/* (C) 2020 by Harald Welte * * All Rights Reserved * * SPDX-License-Identifier: GPL-2.0+ * * 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. * */ /* This is a remsim-client that provides an IFD_Handler (reader driver) * towards the PC/SC services. This effectively allows any local PC/SC client * application to use a remote smartcard via osmo-remsim. * * In order to use this, you will need an /etc/reader.conf.d/osmo-remsim-client * file with the following content: * * FRIENDLYNAME "osmo-remsim-client" * DEVICENAME 0:0:192.168.11.10:9998 * LIBPATH /usr/lib/pcsc/drivers/serial/libifd_remsim_client.so * * Where DEVICENAME has the following format: * [ClientID:[SlotNr:[ServerIp:[ServerPort]]]] * */ #include #include #include #include #include extern int osmo_ctx_init(const char *id); #include "client.h" /* ensure this current thread has an osmo_ctx and hence can use OTC_GLOBAL and friends */ static void ensure_osmo_ctx(void) { if (!osmo_ctx) osmo_ctx_init(""); } /* inter-thread messages between IFD thread and remsim-client thread */ enum itmsg_type { ITMSG_TYPE_NONE, /* card present? */ ITMSG_TYPE_CARD_PRES_REQ, ITMSG_TYPE_CARD_PRES_RESP, /* obtain ATR */ ITMSG_TYPE_ATR_REQ, ITMSG_TYPE_ATR_RESP, /* transceive APDU: Send C-APDU, receive R-APDU */ ITMSG_TYPE_C_APDU_REQ, ITMSG_TYPE_R_APDU_IND, /* power off the card */ ITMSG_TYPE_POWER_OFF_REQ, ITMSG_TYPE_POWER_OFF_RESP, /* power on the card */ ITMSG_TYPE_POWER_ON_REQ, ITMSG_TYPE_POWER_ON_RESP, /* reset the card */ ITMSG_TYPE_RESET_REQ, ITMSG_TYPE_RESET_RESP, }; struct itmsg { enum itmsg_type type; uint16_t status; /* 0 == success */ uint16_t len; /* length of 'data' */ uint8_t data[0]; }; /* allocate + initialize msgb-wrapped inter-thread message (struct itmsg) */ struct msgb *itmsg_alloc(enum itmsg_type type, uint16_t status, const uint8_t *data, uint16_t len) { struct msgb *msg = msgb_alloc_c(OTC_GLOBAL, sizeof(struct itmsg)+len, "Tx itmsg"); struct itmsg *im; if (!msg) return NULL; im = (struct itmsg *) msgb_put(msg, sizeof(struct itmsg) + len); im->type = type; im->status = status; im->len = len; if (len) memcpy(im->data, data, len); return msg; } /*********************************************************************** * remsim_client thread ***********************************************************************/ void __thread *talloc_asn1_ctx; struct client_thread { /* bankd client runningi inside this thread */ struct bankd_client *bc; /* inter-thread osmo-fd; communication with IFD/PCSC thread */ struct osmo_fd it_ofd; struct llist_head it_msgq; /* ATR as received from remsim-bankd */ uint8_t atr[ATR_SIZE_MAX]; uint8_t atr_len; }; /* configuration of client thread; passed in from IFD thread */ struct client_thread_cfg { const char *name; const char *server_host; int server_port; int client_id; int client_slot; int it_sock_fd; }; /* enqueue a msgb (containg 'struct itmsg') towards the IFD-handler thread */ static void enqueue_to_ifd(struct client_thread *ct, struct msgb *msg) { if (!msg) return; msgb_enqueue(&ct->it_msgq, msg); ct->it_ofd.when |= OSMO_FD_WRITE; } /*********************************************************************** * frontend to remsim-client main FSM code ***********************************************************************/ int frontend_request_card_insert(struct bankd_client *bc) { return 0; } int frontend_request_sim_remote(struct bankd_client *bc) { return 0; } int frontend_request_modem_reset(struct bankd_client *bc) { return 0; } int frontend_handle_card2modem(struct bankd_client *bc, const uint8_t *data, size_t len) { struct client_thread *ct = bc->data; struct msgb *msg; OSMO_ASSERT(data); DEBUGP(DMAIN, "R-APDU: %s\n", osmo_hexdump(data, len)); /* enqueue towards IFD thread */ msg = itmsg_alloc(ITMSG_TYPE_R_APDU_IND, 0, data, len); OSMO_ASSERT(msg); enqueue_to_ifd(ct, msg); return 0; } int frontend_handle_set_atr(struct bankd_client *bc, const uint8_t *data, size_t len) { struct client_thread *ct = bc->data; unsigned int atr_len; OSMO_ASSERT(data); DEBUGP(DMAIN, "SET_ATR: %s\n", osmo_hexdump(data, len)); /* store ATR in local data structure until somebody needs it */ atr_len = len; if (atr_len > sizeof(ct->atr)) atr_len = sizeof(ct->atr); memcpy(ct->atr, data, atr_len); ct->atr_len = atr_len; return 0; } int frontend_handle_slot_status(struct bankd_client *bc, const SlotPhysStatus_t *sts) { return 0; } int frontend_append_script_env(struct bankd_client *bc, char **env, int idx, size_t max_env) { return idx; } /*********************************************************************** * Incoming command from the user application ***********************************************************************/ /* handle a single msgb-wrapped 'struct itmsg' from the IFD-handler thread */ static void handle_it_msg(struct client_thread *ct, struct itmsg *itmsg) { struct bankd_client *bc = ct->bc; struct msgb *tx = NULL; RsproPDU_t *pdu; BankSlot_t bslot; bank_slot2rspro(&bslot, &ct->bc->bankd_slot); switch (itmsg->type) { case ITMSG_TYPE_CARD_PRES_REQ: if (bc->bankd_conn.fi->state == 2 /*SRVC_ST_CONNECTED*/) tx = itmsg_alloc(ITMSG_TYPE_CARD_PRES_RESP, 0, NULL, 0); else tx = itmsg_alloc(ITMSG_TYPE_CARD_PRES_RESP, 0xffff, NULL, 0); OSMO_ASSERT(tx); break; case ITMSG_TYPE_ATR_REQ: /* respond to IFD */ tx = itmsg_alloc(ITMSG_TYPE_ATR_RESP, 0, ct->atr, ct->atr_len); OSMO_ASSERT(tx); break; case ITMSG_TYPE_POWER_OFF_REQ: pdu = rspro_gen_ClientSlotStatusInd(bc->srv_conn.clslot, &bslot, true, false, false, true); server_conn_send_rspro(&bc->bankd_conn, pdu); /* respond to IFD */ tx = itmsg_alloc(ITMSG_TYPE_POWER_OFF_RESP, 0, NULL, 0); OSMO_ASSERT(tx); break; case ITMSG_TYPE_POWER_ON_REQ: pdu = rspro_gen_ClientSlotStatusInd(bc->srv_conn.clslot, &bslot, false, true, true, true); server_conn_send_rspro(&bc->bankd_conn, pdu); /* respond to IFD */ tx = itmsg_alloc(ITMSG_TYPE_POWER_ON_RESP, 0, NULL, 0); OSMO_ASSERT(tx); break; case ITMSG_TYPE_RESET_REQ: /* reset the [remote] card */ pdu = rspro_gen_ClientSlotStatusInd(bc->srv_conn.clslot, &bslot, true, true, true, true); server_conn_send_rspro(&bc->bankd_conn, pdu); /* and take it out of reset again */ pdu = rspro_gen_ClientSlotStatusInd(bc->srv_conn.clslot, &bslot, false, true, true, true); server_conn_send_rspro(&bc->bankd_conn, pdu); /* respond to IFD */ tx = itmsg_alloc(ITMSG_TYPE_RESET_RESP, 0, NULL, 0); OSMO_ASSERT(tx); break; case ITMSG_TYPE_C_APDU_REQ: if (!bc->srv_conn.clslot) { LOGP(DMAIN, LOGL_ERROR, "Cannot send command; no client slot\n"); /* FIXME: Response? */ return; } /* Send CMD APDU to [remote] card */ pdu = rspro_gen_TpduModem2Card(bc->srv_conn.clslot, &bslot, itmsg->data, itmsg->len); server_conn_send_rspro(&bc->bankd_conn, pdu); /* response will come in asynchronously */ break; default: LOGP(DMAIN, LOGL_ERROR, "Unknown inter-thread msg type %u\n", itmsg->type); break; } if (tx) enqueue_to_ifd(ct, tx); } /* call-back function for inter-thread socket */ static int it_sock_fd_cb(struct osmo_fd *ofd, unsigned int what) { struct client_thread *ct = ofd->data; int rc; if (what & OSMO_FD_READ) { struct msgb *msg = msgb_alloc_c(OTC_GLOBAL, 1024, "Rx it_fd"); struct itmsg *itmsg; OSMO_ASSERT(msg); rc = read(ofd->fd, msg->tail, msgb_tailroom(msg)); if (rc <= 0) { LOGP(DMAIN, LOGL_ERROR, "Error reading from inter-thread fd: %d\n", rc); pthread_exit(NULL); } msgb_put(msg, rc); itmsg = (struct itmsg *) msgb_data(msg); if (msgb_length(msg) < sizeof(*itmsg) || msgb_length(msg) < sizeof(*itmsg) + itmsg->len) { LOGP(DMAIN, LOGL_ERROR, "Dropping short inter-thread message\n"); } else { handle_it_msg(ct, itmsg); } msgb_free(msg); } if (what & OSMO_FD_WRITE) { struct msgb *msg = msgb_dequeue(&ct->it_msgq); if (!msg) { /* last message: disable write events */ ofd->when &= ~OSMO_FD_WRITE; } else { unsigned int len = msgb_length(msg); rc = write(ofd->fd, msgb_data(msg), len); msgb_free(msg); if (rc < len) { LOGP(DMAIN, LOGL_ERROR, "Short write on inter-thread fd: %d < %d\n", rc, len); } } } return 0; } /* release all resources allocated by thread */ static void client_pthread_cleanup(void *arg) { struct client_thread *ct = arg; LOGP(DMAIN, LOGL_INFO, "Cleaning up remsim-client thread\n"); //FIXME remsim_client_destroy(ct->bc); ct->bc = NULL; msgb_queue_free(&ct->it_msgq); osmo_fd_unregister(&ct->it_ofd); close(ct->it_ofd.fd); ct->it_ofd.fd = -1; talloc_free(ct); } /* main function of remsim-client pthread */ static void *client_pthread_main(void *arg) { struct client_thread_cfg *cfg = arg; struct client_config *ccfg; struct client_thread *ct; int rc; osmo_select_init(); rc = osmo_ctx_init("client"); OSMO_ASSERT(rc == 0); ct = talloc_zero(OTC_GLOBAL, struct client_thread); OSMO_ASSERT(ct); ccfg = client_config_init(ct); OSMO_ASSERT(ccfg); osmo_talloc_replace_string(ccfg, &ccfg->server_host, cfg->server_host); if (cfg->server_port >= 0) ccfg->server_port = cfg->server_port; ccfg->client_id = cfg->client_id; ccfg->client_slot = cfg->client_slot; if (!talloc_asn1_ctx) talloc_asn1_ctx= talloc_named_const(ct, 0, "asn1"); ct->bc = remsim_client_create(ct, cfg->name, "remsim_ifdhandler", ccfg); OSMO_ASSERT(ct->bc); ct->bc->data = ct; INIT_LLIST_HEAD(&ct->it_msgq); osmo_fd_setup(&ct->it_ofd, cfg->it_sock_fd, OSMO_FD_READ, &it_sock_fd_cb, ct, 0); osmo_fd_register(&ct->it_ofd); /* ensure we get properly cleaned up if cancelled */ pthread_cleanup_push(client_pthread_cleanup, ct); osmo_fsm_inst_dispatch(ct->bc->srv_conn.fi, SRVC_E_ESTABLISH, NULL); while (1) { osmo_select_main(0); } pthread_cleanup_pop(1); return NULL; } /*********************************************************************** * PC/SC ifd_handler API functions ***********************************************************************/ #include #include #include #include static const struct value_string ifd_status_names[] = { OSMO_VALUE_STRING(IFD_SUCCESS), OSMO_VALUE_STRING(IFD_ERROR_TAG), OSMO_VALUE_STRING(IFD_ERROR_SET_FAILURE), OSMO_VALUE_STRING(IFD_ERROR_VALUE_READ_ONLY), OSMO_VALUE_STRING(IFD_ERROR_PTS_FAILURE), OSMO_VALUE_STRING(IFD_ERROR_NOT_SUPPORTED), OSMO_VALUE_STRING(IFD_PROTOCOL_NOT_SUPPORTED), OSMO_VALUE_STRING(IFD_ERROR_POWER_ACTION), OSMO_VALUE_STRING(IFD_ERROR_SWALLOW), OSMO_VALUE_STRING(IFD_ERROR_EJECT), OSMO_VALUE_STRING(IFD_ERROR_CONFISCATE), OSMO_VALUE_STRING(IFD_COMMUNICATION_ERROR), OSMO_VALUE_STRING(IFD_RESPONSE_TIMEOUT), OSMO_VALUE_STRING(IFD_NOT_SUPPORTED), OSMO_VALUE_STRING(IFD_ICC_PRESENT), OSMO_VALUE_STRING(IFD_ICC_NOT_PRESENT), OSMO_VALUE_STRING(IFD_NO_SUCH_DEVICE), OSMO_VALUE_STRING(IFD_ERROR_INSUFFICIENT_BUFFER), { 0, NULL } }; static const struct value_string ifd_tag_names[] = { OSMO_VALUE_STRING(TAG_IFD_ATR), OSMO_VALUE_STRING(TAG_IFD_SLOTNUM), OSMO_VALUE_STRING(TAG_IFD_SLOT_THREAD_SAFE), OSMO_VALUE_STRING(TAG_IFD_THREAD_SAFE), OSMO_VALUE_STRING(TAG_IFD_SLOTS_NUMBER), OSMO_VALUE_STRING(TAG_IFD_SIMULTANEOUS_ACCESS), OSMO_VALUE_STRING(TAG_IFD_POLLING_THREAD), OSMO_VALUE_STRING(TAG_IFD_POLLING_THREAD_KILLABLE), OSMO_VALUE_STRING(TAG_IFD_STOP_POLLING_THREAD), OSMO_VALUE_STRING(TAG_IFD_POLLING_THREAD_WITH_TIMEOUT), { 0, NULL } }; #define LOG_EXIT(Lun, r) \ Log4(r == IFD_SUCCESS || r == IFD_ICC_NOT_PRESENT ? PCSC_LOG_DEBUG : PCSC_LOG_ERROR, \ "%s(0x%08lx) => %s\n", __func__, Lun, get_value_string(ifd_status_names, r)) #define LOG_EXITF(Lun, r, fmt, args...) \ Log5(r == IFD_SUCCESS ? PCSC_LOG_DEBUG : PCSC_LOG_ERROR, \ "%s(0x%08lx) "fmt" => %s\n", __func__, Lun, ## args, get_value_string(ifd_status_names, r)) /* IFD side handle for a remsim-client [thread] */ struct ifd_client { /* the client pthread itself */ pthread_t pthread; /* socket to talk to thread */ int it_fd; /* configuration passed into the thread */ struct client_thread_cfg cfg; }; static struct msgb *ifd_xceive_client(struct ifd_client *ic, struct msgb *tx) { struct msgb *rx = msgb_alloc_c(OTC_GLOBAL, 1024, "ifd_rx itmsg"); struct itmsg *rx_it; int rc; rc = write(ic->it_fd, msgb_data(tx), msgb_length(tx)); msgb_free(tx); if (rc < msgb_length(tx)) { Log2(PCSC_LOG_ERROR, "Short write IFD->client thread: %d\n", rc); msgb_free(rx); return NULL; } rc = read(ic->it_fd, rx->tail, msgb_tailroom(rx)); if (rc <= 0) { Log2(PCSC_LOG_ERROR, "Short read IFD<-client thread: %d\n", rc); msgb_free(rx); return NULL; } msgb_put(rx, rc); rx_it = (struct itmsg *) msgb_data(rx); if (msgb_length(rx) < sizeof(*rx_it) + rx_it->len) { Log2(PCSC_LOG_ERROR, "Short itmsg IFD<-client thread: %d\n", msgb_length(rx)); msgb_free(rx); return NULL; } return rx; } /* function called on IFD side to create socketpair + start remsim-client thread */ static struct ifd_client *create_ifd_client(const struct client_thread_cfg *cfg) { struct ifd_client *ic = talloc_zero(OTC_GLOBAL, struct ifd_client); int sp[2]; int rc; /* copy over configuration */ ic->cfg = *cfg; /* create socket pair for communication between threads */ rc = socketpair(AF_UNIX, SOCK_SEQPACKET, 0, sp); if (rc != 0) { talloc_free(ic); return NULL; } ic->it_fd = sp[0]; ic->cfg.it_sock_fd = sp[1]; /* start the thread */ rc = pthread_create(&ic->pthread, NULL, client_pthread_main, &ic->cfg); if (rc != 0) { Log1(PCSC_LOG_ERROR, "Error creating remsim-client pthread\n"); close(sp[0]); close(sp[1]); talloc_free(ic); return NULL; } return ic; } /* function called on IFD side to destroy (terminate) remsim-client thread */ static void destroy_ifd_client(struct ifd_client *ic) { if (!ic) return; pthread_cancel(ic->pthread); pthread_join(ic->pthread, NULL); } #define MAX_SLOTS 256 static struct ifd_client *ifd_client[MAX_SLOTS]; #define LUN2SLOT(lun) ((lun) & 0xffff) #define LUN2RDR(lun) ((lun) >> 16) RESPONSECODE IFDHCreateChannel(DWORD Lun, DWORD Channel) { return IFD_COMMUNICATION_ERROR; } RESPONSECODE IFDHCreateChannelByName(DWORD Lun, LPSTR DeviceName) { struct ifd_client *ic; struct client_thread_cfg cfg = { .name = "fixme-name", .server_host = "127.0.0.1", .server_port = -1, .client_id = 0, .client_slot = 0, }; char *r, *client_id, *slot_nr, *host, *port; if (LUN2RDR(Lun) != 0) return IFD_NO_SUCH_DEVICE; if (LUN2SLOT(Lun) >= ARRAY_SIZE(ifd_client)) return IFD_NO_SUCH_DEVICE; ensure_osmo_ctx(); client_id = strtok_r(DeviceName, ":", &r); if (!client_id) goto end_parse; cfg.client_id = atoi(client_id); slot_nr = strtok_r(NULL, ":", &r); if (!slot_nr) goto end_parse; cfg.client_slot = atoi(slot_nr); host = strtok_r(NULL, ":", &r); if (!host) goto end_parse; cfg.server_host = strdup(host); port = strtok_r(NULL, ":", &r); cfg.server_port = atoi(port); end_parse: LOGP(DMAIN, LOGL_NOTICE, "remsim-client C%d:%d bankd=%s:%d\n", cfg.client_id, cfg.client_slot, cfg.server_host, cfg.server_port); ic = create_ifd_client(&cfg); if (ic) { ifd_client[LUN2SLOT(Lun)] = ic; return IFD_SUCCESS; } else return IFD_COMMUNICATION_ERROR; } RESPONSECODE IFDHControl(DWORD Lun, DWORD dwControlCode, PUCHAR TxBuffer, DWORD TxLength, PUCHAR RxBuffer, DWORD RxLength, LPDWORD pdwBytesReturned) { RESPONSECODE r = IFD_COMMUNICATION_ERROR; ensure_osmo_ctx(); if (LUN2RDR(Lun) != 0) { r = IFD_NO_SUCH_DEVICE; goto err; } if (LUN2SLOT(Lun) >= ARRAY_SIZE(ifd_client)) { r = IFD_NO_SUCH_DEVICE; goto err; } if (pdwBytesReturned) *pdwBytesReturned = 0; r = IFD_ERROR_NOT_SUPPORTED; err: LOG_EXIT(Lun, r); return r; } RESPONSECODE IFDHCloseChannel(DWORD Lun) { RESPONSECODE r = IFD_COMMUNICATION_ERROR; ensure_osmo_ctx(); if (LUN2RDR(Lun) != 0) { r = IFD_NO_SUCH_DEVICE; goto err; } if (LUN2SLOT(Lun) >= ARRAY_SIZE(ifd_client)) { r = IFD_NO_SUCH_DEVICE; goto err; } destroy_ifd_client(ifd_client[LUN2SLOT(Lun)]); ifd_client[LUN2SLOT(Lun)] = NULL; r = IFD_SUCCESS; err: LOG_EXIT(Lun, r); return r; } RESPONSECODE IFDHGetCapabilities(DWORD Lun, DWORD Tag, PDWORD Length, PUCHAR Value) { RESPONSECODE r = IFD_COMMUNICATION_ERROR; struct ifd_client *ic; struct msgb *rx, *tx; struct itmsg *rx_it; ensure_osmo_ctx(); if (LUN2RDR(Lun) != 0) { r = IFD_NO_SUCH_DEVICE; goto err; } if (LUN2SLOT(Lun) >= ARRAY_SIZE(ifd_client)) { r = IFD_NO_SUCH_DEVICE; goto err; } ic = ifd_client[LUN2SLOT(Lun)]; if (!ic) { r = IFD_NO_SUCH_DEVICE; goto err; } if (!Length || !Value) goto err; switch (Tag) { case TAG_IFD_ATR: /* Return the ATR and its size */ tx = itmsg_alloc(ITMSG_TYPE_ATR_REQ, 0, NULL, 0); OSMO_ASSERT(tx); rx = ifd_xceive_client(ic, tx); if (!rx) { r = IFD_NO_SUCH_DEVICE; goto err; } rx_it = (struct itmsg *)msgb_data(rx); if (*Length > rx_it->len) *Length = rx_it->len; memcpy(Value, rx_it->data, *Length); msgb_free(rx); break; case TAG_IFD_SIMULTANEOUS_ACCESS: /* Return the number of sessions (readers) the driver * can handle in Value[0]. This is used for multiple * readers sharing the same driver. */ if (*Length < 1) goto err; *Value = 1; *Length = 1; break; case TAG_IFD_SLOTS_NUMBER: /* Return the number of slots in this reader in Value[0] */ if (*Length < 1) goto err; *Value = 1; *Length = 1; break; case TAG_IFD_THREAD_SAFE: /* If the driver supports more than one reader (see * TAG_IFD_SIMULTANEOUS_ACCESS above) this tag indicates * if the driver supports access to multiple readers at * the same time. */ if (*Length < 1) goto err; *Value = 0; *Length = 1; break; case TAG_IFD_SLOT_THREAD_SAFE: /* If the reader has more than one slot (see * TAG_IFD_SLOTS_NUMBER above) this tag indicates if the * driver supports access to multiple slots of the same * reader at the same time. */ if (*Length < 1) goto err; *Value = 0; *Length = 1; break; default: r = IFD_ERROR_TAG; goto err; } r = IFD_SUCCESS; err: if (r != IFD_SUCCESS && Length) *Length = 0; LOG_EXITF(Lun, r, "%s", get_value_string(ifd_tag_names, Tag)); return r; } RESPONSECODE IFDHSetCapabilities(DWORD Lun, DWORD Tag, DWORD Length, PUCHAR Value) { ensure_osmo_ctx(); if (LUN2RDR(Lun) != 0) return IFD_NO_SUCH_DEVICE; if (LUN2SLOT(Lun) >= ARRAY_SIZE(ifd_client)) return IFD_NO_SUCH_DEVICE; LOG_EXIT(Lun, IFD_NOT_SUPPORTED); return IFD_NOT_SUPPORTED; } RESPONSECODE IFDHSetProtocolParameters(DWORD Lun, DWORD Protocol, UCHAR Flags, UCHAR PTS1, UCHAR PTS2, UCHAR PTS3) { ensure_osmo_ctx(); if (LUN2RDR(Lun) != 0) return IFD_NO_SUCH_DEVICE; if (LUN2SLOT(Lun) >= ARRAY_SIZE(ifd_client)) return IFD_NO_SUCH_DEVICE; LOG_EXIT(Lun, IFD_SUCCESS); return IFD_SUCCESS; } RESPONSECODE IFDHPowerICC(DWORD Lun, DWORD Action, PUCHAR Atr, PDWORD AtrLength) { RESPONSECODE r = IFD_COMMUNICATION_ERROR; struct ifd_client *ic; struct msgb *rx, *tx; ensure_osmo_ctx(); if (LUN2RDR(Lun) != 0) { r = IFD_NO_SUCH_DEVICE; goto err; } if (LUN2SLOT(Lun) >= ARRAY_SIZE(ifd_client)) { r = IFD_NO_SUCH_DEVICE; goto err; } ic = ifd_client[LUN2SLOT(Lun)]; if (!ic) { r = IFD_NO_SUCH_DEVICE; goto err; } switch (Action) { case IFD_POWER_DOWN: tx = itmsg_alloc(ITMSG_TYPE_POWER_OFF_REQ, 0, NULL, 0); break; case IFD_POWER_UP: tx = itmsg_alloc(ITMSG_TYPE_POWER_ON_REQ, 0, NULL, 0); break; case IFD_RESET: tx = itmsg_alloc(ITMSG_TYPE_RESET_REQ, 0, NULL, 0); break; default: r = IFD_NOT_SUPPORTED; goto err; } rx = ifd_xceive_client(ic, tx); if (!rx) { r = IFD_NO_SUCH_DEVICE; goto err; } r = IFD_SUCCESS; msgb_free(rx); err: if (r != IFD_SUCCESS && AtrLength) *AtrLength = 0; else r = IFDHGetCapabilities(Lun, TAG_IFD_ATR, AtrLength, Atr); LOG_EXIT(Lun, r); return r; } RESPONSECODE IFDHTransmitToICC(DWORD Lun, SCARD_IO_HEADER SendPci, PUCHAR TxBuffer, DWORD TxLength, PUCHAR RxBuffer, PDWORD RxLength, PSCARD_IO_HEADER RecvPci) { RESPONSECODE r = IFD_COMMUNICATION_ERROR; struct ifd_client *ic; struct msgb *rx, *tx; struct itmsg *rx_it; ensure_osmo_ctx(); if (LUN2RDR(Lun) != 0) { r = IFD_NO_SUCH_DEVICE; goto err; } if (LUN2SLOT(Lun) >= ARRAY_SIZE(ifd_client)) { r = IFD_NO_SUCH_DEVICE; goto err; } ic = ifd_client[LUN2SLOT(Lun)]; if (!ic) { r = IFD_NO_SUCH_DEVICE; goto err; } tx = itmsg_alloc(ITMSG_TYPE_C_APDU_REQ, 0, TxBuffer, TxLength); OSMO_ASSERT(tx); /* transmit C-APDU to remote reader + blocking wait for response from peer */ rx = ifd_xceive_client(ic, tx); if (!rx) { r = IFD_NO_SUCH_DEVICE; goto err; } rx_it = (struct itmsg *) msgb_data(rx); if (*RxLength > rx_it->len) *RxLength = rx_it->len; memcpy(RxBuffer, rx_it->data, *RxLength); msgb_free(rx); r = IFD_SUCCESS; err: if (r != IFD_SUCCESS && RxLength) *RxLength = 0; LOG_EXIT(Lun, r); return r; } RESPONSECODE IFDHICCPresence(DWORD Lun) { RESPONSECODE r = IFD_COMMUNICATION_ERROR; struct ifd_client *ic; struct msgb *rx, *tx; struct itmsg *rx_it; ensure_osmo_ctx(); if (LUN2RDR(Lun) != 0) { r = IFD_NO_SUCH_DEVICE; goto err; } if (LUN2SLOT(Lun) >= ARRAY_SIZE(ifd_client)) { r = IFD_NO_SUCH_DEVICE; goto err; } ic = ifd_client[LUN2SLOT(Lun)]; if (!ic) { r = IFD_NO_SUCH_DEVICE; goto err; } tx = itmsg_alloc(ITMSG_TYPE_CARD_PRES_REQ, 0, NULL, 0); OSMO_ASSERT(tx); rx = ifd_xceive_client(ic, tx); if (!rx) { r = IFD_NO_SUCH_DEVICE; goto err; } rx_it = (struct itmsg *) msgb_data(rx); if (rx_it->status == 0) r = IFD_SUCCESS; else r = IFD_ICC_NOT_PRESENT; err: LOG_EXIT(Lun, r); return r; } static __attribute__((constructor)) void on_dso_load_ifd(void) { void *g_tall_ctx = NULL; ensure_osmo_ctx(); osmo_init_logging2(g_tall_ctx, &log_info); }