include/asm-sparc64/audioio.h - kernel/msm-4.9 - Gitiles

 /*
  * include/asm-sparc/audioio.h
  *
  * Sparc Audio Midlayer
  * Copyright (C) 1996 Thomas K. Dyas (tdyas@noc.rutgers.edu)
  */

 #ifndef _AUDIOIO_H_
 #define _AUDIOIO_H_

 /*
  *	SunOS/Solaris /dev/audio interface
  */

 #if defined(__KERNEL__) || !defined(__GLIBC__) || (__GLIBC__ < 2)
 #include <linux/types.h>
 #include <linux/time.h>
 #include <linux/ioctl.h>
 #endif

 /*
  * This structure contains state information for audio device IO streams.
  */
 typedef struct audio_prinfo {
 	/*
 	 * The following values describe the audio data encoding.
 	 */
 	unsigned int sample_rate;	/* samples per second */
 	unsigned int channels;	/* number of interleaved channels */
 	unsigned int precision;	/* bit-width of each sample */
 	unsigned int encoding;	/* data encoding method */

 	/*
 	 * The following values control audio device configuration
 	 */
 	unsigned int gain;		/* gain level: 0 - 255 */
 	unsigned int port;		/* selected I/O port (see below) */
 	unsigned int avail_ports;	/* available I/O ports (see below) */
 	unsigned int _xxx[2];		/* Reserved for future use */

 	unsigned int buffer_size;	/* I/O buffer size */

 	/*
 	 * The following values describe driver state
 	 */
 	unsigned int samples;		/* number of samples converted */
 	unsigned int eof;		/* End Of File counter (play only) */

 	unsigned char	pause;		/* non-zero for pause, zero to resume */
 	unsigned char	error;		/* non-zero if overflow/underflow */
 	unsigned char	waiting;	/* non-zero if a process wants access */
 	unsigned char balance;	/* stereo channel balance */

 	unsigned short minordev;

 	/*
 	 * The following values are read-only state flags
 	 */
 	unsigned char open;		/* non-zero if open access permitted */
 	unsigned char active;		/* non-zero if I/O is active */
 } audio_prinfo_t;


 /*
  * This structure describes the current state of the audio device.
  */
 typedef struct audio_info {
 	/*
 	 * Per-stream information
 	 */
 	audio_prinfo_t play;	/* output status information */
 	audio_prinfo_t record;	/* input status information */

 	/*
 	 * Per-unit/channel information
 	 */
 	unsigned int monitor_gain;	/* input to output mix: 0 - 255 */
 	unsigned char output_muted;	/* non-zero if output is muted */
 	unsigned char _xxx[3];	/* Reserved for future use */
 	unsigned int _yyy[3];		/* Reserved for future use */
 } audio_info_t;


 /*
  * Audio encoding types
  */
 #define	AUDIO_ENCODING_NONE	(0)	/* no encoding assigned	  */
 #define	AUDIO_ENCODING_ULAW	(1)	/* u-law encoding	  */
 #define	AUDIO_ENCODING_ALAW	(2)	/* A-law encoding	  */
 #define	AUDIO_ENCODING_LINEAR	(3)	/* Linear PCM encoding	  */
 #define AUDIO_ENCODING_FLOAT    (4)     /* IEEE float (-1. <-> +1.) */
 #define	AUDIO_ENCODING_DVI	(104)	/* DVI ADPCM		  */
 #define	AUDIO_ENCODING_LINEAR8	(105)	/* 8 bit UNSIGNED	  */
 #define	AUDIO_ENCODING_LINEARLE	(106)	/* Linear PCM LE encoding */

 /*
  * These ranges apply to record, play, and monitor gain values
  */
 #define	AUDIO_MIN_GAIN	(0)	/* minimum gain value */
 #define	AUDIO_MAX_GAIN	(255)	/* maximum gain value */

 /*
  * These values apply to the balance field to adjust channel gain values
  */
 #define	AUDIO_LEFT_BALANCE	(0)	/* left channel only	*/
 #define	AUDIO_MID_BALANCE	(32)	/* equal left/right channel */
 #define	AUDIO_RIGHT_BALANCE	(64)	/* right channel only	*/
 #define	AUDIO_BALANCE_SHIFT	(3)

 /*
  * Generic minimum/maximum limits for number of channels, both modes
  */
 #define	AUDIO_MIN_PLAY_CHANNELS	(1)
 #define	AUDIO_MAX_PLAY_CHANNELS	(4)
 #define	AUDIO_MIN_REC_CHANNELS	(1)
 #define	AUDIO_MAX_REC_CHANNELS	(4)

 /*
  * Generic minimum/maximum limits for sample precision
  */
 #define	AUDIO_MIN_PLAY_PRECISION	(8)
 #define	AUDIO_MAX_PLAY_PRECISION	(32)
 #define	AUDIO_MIN_REC_PRECISION		(8)
 #define	AUDIO_MAX_REC_PRECISION		(32)

 /*
  * Define some convenient names for typical audio ports
  */
 /*
  * output ports (several may be enabled simultaneously)
  */
 #define	AUDIO_SPEAKER		0x01	/* output to built-in speaker */
 #define	AUDIO_HEADPHONE		0x02	/* output to headphone jack */
 #define	AUDIO_LINE_OUT		0x04	/* output to line out	 */

 /*
  * input ports (usually only one at a time)
  */
 #define	AUDIO_MICROPHONE	0x01	/* input from microphone */
 #define	AUDIO_LINE_IN		0x02	/* input from line in	 */
 #define	AUDIO_CD		0x04	/* input from on-board CD inputs */
 #define	AUDIO_INTERNAL_CD_IN	AUDIO_CD	/* input from internal CDROM */
 #define AUDIO_ANALOG_LOOPBACK   0x40    /* input from output */


 /*
  * This macro initializes an audio_info structure to 'harmless' values.
  * Note that (~0) might not be a harmless value for a flag that was
  * a signed int.
  */
 #define	AUDIO_INITINFO(i)	{					\
 	unsigned int	*__x__;						\
 	for (__x__ = (unsigned int *)(i);				\
 	    (char *) __x__ < (((char *)(i)) + sizeof (audio_info_t));	\
 	    *__x__++ = ~0);						\
 }

 /*
  * These allow testing for what the user wants to set
  */
 #define AUD_INITVALUE   (~0)
 #define Modify(X)       ((unsigned int)(X) != AUD_INITVALUE)
 #define Modifys(X)      ((X) != (unsigned short)AUD_INITVALUE)
 #define Modifyc(X)      ((X) != (unsigned char)AUD_INITVALUE)

 /*
  * Parameter for the AUDIO_GETDEV ioctl to determine current
  * audio devices.
  */
 #define	MAX_AUDIO_DEV_LEN	(16)
 typedef struct audio_device {
 	char name[MAX_AUDIO_DEV_LEN];
 	char version[MAX_AUDIO_DEV_LEN];
 	char config[MAX_AUDIO_DEV_LEN];
 } audio_device_t;


 /*
  * Ioctl calls for the audio device.
  */

 /*
  * AUDIO_GETINFO retrieves the current state of the audio device.
  *
  * AUDIO_SETINFO copies all fields of the audio_info structure whose
  * values are not set to the initialized value (-1) to the device state.
  * It performs an implicit AUDIO_GETINFO to return the new state of the
  * device.  Note that the record.samples and play.samples fields are set
  * to the last value before the AUDIO_SETINFO took effect.  This allows
  * an application to reset the counters while atomically retrieving the
  * last value.
  *
  * AUDIO_DRAIN suspends the calling process until the write buffers are
  * empty.
  *
  * AUDIO_GETDEV returns a structure of type audio_device_t which contains
  * three strings.  The string "name" is a short identifying string (for
  * example, the SBus Fcode name string), the string "version" identifies
  * the current version of the device, and the "config" string identifies
  * the specific configuration of the audio stream.  All fields are
  * device-dependent -- see the device specific manual pages for details.
  *
  * AUDIO_GETDEV_SUNOS returns a number which is an audio device defined
  * herein (making it not too portable)
  *
  * AUDIO_FLUSH stops all playback and recording, clears all queued buffers,
  * resets error counters, and restarts recording and playback as appropriate
  * for the current sampling mode.
  */
 #define	AUDIO_GETINFO	_IOR('A', 1, audio_info_t)
 #define	AUDIO_SETINFO	_IOWR('A', 2, audio_info_t)
 #define	AUDIO_DRAIN	_IO('A', 3)
 #define	AUDIO_GETDEV	_IOR('A', 4, audio_device_t)
 #define	AUDIO_GETDEV_SUNOS	_IOR('A', 4, int)
 #define AUDIO_FLUSH     _IO('A', 5)

 /* Define possible audio hardware configurations for
  * old SunOS-style AUDIO_GETDEV ioctl */
 #define AUDIO_DEV_UNKNOWN       (0)     /* not defined */
 #define AUDIO_DEV_AMD           (1)     /* audioamd device */
 #define AUDIO_DEV_SPEAKERBOX    (2)     /* dbri device with speakerbox */
 #define AUDIO_DEV_CODEC         (3)     /* dbri device (internal speaker) */
 #define AUDIO_DEV_CS4231        (5)     /* cs4231 device */

 /*
  * The following ioctl sets the audio device into an internal loopback mode,
  * if the hardware supports this.  The argument is TRUE to set loopback,
  * FALSE to reset to normal operation.  If the hardware does not support
  * internal loopback, the ioctl should fail with EINVAL.
  * Causes ADC data to be digitally mixed in and sent to the DAC.
  */
 #define	AUDIO_DIAG_LOOPBACK	_IOW('A', 101, int)

 #endif /* _AUDIOIO_H_ */
	/*
	* include/asm-sparc/audioio.h
	*
	* Sparc Audio Midlayer
	* Copyright (C) 1996 Thomas K. Dyas (tdyas@noc.rutgers.edu)
	*/

	#ifndef _AUDIOIO_H_
	#define _AUDIOIO_H_

	/*
	* SunOS/Solaris /dev/audio interface
	*/

	#if defined(__KERNEL__) \|\| !defined(__GLIBC__) \|\| (__GLIBC__ < 2)
	#include <linux/types.h>
	#include <linux/time.h>
	#include <linux/ioctl.h>
	#endif

	/*
	* This structure contains state information for audio device IO streams.
	*/
	typedef struct audio_prinfo {
	/*
	* The following values describe the audio data encoding.
	*/
	unsigned int sample_rate; /* samples per second */
	unsigned int channels; /* number of interleaved channels */
	unsigned int precision; /* bit-width of each sample */
	unsigned int encoding; /* data encoding method */

	/*
	* The following values control audio device configuration
	*/
	unsigned int gain; /* gain level: 0 - 255 */
	unsigned int port; /* selected I/O port (see below) */
	unsigned int avail_ports; /* available I/O ports (see below) */
	unsigned int _xxx[2]; /* Reserved for future use */

	unsigned int buffer_size; /* I/O buffer size */

	/*
	* The following values describe driver state
	*/
	unsigned int samples; /* number of samples converted */
	unsigned int eof; /* End Of File counter (play only) */

	unsigned char pause; /* non-zero for pause, zero to resume */
	unsigned char error; /* non-zero if overflow/underflow */
	unsigned char waiting; /* non-zero if a process wants access */
	unsigned char balance; /* stereo channel balance */

	unsigned short minordev;

	/*
	* The following values are read-only state flags
	*/
	unsigned char open; /* non-zero if open access permitted */
	unsigned char active; /* non-zero if I/O is active */
	} audio_prinfo_t;


	/*
	* This structure describes the current state of the audio device.
	*/
	typedef struct audio_info {
	/*
	* Per-stream information
	*/
	audio_prinfo_t play; /* output status information */
	audio_prinfo_t record; /* input status information */

	/*
	* Per-unit/channel information
	*/
	unsigned int monitor_gain; /* input to output mix: 0 - 255 */
	unsigned char output_muted; /* non-zero if output is muted */
	unsigned char _xxx[3]; /* Reserved for future use */
	unsigned int _yyy[3]; /* Reserved for future use */
	} audio_info_t;


	/*
	* Audio encoding types
	*/
	#define AUDIO_ENCODING_NONE (0) /* no encoding assigned */
	#define AUDIO_ENCODING_ULAW (1) /* u-law encoding */
	#define AUDIO_ENCODING_ALAW (2) /* A-law encoding */
	#define AUDIO_ENCODING_LINEAR (3) /* Linear PCM encoding */
	#define AUDIO_ENCODING_FLOAT (4) /* IEEE float (-1. <-> +1.) */
	#define AUDIO_ENCODING_DVI (104) /* DVI ADPCM */
	#define AUDIO_ENCODING_LINEAR8 (105) /* 8 bit UNSIGNED */
	#define AUDIO_ENCODING_LINEARLE (106) /* Linear PCM LE encoding */

	/*
	* These ranges apply to record, play, and monitor gain values
	*/
	#define AUDIO_MIN_GAIN (0) /* minimum gain value */
	#define AUDIO_MAX_GAIN (255) /* maximum gain value */

	/*
	* These values apply to the balance field to adjust channel gain values
	*/
	#define AUDIO_LEFT_BALANCE (0) /* left channel only */
	#define AUDIO_MID_BALANCE (32) /* equal left/right channel */
	#define AUDIO_RIGHT_BALANCE (64) /* right channel only */
	#define AUDIO_BALANCE_SHIFT (3)

	/*
	* Generic minimum/maximum limits for number of channels, both modes
	*/
	#define AUDIO_MIN_PLAY_CHANNELS (1)
	#define AUDIO_MAX_PLAY_CHANNELS (4)
	#define AUDIO_MIN_REC_CHANNELS (1)
	#define AUDIO_MAX_REC_CHANNELS (4)

	/*
	* Generic minimum/maximum limits for sample precision
	*/
	#define AUDIO_MIN_PLAY_PRECISION (8)
	#define AUDIO_MAX_PLAY_PRECISION (32)
	#define AUDIO_MIN_REC_PRECISION (8)
	#define AUDIO_MAX_REC_PRECISION (32)

	/*
	* Define some convenient names for typical audio ports
	*/
	/*
	* output ports (several may be enabled simultaneously)
	*/
	#define AUDIO_SPEAKER 0x01 /* output to built-in speaker */
	#define AUDIO_HEADPHONE 0x02 /* output to headphone jack */
	#define AUDIO_LINE_OUT 0x04 /* output to line out */

	/*
	* input ports (usually only one at a time)
	*/
	#define AUDIO_MICROPHONE 0x01 /* input from microphone */
	#define AUDIO_LINE_IN 0x02 /* input from line in */
	#define AUDIO_CD 0x04 /* input from on-board CD inputs */
	#define AUDIO_INTERNAL_CD_IN AUDIO_CD /* input from internal CDROM */
	#define AUDIO_ANALOG_LOOPBACK 0x40 /* input from output */


	/*
	* This macro initializes an audio_info structure to 'harmless' values.
	* Note that (~0) might not be a harmless value for a flag that was
	* a signed int.
	*/
	#define AUDIO_INITINFO(i) { \
	unsigned int *__x__; \
	for (__x__ = (unsigned int *)(i); \
	(char ) __x__ < (((char )(i)) + sizeof (audio_info_t)); \
	*__x__++ = ~0); \
	}

	/*
	* These allow testing for what the user wants to set
	*/
	#define AUD_INITVALUE (~0)
	#define Modify(X) ((unsigned int)(X) != AUD_INITVALUE)
	#define Modifys(X) ((X) != (unsigned short)AUD_INITVALUE)
	#define Modifyc(X) ((X) != (unsigned char)AUD_INITVALUE)

	/*
	* Parameter for the AUDIO_GETDEV ioctl to determine current
	* audio devices.
	*/
	#define MAX_AUDIO_DEV_LEN (16)
	typedef struct audio_device {
	char name[MAX_AUDIO_DEV_LEN];
	char version[MAX_AUDIO_DEV_LEN];
	char config[MAX_AUDIO_DEV_LEN];
	} audio_device_t;


	/*
	* Ioctl calls for the audio device.
	*/

	/*
	* AUDIO_GETINFO retrieves the current state of the audio device.
	*
	* AUDIO_SETINFO copies all fields of the audio_info structure whose
	* values are not set to the initialized value (-1) to the device state.
	* It performs an implicit AUDIO_GETINFO to return the new state of the
	* device. Note that the record.samples and play.samples fields are set
	* to the last value before the AUDIO_SETINFO took effect. This allows
	* an application to reset the counters while atomically retrieving the
	* last value.
	*
	* AUDIO_DRAIN suspends the calling process until the write buffers are
	* empty.
	*
	* AUDIO_GETDEV returns a structure of type audio_device_t which contains
	* three strings. The string "name" is a short identifying string (for
	* example, the SBus Fcode name string), the string "version" identifies
	* the current version of the device, and the "config" string identifies
	* the specific configuration of the audio stream. All fields are
	* device-dependent -- see the device specific manual pages for details.
	*
	* AUDIO_GETDEV_SUNOS returns a number which is an audio device defined
	* herein (making it not too portable)
	*
	* AUDIO_FLUSH stops all playback and recording, clears all queued buffers,
	* resets error counters, and restarts recording and playback as appropriate
	* for the current sampling mode.
	*/
	#define AUDIO_GETINFO _IOR('A', 1, audio_info_t)
	#define AUDIO_SETINFO _IOWR('A', 2, audio_info_t)
	#define AUDIO_DRAIN _IO('A', 3)
	#define AUDIO_GETDEV _IOR('A', 4, audio_device_t)
	#define AUDIO_GETDEV_SUNOS _IOR('A', 4, int)
	#define AUDIO_FLUSH _IO('A', 5)

	/* Define possible audio hardware configurations for
	* old SunOS-style AUDIO_GETDEV ioctl */
	#define AUDIO_DEV_UNKNOWN (0) /* not defined */
	#define AUDIO_DEV_AMD (1) /* audioamd device */
	#define AUDIO_DEV_SPEAKERBOX (2) /* dbri device with speakerbox */
	#define AUDIO_DEV_CODEC (3) /* dbri device (internal speaker) */
	#define AUDIO_DEV_CS4231 (5) /* cs4231 device */

	/*
	* The following ioctl sets the audio device into an internal loopback mode,
	* if the hardware supports this. The argument is TRUE to set loopback,
	* FALSE to reset to normal operation. If the hardware does not support
	* internal loopback, the ioctl should fail with EINVAL.
	* Causes ADC data to be digitally mixed in and sent to the DAC.
	*/
	#define AUDIO_DIAG_LOOPBACK _IOW('A', 101, int)

	#endif /* _AUDIOIO_H_ */