1 /*- 2 * SPDX-License-Identifier: BSD-2-Clause 3 * 4 * Copyright (c) 2006 Stephane E. Potvin <sepotvin@videotron.ca> 5 * Copyright (c) 2006 Ariff Abdullah <ariff@FreeBSD.org> 6 * Copyright (c) 2008-2012 Alexander Motin <mav@FreeBSD.org> 7 * All rights reserved. 8 * 9 * Redistribution and use in source and binary forms, with or without 10 * modification, are permitted provided that the following conditions 11 * are met: 12 * 1. Redistributions of source code must retain the above copyright 13 * notice, this list of conditions and the following disclaimer. 14 * 2. Redistributions in binary form must reproduce the above copyright 15 * notice, this list of conditions and the following disclaimer in the 16 * documentation and/or other materials provided with the distribution. 17 * 18 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 19 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 20 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 21 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 22 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 23 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 24 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 25 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 26 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 27 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 28 * SUCH DAMAGE. 29 */ 30 31 /* 32 * Intel High Definition Audio (Audio function) driver for FreeBSD. 33 */ 34 35 #ifdef HAVE_KERNEL_OPTION_HEADERS 36 #include "opt_snd.h" 37 #endif 38 39 #include <dev/sound/pcm/sound.h> 40 41 #include <sys/ctype.h> 42 #include <sys/taskqueue.h> 43 44 #include <dev/sound/pci/hda/hdac.h> 45 #include <dev/sound/pci/hda/hdaa.h> 46 #include <dev/sound/pci/hda/hda_reg.h> 47 48 #include "mixer_if.h" 49 50 #define hdaa_lock(devinfo) snd_mtxlock((devinfo)->lock) 51 #define hdaa_unlock(devinfo) snd_mtxunlock((devinfo)->lock) 52 #define hdaa_lockassert(devinfo) snd_mtxassert((devinfo)->lock) 53 54 static const struct { 55 const char *key; 56 uint32_t value; 57 } hdaa_quirks_tab[] = { 58 { "softpcmvol", HDAA_QUIRK_SOFTPCMVOL }, 59 { "fixedrate", HDAA_QUIRK_FIXEDRATE }, 60 { "forcestereo", HDAA_QUIRK_FORCESTEREO }, 61 { "eapdinv", HDAA_QUIRK_EAPDINV }, 62 { "senseinv", HDAA_QUIRK_SENSEINV }, 63 { "ivref50", HDAA_QUIRK_IVREF50 }, 64 { "ivref80", HDAA_QUIRK_IVREF80 }, 65 { "ivref100", HDAA_QUIRK_IVREF100 }, 66 { "ovref50", HDAA_QUIRK_OVREF50 }, 67 { "ovref80", HDAA_QUIRK_OVREF80 }, 68 { "ovref100", HDAA_QUIRK_OVREF100 }, 69 { "ivref", HDAA_QUIRK_IVREF }, 70 { "ovref", HDAA_QUIRK_OVREF }, 71 { "vref", HDAA_QUIRK_VREF }, 72 }; 73 74 #define HDA_PARSE_MAXDEPTH 10 75 76 MALLOC_DEFINE(M_HDAA, "hdaa", "HDA Audio"); 77 78 static const char *HDA_COLORS[16] = {"Unknown", "Black", "Grey", "Blue", 79 "Green", "Red", "Orange", "Yellow", "Purple", "Pink", "Res.A", "Res.B", 80 "Res.C", "Res.D", "White", "Other"}; 81 82 static const char *HDA_DEVS[16] = {"Line-out", "Speaker", "Headphones", "CD", 83 "SPDIF-out", "Digital-out", "Modem-line", "Modem-handset", "Line-in", 84 "AUX", "Mic", "Telephony", "SPDIF-in", "Digital-in", "Res.E", "Other"}; 85 86 static const char *HDA_CONNS[4] = {"Jack", "None", "Fixed", "Both"}; 87 88 static const char *HDA_CONNECTORS[16] = { 89 "Unknown", "1/8", "1/4", "ATAPI", "RCA", "Optical", "Digital", "Analog", 90 "DIN", "XLR", "RJ-11", "Combo", "0xc", "0xd", "0xe", "Other" }; 91 92 static const char *HDA_LOCS[64] = { 93 "0x00", "Rear", "Front", "Left", "Right", "Top", "Bottom", "Rear-panel", 94 "Drive-bay", "0x09", "0x0a", "0x0b", "0x0c", "0x0d", "0x0e", "0x0f", 95 "Internal", "0x11", "0x12", "0x13", "0x14", "0x15", "0x16", "Riser", 96 "0x18", "Onboard", "0x1a", "0x1b", "0x1c", "0x1d", "0x1e", "0x1f", 97 "External", "Ext-Rear", "Ext-Front", "Ext-Left", "Ext-Right", "Ext-Top", "Ext-Bottom", "0x07", 98 "0x28", "0x29", "0x2a", "0x2b", "0x2c", "0x2d", "0x2e", "0x2f", 99 "Other", "0x31", "0x32", "0x33", "0x34", "0x35", "Other-Bott", "Lid-In", 100 "Lid-Out", "0x39", "0x3a", "0x3b", "0x3c", "0x3d", "0x3e", "0x3f" }; 101 102 static const char *HDA_GPIO_ACTIONS[8] = { 103 "keep", "set", "clear", "disable", "input", "0x05", "0x06", "0x07"}; 104 105 static const char *HDA_HDMI_CODING_TYPES[18] = { 106 "undefined", "LPCM", "AC-3", "MPEG1", "MP3", "MPEG2", "AAC-LC", "DTS", 107 "ATRAC", "DSD", "E-AC-3", "DTS-HD", "MLP", "DST", "WMAPro", "HE-AAC", 108 "HE-AACv2", "MPEG-Surround" 109 }; 110 111 /* Default */ 112 static uint32_t hdaa_fmt[] = { 113 SND_FORMAT(AFMT_S16_LE, 2, 0), 114 0 115 }; 116 117 static struct pcmchan_caps hdaa_caps = {48000, 48000, hdaa_fmt, 0}; 118 119 static const struct { 120 uint32_t rate; 121 int valid; 122 uint16_t base; 123 uint16_t mul; 124 uint16_t div; 125 } hda_rate_tab[] = { 126 { 8000, 1, 0x0000, 0x0000, 0x0500 }, /* (48000 * 1) / 6 */ 127 { 9600, 0, 0x0000, 0x0000, 0x0400 }, /* (48000 * 1) / 5 */ 128 { 12000, 0, 0x0000, 0x0000, 0x0300 }, /* (48000 * 1) / 4 */ 129 { 16000, 1, 0x0000, 0x0000, 0x0200 }, /* (48000 * 1) / 3 */ 130 { 18000, 0, 0x0000, 0x1000, 0x0700 }, /* (48000 * 3) / 8 */ 131 { 19200, 0, 0x0000, 0x0800, 0x0400 }, /* (48000 * 2) / 5 */ 132 { 24000, 0, 0x0000, 0x0000, 0x0100 }, /* (48000 * 1) / 2 */ 133 { 28800, 0, 0x0000, 0x1000, 0x0400 }, /* (48000 * 3) / 5 */ 134 { 32000, 1, 0x0000, 0x0800, 0x0200 }, /* (48000 * 2) / 3 */ 135 { 36000, 0, 0x0000, 0x1000, 0x0300 }, /* (48000 * 3) / 4 */ 136 { 38400, 0, 0x0000, 0x1800, 0x0400 }, /* (48000 * 4) / 5 */ 137 { 48000, 1, 0x0000, 0x0000, 0x0000 }, /* (48000 * 1) / 1 */ 138 { 64000, 0, 0x0000, 0x1800, 0x0200 }, /* (48000 * 4) / 3 */ 139 { 72000, 0, 0x0000, 0x1000, 0x0100 }, /* (48000 * 3) / 2 */ 140 { 96000, 1, 0x0000, 0x0800, 0x0000 }, /* (48000 * 2) / 1 */ 141 { 144000, 0, 0x0000, 0x1000, 0x0000 }, /* (48000 * 3) / 1 */ 142 { 192000, 1, 0x0000, 0x1800, 0x0000 }, /* (48000 * 4) / 1 */ 143 { 8820, 0, 0x4000, 0x0000, 0x0400 }, /* (44100 * 1) / 5 */ 144 { 11025, 1, 0x4000, 0x0000, 0x0300 }, /* (44100 * 1) / 4 */ 145 { 12600, 0, 0x4000, 0x0800, 0x0600 }, /* (44100 * 2) / 7 */ 146 { 14700, 0, 0x4000, 0x0000, 0x0200 }, /* (44100 * 1) / 3 */ 147 { 17640, 0, 0x4000, 0x0800, 0x0400 }, /* (44100 * 2) / 5 */ 148 { 18900, 0, 0x4000, 0x1000, 0x0600 }, /* (44100 * 3) / 7 */ 149 { 22050, 1, 0x4000, 0x0000, 0x0100 }, /* (44100 * 1) / 2 */ 150 { 25200, 0, 0x4000, 0x1800, 0x0600 }, /* (44100 * 4) / 7 */ 151 { 26460, 0, 0x4000, 0x1000, 0x0400 }, /* (44100 * 3) / 5 */ 152 { 29400, 0, 0x4000, 0x0800, 0x0200 }, /* (44100 * 2) / 3 */ 153 { 33075, 0, 0x4000, 0x1000, 0x0300 }, /* (44100 * 3) / 4 */ 154 { 35280, 0, 0x4000, 0x1800, 0x0400 }, /* (44100 * 4) / 5 */ 155 { 44100, 1, 0x4000, 0x0000, 0x0000 }, /* (44100 * 1) / 1 */ 156 { 58800, 0, 0x4000, 0x1800, 0x0200 }, /* (44100 * 4) / 3 */ 157 { 66150, 0, 0x4000, 0x1000, 0x0100 }, /* (44100 * 3) / 2 */ 158 { 88200, 1, 0x4000, 0x0800, 0x0000 }, /* (44100 * 2) / 1 */ 159 { 132300, 0, 0x4000, 0x1000, 0x0000 }, /* (44100 * 3) / 1 */ 160 { 176400, 1, 0x4000, 0x1800, 0x0000 }, /* (44100 * 4) / 1 */ 161 }; 162 #define HDA_RATE_TAB_LEN (sizeof(hda_rate_tab) / sizeof(hda_rate_tab[0])) 163 164 const static char *ossnames[] = SOUND_DEVICE_NAMES; 165 166 /**************************************************************************** 167 * Function prototypes 168 ****************************************************************************/ 169 static int hdaa_pcmchannel_setup(struct hdaa_chan *); 170 171 static void hdaa_widget_connection_select(struct hdaa_widget *, uint8_t); 172 static void hdaa_audio_ctl_amp_set(struct hdaa_audio_ctl *, 173 uint32_t, int, int); 174 static struct hdaa_audio_ctl *hdaa_audio_ctl_amp_get(struct hdaa_devinfo *, 175 nid_t, int, int, int); 176 static void hdaa_audio_ctl_amp_set_internal(struct hdaa_devinfo *, 177 nid_t, int, int, int, int, int, int); 178 179 static void hdaa_dump_pin_config(struct hdaa_widget *w, uint32_t conf); 180 181 static char * 182 hdaa_audio_ctl_ossmixer_mask2allname(uint32_t mask, char *buf, size_t len) 183 { 184 int i, first = 1; 185 186 bzero(buf, len); 187 for (i = 0; i < SOUND_MIXER_NRDEVICES; i++) { 188 if (mask & (1 << i)) { 189 if (first == 0) 190 strlcat(buf, ", ", len); 191 strlcat(buf, ossnames[i], len); 192 first = 0; 193 } 194 } 195 return (buf); 196 } 197 198 static struct hdaa_audio_ctl * 199 hdaa_audio_ctl_each(struct hdaa_devinfo *devinfo, int *index) 200 { 201 if (devinfo == NULL || 202 index == NULL || devinfo->ctl == NULL || 203 devinfo->ctlcnt < 1 || 204 *index < 0 || *index >= devinfo->ctlcnt) 205 return (NULL); 206 return (&devinfo->ctl[(*index)++]); 207 } 208 209 static struct hdaa_audio_ctl * 210 hdaa_audio_ctl_amp_get(struct hdaa_devinfo *devinfo, nid_t nid, int dir, 211 int index, int cnt) 212 { 213 struct hdaa_audio_ctl *ctl; 214 int i, found = 0; 215 216 if (devinfo == NULL || devinfo->ctl == NULL) 217 return (NULL); 218 219 i = 0; 220 while ((ctl = hdaa_audio_ctl_each(devinfo, &i)) != NULL) { 221 if (ctl->enable == 0) 222 continue; 223 if (ctl->widget->nid != nid) 224 continue; 225 if (dir && ctl->ndir != dir) 226 continue; 227 if (index >= 0 && ctl->ndir == HDAA_CTL_IN && 228 ctl->dir == ctl->ndir && ctl->index != index) 229 continue; 230 found++; 231 if (found == cnt || cnt <= 0) 232 return (ctl); 233 } 234 235 return (NULL); 236 } 237 238 static const struct matrix { 239 struct pcmchan_matrix m; 240 int analog; 241 } matrixes[] = { 242 { SND_CHN_MATRIX_MAP_1_0, 1 }, 243 { SND_CHN_MATRIX_MAP_2_0, 1 }, 244 { SND_CHN_MATRIX_MAP_2_1, 0 }, 245 { SND_CHN_MATRIX_MAP_3_0, 0 }, 246 { SND_CHN_MATRIX_MAP_3_1, 0 }, 247 { SND_CHN_MATRIX_MAP_4_0, 1 }, 248 { SND_CHN_MATRIX_MAP_4_1, 0 }, 249 { SND_CHN_MATRIX_MAP_5_0, 0 }, 250 { SND_CHN_MATRIX_MAP_5_1, 1 }, 251 { SND_CHN_MATRIX_MAP_6_0, 0 }, 252 { SND_CHN_MATRIX_MAP_6_1, 0 }, 253 { SND_CHN_MATRIX_MAP_7_0, 0 }, 254 { SND_CHN_MATRIX_MAP_7_1, 1 }, 255 }; 256 257 static const char *channel_names[] = SND_CHN_T_NAMES; 258 259 /* 260 * Connected channels change handler. 261 */ 262 static void 263 hdaa_channels_handler(struct hdaa_audio_as *as) 264 { 265 struct hdaa_pcm_devinfo *pdevinfo = as->pdevinfo; 266 struct hdaa_devinfo *devinfo = pdevinfo->devinfo; 267 struct hdaa_chan *ch = &devinfo->chans[as->chans[0]]; 268 struct hdaa_widget *w; 269 uint8_t *eld; 270 int i, total, sub, assume, channels; 271 uint16_t cpins, upins, tpins; 272 273 cpins = upins = 0; 274 eld = NULL; 275 for (i = 0; i < 16; i++) { 276 if (as->pins[i] <= 0) 277 continue; 278 w = hdaa_widget_get(devinfo, as->pins[i]); 279 if (w == NULL) 280 continue; 281 if (w->wclass.pin.connected == 1) 282 cpins |= (1 << i); 283 else if (w->wclass.pin.connected != 0) 284 upins |= (1 << i); 285 if (w->eld != NULL && w->eld_len >= 8) 286 eld = w->eld; 287 } 288 tpins = cpins | upins; 289 if (as->hpredir >= 0) 290 tpins &= 0x7fff; 291 if (tpins == 0) 292 tpins = as->pinset; 293 294 total = sub = assume = channels = 0; 295 if (eld) { 296 /* Map CEA speakers to sound(4) channels. */ 297 if (eld[7] & 0x01) /* Front Left/Right */ 298 channels |= SND_CHN_T_MASK_FL | SND_CHN_T_MASK_FR; 299 if (eld[7] & 0x02) /* Low Frequency Effect */ 300 channels |= SND_CHN_T_MASK_LF; 301 if (eld[7] & 0x04) /* Front Center */ 302 channels |= SND_CHN_T_MASK_FC; 303 if (eld[7] & 0x08) { /* Rear Left/Right */ 304 /* If we have both RLR and RLRC, report RLR as side. */ 305 if (eld[7] & 0x40) /* Rear Left/Right Center */ 306 channels |= SND_CHN_T_MASK_SL | SND_CHN_T_MASK_SR; 307 else 308 channels |= SND_CHN_T_MASK_BL | SND_CHN_T_MASK_BR; 309 } 310 if (eld[7] & 0x10) /* Rear center */ 311 channels |= SND_CHN_T_MASK_BC; 312 if (eld[7] & 0x20) /* Front Left/Right Center */ 313 channels |= SND_CHN_T_MASK_FLC | SND_CHN_T_MASK_FRC; 314 if (eld[7] & 0x40) /* Rear Left/Right Center */ 315 channels |= SND_CHN_T_MASK_BL | SND_CHN_T_MASK_BR; 316 } else if (as->pinset != 0 && (tpins & 0xffe0) == 0) { 317 /* Map UAA speakers to sound(4) channels. */ 318 if (tpins & 0x0001) 319 channels |= SND_CHN_T_MASK_FL | SND_CHN_T_MASK_FR; 320 if (tpins & 0x0002) 321 channels |= SND_CHN_T_MASK_FC | SND_CHN_T_MASK_LF; 322 if (tpins & 0x0004) 323 channels |= SND_CHN_T_MASK_BL | SND_CHN_T_MASK_BR; 324 if (tpins & 0x0008) 325 channels |= SND_CHN_T_MASK_FLC | SND_CHN_T_MASK_FRC; 326 if (tpins & 0x0010) { 327 /* If there is no back pin, report side as back. */ 328 if ((as->pinset & 0x0004) == 0) 329 channels |= SND_CHN_T_MASK_BL | SND_CHN_T_MASK_BR; 330 else 331 channels |= SND_CHN_T_MASK_SL | SND_CHN_T_MASK_SR; 332 } 333 } else if (as->mixed) { 334 /* Mixed assoc can be only stereo or theoretically mono. */ 335 if (ch->channels == 1) 336 channels |= SND_CHN_T_MASK_FC; 337 else 338 channels |= SND_CHN_T_MASK_FL | SND_CHN_T_MASK_FR; 339 } 340 if (channels) { /* We have some usable channels info. */ 341 HDA_BOOTVERBOSE( 342 device_printf(pdevinfo->dev, "%s channel set is: ", 343 as->dir == HDAA_CTL_OUT ? "Playback" : "Recording"); 344 for (i = 0; i < SND_CHN_T_MAX; i++) 345 if (channels & (1 << i)) 346 printf("%s, ", channel_names[i]); 347 printf("\n"); 348 ); 349 /* Look for maximal fitting matrix. */ 350 for (i = 0; i < sizeof(matrixes) / sizeof(struct matrix); i++) { 351 if (as->pinset != 0 && matrixes[i].analog == 0) 352 continue; 353 if ((matrixes[i].m.mask & ~channels) == 0) { 354 total = matrixes[i].m.channels; 355 sub = matrixes[i].m.ext; 356 } 357 } 358 } 359 if (total == 0) { 360 assume = 1; 361 total = ch->channels; 362 sub = (total == 6 || total == 8) ? 1 : 0; 363 } 364 HDA_BOOTVERBOSE( 365 device_printf(pdevinfo->dev, 366 "%s channel matrix is: %s%d.%d (%s)\n", 367 as->dir == HDAA_CTL_OUT ? "Playback" : "Recording", 368 assume ? "unknown, assuming " : "", total - sub, sub, 369 cpins != 0 ? "connected" : 370 (upins != 0 ? "unknown" : "disconnected")); 371 ); 372 } 373 374 /* 375 * Headphones redirection change handler. 376 */ 377 static void 378 hdaa_hpredir_handler(struct hdaa_widget *w) 379 { 380 struct hdaa_devinfo *devinfo = w->devinfo; 381 struct hdaa_audio_as *as = &devinfo->as[w->bindas]; 382 struct hdaa_widget *w1; 383 struct hdaa_audio_ctl *ctl; 384 uint32_t val; 385 int j, connected = w->wclass.pin.connected; 386 387 HDA_BOOTVERBOSE( 388 device_printf((as->pdevinfo && as->pdevinfo->dev) ? 389 as->pdevinfo->dev : devinfo->dev, 390 "Redirect output to: %s\n", 391 connected ? "headphones": "main"); 392 ); 393 /* (Un)Mute headphone pin. */ 394 ctl = hdaa_audio_ctl_amp_get(devinfo, 395 w->nid, HDAA_CTL_IN, -1, 1); 396 if (ctl != NULL && ctl->mute) { 397 /* If pin has muter - use it. */ 398 val = connected ? 0 : 1; 399 if (val != ctl->forcemute) { 400 ctl->forcemute = val; 401 hdaa_audio_ctl_amp_set(ctl, 402 HDAA_AMP_MUTE_DEFAULT, 403 HDAA_AMP_VOL_DEFAULT, HDAA_AMP_VOL_DEFAULT); 404 } 405 } else { 406 /* If there is no muter - disable pin output. */ 407 if (connected) 408 val = w->wclass.pin.ctrl | 409 HDA_CMD_SET_PIN_WIDGET_CTRL_OUT_ENABLE; 410 else 411 val = w->wclass.pin.ctrl & 412 ~HDA_CMD_SET_PIN_WIDGET_CTRL_OUT_ENABLE; 413 if (val != w->wclass.pin.ctrl) { 414 w->wclass.pin.ctrl = val; 415 hda_command(devinfo->dev, 416 HDA_CMD_SET_PIN_WIDGET_CTRL(0, 417 w->nid, w->wclass.pin.ctrl)); 418 } 419 } 420 /* (Un)Mute other pins. */ 421 for (j = 0; j < 15; j++) { 422 if (as->pins[j] <= 0) 423 continue; 424 ctl = hdaa_audio_ctl_amp_get(devinfo, 425 as->pins[j], HDAA_CTL_IN, -1, 1); 426 if (ctl != NULL && ctl->mute) { 427 /* If pin has muter - use it. */ 428 val = connected ? 1 : 0; 429 if (val == ctl->forcemute) 430 continue; 431 ctl->forcemute = val; 432 hdaa_audio_ctl_amp_set(ctl, 433 HDAA_AMP_MUTE_DEFAULT, 434 HDAA_AMP_VOL_DEFAULT, HDAA_AMP_VOL_DEFAULT); 435 continue; 436 } 437 /* If there is no muter - disable pin output. */ 438 w1 = hdaa_widget_get(devinfo, as->pins[j]); 439 if (w1 != NULL) { 440 if (connected) 441 val = w1->wclass.pin.ctrl & 442 ~HDA_CMD_SET_PIN_WIDGET_CTRL_OUT_ENABLE; 443 else 444 val = w1->wclass.pin.ctrl | 445 HDA_CMD_SET_PIN_WIDGET_CTRL_OUT_ENABLE; 446 if (val != w1->wclass.pin.ctrl) { 447 w1->wclass.pin.ctrl = val; 448 hda_command(devinfo->dev, 449 HDA_CMD_SET_PIN_WIDGET_CTRL(0, 450 w1->nid, w1->wclass.pin.ctrl)); 451 } 452 } 453 } 454 } 455 456 /* 457 * Recording source change handler. 458 */ 459 static void 460 hdaa_autorecsrc_handler(struct hdaa_audio_as *as, struct hdaa_widget *w) 461 { 462 struct hdaa_pcm_devinfo *pdevinfo = as->pdevinfo; 463 struct hdaa_devinfo *devinfo; 464 struct hdaa_widget *w1; 465 int i, mask, fullmask, prio, bestprio; 466 char buf[128]; 467 468 if (!as->mixed || pdevinfo == NULL || pdevinfo->mixer == NULL) 469 return; 470 /* Don't touch anything if we asked not to. */ 471 if (pdevinfo->autorecsrc == 0 || 472 (pdevinfo->autorecsrc == 1 && w != NULL)) 473 return; 474 /* Don't touch anything if "mix" or "speaker" selected. */ 475 if (pdevinfo->recsrc & (SOUND_MASK_IMIX | SOUND_MASK_SPEAKER)) 476 return; 477 /* Don't touch anything if several selected. */ 478 if (ffs(pdevinfo->recsrc) != fls(pdevinfo->recsrc)) 479 return; 480 devinfo = pdevinfo->devinfo; 481 mask = fullmask = 0; 482 bestprio = 0; 483 for (i = 0; i < 16; i++) { 484 if (as->pins[i] <= 0) 485 continue; 486 w1 = hdaa_widget_get(devinfo, as->pins[i]); 487 if (w1 == NULL || w1->enable == 0) 488 continue; 489 if (w1->wclass.pin.connected == 0) 490 continue; 491 prio = (w1->wclass.pin.connected == 1) ? 2 : 1; 492 if (prio < bestprio) 493 continue; 494 if (prio > bestprio) { 495 mask = 0; 496 bestprio = prio; 497 } 498 mask |= (1 << w1->ossdev); 499 fullmask |= (1 << w1->ossdev); 500 } 501 if (mask == 0) 502 return; 503 /* Prefer newly connected input. */ 504 if (w != NULL && (mask & (1 << w->ossdev))) 505 mask = (1 << w->ossdev); 506 /* Prefer previously selected input */ 507 if (mask & pdevinfo->recsrc) 508 mask &= pdevinfo->recsrc; 509 /* Prefer mic. */ 510 if (mask & SOUND_MASK_MIC) 511 mask = SOUND_MASK_MIC; 512 /* Prefer monitor (2nd mic). */ 513 if (mask & SOUND_MASK_MONITOR) 514 mask = SOUND_MASK_MONITOR; 515 /* Just take first one. */ 516 mask = (1 << (ffs(mask) - 1)); 517 HDA_BOOTVERBOSE( 518 hdaa_audio_ctl_ossmixer_mask2allname(mask, buf, sizeof(buf)); 519 device_printf(pdevinfo->dev, 520 "Automatically set rec source to: %s\n", buf); 521 ); 522 hdaa_unlock(devinfo); 523 mix_setrecsrc(pdevinfo->mixer, mask); 524 hdaa_lock(devinfo); 525 } 526 527 /* 528 * Jack presence detection event handler. 529 */ 530 static void 531 hdaa_presence_handler(struct hdaa_widget *w) 532 { 533 struct hdaa_devinfo *devinfo = w->devinfo; 534 struct hdaa_audio_as *as; 535 uint32_t res; 536 int connected, old; 537 538 if (w->enable == 0 || w->type != 539 HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) 540 return; 541 542 if (HDA_PARAM_PIN_CAP_PRESENCE_DETECT_CAP(w->wclass.pin.cap) == 0 || 543 (HDA_CONFIG_DEFAULTCONF_MISC(w->wclass.pin.config) & 1) != 0) 544 return; 545 546 res = hda_command(devinfo->dev, HDA_CMD_GET_PIN_SENSE(0, w->nid)); 547 connected = (res & HDA_CMD_GET_PIN_SENSE_PRESENCE_DETECT) != 0; 548 if (devinfo->quirks & HDAA_QUIRK_SENSEINV) 549 connected = !connected; 550 old = w->wclass.pin.connected; 551 if (connected == old) 552 return; 553 w->wclass.pin.connected = connected; 554 HDA_BOOTVERBOSE( 555 if (connected || old != 2) { 556 device_printf(devinfo->dev, 557 "Pin sense: nid=%d sense=0x%08x (%sconnected)\n", 558 w->nid, res, !connected ? "dis" : ""); 559 } 560 ); 561 562 as = &devinfo->as[w->bindas]; 563 if (as->hpredir >= 0 && as->pins[15] == w->nid) 564 hdaa_hpredir_handler(w); 565 if (as->dir == HDAA_CTL_IN && old != 2) 566 hdaa_autorecsrc_handler(as, w); 567 if (old != 2) 568 hdaa_channels_handler(as); 569 } 570 571 /* 572 * Callback for poll based presence detection. 573 */ 574 static void 575 hdaa_jack_poll_callback(void *arg) 576 { 577 struct hdaa_devinfo *devinfo = arg; 578 struct hdaa_widget *w; 579 int i; 580 581 hdaa_lock(devinfo); 582 if (devinfo->poll_ival == 0) { 583 hdaa_unlock(devinfo); 584 return; 585 } 586 for (i = 0; i < devinfo->ascnt; i++) { 587 if (devinfo->as[i].hpredir < 0) 588 continue; 589 w = hdaa_widget_get(devinfo, devinfo->as[i].pins[15]); 590 if (w == NULL || w->enable == 0 || w->type != 591 HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) 592 continue; 593 hdaa_presence_handler(w); 594 } 595 callout_reset(&devinfo->poll_jack, devinfo->poll_ival, 596 hdaa_jack_poll_callback, devinfo); 597 hdaa_unlock(devinfo); 598 } 599 600 static void 601 hdaa_eld_dump(struct hdaa_widget *w) 602 { 603 struct hdaa_devinfo *devinfo = w->devinfo; 604 device_t dev = devinfo->dev; 605 uint8_t *sad; 606 int mnl, i, sadc, fmt; 607 608 if (w->eld == NULL || w->eld_len < 4) 609 return; 610 device_printf(dev, 611 "ELD nid=%d: ELD_Ver=%u Baseline_ELD_Len=%u\n", 612 w->nid, w->eld[0] >> 3, w->eld[2]); 613 if ((w->eld[0] >> 3) != 0x02) 614 return; 615 mnl = w->eld[4] & 0x1f; 616 device_printf(dev, 617 "ELD nid=%d: CEA_EDID_Ver=%u MNL=%u\n", 618 w->nid, w->eld[4] >> 5, mnl); 619 sadc = w->eld[5] >> 4; 620 device_printf(dev, 621 "ELD nid=%d: SAD_Count=%u Conn_Type=%u S_AI=%u HDCP=%u\n", 622 w->nid, sadc, (w->eld[5] >> 2) & 0x3, 623 (w->eld[5] >> 1) & 0x1, w->eld[5] & 0x1); 624 device_printf(dev, 625 "ELD nid=%d: Aud_Synch_Delay=%ums\n", 626 w->nid, w->eld[6] * 2); 627 device_printf(dev, 628 "ELD nid=%d: Channels=0x%b\n", 629 w->nid, w->eld[7], 630 "\020\07RLRC\06FLRC\05RC\04RLR\03FC\02LFE\01FLR"); 631 device_printf(dev, 632 "ELD nid=%d: Port_ID=0x%02x%02x%02x%02x%02x%02x%02x%02x\n", 633 w->nid, w->eld[8], w->eld[9], w->eld[10], w->eld[11], 634 w->eld[12], w->eld[13], w->eld[14], w->eld[15]); 635 device_printf(dev, 636 "ELD nid=%d: Manufacturer_Name=0x%02x%02x\n", 637 w->nid, w->eld[16], w->eld[17]); 638 device_printf(dev, 639 "ELD nid=%d: Product_Code=0x%02x%02x\n", 640 w->nid, w->eld[18], w->eld[19]); 641 device_printf(dev, 642 "ELD nid=%d: Monitor_Name_String='%.*s'\n", 643 w->nid, mnl, &w->eld[20]); 644 for (i = 0; i < sadc; i++) { 645 sad = &w->eld[20 + mnl + i * 3]; 646 fmt = (sad[0] >> 3) & 0x0f; 647 if (fmt == HDA_HDMI_CODING_TYPE_REF_CTX) { 648 fmt = (sad[2] >> 3) & 0x1f; 649 if (fmt < 1 || fmt > 3) 650 fmt = 0; 651 else 652 fmt += 14; 653 } 654 device_printf(dev, 655 "ELD nid=%d: %s %dch freqs=0x%b", 656 w->nid, HDA_HDMI_CODING_TYPES[fmt], (sad[0] & 0x07) + 1, 657 sad[1], "\020\007192\006176\00596\00488\00348\00244\00132"); 658 switch (fmt) { 659 case HDA_HDMI_CODING_TYPE_LPCM: 660 printf(" sizes=0x%b", 661 sad[2] & 0x07, "\020\00324\00220\00116"); 662 break; 663 case HDA_HDMI_CODING_TYPE_AC3: 664 case HDA_HDMI_CODING_TYPE_MPEG1: 665 case HDA_HDMI_CODING_TYPE_MP3: 666 case HDA_HDMI_CODING_TYPE_MPEG2: 667 case HDA_HDMI_CODING_TYPE_AACLC: 668 case HDA_HDMI_CODING_TYPE_DTS: 669 case HDA_HDMI_CODING_TYPE_ATRAC: 670 printf(" max_bitrate=%d", sad[2] * 8000); 671 break; 672 case HDA_HDMI_CODING_TYPE_WMAPRO: 673 printf(" profile=%d", sad[2] & 0x07); 674 break; 675 } 676 printf("\n"); 677 } 678 } 679 680 static void 681 hdaa_eld_handler(struct hdaa_widget *w) 682 { 683 struct hdaa_devinfo *devinfo = w->devinfo; 684 uint32_t res; 685 int i; 686 687 if (w->enable == 0 || w->type != 688 HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) 689 return; 690 691 if (HDA_PARAM_PIN_CAP_PRESENCE_DETECT_CAP(w->wclass.pin.cap) == 0 || 692 (HDA_CONFIG_DEFAULTCONF_MISC(w->wclass.pin.config) & 1) != 0) 693 return; 694 695 res = hda_command(devinfo->dev, HDA_CMD_GET_PIN_SENSE(0, w->nid)); 696 if ((w->eld != 0) == ((res & HDA_CMD_GET_PIN_SENSE_ELD_VALID) != 0)) 697 return; 698 if (w->eld != NULL) { 699 w->eld_len = 0; 700 free(w->eld, M_HDAA); 701 w->eld = NULL; 702 } 703 HDA_BOOTVERBOSE( 704 device_printf(devinfo->dev, 705 "Pin sense: nid=%d sense=0x%08x " 706 "(%sconnected, ELD %svalid)\n", 707 w->nid, res, 708 (res & HDA_CMD_GET_PIN_SENSE_PRESENCE_DETECT) ? "" : "dis", 709 (res & HDA_CMD_GET_PIN_SENSE_ELD_VALID) ? "" : "in"); 710 ); 711 if ((res & HDA_CMD_GET_PIN_SENSE_ELD_VALID) == 0) 712 return; 713 714 res = hda_command(devinfo->dev, 715 HDA_CMD_GET_HDMI_DIP_SIZE(0, w->nid, 0x08)); 716 if (res == HDA_INVALID) 717 return; 718 w->eld_len = res & 0xff; 719 if (w->eld_len != 0) 720 w->eld = malloc(w->eld_len, M_HDAA, M_ZERO | M_NOWAIT); 721 if (w->eld == NULL) { 722 w->eld_len = 0; 723 return; 724 } 725 726 for (i = 0; i < w->eld_len; i++) { 727 res = hda_command(devinfo->dev, 728 HDA_CMD_GET_HDMI_ELDD(0, w->nid, i)); 729 if (res & 0x80000000) 730 w->eld[i] = res & 0xff; 731 } 732 HDA_BOOTVERBOSE( 733 hdaa_eld_dump(w); 734 ); 735 hdaa_channels_handler(&devinfo->as[w->bindas]); 736 } 737 738 /* 739 * Pin sense initializer. 740 */ 741 static void 742 hdaa_sense_init(struct hdaa_devinfo *devinfo) 743 { 744 struct hdaa_audio_as *as; 745 struct hdaa_widget *w; 746 int i, poll = 0; 747 748 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 749 w = hdaa_widget_get(devinfo, i); 750 if (w == NULL || w->enable == 0 || w->type != 751 HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) 752 continue; 753 if (HDA_PARAM_AUDIO_WIDGET_CAP_UNSOL_CAP(w->param.widget_cap)) { 754 if (w->unsol < 0) 755 w->unsol = HDAC_UNSOL_ALLOC( 756 device_get_parent(devinfo->dev), 757 devinfo->dev, w->nid); 758 hda_command(devinfo->dev, 759 HDA_CMD_SET_UNSOLICITED_RESPONSE(0, w->nid, 760 HDA_CMD_SET_UNSOLICITED_RESPONSE_ENABLE | w->unsol)); 761 } 762 as = &devinfo->as[w->bindas]; 763 if (as->hpredir >= 0 && as->pins[15] == w->nid) { 764 if (HDA_PARAM_PIN_CAP_PRESENCE_DETECT_CAP(w->wclass.pin.cap) == 0 || 765 (HDA_CONFIG_DEFAULTCONF_MISC(w->wclass.pin.config) & 1) != 0) { 766 device_printf(devinfo->dev, 767 "No presence detection support at nid %d\n", 768 w->nid); 769 } else { 770 if (w->unsol < 0) 771 poll = 1; 772 HDA_BOOTVERBOSE( 773 device_printf(devinfo->dev, 774 "Headphones redirection for " 775 "association %d nid=%d using %s.\n", 776 w->bindas, w->nid, 777 (w->unsol < 0) ? "polling" : 778 "unsolicited responses"); 779 ); 780 } 781 } 782 hdaa_presence_handler(w); 783 if (!HDA_PARAM_PIN_CAP_DP(w->wclass.pin.cap) && 784 !HDA_PARAM_PIN_CAP_HDMI(w->wclass.pin.cap)) 785 continue; 786 hdaa_eld_handler(w); 787 } 788 if (poll) { 789 callout_reset(&devinfo->poll_jack, 1, 790 hdaa_jack_poll_callback, devinfo); 791 } 792 } 793 794 static void 795 hdaa_sense_deinit(struct hdaa_devinfo *devinfo) 796 { 797 struct hdaa_widget *w; 798 int i; 799 800 callout_stop(&devinfo->poll_jack); 801 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 802 w = hdaa_widget_get(devinfo, i); 803 if (w == NULL || w->enable == 0 || w->type != 804 HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) 805 continue; 806 if (w->unsol < 0) 807 continue; 808 hda_command(devinfo->dev, 809 HDA_CMD_SET_UNSOLICITED_RESPONSE(0, w->nid, 0)); 810 HDAC_UNSOL_FREE( 811 device_get_parent(devinfo->dev), devinfo->dev, 812 w->unsol); 813 w->unsol = -1; 814 } 815 } 816 817 uint32_t 818 hdaa_widget_pin_patch(uint32_t config, const char *str) 819 { 820 char buf[256]; 821 char *key, *value, *rest, *bad; 822 int ival, i; 823 824 strlcpy(buf, str, sizeof(buf)); 825 rest = buf; 826 while ((key = strsep(&rest, "=")) != NULL) { 827 value = strsep(&rest, " \t"); 828 if (value == NULL) 829 break; 830 ival = strtol(value, &bad, 10); 831 if (strcmp(key, "seq") == 0) { 832 config &= ~HDA_CONFIG_DEFAULTCONF_SEQUENCE_MASK; 833 config |= ((ival << HDA_CONFIG_DEFAULTCONF_SEQUENCE_SHIFT) & 834 HDA_CONFIG_DEFAULTCONF_SEQUENCE_MASK); 835 } else if (strcmp(key, "as") == 0) { 836 config &= ~HDA_CONFIG_DEFAULTCONF_ASSOCIATION_MASK; 837 config |= ((ival << HDA_CONFIG_DEFAULTCONF_ASSOCIATION_SHIFT) & 838 HDA_CONFIG_DEFAULTCONF_ASSOCIATION_MASK); 839 } else if (strcmp(key, "misc") == 0) { 840 config &= ~HDA_CONFIG_DEFAULTCONF_MISC_MASK; 841 config |= ((ival << HDA_CONFIG_DEFAULTCONF_MISC_SHIFT) & 842 HDA_CONFIG_DEFAULTCONF_MISC_MASK); 843 } else if (strcmp(key, "color") == 0) { 844 config &= ~HDA_CONFIG_DEFAULTCONF_COLOR_MASK; 845 if (bad[0] == 0) { 846 config |= ((ival << HDA_CONFIG_DEFAULTCONF_COLOR_SHIFT) & 847 HDA_CONFIG_DEFAULTCONF_COLOR_MASK); 848 } 849 for (i = 0; i < 16; i++) { 850 if (strcasecmp(HDA_COLORS[i], value) == 0) { 851 config |= (i << HDA_CONFIG_DEFAULTCONF_COLOR_SHIFT); 852 break; 853 } 854 } 855 } else if (strcmp(key, "ctype") == 0) { 856 config &= ~HDA_CONFIG_DEFAULTCONF_CONNECTION_TYPE_MASK; 857 if (bad[0] == 0) { 858 config |= ((ival << HDA_CONFIG_DEFAULTCONF_CONNECTION_TYPE_SHIFT) & 859 HDA_CONFIG_DEFAULTCONF_CONNECTION_TYPE_MASK); 860 } 861 for (i = 0; i < 16; i++) { 862 if (strcasecmp(HDA_CONNECTORS[i], value) == 0) { 863 config |= (i << HDA_CONFIG_DEFAULTCONF_CONNECTION_TYPE_SHIFT); 864 break; 865 } 866 } 867 } else if (strcmp(key, "device") == 0) { 868 config &= ~HDA_CONFIG_DEFAULTCONF_DEVICE_MASK; 869 if (bad[0] == 0) { 870 config |= ((ival << HDA_CONFIG_DEFAULTCONF_DEVICE_SHIFT) & 871 HDA_CONFIG_DEFAULTCONF_DEVICE_MASK); 872 continue; 873 } 874 for (i = 0; i < 16; i++) { 875 if (strcasecmp(HDA_DEVS[i], value) == 0) { 876 config |= (i << HDA_CONFIG_DEFAULTCONF_DEVICE_SHIFT); 877 break; 878 } 879 } 880 } else if (strcmp(key, "loc") == 0) { 881 config &= ~HDA_CONFIG_DEFAULTCONF_LOCATION_MASK; 882 if (bad[0] == 0) { 883 config |= ((ival << HDA_CONFIG_DEFAULTCONF_LOCATION_SHIFT) & 884 HDA_CONFIG_DEFAULTCONF_LOCATION_MASK); 885 continue; 886 } 887 for (i = 0; i < 64; i++) { 888 if (strcasecmp(HDA_LOCS[i], value) == 0) { 889 config |= (i << HDA_CONFIG_DEFAULTCONF_LOCATION_SHIFT); 890 break; 891 } 892 } 893 } else if (strcmp(key, "conn") == 0) { 894 config &= ~HDA_CONFIG_DEFAULTCONF_CONNECTIVITY_MASK; 895 if (bad[0] == 0) { 896 config |= ((ival << HDA_CONFIG_DEFAULTCONF_CONNECTIVITY_SHIFT) & 897 HDA_CONFIG_DEFAULTCONF_CONNECTIVITY_MASK); 898 continue; 899 } 900 for (i = 0; i < 4; i++) { 901 if (strcasecmp(HDA_CONNS[i], value) == 0) { 902 config |= (i << HDA_CONFIG_DEFAULTCONF_CONNECTIVITY_SHIFT); 903 break; 904 } 905 } 906 } 907 } 908 return (config); 909 } 910 911 uint32_t 912 hdaa_gpio_patch(uint32_t gpio, const char *str) 913 { 914 char buf[256]; 915 char *key, *value, *rest; 916 int ikey, i; 917 918 strlcpy(buf, str, sizeof(buf)); 919 rest = buf; 920 while ((key = strsep(&rest, "=")) != NULL) { 921 value = strsep(&rest, " \t"); 922 if (value == NULL) 923 break; 924 ikey = strtol(key, NULL, 10); 925 if (ikey < 0 || ikey > 7) 926 continue; 927 for (i = 0; i < 7; i++) { 928 if (strcasecmp(HDA_GPIO_ACTIONS[i], value) == 0) { 929 gpio &= ~HDAA_GPIO_MASK(ikey); 930 gpio |= i << HDAA_GPIO_SHIFT(ikey); 931 break; 932 } 933 } 934 } 935 return (gpio); 936 } 937 938 static void 939 hdaa_local_patch_pin(struct hdaa_widget *w) 940 { 941 device_t dev = w->devinfo->dev; 942 const char *res = NULL; 943 uint32_t config, orig; 944 char buf[32]; 945 946 config = orig = w->wclass.pin.config; 947 snprintf(buf, sizeof(buf), "cad%u.nid%u.config", 948 hda_get_codec_id(dev), w->nid); 949 if (resource_string_value(device_get_name( 950 device_get_parent(device_get_parent(dev))), 951 device_get_unit(device_get_parent(device_get_parent(dev))), 952 buf, &res) == 0) { 953 if (strncmp(res, "0x", 2) == 0) { 954 config = strtol(res + 2, NULL, 16); 955 } else { 956 config = hdaa_widget_pin_patch(config, res); 957 } 958 } 959 snprintf(buf, sizeof(buf), "nid%u.config", w->nid); 960 if (resource_string_value(device_get_name(dev), device_get_unit(dev), 961 buf, &res) == 0) { 962 if (strncmp(res, "0x", 2) == 0) { 963 config = strtol(res + 2, NULL, 16); 964 } else { 965 config = hdaa_widget_pin_patch(config, res); 966 } 967 } 968 HDA_BOOTVERBOSE( 969 if (config != orig) 970 device_printf(w->devinfo->dev, 971 "Patching pin config nid=%u 0x%08x -> 0x%08x\n", 972 w->nid, orig, config); 973 ); 974 w->wclass.pin.newconf = w->wclass.pin.config = config; 975 } 976 977 static void 978 hdaa_dump_audio_formats_sb(struct sbuf *sb, uint32_t fcap, uint32_t pcmcap) 979 { 980 uint32_t cap; 981 982 cap = fcap; 983 if (cap != 0) { 984 sbuf_printf(sb, " Stream cap: 0x%08x", cap); 985 if (HDA_PARAM_SUPP_STREAM_FORMATS_AC3(cap)) 986 sbuf_printf(sb, " AC3"); 987 if (HDA_PARAM_SUPP_STREAM_FORMATS_FLOAT32(cap)) 988 sbuf_printf(sb, " FLOAT32"); 989 if (HDA_PARAM_SUPP_STREAM_FORMATS_PCM(cap)) 990 sbuf_printf(sb, " PCM"); 991 sbuf_printf(sb, "\n"); 992 } 993 cap = pcmcap; 994 if (cap != 0) { 995 sbuf_printf(sb, " PCM cap: 0x%08x", cap); 996 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_8BIT(cap)) 997 sbuf_printf(sb, " 8"); 998 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_16BIT(cap)) 999 sbuf_printf(sb, " 16"); 1000 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_20BIT(cap)) 1001 sbuf_printf(sb, " 20"); 1002 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_24BIT(cap)) 1003 sbuf_printf(sb, " 24"); 1004 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_32BIT(cap)) 1005 sbuf_printf(sb, " 32"); 1006 sbuf_printf(sb, " bits,"); 1007 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_8KHZ(cap)) 1008 sbuf_printf(sb, " 8"); 1009 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_11KHZ(cap)) 1010 sbuf_printf(sb, " 11"); 1011 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_16KHZ(cap)) 1012 sbuf_printf(sb, " 16"); 1013 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_22KHZ(cap)) 1014 sbuf_printf(sb, " 22"); 1015 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_32KHZ(cap)) 1016 sbuf_printf(sb, " 32"); 1017 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_44KHZ(cap)) 1018 sbuf_printf(sb, " 44"); 1019 sbuf_printf(sb, " 48"); 1020 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_88KHZ(cap)) 1021 sbuf_printf(sb, " 88"); 1022 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_96KHZ(cap)) 1023 sbuf_printf(sb, " 96"); 1024 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_176KHZ(cap)) 1025 sbuf_printf(sb, " 176"); 1026 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_192KHZ(cap)) 1027 sbuf_printf(sb, " 192"); 1028 sbuf_printf(sb, " KHz\n"); 1029 } 1030 } 1031 1032 static void 1033 hdaa_dump_pin_sb(struct sbuf *sb, struct hdaa_widget *w) 1034 { 1035 uint32_t pincap, conf; 1036 1037 pincap = w->wclass.pin.cap; 1038 1039 sbuf_printf(sb, " Pin cap: 0x%08x", pincap); 1040 if (HDA_PARAM_PIN_CAP_IMP_SENSE_CAP(pincap)) 1041 sbuf_printf(sb, " ISC"); 1042 if (HDA_PARAM_PIN_CAP_TRIGGER_REQD(pincap)) 1043 sbuf_printf(sb, " TRQD"); 1044 if (HDA_PARAM_PIN_CAP_PRESENCE_DETECT_CAP(pincap)) 1045 sbuf_printf(sb, " PDC"); 1046 if (HDA_PARAM_PIN_CAP_HEADPHONE_CAP(pincap)) 1047 sbuf_printf(sb, " HP"); 1048 if (HDA_PARAM_PIN_CAP_OUTPUT_CAP(pincap)) 1049 sbuf_printf(sb, " OUT"); 1050 if (HDA_PARAM_PIN_CAP_INPUT_CAP(pincap)) 1051 sbuf_printf(sb, " IN"); 1052 if (HDA_PARAM_PIN_CAP_BALANCED_IO_PINS(pincap)) 1053 sbuf_printf(sb, " BAL"); 1054 if (HDA_PARAM_PIN_CAP_HDMI(pincap)) 1055 sbuf_printf(sb, " HDMI"); 1056 if (HDA_PARAM_PIN_CAP_VREF_CTRL(pincap)) { 1057 sbuf_printf(sb, " VREF["); 1058 if (HDA_PARAM_PIN_CAP_VREF_CTRL_50(pincap)) 1059 sbuf_printf(sb, " 50"); 1060 if (HDA_PARAM_PIN_CAP_VREF_CTRL_80(pincap)) 1061 sbuf_printf(sb, " 80"); 1062 if (HDA_PARAM_PIN_CAP_VREF_CTRL_100(pincap)) 1063 sbuf_printf(sb, " 100"); 1064 if (HDA_PARAM_PIN_CAP_VREF_CTRL_GROUND(pincap)) 1065 sbuf_printf(sb, " GROUND"); 1066 if (HDA_PARAM_PIN_CAP_VREF_CTRL_HIZ(pincap)) 1067 sbuf_printf(sb, " HIZ"); 1068 sbuf_printf(sb, " ]"); 1069 } 1070 if (HDA_PARAM_PIN_CAP_EAPD_CAP(pincap)) 1071 sbuf_printf(sb, " EAPD"); 1072 if (HDA_PARAM_PIN_CAP_DP(pincap)) 1073 sbuf_printf(sb, " DP"); 1074 if (HDA_PARAM_PIN_CAP_HBR(pincap)) 1075 sbuf_printf(sb, " HBR"); 1076 sbuf_printf(sb, "\n"); 1077 conf = w->wclass.pin.config; 1078 sbuf_printf(sb, " Pin config: 0x%08x", conf); 1079 sbuf_printf(sb, " as=%d seq=%d " 1080 "device=%s conn=%s ctype=%s loc=%s color=%s misc=%d\n", 1081 HDA_CONFIG_DEFAULTCONF_ASSOCIATION(conf), 1082 HDA_CONFIG_DEFAULTCONF_SEQUENCE(conf), 1083 HDA_DEVS[HDA_CONFIG_DEFAULTCONF_DEVICE(conf)], 1084 HDA_CONNS[HDA_CONFIG_DEFAULTCONF_CONNECTIVITY(conf)], 1085 HDA_CONNECTORS[HDA_CONFIG_DEFAULTCONF_CONNECTION_TYPE(conf)], 1086 HDA_LOCS[HDA_CONFIG_DEFAULTCONF_LOCATION(conf)], 1087 HDA_COLORS[HDA_CONFIG_DEFAULTCONF_COLOR(conf)], 1088 HDA_CONFIG_DEFAULTCONF_MISC(conf)); 1089 sbuf_printf(sb, " Pin control: 0x%08x", w->wclass.pin.ctrl); 1090 if (w->wclass.pin.ctrl & HDA_CMD_SET_PIN_WIDGET_CTRL_HPHN_ENABLE) 1091 sbuf_printf(sb, " HP"); 1092 if (w->wclass.pin.ctrl & HDA_CMD_SET_PIN_WIDGET_CTRL_IN_ENABLE) 1093 sbuf_printf(sb, " IN"); 1094 if (w->wclass.pin.ctrl & HDA_CMD_SET_PIN_WIDGET_CTRL_OUT_ENABLE) 1095 sbuf_printf(sb, " OUT"); 1096 if (HDA_PARAM_AUDIO_WIDGET_CAP_DIGITAL(w->param.widget_cap)) { 1097 if ((w->wclass.pin.ctrl & 1098 HDA_CMD_SET_PIN_WIDGET_CTRL_VREF_ENABLE_MASK) == 0x03) 1099 sbuf_printf(sb, " HBR"); 1100 else if ((w->wclass.pin.ctrl & 1101 HDA_CMD_SET_PIN_WIDGET_CTRL_VREF_ENABLE_MASK) != 0) 1102 sbuf_printf(sb, " EPTs"); 1103 } else { 1104 if ((w->wclass.pin.ctrl & 1105 HDA_CMD_SET_PIN_WIDGET_CTRL_VREF_ENABLE_MASK) != 0) 1106 sbuf_printf(sb, " VREFs"); 1107 } 1108 sbuf_printf(sb, "\n"); 1109 } 1110 1111 static void 1112 hdaa_dump_amp_sb(struct sbuf *sb, uint32_t cap, const char *banner) 1113 { 1114 int offset, size, step; 1115 1116 offset = HDA_PARAM_OUTPUT_AMP_CAP_OFFSET(cap); 1117 size = HDA_PARAM_OUTPUT_AMP_CAP_STEPSIZE(cap); 1118 step = HDA_PARAM_OUTPUT_AMP_CAP_NUMSTEPS(cap); 1119 sbuf_printf(sb, " %s amp: 0x%08x " 1120 "mute=%d step=%d size=%d offset=%d (%+d/%+ddB)\n", 1121 banner, cap, 1122 HDA_PARAM_OUTPUT_AMP_CAP_MUTE_CAP(cap), 1123 step, size, offset, 1124 ((0 - offset) * (size + 1)) / 4, 1125 ((step - offset) * (size + 1)) / 4); 1126 } 1127 1128 static int 1129 hdaa_sysctl_caps(SYSCTL_HANDLER_ARGS) 1130 { 1131 struct hdaa_devinfo *devinfo; 1132 struct hdaa_widget *w, *cw; 1133 struct sbuf sb; 1134 char buf[64]; 1135 int error, j; 1136 1137 w = (struct hdaa_widget *)oidp->oid_arg1; 1138 devinfo = w->devinfo; 1139 sbuf_new_for_sysctl(&sb, NULL, 256, req); 1140 1141 sbuf_printf(&sb, "%s%s\n", w->name, 1142 (w->enable == 0) ? " [DISABLED]" : ""); 1143 sbuf_printf(&sb, " Widget cap: 0x%08x", 1144 w->param.widget_cap); 1145 if (w->param.widget_cap & 0x0ee1) { 1146 if (HDA_PARAM_AUDIO_WIDGET_CAP_LR_SWAP(w->param.widget_cap)) 1147 sbuf_printf(&sb, " LRSWAP"); 1148 if (HDA_PARAM_AUDIO_WIDGET_CAP_POWER_CTRL(w->param.widget_cap)) 1149 sbuf_printf(&sb, " PWR"); 1150 if (HDA_PARAM_AUDIO_WIDGET_CAP_DIGITAL(w->param.widget_cap)) 1151 sbuf_printf(&sb, " DIGITAL"); 1152 if (HDA_PARAM_AUDIO_WIDGET_CAP_UNSOL_CAP(w->param.widget_cap)) 1153 sbuf_printf(&sb, " UNSOL"); 1154 if (HDA_PARAM_AUDIO_WIDGET_CAP_PROC_WIDGET(w->param.widget_cap)) 1155 sbuf_printf(&sb, " PROC"); 1156 if (HDA_PARAM_AUDIO_WIDGET_CAP_STRIPE(w->param.widget_cap)) 1157 sbuf_printf(&sb, " STRIPE(x%d)", 1158 1 << (fls(w->wclass.conv.stripecap) - 1)); 1159 j = HDA_PARAM_AUDIO_WIDGET_CAP_CC(w->param.widget_cap); 1160 if (j == 1) 1161 sbuf_printf(&sb, " STEREO"); 1162 else if (j > 1) 1163 sbuf_printf(&sb, " %dCH", j + 1); 1164 } 1165 sbuf_printf(&sb, "\n"); 1166 if (w->bindas != -1) { 1167 sbuf_printf(&sb, " Association: %d (0x%04x)\n", 1168 w->bindas, w->bindseqmask); 1169 } 1170 if (w->ossmask != 0 || w->ossdev >= 0) { 1171 sbuf_printf(&sb, " OSS: %s", 1172 hdaa_audio_ctl_ossmixer_mask2allname(w->ossmask, buf, sizeof(buf))); 1173 if (w->ossdev >= 0) 1174 sbuf_printf(&sb, " (%s)", ossnames[w->ossdev]); 1175 sbuf_printf(&sb, "\n"); 1176 } 1177 if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_OUTPUT || 1178 w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT) { 1179 hdaa_dump_audio_formats_sb(&sb, 1180 w->param.supp_stream_formats, 1181 w->param.supp_pcm_size_rate); 1182 } else if (w->type == 1183 HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX || w->waspin) 1184 hdaa_dump_pin_sb(&sb, w); 1185 if (w->param.eapdbtl != HDA_INVALID) { 1186 sbuf_printf(&sb, " EAPD: 0x%08x%s%s%s\n", 1187 w->param.eapdbtl, 1188 (w->param.eapdbtl & HDA_CMD_SET_EAPD_BTL_ENABLE_LR_SWAP) ? 1189 " LRSWAP" : "", 1190 (w->param.eapdbtl & HDA_CMD_SET_EAPD_BTL_ENABLE_EAPD) ? 1191 " EAPD" : "", 1192 (w->param.eapdbtl & HDA_CMD_SET_EAPD_BTL_ENABLE_BTL) ? 1193 " BTL" : ""); 1194 } 1195 if (HDA_PARAM_AUDIO_WIDGET_CAP_OUT_AMP(w->param.widget_cap) && 1196 w->param.outamp_cap != 0) 1197 hdaa_dump_amp_sb(&sb, w->param.outamp_cap, "Output"); 1198 if (HDA_PARAM_AUDIO_WIDGET_CAP_IN_AMP(w->param.widget_cap) && 1199 w->param.inamp_cap != 0) 1200 hdaa_dump_amp_sb(&sb, w->param.inamp_cap, " Input"); 1201 if (w->nconns > 0) 1202 sbuf_printf(&sb, " Connections: %d\n", w->nconns); 1203 for (j = 0; j < w->nconns; j++) { 1204 cw = hdaa_widget_get(devinfo, w->conns[j]); 1205 sbuf_printf(&sb, " + %s<- nid=%d [%s]", 1206 (w->connsenable[j] == 0)?"[DISABLED] ":"", 1207 w->conns[j], (cw == NULL) ? "GHOST!" : cw->name); 1208 if (cw == NULL) 1209 sbuf_printf(&sb, " [UNKNOWN]"); 1210 else if (cw->enable == 0) 1211 sbuf_printf(&sb, " [DISABLED]"); 1212 if (w->nconns > 1 && w->selconn == j && w->type != 1213 HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER) 1214 sbuf_printf(&sb, " (selected)"); 1215 sbuf_printf(&sb, "\n"); 1216 } 1217 error = sbuf_finish(&sb); 1218 sbuf_delete(&sb); 1219 return (error); 1220 } 1221 1222 static int 1223 hdaa_sysctl_config(SYSCTL_HANDLER_ARGS) 1224 { 1225 char buf[256]; 1226 int error; 1227 uint32_t conf; 1228 1229 conf = *(uint32_t *)oidp->oid_arg1; 1230 snprintf(buf, sizeof(buf), "0x%08x as=%d seq=%d " 1231 "device=%s conn=%s ctype=%s loc=%s color=%s misc=%d", 1232 conf, 1233 HDA_CONFIG_DEFAULTCONF_ASSOCIATION(conf), 1234 HDA_CONFIG_DEFAULTCONF_SEQUENCE(conf), 1235 HDA_DEVS[HDA_CONFIG_DEFAULTCONF_DEVICE(conf)], 1236 HDA_CONNS[HDA_CONFIG_DEFAULTCONF_CONNECTIVITY(conf)], 1237 HDA_CONNECTORS[HDA_CONFIG_DEFAULTCONF_CONNECTION_TYPE(conf)], 1238 HDA_LOCS[HDA_CONFIG_DEFAULTCONF_LOCATION(conf)], 1239 HDA_COLORS[HDA_CONFIG_DEFAULTCONF_COLOR(conf)], 1240 HDA_CONFIG_DEFAULTCONF_MISC(conf)); 1241 error = sysctl_handle_string(oidp, buf, sizeof(buf), req); 1242 if (error != 0 || req->newptr == NULL) 1243 return (error); 1244 if (strncmp(buf, "0x", 2) == 0) 1245 conf = strtol(buf + 2, NULL, 16); 1246 else 1247 conf = hdaa_widget_pin_patch(conf, buf); 1248 *(uint32_t *)oidp->oid_arg1 = conf; 1249 return (0); 1250 } 1251 1252 static void 1253 hdaa_config_fetch(const char *str, uint32_t *on, uint32_t *off) 1254 { 1255 int i = 0, j, k, len, inv; 1256 1257 for (;;) { 1258 while (str[i] != '\0' && 1259 (str[i] == ',' || isspace(str[i]) != 0)) 1260 i++; 1261 if (str[i] == '\0') 1262 return; 1263 j = i; 1264 while (str[j] != '\0' && 1265 !(str[j] == ',' || isspace(str[j]) != 0)) 1266 j++; 1267 len = j - i; 1268 if (len > 2 && strncmp(str + i, "no", 2) == 0) 1269 inv = 2; 1270 else 1271 inv = 0; 1272 for (k = 0; len > inv && k < nitems(hdaa_quirks_tab); k++) { 1273 if (strncmp(str + i + inv, 1274 hdaa_quirks_tab[k].key, len - inv) != 0) 1275 continue; 1276 if (len - inv != strlen(hdaa_quirks_tab[k].key)) 1277 continue; 1278 if (inv == 0) { 1279 *on |= hdaa_quirks_tab[k].value; 1280 *off &= ~hdaa_quirks_tab[k].value; 1281 } else { 1282 *off |= hdaa_quirks_tab[k].value; 1283 *on &= ~hdaa_quirks_tab[k].value; 1284 } 1285 break; 1286 } 1287 i = j; 1288 } 1289 } 1290 1291 static int 1292 hdaa_sysctl_quirks(SYSCTL_HANDLER_ARGS) 1293 { 1294 char buf[256]; 1295 int error, n = 0, i; 1296 uint32_t quirks, quirks_off; 1297 1298 quirks = *(uint32_t *)oidp->oid_arg1; 1299 buf[0] = 0; 1300 for (i = 0; i < nitems(hdaa_quirks_tab); i++) { 1301 if ((quirks & hdaa_quirks_tab[i].value) != 0) 1302 n += snprintf(buf + n, sizeof(buf) - n, "%s%s", 1303 n != 0 ? "," : "", hdaa_quirks_tab[i].key); 1304 } 1305 error = sysctl_handle_string(oidp, buf, sizeof(buf), req); 1306 if (error != 0 || req->newptr == NULL) 1307 return (error); 1308 if (strncmp(buf, "0x", 2) == 0) 1309 quirks = strtol(buf + 2, NULL, 16); 1310 else { 1311 quirks = 0; 1312 hdaa_config_fetch(buf, &quirks, &quirks_off); 1313 } 1314 *(uint32_t *)oidp->oid_arg1 = quirks; 1315 return (0); 1316 } 1317 1318 static void 1319 hdaa_local_patch(struct hdaa_devinfo *devinfo) 1320 { 1321 struct hdaa_widget *w; 1322 const char *res = NULL; 1323 uint32_t quirks_on = 0, quirks_off = 0, x; 1324 int i; 1325 1326 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 1327 w = hdaa_widget_get(devinfo, i); 1328 if (w == NULL) 1329 continue; 1330 if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) 1331 hdaa_local_patch_pin(w); 1332 } 1333 1334 if (resource_string_value(device_get_name(devinfo->dev), 1335 device_get_unit(devinfo->dev), "config", &res) == 0) { 1336 if (res != NULL && strlen(res) > 0) 1337 hdaa_config_fetch(res, &quirks_on, &quirks_off); 1338 devinfo->quirks |= quirks_on; 1339 devinfo->quirks &= ~quirks_off; 1340 } 1341 if (devinfo->newquirks == -1) 1342 devinfo->newquirks = devinfo->quirks; 1343 else 1344 devinfo->quirks = devinfo->newquirks; 1345 HDA_BOOTHVERBOSE( 1346 device_printf(devinfo->dev, 1347 "Config options: 0x%08x\n", devinfo->quirks); 1348 ); 1349 1350 if (resource_string_value(device_get_name(devinfo->dev), 1351 device_get_unit(devinfo->dev), "gpio_config", &res) == 0) { 1352 if (strncmp(res, "0x", 2) == 0) { 1353 devinfo->gpio = strtol(res + 2, NULL, 16); 1354 } else { 1355 devinfo->gpio = hdaa_gpio_patch(devinfo->gpio, res); 1356 } 1357 } 1358 if (devinfo->newgpio == -1) 1359 devinfo->newgpio = devinfo->gpio; 1360 else 1361 devinfo->gpio = devinfo->newgpio; 1362 if (devinfo->newgpo == -1) 1363 devinfo->newgpo = devinfo->gpo; 1364 else 1365 devinfo->gpo = devinfo->newgpo; 1366 HDA_BOOTHVERBOSE( 1367 device_printf(devinfo->dev, "GPIO config options:"); 1368 for (i = 0; i < 7; i++) { 1369 x = (devinfo->gpio & HDAA_GPIO_MASK(i)) >> HDAA_GPIO_SHIFT(i); 1370 if (x != 0) 1371 printf(" %d=%s", i, HDA_GPIO_ACTIONS[x]); 1372 } 1373 printf("\n"); 1374 ); 1375 } 1376 1377 static void 1378 hdaa_widget_connection_parse(struct hdaa_widget *w) 1379 { 1380 uint32_t res; 1381 int i, j, max, ents, entnum; 1382 nid_t nid = w->nid; 1383 nid_t cnid, addcnid, prevcnid; 1384 1385 w->nconns = 0; 1386 1387 res = hda_command(w->devinfo->dev, 1388 HDA_CMD_GET_PARAMETER(0, nid, HDA_PARAM_CONN_LIST_LENGTH)); 1389 1390 ents = HDA_PARAM_CONN_LIST_LENGTH_LIST_LENGTH(res); 1391 1392 if (ents < 1) 1393 return; 1394 1395 entnum = HDA_PARAM_CONN_LIST_LENGTH_LONG_FORM(res) ? 2 : 4; 1396 max = (sizeof(w->conns) / sizeof(w->conns[0])) - 1; 1397 prevcnid = 0; 1398 1399 #define CONN_RMASK(e) (1 << ((32 / (e)) - 1)) 1400 #define CONN_NMASK(e) (CONN_RMASK(e) - 1) 1401 #define CONN_RESVAL(r, e, n) ((r) >> ((32 / (e)) * (n))) 1402 #define CONN_RANGE(r, e, n) (CONN_RESVAL(r, e, n) & CONN_RMASK(e)) 1403 #define CONN_CNID(r, e, n) (CONN_RESVAL(r, e, n) & CONN_NMASK(e)) 1404 1405 for (i = 0; i < ents; i += entnum) { 1406 res = hda_command(w->devinfo->dev, 1407 HDA_CMD_GET_CONN_LIST_ENTRY(0, nid, i)); 1408 for (j = 0; j < entnum; j++) { 1409 cnid = CONN_CNID(res, entnum, j); 1410 if (cnid == 0) { 1411 if (w->nconns < ents) 1412 device_printf(w->devinfo->dev, 1413 "WARNING: nid=%d has zero cnid " 1414 "entnum=%d j=%d index=%d " 1415 "entries=%d found=%d res=0x%08x\n", 1416 nid, entnum, j, i, 1417 ents, w->nconns, res); 1418 else 1419 goto getconns_out; 1420 } 1421 if (cnid < w->devinfo->startnode || 1422 cnid >= w->devinfo->endnode) { 1423 HDA_BOOTVERBOSE( 1424 device_printf(w->devinfo->dev, 1425 "WARNING: nid=%d has cnid outside " 1426 "of the AFG range j=%d " 1427 "entnum=%d index=%d res=0x%08x\n", 1428 nid, j, entnum, i, res); 1429 ); 1430 } 1431 if (CONN_RANGE(res, entnum, j) == 0) 1432 addcnid = cnid; 1433 else if (prevcnid == 0 || prevcnid >= cnid) { 1434 device_printf(w->devinfo->dev, 1435 "WARNING: Invalid child range " 1436 "nid=%d index=%d j=%d entnum=%d " 1437 "prevcnid=%d cnid=%d res=0x%08x\n", 1438 nid, i, j, entnum, prevcnid, 1439 cnid, res); 1440 addcnid = cnid; 1441 } else 1442 addcnid = prevcnid + 1; 1443 while (addcnid <= cnid) { 1444 if (w->nconns > max) { 1445 device_printf(w->devinfo->dev, 1446 "Adding %d (nid=%d): " 1447 "Max connection reached! max=%d\n", 1448 addcnid, nid, max + 1); 1449 goto getconns_out; 1450 } 1451 w->connsenable[w->nconns] = 1; 1452 w->conns[w->nconns++] = addcnid++; 1453 } 1454 prevcnid = cnid; 1455 } 1456 } 1457 1458 getconns_out: 1459 return; 1460 } 1461 1462 static void 1463 hdaa_widget_parse(struct hdaa_widget *w) 1464 { 1465 device_t dev = w->devinfo->dev; 1466 uint32_t wcap, cap; 1467 nid_t nid = w->nid; 1468 char buf[64]; 1469 1470 w->param.widget_cap = wcap = hda_command(dev, 1471 HDA_CMD_GET_PARAMETER(0, nid, HDA_PARAM_AUDIO_WIDGET_CAP)); 1472 w->type = HDA_PARAM_AUDIO_WIDGET_CAP_TYPE(wcap); 1473 1474 hdaa_widget_connection_parse(w); 1475 1476 if (HDA_PARAM_AUDIO_WIDGET_CAP_OUT_AMP(wcap)) { 1477 if (HDA_PARAM_AUDIO_WIDGET_CAP_AMP_OVR(wcap)) 1478 w->param.outamp_cap = 1479 hda_command(dev, 1480 HDA_CMD_GET_PARAMETER(0, nid, 1481 HDA_PARAM_OUTPUT_AMP_CAP)); 1482 else 1483 w->param.outamp_cap = 1484 w->devinfo->outamp_cap; 1485 } else 1486 w->param.outamp_cap = 0; 1487 1488 if (HDA_PARAM_AUDIO_WIDGET_CAP_IN_AMP(wcap)) { 1489 if (HDA_PARAM_AUDIO_WIDGET_CAP_AMP_OVR(wcap)) 1490 w->param.inamp_cap = 1491 hda_command(dev, 1492 HDA_CMD_GET_PARAMETER(0, nid, 1493 HDA_PARAM_INPUT_AMP_CAP)); 1494 else 1495 w->param.inamp_cap = 1496 w->devinfo->inamp_cap; 1497 } else 1498 w->param.inamp_cap = 0; 1499 1500 if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_OUTPUT || 1501 w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT) { 1502 if (HDA_PARAM_AUDIO_WIDGET_CAP_FORMAT_OVR(wcap)) { 1503 cap = hda_command(dev, 1504 HDA_CMD_GET_PARAMETER(0, nid, 1505 HDA_PARAM_SUPP_STREAM_FORMATS)); 1506 w->param.supp_stream_formats = (cap != 0) ? cap : 1507 w->devinfo->supp_stream_formats; 1508 cap = hda_command(dev, 1509 HDA_CMD_GET_PARAMETER(0, nid, 1510 HDA_PARAM_SUPP_PCM_SIZE_RATE)); 1511 w->param.supp_pcm_size_rate = (cap != 0) ? cap : 1512 w->devinfo->supp_pcm_size_rate; 1513 } else { 1514 w->param.supp_stream_formats = 1515 w->devinfo->supp_stream_formats; 1516 w->param.supp_pcm_size_rate = 1517 w->devinfo->supp_pcm_size_rate; 1518 } 1519 if (HDA_PARAM_AUDIO_WIDGET_CAP_STRIPE(w->param.widget_cap)) { 1520 w->wclass.conv.stripecap = hda_command(dev, 1521 HDA_CMD_GET_STRIPE_CONTROL(0, w->nid)) >> 20; 1522 } else 1523 w->wclass.conv.stripecap = 1; 1524 } else { 1525 w->param.supp_stream_formats = 0; 1526 w->param.supp_pcm_size_rate = 0; 1527 } 1528 1529 if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) { 1530 w->wclass.pin.original = w->wclass.pin.newconf = 1531 w->wclass.pin.config = hda_command(dev, 1532 HDA_CMD_GET_CONFIGURATION_DEFAULT(0, w->nid)); 1533 w->wclass.pin.cap = hda_command(dev, 1534 HDA_CMD_GET_PARAMETER(0, w->nid, HDA_PARAM_PIN_CAP)); 1535 w->wclass.pin.ctrl = hda_command(dev, 1536 HDA_CMD_GET_PIN_WIDGET_CTRL(0, nid)); 1537 w->wclass.pin.connected = 2; 1538 if (HDA_PARAM_PIN_CAP_EAPD_CAP(w->wclass.pin.cap)) { 1539 w->param.eapdbtl = hda_command(dev, 1540 HDA_CMD_GET_EAPD_BTL_ENABLE(0, nid)); 1541 w->param.eapdbtl &= 0x7; 1542 w->param.eapdbtl |= HDA_CMD_SET_EAPD_BTL_ENABLE_EAPD; 1543 } else 1544 w->param.eapdbtl = HDA_INVALID; 1545 } 1546 w->unsol = -1; 1547 1548 hdaa_unlock(w->devinfo); 1549 snprintf(buf, sizeof(buf), "nid%d", w->nid); 1550 SYSCTL_ADD_PROC(device_get_sysctl_ctx(dev), 1551 SYSCTL_CHILDREN(device_get_sysctl_tree(dev)), OID_AUTO, 1552 buf, CTLTYPE_STRING | CTLFLAG_RD | CTLFLAG_MPSAFE, 1553 w, 0, hdaa_sysctl_caps, "A", "Node capabilities"); 1554 if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) { 1555 snprintf(buf, sizeof(buf), "nid%d_config", w->nid); 1556 SYSCTL_ADD_PROC(device_get_sysctl_ctx(dev), 1557 SYSCTL_CHILDREN(device_get_sysctl_tree(dev)), OID_AUTO, 1558 buf, CTLTYPE_STRING | CTLFLAG_RW | CTLFLAG_MPSAFE, 1559 &w->wclass.pin.newconf, 0, hdaa_sysctl_config, "A", 1560 "Current pin configuration"); 1561 snprintf(buf, sizeof(buf), "nid%d_original", w->nid); 1562 SYSCTL_ADD_PROC(device_get_sysctl_ctx(dev), 1563 SYSCTL_CHILDREN(device_get_sysctl_tree(dev)), OID_AUTO, 1564 buf, CTLTYPE_STRING | CTLFLAG_RD | CTLFLAG_MPSAFE, 1565 &w->wclass.pin.original, 0, hdaa_sysctl_config, "A", 1566 "Original pin configuration"); 1567 } 1568 hdaa_lock(w->devinfo); 1569 } 1570 1571 static void 1572 hdaa_widget_postprocess(struct hdaa_widget *w) 1573 { 1574 const char *typestr; 1575 1576 w->type = HDA_PARAM_AUDIO_WIDGET_CAP_TYPE(w->param.widget_cap); 1577 switch (w->type) { 1578 case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_OUTPUT: 1579 typestr = "audio output"; 1580 break; 1581 case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT: 1582 typestr = "audio input"; 1583 break; 1584 case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER: 1585 typestr = "audio mixer"; 1586 break; 1587 case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_SELECTOR: 1588 typestr = "audio selector"; 1589 break; 1590 case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX: 1591 typestr = "pin"; 1592 break; 1593 case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_POWER_WIDGET: 1594 typestr = "power widget"; 1595 break; 1596 case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_VOLUME_WIDGET: 1597 typestr = "volume widget"; 1598 break; 1599 case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_BEEP_WIDGET: 1600 typestr = "beep widget"; 1601 break; 1602 case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_VENDOR_WIDGET: 1603 typestr = "vendor widget"; 1604 break; 1605 default: 1606 typestr = "unknown type"; 1607 break; 1608 } 1609 strlcpy(w->name, typestr, sizeof(w->name)); 1610 1611 if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) { 1612 uint32_t config; 1613 const char *devstr; 1614 int conn, color; 1615 1616 config = w->wclass.pin.config; 1617 devstr = HDA_DEVS[(config & HDA_CONFIG_DEFAULTCONF_DEVICE_MASK) >> 1618 HDA_CONFIG_DEFAULTCONF_DEVICE_SHIFT]; 1619 conn = (config & HDA_CONFIG_DEFAULTCONF_CONNECTIVITY_MASK) >> 1620 HDA_CONFIG_DEFAULTCONF_CONNECTIVITY_SHIFT; 1621 color = (config & HDA_CONFIG_DEFAULTCONF_COLOR_MASK) >> 1622 HDA_CONFIG_DEFAULTCONF_COLOR_SHIFT; 1623 strlcat(w->name, ": ", sizeof(w->name)); 1624 strlcat(w->name, devstr, sizeof(w->name)); 1625 strlcat(w->name, " (", sizeof(w->name)); 1626 if (conn == 0 && color != 0 && color != 15) { 1627 strlcat(w->name, HDA_COLORS[color], sizeof(w->name)); 1628 strlcat(w->name, " ", sizeof(w->name)); 1629 } 1630 strlcat(w->name, HDA_CONNS[conn], sizeof(w->name)); 1631 strlcat(w->name, ")", sizeof(w->name)); 1632 } 1633 } 1634 1635 struct hdaa_widget * 1636 hdaa_widget_get(struct hdaa_devinfo *devinfo, nid_t nid) 1637 { 1638 if (devinfo == NULL || devinfo->widget == NULL || 1639 nid < devinfo->startnode || nid >= devinfo->endnode) 1640 return (NULL); 1641 return (&devinfo->widget[nid - devinfo->startnode]); 1642 } 1643 1644 static void 1645 hdaa_audio_ctl_amp_set_internal(struct hdaa_devinfo *devinfo, nid_t nid, 1646 int index, int lmute, int rmute, 1647 int left, int right, int dir) 1648 { 1649 uint16_t v = 0; 1650 1651 HDA_BOOTHVERBOSE( 1652 device_printf(devinfo->dev, 1653 "Setting amplifier nid=%d index=%d %s mute=%d/%d vol=%d/%d\n", 1654 nid,index,dir ? "in" : "out",lmute,rmute,left,right); 1655 ); 1656 if (left != right || lmute != rmute) { 1657 v = (1 << (15 - dir)) | (1 << 13) | (index << 8) | 1658 (lmute << 7) | left; 1659 hda_command(devinfo->dev, 1660 HDA_CMD_SET_AMP_GAIN_MUTE(0, nid, v)); 1661 v = (1 << (15 - dir)) | (1 << 12) | (index << 8) | 1662 (rmute << 7) | right; 1663 } else 1664 v = (1 << (15 - dir)) | (3 << 12) | (index << 8) | 1665 (lmute << 7) | left; 1666 1667 hda_command(devinfo->dev, 1668 HDA_CMD_SET_AMP_GAIN_MUTE(0, nid, v)); 1669 } 1670 1671 static void 1672 hdaa_audio_ctl_amp_set(struct hdaa_audio_ctl *ctl, uint32_t mute, 1673 int left, int right) 1674 { 1675 nid_t nid; 1676 int lmute, rmute; 1677 1678 nid = ctl->widget->nid; 1679 1680 /* Save new values if valid. */ 1681 if (mute != HDAA_AMP_MUTE_DEFAULT) 1682 ctl->muted = mute; 1683 if (left != HDAA_AMP_VOL_DEFAULT) 1684 ctl->left = left; 1685 if (right != HDAA_AMP_VOL_DEFAULT) 1686 ctl->right = right; 1687 /* Prepare effective values */ 1688 if (ctl->forcemute) { 1689 lmute = 1; 1690 rmute = 1; 1691 left = 0; 1692 right = 0; 1693 } else { 1694 lmute = HDAA_AMP_LEFT_MUTED(ctl->muted); 1695 rmute = HDAA_AMP_RIGHT_MUTED(ctl->muted); 1696 left = ctl->left; 1697 right = ctl->right; 1698 } 1699 /* Apply effective values */ 1700 if (ctl->dir & HDAA_CTL_OUT) 1701 hdaa_audio_ctl_amp_set_internal(ctl->widget->devinfo, nid, ctl->index, 1702 lmute, rmute, left, right, 0); 1703 if (ctl->dir & HDAA_CTL_IN) 1704 hdaa_audio_ctl_amp_set_internal(ctl->widget->devinfo, nid, ctl->index, 1705 lmute, rmute, left, right, 1); 1706 } 1707 1708 static void 1709 hdaa_widget_connection_select(struct hdaa_widget *w, uint8_t index) 1710 { 1711 if (w == NULL || w->nconns < 1 || index > (w->nconns - 1)) 1712 return; 1713 HDA_BOOTHVERBOSE( 1714 device_printf(w->devinfo->dev, 1715 "Setting selector nid=%d index=%d\n", w->nid, index); 1716 ); 1717 hda_command(w->devinfo->dev, 1718 HDA_CMD_SET_CONNECTION_SELECT_CONTROL(0, w->nid, index)); 1719 w->selconn = index; 1720 } 1721 1722 /**************************************************************************** 1723 * Device Methods 1724 ****************************************************************************/ 1725 1726 static void * 1727 hdaa_channel_init(kobj_t obj, void *data, struct snd_dbuf *b, 1728 struct pcm_channel *c, int dir) 1729 { 1730 struct hdaa_chan *ch = data; 1731 struct hdaa_pcm_devinfo *pdevinfo = ch->pdevinfo; 1732 struct hdaa_devinfo *devinfo = pdevinfo->devinfo; 1733 1734 hdaa_lock(devinfo); 1735 if (devinfo->quirks & HDAA_QUIRK_FIXEDRATE) { 1736 ch->caps.minspeed = ch->caps.maxspeed = 48000; 1737 ch->pcmrates[0] = 48000; 1738 ch->pcmrates[1] = 0; 1739 } 1740 ch->dir = dir; 1741 ch->b = b; 1742 ch->c = c; 1743 ch->blksz = pdevinfo->chan_size / pdevinfo->chan_blkcnt; 1744 ch->blkcnt = pdevinfo->chan_blkcnt; 1745 hdaa_unlock(devinfo); 1746 1747 if (sndbuf_alloc(ch->b, bus_get_dma_tag(devinfo->dev), 1748 hda_get_dma_nocache(devinfo->dev) ? BUS_DMA_NOCACHE : 1749 BUS_DMA_COHERENT, 1750 pdevinfo->chan_size) != 0) 1751 return (NULL); 1752 1753 return (ch); 1754 } 1755 1756 static int 1757 hdaa_channel_setformat(kobj_t obj, void *data, uint32_t format) 1758 { 1759 struct hdaa_chan *ch = data; 1760 int i; 1761 1762 for (i = 0; ch->caps.fmtlist[i] != 0; i++) { 1763 if (format == ch->caps.fmtlist[i]) { 1764 ch->fmt = format; 1765 return (0); 1766 } 1767 } 1768 1769 return (EINVAL); 1770 } 1771 1772 static uint32_t 1773 hdaa_channel_setspeed(kobj_t obj, void *data, uint32_t speed) 1774 { 1775 struct hdaa_chan *ch = data; 1776 uint32_t spd = 0, threshold; 1777 int i; 1778 1779 /* First look for equal or multiple frequency. */ 1780 for (i = 0; ch->pcmrates[i] != 0; i++) { 1781 spd = ch->pcmrates[i]; 1782 if (speed != 0 && spd / speed * speed == spd) { 1783 ch->spd = spd; 1784 return (spd); 1785 } 1786 } 1787 /* If no match, just find nearest. */ 1788 for (i = 0; ch->pcmrates[i] != 0; i++) { 1789 spd = ch->pcmrates[i]; 1790 threshold = spd + ((ch->pcmrates[i + 1] != 0) ? 1791 ((ch->pcmrates[i + 1] - spd) >> 1) : 0); 1792 if (speed < threshold) 1793 break; 1794 } 1795 ch->spd = spd; 1796 return (spd); 1797 } 1798 1799 static uint16_t 1800 hdaa_stream_format(struct hdaa_chan *ch) 1801 { 1802 int i; 1803 uint16_t fmt; 1804 1805 fmt = 0; 1806 if (ch->fmt & AFMT_S16_LE) 1807 fmt |= ch->bit16 << 4; 1808 else if (ch->fmt & AFMT_S32_LE) 1809 fmt |= ch->bit32 << 4; 1810 else 1811 fmt |= 1 << 4; 1812 for (i = 0; i < HDA_RATE_TAB_LEN; i++) { 1813 if (hda_rate_tab[i].valid && ch->spd == hda_rate_tab[i].rate) { 1814 fmt |= hda_rate_tab[i].base; 1815 fmt |= hda_rate_tab[i].mul; 1816 fmt |= hda_rate_tab[i].div; 1817 break; 1818 } 1819 } 1820 fmt |= (AFMT_CHANNEL(ch->fmt) - 1); 1821 1822 return (fmt); 1823 } 1824 1825 static int 1826 hdaa_allowed_stripes(uint16_t fmt) 1827 { 1828 static const int bits[8] = { 8, 16, 20, 24, 32, 32, 32, 32 }; 1829 int size; 1830 1831 size = bits[(fmt >> 4) & 0x03]; 1832 size *= (fmt & 0x0f) + 1; 1833 size *= ((fmt >> 11) & 0x07) + 1; 1834 return (0xffffffffU >> (32 - fls(size / 8))); 1835 } 1836 1837 static void 1838 hdaa_audio_setup(struct hdaa_chan *ch) 1839 { 1840 struct hdaa_audio_as *as = &ch->devinfo->as[ch->as]; 1841 struct hdaa_widget *w, *wp; 1842 int i, j, k, chn, cchn, totalchn, totalextchn, c; 1843 uint16_t fmt, dfmt; 1844 /* Mapping channel pairs to codec pins/converters. */ 1845 const static uint16_t convmap[2][5] = 1846 /* 1.0 2.0 4.0 5.1 7.1 */ 1847 {{ 0x0010, 0x0001, 0x0201, 0x0231, 0x4231 }, /* no dup. */ 1848 { 0x0010, 0x0001, 0x2201, 0x2231, 0x4231 }}; /* side dup. */ 1849 /* Mapping formats to HDMI channel allocations. */ 1850 const static uint8_t hdmica[2][8] = 1851 /* 1 2 3 4 5 6 7 8 */ 1852 {{ 0x02, 0x00, 0x04, 0x08, 0x0a, 0x0e, 0x12, 0x12 }, /* x.0 */ 1853 { 0x01, 0x03, 0x01, 0x03, 0x09, 0x0b, 0x0f, 0x13 }}; /* x.1 */ 1854 /* Mapping formats to HDMI channels order. */ 1855 const static uint32_t hdmich[2][8] = 1856 /* 1 / 5 2 / 6 3 / 7 4 / 8 */ 1857 {{ 0xFFFF0F00, 0xFFFFFF10, 0xFFF2FF10, 0xFF32FF10, 1858 0xFF324F10, 0xF5324F10, 0x54326F10, 0x54326F10 }, /* x.0 */ 1859 { 0xFFFFF000, 0xFFFF0100, 0xFFFFF210, 0xFFFF2310, 1860 0xFF32F410, 0xFF324510, 0xF6324510, 0x76325410 }}; /* x.1 */ 1861 int convmapid = -1; 1862 nid_t nid; 1863 uint8_t csum; 1864 1865 totalchn = AFMT_CHANNEL(ch->fmt); 1866 totalextchn = AFMT_EXTCHANNEL(ch->fmt); 1867 HDA_BOOTHVERBOSE( 1868 device_printf(ch->pdevinfo->dev, 1869 "PCMDIR_%s: Stream setup fmt=%08x (%d.%d) speed=%d\n", 1870 (ch->dir == PCMDIR_PLAY) ? "PLAY" : "REC", 1871 ch->fmt, totalchn - totalextchn, totalextchn, ch->spd); 1872 ); 1873 fmt = hdaa_stream_format(ch); 1874 1875 /* Set channels to I/O converters mapping for known speaker setups. */ 1876 if ((as->pinset == 0x0007 || as->pinset == 0x0013) || /* Standard 5.1 */ 1877 (as->pinset == 0x0017)) /* Standard 7.1 */ 1878 convmapid = (ch->dir == PCMDIR_PLAY); 1879 1880 dfmt = HDA_CMD_SET_DIGITAL_CONV_FMT1_DIGEN; 1881 if (ch->fmt & AFMT_AC3) 1882 dfmt |= HDA_CMD_SET_DIGITAL_CONV_FMT1_NAUDIO; 1883 1884 chn = 0; 1885 for (i = 0; ch->io[i] != -1; i++) { 1886 w = hdaa_widget_get(ch->devinfo, ch->io[i]); 1887 if (w == NULL) 1888 continue; 1889 1890 /* If HP redirection is enabled, but failed to use same 1891 DAC, make last DAC to duplicate first one. */ 1892 if (as->fakeredir && i == (as->pincnt - 1)) { 1893 c = (ch->sid << 4); 1894 } else { 1895 /* Map channels to I/O converters, if set. */ 1896 if (convmapid >= 0) 1897 chn = (((convmap[convmapid][totalchn / 2] 1898 >> i * 4) & 0xf) - 1) * 2; 1899 if (chn < 0 || chn >= totalchn) { 1900 c = 0; 1901 } else { 1902 c = (ch->sid << 4) | chn; 1903 } 1904 } 1905 hda_command(ch->devinfo->dev, 1906 HDA_CMD_SET_CONV_FMT(0, ch->io[i], fmt)); 1907 if (HDA_PARAM_AUDIO_WIDGET_CAP_DIGITAL(w->param.widget_cap)) { 1908 hda_command(ch->devinfo->dev, 1909 HDA_CMD_SET_DIGITAL_CONV_FMT1(0, ch->io[i], dfmt)); 1910 } 1911 hda_command(ch->devinfo->dev, 1912 HDA_CMD_SET_CONV_STREAM_CHAN(0, ch->io[i], c)); 1913 if (HDA_PARAM_AUDIO_WIDGET_CAP_STRIPE(w->param.widget_cap)) { 1914 hda_command(ch->devinfo->dev, 1915 HDA_CMD_SET_STRIPE_CONTROL(0, w->nid, ch->stripectl)); 1916 } 1917 cchn = HDA_PARAM_AUDIO_WIDGET_CAP_CC(w->param.widget_cap); 1918 if (cchn > 1 && chn < totalchn) { 1919 cchn = min(cchn, totalchn - chn - 1); 1920 hda_command(ch->devinfo->dev, 1921 HDA_CMD_SET_CONV_CHAN_COUNT(0, ch->io[i], cchn)); 1922 } 1923 HDA_BOOTHVERBOSE( 1924 device_printf(ch->pdevinfo->dev, 1925 "PCMDIR_%s: Stream setup nid=%d: " 1926 "fmt=0x%04x, dfmt=0x%04x, chan=0x%04x, " 1927 "chan_count=0x%02x, stripe=%d\n", 1928 (ch->dir == PCMDIR_PLAY) ? "PLAY" : "REC", 1929 ch->io[i], fmt, dfmt, c, cchn, ch->stripectl); 1930 ); 1931 for (j = 0; j < 16; j++) { 1932 if (as->dacs[ch->asindex][j] != ch->io[i]) 1933 continue; 1934 nid = as->pins[j]; 1935 wp = hdaa_widget_get(ch->devinfo, nid); 1936 if (wp == NULL) 1937 continue; 1938 if (!HDA_PARAM_PIN_CAP_DP(wp->wclass.pin.cap) && 1939 !HDA_PARAM_PIN_CAP_HDMI(wp->wclass.pin.cap)) 1940 continue; 1941 1942 /* Set channel mapping. */ 1943 for (k = 0; k < 8; k++) { 1944 hda_command(ch->devinfo->dev, 1945 HDA_CMD_SET_HDMI_CHAN_SLOT(0, nid, 1946 (((hdmich[totalextchn == 0 ? 0 : 1][totalchn - 1] 1947 >> (k * 4)) & 0xf) << 4) | k)); 1948 } 1949 1950 /* 1951 * Enable High Bit Rate (HBR) Encoded Packet Type 1952 * (EPT), if supported and needed (8ch data). 1953 */ 1954 if (HDA_PARAM_PIN_CAP_HDMI(wp->wclass.pin.cap) && 1955 HDA_PARAM_PIN_CAP_HBR(wp->wclass.pin.cap)) { 1956 wp->wclass.pin.ctrl &= 1957 ~HDA_CMD_SET_PIN_WIDGET_CTRL_VREF_ENABLE_MASK; 1958 if ((ch->fmt & AFMT_AC3) && (cchn == 7)) 1959 wp->wclass.pin.ctrl |= 0x03; 1960 hda_command(ch->devinfo->dev, 1961 HDA_CMD_SET_PIN_WIDGET_CTRL(0, nid, 1962 wp->wclass.pin.ctrl)); 1963 } 1964 1965 /* Stop audio infoframe transmission. */ 1966 hda_command(ch->devinfo->dev, 1967 HDA_CMD_SET_HDMI_DIP_INDEX(0, nid, 0x00)); 1968 hda_command(ch->devinfo->dev, 1969 HDA_CMD_SET_HDMI_DIP_XMIT(0, nid, 0x00)); 1970 1971 /* Clear audio infoframe buffer. */ 1972 hda_command(ch->devinfo->dev, 1973 HDA_CMD_SET_HDMI_DIP_INDEX(0, nid, 0x00)); 1974 for (k = 0; k < 32; k++) 1975 hda_command(ch->devinfo->dev, 1976 HDA_CMD_SET_HDMI_DIP_DATA(0, nid, 0x00)); 1977 1978 /* Write HDMI/DisplayPort audio infoframe. */ 1979 hda_command(ch->devinfo->dev, 1980 HDA_CMD_SET_HDMI_DIP_INDEX(0, nid, 0x00)); 1981 if (w->eld != NULL && w->eld_len >= 6 && 1982 ((w->eld[5] >> 2) & 0x3) == 1) { /* DisplayPort */ 1983 hda_command(ch->devinfo->dev, 1984 HDA_CMD_SET_HDMI_DIP_DATA(0, nid, 0x84)); 1985 hda_command(ch->devinfo->dev, 1986 HDA_CMD_SET_HDMI_DIP_DATA(0, nid, 0x1b)); 1987 hda_command(ch->devinfo->dev, 1988 HDA_CMD_SET_HDMI_DIP_DATA(0, nid, 0x44)); 1989 } else { /* HDMI */ 1990 hda_command(ch->devinfo->dev, 1991 HDA_CMD_SET_HDMI_DIP_DATA(0, nid, 0x84)); 1992 hda_command(ch->devinfo->dev, 1993 HDA_CMD_SET_HDMI_DIP_DATA(0, nid, 0x01)); 1994 hda_command(ch->devinfo->dev, 1995 HDA_CMD_SET_HDMI_DIP_DATA(0, nid, 0x0a)); 1996 csum = 0; 1997 csum -= 0x84 + 0x01 + 0x0a + (totalchn - 1) + 1998 hdmica[totalextchn == 0 ? 0 : 1][totalchn - 1]; 1999 hda_command(ch->devinfo->dev, 2000 HDA_CMD_SET_HDMI_DIP_DATA(0, nid, csum)); 2001 } 2002 hda_command(ch->devinfo->dev, 2003 HDA_CMD_SET_HDMI_DIP_DATA(0, nid, totalchn - 1)); 2004 hda_command(ch->devinfo->dev, 2005 HDA_CMD_SET_HDMI_DIP_DATA(0, nid, 0x00)); 2006 hda_command(ch->devinfo->dev, 2007 HDA_CMD_SET_HDMI_DIP_DATA(0, nid, 0x00)); 2008 hda_command(ch->devinfo->dev, 2009 HDA_CMD_SET_HDMI_DIP_DATA(0, nid, 2010 hdmica[totalextchn == 0 ? 0 : 1][totalchn - 1])); 2011 2012 /* Start audio infoframe transmission. */ 2013 hda_command(ch->devinfo->dev, 2014 HDA_CMD_SET_HDMI_DIP_INDEX(0, nid, 0x00)); 2015 hda_command(ch->devinfo->dev, 2016 HDA_CMD_SET_HDMI_DIP_XMIT(0, nid, 0xc0)); 2017 } 2018 chn += cchn + 1; 2019 } 2020 } 2021 2022 /* 2023 * Greatest Common Divisor. 2024 */ 2025 static unsigned 2026 gcd(unsigned a, unsigned b) 2027 { 2028 u_int c; 2029 2030 while (b != 0) { 2031 c = a; 2032 a = b; 2033 b = (c % b); 2034 } 2035 return (a); 2036 } 2037 2038 /* 2039 * Least Common Multiple. 2040 */ 2041 static unsigned 2042 lcm(unsigned a, unsigned b) 2043 { 2044 2045 return ((a * b) / gcd(a, b)); 2046 } 2047 2048 static int 2049 hdaa_channel_setfragments(kobj_t obj, void *data, 2050 uint32_t blksz, uint32_t blkcnt) 2051 { 2052 struct hdaa_chan *ch = data; 2053 2054 blksz -= blksz % lcm(HDA_DMA_ALIGNMENT, sndbuf_getalign(ch->b)); 2055 2056 if (blksz > (sndbuf_getmaxsize(ch->b) / HDA_BDL_MIN)) 2057 blksz = sndbuf_getmaxsize(ch->b) / HDA_BDL_MIN; 2058 if (blksz < HDA_BLK_MIN) 2059 blksz = HDA_BLK_MIN; 2060 if (blkcnt > HDA_BDL_MAX) 2061 blkcnt = HDA_BDL_MAX; 2062 if (blkcnt < HDA_BDL_MIN) 2063 blkcnt = HDA_BDL_MIN; 2064 2065 while ((blksz * blkcnt) > sndbuf_getmaxsize(ch->b)) { 2066 if ((blkcnt >> 1) >= HDA_BDL_MIN) 2067 blkcnt >>= 1; 2068 else if ((blksz >> 1) >= HDA_BLK_MIN) 2069 blksz >>= 1; 2070 else 2071 break; 2072 } 2073 2074 if ((sndbuf_getblksz(ch->b) != blksz || 2075 sndbuf_getblkcnt(ch->b) != blkcnt) && 2076 sndbuf_resize(ch->b, blkcnt, blksz) != 0) 2077 device_printf(ch->devinfo->dev, "%s: failed blksz=%u blkcnt=%u\n", 2078 __func__, blksz, blkcnt); 2079 2080 ch->blksz = sndbuf_getblksz(ch->b); 2081 ch->blkcnt = sndbuf_getblkcnt(ch->b); 2082 2083 return (0); 2084 } 2085 2086 static uint32_t 2087 hdaa_channel_setblocksize(kobj_t obj, void *data, uint32_t blksz) 2088 { 2089 struct hdaa_chan *ch = data; 2090 2091 hdaa_channel_setfragments(obj, data, blksz, ch->pdevinfo->chan_blkcnt); 2092 2093 return (ch->blksz); 2094 } 2095 2096 static void 2097 hdaa_channel_stop(struct hdaa_chan *ch) 2098 { 2099 struct hdaa_devinfo *devinfo = ch->devinfo; 2100 struct hdaa_widget *w; 2101 int i; 2102 2103 if ((ch->flags & HDAA_CHN_RUNNING) == 0) 2104 return; 2105 ch->flags &= ~HDAA_CHN_RUNNING; 2106 HDAC_STREAM_STOP(device_get_parent(devinfo->dev), devinfo->dev, 2107 ch->dir == PCMDIR_PLAY ? 1 : 0, ch->sid); 2108 for (i = 0; ch->io[i] != -1; i++) { 2109 w = hdaa_widget_get(ch->devinfo, ch->io[i]); 2110 if (w == NULL) 2111 continue; 2112 if (HDA_PARAM_AUDIO_WIDGET_CAP_DIGITAL(w->param.widget_cap)) { 2113 hda_command(devinfo->dev, 2114 HDA_CMD_SET_DIGITAL_CONV_FMT1(0, ch->io[i], 0)); 2115 } 2116 hda_command(devinfo->dev, 2117 HDA_CMD_SET_CONV_STREAM_CHAN(0, ch->io[i], 2118 0)); 2119 } 2120 HDAC_STREAM_FREE(device_get_parent(devinfo->dev), devinfo->dev, 2121 ch->dir == PCMDIR_PLAY ? 1 : 0, ch->sid); 2122 } 2123 2124 static int 2125 hdaa_channel_start(struct hdaa_chan *ch) 2126 { 2127 struct hdaa_devinfo *devinfo = ch->devinfo; 2128 uint32_t fmt; 2129 2130 fmt = hdaa_stream_format(ch); 2131 ch->stripectl = fls(ch->stripecap & hdaa_allowed_stripes(fmt) & 2132 hda_get_stripes_mask(devinfo->dev)) - 1; 2133 ch->sid = HDAC_STREAM_ALLOC(device_get_parent(devinfo->dev), devinfo->dev, 2134 ch->dir == PCMDIR_PLAY ? 1 : 0, fmt, ch->stripectl, &ch->dmapos); 2135 if (ch->sid <= 0) 2136 return (EBUSY); 2137 hdaa_audio_setup(ch); 2138 HDAC_STREAM_RESET(device_get_parent(devinfo->dev), devinfo->dev, 2139 ch->dir == PCMDIR_PLAY ? 1 : 0, ch->sid); 2140 HDAC_STREAM_START(device_get_parent(devinfo->dev), devinfo->dev, 2141 ch->dir == PCMDIR_PLAY ? 1 : 0, ch->sid, 2142 sndbuf_getbufaddr(ch->b), ch->blksz, ch->blkcnt); 2143 ch->flags |= HDAA_CHN_RUNNING; 2144 return (0); 2145 } 2146 2147 static int 2148 hdaa_channel_trigger(kobj_t obj, void *data, int go) 2149 { 2150 struct hdaa_chan *ch = data; 2151 int error = 0; 2152 2153 if (!PCMTRIG_COMMON(go)) 2154 return (0); 2155 2156 hdaa_lock(ch->devinfo); 2157 switch (go) { 2158 case PCMTRIG_START: 2159 error = hdaa_channel_start(ch); 2160 break; 2161 case PCMTRIG_STOP: 2162 case PCMTRIG_ABORT: 2163 hdaa_channel_stop(ch); 2164 break; 2165 default: 2166 break; 2167 } 2168 hdaa_unlock(ch->devinfo); 2169 2170 return (error); 2171 } 2172 2173 static uint32_t 2174 hdaa_channel_getptr(kobj_t obj, void *data) 2175 { 2176 struct hdaa_chan *ch = data; 2177 struct hdaa_devinfo *devinfo = ch->devinfo; 2178 uint32_t ptr; 2179 2180 hdaa_lock(devinfo); 2181 if (ch->dmapos != NULL) { 2182 ptr = *(ch->dmapos); 2183 } else { 2184 ptr = HDAC_STREAM_GETPTR( 2185 device_get_parent(devinfo->dev), devinfo->dev, 2186 ch->dir == PCMDIR_PLAY ? 1 : 0, ch->sid); 2187 } 2188 hdaa_unlock(devinfo); 2189 2190 /* 2191 * Round to available space and force 128 bytes alignment. 2192 */ 2193 ptr %= ch->blksz * ch->blkcnt; 2194 ptr &= HDA_BLK_ALIGN; 2195 2196 return (ptr); 2197 } 2198 2199 static struct pcmchan_caps * 2200 hdaa_channel_getcaps(kobj_t obj, void *data) 2201 { 2202 return (&((struct hdaa_chan *)data)->caps); 2203 } 2204 2205 static kobj_method_t hdaa_channel_methods[] = { 2206 KOBJMETHOD(channel_init, hdaa_channel_init), 2207 KOBJMETHOD(channel_setformat, hdaa_channel_setformat), 2208 KOBJMETHOD(channel_setspeed, hdaa_channel_setspeed), 2209 KOBJMETHOD(channel_setblocksize, hdaa_channel_setblocksize), 2210 KOBJMETHOD(channel_setfragments, hdaa_channel_setfragments), 2211 KOBJMETHOD(channel_trigger, hdaa_channel_trigger), 2212 KOBJMETHOD(channel_getptr, hdaa_channel_getptr), 2213 KOBJMETHOD(channel_getcaps, hdaa_channel_getcaps), 2214 KOBJMETHOD_END 2215 }; 2216 CHANNEL_DECLARE(hdaa_channel); 2217 2218 static int 2219 hdaa_audio_ctl_ossmixer_init(struct snd_mixer *m) 2220 { 2221 struct hdaa_pcm_devinfo *pdevinfo = mix_getdevinfo(m); 2222 struct hdaa_devinfo *devinfo = pdevinfo->devinfo; 2223 struct hdaa_widget *w, *cw; 2224 uint32_t mask, recmask; 2225 int i, j; 2226 2227 hdaa_lock(devinfo); 2228 pdevinfo->mixer = m; 2229 2230 /* Make sure that in case of soft volume it won't stay muted. */ 2231 for (i = 0; i < SOUND_MIXER_NRDEVICES; i++) { 2232 pdevinfo->left[i] = 100; 2233 pdevinfo->right[i] = 100; 2234 } 2235 2236 /* Declare volume controls assigned to this association. */ 2237 mask = pdevinfo->ossmask; 2238 if (pdevinfo->playas >= 0) { 2239 /* Declate EAPD as ogain control. */ 2240 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 2241 w = hdaa_widget_get(devinfo, i); 2242 if (w == NULL || w->enable == 0) 2243 continue; 2244 if (w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX || 2245 w->param.eapdbtl == HDA_INVALID || 2246 w->bindas != pdevinfo->playas) 2247 continue; 2248 mask |= SOUND_MASK_OGAIN; 2249 break; 2250 } 2251 2252 /* Declare soft PCM volume if needed. */ 2253 if ((mask & SOUND_MASK_PCM) == 0 || 2254 (devinfo->quirks & HDAA_QUIRK_SOFTPCMVOL) || 2255 pdevinfo->minamp[SOUND_MIXER_PCM] == 2256 pdevinfo->maxamp[SOUND_MIXER_PCM]) { 2257 mask |= SOUND_MASK_PCM; 2258 pcm_setflags(pdevinfo->dev, pcm_getflags(pdevinfo->dev) | SD_F_SOFTPCMVOL); 2259 HDA_BOOTHVERBOSE( 2260 device_printf(pdevinfo->dev, 2261 "Forcing Soft PCM volume\n"); 2262 ); 2263 } 2264 2265 /* Declare master volume if needed. */ 2266 if ((mask & SOUND_MASK_VOLUME) == 0) { 2267 mask |= SOUND_MASK_VOLUME; 2268 mix_setparentchild(m, SOUND_MIXER_VOLUME, 2269 SOUND_MASK_PCM); 2270 mix_setrealdev(m, SOUND_MIXER_VOLUME, 2271 SOUND_MIXER_NONE); 2272 HDA_BOOTHVERBOSE( 2273 device_printf(pdevinfo->dev, 2274 "Forcing master volume with PCM\n"); 2275 ); 2276 } 2277 } 2278 2279 /* Declare record sources available to this association. */ 2280 recmask = 0; 2281 if (pdevinfo->recas >= 0) { 2282 for (i = 0; i < 16; i++) { 2283 if (devinfo->as[pdevinfo->recas].dacs[0][i] < 0) 2284 continue; 2285 w = hdaa_widget_get(devinfo, 2286 devinfo->as[pdevinfo->recas].dacs[0][i]); 2287 if (w == NULL || w->enable == 0) 2288 continue; 2289 for (j = 0; j < w->nconns; j++) { 2290 if (w->connsenable[j] == 0) 2291 continue; 2292 cw = hdaa_widget_get(devinfo, w->conns[j]); 2293 if (cw == NULL || cw->enable == 0) 2294 continue; 2295 if (cw->bindas != pdevinfo->recas && 2296 cw->bindas != -2) 2297 continue; 2298 recmask |= cw->ossmask; 2299 } 2300 } 2301 } 2302 2303 recmask &= (1 << SOUND_MIXER_NRDEVICES) - 1; 2304 mask &= (1 << SOUND_MIXER_NRDEVICES) - 1; 2305 pdevinfo->ossmask = mask; 2306 2307 mix_setrecdevs(m, recmask); 2308 mix_setdevs(m, mask); 2309 2310 hdaa_unlock(devinfo); 2311 2312 return (0); 2313 } 2314 2315 /* 2316 * Update amplification per pdevinfo per ossdev, calculate summary coefficient 2317 * and write it to codec, update *left and *right to reflect remaining error. 2318 */ 2319 static void 2320 hdaa_audio_ctl_dev_set(struct hdaa_audio_ctl *ctl, int ossdev, 2321 int mute, int *left, int *right) 2322 { 2323 int i, zleft, zright, sleft, sright, smute, lval, rval; 2324 2325 ctl->devleft[ossdev] = *left; 2326 ctl->devright[ossdev] = *right; 2327 ctl->devmute[ossdev] = mute; 2328 smute = sleft = sright = zleft = zright = 0; 2329 for (i = 0; i < SOUND_MIXER_NRDEVICES; i++) { 2330 sleft += ctl->devleft[i]; 2331 sright += ctl->devright[i]; 2332 smute |= ctl->devmute[i]; 2333 if (i == ossdev) 2334 continue; 2335 zleft += ctl->devleft[i]; 2336 zright += ctl->devright[i]; 2337 } 2338 lval = QDB2VAL(ctl, sleft); 2339 rval = QDB2VAL(ctl, sright); 2340 hdaa_audio_ctl_amp_set(ctl, smute, lval, rval); 2341 *left -= VAL2QDB(ctl, lval) - VAL2QDB(ctl, QDB2VAL(ctl, zleft)); 2342 *right -= VAL2QDB(ctl, rval) - VAL2QDB(ctl, QDB2VAL(ctl, zright)); 2343 } 2344 2345 /* 2346 * Trace signal from source, setting volumes on the way. 2347 */ 2348 static void 2349 hdaa_audio_ctl_source_volume(struct hdaa_pcm_devinfo *pdevinfo, 2350 int ossdev, nid_t nid, int index, int mute, int left, int right, int depth) 2351 { 2352 struct hdaa_devinfo *devinfo = pdevinfo->devinfo; 2353 struct hdaa_widget *w, *wc; 2354 struct hdaa_audio_ctl *ctl; 2355 int i, j, conns = 0; 2356 2357 if (depth > HDA_PARSE_MAXDEPTH) 2358 return; 2359 2360 w = hdaa_widget_get(devinfo, nid); 2361 if (w == NULL || w->enable == 0) 2362 return; 2363 2364 /* Count number of active inputs. */ 2365 if (depth > 0) { 2366 for (j = 0; j < w->nconns; j++) { 2367 if (!w->connsenable[j]) 2368 continue; 2369 conns++; 2370 } 2371 } 2372 2373 /* If this is not a first step - use input mixer. 2374 Pins have common input ctl so care must be taken. */ 2375 if (depth > 0 && (conns == 1 || 2376 w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX)) { 2377 ctl = hdaa_audio_ctl_amp_get(devinfo, w->nid, HDAA_CTL_IN, 2378 index, 1); 2379 if (ctl) 2380 hdaa_audio_ctl_dev_set(ctl, ossdev, mute, &left, &right); 2381 } 2382 2383 /* If widget has own ossdev - not traverse it. 2384 It will be traversed on its own. */ 2385 if (w->ossdev >= 0 && depth > 0) 2386 return; 2387 2388 /* We must not traverse pin */ 2389 if ((w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT || 2390 w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) && 2391 depth > 0) 2392 return; 2393 2394 /* 2395 * If signals mixed, we can't assign controls farther. 2396 * Ignore this on depth zero. Caller must knows why. 2397 */ 2398 if (conns > 1 && 2399 (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER || 2400 w->selconn != index)) 2401 return; 2402 2403 ctl = hdaa_audio_ctl_amp_get(devinfo, w->nid, HDAA_CTL_OUT, -1, 1); 2404 if (ctl) 2405 hdaa_audio_ctl_dev_set(ctl, ossdev, mute, &left, &right); 2406 2407 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 2408 wc = hdaa_widget_get(devinfo, i); 2409 if (wc == NULL || wc->enable == 0) 2410 continue; 2411 for (j = 0; j < wc->nconns; j++) { 2412 if (wc->connsenable[j] && wc->conns[j] == nid) { 2413 hdaa_audio_ctl_source_volume(pdevinfo, ossdev, 2414 wc->nid, j, mute, left, right, depth + 1); 2415 } 2416 } 2417 } 2418 return; 2419 } 2420 2421 /* 2422 * Trace signal from destination, setting volumes on the way. 2423 */ 2424 static void 2425 hdaa_audio_ctl_dest_volume(struct hdaa_pcm_devinfo *pdevinfo, 2426 int ossdev, nid_t nid, int index, int mute, int left, int right, int depth) 2427 { 2428 struct hdaa_devinfo *devinfo = pdevinfo->devinfo; 2429 struct hdaa_audio_as *as = devinfo->as; 2430 struct hdaa_widget *w, *wc; 2431 struct hdaa_audio_ctl *ctl; 2432 int i, j, consumers, cleft, cright; 2433 2434 if (depth > HDA_PARSE_MAXDEPTH) 2435 return; 2436 2437 w = hdaa_widget_get(devinfo, nid); 2438 if (w == NULL || w->enable == 0) 2439 return; 2440 2441 if (depth > 0) { 2442 /* If this node produce output for several consumers, 2443 we can't touch it. */ 2444 consumers = 0; 2445 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 2446 wc = hdaa_widget_get(devinfo, i); 2447 if (wc == NULL || wc->enable == 0) 2448 continue; 2449 for (j = 0; j < wc->nconns; j++) { 2450 if (wc->connsenable[j] && wc->conns[j] == nid) 2451 consumers++; 2452 } 2453 } 2454 /* The only exception is if real HP redirection is configured 2455 and this is a duplication point. 2456 XXX: Actually exception is not completely correct. 2457 XXX: Duplication point check is not perfect. */ 2458 if ((consumers == 2 && (w->bindas < 0 || 2459 as[w->bindas].hpredir < 0 || as[w->bindas].fakeredir || 2460 (w->bindseqmask & (1 << 15)) == 0)) || 2461 consumers > 2) 2462 return; 2463 2464 /* Else use it's output mixer. */ 2465 ctl = hdaa_audio_ctl_amp_get(devinfo, w->nid, 2466 HDAA_CTL_OUT, -1, 1); 2467 if (ctl) 2468 hdaa_audio_ctl_dev_set(ctl, ossdev, mute, &left, &right); 2469 } 2470 2471 /* We must not traverse pin */ 2472 if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX && 2473 depth > 0) 2474 return; 2475 2476 for (i = 0; i < w->nconns; i++) { 2477 if (w->connsenable[i] == 0) 2478 continue; 2479 if (index >= 0 && i != index) 2480 continue; 2481 cleft = left; 2482 cright = right; 2483 ctl = hdaa_audio_ctl_amp_get(devinfo, w->nid, 2484 HDAA_CTL_IN, i, 1); 2485 if (ctl) 2486 hdaa_audio_ctl_dev_set(ctl, ossdev, mute, &cleft, &cright); 2487 hdaa_audio_ctl_dest_volume(pdevinfo, ossdev, w->conns[i], -1, 2488 mute, cleft, cright, depth + 1); 2489 } 2490 } 2491 2492 /* 2493 * Set volumes for the specified pdevinfo and ossdev. 2494 */ 2495 static void 2496 hdaa_audio_ctl_dev_volume(struct hdaa_pcm_devinfo *pdevinfo, unsigned dev) 2497 { 2498 struct hdaa_devinfo *devinfo = pdevinfo->devinfo; 2499 struct hdaa_widget *w, *cw; 2500 uint32_t mute; 2501 int lvol, rvol; 2502 int i, j; 2503 2504 mute = 0; 2505 if (pdevinfo->left[dev] == 0) { 2506 mute |= HDAA_AMP_MUTE_LEFT; 2507 lvol = -4000; 2508 } else 2509 lvol = ((pdevinfo->maxamp[dev] - pdevinfo->minamp[dev]) * 2510 pdevinfo->left[dev] + 50) / 100 + pdevinfo->minamp[dev]; 2511 if (pdevinfo->right[dev] == 0) { 2512 mute |= HDAA_AMP_MUTE_RIGHT; 2513 rvol = -4000; 2514 } else 2515 rvol = ((pdevinfo->maxamp[dev] - pdevinfo->minamp[dev]) * 2516 pdevinfo->right[dev] + 50) / 100 + pdevinfo->minamp[dev]; 2517 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 2518 w = hdaa_widget_get(devinfo, i); 2519 if (w == NULL || w->enable == 0) 2520 continue; 2521 if (w->bindas < 0) { 2522 if (pdevinfo->index != 0) 2523 continue; 2524 } else { 2525 if (w->bindas != pdevinfo->playas && 2526 w->bindas != pdevinfo->recas) 2527 continue; 2528 } 2529 if (dev == SOUND_MIXER_RECLEV && 2530 w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT) { 2531 hdaa_audio_ctl_dest_volume(pdevinfo, dev, 2532 w->nid, -1, mute, lvol, rvol, 0); 2533 continue; 2534 } 2535 if (dev == SOUND_MIXER_VOLUME && 2536 w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX && 2537 devinfo->as[w->bindas].dir == HDAA_CTL_OUT) { 2538 hdaa_audio_ctl_dest_volume(pdevinfo, dev, 2539 w->nid, -1, mute, lvol, rvol, 0); 2540 continue; 2541 } 2542 if (dev == SOUND_MIXER_IGAIN && 2543 w->pflags & HDAA_ADC_MONITOR) { 2544 for (j = 0; j < w->nconns; j++) { 2545 if (!w->connsenable[j]) 2546 continue; 2547 cw = hdaa_widget_get(devinfo, w->conns[j]); 2548 if (cw == NULL || cw->enable == 0) 2549 continue; 2550 if (cw->bindas == -1) 2551 continue; 2552 if (cw->bindas >= 0 && 2553 devinfo->as[cw->bindas].dir != HDAA_CTL_IN) 2554 continue; 2555 hdaa_audio_ctl_dest_volume(pdevinfo, dev, 2556 w->nid, j, mute, lvol, rvol, 0); 2557 } 2558 continue; 2559 } 2560 if (w->ossdev != dev) 2561 continue; 2562 hdaa_audio_ctl_source_volume(pdevinfo, dev, 2563 w->nid, -1, mute, lvol, rvol, 0); 2564 if (dev == SOUND_MIXER_IMIX && (w->pflags & HDAA_IMIX_AS_DST)) 2565 hdaa_audio_ctl_dest_volume(pdevinfo, dev, 2566 w->nid, -1, mute, lvol, rvol, 0); 2567 } 2568 } 2569 2570 /* 2571 * OSS Mixer set method. 2572 */ 2573 static int 2574 hdaa_audio_ctl_ossmixer_set(struct snd_mixer *m, unsigned dev, 2575 unsigned left, unsigned right) 2576 { 2577 struct hdaa_pcm_devinfo *pdevinfo = mix_getdevinfo(m); 2578 struct hdaa_devinfo *devinfo = pdevinfo->devinfo; 2579 struct hdaa_widget *w; 2580 int i; 2581 2582 hdaa_lock(devinfo); 2583 2584 /* Save new values. */ 2585 pdevinfo->left[dev] = left; 2586 pdevinfo->right[dev] = right; 2587 2588 /* 'ogain' is the special case implemented with EAPD. */ 2589 if (dev == SOUND_MIXER_OGAIN) { 2590 uint32_t orig; 2591 w = NULL; 2592 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 2593 w = hdaa_widget_get(devinfo, i); 2594 if (w == NULL || w->enable == 0) 2595 continue; 2596 if (w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX || 2597 w->param.eapdbtl == HDA_INVALID) 2598 continue; 2599 break; 2600 } 2601 if (i >= devinfo->endnode) { 2602 hdaa_unlock(devinfo); 2603 return (-1); 2604 } 2605 orig = w->param.eapdbtl; 2606 if (left == 0) 2607 w->param.eapdbtl &= ~HDA_CMD_SET_EAPD_BTL_ENABLE_EAPD; 2608 else 2609 w->param.eapdbtl |= HDA_CMD_SET_EAPD_BTL_ENABLE_EAPD; 2610 if (orig != w->param.eapdbtl) { 2611 uint32_t val; 2612 2613 val = w->param.eapdbtl; 2614 if (devinfo->quirks & HDAA_QUIRK_EAPDINV) 2615 val ^= HDA_CMD_SET_EAPD_BTL_ENABLE_EAPD; 2616 hda_command(devinfo->dev, 2617 HDA_CMD_SET_EAPD_BTL_ENABLE(0, w->nid, val)); 2618 } 2619 hdaa_unlock(devinfo); 2620 return (left | (left << 8)); 2621 } 2622 2623 /* Recalculate all controls related to this OSS device. */ 2624 hdaa_audio_ctl_dev_volume(pdevinfo, dev); 2625 2626 hdaa_unlock(devinfo); 2627 return (left | (right << 8)); 2628 } 2629 2630 /* 2631 * Set mixer settings to our own default values: 2632 * +20dB for mics, -10dB for analog vol, mute for igain, 0dB for others. 2633 */ 2634 static void 2635 hdaa_audio_ctl_set_defaults(struct hdaa_pcm_devinfo *pdevinfo) 2636 { 2637 int amp, vol, dev; 2638 2639 for (dev = 0; dev < SOUND_MIXER_NRDEVICES; dev++) { 2640 if ((pdevinfo->ossmask & (1 << dev)) == 0) 2641 continue; 2642 2643 /* If the value was overridden, leave it as is. */ 2644 if (resource_int_value(device_get_name(pdevinfo->dev), 2645 device_get_unit(pdevinfo->dev), ossnames[dev], &vol) == 0) 2646 continue; 2647 2648 vol = -1; 2649 if (dev == SOUND_MIXER_OGAIN) 2650 vol = 100; 2651 else if (dev == SOUND_MIXER_IGAIN) 2652 vol = 0; 2653 else if (dev == SOUND_MIXER_MIC || 2654 dev == SOUND_MIXER_MONITOR) 2655 amp = 20 * 4; /* +20dB */ 2656 else if (dev == SOUND_MIXER_VOLUME && !pdevinfo->digital) 2657 amp = -10 * 4; /* -10dB */ 2658 else 2659 amp = 0; 2660 if (vol < 0 && 2661 (pdevinfo->maxamp[dev] - pdevinfo->minamp[dev]) <= 0) { 2662 vol = 100; 2663 } else if (vol < 0) { 2664 vol = ((amp - pdevinfo->minamp[dev]) * 100 + 2665 (pdevinfo->maxamp[dev] - pdevinfo->minamp[dev]) / 2) / 2666 (pdevinfo->maxamp[dev] - pdevinfo->minamp[dev]); 2667 vol = imin(imax(vol, 1), 100); 2668 } 2669 mix_set(pdevinfo->mixer, dev, vol, vol); 2670 } 2671 } 2672 2673 /* 2674 * Recursively commutate specified record source. 2675 */ 2676 static uint32_t 2677 hdaa_audio_ctl_recsel_comm(struct hdaa_pcm_devinfo *pdevinfo, uint32_t src, nid_t nid, int depth) 2678 { 2679 struct hdaa_devinfo *devinfo = pdevinfo->devinfo; 2680 struct hdaa_widget *w, *cw; 2681 struct hdaa_audio_ctl *ctl; 2682 char buf[64]; 2683 int i, muted; 2684 uint32_t res = 0; 2685 2686 if (depth > HDA_PARSE_MAXDEPTH) 2687 return (0); 2688 2689 w = hdaa_widget_get(devinfo, nid); 2690 if (w == NULL || w->enable == 0) 2691 return (0); 2692 2693 for (i = 0; i < w->nconns; i++) { 2694 if (w->connsenable[i] == 0) 2695 continue; 2696 cw = hdaa_widget_get(devinfo, w->conns[i]); 2697 if (cw == NULL || cw->enable == 0 || cw->bindas == -1) 2698 continue; 2699 /* Call recursively to trace signal to it's source if needed. */ 2700 if ((src & cw->ossmask) != 0) { 2701 if (cw->ossdev < 0) { 2702 res |= hdaa_audio_ctl_recsel_comm(pdevinfo, src, 2703 w->conns[i], depth + 1); 2704 } else { 2705 res |= cw->ossmask; 2706 } 2707 } 2708 /* We have two special cases: mixers and others (selectors). */ 2709 if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER) { 2710 ctl = hdaa_audio_ctl_amp_get(devinfo, 2711 w->nid, HDAA_CTL_IN, i, 1); 2712 if (ctl == NULL) 2713 continue; 2714 /* If we have input control on this node mute them 2715 * according to requested sources. */ 2716 muted = (src & cw->ossmask) ? 0 : 1; 2717 if (muted != ctl->forcemute) { 2718 ctl->forcemute = muted; 2719 hdaa_audio_ctl_amp_set(ctl, 2720 HDAA_AMP_MUTE_DEFAULT, 2721 HDAA_AMP_VOL_DEFAULT, HDAA_AMP_VOL_DEFAULT); 2722 } 2723 HDA_BOOTHVERBOSE( 2724 device_printf(pdevinfo->dev, 2725 "Recsel (%s): nid %d source %d %s\n", 2726 hdaa_audio_ctl_ossmixer_mask2allname( 2727 src, buf, sizeof(buf)), 2728 nid, i, muted?"mute":"unmute"); 2729 ); 2730 } else { 2731 if (w->nconns == 1) 2732 break; 2733 if ((src & cw->ossmask) == 0) 2734 continue; 2735 /* If we found requested source - select it and exit. */ 2736 hdaa_widget_connection_select(w, i); 2737 HDA_BOOTHVERBOSE( 2738 device_printf(pdevinfo->dev, 2739 "Recsel (%s): nid %d source %d select\n", 2740 hdaa_audio_ctl_ossmixer_mask2allname( 2741 src, buf, sizeof(buf)), 2742 nid, i); 2743 ); 2744 break; 2745 } 2746 } 2747 return (res); 2748 } 2749 2750 static uint32_t 2751 hdaa_audio_ctl_ossmixer_setrecsrc(struct snd_mixer *m, uint32_t src) 2752 { 2753 struct hdaa_pcm_devinfo *pdevinfo = mix_getdevinfo(m); 2754 struct hdaa_devinfo *devinfo = pdevinfo->devinfo; 2755 struct hdaa_widget *w; 2756 struct hdaa_audio_as *as; 2757 struct hdaa_audio_ctl *ctl; 2758 struct hdaa_chan *ch; 2759 int i, j; 2760 uint32_t ret = 0xffffffff; 2761 2762 hdaa_lock(devinfo); 2763 if (pdevinfo->recas < 0) { 2764 hdaa_unlock(devinfo); 2765 return (0); 2766 } 2767 as = &devinfo->as[pdevinfo->recas]; 2768 2769 /* For non-mixed associations we always recording everything. */ 2770 if (!as->mixed) { 2771 hdaa_unlock(devinfo); 2772 return (mix_getrecdevs(m)); 2773 } 2774 2775 /* Commutate requested recsrc for each ADC. */ 2776 for (j = 0; j < as->num_chans; j++) { 2777 ch = &devinfo->chans[as->chans[j]]; 2778 for (i = 0; ch->io[i] >= 0; i++) { 2779 w = hdaa_widget_get(devinfo, ch->io[i]); 2780 if (w == NULL || w->enable == 0) 2781 continue; 2782 ret &= hdaa_audio_ctl_recsel_comm(pdevinfo, src, 2783 ch->io[i], 0); 2784 } 2785 } 2786 if (ret == 0xffffffff) 2787 ret = 0; 2788 2789 /* 2790 * Some controls could be shared. Reset volumes for controls 2791 * related to previously chosen devices, as they may no longer 2792 * affect the signal. 2793 */ 2794 i = 0; 2795 while ((ctl = hdaa_audio_ctl_each(devinfo, &i)) != NULL) { 2796 if (ctl->enable == 0 || 2797 !(ctl->ossmask & pdevinfo->recsrc)) 2798 continue; 2799 if (!((pdevinfo->playas >= 0 && 2800 ctl->widget->bindas == pdevinfo->playas) || 2801 (pdevinfo->recas >= 0 && 2802 ctl->widget->bindas == pdevinfo->recas) || 2803 (pdevinfo->index == 0 && 2804 ctl->widget->bindas == -2))) 2805 continue; 2806 for (j = 0; j < SOUND_MIXER_NRDEVICES; j++) { 2807 if (pdevinfo->recsrc & (1 << j)) { 2808 ctl->devleft[j] = 0; 2809 ctl->devright[j] = 0; 2810 ctl->devmute[j] = 0; 2811 } 2812 } 2813 } 2814 2815 /* 2816 * Some controls could be shared. Set volumes for controls 2817 * related to devices selected both previously and now. 2818 */ 2819 for (j = 0; j < SOUND_MIXER_NRDEVICES; j++) { 2820 if ((ret | pdevinfo->recsrc) & (1 << j)) 2821 hdaa_audio_ctl_dev_volume(pdevinfo, j); 2822 } 2823 2824 pdevinfo->recsrc = ret; 2825 hdaa_unlock(devinfo); 2826 return (ret); 2827 } 2828 2829 static kobj_method_t hdaa_audio_ctl_ossmixer_methods[] = { 2830 KOBJMETHOD(mixer_init, hdaa_audio_ctl_ossmixer_init), 2831 KOBJMETHOD(mixer_set, hdaa_audio_ctl_ossmixer_set), 2832 KOBJMETHOD(mixer_setrecsrc, hdaa_audio_ctl_ossmixer_setrecsrc), 2833 KOBJMETHOD_END 2834 }; 2835 MIXER_DECLARE(hdaa_audio_ctl_ossmixer); 2836 2837 static void 2838 hdaa_dump_gpi(struct hdaa_devinfo *devinfo) 2839 { 2840 device_t dev = devinfo->dev; 2841 int i; 2842 uint32_t data, wake, unsol, sticky; 2843 2844 if (HDA_PARAM_GPIO_COUNT_NUM_GPI(devinfo->gpio_cap) > 0) { 2845 data = hda_command(dev, 2846 HDA_CMD_GET_GPI_DATA(0, devinfo->nid)); 2847 wake = hda_command(dev, 2848 HDA_CMD_GET_GPI_WAKE_ENABLE_MASK(0, devinfo->nid)); 2849 unsol = hda_command(dev, 2850 HDA_CMD_GET_GPI_UNSOLICITED_ENABLE_MASK(0, devinfo->nid)); 2851 sticky = hda_command(dev, 2852 HDA_CMD_GET_GPI_STICKY_MASK(0, devinfo->nid)); 2853 for (i = 0; i < HDA_PARAM_GPIO_COUNT_NUM_GPI(devinfo->gpio_cap); i++) { 2854 device_printf(dev, " GPI%d:%s%s%s state=%d", i, 2855 (sticky & (1 << i)) ? " sticky" : "", 2856 (unsol & (1 << i)) ? " unsol" : "", 2857 (wake & (1 << i)) ? " wake" : "", 2858 (data >> i) & 1); 2859 } 2860 } 2861 } 2862 2863 static void 2864 hdaa_dump_gpio(struct hdaa_devinfo *devinfo) 2865 { 2866 device_t dev = devinfo->dev; 2867 int i; 2868 uint32_t data, dir, enable, wake, unsol, sticky; 2869 2870 if (HDA_PARAM_GPIO_COUNT_NUM_GPIO(devinfo->gpio_cap) > 0) { 2871 data = hda_command(dev, 2872 HDA_CMD_GET_GPIO_DATA(0, devinfo->nid)); 2873 enable = hda_command(dev, 2874 HDA_CMD_GET_GPIO_ENABLE_MASK(0, devinfo->nid)); 2875 dir = hda_command(dev, 2876 HDA_CMD_GET_GPIO_DIRECTION(0, devinfo->nid)); 2877 wake = hda_command(dev, 2878 HDA_CMD_GET_GPIO_WAKE_ENABLE_MASK(0, devinfo->nid)); 2879 unsol = hda_command(dev, 2880 HDA_CMD_GET_GPIO_UNSOLICITED_ENABLE_MASK(0, devinfo->nid)); 2881 sticky = hda_command(dev, 2882 HDA_CMD_GET_GPIO_STICKY_MASK(0, devinfo->nid)); 2883 for (i = 0; i < HDA_PARAM_GPIO_COUNT_NUM_GPIO(devinfo->gpio_cap); i++) { 2884 device_printf(dev, " GPIO%d: ", i); 2885 if ((enable & (1 << i)) == 0) { 2886 printf("disabled\n"); 2887 continue; 2888 } 2889 if ((dir & (1 << i)) == 0) { 2890 printf("input%s%s%s", 2891 (sticky & (1 << i)) ? " sticky" : "", 2892 (unsol & (1 << i)) ? " unsol" : "", 2893 (wake & (1 << i)) ? " wake" : ""); 2894 } else 2895 printf("output"); 2896 printf(" state=%d\n", (data >> i) & 1); 2897 } 2898 } 2899 } 2900 2901 static void 2902 hdaa_dump_gpo(struct hdaa_devinfo *devinfo) 2903 { 2904 device_t dev = devinfo->dev; 2905 int i; 2906 uint32_t data; 2907 2908 if (HDA_PARAM_GPIO_COUNT_NUM_GPO(devinfo->gpio_cap) > 0) { 2909 data = hda_command(dev, 2910 HDA_CMD_GET_GPO_DATA(0, devinfo->nid)); 2911 for (i = 0; i < HDA_PARAM_GPIO_COUNT_NUM_GPO(devinfo->gpio_cap); i++) { 2912 device_printf(dev, " GPO%d: state=%d", i, 2913 (data >> i) & 1); 2914 } 2915 } 2916 } 2917 2918 static void 2919 hdaa_audio_parse(struct hdaa_devinfo *devinfo) 2920 { 2921 struct hdaa_widget *w; 2922 uint32_t res; 2923 int i; 2924 nid_t nid; 2925 2926 nid = devinfo->nid; 2927 2928 res = hda_command(devinfo->dev, 2929 HDA_CMD_GET_PARAMETER(0, nid, HDA_PARAM_GPIO_COUNT)); 2930 devinfo->gpio_cap = res; 2931 2932 HDA_BOOTVERBOSE( 2933 device_printf(devinfo->dev, 2934 "NumGPIO=%d NumGPO=%d " 2935 "NumGPI=%d GPIWake=%d GPIUnsol=%d\n", 2936 HDA_PARAM_GPIO_COUNT_NUM_GPIO(devinfo->gpio_cap), 2937 HDA_PARAM_GPIO_COUNT_NUM_GPO(devinfo->gpio_cap), 2938 HDA_PARAM_GPIO_COUNT_NUM_GPI(devinfo->gpio_cap), 2939 HDA_PARAM_GPIO_COUNT_GPI_WAKE(devinfo->gpio_cap), 2940 HDA_PARAM_GPIO_COUNT_GPI_UNSOL(devinfo->gpio_cap)); 2941 hdaa_dump_gpi(devinfo); 2942 hdaa_dump_gpio(devinfo); 2943 hdaa_dump_gpo(devinfo); 2944 ); 2945 2946 res = hda_command(devinfo->dev, 2947 HDA_CMD_GET_PARAMETER(0, nid, HDA_PARAM_SUPP_STREAM_FORMATS)); 2948 devinfo->supp_stream_formats = res; 2949 2950 res = hda_command(devinfo->dev, 2951 HDA_CMD_GET_PARAMETER(0, nid, HDA_PARAM_SUPP_PCM_SIZE_RATE)); 2952 devinfo->supp_pcm_size_rate = res; 2953 2954 res = hda_command(devinfo->dev, 2955 HDA_CMD_GET_PARAMETER(0, nid, HDA_PARAM_OUTPUT_AMP_CAP)); 2956 devinfo->outamp_cap = res; 2957 2958 res = hda_command(devinfo->dev, 2959 HDA_CMD_GET_PARAMETER(0, nid, HDA_PARAM_INPUT_AMP_CAP)); 2960 devinfo->inamp_cap = res; 2961 2962 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 2963 w = hdaa_widget_get(devinfo, i); 2964 if (w == NULL) 2965 device_printf(devinfo->dev, "Ghost widget! nid=%d!\n", i); 2966 else { 2967 w->devinfo = devinfo; 2968 w->nid = i; 2969 w->enable = 1; 2970 w->selconn = -1; 2971 w->pflags = 0; 2972 w->ossdev = -1; 2973 w->bindas = -1; 2974 w->param.eapdbtl = HDA_INVALID; 2975 hdaa_widget_parse(w); 2976 } 2977 } 2978 } 2979 2980 static void 2981 hdaa_audio_postprocess(struct hdaa_devinfo *devinfo) 2982 { 2983 struct hdaa_widget *w; 2984 int i; 2985 2986 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 2987 w = hdaa_widget_get(devinfo, i); 2988 if (w == NULL) 2989 continue; 2990 hdaa_widget_postprocess(w); 2991 } 2992 } 2993 2994 static void 2995 hdaa_audio_ctl_parse(struct hdaa_devinfo *devinfo) 2996 { 2997 struct hdaa_audio_ctl *ctls; 2998 struct hdaa_widget *w, *cw; 2999 int i, j, cnt, max, ocap, icap; 3000 int mute, offset, step, size; 3001 3002 /* XXX This is redundant */ 3003 max = 0; 3004 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 3005 w = hdaa_widget_get(devinfo, i); 3006 if (w == NULL || w->enable == 0) 3007 continue; 3008 if (w->param.outamp_cap != 0) 3009 max++; 3010 if (w->param.inamp_cap != 0) { 3011 switch (w->type) { 3012 case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_SELECTOR: 3013 case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER: 3014 for (j = 0; j < w->nconns; j++) { 3015 cw = hdaa_widget_get(devinfo, 3016 w->conns[j]); 3017 if (cw == NULL || cw->enable == 0) 3018 continue; 3019 max++; 3020 } 3021 break; 3022 default: 3023 max++; 3024 break; 3025 } 3026 } 3027 } 3028 devinfo->ctlcnt = max; 3029 3030 if (max < 1) 3031 return; 3032 3033 ctls = (struct hdaa_audio_ctl *)malloc( 3034 sizeof(*ctls) * max, M_HDAA, M_ZERO | M_NOWAIT); 3035 3036 if (ctls == NULL) { 3037 /* Blekh! */ 3038 device_printf(devinfo->dev, "unable to allocate ctls!\n"); 3039 devinfo->ctlcnt = 0; 3040 return; 3041 } 3042 3043 cnt = 0; 3044 for (i = devinfo->startnode; cnt < max && i < devinfo->endnode; i++) { 3045 if (cnt >= max) { 3046 device_printf(devinfo->dev, "%s: Ctl overflow!\n", 3047 __func__); 3048 break; 3049 } 3050 w = hdaa_widget_get(devinfo, i); 3051 if (w == NULL || w->enable == 0) 3052 continue; 3053 ocap = w->param.outamp_cap; 3054 icap = w->param.inamp_cap; 3055 if (ocap != 0) { 3056 mute = HDA_PARAM_OUTPUT_AMP_CAP_MUTE_CAP(ocap); 3057 step = HDA_PARAM_OUTPUT_AMP_CAP_NUMSTEPS(ocap); 3058 size = HDA_PARAM_OUTPUT_AMP_CAP_STEPSIZE(ocap); 3059 offset = HDA_PARAM_OUTPUT_AMP_CAP_OFFSET(ocap); 3060 /*if (offset > step) { 3061 HDA_BOOTVERBOSE( 3062 device_printf(devinfo->dev, 3063 "BUGGY outamp: nid=%d " 3064 "[offset=%d > step=%d]\n", 3065 w->nid, offset, step); 3066 ); 3067 offset = step; 3068 }*/ 3069 ctls[cnt].enable = 1; 3070 ctls[cnt].widget = w; 3071 ctls[cnt].mute = mute; 3072 ctls[cnt].step = step; 3073 ctls[cnt].size = size; 3074 ctls[cnt].offset = offset; 3075 ctls[cnt].left = offset; 3076 ctls[cnt].right = offset; 3077 if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX || 3078 w->waspin) 3079 ctls[cnt].ndir = HDAA_CTL_IN; 3080 else 3081 ctls[cnt].ndir = HDAA_CTL_OUT; 3082 ctls[cnt++].dir = HDAA_CTL_OUT; 3083 } 3084 3085 if (icap != 0) { 3086 mute = HDA_PARAM_OUTPUT_AMP_CAP_MUTE_CAP(icap); 3087 step = HDA_PARAM_OUTPUT_AMP_CAP_NUMSTEPS(icap); 3088 size = HDA_PARAM_OUTPUT_AMP_CAP_STEPSIZE(icap); 3089 offset = HDA_PARAM_OUTPUT_AMP_CAP_OFFSET(icap); 3090 /*if (offset > step) { 3091 HDA_BOOTVERBOSE( 3092 device_printf(devinfo->dev, 3093 "BUGGY inamp: nid=%d " 3094 "[offset=%d > step=%d]\n", 3095 w->nid, offset, step); 3096 ); 3097 offset = step; 3098 }*/ 3099 switch (w->type) { 3100 case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_SELECTOR: 3101 case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER: 3102 for (j = 0; j < w->nconns; j++) { 3103 if (cnt >= max) { 3104 device_printf(devinfo->dev, 3105 "%s: Ctl overflow!\n", 3106 __func__); 3107 break; 3108 } 3109 cw = hdaa_widget_get(devinfo, 3110 w->conns[j]); 3111 if (cw == NULL || cw->enable == 0) 3112 continue; 3113 ctls[cnt].enable = 1; 3114 ctls[cnt].widget = w; 3115 ctls[cnt].childwidget = cw; 3116 ctls[cnt].index = j; 3117 ctls[cnt].mute = mute; 3118 ctls[cnt].step = step; 3119 ctls[cnt].size = size; 3120 ctls[cnt].offset = offset; 3121 ctls[cnt].left = offset; 3122 ctls[cnt].right = offset; 3123 ctls[cnt].ndir = HDAA_CTL_IN; 3124 ctls[cnt++].dir = HDAA_CTL_IN; 3125 } 3126 break; 3127 default: 3128 if (cnt >= max) { 3129 device_printf(devinfo->dev, 3130 "%s: Ctl overflow!\n", 3131 __func__); 3132 break; 3133 } 3134 ctls[cnt].enable = 1; 3135 ctls[cnt].widget = w; 3136 ctls[cnt].mute = mute; 3137 ctls[cnt].step = step; 3138 ctls[cnt].size = size; 3139 ctls[cnt].offset = offset; 3140 ctls[cnt].left = offset; 3141 ctls[cnt].right = offset; 3142 if (w->type == 3143 HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) 3144 ctls[cnt].ndir = HDAA_CTL_OUT; 3145 else 3146 ctls[cnt].ndir = HDAA_CTL_IN; 3147 ctls[cnt++].dir = HDAA_CTL_IN; 3148 break; 3149 } 3150 } 3151 } 3152 3153 devinfo->ctl = ctls; 3154 } 3155 3156 static void 3157 hdaa_audio_as_parse(struct hdaa_devinfo *devinfo) 3158 { 3159 struct hdaa_audio_as *as; 3160 struct hdaa_widget *w; 3161 int i, j, cnt, max, type, dir, assoc, seq, first, hpredir; 3162 3163 /* Count present associations */ 3164 max = 0; 3165 for (j = 1; j < 16; j++) { 3166 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 3167 w = hdaa_widget_get(devinfo, i); 3168 if (w == NULL || w->enable == 0) 3169 continue; 3170 if (w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) 3171 continue; 3172 if (HDA_CONFIG_DEFAULTCONF_ASSOCIATION(w->wclass.pin.config) 3173 != j) 3174 continue; 3175 max++; 3176 if (j != 15) /* There could be many 1-pin assocs #15 */ 3177 break; 3178 } 3179 } 3180 3181 devinfo->ascnt = max; 3182 3183 if (max < 1) 3184 return; 3185 3186 as = (struct hdaa_audio_as *)malloc( 3187 sizeof(*as) * max, M_HDAA, M_ZERO | M_NOWAIT); 3188 3189 if (as == NULL) { 3190 /* Blekh! */ 3191 device_printf(devinfo->dev, "unable to allocate assocs!\n"); 3192 devinfo->ascnt = 0; 3193 return; 3194 } 3195 3196 for (i = 0; i < max; i++) { 3197 as[i].hpredir = -1; 3198 as[i].digital = 0; 3199 as[i].num_chans = 1; 3200 as[i].location = -1; 3201 } 3202 3203 /* Scan associations skipping as=0. */ 3204 cnt = 0; 3205 for (j = 1; j < 16 && cnt < max; j++) { 3206 first = 16; 3207 hpredir = 0; 3208 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 3209 w = hdaa_widget_get(devinfo, i); 3210 if (w == NULL || w->enable == 0) 3211 continue; 3212 if (w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) 3213 continue; 3214 assoc = HDA_CONFIG_DEFAULTCONF_ASSOCIATION(w->wclass.pin.config); 3215 seq = HDA_CONFIG_DEFAULTCONF_SEQUENCE(w->wclass.pin.config); 3216 if (assoc != j) { 3217 continue; 3218 } 3219 KASSERT(cnt < max, 3220 ("%s: Associations owerflow (%d of %d)", 3221 __func__, cnt, max)); 3222 type = w->wclass.pin.config & 3223 HDA_CONFIG_DEFAULTCONF_DEVICE_MASK; 3224 /* Get pin direction. */ 3225 if (type == HDA_CONFIG_DEFAULTCONF_DEVICE_LINE_OUT || 3226 type == HDA_CONFIG_DEFAULTCONF_DEVICE_SPEAKER || 3227 type == HDA_CONFIG_DEFAULTCONF_DEVICE_HP_OUT || 3228 type == HDA_CONFIG_DEFAULTCONF_DEVICE_SPDIF_OUT || 3229 type == HDA_CONFIG_DEFAULTCONF_DEVICE_DIGITAL_OTHER_OUT) 3230 dir = HDAA_CTL_OUT; 3231 else 3232 dir = HDAA_CTL_IN; 3233 /* If this is a first pin - create new association. */ 3234 if (as[cnt].pincnt == 0) { 3235 as[cnt].enable = 1; 3236 as[cnt].index = j; 3237 as[cnt].dir = dir; 3238 } 3239 if (seq < first) 3240 first = seq; 3241 /* Check association correctness. */ 3242 if (as[cnt].pins[seq] != 0) { 3243 device_printf(devinfo->dev, "%s: Duplicate pin %d (%d) " 3244 "in association %d! Disabling association.\n", 3245 __func__, seq, w->nid, j); 3246 as[cnt].enable = 0; 3247 } 3248 if (dir != as[cnt].dir) { 3249 device_printf(devinfo->dev, "%s: Pin %d has wrong " 3250 "direction for association %d! Disabling " 3251 "association.\n", 3252 __func__, w->nid, j); 3253 as[cnt].enable = 0; 3254 } 3255 if (HDA_PARAM_AUDIO_WIDGET_CAP_DIGITAL(w->param.widget_cap)) { 3256 as[cnt].digital |= 0x1; 3257 if (HDA_PARAM_PIN_CAP_HDMI(w->wclass.pin.cap)) 3258 as[cnt].digital |= 0x2; 3259 if (HDA_PARAM_PIN_CAP_DP(w->wclass.pin.cap)) 3260 as[cnt].digital |= 0x4; 3261 } 3262 if (as[cnt].location == -1) { 3263 as[cnt].location = 3264 HDA_CONFIG_DEFAULTCONF_LOCATION(w->wclass.pin.config); 3265 } else if (as[cnt].location != 3266 HDA_CONFIG_DEFAULTCONF_LOCATION(w->wclass.pin.config)) { 3267 as[cnt].location = -2; 3268 } 3269 /* Headphones with seq=15 may mean redirection. */ 3270 if (type == HDA_CONFIG_DEFAULTCONF_DEVICE_HP_OUT && 3271 seq == 15) 3272 hpredir = 1; 3273 as[cnt].pins[seq] = w->nid; 3274 as[cnt].pincnt++; 3275 /* Association 15 is a multiple unassociated pins. */ 3276 if (j == 15) 3277 cnt++; 3278 } 3279 if (j != 15 && as[cnt].pincnt > 0) { 3280 if (hpredir && as[cnt].pincnt > 1) 3281 as[cnt].hpredir = first; 3282 cnt++; 3283 } 3284 } 3285 for (i = 0; i < max; i++) { 3286 if (as[i].dir == HDAA_CTL_IN && (as[i].pincnt == 1 || 3287 as[i].pins[14] > 0 || as[i].pins[15] > 0)) 3288 as[i].mixed = 1; 3289 } 3290 HDA_BOOTVERBOSE( 3291 device_printf(devinfo->dev, 3292 "%d associations found:\n", max); 3293 for (i = 0; i < max; i++) { 3294 device_printf(devinfo->dev, 3295 "Association %d (%d) %s%s:\n", 3296 i, as[i].index, (as[i].dir == HDAA_CTL_IN)?"in":"out", 3297 as[i].enable?"":" (disabled)"); 3298 for (j = 0; j < 16; j++) { 3299 if (as[i].pins[j] == 0) 3300 continue; 3301 device_printf(devinfo->dev, 3302 " Pin nid=%d seq=%d\n", 3303 as[i].pins[j], j); 3304 } 3305 } 3306 ); 3307 3308 devinfo->as = as; 3309 } 3310 3311 /* 3312 * Trace path from DAC to pin. 3313 */ 3314 static nid_t 3315 hdaa_audio_trace_dac(struct hdaa_devinfo *devinfo, int as, int seq, nid_t nid, 3316 int dupseq, int min, int only, int depth) 3317 { 3318 struct hdaa_widget *w; 3319 int i, im = -1; 3320 nid_t m = 0, ret; 3321 3322 if (depth > HDA_PARSE_MAXDEPTH) 3323 return (0); 3324 w = hdaa_widget_get(devinfo, nid); 3325 if (w == NULL || w->enable == 0) 3326 return (0); 3327 HDA_BOOTHVERBOSE( 3328 if (!only) { 3329 device_printf(devinfo->dev, 3330 " %*stracing via nid %d\n", 3331 depth + 1, "", w->nid); 3332 } 3333 ); 3334 /* Use only unused widgets */ 3335 if (w->bindas >= 0 && w->bindas != as) { 3336 HDA_BOOTHVERBOSE( 3337 if (!only) { 3338 device_printf(devinfo->dev, 3339 " %*snid %d busy by association %d\n", 3340 depth + 1, "", w->nid, w->bindas); 3341 } 3342 ); 3343 return (0); 3344 } 3345 if (dupseq < 0) { 3346 if (w->bindseqmask != 0) { 3347 HDA_BOOTHVERBOSE( 3348 if (!only) { 3349 device_printf(devinfo->dev, 3350 " %*snid %d busy by seqmask %x\n", 3351 depth + 1, "", w->nid, w->bindseqmask); 3352 } 3353 ); 3354 return (0); 3355 } 3356 } else { 3357 /* If this is headphones - allow duplicate first pin. */ 3358 if (w->bindseqmask != 0 && 3359 (w->bindseqmask & (1 << dupseq)) == 0) { 3360 HDA_BOOTHVERBOSE( 3361 device_printf(devinfo->dev, 3362 " %*snid %d busy by seqmask %x\n", 3363 depth + 1, "", w->nid, w->bindseqmask); 3364 ); 3365 return (0); 3366 } 3367 } 3368 3369 switch (w->type) { 3370 case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT: 3371 /* Do not traverse input. AD1988 has digital monitor 3372 for which we are not ready. */ 3373 break; 3374 case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_OUTPUT: 3375 /* If we are tracing HP take only dac of first pin. */ 3376 if ((only == 0 || only == w->nid) && 3377 (w->nid >= min) && (dupseq < 0 || w->nid == 3378 devinfo->as[as].dacs[0][dupseq])) 3379 m = w->nid; 3380 break; 3381 case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX: 3382 if (depth > 0) 3383 break; 3384 /* Fall */ 3385 default: 3386 /* Find reachable DACs with smallest nid respecting constraints. */ 3387 for (i = 0; i < w->nconns; i++) { 3388 if (w->connsenable[i] == 0) 3389 continue; 3390 if (w->selconn != -1 && w->selconn != i) 3391 continue; 3392 if ((ret = hdaa_audio_trace_dac(devinfo, as, seq, 3393 w->conns[i], dupseq, min, only, depth + 1)) != 0) { 3394 if (m == 0 || ret < m) { 3395 m = ret; 3396 im = i; 3397 } 3398 if (only || dupseq >= 0) 3399 break; 3400 } 3401 } 3402 if (im >= 0 && only && ((w->nconns > 1 && 3403 w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER) || 3404 w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_SELECTOR)) 3405 w->selconn = im; 3406 break; 3407 } 3408 if (m && only) { 3409 w->bindas = as; 3410 w->bindseqmask |= (1 << seq); 3411 } 3412 HDA_BOOTHVERBOSE( 3413 if (!only) { 3414 device_printf(devinfo->dev, 3415 " %*snid %d returned %d\n", 3416 depth + 1, "", w->nid, m); 3417 } 3418 ); 3419 return (m); 3420 } 3421 3422 /* 3423 * Trace path from widget to ADC. 3424 */ 3425 static nid_t 3426 hdaa_audio_trace_adc(struct hdaa_devinfo *devinfo, int as, int seq, nid_t nid, 3427 int mixed, int min, int only, int depth, int *length, int onlylength) 3428 { 3429 struct hdaa_widget *w, *wc; 3430 int i, j, im, lm = HDA_PARSE_MAXDEPTH; 3431 nid_t m = 0, ret; 3432 3433 if (depth > HDA_PARSE_MAXDEPTH) 3434 return (0); 3435 w = hdaa_widget_get(devinfo, nid); 3436 if (w == NULL || w->enable == 0) 3437 return (0); 3438 HDA_BOOTHVERBOSE( 3439 device_printf(devinfo->dev, 3440 " %*stracing via nid %d\n", 3441 depth + 1, "", w->nid); 3442 ); 3443 /* Use only unused widgets */ 3444 if (w->bindas >= 0 && w->bindas != as) { 3445 HDA_BOOTHVERBOSE( 3446 device_printf(devinfo->dev, 3447 " %*snid %d busy by association %d\n", 3448 depth + 1, "", w->nid, w->bindas); 3449 ); 3450 return (0); 3451 } 3452 if (!mixed && w->bindseqmask != 0) { 3453 HDA_BOOTHVERBOSE( 3454 device_printf(devinfo->dev, 3455 " %*snid %d busy by seqmask %x\n", 3456 depth + 1, "", w->nid, w->bindseqmask); 3457 ); 3458 return (0); 3459 } 3460 switch (w->type) { 3461 case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT: 3462 if ((only == 0 || only == w->nid) && (w->nid >= min) && 3463 (onlylength == 0 || onlylength == depth)) { 3464 m = w->nid; 3465 *length = depth; 3466 } 3467 break; 3468 case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX: 3469 if (depth > 0) 3470 break; 3471 /* Fall */ 3472 default: 3473 /* Try to find reachable ADCs with specified nid. */ 3474 for (j = devinfo->startnode; j < devinfo->endnode; j++) { 3475 wc = hdaa_widget_get(devinfo, j); 3476 if (wc == NULL || wc->enable == 0) 3477 continue; 3478 im = -1; 3479 for (i = 0; i < wc->nconns; i++) { 3480 if (wc->connsenable[i] == 0) 3481 continue; 3482 if (wc->conns[i] != nid) 3483 continue; 3484 if ((ret = hdaa_audio_trace_adc(devinfo, as, seq, 3485 j, mixed, min, only, depth + 1, 3486 length, onlylength)) != 0) { 3487 if (m == 0 || ret < m || 3488 (ret == m && *length < lm)) { 3489 m = ret; 3490 im = i; 3491 lm = *length; 3492 } else 3493 *length = lm; 3494 if (only) 3495 break; 3496 } 3497 } 3498 if (im >= 0 && only && ((wc->nconns > 1 && 3499 wc->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER) || 3500 wc->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_SELECTOR)) 3501 wc->selconn = im; 3502 } 3503 break; 3504 } 3505 if (m && only) { 3506 w->bindas = as; 3507 w->bindseqmask |= (1 << seq); 3508 } 3509 HDA_BOOTHVERBOSE( 3510 device_printf(devinfo->dev, 3511 " %*snid %d returned %d\n", 3512 depth + 1, "", w->nid, m); 3513 ); 3514 return (m); 3515 } 3516 3517 /* 3518 * Erase trace path of the specified association. 3519 */ 3520 static void 3521 hdaa_audio_undo_trace(struct hdaa_devinfo *devinfo, int as, int seq) 3522 { 3523 struct hdaa_widget *w; 3524 int i; 3525 3526 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 3527 w = hdaa_widget_get(devinfo, i); 3528 if (w == NULL || w->enable == 0) 3529 continue; 3530 if (w->bindas == as) { 3531 if (seq >= 0) { 3532 w->bindseqmask &= ~(1 << seq); 3533 if (w->bindseqmask == 0) { 3534 w->bindas = -1; 3535 w->selconn = -1; 3536 } 3537 } else { 3538 w->bindas = -1; 3539 w->bindseqmask = 0; 3540 w->selconn = -1; 3541 } 3542 } 3543 } 3544 } 3545 3546 /* 3547 * Trace association path from DAC to output 3548 */ 3549 static int 3550 hdaa_audio_trace_as_out(struct hdaa_devinfo *devinfo, int as, int seq) 3551 { 3552 struct hdaa_audio_as *ases = devinfo->as; 3553 int i, hpredir; 3554 nid_t min, res; 3555 3556 /* Find next pin */ 3557 for (i = seq; i < 16 && ases[as].pins[i] == 0; i++) 3558 ; 3559 /* Check if there is no any left. If so - we succeeded. */ 3560 if (i == 16) 3561 return (1); 3562 3563 hpredir = (i == 15 && ases[as].fakeredir == 0)?ases[as].hpredir:-1; 3564 min = 0; 3565 do { 3566 HDA_BOOTHVERBOSE( 3567 device_printf(devinfo->dev, 3568 " Tracing pin %d with min nid %d", 3569 ases[as].pins[i], min); 3570 if (hpredir >= 0) 3571 printf(" and hpredir %d", hpredir); 3572 printf("\n"); 3573 ); 3574 /* Trace this pin taking min nid into account. */ 3575 res = hdaa_audio_trace_dac(devinfo, as, i, 3576 ases[as].pins[i], hpredir, min, 0, 0); 3577 if (res == 0) { 3578 /* If we failed - return to previous and redo it. */ 3579 HDA_BOOTVERBOSE( 3580 device_printf(devinfo->dev, 3581 " Unable to trace pin %d seq %d with min " 3582 "nid %d", 3583 ases[as].pins[i], i, min); 3584 if (hpredir >= 0) 3585 printf(" and hpredir %d", hpredir); 3586 printf("\n"); 3587 ); 3588 return (0); 3589 } 3590 HDA_BOOTVERBOSE( 3591 device_printf(devinfo->dev, 3592 " Pin %d traced to DAC %d", 3593 ases[as].pins[i], res); 3594 if (hpredir >= 0) 3595 printf(" and hpredir %d", hpredir); 3596 if (ases[as].fakeredir) 3597 printf(" with fake redirection"); 3598 printf("\n"); 3599 ); 3600 /* Trace again to mark the path */ 3601 hdaa_audio_trace_dac(devinfo, as, i, 3602 ases[as].pins[i], hpredir, min, res, 0); 3603 ases[as].dacs[0][i] = res; 3604 /* We succeeded, so call next. */ 3605 if (hdaa_audio_trace_as_out(devinfo, as, i + 1)) 3606 return (1); 3607 /* If next failed, we should retry with next min */ 3608 hdaa_audio_undo_trace(devinfo, as, i); 3609 ases[as].dacs[0][i] = 0; 3610 min = res + 1; 3611 } while (1); 3612 } 3613 3614 /* 3615 * Check equivalency of two DACs. 3616 */ 3617 static int 3618 hdaa_audio_dacs_equal(struct hdaa_widget *w1, struct hdaa_widget *w2) 3619 { 3620 struct hdaa_devinfo *devinfo = w1->devinfo; 3621 struct hdaa_widget *w3; 3622 int i, j, c1, c2; 3623 3624 if (memcmp(&w1->param, &w2->param, sizeof(w1->param))) 3625 return (0); 3626 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 3627 w3 = hdaa_widget_get(devinfo, i); 3628 if (w3 == NULL || w3->enable == 0) 3629 continue; 3630 if (w3->bindas != w1->bindas) 3631 continue; 3632 if (w3->nconns == 0) 3633 continue; 3634 c1 = c2 = -1; 3635 for (j = 0; j < w3->nconns; j++) { 3636 if (w3->connsenable[j] == 0) 3637 continue; 3638 if (w3->conns[j] == w1->nid) 3639 c1 = j; 3640 if (w3->conns[j] == w2->nid) 3641 c2 = j; 3642 } 3643 if (c1 < 0) 3644 continue; 3645 if (c2 < 0) 3646 return (0); 3647 if (w3->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER) 3648 return (0); 3649 } 3650 return (1); 3651 } 3652 3653 /* 3654 * Check equivalency of two ADCs. 3655 */ 3656 static int 3657 hdaa_audio_adcs_equal(struct hdaa_widget *w1, struct hdaa_widget *w2) 3658 { 3659 struct hdaa_devinfo *devinfo = w1->devinfo; 3660 struct hdaa_widget *w3, *w4; 3661 int i; 3662 3663 if (memcmp(&w1->param, &w2->param, sizeof(w1->param))) 3664 return (0); 3665 if (w1->nconns != 1 || w2->nconns != 1) 3666 return (0); 3667 if (w1->conns[0] == w2->conns[0]) 3668 return (1); 3669 w3 = hdaa_widget_get(devinfo, w1->conns[0]); 3670 if (w3 == NULL || w3->enable == 0) 3671 return (0); 3672 w4 = hdaa_widget_get(devinfo, w2->conns[0]); 3673 if (w4 == NULL || w4->enable == 0) 3674 return (0); 3675 if (w3->bindas == w4->bindas && w3->bindseqmask == w4->bindseqmask) 3676 return (1); 3677 if (w4->bindas >= 0) 3678 return (0); 3679 if (w3->type != w4->type) 3680 return (0); 3681 if (memcmp(&w3->param, &w4->param, sizeof(w3->param))) 3682 return (0); 3683 if (w3->nconns != w4->nconns) 3684 return (0); 3685 for (i = 0; i < w3->nconns; i++) { 3686 if (w3->conns[i] != w4->conns[i]) 3687 return (0); 3688 } 3689 return (1); 3690 } 3691 3692 /* 3693 * Look for equivalent DAC/ADC to implement second channel. 3694 */ 3695 static void 3696 hdaa_audio_adddac(struct hdaa_devinfo *devinfo, int asid) 3697 { 3698 struct hdaa_audio_as *as = &devinfo->as[asid]; 3699 struct hdaa_widget *w1, *w2; 3700 int i, pos; 3701 nid_t nid1, nid2; 3702 3703 HDA_BOOTVERBOSE( 3704 device_printf(devinfo->dev, 3705 "Looking for additional %sC " 3706 "for association %d (%d)\n", 3707 (as->dir == HDAA_CTL_OUT) ? "DA" : "AD", 3708 asid, as->index); 3709 ); 3710 3711 /* Find the existing DAC position and return if found more the one. */ 3712 pos = -1; 3713 for (i = 0; i < 16; i++) { 3714 if (as->dacs[0][i] <= 0) 3715 continue; 3716 if (pos >= 0 && as->dacs[0][i] != as->dacs[0][pos]) 3717 return; 3718 pos = i; 3719 } 3720 3721 nid1 = as->dacs[0][pos]; 3722 w1 = hdaa_widget_get(devinfo, nid1); 3723 w2 = NULL; 3724 for (nid2 = devinfo->startnode; nid2 < devinfo->endnode; nid2++) { 3725 w2 = hdaa_widget_get(devinfo, nid2); 3726 if (w2 == NULL || w2->enable == 0) 3727 continue; 3728 if (w2->bindas >= 0) 3729 continue; 3730 if (w1->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_OUTPUT) { 3731 if (w2->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_OUTPUT) 3732 continue; 3733 if (hdaa_audio_dacs_equal(w1, w2)) 3734 break; 3735 } else { 3736 if (w2->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT) 3737 continue; 3738 if (hdaa_audio_adcs_equal(w1, w2)) 3739 break; 3740 } 3741 } 3742 if (nid2 >= devinfo->endnode) 3743 return; 3744 w2->bindas = w1->bindas; 3745 w2->bindseqmask = w1->bindseqmask; 3746 if (w1->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT) { 3747 HDA_BOOTVERBOSE( 3748 device_printf(devinfo->dev, 3749 " ADC %d considered equal to ADC %d\n", nid2, nid1); 3750 ); 3751 w1 = hdaa_widget_get(devinfo, w1->conns[0]); 3752 w2 = hdaa_widget_get(devinfo, w2->conns[0]); 3753 w2->bindas = w1->bindas; 3754 w2->bindseqmask = w1->bindseqmask; 3755 } else { 3756 HDA_BOOTVERBOSE( 3757 device_printf(devinfo->dev, 3758 " DAC %d considered equal to DAC %d\n", nid2, nid1); 3759 ); 3760 } 3761 for (i = 0; i < 16; i++) { 3762 if (as->dacs[0][i] <= 0) 3763 continue; 3764 as->dacs[as->num_chans][i] = nid2; 3765 } 3766 as->num_chans++; 3767 } 3768 3769 /* 3770 * Trace association path from input to ADC 3771 */ 3772 static int 3773 hdaa_audio_trace_as_in(struct hdaa_devinfo *devinfo, int as) 3774 { 3775 struct hdaa_audio_as *ases = devinfo->as; 3776 struct hdaa_widget *w; 3777 int i, j, k, length; 3778 3779 for (j = devinfo->startnode; j < devinfo->endnode; j++) { 3780 w = hdaa_widget_get(devinfo, j); 3781 if (w == NULL || w->enable == 0) 3782 continue; 3783 if (w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT) 3784 continue; 3785 if (w->bindas >= 0 && w->bindas != as) 3786 continue; 3787 3788 /* Find next pin */ 3789 for (i = 0; i < 16; i++) { 3790 if (ases[as].pins[i] == 0) 3791 continue; 3792 3793 HDA_BOOTHVERBOSE( 3794 device_printf(devinfo->dev, 3795 " Tracing pin %d to ADC %d\n", 3796 ases[as].pins[i], j); 3797 ); 3798 /* Trace this pin taking goal into account. */ 3799 if (hdaa_audio_trace_adc(devinfo, as, i, 3800 ases[as].pins[i], 1, 0, j, 0, &length, 0) == 0) { 3801 /* If we failed - return to previous and redo it. */ 3802 HDA_BOOTVERBOSE( 3803 device_printf(devinfo->dev, 3804 " Unable to trace pin %d to ADC %d, undo traces\n", 3805 ases[as].pins[i], j); 3806 ); 3807 hdaa_audio_undo_trace(devinfo, as, -1); 3808 for (k = 0; k < 16; k++) 3809 ases[as].dacs[0][k] = 0; 3810 break; 3811 } 3812 HDA_BOOTVERBOSE( 3813 device_printf(devinfo->dev, 3814 " Pin %d traced to ADC %d\n", 3815 ases[as].pins[i], j); 3816 ); 3817 ases[as].dacs[0][i] = j; 3818 } 3819 if (i == 16) 3820 return (1); 3821 } 3822 return (0); 3823 } 3824 3825 /* 3826 * Trace association path from input to multiple ADCs 3827 */ 3828 static int 3829 hdaa_audio_trace_as_in_mch(struct hdaa_devinfo *devinfo, int as, int seq) 3830 { 3831 struct hdaa_audio_as *ases = devinfo->as; 3832 int i, length; 3833 nid_t min, res; 3834 3835 /* Find next pin */ 3836 for (i = seq; i < 16 && ases[as].pins[i] == 0; i++) 3837 ; 3838 /* Check if there is no any left. If so - we succeeded. */ 3839 if (i == 16) 3840 return (1); 3841 3842 min = 0; 3843 do { 3844 HDA_BOOTHVERBOSE( 3845 device_printf(devinfo->dev, 3846 " Tracing pin %d with min nid %d", 3847 ases[as].pins[i], min); 3848 printf("\n"); 3849 ); 3850 /* Trace this pin taking min nid into account. */ 3851 res = hdaa_audio_trace_adc(devinfo, as, i, 3852 ases[as].pins[i], 0, min, 0, 0, &length, 0); 3853 if (res == 0) { 3854 /* If we failed - return to previous and redo it. */ 3855 HDA_BOOTVERBOSE( 3856 device_printf(devinfo->dev, 3857 " Unable to trace pin %d seq %d with min " 3858 "nid %d", 3859 ases[as].pins[i], i, min); 3860 printf("\n"); 3861 ); 3862 return (0); 3863 } 3864 HDA_BOOTVERBOSE( 3865 device_printf(devinfo->dev, 3866 " Pin %d traced to ADC %d\n", 3867 ases[as].pins[i], res); 3868 ); 3869 /* Trace again to mark the path */ 3870 hdaa_audio_trace_adc(devinfo, as, i, 3871 ases[as].pins[i], 0, min, res, 0, &length, length); 3872 ases[as].dacs[0][i] = res; 3873 /* We succeeded, so call next. */ 3874 if (hdaa_audio_trace_as_in_mch(devinfo, as, i + 1)) 3875 return (1); 3876 /* If next failed, we should retry with next min */ 3877 hdaa_audio_undo_trace(devinfo, as, i); 3878 ases[as].dacs[0][i] = 0; 3879 min = res + 1; 3880 } while (1); 3881 } 3882 3883 /* 3884 * Trace input monitor path from mixer to output association. 3885 */ 3886 static int 3887 hdaa_audio_trace_to_out(struct hdaa_devinfo *devinfo, nid_t nid, int depth) 3888 { 3889 struct hdaa_audio_as *ases = devinfo->as; 3890 struct hdaa_widget *w, *wc; 3891 int i, j; 3892 nid_t res = 0; 3893 3894 if (depth > HDA_PARSE_MAXDEPTH) 3895 return (0); 3896 w = hdaa_widget_get(devinfo, nid); 3897 if (w == NULL || w->enable == 0) 3898 return (0); 3899 HDA_BOOTHVERBOSE( 3900 device_printf(devinfo->dev, 3901 " %*stracing via nid %d\n", 3902 depth + 1, "", w->nid); 3903 ); 3904 /* Use only unused widgets */ 3905 if (depth > 0 && w->bindas != -1) { 3906 if (w->bindas < 0 || ases[w->bindas].dir == HDAA_CTL_OUT) { 3907 HDA_BOOTHVERBOSE( 3908 device_printf(devinfo->dev, 3909 " %*snid %d found output association %d\n", 3910 depth + 1, "", w->nid, w->bindas); 3911 ); 3912 if (w->bindas >= 0) 3913 w->pflags |= HDAA_ADC_MONITOR; 3914 return (1); 3915 } else { 3916 HDA_BOOTHVERBOSE( 3917 device_printf(devinfo->dev, 3918 " %*snid %d busy by input association %d\n", 3919 depth + 1, "", w->nid, w->bindas); 3920 ); 3921 return (0); 3922 } 3923 } 3924 3925 switch (w->type) { 3926 case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT: 3927 /* Do not traverse input. AD1988 has digital monitor 3928 for which we are not ready. */ 3929 break; 3930 case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX: 3931 if (depth > 0) 3932 break; 3933 /* Fall */ 3934 default: 3935 /* Try to find reachable ADCs with specified nid. */ 3936 for (j = devinfo->startnode; j < devinfo->endnode; j++) { 3937 wc = hdaa_widget_get(devinfo, j); 3938 if (wc == NULL || wc->enable == 0) 3939 continue; 3940 for (i = 0; i < wc->nconns; i++) { 3941 if (wc->connsenable[i] == 0) 3942 continue; 3943 if (wc->conns[i] != nid) 3944 continue; 3945 if (hdaa_audio_trace_to_out(devinfo, 3946 j, depth + 1) != 0) { 3947 res = 1; 3948 if (wc->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_SELECTOR && 3949 wc->selconn == -1) 3950 wc->selconn = i; 3951 } 3952 } 3953 } 3954 break; 3955 } 3956 if (res && w->bindas == -1) 3957 w->bindas = -2; 3958 3959 HDA_BOOTHVERBOSE( 3960 device_printf(devinfo->dev, 3961 " %*snid %d returned %d\n", 3962 depth + 1, "", w->nid, res); 3963 ); 3964 return (res); 3965 } 3966 3967 /* 3968 * Trace extra associations (beeper, monitor) 3969 */ 3970 static void 3971 hdaa_audio_trace_as_extra(struct hdaa_devinfo *devinfo) 3972 { 3973 struct hdaa_audio_as *as = devinfo->as; 3974 struct hdaa_widget *w; 3975 int j; 3976 3977 /* Input monitor */ 3978 /* Find mixer associated with input, but supplying signal 3979 for output associations. Hope it will be input monitor. */ 3980 HDA_BOOTVERBOSE( 3981 device_printf(devinfo->dev, 3982 "Tracing input monitor\n"); 3983 ); 3984 for (j = devinfo->startnode; j < devinfo->endnode; j++) { 3985 w = hdaa_widget_get(devinfo, j); 3986 if (w == NULL || w->enable == 0) 3987 continue; 3988 if (w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER) 3989 continue; 3990 if (w->bindas < 0 || as[w->bindas].dir != HDAA_CTL_IN) 3991 continue; 3992 HDA_BOOTVERBOSE( 3993 device_printf(devinfo->dev, 3994 " Tracing nid %d to out\n", 3995 j); 3996 ); 3997 if (hdaa_audio_trace_to_out(devinfo, w->nid, 0)) { 3998 HDA_BOOTVERBOSE( 3999 device_printf(devinfo->dev, 4000 " nid %d is input monitor\n", 4001 w->nid); 4002 ); 4003 w->ossdev = SOUND_MIXER_IMIX; 4004 } 4005 } 4006 4007 /* Other inputs monitor */ 4008 /* Find input pins supplying signal for output associations. 4009 Hope it will be input monitoring. */ 4010 HDA_BOOTVERBOSE( 4011 device_printf(devinfo->dev, 4012 "Tracing other input monitors\n"); 4013 ); 4014 for (j = devinfo->startnode; j < devinfo->endnode; j++) { 4015 w = hdaa_widget_get(devinfo, j); 4016 if (w == NULL || w->enable == 0) 4017 continue; 4018 if (w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) 4019 continue; 4020 if (w->bindas < 0 || as[w->bindas].dir != HDAA_CTL_IN) 4021 continue; 4022 HDA_BOOTVERBOSE( 4023 device_printf(devinfo->dev, 4024 " Tracing nid %d to out\n", 4025 j); 4026 ); 4027 if (hdaa_audio_trace_to_out(devinfo, w->nid, 0)) { 4028 HDA_BOOTVERBOSE( 4029 device_printf(devinfo->dev, 4030 " nid %d is input monitor\n", 4031 w->nid); 4032 ); 4033 } 4034 } 4035 4036 /* Beeper */ 4037 HDA_BOOTVERBOSE( 4038 device_printf(devinfo->dev, 4039 "Tracing beeper\n"); 4040 ); 4041 for (j = devinfo->startnode; j < devinfo->endnode; j++) { 4042 w = hdaa_widget_get(devinfo, j); 4043 if (w == NULL || w->enable == 0) 4044 continue; 4045 if (w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_BEEP_WIDGET) 4046 continue; 4047 HDA_BOOTHVERBOSE( 4048 device_printf(devinfo->dev, 4049 " Tracing nid %d to out\n", 4050 j); 4051 ); 4052 if (hdaa_audio_trace_to_out(devinfo, w->nid, 0)) { 4053 HDA_BOOTVERBOSE( 4054 device_printf(devinfo->dev, 4055 " nid %d traced to out\n", 4056 j); 4057 ); 4058 } 4059 w->bindas = -2; 4060 } 4061 } 4062 4063 /* 4064 * Bind assotiations to PCM channels 4065 */ 4066 static void 4067 hdaa_audio_bind_as(struct hdaa_devinfo *devinfo) 4068 { 4069 struct hdaa_audio_as *as = devinfo->as; 4070 int i, j, cnt = 0, free; 4071 4072 for (j = 0; j < devinfo->ascnt; j++) { 4073 if (as[j].enable) 4074 cnt += as[j].num_chans; 4075 } 4076 if (devinfo->num_chans == 0) { 4077 devinfo->chans = (struct hdaa_chan *)malloc( 4078 sizeof(struct hdaa_chan) * cnt, 4079 M_HDAA, M_ZERO | M_NOWAIT); 4080 if (devinfo->chans == NULL) { 4081 device_printf(devinfo->dev, 4082 "Channels memory allocation failed!\n"); 4083 return; 4084 } 4085 } else { 4086 devinfo->chans = (struct hdaa_chan *)realloc(devinfo->chans, 4087 sizeof(struct hdaa_chan) * (devinfo->num_chans + cnt), 4088 M_HDAA, M_ZERO | M_NOWAIT); 4089 if (devinfo->chans == NULL) { 4090 devinfo->num_chans = 0; 4091 device_printf(devinfo->dev, 4092 "Channels memory allocation failed!\n"); 4093 return; 4094 } 4095 /* Fixup relative pointers after realloc */ 4096 for (j = 0; j < devinfo->num_chans; j++) 4097 devinfo->chans[j].caps.fmtlist = devinfo->chans[j].fmtlist; 4098 } 4099 free = devinfo->num_chans; 4100 devinfo->num_chans += cnt; 4101 4102 for (j = free; j < free + cnt; j++) { 4103 devinfo->chans[j].devinfo = devinfo; 4104 devinfo->chans[j].as = -1; 4105 } 4106 4107 /* Assign associations in order of their numbers, */ 4108 for (j = 0; j < devinfo->ascnt; j++) { 4109 if (as[j].enable == 0) 4110 continue; 4111 for (i = 0; i < as[j].num_chans; i++) { 4112 devinfo->chans[free].as = j; 4113 devinfo->chans[free].asindex = i; 4114 devinfo->chans[free].dir = 4115 (as[j].dir == HDAA_CTL_IN) ? PCMDIR_REC : PCMDIR_PLAY; 4116 hdaa_pcmchannel_setup(&devinfo->chans[free]); 4117 as[j].chans[i] = free; 4118 free++; 4119 } 4120 } 4121 } 4122 4123 static void 4124 hdaa_audio_disable_nonaudio(struct hdaa_devinfo *devinfo) 4125 { 4126 struct hdaa_widget *w; 4127 int i; 4128 4129 /* Disable power and volume widgets. */ 4130 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 4131 w = hdaa_widget_get(devinfo, i); 4132 if (w == NULL || w->enable == 0) 4133 continue; 4134 if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_POWER_WIDGET || 4135 w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_VOLUME_WIDGET) { 4136 w->enable = 0; 4137 HDA_BOOTHVERBOSE( 4138 device_printf(devinfo->dev, 4139 " Disabling nid %d due to it's" 4140 " non-audio type.\n", 4141 w->nid); 4142 ); 4143 } 4144 } 4145 } 4146 4147 static void 4148 hdaa_audio_disable_useless(struct hdaa_devinfo *devinfo) 4149 { 4150 struct hdaa_widget *w, *cw; 4151 struct hdaa_audio_ctl *ctl; 4152 int done, found, i, j, k; 4153 4154 /* Disable useless pins. */ 4155 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 4156 w = hdaa_widget_get(devinfo, i); 4157 if (w == NULL || w->enable == 0) 4158 continue; 4159 if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) { 4160 if ((w->wclass.pin.config & 4161 HDA_CONFIG_DEFAULTCONF_CONNECTIVITY_MASK) == 4162 HDA_CONFIG_DEFAULTCONF_CONNECTIVITY_NONE) { 4163 w->enable = 0; 4164 HDA_BOOTHVERBOSE( 4165 device_printf(devinfo->dev, 4166 " Disabling pin nid %d due" 4167 " to None connectivity.\n", 4168 w->nid); 4169 ); 4170 } else if ((w->wclass.pin.config & 4171 HDA_CONFIG_DEFAULTCONF_ASSOCIATION_MASK) == 0) { 4172 w->enable = 0; 4173 HDA_BOOTHVERBOSE( 4174 device_printf(devinfo->dev, 4175 " Disabling unassociated" 4176 " pin nid %d.\n", 4177 w->nid); 4178 ); 4179 } 4180 } 4181 } 4182 do { 4183 done = 1; 4184 /* Disable and mute controls for disabled widgets. */ 4185 i = 0; 4186 while ((ctl = hdaa_audio_ctl_each(devinfo, &i)) != NULL) { 4187 if (ctl->enable == 0) 4188 continue; 4189 if (ctl->widget->enable == 0 || 4190 (ctl->childwidget != NULL && 4191 ctl->childwidget->enable == 0)) { 4192 ctl->forcemute = 1; 4193 ctl->muted = HDAA_AMP_MUTE_ALL; 4194 ctl->left = 0; 4195 ctl->right = 0; 4196 ctl->enable = 0; 4197 if (ctl->ndir == HDAA_CTL_IN) 4198 ctl->widget->connsenable[ctl->index] = 0; 4199 done = 0; 4200 HDA_BOOTHVERBOSE( 4201 device_printf(devinfo->dev, 4202 " Disabling ctl %d nid %d cnid %d due" 4203 " to disabled widget.\n", i, 4204 ctl->widget->nid, 4205 (ctl->childwidget != NULL)? 4206 ctl->childwidget->nid:-1); 4207 ); 4208 } 4209 } 4210 /* Disable useless widgets. */ 4211 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 4212 w = hdaa_widget_get(devinfo, i); 4213 if (w == NULL || w->enable == 0) 4214 continue; 4215 /* Disable inputs with disabled child widgets. */ 4216 for (j = 0; j < w->nconns; j++) { 4217 if (w->connsenable[j]) { 4218 cw = hdaa_widget_get(devinfo, w->conns[j]); 4219 if (cw == NULL || cw->enable == 0) { 4220 w->connsenable[j] = 0; 4221 HDA_BOOTHVERBOSE( 4222 device_printf(devinfo->dev, 4223 " Disabling nid %d connection %d due" 4224 " to disabled child widget.\n", 4225 i, j); 4226 ); 4227 } 4228 } 4229 } 4230 if (w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_SELECTOR && 4231 w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER) 4232 continue; 4233 /* Disable mixers and selectors without inputs. */ 4234 found = 0; 4235 for (j = 0; j < w->nconns; j++) { 4236 if (w->connsenable[j]) { 4237 found = 1; 4238 break; 4239 } 4240 } 4241 if (found == 0) { 4242 w->enable = 0; 4243 done = 0; 4244 HDA_BOOTHVERBOSE( 4245 device_printf(devinfo->dev, 4246 " Disabling nid %d due to all it's" 4247 " inputs disabled.\n", w->nid); 4248 ); 4249 } 4250 /* Disable nodes without consumers. */ 4251 if (w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_SELECTOR && 4252 w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER) 4253 continue; 4254 found = 0; 4255 for (k = devinfo->startnode; k < devinfo->endnode; k++) { 4256 cw = hdaa_widget_get(devinfo, k); 4257 if (cw == NULL || cw->enable == 0) 4258 continue; 4259 for (j = 0; j < cw->nconns; j++) { 4260 if (cw->connsenable[j] && cw->conns[j] == i) { 4261 found = 1; 4262 break; 4263 } 4264 } 4265 } 4266 if (found == 0) { 4267 w->enable = 0; 4268 done = 0; 4269 HDA_BOOTHVERBOSE( 4270 device_printf(devinfo->dev, 4271 " Disabling nid %d due to all it's" 4272 " consumers disabled.\n", w->nid); 4273 ); 4274 } 4275 } 4276 } while (done == 0); 4277 4278 } 4279 4280 static void 4281 hdaa_audio_disable_unas(struct hdaa_devinfo *devinfo) 4282 { 4283 struct hdaa_audio_as *as = devinfo->as; 4284 struct hdaa_widget *w, *cw; 4285 struct hdaa_audio_ctl *ctl; 4286 int i, j, k; 4287 4288 /* Disable unassosiated widgets. */ 4289 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 4290 w = hdaa_widget_get(devinfo, i); 4291 if (w == NULL || w->enable == 0) 4292 continue; 4293 if (w->bindas == -1) { 4294 w->enable = 0; 4295 HDA_BOOTHVERBOSE( 4296 device_printf(devinfo->dev, 4297 " Disabling unassociated nid %d.\n", 4298 w->nid); 4299 ); 4300 } 4301 } 4302 /* Disable input connections on input pin and 4303 * output on output. */ 4304 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 4305 w = hdaa_widget_get(devinfo, i); 4306 if (w == NULL || w->enable == 0) 4307 continue; 4308 if (w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) 4309 continue; 4310 if (w->bindas < 0) 4311 continue; 4312 if (as[w->bindas].dir == HDAA_CTL_IN) { 4313 for (j = 0; j < w->nconns; j++) { 4314 if (w->connsenable[j] == 0) 4315 continue; 4316 w->connsenable[j] = 0; 4317 HDA_BOOTHVERBOSE( 4318 device_printf(devinfo->dev, 4319 " Disabling connection to input pin " 4320 "nid %d conn %d.\n", 4321 i, j); 4322 ); 4323 } 4324 ctl = hdaa_audio_ctl_amp_get(devinfo, w->nid, 4325 HDAA_CTL_IN, -1, 1); 4326 if (ctl && ctl->enable) { 4327 ctl->forcemute = 1; 4328 ctl->muted = HDAA_AMP_MUTE_ALL; 4329 ctl->left = 0; 4330 ctl->right = 0; 4331 ctl->enable = 0; 4332 } 4333 } else { 4334 ctl = hdaa_audio_ctl_amp_get(devinfo, w->nid, 4335 HDAA_CTL_OUT, -1, 1); 4336 if (ctl && ctl->enable) { 4337 ctl->forcemute = 1; 4338 ctl->muted = HDAA_AMP_MUTE_ALL; 4339 ctl->left = 0; 4340 ctl->right = 0; 4341 ctl->enable = 0; 4342 } 4343 for (k = devinfo->startnode; k < devinfo->endnode; k++) { 4344 cw = hdaa_widget_get(devinfo, k); 4345 if (cw == NULL || cw->enable == 0) 4346 continue; 4347 for (j = 0; j < cw->nconns; j++) { 4348 if (cw->connsenable[j] && cw->conns[j] == i) { 4349 cw->connsenable[j] = 0; 4350 HDA_BOOTHVERBOSE( 4351 device_printf(devinfo->dev, 4352 " Disabling connection from output pin " 4353 "nid %d conn %d cnid %d.\n", 4354 k, j, i); 4355 ); 4356 if (cw->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX && 4357 cw->nconns > 1) 4358 continue; 4359 ctl = hdaa_audio_ctl_amp_get(devinfo, k, 4360 HDAA_CTL_IN, j, 1); 4361 if (ctl && ctl->enable) { 4362 ctl->forcemute = 1; 4363 ctl->muted = HDAA_AMP_MUTE_ALL; 4364 ctl->left = 0; 4365 ctl->right = 0; 4366 ctl->enable = 0; 4367 } 4368 } 4369 } 4370 } 4371 } 4372 } 4373 } 4374 4375 static void 4376 hdaa_audio_disable_notselected(struct hdaa_devinfo *devinfo) 4377 { 4378 struct hdaa_audio_as *as = devinfo->as; 4379 struct hdaa_widget *w; 4380 int i, j; 4381 4382 /* On playback path we can safely disable all unseleted inputs. */ 4383 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 4384 w = hdaa_widget_get(devinfo, i); 4385 if (w == NULL || w->enable == 0) 4386 continue; 4387 if (w->nconns <= 1) 4388 continue; 4389 if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER) 4390 continue; 4391 if (w->bindas < 0 || as[w->bindas].dir == HDAA_CTL_IN) 4392 continue; 4393 for (j = 0; j < w->nconns; j++) { 4394 if (w->connsenable[j] == 0) 4395 continue; 4396 if (w->selconn < 0 || w->selconn == j) 4397 continue; 4398 w->connsenable[j] = 0; 4399 HDA_BOOTHVERBOSE( 4400 device_printf(devinfo->dev, 4401 " Disabling unselected connection " 4402 "nid %d conn %d.\n", 4403 i, j); 4404 ); 4405 } 4406 } 4407 } 4408 4409 static void 4410 hdaa_audio_disable_crossas(struct hdaa_devinfo *devinfo) 4411 { 4412 struct hdaa_audio_as *ases = devinfo->as; 4413 struct hdaa_widget *w, *cw; 4414 struct hdaa_audio_ctl *ctl; 4415 int i, j; 4416 4417 /* Disable crossassociatement and unwanted crosschannel connections. */ 4418 /* ... using selectors */ 4419 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 4420 w = hdaa_widget_get(devinfo, i); 4421 if (w == NULL || w->enable == 0) 4422 continue; 4423 if (w->nconns <= 1) 4424 continue; 4425 if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER) 4426 continue; 4427 /* Allow any -> mix */ 4428 if (w->bindas == -2) 4429 continue; 4430 for (j = 0; j < w->nconns; j++) { 4431 if (w->connsenable[j] == 0) 4432 continue; 4433 cw = hdaa_widget_get(devinfo, w->conns[j]); 4434 if (cw == NULL || w->enable == 0) 4435 continue; 4436 /* Allow mix -> out. */ 4437 if (cw->bindas == -2 && w->bindas >= 0 && 4438 ases[w->bindas].dir == HDAA_CTL_OUT) 4439 continue; 4440 /* Allow mix -> mixed-in. */ 4441 if (cw->bindas == -2 && w->bindas >= 0 && 4442 ases[w->bindas].mixed) 4443 continue; 4444 /* Allow in -> mix. */ 4445 if ((w->pflags & HDAA_ADC_MONITOR) && 4446 cw->bindas >= 0 && 4447 ases[cw->bindas].dir == HDAA_CTL_IN) 4448 continue; 4449 /* Allow if have common as/seqs. */ 4450 if (w->bindas == cw->bindas && 4451 (w->bindseqmask & cw->bindseqmask) != 0) 4452 continue; 4453 w->connsenable[j] = 0; 4454 HDA_BOOTHVERBOSE( 4455 device_printf(devinfo->dev, 4456 " Disabling crossassociatement connection " 4457 "nid %d conn %d cnid %d.\n", 4458 i, j, cw->nid); 4459 ); 4460 } 4461 } 4462 /* ... using controls */ 4463 i = 0; 4464 while ((ctl = hdaa_audio_ctl_each(devinfo, &i)) != NULL) { 4465 if (ctl->enable == 0 || ctl->childwidget == NULL) 4466 continue; 4467 /* Allow any -> mix */ 4468 if (ctl->widget->bindas == -2) 4469 continue; 4470 /* Allow mix -> out. */ 4471 if (ctl->childwidget->bindas == -2 && 4472 ctl->widget->bindas >= 0 && 4473 ases[ctl->widget->bindas].dir == HDAA_CTL_OUT) 4474 continue; 4475 /* Allow mix -> mixed-in. */ 4476 if (ctl->childwidget->bindas == -2 && 4477 ctl->widget->bindas >= 0 && 4478 ases[ctl->widget->bindas].mixed) 4479 continue; 4480 /* Allow in -> mix. */ 4481 if ((ctl->widget->pflags & HDAA_ADC_MONITOR) && 4482 ctl->childwidget->bindas >= 0 && 4483 ases[ctl->childwidget->bindas].dir == HDAA_CTL_IN) 4484 continue; 4485 /* Allow if have common as/seqs. */ 4486 if (ctl->widget->bindas == ctl->childwidget->bindas && 4487 (ctl->widget->bindseqmask & ctl->childwidget->bindseqmask) != 0) 4488 continue; 4489 ctl->forcemute = 1; 4490 ctl->muted = HDAA_AMP_MUTE_ALL; 4491 ctl->left = 0; 4492 ctl->right = 0; 4493 ctl->enable = 0; 4494 if (ctl->ndir == HDAA_CTL_IN) 4495 ctl->widget->connsenable[ctl->index] = 0; 4496 HDA_BOOTHVERBOSE( 4497 device_printf(devinfo->dev, 4498 " Disabling crossassociatement connection " 4499 "ctl %d nid %d cnid %d.\n", i, 4500 ctl->widget->nid, 4501 ctl->childwidget->nid); 4502 ); 4503 } 4504 4505 } 4506 4507 /* 4508 * Find controls to control amplification for source and calculate possible 4509 * amplification range. 4510 */ 4511 static int 4512 hdaa_audio_ctl_source_amp(struct hdaa_devinfo *devinfo, nid_t nid, int index, 4513 int ossdev, int ctlable, int depth, int *minamp, int *maxamp) 4514 { 4515 struct hdaa_widget *w, *wc; 4516 struct hdaa_audio_ctl *ctl; 4517 int i, j, conns = 0, tminamp, tmaxamp, cminamp, cmaxamp, found = 0; 4518 4519 if (depth > HDA_PARSE_MAXDEPTH) 4520 return (found); 4521 4522 w = hdaa_widget_get(devinfo, nid); 4523 if (w == NULL || w->enable == 0) 4524 return (found); 4525 4526 /* Count number of active inputs. */ 4527 if (depth > 0) { 4528 for (j = 0; j < w->nconns; j++) { 4529 if (!w->connsenable[j]) 4530 continue; 4531 conns++; 4532 } 4533 } 4534 4535 /* If this is not a first step - use input mixer. 4536 Pins have common input ctl so care must be taken. */ 4537 if (depth > 0 && ctlable && (conns == 1 || 4538 w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX)) { 4539 ctl = hdaa_audio_ctl_amp_get(devinfo, w->nid, HDAA_CTL_IN, 4540 index, 1); 4541 if (ctl) { 4542 ctl->ossmask |= (1 << ossdev); 4543 found++; 4544 if (*minamp == *maxamp) { 4545 *minamp += MINQDB(ctl); 4546 *maxamp += MAXQDB(ctl); 4547 } 4548 } 4549 } 4550 4551 /* If widget has own ossdev - not traverse it. 4552 It will be traversed on its own. */ 4553 if (w->ossdev >= 0 && depth > 0) 4554 return (found); 4555 4556 /* We must not traverse pin */ 4557 if ((w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT || 4558 w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) && 4559 depth > 0) 4560 return (found); 4561 4562 /* record that this widget exports such signal, */ 4563 w->ossmask |= (1 << ossdev); 4564 4565 /* 4566 * If signals mixed, we can't assign controls farther. 4567 * Ignore this on depth zero. Caller must knows why. 4568 */ 4569 if (conns > 1 && 4570 w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER) 4571 ctlable = 0; 4572 4573 if (ctlable) { 4574 ctl = hdaa_audio_ctl_amp_get(devinfo, w->nid, HDAA_CTL_OUT, -1, 1); 4575 if (ctl) { 4576 ctl->ossmask |= (1 << ossdev); 4577 found++; 4578 if (*minamp == *maxamp) { 4579 *minamp += MINQDB(ctl); 4580 *maxamp += MAXQDB(ctl); 4581 } 4582 } 4583 } 4584 4585 cminamp = cmaxamp = 0; 4586 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 4587 wc = hdaa_widget_get(devinfo, i); 4588 if (wc == NULL || wc->enable == 0) 4589 continue; 4590 for (j = 0; j < wc->nconns; j++) { 4591 if (wc->connsenable[j] && wc->conns[j] == nid) { 4592 tminamp = tmaxamp = 0; 4593 found += hdaa_audio_ctl_source_amp(devinfo, 4594 wc->nid, j, ossdev, ctlable, depth + 1, 4595 &tminamp, &tmaxamp); 4596 if (cminamp == 0 && cmaxamp == 0) { 4597 cminamp = tminamp; 4598 cmaxamp = tmaxamp; 4599 } else if (tminamp != tmaxamp) { 4600 cminamp = imax(cminamp, tminamp); 4601 cmaxamp = imin(cmaxamp, tmaxamp); 4602 } 4603 } 4604 } 4605 } 4606 if (*minamp == *maxamp && cminamp < cmaxamp) { 4607 *minamp += cminamp; 4608 *maxamp += cmaxamp; 4609 } 4610 return (found); 4611 } 4612 4613 /* 4614 * Find controls to control amplification for destination and calculate 4615 * possible amplification range. 4616 */ 4617 static int 4618 hdaa_audio_ctl_dest_amp(struct hdaa_devinfo *devinfo, nid_t nid, int index, 4619 int ossdev, int depth, int *minamp, int *maxamp) 4620 { 4621 struct hdaa_audio_as *as = devinfo->as; 4622 struct hdaa_widget *w, *wc; 4623 struct hdaa_audio_ctl *ctl; 4624 int i, j, consumers, tminamp, tmaxamp, cminamp, cmaxamp, found = 0; 4625 4626 if (depth > HDA_PARSE_MAXDEPTH) 4627 return (found); 4628 4629 w = hdaa_widget_get(devinfo, nid); 4630 if (w == NULL || w->enable == 0) 4631 return (found); 4632 4633 if (depth > 0) { 4634 /* If this node produce output for several consumers, 4635 we can't touch it. */ 4636 consumers = 0; 4637 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 4638 wc = hdaa_widget_get(devinfo, i); 4639 if (wc == NULL || wc->enable == 0) 4640 continue; 4641 for (j = 0; j < wc->nconns; j++) { 4642 if (wc->connsenable[j] && wc->conns[j] == nid) 4643 consumers++; 4644 } 4645 } 4646 /* The only exception is if real HP redirection is configured 4647 and this is a duplication point. 4648 XXX: Actually exception is not completely correct. 4649 XXX: Duplication point check is not perfect. */ 4650 if ((consumers == 2 && (w->bindas < 0 || 4651 as[w->bindas].hpredir < 0 || as[w->bindas].fakeredir || 4652 (w->bindseqmask & (1 << 15)) == 0)) || 4653 consumers > 2) 4654 return (found); 4655 4656 /* Else use it's output mixer. */ 4657 ctl = hdaa_audio_ctl_amp_get(devinfo, w->nid, 4658 HDAA_CTL_OUT, -1, 1); 4659 if (ctl) { 4660 ctl->ossmask |= (1 << ossdev); 4661 found++; 4662 if (*minamp == *maxamp) { 4663 *minamp += MINQDB(ctl); 4664 *maxamp += MAXQDB(ctl); 4665 } 4666 } 4667 } 4668 4669 /* We must not traverse pin */ 4670 if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX && 4671 depth > 0) 4672 return (found); 4673 4674 cminamp = cmaxamp = 0; 4675 for (i = 0; i < w->nconns; i++) { 4676 if (w->connsenable[i] == 0) 4677 continue; 4678 if (index >= 0 && i != index) 4679 continue; 4680 tminamp = tmaxamp = 0; 4681 ctl = hdaa_audio_ctl_amp_get(devinfo, w->nid, 4682 HDAA_CTL_IN, i, 1); 4683 if (ctl) { 4684 ctl->ossmask |= (1 << ossdev); 4685 found++; 4686 if (*minamp == *maxamp) { 4687 tminamp += MINQDB(ctl); 4688 tmaxamp += MAXQDB(ctl); 4689 } 4690 } 4691 found += hdaa_audio_ctl_dest_amp(devinfo, w->conns[i], -1, ossdev, 4692 depth + 1, &tminamp, &tmaxamp); 4693 if (cminamp == 0 && cmaxamp == 0) { 4694 cminamp = tminamp; 4695 cmaxamp = tmaxamp; 4696 } else if (tminamp != tmaxamp) { 4697 cminamp = imax(cminamp, tminamp); 4698 cmaxamp = imin(cmaxamp, tmaxamp); 4699 } 4700 } 4701 if (*minamp == *maxamp && cminamp < cmaxamp) { 4702 *minamp += cminamp; 4703 *maxamp += cmaxamp; 4704 } 4705 return (found); 4706 } 4707 4708 /* 4709 * Assign OSS names to sound sources 4710 */ 4711 static void 4712 hdaa_audio_assign_names(struct hdaa_devinfo *devinfo) 4713 { 4714 struct hdaa_audio_as *as = devinfo->as; 4715 struct hdaa_widget *w; 4716 int i, j; 4717 int type = -1, use, used = 0; 4718 static const int types[7][13] = { 4719 { SOUND_MIXER_LINE, SOUND_MIXER_LINE1, SOUND_MIXER_LINE2, 4720 SOUND_MIXER_LINE3, -1 }, /* line */ 4721 { SOUND_MIXER_MONITOR, SOUND_MIXER_MIC, -1 }, /* int mic */ 4722 { SOUND_MIXER_MIC, SOUND_MIXER_MONITOR, -1 }, /* ext mic */ 4723 { SOUND_MIXER_CD, -1 }, /* cd */ 4724 { SOUND_MIXER_SPEAKER, -1 }, /* speaker */ 4725 { SOUND_MIXER_DIGITAL1, SOUND_MIXER_DIGITAL2, SOUND_MIXER_DIGITAL3, 4726 -1 }, /* digital */ 4727 { SOUND_MIXER_LINE, SOUND_MIXER_LINE1, SOUND_MIXER_LINE2, 4728 SOUND_MIXER_LINE3, SOUND_MIXER_PHONEIN, SOUND_MIXER_PHONEOUT, 4729 SOUND_MIXER_VIDEO, SOUND_MIXER_RADIO, SOUND_MIXER_DIGITAL1, 4730 SOUND_MIXER_DIGITAL2, SOUND_MIXER_DIGITAL3, SOUND_MIXER_MONITOR, 4731 -1 } /* others */ 4732 }; 4733 4734 /* Surely known names */ 4735 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 4736 w = hdaa_widget_get(devinfo, i); 4737 if (w == NULL || w->enable == 0) 4738 continue; 4739 if (w->bindas == -1) 4740 continue; 4741 use = -1; 4742 switch (w->type) { 4743 case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX: 4744 if (as[w->bindas].dir == HDAA_CTL_OUT) 4745 break; 4746 type = -1; 4747 switch (w->wclass.pin.config & HDA_CONFIG_DEFAULTCONF_DEVICE_MASK) { 4748 case HDA_CONFIG_DEFAULTCONF_DEVICE_LINE_IN: 4749 type = 0; 4750 break; 4751 case HDA_CONFIG_DEFAULTCONF_DEVICE_MIC_IN: 4752 if ((w->wclass.pin.config & HDA_CONFIG_DEFAULTCONF_CONNECTIVITY_MASK) 4753 == HDA_CONFIG_DEFAULTCONF_CONNECTIVITY_JACK) 4754 break; 4755 type = 1; 4756 break; 4757 case HDA_CONFIG_DEFAULTCONF_DEVICE_CD: 4758 type = 3; 4759 break; 4760 case HDA_CONFIG_DEFAULTCONF_DEVICE_SPEAKER: 4761 type = 4; 4762 break; 4763 case HDA_CONFIG_DEFAULTCONF_DEVICE_SPDIF_IN: 4764 case HDA_CONFIG_DEFAULTCONF_DEVICE_DIGITAL_OTHER_IN: 4765 type = 5; 4766 break; 4767 } 4768 if (type == -1) 4769 break; 4770 j = 0; 4771 while (types[type][j] >= 0 && 4772 (used & (1 << types[type][j])) != 0) { 4773 j++; 4774 } 4775 if (types[type][j] >= 0) 4776 use = types[type][j]; 4777 break; 4778 case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_OUTPUT: 4779 use = SOUND_MIXER_PCM; 4780 break; 4781 case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_BEEP_WIDGET: 4782 use = SOUND_MIXER_SPEAKER; 4783 break; 4784 default: 4785 break; 4786 } 4787 if (use >= 0) { 4788 w->ossdev = use; 4789 used |= (1 << use); 4790 } 4791 } 4792 /* Semi-known names */ 4793 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 4794 w = hdaa_widget_get(devinfo, i); 4795 if (w == NULL || w->enable == 0) 4796 continue; 4797 if (w->ossdev >= 0) 4798 continue; 4799 if (w->bindas == -1) 4800 continue; 4801 if (w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) 4802 continue; 4803 if (as[w->bindas].dir == HDAA_CTL_OUT) 4804 continue; 4805 type = -1; 4806 switch (w->wclass.pin.config & HDA_CONFIG_DEFAULTCONF_DEVICE_MASK) { 4807 case HDA_CONFIG_DEFAULTCONF_DEVICE_LINE_OUT: 4808 case HDA_CONFIG_DEFAULTCONF_DEVICE_SPEAKER: 4809 case HDA_CONFIG_DEFAULTCONF_DEVICE_HP_OUT: 4810 case HDA_CONFIG_DEFAULTCONF_DEVICE_AUX: 4811 type = 0; 4812 break; 4813 case HDA_CONFIG_DEFAULTCONF_DEVICE_MIC_IN: 4814 type = 2; 4815 break; 4816 case HDA_CONFIG_DEFAULTCONF_DEVICE_SPDIF_OUT: 4817 case HDA_CONFIG_DEFAULTCONF_DEVICE_DIGITAL_OTHER_OUT: 4818 type = 5; 4819 break; 4820 } 4821 if (type == -1) 4822 break; 4823 j = 0; 4824 while (types[type][j] >= 0 && 4825 (used & (1 << types[type][j])) != 0) { 4826 j++; 4827 } 4828 if (types[type][j] >= 0) { 4829 w->ossdev = types[type][j]; 4830 used |= (1 << types[type][j]); 4831 } 4832 } 4833 /* Others */ 4834 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 4835 w = hdaa_widget_get(devinfo, i); 4836 if (w == NULL || w->enable == 0) 4837 continue; 4838 if (w->ossdev >= 0) 4839 continue; 4840 if (w->bindas == -1) 4841 continue; 4842 if (w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) 4843 continue; 4844 if (as[w->bindas].dir == HDAA_CTL_OUT) 4845 continue; 4846 j = 0; 4847 while (types[6][j] >= 0 && 4848 (used & (1 << types[6][j])) != 0) { 4849 j++; 4850 } 4851 if (types[6][j] >= 0) { 4852 w->ossdev = types[6][j]; 4853 used |= (1 << types[6][j]); 4854 } 4855 } 4856 } 4857 4858 static void 4859 hdaa_audio_build_tree(struct hdaa_devinfo *devinfo) 4860 { 4861 struct hdaa_audio_as *as = devinfo->as; 4862 int j, res; 4863 4864 /* Trace all associations in order of their numbers. */ 4865 for (j = 0; j < devinfo->ascnt; j++) { 4866 if (as[j].enable == 0) 4867 continue; 4868 HDA_BOOTVERBOSE( 4869 device_printf(devinfo->dev, 4870 "Tracing association %d (%d)\n", j, as[j].index); 4871 ); 4872 if (as[j].dir == HDAA_CTL_OUT) { 4873 retry: 4874 res = hdaa_audio_trace_as_out(devinfo, j, 0); 4875 if (res == 0 && as[j].hpredir >= 0 && 4876 as[j].fakeredir == 0) { 4877 /* If CODEC can't do analog HP redirection 4878 try to make it using one more DAC. */ 4879 as[j].fakeredir = 1; 4880 goto retry; 4881 } 4882 } else if (as[j].mixed) 4883 res = hdaa_audio_trace_as_in(devinfo, j); 4884 else 4885 res = hdaa_audio_trace_as_in_mch(devinfo, j, 0); 4886 if (res) { 4887 HDA_BOOTVERBOSE( 4888 device_printf(devinfo->dev, 4889 "Association %d (%d) trace succeeded\n", 4890 j, as[j].index); 4891 ); 4892 } else { 4893 HDA_BOOTVERBOSE( 4894 device_printf(devinfo->dev, 4895 "Association %d (%d) trace failed\n", 4896 j, as[j].index); 4897 ); 4898 as[j].enable = 0; 4899 } 4900 } 4901 4902 /* Look for additional DACs/ADCs. */ 4903 for (j = 0; j < devinfo->ascnt; j++) { 4904 if (as[j].enable == 0) 4905 continue; 4906 hdaa_audio_adddac(devinfo, j); 4907 } 4908 4909 /* Trace mixer and beeper pseudo associations. */ 4910 hdaa_audio_trace_as_extra(devinfo); 4911 } 4912 4913 /* 4914 * Store in pdevinfo new data about whether and how we can control signal 4915 * for OSS device to/from specified widget. 4916 */ 4917 static void 4918 hdaa_adjust_amp(struct hdaa_widget *w, int ossdev, 4919 int found, int minamp, int maxamp) 4920 { 4921 struct hdaa_devinfo *devinfo = w->devinfo; 4922 struct hdaa_pcm_devinfo *pdevinfo; 4923 4924 if (w->bindas >= 0) 4925 pdevinfo = devinfo->as[w->bindas].pdevinfo; 4926 else 4927 pdevinfo = &devinfo->devs[0]; 4928 if (found) 4929 pdevinfo->ossmask |= (1 << ossdev); 4930 if (minamp == 0 && maxamp == 0) 4931 return; 4932 if (pdevinfo->minamp[ossdev] == 0 && pdevinfo->maxamp[ossdev] == 0) { 4933 pdevinfo->minamp[ossdev] = minamp; 4934 pdevinfo->maxamp[ossdev] = maxamp; 4935 } else { 4936 pdevinfo->minamp[ossdev] = imax(pdevinfo->minamp[ossdev], minamp); 4937 pdevinfo->maxamp[ossdev] = imin(pdevinfo->maxamp[ossdev], maxamp); 4938 } 4939 } 4940 4941 /* 4942 * Trace signals from/to all possible sources/destionstions to find possible 4943 * recording sources, OSS device control ranges and to assign controls. 4944 */ 4945 static void 4946 hdaa_audio_assign_mixers(struct hdaa_devinfo *devinfo) 4947 { 4948 struct hdaa_audio_as *as = devinfo->as; 4949 struct hdaa_widget *w, *cw; 4950 int i, j, minamp, maxamp, found; 4951 4952 /* Assign mixers to the tree. */ 4953 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 4954 w = hdaa_widget_get(devinfo, i); 4955 if (w == NULL || w->enable == 0) 4956 continue; 4957 minamp = maxamp = 0; 4958 if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_OUTPUT || 4959 w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_BEEP_WIDGET || 4960 (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX && 4961 as[w->bindas].dir == HDAA_CTL_IN)) { 4962 if (w->ossdev < 0) 4963 continue; 4964 found = hdaa_audio_ctl_source_amp(devinfo, w->nid, -1, 4965 w->ossdev, 1, 0, &minamp, &maxamp); 4966 hdaa_adjust_amp(w, w->ossdev, found, minamp, maxamp); 4967 } else if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT) { 4968 found = hdaa_audio_ctl_dest_amp(devinfo, w->nid, -1, 4969 SOUND_MIXER_RECLEV, 0, &minamp, &maxamp); 4970 hdaa_adjust_amp(w, SOUND_MIXER_RECLEV, found, minamp, maxamp); 4971 } else if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX && 4972 as[w->bindas].dir == HDAA_CTL_OUT) { 4973 found = hdaa_audio_ctl_dest_amp(devinfo, w->nid, -1, 4974 SOUND_MIXER_VOLUME, 0, &minamp, &maxamp); 4975 hdaa_adjust_amp(w, SOUND_MIXER_VOLUME, found, minamp, maxamp); 4976 } 4977 if (w->ossdev == SOUND_MIXER_IMIX) { 4978 minamp = maxamp = 0; 4979 found = hdaa_audio_ctl_source_amp(devinfo, w->nid, -1, 4980 w->ossdev, 1, 0, &minamp, &maxamp); 4981 if (minamp == maxamp) { 4982 /* If we are unable to control input monitor 4983 as source - try to control it as destination. */ 4984 found += hdaa_audio_ctl_dest_amp(devinfo, w->nid, -1, 4985 w->ossdev, 0, &minamp, &maxamp); 4986 w->pflags |= HDAA_IMIX_AS_DST; 4987 } 4988 hdaa_adjust_amp(w, w->ossdev, found, minamp, maxamp); 4989 } 4990 if (w->pflags & HDAA_ADC_MONITOR) { 4991 for (j = 0; j < w->nconns; j++) { 4992 if (!w->connsenable[j]) 4993 continue; 4994 cw = hdaa_widget_get(devinfo, w->conns[j]); 4995 if (cw == NULL || cw->enable == 0) 4996 continue; 4997 if (cw->bindas == -1) 4998 continue; 4999 if (cw->bindas >= 0 && 5000 as[cw->bindas].dir != HDAA_CTL_IN) 5001 continue; 5002 minamp = maxamp = 0; 5003 found = hdaa_audio_ctl_dest_amp(devinfo, 5004 w->nid, j, SOUND_MIXER_IGAIN, 0, 5005 &minamp, &maxamp); 5006 hdaa_adjust_amp(w, SOUND_MIXER_IGAIN, 5007 found, minamp, maxamp); 5008 } 5009 } 5010 } 5011 } 5012 5013 static void 5014 hdaa_audio_prepare_pin_ctrl(struct hdaa_devinfo *devinfo) 5015 { 5016 struct hdaa_audio_as *as = devinfo->as; 5017 struct hdaa_widget *w; 5018 uint32_t pincap; 5019 int i; 5020 5021 for (i = 0; i < devinfo->nodecnt; i++) { 5022 w = &devinfo->widget[i]; 5023 if (w == NULL) 5024 continue; 5025 if (w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX && 5026 w->waspin == 0) 5027 continue; 5028 5029 pincap = w->wclass.pin.cap; 5030 5031 /* Disable everything. */ 5032 if (devinfo->init_clear) { 5033 w->wclass.pin.ctrl &= ~( 5034 HDA_CMD_SET_PIN_WIDGET_CTRL_HPHN_ENABLE | 5035 HDA_CMD_SET_PIN_WIDGET_CTRL_OUT_ENABLE | 5036 HDA_CMD_SET_PIN_WIDGET_CTRL_IN_ENABLE | 5037 HDA_CMD_SET_PIN_WIDGET_CTRL_VREF_ENABLE_MASK); 5038 } 5039 5040 if (w->enable == 0) { 5041 /* Pin is unused so left it disabled. */ 5042 continue; 5043 } else if (w->waspin) { 5044 /* Enable input for beeper input. */ 5045 w->wclass.pin.ctrl |= 5046 HDA_CMD_SET_PIN_WIDGET_CTRL_IN_ENABLE; 5047 } else if (w->bindas < 0 || as[w->bindas].enable == 0) { 5048 /* Pin is unused so left it disabled. */ 5049 continue; 5050 } else if (as[w->bindas].dir == HDAA_CTL_IN) { 5051 /* Input pin, configure for input. */ 5052 if (HDA_PARAM_PIN_CAP_INPUT_CAP(pincap)) 5053 w->wclass.pin.ctrl |= 5054 HDA_CMD_SET_PIN_WIDGET_CTRL_IN_ENABLE; 5055 5056 if ((devinfo->quirks & HDAA_QUIRK_IVREF100) && 5057 HDA_PARAM_PIN_CAP_VREF_CTRL_100(pincap)) 5058 w->wclass.pin.ctrl |= 5059 HDA_CMD_SET_PIN_WIDGET_CTRL_VREF_ENABLE( 5060 HDA_CMD_PIN_WIDGET_CTRL_VREF_ENABLE_100); 5061 else if ((devinfo->quirks & HDAA_QUIRK_IVREF80) && 5062 HDA_PARAM_PIN_CAP_VREF_CTRL_80(pincap)) 5063 w->wclass.pin.ctrl |= 5064 HDA_CMD_SET_PIN_WIDGET_CTRL_VREF_ENABLE( 5065 HDA_CMD_PIN_WIDGET_CTRL_VREF_ENABLE_80); 5066 else if ((devinfo->quirks & HDAA_QUIRK_IVREF50) && 5067 HDA_PARAM_PIN_CAP_VREF_CTRL_50(pincap)) 5068 w->wclass.pin.ctrl |= 5069 HDA_CMD_SET_PIN_WIDGET_CTRL_VREF_ENABLE( 5070 HDA_CMD_PIN_WIDGET_CTRL_VREF_ENABLE_50); 5071 } else { 5072 /* Output pin, configure for output. */ 5073 if (HDA_PARAM_PIN_CAP_OUTPUT_CAP(pincap)) 5074 w->wclass.pin.ctrl |= 5075 HDA_CMD_SET_PIN_WIDGET_CTRL_OUT_ENABLE; 5076 5077 if (HDA_PARAM_PIN_CAP_HEADPHONE_CAP(pincap) && 5078 (w->wclass.pin.config & 5079 HDA_CONFIG_DEFAULTCONF_DEVICE_MASK) == 5080 HDA_CONFIG_DEFAULTCONF_DEVICE_HP_OUT) 5081 w->wclass.pin.ctrl |= 5082 HDA_CMD_SET_PIN_WIDGET_CTRL_HPHN_ENABLE; 5083 5084 if ((devinfo->quirks & HDAA_QUIRK_OVREF100) && 5085 HDA_PARAM_PIN_CAP_VREF_CTRL_100(pincap)) 5086 w->wclass.pin.ctrl |= 5087 HDA_CMD_SET_PIN_WIDGET_CTRL_VREF_ENABLE( 5088 HDA_CMD_PIN_WIDGET_CTRL_VREF_ENABLE_100); 5089 else if ((devinfo->quirks & HDAA_QUIRK_OVREF80) && 5090 HDA_PARAM_PIN_CAP_VREF_CTRL_80(pincap)) 5091 w->wclass.pin.ctrl |= 5092 HDA_CMD_SET_PIN_WIDGET_CTRL_VREF_ENABLE( 5093 HDA_CMD_PIN_WIDGET_CTRL_VREF_ENABLE_80); 5094 else if ((devinfo->quirks & HDAA_QUIRK_OVREF50) && 5095 HDA_PARAM_PIN_CAP_VREF_CTRL_50(pincap)) 5096 w->wclass.pin.ctrl |= 5097 HDA_CMD_SET_PIN_WIDGET_CTRL_VREF_ENABLE( 5098 HDA_CMD_PIN_WIDGET_CTRL_VREF_ENABLE_50); 5099 } 5100 } 5101 } 5102 5103 static void 5104 hdaa_audio_ctl_commit(struct hdaa_devinfo *devinfo) 5105 { 5106 struct hdaa_audio_ctl *ctl; 5107 int i, z; 5108 5109 i = 0; 5110 while ((ctl = hdaa_audio_ctl_each(devinfo, &i)) != NULL) { 5111 if (ctl->enable == 0 || ctl->ossmask != 0) { 5112 /* Mute disabled and mixer controllable controls. 5113 * Last will be initialized by mixer_init(). 5114 * This expected to reduce click on startup. */ 5115 hdaa_audio_ctl_amp_set(ctl, HDAA_AMP_MUTE_ALL, 0, 0); 5116 continue; 5117 } 5118 /* Init fixed controls to 0dB amplification. */ 5119 z = ctl->offset; 5120 if (z > ctl->step) 5121 z = ctl->step; 5122 hdaa_audio_ctl_amp_set(ctl, HDAA_AMP_MUTE_NONE, z, z); 5123 } 5124 } 5125 5126 static void 5127 hdaa_gpio_commit(struct hdaa_devinfo *devinfo) 5128 { 5129 uint32_t gdata, gmask, gdir; 5130 int i, numgpio; 5131 5132 numgpio = HDA_PARAM_GPIO_COUNT_NUM_GPIO(devinfo->gpio_cap); 5133 if (devinfo->gpio != 0 && numgpio != 0) { 5134 gdata = hda_command(devinfo->dev, 5135 HDA_CMD_GET_GPIO_DATA(0, devinfo->nid)); 5136 gmask = hda_command(devinfo->dev, 5137 HDA_CMD_GET_GPIO_ENABLE_MASK(0, devinfo->nid)); 5138 gdir = hda_command(devinfo->dev, 5139 HDA_CMD_GET_GPIO_DIRECTION(0, devinfo->nid)); 5140 for (i = 0; i < numgpio; i++) { 5141 if ((devinfo->gpio & HDAA_GPIO_MASK(i)) == 5142 HDAA_GPIO_SET(i)) { 5143 gdata |= (1 << i); 5144 gmask |= (1 << i); 5145 gdir |= (1 << i); 5146 } else if ((devinfo->gpio & HDAA_GPIO_MASK(i)) == 5147 HDAA_GPIO_CLEAR(i)) { 5148 gdata &= ~(1 << i); 5149 gmask |= (1 << i); 5150 gdir |= (1 << i); 5151 } else if ((devinfo->gpio & HDAA_GPIO_MASK(i)) == 5152 HDAA_GPIO_DISABLE(i)) { 5153 gmask &= ~(1 << i); 5154 } else if ((devinfo->gpio & HDAA_GPIO_MASK(i)) == 5155 HDAA_GPIO_INPUT(i)) { 5156 gmask |= (1 << i); 5157 gdir &= ~(1 << i); 5158 } 5159 } 5160 HDA_BOOTVERBOSE( 5161 device_printf(devinfo->dev, "GPIO commit\n"); 5162 ); 5163 hda_command(devinfo->dev, 5164 HDA_CMD_SET_GPIO_ENABLE_MASK(0, devinfo->nid, gmask)); 5165 hda_command(devinfo->dev, 5166 HDA_CMD_SET_GPIO_DIRECTION(0, devinfo->nid, gdir)); 5167 hda_command(devinfo->dev, 5168 HDA_CMD_SET_GPIO_DATA(0, devinfo->nid, gdata)); 5169 HDA_BOOTVERBOSE( 5170 hdaa_dump_gpio(devinfo); 5171 ); 5172 } 5173 } 5174 5175 static void 5176 hdaa_gpo_commit(struct hdaa_devinfo *devinfo) 5177 { 5178 uint32_t gdata; 5179 int i, numgpo; 5180 5181 numgpo = HDA_PARAM_GPIO_COUNT_NUM_GPO(devinfo->gpio_cap); 5182 if (devinfo->gpo != 0 && numgpo != 0) { 5183 gdata = hda_command(devinfo->dev, 5184 HDA_CMD_GET_GPO_DATA(0, devinfo->nid)); 5185 for (i = 0; i < numgpo; i++) { 5186 if ((devinfo->gpio & HDAA_GPIO_MASK(i)) == 5187 HDAA_GPIO_SET(i)) { 5188 gdata |= (1 << i); 5189 } else if ((devinfo->gpio & HDAA_GPIO_MASK(i)) == 5190 HDAA_GPIO_CLEAR(i)) { 5191 gdata &= ~(1 << i); 5192 } 5193 } 5194 HDA_BOOTVERBOSE( 5195 device_printf(devinfo->dev, "GPO commit\n"); 5196 ); 5197 hda_command(devinfo->dev, 5198 HDA_CMD_SET_GPO_DATA(0, devinfo->nid, gdata)); 5199 HDA_BOOTVERBOSE( 5200 hdaa_dump_gpo(devinfo); 5201 ); 5202 } 5203 } 5204 5205 static void 5206 hdaa_audio_commit(struct hdaa_devinfo *devinfo) 5207 { 5208 struct hdaa_widget *w; 5209 int i; 5210 5211 /* Commit controls. */ 5212 hdaa_audio_ctl_commit(devinfo); 5213 5214 /* Commit selectors, pins and EAPD. */ 5215 for (i = 0; i < devinfo->nodecnt; i++) { 5216 w = &devinfo->widget[i]; 5217 if (w == NULL) 5218 continue; 5219 if (w->selconn == -1) 5220 w->selconn = 0; 5221 if (w->nconns > 0) 5222 hdaa_widget_connection_select(w, w->selconn); 5223 if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX || 5224 w->waspin) { 5225 hda_command(devinfo->dev, 5226 HDA_CMD_SET_PIN_WIDGET_CTRL(0, w->nid, 5227 w->wclass.pin.ctrl)); 5228 } 5229 if (w->param.eapdbtl != HDA_INVALID) { 5230 uint32_t val; 5231 5232 val = w->param.eapdbtl; 5233 if (devinfo->quirks & 5234 HDAA_QUIRK_EAPDINV) 5235 val ^= HDA_CMD_SET_EAPD_BTL_ENABLE_EAPD; 5236 hda_command(devinfo->dev, 5237 HDA_CMD_SET_EAPD_BTL_ENABLE(0, w->nid, 5238 val)); 5239 } 5240 } 5241 5242 hdaa_gpio_commit(devinfo); 5243 hdaa_gpo_commit(devinfo); 5244 } 5245 5246 static void 5247 hdaa_powerup(struct hdaa_devinfo *devinfo) 5248 { 5249 int i; 5250 5251 hda_command(devinfo->dev, 5252 HDA_CMD_SET_POWER_STATE(0, 5253 devinfo->nid, HDA_CMD_POWER_STATE_D0)); 5254 DELAY(100); 5255 5256 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 5257 hda_command(devinfo->dev, 5258 HDA_CMD_SET_POWER_STATE(0, 5259 i, HDA_CMD_POWER_STATE_D0)); 5260 } 5261 DELAY(1000); 5262 } 5263 5264 static int 5265 hdaa_pcmchannel_setup(struct hdaa_chan *ch) 5266 { 5267 struct hdaa_devinfo *devinfo = ch->devinfo; 5268 struct hdaa_audio_as *as = devinfo->as; 5269 struct hdaa_widget *w; 5270 uint32_t cap, fmtcap, pcmcap; 5271 int i, j, ret, channels, onlystereo; 5272 uint16_t pinset; 5273 5274 ch->caps = hdaa_caps; 5275 ch->caps.fmtlist = ch->fmtlist; 5276 ch->bit16 = 1; 5277 ch->bit32 = 0; 5278 ch->pcmrates[0] = 48000; 5279 ch->pcmrates[1] = 0; 5280 ch->stripecap = 0xff; 5281 5282 ret = 0; 5283 channels = 0; 5284 onlystereo = 1; 5285 pinset = 0; 5286 fmtcap = devinfo->supp_stream_formats; 5287 pcmcap = devinfo->supp_pcm_size_rate; 5288 5289 for (i = 0; i < 16; i++) { 5290 /* Check as is correct */ 5291 if (ch->as < 0) 5292 break; 5293 /* Cound only present DACs */ 5294 if (as[ch->as].dacs[ch->asindex][i] <= 0) 5295 continue; 5296 /* Ignore duplicates */ 5297 for (j = 0; j < ret; j++) { 5298 if (ch->io[j] == as[ch->as].dacs[ch->asindex][i]) 5299 break; 5300 } 5301 if (j < ret) 5302 continue; 5303 5304 w = hdaa_widget_get(devinfo, as[ch->as].dacs[ch->asindex][i]); 5305 if (w == NULL || w->enable == 0) 5306 continue; 5307 cap = w->param.supp_stream_formats; 5308 if (!HDA_PARAM_SUPP_STREAM_FORMATS_PCM(cap) && 5309 !HDA_PARAM_SUPP_STREAM_FORMATS_AC3(cap)) 5310 continue; 5311 /* Many CODECs does not declare AC3 support on SPDIF. 5312 I don't beleave that they doesn't support it! */ 5313 if (HDA_PARAM_AUDIO_WIDGET_CAP_DIGITAL(w->param.widget_cap)) 5314 cap |= HDA_PARAM_SUPP_STREAM_FORMATS_AC3_MASK; 5315 if (ret == 0) { 5316 fmtcap = cap; 5317 pcmcap = w->param.supp_pcm_size_rate; 5318 } else { 5319 fmtcap &= cap; 5320 pcmcap &= w->param.supp_pcm_size_rate; 5321 } 5322 ch->io[ret++] = as[ch->as].dacs[ch->asindex][i]; 5323 ch->stripecap &= w->wclass.conv.stripecap; 5324 /* Do not count redirection pin/dac channels. */ 5325 if (i == 15 && as[ch->as].hpredir >= 0) 5326 continue; 5327 channels += HDA_PARAM_AUDIO_WIDGET_CAP_CC(w->param.widget_cap) + 1; 5328 if (HDA_PARAM_AUDIO_WIDGET_CAP_CC(w->param.widget_cap) != 1) 5329 onlystereo = 0; 5330 pinset |= (1 << i); 5331 } 5332 ch->io[ret] = -1; 5333 ch->channels = channels; 5334 5335 if (as[ch->as].fakeredir) 5336 ret--; 5337 /* Standard speaks only about stereo pins and playback, ... */ 5338 if ((!onlystereo) || as[ch->as].mixed) 5339 pinset = 0; 5340 /* ..., but there it gives us info about speakers layout. */ 5341 as[ch->as].pinset = pinset; 5342 5343 ch->supp_stream_formats = fmtcap; 5344 ch->supp_pcm_size_rate = pcmcap; 5345 5346 /* 5347 * 8bit = 0 5348 * 16bit = 1 5349 * 20bit = 2 5350 * 24bit = 3 5351 * 32bit = 4 5352 */ 5353 if (ret > 0) { 5354 i = 0; 5355 if (HDA_PARAM_SUPP_STREAM_FORMATS_PCM(fmtcap)) { 5356 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_16BIT(pcmcap)) 5357 ch->bit16 = 1; 5358 else if (HDA_PARAM_SUPP_PCM_SIZE_RATE_8BIT(pcmcap)) 5359 ch->bit16 = 0; 5360 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_24BIT(pcmcap)) 5361 ch->bit32 = 3; 5362 else if (HDA_PARAM_SUPP_PCM_SIZE_RATE_20BIT(pcmcap)) 5363 ch->bit32 = 2; 5364 else if (HDA_PARAM_SUPP_PCM_SIZE_RATE_32BIT(pcmcap)) 5365 ch->bit32 = 4; 5366 if (!(devinfo->quirks & HDAA_QUIRK_FORCESTEREO)) { 5367 ch->fmtlist[i++] = SND_FORMAT(AFMT_S16_LE, 1, 0); 5368 if (ch->bit32) 5369 ch->fmtlist[i++] = SND_FORMAT(AFMT_S32_LE, 1, 0); 5370 } 5371 if (channels >= 2) { 5372 ch->fmtlist[i++] = SND_FORMAT(AFMT_S16_LE, 2, 0); 5373 if (ch->bit32) 5374 ch->fmtlist[i++] = SND_FORMAT(AFMT_S32_LE, 2, 0); 5375 } 5376 if (channels >= 3 && !onlystereo) { 5377 ch->fmtlist[i++] = SND_FORMAT(AFMT_S16_LE, 3, 0); 5378 if (ch->bit32) 5379 ch->fmtlist[i++] = SND_FORMAT(AFMT_S32_LE, 3, 0); 5380 ch->fmtlist[i++] = SND_FORMAT(AFMT_S16_LE, 3, 1); 5381 if (ch->bit32) 5382 ch->fmtlist[i++] = SND_FORMAT(AFMT_S32_LE, 3, 1); 5383 } 5384 if (channels >= 4) { 5385 ch->fmtlist[i++] = SND_FORMAT(AFMT_S16_LE, 4, 0); 5386 if (ch->bit32) 5387 ch->fmtlist[i++] = SND_FORMAT(AFMT_S32_LE, 4, 0); 5388 if (!onlystereo) { 5389 ch->fmtlist[i++] = SND_FORMAT(AFMT_S16_LE, 4, 1); 5390 if (ch->bit32) 5391 ch->fmtlist[i++] = SND_FORMAT(AFMT_S32_LE, 4, 1); 5392 } 5393 } 5394 if (channels >= 5 && !onlystereo) { 5395 ch->fmtlist[i++] = SND_FORMAT(AFMT_S16_LE, 5, 0); 5396 if (ch->bit32) 5397 ch->fmtlist[i++] = SND_FORMAT(AFMT_S32_LE, 5, 0); 5398 ch->fmtlist[i++] = SND_FORMAT(AFMT_S16_LE, 5, 1); 5399 if (ch->bit32) 5400 ch->fmtlist[i++] = SND_FORMAT(AFMT_S32_LE, 5, 1); 5401 } 5402 if (channels >= 6) { 5403 ch->fmtlist[i++] = SND_FORMAT(AFMT_S16_LE, 6, 1); 5404 if (ch->bit32) 5405 ch->fmtlist[i++] = SND_FORMAT(AFMT_S32_LE, 6, 1); 5406 if (!onlystereo) { 5407 ch->fmtlist[i++] = SND_FORMAT(AFMT_S16_LE, 6, 0); 5408 if (ch->bit32) 5409 ch->fmtlist[i++] = SND_FORMAT(AFMT_S32_LE, 6, 0); 5410 } 5411 } 5412 if (channels >= 7 && !onlystereo) { 5413 ch->fmtlist[i++] = SND_FORMAT(AFMT_S16_LE, 7, 0); 5414 if (ch->bit32) 5415 ch->fmtlist[i++] = SND_FORMAT(AFMT_S32_LE, 7, 0); 5416 ch->fmtlist[i++] = SND_FORMAT(AFMT_S16_LE, 7, 1); 5417 if (ch->bit32) 5418 ch->fmtlist[i++] = SND_FORMAT(AFMT_S32_LE, 7, 1); 5419 } 5420 if (channels >= 8) { 5421 ch->fmtlist[i++] = SND_FORMAT(AFMT_S16_LE, 8, 1); 5422 if (ch->bit32) 5423 ch->fmtlist[i++] = SND_FORMAT(AFMT_S32_LE, 8, 1); 5424 } 5425 } 5426 if (HDA_PARAM_SUPP_STREAM_FORMATS_AC3(fmtcap)) { 5427 ch->fmtlist[i++] = SND_FORMAT(AFMT_AC3, 2, 0); 5428 if (channels >= 8) { 5429 ch->fmtlist[i++] = SND_FORMAT(AFMT_AC3, 8, 0); 5430 ch->fmtlist[i++] = SND_FORMAT(AFMT_AC3, 8, 1); 5431 } 5432 } 5433 ch->fmtlist[i] = 0; 5434 i = 0; 5435 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_8KHZ(pcmcap)) 5436 ch->pcmrates[i++] = 8000; 5437 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_11KHZ(pcmcap)) 5438 ch->pcmrates[i++] = 11025; 5439 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_16KHZ(pcmcap)) 5440 ch->pcmrates[i++] = 16000; 5441 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_22KHZ(pcmcap)) 5442 ch->pcmrates[i++] = 22050; 5443 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_32KHZ(pcmcap)) 5444 ch->pcmrates[i++] = 32000; 5445 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_44KHZ(pcmcap)) 5446 ch->pcmrates[i++] = 44100; 5447 /* if (HDA_PARAM_SUPP_PCM_SIZE_RATE_48KHZ(pcmcap)) */ 5448 ch->pcmrates[i++] = 48000; 5449 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_88KHZ(pcmcap)) 5450 ch->pcmrates[i++] = 88200; 5451 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_96KHZ(pcmcap)) 5452 ch->pcmrates[i++] = 96000; 5453 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_176KHZ(pcmcap)) 5454 ch->pcmrates[i++] = 176400; 5455 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_192KHZ(pcmcap)) 5456 ch->pcmrates[i++] = 192000; 5457 /* if (HDA_PARAM_SUPP_PCM_SIZE_RATE_384KHZ(pcmcap)) */ 5458 ch->pcmrates[i] = 0; 5459 if (i > 0) { 5460 ch->caps.minspeed = ch->pcmrates[0]; 5461 ch->caps.maxspeed = ch->pcmrates[i - 1]; 5462 } 5463 } 5464 5465 return (ret); 5466 } 5467 5468 static void 5469 hdaa_prepare_pcms(struct hdaa_devinfo *devinfo) 5470 { 5471 struct hdaa_audio_as *as = devinfo->as; 5472 int i, j, k, apdev = 0, ardev = 0, dpdev = 0, drdev = 0; 5473 5474 for (i = 0; i < devinfo->ascnt; i++) { 5475 if (as[i].enable == 0) 5476 continue; 5477 if (as[i].dir == HDAA_CTL_IN) { 5478 if (as[i].digital) 5479 drdev++; 5480 else 5481 ardev++; 5482 } else { 5483 if (as[i].digital) 5484 dpdev++; 5485 else 5486 apdev++; 5487 } 5488 } 5489 devinfo->num_devs = 5490 max(ardev, apdev) + max(drdev, dpdev); 5491 devinfo->devs = 5492 (struct hdaa_pcm_devinfo *)malloc( 5493 devinfo->num_devs * sizeof(struct hdaa_pcm_devinfo), 5494 M_HDAA, M_ZERO | M_NOWAIT); 5495 if (devinfo->devs == NULL) { 5496 device_printf(devinfo->dev, 5497 "Unable to allocate memory for devices\n"); 5498 return; 5499 } 5500 for (i = 0; i < devinfo->num_devs; i++) { 5501 devinfo->devs[i].index = i; 5502 devinfo->devs[i].devinfo = devinfo; 5503 devinfo->devs[i].playas = -1; 5504 devinfo->devs[i].recas = -1; 5505 devinfo->devs[i].digital = 255; 5506 } 5507 for (i = 0; i < devinfo->ascnt; i++) { 5508 if (as[i].enable == 0) 5509 continue; 5510 for (j = 0; j < devinfo->num_devs; j++) { 5511 if (devinfo->devs[j].digital != 255 && 5512 (!devinfo->devs[j].digital) != 5513 (!as[i].digital)) 5514 continue; 5515 if (as[i].dir == HDAA_CTL_IN) { 5516 if (devinfo->devs[j].recas >= 0) 5517 continue; 5518 devinfo->devs[j].recas = i; 5519 } else { 5520 if (devinfo->devs[j].playas >= 0) 5521 continue; 5522 devinfo->devs[j].playas = i; 5523 } 5524 as[i].pdevinfo = &devinfo->devs[j]; 5525 for (k = 0; k < as[i].num_chans; k++) { 5526 devinfo->chans[as[i].chans[k]].pdevinfo = 5527 &devinfo->devs[j]; 5528 } 5529 devinfo->devs[j].digital = as[i].digital; 5530 break; 5531 } 5532 } 5533 } 5534 5535 static void 5536 hdaa_create_pcms(struct hdaa_devinfo *devinfo) 5537 { 5538 int i; 5539 5540 for (i = 0; i < devinfo->num_devs; i++) { 5541 struct hdaa_pcm_devinfo *pdevinfo = &devinfo->devs[i]; 5542 5543 pdevinfo->dev = device_add_child(devinfo->dev, "pcm", -1); 5544 device_set_ivars(pdevinfo->dev, (void *)pdevinfo); 5545 } 5546 } 5547 5548 static void 5549 hdaa_dump_ctls(struct hdaa_pcm_devinfo *pdevinfo, const char *banner, uint32_t flag) 5550 { 5551 struct hdaa_devinfo *devinfo = pdevinfo->devinfo; 5552 struct hdaa_audio_ctl *ctl; 5553 char buf[64]; 5554 int i, j, printed = 0; 5555 5556 if (flag == 0) { 5557 flag = ~(SOUND_MASK_VOLUME | SOUND_MASK_PCM | 5558 SOUND_MASK_CD | SOUND_MASK_LINE | SOUND_MASK_RECLEV | 5559 SOUND_MASK_MIC | SOUND_MASK_SPEAKER | SOUND_MASK_IGAIN | 5560 SOUND_MASK_OGAIN | SOUND_MASK_IMIX | SOUND_MASK_MONITOR); 5561 } 5562 5563 for (j = 0; j < SOUND_MIXER_NRDEVICES; j++) { 5564 if ((flag & (1 << j)) == 0) 5565 continue; 5566 i = 0; 5567 printed = 0; 5568 while ((ctl = hdaa_audio_ctl_each(devinfo, &i)) != NULL) { 5569 if (ctl->enable == 0 || 5570 ctl->widget->enable == 0) 5571 continue; 5572 if (!((pdevinfo->playas >= 0 && 5573 ctl->widget->bindas == pdevinfo->playas) || 5574 (pdevinfo->recas >= 0 && 5575 ctl->widget->bindas == pdevinfo->recas) || 5576 (ctl->widget->bindas == -2 && pdevinfo->index == 0))) 5577 continue; 5578 if ((ctl->ossmask & (1 << j)) == 0) 5579 continue; 5580 5581 if (printed == 0) { 5582 if (banner != NULL) { 5583 device_printf(pdevinfo->dev, "%s", banner); 5584 } else { 5585 device_printf(pdevinfo->dev, "Unknown Ctl"); 5586 } 5587 printf(" (OSS: %s)", 5588 hdaa_audio_ctl_ossmixer_mask2allname(1 << j, 5589 buf, sizeof(buf))); 5590 if (pdevinfo->ossmask & (1 << j)) { 5591 printf(": %+d/%+ddB\n", 5592 pdevinfo->minamp[j] / 4, 5593 pdevinfo->maxamp[j] / 4); 5594 } else 5595 printf("\n"); 5596 printed = 1; 5597 } 5598 device_printf(pdevinfo->dev, " +- ctl %2d (nid %3d %s", i, 5599 ctl->widget->nid, 5600 (ctl->ndir == HDAA_CTL_IN)?"in ":"out"); 5601 if (ctl->ndir == HDAA_CTL_IN && ctl->ndir == ctl->dir) 5602 printf(" %2d): ", ctl->index); 5603 else 5604 printf("): "); 5605 if (ctl->step > 0) { 5606 printf("%+d/%+ddB (%d steps)%s\n", 5607 MINQDB(ctl) / 4, 5608 MAXQDB(ctl) / 4, 5609 ctl->step + 1, 5610 ctl->mute?" + mute":""); 5611 } else 5612 printf("%s\n", ctl->mute?"mute":""); 5613 } 5614 } 5615 if (printed) 5616 device_printf(pdevinfo->dev, "\n"); 5617 } 5618 5619 static void 5620 hdaa_dump_audio_formats(device_t dev, uint32_t fcap, uint32_t pcmcap) 5621 { 5622 uint32_t cap; 5623 5624 cap = fcap; 5625 if (cap != 0) { 5626 device_printf(dev, " Stream cap: 0x%08x", cap); 5627 if (HDA_PARAM_SUPP_STREAM_FORMATS_AC3(cap)) 5628 printf(" AC3"); 5629 if (HDA_PARAM_SUPP_STREAM_FORMATS_FLOAT32(cap)) 5630 printf(" FLOAT32"); 5631 if (HDA_PARAM_SUPP_STREAM_FORMATS_PCM(cap)) 5632 printf(" PCM"); 5633 printf("\n"); 5634 } 5635 cap = pcmcap; 5636 if (cap != 0) { 5637 device_printf(dev, " PCM cap: 0x%08x", cap); 5638 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_8BIT(cap)) 5639 printf(" 8"); 5640 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_16BIT(cap)) 5641 printf(" 16"); 5642 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_20BIT(cap)) 5643 printf(" 20"); 5644 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_24BIT(cap)) 5645 printf(" 24"); 5646 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_32BIT(cap)) 5647 printf(" 32"); 5648 printf(" bits,"); 5649 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_8KHZ(cap)) 5650 printf(" 8"); 5651 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_11KHZ(cap)) 5652 printf(" 11"); 5653 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_16KHZ(cap)) 5654 printf(" 16"); 5655 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_22KHZ(cap)) 5656 printf(" 22"); 5657 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_32KHZ(cap)) 5658 printf(" 32"); 5659 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_44KHZ(cap)) 5660 printf(" 44"); 5661 printf(" 48"); 5662 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_88KHZ(cap)) 5663 printf(" 88"); 5664 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_96KHZ(cap)) 5665 printf(" 96"); 5666 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_176KHZ(cap)) 5667 printf(" 176"); 5668 if (HDA_PARAM_SUPP_PCM_SIZE_RATE_192KHZ(cap)) 5669 printf(" 192"); 5670 printf(" KHz\n"); 5671 } 5672 } 5673 5674 static void 5675 hdaa_dump_pin(struct hdaa_widget *w) 5676 { 5677 uint32_t pincap; 5678 5679 pincap = w->wclass.pin.cap; 5680 5681 device_printf(w->devinfo->dev, " Pin cap: 0x%08x", pincap); 5682 if (HDA_PARAM_PIN_CAP_IMP_SENSE_CAP(pincap)) 5683 printf(" ISC"); 5684 if (HDA_PARAM_PIN_CAP_TRIGGER_REQD(pincap)) 5685 printf(" TRQD"); 5686 if (HDA_PARAM_PIN_CAP_PRESENCE_DETECT_CAP(pincap)) 5687 printf(" PDC"); 5688 if (HDA_PARAM_PIN_CAP_HEADPHONE_CAP(pincap)) 5689 printf(" HP"); 5690 if (HDA_PARAM_PIN_CAP_OUTPUT_CAP(pincap)) 5691 printf(" OUT"); 5692 if (HDA_PARAM_PIN_CAP_INPUT_CAP(pincap)) 5693 printf(" IN"); 5694 if (HDA_PARAM_PIN_CAP_BALANCED_IO_PINS(pincap)) 5695 printf(" BAL"); 5696 if (HDA_PARAM_PIN_CAP_HDMI(pincap)) 5697 printf(" HDMI"); 5698 if (HDA_PARAM_PIN_CAP_VREF_CTRL(pincap)) { 5699 printf(" VREF["); 5700 if (HDA_PARAM_PIN_CAP_VREF_CTRL_50(pincap)) 5701 printf(" 50"); 5702 if (HDA_PARAM_PIN_CAP_VREF_CTRL_80(pincap)) 5703 printf(" 80"); 5704 if (HDA_PARAM_PIN_CAP_VREF_CTRL_100(pincap)) 5705 printf(" 100"); 5706 if (HDA_PARAM_PIN_CAP_VREF_CTRL_GROUND(pincap)) 5707 printf(" GROUND"); 5708 if (HDA_PARAM_PIN_CAP_VREF_CTRL_HIZ(pincap)) 5709 printf(" HIZ"); 5710 printf(" ]"); 5711 } 5712 if (HDA_PARAM_PIN_CAP_EAPD_CAP(pincap)) 5713 printf(" EAPD"); 5714 if (HDA_PARAM_PIN_CAP_DP(pincap)) 5715 printf(" DP"); 5716 if (HDA_PARAM_PIN_CAP_HBR(pincap)) 5717 printf(" HBR"); 5718 printf("\n"); 5719 device_printf(w->devinfo->dev, " Pin config: 0x%08x\n", 5720 w->wclass.pin.config); 5721 device_printf(w->devinfo->dev, " Pin control: 0x%08x", w->wclass.pin.ctrl); 5722 if (w->wclass.pin.ctrl & HDA_CMD_SET_PIN_WIDGET_CTRL_HPHN_ENABLE) 5723 printf(" HP"); 5724 if (w->wclass.pin.ctrl & HDA_CMD_SET_PIN_WIDGET_CTRL_IN_ENABLE) 5725 printf(" IN"); 5726 if (w->wclass.pin.ctrl & HDA_CMD_SET_PIN_WIDGET_CTRL_OUT_ENABLE) 5727 printf(" OUT"); 5728 if (HDA_PARAM_AUDIO_WIDGET_CAP_DIGITAL(w->param.widget_cap)) { 5729 if ((w->wclass.pin.ctrl & 5730 HDA_CMD_SET_PIN_WIDGET_CTRL_VREF_ENABLE_MASK) == 0x03) 5731 printf(" HBR"); 5732 else if ((w->wclass.pin.ctrl & 5733 HDA_CMD_SET_PIN_WIDGET_CTRL_VREF_ENABLE_MASK) != 0) 5734 printf(" EPTs"); 5735 } else { 5736 if ((w->wclass.pin.ctrl & 5737 HDA_CMD_SET_PIN_WIDGET_CTRL_VREF_ENABLE_MASK) != 0) 5738 printf(" VREFs"); 5739 } 5740 printf("\n"); 5741 } 5742 5743 static void 5744 hdaa_dump_pin_config(struct hdaa_widget *w, uint32_t conf) 5745 { 5746 5747 device_printf(w->devinfo->dev, "%2d %08x %-2d %-2d " 5748 "%-13s %-5s %-7s %-10s %-7s %d%s\n", 5749 w->nid, conf, 5750 HDA_CONFIG_DEFAULTCONF_ASSOCIATION(conf), 5751 HDA_CONFIG_DEFAULTCONF_SEQUENCE(conf), 5752 HDA_DEVS[HDA_CONFIG_DEFAULTCONF_DEVICE(conf)], 5753 HDA_CONNS[HDA_CONFIG_DEFAULTCONF_CONNECTIVITY(conf)], 5754 HDA_CONNECTORS[HDA_CONFIG_DEFAULTCONF_CONNECTION_TYPE(conf)], 5755 HDA_LOCS[HDA_CONFIG_DEFAULTCONF_LOCATION(conf)], 5756 HDA_COLORS[HDA_CONFIG_DEFAULTCONF_COLOR(conf)], 5757 HDA_CONFIG_DEFAULTCONF_MISC(conf), 5758 (w->enable == 0)?" DISA":""); 5759 } 5760 5761 static void 5762 hdaa_dump_pin_configs(struct hdaa_devinfo *devinfo) 5763 { 5764 struct hdaa_widget *w; 5765 int i; 5766 5767 device_printf(devinfo->dev, "nid 0x as seq " 5768 "device conn jack loc color misc\n"); 5769 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 5770 w = hdaa_widget_get(devinfo, i); 5771 if (w == NULL) 5772 continue; 5773 if (w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) 5774 continue; 5775 hdaa_dump_pin_config(w, w->wclass.pin.config); 5776 } 5777 } 5778 5779 static void 5780 hdaa_dump_amp(device_t dev, uint32_t cap, const char *banner) 5781 { 5782 int offset, size, step; 5783 5784 offset = HDA_PARAM_OUTPUT_AMP_CAP_OFFSET(cap); 5785 size = HDA_PARAM_OUTPUT_AMP_CAP_STEPSIZE(cap); 5786 step = HDA_PARAM_OUTPUT_AMP_CAP_NUMSTEPS(cap); 5787 device_printf(dev, " %s amp: 0x%08x " 5788 "mute=%d step=%d size=%d offset=%d (%+d/%+ddB)\n", 5789 banner, cap, 5790 HDA_PARAM_OUTPUT_AMP_CAP_MUTE_CAP(cap), 5791 step, size, offset, 5792 ((0 - offset) * (size + 1)) / 4, 5793 ((step - offset) * (size + 1)) / 4); 5794 } 5795 5796 static void 5797 hdaa_dump_nodes(struct hdaa_devinfo *devinfo) 5798 { 5799 struct hdaa_widget *w, *cw; 5800 char buf[64]; 5801 int i, j; 5802 5803 device_printf(devinfo->dev, "\n"); 5804 device_printf(devinfo->dev, "Default parameters:\n"); 5805 hdaa_dump_audio_formats(devinfo->dev, 5806 devinfo->supp_stream_formats, 5807 devinfo->supp_pcm_size_rate); 5808 hdaa_dump_amp(devinfo->dev, devinfo->inamp_cap, " Input"); 5809 hdaa_dump_amp(devinfo->dev, devinfo->outamp_cap, "Output"); 5810 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 5811 w = hdaa_widget_get(devinfo, i); 5812 if (w == NULL) { 5813 device_printf(devinfo->dev, "Ghost widget nid=%d\n", i); 5814 continue; 5815 } 5816 device_printf(devinfo->dev, "\n"); 5817 device_printf(devinfo->dev, " nid: %d%s\n", w->nid, 5818 (w->enable == 0) ? " [DISABLED]" : ""); 5819 device_printf(devinfo->dev, " Name: %s\n", w->name); 5820 device_printf(devinfo->dev, " Widget cap: 0x%08x", 5821 w->param.widget_cap); 5822 if (w->param.widget_cap & 0x0ee1) { 5823 if (HDA_PARAM_AUDIO_WIDGET_CAP_LR_SWAP(w->param.widget_cap)) 5824 printf(" LRSWAP"); 5825 if (HDA_PARAM_AUDIO_WIDGET_CAP_POWER_CTRL(w->param.widget_cap)) 5826 printf(" PWR"); 5827 if (HDA_PARAM_AUDIO_WIDGET_CAP_DIGITAL(w->param.widget_cap)) 5828 printf(" DIGITAL"); 5829 if (HDA_PARAM_AUDIO_WIDGET_CAP_UNSOL_CAP(w->param.widget_cap)) 5830 printf(" UNSOL"); 5831 if (HDA_PARAM_AUDIO_WIDGET_CAP_PROC_WIDGET(w->param.widget_cap)) 5832 printf(" PROC"); 5833 if (HDA_PARAM_AUDIO_WIDGET_CAP_STRIPE(w->param.widget_cap)) 5834 printf(" STRIPE(x%d)", 5835 1 << (fls(w->wclass.conv.stripecap) - 1)); 5836 j = HDA_PARAM_AUDIO_WIDGET_CAP_CC(w->param.widget_cap); 5837 if (j == 1) 5838 printf(" STEREO"); 5839 else if (j > 1) 5840 printf(" %dCH", j + 1); 5841 } 5842 printf("\n"); 5843 if (w->bindas != -1) { 5844 device_printf(devinfo->dev, " Association: %d (0x%04x)\n", 5845 w->bindas, w->bindseqmask); 5846 } 5847 if (w->ossmask != 0 || w->ossdev >= 0) { 5848 device_printf(devinfo->dev, " OSS: %s", 5849 hdaa_audio_ctl_ossmixer_mask2allname(w->ossmask, buf, sizeof(buf))); 5850 if (w->ossdev >= 0) 5851 printf(" (%s)", ossnames[w->ossdev]); 5852 printf("\n"); 5853 } 5854 if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_OUTPUT || 5855 w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT) { 5856 hdaa_dump_audio_formats(devinfo->dev, 5857 w->param.supp_stream_formats, 5858 w->param.supp_pcm_size_rate); 5859 } else if (w->type == 5860 HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX || w->waspin) 5861 hdaa_dump_pin(w); 5862 if (w->param.eapdbtl != HDA_INVALID) 5863 device_printf(devinfo->dev, " EAPD: 0x%08x\n", 5864 w->param.eapdbtl); 5865 if (HDA_PARAM_AUDIO_WIDGET_CAP_OUT_AMP(w->param.widget_cap) && 5866 w->param.outamp_cap != 0) 5867 hdaa_dump_amp(devinfo->dev, w->param.outamp_cap, "Output"); 5868 if (HDA_PARAM_AUDIO_WIDGET_CAP_IN_AMP(w->param.widget_cap) && 5869 w->param.inamp_cap != 0) 5870 hdaa_dump_amp(devinfo->dev, w->param.inamp_cap, " Input"); 5871 if (w->nconns > 0) 5872 device_printf(devinfo->dev, " Connections: %d\n", w->nconns); 5873 for (j = 0; j < w->nconns; j++) { 5874 cw = hdaa_widget_get(devinfo, w->conns[j]); 5875 device_printf(devinfo->dev, " + %s<- nid=%d [%s]", 5876 (w->connsenable[j] == 0)?"[DISABLED] ":"", 5877 w->conns[j], (cw == NULL) ? "GHOST!" : cw->name); 5878 if (cw == NULL) 5879 printf(" [UNKNOWN]"); 5880 else if (cw->enable == 0) 5881 printf(" [DISABLED]"); 5882 if (w->nconns > 1 && w->selconn == j && w->type != 5883 HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER) 5884 printf(" (selected)"); 5885 printf("\n"); 5886 } 5887 } 5888 5889 } 5890 5891 static void 5892 hdaa_dump_dst_nid(struct hdaa_pcm_devinfo *pdevinfo, nid_t nid, int depth) 5893 { 5894 struct hdaa_devinfo *devinfo = pdevinfo->devinfo; 5895 struct hdaa_widget *w, *cw; 5896 char buf[64]; 5897 int i; 5898 5899 if (depth > HDA_PARSE_MAXDEPTH) 5900 return; 5901 5902 w = hdaa_widget_get(devinfo, nid); 5903 if (w == NULL || w->enable == 0) 5904 return; 5905 5906 if (depth == 0) 5907 device_printf(pdevinfo->dev, "%*s", 4, ""); 5908 else 5909 device_printf(pdevinfo->dev, "%*s + <- ", 4 + (depth - 1) * 7, ""); 5910 printf("nid=%d [%s]", w->nid, w->name); 5911 5912 if (depth > 0) { 5913 if (w->ossmask == 0) { 5914 printf("\n"); 5915 return; 5916 } 5917 printf(" [src: %s]", 5918 hdaa_audio_ctl_ossmixer_mask2allname( 5919 w->ossmask, buf, sizeof(buf))); 5920 if (w->ossdev >= 0) { 5921 printf("\n"); 5922 return; 5923 } 5924 } 5925 printf("\n"); 5926 5927 for (i = 0; i < w->nconns; i++) { 5928 if (w->connsenable[i] == 0) 5929 continue; 5930 cw = hdaa_widget_get(devinfo, w->conns[i]); 5931 if (cw == NULL || cw->enable == 0 || cw->bindas == -1) 5932 continue; 5933 hdaa_dump_dst_nid(pdevinfo, w->conns[i], depth + 1); 5934 } 5935 5936 } 5937 5938 static void 5939 hdaa_dump_dac(struct hdaa_pcm_devinfo *pdevinfo) 5940 { 5941 struct hdaa_devinfo *devinfo = pdevinfo->devinfo; 5942 struct hdaa_audio_as *as; 5943 struct hdaa_widget *w; 5944 nid_t *nids; 5945 int chid, i; 5946 5947 if (pdevinfo->playas < 0) 5948 return; 5949 5950 device_printf(pdevinfo->dev, "Playback:\n"); 5951 5952 chid = devinfo->as[pdevinfo->playas].chans[0]; 5953 hdaa_dump_audio_formats(pdevinfo->dev, 5954 devinfo->chans[chid].supp_stream_formats, 5955 devinfo->chans[chid].supp_pcm_size_rate); 5956 for (i = 0; i < devinfo->as[pdevinfo->playas].num_chans; i++) { 5957 chid = devinfo->as[pdevinfo->playas].chans[i]; 5958 device_printf(pdevinfo->dev, " DAC:"); 5959 for (nids = devinfo->chans[chid].io; *nids != -1; nids++) 5960 printf(" %d", *nids); 5961 printf("\n"); 5962 } 5963 5964 as = &devinfo->as[pdevinfo->playas]; 5965 for (i = 0; i < 16; i++) { 5966 if (as->pins[i] <= 0) 5967 continue; 5968 w = hdaa_widget_get(devinfo, as->pins[i]); 5969 if (w == NULL || w->enable == 0) 5970 continue; 5971 device_printf(pdevinfo->dev, "\n"); 5972 hdaa_dump_dst_nid(pdevinfo, as->pins[i], 0); 5973 } 5974 device_printf(pdevinfo->dev, "\n"); 5975 } 5976 5977 static void 5978 hdaa_dump_adc(struct hdaa_pcm_devinfo *pdevinfo) 5979 { 5980 struct hdaa_devinfo *devinfo = pdevinfo->devinfo; 5981 struct hdaa_widget *w; 5982 nid_t *nids; 5983 int chid, i; 5984 5985 if (pdevinfo->recas < 0) 5986 return; 5987 5988 device_printf(pdevinfo->dev, "Record:\n"); 5989 5990 chid = devinfo->as[pdevinfo->recas].chans[0]; 5991 hdaa_dump_audio_formats(pdevinfo->dev, 5992 devinfo->chans[chid].supp_stream_formats, 5993 devinfo->chans[chid].supp_pcm_size_rate); 5994 for (i = 0; i < devinfo->as[pdevinfo->recas].num_chans; i++) { 5995 chid = devinfo->as[pdevinfo->recas].chans[i]; 5996 device_printf(pdevinfo->dev, " ADC:"); 5997 for (nids = devinfo->chans[chid].io; *nids != -1; nids++) 5998 printf(" %d", *nids); 5999 printf("\n"); 6000 } 6001 6002 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 6003 w = hdaa_widget_get(devinfo, i); 6004 if (w == NULL || w->enable == 0) 6005 continue; 6006 if (w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT) 6007 continue; 6008 if (w->bindas != pdevinfo->recas) 6009 continue; 6010 device_printf(pdevinfo->dev, "\n"); 6011 hdaa_dump_dst_nid(pdevinfo, i, 0); 6012 } 6013 device_printf(pdevinfo->dev, "\n"); 6014 } 6015 6016 static void 6017 hdaa_dump_mix(struct hdaa_pcm_devinfo *pdevinfo) 6018 { 6019 struct hdaa_devinfo *devinfo = pdevinfo->devinfo; 6020 struct hdaa_widget *w; 6021 int i; 6022 int printed = 0; 6023 6024 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 6025 w = hdaa_widget_get(devinfo, i); 6026 if (w == NULL || w->enable == 0) 6027 continue; 6028 if (w->ossdev != SOUND_MIXER_IMIX) 6029 continue; 6030 if (w->bindas != pdevinfo->recas) 6031 continue; 6032 if (printed == 0) { 6033 printed = 1; 6034 device_printf(pdevinfo->dev, "Input Mix:\n"); 6035 } 6036 device_printf(pdevinfo->dev, "\n"); 6037 hdaa_dump_dst_nid(pdevinfo, i, 0); 6038 } 6039 if (printed) 6040 device_printf(pdevinfo->dev, "\n"); 6041 } 6042 6043 static void 6044 hdaa_pindump(device_t dev) 6045 { 6046 struct hdaa_devinfo *devinfo = device_get_softc(dev); 6047 struct hdaa_widget *w; 6048 uint32_t res, pincap, delay; 6049 int i; 6050 6051 device_printf(dev, "Dumping AFG pins:\n"); 6052 device_printf(dev, "nid 0x as seq " 6053 "device conn jack loc color misc\n"); 6054 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 6055 w = hdaa_widget_get(devinfo, i); 6056 if (w == NULL || w->type != 6057 HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) 6058 continue; 6059 hdaa_dump_pin_config(w, w->wclass.pin.config); 6060 pincap = w->wclass.pin.cap; 6061 device_printf(dev, " Caps: %2s %3s %2s %4s %4s", 6062 HDA_PARAM_PIN_CAP_INPUT_CAP(pincap)?"IN":"", 6063 HDA_PARAM_PIN_CAP_OUTPUT_CAP(pincap)?"OUT":"", 6064 HDA_PARAM_PIN_CAP_HEADPHONE_CAP(pincap)?"HP":"", 6065 HDA_PARAM_PIN_CAP_EAPD_CAP(pincap)?"EAPD":"", 6066 HDA_PARAM_PIN_CAP_VREF_CTRL(pincap)?"VREF":""); 6067 if (HDA_PARAM_PIN_CAP_IMP_SENSE_CAP(pincap) || 6068 HDA_PARAM_PIN_CAP_PRESENCE_DETECT_CAP(pincap)) { 6069 if (HDA_PARAM_PIN_CAP_TRIGGER_REQD(pincap)) { 6070 delay = 0; 6071 hda_command(dev, 6072 HDA_CMD_SET_PIN_SENSE(0, w->nid, 0)); 6073 do { 6074 res = hda_command(dev, 6075 HDA_CMD_GET_PIN_SENSE(0, w->nid)); 6076 if (res != 0x7fffffff && res != 0xffffffff) 6077 break; 6078 DELAY(10); 6079 } while (++delay < 10000); 6080 } else { 6081 delay = 0; 6082 res = hda_command(dev, HDA_CMD_GET_PIN_SENSE(0, 6083 w->nid)); 6084 } 6085 printf(" Sense: 0x%08x (%sconnected%s)", res, 6086 (res & HDA_CMD_GET_PIN_SENSE_PRESENCE_DETECT) ? 6087 "" : "dis", 6088 (HDA_PARAM_AUDIO_WIDGET_CAP_DIGITAL(w->param.widget_cap) && 6089 (res & HDA_CMD_GET_PIN_SENSE_ELD_VALID)) ? 6090 ", ELD valid" : ""); 6091 if (delay > 0) 6092 printf(" delay %dus", delay * 10); 6093 } 6094 printf("\n"); 6095 } 6096 device_printf(dev, 6097 "NumGPIO=%d NumGPO=%d NumGPI=%d GPIWake=%d GPIUnsol=%d\n", 6098 HDA_PARAM_GPIO_COUNT_NUM_GPIO(devinfo->gpio_cap), 6099 HDA_PARAM_GPIO_COUNT_NUM_GPO(devinfo->gpio_cap), 6100 HDA_PARAM_GPIO_COUNT_NUM_GPI(devinfo->gpio_cap), 6101 HDA_PARAM_GPIO_COUNT_GPI_WAKE(devinfo->gpio_cap), 6102 HDA_PARAM_GPIO_COUNT_GPI_UNSOL(devinfo->gpio_cap)); 6103 hdaa_dump_gpi(devinfo); 6104 hdaa_dump_gpio(devinfo); 6105 hdaa_dump_gpo(devinfo); 6106 } 6107 6108 static void 6109 hdaa_configure(device_t dev) 6110 { 6111 struct hdaa_devinfo *devinfo = device_get_softc(dev); 6112 struct hdaa_audio_ctl *ctl; 6113 int i; 6114 6115 HDA_BOOTHVERBOSE( 6116 device_printf(dev, "Applying built-in patches...\n"); 6117 ); 6118 hdaa_patch(devinfo); 6119 HDA_BOOTHVERBOSE( 6120 device_printf(dev, "Applying local patches...\n"); 6121 ); 6122 hdaa_local_patch(devinfo); 6123 hdaa_audio_postprocess(devinfo); 6124 HDA_BOOTHVERBOSE( 6125 device_printf(dev, "Parsing Ctls...\n"); 6126 ); 6127 hdaa_audio_ctl_parse(devinfo); 6128 HDA_BOOTHVERBOSE( 6129 device_printf(dev, "Disabling nonaudio...\n"); 6130 ); 6131 hdaa_audio_disable_nonaudio(devinfo); 6132 HDA_BOOTHVERBOSE( 6133 device_printf(dev, "Disabling useless...\n"); 6134 ); 6135 hdaa_audio_disable_useless(devinfo); 6136 HDA_BOOTVERBOSE( 6137 device_printf(dev, "Patched pins configuration:\n"); 6138 hdaa_dump_pin_configs(devinfo); 6139 ); 6140 HDA_BOOTHVERBOSE( 6141 device_printf(dev, "Parsing pin associations...\n"); 6142 ); 6143 hdaa_audio_as_parse(devinfo); 6144 HDA_BOOTHVERBOSE( 6145 device_printf(dev, "Building AFG tree...\n"); 6146 ); 6147 hdaa_audio_build_tree(devinfo); 6148 HDA_BOOTHVERBOSE( 6149 device_printf(dev, "Disabling unassociated " 6150 "widgets...\n"); 6151 ); 6152 hdaa_audio_disable_unas(devinfo); 6153 HDA_BOOTHVERBOSE( 6154 device_printf(dev, "Disabling nonselected " 6155 "inputs...\n"); 6156 ); 6157 hdaa_audio_disable_notselected(devinfo); 6158 HDA_BOOTHVERBOSE( 6159 device_printf(dev, "Disabling useless...\n"); 6160 ); 6161 hdaa_audio_disable_useless(devinfo); 6162 HDA_BOOTHVERBOSE( 6163 device_printf(dev, "Disabling " 6164 "crossassociatement connections...\n"); 6165 ); 6166 hdaa_audio_disable_crossas(devinfo); 6167 HDA_BOOTHVERBOSE( 6168 device_printf(dev, "Disabling useless...\n"); 6169 ); 6170 hdaa_audio_disable_useless(devinfo); 6171 HDA_BOOTHVERBOSE( 6172 device_printf(dev, "Binding associations to channels...\n"); 6173 ); 6174 hdaa_audio_bind_as(devinfo); 6175 HDA_BOOTHVERBOSE( 6176 device_printf(dev, "Assigning names to signal sources...\n"); 6177 ); 6178 hdaa_audio_assign_names(devinfo); 6179 HDA_BOOTHVERBOSE( 6180 device_printf(dev, "Preparing PCM devices...\n"); 6181 ); 6182 hdaa_prepare_pcms(devinfo); 6183 HDA_BOOTHVERBOSE( 6184 device_printf(dev, "Assigning mixers to the tree...\n"); 6185 ); 6186 hdaa_audio_assign_mixers(devinfo); 6187 HDA_BOOTHVERBOSE( 6188 device_printf(dev, "Preparing pin controls...\n"); 6189 ); 6190 hdaa_audio_prepare_pin_ctrl(devinfo); 6191 HDA_BOOTHVERBOSE( 6192 device_printf(dev, "AFG commit...\n"); 6193 ); 6194 hdaa_audio_commit(devinfo); 6195 HDA_BOOTHVERBOSE( 6196 device_printf(dev, "Applying direct built-in patches...\n"); 6197 ); 6198 hdaa_patch_direct(devinfo); 6199 HDA_BOOTHVERBOSE( 6200 device_printf(dev, "Pin sense init...\n"); 6201 ); 6202 hdaa_sense_init(devinfo); 6203 HDA_BOOTHVERBOSE( 6204 device_printf(dev, "Creating PCM devices...\n"); 6205 ); 6206 hdaa_create_pcms(devinfo); 6207 6208 HDA_BOOTVERBOSE( 6209 if (devinfo->quirks != 0) { 6210 device_printf(dev, "FG config/quirks:"); 6211 for (i = 0; i < nitems(hdaa_quirks_tab); i++) { 6212 if ((devinfo->quirks & 6213 hdaa_quirks_tab[i].value) == 6214 hdaa_quirks_tab[i].value) 6215 printf(" %s", hdaa_quirks_tab[i].key); 6216 } 6217 printf("\n"); 6218 } 6219 ); 6220 6221 HDA_BOOTHVERBOSE( 6222 device_printf(dev, "\n"); 6223 device_printf(dev, "+-----------+\n"); 6224 device_printf(dev, "| HDA NODES |\n"); 6225 device_printf(dev, "+-----------+\n"); 6226 hdaa_dump_nodes(devinfo); 6227 6228 device_printf(dev, "\n"); 6229 device_printf(dev, "+----------------+\n"); 6230 device_printf(dev, "| HDA AMPLIFIERS |\n"); 6231 device_printf(dev, "+----------------+\n"); 6232 device_printf(dev, "\n"); 6233 i = 0; 6234 while ((ctl = hdaa_audio_ctl_each(devinfo, &i)) != NULL) { 6235 device_printf(dev, "%3d: nid %3d %s (%s) index %d", i, 6236 (ctl->widget != NULL) ? ctl->widget->nid : -1, 6237 (ctl->ndir == HDAA_CTL_IN)?"in ":"out", 6238 (ctl->dir == HDAA_CTL_IN)?"in ":"out", 6239 ctl->index); 6240 if (ctl->childwidget != NULL) 6241 printf(" cnid %3d", ctl->childwidget->nid); 6242 else 6243 printf(" "); 6244 printf(" ossmask=0x%08x\n", 6245 ctl->ossmask); 6246 device_printf(dev, 6247 " mute: %d step: %3d size: %3d off: %3d%s\n", 6248 ctl->mute, ctl->step, ctl->size, ctl->offset, 6249 (ctl->enable == 0) ? " [DISABLED]" : 6250 ((ctl->ossmask == 0) ? " [UNUSED]" : "")); 6251 } 6252 device_printf(dev, "\n"); 6253 ); 6254 } 6255 6256 static void 6257 hdaa_unconfigure(device_t dev) 6258 { 6259 struct hdaa_devinfo *devinfo = device_get_softc(dev); 6260 struct hdaa_widget *w; 6261 int i, j; 6262 6263 HDA_BOOTHVERBOSE( 6264 device_printf(dev, "Pin sense deinit...\n"); 6265 ); 6266 hdaa_sense_deinit(devinfo); 6267 free(devinfo->ctl, M_HDAA); 6268 devinfo->ctl = NULL; 6269 devinfo->ctlcnt = 0; 6270 free(devinfo->as, M_HDAA); 6271 devinfo->as = NULL; 6272 devinfo->ascnt = 0; 6273 free(devinfo->devs, M_HDAA); 6274 devinfo->devs = NULL; 6275 devinfo->num_devs = 0; 6276 free(devinfo->chans, M_HDAA); 6277 devinfo->chans = NULL; 6278 devinfo->num_chans = 0; 6279 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 6280 w = hdaa_widget_get(devinfo, i); 6281 if (w == NULL) 6282 continue; 6283 w->enable = 1; 6284 w->selconn = -1; 6285 w->pflags = 0; 6286 w->bindas = -1; 6287 w->bindseqmask = 0; 6288 w->ossdev = -1; 6289 w->ossmask = 0; 6290 for (j = 0; j < w->nconns; j++) 6291 w->connsenable[j] = 1; 6292 if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) 6293 w->wclass.pin.config = w->wclass.pin.newconf; 6294 if (w->eld != NULL) { 6295 w->eld_len = 0; 6296 free(w->eld, M_HDAA); 6297 w->eld = NULL; 6298 } 6299 } 6300 } 6301 6302 static int 6303 hdaa_sysctl_gpi_state(SYSCTL_HANDLER_ARGS) 6304 { 6305 struct hdaa_devinfo *devinfo = oidp->oid_arg1; 6306 device_t dev = devinfo->dev; 6307 char buf[256]; 6308 int n = 0, i, numgpi; 6309 uint32_t data = 0; 6310 6311 buf[0] = 0; 6312 hdaa_lock(devinfo); 6313 numgpi = HDA_PARAM_GPIO_COUNT_NUM_GPI(devinfo->gpio_cap); 6314 if (numgpi > 0) { 6315 data = hda_command(dev, 6316 HDA_CMD_GET_GPI_DATA(0, devinfo->nid)); 6317 } 6318 hdaa_unlock(devinfo); 6319 for (i = 0; i < numgpi; i++) { 6320 n += snprintf(buf + n, sizeof(buf) - n, "%s%d=%d", 6321 n != 0 ? " " : "", i, ((data >> i) & 1)); 6322 } 6323 return (sysctl_handle_string(oidp, buf, sizeof(buf), req)); 6324 } 6325 6326 static int 6327 hdaa_sysctl_gpio_state(SYSCTL_HANDLER_ARGS) 6328 { 6329 struct hdaa_devinfo *devinfo = oidp->oid_arg1; 6330 device_t dev = devinfo->dev; 6331 char buf[256]; 6332 int n = 0, i, numgpio; 6333 uint32_t data = 0, enable = 0, dir = 0; 6334 6335 buf[0] = 0; 6336 hdaa_lock(devinfo); 6337 numgpio = HDA_PARAM_GPIO_COUNT_NUM_GPIO(devinfo->gpio_cap); 6338 if (numgpio > 0) { 6339 data = hda_command(dev, 6340 HDA_CMD_GET_GPIO_DATA(0, devinfo->nid)); 6341 enable = hda_command(dev, 6342 HDA_CMD_GET_GPIO_ENABLE_MASK(0, devinfo->nid)); 6343 dir = hda_command(dev, 6344 HDA_CMD_GET_GPIO_DIRECTION(0, devinfo->nid)); 6345 } 6346 hdaa_unlock(devinfo); 6347 for (i = 0; i < numgpio; i++) { 6348 n += snprintf(buf + n, sizeof(buf) - n, "%s%d=", 6349 n != 0 ? " " : "", i); 6350 if ((enable & (1 << i)) == 0) { 6351 n += snprintf(buf + n, sizeof(buf) - n, "disabled"); 6352 continue; 6353 } 6354 n += snprintf(buf + n, sizeof(buf) - n, "%sput(%d)", 6355 ((dir >> i) & 1) ? "out" : "in", ((data >> i) & 1)); 6356 } 6357 return (sysctl_handle_string(oidp, buf, sizeof(buf), req)); 6358 } 6359 6360 static int 6361 hdaa_sysctl_gpio_config(SYSCTL_HANDLER_ARGS) 6362 { 6363 struct hdaa_devinfo *devinfo = oidp->oid_arg1; 6364 char buf[256]; 6365 int error, n = 0, i, numgpio; 6366 uint32_t gpio, x; 6367 6368 gpio = devinfo->newgpio; 6369 numgpio = HDA_PARAM_GPIO_COUNT_NUM_GPIO(devinfo->gpio_cap); 6370 buf[0] = 0; 6371 for (i = 0; i < numgpio; i++) { 6372 x = (gpio & HDAA_GPIO_MASK(i)) >> HDAA_GPIO_SHIFT(i); 6373 n += snprintf(buf + n, sizeof(buf) - n, "%s%d=%s", 6374 n != 0 ? " " : "", i, HDA_GPIO_ACTIONS[x]); 6375 } 6376 error = sysctl_handle_string(oidp, buf, sizeof(buf), req); 6377 if (error != 0 || req->newptr == NULL) 6378 return (error); 6379 if (strncmp(buf, "0x", 2) == 0) 6380 gpio = strtol(buf + 2, NULL, 16); 6381 else 6382 gpio = hdaa_gpio_patch(gpio, buf); 6383 hdaa_lock(devinfo); 6384 devinfo->newgpio = devinfo->gpio = gpio; 6385 hdaa_gpio_commit(devinfo); 6386 hdaa_unlock(devinfo); 6387 return (0); 6388 } 6389 6390 static int 6391 hdaa_sysctl_gpo_state(SYSCTL_HANDLER_ARGS) 6392 { 6393 struct hdaa_devinfo *devinfo = oidp->oid_arg1; 6394 device_t dev = devinfo->dev; 6395 char buf[256]; 6396 int n = 0, i, numgpo; 6397 uint32_t data = 0; 6398 6399 buf[0] = 0; 6400 hdaa_lock(devinfo); 6401 numgpo = HDA_PARAM_GPIO_COUNT_NUM_GPO(devinfo->gpio_cap); 6402 if (numgpo > 0) { 6403 data = hda_command(dev, 6404 HDA_CMD_GET_GPO_DATA(0, devinfo->nid)); 6405 } 6406 hdaa_unlock(devinfo); 6407 for (i = 0; i < numgpo; i++) { 6408 n += snprintf(buf + n, sizeof(buf) - n, "%s%d=%d", 6409 n != 0 ? " " : "", i, ((data >> i) & 1)); 6410 } 6411 return (sysctl_handle_string(oidp, buf, sizeof(buf), req)); 6412 } 6413 6414 static int 6415 hdaa_sysctl_gpo_config(SYSCTL_HANDLER_ARGS) 6416 { 6417 struct hdaa_devinfo *devinfo = oidp->oid_arg1; 6418 char buf[256]; 6419 int error, n = 0, i, numgpo; 6420 uint32_t gpo, x; 6421 6422 gpo = devinfo->newgpo; 6423 numgpo = HDA_PARAM_GPIO_COUNT_NUM_GPO(devinfo->gpio_cap); 6424 buf[0] = 0; 6425 for (i = 0; i < numgpo; i++) { 6426 x = (gpo & HDAA_GPIO_MASK(i)) >> HDAA_GPIO_SHIFT(i); 6427 n += snprintf(buf + n, sizeof(buf) - n, "%s%d=%s", 6428 n != 0 ? " " : "", i, HDA_GPIO_ACTIONS[x]); 6429 } 6430 error = sysctl_handle_string(oidp, buf, sizeof(buf), req); 6431 if (error != 0 || req->newptr == NULL) 6432 return (error); 6433 if (strncmp(buf, "0x", 2) == 0) 6434 gpo = strtol(buf + 2, NULL, 16); 6435 else 6436 gpo = hdaa_gpio_patch(gpo, buf); 6437 hdaa_lock(devinfo); 6438 devinfo->newgpo = devinfo->gpo = gpo; 6439 hdaa_gpo_commit(devinfo); 6440 hdaa_unlock(devinfo); 6441 return (0); 6442 } 6443 6444 static int 6445 hdaa_sysctl_reconfig(SYSCTL_HANDLER_ARGS) 6446 { 6447 device_t dev; 6448 struct hdaa_devinfo *devinfo; 6449 int error, val; 6450 6451 dev = oidp->oid_arg1; 6452 devinfo = device_get_softc(dev); 6453 if (devinfo == NULL) 6454 return (EINVAL); 6455 val = 0; 6456 error = sysctl_handle_int(oidp, &val, 0, req); 6457 if (error != 0 || req->newptr == NULL || val == 0) 6458 return (error); 6459 6460 HDA_BOOTHVERBOSE( 6461 device_printf(dev, "Reconfiguration...\n"); 6462 ); 6463 6464 bus_topo_lock(); 6465 6466 if ((error = device_delete_children(dev)) != 0) { 6467 bus_topo_unlock(); 6468 return (error); 6469 } 6470 hdaa_lock(devinfo); 6471 hdaa_unconfigure(dev); 6472 hdaa_configure(dev); 6473 hdaa_unlock(devinfo); 6474 bus_generic_attach(dev); 6475 HDA_BOOTHVERBOSE( 6476 device_printf(dev, "Reconfiguration done\n"); 6477 ); 6478 6479 bus_topo_unlock(); 6480 6481 return (0); 6482 } 6483 6484 static int 6485 hdaa_suspend(device_t dev) 6486 { 6487 struct hdaa_devinfo *devinfo = device_get_softc(dev); 6488 int i; 6489 6490 HDA_BOOTHVERBOSE( 6491 device_printf(dev, "Suspend...\n"); 6492 ); 6493 hdaa_lock(devinfo); 6494 HDA_BOOTHVERBOSE( 6495 device_printf(dev, "Stop streams...\n"); 6496 ); 6497 for (i = 0; i < devinfo->num_chans; i++) { 6498 if (devinfo->chans[i].flags & HDAA_CHN_RUNNING) { 6499 devinfo->chans[i].flags |= HDAA_CHN_SUSPEND; 6500 hdaa_channel_stop(&devinfo->chans[i]); 6501 } 6502 } 6503 HDA_BOOTHVERBOSE( 6504 device_printf(dev, "Power down FG" 6505 " nid=%d to the D3 state...\n", 6506 devinfo->nid); 6507 ); 6508 hda_command(devinfo->dev, 6509 HDA_CMD_SET_POWER_STATE(0, 6510 devinfo->nid, HDA_CMD_POWER_STATE_D3)); 6511 callout_stop(&devinfo->poll_jack); 6512 hdaa_unlock(devinfo); 6513 callout_drain(&devinfo->poll_jack); 6514 HDA_BOOTHVERBOSE( 6515 device_printf(dev, "Suspend done\n"); 6516 ); 6517 return (0); 6518 } 6519 6520 static int 6521 hdaa_resume(device_t dev) 6522 { 6523 struct hdaa_devinfo *devinfo = device_get_softc(dev); 6524 int i; 6525 6526 HDA_BOOTHVERBOSE( 6527 device_printf(dev, "Resume...\n"); 6528 ); 6529 hdaa_lock(devinfo); 6530 HDA_BOOTHVERBOSE( 6531 device_printf(dev, "Power up audio FG nid=%d...\n", 6532 devinfo->nid); 6533 ); 6534 hdaa_powerup(devinfo); 6535 HDA_BOOTHVERBOSE( 6536 device_printf(dev, "AFG commit...\n"); 6537 ); 6538 hdaa_audio_commit(devinfo); 6539 HDA_BOOTHVERBOSE( 6540 device_printf(dev, "Applying direct built-in patches...\n"); 6541 ); 6542 hdaa_patch_direct(devinfo); 6543 HDA_BOOTHVERBOSE( 6544 device_printf(dev, "Pin sense init...\n"); 6545 ); 6546 hdaa_sense_init(devinfo); 6547 6548 hdaa_unlock(devinfo); 6549 for (i = 0; i < devinfo->num_devs; i++) { 6550 struct hdaa_pcm_devinfo *pdevinfo = &devinfo->devs[i]; 6551 HDA_BOOTHVERBOSE( 6552 device_printf(pdevinfo->dev, 6553 "OSS mixer reinitialization...\n"); 6554 ); 6555 if (mixer_reinit(pdevinfo->dev) == -1) 6556 device_printf(pdevinfo->dev, 6557 "unable to reinitialize the mixer\n"); 6558 } 6559 hdaa_lock(devinfo); 6560 HDA_BOOTHVERBOSE( 6561 device_printf(dev, "Start streams...\n"); 6562 ); 6563 for (i = 0; i < devinfo->num_chans; i++) { 6564 if (devinfo->chans[i].flags & HDAA_CHN_SUSPEND) { 6565 devinfo->chans[i].flags &= ~HDAA_CHN_SUSPEND; 6566 hdaa_channel_start(&devinfo->chans[i]); 6567 } 6568 } 6569 hdaa_unlock(devinfo); 6570 HDA_BOOTHVERBOSE( 6571 device_printf(dev, "Resume done\n"); 6572 ); 6573 return (0); 6574 } 6575 6576 static int 6577 hdaa_probe(device_t dev) 6578 { 6579 const char *pdesc; 6580 char buf[128]; 6581 6582 if (hda_get_node_type(dev) != HDA_PARAM_FCT_GRP_TYPE_NODE_TYPE_AUDIO) 6583 return (ENXIO); 6584 pdesc = device_get_desc(device_get_parent(dev)); 6585 snprintf(buf, sizeof(buf), "%.*s Audio Function Group", 6586 (int)(strlen(pdesc) - 10), pdesc); 6587 device_set_desc_copy(dev, buf); 6588 return (BUS_PROBE_DEFAULT); 6589 } 6590 6591 static int 6592 hdaa_attach(device_t dev) 6593 { 6594 struct hdaa_devinfo *devinfo = device_get_softc(dev); 6595 uint32_t res; 6596 nid_t nid = hda_get_node_id(dev); 6597 6598 devinfo->dev = dev; 6599 devinfo->lock = HDAC_GET_MTX(device_get_parent(dev), dev); 6600 devinfo->nid = nid; 6601 devinfo->newquirks = -1; 6602 devinfo->newgpio = -1; 6603 devinfo->newgpo = -1; 6604 callout_init(&devinfo->poll_jack, 1); 6605 devinfo->poll_ival = hz; 6606 6607 hdaa_lock(devinfo); 6608 res = hda_command(dev, 6609 HDA_CMD_GET_PARAMETER(0 , nid, HDA_PARAM_SUB_NODE_COUNT)); 6610 hdaa_unlock(devinfo); 6611 6612 devinfo->nodecnt = HDA_PARAM_SUB_NODE_COUNT_TOTAL(res); 6613 devinfo->startnode = HDA_PARAM_SUB_NODE_COUNT_START(res); 6614 devinfo->endnode = devinfo->startnode + devinfo->nodecnt; 6615 6616 HDA_BOOTVERBOSE( 6617 device_printf(dev, "Subsystem ID: 0x%08x\n", 6618 hda_get_subsystem_id(dev)); 6619 ); 6620 HDA_BOOTHVERBOSE( 6621 device_printf(dev, 6622 "Audio Function Group at nid=%d: %d subnodes %d-%d\n", 6623 nid, devinfo->nodecnt, 6624 devinfo->startnode, devinfo->endnode - 1); 6625 ); 6626 6627 if (devinfo->nodecnt > 0) 6628 devinfo->widget = (struct hdaa_widget *)malloc( 6629 sizeof(*(devinfo->widget)) * devinfo->nodecnt, M_HDAA, 6630 M_WAITOK | M_ZERO); 6631 else 6632 devinfo->widget = NULL; 6633 6634 hdaa_lock(devinfo); 6635 HDA_BOOTHVERBOSE( 6636 device_printf(dev, "Powering up...\n"); 6637 ); 6638 hdaa_powerup(devinfo); 6639 HDA_BOOTHVERBOSE( 6640 device_printf(dev, "Parsing audio FG...\n"); 6641 ); 6642 hdaa_audio_parse(devinfo); 6643 HDA_BOOTVERBOSE( 6644 device_printf(dev, "Original pins configuration:\n"); 6645 hdaa_dump_pin_configs(devinfo); 6646 ); 6647 hdaa_configure(dev); 6648 hdaa_unlock(devinfo); 6649 6650 SYSCTL_ADD_PROC(device_get_sysctl_ctx(dev), 6651 SYSCTL_CHILDREN(device_get_sysctl_tree(dev)), OID_AUTO, 6652 "config", CTLTYPE_STRING | CTLFLAG_RW | CTLFLAG_MPSAFE, 6653 &devinfo->newquirks, 0, hdaa_sysctl_quirks, "A", 6654 "Configuration options"); 6655 SYSCTL_ADD_PROC(device_get_sysctl_ctx(dev), 6656 SYSCTL_CHILDREN(device_get_sysctl_tree(dev)), OID_AUTO, 6657 "gpi_state", CTLTYPE_STRING | CTLFLAG_RD | CTLFLAG_MPSAFE, 6658 devinfo, 0, hdaa_sysctl_gpi_state, "A", "GPI state"); 6659 SYSCTL_ADD_PROC(device_get_sysctl_ctx(dev), 6660 SYSCTL_CHILDREN(device_get_sysctl_tree(dev)), OID_AUTO, 6661 "gpio_state", CTLTYPE_STRING | CTLFLAG_RD | CTLFLAG_MPSAFE, 6662 devinfo, 0, hdaa_sysctl_gpio_state, "A", "GPIO state"); 6663 SYSCTL_ADD_PROC(device_get_sysctl_ctx(dev), 6664 SYSCTL_CHILDREN(device_get_sysctl_tree(dev)), OID_AUTO, 6665 "gpio_config", CTLTYPE_STRING | CTLFLAG_RW | CTLFLAG_MPSAFE, 6666 devinfo, 0, hdaa_sysctl_gpio_config, "A", "GPIO configuration"); 6667 SYSCTL_ADD_PROC(device_get_sysctl_ctx(dev), 6668 SYSCTL_CHILDREN(device_get_sysctl_tree(dev)), OID_AUTO, 6669 "gpo_state", CTLTYPE_STRING | CTLFLAG_RD | CTLFLAG_MPSAFE, 6670 devinfo, 0, hdaa_sysctl_gpo_state, "A", "GPO state"); 6671 SYSCTL_ADD_PROC(device_get_sysctl_ctx(dev), 6672 SYSCTL_CHILDREN(device_get_sysctl_tree(dev)), OID_AUTO, 6673 "gpo_config", CTLTYPE_STRING | CTLFLAG_RW | CTLFLAG_MPSAFE, 6674 devinfo, 0, hdaa_sysctl_gpo_config, "A", "GPO configuration"); 6675 SYSCTL_ADD_PROC(device_get_sysctl_ctx(dev), 6676 SYSCTL_CHILDREN(device_get_sysctl_tree(dev)), OID_AUTO, 6677 "reconfig", CTLTYPE_INT | CTLFLAG_RW, 6678 dev, 0, hdaa_sysctl_reconfig, "I", "Reprocess configuration"); 6679 SYSCTL_ADD_INT(device_get_sysctl_ctx(dev), 6680 SYSCTL_CHILDREN(device_get_sysctl_tree(dev)), OID_AUTO, 6681 "init_clear", CTLFLAG_RW, 6682 &devinfo->init_clear, 1,"Clear initial pin widget configuration"); 6683 bus_generic_attach(dev); 6684 return (0); 6685 } 6686 6687 static int 6688 hdaa_detach(device_t dev) 6689 { 6690 struct hdaa_devinfo *devinfo = device_get_softc(dev); 6691 int error; 6692 6693 if ((error = device_delete_children(dev)) != 0) 6694 return (error); 6695 6696 hdaa_lock(devinfo); 6697 hdaa_unconfigure(dev); 6698 devinfo->poll_ival = 0; 6699 callout_stop(&devinfo->poll_jack); 6700 hdaa_unlock(devinfo); 6701 callout_drain(&devinfo->poll_jack); 6702 6703 free(devinfo->widget, M_HDAA); 6704 return (0); 6705 } 6706 6707 static int 6708 hdaa_print_child(device_t dev, device_t child) 6709 { 6710 struct hdaa_devinfo *devinfo = device_get_softc(dev); 6711 struct hdaa_pcm_devinfo *pdevinfo = 6712 (struct hdaa_pcm_devinfo *)device_get_ivars(child); 6713 struct hdaa_audio_as *as; 6714 int retval, first = 1, i; 6715 6716 retval = bus_print_child_header(dev, child); 6717 retval += printf(" at nid "); 6718 if (pdevinfo->playas >= 0) { 6719 as = &devinfo->as[pdevinfo->playas]; 6720 for (i = 0; i < 16; i++) { 6721 if (as->pins[i] <= 0) 6722 continue; 6723 retval += printf("%s%d", first ? "" : ",", as->pins[i]); 6724 first = 0; 6725 } 6726 } 6727 if (pdevinfo->recas >= 0) { 6728 if (pdevinfo->playas >= 0) { 6729 retval += printf(" and "); 6730 first = 1; 6731 } 6732 as = &devinfo->as[pdevinfo->recas]; 6733 for (i = 0; i < 16; i++) { 6734 if (as->pins[i] <= 0) 6735 continue; 6736 retval += printf("%s%d", first ? "" : ",", as->pins[i]); 6737 first = 0; 6738 } 6739 } 6740 retval += bus_print_child_footer(dev, child); 6741 6742 return (retval); 6743 } 6744 6745 static int 6746 hdaa_child_location(device_t dev, device_t child, struct sbuf *sb) 6747 { 6748 struct hdaa_devinfo *devinfo = device_get_softc(dev); 6749 struct hdaa_pcm_devinfo *pdevinfo = 6750 (struct hdaa_pcm_devinfo *)device_get_ivars(child); 6751 struct hdaa_audio_as *as; 6752 int first = 1, i; 6753 6754 sbuf_printf(sb, "nid="); 6755 if (pdevinfo->playas >= 0) { 6756 as = &devinfo->as[pdevinfo->playas]; 6757 for (i = 0; i < 16; i++) { 6758 if (as->pins[i] <= 0) 6759 continue; 6760 sbuf_printf(sb, "%s%d", first ? "" : ",", as->pins[i]); 6761 first = 0; 6762 } 6763 } 6764 if (pdevinfo->recas >= 0) { 6765 as = &devinfo->as[pdevinfo->recas]; 6766 for (i = 0; i < 16; i++) { 6767 if (as->pins[i] <= 0) 6768 continue; 6769 sbuf_printf(sb, "%s%d", first ? "" : ",", as->pins[i]); 6770 first = 0; 6771 } 6772 } 6773 return (0); 6774 } 6775 6776 static void 6777 hdaa_stream_intr(device_t dev, int dir, int stream) 6778 { 6779 struct hdaa_devinfo *devinfo = device_get_softc(dev); 6780 struct hdaa_chan *ch; 6781 int i; 6782 6783 for (i = 0; i < devinfo->num_chans; i++) { 6784 ch = &devinfo->chans[i]; 6785 if (!(ch->flags & HDAA_CHN_RUNNING)) 6786 continue; 6787 if (ch->dir == ((dir == 1) ? PCMDIR_PLAY : PCMDIR_REC) && 6788 ch->sid == stream) { 6789 hdaa_unlock(devinfo); 6790 chn_intr(ch->c); 6791 hdaa_lock(devinfo); 6792 } 6793 } 6794 } 6795 6796 static void 6797 hdaa_unsol_intr(device_t dev, uint32_t resp) 6798 { 6799 struct hdaa_devinfo *devinfo = device_get_softc(dev); 6800 struct hdaa_widget *w; 6801 int i, tag, flags; 6802 6803 HDA_BOOTHVERBOSE( 6804 device_printf(dev, "Unsolicited response %08x\n", resp); 6805 ); 6806 tag = resp >> 26; 6807 for (i = devinfo->startnode; i < devinfo->endnode; i++) { 6808 w = hdaa_widget_get(devinfo, i); 6809 if (w == NULL || w->enable == 0 || w->type != 6810 HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) 6811 continue; 6812 if (w->unsol != tag) 6813 continue; 6814 if (HDA_PARAM_PIN_CAP_DP(w->wclass.pin.cap) || 6815 HDA_PARAM_PIN_CAP_HDMI(w->wclass.pin.cap)) 6816 flags = resp & 0x03; 6817 else 6818 flags = 0x01; 6819 if (flags & 0x01) 6820 hdaa_presence_handler(w); 6821 if (flags & 0x02) 6822 hdaa_eld_handler(w); 6823 } 6824 } 6825 6826 static device_method_t hdaa_methods[] = { 6827 /* device interface */ 6828 DEVMETHOD(device_probe, hdaa_probe), 6829 DEVMETHOD(device_attach, hdaa_attach), 6830 DEVMETHOD(device_detach, hdaa_detach), 6831 DEVMETHOD(device_suspend, hdaa_suspend), 6832 DEVMETHOD(device_resume, hdaa_resume), 6833 /* Bus interface */ 6834 DEVMETHOD(bus_print_child, hdaa_print_child), 6835 DEVMETHOD(bus_child_location, hdaa_child_location), 6836 DEVMETHOD(hdac_stream_intr, hdaa_stream_intr), 6837 DEVMETHOD(hdac_unsol_intr, hdaa_unsol_intr), 6838 DEVMETHOD(hdac_pindump, hdaa_pindump), 6839 DEVMETHOD_END 6840 }; 6841 6842 static driver_t hdaa_driver = { 6843 "hdaa", 6844 hdaa_methods, 6845 sizeof(struct hdaa_devinfo), 6846 }; 6847 6848 DRIVER_MODULE(snd_hda, hdacc, hdaa_driver, NULL, NULL); 6849 6850 static void 6851 hdaa_chan_formula(struct hdaa_devinfo *devinfo, int asid, 6852 char *buf, int buflen) 6853 { 6854 struct hdaa_audio_as *as; 6855 int c; 6856 6857 as = &devinfo->as[asid]; 6858 c = devinfo->chans[as->chans[0]].channels; 6859 if (c == 1) 6860 snprintf(buf, buflen, "mono"); 6861 else if (c == 2) { 6862 if (as->hpredir < 0) 6863 buf[0] = 0; 6864 else 6865 snprintf(buf, buflen, "2.0"); 6866 } else if (as->pinset == 0x0003) 6867 snprintf(buf, buflen, "3.1"); 6868 else if (as->pinset == 0x0005 || as->pinset == 0x0011) 6869 snprintf(buf, buflen, "4.0"); 6870 else if (as->pinset == 0x0007 || as->pinset == 0x0013) 6871 snprintf(buf, buflen, "5.1"); 6872 else if (as->pinset == 0x0017) 6873 snprintf(buf, buflen, "7.1"); 6874 else 6875 snprintf(buf, buflen, "%dch", c); 6876 if (as->hpredir >= 0) 6877 strlcat(buf, "+HP", buflen); 6878 } 6879 6880 static int 6881 hdaa_chan_type(struct hdaa_devinfo *devinfo, int asid) 6882 { 6883 struct hdaa_audio_as *as; 6884 struct hdaa_widget *w; 6885 int i, t = -1, t1; 6886 6887 as = &devinfo->as[asid]; 6888 for (i = 0; i < 16; i++) { 6889 w = hdaa_widget_get(devinfo, as->pins[i]); 6890 if (w == NULL || w->enable == 0 || w->type != 6891 HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) 6892 continue; 6893 t1 = HDA_CONFIG_DEFAULTCONF_DEVICE(w->wclass.pin.config); 6894 if (t == -1) 6895 t = t1; 6896 else if (t != t1) { 6897 t = -2; 6898 break; 6899 } 6900 } 6901 return (t); 6902 } 6903 6904 static int 6905 hdaa_sysctl_32bit(SYSCTL_HANDLER_ARGS) 6906 { 6907 struct hdaa_audio_as *as = (struct hdaa_audio_as *)oidp->oid_arg1; 6908 struct hdaa_pcm_devinfo *pdevinfo = as->pdevinfo; 6909 struct hdaa_devinfo *devinfo = pdevinfo->devinfo; 6910 struct hdaa_chan *ch; 6911 int error, val, i; 6912 uint32_t pcmcap; 6913 6914 ch = &devinfo->chans[as->chans[0]]; 6915 val = (ch->bit32 == 4) ? 32 : ((ch->bit32 == 3) ? 24 : 6916 ((ch->bit32 == 2) ? 20 : 0)); 6917 error = sysctl_handle_int(oidp, &val, 0, req); 6918 if (error != 0 || req->newptr == NULL) 6919 return (error); 6920 pcmcap = ch->supp_pcm_size_rate; 6921 if (val == 32 && HDA_PARAM_SUPP_PCM_SIZE_RATE_32BIT(pcmcap)) 6922 ch->bit32 = 4; 6923 else if (val == 24 && HDA_PARAM_SUPP_PCM_SIZE_RATE_24BIT(pcmcap)) 6924 ch->bit32 = 3; 6925 else if (val == 20 && HDA_PARAM_SUPP_PCM_SIZE_RATE_20BIT(pcmcap)) 6926 ch->bit32 = 2; 6927 else 6928 return (EINVAL); 6929 for (i = 1; i < as->num_chans; i++) 6930 devinfo->chans[as->chans[i]].bit32 = ch->bit32; 6931 return (0); 6932 } 6933 6934 static int 6935 hdaa_pcm_probe(device_t dev) 6936 { 6937 struct hdaa_pcm_devinfo *pdevinfo = 6938 (struct hdaa_pcm_devinfo *)device_get_ivars(dev); 6939 struct hdaa_devinfo *devinfo = pdevinfo->devinfo; 6940 const char *pdesc; 6941 char chans1[8], chans2[8]; 6942 char buf[128]; 6943 int loc1, loc2, t1, t2; 6944 6945 if (pdevinfo->playas >= 0) 6946 loc1 = devinfo->as[pdevinfo->playas].location; 6947 else 6948 loc1 = devinfo->as[pdevinfo->recas].location; 6949 if (pdevinfo->recas >= 0) 6950 loc2 = devinfo->as[pdevinfo->recas].location; 6951 else 6952 loc2 = loc1; 6953 if (loc1 != loc2) 6954 loc1 = -2; 6955 if (loc1 >= 0 && HDA_LOCS[loc1][0] == '0') 6956 loc1 = -2; 6957 chans1[0] = 0; 6958 chans2[0] = 0; 6959 t1 = t2 = -1; 6960 if (pdevinfo->playas >= 0) { 6961 hdaa_chan_formula(devinfo, pdevinfo->playas, 6962 chans1, sizeof(chans1)); 6963 t1 = hdaa_chan_type(devinfo, pdevinfo->playas); 6964 } 6965 if (pdevinfo->recas >= 0) { 6966 hdaa_chan_formula(devinfo, pdevinfo->recas, 6967 chans2, sizeof(chans2)); 6968 t2 = hdaa_chan_type(devinfo, pdevinfo->recas); 6969 } 6970 if (chans1[0] != 0 || chans2[0] != 0) { 6971 if (chans1[0] == 0 && pdevinfo->playas >= 0) 6972 snprintf(chans1, sizeof(chans1), "2.0"); 6973 else if (chans2[0] == 0 && pdevinfo->recas >= 0) 6974 snprintf(chans2, sizeof(chans2), "2.0"); 6975 if (strcmp(chans1, chans2) == 0) 6976 chans2[0] = 0; 6977 } 6978 if (t1 == -1) 6979 t1 = t2; 6980 else if (t2 == -1) 6981 t2 = t1; 6982 if (t1 != t2) 6983 t1 = -2; 6984 if (pdevinfo->digital) 6985 t1 = -2; 6986 pdesc = device_get_desc(device_get_parent(dev)); 6987 snprintf(buf, sizeof(buf), "%.*s (%s%s%s%s%s%s%s%s%s)", 6988 (int)(strlen(pdesc) - 21), pdesc, 6989 loc1 >= 0 ? HDA_LOCS[loc1] : "", loc1 >= 0 ? " " : "", 6990 (pdevinfo->digital == 0x7)?"HDMI/DP": 6991 ((pdevinfo->digital == 0x5)?"DisplayPort": 6992 ((pdevinfo->digital == 0x3)?"HDMI": 6993 ((pdevinfo->digital)?"Digital":"Analog"))), 6994 chans1[0] ? " " : "", chans1, 6995 chans2[0] ? "/" : "", chans2, 6996 t1 >= 0 ? " " : "", t1 >= 0 ? HDA_DEVS[t1] : ""); 6997 device_set_desc_copy(dev, buf); 6998 return (BUS_PROBE_SPECIFIC); 6999 } 7000 7001 static int 7002 hdaa_pcm_attach(device_t dev) 7003 { 7004 struct hdaa_pcm_devinfo *pdevinfo = 7005 (struct hdaa_pcm_devinfo *)device_get_ivars(dev); 7006 struct hdaa_devinfo *devinfo = pdevinfo->devinfo; 7007 struct hdaa_audio_as *as; 7008 struct snddev_info *d; 7009 char status[SND_STATUSLEN]; 7010 int i; 7011 7012 pdevinfo->chan_size = pcm_getbuffersize(dev, 7013 HDA_BUFSZ_MIN, HDA_BUFSZ_DEFAULT, HDA_BUFSZ_MAX); 7014 7015 HDA_BOOTVERBOSE( 7016 hdaa_dump_dac(pdevinfo); 7017 hdaa_dump_adc(pdevinfo); 7018 hdaa_dump_mix(pdevinfo); 7019 hdaa_dump_ctls(pdevinfo, "Master Volume", SOUND_MASK_VOLUME); 7020 hdaa_dump_ctls(pdevinfo, "PCM Volume", SOUND_MASK_PCM); 7021 hdaa_dump_ctls(pdevinfo, "CD Volume", SOUND_MASK_CD); 7022 hdaa_dump_ctls(pdevinfo, "Microphone Volume", SOUND_MASK_MIC); 7023 hdaa_dump_ctls(pdevinfo, "Microphone2 Volume", SOUND_MASK_MONITOR); 7024 hdaa_dump_ctls(pdevinfo, "Line-in Volume", SOUND_MASK_LINE); 7025 hdaa_dump_ctls(pdevinfo, "Speaker/Beep Volume", SOUND_MASK_SPEAKER); 7026 hdaa_dump_ctls(pdevinfo, "Recording Level", SOUND_MASK_RECLEV); 7027 hdaa_dump_ctls(pdevinfo, "Input Mix Level", SOUND_MASK_IMIX); 7028 hdaa_dump_ctls(pdevinfo, "Input Monitoring Level", SOUND_MASK_IGAIN); 7029 hdaa_dump_ctls(pdevinfo, NULL, 0); 7030 ); 7031 7032 if (resource_int_value(device_get_name(dev), 7033 device_get_unit(dev), "blocksize", &i) == 0 && i > 0) { 7034 i &= HDA_BLK_ALIGN; 7035 if (i < HDA_BLK_MIN) 7036 i = HDA_BLK_MIN; 7037 pdevinfo->chan_blkcnt = pdevinfo->chan_size / i; 7038 i = 0; 7039 while (pdevinfo->chan_blkcnt >> i) 7040 i++; 7041 pdevinfo->chan_blkcnt = 1 << (i - 1); 7042 if (pdevinfo->chan_blkcnt < HDA_BDL_MIN) 7043 pdevinfo->chan_blkcnt = HDA_BDL_MIN; 7044 else if (pdevinfo->chan_blkcnt > HDA_BDL_MAX) 7045 pdevinfo->chan_blkcnt = HDA_BDL_MAX; 7046 } else 7047 pdevinfo->chan_blkcnt = HDA_BDL_DEFAULT; 7048 7049 /* 7050 * We don't register interrupt handler with snd_setup_intr 7051 * in pcm device. Mark pcm device as MPSAFE manually. 7052 */ 7053 pcm_setflags(dev, pcm_getflags(dev) | SD_F_MPSAFE); 7054 7055 HDA_BOOTHVERBOSE( 7056 device_printf(dev, "OSS mixer initialization...\n"); 7057 ); 7058 if (mixer_init(dev, &hdaa_audio_ctl_ossmixer_class, pdevinfo) != 0) 7059 device_printf(dev, "Can't register mixer\n"); 7060 7061 HDA_BOOTHVERBOSE( 7062 device_printf(dev, "Registering PCM channels...\n"); 7063 ); 7064 if (pcm_register(dev, pdevinfo, (pdevinfo->playas >= 0)?1:0, 7065 (pdevinfo->recas >= 0)?1:0) != 0) 7066 device_printf(dev, "Can't register PCM\n"); 7067 7068 pdevinfo->registered++; 7069 7070 d = device_get_softc(dev); 7071 if (pdevinfo->playas >= 0) { 7072 as = &devinfo->as[pdevinfo->playas]; 7073 for (i = 0; i < as->num_chans; i++) 7074 pcm_addchan(dev, PCMDIR_PLAY, &hdaa_channel_class, 7075 &devinfo->chans[as->chans[i]]); 7076 SYSCTL_ADD_PROC(&d->play_sysctl_ctx, 7077 SYSCTL_CHILDREN(d->play_sysctl_tree), OID_AUTO, 7078 "32bit", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_MPSAFE, 7079 as, sizeof(as), hdaa_sysctl_32bit, "I", 7080 "Resolution of 32bit samples (20/24/32bit)"); 7081 } 7082 if (pdevinfo->recas >= 0) { 7083 as = &devinfo->as[pdevinfo->recas]; 7084 for (i = 0; i < as->num_chans; i++) 7085 pcm_addchan(dev, PCMDIR_REC, &hdaa_channel_class, 7086 &devinfo->chans[as->chans[i]]); 7087 SYSCTL_ADD_PROC(&d->rec_sysctl_ctx, 7088 SYSCTL_CHILDREN(d->rec_sysctl_tree), OID_AUTO, 7089 "32bit", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_MPSAFE, 7090 as, sizeof(as), hdaa_sysctl_32bit, "I", 7091 "Resolution of 32bit samples (20/24/32bit)"); 7092 pdevinfo->autorecsrc = 2; 7093 resource_int_value(device_get_name(dev), device_get_unit(dev), 7094 "rec.autosrc", &pdevinfo->autorecsrc); 7095 SYSCTL_ADD_INT(&d->rec_sysctl_ctx, 7096 SYSCTL_CHILDREN(d->rec_sysctl_tree), OID_AUTO, 7097 "autosrc", CTLFLAG_RW, 7098 &pdevinfo->autorecsrc, 0, 7099 "Automatic recording source selection"); 7100 } 7101 7102 if (pdevinfo->mixer != NULL) { 7103 hdaa_audio_ctl_set_defaults(pdevinfo); 7104 hdaa_lock(devinfo); 7105 if (pdevinfo->playas >= 0) { 7106 as = &devinfo->as[pdevinfo->playas]; 7107 hdaa_channels_handler(as); 7108 } 7109 if (pdevinfo->recas >= 0) { 7110 as = &devinfo->as[pdevinfo->recas]; 7111 hdaa_autorecsrc_handler(as, NULL); 7112 hdaa_channels_handler(as); 7113 } 7114 hdaa_unlock(devinfo); 7115 } 7116 7117 snprintf(status, SND_STATUSLEN, "on %s %s", 7118 device_get_nameunit(device_get_parent(dev)), 7119 PCM_KLDSTRING(snd_hda)); 7120 pcm_setstatus(dev, status); 7121 7122 return (0); 7123 } 7124 7125 static int 7126 hdaa_pcm_detach(device_t dev) 7127 { 7128 struct hdaa_pcm_devinfo *pdevinfo = 7129 (struct hdaa_pcm_devinfo *)device_get_ivars(dev); 7130 int err; 7131 7132 if (pdevinfo->registered > 0) { 7133 err = pcm_unregister(dev); 7134 if (err != 0) 7135 return (err); 7136 } 7137 7138 return (0); 7139 } 7140 7141 static device_method_t hdaa_pcm_methods[] = { 7142 /* device interface */ 7143 DEVMETHOD(device_probe, hdaa_pcm_probe), 7144 DEVMETHOD(device_attach, hdaa_pcm_attach), 7145 DEVMETHOD(device_detach, hdaa_pcm_detach), 7146 DEVMETHOD_END 7147 }; 7148 7149 static driver_t hdaa_pcm_driver = { 7150 "pcm", 7151 hdaa_pcm_methods, 7152 PCM_SOFTC_SIZE, 7153 }; 7154 7155 DRIVER_MODULE(snd_hda_pcm, hdaa, hdaa_pcm_driver, NULL, NULL); 7156 MODULE_DEPEND(snd_hda, sound, SOUND_MINVER, SOUND_PREFVER, SOUND_MAXVER); 7157 MODULE_VERSION(snd_hda, 1); 7158