/* prepare message and transaction context for later accounting */ void acc_onreq( struct cell* t, int type, struct tmcb_params *ps ) { int tmcb_types; int is_invite; int_str _avp_created_value; if ( ps->req && !skip_cancel(ps->req) && (is_acc_on(ps->req) || is_mc_on(ps->req)) ) { /* do some parsing in advance */ if (acc_preparse_req(ps->req)<0) return; is_invite = (ps->req->REQ_METHOD==METHOD_INVITE)?1:0; /* install additional handlers */ tmcb_types = /* report on completed transactions */ TMCB_RESPONSE_OUT | /* get incoming replies ready for processing */ TMCB_RESPONSE_IN | /* report on missed calls */ ((is_invite && is_mc_on(ps->req))?TMCB_ON_FAILURE:0) ; /* if cdr accounting is enabled */ if (is_cdr_acc_on(ps->req) && !has_totag(ps->req)) { _avp_created_value.n = time(NULL); if ( add_avp(0, acc_created_avp_id, _avp_created_value) != 0) { LM_ERR("failed to add created avp value!\n"); return; } if (is_invite && create_acc_dlg(ps->req) < 0) { LM_ERR("cannot use dialog accounting module\n"); return; } } if (tmb.register_tmcb( 0, t, tmcb_types, tmcb_func, 0, 0 )<=0) { LM_ERR("cannot register additional callbacks\n"); return; } /* if required, determine request direction */ if( detect_direction && !rrb.is_direction(ps->req,RR_FLOW_UPSTREAM) ) { LM_DBG("detected an UPSTREAM req -> flaging it\n"); ps->req->msg_flags |= FL_REQ_UPSTREAM; } } }
/* initiate a report if we previously enabled accounting for this t */ static inline void acc_onreply( struct cell* t, struct sip_msg *req, struct sip_msg *reply, int code) { str new_uri_bk; str dst_uri_bk; struct dlg_cell *dlg = NULL; str flags_s; int_str table; struct usr_avp *avp; /* acc_onreply is bound to TMCB_REPLY which may be called from _reply, like when FR hits; we should not miss this event for missed calls either */ if (is_invite(t) && code>=300 && is_mc_on(req) ) on_missed(t, req, reply, code); if (!should_acc_reply(req, reply, code)) return; /* for reply processing, set as new_uri the winning branch */ if (t->relaied_reply_branch>=0) { new_uri_bk = req->new_uri; dst_uri_bk = req->dst_uri; req->new_uri = t->uac[t->relaied_reply_branch].uri; req->dst_uri = t->uac[t->relaied_reply_branch].duri; req->parsed_uri_ok = 0; } else { new_uri_bk.len = dst_uri_bk.len = -1; new_uri_bk.s = dst_uri_bk.s = NULL; } /* set env variables */ env_set_to( get_rpl_to(t,reply) ); env_set_code_status( code, reply); /* search for table avp */ table.s = db_table_acc; if (db_table_name != -1 && is_db_acc_on(req)) { avp = search_first_avp(db_table_name_type, db_table_name, &table, 0); if (!avp) { LM_DBG("table not set: using default %.*s\n", db_table_acc.len, db_table_acc.s); } else { if (!(avp->flags & AVP_VAL_STR)) { LM_WARN("invalid integer table name: using default %.*s\n", db_table_acc.len, db_table_acc.s); table.s = db_table_acc; } } } if (is_invite(t) && !has_totag(req) && is_cdr_acc_on(req) && code >= 200 && code < 300 && (dlg=dlg_api.get_dlg()) != NULL) { /* if dialog module loaded and INVITE and success reply */ if (store_core_leg_values(dlg, req) < 0) { LM_ERR("cannot store core and leg values\n"); return; } if(is_log_acc_on(req) && store_log_extra_values(dlg,req,reply)<0){ LM_ERR("cannot store string values\n"); return; } if(is_aaa_acc_on(req) && store_aaa_extra_values(dlg, req, reply)<0){ LM_ERR("cannot store aaa extra values\n"); return; } if (is_db_acc_on(req) && store_db_extra_values(dlg,req,reply)<0) { LM_ERR("cannot store database extra values\n"); return; } if (is_evi_acc_on(req) && store_evi_extra_values(dlg,req,reply)<0) { LM_ERR("cannot store database extra values\n"); return; } flags_s = bitmask_to_flag_list(FLAG_TYPE_MSG, req->flags); /* store flags into dlg */ if ( dlg_api.store_dlg_value(dlg, &flags_str, &flags_s) < 0) { LM_ERR("cannot store flag value into dialog\n"); return; } /* store flags into dlg */ if ( dlg_api.store_dlg_value(dlg, &table_str, &table.s) < 0) { LM_ERR("cannot store the table name into dialog\n"); return; } /* register database callbacks */ if (dlg_api.register_dlgcb(dlg, DLGCB_TERMINATED | DLGCB_EXPIRED, acc_dlg_callback,(void *)(long)req->flags,0) != 0) { LM_ERR("cannot register callback for database accounting\n"); return; } } else { /* do old accounting */ if ( is_evi_acc_on(req) ) { env_set_event(acc_event); acc_evi_request( req, reply, 0 ); } if ( is_log_acc_on(req) ) { env_set_text( ACC_ANSWERED, ACC_ANSWERED_LEN); acc_log_request( req, reply, 0 ); } if (is_aaa_acc_on(req)) acc_aaa_request( req, reply, 0 ); if (is_db_acc_on(req)) { env_set_text( table.s.s, table.s.len); acc_db_request( req, reply, &acc_ins_list, 0); } } /* DIAMETER */ #ifdef DIAM_ACC if (is_diam_acc_on(req)) acc_diam_request( req, reply ); #endif if (new_uri_bk.len>=0) { req->new_uri = new_uri_bk; req->dst_uri = dst_uri_bk; req->parsed_uri_ok = 0; } }
int w_do_acc_3(struct sip_msg* msg, char* type_p, char* flags_p, char* table_p) { unsigned long long type=0, flags=0; unsigned long long *flag_mask_p, flag_mask; acc_type_param_t* acc_param; str in; str table_name; int tmcb_types; int is_invite; int_str _avp_created_value; if (type_p == NULL) { LM_ERR("accounting type is mandatory!\n"); return -1; } acc_param = (acc_type_param_t *)type_p; if (acc_param->t == DO_ACC_PARAM_TYPE_VALUE) { type = acc_param->u.ival; } else { if (pv_printf_s(msg, acc_param->u.pval, &in) < 0) { LM_ERR("failed to fetch type value!\n"); return -1; } if ((type=do_acc_parse(&in, do_acc_type_parser)) < 0) { LM_ERR("Invalid expression <%.*s> for acc type!\n", in.len, in.s); return -1; } } if (flags_p != NULL) { flags= *(unsigned long long*)flags_p; } flag_mask = type + type * flags; if (is_cdr_acc_on(flag_mask)) { /* setting this flag will allow us to register everything * that is needed for CDR accounting only once */ set_cdr_values_registered(flag_mask); } /* is it the first time when the function was called ? */ if ((flag_mask_p=try_fetch_flags()) != NULL) { /* no the first time ; check now if CDRs are requested now * for the first time */ if (!cdr_values_registered(*flag_mask_p) && cdr_values_registered(flag_mask)) { /* CDR support requested for the first time, we need to create * the dialog support, if an initial INVITE */ if (!has_totag(msg)) { _avp_created_value.n = time(NULL); if ( add_avp(0, acc_created_avp_id, _avp_created_value) != 0) { LM_ERR("failed to add created avp value!\n"); return -1; } if (msg->REQ_METHOD == METHOD_INVITE && create_acc_dlg(msg) < 0) { LM_ERR("cannot use dialog accounting module\n"); return -1; } } } *flag_mask_p |= flag_mask; return 1; } /* setting accouting for the first time, allocate the flags holder */ flag_mask_p=shm_malloc(sizeof(unsigned long long)); if (flag_mask_p==NULL) { LM_ERR("No more shm mem!\n"); return -1; } /* * the first bit in each byte will just tell that we want that type of * accounting * next bits will tell extra options for that type of accounting * so we keep the first bits in each byte and on the following positions * next flags */ *flag_mask_p = flag_mask; ACC_PUT_FLAGS(flag_mask_p); if (table_p != NULL) { if (fixup_get_svalue(msg, (gparam_p)table_p, &table_name) < 0) { LM_ERR("failed to fetch table name!\n"); return -1; } } if ( msg && !skip_cancel(msg) && (is_acc_on(*flag_mask_p) || is_mc_acc_on(*flag_mask_p)) ) { /* do some parsing in advance */ if (acc_preparse_req(msg)<0) return -1; is_invite = (msg->REQ_METHOD==METHOD_INVITE)?1:0; /* install additional handlers */ tmcb_types = /* report on completed transactions */ TMCB_RESPONSE_IN | /* register it manually; see explanation below * get incoming replies ready for processing */ /* TMCB_RESPONSE_OUT | */ /* report on missed calls */ ((is_invite && is_mc_acc_on(*flag_mask_p))?TMCB_ON_FAILURE:0) ; /* if cdr accounting is enabled */ if (is_cdr_acc_on(*flag_mask_p) && !has_totag(msg)) { _avp_created_value.n = time(NULL); if ( add_avp(0, acc_created_avp_id, _avp_created_value) != 0) { LM_ERR("failed to add created avp value!\n"); return -1; } if (is_invite && create_acc_dlg(msg) < 0) { LM_ERR("cannot use dialog accounting module\n"); return -1; } } /* we do register_tmcb twice because we wan't to register the free * fucntion only once */ if (tmb.register_tmcb( msg, 0, TMCB_RESPONSE_OUT, tmcb_func, flag_mask_p, tm_free_acc_mask)<=0) { LM_ERR("cannot register additional callbacks\n"); return -1; } if (tmb.register_tmcb( msg, 0, tmcb_types, tmcb_func, flag_mask_p, 0)<=0) { LM_ERR("cannot register additional callbacks\n"); return -1; } /* if required, determine request direction */ if( detect_direction && !rrb.is_direction(msg,RR_FLOW_UPSTREAM) ) { LM_DBG("detected an UPSTREAM req -> flaging it\n"); msg->msg_flags |= FL_REQ_UPSTREAM; } } return 1; }
/* initiate a report if we previously enabled accounting for this t */ static inline void acc_onreply( struct cell* t, struct sip_msg *req, struct sip_msg *reply, int code, acc_ctx_t* ctx) { str new_uri_bk; str dst_uri_bk; struct dlg_cell *dlg = NULL; str ctx_s; str table; unsigned long long* flags = &ctx->flags; /* acc_onreply is bound to TMCB_REPLY which may be called from _reply, like when FR hits; we should not miss this event for missed calls either */ if (is_invite(t) && code>=300 && is_mc_acc_on(*flags) ) { on_missed(t, req, reply, code, ctx); } if (!should_acc_reply(req, reply, code, flags)) return; /* for reply processing, set as new_uri the winning branch */ if (t->relaied_reply_branch>=0) { new_uri_bk = req->new_uri; dst_uri_bk = req->dst_uri; req->new_uri = t->uac[t->relaied_reply_branch].uri; req->dst_uri = t->uac[t->relaied_reply_branch].duri; req->parsed_uri_ok = 0; } else { new_uri_bk.len = dst_uri_bk.len = -1; new_uri_bk.s = dst_uri_bk.s = NULL; } /* set env variables */ env_set_to( get_rpl_to(t,reply) ); env_set_code_status( code, reply); /* search for table avp */ if (is_db_acc_on(ctx->flags)) table = ctx->acc_table; else { table.s = 0; table.len = 0; } if (is_invite(t) && !has_totag(req) && is_cdr_acc_on(ctx->flags) && code >= 200 && code < 300 && (dlg=dlg_api.get_dlg()) != NULL) { /* if dialog module loaded and INVITE and success reply */ if (store_core_leg_values(dlg, req) < 0) { LM_ERR("cannot store core and leg values\n"); return; } ctx_s.s = (char*)&ctx; ctx_s.len = sizeof(acc_ctx_t *); /* store context pointer into dialog */ if (dlg_api.store_dlg_value(dlg, &acc_ctx_str, &ctx_s) < 0) { LM_ERR("cannot store context pointer into dlg val!\n"); return; } /* report that flags shall be freed only by dialog module * tm must never free it */ set_dialog_context(*flags); /* register program shutdown callback * won't register free function since TERMINATED|EXPIRED callback * free function will be called to free */ if (dlg_api.register_dlgcb(dlg, DLGCB_DB_WRITE_VP, acc_dlg_onshutdown, ctx, NULL) != 0) { LM_ERR("cannot register callback for program shutdown!\n"); return; } /* register database callbacks */ if (dlg_api.register_dlgcb(dlg, DLGCB_TERMINATED|DLGCB_EXPIRED, acc_dlg_callback, ctx, dlg_free_acc_ctx) != 0) { LM_ERR("cannot register callback for database accounting\n"); return; } } else { /* do old accounting */ if ( is_evi_acc_on(*flags) ) { env_set_event(acc_event); acc_evi_request( req, reply, 0 ); } if ( is_log_acc_on(*flags) ) { env_set_text( ACC_ANSWERED, ACC_ANSWERED_LEN); acc_log_request( req, reply, 0 ); } if (is_aaa_acc_on(*flags)) acc_aaa_request( req, reply, 0 ); if (is_db_acc_on(*flags)) { env_set_text( table.s, table.len); acc_db_request( req, reply, &acc_ins_list, 0); } } if (new_uri_bk.len>=0) { req->new_uri = new_uri_bk; req->dst_uri = dst_uri_bk; req->parsed_uri_ok = 0; } }
int w_do_acc_3(struct sip_msg* msg, char* type_p, char* flags_p, char* table_p) { unsigned long long type=0, flags=0; unsigned long long flag_mask; acc_ctx_t* acc_ctx; acc_type_param_t* acc_param; str in; str table_name; int tmcb_types; int is_invite; if (type_p == NULL) { LM_ERR("accounting type is mandatory!\n"); return -1; } acc_param = (acc_type_param_t *)type_p; if (acc_param->t == DO_ACC_PARAM_TYPE_VALUE) { type = acc_param->u.ival; } else { if (pv_printf_s(msg, acc_param->u.pval, &in) < 0) { LM_ERR("failed to fetch type value!\n"); return -1; } if ((type=do_acc_parse(&in, do_acc_type_parser)) == DO_ACC_ERR) { LM_ERR("Invalid expression <%.*s> for acc type!\n", in.len, in.s); return -1; } } if (table_p != NULL) { if (fixup_get_svalue(msg, (gparam_p)table_p, &table_name) < 0) { LM_ERR("failed to fetch table name!\n"); return -1; } } if (flags_p != NULL) { flags= *(unsigned long long*)flags_p; } flag_mask = type + type * flags; if (is_cdr_acc_on(flag_mask)) { /* setting this flag will allow us to register everything * that is needed for CDR accounting only once */ set_cdr_values_registered(flag_mask); } /* is it the first time when the function was called ? */ acc_ctx = try_fetch_ctx(); /* we go in here only if do_accounting function was called before; * if accounting context is null or it's created but flags value is * 0(meaning that context was created from somewhere else but do_accounting * wasn't called) then we need to jump over this and register * all the callbacks we need */ if (acc_ctx != NULL && acc_ctx->flags != 0) { /* do_accounting already called once */ /* first check if the accounting table changed */ if (is_db_acc_on(flag_mask) && (table_p != NULL || (acc_ctx->acc_table.s==NULL && acc_ctx->acc_table.len == 0))) { if (table_p == NULL) { table_name = db_table_acc; } if (store_acc_table( acc_ctx, &table_name) < 0) { LM_ERR("failed to store acc table!\n"); return -1; } } if (!cdr_values_registered(acc_ctx->flags) && cdr_values_registered(flag_mask)) { /* CDR support requested for the first time, we need to create * the dialog support, if an initial INVITE */ if (!has_totag(msg)) { acc_ctx->created = time(NULL); if (msg->REQ_METHOD == METHOD_INVITE && create_acc_dlg(msg) < 0) { LM_ERR("cannot use dialog accounting module\n"); return -1; } } } /* if it's the first time the missed calls flag was used register the callback */ if (is_mc_acc_on(flag_mask) && !failure_cb_registered(acc_ctx->flags)) { if (tmb.register_tmcb( msg, 0, TMCB_ON_FAILURE, tmcb_func, acc_ctx, 0)<=0) { LM_ERR("cannot register missed calls callback\n"); return -1; } /* don't allow the callback to be registered agian in the future */ set_failure_cb_registered(acc_ctx->flags); } acc_ctx->flags |= flag_mask; return 1; } /* initialize accounting context if not created before */ if (acc_ctx == NULL && init_acc_ctx(&acc_ctx) < 0) { LM_ERR("failed to create accounting context!\n"); return -1; } /* move acc table in context if we have database accounting */ if (is_db_acc_on(flag_mask)) { if (table_p == NULL) { table_name = db_table_acc; } if (store_acc_table( acc_ctx, &table_name) < 0) { LM_ERR("failed to store acc table!\n"); return -1; } } /* * the first bit in each byte will just tell that we want that type of * accounting * next bits will tell extra options for that type of accounting * so we keep the first bits in each byte and on the following positions * next flags */ acc_ctx->flags = flag_mask; /* make sure that context won't be freed by GLOBAL_CONTEXT free function */ acc_ctx->flags |= ACC_PROCESSING_CTX_NO_FREE; ACC_PUT_CTX(acc_ctx); if ( msg && !skip_cancel(msg) && (is_acc_on(acc_ctx->flags) || is_mc_acc_on(acc_ctx->flags)) ) { /* do some parsing in advance */ if (acc_preparse_req(msg)<0) return -1; is_invite = (msg->REQ_METHOD==METHOD_INVITE)?1:0; /* install additional handlers */ tmcb_types = /* report on completed transactions */ TMCB_RESPONSE_IN; if (is_invite && is_mc_acc_on(acc_ctx->flags)) { /* register it manually; see explanation below * get incoming replies ready for processing */ /* TMCB_RESPONSE_OUT | */ /* report on missed calls */ tmcb_types |= TMCB_ON_FAILURE; /* the flag will help on further do_accounting calls to know * not to register the callback twice */ set_failure_cb_registered(acc_ctx->flags); } /* if cdr accounting is enabled */ if (is_cdr_acc_on(acc_ctx->flags) && !has_totag(msg)) { acc_ctx->created = time(NULL); if (is_invite && create_acc_dlg(msg) < 0) { LM_ERR("cannot use dialog accounting module\n"); return -1; } } /* we do register_tmcb twice because we want to register the free * function only once */ if (tmb.register_tmcb( msg, 0, TMCB_RESPONSE_OUT, tmcb_func, acc_ctx, tm_free_acc_ctx)<=0) { LM_ERR("cannot register additional callbacks\n"); return -1; } if (tmb.register_tmcb( msg, 0, tmcb_types, tmcb_func, acc_ctx, 0)<=0) { LM_ERR("cannot register additional callbacks\n"); return -1; } /* if required, determine request direction */ if( detect_direction && !rrb.is_direction(msg,RR_FLOW_UPSTREAM) ) { LM_DBG("detected an UPSTREAM req -> flaging it\n"); msg->msg_flags |= FL_REQ_UPSTREAM; } } return 1; }
int w_has_totag(struct sip_msg* _m, char* _foo, char* _bar) { return has_totag(_m); }