emuxkivar.h revision 1.10
1 1.10 christos /* $NetBSD: emuxkivar.h,v 1.10 2007/03/04 06:02:18 christos 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 * 3. All advertising materials mentioning features or use of this software 19 1.1 jdolecek * must display the following acknowledgement: 20 1.1 jdolecek * This product includes software developed by the NetBSD 21 1.1 jdolecek * Foundation, Inc. and its contributors. 22 1.1 jdolecek * 4. Neither the name of The NetBSD Foundation nor the names of its 23 1.1 jdolecek * contributors may be used to endorse or promote products derived 24 1.1 jdolecek * from this software without specific prior written permission. 25 1.1 jdolecek * 26 1.1 jdolecek * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 27 1.1 jdolecek * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 28 1.1 jdolecek * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 29 1.1 jdolecek * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 30 1.1 jdolecek * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 31 1.1 jdolecek * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 32 1.1 jdolecek * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 33 1.1 jdolecek * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 34 1.1 jdolecek * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 35 1.1 jdolecek * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 36 1.1 jdolecek * POSSIBILITY OF SUCH DAMAGE. 37 1.1 jdolecek */ 38 1.1 jdolecek 39 1.1 jdolecek #ifndef _DEV_PCI_EMU10K1VAR_H_ 40 1.1 jdolecek #define _DEV_PCI_EMU10K1VAR_H_ 41 1.1 jdolecek 42 1.1 jdolecek #define EMU_PCI_CBIO 0x10 43 1.7 christos #define EMU_SUBSYS_APS 0x40011102 44 1.1 jdolecek 45 1.1 jdolecek /* 46 1.6 wiz * DMA memory management 47 1.1 jdolecek */ 48 1.1 jdolecek 49 1.1 jdolecek struct dmamem { 50 1.1 jdolecek bus_dma_tag_t dmat; 51 1.1 jdolecek bus_size_t size; 52 1.1 jdolecek bus_size_t align; 53 1.1 jdolecek bus_size_t bound; 54 1.1 jdolecek bus_dma_segment_t *segs; 55 1.8 kent int nsegs; 56 1.8 kent int rsegs; 57 1.10 christos void * kaddr; 58 1.1 jdolecek bus_dmamap_t map; 59 1.1 jdolecek }; 60 1.1 jdolecek 61 1.1 jdolecek #define KERNADDR(ptr) ((void *)((ptr)->kaddr)) 62 1.1 jdolecek #define DMASEGADDR(ptr, segno) ((ptr)->segs[segno].ds_addr) 63 1.1 jdolecek #define DMAADDR(ptr) DMASEGADDR(ptr, 0) 64 1.1 jdolecek #define DMASIZE(ptr) ((ptr)->size) 65 1.1 jdolecek 66 1.1 jdolecek /* 67 1.1 jdolecek * Emu10k1 hardware limits 68 1.1 jdolecek */ 69 1.1 jdolecek 70 1.1 jdolecek #define EMU_PTESIZE 4096 71 1.1 jdolecek #define EMU_MAXPTE ((EMU_CHAN_PSST_LOOPSTARTADDR_MASK + 1) / \ 72 1.1 jdolecek EMU_PTESIZE) 73 1.2 jdolecek #define EMU_NUMCHAN 64 74 1.1 jdolecek #define EMU_NUMRECSRCS 3 75 1.1 jdolecek 76 1.1 jdolecek #define EMU_DMA_ALIGN 4096 77 1.1 jdolecek #define EMU_DMAMEM_NSEG 1 78 1.1 jdolecek 79 1.1 jdolecek /* 80 1.5 wiz * Emu10k1 memory management 81 1.1 jdolecek */ 82 1.1 jdolecek 83 1.1 jdolecek struct emuxki_mem { 84 1.1 jdolecek LIST_ENTRY(emuxki_mem) next; 85 1.1 jdolecek struct dmamem *dmamem; 86 1.8 kent uint16_t ptbidx; 87 1.1 jdolecek #define EMU_RMEM 0xFFFF /* recording memory */ 88 1.1 jdolecek }; 89 1.1 jdolecek 90 1.1 jdolecek /* 91 1.1 jdolecek * Emu10k1 play channel params 92 1.1 jdolecek */ 93 1.1 jdolecek 94 1.1 jdolecek struct emuxki_chanparms_fxsend { 95 1.1 jdolecek struct { 96 1.8 kent uint8_t level, dest; 97 1.7 christos } a, b, c, d, e, f, g, h; 98 1.1 jdolecek }; 99 1.1 jdolecek 100 1.1 jdolecek struct emuxki_chanparms_pitch { 101 1.8 kent uint16_t initial;/* 4 bits of octave, 12 bits of fractional 102 1.1 jdolecek * octave */ 103 1.8 kent uint16_t current;/* 0x4000 == unity pitch shift */ 104 1.8 kent uint16_t target; /* 0x4000 == unity pitch shift */ 105 1.8 kent uint8_t envelope_amount; /* Signed 2's complement, +/- 106 1.1 jdolecek * one octave peak extremes */ 107 1.1 jdolecek }; 108 1.1 jdolecek 109 1.1 jdolecek struct emuxki_chanparms_envelope { 110 1.8 kent uint16_t current_state; /* 0x8000-n == 666*n usec delay */ 111 1.8 kent uint8_t hold_time; /* 127-n == n*(volume ? 88.2 : 112 1.1 jdolecek * 42)msec */ 113 1.8 kent uint8_t attack_time; /* 0 = infinite, 1 = (volume ? 11 : 114 1.1 jdolecek * 10.9) msec, 0x7f = 5.5msec */ 115 1.8 kent uint8_t sustain_level; /* 127 = full, 0 = off, 0.75dB 116 1.1 jdolecek * increments */ 117 1.8 kent uint8_t decay_time; /* 0 = 43.7msec, 1 = 21.8msec, 0x7f = 118 1.1 jdolecek * 22msec */ 119 1.1 jdolecek }; 120 1.1 jdolecek 121 1.1 jdolecek struct emuxki_chanparms_volume { 122 1.8 kent uint16_t current, target; 123 1.1 jdolecek struct emuxki_chanparms_envelope envelope; 124 1.1 jdolecek }; 125 1.1 jdolecek 126 1.1 jdolecek struct emuxki_chanparms_filter { 127 1.8 kent uint16_t initial_cutoff_frequency; 128 1.1 jdolecek /* 129 1.1 jdolecek * 6 most significant bits are semitones, 2 least significant bits 130 1.1 jdolecek * are fractions 131 1.1 jdolecek */ 132 1.8 kent uint16_t current_cutoff_frequency; 133 1.8 kent uint16_t target_cutoff_frequency; 134 1.8 kent uint8_t lowpass_resonance_height; 135 1.8 kent uint8_t interpolation_ROM; /* 1 = full band, 7 = low 136 1.1 jdolecek * pass */ 137 1.8 kent uint8_t envelope_amount; /* Signed 2's complement, +/- 138 1.1 jdolecek * six octaves peak extremes */ 139 1.8 kent uint8_t LFO_modulation_depth; /* Signed 2's complement, +/- 140 1.1 jdolecek * three octave extremes */ 141 1.1 jdolecek }; 142 1.1 jdolecek 143 1.1 jdolecek struct emuxki_chanparms_loop { 144 1.8 kent uint32_t start; /* index in the PTB (in samples) */ 145 1.8 kent uint32_t end; /* index in the PTB (in samples) */ 146 1.1 jdolecek }; 147 1.1 jdolecek 148 1.1 jdolecek struct emuxki_chanparms_modulation { 149 1.1 jdolecek struct emuxki_chanparms_envelope envelope; 150 1.8 kent uint16_t LFO_state; /* 0x8000-n = 666*n usec delay */ 151 1.1 jdolecek }; 152 1.1 jdolecek 153 1.1 jdolecek struct emuxki_chanparms_vibrato_LFO { 154 1.8 kent uint16_t state; /* 0x8000-n == 666*n usec delay */ 155 1.8 kent uint8_t modulation_depth; /* Signed 2's complement, +/- 156 1.1 jdolecek * one octave extremes */ 157 1.8 kent uint8_t vibrato_depth; /* Signed 2's complement, +/- one 158 1.1 jdolecek * octave extremes */ 159 1.8 kent uint8_t frequency; /* 0.039Hz steps, maximum of 9.85 Hz */ 160 1.1 jdolecek }; 161 1.1 jdolecek 162 1.1 jdolecek struct emuxki_channel { 163 1.8 kent uint8_t num; /* voice number */ 164 1.1 jdolecek struct emuxki_voice *voice; 165 1.1 jdolecek struct emuxki_chanparms_fxsend fxsend; 166 1.1 jdolecek struct emuxki_chanparms_pitch pitch; 167 1.8 kent uint16_t initial_attenuation; /* 0.375dB steps */ 168 1.1 jdolecek struct emuxki_chanparms_volume volume; 169 1.1 jdolecek struct emuxki_chanparms_filter filter; 170 1.1 jdolecek struct emuxki_chanparms_loop loop; 171 1.1 jdolecek struct emuxki_chanparms_modulation modulation; 172 1.1 jdolecek struct emuxki_chanparms_vibrato_LFO vibrato_LFO; 173 1.8 kent uint8_t tremolo_depth; 174 1.1 jdolecek }; 175 1.1 jdolecek 176 1.1 jdolecek /* 177 1.1 jdolecek * Voices, streams 178 1.1 jdolecek */ 179 1.1 jdolecek 180 1.1 jdolecek typedef enum { 181 1.1 jdolecek EMU_RECSRC_MIC = 0, 182 1.1 jdolecek EMU_RECSRC_ADC, 183 1.1 jdolecek EMU_RECSRC_FX, 184 1.1 jdolecek EMU_RECSRC_NOTSET 185 1.1 jdolecek } emuxki_recsrc_t; 186 1.1 jdolecek 187 1.1 jdolecek struct emuxki_voice { 188 1.1 jdolecek struct emuxki_softc *sc; /* our softc */ 189 1.1 jdolecek 190 1.8 kent uint8_t use; 191 1.1 jdolecek #define EMU_VOICE_USE_PLAY (1 << 0) 192 1.8 kent uint8_t state; 193 1.1 jdolecek #define EMU_VOICE_STATE_STARTED (1 << 0) 194 1.8 kent uint8_t stereo; 195 1.1 jdolecek #define EMU_VOICE_STEREO_NOTSET 0xFF 196 1.8 kent uint8_t b16; 197 1.8 kent uint32_t sample_rate; 198 1.1 jdolecek union { 199 1.1 jdolecek struct emuxki_channel *chan[2]; 200 1.1 jdolecek emuxki_recsrc_t source; 201 1.1 jdolecek } dataloc; 202 1.1 jdolecek struct emuxki_mem *buffer; 203 1.8 kent uint16_t blksize;/* in samples */ 204 1.8 kent uint16_t trigblk;/* blk on which to trigger inth */ 205 1.8 kent uint16_t blkmod; /* Modulo value to wrap trigblk */ 206 1.8 kent uint16_t timerate; 207 1.8 kent void (*inth)(void *); 208 1.8 kent void *inthparam; 209 1.2 jdolecek LIST_ENTRY(emuxki_voice) next; 210 1.1 jdolecek }; 211 1.1 jdolecek 212 1.1 jdolecek #if 0 /* Not yet */ 213 1.1 jdolecek /* 214 1.1 jdolecek * I intend this to be able to manage things like AC-3 215 1.1 jdolecek */ 216 1.1 jdolecek struct emuxki_stream { 217 1.1 jdolecek struct emu10k1 *emu; 218 1.8 kent uint8_t nmono; 219 1.8 kent uint8_t nstereo; 220 1.1 jdolecek struct emuxki_voice *mono; 221 1.1 jdolecek struct emuxki_voice *stereo; 222 1.1 jdolecek LIST_ENTRY(emuxki_stream) next; 223 1.1 jdolecek }; 224 1.1 jdolecek #endif /* Not yet */ 225 1.1 jdolecek 226 1.1 jdolecek struct emuxki_softc { 227 1.8 kent struct device sc_dev; 228 1.8 kent audio_device_t sc_audv; 229 1.8 kent enum { 230 1.7 christos EMUXKI_SBLIVE = 0x00, EMUXKI_AUDIGY = 0x01, 231 1.7 christos EMUXKI_AUDIGY2 = 0x02, EMUXKI_LIVE_5_1 = 0x04, 232 1.7 christos EMUXKI_APS = 0x08 233 1.8 kent } sc_type; 234 1.1 jdolecek 235 1.1 jdolecek /* Autoconfig parameters */ 236 1.8 kent bus_space_tag_t sc_iot; 237 1.1 jdolecek bus_space_handle_t sc_ioh; 238 1.1 jdolecek bus_addr_t sc_iob; 239 1.1 jdolecek bus_size_t sc_ios; 240 1.1 jdolecek pci_chipset_tag_t sc_pc; /* PCI tag */ 241 1.1 jdolecek bus_dma_tag_t sc_dmat; 242 1.1 jdolecek void *sc_ih; /* interrupt handler */ 243 1.1 jdolecek 244 1.2 jdolecek /* EMU10K1 device structures */ 245 1.1 jdolecek LIST_HEAD(, emuxki_mem) mem; 246 1.1 jdolecek 247 1.1 jdolecek struct dmamem *ptb; 248 1.1 jdolecek struct dmamem *silentpage; 249 1.1 jdolecek 250 1.1 jdolecek struct emuxki_channel *channel[EMU_NUMCHAN]; 251 1.1 jdolecek struct emuxki_voice *recsrc[EMU_NUMRECSRCS]; 252 1.1 jdolecek 253 1.1 jdolecek LIST_HEAD(, emuxki_voice) voices; 254 1.1 jdolecek /* LIST_HEAD(, emuxki_stream) streams; */ 255 1.1 jdolecek 256 1.8 kent uint8_t timerstate; 257 1.1 jdolecek #define EMU_TIMER_STATE_ENABLED 1 258 1.1 jdolecek 259 1.1 jdolecek struct ac97_host_if hostif; 260 1.1 jdolecek struct ac97_codec_if *codecif; 261 1.1 jdolecek struct device *sc_audev; 262 1.1 jdolecek 263 1.3 jdolecek struct emuxki_voice *pvoice, *rvoice, *lvoice; 264 1.1 jdolecek }; 265 1.1 jdolecek 266 1.1 jdolecek #endif /* !_DEV_PCI_EMU10K1VAR_H_ */ 267
Indexes created Fri Sep 26 08:10:20 GMT 2025