dev/audio/audio.c

1.7  nakayama /*	$NetBSD: audio.c,v 1.7 2019/05/13 08:50:25 nakayama Exp $	*/
1.2     isaki
1.2     isaki /*-
1.2     isaki  * Copyright (c) 2008 The NetBSD Foundation, Inc.
1.2     isaki  * All rights reserved.
1.2     isaki  *
1.2     isaki  * This code is derived from software contributed to The NetBSD Foundation
1.2     isaki  * by Andrew Doran.
1.2     isaki  *
1.2     isaki  * Redistribution and use in source and binary forms, with or without
1.2     isaki  * modification, are permitted provided that the following conditions
1.2     isaki  * are met:
1.2     isaki  * 1. Redistributions of source code must retain the above copyright
1.2     isaki  *    notice, this list of conditions and the following disclaimer.
1.2     isaki  * 2. Redistributions in binary form must reproduce the above copyright
1.2     isaki  *    notice, this list of conditions and the following disclaimer in the
1.2     isaki  *    documentation and/or other materials provided with the distribution.
1.2     isaki  *
1.2     isaki  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
1.2     isaki  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.2     isaki  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.2     isaki  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
1.2     isaki  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.2     isaki  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.2     isaki  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.2     isaki  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.2     isaki  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.2     isaki  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.2     isaki  * POSSIBILITY OF SUCH DAMAGE.
1.2     isaki  */
1.2     isaki
1.2     isaki /*
1.2     isaki  * Copyright (c) 1991-1993 Regents of the University of California.
1.2     isaki  * All rights reserved.
1.2     isaki  *
1.2     isaki  * Redistribution and use in source and binary forms, with or without
1.2     isaki  * modification, are permitted provided that the following conditions
1.2     isaki  * are met:
1.2     isaki  * 1. Redistributions of source code must retain the above copyright
1.2     isaki  *    notice, this list of conditions and the following disclaimer.
1.2     isaki  * 2. Redistributions in binary form must reproduce the above copyright
1.2     isaki  *    notice, this list of conditions and the following disclaimer in the
1.2     isaki  *    documentation and/or other materials provided with the distribution.
1.2     isaki  * 3. All advertising materials mentioning features or use of this software
1.2     isaki  *    must display the following acknowledgement:
1.2     isaki  *	This product includes software developed by the Computer Systems
1.2     isaki  *	Engineering Group at Lawrence Berkeley Laboratory.
1.2     isaki  * 4. Neither the name of the University nor of the Laboratory may be used
1.2     isaki  *    to endorse or promote products derived from this software without
1.2     isaki  *    specific prior written permission.
1.2     isaki  *
1.2     isaki  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
1.2     isaki  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
1.2     isaki  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
1.2     isaki  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
1.2     isaki  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
1.2     isaki  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
1.2     isaki  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.2     isaki  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
1.2     isaki  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
1.2     isaki  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
1.2     isaki  * SUCH DAMAGE.
1.2     isaki  */
1.2     isaki
1.2     isaki /*
1.2     isaki  * Locking: there are three locks per device.
1.2     isaki  *
1.2     isaki  * - sc_lock, provided by the underlying driver.  This is an adaptive lock,
1.2     isaki  *   returned in the second parameter to hw_if->get_locks().  It is known
1.2     isaki  *   as the "thread lock".
1.2     isaki  *
1.2     isaki  *   It serializes access to state in all places except the
1.2     isaki  *   driver's interrupt service routine.  This lock is taken from process
1.2     isaki  *   context (example: access to /dev/audio).  It is also taken from soft
1.2     isaki  *   interrupt handlers in this module, primarily to serialize delivery of
1.2     isaki  *   wakeups.  This lock may be used/provided by modules external to the
1.2     isaki  *   audio subsystem, so take care not to introduce a lock order problem.
1.2     isaki  *   LONG TERM SLEEPS MUST NOT OCCUR WITH THIS LOCK HELD.
1.2     isaki  *
1.2     isaki  * - sc_intr_lock, provided by the underlying driver.  This may be either a
1.2     isaki  *   spinlock (at IPL_SCHED or IPL_VM) or an adaptive lock (IPL_NONE or
1.2     isaki  *   IPL_SOFT*), returned in the first parameter to hw_if->get_locks().  It
1.2     isaki  *   is known as the "interrupt lock".
1.2     isaki  *
1.2     isaki  *   It provides atomic access to the device's hardware state, and to audio
1.2     isaki  *   channel data that may be accessed by the hardware driver's ISR.
1.2     isaki  *   In all places outside the ISR, sc_lock must be held before taking
1.2     isaki  *   sc_intr_lock.  This is to ensure that groups of hardware operations are
1.2     isaki  *   made atomically.  SLEEPS CANNOT OCCUR WITH THIS LOCK HELD.
1.2     isaki  *
1.2     isaki  * - sc_exlock, private to this module.  This is a variable protected by
1.2     isaki  *   sc_lock.  It is known as the "critical section".
1.2     isaki  *   Some operations release sc_lock in order to allocate memory, to wait
1.2     isaki  *   for in-flight I/O to complete, to copy to/from user context, etc.
1.2     isaki  *   sc_exlock provides a critical section even under the circumstance.
1.2     isaki  *   "+" in following list indicates the interfaces which necessary to be
1.2     isaki  *   protected by sc_exlock.
1.2     isaki  *
1.2     isaki  * List of hardware interface methods, and which locks are held when each
1.2     isaki  * is called by this module:
1.2     isaki  *
1.2     isaki  *	METHOD			INTR	THREAD  NOTES
1.2     isaki  *	----------------------- ------- -------	-------------------------
1.2     isaki  *	open 			x	x +
1.2     isaki  *	close 			x	x +
1.2     isaki  *	query_format		-	x
1.2     isaki  *	set_format		-	x
1.2     isaki  *	round_blocksize		-	x
1.2     isaki  *	commit_settings		-	x
1.2     isaki  *	init_output 		x	x
1.2     isaki  *	init_input 		x	x
1.2     isaki  *	start_output 		x	x +
1.2     isaki  *	start_input 		x	x +
1.2     isaki  *	halt_output 		x	x +
1.2     isaki  *	halt_input 		x	x +
1.2     isaki  *	speaker_ctl 		x	x
1.2     isaki  *	getdev 			-	x
1.2     isaki  *	set_port 		-	x +
1.2     isaki  *	get_port 		-	x +
1.2     isaki  *	query_devinfo 		-	x
1.2     isaki  *	allocm 			-	- +	(*1)
1.2     isaki  *	freem 			-	- +	(*1)
1.2     isaki  *	round_buffersize 	-	x
1.2     isaki  *	get_props 		-	x
1.2     isaki  *	trigger_output 		x	x +
1.2     isaki  *	trigger_input 		x	x +
1.2     isaki  *	dev_ioctl 		-	x
1.2     isaki  *	get_locks 		-	-	Called at attach time
1.2     isaki  *
1.2     isaki  * *1 Note: Before 8.0, since these have been called only at attach time,
1.2     isaki  *   neither lock were necessary.  Currently, on the other hand, since
1.2     isaki  *   these may be also called after attach, the thread lock is required.
1.2     isaki  *
1.2     isaki  * In addition, there are two additional locks.
1.2     isaki  *
1.2     isaki  * - file->lock.  This is a variable protected by sc_lock and is similar
1.2     isaki  *   to the "thread lock".  This is one for each file.  If any thread
1.2     isaki  *   context and software interrupt context who want to access the file
1.2     isaki  *   structure, they must acquire this lock before.  It protects
1.2     isaki  *   descriptor's consistency among multithreaded accesses.  Since this
1.2     isaki  *   lock uses sc_lock, don't acquire from hardware interrupt context.
1.2     isaki  *
1.2     isaki  * - track->lock.  This is an atomic variable and is similar to the
1.2     isaki  *   "interrupt lock".  This is one for each track.  If any thread context
1.2     isaki  *   (and software interrupt context) and hardware interrupt context who
1.2     isaki  *   want to access some variables on this track, they must acquire this
1.2     isaki  *   lock before.  It protects track's consistency between hardware
1.2     isaki  *   interrupt context and others.
1.2     isaki  */
1.2     isaki
1.2     isaki #include <sys/cdefs.h>
1.7  nakayama __KERNEL_RCSID(0, "$NetBSD: audio.c,v 1.7 2019/05/13 08:50:25 nakayama Exp $");
1.2     isaki
1.2     isaki #ifdef _KERNEL_OPT
1.2     isaki #include "audio.h"
1.2     isaki #include "midi.h"
1.2     isaki #endif
1.2     isaki
1.2     isaki #if NAUDIO > 0
1.2     isaki
1.2     isaki #ifdef _KERNEL
1.2     isaki
1.2     isaki #include <sys/types.h>
1.2     isaki #include <sys/param.h>
1.2     isaki #include <sys/atomic.h>
1.2     isaki #include <sys/audioio.h>
1.2     isaki #include <sys/conf.h>
1.2     isaki #include <sys/cpu.h>
1.2     isaki #include <sys/device.h>
1.2     isaki #include <sys/fcntl.h>
1.2     isaki #include <sys/file.h>
1.2     isaki #include <sys/filedesc.h>
1.2     isaki #include <sys/intr.h>
1.2     isaki #include <sys/ioctl.h>
1.2     isaki #include <sys/kauth.h>
1.2     isaki #include <sys/kernel.h>
1.2     isaki #include <sys/kmem.h>
1.2     isaki #include <sys/malloc.h>
1.2     isaki #include <sys/mman.h>
1.2     isaki #include <sys/module.h>
1.2     isaki #include <sys/poll.h>
1.2     isaki #include <sys/proc.h>
1.2     isaki #include <sys/queue.h>
1.2     isaki #include <sys/select.h>
1.2     isaki #include <sys/signalvar.h>
1.2     isaki #include <sys/stat.h>
1.2     isaki #include <sys/sysctl.h>
1.2     isaki #include <sys/systm.h>
1.2     isaki #include <sys/syslog.h>
1.2     isaki #include <sys/vnode.h>
1.2     isaki
1.2     isaki #include <dev/audio/audio_if.h>
1.2     isaki #include <dev/audio/audiovar.h>
1.2     isaki #include <dev/audio/audiodef.h>
1.2     isaki #include <dev/audio/linear.h>
1.2     isaki #include <dev/audio/mulaw.h>
1.2     isaki
1.2     isaki #include <machine/endian.h>
1.2     isaki
1.2     isaki #include <uvm/uvm.h>
1.2     isaki
1.2     isaki #include "ioconf.h"
1.2     isaki #endif /* _KERNEL */
1.2     isaki
1.2     isaki /*
1.2     isaki  * 0: No debug logs
1.2     isaki  * 1: action changes like open/close/set_format...
1.2     isaki  * 2: + normal operations like read/write/ioctl...
1.2     isaki  * 3: + TRACEs except interrupt
1.2     isaki  * 4: + TRACEs including interrupt
1.2     isaki  */
1.2     isaki //#define AUDIO_DEBUG 1
1.2     isaki
1.2     isaki #if defined(AUDIO_DEBUG)
1.2     isaki
1.2     isaki int audiodebug = AUDIO_DEBUG;
1.2     isaki static void audio_vtrace(struct audio_softc *sc, const char *, const char *,
1.2     isaki 	const char *, va_list);
1.2     isaki static void audio_trace(struct audio_softc *sc, const char *, const char *, ...)
1.2     isaki 	__printflike(3, 4);
1.2     isaki static void audio_tracet(const char *, audio_track_t *, const char *, ...)
1.2     isaki 	__printflike(3, 4);
1.2     isaki static void audio_tracef(const char *, audio_file_t *, const char *, ...)
1.2     isaki 	__printflike(3, 4);
1.2     isaki
1.2     isaki /* XXX sloppy memory logger */
1.2     isaki static void audio_mlog_init(void);
1.2     isaki static void audio_mlog_free(void);
1.2     isaki static void audio_mlog_softintr(void *);
1.2     isaki extern void audio_mlog_flush(void);
1.2     isaki extern void audio_mlog_printf(const char *, ...);
1.2     isaki
1.2     isaki static int mlog_refs;		/* reference counter */
1.2     isaki static char *mlog_buf[2];	/* double buffer */
1.2     isaki static int mlog_buflen;		/* buffer length */
1.2     isaki static int mlog_used;		/* used length */
1.2     isaki static int mlog_full;		/* number of dropped lines by buffer full */
1.2     isaki static int mlog_drop;		/* number of dropped lines by busy */
1.2     isaki static volatile uint32_t mlog_inuse;	/* in-use */
1.2     isaki static int mlog_wpage;		/* active page */
1.2     isaki static void *mlog_sih;		/* softint handle */
1.2     isaki
1.2     isaki static void
1.2     isaki audio_mlog_init(void)
1.2     isaki {
1.2     isaki 	mlog_refs++;
1.2     isaki 	if (mlog_refs > 1)
1.2     isaki 		return;
1.2     isaki 	mlog_buflen = 4096;
1.2     isaki 	mlog_buf[0] = kmem_zalloc(mlog_buflen, KM_SLEEP);
1.2     isaki 	mlog_buf[1] = kmem_zalloc(mlog_buflen, KM_SLEEP);
1.2     isaki 	mlog_used = 0;
1.2     isaki 	mlog_full = 0;
1.2     isaki 	mlog_drop = 0;
1.2     isaki 	mlog_inuse = 0;
1.2     isaki 	mlog_wpage = 0;
1.2     isaki 	mlog_sih = softint_establish(SOFTINT_SERIAL, audio_mlog_softintr, NULL);
1.2     isaki 	if (mlog_sih == NULL)
1.2     isaki 		printf("%s: softint_establish failed\n", __func__);
1.2     isaki }
1.2     isaki
1.2     isaki static void
1.2     isaki audio_mlog_free(void)
1.2     isaki {
1.2     isaki 	mlog_refs--;
1.2     isaki 	if (mlog_refs > 0)
1.2     isaki 		return;
1.2     isaki
1.2     isaki 	audio_mlog_flush();
1.2     isaki 	if (mlog_sih)
1.2     isaki 		softint_disestablish(mlog_sih);
1.2     isaki 	kmem_free(mlog_buf[0], mlog_buflen);
1.2     isaki 	kmem_free(mlog_buf[1], mlog_buflen);
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Flush memory buffer.
1.2     isaki  * It must not be called from hardware interrupt context.
1.2     isaki  */
1.2     isaki void
1.2     isaki audio_mlog_flush(void)
1.2     isaki {
1.2     isaki 	if (mlog_refs == 0)
1.2     isaki 		return;
1.2     isaki
1.2     isaki 	/* Nothing to do if already in use ? */
1.2     isaki 	if (atomic_swap_32(&mlog_inuse, 1) == 1)
1.2     isaki 		return;
1.2     isaki
1.2     isaki 	int rpage = mlog_wpage;
1.2     isaki 	mlog_wpage ^= 1;
1.2     isaki 	mlog_buf[mlog_wpage][0] = '\0';
1.2     isaki 	mlog_used = 0;
1.2     isaki
1.2     isaki 	atomic_swap_32(&mlog_inuse, 0);
1.2     isaki
1.2     isaki 	if (mlog_buf[rpage][0] != '\0') {
1.2     isaki 		printf("%s", mlog_buf[rpage]);
1.2     isaki 		if (mlog_drop > 0)
1.2     isaki 			printf("mlog_drop %d\n", mlog_drop);
1.2     isaki 		if (mlog_full > 0)
1.2     isaki 			printf("mlog_full %d\n", mlog_full);
1.2     isaki 	}
1.2     isaki 	mlog_full = 0;
1.2     isaki 	mlog_drop = 0;
1.2     isaki }
1.2     isaki
1.2     isaki static void
1.2     isaki audio_mlog_softintr(void *cookie)
1.2     isaki {
1.2     isaki 	audio_mlog_flush();
1.2     isaki }
1.2     isaki
1.2     isaki void
1.2     isaki audio_mlog_printf(const char *fmt, ...)
1.2     isaki {
1.2     isaki 	int len;
1.2     isaki 	va_list ap;
1.2     isaki
1.2     isaki 	if (atomic_swap_32(&mlog_inuse, 1) == 1) {
1.2     isaki 		/* already inuse */
1.2     isaki 		mlog_drop++;
1.2     isaki 		return;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	va_start(ap, fmt);
1.2     isaki 	len = vsnprintf(
1.2     isaki 	    mlog_buf[mlog_wpage] + mlog_used,
1.2     isaki 	    mlog_buflen - mlog_used,
1.2     isaki 	    fmt, ap);
1.2     isaki 	va_end(ap);
1.2     isaki
1.2     isaki 	mlog_used += len;
1.2     isaki 	if (mlog_buflen - mlog_used <= 1) {
1.2     isaki 		mlog_full++;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	atomic_swap_32(&mlog_inuse, 0);
1.2     isaki
1.2     isaki 	if (mlog_sih)
1.2     isaki 		softint_schedule(mlog_sih);
1.2     isaki }
1.2     isaki
1.2     isaki /* trace functions */
1.2     isaki static void
1.2     isaki audio_vtrace(struct audio_softc *sc, const char *funcname, const char *header,
1.2     isaki 	const char *fmt, va_list ap)
1.2     isaki {
1.2     isaki 	char buf[256];
1.2     isaki 	int n;
1.2     isaki
1.2     isaki 	n = 0;
1.2     isaki 	buf[0] = '\0';
1.2     isaki 	n += snprintf(buf + n, sizeof(buf) - n, "%s@%d %s",
1.2     isaki 	    funcname, device_unit(sc->sc_dev), header);
1.2     isaki 	n += vsnprintf(buf + n, sizeof(buf) - n, fmt, ap);
1.2     isaki
1.2     isaki 	if (cpu_intr_p()) {
1.2     isaki 		audio_mlog_printf("%s\n", buf);
1.2     isaki 	} else {
1.2     isaki 		audio_mlog_flush();
1.2     isaki 		printf("%s\n", buf);
1.2     isaki 	}
1.2     isaki }
1.2     isaki
1.2     isaki static void
1.2     isaki audio_trace(struct audio_softc *sc, const char *funcname, const char *fmt, ...)
1.2     isaki {
1.2     isaki 	va_list ap;
1.2     isaki
1.2     isaki 	va_start(ap, fmt);
1.2     isaki 	audio_vtrace(sc, funcname, "", fmt, ap);
1.2     isaki 	va_end(ap);
1.2     isaki }
1.2     isaki
1.2     isaki static void
1.2     isaki audio_tracet(const char *funcname, audio_track_t *track, const char *fmt, ...)
1.2     isaki {
1.2     isaki 	char hdr[16];
1.2     isaki 	va_list ap;
1.2     isaki
1.2     isaki 	snprintf(hdr, sizeof(hdr), "#%d ", track->id);
1.2     isaki 	va_start(ap, fmt);
1.2     isaki 	audio_vtrace(track->mixer->sc, funcname, hdr, fmt, ap);
1.2     isaki 	va_end(ap);
1.2     isaki }
1.2     isaki
1.2     isaki static void
1.2     isaki audio_tracef(const char *funcname, audio_file_t *file, const char *fmt, ...)
1.2     isaki {
1.2     isaki 	char hdr[32];
1.2     isaki 	char phdr[16], rhdr[16];
1.2     isaki 	va_list ap;
1.2     isaki
1.2     isaki 	phdr[0] = '\0';
1.2     isaki 	rhdr[0] = '\0';
1.2     isaki 	if (file->ptrack)
1.2     isaki 		snprintf(phdr, sizeof(phdr), "#%d", file->ptrack->id);
1.2     isaki 	if (file->rtrack)
1.2     isaki 		snprintf(rhdr, sizeof(rhdr), "#%d", file->rtrack->id);
1.2     isaki 	snprintf(hdr, sizeof(hdr), "{%s,%s} ", phdr, rhdr);
1.2     isaki
1.2     isaki 	va_start(ap, fmt);
1.2     isaki 	audio_vtrace(file->sc, funcname, hdr, fmt, ap);
1.2     isaki 	va_end(ap);
1.2     isaki }
1.2     isaki
1.2     isaki #define DPRINTF(n, fmt...)	do {	\
1.2     isaki 	if (audiodebug >= (n)) {	\
1.2     isaki 		audio_mlog_flush();	\
1.2     isaki 		printf(fmt);		\
1.2     isaki 	}				\
1.2     isaki } while (0)
1.2     isaki #define TRACE(n, fmt...)	do { \
1.2     isaki 	if (audiodebug >= (n)) audio_trace(sc, __func__, fmt); \
1.2     isaki } while (0)
1.2     isaki #define TRACET(n, t, fmt...)	do { \
1.2     isaki 	if (audiodebug >= (n)) audio_tracet(__func__, t, fmt); \
1.2     isaki } while (0)
1.2     isaki #define TRACEF(n, f, fmt...)	do { \
1.2     isaki 	if (audiodebug >= (n)) audio_tracef(__func__, f, fmt); \
1.2     isaki } while (0)
1.2     isaki
1.2     isaki struct audio_track_debugbuf {
1.2     isaki 	char usrbuf[32];
1.2     isaki 	char codec[32];
1.2     isaki 	char chvol[32];
1.2     isaki 	char chmix[32];
1.2     isaki 	char freq[32];
1.2     isaki 	char outbuf[32];
1.2     isaki };
1.2     isaki
1.2     isaki static void
1.2     isaki audio_track_bufstat(audio_track_t *track, struct audio_track_debugbuf *buf)
1.2     isaki {
1.2     isaki
1.2     isaki 	memset(buf, 0, sizeof(*buf));
1.2     isaki
1.2     isaki 	snprintf(buf->outbuf, sizeof(buf->outbuf), " out=%d/%d/%d",
1.2     isaki 	    track->outbuf.head, track->outbuf.used, track->outbuf.capacity);
1.2     isaki 	if (track->freq.filter)
1.2     isaki 		snprintf(buf->freq, sizeof(buf->freq), " f=%d/%d/%d",
1.2     isaki 		    track->freq.srcbuf.head,
1.2     isaki 		    track->freq.srcbuf.used,
1.2     isaki 		    track->freq.srcbuf.capacity);
1.2     isaki 	if (track->chmix.filter)
1.2     isaki 		snprintf(buf->chmix, sizeof(buf->chmix), " m=%d",
1.2     isaki 		    track->chmix.srcbuf.used);
1.2     isaki 	if (track->chvol.filter)
1.2     isaki 		snprintf(buf->chvol, sizeof(buf->chvol), " v=%d",
1.2     isaki 		    track->chvol.srcbuf.used);
1.2     isaki 	if (track->codec.filter)
1.2     isaki 		snprintf(buf->codec, sizeof(buf->codec), " e=%d",
1.2     isaki 		    track->codec.srcbuf.used);
1.2     isaki 	snprintf(buf->usrbuf, sizeof(buf->usrbuf), " usr=%d/%d/H%d",
1.2     isaki 	    track->usrbuf.head, track->usrbuf.used, track->usrbuf_usedhigh);
1.2     isaki }
1.2     isaki #else
1.2     isaki #define DPRINTF(n, fmt...)	do { } while (0)
1.2     isaki #define TRACE(n, fmt, ...)	do { } while (0)
1.2     isaki #define TRACET(n, t, fmt, ...)	do { } while (0)
1.2     isaki #define TRACEF(n, f, fmt, ...)	do { } while (0)
1.2     isaki #endif
1.2     isaki
1.2     isaki #define SPECIFIED(x)	((x) != ~0)
1.2     isaki #define SPECIFIED_CH(x)	((x) != (u_char)~0)
1.2     isaki
1.2     isaki /* Device timeout in msec */
1.2     isaki #define AUDIO_TIMEOUT	(3000)
1.2     isaki
1.2     isaki /* #define AUDIO_PM_IDLE */
1.2     isaki #ifdef AUDIO_PM_IDLE
1.2     isaki int audio_idle_timeout = 30;
1.2     isaki #endif
1.2     isaki
1.2     isaki struct portname {
1.2     isaki 	const char *name;
1.2     isaki 	int mask;
1.2     isaki };
1.2     isaki
1.2     isaki static int audiomatch(device_t, cfdata_t, void *);
1.2     isaki static void audioattach(device_t, device_t, void *);
1.2     isaki static int audiodetach(device_t, int);
1.2     isaki static int audioactivate(device_t, enum devact);
1.2     isaki static void audiochilddet(device_t, device_t);
1.2     isaki static int audiorescan(device_t, const char *, const int *);
1.2     isaki
1.2     isaki static int audio_modcmd(modcmd_t, void *);
1.2     isaki
1.2     isaki #ifdef AUDIO_PM_IDLE
1.2     isaki static void audio_idle(void *);
1.2     isaki static void audio_activity(device_t, devactive_t);
1.2     isaki #endif
1.2     isaki
1.2     isaki static bool audio_suspend(device_t dv, const pmf_qual_t *);
1.2     isaki static bool audio_resume(device_t dv, const pmf_qual_t *);
1.2     isaki static void audio_volume_down(device_t);
1.2     isaki static void audio_volume_up(device_t);
1.2     isaki static void audio_volume_toggle(device_t);
1.2     isaki
1.2     isaki static void audio_mixer_capture(struct audio_softc *);
1.2     isaki static void audio_mixer_restore(struct audio_softc *);
1.2     isaki
1.2     isaki static void audio_softintr_rd(void *);
1.2     isaki static void audio_softintr_wr(void *);
1.2     isaki
1.2     isaki static int  audio_enter_exclusive(struct audio_softc *);
1.2     isaki static void audio_exit_exclusive(struct audio_softc *);
1.2     isaki static int audio_track_waitio(struct audio_softc *, audio_track_t *);
1.2     isaki static int audio_file_acquire(struct audio_softc *, audio_file_t *);
1.2     isaki static void audio_file_release(struct audio_softc *, audio_file_t *);
1.2     isaki
1.2     isaki static int audioclose(struct file *);
1.2     isaki static int audioread(struct file *, off_t *, struct uio *, kauth_cred_t, int);
1.2     isaki static int audiowrite(struct file *, off_t *, struct uio *, kauth_cred_t, int);
1.2     isaki static int audioioctl(struct file *, u_long, void *);
1.2     isaki static int audiopoll(struct file *, int);
1.2     isaki static int audiokqfilter(struct file *, struct knote *);
1.2     isaki static int audiommap(struct file *, off_t *, size_t, int, int *, int *,
1.2     isaki 	struct uvm_object **, int *);
1.2     isaki static int audiostat(struct file *, struct stat *);
1.2     isaki
1.2     isaki static void filt_audiowrite_detach(struct knote *);
1.2     isaki static int  filt_audiowrite_event(struct knote *, long);
1.2     isaki static void filt_audioread_detach(struct knote *);
1.2     isaki static int  filt_audioread_event(struct knote *, long);
1.2     isaki
1.2     isaki static int audio_open(dev_t, struct audio_softc *, int, int, struct lwp *,
1.2     isaki 	struct audiobell_arg *);
1.2     isaki static int audio_close(struct audio_softc *, audio_file_t *);
1.2     isaki static int audio_read(struct audio_softc *, struct uio *, int, audio_file_t *);
1.2     isaki static int audio_write(struct audio_softc *, struct uio *, int, audio_file_t *);
1.2     isaki static void audio_file_clear(struct audio_softc *, audio_file_t *);
1.2     isaki static int audio_ioctl(dev_t, struct audio_softc *, u_long, void *, int,
1.2     isaki 	struct lwp *, audio_file_t *);
1.2     isaki static int audio_poll(struct audio_softc *, int, struct lwp *, audio_file_t *);
1.2     isaki static int audio_kqfilter(struct audio_softc *, audio_file_t *, struct knote *);
1.2     isaki static int audio_mmap(struct audio_softc *, off_t *, size_t, int, int *, int *,
1.2     isaki 	struct uvm_object **, int *, audio_file_t *);
1.2     isaki
1.2     isaki static int audioctl_open(dev_t, struct audio_softc *, int, int, struct lwp *);
1.2     isaki
1.2     isaki static void audio_pintr(void *);
1.2     isaki static void audio_rintr(void *);
1.2     isaki
1.2     isaki static int audio_query_devinfo(struct audio_softc *, mixer_devinfo_t *);
1.2     isaki
1.2     isaki static __inline int audio_track_readablebytes(const audio_track_t *);
1.2     isaki static int audio_file_setinfo(struct audio_softc *, audio_file_t *,
1.2     isaki 	const struct audio_info *);
1.2     isaki static int audio_track_setinfo_check(audio_format2_t *,
1.2     isaki 	const struct audio_prinfo *);
1.2     isaki static void audio_track_setinfo_water(audio_track_t *,
1.2     isaki 	const struct audio_info *);
1.2     isaki static int audio_hw_setinfo(struct audio_softc *, const struct audio_info *,
1.2     isaki 	struct audio_info *);
1.2     isaki static int audio_hw_set_format(struct audio_softc *, int,
1.2     isaki 	audio_format2_t *, audio_format2_t *,
1.2     isaki 	audio_filter_reg_t *, audio_filter_reg_t *);
1.2     isaki static int audiogetinfo(struct audio_softc *, struct audio_info *, int,
1.2     isaki 	audio_file_t *);
1.2     isaki static int audio_get_props(struct audio_softc *);
1.2     isaki static bool audio_can_playback(struct audio_softc *);
1.2     isaki static bool audio_can_capture(struct audio_softc *);
1.2     isaki static int audio_check_params(audio_format2_t *);
1.2     isaki static int audio_mixers_init(struct audio_softc *sc, int,
1.2     isaki 	const audio_format2_t *, const audio_format2_t *,
1.2     isaki 	const audio_filter_reg_t *, const audio_filter_reg_t *);
1.2     isaki static int audio_select_freq(const struct audio_format *);
1.2     isaki static int audio_hw_probe(struct audio_softc *, int, int *,
1.2     isaki 	audio_format2_t *, audio_format2_t *);
1.2     isaki static int audio_hw_probe_fmt(struct audio_softc *, audio_format2_t *, int);
1.2     isaki static int audio_hw_validate_format(struct audio_softc *, int,
1.2     isaki 	const audio_format2_t *);
1.2     isaki static int audio_mixers_set_format(struct audio_softc *,
1.2     isaki 	const struct audio_info *);
1.2     isaki static void audio_mixers_get_format(struct audio_softc *, struct audio_info *);
1.2     isaki static int audio_sysctl_volume(SYSCTLFN_PROTO);
1.2     isaki static int audio_sysctl_blk_ms(SYSCTLFN_PROTO);
1.2     isaki static int audio_sysctl_multiuser(SYSCTLFN_PROTO);
1.2     isaki #if defined(AUDIO_DEBUG)
1.2     isaki static int audio_sysctl_debug(SYSCTLFN_PROTO);
1.2     isaki #endif
1.2     isaki #if defined(DIAGNOSTIC) || defined(AUDIO_DEBUG)
1.2     isaki static void audio_format2_tostr(char *, size_t, const audio_format2_t *);
1.2     isaki #endif
1.2     isaki #if defined(AUDIO_DEBUG)
1.2     isaki static void audio_print_format2(const char *, const audio_format2_t *) __unused;
1.2     isaki #endif
1.2     isaki
1.2     isaki static void *audio_realloc(void *, size_t);
1.2     isaki static int audio_realloc_usrbuf(audio_track_t *, int);
1.2     isaki static void audio_free_usrbuf(audio_track_t *);
1.2     isaki
1.2     isaki static audio_track_t *audio_track_create(struct audio_softc *,
1.2     isaki 	audio_trackmixer_t *);
1.2     isaki static void audio_track_destroy(audio_track_t *);
1.2     isaki static audio_filter_t audio_track_get_codec(audio_track_t *,
1.2     isaki 	const audio_format2_t *, const audio_format2_t *);
1.2     isaki static int audio_track_set_format(audio_track_t *, audio_format2_t *);
1.2     isaki static void audio_track_play(audio_track_t *);
1.2     isaki static int audio_track_drain(struct audio_softc *, audio_track_t *);
1.2     isaki static void audio_track_record(audio_track_t *);
1.2     isaki static void audio_track_clear(struct audio_softc *, audio_track_t *);
1.2     isaki
1.2     isaki static int audio_mixer_init(struct audio_softc *, int,
1.2     isaki 	const audio_format2_t *, const audio_filter_reg_t *);
1.2     isaki static void audio_mixer_destroy(struct audio_softc *, audio_trackmixer_t *);
1.2     isaki static void audio_pmixer_start(struct audio_softc *, bool);
1.2     isaki static void audio_pmixer_process(struct audio_softc *);
1.2     isaki static int  audio_pmixer_mix_track(audio_trackmixer_t *, audio_track_t *, int);
1.2     isaki static void audio_pmixer_output(struct audio_softc *);
1.2     isaki static int  audio_pmixer_halt(struct audio_softc *);
1.2     isaki static void audio_rmixer_start(struct audio_softc *);
1.2     isaki static void audio_rmixer_process(struct audio_softc *);
1.2     isaki static void audio_rmixer_input(struct audio_softc *);
1.2     isaki static int  audio_rmixer_halt(struct audio_softc *);
1.2     isaki
1.2     isaki static void mixer_init(struct audio_softc *);
1.2     isaki static int mixer_open(dev_t, struct audio_softc *, int, int, struct lwp *);
1.2     isaki static int mixer_close(struct audio_softc *, audio_file_t *);
1.2     isaki static int mixer_ioctl(struct audio_softc *, u_long, void *, int, struct lwp *);
1.2     isaki static void mixer_remove(struct audio_softc *);
1.2     isaki static void mixer_signal(struct audio_softc *);
1.2     isaki
1.2     isaki static int au_portof(struct audio_softc *, char *, int);
1.2     isaki
1.2     isaki static void au_setup_ports(struct audio_softc *, struct au_mixer_ports *,
1.2     isaki 	mixer_devinfo_t *, const struct portname *);
1.2     isaki static int au_set_lr_value(struct audio_softc *, mixer_ctrl_t *, int, int);
1.2     isaki static int au_get_lr_value(struct audio_softc *, mixer_ctrl_t *, int *, int *);
1.2     isaki static int au_set_gain(struct audio_softc *, struct au_mixer_ports *, int, int);
1.2     isaki static void au_get_gain(struct audio_softc *, struct au_mixer_ports *,
1.2     isaki 	u_int *, u_char *);
1.2     isaki static int au_set_port(struct audio_softc *, struct au_mixer_ports *, u_int);
1.2     isaki static int au_get_port(struct audio_softc *, struct au_mixer_ports *);
1.2     isaki static int au_set_monitor_gain(struct audio_softc *, int);
1.2     isaki static int au_get_monitor_gain(struct audio_softc *);
1.2     isaki static int audio_get_port(struct audio_softc *, mixer_ctrl_t *);
1.2     isaki static int audio_set_port(struct audio_softc *, mixer_ctrl_t *);
1.2     isaki
1.2     isaki static __inline struct audio_params
1.2     isaki format2_to_params(const audio_format2_t *f2)
1.2     isaki {
1.2     isaki 	audio_params_t p;
1.2     isaki
1.2     isaki 	/* validbits/precision <-> precision/stride */
1.2     isaki 	p.sample_rate = f2->sample_rate;
1.2     isaki 	p.channels    = f2->channels;
1.2     isaki 	p.encoding    = f2->encoding;
1.2     isaki 	p.validbits   = f2->precision;
1.2     isaki 	p.precision   = f2->stride;
1.2     isaki 	return p;
1.2     isaki }
1.2     isaki
1.2     isaki static __inline audio_format2_t
1.2     isaki params_to_format2(const struct audio_params *p)
1.2     isaki {
1.2     isaki 	audio_format2_t f2;
1.2     isaki
1.2     isaki 	/* precision/stride <-> validbits/precision */
1.2     isaki 	f2.sample_rate = p->sample_rate;
1.2     isaki 	f2.channels    = p->channels;
1.2     isaki 	f2.encoding    = p->encoding;
1.2     isaki 	f2.precision   = p->validbits;
1.2     isaki 	f2.stride      = p->precision;
1.2     isaki 	return f2;
1.2     isaki }
1.2     isaki
1.2     isaki /* Return true if this track is a playback track. */
1.2     isaki static __inline bool
1.2     isaki audio_track_is_playback(const audio_track_t *track)
1.2     isaki {
1.2     isaki
1.2     isaki 	return ((track->mode & AUMODE_PLAY) != 0);
1.2     isaki }
1.2     isaki
1.2     isaki /* Return true if this track is a recording track. */
1.2     isaki static __inline bool
1.2     isaki audio_track_is_record(const audio_track_t *track)
1.2     isaki {
1.2     isaki
1.2     isaki 	return ((track->mode & AUMODE_RECORD) != 0);
1.2     isaki }
1.2     isaki
1.2     isaki #if 0 /* XXX Not used yet */
1.2     isaki /*
1.2     isaki  * Convert 0..255 volume used in userland to internal presentation 0..256.
1.2     isaki  */
1.2     isaki static __inline u_int
1.2     isaki audio_volume_to_inner(u_int v)
1.2     isaki {
1.2     isaki
1.2     isaki 	return v < 127 ? v : v + 1;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Convert 0..256 internal presentation to 0..255 volume used in userland.
1.2     isaki  */
1.2     isaki static __inline u_int
1.2     isaki audio_volume_to_outer(u_int v)
1.2     isaki {
1.2     isaki
1.2     isaki 	return v < 127 ? v : v - 1;
1.2     isaki }
1.2     isaki #endif /* 0 */
1.2     isaki
1.2     isaki static dev_type_open(audioopen);
1.2     isaki /* XXXMRG use more dev_type_xxx */
1.2     isaki
1.2     isaki const struct cdevsw audio_cdevsw = {
1.2     isaki 	.d_open = audioopen,
1.2     isaki 	.d_close = noclose,
1.2     isaki 	.d_read = noread,
1.2     isaki 	.d_write = nowrite,
1.2     isaki 	.d_ioctl = noioctl,
1.2     isaki 	.d_stop = nostop,
1.2     isaki 	.d_tty = notty,
1.2     isaki 	.d_poll = nopoll,
1.2     isaki 	.d_mmap = nommap,
1.2     isaki 	.d_kqfilter = nokqfilter,
1.2     isaki 	.d_discard = nodiscard,
1.2     isaki 	.d_flag = D_OTHER | D_MPSAFE
1.2     isaki };
1.2     isaki
1.2     isaki const struct fileops audio_fileops = {
1.2     isaki 	.fo_name = "audio",
1.2     isaki 	.fo_read = audioread,
1.2     isaki 	.fo_write = audiowrite,
1.2     isaki 	.fo_ioctl = audioioctl,
1.2     isaki 	.fo_fcntl = fnullop_fcntl,
1.2     isaki 	.fo_stat = audiostat,
1.2     isaki 	.fo_poll = audiopoll,
1.2     isaki 	.fo_close = audioclose,
1.2     isaki 	.fo_mmap = audiommap,
1.2     isaki 	.fo_kqfilter = audiokqfilter,
1.2     isaki 	.fo_restart = fnullop_restart
1.2     isaki };
1.2     isaki
1.2     isaki /* The default audio mode: 8 kHz mono mu-law */
1.2     isaki static const struct audio_params audio_default = {
1.2     isaki 	.sample_rate = 8000,
1.2     isaki 	.encoding = AUDIO_ENCODING_ULAW,
1.2     isaki 	.precision = 8,
1.2     isaki 	.validbits = 8,
1.2     isaki 	.channels = 1,
1.2     isaki };
1.2     isaki
1.2     isaki static const char *encoding_names[] = {
1.2     isaki 	"none",
1.2     isaki 	AudioEmulaw,
1.2     isaki 	AudioEalaw,
1.2     isaki 	"pcm16",
1.2     isaki 	"pcm8",
1.2     isaki 	AudioEadpcm,
1.2     isaki 	AudioEslinear_le,
1.2     isaki 	AudioEslinear_be,
1.2     isaki 	AudioEulinear_le,
1.2     isaki 	AudioEulinear_be,
1.2     isaki 	AudioEslinear,
1.2     isaki 	AudioEulinear,
1.2     isaki 	AudioEmpeg_l1_stream,
1.2     isaki 	AudioEmpeg_l1_packets,
1.2     isaki 	AudioEmpeg_l1_system,
1.2     isaki 	AudioEmpeg_l2_stream,
1.2     isaki 	AudioEmpeg_l2_packets,
1.2     isaki 	AudioEmpeg_l2_system,
1.2     isaki 	AudioEac3,
1.2     isaki };
1.2     isaki
1.2     isaki /*
1.2     isaki  * Returns encoding name corresponding to AUDIO_ENCODING_*.
1.2     isaki  * Note that it may return a local buffer because it is mainly for debugging.
1.2     isaki  */
1.2     isaki const char *
1.2     isaki audio_encoding_name(int encoding)
1.2     isaki {
1.2     isaki 	static char buf[16];
1.2     isaki
1.2     isaki 	if (0 <= encoding && encoding < __arraycount(encoding_names)) {
1.2     isaki 		return encoding_names[encoding];
1.2     isaki 	} else {
1.2     isaki 		snprintf(buf, sizeof(buf), "enc=%d", encoding);
1.2     isaki 		return buf;
1.2     isaki 	}
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Supported encodings used by AUDIO_GETENC.
1.2     isaki  * index and flags are set by code.
1.2     isaki  * XXX is there any needs for SLINEAR_OE:>=16/ULINEAR_OE:>=16 ?
1.2     isaki  */
1.2     isaki static const audio_encoding_t audio_encodings[] = {
1.2     isaki 	{ 0, AudioEmulaw,	AUDIO_ENCODING_ULAW,		8,  0 },
1.2     isaki 	{ 0, AudioEalaw,	AUDIO_ENCODING_ALAW,		8,  0 },
1.2     isaki 	{ 0, AudioEslinear,	AUDIO_ENCODING_SLINEAR,		8,  0 },
1.2     isaki 	{ 0, AudioEulinear,	AUDIO_ENCODING_ULINEAR,		8,  0 },
1.2     isaki 	{ 0, AudioEslinear_le,	AUDIO_ENCODING_SLINEAR_LE,	16, 0 },
1.2     isaki 	{ 0, AudioEulinear_le,	AUDIO_ENCODING_ULINEAR_LE,	16, 0 },
1.2     isaki 	{ 0, AudioEslinear_be,	AUDIO_ENCODING_SLINEAR_BE,	16, 0 },
1.2     isaki 	{ 0, AudioEulinear_be,	AUDIO_ENCODING_ULINEAR_BE,	16, 0 },
1.2     isaki #if defined(AUDIO_SUPPORT_LINEAR24)
1.2     isaki 	{ 0, AudioEslinear_le,	AUDIO_ENCODING_SLINEAR_LE,	24, 0 },
1.2     isaki 	{ 0, AudioEulinear_le,	AUDIO_ENCODING_ULINEAR_LE,	24, 0 },
1.2     isaki 	{ 0, AudioEslinear_be,	AUDIO_ENCODING_SLINEAR_BE,	24, 0 },
1.2     isaki 	{ 0, AudioEulinear_be,	AUDIO_ENCODING_ULINEAR_BE,	24, 0 },
1.2     isaki #endif
1.2     isaki 	{ 0, AudioEslinear_le,	AUDIO_ENCODING_SLINEAR_LE,	32, 0 },
1.2     isaki 	{ 0, AudioEulinear_le,	AUDIO_ENCODING_ULINEAR_LE,	32, 0 },
1.2     isaki 	{ 0, AudioEslinear_be,	AUDIO_ENCODING_SLINEAR_BE,	32, 0 },
1.2     isaki 	{ 0, AudioEulinear_be,	AUDIO_ENCODING_ULINEAR_BE,	32, 0 },
1.2     isaki };
1.2     isaki
1.2     isaki static const struct portname itable[] = {
1.2     isaki 	{ AudioNmicrophone,	AUDIO_MICROPHONE },
1.2     isaki 	{ AudioNline,		AUDIO_LINE_IN },
1.2     isaki 	{ AudioNcd,		AUDIO_CD },
1.2     isaki 	{ 0, 0 }
1.2     isaki };
1.2     isaki static const struct portname otable[] = {
1.2     isaki 	{ AudioNspeaker,	AUDIO_SPEAKER },
1.2     isaki 	{ AudioNheadphone,	AUDIO_HEADPHONE },
1.2     isaki 	{ AudioNline,		AUDIO_LINE_OUT },
1.2     isaki 	{ 0, 0 }
1.2     isaki };
1.2     isaki
1.2     isaki CFATTACH_DECL3_NEW(audio, sizeof(struct audio_softc),
1.2     isaki     audiomatch, audioattach, audiodetach, audioactivate, audiorescan,
1.2     isaki     audiochilddet, DVF_DETACH_SHUTDOWN);
1.2     isaki
1.2     isaki static int
1.2     isaki audiomatch(device_t parent, cfdata_t match, void *aux)
1.2     isaki {
1.2     isaki 	struct audio_attach_args *sa;
1.2     isaki
1.2     isaki 	sa = aux;
1.2     isaki 	DPRINTF(1, "%s: type=%d sa=%p hw=%p\n",
1.2     isaki 	     __func__, sa->type, sa, sa->hwif);
1.2     isaki 	return (sa->type == AUDIODEV_TYPE_AUDIO) ? 1 : 0;
1.2     isaki }
1.2     isaki
1.2     isaki static void
1.2     isaki audioattach(device_t parent, device_t self, void *aux)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	struct audio_attach_args *sa;
1.2     isaki 	const struct audio_hw_if *hw_if;
1.2     isaki 	audio_format2_t phwfmt;
1.2     isaki 	audio_format2_t rhwfmt;
1.2     isaki 	audio_filter_reg_t pfil;
1.2     isaki 	audio_filter_reg_t rfil;
1.2     isaki 	const struct sysctlnode *node;
1.2     isaki 	void *hdlp;
1.2     isaki 	bool is_indep;
1.2     isaki 	int mode;
1.2     isaki 	int props;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	sc = device_private(self);
1.2     isaki 	sc->sc_dev = self;
1.2     isaki 	sa = (struct audio_attach_args *)aux;
1.2     isaki 	hw_if = sa->hwif;
1.2     isaki 	hdlp = sa->hdl;
1.2     isaki
1.2     isaki 	if (hw_if == NULL || hw_if->get_locks == NULL) {
1.2     isaki 		panic("audioattach: missing hw_if method");
1.2     isaki 	}
1.2     isaki
1.2     isaki 	hw_if->get_locks(hdlp, &sc->sc_intr_lock, &sc->sc_lock);
1.2     isaki
1.2     isaki #ifdef DIAGNOSTIC
1.2     isaki 	if (hw_if->query_format == NULL ||
1.2     isaki 	    hw_if->set_format == NULL ||
1.2     isaki 	    (hw_if->start_output == NULL && hw_if->trigger_output == NULL) ||
1.2     isaki 	    (hw_if->start_input == NULL && hw_if->trigger_input == NULL) ||
1.2     isaki 	    hw_if->halt_output == NULL ||
1.2     isaki 	    hw_if->halt_input == NULL ||
1.2     isaki 	    hw_if->getdev == NULL ||
1.2     isaki 	    hw_if->set_port == NULL ||
1.2     isaki 	    hw_if->get_port == NULL ||
1.2     isaki 	    hw_if->query_devinfo == NULL ||
1.2     isaki 	    hw_if->get_props == NULL) {
1.2     isaki 		aprint_error(": missing method\n");
1.2     isaki 		return;
1.2     isaki 	}
1.2     isaki #endif
1.2     isaki
1.2     isaki 	sc->hw_if = hw_if;
1.2     isaki 	sc->hw_hdl = hdlp;
1.2     isaki 	sc->hw_dev = parent;
1.2     isaki
1.2     isaki 	sc->sc_blk_ms = AUDIO_BLK_MS;
1.2     isaki 	SLIST_INIT(&sc->sc_files);
1.2     isaki 	cv_init(&sc->sc_exlockcv, "audiolk");
1.2     isaki
1.2     isaki 	mutex_enter(sc->sc_lock);
1.2     isaki 	props = audio_get_props(sc);
1.2     isaki 	mutex_exit(sc->sc_lock);
1.2     isaki
1.2     isaki 	if ((props & AUDIO_PROP_FULLDUPLEX))
1.2     isaki 		aprint_normal(": full duplex");
1.2     isaki 	else
1.2     isaki 		aprint_normal(": half duplex");
1.2     isaki
1.2     isaki 	is_indep = (props & AUDIO_PROP_INDEPENDENT);
1.2     isaki 	mode = 0;
1.2     isaki 	if ((props & AUDIO_PROP_PLAYBACK)) {
1.2     isaki 		mode |= AUMODE_PLAY;
1.2     isaki 		aprint_normal(", playback");
1.2     isaki 	}
1.2     isaki 	if ((props & AUDIO_PROP_CAPTURE)) {
1.2     isaki 		mode |= AUMODE_RECORD;
1.2     isaki 		aprint_normal(", capture");
1.2     isaki 	}
1.2     isaki 	if ((props & AUDIO_PROP_MMAP) != 0)
1.2     isaki 		aprint_normal(", mmap");
1.2     isaki 	if (is_indep)
1.2     isaki 		aprint_normal(", independent");
1.2     isaki
1.2     isaki 	aprint_naive("\n");
1.2     isaki 	aprint_normal("\n");
1.2     isaki
1.2     isaki 	KASSERT((mode & (AUMODE_PLAY | AUMODE_RECORD)) != 0);
1.2     isaki
1.2     isaki 	/* probe hw params */
1.2     isaki 	memset(&phwfmt, 0, sizeof(phwfmt));
1.2     isaki 	memset(&rhwfmt, 0, sizeof(rhwfmt));
1.2     isaki 	memset(&pfil, 0, sizeof(pfil));
1.2     isaki 	memset(&rfil, 0, sizeof(rfil));
1.2     isaki 	mutex_enter(sc->sc_lock);
1.4  nakayama 	error = audio_hw_probe(sc, is_indep, &mode, &phwfmt, &rhwfmt);
1.4  nakayama 	if (error) {
1.2     isaki 		mutex_exit(sc->sc_lock);
1.4  nakayama 		aprint_error_dev(self, "audio_hw_probe failed, "
1.4  nakayama 		    "error = %d\n", error);
1.2     isaki 		goto bad;
1.2     isaki 	}
1.2     isaki 	if (mode == 0) {
1.2     isaki 		mutex_exit(sc->sc_lock);
1.4  nakayama 		aprint_error_dev(self, "audio_hw_probe failed, no mode\n");
1.2     isaki 		goto bad;
1.2     isaki 	}
1.2     isaki 	/* Init hardware. */
1.2     isaki 	/* hw_probe() also validates [pr]hwfmt.  */
1.2     isaki 	error = audio_hw_set_format(sc, mode, &phwfmt, &rhwfmt, &pfil, &rfil);
1.2     isaki 	if (error) {
1.2     isaki 		mutex_exit(sc->sc_lock);
1.4  nakayama 		aprint_error_dev(self, "audio_hw_set_format failed, "
1.4  nakayama 		    "error = %d\n", error);
1.2     isaki 		goto bad;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * Init track mixers.  If at least one direction is available on
1.2     isaki 	 * attach time, we assume a success.
1.2     isaki 	 */
1.2     isaki 	error = audio_mixers_init(sc, mode, &phwfmt, &rhwfmt, &pfil, &rfil);
1.2     isaki 	mutex_exit(sc->sc_lock);
1.4  nakayama 	if (sc->sc_pmixer == NULL && sc->sc_rmixer == NULL) {
1.4  nakayama 		aprint_error_dev(self, "audio_mixers_init failed, "
1.4  nakayama 		    "error = %d\n", error);
1.2     isaki 		goto bad;
1.4  nakayama 	}
1.2     isaki
1.2     isaki 	selinit(&sc->sc_wsel);
1.2     isaki 	selinit(&sc->sc_rsel);
1.2     isaki
1.2     isaki 	/* Initial parameter of /dev/sound */
1.2     isaki 	sc->sc_sound_pparams = params_to_format2(&audio_default);
1.2     isaki 	sc->sc_sound_rparams = params_to_format2(&audio_default);
1.2     isaki 	sc->sc_sound_ppause = false;
1.2     isaki 	sc->sc_sound_rpause = false;
1.2     isaki
1.2     isaki 	/* XXX TODO: consider about sc_ai */
1.2     isaki
1.2     isaki 	mixer_init(sc);
1.2     isaki 	TRACE(2, "inputs ports=0x%x, input master=%d, "
1.2     isaki 	    "output ports=0x%x, output master=%d",
1.2     isaki 	    sc->sc_inports.allports, sc->sc_inports.master,
1.2     isaki 	    sc->sc_outports.allports, sc->sc_outports.master);
1.2     isaki
1.2     isaki 	sysctl_createv(&sc->sc_log, 0, NULL, &node,
1.2     isaki 	    0,
1.2     isaki 	    CTLTYPE_NODE, device_xname(sc->sc_dev),
1.2     isaki 	    SYSCTL_DESCR("audio test"),
1.2     isaki 	    NULL, 0,
1.2     isaki 	    NULL, 0,
1.2     isaki 	    CTL_HW,
1.2     isaki 	    CTL_CREATE, CTL_EOL);
1.2     isaki
1.2     isaki 	if (node != NULL) {
1.2     isaki 		sysctl_createv(&sc->sc_log, 0, NULL, NULL,
1.2     isaki 		    CTLFLAG_READWRITE,
1.2     isaki 		    CTLTYPE_INT, "volume",
1.2     isaki 		    SYSCTL_DESCR("software volume test"),
1.2     isaki 		    audio_sysctl_volume, 0, (void *)sc, 0,
1.2     isaki 		    CTL_HW, node->sysctl_num, CTL_CREATE, CTL_EOL);
1.2     isaki
1.2     isaki 		sysctl_createv(&sc->sc_log, 0, NULL, NULL,
1.2     isaki 		    CTLFLAG_READWRITE,
1.2     isaki 		    CTLTYPE_INT, "blk_ms",
1.2     isaki 		    SYSCTL_DESCR("blocksize in msec"),
1.2     isaki 		    audio_sysctl_blk_ms, 0, (void *)sc, 0,
1.2     isaki 		    CTL_HW, node->sysctl_num, CTL_CREATE, CTL_EOL);
1.2     isaki
1.2     isaki 		sysctl_createv(&sc->sc_log, 0, NULL, NULL,
1.2     isaki 		    CTLFLAG_READWRITE,
1.2     isaki 		    CTLTYPE_BOOL, "multiuser",
1.2     isaki 		    SYSCTL_DESCR("allow multiple user access"),
1.2     isaki 		    audio_sysctl_multiuser, 0, (void *)sc, 0,
1.2     isaki 		    CTL_HW, node->sysctl_num, CTL_CREATE, CTL_EOL);
1.2     isaki
1.2     isaki #if defined(AUDIO_DEBUG)
1.2     isaki 		sysctl_createv(&sc->sc_log, 0, NULL, NULL,
1.2     isaki 		    CTLFLAG_READWRITE,
1.2     isaki 		    CTLTYPE_INT, "debug",
1.2     isaki 		    SYSCTL_DESCR("debug level (0..4)"),
1.2     isaki 		    audio_sysctl_debug, 0, (void *)sc, 0,
1.2     isaki 		    CTL_HW, node->sysctl_num, CTL_CREATE, CTL_EOL);
1.2     isaki #endif
1.2     isaki 	}
1.2     isaki
1.2     isaki #ifdef AUDIO_PM_IDLE
1.2     isaki 	callout_init(&sc->sc_idle_counter, 0);
1.2     isaki 	callout_setfunc(&sc->sc_idle_counter, audio_idle, self);
1.2     isaki #endif
1.2     isaki
1.2     isaki 	if (!pmf_device_register(self, audio_suspend, audio_resume))
1.2     isaki 		aprint_error_dev(self, "couldn't establish power handler\n");
1.2     isaki #ifdef AUDIO_PM_IDLE
1.2     isaki 	if (!device_active_register(self, audio_activity))
1.2     isaki 		aprint_error_dev(self, "couldn't register activity handler\n");
1.2     isaki #endif
1.2     isaki
1.2     isaki 	if (!pmf_event_register(self, PMFE_AUDIO_VOLUME_DOWN,
1.2     isaki 	    audio_volume_down, true))
1.2     isaki 		aprint_error_dev(self, "couldn't add volume down handler\n");
1.2     isaki 	if (!pmf_event_register(self, PMFE_AUDIO_VOLUME_UP,
1.2     isaki 	    audio_volume_up, true))
1.2     isaki 		aprint_error_dev(self, "couldn't add volume up handler\n");
1.2     isaki 	if (!pmf_event_register(self, PMFE_AUDIO_VOLUME_TOGGLE,
1.2     isaki 	    audio_volume_toggle, true))
1.2     isaki 		aprint_error_dev(self, "couldn't add volume toggle handler\n");
1.2     isaki
1.2     isaki #ifdef AUDIO_PM_IDLE
1.2     isaki 	callout_schedule(&sc->sc_idle_counter, audio_idle_timeout * hz);
1.2     isaki #endif
1.2     isaki
1.2     isaki #if defined(AUDIO_DEBUG)
1.2     isaki 	audio_mlog_init();
1.2     isaki #endif
1.2     isaki
1.2     isaki 	audiorescan(self, "audio", NULL);
1.2     isaki 	return;
1.2     isaki
1.2     isaki bad:
1.2     isaki 	/* Clearing hw_if means that device is attached but disabled. */
1.2     isaki 	sc->hw_if = NULL;
1.2     isaki 	aprint_error_dev(sc->sc_dev, "disabled\n");
1.2     isaki 	return;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Initialize hardware mixer.
1.2     isaki  * This function is called from audioattach().
1.2     isaki  */
1.2     isaki static void
1.2     isaki mixer_init(struct audio_softc *sc)
1.2     isaki {
1.2     isaki 	mixer_devinfo_t mi;
1.2     isaki 	int iclass, mclass, oclass, rclass;
1.2     isaki 	int record_master_found, record_source_found;
1.2     isaki
1.2     isaki 	iclass = mclass = oclass = rclass = -1;
1.2     isaki 	sc->sc_inports.index = -1;
1.2     isaki 	sc->sc_inports.master = -1;
1.2     isaki 	sc->sc_inports.nports = 0;
1.2     isaki 	sc->sc_inports.isenum = false;
1.2     isaki 	sc->sc_inports.allports = 0;
1.2     isaki 	sc->sc_inports.isdual = false;
1.2     isaki 	sc->sc_inports.mixerout = -1;
1.2     isaki 	sc->sc_inports.cur_port = -1;
1.2     isaki 	sc->sc_outports.index = -1;
1.2     isaki 	sc->sc_outports.master = -1;
1.2     isaki 	sc->sc_outports.nports = 0;
1.2     isaki 	sc->sc_outports.isenum = false;
1.2     isaki 	sc->sc_outports.allports = 0;
1.2     isaki 	sc->sc_outports.isdual = false;
1.2     isaki 	sc->sc_outports.mixerout = -1;
1.2     isaki 	sc->sc_outports.cur_port = -1;
1.2     isaki 	sc->sc_monitor_port = -1;
1.2     isaki 	/*
1.2     isaki 	 * Read through the underlying driver's list, picking out the class
1.2     isaki 	 * names from the mixer descriptions. We'll need them to decode the
1.2     isaki 	 * mixer descriptions on the next pass through the loop.
1.2     isaki 	 */
1.2     isaki 	mutex_enter(sc->sc_lock);
1.2     isaki 	for(mi.index = 0; ; mi.index++) {
1.2     isaki 		if (audio_query_devinfo(sc, &mi) != 0)
1.2     isaki 			break;
1.2     isaki 		 /*
1.2     isaki 		  * The type of AUDIO_MIXER_CLASS merely introduces a class.
1.2     isaki 		  * All the other types describe an actual mixer.
1.2     isaki 		  */
1.2     isaki 		if (mi.type == AUDIO_MIXER_CLASS) {
1.2     isaki 			if (strcmp(mi.label.name, AudioCinputs) == 0)
1.2     isaki 				iclass = mi.mixer_class;
1.2     isaki 			if (strcmp(mi.label.name, AudioCmonitor) == 0)
1.2     isaki 				mclass = mi.mixer_class;
1.2     isaki 			if (strcmp(mi.label.name, AudioCoutputs) == 0)
1.2     isaki 				oclass = mi.mixer_class;
1.2     isaki 			if (strcmp(mi.label.name, AudioCrecord) == 0)
1.2     isaki 				rclass = mi.mixer_class;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki 	mutex_exit(sc->sc_lock);
1.2     isaki
1.2     isaki 	/* Allocate save area.  Ensure non-zero allocation. */
1.2     isaki 	sc->sc_nmixer_states = mi.index;
1.2     isaki 	sc->sc_mixer_state = kmem_zalloc(sizeof(mixer_ctrl_t) *
1.2     isaki 	    (sc->sc_nmixer_states + 1), KM_SLEEP);
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * This is where we assign each control in the "audio" model, to the
1.2     isaki 	 * underlying "mixer" control.  We walk through the whole list once,
1.2     isaki 	 * assigning likely candidates as we come across them.
1.2     isaki 	 */
1.2     isaki 	record_master_found = 0;
1.2     isaki 	record_source_found = 0;
1.2     isaki 	mutex_enter(sc->sc_lock);
1.2     isaki 	for(mi.index = 0; ; mi.index++) {
1.2     isaki 		if (audio_query_devinfo(sc, &mi) != 0)
1.2     isaki 			break;
1.2     isaki 		KASSERT(mi.index < sc->sc_nmixer_states);
1.2     isaki 		if (mi.type == AUDIO_MIXER_CLASS)
1.2     isaki 			continue;
1.2     isaki 		if (mi.mixer_class == iclass) {
1.2     isaki 			/*
1.2     isaki 			 * AudioCinputs is only a fallback, when we don't
1.2     isaki 			 * find what we're looking for in AudioCrecord, so
1.2     isaki 			 * check the flags before accepting one of these.
1.2     isaki 			 */
1.2     isaki 			if (strcmp(mi.label.name, AudioNmaster) == 0
1.2     isaki 			    && record_master_found == 0)
1.2     isaki 				sc->sc_inports.master = mi.index;
1.2     isaki 			if (strcmp(mi.label.name, AudioNsource) == 0
1.2     isaki 			    && record_source_found == 0) {
1.2     isaki 				if (mi.type == AUDIO_MIXER_ENUM) {
1.2     isaki 				    int i;
1.2     isaki 				    for(i = 0; i < mi.un.e.num_mem; i++)
1.2     isaki 					if (strcmp(mi.un.e.member[i].label.name,
1.2     isaki 						    AudioNmixerout) == 0)
1.2     isaki 						sc->sc_inports.mixerout =
1.2     isaki 						    mi.un.e.member[i].ord;
1.2     isaki 				}
1.2     isaki 				au_setup_ports(sc, &sc->sc_inports, &mi,
1.2     isaki 				    itable);
1.2     isaki 			}
1.2     isaki 			if (strcmp(mi.label.name, AudioNdac) == 0 &&
1.2     isaki 			    sc->sc_outports.master == -1)
1.2     isaki 				sc->sc_outports.master = mi.index;
1.2     isaki 		} else if (mi.mixer_class == mclass) {
1.2     isaki 			if (strcmp(mi.label.name, AudioNmonitor) == 0)
1.2     isaki 				sc->sc_monitor_port = mi.index;
1.2     isaki 		} else if (mi.mixer_class == oclass) {
1.2     isaki 			if (strcmp(mi.label.name, AudioNmaster) == 0)
1.2     isaki 				sc->sc_outports.master = mi.index;
1.2     isaki 			if (strcmp(mi.label.name, AudioNselect) == 0)
1.2     isaki 				au_setup_ports(sc, &sc->sc_outports, &mi,
1.2     isaki 				    otable);
1.2     isaki 		} else if (mi.mixer_class == rclass) {
1.2     isaki 			/*
1.2     isaki 			 * These are the preferred mixers for the audio record
1.2     isaki 			 * controls, so set the flags here, but don't check.
1.2     isaki 			 */
1.2     isaki 			if (strcmp(mi.label.name, AudioNmaster) == 0) {
1.2     isaki 				sc->sc_inports.master = mi.index;
1.2     isaki 				record_master_found = 1;
1.2     isaki 			}
1.2     isaki #if 1	/* Deprecated. Use AudioNmaster. */
1.2     isaki 			if (strcmp(mi.label.name, AudioNrecord) == 0) {
1.2     isaki 				sc->sc_inports.master = mi.index;
1.2     isaki 				record_master_found = 1;
1.2     isaki 			}
1.2     isaki 			if (strcmp(mi.label.name, AudioNvolume) == 0) {
1.2     isaki 				sc->sc_inports.master = mi.index;
1.2     isaki 				record_master_found = 1;
1.2     isaki 			}
1.2     isaki #endif
1.2     isaki 			if (strcmp(mi.label.name, AudioNsource) == 0) {
1.2     isaki 				if (mi.type == AUDIO_MIXER_ENUM) {
1.2     isaki 				    int i;
1.2     isaki 				    for(i = 0; i < mi.un.e.num_mem; i++)
1.2     isaki 					if (strcmp(mi.un.e.member[i].label.name,
1.2     isaki 						    AudioNmixerout) == 0)
1.2     isaki 						sc->sc_inports.mixerout =
1.2     isaki 						    mi.un.e.member[i].ord;
1.2     isaki 				}
1.2     isaki 				au_setup_ports(sc, &sc->sc_inports, &mi,
1.2     isaki 				    itable);
1.2     isaki 				record_source_found = 1;
1.2     isaki 			}
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki 	mutex_exit(sc->sc_lock);
1.2     isaki }
1.2     isaki
1.2     isaki static int
1.2     isaki audioactivate(device_t self, enum devact act)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc = device_private(self);
1.2     isaki
1.2     isaki 	switch (act) {
1.2     isaki 	case DVACT_DEACTIVATE:
1.2     isaki 		mutex_enter(sc->sc_lock);
1.2     isaki 		sc->sc_dying = true;
1.2     isaki 		cv_broadcast(&sc->sc_exlockcv);
1.2     isaki 		mutex_exit(sc->sc_lock);
1.2     isaki 		return 0;
1.2     isaki 	default:
1.2     isaki 		return EOPNOTSUPP;
1.2     isaki 	}
1.2     isaki }
1.2     isaki
1.2     isaki static int
1.2     isaki audiodetach(device_t self, int flags)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	int maj, mn;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	sc = device_private(self);
1.2     isaki 	TRACE(2, "flags=%d", flags);
1.2     isaki
1.2     isaki 	/* device is not initialized */
1.2     isaki 	if (sc->hw_if == NULL)
1.2     isaki 		return 0;
1.2     isaki
1.2     isaki 	/* Start draining existing accessors of the device. */
1.2     isaki 	error = config_detach_children(self, flags);
1.2     isaki 	if (error)
1.2     isaki 		return error;
1.2     isaki
1.2     isaki 	mutex_enter(sc->sc_lock);
1.2     isaki 	sc->sc_dying = true;
1.2     isaki 	cv_broadcast(&sc->sc_exlockcv);
1.2     isaki 	if (sc->sc_pmixer)
1.2     isaki 		cv_broadcast(&sc->sc_pmixer->outcv);
1.2     isaki 	if (sc->sc_rmixer)
1.2     isaki 		cv_broadcast(&sc->sc_rmixer->outcv);
1.2     isaki 	mutex_exit(sc->sc_lock);
1.2     isaki
1.2     isaki 	/* locate the major number */
1.2     isaki 	maj = cdevsw_lookup_major(&audio_cdevsw);
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * Nuke the vnodes for any open instances (calls close).
1.2     isaki 	 * Will wait until any activity on the device nodes has ceased.
1.2     isaki 	 */
1.2     isaki 	mn = device_unit(self);
1.2     isaki 	vdevgone(maj, mn | SOUND_DEVICE,    mn | SOUND_DEVICE, VCHR);
1.2     isaki 	vdevgone(maj, mn | AUDIO_DEVICE,    mn | AUDIO_DEVICE, VCHR);
1.2     isaki 	vdevgone(maj, mn | AUDIOCTL_DEVICE, mn | AUDIOCTL_DEVICE, VCHR);
1.2     isaki 	vdevgone(maj, mn | MIXER_DEVICE,    mn | MIXER_DEVICE, VCHR);
1.2     isaki
1.2     isaki 	pmf_event_deregister(self, PMFE_AUDIO_VOLUME_DOWN,
1.2     isaki 	    audio_volume_down, true);
1.2     isaki 	pmf_event_deregister(self, PMFE_AUDIO_VOLUME_UP,
1.2     isaki 	    audio_volume_up, true);
1.2     isaki 	pmf_event_deregister(self, PMFE_AUDIO_VOLUME_TOGGLE,
1.2     isaki 	    audio_volume_toggle, true);
1.2     isaki
1.2     isaki #ifdef AUDIO_PM_IDLE
1.2     isaki 	callout_halt(&sc->sc_idle_counter, sc->sc_lock);
1.2     isaki
1.2     isaki 	device_active_deregister(self, audio_activity);
1.2     isaki #endif
1.2     isaki
1.2     isaki 	pmf_device_deregister(self);
1.2     isaki
1.2     isaki 	/* Free resources */
1.2     isaki 	mutex_enter(sc->sc_lock);
1.2     isaki 	if (sc->sc_pmixer) {
1.2     isaki 		audio_mixer_destroy(sc, sc->sc_pmixer);
1.2     isaki 		kmem_free(sc->sc_pmixer, sizeof(*sc->sc_pmixer));
1.2     isaki 	}
1.2     isaki 	if (sc->sc_rmixer) {
1.2     isaki 		audio_mixer_destroy(sc, sc->sc_rmixer);
1.2     isaki 		kmem_free(sc->sc_rmixer, sizeof(*sc->sc_rmixer));
1.2     isaki 	}
1.2     isaki 	mutex_exit(sc->sc_lock);
1.2     isaki
1.2     isaki 	seldestroy(&sc->sc_wsel);
1.2     isaki 	seldestroy(&sc->sc_rsel);
1.2     isaki
1.2     isaki #ifdef AUDIO_PM_IDLE
1.2     isaki 	callout_destroy(&sc->sc_idle_counter);
1.2     isaki #endif
1.2     isaki
1.2     isaki 	cv_destroy(&sc->sc_exlockcv);
1.2     isaki
1.2     isaki #if defined(AUDIO_DEBUG)
1.2     isaki 	audio_mlog_free();
1.2     isaki #endif
1.2     isaki
1.2     isaki 	return 0;
1.2     isaki }
1.2     isaki
1.2     isaki static void
1.2     isaki audiochilddet(device_t self, device_t child)
1.2     isaki {
1.2     isaki
1.2     isaki 	/* we hold no child references, so do nothing */
1.2     isaki }
1.2     isaki
1.2     isaki static int
1.2     isaki audiosearch(device_t parent, cfdata_t cf, const int *locs, void *aux)
1.2     isaki {
1.2     isaki
1.2     isaki 	if (config_match(parent, cf, aux))
1.2     isaki 		config_attach_loc(parent, cf, locs, aux, NULL);
1.2     isaki
1.2     isaki 	return 0;
1.2     isaki }
1.2     isaki
1.2     isaki static int
1.2     isaki audiorescan(device_t self, const char *ifattr, const int *flags)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc = device_private(self);
1.2     isaki
1.2     isaki 	if (!ifattr_match(ifattr, "audio"))
1.2     isaki 		return 0;
1.2     isaki
1.2     isaki 	config_search_loc(audiosearch, sc->sc_dev, "audio", NULL, NULL);
1.2     isaki
1.2     isaki 	return 0;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Called from hardware driver.  This is where the MI audio driver gets
1.2     isaki  * probed/attached to the hardware driver.
1.2     isaki  */
1.2     isaki device_t
1.2     isaki audio_attach_mi(const struct audio_hw_if *ahwp, void *hdlp, device_t dev)
1.2     isaki {
1.2     isaki 	struct audio_attach_args arg;
1.2     isaki
1.2     isaki #ifdef DIAGNOSTIC
1.2     isaki 	if (ahwp == NULL) {
1.2     isaki 		aprint_error("audio_attach_mi: NULL\n");
1.2     isaki 		return 0;
1.2     isaki 	}
1.2     isaki #endif
1.2     isaki 	arg.type = AUDIODEV_TYPE_AUDIO;
1.2     isaki 	arg.hwif = ahwp;
1.2     isaki 	arg.hdl = hdlp;
1.2     isaki 	return config_found(dev, &arg, audioprint);
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Acquire sc_lock and enter exlock critical section.
1.2     isaki  * If successful, it returns 0.  Otherwise returns errno.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_enter_exclusive(struct audio_softc *sc)
1.2     isaki {
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(!mutex_owned(sc->sc_lock));
1.2     isaki
1.2     isaki 	mutex_enter(sc->sc_lock);
1.2     isaki 	if (sc->sc_dying) {
1.2     isaki 		mutex_exit(sc->sc_lock);
1.2     isaki 		return EIO;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	while (__predict_false(sc->sc_exlock != 0)) {
1.2     isaki 		error = cv_wait_sig(&sc->sc_exlockcv, sc->sc_lock);
1.2     isaki 		if (sc->sc_dying)
1.2     isaki 			error = EIO;
1.2     isaki 		if (error) {
1.2     isaki 			mutex_exit(sc->sc_lock);
1.2     isaki 			return error;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* Acquire */
1.2     isaki 	sc->sc_exlock = 1;
1.2     isaki 	return 0;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Leave exlock critical section and release sc_lock.
1.2     isaki  * Must be called with sc_lock held.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_exit_exclusive(struct audio_softc *sc)
1.2     isaki {
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(sc->sc_exlock);
1.2     isaki
1.2     isaki 	/* Leave critical section */
1.2     isaki 	sc->sc_exlock = 0;
1.2     isaki 	cv_broadcast(&sc->sc_exlockcv);
1.2     isaki 	mutex_exit(sc->sc_lock);
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Wait for I/O to complete, releasing sc_lock.
1.2     isaki  * Must be called with sc_lock held.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_track_waitio(struct audio_softc *sc, audio_track_t *track)
1.2     isaki {
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(track);
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki
1.2     isaki 	/* Wait for pending I/O to complete. */
1.2     isaki 	error = cv_timedwait_sig(&track->mixer->outcv, sc->sc_lock,
1.2     isaki 	    mstohz(AUDIO_TIMEOUT));
1.2     isaki 	if (sc->sc_dying) {
1.2     isaki 		error = EIO;
1.2     isaki 	}
1.2     isaki 	if (error) {
1.2     isaki 		TRACET(2, track, "cv_timedwait_sig failed %d", error);
1.2     isaki 		if (error == EWOULDBLOCK)
1.2     isaki 			device_printf(sc->sc_dev, "device timeout\n");
1.2     isaki 	} else {
1.2     isaki 		TRACET(3, track, "wakeup");
1.2     isaki 	}
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Acquire the file lock.
1.2     isaki  * If file is acquired successfully, returns 0.  Otherwise returns errno.
1.2     isaki  * In both case, sc_lock is released.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_file_acquire(struct audio_softc *sc, audio_file_t *file)
1.2     isaki {
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(!mutex_owned(sc->sc_lock));
1.2     isaki
1.2     isaki 	mutex_enter(sc->sc_lock);
1.2     isaki 	if (sc->sc_dying) {
1.2     isaki 		mutex_exit(sc->sc_lock);
1.2     isaki 		return EIO;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	while (__predict_false(file->lock != 0)) {
1.2     isaki 		error = cv_wait_sig(&sc->sc_exlockcv, sc->sc_lock);
1.2     isaki 		if (sc->sc_dying)
1.2     isaki 			error = EIO;
1.2     isaki 		if (error) {
1.2     isaki 			mutex_exit(sc->sc_lock);
1.2     isaki 			return error;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* Mark this file locked */
1.2     isaki 	file->lock = 1;
1.2     isaki 	mutex_exit(sc->sc_lock);
1.2     isaki
1.2     isaki 	return 0;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Release the file lock.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_file_release(struct audio_softc *sc, audio_file_t *file)
1.2     isaki {
1.2     isaki
1.2     isaki 	KASSERT(!mutex_owned(sc->sc_lock));
1.2     isaki
1.2     isaki 	mutex_enter(sc->sc_lock);
1.2     isaki 	KASSERT(file->lock);
1.2     isaki 	file->lock = 0;
1.2     isaki 	cv_broadcast(&sc->sc_exlockcv);
1.2     isaki 	mutex_exit(sc->sc_lock);
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Try to acquire track lock.
1.2     isaki  * It doesn't block if the track lock is already aquired.
1.2     isaki  * Returns true if the track lock was acquired, or false if the track
1.2     isaki  * lock was already acquired.
1.2     isaki  */
1.2     isaki static __inline bool
1.2     isaki audio_track_lock_tryenter(audio_track_t *track)
1.2     isaki {
1.2     isaki 	return (atomic_cas_uint(&track->lock, 0, 1) == 0);
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Acquire track lock.
1.2     isaki  */
1.2     isaki static __inline void
1.2     isaki audio_track_lock_enter(audio_track_t *track)
1.2     isaki {
1.2     isaki 	/* Don't sleep here. */
1.2     isaki 	while (audio_track_lock_tryenter(track) == false)
1.2     isaki 		;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Release track lock.
1.2     isaki  */
1.2     isaki static __inline void
1.2     isaki audio_track_lock_exit(audio_track_t *track)
1.2     isaki {
1.2     isaki 	atomic_swap_uint(&track->lock, 0);
1.2     isaki }
1.2     isaki
1.2     isaki
1.2     isaki static int
1.2     isaki audioopen(dev_t dev, int flags, int ifmt, struct lwp *l)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	/* Find the device */
1.2     isaki 	sc = device_lookup_private(&audio_cd, AUDIOUNIT(dev));
1.2     isaki 	if (sc == NULL || sc->hw_if == NULL)
1.2     isaki 		return ENXIO;
1.2     isaki
1.2     isaki 	error = audio_enter_exclusive(sc);
1.2     isaki 	if (error)
1.2     isaki 		return error;
1.2     isaki
1.2     isaki 	device_active(sc->sc_dev, DVA_SYSTEM);
1.2     isaki 	switch (AUDIODEV(dev)) {
1.2     isaki 	case SOUND_DEVICE:
1.2     isaki 	case AUDIO_DEVICE:
1.2     isaki 		error = audio_open(dev, sc, flags, ifmt, l, NULL);
1.2     isaki 		break;
1.2     isaki 	case AUDIOCTL_DEVICE:
1.2     isaki 		error = audioctl_open(dev, sc, flags, ifmt, l);
1.2     isaki 		break;
1.2     isaki 	case MIXER_DEVICE:
1.2     isaki 		error = mixer_open(dev, sc, flags, ifmt, l);
1.2     isaki 		break;
1.2     isaki 	default:
1.2     isaki 		error = ENXIO;
1.2     isaki 		break;
1.2     isaki 	}
1.2     isaki 	audio_exit_exclusive(sc);
1.2     isaki
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki static int
1.2     isaki audioclose(struct file *fp)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	audio_file_t *file;
1.2     isaki 	int error;
1.2     isaki 	dev_t dev;
1.2     isaki
1.2     isaki 	KASSERT(fp->f_audioctx);
1.2     isaki 	file = fp->f_audioctx;
1.2     isaki 	sc = file->sc;
1.2     isaki 	dev = file->dev;
1.2     isaki
1.2     isaki 	/* Acquire file lock and exlock */
1.2     isaki 	/* XXX what should I do when an error occurs? */
1.2     isaki 	error = audio_file_acquire(sc, file);
1.2     isaki 	if (error)
1.2     isaki 		return error;
1.2     isaki
1.2     isaki 	device_active(sc->sc_dev, DVA_SYSTEM);
1.2     isaki 	switch (AUDIODEV(dev)) {
1.2     isaki 	case SOUND_DEVICE:
1.2     isaki 	case AUDIO_DEVICE:
1.2     isaki 		error = audio_close(sc, file);
1.2     isaki 		break;
1.2     isaki 	case AUDIOCTL_DEVICE:
1.2     isaki 		error = 0;
1.2     isaki 		break;
1.2     isaki 	case MIXER_DEVICE:
1.2     isaki 		error = mixer_close(sc, file);
1.2     isaki 		break;
1.2     isaki 	default:
1.2     isaki 		error = ENXIO;
1.2     isaki 		break;
1.2     isaki 	}
1.2     isaki 	if (error == 0) {
1.2     isaki 		kmem_free(fp->f_audioctx, sizeof(audio_file_t));
1.2     isaki 		fp->f_audioctx = NULL;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * Since file has already been destructed,
1.2     isaki 	 * audio_file_release() is not necessary.
1.2     isaki 	 */
1.2     isaki
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki static int
1.2     isaki audioread(struct file *fp, off_t *offp, struct uio *uio, kauth_cred_t cred,
1.2     isaki 	int ioflag)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	audio_file_t *file;
1.2     isaki 	int error;
1.2     isaki 	dev_t dev;
1.2     isaki
1.2     isaki 	KASSERT(fp->f_audioctx);
1.2     isaki 	file = fp->f_audioctx;
1.2     isaki 	sc = file->sc;
1.2     isaki 	dev = file->dev;
1.2     isaki
1.2     isaki 	error = audio_file_acquire(sc, file);
1.2     isaki 	if (error)
1.2     isaki 		return error;
1.2     isaki
1.2     isaki 	if (fp->f_flag & O_NONBLOCK)
1.2     isaki 		ioflag |= IO_NDELAY;
1.2     isaki
1.2     isaki 	switch (AUDIODEV(dev)) {
1.2     isaki 	case SOUND_DEVICE:
1.2     isaki 	case AUDIO_DEVICE:
1.2     isaki 		error = audio_read(sc, uio, ioflag, file);
1.2     isaki 		break;
1.2     isaki 	case AUDIOCTL_DEVICE:
1.2     isaki 	case MIXER_DEVICE:
1.2     isaki 		error = ENODEV;
1.2     isaki 		break;
1.2     isaki 	default:
1.2     isaki 		error = ENXIO;
1.2     isaki 		break;
1.2     isaki 	}
1.2     isaki 	audio_file_release(sc, file);
1.2     isaki
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki static int
1.2     isaki audiowrite(struct file *fp, off_t *offp, struct uio *uio, kauth_cred_t cred,
1.2     isaki 	int ioflag)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	audio_file_t *file;
1.2     isaki 	int error;
1.2     isaki 	dev_t dev;
1.2     isaki
1.2     isaki 	KASSERT(fp->f_audioctx);
1.2     isaki 	file = fp->f_audioctx;
1.2     isaki 	sc = file->sc;
1.2     isaki 	dev = file->dev;
1.2     isaki
1.2     isaki 	error = audio_file_acquire(sc, file);
1.2     isaki 	if (error)
1.2     isaki 		return error;
1.2     isaki
1.2     isaki 	if (fp->f_flag & O_NONBLOCK)
1.2     isaki 		ioflag |= IO_NDELAY;
1.2     isaki
1.2     isaki 	switch (AUDIODEV(dev)) {
1.2     isaki 	case SOUND_DEVICE:
1.2     isaki 	case AUDIO_DEVICE:
1.2     isaki 		error = audio_write(sc, uio, ioflag, file);
1.2     isaki 		break;
1.2     isaki 	case AUDIOCTL_DEVICE:
1.2     isaki 	case MIXER_DEVICE:
1.2     isaki 		error = ENODEV;
1.2     isaki 		break;
1.2     isaki 	default:
1.2     isaki 		error = ENXIO;
1.2     isaki 		break;
1.2     isaki 	}
1.2     isaki 	audio_file_release(sc, file);
1.2     isaki
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki static int
1.2     isaki audioioctl(struct file *fp, u_long cmd, void *addr)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	audio_file_t *file;
1.2     isaki 	struct lwp *l = curlwp;
1.2     isaki 	int error;
1.2     isaki 	dev_t dev;
1.2     isaki
1.2     isaki 	KASSERT(fp->f_audioctx);
1.2     isaki 	file = fp->f_audioctx;
1.2     isaki 	sc = file->sc;
1.2     isaki 	dev = file->dev;
1.2     isaki
1.2     isaki 	error = audio_file_acquire(sc, file);
1.2     isaki 	if (error)
1.2     isaki 		return error;
1.2     isaki
1.2     isaki 	switch (AUDIODEV(dev)) {
1.2     isaki 	case SOUND_DEVICE:
1.2     isaki 	case AUDIO_DEVICE:
1.2     isaki 	case AUDIOCTL_DEVICE:
1.2     isaki 		mutex_enter(sc->sc_lock);
1.2     isaki 		device_active(sc->sc_dev, DVA_SYSTEM);
1.2     isaki 		mutex_exit(sc->sc_lock);
1.2     isaki 		if (IOCGROUP(cmd) == IOCGROUP(AUDIO_MIXER_READ))
1.2     isaki 			error = mixer_ioctl(sc, cmd, addr, fp->f_flag, l);
1.2     isaki 		else
1.2     isaki 			error = audio_ioctl(dev, sc, cmd, addr, fp->f_flag, l,
1.2     isaki 			    file);
1.2     isaki 		break;
1.2     isaki 	case MIXER_DEVICE:
1.2     isaki 		error = mixer_ioctl(sc, cmd, addr, fp->f_flag, l);
1.2     isaki 		break;
1.2     isaki 	default:
1.2     isaki 		error = ENXIO;
1.2     isaki 		break;
1.2     isaki 	}
1.2     isaki 	audio_file_release(sc, file);
1.2     isaki
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki static int
1.2     isaki audiostat(struct file *fp, struct stat *st)
1.2     isaki {
1.2     isaki 	audio_file_t *file;
1.2     isaki
1.2     isaki 	KASSERT(fp->f_audioctx);
1.2     isaki 	file = fp->f_audioctx;
1.2     isaki
1.2     isaki 	memset(st, 0, sizeof(*st));
1.2     isaki
1.2     isaki 	st->st_dev = file->dev;
1.2     isaki 	st->st_uid = kauth_cred_geteuid(fp->f_cred);
1.2     isaki 	st->st_gid = kauth_cred_getegid(fp->f_cred);
1.2     isaki 	st->st_mode = S_IFCHR;
1.2     isaki 	return 0;
1.2     isaki }
1.2     isaki
1.2     isaki static int
1.2     isaki audiopoll(struct file *fp, int events)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	audio_file_t *file;
1.2     isaki 	struct lwp *l = curlwp;
1.2     isaki 	int revents;
1.2     isaki 	dev_t dev;
1.2     isaki
1.2     isaki 	KASSERT(fp->f_audioctx);
1.2     isaki 	file = fp->f_audioctx;
1.2     isaki 	sc = file->sc;
1.2     isaki 	dev = file->dev;
1.2     isaki
1.2     isaki 	if (audio_file_acquire(sc, file) != 0)
1.2     isaki 		return 0;
1.2     isaki
1.2     isaki 	switch (AUDIODEV(dev)) {
1.2     isaki 	case SOUND_DEVICE:
1.2     isaki 	case AUDIO_DEVICE:
1.2     isaki 		revents = audio_poll(sc, events, l, file);
1.2     isaki 		break;
1.2     isaki 	case AUDIOCTL_DEVICE:
1.2     isaki 	case MIXER_DEVICE:
1.2     isaki 		revents = 0;
1.2     isaki 		break;
1.2     isaki 	default:
1.2     isaki 		revents = POLLERR;
1.2     isaki 		break;
1.2     isaki 	}
1.2     isaki 	audio_file_release(sc, file);
1.2     isaki
1.2     isaki 	return revents;
1.2     isaki }
1.2     isaki
1.2     isaki static int
1.2     isaki audiokqfilter(struct file *fp, struct knote *kn)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	audio_file_t *file;
1.2     isaki 	dev_t dev;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(fp->f_audioctx);
1.2     isaki 	file = fp->f_audioctx;
1.2     isaki 	sc = file->sc;
1.2     isaki 	dev = file->dev;
1.2     isaki
1.2     isaki 	error = audio_file_acquire(sc, file);
1.2     isaki 	if (error)
1.2     isaki 		return error;
1.2     isaki
1.2     isaki 	switch (AUDIODEV(dev)) {
1.2     isaki 	case SOUND_DEVICE:
1.2     isaki 	case AUDIO_DEVICE:
1.2     isaki 		error = audio_kqfilter(sc, file, kn);
1.2     isaki 		break;
1.2     isaki 	case AUDIOCTL_DEVICE:
1.2     isaki 	case MIXER_DEVICE:
1.2     isaki 		error = ENODEV;
1.2     isaki 		break;
1.2     isaki 	default:
1.2     isaki 		error = ENXIO;
1.2     isaki 		break;
1.2     isaki 	}
1.2     isaki 	audio_file_release(sc, file);
1.2     isaki
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki static int
1.2     isaki audiommap(struct file *fp, off_t *offp, size_t len, int prot, int *flagsp,
1.2     isaki 	int *advicep, struct uvm_object **uobjp, int *maxprotp)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	audio_file_t *file;
1.2     isaki 	dev_t dev;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(fp->f_audioctx);
1.2     isaki 	file = fp->f_audioctx;
1.2     isaki 	sc = file->sc;
1.2     isaki 	dev = file->dev;
1.2     isaki
1.2     isaki 	error = audio_file_acquire(sc, file);
1.2     isaki 	if (error)
1.2     isaki 		return error;
1.2     isaki
1.2     isaki 	mutex_enter(sc->sc_lock);
1.2     isaki 	device_active(sc->sc_dev, DVA_SYSTEM); /* XXXJDM */
1.2     isaki 	mutex_exit(sc->sc_lock);
1.2     isaki
1.2     isaki 	switch (AUDIODEV(dev)) {
1.2     isaki 	case SOUND_DEVICE:
1.2     isaki 	case AUDIO_DEVICE:
1.2     isaki 		error = audio_mmap(sc, offp, len, prot, flagsp, advicep,
1.2     isaki 		    uobjp, maxprotp, file);
1.2     isaki 		break;
1.2     isaki 	case AUDIOCTL_DEVICE:
1.2     isaki 	case MIXER_DEVICE:
1.2     isaki 	default:
1.2     isaki 		error = ENOTSUP;
1.2     isaki 		break;
1.2     isaki 	}
1.2     isaki 	audio_file_release(sc, file);
1.2     isaki
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki
1.2     isaki /* Exported interfaces for audiobell. */
1.2     isaki
1.2     isaki /*
1.2     isaki  * Open for audiobell.
1.2     isaki  * sample_rate, encoding, precision and channels in arg are in-parameter
1.2     isaki  * and indicates input encoding.
1.2     isaki  * Stores allocated file to arg->file.
1.2     isaki  * Stores blocksize to arg->blocksize.
1.2     isaki  * If successful returns 0, otherwise errno.
1.2     isaki  */
1.2     isaki int
1.2     isaki audiobellopen(dev_t dev, struct audiobell_arg *arg)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	/* Find the device */
1.2     isaki 	sc = device_lookup_private(&audio_cd, AUDIOUNIT(dev));
1.2     isaki 	if (sc == NULL || sc->hw_if == NULL)
1.2     isaki 		return ENXIO;
1.2     isaki
1.2     isaki 	error = audio_enter_exclusive(sc);
1.2     isaki 	if (error)
1.2     isaki 		return error;
1.2     isaki
1.2     isaki 	device_active(sc->sc_dev, DVA_SYSTEM);
1.2     isaki 	error = audio_open(dev, sc, FWRITE, 0, curlwp, arg);
1.2     isaki
1.2     isaki 	audio_exit_exclusive(sc);
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki /* Close for audiobell */
1.2     isaki int
1.2     isaki audiobellclose(audio_file_t *file)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	sc = file->sc;
1.2     isaki
1.2     isaki 	/* XXX what should I do when an error occurs? */
1.2     isaki 	error = audio_file_acquire(sc, file);
1.2     isaki 	if (error)
1.2     isaki 		return error;
1.2     isaki
1.2     isaki 	device_active(sc->sc_dev, DVA_SYSTEM);
1.2     isaki 	error = audio_close(sc, file);
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * Since file has already been destructed,
1.2     isaki 	 * audio_file_release() is not necessary.
1.2     isaki 	 */
1.2     isaki
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki /* Playback for audiobell */
1.2     isaki int
1.2     isaki audiobellwrite(audio_file_t *file, struct uio *uio)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	sc = file->sc;
1.2     isaki 	error = audio_file_acquire(sc, file);
1.2     isaki 	if (error)
1.2     isaki 		return error;
1.2     isaki
1.2     isaki 	error = audio_write(sc, uio, 0, file);
1.2     isaki
1.2     isaki 	audio_file_release(sc, file);
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki
1.2     isaki /*
1.2     isaki  * Audio driver
1.2     isaki  */
1.2     isaki int
1.2     isaki audio_open(dev_t dev, struct audio_softc *sc, int flags, int ifmt,
1.2     isaki 	struct lwp *l, struct audiobell_arg *bell)
1.2     isaki {
1.2     isaki 	struct audio_info ai;
1.2     isaki 	struct file *fp;
1.2     isaki 	audio_file_t *af;
1.2     isaki 	audio_ring_t *hwbuf;
1.2     isaki 	bool fullduplex;
1.2     isaki 	int fd;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(sc->sc_exlock);
1.2     isaki
1.2     isaki 	TRACE(1, "%sflags=0x%x po=%d ro=%d",
1.2     isaki 	    (audiodebug >= 3) ? "start " : "",
1.2     isaki 	    flags, sc->sc_popens, sc->sc_ropens);
1.2     isaki
1.2     isaki 	af = kmem_zalloc(sizeof(audio_file_t), KM_SLEEP);
1.2     isaki 	af->sc = sc;
1.2     isaki 	af->dev = dev;
1.2     isaki 	if ((flags & FWRITE) != 0 && audio_can_playback(sc))
1.2     isaki 		af->mode |= AUMODE_PLAY | AUMODE_PLAY_ALL;
1.2     isaki 	if ((flags & FREAD) != 0 && audio_can_capture(sc))
1.2     isaki 		af->mode |= AUMODE_RECORD;
1.2     isaki 	if (af->mode == 0) {
1.2     isaki 		error = ENXIO;
1.2     isaki 		goto bad1;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	fullduplex = (audio_get_props(sc) & AUDIO_PROP_FULLDUPLEX);
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * On half duplex hardware,
1.2     isaki 	 * 1. if mode is (PLAY | REC), let mode PLAY.
1.2     isaki 	 * 2. if mode is PLAY, let mode PLAY if no rec tracks, otherwise error.
1.2     isaki 	 * 3. if mode is REC, let mode REC if no play tracks, otherwise error.
1.2     isaki 	 */
1.2     isaki 	if (fullduplex == false) {
1.2     isaki 		if ((af->mode & AUMODE_PLAY)) {
1.2     isaki 			if (sc->sc_ropens != 0) {
1.2     isaki 				TRACE(1, "record track already exists");
1.2     isaki 				error = ENODEV;
1.2     isaki 				goto bad1;
1.2     isaki 			}
1.2     isaki 			/* Play takes precedence */
1.2     isaki 			af->mode &= ~AUMODE_RECORD;
1.2     isaki 		}
1.2     isaki 		if ((af->mode & AUMODE_RECORD)) {
1.2     isaki 			if (sc->sc_popens != 0) {
1.2     isaki 				TRACE(1, "play track already exists");
1.2     isaki 				error = ENODEV;
1.2     isaki 				goto bad1;
1.2     isaki 			}
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* Create tracks */
1.2     isaki 	if ((af->mode & AUMODE_PLAY))
1.2     isaki 		af->ptrack = audio_track_create(sc, sc->sc_pmixer);
1.2     isaki 	if ((af->mode & AUMODE_RECORD))
1.2     isaki 		af->rtrack = audio_track_create(sc, sc->sc_rmixer);
1.2     isaki
1.2     isaki 	/* Set parameters */
1.2     isaki 	AUDIO_INITINFO(&ai);
1.2     isaki 	if (bell) {
1.2     isaki 		ai.play.sample_rate   = bell->sample_rate;
1.2     isaki 		ai.play.encoding      = bell->encoding;
1.2     isaki 		ai.play.channels      = bell->channels;
1.2     isaki 		ai.play.precision     = bell->precision;
1.2     isaki 		ai.play.pause         = false;
1.2     isaki 	} else if (ISDEVAUDIO(dev)) {
1.2     isaki 		/* If /dev/audio, initialize everytime. */
1.2     isaki 		ai.play.sample_rate   = audio_default.sample_rate;
1.2     isaki 		ai.play.encoding      = audio_default.encoding;
1.2     isaki 		ai.play.channels      = audio_default.channels;
1.2     isaki 		ai.play.precision     = audio_default.precision;
1.2     isaki 		ai.play.pause         = false;
1.2     isaki 		ai.record.sample_rate = audio_default.sample_rate;
1.2     isaki 		ai.record.encoding    = audio_default.encoding;
1.2     isaki 		ai.record.channels    = audio_default.channels;
1.2     isaki 		ai.record.precision   = audio_default.precision;
1.2     isaki 		ai.record.pause       = false;
1.2     isaki 	} else {
1.2     isaki 		/* If /dev/sound, take over the previous parameters. */
1.2     isaki 		ai.play.sample_rate   = sc->sc_sound_pparams.sample_rate;
1.2     isaki 		ai.play.encoding      = sc->sc_sound_pparams.encoding;
1.2     isaki 		ai.play.channels      = sc->sc_sound_pparams.channels;
1.2     isaki 		ai.play.precision     = sc->sc_sound_pparams.precision;
1.2     isaki 		ai.play.pause         = sc->sc_sound_ppause;
1.2     isaki 		ai.record.sample_rate = sc->sc_sound_rparams.sample_rate;
1.2     isaki 		ai.record.encoding    = sc->sc_sound_rparams.encoding;
1.2     isaki 		ai.record.channels    = sc->sc_sound_rparams.channels;
1.2     isaki 		ai.record.precision   = sc->sc_sound_rparams.precision;
1.2     isaki 		ai.record.pause       = sc->sc_sound_rpause;
1.2     isaki 	}
1.2     isaki 	error = audio_file_setinfo(sc, af, &ai);
1.2     isaki 	if (error)
1.2     isaki 		goto bad2;
1.2     isaki
1.2     isaki 	if (sc->sc_popens + sc->sc_ropens == 0) {
1.2     isaki 		/* First open */
1.2     isaki
1.2     isaki 		sc->sc_cred = kauth_cred_get();
1.2     isaki 		kauth_cred_hold(sc->sc_cred);
1.2     isaki
1.2     isaki 		if (sc->hw_if->open) {
1.2     isaki 			int hwflags;
1.2     isaki
1.2     isaki 			/*
1.2     isaki 			 * Call hw_if->open() only at first open of
1.2     isaki 			 * combination of playback and recording.
1.2     isaki 			 * On full duplex hardware, the flags passed to
1.2     isaki 			 * hw_if->open() is always (FREAD | FWRITE)
1.2     isaki 			 * regardless of this open()'s flags.
1.2     isaki 			 * see also dev/isa/aria.c
1.7  nakayama 			 * but ckeck its playback or recording capability.
1.2     isaki 			 * On half duplex hardware, the flags passed to
1.2     isaki 			 * hw_if->open() is either FREAD or FWRITE.
1.2     isaki 			 * see also arch/evbarm/mini2440/audio_mini2440.c
1.2     isaki 			 */
1.2     isaki 			if (fullduplex) {
1.2     isaki 				hwflags = FREAD | FWRITE;
1.7  nakayama 				if (!audio_can_playback(sc))
1.7  nakayama 					hwflags &= ~FWRITE;
1.7  nakayama 				if (!audio_can_capture(sc))
1.7  nakayama 					hwflags &= ~FREAD;
1.2     isaki 			} else {
1.2     isaki 				/* Construct hwflags from af->mode. */
1.2     isaki 				hwflags = 0;
1.2     isaki 				if ((af->mode & AUMODE_PLAY) != 0)
1.2     isaki 					hwflags |= FWRITE;
1.2     isaki 				if ((af->mode & AUMODE_RECORD) != 0)
1.2     isaki 					hwflags |= FREAD;
1.2     isaki 			}
1.2     isaki
1.2     isaki 			mutex_enter(sc->sc_intr_lock);
1.2     isaki 			error = sc->hw_if->open(sc->hw_hdl, hwflags);
1.2     isaki 			mutex_exit(sc->sc_intr_lock);
1.2     isaki 			if (error)
1.2     isaki 				goto bad2;
1.2     isaki 		}
1.2     isaki
1.2     isaki 		/*
1.2     isaki 		 * Set speaker mode when a half duplex.
1.2     isaki 		 * XXX I'm not sure this is correct.
1.2     isaki 		 */
1.2     isaki 		if (1/*XXX*/) {
1.2     isaki 			if (sc->hw_if->speaker_ctl) {
1.2     isaki 				int on;
1.2     isaki 				if (af->ptrack) {
1.2     isaki 					on = 1;
1.2     isaki 				} else {
1.2     isaki 					on = 0;
1.2     isaki 				}
1.2     isaki 				mutex_enter(sc->sc_intr_lock);
1.2     isaki 				error = sc->hw_if->speaker_ctl(sc->hw_hdl, on);
1.2     isaki 				mutex_exit(sc->sc_intr_lock);
1.2     isaki 				if (error)
1.2     isaki 					goto bad3;
1.2     isaki 			}
1.2     isaki 		}
1.2     isaki 	} else if (sc->sc_multiuser == false) {
1.2     isaki 		uid_t euid = kauth_cred_geteuid(kauth_cred_get());
1.2     isaki 		if (euid != 0 && euid != kauth_cred_geteuid(sc->sc_cred)) {
1.2     isaki 			error = EPERM;
1.2     isaki 			goto bad2;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* Call init_output if this is the first playback open. */
1.2     isaki 	if (af->ptrack && sc->sc_popens == 0) {
1.2     isaki 		if (sc->hw_if->init_output) {
1.2     isaki 			hwbuf = &sc->sc_pmixer->hwbuf;
1.2     isaki 			mutex_enter(sc->sc_intr_lock);
1.2     isaki 			error = sc->hw_if->init_output(sc->hw_hdl,
1.2     isaki 			    hwbuf->mem,
1.2     isaki 			    hwbuf->capacity *
1.2     isaki 			    hwbuf->fmt.channels * hwbuf->fmt.stride / NBBY);
1.2     isaki 			mutex_exit(sc->sc_intr_lock);
1.2     isaki 			if (error)
1.2     isaki 				goto bad3;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki 	/* Call init_input if this is the first recording open. */
1.2     isaki 	if (af->rtrack && sc->sc_ropens == 0) {
1.2     isaki 		if (sc->hw_if->init_input) {
1.2     isaki 			hwbuf = &sc->sc_rmixer->hwbuf;
1.2     isaki 			mutex_enter(sc->sc_intr_lock);
1.2     isaki 			error = sc->hw_if->init_input(sc->hw_hdl,
1.2     isaki 			    hwbuf->mem,
1.2     isaki 			    hwbuf->capacity *
1.2     isaki 			    hwbuf->fmt.channels * hwbuf->fmt.stride / NBBY);
1.2     isaki 			mutex_exit(sc->sc_intr_lock);
1.2     isaki 			if (error)
1.2     isaki 				goto bad3;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	if (bell == NULL) {
1.2     isaki 		error = fd_allocfile(&fp, &fd);
1.2     isaki 		if (error)
1.2     isaki 			goto bad3;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * Count up finally.
1.2     isaki 	 * Don't fail from here.
1.2     isaki 	 */
1.2     isaki 	if (af->ptrack)
1.2     isaki 		sc->sc_popens++;
1.2     isaki 	if (af->rtrack)
1.2     isaki 		sc->sc_ropens++;
1.2     isaki 	mutex_enter(sc->sc_intr_lock);
1.2     isaki 	SLIST_INSERT_HEAD(&sc->sc_files, af, entry);
1.2     isaki 	mutex_exit(sc->sc_intr_lock);
1.2     isaki
1.2     isaki 	if (bell) {
1.2     isaki 		bell->file = af;
1.2     isaki 	} else {
1.2     isaki 		error = fd_clone(fp, fd, flags, &audio_fileops, af);
1.2     isaki 		KASSERT(error == EMOVEFD);
1.2     isaki 	}
1.2     isaki
1.2     isaki 	TRACEF(3, af, "done");
1.2     isaki 	return error;
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * Since track here is not yet linked to sc_files,
1.2     isaki 	 * you can call track_destroy() without sc_intr_lock.
1.2     isaki 	 */
1.2     isaki bad3:
1.2     isaki 	if (sc->sc_popens + sc->sc_ropens == 0) {
1.2     isaki 		if (sc->hw_if->close) {
1.2     isaki 			mutex_enter(sc->sc_intr_lock);
1.2     isaki 			sc->hw_if->close(sc->hw_hdl);
1.2     isaki 			mutex_exit(sc->sc_intr_lock);
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki bad2:
1.2     isaki 	if (af->rtrack) {
1.2     isaki 		audio_track_destroy(af->rtrack);
1.2     isaki 		af->rtrack = NULL;
1.2     isaki 	}
1.2     isaki 	if (af->ptrack) {
1.2     isaki 		audio_track_destroy(af->ptrack);
1.2     isaki 		af->ptrack = NULL;
1.2     isaki 	}
1.2     isaki bad1:
1.2     isaki 	kmem_free(af, sizeof(*af));
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki int
1.2     isaki audio_close(struct audio_softc *sc, audio_file_t *file)
1.2     isaki {
1.2     isaki 	audio_track_t *oldtrack;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(!mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(file->lock);
1.2     isaki
1.2     isaki 	TRACEF(1, file, "%spid=%d.%d po=%d ro=%d",
1.2     isaki 	    (audiodebug >= 3) ? "start " : "",
1.2     isaki 	    (int)curproc->p_pid, (int)curlwp->l_lid,
1.2     isaki 	    sc->sc_popens, sc->sc_ropens);
1.2     isaki 	KASSERTMSG(sc->sc_popens + sc->sc_ropens > 0,
1.2     isaki 	    "sc->sc_popens=%d, sc->sc_ropens=%d",
1.2     isaki 	    sc->sc_popens, sc->sc_ropens);
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * Drain first.
1.2     isaki 	 * It must be done before acquiring exclusive lock.
1.2     isaki 	 */
1.2     isaki 	if (file->ptrack) {
1.2     isaki 		mutex_enter(sc->sc_lock);
1.2     isaki 		audio_track_drain(sc, file->ptrack);
1.2     isaki 		mutex_exit(sc->sc_lock);
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* Then, acquire exclusive lock to protect counters. */
1.2     isaki 	/* XXX what should I do when an error occurs? */
1.2     isaki 	error = audio_enter_exclusive(sc);
1.2     isaki 	if (error) {
1.2     isaki 		audio_file_release(sc, file);
1.2     isaki 		return error;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	if (file->ptrack) {
1.2     isaki 		/* Call hw halt_output if this is the last playback track. */
1.2     isaki 		if (sc->sc_popens == 1 && sc->sc_pbusy) {
1.2     isaki 			error = audio_pmixer_halt(sc);
1.2     isaki 			if (error) {
1.2     isaki 				device_printf(sc->sc_dev,
1.2     isaki 				    "halt_output failed with %d\n", error);
1.2     isaki 			}
1.2     isaki 		}
1.2     isaki
1.2     isaki 		/* Destroy the track. */
1.2     isaki 		oldtrack = file->ptrack;
1.2     isaki 		mutex_enter(sc->sc_intr_lock);
1.2     isaki 		file->ptrack = NULL;
1.2     isaki 		mutex_exit(sc->sc_intr_lock);
1.2     isaki 		TRACET(3, oldtrack, "dropframes=%" PRIu64,
1.2     isaki 		    oldtrack->dropframes);
1.2     isaki 		audio_track_destroy(oldtrack);
1.2     isaki
1.2     isaki 		KASSERT(sc->sc_popens > 0);
1.2     isaki 		sc->sc_popens--;
1.2     isaki 	}
1.2     isaki 	if (file->rtrack) {
1.2     isaki 		/* Call hw halt_input if this is the last recording track. */
1.2     isaki 		if (sc->sc_ropens == 1 && sc->sc_rbusy) {
1.2     isaki 			error = audio_rmixer_halt(sc);
1.2     isaki 			if (error) {
1.2     isaki 				device_printf(sc->sc_dev,
1.2     isaki 				    "halt_input failed with %d\n", error);
1.2     isaki 			}
1.2     isaki 		}
1.2     isaki
1.2     isaki 		/* Destroy the track. */
1.2     isaki 		oldtrack = file->rtrack;
1.2     isaki 		mutex_enter(sc->sc_intr_lock);
1.2     isaki 		file->rtrack = NULL;
1.2     isaki 		mutex_exit(sc->sc_intr_lock);
1.2     isaki 		TRACET(3, oldtrack, "dropframes=%" PRIu64,
1.2     isaki 		    oldtrack->dropframes);
1.2     isaki 		audio_track_destroy(oldtrack);
1.2     isaki
1.2     isaki 		KASSERT(sc->sc_ropens > 0);
1.2     isaki 		sc->sc_ropens--;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* Call hw close if this is the last track. */
1.2     isaki 	if (sc->sc_popens + sc->sc_ropens == 0) {
1.2     isaki 		if (sc->hw_if->close) {
1.2     isaki 			TRACE(2, "hw_if close");
1.2     isaki 			mutex_enter(sc->sc_intr_lock);
1.2     isaki 			sc->hw_if->close(sc->hw_hdl);
1.2     isaki 			mutex_exit(sc->sc_intr_lock);
1.2     isaki 		}
1.2     isaki
1.2     isaki 		kauth_cred_free(sc->sc_cred);
1.2     isaki 	}
1.2     isaki
1.2     isaki 	mutex_enter(sc->sc_intr_lock);
1.2     isaki 	SLIST_REMOVE(&sc->sc_files, file, audio_file, entry);
1.2     isaki 	mutex_exit(sc->sc_intr_lock);
1.2     isaki
1.2     isaki 	TRACE(3, "done");
1.2     isaki 	audio_exit_exclusive(sc);
1.2     isaki 	return 0;
1.2     isaki }
1.2     isaki
1.2     isaki int
1.2     isaki audio_read(struct audio_softc *sc, struct uio *uio, int ioflag,
1.2     isaki 	audio_file_t *file)
1.2     isaki {
1.2     isaki 	audio_track_t *track;
1.2     isaki 	audio_ring_t *usrbuf;
1.2     isaki 	audio_ring_t *input;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	track = file->rtrack;
1.2     isaki 	KASSERT(track);
1.2     isaki 	TRACET(2, track, "resid=%zd", uio->uio_resid);
1.2     isaki
1.2     isaki 	KASSERT(!mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(file->lock);
1.2     isaki
1.2     isaki 	/* I think it's better than EINVAL. */
1.2     isaki 	if (track->mmapped)
1.2     isaki 		return EPERM;
1.2     isaki
1.2     isaki #ifdef AUDIO_PM_IDLE
1.2     isaki 	mutex_enter(sc->sc_lock);
1.2     isaki 	if (device_is_active(&sc->sc_dev) || sc->sc_idle)
1.2     isaki 		device_active(&sc->sc_dev, DVA_SYSTEM);
1.2     isaki 	mutex_exit(sc->sc_lock);
1.2     isaki #endif
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * On half-duplex hardware, O_RDWR is treated as O_WRONLY.
1.2     isaki 	 * However read() system call itself can be called because it's
1.2     isaki 	 * opened with O_RDWR.  So in this case, deny this read().
1.2     isaki 	 */
1.2     isaki 	if ((file->mode & AUMODE_RECORD) == 0) {
1.2     isaki 		return EBADF;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	TRACET(3, track, "resid=%zd", uio->uio_resid);
1.2     isaki
1.2     isaki 	usrbuf = &track->usrbuf;
1.2     isaki 	input = track->input;
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * The first read starts rmixer.
1.2     isaki 	 */
1.2     isaki 	error = audio_enter_exclusive(sc);
1.2     isaki 	if (error)
1.2     isaki 		return error;
1.2     isaki 	if (sc->sc_rbusy == false)
1.2     isaki 		audio_rmixer_start(sc);
1.2     isaki 	audio_exit_exclusive(sc);
1.2     isaki
1.2     isaki 	error = 0;
1.2     isaki 	while (uio->uio_resid > 0 && error == 0) {
1.2     isaki 		int bytes;
1.2     isaki
1.2     isaki 		TRACET(3, track,
1.2     isaki 		    "while resid=%zd input=%d/%d/%d usrbuf=%d/%d/H%d",
1.2     isaki 		    uio->uio_resid,
1.2     isaki 		    input->head, input->used, input->capacity,
1.2     isaki 		    usrbuf->head, usrbuf->used, track->usrbuf_usedhigh);
1.2     isaki
1.2     isaki 		/* Wait when buffers are empty. */
1.2     isaki 		mutex_enter(sc->sc_lock);
1.2     isaki 		for (;;) {
1.2     isaki 			bool empty;
1.2     isaki 			audio_track_lock_enter(track);
1.2     isaki 			empty = (input->used == 0 && usrbuf->used == 0);
1.2     isaki 			audio_track_lock_exit(track);
1.2     isaki 			if (!empty)
1.2     isaki 				break;
1.2     isaki
1.2     isaki 			if ((ioflag & IO_NDELAY)) {
1.2     isaki 				mutex_exit(sc->sc_lock);
1.2     isaki 				return EWOULDBLOCK;
1.2     isaki 			}
1.2     isaki
1.2     isaki 			TRACET(3, track, "sleep");
1.2     isaki 			error = audio_track_waitio(sc, track);
1.2     isaki 			if (error) {
1.2     isaki 				mutex_exit(sc->sc_lock);
1.2     isaki 				return error;
1.2     isaki 			}
1.2     isaki 		}
1.2     isaki 		mutex_exit(sc->sc_lock);
1.2     isaki
1.2     isaki 		audio_track_lock_enter(track);
1.2     isaki 		audio_track_record(track);
1.2     isaki 		audio_track_lock_exit(track);
1.2     isaki
1.2     isaki 		/* uiomove from usrbuf as much as possible. */
1.2     isaki 		bytes = uimin(usrbuf->used, uio->uio_resid);
1.2     isaki 		while (bytes > 0) {
1.2     isaki 			int head = usrbuf->head;
1.2     isaki 			int len = uimin(bytes, usrbuf->capacity - head);
1.2     isaki 			error = uiomove((uint8_t *)usrbuf->mem + head, len,
1.2     isaki 			    uio);
1.2     isaki 			if (error) {
1.2     isaki 				device_printf(sc->sc_dev,
1.2     isaki 				    "uiomove(len=%d) failed with %d\n",
1.2     isaki 				    len, error);
1.2     isaki 				goto abort;
1.2     isaki 			}
1.2     isaki 			auring_take(usrbuf, len);
1.2     isaki 			track->useriobytes += len;
1.2     isaki 			TRACET(3, track, "uiomove(len=%d) usrbuf=%d/%d/C%d",
1.2     isaki 			    len,
1.2     isaki 			    usrbuf->head, usrbuf->used, usrbuf->capacity);
1.2     isaki 			bytes -= len;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki abort:
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki
1.2     isaki /*
1.2     isaki  * Clear file's playback and/or record track buffer immediately.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_file_clear(struct audio_softc *sc, audio_file_t *file)
1.2     isaki {
1.2     isaki
1.2     isaki 	if (file->ptrack)
1.2     isaki 		audio_track_clear(sc, file->ptrack);
1.2     isaki 	if (file->rtrack)
1.2     isaki 		audio_track_clear(sc, file->rtrack);
1.2     isaki }
1.2     isaki
1.2     isaki int
1.2     isaki audio_write(struct audio_softc *sc, struct uio *uio, int ioflag,
1.2     isaki 	audio_file_t *file)
1.2     isaki {
1.2     isaki 	audio_track_t *track;
1.2     isaki 	audio_ring_t *usrbuf;
1.2     isaki 	audio_ring_t *outbuf;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	track = file->ptrack;
1.2     isaki 	KASSERT(track);
1.2     isaki 	TRACET(2, track, "%sresid=%zd pid=%d.%d ioflag=0x%x",
1.2     isaki 	    audiodebug >= 3 ? "begin " : "",
1.2     isaki 	    uio->uio_resid, (int)curproc->p_pid, (int)curlwp->l_lid, ioflag);
1.2     isaki
1.2     isaki 	KASSERT(!mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(file->lock);
1.2     isaki
1.2     isaki 	/* I think it's better than EINVAL. */
1.2     isaki 	if (track->mmapped)
1.2     isaki 		return EPERM;
1.2     isaki
1.2     isaki 	if (uio->uio_resid == 0) {
1.2     isaki 		track->eofcounter++;
1.2     isaki 		return 0;
1.2     isaki 	}
1.2     isaki
1.2     isaki #ifdef AUDIO_PM_IDLE
1.2     isaki 	mutex_enter(sc->sc_lock);
1.2     isaki 	if (device_is_active(&sc->sc_dev) || sc->sc_idle)
1.2     isaki 		device_active(&sc->sc_dev, DVA_SYSTEM);
1.2     isaki 	mutex_exit(sc->sc_lock);
1.2     isaki #endif
1.2     isaki
1.2     isaki 	usrbuf = &track->usrbuf;
1.2     isaki 	outbuf = &track->outbuf;
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * The first write starts pmixer.
1.2     isaki 	 */
1.2     isaki 	error = audio_enter_exclusive(sc);
1.2     isaki 	if (error)
1.2     isaki 		return error;
1.2     isaki 	if (sc->sc_pbusy == false)
1.2     isaki 		audio_pmixer_start(sc, false);
1.2     isaki 	audio_exit_exclusive(sc);
1.2     isaki
1.2     isaki 	track->pstate = AUDIO_STATE_RUNNING;
1.2     isaki 	error = 0;
1.2     isaki 	while (uio->uio_resid > 0 && error == 0) {
1.2     isaki 		int bytes;
1.2     isaki
1.2     isaki 		TRACET(3, track, "while resid=%zd usrbuf=%d/%d/H%d",
1.2     isaki 		    uio->uio_resid,
1.2     isaki 		    usrbuf->head, usrbuf->used, track->usrbuf_usedhigh);
1.2     isaki
1.2     isaki 		/* Wait when buffers are full. */
1.2     isaki 		mutex_enter(sc->sc_lock);
1.2     isaki 		for (;;) {
1.2     isaki 			bool full;
1.2     isaki 			audio_track_lock_enter(track);
1.2     isaki 			full = (usrbuf->used >= track->usrbuf_usedhigh &&
1.2     isaki 			    outbuf->used >= outbuf->capacity);
1.2     isaki 			audio_track_lock_exit(track);
1.2     isaki 			if (!full)
1.2     isaki 				break;
1.2     isaki
1.2     isaki 			if ((ioflag & IO_NDELAY)) {
1.2     isaki 				error = EWOULDBLOCK;
1.2     isaki 				mutex_exit(sc->sc_lock);
1.2     isaki 				goto abort;
1.2     isaki 			}
1.2     isaki
1.2     isaki 			TRACET(3, track, "sleep usrbuf=%d/H%d",
1.2     isaki 			    usrbuf->used, track->usrbuf_usedhigh);
1.2     isaki 			error = audio_track_waitio(sc, track);
1.2     isaki 			if (error) {
1.2     isaki 				mutex_exit(sc->sc_lock);
1.2     isaki 				goto abort;
1.2     isaki 			}
1.2     isaki 		}
1.2     isaki 		mutex_exit(sc->sc_lock);
1.2     isaki
1.2     isaki 		/* uiomove to usrbuf as much as possible. */
1.2     isaki 		bytes = uimin(track->usrbuf_usedhigh - usrbuf->used,
1.2     isaki 		    uio->uio_resid);
1.2     isaki 		while (bytes > 0) {
1.2     isaki 			int tail = auring_tail(usrbuf);
1.2     isaki 			int len = uimin(bytes, usrbuf->capacity - tail);
1.2     isaki 			error = uiomove((uint8_t *)usrbuf->mem + tail, len,
1.2     isaki 			    uio);
1.2     isaki 			if (error) {
1.2     isaki 				device_printf(sc->sc_dev,
1.2     isaki 				    "uiomove(len=%d) failed with %d\n",
1.2     isaki 				    len, error);
1.2     isaki 				goto abort;
1.2     isaki 			}
1.2     isaki 			auring_push(usrbuf, len);
1.2     isaki 			track->useriobytes += len;
1.2     isaki 			TRACET(3, track, "uiomove(len=%d) usrbuf=%d/%d/C%d",
1.2     isaki 			    len,
1.2     isaki 			    usrbuf->head, usrbuf->used, usrbuf->capacity);
1.2     isaki 			bytes -= len;
1.2     isaki 		}
1.2     isaki
1.2     isaki 		/* Convert them as much as possible. */
1.2     isaki 		audio_track_lock_enter(track);
1.2     isaki 		while (usrbuf->used >= track->usrbuf_blksize &&
1.2     isaki 		    outbuf->used < outbuf->capacity) {
1.2     isaki 			audio_track_play(track);
1.2     isaki 		}
1.2     isaki 		audio_track_lock_exit(track);
1.2     isaki 	}
1.2     isaki
1.2     isaki abort:
1.2     isaki 	TRACET(3, track, "done error=%d", error);
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki int
1.2     isaki audio_ioctl(dev_t dev, struct audio_softc *sc, u_long cmd, void *addr, int flag,
1.2     isaki 	struct lwp *l, audio_file_t *file)
1.2     isaki {
1.2     isaki 	struct audio_offset *ao;
1.2     isaki 	struct audio_info ai;
1.2     isaki 	audio_track_t *track;
1.2     isaki 	audio_encoding_t *ae;
1.2     isaki 	audio_format_query_t *query;
1.2     isaki 	u_int stamp;
1.2     isaki 	u_int offs;
1.2     isaki 	int fd;
1.2     isaki 	int index;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(!mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(file->lock);
1.2     isaki
1.2     isaki #if defined(AUDIO_DEBUG)
1.2     isaki 	const char *ioctlnames[] = {
1.2     isaki 		" AUDIO_GETINFO",	/* 21 */
1.2     isaki 		" AUDIO_SETINFO",	/* 22 */
1.2     isaki 		" AUDIO_DRAIN",		/* 23 */
1.2     isaki 		" AUDIO_FLUSH",		/* 24 */
1.2     isaki 		" AUDIO_WSEEK",		/* 25 */
1.2     isaki 		" AUDIO_RERROR",	/* 26 */
1.2     isaki 		" AUDIO_GETDEV",	/* 27 */
1.2     isaki 		" AUDIO_GETENC",	/* 28 */
1.2     isaki 		" AUDIO_GETFD",		/* 29 */
1.2     isaki 		" AUDIO_SETFD",		/* 30 */
1.2     isaki 		" AUDIO_PERROR",	/* 31 */
1.2     isaki 		" AUDIO_GETIOFFS",	/* 32 */
1.2     isaki 		" AUDIO_GETOOFFS",	/* 33 */
1.2     isaki 		" AUDIO_GETPROPS",	/* 34 */
1.2     isaki 		" AUDIO_GETBUFINFO",	/* 35 */
1.2     isaki 		" AUDIO_SETCHAN",	/* 36 */
1.2     isaki 		" AUDIO_GETCHAN",	/* 37 */
1.2     isaki 		" AUDIO_QUERYFORMAT",	/* 38 */
1.2     isaki 		" AUDIO_GETFORMAT",	/* 39 */
1.2     isaki 		" AUDIO_SETFORMAT",	/* 40 */
1.2     isaki 	};
1.2     isaki 	int nameidx = (cmd & 0xff);
1.2     isaki 	const char *ioctlname = "";
1.2     isaki 	if (21 <= nameidx && nameidx <= 21 + __arraycount(ioctlnames))
1.2     isaki 		ioctlname = ioctlnames[nameidx - 21];
1.2     isaki 	TRACEF(2, file, "(%lu,'%c',%lu)%s pid=%d.%d",
1.2     isaki 	    IOCPARM_LEN(cmd), (char)IOCGROUP(cmd), cmd&0xff, ioctlname,
1.2     isaki 	    (int)curproc->p_pid, (int)l->l_lid);
1.2     isaki #endif
1.2     isaki
1.2     isaki 	error = 0;
1.2     isaki 	switch (cmd) {
1.2     isaki 	case FIONBIO:
1.2     isaki 		/* All handled in the upper FS layer. */
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case FIONREAD:
1.2     isaki 		/* Get the number of bytes that can be read. */
1.2     isaki 		if (file->rtrack) {
1.2     isaki 			*(int *)addr = audio_track_readablebytes(file->rtrack);
1.2     isaki 		} else {
1.2     isaki 			*(int *)addr = 0;
1.2     isaki 		}
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case FIOASYNC:
1.2     isaki 		/* Set/Clear ASYNC I/O. */
1.2     isaki 		if (*(int *)addr) {
1.2     isaki 			file->async_audio = curproc->p_pid;
1.2     isaki 			TRACEF(2, file, "FIOASYNC pid %d", file->async_audio);
1.2     isaki 		} else {
1.2     isaki 			file->async_audio = 0;
1.2     isaki 			TRACEF(2, file, "FIOASYNC off");
1.2     isaki 		}
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case AUDIO_FLUSH:
1.2     isaki 		/* XXX TODO: clear errors and restart? */
1.2     isaki 		audio_file_clear(sc, file);
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case AUDIO_RERROR:
1.2     isaki 		/*
1.2     isaki 		 * Number of read bytes dropped.  We don't know where
1.2     isaki 		 * or when they were dropped (including conversion stage).
1.2     isaki 		 * Therefore, the number of accurate bytes or samples is
1.2     isaki 		 * also unknown.
1.2     isaki 		 */
1.2     isaki 		track = file->rtrack;
1.2     isaki 		if (track) {
1.2     isaki 			*(int *)addr = frametobyte(&track->usrbuf.fmt,
1.2     isaki 			    track->dropframes);
1.2     isaki 		}
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case AUDIO_PERROR:
1.2     isaki 		/*
1.2     isaki 		 * Number of write bytes dropped.  We don't know where
1.2     isaki 		 * or when they were dropped (including conversion stage).
1.2     isaki 		 * Therefore, the number of accurate bytes or samples is
1.2     isaki 		 * also unknown.
1.2     isaki 		 */
1.2     isaki 		track = file->ptrack;
1.2     isaki 		if (track) {
1.2     isaki 			*(int *)addr = frametobyte(&track->usrbuf.fmt,
1.2     isaki 			    track->dropframes);
1.2     isaki 		}
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case AUDIO_GETIOFFS:
1.2     isaki 		/* XXX TODO */
1.2     isaki 		ao = (struct audio_offset *)addr;
1.2     isaki 		ao->samples = 0;
1.2     isaki 		ao->deltablks = 0;
1.2     isaki 		ao->offset = 0;
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case AUDIO_GETOOFFS:
1.2     isaki 		ao = (struct audio_offset *)addr;
1.2     isaki 		track = file->ptrack;
1.2     isaki 		if (track == NULL) {
1.2     isaki 			ao->samples = 0;
1.2     isaki 			ao->deltablks = 0;
1.2     isaki 			ao->offset = 0;
1.2     isaki 			break;
1.2     isaki 		}
1.2     isaki 		mutex_enter(sc->sc_lock);
1.2     isaki 		mutex_enter(sc->sc_intr_lock);
1.2     isaki 		/* figure out where next DMA will start */
1.2     isaki 		stamp = track->usrbuf_stamp;
1.2     isaki 		offs = track->usrbuf.head;
1.2     isaki 		mutex_exit(sc->sc_intr_lock);
1.2     isaki 		mutex_exit(sc->sc_lock);
1.2     isaki
1.2     isaki 		ao->samples = stamp;
1.2     isaki 		ao->deltablks = (stamp / track->usrbuf_blksize) -
1.2     isaki 		    (track->usrbuf_stamp_last / track->usrbuf_blksize);
1.2     isaki 		track->usrbuf_stamp_last = stamp;
1.2     isaki 		offs = rounddown(offs, track->usrbuf_blksize)
1.2     isaki 		    + track->usrbuf_blksize;
1.2     isaki 		if (offs >= track->usrbuf.capacity)
1.2     isaki 			offs -= track->usrbuf.capacity;
1.2     isaki 		ao->offset = offs;
1.2     isaki
1.2     isaki 		TRACET(3, track, "GETOOFFS: samples=%u deltablks=%u offset=%u",
1.2     isaki 		    ao->samples, ao->deltablks, ao->offset);
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case AUDIO_WSEEK:
1.2     isaki 		/* XXX return value does not include outbuf one. */
1.2     isaki 		if (file->ptrack)
1.2     isaki 			*(u_long *)addr = file->ptrack->usrbuf.used;
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case AUDIO_SETINFO:
1.2     isaki 		error = audio_enter_exclusive(sc);
1.2     isaki 		if (error)
1.2     isaki 			break;
1.2     isaki 		error = audio_file_setinfo(sc, file, (struct audio_info *)addr);
1.2     isaki 		if (error) {
1.2     isaki 			audio_exit_exclusive(sc);
1.2     isaki 			break;
1.2     isaki 		}
1.2     isaki 		/* XXX TODO: update last_ai if /dev/sound ? */
1.2     isaki 		if (ISDEVSOUND(dev))
1.2     isaki 			error = audiogetinfo(sc, &sc->sc_ai, 0, file);
1.2     isaki 		audio_exit_exclusive(sc);
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case AUDIO_GETINFO:
1.2     isaki 		error = audio_enter_exclusive(sc);
1.2     isaki 		if (error)
1.2     isaki 			break;
1.2     isaki 		error = audiogetinfo(sc, (struct audio_info *)addr, 1, file);
1.2     isaki 		audio_exit_exclusive(sc);
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case AUDIO_GETBUFINFO:
1.2     isaki 		mutex_enter(sc->sc_lock);
1.2     isaki 		error = audiogetinfo(sc, (struct audio_info *)addr, 0, file);
1.2     isaki 		mutex_exit(sc->sc_lock);
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case AUDIO_DRAIN:
1.2     isaki 		if (file->ptrack) {
1.2     isaki 			mutex_enter(sc->sc_lock);
1.2     isaki 			error = audio_track_drain(sc, file->ptrack);
1.2     isaki 			mutex_exit(sc->sc_lock);
1.2     isaki 		}
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case AUDIO_GETDEV:
1.2     isaki 		mutex_enter(sc->sc_lock);
1.2     isaki 		error = sc->hw_if->getdev(sc->hw_hdl, (audio_device_t *)addr);
1.2     isaki 		mutex_exit(sc->sc_lock);
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case AUDIO_GETENC:
1.2     isaki 		ae = (audio_encoding_t *)addr;
1.2     isaki 		index = ae->index;
1.2     isaki 		if (index < 0 || index >= __arraycount(audio_encodings)) {
1.2     isaki 			error = EINVAL;
1.2     isaki 			break;
1.2     isaki 		}
1.2     isaki 		*ae = audio_encodings[index];
1.2     isaki 		ae->index = index;
1.2     isaki 		/*
1.2     isaki 		 * EMULATED always.
1.2     isaki 		 * EMULATED flag at that time used to mean that it could
1.2     isaki 		 * not be passed directly to the hardware as-is.  But
1.2     isaki 		 * currently, all formats including hardware native is not
1.2     isaki 		 * passed directly to the hardware.  So I set EMULATED
1.2     isaki 		 * flag for all formats.
1.2     isaki 		 */
1.2     isaki 		ae->flags = AUDIO_ENCODINGFLAG_EMULATED;
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case AUDIO_GETFD:
1.2     isaki 		/*
1.2     isaki 		 * Returns the current setting of full duplex mode.
1.2     isaki 		 * If HW has full duplex mode and there are two mixers,
1.2     isaki 		 * it is full duplex.  Otherwise half duplex.
1.2     isaki 		 */
1.2     isaki 		mutex_enter(sc->sc_lock);
1.2     isaki 		fd = (audio_get_props(sc) & AUDIO_PROP_FULLDUPLEX)
1.2     isaki 		    && (sc->sc_pmixer && sc->sc_rmixer);
1.2     isaki 		mutex_exit(sc->sc_lock);
1.2     isaki 		*(int *)addr = fd;
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case AUDIO_GETPROPS:
1.2     isaki 		mutex_enter(sc->sc_lock);
1.2     isaki 		*(int *)addr = audio_get_props(sc);
1.2     isaki 		mutex_exit(sc->sc_lock);
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case AUDIO_QUERYFORMAT:
1.2     isaki 		query = (audio_format_query_t *)addr;
1.2     isaki 		if (sc->hw_if->query_format) {
1.2     isaki 			mutex_enter(sc->sc_lock);
1.2     isaki 			error = sc->hw_if->query_format(sc->hw_hdl, query);
1.2     isaki 			mutex_exit(sc->sc_lock);
1.2     isaki 			/* Hide internal infomations */
1.2     isaki 			query->fmt.driver_data = NULL;
1.2     isaki 		} else {
1.2     isaki 			error = ENODEV;
1.2     isaki 		}
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case AUDIO_GETFORMAT:
1.2     isaki 		audio_mixers_get_format(sc, (struct audio_info *)addr);
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case AUDIO_SETFORMAT:
1.2     isaki 		mutex_enter(sc->sc_lock);
1.2     isaki 		audio_mixers_get_format(sc, &ai);
1.2     isaki 		error = audio_mixers_set_format(sc, (struct audio_info *)addr);
1.2     isaki 		if (error) {
1.2     isaki 			/* Rollback */
1.2     isaki 			audio_mixers_set_format(sc, &ai);
1.2     isaki 		}
1.2     isaki 		mutex_exit(sc->sc_lock);
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case AUDIO_SETFD:
1.2     isaki 	case AUDIO_SETCHAN:
1.2     isaki 	case AUDIO_GETCHAN:
1.2     isaki 		/* Obsoleted */
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	default:
1.2     isaki 		if (sc->hw_if->dev_ioctl) {
1.2     isaki 			error = audio_enter_exclusive(sc);
1.2     isaki 			if (error)
1.2     isaki 				break;
1.2     isaki 			error = sc->hw_if->dev_ioctl(sc->hw_hdl,
1.2     isaki 			    cmd, addr, flag, l);
1.2     isaki 			audio_exit_exclusive(sc);
1.2     isaki 		} else {
1.2     isaki 			TRACEF(2, file, "unknown ioctl");
1.2     isaki 			error = EINVAL;
1.2     isaki 		}
1.2     isaki 		break;
1.2     isaki 	}
1.2     isaki 	TRACEF(2, file, "(%lu,'%c',%lu)%s result %d",
1.2     isaki 	    IOCPARM_LEN(cmd), (char)IOCGROUP(cmd), cmd&0xff, ioctlname,
1.2     isaki 	    error);
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Returns the number of bytes that can be read on recording buffer.
1.2     isaki  */
1.2     isaki static __inline int
1.2     isaki audio_track_readablebytes(const audio_track_t *track)
1.2     isaki {
1.2     isaki 	int bytes;
1.2     isaki
1.2     isaki 	KASSERT(track);
1.2     isaki 	KASSERT(track->mode == AUMODE_RECORD);
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * Although usrbuf is primarily readable data, recorded data
1.2     isaki 	 * also stays in track->input until reading.  So it is necessary
1.2     isaki 	 * to add it.  track->input is in frame, usrbuf is in byte.
1.2     isaki 	 */
1.2     isaki 	bytes = track->usrbuf.used +
1.2     isaki 	    track->input->used * frametobyte(&track->usrbuf.fmt, 1);
1.2     isaki 	return bytes;
1.2     isaki }
1.2     isaki
1.2     isaki int
1.2     isaki audio_poll(struct audio_softc *sc, int events, struct lwp *l,
1.2     isaki 	audio_file_t *file)
1.2     isaki {
1.2     isaki 	audio_track_t *track;
1.2     isaki 	int revents;
1.2     isaki 	bool in_is_valid;
1.2     isaki 	bool out_is_valid;
1.2     isaki
1.2     isaki 	KASSERT(!mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(file->lock);
1.2     isaki
1.2     isaki #if defined(AUDIO_DEBUG)
1.2     isaki #define POLLEV_BITMAP "\177\020" \
1.2     isaki 	    "b\10WRBAND\0" \
1.2     isaki 	    "b\7RDBAND\0" "b\6RDNORM\0" "b\5NVAL\0" "b\4HUP\0" \
1.2     isaki 	    "b\3ERR\0" "b\2OUT\0" "b\1PRI\0" "b\0IN\0"
1.2     isaki 	char evbuf[64];
1.2     isaki 	snprintb(evbuf, sizeof(evbuf), POLLEV_BITMAP, events);
1.2     isaki 	TRACEF(2, file, "pid=%d.%d events=%s",
1.2     isaki 	    (int)curproc->p_pid, (int)l->l_lid, evbuf);
1.2     isaki #endif
1.2     isaki
1.2     isaki 	revents = 0;
1.2     isaki 	in_is_valid = false;
1.2     isaki 	out_is_valid = false;
1.2     isaki 	if (events & (POLLIN | POLLRDNORM)) {
1.2     isaki 		track = file->rtrack;
1.2     isaki 		if (track) {
1.2     isaki 			int used;
1.2     isaki 			in_is_valid = true;
1.2     isaki 			used = audio_track_readablebytes(track);
1.2     isaki 			if (used > 0)
1.2     isaki 				revents |= events & (POLLIN | POLLRDNORM);
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki 	if (events & (POLLOUT | POLLWRNORM)) {
1.2     isaki 		track = file->ptrack;
1.2     isaki 		if (track) {
1.2     isaki 			out_is_valid = true;
1.2     isaki 			if (track->usrbuf.used <= track->usrbuf_usedlow)
1.2     isaki 				revents |= events & (POLLOUT | POLLWRNORM);
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	if (revents == 0) {
1.2     isaki 		mutex_enter(sc->sc_lock);
1.2     isaki 		if (in_is_valid) {
1.2     isaki 			TRACEF(3, file, "selrecord rsel");
1.2     isaki 			selrecord(l, &sc->sc_rsel);
1.2     isaki 		}
1.2     isaki 		if (out_is_valid) {
1.2     isaki 			TRACEF(3, file, "selrecord wsel");
1.2     isaki 			selrecord(l, &sc->sc_wsel);
1.2     isaki 		}
1.2     isaki 		mutex_exit(sc->sc_lock);
1.2     isaki 	}
1.2     isaki
1.2     isaki #if defined(AUDIO_DEBUG)
1.2     isaki 	snprintb(evbuf, sizeof(evbuf), POLLEV_BITMAP, revents);
1.2     isaki 	TRACEF(2, file, "revents=%s", evbuf);
1.2     isaki #endif
1.2     isaki 	return revents;
1.2     isaki }
1.2     isaki
1.2     isaki static const struct filterops audioread_filtops = {
1.2     isaki 	.f_isfd = 1,
1.2     isaki 	.f_attach = NULL,
1.2     isaki 	.f_detach = filt_audioread_detach,
1.2     isaki 	.f_event = filt_audioread_event,
1.2     isaki };
1.2     isaki
1.2     isaki static void
1.2     isaki filt_audioread_detach(struct knote *kn)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	audio_file_t *file;
1.2     isaki
1.2     isaki 	file = kn->kn_hook;
1.2     isaki 	sc = file->sc;
1.2     isaki 	TRACEF(3, file, "");
1.2     isaki
1.2     isaki 	mutex_enter(sc->sc_lock);
1.2     isaki 	SLIST_REMOVE(&sc->sc_rsel.sel_klist, kn, knote, kn_selnext);
1.2     isaki 	mutex_exit(sc->sc_lock);
1.2     isaki }
1.2     isaki
1.2     isaki static int
1.2     isaki filt_audioread_event(struct knote *kn, long hint)
1.2     isaki {
1.2     isaki 	audio_file_t *file;
1.2     isaki 	audio_track_t *track;
1.2     isaki
1.2     isaki 	file = kn->kn_hook;
1.2     isaki 	track = file->rtrack;
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * kn_data must contain the number of bytes can be read.
1.2     isaki 	 * The return value indicates whether the event occurs or not.
1.2     isaki 	 */
1.2     isaki
1.2     isaki 	if (track == NULL) {
1.2     isaki 		/* can not read with this descriptor. */
1.2     isaki 		kn->kn_data = 0;
1.2     isaki 		return 0;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	kn->kn_data = audio_track_readablebytes(track);
1.2     isaki 	TRACEF(3, file, "data=%" PRId64, kn->kn_data);
1.2     isaki 	return kn->kn_data > 0;
1.2     isaki }
1.2     isaki
1.2     isaki static const struct filterops audiowrite_filtops = {
1.2     isaki 	.f_isfd = 1,
1.2     isaki 	.f_attach = NULL,
1.2     isaki 	.f_detach = filt_audiowrite_detach,
1.2     isaki 	.f_event = filt_audiowrite_event,
1.2     isaki };
1.2     isaki
1.2     isaki static void
1.2     isaki filt_audiowrite_detach(struct knote *kn)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	audio_file_t *file;
1.2     isaki
1.2     isaki 	file = kn->kn_hook;
1.2     isaki 	sc = file->sc;
1.2     isaki 	TRACEF(3, file, "");
1.2     isaki
1.2     isaki 	mutex_enter(sc->sc_lock);
1.2     isaki 	SLIST_REMOVE(&sc->sc_wsel.sel_klist, kn, knote, kn_selnext);
1.2     isaki 	mutex_exit(sc->sc_lock);
1.2     isaki }
1.2     isaki
1.2     isaki static int
1.2     isaki filt_audiowrite_event(struct knote *kn, long hint)
1.2     isaki {
1.2     isaki 	audio_file_t *file;
1.2     isaki 	audio_track_t *track;
1.2     isaki
1.2     isaki 	file = kn->kn_hook;
1.2     isaki 	track = file->ptrack;
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * kn_data must contain the number of bytes can be write.
1.2     isaki 	 * The return value indicates whether the event occurs or not.
1.2     isaki 	 */
1.2     isaki
1.2     isaki 	if (track == NULL) {
1.2     isaki 		/* can not write with this descriptor. */
1.2     isaki 		kn->kn_data = 0;
1.2     isaki 		return 0;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	kn->kn_data = track->usrbuf_usedhigh - track->usrbuf.used;
1.2     isaki 	TRACEF(3, file, "data=%" PRId64, kn->kn_data);
1.2     isaki 	return (track->usrbuf.used < track->usrbuf_usedlow);
1.2     isaki }
1.2     isaki
1.2     isaki int
1.2     isaki audio_kqfilter(struct audio_softc *sc, audio_file_t *file, struct knote *kn)
1.2     isaki {
1.2     isaki 	struct klist *klist;
1.2     isaki
1.2     isaki 	KASSERT(!mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(file->lock);
1.2     isaki
1.2     isaki 	TRACEF(3, file, "kn=%p kn_filter=%x", kn, (int)kn->kn_filter);
1.2     isaki
1.2     isaki 	switch (kn->kn_filter) {
1.2     isaki 	case EVFILT_READ:
1.2     isaki 		klist = &sc->sc_rsel.sel_klist;
1.2     isaki 		kn->kn_fop = &audioread_filtops;
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case EVFILT_WRITE:
1.2     isaki 		klist = &sc->sc_wsel.sel_klist;
1.2     isaki 		kn->kn_fop = &audiowrite_filtops;
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	default:
1.2     isaki 		return EINVAL;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	kn->kn_hook = file;
1.2     isaki
1.2     isaki 	mutex_enter(sc->sc_lock);
1.2     isaki 	SLIST_INSERT_HEAD(klist, kn, kn_selnext);
1.2     isaki 	mutex_exit(sc->sc_lock);
1.2     isaki
1.2     isaki 	return 0;
1.2     isaki }
1.2     isaki
1.2     isaki int
1.2     isaki audio_mmap(struct audio_softc *sc, off_t *offp, size_t len, int prot,
1.2     isaki 	int *flagsp, int *advicep, struct uvm_object **uobjp, int *maxprotp,
1.2     isaki 	audio_file_t *file)
1.2     isaki {
1.2     isaki 	audio_track_t *track;
1.2     isaki 	vsize_t vsize;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(!mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(file->lock);
1.2     isaki
1.2     isaki 	TRACEF(2, file, "off=%lld, prot=%d", (long long)(*offp), prot);
1.2     isaki
1.2     isaki 	if (*offp < 0)
1.2     isaki 		return EINVAL;
1.2     isaki
1.2     isaki #if 0
1.2     isaki 	/* XXX
1.2     isaki 	 * The idea here was to use the protection to determine if
1.2     isaki 	 * we are mapping the read or write buffer, but it fails.
1.2     isaki 	 * The VM system is broken in (at least) two ways.
1.2     isaki 	 * 1) If you map memory VM_PROT_WRITE you SIGSEGV
1.2     isaki 	 *    when writing to it, so VM_PROT_READ|VM_PROT_WRITE
1.2     isaki 	 *    has to be used for mmapping the play buffer.
1.2     isaki 	 * 2) Even if calling mmap() with VM_PROT_READ|VM_PROT_WRITE
1.2     isaki 	 *    audio_mmap will get called at some point with VM_PROT_READ
1.2     isaki 	 *    only.
1.2     isaki 	 * So, alas, we always map the play buffer for now.
1.2     isaki 	 */
1.2     isaki 	if (prot == (VM_PROT_READ|VM_PROT_WRITE) ||
1.2     isaki 	    prot == VM_PROT_WRITE)
1.2     isaki 		track = file->ptrack;
1.2     isaki 	else if (prot == VM_PROT_READ)
1.2     isaki 		track = file->rtrack;
1.2     isaki 	else
1.2     isaki 		return EINVAL;
1.2     isaki #else
1.2     isaki 	track = file->ptrack;
1.2     isaki #endif
1.2     isaki 	if (track == NULL)
1.2     isaki 		return EACCES;
1.2     isaki
1.2     isaki 	vsize = roundup2(MAX(track->usrbuf.capacity, PAGE_SIZE), PAGE_SIZE);
1.2     isaki 	if (len > vsize)
1.2     isaki 		return EOVERFLOW;
1.2     isaki 	if (*offp > (uint)(vsize - len))
1.2     isaki 		return EOVERFLOW;
1.2     isaki
1.2     isaki 	/* XXX TODO: what happens when mmap twice. */
1.2     isaki 	if (!track->mmapped) {
1.2     isaki 		track->mmapped = true;
1.2     isaki
1.2     isaki 		if (!track->is_pause) {
1.2     isaki 			error = audio_enter_exclusive(sc);
1.2     isaki 			if (error)
1.2     isaki 				return error;
1.2     isaki 			if (sc->sc_pbusy == false)
1.2     isaki 				audio_pmixer_start(sc, true);
1.2     isaki 			audio_exit_exclusive(sc);
1.2     isaki 		}
1.2     isaki 		/* XXX mmapping record buffer is not supported */
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* get ringbuffer */
1.2     isaki 	*uobjp = track->uobj;
1.2     isaki
1.2     isaki 	/* Acquire a reference for the mmap.  munmap will release. */
1.2     isaki 	uao_reference(*uobjp);
1.2     isaki 	*maxprotp = prot;
1.2     isaki 	*advicep = UVM_ADV_RANDOM;
1.2     isaki 	*flagsp = MAP_SHARED;
1.2     isaki 	return 0;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * /dev/audioctl has to be able to open at any time without interference
1.2     isaki  * with any /dev/audio or /dev/sound.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audioctl_open(dev_t dev, struct audio_softc *sc, int flags, int ifmt,
1.2     isaki 	struct lwp *l)
1.2     isaki {
1.2     isaki 	struct file *fp;
1.2     isaki 	audio_file_t *af;
1.2     isaki 	int fd;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(sc->sc_exlock);
1.2     isaki
1.2     isaki 	TRACE(1, "");
1.2     isaki
1.2     isaki 	error = fd_allocfile(&fp, &fd);
1.2     isaki 	if (error)
1.2     isaki 		return error;
1.2     isaki
1.2     isaki 	af = kmem_zalloc(sizeof(audio_file_t), KM_SLEEP);
1.2     isaki 	af->sc = sc;
1.2     isaki 	af->dev = dev;
1.2     isaki
1.2     isaki 	/* Not necessary to insert sc_files. */
1.2     isaki
1.2     isaki 	error = fd_clone(fp, fd, flags, &audio_fileops, af);
1.2     isaki 	KASSERT(error == EMOVEFD);
1.2     isaki
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Reallocate 'memblock' with specified 'bytes' if 'bytes' > 0.
1.2     isaki  * Or free 'memblock' and return NULL if 'byte' is zero.
1.2     isaki  */
1.2     isaki static void *
1.2     isaki audio_realloc(void *memblock, size_t bytes)
1.2     isaki {
1.2     isaki
1.2     isaki 	if (memblock != NULL) {
1.2     isaki 		if (bytes != 0) {
1.2     isaki 			return kern_realloc(memblock, bytes, M_NOWAIT);
1.2     isaki 		} else {
1.2     isaki 			kern_free(memblock);
1.2     isaki 			return NULL;
1.2     isaki 		}
1.2     isaki 	} else {
1.2     isaki 		if (bytes != 0) {
1.2     isaki 			return kern_malloc(bytes, M_NOWAIT);
1.2     isaki 		} else {
1.2     isaki 			return NULL;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Free 'mem' if available, and initialize the pointer.
1.2     isaki  * For this reason, this is implemented as macro.
1.2     isaki  */
1.2     isaki #define audio_free(mem)	do {	\
1.2     isaki 	if (mem != NULL) {	\
1.2     isaki 		kern_free(mem);	\
1.2     isaki 		mem = NULL;	\
1.2     isaki 	}	\
1.2     isaki } while (0)
1.2     isaki
1.2     isaki /*
1.2     isaki  * (Re)allocate usrbuf with 'newbufsize' bytes.
1.2     isaki  * Use this function for usrbuf because only usrbuf can be mmapped.
1.2     isaki  * If successful, it updates track->usrbuf.mem, track->usrbuf.capacity and
1.2     isaki  * returns 0.  Otherwise, it clears track->usrbuf.mem, track->usrbuf.capacity
1.2     isaki  * and returns errno.
1.2     isaki  * It must be called before updating usrbuf.capacity.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_realloc_usrbuf(audio_track_t *track, int newbufsize)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	vaddr_t vstart;
1.2     isaki 	vsize_t oldvsize;
1.2     isaki 	vsize_t newvsize;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(newbufsize > 0);
1.2     isaki 	sc = track->mixer->sc;
1.2     isaki
1.2     isaki 	/* Get a nonzero multiple of PAGE_SIZE */
1.2     isaki 	newvsize = roundup2(MAX(newbufsize, PAGE_SIZE), PAGE_SIZE);
1.2     isaki
1.2     isaki 	if (track->usrbuf.mem != NULL) {
1.2     isaki 		oldvsize = roundup2(MAX(track->usrbuf.capacity, PAGE_SIZE),
1.2     isaki 		    PAGE_SIZE);
1.2     isaki 		if (oldvsize == newvsize) {
1.2     isaki 			track->usrbuf.capacity = newbufsize;
1.2     isaki 			return 0;
1.2     isaki 		}
1.2     isaki 		vstart = (vaddr_t)track->usrbuf.mem;
1.2     isaki 		uvm_unmap(kernel_map, vstart, vstart + oldvsize);
1.2     isaki 		/* uvm_unmap also detach uobj */
1.2     isaki 		track->uobj = NULL;		/* paranoia */
1.2     isaki 		track->usrbuf.mem = NULL;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* Create a uvm anonymous object */
1.2     isaki 	track->uobj = uao_create(newvsize, 0);
1.2     isaki
1.2     isaki 	/* Map it into the kernel virtual address space */
1.2     isaki 	vstart = 0;
1.2     isaki 	error = uvm_map(kernel_map, &vstart, newvsize, track->uobj, 0, 0,
1.2     isaki 	    UVM_MAPFLAG(UVM_PROT_RW, UVM_PROT_RW, UVM_INH_NONE,
1.2     isaki 	    UVM_ADV_RANDOM, 0));
1.2     isaki 	if (error) {
1.2     isaki 		device_printf(sc->sc_dev, "uvm_map failed with %d\n", error);
1.2     isaki 		uao_detach(track->uobj);	/* release reference */
1.2     isaki 		goto abort;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	error = uvm_map_pageable(kernel_map, vstart, vstart + newvsize,
1.2     isaki 	    false, 0);
1.2     isaki 	if (error) {
1.2     isaki 		device_printf(sc->sc_dev, "uvm_map_pageable failed with %d\n",
1.2     isaki 		    error);
1.2     isaki 		uvm_unmap(kernel_map, vstart, vstart + newvsize);
1.2     isaki 		/* uvm_unmap also detach uobj */
1.2     isaki 		goto abort;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	track->usrbuf.mem = (void *)vstart;
1.2     isaki 	track->usrbuf.capacity = newbufsize;
1.2     isaki 	memset(track->usrbuf.mem, 0, newvsize);
1.2     isaki 	return 0;
1.2     isaki
1.2     isaki 	/* failure */
1.2     isaki abort:
1.2     isaki 	track->uobj = NULL;		/* paranoia */
1.2     isaki 	track->usrbuf.mem = NULL;
1.2     isaki 	track->usrbuf.capacity = 0;
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Free usrbuf (if available).
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_free_usrbuf(audio_track_t *track)
1.2     isaki {
1.2     isaki 	vaddr_t vstart;
1.2     isaki 	vsize_t vsize;
1.2     isaki
1.2     isaki 	vstart = (vaddr_t)track->usrbuf.mem;
1.2     isaki 	vsize = roundup2(MAX(track->usrbuf.capacity, PAGE_SIZE), PAGE_SIZE);
1.2     isaki 	if (track->usrbuf.mem != NULL) {
1.2     isaki 		/*
1.2     isaki 		 * Unmap the kernel mapping.  uvm_unmap releases the
1.2     isaki 		 * reference to the uvm object, and this should be the
1.2     isaki 		 * last virtual mapping of the uvm object, so no need
1.2     isaki 		 * to explicitly release (`detach') the object.
1.2     isaki 		 */
1.2     isaki 		uvm_unmap(kernel_map, vstart, vstart + vsize);
1.2     isaki
1.2     isaki 		track->uobj = NULL;
1.2     isaki 		track->usrbuf.mem = NULL;
1.2     isaki 		track->usrbuf.capacity = 0;
1.2     isaki 	}
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * This filter changes the volume for each channel.
1.2     isaki  * arg->context points track->ch_volume[].
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_track_chvol(audio_filter_arg_t *arg)
1.2     isaki {
1.2     isaki 	int16_t *ch_volume;
1.2     isaki 	const aint_t *s;
1.2     isaki 	aint_t *d;
1.2     isaki 	u_int i;
1.2     isaki 	u_int ch;
1.2     isaki 	u_int channels;
1.2     isaki
1.2     isaki 	DIAGNOSTIC_filter_arg(arg);
1.2     isaki 	KASSERT(arg->srcfmt->channels == arg->dstfmt->channels);
1.2     isaki 	KASSERT(arg->context != NULL);
1.2     isaki 	KASSERT(arg->srcfmt->channels <= AUDIO_MAX_CHANNELS);
1.2     isaki
1.2     isaki 	s = arg->src;
1.2     isaki 	d = arg->dst;
1.2     isaki 	ch_volume = arg->context;
1.2     isaki
1.2     isaki 	channels = arg->srcfmt->channels;
1.2     isaki 	for (i = 0; i < arg->count; i++) {
1.2     isaki 		for (ch = 0; ch < channels; ch++) {
1.2     isaki 			aint2_t val;
1.2     isaki 			val = *s++;
1.2     isaki #if defined(AUDIO_USE_C_IMPLEMENTATION_DEFINED_BEHAVIOR) && defined(__GNUC__)
1.2     isaki 			val = val * ch_volume[ch] >> 8;
1.2     isaki #else
1.2     isaki 			val = val * ch_volume[ch] / 256;
1.2     isaki #endif
1.2     isaki 			*d++ = (aint_t)val;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * This filter performs conversion from stereo (or more channels) to mono.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_track_chmix_mixLR(audio_filter_arg_t *arg)
1.2     isaki {
1.2     isaki 	const aint_t *s;
1.2     isaki 	aint_t *d;
1.2     isaki 	u_int i;
1.2     isaki
1.2     isaki 	DIAGNOSTIC_filter_arg(arg);
1.2     isaki
1.2     isaki 	s = arg->src;
1.2     isaki 	d = arg->dst;
1.2     isaki
1.2     isaki 	for (i = 0; i < arg->count; i++) {
1.2     isaki #if defined(AUDIO_USE_C_IMPLEMENTATION_DEFINED_BEHAVIOR) && defined(__GNUC__)
1.2     isaki 		*d++ = (s[0] >> 1) + (s[1] >> 1);
1.2     isaki #else
1.2     isaki 		*d++ = (s[0] / 2) + (s[1] / 2);
1.2     isaki #endif
1.2     isaki 		s += arg->srcfmt->channels;
1.2     isaki 	}
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * This filter performs conversion from mono to stereo (or more channels).
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_track_chmix_dupLR(audio_filter_arg_t *arg)
1.2     isaki {
1.2     isaki 	const aint_t *s;
1.2     isaki 	aint_t *d;
1.2     isaki 	u_int i;
1.2     isaki 	u_int ch;
1.2     isaki 	u_int dstchannels;
1.2     isaki
1.2     isaki 	DIAGNOSTIC_filter_arg(arg);
1.2     isaki
1.2     isaki 	s = arg->src;
1.2     isaki 	d = arg->dst;
1.2     isaki 	dstchannels = arg->dstfmt->channels;
1.2     isaki
1.2     isaki 	for (i = 0; i < arg->count; i++) {
1.2     isaki 		d[0] = s[0];
1.2     isaki 		d[1] = s[0];
1.2     isaki 		s++;
1.2     isaki 		d += dstchannels;
1.2     isaki 	}
1.2     isaki 	if (dstchannels > 2) {
1.2     isaki 		d = arg->dst;
1.2     isaki 		for (i = 0; i < arg->count; i++) {
1.2     isaki 			for (ch = 2; ch < dstchannels; ch++) {
1.2     isaki 				d[ch] = 0;
1.2     isaki 			}
1.2     isaki 			d += dstchannels;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * This filter shrinks M channels into N channels.
1.2     isaki  * Extra channels are discarded.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_track_chmix_shrink(audio_filter_arg_t *arg)
1.2     isaki {
1.2     isaki 	const aint_t *s;
1.2     isaki 	aint_t *d;
1.2     isaki 	u_int i;
1.2     isaki 	u_int ch;
1.2     isaki
1.2     isaki 	DIAGNOSTIC_filter_arg(arg);
1.2     isaki
1.2     isaki 	s = arg->src;
1.2     isaki 	d = arg->dst;
1.2     isaki
1.2     isaki 	for (i = 0; i < arg->count; i++) {
1.2     isaki 		for (ch = 0; ch < arg->dstfmt->channels; ch++) {
1.2     isaki 			*d++ = s[ch];
1.2     isaki 		}
1.2     isaki 		s += arg->srcfmt->channels;
1.2     isaki 	}
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * This filter expands M channels into N channels.
1.2     isaki  * Silence is inserted for missing channels.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_track_chmix_expand(audio_filter_arg_t *arg)
1.2     isaki {
1.2     isaki 	const aint_t *s;
1.2     isaki 	aint_t *d;
1.2     isaki 	u_int i;
1.2     isaki 	u_int ch;
1.2     isaki 	u_int srcchannels;
1.2     isaki 	u_int dstchannels;
1.2     isaki
1.2     isaki 	DIAGNOSTIC_filter_arg(arg);
1.2     isaki
1.2     isaki 	s = arg->src;
1.2     isaki 	d = arg->dst;
1.2     isaki
1.2     isaki 	srcchannels = arg->srcfmt->channels;
1.2     isaki 	dstchannels = arg->dstfmt->channels;
1.2     isaki 	for (i = 0; i < arg->count; i++) {
1.2     isaki 		for (ch = 0; ch < srcchannels; ch++) {
1.2     isaki 			*d++ = *s++;
1.2     isaki 		}
1.2     isaki 		for (; ch < dstchannels; ch++) {
1.2     isaki 			*d++ = 0;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * This filter performs frequency conversion (up sampling).
1.2     isaki  * It uses linear interpolation.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_track_freq_up(audio_filter_arg_t *arg)
1.2     isaki {
1.2     isaki 	audio_track_t *track;
1.2     isaki 	audio_ring_t *src;
1.2     isaki 	audio_ring_t *dst;
1.2     isaki 	const aint_t *s;
1.2     isaki 	aint_t *d;
1.2     isaki 	aint_t prev[AUDIO_MAX_CHANNELS];
1.2     isaki 	aint_t curr[AUDIO_MAX_CHANNELS];
1.2     isaki 	aint_t grad[AUDIO_MAX_CHANNELS];
1.2     isaki 	u_int i;
1.2     isaki 	u_int t;
1.2     isaki 	u_int step;
1.2     isaki 	u_int channels;
1.2     isaki 	u_int ch;
1.2     isaki 	int srcused;
1.2     isaki
1.2     isaki 	track = arg->context;
1.2     isaki 	KASSERT(track);
1.2     isaki 	src = &track->freq.srcbuf;
1.2     isaki 	dst = track->freq.dst;
1.2     isaki 	DIAGNOSTIC_ring(dst);
1.2     isaki 	DIAGNOSTIC_ring(src);
1.2     isaki 	KASSERT(src->used > 0);
1.2     isaki 	KASSERT(src->fmt.channels == dst->fmt.channels);
1.2     isaki 	KASSERT(src->head % track->mixer->frames_per_block == 0);
1.2     isaki
1.2     isaki 	s = arg->src;
1.2     isaki 	d = arg->dst;
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * In order to faciliate interpolation for each block, slide (delay)
1.2     isaki 	 * input by one sample.  As a result, strictly speaking, the output
1.2     isaki 	 * phase is delayed by 1/dstfreq.  However, I believe there is no
1.2     isaki 	 * observable impact.
1.2     isaki 	 *
1.2     isaki 	 * Example)
1.2     isaki 	 * srcfreq:dstfreq = 1:3
1.2     isaki 	 *
1.2     isaki 	 *  A - -
1.2     isaki 	 *  |
1.2     isaki 	 *  |
1.2     isaki 	 *  |     B - -
1.2     isaki 	 *  +-----+-----> input timeframe
1.2     isaki 	 *  0     1
1.2     isaki 	 *
1.2     isaki 	 *  0     1
1.2     isaki 	 *  +-----+-----> input timeframe
1.2     isaki 	 *  |     A
1.2     isaki 	 *  |   x   x
1.2     isaki 	 *  | x       x
1.2     isaki 	 *  x          (B)
1.2     isaki 	 *  +-+-+-+-+-+-> output timeframe
1.2     isaki 	 *  0 1 2 3 4 5
1.2     isaki 	 */
1.2     isaki
1.2     isaki 	/* Last samples in previous block */
1.2     isaki 	channels = src->fmt.channels;
1.2     isaki 	for (ch = 0; ch < channels; ch++) {
1.2     isaki 		prev[ch] = track->freq_prev[ch];
1.2     isaki 		curr[ch] = track->freq_curr[ch];
1.2     isaki 		grad[ch] = curr[ch] - prev[ch];
1.2     isaki 	}
1.2     isaki
1.2     isaki 	step = track->freq_step;
1.2     isaki 	t = track->freq_current;
1.2     isaki //#define FREQ_DEBUG
1.2     isaki #if defined(FREQ_DEBUG)
1.2     isaki #define PRINTF(fmt...)	printf(fmt)
1.2     isaki #else
1.2     isaki #define PRINTF(fmt...)	do { } while (0)
1.2     isaki #endif
1.2     isaki 	srcused = src->used;
1.2     isaki 	PRINTF("upstart step=%d leap=%d", step, track->freq_leap);
1.2     isaki 	PRINTF(" srcused=%d arg->count=%u", src->used, arg->count);
1.2     isaki 	PRINTF(" prev=%d curr=%d grad=%d", prev[0], curr[0], grad[0]);
1.2     isaki 	PRINTF(" t=%d\n", t);
1.2     isaki
1.2     isaki 	for (i = 0; i < arg->count; i++) {
1.2     isaki 		PRINTF("i=%d t=%5d", i, t);
1.2     isaki 		if (t >= 65536) {
1.2     isaki 			for (ch = 0; ch < channels; ch++) {
1.2     isaki 				prev[ch] = curr[ch];
1.2     isaki 				curr[ch] = *s++;
1.2     isaki 				grad[ch] = curr[ch] - prev[ch];
1.2     isaki 			}
1.2     isaki 			PRINTF(" prev=%d s[%d]=%d",
1.2     isaki 			    prev[0], src->used - srcused, curr[0]);
1.2     isaki
1.2     isaki 			/* Update */
1.2     isaki 			t -= 65536;
1.2     isaki 			srcused--;
1.2     isaki 			if (srcused < 0) {
1.2     isaki 				PRINTF(" break\n");
1.2     isaki 				break;
1.2     isaki 			}
1.2     isaki 		}
1.2     isaki
1.2     isaki 		for (ch = 0; ch < channels; ch++) {
1.2     isaki 			*d++ = prev[ch] + (aint2_t)grad[ch] * t / 65536;
1.2     isaki #if defined(FREQ_DEBUG)
1.2     isaki 			if (ch == 0)
1.2     isaki 				printf(" t=%5d *d=%d", t, d[-1]);
1.2     isaki #endif
1.2     isaki 		}
1.2     isaki 		t += step;
1.2     isaki
1.2     isaki 		PRINTF("\n");
1.2     isaki 	}
1.2     isaki 	PRINTF("end prev=%d curr=%d\n", prev[0], curr[0]);
1.2     isaki
1.2     isaki 	auring_take(src, src->used);
1.2     isaki 	auring_push(dst, i);
1.2     isaki
1.2     isaki 	/* Adjust */
1.2     isaki 	t += track->freq_leap;
1.2     isaki
1.2     isaki 	track->freq_current = t;
1.2     isaki 	for (ch = 0; ch < channels; ch++) {
1.2     isaki 		track->freq_prev[ch] = prev[ch];
1.2     isaki 		track->freq_curr[ch] = curr[ch];
1.2     isaki 	}
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * This filter performs frequency conversion (down sampling).
1.2     isaki  * It uses simple thinning.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_track_freq_down(audio_filter_arg_t *arg)
1.2     isaki {
1.2     isaki 	audio_track_t *track;
1.2     isaki 	audio_ring_t *src;
1.2     isaki 	audio_ring_t *dst;
1.2     isaki 	const aint_t *s0;
1.2     isaki 	aint_t *d;
1.2     isaki 	u_int i;
1.2     isaki 	u_int t;
1.2     isaki 	u_int step;
1.2     isaki 	u_int ch;
1.2     isaki 	u_int channels;
1.2     isaki
1.2     isaki 	track = arg->context;
1.2     isaki 	KASSERT(track);
1.2     isaki 	src = &track->freq.srcbuf;
1.2     isaki 	dst = track->freq.dst;
1.2     isaki
1.2     isaki 	DIAGNOSTIC_ring(dst);
1.2     isaki 	DIAGNOSTIC_ring(src);
1.2     isaki 	KASSERT(src->used > 0);
1.2     isaki 	KASSERT(src->fmt.channels == dst->fmt.channels);
1.2     isaki 	KASSERTMSG(src->head % track->mixer->frames_per_block == 0,
1.2     isaki 	    "src->head=%d fpb=%d",
1.2     isaki 	    src->head, track->mixer->frames_per_block);
1.2     isaki
1.2     isaki 	s0 = arg->src;
1.2     isaki 	d = arg->dst;
1.2     isaki 	t = track->freq_current;
1.2     isaki 	step = track->freq_step;
1.2     isaki 	channels = dst->fmt.channels;
1.2     isaki 	PRINTF("downstart step=%d leap=%d", step, track->freq_leap);
1.2     isaki 	PRINTF(" srcused=%d arg->count=%u", src->used, arg->count);
1.2     isaki 	PRINTF(" t=%d\n", t);
1.2     isaki
1.2     isaki 	for (i = 0; i < arg->count && t / 65536 < src->used; i++) {
1.2     isaki 		const aint_t *s;
1.2     isaki 		PRINTF("i=%4d t=%10d", i, t);
1.2     isaki 		s = s0 + (t / 65536) * channels;
1.2     isaki 		PRINTF(" s=%5ld", (s - s0) / channels);
1.2     isaki 		for (ch = 0; ch < channels; ch++) {
1.2     isaki 			if (ch == 0) PRINTF(" *s=%d", s[ch]);
1.2     isaki 			*d++ = s[ch];
1.2     isaki 		}
1.2     isaki 		PRINTF("\n");
1.2     isaki 		t += step;
1.2     isaki 	}
1.2     isaki 	t += track->freq_leap;
1.2     isaki 	PRINTF("end t=%d\n", t);
1.2     isaki 	auring_take(src, src->used);
1.2     isaki 	auring_push(dst, i);
1.2     isaki 	track->freq_current = t % 65536;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Creates track and returns it.
1.2     isaki  */
1.2     isaki audio_track_t *
1.2     isaki audio_track_create(struct audio_softc *sc, audio_trackmixer_t *mixer)
1.2     isaki {
1.2     isaki 	audio_track_t *track;
1.2     isaki 	static int newid = 0;
1.2     isaki
1.2     isaki 	track = kmem_zalloc(sizeof(*track), KM_SLEEP);
1.2     isaki
1.2     isaki 	track->id = newid++;
1.2     isaki 	track->mixer = mixer;
1.2     isaki 	track->mode = mixer->mode;
1.2     isaki
1.2     isaki 	/* Do TRACE after id is assigned. */
1.2     isaki 	TRACET(3, track, "for %s",
1.2     isaki 	    mixer->mode == AUMODE_PLAY ? "playback" : "recording");
1.2     isaki
1.2     isaki #if defined(AUDIO_SUPPORT_TRACK_VOLUME)
1.2     isaki 	track->volume = 256;
1.2     isaki #endif
1.2     isaki 	for (int i = 0; i < AUDIO_MAX_CHANNELS; i++) {
1.2     isaki 		track->ch_volume[i] = 256;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	return track;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Release all resources of the track and track itself.
1.2     isaki  * track must not be NULL.  Don't specify the track within the file
1.2     isaki  * structure linked from sc->sc_files.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_track_destroy(audio_track_t *track)
1.2     isaki {
1.2     isaki
1.2     isaki 	KASSERT(track);
1.2     isaki
1.2     isaki 	audio_free_usrbuf(track);
1.2     isaki 	audio_free(track->codec.srcbuf.mem);
1.2     isaki 	audio_free(track->chvol.srcbuf.mem);
1.2     isaki 	audio_free(track->chmix.srcbuf.mem);
1.2     isaki 	audio_free(track->freq.srcbuf.mem);
1.2     isaki 	audio_free(track->outbuf.mem);
1.2     isaki
1.2     isaki 	kmem_free(track, sizeof(*track));
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * It returns encoding conversion filter according to src and dst format.
1.2     isaki  * If it is not a convertible pair, it returns NULL.  Either src or dst
1.2     isaki  * must be internal format.
1.2     isaki  */
1.2     isaki static audio_filter_t
1.2     isaki audio_track_get_codec(audio_track_t *track, const audio_format2_t *src,
1.2     isaki 	const audio_format2_t *dst)
1.2     isaki {
1.2     isaki
1.2     isaki 	if (audio_format2_is_internal(src)) {
1.2     isaki 		if (dst->encoding == AUDIO_ENCODING_ULAW) {
1.2     isaki 			return audio_internal_to_mulaw;
1.2     isaki 		} else if (dst->encoding == AUDIO_ENCODING_ALAW) {
1.2     isaki 			return audio_internal_to_alaw;
1.2     isaki 		} else if (audio_format2_is_linear(dst)) {
1.2     isaki 			switch (dst->stride) {
1.2     isaki 			case 8:
1.2     isaki 				return audio_internal_to_linear8;
1.2     isaki 			case 16:
1.2     isaki 				return audio_internal_to_linear16;
1.2     isaki #if defined(AUDIO_SUPPORT_LINEAR24)
1.2     isaki 			case 24:
1.2     isaki 				return audio_internal_to_linear24;
1.2     isaki #endif
1.2     isaki 			case 32:
1.2     isaki 				return audio_internal_to_linear32;
1.2     isaki 			default:
1.2     isaki 				TRACET(1, track, "unsupported %s stride %d",
1.2     isaki 				    "dst", dst->stride);
1.2     isaki 				goto abort;
1.2     isaki 			}
1.2     isaki 		}
1.2     isaki 	} else if (audio_format2_is_internal(dst)) {
1.2     isaki 		if (src->encoding == AUDIO_ENCODING_ULAW) {
1.2     isaki 			return audio_mulaw_to_internal;
1.2     isaki 		} else if (src->encoding == AUDIO_ENCODING_ALAW) {
1.2     isaki 			return audio_alaw_to_internal;
1.2     isaki 		} else if (audio_format2_is_linear(src)) {
1.2     isaki 			switch (src->stride) {
1.2     isaki 			case 8:
1.2     isaki 				return audio_linear8_to_internal;
1.2     isaki 			case 16:
1.2     isaki 				return audio_linear16_to_internal;
1.2     isaki #if defined(AUDIO_SUPPORT_LINEAR24)
1.2     isaki 			case 24:
1.2     isaki 				return audio_linear24_to_internal;
1.2     isaki #endif
1.2     isaki 			case 32:
1.2     isaki 				return audio_linear32_to_internal;
1.2     isaki 			default:
1.2     isaki 				TRACET(1, track, "unsupported %s stride %d",
1.2     isaki 				    "src", src->stride);
1.2     isaki 				goto abort;
1.2     isaki 			}
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	TRACET(1, track, "unsupported encoding");
1.2     isaki abort:
1.2     isaki #if defined(AUDIO_DEBUG)
1.2     isaki 	if (audiodebug >= 2) {
1.2     isaki 		char buf[100];
1.2     isaki 		audio_format2_tostr(buf, sizeof(buf), src);
1.2     isaki 		TRACET(2, track, "src %s", buf);
1.2     isaki 		audio_format2_tostr(buf, sizeof(buf), dst);
1.2     isaki 		TRACET(2, track, "dst %s", buf);
1.2     isaki 	}
1.2     isaki #endif
1.2     isaki 	return NULL;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Initialize the codec stage of this track as necessary.
1.2     isaki  * If successful, it initializes the codec stage as necessary, stores updated
1.2     isaki  * last_dst in *last_dstp in any case, and returns 0.
1.2     isaki  * Otherwise, it returns errno without modifying *last_dstp.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_track_init_codec(audio_track_t *track, audio_ring_t **last_dstp)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	audio_ring_t *last_dst;
1.2     isaki 	audio_ring_t *srcbuf;
1.2     isaki 	audio_format2_t *srcfmt;
1.2     isaki 	audio_format2_t *dstfmt;
1.2     isaki 	audio_filter_arg_t *arg;
1.2     isaki 	u_int len;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(track);
1.2     isaki
1.2     isaki 	sc = track->mixer->sc;
1.2     isaki 	last_dst = *last_dstp;
1.2     isaki 	dstfmt = &last_dst->fmt;
1.2     isaki 	srcfmt = &track->inputfmt;
1.2     isaki 	srcbuf = &track->codec.srcbuf;
1.2     isaki 	error = 0;
1.2     isaki
1.2     isaki 	if (srcfmt->encoding != dstfmt->encoding
1.2     isaki 	 || srcfmt->precision != dstfmt->precision
1.2     isaki 	 || srcfmt->stride != dstfmt->stride) {
1.2     isaki 		track->codec.dst = last_dst;
1.2     isaki
1.2     isaki 		srcbuf->fmt = *dstfmt;
1.2     isaki 		srcbuf->fmt.encoding = srcfmt->encoding;
1.2     isaki 		srcbuf->fmt.precision = srcfmt->precision;
1.2     isaki 		srcbuf->fmt.stride = srcfmt->stride;
1.2     isaki
1.2     isaki 		track->codec.filter = audio_track_get_codec(track,
1.2     isaki 		    &srcbuf->fmt, dstfmt);
1.2     isaki 		if (track->codec.filter == NULL) {
1.2     isaki 			error = EINVAL;
1.2     isaki 			goto abort;
1.2     isaki 		}
1.2     isaki
1.2     isaki 		srcbuf->head = 0;
1.2     isaki 		srcbuf->used = 0;
1.2     isaki 		srcbuf->capacity = frame_per_block(track->mixer, &srcbuf->fmt);
1.2     isaki 		len = auring_bytelen(srcbuf);
1.2     isaki 		srcbuf->mem = audio_realloc(srcbuf->mem, len);
1.2     isaki 		if (srcbuf->mem == NULL) {
1.2     isaki 			device_printf(sc->sc_dev, "%s: malloc(%d) failed\n",
1.2     isaki 			    __func__, len);
1.2     isaki 			error = ENOMEM;
1.2     isaki 			goto abort;
1.2     isaki 		}
1.2     isaki
1.2     isaki 		arg = &track->codec.arg;
1.2     isaki 		arg->srcfmt = &srcbuf->fmt;
1.2     isaki 		arg->dstfmt = dstfmt;
1.2     isaki 		arg->context = NULL;
1.2     isaki
1.2     isaki 		*last_dstp = srcbuf;
1.2     isaki 		return 0;
1.2     isaki 	}
1.2     isaki
1.2     isaki abort:
1.2     isaki 	track->codec.filter = NULL;
1.2     isaki 	audio_free(srcbuf->mem);
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Initialize the chvol stage of this track as necessary.
1.2     isaki  * If successful, it initializes the chvol stage as necessary, stores updated
1.2     isaki  * last_dst in *last_dstp in any case, and returns 0.
1.2     isaki  * Otherwise, it returns errno without modifying *last_dstp.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_track_init_chvol(audio_track_t *track, audio_ring_t **last_dstp)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	audio_ring_t *last_dst;
1.2     isaki 	audio_ring_t *srcbuf;
1.2     isaki 	audio_format2_t *srcfmt;
1.2     isaki 	audio_format2_t *dstfmt;
1.2     isaki 	audio_filter_arg_t *arg;
1.2     isaki 	u_int len;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(track);
1.2     isaki
1.2     isaki 	sc = track->mixer->sc;
1.2     isaki 	last_dst = *last_dstp;
1.2     isaki 	dstfmt = &last_dst->fmt;
1.2     isaki 	srcfmt = &track->inputfmt;
1.2     isaki 	srcbuf = &track->chvol.srcbuf;
1.2     isaki 	error = 0;
1.2     isaki
1.2     isaki 	/* Check whether channel volume conversion is necessary. */
1.2     isaki 	bool use_chvol = false;
1.2     isaki 	for (int ch = 0; ch < srcfmt->channels; ch++) {
1.2     isaki 		if (track->ch_volume[ch] != 256) {
1.2     isaki 			use_chvol = true;
1.2     isaki 			break;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	if (use_chvol == true) {
1.2     isaki 		track->chvol.dst = last_dst;
1.2     isaki 		track->chvol.filter = audio_track_chvol;
1.2     isaki
1.2     isaki 		srcbuf->fmt = *dstfmt;
1.2     isaki 		/* no format conversion occurs */
1.2     isaki
1.2     isaki 		srcbuf->head = 0;
1.2     isaki 		srcbuf->used = 0;
1.2     isaki 		srcbuf->capacity = frame_per_block(track->mixer, &srcbuf->fmt);
1.2     isaki 		len = auring_bytelen(srcbuf);
1.2     isaki 		srcbuf->mem = audio_realloc(srcbuf->mem, len);
1.2     isaki 		if (srcbuf->mem == NULL) {
1.2     isaki 			device_printf(sc->sc_dev, "%s: malloc(%d) failed\n",
1.2     isaki 			    __func__, len);
1.2     isaki 			error = ENOMEM;
1.2     isaki 			goto abort;
1.2     isaki 		}
1.2     isaki
1.2     isaki 		arg = &track->chvol.arg;
1.2     isaki 		arg->srcfmt = &srcbuf->fmt;
1.2     isaki 		arg->dstfmt = dstfmt;
1.2     isaki 		arg->context = track->ch_volume;
1.2     isaki
1.2     isaki 		*last_dstp = srcbuf;
1.2     isaki 		return 0;
1.2     isaki 	}
1.2     isaki
1.2     isaki abort:
1.2     isaki 	track->chvol.filter = NULL;
1.2     isaki 	audio_free(srcbuf->mem);
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Initialize the chmix stage of this track as necessary.
1.2     isaki  * If successful, it initializes the chmix stage as necessary, stores updated
1.2     isaki  * last_dst in *last_dstp in any case, and returns 0.
1.2     isaki  * Otherwise, it returns errno without modifying *last_dstp.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_track_init_chmix(audio_track_t *track, audio_ring_t **last_dstp)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	audio_ring_t *last_dst;
1.2     isaki 	audio_ring_t *srcbuf;
1.2     isaki 	audio_format2_t *srcfmt;
1.2     isaki 	audio_format2_t *dstfmt;
1.2     isaki 	audio_filter_arg_t *arg;
1.2     isaki 	u_int srcch;
1.2     isaki 	u_int dstch;
1.2     isaki 	u_int len;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(track);
1.2     isaki
1.2     isaki 	sc = track->mixer->sc;
1.2     isaki 	last_dst = *last_dstp;
1.2     isaki 	dstfmt = &last_dst->fmt;
1.2     isaki 	srcfmt = &track->inputfmt;
1.2     isaki 	srcbuf = &track->chmix.srcbuf;
1.2     isaki 	error = 0;
1.2     isaki
1.2     isaki 	srcch = srcfmt->channels;
1.2     isaki 	dstch = dstfmt->channels;
1.2     isaki 	if (srcch != dstch) {
1.2     isaki 		track->chmix.dst = last_dst;
1.2     isaki
1.2     isaki 		if (srcch >= 2 && dstch == 1) {
1.2     isaki 			track->chmix.filter = audio_track_chmix_mixLR;
1.2     isaki 		} else if (srcch == 1 && dstch >= 2) {
1.2     isaki 			track->chmix.filter = audio_track_chmix_dupLR;
1.2     isaki 		} else if (srcch > dstch) {
1.2     isaki 			track->chmix.filter = audio_track_chmix_shrink;
1.2     isaki 		} else {
1.2     isaki 			track->chmix.filter = audio_track_chmix_expand;
1.2     isaki 		}
1.2     isaki
1.2     isaki 		srcbuf->fmt = *dstfmt;
1.2     isaki 		srcbuf->fmt.channels = srcch;
1.2     isaki
1.2     isaki 		srcbuf->head = 0;
1.2     isaki 		srcbuf->used = 0;
1.2     isaki 		/* XXX The buffer size should be able to calculate. */
1.2     isaki 		srcbuf->capacity = frame_per_block(track->mixer, &srcbuf->fmt);
1.2     isaki 		len = auring_bytelen(srcbuf);
1.2     isaki 		srcbuf->mem = audio_realloc(srcbuf->mem, len);
1.2     isaki 		if (srcbuf->mem == NULL) {
1.2     isaki 			device_printf(sc->sc_dev, "%s: malloc(%d) failed\n",
1.2     isaki 			    __func__, len);
1.2     isaki 			error = ENOMEM;
1.2     isaki 			goto abort;
1.2     isaki 		}
1.2     isaki
1.2     isaki 		arg = &track->chmix.arg;
1.2     isaki 		arg->srcfmt = &srcbuf->fmt;
1.2     isaki 		arg->dstfmt = dstfmt;
1.2     isaki 		arg->context = NULL;
1.2     isaki
1.2     isaki 		*last_dstp = srcbuf;
1.2     isaki 		return 0;
1.2     isaki 	}
1.2     isaki
1.2     isaki abort:
1.2     isaki 	track->chmix.filter = NULL;
1.2     isaki 	audio_free(srcbuf->mem);
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Initialize the freq stage of this track as necessary.
1.2     isaki  * If successful, it initializes the freq stage as necessary, stores updated
1.2     isaki  * last_dst in *last_dstp in any case, and returns 0.
1.2     isaki  * Otherwise, it returns errno without modifying *last_dstp.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_track_init_freq(audio_track_t *track, audio_ring_t **last_dstp)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	audio_ring_t *last_dst;
1.2     isaki 	audio_ring_t *srcbuf;
1.2     isaki 	audio_format2_t *srcfmt;
1.2     isaki 	audio_format2_t *dstfmt;
1.2     isaki 	audio_filter_arg_t *arg;
1.2     isaki 	uint32_t srcfreq;
1.2     isaki 	uint32_t dstfreq;
1.2     isaki 	u_int dst_capacity;
1.2     isaki 	u_int mod;
1.2     isaki 	u_int len;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(track);
1.2     isaki
1.2     isaki 	sc = track->mixer->sc;
1.2     isaki 	last_dst = *last_dstp;
1.2     isaki 	dstfmt = &last_dst->fmt;
1.2     isaki 	srcfmt = &track->inputfmt;
1.2     isaki 	srcbuf = &track->freq.srcbuf;
1.2     isaki 	error = 0;
1.2     isaki
1.2     isaki 	srcfreq = srcfmt->sample_rate;
1.2     isaki 	dstfreq = dstfmt->sample_rate;
1.2     isaki 	if (srcfreq != dstfreq) {
1.2     isaki 		track->freq.dst = last_dst;
1.2     isaki
1.2     isaki 		memset(track->freq_prev, 0, sizeof(track->freq_prev));
1.2     isaki 		memset(track->freq_curr, 0, sizeof(track->freq_curr));
1.2     isaki
1.2     isaki 		/* freq_step is the ratio of src/dst when let dst 65536. */
1.2     isaki 		track->freq_step = (uint64_t)srcfreq * 65536 / dstfreq;
1.2     isaki
1.2     isaki 		dst_capacity = frame_per_block(track->mixer, dstfmt);
1.2     isaki 		mod = (uint64_t)srcfreq * 65536 % dstfreq;
1.2     isaki 		track->freq_leap = (mod * dst_capacity + dstfreq / 2) / dstfreq;
1.2     isaki
1.2     isaki 		if (track->freq_step < 65536) {
1.2     isaki 			track->freq.filter = audio_track_freq_up;
1.2     isaki 			/* In order to carry at the first time. */
1.2     isaki 			track->freq_current = 65536;
1.2     isaki 		} else {
1.2     isaki 			track->freq.filter = audio_track_freq_down;
1.2     isaki 			track->freq_current = 0;
1.2     isaki 		}
1.2     isaki
1.2     isaki 		srcbuf->fmt = *dstfmt;
1.2     isaki 		srcbuf->fmt.sample_rate = srcfreq;
1.2     isaki
1.2     isaki 		srcbuf->head = 0;
1.2     isaki 		srcbuf->used = 0;
1.2     isaki 		srcbuf->capacity = frame_per_block(track->mixer, &srcbuf->fmt);
1.2     isaki 		len = auring_bytelen(srcbuf);
1.2     isaki 		srcbuf->mem = audio_realloc(srcbuf->mem, len);
1.2     isaki 		if (srcbuf->mem == NULL) {
1.2     isaki 			device_printf(sc->sc_dev, "%s: malloc(%d) failed\n",
1.2     isaki 			    __func__, len);
1.2     isaki 			error = ENOMEM;
1.2     isaki 			goto abort;
1.2     isaki 		}
1.2     isaki
1.2     isaki 		arg = &track->freq.arg;
1.2     isaki 		arg->srcfmt = &srcbuf->fmt;
1.2     isaki 		arg->dstfmt = dstfmt;/*&last_dst->fmt;*/
1.2     isaki 		arg->context = track;
1.2     isaki
1.2     isaki 		*last_dstp = srcbuf;
1.2     isaki 		return 0;
1.2     isaki 	}
1.2     isaki
1.2     isaki abort:
1.2     isaki 	track->freq.filter = NULL;
1.2     isaki 	audio_free(srcbuf->mem);
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * When playing back: (e.g. if codec and freq stage are valid)
1.2     isaki  *
1.2     isaki  *               write
1.2     isaki  *                | uiomove
1.2     isaki  *                v
1.2     isaki  *  usrbuf      [...............]  byte ring buffer (mmap-able)
1.2     isaki  *                | memcpy
1.2     isaki  *                v
1.2     isaki  *  codec.srcbuf[....]             1 block (ring) buffer   <-- stage input
1.2     isaki  *       .dst ----+
1.2     isaki  *                | convert
1.2     isaki  *                v
1.2     isaki  *  freq.srcbuf [....]             1 block (ring) buffer
1.2     isaki  *      .dst  ----+
1.2     isaki  *                | convert
1.2     isaki  *                v
1.2     isaki  *  outbuf      [...............]  NBLKOUT blocks ring buffer
1.2     isaki  *
1.2     isaki  *
1.2     isaki  * When recording:
1.2     isaki  *
1.2     isaki  *  freq.srcbuf [...............]  NBLKOUT blocks ring buffer <-- stage input
1.2     isaki  *      .dst  ----+
1.2     isaki  *                | convert
1.2     isaki  *                v
1.2     isaki  *  codec.srcbuf[.....]            1 block (ring) buffer
1.2     isaki  *       .dst ----+
1.2     isaki  *                | convert
1.2     isaki  *                v
1.2     isaki  *  outbuf      [.....]            1 block (ring) buffer
1.2     isaki  *                | memcpy
1.2     isaki  *                v
1.2     isaki  *  usrbuf      [...............]  byte ring buffer (mmap-able *)
1.2     isaki  *                | uiomove
1.2     isaki  *                v
1.2     isaki  *               read
1.2     isaki  *
1.2     isaki  *    *: usrbuf for recording is also mmap-able due to symmetry with
1.2     isaki  *       playback buffer, but for now mmap will never happen for recording.
1.2     isaki  */
1.2     isaki
1.2     isaki /*
1.2     isaki  * Set the userland format of this track.
1.2     isaki  * usrfmt argument should be parameter verified with audio_check_params().
1.2     isaki  * It will release and reallocate all internal conversion buffers.
1.2     isaki  * It returns 0 if successful.  Otherwise it returns errno with clearing all
1.2     isaki  * internal buffers.
1.2     isaki  * It must be called without sc_intr_lock since uvm_* routines require non
1.2     isaki  * intr_lock state.
1.2     isaki  * It must be called with track lock held since it may release and reallocate
1.2     isaki  * outbuf.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_track_set_format(audio_track_t *track, audio_format2_t *usrfmt)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	u_int newbufsize;
1.2     isaki 	u_int oldblksize;
1.2     isaki 	u_int len;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(track);
1.2     isaki 	sc = track->mixer->sc;
1.2     isaki
1.2     isaki 	/* usrbuf is the closest buffer to the userland. */
1.2     isaki 	track->usrbuf.fmt = *usrfmt;
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * For references, one block size (in 40msec) is:
1.2     isaki 	 *  320 bytes    = 204 blocks/64KB for mulaw/8kHz/1ch
1.2     isaki 	 *  7680 bytes   = 8 blocks/64KB for s16/48kHz/2ch
1.2     isaki 	 *  30720 bytes  = 90 KB/3blocks for s16/48kHz/8ch
1.2     isaki 	 *  61440 bytes  = 180 KB/3blocks for s16/96kHz/8ch
1.2     isaki 	 *  245760 bytes = 720 KB/3blocks for s32/192kHz/8ch
1.2     isaki 	 *
1.2     isaki 	 * For example,
1.2     isaki 	 * 1) If usrbuf_blksize = 7056 (s16/44.1k/2ch) and PAGE_SIZE = 8192,
1.2     isaki 	 *     newbufsize = rounddown(65536 / 7056) = 63504
1.2     isaki 	 *     newvsize = roundup2(63504, PAGE_SIZE) = 65536
1.2     isaki 	 *    Therefore it maps 8 * 8K pages and usrbuf->capacity = 63504.
1.2     isaki 	 *
1.2     isaki 	 * 2) If usrbuf_blksize = 7680 (s16/48k/2ch) and PAGE_SIZE = 4096,
1.2     isaki 	 *     newbufsize = rounddown(65536 / 7680) = 61440
1.2     isaki 	 *     newvsize = roundup2(61440, PAGE_SIZE) = 61440 (= 15 pages)
1.2     isaki 	 *    Therefore it maps 15 * 4K pages and usrbuf->capacity = 61440.
1.2     isaki 	 */
1.2     isaki 	oldblksize = track->usrbuf_blksize;
1.2     isaki 	track->usrbuf_blksize = frametobyte(&track->usrbuf.fmt,
1.2     isaki 	    frame_per_block(track->mixer, &track->usrbuf.fmt));
1.2     isaki 	track->usrbuf.head = 0;
1.2     isaki 	track->usrbuf.used = 0;
1.2     isaki 	newbufsize = MAX(track->usrbuf_blksize * AUMINNOBLK, 65536);
1.2     isaki 	newbufsize = rounddown(newbufsize, track->usrbuf_blksize);
1.2     isaki 	error = audio_realloc_usrbuf(track, newbufsize);
1.2     isaki 	if (error) {
1.2     isaki 		device_printf(sc->sc_dev, "malloc usrbuf(%d) failed\n",
1.2     isaki 		    newbufsize);
1.2     isaki 		goto error;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* Recalc water mark. */
1.2     isaki 	if (track->usrbuf_blksize != oldblksize) {
1.2     isaki 		if (audio_track_is_playback(track)) {
1.2     isaki 			/* Set high at 100%, low at 75%.  */
1.2     isaki 			track->usrbuf_usedhigh = track->usrbuf.capacity;
1.2     isaki 			track->usrbuf_usedlow = track->usrbuf.capacity * 3 / 4;
1.2     isaki 		} else {
1.2     isaki 			/* Set high at 100% minus 1block(?), low at 0% */
1.2     isaki 			track->usrbuf_usedhigh = track->usrbuf.capacity -
1.2     isaki 			    track->usrbuf_blksize;
1.2     isaki 			track->usrbuf_usedlow = 0;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* Stage buffer */
1.2     isaki 	audio_ring_t *last_dst = &track->outbuf;
1.2     isaki 	if (audio_track_is_playback(track)) {
1.2     isaki 		/* On playback, initialize from the mixer side in order. */
1.2     isaki 		track->inputfmt = *usrfmt;
1.2     isaki 		track->outbuf.fmt =  track->mixer->track_fmt;
1.2     isaki
1.2     isaki 		if ((error = audio_track_init_freq(track, &last_dst)) != 0)
1.2     isaki 			goto error;
1.2     isaki 		if ((error = audio_track_init_chmix(track, &last_dst)) != 0)
1.2     isaki 			goto error;
1.2     isaki 		if ((error = audio_track_init_chvol(track, &last_dst)) != 0)
1.2     isaki 			goto error;
1.2     isaki 		if ((error = audio_track_init_codec(track, &last_dst)) != 0)
1.2     isaki 			goto error;
1.2     isaki 	} else {
1.2     isaki 		/* On recording, initialize from userland side in order. */
1.2     isaki 		track->inputfmt = track->mixer->track_fmt;
1.2     isaki 		track->outbuf.fmt = *usrfmt;
1.2     isaki
1.2     isaki 		if ((error = audio_track_init_codec(track, &last_dst)) != 0)
1.2     isaki 			goto error;
1.2     isaki 		if ((error = audio_track_init_chvol(track, &last_dst)) != 0)
1.2     isaki 			goto error;
1.2     isaki 		if ((error = audio_track_init_chmix(track, &last_dst)) != 0)
1.2     isaki 			goto error;
1.2     isaki 		if ((error = audio_track_init_freq(track, &last_dst)) != 0)
1.2     isaki 			goto error;
1.2     isaki 	}
1.2     isaki #if 0
1.2     isaki 	/* debug */
1.2     isaki 	if (track->freq.filter) {
1.2     isaki 		audio_print_format2("freq src", &track->freq.srcbuf.fmt);
1.2     isaki 		audio_print_format2("freq dst", &track->freq.dst->fmt);
1.2     isaki 	}
1.2     isaki 	if (track->chmix.filter) {
1.2     isaki 		audio_print_format2("chmix src", &track->chmix.srcbuf.fmt);
1.2     isaki 		audio_print_format2("chmix dst", &track->chmix.dst->fmt);
1.2     isaki 	}
1.2     isaki 	if (track->chvol.filter) {
1.2     isaki 		audio_print_format2("chvol src", &track->chvol.srcbuf.fmt);
1.2     isaki 		audio_print_format2("chvol dst", &track->chvol.dst->fmt);
1.2     isaki 	}
1.2     isaki 	if (track->codec.filter) {
1.2     isaki 		audio_print_format2("codec src", &track->codec.srcbuf.fmt);
1.2     isaki 		audio_print_format2("codec dst", &track->codec.dst->fmt);
1.2     isaki 	}
1.2     isaki #endif
1.2     isaki
1.2     isaki 	/* Stage input buffer */
1.2     isaki 	track->input = last_dst;
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * On the recording track, make the first stage a ring buffer.
1.2     isaki 	 * XXX is there a better way?
1.2     isaki 	 */
1.2     isaki 	if (audio_track_is_record(track)) {
1.2     isaki 		track->input->capacity = NBLKOUT *
1.2     isaki 		    frame_per_block(track->mixer, &track->input->fmt);
1.2     isaki 		len = auring_bytelen(track->input);
1.2     isaki 		track->input->mem = audio_realloc(track->input->mem, len);
1.2     isaki 		if (track->input->mem == NULL) {
1.2     isaki 			device_printf(sc->sc_dev, "malloc input(%d) failed\n",
1.2     isaki 			    len);
1.2     isaki 			error = ENOMEM;
1.2     isaki 			goto error;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * Output buffer.
1.2     isaki 	 * On the playback track, its capacity is NBLKOUT blocks.
1.2     isaki 	 * On the recording track, its capacity is 1 block.
1.2     isaki 	 */
1.2     isaki 	track->outbuf.head = 0;
1.2     isaki 	track->outbuf.used = 0;
1.2     isaki 	track->outbuf.capacity = frame_per_block(track->mixer,
1.2     isaki 	    &track->outbuf.fmt);
1.2     isaki 	if (audio_track_is_playback(track))
1.2     isaki 		track->outbuf.capacity *= NBLKOUT;
1.2     isaki 	len = auring_bytelen(&track->outbuf);
1.2     isaki 	track->outbuf.mem = audio_realloc(track->outbuf.mem, len);
1.2     isaki 	if (track->outbuf.mem == NULL) {
1.2     isaki 		device_printf(sc->sc_dev, "malloc outbuf(%d) failed\n", len);
1.2     isaki 		error = ENOMEM;
1.2     isaki 		goto error;
1.2     isaki 	}
1.2     isaki
1.2     isaki #if defined(AUDIO_DEBUG)
1.2     isaki 	if (audiodebug >= 3) {
1.2     isaki 		struct audio_track_debugbuf m;
1.2     isaki
1.2     isaki 		memset(&m, 0, sizeof(m));
1.2     isaki 		snprintf(m.outbuf, sizeof(m.outbuf), " out=%d",
1.2     isaki 		    track->outbuf.capacity * frametobyte(&track->outbuf.fmt,1));
1.2     isaki 		if (track->freq.filter)
1.2     isaki 			snprintf(m.freq, sizeof(m.freq), " freq=%d",
1.2     isaki 			    track->freq.srcbuf.capacity *
1.2     isaki 			    frametobyte(&track->freq.srcbuf.fmt, 1));
1.2     isaki 		if (track->chmix.filter)
1.2     isaki 			snprintf(m.chmix, sizeof(m.chmix), " chmix=%d",
1.2     isaki 			    track->chmix.srcbuf.capacity *
1.2     isaki 			    frametobyte(&track->chmix.srcbuf.fmt, 1));
1.2     isaki 		if (track->chvol.filter)
1.2     isaki 			snprintf(m.chvol, sizeof(m.chvol), " chvol=%d",
1.2     isaki 			    track->chvol.srcbuf.capacity *
1.2     isaki 			    frametobyte(&track->chvol.srcbuf.fmt, 1));
1.2     isaki 		if (track->codec.filter)
1.2     isaki 			snprintf(m.codec, sizeof(m.codec), " codec=%d",
1.2     isaki 			    track->codec.srcbuf.capacity *
1.2     isaki 			    frametobyte(&track->codec.srcbuf.fmt, 1));
1.2     isaki 		snprintf(m.usrbuf, sizeof(m.usrbuf),
1.2     isaki 		    " usr=%d", track->usrbuf.capacity);
1.2     isaki
1.2     isaki 		if (audio_track_is_playback(track)) {
1.2     isaki 			TRACET(0, track, "bufsize%s%s%s%s%s%s",
1.2     isaki 			    m.outbuf, m.freq, m.chmix,
1.2     isaki 			    m.chvol, m.codec, m.usrbuf);
1.2     isaki 		} else {
1.2     isaki 			TRACET(0, track, "bufsize%s%s%s%s%s%s",
1.2     isaki 			    m.freq, m.chmix, m.chvol,
1.2     isaki 			    m.codec, m.outbuf, m.usrbuf);
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki #endif
1.2     isaki 	return 0;
1.2     isaki
1.2     isaki error:
1.2     isaki 	audio_free_usrbuf(track);
1.2     isaki 	audio_free(track->codec.srcbuf.mem);
1.2     isaki 	audio_free(track->chvol.srcbuf.mem);
1.2     isaki 	audio_free(track->chmix.srcbuf.mem);
1.2     isaki 	audio_free(track->freq.srcbuf.mem);
1.2     isaki 	audio_free(track->outbuf.mem);
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Fill silence frames (as the internal format) up to 1 block
1.2     isaki  * if the ring is not empty and less than 1 block.
1.2     isaki  * It returns the number of appended frames.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_append_silence(audio_track_t *track, audio_ring_t *ring)
1.2     isaki {
1.2     isaki 	int fpb;
1.2     isaki 	int n;
1.2     isaki
1.2     isaki 	KASSERT(track);
1.2     isaki 	KASSERT(audio_format2_is_internal(&ring->fmt));
1.2     isaki
1.2     isaki 	/* XXX is n correct? */
1.2     isaki 	/* XXX memset uses frametobyte()? */
1.2     isaki
1.2     isaki 	if (ring->used == 0)
1.2     isaki 		return 0;
1.2     isaki
1.2     isaki 	fpb = frame_per_block(track->mixer, &ring->fmt);
1.2     isaki 	if (ring->used >= fpb)
1.2     isaki 		return 0;
1.2     isaki
1.2     isaki 	n = (ring->capacity - ring->used) % fpb;
1.2     isaki
1.2     isaki 	KASSERT(auring_get_contig_free(ring) >= n);
1.2     isaki
1.2     isaki 	memset(auring_tailptr_aint(ring), 0,
1.2     isaki 	    n * ring->fmt.channels * sizeof(aint_t));
1.2     isaki 	auring_push(ring, n);
1.2     isaki 	return n;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Execute the conversion stage.
1.2     isaki  * It prepares arg from this stage and executes stage->filter.
1.2     isaki  * It must be called only if stage->filter is not NULL.
1.2     isaki  *
1.2     isaki  * For stages other than frequency conversion, the function increments
1.2     isaki  * src and dst counters here.  For frequency conversion stage, on the
1.2     isaki  * other hand, the function does not touch src and dst counters and
1.2     isaki  * filter side has to increment them.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_apply_stage(audio_track_t *track, audio_stage_t *stage, bool isfreq)
1.2     isaki {
1.2     isaki 	audio_filter_arg_t *arg;
1.2     isaki 	int srccount;
1.2     isaki 	int dstcount;
1.2     isaki 	int count;
1.2     isaki
1.2     isaki 	KASSERT(track);
1.2     isaki 	KASSERT(stage->filter);
1.2     isaki
1.2     isaki 	srccount = auring_get_contig_used(&stage->srcbuf);
1.2     isaki 	dstcount = auring_get_contig_free(stage->dst);
1.2     isaki
1.2     isaki 	if (isfreq) {
1.2     isaki 		KASSERTMSG(srccount > 0, "freq but srccount == %d", srccount);
1.2     isaki 		count = uimin(dstcount, track->mixer->frames_per_block);
1.2     isaki 	} else {
1.2     isaki 		count = uimin(srccount, dstcount);
1.2     isaki 	}
1.2     isaki
1.2     isaki 	if (count > 0) {
1.2     isaki 		arg = &stage->arg;
1.2     isaki 		arg->src = auring_headptr(&stage->srcbuf);
1.2     isaki 		arg->dst = auring_tailptr(stage->dst);
1.2     isaki 		arg->count = count;
1.2     isaki
1.2     isaki 		stage->filter(arg);
1.2     isaki
1.2     isaki 		if (!isfreq) {
1.2     isaki 			auring_take(&stage->srcbuf, count);
1.2     isaki 			auring_push(stage->dst, count);
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Produce output buffer for playback from user input buffer.
1.2     isaki  * It must be called only if usrbuf is not empty and outbuf is
1.2     isaki  * available at least one free block.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_track_play(audio_track_t *track)
1.2     isaki {
1.2     isaki 	audio_ring_t *usrbuf;
1.2     isaki 	audio_ring_t *input;
1.2     isaki 	int count;
1.2     isaki 	int framesize;
1.2     isaki 	int bytes;
1.2     isaki 	u_int dropcount;
1.2     isaki
1.2     isaki 	KASSERT(track);
1.2     isaki 	KASSERT(track->lock);
1.2     isaki 	TRACET(4, track, "start pstate=%d", track->pstate);
1.2     isaki
1.2     isaki 	/* At this point usrbuf must not be empty. */
1.2     isaki 	KASSERT(track->usrbuf.used > 0);
1.2     isaki 	/* Also, outbuf must be available at least one block. */
1.2     isaki 	count = auring_get_contig_free(&track->outbuf);
1.2     isaki 	KASSERTMSG(count >= frame_per_block(track->mixer, &track->outbuf.fmt),
1.2     isaki 	    "count=%d fpb=%d",
1.2     isaki 	    count, frame_per_block(track->mixer, &track->outbuf.fmt));
1.2     isaki
1.2     isaki 	/* XXX TODO: is this necessary for now? */
1.2     isaki 	int track_count_0 = track->outbuf.used;
1.2     isaki
1.2     isaki 	usrbuf = &track->usrbuf;
1.2     isaki 	input = track->input;
1.2     isaki 	dropcount = 0;
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * framesize is always 1 byte or more since all formats supported as
1.2     isaki 	 * usrfmt(=input) have 8bit or more stride.
1.2     isaki 	 */
1.2     isaki 	framesize = frametobyte(&input->fmt, 1);
1.2     isaki 	KASSERT(framesize >= 1);
1.2     isaki
1.2     isaki 	/* The next stage of usrbuf (=input) must be available. */
1.2     isaki 	KASSERT(auring_get_contig_free(input) > 0);
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * Copy usrbuf up to 1block to input buffer.
1.2     isaki 	 * count is the number of frames to copy from usrbuf.
1.2     isaki 	 * bytes is the number of bytes to copy from usrbuf.  However it is
1.2     isaki 	 * not copied less than one frame.
1.2     isaki 	 */
1.2     isaki 	count = uimin(usrbuf->used, track->usrbuf_blksize) / framesize;
1.2     isaki 	bytes = count * framesize;
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * If bytes is less than one block,
1.2     isaki 	 *  if not draining, buffer is not filled so return.
1.2     isaki 	 *  if draining, fall through.
1.2     isaki 	 */
1.2     isaki 	if (count < track->usrbuf_blksize / framesize) {
1.2     isaki 		dropcount = track->usrbuf_blksize / framesize - count;
1.2     isaki
1.2     isaki 		if (track->pstate != AUDIO_STATE_DRAINING) {
1.2     isaki 			/* Wait until filled. */
1.2     isaki 			TRACET(4, track, "not enough; return");
1.2     isaki 			return;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	track->usrbuf_stamp += bytes;
1.2     isaki
1.2     isaki 	if (usrbuf->head + bytes < usrbuf->capacity) {
1.2     isaki 		memcpy((uint8_t *)input->mem + auring_tail(input) * framesize,
1.2     isaki 		    (uint8_t *)usrbuf->mem + usrbuf->head,
1.2     isaki 		    bytes);
1.2     isaki 		auring_push(input, count);
1.2     isaki 		auring_take(usrbuf, bytes);
1.2     isaki 	} else {
1.2     isaki 		int bytes1;
1.2     isaki 		int bytes2;
1.2     isaki
1.2     isaki 		bytes1 = auring_get_contig_used(usrbuf);
1.2     isaki 		KASSERT(bytes1 % framesize == 0);
1.2     isaki 		memcpy((uint8_t *)input->mem + auring_tail(input) * framesize,
1.2     isaki 		    (uint8_t *)usrbuf->mem + usrbuf->head,
1.2     isaki 		    bytes1);
1.2     isaki 		auring_push(input, bytes1 / framesize);
1.2     isaki 		auring_take(usrbuf, bytes1);
1.2     isaki
1.2     isaki 		bytes2 = bytes - bytes1;
1.2     isaki 		memcpy((uint8_t *)input->mem + auring_tail(input) * framesize,
1.2     isaki 		    (uint8_t *)usrbuf->mem + usrbuf->head,
1.2     isaki 		    bytes2);
1.2     isaki 		auring_push(input, bytes2 / framesize);
1.2     isaki 		auring_take(usrbuf, bytes2);
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* Encoding conversion */
1.2     isaki 	if (track->codec.filter)
1.2     isaki 		audio_apply_stage(track, &track->codec, false);
1.2     isaki
1.2     isaki 	/* Channel volume */
1.2     isaki 	if (track->chvol.filter)
1.2     isaki 		audio_apply_stage(track, &track->chvol, false);
1.2     isaki
1.2     isaki 	/* Channel mix */
1.2     isaki 	if (track->chmix.filter)
1.2     isaki 		audio_apply_stage(track, &track->chmix, false);
1.2     isaki
1.2     isaki 	/* Frequency conversion */
1.2     isaki 	/*
1.2     isaki 	 * Since the frequency conversion needs correction for each block,
1.2     isaki 	 * it rounds up to 1 block.
1.2     isaki 	 */
1.2     isaki 	if (track->freq.filter) {
1.2     isaki 		int n;
1.2     isaki 		n = audio_append_silence(track, &track->freq.srcbuf);
1.2     isaki 		if (n > 0) {
1.2     isaki 			TRACET(4, track,
1.2     isaki 			    "freq.srcbuf add silence %d -> %d/%d/%d",
1.2     isaki 			    n,
1.2     isaki 			    track->freq.srcbuf.head,
1.2     isaki 			    track->freq.srcbuf.used,
1.2     isaki 			    track->freq.srcbuf.capacity);
1.2     isaki 		}
1.2     isaki 		if (track->freq.srcbuf.used > 0) {
1.2     isaki 			audio_apply_stage(track, &track->freq, true);
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	if (dropcount != 0) {
1.2     isaki 		/*
1.2     isaki 		 * Clear all conversion buffer pointer if the conversion was
1.2     isaki 		 * not exactly one block.  These conversion stage buffers are
1.2     isaki 		 * certainly circular buffers because of symmetry with the
1.2     isaki 		 * previous and next stage buffer.  However, since they are
1.2     isaki 		 * treated as simple contiguous buffers in operation, so head
1.2     isaki 		 * always should point 0.  This may happen during drain-age.
1.2     isaki 		 */
1.2     isaki 		TRACET(4, track, "reset stage");
1.2     isaki 		if (track->codec.filter) {
1.2     isaki 			KASSERT(track->codec.srcbuf.used == 0);
1.2     isaki 			track->codec.srcbuf.head = 0;
1.2     isaki 		}
1.2     isaki 		if (track->chvol.filter) {
1.2     isaki 			KASSERT(track->chvol.srcbuf.used == 0);
1.2     isaki 			track->chvol.srcbuf.head = 0;
1.2     isaki 		}
1.2     isaki 		if (track->chmix.filter) {
1.2     isaki 			KASSERT(track->chmix.srcbuf.used == 0);
1.2     isaki 			track->chmix.srcbuf.head = 0;
1.2     isaki 		}
1.2     isaki 		if (track->freq.filter) {
1.2     isaki 			KASSERT(track->freq.srcbuf.used == 0);
1.2     isaki 			track->freq.srcbuf.head = 0;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	if (track->input == &track->outbuf) {
1.2     isaki 		track->outputcounter = track->inputcounter;
1.2     isaki 	} else {
1.2     isaki 		track->outputcounter += track->outbuf.used - track_count_0;
1.2     isaki 	}
1.2     isaki
1.2     isaki #if defined(AUDIO_DEBUG)
1.2     isaki 	if (audiodebug >= 3) {
1.2     isaki 		struct audio_track_debugbuf m;
1.2     isaki 		audio_track_bufstat(track, &m);
1.2     isaki 		TRACET(0, track, "end%s%s%s%s%s%s",
1.2     isaki 		    m.outbuf, m.freq, m.chvol, m.chmix, m.codec, m.usrbuf);
1.2     isaki 	}
1.2     isaki #endif
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Produce user output buffer for recording from input buffer.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_track_record(audio_track_t *track)
1.2     isaki {
1.2     isaki 	audio_ring_t *outbuf;
1.2     isaki 	audio_ring_t *usrbuf;
1.2     isaki 	int count;
1.2     isaki 	int bytes;
1.2     isaki 	int framesize;
1.2     isaki
1.2     isaki 	KASSERT(track);
1.2     isaki 	KASSERT(track->lock);
1.2     isaki
1.2     isaki 	/* Number of frames to process */
1.2     isaki 	count = auring_get_contig_used(track->input);
1.2     isaki 	count = uimin(count, track->mixer->frames_per_block);
1.2     isaki 	if (count == 0) {
1.2     isaki 		TRACET(4, track, "count == 0");
1.2     isaki 		return;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* Frequency conversion */
1.2     isaki 	if (track->freq.filter) {
1.2     isaki 		if (track->freq.srcbuf.used > 0) {
1.2     isaki 			audio_apply_stage(track, &track->freq, true);
1.2     isaki 			/* XXX should input of freq be from beginning of buf? */
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* Channel mix */
1.2     isaki 	if (track->chmix.filter)
1.2     isaki 		audio_apply_stage(track, &track->chmix, false);
1.2     isaki
1.2     isaki 	/* Channel volume */
1.2     isaki 	if (track->chvol.filter)
1.2     isaki 		audio_apply_stage(track, &track->chvol, false);
1.2     isaki
1.2     isaki 	/* Encoding conversion */
1.2     isaki 	if (track->codec.filter)
1.2     isaki 		audio_apply_stage(track, &track->codec, false);
1.2     isaki
1.2     isaki 	/* Copy outbuf to usrbuf */
1.2     isaki 	outbuf = &track->outbuf;
1.2     isaki 	usrbuf = &track->usrbuf;
1.2     isaki 	/*
1.2     isaki 	 * framesize is always 1 byte or more since all formats supported
1.2     isaki 	 * as usrfmt(=output) have 8bit or more stride.
1.2     isaki 	 */
1.2     isaki 	framesize = frametobyte(&outbuf->fmt, 1);
1.2     isaki 	KASSERT(framesize >= 1);
1.2     isaki 	/*
1.2     isaki 	 * count is the number of frames to copy to usrbuf.
1.2     isaki 	 * bytes is the number of bytes to copy to usrbuf.
1.2     isaki 	 */
1.2     isaki 	count = outbuf->used;
1.2     isaki 	count = uimin(count,
1.2     isaki 	    (track->usrbuf_usedhigh - usrbuf->used) / framesize);
1.2     isaki 	bytes = count * framesize;
1.2     isaki 	if (auring_tail(usrbuf) + bytes < usrbuf->capacity) {
1.2     isaki 		memcpy((uint8_t *)usrbuf->mem + auring_tail(usrbuf),
1.2     isaki 		    (uint8_t *)outbuf->mem + outbuf->head * framesize,
1.2     isaki 		    bytes);
1.2     isaki 		auring_push(usrbuf, bytes);
1.2     isaki 		auring_take(outbuf, count);
1.2     isaki 	} else {
1.2     isaki 		int bytes1;
1.2     isaki 		int bytes2;
1.2     isaki
1.2     isaki 		bytes1 = auring_get_contig_used(usrbuf);
1.2     isaki 		KASSERT(bytes1 % framesize == 0);
1.2     isaki 		memcpy((uint8_t *)usrbuf->mem + auring_tail(usrbuf),
1.2     isaki 		    (uint8_t *)outbuf->mem + outbuf->head * framesize,
1.2     isaki 		    bytes1);
1.2     isaki 		auring_push(usrbuf, bytes1);
1.2     isaki 		auring_take(outbuf, bytes1 / framesize);
1.2     isaki
1.2     isaki 		bytes2 = bytes - bytes1;
1.2     isaki 		memcpy((uint8_t *)usrbuf->mem + auring_tail(usrbuf),
1.2     isaki 		    (uint8_t *)outbuf->mem + outbuf->head * framesize,
1.2     isaki 		    bytes2);
1.2     isaki 		auring_push(usrbuf, bytes2);
1.2     isaki 		auring_take(outbuf, bytes2 / framesize);
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* XXX TODO: any counters here? */
1.2     isaki
1.2     isaki #if defined(AUDIO_DEBUG)
1.2     isaki 	if (audiodebug >= 3) {
1.2     isaki 		struct audio_track_debugbuf m;
1.2     isaki 		audio_track_bufstat(track, &m);
1.2     isaki 		TRACET(0, track, "end%s%s%s%s%s%s",
1.2     isaki 		    m.freq, m.chvol, m.chmix, m.codec, m.outbuf, m.usrbuf);
1.2     isaki 	}
1.2     isaki #endif
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Calcurate blktime [msec] from mixer(.hwbuf.fmt).
1.2     isaki  * Must be called with sc_lock held.
1.2     isaki  */
1.2     isaki static u_int
1.2     isaki audio_mixer_calc_blktime(struct audio_softc *sc, audio_trackmixer_t *mixer)
1.2     isaki {
1.2     isaki 	audio_format2_t *fmt;
1.2     isaki 	u_int blktime;
1.2     isaki 	u_int frames_per_block;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki
1.2     isaki 	fmt = &mixer->hwbuf.fmt;
1.2     isaki 	blktime = sc->sc_blk_ms;
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * If stride is not multiples of 8, special treatment is necessary.
1.2     isaki 	 * For now, it is only x68k's vs(4), 4 bit/sample ADPCM.
1.2     isaki 	 */
1.2     isaki 	if (fmt->stride == 4) {
1.2     isaki 		frames_per_block = fmt->sample_rate * blktime / 1000;
1.2     isaki 		if ((frames_per_block & 1) != 0)
1.2     isaki 			blktime *= 2;
1.2     isaki 	}
1.2     isaki #ifdef DIAGNOSTIC
1.2     isaki 	else if (fmt->stride % NBBY != 0) {
1.2     isaki 		panic("unsupported HW stride %d", fmt->stride);
1.2     isaki 	}
1.2     isaki #endif
1.2     isaki
1.2     isaki 	return blktime;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Initialize the mixer corresponding to the mode.
1.2     isaki  * Set AUMODE_PLAY to the 'mode' for playback or AUMODE_RECORD for recording.
1.2     isaki  * sc->sc_[pr]mixer (corresponding to the 'mode') must be zero-filled.
1.2     isaki  * This function returns 0 on sucessful.  Otherwise returns errno.
1.2     isaki  * Must be called with sc_lock held.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_mixer_init(struct audio_softc *sc, int mode,
1.2     isaki 	const audio_format2_t *hwfmt, const audio_filter_reg_t *reg)
1.2     isaki {
1.2     isaki 	char codecbuf[64];
1.2     isaki 	audio_trackmixer_t *mixer;
1.2     isaki 	void (*softint_handler)(void *);
1.2     isaki 	int len;
1.2     isaki 	int blksize;
1.2     isaki 	int capacity;
1.2     isaki 	size_t bufsize;
1.2     isaki 	int hwblks;
1.2     isaki 	int blkms;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(hwfmt != NULL);
1.2     isaki 	KASSERT(reg != NULL);
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki
1.2     isaki 	error = 0;
1.2     isaki 	if (mode == AUMODE_PLAY)
1.2     isaki 		mixer = sc->sc_pmixer;
1.2     isaki 	else
1.2     isaki 		mixer = sc->sc_rmixer;
1.2     isaki
1.2     isaki 	mixer->sc = sc;
1.2     isaki 	mixer->mode = mode;
1.2     isaki
1.2     isaki 	mixer->hwbuf.fmt = *hwfmt;
1.2     isaki 	mixer->volume = 256;
1.2     isaki 	mixer->blktime_d = 1000;
1.2     isaki 	mixer->blktime_n = audio_mixer_calc_blktime(sc, mixer);
1.2     isaki 	sc->sc_blk_ms = mixer->blktime_n;
1.2     isaki 	hwblks = NBLKHW;
1.2     isaki
1.2     isaki 	mixer->frames_per_block = frame_per_block(mixer, &mixer->hwbuf.fmt);
1.2     isaki 	blksize = frametobyte(&mixer->hwbuf.fmt, mixer->frames_per_block);
1.2     isaki 	if (sc->hw_if->round_blocksize) {
1.2     isaki 		int rounded;
1.2     isaki 		audio_params_t p = format2_to_params(&mixer->hwbuf.fmt);
1.2     isaki 		rounded = sc->hw_if->round_blocksize(sc->hw_hdl, blksize,
1.2     isaki 		    mode, &p);
1.2     isaki 		TRACE(2, "round_blocksize %d -> %d", blksize, rounded);
1.2     isaki 		if (rounded != blksize) {
1.2     isaki 			if ((rounded * NBBY) % (mixer->hwbuf.fmt.stride *
1.2     isaki 			    mixer->hwbuf.fmt.channels) != 0) {
1.2     isaki 				device_printf(sc->sc_dev,
1.2     isaki 				    "blksize not configured %d -> %d\n",
1.2     isaki 				    blksize, rounded);
1.2     isaki 				return EINVAL;
1.2     isaki 			}
1.2     isaki 			/* Recalculation */
1.2     isaki 			blksize = rounded;
1.2     isaki 			mixer->frames_per_block = blksize * NBBY /
1.2     isaki 			    (mixer->hwbuf.fmt.stride *
1.2     isaki 			     mixer->hwbuf.fmt.channels);
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki 	mixer->blktime_n = mixer->frames_per_block;
1.2     isaki 	mixer->blktime_d = mixer->hwbuf.fmt.sample_rate;
1.2     isaki
1.2     isaki 	capacity = mixer->frames_per_block * hwblks;
1.2     isaki 	bufsize = frametobyte(&mixer->hwbuf.fmt, capacity);
1.2     isaki 	if (sc->hw_if->round_buffersize) {
1.2     isaki 		size_t rounded;
1.2     isaki 		rounded = sc->hw_if->round_buffersize(sc->hw_hdl, mode,
1.2     isaki 		    bufsize);
1.2     isaki 		TRACE(2, "round_buffersize %zd -> %zd", bufsize, rounded);
1.2     isaki 		if (rounded < bufsize) {
1.2     isaki 			/* buffersize needs NBLKHW blocks at least. */
1.2     isaki 			device_printf(sc->sc_dev,
1.2     isaki 			    "buffersize too small: buffersize=%zd blksize=%d\n",
1.2     isaki 			    rounded, blksize);
1.2     isaki 			return EINVAL;
1.2     isaki 		}
1.2     isaki 		if (rounded % blksize != 0) {
1.2     isaki 			/* buffersize/blksize constraint mismatch? */
1.2     isaki 			device_printf(sc->sc_dev,
1.2     isaki 			    "buffersize must be multiple of blksize: "
1.2     isaki 			    "buffersize=%zu blksize=%d\n",
1.2     isaki 			    rounded, blksize);
1.2     isaki 			return EINVAL;
1.2     isaki 		}
1.2     isaki 		if (rounded != bufsize) {
1.2     isaki 			/* Recalcuration */
1.2     isaki 			bufsize = rounded;
1.2     isaki 			hwblks = bufsize / blksize;
1.2     isaki 			capacity = mixer->frames_per_block * hwblks;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki 	TRACE(2, "buffersize for %s = %zu",
1.2     isaki 	    (mode == AUMODE_PLAY) ? "playback" : "recording",
1.2     isaki 	    bufsize);
1.2     isaki 	mixer->hwbuf.capacity = capacity;
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * XXX need to release sc_lock for compatibility?
1.2     isaki 	 */
1.2     isaki 	if (sc->hw_if->allocm) {
1.2     isaki 		mixer->hwbuf.mem = sc->hw_if->allocm(sc->hw_hdl, mode, bufsize);
1.2     isaki 		if (mixer->hwbuf.mem == NULL) {
1.2     isaki 			device_printf(sc->sc_dev, "%s: allocm(%zu) failed\n",
1.2     isaki 			    __func__, bufsize);
1.2     isaki 			return ENOMEM;
1.2     isaki 		}
1.2     isaki 	} else {
1.2     isaki 		mixer->hwbuf.mem = kern_malloc(bufsize, M_NOWAIT);
1.2     isaki 		if (mixer->hwbuf.mem == NULL) {
1.2     isaki 			device_printf(sc->sc_dev,
1.2     isaki 			    "%s: malloc hwbuf(%zu) failed\n",
1.2     isaki 			    __func__, bufsize);
1.2     isaki 			return ENOMEM;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* From here, audio_mixer_destroy is necessary to exit. */
1.2     isaki 	if (mode == AUMODE_PLAY) {
1.2     isaki 		cv_init(&mixer->outcv, "audiowr");
1.2     isaki 	} else {
1.2     isaki 		cv_init(&mixer->outcv, "audiord");
1.2     isaki 	}
1.2     isaki
1.2     isaki 	if (mode == AUMODE_PLAY) {
1.2     isaki 		softint_handler = audio_softintr_wr;
1.2     isaki 	} else {
1.2     isaki 		softint_handler = audio_softintr_rd;
1.2     isaki 	}
1.2     isaki 	mixer->sih = softint_establish(SOFTINT_SERIAL | SOFTINT_MPSAFE,
1.2     isaki 	    softint_handler, sc);
1.2     isaki 	if (mixer->sih == NULL) {
1.2     isaki 		device_printf(sc->sc_dev, "softint_establish failed\n");
1.2     isaki 		goto abort;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	mixer->track_fmt.encoding = AUDIO_ENCODING_SLINEAR_NE;
1.2     isaki 	mixer->track_fmt.precision = AUDIO_INTERNAL_BITS;
1.2     isaki 	mixer->track_fmt.stride = AUDIO_INTERNAL_BITS;
1.2     isaki 	mixer->track_fmt.channels = mixer->hwbuf.fmt.channels;
1.2     isaki 	mixer->track_fmt.sample_rate = mixer->hwbuf.fmt.sample_rate;
1.2     isaki
1.2     isaki 	if (mixer->hwbuf.fmt.encoding == AUDIO_ENCODING_SLINEAR_OE &&
1.2     isaki 	    mixer->hwbuf.fmt.precision == AUDIO_INTERNAL_BITS) {
1.2     isaki 		mixer->swap_endian = true;
1.2     isaki 		TRACE(1, "swap_endian");
1.2     isaki 	}
1.2     isaki
1.2     isaki 	if (mode == AUMODE_PLAY) {
1.2     isaki 		/* Mixing buffer */
1.2     isaki 		mixer->mixfmt = mixer->track_fmt;
1.2     isaki 		mixer->mixfmt.precision *= 2;
1.2     isaki 		mixer->mixfmt.stride *= 2;
1.2     isaki 		/* XXX TODO: use some macros? */
1.2     isaki 		len = mixer->frames_per_block * mixer->mixfmt.channels *
1.2     isaki 		    mixer->mixfmt.stride / NBBY;
1.2     isaki 		mixer->mixsample = audio_realloc(mixer->mixsample, len);
1.2     isaki 		if (mixer->mixsample == NULL) {
1.2     isaki 			device_printf(sc->sc_dev,
1.2     isaki 			    "%s: malloc mixsample(%d) failed\n",
1.2     isaki 			    __func__, len);
1.2     isaki 			error = ENOMEM;
1.2     isaki 			goto abort;
1.2     isaki 		}
1.2     isaki 	} else {
1.2     isaki 		/* No mixing buffer for recording */
1.2     isaki 	}
1.2     isaki
1.2     isaki 	if (reg->codec) {
1.2     isaki 		mixer->codec = reg->codec;
1.2     isaki 		mixer->codecarg.context = reg->context;
1.2     isaki 		if (mode == AUMODE_PLAY) {
1.2     isaki 			mixer->codecarg.srcfmt = &mixer->track_fmt;
1.2     isaki 			mixer->codecarg.dstfmt = &mixer->hwbuf.fmt;
1.2     isaki 		} else {
1.2     isaki 			mixer->codecarg.srcfmt = &mixer->hwbuf.fmt;
1.2     isaki 			mixer->codecarg.dstfmt = &mixer->track_fmt;
1.2     isaki 		}
1.2     isaki 		mixer->codecbuf.fmt = mixer->track_fmt;
1.2     isaki 		mixer->codecbuf.capacity = mixer->frames_per_block;
1.2     isaki 		len = auring_bytelen(&mixer->codecbuf);
1.2     isaki 		mixer->codecbuf.mem = audio_realloc(mixer->codecbuf.mem, len);
1.2     isaki 		if (mixer->codecbuf.mem == NULL) {
1.2     isaki 			device_printf(sc->sc_dev,
1.2     isaki 			    "%s: malloc codecbuf(%d) failed\n",
1.2     isaki 			    __func__, len);
1.2     isaki 			error = ENOMEM;
1.2     isaki 			goto abort;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* Succeeded so display it. */
1.2     isaki 	codecbuf[0] = '\0';
1.2     isaki 	if (mixer->codec || mixer->swap_endian) {
1.2     isaki 		snprintf(codecbuf, sizeof(codecbuf), " %s %s:%d",
1.2     isaki 		    (mode == AUMODE_PLAY) ? "->" : "<-",
1.2     isaki 		    audio_encoding_name(mixer->hwbuf.fmt.encoding),
1.2     isaki 		    mixer->hwbuf.fmt.precision);
1.2     isaki 	}
1.2     isaki 	blkms = mixer->blktime_n * 1000 / mixer->blktime_d;
1.2     isaki 	aprint_normal_dev(sc->sc_dev, "%s:%d%s %dch %dHz, blk %dms for %s\n",
1.2     isaki 	    audio_encoding_name(mixer->track_fmt.encoding),
1.2     isaki 	    mixer->track_fmt.precision,
1.2     isaki 	    codecbuf,
1.2     isaki 	    mixer->track_fmt.channels,
1.2     isaki 	    mixer->track_fmt.sample_rate,
1.2     isaki 	    blkms,
1.2     isaki 	    (mode == AUMODE_PLAY) ? "playback" : "recording");
1.2     isaki
1.2     isaki 	return 0;
1.2     isaki
1.2     isaki abort:
1.2     isaki 	audio_mixer_destroy(sc, mixer);
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Releases all resources of 'mixer'.
1.2     isaki  * Note that it does not release the memory area of 'mixer' itself.
1.2     isaki  * Must be called with sc_lock held.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_mixer_destroy(struct audio_softc *sc, audio_trackmixer_t *mixer)
1.2     isaki {
1.2     isaki 	int mode;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki
1.2     isaki 	mode = mixer->mode;
1.2     isaki 	KASSERT(mode == AUMODE_PLAY || mode == AUMODE_RECORD);
1.2     isaki
1.2     isaki 	if (mixer->hwbuf.mem != NULL) {
1.2     isaki 		if (sc->hw_if->freem) {
1.2     isaki 			sc->hw_if->freem(sc->hw_hdl, mixer->hwbuf.mem, mode);
1.2     isaki 		} else {
1.2     isaki 			kern_free(mixer->hwbuf.mem);
1.2     isaki 		}
1.2     isaki 		mixer->hwbuf.mem = NULL;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	audio_free(mixer->codecbuf.mem);
1.2     isaki 	audio_free(mixer->mixsample);
1.2     isaki
1.2     isaki 	cv_destroy(&mixer->outcv);
1.2     isaki
1.2     isaki 	if (mixer->sih) {
1.2     isaki 		softint_disestablish(mixer->sih);
1.2     isaki 		mixer->sih = NULL;
1.2     isaki 	}
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Starts playback mixer.
1.2     isaki  * Must be called only if sc_pbusy is false.
1.2     isaki  * Must be called with sc_lock held.
1.2     isaki  * Must not be called from the interrupt context.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_pmixer_start(struct audio_softc *sc, bool force)
1.2     isaki {
1.2     isaki 	audio_trackmixer_t *mixer;
1.2     isaki 	int minimum;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(sc->sc_pbusy == false);
1.2     isaki
1.2     isaki 	mutex_enter(sc->sc_intr_lock);
1.2     isaki
1.2     isaki 	mixer = sc->sc_pmixer;
1.2     isaki 	TRACE(2, "%smixseq=%d hwseq=%d hwbuf=%d/%d/%d%s",
1.2     isaki 	    (audiodebug >= 3) ? "begin " : "",
1.2     isaki 	    (int)mixer->mixseq, (int)mixer->hwseq,
1.2     isaki 	    mixer->hwbuf.head, mixer->hwbuf.used, mixer->hwbuf.capacity,
1.2     isaki 	    force ? " force" : "");
1.2     isaki
1.2     isaki 	/* Need two blocks to start normally. */
1.2     isaki 	minimum = (force) ? 1 : 2;
1.2     isaki 	while (mixer->hwbuf.used < mixer->frames_per_block * minimum) {
1.2     isaki 		audio_pmixer_process(sc);
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* Start output */
1.2     isaki 	audio_pmixer_output(sc);
1.2     isaki 	sc->sc_pbusy = true;
1.2     isaki
1.2     isaki 	TRACE(3, "end   mixseq=%d hwseq=%d hwbuf=%d/%d/%d",
1.2     isaki 	    (int)mixer->mixseq, (int)mixer->hwseq,
1.2     isaki 	    mixer->hwbuf.head, mixer->hwbuf.used, mixer->hwbuf.capacity);
1.2     isaki
1.2     isaki 	mutex_exit(sc->sc_intr_lock);
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * When playing back with MD filter:
1.2     isaki  *
1.2     isaki  *           track track ...
1.2     isaki  *               v v
1.2     isaki  *                +  mix (with aint2_t)
1.2     isaki  *                |  master volume (with aint2_t)
1.2     isaki  *                v
1.2     isaki  *    mixsample [::::]                  wide-int 1 block (ring) buffer
1.2     isaki  *                |
1.2     isaki  *                |  convert aint2_t -> aint_t
1.2     isaki  *                v
1.2     isaki  *    codecbuf  [....]                  1 block (ring) buffer
1.2     isaki  *                |
1.2     isaki  *                |  convert to hw format
1.2     isaki  *                v
1.2     isaki  *    hwbuf     [............]          NBLKHW blocks ring buffer
1.2     isaki  *
1.2     isaki  * When playing back without MD filter:
1.2     isaki  *
1.2     isaki  *    mixsample [::::]                  wide-int 1 block (ring) buffer
1.2     isaki  *                |
1.2     isaki  *                |  convert aint2_t -> aint_t
1.2     isaki  *                |  (with byte swap if necessary)
1.2     isaki  *                v
1.2     isaki  *    hwbuf     [............]          NBLKHW blocks ring buffer
1.2     isaki  *
1.2     isaki  * mixsample: slinear_NE, wide internal precision, HW ch, HW freq.
1.2     isaki  * codecbuf:  slinear_NE, internal precision,      HW ch, HW freq.
1.2     isaki  * hwbuf:     HW encoding, HW precision,           HW ch, HW freq.
1.2     isaki  */
1.2     isaki
1.2     isaki /*
1.2     isaki  * Performs track mixing and converts it to hwbuf.
1.2     isaki  * Note that this function doesn't transfer hwbuf to hardware.
1.2     isaki  * Must be called with sc_intr_lock held.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_pmixer_process(struct audio_softc *sc)
1.2     isaki {
1.2     isaki 	audio_trackmixer_t *mixer;
1.2     isaki 	audio_file_t *f;
1.2     isaki 	int frame_count;
1.2     isaki 	int sample_count;
1.2     isaki 	int mixed;
1.2     isaki 	int i;
1.2     isaki 	aint2_t *m;
1.2     isaki 	aint_t *h;
1.2     isaki
1.2     isaki 	mixer = sc->sc_pmixer;
1.2     isaki
1.2     isaki 	frame_count = mixer->frames_per_block;
1.2     isaki 	KASSERT(auring_get_contig_free(&mixer->hwbuf) >= frame_count);
1.2     isaki 	sample_count = frame_count * mixer->mixfmt.channels;
1.2     isaki
1.2     isaki 	mixer->mixseq++;
1.2     isaki
1.2     isaki 	/* Mix all tracks */
1.2     isaki 	mixed = 0;
1.2     isaki 	SLIST_FOREACH(f, &sc->sc_files, entry) {
1.2     isaki 		audio_track_t *track = f->ptrack;
1.2     isaki
1.2     isaki 		if (track == NULL)
1.2     isaki 			continue;
1.2     isaki
1.2     isaki 		if (track->is_pause) {
1.2     isaki 			TRACET(4, track, "skip; paused");
1.2     isaki 			continue;
1.2     isaki 		}
1.2     isaki
1.2     isaki 		/* Skip if the track is used by process context. */
1.2     isaki 		if (audio_track_lock_tryenter(track) == false) {
1.2     isaki 			TRACET(4, track, "skip; in use");
1.2     isaki 			continue;
1.2     isaki 		}
1.2     isaki
1.2     isaki 		/* Emulate mmap'ped track */
1.2     isaki 		if (track->mmapped) {
1.2     isaki 			auring_push(&track->usrbuf, track->usrbuf_blksize);
1.2     isaki 			TRACET(4, track, "mmap; usr=%d/%d/C%d",
1.2     isaki 			    track->usrbuf.head,
1.2     isaki 			    track->usrbuf.used,
1.2     isaki 			    track->usrbuf.capacity);
1.2     isaki 		}
1.2     isaki
1.2     isaki 		if (track->outbuf.used < mixer->frames_per_block &&
1.2     isaki 		    track->usrbuf.used > 0) {
1.2     isaki 			TRACET(4, track, "process");
1.2     isaki 			audio_track_play(track);
1.2     isaki 		}
1.2     isaki
1.2     isaki 		if (track->outbuf.used > 0) {
1.2     isaki 			mixed = audio_pmixer_mix_track(mixer, track, mixed);
1.2     isaki 		} else {
1.2     isaki 			TRACET(4, track, "skip; empty");
1.2     isaki 		}
1.2     isaki
1.2     isaki 		audio_track_lock_exit(track);
1.2     isaki 	}
1.2     isaki
1.2     isaki 	if (mixed == 0) {
1.2     isaki 		/* Silence */
1.2     isaki 		memset(mixer->mixsample, 0,
1.2     isaki 		    frametobyte(&mixer->mixfmt, frame_count));
1.2     isaki 	} else {
1.2     isaki 		aint2_t ovf_plus;
1.2     isaki 		aint2_t ovf_minus;
1.2     isaki 		int vol;
1.2     isaki
1.2     isaki 		/* Overflow detection */
1.2     isaki 		ovf_plus = AINT_T_MAX;
1.2     isaki 		ovf_minus = AINT_T_MIN;
1.2     isaki 		m = mixer->mixsample;
1.2     isaki 		for (i = 0; i < sample_count; i++) {
1.2     isaki 			aint2_t val;
1.2     isaki
1.2     isaki 			val = *m++;
1.2     isaki 			if (val > ovf_plus)
1.2     isaki 				ovf_plus = val;
1.2     isaki 			else if (val < ovf_minus)
1.2     isaki 				ovf_minus = val;
1.2     isaki 		}
1.2     isaki
1.2     isaki 		/* Master Volume Auto Adjust */
1.2     isaki 		vol = mixer->volume;
1.2     isaki 		if (ovf_plus > (aint2_t)AINT_T_MAX
1.2     isaki 		 || ovf_minus < (aint2_t)AINT_T_MIN) {
1.2     isaki 			aint2_t ovf;
1.2     isaki 			int vol2;
1.2     isaki
1.2     isaki 			/* XXX TODO: Check AINT2_T_MIN ? */
1.2     isaki 			ovf = ovf_plus;
1.2     isaki 			if (ovf < -ovf_minus)
1.2     isaki 				ovf = -ovf_minus;
1.2     isaki
1.2     isaki 			/* Turn down the volume if overflow occured. */
1.2     isaki 			vol2 = (int)((aint2_t)AINT_T_MAX * 256 / ovf);
1.2     isaki 			if (vol2 < vol)
1.2     isaki 				vol = vol2;
1.2     isaki
1.2     isaki 			if (vol < mixer->volume) {
1.2     isaki 				/* Turn down gradually to 128. */
1.2     isaki 				if (mixer->volume > 128) {
1.2     isaki 					mixer->volume =
1.2     isaki 					    (mixer->volume * 95) / 100;
1.2     isaki 					device_printf(sc->sc_dev,
1.2     isaki 					    "auto volume adjust: volume %d\n",
1.2     isaki 					    mixer->volume);
1.2     isaki 				}
1.2     isaki 			}
1.2     isaki 		}
1.2     isaki
1.2     isaki 		/* Apply Master Volume. */
1.2     isaki 		if (vol != 256) {
1.2     isaki 			m = mixer->mixsample;
1.2     isaki 			for (i = 0; i < sample_count; i++) {
1.2     isaki #if defined(AUDIO_USE_C_IMPLEMENTATION_DEFINED_BEHAVIOR) && defined(__GNUC__)
1.2     isaki 				*m = *m * vol >> 8;
1.2     isaki #else
1.2     isaki 				*m = *m * vol / 256;
1.2     isaki #endif
1.2     isaki 				m++;
1.2     isaki 			}
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * The rest is the hardware part.
1.2     isaki 	 */
1.2     isaki
1.2     isaki 	if (mixer->codec) {
1.2     isaki 		h = auring_tailptr_aint(&mixer->codecbuf);
1.2     isaki 	} else {
1.2     isaki 		h = auring_tailptr_aint(&mixer->hwbuf);
1.2     isaki 	}
1.2     isaki
1.2     isaki 	m = mixer->mixsample;
1.2     isaki 	if (mixer->swap_endian) {
1.2     isaki 		for (i = 0; i < sample_count; i++) {
1.2     isaki 			*h++ = bswap16(*m++);
1.2     isaki 		}
1.2     isaki 	} else {
1.2     isaki 		for (i = 0; i < sample_count; i++) {
1.2     isaki 			*h++ = *m++;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* Hardware driver's codec */
1.2     isaki 	if (mixer->codec) {
1.2     isaki 		auring_push(&mixer->codecbuf, frame_count);
1.2     isaki 		mixer->codecarg.src = auring_headptr(&mixer->codecbuf);
1.2     isaki 		mixer->codecarg.dst = auring_tailptr(&mixer->hwbuf);
1.2     isaki 		mixer->codecarg.count = frame_count;
1.2     isaki 		mixer->codec(&mixer->codecarg);
1.2     isaki 		auring_take(&mixer->codecbuf, mixer->codecarg.count);
1.2     isaki 	}
1.2     isaki
1.2     isaki 	auring_push(&mixer->hwbuf, frame_count);
1.2     isaki
1.2     isaki 	TRACE(4, "done mixseq=%d hwbuf=%d/%d/%d%s",
1.2     isaki 	    (int)mixer->mixseq,
1.2     isaki 	    mixer->hwbuf.head, mixer->hwbuf.used, mixer->hwbuf.capacity,
1.2     isaki 	    (mixed == 0) ? " silent" : "");
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Mix one track.
1.2     isaki  * 'mixed' specifies the number of tracks mixed so far.
1.2     isaki  * It returns the number of tracks mixed.  In other words, it returns
1.2     isaki  * mixed + 1 if this track is mixed.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_pmixer_mix_track(audio_trackmixer_t *mixer, audio_track_t *track,
1.2     isaki 	int mixed)
1.2     isaki {
1.2     isaki 	int count;
1.2     isaki 	int sample_count;
1.2     isaki 	int remain;
1.2     isaki 	int i;
1.2     isaki 	const aint_t *s;
1.2     isaki 	aint2_t *d;
1.2     isaki
1.2     isaki 	/* XXX TODO: Is this necessary for now? */
1.2     isaki 	if (mixer->mixseq < track->seq)
1.2     isaki 		return mixed;
1.2     isaki
1.2     isaki 	count = auring_get_contig_used(&track->outbuf);
1.2     isaki 	count = uimin(count, mixer->frames_per_block);
1.2     isaki
1.2     isaki 	s = auring_headptr_aint(&track->outbuf);
1.2     isaki 	d = mixer->mixsample;
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * Apply track volume with double-sized integer and perform
1.2     isaki 	 * additive synthesis.
1.2     isaki 	 *
1.2     isaki 	 * XXX If you limit the track volume to 1.0 or less (<= 256),
1.2     isaki 	 *     it would be better to do this in the track conversion stage
1.2     isaki 	 *     rather than here.  However, if you accept the volume to
1.2     isaki 	 *     be greater than 1.0 (> 256), it's better to do it here.
1.2     isaki 	 *     Because the operation here is done by double-sized integer.
1.2     isaki 	 */
1.2     isaki 	sample_count = count * mixer->mixfmt.channels;
1.2     isaki 	if (mixed == 0) {
1.2     isaki 		/* If this is the first track, assignment can be used. */
1.2     isaki #if defined(AUDIO_SUPPORT_TRACK_VOLUME)
1.2     isaki 		if (track->volume != 256) {
1.2     isaki 			for (i = 0; i < sample_count; i++) {
1.2     isaki #if defined(AUDIO_USE_C_IMPLEMENTATION_DEFINED_BEHAVIOR) && defined(__GNUC__)
1.2     isaki 				*d++ = ((aint2_t)*s++) * track->volume >> 8;
1.2     isaki #else
1.2     isaki 				*d++ = ((aint2_t)*s++) * track->volume / 256;
1.2     isaki #endif
1.2     isaki 			}
1.2     isaki 		} else
1.2     isaki #endif
1.2     isaki 		{
1.2     isaki 			for (i = 0; i < sample_count; i++) {
1.2     isaki 				*d++ = ((aint2_t)*s++);
1.2     isaki 			}
1.2     isaki 		}
1.2     isaki 	} else {
1.2     isaki 		/* If this is the second or later, add it. */
1.2     isaki #if defined(AUDIO_SUPPORT_TRACK_VOLUME)
1.2     isaki 		if (track->volume != 256) {
1.2     isaki 			for (i = 0; i < sample_count; i++) {
1.2     isaki #if defined(AUDIO_USE_C_IMPLEMENTATION_DEFINED_BEHAVIOR) && defined(__GNUC__)
1.2     isaki 				*d++ += ((aint2_t)*s++) * track->volume >> 8;
1.2     isaki #else
1.2     isaki 				*d++ += ((aint2_t)*s++) * track->volume / 256;
1.2     isaki #endif
1.2     isaki 			}
1.2     isaki 		} else
1.2     isaki #endif
1.2     isaki 		{
1.2     isaki 			for (i = 0; i < sample_count; i++) {
1.2     isaki 				*d++ += ((aint2_t)*s++);
1.2     isaki 			}
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	auring_take(&track->outbuf, count);
1.2     isaki 	/*
1.2     isaki 	 * The counters have to align block even if outbuf is less than
1.2     isaki 	 * one block. XXX Is this still necessary?
1.2     isaki 	 */
1.2     isaki 	remain = mixer->frames_per_block - count;
1.2     isaki 	if (__predict_false(remain != 0)) {
1.2     isaki 		auring_push(&track->outbuf, remain);
1.2     isaki 		auring_take(&track->outbuf, remain);
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * Update track sequence.
1.2     isaki 	 * mixseq has previous value yet at this point.
1.2     isaki 	 */
1.2     isaki 	track->seq = mixer->mixseq + 1;
1.2     isaki
1.2     isaki 	return mixed + 1;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Output one block from hwbuf to HW.
1.2     isaki  * Must be called with sc_intr_lock held.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_pmixer_output(struct audio_softc *sc)
1.2     isaki {
1.2     isaki 	audio_trackmixer_t *mixer;
1.2     isaki 	audio_params_t params;
1.2     isaki 	void *start;
1.2     isaki 	void *end;
1.2     isaki 	int blksize;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	mixer = sc->sc_pmixer;
1.2     isaki 	TRACE(4, "pbusy=%d hwbuf=%d/%d/%d",
1.2     isaki 	    sc->sc_pbusy,
1.2     isaki 	    mixer->hwbuf.head, mixer->hwbuf.used, mixer->hwbuf.capacity);
1.2     isaki 	KASSERT(mixer->hwbuf.used >= mixer->frames_per_block);
1.2     isaki
1.2     isaki 	blksize = frametobyte(&mixer->hwbuf.fmt, mixer->frames_per_block);
1.2     isaki
1.2     isaki 	if (sc->hw_if->trigger_output) {
1.2     isaki 		/* trigger (at once) */
1.2     isaki 		if (!sc->sc_pbusy) {
1.2     isaki 			start = mixer->hwbuf.mem;
1.2     isaki 			end = (uint8_t *)start + auring_bytelen(&mixer->hwbuf);
1.2     isaki 			params = format2_to_params(&mixer->hwbuf.fmt);
1.2     isaki
1.2     isaki 			error = sc->hw_if->trigger_output(sc->hw_hdl,
1.2     isaki 			    start, end, blksize, audio_pintr, sc, &params);
1.2     isaki 			if (error) {
1.2     isaki 				device_printf(sc->sc_dev,
1.2     isaki 				    "trigger_output failed with %d", error);
1.2     isaki 				return;
1.2     isaki 			}
1.2     isaki 		}
1.2     isaki 	} else {
1.2     isaki 		/* start (everytime) */
1.2     isaki 		start = auring_headptr(&mixer->hwbuf);
1.2     isaki
1.2     isaki 		error = sc->hw_if->start_output(sc->hw_hdl,
1.2     isaki 		    start, blksize, audio_pintr, sc);
1.2     isaki 		if (error) {
1.2     isaki 			device_printf(sc->sc_dev,
1.2     isaki 			    "start_output failed with %d", error);
1.2     isaki 			return;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * This is an interrupt handler for playback.
1.2     isaki  * It is called with sc_intr_lock held.
1.2     isaki  *
1.2     isaki  * It is usually called from hardware interrupt.  However, note that
1.2     isaki  * for some drivers (e.g. uaudio) it is called from software interrupt.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_pintr(void *arg)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	audio_trackmixer_t *mixer;
1.2     isaki
1.2     isaki 	sc = arg;
1.2     isaki 	KASSERT(mutex_owned(sc->sc_intr_lock));
1.2     isaki
1.2     isaki 	if (sc->sc_dying)
1.2     isaki 		return;
1.2     isaki #if defined(DIAGNOSTIC)
1.2     isaki 	if (sc->sc_pbusy == false) {
1.2     isaki 		device_printf(sc->sc_dev, "stray interrupt\n");
1.2     isaki 		return;
1.2     isaki 	}
1.2     isaki #endif
1.2     isaki
1.2     isaki 	mixer = sc->sc_pmixer;
1.2     isaki 	mixer->hw_complete_counter += mixer->frames_per_block;
1.2     isaki 	mixer->hwseq++;
1.2     isaki
1.2     isaki 	auring_take(&mixer->hwbuf, mixer->frames_per_block);
1.2     isaki
1.2     isaki 	TRACE(4,
1.2     isaki 	    "HW_INT ++hwseq=%" PRIu64 " cmplcnt=%" PRIu64 " hwbuf=%d/%d/%d",
1.2     isaki 	    mixer->hwseq, mixer->hw_complete_counter,
1.2     isaki 	    mixer->hwbuf.head, mixer->hwbuf.used, mixer->hwbuf.capacity);
1.2     isaki
1.2     isaki #if !defined(_KERNEL)
1.2     isaki 	/* This is a debug code for userland test. */
1.2     isaki 	return;
1.2     isaki #endif
1.2     isaki
1.2     isaki #if defined(AUDIO_HW_SINGLE_BUFFER)
1.2     isaki 	/*
1.2     isaki 	 * Create a new block here and output it immediately.
1.2     isaki 	 * It makes a latency lower but needs machine power.
1.2     isaki 	 */
1.2     isaki 	audio_pmixer_process(sc);
1.2     isaki 	audio_pmixer_output(sc);
1.2     isaki #else
1.2     isaki 	/*
1.2     isaki 	 * It is called when block N output is done.
1.2     isaki 	 * Output immediately block N+1 created by the last interrupt.
1.2     isaki 	 * And then create block N+2 for the next interrupt.
1.2     isaki 	 * This method makes playback robust even on slower machines.
1.2     isaki 	 * Instead the latency is increased by one block.
1.2     isaki 	 */
1.2     isaki
1.2     isaki 	/* At first, output ready block. */
1.2     isaki 	if (mixer->hwbuf.used >= mixer->frames_per_block) {
1.2     isaki 		audio_pmixer_output(sc);
1.2     isaki 	}
1.2     isaki
1.2     isaki 	bool later = false;
1.2     isaki
1.2     isaki 	if (mixer->hwbuf.used < mixer->frames_per_block) {
1.2     isaki 		later = true;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* Then, process next block. */
1.2     isaki 	audio_pmixer_process(sc);
1.2     isaki
1.2     isaki 	if (later) {
1.2     isaki 		audio_pmixer_output(sc);
1.2     isaki 	}
1.2     isaki #endif
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * When this interrupt is the real hardware interrupt, disabling
1.2     isaki 	 * preemption here is not necessary.  But some drivers (e.g. uaudio)
1.2     isaki 	 * emulate it by software interrupt, so kpreempt_disable is necessary.
1.2     isaki 	 */
1.2     isaki 	kpreempt_disable();
1.2     isaki 	softint_schedule(mixer->sih);
1.2     isaki 	kpreempt_enable();
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Starts record mixer.
1.2     isaki  * Must be called only if sc_rbusy is false.
1.2     isaki  * Must be called with sc_lock held.
1.2     isaki  * Must not be called from the interrupt context.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_rmixer_start(struct audio_softc *sc)
1.2     isaki {
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(sc->sc_rbusy == false);
1.2     isaki
1.2     isaki 	mutex_enter(sc->sc_intr_lock);
1.2     isaki
1.2     isaki 	TRACE(2, "%s", (audiodebug >= 3) ? "begin" : "");
1.2     isaki 	audio_rmixer_input(sc);
1.2     isaki 	sc->sc_rbusy = true;
1.2     isaki 	TRACE(3, "end");
1.2     isaki
1.2     isaki 	mutex_exit(sc->sc_intr_lock);
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * When recording with MD filter:
1.2     isaki  *
1.2     isaki  *    hwbuf     [............]          NBLKHW blocks ring buffer
1.2     isaki  *                |
1.2     isaki  *                | convert from hw format
1.2     isaki  *                v
1.2     isaki  *    codecbuf  [....]                  1 block (ring) buffer
1.2     isaki  *               |  |
1.2     isaki  *               v  v
1.2     isaki  *            track track ...
1.2     isaki  *
1.2     isaki  * When recording without MD filter:
1.2     isaki  *
1.2     isaki  *    hwbuf     [............]          NBLKHW blocks ring buffer
1.2     isaki  *               |  |
1.2     isaki  *               v  v
1.2     isaki  *            track track ...
1.2     isaki  *
1.2     isaki  * hwbuf:     HW encoding, HW precision, HW ch, HW freq.
1.2     isaki  * codecbuf:  slinear_NE, internal precision, HW ch, HW freq.
1.2     isaki  */
1.2     isaki
1.2     isaki /*
1.2     isaki  * Distribute a recorded block to all recording tracks.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_rmixer_process(struct audio_softc *sc)
1.2     isaki {
1.2     isaki 	audio_trackmixer_t *mixer;
1.2     isaki 	audio_ring_t *mixersrc;
1.2     isaki 	audio_file_t *f;
1.2     isaki 	aint_t *p;
1.2     isaki 	int count;
1.2     isaki 	int bytes;
1.2     isaki 	int i;
1.2     isaki
1.2     isaki 	mixer = sc->sc_rmixer;
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * count is the number of frames to be retrieved this time.
1.2     isaki 	 * count should be one block.
1.2     isaki 	 */
1.2     isaki 	count = auring_get_contig_used(&mixer->hwbuf);
1.2     isaki 	count = uimin(count, mixer->frames_per_block);
1.2     isaki 	if (count <= 0) {
1.2     isaki 		TRACE(4, "count %d: too short", count);
1.2     isaki 		return;
1.2     isaki 	}
1.2     isaki 	bytes = frametobyte(&mixer->track_fmt, count);
1.2     isaki
1.2     isaki 	/* Hardware driver's codec */
1.2     isaki 	if (mixer->codec) {
1.2     isaki 		mixer->codecarg.src = auring_headptr(&mixer->hwbuf);
1.2     isaki 		mixer->codecarg.dst = auring_tailptr(&mixer->codecbuf);
1.2     isaki 		mixer->codecarg.count = count;
1.2     isaki 		mixer->codec(&mixer->codecarg);
1.2     isaki 		auring_take(&mixer->hwbuf, mixer->codecarg.count);
1.2     isaki 		auring_push(&mixer->codecbuf, mixer->codecarg.count);
1.2     isaki 		mixersrc = &mixer->codecbuf;
1.2     isaki 	} else {
1.2     isaki 		mixersrc = &mixer->hwbuf;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	if (mixer->swap_endian) {
1.2     isaki 		/* inplace conversion */
1.2     isaki 		p = auring_headptr_aint(mixersrc);
1.2     isaki 		for (i = 0; i < count * mixer->track_fmt.channels; i++, p++) {
1.2     isaki 			*p = bswap16(*p);
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* Distribute to all tracks. */
1.2     isaki 	SLIST_FOREACH(f, &sc->sc_files, entry) {
1.2     isaki 		audio_track_t *track = f->rtrack;
1.2     isaki 		audio_ring_t *input;
1.2     isaki
1.2     isaki 		if (track == NULL)
1.2     isaki 			continue;
1.2     isaki
1.2     isaki 		if (track->is_pause) {
1.2     isaki 			TRACET(4, track, "skip; paused");
1.2     isaki 			continue;
1.2     isaki 		}
1.2     isaki
1.2     isaki 		if (audio_track_lock_tryenter(track) == false) {
1.2     isaki 			TRACET(4, track, "skip; in use");
1.2     isaki 			continue;
1.2     isaki 		}
1.2     isaki
1.2     isaki 		/* If the track buffer is full, discard the oldest one? */
1.2     isaki 		input = track->input;
1.2     isaki 		if (input->capacity - input->used < mixer->frames_per_block) {
1.2     isaki 			int drops = mixer->frames_per_block -
1.2     isaki 			    (input->capacity - input->used);
1.2     isaki 			track->dropframes += drops;
1.2     isaki 			TRACET(4, track, "drop %d frames: inp=%d/%d/%d",
1.2     isaki 			    drops,
1.2     isaki 			    input->head, input->used, input->capacity);
1.2     isaki 			auring_take(input, drops);
1.2     isaki 		}
1.2     isaki 		KASSERT(input->used % mixer->frames_per_block == 0);
1.2     isaki
1.2     isaki 		memcpy(auring_tailptr_aint(input),
1.2     isaki 		    auring_headptr_aint(mixersrc),
1.2     isaki 		    bytes);
1.2     isaki 		auring_push(input, count);
1.2     isaki
1.2     isaki 		/* XXX sequence counter? */
1.2     isaki
1.2     isaki 		audio_track_lock_exit(track);
1.2     isaki 	}
1.2     isaki
1.2     isaki 	auring_take(mixersrc, count);
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Input one block from HW to hwbuf.
1.2     isaki  * Must be called with sc_intr_lock held.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_rmixer_input(struct audio_softc *sc)
1.2     isaki {
1.2     isaki 	audio_trackmixer_t *mixer;
1.2     isaki 	audio_params_t params;
1.2     isaki 	void *start;
1.2     isaki 	void *end;
1.2     isaki 	int blksize;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	mixer = sc->sc_rmixer;
1.2     isaki 	blksize = frametobyte(&mixer->hwbuf.fmt, mixer->frames_per_block);
1.2     isaki
1.2     isaki 	if (sc->hw_if->trigger_input) {
1.2     isaki 		/* trigger (at once) */
1.2     isaki 		if (!sc->sc_rbusy) {
1.2     isaki 			start = mixer->hwbuf.mem;
1.2     isaki 			end = (uint8_t *)start + auring_bytelen(&mixer->hwbuf);
1.2     isaki 			params = format2_to_params(&mixer->hwbuf.fmt);
1.2     isaki
1.2     isaki 			error = sc->hw_if->trigger_input(sc->hw_hdl,
1.2     isaki 			    start, end, blksize, audio_rintr, sc, &params);
1.2     isaki 			if (error) {
1.2     isaki 				device_printf(sc->sc_dev,
1.2     isaki 				    "trigger_input failed with %d", error);
1.2     isaki 				return;
1.2     isaki 			}
1.2     isaki 		}
1.2     isaki 	} else {
1.2     isaki 		/* start (everytime) */
1.2     isaki 		start = auring_tailptr(&mixer->hwbuf);
1.2     isaki
1.2     isaki 		error = sc->hw_if->start_input(sc->hw_hdl,
1.2     isaki 		    start, blksize, audio_rintr, sc);
1.2     isaki 		if (error) {
1.2     isaki 			device_printf(sc->sc_dev,
1.2     isaki 			    "start_input failed with %d", error);
1.2     isaki 			return;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * This is an interrupt handler for recording.
1.2     isaki  * It is called with sc_intr_lock.
1.2     isaki  *
1.2     isaki  * It is usually called from hardware interrupt.  However, note that
1.2     isaki  * for some drivers (e.g. uaudio) it is called from software interrupt.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_rintr(void *arg)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	audio_trackmixer_t *mixer;
1.2     isaki
1.2     isaki 	sc = arg;
1.2     isaki 	KASSERT(mutex_owned(sc->sc_intr_lock));
1.2     isaki
1.2     isaki 	if (sc->sc_dying)
1.2     isaki 		return;
1.2     isaki #if defined(DIAGNOSTIC)
1.2     isaki 	if (sc->sc_rbusy == false) {
1.2     isaki 		device_printf(sc->sc_dev, "stray interrupt\n");
1.2     isaki 		return;
1.2     isaki 	}
1.2     isaki #endif
1.2     isaki
1.2     isaki 	mixer = sc->sc_rmixer;
1.2     isaki 	mixer->hw_complete_counter += mixer->frames_per_block;
1.2     isaki 	mixer->hwseq++;
1.2     isaki
1.2     isaki 	auring_push(&mixer->hwbuf, mixer->frames_per_block);
1.2     isaki
1.2     isaki 	TRACE(4,
1.2     isaki 	    "HW_INT ++hwseq=%" PRIu64 " cmplcnt=%" PRIu64 " hwbuf=%d/%d/%d",
1.2     isaki 	    mixer->hwseq, mixer->hw_complete_counter,
1.2     isaki 	    mixer->hwbuf.head, mixer->hwbuf.used, mixer->hwbuf.capacity);
1.2     isaki
1.2     isaki 	/* Distrubute recorded block */
1.2     isaki 	audio_rmixer_process(sc);
1.2     isaki
1.2     isaki 	/* Request next block */
1.2     isaki 	audio_rmixer_input(sc);
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * When this interrupt is the real hardware interrupt, disabling
1.2     isaki 	 * preemption here is not necessary.  But some drivers (e.g. uaudio)
1.2     isaki 	 * emulate it by software interrupt, so kpreempt_disable is necessary.
1.2     isaki 	 */
1.2     isaki 	kpreempt_disable();
1.2     isaki 	softint_schedule(mixer->sih);
1.2     isaki 	kpreempt_enable();
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Halts playback mixer.
1.2     isaki  * This function also clears related parameters, so call this function
1.2     isaki  * instead of calling halt_output directly.
1.2     isaki  * Must be called only if sc_pbusy is true.
1.2     isaki  * Must be called with sc_lock && sc_exlock held.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_pmixer_halt(struct audio_softc *sc)
1.2     isaki {
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	TRACE(2, "");
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(sc->sc_exlock);
1.2     isaki
1.2     isaki 	mutex_enter(sc->sc_intr_lock);
1.2     isaki 	error = sc->hw_if->halt_output(sc->hw_hdl);
1.2     isaki 	mutex_exit(sc->sc_intr_lock);
1.2     isaki
1.2     isaki 	/* Halts anyway even if some error has occurred. */
1.2     isaki 	sc->sc_pbusy = false;
1.2     isaki 	sc->sc_pmixer->hwbuf.head = 0;
1.2     isaki 	sc->sc_pmixer->hwbuf.used = 0;
1.2     isaki 	sc->sc_pmixer->mixseq = 0;
1.2     isaki 	sc->sc_pmixer->hwseq = 0;
1.2     isaki
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Halts recording mixer.
1.2     isaki  * This function also clears related parameters, so call this function
1.2     isaki  * instead of calling halt_input directly.
1.2     isaki  * Must be called only if sc_rbusy is true.
1.2     isaki  * Must be called with sc_lock && sc_exlock held.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_rmixer_halt(struct audio_softc *sc)
1.2     isaki {
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	TRACE(2, "");
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(sc->sc_exlock);
1.2     isaki
1.2     isaki 	mutex_enter(sc->sc_intr_lock);
1.2     isaki 	error = sc->hw_if->halt_input(sc->hw_hdl);
1.2     isaki 	mutex_exit(sc->sc_intr_lock);
1.2     isaki
1.2     isaki 	/* Halts anyway even if some error has occurred. */
1.2     isaki 	sc->sc_rbusy = false;
1.2     isaki 	sc->sc_rmixer->hwbuf.head = 0;
1.2     isaki 	sc->sc_rmixer->hwbuf.used = 0;
1.2     isaki 	sc->sc_rmixer->mixseq = 0;
1.2     isaki 	sc->sc_rmixer->hwseq = 0;
1.2     isaki
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Flush this track.
1.2     isaki  * Halts all operations, clears all buffers, reset error counters.
1.2     isaki  * XXX I'm not sure...
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_track_clear(struct audio_softc *sc, audio_track_t *track)
1.2     isaki {
1.2     isaki
1.2     isaki 	KASSERT(track);
1.2     isaki 	TRACET(3, track, "clear");
1.2     isaki
1.2     isaki 	audio_track_lock_enter(track);
1.2     isaki
1.2     isaki 	track->usrbuf.used = 0;
1.2     isaki 	/* Clear all internal parameters. */
1.2     isaki 	if (track->codec.filter) {
1.2     isaki 		track->codec.srcbuf.used = 0;
1.2     isaki 		track->codec.srcbuf.head = 0;
1.2     isaki 	}
1.2     isaki 	if (track->chvol.filter) {
1.2     isaki 		track->chvol.srcbuf.used = 0;
1.2     isaki 		track->chvol.srcbuf.head = 0;
1.2     isaki 	}
1.2     isaki 	if (track->chmix.filter) {
1.2     isaki 		track->chmix.srcbuf.used = 0;
1.2     isaki 		track->chmix.srcbuf.head = 0;
1.2     isaki 	}
1.2     isaki 	if (track->freq.filter) {
1.2     isaki 		track->freq.srcbuf.used = 0;
1.2     isaki 		track->freq.srcbuf.head = 0;
1.2     isaki 		if (track->freq_step < 65536)
1.2     isaki 			track->freq_current = 65536;
1.2     isaki 		else
1.2     isaki 			track->freq_current = 0;
1.2     isaki 		memset(track->freq_prev, 0, sizeof(track->freq_prev));
1.2     isaki 		memset(track->freq_curr, 0, sizeof(track->freq_curr));
1.2     isaki 	}
1.2     isaki 	/* Clear buffer, then operation halts naturally. */
1.2     isaki 	track->outbuf.used = 0;
1.2     isaki
1.2     isaki 	/* Clear counters. */
1.2     isaki 	track->dropframes = 0;
1.2     isaki
1.2     isaki 	audio_track_lock_exit(track);
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Drain the track.
1.2     isaki  * track must be present and for playback.
1.2     isaki  * If successful, it returns 0.  Otherwise returns errno.
1.2     isaki  * Must be called with sc_lock held.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_track_drain(struct audio_softc *sc, audio_track_t *track)
1.2     isaki {
1.2     isaki 	audio_trackmixer_t *mixer;
1.2     isaki 	int done;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(track);
1.2     isaki 	TRACET(3, track, "start");
1.2     isaki 	mixer = track->mixer;
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki
1.2     isaki 	/* Ignore them if pause. */
1.2     isaki 	if (track->is_pause) {
1.2     isaki 		TRACET(3, track, "pause -> clear");
1.2     isaki 		track->pstate = AUDIO_STATE_CLEAR;
1.2     isaki 	}
1.2     isaki 	/* Terminate early here if there is no data in the track. */
1.2     isaki 	if (track->pstate == AUDIO_STATE_CLEAR) {
1.2     isaki 		TRACET(3, track, "no need to drain");
1.2     isaki 		return 0;
1.2     isaki 	}
1.2     isaki 	track->pstate = AUDIO_STATE_DRAINING;
1.2     isaki
1.2     isaki 	for (;;) {
1.2     isaki 		/* I want to display it bofore condition evaluation. */
1.2     isaki 		TRACET(3, track, "pid=%d.%d trkseq=%d hwseq=%d out=%d/%d/%d",
1.2     isaki 		    (int)curproc->p_pid, (int)curlwp->l_lid,
1.2     isaki 		    (int)track->seq, (int)mixer->hwseq,
1.2     isaki 		    track->outbuf.head, track->outbuf.used,
1.2     isaki 		    track->outbuf.capacity);
1.2     isaki
1.2     isaki 		/* Condition to terminate */
1.2     isaki 		audio_track_lock_enter(track);
1.2     isaki 		done = (track->usrbuf.used < frametobyte(&track->inputfmt, 1) &&
1.2     isaki 		    track->outbuf.used == 0 &&
1.2     isaki 		    track->seq <= mixer->hwseq);
1.2     isaki 		audio_track_lock_exit(track);
1.2     isaki 		if (done)
1.2     isaki 			break;
1.2     isaki
1.2     isaki 		TRACET(3, track, "sleep");
1.2     isaki 		error = audio_track_waitio(sc, track);
1.2     isaki 		if (error)
1.2     isaki 			return error;
1.2     isaki
1.2     isaki 		/* XXX call audio_track_play here ? */
1.2     isaki 	}
1.2     isaki
1.2     isaki 	track->pstate = AUDIO_STATE_CLEAR;
1.2     isaki 	TRACET(3, track, "done trk_inp=%d trk_out=%d",
1.2     isaki 		(int)track->inputcounter, (int)track->outputcounter);
1.2     isaki 	return 0;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * This is software interrupt handler for record.
1.2     isaki  * It is called from recording hardware interrupt everytime.
1.2     isaki  * It does:
1.2     isaki  * - Deliver SIGIO for all async processes.
1.2     isaki  * - Notify to audio_read() that data has arrived.
1.2     isaki  * - selnotify() for select/poll-ing processes.
1.2     isaki  */
1.2     isaki /*
1.2     isaki  * XXX If a process issues FIOASYNC between hardware interrupt and
1.2     isaki  *     software interrupt, (stray) SIGIO will be sent to the process
1.2     isaki  *     despite the fact that it has not receive recorded data yet.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_softintr_rd(void *cookie)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc = cookie;
1.2     isaki 	audio_file_t *f;
1.2     isaki 	proc_t *p;
1.2     isaki 	pid_t pid;
1.2     isaki
1.2     isaki 	mutex_enter(sc->sc_lock);
1.2     isaki 	mutex_enter(sc->sc_intr_lock);
1.2     isaki
1.2     isaki 	SLIST_FOREACH(f, &sc->sc_files, entry) {
1.2     isaki 		audio_track_t *track = f->rtrack;
1.2     isaki
1.2     isaki 		if (track == NULL)
1.2     isaki 			continue;
1.2     isaki
1.2     isaki 		TRACET(4, track, "broadcast; inp=%d/%d/%d",
1.2     isaki 		    track->input->head,
1.2     isaki 		    track->input->used,
1.2     isaki 		    track->input->capacity);
1.2     isaki
1.2     isaki 		pid = f->async_audio;
1.2     isaki 		if (pid != 0) {
1.2     isaki 			TRACEF(4, f, "sending SIGIO %d", pid);
1.2     isaki 			mutex_enter(proc_lock);
1.2     isaki 			if ((p = proc_find(pid)) != NULL)
1.2     isaki 				psignal(p, SIGIO);
1.2     isaki 			mutex_exit(proc_lock);
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki 	mutex_exit(sc->sc_intr_lock);
1.2     isaki
1.2     isaki 	/* Notify that data has arrived. */
1.2     isaki 	selnotify(&sc->sc_rsel, 0, NOTE_SUBMIT);
1.2     isaki 	KNOTE(&sc->sc_rsel.sel_klist, 0);
1.2     isaki 	cv_broadcast(&sc->sc_rmixer->outcv);
1.2     isaki
1.2     isaki 	mutex_exit(sc->sc_lock);
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * This is software interrupt handler for playback.
1.2     isaki  * It is called from playback hardware interrupt everytime.
1.2     isaki  * It does:
1.2     isaki  * - Deliver SIGIO for all async and writable (used < lowat) processes.
1.2     isaki  * - Notify to audio_write() that outbuf block available.
1.2     isaki  * - selnotify() for select/poll-ing processes if there are any writable
1.2     isaki  *   (used < lowat) processes.  Checking each descriptor will be done by
1.2     isaki  *   filt_audiowrite_event().
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_softintr_wr(void *cookie)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc = cookie;
1.2     isaki 	audio_file_t *f;
1.2     isaki 	bool found;
1.2     isaki 	proc_t *p;
1.2     isaki 	pid_t pid;
1.2     isaki
1.2     isaki 	TRACE(4, "called");
1.2     isaki 	found = false;
1.2     isaki
1.2     isaki 	mutex_enter(sc->sc_lock);
1.2     isaki 	mutex_enter(sc->sc_intr_lock);
1.2     isaki
1.2     isaki 	SLIST_FOREACH(f, &sc->sc_files, entry) {
1.2     isaki 		audio_track_t *track = f->ptrack;
1.2     isaki
1.2     isaki 		if (track == NULL)
1.2     isaki 			continue;
1.2     isaki
1.2     isaki 		TRACET(4, track, "broadcast; trseq=%d out=%d/%d/%d",
1.2     isaki 		    (int)track->seq,
1.2     isaki 		    track->outbuf.head,
1.2     isaki 		    track->outbuf.used,
1.2     isaki 		    track->outbuf.capacity);
1.2     isaki
1.2     isaki 		/*
1.2     isaki 		 * Send a signal if the process is async mode and
1.2     isaki 		 * used is lower than lowat.
1.2     isaki 		 */
1.2     isaki 		if (track->usrbuf.used <= track->usrbuf_usedlow &&
1.2     isaki 		    !track->is_pause) {
1.2     isaki 			found = true;
1.2     isaki 			pid = f->async_audio;
1.2     isaki 			if (pid != 0) {
1.2     isaki 				TRACEF(4, f, "sending SIGIO %d", pid);
1.2     isaki 				mutex_enter(proc_lock);
1.2     isaki 				if ((p = proc_find(pid)) != NULL)
1.2     isaki 					psignal(p, SIGIO);
1.2     isaki 				mutex_exit(proc_lock);
1.2     isaki 			}
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki 	mutex_exit(sc->sc_intr_lock);
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * Notify for select/poll when someone become writable.
1.2     isaki 	 * It needs sc_lock (and not sc_intr_lock).
1.2     isaki 	 */
1.2     isaki 	if (found) {
1.2     isaki 		TRACE(4, "selnotify");
1.2     isaki 		selnotify(&sc->sc_wsel, 0, NOTE_SUBMIT);
1.2     isaki 		KNOTE(&sc->sc_wsel.sel_klist, 0);
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* Notify to audio_write() that outbuf available. */
1.2     isaki 	cv_broadcast(&sc->sc_pmixer->outcv);
1.2     isaki
1.2     isaki 	mutex_exit(sc->sc_lock);
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Check (and convert) the format *p came from userland.
1.2     isaki  * If successful, it writes back the converted format to *p if necessary
1.2     isaki  * and returns 0.  Otherwise returns errno (*p may change even this case).
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_check_params(audio_format2_t *p)
1.2     isaki {
1.2     isaki
1.2     isaki 	/* Convert obsoleted AUDIO_ENCODING_PCM* */
1.2     isaki 	/* XXX Is this conversion right? */
1.2     isaki 	if (p->encoding == AUDIO_ENCODING_PCM16) {
1.2     isaki 		if (p->precision == 8)
1.2     isaki 			p->encoding = AUDIO_ENCODING_ULINEAR;
1.2     isaki 		else
1.2     isaki 			p->encoding = AUDIO_ENCODING_SLINEAR;
1.2     isaki 	} else if (p->encoding == AUDIO_ENCODING_PCM8) {
1.2     isaki 		if (p->precision == 8)
1.2     isaki 			p->encoding = AUDIO_ENCODING_ULINEAR;
1.2     isaki 		else
1.2     isaki 			return EINVAL;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * Convert obsoleted AUDIO_ENCODING_[SU]LINEAR without endianness
1.2     isaki 	 * suffix.
1.2     isaki 	 */
1.2     isaki 	if (p->encoding == AUDIO_ENCODING_SLINEAR)
1.2     isaki 		p->encoding = AUDIO_ENCODING_SLINEAR_NE;
1.2     isaki 	if (p->encoding == AUDIO_ENCODING_ULINEAR)
1.2     isaki 		p->encoding = AUDIO_ENCODING_ULINEAR_NE;
1.2     isaki
1.2     isaki 	switch (p->encoding) {
1.2     isaki 	case AUDIO_ENCODING_ULAW:
1.2     isaki 	case AUDIO_ENCODING_ALAW:
1.2     isaki 		if (p->precision != 8)
1.2     isaki 			return EINVAL;
1.2     isaki 		break;
1.2     isaki 	case AUDIO_ENCODING_ADPCM:
1.2     isaki 		if (p->precision != 4 && p->precision != 8)
1.2     isaki 			return EINVAL;
1.2     isaki 		break;
1.2     isaki 	case AUDIO_ENCODING_SLINEAR_LE:
1.2     isaki 	case AUDIO_ENCODING_SLINEAR_BE:
1.2     isaki 	case AUDIO_ENCODING_ULINEAR_LE:
1.2     isaki 	case AUDIO_ENCODING_ULINEAR_BE:
1.2     isaki 		if (p->precision !=  8 && p->precision != 16 &&
1.2     isaki 		    p->precision != 24 && p->precision != 32)
1.2     isaki 			return EINVAL;
1.2     isaki
1.2     isaki 		/* 8bit format does not have endianness. */
1.2     isaki 		if (p->precision == 8) {
1.2     isaki 			if (p->encoding == AUDIO_ENCODING_SLINEAR_OE)
1.2     isaki 				p->encoding = AUDIO_ENCODING_SLINEAR_NE;
1.2     isaki 			if (p->encoding == AUDIO_ENCODING_ULINEAR_OE)
1.2     isaki 				p->encoding = AUDIO_ENCODING_ULINEAR_NE;
1.2     isaki 		}
1.2     isaki
1.2     isaki 		if (p->precision > p->stride)
1.2     isaki 			return EINVAL;
1.2     isaki 		break;
1.2     isaki 	case AUDIO_ENCODING_MPEG_L1_STREAM:
1.2     isaki 	case AUDIO_ENCODING_MPEG_L1_PACKETS:
1.2     isaki 	case AUDIO_ENCODING_MPEG_L1_SYSTEM:
1.2     isaki 	case AUDIO_ENCODING_MPEG_L2_STREAM:
1.2     isaki 	case AUDIO_ENCODING_MPEG_L2_PACKETS:
1.2     isaki 	case AUDIO_ENCODING_MPEG_L2_SYSTEM:
1.2     isaki 	case AUDIO_ENCODING_AC3:
1.2     isaki 		break;
1.2     isaki 	default:
1.2     isaki 		return EINVAL;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* sanity check # of channels*/
1.2     isaki 	if (p->channels < 1 || p->channels > AUDIO_MAX_CHANNELS)
1.2     isaki 		return EINVAL;
1.2     isaki
1.2     isaki 	return 0;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Initialize playback and record mixers.
1.2     isaki  * mode (AUMODE_{PLAY,RECORD}) indicates the mixer to be initalized.
1.2     isaki  * phwfmt and rhwfmt indicate the hardware format.  pfil and rfil indicate
1.2     isaki  * the filter registration information.  These four must not be NULL.
1.2     isaki  * If successful returns 0.  Otherwise returns errno.
1.2     isaki  * Must be called with sc_lock held.
1.2     isaki  * Must not be called if there are any tracks.
1.2     isaki  * Caller should check that the initialization succeed by whether
1.2     isaki  * sc_[pr]mixer is not NULL.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_mixers_init(struct audio_softc *sc, int mode,
1.2     isaki 	const audio_format2_t *phwfmt, const audio_format2_t *rhwfmt,
1.2     isaki 	const audio_filter_reg_t *pfil, const audio_filter_reg_t *rfil)
1.2     isaki {
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(phwfmt != NULL);
1.2     isaki 	KASSERT(rhwfmt != NULL);
1.2     isaki 	KASSERT(pfil != NULL);
1.2     isaki 	KASSERT(rfil != NULL);
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki
1.2     isaki 	if ((mode & AUMODE_PLAY)) {
1.2     isaki 		if (sc->sc_pmixer) {
1.2     isaki 			audio_mixer_destroy(sc, sc->sc_pmixer);
1.2     isaki 			kmem_free(sc->sc_pmixer, sizeof(*sc->sc_pmixer));
1.2     isaki 		}
1.2     isaki 		sc->sc_pmixer = kmem_zalloc(sizeof(*sc->sc_pmixer), KM_SLEEP);
1.2     isaki 		error = audio_mixer_init(sc, AUMODE_PLAY, phwfmt, pfil);
1.2     isaki 		if (error) {
1.2     isaki 			aprint_error_dev(sc->sc_dev,
1.2     isaki 			    "configuring playback mode failed\n");
1.2     isaki 			kmem_free(sc->sc_pmixer, sizeof(*sc->sc_pmixer));
1.2     isaki 			sc->sc_pmixer = NULL;
1.2     isaki 			return error;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki 	if ((mode & AUMODE_RECORD)) {
1.2     isaki 		if (sc->sc_rmixer) {
1.2     isaki 			audio_mixer_destroy(sc, sc->sc_rmixer);
1.2     isaki 			kmem_free(sc->sc_rmixer, sizeof(*sc->sc_rmixer));
1.2     isaki 		}
1.2     isaki 		sc->sc_rmixer = kmem_zalloc(sizeof(*sc->sc_rmixer), KM_SLEEP);
1.2     isaki 		error = audio_mixer_init(sc, AUMODE_RECORD, rhwfmt, rfil);
1.2     isaki 		if (error) {
1.2     isaki 			aprint_error_dev(sc->sc_dev,
1.2     isaki 			    "configuring record mode failed\n");
1.2     isaki 			kmem_free(sc->sc_rmixer, sizeof(*sc->sc_rmixer));
1.2     isaki 			sc->sc_rmixer = NULL;
1.2     isaki 			return error;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	return 0;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Select a frequency.
1.2     isaki  * Prioritize 48kHz and 44.1kHz.  Otherwise choose the highest one.
1.2     isaki  * XXX Better algorithm?
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_select_freq(const struct audio_format *fmt)
1.2     isaki {
1.2     isaki 	int freq;
1.2     isaki 	int high;
1.2     isaki 	int low;
1.2     isaki 	int j;
1.2     isaki
1.2     isaki 	if (fmt->frequency_type == 0) {
1.2     isaki 		low = fmt->frequency[0];
1.2     isaki 		high = fmt->frequency[1];
1.2     isaki 		freq = 48000;
1.2     isaki 		if (low <= freq && freq <= high) {
1.2     isaki 			return freq;
1.2     isaki 		}
1.2     isaki 		freq = 44100;
1.2     isaki 		if (low <= freq && freq <= high) {
1.2     isaki 			return freq;
1.2     isaki 		}
1.2     isaki 		return high;
1.2     isaki 	} else {
1.2     isaki 		for (j = 0; j < fmt->frequency_type; j++) {
1.2     isaki 			if (fmt->frequency[j] == 48000) {
1.2     isaki 				return fmt->frequency[j];
1.2     isaki 			}
1.2     isaki 		}
1.2     isaki 		high = 0;
1.2     isaki 		for (j = 0; j < fmt->frequency_type; j++) {
1.2     isaki 			if (fmt->frequency[j] == 44100) {
1.2     isaki 				return fmt->frequency[j];
1.2     isaki 			}
1.2     isaki 			if (fmt->frequency[j] > high) {
1.2     isaki 				high = fmt->frequency[j];
1.2     isaki 			}
1.2     isaki 		}
1.2     isaki 		return high;
1.2     isaki 	}
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Probe playback and/or recording format (depending on *modep).
1.2     isaki  * *modep is an in-out parameter.  It indicates the direction to configure
1.2     isaki  * as an argument, and the direction configured is written back as out
1.2     isaki  * parameter.
1.2     isaki  * If successful, probed hardware format is stored into *phwfmt, *rhwfmt
1.2     isaki  * depending on *modep, and return 0.  Otherwise it returns errno.
1.2     isaki  * Must be called with sc_lock held.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_hw_probe(struct audio_softc *sc, int is_indep, int *modep,
1.2     isaki 	audio_format2_t *phwfmt, audio_format2_t *rhwfmt)
1.2     isaki {
1.2     isaki 	audio_format2_t fmt;
1.2     isaki 	int mode;
1.2     isaki 	int error = 0;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki
1.2     isaki 	mode = *modep;
1.2     isaki 	KASSERTMSG((mode & (AUMODE_PLAY | AUMODE_RECORD)) != 0,
1.2     isaki 	    "invalid mode = %x", mode);
1.2     isaki
1.2     isaki 	if (is_indep) {
1.5  nakayama 		int errorp = 0, errorr = 0;
1.5  nakayama
1.2     isaki 		/* On independent devices, probe separately. */
1.2     isaki 		if ((mode & AUMODE_PLAY) != 0) {
1.5  nakayama 			errorp = audio_hw_probe_fmt(sc, phwfmt, AUMODE_PLAY);
1.5  nakayama 			if (errorp)
1.2     isaki 				mode &= ~AUMODE_PLAY;
1.2     isaki 		}
1.2     isaki 		if ((mode & AUMODE_RECORD) != 0) {
1.5  nakayama 			errorr = audio_hw_probe_fmt(sc, rhwfmt, AUMODE_RECORD);
1.5  nakayama 			if (errorr)
1.2     isaki 				mode &= ~AUMODE_RECORD;
1.2     isaki 		}
1.5  nakayama
1.5  nakayama 		/* Return error if both play and record probes failed. */
1.5  nakayama 		if (errorp && errorr)
1.5  nakayama 			error = errorp;
1.2     isaki 	} else {
1.2     isaki 		/* On non independent devices, probe simultaneously. */
1.2     isaki 		error = audio_hw_probe_fmt(sc, &fmt, mode);
1.2     isaki 		if (error) {
1.2     isaki 			mode = 0;
1.2     isaki 		} else {
1.2     isaki 			*phwfmt = fmt;
1.2     isaki 			*rhwfmt = fmt;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	*modep = mode;
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Choose the most preferred hardware format.
1.2     isaki  * If successful, it will store the chosen format into *cand and return 0.
1.2     isaki  * Otherwise, return errno.
1.2     isaki  * Must be called with sc_lock held.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_hw_probe_fmt(struct audio_softc *sc, audio_format2_t *cand, int mode)
1.2     isaki {
1.2     isaki 	audio_format_query_t query;
1.2     isaki 	int cand_score;
1.2     isaki 	int score;
1.2     isaki 	int i;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * Score each formats and choose the highest one.
1.2     isaki 	 *
1.2     isaki 	 *                 +---- priority(0-3)
1.2     isaki 	 *                 |+--- encoding/precision
1.2     isaki 	 *                 ||+-- channels
1.2     isaki 	 * score = 0x000000PEC
1.2     isaki 	 */
1.2     isaki
1.2     isaki 	cand_score = 0;
1.2     isaki 	for (i = 0; ; i++) {
1.2     isaki 		memset(&query, 0, sizeof(query));
1.2     isaki 		query.index = i;
1.2     isaki
1.2     isaki 		error = sc->hw_if->query_format(sc->hw_hdl, &query);
1.2     isaki 		if (error == EINVAL)
1.2     isaki 			break;
1.2     isaki 		if (error)
1.2     isaki 			return error;
1.2     isaki
1.2     isaki #if defined(AUDIO_DEBUG)
1.2     isaki 		DPRINTF(1, "fmt[%d] %c%c pri=%d %s,%d/%dbit,%dch,", i,
1.2     isaki 		    (query.fmt.mode & AUMODE_PLAY)   ? 'P' : '-',
1.2     isaki 		    (query.fmt.mode & AUMODE_RECORD) ? 'R' : '-',
1.2     isaki 		    query.fmt.priority,
1.2     isaki 		    audio_encoding_name(query.fmt.encoding),
1.2     isaki 		    query.fmt.validbits,
1.2     isaki 		    query.fmt.precision,
1.2     isaki 		    query.fmt.channels);
1.2     isaki 		if (query.fmt.frequency_type == 0) {
1.2     isaki 			DPRINTF(1, "{%d-%d",
1.2     isaki 			    query.fmt.frequency[0], query.fmt.frequency[1]);
1.2     isaki 		} else {
1.2     isaki 			int j;
1.2     isaki 			for (j = 0; j < query.fmt.frequency_type; j++) {
1.2     isaki 				DPRINTF(1, "%c%d",
1.2     isaki 				    (j == 0) ? '{' : ',',
1.2     isaki 				    query.fmt.frequency[j]);
1.2     isaki 			}
1.2     isaki 		}
1.2     isaki 		DPRINTF(1, "}\n");
1.2     isaki #endif
1.2     isaki
1.2     isaki 		if ((query.fmt.mode & mode) == 0) {
1.2     isaki 			DPRINTF(1, "fmt[%d] skip; mode not match %d\n", i,
1.2     isaki 			    mode);
1.2     isaki 			continue;
1.2     isaki 		}
1.2     isaki
1.2     isaki 		if (query.fmt.priority < 0) {
1.2     isaki 			DPRINTF(1, "fmt[%d] skip; unsupported encoding\n", i);
1.2     isaki 			continue;
1.2     isaki 		}
1.2     isaki
1.2     isaki 		/* Score */
1.2     isaki 		score = (query.fmt.priority & 3) * 0x100;
1.2     isaki 		if (query.fmt.encoding == AUDIO_ENCODING_SLINEAR_NE &&
1.2     isaki 		    query.fmt.validbits == AUDIO_INTERNAL_BITS &&
1.2     isaki 		    query.fmt.precision == AUDIO_INTERNAL_BITS) {
1.2     isaki 			score += 0x20;
1.2     isaki 		} else if (query.fmt.encoding == AUDIO_ENCODING_SLINEAR_OE &&
1.2     isaki 		    query.fmt.validbits == AUDIO_INTERNAL_BITS &&
1.2     isaki 		    query.fmt.precision == AUDIO_INTERNAL_BITS) {
1.2     isaki 			score += 0x10;
1.2     isaki 		}
1.2     isaki 		score += query.fmt.channels;
1.2     isaki
1.2     isaki 		if (score < cand_score) {
1.2     isaki 			DPRINTF(1, "fmt[%d] skip; score 0x%x < 0x%x\n", i,
1.2     isaki 			    score, cand_score);
1.2     isaki 			continue;
1.2     isaki 		}
1.2     isaki
1.2     isaki 		/* Update candidate */
1.2     isaki 		cand_score = score;
1.2     isaki 		cand->encoding    = query.fmt.encoding;
1.2     isaki 		cand->precision   = query.fmt.validbits;
1.2     isaki 		cand->stride      = query.fmt.precision;
1.2     isaki 		cand->channels    = query.fmt.channels;
1.2     isaki 		cand->sample_rate = audio_select_freq(&query.fmt);
1.2     isaki 		DPRINTF(1, "fmt[%d] candidate (score=0x%x)"
1.2     isaki 		    " pri=%d %s,%d/%d,%dch,%dHz\n", i,
1.2     isaki 		    cand_score, query.fmt.priority,
1.2     isaki 		    audio_encoding_name(query.fmt.encoding),
1.2     isaki 		    cand->precision, cand->stride,
1.2     isaki 		    cand->channels, cand->sample_rate);
1.2     isaki 	}
1.2     isaki
1.2     isaki 	if (cand_score == 0) {
1.2     isaki 		DPRINTF(1, "%s no fmt\n", __func__);
1.2     isaki 		return ENXIO;
1.2     isaki 	}
1.2     isaki 	DPRINTF(1, "%s selected: %s,%d/%d,%dch,%dHz\n", __func__,
1.2     isaki 	    audio_encoding_name(cand->encoding),
1.2     isaki 	    cand->precision, cand->stride, cand->channels, cand->sample_rate);
1.2     isaki 	return 0;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Validate fmt with query_format.
1.2     isaki  * If fmt is included in the result of query_format, returns 0.
1.2     isaki  * Otherwise returns EINVAL.
1.2     isaki  * Must be called with sc_lock held.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_hw_validate_format(struct audio_softc *sc, int mode,
1.2     isaki 	const audio_format2_t *fmt)
1.2     isaki {
1.2     isaki 	audio_format_query_t query;
1.2     isaki 	struct audio_format *q;
1.2     isaki 	int index;
1.2     isaki 	int error;
1.2     isaki 	int j;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * If query_format is not supported by hardware driver,
1.2     isaki 	 * a rough check instead will be performed.
1.2     isaki 	 * XXX This will gone in the future.
1.2     isaki 	 */
1.2     isaki 	if (sc->hw_if->query_format == NULL) {
1.2     isaki 		if (fmt->encoding != AUDIO_ENCODING_SLINEAR_NE)
1.2     isaki 			return EINVAL;
1.2     isaki 		if (fmt->precision != AUDIO_INTERNAL_BITS)
1.2     isaki 			return EINVAL;
1.2     isaki 		if (fmt->stride != AUDIO_INTERNAL_BITS)
1.2     isaki 			return EINVAL;
1.2     isaki 		return 0;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	for (index = 0; ; index++) {
1.2     isaki 		query.index = index;
1.2     isaki 		error = sc->hw_if->query_format(sc->hw_hdl, &query);
1.2     isaki 		if (error == EINVAL)
1.2     isaki 			break;
1.2     isaki 		if (error)
1.2     isaki 			return error;
1.2     isaki
1.2     isaki 		q = &query.fmt;
1.2     isaki 		/*
1.2     isaki 		 * Note that fmt is audio_format2_t (precision/stride) but
1.2     isaki 		 * q is audio_format_t (validbits/precision).
1.2     isaki 		 */
1.2     isaki 		if ((q->mode & mode) == 0) {
1.2     isaki 			continue;
1.2     isaki 		}
1.2     isaki 		if (fmt->encoding != q->encoding) {
1.2     isaki 			continue;
1.2     isaki 		}
1.2     isaki 		if (fmt->precision != q->validbits) {
1.2     isaki 			continue;
1.2     isaki 		}
1.2     isaki 		if (fmt->stride != q->precision) {
1.2     isaki 			continue;
1.2     isaki 		}
1.2     isaki 		if (fmt->channels != q->channels) {
1.2     isaki 			continue;
1.2     isaki 		}
1.2     isaki 		if (q->frequency_type == 0) {
1.2     isaki 			if (fmt->sample_rate < q->frequency[0] ||
1.2     isaki 			    fmt->sample_rate > q->frequency[1]) {
1.2     isaki 				continue;
1.2     isaki 			}
1.2     isaki 		} else {
1.2     isaki 			for (j = 0; j < q->frequency_type; j++) {
1.2     isaki 				if (fmt->sample_rate == q->frequency[j])
1.2     isaki 					break;
1.2     isaki 			}
1.2     isaki 			if (j == query.fmt.frequency_type) {
1.2     isaki 				continue;
1.2     isaki 			}
1.2     isaki 		}
1.2     isaki
1.2     isaki 		/* Matched. */
1.2     isaki 		return 0;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	return EINVAL;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Set track mixer's format depending on ai->mode.
1.2     isaki  * If AUMODE_PLAY is set in ai->mode, it set up the playback mixer
1.2     isaki  * with ai.play.{channels, sample_rate}.
1.2     isaki  * If AUMODE_RECORD is set in ai->mode, it set up the recording mixer
1.2     isaki  * with ai.record.{channels, sample_rate}.
1.2     isaki  * All other fields in ai are ignored.
1.2     isaki  * If successful returns 0.  Otherwise returns errno.
1.2     isaki  * This function does not roll back even if it fails.
1.2     isaki  * Must be called with sc_lock held.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_mixers_set_format(struct audio_softc *sc, const struct audio_info *ai)
1.2     isaki {
1.2     isaki 	audio_format2_t phwfmt;
1.2     isaki 	audio_format2_t rhwfmt;
1.2     isaki 	audio_filter_reg_t pfil;
1.2     isaki 	audio_filter_reg_t rfil;
1.2     isaki 	int mode;
1.2     isaki 	int props;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * Even when setting either one of playback and recording,
1.2     isaki 	 * both must be halted.
1.2     isaki 	 */
1.2     isaki 	if (sc->sc_popens + sc->sc_ropens > 0)
1.2     isaki 		return EBUSY;
1.2     isaki
1.2     isaki 	if (!SPECIFIED(ai->mode) || ai->mode == 0)
1.2     isaki 		return ENOTTY;
1.2     isaki
1.2     isaki 	/* Only channels and sample_rate are changeable. */
1.2     isaki 	mode = ai->mode;
1.2     isaki 	if ((mode & AUMODE_PLAY)) {
1.2     isaki 		phwfmt.encoding    = ai->play.encoding;
1.2     isaki 		phwfmt.precision   = ai->play.precision;
1.2     isaki 		phwfmt.stride      = ai->play.precision;
1.2     isaki 		phwfmt.channels    = ai->play.channels;
1.2     isaki 		phwfmt.sample_rate = ai->play.sample_rate;
1.2     isaki 	}
1.2     isaki 	if ((mode & AUMODE_RECORD)) {
1.2     isaki 		rhwfmt.encoding    = ai->record.encoding;
1.2     isaki 		rhwfmt.precision   = ai->record.precision;
1.2     isaki 		rhwfmt.stride      = ai->record.precision;
1.2     isaki 		rhwfmt.channels    = ai->record.channels;
1.2     isaki 		rhwfmt.sample_rate = ai->record.sample_rate;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* On non-independent devices, use the same format for both. */
1.2     isaki 	props = audio_get_props(sc);
1.2     isaki 	if ((props & AUDIO_PROP_INDEPENDENT) == 0) {
1.2     isaki 		if (mode == AUMODE_RECORD) {
1.2     isaki 			phwfmt = rhwfmt;
1.2     isaki 		} else {
1.2     isaki 			rhwfmt = phwfmt;
1.2     isaki 		}
1.2     isaki 		mode = AUMODE_PLAY | AUMODE_RECORD;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* Then, unset the direction not exist on the hardware. */
1.2     isaki 	if ((props & AUDIO_PROP_PLAYBACK) == 0)
1.2     isaki 		mode &= ~AUMODE_PLAY;
1.2     isaki 	if ((props & AUDIO_PROP_CAPTURE) == 0)
1.2     isaki 		mode &= ~AUMODE_RECORD;
1.2     isaki
1.2     isaki 	/* debug */
1.2     isaki 	if ((mode & AUMODE_PLAY)) {
1.2     isaki 		TRACE(1, "play=%s/%d/%d/%dch/%dHz",
1.2     isaki 		    audio_encoding_name(phwfmt.encoding),
1.2     isaki 		    phwfmt.precision,
1.2     isaki 		    phwfmt.stride,
1.2     isaki 		    phwfmt.channels,
1.2     isaki 		    phwfmt.sample_rate);
1.2     isaki 	}
1.2     isaki 	if ((mode & AUMODE_RECORD)) {
1.2     isaki 		TRACE(1, "rec =%s/%d/%d/%dch/%dHz",
1.2     isaki 		    audio_encoding_name(rhwfmt.encoding),
1.2     isaki 		    rhwfmt.precision,
1.2     isaki 		    rhwfmt.stride,
1.2     isaki 		    rhwfmt.channels,
1.2     isaki 		    rhwfmt.sample_rate);
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* Check the format */
1.2     isaki 	if ((mode & AUMODE_PLAY)) {
1.2     isaki 		if (audio_hw_validate_format(sc, AUMODE_PLAY, &phwfmt)) {
1.2     isaki 			TRACE(1, "invalid format");
1.2     isaki 			return EINVAL;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki 	if ((mode & AUMODE_RECORD)) {
1.2     isaki 		if (audio_hw_validate_format(sc, AUMODE_RECORD, &rhwfmt)) {
1.2     isaki 			TRACE(1, "invalid format");
1.2     isaki 			return EINVAL;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* Configure the mixers. */
1.2     isaki 	memset(&pfil, 0, sizeof(pfil));
1.2     isaki 	memset(&rfil, 0, sizeof(rfil));
1.2     isaki 	error = audio_hw_set_format(sc, mode, &phwfmt, &rhwfmt, &pfil, &rfil);
1.2     isaki 	if (error)
1.2     isaki 		return error;
1.2     isaki
1.2     isaki 	error = audio_mixers_init(sc, mode, &phwfmt, &rhwfmt, &pfil, &rfil);
1.2     isaki 	if (error)
1.2     isaki 		return error;
1.2     isaki
1.2     isaki 	return 0;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Store current mixers format into *ai.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_mixers_get_format(struct audio_softc *sc, struct audio_info *ai)
1.2     isaki {
1.2     isaki 	/*
1.2     isaki 	 * There is no stride information in audio_info but it doesn't matter.
1.2     isaki 	 * trackmixer always treats stride and precision as the same.
1.2     isaki 	 */
1.2     isaki 	AUDIO_INITINFO(ai);
1.2     isaki 	ai->mode = 0;
1.2     isaki 	if (sc->sc_pmixer) {
1.2     isaki 		audio_format2_t *fmt = &sc->sc_pmixer->track_fmt;
1.2     isaki 		ai->play.encoding    = fmt->encoding;
1.2     isaki 		ai->play.precision   = fmt->precision;
1.2     isaki 		ai->play.channels    = fmt->channels;
1.2     isaki 		ai->play.sample_rate = fmt->sample_rate;
1.2     isaki 		ai->mode |= AUMODE_PLAY;
1.2     isaki 	}
1.2     isaki 	if (sc->sc_rmixer) {
1.2     isaki 		audio_format2_t *fmt = &sc->sc_rmixer->track_fmt;
1.2     isaki 		ai->record.encoding    = fmt->encoding;
1.2     isaki 		ai->record.precision   = fmt->precision;
1.2     isaki 		ai->record.channels    = fmt->channels;
1.2     isaki 		ai->record.sample_rate = fmt->sample_rate;
1.2     isaki 		ai->mode |= AUMODE_RECORD;
1.2     isaki 	}
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * audio_info details:
1.2     isaki  *
1.2     isaki  * ai.{play,record}.sample_rate		(R/W)
1.2     isaki  * ai.{play,record}.encoding		(R/W)
1.2     isaki  * ai.{play,record}.precision		(R/W)
1.2     isaki  * ai.{play,record}.channels		(R/W)
1.2     isaki  *	These specify the playback or recording format.
1.2     isaki  *	Ignore members within an inactive track.
1.2     isaki  *
1.2     isaki  * ai.mode				(R/W)
1.2     isaki  *	It specifies the playback or recording mode, AUMODE_*.
1.2     isaki  *	Currently, a mode change operation by ai.mode after opening is
1.2     isaki  *	prohibited.  In addition, AUMODE_PLAY_ALL no longer makes sense.
1.2     isaki  *	However, it's possible to get or to set for backward compatibility.
1.2     isaki  *
1.2     isaki  * ai.{hiwat,lowat}			(R/W)
1.2     isaki  *	These specify the high water mark and low water mark for playback
1.2     isaki  *	track.  The unit is block.
1.2     isaki  *
1.2     isaki  * ai.{play,record}.gain		(R/W)
1.2     isaki  *	It specifies the HW mixer volume in 0-255.
1.2     isaki  *	It is historical reason that the gain is connected to HW mixer.
1.2     isaki  *
1.2     isaki  * ai.{play,record}.balance		(R/W)
1.2     isaki  *	It specifies the left-right balance of HW mixer in 0-64.
1.2     isaki  *	32 means the center.
1.2     isaki  *	It is historical reason that the balance is connected to HW mixer.
1.2     isaki  *
1.2     isaki  * ai.{play,record}.port		(R/W)
1.2     isaki  *	It specifies the input/output port of HW mixer.
1.2     isaki  *
1.2     isaki  * ai.monitor_gain			(R/W)
1.2     isaki  *	It specifies the recording monitor gain(?) of HW mixer.
1.2     isaki  *
1.2     isaki  * ai.{play,record}.pause		(R/W)
1.2     isaki  *	Non-zero means the track is paused.
1.2     isaki  *
1.2     isaki  * ai.play.seek				(R/-)
1.2     isaki  *	It indicates the number of bytes written but not processed.
1.2     isaki  * ai.record.seek			(R/-)
1.2     isaki  *	It indicates the number of bytes to be able to read.
1.2     isaki  *
1.2     isaki  * ai.{play,record}.avail_ports		(R/-)
1.2     isaki  *	Mixer info.
1.2     isaki  *
1.2     isaki  * ai.{play,record}.buffer_size		(R/-)
1.2     isaki  *	It indicates the buffer size in bytes.  Internally it means usrbuf.
1.2     isaki  *
1.2     isaki  * ai.{play,record}.samples		(R/-)
1.2     isaki  *	It indicates the total number of bytes played or recorded.
1.2     isaki  *
1.2     isaki  * ai.{play,record}.eof			(R/-)
1.2     isaki  *	It indicates the number of times reached EOF(?).
1.2     isaki  *
1.2     isaki  * ai.{play,record}.error		(R/-)
1.2     isaki  *	Non-zero indicates overflow/underflow has occured.
1.2     isaki  *
1.2     isaki  * ai.{play,record}.waiting		(R/-)
1.2     isaki  *	Non-zero indicates that other process waits to open.
1.2     isaki  *	It will never happen anymore.
1.2     isaki  *
1.2     isaki  * ai.{play,record}.open		(R/-)
1.2     isaki  *	Non-zero indicates the direction is opened by this process(?).
1.2     isaki  *	XXX Is this better to indicate that "the device is opened by
1.2     isaki  *	at least one process"?
1.2     isaki  *
1.2     isaki  * ai.{play,record}.active		(R/-)
1.2     isaki  *	Non-zero indicates that I/O is currently active.
1.2     isaki  *
1.2     isaki  * ai.blocksize				(R/-)
1.2     isaki  *	It indicates the block size in bytes.
1.2     isaki  *	XXX The blocksize of playback and recording may be different.
1.2     isaki  */
1.2     isaki
1.2     isaki /*
1.2     isaki  * Pause consideration:
1.2     isaki  *
1.2     isaki  * The introduction of these two behavior makes pause/unpause operation
1.2     isaki  * simple.
1.2     isaki  * 1. The first read/write access of the first track makes mixer start.
1.2     isaki  * 2. A pause of the last track doesn't make mixer stop.
1.2     isaki  */
1.2     isaki
1.2     isaki /*
1.2     isaki  * Set both track's parameters within a file depending on ai.
1.2     isaki  * Update sc_sound_[pr]* if set.
1.2     isaki  * Must be called with sc_lock and sc_exlock held.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_file_setinfo(struct audio_softc *sc, audio_file_t *file,
1.2     isaki 	const struct audio_info *ai)
1.2     isaki {
1.2     isaki 	const struct audio_prinfo *pi;
1.2     isaki 	const struct audio_prinfo *ri;
1.2     isaki 	audio_track_t *ptrack;
1.2     isaki 	audio_track_t *rtrack;
1.2     isaki 	audio_format2_t pfmt;
1.2     isaki 	audio_format2_t rfmt;
1.2     isaki 	int pchanges;
1.2     isaki 	int rchanges;
1.2     isaki 	int mode;
1.2     isaki 	struct audio_info saved_ai;
1.2     isaki 	audio_format2_t saved_pfmt;
1.2     isaki 	audio_format2_t saved_rfmt;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(sc->sc_exlock);
1.2     isaki
1.2     isaki 	pi = &ai->play;
1.2     isaki 	ri = &ai->record;
1.2     isaki 	pchanges = 0;
1.2     isaki 	rchanges = 0;
1.2     isaki
1.2     isaki 	ptrack = file->ptrack;
1.2     isaki 	rtrack = file->rtrack;
1.2     isaki
1.2     isaki #if defined(AUDIO_DEBUG)
1.2     isaki 	if (audiodebug >= 2) {
1.2     isaki 		char buf[256];
1.2     isaki 		char p[64];
1.2     isaki 		int buflen;
1.2     isaki 		int plen;
1.2     isaki #define SPRINTF(var, fmt...) do {	\
1.2     isaki 	var##len += snprintf(var + var##len, sizeof(var) - var##len, fmt); \
1.2     isaki } while (0)
1.2     isaki
1.2     isaki 		buflen = 0;
1.2     isaki 		plen = 0;
1.2     isaki 		if (SPECIFIED(pi->encoding))
1.2     isaki 			SPRINTF(p, "/%s", audio_encoding_name(pi->encoding));
1.2     isaki 		if (SPECIFIED(pi->precision))
1.2     isaki 			SPRINTF(p, "/%dbit", pi->precision);
1.2     isaki 		if (SPECIFIED(pi->channels))
1.2     isaki 			SPRINTF(p, "/%dch", pi->channels);
1.2     isaki 		if (SPECIFIED(pi->sample_rate))
1.2     isaki 			SPRINTF(p, "/%dHz", pi->sample_rate);
1.2     isaki 		if (plen > 0)
1.2     isaki 			SPRINTF(buf, ",play.param=%s", p + 1);
1.2     isaki
1.2     isaki 		plen = 0;
1.2     isaki 		if (SPECIFIED(ri->encoding))
1.2     isaki 			SPRINTF(p, "/%s", audio_encoding_name(ri->encoding));
1.2     isaki 		if (SPECIFIED(ri->precision))
1.2     isaki 			SPRINTF(p, "/%dbit", ri->precision);
1.2     isaki 		if (SPECIFIED(ri->channels))
1.2     isaki 			SPRINTF(p, "/%dch", ri->channels);
1.2     isaki 		if (SPECIFIED(ri->sample_rate))
1.2     isaki 			SPRINTF(p, "/%dHz", ri->sample_rate);
1.2     isaki 		if (plen > 0)
1.2     isaki 			SPRINTF(buf, ",record.param=%s", p + 1);
1.2     isaki
1.2     isaki 		if (SPECIFIED(ai->mode))
1.2     isaki 			SPRINTF(buf, ",mode=%d", ai->mode);
1.2     isaki 		if (SPECIFIED(ai->hiwat))
1.2     isaki 			SPRINTF(buf, ",hiwat=%d", ai->hiwat);
1.2     isaki 		if (SPECIFIED(ai->lowat))
1.2     isaki 			SPRINTF(buf, ",lowat=%d", ai->lowat);
1.2     isaki 		if (SPECIFIED(ai->play.gain))
1.2     isaki 			SPRINTF(buf, ",play.gain=%d", ai->play.gain);
1.2     isaki 		if (SPECIFIED(ai->record.gain))
1.2     isaki 			SPRINTF(buf, ",record.gain=%d", ai->record.gain);
1.2     isaki 		if (SPECIFIED_CH(ai->play.balance))
1.2     isaki 			SPRINTF(buf, ",play.balance=%d", ai->play.balance);
1.2     isaki 		if (SPECIFIED_CH(ai->record.balance))
1.2     isaki 			SPRINTF(buf, ",record.balance=%d", ai->record.balance);
1.2     isaki 		if (SPECIFIED(ai->play.port))
1.2     isaki 			SPRINTF(buf, ",play.port=%d", ai->play.port);
1.2     isaki 		if (SPECIFIED(ai->record.port))
1.2     isaki 			SPRINTF(buf, ",record.port=%d", ai->record.port);
1.2     isaki 		if (SPECIFIED(ai->monitor_gain))
1.2     isaki 			SPRINTF(buf, ",monitor_gain=%d", ai->monitor_gain);
1.2     isaki 		if (SPECIFIED_CH(ai->play.pause))
1.2     isaki 			SPRINTF(buf, ",play.pause=%d", ai->play.pause);
1.2     isaki 		if (SPECIFIED_CH(ai->record.pause))
1.2     isaki 			SPRINTF(buf, ",record.pause=%d", ai->record.pause);
1.2     isaki
1.2     isaki 		if (buflen > 0)
1.2     isaki 			TRACE(2, "specified %s", buf + 1);
1.2     isaki 	}
1.2     isaki #endif
1.2     isaki
1.2     isaki 	AUDIO_INITINFO(&saved_ai);
1.2     isaki 	/* XXX shut up gcc */
1.2     isaki 	memset(&saved_pfmt, 0, sizeof(saved_pfmt));
1.2     isaki 	memset(&saved_rfmt, 0, sizeof(saved_rfmt));
1.2     isaki
1.2     isaki 	/* Set default value and save current parameters */
1.2     isaki 	if (ptrack) {
1.2     isaki 		pfmt = ptrack->usrbuf.fmt;
1.2     isaki 		saved_pfmt = ptrack->usrbuf.fmt;
1.2     isaki 		saved_ai.play.pause = ptrack->is_pause;
1.2     isaki 	}
1.2     isaki 	if (rtrack) {
1.2     isaki 		rfmt = rtrack->usrbuf.fmt;
1.2     isaki 		saved_rfmt = rtrack->usrbuf.fmt;
1.2     isaki 		saved_ai.record.pause = rtrack->is_pause;
1.2     isaki 	}
1.2     isaki 	saved_ai.mode = file->mode;
1.2     isaki
1.2     isaki 	/* Overwrite if specified */
1.2     isaki 	mode = file->mode;
1.2     isaki 	if (SPECIFIED(ai->mode)) {
1.2     isaki 		/*
1.2     isaki 		 * Setting ai->mode no longer does anything because it's
1.2     isaki 		 * prohibited to change playback/recording mode after open
1.2     isaki 		 * and AUMODE_PLAY_ALL is obsoleted.  However, it still
1.2     isaki 		 * keeps the state of AUMODE_PLAY_ALL itself for backward
1.2     isaki 		 * compatibility.
1.2     isaki 		 * In the internal, only file->mode has the state of
1.2     isaki 		 * AUMODE_PLAY_ALL flag and track->mode in both track does
1.2     isaki 		 * not have.
1.2     isaki 		 */
1.2     isaki 		if ((file->mode & AUMODE_PLAY)) {
1.2     isaki 			mode = (file->mode & (AUMODE_PLAY | AUMODE_RECORD))
1.2     isaki 			    | (ai->mode & AUMODE_PLAY_ALL);
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	if (ptrack) {
1.2     isaki 		pchanges = audio_track_setinfo_check(&pfmt, pi);
1.2     isaki 		if (pchanges == -1) {
1.2     isaki 			TRACET(1, ptrack, "check play.params failed");
1.2     isaki 			return EINVAL;
1.2     isaki 		}
1.2     isaki 		if (SPECIFIED(ai->mode))
1.2     isaki 			pchanges = 1;
1.2     isaki 	}
1.2     isaki 	if (rtrack) {
1.2     isaki 		rchanges = audio_track_setinfo_check(&rfmt, ri);
1.2     isaki 		if (rchanges == -1) {
1.2     isaki 			TRACET(1, rtrack, "check record.params failed");
1.2     isaki 			return EINVAL;
1.2     isaki 		}
1.2     isaki 		if (SPECIFIED(ai->mode))
1.2     isaki 			rchanges = 1;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * Even when setting either one of playback and recording,
1.2     isaki 	 * both track must be halted.
1.2     isaki 	 */
1.2     isaki 	if (pchanges || rchanges) {
1.2     isaki 		audio_file_clear(sc, file);
1.2     isaki #if defined(AUDIO_DEBUG)
1.2     isaki 		char fmtbuf[64];
1.2     isaki 		if (pchanges) {
1.2     isaki 			audio_format2_tostr(fmtbuf, sizeof(fmtbuf), &pfmt);
1.2     isaki 			DPRINTF(1, "audio track#%d play mode: %s\n",
1.2     isaki 			    ptrack->id, fmtbuf);
1.2     isaki 		}
1.2     isaki 		if (rchanges) {
1.2     isaki 			audio_format2_tostr(fmtbuf, sizeof(fmtbuf), &rfmt);
1.2     isaki 			DPRINTF(1, "audio track#%d rec  mode: %s\n",
1.2     isaki 			    rtrack->id, fmtbuf);
1.2     isaki 		}
1.2     isaki #endif
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* Set mixer parameters */
1.2     isaki 	error = audio_hw_setinfo(sc, ai, &saved_ai);
1.2     isaki 	if (error)
1.2     isaki 		goto abort1;
1.2     isaki
1.2     isaki 	/* Set to track and update sticky parameters */
1.2     isaki 	error = 0;
1.2     isaki 	file->mode = mode;
1.2     isaki 	if (ptrack) {
1.2     isaki 		if (SPECIFIED_CH(pi->pause)) {
1.2     isaki 			ptrack->is_pause = pi->pause;
1.2     isaki 			sc->sc_sound_ppause = pi->pause;
1.2     isaki 		}
1.2     isaki 		if (pchanges) {
1.2     isaki 			audio_track_lock_enter(ptrack);
1.2     isaki 			error = audio_track_set_format(ptrack, &pfmt);
1.2     isaki 			audio_track_lock_exit(ptrack);
1.2     isaki 			if (error) {
1.2     isaki 				TRACET(1, ptrack, "set play.params failed");
1.2     isaki 				goto abort2;
1.2     isaki 			}
1.2     isaki 			sc->sc_sound_pparams = pfmt;
1.2     isaki 		}
1.2     isaki 		/* Change water marks after initializing the buffers. */
1.2     isaki 		if (SPECIFIED(ai->hiwat) || SPECIFIED(ai->lowat))
1.2     isaki 			audio_track_setinfo_water(ptrack, ai);
1.2     isaki 	}
1.2     isaki 	if (rtrack) {
1.2     isaki 		if (SPECIFIED_CH(ri->pause)) {
1.2     isaki 			rtrack->is_pause = ri->pause;
1.2     isaki 			sc->sc_sound_rpause = ri->pause;
1.2     isaki 		}
1.2     isaki 		if (rchanges) {
1.2     isaki 			audio_track_lock_enter(rtrack);
1.2     isaki 			error = audio_track_set_format(rtrack, &rfmt);
1.2     isaki 			audio_track_lock_exit(rtrack);
1.2     isaki 			if (error) {
1.2     isaki 				TRACET(1, rtrack, "set record.params failed");
1.2     isaki 				goto abort3;
1.2     isaki 			}
1.2     isaki 			sc->sc_sound_rparams = rfmt;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	return 0;
1.2     isaki
1.2     isaki 	/* Rollback */
1.2     isaki abort3:
1.2     isaki 	if (error != ENOMEM) {
1.2     isaki 		rtrack->is_pause = saved_ai.record.pause;
1.2     isaki 		audio_track_lock_enter(rtrack);
1.2     isaki 		audio_track_set_format(rtrack, &saved_rfmt);
1.2     isaki 		audio_track_lock_exit(rtrack);
1.2     isaki 	}
1.2     isaki abort2:
1.2     isaki 	if (ptrack && error != ENOMEM) {
1.2     isaki 		ptrack->is_pause = saved_ai.play.pause;
1.2     isaki 		audio_track_lock_enter(ptrack);
1.2     isaki 		audio_track_set_format(ptrack, &saved_pfmt);
1.2     isaki 		audio_track_lock_exit(ptrack);
1.2     isaki 		sc->sc_sound_pparams = saved_pfmt;
1.2     isaki 		sc->sc_sound_ppause = saved_ai.play.pause;
1.2     isaki 	}
1.2     isaki 	file->mode = saved_ai.mode;
1.2     isaki abort1:
1.2     isaki 	audio_hw_setinfo(sc, &saved_ai, NULL);
1.2     isaki
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Write SPECIFIED() parameters within info back to fmt.
1.2     isaki  * Return value of 1 indicates that fmt is modified.
1.2     isaki  * Return value of 0 indicates that fmt is not modified.
1.2     isaki  * Return value of -1 indicates that error EINVAL has occurred.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_track_setinfo_check(audio_format2_t *fmt, const struct audio_prinfo *info)
1.2     isaki {
1.2     isaki 	int changes;
1.2     isaki
1.2     isaki 	changes = 0;
1.2     isaki 	if (SPECIFIED(info->sample_rate)) {
1.2     isaki 		if (info->sample_rate < AUDIO_MIN_FREQUENCY)
1.2     isaki 			return -1;
1.2     isaki 		if (info->sample_rate > AUDIO_MAX_FREQUENCY)
1.2     isaki 			return -1;
1.2     isaki 		fmt->sample_rate = info->sample_rate;
1.2     isaki 		changes = 1;
1.2     isaki 	}
1.2     isaki 	if (SPECIFIED(info->encoding)) {
1.2     isaki 		fmt->encoding = info->encoding;
1.2     isaki 		changes = 1;
1.2     isaki 	}
1.2     isaki 	if (SPECIFIED(info->precision)) {
1.2     isaki 		fmt->precision = info->precision;
1.2     isaki 		/* we don't have API to specify stride */
1.2     isaki 		fmt->stride = info->precision;
1.2     isaki 		changes = 1;
1.2     isaki 	}
1.2     isaki 	if (SPECIFIED(info->channels)) {
1.2     isaki 		fmt->channels = info->channels;
1.2     isaki 		changes = 1;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	if (changes) {
1.2     isaki 		if (audio_check_params(fmt) != 0) {
1.2     isaki #ifdef DIAGNOSTIC
1.2     isaki 			char fmtbuf[64];
1.2     isaki 			audio_format2_tostr(fmtbuf, sizeof(fmtbuf), fmt);
1.2     isaki 			printf("%s failed: %s\n", __func__, fmtbuf);
1.2     isaki #endif
1.2     isaki 			return -1;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	return changes;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Change water marks for playback track if specfied.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_track_setinfo_water(audio_track_t *track, const struct audio_info *ai)
1.2     isaki {
1.2     isaki 	u_int blks;
1.2     isaki 	u_int maxblks;
1.2     isaki 	u_int blksize;
1.2     isaki
1.2     isaki 	KASSERT(audio_track_is_playback(track));
1.2     isaki
1.2     isaki 	blksize = track->usrbuf_blksize;
1.2     isaki 	maxblks = track->usrbuf.capacity / blksize;
1.2     isaki
1.2     isaki 	if (SPECIFIED(ai->hiwat)) {
1.2     isaki 		blks = ai->hiwat;
1.2     isaki 		if (blks > maxblks)
1.2     isaki 			blks = maxblks;
1.2     isaki 		if (blks < 2)
1.2     isaki 			blks = 2;
1.2     isaki 		track->usrbuf_usedhigh = blks * blksize;
1.2     isaki 	}
1.2     isaki 	if (SPECIFIED(ai->lowat)) {
1.2     isaki 		blks = ai->lowat;
1.2     isaki 		if (blks > maxblks - 1)
1.2     isaki 			blks = maxblks - 1;
1.2     isaki 		track->usrbuf_usedlow = blks * blksize;
1.2     isaki 	}
1.2     isaki 	if (SPECIFIED(ai->hiwat) || SPECIFIED(ai->lowat)) {
1.2     isaki 		if (track->usrbuf_usedlow > track->usrbuf_usedhigh - blksize) {
1.2     isaki 			track->usrbuf_usedlow = track->usrbuf_usedhigh -
1.2     isaki 			    blksize;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Set hardware part of *ai.
1.2     isaki  * The parameters handled here are *.port, *.gain, *.balance and monitor_gain.
1.2     isaki  * If oldai is specified, previous parameters are stored.
1.2     isaki  * This function itself does not roll back if error occurred.
1.2     isaki  * Must be called with sc_lock and sc_exlock held.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_hw_setinfo(struct audio_softc *sc, const struct audio_info *newai,
1.2     isaki 	struct audio_info *oldai)
1.2     isaki {
1.2     isaki 	const struct audio_prinfo *newpi;
1.2     isaki 	const struct audio_prinfo *newri;
1.2     isaki 	struct audio_prinfo *oldpi;
1.2     isaki 	struct audio_prinfo *oldri;
1.2     isaki 	u_int pgain;
1.2     isaki 	u_int rgain;
1.2     isaki 	u_char pbalance;
1.2     isaki 	u_char rbalance;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(sc->sc_exlock);
1.2     isaki
1.2     isaki 	/* XXX shut up gcc */
1.2     isaki 	oldpi = NULL;
1.2     isaki 	oldri = NULL;
1.2     isaki
1.2     isaki 	newpi = &newai->play;
1.2     isaki 	newri = &newai->record;
1.2     isaki 	if (oldai) {
1.2     isaki 		oldpi = &oldai->play;
1.2     isaki 		oldri = &oldai->record;
1.2     isaki 	}
1.2     isaki 	error = 0;
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * It looks like unnecessary to halt HW mixers to set HW mixers.
1.2     isaki 	 * mixer_ioctl(MIXER_WRITE) also doesn't halt.
1.2     isaki 	 */
1.2     isaki
1.2     isaki 	if (SPECIFIED(newpi->port)) {
1.2     isaki 		if (oldai)
1.2     isaki 			oldpi->port = au_get_port(sc, &sc->sc_outports);
1.2     isaki 		error = au_set_port(sc, &sc->sc_outports, newpi->port);
1.2     isaki 		if (error) {
1.2     isaki 			device_printf(sc->sc_dev,
1.2     isaki 			    "setting play.port=%d failed with %d\n",
1.2     isaki 			    newpi->port, error);
1.2     isaki 			goto abort;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki 	if (SPECIFIED(newri->port)) {
1.2     isaki 		if (oldai)
1.2     isaki 			oldri->port = au_get_port(sc, &sc->sc_inports);
1.2     isaki 		error = au_set_port(sc, &sc->sc_inports, newri->port);
1.2     isaki 		if (error) {
1.2     isaki 			device_printf(sc->sc_dev,
1.2     isaki 			    "setting record.port=%d failed with %d\n",
1.2     isaki 			    newri->port, error);
1.2     isaki 			goto abort;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* Backup play.{gain,balance} */
1.2     isaki 	if (SPECIFIED(newpi->gain) || SPECIFIED_CH(newpi->balance)) {
1.2     isaki 		au_get_gain(sc, &sc->sc_outports, &pgain, &pbalance);
1.2     isaki 		if (oldai) {
1.2     isaki 			oldpi->gain = pgain;
1.2     isaki 			oldpi->balance = pbalance;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki 	/* Backup record.{gain,balance} */
1.2     isaki 	if (SPECIFIED(newri->gain) || SPECIFIED_CH(newri->balance)) {
1.2     isaki 		au_get_gain(sc, &sc->sc_inports, &rgain, &rbalance);
1.2     isaki 		if (oldai) {
1.2     isaki 			oldri->gain = rgain;
1.2     isaki 			oldri->balance = rbalance;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki 	if (SPECIFIED(newpi->gain)) {
1.2     isaki 		error = au_set_gain(sc, &sc->sc_outports,
1.2     isaki 		    newpi->gain, pbalance);
1.2     isaki 		if (error) {
1.2     isaki 			device_printf(sc->sc_dev,
1.2     isaki 			    "setting play.gain=%d failed with %d\n",
1.2     isaki 			    newpi->gain, error);
1.2     isaki 			goto abort;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki 	if (SPECIFIED(newri->gain)) {
1.2     isaki 		error = au_set_gain(sc, &sc->sc_inports,
1.2     isaki 		    newri->gain, rbalance);
1.2     isaki 		if (error) {
1.2     isaki 			device_printf(sc->sc_dev,
1.2     isaki 			    "setting record.gain=%d failed with %d\n",
1.2     isaki 			    newri->gain, error);
1.2     isaki 			goto abort;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki 	if (SPECIFIED_CH(newpi->balance)) {
1.2     isaki 		error = au_set_gain(sc, &sc->sc_outports,
1.2     isaki 		    pgain, newpi->balance);
1.2     isaki 		if (error) {
1.2     isaki 			device_printf(sc->sc_dev,
1.2     isaki 			    "setting play.balance=%d failed with %d\n",
1.2     isaki 			    newpi->balance, error);
1.2     isaki 			goto abort;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki 	if (SPECIFIED_CH(newri->balance)) {
1.2     isaki 		error = au_set_gain(sc, &sc->sc_inports,
1.2     isaki 		    rgain, newri->balance);
1.2     isaki 		if (error) {
1.2     isaki 			device_printf(sc->sc_dev,
1.2     isaki 			    "setting record.balance=%d failed with %d\n",
1.2     isaki 			    newri->balance, error);
1.2     isaki 			goto abort;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	if (SPECIFIED(newai->monitor_gain) && sc->sc_monitor_port != -1) {
1.2     isaki 		if (oldai)
1.2     isaki 			oldai->monitor_gain = au_get_monitor_gain(sc);
1.2     isaki 		error = au_set_monitor_gain(sc, newai->monitor_gain);
1.2     isaki 		if (error) {
1.2     isaki 			device_printf(sc->sc_dev,
1.2     isaki 			    "setting monitor_gain=%d failed with %d\n",
1.2     isaki 			    newai->monitor_gain, error);
1.2     isaki 			goto abort;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* XXX TODO */
1.2     isaki 	/* sc->sc_ai = *ai; */
1.2     isaki
1.2     isaki 	error = 0;
1.2     isaki abort:
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Setup the hardware with mixer format phwfmt, rhwfmt.
1.2     isaki  * The arguments have following restrictions:
1.2     isaki  * - setmode is the direction you want to set, AUMODE_PLAY or AUMODE_RECORD,
1.2     isaki  *   or both.
1.2     isaki  * - phwfmt and rhwfmt must not be NULL regardless of setmode.
1.2     isaki  * - On non-independent devices, phwfmt and rhwfmt must have the same
1.2     isaki  *   parameters.
1.2     isaki  * - pfil and rfil must be zero-filled.
1.2     isaki  * If successful,
1.2     isaki  * - phwfmt, rhwfmt will be overwritten by hardware format.
1.2     isaki  * - pfil, rfil will be filled with filter information specified by the
1.2     isaki  *   hardware driver.
1.2     isaki  * and then returns 0.  Otherwise returns errno.
1.2     isaki  * Must be called with sc_lock held.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_hw_set_format(struct audio_softc *sc, int setmode,
1.2     isaki 	audio_format2_t *phwfmt, audio_format2_t *rhwfmt,
1.2     isaki 	audio_filter_reg_t *pfil, audio_filter_reg_t *rfil)
1.2     isaki {
1.2     isaki 	audio_params_t pp, rp;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(phwfmt != NULL);
1.2     isaki 	KASSERT(rhwfmt != NULL);
1.2     isaki
1.2     isaki 	pp = format2_to_params(phwfmt);
1.2     isaki 	rp = format2_to_params(rhwfmt);
1.2     isaki
1.2     isaki 	error = sc->hw_if->set_format(sc->hw_hdl, setmode,
1.2     isaki 	    &pp, &rp, pfil, rfil);
1.2     isaki 	if (error) {
1.2     isaki 		device_printf(sc->sc_dev,
1.2     isaki 		    "set_format failed with %d\n", error);
1.2     isaki 		return error;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	if (sc->hw_if->commit_settings) {
1.2     isaki 		error = sc->hw_if->commit_settings(sc->hw_hdl);
1.2     isaki 		if (error) {
1.2     isaki 			device_printf(sc->sc_dev,
1.2     isaki 			    "commit_settings failed with %d\n", error);
1.2     isaki 			return error;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	return 0;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Fill audio_info structure.  If need_mixerinfo is true, it will also
1.2     isaki  * fill the hardware mixer information.
1.2     isaki  * Must be called with sc_lock held.
1.2     isaki  * Must be called with sc_exlock held, in addition, if need_mixerinfo is
1.2     isaki  * true.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audiogetinfo(struct audio_softc *sc, struct audio_info *ai, int need_mixerinfo,
1.2     isaki 	audio_file_t *file)
1.2     isaki {
1.2     isaki 	struct audio_prinfo *ri, *pi;
1.2     isaki 	audio_track_t *track;
1.2     isaki 	audio_track_t *ptrack;
1.2     isaki 	audio_track_t *rtrack;
1.2     isaki 	int gain;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki
1.2     isaki 	ri = &ai->record;
1.2     isaki 	pi = &ai->play;
1.2     isaki 	ptrack = file->ptrack;
1.2     isaki 	rtrack = file->rtrack;
1.2     isaki
1.2     isaki 	memset(ai, 0, sizeof(*ai));
1.2     isaki
1.2     isaki 	if (ptrack) {
1.2     isaki 		pi->sample_rate = ptrack->usrbuf.fmt.sample_rate;
1.2     isaki 		pi->channels    = ptrack->usrbuf.fmt.channels;
1.2     isaki 		pi->precision   = ptrack->usrbuf.fmt.precision;
1.2     isaki 		pi->encoding    = ptrack->usrbuf.fmt.encoding;
1.2     isaki 	} else {
1.2     isaki 		/* Set default parameters if the track is not available. */
1.2     isaki 		if (ISDEVAUDIO(file->dev)) {
1.2     isaki 			pi->sample_rate = audio_default.sample_rate;
1.2     isaki 			pi->channels    = audio_default.channels;
1.2     isaki 			pi->precision   = audio_default.precision;
1.2     isaki 			pi->encoding    = audio_default.encoding;
1.2     isaki 		} else {
1.2     isaki 			pi->sample_rate = sc->sc_sound_pparams.sample_rate;
1.2     isaki 			pi->channels    = sc->sc_sound_pparams.channels;
1.2     isaki 			pi->precision   = sc->sc_sound_pparams.precision;
1.2     isaki 			pi->encoding    = sc->sc_sound_pparams.encoding;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki 	if (rtrack) {
1.2     isaki 		ri->sample_rate = rtrack->usrbuf.fmt.sample_rate;
1.2     isaki 		ri->channels    = rtrack->usrbuf.fmt.channels;
1.2     isaki 		ri->precision   = rtrack->usrbuf.fmt.precision;
1.2     isaki 		ri->encoding    = rtrack->usrbuf.fmt.encoding;
1.2     isaki 	} else {
1.2     isaki 		/* Set default parameters if the track is not available. */
1.2     isaki 		if (ISDEVAUDIO(file->dev)) {
1.2     isaki 			ri->sample_rate = audio_default.sample_rate;
1.2     isaki 			ri->channels    = audio_default.channels;
1.2     isaki 			ri->precision   = audio_default.precision;
1.2     isaki 			ri->encoding    = audio_default.encoding;
1.2     isaki 		} else {
1.2     isaki 			ri->sample_rate = sc->sc_sound_rparams.sample_rate;
1.2     isaki 			ri->channels    = sc->sc_sound_rparams.channels;
1.2     isaki 			ri->precision   = sc->sc_sound_rparams.precision;
1.2     isaki 			ri->encoding    = sc->sc_sound_rparams.encoding;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	if (ptrack) {
1.2     isaki 		pi->seek = ptrack->usrbuf.used;
1.2     isaki 		pi->samples = ptrack->usrbuf_stamp;
1.2     isaki 		pi->eof = ptrack->eofcounter;
1.2     isaki 		pi->pause = ptrack->is_pause;
1.2     isaki 		pi->error = (ptrack->dropframes != 0) ? 1 : 0;
1.2     isaki 		pi->waiting = 0;		/* open never hangs */
1.2     isaki 		pi->open = 1;
1.2     isaki 		pi->active = sc->sc_pbusy;
1.2     isaki 		pi->buffer_size = ptrack->usrbuf.capacity;
1.2     isaki 	}
1.2     isaki 	if (rtrack) {
1.2     isaki 		ri->seek = rtrack->usrbuf.used;
1.2     isaki 		ri->samples = rtrack->usrbuf_stamp;
1.2     isaki 		ri->eof = 0;
1.2     isaki 		ri->pause = rtrack->is_pause;
1.2     isaki 		ri->error = (rtrack->dropframes != 0) ? 1 : 0;
1.2     isaki 		ri->waiting = 0;		/* open never hangs */
1.2     isaki 		ri->open = 1;
1.2     isaki 		ri->active = sc->sc_rbusy;
1.2     isaki 		ri->buffer_size = rtrack->usrbuf.capacity;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * XXX There may be different number of channels between playback
1.2     isaki 	 *     and recording, so that blocksize also may be different.
1.2     isaki 	 *     But struct audio_info has an united blocksize...
1.2     isaki 	 *     Here, I use play info precedencely if ptrack is available,
1.2     isaki 	 *     otherwise record info.
1.2     isaki 	 *
1.2     isaki 	 * XXX hiwat/lowat is a playback-only parameter.  What should I
1.2     isaki 	 *     return for a record-only descriptor?
1.2     isaki 	 */
1.3      maya 	track = ptrack ? ptrack : rtrack;
1.2     isaki 	if (track) {
1.2     isaki 		ai->blocksize = track->usrbuf_blksize;
1.2     isaki 		ai->hiwat = track->usrbuf_usedhigh / track->usrbuf_blksize;
1.2     isaki 		ai->lowat = track->usrbuf_usedlow / track->usrbuf_blksize;
1.2     isaki 	}
1.2     isaki 	ai->mode = file->mode;
1.2     isaki
1.2     isaki 	if (need_mixerinfo) {
1.2     isaki 		KASSERT(sc->sc_exlock);
1.2     isaki
1.2     isaki 		pi->port = au_get_port(sc, &sc->sc_outports);
1.2     isaki 		ri->port = au_get_port(sc, &sc->sc_inports);
1.2     isaki
1.2     isaki 		pi->avail_ports = sc->sc_outports.allports;
1.2     isaki 		ri->avail_ports = sc->sc_inports.allports;
1.2     isaki
1.2     isaki 		au_get_gain(sc, &sc->sc_outports, &pi->gain, &pi->balance);
1.2     isaki 		au_get_gain(sc, &sc->sc_inports, &ri->gain, &ri->balance);
1.2     isaki
1.2     isaki 		if (sc->sc_monitor_port != -1) {
1.2     isaki 			gain = au_get_monitor_gain(sc);
1.2     isaki 			if (gain != -1)
1.2     isaki 				ai->monitor_gain = gain;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki
1.2     isaki 	return 0;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Must be called with sc_lock held.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_get_props(struct audio_softc *sc)
1.2     isaki {
1.2     isaki 	const struct audio_hw_if *hw;
1.2     isaki 	int props;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki
1.2     isaki 	hw = sc->hw_if;
1.2     isaki 	props = hw->get_props(sc->hw_hdl);
1.2     isaki
1.2     isaki 	/*
1.2     isaki 	 * For historical reasons, if neither playback nor capture
1.2     isaki 	 * properties are reported, assume both are supported.
1.2     isaki 	 * XXX Ideally (all) hardware driver should be updated...
1.2     isaki 	 */
1.2     isaki 	if ((props & (AUDIO_PROP_PLAYBACK|AUDIO_PROP_CAPTURE)) == 0)
1.2     isaki 		props |= (AUDIO_PROP_PLAYBACK | AUDIO_PROP_CAPTURE);
1.2     isaki
1.2     isaki 	/* MMAP is now supported by upper layer.  */
1.2     isaki 	props |= AUDIO_PROP_MMAP;
1.2     isaki
1.2     isaki 	return props;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Return true if playback is configured.
1.2     isaki  * This function can be used after audioattach.
1.2     isaki  */
1.2     isaki static bool
1.2     isaki audio_can_playback(struct audio_softc *sc)
1.2     isaki {
1.2     isaki
1.2     isaki 	return (sc->sc_pmixer != NULL);
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Return true if recording is configured.
1.2     isaki  * This function can be used after audioattach.
1.2     isaki  */
1.2     isaki static bool
1.2     isaki audio_can_capture(struct audio_softc *sc)
1.2     isaki {
1.2     isaki
1.2     isaki 	return (sc->sc_rmixer != NULL);
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Get the afp->index'th item from the valid one of format[].
1.2     isaki  * If found, stores it to afp->fmt and returns 0.  Otherwise return EINVAL.
1.2     isaki  *
1.2     isaki  * This is common routines for query_format.
1.2     isaki  * If your hardware driver has struct audio_format[], the simplest case
1.2     isaki  * you can write your query_format interface as follows:
1.2     isaki  *
1.2     isaki  * struct audio_format foo_format[] = { ... };
1.2     isaki  *
1.2     isaki  * int
1.2     isaki  * foo_query_format(void *hdl, audio_format_query_t *afp)
1.2     isaki  * {
1.2     isaki  *   return audio_query_format(foo_format, __arraycount(foo_format), afp);
1.2     isaki  * }
1.2     isaki  */
1.2     isaki int
1.2     isaki audio_query_format(const struct audio_format *format, int nformats,
1.2     isaki 	audio_format_query_t *afp)
1.2     isaki {
1.2     isaki 	const struct audio_format *f;
1.2     isaki 	int idx;
1.2     isaki 	int i;
1.2     isaki
1.2     isaki 	idx = 0;
1.2     isaki 	for (i = 0; i < nformats; i++) {
1.2     isaki 		f = &format[i];
1.2     isaki 		if (!AUFMT_IS_VALID(f))
1.2     isaki 			continue;
1.2     isaki 		if (afp->index == idx) {
1.2     isaki 			afp->fmt = *f;
1.2     isaki 			return 0;
1.2     isaki 		}
1.2     isaki 		idx++;
1.2     isaki 	}
1.2     isaki 	return EINVAL;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * This function is provided for the hardware driver's set_format() to
1.2     isaki  * find index matches with 'param' from array of audio_format_t 'formats'.
1.2     isaki  * 'mode' is either of AUMODE_PLAY or AUMODE_RECORD.
1.2     isaki  * It returns the matched index and never fails.  Because param passed to
1.2     isaki  * set_format() is selected from query_format().
1.2     isaki  * This function will be an alternative to auconv_set_converter() to
1.2     isaki  * find index.
1.2     isaki  */
1.2     isaki int
1.2     isaki audio_indexof_format(const struct audio_format *formats, int nformats,
1.2     isaki 	int mode, const audio_params_t *param)
1.2     isaki {
1.2     isaki 	const struct audio_format *f;
1.2     isaki 	int index;
1.2     isaki 	int j;
1.2     isaki
1.2     isaki 	for (index = 0; index < nformats; index++) {
1.2     isaki 		f = &formats[index];
1.2     isaki
1.2     isaki 		if (!AUFMT_IS_VALID(f))
1.2     isaki 			continue;
1.2     isaki 		if ((f->mode & mode) == 0)
1.2     isaki 			continue;
1.2     isaki 		if (f->encoding != param->encoding)
1.2     isaki 			continue;
1.2     isaki 		if (f->validbits != param->precision)
1.2     isaki 			continue;
1.2     isaki 		if (f->channels != param->channels)
1.2     isaki 			continue;
1.2     isaki
1.2     isaki 		if (f->frequency_type == 0) {
1.2     isaki 			if (param->sample_rate < f->frequency[0] ||
1.2     isaki 			    param->sample_rate > f->frequency[1])
1.2     isaki 				continue;
1.2     isaki 		} else {
1.2     isaki 			for (j = 0; j < f->frequency_type; j++) {
1.2     isaki 				if (param->sample_rate == f->frequency[j])
1.2     isaki 					break;
1.2     isaki 			}
1.2     isaki 			if (j == f->frequency_type)
1.2     isaki 				continue;
1.2     isaki 		}
1.2     isaki
1.2     isaki 		/* Then, matched */
1.2     isaki 		return index;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* Not matched.  This should not be happened. */
1.2     isaki 	panic("%s: cannot find matched format\n", __func__);
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Get or set software master volume: 0..256
1.2     isaki  * XXX It's for debug.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_sysctl_volume(SYSCTLFN_ARGS)
1.2     isaki {
1.2     isaki 	struct sysctlnode node;
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	int t, error;
1.2     isaki
1.2     isaki 	node = *rnode;
1.2     isaki 	sc = node.sysctl_data;
1.2     isaki
1.2     isaki 	if (sc->sc_pmixer)
1.2     isaki 		t = sc->sc_pmixer->volume;
1.2     isaki 	else
1.2     isaki 		t = -1;
1.2     isaki 	node.sysctl_data = &t;
1.2     isaki 	error = sysctl_lookup(SYSCTLFN_CALL(&node));
1.2     isaki 	if (error || newp == NULL)
1.2     isaki 		return error;
1.2     isaki
1.2     isaki 	if (sc->sc_pmixer == NULL)
1.2     isaki 		return EINVAL;
1.2     isaki 	if (t < 0)
1.2     isaki 		return EINVAL;
1.2     isaki
1.2     isaki 	sc->sc_pmixer->volume = t;
1.2     isaki 	return 0;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Get or set hardware blocksize in msec.
1.2     isaki  * XXX It's for debug.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_sysctl_blk_ms(SYSCTLFN_ARGS)
1.2     isaki {
1.2     isaki 	struct sysctlnode node;
1.2     isaki 	struct audio_softc *sc;
1.2     isaki 	audio_format2_t phwfmt;
1.2     isaki 	audio_format2_t rhwfmt;
1.2     isaki 	audio_filter_reg_t pfil;
1.2     isaki 	audio_filter_reg_t rfil;
1.2     isaki 	int t;
1.2     isaki 	int old_blk_ms;
1.2     isaki 	int mode;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	node = *rnode;
1.2     isaki 	sc = node.sysctl_data;
1.2     isaki
1.2     isaki 	mutex_enter(sc->sc_lock);
1.2     isaki
1.2     isaki 	old_blk_ms = sc->sc_blk_ms;
1.2     isaki 	t = old_blk_ms;
1.2     isaki 	node.sysctl_data = &t;
1.2     isaki 	error = sysctl_lookup(SYSCTLFN_CALL(&node));
1.2     isaki 	if (error || newp == NULL)
1.2     isaki 		goto abort;
1.2     isaki
1.2     isaki 	if (t < 0) {
1.2     isaki 		error = EINVAL;
1.2     isaki 		goto abort;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	if (sc->sc_popens + sc->sc_ropens > 0) {
1.2     isaki 		error = EBUSY;
1.2     isaki 		goto abort;
1.2     isaki 	}
1.2     isaki 	sc->sc_blk_ms = t;
1.2     isaki 	mode = 0;
1.2     isaki 	if (sc->sc_pmixer) {
1.2     isaki 		mode |= AUMODE_PLAY;
1.2     isaki 		phwfmt = sc->sc_pmixer->hwbuf.fmt;
1.2     isaki 	}
1.2     isaki 	if (sc->sc_rmixer) {
1.2     isaki 		mode |= AUMODE_RECORD;
1.2     isaki 		rhwfmt = sc->sc_rmixer->hwbuf.fmt;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* re-init hardware */
1.2     isaki 	memset(&pfil, 0, sizeof(pfil));
1.2     isaki 	memset(&rfil, 0, sizeof(rfil));
1.2     isaki 	error = audio_hw_set_format(sc, mode, &phwfmt, &rhwfmt, &pfil, &rfil);
1.2     isaki 	if (error) {
1.2     isaki 		goto abort;
1.2     isaki 	}
1.2     isaki
1.2     isaki 	/* re-init track mixer */
1.2     isaki 	error = audio_mixers_init(sc, mode, &phwfmt, &rhwfmt, &pfil, &rfil);
1.2     isaki 	if (error) {
1.2     isaki 		/* Rollback */
1.2     isaki 		sc->sc_blk_ms = old_blk_ms;
1.2     isaki 		audio_mixers_init(sc, mode, &phwfmt, &rhwfmt, &pfil, &rfil);
1.2     isaki 		goto abort;
1.2     isaki 	}
1.2     isaki 	error = 0;
1.2     isaki abort:
1.2     isaki 	mutex_exit(sc->sc_lock);
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Get or set multiuser mode.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_sysctl_multiuser(SYSCTLFN_ARGS)
1.2     isaki {
1.2     isaki 	struct sysctlnode node;
1.2     isaki 	struct audio_softc *sc;
1.6  nakayama 	bool t;
1.6  nakayama 	int error;
1.2     isaki
1.2     isaki 	node = *rnode;
1.2     isaki 	sc = node.sysctl_data;
1.2     isaki
1.2     isaki 	mutex_enter(sc->sc_lock);
1.2     isaki
1.2     isaki 	t = sc->sc_multiuser;
1.2     isaki 	node.sysctl_data = &t;
1.2     isaki 	error = sysctl_lookup(SYSCTLFN_CALL(&node));
1.2     isaki 	if (error || newp == NULL)
1.2     isaki 		goto abort;
1.2     isaki
1.2     isaki 	sc->sc_multiuser = t;
1.2     isaki 	error = 0;
1.2     isaki abort:
1.2     isaki 	mutex_exit(sc->sc_lock);
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki #if defined(AUDIO_DEBUG)
1.2     isaki /*
1.2     isaki  * Get or set debug verbose level. (0..4)
1.2     isaki  * XXX It's for debug.
1.2     isaki  * XXX It is not separated per device.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_sysctl_debug(SYSCTLFN_ARGS)
1.2     isaki {
1.2     isaki 	struct sysctlnode node;
1.2     isaki 	int t;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	node = *rnode;
1.2     isaki 	t = audiodebug;
1.2     isaki 	node.sysctl_data = &t;
1.2     isaki 	error = sysctl_lookup(SYSCTLFN_CALL(&node));
1.2     isaki 	if (error || newp == NULL)
1.2     isaki 		return error;
1.2     isaki
1.2     isaki 	if (t < 0 || t > 4)
1.2     isaki 		return EINVAL;
1.2     isaki 	audiodebug = t;
1.2     isaki 	printf("audio: audiodebug = %d\n", audiodebug);
1.2     isaki 	return 0;
1.2     isaki }
1.2     isaki #endif /* AUDIO_DEBUG */
1.2     isaki
1.2     isaki #ifdef AUDIO_PM_IDLE
1.2     isaki static void
1.2     isaki audio_idle(void *arg)
1.2     isaki {
1.2     isaki 	device_t dv = arg;
1.2     isaki 	struct audio_softc *sc = device_private(dv);
1.2     isaki
1.2     isaki #ifdef PNP_DEBUG
1.2     isaki 	extern int pnp_debug_idle;
1.2     isaki 	if (pnp_debug_idle)
1.2     isaki 		printf("%s: idle handler called\n", device_xname(dv));
1.2     isaki #endif
1.2     isaki
1.2     isaki 	sc->sc_idle = true;
1.2     isaki
1.2     isaki 	/* XXX joerg Make pmf_device_suspend handle children? */
1.2     isaki 	if (!pmf_device_suspend(dv, PMF_Q_SELF))
1.2     isaki 		return;
1.2     isaki
1.2     isaki 	if (!pmf_device_suspend(sc->hw_dev, PMF_Q_SELF))
1.2     isaki 		pmf_device_resume(dv, PMF_Q_SELF);
1.2     isaki }
1.2     isaki
1.2     isaki static void
1.2     isaki audio_activity(device_t dv, devactive_t type)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc = device_private(dv);
1.2     isaki
1.2     isaki 	if (type != DVA_SYSTEM)
1.2     isaki 		return;
1.2     isaki
1.2     isaki 	callout_schedule(&sc->sc_idle_counter, audio_idle_timeout * hz);
1.2     isaki
1.2     isaki 	sc->sc_idle = false;
1.2     isaki 	if (!device_is_active(dv)) {
1.2     isaki 		/* XXX joerg How to deal with a failing resume... */
1.2     isaki 		pmf_device_resume(sc->hw_dev, PMF_Q_SELF);
1.2     isaki 		pmf_device_resume(dv, PMF_Q_SELF);
1.2     isaki 	}
1.2     isaki }
1.2     isaki #endif
1.2     isaki
1.2     isaki static bool
1.2     isaki audio_suspend(device_t dv, const pmf_qual_t *qual)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc = device_private(dv);
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	error = audio_enter_exclusive(sc);
1.2     isaki 	if (error)
1.2     isaki 		return error;
1.2     isaki 	audio_mixer_capture(sc);
1.2     isaki
1.2     isaki 	/* Halts mixers but don't clear busy flag for resume */
1.2     isaki 	if (sc->sc_pbusy) {
1.2     isaki 		audio_pmixer_halt(sc);
1.2     isaki 		sc->sc_pbusy = true;
1.2     isaki 	}
1.2     isaki 	if (sc->sc_rbusy) {
1.2     isaki 		audio_rmixer_halt(sc);
1.2     isaki 		sc->sc_rbusy = true;
1.2     isaki 	}
1.2     isaki
1.2     isaki #ifdef AUDIO_PM_IDLE
1.2     isaki 	callout_halt(&sc->sc_idle_counter, sc->sc_lock);
1.2     isaki #endif
1.2     isaki 	audio_exit_exclusive(sc);
1.2     isaki
1.2     isaki 	return true;
1.2     isaki }
1.2     isaki
1.2     isaki static bool
1.2     isaki audio_resume(device_t dv, const pmf_qual_t *qual)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc = device_private(dv);
1.2     isaki 	struct audio_info ai;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	error = audio_enter_exclusive(sc);
1.2     isaki 	if (error)
1.2     isaki 		return error;
1.2     isaki
1.2     isaki 	audio_mixer_restore(sc);
1.2     isaki 	/* XXX ? */
1.2     isaki 	AUDIO_INITINFO(&ai);
1.2     isaki 	audio_hw_setinfo(sc, &ai, NULL);
1.2     isaki
1.2     isaki 	if (sc->sc_pbusy)
1.2     isaki 		audio_pmixer_start(sc, true);
1.2     isaki 	if (sc->sc_rbusy)
1.2     isaki 		audio_rmixer_start(sc);
1.2     isaki
1.2     isaki 	audio_exit_exclusive(sc);
1.2     isaki
1.2     isaki 	return true;
1.2     isaki }
1.2     isaki
1.2     isaki #if defined(DIAGNOSTIC) || defined(AUDIO_DEBUG)
1.2     isaki static void
1.2     isaki audio_format2_tostr(char *buf, size_t bufsize, const audio_format2_t *fmt)
1.2     isaki {
1.2     isaki 	int n;
1.2     isaki
1.2     isaki 	n = 0;
1.2     isaki 	n += snprintf(buf + n, bufsize - n, "%s",
1.2     isaki 	    audio_encoding_name(fmt->encoding));
1.2     isaki 	if (fmt->precision == fmt->stride) {
1.2     isaki 		n += snprintf(buf + n, bufsize - n, " %dbit", fmt->precision);
1.2     isaki 	} else {
1.2     isaki 		n += snprintf(buf + n, bufsize - n, " %d/%dbit",
1.2     isaki 			fmt->precision, fmt->stride);
1.2     isaki 	}
1.2     isaki
1.2     isaki 	snprintf(buf + n, bufsize - n, " %uch %uHz",
1.2     isaki 	    fmt->channels, fmt->sample_rate);
1.2     isaki }
1.2     isaki #endif
1.2     isaki
1.2     isaki #if defined(AUDIO_DEBUG)
1.2     isaki static void
1.2     isaki audio_print_format2(const char *s, const audio_format2_t *fmt)
1.2     isaki {
1.2     isaki 	char fmtstr[64];
1.2     isaki
1.2     isaki 	audio_format2_tostr(fmtstr, sizeof(fmtstr), fmt);
1.2     isaki 	printf("%s %s\n", s, fmtstr);
1.2     isaki }
1.2     isaki #endif
1.2     isaki
1.2     isaki #ifdef DIAGNOSTIC
1.2     isaki void
1.2     isaki audio_diagnostic_format2(const char *func, const audio_format2_t *fmt)
1.2     isaki {
1.2     isaki
1.2     isaki 	KASSERTMSG(fmt, "%s: fmt == NULL", func);
1.2     isaki
1.2     isaki 	/* XXX MSM6258 vs(4) only has 4bit stride format. */
1.2     isaki 	if (fmt->encoding == AUDIO_ENCODING_ADPCM) {
1.2     isaki 		KASSERTMSG(fmt->stride == 4 || fmt->stride == 8,
1.2     isaki 		    "%s: stride(%d) is invalid", func, fmt->stride);
1.2     isaki 	} else {
1.2     isaki 		KASSERTMSG(fmt->stride % NBBY == 0,
1.2     isaki 		    "%s: stride(%d) is invalid", func, fmt->stride);
1.2     isaki 	}
1.2     isaki 	KASSERTMSG(fmt->precision <= fmt->stride,
1.2     isaki 	    "%s: precision(%d) <= stride(%d)",
1.2     isaki 	    func, fmt->precision, fmt->stride);
1.2     isaki 	KASSERTMSG(1 <= fmt->channels && fmt->channels <= AUDIO_MAX_CHANNELS,
1.2     isaki 	    "%s: channels(%d) is out of range",
1.2     isaki 	    func, fmt->channels);
1.2     isaki
1.2     isaki 	/* XXX No check for encodings? */
1.2     isaki }
1.2     isaki
1.2     isaki void
1.2     isaki audio_diagnostic_filter_arg(const char *func, const audio_filter_arg_t *arg)
1.2     isaki {
1.2     isaki
1.2     isaki 	KASSERT(arg != NULL);
1.2     isaki 	KASSERT(arg->src != NULL);
1.2     isaki 	KASSERT(arg->dst != NULL);
1.2     isaki 	DIAGNOSTIC_format2(arg->srcfmt);
1.2     isaki 	DIAGNOSTIC_format2(arg->dstfmt);
1.2     isaki 	KASSERTMSG(arg->count > 0,
1.2     isaki 	    "%s: count(%d) is out of range", func, arg->count);
1.2     isaki }
1.2     isaki
1.2     isaki void
1.2     isaki audio_diagnostic_ring(const char *func, const audio_ring_t *ring)
1.2     isaki {
1.2     isaki
1.2     isaki 	KASSERTMSG(ring, "%s: ring == NULL", func);
1.2     isaki 	DIAGNOSTIC_format2(&ring->fmt);
1.2     isaki 	KASSERTMSG(0 <= ring->capacity && ring->capacity < INT_MAX / 2,
1.2     isaki 	    "%s: capacity(%d) is out of range", func, ring->capacity);
1.2     isaki 	KASSERTMSG(0 <= ring->used && ring->used <= ring->capacity,
1.2     isaki 	    "%s: used(%d) is out of range (capacity:%d)",
1.2     isaki 	    func, ring->used, ring->capacity);
1.2     isaki 	if (ring->capacity == 0) {
1.2     isaki 		KASSERTMSG(ring->mem == NULL,
1.2     isaki 		    "%s: capacity == 0 but mem != NULL", func);
1.2     isaki 	} else {
1.2     isaki 		KASSERTMSG(ring->mem != NULL,
1.2     isaki 		    "%s: capacity != 0 but mem == NULL", func);
1.2     isaki 		KASSERTMSG(0 <= ring->head && ring->head < ring->capacity,
1.2     isaki 		    "%s: head(%d) is out of range (capacity:%d)",
1.2     isaki 		    func, ring->head, ring->capacity);
1.2     isaki 	}
1.2     isaki }
1.2     isaki #endif /* DIAGNOSTIC */
1.2     isaki
1.2     isaki
1.2     isaki /*
1.2     isaki  * Mixer driver
1.2     isaki  */
1.2     isaki int
1.2     isaki mixer_open(dev_t dev, struct audio_softc *sc, int flags, int ifmt,
1.2     isaki 	struct lwp *l)
1.2     isaki {
1.2     isaki 	struct file *fp;
1.2     isaki 	audio_file_t *af;
1.2     isaki 	int error, fd;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki
1.2     isaki 	TRACE(1, "flags=0x%x", flags);
1.2     isaki
1.2     isaki 	error = fd_allocfile(&fp, &fd);
1.2     isaki 	if (error)
1.2     isaki 		return error;
1.2     isaki
1.2     isaki 	af = kmem_zalloc(sizeof(*af), KM_SLEEP);
1.2     isaki 	af->sc = sc;
1.2     isaki 	af->dev = dev;
1.2     isaki
1.2     isaki 	error = fd_clone(fp, fd, flags, &audio_fileops, af);
1.2     isaki 	KASSERT(error == EMOVEFD);
1.2     isaki
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Remove a process from those to be signalled on mixer activity.
1.2     isaki  * Must be called with sc_lock held.
1.2     isaki  */
1.2     isaki static void
1.2     isaki mixer_remove(struct audio_softc *sc)
1.2     isaki {
1.2     isaki 	struct mixer_asyncs **pm, *m;
1.2     isaki 	pid_t pid;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki
1.2     isaki 	pid = curproc->p_pid;
1.2     isaki 	for (pm = &sc->sc_async_mixer; *pm; pm = &(*pm)->next) {
1.2     isaki 		if ((*pm)->pid == pid) {
1.2     isaki 			m = *pm;
1.2     isaki 			*pm = m->next;
1.2     isaki 			kmem_free(m, sizeof(*m));
1.2     isaki 			return;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Signal all processes waiting for the mixer.
1.2     isaki  * Must be called with sc_lock held.
1.2     isaki  */
1.2     isaki static void
1.2     isaki mixer_signal(struct audio_softc *sc)
1.2     isaki {
1.2     isaki 	struct mixer_asyncs *m;
1.2     isaki 	proc_t *p;
1.2     isaki
1.2     isaki 	for (m = sc->sc_async_mixer; m; m = m->next) {
1.2     isaki 		mutex_enter(proc_lock);
1.2     isaki 		if ((p = proc_find(m->pid)) != NULL)
1.2     isaki 			psignal(p, SIGIO);
1.2     isaki 		mutex_exit(proc_lock);
1.2     isaki 	}
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Close a mixer device
1.2     isaki  */
1.2     isaki int
1.2     isaki mixer_close(struct audio_softc *sc, audio_file_t *file)
1.2     isaki {
1.2     isaki
1.2     isaki 	mutex_enter(sc->sc_lock);
1.2     isaki 	TRACE(1, "");
1.2     isaki 	mixer_remove(sc);
1.2     isaki 	mutex_exit(sc->sc_lock);
1.2     isaki
1.2     isaki 	return 0;
1.2     isaki }
1.2     isaki
1.2     isaki int
1.2     isaki mixer_ioctl(struct audio_softc *sc, u_long cmd, void *addr, int flag,
1.2     isaki 	struct lwp *l)
1.2     isaki {
1.2     isaki 	struct mixer_asyncs *ma;
1.2     isaki 	mixer_devinfo_t *mi;
1.2     isaki 	mixer_ctrl_t *mc;
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(!mutex_owned(sc->sc_lock));
1.2     isaki
1.2     isaki 	TRACE(2, "(%lu,'%c',%lu)",
1.2     isaki 	    IOCPARM_LEN(cmd), (char)IOCGROUP(cmd), cmd & 0xff);
1.2     isaki 	error = EINVAL;
1.2     isaki
1.2     isaki 	/* we can return cached values if we are sleeping */
1.2     isaki 	if (cmd != AUDIO_MIXER_READ) {
1.2     isaki 		mutex_enter(sc->sc_lock);
1.2     isaki 		device_active(sc->sc_dev, DVA_SYSTEM);
1.2     isaki 		mutex_exit(sc->sc_lock);
1.2     isaki 	}
1.2     isaki
1.2     isaki 	switch (cmd) {
1.2     isaki 	case FIOASYNC:
1.2     isaki 		if (*(int *)addr) {
1.2     isaki 			ma = kmem_alloc(sizeof(struct mixer_asyncs), KM_SLEEP);
1.2     isaki 		} else {
1.2     isaki 			ma = NULL;
1.2     isaki 		}
1.2     isaki 		mixer_remove(sc);	/* remove old entry */
1.2     isaki 		if (ma != NULL) {
1.2     isaki 			ma->next = sc->sc_async_mixer;
1.2     isaki 			ma->pid = curproc->p_pid;
1.2     isaki 			sc->sc_async_mixer = ma;
1.2     isaki 		}
1.2     isaki 		error = 0;
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case AUDIO_GETDEV:
1.2     isaki 		TRACE(2, "AUDIO_GETDEV");
1.2     isaki 		error = audio_enter_exclusive(sc);
1.2     isaki 		if (error)
1.2     isaki 			break;
1.2     isaki 		error = sc->hw_if->getdev(sc->hw_hdl, (audio_device_t *)addr);
1.2     isaki 		audio_exit_exclusive(sc);
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case AUDIO_MIXER_DEVINFO:
1.2     isaki 		TRACE(2, "AUDIO_MIXER_DEVINFO");
1.2     isaki 		mi = (mixer_devinfo_t *)addr;
1.2     isaki
1.2     isaki 		mi->un.v.delta = 0; /* default */
1.2     isaki 		mutex_enter(sc->sc_lock);
1.2     isaki 		error = audio_query_devinfo(sc, mi);
1.2     isaki 		mutex_exit(sc->sc_lock);
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case AUDIO_MIXER_READ:
1.2     isaki 		TRACE(2, "AUDIO_MIXER_READ");
1.2     isaki 		mc = (mixer_ctrl_t *)addr;
1.2     isaki
1.2     isaki 		error = audio_enter_exclusive(sc);
1.2     isaki 		if (error)
1.2     isaki 			break;
1.2     isaki 		if (device_is_active(sc->hw_dev))
1.2     isaki 			error = audio_get_port(sc, mc);
1.2     isaki 		else if (mc->dev < 0 || mc->dev >= sc->sc_nmixer_states)
1.2     isaki 			error = ENXIO;
1.2     isaki 		else {
1.2     isaki 			int dev = mc->dev;
1.2     isaki 			memcpy(mc, &sc->sc_mixer_state[dev],
1.2     isaki 			    sizeof(mixer_ctrl_t));
1.2     isaki 			error = 0;
1.2     isaki 		}
1.2     isaki 		audio_exit_exclusive(sc);
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	case AUDIO_MIXER_WRITE:
1.2     isaki 		TRACE(2, "AUDIO_MIXER_WRITE");
1.2     isaki 		error = audio_enter_exclusive(sc);
1.2     isaki 		if (error)
1.2     isaki 			break;
1.2     isaki 		error = audio_set_port(sc, (mixer_ctrl_t *)addr);
1.2     isaki 		if (error) {
1.2     isaki 			audio_exit_exclusive(sc);
1.2     isaki 			break;
1.2     isaki 		}
1.2     isaki
1.2     isaki 		if (sc->hw_if->commit_settings) {
1.2     isaki 			error = sc->hw_if->commit_settings(sc->hw_hdl);
1.2     isaki 			if (error) {
1.2     isaki 				audio_exit_exclusive(sc);
1.2     isaki 				break;
1.2     isaki 			}
1.2     isaki 		}
1.2     isaki 		mixer_signal(sc);
1.2     isaki 		audio_exit_exclusive(sc);
1.2     isaki 		break;
1.2     isaki
1.2     isaki 	default:
1.2     isaki 		if (sc->hw_if->dev_ioctl) {
1.2     isaki 			error = audio_enter_exclusive(sc);
1.2     isaki 			if (error)
1.2     isaki 				break;
1.2     isaki 			error = sc->hw_if->dev_ioctl(sc->hw_hdl,
1.2     isaki 			    cmd, addr, flag, l);
1.2     isaki 			audio_exit_exclusive(sc);
1.2     isaki 		} else
1.2     isaki 			error = EINVAL;
1.2     isaki 		break;
1.2     isaki 	}
1.2     isaki 	TRACE(2, "(%lu,'%c',%lu) result %d",
1.2     isaki 	    IOCPARM_LEN(cmd), (char)IOCGROUP(cmd), cmd & 0xff, error);
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Must be called with sc_lock held.
1.2     isaki  */
1.2     isaki int
1.2     isaki au_portof(struct audio_softc *sc, char *name, int class)
1.2     isaki {
1.2     isaki 	mixer_devinfo_t mi;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki
1.2     isaki 	for (mi.index = 0; audio_query_devinfo(sc, &mi) == 0; mi.index++) {
1.2     isaki 		if (mi.mixer_class == class && strcmp(mi.label.name, name) == 0)
1.2     isaki 			return mi.index;
1.2     isaki 	}
1.2     isaki 	return -1;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Must be called with sc_lock held.
1.2     isaki  */
1.2     isaki void
1.2     isaki au_setup_ports(struct audio_softc *sc, struct au_mixer_ports *ports,
1.2     isaki 	mixer_devinfo_t *mi, const struct portname *tbl)
1.2     isaki {
1.2     isaki 	int i, j;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki
1.2     isaki 	ports->index = mi->index;
1.2     isaki 	if (mi->type == AUDIO_MIXER_ENUM) {
1.2     isaki 		ports->isenum = true;
1.2     isaki 		for(i = 0; tbl[i].name; i++)
1.2     isaki 		    for(j = 0; j < mi->un.e.num_mem; j++)
1.2     isaki 			if (strcmp(mi->un.e.member[j].label.name,
1.2     isaki 						    tbl[i].name) == 0) {
1.2     isaki 				ports->allports |= tbl[i].mask;
1.2     isaki 				ports->aumask[ports->nports] = tbl[i].mask;
1.2     isaki 				ports->misel[ports->nports] =
1.2     isaki 				    mi->un.e.member[j].ord;
1.2     isaki 				ports->miport[ports->nports] =
1.2     isaki 				    au_portof(sc, mi->un.e.member[j].label.name,
1.2     isaki 				    mi->mixer_class);
1.2     isaki 				if (ports->mixerout != -1 &&
1.2     isaki 				    ports->miport[ports->nports] != -1)
1.2     isaki 					ports->isdual = true;
1.2     isaki 				++ports->nports;
1.2     isaki 			}
1.2     isaki 	} else if (mi->type == AUDIO_MIXER_SET) {
1.2     isaki 		for(i = 0; tbl[i].name; i++)
1.2     isaki 		    for(j = 0; j < mi->un.s.num_mem; j++)
1.2     isaki 			if (strcmp(mi->un.s.member[j].label.name,
1.2     isaki 						tbl[i].name) == 0) {
1.2     isaki 				ports->allports |= tbl[i].mask;
1.2     isaki 				ports->aumask[ports->nports] = tbl[i].mask;
1.2     isaki 				ports->misel[ports->nports] =
1.2     isaki 				    mi->un.s.member[j].mask;
1.2     isaki 				ports->miport[ports->nports] =
1.2     isaki 				    au_portof(sc, mi->un.s.member[j].label.name,
1.2     isaki 				    mi->mixer_class);
1.2     isaki 				++ports->nports;
1.2     isaki 			}
1.2     isaki 	}
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Must be called with sc_lock && sc_exlock held.
1.2     isaki  */
1.2     isaki int
1.2     isaki au_set_lr_value(struct audio_softc *sc, mixer_ctrl_t *ct, int l, int r)
1.2     isaki {
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(sc->sc_exlock);
1.2     isaki
1.2     isaki 	ct->type = AUDIO_MIXER_VALUE;
1.2     isaki 	ct->un.value.num_channels = 2;
1.2     isaki 	ct->un.value.level[AUDIO_MIXER_LEVEL_LEFT] = l;
1.2     isaki 	ct->un.value.level[AUDIO_MIXER_LEVEL_RIGHT] = r;
1.2     isaki 	if (audio_set_port(sc, ct) == 0)
1.2     isaki 		return 0;
1.2     isaki 	ct->un.value.num_channels = 1;
1.2     isaki 	ct->un.value.level[AUDIO_MIXER_LEVEL_MONO] = (l+r)/2;
1.2     isaki 	return audio_set_port(sc, ct);
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Must be called with sc_lock && sc_exlock held.
1.2     isaki  */
1.2     isaki int
1.2     isaki au_get_lr_value(struct audio_softc *sc, mixer_ctrl_t *ct, int *l, int *r)
1.2     isaki {
1.2     isaki 	int error;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(sc->sc_exlock);
1.2     isaki
1.2     isaki 	ct->un.value.num_channels = 2;
1.2     isaki 	if (audio_get_port(sc, ct) == 0) {
1.2     isaki 		*l = ct->un.value.level[AUDIO_MIXER_LEVEL_LEFT];
1.2     isaki 		*r = ct->un.value.level[AUDIO_MIXER_LEVEL_RIGHT];
1.2     isaki 	} else {
1.2     isaki 		ct->un.value.num_channels = 1;
1.2     isaki 		error = audio_get_port(sc, ct);
1.2     isaki 		if (error)
1.2     isaki 			return error;
1.2     isaki 		*r = *l = ct->un.value.level[AUDIO_MIXER_LEVEL_MONO];
1.2     isaki 	}
1.2     isaki 	return 0;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Must be called with sc_lock && sc_exlock held.
1.2     isaki  */
1.2     isaki int
1.2     isaki au_set_gain(struct audio_softc *sc, struct au_mixer_ports *ports,
1.2     isaki 	int gain, int balance)
1.2     isaki {
1.2     isaki 	mixer_ctrl_t ct;
1.2     isaki 	int i, error;
1.2     isaki 	int l, r;
1.2     isaki 	u_int mask;
1.2     isaki 	int nset;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(sc->sc_exlock);
1.2     isaki
1.2     isaki 	if (balance == AUDIO_MID_BALANCE) {
1.2     isaki 		l = r = gain;
1.2     isaki 	} else if (balance < AUDIO_MID_BALANCE) {
1.2     isaki 		l = gain;
1.2     isaki 		r = (balance * gain) / AUDIO_MID_BALANCE;
1.2     isaki 	} else {
1.2     isaki 		r = gain;
1.2     isaki 		l = ((AUDIO_RIGHT_BALANCE - balance) * gain)
1.2     isaki 		    / AUDIO_MID_BALANCE;
1.2     isaki 	}
1.2     isaki 	TRACE(2, "gain=%d balance=%d, l=%d r=%d", gain, balance, l, r);
1.2     isaki
1.2     isaki 	if (ports->index == -1) {
1.2     isaki 	usemaster:
1.2     isaki 		if (ports->master == -1)
1.2     isaki 			return 0; /* just ignore it silently */
1.2     isaki 		ct.dev = ports->master;
1.2     isaki 		error = au_set_lr_value(sc, &ct, l, r);
1.2     isaki 	} else {
1.2     isaki 		ct.dev = ports->index;
1.2     isaki 		if (ports->isenum) {
1.2     isaki 			ct.type = AUDIO_MIXER_ENUM;
1.2     isaki 			error = audio_get_port(sc, &ct);
1.2     isaki 			if (error)
1.2     isaki 				return error;
1.2     isaki 			if (ports->isdual) {
1.2     isaki 				if (ports->cur_port == -1)
1.2     isaki 					ct.dev = ports->master;
1.2     isaki 				else
1.2     isaki 					ct.dev = ports->miport[ports->cur_port];
1.2     isaki 				error = au_set_lr_value(sc, &ct, l, r);
1.2     isaki 			} else {
1.2     isaki 				for(i = 0; i < ports->nports; i++)
1.2     isaki 				    if (ports->misel[i] == ct.un.ord) {
1.2     isaki 					    ct.dev = ports->miport[i];
1.2     isaki 					    if (ct.dev == -1 ||
1.2     isaki 						au_set_lr_value(sc, &ct, l, r))
1.2     isaki 						    goto usemaster;
1.2     isaki 					    else
1.2     isaki 						    break;
1.2     isaki 				    }
1.2     isaki 			}
1.2     isaki 		} else {
1.2     isaki 			ct.type = AUDIO_MIXER_SET;
1.2     isaki 			error = audio_get_port(sc, &ct);
1.2     isaki 			if (error)
1.2     isaki 				return error;
1.2     isaki 			mask = ct.un.mask;
1.2     isaki 			nset = 0;
1.2     isaki 			for(i = 0; i < ports->nports; i++) {
1.2     isaki 				if (ports->misel[i] & mask) {
1.2     isaki 				    ct.dev = ports->miport[i];
1.2     isaki 				    if (ct.dev != -1 &&
1.2     isaki 					au_set_lr_value(sc, &ct, l, r) == 0)
1.2     isaki 					    nset++;
1.2     isaki 				}
1.2     isaki 			}
1.2     isaki 			if (nset == 0)
1.2     isaki 				goto usemaster;
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki 	if (!error)
1.2     isaki 		mixer_signal(sc);
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Must be called with sc_lock && sc_exlock held.
1.2     isaki  */
1.2     isaki void
1.2     isaki au_get_gain(struct audio_softc *sc, struct au_mixer_ports *ports,
1.2     isaki 	u_int *pgain, u_char *pbalance)
1.2     isaki {
1.2     isaki 	mixer_ctrl_t ct;
1.2     isaki 	int i, l, r, n;
1.2     isaki 	int lgain, rgain;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(sc->sc_exlock);
1.2     isaki
1.2     isaki 	lgain = AUDIO_MAX_GAIN / 2;
1.2     isaki 	rgain = AUDIO_MAX_GAIN / 2;
1.2     isaki 	if (ports->index == -1) {
1.2     isaki 	usemaster:
1.2     isaki 		if (ports->master == -1)
1.2     isaki 			goto bad;
1.2     isaki 		ct.dev = ports->master;
1.2     isaki 		ct.type = AUDIO_MIXER_VALUE;
1.2     isaki 		if (au_get_lr_value(sc, &ct, &lgain, &rgain))
1.2     isaki 			goto bad;
1.2     isaki 	} else {
1.2     isaki 		ct.dev = ports->index;
1.2     isaki 		if (ports->isenum) {
1.2     isaki 			ct.type = AUDIO_MIXER_ENUM;
1.2     isaki 			if (audio_get_port(sc, &ct))
1.2     isaki 				goto bad;
1.2     isaki 			ct.type = AUDIO_MIXER_VALUE;
1.2     isaki 			if (ports->isdual) {
1.2     isaki 				if (ports->cur_port == -1)
1.2     isaki 					ct.dev = ports->master;
1.2     isaki 				else
1.2     isaki 					ct.dev = ports->miport[ports->cur_port];
1.2     isaki 				au_get_lr_value(sc, &ct, &lgain, &rgain);
1.2     isaki 			} else {
1.2     isaki 				for(i = 0; i < ports->nports; i++)
1.2     isaki 				    if (ports->misel[i] == ct.un.ord) {
1.2     isaki 					    ct.dev = ports->miport[i];
1.2     isaki 					    if (ct.dev == -1 ||
1.2     isaki 						au_get_lr_value(sc, &ct,
1.2     isaki 								&lgain, &rgain))
1.2     isaki 						    goto usemaster;
1.2     isaki 					    else
1.2     isaki 						    break;
1.2     isaki 				    }
1.2     isaki 			}
1.2     isaki 		} else {
1.2     isaki 			ct.type = AUDIO_MIXER_SET;
1.2     isaki 			if (audio_get_port(sc, &ct))
1.2     isaki 				goto bad;
1.2     isaki 			ct.type = AUDIO_MIXER_VALUE;
1.2     isaki 			lgain = rgain = n = 0;
1.2     isaki 			for(i = 0; i < ports->nports; i++) {
1.2     isaki 				if (ports->misel[i] & ct.un.mask) {
1.2     isaki 					ct.dev = ports->miport[i];
1.2     isaki 					if (ct.dev == -1 ||
1.2     isaki 					    au_get_lr_value(sc, &ct, &l, &r))
1.2     isaki 						goto usemaster;
1.2     isaki 					else {
1.2     isaki 						lgain += l;
1.2     isaki 						rgain += r;
1.2     isaki 						n++;
1.2     isaki 					}
1.2     isaki 				}
1.2     isaki 			}
1.2     isaki 			if (n != 0) {
1.2     isaki 				lgain /= n;
1.2     isaki 				rgain /= n;
1.2     isaki 			}
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki bad:
1.2     isaki 	if (lgain == rgain) {	/* handles lgain==rgain==0 */
1.2     isaki 		*pgain = lgain;
1.2     isaki 		*pbalance = AUDIO_MID_BALANCE;
1.2     isaki 	} else if (lgain < rgain) {
1.2     isaki 		*pgain = rgain;
1.2     isaki 		/* balance should be > AUDIO_MID_BALANCE */
1.2     isaki 		*pbalance = AUDIO_RIGHT_BALANCE -
1.2     isaki 			(AUDIO_MID_BALANCE * lgain) / rgain;
1.2     isaki 	} else /* lgain > rgain */ {
1.2     isaki 		*pgain = lgain;
1.2     isaki 		/* balance should be < AUDIO_MID_BALANCE */
1.2     isaki 		*pbalance = (AUDIO_MID_BALANCE * rgain) / lgain;
1.2     isaki 	}
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Must be called with sc_lock && sc_exlock held.
1.2     isaki  */
1.2     isaki int
1.2     isaki au_set_port(struct audio_softc *sc, struct au_mixer_ports *ports, u_int port)
1.2     isaki {
1.2     isaki 	mixer_ctrl_t ct;
1.2     isaki 	int i, error, use_mixerout;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(sc->sc_exlock);
1.2     isaki
1.2     isaki 	use_mixerout = 1;
1.2     isaki 	if (port == 0) {
1.2     isaki 		if (ports->allports == 0)
1.2     isaki 			return 0;		/* Allow this special case. */
1.2     isaki 		else if (ports->isdual) {
1.2     isaki 			if (ports->cur_port == -1) {
1.2     isaki 				return 0;
1.2     isaki 			} else {
1.2     isaki 				port = ports->aumask[ports->cur_port];
1.2     isaki 				ports->cur_port = -1;
1.2     isaki 				use_mixerout = 0;
1.2     isaki 			}
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki 	if (ports->index == -1)
1.2     isaki 		return EINVAL;
1.2     isaki 	ct.dev = ports->index;
1.2     isaki 	if (ports->isenum) {
1.2     isaki 		if (port & (port-1))
1.2     isaki 			return EINVAL; /* Only one port allowed */
1.2     isaki 		ct.type = AUDIO_MIXER_ENUM;
1.2     isaki 		error = EINVAL;
1.2     isaki 		for(i = 0; i < ports->nports; i++)
1.2     isaki 			if (ports->aumask[i] == port) {
1.2     isaki 				if (ports->isdual && use_mixerout) {
1.2     isaki 					ct.un.ord = ports->mixerout;
1.2     isaki 					ports->cur_port = i;
1.2     isaki 				} else {
1.2     isaki 					ct.un.ord = ports->misel[i];
1.2     isaki 				}
1.2     isaki 				error = audio_set_port(sc, &ct);
1.2     isaki 				break;
1.2     isaki 			}
1.2     isaki 	} else {
1.2     isaki 		ct.type = AUDIO_MIXER_SET;
1.2     isaki 		ct.un.mask = 0;
1.2     isaki 		for(i = 0; i < ports->nports; i++)
1.2     isaki 			if (ports->aumask[i] & port)
1.2     isaki 				ct.un.mask |= ports->misel[i];
1.2     isaki 		if (port != 0 && ct.un.mask == 0)
1.2     isaki 			error = EINVAL;
1.2     isaki 		else
1.2     isaki 			error = audio_set_port(sc, &ct);
1.2     isaki 	}
1.2     isaki 	if (!error)
1.2     isaki 		mixer_signal(sc);
1.2     isaki 	return error;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Must be called with sc_lock && sc_exlock held.
1.2     isaki  */
1.2     isaki int
1.2     isaki au_get_port(struct audio_softc *sc, struct au_mixer_ports *ports)
1.2     isaki {
1.2     isaki 	mixer_ctrl_t ct;
1.2     isaki 	int i, aumask;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(sc->sc_exlock);
1.2     isaki
1.2     isaki 	if (ports->index == -1)
1.2     isaki 		return 0;
1.2     isaki 	ct.dev = ports->index;
1.2     isaki 	ct.type = ports->isenum ? AUDIO_MIXER_ENUM : AUDIO_MIXER_SET;
1.2     isaki 	if (audio_get_port(sc, &ct))
1.2     isaki 		return 0;
1.2     isaki 	aumask = 0;
1.2     isaki 	if (ports->isenum) {
1.2     isaki 		if (ports->isdual && ports->cur_port != -1) {
1.2     isaki 			if (ports->mixerout == ct.un.ord)
1.2     isaki 				aumask = ports->aumask[ports->cur_port];
1.2     isaki 			else
1.2     isaki 				ports->cur_port = -1;
1.2     isaki 		}
1.2     isaki 		if (aumask == 0)
1.2     isaki 			for(i = 0; i < ports->nports; i++)
1.2     isaki 				if (ports->misel[i] == ct.un.ord)
1.2     isaki 					aumask = ports->aumask[i];
1.2     isaki 	} else {
1.2     isaki 		for(i = 0; i < ports->nports; i++)
1.2     isaki 			if (ct.un.mask & ports->misel[i])
1.2     isaki 				aumask |= ports->aumask[i];
1.2     isaki 	}
1.2     isaki 	return aumask;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * It returns 0 if success, otherwise errno.
1.2     isaki  * Must be called only if sc->sc_monitor_port != -1.
1.2     isaki  * Must be called with sc_lock && sc_exlock held.
1.2     isaki  */
1.2     isaki static int
1.2     isaki au_set_monitor_gain(struct audio_softc *sc, int monitor_gain)
1.2     isaki {
1.2     isaki 	mixer_ctrl_t ct;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(sc->sc_exlock);
1.2     isaki
1.2     isaki 	ct.dev = sc->sc_monitor_port;
1.2     isaki 	ct.type = AUDIO_MIXER_VALUE;
1.2     isaki 	ct.un.value.num_channels = 1;
1.2     isaki 	ct.un.value.level[AUDIO_MIXER_LEVEL_MONO] = monitor_gain;
1.2     isaki 	return audio_set_port(sc, &ct);
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * It returns monitor gain if success, otherwise -1.
1.2     isaki  * Must be called only if sc->sc_monitor_port != -1.
1.2     isaki  * Must be called with sc_lock && sc_exlock held.
1.2     isaki  */
1.2     isaki static int
1.2     isaki au_get_monitor_gain(struct audio_softc *sc)
1.2     isaki {
1.2     isaki 	mixer_ctrl_t ct;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(sc->sc_exlock);
1.2     isaki
1.2     isaki 	ct.dev = sc->sc_monitor_port;
1.2     isaki 	ct.type = AUDIO_MIXER_VALUE;
1.2     isaki 	ct.un.value.num_channels = 1;
1.2     isaki 	if (audio_get_port(sc, &ct))
1.2     isaki 		return -1;
1.2     isaki 	return ct.un.value.level[AUDIO_MIXER_LEVEL_MONO];
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Must be called with sc_lock && sc_exlock held.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_set_port(struct audio_softc *sc, mixer_ctrl_t *mc)
1.2     isaki {
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(sc->sc_exlock);
1.2     isaki
1.2     isaki 	return sc->hw_if->set_port(sc->hw_hdl, mc);
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Must be called with sc_lock && sc_exlock held.
1.2     isaki  */
1.2     isaki static int
1.2     isaki audio_get_port(struct audio_softc *sc, mixer_ctrl_t *mc)
1.2     isaki {
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(sc->sc_exlock);
1.2     isaki
1.2     isaki 	return sc->hw_if->get_port(sc->hw_hdl, mc);
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Must be called with sc_lock && sc_exlock held.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_mixer_capture(struct audio_softc *sc)
1.2     isaki {
1.2     isaki 	mixer_devinfo_t mi;
1.2     isaki 	mixer_ctrl_t *mc;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(sc->sc_exlock);
1.2     isaki
1.2     isaki 	for (mi.index = 0;; mi.index++) {
1.2     isaki 		if (audio_query_devinfo(sc, &mi) != 0)
1.2     isaki 			break;
1.2     isaki 		KASSERT(mi.index < sc->sc_nmixer_states);
1.2     isaki 		if (mi.type == AUDIO_MIXER_CLASS)
1.2     isaki 			continue;
1.2     isaki 		mc = &sc->sc_mixer_state[mi.index];
1.2     isaki 		mc->dev = mi.index;
1.2     isaki 		mc->type = mi.type;
1.2     isaki 		mc->un.value.num_channels = mi.un.v.num_channels;
1.2     isaki 		(void)audio_get_port(sc, mc);
1.2     isaki 	}
1.2     isaki
1.2     isaki 	return;
1.2     isaki }
1.2     isaki
1.2     isaki /*
1.2     isaki  * Must be called with sc_lock && sc_exlock held.
1.2     isaki  */
1.2     isaki static void
1.2     isaki audio_mixer_restore(struct audio_softc *sc)
1.2     isaki {
1.2     isaki 	mixer_devinfo_t mi;
1.2     isaki 	mixer_ctrl_t *mc;
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki 	KASSERT(sc->sc_exlock);
1.2     isaki
1.2     isaki 	for (mi.index = 0; ; mi.index++) {
1.2     isaki 		if (audio_query_devinfo(sc, &mi) != 0)
1.2     isaki 			break;
1.2     isaki 		if (mi.type == AUDIO_MIXER_CLASS)
1.2     isaki 			continue;
1.2     isaki 		mc = &sc->sc_mixer_state[mi.index];
1.2     isaki 		(void)audio_set_port(sc, mc);
1.2     isaki 	}
1.2     isaki 	if (sc->hw_if->commit_settings)
1.2     isaki 		sc->hw_if->commit_settings(sc->hw_hdl);
1.2     isaki
1.2     isaki 	return;
1.2     isaki }
1.2     isaki
1.2     isaki static void
1.2     isaki audio_volume_down(device_t dv)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc = device_private(dv);
1.2     isaki 	mixer_devinfo_t mi;
1.2     isaki 	int newgain;
1.2     isaki 	u_int gain;
1.2     isaki 	u_char balance;
1.2     isaki
1.2     isaki 	if (audio_enter_exclusive(sc) != 0)
1.2     isaki 		return;
1.2     isaki 	if (sc->sc_outports.index == -1 && sc->sc_outports.master != -1) {
1.2     isaki 		mi.index = sc->sc_outports.master;
1.2     isaki 		mi.un.v.delta = 0;
1.2     isaki 		if (audio_query_devinfo(sc, &mi) == 0) {
1.2     isaki 			au_get_gain(sc, &sc->sc_outports, &gain, &balance);
1.2     isaki 			newgain = gain - mi.un.v.delta;
1.2     isaki 			if (newgain < AUDIO_MIN_GAIN)
1.2     isaki 				newgain = AUDIO_MIN_GAIN;
1.2     isaki 			au_set_gain(sc, &sc->sc_outports, newgain, balance);
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki 	audio_exit_exclusive(sc);
1.2     isaki }
1.2     isaki
1.2     isaki static void
1.2     isaki audio_volume_up(device_t dv)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc = device_private(dv);
1.2     isaki 	mixer_devinfo_t mi;
1.2     isaki 	u_int gain, newgain;
1.2     isaki 	u_char balance;
1.2     isaki
1.2     isaki 	if (audio_enter_exclusive(sc) != 0)
1.2     isaki 		return;
1.2     isaki 	if (sc->sc_outports.index == -1 && sc->sc_outports.master != -1) {
1.2     isaki 		mi.index = sc->sc_outports.master;
1.2     isaki 		mi.un.v.delta = 0;
1.2     isaki 		if (audio_query_devinfo(sc, &mi) == 0) {
1.2     isaki 			au_get_gain(sc, &sc->sc_outports, &gain, &balance);
1.2     isaki 			newgain = gain + mi.un.v.delta;
1.2     isaki 			if (newgain > AUDIO_MAX_GAIN)
1.2     isaki 				newgain = AUDIO_MAX_GAIN;
1.2     isaki 			au_set_gain(sc, &sc->sc_outports, newgain, balance);
1.2     isaki 		}
1.2     isaki 	}
1.2     isaki 	audio_exit_exclusive(sc);
1.2     isaki }
1.2     isaki
1.2     isaki static void
1.2     isaki audio_volume_toggle(device_t dv)
1.2     isaki {
1.2     isaki 	struct audio_softc *sc = device_private(dv);
1.2     isaki 	u_int gain, newgain;
1.2     isaki 	u_char balance;
1.2     isaki
1.2     isaki 	if (audio_enter_exclusive(sc) != 0)
1.2     isaki 		return;
1.2     isaki 	au_get_gain(sc, &sc->sc_outports, &gain, &balance);
1.2     isaki 	if (gain != 0) {
1.2     isaki 		sc->sc_lastgain = gain;
1.2     isaki 		newgain = 0;
1.2     isaki 	} else
1.2     isaki 		newgain = sc->sc_lastgain;
1.2     isaki 	au_set_gain(sc, &sc->sc_outports, newgain, balance);
1.2     isaki 	audio_exit_exclusive(sc);
1.2     isaki }
1.2     isaki
1.2     isaki static int
1.2     isaki audio_query_devinfo(struct audio_softc *sc, mixer_devinfo_t *di)
1.2     isaki {
1.2     isaki
1.2     isaki 	KASSERT(mutex_owned(sc->sc_lock));
1.2     isaki
1.2     isaki 	return sc->hw_if->query_devinfo(sc->hw_hdl, di);
1.2     isaki }
1.2     isaki
1.2     isaki #endif /* NAUDIO > 0 */
1.2     isaki
1.2     isaki #if NAUDIO == 0 && (NMIDI > 0 || NMIDIBUS > 0)
1.2     isaki #include <sys/param.h>
1.2     isaki #include <sys/systm.h>
1.2     isaki #include <sys/device.h>
1.2     isaki #include <sys/audioio.h>
1.2     isaki #include <dev/audio/audio_if.h>
1.2     isaki #endif
1.2     isaki
1.2     isaki #if NAUDIO > 0 || (NMIDI > 0 || NMIDIBUS > 0)
1.2     isaki int
1.2     isaki audioprint(void *aux, const char *pnp)
1.2     isaki {
1.2     isaki 	struct audio_attach_args *arg;
1.2     isaki 	const char *type;
1.2     isaki
1.2     isaki 	if (pnp != NULL) {
1.2     isaki 		arg = aux;
1.2     isaki 		switch (arg->type) {
1.2     isaki 		case AUDIODEV_TYPE_AUDIO:
1.2     isaki 			type = "audio";
1.2     isaki 			break;
1.2     isaki 		case AUDIODEV_TYPE_MIDI:
1.2     isaki 			type = "midi";
1.2     isaki 			break;
1.2     isaki 		case AUDIODEV_TYPE_OPL:
1.2     isaki 			type = "opl";
1.2     isaki 			break;
1.2     isaki 		case AUDIODEV_TYPE_MPU:
1.2     isaki 			type = "mpu";
1.2     isaki 			break;
1.2     isaki 		default:
1.2     isaki 			panic("audioprint: unknown type %d", arg->type);
1.2     isaki 		}
1.2     isaki 		aprint_normal("%s at %s", type, pnp);
1.2     isaki 	}
1.2     isaki 	return UNCONF;
1.2     isaki }
1.2     isaki
1.2     isaki #endif /* NAUDIO > 0 || (NMIDI > 0 || NMIDIBUS > 0) */
1.2     isaki
1.2     isaki #ifdef _MODULE
1.2     isaki
1.2     isaki devmajor_t audio_bmajor = -1, audio_cmajor = -1;
1.2     isaki
1.2     isaki #include "ioconf.c"
1.2     isaki
1.2     isaki #endif
1.2     isaki
1.2     isaki MODULE(MODULE_CLASS_DRIVER, audio, NULL);
1.2     isaki
1.2     isaki static int
1.2     isaki audio_modcmd(modcmd_t cmd, void *arg)
1.2     isaki {
1.2     isaki 	int error = 0;
1.2     isaki
1.2     isaki #ifdef _MODULE
1.2     isaki 	switch (cmd) {
1.2     isaki 	case MODULE_CMD_INIT:
1.2     isaki 		error = devsw_attach(audio_cd.cd_name, NULL, &audio_bmajor,
1.2     isaki 		    &audio_cdevsw, &audio_cmajor);
1.2     isaki 		if (error)
1.2     isaki 			break;
1.2     isaki
1.2     isaki 		error = config_init_component(cfdriver_ioconf_audio,
1.2     isaki 		    cfattach_ioconf_audio, cfdata_ioconf_audio);
1.2     isaki 		if (error) {
1.2     isaki 			devsw_detach(NULL, &audio_cdevsw);
1.2     isaki 		}
1.2     isaki 		break;
1.2     isaki 	case MODULE_CMD_FINI:
1.2     isaki 		devsw_detach(NULL, &audio_cdevsw);
1.2     isaki 		error = config_fini_component(cfdriver_ioconf_audio,
1.2     isaki 		   cfattach_ioconf_audio, cfdata_ioconf_audio);
1.2     isaki 		if (error)
1.2     isaki 			devsw_attach(audio_cd.cd_name, NULL, &audio_bmajor,
1.2     isaki 			    &audio_cdevsw, &audio_cmajor);
1.2     isaki 		break;
1.2     isaki 	default:
1.2     isaki 		error = ENOTTY;
1.2     isaki 		break;
1.2     isaki 	}
1.2     isaki #endif
1.2     isaki
1.2     isaki 	return error;
1.2     isaki }