emuxki.c revision 1.59
1 1.59 njoly /* $NetBSD: emuxki.c,v 1.59 2009/11/26 15:17:09 njoly Exp $ */ 2 1.1 jdolecek 3 1.1 jdolecek /*- 4 1.1 jdolecek * Copyright (c) 2001 The NetBSD Foundation, Inc. 5 1.1 jdolecek * All rights reserved. 6 1.1 jdolecek * 7 1.1 jdolecek * This code is derived from software contributed to The NetBSD Foundation 8 1.1 jdolecek * by Yannick Montulet. 9 1.1 jdolecek * 10 1.1 jdolecek * Redistribution and use in source and binary forms, with or without 11 1.1 jdolecek * modification, are permitted provided that the following conditions 12 1.1 jdolecek * are met: 13 1.1 jdolecek * 1. Redistributions of source code must retain the above copyright 14 1.1 jdolecek * notice, this list of conditions and the following disclaimer. 15 1.1 jdolecek * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 jdolecek * notice, this list of conditions and the following disclaimer in the 17 1.1 jdolecek * documentation and/or other materials provided with the distribution. 18 1.1 jdolecek * 19 1.1 jdolecek * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 20 1.1 jdolecek * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 1.1 jdolecek * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 1.1 jdolecek * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 23 1.1 jdolecek * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24 1.1 jdolecek * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25 1.1 jdolecek * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26 1.1 jdolecek * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27 1.1 jdolecek * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 1.1 jdolecek * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 1.1 jdolecek * POSSIBILITY OF SUCH DAMAGE. 30 1.1 jdolecek */ 31 1.1 jdolecek 32 1.1 jdolecek /* 33 1.1 jdolecek * Driver for Creative Labs SBLive! series and probably PCI512. 34 1.40 kent * 35 1.1 jdolecek * Known bugs: 36 1.1 jdolecek * - inversed stereo at ac97 codec level 37 1.1 jdolecek * (XXX jdolecek - don't see the problem? maybe because auvia(4) has 38 1.1 jdolecek * it swapped too?) 39 1.37 dsainty * - bass disappear when you plug rear jack-in on Cambridge FPS2000 speakers 40 1.1 jdolecek * (and presumably all speakers that support front and rear jack-in) 41 1.1 jdolecek * 42 1.1 jdolecek * TODO: 43 1.1 jdolecek * - Digital Outputs 44 1.1 jdolecek * - (midi/mpu),joystick support 45 1.1 jdolecek * - Multiple voices play (problem with /dev/audio architecture) 46 1.1 jdolecek * - Multiple sources recording (Pb with audio(4)) 47 1.37 dsainty * - Independent modification of each channel's parameters (via mixer ?) 48 1.1 jdolecek * - DSP FX patches (to make fx like chipmunk) 49 1.1 jdolecek */ 50 1.4 lukem 51 1.4 lukem #include <sys/cdefs.h> 52 1.59 njoly __KERNEL_RCSID(0, "$NetBSD: emuxki.c,v 1.59 2009/11/26 15:17:09 njoly Exp $"); 53 1.1 jdolecek 54 1.5 lukem #include <sys/param.h> 55 1.1 jdolecek #include <sys/device.h> 56 1.1 jdolecek #include <sys/errno.h> 57 1.1 jdolecek #include <sys/malloc.h> 58 1.1 jdolecek #include <sys/systm.h> 59 1.1 jdolecek #include <sys/audioio.h> 60 1.1 jdolecek #include <sys/select.h> 61 1.1 jdolecek #include <dev/pci/pcireg.h> 62 1.1 jdolecek #include <dev/pci/pcivar.h> 63 1.1 jdolecek #include <dev/pci/pcidevs.h> 64 1.1 jdolecek #include <dev/audio_if.h> 65 1.1 jdolecek #include <dev/audiovar.h> 66 1.1 jdolecek #include <dev/auconv.h> 67 1.1 jdolecek #include <dev/mulaw.h> 68 1.1 jdolecek #include <dev/ic/ac97reg.h> 69 1.1 jdolecek #include <dev/ic/ac97var.h> 70 1.1 jdolecek 71 1.1 jdolecek #include <dev/pci/emuxkireg.h> 72 1.1 jdolecek #include <dev/pci/emuxkivar.h> 73 1.1 jdolecek 74 1.26 wiz /* autoconf goo */ 75 1.56 cegger static int emuxki_match(device_t, cfdata_t, void *); 76 1.56 cegger static void emuxki_attach(device_t, device_t, void *); 77 1.56 cegger static int emuxki_detach(device_t, int); 78 1.1 jdolecek 79 1.26 wiz /* DMA mem mgmt */ 80 1.3 jdolecek static struct dmamem *dmamem_alloc(bus_dma_tag_t, size_t, bus_size_t, 81 1.40 kent int, struct malloc_type *, int); 82 1.40 kent static void dmamem_free(struct dmamem *, struct malloc_type *); 83 1.1 jdolecek 84 1.1 jdolecek /* Emu10k1 init & shutdown */ 85 1.40 kent static int emuxki_init(struct emuxki_softc *); 86 1.40 kent static void emuxki_shutdown(struct emuxki_softc *); 87 1.1 jdolecek 88 1.1 jdolecek /* Emu10k1 mem mgmt */ 89 1.40 kent static void *emuxki_pmem_alloc(struct emuxki_softc *, size_t, 90 1.16 thorpej struct malloc_type *,int); 91 1.40 kent static void *emuxki_rmem_alloc(struct emuxki_softc *, size_t, 92 1.16 thorpej struct malloc_type *,int); 93 1.1 jdolecek 94 1.1 jdolecek /* 95 1.1 jdolecek * Emu10k1 channels funcs : There is no direct access to channels, everything 96 1.1 jdolecek * is done through voices I will at least provide channel based fx params 97 1.1 jdolecek * modification, later... 98 1.1 jdolecek */ 99 1.1 jdolecek 100 1.1 jdolecek /* Emu10k1 voice mgmt */ 101 1.3 jdolecek static struct emuxki_voice *emuxki_voice_new(struct emuxki_softc *, 102 1.40 kent uint8_t); 103 1.40 kent static void emuxki_voice_delete(struct emuxki_voice *); 104 1.40 kent static int emuxki_voice_set_audioparms(struct emuxki_voice *, uint8_t, 105 1.40 kent uint8_t, uint32_t); 106 1.1 jdolecek /* emuxki_voice_set_fxparms will come later, it'll need channel distinction */ 107 1.40 kent static int emuxki_voice_set_bufparms(struct emuxki_voice *, 108 1.40 kent void *, uint32_t, uint16_t); 109 1.40 kent static void emuxki_voice_commit_parms(struct emuxki_voice *); 110 1.40 kent static int emuxki_voice_adc_rate(struct emuxki_voice *); 111 1.40 kent static uint32_t emuxki_voice_curaddr(struct emuxki_voice *); 112 1.40 kent static void emuxki_voice_start(struct emuxki_voice *, 113 1.40 kent void (*) (void *), void *); 114 1.40 kent static void emuxki_voice_halt(struct emuxki_voice *); 115 1.1 jdolecek 116 1.1 jdolecek /* 117 1.1 jdolecek * Emu10k1 stream mgmt : not done yet 118 1.1 jdolecek */ 119 1.1 jdolecek #if 0 120 1.3 jdolecek static struct emuxki_stream *emuxki_stream_new(struct emu10k1 *); 121 1.40 kent static void emuxki_stream_delete(struct emuxki_stream *); 122 1.40 kent static int emuxki_stream_set_audio_params(struct emuxki_stream *, 123 1.40 kent uint8_t, uint8_t, uint8_t, uint16_t); 124 1.40 kent static void emuxki_stream_start(struct emuxki_stream *); 125 1.40 kent static void emuxki_stream_halt(struct emuxki_stream *); 126 1.1 jdolecek #endif 127 1.1 jdolecek 128 1.1 jdolecek /* audio interface callbacks */ 129 1.1 jdolecek 130 1.3 jdolecek static int emuxki_open(void *, int); 131 1.3 jdolecek static void emuxki_close(void *); 132 1.1 jdolecek 133 1.3 jdolecek static int emuxki_query_encoding(void *, struct audio_encoding *); 134 1.39 kent static int emuxki_set_params(void *, int, int, audio_params_t *, 135 1.40 kent audio_params_t *, stream_filter_list_t *, 136 1.40 kent stream_filter_list_t *); 137 1.1 jdolecek 138 1.39 kent static int emuxki_round_blocksize(void *, int, int, const audio_params_t *); 139 1.3 jdolecek static size_t emuxki_round_buffersize(void *, int, size_t); 140 1.1 jdolecek 141 1.3 jdolecek static int emuxki_trigger_output(void *, void *, void *, int, 142 1.40 kent void (*)(void *), void *, const audio_params_t *); 143 1.3 jdolecek static int emuxki_trigger_input(void *, void *, void *, int, 144 1.40 kent void (*) (void *), void *, const audio_params_t *); 145 1.3 jdolecek static int emuxki_halt_output(void *); 146 1.3 jdolecek static int emuxki_halt_input(void *); 147 1.3 jdolecek 148 1.3 jdolecek static int emuxki_getdev(void *, struct audio_device *); 149 1.3 jdolecek static int emuxki_set_port(void *, mixer_ctrl_t *); 150 1.3 jdolecek static int emuxki_get_port(void *, mixer_ctrl_t *); 151 1.3 jdolecek static int emuxki_query_devinfo(void *, mixer_devinfo_t *); 152 1.1 jdolecek 153 1.16 thorpej static void *emuxki_allocm(void *, int, size_t, struct malloc_type *, int); 154 1.16 thorpej static void emuxki_freem(void *, void *, struct malloc_type *); 155 1.1 jdolecek 156 1.3 jdolecek static paddr_t emuxki_mappage(void *, void *, off_t, int); 157 1.3 jdolecek static int emuxki_get_props(void *); 158 1.1 jdolecek 159 1.1 jdolecek /* Interrupt handler */ 160 1.40 kent static int emuxki_intr(void *); 161 1.1 jdolecek 162 1.1 jdolecek /* Emu10k1 AC97 interface callbacks */ 163 1.40 kent static int emuxki_ac97_attach(void *, struct ac97_codec_if *); 164 1.40 kent static int emuxki_ac97_read(void *, uint8_t, uint16_t *); 165 1.40 kent static int emuxki_ac97_write(void *, uint8_t, uint16_t); 166 1.40 kent static int emuxki_ac97_reset(void *); 167 1.6 jdolecek static enum ac97_host_flags emuxki_ac97_flags(void *); 168 1.1 jdolecek 169 1.1 jdolecek /* 170 1.1 jdolecek * Autoconfig goo. 171 1.1 jdolecek */ 172 1.58 tsutsui CFATTACH_DECL_NEW(emuxki, sizeof(struct emuxki_softc), 173 1.12 thorpej emuxki_match, emuxki_attach, emuxki_detach, NULL); 174 1.1 jdolecek 175 1.38 yamt static const struct audio_hw_if emuxki_hw_if = { 176 1.1 jdolecek emuxki_open, 177 1.1 jdolecek emuxki_close, 178 1.1 jdolecek NULL, /* drain */ 179 1.1 jdolecek emuxki_query_encoding, 180 1.1 jdolecek emuxki_set_params, 181 1.19 toshii emuxki_round_blocksize, 182 1.1 jdolecek NULL, /* commit settings */ 183 1.1 jdolecek NULL, /* init_output */ 184 1.1 jdolecek NULL, /* init_input */ 185 1.1 jdolecek NULL, /* start_output */ 186 1.1 jdolecek NULL, /* start_input */ 187 1.1 jdolecek emuxki_halt_output, 188 1.1 jdolecek emuxki_halt_input, 189 1.1 jdolecek NULL, /* speaker_ctl */ 190 1.1 jdolecek emuxki_getdev, 191 1.1 jdolecek NULL, /* setfd */ 192 1.1 jdolecek emuxki_set_port, 193 1.1 jdolecek emuxki_get_port, 194 1.1 jdolecek emuxki_query_devinfo, 195 1.1 jdolecek emuxki_allocm, 196 1.1 jdolecek emuxki_freem, 197 1.1 jdolecek emuxki_round_buffersize, 198 1.1 jdolecek emuxki_mappage, 199 1.1 jdolecek emuxki_get_props, 200 1.1 jdolecek emuxki_trigger_output, 201 1.1 jdolecek emuxki_trigger_input, 202 1.1 jdolecek NULL, /* dev_ioctl */ 203 1.46 christos NULL, /* powerstate */ 204 1.1 jdolecek }; 205 1.1 jdolecek 206 1.20 fvdl #if 0 207 1.19 toshii static const int emuxki_recsrc_intrmasks[EMU_NUMRECSRCS] = 208 1.19 toshii { EMU_INTE_MICBUFENABLE, EMU_INTE_ADCBUFENABLE, EMU_INTE_EFXBUFENABLE }; 209 1.20 fvdl #endif 210 1.40 kent static const uint32_t emuxki_recsrc_bufaddrreg[EMU_NUMRECSRCS] = 211 1.19 toshii { EMU_MICBA, EMU_ADCBA, EMU_FXBA }; 212 1.40 kent static const uint32_t emuxki_recsrc_szreg[EMU_NUMRECSRCS] = 213 1.19 toshii { EMU_MICBS, EMU_ADCBS, EMU_FXBS }; 214 1.19 toshii static const int emuxki_recbuf_sz[] = { 215 1.19 toshii 0, 384, 448, 512, 640, 768, 896, 1024, 1280, 1536, 1792, 216 1.19 toshii 2048, 2560, 3072, 3584, 4096, 5120, 6144, 7168, 8192, 10240, 217 1.19 toshii 12288, 14366, 16384, 20480, 24576, 28672, 32768, 40960, 49152, 218 1.19 toshii 57344, 65536 219 1.19 toshii }; 220 1.19 toshii 221 1.39 kent #define EMUXKI_NFORMATS 4 222 1.39 kent static const struct audio_format emuxki_formats[EMUXKI_NFORMATS] = { 223 1.39 kent {NULL, AUMODE_PLAY | AUMODE_RECORD, AUDIO_ENCODING_SLINEAR_LE, 16, 16, 224 1.39 kent 2, AUFMT_STEREO, 0, {4000, 48000}}, 225 1.39 kent {NULL, AUMODE_PLAY | AUMODE_RECORD, AUDIO_ENCODING_SLINEAR_LE, 16, 16, 226 1.39 kent 1, AUFMT_MONAURAL, 0, {4000, 48000}}, 227 1.39 kent {NULL, AUMODE_PLAY, AUDIO_ENCODING_ULINEAR_LE, 8, 8, 228 1.39 kent 2, AUFMT_STEREO, 0, {4000, 48000}}, 229 1.39 kent {NULL, AUMODE_PLAY, AUDIO_ENCODING_ULINEAR_LE, 8, 8, 230 1.39 kent 1, AUFMT_MONAURAL, 0, {4000, 48000}}, 231 1.39 kent }; 232 1.39 kent 233 1.1 jdolecek /* 234 1.26 wiz * DMA memory mgmt 235 1.1 jdolecek */ 236 1.1 jdolecek 237 1.1 jdolecek static void 238 1.16 thorpej dmamem_delete(struct dmamem *mem, struct malloc_type *type) 239 1.1 jdolecek { 240 1.40 kent 241 1.1 jdolecek free(mem->segs, type); 242 1.1 jdolecek free(mem, type); 243 1.1 jdolecek } 244 1.1 jdolecek 245 1.1 jdolecek static struct dmamem * 246 1.1 jdolecek dmamem_alloc(bus_dma_tag_t dmat, size_t size, bus_size_t align, 247 1.16 thorpej int nsegs, struct malloc_type *type, int flags) 248 1.1 jdolecek { 249 1.1 jdolecek struct dmamem *mem; 250 1.1 jdolecek int bus_dma_flags; 251 1.1 jdolecek 252 1.1 jdolecek /* Allocate memory for structure */ 253 1.1 jdolecek if ((mem = malloc(sizeof(*mem), type, flags)) == NULL) 254 1.40 kent return NULL; 255 1.1 jdolecek mem->dmat = dmat; 256 1.1 jdolecek mem->size = size; 257 1.1 jdolecek mem->align = align; 258 1.1 jdolecek mem->nsegs = nsegs; 259 1.1 jdolecek mem->bound = 0; 260 1.1 jdolecek 261 1.1 jdolecek mem->segs = malloc(mem->nsegs * sizeof(*(mem->segs)), type, flags); 262 1.1 jdolecek if (mem->segs == NULL) { 263 1.1 jdolecek free(mem, type); 264 1.40 kent return NULL; 265 1.1 jdolecek } 266 1.1 jdolecek 267 1.1 jdolecek bus_dma_flags = (flags & M_NOWAIT) ? BUS_DMA_NOWAIT : BUS_DMA_WAITOK; 268 1.1 jdolecek if (bus_dmamem_alloc(dmat, mem->size, mem->align, mem->bound, 269 1.1 jdolecek mem->segs, mem->nsegs, &(mem->rsegs), 270 1.1 jdolecek bus_dma_flags)) { 271 1.1 jdolecek dmamem_delete(mem, type); 272 1.40 kent return NULL; 273 1.1 jdolecek } 274 1.1 jdolecek 275 1.1 jdolecek if (bus_dmamem_map(dmat, mem->segs, mem->nsegs, mem->size, 276 1.1 jdolecek &(mem->kaddr), bus_dma_flags | BUS_DMA_COHERENT)) { 277 1.1 jdolecek bus_dmamem_free(dmat, mem->segs, mem->nsegs); 278 1.1 jdolecek dmamem_delete(mem, type); 279 1.40 kent return NULL; 280 1.1 jdolecek } 281 1.1 jdolecek 282 1.1 jdolecek if (bus_dmamap_create(dmat, mem->size, mem->nsegs, mem->size, 283 1.1 jdolecek mem->bound, bus_dma_flags, &(mem->map))) { 284 1.1 jdolecek bus_dmamem_unmap(dmat, mem->kaddr, mem->size); 285 1.1 jdolecek bus_dmamem_free(dmat, mem->segs, mem->nsegs); 286 1.1 jdolecek dmamem_delete(mem, type); 287 1.40 kent return NULL; 288 1.1 jdolecek } 289 1.1 jdolecek 290 1.40 kent if (bus_dmamap_load(dmat, mem->map, mem->kaddr, 291 1.1 jdolecek mem->size, NULL, bus_dma_flags)) { 292 1.1 jdolecek bus_dmamap_destroy(dmat, mem->map); 293 1.1 jdolecek bus_dmamem_unmap(dmat, mem->kaddr, mem->size); 294 1.1 jdolecek bus_dmamem_free(dmat, mem->segs, mem->nsegs); 295 1.1 jdolecek dmamem_delete(mem, type); 296 1.40 kent return NULL; 297 1.1 jdolecek } 298 1.1 jdolecek 299 1.40 kent return mem; 300 1.1 jdolecek } 301 1.1 jdolecek 302 1.1 jdolecek static void 303 1.16 thorpej dmamem_free(struct dmamem *mem, struct malloc_type *type) 304 1.1 jdolecek { 305 1.40 kent 306 1.1 jdolecek bus_dmamap_unload(mem->dmat, mem->map); 307 1.1 jdolecek bus_dmamap_destroy(mem->dmat, mem->map); 308 1.1 jdolecek bus_dmamem_unmap(mem->dmat, mem->kaddr, mem->size); 309 1.1 jdolecek bus_dmamem_free(mem->dmat, mem->segs, mem->nsegs); 310 1.1 jdolecek dmamem_delete(mem, type); 311 1.1 jdolecek } 312 1.1 jdolecek 313 1.1 jdolecek 314 1.1 jdolecek /* 315 1.1 jdolecek * Autoconf device callbacks : attach and detach 316 1.1 jdolecek */ 317 1.1 jdolecek 318 1.1 jdolecek static void 319 1.1 jdolecek emuxki_pci_shutdown(struct emuxki_softc *sc) 320 1.1 jdolecek { 321 1.40 kent 322 1.1 jdolecek if (sc->sc_ih != NULL) 323 1.1 jdolecek pci_intr_disestablish(sc->sc_pc, sc->sc_ih); 324 1.1 jdolecek if (sc->sc_ios) 325 1.1 jdolecek bus_space_unmap(sc->sc_iot, sc->sc_ioh, sc->sc_ios); 326 1.1 jdolecek } 327 1.1 jdolecek 328 1.1 jdolecek static int 329 1.1 jdolecek emuxki_scinit(struct emuxki_softc *sc) 330 1.1 jdolecek { 331 1.40 kent int err; 332 1.1 jdolecek 333 1.1 jdolecek bus_space_write_4(sc->sc_iot, sc->sc_ioh, EMU_HCFG, 334 1.1 jdolecek EMU_HCFG_LOCKSOUNDCACHE | EMU_HCFG_LOCKTANKCACHE_MASK | 335 1.1 jdolecek EMU_HCFG_MUTEBUTTONENABLE); 336 1.1 jdolecek bus_space_write_4(sc->sc_iot, sc->sc_ioh, EMU_INTE, 337 1.1 jdolecek EMU_INTE_SAMPLERATER | EMU_INTE_PCIERRENABLE); 338 1.1 jdolecek 339 1.1 jdolecek if ((err = emuxki_init(sc))) 340 1.40 kent return err; 341 1.1 jdolecek 342 1.35 christos if (sc->sc_type & EMUXKI_AUDIGY2) { 343 1.35 christos bus_space_write_4(sc->sc_iot, sc->sc_ioh, EMU_HCFG, 344 1.35 christos EMU_HCFG_AUDIOENABLE | EMU_HCFG_AC3ENABLE_CDSPDIF | 345 1.35 christos EMU_HCFG_AC3ENABLE_GPSPDIF | EMU_HCFG_AUTOMUTE); 346 1.35 christos } else if (sc->sc_type & EMUXKI_AUDIGY) { 347 1.35 christos bus_space_write_4(sc->sc_iot, sc->sc_ioh, EMU_HCFG, 348 1.35 christos EMU_HCFG_AUDIOENABLE | EMU_HCFG_AUTOMUTE); 349 1.35 christos } else { 350 1.35 christos bus_space_write_4(sc->sc_iot, sc->sc_ioh, EMU_HCFG, 351 1.42 jdolecek EMU_HCFG_AUDIOENABLE | EMU_HCFG_JOYENABLE | 352 1.35 christos EMU_HCFG_LOCKTANKCACHE_MASK | EMU_HCFG_AUTOMUTE); 353 1.35 christos } 354 1.1 jdolecek bus_space_write_4(sc->sc_iot, sc->sc_ioh, EMU_INTE, 355 1.1 jdolecek bus_space_read_4(sc->sc_iot, sc->sc_ioh, EMU_INTE) | 356 1.1 jdolecek EMU_INTE_VOLINCRENABLE | EMU_INTE_VOLDECRENABLE | 357 1.1 jdolecek EMU_INTE_MUTEENABLE); 358 1.35 christos if (sc->sc_type & EMUXKI_AUDIGY2) { 359 1.35 christos bus_space_write_4(sc->sc_iot, sc->sc_ioh, EMU_A_IOCFG, 360 1.35 christos EMU_A_IOCFG_GPOUT0 | 361 1.35 christos bus_space_read_4(sc->sc_iot, sc->sc_ioh, EMU_A_IOCFG)); 362 1.35 christos } 363 1.1 jdolecek 364 1.1 jdolecek /* No multiple voice support for now */ 365 1.54 gmcgarry sc->pvoice = sc->rvoice = NULL; 366 1.1 jdolecek 367 1.40 kent return 0; 368 1.1 jdolecek } 369 1.1 jdolecek 370 1.1 jdolecek static int 371 1.1 jdolecek emuxki_ac97_init(struct emuxki_softc *sc) 372 1.1 jdolecek { 373 1.1 jdolecek sc->hostif.arg = sc; 374 1.1 jdolecek sc->hostif.attach = emuxki_ac97_attach; 375 1.1 jdolecek sc->hostif.read = emuxki_ac97_read; 376 1.1 jdolecek sc->hostif.write = emuxki_ac97_write; 377 1.1 jdolecek sc->hostif.reset = emuxki_ac97_reset; 378 1.6 jdolecek sc->hostif.flags = emuxki_ac97_flags; 379 1.58 tsutsui return ac97_attach(&sc->hostif, sc->sc_dev); 380 1.1 jdolecek } 381 1.1 jdolecek 382 1.1 jdolecek static int 383 1.56 cegger emuxki_match(device_t parent, cfdata_t match, void *aux) 384 1.1 jdolecek { 385 1.40 kent struct pci_attach_args *pa; 386 1.1 jdolecek 387 1.40 kent pa = aux; 388 1.35 christos if (PCI_VENDOR(pa->pa_id) != PCI_VENDOR_CREATIVELABS) 389 1.35 christos return 0; 390 1.35 christos 391 1.35 christos switch (PCI_PRODUCT(pa->pa_id)) { 392 1.35 christos case PCI_PRODUCT_CREATIVELABS_SBLIVE: 393 1.35 christos case PCI_PRODUCT_CREATIVELABS_SBLIVE2: 394 1.40 kent case PCI_PRODUCT_CREATIVELABS_AUDIGY: 395 1.40 kent return 1; 396 1.35 christos default: 397 1.35 christos return 0; 398 1.32 martti } 399 1.1 jdolecek } 400 1.1 jdolecek 401 1.1 jdolecek static void 402 1.56 cegger emuxki_attach(device_t parent, device_t self, void *aux) 403 1.1 jdolecek { 404 1.40 kent struct emuxki_softc *sc; 405 1.40 kent struct pci_attach_args *pa; 406 1.40 kent char devinfo[256]; 407 1.1 jdolecek pci_intr_handle_t ih; 408 1.40 kent const char *intrstr; 409 1.1 jdolecek 410 1.57 cegger sc = device_private(self); 411 1.58 tsutsui sc->sc_dev = self; 412 1.40 kent pa = aux; 413 1.15 thorpej aprint_naive(": Audio controller\n"); 414 1.15 thorpej 415 1.1 jdolecek if (pci_mapreg_map(pa, EMU_PCI_CBIO, PCI_MAPREG_TYPE_IO, 0, 416 1.1 jdolecek &(sc->sc_iot), &(sc->sc_ioh), &(sc->sc_iob), 417 1.1 jdolecek &(sc->sc_ios))) { 418 1.15 thorpej aprint_error(": can't map iospace\n"); 419 1.1 jdolecek return; 420 1.1 jdolecek } 421 1.33 itojun pci_devinfo(pa->pa_id, pa->pa_class, 1, devinfo, sizeof(devinfo)); 422 1.15 thorpej aprint_normal(": %s\n", devinfo); 423 1.1 jdolecek 424 1.1 jdolecek sc->sc_pc = pa->pa_pc; 425 1.1 jdolecek sc->sc_dmat = pa->pa_dmat; 426 1.1 jdolecek pci_conf_write(pa->pa_pc, pa->pa_tag, PCI_COMMAND_STATUS_REG, 427 1.1 jdolecek pci_conf_read(pa->pa_pc, pa->pa_tag, 428 1.1 jdolecek (PCI_COMMAND_STATUS_REG) | PCI_COMMAND_MASTER_ENABLE)); 429 1.1 jdolecek 430 1.1 jdolecek if (pci_intr_map(pa, &ih)) { 431 1.58 tsutsui aprint_error_dev(self, "couldn't map interrupt\n"); 432 1.1 jdolecek bus_space_unmap(sc->sc_iot, sc->sc_ioh, sc->sc_ios); 433 1.1 jdolecek return; 434 1.1 jdolecek } 435 1.1 jdolecek 436 1.1 jdolecek intrstr = pci_intr_string(pa->pa_pc, ih); 437 1.1 jdolecek sc->sc_ih = pci_intr_establish(pa->pa_pc, ih, IPL_AUDIO, emuxki_intr, 438 1.1 jdolecek sc); 439 1.1 jdolecek if (sc->sc_ih == NULL) { 440 1.58 tsutsui aprint_error_dev(self, "couldn't establish interrupt"); 441 1.1 jdolecek if (intrstr != NULL) 442 1.59 njoly aprint_error(" at %s", intrstr); 443 1.59 njoly aprint_error("\n"); 444 1.1 jdolecek bus_space_unmap(sc->sc_iot, sc->sc_ioh, sc->sc_ios); 445 1.1 jdolecek return; 446 1.1 jdolecek } 447 1.58 tsutsui aprint_normal_dev(self, "interrupting at %s\n", intrstr); 448 1.35 christos 449 1.37 dsainty /* XXX it's unknown whether APS is made from Audigy as well */ 450 1.40 kent if (PCI_PRODUCT(pa->pa_id) == PCI_PRODUCT_CREATIVELABS_AUDIGY) { 451 1.40 kent sc->sc_type = EMUXKI_AUDIGY; 452 1.40 kent if (PCI_REVISION(pa->pa_class) == 0x04) { 453 1.40 kent sc->sc_type |= EMUXKI_AUDIGY2; 454 1.40 kent strlcpy(sc->sc_audv.name, "Audigy2", sizeof sc->sc_audv.name); 455 1.40 kent } else { 456 1.40 kent strlcpy(sc->sc_audv.name, "Audigy", sizeof sc->sc_audv.name); 457 1.40 kent } 458 1.40 kent } else if (pci_conf_read(pa->pa_pc, pa->pa_tag, 459 1.40 kent PCI_SUBSYS_ID_REG) == EMU_SUBSYS_APS) { 460 1.40 kent sc->sc_type = EMUXKI_APS; 461 1.40 kent strlcpy(sc->sc_audv.name, "E-mu APS", sizeof sc->sc_audv.name); 462 1.40 kent } else { 463 1.40 kent sc->sc_type = EMUXKI_SBLIVE; 464 1.40 kent strlcpy(sc->sc_audv.name, "SB Live!", sizeof sc->sc_audv.name); 465 1.40 kent } 466 1.40 kent snprintf(sc->sc_audv.version, sizeof sc->sc_audv.version, "0x%02x", 467 1.40 kent PCI_REVISION(pa->pa_class)); 468 1.40 kent strlcpy(sc->sc_audv.config, "emuxki", sizeof sc->sc_audv.config); 469 1.1 jdolecek 470 1.1 jdolecek if (emuxki_scinit(sc) || emuxki_ac97_init(sc) || 471 1.19 toshii (sc->sc_audev = audio_attach_mi(&emuxki_hw_if, sc, self)) == NULL) { 472 1.1 jdolecek emuxki_pci_shutdown(sc); 473 1.19 toshii return; 474 1.19 toshii } 475 1.19 toshii #if 0 476 1.19 toshii sc->rsourcectl.dev = 477 1.19 toshii sc->codecif->vtbl->get_portnum_by_name(sc->codec_if, AudioCrecord, 478 1.19 toshii AudioNsource, NULL); 479 1.19 toshii sc->rsourcectl.cp = AUDIO_MIXER_ENUM; 480 1.19 toshii #endif 481 1.1 jdolecek } 482 1.1 jdolecek 483 1.1 jdolecek static int 484 1.56 cegger emuxki_detach(device_t self, int flags) 485 1.1 jdolecek { 486 1.40 kent struct emuxki_softc *sc; 487 1.1 jdolecek 488 1.57 cegger sc = device_private(self); 489 1.40 kent if (sc->sc_audev != NULL) /* Test in case audio didn't attach */ 490 1.40 kent config_detach(sc->sc_audev, 0); 491 1.1 jdolecek 492 1.1 jdolecek /* All voices should be stopped now but add some code here if not */ 493 1.1 jdolecek 494 1.1 jdolecek bus_space_write_4(sc->sc_iot, sc->sc_ioh, EMU_HCFG, 495 1.1 jdolecek EMU_HCFG_LOCKSOUNDCACHE | EMU_HCFG_LOCKTANKCACHE_MASK | 496 1.1 jdolecek EMU_HCFG_MUTEBUTTONENABLE); 497 1.1 jdolecek bus_space_write_4(sc->sc_iot, sc->sc_ioh, EMU_INTE, 0); 498 1.1 jdolecek 499 1.1 jdolecek emuxki_shutdown(sc); 500 1.1 jdolecek 501 1.1 jdolecek emuxki_pci_shutdown(sc); 502 1.1 jdolecek 503 1.40 kent return 0; 504 1.1 jdolecek } 505 1.1 jdolecek 506 1.1 jdolecek 507 1.1 jdolecek /* Misc stuff relative to emu10k1 */ 508 1.1 jdolecek 509 1.40 kent static uint32_t 510 1.40 kent emuxki_rate_to_pitch(uint32_t rate) 511 1.1 jdolecek { 512 1.40 kent static const uint32_t logMagTable[128] = { 513 1.1 jdolecek 0x00000, 0x02dfc, 0x05b9e, 0x088e6, 0x0b5d6, 0x0e26f, 0x10eb3, 514 1.1 jdolecek 0x13aa2, 0x1663f, 0x1918a, 0x1bc84, 0x1e72e, 0x2118b, 0x23b9a, 515 1.1 jdolecek 0x2655d, 0x28ed5, 0x2b803, 0x2e0e8, 0x30985, 0x331db, 0x359eb, 516 1.1 jdolecek 0x381b6, 0x3a93d, 0x3d081, 0x3f782, 0x41e42, 0x444c1, 0x46b01, 517 1.1 jdolecek 0x49101, 0x4b6c4, 0x4dc49, 0x50191, 0x5269e, 0x54b6f, 0x57006, 518 1.1 jdolecek 0x59463, 0x5b888, 0x5dc74, 0x60029, 0x623a7, 0x646ee, 0x66a00, 519 1.1 jdolecek 0x68cdd, 0x6af86, 0x6d1fa, 0x6f43c, 0x7164b, 0x73829, 0x759d4, 520 1.1 jdolecek 0x77b4f, 0x79c9a, 0x7bdb5, 0x7dea1, 0x7ff5e, 0x81fed, 0x8404e, 521 1.1 jdolecek 0x86082, 0x88089, 0x8a064, 0x8c014, 0x8df98, 0x8fef1, 0x91e20, 522 1.1 jdolecek 0x93d26, 0x95c01, 0x97ab4, 0x9993e, 0x9b79f, 0x9d5d9, 0x9f3ec, 523 1.1 jdolecek 0xa11d8, 0xa2f9d, 0xa4d3c, 0xa6ab5, 0xa8808, 0xaa537, 0xac241, 524 1.1 jdolecek 0xadf26, 0xafbe7, 0xb1885, 0xb3500, 0xb5157, 0xb6d8c, 0xb899f, 525 1.1 jdolecek 0xba58f, 0xbc15e, 0xbdd0c, 0xbf899, 0xc1404, 0xc2f50, 0xc4a7b, 526 1.1 jdolecek 0xc6587, 0xc8073, 0xc9b3f, 0xcb5ed, 0xcd07c, 0xceaec, 0xd053f, 527 1.1 jdolecek 0xd1f73, 0xd398a, 0xd5384, 0xd6d60, 0xd8720, 0xda0c3, 0xdba4a, 528 1.1 jdolecek 0xdd3b4, 0xded03, 0xe0636, 0xe1f4e, 0xe384a, 0xe512c, 0xe69f3, 529 1.1 jdolecek 0xe829f, 0xe9b31, 0xeb3a9, 0xecc08, 0xee44c, 0xefc78, 0xf148a, 530 1.1 jdolecek 0xf2c83, 0xf4463, 0xf5c2a, 0xf73da, 0xf8b71, 0xfa2f0, 0xfba57, 531 1.1 jdolecek 0xfd1a7, 0xfe8df 532 1.1 jdolecek }; 533 1.40 kent static const uint8_t logSlopeTable[128] = { 534 1.1 jdolecek 0x5c, 0x5c, 0x5b, 0x5a, 0x5a, 0x59, 0x58, 0x58, 535 1.1 jdolecek 0x57, 0x56, 0x56, 0x55, 0x55, 0x54, 0x53, 0x53, 536 1.1 jdolecek 0x52, 0x52, 0x51, 0x51, 0x50, 0x50, 0x4f, 0x4f, 537 1.1 jdolecek 0x4e, 0x4d, 0x4d, 0x4d, 0x4c, 0x4c, 0x4b, 0x4b, 538 1.1 jdolecek 0x4a, 0x4a, 0x49, 0x49, 0x48, 0x48, 0x47, 0x47, 539 1.1 jdolecek 0x47, 0x46, 0x46, 0x45, 0x45, 0x45, 0x44, 0x44, 540 1.1 jdolecek 0x43, 0x43, 0x43, 0x42, 0x42, 0x42, 0x41, 0x41, 541 1.1 jdolecek 0x41, 0x40, 0x40, 0x40, 0x3f, 0x3f, 0x3f, 0x3e, 542 1.1 jdolecek 0x3e, 0x3e, 0x3d, 0x3d, 0x3d, 0x3c, 0x3c, 0x3c, 543 1.1 jdolecek 0x3b, 0x3b, 0x3b, 0x3b, 0x3a, 0x3a, 0x3a, 0x39, 544 1.1 jdolecek 0x39, 0x39, 0x39, 0x38, 0x38, 0x38, 0x38, 0x37, 545 1.1 jdolecek 0x37, 0x37, 0x37, 0x36, 0x36, 0x36, 0x36, 0x35, 546 1.1 jdolecek 0x35, 0x35, 0x35, 0x34, 0x34, 0x34, 0x34, 0x34, 547 1.1 jdolecek 0x33, 0x33, 0x33, 0x33, 0x32, 0x32, 0x32, 0x32, 548 1.1 jdolecek 0x32, 0x31, 0x31, 0x31, 0x31, 0x31, 0x30, 0x30, 549 1.1 jdolecek 0x30, 0x30, 0x30, 0x2f, 0x2f, 0x2f, 0x2f, 0x2f 550 1.1 jdolecek }; 551 1.40 kent int8_t i; 552 1.1 jdolecek 553 1.1 jdolecek if (rate == 0) 554 1.1 jdolecek return 0; /* Bail out if no leading "1" */ 555 1.1 jdolecek rate *= 11185; /* Scale 48000 to 0x20002380 */ 556 1.1 jdolecek for (i = 31; i > 0; i--) { 557 1.1 jdolecek if (rate & 0x80000000) { /* Detect leading "1" */ 558 1.40 kent return (((uint32_t) (i - 15) << 20) + 559 1.1 jdolecek logMagTable[0x7f & (rate >> 24)] + 560 1.1 jdolecek (0x7f & (rate >> 17)) * 561 1.1 jdolecek logSlopeTable[0x7f & (rate >> 24)]); 562 1.1 jdolecek } 563 1.1 jdolecek rate <<= 1; 564 1.1 jdolecek } 565 1.1 jdolecek 566 1.1 jdolecek return 0; /* Should never reach this point */ 567 1.1 jdolecek } 568 1.1 jdolecek 569 1.1 jdolecek /* Emu10k1 Low level */ 570 1.1 jdolecek 571 1.40 kent static uint32_t 572 1.40 kent emuxki_read(struct emuxki_softc *sc, uint16_t chano, uint32_t reg) 573 1.1 jdolecek { 574 1.40 kent uint32_t ptr, mask; 575 1.40 kent uint8_t size, offset; 576 1.40 kent int s; 577 1.1 jdolecek 578 1.40 kent mask = 0xffffffff; 579 1.40 kent offset = 0; 580 1.35 christos ptr = ((((u_int32_t) reg) << 16) & 581 1.35 christos (sc->sc_type & EMUXKI_AUDIGY ? 582 1.35 christos EMU_A_PTR_ADDR_MASK : EMU_PTR_ADDR_MASK)) | 583 1.1 jdolecek (chano & EMU_PTR_CHNO_MASK); 584 1.1 jdolecek if (reg & 0xff000000) { 585 1.1 jdolecek size = (reg >> 24) & 0x3f; 586 1.1 jdolecek offset = (reg >> 16) & 0x1f; 587 1.1 jdolecek mask = ((1 << size) - 1) << offset; 588 1.1 jdolecek } 589 1.1 jdolecek 590 1.1 jdolecek s = splaudio(); 591 1.1 jdolecek bus_space_write_4(sc->sc_iot, sc->sc_ioh, EMU_PTR, ptr); 592 1.1 jdolecek ptr = (bus_space_read_4(sc->sc_iot, sc->sc_ioh, EMU_DATA) & mask) 593 1.1 jdolecek >> offset; 594 1.1 jdolecek splx(s); 595 1.1 jdolecek 596 1.40 kent return ptr; 597 1.1 jdolecek } 598 1.1 jdolecek 599 1.1 jdolecek static void 600 1.40 kent emuxki_write(struct emuxki_softc *sc, uint16_t chano, 601 1.40 kent uint32_t reg, uint32_t data) 602 1.1 jdolecek { 603 1.40 kent uint32_t ptr, mask; 604 1.40 kent uint8_t size, offset; 605 1.40 kent int s; 606 1.1 jdolecek 607 1.35 christos ptr = ((((u_int32_t) reg) << 16) & 608 1.35 christos (sc->sc_type & EMUXKI_AUDIGY ? 609 1.35 christos EMU_A_PTR_ADDR_MASK : EMU_PTR_ADDR_MASK)) | 610 1.1 jdolecek (chano & EMU_PTR_CHNO_MASK); 611 1.1 jdolecek if (reg & 0xff000000) { 612 1.1 jdolecek size = (reg >> 24) & 0x3f; 613 1.1 jdolecek offset = (reg >> 16) & 0x1f; 614 1.1 jdolecek mask = ((1 << size) - 1) << offset; 615 1.1 jdolecek data = ((data << offset) & mask) | 616 1.1 jdolecek (emuxki_read(sc, chano, reg & 0xffff) & ~mask); 617 1.1 jdolecek } 618 1.1 jdolecek 619 1.1 jdolecek s = splaudio(); 620 1.1 jdolecek bus_space_write_4(sc->sc_iot, sc->sc_ioh, EMU_PTR, ptr); 621 1.1 jdolecek bus_space_write_4(sc->sc_iot, sc->sc_ioh, EMU_DATA, data); 622 1.1 jdolecek splx(s); 623 1.1 jdolecek } 624 1.1 jdolecek 625 1.1 jdolecek /* Microcode should this go in /sys/dev/microcode ? */ 626 1.1 jdolecek 627 1.1 jdolecek static void 628 1.40 kent emuxki_write_micro(struct emuxki_softc *sc, uint32_t pc, uint32_t data) 629 1.1 jdolecek { 630 1.40 kent 631 1.35 christos emuxki_write(sc, 0, 632 1.35 christos (sc->sc_type & EMUXKI_AUDIGY ? 633 1.35 christos EMU_A_MICROCODEBASE : EMU_MICROCODEBASE) + pc, 634 1.35 christos data); 635 1.1 jdolecek } 636 1.1 jdolecek 637 1.1 jdolecek static void 638 1.40 kent emuxki_dsp_addop(struct emuxki_softc *sc, uint16_t *pc, uint8_t op, 639 1.40 kent uint16_t r, uint16_t a, uint16_t x, uint16_t y) 640 1.1 jdolecek { 641 1.40 kent 642 1.35 christos if (sc->sc_type & EMUXKI_AUDIGY) { 643 1.35 christos emuxki_write_micro(sc, *pc << 1, 644 1.35 christos ((x << 12) & EMU_A_DSP_LOWORD_OPX_MASK) | 645 1.35 christos (y & EMU_A_DSP_LOWORD_OPY_MASK)); 646 1.35 christos emuxki_write_micro(sc, (*pc << 1) + 1, 647 1.35 christos ((op << 24) & EMU_A_DSP_HIWORD_OPCODE_MASK) | 648 1.35 christos ((r << 12) & EMU_A_DSP_HIWORD_RESULT_MASK) | 649 1.35 christos (a & EMU_A_DSP_HIWORD_OPA_MASK)); 650 1.35 christos } else { 651 1.35 christos emuxki_write_micro(sc, *pc << 1, 652 1.35 christos ((x << 10) & EMU_DSP_LOWORD_OPX_MASK) | 653 1.35 christos (y & EMU_DSP_LOWORD_OPY_MASK)); 654 1.35 christos emuxki_write_micro(sc, (*pc << 1) + 1, 655 1.35 christos ((op << 20) & EMU_DSP_HIWORD_OPCODE_MASK) | 656 1.35 christos ((r << 10) & EMU_DSP_HIWORD_RESULT_MASK) | 657 1.35 christos (a & EMU_DSP_HIWORD_OPA_MASK)); 658 1.35 christos } 659 1.40 kent (*pc)++; 660 1.1 jdolecek } 661 1.1 jdolecek 662 1.1 jdolecek /* init and shutdown */ 663 1.1 jdolecek 664 1.1 jdolecek static void 665 1.1 jdolecek emuxki_initfx(struct emuxki_softc *sc) 666 1.1 jdolecek { 667 1.40 kent uint16_t pc; 668 1.1 jdolecek 669 1.1 jdolecek /* Set all GPRs to 0 */ 670 1.1 jdolecek for (pc = 0; pc < 256; pc++) 671 1.1 jdolecek emuxki_write(sc, 0, EMU_DSP_GPR(pc), 0); 672 1.1 jdolecek for (pc = 0; pc < 160; pc++) { 673 1.1 jdolecek emuxki_write(sc, 0, EMU_TANKMEMDATAREGBASE + pc, 0); 674 1.1 jdolecek emuxki_write(sc, 0, EMU_TANKMEMADDRREGBASE + pc, 0); 675 1.1 jdolecek } 676 1.1 jdolecek pc = 0; 677 1.1 jdolecek 678 1.35 christos if (sc->sc_type & EMUXKI_AUDIGY) { 679 1.35 christos /* AC97 Out (l/r) = AC97 In (l/r) + FX[0/1] * 4 */ 680 1.35 christos emuxki_dsp_addop(sc, &pc, EMU_DSP_OP_MACINTS, 681 1.35 christos EMU_A_DSP_OUTL(EMU_A_DSP_OUT_A_FRONT), 682 1.35 christos EMU_A_DSP_CST(0), 683 1.35 christos EMU_DSP_FX(0), EMU_A_DSP_CST(4)); 684 1.35 christos emuxki_dsp_addop(sc, &pc, EMU_DSP_OP_MACINTS, 685 1.35 christos EMU_A_DSP_OUTR(EMU_A_DSP_OUT_A_FRONT), 686 1.35 christos EMU_A_DSP_CST(0), 687 1.35 christos EMU_DSP_FX(1), EMU_A_DSP_CST(4)); 688 1.35 christos 689 1.35 christos /* Rear channel OUT (l/r) = FX[2/3] * 4 */ 690 1.1 jdolecek #if 0 691 1.35 christos emuxki_dsp_addop(sc, &pc, EMU_DSP_OP_MACINTS, 692 1.35 christos EMU_A_DSP_OUTL(EMU_A_DSP_OUT_A_REAR), 693 1.35 christos EMU_A_DSP_OUTL(EMU_A_DSP_OUT_A_FRONT), 694 1.35 christos EMU_DSP_FX(0), EMU_A_DSP_CST(4)); 695 1.35 christos emuxki_dsp_addop(sc, &pc, EMU_DSP_OP_MACINTS, 696 1.35 christos EMU_A_DSP_OUTR(EMU_A_DSP_OUT_A_REAR), 697 1.35 christos EMU_A_DSP_OUTR(EMU_A_DSP_OUT_A_FRONT), 698 1.35 christos EMU_DSP_FX(1), EMU_A_DSP_CST(4)); 699 1.35 christos #endif 700 1.35 christos /* ADC recording (l/r) = AC97 In (l/r) */ 701 1.35 christos emuxki_dsp_addop(sc, &pc, EMU_DSP_OP_ACC3, 702 1.35 christos EMU_A_DSP_OUTL(EMU_A_DSP_OUT_ADC), 703 1.35 christos EMU_A_DSP_INL(EMU_DSP_IN_AC97), 704 1.35 christos EMU_A_DSP_CST(0), EMU_A_DSP_CST(0)); 705 1.35 christos emuxki_dsp_addop(sc, &pc, EMU_DSP_OP_ACC3, 706 1.35 christos EMU_A_DSP_OUTR(EMU_A_DSP_OUT_ADC), 707 1.35 christos EMU_A_DSP_INR(EMU_DSP_IN_AC97), 708 1.35 christos EMU_A_DSP_CST(0), EMU_A_DSP_CST(0)); 709 1.35 christos 710 1.35 christos /* zero out the rest of the microcode */ 711 1.35 christos while (pc < 512) 712 1.35 christos emuxki_dsp_addop(sc, &pc, EMU_DSP_OP_ACC3, 713 1.35 christos EMU_A_DSP_CST(0), EMU_A_DSP_CST(0), 714 1.35 christos EMU_A_DSP_CST(0), EMU_A_DSP_CST(0)); 715 1.35 christos 716 1.35 christos emuxki_write(sc, 0, EMU_A_DBG, 0); /* Is it really necessary ? */ 717 1.35 christos } else { 718 1.35 christos /* AC97 Out (l/r) = AC97 In (l/r) + FX[0/1] * 4 */ 719 1.35 christos emuxki_dsp_addop(sc, &pc, EMU_DSP_OP_MACINTS, 720 1.35 christos EMU_DSP_OUTL(EMU_DSP_OUT_A_FRONT), 721 1.35 christos EMU_DSP_CST(0), 722 1.35 christos EMU_DSP_FX(0), EMU_DSP_CST(4)); 723 1.35 christos emuxki_dsp_addop(sc, &pc, EMU_DSP_OP_MACINTS, 724 1.35 christos EMU_DSP_OUTR(EMU_DSP_OUT_A_FRONT), 725 1.35 christos EMU_DSP_CST(0), 726 1.35 christos EMU_DSP_FX(1), EMU_DSP_CST(4)); 727 1.35 christos 728 1.35 christos /* Rear channel OUT (l/r) = FX[2/3] * 4 */ 729 1.35 christos #if 0 730 1.35 christos emuxki_dsp_addop(sc, &pc, EMU_DSP_OP_MACINTS, 731 1.35 christos EMU_DSP_OUTL(EMU_DSP_OUT_AD_REAR), 732 1.35 christos EMU_DSP_OUTL(EMU_DSP_OUT_A_FRONT), 733 1.35 christos EMU_DSP_FX(0), EMU_DSP_CST(4)); 734 1.35 christos emuxki_dsp_addop(sc, &pc, EMU_DSP_OP_MACINTS, 735 1.35 christos EMU_DSP_OUTR(EMU_DSP_OUT_AD_REAR), 736 1.35 christos EMU_DSP_OUTR(EMU_DSP_OUT_A_FRONT), 737 1.35 christos EMU_DSP_FX(1), EMU_DSP_CST(4)); 738 1.35 christos #endif 739 1.35 christos /* ADC recording (l/r) = AC97 In (l/r) */ 740 1.1 jdolecek emuxki_dsp_addop(sc, &pc, EMU_DSP_OP_ACC3, 741 1.35 christos EMU_DSP_OUTL(EMU_DSP_OUT_ADC), 742 1.35 christos EMU_DSP_INL(EMU_DSP_IN_AC97), 743 1.1 jdolecek EMU_DSP_CST(0), EMU_DSP_CST(0)); 744 1.35 christos emuxki_dsp_addop(sc, &pc, EMU_DSP_OP_ACC3, 745 1.35 christos EMU_DSP_OUTR(EMU_DSP_OUT_ADC), 746 1.35 christos EMU_DSP_INR(EMU_DSP_IN_AC97), 747 1.35 christos EMU_DSP_CST(0), EMU_DSP_CST(0)); 748 1.35 christos 749 1.35 christos /* zero out the rest of the microcode */ 750 1.35 christos while (pc < 512) 751 1.35 christos emuxki_dsp_addop(sc, &pc, EMU_DSP_OP_ACC3, 752 1.35 christos EMU_DSP_CST(0), EMU_DSP_CST(0), 753 1.35 christos EMU_DSP_CST(0), EMU_DSP_CST(0)); 754 1.1 jdolecek 755 1.35 christos emuxki_write(sc, 0, EMU_DBG, 0); /* Is it really necessary ? */ 756 1.35 christos } 757 1.1 jdolecek } 758 1.1 jdolecek 759 1.1 jdolecek static int 760 1.1 jdolecek emuxki_init(struct emuxki_softc *sc) 761 1.1 jdolecek { 762 1.40 kent uint16_t i; 763 1.40 kent uint32_t spcs, *ptb; 764 1.40 kent bus_addr_t silentpage; 765 1.1 jdolecek 766 1.1 jdolecek /* disable any channel interrupt */ 767 1.1 jdolecek emuxki_write(sc, 0, EMU_CLIEL, 0); 768 1.1 jdolecek emuxki_write(sc, 0, EMU_CLIEH, 0); 769 1.1 jdolecek emuxki_write(sc, 0, EMU_SOLEL, 0); 770 1.1 jdolecek emuxki_write(sc, 0, EMU_SOLEH, 0); 771 1.1 jdolecek 772 1.1 jdolecek /* Set recording buffers sizes to zero */ 773 1.1 jdolecek emuxki_write(sc, 0, EMU_MICBS, EMU_RECBS_BUFSIZE_NONE); 774 1.1 jdolecek emuxki_write(sc, 0, EMU_MICBA, 0); 775 1.1 jdolecek emuxki_write(sc, 0, EMU_FXBS, EMU_RECBS_BUFSIZE_NONE); 776 1.1 jdolecek emuxki_write(sc, 0, EMU_FXBA, 0); 777 1.1 jdolecek emuxki_write(sc, 0, EMU_ADCBS, EMU_RECBS_BUFSIZE_NONE); 778 1.1 jdolecek emuxki_write(sc, 0, EMU_ADCBA, 0); 779 1.1 jdolecek 780 1.40 kent if(sc->sc_type & EMUXKI_AUDIGY) { 781 1.40 kent emuxki_write(sc, 0, EMU_SPBYPASS, EMU_SPBYPASS_24_BITS); 782 1.40 kent emuxki_write(sc, 0, EMU_AC97SLOT, EMU_AC97SLOT_CENTER | EMU_AC97SLOT_LFE); 783 1.40 kent } 784 1.35 christos 785 1.1 jdolecek /* Initialize all channels to stopped and no effects */ 786 1.1 jdolecek for (i = 0; i < EMU_NUMCHAN; i++) { 787 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_DCYSUSV, 0); 788 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_IP, 0); 789 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_VTFT, 0xffff); 790 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_CVCF, 0xffff); 791 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_PTRX, 0); 792 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_CPF, 0); 793 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_CCR, 0); 794 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_PSST, 0); 795 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_DSL, 0x10); /* Why 16 ? */ 796 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_CCCA, 0); 797 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_Z1, 0); 798 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_Z2, 0); 799 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_FXRT, 0x32100000); 800 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_ATKHLDM, 0); 801 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_DCYSUSM, 0); 802 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_IFATN, 0xffff); 803 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_PEFE, 0); 804 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_FMMOD, 0); 805 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_TREMFRQ, 24); 806 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_FM2FRQ2, 24); 807 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_TEMPENV, 0); 808 1.1 jdolecek 809 1.1 jdolecek /* these are last so OFF prevents writing */ 810 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_LFOVAL2, 0); 811 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_LFOVAL1, 0); 812 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_ATKHLDV, 0); 813 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_ENVVOL, 0); 814 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_ENVVAL, 0); 815 1.1 jdolecek } 816 1.1 jdolecek 817 1.1 jdolecek /* set digital outputs format */ 818 1.1 jdolecek spcs = (EMU_SPCS_CLKACCY_1000PPM | EMU_SPCS_SAMPLERATE_48 | 819 1.1 jdolecek EMU_SPCS_CHANNELNUM_LEFT | EMU_SPCS_SOURCENUM_UNSPEC | 820 1.1 jdolecek EMU_SPCS_GENERATIONSTATUS | 0x00001200 /* Cat code. */ | 821 1.1 jdolecek 0x00000000 /* IEC-958 Mode */ | EMU_SPCS_EMPHASIS_NONE | 822 1.1 jdolecek EMU_SPCS_COPYRIGHT); 823 1.1 jdolecek emuxki_write(sc, 0, EMU_SPCS0, spcs); 824 1.1 jdolecek emuxki_write(sc, 0, EMU_SPCS1, spcs); 825 1.1 jdolecek emuxki_write(sc, 0, EMU_SPCS2, spcs); 826 1.1 jdolecek 827 1.40 kent if(sc->sc_type & EMUXKI_AUDIGY2) { 828 1.40 kent emuxki_write(sc, 0, EMU_A2_SPDIF_SAMPLERATE, EMU_A2_SPDIF_UNKNOWN); 829 1.35 christos 830 1.40 kent bus_space_write_4(sc->sc_iot, sc->sc_ioh, EMU_A2_PTR, EMU_A2_SRCSEL); 831 1.41 perry bus_space_write_4(sc->sc_iot, sc->sc_ioh, EMU_A2_DATA, 832 1.40 kent EMU_A2_SRCSEL_ENABLE_SPDIF | EMU_A2_SRCSEL_ENABLE_SRCMULTI); 833 1.40 kent 834 1.40 kent bus_space_write_4(sc->sc_iot, sc->sc_ioh, EMU_A2_PTR, EMU_A2_SRCMULTI); 835 1.40 kent bus_space_write_4(sc->sc_iot, sc->sc_ioh, EMU_A2_DATA, EMU_A2_SRCMULTI_ENABLE_INPUT); 836 1.40 kent } 837 1.35 christos 838 1.35 christos 839 1.1 jdolecek /* Let's play with sound processor */ 840 1.1 jdolecek emuxki_initfx(sc); 841 1.1 jdolecek 842 1.1 jdolecek /* Here is our Page Table */ 843 1.1 jdolecek if ((sc->ptb = dmamem_alloc(sc->sc_dmat, 844 1.1 jdolecek EMU_MAXPTE * sizeof(u_int32_t), 845 1.1 jdolecek EMU_DMA_ALIGN, EMU_DMAMEM_NSEG, 846 1.1 jdolecek M_DEVBUF, M_WAITOK)) == NULL) 847 1.40 kent return ENOMEM; 848 1.1 jdolecek 849 1.1 jdolecek /* This is necessary unless you like Metallic noise... */ 850 1.1 jdolecek if ((sc->silentpage = dmamem_alloc(sc->sc_dmat, EMU_PTESIZE, 851 1.1 jdolecek EMU_DMA_ALIGN, EMU_DMAMEM_NSEG, M_DEVBUF, M_WAITOK))==NULL){ 852 1.1 jdolecek dmamem_free(sc->ptb, M_DEVBUF); 853 1.40 kent return ENOMEM; 854 1.1 jdolecek } 855 1.1 jdolecek 856 1.1 jdolecek /* Zero out the silent page */ 857 1.1 jdolecek /* This might not be always true, it might be 128 for 8bit channels */ 858 1.1 jdolecek memset(KERNADDR(sc->silentpage), 0, DMASIZE(sc->silentpage)); 859 1.1 jdolecek 860 1.1 jdolecek /* 861 1.1 jdolecek * Set all the PTB Entries to the silent page We shift the physical 862 1.1 jdolecek * address by one and OR it with the page number. I don't know what 863 1.1 jdolecek * the ORed index is for, might be a very useful unused feature... 864 1.1 jdolecek */ 865 1.1 jdolecek silentpage = DMAADDR(sc->silentpage) << 1; 866 1.1 jdolecek ptb = KERNADDR(sc->ptb); 867 1.1 jdolecek for (i = 0; i < EMU_MAXPTE; i++) 868 1.34 tsutsui ptb[i] = htole32(silentpage | i); 869 1.1 jdolecek 870 1.1 jdolecek /* Write PTB address and set TCB to none */ 871 1.1 jdolecek emuxki_write(sc, 0, EMU_PTB, DMAADDR(sc->ptb)); 872 1.1 jdolecek emuxki_write(sc, 0, EMU_TCBS, 0); /* This means 16K TCB */ 873 1.1 jdolecek emuxki_write(sc, 0, EMU_TCB, 0); /* No TCB use for now */ 874 1.1 jdolecek 875 1.1 jdolecek /* 876 1.1 jdolecek * Set channels MAPs to the silent page. 877 1.1 jdolecek * I don't know what MAPs are for. 878 1.1 jdolecek */ 879 1.1 jdolecek silentpage |= EMU_CHAN_MAP_PTI_MASK; 880 1.1 jdolecek for (i = 0; i < EMU_NUMCHAN; i++) { 881 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_MAPA, silentpage); 882 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_MAPB, silentpage); 883 1.1 jdolecek sc->channel[i] = NULL; 884 1.1 jdolecek } 885 1.1 jdolecek 886 1.1 jdolecek /* Init voices list */ 887 1.1 jdolecek LIST_INIT(&(sc->voices)); 888 1.1 jdolecek 889 1.1 jdolecek /* Timer is stopped */ 890 1.1 jdolecek sc->timerstate &= ~EMU_TIMER_STATE_ENABLED; 891 1.40 kent return 0; 892 1.1 jdolecek } 893 1.1 jdolecek 894 1.1 jdolecek static void 895 1.1 jdolecek emuxki_shutdown(struct emuxki_softc *sc) 896 1.1 jdolecek { 897 1.40 kent uint32_t i; 898 1.1 jdolecek 899 1.1 jdolecek /* Disable any Channels interrupts */ 900 1.1 jdolecek emuxki_write(sc, 0, EMU_CLIEL, 0); 901 1.1 jdolecek emuxki_write(sc, 0, EMU_CLIEH, 0); 902 1.1 jdolecek emuxki_write(sc, 0, EMU_SOLEL, 0); 903 1.1 jdolecek emuxki_write(sc, 0, EMU_SOLEH, 0); 904 1.1 jdolecek 905 1.1 jdolecek /* 906 1.1 jdolecek * Should do some voice(stream) stopping stuff here, that's what will 907 1.1 jdolecek * stop and deallocate all channels. 908 1.1 jdolecek */ 909 1.1 jdolecek 910 1.1 jdolecek /* Stop all channels */ 911 1.1 jdolecek /* XXX This shouldn't be necessary, I'll remove once everything works */ 912 1.1 jdolecek for (i = 0; i < EMU_NUMCHAN; i++) 913 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_DCYSUSV, 0); 914 1.1 jdolecek for (i = 0; i < EMU_NUMCHAN; i++) { 915 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_VTFT, 0); 916 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_CVCF, 0); 917 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_PTRX, 0); 918 1.1 jdolecek emuxki_write(sc, i, EMU_CHAN_CPF, 0); 919 1.1 jdolecek } 920 1.1 jdolecek 921 1.1 jdolecek /* 922 1.1 jdolecek * Deallocate Emu10k1 caches and recording buffers. Again it will be 923 1.1 jdolecek * removed because it will be done in voice shutdown. 924 1.1 jdolecek */ 925 1.1 jdolecek emuxki_write(sc, 0, EMU_MICBS, EMU_RECBS_BUFSIZE_NONE); 926 1.1 jdolecek emuxki_write(sc, 0, EMU_MICBA, 0); 927 1.1 jdolecek emuxki_write(sc, 0, EMU_FXBS, EMU_RECBS_BUFSIZE_NONE); 928 1.1 jdolecek emuxki_write(sc, 0, EMU_FXBA, 0); 929 1.40 kent if(sc->sc_type & EMUXKI_AUDIGY) { 930 1.40 kent emuxki_write(sc, 0, EMU_A_FXWC1, 0); 931 1.40 kent emuxki_write(sc, 0, EMU_A_FXWC2, 0); 932 1.40 kent } else { 933 1.40 kent emuxki_write(sc, 0, EMU_FXWC, 0); 934 1.40 kent } 935 1.1 jdolecek emuxki_write(sc, 0, EMU_ADCBS, EMU_RECBS_BUFSIZE_NONE); 936 1.1 jdolecek emuxki_write(sc, 0, EMU_ADCBA, 0); 937 1.1 jdolecek 938 1.1 jdolecek /* 939 1.1 jdolecek * XXX I don't know yet how I will handle tank cache buffer, 940 1.1 jdolecek * I don't even clearly know what it is for. 941 1.1 jdolecek */ 942 1.1 jdolecek emuxki_write(sc, 0, EMU_TCB, 0); /* 16K again */ 943 1.1 jdolecek emuxki_write(sc, 0, EMU_TCBS, 0); 944 1.1 jdolecek 945 1.1 jdolecek emuxki_write(sc, 0, EMU_DBG, 0x8000); /* necessary ? */ 946 1.1 jdolecek 947 1.1 jdolecek dmamem_free(sc->silentpage, M_DEVBUF); 948 1.1 jdolecek dmamem_free(sc->ptb, M_DEVBUF); 949 1.1 jdolecek } 950 1.1 jdolecek 951 1.25 wiz /* Emu10k1 Memory management */ 952 1.1 jdolecek 953 1.1 jdolecek static struct emuxki_mem * 954 1.1 jdolecek emuxki_mem_new(struct emuxki_softc *sc, int ptbidx, 955 1.40 kent size_t size, struct malloc_type *type, int flags) 956 1.1 jdolecek { 957 1.1 jdolecek struct emuxki_mem *mem; 958 1.1 jdolecek 959 1.1 jdolecek if ((mem = malloc(sizeof(*mem), type, flags)) == NULL) 960 1.40 kent return NULL; 961 1.1 jdolecek 962 1.1 jdolecek mem->ptbidx = ptbidx; 963 1.1 jdolecek if ((mem->dmamem = dmamem_alloc(sc->sc_dmat, size, EMU_DMA_ALIGN, 964 1.1 jdolecek EMU_DMAMEM_NSEG, type, flags)) == NULL) { 965 1.1 jdolecek free(mem, type); 966 1.40 kent return NULL; 967 1.1 jdolecek } 968 1.40 kent return mem; 969 1.1 jdolecek } 970 1.1 jdolecek 971 1.1 jdolecek static void 972 1.16 thorpej emuxki_mem_delete(struct emuxki_mem *mem, struct malloc_type *type) 973 1.1 jdolecek { 974 1.40 kent 975 1.1 jdolecek dmamem_free(mem->dmamem, type); 976 1.1 jdolecek free(mem, type); 977 1.1 jdolecek } 978 1.1 jdolecek 979 1.1 jdolecek static void * 980 1.16 thorpej emuxki_pmem_alloc(struct emuxki_softc *sc, size_t size, 981 1.16 thorpej struct malloc_type *type, int flags) 982 1.1 jdolecek { 983 1.40 kent int i, j, s; 984 1.40 kent size_t numblocks; 985 1.1 jdolecek struct emuxki_mem *mem; 986 1.40 kent uint32_t *ptb, silentpage; 987 1.1 jdolecek 988 1.1 jdolecek ptb = KERNADDR(sc->ptb); 989 1.1 jdolecek silentpage = DMAADDR(sc->silentpage) << 1; 990 1.1 jdolecek numblocks = size / EMU_PTESIZE; 991 1.1 jdolecek if (size % EMU_PTESIZE) 992 1.1 jdolecek numblocks++; 993 1.1 jdolecek 994 1.1 jdolecek for (i = 0; i < EMU_MAXPTE; i++) 995 1.34 tsutsui if ((le32toh(ptb[i]) & EMU_CHAN_MAP_PTE_MASK) == silentpage) { 996 1.1 jdolecek /* We look for a free PTE */ 997 1.1 jdolecek s = splaudio(); 998 1.1 jdolecek for (j = 0; j < numblocks; j++) 999 1.34 tsutsui if ((le32toh(ptb[i + j]) 1000 1.34 tsutsui & EMU_CHAN_MAP_PTE_MASK) != silentpage) 1001 1.1 jdolecek break; 1002 1.1 jdolecek if (j == numblocks) { 1003 1.1 jdolecek if ((mem = emuxki_mem_new(sc, i, 1004 1.1 jdolecek size, type, flags)) == NULL) { 1005 1.1 jdolecek splx(s); 1006 1.40 kent return NULL; 1007 1.1 jdolecek } 1008 1.1 jdolecek for (j = 0; j < numblocks; j++) 1009 1.1 jdolecek ptb[i + j] = 1010 1.34 tsutsui htole32((((DMAADDR(mem->dmamem) + 1011 1.34 tsutsui j * EMU_PTESIZE)) << 1) | (i + j)); 1012 1.1 jdolecek LIST_INSERT_HEAD(&(sc->mem), mem, next); 1013 1.1 jdolecek splx(s); 1014 1.1 jdolecek return (KERNADDR(mem->dmamem)); 1015 1.1 jdolecek } else 1016 1.1 jdolecek i += j; 1017 1.1 jdolecek splx(s); 1018 1.1 jdolecek } 1019 1.40 kent return NULL; 1020 1.1 jdolecek } 1021 1.1 jdolecek 1022 1.1 jdolecek static void * 1023 1.16 thorpej emuxki_rmem_alloc(struct emuxki_softc *sc, size_t size, 1024 1.16 thorpej struct malloc_type *type, int flags) 1025 1.1 jdolecek { 1026 1.1 jdolecek struct emuxki_mem *mem; 1027 1.40 kent int s; 1028 1.1 jdolecek 1029 1.1 jdolecek mem = emuxki_mem_new(sc, EMU_RMEM, size, type, flags); 1030 1.1 jdolecek if (mem == NULL) 1031 1.40 kent return NULL; 1032 1.1 jdolecek 1033 1.1 jdolecek s = splaudio(); 1034 1.1 jdolecek LIST_INSERT_HEAD(&(sc->mem), mem, next); 1035 1.1 jdolecek splx(s); 1036 1.1 jdolecek 1037 1.40 kent return KERNADDR(mem->dmamem); 1038 1.1 jdolecek } 1039 1.1 jdolecek 1040 1.1 jdolecek /* 1041 1.25 wiz * emuxki_channel_* : Channel management functions 1042 1.1 jdolecek * emuxki_chanparms_* : Channel parameters modification functions 1043 1.1 jdolecek */ 1044 1.1 jdolecek 1045 1.1 jdolecek /* 1046 1.1 jdolecek * is splaudio necessary here, can the same voice be manipulated by two 1047 1.1 jdolecek * different threads at a time ? 1048 1.1 jdolecek */ 1049 1.1 jdolecek static void 1050 1.1 jdolecek emuxki_chanparms_set_defaults(struct emuxki_channel *chan) 1051 1.1 jdolecek { 1052 1.40 kent 1053 1.1 jdolecek chan->fxsend.a.level = chan->fxsend.b.level = 1054 1.35 christos chan->fxsend.c.level = chan->fxsend.d.level = 1055 1.35 christos /* for audigy */ 1056 1.35 christos chan->fxsend.e.level = chan->fxsend.f.level = 1057 1.35 christos chan->fxsend.g.level = chan->fxsend.h.level = 1058 1.35 christos chan->voice->sc->sc_type & EMUXKI_AUDIGY ? 1059 1.35 christos 0xc0 : 0xff; /* not max */ 1060 1.35 christos 1061 1.1 jdolecek chan->fxsend.a.dest = 0x0; 1062 1.1 jdolecek chan->fxsend.b.dest = 0x1; 1063 1.1 jdolecek chan->fxsend.c.dest = 0x2; 1064 1.1 jdolecek chan->fxsend.d.dest = 0x3; 1065 1.35 christos /* for audigy */ 1066 1.35 christos chan->fxsend.e.dest = 0x4; 1067 1.35 christos chan->fxsend.f.dest = 0x5; 1068 1.35 christos chan->fxsend.g.dest = 0x6; 1069 1.35 christos chan->fxsend.h.dest = 0x7; 1070 1.1 jdolecek 1071 1.17 wiz chan->pitch.initial = 0x0000; /* shouldn't it be 0xE000 ? */ 1072 1.1 jdolecek chan->pitch.current = 0x0000; /* should it be 0x0400 */ 1073 1.1 jdolecek chan->pitch.target = 0x0000; /* the unity pitch shift ? */ 1074 1.1 jdolecek chan->pitch.envelope_amount = 0x00; /* none */ 1075 1.1 jdolecek 1076 1.1 jdolecek chan->initial_attenuation = 0x00; /* no attenuation */ 1077 1.1 jdolecek chan->volume.current = 0x0000; /* no volume */ 1078 1.1 jdolecek chan->volume.target = 0xffff; 1079 1.1 jdolecek chan->volume.envelope.current_state = 0x8000; /* 0 msec delay */ 1080 1.1 jdolecek chan->volume.envelope.hold_time = 0x7f; /* 0 msec */ 1081 1.1 jdolecek chan->volume.envelope.attack_time = 0x7F; /* 5.5msec */ 1082 1.1 jdolecek chan->volume.envelope.sustain_level = 0x7F; /* full */ 1083 1.1 jdolecek chan->volume.envelope.decay_time = 0x7F; /* 22msec */ 1084 1.1 jdolecek 1085 1.1 jdolecek chan->filter.initial_cutoff_frequency = 0xff; /* no filter */ 1086 1.1 jdolecek chan->filter.current_cutoff_frequency = 0xffff; /* no filtering */ 1087 1.1 jdolecek chan->filter.target_cutoff_frequency = 0xffff; /* no filtering */ 1088 1.1 jdolecek chan->filter.lowpass_resonance_height = 0x0; 1089 1.1 jdolecek chan->filter.interpolation_ROM = 0x1; /* full band */ 1090 1.1 jdolecek chan->filter.envelope_amount = 0x7f; /* none */ 1091 1.1 jdolecek chan->filter.LFO_modulation_depth = 0x00; /* none */ 1092 1.1 jdolecek 1093 1.1 jdolecek chan->loop.start = 0x000000; 1094 1.1 jdolecek chan->loop.end = 0x000010; /* Why ? */ 1095 1.1 jdolecek 1096 1.1 jdolecek chan->modulation.envelope.current_state = 0x8000; 1097 1.1 jdolecek chan->modulation.envelope.hold_time = 0x00; /* 127 better ? */ 1098 1.1 jdolecek chan->modulation.envelope.attack_time = 0x00; /* infinite */ 1099 1.1 jdolecek chan->modulation.envelope.sustain_level = 0x00; /* off */ 1100 1.1 jdolecek chan->modulation.envelope.decay_time = 0x7f; /* 22 msec */ 1101 1.1 jdolecek chan->modulation.LFO_state = 0x8000; 1102 1.1 jdolecek 1103 1.1 jdolecek chan->vibrato_LFO.state = 0x8000; 1104 1.1 jdolecek chan->vibrato_LFO.modulation_depth = 0x00; /* none */ 1105 1.1 jdolecek chan->vibrato_LFO.vibrato_depth = 0x00; 1106 1.1 jdolecek chan->vibrato_LFO.frequency = 0x00; /* Why set to 24 when 1107 1.1 jdolecek * initialized ? */ 1108 1.1 jdolecek 1109 1.1 jdolecek chan->tremolo_depth = 0x00; 1110 1.1 jdolecek } 1111 1.1 jdolecek 1112 1.1 jdolecek /* only call it at splaudio */ 1113 1.1 jdolecek static struct emuxki_channel * 1114 1.1 jdolecek emuxki_channel_new(struct emuxki_voice *voice, u_int8_t num) 1115 1.1 jdolecek { 1116 1.1 jdolecek struct emuxki_channel *chan; 1117 1.1 jdolecek 1118 1.1 jdolecek chan = malloc(sizeof(struct emuxki_channel), M_DEVBUF, M_WAITOK); 1119 1.1 jdolecek if (chan == NULL) 1120 1.40 kent return NULL; 1121 1.1 jdolecek 1122 1.1 jdolecek chan->voice = voice; 1123 1.1 jdolecek chan->num = num; 1124 1.1 jdolecek emuxki_chanparms_set_defaults(chan); 1125 1.1 jdolecek chan->voice->sc->channel[num] = chan; 1126 1.40 kent return chan; 1127 1.1 jdolecek } 1128 1.1 jdolecek 1129 1.1 jdolecek /* only call it at splaudio */ 1130 1.1 jdolecek static void 1131 1.1 jdolecek emuxki_channel_delete(struct emuxki_channel *chan) 1132 1.1 jdolecek { 1133 1.40 kent 1134 1.1 jdolecek chan->voice->sc->channel[chan->num] = NULL; 1135 1.1 jdolecek free(chan, M_DEVBUF); 1136 1.1 jdolecek } 1137 1.1 jdolecek 1138 1.1 jdolecek static void 1139 1.1 jdolecek emuxki_channel_set_fxsend(struct emuxki_channel *chan, 1140 1.40 kent struct emuxki_chanparms_fxsend *fxsend) 1141 1.1 jdolecek { 1142 1.1 jdolecek /* Could do a memcpy ...*/ 1143 1.1 jdolecek chan->fxsend.a.level = fxsend->a.level; 1144 1.1 jdolecek chan->fxsend.b.level = fxsend->b.level; 1145 1.1 jdolecek chan->fxsend.c.level = fxsend->c.level; 1146 1.1 jdolecek chan->fxsend.d.level = fxsend->d.level; 1147 1.1 jdolecek chan->fxsend.a.dest = fxsend->a.dest; 1148 1.1 jdolecek chan->fxsend.b.dest = fxsend->b.dest; 1149 1.1 jdolecek chan->fxsend.c.dest = fxsend->c.dest; 1150 1.1 jdolecek chan->fxsend.d.dest = fxsend->d.dest; 1151 1.35 christos 1152 1.35 christos /* for audigy */ 1153 1.35 christos chan->fxsend.e.level = fxsend->e.level; 1154 1.35 christos chan->fxsend.f.level = fxsend->f.level; 1155 1.35 christos chan->fxsend.g.level = fxsend->g.level; 1156 1.35 christos chan->fxsend.h.level = fxsend->h.level; 1157 1.35 christos chan->fxsend.e.dest = fxsend->e.dest; 1158 1.35 christos chan->fxsend.f.dest = fxsend->f.dest; 1159 1.35 christos chan->fxsend.g.dest = fxsend->g.dest; 1160 1.35 christos chan->fxsend.h.dest = fxsend->h.dest; 1161 1.1 jdolecek } 1162 1.1 jdolecek 1163 1.1 jdolecek static void 1164 1.40 kent emuxki_channel_set_srate(struct emuxki_channel *chan, uint32_t srate) 1165 1.1 jdolecek { 1166 1.40 kent 1167 1.1 jdolecek chan->pitch.target = (srate << 8) / 375; 1168 1.1 jdolecek chan->pitch.target = (chan->pitch.target >> 1) + 1169 1.1 jdolecek (chan->pitch.target & 1); 1170 1.1 jdolecek chan->pitch.target &= 0xffff; 1171 1.1 jdolecek chan->pitch.current = chan->pitch.target; 1172 1.17 wiz chan->pitch.initial = 1173 1.1 jdolecek (emuxki_rate_to_pitch(srate) >> 8) & EMU_CHAN_IP_MASK; 1174 1.1 jdolecek } 1175 1.1 jdolecek 1176 1.1 jdolecek /* voice params must be set before calling this */ 1177 1.1 jdolecek static void 1178 1.1 jdolecek emuxki_channel_set_bufparms(struct emuxki_channel *chan, 1179 1.40 kent uint32_t start, uint32_t end) 1180 1.1 jdolecek { 1181 1.40 kent 1182 1.1 jdolecek chan->loop.start = start & EMU_CHAN_PSST_LOOPSTARTADDR_MASK; 1183 1.1 jdolecek chan->loop.end = end & EMU_CHAN_DSL_LOOPENDADDR_MASK; 1184 1.1 jdolecek } 1185 1.1 jdolecek 1186 1.1 jdolecek static void 1187 1.35 christos emuxki_channel_commit_fx(struct emuxki_channel *chan) 1188 1.35 christos { 1189 1.40 kent struct emuxki_softc *sc; 1190 1.40 kent u_int8_t chano; 1191 1.40 kent 1192 1.40 kent sc = chan->voice->sc; 1193 1.40 kent chano = chan->num; 1194 1.40 kent if(sc->sc_type & EMUXKI_AUDIGY) { 1195 1.40 kent emuxki_write(sc, chano, EMU_A_CHAN_FXRT1, 1196 1.40 kent (chan->fxsend.d.dest << 24) | 1197 1.40 kent (chan->fxsend.c.dest << 16) | 1198 1.40 kent (chan->fxsend.b.dest << 8) | 1199 1.40 kent (chan->fxsend.a.dest)); 1200 1.40 kent emuxki_write(sc, chano, EMU_A_CHAN_FXRT2, 1201 1.40 kent (chan->fxsend.h.dest << 24) | 1202 1.40 kent (chan->fxsend.g.dest << 16) | 1203 1.40 kent (chan->fxsend.f.dest << 8) | 1204 1.40 kent (chan->fxsend.e.dest)); 1205 1.40 kent emuxki_write(sc, chano, EMU_A_CHAN_SENDAMOUNTS, 1206 1.40 kent (chan->fxsend.e.level << 24) | 1207 1.40 kent (chan->fxsend.f.level << 16) | 1208 1.40 kent (chan->fxsend.g.level << 8) | 1209 1.40 kent (chan->fxsend.h.level)); 1210 1.40 kent } else { 1211 1.40 kent emuxki_write(sc, chano, EMU_CHAN_FXRT, 1212 1.40 kent (chan->fxsend.d.dest << 28) | 1213 1.40 kent (chan->fxsend.c.dest << 24) | 1214 1.40 kent (chan->fxsend.b.dest << 20) | 1215 1.40 kent (chan->fxsend.a.dest << 16)); 1216 1.40 kent } 1217 1.40 kent 1218 1.40 kent emuxki_write(sc, chano, 0x10000000 | EMU_CHAN_PTRX, 1219 1.40 kent (chan->fxsend.a.level << 8) | chan->fxsend.b.level); 1220 1.40 kent emuxki_write(sc, chano, EMU_CHAN_DSL, 1221 1.40 kent (chan->fxsend.d.level << 24) | chan->loop.end); 1222 1.40 kent emuxki_write(sc, chano, EMU_CHAN_PSST, 1223 1.40 kent (chan->fxsend.c.level << 24) | chan->loop.start); 1224 1.35 christos } 1225 1.35 christos 1226 1.35 christos static void 1227 1.1 jdolecek emuxki_channel_commit_parms(struct emuxki_channel *chan) 1228 1.1 jdolecek { 1229 1.40 kent struct emuxki_voice *voice; 1230 1.40 kent struct emuxki_softc *sc; 1231 1.40 kent uint32_t start, mapval; 1232 1.40 kent uint8_t chano; 1233 1.1 jdolecek int s; 1234 1.1 jdolecek 1235 1.40 kent voice = chan->voice; 1236 1.40 kent sc = voice->sc; 1237 1.40 kent chano = chan->num; 1238 1.1 jdolecek start = chan->loop.start + 1239 1.1 jdolecek (voice->stereo ? 28 : 30) * (voice->b16 + 1); 1240 1.1 jdolecek mapval = DMAADDR(sc->silentpage) << 1 | EMU_CHAN_MAP_PTI_MASK; 1241 1.1 jdolecek 1242 1.1 jdolecek s = splaudio(); 1243 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_CPF_STEREO, voice->stereo); 1244 1.35 christos 1245 1.35 christos emuxki_channel_commit_fx(chan); 1246 1.35 christos 1247 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_CCCA, 1248 1.1 jdolecek (chan->filter.lowpass_resonance_height << 28) | 1249 1.1 jdolecek (chan->filter.interpolation_ROM << 25) | 1250 1.1 jdolecek (voice->b16 ? 0 : EMU_CHAN_CCCA_8BITSELECT) | start); 1251 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_Z1, 0); 1252 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_Z2, 0); 1253 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_MAPA, mapval); 1254 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_MAPB, mapval); 1255 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_CVCF_CURRFILTER, 1256 1.1 jdolecek chan->filter.current_cutoff_frequency); 1257 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_VTFT_FILTERTARGET, 1258 1.1 jdolecek chan->filter.target_cutoff_frequency); 1259 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_ATKHLDM, 1260 1.1 jdolecek (chan->modulation.envelope.hold_time << 8) | 1261 1.1 jdolecek chan->modulation.envelope.attack_time); 1262 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_DCYSUSM, 1263 1.1 jdolecek (chan->modulation.envelope.sustain_level << 8) | 1264 1.1 jdolecek chan->modulation.envelope.decay_time); 1265 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_LFOVAL1, 1266 1.1 jdolecek chan->modulation.LFO_state); 1267 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_LFOVAL2, 1268 1.1 jdolecek chan->vibrato_LFO.state); 1269 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_FMMOD, 1270 1.1 jdolecek (chan->vibrato_LFO.modulation_depth << 8) | 1271 1.1 jdolecek chan->filter.LFO_modulation_depth); 1272 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_TREMFRQ, 1273 1.1 jdolecek (chan->tremolo_depth << 8)); 1274 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_FM2FRQ2, 1275 1.1 jdolecek (chan->vibrato_LFO.vibrato_depth << 8) | 1276 1.1 jdolecek chan->vibrato_LFO.frequency); 1277 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_ENVVAL, 1278 1.1 jdolecek chan->modulation.envelope.current_state); 1279 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_ATKHLDV, 1280 1.1 jdolecek (chan->volume.envelope.hold_time << 8) | 1281 1.1 jdolecek chan->volume.envelope.attack_time); 1282 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_ENVVOL, 1283 1.1 jdolecek chan->volume.envelope.current_state); 1284 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_PEFE, 1285 1.1 jdolecek (chan->pitch.envelope_amount << 8) | 1286 1.1 jdolecek chan->filter.envelope_amount); 1287 1.1 jdolecek splx(s); 1288 1.1 jdolecek } 1289 1.1 jdolecek 1290 1.1 jdolecek static void 1291 1.1 jdolecek emuxki_channel_start(struct emuxki_channel *chan) 1292 1.1 jdolecek { 1293 1.40 kent struct emuxki_voice *voice; 1294 1.40 kent struct emuxki_softc *sc; 1295 1.40 kent u_int8_t cache_sample, cache_invalid_size, chano; 1296 1.40 kent u_int32_t sample; 1297 1.40 kent int s; 1298 1.1 jdolecek 1299 1.40 kent voice = chan->voice; 1300 1.40 kent sc = voice->sc; 1301 1.40 kent chano = chan->num; 1302 1.1 jdolecek cache_sample = voice->stereo ? 4 : 2; 1303 1.1 jdolecek sample = voice->b16 ? 0x00000000 : 0x80808080; 1304 1.1 jdolecek cache_invalid_size = (voice->stereo ? 28 : 30) * (voice->b16 + 1); 1305 1.1 jdolecek 1306 1.1 jdolecek s = splaudio(); 1307 1.1 jdolecek while (cache_sample--) { 1308 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_CD0 + cache_sample, 1309 1.1 jdolecek sample); 1310 1.1 jdolecek } 1311 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_CCR_CACHEINVALIDSIZE, 0); 1312 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_CCR_READADDRESS, 64); 1313 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_CCR_CACHEINVALIDSIZE, 1314 1.1 jdolecek cache_invalid_size); 1315 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_IFATN, 1316 1.1 jdolecek (chan->filter.target_cutoff_frequency << 8) | 1317 1.1 jdolecek chan->initial_attenuation); 1318 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_VTFT_VOLUMETARGET, 1319 1.1 jdolecek chan->volume.target); 1320 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_CVCF_CURRVOL, 1321 1.1 jdolecek chan->volume.current); 1322 1.1 jdolecek emuxki_write(sc, 0, 1323 1.1 jdolecek EMU_MKSUBREG(1, chano, EMU_SOLEL + (chano >> 5)), 1324 1.1 jdolecek 0); /* Clear stop on loop */ 1325 1.1 jdolecek emuxki_write(sc, 0, 1326 1.1 jdolecek EMU_MKSUBREG(1, chano, EMU_CLIEL + (chano >> 5)), 1327 1.1 jdolecek 0); /* Clear loop interrupt */ 1328 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_DCYSUSV, 1329 1.1 jdolecek (chan->volume.envelope.sustain_level << 8) | 1330 1.1 jdolecek chan->volume.envelope.decay_time); 1331 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_PTRX_PITCHTARGET, 1332 1.1 jdolecek chan->pitch.target); 1333 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_CPF_PITCH, 1334 1.1 jdolecek chan->pitch.current); 1335 1.17 wiz emuxki_write(sc, chano, EMU_CHAN_IP, chan->pitch.initial); 1336 1.1 jdolecek 1337 1.1 jdolecek splx(s); 1338 1.1 jdolecek } 1339 1.1 jdolecek 1340 1.1 jdolecek static void 1341 1.1 jdolecek emuxki_channel_stop(struct emuxki_channel *chan) 1342 1.1 jdolecek { 1343 1.40 kent struct emuxki_softc *sc; 1344 1.1 jdolecek int s; 1345 1.40 kent u_int8_t chano; 1346 1.1 jdolecek 1347 1.40 kent sc = chan->voice->sc; 1348 1.40 kent chano = chan->num; 1349 1.1 jdolecek s = splaudio(); 1350 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_PTRX_PITCHTARGET, 0); 1351 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_CPF_PITCH, 0); 1352 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_IFATN_ATTENUATION, 0xff); 1353 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_VTFT_VOLUMETARGET, 0); 1354 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_CVCF_CURRVOL, 0); 1355 1.1 jdolecek emuxki_write(sc, chano, EMU_CHAN_IP, 0); 1356 1.1 jdolecek splx(s); 1357 1.1 jdolecek } 1358 1.1 jdolecek 1359 1.1 jdolecek /* 1360 1.25 wiz * Voices management 1361 1.37 dsainty * emuxki_voice_dataloc : use(play or rec) independent dataloc union helpers 1362 1.1 jdolecek * emuxki_voice_channel_* : play part of dataloc union helpers 1363 1.1 jdolecek * emuxki_voice_recsrc_* : rec part of dataloc union helpers 1364 1.1 jdolecek */ 1365 1.1 jdolecek 1366 1.1 jdolecek /* Allocate channels for voice in case of play voice */ 1367 1.1 jdolecek static int 1368 1.1 jdolecek emuxki_voice_channel_create(struct emuxki_voice *voice) 1369 1.1 jdolecek { 1370 1.40 kent struct emuxki_channel **channel; 1371 1.1 jdolecek int s; 1372 1.40 kent uint8_t i, stereo; 1373 1.1 jdolecek 1374 1.40 kent channel = voice->sc->channel; 1375 1.40 kent stereo = voice->stereo; 1376 1.45 christos for (i = 0; i < EMU_NUMCHAN - stereo; i += stereo + 1) { 1377 1.1 jdolecek if ((stereo && (channel[i + 1] != NULL)) || 1378 1.1 jdolecek (channel[i] != NULL)) /* Looking for free channels */ 1379 1.1 jdolecek continue; 1380 1.1 jdolecek s = splaudio(); 1381 1.1 jdolecek if (stereo) { 1382 1.1 jdolecek voice->dataloc.chan[1] = 1383 1.1 jdolecek emuxki_channel_new(voice, i + 1); 1384 1.1 jdolecek if (voice->dataloc.chan[1] == NULL) { 1385 1.1 jdolecek splx(s); 1386 1.40 kent return ENOMEM; 1387 1.1 jdolecek } 1388 1.1 jdolecek } 1389 1.1 jdolecek voice->dataloc.chan[0] = emuxki_channel_new(voice, i); 1390 1.1 jdolecek if (voice->dataloc.chan[0] == NULL) { 1391 1.1 jdolecek if (stereo) { 1392 1.1 jdolecek emuxki_channel_delete(voice->dataloc.chan[1]); 1393 1.1 jdolecek voice->dataloc.chan[1] = NULL; 1394 1.1 jdolecek } 1395 1.1 jdolecek splx(s); 1396 1.40 kent return ENOMEM; 1397 1.1 jdolecek } 1398 1.1 jdolecek splx(s); 1399 1.40 kent return 0; 1400 1.1 jdolecek } 1401 1.40 kent return EAGAIN; 1402 1.1 jdolecek } 1403 1.1 jdolecek 1404 1.1 jdolecek /* When calling this function we assume no one can access the voice */ 1405 1.1 jdolecek static void 1406 1.1 jdolecek emuxki_voice_channel_destroy(struct emuxki_voice *voice) 1407 1.1 jdolecek { 1408 1.40 kent 1409 1.1 jdolecek emuxki_channel_delete(voice->dataloc.chan[0]); 1410 1.1 jdolecek voice->dataloc.chan[0] = NULL; 1411 1.1 jdolecek if (voice->stereo) 1412 1.1 jdolecek emuxki_channel_delete(voice->dataloc.chan[1]); 1413 1.1 jdolecek voice->dataloc.chan[1] = NULL; 1414 1.1 jdolecek } 1415 1.1 jdolecek 1416 1.1 jdolecek /* 1417 1.1 jdolecek * Will come back when used in voice_dataloc_create 1418 1.1 jdolecek */ 1419 1.1 jdolecek static int 1420 1.1 jdolecek emuxki_recsrc_reserve(struct emuxki_voice *voice, emuxki_recsrc_t source) 1421 1.1 jdolecek { 1422 1.40 kent 1423 1.46 christos if (source >= EMU_NUMRECSRCS) { 1424 1.19 toshii #ifdef EMUXKI_DEBUG 1425 1.37 dsainty printf("Tried to reserve invalid source: %d\n", source); 1426 1.19 toshii #endif 1427 1.40 kent return EINVAL; 1428 1.19 toshii } 1429 1.19 toshii if (voice->sc->recsrc[source] == voice) 1430 1.40 kent return 0; /* XXX */ 1431 1.19 toshii if (voice->sc->recsrc[source] != NULL) 1432 1.40 kent return EBUSY; 1433 1.19 toshii voice->sc->recsrc[source] = voice; 1434 1.40 kent return 0; 1435 1.1 jdolecek } 1436 1.19 toshii 1437 1.1 jdolecek /* When calling this function we assume the voice is stopped */ 1438 1.1 jdolecek static void 1439 1.1 jdolecek emuxki_voice_recsrc_release(struct emuxki_softc *sc, emuxki_recsrc_t source) 1440 1.1 jdolecek { 1441 1.40 kent 1442 1.1 jdolecek sc->recsrc[source] = NULL; 1443 1.1 jdolecek } 1444 1.1 jdolecek 1445 1.1 jdolecek static int 1446 1.1 jdolecek emuxki_voice_dataloc_create(struct emuxki_voice *voice) 1447 1.1 jdolecek { 1448 1.40 kent int error; 1449 1.1 jdolecek 1450 1.1 jdolecek if (voice->use & EMU_VOICE_USE_PLAY) { 1451 1.1 jdolecek if ((error = emuxki_voice_channel_create(voice))) 1452 1.40 kent return error; 1453 1.1 jdolecek } else { 1454 1.19 toshii if ((error = 1455 1.19 toshii emuxki_recsrc_reserve(voice, voice->dataloc.source))) 1456 1.40 kent return error; 1457 1.1 jdolecek } 1458 1.40 kent return 0; 1459 1.1 jdolecek } 1460 1.1 jdolecek 1461 1.1 jdolecek static void 1462 1.1 jdolecek emuxki_voice_dataloc_destroy(struct emuxki_voice *voice) 1463 1.1 jdolecek { 1464 1.40 kent 1465 1.1 jdolecek if (voice->use & EMU_VOICE_USE_PLAY) { 1466 1.1 jdolecek if (voice->dataloc.chan[0] != NULL) 1467 1.1 jdolecek emuxki_voice_channel_destroy(voice); 1468 1.1 jdolecek } else { 1469 1.1 jdolecek if (voice->dataloc.source != EMU_RECSRC_NOTSET) { 1470 1.1 jdolecek emuxki_voice_recsrc_release(voice->sc, 1471 1.1 jdolecek voice->dataloc.source); 1472 1.1 jdolecek voice->dataloc.source = EMU_RECSRC_NOTSET; 1473 1.1 jdolecek } 1474 1.1 jdolecek } 1475 1.1 jdolecek } 1476 1.1 jdolecek 1477 1.1 jdolecek static struct emuxki_voice * 1478 1.40 kent emuxki_voice_new(struct emuxki_softc *sc, uint8_t use) 1479 1.1 jdolecek { 1480 1.1 jdolecek struct emuxki_voice *voice; 1481 1.40 kent int s; 1482 1.1 jdolecek 1483 1.7 jdolecek s = splaudio(); 1484 1.7 jdolecek voice = sc->lvoice; 1485 1.7 jdolecek sc->lvoice = NULL; 1486 1.7 jdolecek splx(s); 1487 1.7 jdolecek 1488 1.24 toshii if (!voice) { 1489 1.7 jdolecek if (!(voice = malloc(sizeof(*voice), M_DEVBUF, M_WAITOK))) 1490 1.40 kent return NULL; 1491 1.40 kent } else if (voice->use != use) 1492 1.24 toshii emuxki_voice_dataloc_destroy(voice); 1493 1.24 toshii else 1494 1.24 toshii goto skip_initialize; 1495 1.19 toshii 1496 1.19 toshii voice->sc = sc; 1497 1.19 toshii voice->state = !EMU_VOICE_STATE_STARTED; 1498 1.19 toshii voice->stereo = EMU_VOICE_STEREO_NOTSET; 1499 1.19 toshii voice->b16 = 0; 1500 1.19 toshii voice->sample_rate = 0; 1501 1.19 toshii if (use & EMU_VOICE_USE_PLAY) 1502 1.19 toshii voice->dataloc.chan[0] = voice->dataloc.chan[1] = NULL; 1503 1.19 toshii else 1504 1.19 toshii voice->dataloc.source = EMU_RECSRC_NOTSET; 1505 1.19 toshii voice->buffer = NULL; 1506 1.19 toshii voice->blksize = 0; 1507 1.19 toshii voice->trigblk = 0; 1508 1.19 toshii voice->blkmod = 0; 1509 1.19 toshii voice->inth = NULL; 1510 1.19 toshii voice->inthparam = NULL; 1511 1.1 jdolecek voice->use = use; 1512 1.1 jdolecek 1513 1.24 toshii skip_initialize: 1514 1.1 jdolecek s = splaudio(); 1515 1.1 jdolecek LIST_INSERT_HEAD((&sc->voices), voice, next); 1516 1.1 jdolecek splx(s); 1517 1.1 jdolecek 1518 1.40 kent return voice; 1519 1.1 jdolecek } 1520 1.1 jdolecek 1521 1.1 jdolecek static void 1522 1.1 jdolecek emuxki_voice_delete(struct emuxki_voice *voice) 1523 1.1 jdolecek { 1524 1.40 kent struct emuxki_softc *sc; 1525 1.7 jdolecek struct emuxki_voice *lvoice; 1526 1.7 jdolecek int s; 1527 1.1 jdolecek 1528 1.40 kent sc = voice->sc; 1529 1.1 jdolecek if (voice->state & EMU_VOICE_STATE_STARTED) 1530 1.1 jdolecek emuxki_voice_halt(voice); 1531 1.1 jdolecek 1532 1.1 jdolecek s = splaudio(); 1533 1.1 jdolecek LIST_REMOVE(voice, next); 1534 1.7 jdolecek lvoice = sc->lvoice; 1535 1.7 jdolecek sc->lvoice = voice; 1536 1.1 jdolecek splx(s); 1537 1.1 jdolecek 1538 1.7 jdolecek if (lvoice) { 1539 1.7 jdolecek emuxki_voice_dataloc_destroy(lvoice); 1540 1.7 jdolecek free(lvoice, M_DEVBUF); 1541 1.7 jdolecek } 1542 1.1 jdolecek } 1543 1.1 jdolecek 1544 1.1 jdolecek static int 1545 1.40 kent emuxki_voice_set_stereo(struct emuxki_voice *voice, uint8_t stereo) 1546 1.1 jdolecek { 1547 1.40 kent int error; 1548 1.40 kent emuxki_recsrc_t source; 1549 1.1 jdolecek struct emuxki_chanparms_fxsend fxsend; 1550 1.1 jdolecek 1551 1.40 kent source = 0; /* XXX: gcc */ 1552 1.19 toshii if (! (voice->use & EMU_VOICE_USE_PLAY)) 1553 1.19 toshii source = voice->dataloc.source; 1554 1.1 jdolecek emuxki_voice_dataloc_destroy(voice); 1555 1.19 toshii if (! (voice->use & EMU_VOICE_USE_PLAY)) 1556 1.19 toshii voice->dataloc.source = source; 1557 1.1 jdolecek voice->stereo = stereo; 1558 1.1 jdolecek if ((error = emuxki_voice_dataloc_create(voice))) 1559 1.40 kent return error; 1560 1.1 jdolecek if (voice->use & EMU_VOICE_USE_PLAY) { 1561 1.1 jdolecek fxsend.a.dest = 0x0; 1562 1.1 jdolecek fxsend.b.dest = 0x1; 1563 1.1 jdolecek fxsend.c.dest = 0x2; 1564 1.1 jdolecek fxsend.d.dest = 0x3; 1565 1.35 christos /* for audigy */ 1566 1.35 christos fxsend.e.dest = 0x4; 1567 1.35 christos fxsend.f.dest = 0x5; 1568 1.35 christos fxsend.g.dest = 0x6; 1569 1.35 christos fxsend.h.dest = 0x7; 1570 1.1 jdolecek if (voice->stereo) { 1571 1.7 jdolecek fxsend.a.level = fxsend.c.level = 0xc0; 1572 1.1 jdolecek fxsend.b.level = fxsend.d.level = 0x00; 1573 1.35 christos fxsend.e.level = fxsend.g.level = 0xc0; 1574 1.35 christos fxsend.f.level = fxsend.h.level = 0x00; 1575 1.1 jdolecek emuxki_channel_set_fxsend(voice->dataloc.chan[0], 1576 1.1 jdolecek &fxsend); 1577 1.1 jdolecek fxsend.a.level = fxsend.c.level = 0x00; 1578 1.7 jdolecek fxsend.b.level = fxsend.d.level = 0xc0; 1579 1.35 christos fxsend.e.level = fxsend.g.level = 0x00; 1580 1.35 christos fxsend.f.level = fxsend.h.level = 0xc0; 1581 1.1 jdolecek emuxki_channel_set_fxsend(voice->dataloc.chan[1], 1582 1.1 jdolecek &fxsend); 1583 1.40 kent } /* No else : default is good for mono */ 1584 1.1 jdolecek } 1585 1.40 kent return 0; 1586 1.1 jdolecek } 1587 1.1 jdolecek 1588 1.1 jdolecek static int 1589 1.40 kent emuxki_voice_set_srate(struct emuxki_voice *voice, uint32_t srate) 1590 1.1 jdolecek { 1591 1.40 kent 1592 1.1 jdolecek if (voice->use & EMU_VOICE_USE_PLAY) { 1593 1.1 jdolecek if ((srate < 4000) || (srate > 48000)) 1594 1.40 kent return EINVAL; 1595 1.1 jdolecek voice->sample_rate = srate; 1596 1.1 jdolecek emuxki_channel_set_srate(voice->dataloc.chan[0], srate); 1597 1.1 jdolecek if (voice->stereo) 1598 1.1 jdolecek emuxki_channel_set_srate(voice->dataloc.chan[1], 1599 1.1 jdolecek srate); 1600 1.1 jdolecek } else { 1601 1.35 christos if ((srate < 8000) || (srate > 48000)) 1602 1.40 kent return EINVAL; 1603 1.19 toshii voice->sample_rate = srate; 1604 1.35 christos if (emuxki_voice_adc_rate(voice) < 0) { 1605 1.35 christos voice->sample_rate = 0; 1606 1.40 kent return EINVAL; 1607 1.35 christos } 1608 1.1 jdolecek } 1609 1.40 kent return 0; 1610 1.1 jdolecek } 1611 1.1 jdolecek 1612 1.1 jdolecek static int 1613 1.40 kent emuxki_voice_set_audioparms(struct emuxki_voice *voice, uint8_t stereo, 1614 1.40 kent uint8_t b16, uint32_t srate) 1615 1.1 jdolecek { 1616 1.40 kent int error; 1617 1.1 jdolecek 1618 1.1 jdolecek if (voice->stereo == stereo && voice->b16 == b16 && 1619 1.1 jdolecek voice->sample_rate == srate) 1620 1.40 kent return 0; 1621 1.1 jdolecek 1622 1.1 jdolecek #ifdef EMUXKI_DEBUG 1623 1.18 tsutsui printf("Setting %s voice params : %s, %u bits, %u Hz\n", 1624 1.1 jdolecek (voice->use & EMU_VOICE_USE_PLAY) ? "play" : "record", 1625 1.1 jdolecek stereo ? "stereo" : "mono", (b16 + 1) * 8, srate); 1626 1.1 jdolecek #endif 1627 1.40 kent error = 0; 1628 1.1 jdolecek if (voice->stereo != stereo) { 1629 1.1 jdolecek if ((error = emuxki_voice_set_stereo(voice, stereo))) 1630 1.40 kent return error; 1631 1.1 jdolecek } 1632 1.1 jdolecek voice->b16 = b16; 1633 1.1 jdolecek if (voice->sample_rate != srate) 1634 1.23 toshii error = emuxki_voice_set_srate(voice, srate); 1635 1.23 toshii return error; 1636 1.1 jdolecek } 1637 1.1 jdolecek 1638 1.1 jdolecek /* voice audio parms (see just before) must be set prior to this */ 1639 1.1 jdolecek static int 1640 1.1 jdolecek emuxki_voice_set_bufparms(struct emuxki_voice *voice, void *ptr, 1641 1.40 kent uint32_t bufsize, uint16_t blksize) 1642 1.1 jdolecek { 1643 1.1 jdolecek struct emuxki_mem *mem; 1644 1.1 jdolecek struct emuxki_channel **chan; 1645 1.40 kent uint32_t start, end; 1646 1.40 kent uint8_t sample_size; 1647 1.19 toshii int idx; 1648 1.40 kent int error; 1649 1.1 jdolecek 1650 1.40 kent error = EFAULT; 1651 1.1 jdolecek LIST_FOREACH(mem, &voice->sc->mem, next) { 1652 1.1 jdolecek if (KERNADDR(mem->dmamem) != ptr) 1653 1.1 jdolecek continue; 1654 1.1 jdolecek 1655 1.1 jdolecek voice->buffer = mem; 1656 1.1 jdolecek sample_size = (voice->b16 + 1) * (voice->stereo + 1); 1657 1.1 jdolecek voice->trigblk = 0; /* This shouldn't be needed */ 1658 1.1 jdolecek voice->blkmod = bufsize / blksize; 1659 1.40 kent if (bufsize % blksize) /* This should not happen */ 1660 1.1 jdolecek voice->blkmod++; 1661 1.1 jdolecek error = 0; 1662 1.1 jdolecek 1663 1.1 jdolecek if (voice->use & EMU_VOICE_USE_PLAY) { 1664 1.19 toshii voice->blksize = blksize / sample_size; 1665 1.1 jdolecek chan = voice->dataloc.chan; 1666 1.1 jdolecek start = mem->ptbidx << 12; 1667 1.1 jdolecek end = start + bufsize / sample_size; 1668 1.1 jdolecek emuxki_channel_set_bufparms(chan[0], 1669 1.1 jdolecek start, end); 1670 1.1 jdolecek if (voice->stereo) 1671 1.1 jdolecek emuxki_channel_set_bufparms(chan[1], 1672 1.1 jdolecek start, end); 1673 1.40 kent voice->timerate = (uint32_t) 48000 * 1674 1.40 kent voice->blksize / voice->sample_rate; 1675 1.1 jdolecek if (voice->timerate < 5) 1676 1.1 jdolecek error = EINVAL; 1677 1.1 jdolecek } else { 1678 1.19 toshii voice->blksize = blksize; 1679 1.19 toshii for(idx = sizeof(emuxki_recbuf_sz) / 1680 1.19 toshii sizeof(emuxki_recbuf_sz[0]); --idx >= 0;) 1681 1.19 toshii if (emuxki_recbuf_sz[idx] == bufsize) 1682 1.19 toshii break; 1683 1.19 toshii if (idx < 0) { 1684 1.19 toshii #ifdef EMUXKI_DEBUG 1685 1.19 toshii printf("Invalid bufsize: %d\n", bufsize); 1686 1.19 toshii #endif 1687 1.40 kent return EINVAL; 1688 1.19 toshii } 1689 1.19 toshii emuxki_write(voice->sc, 0, 1690 1.19 toshii emuxki_recsrc_szreg[voice->dataloc.source], idx); 1691 1.19 toshii emuxki_write(voice->sc, 0, 1692 1.19 toshii emuxki_recsrc_bufaddrreg[voice->dataloc.source], 1693 1.19 toshii DMAADDR(mem->dmamem)); 1694 1.19 toshii 1695 1.19 toshii /* Use timer to emulate DMA completion interrupt */ 1696 1.19 toshii voice->timerate = (u_int32_t) 48000 * blksize / 1697 1.19 toshii (voice->sample_rate * sample_size); 1698 1.19 toshii if (voice->timerate < 5) { 1699 1.1 jdolecek #ifdef EMUXKI_DEBUG 1700 1.19 toshii printf("Invalid timerate: %d, blksize %d\n", 1701 1.19 toshii voice->timerate, blksize); 1702 1.1 jdolecek #endif 1703 1.19 toshii error = EINVAL; 1704 1.19 toshii } 1705 1.1 jdolecek } 1706 1.1 jdolecek 1707 1.1 jdolecek break; 1708 1.1 jdolecek } 1709 1.1 jdolecek 1710 1.40 kent return error; 1711 1.1 jdolecek } 1712 1.1 jdolecek 1713 1.1 jdolecek static void 1714 1.1 jdolecek emuxki_voice_commit_parms(struct emuxki_voice *voice) 1715 1.1 jdolecek { 1716 1.1 jdolecek if (voice->use & EMU_VOICE_USE_PLAY) { 1717 1.1 jdolecek emuxki_channel_commit_parms(voice->dataloc.chan[0]); 1718 1.1 jdolecek if (voice->stereo) 1719 1.1 jdolecek emuxki_channel_commit_parms(voice->dataloc.chan[1]); 1720 1.1 jdolecek } 1721 1.1 jdolecek } 1722 1.1 jdolecek 1723 1.40 kent static uint32_t 1724 1.1 jdolecek emuxki_voice_curaddr(struct emuxki_voice *voice) 1725 1.1 jdolecek { 1726 1.40 kent int idxreg; 1727 1.53 gmcgarry int rv; 1728 1.19 toshii 1729 1.19 toshii /* XXX different semantics in these cases */ 1730 1.35 christos if (voice->use & EMU_VOICE_USE_PLAY) { 1731 1.19 toshii /* returns number of samples (an l/r pair counts 1) */ 1732 1.53 gmcgarry rv = emuxki_read(voice->sc, 1733 1.40 kent voice->dataloc.chan[0]->num, EMU_CHAN_CCCA_CURRADDR) - 1734 1.40 kent voice->dataloc.chan[0]->loop.start; 1735 1.35 christos } else { 1736 1.40 kent idxreg = 0; 1737 1.19 toshii /* returns number of bytes */ 1738 1.35 christos switch (voice->dataloc.source) { 1739 1.35 christos case EMU_RECSRC_MIC: 1740 1.35 christos idxreg = (voice->sc->sc_type & EMUXKI_AUDIGY) ? 1741 1.35 christos EMU_A_MICIDX : EMU_MICIDX; 1742 1.35 christos break; 1743 1.35 christos case EMU_RECSRC_ADC: 1744 1.35 christos idxreg = (voice->sc->sc_type & EMUXKI_AUDIGY) ? 1745 1.35 christos EMU_A_ADCIDX : EMU_ADCIDX; 1746 1.35 christos break; 1747 1.35 christos case EMU_RECSRC_FX: 1748 1.35 christos idxreg = EMU_FXIDX; 1749 1.35 christos break; 1750 1.35 christos default: 1751 1.35 christos #ifdef EMUXKI_DEBUG 1752 1.35 christos printf("emu: bad recording source!\n"); 1753 1.35 christos #endif 1754 1.35 christos break; 1755 1.35 christos } 1756 1.53 gmcgarry rv = emuxki_read(voice->sc, 0, EMU_RECIDX(idxreg) 1757 1.35 christos & EMU_RECIDX_MASK); 1758 1.35 christos } 1759 1.53 gmcgarry return rv; 1760 1.1 jdolecek } 1761 1.1 jdolecek 1762 1.1 jdolecek static void 1763 1.1 jdolecek emuxki_resched_timer(struct emuxki_softc *sc) 1764 1.1 jdolecek { 1765 1.1 jdolecek struct emuxki_voice *voice; 1766 1.40 kent uint16_t timerate; 1767 1.40 kent uint8_t active; 1768 1.1 jdolecek int s; 1769 1.1 jdolecek 1770 1.40 kent timerate = 1024; 1771 1.40 kent active = 0; 1772 1.1 jdolecek s = splaudio(); 1773 1.1 jdolecek LIST_FOREACH(voice, &sc->voices, next) { 1774 1.19 toshii if ((voice->state & EMU_VOICE_STATE_STARTED) == 0) 1775 1.1 jdolecek continue; 1776 1.1 jdolecek active = 1; 1777 1.1 jdolecek if (voice->timerate < timerate) 1778 1.1 jdolecek timerate = voice->timerate; 1779 1.1 jdolecek } 1780 1.1 jdolecek 1781 1.1 jdolecek if (timerate & ~EMU_TIMER_RATE_MASK) 1782 1.1 jdolecek timerate = 0; 1783 1.14 tron bus_space_write_2(sc->sc_iot, sc->sc_ioh, EMU_TIMER, timerate); 1784 1.1 jdolecek if (!active && (sc->timerstate & EMU_TIMER_STATE_ENABLED)) { 1785 1.1 jdolecek bus_space_write_4(sc->sc_iot, sc->sc_ioh, EMU_INTE, 1786 1.1 jdolecek bus_space_read_4(sc->sc_iot, sc->sc_ioh, EMU_INTE) & 1787 1.1 jdolecek ~EMU_INTE_INTERTIMERENB); 1788 1.1 jdolecek sc->timerstate &= ~EMU_TIMER_STATE_ENABLED; 1789 1.1 jdolecek } else if (active && !(sc->timerstate & EMU_TIMER_STATE_ENABLED)) { 1790 1.1 jdolecek bus_space_write_4(sc->sc_iot, sc->sc_ioh, EMU_INTE, 1791 1.1 jdolecek bus_space_read_4(sc->sc_iot, sc->sc_ioh, EMU_INTE) | 1792 1.1 jdolecek EMU_INTE_INTERTIMERENB); 1793 1.1 jdolecek sc->timerstate |= EMU_TIMER_STATE_ENABLED; 1794 1.1 jdolecek } 1795 1.1 jdolecek splx(s); 1796 1.1 jdolecek } 1797 1.1 jdolecek 1798 1.35 christos static int 1799 1.35 christos emuxki_voice_adc_rate(struct emuxki_voice *voice) 1800 1.35 christos { 1801 1.40 kent 1802 1.35 christos switch(voice->sample_rate) { 1803 1.35 christos case 48000: 1804 1.35 christos return EMU_ADCCR_SAMPLERATE_48; 1805 1.35 christos break; 1806 1.35 christos case 44100: 1807 1.35 christos return EMU_ADCCR_SAMPLERATE_44; 1808 1.35 christos break; 1809 1.35 christos case 32000: 1810 1.35 christos return EMU_ADCCR_SAMPLERATE_32; 1811 1.35 christos break; 1812 1.35 christos case 24000: 1813 1.35 christos return EMU_ADCCR_SAMPLERATE_24; 1814 1.35 christos break; 1815 1.35 christos case 22050: 1816 1.35 christos return EMU_ADCCR_SAMPLERATE_22; 1817 1.35 christos break; 1818 1.35 christos case 16000: 1819 1.35 christos return EMU_ADCCR_SAMPLERATE_16; 1820 1.35 christos break; 1821 1.35 christos case 12000: 1822 1.35 christos if(voice->sc->sc_type & EMUXKI_AUDIGY) 1823 1.35 christos return EMU_A_ADCCR_SAMPLERATE_12; 1824 1.35 christos else { 1825 1.35 christos #ifdef EMUXKI_DEBUG 1826 1.35 christos printf("recording sample_rate not supported : %u\n", voice->sample_rate); 1827 1.35 christos #endif 1828 1.40 kent return -1; 1829 1.35 christos } 1830 1.35 christos break; 1831 1.35 christos case 11000: 1832 1.35 christos if(voice->sc->sc_type & EMUXKI_AUDIGY) 1833 1.35 christos return EMU_A_ADCCR_SAMPLERATE_11; 1834 1.35 christos else 1835 1.35 christos return EMU_ADCCR_SAMPLERATE_11; 1836 1.35 christos break; 1837 1.35 christos case 8000: 1838 1.35 christos if(voice->sc->sc_type & EMUXKI_AUDIGY) 1839 1.35 christos return EMU_A_ADCCR_SAMPLERATE_8; 1840 1.35 christos else 1841 1.35 christos return EMU_ADCCR_SAMPLERATE_8; 1842 1.35 christos break; 1843 1.35 christos default: 1844 1.35 christos #ifdef EMUXKI_DEBUG 1845 1.35 christos printf("recording sample_rate not supported : %u\n", voice->sample_rate); 1846 1.35 christos #endif 1847 1.40 kent return -1; 1848 1.35 christos } 1849 1.40 kent return -1; /* shouldn't get here */ 1850 1.35 christos } 1851 1.35 christos 1852 1.35 christos 1853 1.1 jdolecek static void 1854 1.1 jdolecek emuxki_voice_start(struct emuxki_voice *voice, 1855 1.40 kent void (*inth) (void *), void *inthparam) 1856 1.1 jdolecek { 1857 1.40 kent uint32_t val; 1858 1.19 toshii 1859 1.1 jdolecek voice->inth = inth; 1860 1.1 jdolecek voice->inthparam = inthparam; 1861 1.1 jdolecek if (voice->use & EMU_VOICE_USE_PLAY) { 1862 1.1 jdolecek voice->trigblk = 1; 1863 1.1 jdolecek emuxki_channel_start(voice->dataloc.chan[0]); 1864 1.1 jdolecek if (voice->stereo) 1865 1.1 jdolecek emuxki_channel_start(voice->dataloc.chan[1]); 1866 1.19 toshii } else { 1867 1.19 toshii voice->trigblk = 1; 1868 1.35 christos switch (voice->dataloc.source) { 1869 1.19 toshii case EMU_RECSRC_ADC: 1870 1.19 toshii /* XXX need to program DSP to output L+R 1871 1.19 toshii * XXX in monaural case? */ 1872 1.35 christos if (voice->sc->sc_type & EMUXKI_AUDIGY) { 1873 1.35 christos val = EMU_A_ADCCR_LCHANENABLE; 1874 1.35 christos if (voice->stereo) 1875 1.35 christos val |= EMU_A_ADCCR_RCHANENABLE; 1876 1.35 christos } else { 1877 1.35 christos val = EMU_ADCCR_LCHANENABLE; 1878 1.35 christos if (voice->stereo) 1879 1.35 christos val |= EMU_ADCCR_RCHANENABLE; 1880 1.35 christos } 1881 1.35 christos val |= emuxki_voice_adc_rate(voice); 1882 1.35 christos emuxki_write(voice->sc, 0, EMU_ADCCR, 0); 1883 1.35 christos emuxki_write(voice->sc, 0, EMU_ADCCR, val); 1884 1.19 toshii break; 1885 1.19 toshii case EMU_RECSRC_MIC: 1886 1.19 toshii case EMU_RECSRC_FX: 1887 1.19 toshii printf("unimplemented\n"); 1888 1.19 toshii break; 1889 1.35 christos case EMU_RECSRC_NOTSET: 1890 1.35 christos default: 1891 1.44 christos printf("Bad dataloc.source %d\n", 1892 1.44 christos voice->dataloc.source); 1893 1.40 kent break; 1894 1.19 toshii } 1895 1.19 toshii #if 0 1896 1.44 christos switch (voice->dataloc.source) { 1897 1.44 christos case EMU_RECSRC_ADC: 1898 1.44 christos case EMU_RECSRC_FX: 1899 1.44 christos case EMU_RECSRC_MIC: 1900 1.44 christos /* DMA completion interrupt is useless; use timer */ 1901 1.44 christos int s; 1902 1.44 christos s = splaudio(); 1903 1.44 christos val = emu_rd(sc, INTE, 4); 1904 1.44 christos val |= emuxki_recsrc_intrmasks[voice->dataloc.source]; 1905 1.44 christos emu_wr(sc, INTE, val, 4); 1906 1.44 christos splx(s); 1907 1.44 christos break; 1908 1.44 christos default: 1909 1.44 christos break; 1910 1.44 christos } 1911 1.19 toshii #endif 1912 1.1 jdolecek } 1913 1.1 jdolecek voice->state |= EMU_VOICE_STATE_STARTED; 1914 1.19 toshii emuxki_resched_timer(voice->sc); 1915 1.1 jdolecek } 1916 1.1 jdolecek 1917 1.1 jdolecek static void 1918 1.1 jdolecek emuxki_voice_halt(struct emuxki_voice *voice) 1919 1.1 jdolecek { 1920 1.40 kent 1921 1.1 jdolecek if (voice->use & EMU_VOICE_USE_PLAY) { 1922 1.1 jdolecek emuxki_channel_stop(voice->dataloc.chan[0]); 1923 1.1 jdolecek if (voice->stereo) 1924 1.1 jdolecek emuxki_channel_stop(voice->dataloc.chan[1]); 1925 1.19 toshii } else { 1926 1.19 toshii switch (voice->dataloc.source) { 1927 1.19 toshii case EMU_RECSRC_ADC: 1928 1.35 christos emuxki_write(voice->sc, 0, EMU_ADCCR, 0); 1929 1.19 toshii break; 1930 1.19 toshii case EMU_RECSRC_FX: 1931 1.19 toshii case EMU_RECSRC_MIC: 1932 1.19 toshii printf("unimplemented\n"); 1933 1.19 toshii break; 1934 1.44 christos default: 1935 1.19 toshii case EMU_RECSRC_NOTSET: 1936 1.44 christos printf("Bad dataloc.source %d\n", 1937 1.44 christos voice->dataloc.source); 1938 1.44 christos break; 1939 1.19 toshii } 1940 1.44 christos 1941 1.44 christos switch (voice->dataloc.source) { 1942 1.44 christos case EMU_RECSRC_ADC: 1943 1.44 christos case EMU_RECSRC_FX: 1944 1.44 christos case EMU_RECSRC_MIC: 1945 1.44 christos /* This should reset buffer pointer */ 1946 1.44 christos emuxki_write(voice->sc, 0, 1947 1.44 christos emuxki_recsrc_szreg[voice->dataloc.source], 1948 1.44 christos EMU_RECBS_BUFSIZE_NONE); 1949 1.19 toshii #if 0 1950 1.44 christos int s; 1951 1.44 christos s = splaudio(); 1952 1.44 christos val = emu_rd(sc, INTE, 4); 1953 1.44 christos val &= ~emuxki_recsrc_intrmasks[voice->dataloc.source]; 1954 1.44 christos emu_wr(sc, INTE, val, 4); 1955 1.44 christos splx(s); 1956 1.19 toshii #endif 1957 1.44 christos break; 1958 1.44 christos default: 1959 1.44 christos break; 1960 1.44 christos } 1961 1.1 jdolecek } 1962 1.1 jdolecek voice->state &= ~EMU_VOICE_STATE_STARTED; 1963 1.19 toshii emuxki_resched_timer(voice->sc); 1964 1.1 jdolecek } 1965 1.1 jdolecek 1966 1.1 jdolecek /* 1967 1.1 jdolecek * The interrupt handler 1968 1.1 jdolecek */ 1969 1.1 jdolecek static int 1970 1.1 jdolecek emuxki_intr(void *arg) 1971 1.1 jdolecek { 1972 1.40 kent struct emuxki_softc *sc; 1973 1.1 jdolecek struct emuxki_voice *voice; 1974 1.40 kent uint32_t ipr, curblk; 1975 1.40 kent int claim; 1976 1.1 jdolecek 1977 1.40 kent sc = arg; 1978 1.40 kent claim = 0; 1979 1.1 jdolecek while ((ipr = bus_space_read_4(sc->sc_iot, sc->sc_ioh, EMU_IPR))) { 1980 1.1 jdolecek if (ipr & EMU_IPR_INTERVALTIMER) { 1981 1.1 jdolecek LIST_FOREACH(voice, &sc->voices, next) { 1982 1.19 toshii if ((voice->state & 1983 1.1 jdolecek EMU_VOICE_STATE_STARTED) == 0) 1984 1.1 jdolecek continue; 1985 1.1 jdolecek 1986 1.1 jdolecek curblk = emuxki_voice_curaddr(voice) / 1987 1.1 jdolecek voice->blksize; 1988 1.19 toshii #if 0 1989 1.1 jdolecek if (curblk == voice->trigblk) { 1990 1.1 jdolecek voice->inth(voice->inthparam); 1991 1.1 jdolecek voice->trigblk++; 1992 1.1 jdolecek voice->trigblk %= voice->blkmod; 1993 1.1 jdolecek } 1994 1.19 toshii #else 1995 1.19 toshii while ((curblk >= voice->trigblk && 1996 1.19 toshii curblk < (voice->trigblk + voice->blkmod / 2)) || 1997 1.19 toshii ((int)voice->trigblk - (int)curblk) > 1998 1.19 toshii (voice->blkmod / 2 + 1)) { 1999 1.19 toshii voice->inth(voice->inthparam); 2000 1.19 toshii voice->trigblk++; 2001 1.19 toshii voice->trigblk %= voice->blkmod; 2002 1.19 toshii } 2003 1.19 toshii #endif 2004 1.1 jdolecek } 2005 1.1 jdolecek } 2006 1.1 jdolecek 2007 1.1 jdolecek /* Got interrupt */ 2008 1.1 jdolecek bus_space_write_4(sc->sc_iot, sc->sc_ioh, EMU_IPR, ipr); 2009 1.13 jdolecek 2010 1.13 jdolecek claim = 1; 2011 1.1 jdolecek } 2012 1.1 jdolecek 2013 1.40 kent return claim; 2014 1.1 jdolecek } 2015 1.1 jdolecek 2016 1.1 jdolecek 2017 1.1 jdolecek /* 2018 1.1 jdolecek * Audio Architecture callbacks 2019 1.1 jdolecek */ 2020 1.1 jdolecek 2021 1.1 jdolecek static int 2022 1.1 jdolecek emuxki_open(void *addr, int flags) 2023 1.1 jdolecek { 2024 1.40 kent struct emuxki_softc *sc; 2025 1.1 jdolecek 2026 1.40 kent sc = addr; 2027 1.1 jdolecek #ifdef EMUXKI_DEBUG 2028 1.58 tsutsui printf("%s: emuxki_open called\n", device_xname(sc->sc_dev)); 2029 1.1 jdolecek #endif 2030 1.1 jdolecek 2031 1.1 jdolecek /* 2032 1.1 jdolecek * Multiple voice support would be added as soon as I find a way to 2033 1.1 jdolecek * trick the audio arch into supporting multiple voices. 2034 1.1 jdolecek * Or I might integrate a modified audio arch supporting 2035 1.1 jdolecek * multiple voices. 2036 1.1 jdolecek */ 2037 1.1 jdolecek 2038 1.1 jdolecek /* 2039 1.1 jdolecek * I did this because i have problems identifying the selected 2040 1.1 jdolecek * recording source(s) which is necessary when setting recording 2041 1.31 wiz * params This will be addressed very soon 2042 1.1 jdolecek */ 2043 1.19 toshii if (flags & AUOPEN_READ) { 2044 1.19 toshii sc->rvoice = emuxki_voice_new(sc, 0 /* EMU_VOICE_USE_RECORD */); 2045 1.19 toshii if (sc->rvoice == NULL) 2046 1.40 kent return EBUSY; 2047 1.19 toshii 2048 1.19 toshii /* XXX Hardcode RECSRC_ADC for now */ 2049 1.19 toshii sc->rvoice->dataloc.source = EMU_RECSRC_ADC; 2050 1.19 toshii } 2051 1.1 jdolecek 2052 1.1 jdolecek if (flags & AUOPEN_WRITE) { 2053 1.1 jdolecek sc->pvoice = emuxki_voice_new(sc, EMU_VOICE_USE_PLAY); 2054 1.1 jdolecek if (sc->pvoice == NULL) { 2055 1.8 jdolecek if (sc->rvoice) { 2056 1.1 jdolecek emuxki_voice_delete(sc->rvoice); 2057 1.8 jdolecek sc->rvoice = NULL; 2058 1.8 jdolecek } 2059 1.40 kent return EBUSY; 2060 1.1 jdolecek } 2061 1.1 jdolecek } 2062 1.1 jdolecek 2063 1.40 kent return 0; 2064 1.1 jdolecek } 2065 1.1 jdolecek 2066 1.1 jdolecek static void 2067 1.1 jdolecek emuxki_close(void *addr) 2068 1.1 jdolecek { 2069 1.40 kent struct emuxki_softc *sc; 2070 1.1 jdolecek 2071 1.40 kent sc = addr; 2072 1.1 jdolecek #ifdef EMUXKI_DEBUG 2073 1.58 tsutsui printf("%s: emu10K1_close called\n", device_xname(sc->sc_dev)); 2074 1.1 jdolecek #endif 2075 1.1 jdolecek 2076 1.1 jdolecek /* No multiple voice support for now */ 2077 1.8 jdolecek if (sc->rvoice != NULL) { 2078 1.1 jdolecek emuxki_voice_delete(sc->rvoice); 2079 1.8 jdolecek sc->rvoice = NULL; 2080 1.8 jdolecek } 2081 1.8 jdolecek if (sc->pvoice != NULL) { 2082 1.1 jdolecek emuxki_voice_delete(sc->pvoice); 2083 1.8 jdolecek sc->pvoice = NULL; 2084 1.8 jdolecek } 2085 1.1 jdolecek } 2086 1.1 jdolecek 2087 1.1 jdolecek static int 2088 1.49 christos emuxki_query_encoding(void *addr, struct audio_encoding *fp) 2089 1.1 jdolecek { 2090 1.1 jdolecek #ifdef EMUXKI_DEBUG 2091 1.40 kent struct emuxki_softc *sc; 2092 1.1 jdolecek 2093 1.40 kent sc = addr; 2094 1.58 tsutsui printf("%s: emuxki_query_encoding called\n", device_xname(sc->sc_dev)); 2095 1.1 jdolecek #endif 2096 1.1 jdolecek 2097 1.1 jdolecek switch (fp->index) { 2098 1.1 jdolecek case 0: 2099 1.1 jdolecek strcpy(fp->name, AudioEulinear); 2100 1.1 jdolecek fp->encoding = AUDIO_ENCODING_ULINEAR; 2101 1.1 jdolecek fp->precision = 8; 2102 1.1 jdolecek fp->flags = 0; 2103 1.1 jdolecek break; 2104 1.1 jdolecek case 1: 2105 1.1 jdolecek strcpy(fp->name, AudioEmulaw); 2106 1.1 jdolecek fp->encoding = AUDIO_ENCODING_ULAW; 2107 1.1 jdolecek fp->precision = 8; 2108 1.1 jdolecek fp->flags = AUDIO_ENCODINGFLAG_EMULATED; 2109 1.1 jdolecek break; 2110 1.1 jdolecek case 2: 2111 1.1 jdolecek strcpy(fp->name, AudioEalaw); 2112 1.1 jdolecek fp->encoding = AUDIO_ENCODING_ALAW; 2113 1.1 jdolecek fp->precision = 8; 2114 1.1 jdolecek fp->flags = AUDIO_ENCODINGFLAG_EMULATED; 2115 1.1 jdolecek break; 2116 1.1 jdolecek case 3: 2117 1.1 jdolecek strcpy(fp->name, AudioEslinear); 2118 1.1 jdolecek fp->encoding = AUDIO_ENCODING_SLINEAR; 2119 1.1 jdolecek fp->precision = 8; 2120 1.1 jdolecek fp->flags = AUDIO_ENCODINGFLAG_EMULATED; 2121 1.1 jdolecek break; 2122 1.1 jdolecek case 4: 2123 1.1 jdolecek strcpy(fp->name, AudioEslinear_le); 2124 1.1 jdolecek fp->encoding = AUDIO_ENCODING_SLINEAR_LE; 2125 1.1 jdolecek fp->precision = 16; 2126 1.1 jdolecek fp->flags = 0; 2127 1.1 jdolecek break; 2128 1.1 jdolecek case 5: 2129 1.1 jdolecek strcpy(fp->name, AudioEulinear_le); 2130 1.1 jdolecek fp->encoding = AUDIO_ENCODING_ULINEAR_LE; 2131 1.1 jdolecek fp->precision = 16; 2132 1.1 jdolecek fp->flags = AUDIO_ENCODINGFLAG_EMULATED; 2133 1.1 jdolecek break; 2134 1.1 jdolecek case 6: 2135 1.1 jdolecek strcpy(fp->name, AudioEslinear_be); 2136 1.1 jdolecek fp->encoding = AUDIO_ENCODING_SLINEAR_BE; 2137 1.1 jdolecek fp->precision = 16; 2138 1.1 jdolecek fp->flags = AUDIO_ENCODINGFLAG_EMULATED; 2139 1.1 jdolecek break; 2140 1.1 jdolecek case 7: 2141 1.1 jdolecek strcpy(fp->name, AudioEulinear_be); 2142 1.1 jdolecek fp->encoding = AUDIO_ENCODING_ULINEAR_BE; 2143 1.1 jdolecek fp->precision = 16; 2144 1.1 jdolecek fp->flags = AUDIO_ENCODINGFLAG_EMULATED; 2145 1.1 jdolecek break; 2146 1.1 jdolecek default: 2147 1.40 kent return EINVAL; 2148 1.1 jdolecek } 2149 1.40 kent return 0; 2150 1.1 jdolecek } 2151 1.1 jdolecek 2152 1.1 jdolecek static int 2153 1.39 kent emuxki_set_vparms(struct emuxki_voice *voice, const audio_params_t *p, 2154 1.40 kent stream_filter_list_t *fil) 2155 1.1 jdolecek { 2156 1.39 kent int mode, i; 2157 1.1 jdolecek 2158 1.1 jdolecek mode = (voice->use & EMU_VOICE_USE_PLAY) ? 2159 1.1 jdolecek AUMODE_PLAY : AUMODE_RECORD; 2160 1.39 kent i = auconv_set_converter(emuxki_formats, EMUXKI_NFORMATS, 2161 1.39 kent mode, p, FALSE, fil); 2162 1.39 kent if (i < 0) 2163 1.39 kent return EINVAL; 2164 1.39 kent if (fil->req_size > 0) 2165 1.39 kent p = &fil->filters[0].param; 2166 1.39 kent return emuxki_voice_set_audioparms 2167 1.40 kent (voice, p->channels == 2, p->precision == 16, p->sample_rate); 2168 1.1 jdolecek } 2169 1.1 jdolecek 2170 1.1 jdolecek static int 2171 1.40 kent emuxki_set_params(void *addr, int setmode, int usemode, audio_params_t *play, 2172 1.40 kent audio_params_t *rec, stream_filter_list_t *pfil, stream_filter_list_t *rfil) 2173 1.1 jdolecek { 2174 1.40 kent struct emuxki_softc *sc; 2175 1.1 jdolecek struct audio_params *p; 2176 1.8 jdolecek struct emuxki_voice *v; 2177 1.39 kent stream_filter_list_t *fil; 2178 1.40 kent int mode, error; 2179 1.1 jdolecek 2180 1.40 kent sc = addr; 2181 1.1 jdolecek for (mode = AUMODE_RECORD; mode != -1; 2182 1.1 jdolecek mode = mode == AUMODE_RECORD ? AUMODE_PLAY : -1) { 2183 1.1 jdolecek if ((usemode & setmode & mode) == 0) 2184 1.1 jdolecek continue; 2185 1.1 jdolecek 2186 1.8 jdolecek if (mode == AUMODE_PLAY) { 2187 1.8 jdolecek p = play; 2188 1.39 kent fil = pfil; 2189 1.8 jdolecek v = sc->pvoice; 2190 1.8 jdolecek } else { 2191 1.8 jdolecek p = rec; 2192 1.39 kent fil = rfil; 2193 1.8 jdolecek v = sc->rvoice; 2194 1.8 jdolecek } 2195 1.8 jdolecek 2196 1.8 jdolecek if (v == NULL) { 2197 1.8 jdolecek continue; 2198 1.8 jdolecek } 2199 1.1 jdolecek 2200 1.1 jdolecek /* No multiple voice support for now */ 2201 1.39 kent if ((error = emuxki_set_vparms(v, p, fil))) 2202 1.40 kent return error; 2203 1.1 jdolecek } 2204 1.1 jdolecek 2205 1.40 kent return 0; 2206 1.1 jdolecek } 2207 1.1 jdolecek 2208 1.1 jdolecek static int 2209 1.1 jdolecek emuxki_halt_output(void *addr) 2210 1.1 jdolecek { 2211 1.40 kent struct emuxki_softc *sc; 2212 1.1 jdolecek 2213 1.40 kent sc = addr; 2214 1.1 jdolecek /* No multiple voice support for now */ 2215 1.1 jdolecek if (sc->pvoice == NULL) 2216 1.40 kent return ENXIO; 2217 1.1 jdolecek 2218 1.1 jdolecek emuxki_voice_halt(sc->pvoice); 2219 1.40 kent return 0; 2220 1.1 jdolecek } 2221 1.1 jdolecek 2222 1.1 jdolecek static int 2223 1.1 jdolecek emuxki_halt_input(void *addr) 2224 1.1 jdolecek { 2225 1.40 kent struct emuxki_softc *sc; 2226 1.1 jdolecek 2227 1.40 kent sc = addr; 2228 1.1 jdolecek #ifdef EMUXKI_DEBUG 2229 1.58 tsutsui printf("%s: emuxki_halt_input called\n", device_xname(sc->sc_dev)); 2230 1.1 jdolecek #endif 2231 1.1 jdolecek 2232 1.1 jdolecek /* No multiple voice support for now */ 2233 1.1 jdolecek if (sc->rvoice == NULL) 2234 1.40 kent return ENXIO; 2235 1.1 jdolecek emuxki_voice_halt(sc->rvoice); 2236 1.40 kent return 0; 2237 1.1 jdolecek } 2238 1.1 jdolecek 2239 1.1 jdolecek static int 2240 1.1 jdolecek emuxki_getdev(void *addr, struct audio_device *dev) 2241 1.1 jdolecek { 2242 1.40 kent struct emuxki_softc *sc; 2243 1.40 kent 2244 1.40 kent sc = addr; 2245 1.35 christos *dev = sc->sc_audv; 2246 1.40 kent return 0; 2247 1.1 jdolecek } 2248 1.1 jdolecek 2249 1.1 jdolecek static int 2250 1.1 jdolecek emuxki_set_port(void *addr, mixer_ctrl_t *mctl) 2251 1.1 jdolecek { 2252 1.40 kent struct emuxki_softc *sc; 2253 1.1 jdolecek 2254 1.40 kent sc = addr; 2255 1.1 jdolecek return sc->codecif->vtbl->mixer_set_port(sc->codecif, mctl); 2256 1.1 jdolecek } 2257 1.1 jdolecek 2258 1.1 jdolecek static int 2259 1.1 jdolecek emuxki_get_port(void *addr, mixer_ctrl_t *mctl) 2260 1.1 jdolecek { 2261 1.40 kent struct emuxki_softc *sc; 2262 1.1 jdolecek 2263 1.40 kent sc = addr; 2264 1.1 jdolecek return sc->codecif->vtbl->mixer_get_port(sc->codecif, mctl); 2265 1.1 jdolecek } 2266 1.1 jdolecek 2267 1.1 jdolecek static int 2268 1.1 jdolecek emuxki_query_devinfo(void *addr, mixer_devinfo_t *minfo) 2269 1.1 jdolecek { 2270 1.40 kent struct emuxki_softc *sc; 2271 1.1 jdolecek 2272 1.40 kent sc = addr; 2273 1.1 jdolecek return sc->codecif->vtbl->query_devinfo(sc->codecif, minfo); 2274 1.1 jdolecek } 2275 1.1 jdolecek 2276 1.1 jdolecek static void * 2277 1.16 thorpej emuxki_allocm(void *addr, int direction, size_t size, 2278 1.16 thorpej struct malloc_type *type, int flags) 2279 1.1 jdolecek { 2280 1.1 jdolecek if (direction == AUMODE_PLAY) 2281 1.40 kent return emuxki_pmem_alloc(addr, size, type, flags); 2282 1.1 jdolecek else 2283 1.40 kent return emuxki_rmem_alloc(addr, size, type, flags); 2284 1.1 jdolecek } 2285 1.1 jdolecek 2286 1.1 jdolecek static void 2287 1.16 thorpej emuxki_freem(void *addr, void *ptr, struct malloc_type *type) 2288 1.1 jdolecek { 2289 1.40 kent struct emuxki_softc *sc; 2290 1.1 jdolecek struct emuxki_mem *mem; 2291 1.40 kent uint32_t *ptb, silentpage; 2292 1.40 kent size_t numblocks; 2293 1.40 kent int i, s; 2294 1.1 jdolecek 2295 1.40 kent sc = addr; 2296 1.1 jdolecek ptb = KERNADDR(sc->ptb); 2297 1.1 jdolecek silentpage = DMAADDR(sc->silentpage) << 1; 2298 1.1 jdolecek LIST_FOREACH(mem, &sc->mem, next) { 2299 1.1 jdolecek if (KERNADDR(mem->dmamem) != ptr) 2300 1.1 jdolecek continue; 2301 1.1 jdolecek 2302 1.1 jdolecek s = splaudio(); 2303 1.1 jdolecek if (mem->ptbidx != EMU_RMEM) { 2304 1.1 jdolecek numblocks = DMASIZE(mem->dmamem) / EMU_PTESIZE; 2305 1.1 jdolecek if (DMASIZE(mem->dmamem) % EMU_PTESIZE) 2306 1.1 jdolecek numblocks++; 2307 1.1 jdolecek for (i = 0; i < numblocks; i++) 2308 1.1 jdolecek ptb[mem->ptbidx + i] = 2309 1.34 tsutsui htole32(silentpage | (mem->ptbidx + i)); 2310 1.1 jdolecek } 2311 1.1 jdolecek LIST_REMOVE(mem, next); 2312 1.1 jdolecek splx(s); 2313 1.1 jdolecek 2314 1.1 jdolecek emuxki_mem_delete(mem, type); 2315 1.1 jdolecek break; 2316 1.1 jdolecek } 2317 1.1 jdolecek } 2318 1.1 jdolecek 2319 1.19 toshii /* blocksize should be a divisor of allowable buffersize */ 2320 1.19 toshii /* XXX probably this could be done better */ 2321 1.19 toshii static int 2322 1.49 christos emuxki_round_blocksize(void *addr, int blksize, 2323 1.49 christos int mode, const audio_params_t* param) 2324 1.19 toshii { 2325 1.19 toshii #if 0 2326 1.40 kent struct emuxki_softc *sc; 2327 1.19 toshii struct audio_softc *au; 2328 1.19 toshii #endif 2329 1.19 toshii int bufsize; 2330 1.19 toshii #if 0 2331 1.40 kent sc = addr; 2332 1.19 toshii if (sc == NULL) 2333 1.19 toshii return blksize; 2334 1.19 toshii 2335 1.57 cegger au = device_private(sc->sc_audev); 2336 1.19 toshii if (au == NULL) 2337 1.19 toshii return blksize; 2338 1.19 toshii 2339 1.19 toshii bufsize = emuxki_round_buffersize(sc, AUMODE_RECORD, 2340 1.19 toshii au->sc_rr.bufsize); 2341 1.19 toshii #else 2342 1.19 toshii bufsize = 65536; 2343 1.19 toshii #endif 2344 1.19 toshii 2345 1.19 toshii while (bufsize > blksize) 2346 1.19 toshii bufsize /= 2; 2347 1.19 toshii 2348 1.19 toshii return bufsize; 2349 1.19 toshii } 2350 1.40 kent 2351 1.1 jdolecek static size_t 2352 1.49 christos emuxki_round_buffersize(void *addr, int direction, size_t bsize) 2353 1.1 jdolecek { 2354 1.1 jdolecek 2355 1.1 jdolecek if (direction == AUMODE_PLAY) { 2356 1.1 jdolecek if (bsize < EMU_PTESIZE) 2357 1.1 jdolecek bsize = EMU_PTESIZE; 2358 1.1 jdolecek else if (bsize > (EMU_PTESIZE * EMU_MAXPTE)) 2359 1.1 jdolecek bsize = EMU_PTESIZE * EMU_MAXPTE; 2360 1.1 jdolecek /* Would be better if set to max available */ 2361 1.1 jdolecek else if (bsize % EMU_PTESIZE) 2362 1.1 jdolecek bsize = bsize - 2363 1.1 jdolecek (bsize % EMU_PTESIZE) + 2364 1.1 jdolecek EMU_PTESIZE; 2365 1.1 jdolecek } else { 2366 1.1 jdolecek int idx; 2367 1.1 jdolecek 2368 1.1 jdolecek /* find nearest lower recbuf size */ 2369 1.19 toshii for(idx = sizeof(emuxki_recbuf_sz) / 2370 1.19 toshii sizeof(emuxki_recbuf_sz[0]); --idx >= 0; ) { 2371 1.19 toshii if (bsize >= emuxki_recbuf_sz[idx]) { 2372 1.19 toshii bsize = emuxki_recbuf_sz[idx]; 2373 1.1 jdolecek break; 2374 1.1 jdolecek } 2375 1.1 jdolecek } 2376 1.1 jdolecek 2377 1.1 jdolecek if (bsize == 0) 2378 1.1 jdolecek bsize = 384; 2379 1.1 jdolecek } 2380 1.1 jdolecek 2381 1.40 kent return bsize; 2382 1.1 jdolecek } 2383 1.1 jdolecek 2384 1.1 jdolecek static paddr_t 2385 1.1 jdolecek emuxki_mappage(void *addr, void *ptr, off_t off, int prot) 2386 1.1 jdolecek { 2387 1.40 kent struct emuxki_softc *sc; 2388 1.1 jdolecek struct emuxki_mem *mem; 2389 1.1 jdolecek 2390 1.40 kent sc = addr; 2391 1.1 jdolecek LIST_FOREACH(mem, &sc->mem, next) { 2392 1.1 jdolecek if (KERNADDR(mem->dmamem) == ptr) { 2393 1.1 jdolecek struct dmamem *dm = mem->dmamem; 2394 1.1 jdolecek 2395 1.1 jdolecek return bus_dmamem_mmap(dm->dmat, dm->segs, dm->nsegs, 2396 1.1 jdolecek off, prot, BUS_DMA_WAITOK); 2397 1.1 jdolecek } 2398 1.1 jdolecek } 2399 1.1 jdolecek 2400 1.40 kent return -1; 2401 1.1 jdolecek } 2402 1.1 jdolecek 2403 1.1 jdolecek static int 2404 1.49 christos emuxki_get_props(void *addr) 2405 1.1 jdolecek { 2406 1.40 kent return AUDIO_PROP_MMAP | AUDIO_PROP_INDEPENDENT | 2407 1.40 kent AUDIO_PROP_FULLDUPLEX; 2408 1.1 jdolecek } 2409 1.1 jdolecek 2410 1.1 jdolecek static int 2411 1.1 jdolecek emuxki_trigger_output(void *addr, void *start, void *end, int blksize, 2412 1.40 kent void (*inth) (void *), void *inthparam, const audio_params_t *params) 2413 1.1 jdolecek { 2414 1.40 kent struct emuxki_softc *sc; 2415 1.1 jdolecek /* No multiple voice support for now */ 2416 1.40 kent struct emuxki_voice *voice; 2417 1.40 kent int error; 2418 1.1 jdolecek 2419 1.40 kent sc = addr; 2420 1.40 kent voice = sc->pvoice; 2421 1.1 jdolecek if (voice == NULL) 2422 1.40 kent return ENXIO; 2423 1.39 kent if ((error = emuxki_voice_set_audioparms(voice, params->channels == 2, 2424 1.40 kent params->precision == 16, params->sample_rate))) 2425 1.40 kent return error; 2426 1.1 jdolecek if ((error = emuxki_voice_set_bufparms(voice, start, 2427 1.50 christos (char *)end - (char *)start, blksize))) 2428 1.40 kent return error; 2429 1.1 jdolecek emuxki_voice_commit_parms(voice); 2430 1.1 jdolecek emuxki_voice_start(voice, inth, inthparam); 2431 1.1 jdolecek 2432 1.40 kent return 0; 2433 1.1 jdolecek } 2434 1.1 jdolecek 2435 1.1 jdolecek static int 2436 1.1 jdolecek emuxki_trigger_input(void *addr, void *start, void *end, int blksize, 2437 1.40 kent void (*inth) (void *), void *inthparam, const audio_params_t *params) 2438 1.1 jdolecek { 2439 1.40 kent struct emuxki_softc *sc; 2440 1.1 jdolecek /* No multiple voice support for now */ 2441 1.40 kent struct emuxki_voice *voice; 2442 1.35 christos int error; 2443 1.1 jdolecek 2444 1.40 kent sc = addr; 2445 1.40 kent voice = sc->rvoice; 2446 1.1 jdolecek if (voice == NULL) 2447 1.40 kent return ENXIO; 2448 1.39 kent if ((error = emuxki_voice_set_audioparms(voice, params->channels == 2, 2449 1.40 kent params->precision == 16, params->sample_rate))) 2450 1.40 kent return error; 2451 1.1 jdolecek if ((error = emuxki_voice_set_bufparms(voice, start, 2452 1.50 christos (char *)end - (char *)start, blksize))) 2453 1.40 kent return error; 2454 1.1 jdolecek emuxki_voice_start(voice, inth, inthparam); 2455 1.1 jdolecek 2456 1.40 kent return 0; 2457 1.1 jdolecek } 2458 1.1 jdolecek 2459 1.1 jdolecek /* 2460 1.1 jdolecek * AC97 callbacks 2461 1.1 jdolecek */ 2462 1.1 jdolecek 2463 1.1 jdolecek static int 2464 1.1 jdolecek emuxki_ac97_attach(void *arg, struct ac97_codec_if *codecif) 2465 1.1 jdolecek { 2466 1.40 kent struct emuxki_softc *sc; 2467 1.1 jdolecek 2468 1.40 kent sc = arg; 2469 1.1 jdolecek sc->codecif = codecif; 2470 1.40 kent return 0; 2471 1.1 jdolecek } 2472 1.1 jdolecek 2473 1.1 jdolecek static int 2474 1.40 kent emuxki_ac97_read(void *arg, uint8_t reg, uint16_t *val) 2475 1.1 jdolecek { 2476 1.40 kent struct emuxki_softc *sc; 2477 1.1 jdolecek int s; 2478 1.1 jdolecek 2479 1.40 kent sc = arg; 2480 1.1 jdolecek s = splaudio(); 2481 1.1 jdolecek bus_space_write_1(sc->sc_iot, sc->sc_ioh, EMU_AC97ADDR, reg); 2482 1.1 jdolecek *val = bus_space_read_2(sc->sc_iot, sc->sc_ioh, EMU_AC97DATA); 2483 1.1 jdolecek splx(s); 2484 1.1 jdolecek 2485 1.40 kent return 0; 2486 1.1 jdolecek } 2487 1.1 jdolecek 2488 1.1 jdolecek static int 2489 1.40 kent emuxki_ac97_write(void *arg, uint8_t reg, uint16_t val) 2490 1.1 jdolecek { 2491 1.40 kent struct emuxki_softc *sc; 2492 1.1 jdolecek int s; 2493 1.1 jdolecek 2494 1.40 kent sc = arg; 2495 1.1 jdolecek s = splaudio(); 2496 1.1 jdolecek bus_space_write_1(sc->sc_iot, sc->sc_ioh, EMU_AC97ADDR, reg); 2497 1.1 jdolecek bus_space_write_2(sc->sc_iot, sc->sc_ioh, EMU_AC97DATA, val); 2498 1.1 jdolecek splx(s); 2499 1.1 jdolecek 2500 1.40 kent return 0; 2501 1.1 jdolecek } 2502 1.1 jdolecek 2503 1.36 kent static int 2504 1.49 christos emuxki_ac97_reset(void *arg) 2505 1.1 jdolecek { 2506 1.40 kent 2507 1.36 kent return 0; 2508 1.6 jdolecek } 2509 1.6 jdolecek 2510 1.6 jdolecek enum ac97_host_flags 2511 1.49 christos emuxki_ac97_flags(void *arg) 2512 1.6 jdolecek { 2513 1.40 kent 2514 1.40 kent return AC97_HOST_SWAPPED_CHANNELS; 2515 1.1 jdolecek } 2516
Indexes created Mon Sep 29 18:09:42 GMT 2025