/* 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. */ /* * cras_iodev represents playback or capture devices on the system. Each iodev * will attach to a thread to render or capture audio. For playback, this * thread will gather audio from the streams that are attached to the device and * render the samples it gets to the iodev. For capture the process is * reversed, the samples are pulled from the device and passed on to the * attached streams. */ #ifndef CRAS_IODEV_H_ #define CRAS_IODEV_H_ #include #include "cras_dsp.h" #include "cras_iodev_info.h" #include "cras_messages.h" struct buffer_share; struct cras_fmt_conv; struct cras_ramp; struct cras_rstream; struct cras_audio_area; struct cras_audio_format; struct audio_thread; struct cras_iodev; struct rate_estimator; /* * Type of callback function to execute when loopback sender transfers audio * to the receiver. For example, this is called in audio thread when playback * samples are mixed and about to write to hardware. * Args: * frames - Loopback audio data from sender. * nframes - Number loopback audio data in frames. * fmt - Format of the loopback audio data. * cb_data - Pointer to the loopback receiver. */ typedef int (*loopback_hook_data_t)(const uint8_t *frames, unsigned int nframes, const struct cras_audio_format *fmt, void *cb_data); /* * Type of callback function to notify loopback receiver that the loopback path * starts or stops. * Args: * start - True to notify receiver that loopback starts. False to notify * loopback stops. * cb_data - Pointer to the loopback receiver. */ typedef int (*loopback_hook_control_t)(bool start, void *cb_data); /* Callback type for an iodev event. */ typedef int (*iodev_hook_t)(); /* * Holds the information of a receiver of loopback audio, used to register * with the sender of loopback audio. A sender keeps a list of cras_loopback * objects representing all the receivers. * Members: * type - Pre-dsp loopback can be used for system loopback. Post-dsp * loopback can be used for echo reference. * hook_data - Callback used for playback samples after mixing, before or * after applying DSP depends on the value of |type|. * hook_control - Callback to notify receiver that loopback starts or stops. * cb_data - Pointer to the loopback receiver, will be passing to hook functions. */ struct cras_loopback { enum CRAS_LOOPBACK_TYPE type; loopback_hook_data_t hook_data; loopback_hook_control_t hook_control; void *cb_data; struct cras_loopback *prev, *next; }; /* State of an iodev. * no_stream state is only supported on output device. * Open state is only supported for device supporting start ops. */ enum CRAS_IODEV_STATE { CRAS_IODEV_STATE_CLOSE = 0, CRAS_IODEV_STATE_OPEN = 1, CRAS_IODEV_STATE_NORMAL_RUN = 2, CRAS_IODEV_STATE_NO_STREAM_RUN = 3, }; /* Holds an output/input node for this device. An ionode is a control that * can be switched on and off such as headphones or speakers. * Members: * dev - iodev which this node belongs to. * idx - ionode index. * plugged - true if the device is plugged. * plugged_time - If plugged is true, this is the time it was attached. * volume - per-node volume (0-100) * capture_gain - per-node capture gain/attenuation (in 100*dBFS) * left_right_swapped - If left and right output channels are swapped. * type - Type displayed to the user. * position - Specify where on the system this node locates. * mic_positions - Whitespace-separated microphone positions using Cartesian * coordinates in meters with ordering x, y, z. The string is formatted as: * "x1 y1 z1 ... xn yn zn" for an n-microphone array. * name - Name displayed to the user. * dsp_name - The "DspName" variable specified in the ucm config. * active_hotword_model - name of the currently selected hotword model. * softvol_scalers - pointer to software volume scalers. * software_volume_needed - For output: True if the volume range of the node * is smaller than desired. For input: True if this node needs software * gain. * min_software_gain - The minimum software gain in 0.01 dB if needed. * max_software_gain - The maximum software gain in 0.01 dB if needed. * stable_id - id for node that doesn't change after unplug/plug. * is_sco_pcm - Bool to indicate whether the ionode is for SCO over PCM. */ struct cras_ionode { struct cras_iodev *dev; uint32_t idx; int plugged; struct timeval plugged_time; unsigned int volume; long capture_gain; int left_right_swapped; enum CRAS_NODE_TYPE type; enum CRAS_NODE_POSITION position; char mic_positions[CRAS_NODE_MIC_POS_BUFFER_SIZE]; char name[CRAS_NODE_NAME_BUFFER_SIZE]; const char *dsp_name; char active_hotword_model[CRAS_NODE_HOTWORD_MODEL_BUFFER_SIZE]; float *softvol_scalers; int software_volume_needed; long min_software_gain; long max_software_gain; unsigned int stable_id; int is_sco_pcm; struct cras_ionode *prev, *next; }; /* An input or output device, that can have audio routed to/from it. * set_volume - Function to call if the system volume changes. * set_mute - Function to call if the system mute state changes. * set_capture_gain - Function to call if the system capture_gain changes. * set_capture_mute - Function to call if the system capture mute state changes. * set_swap_mode_for_node - Function to call to set swap mode for the node. * open_dev - Opens the device. * configure_dev - Configures the device. * close_dev - Closes the device if it is open. * update_supported_formats - Refresh supported frame rates and channel counts. * frames_queued - The number of frames in the audio buffer, and fills tstamp * with the associated timestamp. The timestamp is {0, 0} when * the device hasn't started processing data (and on error). * delay_frames - The delay of the next sample in frames. * get_buffer - Returns a buffer to read/write to/from. * put_buffer - Marks a buffer from get_buffer as read/written. * flush_buffer - Flushes the buffer and return the number of frames flushed. * start - Starts running device. This is optionally supported on output device. * If device supports this ops, device can be in CRAS_IODEV_STATE_OPEN * state after being opened. * If device does not support this ops, then device will be in * CRAS_IODEV_STATE_NO_STREAM_RUN. * no_stream - (Optional) When there is no stream, we let device keep running * for some time to save the time to open device for the next * stream. This is the no stream state of an output device. * The default action of no stream state is to fill zeros * periodically. Device can implement this function to define * its own optimization of entering/exiting no stream state. * is_free_running - (Optional) Checks if the device is in free running state. * output_underrun - (Optional) Handle output device underrun. * update_active_node - Update the active node when the selected device/node has * changed. * update_channel_layout - Update the channel layout base on set iodev->format, * expect the best available layout be filled to iodev->format. * set_hotword_model - Sets the hotword model to this iodev. * get_hotword_models - Gets a comma separated string of the list of supported * hotword models of this iodev. * get_num_underruns - Gets number of underrun recorded so far. * get_num_severe_underruns - Gets number of severe underrun recorded since * iodev was created. * get_valid_frames - Gets number of valid frames in device which have not * played yet. Valid frames does not include zero samples * we filled under no streams state. * format - The audio format being rendered or captured to hardware. * rate_est - Rate estimator to estimate the actual device rate. * area - Information about how the samples are stored. * info - Unique identifier for this device (index and name). * nodes - The output or input nodes available for this device. * active_node - The current node being used for playback or capture. * direction - Input or Output. * supported_rates - Array of sample rates supported by device 0-terminated. * supported_channel_counts - List of number of channels supported by device. * supported_formats - List of audio formats (s16le, s32le) supported by device. * buffer_size - Size of the audio buffer in frames. * min_buffer_level - Extra frames to keep queued in addition to requested. * dsp_context - The context used for dsp processing on the audio data. * dsp_name - The "dsp_name" dsp variable specified in the ucm config. * echo_reference_dev - Used only for playback iodev. Pointer to the input * iodev, which can be used to record what is playing out from this * iodev. This will be used as the echo reference for echo cancellation. * is_enabled - True if this iodev is enabled, false otherwise. * software_volume_needed - True if volume control is not supported by hardware. * software_gain_scaler - Scaler value to apply to captured data. This can * be different when active node changes. Configured when there's no * hardware gain control. * streams - List of audio streams serviced by dev. * state - Device is in one of close, open, normal, or no_stream state defined * in enum CRAS_IODEV_STATE. * min_cb_level - min callback level of any stream attached. * max_cb_level - max callback level of any stream attached. * highest_hw_level - The highest hardware level of the device. * largest_cb_level - The largest callback level of streams attached to this * device. The difference with max_cb_level is it takes all * streams into account even if they have been removed. * buf_state - If multiple streams are writing to this device, then this * keeps track of how much each stream has written. * idle_timeout - The timestamp when to close the dev after being idle. * open_ts - The time when the device opened. * loopbacks - List of registered cras_loopback objects representing the * receivers who wants a copy of the audio sending through this iodev. * pre_open_iodev_hook - Optional callback to call before iodev open. * post_close_iodev_hook - Optional callback to call after iodev close. * ext_dsp_module - External dsp module to process audio data in stream level * after dsp_context. * reset_request_pending - The flag for pending reset request. * ramp - The cras_ramp struct to control ramping up/down at mute/unmute and * start of playback. * input_streaming - For capture only. Indicate if input has started. * input_frames_read - The number of frames read from the device, but that * haven't been "put" yet. * input_dsp_offset - The number of frames in the HW buffer that have already * been processed by the input DSP. * input_data - Used to pass audio input data to streams with or without * stream side processing. */ struct cras_iodev { void (*set_volume)(struct cras_iodev *iodev); void (*set_mute)(struct cras_iodev *iodev); void (*set_capture_gain)(struct cras_iodev *iodev); void (*set_capture_mute)(struct cras_iodev *iodev); int (*set_swap_mode_for_node)(struct cras_iodev *iodev, struct cras_ionode *node, int enable); int (*open_dev)(struct cras_iodev *iodev); int (*configure_dev)(struct cras_iodev *iodev); int (*close_dev)(struct cras_iodev *iodev); int (*update_supported_formats)(struct cras_iodev *iodev); int (*frames_queued)(const struct cras_iodev *iodev, struct timespec *tstamp); int (*delay_frames)(const struct cras_iodev *iodev); int (*get_buffer)(struct cras_iodev *iodev, struct cras_audio_area **area, unsigned *frames); int (*put_buffer)(struct cras_iodev *iodev, unsigned nwritten); int (*flush_buffer)(struct cras_iodev *iodev); int (*start)(const struct cras_iodev *iodev); int (*is_free_running)(const struct cras_iodev *iodev); int (*output_underrun)(struct cras_iodev *iodev); int (*no_stream)(struct cras_iodev *iodev, int enable); void (*update_active_node)(struct cras_iodev *iodev, unsigned node_idx, unsigned dev_enabled); int (*update_channel_layout)(struct cras_iodev *iodev); int (*set_hotword_model)(struct cras_iodev *iodev, const char *model_name); char *(*get_hotword_models)(struct cras_iodev *iodev); unsigned int (*get_num_underruns)(const struct cras_iodev *iodev); unsigned int (*get_num_severe_underruns)(const struct cras_iodev *iodev); int (*get_valid_frames)(const struct cras_iodev *odev, struct timespec *tstamp); struct cras_audio_format *format; struct rate_estimator *rate_est; struct cras_audio_area *area; struct cras_iodev_info info; struct cras_ionode *nodes; struct cras_ionode *active_node; enum CRAS_STREAM_DIRECTION direction; size_t *supported_rates; size_t *supported_channel_counts; snd_pcm_format_t *supported_formats; snd_pcm_uframes_t buffer_size; unsigned int min_buffer_level; struct cras_dsp_context *dsp_context; const char *dsp_name; struct cras_iodev *echo_reference_dev; int is_enabled; int software_volume_needed; float software_gain_scaler; struct dev_stream *streams; enum CRAS_IODEV_STATE state; unsigned int min_cb_level; unsigned int max_cb_level; unsigned int highest_hw_level; unsigned int largest_cb_level; struct buffer_share *buf_state; struct timespec idle_timeout; struct timespec open_ts; struct cras_loopback *loopbacks; iodev_hook_t pre_open_iodev_hook; iodev_hook_t post_close_iodev_hook; struct ext_dsp_module *ext_dsp_module; int reset_request_pending; struct cras_ramp *ramp; int input_streaming; unsigned int input_frames_read; unsigned int input_dsp_offset; struct input_data *input_data; struct cras_iodev *prev, *next; }; /* * Ramp request used in cras_iodev_start_ramp. * * - CRAS_IODEV_RAMP_REQUEST_UP_UNMUTE: Mute->unmute. * Change device to unmute state after ramping is stared, * that is, (a) in the plot. * * ____ * .... / * _____/ * (a) * * - CRAS_IODEV_RAMP_REQUEST_DOWN_MUTE: Unmute->mute. * Change device to mute state after ramping is done, that is, * (b) in the plot. * * _____ * \.... * \____ * (b) * * - CRAS_IODEV_RAMP_REQUEST_UP_START_PLAYBACK: Ramping is requested because * first sample of new stream is ready, there is no need to change mute/unmute * state. */ enum CRAS_IODEV_RAMP_REQUEST { CRAS_IODEV_RAMP_REQUEST_UP_UNMUTE = 0, CRAS_IODEV_RAMP_REQUEST_DOWN_MUTE = 1, CRAS_IODEV_RAMP_REQUEST_UP_START_PLAYBACK = 2, }; /* * Utility functions to be used by iodev implementations. */ /* Sets up the iodev for the given format if possible. If the iodev can't * handle the requested format, format conversion will happen in dev_stream. * It also allocates a dsp context for the iodev. * Args: * iodev - the iodev you want the format for. * fmt - the desired format. */ int cras_iodev_set_format(struct cras_iodev *iodev, const struct cras_audio_format *fmt); /* Clear the format previously set for this iodev. * * Args: * iodev - the iodev you want to free the format. */ void cras_iodev_free_format(struct cras_iodev *iodev); /* Initializes the audio area for this iodev. * Args: * iodev - the iodev to init audio area * num_channels - the total number of channels */ void cras_iodev_init_audio_area(struct cras_iodev *iodev, int num_channels); /* Frees the audio area for this iodev. * Args: * iodev - the iodev to free audio area */ void cras_iodev_free_audio_area(struct cras_iodev *iodev); /* Free resources allocated for this iodev. * * Args: * iodev - the iodev you want to free the resources for. */ void cras_iodev_free_resources(struct cras_iodev *iodev); /* Fill timespec ts with the time to sleep based on the number of frames and * frame rate. * Args: * frames - Number of frames in buffer.. * frame_rate - 44100, 48000, etc. * ts - Filled with the time to sleep for. */ void cras_iodev_fill_time_from_frames(size_t frames, size_t frame_rate, struct timespec *ts); /* Update the "dsp_name" dsp variable. This may cause the dsp pipeline to be * reloaded. * Args: * iodev - device which the state changes. */ void cras_iodev_update_dsp(struct cras_iodev *iodev); /* Sets swap mode on a node using dsp. This function can be called when * dsp pipline is not created yet. It will take effect when dsp pipeline * is created later. If there is dsp pipeline, this function causes the dsp * pipeline to be reloaded and swap mode takes effect right away. * Args: * iodev - device to be changed for swap mode. * node - the node to be changed for swap mode. * enable - 1 to enable swap mode, 0 otherwise. * Returns: * 0 on success, error code on failure. */ int cras_iodev_dsp_set_swap_mode_for_node(struct cras_iodev *iodev, struct cras_ionode *node, int enable); /* Handles a plug event happening on this node. * Args: * node - ionode on which a plug event was detected. * plugged - true if the device was plugged, false for unplugged. */ void cras_ionode_plug_event(struct cras_ionode *node, int plugged); /* Returns true if node a is preferred over node b. */ int cras_ionode_better(struct cras_ionode *a, struct cras_ionode *b); /* Sets the plugged state of a node. */ void cras_iodev_set_node_plugged(struct cras_ionode *node, int plugged); /* Adds a node to the iodev's node list. */ void cras_iodev_add_node(struct cras_iodev *iodev, struct cras_ionode *node); /* Removes a node from iodev's node list. */ void cras_iodev_rm_node(struct cras_iodev *iodev, struct cras_ionode *node); /* Assign a node to be the active node of the device */ void cras_iodev_set_active_node(struct cras_iodev *iodev, struct cras_ionode *node); /* Adjust the system volume based on the volume of the given node. */ static inline unsigned int cras_iodev_adjust_node_volume(const struct cras_ionode *node, unsigned int system_volume) { unsigned int node_vol_offset = 100 - node->volume; if (system_volume > node_vol_offset) return system_volume - node_vol_offset; else return 0; } /* Get the volume scaler for the active node. */ static inline unsigned int cras_iodev_adjust_active_node_volume(struct cras_iodev *iodev, unsigned int system_volume) { if (!iodev->active_node) return system_volume; return cras_iodev_adjust_node_volume(iodev->active_node, system_volume); } /* Get the gain adjusted based on system for the active node. */ static inline long cras_iodev_adjust_active_node_gain(const struct cras_iodev *iodev, long system_gain) { if (!iodev->active_node) return system_gain; return iodev->active_node->capture_gain + system_gain; } /* Returns true if the active node of the iodev needs software volume. */ static inline int cras_iodev_software_volume_needed(const struct cras_iodev *iodev) { if (iodev->software_volume_needed) return 1; if (!iodev->active_node) return 0; return iodev->active_node->software_volume_needed; } /* Returns minimum software gain for the iodev. * Args: * iodev - The device. * Returs: * 0 if software gain is not needed, or if there is no active node. * Returns min_software_gain on active node if there is one. */ static inline long cras_iodev_minimum_software_gain(const struct cras_iodev *iodev) { if (!cras_iodev_software_volume_needed(iodev)) return 0; if (!iodev->active_node) return 0; return iodev->active_node->min_software_gain; } /* Returns maximum software gain for the iodev. * Args: * iodev - The device. * Returs: * 0 if software gain is not needed, or if there is no active node. * Returns max_software_gain on active node if there is one. */ static inline long cras_iodev_maximum_software_gain(const struct cras_iodev *iodev) { if (!cras_iodev_software_volume_needed(iodev)) return 0; if (!iodev->active_node) return 0; return iodev->active_node->max_software_gain; } /* Gets the software gain scaler should be applied on the deivce. * Args: * iodev - The device. * Returns: * A scaler translated from system gain and active node gain. * Returns 1.0 if software gain is not needed. */ float cras_iodev_get_software_gain_scaler(const struct cras_iodev *iodev); /* Gets the software volume scaler of the iodev. The scaler should only be * applied if the device needs software volume. */ float cras_iodev_get_software_volume_scaler(struct cras_iodev *iodev); /* Indicate that a stream has been added from the device. */ int cras_iodev_add_stream(struct cras_iodev *iodev, struct dev_stream *stream); /* Indicate that a stream is taken into consideration of device's I/O. This * function is for output stream only. For input stream, it is already included * by add_stream function. */ void cras_iodev_start_stream(struct cras_iodev *iodev, struct dev_stream *stream); /* Indicate that a stream has been removed from the device. */ struct dev_stream *cras_iodev_rm_stream(struct cras_iodev *iodev, const struct cras_rstream *stream); /* Get the offset of this stream into the dev's buffer. */ unsigned int cras_iodev_stream_offset(struct cras_iodev *iodev, struct dev_stream *stream); /* Get the maximum offset of any stream into the dev's buffer. */ unsigned int cras_iodev_max_stream_offset(const struct cras_iodev *iodev); /* Tell the device how many frames the given stream wrote. */ void cras_iodev_stream_written(struct cras_iodev *iodev, struct dev_stream *stream, unsigned int nwritten); /* All streams have written what they can, update the write pointers and return * the amount that has been filled by all streams and can be comitted to the * device. */ unsigned int cras_iodev_all_streams_written(struct cras_iodev *iodev); /* Return the state of an iodev. */ enum CRAS_IODEV_STATE cras_iodev_state(const struct cras_iodev *iodev); /* Open an iodev, does setup and invokes the open_dev callback. */ int cras_iodev_open(struct cras_iodev *iodev, unsigned int cb_level, const struct cras_audio_format *fmt); /* Open an iodev, does teardown and invokes the close_dev callback. */ int cras_iodev_close(struct cras_iodev *iodev); /* Gets the available buffer to write/read audio.*/ int cras_iodev_buffer_avail(struct cras_iodev *iodev, unsigned hw_level); /* Marks a buffer from get_buffer as read. * Args: * iodev - The input device. * Returns: * Number of frames to put sucessfully. Negative error code on failure. */ int cras_iodev_put_input_buffer(struct cras_iodev *iodev); /* Marks a buffer from get_buffer as written. */ int cras_iodev_put_output_buffer(struct cras_iodev *iodev, uint8_t *frames, unsigned int nframes, int *is_non_empty, struct cras_fmt_conv *remix_converter); /* Returns a buffer to read from. * Args: * iodev - The device. * frames - Filled with the number of frames that can be read/written. */ int cras_iodev_get_input_buffer(struct cras_iodev *iodev, unsigned *frames); /* Returns a buffer to read from. * Args: * iodev - The device. * area - Filled with a pointer to the audio to read/write. * frames - Filled with the number of frames that can be read/written. */ int cras_iodev_get_output_buffer(struct cras_iodev *iodev, struct cras_audio_area **area, unsigned *frames); /* Update the estimated sample rate of the device. */ int cras_iodev_update_rate(struct cras_iodev *iodev, unsigned int level, struct timespec *level_tstamp); /* Resets the rate estimator of the device. */ int cras_iodev_reset_rate_estimator(const struct cras_iodev *iodev); /* Returns the rate of estimated frame rate and the claimed frame rate of * the device. */ double cras_iodev_get_est_rate_ratio(const struct cras_iodev *iodev); /* Get the delay from DSP processing in frames. */ int cras_iodev_get_dsp_delay(const struct cras_iodev *iodev); /* Returns the number of frames in the hardware buffer. * Args: * iodev - The device. * tstamp - The associated hardware time stamp. * Returns: * Number of frames in the hardware buffer. * Returns -EPIPE if there is severe underrun. */ int cras_iodev_frames_queued(struct cras_iodev *iodev, struct timespec *tstamp); /* Get the delay for input/output in frames. */ static inline int cras_iodev_delay_frames(const struct cras_iodev *iodev) { return iodev->delay_frames(iodev) + cras_iodev_get_dsp_delay(iodev); } /* Returns if input iodev has started streaming. */ static inline int cras_iodev_input_streaming(const struct cras_iodev *iodev) { return iodev->input_streaming; } /* Returns true if the device is open. */ static inline int cras_iodev_is_open(const struct cras_iodev *iodev) { if (iodev && iodev->state != CRAS_IODEV_STATE_CLOSE) return 1; return 0; } /* Configure iodev to exit idle mode. */ static inline void cras_iodev_exit_idle(struct cras_iodev *iodev) { iodev->idle_timeout.tv_sec = 0; } /* * Sets the external dsp module for |iodev| and configures the module * accordingly if iodev is already open. This function should be called * in main thread. * Args: * iodev - The iodev to hold the dsp module. * ext - External dsp module to set to iodev. Pass NULL to release * the ext_dsp_module already added to dsp pipeline. */ void cras_iodev_set_ext_dsp_module(struct cras_iodev *iodev, struct ext_dsp_module *ext); /* Put 'frames' worth of zero samples into odev. */ int cras_iodev_fill_odev_zeros(struct cras_iodev *odev, unsigned int frames); /* Gets the number of frames to play when audio thread sleeps. * Args: * iodev[in] - The device. * hw_level[out] - Pointer to number of frames in hardware. * hw_tstamp[out] - Pointer to the timestamp for hw_level. * Returns: * Number of frames to play in sleep for this output device. */ unsigned int cras_iodev_frames_to_play_in_sleep(struct cras_iodev *odev, unsigned int *hw_level, struct timespec *hw_tstamp); /* Checks if audio thread should wake for this output device. * Args: * iodev[in] - The output device. * Returns: * 1 if audio thread should wake for this output device. 0 otherwise. */ int cras_iodev_odev_should_wake(const struct cras_iodev *odev); /* The default implementation of no_stream ops. * The default behavior is to fill some zeros when entering no stream state. * Note that when a device in no stream state enters into no stream state again, * device needs to fill some zeros again. * Do nothing to leave no stream state. * Args: * iodev[in] - The output device. * enable[in] - 1 to enter no stream playback, 0 to leave. * Returns: * 0 on success. Negative error code on failure. * */ int cras_iodev_default_no_stream_playback(struct cras_iodev *odev, int enable); /* Get current state of iodev. * Args: * iodev[in] - The device. * Returns: * One of states defined in CRAS_IODEV_STATE. */ enum CRAS_IODEV_STATE cras_iodev_state(const struct cras_iodev *iodev); /* Possibly transit state for output device. * Check if this output device needs to transit from open state/no_stream state * into normal run state. If device does not need transition and is still in * no stream state, call no_stream ops to do its work for one cycle. * Args: * odev[in] - The output device. * Returns: * 0 on success. Negative error code on failure. */ int cras_iodev_prepare_output_before_write_samples(struct cras_iodev *odev); /* Get number of underruns recorded so far. * Args: * iodev[in] - The device. * Returns: * An unsigned int for number of underruns recorded. */ unsigned int cras_iodev_get_num_underruns(const struct cras_iodev *iodev); /* Get number of severe underruns recorded so far. * Args: * iodev[in] - The device. * Returns: * An unsigned int for number of severe underruns recorded since iodev * was created. */ unsigned int cras_iodev_get_num_severe_underruns(const struct cras_iodev *iodev); /* Get number of valid frames in the hardware buffer. The valid frames does * not include zero samples we filled with before. * Args: * iodev[in] - The device. * hw_tstamp[out] - Pointer to the timestamp for hw_level. * Returns: * Number of valid frames in the hardware buffer. * Negative error code on failure. */ int cras_iodev_get_valid_frames(struct cras_iodev *iodev, struct timespec *hw_tstamp); /* Request main thread to re-open device. This should be used in audio thread * when it finds device is in a bad state. The request will be ignored if * there is still a pending request. * Args: * iodev[in] - The device. * Returns: * 0 on success. Negative error code on failure. */ int cras_iodev_reset_request(struct cras_iodev *iodev); /* Handle output underrun. * Args: * odev[in] - The output device. * Returns: * 0 on success. Negative error code on failure. */ int cras_iodev_output_underrun(struct cras_iodev *odev); /* Start ramping samples up/down on a device. * Args: * iodev[in] - The device. * request[in] - The request type. Check the docstrings of * CRAS_IODEV_RAMP_REQUEST. * Returns: * 0 on success. Negative error code on failure. */ int cras_iodev_start_ramp(struct cras_iodev *odev, enum CRAS_IODEV_RAMP_REQUEST request); /* Start ramping samples up/down on a device after a volume change. * Args: * iodev[in] - The device. * old_volume[in] - The previous volume percentage of the device. * new_volume[in] - The new volume percentage of the device. * Returns: * 0 on success. Negative error code on failure. */ int cras_iodev_start_volume_ramp(struct cras_iodev *odev, unsigned int old_volume, unsigned int new_volume); /* Set iodev to mute/unmute state. * Args: * iodev[in] - The device. * Returns: * 0 on success. Negative error code on failure. */ int cras_iodev_set_mute(struct cras_iodev *iodev); /* * Checks if an output iodev's volume is zero. * If there is an active node, check the adjusted node volume. * If there is no active node, check system volume. * Args: * odev[in] - The device. * Returns: * 1 if device's volume is 0. 0 otherwise. */ int cras_iodev_is_zero_volume(const struct cras_iodev *odev); /* * Updates the highest hardware level of the device. * Args: * iodev - The device. */ void cras_iodev_update_highest_hw_level(struct cras_iodev *iodev, unsigned int hw_level); /* * Makes an input device drop the specific number of frames by given time. * Args: * iodev - The device. * ts - The time indicates how many frames will be dropped in a device. * Returns: * The number of frames have been dropped. Negative error code on failure. */ int cras_iodev_drop_frames_by_time(struct cras_iodev *iodev, struct timespec ts); #endif /* CRAS_IODEV_H_ */