ess.c revision 1.84
1 1.84 isaki /* $NetBSD: ess.c,v 1.84 2019/03/16 12:09:58 isaki Exp $ */ 2 1.1 augustss 3 1.1 augustss /* 4 1.1 augustss * Copyright 1997 5 1.1 augustss * Digital Equipment Corporation. All rights reserved. 6 1.1 augustss * 7 1.1 augustss * This software is furnished under license and may be used and 8 1.1 augustss * copied only in accordance with the following terms and conditions. 9 1.1 augustss * Subject to these conditions, you may download, copy, install, 10 1.1 augustss * use, modify and distribute this software in source and/or binary 11 1.1 augustss * form. No title or ownership is transferred hereby. 12 1.1 augustss * 13 1.1 augustss * 1) Any source code used, modified or distributed must reproduce 14 1.1 augustss * and retain this copyright notice and list of conditions as 15 1.1 augustss * they appear in the source file. 16 1.1 augustss * 17 1.1 augustss * 2) No right is granted to use any trade name, trademark, or logo of 18 1.1 augustss * Digital Equipment Corporation. Neither the "Digital Equipment 19 1.1 augustss * Corporation" name nor any trademark or logo of Digital Equipment 20 1.1 augustss * Corporation may be used to endorse or promote products derived 21 1.1 augustss * from this software without the prior written permission of 22 1.1 augustss * Digital Equipment Corporation. 23 1.1 augustss * 24 1.1 augustss * 3) This software is provided "AS-IS" and any express or implied 25 1.1 augustss * warranties, including but not limited to, any implied warranties 26 1.1 augustss * of merchantability, fitness for a particular purpose, or 27 1.1 augustss * non-infringement are disclaimed. In no event shall DIGITAL be 28 1.1 augustss * liable for any damages whatsoever, and in particular, DIGITAL 29 1.1 augustss * shall not be liable for special, indirect, consequential, or 30 1.1 augustss * incidental damages or damages for lost profits, loss of 31 1.1 augustss * revenue or loss of use, whether such damages arise in contract, 32 1.1 augustss * negligence, tort, under statute, in equity, at law or otherwise, 33 1.1 augustss * even if advised of the possibility of such damage. 34 1.1 augustss */ 35 1.1 augustss 36 1.1 augustss /* 37 1.1 augustss **++ 38 1.1 augustss ** 39 1.1 augustss ** ess.c 40 1.1 augustss ** 41 1.1 augustss ** FACILITY: 42 1.1 augustss ** 43 1.1 augustss ** DIGITAL Network Appliance Reference Design (DNARD) 44 1.1 augustss ** 45 1.1 augustss ** MODULE DESCRIPTION: 46 1.1 augustss ** 47 1.1 augustss ** This module contains the device driver for the ESS 48 1.1 augustss ** Technologies 1888/1887/888 sound chip. The code in sbdsp.c was 49 1.1 augustss ** used as a reference point when implementing this driver. 50 1.1 augustss ** 51 1.1 augustss ** AUTHORS: 52 1.1 augustss ** 53 1.1 augustss ** Blair Fidler Software Engineering Australia 54 1.1 augustss ** Gold Coast, Australia. 55 1.1 augustss ** 56 1.66 kent ** CREATION DATE: 57 1.1 augustss ** 58 1.1 augustss ** March 10, 1997. 59 1.1 augustss ** 60 1.1 augustss ** MODIFICATION HISTORY: 61 1.1 augustss ** 62 1.19 mycroft ** Heavily modified by Lennart Augustsson and Charles M. Hannum for 63 1.19 mycroft ** bus_dma, changes to audio interface, and many bug fixes. 64 1.34 mycroft ** ESS1788 support by Nathan J. Williams and Charles M. Hannum. 65 1.1 augustss **-- 66 1.1 augustss */ 67 1.55 lukem 68 1.55 lukem #include <sys/cdefs.h> 69 1.84 isaki __KERNEL_RCSID(0, "$NetBSD: ess.c,v 1.84 2019/03/16 12:09:58 isaki Exp $"); 70 1.1 augustss 71 1.1 augustss #include <sys/param.h> 72 1.1 augustss #include <sys/systm.h> 73 1.1 augustss #include <sys/errno.h> 74 1.1 augustss #include <sys/ioctl.h> 75 1.1 augustss #include <sys/syslog.h> 76 1.1 augustss #include <sys/device.h> 77 1.1 augustss #include <sys/proc.h> 78 1.42 mycroft #include <sys/kernel.h> 79 1.75 ad #include <sys/cpu.h> 80 1.75 ad #include <sys/intr.h> 81 1.75 ad #include <sys/bus.h> 82 1.79 jmcneill #include <sys/audioio.h> 83 1.79 jmcneill #include <sys/malloc.h> 84 1.1 augustss 85 1.1 augustss #include <dev/audio_if.h> 86 1.1 augustss #include <dev/auconv.h> 87 1.1 augustss #include <dev/mulaw.h> 88 1.1 augustss 89 1.1 augustss #include <dev/isa/isavar.h> 90 1.1 augustss #include <dev/isa/isadmavar.h> 91 1.1 augustss 92 1.1 augustss #include <dev/isa/essvar.h> 93 1.1 augustss #include <dev/isa/essreg.h> 94 1.1 augustss 95 1.61 drochner #include "joy_ess.h" 96 1.61 drochner 97 1.1 augustss #ifdef AUDIO_DEBUG 98 1.1 augustss #define DPRINTF(x) if (essdebug) printf x 99 1.2 augustss #define DPRINTFN(n,x) if (essdebug>(n)) printf x 100 1.1 augustss int essdebug = 0; 101 1.1 augustss #else 102 1.1 augustss #define DPRINTF(x) 103 1.2 augustss #define DPRINTFN(n,x) 104 1.1 augustss #endif 105 1.1 augustss 106 1.2 augustss #if 0 107 1.2 augustss unsigned uuu; 108 1.2 augustss #define EREAD1(t, h, a) (uuu=bus_space_read_1(t, h, a),printf("EREAD %02x=%02x\n", ((int)h&0xfff)+a, uuu),uuu) 109 1.2 augustss #define EWRITE1(t, h, a, d) (printf("EWRITE %02x=%02x\n", ((int)h & 0xfff)+a, d), bus_space_write_1(t, h, a, d)) 110 1.2 augustss #else 111 1.2 augustss #define EREAD1(t, h, a) bus_space_read_1(t, h, a) 112 1.2 augustss #define EWRITE1(t, h, a, d) bus_space_write_1(t, h, a, d) 113 1.2 augustss #endif 114 1.1 augustss 115 1.2 augustss 116 1.66 kent int ess_setup_sc(struct ess_softc *, int); 117 1.1 augustss 118 1.66 kent int ess_open(void *, int); 119 1.66 kent void ess_close(void *); 120 1.66 kent int ess_getdev(void *, struct audio_device *); 121 1.66 kent int ess_drain(void *); 122 1.66 kent 123 1.66 kent int ess_query_encoding(void *, struct audio_encoding *); 124 1.66 kent 125 1.66 kent int ess_set_params(void *, int, int, audio_params_t *, 126 1.66 kent audio_params_t *, stream_filter_list_t *, stream_filter_list_t *); 127 1.66 kent 128 1.66 kent int ess_round_blocksize(void *, int, int, const audio_params_t *); 129 1.66 kent 130 1.66 kent int ess_audio1_trigger_output(void *, void *, void *, int, 131 1.66 kent void (*)(void *), void *, const audio_params_t *); 132 1.66 kent int ess_audio2_trigger_output(void *, void *, void *, int, 133 1.66 kent void (*)(void *), void *, const audio_params_t *); 134 1.66 kent int ess_audio1_trigger_input(void *, void *, void *, int, 135 1.66 kent void (*)(void *), void *, const audio_params_t *); 136 1.66 kent int ess_audio1_halt(void *); 137 1.66 kent int ess_audio2_halt(void *); 138 1.66 kent int ess_audio1_intr(void *); 139 1.66 kent int ess_audio2_intr(void *); 140 1.66 kent void ess_audio1_poll(void *); 141 1.66 kent void ess_audio2_poll(void *); 142 1.66 kent 143 1.66 kent int ess_speaker_ctl(void *, int); 144 1.66 kent 145 1.66 kent int ess_getdev(void *, struct audio_device *); 146 1.66 kent 147 1.66 kent int ess_set_port(void *, mixer_ctrl_t *); 148 1.66 kent int ess_get_port(void *, mixer_ctrl_t *); 149 1.66 kent 150 1.79 jmcneill void *ess_malloc(void *, int, size_t); 151 1.79 jmcneill void ess_free(void *, void *, size_t); 152 1.66 kent size_t ess_round_buffersize(void *, int, size_t); 153 1.66 kent paddr_t ess_mappage(void *, void *, off_t, int); 154 1.66 kent 155 1.66 kent 156 1.66 kent int ess_query_devinfo(void *, mixer_devinfo_t *); 157 1.66 kent int ess_1788_get_props(void *); 158 1.66 kent int ess_1888_get_props(void *); 159 1.79 jmcneill void ess_get_locks(void *, kmutex_t **, kmutex_t **); 160 1.66 kent 161 1.66 kent void ess_speaker_on(struct ess_softc *); 162 1.66 kent void ess_speaker_off(struct ess_softc *); 163 1.66 kent 164 1.66 kent void ess_config_irq(struct ess_softc *); 165 1.66 kent void ess_config_drq(struct ess_softc *); 166 1.66 kent void ess_setup(struct ess_softc *); 167 1.66 kent int ess_identify(struct ess_softc *); 168 1.66 kent 169 1.66 kent int ess_reset(struct ess_softc *); 170 1.66 kent void ess_set_gain(struct ess_softc *, int, int); 171 1.66 kent int ess_set_in_port(struct ess_softc *, int); 172 1.66 kent int ess_set_in_ports(struct ess_softc *, int); 173 1.82 nakayama u_int ess_srtotc(struct ess_softc *, u_int); 174 1.66 kent u_int ess_srtofc(u_int); 175 1.66 kent u_char ess_get_dsp_status(struct ess_softc *); 176 1.66 kent u_char ess_dsp_read_ready(struct ess_softc *); 177 1.66 kent u_char ess_dsp_write_ready(struct ess_softc *); 178 1.66 kent int ess_rdsp(struct ess_softc *); 179 1.66 kent int ess_wdsp(struct ess_softc *, u_char); 180 1.66 kent u_char ess_read_x_reg(struct ess_softc *, u_char); 181 1.66 kent int ess_write_x_reg(struct ess_softc *, u_char, u_char); 182 1.66 kent void ess_clear_xreg_bits(struct ess_softc *, u_char, u_char); 183 1.66 kent void ess_set_xreg_bits(struct ess_softc *, u_char, u_char); 184 1.66 kent u_char ess_read_mix_reg(struct ess_softc *, u_char); 185 1.66 kent void ess_write_mix_reg(struct ess_softc *, u_char, u_char); 186 1.66 kent void ess_clear_mreg_bits(struct ess_softc *, u_char, u_char); 187 1.66 kent void ess_set_mreg_bits(struct ess_softc *, u_char, u_char); 188 1.83 msaitoh void ess_read_multi_mix_reg(struct ess_softc *, u_char, u_int8_t *, 189 1.83 msaitoh bus_size_t); 190 1.1 augustss 191 1.68 christos static const char *essmodel[] = { 192 1.1 augustss "unsupported", 193 1.62 mycroft 194 1.63 mycroft "688", 195 1.62 mycroft "1688", 196 1.46 augustss "1788", 197 1.62 mycroft "1868", 198 1.46 augustss "1869", 199 1.62 mycroft "1878", 200 1.46 augustss "1879", 201 1.62 mycroft 202 1.62 mycroft "888", 203 1.62 mycroft "1887", 204 1.62 mycroft "1888", 205 1.1 augustss }; 206 1.1 augustss 207 1.1 augustss struct audio_device ess_device = { 208 1.1 augustss "ESS Technology", 209 1.1 augustss "x", 210 1.1 augustss "ess" 211 1.1 augustss }; 212 1.1 augustss 213 1.1 augustss /* 214 1.1 augustss * Define our interface to the higher level audio driver. 215 1.1 augustss */ 216 1.1 augustss 217 1.64 yamt const struct audio_hw_if ess_1788_hw_if = { 218 1.84 isaki .open = ess_open, 219 1.84 isaki .close = ess_close, 220 1.84 isaki .drain = ess_drain, 221 1.84 isaki .query_encoding = ess_query_encoding, 222 1.84 isaki .set_params = ess_set_params, 223 1.84 isaki .round_blocksize = ess_round_blocksize, 224 1.84 isaki .halt_output = ess_audio1_halt, 225 1.84 isaki .halt_input = ess_audio1_halt, 226 1.84 isaki .speaker_ctl = ess_speaker_ctl, 227 1.84 isaki .getdev = ess_getdev, 228 1.84 isaki .set_port = ess_set_port, 229 1.84 isaki .get_port = ess_get_port, 230 1.84 isaki .query_devinfo = ess_query_devinfo, 231 1.84 isaki .allocm = ess_malloc, 232 1.84 isaki .freem = ess_free, 233 1.84 isaki .round_buffersize = ess_round_buffersize, 234 1.84 isaki .mappage = ess_mappage, 235 1.84 isaki .get_props = ess_1788_get_props, 236 1.84 isaki .trigger_output = ess_audio1_trigger_output, 237 1.84 isaki .trigger_input = ess_audio1_trigger_input, 238 1.84 isaki .get_locks = ess_get_locks, 239 1.33 nathanw }; 240 1.33 nathanw 241 1.64 yamt const struct audio_hw_if ess_1888_hw_if = { 242 1.84 isaki .open = ess_open, 243 1.84 isaki .close = ess_close, 244 1.84 isaki .drain = ess_drain, 245 1.84 isaki .query_encoding = ess_query_encoding, 246 1.84 isaki .set_params = ess_set_params, 247 1.84 isaki .round_blocksize = ess_round_blocksize, 248 1.84 isaki .halt_output = ess_audio2_halt, 249 1.84 isaki .halt_input = ess_audio1_halt, 250 1.84 isaki .speaker_ctl = ess_speaker_ctl, 251 1.84 isaki .getdev = ess_getdev, 252 1.84 isaki .set_port = ess_set_port, 253 1.84 isaki .get_port = ess_get_port, 254 1.84 isaki .query_devinfo = ess_query_devinfo, 255 1.84 isaki .allocm = ess_malloc, 256 1.84 isaki .freem = ess_free, 257 1.84 isaki .round_buffersize = ess_round_buffersize, 258 1.84 isaki .mappage = ess_mappage, 259 1.84 isaki .get_props = ess_1888_get_props, 260 1.84 isaki .trigger_output = ess_audio2_trigger_output, 261 1.84 isaki .trigger_input = ess_audio1_trigger_input, 262 1.84 isaki .get_locks = ess_get_locks, 263 1.1 augustss }; 264 1.1 augustss 265 1.65 kent #define ESS_NFORMATS 8 266 1.65 kent static const struct audio_format ess_formats[ESS_NFORMATS] = { 267 1.65 kent {NULL, AUMODE_PLAY | AUMODE_RECORD, AUDIO_ENCODING_SLINEAR_LE, 16, 16, 268 1.65 kent 2, AUFMT_STEREO, 0, {ESS_MINRATE, ESS_MAXRATE}}, 269 1.65 kent {NULL, AUMODE_PLAY | AUMODE_RECORD, AUDIO_ENCODING_SLINEAR_LE, 16, 16, 270 1.65 kent 1, AUFMT_MONAURAL, 0, {ESS_MINRATE, ESS_MAXRATE}}, 271 1.65 kent {NULL, AUMODE_PLAY | AUMODE_RECORD, AUDIO_ENCODING_ULINEAR_LE, 16, 16, 272 1.65 kent 2, AUFMT_STEREO, 0, {ESS_MINRATE, ESS_MAXRATE}}, 273 1.65 kent {NULL, AUMODE_PLAY | AUMODE_RECORD, AUDIO_ENCODING_ULINEAR_LE, 16, 16, 274 1.65 kent 1, AUFMT_MONAURAL, 0, {ESS_MINRATE, ESS_MAXRATE}}, 275 1.65 kent {NULL, AUMODE_PLAY | AUMODE_RECORD, AUDIO_ENCODING_ULINEAR_LE, 8, 8, 276 1.65 kent 2, AUFMT_STEREO, 0, {ESS_MINRATE, ESS_MAXRATE}}, 277 1.65 kent {NULL, AUMODE_PLAY | AUMODE_RECORD, AUDIO_ENCODING_ULINEAR_LE, 8, 8, 278 1.65 kent 1, AUFMT_MONAURAL, 0, {ESS_MINRATE, ESS_MAXRATE}}, 279 1.65 kent {NULL, AUMODE_PLAY | AUMODE_RECORD, AUDIO_ENCODING_SLINEAR_LE, 8, 8, 280 1.65 kent 2, AUFMT_STEREO, 0, {ESS_MINRATE, ESS_MAXRATE}}, 281 1.65 kent {NULL, AUMODE_PLAY | AUMODE_RECORD, AUDIO_ENCODING_SLINEAR_LE, 8, 8, 282 1.65 kent 1, AUFMT_MONAURAL, 0, {ESS_MINRATE, ESS_MAXRATE}}, 283 1.65 kent }; 284 1.65 kent 285 1.1 augustss #ifdef AUDIO_DEBUG 286 1.66 kent void ess_printsc(struct ess_softc *); 287 1.66 kent void ess_dump_mixer(struct ess_softc *); 288 1.1 augustss 289 1.1 augustss void 290 1.66 kent ess_printsc(struct ess_softc *sc) 291 1.1 augustss { 292 1.1 augustss int i; 293 1.66 kent 294 1.60 mycroft printf("iobase 0x%x outport %u inport %u speaker %s\n", 295 1.60 mycroft sc->sc_iobase, sc->out_port, 296 1.1 augustss sc->in_port, sc->spkr_state ? "on" : "off"); 297 1.1 augustss 298 1.57 wiz printf("audio1: DMA chan %d irq %d nintr %lu intr %p arg %p\n", 299 1.34 mycroft sc->sc_audio1.drq, sc->sc_audio1.irq, sc->sc_audio1.nintr, 300 1.34 mycroft sc->sc_audio1.intr, sc->sc_audio1.arg); 301 1.1 augustss 302 1.46 augustss if (!ESS_USE_AUDIO1(sc->sc_model)) { 303 1.57 wiz printf("audio2: DMA chan %d irq %d nintr %lu intr %p arg %p\n", 304 1.34 mycroft sc->sc_audio2.drq, sc->sc_audio2.irq, sc->sc_audio2.nintr, 305 1.34 mycroft sc->sc_audio2.intr, sc->sc_audio2.arg); 306 1.35 mycroft } 307 1.1 augustss 308 1.1 augustss printf("gain:"); 309 1.33 nathanw for (i = 0; i < sc->ndevs; i++) 310 1.1 augustss printf(" %u,%u", sc->gain[i][ESS_LEFT], sc->gain[i][ESS_RIGHT]); 311 1.1 augustss printf("\n"); 312 1.1 augustss } 313 1.1 augustss 314 1.1 augustss void 315 1.66 kent ess_dump_mixer(struct ess_softc *sc) 316 1.1 augustss { 317 1.66 kent 318 1.1 augustss printf("ESS_DAC_PLAY_VOL: mix reg 0x%02x=0x%02x\n", 319 1.34 mycroft 0x7C, ess_read_mix_reg(sc, 0x7C)); 320 1.1 augustss printf("ESS_MIC_PLAY_VOL: mix reg 0x%02x=0x%02x\n", 321 1.1 augustss 0x1A, ess_read_mix_reg(sc, 0x1A)); 322 1.1 augustss printf("ESS_LINE_PLAY_VOL: mix reg 0x%02x=0x%02x\n", 323 1.1 augustss 0x3E, ess_read_mix_reg(sc, 0x3E)); 324 1.1 augustss printf("ESS_SYNTH_PLAY_VOL: mix reg 0x%02x=0x%02x\n", 325 1.1 augustss 0x36, ess_read_mix_reg(sc, 0x36)); 326 1.1 augustss printf("ESS_CD_PLAY_VOL: mix reg 0x%02x=0x%02x\n", 327 1.1 augustss 0x38, ess_read_mix_reg(sc, 0x38)); 328 1.1 augustss printf("ESS_AUXB_PLAY_VOL: mix reg 0x%02x=0x%02x\n", 329 1.1 augustss 0x3A, ess_read_mix_reg(sc, 0x3A)); 330 1.1 augustss printf("ESS_MASTER_VOL: mix reg 0x%02x=0x%02x\n", 331 1.1 augustss 0x32, ess_read_mix_reg(sc, 0x32)); 332 1.1 augustss printf("ESS_PCSPEAKER_VOL: mix reg 0x%02x=0x%02x\n", 333 1.1 augustss 0x3C, ess_read_mix_reg(sc, 0x3C)); 334 1.1 augustss printf("ESS_DAC_REC_VOL: mix reg 0x%02x=0x%02x\n", 335 1.1 augustss 0x69, ess_read_mix_reg(sc, 0x69)); 336 1.1 augustss printf("ESS_MIC_REC_VOL: mix reg 0x%02x=0x%02x\n", 337 1.1 augustss 0x68, ess_read_mix_reg(sc, 0x68)); 338 1.1 augustss printf("ESS_LINE_REC_VOL: mix reg 0x%02x=0x%02x\n", 339 1.1 augustss 0x6E, ess_read_mix_reg(sc, 0x6E)); 340 1.1 augustss printf("ESS_SYNTH_REC_VOL: mix reg 0x%02x=0x%02x\n", 341 1.1 augustss 0x6B, ess_read_mix_reg(sc, 0x6B)); 342 1.1 augustss printf("ESS_CD_REC_VOL: mix reg 0x%02x=0x%02x\n", 343 1.1 augustss 0x6A, ess_read_mix_reg(sc, 0x6A)); 344 1.1 augustss printf("ESS_AUXB_REC_VOL: mix reg 0x%02x=0x%02x\n", 345 1.1 augustss 0x6C, ess_read_mix_reg(sc, 0x6C)); 346 1.1 augustss printf("ESS_RECORD_VOL: x reg 0x%02x=0x%02x\n", 347 1.1 augustss 0xB4, ess_read_x_reg(sc, 0xB4)); 348 1.1 augustss printf("Audio 1 play vol (unused): mix reg 0x%02x=0x%02x\n", 349 1.1 augustss 0x14, ess_read_mix_reg(sc, 0x14)); 350 1.1 augustss 351 1.1 augustss printf("ESS_MIC_PREAMP: x reg 0x%02x=0x%02x\n", 352 1.1 augustss ESS_XCMD_PREAMP_CTRL, ess_read_x_reg(sc, ESS_XCMD_PREAMP_CTRL)); 353 1.1 augustss printf("ESS_RECORD_MONITOR: x reg 0x%02x=0x%02x\n", 354 1.1 augustss ESS_XCMD_AUDIO_CTRL, ess_read_x_reg(sc, ESS_XCMD_AUDIO_CTRL)); 355 1.1 augustss printf("Record source: mix reg 0x%02x=0x%02x, 0x%02x=0x%02x\n", 356 1.34 mycroft ESS_MREG_ADC_SOURCE, ess_read_mix_reg(sc, ESS_MREG_ADC_SOURCE), 357 1.34 mycroft ESS_MREG_AUDIO2_CTRL2, ess_read_mix_reg(sc, ESS_MREG_AUDIO2_CTRL2)); 358 1.1 augustss } 359 1.1 augustss 360 1.1 augustss #endif 361 1.1 augustss 362 1.1 augustss /* 363 1.1 augustss * Configure the ESS chip for the desired audio base address. 364 1.1 augustss */ 365 1.1 augustss int 366 1.66 kent ess_config_addr(struct ess_softc *sc) 367 1.1 augustss { 368 1.66 kent int iobase; 369 1.66 kent bus_space_tag_t iot; 370 1.1 augustss /* 371 1.1 augustss * Configure using the System Control Register method. This 372 1.1 augustss * method is used when the AMODE line is tied high, which is 373 1.1 augustss * the case for the Shark, but not for the evaluation board. 374 1.1 augustss */ 375 1.1 augustss bus_space_handle_t scr_access_ioh; 376 1.1 augustss bus_space_handle_t scr_ioh; 377 1.1 augustss u_short scr_value; 378 1.1 augustss 379 1.66 kent iobase = sc->sc_iobase; 380 1.66 kent iot = sc->sc_iot; 381 1.1 augustss /* 382 1.1 augustss * Set the SCR bit to enable audio. 383 1.1 augustss */ 384 1.1 augustss scr_value = ESS_SCR_AUDIO_ENABLE; 385 1.1 augustss 386 1.1 augustss /* 387 1.1 augustss * Set the SCR bits necessary to select the specified audio 388 1.1 augustss * base address. 389 1.1 augustss */ 390 1.1 augustss switch(iobase) { 391 1.1 augustss case 0x220: 392 1.1 augustss scr_value |= ESS_SCR_AUDIO_220; 393 1.1 augustss break; 394 1.1 augustss case 0x230: 395 1.1 augustss scr_value |= ESS_SCR_AUDIO_230; 396 1.1 augustss break; 397 1.1 augustss case 0x240: 398 1.1 augustss scr_value |= ESS_SCR_AUDIO_240; 399 1.1 augustss break; 400 1.1 augustss case 0x250: 401 1.1 augustss scr_value |= ESS_SCR_AUDIO_250; 402 1.1 augustss break; 403 1.1 augustss default: 404 1.1 augustss printf("ess: configured iobase 0x%x invalid\n", iobase); 405 1.66 kent return 1; 406 1.1 augustss break; 407 1.1 augustss } 408 1.1 augustss 409 1.1 augustss /* 410 1.1 augustss * Get a mapping for the System Control Register (SCR) access 411 1.1 augustss * registers and the SCR data registers. 412 1.1 augustss */ 413 1.1 augustss if (bus_space_map(iot, ESS_SCR_ACCESS_BASE, ESS_SCR_ACCESS_PORTS, 414 1.1 augustss 0, &scr_access_ioh)) { 415 1.1 augustss printf("ess: can't map SCR access registers\n"); 416 1.66 kent return 1; 417 1.1 augustss } 418 1.1 augustss if (bus_space_map(iot, ESS_SCR_BASE, ESS_SCR_PORTS, 419 1.1 augustss 0, &scr_ioh)) { 420 1.1 augustss printf("ess: can't map SCR registers\n"); 421 1.1 augustss bus_space_unmap(iot, scr_access_ioh, ESS_SCR_ACCESS_PORTS); 422 1.66 kent return 1; 423 1.1 augustss } 424 1.1 augustss 425 1.1 augustss /* Unlock the SCR. */ 426 1.2 augustss EWRITE1(iot, scr_access_ioh, ESS_SCR_UNLOCK, 0); 427 1.1 augustss 428 1.1 augustss /* Write the base address information into SCR[0]. */ 429 1.2 augustss EWRITE1(iot, scr_ioh, ESS_SCR_INDEX, 0); 430 1.2 augustss EWRITE1(iot, scr_ioh, ESS_SCR_DATA, scr_value); 431 1.66 kent 432 1.1 augustss /* Lock the SCR. */ 433 1.2 augustss EWRITE1(iot, scr_access_ioh, ESS_SCR_LOCK, 0); 434 1.1 augustss 435 1.1 augustss /* Unmap the SCR access ports and the SCR data ports. */ 436 1.1 augustss bus_space_unmap(iot, scr_access_ioh, ESS_SCR_ACCESS_PORTS); 437 1.1 augustss bus_space_unmap(iot, scr_ioh, ESS_SCR_PORTS); 438 1.1 augustss 439 1.1 augustss return 0; 440 1.1 augustss } 441 1.1 augustss 442 1.1 augustss 443 1.1 augustss /* 444 1.1 augustss * Configure the ESS chip for the desired IRQ and DMA channels. 445 1.2 augustss * ESS ISA 446 1.2 augustss * -------- 447 1.2 augustss * IRQA irq9 448 1.2 augustss * IRQB irq5 449 1.2 augustss * IRQC irq7 450 1.2 augustss * IRQD irq10 451 1.2 augustss * IRQE irq15 452 1.4 augustss * 453 1.2 augustss * DRQA drq0 454 1.2 augustss * DRQB drq1 455 1.2 augustss * DRQC drq3 456 1.2 augustss * DRQD drq5 457 1.1 augustss */ 458 1.1 augustss void 459 1.66 kent ess_config_irq(struct ess_softc *sc) 460 1.1 augustss { 461 1.4 augustss int v; 462 1.1 augustss 463 1.4 augustss DPRINTFN(2,("ess_config_irq\n")); 464 1.4 augustss 465 1.34 mycroft if (sc->sc_model == ESS_1887 && 466 1.42 mycroft sc->sc_audio1.irq == sc->sc_audio2.irq && 467 1.42 mycroft sc->sc_audio1.irq != -1) { 468 1.4 augustss /* Use new method, both interrupts are the same. */ 469 1.4 augustss v = ESS_IS_SELECT_IRQ; /* enable intrs */ 470 1.42 mycroft switch (sc->sc_audio1.irq) { 471 1.4 augustss case 5: 472 1.4 augustss v |= ESS_IS_INTRB; 473 1.4 augustss break; 474 1.4 augustss case 7: 475 1.4 augustss v |= ESS_IS_INTRC; 476 1.4 augustss break; 477 1.4 augustss case 9: 478 1.4 augustss v |= ESS_IS_INTRA; 479 1.4 augustss break; 480 1.4 augustss case 10: 481 1.4 augustss v |= ESS_IS_INTRD; 482 1.4 augustss break; 483 1.4 augustss case 15: 484 1.4 augustss v |= ESS_IS_INTRE; 485 1.4 augustss break; 486 1.4 augustss #ifdef DIAGNOSTIC 487 1.4 augustss default: 488 1.67 perry printf("ess_config_irq: configured irq %d not supported for Audio 1\n", 489 1.34 mycroft sc->sc_audio1.irq); 490 1.4 augustss return; 491 1.4 augustss #endif 492 1.4 augustss } 493 1.4 augustss /* Set the IRQ */ 494 1.4 augustss ess_write_mix_reg(sc, ESS_MREG_INTR_ST, v); 495 1.34 mycroft return; 496 1.34 mycroft } 497 1.34 mycroft 498 1.42 mycroft if (sc->sc_model == ESS_1887) { 499 1.42 mycroft /* Tell the 1887 to use the old interrupt method. */ 500 1.42 mycroft ess_write_mix_reg(sc, ESS_MREG_INTR_ST, ESS_IS_ES1888); 501 1.42 mycroft } 502 1.42 mycroft 503 1.42 mycroft if (sc->sc_audio1.polled) { 504 1.42 mycroft /* Turn off Audio1 interrupts. */ 505 1.42 mycroft v = 0; 506 1.42 mycroft } else { 507 1.42 mycroft /* Configure Audio 1 for the appropriate IRQ line. */ 508 1.42 mycroft v = ESS_IRQ_CTRL_MASK | ESS_IRQ_CTRL_EXT; /* All intrs on */ 509 1.42 mycroft switch (sc->sc_audio1.irq) { 510 1.42 mycroft case 5: 511 1.42 mycroft v |= ESS_IRQ_CTRL_INTRB; 512 1.42 mycroft break; 513 1.42 mycroft case 7: 514 1.42 mycroft v |= ESS_IRQ_CTRL_INTRC; 515 1.42 mycroft break; 516 1.42 mycroft case 9: 517 1.42 mycroft v |= ESS_IRQ_CTRL_INTRA; 518 1.42 mycroft break; 519 1.42 mycroft case 10: 520 1.42 mycroft v |= ESS_IRQ_CTRL_INTRD; 521 1.42 mycroft break; 522 1.34 mycroft #ifdef DIAGNOSTIC 523 1.42 mycroft default: 524 1.67 perry printf("ess: configured irq %d not supported for Audio 1\n", 525 1.42 mycroft sc->sc_audio1.irq); 526 1.42 mycroft return; 527 1.34 mycroft #endif 528 1.42 mycroft } 529 1.4 augustss } 530 1.34 mycroft ess_write_x_reg(sc, ESS_XCMD_IRQ_CTRL, v); 531 1.34 mycroft 532 1.46 augustss if (ESS_USE_AUDIO1(sc->sc_model)) 533 1.34 mycroft return; 534 1.34 mycroft 535 1.42 mycroft if (sc->sc_audio2.polled) { 536 1.42 mycroft /* Turn off Audio2 interrupts. */ 537 1.66 kent ess_clear_mreg_bits(sc, ESS_MREG_AUDIO2_CTRL2, 538 1.42 mycroft ESS_AUDIO2_CTRL2_IRQ2_ENABLE); 539 1.42 mycroft } else { 540 1.42 mycroft /* Audio2 is hardwired to INTRE in this mode. */ 541 1.66 kent ess_set_mreg_bits(sc, ESS_MREG_AUDIO2_CTRL2, 542 1.42 mycroft ESS_AUDIO2_CTRL2_IRQ2_ENABLE); 543 1.42 mycroft } 544 1.4 augustss } 545 1.4 augustss 546 1.4 augustss 547 1.4 augustss void 548 1.66 kent ess_config_drq(struct ess_softc *sc) 549 1.4 augustss { 550 1.4 augustss int v; 551 1.4 augustss 552 1.4 augustss DPRINTFN(2,("ess_config_drq\n")); 553 1.4 augustss 554 1.4 augustss /* Configure Audio 1 (record) for DMA on the appropriate channel. */ 555 1.4 augustss v = ESS_DRQ_CTRL_PU | ESS_DRQ_CTRL_EXT; 556 1.34 mycroft switch (sc->sc_audio1.drq) { 557 1.4 augustss case 0: 558 1.4 augustss v |= ESS_DRQ_CTRL_DRQA; 559 1.1 augustss break; 560 1.4 augustss case 1: 561 1.4 augustss v |= ESS_DRQ_CTRL_DRQB; 562 1.1 augustss break; 563 1.4 augustss case 3: 564 1.4 augustss v |= ESS_DRQ_CTRL_DRQC; 565 1.1 augustss break; 566 1.2 augustss #ifdef DIAGNOSTIC 567 1.1 augustss default: 568 1.67 perry printf("ess_config_drq: configured DMA chan %d not supported for Audio 1\n", 569 1.34 mycroft sc->sc_audio1.drq); 570 1.1 augustss return; 571 1.5 augustss #endif 572 1.4 augustss } 573 1.4 augustss /* Set DRQ1 */ 574 1.4 augustss ess_write_x_reg(sc, ESS_XCMD_DRQ_CTRL, v); 575 1.4 augustss 576 1.46 augustss if (ESS_USE_AUDIO1(sc->sc_model)) 577 1.34 mycroft return; 578 1.34 mycroft 579 1.34 mycroft /* Configure DRQ2 */ 580 1.34 mycroft v = ESS_AUDIO2_CTRL3_DRQ_PD; 581 1.34 mycroft switch (sc->sc_audio2.drq) { 582 1.34 mycroft case 0: 583 1.34 mycroft v |= ESS_AUDIO2_CTRL3_DRQA; 584 1.34 mycroft break; 585 1.34 mycroft case 1: 586 1.34 mycroft v |= ESS_AUDIO2_CTRL3_DRQB; 587 1.34 mycroft break; 588 1.34 mycroft case 3: 589 1.34 mycroft v |= ESS_AUDIO2_CTRL3_DRQC; 590 1.34 mycroft break; 591 1.34 mycroft case 5: 592 1.37 mycroft v |= ESS_AUDIO2_CTRL3_DRQD; 593 1.34 mycroft break; 594 1.2 augustss #ifdef DIAGNOSTIC 595 1.34 mycroft default: 596 1.67 perry printf("ess_config_drq: configured DMA chan %d not supported for Audio 2\n", 597 1.34 mycroft sc->sc_audio2.drq); 598 1.34 mycroft return; 599 1.5 augustss #endif 600 1.1 augustss } 601 1.34 mycroft ess_write_mix_reg(sc, ESS_MREG_AUDIO2_CTRL3, v); 602 1.34 mycroft /* Enable DMA 2 */ 603 1.66 kent ess_set_mreg_bits(sc, ESS_MREG_AUDIO2_CTRL2, 604 1.34 mycroft ESS_AUDIO2_CTRL2_DMA_ENABLE); 605 1.4 augustss } 606 1.4 augustss 607 1.66 kent /* 608 1.66 kent * Set up registers after a reset. 609 1.4 augustss */ 610 1.4 augustss void 611 1.66 kent ess_setup(struct ess_softc *sc) 612 1.4 augustss { 613 1.18 mycroft 614 1.4 augustss ess_config_irq(sc); 615 1.4 augustss ess_config_drq(sc); 616 1.2 augustss 617 1.4 augustss DPRINTFN(2,("ess_setup: done\n")); 618 1.1 augustss } 619 1.1 augustss 620 1.1 augustss /* 621 1.1 augustss * Determine the model of ESS chip we are talking to. Currently we 622 1.1 augustss * only support ES1888, ES1887 and ES888. The method of determining 623 1.1 augustss * the chip is based on the information on page 27 of the ES1887 data 624 1.66 kent * sheet. 625 1.1 augustss * 626 1.1 augustss * This routine sets the values of sc->sc_model and sc->sc_version. 627 1.1 augustss */ 628 1.1 augustss int 629 1.66 kent ess_identify(struct ess_softc *sc) 630 1.1 augustss { 631 1.1 augustss u_char reg1; 632 1.1 augustss u_char reg2; 633 1.1 augustss u_char reg3; 634 1.46 augustss u_int8_t ident[4]; 635 1.1 augustss 636 1.1 augustss sc->sc_model = ESS_UNSUPPORTED; 637 1.1 augustss sc->sc_version = 0; 638 1.1 augustss 639 1.46 augustss memset(ident, 0, sizeof(ident)); 640 1.1 augustss 641 1.1 augustss /* 642 1.1 augustss * 1. Check legacy ID bytes. These should be 0x68 0x8n, where 643 1.1 augustss * n >= 8 for an ES1887 or an ES888. Other values indicate 644 1.1 augustss * earlier (unsupported) chips. 645 1.1 augustss */ 646 1.1 augustss ess_wdsp(sc, ESS_ACMD_LEGACY_ID); 647 1.1 augustss 648 1.1 augustss if ((reg1 = ess_rdsp(sc)) != 0x68) { 649 1.1 augustss printf("ess: First ID byte wrong (0x%02x)\n", reg1); 650 1.1 augustss return 1; 651 1.1 augustss } 652 1.1 augustss 653 1.1 augustss reg2 = ess_rdsp(sc); 654 1.1 augustss if (((reg2 & 0xf0) != 0x80) || 655 1.1 augustss ((reg2 & 0x0f) < 8)) { 656 1.63 mycroft sc->sc_model = ESS_688; 657 1.63 mycroft return 0; 658 1.1 augustss } 659 1.1 augustss 660 1.1 augustss /* 661 1.1 augustss * Store the ID bytes as the version. 662 1.1 augustss */ 663 1.1 augustss sc->sc_version = (reg1 << 8) + reg2; 664 1.1 augustss 665 1.1 augustss 666 1.1 augustss /* 667 1.1 augustss * 2. Verify we can change bit 2 in mixer register 0x64. This 668 1.1 augustss * should be possible on all supported chips. 669 1.1 augustss */ 670 1.33 nathanw reg1 = ess_read_mix_reg(sc, ESS_MREG_VOLUME_CTRL); 671 1.1 augustss reg2 = reg1 ^ 0x04; /* toggle bit 2 */ 672 1.66 kent 673 1.33 nathanw ess_write_mix_reg(sc, ESS_MREG_VOLUME_CTRL, reg2); 674 1.66 kent 675 1.33 nathanw if (ess_read_mix_reg(sc, ESS_MREG_VOLUME_CTRL) != reg2) { 676 1.62 mycroft switch (sc->sc_version) { 677 1.62 mycroft case 0x688b: 678 1.62 mycroft sc->sc_model = ESS_1688; 679 1.62 mycroft break; 680 1.62 mycroft default: 681 1.62 mycroft printf("ess: Hardware error (unable to toggle bit 2 of mixer register 0x64)\n"); 682 1.62 mycroft return 1; 683 1.62 mycroft } 684 1.62 mycroft return 0; 685 1.1 augustss } 686 1.1 augustss 687 1.1 augustss /* 688 1.1 augustss * Restore the original value of mixer register 0x64. 689 1.1 augustss */ 690 1.33 nathanw ess_write_mix_reg(sc, ESS_MREG_VOLUME_CTRL, reg1); 691 1.1 augustss 692 1.1 augustss 693 1.1 augustss /* 694 1.66 kent * 3. Verify we can change the value of mixer register 695 1.4 augustss * ESS_MREG_SAMPLE_RATE. 696 1.33 nathanw * This is possible on the 1888/1887/888, but not on the 1788. 697 1.4 augustss * It is not necessary to restore the value of this mixer register. 698 1.1 augustss */ 699 1.4 augustss reg1 = ess_read_mix_reg(sc, ESS_MREG_SAMPLE_RATE); 700 1.1 augustss reg2 = reg1 ^ 0xff; /* toggle all bits */ 701 1.1 augustss 702 1.4 augustss ess_write_mix_reg(sc, ESS_MREG_SAMPLE_RATE, reg2); 703 1.66 kent 704 1.4 augustss if (ess_read_mix_reg(sc, ESS_MREG_SAMPLE_RATE) != reg2) { 705 1.34 mycroft /* If we got this far before failing, it's a 1788. */ 706 1.34 mycroft sc->sc_model = ESS_1788; 707 1.46 augustss 708 1.46 augustss /* 709 1.46 augustss * Identify ESS model for ES18[67]8. 710 1.46 augustss */ 711 1.46 augustss ess_read_multi_mix_reg(sc, 0x40, ident, sizeof(ident)); 712 1.46 augustss if(ident[0] == 0x18) { 713 1.46 augustss switch(ident[1]) { 714 1.46 augustss case 0x68: 715 1.46 augustss sc->sc_model = ESS_1868; 716 1.46 augustss break; 717 1.46 augustss case 0x78: 718 1.46 augustss sc->sc_model = ESS_1878; 719 1.46 augustss break; 720 1.46 augustss } 721 1.46 augustss } 722 1.62 mycroft 723 1.62 mycroft return 0; 724 1.62 mycroft } 725 1.62 mycroft 726 1.62 mycroft /* 727 1.62 mycroft * 4. Determine if we can change bit 5 in mixer register 0x64. 728 1.62 mycroft * This determines whether we have an ES1887: 729 1.62 mycroft * 730 1.62 mycroft * - can change indicates ES1887 731 1.62 mycroft * - can't change indicates ES1888 or ES888 732 1.62 mycroft */ 733 1.62 mycroft reg1 = ess_read_mix_reg(sc, ESS_MREG_VOLUME_CTRL); 734 1.62 mycroft reg2 = reg1 ^ 0x20; /* toggle bit 5 */ 735 1.66 kent 736 1.62 mycroft ess_write_mix_reg(sc, ESS_MREG_VOLUME_CTRL, reg2); 737 1.66 kent 738 1.62 mycroft if (ess_read_mix_reg(sc, ESS_MREG_VOLUME_CTRL) == reg2) { 739 1.62 mycroft sc->sc_model = ESS_1887; 740 1.1 augustss 741 1.62 mycroft /* 742 1.62 mycroft * Restore the original value of mixer register 0x64. 743 1.62 mycroft */ 744 1.62 mycroft ess_write_mix_reg(sc, ESS_MREG_VOLUME_CTRL, reg1); 745 1.46 augustss 746 1.62 mycroft /* 747 1.62 mycroft * Identify ESS model for ES18[67]9. 748 1.62 mycroft */ 749 1.62 mycroft ess_read_multi_mix_reg(sc, 0x40, ident, sizeof(ident)); 750 1.62 mycroft if(ident[0] == 0x18) { 751 1.62 mycroft switch(ident[1]) { 752 1.62 mycroft case 0x69: 753 1.62 mycroft sc->sc_model = ESS_1869; 754 1.62 mycroft break; 755 1.62 mycroft case 0x79: 756 1.62 mycroft sc->sc_model = ESS_1879; 757 1.62 mycroft break; 758 1.46 augustss } 759 1.62 mycroft } 760 1.62 mycroft 761 1.62 mycroft return 0; 762 1.62 mycroft } 763 1.62 mycroft 764 1.62 mycroft /* 765 1.62 mycroft * 5. Determine if we can change the value of mixer 766 1.62 mycroft * register 0x69 independently of mixer register 767 1.62 mycroft * 0x68. This determines which chip we have: 768 1.62 mycroft * 769 1.62 mycroft * - can modify idependently indicates ES888 770 1.62 mycroft * - register 0x69 is an alias of 0x68 indicates ES1888 771 1.62 mycroft */ 772 1.62 mycroft reg1 = ess_read_mix_reg(sc, 0x68); 773 1.62 mycroft reg2 = ess_read_mix_reg(sc, 0x69); 774 1.62 mycroft reg3 = reg2 ^ 0xff; /* toggle all bits */ 775 1.33 nathanw 776 1.62 mycroft /* 777 1.62 mycroft * Write different values to each register. 778 1.62 mycroft */ 779 1.62 mycroft ess_write_mix_reg(sc, 0x68, reg2); 780 1.62 mycroft ess_write_mix_reg(sc, 0x69, reg3); 781 1.33 nathanw 782 1.62 mycroft if (ess_read_mix_reg(sc, 0x68) == reg2 && 783 1.62 mycroft ess_read_mix_reg(sc, 0x69) == reg3) 784 1.62 mycroft sc->sc_model = ESS_888; 785 1.62 mycroft else 786 1.62 mycroft sc->sc_model = ESS_1888; 787 1.66 kent 788 1.62 mycroft /* 789 1.62 mycroft * Restore the original value of the registers. 790 1.62 mycroft */ 791 1.62 mycroft ess_write_mix_reg(sc, 0x68, reg1); 792 1.62 mycroft ess_write_mix_reg(sc, 0x69, reg2); 793 1.1 augustss 794 1.1 augustss return 0; 795 1.1 augustss } 796 1.1 augustss 797 1.1 augustss 798 1.1 augustss int 799 1.73 christos ess_setup_sc(struct ess_softc *sc, int doinit) 800 1.1 augustss { 801 1.51 thorpej 802 1.1 augustss /* Reset the chip. */ 803 1.4 augustss if (ess_reset(sc) != 0) { 804 1.4 augustss DPRINTF(("ess_setup_sc: couldn't reset chip\n")); 805 1.66 kent return 1; 806 1.1 augustss } 807 1.1 augustss 808 1.1 augustss /* Identify the ESS chip, and check that it is supported. */ 809 1.1 augustss if (ess_identify(sc)) { 810 1.1 augustss DPRINTF(("ess_setup_sc: couldn't identify\n")); 811 1.66 kent return 1; 812 1.1 augustss } 813 1.1 augustss 814 1.66 kent return 0; 815 1.1 augustss } 816 1.1 augustss 817 1.1 augustss /* 818 1.1 augustss * Probe for the ESS hardware. 819 1.1 augustss */ 820 1.1 augustss int 821 1.66 kent essmatch(struct ess_softc *sc) 822 1.1 augustss { 823 1.2 augustss if (!ESS_BASE_VALID(sc->sc_iobase)) { 824 1.2 augustss printf("ess: configured iobase 0x%x invalid\n", sc->sc_iobase); 825 1.66 kent return 0; 826 1.1 augustss } 827 1.4 augustss 828 1.66 kent if (ess_setup_sc(sc, 1)) 829 1.66 kent return 0; 830 1.1 augustss 831 1.1 augustss if (sc->sc_model == ESS_UNSUPPORTED) { 832 1.1 augustss DPRINTF(("ess: Unsupported model\n")); 833 1.66 kent return 0; 834 1.1 augustss } 835 1.1 augustss 836 1.1 augustss /* Check that requested DMA channels are valid and different. */ 837 1.34 mycroft if (!ESS_DRQ1_VALID(sc->sc_audio1.drq)) { 838 1.34 mycroft printf("ess: record drq %d invalid\n", sc->sc_audio1.drq); 839 1.66 kent return 0; 840 1.1 augustss } 841 1.40 mycroft if (!isa_drq_isfree(sc->sc_ic, sc->sc_audio1.drq)) 842 1.66 kent return 0; 843 1.46 augustss if (!ESS_USE_AUDIO1(sc->sc_model)) { 844 1.44 mycroft if (!ESS_DRQ2_VALID(sc->sc_audio2.drq)) { 845 1.34 mycroft printf("ess: play drq %d invalid\n", sc->sc_audio2.drq); 846 1.66 kent return 0; 847 1.33 nathanw } 848 1.34 mycroft if (sc->sc_audio1.drq == sc->sc_audio2.drq) { 849 1.34 mycroft printf("ess: play and record drq both %d\n", 850 1.34 mycroft sc->sc_audio1.drq); 851 1.66 kent return 0; 852 1.33 nathanw } 853 1.40 mycroft if (!isa_drq_isfree(sc->sc_ic, sc->sc_audio2.drq)) 854 1.66 kent return 0; 855 1.34 mycroft } 856 1.66 kent 857 1.66 kent /* 858 1.34 mycroft * The 1887 has an additional IRQ mode where both channels are mapped 859 1.34 mycroft * to the same IRQ. 860 1.34 mycroft */ 861 1.34 mycroft if (sc->sc_model == ESS_1887 && 862 1.34 mycroft sc->sc_audio1.irq == sc->sc_audio2.irq && 863 1.42 mycroft sc->sc_audio1.irq != -1 && 864 1.34 mycroft ESS_IRQ12_VALID(sc->sc_audio1.irq)) 865 1.34 mycroft goto irq_not1888; 866 1.34 mycroft 867 1.34 mycroft /* Check that requested IRQ lines are valid and different. */ 868 1.42 mycroft if (sc->sc_audio1.irq != -1 && 869 1.42 mycroft !ESS_IRQ1_VALID(sc->sc_audio1.irq)) { 870 1.34 mycroft printf("ess: record irq %d invalid\n", sc->sc_audio1.irq); 871 1.66 kent return 0; 872 1.33 nathanw } 873 1.46 augustss if (!ESS_USE_AUDIO1(sc->sc_model)) { 874 1.42 mycroft if (sc->sc_audio2.irq != -1 && 875 1.42 mycroft !ESS_IRQ2_VALID(sc->sc_audio2.irq)) { 876 1.34 mycroft printf("ess: play irq %d invalid\n", sc->sc_audio2.irq); 877 1.66 kent return 0; 878 1.33 nathanw } 879 1.42 mycroft if (sc->sc_audio1.irq == sc->sc_audio2.irq && 880 1.42 mycroft sc->sc_audio1.irq != -1) { 881 1.34 mycroft printf("ess: play and record irq both %d\n", 882 1.34 mycroft sc->sc_audio1.irq); 883 1.66 kent return 0; 884 1.4 augustss } 885 1.4 augustss } 886 1.1 augustss 887 1.34 mycroft irq_not1888: 888 1.1 augustss /* XXX should we check IRQs as well? */ 889 1.1 augustss 890 1.66 kent return 2; /* beat "sb" */ 891 1.1 augustss } 892 1.1 augustss 893 1.1 augustss 894 1.1 augustss /* 895 1.1 augustss * Attach hardware to driver, attach hardware driver to audio 896 1.4 augustss * pseudo-device driver. 897 1.1 augustss */ 898 1.1 augustss void 899 1.73 christos essattach(struct ess_softc *sc, int enablejoy) 900 1.1 augustss { 901 1.24 augustss struct audio_attach_args arg; 902 1.34 mycroft int i; 903 1.34 mycroft u_int v; 904 1.1 augustss 905 1.2 augustss if (ess_setup_sc(sc, 0)) { 906 1.83 msaitoh aprint_error(": setup failed\n"); 907 1.1 augustss return; 908 1.1 augustss } 909 1.1 augustss 910 1.81 nakayama aprint_normal("ESS Technology ES%s [version 0x%04x]\n", 911 1.66 kent essmodel[sc->sc_model], sc->sc_version); 912 1.43 mycroft 913 1.79 jmcneill callout_init(&sc->sc_poll1_ch, CALLOUT_MPSAFE); 914 1.79 jmcneill callout_init(&sc->sc_poll2_ch, CALLOUT_MPSAFE); 915 1.79 jmcneill mutex_init(&sc->sc_lock, MUTEX_DEFAULT, IPL_NONE); 916 1.80 mrg mutex_init(&sc->sc_intr_lock, MUTEX_DEFAULT, IPL_AUDIO); 917 1.79 jmcneill 918 1.42 mycroft sc->sc_audio1.polled = sc->sc_audio1.irq == -1; 919 1.42 mycroft if (!sc->sc_audio1.polled) { 920 1.42 mycroft sc->sc_audio1.ih = isa_intr_establish(sc->sc_ic, 921 1.80 mrg sc->sc_audio1.irq, sc->sc_audio1.ist, IPL_AUDIO, 922 1.42 mycroft ess_audio1_intr, sc); 923 1.78 tsutsui aprint_normal_dev(sc->sc_dev, 924 1.77 cegger "audio1 interrupting at irq %d\n", sc->sc_audio1.irq); 925 1.42 mycroft } else 926 1.78 tsutsui aprint_normal_dev(sc->sc_dev, "audio1 polled\n"); 927 1.50 thorpej sc->sc_audio1.maxsize = isa_dmamaxsize(sc->sc_ic, sc->sc_audio1.drq); 928 1.58 fvdl 929 1.58 fvdl if (isa_drq_alloc(sc->sc_ic, sc->sc_audio1.drq) != 0) { 930 1.78 tsutsui aprint_error_dev(sc->sc_dev, "can't reserve drq %d\n", 931 1.76 cegger sc->sc_audio1.drq); 932 1.79 jmcneill goto fail; 933 1.58 fvdl } 934 1.58 fvdl 935 1.34 mycroft if (isa_dmamap_create(sc->sc_ic, sc->sc_audio1.drq, 936 1.50 thorpej sc->sc_audio1.maxsize, BUS_DMA_NOWAIT|BUS_DMA_ALLOCNOW)) { 937 1.78 tsutsui aprint_error_dev(sc->sc_dev, "can't create map for drq %d\n", 938 1.76 cegger sc->sc_audio1.drq); 939 1.79 jmcneill goto fail; 940 1.1 augustss } 941 1.33 nathanw 942 1.46 augustss if (!ESS_USE_AUDIO1(sc->sc_model)) { 943 1.42 mycroft sc->sc_audio2.polled = sc->sc_audio2.irq == -1; 944 1.42 mycroft if (!sc->sc_audio2.polled) { 945 1.42 mycroft sc->sc_audio2.ih = isa_intr_establish(sc->sc_ic, 946 1.80 mrg sc->sc_audio2.irq, sc->sc_audio2.ist, IPL_AUDIO, 947 1.42 mycroft ess_audio2_intr, sc); 948 1.78 tsutsui aprint_normal_dev(sc->sc_dev, 949 1.77 cegger "audio2 interrupting at irq %d\n", 950 1.77 cegger sc->sc_audio2.irq); 951 1.42 mycroft } else 952 1.78 tsutsui aprint_normal_dev(sc->sc_dev, "audio2 polled\n"); 953 1.50 thorpej sc->sc_audio2.maxsize = isa_dmamaxsize(sc->sc_ic, 954 1.50 thorpej sc->sc_audio2.drq); 955 1.58 fvdl 956 1.58 fvdl if (isa_drq_alloc(sc->sc_ic, sc->sc_audio2.drq) != 0) { 957 1.78 tsutsui aprint_error_dev(sc->sc_dev, "can't reserve drq %d\n", 958 1.76 cegger sc->sc_audio2.drq); 959 1.79 jmcneill goto fail; 960 1.58 fvdl } 961 1.66 kent 962 1.34 mycroft if (isa_dmamap_create(sc->sc_ic, sc->sc_audio2.drq, 963 1.50 thorpej sc->sc_audio2.maxsize, BUS_DMA_NOWAIT|BUS_DMA_ALLOCNOW)) { 964 1.83 msaitoh aprint_error_dev(sc->sc_dev, 965 1.83 msaitoh "can't create map for drq %d\n", 966 1.76 cegger sc->sc_audio2.drq); 967 1.79 jmcneill goto fail; 968 1.33 nathanw } 969 1.1 augustss } 970 1.1 augustss 971 1.1 augustss /* Do a hardware reset on the mixer. */ 972 1.1 augustss ess_write_mix_reg(sc, ESS_MIX_RESET, ESS_MIX_RESET); 973 1.1 augustss 974 1.34 mycroft /* 975 1.34 mycroft * Set volume of Audio 1 to zero and disable Audio 1 DAC input 976 1.34 mycroft * to playback mixer, since playback is always through Audio 2. 977 1.34 mycroft */ 978 1.46 augustss if (!ESS_USE_AUDIO1(sc->sc_model)) 979 1.34 mycroft ess_write_mix_reg(sc, ESS_MREG_VOLUME_VOICE, 0); 980 1.34 mycroft ess_wdsp(sc, ESS_ACMD_DISABLE_SPKR); 981 1.1 augustss 982 1.46 augustss if (ESS_USE_AUDIO1(sc->sc_model)) { 983 1.34 mycroft ess_write_mix_reg(sc, ESS_MREG_ADC_SOURCE, ESS_SOURCE_MIC); 984 1.34 mycroft sc->in_port = ESS_SOURCE_MIC; 985 1.82 nakayama if (ESS_IS_ES18X9(sc->sc_model)) { 986 1.82 nakayama sc->ndevs = ESS_18X9_NDEVS; 987 1.82 nakayama sc->sc_spatializer = 0; 988 1.82 nakayama ess_set_mreg_bits(sc, ESS_MREG_MODE, 989 1.82 nakayama ESS_MODE_ASYNC_MODE | ESS_MODE_NEWREG); 990 1.82 nakayama ess_set_mreg_bits(sc, ESS_MREG_SPATIAL_CTRL, 991 1.82 nakayama ESS_SPATIAL_CTRL_RESET); 992 1.82 nakayama ess_clear_mreg_bits(sc, ESS_MREG_SPATIAL_CTRL, 993 1.82 nakayama ESS_SPATIAL_CTRL_ENABLE | ESS_SPATIAL_CTRL_MONO); 994 1.82 nakayama } else 995 1.82 nakayama sc->ndevs = ESS_1788_NDEVS; 996 1.33 nathanw } else { 997 1.33 nathanw /* 998 1.33 nathanw * Set hardware record source to use output of the record 999 1.33 nathanw * mixer. We do the selection of record source in software by 1000 1.33 nathanw * setting the gain of the unused sources to zero. (See 1001 1.33 nathanw * ess_set_in_ports.) 1002 1.33 nathanw */ 1003 1.33 nathanw ess_write_mix_reg(sc, ESS_MREG_ADC_SOURCE, ESS_SOURCE_MIXER); 1004 1.34 mycroft sc->in_mask = 1 << ESS_MIC_REC_VOL; 1005 1.34 mycroft sc->ndevs = ESS_1888_NDEVS; 1006 1.34 mycroft ess_clear_mreg_bits(sc, ESS_MREG_AUDIO2_CTRL2, 0x10); 1007 1.34 mycroft ess_set_mreg_bits(sc, ESS_MREG_AUDIO2_CTRL2, 0x08); 1008 1.33 nathanw } 1009 1.1 augustss 1010 1.1 augustss /* 1011 1.1 augustss * Set gain on each mixer device to a sensible value. 1012 1.1 augustss * Devices not normally used are turned off, and other devices 1013 1.25 augustss * are set to 50% volume. 1014 1.1 augustss */ 1015 1.33 nathanw for (i = 0; i < sc->ndevs; i++) { 1016 1.82 nakayama if (ESS_IS_ES18X9(sc->sc_model)) { 1017 1.82 nakayama switch (i) { 1018 1.82 nakayama case ESS_SPATIALIZER: 1019 1.82 nakayama case ESS_SPATIALIZER_ENABLE: 1020 1.82 nakayama v = 0; 1021 1.82 nakayama goto skip; 1022 1.82 nakayama } 1023 1.82 nakayama } 1024 1.34 mycroft switch (i) { 1025 1.1 augustss case ESS_MIC_PLAY_VOL: 1026 1.1 augustss case ESS_LINE_PLAY_VOL: 1027 1.1 augustss case ESS_CD_PLAY_VOL: 1028 1.1 augustss case ESS_AUXB_PLAY_VOL: 1029 1.1 augustss case ESS_DAC_REC_VOL: 1030 1.1 augustss case ESS_LINE_REC_VOL: 1031 1.1 augustss case ESS_SYNTH_REC_VOL: 1032 1.1 augustss case ESS_CD_REC_VOL: 1033 1.1 augustss case ESS_AUXB_REC_VOL: 1034 1.1 augustss v = 0; 1035 1.1 augustss break; 1036 1.1 augustss default: 1037 1.25 augustss v = ESS_4BIT_GAIN(AUDIO_MAX_GAIN / 2); 1038 1.1 augustss break; 1039 1.1 augustss } 1040 1.82 nakayama skip: 1041 1.1 augustss sc->gain[i][ESS_LEFT] = sc->gain[i][ESS_RIGHT] = v; 1042 1.1 augustss ess_set_gain(sc, i, 1); 1043 1.1 augustss } 1044 1.1 augustss 1045 1.4 augustss ess_setup(sc); 1046 1.2 augustss 1047 1.1 augustss /* Disable the speaker until the device is opened. */ 1048 1.1 augustss ess_speaker_off(sc); 1049 1.1 augustss sc->spkr_state = SPKR_OFF; 1050 1.1 augustss 1051 1.59 itojun snprintf(ess_device.name, sizeof(ess_device.name), "ES%s", 1052 1.59 itojun essmodel[sc->sc_model]); 1053 1.59 itojun snprintf(ess_device.version, sizeof(ess_device.version), "0x%04x", 1054 1.59 itojun sc->sc_version); 1055 1.1 augustss 1056 1.46 augustss if (ESS_USE_AUDIO1(sc->sc_model)) 1057 1.78 tsutsui audio_attach_mi(&ess_1788_hw_if, sc, sc->sc_dev); 1058 1.33 nathanw else 1059 1.78 tsutsui audio_attach_mi(&ess_1888_hw_if, sc, sc->sc_dev); 1060 1.24 augustss 1061 1.24 augustss arg.type = AUDIODEV_TYPE_OPL; 1062 1.24 augustss arg.hwif = 0; 1063 1.24 augustss arg.hdl = 0; 1064 1.78 tsutsui (void)config_found(sc->sc_dev, &arg, audioprint); 1065 1.2 augustss 1066 1.61 drochner #if NJOY_ESS > 0 1067 1.61 drochner if (sc->sc_model == ESS_1888 && enablejoy) { 1068 1.61 drochner unsigned char m40; 1069 1.61 drochner 1070 1.61 drochner m40 = ess_read_mix_reg(sc, 0x40); 1071 1.61 drochner m40 |= 2; 1072 1.61 drochner ess_write_mix_reg(sc, 0x40, m40); 1073 1.61 drochner 1074 1.61 drochner arg.type = AUDIODEV_TYPE_AUX; 1075 1.78 tsutsui (void)config_found(sc->sc_dev, &arg, audioprint); 1076 1.61 drochner } 1077 1.61 drochner #endif 1078 1.61 drochner 1079 1.2 augustss #ifdef AUDIO_DEBUG 1080 1.26 augustss if (essdebug > 0) 1081 1.26 augustss ess_printsc(sc); 1082 1.2 augustss #endif 1083 1.79 jmcneill 1084 1.79 jmcneill return; 1085 1.79 jmcneill 1086 1.79 jmcneill fail: 1087 1.79 jmcneill callout_destroy(&sc->sc_poll1_ch); 1088 1.79 jmcneill callout_destroy(&sc->sc_poll2_ch); 1089 1.79 jmcneill mutex_destroy(&sc->sc_lock); 1090 1.79 jmcneill mutex_destroy(&sc->sc_intr_lock); 1091 1.1 augustss } 1092 1.1 augustss 1093 1.1 augustss /* 1094 1.1 augustss * Various routines to interface to higher level audio driver 1095 1.1 augustss */ 1096 1.1 augustss 1097 1.1 augustss int 1098 1.73 christos ess_open(void *addr, int flags) 1099 1.1 augustss { 1100 1.79 jmcneill 1101 1.66 kent return 0; 1102 1.1 augustss } 1103 1.1 augustss 1104 1.1 augustss void 1105 1.66 kent ess_close(void *addr) 1106 1.1 augustss { 1107 1.66 kent struct ess_softc *sc; 1108 1.1 augustss 1109 1.66 kent sc = addr; 1110 1.60 mycroft DPRINTF(("ess_close: sc=%p\n", sc)); 1111 1.1 augustss 1112 1.1 augustss ess_speaker_off(sc); 1113 1.1 augustss sc->spkr_state = SPKR_OFF; 1114 1.34 mycroft 1115 1.60 mycroft DPRINTF(("ess_close: closed\n")); 1116 1.1 augustss } 1117 1.1 augustss 1118 1.6 augustss /* 1119 1.6 augustss * Wait for FIFO to drain, and analog section to settle. 1120 1.33 nathanw * XXX should check FIFO empty bit. 1121 1.6 augustss */ 1122 1.6 augustss int 1123 1.66 kent ess_drain(void *addr) 1124 1.6 augustss { 1125 1.79 jmcneill struct ess_softc *sc; 1126 1.79 jmcneill 1127 1.79 jmcneill sc = addr; 1128 1.79 jmcneill mutex_exit(&sc->sc_lock); 1129 1.79 jmcneill kpause("essdr", FALSE, hz/20, &sc->sc_intr_lock); /* XXX */ 1130 1.79 jmcneill if (!mutex_tryenter(&sc->sc_lock)) { 1131 1.79 jmcneill mutex_spin_exit(&sc->sc_intr_lock); 1132 1.79 jmcneill mutex_enter(&sc->sc_lock); 1133 1.79 jmcneill mutex_spin_enter(&sc->sc_intr_lock); 1134 1.79 jmcneill } 1135 1.66 kent 1136 1.66 kent return 0; 1137 1.6 augustss } 1138 1.6 augustss 1139 1.25 augustss /* XXX should use reference count */ 1140 1.1 augustss int 1141 1.66 kent ess_speaker_ctl(void *addr, int newstate) 1142 1.4 augustss { 1143 1.66 kent struct ess_softc *sc; 1144 1.4 augustss 1145 1.66 kent sc = addr; 1146 1.4 augustss if ((newstate == SPKR_ON) && (sc->spkr_state == SPKR_OFF)) { 1147 1.4 augustss ess_speaker_on(sc); 1148 1.4 augustss sc->spkr_state = SPKR_ON; 1149 1.4 augustss } 1150 1.4 augustss if ((newstate == SPKR_OFF) && (sc->spkr_state == SPKR_ON)) { 1151 1.4 augustss ess_speaker_off(sc); 1152 1.4 augustss sc->spkr_state = SPKR_OFF; 1153 1.4 augustss } 1154 1.66 kent return 0; 1155 1.4 augustss } 1156 1.4 augustss 1157 1.4 augustss int 1158 1.73 christos ess_getdev(void *addr, struct audio_device *retp) 1159 1.1 augustss { 1160 1.66 kent 1161 1.1 augustss *retp = ess_device; 1162 1.66 kent return 0; 1163 1.1 augustss } 1164 1.1 augustss 1165 1.1 augustss int 1166 1.73 christos ess_query_encoding(void *addr, struct audio_encoding *fp) 1167 1.1 augustss { 1168 1.1 augustss /*struct ess_softc *sc = addr;*/ 1169 1.1 augustss 1170 1.1 augustss switch (fp->index) { 1171 1.1 augustss case 0: 1172 1.1 augustss strcpy(fp->name, AudioEulinear); 1173 1.1 augustss fp->encoding = AUDIO_ENCODING_ULINEAR; 1174 1.1 augustss fp->precision = 8; 1175 1.1 augustss fp->flags = 0; 1176 1.66 kent return 0; 1177 1.1 augustss case 1: 1178 1.1 augustss strcpy(fp->name, AudioEmulaw); 1179 1.1 augustss fp->encoding = AUDIO_ENCODING_ULAW; 1180 1.1 augustss fp->precision = 8; 1181 1.1 augustss fp->flags = AUDIO_ENCODINGFLAG_EMULATED; 1182 1.66 kent return 0; 1183 1.1 augustss case 2: 1184 1.1 augustss strcpy(fp->name, AudioEalaw); 1185 1.4 augustss fp->encoding = AUDIO_ENCODING_ALAW; 1186 1.1 augustss fp->precision = 8; 1187 1.1 augustss fp->flags = AUDIO_ENCODINGFLAG_EMULATED; 1188 1.66 kent return 0; 1189 1.1 augustss case 3: 1190 1.4 augustss strcpy(fp->name, AudioEslinear); 1191 1.4 augustss fp->encoding = AUDIO_ENCODING_SLINEAR; 1192 1.1 augustss fp->precision = 8; 1193 1.1 augustss fp->flags = 0; 1194 1.66 kent return 0; 1195 1.33 nathanw case 4: 1196 1.1 augustss strcpy(fp->name, AudioEslinear_le); 1197 1.1 augustss fp->encoding = AUDIO_ENCODING_SLINEAR_LE; 1198 1.1 augustss fp->precision = 16; 1199 1.1 augustss fp->flags = 0; 1200 1.66 kent return 0; 1201 1.1 augustss case 5: 1202 1.1 augustss strcpy(fp->name, AudioEulinear_le); 1203 1.1 augustss fp->encoding = AUDIO_ENCODING_ULINEAR_LE; 1204 1.1 augustss fp->precision = 16; 1205 1.1 augustss fp->flags = 0; 1206 1.66 kent return 0; 1207 1.1 augustss case 6: 1208 1.1 augustss strcpy(fp->name, AudioEslinear_be); 1209 1.1 augustss fp->encoding = AUDIO_ENCODING_SLINEAR_BE; 1210 1.1 augustss fp->precision = 16; 1211 1.1 augustss fp->flags = AUDIO_ENCODINGFLAG_EMULATED; 1212 1.66 kent return 0; 1213 1.1 augustss case 7: 1214 1.1 augustss strcpy(fp->name, AudioEulinear_be); 1215 1.1 augustss fp->encoding = AUDIO_ENCODING_ULINEAR_BE; 1216 1.1 augustss fp->precision = 16; 1217 1.1 augustss fp->flags = AUDIO_ENCODINGFLAG_EMULATED; 1218 1.66 kent return 0; 1219 1.1 augustss default: 1220 1.1 augustss return EINVAL; 1221 1.1 augustss } 1222 1.66 kent return 0; 1223 1.1 augustss } 1224 1.1 augustss 1225 1.1 augustss int 1226 1.66 kent ess_set_params( 1227 1.66 kent void *addr, 1228 1.66 kent int setmode, int usemode, 1229 1.66 kent audio_params_t *play, audio_params_t *rec, 1230 1.66 kent stream_filter_list_t *pfil, stream_filter_list_t *rfil) 1231 1.1 augustss { 1232 1.66 kent struct ess_softc *sc; 1233 1.19 mycroft int rate; 1234 1.1 augustss 1235 1.4 augustss DPRINTF(("ess_set_params: set=%d use=%d\n", setmode, usemode)); 1236 1.66 kent sc = addr; 1237 1.15 mycroft /* 1238 1.15 mycroft * The ES1887 manual (page 39, `Full-Duplex DMA Mode') claims that in 1239 1.15 mycroft * full-duplex operation the sample rates must be the same for both 1240 1.16 mycroft * channels. This appears to be false; the only bit in common is the 1241 1.16 mycroft * clock source selection. However, we'll be conservative here. 1242 1.16 mycroft * - mycroft 1243 1.15 mycroft */ 1244 1.19 mycroft if (play->sample_rate != rec->sample_rate && 1245 1.19 mycroft usemode == (AUMODE_PLAY | AUMODE_RECORD)) { 1246 1.19 mycroft if (setmode == AUMODE_PLAY) { 1247 1.13 mycroft rec->sample_rate = play->sample_rate; 1248 1.13 mycroft setmode |= AUMODE_RECORD; 1249 1.19 mycroft } else if (setmode == AUMODE_RECORD) { 1250 1.13 mycroft play->sample_rate = rec->sample_rate; 1251 1.13 mycroft setmode |= AUMODE_PLAY; 1252 1.13 mycroft } else 1253 1.66 kent return EINVAL; 1254 1.13 mycroft } 1255 1.13 mycroft 1256 1.65 kent if (setmode & AUMODE_RECORD) { 1257 1.65 kent if (auconv_set_converter(ess_formats, ESS_NFORMATS, 1258 1.65 kent AUMODE_RECORD, rec, FALSE, rfil) < 0) 1259 1.65 kent return EINVAL; 1260 1.65 kent } 1261 1.65 kent if (setmode & AUMODE_PLAY) { 1262 1.65 kent if (auconv_set_converter(ess_formats, ESS_NFORMATS, 1263 1.65 kent AUMODE_PLAY, play, FALSE, pfil) < 0) 1264 1.65 kent return EINVAL; 1265 1.19 mycroft } 1266 1.17 mycroft 1267 1.19 mycroft if (usemode == AUMODE_RECORD) 1268 1.19 mycroft rate = rec->sample_rate; 1269 1.19 mycroft else 1270 1.19 mycroft rate = play->sample_rate; 1271 1.19 mycroft 1272 1.82 nakayama ess_write_x_reg(sc, ESS_XCMD_SAMPLE_RATE, ess_srtotc(sc, rate)); 1273 1.34 mycroft ess_write_x_reg(sc, ESS_XCMD_FILTER_CLOCK, ess_srtofc(rate)); 1274 1.34 mycroft 1275 1.46 augustss if (!ESS_USE_AUDIO1(sc->sc_model)) { 1276 1.82 nakayama ess_write_mix_reg(sc, ESS_MREG_SAMPLE_RATE, 1277 1.82 nakayama ess_srtotc(sc, rate)); 1278 1.33 nathanw ess_write_mix_reg(sc, ESS_MREG_FILTER_CLOCK, ess_srtofc(rate)); 1279 1.33 nathanw } 1280 1.1 augustss 1281 1.66 kent return 0; 1282 1.1 augustss } 1283 1.1 augustss 1284 1.1 augustss int 1285 1.66 kent ess_audio1_trigger_output( 1286 1.66 kent void *addr, 1287 1.66 kent void *start, void *end, 1288 1.66 kent int blksize, 1289 1.66 kent void (*intr)(void *), 1290 1.66 kent void *arg, 1291 1.66 kent const audio_params_t *param) 1292 1.33 nathanw { 1293 1.66 kent struct ess_softc *sc; 1294 1.39 mycroft u_int8_t reg; 1295 1.33 nathanw 1296 1.66 kent sc = addr; 1297 1.66 kent DPRINTFN(1, ("ess_audio1_trigger_output: sc=%p start=%p end=%p " 1298 1.66 kent "blksize=%d intr=%p(%p)\n", addr, start, end, blksize, intr, arg)); 1299 1.33 nathanw 1300 1.34 mycroft if (sc->sc_audio1.active) 1301 1.36 mycroft panic("ess_audio1_trigger_output: already running"); 1302 1.39 mycroft 1303 1.34 mycroft sc->sc_audio1.active = 1; 1304 1.34 mycroft sc->sc_audio1.intr = intr; 1305 1.34 mycroft sc->sc_audio1.arg = arg; 1306 1.42 mycroft if (sc->sc_audio1.polled) { 1307 1.43 mycroft sc->sc_audio1.dmapos = 0; 1308 1.43 mycroft sc->sc_audio1.buffersize = (char *)end - (char *)start; 1309 1.42 mycroft sc->sc_audio1.dmacount = 0; 1310 1.42 mycroft sc->sc_audio1.blksize = blksize; 1311 1.51 thorpej callout_reset(&sc->sc_poll1_ch, hz / 30, 1312 1.51 thorpej ess_audio1_poll, sc); 1313 1.42 mycroft } 1314 1.33 nathanw 1315 1.39 mycroft reg = ess_read_x_reg(sc, ESS_XCMD_AUDIO_CTRL); 1316 1.34 mycroft if (param->channels == 2) { 1317 1.39 mycroft reg &= ~ESS_AUDIO_CTRL_MONO; 1318 1.39 mycroft reg |= ESS_AUDIO_CTRL_STEREO; 1319 1.33 nathanw } else { 1320 1.39 mycroft reg |= ESS_AUDIO_CTRL_MONO; 1321 1.39 mycroft reg &= ~ESS_AUDIO_CTRL_STEREO; 1322 1.33 nathanw } 1323 1.39 mycroft ess_write_x_reg(sc, ESS_XCMD_AUDIO_CTRL, reg); 1324 1.33 nathanw 1325 1.39 mycroft reg = ess_read_x_reg(sc, ESS_XCMD_AUDIO1_CTRL1); 1326 1.65 kent if (param->precision == 16) 1327 1.39 mycroft reg |= ESS_AUDIO1_CTRL1_FIFO_SIZE; 1328 1.39 mycroft else 1329 1.39 mycroft reg &= ~ESS_AUDIO1_CTRL1_FIFO_SIZE; 1330 1.39 mycroft if (param->channels == 2) 1331 1.39 mycroft reg |= ESS_AUDIO1_CTRL1_FIFO_STEREO; 1332 1.39 mycroft else 1333 1.39 mycroft reg &= ~ESS_AUDIO1_CTRL1_FIFO_STEREO; 1334 1.34 mycroft if (param->encoding == AUDIO_ENCODING_SLINEAR_BE || 1335 1.34 mycroft param->encoding == AUDIO_ENCODING_SLINEAR_LE) 1336 1.39 mycroft reg |= ESS_AUDIO1_CTRL1_FIFO_SIGNED; 1337 1.34 mycroft else 1338 1.39 mycroft reg &= ~ESS_AUDIO1_CTRL1_FIFO_SIGNED; 1339 1.39 mycroft reg |= ESS_AUDIO1_CTRL1_FIFO_CONNECT; 1340 1.39 mycroft ess_write_x_reg(sc, ESS_XCMD_AUDIO1_CTRL1, reg); 1341 1.33 nathanw 1342 1.66 kent isa_dmastart(sc->sc_ic, sc->sc_audio1.drq, start, 1343 1.34 mycroft (char *)end - (char *)start, NULL, 1344 1.34 mycroft DMAMODE_WRITE | DMAMODE_LOOPDEMAND, BUS_DMA_NOWAIT); 1345 1.33 nathanw 1346 1.33 nathanw /* Program transfer count registers with 2's complement of count. */ 1347 1.33 nathanw blksize = -blksize; 1348 1.33 nathanw ess_write_x_reg(sc, ESS_XCMD_XFER_COUNTLO, blksize); 1349 1.33 nathanw ess_write_x_reg(sc, ESS_XCMD_XFER_COUNTHI, blksize >> 8); 1350 1.33 nathanw 1351 1.38 mycroft /* Use 4 bytes per output DMA. */ 1352 1.39 mycroft ess_set_xreg_bits(sc, ESS_XCMD_DEMAND_CTRL, ESS_DEMAND_CTRL_DEMAND_4); 1353 1.33 nathanw 1354 1.33 nathanw /* Start auto-init DMA */ 1355 1.65 kent ess_wdsp(sc, ESS_ACMD_ENABLE_SPKR); 1356 1.39 mycroft reg = ess_read_x_reg(sc, ESS_XCMD_AUDIO1_CTRL2); 1357 1.39 mycroft reg &= ~(ESS_AUDIO1_CTRL2_DMA_READ | ESS_AUDIO1_CTRL2_ADC_ENABLE); 1358 1.39 mycroft reg |= ESS_AUDIO1_CTRL2_FIFO_ENABLE | ESS_AUDIO1_CTRL2_AUTO_INIT; 1359 1.39 mycroft ess_write_x_reg(sc, ESS_XCMD_AUDIO1_CTRL2, reg); 1360 1.33 nathanw 1361 1.66 kent return 0; 1362 1.33 nathanw } 1363 1.33 nathanw 1364 1.33 nathanw int 1365 1.66 kent ess_audio2_trigger_output( 1366 1.66 kent void *addr, 1367 1.66 kent void *start, void *end, 1368 1.66 kent int blksize, 1369 1.66 kent void (*intr)(void *), 1370 1.66 kent void *arg, 1371 1.66 kent const audio_params_t *param) 1372 1.1 augustss { 1373 1.66 kent struct ess_softc *sc; 1374 1.39 mycroft u_int8_t reg; 1375 1.1 augustss 1376 1.66 kent sc = addr; 1377 1.66 kent DPRINTFN(1, ("ess_audio2_trigger_output: sc=%p start=%p end=%p " 1378 1.66 kent "blksize=%d intr=%p(%p)\n", addr, start, end, blksize, intr, arg)); 1379 1.19 mycroft 1380 1.34 mycroft if (sc->sc_audio2.active) 1381 1.36 mycroft panic("ess_audio2_trigger_output: already running"); 1382 1.39 mycroft 1383 1.34 mycroft sc->sc_audio2.active = 1; 1384 1.34 mycroft sc->sc_audio2.intr = intr; 1385 1.34 mycroft sc->sc_audio2.arg = arg; 1386 1.42 mycroft if (sc->sc_audio2.polled) { 1387 1.43 mycroft sc->sc_audio2.dmapos = 0; 1388 1.43 mycroft sc->sc_audio2.buffersize = (char *)end - (char *)start; 1389 1.42 mycroft sc->sc_audio2.dmacount = 0; 1390 1.42 mycroft sc->sc_audio2.blksize = blksize; 1391 1.51 thorpej callout_reset(&sc->sc_poll2_ch, hz / 30, 1392 1.51 thorpej ess_audio2_poll, sc); 1393 1.42 mycroft } 1394 1.1 augustss 1395 1.39 mycroft reg = ess_read_mix_reg(sc, ESS_MREG_AUDIO2_CTRL2); 1396 1.65 kent if (param->precision == 16) 1397 1.39 mycroft reg |= ESS_AUDIO2_CTRL2_FIFO_SIZE; 1398 1.17 mycroft else 1399 1.39 mycroft reg &= ~ESS_AUDIO2_CTRL2_FIFO_SIZE; 1400 1.19 mycroft if (param->channels == 2) 1401 1.39 mycroft reg |= ESS_AUDIO2_CTRL2_CHANNELS; 1402 1.17 mycroft else 1403 1.39 mycroft reg &= ~ESS_AUDIO2_CTRL2_CHANNELS; 1404 1.19 mycroft if (param->encoding == AUDIO_ENCODING_SLINEAR_BE || 1405 1.34 mycroft param->encoding == AUDIO_ENCODING_SLINEAR_LE) 1406 1.39 mycroft reg |= ESS_AUDIO2_CTRL2_FIFO_SIGNED; 1407 1.17 mycroft else 1408 1.39 mycroft reg &= ~ESS_AUDIO2_CTRL2_FIFO_SIGNED; 1409 1.39 mycroft ess_write_mix_reg(sc, ESS_MREG_AUDIO2_CTRL2, reg); 1410 1.6 augustss 1411 1.65 kent isa_dmastart(sc->sc_ic, sc->sc_audio2.drq, start, 1412 1.34 mycroft (char *)end - (char *)start, NULL, 1413 1.34 mycroft DMAMODE_WRITE | DMAMODE_LOOPDEMAND, BUS_DMA_NOWAIT); 1414 1.1 augustss 1415 1.34 mycroft if (IS16BITDRQ(sc->sc_audio2.drq)) 1416 1.19 mycroft blksize >>= 1; /* use word count for 16 bit DMA */ 1417 1.6 augustss /* Program transfer count registers with 2's complement of count. */ 1418 1.19 mycroft blksize = -blksize; 1419 1.19 mycroft ess_write_mix_reg(sc, ESS_MREG_XFER_COUNTLO, blksize); 1420 1.19 mycroft ess_write_mix_reg(sc, ESS_MREG_XFER_COUNTHI, blksize >> 8); 1421 1.1 augustss 1422 1.39 mycroft reg = ess_read_mix_reg(sc, ESS_MREG_AUDIO2_CTRL1); 1423 1.34 mycroft if (IS16BITDRQ(sc->sc_audio2.drq)) 1424 1.39 mycroft reg |= ESS_AUDIO2_CTRL1_XFER_SIZE; 1425 1.18 mycroft else 1426 1.39 mycroft reg &= ~ESS_AUDIO2_CTRL1_XFER_SIZE; 1427 1.39 mycroft reg |= ESS_AUDIO2_CTRL1_DEMAND_8; 1428 1.39 mycroft reg |= ESS_AUDIO2_CTRL1_DAC_ENABLE | ESS_AUDIO2_CTRL1_FIFO_ENABLE | 1429 1.39 mycroft ESS_AUDIO2_CTRL1_AUTO_INIT; 1430 1.39 mycroft ess_write_mix_reg(sc, ESS_MREG_AUDIO2_CTRL1, reg); 1431 1.34 mycroft 1432 1.33 nathanw return (0); 1433 1.33 nathanw } 1434 1.33 nathanw 1435 1.33 nathanw int 1436 1.66 kent ess_audio1_trigger_input( 1437 1.66 kent void *addr, 1438 1.66 kent void *start, void *end, 1439 1.66 kent int blksize, 1440 1.66 kent void (*intr)(void *), 1441 1.66 kent void *arg, 1442 1.66 kent const audio_params_t *param) 1443 1.33 nathanw { 1444 1.66 kent struct ess_softc *sc; 1445 1.39 mycroft u_int8_t reg; 1446 1.33 nathanw 1447 1.66 kent sc = addr; 1448 1.65 kent DPRINTFN(1, ("ess_audio1_trigger_input: sc=%p start=%p end=%p " 1449 1.65 kent "blksize=%d intr=%p(%p)\n", addr, start, end, blksize, intr, arg)); 1450 1.33 nathanw 1451 1.34 mycroft if (sc->sc_audio1.active) 1452 1.36 mycroft panic("ess_audio1_trigger_input: already running"); 1453 1.39 mycroft 1454 1.34 mycroft sc->sc_audio1.active = 1; 1455 1.34 mycroft sc->sc_audio1.intr = intr; 1456 1.34 mycroft sc->sc_audio1.arg = arg; 1457 1.42 mycroft if (sc->sc_audio1.polled) { 1458 1.43 mycroft sc->sc_audio1.dmapos = 0; 1459 1.43 mycroft sc->sc_audio1.buffersize = (char *)end - (char *)start; 1460 1.42 mycroft sc->sc_audio1.dmacount = 0; 1461 1.42 mycroft sc->sc_audio1.blksize = blksize; 1462 1.51 thorpej callout_reset(&sc->sc_poll1_ch, hz / 30, 1463 1.51 thorpej ess_audio1_poll, sc); 1464 1.42 mycroft } 1465 1.19 mycroft 1466 1.39 mycroft reg = ess_read_x_reg(sc, ESS_XCMD_AUDIO_CTRL); 1467 1.19 mycroft if (param->channels == 2) { 1468 1.39 mycroft reg &= ~ESS_AUDIO_CTRL_MONO; 1469 1.39 mycroft reg |= ESS_AUDIO_CTRL_STEREO; 1470 1.17 mycroft } else { 1471 1.39 mycroft reg |= ESS_AUDIO_CTRL_MONO; 1472 1.39 mycroft reg &= ~ESS_AUDIO_CTRL_STEREO; 1473 1.17 mycroft } 1474 1.39 mycroft ess_write_x_reg(sc, ESS_XCMD_AUDIO_CTRL, reg); 1475 1.17 mycroft 1476 1.39 mycroft reg = ess_read_x_reg(sc, ESS_XCMD_AUDIO1_CTRL1); 1477 1.65 kent if (param->precision == 16) 1478 1.39 mycroft reg |= ESS_AUDIO1_CTRL1_FIFO_SIZE; 1479 1.39 mycroft else 1480 1.39 mycroft reg &= ~ESS_AUDIO1_CTRL1_FIFO_SIZE; 1481 1.39 mycroft if (param->channels == 2) 1482 1.39 mycroft reg |= ESS_AUDIO1_CTRL1_FIFO_STEREO; 1483 1.39 mycroft else 1484 1.39 mycroft reg &= ~ESS_AUDIO1_CTRL1_FIFO_STEREO; 1485 1.19 mycroft if (param->encoding == AUDIO_ENCODING_SLINEAR_BE || 1486 1.34 mycroft param->encoding == AUDIO_ENCODING_SLINEAR_LE) 1487 1.39 mycroft reg |= ESS_AUDIO1_CTRL1_FIFO_SIGNED; 1488 1.17 mycroft else 1489 1.39 mycroft reg &= ~ESS_AUDIO1_CTRL1_FIFO_SIGNED; 1490 1.39 mycroft reg |= ESS_AUDIO1_CTRL1_FIFO_CONNECT; 1491 1.39 mycroft ess_write_x_reg(sc, ESS_XCMD_AUDIO1_CTRL1, reg); 1492 1.17 mycroft 1493 1.65 kent isa_dmastart(sc->sc_ic, sc->sc_audio1.drq, start, 1494 1.34 mycroft (char *)end - (char *)start, NULL, 1495 1.34 mycroft DMAMODE_READ | DMAMODE_LOOPDEMAND, BUS_DMA_NOWAIT); 1496 1.11 mycroft 1497 1.10 mycroft /* Program transfer count registers with 2's complement of count. */ 1498 1.19 mycroft blksize = -blksize; 1499 1.19 mycroft ess_write_x_reg(sc, ESS_XCMD_XFER_COUNTLO, blksize); 1500 1.19 mycroft ess_write_x_reg(sc, ESS_XCMD_XFER_COUNTHI, blksize >> 8); 1501 1.1 augustss 1502 1.18 mycroft /* Use 4 bytes per input DMA. */ 1503 1.39 mycroft ess_set_xreg_bits(sc, ESS_XCMD_DEMAND_CTRL, ESS_DEMAND_CTRL_DEMAND_4); 1504 1.18 mycroft 1505 1.10 mycroft /* Start auto-init DMA */ 1506 1.65 kent ess_wdsp(sc, ESS_ACMD_DISABLE_SPKR); 1507 1.39 mycroft reg = ess_read_x_reg(sc, ESS_XCMD_AUDIO1_CTRL2); 1508 1.39 mycroft reg |= ESS_AUDIO1_CTRL2_DMA_READ | ESS_AUDIO1_CTRL2_ADC_ENABLE; 1509 1.39 mycroft reg |= ESS_AUDIO1_CTRL2_FIFO_ENABLE | ESS_AUDIO1_CTRL2_AUTO_INIT; 1510 1.39 mycroft ess_write_x_reg(sc, ESS_XCMD_AUDIO1_CTRL2, reg); 1511 1.1 augustss 1512 1.66 kent return 0; 1513 1.1 augustss } 1514 1.1 augustss 1515 1.34 mycroft int 1516 1.66 kent ess_audio1_halt(void *addr) 1517 1.33 nathanw { 1518 1.66 kent struct ess_softc *sc; 1519 1.33 nathanw 1520 1.66 kent sc = addr; 1521 1.39 mycroft DPRINTF(("ess_audio1_halt: sc=%p\n", sc)); 1522 1.34 mycroft 1523 1.34 mycroft if (sc->sc_audio1.active) { 1524 1.34 mycroft ess_clear_xreg_bits(sc, ESS_XCMD_AUDIO1_CTRL2, 1525 1.34 mycroft ESS_AUDIO1_CTRL2_FIFO_ENABLE); 1526 1.34 mycroft isa_dmaabort(sc->sc_ic, sc->sc_audio1.drq); 1527 1.42 mycroft if (sc->sc_audio1.polled) 1528 1.51 thorpej callout_stop(&sc->sc_poll1_ch); 1529 1.34 mycroft sc->sc_audio1.active = 0; 1530 1.33 nathanw } 1531 1.33 nathanw 1532 1.66 kent return 0; 1533 1.33 nathanw } 1534 1.33 nathanw 1535 1.1 augustss int 1536 1.66 kent ess_audio2_halt(void *addr) 1537 1.1 augustss { 1538 1.66 kent struct ess_softc *sc; 1539 1.1 augustss 1540 1.66 kent sc = addr; 1541 1.39 mycroft DPRINTF(("ess_audio2_halt: sc=%p\n", sc)); 1542 1.34 mycroft 1543 1.34 mycroft if (sc->sc_audio2.active) { 1544 1.31 mycroft ess_clear_mreg_bits(sc, ESS_MREG_AUDIO2_CTRL1, 1545 1.31 mycroft ESS_AUDIO2_CTRL1_DAC_ENABLE | 1546 1.31 mycroft ESS_AUDIO2_CTRL1_FIFO_ENABLE); 1547 1.34 mycroft isa_dmaabort(sc->sc_ic, sc->sc_audio2.drq); 1548 1.42 mycroft if (sc->sc_audio2.polled) 1549 1.51 thorpej callout_stop(&sc->sc_poll2_ch); 1550 1.34 mycroft sc->sc_audio2.active = 0; 1551 1.33 nathanw } 1552 1.33 nathanw 1553 1.66 kent return 0; 1554 1.33 nathanw } 1555 1.33 nathanw 1556 1.33 nathanw int 1557 1.66 kent ess_audio1_intr(void *arg) 1558 1.1 augustss { 1559 1.66 kent struct ess_softc *sc; 1560 1.66 kent uint8_t reg; 1561 1.79 jmcneill int rv; 1562 1.1 augustss 1563 1.66 kent sc = arg; 1564 1.36 mycroft DPRINTFN(1,("ess_audio1_intr: intr=%p\n", sc->sc_audio1.intr)); 1565 1.1 augustss 1566 1.79 jmcneill mutex_spin_enter(&sc->sc_intr_lock); 1567 1.79 jmcneill 1568 1.41 mycroft /* Check and clear interrupt on Audio1. */ 1569 1.41 mycroft reg = EREAD1(sc->sc_iot, sc->sc_ioh, ESS_DSP_RW_STATUS); 1570 1.79 jmcneill if ((reg & ESS_DSP_READ_OFLOW) == 0) { 1571 1.79 jmcneill mutex_spin_exit(&sc->sc_intr_lock); 1572 1.66 kent return 0; 1573 1.79 jmcneill } 1574 1.41 mycroft reg = EREAD1(sc->sc_iot, sc->sc_ioh, ESS_CLEAR_INTR); 1575 1.10 mycroft 1576 1.36 mycroft sc->sc_audio1.nintr++; 1577 1.1 augustss 1578 1.39 mycroft if (sc->sc_audio1.active) { 1579 1.36 mycroft (*sc->sc_audio1.intr)(sc->sc_audio1.arg); 1580 1.79 jmcneill rv = 1; 1581 1.39 mycroft } else 1582 1.79 jmcneill rv = 0; 1583 1.79 jmcneill 1584 1.79 jmcneill mutex_spin_exit(&sc->sc_intr_lock); 1585 1.79 jmcneill 1586 1.79 jmcneill return rv; 1587 1.1 augustss } 1588 1.1 augustss 1589 1.1 augustss int 1590 1.66 kent ess_audio2_intr(void *arg) 1591 1.1 augustss { 1592 1.66 kent struct ess_softc *sc; 1593 1.66 kent uint8_t reg; 1594 1.79 jmcneill int rv; 1595 1.34 mycroft 1596 1.66 kent sc = arg; 1597 1.36 mycroft DPRINTFN(1,("ess_audio2_intr: intr=%p\n", sc->sc_audio2.intr)); 1598 1.34 mycroft 1599 1.79 jmcneill mutex_spin_enter(&sc->sc_intr_lock); 1600 1.79 jmcneill 1601 1.41 mycroft /* Check and clear interrupt on Audio2. */ 1602 1.41 mycroft reg = ess_read_mix_reg(sc, ESS_MREG_AUDIO2_CTRL2); 1603 1.79 jmcneill if ((reg & ESS_AUDIO2_CTRL2_IRQ_LATCH) == 0) { 1604 1.79 jmcneill mutex_spin_exit(&sc->sc_intr_lock); 1605 1.66 kent return 0; 1606 1.79 jmcneill } 1607 1.41 mycroft reg &= ~ESS_AUDIO2_CTRL2_IRQ_LATCH; 1608 1.41 mycroft ess_write_mix_reg(sc, ESS_MREG_AUDIO2_CTRL2, reg); 1609 1.1 augustss 1610 1.36 mycroft sc->sc_audio2.nintr++; 1611 1.1 augustss 1612 1.39 mycroft if (sc->sc_audio2.active) { 1613 1.36 mycroft (*sc->sc_audio2.intr)(sc->sc_audio2.arg); 1614 1.79 jmcneill rv = 1; 1615 1.39 mycroft } else 1616 1.79 jmcneill rv = 0; 1617 1.79 jmcneill 1618 1.79 jmcneill mutex_spin_exit(&sc->sc_intr_lock); 1619 1.79 jmcneill 1620 1.79 jmcneill return rv; 1621 1.42 mycroft } 1622 1.42 mycroft 1623 1.42 mycroft void 1624 1.66 kent ess_audio1_poll(void *addr) 1625 1.42 mycroft { 1626 1.66 kent struct ess_softc *sc; 1627 1.42 mycroft int dmapos, dmacount; 1628 1.42 mycroft 1629 1.66 kent sc = addr; 1630 1.79 jmcneill mutex_spin_enter(&sc->sc_intr_lock); 1631 1.79 jmcneill 1632 1.79 jmcneill if (!sc->sc_audio1.active) { 1633 1.79 jmcneill mutex_spin_exit(&sc->sc_intr_lock); 1634 1.42 mycroft return; 1635 1.79 jmcneill } 1636 1.42 mycroft 1637 1.42 mycroft sc->sc_audio1.nintr++; 1638 1.42 mycroft 1639 1.42 mycroft dmapos = isa_dmacount(sc->sc_ic, sc->sc_audio1.drq); 1640 1.43 mycroft dmacount = sc->sc_audio1.dmapos - dmapos; 1641 1.43 mycroft if (dmacount < 0) 1642 1.42 mycroft dmacount += sc->sc_audio1.buffersize; 1643 1.43 mycroft sc->sc_audio1.dmapos = dmapos; 1644 1.43 mycroft #if 1 1645 1.43 mycroft dmacount += sc->sc_audio1.dmacount; 1646 1.42 mycroft while (dmacount > sc->sc_audio1.blksize) { 1647 1.42 mycroft dmacount -= sc->sc_audio1.blksize; 1648 1.42 mycroft (*sc->sc_audio1.intr)(sc->sc_audio1.arg); 1649 1.42 mycroft } 1650 1.42 mycroft sc->sc_audio1.dmacount = dmacount; 1651 1.43 mycroft #else 1652 1.43 mycroft (*sc->sc_audio1.intr)(sc->sc_audio1.arg, dmacount); 1653 1.43 mycroft #endif 1654 1.42 mycroft 1655 1.79 jmcneill mutex_spin_exit(&sc->sc_intr_lock); 1656 1.51 thorpej callout_reset(&sc->sc_poll1_ch, hz / 30, ess_audio1_poll, sc); 1657 1.42 mycroft } 1658 1.42 mycroft 1659 1.42 mycroft void 1660 1.66 kent ess_audio2_poll(void *addr) 1661 1.42 mycroft { 1662 1.66 kent struct ess_softc *sc; 1663 1.42 mycroft int dmapos, dmacount; 1664 1.42 mycroft 1665 1.66 kent sc = addr; 1666 1.79 jmcneill mutex_spin_enter(&sc->sc_intr_lock); 1667 1.79 jmcneill 1668 1.79 jmcneill if (!sc->sc_audio2.active) { 1669 1.79 jmcneill mutex_spin_exit(&sc->sc_intr_lock); 1670 1.42 mycroft return; 1671 1.79 jmcneill } 1672 1.42 mycroft 1673 1.42 mycroft sc->sc_audio2.nintr++; 1674 1.42 mycroft 1675 1.42 mycroft dmapos = isa_dmacount(sc->sc_ic, sc->sc_audio2.drq); 1676 1.43 mycroft dmacount = sc->sc_audio2.dmapos - dmapos; 1677 1.43 mycroft if (dmacount < 0) 1678 1.42 mycroft dmacount += sc->sc_audio2.buffersize; 1679 1.43 mycroft sc->sc_audio2.dmapos = dmapos; 1680 1.43 mycroft #if 1 1681 1.43 mycroft dmacount += sc->sc_audio2.dmacount; 1682 1.42 mycroft while (dmacount > sc->sc_audio2.blksize) { 1683 1.42 mycroft dmacount -= sc->sc_audio2.blksize; 1684 1.42 mycroft (*sc->sc_audio2.intr)(sc->sc_audio2.arg); 1685 1.42 mycroft } 1686 1.42 mycroft sc->sc_audio2.dmacount = dmacount; 1687 1.43 mycroft #else 1688 1.43 mycroft (*sc->sc_audio2.intr)(sc->sc_audio2.arg, dmacount); 1689 1.43 mycroft #endif 1690 1.42 mycroft 1691 1.79 jmcneill mutex_spin_exit(&sc->sc_intr_lock); 1692 1.51 thorpej callout_reset(&sc->sc_poll2_ch, hz / 30, ess_audio2_poll, sc); 1693 1.1 augustss } 1694 1.1 augustss 1695 1.1 augustss int 1696 1.73 christos ess_round_blocksize(void *addr, int blk, int mode, 1697 1.73 christos const audio_params_t *param) 1698 1.1 augustss { 1699 1.66 kent 1700 1.66 kent return blk & -8; /* round for max DMA size */ 1701 1.1 augustss } 1702 1.1 augustss 1703 1.1 augustss int 1704 1.66 kent ess_set_port(void *addr, mixer_ctrl_t *cp) 1705 1.1 augustss { 1706 1.66 kent struct ess_softc *sc; 1707 1.1 augustss int lgain, rgain; 1708 1.66 kent 1709 1.66 kent sc = addr; 1710 1.4 augustss DPRINTFN(5,("ess_set_port: port=%d num_channels=%d\n", 1711 1.4 augustss cp->dev, cp->un.value.num_channels)); 1712 1.1 augustss 1713 1.1 augustss switch (cp->dev) { 1714 1.1 augustss /* 1715 1.1 augustss * The following mixer ports are all stereo. If we get a 1716 1.1 augustss * single-channel gain value passed in, then we duplicate it 1717 1.1 augustss * to both left and right channels. 1718 1.1 augustss */ 1719 1.1 augustss case ESS_MASTER_VOL: 1720 1.1 augustss case ESS_DAC_PLAY_VOL: 1721 1.1 augustss case ESS_MIC_PLAY_VOL: 1722 1.1 augustss case ESS_LINE_PLAY_VOL: 1723 1.1 augustss case ESS_SYNTH_PLAY_VOL: 1724 1.1 augustss case ESS_CD_PLAY_VOL: 1725 1.1 augustss case ESS_AUXB_PLAY_VOL: 1726 1.1 augustss case ESS_RECORD_VOL: 1727 1.1 augustss if (cp->type != AUDIO_MIXER_VALUE) 1728 1.1 augustss return EINVAL; 1729 1.1 augustss 1730 1.1 augustss switch (cp->un.value.num_channels) { 1731 1.1 augustss case 1: 1732 1.1 augustss lgain = rgain = ESS_4BIT_GAIN( 1733 1.1 augustss cp->un.value.level[AUDIO_MIXER_LEVEL_MONO]); 1734 1.1 augustss break; 1735 1.1 augustss case 2: 1736 1.1 augustss lgain = ESS_4BIT_GAIN( 1737 1.1 augustss cp->un.value.level[AUDIO_MIXER_LEVEL_LEFT]); 1738 1.1 augustss rgain = ESS_4BIT_GAIN( 1739 1.1 augustss cp->un.value.level[AUDIO_MIXER_LEVEL_RIGHT]); 1740 1.1 augustss break; 1741 1.1 augustss default: 1742 1.1 augustss return EINVAL; 1743 1.1 augustss } 1744 1.1 augustss 1745 1.1 augustss sc->gain[cp->dev][ESS_LEFT] = lgain; 1746 1.1 augustss sc->gain[cp->dev][ESS_RIGHT] = rgain; 1747 1.1 augustss ess_set_gain(sc, cp->dev, 1); 1748 1.66 kent return 0; 1749 1.1 augustss 1750 1.1 augustss /* 1751 1.1 augustss * The PC speaker port is mono. If we get a stereo gain value 1752 1.1 augustss * passed in, then we return EINVAL. 1753 1.1 augustss */ 1754 1.1 augustss case ESS_PCSPEAKER_VOL: 1755 1.1 augustss if (cp->un.value.num_channels != 1) 1756 1.1 augustss return EINVAL; 1757 1.1 augustss 1758 1.34 mycroft sc->gain[cp->dev][ESS_LEFT] = sc->gain[cp->dev][ESS_RIGHT] = 1759 1.1 augustss ESS_3BIT_GAIN(cp->un.value.level[AUDIO_MIXER_LEVEL_MONO]); 1760 1.1 augustss ess_set_gain(sc, cp->dev, 1); 1761 1.66 kent return 0; 1762 1.1 augustss 1763 1.1 augustss case ESS_RECORD_SOURCE: 1764 1.46 augustss if (ESS_USE_AUDIO1(sc->sc_model)) { 1765 1.34 mycroft if (cp->type == AUDIO_MIXER_ENUM) 1766 1.66 kent return ess_set_in_port(sc, cp->un.ord); 1767 1.34 mycroft else 1768 1.66 kent return EINVAL; 1769 1.34 mycroft } else { 1770 1.34 mycroft if (cp->type == AUDIO_MIXER_SET) 1771 1.66 kent return ess_set_in_ports(sc, cp->un.mask); 1772 1.34 mycroft else 1773 1.66 kent return EINVAL; 1774 1.34 mycroft } 1775 1.66 kent return 0; 1776 1.1 augustss 1777 1.1 augustss case ESS_RECORD_MONITOR: 1778 1.1 augustss if (cp->type != AUDIO_MIXER_ENUM) 1779 1.1 augustss return EINVAL; 1780 1.1 augustss 1781 1.1 augustss if (cp->un.ord) 1782 1.1 augustss /* Enable monitor */ 1783 1.1 augustss ess_set_xreg_bits(sc, ESS_XCMD_AUDIO_CTRL, 1784 1.1 augustss ESS_AUDIO_CTRL_MONITOR); 1785 1.1 augustss else 1786 1.1 augustss /* Disable monitor */ 1787 1.1 augustss ess_clear_xreg_bits(sc, ESS_XCMD_AUDIO_CTRL, 1788 1.1 augustss ESS_AUDIO_CTRL_MONITOR); 1789 1.66 kent return 0; 1790 1.1 augustss } 1791 1.1 augustss 1792 1.82 nakayama if (ESS_IS_ES18X9(sc->sc_model)) { 1793 1.82 nakayama 1794 1.82 nakayama switch (cp->dev) { 1795 1.82 nakayama case ESS_SPATIALIZER: 1796 1.82 nakayama if (cp->type != AUDIO_MIXER_VALUE || 1797 1.82 nakayama cp->un.value.num_channels != 1) 1798 1.82 nakayama return EINVAL; 1799 1.82 nakayama 1800 1.82 nakayama sc->gain[cp->dev][ESS_LEFT] = 1801 1.82 nakayama sc->gain[cp->dev][ESS_RIGHT] = ESS_6BIT_GAIN( 1802 1.82 nakayama cp->un.value.level[AUDIO_MIXER_LEVEL_MONO]); 1803 1.82 nakayama ess_set_gain(sc, cp->dev, 1); 1804 1.82 nakayama return 0; 1805 1.82 nakayama 1806 1.82 nakayama case ESS_SPATIALIZER_ENABLE: 1807 1.82 nakayama if (cp->type != AUDIO_MIXER_ENUM) 1808 1.82 nakayama return EINVAL; 1809 1.82 nakayama 1810 1.82 nakayama sc->sc_spatializer = (cp->un.ord != 0); 1811 1.82 nakayama if (sc->sc_spatializer) 1812 1.82 nakayama ess_set_mreg_bits(sc, ESS_MREG_SPATIAL_CTRL, 1813 1.82 nakayama ESS_SPATIAL_CTRL_ENABLE); 1814 1.82 nakayama else 1815 1.82 nakayama ess_clear_mreg_bits(sc, ESS_MREG_SPATIAL_CTRL, 1816 1.82 nakayama ESS_SPATIAL_CTRL_ENABLE); 1817 1.82 nakayama return 0; 1818 1.82 nakayama } 1819 1.82 nakayama } 1820 1.82 nakayama 1821 1.46 augustss if (ESS_USE_AUDIO1(sc->sc_model)) 1822 1.66 kent return EINVAL; 1823 1.1 augustss 1824 1.1 augustss switch (cp->dev) { 1825 1.33 nathanw case ESS_DAC_REC_VOL: 1826 1.33 nathanw case ESS_MIC_REC_VOL: 1827 1.33 nathanw case ESS_LINE_REC_VOL: 1828 1.33 nathanw case ESS_SYNTH_REC_VOL: 1829 1.33 nathanw case ESS_CD_REC_VOL: 1830 1.33 nathanw case ESS_AUXB_REC_VOL: 1831 1.34 mycroft if (cp->type != AUDIO_MIXER_VALUE) 1832 1.33 nathanw return EINVAL; 1833 1.34 mycroft 1834 1.34 mycroft switch (cp->un.value.num_channels) { 1835 1.34 mycroft case 1: 1836 1.34 mycroft lgain = rgain = ESS_4BIT_GAIN( 1837 1.34 mycroft cp->un.value.level[AUDIO_MIXER_LEVEL_MONO]); 1838 1.34 mycroft break; 1839 1.34 mycroft case 2: 1840 1.34 mycroft lgain = ESS_4BIT_GAIN( 1841 1.34 mycroft cp->un.value.level[AUDIO_MIXER_LEVEL_LEFT]); 1842 1.34 mycroft rgain = ESS_4BIT_GAIN( 1843 1.34 mycroft cp->un.value.level[AUDIO_MIXER_LEVEL_RIGHT]); 1844 1.34 mycroft break; 1845 1.34 mycroft default: 1846 1.34 mycroft return EINVAL; 1847 1.34 mycroft } 1848 1.34 mycroft 1849 1.34 mycroft sc->gain[cp->dev][ESS_LEFT] = lgain; 1850 1.34 mycroft sc->gain[cp->dev][ESS_RIGHT] = rgain; 1851 1.34 mycroft ess_set_gain(sc, cp->dev, 1); 1852 1.66 kent return 0; 1853 1.34 mycroft 1854 1.34 mycroft case ESS_MIC_PREAMP: 1855 1.34 mycroft if (cp->type != AUDIO_MIXER_ENUM) 1856 1.34 mycroft return EINVAL; 1857 1.34 mycroft 1858 1.34 mycroft if (cp->un.ord) 1859 1.34 mycroft /* Enable microphone preamp */ 1860 1.34 mycroft ess_set_xreg_bits(sc, ESS_XCMD_PREAMP_CTRL, 1861 1.34 mycroft ESS_PREAMP_CTRL_ENABLE); 1862 1.34 mycroft else 1863 1.34 mycroft /* Disable microphone preamp */ 1864 1.34 mycroft ess_clear_xreg_bits(sc, ESS_XCMD_PREAMP_CTRL, 1865 1.34 mycroft ESS_PREAMP_CTRL_ENABLE); 1866 1.66 kent return 0; 1867 1.34 mycroft } 1868 1.34 mycroft 1869 1.66 kent return EINVAL; 1870 1.34 mycroft } 1871 1.34 mycroft 1872 1.34 mycroft int 1873 1.66 kent ess_get_port(void *addr, mixer_ctrl_t *cp) 1874 1.34 mycroft { 1875 1.66 kent struct ess_softc *sc; 1876 1.66 kent 1877 1.66 kent sc = addr; 1878 1.34 mycroft DPRINTFN(5,("ess_get_port: port=%d\n", cp->dev)); 1879 1.34 mycroft 1880 1.34 mycroft switch (cp->dev) { 1881 1.34 mycroft case ESS_MASTER_VOL: 1882 1.1 augustss case ESS_DAC_PLAY_VOL: 1883 1.1 augustss case ESS_MIC_PLAY_VOL: 1884 1.1 augustss case ESS_LINE_PLAY_VOL: 1885 1.1 augustss case ESS_SYNTH_PLAY_VOL: 1886 1.1 augustss case ESS_CD_PLAY_VOL: 1887 1.1 augustss case ESS_AUXB_PLAY_VOL: 1888 1.1 augustss case ESS_RECORD_VOL: 1889 1.1 augustss switch (cp->un.value.num_channels) { 1890 1.1 augustss case 1: 1891 1.66 kent cp->un.value.level[AUDIO_MIXER_LEVEL_MONO] = 1892 1.1 augustss sc->gain[cp->dev][ESS_LEFT]; 1893 1.1 augustss break; 1894 1.1 augustss case 2: 1895 1.66 kent cp->un.value.level[AUDIO_MIXER_LEVEL_LEFT] = 1896 1.1 augustss sc->gain[cp->dev][ESS_LEFT]; 1897 1.66 kent cp->un.value.level[AUDIO_MIXER_LEVEL_RIGHT] = 1898 1.1 augustss sc->gain[cp->dev][ESS_RIGHT]; 1899 1.1 augustss break; 1900 1.1 augustss default: 1901 1.1 augustss return EINVAL; 1902 1.1 augustss } 1903 1.66 kent return 0; 1904 1.1 augustss 1905 1.34 mycroft case ESS_PCSPEAKER_VOL: 1906 1.34 mycroft if (cp->un.value.num_channels != 1) 1907 1.33 nathanw return EINVAL; 1908 1.34 mycroft 1909 1.66 kent cp->un.value.level[AUDIO_MIXER_LEVEL_MONO] = 1910 1.34 mycroft sc->gain[cp->dev][ESS_LEFT]; 1911 1.66 kent return 0; 1912 1.1 augustss 1913 1.1 augustss case ESS_RECORD_SOURCE: 1914 1.46 augustss if (ESS_USE_AUDIO1(sc->sc_model)) 1915 1.33 nathanw cp->un.ord = sc->in_port; 1916 1.33 nathanw else 1917 1.33 nathanw cp->un.mask = sc->in_mask; 1918 1.66 kent return 0; 1919 1.1 augustss 1920 1.1 augustss case ESS_RECORD_MONITOR: 1921 1.1 augustss cp->un.ord = (ess_read_x_reg(sc, ESS_XCMD_AUDIO_CTRL) & 1922 1.1 augustss ESS_AUDIO_CTRL_MONITOR) ? 1 : 0; 1923 1.66 kent return 0; 1924 1.34 mycroft } 1925 1.34 mycroft 1926 1.82 nakayama if (ESS_IS_ES18X9(sc->sc_model)) { 1927 1.82 nakayama 1928 1.82 nakayama switch (cp->dev) { 1929 1.82 nakayama case ESS_SPATIALIZER: 1930 1.82 nakayama if (cp->un.value.num_channels != 1) 1931 1.82 nakayama return EINVAL; 1932 1.82 nakayama 1933 1.82 nakayama cp->un.value.level[AUDIO_MIXER_LEVEL_MONO] = 1934 1.82 nakayama sc->gain[cp->dev][ESS_LEFT]; 1935 1.82 nakayama return 0; 1936 1.82 nakayama 1937 1.82 nakayama case ESS_SPATIALIZER_ENABLE: 1938 1.82 nakayama cp->un.ord = sc->sc_spatializer; 1939 1.82 nakayama return 0; 1940 1.82 nakayama } 1941 1.82 nakayama } 1942 1.82 nakayama 1943 1.46 augustss if (ESS_USE_AUDIO1(sc->sc_model)) 1944 1.66 kent return EINVAL; 1945 1.34 mycroft 1946 1.34 mycroft switch (cp->dev) { 1947 1.34 mycroft case ESS_DAC_REC_VOL: 1948 1.34 mycroft case ESS_MIC_REC_VOL: 1949 1.34 mycroft case ESS_LINE_REC_VOL: 1950 1.34 mycroft case ESS_SYNTH_REC_VOL: 1951 1.34 mycroft case ESS_CD_REC_VOL: 1952 1.34 mycroft case ESS_AUXB_REC_VOL: 1953 1.34 mycroft switch (cp->un.value.num_channels) { 1954 1.34 mycroft case 1: 1955 1.66 kent cp->un.value.level[AUDIO_MIXER_LEVEL_MONO] = 1956 1.34 mycroft sc->gain[cp->dev][ESS_LEFT]; 1957 1.34 mycroft break; 1958 1.34 mycroft case 2: 1959 1.66 kent cp->un.value.level[AUDIO_MIXER_LEVEL_LEFT] = 1960 1.34 mycroft sc->gain[cp->dev][ESS_LEFT]; 1961 1.66 kent cp->un.value.level[AUDIO_MIXER_LEVEL_RIGHT] = 1962 1.34 mycroft sc->gain[cp->dev][ESS_RIGHT]; 1963 1.34 mycroft break; 1964 1.34 mycroft default: 1965 1.34 mycroft return EINVAL; 1966 1.34 mycroft } 1967 1.66 kent return 0; 1968 1.1 augustss 1969 1.34 mycroft case ESS_MIC_PREAMP: 1970 1.34 mycroft cp->un.ord = (ess_read_x_reg(sc, ESS_XCMD_PREAMP_CTRL) & 1971 1.34 mycroft ESS_PREAMP_CTRL_ENABLE) ? 1 : 0; 1972 1.66 kent return 0; 1973 1.1 augustss } 1974 1.1 augustss 1975 1.66 kent return EINVAL; 1976 1.1 augustss } 1977 1.1 augustss 1978 1.1 augustss int 1979 1.66 kent ess_query_devinfo(void *addr, mixer_devinfo_t *dip) 1980 1.1 augustss { 1981 1.66 kent struct ess_softc *sc; 1982 1.1 augustss 1983 1.66 kent sc = addr; 1984 1.66 kent DPRINTFN(5,("ess_query_devinfo: model=%d index=%d\n", 1985 1.4 augustss sc->sc_model, dip->index)); 1986 1.1 augustss 1987 1.1 augustss /* 1988 1.1 augustss * REVISIT: There are some slight differences between the 1989 1.1 augustss * mixers on the different ESS chips, which can 1990 1.1 augustss * be sorted out using the chip model rather than a 1991 1.1 augustss * separate mixer model. 1992 1.1 augustss * This is currently coded assuming an ES1887; we 1993 1.1 augustss * need to work out which bits are not applicable to 1994 1.1 augustss * the other models (1888 and 888). 1995 1.1 augustss */ 1996 1.1 augustss switch (dip->index) { 1997 1.1 augustss case ESS_DAC_PLAY_VOL: 1998 1.1 augustss dip->mixer_class = ESS_INPUT_CLASS; 1999 1.27 mycroft dip->next = dip->prev = AUDIO_MIXER_LAST; 2000 1.1 augustss strcpy(dip->label.name, AudioNdac); 2001 1.27 mycroft dip->type = AUDIO_MIXER_VALUE; 2002 1.1 augustss dip->un.v.num_channels = 2; 2003 1.1 augustss strcpy(dip->un.v.units.name, AudioNvolume); 2004 1.66 kent return 0; 2005 1.1 augustss 2006 1.1 augustss case ESS_MIC_PLAY_VOL: 2007 1.1 augustss dip->mixer_class = ESS_INPUT_CLASS; 2008 1.1 augustss dip->prev = AUDIO_MIXER_LAST; 2009 1.46 augustss if (ESS_USE_AUDIO1(sc->sc_model)) 2010 1.33 nathanw dip->next = AUDIO_MIXER_LAST; 2011 1.33 nathanw else 2012 1.33 nathanw dip->next = ESS_MIC_PREAMP; 2013 1.1 augustss strcpy(dip->label.name, AudioNmicrophone); 2014 1.27 mycroft dip->type = AUDIO_MIXER_VALUE; 2015 1.1 augustss dip->un.v.num_channels = 2; 2016 1.1 augustss strcpy(dip->un.v.units.name, AudioNvolume); 2017 1.66 kent return 0; 2018 1.1 augustss 2019 1.1 augustss case ESS_LINE_PLAY_VOL: 2020 1.1 augustss dip->mixer_class = ESS_INPUT_CLASS; 2021 1.27 mycroft dip->next = dip->prev = AUDIO_MIXER_LAST; 2022 1.1 augustss strcpy(dip->label.name, AudioNline); 2023 1.27 mycroft dip->type = AUDIO_MIXER_VALUE; 2024 1.1 augustss dip->un.v.num_channels = 2; 2025 1.1 augustss strcpy(dip->un.v.units.name, AudioNvolume); 2026 1.66 kent return 0; 2027 1.1 augustss 2028 1.1 augustss case ESS_SYNTH_PLAY_VOL: 2029 1.1 augustss dip->mixer_class = ESS_INPUT_CLASS; 2030 1.27 mycroft dip->next = dip->prev = AUDIO_MIXER_LAST; 2031 1.1 augustss strcpy(dip->label.name, AudioNfmsynth); 2032 1.27 mycroft dip->type = AUDIO_MIXER_VALUE; 2033 1.1 augustss dip->un.v.num_channels = 2; 2034 1.1 augustss strcpy(dip->un.v.units.name, AudioNvolume); 2035 1.66 kent return 0; 2036 1.1 augustss 2037 1.1 augustss case ESS_CD_PLAY_VOL: 2038 1.1 augustss dip->mixer_class = ESS_INPUT_CLASS; 2039 1.27 mycroft dip->next = dip->prev = AUDIO_MIXER_LAST; 2040 1.1 augustss strcpy(dip->label.name, AudioNcd); 2041 1.27 mycroft dip->type = AUDIO_MIXER_VALUE; 2042 1.1 augustss dip->un.v.num_channels = 2; 2043 1.1 augustss strcpy(dip->un.v.units.name, AudioNvolume); 2044 1.66 kent return 0; 2045 1.1 augustss 2046 1.1 augustss case ESS_AUXB_PLAY_VOL: 2047 1.1 augustss dip->mixer_class = ESS_INPUT_CLASS; 2048 1.27 mycroft dip->next = dip->prev = AUDIO_MIXER_LAST; 2049 1.1 augustss strcpy(dip->label.name, "auxb"); 2050 1.27 mycroft dip->type = AUDIO_MIXER_VALUE; 2051 1.1 augustss dip->un.v.num_channels = 2; 2052 1.1 augustss strcpy(dip->un.v.units.name, AudioNvolume); 2053 1.66 kent return 0; 2054 1.1 augustss 2055 1.1 augustss case ESS_INPUT_CLASS: 2056 1.1 augustss dip->mixer_class = ESS_INPUT_CLASS; 2057 1.1 augustss dip->next = dip->prev = AUDIO_MIXER_LAST; 2058 1.1 augustss strcpy(dip->label.name, AudioCinputs); 2059 1.27 mycroft dip->type = AUDIO_MIXER_CLASS; 2060 1.66 kent return 0; 2061 1.1 augustss 2062 1.1 augustss case ESS_MASTER_VOL: 2063 1.1 augustss dip->mixer_class = ESS_OUTPUT_CLASS; 2064 1.27 mycroft dip->next = dip->prev = AUDIO_MIXER_LAST; 2065 1.1 augustss strcpy(dip->label.name, AudioNmaster); 2066 1.27 mycroft dip->type = AUDIO_MIXER_VALUE; 2067 1.1 augustss dip->un.v.num_channels = 2; 2068 1.1 augustss strcpy(dip->un.v.units.name, AudioNvolume); 2069 1.66 kent return 0; 2070 1.1 augustss 2071 1.1 augustss case ESS_PCSPEAKER_VOL: 2072 1.1 augustss dip->mixer_class = ESS_OUTPUT_CLASS; 2073 1.27 mycroft dip->next = dip->prev = AUDIO_MIXER_LAST; 2074 1.1 augustss strcpy(dip->label.name, "pc_speaker"); 2075 1.27 mycroft dip->type = AUDIO_MIXER_VALUE; 2076 1.1 augustss dip->un.v.num_channels = 1; 2077 1.1 augustss strcpy(dip->un.v.units.name, AudioNvolume); 2078 1.66 kent return 0; 2079 1.1 augustss 2080 1.1 augustss case ESS_OUTPUT_CLASS: 2081 1.1 augustss dip->mixer_class = ESS_OUTPUT_CLASS; 2082 1.1 augustss dip->next = dip->prev = AUDIO_MIXER_LAST; 2083 1.1 augustss strcpy(dip->label.name, AudioCoutputs); 2084 1.27 mycroft dip->type = AUDIO_MIXER_CLASS; 2085 1.66 kent return 0; 2086 1.1 augustss 2087 1.1 augustss case ESS_RECORD_VOL: 2088 1.1 augustss dip->mixer_class = ESS_RECORD_CLASS; 2089 1.27 mycroft dip->next = dip->prev = AUDIO_MIXER_LAST; 2090 1.1 augustss strcpy(dip->label.name, AudioNrecord); 2091 1.27 mycroft dip->type = AUDIO_MIXER_VALUE; 2092 1.1 augustss dip->un.v.num_channels = 2; 2093 1.1 augustss strcpy(dip->un.v.units.name, AudioNvolume); 2094 1.66 kent return 0; 2095 1.1 augustss 2096 1.1 augustss case ESS_RECORD_SOURCE: 2097 1.34 mycroft dip->mixer_class = ESS_RECORD_CLASS; 2098 1.27 mycroft dip->next = dip->prev = AUDIO_MIXER_LAST; 2099 1.1 augustss strcpy(dip->label.name, AudioNsource); 2100 1.46 augustss if (ESS_USE_AUDIO1(sc->sc_model)) { 2101 1.34 mycroft /* 2102 1.34 mycroft * The 1788 doesn't use the input mixer control that 2103 1.34 mycroft * the 1888 uses, because it's a pain when you only 2104 1.66 kent * have one mixer. 2105 1.34 mycroft * Perhaps it could be emulated by keeping both sets of 2106 1.34 mycroft * gain values, and doing a `context switch' of the 2107 1.34 mycroft * mixer registers when shifting from playing to 2108 1.34 mycroft * recording. 2109 1.33 nathanw */ 2110 1.33 nathanw dip->type = AUDIO_MIXER_ENUM; 2111 1.33 nathanw dip->un.e.num_mem = 4; 2112 1.33 nathanw strcpy(dip->un.e.member[0].label.name, AudioNmicrophone); 2113 1.33 nathanw dip->un.e.member[0].ord = ESS_SOURCE_MIC; 2114 1.33 nathanw strcpy(dip->un.e.member[1].label.name, AudioNline); 2115 1.33 nathanw dip->un.e.member[1].ord = ESS_SOURCE_LINE; 2116 1.33 nathanw strcpy(dip->un.e.member[2].label.name, AudioNcd); 2117 1.33 nathanw dip->un.e.member[2].ord = ESS_SOURCE_CD; 2118 1.33 nathanw strcpy(dip->un.e.member[3].label.name, AudioNmixerout); 2119 1.33 nathanw dip->un.e.member[3].ord = ESS_SOURCE_MIXER; 2120 1.33 nathanw } else { 2121 1.33 nathanw dip->type = AUDIO_MIXER_SET; 2122 1.33 nathanw dip->un.s.num_mem = 6; 2123 1.33 nathanw strcpy(dip->un.s.member[0].label.name, AudioNdac); 2124 1.33 nathanw dip->un.s.member[0].mask = 1 << ESS_DAC_REC_VOL; 2125 1.33 nathanw strcpy(dip->un.s.member[1].label.name, AudioNmicrophone); 2126 1.33 nathanw dip->un.s.member[1].mask = 1 << ESS_MIC_REC_VOL; 2127 1.33 nathanw strcpy(dip->un.s.member[2].label.name, AudioNline); 2128 1.33 nathanw dip->un.s.member[2].mask = 1 << ESS_LINE_REC_VOL; 2129 1.33 nathanw strcpy(dip->un.s.member[3].label.name, AudioNfmsynth); 2130 1.33 nathanw dip->un.s.member[3].mask = 1 << ESS_SYNTH_REC_VOL; 2131 1.33 nathanw strcpy(dip->un.s.member[4].label.name, AudioNcd); 2132 1.33 nathanw dip->un.s.member[4].mask = 1 << ESS_CD_REC_VOL; 2133 1.33 nathanw strcpy(dip->un.s.member[5].label.name, "auxb"); 2134 1.33 nathanw dip->un.s.member[5].mask = 1 << ESS_AUXB_REC_VOL; 2135 1.33 nathanw } 2136 1.66 kent return 0; 2137 1.1 augustss 2138 1.1 augustss case ESS_RECORD_CLASS: 2139 1.1 augustss dip->mixer_class = ESS_RECORD_CLASS; 2140 1.1 augustss dip->next = dip->prev = AUDIO_MIXER_LAST; 2141 1.1 augustss strcpy(dip->label.name, AudioCrecord); 2142 1.27 mycroft dip->type = AUDIO_MIXER_CLASS; 2143 1.66 kent return 0; 2144 1.1 augustss 2145 1.1 augustss case ESS_RECORD_MONITOR: 2146 1.1 augustss dip->prev = dip->next = AUDIO_MIXER_LAST; 2147 1.45 nathanw strcpy(dip->label.name, AudioNmute); 2148 1.1 augustss dip->type = AUDIO_MIXER_ENUM; 2149 1.27 mycroft dip->mixer_class = ESS_MONITOR_CLASS; 2150 1.1 augustss dip->un.e.num_mem = 2; 2151 1.1 augustss strcpy(dip->un.e.member[0].label.name, AudioNoff); 2152 1.1 augustss dip->un.e.member[0].ord = 0; 2153 1.1 augustss strcpy(dip->un.e.member[1].label.name, AudioNon); 2154 1.1 augustss dip->un.e.member[1].ord = 1; 2155 1.66 kent return 0; 2156 1.1 augustss 2157 1.1 augustss case ESS_MONITOR_CLASS: 2158 1.1 augustss dip->mixer_class = ESS_MONITOR_CLASS; 2159 1.1 augustss dip->next = dip->prev = AUDIO_MIXER_LAST; 2160 1.1 augustss strcpy(dip->label.name, AudioCmonitor); 2161 1.27 mycroft dip->type = AUDIO_MIXER_CLASS; 2162 1.66 kent return 0; 2163 1.1 augustss } 2164 1.1 augustss 2165 1.82 nakayama if (ESS_IS_ES18X9(sc->sc_model)) { 2166 1.82 nakayama 2167 1.82 nakayama switch (dip->index) { 2168 1.82 nakayama case ESS_SPATIALIZER: 2169 1.82 nakayama dip->mixer_class = ESS_OUTPUT_CLASS; 2170 1.82 nakayama dip->prev = AUDIO_MIXER_LAST; 2171 1.82 nakayama dip->next = ESS_SPATIALIZER_ENABLE; 2172 1.82 nakayama strcpy(dip->label.name, AudioNspatial); 2173 1.82 nakayama dip->type = AUDIO_MIXER_VALUE; 2174 1.82 nakayama dip->un.v.num_channels = 1; 2175 1.82 nakayama strcpy(dip->un.v.units.name, "level"); 2176 1.82 nakayama return 0; 2177 1.82 nakayama 2178 1.82 nakayama case ESS_SPATIALIZER_ENABLE: 2179 1.82 nakayama dip->mixer_class = ESS_OUTPUT_CLASS; 2180 1.82 nakayama dip->prev = ESS_SPATIALIZER; 2181 1.82 nakayama dip->next = AUDIO_MIXER_LAST; 2182 1.82 nakayama strcpy(dip->label.name, "enable"); 2183 1.82 nakayama dip->type = AUDIO_MIXER_ENUM; 2184 1.82 nakayama dip->un.e.num_mem = 2; 2185 1.82 nakayama strcpy(dip->un.e.member[0].label.name, AudioNoff); 2186 1.82 nakayama dip->un.e.member[0].ord = 0; 2187 1.82 nakayama strcpy(dip->un.e.member[1].label.name, AudioNon); 2188 1.82 nakayama dip->un.e.member[1].ord = 1; 2189 1.82 nakayama return 0; 2190 1.82 nakayama } 2191 1.82 nakayama } 2192 1.82 nakayama 2193 1.46 augustss if (ESS_USE_AUDIO1(sc->sc_model)) 2194 1.66 kent return ENXIO; 2195 1.34 mycroft 2196 1.34 mycroft switch (dip->index) { 2197 1.34 mycroft case ESS_DAC_REC_VOL: 2198 1.34 mycroft dip->mixer_class = ESS_RECORD_CLASS; 2199 1.34 mycroft dip->next = dip->prev = AUDIO_MIXER_LAST; 2200 1.34 mycroft strcpy(dip->label.name, AudioNdac); 2201 1.34 mycroft dip->type = AUDIO_MIXER_VALUE; 2202 1.34 mycroft dip->un.v.num_channels = 2; 2203 1.34 mycroft strcpy(dip->un.v.units.name, AudioNvolume); 2204 1.66 kent return 0; 2205 1.34 mycroft 2206 1.34 mycroft case ESS_MIC_REC_VOL: 2207 1.34 mycroft dip->mixer_class = ESS_RECORD_CLASS; 2208 1.34 mycroft dip->next = dip->prev = AUDIO_MIXER_LAST; 2209 1.34 mycroft strcpy(dip->label.name, AudioNmicrophone); 2210 1.34 mycroft dip->type = AUDIO_MIXER_VALUE; 2211 1.34 mycroft dip->un.v.num_channels = 2; 2212 1.34 mycroft strcpy(dip->un.v.units.name, AudioNvolume); 2213 1.66 kent return 0; 2214 1.34 mycroft 2215 1.34 mycroft case ESS_LINE_REC_VOL: 2216 1.34 mycroft dip->mixer_class = ESS_RECORD_CLASS; 2217 1.34 mycroft dip->next = dip->prev = AUDIO_MIXER_LAST; 2218 1.34 mycroft strcpy(dip->label.name, AudioNline); 2219 1.34 mycroft dip->type = AUDIO_MIXER_VALUE; 2220 1.34 mycroft dip->un.v.num_channels = 2; 2221 1.34 mycroft strcpy(dip->un.v.units.name, AudioNvolume); 2222 1.66 kent return 0; 2223 1.34 mycroft 2224 1.34 mycroft case ESS_SYNTH_REC_VOL: 2225 1.34 mycroft dip->mixer_class = ESS_RECORD_CLASS; 2226 1.34 mycroft dip->next = dip->prev = AUDIO_MIXER_LAST; 2227 1.34 mycroft strcpy(dip->label.name, AudioNfmsynth); 2228 1.34 mycroft dip->type = AUDIO_MIXER_VALUE; 2229 1.34 mycroft dip->un.v.num_channels = 2; 2230 1.34 mycroft strcpy(dip->un.v.units.name, AudioNvolume); 2231 1.66 kent return 0; 2232 1.34 mycroft 2233 1.34 mycroft case ESS_CD_REC_VOL: 2234 1.34 mycroft dip->mixer_class = ESS_RECORD_CLASS; 2235 1.34 mycroft dip->next = dip->prev = AUDIO_MIXER_LAST; 2236 1.34 mycroft strcpy(dip->label.name, AudioNcd); 2237 1.34 mycroft dip->type = AUDIO_MIXER_VALUE; 2238 1.34 mycroft dip->un.v.num_channels = 2; 2239 1.34 mycroft strcpy(dip->un.v.units.name, AudioNvolume); 2240 1.66 kent return 0; 2241 1.34 mycroft 2242 1.34 mycroft case ESS_AUXB_REC_VOL: 2243 1.34 mycroft dip->mixer_class = ESS_RECORD_CLASS; 2244 1.34 mycroft dip->next = dip->prev = AUDIO_MIXER_LAST; 2245 1.34 mycroft strcpy(dip->label.name, "auxb"); 2246 1.34 mycroft dip->type = AUDIO_MIXER_VALUE; 2247 1.34 mycroft dip->un.v.num_channels = 2; 2248 1.34 mycroft strcpy(dip->un.v.units.name, AudioNvolume); 2249 1.66 kent return 0; 2250 1.34 mycroft 2251 1.34 mycroft case ESS_MIC_PREAMP: 2252 1.34 mycroft dip->mixer_class = ESS_INPUT_CLASS; 2253 1.34 mycroft dip->prev = ESS_MIC_PLAY_VOL; 2254 1.34 mycroft dip->next = AUDIO_MIXER_LAST; 2255 1.34 mycroft strcpy(dip->label.name, AudioNpreamp); 2256 1.34 mycroft dip->type = AUDIO_MIXER_ENUM; 2257 1.34 mycroft dip->un.e.num_mem = 2; 2258 1.34 mycroft strcpy(dip->un.e.member[0].label.name, AudioNoff); 2259 1.34 mycroft dip->un.e.member[0].ord = 0; 2260 1.34 mycroft strcpy(dip->un.e.member[1].label.name, AudioNon); 2261 1.34 mycroft dip->un.e.member[1].ord = 1; 2262 1.66 kent return 0; 2263 1.34 mycroft } 2264 1.34 mycroft 2265 1.66 kent return ENXIO; 2266 1.4 augustss } 2267 1.4 augustss 2268 1.4 augustss void * 2269 1.79 jmcneill ess_malloc(void *addr, int direction, size_t size) 2270 1.4 augustss { 2271 1.66 kent struct ess_softc *sc; 2272 1.30 mycroft int drq; 2273 1.4 augustss 2274 1.66 kent sc = addr; 2275 1.46 augustss if ((!ESS_USE_AUDIO1(sc->sc_model)) && direction == AUMODE_PLAY) 2276 1.34 mycroft drq = sc->sc_audio2.drq; 2277 1.30 mycroft else 2278 1.34 mycroft drq = sc->sc_audio1.drq; 2279 1.79 jmcneill return (isa_malloc(sc->sc_ic, drq, size, M_DEVBUF, M_WAITOK)); 2280 1.4 augustss } 2281 1.4 augustss 2282 1.4 augustss void 2283 1.79 jmcneill ess_free(void *addr, void *ptr, size_t size) 2284 1.4 augustss { 2285 1.66 kent 2286 1.79 jmcneill isa_free(ptr, M_DEVBUF); 2287 1.4 augustss } 2288 1.4 augustss 2289 1.30 mycroft size_t 2290 1.66 kent ess_round_buffersize(void *addr, int direction, size_t size) 2291 1.4 augustss { 2292 1.66 kent struct ess_softc *sc; 2293 1.50 thorpej bus_size_t maxsize; 2294 1.50 thorpej 2295 1.66 kent sc = addr; 2296 1.50 thorpej if ((!ESS_USE_AUDIO1(sc->sc_model)) && direction == AUMODE_PLAY) 2297 1.50 thorpej maxsize = sc->sc_audio2.maxsize; 2298 1.50 thorpej else 2299 1.50 thorpej maxsize = sc->sc_audio1.maxsize; 2300 1.50 thorpej 2301 1.50 thorpej if (size > maxsize) 2302 1.50 thorpej size = maxsize; 2303 1.66 kent return size; 2304 1.4 augustss } 2305 1.4 augustss 2306 1.52 simonb paddr_t 2307 1.73 christos ess_mappage(void *addr, void *mem, off_t off, int prot) 2308 1.4 augustss { 2309 1.66 kent 2310 1.66 kent return isa_mappage(mem, off, prot); 2311 1.1 augustss } 2312 1.1 augustss 2313 1.1 augustss int 2314 1.73 christos ess_1788_get_props(void *addr) 2315 1.36 mycroft { 2316 1.36 mycroft 2317 1.66 kent return AUDIO_PROP_MMAP | AUDIO_PROP_INDEPENDENT; 2318 1.36 mycroft } 2319 1.36 mycroft 2320 1.36 mycroft int 2321 1.73 christos ess_1888_get_props(void *addr) 2322 1.1 augustss { 2323 1.14 mycroft 2324 1.66 kent return AUDIO_PROP_MMAP | AUDIO_PROP_INDEPENDENT | AUDIO_PROP_FULLDUPLEX; 2325 1.1 augustss } 2326 1.1 augustss 2327 1.79 jmcneill void 2328 1.79 jmcneill ess_get_locks(void *addr, kmutex_t **intr, kmutex_t **thread) 2329 1.79 jmcneill { 2330 1.79 jmcneill struct ess_softc *sc; 2331 1.79 jmcneill 2332 1.79 jmcneill sc = addr; 2333 1.79 jmcneill *intr = &sc->sc_intr_lock; 2334 1.79 jmcneill *thread = &sc->sc_lock; 2335 1.79 jmcneill } 2336 1.79 jmcneill 2337 1.79 jmcneill 2338 1.1 augustss /* ============================================ 2339 1.1 augustss * Generic functions for ess, not used by audio h/w i/f 2340 1.1 augustss * ============================================= 2341 1.1 augustss */ 2342 1.1 augustss 2343 1.1 augustss /* 2344 1.1 augustss * Reset the chip. 2345 1.1 augustss * Return non-zero if the chip isn't detected. 2346 1.1 augustss */ 2347 1.1 augustss int 2348 1.66 kent ess_reset(struct ess_softc *sc) 2349 1.1 augustss { 2350 1.66 kent bus_space_tag_t iot; 2351 1.66 kent bus_space_handle_t ioh; 2352 1.1 augustss 2353 1.66 kent iot = sc->sc_iot; 2354 1.66 kent ioh = sc->sc_ioh; 2355 1.40 mycroft sc->sc_audio1.active = 0; 2356 1.40 mycroft sc->sc_audio2.active = 0; 2357 1.1 augustss 2358 1.4 augustss EWRITE1(iot, ioh, ESS_DSP_RESET, ESS_RESET_EXT); 2359 1.48 augustss delay(10000); /* XXX shouldn't delay so long */ 2360 1.2 augustss EWRITE1(iot, ioh, ESS_DSP_RESET, 0); 2361 1.1 augustss if (ess_rdsp(sc) != ESS_MAGIC) 2362 1.66 kent return 1; 2363 1.1 augustss 2364 1.4 augustss /* Enable access to the ESS extension commands. */ 2365 1.1 augustss ess_wdsp(sc, ESS_ACMD_ENABLE_EXT); 2366 1.1 augustss 2367 1.66 kent return 0; 2368 1.1 augustss } 2369 1.1 augustss 2370 1.1 augustss void 2371 1.66 kent ess_set_gain(struct ess_softc *sc, int port, int on) 2372 1.1 augustss { 2373 1.1 augustss int gain, left, right; 2374 1.1 augustss int mix; 2375 1.1 augustss int src; 2376 1.1 augustss int stereo; 2377 1.1 augustss 2378 1.1 augustss /* 2379 1.1 augustss * Most gain controls are found in the mixer registers and 2380 1.1 augustss * are stereo. Any that are not, must set mix and stereo as 2381 1.1 augustss * required. 2382 1.1 augustss */ 2383 1.1 augustss mix = 1; 2384 1.1 augustss stereo = 1; 2385 1.1 augustss 2386 1.82 nakayama if (ESS_IS_ES18X9(sc->sc_model)) { 2387 1.82 nakayama switch (port) { 2388 1.82 nakayama case ESS_SPATIALIZER: 2389 1.82 nakayama src = ESS_MREG_SPATIAL_LEVEL; 2390 1.82 nakayama stereo = -1; 2391 1.82 nakayama goto skip; 2392 1.82 nakayama case ESS_SPATIALIZER_ENABLE: 2393 1.82 nakayama return; 2394 1.82 nakayama } 2395 1.82 nakayama } 2396 1.1 augustss switch (port) { 2397 1.1 augustss case ESS_MASTER_VOL: 2398 1.33 nathanw src = ESS_MREG_VOLUME_MASTER; 2399 1.1 augustss break; 2400 1.1 augustss case ESS_DAC_PLAY_VOL: 2401 1.46 augustss if (ESS_USE_AUDIO1(sc->sc_model)) 2402 1.33 nathanw src = ESS_MREG_VOLUME_VOICE; 2403 1.33 nathanw else 2404 1.33 nathanw src = 0x7C; 2405 1.1 augustss break; 2406 1.1 augustss case ESS_MIC_PLAY_VOL: 2407 1.33 nathanw src = ESS_MREG_VOLUME_MIC; 2408 1.1 augustss break; 2409 1.1 augustss case ESS_LINE_PLAY_VOL: 2410 1.33 nathanw src = ESS_MREG_VOLUME_LINE; 2411 1.1 augustss break; 2412 1.1 augustss case ESS_SYNTH_PLAY_VOL: 2413 1.33 nathanw src = ESS_MREG_VOLUME_SYNTH; 2414 1.1 augustss break; 2415 1.1 augustss case ESS_CD_PLAY_VOL: 2416 1.33 nathanw src = ESS_MREG_VOLUME_CD; 2417 1.1 augustss break; 2418 1.1 augustss case ESS_AUXB_PLAY_VOL: 2419 1.33 nathanw src = ESS_MREG_VOLUME_AUXB; 2420 1.1 augustss break; 2421 1.1 augustss case ESS_PCSPEAKER_VOL: 2422 1.33 nathanw src = ESS_MREG_VOLUME_PCSPKR; 2423 1.1 augustss stereo = 0; 2424 1.1 augustss break; 2425 1.1 augustss case ESS_DAC_REC_VOL: 2426 1.1 augustss src = 0x69; 2427 1.1 augustss break; 2428 1.1 augustss case ESS_MIC_REC_VOL: 2429 1.1 augustss src = 0x68; 2430 1.1 augustss break; 2431 1.1 augustss case ESS_LINE_REC_VOL: 2432 1.1 augustss src = 0x6E; 2433 1.1 augustss break; 2434 1.1 augustss case ESS_SYNTH_REC_VOL: 2435 1.1 augustss src = 0x6B; 2436 1.1 augustss break; 2437 1.1 augustss case ESS_CD_REC_VOL: 2438 1.1 augustss src = 0x6A; 2439 1.1 augustss break; 2440 1.1 augustss case ESS_AUXB_REC_VOL: 2441 1.1 augustss src = 0x6C; 2442 1.1 augustss break; 2443 1.1 augustss case ESS_RECORD_VOL: 2444 1.33 nathanw src = ESS_XCMD_VOLIN_CTRL; 2445 1.1 augustss mix = 0; 2446 1.1 augustss break; 2447 1.1 augustss default: 2448 1.1 augustss return; 2449 1.1 augustss } 2450 1.82 nakayama skip: 2451 1.1 augustss 2452 1.33 nathanw /* 1788 doesn't have a separate recording mixer */ 2453 1.46 augustss if (ESS_USE_AUDIO1(sc->sc_model) && mix && src > 0x62) 2454 1.34 mycroft return; 2455 1.33 nathanw 2456 1.1 augustss if (on) { 2457 1.1 augustss left = sc->gain[port][ESS_LEFT]; 2458 1.1 augustss right = sc->gain[port][ESS_RIGHT]; 2459 1.1 augustss } else { 2460 1.1 augustss left = right = 0; 2461 1.1 augustss } 2462 1.1 augustss 2463 1.82 nakayama if (stereo == -1) 2464 1.82 nakayama gain = ESS_SPATIAL_GAIN(left); 2465 1.82 nakayama else if (stereo) 2466 1.1 augustss gain = ESS_STEREO_GAIN(left, right); 2467 1.1 augustss else 2468 1.1 augustss gain = ESS_MONO_GAIN(left); 2469 1.1 augustss 2470 1.1 augustss if (mix) 2471 1.1 augustss ess_write_mix_reg(sc, src, gain); 2472 1.1 augustss else 2473 1.1 augustss ess_write_x_reg(sc, src, gain); 2474 1.1 augustss } 2475 1.1 augustss 2476 1.33 nathanw /* Set the input device on devices without an input mixer. */ 2477 1.33 nathanw int 2478 1.66 kent ess_set_in_port(struct ess_softc *sc, int ord) 2479 1.33 nathanw { 2480 1.33 nathanw mixer_devinfo_t di; 2481 1.34 mycroft int i; 2482 1.33 nathanw 2483 1.33 nathanw DPRINTF(("ess_set_in_port: ord=0x%x\n", ord)); 2484 1.33 nathanw 2485 1.33 nathanw /* 2486 1.33 nathanw * Get the device info for the record source control, 2487 1.33 nathanw * including the list of available sources. 2488 1.33 nathanw */ 2489 1.33 nathanw di.index = ESS_RECORD_SOURCE; 2490 1.33 nathanw if (ess_query_devinfo(sc, &di)) 2491 1.33 nathanw return EINVAL; 2492 1.33 nathanw 2493 1.34 mycroft /* See if the given ord value was anywhere in the list. */ 2494 1.33 nathanw for (i = 0; i < di.un.e.num_mem; i++) { 2495 1.34 mycroft if (ord == di.un.e.member[i].ord) 2496 1.33 nathanw break; 2497 1.33 nathanw } 2498 1.34 mycroft if (i == di.un.e.num_mem) 2499 1.34 mycroft return EINVAL; 2500 1.33 nathanw 2501 1.34 mycroft ess_write_mix_reg(sc, ESS_MREG_ADC_SOURCE, ord); 2502 1.33 nathanw 2503 1.34 mycroft sc->in_port = ord; 2504 1.66 kent return 0; 2505 1.33 nathanw } 2506 1.33 nathanw 2507 1.33 nathanw /* Set the input device levels on input-mixer-enabled devices. */ 2508 1.1 augustss int 2509 1.66 kent ess_set_in_ports(struct ess_softc *sc, int mask) 2510 1.1 augustss { 2511 1.1 augustss mixer_devinfo_t di; 2512 1.34 mycroft int i, port; 2513 1.1 augustss 2514 1.1 augustss DPRINTF(("ess_set_in_ports: mask=0x%x\n", mask)); 2515 1.1 augustss 2516 1.1 augustss /* 2517 1.1 augustss * Get the device info for the record source control, 2518 1.1 augustss * including the list of available sources. 2519 1.1 augustss */ 2520 1.1 augustss di.index = ESS_RECORD_SOURCE; 2521 1.1 augustss if (ess_query_devinfo(sc, &di)) 2522 1.1 augustss return EINVAL; 2523 1.1 augustss 2524 1.1 augustss /* 2525 1.1 augustss * Set or disable the record volume control for each of the 2526 1.1 augustss * possible sources. 2527 1.1 augustss */ 2528 1.33 nathanw for (i = 0; i < di.un.s.num_mem; i++) { 2529 1.1 augustss /* 2530 1.1 augustss * Calculate the source port number from its mask. 2531 1.1 augustss */ 2532 1.34 mycroft port = ffs(di.un.s.member[i].mask); 2533 1.1 augustss 2534 1.1 augustss /* 2535 1.1 augustss * Set the source gain: 2536 1.1 augustss * to the current value if source is enabled 2537 1.1 augustss * to zero if source is disabled 2538 1.1 augustss */ 2539 1.1 augustss ess_set_gain(sc, port, mask & di.un.s.member[i].mask); 2540 1.1 augustss } 2541 1.1 augustss 2542 1.1 augustss sc->in_mask = mask; 2543 1.66 kent return 0; 2544 1.1 augustss } 2545 1.1 augustss 2546 1.1 augustss void 2547 1.66 kent ess_speaker_on(struct ess_softc *sc) 2548 1.1 augustss { 2549 1.66 kent 2550 1.49 mycroft /* Unmute the DAC. */ 2551 1.49 mycroft ess_set_gain(sc, ESS_DAC_PLAY_VOL, 1); 2552 1.1 augustss } 2553 1.1 augustss 2554 1.1 augustss void 2555 1.66 kent ess_speaker_off(struct ess_softc *sc) 2556 1.1 augustss { 2557 1.66 kent 2558 1.49 mycroft /* Mute the DAC. */ 2559 1.49 mycroft ess_set_gain(sc, ESS_DAC_PLAY_VOL, 0); 2560 1.1 augustss } 2561 1.1 augustss 2562 1.1 augustss /* 2563 1.1 augustss * Calculate the time constant for the requested sampling rate. 2564 1.1 augustss */ 2565 1.1 augustss u_int 2566 1.82 nakayama ess_srtotc(struct ess_softc *sc, u_int rate) 2567 1.1 augustss { 2568 1.1 augustss u_int tc; 2569 1.1 augustss 2570 1.1 augustss /* The following formulae are from the ESS data sheet. */ 2571 1.82 nakayama if (ESS_IS_ES18X9(sc->sc_model)) { 2572 1.82 nakayama if ((rate % 8000) != 0) 2573 1.82 nakayama tc = 128 - 793800L / rate; 2574 1.82 nakayama else 2575 1.82 nakayama tc = 256 - 768000L / rate; 2576 1.82 nakayama } else { 2577 1.82 nakayama if (rate <= 22050) 2578 1.82 nakayama tc = 128 - 397700L / rate; 2579 1.82 nakayama else 2580 1.82 nakayama tc = 256 - 795500L / rate; 2581 1.82 nakayama } 2582 1.1 augustss 2583 1.66 kent return tc; 2584 1.1 augustss } 2585 1.1 augustss 2586 1.1 augustss 2587 1.1 augustss /* 2588 1.1 augustss * Calculate the filter constant for the reuqested sampling rate. 2589 1.1 augustss */ 2590 1.1 augustss u_int 2591 1.66 kent ess_srtofc(u_int rate) 2592 1.1 augustss { 2593 1.1 augustss /* 2594 1.1 augustss * The following formula is derived from the information in 2595 1.1 augustss * the ES1887 data sheet, based on a roll-off frequency of 2596 1.1 augustss * 87%. 2597 1.1 augustss */ 2598 1.66 kent return 256 - 200279L / rate; 2599 1.1 augustss } 2600 1.1 augustss 2601 1.1 augustss 2602 1.1 augustss /* 2603 1.1 augustss * Return the status of the DSP. 2604 1.1 augustss */ 2605 1.1 augustss u_char 2606 1.66 kent ess_get_dsp_status(struct ess_softc *sc) 2607 1.1 augustss { 2608 1.66 kent return EREAD1(sc->sc_iot, sc->sc_ioh, ESS_DSP_RW_STATUS); 2609 1.1 augustss } 2610 1.1 augustss 2611 1.1 augustss 2612 1.1 augustss /* 2613 1.1 augustss * Return the read status of the DSP: 1 -> DSP ready for reading 2614 1.1 augustss * 0 -> DSP not ready for reading 2615 1.1 augustss */ 2616 1.1 augustss u_char 2617 1.66 kent ess_dsp_read_ready(struct ess_softc *sc) 2618 1.1 augustss { 2619 1.66 kent 2620 1.66 kent return (ess_get_dsp_status(sc) & ESS_DSP_READ_READY) ? 1 : 0; 2621 1.1 augustss } 2622 1.1 augustss 2623 1.1 augustss 2624 1.1 augustss /* 2625 1.1 augustss * Return the write status of the DSP: 1 -> DSP ready for writing 2626 1.1 augustss * 0 -> DSP not ready for writing 2627 1.1 augustss */ 2628 1.1 augustss u_char 2629 1.66 kent ess_dsp_write_ready(struct ess_softc *sc) 2630 1.1 augustss { 2631 1.66 kent return (ess_get_dsp_status(sc) & ESS_DSP_WRITE_BUSY) ? 0 : 1; 2632 1.1 augustss } 2633 1.1 augustss 2634 1.1 augustss 2635 1.1 augustss /* 2636 1.1 augustss * Read a byte from the DSP. 2637 1.1 augustss */ 2638 1.1 augustss int 2639 1.66 kent ess_rdsp(struct ess_softc *sc) 2640 1.1 augustss { 2641 1.66 kent bus_space_tag_t iot; 2642 1.66 kent bus_space_handle_t ioh; 2643 1.1 augustss int i; 2644 1.1 augustss 2645 1.66 kent iot = sc->sc_iot; 2646 1.66 kent ioh = sc->sc_ioh; 2647 1.1 augustss for (i = ESS_READ_TIMEOUT; i > 0; --i) { 2648 1.1 augustss if (ess_dsp_read_ready(sc)) { 2649 1.2 augustss i = EREAD1(iot, ioh, ESS_DSP_READ); 2650 1.2 augustss DPRINTFN(8,("ess_rdsp() = 0x%02x\n", i)); 2651 1.1 augustss return i; 2652 1.1 augustss } else 2653 1.1 augustss delay(10); 2654 1.1 augustss } 2655 1.1 augustss 2656 1.1 augustss DPRINTF(("ess_rdsp: timed out\n")); 2657 1.66 kent return -1; 2658 1.1 augustss } 2659 1.1 augustss 2660 1.1 augustss /* 2661 1.1 augustss * Write a byte to the DSP. 2662 1.1 augustss */ 2663 1.1 augustss int 2664 1.66 kent ess_wdsp(struct ess_softc *sc, u_char v) 2665 1.1 augustss { 2666 1.66 kent bus_space_tag_t iot; 2667 1.66 kent bus_space_handle_t ioh; 2668 1.1 augustss int i; 2669 1.2 augustss 2670 1.2 augustss DPRINTFN(8,("ess_wdsp(0x%02x)\n", v)); 2671 1.2 augustss 2672 1.66 kent iot = sc->sc_iot; 2673 1.66 kent ioh = sc->sc_ioh; 2674 1.1 augustss for (i = ESS_WRITE_TIMEOUT; i > 0; --i) { 2675 1.1 augustss if (ess_dsp_write_ready(sc)) { 2676 1.2 augustss EWRITE1(iot, ioh, ESS_DSP_WRITE, v); 2677 1.66 kent return 0; 2678 1.1 augustss } else 2679 1.1 augustss delay(10); 2680 1.1 augustss } 2681 1.1 augustss 2682 1.1 augustss DPRINTF(("ess_wdsp(0x%02x): timed out\n", v)); 2683 1.66 kent return -1; 2684 1.1 augustss } 2685 1.1 augustss 2686 1.1 augustss /* 2687 1.1 augustss * Write a value to one of the ESS extended registers. 2688 1.1 augustss */ 2689 1.1 augustss int 2690 1.66 kent ess_write_x_reg(struct ess_softc *sc, u_char reg, u_char val) 2691 1.1 augustss { 2692 1.1 augustss int error; 2693 1.1 augustss 2694 1.2 augustss DPRINTFN(2,("ess_write_x_reg: %02x=%02x\n", reg, val)); 2695 1.1 augustss if ((error = ess_wdsp(sc, reg)) == 0) 2696 1.1 augustss error = ess_wdsp(sc, val); 2697 1.1 augustss 2698 1.1 augustss return error; 2699 1.1 augustss } 2700 1.1 augustss 2701 1.1 augustss /* 2702 1.1 augustss * Read the value of one of the ESS extended registers. 2703 1.1 augustss */ 2704 1.1 augustss u_char 2705 1.66 kent ess_read_x_reg(struct ess_softc *sc, u_char reg) 2706 1.1 augustss { 2707 1.1 augustss int error; 2708 1.2 augustss int val; 2709 1.1 augustss 2710 1.1 augustss if ((error = ess_wdsp(sc, 0xC0)) == 0) 2711 1.1 augustss error = ess_wdsp(sc, reg); 2712 1.71 christos if (error) { 2713 1.1 augustss DPRINTF(("Error reading extended register 0x%02x\n", reg)); 2714 1.71 christos } 2715 1.1 augustss /* REVISIT: what if an error is returned above? */ 2716 1.2 augustss val = ess_rdsp(sc); 2717 1.33 nathanw DPRINTFN(2,("ess_read_x_reg: %02x=%02x\n", reg, val)); 2718 1.2 augustss return val; 2719 1.1 augustss } 2720 1.1 augustss 2721 1.1 augustss void 2722 1.66 kent ess_clear_xreg_bits(struct ess_softc *sc, u_char reg, u_char mask) 2723 1.1 augustss { 2724 1.71 christos if (ess_write_x_reg(sc, reg, ess_read_x_reg(sc, reg) & ~mask) == -1) { 2725 1.1 augustss DPRINTF(("Error clearing bits in extended register 0x%02x\n", 2726 1.1 augustss reg)); 2727 1.71 christos } 2728 1.1 augustss } 2729 1.1 augustss 2730 1.1 augustss void 2731 1.66 kent ess_set_xreg_bits(struct ess_softc *sc, u_char reg, u_char mask) 2732 1.1 augustss { 2733 1.71 christos if (ess_write_x_reg(sc, reg, ess_read_x_reg(sc, reg) | mask) == -1) { 2734 1.1 augustss DPRINTF(("Error setting bits in extended register 0x%02x\n", 2735 1.1 augustss reg)); 2736 1.71 christos } 2737 1.1 augustss } 2738 1.1 augustss 2739 1.1 augustss 2740 1.1 augustss /* 2741 1.1 augustss * Write a value to one of the ESS mixer registers. 2742 1.1 augustss */ 2743 1.1 augustss void 2744 1.66 kent ess_write_mix_reg(struct ess_softc *sc, u_char reg, u_char val) 2745 1.1 augustss { 2746 1.66 kent bus_space_tag_t iot; 2747 1.66 kent bus_space_handle_t ioh; 2748 1.1 augustss 2749 1.2 augustss DPRINTFN(2,("ess_write_mix_reg: %x=%x\n", reg, val)); 2750 1.4 augustss 2751 1.66 kent iot = sc->sc_iot; 2752 1.66 kent ioh = sc->sc_ioh; 2753 1.2 augustss EWRITE1(iot, ioh, ESS_MIX_REG_SELECT, reg); 2754 1.2 augustss EWRITE1(iot, ioh, ESS_MIX_REG_DATA, val); 2755 1.1 augustss } 2756 1.1 augustss 2757 1.1 augustss /* 2758 1.1 augustss * Read the value of one of the ESS mixer registers. 2759 1.1 augustss */ 2760 1.1 augustss u_char 2761 1.66 kent ess_read_mix_reg(struct ess_softc *sc, u_char reg) 2762 1.1 augustss { 2763 1.66 kent bus_space_tag_t iot; 2764 1.66 kent bus_space_handle_t ioh; 2765 1.1 augustss u_char val; 2766 1.1 augustss 2767 1.66 kent iot = sc->sc_iot; 2768 1.66 kent ioh = sc->sc_ioh; 2769 1.2 augustss EWRITE1(iot, ioh, ESS_MIX_REG_SELECT, reg); 2770 1.2 augustss val = EREAD1(iot, ioh, ESS_MIX_REG_DATA); 2771 1.1 augustss 2772 1.2 augustss DPRINTFN(2,("ess_read_mix_reg: %x=%x\n", reg, val)); 2773 1.1 augustss return val; 2774 1.1 augustss } 2775 1.1 augustss 2776 1.1 augustss void 2777 1.66 kent ess_clear_mreg_bits(struct ess_softc *sc, u_char reg, u_char mask) 2778 1.1 augustss { 2779 1.66 kent 2780 1.1 augustss ess_write_mix_reg(sc, reg, ess_read_mix_reg(sc, reg) & ~mask); 2781 1.1 augustss } 2782 1.1 augustss 2783 1.1 augustss void 2784 1.66 kent ess_set_mreg_bits(struct ess_softc *sc, u_char reg, u_char mask) 2785 1.1 augustss { 2786 1.66 kent 2787 1.1 augustss ess_write_mix_reg(sc, reg, ess_read_mix_reg(sc, reg) | mask); 2788 1.46 augustss } 2789 1.46 augustss 2790 1.46 augustss void 2791 1.66 kent ess_read_multi_mix_reg(struct ess_softc *sc, u_char reg, 2792 1.66 kent uint8_t *datap, bus_size_t count) 2793 1.46 augustss { 2794 1.66 kent bus_space_tag_t iot; 2795 1.66 kent bus_space_handle_t ioh; 2796 1.46 augustss 2797 1.66 kent iot = sc->sc_iot; 2798 1.66 kent ioh = sc->sc_ioh; 2799 1.46 augustss EWRITE1(iot, ioh, ESS_MIX_REG_SELECT, reg); 2800 1.46 augustss bus_space_read_multi_1(iot, ioh, ESS_MIX_REG_DATA, datap, count); 2801 1.1 augustss } 2802
Indexes created Tue Sep 23 23:09:58 GMT 2025