame (reserved for server use only)
5 = video info/command frame

CodecID

UB [4]

Codec Identifier. The following values are defined:
2 = Sorenson H.263
3 = Screen video
4 = On2 VP6
5 = On2 VP6 with alpha channel
6 = Screen video version 2
7 = AVC

AVCPacketType

IF CodecID == 7
UI8

The following values are defined:
0 = AVC sequence header
1 = AVC NALU
2 = AVC end of sequence (lower level NALU sequence ender is not required or supported)

CompositionTime

IF CodecID == 7
SI24

IF AVCPacketType == 1
Composition time offset
ELSE
0
See ISO 14496-12, 8.15.3 for an explanation of composition
times. The offset in an FLV file is always in milliseconds.

VideoTagHeader的头1个字节，也就是接跟着StreamID的1个字节包含着视频帧类型及视频CodecID最基本信息.表里列的十分清楚.

VideoTagHeader之后跟着的就是VIDEODATA数据了，也就是video payload.当然就像音频AAC一样，这里也有特例就是如果视频的格式是AVC（H.264）的话，VideoTagHeader会多出4个字节的信息.

AVCPacketType 和 CompositionTime。AVCPacketType 表示接下来 VIDEODATA （AVCVIDEOPACKET）的内容：

IF AVCPacketType == 0 AVCDecoderConfigurationRecord（AVC sequence header）
IF AVCPacketType == 1 One or more NALUs (Full frames are required)

AVCDecoderConfigurationRecord.包含着是H.264解码相关比较重要的sps和pps信息，再给AVC解码器送数据 流之前一定要把sps和pps信息送出，否则的话解码器不能正常解码。而且在解码器stop之后再次start之前，如seek、快进快退状态切换等，都 需要重新送一遍sps和pps的信息.AVCDecoderConfigurationRecord在FLV文件中一般情况也是出现1次，也就是第一个 video tag.

AVCDecoderConfigurationRecord的定义在ISO 14496-15, 5.2.4.1中，这里不在详细贴，

SCRIPTDATA

如果TAG包中的TagType==18时，就表示这个TAG是_SCRIPT_.

SCRIPTDATA 结构十分复杂，定义了很多格式类型，每个类型对应一种结构.

Field

Type

Comment

Type

UI8

Type of the ScriptDataValue.
The following types are defined:
0 = Number
1 = Boolean
2 = String
3 = Object
4 = MovieClip (reserved, not supported)
5 = Null
6 = Undefined
7 = Reference
8 = ECMA array
9 = Object end marker
10 = Strict array
11 = Date
12 = Long string

ScriptDataValue

IF Type == 0
DOUBLE
IF Type == 1
UI8
IF Type == 2
SCRIPTDATASTRING
IF Type == 3
SCRIPTDATAOBJECT
IF Type == 7
UI16
IF Type == 8
SCRIPTDATAECMAARRAY
IF Type == 10
SCRIPTDATASTRICTARRAY
IF Type == 11
SCRIPTDATADATE
IF Type == 12
SCRIPTDATALONGSTRING

Script data value.
The Boolean value is (ScriptDataValue ≠ 0).

类型在FLV的官方文档中都有详细介绍.

onMetaData

onMetaData 是_SCRIPTDATA_中对我们来说十分重要的信息，结构如下表：

Property Name

Type

Comment

audiocodecid

Number

Audio codec ID used in the file (see E.4.2.1 for available SoundFormat values)

audiodatarate

Number

Audio bit rate in kilobits per second

audiodelay

Number

Delay introduced by the audio codec in seconds

audiosamplerate

Number

Frequency at which the audio stream is replayed

audiosamplesize

Number

Resolution of a single audio sample

canSeekToEnd

Boolean

Indicating the last video frame is a key frame

creationdate

String

Creation date and time

duration

Number

Total duration of the file in seconds

filesize

Number

Total size of the file in bytes

framerate

Number

Number of frames per second

height

Number

Height of the video in pixels

stereo

Boolean

Indicating stereo audio

videocodecid

Number

Video codec ID used in the file (see E.4.3.1 for available CodecID values)

videodatarate

Number

Video bit rate in kilobits per second

width

Number

Width of the video in pixels

这里面的duration、filesize、视频的width、height等这些信息对我们来说很有用.

keyframes

当时在做flv demux的时候，发现官方的文档中并没有对_keyframe_s index做描述，但是flv的这种结构每个tag又不像TS有同步头，如果没有_keyframe_s index 的话，seek及快进快退的效果会非常差，因为需要一个tag一个tag的顺序读取。后来通过网络查一些资料，发现了一个_keyframes_的信息藏在_SCRIPTDATA_中。

keyframes几乎是一个非官方的标准，也就是民间标准.在网上已经很 难看到flv文件格式，但是metadata里面不包含 keyframes项目的视频 . 两个常用的操作metadata的工具是flvtool2和FLVMDI，都是把keyframes作为一个默认的元信息项目.在FLVMDI的主页 (http://www.buraks.com/flvmdi/)上有描述：

keyframes: (Object) This object is added only if you specify the /k switch. 'keyframes' is known to FLVMDI and if /k switch is not specified, 'keyframes' object will be deleted.
'keyframes' object has 2 arrays: 'filepositions' and 'times'. Both arrays have the same number of elements, which is equal to the number of key frames in the FLV. Values in times array are in 'seconds'. Each correspond to the timestamp of the n'th key frame. Values in filepositions array are in 'bytes'. Each correspond to the fileposition of the nth key frame video tag (which starts with byte tag type 9).

也就是说keyframes中包含着2个内容 'filepositions' and 'times'分别指的是关键帧的文件位置和关键帧的PTS.通过keyframes可以建立起自己的Index，然后再seek和快进快退的操作中，快速有效的跳转到你想要找的关键帧的位置进行处理。