1 /* Copyright (c) 2012 The Chromium OS Authors. All rights reserved.
2 * Use of this source code is governed by a BSD-style license that can be
3 * found in the LICENSE file.
4 */
5
6 #include <assert.h>
7 #include <stdlib.h>
8 #include <syslog.h>
9
10 #include "audio_thread.h"
11 #include "cras_apm_list.h"
12 #include "cras_config.h"
13 #include "cras_dsp.h"
14 #include "cras_iodev.h"
15 #include "cras_iodev_list.h"
16 #include "cras_messages.h"
17 #include "cras_observer.h"
18 #include "cras_rclient.h"
19 #include "cras_rstream.h"
20 #include "cras_server_metrics.h"
21 #include "cras_system_state.h"
22 #include "cras_types.h"
23 #include "cras_util.h"
24 #include "stream_list.h"
25 #include "utlist.h"
26
27 /* An attached client.
28 * id - The id of the client.
29 * fd - Connection for client communication.
30 */
31 struct cras_rclient {
32 struct cras_observer_client *observer;
33 size_t id;
34 int fd;
35 };
36
37 /* Handles a message from the client to connect a new stream */
handle_client_stream_connect(struct cras_rclient * client,const struct cras_connect_message * msg,int aud_fd)38 static int handle_client_stream_connect(struct cras_rclient *client,
39 const struct cras_connect_message *msg,
40 int aud_fd)
41 {
42 struct cras_rstream *stream;
43 struct cras_client_stream_connected stream_connected;
44 struct cras_client_stream_connected_old stream_connected_old;
45 struct cras_client_message *reply;
46 struct cras_audio_format remote_fmt;
47 struct cras_rstream_config stream_config;
48 int rc;
49 int stream_fds[2];
50
51 unpack_cras_audio_format(&remote_fmt, &msg->format);
52
53 /* check the aud_fd is valid. */
54 if (aud_fd < 0) {
55 syslog(LOG_ERR, "Invalid fd in stream connect.\n");
56 rc = -EINVAL;
57 goto reply_err;
58 }
59 /* When full, getting an error is preferable to blocking. */
60 cras_make_fd_nonblocking(aud_fd);
61
62 /* Create the stream with the specified parameters. */
63 stream_config.stream_id = msg->stream_id;
64 stream_config.stream_type = msg->stream_type;
65 stream_config.direction = msg->direction;
66 stream_config.dev_idx = msg->dev_idx;
67 stream_config.flags = msg->flags;
68 stream_config.effects = msg->effects;
69 stream_config.format = &remote_fmt;
70 stream_config.buffer_frames = msg->buffer_frames;
71 stream_config.cb_threshold = msg->cb_threshold;
72 stream_config.audio_fd = aud_fd;
73 stream_config.client = client;
74 rc = stream_list_add(cras_iodev_list_get_stream_list(),
75 &stream_config, &stream);
76 if (rc) {
77 rc = -ENOMEM;
78 goto reply_err;
79 }
80
81 /* Tell client about the stream setup. */
82 syslog(LOG_DEBUG, "Send connected for stream %x\n", msg->stream_id);
83 if (msg->proto_version == CRAS_PROTO_VER) {
84 cras_fill_client_stream_connected(
85 &stream_connected,
86 0, /* No error. */
87 msg->stream_id,
88 &remote_fmt,
89 cras_rstream_get_total_shm_size(stream),
90 cras_rstream_get_effects(stream));
91 reply = &stream_connected.header;
92 } else {
93 cras_fill_client_stream_connected_old(
94 &stream_connected_old,
95 0, /* No error. */
96 msg->stream_id,
97 &remote_fmt,
98 cras_rstream_get_total_shm_size(stream));
99 reply = &stream_connected_old.header;
100 }
101 stream_fds[0] = cras_rstream_input_shm_fd(stream);
102 stream_fds[1] = cras_rstream_output_shm_fd(stream);
103 rc = cras_rclient_send_message(client, reply, stream_fds, 2);
104 if (rc < 0) {
105 syslog(LOG_ERR, "Failed to send connected messaged\n");
106 stream_list_rm(cras_iodev_list_get_stream_list(),
107 stream->stream_id);
108 goto reply_err;
109 }
110
111 /* Metrics logs the stream configurations. */
112 cras_server_metrics_stream_config(&stream_config);
113
114 return 0;
115
116 reply_err:
117 /* Send the error code to the client. */
118 if (msg->proto_version == CRAS_PROTO_VER) {
119 cras_fill_client_stream_connected(
120 &stream_connected, rc, msg->stream_id,
121 &remote_fmt, 0, msg->effects);
122 reply = &stream_connected.header;
123 } else {
124 cras_fill_client_stream_connected_old(
125 &stream_connected_old, rc, msg->stream_id,
126 &remote_fmt, 0);
127 reply = &stream_connected_old.header;
128 }
129 cras_rclient_send_message(client, reply, NULL, 0);
130
131 if (aud_fd >= 0)
132 close(aud_fd);
133
134 return rc;
135 }
136
137 /* Handles messages from the client requesting that a stream be removed from the
138 * server. */
handle_client_stream_disconnect(struct cras_rclient * client,const struct cras_disconnect_stream_message * msg)139 static int handle_client_stream_disconnect(
140 struct cras_rclient *client,
141 const struct cras_disconnect_stream_message *msg)
142 {
143 return stream_list_rm(cras_iodev_list_get_stream_list(),
144 msg->stream_id);
145 }
146
147 /* Handles dumping audio thread debug info back to the client. */
dump_audio_thread_info(struct cras_rclient * client)148 static void dump_audio_thread_info(struct cras_rclient *client)
149 {
150 struct cras_client_audio_debug_info_ready msg;
151 struct cras_server_state *state;
152
153 cras_fill_client_audio_debug_info_ready(&msg);
154 state = cras_system_state_get_no_lock();
155 audio_thread_dump_thread_info(cras_iodev_list_get_audio_thread(),
156 &state->audio_debug_info);
157 cras_rclient_send_message(client, &msg.header, NULL, 0);
158 }
159
160 /* Handles dumping audio snapshots to shared memory for the client. */
dump_audio_thread_snapshots(struct cras_rclient * client)161 static void dump_audio_thread_snapshots(struct cras_rclient *client)
162 {
163 struct cras_client_audio_debug_info_ready msg;
164
165 cras_fill_client_audio_debug_info_ready(&msg);
166 cras_system_state_dump_snapshots();
167 cras_rclient_send_message(client, &msg.header, NULL, 0);
168 }
169
handle_get_hotword_models(struct cras_rclient * client,cras_node_id_t node_id)170 static void handle_get_hotword_models(struct cras_rclient *client,
171 cras_node_id_t node_id)
172 {
173 struct cras_client_get_hotword_models_ready *msg;
174 char *hotword_models;
175 unsigned hotword_models_size;
176 uint8_t buf[CRAS_CLIENT_MAX_MSG_SIZE];
177
178 msg = (struct cras_client_get_hotword_models_ready *)buf;
179 hotword_models = cras_iodev_list_get_hotword_models(node_id);
180 if (!hotword_models)
181 goto empty_reply;
182 hotword_models_size = strlen(hotword_models);
183 if (hotword_models_size + sizeof(*msg) > CRAS_CLIENT_MAX_MSG_SIZE) {
184 free(hotword_models);
185 goto empty_reply;
186 }
187
188 cras_fill_client_get_hotword_models_ready(msg, hotword_models,
189 hotword_models_size);
190 cras_rclient_send_message(client, &msg->header, NULL, 0);
191 free(hotword_models);
192 return;
193
194 empty_reply:
195 cras_fill_client_get_hotword_models_ready(msg, NULL, 0);
196 cras_rclient_send_message(client, &msg->header, NULL, 0);
197 }
198
199 /* Client notification callback functions. */
200
send_output_volume_changed(void * context,int32_t volume)201 static void send_output_volume_changed(void *context, int32_t volume)
202 {
203 struct cras_client_volume_changed msg;
204 struct cras_rclient *client = (struct cras_rclient *)context;
205
206 cras_fill_client_output_volume_changed(&msg, volume);
207 cras_rclient_send_message(client, &msg.header, NULL, 0);
208 }
209
send_output_mute_changed(void * context,int muted,int user_muted,int mute_locked)210 static void send_output_mute_changed(void *context, int muted,
211 int user_muted, int mute_locked)
212 {
213 struct cras_client_mute_changed msg;
214 struct cras_rclient *client = (struct cras_rclient *)context;
215
216 cras_fill_client_output_mute_changed(&msg, muted,
217 user_muted, mute_locked);
218 cras_rclient_send_message(client, &msg.header, NULL, 0);
219 }
220
send_capture_gain_changed(void * context,int32_t gain)221 static void send_capture_gain_changed(void *context, int32_t gain)
222 {
223 struct cras_client_volume_changed msg;
224 struct cras_rclient *client = (struct cras_rclient *)context;
225
226 cras_fill_client_capture_gain_changed(&msg, gain);
227 cras_rclient_send_message(client, &msg.header, NULL, 0);
228 }
229
send_capture_mute_changed(void * context,int muted,int mute_locked)230 static void send_capture_mute_changed(void *context, int muted, int mute_locked)
231 {
232 struct cras_client_mute_changed msg;
233 struct cras_rclient *client = (struct cras_rclient *)context;
234
235 cras_fill_client_capture_mute_changed(&msg, muted, mute_locked);
236 cras_rclient_send_message(client, &msg.header, NULL, 0);
237 }
238
send_nodes_changed(void * context)239 static void send_nodes_changed(void *context)
240 {
241 struct cras_client_nodes_changed msg;
242 struct cras_rclient *client = (struct cras_rclient *)context;
243
244 cras_fill_client_nodes_changed(&msg);
245 cras_rclient_send_message(client, &msg.header, NULL, 0);
246 }
247
send_active_node_changed(void * context,enum CRAS_STREAM_DIRECTION dir,cras_node_id_t node_id)248 static void send_active_node_changed(void *context,
249 enum CRAS_STREAM_DIRECTION dir,
250 cras_node_id_t node_id)
251 {
252 struct cras_client_active_node_changed msg;
253 struct cras_rclient *client = (struct cras_rclient *)context;
254
255 cras_fill_client_active_node_changed(&msg, dir, node_id);
256 cras_rclient_send_message(client, &msg.header, NULL, 0);
257 }
258
send_output_node_volume_changed(void * context,cras_node_id_t node_id,int32_t volume)259 static void send_output_node_volume_changed(void *context,
260 cras_node_id_t node_id,
261 int32_t volume)
262 {
263 struct cras_client_node_value_changed msg;
264 struct cras_rclient *client = (struct cras_rclient *)context;
265
266 cras_fill_client_output_node_volume_changed(&msg, node_id, volume);
267 cras_rclient_send_message(client, &msg.header, NULL, 0);
268 }
269
send_node_left_right_swapped_changed(void * context,cras_node_id_t node_id,int swapped)270 static void send_node_left_right_swapped_changed(void *context,
271 cras_node_id_t node_id,
272 int swapped)
273 {
274 struct cras_client_node_value_changed msg;
275 struct cras_rclient *client = (struct cras_rclient *)context;
276
277 cras_fill_client_node_left_right_swapped_changed(
278 &msg, node_id, swapped);
279 cras_rclient_send_message(client, &msg.header, NULL, 0);
280 }
281
send_input_node_gain_changed(void * context,cras_node_id_t node_id,int32_t gain)282 static void send_input_node_gain_changed(void *context,
283 cras_node_id_t node_id,
284 int32_t gain)
285 {
286 struct cras_client_node_value_changed msg;
287 struct cras_rclient *client = (struct cras_rclient *)context;
288
289 cras_fill_client_input_node_gain_changed(&msg, node_id, gain);
290 cras_rclient_send_message(client, &msg.header, NULL, 0);
291 }
292
send_num_active_streams_changed(void * context,enum CRAS_STREAM_DIRECTION dir,uint32_t num_active_streams)293 static void send_num_active_streams_changed(void *context,
294 enum CRAS_STREAM_DIRECTION dir,
295 uint32_t num_active_streams)
296 {
297 struct cras_client_num_active_streams_changed msg;
298 struct cras_rclient *client = (struct cras_rclient *)context;
299
300 cras_fill_client_num_active_streams_changed(
301 &msg, dir, num_active_streams);
302 cras_rclient_send_message(client, &msg.header, NULL, 0);
303 }
304
register_for_notification(struct cras_rclient * client,enum CRAS_CLIENT_MESSAGE_ID msg_id,int do_register)305 static void register_for_notification(struct cras_rclient *client,
306 enum CRAS_CLIENT_MESSAGE_ID msg_id,
307 int do_register)
308 {
309 struct cras_observer_ops observer_ops;
310 int empty;
311
312 cras_observer_get_ops(client->observer, &observer_ops);
313
314 switch (msg_id) {
315 case CRAS_CLIENT_OUTPUT_VOLUME_CHANGED:
316 observer_ops.output_volume_changed =
317 do_register ? send_output_volume_changed : NULL;
318 break;
319 case CRAS_CLIENT_OUTPUT_MUTE_CHANGED:
320 observer_ops.output_mute_changed =
321 do_register ? send_output_mute_changed : NULL;
322 break;
323 case CRAS_CLIENT_CAPTURE_GAIN_CHANGED:
324 observer_ops.capture_gain_changed =
325 do_register ? send_capture_gain_changed : NULL;
326 break;
327 case CRAS_CLIENT_CAPTURE_MUTE_CHANGED:
328 observer_ops.capture_mute_changed =
329 do_register ? send_capture_mute_changed : NULL;
330 break;
331 case CRAS_CLIENT_NODES_CHANGED:
332 observer_ops.nodes_changed =
333 do_register ? send_nodes_changed : NULL;
334 break;
335 case CRAS_CLIENT_ACTIVE_NODE_CHANGED:
336 observer_ops.active_node_changed =
337 do_register ? send_active_node_changed : NULL;
338 break;
339 case CRAS_CLIENT_OUTPUT_NODE_VOLUME_CHANGED:
340 observer_ops.output_node_volume_changed =
341 do_register ? send_output_node_volume_changed : NULL;
342 break;
343 case CRAS_CLIENT_NODE_LEFT_RIGHT_SWAPPED_CHANGED:
344 observer_ops.node_left_right_swapped_changed =
345 do_register ? send_node_left_right_swapped_changed : NULL;
346 break;
347 case CRAS_CLIENT_INPUT_NODE_GAIN_CHANGED:
348 observer_ops.input_node_gain_changed =
349 do_register ? send_input_node_gain_changed : NULL;
350 break;
351 case CRAS_CLIENT_NUM_ACTIVE_STREAMS_CHANGED:
352 observer_ops.num_active_streams_changed =
353 do_register ? send_num_active_streams_changed : NULL;
354 break;
355 default:
356 syslog(LOG_ERR,
357 "Invalid client notification message ID: %u", msg_id);
358 break;
359 }
360
361 empty = cras_observer_ops_are_empty(&observer_ops);
362 if (client->observer) {
363 if (empty) {
364 cras_observer_remove(client->observer);
365 client->observer = NULL;
366 } else {
367 cras_observer_set_ops(client->observer, &observer_ops);
368 }
369 } else if (!empty) {
370 client->observer = cras_observer_add(&observer_ops, client);
371 }
372 }
373
374 /*
375 * Exported Functions.
376 */
377
378 /* Creates a client structure and sends a message back informing the client that
379 * the conneciton has succeeded. */
cras_rclient_create(int fd,size_t id)380 struct cras_rclient *cras_rclient_create(int fd, size_t id)
381 {
382 struct cras_rclient *client;
383 struct cras_client_connected msg;
384 int state_fd;
385
386 client = (struct cras_rclient *)calloc(1, sizeof(struct cras_rclient));
387 if (!client)
388 return NULL;
389
390 client->fd = fd;
391 client->id = id;
392
393 cras_fill_client_connected(&msg, client->id);
394 state_fd = cras_sys_state_shm_fd();
395 cras_rclient_send_message(client, &msg.header, &state_fd, 1);
396
397 return client;
398 }
399
400 /* Removes all streams that the client owns and destroys it. */
cras_rclient_destroy(struct cras_rclient * client)401 void cras_rclient_destroy(struct cras_rclient *client)
402 {
403 cras_observer_remove(client->observer);
404 stream_list_rm_all_client_streams(
405 cras_iodev_list_get_stream_list(), client);
406 free(client);
407 }
408
409 /* Entry point for handling a message from the client. Called from the main
410 * server context. */
cras_rclient_buffer_from_client(struct cras_rclient * client,const uint8_t * buf,size_t buf_len,int fd)411 int cras_rclient_buffer_from_client(struct cras_rclient *client,
412 const uint8_t *buf,
413 size_t buf_len,
414 int fd) {
415 struct cras_server_message *msg = (struct cras_server_message *)buf;
416
417 if (buf_len < sizeof(*msg))
418 return -EINVAL;
419 if (msg->length != buf_len)
420 return -EINVAL;
421 cras_rclient_message_from_client(client, msg, fd);
422 return 0;
423 }
424
direction_valid(enum CRAS_STREAM_DIRECTION direction)425 static int direction_valid(enum CRAS_STREAM_DIRECTION direction)
426 {
427 return direction < CRAS_NUM_DIRECTIONS &&
428 direction != CRAS_STREAM_UNDEFINED;
429 }
430
431 #define MSG_LEN_VALID(msg, type) ((msg)->length >= sizeof(type))
432
433 /*
434 * Check if client is sending an old version of connect message
435 * and converts it to the correct cras_connect_message.
436 * Note that this is special check only for libcras transition in
437 * clients, from CRAS_PROTO_VER = 1 to 2.
438 * TODO(hychao): clean up the check once clients transition is done.
439 */
is_connect_msg_old(const struct cras_server_message * msg,struct cras_connect_message * cmsg)440 static int is_connect_msg_old(const struct cras_server_message *msg,
441 struct cras_connect_message *cmsg)
442 {
443 struct cras_connect_message_old *old;
444
445 if (!MSG_LEN_VALID(msg, struct cras_connect_message_old))
446 return 0;
447
448 old = (struct cras_connect_message_old *)msg;
449 if (old->proto_version + 1 != CRAS_PROTO_VER)
450 return 0;
451
452 memcpy(cmsg, old, sizeof(*old));
453 cmsg->effects = 0;
454 return 1;
455 }
456
457 /* Entry point for handling a message from the client. Called from the main
458 * server context. */
cras_rclient_message_from_client(struct cras_rclient * client,const struct cras_server_message * msg,int fd)459 int cras_rclient_message_from_client(struct cras_rclient *client,
460 const struct cras_server_message *msg,
461 int fd) {
462 struct cras_connect_message cmsg;
463
464 assert(client && msg);
465
466 /* Most messages should not have a file descriptor. */
467 switch (msg->id) {
468 case CRAS_SERVER_CONNECT_STREAM:
469 break;
470 case CRAS_SERVER_SET_AEC_DUMP:
471 syslog(LOG_ERR, "client msg for APM debug, fd %d", fd);
472 break;
473 default:
474 if (fd != -1) {
475 syslog(LOG_ERR,
476 "Message %d should not have fd attached.",
477 msg->id);
478 close(fd);
479 return -1;
480 }
481 break;
482 }
483
484 switch (msg->id) {
485 case CRAS_SERVER_CONNECT_STREAM:
486 if (MSG_LEN_VALID(msg, struct cras_connect_message)) {
487 handle_client_stream_connect(client,
488 (const struct cras_connect_message *)msg, fd);
489 } else if (is_connect_msg_old(msg, &cmsg)) {
490 handle_client_stream_connect(client, &cmsg, fd);
491 } else {
492 return -EINVAL;
493 }
494 break;
495 case CRAS_SERVER_DISCONNECT_STREAM:
496 if (!MSG_LEN_VALID(msg, struct cras_disconnect_stream_message))
497 return -EINVAL;
498 handle_client_stream_disconnect(client,
499 (const struct cras_disconnect_stream_message *)msg);
500 break;
501 case CRAS_SERVER_SET_SYSTEM_VOLUME:
502 if (!MSG_LEN_VALID(msg, struct cras_set_system_volume))
503 return -EINVAL;
504 cras_system_set_volume(
505 ((const struct cras_set_system_volume *)msg)->volume);
506 break;
507 case CRAS_SERVER_SET_SYSTEM_MUTE:
508 if (!MSG_LEN_VALID(msg, struct cras_set_system_mute))
509 return -EINVAL;
510 cras_system_set_mute(
511 ((const struct cras_set_system_mute *)msg)->mute);
512 break;
513 case CRAS_SERVER_SET_USER_MUTE:
514 if (!MSG_LEN_VALID(msg, struct cras_set_system_mute))
515 return -EINVAL;
516 cras_system_set_user_mute(
517 ((const struct cras_set_system_mute *)msg)->mute);
518 break;
519 case CRAS_SERVER_SET_SYSTEM_MUTE_LOCKED:
520 if (!MSG_LEN_VALID(msg, struct cras_set_system_mute))
521 return -EINVAL;
522 cras_system_set_mute_locked(
523 ((const struct cras_set_system_mute *)msg)->mute);
524 break;
525 case CRAS_SERVER_SET_SYSTEM_CAPTURE_GAIN: {
526 const struct cras_set_system_capture_gain *m =
527 (const struct cras_set_system_capture_gain *)msg;
528 if (!MSG_LEN_VALID(msg, struct cras_set_system_capture_gain))
529 return -EINVAL;
530 cras_system_set_capture_gain(m->gain);
531 break;
532 }
533 case CRAS_SERVER_SET_SYSTEM_CAPTURE_MUTE:
534 if (!MSG_LEN_VALID(msg, struct cras_set_system_mute))
535 return -EINVAL;
536 cras_system_set_capture_mute(
537 ((const struct cras_set_system_mute *)msg)->mute);
538 break;
539 case CRAS_SERVER_SET_SYSTEM_CAPTURE_MUTE_LOCKED:
540 if (!MSG_LEN_VALID(msg, struct cras_set_system_mute))
541 return -EINVAL;
542 cras_system_set_capture_mute_locked(
543 ((const struct cras_set_system_mute *)msg)->mute);
544 break;
545 case CRAS_SERVER_SET_NODE_ATTR: {
546 const struct cras_set_node_attr *m =
547 (const struct cras_set_node_attr *)msg;
548 if (!MSG_LEN_VALID(msg, struct cras_set_node_attr))
549 return -EINVAL;
550 cras_iodev_list_set_node_attr(m->node_id, m->attr, m->value);
551 break;
552 }
553 case CRAS_SERVER_SELECT_NODE: {
554 const struct cras_select_node *m =
555 (const struct cras_select_node *)msg;
556 if (!MSG_LEN_VALID(msg, struct cras_select_node) ||
557 !direction_valid(m->direction))
558 return -EINVAL;
559 cras_iodev_list_select_node(m->direction, m->node_id);
560 break;
561 }
562 case CRAS_SERVER_ADD_ACTIVE_NODE: {
563 const struct cras_add_active_node *m =
564 (const struct cras_add_active_node *)msg;
565 if (!MSG_LEN_VALID(msg, struct cras_add_active_node) ||
566 !direction_valid(m->direction))
567 return -EINVAL;
568 cras_iodev_list_add_active_node(m->direction, m->node_id);
569 break;
570 }
571 case CRAS_SERVER_RM_ACTIVE_NODE: {
572 const struct cras_rm_active_node *m =
573 (const struct cras_rm_active_node *)msg;
574 if (!MSG_LEN_VALID(msg, struct cras_rm_active_node) ||
575 !direction_valid(m->direction))
576 return -EINVAL;
577 cras_iodev_list_rm_active_node(m->direction, m->node_id);
578 break;
579 }
580 case CRAS_SERVER_RELOAD_DSP:
581 cras_dsp_reload_ini();
582 break;
583 case CRAS_SERVER_DUMP_DSP_INFO:
584 cras_dsp_dump_info();
585 break;
586 case CRAS_SERVER_DUMP_AUDIO_THREAD:
587 dump_audio_thread_info(client);
588 break;
589 case CRAS_SERVER_DUMP_SNAPSHOTS:
590 dump_audio_thread_snapshots(client);
591 break;
592 case CRAS_SERVER_ADD_TEST_DEV: {
593 const struct cras_add_test_dev *m =
594 (const struct cras_add_test_dev *)msg;
595 if (!MSG_LEN_VALID(msg, struct cras_add_test_dev))
596 return -EINVAL;
597 cras_iodev_list_add_test_dev(m->type);
598 break;
599 }
600 case CRAS_SERVER_TEST_DEV_COMMAND: {
601 const struct cras_test_dev_command *m =
602 (const struct cras_test_dev_command *)msg;
603 if (!MSG_LEN_VALID(msg, struct cras_test_dev_command))
604 return -EINVAL;
605 cras_iodev_list_test_dev_command(
606 m->iodev_idx, (enum CRAS_TEST_IODEV_CMD)m->command,
607 m->data_len, m->data);
608 break;
609 }
610 case CRAS_SERVER_SUSPEND:
611 cras_system_set_suspended(1);
612 break;
613 case CRAS_SERVER_RESUME:
614 cras_system_set_suspended(0);
615 break;
616 case CRAS_CONFIG_GLOBAL_REMIX: {
617 const struct cras_config_global_remix *m =
618 (const struct cras_config_global_remix *)msg;
619 if (!MSG_LEN_VALID(msg, struct cras_config_global_remix) ||
620 m->num_channels > CRAS_MAX_REMIX_CHANNELS)
621 return -EINVAL;
622 size_t size_with_coefficients = sizeof(*m) +
623 m->num_channels * m->num_channels *
624 sizeof(m->coefficient[0]);
625 if (size_with_coefficients != msg->length)
626 return -EINVAL;
627 audio_thread_config_global_remix(
628 cras_iodev_list_get_audio_thread(),
629 m->num_channels,
630 m->coefficient);
631 break;
632 }
633 case CRAS_SERVER_GET_HOTWORD_MODELS: {
634 if (!MSG_LEN_VALID(msg, struct cras_get_hotword_models))
635 return -EINVAL;
636 handle_get_hotword_models(client,
637 ((const struct cras_get_hotword_models *)msg)->node_id);
638 break;
639 }
640 case CRAS_SERVER_SET_HOTWORD_MODEL: {
641 const struct cras_set_hotword_model *m =
642 (const struct cras_set_hotword_model *)msg;
643 if (!MSG_LEN_VALID(msg, struct cras_set_hotword_model))
644 return -EINVAL;
645 cras_iodev_list_set_hotword_model(m->node_id,
646 m->model_name);
647 break;
648 }
649 case CRAS_SERVER_REGISTER_NOTIFICATION: {
650 const struct cras_register_notification *m =
651 (struct cras_register_notification *)msg;
652 if (!MSG_LEN_VALID(msg, struct cras_register_notification))
653 return -EINVAL;
654 register_for_notification(
655 client, (enum CRAS_CLIENT_MESSAGE_ID)m->msg_id,
656 m->do_register);
657 break;
658 }
659 case CRAS_SERVER_SET_AEC_DUMP: {
660 const struct cras_set_aec_dump *m =
661 (const struct cras_set_aec_dump *)msg;
662 if (!MSG_LEN_VALID(msg, struct cras_set_aec_dump))
663 return -EINVAL;
664 audio_thread_set_aec_dump(
665 cras_iodev_list_get_audio_thread(),
666 m->stream_id,
667 m->start, fd);
668 break;
669 }
670 case CRAS_SERVER_RELOAD_AEC_CONFIG:
671 cras_apm_list_reload_aec_config();
672 break;
673 default:
674 break;
675 }
676
677 return 0;
678 }
679
680 /* Sends a message to the client. */
cras_rclient_send_message(const struct cras_rclient * client,const struct cras_client_message * msg,int * fds,unsigned int num_fds)681 int cras_rclient_send_message(const struct cras_rclient *client,
682 const struct cras_client_message *msg,
683 int *fds,
684 unsigned int num_fds)
685 {
686 return cras_send_with_fds(client->fd, (const void *)msg, msg->length,
687 fds, num_fds);
688 }
689
690