/* Copyright (c) 2012 The Chromium OS Authors. All rights reserved. * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ /* * Messages sent between the server and clients. */ #ifndef CRAS_MESSAGES_H_ #define CRAS_MESSAGES_H_ #include #include "cras_iodev_info.h" #include "cras_types.h" /* Rev when message format changes. If new messages are added, or message ID * values change. */ #define CRAS_PROTO_VER 5 #define CRAS_SERV_MAX_MSG_SIZE 256 #define CRAS_CLIENT_MAX_MSG_SIZE 256 #define CRAS_MAX_HOTWORD_MODELS 243 #define CRAS_MAX_REMIX_CHANNELS 32 #define CRAS_MAX_TEST_DATA_LEN 224 #define CRAS_AEC_DUMP_FILE_NAME_LEN 128 /* Message IDs. */ enum CRAS_SERVER_MESSAGE_ID { /* Client -> Server*/ CRAS_SERVER_CONNECT_STREAM, CRAS_SERVER_DISCONNECT_STREAM, CRAS_SERVER_SWITCH_STREAM_TYPE_IODEV, /* Unused */ CRAS_SERVER_SET_SYSTEM_VOLUME, CRAS_SERVER_SET_SYSTEM_MUTE, CRAS_SERVER_SET_USER_MUTE, CRAS_SERVER_SET_SYSTEM_MUTE_LOCKED, CRAS_SERVER_SET_SYSTEM_CAPTURE_GAIN, CRAS_SERVER_SET_SYSTEM_CAPTURE_MUTE, CRAS_SERVER_SET_SYSTEM_CAPTURE_MUTE_LOCKED, CRAS_SERVER_SET_NODE_ATTR, CRAS_SERVER_SELECT_NODE, CRAS_SERVER_RELOAD_DSP, CRAS_SERVER_DUMP_DSP_INFO, CRAS_SERVER_DUMP_AUDIO_THREAD, CRAS_SERVER_DUMP_SNAPSHOTS, CRAS_SERVER_ADD_ACTIVE_NODE, CRAS_SERVER_RM_ACTIVE_NODE, CRAS_SERVER_ADD_TEST_DEV, CRAS_SERVER_TEST_DEV_COMMAND, CRAS_SERVER_SUSPEND, CRAS_SERVER_RESUME, CRAS_CONFIG_GLOBAL_REMIX, CRAS_SERVER_GET_HOTWORD_MODELS, CRAS_SERVER_SET_HOTWORD_MODEL, CRAS_SERVER_REGISTER_NOTIFICATION, CRAS_SERVER_SET_AEC_DUMP, CRAS_SERVER_RELOAD_AEC_CONFIG, CRAS_SERVER_DUMP_BT, CRAS_SERVER_SET_BT_WBS_ENABLED, CRAS_SERVER_GET_ATLOG_FD, }; enum CRAS_CLIENT_MESSAGE_ID { /* Server -> Client */ CRAS_CLIENT_CONNECTED, CRAS_CLIENT_STREAM_CONNECTED, CRAS_CLIENT_AUDIO_DEBUG_INFO_READY, CRAS_CLIENT_GET_HOTWORD_MODELS_READY, /* System status messages */ CRAS_CLIENT_OUTPUT_VOLUME_CHANGED, CRAS_CLIENT_OUTPUT_MUTE_CHANGED, CRAS_CLIENT_CAPTURE_GAIN_CHANGED, CRAS_CLIENT_CAPTURE_MUTE_CHANGED, CRAS_CLIENT_NODES_CHANGED, CRAS_CLIENT_ACTIVE_NODE_CHANGED, CRAS_CLIENT_OUTPUT_NODE_VOLUME_CHANGED, CRAS_CLIENT_NODE_LEFT_RIGHT_SWAPPED_CHANGED, CRAS_CLIENT_INPUT_NODE_GAIN_CHANGED, CRAS_CLIENT_NUM_ACTIVE_STREAMS_CHANGED, /* Server -> Client */ CRAS_CLIENT_ATLOG_FD_READY, }; /* Messages that control the server. These are sent from the client to affect * and action on the server. */ struct __attribute__((__packed__)) cras_server_message { uint32_t length; enum CRAS_SERVER_MESSAGE_ID id; }; /* Messages that control the client. These are sent from the server to affect * and action on the client. */ struct __attribute__((__packed__)) cras_client_message { uint32_t length; enum CRAS_CLIENT_MESSAGE_ID id; }; /* * Messages from client to server. */ /* Sent by a client to connect a stream to the server. */ struct __attribute__((__packed__)) cras_connect_message { struct cras_server_message header; uint32_t proto_version; enum CRAS_STREAM_DIRECTION direction; /* input/output/loopback */ cras_stream_id_t stream_id; /* unique id for this stream */ enum CRAS_STREAM_TYPE stream_type; /* media, or call, etc. */ uint32_t buffer_frames; /* Buffer size in frames. */ uint32_t cb_threshold; /* callback client when this much is left */ uint32_t flags; struct cras_audio_format_packed format; /* rate, channel, sample size */ uint32_t dev_idx; /* device to attach stream, 0 if none */ uint64_t effects; /* Bit map of requested effects. */ enum CRAS_CLIENT_TYPE client_type; /* chrome, or arc, etc. */ uint32_t client_shm_size; /* Size of client-provided samples shm, if any */ }; /* * Old version of connect message without 'cras_type' and 'client_shm_size' * defined. * Used to check against when receiving invalid size of connect message. * Expected to have proto_version set to 3. * TODO(yuhsuan): remove when all clients migrate to latest libcras. */ struct __attribute__((__packed__)) cras_connect_message_old { struct cras_server_message header; uint32_t proto_version; enum CRAS_STREAM_DIRECTION direction; /* input/output/loopback */ cras_stream_id_t stream_id; /* unique id for this stream */ enum CRAS_STREAM_TYPE stream_type; /* media, or call, etc. */ uint32_t buffer_frames; /* Buffer size in frames. */ uint32_t cb_threshold; /* callback client when this much is left */ uint32_t flags; struct cras_audio_format_packed format; /* rate, channel, sample size */ uint32_t dev_idx; /* device to attach stream, 0 if none */ uint64_t effects; /* Bit map of requested effects. */ }; static inline void cras_fill_connect_message( struct cras_connect_message *m, enum CRAS_STREAM_DIRECTION direction, cras_stream_id_t stream_id, enum CRAS_STREAM_TYPE stream_type, enum CRAS_CLIENT_TYPE client_type, size_t buffer_frames, size_t cb_threshold, uint32_t flags, uint64_t effects, struct cras_audio_format format, uint32_t dev_idx, uint32_t client_shm_size) { m->proto_version = CRAS_PROTO_VER; m->direction = direction; m->stream_id = stream_id; m->stream_type = stream_type; m->buffer_frames = buffer_frames; m->cb_threshold = cb_threshold; m->flags = flags; m->effects = effects; pack_cras_audio_format(&m->format, &format); m->dev_idx = dev_idx; m->client_type = client_type; m->client_shm_size = client_shm_size; m->header.id = CRAS_SERVER_CONNECT_STREAM; m->header.length = sizeof(struct cras_connect_message); } /* Sent by a client to remove a stream from the server. */ struct __attribute__((__packed__)) cras_disconnect_stream_message { struct cras_server_message header; cras_stream_id_t stream_id; }; static inline void cras_fill_disconnect_stream_message(struct cras_disconnect_stream_message *m, cras_stream_id_t stream_id) { m->stream_id = stream_id; m->header.id = CRAS_SERVER_DISCONNECT_STREAM; m->header.length = sizeof(struct cras_disconnect_stream_message); } /* Move streams of "type" to the iodev at "iodev_idx". */ struct __attribute__((__packed__)) cras_switch_stream_type_iodev { struct cras_server_message header; enum CRAS_STREAM_TYPE stream_type; uint32_t iodev_idx; }; /* Set the system volume. */ struct __attribute__((__packed__)) cras_set_system_volume { struct cras_server_message header; uint32_t volume; }; static inline void cras_fill_set_system_volume(struct cras_set_system_volume *m, size_t volume) { m->volume = volume; m->header.id = CRAS_SERVER_SET_SYSTEM_VOLUME; m->header.length = sizeof(*m); } /* Sets the capture gain. */ struct __attribute__((__packed__)) cras_set_system_capture_gain { struct cras_server_message header; int32_t gain; }; static inline void cras_fill_set_system_capture_gain(struct cras_set_system_capture_gain *m, long gain) { m->gain = gain; m->header.id = CRAS_SERVER_SET_SYSTEM_CAPTURE_GAIN; m->header.length = sizeof(*m); } /* Set the system mute state. */ struct __attribute__((__packed__)) cras_set_system_mute { struct cras_server_message header; int32_t mute; /* 0 = un-mute, 1 = mute. */ }; static inline void cras_fill_set_system_mute(struct cras_set_system_mute *m, int mute) { m->mute = mute; m->header.id = CRAS_SERVER_SET_SYSTEM_MUTE; m->header.length = sizeof(*m); } static inline void cras_fill_set_user_mute(struct cras_set_system_mute *m, int mute) { m->mute = mute; m->header.id = CRAS_SERVER_SET_USER_MUTE; m->header.length = sizeof(*m); } static inline void cras_fill_set_system_mute_locked(struct cras_set_system_mute *m, int locked) { m->mute = locked; m->header.id = CRAS_SERVER_SET_SYSTEM_MUTE_LOCKED; m->header.length = sizeof(*m); } static inline void cras_fill_set_system_capture_mute(struct cras_set_system_mute *m, int mute) { m->mute = mute; m->header.id = CRAS_SERVER_SET_SYSTEM_CAPTURE_MUTE; m->header.length = sizeof(*m); } static inline void cras_fill_set_system_capture_mute_locked(struct cras_set_system_mute *m, int locked) { m->mute = locked; m->header.id = CRAS_SERVER_SET_SYSTEM_CAPTURE_MUTE_LOCKED; m->header.length = sizeof(*m); } /* Set an attribute of an ionode. */ struct __attribute__((__packed__)) cras_set_node_attr { struct cras_server_message header; cras_node_id_t node_id; enum ionode_attr attr; int32_t value; }; static inline void cras_fill_set_node_attr(struct cras_set_node_attr *m, cras_node_id_t node_id, enum ionode_attr attr, int value) { m->header.id = CRAS_SERVER_SET_NODE_ATTR; m->node_id = node_id; m->attr = attr; m->value = value; m->header.length = sizeof(*m); } /* Set an attribute of an ionode. */ struct __attribute__((__packed__)) cras_select_node { struct cras_server_message header; enum CRAS_STREAM_DIRECTION direction; cras_node_id_t node_id; }; static inline void cras_fill_select_node(struct cras_select_node *m, enum CRAS_STREAM_DIRECTION direction, cras_node_id_t node_id) { m->header.id = CRAS_SERVER_SELECT_NODE; m->direction = direction; m->node_id = node_id; m->header.length = sizeof(*m); } /* Add an active ionode. */ struct __attribute__((__packed__)) cras_add_active_node { struct cras_server_message header; enum CRAS_STREAM_DIRECTION direction; cras_node_id_t node_id; }; static inline void cras_fill_add_active_node(struct cras_add_active_node *m, enum CRAS_STREAM_DIRECTION direction, cras_node_id_t node_id) { m->header.id = CRAS_SERVER_ADD_ACTIVE_NODE; m->direction = direction; m->node_id = node_id; m->header.length = sizeof(*m); } /* Remove an active ionode. */ struct __attribute__((__packed__)) cras_rm_active_node { struct cras_server_message header; enum CRAS_STREAM_DIRECTION direction; cras_node_id_t node_id; }; static inline void cras_fill_rm_active_node(struct cras_rm_active_node *m, enum CRAS_STREAM_DIRECTION direction, cras_node_id_t node_id) { m->header.id = CRAS_SERVER_RM_ACTIVE_NODE; m->direction = direction; m->node_id = node_id; m->header.length = sizeof(*m); } /* Reload the dsp configuration. */ struct __attribute__((__packed__)) cras_reload_dsp { struct cras_server_message header; }; static inline void cras_fill_reload_dsp(struct cras_reload_dsp *m) { m->header.id = CRAS_SERVER_RELOAD_DSP; m->header.length = sizeof(*m); } /* Dump current dsp information to syslog. */ struct __attribute__((__packed__)) cras_dump_dsp_info { struct cras_server_message header; }; static inline void cras_fill_dump_dsp_info(struct cras_dump_dsp_info *m) { m->header.id = CRAS_SERVER_DUMP_DSP_INFO; m->header.length = sizeof(*m); } /* Dump current audio thread information to syslog. */ struct __attribute__((__packed__)) cras_dump_audio_thread { struct cras_server_message header; }; static inline void cras_fill_dump_audio_thread(struct cras_dump_audio_thread *m) { m->header.id = CRAS_SERVER_DUMP_AUDIO_THREAD; m->header.length = sizeof(*m); } struct __attribute__((__packed__)) cras_get_atlog_fd { struct cras_server_message header; }; static inline void cras_fill_get_atlog_fd(struct cras_get_atlog_fd *m) { m->header.id = CRAS_SERVER_GET_ATLOG_FD; m->header.length = sizeof(*m); } /* Dump bluetooth events and state changes. */ struct __attribute__((__packed__)) cras_dump_bt { struct cras_server_message header; }; static inline void cras_fill_dump_bt(struct cras_dump_bt *m) { m->header.id = CRAS_SERVER_DUMP_BT; m->header.length = sizeof(*m); } /* Dump current audio thread snapshots to shard memory with the client. */ struct __attribute__((__packed__)) cras_dump_snapshots { struct cras_server_message header; }; static inline void cras_fill_dump_snapshots(struct cras_dump_snapshots *m) { m->header.id = CRAS_SERVER_DUMP_SNAPSHOTS; m->header.length = sizeof(*m); } /* Add a test device. */ struct __attribute__((__packed__)) cras_add_test_dev { struct cras_server_message header; enum TEST_IODEV_TYPE type; }; static inline void cras_fill_add_test_dev(struct cras_add_test_dev *m, enum TEST_IODEV_TYPE type) { m->header.id = CRAS_SERVER_ADD_TEST_DEV; m->header.length = sizeof(*m); m->type = type; } /* Command a test device. */ struct __attribute__((__packed__)) cras_test_dev_command { struct cras_server_message header; unsigned int command; unsigned int iodev_idx; unsigned int data_len; uint8_t data[CRAS_MAX_TEST_DATA_LEN]; }; static inline void cras_fill_test_dev_command(struct cras_test_dev_command *m, unsigned int iodev_idx, enum CRAS_TEST_IODEV_CMD command, unsigned int data_len, const uint8_t *data) { m->header.id = CRAS_SERVER_TEST_DEV_COMMAND; m->header.length = sizeof(*m) + data_len; m->iodev_idx = iodev_idx; m->command = command; m->data_len = data_len; memcpy(m->data, data, data_len); } static inline void cras_fill_suspend_message(struct cras_server_message *m, int is_suspend) { m->id = is_suspend ? CRAS_SERVER_SUSPEND : CRAS_SERVER_RESUME; m->length = sizeof(*m); } /* * Configures the global remix converter. * `num_channels` must be less than `CRAS_MAX_REMIX_CHANNELS`. */ struct __attribute__((__packed__)) cras_config_global_remix { struct cras_server_message header; unsigned int num_channels; float coefficient[CRAS_MAX_REMIX_CHANNELS]; }; static inline void cras_fill_config_global_remix_command(struct cras_config_global_remix *m, unsigned int num_channels, float *coeff, unsigned int count) { m->header.id = CRAS_CONFIG_GLOBAL_REMIX; m->header.length = sizeof(*m) + count * sizeof(*coeff); m->num_channels = num_channels; memcpy(m->coefficient, coeff, count * sizeof(*coeff)); } /* Get supported hotword models. */ struct __attribute__((__packed__)) cras_get_hotword_models { struct cras_server_message header; cras_node_id_t node_id; }; static inline void cras_fill_get_hotword_models_message(struct cras_get_hotword_models *m, cras_node_id_t node_id) { m->header.id = CRAS_SERVER_GET_HOTWORD_MODELS; m->header.length = sizeof(*m); m->node_id = node_id; } /* Set desired hotword model. */ struct __attribute__((__packed__)) cras_set_hotword_model { struct cras_server_message header; cras_node_id_t node_id; char model_name[CRAS_MAX_HOTWORD_MODEL_NAME_SIZE]; }; static inline void cras_fill_set_hotword_model_message(struct cras_set_hotword_model *m, cras_node_id_t node_id, const char *model_name) { m->header.id = CRAS_SERVER_SET_HOTWORD_MODEL; m->header.length = sizeof(*m); m->node_id = node_id; memcpy(m->model_name, model_name, CRAS_MAX_HOTWORD_MODEL_NAME_SIZE); } /* Set aec dump to start or stop. */ struct __attribute__((__packed__)) cras_set_aec_dump { struct cras_server_message header; cras_stream_id_t stream_id; unsigned int start; }; static inline void cras_fill_set_aec_dump_message(struct cras_set_aec_dump *m, cras_stream_id_t stream_id, unsigned int start) { m->header.id = CRAS_SERVER_SET_AEC_DUMP; m->header.length = sizeof(*m); m->stream_id = stream_id; m->start = start; } /* Reload the aec configuration. */ struct __attribute__((__packed__)) cras_reload_aec_config { struct cras_server_message header; }; static inline void cras_fill_reload_aec_config(struct cras_reload_aec_config *m) { m->header.id = CRAS_SERVER_RELOAD_AEC_CONFIG; m->header.length = sizeof(*m); } /* Sets the flag to enable or disable bluetooth wideband speech feature. */ struct __attribute__((__packed__)) cras_set_bt_wbs_enabled { struct cras_server_message header; unsigned int enabled; }; static inline void cras_fill_set_bt_wbs_enabled(struct cras_set_bt_wbs_enabled *m, unsigned int enabled) { m->header.id = CRAS_SERVER_SET_BT_WBS_ENABLED; m->header.length = sizeof(*m); m->enabled = enabled; } struct __attribute__((__packed__)) cras_register_notification { struct cras_server_message header; uint32_t msg_id; int do_register; }; static inline void cras_fill_register_notification_message(struct cras_register_notification *m, enum CRAS_CLIENT_MESSAGE_ID msg_id, int do_register) { m->header.id = CRAS_SERVER_REGISTER_NOTIFICATION; m->header.length = sizeof(*m); m->msg_id = msg_id; m->do_register = do_register; } /* * Messages sent from server to client. */ /* Reply from the server indicating that the client has connected. */ struct __attribute__((__packed__)) cras_client_connected { struct cras_client_message header; uint32_t client_id; }; static inline void cras_fill_client_connected(struct cras_client_connected *m, size_t client_id) { m->client_id = client_id; m->header.id = CRAS_CLIENT_CONNECTED; m->header.length = sizeof(struct cras_client_connected); } /* * Reply from server that a stream has been successfully added. * Two file descriptors are added, input shm followed by out shm. * * samples_shm_size is shm_max_size for old clients. * TODO(fletcherw) remove comment once all clients are on CRAS_PROTO_VER >= 3. */ struct __attribute__((__packed__)) cras_client_stream_connected { struct cras_client_message header; int32_t err; cras_stream_id_t stream_id; struct cras_audio_format_packed format; uint32_t samples_shm_size; uint64_t effects; }; static inline void cras_fill_client_stream_connected(struct cras_client_stream_connected *m, int err, cras_stream_id_t stream_id, struct cras_audio_format *format, size_t samples_shm_size, uint64_t effects) { m->err = err; m->stream_id = stream_id; pack_cras_audio_format(&m->format, format); m->samples_shm_size = samples_shm_size; m->effects = effects; m->header.id = CRAS_CLIENT_STREAM_CONNECTED; m->header.length = sizeof(struct cras_client_stream_connected); } /* Sent from server to client when audio debug information is requested. */ struct __attribute__((__packed__)) cras_client_audio_debug_info_ready { struct cras_client_message header; }; static inline void cras_fill_client_audio_debug_info_ready( struct cras_client_audio_debug_info_ready *m) { m->header.id = CRAS_CLIENT_AUDIO_DEBUG_INFO_READY; m->header.length = sizeof(*m); } struct __attribute__((__packed__)) cras_client_atlog_fd_ready { struct cras_client_message header; }; static inline void cras_fill_client_atlog_fd_ready(struct cras_client_atlog_fd_ready *m) { m->header.id = CRAS_CLIENT_ATLOG_FD_READY; m->header.length = sizeof(*m); } /* Sent from server to client when hotword models info is ready. */ struct __attribute__((__packed__)) cras_client_get_hotword_models_ready { struct cras_client_message header; int32_t hotword_models_size; uint8_t hotword_models[CRAS_MAX_HOTWORD_MODELS + 1]; }; static inline void cras_fill_client_get_hotword_models_ready( struct cras_client_get_hotword_models_ready *m, const char *hotword_models, size_t hotword_models_size) { m->header.id = CRAS_CLIENT_GET_HOTWORD_MODELS_READY; m->header.length = sizeof(*m); m->hotword_models_size = hotword_models_size; /* Copy string data with terminator. */ if (hotword_models) { strncpy((char *)m->hotword_models, hotword_models, CRAS_MAX_HOTWORD_MODELS); m->hotword_models[CRAS_MAX_HOTWORD_MODELS] = '\0'; } } /* System status messages sent from server to client when state changes. */ struct __attribute__((__packed__)) cras_client_volume_changed { struct cras_client_message header; int32_t volume; }; static inline void cras_fill_client_output_volume_changed(struct cras_client_volume_changed *m, int32_t volume) { m->header.id = CRAS_CLIENT_OUTPUT_VOLUME_CHANGED; m->header.length = sizeof(*m); m->volume = volume; } static inline void cras_fill_client_capture_gain_changed(struct cras_client_volume_changed *m, int32_t gain) { m->header.id = CRAS_CLIENT_CAPTURE_GAIN_CHANGED; m->header.length = sizeof(*m); m->volume = gain; } struct __attribute__((__packed__)) cras_client_mute_changed { struct cras_client_message header; int32_t muted; int32_t user_muted; int32_t mute_locked; }; static inline void cras_fill_client_output_mute_changed(struct cras_client_mute_changed *m, int32_t muted, int32_t user_muted, int32_t mute_locked) { m->header.id = CRAS_CLIENT_OUTPUT_MUTE_CHANGED; m->header.length = sizeof(*m); m->muted = muted; m->user_muted = user_muted; m->mute_locked = mute_locked; } static inline void cras_fill_client_capture_mute_changed(struct cras_client_mute_changed *m, int32_t muted, int32_t mute_locked) { m->header.id = CRAS_CLIENT_CAPTURE_MUTE_CHANGED; m->header.length = sizeof(*m); m->muted = muted; m->user_muted = 0; m->mute_locked = mute_locked; } struct __attribute__((__packed__)) cras_client_nodes_changed { struct cras_client_message header; }; static inline void cras_fill_client_nodes_changed(struct cras_client_nodes_changed *m) { m->header.id = CRAS_CLIENT_NODES_CHANGED; m->header.length = sizeof(*m); } struct __attribute__((__packed__)) cras_client_active_node_changed { struct cras_client_message header; uint32_t direction; cras_node_id_t node_id; }; static inline void cras_fill_client_active_node_changed(struct cras_client_active_node_changed *m, enum CRAS_STREAM_DIRECTION direction, cras_node_id_t node_id) { m->header.id = CRAS_CLIENT_ACTIVE_NODE_CHANGED; m->header.length = sizeof(*m); m->direction = direction; m->node_id = node_id; }; struct __attribute__((__packed__)) cras_client_node_value_changed { struct cras_client_message header; cras_node_id_t node_id; int32_t value; }; static inline void cras_fill_client_output_node_volume_changed( struct cras_client_node_value_changed *m, cras_node_id_t node_id, int32_t volume) { m->header.id = CRAS_CLIENT_OUTPUT_NODE_VOLUME_CHANGED; m->header.length = sizeof(*m); m->node_id = node_id; m->value = volume; }; static inline void cras_fill_client_node_left_right_swapped_changed( struct cras_client_node_value_changed *m, cras_node_id_t node_id, int swapped) { m->header.id = CRAS_CLIENT_NODE_LEFT_RIGHT_SWAPPED_CHANGED; m->header.length = sizeof(*m); m->node_id = node_id; m->value = swapped; }; static inline void cras_fill_client_input_node_gain_changed( struct cras_client_node_value_changed *m, cras_node_id_t node_id, int32_t gain) { m->header.id = CRAS_CLIENT_INPUT_NODE_GAIN_CHANGED; m->header.length = sizeof(*m); m->node_id = node_id; m->value = gain; }; struct __attribute__((__packed__)) cras_client_num_active_streams_changed { struct cras_client_message header; uint32_t direction; uint32_t num_active_streams; }; static inline void cras_fill_client_num_active_streams_changed( struct cras_client_num_active_streams_changed *m, enum CRAS_STREAM_DIRECTION direction, uint32_t num_active_streams) { m->header.id = CRAS_CLIENT_NUM_ACTIVE_STREAMS_CHANGED; m->header.length = sizeof(*m); m->direction = direction; m->num_active_streams = num_active_streams; }; /* * Messages specific to passing audio between client and server */ enum CRAS_AUDIO_MESSAGE_ID { AUDIO_MESSAGE_REQUEST_DATA, AUDIO_MESSAGE_DATA_READY, AUDIO_MESSAGE_DATA_CAPTURED, NUM_AUDIO_MESSAGES }; struct __attribute__((__packed__)) audio_message { enum CRAS_AUDIO_MESSAGE_ID id; int32_t error; uint32_t frames; /* number of samples per channel */ }; #endif /* CRAS_MESSAGES_H_ */