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Asterisk developer's documentation


channel.h

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00001 /*
00002  * Asterisk -- An open source telephony toolkit.
00003  *
00004  * Copyright (C) 1999 - 2006, Digium, Inc.
00005  *
00006  * Mark Spencer <markster@digium.com>
00007  *
00008  * See http://www.asterisk.org for more information about
00009  * the Asterisk project. Please do not directly contact
00010  * any of the maintainers of this project for assistance;
00011  * the project provides a web site, mailing lists and IRC
00012  * channels for your use.
00013  *
00014  * This program is free software, distributed under the terms of
00015  * the GNU General Public License Version 2. See the LICENSE file
00016  * at the top of the source tree.
00017  */
00018 
00019 /*! \file
00020  * \brief General Asterisk PBX channel definitions.
00021  * \par See also:
00022  *  \arg \ref Def_Channel
00023  *  \arg \ref channel_drivers
00024  */
00025 
00026 /*! \page Def_Channel Asterisk Channels
00027    \par What is a Channel?
00028    A phone call through Asterisk consists of an incoming
00029    connection and an outbound connection. Each call comes
00030    in through a channel driver that supports one technology,
00031    like SIP, DAHDI, IAX2 etc.
00032    \par
00033    Each channel driver, technology, has it's own private
00034    channel or dialog structure, that is technology-dependent.
00035    Each private structure is "owned" by a generic Asterisk
00036    channel structure, defined in channel.h and handled by
00037    channel.c .
00038    \par Call scenario
00039    This happens when an incoming call arrives to Asterisk
00040    -# Call arrives on a channel driver interface
00041    -# Channel driver creates a PBX channel and starts a
00042       pbx thread on the channel
00043    -# The dial plan is executed
00044    -# At this point at least two things can happen:
00045       -# The call is answered by Asterisk and
00046          Asterisk plays a media stream or reads media
00047       -# The dial plan forces Asterisk to create an outbound
00048          call somewhere with the dial (see \ref app_dial.c)
00049          application
00050    .
00051 
00052    \par Bridging channels
00053    If Asterisk dials out this happens:
00054    -# Dial creates an outbound PBX channel and asks one of the
00055       channel drivers to create a call
00056    -# When the call is answered, Asterisk bridges the media streams
00057       so the caller on the first channel can speak with the callee
00058       on the second, outbound channel
00059    -# In some cases where we have the same technology on both
00060       channels and compatible codecs, a native bridge is used.
00061       In a native bridge, the channel driver handles forwarding
00062       of incoming audio to the outbound stream internally, without
00063       sending audio frames through the PBX.
00064    -# In SIP, theres an "external native bridge" where Asterisk
00065       redirects the endpoint, so audio flows directly between the
00066       caller's phone and the callee's phone. Signalling stays in
00067       Asterisk in order to be able to provide a proper CDR record
00068       for the call.
00069 
00070 
00071    \par Masquerading channels
00072    In some cases, a channel can masquerade itself into another
00073    channel. This happens frequently in call transfers, where
00074    a new channel takes over a channel that is already involved
00075    in a call. The new channel sneaks in and takes over the bridge
00076    and the old channel, now a zombie, is hung up.
00077 
00078    \par Reference
00079    \arg channel.c - generic functions
00080    \arg channel.h - declarations of functions, flags and structures
00081    \arg translate.h - Transcoding support functions
00082    \arg \ref channel_drivers - Implemented channel drivers
00083    \arg \ref Def_Frame Asterisk Multimedia Frames
00084    \arg \ref Def_Bridge
00085 
00086 */
00087 /*! \page Def_Bridge Asterisk Channel Bridges
00088 
00089    In Asterisk, there's several media bridges.
00090 
00091    The Core bridge handles two channels (a "phone call") and bridge
00092    them together.
00093 
00094    The conference bridge (meetme) handles several channels simultaneously
00095    with the support of an external timer (DAHDI timer). This is used
00096    not only by the Conference application (meetme) but also by the
00097    page application and the SLA system introduced in 1.4.
00098    The conference bridge does not handle video.
00099 
00100    When two channels of the same type connect, the channel driver
00101    or the media subsystem used by the channel driver (i.e. RTP)
00102    can create a native bridge without sending media through the
00103    core.
00104 
00105    Native bridging can be disabled by a number of reasons,
00106    like DTMF being needed by the core or codecs being incompatible
00107    so a transcoding module is needed.
00108 
00109 References:
00110    \li \see ast_channel_early_bridge()
00111    \li \see ast_channel_bridge()
00112    \li \see app_meetme.c
00113    \li \ref AstRTPbridge
00114    \li \see ast_rtp_bridge()
00115    \li \ref Def_Channel
00116 */
00117 
00118 /*! \page AstFileDesc File descriptors
00119    Asterisk File descriptors are connected to each channel (see \ref Def_Channel)
00120    in the \ref ast_channel structure.
00121 */
00122 
00123 #ifndef _ASTERISK_CHANNEL_H
00124 #define _ASTERISK_CHANNEL_H
00125 
00126 #include "asterisk/abstract_jb.h"
00127 #include "asterisk/astobj2.h"
00128 
00129 #include "asterisk/poll-compat.h"
00130 
00131 #if defined(__cplusplus) || defined(c_plusplus)
00132 extern "C" {
00133 #endif
00134 
00135 #define AST_MAX_EXTENSION  80 /*!< Max length of an extension */
00136 #define AST_MAX_CONTEXT    80 /*!< Max length of a context */
00137 #define AST_CHANNEL_NAME   80 /*!< Max length of an ast_channel name */
00138 #define MAX_LANGUAGE    40 /*!< Max length of the language setting */
00139 #define MAX_MUSICCLASS     80 /*!< Max length of the music class setting */
00140 
00141 #include "asterisk/frame.h"
00142 #include "asterisk/sched.h"
00143 #include "asterisk/chanvars.h"
00144 #include "asterisk/config.h"
00145 #include "asterisk/lock.h"
00146 #include "asterisk/cdr.h"
00147 #include "asterisk/utils.h"
00148 #include "asterisk/linkedlists.h"
00149 #include "asterisk/stringfields.h"
00150 #include "asterisk/datastore.h"
00151 #include "asterisk/data.h"
00152 #include "asterisk/channelstate.h"
00153 #include "asterisk/ccss.h"
00154 #include "asterisk/framehook.h"
00155 
00156 #define DATASTORE_INHERIT_FOREVER   INT_MAX
00157 
00158 #define AST_MAX_FDS     10
00159 /*
00160  * We have AST_MAX_FDS file descriptors in a channel.
00161  * Some of them have a fixed use:
00162  */
00163 #define AST_ALERT_FD (AST_MAX_FDS-1)      /*!< used for alertpipe */
00164 #define AST_TIMING_FD   (AST_MAX_FDS-2)      /*!< used for timingfd */
00165 #define AST_AGENT_FD (AST_MAX_FDS-3)      /*!< used by agents for pass through */
00166 #define AST_GENERATOR_FD   (AST_MAX_FDS-4)   /*!< used by generator */
00167 
00168 enum ast_bridge_result {
00169    AST_BRIDGE_COMPLETE = 0,
00170    AST_BRIDGE_FAILED = -1,
00171    AST_BRIDGE_FAILED_NOWARN = -2,
00172    AST_BRIDGE_RETRY = -3,
00173 };
00174 
00175 typedef unsigned long long ast_group_t;
00176 
00177 /*! \todo Add an explanation of an Asterisk generator
00178 */
00179 struct ast_generator {
00180    void *(*alloc)(struct ast_channel *chan, void *params);
00181    void (*release)(struct ast_channel *chan, void *data);
00182    /*! This function gets called with the channel unlocked, but is called in
00183     *  the context of the channel thread so we know the channel is not going
00184     *  to disappear.  This callback is responsible for locking the channel as
00185     *  necessary. */
00186    int (*generate)(struct ast_channel *chan, void *data, int len, int samples);
00187    /*! This gets called when DTMF_END frames are read from the channel */
00188    void (*digit)(struct ast_channel *chan, char digit);
00189 };
00190 
00191 /*! Party name character set enumeration values (values from Q.SIG) */
00192 enum AST_PARTY_CHAR_SET {
00193    AST_PARTY_CHAR_SET_UNKNOWN = 0,
00194    AST_PARTY_CHAR_SET_ISO8859_1 = 1,
00195    AST_PARTY_CHAR_SET_WITHDRAWN = 2,/* ITU withdrew this enum value. */
00196    AST_PARTY_CHAR_SET_ISO8859_2 = 3,
00197    AST_PARTY_CHAR_SET_ISO8859_3 = 4,
00198    AST_PARTY_CHAR_SET_ISO8859_4 = 5,
00199    AST_PARTY_CHAR_SET_ISO8859_5 = 6,
00200    AST_PARTY_CHAR_SET_ISO8859_7 = 7,
00201    AST_PARTY_CHAR_SET_ISO10646_BMPSTRING = 8,
00202    AST_PARTY_CHAR_SET_ISO10646_UTF_8STRING = 9,
00203 };
00204 
00205 /*!
00206  * \since 1.8
00207  * \brief Information needed to specify a name in a call.
00208  * \note All string fields here are malloc'ed, so they need to be
00209  * freed when the structure is deleted.
00210  * \note NULL and "" must be considered equivalent.
00211  */
00212 struct ast_party_name {
00213    /*! \brief Subscriber name (Malloced) */
00214    char *str;
00215    /*!
00216     * \brief Character set the name is using.
00217     * \see enum AST_PARTY_CHAR_SET
00218     * \note
00219     * Set to AST_PARTY_CHAR_SET_ISO8859_1 if unsure what to use.
00220     * \todo Start using the party name character set value.  Not currently used.
00221     */
00222    int char_set;
00223    /*!
00224     * \brief Q.931 encoded presentation-indicator encoded field
00225     * \note Must tolerate the Q.931 screening-indicator field values being present.
00226     */
00227    int presentation;
00228    /*! \brief TRUE if the name information is valid/present */
00229    unsigned char valid;
00230 };
00231 
00232 /*!
00233  * \since 1.8
00234  * \brief Information needed to specify a number in a call.
00235  * \note All string fields here are malloc'ed, so they need to be
00236  * freed when the structure is deleted.
00237  * \note NULL and "" must be considered equivalent.
00238  */
00239 struct ast_party_number {
00240    /*! \brief Subscriber phone number (Malloced) */
00241    char *str;
00242    /*! \brief Q.931 Type-Of-Number and Numbering-Plan encoded fields */
00243    int plan;
00244    /*! \brief Q.931 presentation-indicator and screening-indicator encoded fields */
00245    int presentation;
00246    /*! \brief TRUE if the number information is valid/present */
00247    unsigned char valid;
00248 };
00249 
00250 /*!
00251  * \since 1.8
00252  * \brief Information needed to specify a subaddress in a call.
00253  * \note All string fields here are malloc'ed, so they need to be
00254  * freed when the structure is deleted.
00255  * \note NULL and "" must be considered equivalent.
00256  */
00257 struct ast_party_subaddress {
00258    /*!
00259     * \brief Malloced subaddress string.
00260     * \note If the subaddress type is user specified then the subaddress is
00261     * a string of ASCII hex because the actual subaddress is likely BCD encoded.
00262     */
00263    char *str;
00264    /*!
00265     * \brief Q.931 subaddress type.
00266     * \details
00267     * nsap(0),
00268     * user_specified(2)
00269     */
00270    int type;
00271    /*!
00272     * \brief TRUE if odd number of address signals
00273     * \note The odd/even indicator is used when the type of subaddress is
00274     * user_specified and the coding is BCD.
00275     */
00276    unsigned char odd_even_indicator;
00277    /*! \brief TRUE if the subaddress information is valid/present */
00278    unsigned char valid;
00279 };
00280 
00281 /*!
00282  * \since 1.8
00283  * \brief Information needed to identify an endpoint in a call.
00284  * \note All string fields here are malloc'ed, so they need to be
00285  * freed when the structure is deleted.
00286  * \note NULL and "" must be considered equivalent.
00287  */
00288 struct ast_party_id {
00289    /*! \brief Subscriber name */
00290    struct ast_party_name name;
00291    /*! \brief Subscriber phone number */
00292    struct ast_party_number number;
00293    /*! \brief Subscriber subaddress. */
00294    struct ast_party_subaddress subaddress;
00295 
00296    /*!
00297     * \brief User-set "tag"
00298     * \details
00299     * A user-settable field used to help associate some extrinsic information
00300     * about the channel or user of the channel to the party ID.  This information
00301     * is normally not transmitted over the wire and so is only useful within an
00302     * Asterisk environment.
00303     */
00304    char *tag;
00305 };
00306 
00307 /*!
00308  * \since 1.8
00309  * \brief Indicate what information in ast_party_id should be set.
00310  */
00311 struct ast_set_party_id {
00312    /*! TRUE if the ast_party_name information should be set. */
00313    unsigned char name;
00314    /*! TRUE if the ast_party_number information should be set. */
00315    unsigned char number;
00316    /*! TRUE if the ast_party_subaddress information should be set. */
00317    unsigned char subaddress;
00318 };
00319 
00320 /*!
00321  * \since 1.8
00322  * \brief Dialed/Called Party information.
00323  * \note Dialed Number Identifier (DNID)
00324  * \note All string fields here are malloc'ed, so they need to be
00325  * freed when the structure is deleted.
00326  * \note NULL and "" must be considered equivalent.
00327  */
00328 struct ast_party_dialed {
00329    /*!
00330     * \brief Dialed/Called number
00331     * \note Done this way in case we ever really need to use ast_party_number.
00332     * We currently do not need all of the ast_party_number fields.
00333     */
00334    struct {
00335       /*! \brief Subscriber phone number (Malloced) */
00336       char *str;
00337       /*! \brief Q.931 Type-Of-Number and Numbering-Plan encoded fields */
00338       int plan;
00339    } number;
00340    /*! \brief Dialed/Called subaddress */
00341    struct ast_party_subaddress subaddress;
00342    /*!
00343     * \brief Transit Network Select
00344     * \note Currently this value is just passed around the system.
00345     * You can read it and set it but it is never used for anything.
00346     */
00347    int transit_network_select;
00348 };
00349 
00350 /*!
00351  * \since 1.8
00352  * \brief Caller Party information.
00353  * \note All string fields here are malloc'ed, so they need to be
00354  * freed when the structure is deleted.
00355  * \note NULL and "" must be considered equivalent.
00356  *
00357  * \note SIP and IAX2 has UTF8 encoded Unicode Caller ID names.
00358  * In some cases, we also have an alternative (RPID) E.164 number that can
00359  * be used as Caller ID on numeric E.164 phone networks (DAHDI or SIP/IAX2 to
00360  * PSTN gateway).
00361  *
00362  * \todo Implement settings for transliteration between UTF8 Caller ID names in
00363  *       to ASCII Caller ID's (DAHDI). Östen Åsklund might be transliterated into
00364  *       Osten Asklund or Oesten Aasklund depending upon language and person...
00365  *       We need automatic routines for incoming calls and static settings for
00366  *       our own accounts.
00367  */
00368 struct ast_party_caller {
00369    /*! \brief Caller party ID */
00370    struct ast_party_id id;
00371 
00372    /*!
00373     * \brief Automatic Number Identification (ANI)
00374     * \note The name subcomponent is only likely to be used by SIP.
00375     * \note The subaddress subcomponent is not likely to be used.
00376     */
00377    struct ast_party_id ani;
00378 
00379    /*! \brief Automatic Number Identification 2 (Info Digits) */
00380    int ani2;
00381 };
00382 
00383 /*!
00384  * \since 1.8
00385  * \brief Indicate what information in ast_party_caller should be set.
00386  */
00387 struct ast_set_party_caller {
00388    /*! What caller id information to set. */
00389    struct ast_set_party_id id;
00390    /*! What ANI id information to set. */
00391    struct ast_set_party_id ani;
00392 };
00393 
00394 /*!
00395  * \since 1.8
00396  * \brief Connected Line/Party information.
00397  * \note All string fields here are malloc'ed, so they need to be
00398  * freed when the structure is deleted.
00399  * \note NULL and "" must be considered equivalent.
00400  */
00401 struct ast_party_connected_line {
00402    /*! \brief Connected party ID */
00403    struct ast_party_id id;
00404 
00405    /*!
00406     * \brief Automatic Number Identification (ANI)
00407     * \note Not really part of connected line data but needed to
00408     * save the corresponding caller id value.
00409     */
00410    struct ast_party_id ani;
00411 
00412    /*!
00413     * \brief Automatic Number Identification 2 (Info Digits)
00414     * \note Not really part of connected line data but needed to
00415     * save the corresponding caller id value.
00416     */
00417    int ani2;
00418 
00419    /*!
00420     * \brief Information about the source of an update.
00421     * \note enum AST_CONNECTED_LINE_UPDATE_SOURCE values
00422     * for Normal-Answer and Call-transfer.
00423     */
00424    int source;
00425 };
00426 
00427 /*!
00428  * \since 1.8
00429  * \brief Indicate what information in ast_party_connected_line should be set.
00430  */
00431 struct ast_set_party_connected_line {
00432    /*! What connected line id information to set. */
00433    struct ast_set_party_id id;
00434    /*! What ANI id information to set. */
00435    struct ast_set_party_id ani;
00436 };
00437 
00438 /*!
00439  * \since 1.8
00440  * \brief Redirecting Line information.
00441  * RDNIS (Redirecting Directory Number Information Service)
00442  * Where a call diversion or transfer was invoked.
00443  * \note All string fields here are malloc'ed, so they need to be
00444  * freed when the structure is deleted.
00445  * \note NULL and "" must be considered equivalent.
00446  */
00447 struct ast_party_redirecting {
00448    /*! \brief Who is redirecting the call (Sent to the party the call is redirected toward) */
00449    struct ast_party_id from;
00450 
00451    /*! \brief Call is redirecting to a new party (Sent to the caller) */
00452    struct ast_party_id to;
00453 
00454    /*! \brief Number of times the call was redirected */
00455    int count;
00456 
00457    /*! \brief enum AST_REDIRECTING_REASON value for redirection */
00458    int reason;
00459 };
00460 
00461 /*!
00462  * \since 1.8
00463  * \brief Indicate what information in ast_party_redirecting should be set.
00464  */
00465 struct ast_set_party_redirecting {
00466    /*! What redirecting-from id information to set. */
00467    struct ast_set_party_id from;
00468    /*! What redirecting-to id information to set. */
00469    struct ast_set_party_id to;
00470 };
00471 
00472 /*! \brief Typedef for a custom read function */
00473 typedef int (*ast_acf_read_fn_t)(struct ast_channel *, const char *, char *, char *, size_t);
00474 
00475 /*! \brief Typedef for a custom read2 function */
00476 typedef int (*ast_acf_read2_fn_t)(struct ast_channel *, const char *, char *, struct ast_str **, ssize_t);
00477 
00478 /*! \brief Typedef for a custom write function */
00479 typedef int (*ast_acf_write_fn_t)(struct ast_channel *, const char *, char *, const char *);
00480 
00481 /*! \brief Structure to handle passing func_channel_write info to channels via setoption */
00482 typedef struct {
00483    /*! \brief ast_chan_write_info_t version. Must be incremented if structure is changed */
00484    #define AST_CHAN_WRITE_INFO_T_VERSION 1
00485    uint32_t version;
00486    ast_acf_write_fn_t write_fn;
00487    struct ast_channel *chan;
00488    const char *function;
00489    char *data;
00490    const char *value;
00491 } ast_chan_write_info_t;
00492 
00493 /*!
00494  * \brief
00495  * Structure to describe a channel "technology", ie a channel driver
00496  * See for examples:
00497  * \arg chan_iax2.c - The Inter-Asterisk exchange protocol
00498  * \arg chan_sip.c - The SIP channel driver
00499  * \arg chan_dahdi.c - PSTN connectivity (TDM, PRI, T1/E1, FXO, FXS)
00500  *
00501  * \details
00502  * If you develop your own channel driver, this is where you
00503  * tell the PBX at registration of your driver what properties
00504  * this driver supports and where different callbacks are
00505  * implemented.
00506  */
00507 struct ast_channel_tech {
00508    const char * const type;
00509    const char * const description;
00510 
00511    format_t capabilities;  /*!< Bitmap of formats this channel can handle */
00512 
00513    int properties;         /*!< Technology Properties */
00514 
00515    /*! \brief Requester - to set up call data structures (pvt's) */
00516    struct ast_channel *(* const requester)(const char *type, format_t format, const struct ast_channel *requestor, void *data, int *cause);
00517 
00518    int (* const devicestate)(void *data); /*!< Devicestate call back */
00519 
00520    /*!
00521     * \brief Start sending a literal DTMF digit
00522     *
00523     * \note The channel is not locked when this function gets called.
00524     */
00525    int (* const send_digit_begin)(struct ast_channel *chan, char digit);
00526 
00527    /*!
00528     * \brief Stop sending a literal DTMF digit
00529     *
00530     * \note The channel is not locked when this function gets called.
00531     */
00532    int (* const send_digit_end)(struct ast_channel *chan, char digit, unsigned int duration);
00533 
00534    /*! \brief Call a given phone number (address, etc), but don't
00535     *  take longer than timeout seconds to do so.  */
00536    int (* const call)(struct ast_channel *chan, char *addr, int timeout);
00537 
00538    /*! \brief Hangup (and possibly destroy) the channel */
00539    int (* const hangup)(struct ast_channel *chan);
00540 
00541    /*! \brief Answer the channel */
00542    int (* const answer)(struct ast_channel *chan);
00543 
00544    /*! \brief Read a frame, in standard format (see frame.h) */
00545    struct ast_frame * (* const read)(struct ast_channel *chan);
00546 
00547    /*! \brief Write a frame, in standard format (see frame.h) */
00548    int (* const write)(struct ast_channel *chan, struct ast_frame *frame);
00549 
00550    /*! \brief Display or transmit text */
00551    int (* const send_text)(struct ast_channel *chan, const char *text);
00552 
00553    /*! \brief Display or send an image */
00554    int (* const send_image)(struct ast_channel *chan, struct ast_frame *frame);
00555 
00556    /*! \brief Send HTML data */
00557    int (* const send_html)(struct ast_channel *chan, int subclass, const char *data, int len);
00558 
00559    /*! \brief Handle an exception, reading a frame */
00560    struct ast_frame * (* const exception)(struct ast_channel *chan);
00561 
00562    /*! \brief Bridge two channels of the same type together */
00563    enum ast_bridge_result (* const bridge)(struct ast_channel *c0, struct ast_channel *c1, int flags,
00564                   struct ast_frame **fo, struct ast_channel **rc, int timeoutms);
00565 
00566    /*! \brief Bridge two channels of the same type together (early) */
00567    enum ast_bridge_result (* const early_bridge)(struct ast_channel *c0, struct ast_channel *c1);
00568 
00569    /*! \brief Indicate a particular condition (e.g. AST_CONTROL_BUSY or AST_CONTROL_RINGING or AST_CONTROL_CONGESTION */
00570    int (* const indicate)(struct ast_channel *c, int condition, const void *data, size_t datalen);
00571 
00572    /*! \brief Fix up a channel:  If a channel is consumed, this is called.  Basically update any ->owner links */
00573    int (* const fixup)(struct ast_channel *oldchan, struct ast_channel *newchan);
00574 
00575    /*! \brief Set a given option */
00576    int (* const setoption)(struct ast_channel *chan, int option, void *data, int datalen);
00577 
00578    /*! \brief Query a given option */
00579    int (* const queryoption)(struct ast_channel *chan, int option, void *data, int *datalen);
00580 
00581    /*! \brief Blind transfer other side (see app_transfer.c and ast_transfer() */
00582    int (* const transfer)(struct ast_channel *chan, const char *newdest);
00583 
00584    /*! \brief Write a frame, in standard format */
00585    int (* const write_video)(struct ast_channel *chan, struct ast_frame *frame);
00586 
00587    /*! \brief Write a text frame, in standard format */
00588    int (* const write_text)(struct ast_channel *chan, struct ast_frame *frame);
00589 
00590    /*! \brief Find bridged channel */
00591    struct ast_channel *(* const bridged_channel)(struct ast_channel *chan, struct ast_channel *bridge);
00592 
00593    /*! \brief Provide additional read items for CHANNEL() dialplan function */
00594    int (* func_channel_read)(struct ast_channel *chan, const char *function, char *data, char *buf, size_t len);
00595 
00596    /*! \brief Provide additional write items for CHANNEL() dialplan function */
00597    int (* func_channel_write)(struct ast_channel *chan, const char *function, char *data, const char *value);
00598 
00599    /*! \brief Retrieve base channel (agent and local) */
00600    struct ast_channel* (* get_base_channel)(struct ast_channel *chan);
00601 
00602    /*! \brief Set base channel (agent and local) */
00603    int (* set_base_channel)(struct ast_channel *chan, struct ast_channel *base);
00604 
00605    /*! \brief Get the unique identifier for the PVT, i.e. SIP call-ID for SIP */
00606    const char * (* get_pvt_uniqueid)(struct ast_channel *chan);
00607 
00608    /*! \brief Call a function with cc parameters as a function parameter
00609     *
00610     * \details
00611     * This is a highly specialized callback that is not likely to be needed in many
00612     * channel drivers. When dealing with a busy channel, for instance, most channel
00613     * drivers will successfully return a channel to the requester. Once called, the channel
00614     * can then queue a busy frame when it receives an appropriate message from the far end.
00615     * In such a case, the channel driver has the opportunity to also queue a CC frame.
00616     * The parameters for the CC channel can be retrieved from the channel structure.
00617     *
00618     * For other channel drivers, notably those that deal with "dumb" phones, the channel
00619     * driver will not return a channel when one is requested. In such a scenario, there is never
00620     * an opportunity for the channel driver to queue a CC frame since the channel is never
00621     * called. Furthermore, it is not possible to retrieve the CC configuration parameters
00622     * for the desired channel because no channel is ever allocated or returned to the
00623     * requester. In such a case, call completion may still be a viable option. What we do is
00624     * pass the same string that the requester used originally to request the channel to the
00625     * channel driver. The channel driver can then find any potential channels/devices that
00626     * match the input and return call the designated callback with the device's call completion
00627     * parameters as a parameter.
00628     */
00629    int (* cc_callback)(struct ast_channel *inbound, const char *dest, ast_cc_callback_fn callback);
00630 };
00631 
00632 struct ast_epoll_data;
00633 
00634 /*!
00635  * The high bit of the frame count is used as a debug marker, so
00636  * increments of the counters must be done with care.
00637  * Please use c->fin = FRAMECOUNT_INC(c->fin) and the same for c->fout.
00638  */
00639 #define  DEBUGCHAN_FLAG  0x80000000
00640 
00641 /* XXX not ideal to evaluate x twice... */
00642 #define  FRAMECOUNT_INC(x) ( ((x) & DEBUGCHAN_FLAG) | (((x)+1) & ~DEBUGCHAN_FLAG) )
00643 
00644 /*!
00645  * The current value of the debug flags is stored in the two
00646  * variables global_fin and global_fout (declared in main/channel.c)
00647  */
00648 extern unsigned long global_fin, global_fout;
00649 
00650 enum ast_channel_adsicpe {
00651    AST_ADSI_UNKNOWN,
00652    AST_ADSI_AVAILABLE,
00653    AST_ADSI_UNAVAILABLE,
00654    AST_ADSI_OFFHOOKONLY,
00655 };
00656 
00657 /*!
00658  * \brief Possible T38 states on channels
00659  */
00660 enum ast_t38_state {
00661    T38_STATE_UNAVAILABLE,  /*!< T38 is unavailable on this channel or disabled by configuration */
00662    T38_STATE_UNKNOWN,   /*!< The channel supports T38 but the current status is unknown */
00663    T38_STATE_NEGOTIATING,  /*!< T38 is being negotiated */
00664    T38_STATE_REJECTED,  /*!< Remote side has rejected our offer */
00665    T38_STATE_NEGOTIATED,   /*!< T38 established */
00666 };
00667 
00668 /*!
00669  * \page AstChannel ast_channel locking and reference tracking
00670  *
00671  * \par Creating Channels
00672  * A channel is allocated using the ast_channel_alloc() function.  When created, it is
00673  * automatically inserted into the main channels hash table that keeps track of all
00674  * active channels in the system.  The hash key is based on the channel name.  Because
00675  * of this, if you want to change the name, you _must_ use ast_change_name(), not change
00676  * the name field directly.  When ast_channel_alloc() returns a channel pointer, you now
00677  * hold a reference to that channel.  In most cases this reference is given to ast_pbx_run().
00678  *
00679  * \par Channel Locking
00680  * There is a lock associated with every ast_channel.  It is allocated internally via astobj2.
00681  * To lock or unlock a channel, you must use the ast_channel_lock() wrappers.
00682  *
00683  * Previously, before ast_channel was converted to astobj2, the channel lock was used in some
00684  * additional ways that are no longer necessary.  Before, the only way to ensure that a channel
00685  * did not disappear out from under you if you were working with a channel outside of the channel
00686  * thread that owns it, was to hold the channel lock.  Now, that is no longer necessary.
00687  * You simply must hold a reference to the channel to ensure it does not go away.
00688  *
00689  * The channel must be locked if you need to ensure that data that you reading from the channel
00690  * does not change while you access it.  Further, you must hold the channel lock if you are
00691  * making a non-atomic change to channel data.
00692  *
00693  * \par Channel References
00694  * There are multiple ways to get a reference to a channel.  The first is that you hold a reference
00695  * to a channel after creating it.  The other ways involve using the channel search or the channel
00696  * traversal APIs.  These functions are the ast_channel_get_*() functions or ast_channel_iterator_*()
00697  * functions.  Once a reference is retrieved by one of these methods, you know that the channel will
00698  * not go away.  So, the channel should only get locked as needed for data access or modification.
00699  * But, make sure that the reference gets released when you are done with it!
00700  *
00701  * There are different things you can do when you are done with a reference to a channel.  The first
00702  * is to simply release the reference using ast_channel_unref().  The other option is to call
00703  * ast_channel_release().  This function is generally used where ast_channel_free() was used in
00704  * the past.  The release function releases a reference as well as ensures that the channel is no
00705  * longer in the global channels container.  That way, the channel will get destroyed as soon as any
00706  * other pending references get released.
00707  *
00708  * \par Exceptions to the rules
00709  * Even though ast_channel is reference counted, there are some places where pointers to an ast_channel
00710  * get stored, but the reference count does not reflect it.  The reason is mostly historical.
00711  * The only places where this happens should be places where because of how the code works, we
00712  * _know_ that the pointer to the channel will get removed before the channel goes away.  The main
00713  * example of this is in channel drivers.  Channel drivers generally store a pointer to their owner
00714  * ast_channel in their technology specific pvt struct.  In this case, the channel drivers _know_
00715  * that this pointer to the channel will be removed in time, because the channel's hangup callback
00716  * gets called before the channel goes away.
00717  */
00718 
00719 /*!
00720  * \brief Main Channel structure associated with a channel.
00721  *
00722  * \note XXX It is important to remember to increment .cleancount each time
00723  *       this structure is changed. XXX
00724  *
00725  * \note When adding fields to this structure, it is important to add the field
00726  *       'in position' with like-aligned fields, so as to keep the compiler from
00727  *       having to add padding to align fields. The structure's fields are sorted
00728  *       in this order: pointers, structures, long, int/enum, short, char. This
00729  *       is especially important on 64-bit architectures, where mixing 4-byte
00730  *       and 8-byte fields causes 4 bytes of padding to be added before many
00731  *       8-byte fields.
00732  */
00733 struct ast_channel {
00734    const struct ast_channel_tech *tech;      /*!< Technology (point to channel driver) */
00735    void *tech_pvt;               /*!< Private data used by the technology driver */
00736    void *music_state;            /*!< Music State*/
00737    void *generatordata;          /*!< Current generator data if there is any */
00738    struct ast_generator *generator;    /*!< Current active data generator */
00739    struct ast_channel *_bridge;        /*!< Who are we bridged to, if we're bridged.
00740                       *   Who is proxying for us, if we are proxied (i.e. chan_agent).
00741                       *   Do not access directly, use ast_bridged_channel(chan) */
00742    struct ast_channel *masq;        /*!< Channel that will masquerade as us */
00743    struct ast_channel *masqr;       /*!< Who we are masquerading as */
00744    const char *blockproc;           /*!< Procedure causing blocking */
00745    const char *appl;          /*!< Current application */
00746    const char *data;          /*!< Data passed to current application */
00747    struct sched_context *sched;        /*!< Schedule context */
00748    struct ast_filestream *stream;         /*!< Stream itself. */
00749    struct ast_filestream *vstream;        /*!< Video Stream itself. */
00750    int (*timingfunc)(const void *data);
00751    void *timingdata;
00752    struct ast_pbx *pbx;          /*!< PBX private structure for this channel */
00753    struct ast_trans_pvt *writetrans;      /*!< Write translation path */
00754    struct ast_trans_pvt *readtrans;    /*!< Read translation path */
00755    struct ast_audiohook_list *audiohooks;
00756    struct ast_framehook_list *framehooks;
00757    struct ast_cdr *cdr;          /*!< Call Detail Record */
00758    struct ast_tone_zone *zone;         /*!< Tone zone as set in indications.conf or
00759                       *   in the CHANNEL dialplan function */
00760    struct ast_channel_monitor *monitor;      /*!< Channel monitoring */
00761 #ifdef HAVE_EPOLL
00762    struct ast_epoll_data *epfd_data[AST_MAX_FDS];
00763 #endif
00764 
00765    AST_DECLARE_STRING_FIELDS(
00766       AST_STRING_FIELD(name);       /*!< ASCII unique channel name */
00767       AST_STRING_FIELD(language);      /*!< Language requested for voice prompts */
00768       AST_STRING_FIELD(musicclass);    /*!< Default music class */
00769       AST_STRING_FIELD(accountcode);      /*!< Account code for billing */
00770       AST_STRING_FIELD(peeraccount);      /*!< Peer account code for billing */
00771       AST_STRING_FIELD(userfield);     /*!< Userfield for CEL billing */
00772       AST_STRING_FIELD(call_forward);     /*!< Where to forward to if asked to dial on this interface */
00773       AST_STRING_FIELD(uniqueid);      /*!< Unique Channel Identifier */
00774       AST_STRING_FIELD(linkedid);      /*!< Linked Channel Identifier -- gets propagated by linkage */
00775       AST_STRING_FIELD(parkinglot);    /*! Default parking lot, if empty, default parking lot  */
00776       AST_STRING_FIELD(hangupsource);     /*! Who is responsible for hanging up this channel */
00777       AST_STRING_FIELD(dialcontext);      /*!< Dial: Extension context that we were called from */
00778    );
00779 
00780    struct timeval whentohangup;              /*!< Non-zero, set to actual time when channel is to be hung up */
00781    pthread_t blocker;            /*!< If anyone is blocking, this is them */
00782 
00783    /*!
00784     * \brief Dialed/Called information.
00785     * \note Set on incoming channels to indicate the originally dialed party.
00786     * \note Dialed Number Identifier (DNID)
00787     */
00788    struct ast_party_dialed dialed;
00789 
00790    /*!
00791     * \brief Channel Caller ID information.
00792     * \note The caller id information is the caller id of this
00793     * channel when it is used to initiate a call.
00794     */
00795    struct ast_party_caller caller;
00796 
00797    /*!
00798     * \brief Channel Connected Line ID information.
00799     * \note The connected line information identifies the channel
00800     * connected/bridged to this channel.
00801     */
00802    struct ast_party_connected_line connected;
00803 
00804    /*! \brief Redirecting/Diversion information */
00805    struct ast_party_redirecting redirecting;
00806 
00807    struct ast_frame dtmff;          /*!< DTMF frame */
00808    struct varshead varshead;        /*!< A linked list for channel variables. See \ref AstChanVar */
00809    ast_group_t callgroup;           /*!< Call group for call pickups */
00810    ast_group_t pickupgroup;         /*!< Pickup group - which calls groups can be picked up? */
00811    AST_LIST_HEAD_NOLOCK(, ast_frame) readq;
00812    struct ast_jb jb;          /*!< The jitterbuffer state */
00813    struct timeval dtmf_tv;          /*!< The time that an in process digit began, or the last digit ended */
00814    AST_LIST_HEAD_NOLOCK(datastores, ast_datastore) datastores; /*!< Data stores on the channel */
00815    AST_LIST_HEAD_NOLOCK(autochans, ast_autochan) autochans; /*!< Autochans on the channel */
00816 
00817    unsigned long insmpl;            /*!< Track the read/written samples for monitor use */
00818    unsigned long outsmpl;           /*!< Track the read/written samples for monitor use */
00819 
00820    int fds[AST_MAX_FDS];            /*!< File descriptors for channel -- Drivers will poll on
00821                       *   these file descriptors, so at least one must be non -1.
00822                       *   See \arg \ref AstFileDesc */
00823    int _softhangup;           /*!< Whether or not we have been hung up...  Do not set this value
00824                       *   directly, use ast_softhangup() */
00825    int fdno;               /*!< Which fd had an event detected on */
00826    int streamid;              /*!< For streaming playback, the schedule ID */
00827    int vstreamid;             /*!< For streaming video playback, the schedule ID */
00828    format_t oldwriteformat;      /*!< Original writer format */
00829    int timingfd;              /*!< Timing fd */
00830    enum ast_channel_state _state;         /*!< State of line -- Don't write directly, use ast_setstate() */
00831    int rings;              /*!< Number of rings so far */
00832    int priority;              /*!< Dialplan: Current extension priority */
00833    int macropriority;            /*!< Macro: Current non-macro priority. See app_macro.c */
00834    int amaflags;              /*!< Set BEFORE PBX is started to determine AMA flags */
00835    enum ast_channel_adsicpe adsicpe;      /*!< Whether or not ADSI is detected on CPE */
00836    unsigned int fin;          /*!< Frames in counters. The high bit is a debug mask, so
00837                       *   the counter is only in the remaining bits */
00838    unsigned int fout;            /*!< Frames out counters. The high bit is a debug mask, so
00839                       *   the counter is only in the remaining bits */
00840    int hangupcause;           /*!< Why is the channel hanged up. See causes.h */
00841    unsigned int flags;           /*!< channel flags of AST_FLAG_ type */
00842    int alertpipe[2];
00843    format_t nativeformats;         /*!< Kinds of data this channel can natively handle */
00844    format_t readformat;            /*!< Requested read format (after translation) */
00845    format_t writeformat;           /*!< Requested write format (after translation) */
00846    format_t rawreadformat;         /*!< Raw read format (before translation) */
00847    format_t rawwriteformat;        /*!< Raw write format (before translation) */
00848    unsigned int emulate_dtmf_duration;    /*!< Number of ms left to emulate DTMF for */
00849 #ifdef HAVE_EPOLL
00850    int epfd;
00851 #endif
00852    int visible_indication;                         /*!< Indication currently playing on the channel */
00853 
00854    unsigned short transfercapability;     /*!< ISDN Transfer Capability - AST_FLAG_DIGITAL is not enough */
00855 
00856    struct ast_bridge *bridge;                      /*!< Bridge this channel is participating in */
00857    struct ast_timer *timer;         /*!< timer object that provided timingfd */
00858 
00859    char context[AST_MAX_CONTEXT];         /*!< Dialplan: Current extension context */
00860    char exten[AST_MAX_EXTENSION];         /*!< Dialplan: Current extension number */
00861    char macrocontext[AST_MAX_CONTEXT];    /*!< Macro: Current non-macro context. See app_macro.c */
00862    char macroexten[AST_MAX_EXTENSION];    /*!< Macro: Current non-macro extension. See app_macro.c */
00863    char emulate_dtmf_digit;         /*!< Digit being emulated */
00864 };
00865 
00866 /*! \brief ast_channel_tech Properties */
00867 enum {
00868    /*!
00869      * \brief Channels have this property if they can accept input with jitter;
00870     * i.e. most VoIP channels
00871     */
00872    AST_CHAN_TP_WANTSJITTER = (1 << 0),
00873    /*!
00874      * \brief Channels have this property if they can create jitter;
00875     * i.e. most VoIP channels
00876     */
00877    AST_CHAN_TP_CREATESJITTER = (1 << 1),
00878 };
00879 
00880 /*! \brief ast_channel flags */
00881 enum {
00882    /*! Queue incoming DTMF, to be released when this flag is turned off */
00883    AST_FLAG_DEFER_DTMF =    (1 << 1),
00884    /*! write should be interrupt generator */
00885    AST_FLAG_WRITE_INT =     (1 << 2),
00886    /*! a thread is blocking on this channel */
00887    AST_FLAG_BLOCKING =      (1 << 3),
00888    /*! This is a zombie channel */
00889    AST_FLAG_ZOMBIE =        (1 << 4),
00890    /*! There is an exception pending */
00891    AST_FLAG_EXCEPTION =     (1 << 5),
00892    /*! Listening to moh XXX anthm promises me this will disappear XXX */
00893    AST_FLAG_MOH =           (1 << 6),
00894    /*! This channel is spying on another channel */
00895    AST_FLAG_SPYING =        (1 << 7),
00896    /*! This channel is in a native bridge */
00897    AST_FLAG_NBRIDGE =       (1 << 8),
00898    /*! the channel is in an auto-incrementing dialplan processor,
00899     *  so when ->priority is set, it will get incremented before
00900     *  finding the next priority to run */
00901    AST_FLAG_IN_AUTOLOOP =   (1 << 9),
00902    /*! This is an outgoing call */
00903    AST_FLAG_OUTGOING =      (1 << 10),
00904    /*! A DTMF_BEGIN frame has been read from this channel, but not yet an END */
00905    AST_FLAG_IN_DTMF =       (1 << 12),
00906    /*! A DTMF_END was received when not IN_DTMF, so the length of the digit is
00907     *  currently being emulated */
00908    AST_FLAG_EMULATE_DTMF =  (1 << 13),
00909    /*! This is set to tell the channel not to generate DTMF begin frames, and
00910     *  to instead only generate END frames. */
00911    AST_FLAG_END_DTMF_ONLY = (1 << 14),
00912    /*! Flag to show channels that this call is hangup due to the fact that the call
00913        was indeed answered, but in another channel */
00914    AST_FLAG_ANSWERED_ELSEWHERE = (1 << 15),
00915    /*! This flag indicates that on a masquerade, an active stream should not
00916     *  be carried over */
00917    AST_FLAG_MASQ_NOSTREAM = (1 << 16),
00918    /*! This flag indicates that the hangup exten was run when the bridge terminated,
00919     *  a message aimed at preventing a subsequent hangup exten being run at the pbx_run
00920     *  level */
00921    AST_FLAG_BRIDGE_HANGUP_RUN = (1 << 17),
00922    /*! This flag indicates that the hangup exten should NOT be run when the
00923     *  bridge terminates, this will allow the hangup in the pbx loop to be run instead.
00924     *  */
00925    AST_FLAG_BRIDGE_HANGUP_DONT = (1 << 18),
00926    /*! Disable certain workarounds.  This reintroduces certain bugs, but allows
00927     *  some non-traditional dialplans (like AGI) to continue to function.
00928     */
00929    AST_FLAG_DISABLE_WORKAROUNDS = (1 << 20),
00930 };
00931 
00932 /*! \brief ast_bridge_config flags */
00933 enum {
00934    AST_FEATURE_PLAY_WARNING = (1 << 0),
00935    AST_FEATURE_REDIRECT =     (1 << 1),
00936    AST_FEATURE_DISCONNECT =   (1 << 2),
00937    AST_FEATURE_ATXFER =       (1 << 3),
00938    AST_FEATURE_AUTOMON =      (1 << 4),
00939    AST_FEATURE_PARKCALL =     (1 << 5),
00940    AST_FEATURE_AUTOMIXMON =   (1 << 6),
00941    AST_FEATURE_NO_H_EXTEN =   (1 << 7),
00942    AST_FEATURE_WARNING_ACTIVE = (1 << 8),
00943 };
00944 
00945 /*! \brief bridge configuration */
00946 struct ast_bridge_config {
00947    struct ast_flags features_caller;
00948    struct ast_flags features_callee;
00949    struct timeval start_time;
00950    struct timeval nexteventts;
00951    struct timeval feature_start_time;
00952    long feature_timer;
00953    long timelimit;
00954    long play_warning;
00955    long warning_freq;
00956    const char *warning_sound;
00957    const char *end_sound;
00958    const char *start_sound;
00959    unsigned int flags;
00960    void (* end_bridge_callback)(void *);   /*!< A callback that is called after a bridge attempt */
00961    void *end_bridge_callback_data;         /*!< Data passed to the callback */
00962    /*! If the end_bridge_callback_data refers to a channel which no longer is going to
00963     * exist when the end_bridge_callback is called, then it needs to be fixed up properly
00964     */
00965    void (*end_bridge_callback_data_fixup)(struct ast_bridge_config *bconfig, struct ast_channel *originator, struct ast_channel *terminator);
00966 };
00967 
00968 struct chanmon;
00969 
00970 struct outgoing_helper {
00971    const char *context;
00972    const char *exten;
00973    int priority;
00974    const char *cid_num;
00975    const char *cid_name;
00976    const char *account;
00977    struct ast_variable *vars;
00978    struct ast_channel *parent_channel;
00979 };
00980 
00981 enum {
00982    /*!
00983     * Soft hangup requested by device or other internal reason.
00984     * Actual hangup needed.
00985     */
00986    AST_SOFTHANGUP_DEV =       (1 << 0),
00987    /*!
00988     * Used to break the normal frame flow so an async goto can be
00989     * done instead of actually hanging up.
00990     */
00991    AST_SOFTHANGUP_ASYNCGOTO = (1 << 1),
00992    /*!
00993     * Soft hangup requested by system shutdown.  Actual hangup
00994     * needed.
00995     */
00996    AST_SOFTHANGUP_SHUTDOWN =  (1 << 2),
00997    /*!
00998     * Used to break the normal frame flow after a timeout so an
00999     * implicit async goto can be done to the 'T' exten if it exists
01000     * instead of actually hanging up.  If the exten does not exist
01001     * then actually hangup.
01002     */
01003    AST_SOFTHANGUP_TIMEOUT =   (1 << 3),
01004    /*!
01005     * Soft hangup requested by application/channel-driver being
01006     * unloaded.  Actual hangup needed.
01007     */
01008    AST_SOFTHANGUP_APPUNLOAD = (1 << 4),
01009    /*!
01010     * Soft hangup requested by non-associated party.  Actual hangup
01011     * needed.
01012     */
01013    AST_SOFTHANGUP_EXPLICIT =  (1 << 5),
01014    /*!
01015     * Used to break a bridge so the channel can be spied upon
01016     * instead of actually hanging up.
01017     */
01018    AST_SOFTHANGUP_UNBRIDGE =  (1 << 6),
01019 };
01020 
01021 
01022 /*! \brief Channel reload reasons for manager events at load or reload of configuration */
01023 enum channelreloadreason {
01024    CHANNEL_MODULE_LOAD,
01025    CHANNEL_MODULE_RELOAD,
01026    CHANNEL_CLI_RELOAD,
01027    CHANNEL_MANAGER_RELOAD,
01028 };
01029 
01030 /*!
01031  * \note None of the datastore API calls lock the ast_channel they are using.
01032  *       So, the channel should be locked before calling the functions that
01033  *       take a channel argument.
01034  */
01035 
01036 /*!
01037  * \brief Create a channel data store object
01038  * \deprecated You should use the ast_datastore_alloc() generic function instead.
01039  * \version 1.6.1 deprecated
01040  */
01041 struct ast_datastore * attribute_malloc ast_channel_datastore_alloc(const struct ast_datastore_info *info, const char *uid)
01042    __attribute__((deprecated));
01043 
01044 /*!
01045  * \brief Free a channel data store object
01046  * \deprecated You should use the ast_datastore_free() generic function instead.
01047  * \version 1.6.1 deprecated
01048  */
01049 int ast_channel_datastore_free(struct ast_datastore *datastore)
01050    __attribute__((deprecated));
01051 
01052 /*! \brief Inherit datastores from a parent to a child. */
01053 int ast_channel_datastore_inherit(struct ast_channel *from, struct ast_channel *to);
01054 
01055 /*!
01056  * \brief Add a datastore to a channel
01057  *
01058  * \note The channel should be locked before calling this function.
01059  *
01060  * \retval 0 success
01061  * \retval non-zero failure
01062  */
01063 int ast_channel_datastore_add(struct ast_channel *chan, struct ast_datastore *datastore);
01064 
01065 /*!
01066  * \brief Remove a datastore from a channel
01067  *
01068  * \note The channel should be locked before calling this function.
01069  *
01070  * \retval 0 success
01071  * \retval non-zero failure
01072  */
01073 int ast_channel_datastore_remove(struct ast_channel *chan, struct ast_datastore *datastore);
01074 
01075 /*!
01076  * \brief Find a datastore on a channel
01077  *
01078  * \note The channel should be locked before calling this function.
01079  *
01080  * \note The datastore returned from this function must not be used if the
01081  *       reference to the channel is released.
01082  *
01083  * \retval pointer to the datastore if found
01084  * \retval NULL if not found
01085  */
01086 struct ast_datastore *ast_channel_datastore_find(struct ast_channel *chan, const struct ast_datastore_info *info, const char *uid);
01087 
01088 /*!
01089  * \brief Create a channel structure
01090  * \since 1.8
01091  *
01092  * \retval NULL failure
01093  * \retval non-NULL successfully allocated channel
01094  *
01095  * \note By default, new channels are set to the "s" extension
01096  *       and "default" context.
01097  */
01098 struct ast_channel * attribute_malloc __attribute__((format(printf, 13, 14)))
01099    __ast_channel_alloc(int needqueue, int state, const char *cid_num,
01100              const char *cid_name, const char *acctcode,
01101              const char *exten, const char *context,
01102              const char *linkedid, const int amaflag,
01103              const char *file, int line, const char *function,
01104              const char *name_fmt, ...);
01105 
01106 #define ast_channel_alloc(needqueue, state, cid_num, cid_name, acctcode, exten, context, linkedid, amaflag, ...) \
01107    __ast_channel_alloc(needqueue, state, cid_num, cid_name, acctcode, exten, context, linkedid, amaflag, \
01108              __FILE__, __LINE__, __FUNCTION__, __VA_ARGS__)
01109 
01110 /*!
01111  * \brief Create a fake channel structure
01112  *
01113  * \retval NULL failure
01114  * \retval non-NULL successfully allocated channel
01115  *
01116  * \note This function should ONLY be used to create a fake channel
01117  *       that can then be populated with data for use in variable
01118  *       substitution when a real channel does not exist.
01119  */
01120 #if defined(REF_DEBUG) || defined(__AST_DEBUG_MALLOC)
01121 #define ast_dummy_channel_alloc()   __ast_dummy_channel_alloc(__FILE__, __LINE__, __PRETTY_FUNCTION__)
01122 struct ast_channel *__ast_dummy_channel_alloc(const char *file, int line, const char *function);
01123 #else
01124 struct ast_channel *ast_dummy_channel_alloc(void);
01125 #endif
01126 
01127 /*!
01128  * \brief Queue one or more frames to a channel's frame queue
01129  *
01130  * \param chan the channel to queue the frame(s) on
01131  * \param f the frame(s) to queue.  Note that the frame(s) will be duplicated
01132  *        by this function.  It is the responsibility of the caller to handle
01133  *        freeing the memory associated with the frame(s) being passed if
01134  *        necessary.
01135  *
01136  * \retval 0 success
01137  * \retval non-zero failure
01138  */
01139 int ast_queue_frame(struct ast_channel *chan, struct ast_frame *f);
01140 
01141 /*!
01142  * \brief Queue one or more frames to the head of a channel's frame queue
01143  *
01144  * \param chan the channel to queue the frame(s) on
01145  * \param f the frame(s) to queue.  Note that the frame(s) will be duplicated
01146  *        by this function.  It is the responsibility of the caller to handle
01147  *        freeing the memory associated with the frame(s) being passed if
01148  *        necessary.
01149  *
01150  * \retval 0 success
01151  * \retval non-zero failure
01152  */
01153 int ast_queue_frame_head(struct ast_channel *chan, struct ast_frame *f);
01154 
01155 /*!
01156  * \brief Queue a hangup frame
01157  *
01158  * \note The channel does not need to be locked before calling this function.
01159  */
01160 int ast_queue_hangup(struct ast_channel *chan);
01161 
01162 /*!
01163  * \brief Queue a hangup frame with hangupcause set
01164  *
01165  * \note The channel does not need to be locked before calling this function.
01166  * \param[in] chan channel to queue frame onto
01167  * \param[in] cause the hangup cause
01168  * \return 0 on success, -1 on error
01169  * \since 1.6.1
01170  */
01171 int ast_queue_hangup_with_cause(struct ast_channel *chan, int cause);
01172 
01173 /*!
01174  * \brief Queue a control frame with payload
01175  *
01176  * \param chan channel to queue frame onto
01177  * \param control type of control frame
01178  *
01179  * \note The channel does not need to be locked before calling this function.
01180  *
01181  * \retval zero on success
01182  * \retval non-zero on failure
01183  */
01184 int ast_queue_control(struct ast_channel *chan, enum ast_control_frame_type control);
01185 
01186 /*!
01187  * \brief Queue a control frame with payload
01188  *
01189  * \param chan channel to queue frame onto
01190  * \param control type of control frame
01191  * \param data pointer to payload data to be included in frame
01192  * \param datalen number of bytes of payload data
01193  *
01194  * \retval 0 success
01195  * \retval non-zero failure
01196  *
01197  * \details
01198  * The supplied payload data is copied into the frame, so the caller's copy
01199  * is not modified nor freed, and the resulting frame will retain a copy of
01200  * the data even if the caller frees their local copy.
01201  *
01202  * \note This method should be treated as a 'network transport'; in other
01203  * words, your frames may be transferred across an IAX2 channel to another
01204  * system, which may be a different endianness than yours. Because of this,
01205  * you should ensure that either your frames will never be expected to work
01206  * across systems, or that you always put your payload data into 'network byte
01207  * order' before calling this function.
01208  *
01209  * \note The channel does not need to be locked before calling this function.
01210  */
01211 int ast_queue_control_data(struct ast_channel *chan, enum ast_control_frame_type control,
01212             const void *data, size_t datalen);
01213 
01214 /*!
01215  * \brief Change channel name
01216  *
01217  * \pre Absolutely all channels _MUST_ be unlocked before calling this function.
01218  *
01219  * \param chan the channel to change the name of
01220  * \param newname the name to change to
01221  *
01222  * \return nothing
01223  *
01224  * \note this function must _NEVER_ be used when any channels are locked
01225  * regardless if it is the channel who's name is being changed or not because
01226  * it invalidates our channel container locking order... lock container first,
01227  * then the individual channels, never the other way around.
01228  */
01229 void ast_change_name(struct ast_channel *chan, const char *newname);
01230 
01231 /*!
01232  * \brief Unlink and release reference to a channel
01233  *
01234  * This function will unlink the channel from the global channels container
01235  * if it is still there and also release the current reference to the channel.
01236  *
01237  * \return NULL, convenient for clearing invalid pointers
01238  *
01239  * \since 1.8
01240  */
01241 struct ast_channel *ast_channel_release(struct ast_channel *chan);
01242 
01243 /*!
01244  * \brief Requests a channel
01245  *
01246  * \param type type of channel to request
01247  * \param format requested channel format (codec)
01248  * \param requestor channel asking for data
01249  * \param data data to pass to the channel requester
01250  * \param status status
01251  *
01252  * \details
01253  * Request a channel of a given type, with data as optional information used
01254  * by the low level module
01255  *
01256  * \retval NULL failure
01257  * \retval non-NULL channel on success
01258  */
01259 struct ast_channel *ast_request(const char *type, format_t format, const struct ast_channel *requestor, void *data, int *status);
01260 
01261 /*!
01262  * \brief Request a channel of a given type, with data as optional information used
01263  *        by the low level module and attempt to place a call on it
01264  *
01265  * \param type type of channel to request
01266  * \param format requested channel format
01267  * \param requestor channel asking for data
01268  * \param data data to pass to the channel requester
01269  * \param timeout maximum amount of time to wait for an answer
01270  * \param reason why unsuccessful (if unsuccessful)
01271  * \param cid_num Caller-ID Number
01272  * \param cid_name Caller-ID Name (ascii)
01273  *
01274  * \return Returns an ast_channel on success or no answer, NULL on failure.  Check the value of chan->_state
01275  * to know if the call was answered or not.
01276  */
01277 struct ast_channel *ast_request_and_dial(const char *type, format_t format, const struct ast_channel *requestor, void *data,
01278    int timeout, int *reason, const char *cid_num, const char *cid_name);
01279 
01280 /*!
01281  * \brief Request a channel of a given type, with data as optional information used
01282  * by the low level module and attempt to place a call on it
01283  * \param type type of channel to request
01284  * \param format requested channel format
01285  * \param requestor channel requesting data
01286  * \param data data to pass to the channel requester
01287  * \param timeout maximum amount of time to wait for an answer
01288  * \param reason why unsuccessful (if unsuccessful)
01289  * \param cid_num Caller-ID Number
01290  * \param cid_name Caller-ID Name (ascii)
01291  * \param oh Outgoing helper
01292  * \return Returns an ast_channel on success or no answer, NULL on failure.  Check the value of chan->_state
01293  * to know if the call was answered or not.
01294  */
01295 struct ast_channel *__ast_request_and_dial(const char *type, format_t format, const struct ast_channel *requestor, void *data,
01296    int timeout, int *reason, const char *cid_num, const char *cid_name, struct outgoing_helper *oh);
01297 
01298 /*!
01299  * \brief Forwards a call to a new channel specified by the original channel's call_forward str.  If possible, the new forwarded channel is created and returned while the original one is terminated.
01300  * \param caller in channel that requested orig
01301  * \param orig channel being replaced by the call forward channel
01302  * \param timeout maximum amount of time to wait for setup of new forward channel
01303  * \param format requested channel format
01304  * \param oh outgoing helper used with original channel
01305  * \param outstate reason why unsuccessful (if uncuccessful)
01306  * \return Returns the forwarded call's ast_channel on success or NULL on failure
01307  */
01308 struct ast_channel *ast_call_forward(struct ast_channel *caller, struct ast_channel *orig, int *timeout, format_t format, struct outgoing_helper *oh, int *outstate);
01309 
01310 /*!
01311  * \brief Register a channel technology (a new channel driver)
01312  * Called by a channel module to register the kind of channels it supports.
01313  * \param tech Structure defining channel technology or "type"
01314  * \return Returns 0 on success, -1 on failure.
01315  */
01316 int ast_channel_register(const struct ast_channel_tech *tech);
01317 
01318 /*!
01319  * \brief Unregister a channel technology
01320  * \param tech Structure defining channel technology or "type" that was previously registered
01321  * \return No return value.
01322  */
01323 void ast_channel_unregister(const struct ast_channel_tech *tech);
01324 
01325 /*!
01326  * \brief Get a channel technology structure by name
01327  * \param name name of technology to find
01328  * \return a pointer to the structure, or NULL if no matching technology found
01329  */
01330 const struct ast_channel_tech *ast_get_channel_tech(const char *name);
01331 
01332 #ifdef CHANNEL_TRACE
01333 /*!
01334  * \brief Update the context backtrace if tracing is enabled
01335  * \return Returns 0 on success, -1 on failure
01336  */
01337 int ast_channel_trace_update(struct ast_channel *chan);
01338 
01339 /*!
01340  * \brief Enable context tracing in the channel
01341  * \return Returns 0 on success, -1 on failure
01342  */
01343 int ast_channel_trace_enable(struct ast_channel *chan);
01344 
01345 /*!
01346  * \brief Disable context tracing in the channel.
01347  * \note Does not remove current trace entries
01348  * \return Returns 0 on success, -1 on failure
01349  */
01350 int ast_channel_trace_disable(struct ast_channel *chan);
01351 
01352 /*!
01353  * \brief Whether or not context tracing is enabled
01354  * \return Returns -1 when the trace is enabled. 0 if not.
01355  */
01356 int ast_channel_trace_is_enabled(struct ast_channel *chan);
01357 
01358 /*!
01359  * \brief Put the channel backtrace in a string
01360  * \return Returns the amount of lines in the backtrace. -1 on error.
01361  */
01362 int ast_channel_trace_serialize(struct ast_channel *chan, struct ast_str **out);
01363 #endif
01364 
01365 /*!
01366  * \brief Hang up a channel
01367  * \note This function performs a hard hangup on a channel.  Unlike the soft-hangup, this function
01368  * performs all stream stopping, etc, on the channel that needs to end.
01369  * chan is no longer valid after this call.
01370  * \param chan channel to hang up
01371  * \return Returns 0 on success, -1 on failure.
01372  */
01373 int ast_hangup(struct ast_channel *chan);
01374 
01375 /*!
01376  * \brief Softly hangup up a channel
01377  *
01378  * \param chan channel to be soft-hung-up
01379  * \param reason an AST_SOFTHANGUP_* reason code
01380  *
01381  * \details
01382  * Call the protocol layer, but don't destroy the channel structure
01383  * (use this if you are trying to
01384  * safely hangup a channel managed by another thread.
01385  *
01386  * \note The channel passed to this function does not need to be locked.
01387  *
01388  * \return Returns 0 regardless
01389  */
01390 int ast_softhangup(struct ast_channel *chan, int reason);
01391 
01392 /*!
01393  * \brief Softly hangup up a channel (no channel lock)
01394  * \param chan channel to be soft-hung-up
01395  * \param reason an AST_SOFTHANGUP_* reason code
01396  */
01397 int ast_softhangup_nolock(struct ast_channel *chan, int reason);
01398 
01399 /*!
01400  * \brief Set the source of the hangup in this channel and it's bridge
01401  *
01402  * \param chan channel to set the field on
01403  * \param source a string describing the source of the hangup for this channel
01404  * \param force
01405  *
01406  * \since 1.8
01407  *
01408  * Hangupsource is generally the channel name that caused the bridge to be
01409  * hung up, but it can also be other things such as "dialplan/agi"
01410  * This can then be logged in the CDR or CEL
01411  */
01412 void ast_set_hangupsource(struct ast_channel *chan, const char *source, int force);
01413 
01414 /*! \brief Check to see if a channel is needing hang up
01415  * \param chan channel on which to check for hang up
01416  * This function determines if the channel is being requested to be hung up.
01417  * \return Returns 0 if not, or 1 if hang up is requested (including time-out).
01418  */
01419 int ast_check_hangup(struct ast_channel *chan);
01420 
01421 int ast_check_hangup_locked(struct ast_channel *chan);
01422 
01423 /*!
01424  * \brief Compare a offset with the settings of when to hang a channel up
01425  * \param chan channel on which to check for hang up
01426  * \param offset offset in seconds from current time
01427  * \return 1, 0, or -1
01428  * \details
01429  * This function compares a offset from current time with the absolute time
01430  * out on a channel (when to hang up). If the absolute time out on a channel
01431  * is earlier than current time plus the offset, it returns 1, if the two
01432  * time values are equal, it return 0, otherwise, it return -1.
01433  * \sa ast_channel_cmpwhentohangup_tv()
01434  * \version 1.6.1 deprecated function (only had seconds precision)
01435  */
01436 int ast_channel_cmpwhentohangup(struct ast_channel *chan, time_t offset) __attribute__((deprecated));
01437 
01438 /*!
01439  * \brief Compare a offset with the settings of when to hang a channel up
01440  * \param chan channel on which to check for hangup
01441  * \param offset offset in seconds and microseconds from current time
01442  * \return 1, 0, or -1
01443  * This function compares a offset from current time with the absolute time
01444  * out on a channel (when to hang up). If the absolute time out on a channel
01445  * is earlier than current time plus the offset, it returns 1, if the two
01446  * time values are equal, it return 0, otherwise, it return -1.
01447  * \since 1.6.1
01448  */
01449 int ast_channel_cmpwhentohangup_tv(struct ast_channel *chan, struct timeval offset);
01450 
01451 /*!
01452  * \brief Set when to hang a channel up
01453  *
01454  * \param chan channel on which to check for hang up
01455  * \param offset offset in seconds relative to the current time of when to hang up
01456  *
01457  * \details
01458  * This function sets the absolute time out on a channel (when to hang up).
01459  *
01460  * \note This function does not require that the channel is locked before
01461  *       calling it.
01462  *
01463  * \return Nothing
01464  * \sa ast_channel_setwhentohangup_tv()
01465  * \version 1.6.1 deprecated function (only had seconds precision)
01466  */
01467 void ast_channel_setwhentohangup(struct ast_channel *chan, time_t offset) __attribute__((deprecated));
01468 
01469 /*!
01470  * \brief Set when to hang a channel up
01471  *
01472  * \param chan channel on which to check for hang up
01473  * \param offset offset in seconds and useconds relative to the current time of when to hang up
01474  *
01475  * This function sets the absolute time out on a channel (when to hang up).
01476  *
01477  * \note This function does not require that the channel is locked before
01478  * calling it.
01479  *
01480  * \return Nothing
01481  * \since 1.6.1
01482  */
01483 void ast_channel_setwhentohangup_tv(struct ast_channel *chan, struct timeval offset);
01484 
01485 /*!
01486  * \brief Answer a channel
01487  *
01488  * \param chan channel to answer
01489  *
01490  * \details
01491  * This function answers a channel and handles all necessary call
01492  * setup functions.
01493  *
01494  * \note The channel passed does not need to be locked, but is locked
01495  * by the function when needed.
01496  *
01497  * \note This function will wait up to 500 milliseconds for media to
01498  * arrive on the channel before returning to the caller, so that the
01499  * caller can properly assume the channel is 'ready' for media flow.
01500  *
01501  * \retval 0 on success
01502  * \retval non-zero on failure
01503  */
01504 int ast_answer(struct ast_channel *chan);
01505 
01506 /*!
01507  * \brief Answer a channel
01508  *
01509  * \param chan channel to answer
01510  * \param cdr_answer flag to control whether any associated CDR should be marked as 'answered'
01511  *
01512  * This function answers a channel and handles all necessary call
01513  * setup functions.
01514  *
01515  * \note The channel passed does not need to be locked, but is locked
01516  * by the function when needed.
01517  *
01518  * \note Unlike ast_answer(), this function will not wait for media
01519  * flow to begin. The caller should be careful before sending media
01520  * to the channel before incoming media arrives, as the outgoing
01521  * media may be lost.
01522  *
01523  * \retval 0 on success
01524  * \retval non-zero on failure
01525  */
01526 int ast_raw_answer(struct ast_channel *chan, int cdr_answer);
01527 
01528 /*!
01529  * \brief Answer a channel, with a selectable delay before returning
01530  *
01531  * \param chan channel to answer
01532  * \param delay maximum amount of time to wait for incoming media
01533  * \param cdr_answer flag to control whether any associated CDR should be marked as 'answered'
01534  *
01535  * This function answers a channel and handles all necessary call
01536  * setup functions.
01537  *
01538  * \note The channel passed does not need to be locked, but is locked
01539  * by the function when needed.
01540  *
01541  * \note This function will wait up to 'delay' milliseconds for media to
01542  * arrive on the channel before returning to the caller, so that the
01543  * caller can properly assume the channel is 'ready' for media flow. If
01544  * 'delay' is less than 500, the function will wait up to 500 milliseconds.
01545  *
01546  * \retval 0 on success
01547  * \retval non-zero on failure
01548  */
01549 int __ast_answer(struct ast_channel *chan, unsigned int delay, int cdr_answer);
01550 
01551 /*!
01552  * \brief Make a call
01553  * \param chan which channel to make the call on
01554  * \param addr destination of the call
01555  * \param timeout time to wait on for connect
01556  * \details
01557  * Place a call, take no longer than timeout ms.
01558  * \return -1 on failure, 0 on not enough time
01559  * (does not automatically stop ringing), and
01560  * the number of seconds the connect took otherwise.
01561  */
01562 int ast_call(struct ast_channel *chan, char *addr, int timeout);
01563 
01564 /*!
01565  * \brief Indicates condition of channel
01566  * \note Indicate a condition such as AST_CONTROL_BUSY, AST_CONTROL_RINGING, or AST_CONTROL_CONGESTION on a channel
01567  * \param chan channel to change the indication
01568  * \param condition which condition to indicate on the channel
01569  * \return Returns 0 on success, -1 on failure
01570  */
01571 int ast_indicate(struct ast_channel *chan, int condition);
01572 
01573 /*!
01574  * \brief Indicates condition of channel, with payload
01575  * \note Indicate a condition such as AST_CONTROL_HOLD with payload being music on hold class
01576  * \param chan channel to change the indication
01577  * \param condition which condition to indicate on the channel
01578  * \param data pointer to payload data
01579  * \param datalen size of payload data
01580  * \return Returns 0 on success, -1 on failure
01581  */
01582 int ast_indicate_data(struct ast_channel *chan, int condition, const void *data, size_t datalen);
01583 
01584 /* Misc stuff ------------------------------------------------ */
01585 
01586 /*!
01587  * \brief Wait for input on a channel
01588  * \param chan channel to wait on
01589  * \param ms length of time to wait on the channel
01590  * \details
01591  * Wait for input on a channel for a given # of milliseconds (<0 for indefinite).
01592  * \retval < 0 on failure
01593  * \retval 0 if nothing ever arrived
01594  * \retval the # of ms remaining otherwise
01595  */
01596 int ast_waitfor(struct ast_channel *chan, int ms);
01597 
01598 /*!
01599  * \brief Should we keep this frame for later?
01600  *
01601  * There are functions such as ast_safe_sleep which will
01602  * service a channel to ensure that it does not have a
01603  * large backlog of queued frames. When this happens,
01604  * we want to hold on to specific frame types and just drop
01605  * others. This function will tell if the frame we just
01606  * read should be held onto.
01607  *
01608  * \param frame The frame we just read
01609  * \retval 1 frame should be kept
01610  * \retval 0 frame should be dropped
01611  */
01612 int ast_is_deferrable_frame(const struct ast_frame *frame);
01613 
01614 /*!
01615  * \brief Wait for a specified amount of time, looking for hangups
01616  * \param chan channel to wait for
01617  * \param ms length of time in milliseconds to sleep
01618  * \details
01619  * Waits for a specified amount of time, servicing the channel as required.
01620  * \return returns -1 on hangup, otherwise 0.
01621  */
01622 int ast_safe_sleep(struct ast_channel *chan, int ms);
01623 
01624 /*!
01625  * \brief Wait for a specified amount of time, looking for hangups and a condition argument
01626  * \param chan channel to wait for
01627  * \param ms length of time in milliseconds to sleep
01628  * \param cond a function pointer for testing continue condition
01629  * \param data argument to be passed to the condition test function
01630  * \return returns -1 on hangup, otherwise 0.
01631  * \details
01632  * Waits for a specified amount of time, servicing the channel as required. If cond
01633  * returns 0, this function returns.
01634  */
01635 int ast_safe_sleep_conditional(struct ast_channel *chan, int ms, int (*cond)(void*), void *data );
01636 
01637 /*!
01638  * \brief Waits for activity on a group of channels
01639  * \param chan an array of pointers to channels
01640  * \param n number of channels that are to be waited upon
01641  * \param fds an array of fds to wait upon
01642  * \param nfds the number of fds to wait upon
01643  * \param exception exception flag
01644  * \param outfd fd that had activity on it
01645  * \param ms how long the wait was
01646  * \details
01647  * Big momma function here.  Wait for activity on any of the n channels, or any of the nfds
01648  * file descriptors.
01649  * \return Returns the channel with activity, or NULL on error or if an FD
01650  * came first.  If the FD came first, it will be returned in outfd, otherwise, outfd
01651  * will be -1
01652  */
01653 struct ast_channel *ast_waitfor_nandfds(struct ast_channel **chan, int n,
01654    int *fds, int nfds, int *exception, int *outfd, int *ms);
01655 
01656 /*!
01657  * \brief Waits for input on a group of channels
01658  * Wait for input on an array of channels for a given # of milliseconds.
01659  * \return Return channel with activity, or NULL if none has activity.
01660  * \param chan an array of pointers to channels
01661  * \param n number of channels that are to be waited upon
01662  * \param ms time "ms" is modified in-place, if applicable
01663  */
01664 struct ast_channel *ast_waitfor_n(struct ast_channel **chan, int n, int *ms);
01665 
01666 /*!
01667  * \brief Waits for input on an fd
01668  * \note This version works on fd's only.  Be careful with it.
01669  */
01670 int ast_waitfor_n_fd(int *fds, int n, int *ms, int *exception);
01671 
01672 
01673 /*!
01674  * \brief Reads a frame
01675  * \param chan channel to read a frame from
01676  * \return Returns a frame, or NULL on error.  If it returns NULL, you
01677  * best just stop reading frames and assume the channel has been
01678  * disconnected.
01679  */
01680 struct ast_frame *ast_read(struct ast_channel *chan);
01681 
01682 /*!
01683  * \brief Reads a frame, returning AST_FRAME_NULL frame if audio.
01684  * \param chan channel to read a frame from
01685  * \return  Returns a frame, or NULL on error.  If it returns NULL, you
01686  * best just stop reading frames and assume the channel has been
01687  * disconnected.
01688  * \note Audio is replaced with AST_FRAME_NULL to avoid
01689  * transcode when the resulting audio is not necessary.
01690  */
01691 struct ast_frame *ast_read_noaudio(struct ast_channel *chan);
01692 
01693 /*!
01694  * \brief Write a frame to a channel
01695  * This function writes the given frame to the indicated channel.
01696  * \param chan destination channel of the frame
01697  * \param frame frame that will be written
01698  * \return It returns 0 on success, -1 on failure.
01699  */
01700 int ast_write(struct ast_channel *chan, struct ast_frame *frame);
01701 
01702 /*!
01703  * \brief Write video frame to a channel
01704  * This function writes the given frame to the indicated channel.
01705  * \param chan destination channel of the frame
01706  * \param frame frame that will be written
01707  * \return It returns 1 on success, 0 if not implemented, and -1 on failure.
01708  */
01709 int ast_write_video(struct ast_channel *chan, struct ast_frame *frame);
01710 
01711 /*!
01712  * \brief Write text frame to a channel
01713  * This function writes the given frame to the indicated channel.
01714  * \param chan destination channel of the frame
01715  * \param frame frame that will be written
01716  * \return It returns 1 on success, 0 if not implemented, and -1 on failure.
01717  */
01718 int ast_write_text(struct ast_channel *chan, struct ast_frame *frame);
01719 
01720 /*! \brief Send empty audio to prime a channel driver */
01721 int ast_prod(struct ast_channel *chan);
01722 
01723 /*!
01724  * \brief Sets read format on channel chan
01725  * Set read format for channel to whichever component of "format" is best.
01726  * \param chan channel to change
01727  * \param format format to change to
01728  * \return Returns 0 on success, -1 on failure
01729  */
01730 int ast_set_read_format(struct ast_channel *chan, format_t format);
01731 
01732 /*!
01733  * \brief Sets write format on channel chan
01734  * Set write format for channel to whichever component of "format" is best.
01735  * \param chan channel to change
01736  * \param format new format for writing
01737  * \return Returns 0 on success, -1 on failure
01738  */
01739 int ast_set_write_format(struct ast_channel *chan, format_t format);
01740 
01741 /*!
01742  * \brief Sends text to a channel
01743  *
01744  * \param chan channel to act upon
01745  * \param text string of text to send on the channel
01746  *
01747  * \details
01748  * Write text to a display on a channel
01749  *
01750  * \note The channel does not need to be locked before calling this function.
01751  *
01752  * \retval 0 on success
01753  * \retval -1 on failure
01754  */
01755 int ast_sendtext(struct ast_channel *chan, const char *text);
01756 
01757 /*!
01758  * \brief Receives a text character from a channel
01759  * \param chan channel to act upon
01760  * \param timeout timeout in milliseconds (0 for infinite wait)
01761  * \details
01762  * Read a char of text from a channel
01763  * \return 0 on success, -1 on failure
01764  */
01765 int ast_recvchar(struct ast_channel *chan, int timeout);
01766 
01767 /*!
01768  * \brief Send a DTMF digit to a channel.
01769  * \param chan channel to act upon
01770  * \param digit the DTMF digit to send, encoded in ASCII
01771  * \param duration the duration of the digit ending in ms
01772  * \return 0 on success, -1 on failure
01773  */
01774 int ast_senddigit(struct ast_channel *chan, char digit, unsigned int duration);
01775 
01776 /*!
01777  * \brief Send a DTMF digit to a channel.
01778  * \param chan channel to act upon
01779  * \param digit the DTMF digit to send, encoded in ASCII
01780  * \return 0 on success, -1 on failure
01781  */
01782 int ast_senddigit_begin(struct ast_channel *chan, char digit);
01783 
01784 /*!
01785  * \brief Send a DTMF digit to a channel.
01786  * \param chan channel to act upon
01787  * \param digit the DTMF digit to send, encoded in ASCII
01788  * \param duration the duration of the digit ending in ms
01789  * \return Returns 0 on success, -1 on failure
01790  */
01791 int ast_senddigit_end(struct ast_channel *chan, char digit, unsigned int duration);
01792 
01793 /*!
01794  * \brief Receives a text string from a channel
01795  * Read a string of text from a channel
01796  * \param chan channel to act upon
01797  * \param timeout timeout in milliseconds (0 for infinite wait)
01798  * \return the received text, or NULL to signify failure.
01799  */
01800 char *ast_recvtext(struct ast_channel *chan, int timeout);
01801 
01802 /*!
01803  * \brief Waits for a digit
01804  * \param c channel to wait for a digit on
01805  * \param ms how many milliseconds to wait
01806  * \return Returns <0 on error, 0 on no entry, and the digit on success.
01807  */
01808 int ast_waitfordigit(struct ast_channel *c, int ms);
01809 
01810 /*!
01811  * \brief Wait for a digit
01812  * Same as ast_waitfordigit() with audio fd for outputting read audio and ctrlfd to monitor for reading.
01813  * \param c channel to wait for a digit on
01814  * \param ms how many milliseconds to wait
01815  * \param audiofd audio file descriptor to write to if audio frames are received
01816  * \param ctrlfd control file descriptor to monitor for reading
01817  * \return Returns 1 if ctrlfd becomes available
01818  */
01819 int ast_waitfordigit_full(struct ast_channel *c, int ms, int audiofd, int ctrlfd);
01820 
01821 /*!
01822  * \brief Reads multiple digits
01823  * \param c channel to read from
01824  * \param s string to read in to.  Must be at least the size of your length
01825  * \param len how many digits to read (maximum)
01826  * \param timeout how long to timeout between digits
01827  * \param rtimeout timeout to wait on the first digit
01828  * \param enders digits to end the string
01829  * \details
01830  * Read in a digit string "s", max length "len", maximum timeout between
01831  * digits "timeout" (-1 for none), terminated by anything in "enders".  Give them rtimeout
01832  * for the first digit.
01833  * \return Returns 0 on normal return, or 1 on a timeout.  In the case of
01834  * a timeout, any digits that were read before the timeout will still be available in s.
01835  * RETURNS 2 in full version when ctrlfd is available, NOT 1
01836  */
01837 int ast_readstring(struct ast_channel *c, char *s, int len, int timeout, int rtimeout, char *enders);
01838 int ast_readstring_full(struct ast_channel *c, char *s, int len, int timeout, int rtimeout, char *enders, int audiofd, int ctrlfd);
01839 
01840 /*! \brief Report DTMF on channel 0 */
01841 #define AST_BRIDGE_DTMF_CHANNEL_0      (1 << 0)
01842 /*! \brief Report DTMF on channel 1 */
01843 #define AST_BRIDGE_DTMF_CHANNEL_1      (1 << 1)
01844 /*! \brief Return all voice frames on channel 0 */
01845 #define AST_BRIDGE_REC_CHANNEL_0    (1 << 2)
01846 /*! \brief Return all voice frames on channel 1 */
01847 #define AST_BRIDGE_REC_CHANNEL_1    (1 << 3)
01848 /*! \brief Ignore all signal frames except NULL */
01849 #define AST_BRIDGE_IGNORE_SIGS         (1 << 4)
01850 
01851 
01852 /*!
01853  * \brief Makes two channel formats compatible
01854  * \param c0 first channel to make compatible
01855  * \param c1 other channel to make compatible
01856  * \details
01857  * Set two channels to compatible formats -- call before ast_channel_bridge in general.
01858  * \return Returns 0 on success and -1 if it could not be done
01859  */
01860 int ast_channel_make_compatible(struct ast_channel *c0, struct ast_channel *c1);
01861 
01862 /*!
01863  * \brief Bridge two channels together (early)
01864  * \param c0 first channel to bridge
01865  * \param c1 second channel to bridge
01866  * \details
01867  * Bridge two channels (c0 and c1) together early. This implies either side may not be answered yet.
01868  * \return Returns 0 on success and -1 if it could not be done
01869  */
01870 int ast_channel_early_bridge(struct ast_channel *c0, struct ast_channel *c1);
01871 
01872 /*!
01873  * \brief Bridge two channels together
01874  * \param c0 first channel to bridge
01875  * \param c1 second channel to bridge
01876  * \param config config for the channels
01877  * \param fo destination frame(?)
01878  * \param rc destination channel(?)
01879  * \details
01880  * Bridge two channels (c0 and c1) together.  If an important frame occurs, we return that frame in
01881  * *rf (remember, it could be NULL) and which channel (0 or 1) in rc
01882  */
01883 /* int ast_channel_bridge(struct ast_channel *c0, struct ast_channel *c1, int flags, struct ast_frame **fo, struct ast_channel **rc); */
01884 int ast_channel_bridge(struct ast_channel *c0,struct ast_channel *c1,
01885    struct ast_bridge_config *config, struct ast_frame **fo, struct ast_channel **rc);
01886 
01887 /*!
01888  * \brief Weird function made for call transfers
01889  *
01890  * \param original channel to make a copy of
01891  * \param clone copy of the original channel
01892  *
01893  * \details
01894  * This is a very strange and freaky function used primarily for transfer.  Suppose that
01895  * "original" and "clone" are two channels in random situations.  This function takes
01896  * the guts out of "clone" and puts them into the "original" channel, then alerts the
01897  * channel driver of the change, asking it to fixup any private information (like the
01898  * p->owner pointer) that is affected by the change.  The physical layer of the original
01899  * channel is hung up.
01900  *
01901  * \note Neither channel passed here needs to be locked before calling this function.
01902  */
01903 int ast_channel_masquerade(struct ast_channel *original, struct ast_channel *clone);
01904 
01905 /*!
01906  * \brief Setup a masquerade to transfer a call.
01907  * \since 1.8
01908  *
01909  * \param target_chan Target of the call transfer.  (Masquerade original channel)
01910  * \param target_id New connected line information for the target channel.
01911  * \param target_held TRUE if the target call is on hold.
01912  * \param transferee_chan Transferee of the call transfer. (Masquerade clone channel)
01913  * \param transferee_id New connected line information for the transferee channel.
01914  * \param transferee_held TRUE if the transferee call is on hold.
01915  *
01916  * \details
01917  * Party A - Transferee
01918  * Party B - Transferer
01919  * Party C - Target of transfer
01920  *
01921  * Party B transfers A to C.
01922  *
01923  * Party A is connected to bridged channel B1.
01924  * Party B is connected to channels C1 and C2.
01925  * Party C is connected to bridged channel B2.
01926  *
01927  * Party B -- C1 == B1 -- Party A
01928  *               __/
01929  *              /
01930  * Party B -- C2 == B2 -- Party C
01931  *
01932  * Bridged channel B1 is masqueraded into channel C2.  Where B1
01933  * is the masquerade clone channel and C2 is the masquerade
01934  * original channel.
01935  *
01936  * \see ast_channel_masquerade()
01937  *
01938  * \note Has the same locking requirements as ast_channel_masquerade().
01939  *
01940  * \retval 0 on success.
01941  * \retval -1 on error.
01942  */
01943 int ast_channel_transfer_masquerade(
01944    struct ast_channel *target_chan,
01945    const struct ast_party_connected_line *target_id,
01946    int target_held,
01947    struct ast_channel *transferee_chan,
01948    const struct ast_party_connected_line *transferee_id,
01949    int transferee_held);
01950 
01951 /*!
01952  * \brief Gives the string form of a given cause code.
01953  *
01954  * \param state cause to get the description of
01955  * \return the text form of the binary cause code given
01956  */
01957 const char *ast_cause2str(int state) attribute_pure;
01958 
01959 /*!
01960  * \brief Convert the string form of a cause code to a number
01961  *
01962  * \param name string form of the cause
01963  * \return the cause code
01964  */
01965 int ast_str2cause(const char *name) attribute_pure;
01966 
01967 /*!
01968  * \brief Gives the string form of a given channel state
01969  *
01970  * \param ast_channel_state state to get the name of
01971  * \return the text form of the binary state given
01972  */
01973 const char *ast_state2str(enum ast_channel_state);
01974 
01975 /*!
01976  * \brief Gives the string form of a given transfer capability
01977  *
01978  * \param transfercapability transfer capability to get the name of
01979  * \return the text form of the binary transfer capability
01980  */
01981 char *ast_transfercapability2str(int transfercapability) attribute_const;
01982 
01983 /*
01984  * Options: Some low-level drivers may implement "options" allowing fine tuning of the
01985  * low level channel.  See frame.h for options.  Note that many channel drivers may support
01986  * none or a subset of those features, and you should not count on this if you want your
01987  * asterisk application to be portable.  They're mainly useful for tweaking performance
01988  */
01989 
01990 /*!
01991  * \brief Sets an option on a channel
01992  *
01993  * \param channel channel to set options on
01994  * \param option option to change
01995  * \param data data specific to option
01996  * \param datalen length of the data
01997  * \param block blocking or not
01998  * \details
01999  * Set an option on a channel (see frame.h), optionally blocking awaiting the reply
02000  * \return 0 on success and -1 on failure
02001  */
02002 int ast_channel_setoption(struct ast_channel *channel, int option, void *data, int datalen, int block);
02003 
02004 /*! Pick the best codec
02005  * Choose the best codec...  Uhhh...   Yah. */
02006 format_t ast_best_codec(format_t fmts);
02007 
02008 
02009 /*!
02010  * \brief Checks the value of an option
02011  *
02012  * Query the value of an option
02013  * Works similarly to setoption except only reads the options.
02014  */
02015 int ast_channel_queryoption(struct ast_channel *channel, int option, void *data, int *datalen, int block);
02016 
02017 /*!
02018  * \brief Checks for HTML support on a channel
02019  * \return 0 if channel does not support HTML or non-zero if it does
02020  */
02021 int ast_channel_supports_html(struct ast_channel *channel);
02022 
02023 /*!
02024  * \brief Sends HTML on given channel
02025  * Send HTML or URL on link.
02026  * \return 0 on success or -1 on failure
02027  */
02028 int ast_channel_sendhtml(struct ast_channel *channel, int subclass, const char *data, int datalen);
02029 
02030 /*!
02031  * \brief Sends a URL on a given link
02032  * Send URL on link.
02033  * \return 0 on success or -1 on failure
02034  */
02035 int ast_channel_sendurl(struct ast_channel *channel, const char *url);
02036 
02037 /*!
02038  * \brief Defers DTMF so that you only read things like hangups and audio.
02039  * \return non-zero if channel was already DTMF-deferred or
02040  * 0 if channel is just now being DTMF-deferred
02041  */
02042 int ast_channel_defer_dtmf(struct ast_channel *chan);
02043 
02044 /*! Undo defer.  ast_read will return any DTMF characters that were queued */
02045 void ast_channel_undefer_dtmf(struct ast_channel *chan);
02046 
02047 /*! Initiate system shutdown -- prevents new channels from being allocated.
02048  * \param hangup  If "hangup" is non-zero, all existing channels will receive soft
02049  *  hangups */
02050 void ast_begin_shutdown(int hangup);
02051 
02052 /*! Cancels an existing shutdown and returns to normal operation */
02053 void ast_cancel_shutdown(void);
02054 
02055 /*! \return number of active/allocated channels */
02056 int ast_active_channels(void);
02057 
02058 /*! \return non-zero if Asterisk is being shut down */
02059 int ast_shutting_down(void);
02060 
02061 /*! Activate a given generator */
02062 int ast_activate_generator(struct ast_channel *chan, struct ast_generator *gen, void *params);
02063 
02064 /*! Deactivate an active generator */
02065 void ast_deactivate_generator(struct ast_channel *chan);
02066 
02067 /*!
02068  * \brief Set caller ID number, name and ANI and generate AMI event.
02069  *
02070  * \note Use ast_channel_set_caller() and ast_channel_set_caller_event() instead.
02071  * \note The channel does not need to be locked before calling this function.
02072  */
02073 void ast_set_callerid(struct ast_channel *chan, const char *cid_num, const char *cid_name, const char *cid_ani);
02074 
02075 /*!
02076  * \brief Set the caller id information in the Asterisk channel
02077  * \since 1.8
02078  *
02079  * \param chan Asterisk channel to set caller id information
02080  * \param caller Caller id information
02081  * \param update What caller information to update.  NULL if all.
02082  *
02083  * \return Nothing
02084  *
02085  * \note The channel does not need to be locked before calling this function.
02086  */
02087 void ast_channel_set_caller(struct ast_channel *chan, const struct ast_party_caller *caller, const struct ast_set_party_caller *update);
02088 
02089 /*!
02090  * \brief Set the caller id information in the Asterisk channel and generate an AMI event
02091  * if the caller id name or number changed.
02092  * \since 1.8
02093  *
02094  * \param chan Asterisk channel to set caller id information
02095  * \param caller Caller id information
02096  * \param update What caller information to update.  NULL if all.
02097  *
02098  * \return Nothing
02099  *
02100  * \note The channel does not need to be locked before calling this function.
02101  */
02102 void ast_channel_set_caller_event(struct ast_channel *chan, const struct ast_party_caller *caller, const struct ast_set_party_caller *update);
02103 
02104 /*! Set the file descriptor on the channel */
02105 void ast_channel_set_fd(struct ast_channel *chan, int which, int fd);
02106 
02107 /*! Add a channel to an optimized waitfor */
02108 void ast_poll_channel_add(struct ast_channel *chan0, struct ast_channel *chan1);
02109 
02110 /*! Delete a channel from an optimized waitfor */
02111 void ast_poll_channel_del(struct ast_channel *chan0, struct ast_channel *chan1);
02112 
02113 /*! Start a tone going */
02114 int ast_tonepair_start(struct ast_channel *chan, int freq1, int freq2, int duration, int vol);
02115 /*! Stop a tone from playing */
02116 void ast_tonepair_stop(struct ast_channel *chan);
02117 /*! Play a tone pair for a given amount of time */
02118 int ast_tonepair(struct ast_channel *chan, int freq1, int freq2, int duration, int vol);
02119 
02120 /*!
02121  * \brief Automatically service a channel for us...
02122  *
02123  * \retval 0 success
02124  * \retval -1 failure, or the channel is already being autoserviced
02125  */
02126 int ast_autoservice_start(struct ast_channel *chan);
02127 
02128 /*!
02129  * \brief Stop servicing a channel for us...
02130  *
02131  * \note if chan is locked prior to calling ast_autoservice_stop, it
02132  * is likely that there will be a deadlock between the thread that calls
02133  * ast_autoservice_stop and the autoservice thread. It is important
02134  * that chan is not locked prior to this call
02135  *
02136  * \param chan
02137  * \retval 0 success
02138  * \retval -1 error, or the channel has been hungup
02139  */
02140 int ast_autoservice_stop(struct ast_channel *chan);
02141 
02142 /*!
02143  * \brief Ignore certain frame types
02144  * \note Normally, we cache DTMF, IMAGE, HTML, TEXT, and CONTROL frames
02145  * while a channel is in autoservice and queue them up when taken out of
02146  * autoservice.  When this is not desireable, this API may be used to
02147  * cause the channel to ignore those frametypes after the channel is put
02148  * into autoservice, but before autoservice is stopped.
02149  * \retval 0 success
02150  * \retval -1 channel is not in autoservice
02151  */
02152 int ast_autoservice_ignore(struct ast_channel *chan, enum ast_frame_type ftype);
02153 
02154 /*!
02155  * \brief Enable or disable timer ticks for a channel
02156  *
02157  * \param c channel
02158  * \param rate number of timer ticks per second
02159  * \param func callback function
02160  * \param data
02161  *
02162  * \details
02163  * If timers are supported, force a scheduled expiration on the
02164  * timer fd, at which point we call the callback function / data
02165  *
02166  * \note Call this function with a rate of 0 to turn off the timer ticks
02167  *
02168  * \version 1.6.1 changed samples parameter to rate, accomodates new timing methods
02169  */
02170 int ast_settimeout(struct ast_channel *c, unsigned int rate, int (*func)(const void *data), void *data);
02171 
02172 /*!
02173  * \brief Transfer a channel (if supported).
02174  * \retval -1 on error
02175  * \retval 0 if not supported
02176  * \retval 1 if supported and requested
02177  * \param chan current channel
02178  * \param dest destination extension for transfer
02179  */
02180 int ast_transfer(struct ast_channel *chan, char *dest);
02181 
02182 /*!
02183  * \brief Start masquerading a channel
02184  * \note absolutely _NO_ channel locks should be held before calling this function.
02185  * \details
02186  * XXX This is a seriously whacked out operation.  We're essentially putting the guts of
02187  *     the clone channel into the original channel.  Start by killing off the original
02188  *     channel's backend.   I'm not sure we're going to keep this function, because
02189  *     while the features are nice, the cost is very high in terms of pure nastiness. XXX
02190  * \param chan Channel to masquerade
02191  */
02192 int ast_do_masquerade(struct ast_channel *chan);
02193 
02194 /*!
02195  * \brief Find bridged channel
02196  *
02197  * \note This function does _not_ return a reference to the bridged channel.
02198  * The reason for this is mostly historical.  It _should_ return a reference,
02199  * but it will take a lot of work to make the code base account for that.
02200  * So, for now, the old rules still apply for how to handle this function.
02201  * If this function is being used from the channel thread that owns the channel,
02202  * then a reference is already held, and channel locking is not required to
02203  * guarantee that the channel will stay around.  If this function is used
02204  * outside of the associated channel thread, the channel parameter 'chan'
02205  * MUST be locked before calling this function.  Also, 'chan' must remain locked
02206  * for the entire time that the result of this function is being used.
02207  *
02208  * \param chan Current channel
02209  *
02210  * \return A pointer to the bridged channel
02211 */
02212 struct ast_channel *ast_bridged_channel(struct ast_channel *chan);
02213 
02214 /*!
02215  * \brief Inherits channel variable from parent to child channel
02216  * \param parent Parent channel
02217  * \param child Child channel
02218  *
02219  * \details
02220  * Scans all channel variables in the parent channel, looking for those
02221  * that should be copied into the child channel.
02222  * Variables whose names begin with a single '_' are copied into the
02223  * child channel with the prefix removed.
02224  * Variables whose names begin with '__' are copied into the child
02225  * channel with their names unchanged.
02226  */
02227 void ast_channel_inherit_variables(const struct ast_channel *parent, struct ast_channel *child);
02228 
02229 /*!
02230  * \brief adds a list of channel variables to a channel
02231  * \param chan the channel
02232  * \param vars a linked list of variables
02233  *
02234  * \details
02235  * Variable names can be for a regular channel variable or a dialplan function
02236  * that has the ability to be written to.
02237  */
02238 void ast_set_variables(struct ast_channel *chan, struct ast_variable *vars);
02239 
02240 /*!
02241  * \brief An opaque 'object' structure use by silence generators on channels.
02242  */
02243 struct ast_silence_generator;
02244 
02245 /*!
02246  * \brief Starts a silence generator on the given channel.
02247  * \param chan The channel to generate silence on
02248  * \return An ast_silence_generator pointer, or NULL if an error occurs
02249  *
02250  * \details
02251  * This function will cause SLINEAR silence to be generated on the supplied
02252  * channel until it is disabled; if the channel cannot be put into SLINEAR
02253  * mode then the function will fail.
02254  *
02255  * \note
02256  * The pointer returned by this function must be preserved and passed to
02257  * ast_channel_stop_silence_generator when you wish to stop the silence
02258  * generation.
02259  */
02260 struct ast_silence_generator *ast_channel_start_silence_generator(struct ast_channel *chan);
02261 
02262 /*!
02263  * \brief Stops a previously-started silence generator on the given channel.
02264  * \param chan The channel to operate on
02265  * \param state The ast_silence_generator pointer return by a previous call to
02266  * ast_channel_start_silence_generator.
02267  * \return nothing
02268  *
02269  * \details
02270  * This function will stop the operating silence generator and return the channel
02271  * to its previous write format.
02272  */
02273 void ast_channel_stop_silence_generator(struct ast_channel *chan, struct ast_silence_generator *state);
02274 
02275 /*!
02276  * \brief Check if the channel can run in internal timing mode.
02277  * \param chan The channel to check
02278  * \return boolean
02279  *
02280  * \details
02281  * This function will return 1 if internal timing is enabled and the timing
02282  * device is available.
02283  */
02284 int ast_internal_timing_enabled(struct ast_channel *chan);
02285 
02286 /* Misc. functions below */
02287 
02288 /*!
02289  * \brief if fd is a valid descriptor, set *pfd with the descriptor
02290  * \return Return 1 (not -1!) if added, 0 otherwise (so we can add the
02291  * return value to the index into the array)
02292  */
02293 static inline int ast_add_fd(struct pollfd *pfd, int fd)
02294 {
02295    pfd->fd = fd;
02296    pfd->events = POLLIN | POLLPRI;
02297    return fd >= 0;
02298 }
02299 
02300 /*! \brief Helper function for migrating select to poll */
02301 static inline int ast_fdisset(struct pollfd *pfds, int fd, int maximum, int *start)
02302 {
02303    int x;
02304    int dummy = 0;
02305 
02306    if (fd < 0)
02307       return 0;
02308    if (!start)
02309       start = &dummy;
02310    for (x = *start; x < maximum; x++)
02311       if (pfds[x].fd == fd) {
02312          if (x == *start)
02313             (*start)++;
02314          return pfds[x].revents;
02315       }
02316    return 0;
02317 }
02318 
02319 /*! \brief Retrieves the current T38 state of a channel */
02320 static inline enum ast_t38_state ast_channel_get_t38_state(struct ast_channel *chan)
02321 {
02322    enum ast_t38_state state = T38_STATE_UNAVAILABLE;
02323    int datalen = sizeof(state);
02324 
02325    ast_channel_queryoption(chan, AST_OPTION_T38_STATE, &state, &datalen, 0);
02326 
02327    return state;
02328 }
02329 
02330 #define CHECK_BLOCKING(c) do {    \
02331    if (ast_test_flag(c, AST_FLAG_BLOCKING)) {\
02332       if (option_debug) \
02333          ast_log(LOG_DEBUG, "Thread %ld Blocking '%s', already blocked by thread %ld in procedure %s\n", (long) pthread_self(), (c)->name, (long) (c)->blocker, (c)->blockproc); \
02334    } else { \
02335       (c)->blocker = pthread_self(); \
02336       (c)->blockproc = __PRETTY_FUNCTION__; \
02337       ast_set_flag(c, AST_FLAG_BLOCKING); \
02338    } } while (0)
02339 
02340 ast_group_t ast_get_group(const char *s);
02341 
02342 /*! \brief print call- and pickup groups into buffer */
02343 char *ast_print_group(char *buf, int buflen, ast_group_t group);
02344 
02345 /*!
02346  * \brief Convert enum channelreloadreason to text string for manager event
02347  * \param reason The reason for reload (manager, cli, start etc)
02348  */
02349 const char *channelreloadreason2txt(enum channelreloadreason reason);
02350 
02351 /*! \brief return an ast_variable list of channeltypes */
02352 struct ast_variable *ast_channeltype_list(void);
02353 
02354 /*!
02355  * \brief return an english explanation of the code returned thru __ast_request_and_dial's 'outstate' argument
02356  * \param reason  The integer argument, usually taken from AST_CONTROL_ macros
02357  * \return char pointer explaining the code
02358  */
02359 const char *ast_channel_reason2str(int reason);
02360 
02361 /*! \brief channel group info */
02362 struct ast_group_info {
02363    struct ast_channel *chan;
02364    char *category;
02365    char *group;
02366    AST_LIST_ENTRY(ast_group_info) group_list;
02367 };
02368 
02369 #define ast_channel_lock(chan) ao2_lock(chan)
02370 #define ast_channel_unlock(chan) ao2_unlock(chan)
02371 #define ast_channel_trylock(chan) ao2_trylock(chan)
02372 
02373 /*!
02374  * \brief Lock two channels.
02375  */
02376 #define ast_channel_lock_both(chan1, chan2) do { \
02377       ast_channel_lock(chan1); \
02378       while (ast_channel_trylock(chan2)) { \
02379          ast_channel_unlock(chan1); \
02380          sched_yield(); \
02381          ast_channel_lock(chan1); \
02382       } \
02383    } while (0)
02384 
02385 /*!
02386  * \brief Increase channel reference count
02387  *
02388  * \param c the channel
02389  *
02390  * \retval c always
02391  *
02392  * \since 1.8
02393  */
02394 #define ast_channel_ref(c) ({ ao2_ref(c, +1); (c); })
02395 
02396 /*!
02397  * \brief Decrease channel reference count
02398  *
02399  * \param c the channel
02400  *
02401  * \retval NULL always
02402  *
02403  * \since 1.8
02404  */
02405 #define ast_channel_unref(c) ({ ao2_ref(c, -1); (struct ast_channel *) (NULL); })
02406 
02407 /*! Channel Iterating @{ */
02408 
02409 /*!
02410  * \brief A channel iterator
02411  *
02412  * This is an opaque type.
02413  */
02414 struct ast_channel_iterator;
02415 
02416 /*!
02417  * \brief Destroy a channel iterator
02418  *
02419  * \arg i the itereator to destroy
02420  *
02421  * This function is used to destroy a channel iterator that was retrieved by
02422  * using one of the channel_iterator_new() functions.
02423  *
02424  * \return NULL, for convenience to clear out the pointer to the iterator that
02425  * was just destroyed.
02426  *
02427  * \since 1.8
02428  */
02429 struct ast_channel_iterator *ast_channel_iterator_destroy(struct ast_channel_iterator *i);
02430 
02431 /*!
02432  * \brief Create a new channel iterator based on extension
02433  *
02434  * \arg exten The extension that channels must be in
02435  * \arg context The context that channels must be in (optional)
02436  *
02437  * After creating an iterator using this function, the ast_channel_iterator_next()
02438  * function can be used to iterate through all channels that are currently
02439  * in the specified context and extension.
02440  *
02441  * \retval NULL on failure
02442  * \retval a new channel iterator based on the specified parameters
02443  *
02444  * \since 1.8
02445  */
02446 struct ast_channel_iterator *ast_channel_iterator_by_exten_new(const char *exten, const char *context);
02447 
02448 /*!
02449  * \brief Create a new channel iterator based on name
02450  *
02451  * \arg name channel name or channel uniqueid to match
02452  * \arg name_len number of characters in the channel name to match on.  This
02453  *      would be used to match based on name prefix.  If matching on the full
02454  *      channel name is desired, then this parameter should be 0.
02455  *
02456  * After creating an iterator using this function, the ast_channel_iterator_next()
02457  * function can be used to iterate through all channels that exist that have
02458  * the specified name or name prefix.
02459  *
02460  * \retval NULL on failure
02461  * \retval a new channel iterator based on the specified parameters
02462  *
02463  * \since 1.8
02464  */
02465 struct ast_channel_iterator *ast_channel_iterator_by_name_new(const char *name,  size_t name_len);
02466 
02467 /*!
02468  * \brief Create a new channel iterator
02469  *
02470  * After creating an iterator using this function, the ast_channel_iterator_next()
02471  * function can be used to iterate through all channels that exist.
02472  *
02473  * \retval NULL on failure
02474  * \retval a new channel iterator
02475  *
02476  * \since 1.8
02477  */
02478 struct ast_channel_iterator *ast_channel_iterator_all_new(void);
02479 
02480 /*!
02481  * \brief Get the next channel for a channel iterator
02482  *
02483  * \arg i the channel iterator that was created using one of the
02484  *  channel_iterator_new() functions.
02485  *
02486  * This function should be used to iterate through all channels that match a
02487  * specified set of parameters that were provided when the iterator was created.
02488  *
02489  * \retval the next channel that matches the parameters used when the iterator
02490  *         was created.
02491  * \retval NULL, if no more channels match the iterator parameters.
02492  *
02493  * \since 1.8
02494  */
02495 struct ast_channel *ast_channel_iterator_next(struct ast_channel_iterator *i);
02496 
02497 /*! @} End channel iterator definitions. */
02498 
02499 /*!
02500  * \brief Call a function with every active channel
02501  *
02502  * This function executes a callback one time for each active channel on the
02503  * system.  The channel is provided as an argument to the function.
02504  *
02505  * \since 1.8
02506  */
02507 struct ast_channel *ast_channel_callback(ao2_callback_data_fn *cb_fn, void *arg,
02508       void *data, int ao2_flags);
02509 
02510 /*! @{ Channel search functions */
02511 
02512 /*!
02513  * \brief Find a channel by name
02514  *
02515  * \arg name the name or uniqueid of the channel to search for
02516  *
02517  * Find a channel that has the same name as the provided argument.
02518  *
02519  * \retval a channel with the name specified by the argument
02520  * \retval NULL if no channel was found
02521  *
02522  * \since 1.8
02523  */
02524 struct ast_channel *ast_channel_get_by_name(const char *name);
02525 
02526 /*!
02527  * \brief Find a channel by a name prefix
02528  *
02529  * \arg name The channel name or uniqueid prefix to search for
02530  * \arg name_len Only search for up to this many characters from the name
02531  *
02532  * Find a channel that has the same name prefix as specified by the arguments.
02533  *
02534  * \retval a channel with the name prefix specified by the arguments
02535  * \retval NULL if no channel was found
02536  *
02537  * \since 1.8
02538  */
02539 struct ast_channel *ast_channel_get_by_name_prefix(const char *name, size_t name_len);
02540 
02541 /*!
02542  * \brief Find a channel by extension and context
02543  *
02544  * \arg exten the extension to search for
02545  * \arg context the context to search for (optional)
02546  *
02547  * Return a channel that is currently at the specified extension and context.
02548  *
02549  * \retval a channel that is at the specified extension and context
02550  * \retval NULL if no channel was found
02551  *
02552  * \since 1.8
02553  */
02554 struct ast_channel *ast_channel_get_by_exten(const char *exten, const char *context);
02555 
02556 /*! @} End channel search functions. */
02557 
02558 /*!
02559   \brief propagate the linked id between chan and peer
02560  */
02561 void ast_channel_set_linkgroup(struct ast_channel *chan, struct ast_channel *peer);
02562 
02563 
02564 /*!
02565  * \brief Initialize the given name structure.
02566  * \since 1.8
02567  *
02568  * \param init Name structure to initialize.
02569  *
02570  * \return Nothing
02571  */
02572 void ast_party_name_init(struct ast_party_name *init);
02573 
02574 /*!
02575  * \brief Copy the source party name information to the destination party name.
02576  * \since 1.8
02577  *
02578  * \param dest Destination party name
02579  * \param src Source party name
02580  *
02581  * \return Nothing
02582  */
02583 void ast_party_name_copy(struct ast_party_name *dest, const struct ast_party_name *src);
02584 
02585 /*!
02586  * \brief Initialize the given party name structure using the given guide
02587  * for a set update operation.
02588  * \since 1.8
02589  *
02590  * \details
02591  * The initialization is needed to allow a set operation to know if a
02592  * value needs to be updated.  Simple integers need the guide's original
02593  * value in case the set operation is not trying to set a new value.
02594  * String values are simply set to NULL pointers if they are not going
02595  * to be updated.
02596  *
02597  * \param init Party name structure to initialize.
02598  * \param guide Source party name to use as a guide in initializing.
02599  *
02600  * \return Nothing
02601  */
02602 void ast_party_name_set_init(struct ast_party_name *init, const struct ast_party_name *guide);
02603 
02604 /*!
02605  * \brief Set the source party name information into the destination party name.
02606  * \since 1.8
02607  *
02608  * \param dest The name one wishes to update
02609  * \param src The new name values to update the dest
02610  *
02611  * \return Nothing
02612  */
02613 void ast_party_name_set(struct ast_party_name *dest, const struct ast_party_name *src);
02614 
02615 /*!
02616  * \brief Destroy the party name contents
02617  * \since 1.8
02618  *
02619  * \param doomed The party name to destroy.
02620  *
02621  * \return Nothing
02622  */
02623 void ast_party_name_free(struct ast_party_name *doomed);
02624 
02625 /*!
02626  * \brief Initialize the given number structure.
02627  * \since 1.8
02628  *
02629  * \param init Number structure to initialize.
02630  *
02631  * \return Nothing
02632  */
02633 void ast_party_number_init(struct ast_party_number *init);
02634 
02635 /*!
02636  * \brief Copy the source party number information to the destination party number.
02637  * \since 1.8
02638  *
02639  * \param dest Destination party number
02640  * \param src Source party number
02641  *
02642  * \return Nothing
02643  */
02644 void ast_party_number_copy(struct ast_party_number *dest, const struct ast_party_number *src);
02645 
02646 /*!
02647  * \brief Initialize the given party number structure using the given guide
02648  * for a set update operation.
02649  * \since 1.8
02650  *
02651  * \details
02652  * The initialization is needed to allow a set operation to know if a
02653  * value needs to be updated.  Simple integers need the guide's original
02654  * value in case the set operation is not trying to set a new value.
02655  * String values are simply set to NULL pointers if they are not going
02656  * to be updated.
02657  *
02658  * \param init Party number structure to initialize.
02659  * \param guide Source party number to use as a guide in initializing.
02660  *
02661  * \return Nothing
02662  */
02663 void ast_party_number_set_init(struct ast_party_number *init, const struct ast_party_number *guide);
02664 
02665 /*!
02666  * \brief Set the source party number information into the destination party number.
02667  * \since 1.8
02668  *
02669  * \param dest The number one wishes to update
02670  * \param src The new number values to update the dest
02671  *
02672  * \return Nothing
02673  */
02674 void ast_party_number_set(struct ast_party_number *dest, const struct ast_party_number *src);
02675 
02676 /*!
02677  * \brief Destroy the party number contents
02678  * \since 1.8
02679  *
02680  * \param doomed The party number to destroy.
02681  *
02682  * \return Nothing
02683  */
02684 void ast_party_number_free(struct ast_party_number *doomed);
02685 
02686 /*!
02687  * \since 1.8
02688  * \brief Initialize the given subaddress structure.
02689  *
02690  * \param init Subaddress structure to initialize.
02691  *
02692  * \return Nothing
02693  */
02694 void ast_party_subaddress_init(struct ast_party_subaddress *init);
02695 
02696 /*!
02697  * \since 1.8
02698  * \brief Copy the source party subaddress information to the destination party subaddress.
02699  *
02700  * \param dest Destination party subaddress
02701  * \param src Source party subaddress
02702  *
02703  * \return Nothing
02704  */
02705 void ast_party_subaddress_copy(struct ast_party_subaddress *dest, const struct ast_party_subaddress *src);
02706 
02707 /*!
02708  * \since 1.8
02709  * \brief Initialize the given party subaddress structure using the given guide
02710  * for a set update operation.
02711  *
02712  * \details
02713  * The initialization is needed to allow a set operation to know if a
02714  * value needs to be updated.  Simple integers need the guide's original
02715  * value in case the set operation is not trying to set a new value.
02716  * String values are simply set to NULL pointers if they are not going
02717  * to be updated.
02718  *
02719  * \param init Party subaddress structure to initialize.
02720  * \param guide Source party subaddress to use as a guide in initializing.
02721  *
02722  * \return Nothing
02723  */
02724 void ast_party_subaddress_set_init(struct ast_party_subaddress *init, const struct ast_party_subaddress *guide);
02725 
02726 /*!
02727  * \since 1.8
02728  * \brief Set the source party subaddress information into the destination party subaddress.
02729  *
02730  * \param dest The subaddress one wishes to update
02731  * \param src The new subaddress values to update the dest
02732  *
02733  * \return Nothing
02734  */
02735 void ast_party_subaddress_set(struct ast_party_subaddress *dest, const struct ast_party_subaddress *src);
02736 
02737 /*!
02738  * \since 1.8
02739  * \brief Destroy the party subaddress contents
02740  *
02741  * \param doomed The party subaddress to destroy.
02742  *
02743  * \return Nothing
02744  */
02745 void ast_party_subaddress_free(struct ast_party_subaddress *doomed);
02746 
02747 /*!
02748  * \brief Initialize the given party id structure.
02749  * \since 1.8
02750  *
02751  * \param init Party id structure to initialize.
02752  *
02753  * \return Nothing
02754  */
02755 void ast_party_id_init(struct ast_party_id *init);
02756 
02757 /*!
02758  * \brief Copy the source party id information to the destination party id.
02759  * \since 1.8
02760  *
02761  * \param dest Destination party id
02762  * \param src Source party id
02763  *
02764  * \return Nothing
02765  */
02766 void ast_party_id_copy(struct ast_party_id *dest, const struct ast_party_id *src);
02767 
02768 /*!
02769  * \brief Initialize the given party id structure using the given guide
02770  * for a set update operation.
02771  * \since 1.8
02772  *
02773  * \details
02774  * The initialization is needed to allow a set operation to know if a
02775  * value needs to be updated.  Simple integers need the guide's original
02776  * value in case the set operation is not trying to set a new value.
02777  * String values are simply set to NULL pointers if they are not going
02778  * to be updated.
02779  *
02780  * \param init Party id structure to initialize.
02781  * \param guide Source party id to use as a guide in initializing.
02782  *
02783  * \return Nothing
02784  */
02785 void ast_party_id_set_init(struct ast_party_id *init, const struct ast_party_id *guide);
02786 
02787 /*!
02788  * \brief Set the source party id information into the destination party id.
02789  * \since 1.8
02790  *
02791  * \param dest The id one wishes to update
02792  * \param src The new id values to update the dest
02793  * \param update What id information to update.  NULL if all.
02794  *
02795  * \return Nothing
02796  */
02797 void ast_party_id_set(struct ast_party_id *dest, const struct ast_party_id *src, const struct ast_set_party_id *update);
02798 
02799 /*!
02800  * \brief Destroy the party id contents
02801  * \since 1.8
02802  *
02803  * \param doomed The party id to destroy.
02804  *
02805  * \return Nothing
02806  */
02807 void ast_party_id_free(struct ast_party_id *doomed);
02808 
02809 /*!
02810  * \brief Determine the overall presentation value for the given party.
02811  * \since 1.8
02812  *
02813  * \param id Party to determine the overall presentation value.
02814  *
02815  * \return Overall presentation value for the given party.
02816  */
02817 int ast_party_id_presentation(const struct ast_party_id *id);
02818 
02819 /*!
02820  * \brief Initialize the given dialed structure.
02821  * \since 1.8
02822  *
02823  * \param init Dialed structure to initialize.
02824  *
02825  * \return Nothing
02826  */
02827 void ast_party_dialed_init(struct ast_party_dialed *init);
02828 
02829 /*!
02830  * \brief Copy the source dialed party information to the destination dialed party.
02831  * \since 1.8
02832  *
02833  * \param dest Destination dialed party
02834  * \param src Source dialed party
02835  *
02836  * \return Nothing
02837  */
02838 void ast_party_dialed_copy(struct ast_party_dialed *dest, const struct ast_party_dialed *src);
02839 
02840 /*!
02841  * \brief Initialize the given dialed structure using the given
02842  * guide for a set update operation.
02843  * \since 1.8
02844  *
02845  * \details
02846  * The initialization is needed to allow a set operation to know if a
02847  * value needs to be updated.  Simple integers need the guide's original
02848  * value in case the set operation is not trying to set a new value.
02849  * String values are simply set to NULL pointers if they are not going
02850  * to be updated.
02851  *
02852  * \param init Caller structure to initialize.
02853  * \param guide Source dialed to use as a guide in initializing.
02854  *
02855  * \return Nothing
02856  */
02857 void ast_party_dialed_set_init(struct ast_party_dialed *init, const struct ast_party_dialed *guide);
02858 
02859 /*!
02860  * \brief Set the dialed information based on another dialed source
02861  * \since 1.8
02862  *
02863  * This is similar to ast_party_dialed_copy, except that NULL values for
02864  * strings in the src parameter indicate not to update the corresponding dest values.
02865  *
02866  * \param dest The dialed one wishes to update
02867  * \param src The new dialed values to update the dest
02868  *
02869  * \return Nada
02870  */
02871 void ast_party_dialed_set(struct ast_party_dialed *dest, const struct ast_party_dialed *src);
02872 
02873 /*!
02874  * \brief Destroy the dialed party contents
02875  * \since 1.8
02876  *
02877  * \param doomed The dialed party to destroy.
02878  *
02879  * \return Nothing
02880  */
02881 void ast_party_dialed_free(struct ast_party_dialed *doomed);
02882 
02883 /*!
02884  * \since 1.8
02885  * \brief Initialize the given caller structure.
02886  *
02887  * \param init Caller structure to initialize.
02888  *
02889  * \return Nothing
02890  */
02891 void ast_party_caller_init(struct ast_party_caller *init);
02892 
02893 /*!
02894  * \since 1.8
02895  * \brief Copy the source caller information to the destination caller.
02896  *
02897  * \param dest Destination caller
02898  * \param src Source caller
02899  *
02900  * \return Nothing
02901  */
02902 void ast_party_caller_copy(struct ast_party_caller *dest, const struct ast_party_caller *src);
02903 
02904 /*!
02905  * \brief Initialize the given caller structure using the given
02906  * guide for a set update operation.
02907  * \since 1.8
02908  *
02909  * \details
02910  * The initialization is needed to allow a set operation to know if a
02911  * value needs to be updated.  Simple integers need the guide's original
02912  * value in case the set operation is not trying to set a new value.
02913  * String values are simply set to NULL pointers if they are not going
02914  * to be updated.
02915  *
02916  * \param init Caller structure to initialize.
02917  * \param guide Source caller to use as a guide in initializing.
02918  *
02919  * \return Nothing
02920  */
02921 void ast_party_caller_set_init(struct ast_party_caller *init, const struct ast_party_caller *guide);
02922 
02923 /*!
02924  * \brief Set the caller information based on another caller source
02925  * \since 1.8
02926  *
02927  * This is similar to ast_party_caller_copy, except that NULL values for
02928  * strings in the src parameter indicate not to update the corresponding dest values.
02929  *
02930  * \param dest The caller one wishes to update
02931  * \param src The new caller values to update the dest
02932  * \param update What caller information to update.  NULL if all.
02933  *
02934  * \return Nada
02935  */
02936 void ast_party_caller_set(struct ast_party_caller *dest, const struct ast_party_caller *src, const struct ast_set_party_caller *update);
02937 
02938 /*!
02939  * \brief Destroy the caller party contents
02940  * \since 1.8
02941  *
02942  * \param doomed The caller party to destroy.
02943  *
02944  * \return Nothing
02945  */
02946 void ast_party_caller_free(struct ast_party_caller *doomed);
02947 
02948 /*!
02949  * \since 1.8
02950  * \brief Initialize the given connected line structure.
02951  *
02952  * \param init Connected line structure to initialize.
02953  *
02954  * \return Nothing
02955  */
02956 void ast_party_connected_line_init(struct ast_party_connected_line *init);
02957 
02958 /*!
02959  * \since 1.8
02960  * \brief Copy the source connected line information to the destination connected line.
02961  *
02962  * \param dest Destination connected line
02963  * \param src Source connected line
02964  *
02965  * \return Nothing
02966  */
02967 void ast_party_connected_line_copy(struct ast_party_connected_line *dest, const struct ast_party_connected_line *src);
02968 
02969 /*!
02970  * \since 1.8
02971  * \brief Initialize the given connected line structure using the given
02972  * guide for a set update operation.
02973  *
02974  * \details
02975  * The initialization is needed to allow a set operation to know if a
02976  * value needs to be updated.  Simple integers need the guide's original
02977  * value in case the set operation is not trying to set a new value.
02978  * String values are simply set to NULL pointers if they are not going
02979  * to be updated.
02980  *
02981  * \param init Connected line structure to initialize.
02982  * \param guide Source connected line to use as a guide in initializing.
02983  *
02984  * \return Nothing
02985  */
02986 void ast_party_connected_line_set_init(struct ast_party_connected_line *init, const struct ast_party_connected_line *guide);
02987 
02988 /*!
02989  * \since 1.8
02990  * \brief Set the connected line information based on another connected line source
02991  *
02992  * This is similar to ast_party_connected_line_copy, except that NULL values for
02993  * strings in the src parameter indicate not to update the corresponding dest values.
02994  *
02995  * \param dest The connected line one wishes to update
02996  * \param src The new connected line values to update the dest
02997  * \param update What connected line information to update.  NULL if all.
02998  *
02999  * \return Nothing
03000  */
03001 void ast_party_connected_line_set(struct ast_party_connected_line *dest, const struct ast_party_connected_line *src, const struct ast_set_party_connected_line *update);
03002 
03003 /*!
03004  * \since 1.8
03005  * \brief Collect the caller party information into a connected line structure.
03006  *
03007  * \param connected Collected caller information for the connected line
03008  * \param caller Caller information.
03009  *
03010  * \return Nothing
03011  *
03012  * \warning This is a shallow copy.
03013  * \warning DO NOT call ast_party_connected_line_free() on the filled in
03014  * connected line structure!
03015  */
03016 void ast_party_connected_line_collect_caller(struct ast_party_connected_line *connected, struct ast_party_caller *caller);
03017 
03018 /*!
03019  * \since 1.8
03020  * \brief Destroy the connected line information contents
03021  *
03022  * \param doomed The connected line information to destroy.
03023  *
03024  * \return Nothing
03025  */
03026 void ast_party_connected_line_free(struct ast_party_connected_line *doomed);
03027 
03028 /*!
03029  * \brief Initialize the given redirecting structure.
03030  * \since 1.8
03031  *
03032  * \param init Redirecting structure to initialize.
03033  *
03034  * \return Nothing
03035  */
03036 void ast_party_redirecting_init(struct ast_party_redirecting *init);
03037 
03038 /*!
03039  * \since 1.8
03040  * \brief Copy the source redirecting information to the destination redirecting.
03041  *
03042  * \param dest Destination redirecting
03043  * \param src Source redirecting
03044  *
03045  * \return Nothing
03046  */
03047 void ast_party_redirecting_copy(struct ast_party_redirecting *dest, const struct ast_party_redirecting *src);
03048 
03049 /*!
03050  * \since 1.8
03051  * \brief Initialize the given redirecting id structure using the given guide
03052  * for a set update operation.
03053  *
03054  * \details
03055  * The initialization is needed to allow a set operation to know if a
03056  * value needs to be updated.  Simple integers need the guide's original
03057  * value in case the set operation is not trying to set a new value.
03058  * String values are simply set to NULL pointers if they are not going
03059  * to be updated.
03060  *
03061  * \param init Redirecting id structure to initialize.
03062  * \param guide Source redirecting id to use as a guide in initializing.
03063  *
03064  * \return Nothing
03065  */
03066 void ast_party_redirecting_set_init(struct ast_party_redirecting *init, const struct ast_party_redirecting *guide);
03067 
03068 /*!
03069  * \brief Set the redirecting information based on another redirecting source
03070  * \since 1.8
03071  *
03072  * This is similar to ast_party_redirecting_copy, except that NULL values for
03073  * strings in the src parameter indicate not to update the corresponding dest values.
03074  *
03075  * \param dest The redirecting one wishes to update
03076  * \param src The new redirecting values to update the dest
03077  * \param update What redirecting information to update.  NULL if all.
03078  *
03079  * \return Nothing
03080  */
03081 void ast_party_redirecting_set(struct ast_party_redirecting *dest, const struct ast_party_redirecting *src, const struct ast_set_party_redirecting *update);
03082 
03083 /*!
03084  * \since 1.8
03085  * \brief Destroy the redirecting information contents
03086  *
03087  * \param doomed The redirecting information to destroy.
03088  *
03089  * \return Nothing
03090  */
03091 void ast_party_redirecting_free(struct ast_party_redirecting *doomed);
03092 
03093 /*!
03094  * \since 1.8
03095  * \brief Copy the caller information to the connected line information.
03096  *
03097  * \param dest Destination connected line information
03098  * \param src Source caller information
03099  *
03100  * \return Nothing
03101  *
03102  * \note Assumes locks are already acquired
03103  */
03104 void ast_connected_line_copy_from_caller(struct ast_party_connected_line *dest, const struct ast_party_caller *src);
03105 
03106 /*!
03107  * \since 1.8
03108  * \brief Copy the connected line information to the caller information.
03109  *
03110  * \param dest Destination caller information
03111  * \param src Source connected line information
03112  *
03113  * \return Nothing
03114  *
03115  * \note Assumes locks are already acquired
03116  */
03117 void ast_connected_line_copy_to_caller(struct ast_party_caller *dest, const struct ast_party_connected_line *src);
03118 
03119 /*!
03120  * \since 1.8
03121  * \brief Set the connected line information in the Asterisk channel
03122  *
03123  * \param chan Asterisk channel to set connected line information
03124  * \param connected Connected line information
03125  * \param update What connected line information to update.  NULL if all.
03126  *
03127  * \return Nothing
03128  *
03129  * \note The channel does not need to be locked before calling this function.
03130  */
03131 void ast_channel_set_connected_line(struct ast_channel *chan, const struct ast_party_connected_line *connected, const struct ast_set_party_connected_line *update);
03132 
03133 /*!
03134  * \since 1.8
03135  * \brief Build the connected line information data frame.
03136  *
03137  * \param data Buffer to fill with the frame data
03138  * \param datalen Size of the buffer to fill
03139  * \param connected Connected line information
03140  * \param update What connected line information to build.  NULL if all.
03141  *
03142  * \retval -1 if error
03143  * \retval Amount of data buffer used
03144  */
03145 int ast_connected_line_build_data(unsigned char *data, size_t datalen, const struct ast_party_connected_line *connected, const struct ast_set_party_connected_line *update);
03146 
03147 /*!
03148  * \since 1.8
03149  * \brief Parse connected line indication frame data
03150  *
03151  * \param data Buffer with the frame data to parse
03152  * \param datalen Size of the buffer
03153  * \param connected Extracted connected line information
03154  *
03155  * \retval 0 on success.
03156  * \retval -1 on error.
03157  *
03158  * \note The filled in connected line structure needs to be initialized by
03159  * ast_party_connected_line_set_init() before calling.  If defaults are not
03160  * required use ast_party_connected_line_init().
03161  * \note The filled in connected line structure needs to be destroyed by
03162  * ast_party_connected_line_free() when it is no longer needed.
03163  */
03164 int ast_connected_line_parse_data(const unsigned char *data, size_t datalen, struct ast_party_connected_line *connected);
03165 
03166 /*!
03167  * \since 1.8
03168  * \brief Indicate that the connected line information has changed
03169  *
03170  * \param chan Asterisk channel to indicate connected line information
03171  * \param connected Connected line information
03172  * \param update What connected line information to update.  NULL if all.
03173  *
03174  * \return Nothing
03175  */
03176 void ast_channel_update_connected_line(struct ast_channel *chan, const struct ast_party_connected_line *connected, const struct ast_set_party_connected_line *update);
03177 
03178 /*!
03179  * \since 1.8
03180  * \brief Queue a connected line update frame on a channel
03181  *
03182  * \param chan Asterisk channel to indicate connected line information
03183  * \param connected Connected line information
03184  * \param update What connected line information to update.  NULL if all.
03185  *
03186  * \return Nothing
03187  */
03188 void ast_channel_queue_connected_line_update(struct ast_channel *chan, const struct ast_party_connected_line *connected, const struct ast_set_party_connected_line *update);
03189 
03190 /*!
03191  * \since 1.8
03192  * \brief Set the redirecting id information in the Asterisk channel
03193  *
03194  * \param chan Asterisk channel to set redirecting id information
03195  * \param redirecting Redirecting id information
03196  * \param update What redirecting information to update.  NULL if all.
03197  *
03198  * \return Nothing
03199  *
03200  * \note The channel does not need to be locked before calling this function.
03201  */
03202 void ast_channel_set_redirecting(struct ast_channel *chan, const struct ast_party_redirecting *redirecting, const struct ast_set_party_redirecting *update);
03203 
03204 /*!
03205  * \since 1.8
03206  * \brief Build the redirecting id data frame.
03207  *
03208  * \param data Buffer to fill with the frame data
03209  * \param datalen Size of the buffer to fill
03210  * \param redirecting Redirecting id information
03211  * \param update What redirecting information to build.  NULL if all.
03212  *
03213  * \retval -1 if error
03214  * \retval Amount of data buffer used
03215  */
03216 int ast_redirecting_build_data(unsigned char *data, size_t datalen, const struct ast_party_redirecting *redirecting, const struct ast_set_party_redirecting *update);
03217 
03218 /*!
03219  * \since 1.8
03220  * \brief Parse redirecting indication frame data
03221  *
03222  * \param data Buffer with the frame data to parse
03223  * \param datalen Size of the buffer
03224  * \param redirecting Extracted redirecting id information
03225  *
03226  * \retval 0 on success.
03227  * \retval -1 on error.
03228  *
03229  * \note The filled in id structure needs to be initialized by
03230  * ast_party_redirecting_set_init() before calling.
03231  * \note The filled in id structure needs to be destroyed by
03232  * ast_party_redirecting_free() when it is no longer needed.
03233  */
03234 int ast_redirecting_parse_data(const unsigned char *data, size_t datalen, struct ast_party_redirecting *redirecting);
03235 
03236 /*!
03237  * \since 1.8
03238  * \brief Indicate that the redirecting id has changed
03239  *
03240  * \param chan Asterisk channel to indicate redirecting id information
03241  * \param redirecting Redirecting id information
03242  * \param update What redirecting information to update.  NULL if all.
03243  *
03244  * \return Nothing
03245  */
03246 void ast_channel_update_redirecting(struct ast_channel *chan, const struct ast_party_redirecting *redirecting, const struct ast_set_party_redirecting *update);
03247 
03248 /*!
03249  * \since 1.8
03250  * \brief Queue a redirecting update frame on a channel
03251  *
03252  * \param chan Asterisk channel to indicate redirecting id information
03253  * \param redirecting Redirecting id information
03254  * \param update What redirecting information to update.  NULL if all.
03255  *
03256  * \return Nothing
03257  */
03258 void ast_channel_queue_redirecting_update(struct ast_channel *chan, const struct ast_party_redirecting *redirecting, const struct ast_set_party_redirecting *update);
03259 
03260 /*!
03261  * \since 1.8
03262  * \brief Run a connected line interception macro and update a channel's connected line
03263  * information
03264  *
03265  * Whenever we want to update a channel's connected line information, we may need to run
03266  * a macro so that an administrator can manipulate the information before sending it
03267  * out. This function both runs the macro and sends the update to the channel.
03268  *
03269  * \param autoservice_chan Channel to place into autoservice while the macro is running.
03270  *    It is perfectly safe for this to be NULL
03271  * \param macro_chan The channel to run the macro on. Also the channel from which we
03272  *    determine which macro we need to run.
03273  * \param connected_info Either an ast_party_connected_line or ast_frame pointer of type
03274  *    AST_CONTROL_CONNECTED_LINE
03275  * \param caller If true, then run CONNECTED_LINE_CALLER_SEND_MACRO, otherwise run
03276  *    CONNECTED_LINE_CALLEE_SEND_MACRO
03277  * \param frame If true, then connected_info is an ast_frame pointer, otherwise it is an
03278  *    ast_party_connected_line pointer.
03279  * \retval 0 Success
03280  * \retval -1 Either the macro does not exist, or there was an error while attempting to
03281  *    run the macro
03282  *
03283  * \todo Have multiple return codes based on the MACRO_RESULT
03284  * \todo Make constants so that caller and frame can be more expressive than just '1' and
03285  *    '0'
03286  */
03287 int ast_channel_connected_line_macro(struct ast_channel *autoservice_chan, struct ast_channel *macro_chan, const void *connected_info, int caller, int frame);
03288 
03289 /*!
03290  * \brief Insert into an astdata tree, the channel structure.
03291  * \param[in] tree The ast data tree.
03292  * \param[in] chan The channel structure to add to tree.
03293  * \param[in] add_bridged Add the bridged channel to the structure.
03294  * \retval <0 on error.
03295  * \retval 0 on success.
03296  */
03297 int ast_channel_data_add_structure(struct ast_data *tree, struct ast_channel *chan, int add_bridged);
03298 
03299 /*!
03300  * \brief Compare to channel structures using the data api.
03301  * \param[in] tree The search tree generated by the data api.
03302  * \param[in] chan The channel to compare.
03303  * \param[in] structure_name The name of the node of the channel structure.
03304  * \retval 0 The structure matches.
03305  * \retval 1 The structure doesn't matches.
03306  */
03307 int ast_channel_data_cmp_structure(const struct ast_data_search *tree, struct ast_channel *chan,
03308    const char *structure_name);
03309 
03310 /*!
03311  * \since 1.8
03312  * \brief Run a redirecting interception macro and update a channel's redirecting information
03313  *
03314  * \details
03315  * Whenever we want to update a channel's redirecting information, we may need to run
03316  * a macro so that an administrator can manipulate the information before sending it
03317  * out. This function both runs the macro and sends the update to the channel.
03318  *
03319  * \param autoservice_chan Channel to place into autoservice while the macro is running.
03320  * It is perfectly safe for this to be NULL
03321  * \param macro_chan The channel to run the macro on. Also the channel from which we
03322  * determine which macro we need to run.
03323  * \param redirecting_info Either an ast_party_redirecting or ast_frame pointer of type
03324  * AST_CONTROL_REDIRECTING
03325  * \param is_caller If true, then run REDIRECTING_CALLER_SEND_MACRO, otherwise run
03326  * REDIRECTING_CALLEE_SEND_MACRO
03327  * \param is_frame If true, then redirecting_info is an ast_frame pointer, otherwise it is an
03328  * ast_party_redirecting pointer.
03329  *
03330  * \retval 0 Success
03331  * \retval -1 Either the macro does not exist, or there was an error while attempting to
03332  * run the macro
03333  *
03334  * \todo Have multiple return codes based on the MACRO_RESULT
03335  * \todo Make constants so that caller and frame can be more expressive than just '1' and
03336  * '0'
03337  */
03338 int ast_channel_redirecting_macro(struct ast_channel *autoservice_chan, struct ast_channel *macro_chan, const void *redirecting_info, int is_caller, int is_frame);
03339 
03340 #include "asterisk/ccss.h"
03341 
03342 /*!
03343  * \since 1.8
03344  * \brief Set up datastore with CCSS parameters for a channel
03345  *
03346  * \note
03347  * If base_params is NULL, the channel will get the default
03348  * values for all CCSS parameters.
03349  *
03350  * \details
03351  * This function makes use of datastore operations on the channel, so
03352  * it is important to lock the channel before calling this function.
03353  *
03354  * \param chan The channel to create the datastore on
03355  * \param base_params CCSS parameters we wish to copy into the channel
03356  * \retval 0 Success
03357  * \retval -1 Failure
03358  */
03359 int ast_channel_cc_params_init(struct ast_channel *chan,
03360       const struct ast_cc_config_params *base_params);
03361 
03362 /*!
03363  * \since 1.8
03364  * \brief Get the CCSS parameters from a channel
03365  *
03366  * \details
03367  * This function makes use of datastore operations on the channel, so
03368  * it is important to lock the channel before calling this function.
03369  *
03370  * \param chan Channel to retrieve parameters from
03371  * \retval NULL Failure
03372  * \retval non-NULL The parameters desired
03373  */
03374 struct ast_cc_config_params *ast_channel_get_cc_config_params(struct ast_channel *chan);
03375 
03376 
03377 /*!
03378  * \since 1.8
03379  * \brief Get a device name given its channel structure
03380  *
03381  * \details
03382  * A common practice in Asterisk is to determine the device being talked
03383  * to by dissecting the channel name. For certain channel types, this is not
03384  * accurate. For instance, an ISDN channel is named based on what B channel is
03385  * used, not the device being communicated with.
03386  *
03387  * This function interfaces with a channel tech's queryoption callback to
03388  * retrieve the name of the device being communicated with. If the channel does not
03389  * implement this specific option, then the traditional method of using the channel
03390  * name is used instead.
03391  *
03392  * \param chan The channel to retrieve the information from
03393  * \param[out] device_name The buffer to place the device's name into
03394  * \param name_buffer_length The allocated space for the device_name
03395  * \return 0 always
03396  */
03397 int ast_channel_get_device_name(struct ast_channel *chan, char *device_name, size_t name_buffer_length);
03398 
03399 /*!
03400  * \since 1.8
03401  * \brief Find the appropriate CC agent type to use given a channel
03402  *
03403  * \details
03404  * During call completion, we will need to create a call completion agent structure. To
03405  * figure out the type of agent to construct, we need to ask the channel driver for the
03406  * appropriate type.
03407  *
03408  * Prior to adding this function, the call completion core attempted to figure this
03409  * out for itself by stripping the technology off the channel's name. However, in the
03410  * case of chan_dahdi, there are multiple agent types registered, and so simply searching
03411  * for an agent type called "DAHDI" is not possible. In a case where multiple agent types
03412  * are defined, the channel driver must have a queryoption callback defined in its
03413  * channel_tech, and the queryoption callback must handle AST_OPTION_CC_AGENT_TYPE
03414  *
03415  * If a channel driver does not have a queryoption callback or if the queryoption callback
03416  * does not handle AST_OPTION_CC_AGENT_TYPE, then the old behavior of using the technology
03417  * portion of the channel name is used instead. This is perfectly suitable for channel drivers
03418  * whose channel technologies are a one-to-one match with the agent types defined within.
03419  *
03420  * Note that this function is only called when the agent policy on a given channel is set
03421  * to "native." Generic agents' type can be determined automatically by the core.
03422  *
03423  * \param chan The channel for which we wish to retrieve the agent type
03424  * \param[out] agent_type The type of agent the channel driver wants us to use
03425  * \param size The size of the buffer to write to
03426  */
03427 int ast_channel_get_cc_agent_type(struct ast_channel *chan, char *agent_type, size_t size);
03428 #if defined(__cplusplus) || defined(c_plusplus)
03429 }
03430 #endif
03431 
03432 #endif /* _ASTERISK_CHANNEL_H */

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