/* sysmo_l1_if.cpp * * Copyright (C) 2012 Andreas Eversberg * * 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 extern "C" { #include #include #include } #include #include #include #include "../../osmo-bts/include/osmo-bts/pcuif_proto.h" static int pcu_sock_send(struct msgb *msg); static void pcu_sock_timeout(void *_priv); struct pcu_l1if_bts pcu_l1if_bts; // Variable for storage current FN. int frame_number; int get_current_fn() { return frame_number; } void set_current_fn(int fn) { frame_number = fn; } /* * PCU messages */ struct msgb *pcu_msgb_alloc(uint8_t msg_type, uint8_t bts_nr) { struct msgb *msg; struct gsm_pcu_if *pcu_prim; msg = msgb_alloc(sizeof(struct gsm_pcu_if), "pcu_sock_tx"); if (!msg) return NULL; msgb_put(msg, sizeof(struct gsm_pcu_if)); pcu_prim = (struct gsm_pcu_if *) msg->data; pcu_prim->msg_type = msg_type; pcu_prim->bts_nr = bts_nr; return msg; } static int pcu_tx_act_req(uint8_t trx, uint8_t ts, uint8_t activate) { struct msgb *msg; struct gsm_pcu_if *pcu_prim; struct gsm_pcu_if_act_req *act_req; LOGP(DL1IF, LOGL_INFO, "Sending %s request: trx=%d ts=%d\n", (activate) ? "activate" : "deactivate", trx, ts); msg = pcu_msgb_alloc(PCU_IF_MSG_ACT_REQ, 0); if (!msg) return -ENOMEM; pcu_prim = (struct gsm_pcu_if *) msg->data; act_req = &pcu_prim->u.act_req; act_req->activate = activate; act_req->trx_nr = trx; act_req->ts_nr = ts; return pcu_sock_send(msg); } static int pcu_tx_data_req(uint8_t trx, uint8_t ts, uint8_t sapi, uint16_t arfcn, uint32_t fn, uint8_t block_nr, uint8_t *data, uint8_t len) { struct msgb *msg; struct gsm_pcu_if *pcu_prim; struct gsm_pcu_if_data *data_req; LOGP(DL1IF, LOGL_DEBUG, "Sending data request: trx=%d ts=%d sapi=%d " "arfcn=%d fn=%d block=%d data=%s\n", trx, ts, sapi, arfcn, fn, block_nr, osmo_hexdump(data, len)); msg = pcu_msgb_alloc(PCU_IF_MSG_DATA_REQ, 0); if (!msg) return -ENOMEM; pcu_prim = (struct gsm_pcu_if *) msg->data; data_req = &pcu_prim->u.data_req; data_req->sapi = sapi; data_req->fn = fn; data_req->arfcn = arfcn; data_req->trx_nr = trx; data_req->ts_nr = ts; data_req->block_nr = block_nr; memcpy(data_req->data, data, len); data_req->len = len; return pcu_sock_send(msg); } void pcu_l1if_tx_pdtch(msgb *msg, uint8_t trx, uint8_t ts, uint16_t arfcn, uint32_t fn, uint8_t block_nr) { pcu_tx_data_req(trx, ts, PCU_IF_SAPI_PDTCH, arfcn, fn, block_nr, msg->data, msg->len); msgb_free(msg); } void pcu_l1if_tx_ptcch(msgb *msg, uint8_t trx, uint8_t ts, uint16_t arfcn, uint32_t fn, uint8_t block_nr) { pcu_tx_data_req(trx, ts, PCU_IF_SAPI_PTCCH, arfcn, fn, block_nr, msg->data, msg->len); msgb_free(msg); } void pcu_l1if_tx_agch(bitvec * block, int len) { uint8_t data[24]; /* prefix PLEN */ /* FIXME: why does OpenBTS has no PLEN and no fill in message? */ bitvec_pack(block, data + 1); data[0] = (len << 2) | 0x01; pcu_tx_data_req(0, 0, PCU_IF_SAPI_AGCH, 0, 0, 0, data, 23); } static void pcu_l1if_tx_bcch(uint8_t *data, int len) { pcu_tx_data_req(0, 0, PCU_IF_SAPI_BCCH, 0, 0, 0, data, len); } static int pcu_rx_data_ind(struct gsm_pcu_if_data *data_ind) { int rc = 0; bitvec *block; LOGP(DL1IF, LOGL_DEBUG, "Data indication received: sapi=%d arfcn=%d " "block=%d data=%s\n", data_ind->sapi, data_ind->arfcn, data_ind->block_nr, osmo_hexdump(data_ind->data, data_ind->len)); switch (data_ind->sapi) { case PCU_IF_SAPI_PDTCH: block = bitvec_alloc(data_ind->len); if (!block) { rc = -ENOMEM; break; } bitvec_unpack(block, data_ind->data); gprs_rlcmac_rcv_block(block); bitvec_free(block); break; default: LOGP(DL1IF, LOGL_ERROR, "Received PCU data indication with " "unsupported sapi %d\n", data_ind->sapi); rc = -EINVAL; } return rc; } static int pcu_rx_rts_req(struct gsm_pcu_if_rts_req *rts_req) { int rc = 0; LOGP(DL1IF, LOGL_DEBUG, "RTS request received: trx=%d ts=%d sapi=%d " "arfcn=%d fn=%d block=%d\n", rts_req->trx_nr, rts_req->ts_nr, rts_req->sapi, rts_req->arfcn, rts_req->fn, rts_req->block_nr); switch (rts_req->sapi) { case PCU_IF_SAPI_PDTCH: gprs_rlcmac_rcv_rts_block(rts_req->trx_nr, rts_req->ts_nr, rts_req->arfcn, rts_req->fn, rts_req->block_nr); break; case PCU_IF_SAPI_PTCCH: /* FIXME */ { struct msgb *msg = msgb_alloc(23, "l1_prim"); memset(msgb_put(msg, 23), 0x2b, 23); pcu_l1if_tx_ptcch(msg, rts_req->trx_nr, rts_req->ts_nr, rts_req->arfcn, rts_req->fn, rts_req->block_nr); } break; default: LOGP(DL1IF, LOGL_ERROR, "Received PCU RTS request with " "unsupported sapi %d\n", rts_req->sapi); rc = -EINVAL; } return rc; } static int pcu_rx_rach_ind(struct gsm_pcu_if_rach_ind *rach_ind) { int rc = 0; LOGP(DL1IF, LOGL_INFO, "RACH request received: sapi=%d " "qta=%d, ra=%d, fn=%d\n", rach_ind->sapi, rach_ind->qta, rach_ind->ra, rach_ind->fn); switch (rach_ind->sapi) { case PCU_IF_SAPI_RACH: rc = gprs_rlcmac_rcv_rach(rach_ind->ra, rach_ind->fn, rach_ind->qta); break; default: LOGP(DL1IF, LOGL_ERROR, "Received PCU rach request with " "unsupported sapi %d\n", rach_ind->sapi); rc = -EINVAL; } return rc; } static int pcu_rx_info_ind(struct gsm_pcu_if_info_ind *info_ind) { int rc = 0; int trx, ts; // uint8_t si13[23]; LOGP(DL1IF, LOGL_INFO, "Info indication received:\n"); if (!(info_ind->flags & PCU_IF_FLAG_ACTIVE)) { LOGP(DL1IF, LOGL_NOTICE, "BTS not available\n"); return 0; } LOGP(DL1IF, LOGL_INFO, "BTS available\n"); for (trx = 0; trx < 8; trx++) { pcu_l1if_bts.trx[trx].arfcn = info_ind->trx[trx].arfcn; for (ts = 0; ts < 8; ts++) { if ((info_ind->trx[trx].pdch_mask & (1 << ts))) { /* FIXME: activate dynamically at RLCMAC */ if (!pcu_l1if_bts.trx[trx].ts[ts].enable) pcu_tx_act_req(trx, ts, 1); pcu_l1if_bts.trx[trx].ts[ts].enable = 1; pcu_l1if_bts.trx[trx].ts[ts].tsc = info_ind->trx[trx].tsc[ts]; LOGP(DL1IF, LOGL_INFO, "PDCH: trx=%d ts=%d\n", trx, ts); } else { if (pcu_l1if_bts.trx[trx].ts[ts].enable) pcu_tx_act_req(trx, ts, 0); pcu_l1if_bts.trx[trx].ts[ts].enable = 0; } } } #warning FIXME: RAC // rc = generate_si13(si13, 0 /* rac */); // printf("rc=%d\n", rc); // pcu_l1if_tx_bcch(si13, 23); return rc; } static int pcu_rx(uint8_t msg_type, struct gsm_pcu_if *pcu_prim) { int rc = 0; switch (msg_type) { case PCU_IF_MSG_DATA_IND: rc = pcu_rx_data_ind(&pcu_prim->u.data_ind); break; case PCU_IF_MSG_RTS_REQ: rc = pcu_rx_rts_req(&pcu_prim->u.rts_req); break; case PCU_IF_MSG_RACH_IND: rc = pcu_rx_rach_ind(&pcu_prim->u.rach_ind); break; case PCU_IF_MSG_INFO_IND: rc = pcu_rx_info_ind(&pcu_prim->u.info_ind); break; default: LOGP(DL1IF, LOGL_ERROR, "Received unknwon PCU msg type %d\n", msg_type); rc = -EINVAL; } return rc; } /* * SYSMO-PCU socket functions */ struct pcu_sock_state { struct osmo_fd conn_bfd; /* fd for connection to lcr */ struct osmo_timer_list timer; /* socket connect retry timer */ struct llist_head upqueue; /* queue for sending messages */ } *pcu_sock_state = NULL; static int pcu_sock_send(struct msgb *msg) { struct pcu_sock_state *state = pcu_sock_state; struct osmo_fd *conn_bfd; if (!state) { LOGP(DL1IF, LOGL_NOTICE, "PCU socket not created, dropping " "message\n"); return -EINVAL; } conn_bfd = &state->conn_bfd; if (conn_bfd->fd <= 0) { LOGP(DL1IF, LOGL_NOTICE, "PCU socket not connected, dropping " "message\n"); return -EIO; } msgb_enqueue(&state->upqueue, msg); conn_bfd->when |= BSC_FD_WRITE; return 0; } static void pcu_sock_close(struct pcu_sock_state *state) { struct osmo_fd *bfd = &state->conn_bfd; LOGP(DL1IF, LOGL_NOTICE, "PCU socket has LOST connection\n"); close(bfd->fd); bfd->fd = -1; osmo_fd_unregister(bfd); /* flush the queue */ while (!llist_empty(&state->upqueue)) { struct msgb *msg = msgb_dequeue(&state->upqueue); msgb_free(msg); } /* disable all slots */ memset(&pcu_l1if_bts, 0, sizeof(pcu_l1if_bts)); state->timer.cb = pcu_sock_timeout; osmo_timer_schedule(&state->timer, 5, 0); } static int pcu_sock_read(struct osmo_fd *bfd) { struct pcu_sock_state *state = (struct pcu_sock_state *)bfd->data; struct gsm_pcu_if *pcu_prim; struct msgb *msg; int rc; msg = msgb_alloc(sizeof(*pcu_prim), "pcu_sock_rx"); if (!msg) return -ENOMEM; pcu_prim = (struct gsm_pcu_if *) msg->tail; rc = recv(bfd->fd, msg->tail, msgb_tailroom(msg), 0); if (rc == 0) goto close; if (rc < 0) { if (errno == EAGAIN) return 0; goto close; } rc = pcu_rx(pcu_prim->msg_type, pcu_prim); /* as we always synchronously process the message in pcu_rx() and * its callbacks, we can free the message here. */ msgb_free(msg); return rc; close: msgb_free(msg); pcu_sock_close(state); return -1; } static int pcu_sock_write(struct osmo_fd *bfd) { struct pcu_sock_state *state = (struct pcu_sock_state *)bfd->data; int rc; while (!llist_empty(&state->upqueue)) { struct msgb *msg, *msg2; struct gsm_pcu_if *pcu_prim; /* peek at the beginning of the queue */ msg = llist_entry(state->upqueue.next, struct msgb, list); pcu_prim = (struct gsm_pcu_if *)msg->data; bfd->when &= ~BSC_FD_WRITE; /* bug hunter 8-): maybe someone forgot msgb_put(...) ? */ if (!msgb_length(msg)) { LOGP(DL1IF, LOGL_ERROR, "message type (%d) with ZERO " "bytes!\n", pcu_prim->msg_type); goto dontsend; } /* try to send it over the socket */ rc = write(bfd->fd, msgb_data(msg), msgb_length(msg)); if (rc == 0) goto close; if (rc < 0) { if (errno == EAGAIN) { bfd->when |= BSC_FD_WRITE; break; } goto close; } dontsend: /* _after_ we send it, we can deueue */ msg2 = msgb_dequeue(&state->upqueue); assert(msg == msg2); msgb_free(msg); } return 0; close: pcu_sock_close(state); return -1; } static int pcu_sock_cb(struct osmo_fd *bfd, unsigned int flags) { int rc = 0; if (flags & BSC_FD_READ) rc = pcu_sock_read(bfd); if (rc < 0) return rc; if (flags & BSC_FD_WRITE) rc = pcu_sock_write(bfd); return rc; } int pcu_l1if_open(void) { struct pcu_sock_state *state; struct osmo_fd *bfd; struct sockaddr_un local; unsigned int namelen; int rc; memset(&pcu_l1if_bts, 0, sizeof(pcu_l1if_bts)); state = pcu_sock_state; if (!state) { state = talloc_zero(NULL, struct pcu_sock_state); if (!state) return -ENOMEM; INIT_LLIST_HEAD(&state->upqueue); } bfd = &state->conn_bfd; bfd->fd = socket(AF_UNIX, SOCK_SEQPACKET, 0); if (bfd->fd < 0) { LOGP(DL1IF, LOGL_ERROR, "Failed to create PCU-SYSMO socket.\n"); talloc_free(state); return -1; } local.sun_family = AF_UNIX; strncpy(local.sun_path, "/tmp/pcu_bts", sizeof(local.sun_path)); local.sun_path[sizeof(local.sun_path) - 1] = '\0'; /* we use the same magic that X11 uses in Xtranssock.c for * calculating the proper length of the sockaddr */ #if defined(BSD44SOCKETS) || defined(__UNIXWARE__) local.sun_len = strlen(local.sun_path); #endif #if defined(BSD44SOCKETS) || defined(SUN_LEN) namelen = SUN_LEN(&local); #else namelen = strlen(local.sun_path) + offsetof(struct sockaddr_un, sun_path); #endif rc = connect(bfd->fd, (struct sockaddr *) &local, namelen); if (rc != 0) { LOGP(DL1IF, LOGL_ERROR, "Failed to Connect the PCU-SYSMO " "socket, delaying... '%s'\n", local.sun_path); close(bfd->fd); bfd->fd = -1; state->timer.cb = pcu_sock_timeout; osmo_timer_schedule(&state->timer, 5, 0); return -1; } bfd->when = BSC_FD_READ; bfd->cb = pcu_sock_cb; bfd->data = state; rc = osmo_fd_register(bfd); if (rc < 0) { LOGP(DL1IF, LOGL_ERROR, "Could not register PCU fd: %d\n", rc); close(bfd->fd); talloc_free(state); return rc; } LOGP(DL1IF, LOGL_NOTICE, "PCU-SYSMO socket has been connected\n"); pcu_sock_state = state; return 0; } void pcu_l1if_close(void) { struct pcu_sock_state *state = pcu_sock_state; struct osmo_fd *bfd; if (!state) return; if (osmo_timer_pending(&state->timer)) osmo_timer_del(&state->timer); bfd = &state->conn_bfd; if (bfd->fd > 0) pcu_sock_close(state); talloc_free(state); pcu_sock_state = NULL; } static void pcu_sock_timeout(void *_priv) { pcu_l1if_open(); }