mirror of
https://github.com/alsa-project/alsa-utils
synced 2024-11-09 17:45:41 +01:00
0e657ca00b
The spelling of 'aborted' was 'aboeted' in the manual. This commit fixes
it.
Fixes: a37703614a
("axfer: fulfill manual section for libffado backend")
Fixes: https://github.com/alsa-project/alsa-utils/pull/156
Reported-by: Chao Song chao.song@linux.intel.com
Signed-off-by: Takashi Sakamoto <o-takashi@sakamocchi.jp>
Signed-off-by: Jaroslav Kysela <perex@perex.cz>
1009 lines
29 KiB
Groff
1009 lines
29 KiB
Groff
.TH AXFER\-TRANSFER 1 "28 November 2018" "alsa\-utils"
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.SH NAME
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axfer\-transfer \- transferrer of audio data frame for sound devices and nodes.
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.SH SYNOPSIS
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.B axfer transfer
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.I direction
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[
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.I common\-options
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] [
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.I backend\-options
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] [
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.I filepath
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]
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.B axfer transfer
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.I direction
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[
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.I common\-options
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] [
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.I backend\-options
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]
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.I \-I
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.I \-\-separate\-channels filepath ...
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direction =
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.B capture
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.B playback
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common\-options = ( read
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.I OPTIONS
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section )
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backend\-options = ( read
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.I OPTIONS
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section )
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filepaths = ( read
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.I OPTIONS
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section )
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.SH DESCRIPTION
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The
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.B transfer
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subcommand of
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.B axfer
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performs transmission of audio data frames for devices available in supported
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backends. This program is essentially designed to use alsa\-lib APIs
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(libasound backend) to handle sound devices supported by Linux sound subsystem
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(ALSA).
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.SH OPTIONS
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.SS Direction
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.TP
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.B capture
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Operates for capture transmission.
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.TP
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.B playback
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Operates for playback transmission.
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.SS Filepath
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Filepath is handled as a path relative to current working directory of run time
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if it\(aqs not full path from root directory.
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The standard input or output is used if filepath is not specified or given as
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.I \(aq\-\(aq
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\&.
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For playback transmission, container format of given
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.I filepath
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is detected automatically and metadata is used for parameters of sample format,
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channels, rate, duration. If nothing detected, content of given file path is
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handled as raw data. In this case, the parameters should be indicated as
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options.
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Multiple
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.I filepaths
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are allowed with
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.I \-I
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.I \-\-separate\-channels
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option. In this case, standard input and output is not available. The same
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.I filepath
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is not allowed except for paths listed below:
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\- /dev/null
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\- /dev/zero
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\- /dev/full
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\- /dev/random
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\- /dev/urandom
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.SS Common options
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.TP
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.B \-h, \-\-help
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Print help messages and finish run time.
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.TP
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.B \-q, \-\-quiet
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Quiet mode. Suppress messages (not sound :))
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.TP
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.B \-v, \-\-verbose
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Verbose mode. Runtime dumps supplemental information according to the number of
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this option given in command line.
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.TP
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.B \-d, \-\-duration=#
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Interrupt after # seconds. A value of zero means infinity. The default is zero,
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so if this option is omitted then the transmission process will run until it is
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killed. Either
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.I \-d
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or
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.I \-s
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option is available exclusively.
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.TP
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.B \-s, \-\-samples=#
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Interrupt after transmission of # number of data frames. A value of zero means
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infinity. The default is zero, so if this options is omitted then the
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transmission process will run until it is killed. Either
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.I \-d
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or
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.I \-s
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option is available exclusively.
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.TP
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.B \-f, \-\-format=FORMAT
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Indicate format of audio sample. This is required for capture transmission, or
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playback transmission with files including raw audio data.
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Available sample format is listed below:
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- [S8|U8|S16|U16|S32|U32][_LE|_BE]
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- [S24|U24][_LE|_BE]
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- FLOAT[_LE|_BE]
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- FLOAT64[_LE|_BE]
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- IEC958_SUBFRAME[_LE|_BE]
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- MU_LAW
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- A_LAW
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- [S20|U20][_LE|_BE]
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- [S24|U24][_3LE|_3BE]
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- [S20|U20][_3LE|_3BE]
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- [S18|U18][_3LE|_3BE]
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- DSD_U8
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- DSD_[U16|U32][_LE|_BE]
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If endian\-ness is omitted, host endian\-ness is used.
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Some special formats are available:
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- cd (16 bit little endian, 44100, stereo) [= \-f S16_LE \-c 2 \-r 44100]
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- cdr (16 bit big endian, 44100, stereo) [= \-f S16_BE \-c 2 \-f 44100]
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- dat (16 bit little endian, 48000, stereo) [= \-f S16_LE \-c 2 \-r 48000]
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If omitted,
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.I U8
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is used as a default. Actual available formats are restricted by each
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transmission backend.
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Unavailable sample format is listed below. These format has size of data frame
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unaligned to byte unit.
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- IMA_ADPCM
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- MPEG
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- GSM
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- SPECIAL
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- G723_24
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- G723_24_1B
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- G723_40
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- G723_40_1B
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.TP
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.B \-c, \-\-channels=#
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Indicate the number of audio data samples per frame. This is required for
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capture transmission, or playback transmission with files including raw audio
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data. The value should be between
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.I 1 to
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.I 256
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\&. If omitted,
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.I 1
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is used as a default.
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.TP
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.B \-r, \-\-rate=#
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Indicate the number of audio data frame per second. This is required for
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capture transmission, or playback transmission with files including raw audio
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data. If the value is less than
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.I 1000
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, it\(aqs interpreted by
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.I kHz
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unit. The value should be between
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.I 2000
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and
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.I 192000
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\&. If omitted,
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.I 8000
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is used as a default.
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.TP
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.B \-t, \-\-file\-type=TYPE
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Indicate the type of file. This is required for capture transmission. Available
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types are listed below:
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- wav: Microsoft/IBM RIFF/Wave format
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- au, sparc: Sparc AU format
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- voc: Creative Tech. voice format
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- raw: raw data
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When nothing is indicated, for capture transmission, the type is decided
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according to suffix of
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.I filepath
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, and
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.I raw
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type is used for fallback.
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.TP
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.B \-I, \-\-separate\-channels
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Indicate this option when several files are going to be handled. For capture
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transmission, if one filepath is given as
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.I filepath
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, a list of
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.I filepaths
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is generated in a formula \(aq<filepath>\-<sequential number>[.suffix]\(aq.
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The suffix is omitted when raw format of container is used.
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.TP
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.B \-\-dump\-hw\-params
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Dump hardware parameters and finish run time if backend supports it.
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.TP
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.B \-\-xfer\-backend=BACKEND
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Select backend of transmission from a list below. The default is libasound.
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.br
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- libasound
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- libffado (optional if compiled)
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.SS Backend options for libasound
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.TP
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.B \-D, \-\-device=NODE
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This option is used to select PCM node in libasound configuration space.
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Available nodes are listed by
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.I pcm
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operation of
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.I list
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subcommand.
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.TP
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.B \-N, \-\-nonblock
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With this option, PCM substream is opened in non\-blocking mode. When audio
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data frame is not available in buffer of the PCM substream, I/O operation
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immediately returns without blocking process. This option implicitly uses
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.I \-\-waiter\-type
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option as well to prevent heavy consumption of CPU time.
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.TP
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.B \-M, \-\-mmap
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With this option, audio data frame is processed directly in buffer of PCM
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substream if selected node supports this operation. Without the option,
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temporary buffers are used to copy audio data frame for buffer of PCM substream.
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This option implicitly uses
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.I \-\-waiter\-type
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option as well to prevent heavy consumption of CPU time.
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.TP
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.B \-F, \-\-period\-size=#
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This option configures given value to
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.I period_size
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hardware parameter of PCM substream. The parameter indicates the number of audio
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data frame per period in buffer of the PCM substream. Actual number is decided
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as a result of interaction between each implementation of PCM plugin chained
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from the selected PCM node, and in\-kernel driver or PCM I/O plugins.
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Ideally, the same amount of audio data frame as the value should be handled in
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one I/O operation. Actually, it is not, depending on implementation of the PCM
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plugins, in\-kernel driver, PCM I/O plugins and scheduling model. For \(aqhw\(aq
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PCM plugin in \(aqirq\(aq scheduling model, the value is used to decide
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intervals of hardware interrupt, thus the same amount of audio data frame as
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the value is expected to be available for one I/O operation.
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.TP
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.B \-\-period\-time=#
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This option configures given value to
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.I period_time
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hardware parameter of PCM substream. This option is similar to
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.I \-\-period\-size
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option, however its unit is micro\-second.
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.TP
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.B \-B, \-\-buffer\-size=#
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This option configures given value to
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.I buffer_size
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hardware parameter of PCM substream. The parameter indicates the number of audio
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data frame in buffer of PCM substream. Actual number is decided as a result of
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interaction between each implementation of PCM plugin chained from the selected
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PCM node, and in\-kernel driver or PCM I/O plugins.
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Ideally, this is multiples of the number of audio data frame per period, thus
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the size of period. Actually, it is not, depending on implementation of the PCM
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plugins, in\-kernel driver and PCM I/O plugins.
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.TP
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.B \-\-buffer\-time=#
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This option configures given value to
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.I buffer_time
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hardware parameter of PCM substream. This option is similar to
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.I \-\-buffer\-size
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option, however its unit is micro\-second.
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.TP
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.B \-\-waiter\-type=TYPE
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This option indicates the type of waiter for event notification. At present,
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four types are available;
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.I default
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,
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.I select
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,
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.I poll
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and
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.I epoll
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\&. With
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.I default
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type, \(aqsnd_pcm_wait()\(aq is used. With
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.I select
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type, \(aqselect(2)\(aq system call is used. With
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.I poll
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type, \(aqpoll(2)\(aq system call is used. With
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.I epoll
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type, Linux\-specific \(aqepoll(7)\(aq system call is used.
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This option should correspond to one of
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.I \-\-nonblock
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or
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.I \-\-mmap
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options, or
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.I timer
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value of
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.I \-\-sched\-model
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option.
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Neither this option nor
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.I \-\-test\-nowait
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is available at the same time.
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.TP
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.B \-\-sched\-model=MODEL
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This option selects scheduling model for process of this program. One of
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.I irq
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or
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.I timer
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is available. In detail, please read \(aqSCHEDULING MODEL\(aq section.
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When nothing specified,
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.I irq
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model is used.
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.TP
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.B \-A, \-\-avail\-min=#
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This option configures given value to
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.I avail\-min
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software parameter of PCM substream. In blocking mode, the value is used as
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threshold of the number of available audio data frames in buffer of PCM
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substream to wake up process blocked by I/O operation. In non\-blocking mode,
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any I/O operation returns \-EAGAIN until the available number of audio data frame reaches the threshold.
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This option has an effect in cases neither
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.I \-\-mmap
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nor
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.I timer
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value of
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.I \-\-sched\-model
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option is used.
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.TP
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.B \-R, \-\-start\-delay=#
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This option configures given value to
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.I start_threshold
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software parameter of PCM substream. The value is used as threshold to start
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PCM substream automatically. At present, this option has an effect in cases
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neither
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.I \-\-mmap
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nor
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.I timer
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value of
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.I \-\-sched\-model
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option is used.
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For playback transmission, when the number of accumulated audio data frame
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in buffer of PCM substream to which this program writes out reaches the
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threshold, the PCM substream starts automatically without an explicit call of
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.I snd_pcm_start()
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to the PCM substream.
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For capture transmission, this option is useless. The number of
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accumulated audio data frame is not increased without an explicit call of
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.I snd_pcm_start()
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to the PCM substream.
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This option has an effect in cases neither
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.I \-\-mmap
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nor
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.I timer
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value of
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.I \-\-sched\-model
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option is used.
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.TP
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.B \-T, \-\-stop\-delay=#
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This option configures given value to
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.I stop_threshold
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software parameter of PCM substream. The value is used as threshold to stop PCM
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substream automatically. At present, this option has an effect in cases neither
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.I \-\-mmap
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nor
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.I timer
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value of
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.I \-\-sched\-model
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option is used.
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For capture transmission, when the number of accumulated audio data frame
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in buffer of PCM substream to which a driver or alsa\-lib PCM plugins write
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reaches the threshold, the PCM substream stops automatically without an explicit
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call of
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.I snd_pcm_stop()
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to the PCM substream. This is a case that this program leaves the audio data
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frames without reading for a while.
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For playback transmission, when the number available audio data frame in buffer
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of PCM substream from which a driver or alsa\-lib PCM plugins read reaches the
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threshold, the PCM substream stops automatically without an explicit call of
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.I snd_pcm_stop()
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to the PCM substream. This is a case that this program leaves the audio data
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frames without writing for a while.
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This option has an effect in cases neither
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.I \-\-mmap
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nor
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.I timer
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value of
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.I \-\-sched\-model
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option is used.
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.TP
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.B \-\-disable\-resample
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This option has an effect for \(aqplug\(aq plugin in alsa\-lib to suppress
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conversion of sampling rate for audio data frame.
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.TP
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.B \-\-disable\-channels
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This option has an effect for \(aqplug\(aq plugin in alsa\-lib to suppress
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conversion of channels for audio data frame.
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.TP
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.B \-\-disable\-format
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This option has an effect for \(aqplug\(aq plugin in alsa\-lib to suppress
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conversion of sample format for audio data frame.
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.TP
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.B \-\-disable\-softvol
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This option has an effect for \(aqsoftvol\(aq plugin in alsa\-lib to suppress
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conversion of samples for audio data frame via additional control element.
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.TP
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.B \-\-fatal\-errors
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This option suppresses recovery operation from XRUN state of running PCM
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substream, then process of this program is going to finish as usual.
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.TP
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.B \-\-test\-nowait
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This option disables any waiter for I/O event notification. I/O operations are
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iterated till any of audio data frame is available. The option brings heavy
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load in consumption of CPU time.
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.SS Backend options for libffado
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This backend is automatically available when configure script detects
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.I ffado_streaming_init()
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symbol in libffado shared object.
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.TP
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.B \-p, \-\-port=#
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This option uses given value to decide which 1394 OHCI controller is used to
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communicate. When Linux system has two 1394 OHCI controllers,
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.I 0
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or
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.I 1
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are available. Neither this option nor
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.I \-g
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is available at the same time. If nothing specified, libffado performs to
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communicate to units on IEEE 1394 bus managed by all of 1394 OHCI controller available in Linux system.
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.TP
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.B \-n, \-\-node=#
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This option uses given value to decide which unit is used to communicate. This
|
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option requires
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.I \-p
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option to indicate which 1394 OHCI controller is used to communicate to the
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specified unit.
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.TP
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.B \-g, \-\-guid=HEXADECIMAL
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This option uses given value to decide a target unit to communicate. The value
|
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should be prefixed with '0x' and consists of hexadecimal literal letters
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(0\-9, a\-f, A\-F). Neither this option nor
|
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.I \-p
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is available at the same time. If nothing specified, libffado performs to
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communicate to units on IEEE 1394 bus managed by all of 1394 OHCI controller
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available in Linux system.
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.TP
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.B \-\-frames\-per\-period=#
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This option uses given value to decide the number of audio data frame in one
|
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read/write operation. The operation is blocked till the number of available
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audio data frame exceeds the given value. As a default, 512 audio data frames
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is used.
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.TP
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.B \-\-periods\-per\-buffer=#
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This option uses given value to decide the size of intermediate buffer between
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this program and libffado. As a default, 2 periods per buffer is used.
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.TP
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|
.B \-\-slave
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This option allows this program to run slave mode. In this mode, libffado
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adds unit directory into configuration ROM of 1394 OHCI controller where Linux
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system runs. The unit directory can be found by the other node on the same bus.
|
|
Linux system running on the node can transfer isochronous packet with audio
|
|
data frame to the unit. This program can receive the packet and demultiplex the
|
|
audio data frame.
|
|
|
|
.TP
|
|
.B \-\-snoop
|
|
|
|
This option allows this program to run snoop mode. In this mode, libffado
|
|
listens isochronous channels to which device transfers isochronous packet. When
|
|
isochronous communication starts by any unit on the same bus, the packets can
|
|
be handled by this program.
|
|
|
|
.TP
|
|
.B \-\-sched\-priority=#
|
|
|
|
This option executes
|
|
.I pthread_setschedparam()
|
|
in a call of
|
|
.I ffado_streaming_init()
|
|
to configure
|
|
scheduling policy and given value as its priority for threads related to
|
|
isochronous communication.
|
|
The given value should be within
|
|
.I RLIMIT_RTPRIO
|
|
parameter of process. Please read
|
|
.I getrlimit(2)
|
|
for details.
|
|
|
|
.SH POSIX SIGNALS
|
|
During transmission,
|
|
.I SIGINT
|
|
and
|
|
.I SIGTERM
|
|
will close handled files and PCM substream to be going to finish run time.
|
|
|
|
.I SIGTSTP
|
|
will suspend PCM substream and
|
|
.I SIGCONT
|
|
will resume it. No XRUNs are expected. With libffado backend, the suspend/resume
|
|
is not supported and runtime is aborted immediately.
|
|
|
|
The other signals perform default behaviours.
|
|
|
|
.SH EXAMPLES
|
|
|
|
.PP
|
|
.in +4n
|
|
.EX
|
|
.B $ axfer transfer playback \-d 1 something
|
|
.EE
|
|
.in
|
|
.PP
|
|
|
|
The above will transfer audio data frame in \(aqsomething\(aq file for playback
|
|
during 1 second. The sample format is detected automatically as a result to
|
|
parse \(aqsomething\(aq as long as it\(aqs compliant to one of Microsoft/IBM
|
|
RIFF/Wave, Sparc AU, Creative Tech. voice formats. If nothing detected,
|
|
.I \-r
|
|
,
|
|
.I \-c
|
|
and
|
|
.I \-f
|
|
should be given,
|
|
or
|
|
.I \-f
|
|
should be given with special format.
|
|
|
|
.PP
|
|
.in +4n
|
|
.EX
|
|
.B $ axfer transfer playback \-r 22050 \-c 1 \-f S16_LE \-t raw something
|
|
.EE
|
|
.in
|
|
.PP
|
|
|
|
The above will transfer audio data frame in \(aqsomething\(aq file including no
|
|
information of sample format, as sample format of 22050 Hz, monaural, signed 16
|
|
bit little endian PCM for playback. The transmission continues till catching
|
|
.I SIGINT
|
|
from keyboard or
|
|
.I SIGTERM
|
|
by
|
|
.I kill(1)
|
|
\&.
|
|
|
|
.PP
|
|
.in +4n
|
|
.EX
|
|
.B $ axfer transfer capture \-d 10 \-f cd something.wav
|
|
.EE
|
|
.in
|
|
.PP
|
|
|
|
The above will transfer audio data frame to \(aqsomething.wav\(aq file as
|
|
sample format of 44.1 kHz, 2 channels, signed 16 bit little endian PCM, during
|
|
10 seconds. The file format is Microsoft/IBM RIFF/Wave according to suffix of
|
|
the given
|
|
.I filepath
|
|
\&.
|
|
|
|
.PP
|
|
.in +4n
|
|
.EX
|
|
.B $ axfer transfer capture \-s 1024 \-r 48000 \-c 2 \-f S32_BE \-I \-t au channels
|
|
.EE
|
|
.in
|
|
.PP
|
|
|
|
The above will transfer audio data frame as sample format of 48.0 kHz, 2
|
|
channels, signed 32 bit big endian PCM for 1,024 number of data frames to files
|
|
named \(aqchannels\-1.au\(aq and \(aqchannels\-2.au\(aq.
|
|
|
|
.SH SCHEDULING MODEL
|
|
|
|
In a design of ALSA PCM core, runtime of PCM substream supports two modes;
|
|
.I period\-wakeup
|
|
and
|
|
.I no\-period\-wakeup.
|
|
These two modes are for different scheduling models.
|
|
|
|
.SS IRQ\-based scheduling model
|
|
|
|
As a default,
|
|
.I period\-wakeup
|
|
mode is used. In this mode, in\-kernel drivers should operate hardware to
|
|
generate periodical notification for transmission of audio data frame. The
|
|
interval of notification is equivalent to the same amount of audio data frame
|
|
as one period of buffer, against actual time.
|
|
|
|
In a handler assigned to the notification, a helper function of ALSA PCM core
|
|
is called to update a position to head of hardware transmission, then compare
|
|
it with a position to head of application operation to judge overrun/underrun
|
|
(XRUN) and to wake up blocked processes.
|
|
|
|
For this purpose, hardware IRQ of controller for serial audio bus such as
|
|
Inter\-IC sound is typically used. In this case, the controller generates the
|
|
IRQ according to transmission on the serial audio bus. In the handler assigned
|
|
to the IRQ, direct media access (DMA) transmission is requested between
|
|
dedicated host memory and device memory.
|
|
|
|
If target hardware doesn't support this kind of mechanism, the periodical
|
|
notification should be emulated by any timer; e.g. hrtimer, kernel timer.
|
|
External PCM plugins generated by PCM plugin SDK in alsa\-lib should also
|
|
emulate the above behaviour.
|
|
|
|
In this mode, PCM applications are programmed according to typical way of I/O
|
|
operations. They execute blocking system calls to read/write audio data frame
|
|
in buffer of PCM substream, or blocking system calls to wait until any audio
|
|
data frame is available. In
|
|
.I axfer
|
|
, this is called
|
|
.I IRQ\-based
|
|
scheduling model and a default behaviour. Users can explicitly configure this
|
|
mode by usage of
|
|
.I \-\-sched\-model
|
|
option with
|
|
.I irq
|
|
value.
|
|
|
|
.SS Timer\-based scheduling model
|
|
|
|
The
|
|
.I no\-period\-wakeup
|
|
mode is an optional mode of runtime of PCM substream. The mode assumes a
|
|
specific feature of hardware and assist of in\-kernel driver and PCM
|
|
applications. In this mode, in\-kernel drivers don't operate hardware to
|
|
generate periodical notification for transmission of audio data frame.
|
|
The hardware should automatically continue transmission of audio data frame
|
|
without periodical operation of the drivers; e.g. according to auto\-triggered
|
|
DMA transmission, a chain of registered descriptors.
|
|
|
|
In this mode, nothing wakes up blocked processes, therefore PCM applications
|
|
should be programmed without any blocking operation. For this reason, this mode
|
|
is enabled when the PCM applications explicitly configure hardware parameter to
|
|
runtime of PCM substream, to prevent disorder of existing applications.
|
|
Additionally, nothing maintains timing for transmission of audio data frame,
|
|
therefore the PCM applications should voluntarily handle any timer to queue
|
|
audio data frame in buffer of the PCM substream for lapse of time. Furthermore,
|
|
instead of driver, the PCM application should call a helper function of ALSA
|
|
PCM core to update a position to head of hardware transmission and to check
|
|
XRUN.
|
|
|
|
In
|
|
.I axfer
|
|
, this is called
|
|
.I timer\-based
|
|
scheduling model and available as long as hardware/driver assists
|
|
.I no\-period\-wakeup
|
|
runtime. Users should explicitly set this mode by usage of
|
|
.I \-\-sched\-model
|
|
option with
|
|
.I timer
|
|
value.
|
|
|
|
In the scheduling model, PCM applications need to care of available space on
|
|
PCM buffer by lapse of time, typically by yielding CPU and wait for
|
|
rescheduling. For the yielding, timeout is calculated for preferable amount of
|
|
PCM frames to process. This is convenient to a kind of applications, like sound
|
|
servers. when an I/O thread of the server wait for the timeout, the other
|
|
threads can process audio data frames for server clients. Furthermore, with
|
|
usage of rewinding/forwarding, applications can achieve low latency between
|
|
transmission position and handling position even if they uses large size of
|
|
PCM buffers.
|
|
|
|
.SS Advantages and issues
|
|
|
|
Ideally, timer\-based scheduling model has some advantages than IRQ\-based
|
|
scheduling model. At first, no interrupt context runs for PCM substream. The
|
|
PCM substream is handled in any process context only. No need to care of race
|
|
conditions between IRQ and process contexts. This reduces some concerns for
|
|
some developers of drivers and applications. Secondary, CPU time is not used
|
|
for handlers on the interrupt context. The CPU time can be dedicated for the
|
|
other tasks. This is good in a point of Time Sharing System. Thirdly, hardware
|
|
is not configured to generate interrupts. This is good in a point of reduction
|
|
of overall power consumption possibly.
|
|
|
|
In either scheduling model, the hardware should allow drivers to read the
|
|
number of audio data frame transferred between the dedicated memory and the
|
|
device memory for audio serial bus. However, in timer\-based scheduling model,
|
|
fine granularity and accuracy of the value is important. Actually hardware
|
|
performs transmission between dedicated memory and device memory for a small
|
|
batch of audio data frames or bytes. In a view of PCM applications, the
|
|
granularity in current transmission is required to decide correct timeout for
|
|
each I/O operation. As of Linux kernel v4.21, ALSA PCM interface between
|
|
kernel/userspace has no feature to report it.
|
|
|
|
.SH COMPATIBILITY TO APLAY
|
|
|
|
The
|
|
.B transfer
|
|
subcommand of
|
|
.B axfer
|
|
is designed to keep compatibility to aplay(1). However some options below are
|
|
not compatible due to several technical reasons.
|
|
|
|
.TP
|
|
.I \-I, \-\-separate\-channels
|
|
This option is supported just for files to store audio data frames corresponding
|
|
to each channel. In aplay(1) implementation, this option has an additional
|
|
effect to use PCM buffer aligned to non\-interleaved order if a target device
|
|
supports. As of 2018, PCM buffer of non\-interleaved order is hardly used by
|
|
sound devices.
|
|
|
|
.TP
|
|
.I \-A, \-\-avail\-min=#
|
|
This option indicates threshold to wake up blocked process in a unit of
|
|
audio data frame. Against aplay(1) implementation, this option has no effect
|
|
with
|
|
.I \-\-mmap
|
|
option as well as
|
|
.I timer
|
|
of
|
|
.I \-\-sched\-model
|
|
option.
|
|
|
|
.TP
|
|
.I \-R, \-\-start\-delay=#
|
|
This option indicates threshold to start prepared PCM substream in a unit of
|
|
audio data frame. Against aplay(1) implementation, this option has no effect
|
|
with
|
|
.I \-\-mmap
|
|
option as well as
|
|
.I timer
|
|
of
|
|
.I \-\-sched\-model
|
|
option.
|
|
|
|
.TP
|
|
.I \-T, \-\-stop\-delay=#
|
|
This option indicates threshold to stop running PCM substream in a unit of
|
|
audio data frame. Against aplay(1) implementation, this option has no effect
|
|
with
|
|
.I \-\-mmap
|
|
option as well as
|
|
.I timer
|
|
of
|
|
.I \-\-sched\-model
|
|
option.
|
|
|
|
.TP
|
|
.I \-\-max\-file\-time=#
|
|
This option is unsupported. In aplay(1) implementation, the option has an
|
|
effect for capture transmission to save files up to the same number of data
|
|
frames as the given value by second unit, or the maximum number of data frames
|
|
supported by used file format. When reaching to the limitation, used file is
|
|
closed, then new file is opened and audio data frames are written. However, this
|
|
option requires extra handling of files and shall increase complexity of main
|
|
loop of axfer.
|
|
|
|
.TP
|
|
.I \-\-use\-strftime=FORMAT
|
|
This option is unsupported. In aplay(1) implementation, the option has an effect
|
|
for capture transmission to generate file paths according to given format in
|
|
which some extra formats are available as well as formats supported by
|
|
strftime(3). However, this option requires extra string processing for file
|
|
paths and it\(aqs bothersome if written in C language.
|
|
|
|
.TP
|
|
.I \-\-process\-id\-file=FILEPATH
|
|
This option is unsupported. In aplay(1) implementation, the option has an effect
|
|
to create a file for given value and write out process ID to it. This file
|
|
allows users to get process ID and send any POSIX signal to aplay process.
|
|
However, this idea has some troubles for file locking when multiple aplay
|
|
processes run with the same file.
|
|
|
|
.TP
|
|
.I \-V, \-\-vumeter=TYPE
|
|
This option is not supported at present. In aplay(1) implementation, this option
|
|
has an effect to occupy stdout with some terminal control characters and display
|
|
vumeter for monaural and stereo channels. However, some problems lay; this
|
|
feature is just for audio data frames with PCM format, this feature brings
|
|
disorder of terminal after aborting, stdout is not available for pipeline.
|
|
|
|
.TP
|
|
.I \-i, \-\-interactive
|
|
This option is not supported at present. In aplay(1) implementation, this option
|
|
has an effect to occupy stdin for key input and suspend/resume PCM substream
|
|
according to pushed enter key. However, this feature requires an additional
|
|
input handling in main loop and leave bothersome operation to maintain PCM
|
|
substream.
|
|
|
|
.TP
|
|
.I \-m, \-\-chmap=CH1,CH2,...
|
|
ALSA PCM core and control core doesn't support this feature, therefore
|
|
remapping should be done in userspace. This brings overhead to align audio
|
|
data frames, especially for mmap operation. Furthermore, as of alsa-lib v1.1.8,
|
|
some plugins don't support this feature expectedly, thus this option is a lack
|
|
of transparent operation. At present, this option is not supported yet not to
|
|
confuse users.
|
|
|
|
.TP
|
|
.I SIGTSTP, SIGCONT
|
|
This performs suspend/resume of PCM substream. In aplay(1) implementation,
|
|
these operations bring XRUN state to the substream, and suspend/resume is done
|
|
in interactive mode in the above. Some developers use the signal for recovery
|
|
test from XRUN. At present, no alternative is supported for the test.
|
|
|
|
.TP
|
|
.I SIGUSR1
|
|
This is not supported. In aplay(1) implementation, this signal is assigned to a
|
|
handler to close a current file to store audio data frame and open a new file
|
|
to continue processing. However, as well as
|
|
.I \-\-max\-file\-time
|
|
option, this option should increase complexity of main loop of axfer.
|
|
|
|
.SH DESIGN
|
|
|
|
.SS Modular structure
|
|
|
|
This program consists of three modules;
|
|
.I xfer
|
|
,
|
|
.I mapper
|
|
and
|
|
.I container
|
|
\&.
|
|
Each module has an abstraction layer to enable actual implementation.
|
|
|
|
.nf
|
|
-------- ---------- -------------
|
|
device <-> | xfer | <-> | mapper | <-> | container | <-> file
|
|
-------- ---------- -------------
|
|
libasound single wav
|
|
libffado multiple au
|
|
voc
|
|
raw
|
|
.fi
|
|
|
|
The
|
|
.I xfer
|
|
module performs actual transmission to devices and nodes. The module can have
|
|
several transmission backends. As a default backend,
|
|
.I libasound
|
|
backend is used to perform transmission via alsa\-lib APIs. The module allows
|
|
each backend to parse own command line options.
|
|
|
|
The
|
|
.I container
|
|
module performs to read/write audio data frame via descriptor for file/stream
|
|
of multimedia container or raw data. The module automatically detect type of
|
|
multimedia container and parse parameters in its metadata of data header. At
|
|
present, three types of multimedia containers are supported; Microsoft/IBM
|
|
RIFF/Wave (
|
|
.I wav
|
|
), Sparc AU (
|
|
.I au
|
|
) and Creative Technology voice (
|
|
.I voc
|
|
). Additionally, a special container is prepared for raw audio data (
|
|
.I raw
|
|
).
|
|
|
|
The
|
|
.I mapper
|
|
module handles buffer layout and alignment for transmission of audio data frame.
|
|
The module has two implementations;
|
|
.I single
|
|
and
|
|
.I multiple
|
|
\&.
|
|
The
|
|
.I single
|
|
backend uses one container to construct the buffer. The
|
|
.I multiple
|
|
backend uses several containers to construct it.
|
|
|
|
.SS Care of copying audio data frame
|
|
|
|
Between the
|
|
.I xfer
|
|
module and
|
|
.I mapper
|
|
module, a pointer to buffer including audio data frames is passed. This buffer
|
|
has two shapes for interleaved and non\-interleaved order. For the former, the
|
|
pointer points to one buffer. For the latter, the pointer points to an array in
|
|
which each element points to one buffer. Between the
|
|
.I mapper
|
|
module and
|
|
.I container
|
|
module, a pointer to one buffer is passed because supported media containers
|
|
including raw type store audio data frames in interleaved order.
|
|
|
|
In passing audio data frame between the modules, axfer is programmed to avoid
|
|
copying between a buffer to another buffer as much as possible. For example, in
|
|
some scenarios below, no copying occurs between modules.
|
|
|
|
- xfer(mmap/interleaved), mapper(single), container(any)
|
|
- xfer(mmap/non\-interleaved), mapper(multiple), containers(any)
|
|
|
|
.SS Unit test
|
|
|
|
For each of the
|
|
.I mapper
|
|
and
|
|
.I container
|
|
module, unit test is available. To run the tests, execute below command:
|
|
|
|
.nf
|
|
$ make test
|
|
.fi
|
|
|
|
Each test iterates writing to file and reading to the file for many times and it
|
|
takes long time to finish. Please take care of the execution time if running on
|
|
any CI environment.
|
|
|
|
.SH SEE ALSO
|
|
\fB
|
|
axfer(1),
|
|
axfer\-list(1),
|
|
alsamixer(1),
|
|
amixer(1)
|
|
\fP
|
|
|
|
.SH AUTHOR
|
|
Takashi Sakamoto <o\-takashi@sakamocchi.jp>
|