/usr/include/osip2/osip.h is in libosip2-dev 4.0.0-3ubuntu2.
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The oSIP library implements the Session Initiation Protocol (SIP -rfc3261-)
Copyright (C) 2001-2012 Aymeric MOIZARD amoizard@antisip.com
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#ifndef _OSIP_H_
#define _OSIP_H_
#if defined(HAVE_DICT_DICT_H)
#include <dict/dict.h>
#endif
#include <osipparser2/osip_const.h>
/* Time-related functions and data types */
#include <osip2/osip_time.h>
#ifdef __sun
#include <sys/types.h>
#endif
#include <osipparser2/osip_parser.h>
#include <osip2/osip_fifo.h>
/**
* @file osip.h
* @brief oSIP fsm Routines
*
*/
/**
* @defgroup oSIP_FSM oSIP fsm Handling
* @ingroup osip2_fsm
* @{
*/
#ifdef __cplusplus
extern "C" {
#endif
/**
* Enumeration for transaction state.
* Those states are extracted from the diagram found in rfc3261.txt
*
*/
typedef enum _state_t {
/* STATES for invite client transaction */
ICT_PRE_CALLING,
ICT_CALLING,
ICT_PROCEEDING,
ICT_COMPLETED,
ICT_TERMINATED,
/* STATES for invite server transaction */
IST_PRE_PROCEEDING,
IST_PROCEEDING,
IST_COMPLETED,
IST_CONFIRMED,
IST_TERMINATED,
/* STATES for NON-invite client transaction */
NICT_PRE_TRYING,
NICT_TRYING,
NICT_PROCEEDING,
NICT_COMPLETED,
NICT_TERMINATED,
/* STATES for NON-invite server transaction */
NIST_PRE_TRYING,
NIST_TRYING,
NIST_PROCEEDING,
NIST_COMPLETED,
NIST_TERMINATED,
#ifndef DOXYGEN
DIALOG_EARLY,
DIALOG_CONFIRMED,
DIALOG_CLOSE /* ?? */
#endif
} state_t;
/**
* Enumeration for event type.
* <BR>The list of values that you need to know is reduced to this:
* <BR> RCV_REQINVITE,
* <BR> RCV_REQACK,
* <BR> RCV_REQUEST,
* <BR> RCV_STATUS_1XX,
* <BR> RCV_STATUS_2XX,
* <BR> RCV_STATUS_3456XX,
*<BR>
* <BR> SND_REQINVITE,
* <BR> SND_REQACK,
* <BR> SND_REQUEST,
* <BR> SND_STATUS_1XX,
* <BR> SND_STATUS_2XX,
* <BR> SND_STATUS_3456XX,
*/
typedef enum type_t {
/* TIMEOUT EVENTS for ICT */
TIMEOUT_A, /**< Timer A */
TIMEOUT_B, /**< Timer B */
TIMEOUT_D, /**< Timer D */
/* TIMEOUT EVENTS for NICT */
TIMEOUT_E, /**< Timer E */
TIMEOUT_F, /**< Timer F */
TIMEOUT_K, /**< Timer K */
/* TIMEOUT EVENTS for IST */
TIMEOUT_G, /**< Timer G */
TIMEOUT_H, /**< Timer H */
TIMEOUT_I, /**< Timer I */
/* TIMEOUT EVENTS for NIST */
TIMEOUT_J, /**< Timer J */
/* FOR INCOMING MESSAGE */
RCV_REQINVITE, /**< Event is an incoming INVITE request */
RCV_REQACK, /**< Event is an incoming ACK request */
RCV_REQUEST, /**< Event is an incoming NON-INVITE and NON-ACK request */
RCV_STATUS_1XX, /**< Event is an incoming informational response */
RCV_STATUS_2XX, /**< Event is an incoming 2XX response */
RCV_STATUS_3456XX, /**< Event is an incoming final response (not 2XX) */
/* FOR OUTGOING MESSAGE */
SND_REQINVITE, /**< Event is an outgoing INVITE request */
SND_REQACK, /**< Event is an outgoing ACK request */
SND_REQUEST, /**< Event is an outgoing NON-INVITE and NON-ACK request */
SND_STATUS_1XX, /**< Event is an outgoing informational response */
SND_STATUS_2XX, /**< Event is an outgoing 2XX response */
SND_STATUS_3456XX, /**< Event is an outgoing final response (not 2XX) */
KILL_TRANSACTION, /**< Event to 'kill' the transaction before termination */
UNKNOWN_EVT /**< Max event */
} type_t;
/**
* Enumeration for transaction type.
* A transaction can be either of:
* ICT,
* IST,
* NICT,
* NIST,
*/
typedef enum osip_fsm_type_t {
ICT, /**< Invite Client (outgoing) Transaction */
IST, /**< Invite Server (incoming) Transaction */
NICT, /**< Non-Invite Client (outgoing) Transaction */
NIST /**< Non-Invite Server (incoming) Transaction */
} osip_fsm_type_t;
#ifndef DEFAULT_T1
/**
* You can re-define the default value for T1. (T1 is defined in rfcxxxx)
* The default value is 500ms.
*/
#define DEFAULT_T1 500 /* 500 ms */
#endif
#ifndef DEFAULT_T2
/**
* You can re-define the default value for T2. (T2 is defined in rfcxxxx)
* The default value is 4000ms.
*/
#define DEFAULT_T2 4000 /* 4s */
#endif
#ifndef DEFAULT_T4
/**
* You can re-define the default value for T4. (T1 is defined in rfcxxxx)
* The default value is 5000ms.
*/
#define DEFAULT_T4 5000 /* 5s */
#endif
/**
* Structure for INVITE CLIENT TRANSACTION (outgoing INVITE transaction).
* @var osip_ict_t
*/
typedef struct osip_ict osip_ict_t;
/**
* Structure for INVITE CLIENT TRANSACTION.
* @struct osip_ict
*/
struct osip_ict {
int timer_a_length; /**< Timer A A=T1, A=2xT1... (unreliable only) */
struct timeval timer_a_start; /**< Timer A (retransmission) */
int timer_b_length; /**< Timer B B = 64* T1 */
struct timeval timer_b_start; /**< Timer B (fire when transaction timeout) */
int timer_d_length; /**< Timer D D >= 32s for unreliable tr (or 0) */
struct timeval timer_d_start; /**< Timer D */
char *destination; /**< IP used to send requests */
int port; /**< port of next hop */
};
/**
* Structure for NON-INVITE CLIENT TRANSACTION (outgoing NON-INVITE transaction).
* @var osip_nict_t
*/
typedef struct osip_nict osip_nict_t;
/**
* Structure for NON-INVITE CLIENT TRANSACTION.
* @struct osip_nict
*/
struct osip_nict {
int timer_e_length; /**< Timer E A=T1, A=2xT1... (unreliable only) */
struct timeval timer_e_start; /**< Timer E (retransmission) */
int timer_f_length; /**< Timer F B = 64* T1 */
struct timeval timer_f_start; /**< Timer F (fire when transaction timeout) */
int timer_k_length; /**< Timer K K = T4 (else = 0) */
struct timeval timer_k_start; /**< Timer K */
char *destination; /**< IP used to send requests */
int port; /**< port of next hop */
};
/**
* Structure for INVITE SERVER TRANSACTION (incoming INVITE transaction).
* @var osip_ist_t
*/
typedef struct osip_ist osip_ist_t;
/**
* Structure for INVITE SERVER TRANSACTION.
* @struct osip_ist
*/
struct osip_ist {
int timer_g_length; /**< Timer G G=MIN(T1*2,T2) for unreliable trans. */
struct timeval timer_g_start; /**< Timer G (0 when reliable transport is used) */
int timer_h_length; /**< Timer H H = 64* T1 */
struct timeval timer_h_start; /**< Timer H (fire if no ACK is received) */
int timer_i_length; /**< Timer I I = T4 for unreliable (or 0) */
struct timeval timer_i_start; /**< Timer I (absorb all ACK) */
};
/**
* Structure for NON-INVITE SERVER TRANSACTION (incoming SERVER transaction).
* @var osip_nist_t
*/
typedef struct osip_nist osip_nist_t;
/**
* Structure for NON-INVITE SERVER TRANSACTION.
* @struct osip_nist
*/
struct osip_nist {
int timer_j_length; /**< Timer J = 64*T1 (else 0) */
struct timeval timer_j_start; /**< Timer J */
};
/**
* Structure for SRV record entry.
* @var osip_srv_entry_t
*/
typedef struct osip_srv_entry osip_srv_entry_t;
/**
* Structure for SRV record entry.
* @struct osip_srv_entry
*/
struct osip_srv_entry {
char srv[512]; /**< srv */
int priority; /**< priority */
int weight; /**< weight */
int rweight; /**< rweight */
int port; /**< port */
char ipaddress[512]; /**< ipaddress result */
};
#define OSIP_SRV_STATE_UNKNOWN 0 /**< unknown */
#define OSIP_SRV_STATE_RETRYLATER 2 /**< retry later */
#define OSIP_SRV_STATE_COMPLETED 3 /**< completed */
#define OSIP_SRV_STATE_NOTSUPPORTED 4 /**< not supported */
/**
* Structure for SRV record.
* @var osip_srv_record_t
*/
typedef struct osip_srv_record osip_srv_record_t;
/**
* Structure for SRV record entry.
* @struct osip_srv_record
*/
struct osip_srv_record {
char name[512]; /**< name */
int srv_state; /**< srv state */
char protocol[64]; /**< transport protocol*/
int order; /**< order */
int preference; /**< preference */
int index; /**< index */
osip_srv_entry_t srventry[10]; /**< result table */
};
#define OSIP_NAPTR_STATE_UNKNOWN 0 /**< unknown */
#define OSIP_NAPTR_STATE_INPROGRESS 1 /**< in progress */
#define OSIP_NAPTR_STATE_NAPTRDONE 2 /**< naptr done */
#define OSIP_NAPTR_STATE_SRVINPROGRESS 3 /**< srv in progress */
#define OSIP_NAPTR_STATE_SRVDONE 4 /**< srv done */
#define OSIP_NAPTR_STATE_RETRYLATER 5 /**< retry later */
#define OSIP_NAPTR_STATE_NOTSUPPORTED 6 /**< not supported */
/**
* Structure for NAPTR record.
* @var osip_naptr_t
*/
typedef struct osip_naptr osip_naptr_t;
/**
* Structure for NAPTR record entry.
* @struct osip_naptr
*/
struct osip_naptr {
char domain[512]; /**< domain */
int naptr_state; /**< naptr state */
void *arg; /**< arg */
int keep_in_cache; /**< keep in cache value */
struct osip_srv_record sipudp_record; /**< udp SRV result */
struct osip_srv_record siptcp_record; /**< tcp SRV result */
struct osip_srv_record siptls_record; /**< tls SRV result */
struct osip_srv_record sipdtls_record; /**< dtls SRV result */
struct osip_srv_record sipsctp_record; /**< sctp SRV result */
};
/**
* Structure for transaction handling.
* @var osip_transaction_t
*/
typedef struct osip_transaction osip_transaction_t;
/**
* Structure for transaction handling
* @struct osip_transaction
*/
struct osip_transaction {
void *your_instance; /**< User Defined Pointer. */
int transactionid; /**< Internal Transaction Identifier. */
osip_fifo_t *transactionff; /**< events must be added in this fifo */
osip_via_t *topvia; /**< CALL-LEG definition (Top Via) */
osip_from_t *from; /**< CALL-LEG definition (From) */
osip_to_t *to; /**< CALL-LEG definition (To) */
osip_call_id_t *callid; /**< CALL-LEG definition (Call-ID) */
osip_cseq_t *cseq; /**< CALL-LEG definition (CSeq) */
osip_message_t *orig_request; /**< Initial request */
osip_message_t *last_response; /**< Last response */
osip_message_t *ack; /**< ack request sent */
state_t state; /**< Current state of the transaction */
time_t birth_time; /**< birth date of transaction */
time_t completed_time; /**< end date of transaction */
int in_socket; /**< Optional socket for incoming message */
int out_socket; /**< Optional place for outgoing message */
void *config; /**< (internal) transaction is managed by osip_t */
osip_fsm_type_t ctx_type; /**< Type of the transaction */
osip_ict_t *ict_context; /**< internal ict context */
osip_ist_t *ist_context; /**< internal ist context */
osip_nict_t *nict_context; /**< internal nict context */
osip_nist_t *nist_context; /**< internal nist context */
osip_srv_record_t record; /**< memory space for SRV record */
osip_naptr_t *naptr_record; /**< memory space for NAPTR record */
void *reserved1; /**< User Defined Pointer. */
void *reserved2; /**< User Defined Pointer. */
void *reserved3; /**< User Defined Pointer. */
void *reserved4; /**< User Defined Pointer. */
void *reserved5; /**< User Defined Pointer. */
void *reserved6; /**< User Defined Pointer. */
};
/**
* Enumeration for callback type.
*/
typedef enum osip_message_callback_type {
OSIP_ICT_INVITE_SENT = 0, /**< INVITE MESSAGE SENT */
OSIP_ICT_INVITE_SENT_AGAIN, /**< INVITE MESSAGE RETRANSMITTED */
OSIP_ICT_ACK_SENT, /**< ACK MESSAGE SENT */
OSIP_ICT_ACK_SENT_AGAIN, /**< ACK MESSAGE RETRANSMITTED */
OSIP_ICT_STATUS_1XX_RECEIVED, /**< 1XX FOR INVITE RECEIVED */
OSIP_ICT_STATUS_2XX_RECEIVED, /**< 2XX FOR INVITE RECEIVED */
OSIP_ICT_STATUS_2XX_RECEIVED_AGAIN, /**< 2XX FOR INVITE RECEIVED AGAIN */
OSIP_ICT_STATUS_3XX_RECEIVED, /**< 3XX FOR INVITE RECEIVED */
OSIP_ICT_STATUS_4XX_RECEIVED, /**< 4XX FOR INVITE RECEIVED */
OSIP_ICT_STATUS_5XX_RECEIVED, /**< 5XX FOR INVITE RECEIVED */
OSIP_ICT_STATUS_6XX_RECEIVED, /**< 6XX FOR INVITE RECEIVED */
OSIP_ICT_STATUS_3456XX_RECEIVED_AGAIN, /**< RESPONSE RECEIVED AGAIN */
OSIP_IST_INVITE_RECEIVED, /**< INVITE MESSAGE RECEIVED */
OSIP_IST_INVITE_RECEIVED_AGAIN, /**< INVITE MESSAGE RECEIVED AGAN */
OSIP_IST_ACK_RECEIVED, /**< ACK MESSAGE RECEIVED */
OSIP_IST_ACK_RECEIVED_AGAIN, /**< ACK MESSAGE RECEIVED AGAIN */
OSIP_IST_STATUS_1XX_SENT, /**< 1XX FOR INVITE SENT */
OSIP_IST_STATUS_2XX_SENT, /**< 2XX FOR INVITE SENT */
OSIP_IST_STATUS_2XX_SENT_AGAIN, /**< 2XX FOR INVITE RETRANSMITTED */
OSIP_IST_STATUS_3XX_SENT, /**< 3XX FOR INVITE SENT */
OSIP_IST_STATUS_4XX_SENT, /**< 4XX FOR INVITE SENT */
OSIP_IST_STATUS_5XX_SENT, /**< 5XX FOR INVITE SENT */
OSIP_IST_STATUS_6XX_SENT, /**< 6XX FOR INVITE SENT */
OSIP_IST_STATUS_3456XX_SENT_AGAIN, /**< RESPONSE RETRANSMITTED */
OSIP_NICT_REGISTER_SENT, /**< REGISTER MESSAGE SENT */
OSIP_NICT_BYE_SENT, /**< BYE MESSAGE SENT */
OSIP_NICT_OPTIONS_SENT, /**< OPTIONS MESSAGE SENT */
OSIP_NICT_INFO_SENT, /**< INFO MESSAGE SENT */
OSIP_NICT_CANCEL_SENT, /**< CANCEL MESSAGE SENT */
OSIP_NICT_NOTIFY_SENT, /**< NOTIFY MESSAGE SENT */
OSIP_NICT_SUBSCRIBE_SENT, /**< SUBSCRIBE MESSAGE SENT */
OSIP_NICT_UNKNOWN_REQUEST_SENT, /**< UNKNOWN REQUEST MESSAGE SENT */
OSIP_NICT_REQUEST_SENT_AGAIN, /**< REQUEST MESSAGE RETRANMITTED */
OSIP_NICT_STATUS_1XX_RECEIVED, /**< 1XX FOR MESSAGE RECEIVED */
OSIP_NICT_STATUS_2XX_RECEIVED, /**< 2XX FOR MESSAGE RECEIVED */
OSIP_NICT_STATUS_2XX_RECEIVED_AGAIN, /**< 2XX FOR MESSAGE RECEIVED AGAIN */
OSIP_NICT_STATUS_3XX_RECEIVED, /**< 3XX FOR MESSAGE RECEIVED */
OSIP_NICT_STATUS_4XX_RECEIVED, /**< 4XX FOR MESSAGE RECEIVED */
OSIP_NICT_STATUS_5XX_RECEIVED, /**< 5XX FOR MESSAGE RECEIVED */
OSIP_NICT_STATUS_6XX_RECEIVED, /**< 6XX FOR MESSAGE RECEIVED */
OSIP_NICT_STATUS_3456XX_RECEIVED_AGAIN, /**< RESPONSE RECEIVED AGAIN */
OSIP_NIST_REGISTER_RECEIVED, /**< REGISTER RECEIVED */
OSIP_NIST_BYE_RECEIVED, /**< BYE RECEIVED */
OSIP_NIST_OPTIONS_RECEIVED, /**< OPTIONS RECEIVED */
OSIP_NIST_INFO_RECEIVED, /**< INFO RECEIVED */
OSIP_NIST_CANCEL_RECEIVED, /**< CANCEL RECEIVED */
OSIP_NIST_NOTIFY_RECEIVED, /**< NOTIFY RECEIVED */
OSIP_NIST_SUBSCRIBE_RECEIVED, /**< SUBSCRIBE RECEIVED */
OSIP_NIST_UNKNOWN_REQUEST_RECEIVED, /**< UNKNWON REQUEST RECEIVED */
OSIP_NIST_REQUEST_RECEIVED_AGAIN, /**< UNKNWON REQUEST RECEIVED AGAIN */
OSIP_NIST_STATUS_1XX_SENT, /**< 1XX FOR MESSAGE SENT */
OSIP_NIST_STATUS_2XX_SENT, /**< 2XX FOR MESSAGE SENT */
OSIP_NIST_STATUS_2XX_SENT_AGAIN, /**< 2XX FOR MESSAGE RETRANSMITTED */
OSIP_NIST_STATUS_3XX_SENT, /**< 3XX FOR MESSAGE SENT */
OSIP_NIST_STATUS_4XX_SENT, /**< 4XX FOR MESSAGE SENT */
OSIP_NIST_STATUS_5XX_SENT, /**< 5XX FOR MESSAGE SENT */
OSIP_NIST_STATUS_6XX_SENT, /**< 6XX FOR MESSAGE SENT */
OSIP_NIST_STATUS_3456XX_SENT_AGAIN, /**< RESPONSE RETRANSMITTED */
OSIP_ICT_STATUS_TIMEOUT, /**< TIMER B EXPIRATION: NO REMOTE ANSWER */
OSIP_NICT_STATUS_TIMEOUT, /**< TIMER F EXPIRATION: NO REMOTE ANSWER */
OSIP_MESSAGE_CALLBACK_COUNT /**< END OF ENUM */
} osip_message_callback_type_t;
/**
* Enumeration for callback type used when transaction is over.
*/
typedef enum osip_kill_callback_type {
OSIP_ICT_KILL_TRANSACTION, /**< end of Client INVITE transaction */
OSIP_IST_KILL_TRANSACTION, /**< end of Server INVITE transaction */
OSIP_NICT_KILL_TRANSACTION, /**< end of Client Non-INVITE transaction */
OSIP_NIST_KILL_TRANSACTION, /**< end of Server Non-INVITE transaction */
OSIP_KILL_CALLBACK_COUNT /**< END OF ENUM */
} osip_kill_callback_type_t;
/**
* Enumeration for callback type used when a transport error is detected.
*/
typedef enum osip_transport_error_callback_type {
OSIP_ICT_TRANSPORT_ERROR, /**< transport error for ICT */
OSIP_IST_TRANSPORT_ERROR, /**< transport error for IST */
OSIP_NICT_TRANSPORT_ERROR, /**< transport error for NICT */
OSIP_NIST_TRANSPORT_ERROR, /**< transport error for NIST */
OSIP_TRANSPORT_ERROR_CALLBACK_COUNT /**< END OF ENUM */
} osip_transport_error_callback_type_t;
/**
* Callback definition for message announcements.
* @var osip_message_cb_t
*/
typedef void (*osip_message_cb_t) (int type, osip_transaction_t *, osip_message_t *);
/**
* Callback definition for end of transaction announcements.
* @var osip_kill_transaction_cb_t
*/
typedef void (*osip_kill_transaction_cb_t) (int type, osip_transaction_t *);
/**
* Callback definition for transport error announcements.
* @var osip_transport_error_cb_t
*/
typedef void (*osip_transport_error_cb_t) (int type, osip_transaction_t *, int error);
struct osip_dialog;
/**
* Structure for 2XX retransmission management.
* @var ixt_t
*/
typedef struct ixt ixt_t;
/**
* Structure for 2XX retransmission management.
* @struct ixt
*/
struct ixt {
/* any ACK received that match this context will set counter to -1 */
struct osip_dialog *dialog; /**< related dialog */
osip_message_t *msg2xx; /**< buffer to retransmit */
osip_message_t *ack; /**< ack message if needed */
struct timeval start; /**< Time of first retransmission */
int interval; /**< delay between retransmission, in ms */
char *dest; /**< destination host */
int port; /**< destination port */
int sock; /**< socket to use */
int counter; /**< start at 7 */
};
/**
* Structure for osip handling.
* In order to use osip, you have to manage at least one global instance
* of an osip_t element. Then, you'll register a set of required callbacks
* and a set of optional ones.
* @var osip_t
*/
typedef struct osip osip_t;
/**
* Structure for osip handling.
* @struct osip
*/
struct osip {
void *application_context; /**< User defined Pointer */
void *ict_fastmutex; /**< mutex for ICT transaction */
void *ist_fastmutex; /**< mutex for IST transaction */
void *nict_fastmutex; /**< mutex for NICT transaction */
void *nist_fastmutex; /**< mutex for NIST transaction */
void *ixt_fastmutex; /**< mutex for IXT transaction */
void *id_mutex; /**< mutex for unique transaction id generation */
int transactionid; /**< previous unique transaction id generation */
/* list of transactions for ict, ist, nict, nist */
osip_list_t osip_ict_transactions; /**< list of ict transactions */
osip_list_t osip_ist_transactions; /**< list of ist transactions */
osip_list_t osip_nict_transactions; /**< list of nict transactions */
osip_list_t osip_nist_transactions; /**< list of nist transactions */
osip_list_t ixt_retransmissions; /**< list of ixt elements */
osip_message_cb_t msg_callbacks[OSIP_MESSAGE_CALLBACK_COUNT]; /**< message callbacks */
osip_kill_transaction_cb_t kill_callbacks[OSIP_KILL_CALLBACK_COUNT]; /**< kill callbacks */
osip_transport_error_cb_t tp_error_callbacks[OSIP_TRANSPORT_ERROR_CALLBACK_COUNT]; /**< transport error callback */
int (*cb_send_message) (osip_transaction_t *, osip_message_t *, char *, int, int); /**< callback to send message */
#if defined(HAVE_DICT_DICT_H)
dict *osip_ict_hastable; /**< htable of ict transactions */
dict *osip_ist_hastable; /**< htable of ist transactions */
dict *osip_nict_hastable; /**< htable of nict transactions */
dict *osip_nist_hastable; /**< htable of nist transactions */
#endif
};
/**
* Set a callback for each transaction operation.
* @param osip The element to work on.
* @param type The event type to hook on.
* @param cb The method to be called upon the event.
*/
int osip_set_message_callback (osip_t * osip, int type, osip_message_cb_t cb);
/**
* Set a callback for transaction operation related to the end of transactions.
* @param osip The element to work on.
* @param type The event type to hook on.
* @param cb The method to be called upon the event.
*/
int osip_set_kill_transaction_callback (osip_t * osip, int type, osip_kill_transaction_cb_t cb);
/**
* Set a callback for each transaction operation related to network error.
* @param osip The element to work on.
* @param type The event type to hook on.
* @param cb The method to be called upon the event.
*/
int osip_set_transport_error_callback (osip_t * osip, int type, osip_transport_error_cb_t cb);
/**
* Structure for osip event handling.
* A osip_event_t element will have a type and will be related
* to a transaction. In the general case, it is used by the
* application layer to give SIP messages to the oSIP finite
* state machine.
* @var osip_event_t
*/
typedef struct osip_event osip_event_t;
/**
* Structure for osip event handling.
* @struct osip_event
*/
struct osip_event {
type_t type; /**< Event Type */
int transactionid; /**< identifier of the related osip transaction */
osip_message_t *sip; /**< SIP message (optional) */
};
/**
* Allocate an osip_transaction_t element.
* @param transaction The element to allocate.
* @param ctx_type The type of transaction. (ICT, IST, NICT, NIST)
* @param osip The global instance of oSIP.
* @param request The SIP request that initiate the transaction.
*/
int osip_transaction_init (osip_transaction_t ** transaction, osip_fsm_type_t ctx_type, osip_t * osip, osip_message_t * request);
/**
* Free all resource in a osip_transaction_t element.
* @param transaction The element to free.
*/
int osip_transaction_free (osip_transaction_t * transaction);
/**
* Free all resource in a osip_transaction_t element.
* This method does the same than osip_transaction_free() but it assumes
* that the transaction is already removed from the list of transaction
* in the osip stack. (to remove it use osip_xixt_remove(osip, transaction);
* @param transaction The element to free.
*/
int osip_transaction_free2 (osip_transaction_t * transaction);
/**
* Search in a SIP response the destination where the message
* should be sent.
* @param response the message to work on.
* @param address a pointer to receive the allocated host address.
* @param portnum a pointer to receive the host port.
*/
void osip_response_get_destination (osip_message_t * response, char **address, int *portnum);
/**
* Set the host and port destination used for sending the SIP message.
* This can be useful for an application with 'DIRECT ROOTING MODE'
* NOTE: Instead, you should use the 'Route' header facility which
* leads to the same behaviour.
* @param ict The element to work on.
* @param destination The destination host.
* @param port The destination port.
*/
int osip_ict_set_destination (osip_ict_t * ict, char *destination, int port);
/**
* Set the host and port destination used for sending the SIP message.
* This can be useful for an application with 'DIRECT ROOTING MODE'
* NOTE: Instead, you should use the 'Route' header facility which
* leads to the same behaviour.
* @param nict The element to work on.
* @param destination The destination host.
* @param port The destination port.
*/
int osip_nict_set_destination (osip_nict_t * nict, char *destination, int port);
/**
* Add a SIP event in the fifo of a osip_transaction_t element.
* @param transaction The element to work on.
* @param evt The event to add.
*/
int osip_transaction_add_event (osip_transaction_t * transaction, osip_event_t * evt);
/**
* Consume one osip_event_t element previously added in the fifo.
* NOTE: This method MUST NEVER be called within another call
* of this method. (For example, you can't call osip_transaction_execute()
* in a callback registered in the osip_t element.)
* @param transaction The element to free.
* @param evt The element to consume.
*/
int osip_transaction_execute (osip_transaction_t * transaction, osip_event_t * evt);
/**
* Set a pointer to your personal context associated with this transaction.
* OBSOLETE: see osip_transaction_set_reserved1...
* NOTE: this is a very useful method that allow you to avoid searching
* for your personal context inside the registered callbacks.
* You can initialise this pointer to your context right after
* the creation of the osip_transaction_t element. Then, you'll be
* able to get the address of your context by calling
* osip_transaction_get_your_instance().
* @param transaction The element to work on.
* @param ptr The address of your context.
*/
int osip_transaction_set_your_instance (osip_transaction_t * transaction, void *ptr);
/**
* Set a pointer to your personal context associated with this transaction.
* NOTE: this is a very useful method that allow you to avoid searching
* for your personal context inside the registered callbacks.
* You can initialise this pointer to your context right after
* the creation of the osip_transaction_t element. Then, you'll be
* able to get the address of your context by calling
* osip_transaction_get_reserved1().
* @param transaction The element to work on.
* @param ptr The address of your context.
*/
int osip_transaction_set_reserved1 (osip_transaction_t * transaction, void *ptr);
/**
* Set a pointer to your personal context associated with this transaction.
* NOTE: see osip_transaction_set_reserved1
* @param transaction The element to work on.
* @param ptr The address of your context.
*/
int osip_transaction_set_reserved2 (osip_transaction_t * transaction, void *ptr);
/**
* Set a pointer to your personal context associated with this transaction.
* NOTE: see osip_transaction_set_reserved1
* @param transaction The element to work on.
* @param ptr The address of your context.
*/
int osip_transaction_set_reserved3 (osip_transaction_t * transaction, void *ptr);
/**
* Set a pointer to your personal context associated with this transaction.
* NOTE: see osip_transaction_set_reserved1
* @param transaction The element to work on.
* @param ptr The address of your context.
*/
int osip_transaction_set_reserved4 (osip_transaction_t * transaction, void *ptr);
/**
* Set a pointer to your personal context associated with this transaction.
* NOTE: see osip_transaction_set_reserved1
* @param transaction The element to work on.
* @param ptr The address of your context.
*/
int osip_transaction_set_reserved5 (osip_transaction_t * transaction, void *ptr);
/**
* Set a pointer to your personal context associated with this transaction.
* NOTE: see osip_transaction_set_reserved1
* @param transaction The element to work on.
* @param ptr The address of your context.
*/
int osip_transaction_set_reserved6 (osip_transaction_t * transaction, void *ptr);
/**
* Get a pointer to your personal context associated with this transaction.
* OBSOLETE: see osip_transaction_get_reserved1...
* @param transaction The element to work on.
*/
void *osip_transaction_get_your_instance (osip_transaction_t * transaction);
/**
* Get a pointer to your personal context associated with this transaction.
* @param transaction The element to work on.
*/
void *osip_transaction_get_reserved1 (osip_transaction_t * transaction);
/**
* Get a pointer to your personal context associated with this transaction.
* @param transaction The element to work on.
*/
void *osip_transaction_get_reserved2 (osip_transaction_t * transaction);
/**
* Get a pointer to your personal context associated with this transaction.
* @param transaction The element to work on.
*/
void *osip_transaction_get_reserved3 (osip_transaction_t * transaction);
/**
* Get a pointer to your personal context associated with this transaction.
* @param transaction The element to work on.
*/
void *osip_transaction_get_reserved4 (osip_transaction_t * transaction);
/**
* Get a pointer to your personal context associated with this transaction.
* @param transaction The element to work on.
*/
void *osip_transaction_get_reserved5 (osip_transaction_t * transaction);
/**
* Get a pointer to your personal context associated with this transaction.
* @param transaction The element to work on.
*/
void *osip_transaction_get_reserved6 (osip_transaction_t * transaction);
/**
* Get target ip and port for this request.
* (automaticly set by osip_transaction_init() for ict and nict)
* @param transaction The element to work on.
* @param ip The ip of host where to send initial request.
* @param port The port where to send initial request.
*/
int osip_transaction_get_destination (osip_transaction_t * transaction, char **ip, int *port);
/**
* Set SRV lookup information to be used by state machine.
*
* @param transaction The element to work on.
* @param record The SRV lookup results for this transaction.
*/
int osip_transaction_set_srv_record (osip_transaction_t * transaction, osip_srv_record_t * record);
/**
* Set NAPTR lookup information to be used by state machine.
*
* @param transaction The element to work on.
* @param record The NAPTR lookup results for this transaction.
*/
int osip_transaction_set_naptr_record (osip_transaction_t * transaction, osip_naptr_t * record);
/**
* Set the socket for incoming message.
*
* @param transaction The element to work on.
* @param sock The socket for incoming message.
*/
int osip_transaction_set_in_socket (osip_transaction_t * transaction, int sock);
/**
* Set the socket for outgoing message.
*
* @param transaction The element to work on.
* @param sock The socket for outgoing message.
*/
int osip_transaction_set_out_socket (osip_transaction_t * transaction, int sock);
/**
* Allocate an osip_t element.
* @param osip the element to allocate.
*/
int osip_init (osip_t ** osip);
/**
* Free all resource in a osip_t element.
* @param osip The element to release.
*/
void osip_release (osip_t * osip);
/**
* Set a pointer in a osip_t element.
* This help to find your application layer in callbacks.
* @param osip The element to work on.
* @param pointer The element to set.
*/
void osip_set_application_context (osip_t * osip, void *pointer);
/**
* Get a pointer in a osip_t element.
* This help to find your application layer in callbacks.
* @param osip The element to work on.
*/
void *osip_get_application_context (osip_t * osip);
/**
* Remove a transaction from the osip stack.
* @param osip The element to work on.
* @param ict The transaction to add.
*/
int osip_remove_transaction (osip_t * osip, osip_transaction_t * ict);
/**
* Consume ALL pending osip_event_t previously added in the fifos of ict transactions.
* @param osip The element to work on.
*/
int osip_ict_execute (osip_t * osip);
/**
* Consume ALL pending osip_event_t previously added in the fifos of ist transactions.
* @param osip The element to work on.
*/
int osip_ist_execute (osip_t * osip);
/**
* Consume ALL pending osip_event_t previously added in the fifos of nict transactions.
* @param osip The element to work on.
*/
int osip_nict_execute (osip_t * osip);
/**
* Consume ALL pending osip_event_t previously added in the fifos of nist transactions.
* @param osip The element to work on.
*/
int osip_nist_execute (osip_t * osip);
/**
* Retreive the minimum timer value to be used by an application
* so that the osip_timer_*_execute method don't have to be called
* often.
*
* @param osip The element to work on.
* @param lower_tv The minimum timer when the application should wake up.
*/
void osip_timers_gettimeout (osip_t * osip, struct timeval *lower_tv);
/**
* Check if an ict transactions needs a timer event.
* @param osip The element to work on.
*/
void osip_timers_ict_execute (osip_t * osip);
/**
* Check if an ist transactions needs a timer event.
* @param osip The element to work on.
*/
void osip_timers_ist_execute (osip_t * osip);
/**
* Check if a nict transactions needs a timer event.
* @param osip The element to work on.
*/
void osip_timers_nict_execute (osip_t * osip);
/**
* Check if a nist transactions needs a timer event.
* @param osip The element to work on.
*/
void osip_timers_nist_execute (osip_t * osip);
/* Take care of mutlithreading issuewhile using this method */
/**
* Search for a transaction that match this event (MUST be a MESSAGE event).
* @param transactions The list of transactions to work on.
* @param evt The element representing the SIP MESSAGE.
*/
osip_transaction_t *osip_transaction_find (osip_list_t * transactions, osip_event_t * evt);
#ifndef DOXYGEN
/**
* Some race conditions can happen in multi threaded applications.
* Use this method carefully.
* <BR>Search for a transaction that match this event (MUST be a MESSAGE event).
* @param osip The element to work on.
* @param evt The element representing the SIP MESSAGE.
*/
#ifdef OSIP_MONOTHREAD
osip_transaction_t *osip_find_transaction (osip_t * osip, osip_event_t * evt);
#endif
osip_transaction_t *__osip_find_transaction (osip_t * osip, osip_event_t * evt, int consume);
#endif
/**
* Search for a transaction that match this event (MUST be a MESSAGE event)
* and add this event if a transaction is found..
* @param osip The element to work on.
* @param evt The element representing the SIP MESSAGE.
*/
int osip_find_transaction_and_add_event (osip_t * osip, osip_event_t * evt);
/**
* Create a transaction for this event (MUST be a SIP REQUEST event).
* @param osip The element to work on.
* @param evt The element representing the new SIP REQUEST.
*/
osip_transaction_t *osip_create_transaction (osip_t * osip, osip_event_t * evt);
/**
* Create a sipevent from a SIP message string.
* @param buf The SIP message as a string.
* @param length The length of the buffer to parse.
*/
osip_event_t *osip_parse (const char *buf, size_t length);
/**
* Send required retransmissions
* @param osip The element to work on.
*/
void osip_retransmissions_execute (osip_t * osip);
/**
* Start out of fsm 200 Ok retransmissions. This is usefull for user-agents.
* @param osip The osip_t structure.
* @param dialog The dialog the 200 Ok is part of.
* @param msg200ok The 200 ok response.
* @param sock The socket to be used to send the message. (optional).
*/
void osip_start_200ok_retransmissions (osip_t * osip, struct osip_dialog *dialog, osip_message_t * msg200ok, int sock);
/**
* Start out of fsm ACK retransmissions. This is usefull for user-agents.
* @param osip The osip_t structure.
* @param dialog The dialog the ACK is part of.
* @param ack The ACK that has just been sent in response to a 200 Ok.
* @param dest The destination host.
* @param port The destination port.
* @param sock The socket to be used to send the message. (optional).
*/
void osip_start_ack_retransmissions (osip_t * osip, struct osip_dialog *dialog, osip_message_t * ack, char *dest, int port, int sock);
/**
* Stop the out of fsm 200 Ok retransmissions matching an incoming ACK.
* @param osip The osip_t structure.
* @param ack The ack that has just been received.
*/
struct osip_dialog *osip_stop_200ok_retransmissions (osip_t * osip, osip_message_t * ack);
/**
* Stop out of fsm retransmissions (ACK or 200 Ok) associated to a given dialog.
* This function must be called before freeing a dialog if out of fsm retransmissions
* have been scheduled.
* @param osip The osip_t structure
* @param dialog The dialog.
*/
void osip_stop_retransmissions_from_dialog (osip_t * osip, struct osip_dialog *dialog);
/**
* Allocate a sipevent (we know this message is an OUTGOING SIP message).
* @param sip The SIP message we want to send.
*/
osip_event_t *osip_new_outgoing_sipmessage (osip_message_t * sip);
/**
* Free all ressource in a sipevent.
* @param event The event to free.
*/
void osip_event_free (osip_event_t * event);
/**
* Register the callback used to send SIP message.
* @param cf The osip element attached to the transaction.
* @param cb The method we want to register.
*/
void osip_set_cb_send_message (osip_t * cf, int (*cb) (osip_transaction_t *, osip_message_t *, char *, int, int));
/* FOR INCOMING TRANSACTION */
/**
* Check if the sipevent is of type RCV_REQINVITE.
* @param event the event to check.
*/
#define EVT_IS_RCV_INVITE(event) (event->type==RCV_REQINVITE)
/**
* Check if the sipevent is of type RCV_REQACK.
* @param event the event to check.
*/
#define EVT_IS_RCV_ACK(event) (event->type==RCV_REQACK)
/**
* Check if the sipevent is of type RCV_REQUEST.
* @param event the event to check.
*/
#define EVT_IS_RCV_REQUEST(event) (event->type==RCV_REQUEST)
/**
* Check if the sipevent is of type RCV_STATUS_1XX.
* @param event the event to check.
*/
#define EVT_IS_RCV_STATUS_1XX(event) (event->type==RCV_STATUS_1XX)
/**
* Check if the sipevent is of type RCV_STATUS_2XX.
* @param event the event to check.
*/
#define EVT_IS_RCV_STATUS_2XX(event) (event->type==RCV_STATUS_2XX)
/**
* Check if the sipevent is of type RCV_STATUS_3456XX.
* @param event the event to check.
*/
#define EVT_IS_RCV_STATUS_3456XX(event) (event->type==RCV_STATUS_3456XX)
/* FOR OUTGOING TRANSACTION */
/**
* Check if the sipevent is of type SND_REQINVITE.
* @param event the event to check.
*/
#define EVT_IS_SND_INVITE(event) (event->type==SND_REQINVITE)
/**
* Check if the sipevent is of type SND_REQACK.
* @param event the event to check.
*/
#define EVT_IS_SND_ACK(event) (event->type==SND_REQACK)
/**
* Check if the sipevent is of type SND_REQUEST.
* @param event the event to check.
*/
#define EVT_IS_SND_REQUEST(event) (event->type==SND_REQUEST)
/**
* Check if the sipevent is of type SND_STATUS_1XX.
* @param event the event to check.
*/
#define EVT_IS_SND_STATUS_1XX(event) (event->type==SND_STATUS_1XX)
/**
* Check if the sipevent is of type SND_STATUS_2XX.
* @param event the event to check.
*/
#define EVT_IS_SND_STATUS_2XX(event) (event->type==SND_STATUS_2XX)
/**
* Check if the sipevent is of type SND_STATUS_3456XX.
* @param event the event to check.
*/
#define EVT_IS_SND_STATUS_3456XX(event) (event->type==SND_STATUS_3456XX)
/**
* Check if the sipevent is of an incoming SIP MESSAGE.
* @param event the event to check.
*/
#define EVT_IS_INCOMINGMSG(event) (event->type>=RCV_REQINVITE \
&&event->type<=RCV_STATUS_3456XX)
/**
* Check if the sipevent is of an incoming SIP REQUEST.
* @param event the event to check.
*/
#define EVT_IS_INCOMINGREQ(event) (EVT_IS_RCV_INVITE(event) \
||EVT_IS_RCV_ACK(event) \
||EVT_IS_RCV_REQUEST(event))
/**
* Check if the sipevent is of an incoming SIP RESPONSE.
* @param event the event to check.
*/
#define EVT_IS_INCOMINGRESP(event) (EVT_IS_RCV_STATUS_1XX(event) \
||EVT_IS_RCV_STATUS_2XX(event) \
||EVT_IS_RCV_STATUS_3456XX(event))
/**
* Check if the sipevent is of an outgoing SIP MESSAGE.
* @param event the event to check.
*/
#define EVT_IS_OUTGOINGMSG(event) (event->type>=SND_REQINVITE \
&&event->type<=SND_STATUS_3456XX)
/**
* Check if the sipevent is of an outgoing SIP REQUEST.
* @param event the event to check.
*/
#define EVT_IS_OUTGOINGREQ(event) (EVT_IS_SND_INVITE(event) \
||EVT_IS_SND_ACK(event) \
||EVT_IS_SND_REQUEST(event))
/**
* Check if the sipevent is of an outgoing SIP RESPONSE.
* @param event the event to check.
*/
#define EVT_IS_OUTGOINGRESP(event) (EVT_IS_SND_STATUS_1XX(event) \
||EVT_IS_SND_STATUS_2XX(event) \
||EVT_IS_SND_STATUS_3456XX(event))
/**
* Check if the sipevent is a SIP MESSAGE.
* @param event the event to check.
*/
#define EVT_IS_MSG(event) (event->type>=RCV_REQINVITE \
&&event->type<=SND_STATUS_3456XX)
/**
* Check if the sipevent is of type KILL_TRANSACTION.
* NOTE: THIS IS AN INTERNAL METHOD ONLY
* @param event the event to check.
*/
#define EVT_IS_KILL_TRANSACTION(event) (event->type==KILL_TRANSACTION)
#ifdef __cplusplus
}
#endif
/** @} */
#endif
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