#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "bankd.h" __thread void *talloc_asn1_ctx; static void *worker_main(void *arg); /*********************************************************************** * bankd core / main thread ***********************************************************************/ static void bankd_init(struct bankd *bankd) { /* intialize members of 'bankd' */ INIT_LLIST_HEAD(&bankd->slot_mappings); pthread_rwlock_init(&bankd->slot_mappings_rwlock, NULL); INIT_LLIST_HEAD(&bankd->workers); pthread_mutex_init(&bankd->workers_mutex, NULL); } /* create + start a new bankd_worker thread */ static struct bankd_worker *bankd_create_worker(struct bankd *bankd, unsigned int i) { struct bankd_worker *worker; int rc; worker = talloc_zero(bankd, struct bankd_worker); if (!worker) return NULL; worker->bankd = bankd; worker->num = i; /* in the initial state, the worker has no client.fd, bank_slot or pcsc handle yet */ rc = pthread_create(&worker->thread, NULL, worker_main, worker); if (rc != 0) { talloc_free(worker); return NULL; } pthread_mutex_lock(&bankd->workers_mutex); llist_add_tail(&worker->list, &bankd->workers); pthread_mutex_unlock(&bankd->workers_mutex); return worker; } static bool terminate = false; int main(int argc, char **argv) { struct bankd *bankd = talloc_zero(NULL, struct bankd); int i, rc; OSMO_ASSERT(bankd); bankd_init(bankd); /* create listening socket */ rc = osmo_sock_init(AF_INET, SOCK_STREAM, IPPROTO_TCP, NULL, 9999, OSMO_SOCK_F_BIND); if (rc < 0) exit(1); bankd->accept_fd = rc; /* create worker threads. FIXME: one per reader/slot! */ for (i = 0; i < 10; i++) { struct bankd_worker *w; w = bankd_create_worker(bankd, i); if (!w) exit(21); } while (1) { if (terminate) break; sleep(1); } talloc_free(bankd); exit(0); } /*********************************************************************** * bankd worker thread ***********************************************************************/ #define PCSC_ERROR(rv, text) \ if (rv != SCARD_S_SUCCESS) { \ fprintf(stderr, text ": %s (0x%lX)\n", pcsc_stringify_error(rv), rv); \ goto end; \ } else { \ printf(text ": OK\n\n"); \ } #define LOGW(w, fmt, args...) \ printf("[%u] " fmt, (w)->num, args) struct value_string worker_state_names[] = { { BW_ST_INIT, "INIT" }, { BW_ST_ACCEPTING, "ACCEPTING" }, { BW_ST_CONN_WAIT_ID, "CONN_WAIT_ID" }, { BW_ST_CONN_CLIENT, "CONN_CLIENT" }, { BW_ST_CONN_CLIENT_MAPPED, "CONN_CLIENT_MAPPED" }, { BW_ST_CONN_CLIENT_MAPPED_CARD,"CONN_CLIENT_MAPPED_CARD" }, { 0, NULL } }; static void worker_set_state(struct bankd_worker *worker, enum bankd_worker_state new_state) { LOGW(worker, "Changing state to %s\n", get_value_string(worker_state_names, new_state)); worker->state = new_state; } static void worker_cleanup(void *arg) { struct bankd_worker *worker = (struct bankd_worker *) arg; struct bankd *bankd = worker->bankd; /* FIXME: should we still do this? in the thread ?!? */ pthread_mutex_lock(&bankd->workers_mutex); llist_del(&worker->list); talloc_free(worker); /* FIXME: is this safe? */ pthread_mutex_unlock(&bankd->workers_mutex); } #if 0 /* function running inside a worker thread; doing some initialization */ static void worker_init(struct bankd_worker *worker) { int rc; /* push cleanup helper */ pthread_cleanup_push(&worker_cleanup, worker); /* The PC/SC context must be created inside the thread where we'll later use it */ rc = SCardEstablishContext(SCARD_SCOPE_SYSTEM, NULL, NULL, &worker->reader.pcsc.hContext); PCSC_ERROR(rc, "SCardEstablishContext") rc = SCardConnect(worker->reader.pcsc.hContext, worker->reader.name, SCARD_SHARE_SHARED, SCARD_PROTOCOL_T0, &worker->reader.pcsc.hCard, NULL); PCSC_ERROR(rc, "SCardConnect") return; end: pthread_exit(NULL); } #endif static int blocking_ipa_read(int fd, uint8_t *buf, unsigned int buf_size) { struct ipaccess_head *hh; uint16_t len; int needed, rc; if (buf_size < sizeof(*hh)) return -1; hh = (struct ipaccess_head *) buf; /* 1) blocking read from the socket (IPA header) */ rc = read(fd, buf, sizeof(*hh)); if (rc < sizeof(*hh)) return -2; len = ntohs(hh->len); needed = len; //- sizeof(*hh); /* 2) blocking read from the socket (payload) */ rc = read(fd, buf+sizeof(*hh), needed); if (rc < needed) return -3; return len; } static int worker_handle_connectClientReq(struct bankd_worker *worker, const RsproPDU_t *pdu) { OSMO_ASSERT(pdu->msg.present == RsproPDUchoice_PR_connectClientReq); const struct ComponentIdentity *cid = &pdu->msg.choice.connectClientReq.identity; LOGW(worker, "connectClientReq(T=%lu, N='%s', SW='%s', VER='%s')\n", cid->type, cid->name.buf, cid->software.buf, cid->swVersion.buf); /* FIXME: store somewhere? */ if (worker->state != BW_ST_CONN_WAIT_ID) { LOGW(worker, "Unexpected connectClientReq\n"); return -102; } if (!pdu->msg.choice.connectClientReq.clientId) { LOGW(worker, "missing clientID, aborting\n"); return -103; } worker->client.id = *pdu->msg.choice.connectClientReq.clientId; worker_set_state(worker, BW_ST_CONN_CLIENT); /* FIXME: resolve mapping */ return 0; } /* handle one incoming RSPRO message from a client inside a worker thread */ static int worker_handle_rspro(struct bankd_worker *worker, const RsproPDU_t *pdu) { int rc = -100; switch (pdu->msg.present) { case RsproPDUchoice_PR_connectClientReq: rc = worker_handle_connectClientReq(worker, pdu); break; case RsproPDUchoice_PR_tpduModemToCard: /* FIXME */ break; case RsproPDUchoice_PR_clientSlotStatusInd: /* FIXME */ break; default: rc = -101; break; } return rc; } /* body of the main transceive loop */ static int worker_transceive_loop(struct bankd_worker *worker) { struct ipaccess_head *hh; struct ipaccess_head_ext *hh_ext; uint8_t buf[65536]; /* maximum length expressed in 16bit length field */ asn_dec_rval_t rval; int data_len, rc; RsproPDU_t *pdu; /* 1) blocking read of entire IPA message from the socket */ rc = blocking_ipa_read(worker->client.fd, buf, sizeof(buf)); if (rc < 0) return rc; data_len = rc; hh = (struct ipaccess_head *) buf; if (hh->proto != IPAC_PROTO_OSMO) return -4; hh_ext = (struct ipaccess_head_ext *) buf + sizeof(*hh); if (data_len < sizeof(*hh_ext)) return -5; data_len -= sizeof(*hh_ext); if (hh_ext->proto != IPAC_PROTO_EXT_RSPRO) return -6; /* 2) ASN1 BER decode of the message */ rval = ber_decode(NULL, &asn_DEF_RsproPDU, (void **) &pdu, hh_ext->data, data_len); if (rval.code != RC_OK) return -7; /* 3) handling of the message, possibly resulting in PCSC commands */ rc = worker_handle_rspro(worker, pdu); ASN_STRUCT_FREE(asn_DEF_RsproPDU, pdu); if (rc < 0) return rc; /* everything OK if we reach here */ return 0; } /* worker thread main function */ static void *worker_main(void *arg) { struct bankd_worker *worker = (struct bankd_worker *) arg; void *top_ctx; int rc; worker_set_state(worker, BW_ST_INIT); /* not permitted in multithreaded environment */ talloc_disable_null_tracking(); top_ctx = talloc_named_const(NULL, 0, "top"); talloc_asn1_ctx = talloc_named_const(top_ctx, 0, "asn1"); /* push cleanup helper */ pthread_cleanup_push(&worker_cleanup, worker); /* we continuously perform the same loop here, recycling the worker thread * once the client connection is gone or we have some trouble with the card/reader */ while (1) { worker->client.peer_addr_len = sizeof(worker->client.peer_addr); worker_set_state(worker, BW_ST_ACCEPTING); /* first wait for an incoming TCP connection */ rc = accept(worker->bankd->accept_fd, (struct sockaddr *) &worker->client.peer_addr, &worker->client.peer_addr_len); if (rc < 0) { continue; } worker->client.fd = rc; worker_set_state(worker, BW_ST_CONN_WAIT_ID); /* run the main worker transceive loop body until there was some error */ while (1) { rc = worker_transceive_loop(worker); if (rc < 0) break; } /* clean-up: reset to sane state */ if (worker->reader.pcsc.hCard) { SCardDisconnect(worker->reader.pcsc.hCard, SCARD_UNPOWER_CARD); worker->reader.pcsc.hCard = 0; } if (worker->reader.pcsc.hContext) { SCardReleaseContext(worker->reader.pcsc.hContext); worker->reader.pcsc.hContext = 0; } if (worker->client.fd >= 0) close(worker->client.fd); worker->client.fd = -1; } pthread_cleanup_pop(1); talloc_free(top_ctx); pthread_exit(NULL); }