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|
/* $OpenBSD: eap.c,v 1.7 1999/10/10 00:36:46 csapuntz Exp $ */
/* $NetBSD: eap.c,v 1.25 1999/02/18 07:59:30 mycroft Exp $ */
/*
* Copyright (c) 1998, 1999 The NetBSD Foundation, Inc.
* All rights reserved.
*
* This code is derived from software contributed to The NetBSD Foundation
* by Lennart Augustsson <augustss@netbsd.org> and Charles M. Hannum.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the NetBSD
* Foundation, Inc. and its contributors.
* 4. Neither the name of The NetBSD Foundation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
* TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
/*
* Debugging: Andreas Gustafsson <gson@araneus.fi>
* Testing: Chuck Cranor <chuck@maria.wustl.edu>
* Phil Nelson <phil@cs.wwu.edu>
*/
/*
* Ensoniq AudoiPCI ES1370 + AK4531 driver.
* Data sheets can be found at
* http://www.ensoniq.com/multimedia/semi_html/html/es1370.zip
* and
* http://206.214.38.151/pdf/4531.pdf
*
* Added Creative Ensoniq support: ES1371 + AC97 = hack city.
* -- Ezra Story <ezy@panix.com>
* Check es1371.zip from above, and the Audio Codec 97 spec from
* intel.com.
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/kernel.h>
#include <sys/malloc.h>
#include <sys/device.h>
#include <dev/pci/pcidevs.h>
#include <dev/pci/pcivar.h>
#include <sys/audioio.h>
#include <dev/audio_if.h>
#include <dev/mulaw.h>
#include <dev/auconv.h>
#include <dev/ic/ac97.h>
#include <machine/bus.h>
struct cfdriver eap_cd = {
NULL, "eap", DV_DULL
};
#define PCI_CBIO 0x10
#define EAP_ICSC 0x00 /* interrupt / chip select control */
#define EAP_SERR_DISABLE 0x00000001
#define EAP_CDC_EN 0x00000002
#define EAP_JYSTK_EN 0x00000004
#define EAP_UART_EN 0x00000008
#define EAP_ADC_EN 0x00000010
#define EAP_DAC2_EN 0x00000020
#define EAP_DAC1_EN 0x00000040
#define EAP_BREQ 0x00000080
#define EAP_XTCL0 0x00000100
#define EAP_M_CB 0x00000200
#define EAP_CCB_INTRM 0x00000400
#define EAP_DAC_SYNC 0x00000800
#define EAP_WTSRSEL 0x00003000
#define EAP_WTSRSEL_5 0x00000000
#define EAP_WTSRSEL_11 0x00001000
#define EAP_WTSRSEL_22 0x00002000
#define EAP_WTSRSEL_44 0x00003000
#define EAP_M_SBB 0x00004000
#define EAP_MSFMTSEL 0x00008000
#define EAP_SET_PCLKDIV(n) (((n)&0x1fff)<<16)
#define EAP_GET_PCLKDIV(n) (((n)>>16)&0x1fff)
#define EAP_PCLKBITS 0x1fff0000
#define EAP_XTCL1 0x40000000
#define EAP_ADC_STOP 0x80000000
#define E1371_SYNC_RES (1<<14)
#define EAP_ICSS 0x04 /* interrupt / chip select status */
#define EAP_I_ADC 0x00000001
#define EAP_I_DAC2 0x00000002
#define EAP_I_DAC1 0x00000004
#define EAP_I_UART 0x00000008
#define EAP_I_MCCB 0x00000010
#define EAP_VC 0x00000060
#define EAP_CWRIP 0x00000100
#define EAP_CBUSY 0x00000200
#define EAP_CSTAT 0x00000400
#define EAP_INTR 0x80000000
#define EAP_UART_DATA 0x08
#define EAP_UART_STATUS 0x09
#define EAP_UART_CONTROL 0x09
#define EAP_MEMPAGE 0x0c
#define EAP_CODEC 0x10
#define EAP_SET_CODEC(a,d) (((a)<<8) | (d))
/* ES1371 Registers */
#define E1371_CODEC 0x14
#define E1371_CODEC_WIP (1<<30)
#define E1371_CODEC_VALID (1<<31)
#define E1371_CODEC_READ (1<<23)
#define E1371_SET_CODEC(a,d) (((a)<<16) | (d))
#define E1371_SRC 0x10
#define E1371_SRC_RAMWE (1<<24)
#define E1371_SRC_RBUSY (1<<23)
#define E1371_SRC_DISABLE (1<<22)
#define E1371_SRC_DISP1 (1<<21)
#define E1371_SRC_DISP2 (1<<20)
#define E1371_SRC_DISREC (1<<19)
#define E1371_SRC_ADDR(a) ((a)<<25)
#define E1371_SRC_DATA(d) (d)
#define E1371_SRC_DATAMASK 0xffff
#define E1371_LEGACY 0x18
/* ES1371 Sample rate converter registers */
#define ESRC_ADC 0x78
#define ESRC_DAC1 0x74
#define ESRC_DAC2 0x70
#define ESRC_ADC_VOLL 0x6c
#define ESRC_ADC_VOLR 0x6d
#define ESRC_DAC1_VOLL 0x7c
#define ESRC_DAC1_VOLR 0x7d
#define ESRC_DAC2_VOLL 0x7e
#define ESRC_DAC2_VOLR 0x7f
#define ESRC_TRUNC_N 0x00
#define ESRC_IREGS 0x01
#define ESRC_ACF 0x02
#define ESRC_VFF 0x03
#define ESRC_SET_TRUNC(n) ((n)<<9)
#define ESRC_SET_N(n) ((n)<<4)
#define ESRC_SMF 0x8000
#define ESRC_SET_VFI(n) ((n)<<10)
#define ESRC_SET_ACI(n) (n)
#define ESRC_SET_ADC_VOL(n) ((n)<<8)
#define ESRC_SET_DAC_VOLI(n) ((n)<<12)
#define ESRC_SET_DAC_VOLF(n) (n)
#define SRC_MAGIC ((1<15)|(1<<13)|(1<<11)|(1<<9))
#define EAP_SIC 0x20
#define EAP_P1_S_MB 0x00000001
#define EAP_P1_S_EB 0x00000002
#define EAP_P2_S_MB 0x00000004
#define EAP_P2_S_EB 0x00000008
#define EAP_R1_S_MB 0x00000010
#define EAP_R1_S_EB 0x00000020
#define EAP_P2_DAC_SEN 0x00000040
#define EAP_P1_SCT_RLD 0x00000080
#define EAP_P1_INTR_EN 0x00000100
#define EAP_P2_INTR_EN 0x00000200
#define EAP_R1_INTR_EN 0x00000400
#define EAP_P1_PAUSE 0x00000800
#define EAP_P2_PAUSE 0x00001000
#define EAP_P1_LOOP_SEL 0x00002000
#define EAP_P2_LOOP_SEL 0x00004000
#define EAP_R1_LOOP_SEL 0x00008000
#define EAP_SET_P2_ST_INC(i) ((i) << 16)
#define EAP_SET_P2_END_INC(i) ((i) << 19)
#define EAP_INC_BITS 0x003f0000
#define EAP_DAC1_CSR 0x24
#define EAP_DAC2_CSR 0x28
#define EAP_ADC_CSR 0x2c
#define EAP_GET_CURRSAMP(r) ((r) >> 16)
#define EAP_DAC_PAGE 0xc
#define EAP_ADC_PAGE 0xd
#define EAP_UART_PAGE1 0xe
#define EAP_UART_PAGE2 0xf
#define EAP_DAC1_ADDR 0x30
#define EAP_DAC1_SIZE 0x34
#define EAP_DAC2_ADDR 0x38
#define EAP_DAC2_SIZE 0x3c
#define EAP_ADC_ADDR 0x30
#define EAP_ADC_SIZE 0x34
#define EAP_SET_SIZE(c,s) (((c)<<16) | (s))
#define EAP_READ_TIMEOUT 5000000
#define EAP_WRITE_TIMEOUT 5000000
#define EAP_XTAL_FREQ 1411200 /* 22.5792 / 16 MHz */
/* AK4531 registers */
#define AK_MASTER_L 0x00
#define AK_MASTER_R 0x01
#define AK_VOICE_L 0x02
#define AK_VOICE_R 0x03
#define AK_FM_L 0x04
#define AK_FM_R 0x05
#define AK_CD_L 0x06
#define AK_CD_R 0x07
#define AK_LINE_L 0x08
#define AK_LINE_R 0x09
#define AK_AUX_L 0x0a
#define AK_AUX_R 0x0b
#define AK_MONO1 0x0c
#define AK_MONO2 0x0d
#define AK_MIC 0x0e
#define AK_MONO 0x0f
#define AK_OUT_MIXER1 0x10
#define AK_M_FM_L 0x40
#define AK_M_FM_R 0x20
#define AK_M_LINE_L 0x10
#define AK_M_LINE_R 0x08
#define AK_M_CD_L 0x04
#define AK_M_CD_R 0x02
#define AK_M_MIC 0x01
#define AK_OUT_MIXER2 0x11
#define AK_M_AUX_L 0x20
#define AK_M_AUX_R 0x10
#define AK_M_VOICE_L 0x08
#define AK_M_VOICE_R 0x04
#define AK_M_MONO2 0x02
#define AK_M_MONO1 0x01
#define AK_IN_MIXER1_L 0x12
#define AK_IN_MIXER1_R 0x13
#define AK_IN_MIXER2_L 0x14
#define AK_IN_MIXER2_R 0x15
#define AK_M_TMIC 0x80
#define AK_M_TMONO1 0x40
#define AK_M_TMONO2 0x20
#define AK_M2_AUX_L 0x10
#define AK_M2_AUX_R 0x08
#define AK_M_VOICE 0x04
#define AK_M2_MONO2 0x02
#define AK_M2_MONO1 0x01
#define AK_RESET 0x16
#define AK_PD 0x02
#define AK_NRST 0x01
#define AK_CS 0x17
#define AK_ADSEL 0x18
#define AK_MGAIN 0x19
#define AK_NPORTS 0x20
#define MAX_NPORTS AK_NPORTS
/* Not sensical for AC97? */
#define VOL_TO_ATT5(v) (0x1f - ((v) >> 3))
#define VOL_TO_GAIN5(v) VOL_TO_ATT5(v)
#define ATT5_TO_VOL(v) ((0x1f - (v)) << 3)
#define GAIN5_TO_VOL(v) ATT5_TO_VOL(v)
#define VOL_0DB 200
/* Futzable parms */
#define EAP_MASTER_VOL 0
#define EAP_VOICE_VOL 1
#define EAP_FM_VOL 2
#define EAP_VIDEO_VOL 2 /* ES1371 */
#define EAP_CD_VOL 3
#define EAP_LINE_VOL 4
#define EAP_AUX_VOL 5
#define EAP_MIC_VOL 6
#define EAP_RECORD_SOURCE 7
#define EAP_OUTPUT_SELECT 8
#define EAP_MIC_PREAMP 9
#define EAP_OUTPUT_CLASS 10
#define EAP_RECORD_CLASS 11
#define EAP_INPUT_CLASS 12
/* Debug */
#ifdef AUDIO_DEBUG
#define DPRINTF(x) if (eapdebug) printf x
#define DPRINTFN(n,x) if (eapdebug>(n)) printf x
int eapdebug = 20;
#else
#define DPRINTF(x)
#define DPRINTFN(n,x)
#endif
int eap_match __P((struct device *, void *, void *));
void eap_attach __P((struct device *, struct device *, void *));
int eap_intr __P((void *));
struct eap_dma {
bus_dmamap_t map;
caddr_t addr;
bus_dma_segment_t segs[1];
int nsegs;
size_t size;
struct eap_dma *next;
};
#define DMAADDR(p) ((p)->map->dm_segs[0].ds_addr)
#define KERNADDR(p) ((void *)((p)->addr))
struct eap_softc {
struct device sc_dev; /* base device */
void *sc_ih; /* interrupt vectoring */
bus_space_tag_t iot;
bus_space_handle_t ioh;
bus_dma_tag_t sc_dmatag; /* DMA tag */
struct eap_dma *sc_dmas;
void (*sc_pintr)(void *); /* dma completion intr handler */
void *sc_parg; /* arg for sc_intr() */
#ifdef DIAGNOSTIC
char sc_prun;
#endif
void (*sc_rintr)(void *); /* dma completion intr handler */
void *sc_rarg; /* arg for sc_intr() */
#ifdef DIAGNOSTIC
char sc_rrun;
#endif
u_short sc_port[MAX_NPORTS]; /* mirror of the hardware setting */
u_int sc_record_source; /* recording source mask */
u_int sc_output_source; /* output source mask */
u_int sc_mic_preamp;
char sc_1371; /* Using ES1371/AC97 codec */
struct ac97_codec_if *codec_if;
struct ac97_host_if host_if;
};
int eap_allocmem __P((struct eap_softc *, size_t, size_t, struct eap_dma *));
int eap_freemem __P((struct eap_softc *, struct eap_dma *));
#define EWRITE2(sc, r, x) bus_space_write_2((sc)->iot, (sc)->ioh, (r), (x))
#define EWRITE4(sc, r, x) bus_space_write_4((sc)->iot, (sc)->ioh, (r), (x))
#define EREAD2(sc, r) bus_space_read_2((sc)->iot, (sc)->ioh, (r))
#define EREAD4(sc, r) bus_space_read_4((sc)->iot, (sc)->ioh, (r))
struct cfattach eap_ca = {
sizeof(struct eap_softc), eap_match, eap_attach
};
int eap_open __P((void *, int));
void eap_close __P((void *));
int eap_query_encoding __P((void *, struct audio_encoding *));
int eap_set_params __P((void *, int, int, struct audio_params *, struct audio_params *));
int eap_round_blocksize __P((void *, int));
int eap_trigger_output __P((void *, void *, void *, int, void (*)(void *),
void *, struct audio_params *));
int eap_trigger_input __P((void *, void *, void *, int, void (*)(void *),
void *, struct audio_params *));
int eap_halt_output __P((void *));
int eap_halt_input __P((void *));
void eap_write_codec __P((struct eap_softc *, int, int));
int eap_getdev __P((void *, struct audio_device *));
int eap_mixer_set_port __P((void *, mixer_ctrl_t *));
int eap_mixer_get_port __P((void *, mixer_ctrl_t *));
int eap1371_mixer_set_port __P((void *, mixer_ctrl_t *));
int eap1371_mixer_get_port __P((void *, mixer_ctrl_t *));
int eap_query_devinfo __P((void *, mixer_devinfo_t *));
void *eap_malloc __P((void *, u_long, int, int));
void eap_free __P((void *, void *, int));
u_long eap_round_buffersize __P((void *, u_long));
int eap_mappage __P((void *, void *, int, int));
int eap_get_props __P((void *));
void eap_set_mixer __P((struct eap_softc *sc, int a, int d));
void eap1371_src_wait __P((struct eap_softc *sc));
void eap1371_set_adc_rate __P((struct eap_softc *sc, int rate));
void eap1371_set_dac_rate __P((struct eap_softc *sc, int rate, int which));
int eap1371_src_read __P((struct eap_softc *sc, int a));
void eap1371_src_write __P((struct eap_softc *sc, int a, int d));
int eap1371_query_devinfo __P((void *addr, mixer_devinfo_t *dip));
int eap1371_attach_codec __P((void *sc, struct ac97_codec_if *));
int eap1371_read_codec __P((void *sc, u_int8_t a, u_int16_t *d));
int eap1371_write_codec __P((void *sc, u_int8_t a, u_int16_t d));
void eap1371_reset_codec __P((void *sc));
int eap1371_get_portnum_by_name __P((struct eap_softc *, char *, char *,
char *));
struct audio_hw_if eap_hw_if = {
eap_open,
eap_close,
NULL,
eap_query_encoding,
eap_set_params,
eap_round_blocksize,
NULL,
NULL,
NULL,
NULL,
NULL,
eap_halt_output,
eap_halt_input,
NULL,
eap_getdev,
NULL,
eap_mixer_set_port,
eap_mixer_get_port,
eap_query_devinfo,
eap_malloc,
eap_free,
eap_round_buffersize,
eap_mappage,
eap_get_props,
eap_trigger_output,
eap_trigger_input,
};
struct audio_device eap_device = {
"Ensoniq AudioPCI",
"",
"eap"
};
int
eap_match(parent, match, aux)
struct device *parent;
void *match;
void *aux;
{
struct pci_attach_args *pa = (struct pci_attach_args *) aux;
if (PCI_VENDOR(pa->pa_id) != PCI_VENDOR_ENSONIQ)
return (0);
if (PCI_PRODUCT(pa->pa_id) == PCI_PRODUCT_ENSONIQ_AUDIOPCI) {
return (1);
}
if (PCI_PRODUCT(pa->pa_id) == PCI_PRODUCT_ENSONIQ_AUDIOPCI97) {
return (1);
}
return (0);
}
void
eap_write_codec(sc, a, d)
struct eap_softc *sc;
int a, d;
{
int icss, to = EAP_WRITE_TIMEOUT;
do {
icss = EREAD4(sc, EAP_ICSS);
DPRINTFN(5,("eap: codec %d prog: icss=0x%08x\n", a, icss));
if (!to--) {
printf("eap: timeout writing to codec\n");
return;
}
} while(to && icss & EAP_CWRIP); /* XXX could use CSTAT here */
EWRITE4(sc, EAP_CODEC, EAP_SET_CODEC(a, d));
}
int
eap1371_read_codec(sc_, a, d)
void *sc_;
u_int8_t a;
u_int16_t *d;
{
struct eap_softc *sc = sc_;
int to;
int cdc;
to = EAP_WRITE_TIMEOUT;
do {
cdc = EREAD4(sc, E1371_CODEC);
if (!to--) {
printf("eap: timeout writing to codec\n");
return 1;
}
} while (cdc & E1371_CODEC_WIP);
/* just do it */
eap1371_src_wait(sc);
EWRITE4(sc, E1371_CODEC, E1371_SET_CODEC(a, 0) | E1371_CODEC_READ);
for (to = 0; to < EAP_WRITE_TIMEOUT; to++) {
if ((cdc = EREAD4(sc, E1371_CODEC)) & E1371_CODEC_VALID)
break;
}
if (to == EAP_WRITE_TIMEOUT) {
DPRINTF(("eap1371: read codec timeout\n"));
}
*d = cdc & 0xffff;
DPRINTFN(10, ("eap1371: reading codec (%x) = %x\n", a, *d));
return (0);
}
int
eap1371_write_codec(sc_, a, d)
void *sc_;
u_int8_t a;
u_int16_t d;
{
struct eap_softc *sc = sc_;
int to;
int cdc;
to = EAP_WRITE_TIMEOUT;
do {
cdc = EREAD4(sc, E1371_CODEC);
if (!to--) {
printf("eap: timeout writing to codec\n");
return 1;
}
} while (cdc & E1371_CODEC_WIP);
/* just do it */
eap1371_src_wait(sc);
EWRITE4(sc, E1371_CODEC, E1371_SET_CODEC(a, d));
DPRINTFN(10, ("eap1371: writing codec %x --> %x\n", d, a));
return (0);
}
void
eap1371_src_wait(sc)
struct eap_softc *sc;
{
int to;
int src;
to = EAP_READ_TIMEOUT;
do {
src = EREAD4(sc, E1371_SRC);
if (!to--) {
printf("eap: timeout waiting for sample rate"
"converter\n");
return;
}
} while (src & E1371_SRC_RBUSY);
}
int
eap1371_src_read(sc, a)
struct eap_softc *sc;
int a;
{
int r;
eap1371_src_wait(sc);
r = EREAD4(sc, E1371_SRC) & (E1371_SRC_DISABLE | E1371_SRC_DISP1 |
E1371_SRC_DISP2 | E1371_SRC_DISREC);
r |= E1371_SRC_ADDR(a);
EWRITE4(sc, E1371_SRC, r);
r = EREAD4(sc, E1371_SRC) & E1371_SRC_DATAMASK;
return r;
}
void
eap1371_src_write(sc, a, d)
struct eap_softc *sc;
int a,d;
{
int r;
eap1371_src_wait(sc);
r = EREAD4(sc, E1371_SRC) & (E1371_SRC_DISABLE | E1371_SRC_DISP1 |
E1371_SRC_DISP2 | E1371_SRC_DISREC);
r |= E1371_SRC_RAMWE | E1371_SRC_ADDR(a) | E1371_SRC_DATA(d);
EWRITE4(sc, E1371_SRC, r);
}
void
eap1371_set_adc_rate(sc, rate)
struct eap_softc *sc;
int rate;
{
int freq, n, truncm;
int out;
/* Whatever, it works, so I'll leave it :) */
if (rate > 48000)
rate = 48000;
if (rate < 4000)
rate = 4000;
n = rate / 3000;
if ((1 << n) & SRC_MAGIC)
n--;
truncm = ((21 * n) - 1) | 1;
freq = ((48000 << 15) / rate) * n;
if (rate >= 24000) {
if (truncm > 239)
truncm = 239;
out = ESRC_SET_TRUNC((239 - truncm) / 2);
} else {
if (truncm > 119)
truncm = 119;
out = ESRC_SMF | ESRC_SET_TRUNC((119 - truncm) / 2);
}
out |= ESRC_SET_N(n);
eap1371_src_write(sc, ESRC_ADC+ESRC_TRUNC_N, out);
out = eap1371_src_read(sc, ESRC_ADC+ESRC_IREGS) & 0xff;
eap1371_src_write(sc, ESRC_ADC+ESRC_IREGS, out |
ESRC_SET_VFI(freq >> 15));
eap1371_src_write(sc, ESRC_ADC+ESRC_VFF, freq & 0x7fff);
eap1371_src_write(sc, ESRC_ADC_VOLL, ESRC_SET_ADC_VOL(n));
eap1371_src_write(sc, ESRC_ADC_VOLR, ESRC_SET_ADC_VOL(n));
}
void
eap1371_set_dac_rate(sc, rate, which)
struct eap_softc *sc;
int rate;
int which;
{
int dac = (which == 1) ? ESRC_DAC1 : ESRC_DAC2;
int freq, r;
/* Whatever, it works, so I'll leave it :) */
if (rate > 48000)
rate = 48000;
if (rate < 4000)
rate = 4000;
freq = (rate << 15) / 3000;
eap1371_src_wait(sc);
r = EREAD4(sc, E1371_SRC) & (E1371_SRC_DISABLE |
E1371_SRC_DISP2 | E1371_SRC_DISP1 | E1371_SRC_DISREC);
r |= (which == 1) ? E1371_SRC_DISP1 : E1371_SRC_DISP2;
EWRITE4(sc, E1371_SRC, r);
r = eap1371_src_read(sc, dac + ESRC_IREGS) & 0x00ff;
eap1371_src_write(sc, dac + ESRC_IREGS, r | ((freq >> 5) & 0xfc00));
eap1371_src_write(sc, dac + ESRC_VFF, freq & 0x7fff);
r = EREAD4(sc, E1371_SRC) & (E1371_SRC_DISABLE |
E1371_SRC_DISP2 | E1371_SRC_DISP1 | E1371_SRC_DISREC);
r &= ~((which == 1) ? E1371_SRC_DISP1 : E1371_SRC_DISP2);
EWRITE4(sc, E1371_SRC, r);
}
void
eap_attach(parent, self, aux)
struct device *parent;
struct device *self;
void *aux;
{
struct eap_softc *sc = (struct eap_softc *)self;
struct pci_attach_args *pa = (struct pci_attach_args *)aux;
pci_chipset_tag_t pc = pa->pa_pc;
char const *intrstr;
pci_intr_handle_t ih;
pcireg_t csr;
mixer_ctrl_t ctl;
int i;
/* Flag if we're "creative" */
sc->sc_1371 = (PCI_PRODUCT(pa->pa_id) == PCI_PRODUCT_ENSONIQ_AUDIOPCI97);
/* Map I/O register */
if (pci_mapreg_map(pa, PCI_CBIO, PCI_MAPREG_TYPE_IO, 0,
&sc->iot, &sc->ioh, NULL, NULL)) {
printf("\n%s: can't map i/o space\n", sc->sc_dev.dv_xname);
return;
}
sc->sc_dmatag = pa->pa_dmat;
/* Enable the device. */
csr = pci_conf_read(pa->pa_pc, pa->pa_tag, PCI_COMMAND_STATUS_REG);
pci_conf_write(pa->pa_pc, pa->pa_tag, PCI_COMMAND_STATUS_REG,
csr | PCI_COMMAND_MASTER_ENABLE);
/* Map and establish the interrupt. */
if (pci_intr_map(pc, pa->pa_intrtag, pa->pa_intrpin,
pa->pa_intrline, &ih)) {
printf("\n%s: couldn't map interrupt\n", sc->sc_dev.dv_xname);
return;
}
intrstr = pci_intr_string(pc, ih);
sc->sc_ih = pci_intr_establish(pc, ih, IPL_AUDIO, eap_intr, sc,
sc->sc_dev.dv_xname);
if (sc->sc_ih == NULL) {
printf("\n%s: couldn't establish interrupt",
sc->sc_dev.dv_xname);
if (intrstr != NULL)
printf(" at %s", intrstr);
printf("\n");
return;
}
printf(": %s\n", intrstr);
if (!sc->sc_1371) {
/* Enable interrupts and looping mode. */
/* enable the parts we need */
EWRITE4(sc, EAP_SIC, EAP_P2_INTR_EN | EAP_R1_INTR_EN);
EWRITE4(sc, EAP_ICSC, EAP_CDC_EN);
/* reset codec */
/* normal operation */
/* select codec clocks */
eap_write_codec(sc, AK_RESET, AK_PD);
eap_write_codec(sc, AK_RESET, AK_PD | AK_NRST);
eap_write_codec(sc, AK_CS, 0x0);
eap_hw_if.query_devinfo = eap_query_devinfo;
eap_hw_if.set_port = eap_mixer_set_port;
eap_hw_if.get_port = eap_mixer_get_port;
/* Enable all relevant mixer switches. */
ctl.dev = EAP_OUTPUT_SELECT;
ctl.type = AUDIO_MIXER_SET;
ctl.un.mask = 1 << EAP_VOICE_VOL | 1 << EAP_FM_VOL |
1 << EAP_CD_VOL | 1 << EAP_LINE_VOL | 1 << EAP_AUX_VOL |
1 << EAP_MIC_VOL;
eap_hw_if.set_port(sc, &ctl);
ctl.type = AUDIO_MIXER_VALUE;
ctl.un.value.num_channels = 1;
for (ctl.dev = EAP_MASTER_VOL; ctl.dev < EAP_MIC_VOL;
ctl.dev++) {
ctl.un.value.level[AUDIO_MIXER_LEVEL_MONO] = VOL_0DB;
eap_hw_if.set_port(sc, &ctl);
}
ctl.un.value.level[AUDIO_MIXER_LEVEL_MONO] = 0;
eap_hw_if.set_port(sc, &ctl);
ctl.dev = EAP_MIC_PREAMP;
ctl.type = AUDIO_MIXER_ENUM;
ctl.un.ord = 0;
eap_hw_if.set_port(sc, &ctl);
ctl.dev = EAP_RECORD_SOURCE;
ctl.type = AUDIO_MIXER_SET;
ctl.un.mask = 1 << EAP_MIC_VOL;
eap_hw_if.set_port(sc, &ctl);
} else {
int error;
/* clean slate */
EWRITE4(sc, EAP_SIC, 0);
EWRITE4(sc, EAP_ICSC, 0);
EWRITE4(sc, E1371_LEGACY, 0);
/* Reset from es1371's perspective */
EWRITE4(sc, EAP_ICSC, E1371_SYNC_RES);
delay(20);
EWRITE4(sc, EAP_ICSC, 0);
/* must properly reprogram sample rate converter,
* or it locks up. Set some defaults for the life of the
* machine, and set up a sb default sample rate.
*/
EWRITE4(sc, E1371_SRC, E1371_SRC_DISABLE);
for (i=0; i<0x80; i++)
eap1371_src_write(sc, i, 0);
eap1371_src_write(sc, ESRC_DAC1+ESRC_TRUNC_N, ESRC_SET_N(16));
eap1371_src_write(sc, ESRC_DAC2+ESRC_TRUNC_N, ESRC_SET_N(16));
eap1371_src_write(sc, ESRC_DAC1+ESRC_IREGS, ESRC_SET_VFI(16));
eap1371_src_write(sc, ESRC_DAC2+ESRC_IREGS, ESRC_SET_VFI(16));
eap1371_src_write(sc, ESRC_ADC_VOLL, ESRC_SET_ADC_VOL(16));
eap1371_src_write(sc, ESRC_ADC_VOLR, ESRC_SET_ADC_VOL(16));
eap1371_src_write(sc, ESRC_DAC1_VOLL, ESRC_SET_DAC_VOLI(1));
eap1371_src_write(sc, ESRC_DAC1_VOLR, ESRC_SET_DAC_VOLI(1));
eap1371_src_write(sc, ESRC_DAC2_VOLL, ESRC_SET_DAC_VOLI(1));
eap1371_src_write(sc, ESRC_DAC2_VOLR, ESRC_SET_DAC_VOLI(1));
eap1371_set_adc_rate(sc, 22050);
eap1371_set_dac_rate(sc, 22050, 1);
eap1371_set_dac_rate(sc, 22050, 2);
EWRITE4(sc, E1371_SRC, 0);
/* Reset codec */
/* Interrupt enable */
sc->host_if.arg = sc;
sc->host_if.attach = eap1371_attach_codec;
sc->host_if.read = eap1371_read_codec;
sc->host_if.write = eap1371_write_codec;
sc->host_if.reset = eap1371_reset_codec;
if ((error = ac97_attach(&sc->host_if)) == 0) {
/* Interrupt enable */
EWRITE4(sc, EAP_SIC, EAP_P2_INTR_EN | EAP_R1_INTR_EN);
} else
return;
eap_hw_if.query_devinfo = eap1371_query_devinfo;
eap_hw_if.set_port = eap1371_mixer_set_port;
eap_hw_if.get_port = eap1371_mixer_get_port;
/* Just enable the DAC and master volumes by default */
ctl.type = AUDIO_MIXER_ENUM;
ctl.un.ord = 0; /* off */
ctl.dev = eap1371_get_portnum_by_name(sc, AudioCoutputs,
AudioNmaster, AudioNmute);
eap1371_mixer_set_port(sc, &ctl);
ctl.dev = eap1371_get_portnum_by_name(sc, AudioCinputs,
AudioNdac, AudioNmute);
eap1371_mixer_set_port(sc, &ctl);
ctl.dev = eap1371_get_portnum_by_name(sc, AudioCrecord,
AudioNvolume, AudioNmute);
eap1371_mixer_set_port(sc, &ctl);
ctl.dev = eap1371_get_portnum_by_name(sc, AudioCrecord,
AudioNsource, NULL);
ctl.type = AUDIO_MIXER_ENUM;
ctl.un.ord = 0;
eap1371_mixer_set_port(sc, &ctl);
}
audio_attach_mi(&eap_hw_if, sc, &sc->sc_dev);
}
int
eap1371_attach_codec(sc_, codec_if)
void *sc_;
struct ac97_codec_if *codec_if;
{
struct eap_softc *sc = sc_;
sc->codec_if = codec_if;
return (0);
}
void
eap1371_reset_codec(sc_)
void *sc_;
{
struct eap_softc *sc = sc_;
u_int32_t icsc = EREAD4(sc, EAP_ICSC);
EWRITE4(sc, EAP_ICSC, icsc | E1371_SYNC_RES);
delay(100);
EWRITE4(sc, EAP_ICSC, icsc & ~E1371_SYNC_RES);
return;
}
int
eap_intr(p)
void *p;
{
struct eap_softc *sc = p;
u_int32_t intr, sic;
intr = EREAD4(sc, EAP_ICSS);
if (!(intr & EAP_INTR))
return (0);
sic = EREAD4(sc, EAP_SIC);
DPRINTFN(5, ("eap_intr: ICSS=0x%08x, SIC=0x%08x\n", intr, sic));
if (intr & EAP_I_ADC) {
/*
* XXX This is a hack!
* The EAP chip sometimes generates the recording interrupt
* while it is still transferring the data. To make sure
* it has all arrived we busy wait until the count is right.
* The transfer we are waiting for is 8 longwords.
*/
int s, nw, n;
EWRITE4(sc, EAP_MEMPAGE, EAP_ADC_PAGE);
s = EREAD4(sc, EAP_ADC_CSR);
nw = ((s & 0xffff) + 1) >> 2; /* # of words in DMA */
n = 0;
while (((EREAD4(sc, EAP_ADC_SIZE) >> 16) + 8) % nw == 0) {
delay(10);
if (++n > 100) {
printf("eapintr: dma fix timeout");
break;
}
}
/* Continue with normal interrupt handling. */
EWRITE4(sc, EAP_SIC, sic & ~EAP_R1_INTR_EN);
EWRITE4(sc, EAP_SIC, sic);
if (sc->sc_rintr)
sc->sc_rintr(sc->sc_rarg);
}
if (intr & EAP_I_DAC2) {
EWRITE4(sc, EAP_SIC, sic & ~EAP_P2_INTR_EN);
EWRITE4(sc, EAP_SIC, sic);
if (sc->sc_pintr)
sc->sc_pintr(sc->sc_parg);
}
return (1);
}
int
eap_allocmem(sc, size, align, p)
struct eap_softc *sc;
size_t size;
size_t align;
struct eap_dma *p;
{
int error;
p->size = size;
error = bus_dmamem_alloc(sc->sc_dmatag, p->size, align, 0,
p->segs, sizeof(p->segs)/sizeof(p->segs[0]),
&p->nsegs, BUS_DMA_NOWAIT);
if (error)
return (error);
error = bus_dmamem_map(sc->sc_dmatag, p->segs, p->nsegs, p->size,
&p->addr, BUS_DMA_NOWAIT|BUS_DMA_COHERENT);
if (error)
goto free;
error = bus_dmamap_create(sc->sc_dmatag, p->size, 1, p->size,
0, BUS_DMA_NOWAIT, &p->map);
if (error)
goto unmap;
error = bus_dmamap_load(sc->sc_dmatag, p->map, p->addr, p->size, NULL,
BUS_DMA_NOWAIT);
if (error)
goto destroy;
return (0);
destroy:
bus_dmamap_destroy(sc->sc_dmatag, p->map);
unmap:
bus_dmamem_unmap(sc->sc_dmatag, p->addr, p->size);
free:
bus_dmamem_free(sc->sc_dmatag, p->segs, p->nsegs);
return (error);
}
int
eap_freemem(sc, p)
struct eap_softc *sc;
struct eap_dma *p;
{
bus_dmamap_unload(sc->sc_dmatag, p->map);
bus_dmamap_destroy(sc->sc_dmatag, p->map);
bus_dmamem_unmap(sc->sc_dmatag, p->addr, p->size);
bus_dmamem_free(sc->sc_dmatag, p->segs, p->nsegs);
return (0);
}
int
eap_open(addr, flags)
void *addr;
int flags;
{
return (0);
}
/*
* Close function is called at splaudio().
*/
void
eap_close(addr)
void *addr;
{
struct eap_softc *sc = addr;
eap_halt_output(sc);
eap_halt_input(sc);
sc->sc_pintr = 0;
sc->sc_rintr = 0;
}
int
eap_query_encoding(addr, fp)
void *addr;
struct audio_encoding *fp;
{
switch (fp->index) {
case 0:
strcpy(fp->name, AudioEulinear);
fp->encoding = AUDIO_ENCODING_ULINEAR;
fp->precision = 8;
fp->flags = 0;
return (0);
case 1:
strcpy(fp->name, AudioEmulaw);
fp->encoding = AUDIO_ENCODING_ULAW;
fp->precision = 8;
fp->flags = AUDIO_ENCODINGFLAG_EMULATED;
return (0);
case 2:
strcpy(fp->name, AudioEalaw);
fp->encoding = AUDIO_ENCODING_ALAW;
fp->precision = 8;
fp->flags = AUDIO_ENCODINGFLAG_EMULATED;
return (0);
case 3:
strcpy(fp->name, AudioEslinear);
fp->encoding = AUDIO_ENCODING_SLINEAR;
fp->precision = 8;
fp->flags = AUDIO_ENCODINGFLAG_EMULATED;
return (0);
case 4:
strcpy(fp->name, AudioEslinear_le);
fp->encoding = AUDIO_ENCODING_SLINEAR_LE;
fp->precision = 16;
fp->flags = 0;
return (0);
case 5:
strcpy(fp->name, AudioEulinear_le);
fp->encoding = AUDIO_ENCODING_ULINEAR_LE;
fp->precision = 16;
fp->flags = AUDIO_ENCODINGFLAG_EMULATED;
return (0);
case 6:
strcpy(fp->name, AudioEslinear_be);
fp->encoding = AUDIO_ENCODING_SLINEAR_BE;
fp->precision = 16;
fp->flags = AUDIO_ENCODINGFLAG_EMULATED;
return (0);
case 7:
strcpy(fp->name, AudioEulinear_be);
fp->encoding = AUDIO_ENCODING_ULINEAR_BE;
fp->precision = 16;
fp->flags = AUDIO_ENCODINGFLAG_EMULATED;
return (0);
default:
return (EINVAL);
}
}
int
eap_set_params(addr, setmode, usemode, play, rec)
void *addr;
int setmode, usemode;
struct audio_params *play, *rec;
{
struct eap_softc *sc = addr;
struct audio_params *p;
int mode;
u_int32_t div;
/*
* The es1370 only has one clock, so make the sample rates match.
*/
if (!sc->sc_1371) {
if (play->sample_rate != rec->sample_rate &&
usemode == (AUMODE_PLAY | AUMODE_RECORD)) {
if (setmode == AUMODE_PLAY) {
rec->sample_rate = play->sample_rate;
setmode |= AUMODE_RECORD;
} else if (setmode == AUMODE_RECORD) {
play->sample_rate = rec->sample_rate;
setmode |= AUMODE_PLAY;
} else
return (EINVAL);
}
}
for (mode = AUMODE_RECORD; mode != -1;
mode = mode == AUMODE_RECORD ? AUMODE_PLAY : -1) {
if ((setmode & mode) == 0)
continue;
p = mode == AUMODE_PLAY ? play : rec;
if (p->sample_rate < 4000 || p->sample_rate > 48000 ||
(p->precision != 8 && p->precision != 16) ||
(p->channels != 1 && p->channels != 2))
return (EINVAL);
p->factor = 1;
p->sw_code = 0;
switch (p->encoding) {
case AUDIO_ENCODING_SLINEAR_BE:
if (p->precision == 16)
p->sw_code = swap_bytes;
else
p->sw_code = change_sign8;
break;
case AUDIO_ENCODING_SLINEAR_LE:
if (p->precision != 16)
p->sw_code = change_sign8;
break;
case AUDIO_ENCODING_ULINEAR_BE:
if (p->precision == 16) {
if (mode == AUMODE_PLAY)
p->sw_code = swap_bytes_change_sign16;
else
p->sw_code = change_sign16_swap_bytes;
}
break;
case AUDIO_ENCODING_ULINEAR_LE:
if (p->precision == 16)
p->sw_code = change_sign16;
break;
case AUDIO_ENCODING_ULAW:
if (mode == AUMODE_PLAY) {
p->factor = 2;
p->sw_code = mulaw_to_slinear16;
} else
p->sw_code = ulinear8_to_mulaw;
break;
case AUDIO_ENCODING_ALAW:
if (mode == AUMODE_PLAY) {
p->factor = 2;
p->sw_code = alaw_to_slinear16;
} else
p->sw_code = ulinear8_to_alaw;
break;
default:
return (EINVAL);
}
}
if (sc->sc_1371) {
eap1371_set_dac_rate(sc, play->sample_rate, 1);
eap1371_set_dac_rate(sc, play->sample_rate, 2);
eap1371_set_adc_rate(sc, rec->sample_rate);
} else {
/* Set the speed */
DPRINTFN(2, ("eap_set_params: old ICSC = 0x%08x\n",
EREAD4(sc, EAP_ICSC)));
div = EREAD4(sc, EAP_ICSC) & ~EAP_PCLKBITS;
/*
* XXX
* The -2 isn't documented, but seemed to make the wall
* time match
* what I expect. - mycroft
*/
if (usemode == AUMODE_RECORD)
div |= EAP_SET_PCLKDIV(EAP_XTAL_FREQ /
rec->sample_rate - 2);
else
div |= EAP_SET_PCLKDIV(EAP_XTAL_FREQ /
play->sample_rate - 2);
div |= EAP_CCB_INTRM;
EWRITE4(sc, EAP_ICSC, div);
DPRINTFN(2, ("eap_set_params: set ICSC = 0x%08x\n", div));
}
return (0);
}
int
eap_round_blocksize(addr, blk)
void *addr;
int blk;
{
return (blk & -32); /* keep good alignment */
}
int
eap_trigger_output(addr, start, end, blksize, intr, arg, param)
void *addr;
void *start, *end;
int blksize;
void (*intr) __P((void *));
void *arg;
struct audio_params *param;
{
struct eap_softc *sc = addr;
struct eap_dma *p;
u_int32_t icsc, sic;
int sampshift;
#ifdef DIAGNOSTIC
if (sc->sc_prun)
panic("eap_trigger_output: already running");
sc->sc_prun = 1;
#endif
DPRINTFN(1, ("eap_trigger_output: sc=%p start=%p end=%p "
"blksize=%d intr=%p(%p)\n", addr, start, end, blksize, intr, arg));
sc->sc_pintr = intr;
sc->sc_parg = arg;
icsc = EREAD4(sc, EAP_ICSC);
EWRITE4(sc, EAP_ICSC, icsc & ~EAP_DAC2_EN);
sic = EREAD4(sc, EAP_SIC);
sic &= ~(EAP_P2_S_EB | EAP_P2_S_MB | EAP_INC_BITS);
sic |= EAP_SET_P2_ST_INC(0) | EAP_SET_P2_END_INC(param->precision * param->factor / 8);
sampshift = 0;
if (param->precision * param->factor == 16) {
sic |= EAP_P2_S_EB;
sampshift++;
}
if (param->channels == 2) {
sic |= EAP_P2_S_MB;
sampshift++;
}
EWRITE4(sc, EAP_SIC, sic);
for (p = sc->sc_dmas; p && KERNADDR(p) != start; p = p->next)
;
if (!p) {
printf("eap_trigger_output: bad addr %p\n", start);
return (EINVAL);
}
DPRINTF(("eap_trigger_output: DAC2_ADDR=0x%x, DAC2_SIZE=0x%x\n",
(int)DMAADDR(p),
EAP_SET_SIZE(0, (((char *)end - (char *)start) >> 2) - 1)));
EWRITE4(sc, EAP_MEMPAGE, EAP_DAC_PAGE);
EWRITE4(sc, EAP_DAC2_ADDR, DMAADDR(p));
EWRITE4(sc, EAP_DAC2_SIZE,
EAP_SET_SIZE(0, (((char *)end - (char *)start) >> 2) - 1));
EWRITE2(sc, EAP_DAC2_CSR, (blksize >> sampshift) - 1);
EWRITE4(sc, EAP_ICSC, icsc | EAP_DAC2_EN);
DPRINTFN(1, ("eap_trigger_output: set ICSC = 0x%08x\n", icsc));
return (0);
}
int
eap_trigger_input(addr, start, end, blksize, intr, arg, param)
void *addr;
void *start, *end;
int blksize;
void (*intr) __P((void *));
void *arg;
struct audio_params *param;
{
struct eap_softc *sc = addr;
struct eap_dma *p;
u_int32_t icsc, sic;
int sampshift;
#ifdef DIAGNOSTIC
if (sc->sc_rrun)
panic("eap_trigger_input: already running");
sc->sc_rrun = 1;
#endif
DPRINTFN(1, ("eap_trigger_input: sc=%p start=%p end=%p blksize=%d intr=%p(%p)\n",
addr, start, end, blksize, intr, arg));
sc->sc_rintr = intr;
sc->sc_rarg = arg;
icsc = EREAD4(sc, EAP_ICSC);
EWRITE4(sc, EAP_ICSC, icsc & ~EAP_ADC_EN);
sic = EREAD4(sc, EAP_SIC);
sic &= ~(EAP_R1_S_EB | EAP_R1_S_MB);
sampshift = 0;
if (param->precision * param->factor == 16) {
sic |= EAP_R1_S_EB;
sampshift++;
}
if (param->channels == 2) {
sic |= EAP_R1_S_MB;
sampshift++;
}
EWRITE4(sc, EAP_SIC, sic);
for (p = sc->sc_dmas; p && KERNADDR(p) != start; p = p->next)
;
if (!p) {
printf("eap_trigger_input: bad addr %p\n", start);
return (EINVAL);
}
DPRINTF(("eap_trigger_input: ADC_ADDR=0x%x, ADC_SIZE=0x%x\n",
(int)DMAADDR(p),
EAP_SET_SIZE(0, (((char *)end - (char *)start) >> 2) - 1)));
EWRITE4(sc, EAP_MEMPAGE, EAP_ADC_PAGE);
EWRITE4(sc, EAP_ADC_ADDR, DMAADDR(p));
EWRITE4(sc, EAP_ADC_SIZE,
EAP_SET_SIZE(0, (((char *)end - (char *)start) >> 2) - 1));
EWRITE2(sc, EAP_ADC_CSR, (blksize >> sampshift) - 1);
EWRITE4(sc, EAP_ICSC, icsc | EAP_ADC_EN);
DPRINTFN(1, ("eap_trigger_input: set ICSC = 0x%08x\n", icsc));
return (0);
}
int
eap_halt_output(addr)
void *addr;
{
struct eap_softc *sc = addr;
u_int32_t icsc;
DPRINTF(("eap: eap_halt_output\n"));
icsc = EREAD4(sc, EAP_ICSC);
EWRITE4(sc, EAP_ICSC, icsc & ~EAP_DAC2_EN);
#ifdef DIAGNOSTIC
sc->sc_prun = 0;
#endif
return (0);
}
int
eap_halt_input(addr)
void *addr;
{
struct eap_softc *sc = addr;
u_int32_t icsc;
DPRINTF(("eap: eap_halt_input\n"));
icsc = EREAD4(sc, EAP_ICSC);
EWRITE4(sc, EAP_ICSC, icsc & ~EAP_ADC_EN);
#ifdef DIAGNOSTIC
sc->sc_rrun = 0;
#endif
return (0);
}
int
eap_getdev(addr, retp)
void *addr;
struct audio_device *retp;
{
*retp = eap_device;
return (0);
}
int
eap1371_mixer_set_port(addr, cp)
void *addr;
mixer_ctrl_t *cp;
{
struct eap_softc *sc = addr;
return ((sc->codec_if->vtbl->mixer_set_port)(sc->codec_if,
cp));
}
int
eap1371_mixer_get_port(addr, cp)
void *addr;
mixer_ctrl_t *cp;
{
struct eap_softc *sc = addr;
return ((sc->codec_if->vtbl->mixer_get_port)(sc->codec_if,
cp));
}
int
eap1371_query_devinfo(addr, dip)
void *addr;
mixer_devinfo_t *dip;
{
struct eap_softc *sc = addr;
return ((sc->codec_if->vtbl->query_devinfo)(sc->codec_if, dip));
}
int
eap1371_get_portnum_by_name(sc, class, device, qualifier)
struct eap_softc *sc;
char *class, *device, *qualifier;
{
return ((sc->codec_if->vtbl->get_portnum_by_name)(sc->codec_if, class,
device, qualifier));
}
void
eap_set_mixer(sc, a, d)
struct eap_softc *sc;
int a, d;
{
eap_write_codec(sc, a, d);
sc->sc_port[a] = d;
DPRINTFN(1, ("eap_mixer_set_port port 0x%02x = 0x%02x\n", a, d));
}
int
eap_mixer_set_port(addr, cp)
void *addr;
mixer_ctrl_t *cp;
{
struct eap_softc *sc = addr;
int lval, rval, l, r, la, ra;
int l1, r1, l2, r2, m, o1, o2;
if (cp->dev == EAP_RECORD_SOURCE) {
if (cp->type != AUDIO_MIXER_SET)
return (EINVAL);
m = sc->sc_record_source = cp->un.mask;
l1 = l2 = r1 = r2 = 0;
if (m & (1 << EAP_VOICE_VOL))
l2 |= AK_M_VOICE, r2 |= AK_M_VOICE;
if (m & (1 << EAP_FM_VOL))
l1 |= AK_M_FM_L, r1 |= AK_M_FM_R;
if (m & (1 << EAP_CD_VOL))
l1 |= AK_M_CD_L, r1 |= AK_M_CD_R;
if (m & (1 << EAP_LINE_VOL))
l1 |= AK_M_LINE_L, r1 |= AK_M_LINE_R;
if (m & (1 << EAP_AUX_VOL))
l2 |= AK_M2_AUX_L, r2 |= AK_M2_AUX_R;
if (m & (1 << EAP_MIC_VOL))
l2 |= AK_M_TMIC, r2 |= AK_M_TMIC;
eap_set_mixer(sc, AK_IN_MIXER1_L, l1);
eap_set_mixer(sc, AK_IN_MIXER1_R, r1);
eap_set_mixer(sc, AK_IN_MIXER2_L, l2);
eap_set_mixer(sc, AK_IN_MIXER2_R, r2);
return (0);
}
if (cp->dev == EAP_OUTPUT_SELECT) {
if (cp->type != AUDIO_MIXER_SET)
return (EINVAL);
m = sc->sc_output_source = cp->un.mask;
o1 = o2 = 0;
if (m & (1 << EAP_VOICE_VOL))
o2 |= AK_M_VOICE_L | AK_M_VOICE_R;
if (m & (1 << EAP_FM_VOL))
o1 |= AK_M_FM_L | AK_M_FM_R;
if (m & (1 << EAP_CD_VOL))
o1 |= AK_M_CD_L | AK_M_CD_R;
if (m & (1 << EAP_LINE_VOL))
o1 |= AK_M_LINE_L | AK_M_LINE_R;
if (m & (1 << EAP_AUX_VOL))
o2 |= AK_M_AUX_L | AK_M_AUX_R;
if (m & (1 << EAP_MIC_VOL))
o1 |= AK_M_MIC;
eap_set_mixer(sc, AK_OUT_MIXER1, o1);
eap_set_mixer(sc, AK_OUT_MIXER2, o2);
return (0);
}
if (cp->dev == EAP_MIC_PREAMP) {
if (cp->type != AUDIO_MIXER_ENUM)
return (EINVAL);
if (cp->un.ord != 0 && cp->un.ord != 1)
return (EINVAL);
sc->sc_mic_preamp = cp->un.ord;
eap_set_mixer(sc, AK_MGAIN, cp->un.ord);
return (0);
}
if (cp->type != AUDIO_MIXER_VALUE)
return (EINVAL);
if (cp->un.value.num_channels == 1)
lval = rval = cp->un.value.level[AUDIO_MIXER_LEVEL_MONO];
else if (cp->un.value.num_channels == 2) {
lval = cp->un.value.level[AUDIO_MIXER_LEVEL_LEFT];
rval = cp->un.value.level[AUDIO_MIXER_LEVEL_RIGHT];
} else
return (EINVAL);
ra = -1;
switch (cp->dev) {
case EAP_MASTER_VOL:
l = VOL_TO_ATT5(lval);
r = VOL_TO_ATT5(rval);
la = AK_MASTER_L;
ra = AK_MASTER_R;
break;
case EAP_MIC_VOL:
if (cp->un.value.num_channels != 1)
return (EINVAL);
la = AK_MIC;
goto lr;
case EAP_VOICE_VOL:
la = AK_VOICE_L;
ra = AK_VOICE_R;
goto lr;
case EAP_FM_VOL:
la = AK_FM_L;
ra = AK_FM_R;
goto lr;
case EAP_CD_VOL:
la = AK_CD_L;
ra = AK_CD_R;
goto lr;
case EAP_LINE_VOL:
la = AK_LINE_L;
ra = AK_LINE_R;
goto lr;
case EAP_AUX_VOL:
la = AK_AUX_L;
ra = AK_AUX_R;
lr:
l = VOL_TO_GAIN5(lval);
r = VOL_TO_GAIN5(rval);
break;
default:
return (EINVAL);
}
eap_set_mixer(sc, la, l);
if (ra >= 0) {
eap_set_mixer(sc, ra, r);
}
return (0);
}
int
eap_mixer_get_port(addr, cp)
void *addr;
mixer_ctrl_t *cp;
{
struct eap_softc *sc = addr;
int la, ra, l, r;
switch (cp->dev) {
case EAP_RECORD_SOURCE:
if (cp->type != AUDIO_MIXER_SET)
return (EINVAL);
cp->un.mask = sc->sc_record_source;
return (0);
case EAP_OUTPUT_SELECT:
if (cp->type != AUDIO_MIXER_SET)
return (EINVAL);
cp->un.mask = sc->sc_output_source;
return (0);
case EAP_MIC_PREAMP:
if (cp->type != AUDIO_MIXER_ENUM)
return (EINVAL);
cp->un.ord = sc->sc_mic_preamp;
return (0);
case EAP_MASTER_VOL:
l = ATT5_TO_VOL(sc->sc_port[AK_MASTER_L]);
r = ATT5_TO_VOL(sc->sc_port[AK_MASTER_R]);
break;
case EAP_MIC_VOL:
if (cp->un.value.num_channels != 1)
return (EINVAL);
la = ra = AK_MIC;
goto lr;
case EAP_VOICE_VOL:
la = AK_VOICE_L;
ra = AK_VOICE_R;
goto lr;
case EAP_FM_VOL:
la = AK_FM_L;
ra = AK_FM_R;
goto lr;
case EAP_CD_VOL:
la = AK_CD_L;
ra = AK_CD_R;
goto lr;
case EAP_LINE_VOL:
la = AK_LINE_L;
ra = AK_LINE_R;
goto lr;
case EAP_AUX_VOL:
la = AK_AUX_L;
ra = AK_AUX_R;
lr:
l = GAIN5_TO_VOL(sc->sc_port[la]);
r = GAIN5_TO_VOL(sc->sc_port[ra]);
break;
default:
return (EINVAL);
}
if (cp->un.value.num_channels == 1)
cp->un.value.level[AUDIO_MIXER_LEVEL_MONO] = (l+r) / 2;
else if (cp->un.value.num_channels == 2) {
cp->un.value.level[AUDIO_MIXER_LEVEL_LEFT] = l;
cp->un.value.level[AUDIO_MIXER_LEVEL_RIGHT] = r;
} else
return (EINVAL);
return (0);
}
int
eap_query_devinfo(addr, dip)
void *addr;
mixer_devinfo_t *dip;
{
switch (dip->index) {
case EAP_MASTER_VOL:
dip->type = AUDIO_MIXER_VALUE;
dip->mixer_class = EAP_OUTPUT_CLASS;
dip->prev = dip->next = AUDIO_MIXER_LAST;
strcpy(dip->label.name, AudioNmaster);
dip->un.v.num_channels = 2;
strcpy(dip->un.v.units.name, AudioNvolume);
return (0);
case EAP_VOICE_VOL:
dip->type = AUDIO_MIXER_VALUE;
dip->mixer_class = EAP_INPUT_CLASS;
dip->prev = AUDIO_MIXER_LAST;
dip->next = AUDIO_MIXER_LAST;
strcpy(dip->label.name, AudioNdac);
dip->un.v.num_channels = 2;
strcpy(dip->un.v.units.name, AudioNvolume);
return (0);
case EAP_FM_VOL:
dip->type = AUDIO_MIXER_VALUE;
dip->mixer_class = EAP_INPUT_CLASS;
dip->prev = AUDIO_MIXER_LAST;
dip->next = AUDIO_MIXER_LAST;
strcpy(dip->label.name, AudioNfmsynth);
dip->un.v.num_channels = 2;
strcpy(dip->un.v.units.name, AudioNvolume);
return (0);
case EAP_CD_VOL:
dip->type = AUDIO_MIXER_VALUE;
dip->mixer_class = EAP_INPUT_CLASS;
dip->prev = AUDIO_MIXER_LAST;
dip->next = AUDIO_MIXER_LAST;
strcpy(dip->label.name, AudioNcd);
dip->un.v.num_channels = 2;
strcpy(dip->un.v.units.name, AudioNvolume);
return (0);
case EAP_LINE_VOL:
dip->type = AUDIO_MIXER_VALUE;
dip->mixer_class = EAP_INPUT_CLASS;
dip->prev = AUDIO_MIXER_LAST;
dip->next = AUDIO_MIXER_LAST;
strcpy(dip->label.name, AudioNline);
dip->un.v.num_channels = 2;
strcpy(dip->un.v.units.name, AudioNvolume);
return (0);
case EAP_AUX_VOL:
dip->type = AUDIO_MIXER_VALUE;
dip->mixer_class = EAP_INPUT_CLASS;
dip->prev = AUDIO_MIXER_LAST;
dip->next = AUDIO_MIXER_LAST;
strcpy(dip->label.name, AudioNaux);
dip->un.v.num_channels = 2;
strcpy(dip->un.v.units.name, AudioNvolume);
return (0);
case EAP_MIC_VOL:
dip->type = AUDIO_MIXER_VALUE;
dip->mixer_class = EAP_INPUT_CLASS;
dip->prev = AUDIO_MIXER_LAST;
dip->next = EAP_MIC_PREAMP;
strcpy(dip->label.name, AudioNmicrophone);
dip->un.v.num_channels = 1;
strcpy(dip->un.v.units.name, AudioNvolume);
return (0);
case EAP_RECORD_SOURCE:
dip->mixer_class = EAP_RECORD_CLASS;
dip->prev = dip->next = AUDIO_MIXER_LAST;
strcpy(dip->label.name, AudioNsource);
dip->type = AUDIO_MIXER_SET;
dip->un.s.num_mem = 6;
strcpy(dip->un.s.member[0].label.name, AudioNmicrophone);
dip->un.s.member[0].mask = 1 << EAP_MIC_VOL;
strcpy(dip->un.s.member[1].label.name, AudioNcd);
dip->un.s.member[1].mask = 1 << EAP_CD_VOL;
strcpy(dip->un.s.member[2].label.name, AudioNline);
dip->un.s.member[2].mask = 1 << EAP_LINE_VOL;
strcpy(dip->un.s.member[3].label.name, AudioNfmsynth);
dip->un.s.member[3].mask = 1 << EAP_FM_VOL;
strcpy(dip->un.s.member[4].label.name, AudioNaux);
dip->un.s.member[4].mask = 1 << EAP_AUX_VOL;
strcpy(dip->un.s.member[5].label.name, AudioNdac);
dip->un.s.member[5].mask = 1 << EAP_VOICE_VOL;
return (0);
case EAP_OUTPUT_SELECT:
dip->mixer_class = EAP_OUTPUT_CLASS;
dip->prev = dip->next = AUDIO_MIXER_LAST;
strcpy(dip->label.name, AudioNselect);
dip->type = AUDIO_MIXER_SET;
dip->un.s.num_mem = 6;
strcpy(dip->un.s.member[0].label.name, AudioNmicrophone);
dip->un.s.member[0].mask = 1 << EAP_MIC_VOL;
strcpy(dip->un.s.member[1].label.name, AudioNcd);
dip->un.s.member[1].mask = 1 << EAP_CD_VOL;
strcpy(dip->un.s.member[2].label.name, AudioNline);
dip->un.s.member[2].mask = 1 << EAP_LINE_VOL;
strcpy(dip->un.s.member[3].label.name, AudioNfmsynth);
dip->un.s.member[3].mask = 1 << EAP_FM_VOL;
strcpy(dip->un.s.member[4].label.name, AudioNaux);
dip->un.s.member[4].mask = 1 << EAP_AUX_VOL;
strcpy(dip->un.s.member[5].label.name, AudioNdac);
dip->un.s.member[5].mask = 1 << EAP_VOICE_VOL;
return (0);
case EAP_MIC_PREAMP:
dip->type = AUDIO_MIXER_ENUM;
dip->mixer_class = EAP_INPUT_CLASS;
dip->prev = EAP_MIC_VOL;
dip->next = AUDIO_MIXER_LAST;
strcpy(dip->label.name, AudioNpreamp);
dip->un.e.num_mem = 2;
strcpy(dip->un.e.member[0].label.name, AudioNoff);
dip->un.e.member[0].ord = 0;
strcpy(dip->un.e.member[1].label.name, AudioNon);
dip->un.e.member[1].ord = 1;
return (0);
case EAP_OUTPUT_CLASS:
dip->type = AUDIO_MIXER_CLASS;
dip->mixer_class = EAP_OUTPUT_CLASS;
dip->next = dip->prev = AUDIO_MIXER_LAST;
strcpy(dip->label.name, AudioCoutputs);
return (0);
case EAP_RECORD_CLASS:
dip->type = AUDIO_MIXER_CLASS;
dip->mixer_class = EAP_RECORD_CLASS;
dip->next = dip->prev = AUDIO_MIXER_LAST;
strcpy(dip->label.name, AudioCrecord);
return (0);
case EAP_INPUT_CLASS:
dip->type = AUDIO_MIXER_CLASS;
dip->mixer_class = EAP_INPUT_CLASS;
dip->next = dip->prev = AUDIO_MIXER_LAST;
strcpy(dip->label.name, AudioCinputs);
return (0);
}
return (ENXIO);
}
void *
eap_malloc(addr, size, pool, flags)
void *addr;
u_long size;
int pool, flags;
{
struct eap_softc *sc = addr;
struct eap_dma *p;
int error;
p = malloc(sizeof(*p), pool, flags);
if (!p)
return (0);
error = eap_allocmem(sc, size, 16, p);
if (error) {
free(p, pool);
return (0);
}
p->next = sc->sc_dmas;
sc->sc_dmas = p;
return (KERNADDR(p));
}
void
eap_free(addr, ptr, pool)
void *addr;
void *ptr;
int pool;
{
struct eap_softc *sc = addr;
struct eap_dma **p;
for (p = &sc->sc_dmas; *p; p = &(*p)->next) {
if (KERNADDR(*p) == ptr) {
eap_freemem(sc, *p);
*p = (*p)->next;
free(*p, pool);
return;
}
}
}
u_long
eap_round_buffersize(addr, size)
void *addr;
u_long size;
{
return (size);
}
int
eap_mappage(addr, mem, off, prot)
void *addr;
void *mem;
int off;
int prot;
{
struct eap_softc *sc = addr;
struct eap_dma *p;
if (off < 0)
return (-1);
for (p = sc->sc_dmas; p && KERNADDR(p) != mem; p = p->next)
;
if (!p)
return (-1);
return (bus_dmamem_mmap(sc->sc_dmatag, p->segs, p->nsegs,
off, prot, BUS_DMA_WAITOK));
}
int
eap_get_props(addr)
void *addr;
{
return (AUDIO_PROP_MMAP | AUDIO_PROP_INDEPENDENT |
AUDIO_PROP_FULLDUPLEX);
}
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