/*! \file gprs_ns2_fr.c * NS-over-FR-over-GRE implementation. * GPRS Networks Service (NS) messages on the Gb interface. * 3GPP TS 08.16 version 8.0.1 Release 1999 / ETSI TS 101 299 V8.0.1 (2002-05) * as well as its successor 3GPP TS 48.016 */ /* (C) 2009-2021 by Harald Welte * (C) 2020 sysmocom - s.f.m.c. GmbH * Author: Alexander Couzens * * 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, see . * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef ENABLE_LIBMNL #include #endif #include "config.h" #include "common_vty.h" #include "gprs_ns2_internal.h" #define GRE_PTYPE_FR 0x6559 #define GRE_PTYPE_IPv4 0x0800 #define GRE_PTYPE_IPv6 0x86dd #define GRE_PTYPE_KAR 0x0000 /* keepalive response */ #ifndef IPPROTO_GRE # define IPPROTO_GRE 47 #endif #define E1_LINERATE 2048000 #define E1_SLOTS_TOTAL 32 #define E1_SLOTS_USED 31 /* usable bitrate of the E1 superchannel with 31 of 32 timeslots */ #define SUPERCHANNEL_LINERATE (E1_LINERATE*E1_SLOTS_USED)/E1_SLOTS_TOTAL /* nanoseconds per bit (504) */ #define BIT_DURATION_NS (1000000000 / SUPERCHANNEL_LINERATE) struct gre_hdr { uint16_t flags; uint16_t ptype; } __attribute__ ((packed)); static void free_bind(struct gprs_ns2_vc_bind *bind); static int fr_dlci_rx_cb(void *cb_data, struct msgb *msg); struct gprs_ns2_vc_driver vc_driver_fr = { .name = "GB frame relay", .free_bind = free_bind, }; struct priv_bind { char netif[IFNAMSIZ]; struct osmo_fr_link *link; int ifindex; bool if_running; /* backlog queue for AF_PACKET / ENOBUFS handling (see OS#4993) */ struct { /* file-descriptor for AF_PACKET socket */ struct osmo_fd ofd; /* LMI bucket (we only store the last LMI message, no need to queue */ struct msgb *lmi_msg; /* list of NS msgb (backlog) */ struct llist_head list; /* timer to trigger next attempt of AF_PACKET write */ struct osmo_timer_list timer; /* re-try after that many micro-seconds */ uint32_t retry_us; } backlog; }; struct priv_vc { struct osmo_sockaddr remote; uint16_t dlci; struct osmo_fr_dlc *dlc; }; static void free_vc(struct gprs_ns2_vc *nsvc) { if (!nsvc) return; if (!nsvc->priv) return; OSMO_ASSERT(gprs_ns2_is_fr_bind(nsvc->bind)); talloc_free(nsvc->priv); nsvc->priv = NULL; } static void dump_vty(const struct gprs_ns2_vc_bind *bind, struct vty *vty, bool _stats) { struct priv_bind *priv; struct gprs_ns2_vc *nsvc; struct osmo_fr_link *fr_link; if (!bind) return; priv = bind->priv; fr_link = priv->link; vty_out(vty, "FR bind: %s, role: %s, link: %s%s", priv->netif, osmo_fr_role_str(fr_link->role), priv->if_running ? "UP" : "DOWN", VTY_NEWLINE); llist_for_each_entry(nsvc, &bind->nsvc, blist) { vty_out(vty, " NSVCI %05u: %s%s", nsvc->nsvci, gprs_ns2_ll_str(nsvc), VTY_NEWLINE); } priv = bind->priv; } /*! clean up all private driver state. Should be only called by gprs_ns2_free_bind() */ static void free_bind(struct gprs_ns2_vc_bind *bind) { struct priv_bind *priv; struct msgb *msg, *msg2; if (!bind) return; OSMO_ASSERT(gprs_ns2_is_fr_bind(bind)); priv = bind->priv; OSMO_ASSERT(llist_empty(&bind->nsvc)); osmo_timer_del(&priv->backlog.timer); llist_for_each_entry_safe(msg, msg2, &priv->backlog.list, list) { msgb_free(msg); } msgb_free(priv->backlog.lmi_msg); osmo_fr_link_free(priv->link); osmo_fd_close(&priv->backlog.ofd); talloc_free(priv); } static void fr_dlci_status_cb(struct osmo_fr_dlc *dlc, void *cb_data, bool active) { struct gprs_ns2_vc *nsvc = cb_data; if (active) { ns2_vc_fsm_start(nsvc); } else { ns2_vc_force_unconfigured(nsvc); } } static struct priv_vc *fr_alloc_vc(struct gprs_ns2_vc_bind *bind, struct gprs_ns2_vc *nsvc, uint16_t dlci) { struct priv_bind *privb = bind->priv; struct priv_vc *priv = talloc_zero(bind, struct priv_vc); if (!priv) return NULL; OSMO_ASSERT(gprs_ns2_is_fr_bind(bind)); nsvc->priv = priv; priv->dlci = dlci; priv->dlc = osmo_fr_dlc_alloc(privb->link, dlci); if (!priv->dlc) { nsvc->priv = NULL; talloc_free(priv); return NULL; } priv->dlc->cb_data = nsvc; priv->dlc->rx_cb = fr_dlci_rx_cb; priv->dlc->status_cb = fr_dlci_status_cb; return priv; } int gprs_ns2_find_vc_by_dlci(struct gprs_ns2_vc_bind *bind, uint16_t dlci, struct gprs_ns2_vc **result) { struct gprs_ns2_vc *nsvc; struct priv_vc *vcpriv; OSMO_ASSERT(gprs_ns2_is_fr_bind(bind)); if (!result) return -EINVAL; llist_for_each_entry(nsvc, &bind->nsvc, blist) { vcpriv = nsvc->priv; if (vcpriv->dlci != dlci) { *result = nsvc; return 0; } } return 1; } /* PDU from the network interface towards the fr layer (upwards) */ static int fr_netif_ofd_cb(struct osmo_fd *bfd, uint32_t what) { struct gprs_ns2_vc_bind *bind = bfd->data; struct priv_bind *priv = bind->priv; struct msgb *msg; struct sockaddr_ll sll; socklen_t sll_len = sizeof(sll); int rc = 0; /* we only handle read here. write to AF_PACKET sockets cannot be triggered * by select or poll, see OS#4995 */ if (!(what & OSMO_FD_READ)) return 0; msg = msgb_alloc(NS_ALLOC_SIZE, "Gb/NS/FR/GRE Rx"); if (!msg) return -ENOMEM; rc = recvfrom(bfd->fd, msg->data, NS_ALLOC_SIZE, 0, (struct sockaddr *)&sll, &sll_len); if (rc < 0) { LOGBIND(bind, LOGL_ERROR, "recv error %s during NS-FR-GRE recv\n", strerror(errno)); goto out_err; } else if (rc == 0) { goto out_err; } /* ignore any packets that we might have received for a different interface, between * the socket() and the bind() call */ if (sll.sll_ifindex != priv->ifindex) goto out_err; msgb_put(msg, rc); msg->dst = priv->link; return osmo_fr_rx(msg); out_err: msgb_free(msg); return rc; } /* PDU from the frame relay towards the NS-VC (upwards) */ static int fr_dlci_rx_cb(void *cb_data, struct msgb *msg) { int rc; struct gprs_ns2_vc *nsvc = cb_data; rc = ns2_recv_vc(nsvc, msg); return rc; } static int fr_netif_write_one(struct gprs_ns2_vc_bind *bind, struct msgb *msg) { struct priv_bind *priv = bind->priv; unsigned int len = msgb_length(msg); int rc; /* estimate the retry time based on the data rate it takes to transmit */ priv->backlog.retry_us = (BIT_DURATION_NS * 8 * len) / 1000; rc = write(priv->backlog.ofd.fd, msgb_data(msg), len); if (rc == len) { msgb_free(msg); return 0; } else if (rc < 0) { /* don't free, the caller might want to re-transmit */ switch (errno) { case EAGAIN: case ENOBUFS: /* not a real error, but more a normal event on AF_PACKET */ /* don't free the message and let the caller re-enqueue */ return -errno; default: /* an actual error, like -ENETDOWN, -EMSGSIZE */ LOGBIND(bind, LOGL_ERROR, "error during write to AF_PACKET: %s\n", strerror(errno)); msgb_free(msg); return 0; } } else { /* short write */ LOGBIND(bind, LOGL_ERROR, "short write on AF_PACKET: %d < %d\n", rc, len); msgb_free(msg); return 0; } } /*! determine if given bind is for FR-GRE encapsulation. */ int gprs_ns2_is_fr_bind(struct gprs_ns2_vc_bind *bind) { return (bind->driver == &vc_driver_fr); } /* PDU from the NS-VC towards the frame relay layer (downwards) */ static int fr_vc_sendmsg(struct gprs_ns2_vc *nsvc, struct msgb *msg) { struct priv_vc *vcpriv = nsvc->priv; msg->dst = vcpriv->dlc; return osmo_fr_tx_dlc(msg); } static void enqueue_at_head(struct gprs_ns2_vc_bind *bind, struct msgb *msg) { struct priv_bind *priv = bind->priv; llist_add(&msg->list, &priv->backlog.list); osmo_stat_item_inc(bind->statg->items[NS2_BIND_STAT_BACKLOG_LEN], 1); osmo_timer_schedule(&priv->backlog.timer, 0, priv->backlog.retry_us); } static void enqueue_at_tail(struct gprs_ns2_vc_bind *bind, struct msgb *msg) { struct priv_bind *priv = bind->priv; llist_add_tail(&msg->list, &priv->backlog.list); osmo_stat_item_inc(bind->statg->items[NS2_BIND_STAT_BACKLOG_LEN], 1); osmo_timer_schedule(&priv->backlog.timer, 0, priv->backlog.retry_us); } #define LMI_Q933A_DLCI 0 /* enqueue to backlog (LMI, signaling) or drop (userdata msg) */ static int backlog_enqueue_or_free(struct gprs_ns2_vc_bind *bind, struct msgb *msg) { struct priv_bind *priv = bind->priv; uint8_t dlci = msg->data[0]; uint8_t ns_pdu_type; uint16_t bvci; if (msgb_length(msg) < 1) goto out_free; /* we want to enqueue only Q.933 LMI traffic or NS signaling; NOT user traffic */ switch (dlci) { case LMI_Q933A_DLCI: /* always store only the last LMI message in the lmi_msg bucket */ msgb_free(priv->backlog.lmi_msg); priv->backlog.lmi_msg = msg; return 0; default: /* there's no point in trying to enqueue messages if the interface is down */ if (!priv->if_running) break; if (msgb_length(msg) < 3) break; ns_pdu_type = msg->data[2]; switch (ns_pdu_type) { case NS_PDUT_UNITDATA: if (msgb_length(msg) < 6) break; bvci = osmo_load16be(msg->data + 4); /* enqueue BVCI=0 traffic at tail of queue */ if (bvci == BVCI_SIGNALLING) { enqueue_at_tail(bind, msg); return 0; } break; default: /* enqueue NS signaling traffic at head of queue */ enqueue_at_head(bind, msg); return 0; } break; } out_free: /* drop everything that is not LMI, NS-signaling or BVCI-0 */ msgb_free(msg); return -1; } static void fr_backlog_timer_cb(void *data) { struct gprs_ns2_vc_bind *bind = data; struct priv_bind *priv = bind->priv; int i, rc; /* first try to get rid of the LMI message, if any */ if (priv->backlog.lmi_msg) { rc = fr_netif_write_one(bind, priv->backlog.lmi_msg); if (rc < 0) goto restart_timer; /* fr_netif_write_one() has just free'd it */ priv->backlog.lmi_msg = NULL; } /* attempt to send up to 10 messages in every timer */ for (i = 0; i < 10; i++) { struct msgb *msg = msgb_dequeue(&priv->backlog.list); if (!msg) break; rc = fr_netif_write_one(bind, msg); if (rc < 0) { /* re-add at head of list */ llist_add(&msg->list, &priv->backlog.list); break; } osmo_stat_item_dec(bind->statg->items[NS2_BIND_STAT_BACKLOG_LEN], 1); } restart_timer: /* re-start timer if we still have data in the queue */ if (!llist_empty(&priv->backlog.list)) osmo_timer_schedule(&priv->backlog.timer, 0, priv->backlog.retry_us); } /* PDU from the frame relay layer towards the network interface (downwards) */ int fr_tx_cb(void *data, struct msgb *msg) { struct gprs_ns2_vc_bind *bind = data; struct priv_bind *priv = bind->priv; int rc; if (llist_empty(&priv->backlog.list)) { /* attempt to transmit right now */ rc = fr_netif_write_one(bind, msg); if (rc < 0) { /* enqueue to backlog in case it fails */ return backlog_enqueue_or_free(bind, msg); } } else { /* enqueue to backlog */ return backlog_enqueue_or_free(bind, msg); } return 0; } static int devname2ifindex(const char *ifname) { struct ifreq ifr; int sk, rc; sk = socket(AF_INET, SOCK_DGRAM, IPPROTO_IP); if (sk < 0) return sk; memset(&ifr, 0, sizeof(ifr)); OSMO_STRLCPY_ARRAY(ifr.ifr_name, ifname); rc = ioctl(sk, SIOCGIFINDEX, &ifr); close(sk); if (rc < 0) return rc; return ifr.ifr_ifindex; } static int open_socket(int ifindex, const struct gprs_ns2_vc_bind *nsbind) { struct sockaddr_ll addr; int fd, rc; memset(&addr, 0, sizeof(addr)); addr.sll_family = AF_PACKET; addr.sll_protocol = htons(ETH_P_ALL); addr.sll_ifindex = ifindex; fd = socket(AF_PACKET, SOCK_RAW, htons(ETH_P_HDLC)); if (fd < 0) { LOGBIND(nsbind, LOGL_ERROR, "Can not create AF_PACKET socket. Are you root or have CAP_NET_RAW?\n"); return fd; } /* there's a race condition between the above syscall and the bind() call below, * causing other packets to be received in between */ rc = bind(fd, (struct sockaddr *)&addr, sizeof(addr)); if (rc < 0) { LOGBIND(nsbind, LOGL_ERROR, "Can not bind AF_PACKET socket to ifindex %d\n", ifindex); close(fd); return rc; } return fd; } #ifdef ENABLE_LIBMNL #include #include #include #ifndef ARPHRD_FRAD #define ARPHRD_FRAD 770 #endif /* validate the netlink attributes */ static int data_attr_cb(const struct nlattr *attr, void *data) { const struct nlattr **tb = data; int type = mnl_attr_get_type(attr); if (mnl_attr_type_valid(attr, IFLA_MAX) < 0) return MNL_CB_OK; switch (type) { case IFLA_MTU: if (mnl_attr_validate(attr, MNL_TYPE_U32) < 0) return MNL_CB_ERROR; break; case IFLA_IFNAME: if (mnl_attr_validate(attr, MNL_TYPE_STRING) < 0) return MNL_CB_ERROR; break; } tb[type] = attr; return MNL_CB_OK; } /* find the bind for the netdev (if any) */ static struct gprs_ns2_vc_bind *bind4netdev(struct gprs_ns2_inst *nsi, const char *ifname) { struct gprs_ns2_vc_bind *bind; llist_for_each_entry(bind, &nsi->binding, list) { struct priv_bind *bpriv = bind->priv; if (!strcmp(bpriv->netif, ifname)) return bind; } return NULL; } static void link_state_change(struct gprs_ns2_vc_bind *bind, bool if_running) { struct priv_bind *bpriv = bind->priv; struct msgb *msg, *msg2; if (bpriv->if_running == if_running) return; LOGBIND(bind, LOGL_NOTICE, "FR net-device '%s': Physical link state changed: %s\n", bpriv->netif, if_running ? "UP" : "DOWN"); /* free any backlog, both on IFUP and IFDOWN. Keep the LMI, as it makes * sense to get one out of the door ASAP. */ llist_for_each_entry_safe(msg, msg2, &bpriv->backlog.list, list) { msgb_free(msg); } if (if_running) { /* interface just came up */ if (bpriv->backlog.lmi_msg) osmo_timer_schedule(&bpriv->backlog.timer, 0, bpriv->backlog.retry_us); } else { /* interface just went down; no need to retransmit */ osmo_timer_del(&bpriv->backlog.timer); } bpriv->if_running = if_running; } static void mtu_change(struct gprs_ns2_vc_bind *bind, uint32_t mtu) { struct priv_bind *bpriv = bind->priv; struct gprs_ns2_nse *nse; if (mtu == bind->mtu) return; LOGBIND(bind, LOGL_INFO, "MTU changed from %d to %d.\n", bind->mtu, mtu); /* 2 byte DLCI header */ bind->mtu = mtu - 2; if (!bpriv->if_running) return; llist_for_each_entry(nse, &bind->nsi->nse, list) { ns2_nse_update_mtu(nse); } } /* handle a single netlink message received via libmnl */ static int linkmon_mnl_cb(const struct nlmsghdr *nlh, void *data) { struct osmo_mnl *omnl = data; struct gprs_ns2_vc_bind *bind; struct nlattr *tb[IFLA_MAX+1] = {}; struct ifinfomsg *ifm = mnl_nlmsg_get_payload(nlh); struct gprs_ns2_inst *nsi; const char *ifname; bool if_running; OSMO_ASSERT(omnl); OSMO_ASSERT(ifm); nsi = omnl->priv; if (ifm->ifi_type != ARPHRD_FRAD) return MNL_CB_OK; mnl_attr_parse(nlh, sizeof(*ifm), data_attr_cb, tb); if (!tb[IFLA_IFNAME]) return MNL_CB_OK; ifname = mnl_attr_get_str(tb[IFLA_IFNAME]); if_running = !!(ifm->ifi_flags & IFF_RUNNING); bind = bind4netdev(nsi, ifname); if (!bind) return MNL_CB_OK; if (tb[IFLA_MTU]) { mtu_change(bind, mnl_attr_get_u32(tb[IFLA_MTU])); } link_state_change(bind, if_running); return MNL_CB_OK; } /* trigger one initial dump of all link information */ static void linkmon_initial_dump(struct osmo_mnl *omnl) { char buf[MNL_SOCKET_BUFFER_SIZE]; struct nlmsghdr *nlh = mnl_nlmsg_put_header(buf); struct rtgenmsg *rt; nlh->nlmsg_type = RTM_GETLINK; nlh->nlmsg_flags = NLM_F_REQUEST | NLM_F_DUMP; nlh->nlmsg_seq = time(NULL); rt = mnl_nlmsg_put_extra_header(nlh, sizeof(struct rtgenmsg)); rt->rtgen_family = AF_PACKET; if (mnl_socket_sendto(omnl->mnls, nlh, nlh->nlmsg_len) < 0) { LOGP(DLNS, LOGL_ERROR, "linkmon: Cannot send rtnetlink message: %s\n", strerror(errno)); } /* the response[s] will be handled just like the events */ } #endif /* LIBMNL */ static int set_ifupdown(const char *netif, bool up) { int sock, rc; struct ifreq req; sock = socket(AF_INET, SOCK_DGRAM, 0); if (sock < 0) return sock; memset(&req, 0, sizeof req); OSMO_STRLCPY_ARRAY(req.ifr_name, netif); rc = ioctl(sock, SIOCGIFFLAGS, &req); if (rc < 0) { close(sock); return rc; } if ((req.ifr_flags & IFF_UP) == up) { close(sock); return 0; } if (up) req.ifr_flags |= IFF_UP; rc = ioctl(sock, SIOCSIFFLAGS, &req); close(sock); return rc; } static int setup_device(const char *netif, const struct gprs_ns2_vc_bind *bind) { int sock, rc; char buffer[128]; fr_proto *fr = (void*)buffer; struct ifreq req; sock = socket(PF_INET, SOCK_DGRAM, IPPROTO_IP); if (sock < 0) { LOGBIND(bind, LOGL_ERROR, "%s: Unable to create socket: %s\n", netif, strerror(errno)); return sock; } memset(&req, 0, sizeof(struct ifreq)); memset(&buffer, 0, sizeof(buffer)); OSMO_STRLCPY_ARRAY(req.ifr_name, netif); req.ifr_settings.ifs_ifsu.sync = (void*)buffer; req.ifr_settings.size = sizeof(buffer); req.ifr_settings.type = IF_GET_PROTO; /* EINVAL is returned when no protocol has been set */ rc = ioctl(sock, SIOCWANDEV, &req); if (rc < 0 && errno != EINVAL) { LOGBIND(bind, LOGL_ERROR, "%s: Unable to get FR protocol information: %s\n", netif, strerror(errno)); goto err; } /* check if the device is good */ if (rc == 0 && req.ifr_settings.type == IF_PROTO_FR && fr->lmi == LMI_NONE) { LOGBIND(bind, LOGL_NOTICE, "%s: has correct frame relay mode and lmi\n", netif); goto ifup; } /* modify the device to match */ rc = set_ifupdown(netif, false); if (rc) { LOGBIND(bind, LOGL_ERROR, "Unable to bring down the device %s: %s\n", netif, strerror(errno)); goto err; } memset(&req, 0, sizeof(struct ifreq)); memset(fr, 0, sizeof(fr_proto)); OSMO_STRLCPY_ARRAY(req.ifr_name, netif); req.ifr_settings.type = IF_PROTO_FR; req.ifr_settings.size = sizeof(fr_proto); req.ifr_settings.ifs_ifsu.fr = fr; fr->lmi = LMI_NONE; /* even those settings aren't used, they must be in the range */ /* polling verification timer*/ fr->t391 = 10; /* link integrity verification polling timer */ fr->t392 = 15; /* full status polling counter*/ fr->n391 = 6; /* error threshold */ fr->n392 = 3; /* monitored events count */ fr->n393 = 4; LOGBIND(bind, LOGL_INFO, "%s: Setting frame relay related parameters\n", netif); rc = ioctl(sock, SIOCWANDEV, &req); if (rc) { LOGBIND(bind, LOGL_ERROR, "%s: Unable to set FR protocol on information: %s\n", netif, strerror(errno)); goto err; } ifup: rc = set_ifupdown(netif, true); if (rc) LOGBIND(bind, LOGL_ERROR, "Unable to bring up the device %s: %s\n", netif, strerror(errno)); err: close(sock); return rc; } /*! Create a new bind for NS over FR. * \param[in] nsi NS instance in which to create the bind * \param[in] netif Network interface to bind to * \param[in] fr_network * \param[in] fr_role * \param[out] result pointer to the created bind or if a bind with the name exists return the bind. * \return 0 on success; negative on error. -EALREADY returned in case a bind with the name exists */ int gprs_ns2_fr_bind(struct gprs_ns2_inst *nsi, const char *name, const char *netif, struct osmo_fr_network *fr_network, enum osmo_fr_role fr_role, struct gprs_ns2_vc_bind **result) { struct gprs_ns2_vc_bind *bind; struct priv_bind *priv; struct osmo_fr_link *fr_link; int rc = 0; if (strlen(netif) > IFNAMSIZ) return -EINVAL; bind = gprs_ns2_bind_by_name(nsi, name); if (bind) { if (result) *result = bind; return -EALREADY; } rc = ns2_bind_alloc(nsi, name, &bind); if (rc < 0) return rc; bind->driver = &vc_driver_fr; bind->ll = GPRS_NS2_LL_FR; /* 2 mbit */ bind->transfer_capability = 2; bind->send_vc = fr_vc_sendmsg; bind->free_vc = free_vc; bind->dump_vty = dump_vty; bind->mtu = FRAME_RELAY_SDU; priv = bind->priv = talloc_zero(bind, struct priv_bind); if (!priv) { rc = -ENOMEM; goto err_bind; } INIT_LLIST_HEAD(&priv->backlog.list); OSMO_STRLCPY_ARRAY(priv->netif, netif); /* FIXME: move fd handling into socket.c */ fr_link = osmo_fr_link_alloc(fr_network, fr_role, netif); if (!fr_link) { rc = -EINVAL; goto err_bind; } fr_link->tx_cb = fr_tx_cb; fr_link->cb_data = bind; priv->link = fr_link; priv->ifindex = rc = devname2ifindex(netif); if (rc < 0) { LOGBIND(bind, LOGL_ERROR, "Can not get interface index for interface %s\n", netif); goto err_fr; } /* set protocol frame relay and lmi */ rc = setup_device(priv->netif, bind); if(rc < 0) { LOGBIND(bind, LOGL_ERROR, "Failed to setup the interface %s for frame relay and lmi\n", netif); goto err_fr; } rc = open_socket(priv->ifindex, bind); if (rc < 0) goto err_fr; priv->backlog.retry_us = 2500; /* start with some non-zero value; this corrsponds to 496 bytes */ osmo_timer_setup(&priv->backlog.timer, fr_backlog_timer_cb, bind); osmo_fd_setup(&priv->backlog.ofd, rc, OSMO_FD_READ, fr_netif_ofd_cb, bind, 0); rc = osmo_fd_register(&priv->backlog.ofd); if (rc < 0) goto err_fd; #ifdef ENABLE_LIBMNL if (!nsi->linkmon_mnl) nsi->linkmon_mnl = osmo_mnl_init(nsi, NETLINK_ROUTE, RTMGRP_LINK, linkmon_mnl_cb, nsi); /* we get a new full dump after every bind. which is a bit excessive. But that's just once * at start-up, so we can get away with it */ if (nsi->linkmon_mnl) linkmon_initial_dump(nsi->linkmon_mnl); #endif if (result) *result = bind; return rc; err_fd: close(priv->backlog.ofd.fd); err_fr: osmo_fr_link_free(fr_link); priv->link = NULL; err_bind: gprs_ns2_free_bind(bind); return rc; } /*! Return the frame relay role of a bind * \param[in] bind The bind * \return the frame relay role or -EINVAL if bind is not frame relay */ enum osmo_fr_role gprs_ns2_fr_bind_role(struct gprs_ns2_vc_bind *bind) { struct priv_bind *priv; if (bind->driver != &vc_driver_fr) return -EINVAL; priv = bind->priv; return priv->link->role; } /*! Return the network interface of the bind * \param[in] bind The bind * \return the network interface */ const char *gprs_ns2_fr_bind_netif(struct gprs_ns2_vc_bind *bind) { struct priv_bind *priv; if (bind->driver != &vc_driver_fr) return NULL; priv = bind->priv; return priv->netif; } /*! Find NS bind for a given network interface * \param[in] nsi NS instance * \param[in] netif the network interface to search for * \return the bind or NULL if not found */ struct gprs_ns2_vc_bind *gprs_ns2_fr_bind_by_netif( struct gprs_ns2_inst *nsi, const char *netif) { struct gprs_ns2_vc_bind *bind; const char *_netif; OSMO_ASSERT(nsi); OSMO_ASSERT(netif); llist_for_each_entry(bind, &nsi->binding, list) { if (!gprs_ns2_is_fr_bind(bind)) continue; _netif = gprs_ns2_fr_bind_netif(bind); if (!strncmp(_netif, netif, IFNAMSIZ)) return bind; } return NULL; } /*! Create, connect and activate a new FR-based NS-VC * \param[in] bind bind in which the new NS-VC is to be created * \param[in] nsei NSEI of the NS Entity in which the NS-VC is to be created * \param[in] dlci Data Link connection identifier * \return pointer to newly-allocated, connected and activated NS-VC; NULL on error */ struct gprs_ns2_vc *gprs_ns2_fr_connect(struct gprs_ns2_vc_bind *bind, struct gprs_ns2_nse *nse, uint16_t nsvci, uint16_t dlci) { struct gprs_ns2_vc *nsvc = NULL; struct priv_vc *priv = NULL; struct priv_bind *bpriv = bind->priv; char idbuf[64]; OSMO_ASSERT(gprs_ns2_is_fr_bind(bind)); nsvc = gprs_ns2_fr_nsvc_by_dlci(bind, dlci); if (nsvc) { goto err; } snprintf(idbuf, sizeof(idbuf), "%s-%s-DLCI%u-NSE%05u-NSVC%05u", gprs_ns2_lltype_str(nse->ll), bpriv->netif, dlci, nse->nsei, nsvci); nsvc = ns2_vc_alloc(bind, nse, true, GPRS_NS2_VC_MODE_BLOCKRESET, idbuf); if (!nsvc) goto err; nsvc->priv = priv = fr_alloc_vc(bind, nsvc, dlci); if (!priv) goto err; nsvc->nsvci = nsvci; nsvc->nsvci_is_valid = true; return nsvc; err: gprs_ns2_free_nsvc(nsvc); return NULL; } /*! Create, connect and activate a new FR-based NS-VC * \param[in] bind bind in which the new NS-VC is to be created * \param[in] nsei NSEI of the NS Entity in which the NS-VC is to be created * \param[in] dlci Data Link connection identifier * \return pointer to newly-allocated, connected and activated NS-VC; NULL on error */ struct gprs_ns2_vc *gprs_ns2_fr_connect2(struct gprs_ns2_vc_bind *bind, uint16_t nsei, uint16_t nsvci, uint16_t dlci) { bool created_nse = false; struct gprs_ns2_vc *nsvc = NULL; struct gprs_ns2_nse *nse; OSMO_ASSERT(gprs_ns2_is_fr_bind(bind)); nse = gprs_ns2_nse_by_nsei(bind->nsi, nsei); if (!nse) { nse = gprs_ns2_create_nse(bind->nsi, nsei, GPRS_NS2_LL_FR, GPRS_NS2_DIALECT_STATIC_RESETBLOCK); if (!nse) return NULL; created_nse = true; } nsvc = gprs_ns2_fr_connect(bind, nse, nsvci, dlci); if (!nsvc) goto err_nse; return nsvc; err_nse: if (created_nse) gprs_ns2_free_nse(nse); return NULL; } /*! Return the nsvc by dlci. * \param[in] bind * \param[in] dlci Data Link connection identifier * \return the nsvc or NULL if not found */ struct gprs_ns2_vc *gprs_ns2_fr_nsvc_by_dlci(struct gprs_ns2_vc_bind *bind, uint16_t dlci) { struct gprs_ns2_vc *nsvc; struct priv_vc *vcpriv; OSMO_ASSERT(gprs_ns2_is_fr_bind(bind)); llist_for_each_entry(nsvc, &bind->nsvc, blist) { vcpriv = nsvc->priv; if (dlci == vcpriv->dlci) return nsvc; } return NULL; } /*! Return the dlci of the nsvc * \param[in] nsvc * \return the dlci or 0 on error. 0 is not a valid dlci. */ uint16_t gprs_ns2_fr_nsvc_dlci(const struct gprs_ns2_vc *nsvc) { struct priv_vc *vcpriv; if (!nsvc->bind) return 0; if (nsvc->bind->driver != &vc_driver_fr) return 0; vcpriv = nsvc->priv; return vcpriv->dlci; }