#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* FIXME: merge with smpp_smsc.c */ #define SMPP_SYS_ID_LEN 16 enum esme_read_state { READ_ST_IN_LEN = 0, READ_ST_IN_MSG = 1, }; /* FIXME: merge with smpp_smsc.c */ struct esme { struct osmo_fd ofd; uint32_t own_seq_nr; struct osmo_wqueue wqueue; enum esme_read_state read_state; uint32_t read_len; uint32_t read_idx; struct msgb *read_msg; uint8_t smpp_version; char system_id[SMPP_SYS_ID_LEN+1]; char password[SMPP_SYS_ID_LEN+1]; }; /* FIXME: merge with smpp_smsc.c */ #define SMPP34_UNPACK(rc, type, str, data, len) \ memset(str, 0, sizeof(*str)); \ rc = smpp34_unpack(type, str, data, len) #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; \ } #define PACK_AND_SEND(esme, ptr) pack_and_send(esme, (ptr)->command_id, ptr) static inline uint32_t smpp_msgb_cmdid(struct msgb *msg) { uint8_t *tmp = msgb_data(msg) + 4; return ntohl(*(uint32_t *)tmp); } static uint32_t esme_inc_seq_nr(struct esme *esme) { esme->own_seq_nr++; if (esme->own_seq_nr > 0x7fffffff) esme->own_seq_nr = 1; return esme->own_seq_nr; } static int pack_and_send(struct 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); return osmo_wqueue_enqueue(&esme->wqueue, msg); } /* FIXME: merge with smpp_smsc.c */ static int smpp_handle_deliver(struct esme *esme, struct msgb *msg) { struct deliver_sm_t deliver; struct deliver_sm_resp_t deliver_r; struct submit_sm_t submit; int rc; memset(&deliver, 0, sizeof(deliver)); SMPP34_UNPACK(rc, DELIVER_SM, &deliver, msgb_data(msg), msgb_length(msg)); if (rc < 0) return rc; INIT_RESP(DELIVER_SM_RESP, &deliver_r, &deliver); PACK_AND_SEND(esme, &deliver_r); memset(&submit, 0, sizeof(submit)); submit.command_id = SUBMIT_SM; submit.command_status = ESME_ROK; submit.sequence_number = esme_inc_seq_nr(esme); submit.dest_addr_ton = deliver.source_addr_ton; submit.dest_addr_npi = deliver.source_addr_npi; memcpy(submit.destination_addr, deliver.source_addr, OSMO_MIN(sizeof(submit.destination_addr), sizeof(deliver.source_addr))); submit.source_addr_ton = deliver.dest_addr_ton; submit.source_addr_npi = deliver.dest_addr_npi; memcpy(submit.source_addr, deliver.destination_addr, OSMO_MIN(sizeof(submit.source_addr), sizeof(deliver.destination_addr))); submit.esm_class = deliver.esm_class; submit.protocol_id = deliver.protocol_id; submit.priority_flag = deliver.priority_flag; memcpy(submit.schedule_delivery_time, deliver.schedule_delivery_time, OSMO_MIN(sizeof(submit.schedule_delivery_time), sizeof(deliver.schedule_delivery_time))); memcpy(submit.validity_period, deliver.validity_period, OSMO_MIN(sizeof(submit.validity_period), sizeof(deliver.validity_period))); submit.registered_delivery = deliver.registered_delivery; submit.replace_if_present_flag = deliver.replace_if_present_flag; submit.data_coding = deliver.data_coding; submit.sm_default_msg_id = deliver.sm_default_msg_id; submit.sm_length = deliver.sm_length; memcpy(submit.short_message, deliver.short_message, OSMO_MIN(sizeof(submit.short_message), sizeof(deliver.short_message))); /* FIXME: TLV? */ return PACK_AND_SEND(esme, &submit); } static int bind_transceiver(struct esme *esme) { struct bind_transceiver_t bind; memset(&bind, 0, sizeof(bind)); bind.command_id = BIND_TRANSCEIVER; bind.sequence_number = esme_inc_seq_nr(esme); snprintf((char *)bind.system_id, sizeof(bind.system_id), "%s", esme->system_id); snprintf((char *)bind.password, sizeof(bind.password), "%s", esme->password); snprintf((char *)bind.system_type, sizeof(bind.system_type), "mirror"); bind.interface_version = esme->smpp_version; return PACK_AND_SEND(esme, &bind); } static int smpp_pdu_rx(struct esme *esme, struct msgb *msg) { uint32_t cmd_id = smpp_msgb_cmdid(msg); int rc; switch (cmd_id) { case DELIVER_SM: rc = smpp_handle_deliver(esme, msg); break; default: LOGP(DSMPP, LOGL_NOTICE, "unhandled case %d\n", cmd_id); rc = 0; break; } return rc; } /* FIXME: merge with smpp_smsc.c */ static int esme_read_cb(struct osmo_fd *ofd) { struct esme *esme = ofd->data; uint32_t len; uint8_t *lenptr = (uint8_t *) &len; uint8_t *cur; struct msgb *msg; int rdlen; int 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 %d\n", esme->system_id, rc); } else if (rc == 0) { goto dead_socket; } else esme->read_idx += rc; if (esme->read_idx >= sizeof(uint32_t)) { esme->read_len = ntohl(len); 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 %d\n", esme->system_id, rc); } else if (rc == 0) { goto dead_socket; } else { esme->read_idx += rc; msgb_put(msg, rc); } if (esme->read_idx >= esme->read_len) { rc = smpp_pdu_rx(esme, 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; exit(2342); return 0; } static int esme_write_cb(struct osmo_fd *ofd, struct msgb *msg) { struct 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; exit(99); } else if (rc < msgb_length(msg)) { LOGP(DSMPP, LOGL_ERROR, "[%s] Short write\n", esme->system_id); return 0; } return 0; } static int smpp_esme_init(struct esme *esme, const char *host, uint16_t port) { int rc; if (port == 0) port = 2775; esme->own_seq_nr = rand(); esme_inc_seq_nr(esme); osmo_wqueue_init(&esme->wqueue, 10); esme->wqueue.bfd.data = esme; esme->wqueue.read_cb = esme_read_cb; esme->wqueue.write_cb = esme_write_cb; rc = osmo_sock_init_ofd(&esme->wqueue.bfd, AF_UNSPEC, SOCK_STREAM, IPPROTO_TCP, host, port, OSMO_SOCK_F_CONNECT); if (rc < 0) return rc; return bind_transceiver(esme); } int main(int argc, char **argv) { struct esme esme; char *host = "localhost"; int port = 0; int rc; memset(&esme, 0, sizeof(esme)); osmo_init_logging(&log_info); snprintf((char *) esme.system_id, sizeof(esme.system_id), "mirror"); snprintf((char *) esme.password, sizeof(esme.password), "mirror"); esme.smpp_version = 0x34; if (argc >= 2) host = argv[1]; if (argc >= 3) port = atoi(argv[2]); rc = smpp_esme_init(&esme, host, port); if (rc < 0) exit(1); while (1) { osmo_select_main(0); } exit(0); }