1 /* 2 * Copyright (C) 2010 Red Hat, Inc. 3 * 4 * written by Gerd Hoffmann <kraxel@redhat.com> 5 * 6 * This program is free software; you can redistribute it and/or 7 * modify it under the terms of the GNU General Public License as 8 * published by the Free Software Foundation; either version 2 or 9 * (at your option) version 3 of the License. 10 * 11 * This program is distributed in the hope that it will be useful, 12 * but WITHOUT ANY WARRANTY; without even the implied warranty of 13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 14 * GNU General Public License for more details. 15 * 16 * You should have received a copy of the GNU General Public License 17 * along with this program; if not, see <http://www.gnu.org/licenses/>. 18 */ 19 20 #include "hw/hw.h" 21 #include "hw/pci/pci.h" 22 #include "intel-hda.h" 23 #include "intel-hda-defs.h" 24 #include "audio/audio.h" 25 26 /* -------------------------------------------------------------------------- */ 27 28 typedef struct desc_param { 29 uint32_t id; 30 uint32_t val; 31 } desc_param; 32 33 typedef struct desc_node { 34 uint32_t nid; 35 const char *name; 36 const desc_param *params; 37 uint32_t nparams; 38 uint32_t config; 39 uint32_t pinctl; 40 uint32_t *conn; 41 uint32_t stindex; 42 } desc_node; 43 44 typedef struct desc_codec { 45 const char *name; 46 uint32_t iid; 47 const desc_node *nodes; 48 uint32_t nnodes; 49 } desc_codec; 50 51 static const desc_param* hda_codec_find_param(const desc_node *node, uint32_t id) 52 { 53 int i; 54 55 for (i = 0; i < node->nparams; i++) { 56 if (node->params[i].id == id) { 57 return &node->params[i]; 58 } 59 } 60 return NULL; 61 } 62 63 static const desc_node* hda_codec_find_node(const desc_codec *codec, uint32_t nid) 64 { 65 int i; 66 67 for (i = 0; i < codec->nnodes; i++) { 68 if (codec->nodes[i].nid == nid) { 69 return &codec->nodes[i]; 70 } 71 } 72 return NULL; 73 } 74 75 static void hda_codec_parse_fmt(uint32_t format, struct audsettings *as) 76 { 77 if (format & AC_FMT_TYPE_NON_PCM) { 78 return; 79 } 80 81 as->freq = (format & AC_FMT_BASE_44K) ? 44100 : 48000; 82 83 switch ((format & AC_FMT_MULT_MASK) >> AC_FMT_MULT_SHIFT) { 84 case 1: as->freq *= 2; break; 85 case 2: as->freq *= 3; break; 86 case 3: as->freq *= 4; break; 87 } 88 89 switch ((format & AC_FMT_DIV_MASK) >> AC_FMT_DIV_SHIFT) { 90 case 1: as->freq /= 2; break; 91 case 2: as->freq /= 3; break; 92 case 3: as->freq /= 4; break; 93 case 4: as->freq /= 5; break; 94 case 5: as->freq /= 6; break; 95 case 6: as->freq /= 7; break; 96 case 7: as->freq /= 8; break; 97 } 98 99 switch (format & AC_FMT_BITS_MASK) { 100 case AC_FMT_BITS_8: as->fmt = AUD_FMT_S8; break; 101 case AC_FMT_BITS_16: as->fmt = AUD_FMT_S16; break; 102 case AC_FMT_BITS_32: as->fmt = AUD_FMT_S32; break; 103 } 104 105 as->nchannels = ((format & AC_FMT_CHAN_MASK) >> AC_FMT_CHAN_SHIFT) + 1; 106 } 107 108 /* -------------------------------------------------------------------------- */ 109 /* 110 * HDA codec descriptions 111 */ 112 113 /* some defines */ 114 115 #define QEMU_HDA_ID_VENDOR 0x1af4 116 #define QEMU_HDA_PCM_FORMATS (AC_SUPPCM_BITS_16 | \ 117 0x1fc /* 16 -> 96 kHz */) 118 #define QEMU_HDA_AMP_NONE (0) 119 #define QEMU_HDA_AMP_STEPS 0x4a 120 121 #define PARAM mixemu 122 #define HDA_MIXER 123 #include "hda-codec-common.h" 124 125 #define PARAM nomixemu 126 #include "hda-codec-common.h" 127 128 /* -------------------------------------------------------------------------- */ 129 130 static const char *fmt2name[] = { 131 [ AUD_FMT_U8 ] = "PCM-U8", 132 [ AUD_FMT_S8 ] = "PCM-S8", 133 [ AUD_FMT_U16 ] = "PCM-U16", 134 [ AUD_FMT_S16 ] = "PCM-S16", 135 [ AUD_FMT_U32 ] = "PCM-U32", 136 [ AUD_FMT_S32 ] = "PCM-S32", 137 }; 138 139 typedef struct HDAAudioState HDAAudioState; 140 typedef struct HDAAudioStream HDAAudioStream; 141 142 struct HDAAudioStream { 143 HDAAudioState *state; 144 const desc_node *node; 145 bool output, running; 146 uint32_t stream; 147 uint32_t channel; 148 uint32_t format; 149 uint32_t gain_left, gain_right; 150 bool mute_left, mute_right; 151 struct audsettings as; 152 union { 153 SWVoiceIn *in; 154 SWVoiceOut *out; 155 } voice; 156 uint8_t buf[HDA_BUFFER_SIZE]; 157 uint32_t bpos; 158 }; 159 160 #define TYPE_HDA_AUDIO "hda-audio" 161 #define HDA_AUDIO(obj) OBJECT_CHECK(HDAAudioState, (obj), TYPE_HDA_AUDIO) 162 163 struct HDAAudioState { 164 HDACodecDevice hda; 165 const char *name; 166 167 QEMUSoundCard card; 168 const desc_codec *desc; 169 HDAAudioStream st[4]; 170 bool running_compat[16]; 171 bool running_real[2 * 16]; 172 173 /* properties */ 174 uint32_t debug; 175 bool mixer; 176 }; 177 178 static void hda_audio_input_cb(void *opaque, int avail) 179 { 180 HDAAudioStream *st = opaque; 181 int recv = 0; 182 int len; 183 bool rc; 184 185 while (avail - recv >= sizeof(st->buf)) { 186 if (st->bpos != sizeof(st->buf)) { 187 len = AUD_read(st->voice.in, st->buf + st->bpos, 188 sizeof(st->buf) - st->bpos); 189 st->bpos += len; 190 recv += len; 191 if (st->bpos != sizeof(st->buf)) { 192 break; 193 } 194 } 195 rc = hda_codec_xfer(&st->state->hda, st->stream, false, 196 st->buf, sizeof(st->buf)); 197 if (!rc) { 198 break; 199 } 200 st->bpos = 0; 201 } 202 } 203 204 static void hda_audio_output_cb(void *opaque, int avail) 205 { 206 HDAAudioStream *st = opaque; 207 int sent = 0; 208 int len; 209 bool rc; 210 211 while (avail - sent >= sizeof(st->buf)) { 212 if (st->bpos == sizeof(st->buf)) { 213 rc = hda_codec_xfer(&st->state->hda, st->stream, true, 214 st->buf, sizeof(st->buf)); 215 if (!rc) { 216 break; 217 } 218 st->bpos = 0; 219 } 220 len = AUD_write(st->voice.out, st->buf + st->bpos, 221 sizeof(st->buf) - st->bpos); 222 st->bpos += len; 223 sent += len; 224 if (st->bpos != sizeof(st->buf)) { 225 break; 226 } 227 } 228 } 229 230 static void hda_audio_set_running(HDAAudioStream *st, bool running) 231 { 232 if (st->node == NULL) { 233 return; 234 } 235 if (st->running == running) { 236 return; 237 } 238 st->running = running; 239 dprint(st->state, 1, "%s: %s (stream %d)\n", st->node->name, 240 st->running ? "on" : "off", st->stream); 241 if (st->output) { 242 AUD_set_active_out(st->voice.out, st->running); 243 } else { 244 AUD_set_active_in(st->voice.in, st->running); 245 } 246 } 247 248 static void hda_audio_set_amp(HDAAudioStream *st) 249 { 250 bool muted; 251 uint32_t left, right; 252 253 if (st->node == NULL) { 254 return; 255 } 256 257 muted = st->mute_left && st->mute_right; 258 left = st->mute_left ? 0 : st->gain_left; 259 right = st->mute_right ? 0 : st->gain_right; 260 261 left = left * 255 / QEMU_HDA_AMP_STEPS; 262 right = right * 255 / QEMU_HDA_AMP_STEPS; 263 264 if (!st->state->mixer) { 265 return; 266 } 267 if (st->output) { 268 AUD_set_volume_out(st->voice.out, muted, left, right); 269 } else { 270 AUD_set_volume_in(st->voice.in, muted, left, right); 271 } 272 } 273 274 static void hda_audio_setup(HDAAudioStream *st) 275 { 276 if (st->node == NULL) { 277 return; 278 } 279 280 dprint(st->state, 1, "%s: format: %d x %s @ %d Hz\n", 281 st->node->name, st->as.nchannels, 282 fmt2name[st->as.fmt], st->as.freq); 283 284 if (st->output) { 285 st->voice.out = AUD_open_out(&st->state->card, st->voice.out, 286 st->node->name, st, 287 hda_audio_output_cb, &st->as); 288 } else { 289 st->voice.in = AUD_open_in(&st->state->card, st->voice.in, 290 st->node->name, st, 291 hda_audio_input_cb, &st->as); 292 } 293 } 294 295 static void hda_audio_command(HDACodecDevice *hda, uint32_t nid, uint32_t data) 296 { 297 HDAAudioState *a = HDA_AUDIO(hda); 298 HDAAudioStream *st; 299 const desc_node *node = NULL; 300 const desc_param *param; 301 uint32_t verb, payload, response, count, shift; 302 303 if ((data & 0x70000) == 0x70000) { 304 /* 12/8 id/payload */ 305 verb = (data >> 8) & 0xfff; 306 payload = data & 0x00ff; 307 } else { 308 /* 4/16 id/payload */ 309 verb = (data >> 8) & 0xf00; 310 payload = data & 0xffff; 311 } 312 313 node = hda_codec_find_node(a->desc, nid); 314 if (node == NULL) { 315 goto fail; 316 } 317 dprint(a, 2, "%s: nid %d (%s), verb 0x%x, payload 0x%x\n", 318 __FUNCTION__, nid, node->name, verb, payload); 319 320 switch (verb) { 321 /* all nodes */ 322 case AC_VERB_PARAMETERS: 323 param = hda_codec_find_param(node, payload); 324 if (param == NULL) { 325 goto fail; 326 } 327 hda_codec_response(hda, true, param->val); 328 break; 329 case AC_VERB_GET_SUBSYSTEM_ID: 330 hda_codec_response(hda, true, a->desc->iid); 331 break; 332 333 /* all functions */ 334 case AC_VERB_GET_CONNECT_LIST: 335 param = hda_codec_find_param(node, AC_PAR_CONNLIST_LEN); 336 count = param ? param->val : 0; 337 response = 0; 338 shift = 0; 339 while (payload < count && shift < 32) { 340 response |= node->conn[payload] << shift; 341 payload++; 342 shift += 8; 343 } 344 hda_codec_response(hda, true, response); 345 break; 346 347 /* pin widget */ 348 case AC_VERB_GET_CONFIG_DEFAULT: 349 hda_codec_response(hda, true, node->config); 350 break; 351 case AC_VERB_GET_PIN_WIDGET_CONTROL: 352 hda_codec_response(hda, true, node->pinctl); 353 break; 354 case AC_VERB_SET_PIN_WIDGET_CONTROL: 355 if (node->pinctl != payload) { 356 dprint(a, 1, "unhandled pin control bit\n"); 357 } 358 hda_codec_response(hda, true, 0); 359 break; 360 361 /* audio in/out widget */ 362 case AC_VERB_SET_CHANNEL_STREAMID: 363 st = a->st + node->stindex; 364 if (st->node == NULL) { 365 goto fail; 366 } 367 hda_audio_set_running(st, false); 368 st->stream = (payload >> 4) & 0x0f; 369 st->channel = payload & 0x0f; 370 dprint(a, 2, "%s: stream %d, channel %d\n", 371 st->node->name, st->stream, st->channel); 372 hda_audio_set_running(st, a->running_real[st->output * 16 + st->stream]); 373 hda_codec_response(hda, true, 0); 374 break; 375 case AC_VERB_GET_CONV: 376 st = a->st + node->stindex; 377 if (st->node == NULL) { 378 goto fail; 379 } 380 response = st->stream << 4 | st->channel; 381 hda_codec_response(hda, true, response); 382 break; 383 case AC_VERB_SET_STREAM_FORMAT: 384 st = a->st + node->stindex; 385 if (st->node == NULL) { 386 goto fail; 387 } 388 st->format = payload; 389 hda_codec_parse_fmt(st->format, &st->as); 390 hda_audio_setup(st); 391 hda_codec_response(hda, true, 0); 392 break; 393 case AC_VERB_GET_STREAM_FORMAT: 394 st = a->st + node->stindex; 395 if (st->node == NULL) { 396 goto fail; 397 } 398 hda_codec_response(hda, true, st->format); 399 break; 400 case AC_VERB_GET_AMP_GAIN_MUTE: 401 st = a->st + node->stindex; 402 if (st->node == NULL) { 403 goto fail; 404 } 405 if (payload & AC_AMP_GET_LEFT) { 406 response = st->gain_left | (st->mute_left ? AC_AMP_MUTE : 0); 407 } else { 408 response = st->gain_right | (st->mute_right ? AC_AMP_MUTE : 0); 409 } 410 hda_codec_response(hda, true, response); 411 break; 412 case AC_VERB_SET_AMP_GAIN_MUTE: 413 st = a->st + node->stindex; 414 if (st->node == NULL) { 415 goto fail; 416 } 417 dprint(a, 1, "amp (%s): %s%s%s%s index %d gain %3d %s\n", 418 st->node->name, 419 (payload & AC_AMP_SET_OUTPUT) ? "o" : "-", 420 (payload & AC_AMP_SET_INPUT) ? "i" : "-", 421 (payload & AC_AMP_SET_LEFT) ? "l" : "-", 422 (payload & AC_AMP_SET_RIGHT) ? "r" : "-", 423 (payload & AC_AMP_SET_INDEX) >> AC_AMP_SET_INDEX_SHIFT, 424 (payload & AC_AMP_GAIN), 425 (payload & AC_AMP_MUTE) ? "muted" : ""); 426 if (payload & AC_AMP_SET_LEFT) { 427 st->gain_left = payload & AC_AMP_GAIN; 428 st->mute_left = payload & AC_AMP_MUTE; 429 } 430 if (payload & AC_AMP_SET_RIGHT) { 431 st->gain_right = payload & AC_AMP_GAIN; 432 st->mute_right = payload & AC_AMP_MUTE; 433 } 434 hda_audio_set_amp(st); 435 hda_codec_response(hda, true, 0); 436 break; 437 438 /* not supported */ 439 case AC_VERB_SET_POWER_STATE: 440 case AC_VERB_GET_POWER_STATE: 441 case AC_VERB_GET_SDI_SELECT: 442 hda_codec_response(hda, true, 0); 443 break; 444 default: 445 goto fail; 446 } 447 return; 448 449 fail: 450 dprint(a, 1, "%s: not handled: nid %d (%s), verb 0x%x, payload 0x%x\n", 451 __FUNCTION__, nid, node ? node->name : "?", verb, payload); 452 hda_codec_response(hda, true, 0); 453 } 454 455 static void hda_audio_stream(HDACodecDevice *hda, uint32_t stnr, bool running, bool output) 456 { 457 HDAAudioState *a = HDA_AUDIO(hda); 458 int s; 459 460 a->running_compat[stnr] = running; 461 a->running_real[output * 16 + stnr] = running; 462 for (s = 0; s < ARRAY_SIZE(a->st); s++) { 463 if (a->st[s].node == NULL) { 464 continue; 465 } 466 if (a->st[s].output != output) { 467 continue; 468 } 469 if (a->st[s].stream != stnr) { 470 continue; 471 } 472 hda_audio_set_running(&a->st[s], running); 473 } 474 } 475 476 static int hda_audio_init(HDACodecDevice *hda, const struct desc_codec *desc) 477 { 478 HDAAudioState *a = HDA_AUDIO(hda); 479 HDAAudioStream *st; 480 const desc_node *node; 481 const desc_param *param; 482 uint32_t i, type; 483 484 a->desc = desc; 485 a->name = object_get_typename(OBJECT(a)); 486 dprint(a, 1, "%s: cad %d\n", __FUNCTION__, a->hda.cad); 487 488 AUD_register_card("hda", &a->card); 489 for (i = 0; i < a->desc->nnodes; i++) { 490 node = a->desc->nodes + i; 491 param = hda_codec_find_param(node, AC_PAR_AUDIO_WIDGET_CAP); 492 if (NULL == param) 493 continue; 494 type = (param->val & AC_WCAP_TYPE) >> AC_WCAP_TYPE_SHIFT; 495 switch (type) { 496 case AC_WID_AUD_OUT: 497 case AC_WID_AUD_IN: 498 assert(node->stindex < ARRAY_SIZE(a->st)); 499 st = a->st + node->stindex; 500 st->state = a; 501 st->node = node; 502 if (type == AC_WID_AUD_OUT) { 503 /* unmute output by default */ 504 st->gain_left = QEMU_HDA_AMP_STEPS; 505 st->gain_right = QEMU_HDA_AMP_STEPS; 506 st->bpos = sizeof(st->buf); 507 st->output = true; 508 } else { 509 st->output = false; 510 } 511 st->format = AC_FMT_TYPE_PCM | AC_FMT_BITS_16 | 512 (1 << AC_FMT_CHAN_SHIFT); 513 hda_codec_parse_fmt(st->format, &st->as); 514 hda_audio_setup(st); 515 break; 516 } 517 } 518 return 0; 519 } 520 521 static int hda_audio_exit(HDACodecDevice *hda) 522 { 523 HDAAudioState *a = HDA_AUDIO(hda); 524 HDAAudioStream *st; 525 int i; 526 527 dprint(a, 1, "%s\n", __FUNCTION__); 528 for (i = 0; i < ARRAY_SIZE(a->st); i++) { 529 st = a->st + i; 530 if (st->node == NULL) { 531 continue; 532 } 533 if (st->output) { 534 AUD_close_out(&a->card, st->voice.out); 535 } else { 536 AUD_close_in(&a->card, st->voice.in); 537 } 538 } 539 AUD_remove_card(&a->card); 540 return 0; 541 } 542 543 static int hda_audio_post_load(void *opaque, int version) 544 { 545 HDAAudioState *a = opaque; 546 HDAAudioStream *st; 547 int i; 548 549 dprint(a, 1, "%s\n", __FUNCTION__); 550 if (version == 1) { 551 /* assume running_compat[] is for output streams */ 552 for (i = 0; i < ARRAY_SIZE(a->running_compat); i++) 553 a->running_real[16 + i] = a->running_compat[i]; 554 } 555 556 for (i = 0; i < ARRAY_SIZE(a->st); i++) { 557 st = a->st + i; 558 if (st->node == NULL) 559 continue; 560 hda_codec_parse_fmt(st->format, &st->as); 561 hda_audio_setup(st); 562 hda_audio_set_amp(st); 563 hda_audio_set_running(st, a->running_real[st->output * 16 + st->stream]); 564 } 565 return 0; 566 } 567 568 static void hda_audio_reset(DeviceState *dev) 569 { 570 HDAAudioState *a = HDA_AUDIO(dev); 571 HDAAudioStream *st; 572 int i; 573 574 dprint(a, 1, "%s\n", __func__); 575 for (i = 0; i < ARRAY_SIZE(a->st); i++) { 576 st = a->st + i; 577 if (st->node != NULL) { 578 hda_audio_set_running(st, false); 579 } 580 } 581 } 582 583 static const VMStateDescription vmstate_hda_audio_stream = { 584 .name = "hda-audio-stream", 585 .version_id = 1, 586 .fields = (VMStateField []) { 587 VMSTATE_UINT32(stream, HDAAudioStream), 588 VMSTATE_UINT32(channel, HDAAudioStream), 589 VMSTATE_UINT32(format, HDAAudioStream), 590 VMSTATE_UINT32(gain_left, HDAAudioStream), 591 VMSTATE_UINT32(gain_right, HDAAudioStream), 592 VMSTATE_BOOL(mute_left, HDAAudioStream), 593 VMSTATE_BOOL(mute_right, HDAAudioStream), 594 VMSTATE_UINT32(bpos, HDAAudioStream), 595 VMSTATE_BUFFER(buf, HDAAudioStream), 596 VMSTATE_END_OF_LIST() 597 } 598 }; 599 600 static const VMStateDescription vmstate_hda_audio = { 601 .name = "hda-audio", 602 .version_id = 2, 603 .post_load = hda_audio_post_load, 604 .fields = (VMStateField []) { 605 VMSTATE_STRUCT_ARRAY(st, HDAAudioState, 4, 0, 606 vmstate_hda_audio_stream, 607 HDAAudioStream), 608 VMSTATE_BOOL_ARRAY(running_compat, HDAAudioState, 16), 609 VMSTATE_BOOL_ARRAY_V(running_real, HDAAudioState, 2 * 16, 2), 610 VMSTATE_END_OF_LIST() 611 } 612 }; 613 614 static Property hda_audio_properties[] = { 615 DEFINE_PROP_UINT32("debug", HDAAudioState, debug, 0), 616 DEFINE_PROP_BOOL("mixer", HDAAudioState, mixer, true), 617 DEFINE_PROP_END_OF_LIST(), 618 }; 619 620 static int hda_audio_init_output(HDACodecDevice *hda) 621 { 622 HDAAudioState *a = HDA_AUDIO(hda); 623 624 if (!a->mixer) { 625 return hda_audio_init(hda, &output_nomixemu); 626 } else { 627 return hda_audio_init(hda, &output_mixemu); 628 } 629 } 630 631 static int hda_audio_init_duplex(HDACodecDevice *hda) 632 { 633 HDAAudioState *a = HDA_AUDIO(hda); 634 635 if (!a->mixer) { 636 return hda_audio_init(hda, &duplex_nomixemu); 637 } else { 638 return hda_audio_init(hda, &duplex_mixemu); 639 } 640 } 641 642 static int hda_audio_init_micro(HDACodecDevice *hda) 643 { 644 HDAAudioState *a = HDA_AUDIO(hda); 645 646 if (!a->mixer) { 647 return hda_audio_init(hda, µ_nomixemu); 648 } else { 649 return hda_audio_init(hda, µ_mixemu); 650 } 651 } 652 653 static void hda_audio_base_class_init(ObjectClass *klass, void *data) 654 { 655 DeviceClass *dc = DEVICE_CLASS(klass); 656 HDACodecDeviceClass *k = HDA_CODEC_DEVICE_CLASS(klass); 657 658 k->exit = hda_audio_exit; 659 k->command = hda_audio_command; 660 k->stream = hda_audio_stream; 661 set_bit(DEVICE_CATEGORY_SOUND, dc->categories); 662 dc->reset = hda_audio_reset; 663 dc->vmsd = &vmstate_hda_audio; 664 dc->props = hda_audio_properties; 665 } 666 667 static const TypeInfo hda_audio_info = { 668 .name = TYPE_HDA_AUDIO, 669 .parent = TYPE_HDA_CODEC_DEVICE, 670 .class_init = hda_audio_base_class_init, 671 .abstract = true, 672 }; 673 674 static void hda_audio_output_class_init(ObjectClass *klass, void *data) 675 { 676 DeviceClass *dc = DEVICE_CLASS(klass); 677 HDACodecDeviceClass *k = HDA_CODEC_DEVICE_CLASS(klass); 678 679 k->init = hda_audio_init_output; 680 dc->desc = "HDA Audio Codec, output-only (line-out)"; 681 } 682 683 static const TypeInfo hda_audio_output_info = { 684 .name = "hda-output", 685 .parent = TYPE_HDA_AUDIO, 686 .instance_size = sizeof(HDAAudioState), 687 .class_init = hda_audio_output_class_init, 688 }; 689 690 static void hda_audio_duplex_class_init(ObjectClass *klass, void *data) 691 { 692 DeviceClass *dc = DEVICE_CLASS(klass); 693 HDACodecDeviceClass *k = HDA_CODEC_DEVICE_CLASS(klass); 694 695 k->init = hda_audio_init_duplex; 696 dc->desc = "HDA Audio Codec, duplex (line-out, line-in)"; 697 } 698 699 static const TypeInfo hda_audio_duplex_info = { 700 .name = "hda-duplex", 701 .parent = TYPE_HDA_AUDIO, 702 .instance_size = sizeof(HDAAudioState), 703 .class_init = hda_audio_duplex_class_init, 704 }; 705 706 static void hda_audio_micro_class_init(ObjectClass *klass, void *data) 707 { 708 DeviceClass *dc = DEVICE_CLASS(klass); 709 HDACodecDeviceClass *k = HDA_CODEC_DEVICE_CLASS(klass); 710 711 k->init = hda_audio_init_micro; 712 dc->desc = "HDA Audio Codec, duplex (speaker, microphone)"; 713 } 714 715 static const TypeInfo hda_audio_micro_info = { 716 .name = "hda-micro", 717 .parent = TYPE_HDA_AUDIO, 718 .instance_size = sizeof(HDAAudioState), 719 .class_init = hda_audio_micro_class_init, 720 }; 721 722 static void hda_audio_register_types(void) 723 { 724 type_register_static(&hda_audio_info); 725 type_register_static(&hda_audio_output_info); 726 type_register_static(&hda_audio_duplex_info); 727 type_register_static(&hda_audio_micro_info); 728 } 729 730 type_init(hda_audio_register_types) 731