dev/sbus/dbri.c

1.35       mrg /*	$NetBSD: dbri.c,v 1.35 2013/10/19 21:00:32 mrg Exp $	*/
 1.1  macallan
 1.1  macallan /*
 1.2  macallan  * Copyright (C) 1997 Rudolf Koenig (rfkoenig (at) immd4.informatik.uni-erlangen.de)
 1.2  macallan  * Copyright (c) 1998, 1999 Brent Baccala (baccala (at) freesoft.org)
 1.2  macallan  * Copyright (c) 2001, 2002 Jared D. McNeill <jmcneill (at) netbsd.org>
1.19  macallan  * Copyright (c) 2005 Michael Lorenz <macallan (at) netbsd.org>
 1.1  macallan  * All rights reserved.
 1.1  macallan  *
1.19  macallan  * This driver is losely based on a Linux driver written by Rudolf Koenig and
1.19  macallan  * Brent Baccala who kindly gave their permission to use their code in a
 1.2  macallan  * BSD-licensed driver.
 1.2  macallan  *
 1.1  macallan  * Redistribution and use in source and binary forms, with or without
 1.1  macallan  * modification, are permitted provided that the following conditions
 1.1  macallan  * are met:
 1.1  macallan  * 1. Redistributions of source code must retain the above copyright
 1.1  macallan  *    notice, this list of conditions and the following disclaimer.
 1.1  macallan  * 2. Redistributions in binary form must reproduce the above copyright
 1.1  macallan  *    notice, this list of conditions and the following disclaimer in the
 1.1  macallan  *    documentation and/or other materials provided with the distribution.
 1.1  macallan  *
1.19  macallan  * THIS SOFTWARE IS PROVIDED BY THE AUTHORS ``AS IS'' AND ANY EXPRESS OR
1.19  macallan  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
1.19  macallan  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
1.19  macallan  * IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY DIRECT, INDIRECT,
1.19  macallan  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
1.19  macallan  * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
1.19  macallan  * USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
1.19  macallan  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
1.19  macallan  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
1.19  macallan  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 1.1  macallan  *
 1.1  macallan  */
 1.1  macallan
 1.1  macallan #include <sys/cdefs.h>
1.35       mrg __KERNEL_RCSID(0, "$NetBSD: dbri.c,v 1.35 2013/10/19 21:00:32 mrg Exp $");
 1.1  macallan
 1.1  macallan #include "audio.h"
 1.1  macallan #if NAUDIO > 0
 1.1  macallan
 1.1  macallan #include <sys/param.h>
 1.1  macallan #include <sys/systm.h>
 1.1  macallan #include <sys/errno.h>
 1.1  macallan #include <sys/device.h>
 1.1  macallan #include <sys/proc.h>
1.15  macallan #include <sys/kernel.h>
1.16        ad #include <sys/bus.h>
1.16        ad #include <sys/intr.h>
1.34  jmcneill #include <sys/kmem.h>
 1.1  macallan
 1.1  macallan #include <dev/sbus/sbusvar.h>
 1.1  macallan #include <sparc/sparc/auxreg.h>
 1.1  macallan #include <machine/autoconf.h>
 1.1  macallan
 1.1  macallan #include <sys/audioio.h>
 1.1  macallan #include <dev/audio_if.h>
 1.1  macallan #include <dev/auconv.h>
 1.1  macallan
 1.1  macallan #include <dev/ic/cs4215reg.h>
 1.1  macallan #include <dev/ic/cs4215var.h>
 1.1  macallan #include <dev/sbus/dbrireg.h>
 1.1  macallan #include <dev/sbus/dbrivar.h>
 1.1  macallan
 1.4  macallan #include "opt_sbus_dbri.h"
 1.4  macallan
 1.1  macallan #define DBRI_ROM_NAME_PREFIX		"SUNW,DBRI"
 1.1  macallan
 1.4  macallan #ifdef DBRI_DEBUG
1.11  macallan # define DPRINTF aprint_normal
 1.4  macallan #else
1.10  macallan # define DPRINTF while (0) printf
 1.4  macallan #endif
 1.1  macallan
 1.1  macallan static const char *dbri_supported[] = {
 1.1  macallan 	"e",
 1.1  macallan 	"s3",
 1.1  macallan 	""
 1.1  macallan };
 1.1  macallan
 1.1  macallan enum ms {
 1.1  macallan 	CHImaster,
 1.1  macallan 	CHIslave
 1.1  macallan };
 1.1  macallan
 1.1  macallan enum io {
 1.1  macallan 	PIPEinput,
 1.1  macallan 	PIPEoutput
 1.1  macallan };
 1.1  macallan
 1.1  macallan /*
 1.1  macallan  * Function prototypes
 1.1  macallan  */
 1.1  macallan
 1.1  macallan /* softc stuff */
1.20  macallan static void	dbri_attach_sbus(device_t, device_t, void *);
1.22    cegger static int	dbri_match_sbus(device_t, cfdata_t, void *);
 1.1  macallan
1.32  macallan static int	dbri_config_interrupts(device_t);
 1.1  macallan
 1.1  macallan /* interrupt handler */
 1.1  macallan static int	dbri_intr(void *);
1.17        ad static void	dbri_softint(void *);
 1.1  macallan
 1.1  macallan /* supporting subroutines */
 1.1  macallan static int	dbri_init(struct dbri_softc *);
 1.1  macallan static int	dbri_reset(struct dbri_softc *);
1.25   tsutsui static volatile uint32_t *dbri_command_lock(struct dbri_softc *);
1.25   tsutsui static void	dbri_command_send(struct dbri_softc *, volatile uint32_t *);
 1.1  macallan static void	dbri_process_interrupt_buffer(struct dbri_softc *);
 1.1  macallan static void	dbri_process_interrupt(struct dbri_softc *, int32_t);
 1.1  macallan
 1.1  macallan /* mmcodec subroutines */
 1.1  macallan static int	mmcodec_init(struct dbri_softc *);
 1.1  macallan static void	mmcodec_init_data(struct dbri_softc *);
 1.1  macallan static void	mmcodec_pipe_init(struct dbri_softc *);
 1.1  macallan static void	mmcodec_default(struct dbri_softc *);
 1.1  macallan static void	mmcodec_setgain(struct dbri_softc *, int);
 1.1  macallan static int	mmcodec_setcontrol(struct dbri_softc *);
 1.1  macallan
 1.1  macallan /* chi subroutines */
 1.1  macallan static void	chi_reset(struct dbri_softc *, enum ms, int);
 1.1  macallan
 1.1  macallan /* pipe subroutines */
 1.1  macallan static void	pipe_setup(struct dbri_softc *, int, int);
 1.1  macallan static void	pipe_reset(struct dbri_softc *, int);
 1.5     blymn static void	pipe_receive_fixed(struct dbri_softc *, int,
1.25   tsutsui     volatile uint32_t *);
1.25   tsutsui static void	pipe_transmit_fixed(struct dbri_softc *, int, uint32_t);
 1.1  macallan
 1.1  macallan static void	pipe_ts_link(struct dbri_softc *, int, enum io, int, int, int);
 1.1  macallan static int	pipe_active(struct dbri_softc *, int);
 1.1  macallan
 1.1  macallan /* audio(9) stuff */
 1.1  macallan static int	dbri_query_encoding(void *, struct audio_encoding *);
 1.1  macallan static int	dbri_set_params(void *, int, int, struct audio_params *,
 1.1  macallan     struct audio_params *,stream_filter_list_t *, stream_filter_list_t *);
 1.1  macallan static int	dbri_round_blocksize(void *, int, int, const audio_params_t *);
 1.1  macallan static int	dbri_halt_output(void *);
1.13  macallan static int	dbri_halt_input(void *);
 1.1  macallan static int	dbri_getdev(void *, struct audio_device *);
 1.1  macallan static int	dbri_set_port(void *, mixer_ctrl_t *);
 1.1  macallan static int	dbri_get_port(void *, mixer_ctrl_t *);
 1.1  macallan static int	dbri_query_devinfo(void *, mixer_devinfo_t *);
 1.1  macallan static size_t	dbri_round_buffersize(void *, int, size_t);
 1.1  macallan static int	dbri_get_props(void *);
 1.4  macallan static int	dbri_open(void *, int);
 1.4  macallan static void	dbri_close(void *);
 1.1  macallan
1.14  macallan static void	setup_ring_xmit(struct dbri_softc *, int, int, int, int,
1.14  macallan     void (*)(void *), void *);
1.14  macallan static void	setup_ring_recv(struct dbri_softc *, int, int, int, int,
1.11  macallan     void (*)(void *), void *);
 1.1  macallan
 1.5     blymn static int	dbri_trigger_output(void *, void *, void *, int,
 1.1  macallan     void (*)(void *), void *, const struct audio_params *);
1.13  macallan static int	dbri_trigger_input(void *, void *, void *, int,
1.13  macallan     void (*)(void *), void *, const struct audio_params *);
1.34  jmcneill static void	dbri_get_locks(void *, kmutex_t **, kmutex_t **);
 1.1  macallan
1.34  jmcneill static void	*dbri_malloc(void *, int, size_t);
1.34  jmcneill static void	dbri_free(void *, void *, size_t);
 1.1  macallan static paddr_t	dbri_mappage(void *, void *, off_t, int);
 1.4  macallan static void	dbri_set_power(struct dbri_softc *, int);
 1.4  macallan static void	dbri_bring_up(struct dbri_softc *);
1.31    dyoung static bool	dbri_suspend(device_t, const pmf_qual_t *);
1.31    dyoung static bool	dbri_resume(device_t, const pmf_qual_t *);
 1.1  macallan
 1.1  macallan /* stupid support routines */
1.25   tsutsui static uint32_t	reverse_bytes(uint32_t, int);
 1.1  macallan
 1.1  macallan struct audio_device dbri_device = {
 1.1  macallan 	"CS4215",
 1.1  macallan 	"",
 1.1  macallan 	"dbri"
 1.1  macallan };
 1.1  macallan
 1.1  macallan struct audio_hw_if dbri_hw_if = {
1.34  jmcneill 	.open			= dbri_open,
1.34  jmcneill 	.close			= dbri_close,
1.34  jmcneill 	.query_encoding		= dbri_query_encoding,
1.34  jmcneill 	.set_params		= dbri_set_params,
1.34  jmcneill 	.round_blocksize	= dbri_round_blocksize,
1.34  jmcneill 	.halt_output		= dbri_halt_output,
1.34  jmcneill 	.halt_input		= dbri_halt_input,
1.34  jmcneill 	.getdev			= dbri_getdev,
1.34  jmcneill 	.set_port		= dbri_set_port,
1.34  jmcneill 	.get_port		= dbri_get_port,
1.34  jmcneill 	.query_devinfo		= dbri_query_devinfo,
1.34  jmcneill 	.allocm			= dbri_malloc,
1.34  jmcneill 	.freem			= dbri_free,
1.34  jmcneill 	.round_buffersize	= dbri_round_buffersize,
1.34  jmcneill 	.mappage		= dbri_mappage,
1.34  jmcneill 	.get_props		= dbri_get_props,
1.34  jmcneill 	.trigger_output		= dbri_trigger_output,
1.34  jmcneill 	.trigger_input		= dbri_trigger_input,
1.34  jmcneill 	.get_locks		= dbri_get_locks,
 1.1  macallan };
 1.1  macallan
1.20  macallan CFATTACH_DECL_NEW(dbri, sizeof(struct dbri_softc),
 1.1  macallan     dbri_match_sbus, dbri_attach_sbus, NULL, NULL);
 1.1  macallan
1.14  macallan #define DBRI_NFORMATS		4
1.11  macallan static const struct audio_format dbri_formats[DBRI_NFORMATS] = {
1.11  macallan 	{NULL, AUMODE_PLAY | AUMODE_RECORD, AUDIO_ENCODING_SLINEAR_BE, 16, 16,
1.14  macallan 	 2, AUFMT_STEREO, 8, {8000, 9600, 11025, 16000, 22050, 32000, 44100,
1.14  macallan 	 48000}},
1.14  macallan /*	{NULL, AUMODE_PLAY | AUMODE_RECORD, AUDIO_ENCODING_ULAW, 8, 8,
1.14  macallan 	 2, AUFMT_STEREO, 8, {8000, 9600, 11025, 16000, 22050, 32000, 44100,
1.14  macallan 	 48000}},
1.11  macallan 	{NULL, AUMODE_PLAY | AUMODE_RECORD, AUDIO_ENCODING_ALAW, 8, 8,
1.14  macallan 	 2, AUFMT_STEREO, 8, {8000, 9600, 11025, 16000, 22050, 32000, 44100,
1.14  macallan 	 48000}},
1.11  macallan 	{NULL, AUMODE_PLAY | AUMODE_RECORD, AUDIO_ENCODING_ULINEAR, 8, 8,
1.14  macallan 	 2, AUFMT_STEREO, 8, {8000, 9600, 11025, 16000, 22050, 32000, 44100,
1.14  macallan 	 48000}},*/
1.11  macallan 	{NULL, AUMODE_PLAY | AUMODE_RECORD, AUDIO_ENCODING_ULAW, 8, 8,
1.14  macallan 	 1, AUFMT_MONAURAL, 8, {8000, 9600, 11025, 16000, 22050, 32000, 44100,
1.14  macallan 	 48000}},
1.11  macallan 	{NULL, AUMODE_PLAY | AUMODE_RECORD, AUDIO_ENCODING_ALAW, 8, 8,
1.14  macallan 	 1, AUFMT_MONAURAL, 8, {8000, 9600, 11025, 16000, 22050, 32000, 44100,
1.14  macallan 	 48000}},
1.11  macallan 	{NULL, AUMODE_PLAY | AUMODE_RECORD, AUDIO_ENCODING_ULINEAR, 8, 8,
1.14  macallan 	 1, AUFMT_MONAURAL, 8, {8000, 9600, 11025, 16000, 22050, 32000, 44100,
1.14  macallan 	 48000}},
1.11  macallan };
1.11  macallan
 1.1  macallan enum {
1.13  macallan 	DBRI_OUTPUT_CLASS,
 1.1  macallan 	DBRI_VOL_OUTPUT,
 1.1  macallan 	DBRI_ENABLE_MONO,
 1.1  macallan 	DBRI_ENABLE_HEADPHONE,
1.13  macallan 	DBRI_ENABLE_LINE,
1.13  macallan 	DBRI_MONITOR_CLASS,
1.13  macallan 	DBRI_VOL_MONITOR,
 1.1  macallan 	DBRI_INPUT_CLASS,
 1.1  macallan 	DBRI_INPUT_GAIN,
 1.1  macallan 	DBRI_INPUT_SELECT,
1.13  macallan 	DBRI_RECORD_CLASS,
 1.1  macallan 	DBRI_ENUM_LAST
 1.1  macallan };
 1.1  macallan
 1.1  macallan /*
 1.1  macallan  * Autoconfig routines
 1.1  macallan  */
1.11  macallan static int
1.22    cegger dbri_match_sbus(device_t parent, cfdata_t match, void *aux)
 1.1  macallan {
 1.1  macallan 	struct sbus_attach_args *sa = aux;
 1.1  macallan 	char *ver;
 1.1  macallan 	int i;
 1.1  macallan
 1.1  macallan 	if (strncmp(DBRI_ROM_NAME_PREFIX, sa->sa_name, 9))
 1.1  macallan 		return (0);
 1.1  macallan
 1.1  macallan 	ver = &sa->sa_name[9];
 1.1  macallan
 1.1  macallan 	for (i = 0; dbri_supported[i][0] != '\0'; i++)
 1.1  macallan 		if (strcmp(dbri_supported[i], ver) == 0)
 1.1  macallan 			return (1);
 1.1  macallan
 1.1  macallan 	return (0);
 1.1  macallan }
 1.1  macallan
1.11  macallan static void
1.20  macallan dbri_attach_sbus(device_t parent, device_t self, void *aux)
 1.1  macallan {
1.20  macallan 	struct dbri_softc *sc = device_private(self);
 1.1  macallan 	struct sbus_attach_args *sa = aux;
 1.1  macallan 	bus_space_handle_t ioh;
 1.1  macallan 	bus_size_t size;
1.17        ad 	int error, rseg, pwr, i;
 1.1  macallan 	char *ver = &sa->sa_name[9];
 1.1  macallan
1.20  macallan 	sc->sc_dev = self;
 1.1  macallan 	sc->sc_iot = sa->sa_bustag;
 1.1  macallan 	sc->sc_dmat = sa->sa_dmatag;
1.15  macallan 	sc->sc_powerstate = 1;
 1.5     blymn
 1.4  macallan 	pwr = prom_getpropint(sa->sa_node,"pwr-on-auxio",0);
1.13  macallan 	aprint_normal(": rev %s\n", ver);
1.10  macallan
1.12  macallan 	if (pwr) {
 1.5     blymn 		/*
 1.4  macallan 		 * we can control DBRI power via auxio and we're initially
 1.4  macallan 		 * powered down
 1.4  macallan 		 */
 1.5     blymn
 1.4  macallan 		sc->sc_have_powerctl = 1;
 1.4  macallan 		sc->sc_powerstate = 0;
 1.4  macallan 		dbri_set_power(sc, 1);
1.26  christos 		if (!pmf_device_register(self, dbri_suspend, dbri_resume)) {
1.26  christos 			aprint_error_dev(self,
1.26  christos 			    "cannot set power mgmt handler\n");
1.26  christos 		}
 1.4  macallan 	} else {
 1.4  macallan 		/* we can't control power so we're always up */
 1.4  macallan 		sc->sc_have_powerctl = 0;
 1.4  macallan 		sc->sc_powerstate = 1;
 1.4  macallan 	}
 1.5     blymn
1.17        ad 	for (i = 0; i < DBRI_NUM_DESCRIPTORS; i++) {
1.17        ad 		sc->sc_desc[i].softint = softint_establish(SOFTINT_SERIAL,
1.17        ad 		    dbri_softint, &sc->sc_desc[i]);
1.17        ad 	}
1.17        ad
 1.1  macallan 	if (sa->sa_npromvaddrs)
 1.1  macallan 		ioh = (bus_space_handle_t)sa->sa_promvaddrs[0];
 1.1  macallan 	else {
 1.1  macallan 		if (sbus_bus_map(sa->sa_bustag, sa->sa_slot,
 1.1  macallan 				 sa->sa_offset, sa->sa_size,
 1.1  macallan 				 BUS_SPACE_MAP_LINEAR, /*0,*/ &ioh) != 0) {
1.10  macallan 			aprint_error("%s @ sbus: cannot map registers\n",
1.18    cegger 				device_xname(self));
 1.1  macallan 			return;
 1.1  macallan 		}
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	sc->sc_ioh = ioh;
 1.1  macallan
 1.1  macallan 	size = sizeof(struct dbri_dma);
 1.1  macallan
 1.1  macallan 	/* get a DMA handle */
 1.1  macallan 	if ((error = bus_dmamap_create(sc->sc_dmat, size, 1, size, 0,
 1.1  macallan 				       BUS_DMA_NOWAIT, &sc->sc_dmamap)) != 0) {
1.18    cegger 		aprint_error_dev(self, "DMA map create error %d\n",
1.14  macallan 		    error);
 1.1  macallan 		return;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	/* allocate DMA buffer */
 1.1  macallan 	if ((error = bus_dmamem_alloc(sc->sc_dmat, size, 0, 0, &sc->sc_dmaseg,
 1.1  macallan 				      1, &rseg, BUS_DMA_NOWAIT)) != 0) {
1.18    cegger 		aprint_error_dev(self, "DMA buffer alloc error %d\n",
1.18    cegger 		    error);
 1.1  macallan 		return;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	/* map DMA buffer into CPU addressable space */
 1.1  macallan 	if ((error = bus_dmamem_map(sc->sc_dmat, &sc->sc_dmaseg, rseg, size,
 1.1  macallan 				    &sc->sc_membase,
 1.1  macallan 				    BUS_DMA_NOWAIT|BUS_DMA_COHERENT)) != 0) {
1.18    cegger 		aprint_error_dev(self, "DMA buffer map error %d\n",
1.18    cegger 		    error);
 1.1  macallan 		return;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	/* load the buffer */
 1.1  macallan 	if ((error = bus_dmamap_load(sc->sc_dmat, sc->sc_dmamap,
 1.1  macallan 				     sc->sc_membase, size, NULL,
 1.1  macallan 				     BUS_DMA_NOWAIT)) != 0) {
1.18    cegger 		aprint_error_dev(self, "DMA buffer map load error %d\n",
1.18    cegger 		    error);
 1.1  macallan 		bus_dmamem_unmap(sc->sc_dmat, sc->sc_membase, size);
 1.1  macallan 		bus_dmamem_free(sc->sc_dmat, &sc->sc_dmaseg, rseg);
 1.1  macallan 		return;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	/* map the registers into memory */
 1.1  macallan
 1.9  macallan 	/* kernel virtual address of DMA buffer */
 1.9  macallan 	sc->sc_dma = (struct dbri_dma *)sc->sc_membase;
 1.9  macallan 	/* physical address of DMA buffer */
 1.9  macallan 	sc->sc_dmabase = sc->sc_dmamap->dm_segs[0].ds_addr;
 1.1  macallan 	sc->sc_bufsiz = size;
 1.1  macallan
1.34  jmcneill 	mutex_init(&sc->sc_lock, MUTEX_DEFAULT, IPL_NONE);
1.34  jmcneill 	mutex_init(&sc->sc_intr_lock, MUTEX_DEFAULT, IPL_SCHED);
1.34  jmcneill
1.17        ad 	bus_intr_establish(sa->sa_bustag, sa->sa_pri, IPL_SCHED, dbri_intr,
1.12  macallan 	    sc);
 1.1  macallan
 1.1  macallan 	sc->sc_locked = 0;
 1.1  macallan 	sc->sc_desc_used = 0;
1.14  macallan 	sc->sc_refcount = 0;
1.13  macallan 	sc->sc_playing = 0;
1.14  macallan 	sc->sc_recording = 0;
1.32  macallan 	sc->sc_init_done = 0;
1.32  macallan 	config_finalize_register(self, &dbri_config_interrupts);
 1.1  macallan
 1.1  macallan 	return;
 1.1  macallan }
 1.1  macallan
 1.4  macallan /*
 1.4  macallan  * lowlevel routine to switch power for the DBRI chip
 1.4  macallan  */
 1.4  macallan static void
 1.4  macallan dbri_set_power(struct dbri_softc *sc, int state)
 1.4  macallan {
 1.4  macallan 	int s;
 1.5     blymn
 1.4  macallan 	if (sc->sc_have_powerctl == 0)
 1.4  macallan 		return;
 1.4  macallan 	if (sc->sc_powerstate == state)
 1.4  macallan 		return;
 1.5     blymn
 1.4  macallan 	if (state) {
1.20  macallan 		DPRINTF("%s: waiting to power up... ",
1.20  macallan 		    device_xname(sc->sc_dev));
 1.4  macallan 		s = splhigh();
 1.4  macallan 		*AUXIO4M_REG |= (AUXIO4M_MMX);
 1.4  macallan 		splx(s);
 1.9  macallan 		delay(10000);
1.13  macallan 		DPRINTF("done (%02x)\n", *AUXIO4M_REG);
 1.4  macallan 	} else {
1.20  macallan 		DPRINTF("%s: powering down\n", device_xname(sc->sc_dev));
 1.4  macallan 		s = splhigh();
 1.4  macallan 		*AUXIO4M_REG &= ~AUXIO4M_MMX;
 1.4  macallan 		splx(s);
1.10  macallan 		DPRINTF("done (%02x})\n", *AUXIO4M_REG);
 1.4  macallan 	}
 1.4  macallan 	sc->sc_powerstate = state;
 1.4  macallan }
 1.4  macallan
 1.4  macallan /*
 1.4  macallan  * power up and re-initialize the chip
 1.4  macallan  */
 1.4  macallan static void
 1.4  macallan dbri_bring_up(struct dbri_softc *sc)
 1.4  macallan {
 1.4  macallan
 1.4  macallan 	if (sc->sc_have_powerctl == 0)
 1.4  macallan 		return;
1.15  macallan
 1.4  macallan 	if (sc->sc_powerstate == 1)
 1.4  macallan 		return;
 1.5     blymn
 1.4  macallan 	/* ok, we really need to do something */
 1.4  macallan 	dbri_set_power(sc, 1);
 1.4  macallan
 1.4  macallan 	/*
 1.4  macallan 	 * re-initialize the chip but skip all the probing, don't overwrite
 1.4  macallan 	 * any other settings either
 1.4  macallan 	 */
 1.4  macallan 	dbri_init(sc);
 1.4  macallan 	mmcodec_setgain(sc, 1);
 1.4  macallan 	mmcodec_pipe_init(sc);
 1.4  macallan 	mmcodec_init_data(sc);
 1.4  macallan 	mmcodec_setgain(sc, 0);
 1.4  macallan }
 1.4  macallan
1.32  macallan static int
1.20  macallan dbri_config_interrupts(device_t dev)
 1.1  macallan {
1.20  macallan 	struct dbri_softc *sc = device_private(dev);
 1.9  macallan
1.32  macallan 	if (sc->sc_init_done != 0)
1.32  macallan 		return 0;
1.32  macallan
1.32  macallan 	sc->sc_init_done = 1;
1.32  macallan
 1.1  macallan 	dbri_init(sc);
1.30  macallan 	if (mmcodec_init(sc) == -1) {
1.30  macallan 		printf("%s: no codec detected, aborting\n",
1.30  macallan 		    device_xname(dev));
1.32  macallan 		return 0;
1.30  macallan 	}
1.30  macallan
 1.1  macallan 	/* Attach ourselves to the high level audio interface */
1.20  macallan 	audio_attach_mi(&dbri_hw_if, sc, sc->sc_dev);
 1.5     blymn
 1.4  macallan 	/* power down until open() */
 1.4  macallan 	dbri_set_power(sc, 0);
1.32  macallan 	return 0;
 1.1  macallan }
 1.1  macallan
1.11  macallan static int
 1.1  macallan dbri_intr(void *hdl)
 1.1  macallan {
 1.1  macallan 	struct dbri_softc *sc = hdl;
 1.1  macallan 	bus_space_tag_t iot = sc->sc_iot;
 1.1  macallan 	bus_space_handle_t ioh = sc->sc_ioh;
 1.1  macallan 	int x;
 1.1  macallan
1.34  jmcneill 	mutex_spin_enter(&sc->sc_intr_lock);
1.34  jmcneill
 1.1  macallan 	/* clear interrupt */
 1.1  macallan 	x = bus_space_read_4(iot, ioh, DBRI_REG1);
 1.1  macallan 	if (x & (DBRI_MRR | DBRI_MLE | DBRI_LBG | DBRI_MBE)) {
1.25   tsutsui 		uint32_t tmp;
 1.1  macallan
 1.1  macallan 		if (x & DBRI_MRR)
1.20  macallan 			aprint_debug_dev(sc->sc_dev,
1.20  macallan 			     "multiple ack error on sbus\n");
 1.1  macallan 		if (x & DBRI_MLE)
1.20  macallan 			aprint_debug_dev(sc->sc_dev,
1.20  macallan 			    "multiple late error on sbus\n");
 1.1  macallan 		if (x & DBRI_LBG)
1.20  macallan 			aprint_debug_dev(sc->sc_dev,
1.20  macallan 			    "lost bus grant on sbus\n");
 1.1  macallan 		if (x & DBRI_MBE)
1.20  macallan 			aprint_debug_dev(sc->sc_dev, "burst error on sbus\n");
 1.1  macallan
 1.1  macallan 		/*
 1.1  macallan 		 * Some of these errors disable the chip's circuitry.
 1.1  macallan 		 * Re-enable the circuitry and keep on going.
 1.1  macallan 		 */
 1.1  macallan
 1.1  macallan 		tmp = bus_space_read_4(iot, ioh, DBRI_REG0);
 1.1  macallan 		tmp &= ~(DBRI_DISABLE_MASTER);
 1.1  macallan 		bus_space_write_4(iot, ioh, DBRI_REG0, tmp);
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan #if 0
 1.1  macallan 	if (!x & 1)	/* XXX: DBRI_INTR_REQ */
 1.1  macallan 		return (1);
 1.1  macallan #endif
 1.1  macallan
 1.1  macallan 	dbri_process_interrupt_buffer(sc);
 1.1  macallan
1.34  jmcneill 	mutex_spin_exit(&sc->sc_intr_lock);
1.34  jmcneill
 1.1  macallan 	return (1);
 1.1  macallan }
 1.1  macallan
1.17        ad static void
1.17        ad dbri_softint(void *cookie)
1.17        ad {
1.17        ad 	struct dbri_desc *dd = cookie;
1.17        ad
1.17        ad 	if (dd->callback != NULL)
1.17        ad 		dd->callback(dd->callback_args);
1.17        ad }
1.17        ad
1.11  macallan static int
 1.1  macallan dbri_init(struct dbri_softc *sc)
 1.1  macallan {
 1.1  macallan 	bus_space_tag_t iot = sc->sc_iot;
 1.1  macallan 	bus_space_handle_t ioh = sc->sc_ioh;
1.25   tsutsui 	uint32_t reg;
1.25   tsutsui 	volatile uint32_t *cmd;
 1.1  macallan 	bus_addr_t dmaaddr;
 1.1  macallan 	int n;
 1.1  macallan
 1.1  macallan 	dbri_reset(sc);
 1.1  macallan
 1.1  macallan 	cmd = dbri_command_lock(sc);
 1.1  macallan
 1.1  macallan 	/* XXX: Initialize interrupt ring buffer */
1.25   tsutsui 	sc->sc_dma->intr[0] = (uint32_t)sc->sc_dmabase + dbri_dma_off(intr, 0);
 1.1  macallan 	sc->sc_irqp = 1;
 1.5     blymn
 1.1  macallan 	/* Initialize pipes */
 1.1  macallan 	for (n = 0; n < DBRI_PIPE_MAX; n++)
 1.1  macallan 		sc->sc_pipe[n].desc = sc->sc_pipe[n].next = -1;
 1.5     blymn
1.12  macallan 	for (n = 1; n < DBRI_INT_BLOCKS; n++) {
1.12  macallan 		sc->sc_dma->intr[n] = 0;
 1.1  macallan 	}
 1.5     blymn
 1.1  macallan 	/* Disable all SBus bursts */
 1.1  macallan 	/* XXX 16 byte bursts cause errors, the rest works */
 1.1  macallan 	reg = bus_space_read_4(iot, ioh, DBRI_REG0);
 1.9  macallan
 1.1  macallan 	/*reg &= ~(DBRI_BURST_4 | DBRI_BURST_8 | DBRI_BURST_16);*/
 1.1  macallan 	reg |= (DBRI_BURST_4 | DBRI_BURST_8);
 1.1  macallan 	bus_space_write_4(iot, ioh, DBRI_REG0, reg);
 1.5     blymn
 1.1  macallan 	/* setup interrupt queue */
1.25   tsutsui 	dmaaddr = (uint32_t)sc->sc_dmabase + dbri_dma_off(intr, 0);
 1.1  macallan 	*(cmd++) = DBRI_CMD(DBRI_COMMAND_IIQ, 0, 0);
 1.1  macallan 	*(cmd++) = dmaaddr;
 1.5     blymn
 1.1  macallan 	dbri_command_send(sc, cmd);
 1.1  macallan 	return (0);
 1.1  macallan }
 1.1  macallan
1.11  macallan static int
 1.1  macallan dbri_reset(struct dbri_softc *sc)
 1.1  macallan {
1.12  macallan 	int bail = 0;
1.12  macallan
 1.1  macallan 	bus_space_tag_t iot = sc->sc_iot;
 1.1  macallan 	bus_space_handle_t ioh = sc->sc_ioh;
 1.1  macallan
 1.1  macallan 	bus_space_write_4(iot, ioh, DBRI_REG0, DBRI_SOFT_RESET);
 1.5     blymn 	while ((bus_space_read_4(iot, ioh, DBRI_REG0) & DBRI_SOFT_RESET) &&
 1.5     blymn 	    (bail < 100000)) {
 1.1  macallan 		bail++;
 1.1  macallan 		delay(10);
 1.1  macallan 	}
1.18    cegger 	if (bail == 100000)
1.20  macallan 		aprint_error_dev(sc->sc_dev, "reset timed out\n");
 1.1  macallan 	return (0);
 1.1  macallan }
 1.1  macallan
1.25   tsutsui static volatile uint32_t *
 1.1  macallan dbri_command_lock(struct dbri_softc *sc)
 1.1  macallan {
 1.1  macallan
 1.1  macallan 	if (sc->sc_locked)
1.20  macallan 		aprint_debug_dev(sc->sc_dev, "command buffer locked\n");
 1.1  macallan
 1.1  macallan 	sc->sc_locked++;
 1.1  macallan
 1.1  macallan 	return (&sc->sc_dma->command[0]);
 1.1  macallan }
 1.1  macallan
1.11  macallan static void
1.25   tsutsui dbri_command_send(struct dbri_softc *sc, volatile uint32_t *cmd)
 1.1  macallan {
 1.1  macallan 	bus_space_handle_t ioh = sc->sc_ioh;
 1.1  macallan 	bus_space_tag_t iot = sc->sc_iot;
 1.1  macallan 	int maxloops = 1000000;
 1.1  macallan
1.34  jmcneill 	mutex_spin_enter(&sc->sc_intr_lock);
 1.1  macallan
 1.1  macallan 	sc->sc_locked--;
 1.1  macallan
 1.1  macallan 	if (sc->sc_locked != 0) {
1.20  macallan 		aprint_error_dev(sc->sc_dev,
1.20  macallan 		    "command buffer improperly locked\n");
 1.1  macallan 	} else if ((cmd - &sc->sc_dma->command[0]) >= DBRI_NUM_COMMANDS - 1) {
1.20  macallan 		aprint_error_dev(sc->sc_dev, "command buffer overflow\n");
 1.1  macallan 	} else {
 1.1  macallan 		*(cmd++) = DBRI_CMD(DBRI_COMMAND_PAUSE, 0, 0);
 1.1  macallan 		*(cmd++) = DBRI_CMD(DBRI_COMMAND_WAIT, 1, 0);
 1.1  macallan 		sc->sc_waitseen = 0;
 1.1  macallan 		bus_space_write_4(iot, ioh, DBRI_REG8, sc->sc_dmabase);
 1.1  macallan 		while ((--maxloops) > 0 &&
 1.1  macallan 		    (bus_space_read_4(iot, ioh, DBRI_REG0)
 1.1  macallan 		     & DBRI_COMMAND_VALID)) {
 1.1  macallan 			bus_space_barrier(iot, ioh, DBRI_REG0, 4,
 1.1  macallan 					  BUS_SPACE_BARRIER_READ);
 1.1  macallan 			delay(1000);
 1.1  macallan 		}
 1.1  macallan
 1.1  macallan 		if (maxloops == 0) {
1.20  macallan 			aprint_error_dev(sc->sc_dev,
1.18    cegger 			    "chip never completed command buffer\n");
 1.1  macallan 		} else {
 1.9  macallan
1.10  macallan 			DPRINTF("%s: command completed\n",
1.20  macallan 			    device_xname(sc->sc_dev));
 1.9  macallan
 1.1  macallan 			while ((--maxloops) > 0 && (!sc->sc_waitseen))
 1.1  macallan 				dbri_process_interrupt_buffer(sc);
 1.1  macallan 			if (maxloops == 0) {
1.20  macallan 				aprint_error_dev(sc->sc_dev, "chip never acked WAIT\n");
 1.1  macallan 			}
 1.1  macallan 		}
 1.1  macallan 	}
 1.1  macallan
1.34  jmcneill 	mutex_spin_exit(&sc->sc_intr_lock);
 1.1  macallan
 1.1  macallan 	return;
 1.1  macallan }
 1.1  macallan
1.11  macallan static void
 1.1  macallan dbri_process_interrupt_buffer(struct dbri_softc *sc)
 1.1  macallan {
 1.1  macallan 	int32_t i;
 1.1  macallan
 1.1  macallan 	while ((i = sc->sc_dma->intr[sc->sc_irqp]) != 0) {
 1.1  macallan 		sc->sc_dma->intr[sc->sc_irqp] = 0;
 1.1  macallan 		sc->sc_irqp++;
 1.1  macallan
 1.1  macallan 		if (sc->sc_irqp == DBRI_INT_BLOCKS)
 1.1  macallan 			sc->sc_irqp = 1;
 1.1  macallan 		else if ((sc->sc_irqp & (DBRI_INT_BLOCKS - 1)) == 0)
 1.1  macallan 			sc->sc_irqp++;
 1.1  macallan
 1.1  macallan 		dbri_process_interrupt(sc, i);
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	return;
 1.1  macallan }
 1.1  macallan
1.11  macallan static void
 1.1  macallan dbri_process_interrupt(struct dbri_softc *sc, int32_t i)
 1.1  macallan {
 1.1  macallan #if 0
 1.1  macallan 	const int liu_states[] = { 1, 0, 8, 3, 4, 5, 6, 7 };
 1.1  macallan #endif
 1.1  macallan 	int val = DBRI_INTR_GETVAL(i);
 1.1  macallan 	int channel = DBRI_INTR_GETCHAN(i);
 1.1  macallan 	int command = DBRI_INTR_GETCMD(i);
 1.1  macallan 	int code = DBRI_INTR_GETCODE(i);
 1.1  macallan #if 0
 1.1  macallan 	int rval = DBRI_INTR_GETRVAL(i);
 1.1  macallan #endif
 1.1  macallan 	if (channel == DBRI_INTR_CMD && command == DBRI_COMMAND_WAIT)
 1.1  macallan 		sc->sc_waitseen++;
 1.1  macallan
 1.1  macallan 	switch (code) {
 1.1  macallan 	case DBRI_INTR_XCMP:	/* transmission complete */
 1.1  macallan 	{
 1.1  macallan 		int td;
 1.1  macallan 		struct dbri_desc *dd;
 1.1  macallan
 1.1  macallan 		td = sc->sc_pipe[channel].desc;
 1.1  macallan 		dd = &sc->sc_desc[td];
 1.5     blymn
1.17        ad 		if (dd->callback != NULL)
1.17        ad 			softint_schedule(dd->softint);
 1.1  macallan 		break;
 1.1  macallan 	}
 1.1  macallan 	case DBRI_INTR_FXDT:		/* fixed data change */
1.10  macallan 		DPRINTF("dbri_intr: Fixed data change (%d: %x)\n", channel,
1.10  macallan 		    val);
1.14  macallan #if 0
1.14  macallan 		printf("reg: %08x\n", sc->sc_mm.status);
1.14  macallan #endif
 1.1  macallan 		if (sc->sc_pipe[channel].sdp & DBRI_SDP_MSB)
 1.1  macallan 			val = reverse_bytes(val, sc->sc_pipe[channel].length);
 1.1  macallan 		if (sc->sc_pipe[channel].prec)
 1.1  macallan 			*(sc->sc_pipe[channel].prec) = val;
1.13  macallan #ifndef DBRI_SPIN
1.20  macallan 		DPRINTF("%s: wakeup %p\n", device_xname(sc->sc_dev), sc);
 1.1  macallan 		wakeup(sc);
 1.1  macallan #endif
 1.1  macallan 		break;
 1.1  macallan 	case DBRI_INTR_SBRI:
1.10  macallan 		DPRINTF("dbri_intr: SBRI\n");
 1.1  macallan 		break;
 1.1  macallan 	case DBRI_INTR_BRDY:
 1.1  macallan 	{
1.14  macallan 		int td;
1.14  macallan 		struct dbri_desc *dd;
 1.1  macallan
1.14  macallan 		td = sc->sc_pipe[channel].desc;
1.14  macallan 		dd = &sc->sc_desc[td];
 1.1  macallan
1.14  macallan 		if (dd->callback != NULL)
1.17        ad 			softint_schedule(dd->softint);
 1.1  macallan 		break;
 1.1  macallan 	}
 1.1  macallan 	case DBRI_INTR_UNDR:
 1.1  macallan 	{
1.25   tsutsui 		volatile uint32_t *cmd;
 1.1  macallan 		int td = sc->sc_pipe[channel].desc;
 1.1  macallan
1.20  macallan 		DPRINTF("%s: DBRI_INTR_UNDR\n", device_xname(sc->sc_dev));
 1.1  macallan
1.14  macallan 		sc->sc_dma->xmit[td].status = 0;
 1.1  macallan
 1.1  macallan 		cmd = dbri_command_lock(sc);
 1.1  macallan 		*(cmd++) = DBRI_CMD(DBRI_COMMAND_SDP, 0,
 1.1  macallan 				    sc->sc_pipe[channel].sdp |
 1.1  macallan 				    DBRI_SDP_VALID_POINTER |
 1.1  macallan 				    DBRI_SDP_CLEAR |
 1.1  macallan 				    DBRI_SDP_2SAME);
1.14  macallan 		*(cmd++) = sc->sc_dmabase + dbri_dma_off(xmit, td);
 1.1  macallan 		dbri_command_send(sc, cmd);
 1.1  macallan 		break;
 1.1  macallan 	}
 1.9  macallan 	case DBRI_INTR_CMDI:
1.14  macallan 		DPRINTF("ok");
 1.9  macallan 		break;
 1.1  macallan 	default:
 1.9  macallan
1.20  macallan 		aprint_error_dev(sc->sc_dev, "unknown interrupt code %d\n",
1.18    cegger 		    code);
 1.1  macallan 		break;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	return;
 1.1  macallan }
 1.1  macallan
 1.1  macallan /*
 1.1  macallan  * mmcodec stuff
 1.1  macallan  */
 1.1  macallan
1.11  macallan static int
 1.1  macallan mmcodec_init(struct dbri_softc *sc)
 1.1  macallan {
 1.1  macallan 	bus_space_handle_t ioh = sc->sc_ioh;
 1.1  macallan 	bus_space_tag_t iot = sc->sc_iot;
1.25   tsutsui 	uint32_t reg2;
 1.9  macallan 	int bail;
 1.1  macallan
 1.1  macallan 	reg2 = bus_space_read_4(iot, ioh, DBRI_REG2);
1.10  macallan 	DPRINTF("mmcodec_init: PIO reads %x\n", reg2);
 1.5     blymn
 1.1  macallan 	if (reg2 & DBRI_PIO2) {
1.20  macallan 		aprint_normal_dev(sc->sc_dev, " onboard CS4215 detected\n");
 1.1  macallan 		sc->sc_mm.onboard = 1;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	if (reg2 & DBRI_PIO0) {
1.20  macallan 		aprint_normal_dev(sc->sc_dev, "speakerbox detected\n");
1.15  macallan 		bus_space_write_4(iot, ioh, DBRI_REG2, DBRI_PIO2_ENABLE);
 1.1  macallan 		sc->sc_mm.onboard = 0;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	if ((reg2 & DBRI_PIO2) && (reg2 & DBRI_PIO0)) {
1.20  macallan 		aprint_normal_dev(sc->sc_dev, "using speakerbox\n");
 1.1  macallan 		bus_space_write_4(iot, ioh, DBRI_REG2, DBRI_PIO2_ENABLE);
 1.1  macallan 		sc->sc_mm.onboard = 0;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	if (!(reg2 & (DBRI_PIO0|DBRI_PIO2))) {
1.20  macallan 		aprint_normal_dev(sc->sc_dev, "no mmcodec found\n");
 1.1  macallan 		return -1;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	sc->sc_version = 0xff;
 1.1  macallan
 1.1  macallan 	mmcodec_pipe_init(sc);
 1.1  macallan 	mmcodec_default(sc);
 1.1  macallan
 1.1  macallan 	sc->sc_mm.offset = sc->sc_mm.onboard ? 0 : 8;
 1.1  macallan
 1.9  macallan 	/*
 1.9  macallan 	 * mmcodec_setcontrol() sometimes fails right after powerup
 1.9  macallan 	 * so we just try again until we either get a useful response or run
 1.9  macallan 	 * out of time
 1.9  macallan 	 */
 1.9  macallan 	bail = 0;
 1.9  macallan 	while (mmcodec_setcontrol(sc) == -1 || sc->sc_version == 0xff) {
 1.9  macallan
 1.9  macallan 		bail++;
 1.9  macallan 		if (bail > 100) {
1.10  macallan 			DPRINTF("%s: cs4215 probe failed at offset %d\n",
1.20  macallan 		    	    device_xname(sc->sc_dev), sc->sc_mm.offset);
 1.9  macallan 			return (-1);
 1.9  macallan 		}
 1.9  macallan 		delay(10000);
 1.1  macallan 	}
 1.1  macallan
1.20  macallan 	aprint_normal_dev(sc->sc_dev, "cs4215 rev %c found at offset %d\n",
1.18    cegger 	    0x43 + (sc->sc_version & 0xf), sc->sc_mm.offset);
 1.1  macallan
 1.1  macallan 	/* set some sane defaults for mmcodec_init_data */
 1.1  macallan 	sc->sc_params.channels = 2;
 1.1  macallan 	sc->sc_params.precision = 16;
 1.1  macallan
 1.1  macallan 	mmcodec_init_data(sc);
 1.1  macallan
 1.1  macallan 	return (0);
 1.1  macallan }
 1.1  macallan
1.11  macallan static void
 1.1  macallan mmcodec_init_data(struct dbri_softc *sc)
 1.1  macallan {
 1.1  macallan 	bus_space_tag_t iot = sc->sc_iot;
 1.1  macallan 	bus_space_handle_t ioh = sc->sc_ioh;
1.25   tsutsui 	uint32_t tmp;
 1.1  macallan 	int data_width;
 1.1  macallan
 1.1  macallan 	tmp = bus_space_read_4(iot, ioh, DBRI_REG0);
 1.1  macallan 	tmp &= ~(DBRI_CHI_ACTIVATE);	/* disable CHI */
 1.1  macallan 	bus_space_write_4(iot, ioh, DBRI_REG0, tmp);
 1.1  macallan
 1.1  macallan 	/* switch CS4215 to data mode - set PIO3 to 1 */
 1.1  macallan 	tmp = DBRI_PIO_ENABLE_ALL | DBRI_PIO1 | DBRI_PIO3;
1.12  macallan
1.12  macallan 	/* XXX */
 1.1  macallan 	tmp |= (sc->sc_mm.onboard ? DBRI_PIO0 : DBRI_PIO2);
 1.5     blymn
 1.1  macallan 	bus_space_write_4(iot, ioh, DBRI_REG2, tmp);
 1.1  macallan 	chi_reset(sc, CHIslave, 128);
 1.1  macallan
1.12  macallan 	data_width = sc->sc_params.channels * sc->sc_params.precision;
1.14  macallan
1.14  macallan 	if ((data_width != 32) && (data_width != 8))
1.14  macallan 		aprint_error("%s: data_width is %d\n", __func__, data_width);
1.14  macallan
 1.1  macallan 	pipe_ts_link(sc, 20, PIPEoutput, 16, 32, sc->sc_mm.offset + 32);
 1.1  macallan 	pipe_ts_link(sc, 4, PIPEoutput, 16, data_width, sc->sc_mm.offset);
 1.1  macallan 	pipe_ts_link(sc, 6, PIPEinput, 16, data_width, sc->sc_mm.offset);
1.14  macallan 	pipe_ts_link(sc, 21, PIPEinput, 16, 32, sc->sc_mm.offset + 32);
1.14  macallan
1.14  macallan 	pipe_receive_fixed(sc, 21, &sc->sc_mm.status);
 1.1  macallan
 1.1  macallan 	mmcodec_setgain(sc, 0);
 1.1  macallan
 1.1  macallan 	tmp = bus_space_read_4(iot, ioh, DBRI_REG0);
 1.1  macallan 	tmp |= DBRI_CHI_ACTIVATE;
 1.1  macallan 	bus_space_write_4(iot, ioh, DBRI_REG0, tmp);
 1.1  macallan
 1.1  macallan 	return;
 1.1  macallan }
 1.1  macallan
1.11  macallan static void
 1.1  macallan mmcodec_pipe_init(struct dbri_softc *sc)
 1.1  macallan {
 1.1  macallan
 1.1  macallan 	pipe_setup(sc, 4, DBRI_SDP_MEM | DBRI_SDP_TO_SER | DBRI_SDP_MSB);
 1.1  macallan 	pipe_setup(sc, 20, DBRI_SDP_FIXED | DBRI_SDP_TO_SER | DBRI_SDP_MSB);
 1.1  macallan 	pipe_setup(sc, 6, DBRI_SDP_MEM | DBRI_SDP_FROM_SER | DBRI_SDP_MSB);
 1.1  macallan 	pipe_setup(sc, 21, DBRI_SDP_FIXED | DBRI_SDP_FROM_SER | DBRI_SDP_MSB);
 1.1  macallan
 1.1  macallan 	pipe_setup(sc, 17, DBRI_SDP_FIXED | DBRI_SDP_TO_SER | DBRI_SDP_MSB);
 1.1  macallan 	pipe_setup(sc, 18, DBRI_SDP_FIXED | DBRI_SDP_FROM_SER | DBRI_SDP_MSB);
 1.1  macallan 	pipe_setup(sc, 19, DBRI_SDP_FIXED | DBRI_SDP_FROM_SER | DBRI_SDP_MSB);
 1.1  macallan
 1.1  macallan 	sc->sc_mm.status = 0;
 1.1  macallan
 1.1  macallan 	pipe_receive_fixed(sc, 18, &sc->sc_mm.status);
 1.1  macallan 	pipe_receive_fixed(sc, 19, &sc->sc_mm.version);
 1.1  macallan
 1.1  macallan 	return;
 1.1  macallan }
 1.1  macallan
1.11  macallan static void
 1.1  macallan mmcodec_default(struct dbri_softc *sc)
 1.1  macallan {
 1.1  macallan 	struct cs4215_state *mm = &sc->sc_mm;
 1.1  macallan
 1.1  macallan 	/*
 1.1  macallan 	 * no action, memory resetting only
 1.1  macallan 	 *
 1.1  macallan 	 * data time slots 5-8
 1.1  macallan 	 * speaker, line and headphone enable. set gain to half.
1.14  macallan 	 * input is line
 1.1  macallan 	 */
 1.9  macallan 	mm->d.bdata[0] = sc->sc_latt = 0x20 | CS4215_HE | CS4215_LE;
 1.9  macallan 	mm->d.bdata[1] = sc->sc_ratt = 0x20 | CS4215_SE;
1.13  macallan 	sc->sc_linp = 128;
1.13  macallan 	sc->sc_rinp = 128;
1.13  macallan 	sc->sc_monitor = 0;
1.13  macallan 	sc->sc_input = 1;	/* line */
1.13  macallan 	mm->d.bdata[2] = (CS4215_LG((sc->sc_linp >> 4)) & 0x0f) |
1.13  macallan 	    ((sc->sc_input == 2) ? CS4215_IS : 0) | CS4215_PIO0 | CS4215_PIO1;
1.13  macallan 	mm->d.bdata[3] = (CS4215_RG((sc->sc_rinp >> 4) & 0x0f)) |
1.13  macallan 	    CS4215_MA(15 - ((sc->sc_monitor >> 4) & 0x0f));
1.13  macallan
 1.1  macallan
 1.1  macallan 	/*
 1.1  macallan 	 * control time slots 1-4
 1.1  macallan 	 *
 1.1  macallan 	 * 0: default I/O voltage scale
 1.1  macallan 	 * 1: 8 bit ulaw, 8kHz, mono, high pass filter disabled
 1.1  macallan 	 * 2: serial enable, CHI master, 128 bits per frame, clock 1
 1.1  macallan 	 * 3: tests disabled
 1.1  macallan 	 */
 1.9  macallan 	mm->c.bcontrol[0] = CS4215_RSRVD_1 | CS4215_MLB;
 1.9  macallan 	mm->c.bcontrol[1] = CS4215_DFR_ULAW | CS4215_FREQ[0].csval;
 1.9  macallan 	mm->c.bcontrol[2] = CS4215_XCLK | CS4215_BSEL_128 | CS4215_FREQ[0].xtal;
 1.9  macallan 	mm->c.bcontrol[3] = 0;
 1.1  macallan
 1.1  macallan 	return;
 1.1  macallan }
 1.1  macallan
1.11  macallan static void
 1.1  macallan mmcodec_setgain(struct dbri_softc *sc, int mute)
 1.1  macallan {
 1.1  macallan 	if (mute) {
 1.1  macallan 		/* disable all outputs, max. attenuation */
 1.9  macallan 		sc->sc_mm.d.bdata[0] = sc->sc_latt | 63;
 1.9  macallan 		sc->sc_mm.d.bdata[1] = sc->sc_ratt | 63;
 1.1  macallan 	} else {
1.13  macallan
 1.9  macallan 		sc->sc_mm.d.bdata[0] = sc->sc_latt;
 1.9  macallan 		sc->sc_mm.d.bdata[1] = sc->sc_ratt;
 1.1  macallan 	}
 1.1  macallan
1.13  macallan 	/* input stuff */
1.13  macallan 	sc->sc_mm.d.bdata[2] = CS4215_LG((sc->sc_linp >> 4) & 0x0f) |
1.13  macallan 	    ((sc->sc_input == 2) ? CS4215_IS : 0) | CS4215_PIO0 | CS4215_PIO1;
1.13  macallan 	sc->sc_mm.d.bdata[3] = (CS4215_RG((sc->sc_rinp >> 4)) & 0x0f) |
1.13  macallan 	    (CS4215_MA(15 - ((sc->sc_monitor >> 4) & 0x0f)));
1.13  macallan
 1.4  macallan 	if (sc->sc_powerstate == 0)
 1.4  macallan 		return;
 1.9  macallan 	pipe_transmit_fixed(sc, 20, sc->sc_mm.d.ldata);
 1.5     blymn
1.13  macallan 	DPRINTF("mmcodec_setgain: %08x\n", sc->sc_mm.d.ldata);
1.13  macallan 	/* give the chip some time to execute the command */
 1.1  macallan 	delay(250);
 1.5     blymn
 1.1  macallan 	return;
 1.1  macallan }
 1.1  macallan
1.11  macallan static int
 1.1  macallan mmcodec_setcontrol(struct dbri_softc *sc)
 1.1  macallan {
 1.1  macallan 	bus_space_tag_t iot = sc->sc_iot;
 1.1  macallan 	bus_space_handle_t ioh = sc->sc_ioh;
1.25   tsutsui 	uint32_t val;
1.25   tsutsui 	uint32_t tmp;
1.15  macallan 	int bail = 0;
1.13  macallan #if DBRI_SPIN
 1.1  macallan 	int i;
 1.1  macallan #endif
 1.1  macallan
 1.1  macallan 	/*
 1.1  macallan 	 * Temporarily mute outputs and wait 125 us to make sure that it
 1.1  macallan 	 * happens. This avoids clicking noises.
 1.1  macallan 	 */
 1.1  macallan 	mmcodec_setgain(sc, 1);
 1.9  macallan 	delay(125);
 1.1  macallan
1.15  macallan 	bus_space_write_4(iot, ioh, DBRI_REG2, 0);
1.15  macallan 	delay(125);
1.15  macallan
 1.1  macallan 	/* enable control mode */
 1.1  macallan 	val = DBRI_PIO_ENABLE_ALL | DBRI_PIO1;	/* was PIO1 */
 1.1  macallan
1.12  macallan 	/* XXX */
 1.1  macallan 	val |= (sc->sc_mm.onboard ? DBRI_PIO0 : DBRI_PIO2);
 1.1  macallan
 1.1  macallan 	bus_space_write_4(iot, ioh, DBRI_REG2, val);
 1.1  macallan
 1.9  macallan 	delay(34);
 1.1  macallan
 1.1  macallan 	/*
 1.1  macallan 	 * in control mode, the cs4215 is the slave device, so the
 1.1  macallan 	 * DBRI must act as the CHI master.
 1.1  macallan 	 *
 1.1  macallan 	 * in data mode, the cs4215 must be the CHI master to insure
 1.1  macallan 	 * that the data stream is in sync with its codec
 1.1  macallan 	 */
 1.1  macallan 	tmp = bus_space_read_4(iot, ioh, DBRI_REG0);
 1.1  macallan 	tmp &= ~DBRI_COMMAND_CHI;
 1.1  macallan 	bus_space_write_4(iot, ioh, DBRI_REG0, tmp);
 1.1  macallan
 1.1  macallan 	chi_reset(sc, CHImaster, 128);
 1.1  macallan
 1.1  macallan 	/* control mode */
 1.1  macallan 	pipe_ts_link(sc, 17, PIPEoutput, 16, 32, sc->sc_mm.offset);
 1.1  macallan 	pipe_ts_link(sc, 18, PIPEinput, 16, 8, sc->sc_mm.offset);
 1.1  macallan 	pipe_ts_link(sc, 19, PIPEinput, 16, 8, sc->sc_mm.offset + 48);
 1.1  macallan
 1.1  macallan 	/* wait for the chip to echo back CLB as zero */
 1.9  macallan 	sc->sc_mm.c.bcontrol[0] &= ~CS4215_CLB;
 1.9  macallan 	pipe_transmit_fixed(sc, 17, sc->sc_mm.c.lcontrol);
 1.1  macallan
 1.1  macallan 	tmp = bus_space_read_4(iot, ioh, DBRI_REG0);
 1.1  macallan 	tmp |= DBRI_CHI_ACTIVATE;
 1.1  macallan 	bus_space_write_4(iot, ioh, DBRI_REG0, tmp);
 1.5     blymn
1.13  macallan #if DBRI_SPIN
 1.1  macallan 	i = 1024;
 1.1  macallan 	while (((sc->sc_mm.status & 0xe4) != 0x20) && --i) {
 1.1  macallan 		delay(125);
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	if (i == 0) {
1.10  macallan 		DPRINTF("%s: cs4215 didn't respond to CLB (0x%02x)\n",
1.20  macallan 		    device_xname(sc->sc_dev), sc->sc_mm.status);
 1.1  macallan 		return (-1);
 1.1  macallan 	}
 1.1  macallan #else
1.15  macallan 	while (((sc->sc_mm.status & 0xe4) != 0x20) && (bail < 10)) {
1.20  macallan 		DPRINTF("%s: tsleep %p\n", device_xname(sc->sc_dev), sc);
1.15  macallan 		tsleep(sc, PCATCH | PZERO, "dbrifxdt", hz);
1.15  macallan 		bail++;
 1.1  macallan 	}
 1.1  macallan #endif
1.15  macallan 	if (bail >= 10) {
1.15  macallan 		DPRINTF("%s: switching to control mode timed out (%x %x)\n",
1.20  macallan 		    device_xname(sc->sc_dev), sc->sc_mm.status,
1.15  macallan 		    bus_space_read_4(iot, ioh, DBRI_REG2));
1.15  macallan 		return -1;
1.15  macallan 	}
 1.5     blymn
 1.1  macallan 	/* copy the version information before it becomes unreadable again */
 1.9  macallan 	sc->sc_version = sc->sc_mm.version;
 1.1  macallan
 1.1  macallan 	/* terminate cs4215 control mode */
 1.9  macallan 	sc->sc_mm.c.bcontrol[0] |= CS4215_CLB;
 1.9  macallan 	pipe_transmit_fixed(sc, 17, sc->sc_mm.c.lcontrol);
 1.1  macallan
 1.1  macallan 	/* two frames of control info @ 8kHz frame rate = 250us delay */
 1.9  macallan 	delay(250);
 1.1  macallan
 1.1  macallan 	mmcodec_setgain(sc, 0);
 1.1  macallan
 1.1  macallan 	return (0);
 1.5     blymn
 1.1  macallan }
 1.1  macallan
 1.1  macallan /*
 1.1  macallan  * CHI combo
 1.1  macallan  */
1.11  macallan static void
 1.1  macallan chi_reset(struct dbri_softc *sc, enum ms ms, int bpf)
 1.1  macallan {
1.25   tsutsui 	volatile uint32_t *cmd;
 1.1  macallan 	int val;
 1.1  macallan 	int clockrate, divisor;
 1.1  macallan
 1.1  macallan 	cmd = dbri_command_lock(sc);
 1.1  macallan
 1.1  macallan 	/* set CHI anchor: pipe 16 */
 1.1  macallan 	val = DBRI_DTS_VI | DBRI_DTS_INS | DBRI_DTS_PRVIN(16) | DBRI_PIPE(16);
 1.1  macallan 	*(cmd++) = DBRI_CMD(DBRI_COMMAND_DTS, 0, val);
 1.1  macallan 	*(cmd++) = DBRI_TS_ANCHOR | DBRI_TS_NEXT(16);
 1.1  macallan 	*(cmd++) = 0;
 1.1  macallan
 1.1  macallan 	val = DBRI_DTS_VO | DBRI_DTS_INS | DBRI_DTS_PRVOUT(16) | DBRI_PIPE(16);
 1.1  macallan 	*(cmd++) = DBRI_CMD(DBRI_COMMAND_DTS, 0, val);
 1.1  macallan 	*(cmd++) = 0;
 1.1  macallan 	*(cmd++) = DBRI_TS_ANCHOR | DBRI_TS_NEXT(16);
 1.1  macallan
 1.1  macallan 	sc->sc_pipe[16].sdp = 1;
 1.1  macallan 	sc->sc_pipe[16].next = 16;
 1.1  macallan 	sc->sc_chi_pipe_in = 16;
 1.1  macallan 	sc->sc_chi_pipe_out = 16;
 1.1  macallan
 1.1  macallan 	switch (ms) {
 1.1  macallan 	case CHIslave:
 1.1  macallan 		*(cmd++) = DBRI_CMD(DBRI_COMMAND_CHI, 0, DBRI_CHI_CHICM(0));
 1.1  macallan 		break;
 1.1  macallan 	case CHImaster:
 1.1  macallan 		clockrate = bpf * 8;
 1.1  macallan 		divisor = 12288 / clockrate;
 1.1  macallan
 1.1  macallan 		if (divisor > 255 || divisor * clockrate != 12288)
1.20  macallan 			aprint_error_dev(sc->sc_dev,
1.20  macallan 			    "illegal bits-per-frame %d\n", bpf);
 1.1  macallan
 1.1  macallan 		*(cmd++) = DBRI_CMD(DBRI_COMMAND_CHI, 0,
 1.1  macallan 		    DBRI_CHI_CHICM(divisor) | DBRI_CHI_FD | DBRI_CHI_BPF(bpf));
 1.1  macallan 		break;
 1.1  macallan 	default:
1.20  macallan 		aprint_error_dev(sc->sc_dev, "unknown value for ms!\n");
 1.1  macallan 		break;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	sc->sc_chi_bpf = bpf;
 1.1  macallan
 1.1  macallan 	/* CHI data mode */
 1.1  macallan 	*(cmd++) = DBRI_CMD(DBRI_COMMAND_PAUSE, 0, 0);
 1.1  macallan 	*(cmd++) = DBRI_CMD(DBRI_COMMAND_CDM, 0,
 1.1  macallan 	    DBRI_CDM_XCE | DBRI_CDM_XEN | DBRI_CDM_REN);
 1.1  macallan
 1.1  macallan 	dbri_command_send(sc, cmd);
 1.1  macallan
 1.1  macallan 	return;
 1.1  macallan }
 1.1  macallan
 1.1  macallan /*
 1.1  macallan  * pipe stuff
 1.1  macallan  */
1.11  macallan static void
 1.1  macallan pipe_setup(struct dbri_softc *sc, int pipe, int sdp)
 1.1  macallan {
1.10  macallan 	DPRINTF("pipe setup: %d\n", pipe);
 1.1  macallan 	if (pipe < 0 || pipe >= DBRI_PIPE_MAX) {
1.20  macallan 		aprint_error_dev(sc->sc_dev, "illegal pipe number %d\n",
1.18    cegger 		    pipe);
 1.1  macallan 		return;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	if ((sdp & 0xf800) != sdp)
1.20  macallan 		aprint_error_dev(sc->sc_dev, "strange SDP value %d\n",
1.14  macallan 		    sdp);
 1.1  macallan
 1.1  macallan 	if (DBRI_SDP_MODE(sdp) == DBRI_SDP_FIXED &&
 1.1  macallan 	    !(sdp & DBRI_SDP_TO_SER))
 1.1  macallan 		sdp |= DBRI_SDP_CHANGE;
 1.1  macallan
 1.1  macallan 	sdp |= DBRI_PIPE(pipe);
 1.1  macallan
 1.1  macallan 	sc->sc_pipe[pipe].sdp = sdp;
 1.1  macallan 	sc->sc_pipe[pipe].desc = -1;
 1.1  macallan
 1.1  macallan 	pipe_reset(sc, pipe);
 1.1  macallan
 1.1  macallan 	return;
 1.1  macallan }
 1.1  macallan
1.11  macallan static void
 1.1  macallan pipe_reset(struct dbri_softc *sc, int pipe)
 1.1  macallan {
 1.1  macallan 	struct dbri_desc *dd;
 1.1  macallan 	int sdp;
 1.1  macallan 	int desc;
1.25   tsutsui 	volatile uint32_t *cmd;
 1.1  macallan
 1.1  macallan 	if (pipe < 0 || pipe >= DBRI_PIPE_MAX) {
1.20  macallan 		aprint_error_dev(sc->sc_dev, "illegal pipe number %d\n",
1.18    cegger 		    pipe);
 1.1  macallan 		return;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	sdp = sc->sc_pipe[pipe].sdp;
 1.1  macallan 	if (sdp == 0) {
1.20  macallan 		aprint_error_dev(sc->sc_dev, "can not reset uninitialized pipe %d\n",
1.18    cegger 		    pipe);
 1.1  macallan 		return;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	cmd = dbri_command_lock(sc);
 1.1  macallan 	*(cmd++) = DBRI_CMD(DBRI_COMMAND_SDP, 0,
 1.1  macallan 	    sdp | DBRI_SDP_CLEAR | DBRI_SDP_VALID_POINTER);
 1.1  macallan 	*(cmd++) = 0;
 1.1  macallan 	dbri_command_send(sc, cmd);
 1.1  macallan
 1.1  macallan 	desc = sc->sc_pipe[pipe].desc;
 1.1  macallan
 1.1  macallan 	dd = &sc->sc_desc[desc];
 1.5     blymn
 1.1  macallan 	dd->busy = 0;
 1.1  macallan
1.12  macallan #if 0
 1.1  macallan 	if (dd->callback)
1.17        ad 		softint_schedule(dd->softint);
1.12  macallan #endif
 1.1  macallan
 1.1  macallan 	sc->sc_pipe[pipe].desc = -1;
 1.1  macallan
 1.1  macallan 	return;
 1.1  macallan }
 1.1  macallan
1.11  macallan static void
1.25   tsutsui pipe_receive_fixed(struct dbri_softc *sc, int pipe, volatile uint32_t *prec)
 1.1  macallan {
 1.1  macallan
 1.1  macallan 	if (pipe < DBRI_PIPE_MAX / 2 || pipe >= DBRI_PIPE_MAX) {
1.20  macallan 		aprint_error_dev(sc->sc_dev, "illegal pipe number %d\n",
1.18    cegger 		    pipe);
 1.1  macallan 		return;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	if (DBRI_SDP_MODE(sc->sc_pipe[pipe].sdp) != DBRI_SDP_FIXED) {
1.20  macallan 		aprint_error_dev(sc->sc_dev, "non-fixed pipe %d\n",
 1.1  macallan 		    pipe);
 1.1  macallan 		return;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	if (sc->sc_pipe[pipe].sdp & DBRI_SDP_TO_SER) {
1.20  macallan 		aprint_error_dev(sc->sc_dev, "can not receive on transmit pipe %d\b",
1.18    cegger 		    pipe);
 1.1  macallan 		return;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	sc->sc_pipe[pipe].prec = prec;
 1.1  macallan
 1.1  macallan 	return;
 1.1  macallan }
 1.1  macallan
1.11  macallan static void
1.25   tsutsui pipe_transmit_fixed(struct dbri_softc *sc, int pipe, uint32_t data)
 1.1  macallan {
1.25   tsutsui 	volatile uint32_t *cmd;
 1.1  macallan
 1.1  macallan 	if (pipe < DBRI_PIPE_MAX / 2 || pipe >= DBRI_PIPE_MAX) {
1.20  macallan 		aprint_error_dev(sc->sc_dev, "illegal pipe number %d\n",
1.18    cegger 		    pipe);
 1.1  macallan 		return;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	if (DBRI_SDP_MODE(sc->sc_pipe[pipe].sdp) == 0) {
1.20  macallan 		aprint_error_dev(sc->sc_dev, "uninitialized pipe %d\n",
1.18    cegger 		    pipe);
 1.1  macallan 		return;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	if (DBRI_SDP_MODE(sc->sc_pipe[pipe].sdp) != DBRI_SDP_FIXED) {
1.20  macallan 		aprint_error_dev(sc->sc_dev, "non-fixed pipe %d\n",
1.12  macallan 		    pipe);
 1.1  macallan 		return;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	if (!(sc->sc_pipe[pipe].sdp & DBRI_SDP_TO_SER)) {
1.20  macallan 		aprint_error_dev(sc->sc_dev, "called on receive pipe %d\n",
1.18    cegger 		    pipe);
 1.1  macallan 		return;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	if (sc->sc_pipe[pipe].sdp & DBRI_SDP_MSB)
 1.1  macallan 		data = reverse_bytes(data, sc->sc_pipe[pipe].length);
 1.1  macallan
 1.1  macallan 	cmd = dbri_command_lock(sc);
 1.1  macallan 	*(cmd++) = DBRI_CMD(DBRI_COMMAND_SSP, 0, pipe);
 1.1  macallan 	*(cmd++) = data;
 1.1  macallan
 1.1  macallan 	dbri_command_send(sc, cmd);
 1.1  macallan
 1.1  macallan 	return;
 1.1  macallan }
 1.1  macallan
1.11  macallan static void
1.14  macallan setup_ring_xmit(struct dbri_softc *sc, int pipe, int which, int num, int blksz,
 1.1  macallan 		void (*callback)(void *), void *callback_args)
 1.1  macallan {
1.25   tsutsui 	volatile uint32_t *cmd;
1.34  jmcneill 	int i;
1.35       mrg #if 0
 1.1  macallan 	int td;
 1.1  macallan 	int td_first, td_last;
1.35       mrg #endif
 1.1  macallan 	bus_addr_t dmabuf, dmabase;
 1.1  macallan 	struct dbri_desc *dd = &sc->sc_desc[which];
 1.1  macallan
1.14  macallan 	switch (pipe) {
1.14  macallan 		case 4:
1.14  macallan 			/* output, offset 0 */
1.14  macallan 			break;
1.14  macallan 		default:
1.14  macallan 			aprint_error("%s: illegal pipe number (%d)\n",
1.14  macallan 			    __func__, pipe);
1.14  macallan 			return;
1.14  macallan 	}
1.14  macallan
1.35       mrg #if 0
 1.1  macallan 	td = 0;
 1.1  macallan 	td_first = td_last = -1;
1.35       mrg #endif
 1.1  macallan
1.14  macallan 	if (sc->sc_pipe[pipe].sdp == 0) {
1.20  macallan 		aprint_error_dev(sc->sc_dev, "uninitialized pipe %d\n",
1.18    cegger 		    pipe);
 1.1  macallan 		return;
 1.1  macallan 	}
 1.1  macallan
1.14  macallan 	dmabuf = dd->dmabase;
1.14  macallan 	dmabase = sc->sc_dmabase;
1.14  macallan
1.14  macallan 	for (i = 0; i < (num - 1); i++) {
1.14  macallan
1.14  macallan 		sc->sc_dma->xmit[i].flags = TX_BCNT(blksz)
1.14  macallan 		    | TX_EOF | TX_BINT;
1.14  macallan 		sc->sc_dma->xmit[i].ba = dmabuf;
1.14  macallan 		sc->sc_dma->xmit[i].nda = dmabase + dbri_dma_off(xmit, i + 1);
1.14  macallan 		sc->sc_dma->xmit[i].status = 0;
1.14  macallan
1.35       mrg #if 0
1.14  macallan 		td_last = td;
1.35       mrg #endif
1.14  macallan 		dmabuf += blksz;
1.14  macallan 	}
1.14  macallan
1.14  macallan 	sc->sc_dma->xmit[i].flags = TX_BCNT(blksz) | TX_EOF | TX_BINT;
1.14  macallan
1.14  macallan 	sc->sc_dma->xmit[i].ba = dmabuf;
1.14  macallan 	sc->sc_dma->xmit[i].nda = dmabase + dbri_dma_off(xmit, 0);
1.14  macallan 	sc->sc_dma->xmit[i].status = 0;
1.14  macallan
1.14  macallan 	dd->callback = callback;
1.14  macallan 	dd->callback_args = callback_args;
1.14  macallan
1.34  jmcneill 	mutex_spin_enter(&sc->sc_intr_lock);
1.14  macallan
1.14  macallan 	/* the pipe shouldn't be active */
1.14  macallan 	if (pipe_active(sc, pipe)) {
1.14  macallan 		aprint_error("pipe active (CDP)\n");
1.14  macallan 		/* pipe is already active */
1.14  macallan #if 0
1.14  macallan 		td_last = sc->sc_pipe[pipe].desc;
1.14  macallan 		while (sc->sc_desc[td_last].next != -1)
1.14  macallan 			td_last = sc->sc_desc[td_last].next;
1.14  macallan
1.14  macallan 		sc->sc_desc[td_last].next = td_first;
1.14  macallan 		sc->sc_dma->desc[td_last].nda =
1.14  macallan 		    sc->sc_dmabase + dbri_dma_off(desc, td_first);
1.14  macallan
1.14  macallan 		cmd = dbri_command_lock(sc);
1.14  macallan 		*(cmd++) = DBRI_CMD(DBRI_COMMAND_CDP, 0, pipe);
1.14  macallan 		dbri_command_send(sc, cmd);
1.14  macallan #endif
1.14  macallan 	} else {
1.14  macallan 		/*
1.14  macallan 		 * pipe isn't active - issue an SDP command to start our
1.14  macallan 		 * chain of TDs running
1.14  macallan 		 */
1.14  macallan 		sc->sc_pipe[pipe].desc = which;
1.14  macallan 		cmd = dbri_command_lock(sc);
1.14  macallan 		*(cmd++) = DBRI_CMD(DBRI_COMMAND_SDP, 0,
1.14  macallan 					sc->sc_pipe[pipe].sdp |
1.14  macallan 					DBRI_SDP_VALID_POINTER |
1.14  macallan 					DBRI_SDP_EVERY |
1.14  macallan 					DBRI_SDP_CLEAR);
1.14  macallan 		*(cmd++) = sc->sc_dmabase + dbri_dma_off(xmit, 0);
1.14  macallan 		dbri_command_send(sc, cmd);
1.14  macallan 		DPRINTF("%s: starting DMA\n", __func__);
1.14  macallan 	}
1.14  macallan
1.34  jmcneill 	mutex_spin_exit(&sc->sc_intr_lock);
1.14  macallan
1.14  macallan 	return;
1.14  macallan }
1.14  macallan
1.14  macallan static void
1.14  macallan setup_ring_recv(struct dbri_softc *sc, int pipe, int which, int num, int blksz,
1.14  macallan 		void (*callback)(void *), void *callback_args)
1.14  macallan {
1.25   tsutsui 	volatile uint32_t *cmd;
1.34  jmcneill 	int i;
1.35       mrg #if 0
1.14  macallan 	int td_first, td_last;
1.35       mrg #endif
1.14  macallan 	bus_addr_t dmabuf, dmabase;
1.14  macallan 	struct dbri_desc *dd = &sc->sc_desc[which];
1.14  macallan
1.14  macallan 	switch (pipe) {
1.14  macallan 		case 6:
1.14  macallan 			break;
1.14  macallan 		default:
1.14  macallan 			aprint_error("%s: illegal pipe number (%d)\n",
1.14  macallan 			    __func__, pipe);
1.14  macallan 			return;
1.14  macallan 	}
1.14  macallan
1.35       mrg #if 0
1.14  macallan 	td_first = td_last = -1;
1.35       mrg #endif
1.14  macallan
 1.1  macallan 	if (sc->sc_pipe[pipe].sdp == 0) {
1.20  macallan 		aprint_error_dev(sc->sc_dev, "uninitialized pipe %d\n",
1.18    cegger 		    pipe);
 1.1  macallan 		return;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	dmabuf = dd->dmabase;
 1.1  macallan 	dmabase = sc->sc_dmabase;
 1.1  macallan
1.14  macallan 	for (i = 0; i < (num - 1); i++) {
 1.1  macallan
1.14  macallan 		sc->sc_dma->recv[i].flags = RX_BSIZE(blksz) | RX_FINAL;
1.14  macallan 		sc->sc_dma->recv[i].ba = dmabuf;
1.14  macallan 		sc->sc_dma->recv[i].nda = dmabase + dbri_dma_off(recv, i + 1);
1.14  macallan 		sc->sc_dma->recv[i].status = RX_EOF;
 1.1  macallan
1.35       mrg #if 0
1.14  macallan 		td_last = i;
1.35       mrg #endif
 1.1  macallan 		dmabuf += blksz;
 1.1  macallan 	}
 1.5     blymn
1.14  macallan 	sc->sc_dma->recv[i].flags = RX_BSIZE(blksz) | RX_FINAL;
1.14  macallan
1.14  macallan 	sc->sc_dma->recv[i].ba = dmabuf;
1.14  macallan 	sc->sc_dma->recv[i].nda = dmabase + dbri_dma_off(recv, 0);
1.14  macallan 	sc->sc_dma->recv[i].status = RX_EOF;
 1.5     blymn
1.12  macallan 	dd->callback = callback;
1.12  macallan 	dd->callback_args = callback_args;
 1.1  macallan
1.34  jmcneill 	mutex_spin_enter(&sc->sc_intr_lock);
 1.1  macallan
 1.1  macallan 	/* the pipe shouldn't be active */
 1.1  macallan 	if (pipe_active(sc, pipe)) {
1.10  macallan 		aprint_error("pipe active (CDP)\n");
 1.1  macallan 		/* pipe is already active */
1.12  macallan #if 0
 1.1  macallan 		td_last = sc->sc_pipe[pipe].desc;
 1.1  macallan 		while (sc->sc_desc[td_last].next != -1)
 1.1  macallan 			td_last = sc->sc_desc[td_last].next;
 1.1  macallan
 1.1  macallan 		sc->sc_desc[td_last].next = td_first;
 1.1  macallan 		sc->sc_dma->desc[td_last].nda =
 1.1  macallan 		    sc->sc_dmabase + dbri_dma_off(desc, td_first);
 1.1  macallan
 1.1  macallan 		cmd = dbri_command_lock(sc);
 1.1  macallan 		*(cmd++) = DBRI_CMD(DBRI_COMMAND_CDP, 0, pipe);
 1.1  macallan 		dbri_command_send(sc, cmd);
1.12  macallan #endif
 1.1  macallan 	} else {
 1.1  macallan 		/*
 1.1  macallan 		 * pipe isn't active - issue an SDP command to start our
 1.1  macallan 		 * chain of TDs running
 1.1  macallan 		 */
 1.1  macallan 		sc->sc_pipe[pipe].desc = which;
 1.1  macallan 		cmd = dbri_command_lock(sc);
 1.1  macallan 		*(cmd++) = DBRI_CMD(DBRI_COMMAND_SDP, 0,
 1.1  macallan 					sc->sc_pipe[pipe].sdp |
 1.1  macallan 					DBRI_SDP_VALID_POINTER |
 1.1  macallan 					DBRI_SDP_EVERY |
 1.1  macallan 					DBRI_SDP_CLEAR);
1.14  macallan 		*(cmd++) = sc->sc_dmabase + dbri_dma_off(recv, 0);
 1.1  macallan 		dbri_command_send(sc, cmd);
1.14  macallan 		DPRINTF("%s: starting DMA\n", __func__);
 1.1  macallan 	}
 1.1  macallan
1.34  jmcneill 	mutex_spin_exit(&sc->sc_intr_lock);
 1.1  macallan
 1.1  macallan 	return;
 1.1  macallan }
 1.1  macallan
1.11  macallan static void
 1.1  macallan pipe_ts_link(struct dbri_softc *sc, int pipe, enum io dir, int basepipe,
 1.1  macallan 		int len, int cycle)
 1.1  macallan {
1.25   tsutsui 	volatile uint32_t *cmd;
 1.1  macallan 	int prevpipe, nextpipe;
 1.1  macallan 	int val;
 1.1  macallan
1.14  macallan 	DPRINTF("%s: %d\n", __func__, pipe);
 1.1  macallan 	if (pipe < 0 || pipe >= DBRI_PIPE_MAX ||
 1.1  macallan 	    basepipe < 0 || basepipe >= DBRI_PIPE_MAX) {
1.20  macallan 		aprint_error_dev(sc->sc_dev, "illegal pipe numbers (%d, %d)\n",
1.18    cegger 		    pipe, basepipe);
 1.1  macallan 		return;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	if (sc->sc_pipe[pipe].sdp == 0 || sc->sc_pipe[basepipe].sdp == 0) {
1.20  macallan 		aprint_error_dev(sc->sc_dev, "uninitialized pipe (%d, %d)\n",
1.18    cegger 		    pipe, basepipe);
 1.1  macallan 		return;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	if (basepipe == 16 && dir == PIPEoutput && cycle == 0)
 1.1  macallan 		cycle = sc->sc_chi_bpf;
 1.1  macallan
 1.1  macallan 	if (basepipe == pipe)
 1.1  macallan 		prevpipe = nextpipe = pipe;
 1.1  macallan 	else {
 1.1  macallan 		if (basepipe == 16) {
 1.1  macallan 			if (dir == PIPEinput) {
 1.1  macallan 				prevpipe = sc->sc_chi_pipe_in;
 1.1  macallan 			} else {
 1.1  macallan 				prevpipe = sc->sc_chi_pipe_out;
 1.1  macallan 			}
 1.1  macallan 		} else
 1.1  macallan 			prevpipe = basepipe;
 1.1  macallan
 1.1  macallan 		nextpipe = sc->sc_pipe[prevpipe].next;
 1.1  macallan
 1.1  macallan 		while (sc->sc_pipe[nextpipe].cycle < cycle &&
 1.1  macallan 		    sc->sc_pipe[nextpipe].next != basepipe) {
 1.1  macallan 			prevpipe = nextpipe;
 1.1  macallan 			nextpipe = sc->sc_pipe[nextpipe].next;
 1.1  macallan 		}
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	if (prevpipe == 16) {
 1.1  macallan 		if (dir == PIPEinput) {
 1.1  macallan 			sc->sc_chi_pipe_in = pipe;
 1.1  macallan 		} else {
 1.1  macallan 			sc->sc_chi_pipe_out = pipe;
 1.1  macallan 		}
 1.1  macallan 	} else
 1.1  macallan 		sc->sc_pipe[prevpipe].next = pipe;
 1.1  macallan
 1.1  macallan 	sc->sc_pipe[pipe].next = nextpipe;
 1.1  macallan 	sc->sc_pipe[pipe].cycle = cycle;
 1.1  macallan 	sc->sc_pipe[pipe].length = len;
 1.1  macallan
 1.1  macallan 	cmd = dbri_command_lock(sc);
 1.1  macallan
 1.1  macallan 	switch (dir) {
 1.1  macallan 	case PIPEinput:
 1.1  macallan 		val = DBRI_DTS_VI | DBRI_DTS_INS | DBRI_DTS_PRVIN(prevpipe);
 1.1  macallan 		val |= pipe;
 1.1  macallan 		*(cmd++) = DBRI_CMD(DBRI_COMMAND_DTS, 0, val);
 1.1  macallan 		*(cmd++) = DBRI_TS_LEN(len) | DBRI_TS_CYCLE(cycle) |
 1.1  macallan 		    DBRI_TS_NEXT(nextpipe);
 1.1  macallan 		*(cmd++) = 0;
 1.1  macallan 		break;
 1.1  macallan 	case PIPEoutput:
 1.1  macallan 		val = DBRI_DTS_VO | DBRI_DTS_INS | DBRI_DTS_PRVOUT(prevpipe);
 1.1  macallan 		val |= pipe;
 1.1  macallan 		*(cmd++) = DBRI_CMD(DBRI_COMMAND_DTS, 0, val);
 1.1  macallan 		*(cmd++) = 0;
 1.1  macallan 		*(cmd++) = DBRI_TS_LEN(len) | DBRI_TS_CYCLE(cycle) |
 1.1  macallan 		    DBRI_TS_NEXT(nextpipe);
 1.1  macallan 		break;
 1.1  macallan 	default:
1.10  macallan 		DPRINTF("%s: should not have happened!\n",
1.20  macallan 		    device_xname(sc->sc_dev));
 1.1  macallan 		break;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	dbri_command_send(sc, cmd);
 1.1  macallan
 1.1  macallan 	return;
 1.1  macallan }
 1.1  macallan
1.11  macallan static int
 1.1  macallan pipe_active(struct dbri_softc *sc, int pipe)
 1.1  macallan {
 1.1  macallan
 1.1  macallan 	return (sc->sc_pipe[pipe].desc != -1);
 1.1  macallan }
 1.1  macallan
 1.1  macallan /*
 1.1  macallan  * subroutines required to interface with audio(9)
 1.1  macallan  */
 1.1  macallan
1.11  macallan static int
 1.1  macallan dbri_query_encoding(void *hdl, struct audio_encoding *ae)
 1.1  macallan {
 1.1  macallan
 1.1  macallan 	switch (ae->index) {
 1.1  macallan 	case 0:
 1.1  macallan 		strcpy(ae->name, AudioEulinear);
 1.1  macallan 		ae->encoding = AUDIO_ENCODING_ULINEAR;
 1.1  macallan 		ae->precision = 8;
1.11  macallan 		ae->flags = 0;
 1.1  macallan 		break;
 1.1  macallan 	case 1:
 1.1  macallan 		strcpy(ae->name, AudioEmulaw);
 1.1  macallan 		ae->encoding = AUDIO_ENCODING_ULAW;
 1.1  macallan 		ae->precision = 8;
 1.1  macallan 		ae->flags = 0;
 1.1  macallan 		break;
 1.1  macallan 	case 2:
 1.1  macallan 		strcpy(ae->name, AudioEalaw);
 1.1  macallan 		ae->encoding = AUDIO_ENCODING_ALAW;
 1.1  macallan 		ae->precision = 8;
 1.1  macallan 		ae->flags = 0;
 1.1  macallan 		break;
 1.1  macallan 	case 3:
 1.1  macallan 		strcpy(ae->name, AudioEslinear);
 1.1  macallan 		ae->encoding = AUDIO_ENCODING_SLINEAR;
 1.1  macallan 		ae->precision = 8;
 1.1  macallan 		ae->flags = AUDIO_ENCODINGFLAG_EMULATED;
 1.1  macallan 		break;
 1.1  macallan 	case 4:
 1.1  macallan 		strcpy(ae->name, AudioEslinear_le);
 1.1  macallan 		ae->encoding = AUDIO_ENCODING_SLINEAR_LE;
 1.1  macallan 		ae->precision = 16;
 1.1  macallan 		ae->flags = AUDIO_ENCODINGFLAG_EMULATED;
 1.1  macallan 		break;
 1.1  macallan 	case 5:
 1.1  macallan 		strcpy(ae->name, AudioEulinear_le);
 1.1  macallan 		ae->encoding = AUDIO_ENCODING_ULINEAR_LE;
 1.1  macallan 		ae->precision = 16;
 1.1  macallan 		ae->flags = AUDIO_ENCODINGFLAG_EMULATED;
 1.1  macallan 		break;
 1.1  macallan 	case 6:
 1.1  macallan 		strcpy(ae->name, AudioEslinear_be);
 1.1  macallan 		ae->encoding = AUDIO_ENCODING_SLINEAR_BE;
 1.1  macallan 		ae->precision = 16;
 1.1  macallan 		ae->flags = 0;
 1.1  macallan 		break;
 1.1  macallan 	case 7:
 1.1  macallan 		strcpy(ae->name, AudioEulinear_be);
 1.1  macallan 		ae->encoding = AUDIO_ENCODING_ULINEAR_BE;
 1.1  macallan 		ae->precision = 16;
1.11  macallan 		ae->flags = AUDIO_ENCODINGFLAG_EMULATED;
1.11  macallan 		break;
1.11  macallan 	case 8:
1.11  macallan 		strcpy(ae->name, AudioEslinear);
1.11  macallan 		ae->encoding = AUDIO_ENCODING_SLINEAR;
1.11  macallan 		ae->precision = 16;
 1.1  macallan 		ae->flags = 0;
 1.1  macallan 		break;
 1.1  macallan 	default:
 1.1  macallan 		return (EINVAL);
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	return (0);
 1.1  macallan }
 1.1  macallan
1.11  macallan static int
 1.1  macallan dbri_set_params(void *hdl, int setmode, int usemode,
 1.1  macallan 		struct audio_params *play, struct audio_params *rec,
 1.1  macallan 		stream_filter_list_t *pfil, stream_filter_list_t *rfil)
 1.1  macallan {
 1.1  macallan 	struct dbri_softc *sc = hdl;
1.11  macallan 	int rate;
1.11  macallan 	audio_params_t *p = NULL;
1.11  macallan 	stream_filter_list_t *fil;
1.11  macallan 	int mode;
1.11  macallan
1.11  macallan 	/*
1.11  macallan 	 * This device only has one clock, so make the sample rates match.
1.11  macallan 	 */
1.11  macallan 	if (play->sample_rate != rec->sample_rate &&
1.11  macallan 	    usemode == (AUMODE_PLAY | AUMODE_RECORD)) {
1.11  macallan 		if (setmode == AUMODE_PLAY) {
1.11  macallan 			rec->sample_rate = play->sample_rate;
1.11  macallan 			setmode |= AUMODE_RECORD;
1.11  macallan 		} else if (setmode == AUMODE_RECORD) {
1.11  macallan 			play->sample_rate = rec->sample_rate;
1.11  macallan 			setmode |= AUMODE_PLAY;
1.11  macallan 		} else
1.11  macallan 			return EINVAL;
1.11  macallan 	}
1.11  macallan
1.11  macallan 	for (mode = AUMODE_RECORD; mode != -1;
1.11  macallan 	     mode = mode == AUMODE_RECORD ? AUMODE_PLAY : -1) {
1.11  macallan 		if ((setmode & mode) == 0)
1.11  macallan 			continue;
1.11  macallan
1.11  macallan 		p = mode == AUMODE_PLAY ? play : rec;
1.11  macallan 		if (p->sample_rate < 4000 || p->sample_rate > 50000) {
1.11  macallan 			DPRINTF("dbri_set_params: invalid rate %d\n",
1.11  macallan 			    p->sample_rate);
1.11  macallan 			return EINVAL;
1.11  macallan 		}
1.11  macallan
1.11  macallan 		fil = mode == AUMODE_PLAY ? pfil : rfil;
1.14  macallan 	DPRINTF("requested enc: %d rate: %d prec: %d chan: %d\n", p->encoding,
1.11  macallan 	    p->sample_rate, p->precision, p->channels);
1.11  macallan 		if (auconv_set_converter(dbri_formats, DBRI_NFORMATS,
1.11  macallan 					 mode, p, true, fil) < 0) {
1.15  macallan 			aprint_debug("dbri_set_params: auconv_set_converter failed\n");
1.11  macallan 			return EINVAL;
1.11  macallan 		}
1.11  macallan 		if (fil->req_size > 0)
1.11  macallan 			p = &fil->filters[0].param;
1.11  macallan 	}
1.11  macallan
1.11  macallan 	if (p == NULL) {
1.11  macallan 		DPRINTF("dbri_set_params: no parameters to set\n");
1.11  macallan 		return 0;
1.11  macallan 	}
 1.1  macallan
1.14  macallan 	DPRINTF("native enc: %d rate: %d prec: %d chan: %d\n", p->encoding,
1.11  macallan 	    p->sample_rate, p->precision, p->channels);
 1.1  macallan
1.11  macallan 	for (rate = 0; CS4215_FREQ[rate].freq; rate++)
1.11  macallan 		if (CS4215_FREQ[rate].freq == p->sample_rate)
 1.1  macallan 			break;
 1.1  macallan
1.11  macallan 	if (CS4215_FREQ[rate].freq == 0)
 1.1  macallan 		return (EINVAL);
 1.1  macallan
 1.1  macallan 	/* set frequency */
 1.9  macallan 	sc->sc_mm.c.bcontrol[1] &= ~0x38;
1.11  macallan 	sc->sc_mm.c.bcontrol[1] |= CS4215_FREQ[rate].csval;
 1.9  macallan 	sc->sc_mm.c.bcontrol[2] &= ~0x70;
1.11  macallan 	sc->sc_mm.c.bcontrol[2] |= CS4215_FREQ[rate].xtal;
 1.1  macallan
1.11  macallan 	switch (p->encoding) {
 1.1  macallan 	case AUDIO_ENCODING_ULAW:
 1.9  macallan 		sc->sc_mm.c.bcontrol[1] &= ~3;
 1.9  macallan 		sc->sc_mm.c.bcontrol[1] |= CS4215_DFR_ULAW;
 1.1  macallan 		break;
 1.1  macallan 	case AUDIO_ENCODING_ALAW:
 1.9  macallan 		sc->sc_mm.c.bcontrol[1] &= ~3;
 1.9  macallan 		sc->sc_mm.c.bcontrol[1] |= CS4215_DFR_ALAW;
 1.1  macallan 		break;
 1.1  macallan 	case AUDIO_ENCODING_ULINEAR:
 1.9  macallan 		sc->sc_mm.c.bcontrol[1] &= ~3;
1.11  macallan 		if (p->precision == 8) {
 1.9  macallan 			sc->sc_mm.c.bcontrol[1] |= CS4215_DFR_LINEAR8;
 1.1  macallan 		} else {
 1.9  macallan 			sc->sc_mm.c.bcontrol[1] |= CS4215_DFR_LINEAR16;
 1.1  macallan 		}
 1.1  macallan 		break;
 1.1  macallan 	case AUDIO_ENCODING_SLINEAR_BE:
1.11  macallan 	case AUDIO_ENCODING_SLINEAR:
 1.9  macallan 		sc->sc_mm.c.bcontrol[1] &= ~3;
 1.9  macallan 		sc->sc_mm.c.bcontrol[1] |= CS4215_DFR_LINEAR16;
 1.1  macallan 		break;
 1.1  macallan 	}
 1.1  macallan
1.11  macallan 	switch (p->channels) {
 1.1  macallan 	case 1:
 1.9  macallan 		sc->sc_mm.c.bcontrol[1] &= ~CS4215_DFR_STEREO;
 1.1  macallan 		break;
 1.1  macallan 	case 2:
 1.9  macallan 		sc->sc_mm.c.bcontrol[1] |= CS4215_DFR_STEREO;
 1.1  macallan 		break;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	return (0);
 1.1  macallan }
 1.1  macallan
1.11  macallan static int
 1.1  macallan dbri_round_blocksize(void *hdl, int bs, int mode,
 1.1  macallan 			const audio_params_t *param)
 1.1  macallan {
 1.1  macallan
1.33  macallan 	/*
1.33  macallan 	 * DBRI DMA segment size can be up to 0x1fff, sixes that are not powers
1.33  macallan 	 * of two seem to confuse the upper audio layer so we're going with
1.33  macallan 	 * 0x1000 here
1.33  macallan 	 */
1.33  macallan 	return 0x1000;
 1.1  macallan }
 1.1  macallan
1.11  macallan static int
 1.1  macallan dbri_halt_output(void *hdl)
 1.1  macallan {
 1.1  macallan 	struct dbri_softc *sc = hdl;
 1.1  macallan
1.14  macallan 	if (!sc->sc_playing)
1.14  macallan 		return 0;
1.14  macallan
1.13  macallan 	sc->sc_playing = 0;
 1.1  macallan 	pipe_reset(sc, 4);
 1.1  macallan 	return (0);
 1.1  macallan }
 1.1  macallan
1.11  macallan static int
 1.1  macallan dbri_getdev(void *hdl, struct audio_device *ret)
 1.1  macallan {
 1.1  macallan
 1.1  macallan 	*ret = dbri_device;
 1.1  macallan 	return (0);
 1.1  macallan }
 1.1  macallan
1.11  macallan static int
 1.1  macallan dbri_set_port(void *hdl, mixer_ctrl_t *mc)
 1.1  macallan {
 1.1  macallan 	struct dbri_softc *sc = hdl;
 1.1  macallan 	int latt = sc->sc_latt, ratt = sc->sc_ratt;
 1.1  macallan
 1.1  macallan 	switch (mc->dev) {
 1.1  macallan 	    case DBRI_VOL_OUTPUT:	/* master volume */
 1.1  macallan 		latt = (latt & 0xc0) | (63 -
 1.1  macallan 		    min(mc->un.value.level[AUDIO_MIXER_LEVEL_LEFT] >> 2, 63));
 1.5     blymn 		ratt = (ratt & 0xc0) | (63 -
 1.5     blymn 		    min(mc->un.value.level[AUDIO_MIXER_LEVEL_RIGHT] >> 2, 63));
 1.1  macallan 		break;
 1.1  macallan 	    case DBRI_ENABLE_MONO:	/* built-in speaker */
 1.1  macallan 	    	if (mc->un.ord == 1) {
 1.1  macallan 			ratt |= CS4215_SE;
 1.1  macallan 		} else
 1.1  macallan 			ratt &= ~CS4215_SE;
 1.1  macallan 		break;
 1.1  macallan 	    case DBRI_ENABLE_HEADPHONE:	/* headphones output */
 1.1  macallan 	    	if (mc->un.ord == 1) {
 1.1  macallan 			latt |= CS4215_HE;
 1.1  macallan 		} else
 1.1  macallan 			latt &= ~CS4215_HE;
 1.1  macallan 		break;
 1.1  macallan 	    case DBRI_ENABLE_LINE:	/* line out */
 1.1  macallan 	    	if (mc->un.ord == 1) {
 1.1  macallan 			latt |= CS4215_LE;
 1.1  macallan 		} else
 1.1  macallan 			latt &= ~CS4215_LE;
 1.1  macallan 		break;
1.13  macallan 	    case DBRI_VOL_MONITOR:
1.13  macallan 		if (mc->un.value.level[AUDIO_MIXER_LEVEL_LEFT] ==
1.13  macallan 		    sc->sc_monitor)
1.13  macallan 			return 0;
1.13  macallan 		sc->sc_monitor = mc->un.value.level[AUDIO_MIXER_LEVEL_LEFT];
1.13  macallan 		break;
1.13  macallan 	    case DBRI_INPUT_GAIN:
1.13  macallan 		sc->sc_linp = mc->un.value.level[AUDIO_MIXER_LEVEL_LEFT];
1.13  macallan 		sc->sc_rinp = mc->un.value.level[AUDIO_MIXER_LEVEL_RIGHT];
1.13  macallan 		break;
1.13  macallan 	    case DBRI_INPUT_SELECT:
1.13  macallan 	    	if (mc->un.mask == sc->sc_input)
1.13  macallan 	    		return 0;
1.13  macallan 	    	sc->sc_input =  mc->un.mask;
1.13  macallan 	    	break;
 1.1  macallan 	}
 1.5     blymn
 1.1  macallan 	sc->sc_latt = latt;
 1.1  macallan 	sc->sc_ratt = ratt;
 1.1  macallan
 1.1  macallan 	mmcodec_setgain(sc, 0);
 1.1  macallan
 1.1  macallan 	return (0);
 1.1  macallan }
 1.1  macallan
1.11  macallan static int
 1.1  macallan dbri_get_port(void *hdl, mixer_ctrl_t *mc)
 1.1  macallan {
 1.1  macallan 	struct dbri_softc *sc = hdl;
 1.1  macallan
 1.1  macallan 	switch (mc->dev) {
 1.1  macallan 	    case DBRI_VOL_OUTPUT:	/* master volume */
 1.5     blymn 		mc->un.value.level[AUDIO_MIXER_LEVEL_LEFT] =
 1.1  macallan 		    (63 - (sc->sc_latt & 0x3f)) << 2;
 1.1  macallan 		mc->un.value.level[AUDIO_MIXER_LEVEL_RIGHT] =
 1.1  macallan 		    (63 - (sc->sc_ratt & 0x3f)) << 2;
 1.1  macallan 		return (0);
 1.1  macallan 	    case DBRI_ENABLE_MONO:	/* built-in speaker */
 1.1  macallan 	    	mc->un.ord = (sc->sc_ratt & CS4215_SE) ? 1 : 0;
 1.1  macallan 		return 0;
 1.1  macallan 	    case DBRI_ENABLE_HEADPHONE:	/* headphones output */
 1.1  macallan 	    	mc->un.ord = (sc->sc_latt & CS4215_HE) ? 1 : 0;
 1.1  macallan 		return 0;
 1.1  macallan 	    case DBRI_ENABLE_LINE:	/* line out */
 1.1  macallan 	    	mc->un.ord = (sc->sc_latt & CS4215_LE) ? 1 : 0;
 1.1  macallan 		return 0;
1.13  macallan 	    case DBRI_VOL_MONITOR:
1.13  macallan 		mc->un.value.level[AUDIO_MIXER_LEVEL_LEFT] = sc->sc_monitor;
1.13  macallan 		return 0;
1.13  macallan 	    case DBRI_INPUT_GAIN:
1.13  macallan 		mc->un.value.level[AUDIO_MIXER_LEVEL_LEFT] = sc->sc_linp;
1.13  macallan 		mc->un.value.level[AUDIO_MIXER_LEVEL_RIGHT] = sc->sc_rinp;
1.13  macallan 		return 0;
1.13  macallan 	    case DBRI_INPUT_SELECT:
1.13  macallan 	    	mc->un.mask = sc->sc_input;
1.13  macallan 	    	return 0;
 1.1  macallan 	}
 1.1  macallan 	return (EINVAL);
 1.1  macallan }
 1.1  macallan
1.11  macallan static int
 1.1  macallan dbri_query_devinfo(void *hdl, mixer_devinfo_t *di)
 1.1  macallan {
 1.1  macallan
 1.1  macallan 	switch (di->index) {
 1.1  macallan 	case DBRI_MONITOR_CLASS:
 1.1  macallan 		di->mixer_class = DBRI_MONITOR_CLASS;
 1.1  macallan 		strcpy(di->label.name, AudioCmonitor);
 1.1  macallan 		di->type = AUDIO_MIXER_CLASS;
 1.1  macallan 		di->next = di->prev = AUDIO_MIXER_LAST;
 1.1  macallan 		return 0;
1.13  macallan 	case DBRI_OUTPUT_CLASS:
1.13  macallan 		di->mixer_class = DBRI_OUTPUT_CLASS;
1.13  macallan 		strcpy(di->label.name, AudioCoutputs);
1.13  macallan 		di->type = AUDIO_MIXER_CLASS;
1.13  macallan 		di->next = di->prev = AUDIO_MIXER_LAST;
1.13  macallan 		return 0;
1.13  macallan 	case DBRI_INPUT_CLASS:
1.13  macallan 		di->mixer_class = DBRI_INPUT_CLASS;
1.13  macallan 		strcpy(di->label.name, AudioCinputs);
1.13  macallan 		di->type = AUDIO_MIXER_CLASS;
1.13  macallan 		di->next = di->prev = AUDIO_MIXER_LAST;
1.13  macallan 		return 0;
 1.1  macallan 	case DBRI_VOL_OUTPUT:	/* master volume */
1.13  macallan 		di->mixer_class = DBRI_OUTPUT_CLASS;
 1.1  macallan 		di->next = di->prev = AUDIO_MIXER_LAST;
 1.1  macallan 		strcpy(di->label.name, AudioNmaster);
 1.1  macallan 		di->type = AUDIO_MIXER_VALUE;
 1.1  macallan 		di->un.v.num_channels = 2;
1.29  macallan 		di->un.v.delta = 16;
 1.1  macallan 		strcpy(di->un.v.units.name, AudioNvolume);
 1.1  macallan 		return (0);
1.13  macallan 	case DBRI_INPUT_GAIN:	/* input gain */
1.13  macallan 		di->mixer_class = DBRI_INPUT_CLASS;
1.13  macallan 		di->next = di->prev = AUDIO_MIXER_LAST;
1.13  macallan 		strcpy(di->label.name, AudioNrecord);
1.13  macallan 		di->type = AUDIO_MIXER_VALUE;
1.13  macallan 		di->un.v.num_channels = 2;
1.13  macallan 		strcpy(di->un.v.units.name, AudioNvolume);
1.13  macallan 		return (0);
1.13  macallan 	case DBRI_VOL_MONITOR:	/* monitor volume */
1.13  macallan 		di->mixer_class = DBRI_MONITOR_CLASS;
1.13  macallan 		di->next = di->prev = AUDIO_MIXER_LAST;
1.13  macallan 		strcpy(di->label.name, AudioNmonitor);
1.13  macallan 		di->type = AUDIO_MIXER_VALUE;
1.13  macallan 		di->un.v.num_channels = 1;
1.13  macallan 		strcpy(di->un.v.units.name, AudioNvolume);
1.13  macallan 		return (0);
 1.1  macallan 	case DBRI_ENABLE_MONO:	/* built-in speaker */
1.13  macallan 		di->mixer_class = DBRI_OUTPUT_CLASS;
 1.1  macallan 		di->next = di->prev = AUDIO_MIXER_LAST;
 1.1  macallan 		strcpy(di->label.name, AudioNmono);
 1.1  macallan 		di->type = AUDIO_MIXER_ENUM;
 1.1  macallan 		di->un.e.num_mem = 2;
 1.1  macallan 		strcpy(di->un.e.member[0].label.name, AudioNoff);
 1.1  macallan 		di->un.e.member[0].ord = 0;
 1.1  macallan 		strcpy(di->un.e.member[1].label.name, AudioNon);
 1.1  macallan 		di->un.e.member[1].ord = 1;
 1.1  macallan 		return (0);
 1.1  macallan 	case DBRI_ENABLE_HEADPHONE:	/* headphones output */
1.13  macallan 		di->mixer_class = DBRI_OUTPUT_CLASS;
 1.1  macallan 		di->next = di->prev = AUDIO_MIXER_LAST;
 1.1  macallan 		strcpy(di->label.name, AudioNheadphone);
 1.1  macallan 		di->type = AUDIO_MIXER_ENUM;
 1.1  macallan 		di->un.e.num_mem = 2;
 1.1  macallan 		strcpy(di->un.e.member[0].label.name, AudioNoff);
 1.1  macallan 		di->un.e.member[0].ord = 0;
 1.1  macallan 		strcpy(di->un.e.member[1].label.name, AudioNon);
 1.1  macallan 		di->un.e.member[1].ord = 1;
 1.1  macallan 		return (0);
 1.1  macallan 	case DBRI_ENABLE_LINE:	/* line out */
1.13  macallan 		di->mixer_class = DBRI_OUTPUT_CLASS;
 1.1  macallan 		di->next = di->prev = AUDIO_MIXER_LAST;
 1.1  macallan 		strcpy(di->label.name, AudioNline);
 1.1  macallan 		di->type = AUDIO_MIXER_ENUM;
 1.1  macallan 		di->un.e.num_mem = 2;
 1.1  macallan 		strcpy(di->un.e.member[0].label.name, AudioNoff);
 1.1  macallan 		di->un.e.member[0].ord = 0;
 1.1  macallan 		strcpy(di->un.e.member[1].label.name, AudioNon);
 1.1  macallan 		di->un.e.member[1].ord = 1;
 1.1  macallan 		return (0);
1.13  macallan 	case DBRI_INPUT_SELECT:
1.13  macallan 		di->mixer_class = DBRI_INPUT_CLASS;
1.13  macallan 		strcpy(di->label.name, AudioNsource);
1.13  macallan 		di->type = AUDIO_MIXER_SET;
1.13  macallan 		di->prev = di->next = AUDIO_MIXER_LAST;
1.13  macallan 		di->un.s.num_mem = 2;
1.13  macallan 		strcpy(di->un.s.member[0].label.name, AudioNline);
1.13  macallan 		di->un.s.member[0].mask = 1 << 0;
1.13  macallan 		strcpy(di->un.s.member[1].label.name, AudioNmicrophone);
1.13  macallan 		di->un.s.member[1].mask = 1 << 1;
1.13  macallan 		return 0;
 1.1  macallan 	}
 1.5     blymn
 1.1  macallan 	return (ENXIO);
 1.1  macallan }
 1.1  macallan
1.11  macallan static size_t
 1.1  macallan dbri_round_buffersize(void *hdl, int dir, size_t bufsize)
 1.1  macallan {
 1.1  macallan #ifdef DBRI_BIG_BUFFER
1.33  macallan 	return 0x20000;	/* use 128KB buffer */
 1.1  macallan #else
 1.1  macallan 	return bufsize;
 1.1  macallan #endif
 1.1  macallan }
 1.1  macallan
1.11  macallan static int
 1.1  macallan dbri_get_props(void *hdl)
 1.1  macallan {
 1.1  macallan
1.14  macallan 	return AUDIO_PROP_MMAP | AUDIO_PROP_FULLDUPLEX;
 1.1  macallan }
 1.1  macallan
1.11  macallan static int
 1.1  macallan dbri_trigger_output(void *hdl, void *start, void *end, int blksize,
 1.1  macallan 		    void (*intr)(void *), void *intrarg,
 1.1  macallan 		    const struct audio_params *param)
 1.1  macallan {
 1.1  macallan 	struct dbri_softc *sc = hdl;
1.14  macallan 	unsigned long count, num;
1.14  macallan
1.14  macallan 	if (sc->sc_playing)
1.14  macallan 		return 0;
 1.1  macallan
 1.8       mrg 	count = (unsigned long)(((char *)end - (char *)start));
 1.1  macallan 	num = count / blksize;
 1.5     blymn
1.10  macallan 	DPRINTF("trigger_output(%lx %lx) : %d %ld %ld\n",
 1.1  macallan 	    (unsigned long)intr,
1.10  macallan 	    (unsigned long)intrarg, blksize, count, num);
 1.4  macallan
 1.1  macallan 	sc->sc_params = *param;
 1.1  macallan
1.14  macallan 	if (sc->sc_recording == 0) {
1.14  macallan 		/* do not muck with the codec when it's already in use */
1.15  macallan 		if (mmcodec_setcontrol(sc) != 0)
1.15  macallan 			return -1;
1.14  macallan 		mmcodec_init_data(sc);
1.14  macallan 	}
 1.5     blymn
1.14  macallan 	/*
1.14  macallan 	 * always use DMA descriptor 0 for output
1.14  macallan 	 * no need to allocate them dynamically since we only ever have
1.14  macallan 	 * exactly one input stream and exactly one output stream
1.14  macallan 	 */
1.14  macallan 	setup_ring_xmit(sc, 4, 0, num, blksize, intr, intrarg);
1.14  macallan 	sc->sc_playing = 1;
1.14  macallan 	return 0;
 1.1  macallan }
 1.1  macallan
1.13  macallan static int
1.13  macallan dbri_halt_input(void *cookie)
1.13  macallan {
1.14  macallan 	struct dbri_softc *sc = cookie;
1.14  macallan
1.14  macallan 	if (!sc->sc_recording)
1.14  macallan 		return 0;
1.14  macallan
1.14  macallan 	sc->sc_recording = 0;
1.14  macallan 	pipe_reset(sc, 6);
1.13  macallan 	return 0;
1.13  macallan }
1.13  macallan
1.13  macallan static int
1.13  macallan dbri_trigger_input(void *hdl, void *start, void *end, int blksize,
1.13  macallan 		    void (*intr)(void *), void *intrarg,
1.13  macallan 		    const struct audio_params *param)
1.13  macallan {
1.13  macallan 	struct dbri_softc *sc = hdl;
1.14  macallan 	unsigned long count, num;
1.14  macallan
1.14  macallan 	if (sc->sc_recording)
1.14  macallan 		return 0;
1.13  macallan
1.13  macallan 	count = (unsigned long)(((char *)end - (char *)start));
1.13  macallan 	num = count / blksize;
1.13  macallan
1.13  macallan 	DPRINTF("trigger_input(%lx %lx) : %d %ld %ld\n",
1.13  macallan 	    (unsigned long)intr,
1.13  macallan 	    (unsigned long)intrarg, blksize, count, num);
1.13  macallan
1.13  macallan 	sc->sc_params = *param;
1.13  macallan
1.14  macallan 	if (sc->sc_playing == 0) {
1.13  macallan
1.14  macallan 		/*
1.14  macallan 		 * we don't support different parameters for playing and
1.14  macallan 		 * recording anyway so don't bother whacking the codec if
1.14  macallan 		 * it's already set up
1.14  macallan 		 */
1.14  macallan 		mmcodec_setcontrol(sc);
1.14  macallan 		mmcodec_init_data(sc);
1.13  macallan 	}
1.14  macallan
1.14  macallan 	sc->sc_recording = 1;
1.14  macallan 	setup_ring_recv(sc, 6, 1, num, blksize, intr, intrarg);
1.14  macallan 	return 0;
1.13  macallan }
1.13  macallan
1.34  jmcneill static void
1.34  jmcneill dbri_get_locks(void *opaque, kmutex_t **intr, kmutex_t **thread)
1.34  jmcneill {
1.34  jmcneill 	struct dbri_softc *sc = opaque;
1.34  jmcneill
1.34  jmcneill 	*intr = &sc->sc_intr_lock;
1.34  jmcneill 	*thread = &sc->sc_lock;
1.34  jmcneill }
1.13  macallan
1.25   tsutsui static uint32_t
1.25   tsutsui reverse_bytes(uint32_t b, int len)
 1.1  macallan {
 1.1  macallan 	switch (len) {
 1.1  macallan 	case 32:
 1.1  macallan 		b = ((b & 0xffff0000) >> 16) | ((b & 0x0000ffff) << 16);
 1.1  macallan 	case 16:
 1.1  macallan 		b = ((b & 0xff00ff00) >>  8) | ((b & 0x00ff00ff) <<  8);
 1.1  macallan 	case 8:
 1.1  macallan 		b = ((b & 0xf0f0f0f0) >>  4) | ((b & 0x0f0f0f0f) <<  4);
 1.1  macallan 	case 4:
 1.1  macallan 		b = ((b & 0xcccccccc) >>  2) | ((b & 0x33333333) <<  2);
 1.1  macallan 	case 2:
 1.1  macallan 		b = ((b & 0xaaaaaaaa) >>  1) | ((b & 0x55555555) <<  1);
 1.1  macallan 	case 1:
 1.1  macallan 	case 0:
 1.1  macallan 		break;
 1.1  macallan 	default:
1.10  macallan 		DPRINTF("reverse_bytes: unsupported length\n");
 1.1  macallan 	};
 1.1  macallan
 1.1  macallan 	return (b);
 1.1  macallan }
 1.1  macallan
1.14  macallan static void *
1.34  jmcneill dbri_malloc(void *v, int dir, size_t s)
 1.1  macallan {
 1.1  macallan 	struct dbri_softc *sc = v;
 1.1  macallan 	struct dbri_desc *dd = &sc->sc_desc[sc->sc_desc_used];
 1.1  macallan 	int rseg;
 1.5     blymn
 1.5     blymn 	if (bus_dmamap_create(sc->sc_dmat, s, 1, s, 0, BUS_DMA_NOWAIT,
 1.1  macallan 	    &dd->dmamap) == 0) {
 1.1  macallan 		if (bus_dmamem_alloc(sc->sc_dmat, s, 0, 0, &dd->dmaseg,
 1.1  macallan 		    1, &rseg, BUS_DMA_NOWAIT) == 0) {
 1.1  macallan 			if (bus_dmamem_map(sc->sc_dmat, &dd->dmaseg, rseg, s,
 1.5     blymn 			    &dd->buf, BUS_DMA_NOWAIT|BUS_DMA_COHERENT) == 0) {
1.14  macallan 				if (dd->buf != NULL) {
 1.5     blymn 					if (bus_dmamap_load(sc->sc_dmat,
 1.5     blymn 					    dd->dmamap, dd->buf, s, NULL,
 1.1  macallan 					    BUS_DMA_NOWAIT) == 0) {
 1.1  macallan 						dd->len = s;
 1.1  macallan 						dd->busy = 0;
 1.1  macallan 						dd->callback = NULL;
 1.5     blymn 						dd->dmabase =
 1.1  macallan 						 dd->dmamap->dm_segs[0].ds_addr;
1.14  macallan 						DPRINTF("dbri_malloc: using buffer %d %08x\n",
1.14  macallan 						    sc->sc_desc_used, (uint32_t)dd->buf);
 1.1  macallan 						sc->sc_desc_used++;
 1.1  macallan 						return dd->buf;
 1.1  macallan 					} else
1.10  macallan 						aprint_error("dbri_malloc: load failed\n");
 1.1  macallan 				} else
1.10  macallan 					aprint_error("dbri_malloc: map returned NULL\n");
 1.1  macallan 			} else
1.10  macallan 				aprint_error("dbri_malloc: map failed\n");
 1.1  macallan 			bus_dmamem_free(sc->sc_dmat, &dd->dmaseg, rseg);
 1.1  macallan 		} else
1.10  macallan 			aprint_error("dbri_malloc: malloc() failed\n");
 1.1  macallan 		bus_dmamap_destroy(sc->sc_dmat, dd->dmamap);
 1.1  macallan 	} else
1.10  macallan 		aprint_error("dbri_malloc: bus_dmamap_create() failed\n");
 1.1  macallan 	return NULL;
 1.1  macallan }
 1.1  macallan
 1.1  macallan static void
1.34  jmcneill dbri_free(void *v, void *p, size_t size)
 1.1  macallan {
1.23    martin 	struct dbri_softc *sc = v;
1.23    martin 	struct dbri_desc *dd;
1.23    martin 	int i;
1.23    martin
1.23    martin 	for (i = 0; i < sc->sc_desc_used; i++) {
1.23    martin 		dd = &sc->sc_desc[i];
1.23    martin 		if (dd->buf == p)
1.23    martin 			break;
1.23    martin 	}
1.23    martin 	if (i >= sc->sc_desc_used)
1.23    martin 		return;
1.23    martin 	bus_dmamap_unload(sc->sc_dmat, dd->dmamap);
1.23    martin 	bus_dmamap_destroy(sc->sc_dmat, dd->dmamap);
 1.1  macallan }
 1.1  macallan
 1.1  macallan static paddr_t
 1.1  macallan dbri_mappage(void *v, void *mem, off_t off, int prot)
 1.1  macallan {
1.21      yamt 	struct dbri_softc *sc = v;
 1.1  macallan 	int current;
 1.5     blymn
 1.1  macallan 	if (off < 0)
 1.1  macallan 		return -1;
 1.5     blymn
 1.1  macallan 	current = 0;
 1.5     blymn 	while ((current < sc->sc_desc_used) &&
 1.5     blymn 	    (sc->sc_desc[current].buf != mem))
 1.1  macallan 	    	current++;
 1.5     blymn
 1.1  macallan 	if (current < sc->sc_desc_used) {
 1.5     blymn 		return bus_dmamem_mmap(sc->sc_dmat,
 1.1  macallan 		    &sc->sc_desc[current].dmaseg, 1, off, prot, BUS_DMA_WAITOK);
 1.1  macallan 	}
 1.5     blymn
 1.1  macallan 	return -1;
 1.1  macallan }
 1.1  macallan
 1.4  macallan static int
 1.4  macallan dbri_open(void *cookie, int flags)
 1.4  macallan {
 1.4  macallan 	struct dbri_softc *sc = cookie;
 1.5     blymn
1.14  macallan 	DPRINTF("%s: %d\n", __func__, sc->sc_refcount);
1.14  macallan
1.14  macallan 	if (sc->sc_refcount == 0)
1.14  macallan 		dbri_bring_up(sc);
1.14  macallan
1.14  macallan 	sc->sc_refcount++;
1.14  macallan
 1.4  macallan 	return 0;
 1.4  macallan }
 1.4  macallan
 1.4  macallan static void
 1.4  macallan dbri_close(void *cookie)
 1.4  macallan {
 1.4  macallan 	struct dbri_softc *sc = cookie;
 1.5     blymn
1.14  macallan 	DPRINTF("%s: %d\n", __func__, sc->sc_refcount);
1.14  macallan
1.14  macallan 	sc->sc_refcount--;
1.14  macallan 	KASSERT(sc->sc_refcount >= 0);
1.14  macallan 	if (sc->sc_refcount > 0)
1.14  macallan 		return;
1.14  macallan
 1.4  macallan 	dbri_set_power(sc, 0);
1.14  macallan 	sc->sc_playing = 0;
1.14  macallan 	sc->sc_recording = 0;
 1.4  macallan }
 1.4  macallan
1.26  christos static bool
1.31    dyoung dbri_suspend(device_t self, const pmf_qual_t *qual)
 1.4  macallan {
1.26  christos 	struct dbri_softc *sc = device_private(self);
1.26  christos
1.26  christos 	dbri_set_power(sc, 0);
1.26  christos 	return true;
1.26  christos }
 1.5     blymn
1.26  christos static bool
1.31    dyoung dbri_resume(device_t self, const pmf_qual_t *qual)
1.26  christos {
1.27   tsutsui 	struct dbri_softc *sc = device_private(self);
1.27   tsutsui
1.26  christos 	if (sc->sc_powerstate != 0)
1.27   tsutsui 		return true;
1.26  christos 	aprint_verbose("resume: %d\n", sc->sc_refcount);
1.26  christos 	if (sc->sc_playing) {
1.26  christos 		volatile uint32_t *cmd;
1.13  macallan
1.26  christos 		dbri_bring_up(sc);
1.34  jmcneill 		mutex_spin_enter(&sc->sc_intr_lock);
1.26  christos 		cmd = dbri_command_lock(sc);
1.26  christos 		*(cmd++) = DBRI_CMD(DBRI_COMMAND_SDP,
1.26  christos 		    0, sc->sc_pipe[4].sdp |
1.26  christos 		    DBRI_SDP_VALID_POINTER |
1.26  christos 		    DBRI_SDP_EVERY | DBRI_SDP_CLEAR);
1.26  christos 		*(cmd++) = sc->sc_dmabase +
1.26  christos 		    dbri_dma_off(xmit, 0);
1.26  christos 		dbri_command_send(sc, cmd);
1.34  jmcneill 		mutex_spin_exit(&sc->sc_intr_lock);
 1.4  macallan 	}
1.26  christos 	return true;
 1.4  macallan }
 1.5     blymn
 1.4  macallan #endif /* NAUDIO > 0 */