libpri/pri_internal.h

1107 lines
36 KiB
C
Raw Normal View History

/*
* libpri: An implementation of Primary Rate ISDN
*
* Written by Mark Spencer <markster@digium.com>
*
* Copyright (C) 2001, Digium, Inc.
* All Rights Reserved.
*/
/*
* See http://www.asterisk.org for more information about
* the Asterisk project. Please do not directly contact
* any of the maintainers of this project for assistance;
* the project provides a web site, mailing lists and IRC
* channels for your use.
*
* This program is free software, distributed under the terms of
* the GNU General Public License Version 2 as published by the
* Free Software Foundation. See the LICENSE file included with
* this program for more details.
*
* In addition, when this program is distributed with Asterisk in
* any form that would qualify as a 'combined work' or as a
* 'derivative work' (but not mere aggregation), you can redistribute
* and/or modify the combination under the terms of the license
* provided with that copy of Asterisk, instead of the license
* terms granted here.
*/
#ifndef _PRI_INTERNAL_H
#define _PRI_INTERNAL_H
#include <stddef.h>
#include <sys/time.h>
#include "pri_q921.h"
#include "pri_q931.h"
#define ARRAY_LEN(arr) (sizeof(arr) / sizeof((arr)[0]))
#define DBGHEAD __FILE__ ":%d %s: "
#define DBGINFO __LINE__,__PRETTY_FUNCTION__
/* Forward declare some structs */
struct apdu_event;
struct pri_cc_record;
struct pri_sched {
struct timeval when;
void (*callback)(void *data);
void *data;
};
/*
* libpri needs to be able to allocate B channels to support Q.SIG path reservation.
* Until that happens, path reservation is not possible. Fortunately,
* path reservation is optional with a fallback to what we can implement.
*/
//#define QSIG_PATH_RESERVATION_SUPPORT 1
/*! Maximum number of facility ie's to handle per incoming message. */
#define MAX_FACILITY_IES 8
/*! Accumulated pri_message() line until a '\n' is seen on the end. */
struct pri_msg_line {
/*! Accumulated buffer used. */
unsigned length;
/*! Accumulated pri_message() contents. */
char str[2048];
};
/*! \brief D channel controller structure */
struct pri {
int fd; /* File descriptor for D-Channel */
pri_io_cb read_func; /* Read data callback */
pri_io_cb write_func; /* Write data callback */
void *userdata;
/*! Accumulated pri_message() line. (Valid in master record only) */
struct pri_msg_line *msg_line;
struct pri *subchannel; /* Sub-channel if appropriate */
struct pri *master; /* Master channel if appropriate */
struct {
/*! Dynamically allocated array of timers that can grow as needed. */
struct pri_sched *timer;
/*! Numer of timer slots in the allocated array of timers. */
unsigned num_slots;
/*! Maximum timer slots currently needed. */
unsigned max_used;
} sched;
int debug; /* Debug stuff */
int state; /* State of D-channel */
int switchtype; /* Switch type */
int nsf; /* Network-Specific Facility (if any) */
int localtype; /* Local network type (unknown, network, cpe) */
int remotetype; /* Remote network type (unknown, network, cpe) */
int sapi;
int tei;
int protodisc;
unsigned int bri:1;
unsigned int acceptinbanddisconnect:1; /* Should we allow inband progress after DISCONNECT? */
unsigned int sendfacility:1;
unsigned int overlapdial:1;/* TRUE if we do overlap dialing */
unsigned int chan_mapping_logical:1;/* TRUE if do not skip channel 16 (Q.SIG) */
unsigned int service_message_support:1;/* TRUE if upper layer supports SERVICE messages */
unsigned int hold_support:1;/* TRUE if upper layer supports call hold. */
unsigned int deflection_support:1;/* TRUE if upper layer supports call deflection/rerouting. */
unsigned int hangup_fix_enabled:1;/* TRUE if should follow Q.931 Section 5.3.2 instead of blindly sending RELEASE_COMPLETE for certain causes */
unsigned int cc_support:1;/* TRUE if upper layer supports call completion. */
unsigned int transfer_support:1;/* TRUE if the upper layer supports ECT */
unsigned int aoc_support:1;/* TRUE if can send AOC events to the upper layer. */
unsigned int manual_connect_ack:1;/* TRUE if the CONNECT_ACKNOWLEDGE is sent with API call */
unsigned int mcid_support:1;/* TRUE if the upper layer supports MCID */
/* MDL variables */
int mdl_error;
int mdl_error_state;
int mdl_timer;
int mdl_free_me;
/* Q.921 State */
int q921_state;
int RC;
int peer_rx_busy:1;
int own_rx_busy:1;
int acknowledge_pending:1;
int reject_exception:1;
int v_s; /* Next N(S) for transmission */
int v_a; /* Last acknowledged frame */
int v_r; /* Next frame expected to be received */
int cref; /* Next call reference value */
int l3initiated;
/* Various timers */
int t203_timer; /* Max idle time */
int t202_timer;
int n202_counter;
int ri;
int t200_timer; /* T-200 retransmission timer */
/* All ISDN Timer values */
int timers[PRI_MAX_TIMERS];
/* Used by scheduler */
struct timeval tv;
int schedev;
pri_event ev; /* Static event thingy */
/*! Subcommands for static event thingy. */
struct pri_subcommands subcmds;
/* Q.921 Re-transmission queue */
struct q921_frame *txqueue;
/* Q.931 calls */
q931_call **callpool;
q931_call *localpool;
/*!
* \brief Q.931 Dummy call reference call associated with this TEI.
* \note If present then this call is allocated as part of the
* D channel control structure.
*/
q931_call *dummy_call;
#ifdef LIBPRI_COUNTERS
/* q921/q931 packet counters */
unsigned int q921_txcount;
unsigned int q921_rxcount;
unsigned int q931_txcount;
unsigned int q931_rxcount;
#endif
short last_invoke; /* Last ROSE invoke ID (Valid in master record only) */
/*! Call completion (Valid in master record only) */
struct {
/*! Active CC records */
struct pri_cc_record *pool;
/*! Last CC record id allocated. */
unsigned short last_record_id;
/*! Last CC PTMP reference id allocated. (0-127) */
unsigned char last_reference_id;
/*! Last CC PTMP linkage id allocated. (0-127) */
unsigned char last_linkage_id;
/*! Configured CC options. */
struct {
/*! PTMP recall mode: globalRecall(0), specificRecall(1) */
unsigned char recall_mode;
/*! Q.SIG Request signaling link retention: release(0), retain(1), do-not-care(2) */
unsigned char signaling_retention_req;
/*! Q.SIG Response request signaling link retention: release(0), retain(1) */
unsigned char signaling_retention_rsp;
#if defined(QSIG_PATH_RESERVATION_SUPPORT)
/*! Q.SIG TRUE if response request can support path reservation. */
unsigned char allow_path_reservation;
#endif /* defined(QSIG_PATH_RESERVATION_SUPPORT) */
} option;
} cc;
/*! For delayed processing of facility ie's. */
struct {
/*! Array of facility ie locations in the current received message. */
q931_ie *ie[MAX_FACILITY_IES];
/*! Codeset facility ie found within. */
unsigned char codeset[MAX_FACILITY_IES];
/*! Number of facility ie's in the array from the current received message. */
unsigned char count;
} facility;
};
/*! \brief Maximum name length plus null terminator (From ECMA-164) */
#define PRI_MAX_NAME_LEN (50 + 1)
/*! \brief Q.SIG name information. */
struct q931_party_name {
/*! \brief TRUE if name data is valid */
unsigned char valid;
/*!
* \brief Q.931 presentation-indicator encoded field
* \note Must tollerate the Q.931 screening-indicator field values being present.
*/
unsigned char presentation;
/*!
* \brief Character set the name is using.
* \details
* unknown(0),
* iso8859-1(1),
* enum-value-withdrawn-by-ITU-T(2)
* iso8859-2(3),
* iso8859-3(4),
* iso8859-4(5),
* iso8859-5(6),
* iso8859-7(7),
* iso10646-BmpString(8),
* iso10646-utf-8String(9)
*/
unsigned char char_set;
/*! \brief Name data with null terminator. */
char str[PRI_MAX_NAME_LEN];
};
/*! \brief Maximum phone number (address) length plus null terminator */
#define PRI_MAX_NUMBER_LEN (31 + 1)
struct q931_party_number {
/*! \brief TRUE if number data is valid */
unsigned char valid;
/*! \brief Q.931 presentation-indicator and screening-indicator encoded fields */
unsigned char presentation;
/*! \brief Q.931 Type-Of-Number and numbering-plan encoded fields */
unsigned char plan;
/*! \brief Number data with terminator. */
char str[PRI_MAX_NUMBER_LEN];
};
/*! \brief Maximum subaddress length plus null terminator */
#define PRI_MAX_SUBADDRESS_LEN (20 + 1)
struct q931_party_subaddress {
/*! \brief TRUE if the subaddress information is valid/present */
unsigned char valid;
/*!
* \brief Subaddress type.
* \details
* nsap(0),
* user_specified(2)
*/
unsigned char type;
/*!
* \brief TRUE if odd number of address signals
* \note The odd/even indicator is used when the type of subaddress is
* user_specified and the coding is BCD.
*/
unsigned char odd_even_indicator;
/*! \brief Length of the subaddress data */
unsigned char length;
/*!
* \brief Subaddress data with null terminator.
* \note The null terminator is a convenience only since the data could be
* BCD/binary and thus have a null byte as part of the contents.
*/
unsigned char data[PRI_MAX_SUBADDRESS_LEN];
};
struct q931_party_address {
/*! \brief Subscriber phone number */
struct q931_party_number number;
/*! \brief Subscriber subaddress */
struct q931_party_subaddress subaddress;
};
/*! \brief Information needed to identify an endpoint in a call. */
struct q931_party_id {
/*! \brief Subscriber name */
struct q931_party_name name;
/*! \brief Subscriber phone number */
struct q931_party_number number;
/*! \brief Subscriber subaddress */
struct q931_party_subaddress subaddress;
};
enum Q931_REDIRECTING_STATE {
/*!
* \details
* CDO-Idle/CDF-Inv-Idle
*/
Q931_REDIRECTING_STATE_IDLE,
/*!
* \details
* CDF-Inv-Wait - A DivLeg2 has been received and
* we are waiting for valid presentation restriction information to send.
*/
Q931_REDIRECTING_STATE_PENDING_TX_DIV_LEG_3,
/*!
* \details
* CDO-Divert - A DivLeg1 has been received and
* we are waiting for the presentation restriction information to come in.
*/
Q931_REDIRECTING_STATE_EXPECTING_RX_DIV_LEG_3,
};
/*!
* \brief Do not increment above this count.
* \details
* It is not our responsibility to enforce the maximum number of redirects.
* However, we cannot allow an increment past this number without breaking things.
* Besides, more than 255 redirects is probably not a good thing.
*/
#define PRI_MAX_REDIRECTS 0xFF
/*! \brief Redirecting information struct */
struct q931_party_redirecting {
enum Q931_REDIRECTING_STATE state;
/*! \brief Who is redirecting the call (Sent to the party the call is redirected toward) */
struct q931_party_id from;
/*! \brief Call is redirecting to a new party (Sent to the caller) */
struct q931_party_id to;
/*! Originally called party (in cases of multiple redirects) */
struct q931_party_id orig_called;
/*!
* \brief Number of times the call was redirected
* \note The call is being redirected if the count is non-zero.
*/
unsigned char count;
/*! Original reason for redirect (in cases of multiple redirects) */
unsigned char orig_reason;
/*! \brief Redirection reasons */
unsigned char reason;
};
/*! \brief New call setup parameter structure */
struct pri_sr {
int transmode;
int channel;
int exclusive;
int nonisdn;
struct q931_party_redirecting redirecting;
struct q931_party_id caller;
struct q931_party_address called;
int userl1;
int numcomplete;
int cis_call;
int cis_auto_disconnect;
const char *useruserinfo;
const char *keypad_digits;
int transferable;
int reversecharge;
int aoc_charging_request;
};
/* Internal switch types */
#define PRI_SWITCH_GR303_EOC_PATH 19
#define PRI_SWITCH_GR303_TMC_SWITCHING 20
#define Q931_MAX_TEI 8
/*! \brief Incoming call transfer states. */
enum INCOMING_CT_STATE {
/*!
* \details
* Incoming call transfer is not active.
*/
INCOMING_CT_STATE_IDLE,
/*!
* \details
* We have seen an incoming CallTransferComplete(alerting)
* so we are waiting for the expected CallTransferActive
* before updating the connected line about the remote party id.
*/
INCOMING_CT_STATE_EXPECT_CT_ACTIVE,
/*!
* \details
* A call transfer message came in that updated the remote party id
* that we need to post a connected line update.
*/
INCOMING_CT_STATE_POST_CONNECTED_LINE
};
/*! Call hold supplementary states. */
enum Q931_HOLD_STATE {
/*! \brief No call hold activity. */
Q931_HOLD_STATE_IDLE,
/*! \brief Request made to hold call. */
Q931_HOLD_STATE_HOLD_REQ,
/*! \brief Request received to hold call. */
Q931_HOLD_STATE_HOLD_IND,
/*! \brief Call is held. */
Q931_HOLD_STATE_CALL_HELD,
/*! \brief Request made to retrieve call. */
Q931_HOLD_STATE_RETRIEVE_REQ,
/*! \brief Request received to retrieve call. */
Q931_HOLD_STATE_RETRIEVE_IND,
};
/* Only save the first of each BC, HLC, and LLC from the initial SETUP. */
#define CC_SAVED_IE_BC (1 << 0) /*!< BC has already been saved. */
#define CC_SAVED_IE_HLC (1 << 1) /*!< HLC has already been saved. */
#define CC_SAVED_IE_LLC (1 << 2) /*!< LLC has already been saved. */
/*! Saved ie contents for BC, HLC, and LLC. (Only the first of each is saved.) */
struct q931_saved_ie_contents {
/*! Length of saved ie contents. */
unsigned char length;
/*! Saved ie contents data. */
unsigned char data[
/* Bearer Capability has a max length of 12. */
12
/* High Layer Compatibility has a max length of 5. */
+ 5
/* Low Layer Compatibility has a max length of 18. */
+ 18
/* Room for null terminator just in case. */
+ 1];
};
/*! Digested BC parameters. */
struct decoded_bc {
int transcapability;
int transmoderate;
int transmultiple;
int userl1;
int userl2;
int userl3;
int rateadaption;
};
/* q931_call datastructure */
struct q931_call {
struct pri *pri; /* PRI */
int cr; /* Call Reference */
q931_call *next;
/* Slotmap specified (bitmap of channels 31/24-1) (Channel Identifier IE) (-1 means not specified) */
int slotmap;
/* An explicit channel (Channel Identifier IE) (-1 means not specified) */
int channelno;
/* An explicit DS1 (-1 means not specified) */
int ds1no;
/* Whether or not the ds1 is explicitly identified or implicit. If implicit
the bchan is on the same span as the current active dchan (NFAS) */
int ds1explicit;
/* Channel flags (0 means none retrieved) */
int chanflags;
int alive; /* Whether or not the call is alive */
int acked; /* Whether setup has been acked or not */
int sendhangupack; /* Whether or not to send a hangup ack */
int proc; /* Whether we've sent a call proceeding / alerting */
int ri; /* Restart Indicator (Restart Indicator IE) */
/*! Bearer Capability */
struct decoded_bc bc;
/*!
* \brief TRUE if the call is a Call Independent Signalling connection.
* \note The call has no B channel associated with it. (Just signalling)
*/
int cis_call;
/*!
* \brief TRUE if we have recognized a use for this CIS call.
* \note An incoming CIS call will be immediately disconnected if not set.
* This is a safeguard against unhandled incoming CIS calls to protect the
* call reference pool.
*/
int cis_recognized;
/*! \brief TRUE if we will auto disconnect the cis_call we originated. */
int cis_auto_disconnect;
int progcode; /* Progress coding */
int progloc; /* Progress Location */
int progress; /* Progress indicator */
int progressmask; /* Progress Indicator bitmask */
int notify; /* Notification indicator. */
int causecode; /* Cause Coding */
int causeloc; /* Cause Location */
int cause; /* Cause of clearing */
enum Q931_CALL_STATE peercallstate; /* Call state of peer as reported */
enum Q931_CALL_STATE ourcallstate; /* Our call state */
enum Q931_CALL_STATE sugcallstate; /* Status call state */
int ani2; /* ANI II */
/*! Buffer for digits that come in KEYPAD_FACILITY */
char keypad_digits[32 + 1];
/*! Current dialed digits to be sent or just received. */
char overlap_digits[PRI_MAX_NUMBER_LEN];
/*!
* \brief Local party ID
* \details
* The Caller-ID and connected-line ID are just roles the local and remote party
* play while a call is being established. Which roll depends upon the direction
* of the call.
* Outgoing party info is to identify the local party to the other end.
* (Caller-ID for originated or connected-line for answered calls.)
* Incoming party info is to identify the remote party to us.
* (Caller-ID for answered or connected-line for originated calls.)
*/
struct q931_party_id local_id;
/*!
* \brief Remote party ID
* \details
* The Caller-ID and connected-line ID are just roles the local and remote party
* play while a call is being established. Which roll depends upon the direction
* of the call.
* Outgoing party info is to identify the local party to the other end.
* (Caller-ID for originated or connected-line for answered calls.)
* Incoming party info is to identify the remote party to us.
* (Caller-ID for answered or connected-line for originated calls.)
*/
struct q931_party_id remote_id;
/*!
* \brief Staging place for the Q.931 redirection number ie.
* \note
* The number could be the remote_id.number or redirecting.to.number
* depending upon the notification indicator.
*/
struct q931_party_number redirection_number;
/*!
* \brief Called party address.
* \note The called.number.str is the accumulated overlap dial digits
* and enbloc digits.
* \note The called.number.presentation value is not used.
*/
struct q931_party_address called;
int nonisdn;
int complete; /* no more digits coming */
int newcall; /* if the received message has a new call reference value */
int retranstimer; /* Timer for retransmitting DISC */
int t308_timedout; /* Whether t308 timed out once */
struct q931_party_redirecting redirecting;
/*! \brief Incoming call transfer state. */
enum INCOMING_CT_STATE incoming_ct_state;
/*! Call hold supplementary state. */
enum Q931_HOLD_STATE hold_state;
/*! Call hold event timer */
int hold_timer;
int deflection_in_progress; /*!< CallDeflection for NT PTMP in progress. */
/*! TRUE if the connected number ie was in the current received message. */
int connected_number_in_message;
/*! TRUE if the redirecting number ie was in the current received message. */
int redirecting_number_in_message;
int useruserprotocoldisc;
char useruserinfo[256];
long aoc_units; /* Advice of Charge Units */
struct apdu_event *apdus; /* APDU queue for call */
int transferable; /* RLT call is transferable */
unsigned int rlt_call_id; /* RLT call id */
/*! ETSI Explicit Call Transfer link id. */
int link_id;
/*! TRUE if link_id is valid. */
int is_link_id_valid;
/* Bridged call info */
q931_call *bridged_call; /* Pointer to other leg of bridged call (Used by Q.SIG when eliminating tromboned calls) */
int changestatus; /* SERVICE message changestatus */
int reversecharge; /* Reverse charging indication:
-1 - No reverse charging
1 - Reverse charging
0,2-7 - Reserved for future use */
int t303_timer;
int t303_expirycnt;
int hangupinitiated;
/*! \brief TRUE if we broadcast this call's SETUP message. */
int outboundbroadcast;
int performing_fake_clearing;
/*!
* \brief Master call controlling this call.
* \note Always valid. Master and normal calls point to self.
*/
struct q931_call *master_call;
/* These valid in master call only */
struct q931_call *subcalls[Q931_MAX_TEI];
int pri_winner;
/* Call completion */
struct {
/*!
* \brief CC record associated with this call.
* \note
* CC signaling link or original call when cc-available indicated.
*/
struct pri_cc_record *record;
/*! Original calling party. */
struct q931_party_id party_a;
/*! Saved BC, HLC, and LLC from initial SETUP */
struct q931_saved_ie_contents saved_ie_contents;
/*! Only save the first of each BC, HLC, and LLC from the initial SETUP. */
unsigned char saved_ie_flags;
/*! TRUE if call needs to be hung up. */
unsigned char hangup_call;
/*! TRUE if we originated this call. */
unsigned char originated;
/*! TRUE if outgoing call was already redirected. */
unsigned char initially_redirected;
} cc;
/* AOC charge requesting on Setup */
int aoc_charging_request;
};
enum CC_STATES {
/*! CC is not active. */
CC_STATE_IDLE,
// /*! CC has recorded call information in anticipation of CC availability. */
// CC_STATE_RECORD_RETENTION,
/*! CC is available and waiting on ALERTING or DISCONNECT to go out. */
CC_STATE_PENDING_AVAILABLE,
/*! CC is available and waiting on possible CC request. */
CC_STATE_AVAILABLE,
/*! CC is requested to be activated and waiting on party B to acknowledge. */
CC_STATE_REQUESTED,
/*! CC is activated and waiting for party B to become available. */
CC_STATE_ACTIVATED,
/*! CC party B is available and waiting for status of party A. */
CC_STATE_B_AVAILABLE,
/*! CC is suspended because party A is not available. (Monitor party A.) */
CC_STATE_SUSPENDED,
/*! CC is waiting for party A to initiate CC callback. */
CC_STATE_WAIT_CALLBACK,
/*! CC callback in progress. */
CC_STATE_CALLBACK,
/*! CC is waiting for signaling link to be cleared before destruction. */
CC_STATE_WAIT_DESTRUCTION,
/*! Number of CC states. Must be last in enum. */
CC_STATE_NUM
};
enum CC_EVENTS {
/*! CC is available for the current call. */
CC_EVENT_AVAILABLE,
/*! Requesting CC activation. */
CC_EVENT_CC_REQUEST,
/*! Requesting CC activation accepted. */
CC_EVENT_CC_REQUEST_ACCEPT,
/*! Requesting CC activation failed (error/reject received). */
CC_EVENT_CC_REQUEST_FAIL,
/*! CC party B is available, party A is considered free. */
CC_EVENT_REMOTE_USER_FREE,
/*! CC party B is available, party A is busy or CCBS busy. */
CC_EVENT_B_FREE,
/*! Someone else responded to the CC recall. */
CC_EVENT_STOP_ALERTING,
/*! CC poll/prompt for party A status. */
CC_EVENT_A_STATUS,
/*! CC party A is free/available for recall. */
CC_EVENT_A_FREE,
/*! CC party A is busy/not-available for recall. */
CC_EVENT_A_BUSY,
/*! Suspend monitoring party B because party A is busy. */
CC_EVENT_SUSPEND,
/*! Resume monitoring party B because party A is now available. */
CC_EVENT_RESUME,
/*! This is the CC recall call attempt. */
CC_EVENT_RECALL,
/*! Link request to cancel/deactivate CC received. */
CC_EVENT_LINK_CANCEL,
/*! Tear down CC request from upper layer. */
CC_EVENT_CANCEL,
/*! Received message indicating tear down of CC signaling link completed. */
CC_EVENT_SIGNALING_GONE,
/*! Delayed hangup request for the signaling link to allow subcmd events to be passed up. */
CC_EVENT_HANGUP_SIGNALING,
/*! Sent ALERTING message. */
CC_EVENT_MSG_ALERTING,
/*! Sent DISCONNECT message. */
CC_EVENT_MSG_DISCONNECT,
/*! Sent RELEASE message. */
CC_EVENT_MSG_RELEASE,
/*! Sent RELEASE_COMPLETE message. */
CC_EVENT_MSG_RELEASE_COMPLETE,
/*! T_ACTIVATE timer timed out. */
CC_EVENT_TIMEOUT_T_ACTIVATE,
#if 0
/*! T_DEACTIVATE timer timed out. */
CC_EVENT_TIMEOUT_T_DEACTIVATE,
/*! T_INTERROGATE timer timed out. */
CC_EVENT_TIMEOUT_T_INTERROGATE,
#endif
/*! T_RETENTION timer timed out. */
CC_EVENT_TIMEOUT_T_RETENTION,
/*! T-STATUS timer equivalent for CC user A status timed out. */
CC_EVENT_TIMEOUT_T_CCBS1,
/*! Timeout for valid party A status. */
CC_EVENT_TIMEOUT_EXTENDED_T_CCBS1,
/*! Max time the CCBS/CCNR service will be active. */
CC_EVENT_TIMEOUT_T_SUPERVISION,
/*! Max time to wait for user A to respond to user B availability. */
CC_EVENT_TIMEOUT_T_RECALL,
};
enum CC_PARTY_A_AVAILABILITY {
CC_PARTY_A_AVAILABILITY_INVALID,
CC_PARTY_A_AVAILABILITY_BUSY,
CC_PARTY_A_AVAILABILITY_FREE,
};
/* Invalid PTMP call completion reference and linkage id value. */
#define CC_PTMP_INVALID_ID 0xFF
/*! \brief Call-completion record */
struct pri_cc_record {
/*! Next call-completion record in the list */
struct pri_cc_record *next;
/*! Master D channel control structure. */
struct pri *master;
/*! Original call that is offered CC availability. (NULL if no longer exists.) */
struct q931_call *original_call;
/*!
* \brief Associated signaling link. (NULL if not established.)
* \note
* PTMP - Broadcast dummy call reference call.
* (If needed, the TE side could use this pointer to locate its specific
* dummy call reference call.)
* \note
* PTP - REGISTER signaling link.
* \note
* Q.SIG - SETUP signaling link.
*/
struct q931_call *signaling;
/*! Call-completion record id (0 - 65535) */
long record_id;
/*! Call-completion state */
enum CC_STATES state;
/*! Original calling party. */
struct q931_party_id party_a;
/*! Original called party. */
struct q931_party_address party_b;
/*! Saved BC, HLC, and LLC from initial SETUP */
struct q931_saved_ie_contents saved_ie_contents;
/*! Saved decoded BC */
struct decoded_bc bc;
/*! FSM parameters. */
union {
/*! PTMP FSM parameters. */
struct {
/*! Extended T_CCBS1 timer id for CCBSStatusRequest handling. */
int extended_t_ccbs1;
/*! Invoke id for the CCBSStatusRequest message to find if T_CCBS1 still running. */
int t_ccbs1_invoke_id;
/*! Number of times party A status request got no responses. */
int party_a_status_count;
/*! Accumulating party A availability status */
enum CC_PARTY_A_AVAILABILITY party_a_status_acc;
} ptmp;
/*! PTP FSM parameters. */
struct {
} ptp;
struct {
/*! Q.931 message type the current message event came in on. */
int msgtype;
} qsig;
} fsm;
/*! Received message parameters of interest. */
union {
/*! cc-request error/reject response */
struct {
/*! enum APDU_CALLBACK_REASON reason */
int reason;
/*! MSG_ERROR/MSG_REJECT fail code. */
int code;
} cc_req_rsp;
} msg;
/*! Party A availability status */
enum CC_PARTY_A_AVAILABILITY party_a_status;
/*! Indirect timer id to abort indirect action events. */
int t_indirect;
/*!
* \brief PTMP T_RETENTION timer id.
* \note
* This timer is used by all CC agents to implement
* the Asterisk CC core offer timer.
*/
int t_retention;
/*!
* \brief CC service supervision timer.
*
* \details
* This timer is one of the following timer id's depending upon
* switch type and CC mode:
* PTMP - T_CCBS2/T_CCNR2,
* PTP - T_CCBS5/T_CCNR5/T_CCBS6/T_CCNR6,
* Q.SIG - QSIG_CCBS_T2/QSIG_CCNR_T2
*/
int t_supervision;
/*!
* \brief Party A response to B availability for recall timer.
* \details
* This timer is one of the following timer id's:
* PTMP - T_CCBS3
* Q.SIG - QSIG_CC_T3
*/
int t_recall;
/*! Invoke id for the cc-request message to find if T_ACTIVATE/QSIG_CC_T1 still running. */
int t_activate_invoke_id;
/*! Pending response information. */
struct {
/*!
* \brief Send response on this signaling link.
* \note Used by PTMP for CCBSRequest/CCNRRequest/CCBSCall responses.
* \note Used by Q.SIG for ccRingout responses.
*/
struct q931_call *signaling;
/*! Invoke operation code */
int invoke_operation;
/*! Invoke id to use in the pending response. */
short invoke_id;
} response;
/*! TRUE if the call-completion FSM has completed and this record needs to be destroyed. */
unsigned char fsm_complete;
/*! TRUE if we are a call completion agent. */
unsigned char is_agent;
/*! TRUE if active cc mode is CCNR. */
unsigned char is_ccnr;
/*! PTMP pre-activation reference id. (0-127) */
unsigned char call_linkage_id;
/*! PTMP active CCBS reference id. (0-127) */
unsigned char ccbs_reference_id;
/*! Negotiated options */
struct {
/*! PTMP recall mode: globalRecall(0), specificRecall(1) */
unsigned char recall_mode;
/*! TRUE if negotiated for Q.SIG signaling link to be retained. */
unsigned char retain_signaling_link;
#if defined(QSIG_PATH_RESERVATION_SUPPORT)
/*! Q.SIG TRUE if can do path reservation. */
unsigned char do_path_reservation;
#endif /* defined(QSIG_PATH_RESERVATION_SUPPORT) */
} option;
};
/*! D channel control structure with associated dummy call reference record. */
struct d_ctrl_dummy {
/*! D channel control structure. Must be first in the structure. */
struct pri ctrl;
/*! Dummy call reference call record. */
struct q931_call dummy_call;
};
extern int pri_schedule_event(struct pri *pri, int ms, void (*function)(void *data), void *data);
extern pri_event *pri_schedule_run(struct pri *pri);
extern void pri_schedule_del(struct pri *pri, int ev);
extern pri_event *pri_mkerror(struct pri *pri, char *errstr);
void pri_message(struct pri *ctrl, const char *fmt, ...) __attribute__((format(printf, 2, 3)));
void pri_error(struct pri *ctrl, const char *fmt, ...) __attribute__((format(printf, 2, 3)));
void libpri_copy_string(char *dst, const char *src, size_t size);
struct pri *__pri_new_tei(int fd, int node, int switchtype, struct pri *master, pri_io_cb rd, pri_io_cb wr, void *userdata, int tei, int bri);
void __pri_free_tei(struct pri *p);
void q931_init_call_record(struct pri *ctrl, struct q931_call *call, int cr);
void pri_sr_init(struct pri_sr *req);
void q931_party_name_init(struct q931_party_name *name);
void q931_party_number_init(struct q931_party_number *number);
void q931_party_subaddress_init(struct q931_party_subaddress *subaddr);
void q931_party_address_init(struct q931_party_address *address);
void q931_party_id_init(struct q931_party_id *id);
void q931_party_redirecting_init(struct q931_party_redirecting *redirecting);
static inline void q931_party_address_to_id(struct q931_party_id *id, const struct q931_party_address *address)
{
id->number = address->number;
id->subaddress = address->subaddress;
}
static inline void q931_party_id_to_address(struct q931_party_address *address, const struct q931_party_id *id)
{
address->number = id->number;
address->subaddress = id->subaddress;
}
int q931_party_name_cmp(const struct q931_party_name *left, const struct q931_party_name *right);
int q931_party_number_cmp(const struct q931_party_number *left, const struct q931_party_number *right);
int q931_party_subaddress_cmp(const struct q931_party_subaddress *left, const struct q931_party_subaddress *right);
int q931_party_address_cmp(const struct q931_party_address *left, const struct q931_party_address *right);
int q931_party_id_cmp(const struct q931_party_id *left, const struct q931_party_id *right);
int q931_party_id_cmp_address(const struct q931_party_id *left, const struct q931_party_id *right);
int q931_cmp_party_id_to_address(const struct q931_party_id *id, const struct q931_party_address *address);
void q931_party_id_copy_to_address(struct q931_party_address *address, const struct q931_party_id *id);
void q931_party_name_copy_to_pri(struct pri_party_name *pri_name, const struct q931_party_name *q931_name);
void q931_party_number_copy_to_pri(struct pri_party_number *pri_number, const struct q931_party_number *q931_number);
void q931_party_subaddress_copy_to_pri(struct pri_party_subaddress *pri_subaddress, const struct q931_party_subaddress *q931_subaddress);
void q931_party_address_copy_to_pri(struct pri_party_address *pri_address, const struct q931_party_address *q931_address);
void q931_party_id_copy_to_pri(struct pri_party_id *pri_id, const struct q931_party_id *q931_id);
void q931_party_redirecting_copy_to_pri(struct pri_party_redirecting *pri_redirecting, const struct q931_party_redirecting *q931_redirecting);
void pri_copy_party_name_to_q931(struct q931_party_name *q931_name, const struct pri_party_name *pri_name);
void pri_copy_party_number_to_q931(struct q931_party_number *q931_number, const struct pri_party_number *pri_number);
void pri_copy_party_subaddress_to_q931(struct q931_party_subaddress *q931_subaddress, const struct pri_party_subaddress *pri_subaddress);
void pri_copy_party_id_to_q931(struct q931_party_id *q931_id, const struct pri_party_id *pri_id);
void q931_party_id_fixup(const struct pri *ctrl, struct q931_party_id *id);
int q931_party_id_presentation(const struct q931_party_id *id);
const char *q931_call_state_str(enum Q931_CALL_STATE callstate);
const char *msg2str(int msg);
struct q931_call *q931_find_winning_call(struct q931_call *call);
int q931_master_pass_event(struct pri *ctrl, struct q931_call *subcall, int msg_type);
struct pri_subcommand *q931_alloc_subcommand(struct pri *ctrl);
struct q931_call *q931_find_link_id_call(struct pri *ctrl, int link_id);
struct q931_call *q931_find_held_active_call(struct pri *ctrl, struct q931_call *held_call);
int q931_notify_redirection(struct pri *ctrl, q931_call *call, int notify, const struct q931_party_number *number);
struct pri_cc_record *pri_cc_find_by_reference(struct pri *ctrl, unsigned reference_id);
struct pri_cc_record *pri_cc_find_by_linkage(struct pri *ctrl, unsigned linkage_id);
struct pri_cc_record *pri_cc_find_by_addressing(struct pri *ctrl, const struct q931_party_address *party_a, const struct q931_party_address *party_b, unsigned length, const unsigned char *q931_ies);
struct pri_cc_record *pri_cc_new_record(struct pri *ctrl, q931_call *call);
void pri_cc_qsig_determine_available(struct pri *ctrl, q931_call *call);
int pri_cc_event(struct pri *ctrl, q931_call *call, struct pri_cc_record *cc_record, enum CC_EVENTS event);
int q931_cc_timeout(struct pri *ctrl, struct pri_cc_record *cc_record, enum CC_EVENTS event);
void q931_cc_indirect(struct pri *ctrl, struct pri_cc_record *cc_record, void (*func)(struct pri *ctrl, q931_call *call, struct pri_cc_record *cc_record));
/*!
* \brief Get the master PRI control structure.
*
* \param ctrl D channel controller.
*
* \return Master PRI control structure.
*/
static inline struct pri *PRI_MASTER(struct pri *ctrl)
{
while (ctrl->master) {
ctrl = ctrl->master;
}
return ctrl;
}
/*!
* \brief Determine if layer 2 is in BRI NT PTMP mode.
*
* \param ctrl D channel controller.
*
* \retval TRUE if in BRI NT PTMP mode.
* \retval FALSE otherwise.
*/
static inline int BRI_NT_PTMP(const struct pri *ctrl)
{
struct pri *my_ctrl = (struct pri *) ctrl;
/* Check master control structure */
my_ctrl = PRI_MASTER(my_ctrl);
return my_ctrl->bri && my_ctrl->localtype == PRI_NETWORK
&& my_ctrl->tei == Q921_TEI_GROUP;
}
/*!
* \brief Determine if layer 2 is in BRI TE PTMP mode.
*
* \param ctrl D channel controller.
*
* \retval TRUE if in BRI TE PTMP mode.
* \retval FALSE otherwise.
*/
static inline int BRI_TE_PTMP(const struct pri *ctrl)
{
struct pri *my_ctrl = (struct pri *) ctrl;
/* Check master control structure */
my_ctrl = PRI_MASTER(my_ctrl);
return my_ctrl->bri && my_ctrl->localtype == PRI_CPE
&& my_ctrl->tei == Q921_TEI_GROUP;
}
/*!
* \brief Determine if layer 2 is in NT mode.
*
* \param ctrl D channel controller.
*
* \retval TRUE if in NT mode.
* \retval FALSE otherwise.
*/
static inline int NT_MODE(const struct pri *ctrl)
{
struct pri *my_ctrl = (struct pri *) ctrl;
/* Check master control structure */
my_ctrl = PRI_MASTER(my_ctrl);
return my_ctrl->localtype == PRI_NETWORK;
}
/*!
* \brief Determine if layer 2 is in TE mode.
*
* \param ctrl D channel controller.
*
* \retval TRUE if in TE mode.
* \retval FALSE otherwise.
*/
static inline int TE_MODE(const struct pri *ctrl)
{
struct pri *my_ctrl = (struct pri *) ctrl;
/* Check master control structure */
my_ctrl = PRI_MASTER(my_ctrl);
return my_ctrl->localtype == PRI_CPE;
}
/*!
* \brief Determine if layer 2 is in PTP mode.
*
* \param ctrl D channel controller.
*
* \retval TRUE if in PTP mode.
* \retval FALSE otherwise.
*/
static inline int PTP_MODE(const struct pri *ctrl)
{
struct pri *my_ctrl = (struct pri *) ctrl;
/* Check master control structure */
my_ctrl = PRI_MASTER(my_ctrl);
return my_ctrl->tei == Q921_TEI_PRI;
}
/*!
* \brief Determine if layer 2 is in PTMP mode.
*
* \param ctrl D channel controller.
*
* \retval TRUE if in PTMP mode.
* \retval FALSE otherwise.
*/
static inline int PTMP_MODE(const struct pri *ctrl)
{
struct pri *my_ctrl = (struct pri *) ctrl;
/* Check master control structure */
my_ctrl = PRI_MASTER(my_ctrl);
return my_ctrl->tei == Q921_TEI_GROUP;
}
#define Q931_DUMMY_CALL_REFERENCE -1
#define Q931_CALL_REFERENCE_FLAG 0x8000 /* Identify which end allocted the CR. */
/*!
* \brief Deterimine if the given call control pointer is a dummy call.
*
* \retval TRUE if given call is a dummy call.
* \retval FALSE otherwise.
*/
static inline int q931_is_dummy_call(const q931_call *call)
{
return (call->cr == Q931_DUMMY_CALL_REFERENCE) ? 1 : 0;
}
static inline short get_invokeid(struct pri *ctrl)
{
ctrl = PRI_MASTER(ctrl);
return ++ctrl->last_invoke;
}
#endif