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#ifndef foodefhfoo
#define foodefhfoo

/***
  This file is part of PulseAudio.

  Copyright 2004-2006 Lennart Poettering
  Copyright 2006 Pierre Ossman <ossman@cendio.se> for Cendio AB

  PulseAudio is free software; you can redistribute it and/or modify
  it under the terms of the GNU Lesser General Public License as
  published by the Free Software Foundation; either version 2.1 of the
  License, or (at your option) any later version.

  PulseAudio is distributed in the hope that it will be useful, but
  WITHOUT ANY WARRANTY; without even the implied warranty of
  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
  Lesser General Public License for more details.

  You should have received a copy of the GNU Lesser General Public
  License along with PulseAudio; if not, write to the Free Software
  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
  USA.
***/

#include <inttypes.h>
#include <sys/time.h>
#include <time.h>

#include <pulse/cdecl.h>
#include <pulse/sample.h>

/** \file
 * Global definitions */

PA_C_DECL_BEGIN

/** The state of a connection context */
typedef enum pa_context_state {
    PA_CONTEXT_UNCONNECTED,    /**< The context hasn't been connected yet */
    PA_CONTEXT_CONNECTING,     /**< A connection is being established */
    PA_CONTEXT_AUTHORIZING,    /**< The client is authorizing itself to the daemon */
    PA_CONTEXT_SETTING_NAME,   /**< The client is passing its application name to the daemon */
    PA_CONTEXT_READY,          /**< The connection is established, the context is ready to execute operations */
    PA_CONTEXT_FAILED,         /**< The connection failed or was disconnected */
    PA_CONTEXT_TERMINATED      /**< The connection was terminated cleanly */
} pa_context_state_t;

/** Return non-zero if the passed state is one of the connected states */
static inline int PA_CONTEXT_IS_GOOD(pa_context_state_t x) {
    return
        x == PA_CONTEXT_CONNECTING ||
        x == PA_CONTEXT_AUTHORIZING ||
        x == PA_CONTEXT_SETTING_NAME ||
        x == PA_CONTEXT_READY;
}

/** The state of a stream */
typedef enum pa_stream_state {
    PA_STREAM_UNCONNECTED, /**< The stream is not yet connected to any sink or source */
    PA_STREAM_CREATING,     /**< The stream is being created */
    PA_STREAM_READY,        /**< The stream is established, you may pass audio data to it now */
    PA_STREAM_FAILED,       /**< An error occured that made the stream invalid */
    PA_STREAM_TERMINATED    /**< The stream has been terminated cleanly */
} pa_stream_state_t;

/** Return non-zero if the passed state is one of the connected states */
static inline int PA_STREAM_IS_GOOD(pa_stream_state_t x) {
    return
        x == PA_STREAM_CREATING ||
        x == PA_STREAM_READY;
}

/** The state of an operation */
typedef enum pa_operation_state {
    PA_OPERATION_RUNNING,      /**< The operation is still running */
    PA_OPERATION_DONE,         /**< The operation has been completed */
    PA_OPERATION_CANCELED      /**< The operation has been canceled */
} pa_operation_state_t;

/** An invalid index */
#define PA_INVALID_INDEX ((uint32_t) -1)

/** Some special flags for contexts. */
typedef enum pa_context_flags {
    PA_CONTEXT_NOAUTOSPAWN = 1 /**< Disabled autospawning of the PulseAudio daemon if required */
} pa_context_flags_t;

/** The direction of a pa_stream object */
typedef enum pa_stream_direction {
    PA_STREAM_NODIRECTION,   /**< Invalid direction */
    PA_STREAM_PLAYBACK,      /**< Playback stream */
    PA_STREAM_RECORD,        /**< Record stream */
    PA_STREAM_UPLOAD         /**< Sample upload stream */
} pa_stream_direction_t;

/** Some special flags for stream connections. */
typedef enum pa_stream_flags {

    PA_STREAM_START_CORKED = 0x0001U,
    /**< Create the stream corked, requiring an explicit
     * pa_stream_cork() call to uncork it. */

    PA_STREAM_INTERPOLATE_TIMING = 0x0002U,
    /**< Interpolate the latency for this stream. When enabled,
     * pa_stream_get_latency() and pa_stream_get_time() will try to
     * estimate the current record/playback time based on the local
     * time that passed since the last timing info update.  Using this
     * option has the advantage of not requiring a whole roundtrip
     * when the current playback/recording time is needed. Consider
     * using this option when requesting latency information
     * frequently. This is especially useful on long latency network
     * connections. It makes a lot of sense to combine this option
     * with PA_STREAM_AUTO_TIMING_UPDATE. */

    PA_STREAM_NOT_MONOTONIC = 0x0004U,
    /**< Don't force the time to increase monotonically. If this
     * option is enabled, pa_stream_get_time() will not necessarily
     * return always monotonically increasing time values on each
     * call. This may confuse applications which cannot deal with time
     * going 'backwards', but has the advantage that bad transport
     * latency estimations that caused the time to to jump ahead can
     * be corrected quickly, without the need to wait. (Please note
     * that this flag was named PA_STREAM_NOT_MONOTONOUS in releases
     * prior to 0.9.11. The old name is still defined too, for
     * compatibility reasons. */

    PA_STREAM_AUTO_TIMING_UPDATE = 0x0008U,
    /**< If set timing update requests are issued periodically
     * automatically. Combined with PA_STREAM_INTERPOLATE_TIMING you
     * will be able to query the current time and latency with
     * pa_stream_get_time() and pa_stream_get_latency() at all times
     * without a packet round trip.*/

    PA_STREAM_NO_REMAP_CHANNELS = 0x0010U,
    /**< Don't remap channels by their name, instead map them simply
     * by their index. Implies PA_STREAM_NO_REMIX_CHANNELS. Only
     * supported when the server is at least PA 0.9.8. It is ignored
     * on older servers.\since 0.9.8 */

    PA_STREAM_NO_REMIX_CHANNELS = 0x0020U,
    /**< When remapping channels by name, don't upmix or downmix them
     * to related channels. Copy them into matching channels of the
     * device 1:1. Only supported when the server is at least PA
     * 0.9.8. It is ignored on older servers. \since 0.9.8 */

    PA_STREAM_FIX_FORMAT = 0x0040U,
    /**< Use the sample format of the sink/device this stream is being
     * connected to, and possibly ignore the format the sample spec
     * contains -- but you still have to pass a valid value in it as a
     * hint to PulseAudio what would suit your stream best. If this is
     * used you should query the used sample format after creating the
     * stream by using pa_stream_get_sample_spec(). Also, if you
     * specified manual buffer metrics it is recommended to update
     * them with pa_stream_set_buffer_attr() to compensate for the
     * changed frame sizes. Only supported when the server is at least
     * PA 0.9.8. It is ignored on older servers. \since 0.9.8 */

    PA_STREAM_FIX_RATE = 0x0080U,
    /**< Use the sample rate of the sink, and possibly ignore the rate
     * the sample spec contains. Usage similar to
     * PA_STREAM_FIX_FORMAT.Only supported when the server is at least
     * PA 0.9.8. It is ignored on older servers. \since 0.9.8 */

    PA_STREAM_FIX_CHANNELS = 0x0100,
    /**< Use the number of channels and the channel map of the sink,
     * and possibly ignore the number of channels and the map the
     * sample spec and the passed channel map contains. Usage similar
     * to PA_STREAM_FIX_FORMAT. Only supported when the server is at
     * least PA 0.9.8. It is ignored on older servers. \since 0.9.8 */

    PA_STREAM_DONT_MOVE = 0x0200U,
    /**< Don't allow moving of this stream to another
     * sink/device. Useful if you use any of the PA_STREAM_FIX_ flags
     * and want to make sure that resampling never takes place --
     * which might happen if the stream is moved to another
     * sink/source whith a different sample spec/channel map. Only
     * supported when the server is at least PA 0.9.8. It is ignored
     * on older servers. \since 0.9.8 */

    PA_STREAM_VARIABLE_RATE = 0x0400U,
    /**< Allow dynamic changing of the sampling rate during playback
     * with pa_stream_update_sample_rate(). Only supported when the
     * server is at least PA 0.9.8. It is ignored on older
     * servers. \since 0.9.8 */

    PA_STREAM_PEAK_DETECT = 0x0800U,
    /**< Find peaks instead of resampling. \since 0.9.11 */

    PA_STREAM_START_MUTED = 0x1000U,
    /**< Create in muted state. \since 0.9.11 */

    PA_STREAM_ADJUST_LATENCY = 0x2000U,
    /**< Try to adjust the latency of the sink/source based on the
     * requested buffer metrics and adjust buffer metrics
     * accordingly. Also see pa_buffer_attr. This option may not be
     * specified at the same time as PA_STREAM_EARLY_REQUESTS. \since
     * 0.9.11 */

    PA_STREAM_EARLY_REQUESTS = 0x4000U
    /**< Enable compatibility mode for legacy clients that rely on a
     * "classic" hardware device fragment-style playback model. If
     * this option is set, the minreq value of the buffer metrics gets
     * a new meaning: instead of just specifying that no requests
     * asking for less new data than this value will be made to the
     * client it will also guarantee that requests are generated as
     * early as this limit is reached. This flag should only be set in
     * very few situations where compatiblity with a fragment-based
     * playback model needs to be kept and the client applications
     * cannot deal with data requests that are delayed to the latest
     * moment possible. (Usually these are programs that use usleep()
     * or a similar call in their playback loops instead of sleeping
     * on the device itself.) Also see pa_buffer_attr. This option may
     * not be specified at the same time as
     * PA_STREAM_ADJUST_LATENCY. \since 0.9.12 */

} pa_stream_flags_t;

/** \cond fulldocs */

/** English is an evil language */
#define PA_STREAM_NOT_MONOTONOUS PA_STREAM_NOT_MONOTONIC

/** \endcond */

/** Playback and record buffer metrics */
typedef struct pa_buffer_attr {
    uint32_t maxlength;      /**< Maximum length of the
                              * buffer. Setting this to (uint32_t) -1 will
                              * initialize this to the maximum value
                              * supported by server, which is
                              * recommended. */
    uint32_t tlength;        /**< Playback only: target length of the
                              * buffer. The server tries to assure
                              * that at least tlength bytes are always
                              * available in the per-stream
                              * server-side playback buffer. It is
                              * recommended to set this to (uint32_t)
                              * -1, which will initialize this to a
                              * value that is deemed sensible by the
                              * server. However, this value will
                              * default to something like 2s, i.e. for
                              * applications that have specific
                              * latency requirements this value should
                              * be set to the maximum latency that the
                              * application can deal with. When
                              * PA_STREAM_ADJUST_LATENCY is not set
                              * this value will influence only the
                              * per-stream playback buffer size. When
                              * PA_STREAM_ADJUST_LATENCY is set the
                              * overall latency of the sink plus the
                              * playback buffer size is configured to
                              * this value. Set
                              * PA_STREAM_ADJUST_LATENCY if you are
                              * interested in adjusting the overall
                              * latency. Don't set it if you are
                              * interested in configuring the
                              * server-sider per-stream playback
                              * buffer size. */
    uint32_t prebuf;         /**< Playback only: pre-buffering. The
                              * server does not start with playback
                              * before at least prebug bytes are
                              * available in the buffer. It is
                              * recommended to set this to (uint32_t)
                              * -1, which will initialize this to the
                              * same value as tlength, whatever that
                              * may be. Initialize to 0 to enable
                              * manual start/stop control of the
                              * stream. This means that playback will
                              * not stop on underrun and playback will
                              * not start automatically. Instead
                              * pa_stream_corked() needs to be called
                              * explicitly. If you set this value to 0
                              * you should also set
                              * PA_STREAM_START_CORKED. */
    uint32_t minreq;         /**< Playback only: minimum request. The
                              * server does not request less than
                              * minreq bytes from the client, instead
                              * waits until the buffer is free enough
                              * to request more bytes at once. It is
                              * recommended to set this to (uint32_t)
                              * -1, which will initialize this to a
                              * value that is deemed sensible by the
                              * server. This should be set to a value
                              * that gives PulseAudio enough time to
                              * move the data from the per-stream
                              * playback buffer into the hardware
                              * playback buffer. */
    uint32_t fragsize;       /**< Recording only: fragment size. The
                              * server sends data in blocks of
                              * fragsize bytes size. Large values
                              * deminish interactivity with other
                              * operations on the connection context
                              * but decrease control overhead. It is
                              * recommended to set this to (uint32_t)
                              * -1, which will initialize this to a
                              * value that is deemed sensible by the
                              * server. However, this value will
                              * default to something like 2s, i.e. for
                              * applications that have specific
                              * latency requirements this value should
                              * be set to the maximum latency that the
                              * application can deal with. If
                              * PA_STREAM_ADJUST_LATENCY is set the
                              * overall source latency will be
                              * adjusted according to this value. If
                              * it is not set the source latency is
                              * left unmodified. */
} pa_buffer_attr;

/** Error values as used by pa_context_errno(). Use pa_strerror() to convert these values to human readable strings */
enum {
    PA_OK = 0,                     /**< No error */
    PA_ERR_ACCESS,                 /**< Access failure */
    PA_ERR_COMMAND,                /**< Unknown command */
    PA_ERR_INVALID,                /**< Invalid argument */
    PA_ERR_EXIST,                  /**< Entity exists */
    PA_ERR_NOENTITY,               /**< No such entity */
    PA_ERR_CONNECTIONREFUSED,      /**< Connection refused */
    PA_ERR_PROTOCOL,               /**< Protocol error */
    PA_ERR_TIMEOUT,                /**< Timeout */
    PA_ERR_AUTHKEY,                /**< No authorization key */
    PA_ERR_INTERNAL,               /**< Internal error */
    PA_ERR_CONNECTIONTERMINATED,   /**< Connection terminated */
    PA_ERR_KILLED,                 /**< Entity killed */
    PA_ERR_INVALIDSERVER,          /**< Invalid server */
    PA_ERR_MODINITFAILED,          /**< Module initialization failed */
    PA_ERR_BADSTATE,               /**< Bad state */
    PA_ERR_NODATA,                 /**< No data */
    PA_ERR_VERSION,                /**< Incompatible protocol version */
    PA_ERR_TOOLARGE,               /**< Data too large */
    PA_ERR_NOTSUPPORTED,           /**< Operation not supported \since 0.9.5 */
    PA_ERR_UNKNOWN,                /**< The error code was unknown to the client */
    PA_ERR_NOEXTENSION,            /**< Extension does not exist. \since 0.9.12 */
    PA_ERR_MAX                     /**< Not really an error but the first invalid error code */
};

/** Subscription event mask, as used by pa_context_subscribe() */
typedef enum pa_subscription_mask {
    PA_SUBSCRIPTION_MASK_NULL = 0,               /**< No events */
    PA_SUBSCRIPTION_MASK_SINK = 1,               /**< Sink events */
    PA_SUBSCRIPTION_MASK_SOURCE = 2,             /**< Source events */
    PA_SUBSCRIPTION_MASK_SINK_INPUT = 4,         /**< Sink input events */
    PA_SUBSCRIPTION_MASK_SOURCE_OUTPUT = 8,      /**< Source output events */
    PA_SUBSCRIPTION_MASK_MODULE = 16,            /**< Module events */
    PA_SUBSCRIPTION_MASK_CLIENT = 32,            /**< Client events */
    PA_SUBSCRIPTION_MASK_SAMPLE_CACHE = 64,      /**< Sample cache events */
    PA_SUBSCRIPTION_MASK_SERVER = 128,           /**< Other global server changes. */
    PA_SUBSCRIPTION_MASK_AUTOLOAD = 256,         /**< Autoload table events. */
    PA_SUBSCRIPTION_MASK_ALL = 511               /**< Catch all events */
} pa_subscription_mask_t;

/** Subscription event types, as used by pa_context_subscribe() */
typedef enum pa_subscription_event_type {
    PA_SUBSCRIPTION_EVENT_SINK = 0,           /**< Event type: Sink */
    PA_SUBSCRIPTION_EVENT_SOURCE = 1,         /**< Event type: Source */
    PA_SUBSCRIPTION_EVENT_SINK_INPUT = 2,     /**< Event type: Sink input */
    PA_SUBSCRIPTION_EVENT_SOURCE_OUTPUT = 3,  /**< Event type: Source output */
    PA_SUBSCRIPTION_EVENT_MODULE = 4,         /**< Event type: Module */
    PA_SUBSCRIPTION_EVENT_CLIENT = 5,         /**< Event type: Client */
    PA_SUBSCRIPTION_EVENT_SAMPLE_CACHE = 6,   /**< Event type: Sample cache item */
    PA_SUBSCRIPTION_EVENT_SERVER = 7,         /**< Event type: Global server change, only occuring with PA_SUBSCRIPTION_EVENT_CHANGE. */
    PA_SUBSCRIPTION_EVENT_AUTOLOAD = 8,       /**< Event type: Autoload table changes. */
    PA_SUBSCRIPTION_EVENT_FACILITY_MASK = 15, /**< A mask to extract the event type from an event value */

    PA_SUBSCRIPTION_EVENT_NEW = 0,            /**< A new object was created */
    PA_SUBSCRIPTION_EVENT_CHANGE = 16,        /**< A property of the object was modified */
    PA_SUBSCRIPTION_EVENT_REMOVE = 32,        /**< An object was removed */
    PA_SUBSCRIPTION_EVENT_TYPE_MASK = 16+32   /**< A mask to extract the event operation from an event value */
} pa_subscription_event_type_t;

/** Return one if an event type t matches an event mask bitfield */
#define pa_subscription_match_flags(m, t) (!!((m) & (1 << ((t) & PA_SUBSCRIPTION_EVENT_FACILITY_MASK))))

/** A structure for all kinds of timing information of a stream. See
 * pa_stream_update_timing_info() and pa_stream_get_timing_info(). The
 * total output latency a sample that is written with
 * pa_stream_write() takes to be played may be estimated by
 * sink_usec+buffer_usec+transport_usec. (where buffer_usec is defined
 * as pa_bytes_to_usec(write_index-read_index)) The output buffer
 * which buffer_usec relates to may be manipulated freely (with
 * pa_stream_write()'s seek argument, pa_stream_flush() and friends),
 * the buffers sink_usec and source_usec relate to are first-in
 * first-out (FIFO) buffers which cannot be flushed or manipulated in
 * any way. The total input latency a sample that is recorded takes to
 * be delivered to the application is:
 * source_usec+buffer_usec+transport_usec-sink_usec. (Take care of
 * sign issues!) When connected to a monitor source sink_usec contains
 * the latency of the owning sink. The two latency estimations
 * described here are implemented in pa_stream_get_latency(). Please
 * note that this structure can be extended as part of evolutionary
 * API updates at any time in any new release.*/
typedef struct pa_timing_info {
    struct timeval timestamp; /**< The time when this timing info structure was current */
    int synchronized_clocks;  /**< Non-zero if the local and the
                               * remote machine have synchronized
                               * clocks. If synchronized clocks are
                               * detected transport_usec becomes much
                               * more reliable. However, the code that
                               * detects synchronized clocks is very
                               * limited und unreliable itself. */

    pa_usec_t sink_usec;      /**< Time in usecs a sample takes to be played on the sink. For playback streams and record streams connected to a monitor source. */
    pa_usec_t source_usec;    /**< Time in usecs a sample takes from being recorded to being delivered to the application. Only for record streams. */
    pa_usec_t transport_usec; /**< Estimated time in usecs a sample takes to be transferred to/from the daemon. For both playback and record streams. */

    int playing;              /**< Non-zero when the stream is
                               * currently not underrun and data is
                               * being passed on to the device. Only
                               * for playback streams. This field does
                               * not say whether the data is actually
                               * already being played. To determine
                               * this check whether since_underrun
                               * (converted to usec) is larger than
                               * sink_usec.*/

    int write_index_corrupt;  /**< Non-zero if write_index is not
                               * up-to-date because a local write
                               * command that corrupted it has been
                               * issued in the time since this latency
                               * info was current . Only write
                               * commands with SEEK_RELATIVE_ON_READ
                               * and SEEK_RELATIVE_END can corrupt
                               * write_index. */
    int64_t write_index;      /**< Current write index into the
                               * playback buffer in bytes. Think twice before
                               * using this for seeking purposes: it
                               * might be out of date a the time you
                               * want to use it. Consider using
                               * PA_SEEK_RELATIVE instead.  */

    int read_index_corrupt;   /**< Non-zero if read_index is not
                               * up-to-date because a local pause or
                               * flush request that corrupted it has
                               * been issued in the time since this
                               * latency info was current. */

    int64_t read_index;       /**< Current read index into the
                               * playback buffer in bytes. Think twice before
                               * using this for seeking purposes: it
                               * might be out of date a the time you
                               * want to use it. Consider using
                               * PA_SEEK_RELATIVE_ON_READ
                               * instead. */

    pa_usec_t configured_sink_usec;   /**< The configured latency for
                                * the sink. \since 0.9.11 */
    pa_usec_t configured_source_usec; /**< The configured latency for
                                * the source. \since 0.9.11 */

    int64_t since_underrun;    /**< Bytes that were handed to the sink
                                  since the last underrun happened, or
                                  since playback started again after
                                  the last underrun. playing will tell
                                  you which case it is. \since
                                  0.9.11 */

} pa_timing_info;

/** A structure for the spawn api. This may be used to integrate auto
 * spawned daemons into your application. For more information see
 * pa_context_connect(). When spawning a new child process the
 * waitpid() is used on the child's PID. The spawn routine will not
 * block or ignore SIGCHLD signals, since this cannot be done in a
 * thread compatible way. You might have to do this in
 * prefork/postfork. */
typedef struct pa_spawn_api {
    void (*prefork)(void);     /**< Is called just before the fork in the parent process. May be NULL. */
    void (*postfork)(void);    /**< Is called immediately after the fork in the parent process. May be NULL.*/
    void (*atfork)(void);      /**< Is called immediately after the
                                * fork in the child process. May be
                                * NULL. It is not safe to close all
                                * file descriptors in this function
                                * unconditionally, since a UNIX socket
                                * (created using socketpair()) is
                                * passed to the new process. */
} pa_spawn_api;

/** Seek type for pa_stream_write(). */
typedef enum pa_seek_mode {
    PA_SEEK_RELATIVE = 0,           /**< Seek relatively to the write index */
    PA_SEEK_ABSOLUTE = 1,           /**< Seek relatively to the start of the buffer queue */
    PA_SEEK_RELATIVE_ON_READ = 2,   /**< Seek relatively to the read index.  */
    PA_SEEK_RELATIVE_END = 3        /**< Seek relatively to the current end of the buffer queue. */
} pa_seek_mode_t;

/** Special sink flags. */
typedef enum pa_sink_flags {
    PA_SINK_HW_VOLUME_CTRL = 1,   /**< Supports hardware volume control */
    PA_SINK_LATENCY = 2,          /**< Supports latency querying */
    PA_SINK_HARDWARE = 4,         /**< Is a hardware sink of some kind, in contrast to "virtual"/software sinks \since 0.9.3 */
    PA_SINK_NETWORK = 8,          /**< Is a networked sink of some kind. \since 0.9.7 */
    PA_SINK_HW_MUTE_CTRL = 16,    /**< Supports hardware mute control \since 0.9.11 */
    PA_SINK_DECIBEL_VOLUME = 32   /**< Volume can be translated to dB with pa_sw_volume_to_dB() \since 0.9.11 */
} pa_sink_flags_t;

/** Special source flags.  */
typedef enum pa_source_flags {
    PA_SOURCE_HW_VOLUME_CTRL = 1,  /**< Supports hardware volume control */
    PA_SOURCE_LATENCY = 2,         /**< Supports latency querying */
    PA_SOURCE_HARDWARE = 4,        /**< Is a hardware source of some kind, in contrast to "virtual"/software source \since 0.9.3 */
    PA_SOURCE_NETWORK = 8,         /**< Is a networked sink of some kind. \since 0.9.7 */
    PA_SOURCE_HW_MUTE_CTRL = 16,   /**< Supports hardware mute control \since 0.9.11 */
    PA_SOURCE_DECIBEL_VOLUME = 32  /**< Volume can be translated to dB with pa_sw_volume_to_dB() \since 0.9.11 */
} pa_source_flags_t;

/** A generic free() like callback prototype */
typedef void (*pa_free_cb_t)(void *p);

PA_C_DECL_END

#endif