/* 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. */ /* * Remote Stream - An audio steam from/to a client. */ #ifndef CRAS_RSTREAM_H_ #define CRAS_RSTREAM_H_ #include "buffer_share.h" #include "cras_apm_list.h" #include "cras_shm.h" #include "cras_types.h" #include "cras_rstream_config.h" #include "ewma_power.h" struct cras_connect_message; struct cras_rclient; struct dev_mix; /* Holds informations about the master active device. * Members: * dev_id - id of the master device. * dev_ptr - pointer to the master device. */ struct master_dev_info { int dev_id; void *dev_ptr; }; /* cras_rstream is used to manage an active audio stream from * a client. Each client can have any number of open streams for * playing or recording. * Members: * stream_id - identifier for this stream. * stream_type - not used. * client_type - The client type of this stream, like Chrome, ARC++. * direction - input or output. * flags - Indicative of what special handling is needed. * fd - Socket for requesting and sending audio buffer events. * buffer_frames - Buffer size in frames. * cb_threshold - Callback client when this much is left. * master_dev_info - The info of the master device this stream attaches to. * is_draining - The stream is draining and waiting to be removed. * client - The client who uses this stream. * shm - shared memory * audio_area - space for playback/capture audio * format - format of the stream * next_cb_ts - Next callback time for this stream. * sleep_interval_ts - Time between audio callbacks. * last_fetch_ts - The time of the last stream fetch. * longest_fetch_interval_ts - Longest interval between two fetches. * start_ts - The time when the stream started. * first_missed_cb_ts - The time when the first missed callback happens. * buf_state - State of the buffer from all devices for this stream. * apm_list - List of audio processing module instances. * ewma - The ewma instance to calculate stream volume. * num_attached_devs - Number of iodevs this stream has attached to. * num_missed_cb - Number of callback schedules have been missed. * queued_frames - Cached value of the number of queued frames in shm. * is_pinned - True if the stream is a pinned stream, false otherwise. * pinned_dev_idx - device the stream is pinned, 0 if none. * triggered - True if already notified TRIGGER_ONLY stream, false otherwise. */ struct cras_rstream { cras_stream_id_t stream_id; enum CRAS_STREAM_TYPE stream_type; enum CRAS_CLIENT_TYPE client_type; enum CRAS_STREAM_DIRECTION direction; uint32_t flags; int fd; size_t buffer_frames; size_t cb_threshold; int is_draining; struct master_dev_info master_dev; struct cras_rclient *client; struct cras_audio_shm *shm; struct cras_audio_area *audio_area; struct cras_audio_format format; struct timespec next_cb_ts; struct timespec sleep_interval_ts; struct timespec last_fetch_ts; struct timespec longest_fetch_interval; struct timespec start_ts; struct timespec first_missed_cb_ts; struct buffer_share *buf_state; struct cras_apm_list *apm_list; struct ewma_power ewma; int num_attached_devs; int num_missed_cb; int queued_frames; int is_pinned; uint32_t pinned_dev_idx; int triggered; struct cras_rstream *prev, *next; }; /* Creates an rstream. * Args: * config - Params for configuration of the new rstream. It's a mutable * borrow. * stream_out - Filled with the newly created stream pointer. * Returns: * 0 on success, EINVAL if an invalid argument is passed, or ENOMEM if out of * memory. */ int cras_rstream_create(struct cras_rstream_config *config, struct cras_rstream **stream_out); /* Destroys an rstream. */ void cras_rstream_destroy(struct cras_rstream *stream); /* Gets the id of the stream */ static inline cras_stream_id_t cras_rstream_id(const struct cras_rstream *stream) { return stream->stream_id; } /* Gets the total buffer size in frames for the given client stream. */ static inline size_t cras_rstream_get_buffer_frames(const struct cras_rstream *stream) { return stream->buffer_frames; } /* Gets the callback threshold in frames for the given client stream. */ static inline size_t cras_rstream_get_cb_threshold(const struct cras_rstream *stream) { return stream->cb_threshold; } /* Gets the max write size for the stream. */ static inline size_t cras_rstream_get_max_write_frames(const struct cras_rstream *stream) { if (stream->flags & BULK_AUDIO_OK) return cras_rstream_get_buffer_frames(stream); return cras_rstream_get_cb_threshold(stream); } /* Gets the stream type of this stream. */ static inline enum CRAS_STREAM_TYPE cras_rstream_get_type(const struct cras_rstream *stream) { return stream->stream_type; } /* Gets the direction (input/output/loopback) of the stream. */ static inline enum CRAS_STREAM_DIRECTION cras_rstream_get_direction(const struct cras_rstream *stream) { return stream->direction; } /* Gets the format for the stream. */ static inline void cras_rstream_set_format(struct cras_rstream *stream, const struct cras_audio_format *fmt) { stream->format = *fmt; } /* Sets the format for the stream. */ static inline int cras_rstream_get_format(const struct cras_rstream *stream, struct cras_audio_format *fmt) { *fmt = stream->format; return 0; } /* Gets the fd to be used to poll this client for audio. */ static inline int cras_rstream_get_audio_fd(const struct cras_rstream *stream) { return stream->fd; } /* Gets the is_draning flag. */ static inline int cras_rstream_get_is_draining(const struct cras_rstream *stream) { return stream->is_draining; } /* Sets the is_draning flag. */ static inline void cras_rstream_set_is_draining(struct cras_rstream *stream, int is_draining) { stream->is_draining = is_draining; } /* Gets the shm fds used for the stream shm */ static inline int cras_rstream_get_shm_fds(const struct cras_rstream *stream, int *header_fd, int *samples_fd) { if (!header_fd || !samples_fd) return -EINVAL; *header_fd = stream->shm->header_info.fd; *samples_fd = stream->shm->samples_info.fd; return 0; } /* Gets the size of the shm area used for samples for this stream. */ static inline size_t cras_rstream_get_samples_shm_size(const struct cras_rstream *stream) { return cras_shm_samples_size(stream->shm); } /* Gets shared memory region for this stream. */ static inline struct cras_audio_shm * cras_rstream_shm(struct cras_rstream *stream) { return stream->shm; } /* Checks if the stream uses an output device. */ static inline int stream_uses_output(const struct cras_rstream *s) { return cras_stream_uses_output_hw(s->direction); } /* Checks if the stream uses an input device. */ static inline int stream_uses_input(const struct cras_rstream *s) { return cras_stream_uses_input_hw(s->direction); } static inline int stream_is_server_only(const struct cras_rstream *s) { return s->flags & SERVER_ONLY; } /* Gets the enabled effects of this stream. */ unsigned int cras_rstream_get_effects(const struct cras_rstream *stream); /* Gets the format of data after stream specific processing. */ struct cras_audio_format * cras_rstream_post_processing_format(const struct cras_rstream *stream, void *dev_ptr); /* Checks how much time has passed since last stream fetch and records * the longest fetch interval. */ void cras_rstream_record_fetch_interval(struct cras_rstream *rstream, const struct timespec *now); /* Requests min_req frames from the client. */ int cras_rstream_request_audio(struct cras_rstream *stream, const struct timespec *now); /* Tells a capture client that count frames are ready. */ int cras_rstream_audio_ready(struct cras_rstream *stream, size_t count); /* Let the rstream know when a device is added or removed. */ void cras_rstream_dev_attach(struct cras_rstream *rstream, unsigned int dev_id, void *dev_ptr); void cras_rstream_dev_detach(struct cras_rstream *rstream, unsigned int dev_id); static inline void *cras_rstream_dev_ptr(struct cras_rstream *rstream, unsigned int dev_id) { return buffer_share_get_data(rstream->buf_state, dev_id); } /* A device using this stream has read or written samples. */ void cras_rstream_dev_offset_update(struct cras_rstream *rstream, unsigned int frames, unsigned int dev_id); void cras_rstream_update_input_write_pointer(struct cras_rstream *rstream); void cras_rstream_update_output_read_pointer(struct cras_rstream *rstream); unsigned int cras_rstream_dev_offset(const struct cras_rstream *rstream, unsigned int dev_id); static inline unsigned int cras_rstream_level(struct cras_rstream *rstream) { const struct cras_audio_shm *shm = cras_rstream_shm(rstream); return cras_shm_frames_written(shm); } static inline int cras_rstream_input_level_met(struct cras_rstream *rstream) { const struct cras_audio_shm *shm = cras_rstream_shm(rstream); return cras_shm_frames_written(shm) >= rstream->cb_threshold; } /* Updates the number of queued frames in shm. The queued frames should be * updated everytime before calling cras_rstream_playable_frames. */ void cras_rstream_update_queued_frames(struct cras_rstream *rstream); /* Returns the number of playable samples in shm for the given device id. */ unsigned int cras_rstream_playable_frames(struct cras_rstream *rstream, unsigned int dev_id); /* Returns the volume scaler for this stream. */ float cras_rstream_get_volume_scaler(struct cras_rstream *rstream); /* Returns a pointer to readable frames, fills frames with the number of frames * available. */ uint8_t *cras_rstream_get_readable_frames(struct cras_rstream *rstream, unsigned int offset, size_t *frames); /* Returns non-zero if the stream is muted. */ int cras_rstream_get_mute(const struct cras_rstream *rstream); /* * Returns non-zero if the stream is pending a reply from client. * - For playback, stream is waiting for AUDIO_MESSAGE_DATA_READY message from * client. * - For capture, stream is waiting for AUDIO_MESSAGE_DATA_CAPTURED message * from client. */ int cras_rstream_is_pending_reply(const struct cras_rstream *stream); /* * Reads any pending audio message from the socket. */ int cras_rstream_flush_old_audio_messages(struct cras_rstream *stream); #endif /* CRAS_RSTREAM_H_ */