/* SMPP 3.4 interface, SMSC-side implementation */ /* (C) 2012 by Harald Welte * * All Rights Reserved * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Affero General Public License as published by * the Free Software Foundation; either version 3 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 Affero General Public License for more details. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "smpp_smsc.h" #include #include /*! \brief Ugly wrapper. libsmpp34 should do this itself! */ #define SMPP34_UNPACK(rc, type, str, data, len) \ memset(str, 0, sizeof(*str)); \ rc = smpp34_unpack(type, str, data, len) enum emse_bind { ESME_BIND_RX = 0x01, ESME_BIND_TX = 0x02, }; const struct value_string smpp_status_strs[] = { { ESME_ROK, "No Error" }, { ESME_RINVMSGLEN, "Message Length is invalid" }, { ESME_RINVCMDLEN, "Command Length is invalid" }, { ESME_RINVCMDID, "Invalid Command ID" }, { ESME_RINVBNDSTS, "Incorrect BIND Status for given command" }, { ESME_RALYBND, "ESME Already in Bound State" }, { ESME_RINVPRTFLG, "Invalid Priority Flag" }, { ESME_RINVREGDLVFLG, "Invalid Registered Delivery Flag" }, { ESME_RSYSERR, "System Error" }, { ESME_RINVSRCADR, "Invalid Source Address" }, { ESME_RINVDSTADR, "Invalid Destination Address" }, { ESME_RINVMSGID, "Message ID is invalid" }, { ESME_RBINDFAIL, "Bind failed" }, { ESME_RINVPASWD, "Invalid Password" }, { ESME_RINVSYSID, "Invalid System ID" }, { ESME_RCANCELFAIL, "Cancel SM Failed" }, { ESME_RREPLACEFAIL, "Replace SM Failed" }, { ESME_RMSGQFUL, "Message Queue Full" }, { ESME_RINVSERTYP, "Invalid Service Type" }, { ESME_RINVNUMDESTS, "Invalid number of destinations" }, { ESME_RINVDLNAME, "Invalid Distribution List name" }, { ESME_RINVDESTFLAG, "Destination flag is invalid" }, { ESME_RINVSUBREP, "Invalid submit with replace request" }, { ESME_RINVESMCLASS, "Invalid esm_class field data" }, { ESME_RCNTSUBDL, "Cannot Submit to Distribution List" }, { ESME_RSUBMITFAIL, "submit_sm or submit_multi failed" }, { ESME_RINVSRCTON, "Invalid Source address TON" }, { ESME_RINVSRCNPI, "Invalid Sourec address NPI" }, { ESME_RINVDSTTON, "Invalid Destination address TON" }, { ESME_RINVDSTNPI, "Invalid Desetination address NPI" }, { ESME_RINVSYSTYP, "Invalid system_type field" }, { ESME_RINVREPFLAG, "Invalid replace_if_present field" }, { ESME_RINVNUMMSGS, "Invalid number of messages" }, { ESME_RTHROTTLED, "Throttling error (ESME has exceeded message limits)" }, { ESME_RINVSCHED, "Invalid Scheduled Delivery Time" }, { ESME_RINVEXPIRY, "Invalid message validity period (Expiry time)" }, { ESME_RINVDFTMSGID, "Predefined Message Invalid or Not Found" }, { ESME_RX_T_APPN, "ESME Receiver Temporary App Error Code" }, { ESME_RX_P_APPN, "ESME Receiver Permanent App Error Code" }, { ESME_RX_R_APPN, "ESME Receiver Reject Message Error Code" }, { ESME_RQUERYFAIL, "query_sm request failed" }, { ESME_RINVOPTPARSTREAM,"Error in the optional part of the PDU Body" }, { ESME_ROPTPARNOTALLWD, "Optional Parameter not allowed" }, { ESME_RINVPARLEN, "Invalid Parameter Length" }, { ESME_RMISSINGOPTPARAM,"Expected Optional Parameter missing" }, { ESME_RINVOPTPARAMVAL, "Invalid Optional Parameter Value" }, { ESME_RDELIVERYFAILURE,"Delivery Failure (used for data_sm_resp)" }, { ESME_RUNKNOWNERR, "Unknown Error" }, { 0, NULL } }; /*! \brief compare if two SMPP addresses are equal */ int smpp_addr_eq(const struct osmo_smpp_addr *a, const struct osmo_smpp_addr *b) { if (a->ton == b->ton && a->npi == b->npi && !strcmp(a->addr, b->addr)) return 1; return 0; } struct osmo_smpp_acl *smpp_acl_by_system_id(struct smsc *smsc, const char *sys_id) { struct osmo_smpp_acl *acl; llist_for_each_entry(acl, &smsc->acl_list, list) { if (!strcmp(acl->system_id, sys_id)) return acl; } return NULL; } struct osmo_smpp_acl *smpp_acl_alloc(struct smsc *smsc, const char *sys_id) { struct osmo_smpp_acl *acl; if (strlen(sys_id) > SMPP_SYS_ID_LEN) return NULL; if (smpp_acl_by_system_id(smsc, sys_id)) return NULL; acl = talloc_zero(smsc, struct osmo_smpp_acl); if (!acl) return NULL; acl->smsc = smsc; strcpy(acl->system_id, sys_id); INIT_LLIST_HEAD(&acl->route_list); llist_add_tail(&acl->list, &smsc->acl_list); return acl; } void smpp_acl_delete(struct osmo_smpp_acl *acl) { struct osmo_smpp_route *r, *r2; llist_del(&acl->list); /* kill any active ESMEs */ if (acl->esme) { struct osmo_esme *esme = acl->esme; osmo_fd_unregister(&esme->wqueue.bfd); close(esme->wqueue.bfd.fd); esme->wqueue.bfd.fd = -1; esme->acl = NULL; smpp_esme_put(esme); } /* delete all routes for this ACL */ llist_for_each_entry_safe(r, r2, &acl->route_list, list) { llist_del(&r->list); llist_del(&r->global_list); talloc_free(r); } talloc_free(acl); } static struct osmo_smpp_route *route_alloc(struct osmo_smpp_acl *acl) { struct osmo_smpp_route *r; r = talloc_zero(acl, struct osmo_smpp_route); if (!r) return NULL; llist_add_tail(&r->list, &acl->route_list); llist_add_tail(&r->global_list, &acl->smsc->route_list); return r; } int smpp_route_pfx_add(struct osmo_smpp_acl *acl, const struct osmo_smpp_addr *pfx) { struct osmo_smpp_route *r; llist_for_each_entry(r, &acl->route_list, list) { if (r->type == SMPP_ROUTE_PREFIX && smpp_addr_eq(&r->u.prefix, pfx)) return -EEXIST; } r = route_alloc(acl); if (!r) return -ENOMEM; r->type = SMPP_ROUTE_PREFIX; r->acl = acl; memcpy(&r->u.prefix, pfx, sizeof(r->u.prefix)); return 0; } int smpp_route_pfx_del(struct osmo_smpp_acl *acl, const struct osmo_smpp_addr *pfx) { struct osmo_smpp_route *r, *r2; llist_for_each_entry_safe(r, r2, &acl->route_list, list) { if (r->type == SMPP_ROUTE_PREFIX && smpp_addr_eq(&r->u.prefix, pfx)) { llist_del(&r->list); talloc_free(r); return 0; } } return -ENODEV; } /*! \brief increaes the use/reference count */ void smpp_esme_get(struct osmo_esme *esme) { esme->use++; } static void esme_destroy(struct osmo_esme *esme) { osmo_wqueue_clear(&esme->wqueue); if (esme->wqueue.bfd.fd >= 0) { osmo_fd_unregister(&esme->wqueue.bfd); close(esme->wqueue.bfd.fd); } llist_del(&esme->list); talloc_free(esme); } static uint32_t esme_inc_seq_nr(struct osmo_esme *esme) { esme->own_seq_nr++; if (esme->own_seq_nr > 0x7fffffff) esme->own_seq_nr = 1; return esme->own_seq_nr; } /*! \brief decrease the use/reference count, free if it is 0 */ void smpp_esme_put(struct osmo_esme *esme) { esme->use--; if (esme->use <= 0) esme_destroy(esme); } /*! \brief try to find a SMPP route (ESME) for given destination */ struct osmo_esme * smpp_route(const struct smsc *smsc, const struct osmo_smpp_addr *dest) { struct osmo_smpp_route *r; struct osmo_smpp_acl *acl = NULL; DEBUGP(DSMPP, "Looking up route for (%u/%u/%s)\n", dest->ton, dest->npi, dest->addr); /* search for a specific route */ llist_for_each_entry(r, &smsc->route_list, global_list) { switch (r->type) { case SMPP_ROUTE_PREFIX: DEBUGP(DSMPP, "Checking prefix route (%u/%u/%s)->%s\n", r->u.prefix.ton, r->u.prefix.npi, r->u.prefix.addr, r->acl->system_id); if (r->u.prefix.ton == dest->ton && r->u.prefix.npi == dest->npi && !strncmp(r->u.prefix.addr, dest->addr, strlen(r->u.prefix.addr))) { DEBUGP(DSMPP, "Found prefix route ACL\n"); acl = r->acl; } break; default: break; } if (acl) break; } if (!acl) { /* check for default route */ if (smsc->def_route) { DEBUGP(DSMPP, "Using existing default route\n"); acl = smsc->def_route; } } if (acl && acl->esme) { struct osmo_esme *esme; DEBUGP(DSMPP, "ACL even has ESME, we can route to it!\n"); esme = acl->esme; if (esme->bind_flags & ESME_BIND_RX) return esme; else LOGP(DSMPP, LOGL_NOTICE, "[%s] is matching route, " "but not bound for Rx, discarding MO SMS\n", esme->system_id); } return NULL; } /*! \brief initialize the libsmpp34 data structure for a response */ #define INIT_RESP(type, resp, req) { \ memset((resp), 0, sizeof(*(resp))); \ (resp)->command_length = 0; \ (resp)->command_id = type; \ (resp)->command_status = ESME_ROK; \ (resp)->sequence_number = (req)->sequence_number; \ } /*! \brief pack a libsmpp34 data strcutrure and send it to the ESME */ #define PACK_AND_SEND(esme, ptr) pack_and_send(esme, (ptr)->command_id, ptr) static int pack_and_send(struct osmo_esme *esme, uint32_t type, void *ptr) { struct msgb *msg = msgb_alloc(4096, "SMPP_Tx"); int rc, rlen; if (!msg) return -ENOMEM; rc = smpp34_pack(type, msg->tail, msgb_tailroom(msg), &rlen, ptr); if (rc != 0) { LOGP(DSMPP, LOGL_ERROR, "[%s] Error during smpp34_pack(): %s\n", esme->system_id, smpp34_strerror); msgb_free(msg); return -EINVAL; } msgb_put(msg, rlen); if (osmo_wqueue_enqueue(&esme->wqueue, msg) != 0) { LOGP(DSMPP, LOGL_ERROR, "[%s] Write queue full. Dropping message\n", esme->system_id); msgb_free(msg); return -EAGAIN; } return 0; } /*! \brief transmit a generic NACK to a remote ESME */ static int smpp_tx_gen_nack(struct osmo_esme *esme, uint32_t seq, uint32_t status) { struct generic_nack_t nack; char buf[SMALL_BUFF]; nack.command_length = 0; nack.command_id = GENERIC_NACK; nack.sequence_number = seq; nack.command_status = status; LOGP(DSMPP, LOGL_ERROR, "[%s] Tx GENERIC NACK: %s\n", esme->system_id, str_command_status(status, buf)); return PACK_AND_SEND(esme, &nack); } /*! \brief retrieve SMPP command ID from a msgb */ static inline uint32_t smpp_msgb_cmdid(struct msgb *msg) { uint8_t *tmp = msgb_data(msg) + 4; return ntohl(*(uint32_t *)tmp); } /*! \brief retrieve SMPP sequence number from a msgb */ static inline uint32_t smpp_msgb_seq(struct msgb *msg) { uint8_t *tmp = msgb_data(msg); return ntohl(*(uint32_t *)tmp); } /*! \brief handle an incoming SMPP generic NACK */ static int smpp_handle_gen_nack(struct osmo_esme *esme, struct msgb *msg) { struct generic_nack_t nack; char buf[SMALL_BUFF]; int rc; SMPP34_UNPACK(rc, GENERIC_NACK, &nack, msgb_data(msg), msgb_length(msg)); if (rc < 0) { LOGP(DSMPP, LOGL_ERROR, "[%s] Error in smpp34_unpack():%s\n", esme->system_id, smpp34_strerror); return rc; } LOGP(DSMPP, LOGL_ERROR, "[%s] Rx GENERIC NACK: %s\n", esme->system_id, str_command_status(nack.command_status, buf)); return 0; } static int _process_bind(struct osmo_esme *esme, uint8_t if_version, uint32_t bind_flags, const char *sys_id, const char *passwd) { struct osmo_smpp_acl *acl; if (if_version != SMPP_VERSION) return ESME_RSYSERR; if (esme->bind_flags) return ESME_RALYBND; esme->smpp_version = if_version; snprintf(esme->system_id, sizeof(esme->system_id), "%s", sys_id); acl = smpp_acl_by_system_id(esme->smsc, esme->system_id); if (!esme->smsc->accept_all) { if (!acl) { /* This system is unknown */ return ESME_RINVSYSID; } else { if (strlen(acl->passwd) && strcmp(acl->passwd, passwd)) { return ESME_RINVPASWD; } } } if (acl) { esme->acl = acl; acl->esme = esme; } esme->bind_flags = bind_flags; return ESME_ROK; } /*! \brief handle an incoming SMPP BIND RECEIVER */ static int smpp_handle_bind_rx(struct osmo_esme *esme, struct msgb *msg) { struct bind_receiver_t bind; struct bind_receiver_resp_t bind_r; int rc; SMPP34_UNPACK(rc, BIND_RECEIVER, &bind, msgb_data(msg), msgb_length(msg)); if (rc < 0) { LOGP(DSMPP, LOGL_ERROR, "[%s] Error in smpp34_unpack():%s\n", esme->system_id, smpp34_strerror); return rc; } INIT_RESP(BIND_TRANSMITTER_RESP, &bind_r, &bind); LOGP(DSMPP, LOGL_INFO, "[%s] Rx BIND Rx from (Version %02x)\n", bind.system_id, bind.interface_version); rc = _process_bind(esme, bind.interface_version, ESME_BIND_RX, (const char *)bind.system_id, (const char *)bind.password); bind_r.command_status = rc; return PACK_AND_SEND(esme, &bind_r); } /*! \brief handle an incoming SMPP BIND TRANSMITTER */ static int smpp_handle_bind_tx(struct osmo_esme *esme, struct msgb *msg) { struct bind_transmitter_t bind; struct bind_transmitter_resp_t bind_r; struct tlv_t tlv; int rc; SMPP34_UNPACK(rc, BIND_TRANSMITTER, &bind, msgb_data(msg), msgb_length(msg)); if (rc < 0) { LOGP(DSMPP, LOGL_ERROR, "[%s] Error in smpp34_unpack():%s\n", esme->system_id, smpp34_strerror); return rc; } INIT_RESP(BIND_TRANSMITTER_RESP, &bind_r, &bind); LOGP(DSMPP, LOGL_INFO, "[%s] Rx BIND Tx (Version %02x)\n", bind.system_id, bind.interface_version); rc = _process_bind(esme, bind.interface_version, ESME_BIND_TX, (const char *)bind.system_id, (const char *)bind.password); bind_r.command_status = rc; /* build response */ snprintf((char *)bind_r.system_id, sizeof(bind_r.system_id), "%s", esme->smsc->system_id); /* add interface version TLV */ tlv.tag = TLVID_sc_interface_version; tlv.length = sizeof(uint8_t); tlv.value.val16 = esme->smpp_version; build_tlv(&bind_r.tlv, &tlv); return PACK_AND_SEND(esme, &bind_r); } /*! \brief handle an incoming SMPP BIND TRANSCEIVER */ static int smpp_handle_bind_trx(struct osmo_esme *esme, struct msgb *msg) { struct bind_transceiver_t bind; struct bind_transceiver_resp_t bind_r; int rc; SMPP34_UNPACK(rc, BIND_TRANSCEIVER, &bind, msgb_data(msg), msgb_length(msg)); if (rc < 0) { LOGP(DSMPP, LOGL_ERROR, "[%s] Error in smpp34_unpack():%s\n", esme->system_id, smpp34_strerror); return rc; } INIT_RESP(BIND_TRANSCEIVER_RESP, &bind_r, &bind); LOGP(DSMPP, LOGL_INFO, "[%s] Rx BIND Trx (Version %02x)\n", bind.system_id, bind.interface_version); rc = _process_bind(esme, bind.interface_version, ESME_BIND_RX|ESME_BIND_TX, (const char *)bind.system_id, (const char *)bind.password); bind_r.command_status = rc; return PACK_AND_SEND(esme, &bind_r); } /*! \brief handle an incoming SMPP UNBIND */ static int smpp_handle_unbind(struct osmo_esme *esme, struct msgb *msg) { struct unbind_t unbind; struct unbind_resp_t unbind_r; int rc; SMPP34_UNPACK(rc, UNBIND, &unbind, msgb_data(msg), msgb_length(msg)); if (rc < 0) { LOGP(DSMPP, LOGL_ERROR, "[%s] Error in smpp34_unpack():%s\n", esme->system_id, smpp34_strerror); return rc; } INIT_RESP(UNBIND_RESP, &unbind_r, &unbind); LOGP(DSMPP, LOGL_INFO, "[%s] Rx UNBIND\n", esme->system_id); if (esme->bind_flags == 0) { unbind_r.command_status = ESME_RINVBNDSTS; goto err; } esme->bind_flags = 0; err: return PACK_AND_SEND(esme, &unbind_r); } /*! \brief handle an incoming SMPP ENQUIRE LINK */ static int smpp_handle_enq_link(struct osmo_esme *esme, struct msgb *msg) { struct enquire_link_t enq; struct enquire_link_resp_t enq_r; int rc; SMPP34_UNPACK(rc, ENQUIRE_LINK, &enq, msgb_data(msg), msgb_length(msg)); if (rc < 0) { LOGP(DSMPP, LOGL_ERROR, "[%s] Error in smpp34_unpack():%s\n", esme->system_id, smpp34_strerror); return rc; } LOGP(DSMPP, LOGL_DEBUG, "[%s] Rx Enquire Link\n", esme->system_id); INIT_RESP(ENQUIRE_LINK_RESP, &enq_r, &enq); LOGP(DSMPP, LOGL_DEBUG, "[%s] Tx Enquire Link Response\n", esme->system_id); return PACK_AND_SEND(esme, &enq_r); } /*! \brief send a SUBMIT-SM RESPONSE to a remote ESME */ int smpp_tx_submit_r(struct osmo_esme *esme, uint32_t sequence_nr, uint32_t command_status, char *msg_id) { struct submit_sm_resp_t submit_r; memset(&submit_r, 0, sizeof(submit_r)); submit_r.command_length = 0; submit_r.command_id = SUBMIT_SM_RESP; submit_r.command_status = command_status; submit_r.sequence_number= sequence_nr; snprintf((char *) submit_r.message_id, sizeof(submit_r.message_id), "%s", msg_id); return PACK_AND_SEND(esme, &submit_r); } static const struct value_string smpp_avail_strs[] = { { 0, "Available" }, { 1, "Denied" }, { 2, "Unavailable" }, { 0, NULL } }; /*! \brief send an ALERT_NOTIFICATION to a remote ESME */ int smpp_tx_alert(struct osmo_esme *esme, uint8_t ton, uint8_t npi, const char *addr, uint8_t avail_status) { struct alert_notification_t alert; struct tlv_t tlv; memset(&alert, 0, sizeof(alert)); alert.command_length = 0; alert.command_id = ALERT_NOTIFICATION; alert.command_status = ESME_ROK; alert.sequence_number = esme_inc_seq_nr(esme); alert.source_addr_ton = ton; alert.source_addr_npi = npi; snprintf((char *)alert.source_addr, sizeof(alert.source_addr), "%s", addr); tlv.tag = TLVID_ms_availability_status; tlv.length = sizeof(uint8_t); tlv.value.val08 = avail_status; build_tlv(&alert.tlv, &tlv); LOGP(DSMPP, LOGL_DEBUG, "[%s] Tx ALERT_NOTIFICATION (%s/%u/%u): %s\n", esme->system_id, alert.source_addr, alert.source_addr_ton, alert.source_addr_npi, get_value_string(smpp_avail_strs, avail_status)); return PACK_AND_SEND(esme, &alert); } /* \brief send a DELIVER-SM message to given ESME */ int smpp_tx_deliver(struct osmo_esme *esme, struct deliver_sm_t *deliver) { deliver->sequence_number = esme_inc_seq_nr(esme); return PACK_AND_SEND(esme, deliver); } /*! \brief handle an incoming SMPP DELIVER-SM RESPONSE */ static int smpp_handle_deliver_resp(struct osmo_esme *esme, struct msgb *msg) { struct deliver_sm_resp_t deliver_r; int rc; memset(&deliver_r, 0, sizeof(deliver_r)); SMPP34_UNPACK(rc, DELIVER_SM_RESP, &deliver_r, msgb_data(msg), msgb_length(msg)); if (rc < 0) { LOGP(DSMPP, LOGL_ERROR, "[%s] Error in smpp34_unpack():%s\n", esme->system_id, smpp34_strerror); return rc; } LOGP(DSMPP, LOGL_INFO, "[%s] Rx DELIVER-SM RESP (%s)\n", esme->system_id, get_value_string(smpp_status_strs, deliver_r.command_status)); return 0; } /*! \brief handle an incoming SMPP SUBMIT-SM */ static int smpp_handle_submit(struct osmo_esme *esme, struct msgb *msg) { struct submit_sm_t submit; struct submit_sm_resp_t submit_r; int rc; memset(&submit, 0, sizeof(submit)); SMPP34_UNPACK(rc, SUBMIT_SM, &submit, msgb_data(msg), msgb_length(msg)); if (rc < 0) { LOGP(DSMPP, LOGL_ERROR, "[%s] Error in smpp34_unpack():%s\n", esme->system_id, smpp34_strerror); return rc; } INIT_RESP(SUBMIT_SM_RESP, &submit_r, &submit); if (!(esme->bind_flags & ESME_BIND_TX)) { submit_r.command_status = ESME_RINVBNDSTS; return PACK_AND_SEND(esme, &submit_r); } LOGP(DSMPP, LOGL_INFO, "[%s] Rx SUBMIT-SM (%s/%u/%u)\n", esme->system_id, submit.destination_addr, submit.dest_addr_ton, submit.dest_addr_npi); INIT_RESP(SUBMIT_SM_RESP, &submit_r, &submit); rc = handle_smpp_submit(esme, &submit, &submit_r); if (rc == 0) return PACK_AND_SEND(esme, &submit_r); return rc; } /*! \brief one complete SMPP PDU from the ESME has been received */ static int smpp_pdu_rx(struct osmo_esme *esme, struct msgb *msg __uses) { uint32_t cmd_id = smpp_msgb_cmdid(msg); int rc = 0; LOGP(DSMPP, LOGL_DEBUG, "[%s] smpp_pdu_rx(%s)\n", esme->system_id, osmo_hexdump(msgb_data(msg), msgb_length(msg))); switch (cmd_id) { case GENERIC_NACK: rc = smpp_handle_gen_nack(esme, msg); break; case BIND_RECEIVER: rc = smpp_handle_bind_rx(esme, msg); break; case BIND_TRANSMITTER: rc = smpp_handle_bind_tx(esme, msg); break; case BIND_TRANSCEIVER: rc = smpp_handle_bind_trx(esme, msg); break; case UNBIND: rc = smpp_handle_unbind(esme, msg); break; case ENQUIRE_LINK: rc = smpp_handle_enq_link(esme, msg); break; case SUBMIT_SM: rc = smpp_handle_submit(esme, msg); break; case DELIVER_SM_RESP: rc = smpp_handle_deliver_resp(esme, msg); break; case DELIVER_SM: break; case DATA_SM: break; case CANCEL_SM: case QUERY_SM: case REPLACE_SM: case SUBMIT_MULTI: LOGP(DSMPP, LOGL_NOTICE, "[%s] Unimplemented PDU Commmand " "0x%08x\n", esme->system_id, cmd_id); break; default: LOGP(DSMPP, LOGL_ERROR, "[%s] Unknown PDU Command 0x%08x\n", esme->system_id, cmd_id); rc = smpp_tx_gen_nack(esme, smpp_msgb_seq(msg), ESME_RINVCMDID); break; } return rc; } /* This macro should be called after a call to read() in the read_cb of an * osmo_fd to properly check for errors. * rc is the return value of read, err_label is the label to jump to in case of * an error. The code there should handle closing the connection. * FIXME: This code should go in libosmocore utils.h so it can be used by other * projects as well. * */ #define OSMO_FD_CHECK_READ(rc, err_label) \ if (rc < 0) { \ /* EINTR is a non-fatal error, just try again */ \ if (errno == EINTR) \ return 0; \ goto err_label; \ } else if (rc == 0) { \ goto err_label; \ } /* !\brief call-back when per-ESME TCP socket has some data to be read */ static int esme_link_read_cb(struct osmo_fd *ofd) { struct osmo_esme *esme = ofd->data; uint32_t len; uint8_t *lenptr = (uint8_t *) &len; uint8_t *cur; struct msgb *msg; ssize_t rdlen, rc; switch (esme->read_state) { case READ_ST_IN_LEN: rdlen = sizeof(uint32_t) - esme->read_idx; rc = read(ofd->fd, lenptr + esme->read_idx, rdlen); if (rc < 0) LOGP(DSMPP, LOGL_ERROR, "[%s] read returned %zd (%s)\n", esme->system_id, rc, strerror(errno)); OSMO_FD_CHECK_READ(rc, dead_socket); esme->read_idx += rc; if (esme->read_idx >= sizeof(uint32_t)) { esme->read_len = ntohl(len); if (esme->read_len < 8 || esme->read_len > UINT16_MAX) { LOGP(DSMPP, LOGL_ERROR, "[%s] length invalid %u\n", esme->system_id, esme->read_len); goto dead_socket; } msg = msgb_alloc(esme->read_len, "SMPP Rx"); if (!msg) return -ENOMEM; esme->read_msg = msg; cur = msgb_put(msg, sizeof(uint32_t)); memcpy(cur, lenptr, sizeof(uint32_t)); esme->read_state = READ_ST_IN_MSG; esme->read_idx = sizeof(uint32_t); } break; case READ_ST_IN_MSG: msg = esme->read_msg; rdlen = esme->read_len - esme->read_idx; rc = read(ofd->fd, msg->tail, OSMO_MIN(rdlen, msgb_tailroom(msg))); if (rc < 0) LOGP(DSMPP, LOGL_ERROR, "[%s] read returned %zd (%s)\n", esme->system_id, rc, strerror(errno)); OSMO_FD_CHECK_READ(rc, dead_socket); esme->read_idx += rc; msgb_put(msg, rc); if (esme->read_idx >= esme->read_len) { rc = smpp_pdu_rx(esme, esme->read_msg); msgb_free(esme->read_msg); esme->read_msg = NULL; esme->read_idx = 0; esme->read_len = 0; esme->read_state = READ_ST_IN_LEN; } break; } return 0; dead_socket: msgb_free(esme->read_msg); osmo_fd_unregister(&esme->wqueue.bfd); close(esme->wqueue.bfd.fd); esme->wqueue.bfd.fd = -1; smpp_esme_put(esme); return 0; } /* call-back of write queue once it wishes to write a message to the socket */ static int esme_link_write_cb(struct osmo_fd *ofd, struct msgb *msg) { struct osmo_esme *esme = ofd->data; int rc; rc = write(ofd->fd, msgb_data(msg), msgb_length(msg)); if (rc == 0) { osmo_fd_unregister(&esme->wqueue.bfd); close(esme->wqueue.bfd.fd); esme->wqueue.bfd.fd = -1; smpp_esme_put(esme); } else if (rc < msgb_length(msg)) { LOGP(DSMPP, LOGL_ERROR, "[%s] Short write\n", esme->system_id); return -1; } return 0; } /* callback for already-accepted new TCP socket */ static int link_accept_cb(struct smsc *smsc, int fd, struct sockaddr_storage *s, socklen_t s_len) { struct osmo_esme *esme = talloc_zero(smsc, struct osmo_esme); if (!esme) { close(fd); return -ENOMEM; } smpp_esme_get(esme); esme->own_seq_nr = rand(); esme_inc_seq_nr(esme); esme->smsc = smsc; osmo_wqueue_init(&esme->wqueue, 10); esme->wqueue.bfd.fd = fd; esme->wqueue.bfd.data = esme; esme->wqueue.bfd.when = BSC_FD_READ; if (osmo_fd_register(&esme->wqueue.bfd) != 0) { close(fd); talloc_free(esme); return -EIO; } esme->wqueue.read_cb = esme_link_read_cb; esme->wqueue.write_cb = esme_link_write_cb; esme->sa_len = OSMO_MIN(sizeof(esme->sa), s_len); memcpy(&esme->sa, s, esme->sa_len); llist_add_tail(&esme->list, &smsc->esme_list); return 0; } /* callback of listening TCP socket */ static int smsc_fd_cb(struct osmo_fd *ofd, unsigned int what) { int rc; struct sockaddr_storage sa; socklen_t sa_len = sizeof(sa); rc = accept(ofd->fd, (struct sockaddr *)&sa, &sa_len); if (rc < 0) { LOGP(DSMPP, LOGL_ERROR, "Accept returns %d (%s)\n", rc, strerror(errno)); return rc; } return link_accept_cb(ofd->data, rc, &sa, sa_len); } /*! \brief Initialize the SMSC-side SMPP implementation */ int smpp_smsc_init(struct smsc *smsc, uint16_t port) { int rc; /* default port for SMPP */ if (port == 0) port = 2775; /* This will not work if we were to actually ever use FD 0 * (stdin) for this ... */ if (smsc->listen_ofd.fd <= 0) { INIT_LLIST_HEAD(&smsc->esme_list); INIT_LLIST_HEAD(&smsc->acl_list); INIT_LLIST_HEAD(&smsc->route_list); smsc->listen_ofd.data = smsc; smsc->listen_ofd.cb = smsc_fd_cb; } else { close(smsc->listen_ofd.fd); osmo_fd_unregister(&smsc->listen_ofd); } rc = osmo_sock_init_ofd(&smsc->listen_ofd, AF_UNSPEC, SOCK_STREAM, IPPROTO_TCP, NULL, port, OSMO_SOCK_F_BIND); /* if there is an error, try to re-bind to the old port */ if (rc < 0) { rc = osmo_sock_init_ofd(&smsc->listen_ofd, AF_UNSPEC, SOCK_STREAM, IPPROTO_TCP, NULL, smsc->listen_port, OSMO_SOCK_F_BIND); } else smsc->listen_port = port; return rc; }