/* "Application" code of the layer2/3 stack */ /* (C) 2010 by Holger Hans Peter Freyther * (C) 2010 by Harald Welte * (C) 2010 by Andreas Eversberg * * All Rights Reserved * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include extern void *l23_ctx; extern struct llist_head ms_list; extern int vty_reading; int mncc_recv_mobile(struct osmocom_ms *ms, int msg_type, void *arg); int mncc_recv_dummy(struct osmocom_ms *ms, int msg_type, void *arg); int (*mncc_recv_app)(struct osmocom_ms *ms, int, void *); static int quit; /* handle ms instance */ int mobile_work(struct osmocom_ms *ms) { int work = 0, w; do { w = 0; w |= gsm48_rsl_dequeue(ms); w |= gsm48_rr_dequeue(ms); w |= gsm48_mmxx_dequeue(ms); w |= gsm48_mmr_dequeue(ms); w |= gsm48_mmevent_dequeue(ms); w |= gsm322_plmn_dequeue(ms); w |= gsm322_cs_dequeue(ms); w |= gsm_sim_job_dequeue(ms); w |= mncc_dequeue(ms); if (w) work = 1; } while (w); return work; } /* run ms instance, if layer1 is available */ int mobile_signal_cb(unsigned int subsys, unsigned int signal, void *handler_data, void *signal_data) { struct osmocom_ms *ms; struct gsm_settings *set; struct msgb *nmsg; if (subsys != SS_L1CTL) return 0; switch (signal) { case S_L1CTL_RESET: ms = signal_data; set = &ms->settings; if (ms->started) break; /* insert test card, if enabled */ switch (set->sim_type) { case GSM_SIM_TYPE_READER: /* trigger sim card reader process */ gsm_subscr_simcard(ms); break; case GSM_SIM_TYPE_TEST: gsm_subscr_testcard(ms, set->test_rplmn_mcc, set->test_rplmn_mnc, set->test_lac, set->test_tmsi); break; default: /* no SIM, trigger PLMN selection process */ nmsg = gsm322_msgb_alloc(GSM322_EVENT_SWITCH_ON); if (!nmsg) return -ENOMEM; gsm322_plmn_sendmsg(ms, nmsg); nmsg = gsm322_msgb_alloc(GSM322_EVENT_SWITCH_ON); if (!nmsg) return -ENOMEM; gsm322_cs_sendmsg(ms, nmsg); } ms->started = 1; } return 0; } /* power-off ms instance */ int mobile_exit(struct osmocom_ms *ms, int force) { struct gsm48_mmlayer *mm = &ms->mmlayer; if (!force && ms->started) { struct msgb *nmsg; ms->shutdown = 1; /* going down */ nmsg = gsm48_mmevent_msgb_alloc(GSM48_MM_EVENT_IMSI_DETACH); if (!nmsg) return -ENOMEM; gsm48_mmevent_msg(mm->ms, nmsg); return -EBUSY; } gsm322_exit(ms); gsm48_mm_exit(ms); gsm48_rr_exit(ms); gsm_subscr_exit(ms); gsm48_cc_exit(ms); gsm_sim_exit(ms); lapdm_exit(&ms->l2_entity.lapdm_acch); lapdm_exit(&ms->l2_entity.lapdm_dcch); ms->shutdown = 2; /* being down */ vty_notify(ms, NULL); vty_notify(ms, "Power off!\n"); printf("Power off! (MS %s)\n", ms->name); return 0; } /* power-on ms instance */ int mobile_init(struct osmocom_ms *ms) { int rc; lapdm_init(&ms->l2_entity.lapdm_dcch, ms); lapdm_init(&ms->l2_entity.lapdm_acch, ms); gsm_sim_init(ms); gsm48_cc_init(ms); gsm_subscr_init(ms); gsm48_rr_init(ms); gsm48_mm_init(ms); INIT_LLIST_HEAD(&ms->trans_list); gsm322_init(ms); rc = layer2_open(ms, ms->settings.layer2_socket_path); if (rc < 0) { fprintf(stderr, "Failed during layer2_open()\n"); ms->l2_wq.bfd.fd = -1; mobile_exit(ms, 1); return rc; } #if 0 rc = sap_open(ms, ms->settings.sap_socket_path); if (rc < 0) { fprintf(stderr, "Failed during sap_open(), no SIM reader\n"); ms->sap_wq.bfd.fd = -1; mobile_exit(ms, 1); return rc; } #endif if (mncc_recv_app) ms->cclayer.mncc_recv = mncc_recv_app; else if (ms->settings.ch_cap == GSM_CAP_SDCCH) ms->cclayer.mncc_recv = mncc_recv_dummy; else ms->cclayer.mncc_recv = mncc_recv_mobile; gsm_random_imei(&ms->settings); ms->shutdown = 0; ms->started = 0; l1ctl_tx_reset_req(ms, L1CTL_RES_T_FULL); printf("Mobile '%s' initialized, please start phone now!\n", ms->name); return 0; } /* create ms instance */ struct osmocom_ms *mobile_new(char *name) { static struct osmocom_ms *ms; ms = talloc_zero(l23_ctx, struct osmocom_ms); if (!ms) { fprintf(stderr, "Failed to allocate MS\n"); exit(1); } llist_add_tail(&ms->entity, &ms_list); strcpy(ms->name, name); ms->l2_wq.bfd.fd = -1; ms->sap_wq.bfd.fd = -1; gsm_support_init(ms); gsm_settings_init(ms); ms->shutdown = 2; /* being down */ if (mncc_recv_app) { struct msgb *msg; msg = msgb_alloc(sizeof(struct gsm_mncc), "MNCC"); if (msg) { struct gsm_mncc *mncc = (struct gsm_mncc *)msg->data; mncc->msg_type = MS_NEW; mncc_recv_app(ms, mncc->msg_type, mncc); } ms->cclayer.mncc_recv = mncc_recv_app; } else ms->cclayer.mncc_recv = mncc_recv_dummy; return ms; } /* destroy ms instance */ int mobile_delete(struct osmocom_ms *ms, int force) { int rc; ms->deleting = 1; if (ms->shutdown == 0 || (ms->shutdown == 1 && force)) { rc = mobile_exit(ms, force); if (rc < 0) return rc; } if (mncc_recv_app) { struct msgb *msg; msg = msgb_alloc(sizeof(struct gsm_mncc), "MNCC"); if (msg) { struct gsm_mncc *mncc = (struct gsm_mncc *)msg->data; mncc->msg_type = MS_DELETE; mncc_recv_app(ms, mncc->msg_type, mncc); } } return 0; } /* handle global shutdown */ int global_signal_cb(unsigned int subsys, unsigned int signal, void *handler_data, void *signal_data) { struct osmocom_ms *ms, *ms2; if (subsys != SS_GLOBAL) return 0; switch (signal) { case S_GLOBAL_SHUTDOWN: llist_for_each_entry_safe(ms, ms2, &ms_list, entity) mobile_delete(ms, quit); /* if second signal is received, force to exit */ quit = 1; break; } return 0; } /* global work handler */ int l23_app_work(int *_quit) { struct osmocom_ms *ms, *ms2; int work = 0; llist_for_each_entry_safe(ms, ms2, &ms_list, entity) { if (ms->shutdown != 2) work |= mobile_work(ms); if (ms->shutdown == 2) { if (ms->l2_wq.bfd.fd > -1) { layer2_close(ms); ms->l2_wq.bfd.fd = -1; } if (ms->sap_wq.bfd.fd > -1) { sap_close(ms); ms->sap_wq.bfd.fd = -1; } if (ms->deleting) { gsm_settings_exit(ms); llist_del(&ms->entity); talloc_free(ms); work = 1; } } } /* return, if a shutdown was scheduled (quit = 1) */ *_quit = quit; return work; } /* global exit */ int l23_app_exit(void) { unregister_signal_handler(SS_L1CTL, &gsm322_l1_signal, NULL); unregister_signal_handler(SS_L1CTL, &mobile_signal_cb, NULL); unregister_signal_handler(SS_GLOBAL, &global_signal_cb, NULL); osmo_gps_close(); return 0; } static struct vty_app_info vty_info = { .name = "OsmocomBB", .version = PACKAGE_VERSION, .go_parent_cb = ms_vty_go_parent, }; /* global init */ int l23_app_init(int (*mncc_recv)(struct osmocom_ms *ms, int, void *), const char *config_file, uint16_t vty_port) { struct telnet_connection dummy_conn; int rc = 0; mncc_recv_app = mncc_recv; osmo_gps_init(); vty_init(&vty_info); ms_vty_init(); dummy_conn.priv = NULL; vty_reading = 1; if (config_file != NULL) { rc = vty_read_config_file(config_file, &dummy_conn); if (rc < 0) { fprintf(stderr, "Failed to parse the config file:" " '%s'\n", config_file); fprintf(stderr, "Please check or create config file" " using: 'touch %s'\n", config_file); return rc; } } vty_reading = 0; telnet_init(l23_ctx, NULL, vty_port); if (rc < 0) return rc; printf("VTY available on port %u.\n", vty_port); register_signal_handler(SS_GLOBAL, &global_signal_cb, NULL); register_signal_handler(SS_L1CTL, &mobile_signal_cb, NULL); register_signal_handler(SS_L1CTL, &gsm322_l1_signal, NULL); if (llist_empty(&ms_list)) { struct osmocom_ms *ms; printf("No Mobile Station defined, creating: MS '1'\n"); ms = mobile_new("1"); if (ms) mobile_init(ms); } quit = 0; return 0; }