/*
* 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)
/*
* Linux kernel internal implementation.
*/
#ifdef __KERNEL__
#include <linux/types.h>
#include <linux/fs.h>
#include <linux/tqueue.h>
#include <linux/wait.h>
#define SDF_OPEN_WRITE 0x00000001
#define SDF_OPEN_READ 0x00000002
struct sparcaudio_ringbuffer
{
__u8 *rb_start, *rb_end; /* start, end of this memory buffer */
__u8 *rb_in, *rb_out; /* input, output pointers */
int rb_fragsize; /* size of an audio frag */
int rb_numfrags; /* number of frags */
int rb_count, rb_hiwat, rb_lowat; /* bytes in use, hi/lo wat points */
int rb_bufsize; /* total size of buffer */
};
struct sparcaudio_driver
{
const char * name;
struct sparcaudio_operations *ops;
void *private;
unsigned long flags;
struct strevent *sd_siglist;
/* duplex: 0=simplex, 1=duplex, 2=loop */
int sd_sigflags, duplex;
/* Which audio device are we? */
int index;
/* This device */
struct linux_sbus_device *dev;
/* Processes blocked on open() sit here. */
struct wait_queue *open_wait;
/* Task queue for this driver's bottom half. */
struct tq_struct tqueue;
/* Start of ring buffer support */
__u8 *input_buffer, *output_buffer;
/* Support for a circular queue of output buffers. */
__u8 **output_buffers;
size_t *output_sizes, output_size, output_buffer_size;
int num_output_buffers, output_front, output_rear, output_offset;
int output_count, output_active, playing_count, output_eof;
struct wait_queue *output_write_wait, *output_drain_wait;
char *output_notify;
/* Support for a circular queue of input buffers. */
__u8 **input_buffers;
size_t *input_sizes, input_size, input_buffer_size;
int num_input_buffers, input_front, input_rear, input_offset;
int input_count, input_active, recording_count;
struct wait_queue *input_read_wait;
/* Select/poll waiters. */
struct wait_queue *poll_wait;
/* Hack to make it look like we support variable size buffers. */
int buffer_size;
};
struct sparcaudio_operations
{
int (*open)(struct inode *, struct file *, struct sparcaudio_driver *);
void (*release)(struct inode *, struct file *, struct sparcaudio_driver *);
int (*ioctl)(struct inode *, struct file *, unsigned int, unsigned long,
struct sparcaudio_driver *);
/* Ask driver to begin playing a buffer. */
void (*start_output)(struct sparcaudio_driver *, __u8 *, unsigned long);
/* Ask driver to stop playing a buffer. */
void (*stop_output)(struct sparcaudio_driver *);
/* Ask driver to begin recording into a buffer. */
void (*start_input)(struct sparcaudio_driver *, __u8 *, unsigned long);
/* Ask driver to stop recording. */
void (*stop_input)(struct sparcaudio_driver *);
/* Return driver name/version to caller. (/dev/audio specific) */
void (*sunaudio_getdev)(struct sparcaudio_driver *, audio_device_t *);
/* Get and set the output volume. (0-255) */
int (*set_output_volume)(struct sparcaudio_driver *, int);
int (*get_output_volume)(struct sparcaudio_driver *);
/* Get and set the input volume. (0-255) */
int (*set_input_volume)(struct sparcaudio_driver *, int);
int (*get_input_volume)(struct sparcaudio_driver *);
/* Get and set the monitor volume. (0-255) */
int (*set_monitor_volume)(struct sparcaudio_driver *, int);
int (*get_monitor_volume)(struct sparcaudio_driver *);
/* Get and set the output balance. (0-64) */
int (*set_output_balance)(struct sparcaudio_driver *, int);
int (*get_output_balance)(struct sparcaudio_driver *);
/* Get and set the input balance. (0-64) */
int (*set_input_balance)(struct sparcaudio_driver *, int);
int (*get_input_balance)(struct sparcaudio_driver *);
/* Get and set the output channels. (1-4) */
int (*set_output_channels)(struct sparcaudio_driver *, int);
int (*get_output_channels)(struct sparcaudio_driver *);
/* Get and set the input channels. (1-4) */
int (*set_input_channels)(struct sparcaudio_driver *, int);
int (*get_input_channels)(struct sparcaudio_driver *);
/* Get and set the output precision. (8-32) */
int (*set_output_precision)(struct sparcaudio_driver *, int);
int (*get_output_precision)(struct sparcaudio_driver *);
/* Get and set the input precision. (8-32) */
int (*set_input_precision)(struct sparcaudio_driver *, int);
int (*get_input_precision)(struct sparcaudio_driver *);
/* Get and set the output port. () */
int (*set_output_port)(struct sparcaudio_driver *, int);
int (*get_output_port)(struct sparcaudio_driver *);
/* Get and set the input port. () */
int (*set_input_port)(struct sparcaudio_driver *, int);
int (*get_input_port)(struct sparcaudio_driver *);
/* Get and set the output encoding. () */
int (*set_output_encoding)(struct sparcaudio_driver *, int);
int (*get_output_encoding)(struct sparcaudio_driver *);
/* Get and set the input encoding. () */
int (*set_input_encoding)(struct sparcaudio_driver *, int);
int (*get_input_encoding)(struct sparcaudio_driver *);
/* Get and set the output rate. () */
int (*set_output_rate)(struct sparcaudio_driver *, int);
int (*get_output_rate)(struct sparcaudio_driver *);
/* Get and set the input rate. () */
int (*set_input_rate)(struct sparcaudio_driver *, int);
int (*get_input_rate)(struct sparcaudio_driver *);
/* Return driver number to caller. (SunOS /dev/audio specific) */
int (*sunaudio_getdev_sunos)(struct sparcaudio_driver *);
/* Get available ports */
int (*get_output_ports)(struct sparcaudio_driver *);
int (*get_input_ports)(struct sparcaudio_driver *);
/* Get and set output mute */
int (*set_output_muted)(struct sparcaudio_driver *, int);
int (*get_output_muted)(struct sparcaudio_driver *);
/* Get and set output pause */
int (*set_output_pause)(struct sparcaudio_driver *, int);
int (*get_output_pause)(struct sparcaudio_driver *);
/* Get and set input pause */
int (*set_input_pause)(struct sparcaudio_driver *, int);
int (*get_input_pause)(struct sparcaudio_driver *);
/* Get and set output samples */
int (*set_output_samples)(struct sparcaudio_driver *, int);
int (*get_output_samples)(struct sparcaudio_driver *);
/* Get and set input samples */
int (*set_input_samples)(struct sparcaudio_driver *, int);
int (*get_input_samples)(struct sparcaudio_driver *);
/* Get and set output error */
int (*set_output_error)(struct sparcaudio_driver *, int);
int (*get_output_error)(struct sparcaudio_driver *);
/* Get and set input error */
int (*set_input_error)(struct sparcaudio_driver *, int);
int (*get_input_error)(struct sparcaudio_driver *);
/* Get supported encodings */
int (*get_formats)(struct sparcaudio_driver *);
};
extern int register_sparcaudio_driver(struct sparcaudio_driver *, int);
extern int unregister_sparcaudio_driver(struct sparcaudio_driver *, int);
extern void sparcaudio_output_done(struct sparcaudio_driver *, int);
extern void sparcaudio_input_done(struct sparcaudio_driver *, int);
extern int sparcaudio_init(void);
extern int amd7930_init(void);
extern int cs4231_init(void);
#endif
/* Mixer helper ioctls */
#define right(a) (((a >> 8) & 0xff) % 101)
#define left(a) ((a & 0xff) % 101)
/* Macros to convert between mixer stereo volumes and gain (mono) */
#define s_to_m(a) ((((left(a) + right(a)) * 255) / 200) % 256)
#define m_to_s(a) ((a * 100 / 255) + ((a * 100 / 255) << 8))
/* convert mixer stereo volume to balance */
#define s_to_b(a) (s_to_g(a) == 0) ? 32 : ((left(a) * AUDIO_RIGHT_BALANCE / (left(a) + right(a))))
/* convert mixer stereo volume to audio gain */
#define s_to_g(a) ((((right(a) + left(a)) * 255) / 200) % 256)
/* convert gain a and balance b to mixer volume */
#define b_to_s(a,b) (((((b * a * 200) / (AUDIO_RIGHT_BALANCE * 255)) % 100) << 8) + ((((AUDIO_RIGHT_BALANCE - b) * a * 200) / (AUDIO_RIGHT_BALANCE * 255)) % 100))
/* Device minor numbers */
#define SPARCAUDIO_MIXER_MINOR 0
/* No sequencer (1) */
/* No midi (2) */
#define SPARCAUDIO_DSP_MINOR 3
#define SPARCAUDIO_AUDIO_MINOR 4
#define SPARCAUDIO_DSP16_MINOR 5
#define SPARCAUDIO_STATUS_MINOR 6
#define SPARCAUDIO_AUDIOCTL_MINOR 7
/* No sequencer l2 (8) */
/* No sound processor (9) */
/* allocate 2^SPARCAUDIO_DEVICE_SHIFT minors per audio device */
#define SPARCAUDIO_DEVICE_SHIFT 4
/* With the coming of dummy devices this should perhaps be as high as 5? */
#define SPARCAUDIO_MAX_DEVICES 3
/* Streams crap for realaudio */
typedef
struct strevent {
struct strevent *se_next; /* next event for this stream or NULL*/
struct strevent *se_prev; /* previous event for this stream or last
* event if this is the first one*/
pid_t se_pid; /* process to be signaled */
short se_evs; /* events wanted */
} strevent_t;
typedef
struct stdata
{
struct stdata *sd_next ; /* all stdatas are linked together */
struct stdata *sd_prev ;
struct strevent *sd_siglist; /* processes to be sent SIGPOLL */
int sd_sigflags; /* logical OR of all siglist events */
} stdata_t;
#define I_NREAD _IOR('S',01, int)
#define I_NREAD_SOLARIS (('S'<<8)|1)
#define I_FLUSH _IO('S',05)
#define I_FLUSH_SOLARIS (('S'<<8)|5)
#define FLUSHR 1 /* flush read queue */
#define FLUSHW 2 /* flush write queue */
#define FLUSHRW 3 /* flush both queues */
#define I_SETSIG _IO('S',011)
#define I_SETSIG_SOLARIS (('S'<<8)|11)
#define S_INPUT 0x01
#define S_HIPRI 0x02
#define S_OUTPUT 0x04
#define S_MSG 0x08
#define S_ERROR 0x0010
#define S_HANGUP 0x0020
#define S_RDNORM 0x0040
#define S_WRNORM S_OUTPUT
#define S_RDBAND 0x0080
#define S_WRBAND 0x0100
#define S_BANDURG 0x0200
#define S_ALL 0x03FF
#define I_GETSIG _IOR('S',012,int)
#define I_GETSIG_SOLARIS (('S'<<8)|12)
#endif
