/* OpenBSC SMPP 3.4 interface, SMSC-side implementation */ /* (C) 2012 by Harald Welte * * 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "smpp_smsc.h" /*! \brief find gsm_subscriber for a given SMPP NPI/TON/Address */ static struct gsm_subscriber *subscr_by_dst(struct gsm_network *net, uint8_t npi, uint8_t ton, const char *addr) { struct gsm_subscriber *subscr = NULL; switch (npi) { case NPI_Land_Mobile_E212: subscr = subscr_get_by_imsi(net, addr); break; case NPI_ISDN_E163_E164: case NPI_Private: subscr = subscr_get_by_extension(net, addr); break; default: LOGP(DSMPP, LOGL_NOTICE, "Unsupported NPI: %u\n", npi); break; } return subscr; } /*! \brief find a TLV with given tag in list of libsmpp34 TLVs */ static struct tlv_t *find_tlv(struct tlv_t *head, uint16_t tag) { struct tlv_t *t; for (t = head; t != NULL; t = t->next) { if (t->tag == tag) return t; } return NULL; } /*! \brief convert from submit_sm_t to gsm_sms */ static int submit_to_sms(struct gsm_sms **psms, struct gsm_network *net, const struct submit_sm_t *submit) { struct gsm_subscriber *dest; struct gsm_sms *sms; struct tlv_t *t; const uint8_t *sms_msg; unsigned int sms_msg_len; dest = subscr_by_dst(net, submit->dest_addr_npi, submit->dest_addr_ton, (const char *)submit->destination_addr); if (!dest) { LOGP(DLSMS, LOGL_NOTICE, "SMPP SUBMIT-SM for unknown subscriber: " "%s (NPI=%u)\n", submit->destination_addr, submit->dest_addr_npi); return ESME_RINVDSTADR; } t = find_tlv(submit->tlv, TLVID_message_payload); if (t) { if (submit->sm_length) { /* ERROR: we cannot have botH! */ LOGP(DLSMS, LOGL_ERROR, "SMPP Cannot have payload in " "TLV _and_ in the header\n"); return ESME_ROPTPARNOTALLWD; } sms_msg = t->value.octet; sms_msg_len = t->length; } else if (submit->short_message && submit->sm_length) { sms_msg = submit->short_message; sms_msg_len = submit->sm_length; } else { sms_msg = NULL; sms_msg_len = 0; } sms = sms_alloc(); sms->source = SMS_SOURCE_SMPP; sms->smpp.sequence_nr = submit->sequence_number; /* fill in the destination address */ sms->receiver = dest; sms->dst.ton = submit->dest_addr_ton; sms->dst.npi = submit->dest_addr_npi; strncpy(sms->dst.addr, dest->extension, sizeof(sms->dst.addr)-1); /* fill in the source address */ sms->sender = subscr_get_by_id(net, 1); sms->src.ton = submit->source_addr_ton; sms->src.npi = submit->source_addr_npi; strncpy(sms->src.addr, (char *)submit->source_addr, sizeof(sms->src.addr)-1); if (submit->esm_class & 0x40) sms->ud_hdr_ind = 1; if (submit->esm_class & 0x80) { sms->reply_path_req = 1; #warning Implement reply path } if (submit->data_coding == 0x00 || /* SMSC default */ submit->data_coding == 0x01 || /* GSM default alphabet */ (submit->data_coding & 0xFC) == 0xF0) { /* 03.38 DCS default */ uint8_t ud_len = 0, padbits = 0; sms->data_coding_scheme = GSM338_DCS_1111_7BIT; if (sms->ud_hdr_ind) { ud_len = *sms_msg + 1; printf("copying %u bytes user data...\n", ud_len); memcpy(sms->user_data, sms_msg, OSMO_MIN(ud_len, sizeof(sms->user_data))); sms_msg += ud_len; sms_msg_len -= ud_len; padbits = 7 - (ud_len % 7); } gsm_septets2octets(sms->user_data+ud_len, sms_msg, sms_msg_len, padbits); sms->user_data_len = (ud_len*8 + padbits)/7 + sms_msg_len;/* SEPTETS */ /* FIXME: sms->text */ } else if (submit->data_coding == 0x02 || submit->data_coding == 0x04 || (submit->data_coding & 0xFC) == 0xF4) { /* 03.38 DCS 8bit */ /* 8-bit binary */ sms->data_coding_scheme = GSM338_DCS_1111_8BIT_DATA; memcpy(sms->user_data, sms_msg, sms_msg_len); sms->user_data_len = sms_msg_len; } else if (submit->data_coding == 0x80) { /* UCS-2 */ sms->data_coding_scheme = (2 << 2); memcpy(sms->user_data, sms_msg, submit->sm_length); sms->user_data_len = sms_msg_len; } else { sms_free(sms); LOGP(DLSMS, LOGL_ERROR, "SMPP Unknown Data Coding 0x%02x\n", submit->data_coding); return ESME_RUNKNOWNERR; } *psms = sms; return ESME_ROK; } /*! \brief handle incoming libsmpp34 ssubmit_sm_t from remote ESME */ int handle_smpp_submit(struct osmo_esme *esme, struct submit_sm_t *submit, struct submit_sm_resp_t *submit_r) { struct gsm_sms *sms; struct gsm_network *net = esme->smsc->priv; struct sms_signal_data sig; int rc = -1; rc = submit_to_sms(&sms, net, submit); if (rc != ESME_ROK) { submit_r->command_status = rc; return 0; } smpp_esme_get(esme); sms->smpp.esme = esme; sms->protocol_id = submit->protocol_id; switch (submit->esm_class & 3) { case 0: /* default */ case 1: /* datagram */ case 3: /* store-and-forward */ rc = db_sms_store(sms); sms_free(sms); sms = NULL; if (rc < 0) { LOGP(DLSMS, LOGL_ERROR, "SMPP SUBMIT-SM: Unable to " "store SMS in database\n"); submit_r->command_status = ESME_RSYSERR; return 0; } strcpy((char *)submit_r->message_id, "msg_id_not_implemented"); LOGP(DLSMS, LOGL_INFO, "SMPP SUBMIT-SM: Stored in DB\n"); memset(&sig, 0, sizeof(sig)); osmo_signal_dispatch(SS_SMS, S_SMS_SUBMITTED, &sig); rc = 0; break; case 2: /* forward (i.e. transaction) mode */ LOGP(DLSMS, LOGL_DEBUG, "SMPP SUBMIT-SM: Forwarding in " "real time (Transaction/Forward mode)\n"); sms->smpp.transaction_mode = 1; gsm411_send_sms_subscr(sms->receiver, sms); rc = 1; /* don't send any response yet */ break; } return rc; } /*! \brief signal handler for status of attempted SMS deliveries */ static int smpp_sms_cb(unsigned int subsys, unsigned int signal, void *handler_data, void *signal_data) { struct sms_signal_data *sig_sms = signal_data; struct gsm_sms *sms = sig_sms->sms; int rc = 0; if (!sms) return 0; if (sms->source != SMS_SOURCE_SMPP) return 0; switch (signal) { case S_SMS_UNKNOWN_ERROR: if (sms->smpp.transaction_mode) { /* Send back the SUBMIT-SM response with apropriate error */ LOGP(DLSMS, LOGL_INFO, "SMPP SUBMIT-SM: Error\n"); rc = smpp_tx_submit_r(sms->smpp.esme, sms->smpp.sequence_nr, ESME_RDELIVERYFAILURE, sms->smpp.msg_id); } break; case S_SMS_DELIVERED: /* SMS layer tells us the delivery has been completed */ if (sms->smpp.transaction_mode) { /* Send back the SUBMIT-SM response */ LOGP(DLSMS, LOGL_INFO, "SMPP SUBMIT-SM: Success\n"); rc = smpp_tx_submit_r(sms->smpp.esme, sms->smpp.sequence_nr, ESME_ROK, sms->smpp.msg_id); } break; } return rc; } /*! \brief signal handler for subscriber related signals */ static int smpp_subscr_cb(unsigned int subsys, unsigned int signal, void *handler_data, void *signal_data) { struct gsm_subscriber *subscr = signal_data; struct smsc *smsc = handler_data; struct osmo_esme *esme; uint8_t smpp_avail_status; /* determine the smpp_avail_status depending on attach/detach */ switch (signal) { case S_SUBSCR_ATTACHED: smpp_avail_status = 0; break; case S_SUBSCR_DETACHED: smpp_avail_status = 2; break; default: return 0; } llist_for_each_entry(esme, &smsc->esme_list, list) { /* we currently send an alert notification to each ESME that is * connected, and do not require a (non-existant) delivery * pending flag to be set before, FIXME: make this VTY * configurable */ smpp_tx_alert(esme, TON_Subscriber_Number, NPI_Land_Mobile_E212, subscr->imsi, smpp_avail_status); } return 0; } /* GSM 03.38 6.2.1 Character expanding (no decode!) */ static int gsm_7bit_expand(char *text, const uint8_t *user_data, uint8_t septet_l, uint8_t ud_hdr_ind) { int i = 0; int shift = 0; uint8_t c; /* skip the user data header */ if (ud_hdr_ind) { /* get user data header length + 1 (for the 'user data header length'-field) */ shift = ((user_data[0] + 1) * 8) / 7; if ((((user_data[0] + 1) * 8) % 7) != 0) shift++; septet_l = septet_l - shift; } for (i = 0; i < septet_l; i++) { c = ((user_data[((i + shift) * 7 + 7) >> 3] << (7 - (((i + shift) * 7 + 7) & 7))) | (user_data[((i + shift) * 7) >> 3] >> (((i + shift) * 7) & 7))) & 0x7f; *(text++) = c; } *text = '\0'; return i; } static int deliver_to_esme(struct osmo_esme *esme, struct gsm_sms *sms) { struct deliver_sm_t deliver; uint8_t dcs; memset(&deliver, 0, sizeof(deliver)); deliver.command_length = 0; deliver.command_id = DELIVER_SM; deliver.command_status = ESME_ROK; strcpy((char *)deliver.service_type, "CMT"); if (esme->acl && esme->acl->deliver_src_imsi) { deliver.source_addr_ton = TON_Subscriber_Number; deliver.source_addr_npi = NPI_Land_Mobile_E212; snprintf((char *)deliver.source_addr, sizeof(deliver.source_addr), "%s", sms->sender->imsi); } else { deliver.source_addr_ton = TON_Network_Specific; deliver.source_addr_npi = NPI_ISDN_E163_E164; snprintf((char *)deliver.source_addr, sizeof(deliver.source_addr), "%s", sms->sender->extension); } deliver.dest_addr_ton = sms->dst.ton; deliver.dest_addr_npi = sms->dst.npi; memcpy(deliver.destination_addr, sms->dst.addr, sizeof(deliver.destination_addr)); deliver.esm_class = 1; /* datagram mode */ if (sms->ud_hdr_ind) deliver.esm_class |= 0x40; if (sms->reply_path_req) deliver.esm_class |= 0x80; deliver.protocol_id = sms->protocol_id; deliver.priority_flag = 0; deliver.registered_delivery = 0; dcs = sms->data_coding_scheme; if (dcs == GSM338_DCS_1111_7BIT || ((dcs & 0xE0000000) == 0 && (dcs & 0xC) == 0)) { uint8_t *dst = deliver.short_message; /* SMPP has this strange notion of putting 7bit SMS in * an octet-aligned mode */ deliver.data_coding = 0x01; if (sms->ud_hdr_ind) { /* length (bytes) of UDH inside UD */ uint8_t udh_len = sms->user_data[0] + 1; /* copy over the UDH */ memcpy(dst, sms->user_data, udh_len); dst += udh_len; deliver.sm_length = udh_len; } /* add decoded text */ deliver.sm_length += gsm_7bit_expand((char *)dst, sms->user_data, sms->user_data_len, sms->ud_hdr_ind); } else if (dcs == GSM338_DCS_1111_8BIT_DATA || ((dcs & 0xE0000000) == 0 && (dcs & 0xC) == 4)) { deliver.data_coding = 0x02; deliver.sm_length = sms->user_data_len; memcpy(deliver.short_message, sms->user_data, deliver.sm_length); } else if ((dcs & 0xE0000000) == 0 && (dcs & 0xC) == 8) { deliver.data_coding = 0x08; /* UCS-2 */ deliver.sm_length = sms->user_data_len; memcpy(deliver.short_message, sms->user_data, deliver.sm_length); } return smpp_tx_deliver(esme, &deliver); } static struct smsc *g_smsc; int smpp_try_deliver(struct gsm_sms *sms) { struct osmo_esme *esme; struct osmo_smpp_addr dst; memset(&dst, 0, sizeof(dst)); dst.ton = sms->dst.ton; dst.npi = sms->dst.npi; memcpy(dst.addr, sms->dst.addr, sizeof(dst.addr)); esme = smpp_route(g_smsc, &dst); if (!esme) return 1; /* unknown subscriber */ return deliver_to_esme(esme, sms); } struct smsc *smsc_from_vty(struct vty *v) { /* FIXME: this is ugly */ return g_smsc; } /*! \brief Initialize the OpenBSC SMPP interface */ int smpp_openbsc_init(void *ctx, uint16_t port) { struct smsc *smsc = talloc_zero(ctx, struct smsc); int rc; rc = smpp_smsc_init(smsc, port); if (rc < 0) talloc_free(smsc); osmo_signal_register_handler(SS_SMS, smpp_sms_cb, smsc); osmo_signal_register_handler(SS_SUBSCR, smpp_subscr_cb, smsc); g_smsc = smsc; smpp_vty_init(); return rc; } void smpp_openbsc_set_net(struct gsm_network *net) { g_smsc->priv = net; }