/* * (C) 2012-2013 by Pablo Neira Ayuso * (C) 2012-2013 by On Waves ehf * All rights not specifically granted under this license are reserved. * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU Affero General Public License as published by the * Free Software Foundation; either version 3 of the License, or (at your * option) any later version. */ #include /* for printf */ #include /* for memcpy */ #include /* for abs */ #include /* for PRIu64 */ #include #include #include #include #include #include #include #include static struct osmo_fd osmux_fd; static LLIST_HEAD(osmux_handle_list); struct osmux_handle { struct llist_head head; struct osmux_in_handle *in; struct in_addr rem_addr; int rem_port; int refcnt; }; static void *osmux; static void osmux_deliver(struct msgb *batch_msg, void *data) { struct osmux_handle *handle = data; struct sockaddr_in out = { .sin_family = AF_INET, .sin_port = handle->rem_port, }; memcpy(&out.sin_addr, &handle->rem_addr, sizeof(handle->rem_addr)); sendto(osmux_fd.fd, batch_msg->data, batch_msg->len, 0, (struct sockaddr *)&out, sizeof(out)); msgb_free(batch_msg); } static struct osmux_handle * osmux_handle_find_get(struct in_addr *addr, int rem_port) { struct osmux_handle *h; /* Lookup for existing OSMUX handle for this destination address. */ llist_for_each_entry(h, &osmux_handle_list, head) { if (memcmp(&h->rem_addr, addr, sizeof(struct in_addr)) == 0 && h->rem_port == rem_port) { LOGP(DMGCP, LOGL_DEBUG, "using existing OSMUX handle " "for addr=%s:%d\n", inet_ntoa(*addr), ntohs(rem_port)); h->refcnt++; return h; } } return NULL; } static void osmux_handle_put(struct osmux_in_handle *in) { struct osmux_handle *h; /* Lookup for existing OSMUX handle for this destination address. */ llist_for_each_entry(h, &osmux_handle_list, head) { if (h->in == in) { if (--h->refcnt == 0) { LOGP(DMGCP, LOGL_INFO, "Releasing unused osmux handle for %s:%d\n", inet_ntoa(h->rem_addr), ntohs(h->rem_port)); LOGP(DMGCP, LOGL_INFO, "Stats: " "input RTP msgs: %u bytes: %"PRIu64" " "output osmux msgs: %u bytes: %"PRIu64"\n", in->stats.input_rtp_msgs, in->stats.input_rtp_bytes, in->stats.output_osmux_msgs, in->stats.output_osmux_bytes); llist_del(&h->head); osmux_xfrm_input_fini(h->in); talloc_free(h); } return; } } LOGP(DMGCP, LOGL_ERROR, "cannot find Osmux input handle %p\n", in); } static struct osmux_handle * osmux_handle_alloc(struct mgcp_config *cfg, struct in_addr *addr, int rem_port) { struct osmux_handle *h; h = talloc_zero(osmux, struct osmux_handle); if (!h) return NULL; h->rem_addr = *addr; h->rem_port = rem_port; h->refcnt++; h->in = talloc_zero(h, struct osmux_in_handle); if (!h->in) { talloc_free(h); return NULL; } h->in->osmux_seq = 0; /* sequence number to start OSmux message from */ h->in->batch_factor = cfg->osmux_batch; /* If batch size is zero, the library defaults to 1470 bytes. */ h->in->batch_size = cfg->osmux_batch_size; h->in->deliver = osmux_deliver; osmux_xfrm_input_init(h->in); h->in->data = h; llist_add(&h->head, &osmux_handle_list); LOGP(DMGCP, LOGL_DEBUG, "created new OSMUX handle for addr=%s:%d\n", inet_ntoa(*addr), ntohs(rem_port)); return h; } static struct osmux_in_handle * osmux_handle_lookup(struct mgcp_config *cfg, struct in_addr *addr, int rem_port) { struct osmux_handle *h; h = osmux_handle_find_get(addr, rem_port); if (h != NULL) return h->in; h = osmux_handle_alloc(cfg, addr, rem_port); if (h == NULL) return NULL; return h->in; } int osmux_xfrm_to_osmux(int type, char *buf, int rc, struct mgcp_endpoint *endp) { int ret; struct msgb *msg; msg = msgb_alloc(4096, "RTP"); if (!msg) return 0; memcpy(msg->data, buf, rc); msgb_put(msg, rc); while ((ret = osmux_xfrm_input(endp->osmux.in, msg, endp->osmux.cid)) > 0) { /* batch full, build and deliver it */ osmux_xfrm_input_deliver(endp->osmux.in); } return 0; } static struct mgcp_endpoint * endpoint_lookup(struct mgcp_config *cfg, int cid, struct in_addr *from_addr, int type) { struct mgcp_endpoint *tmp = NULL; int i; /* Lookup for the endpoint that corresponds to this port */ for (i=0; itrunk.number_endpoints; i++) { struct in_addr *this; tmp = &cfg->trunk.endpoints[i]; if (!tmp->allocated) continue; switch(type) { case MGCP_DEST_NET: this = &tmp->net_end.addr; break; case MGCP_DEST_BTS: this = &tmp->bts_end.addr; break; default: /* Should not ever happen */ LOGP(DMGCP, LOGL_ERROR, "Bad type %d. Fix your code.\n", type); return NULL; } if (tmp->osmux.cid == cid && this->s_addr == from_addr->s_addr) return tmp; } LOGP(DMGCP, LOGL_ERROR, "Cannot find endpoint with cid=%d\n", cid); return NULL; } static void scheduled_tx_net_cb(struct msgb *msg, void *data) { struct mgcp_endpoint *endp = data; struct sockaddr_in addr = { .sin_addr = endp->net_end.addr, .sin_port = endp->net_end.rtp_port, }; endp->bts_end.octets += msg->len; endp->bts_end.packets++; mgcp_send(endp, MGCP_DEST_NET, 1, &addr, (char *)msg->data, msg->len); msgb_free(msg); } static void scheduled_tx_bts_cb(struct msgb *msg, void *data) { struct mgcp_endpoint *endp = data; struct sockaddr_in addr = { .sin_addr = endp->bts_end.addr, .sin_port = endp->bts_end.rtp_port, }; endp->net_end.octets += msg->len; endp->net_end.packets++; mgcp_send(endp, MGCP_DEST_BTS, 1, &addr, (char *)msg->data, msg->len); msgb_free(msg); } static struct msgb *osmux_recv(struct osmo_fd *ofd, struct sockaddr_in *addr) { struct msgb *msg; socklen_t slen = sizeof(*addr); int ret; msg = msgb_alloc(4096, "OSMUX"); if (!msg) { LOGP(DMGCP, LOGL_ERROR, "cannot allocate message\n"); return NULL; } ret = recvfrom(ofd->fd, msg->data, msg->data_len, 0, (struct sockaddr *)addr, &slen); if (ret <= 0) { msgb_free(msg); LOGP(DMGCP, LOGL_ERROR, "cannot receive message\n"); return NULL; } msgb_put(msg, ret); return msg; } #define osmux_chunk_length(msg, rem) (rem - msg->len); int osmux_read_from_bsc_nat_cb(struct osmo_fd *ofd, unsigned int what) { struct msgb *msg; struct osmux_hdr *osmuxh; struct llist_head list; struct sockaddr_in addr; struct mgcp_config *cfg = ofd->data; uint32_t rem; msg = osmux_recv(ofd, &addr); if (!msg) return -1; /* not any further processing dummy messages */ if (msg->data[0] == MGCP_DUMMY_LOAD) goto out; rem = msg->len; while((osmuxh = osmux_xfrm_output_pull(msg)) != NULL) { struct mgcp_endpoint *endp; /* Yes, we use MGCP_DEST_NET to locate the origin */ endp = endpoint_lookup(cfg, osmuxh->circuit_id, &addr.sin_addr, MGCP_DEST_NET); if (!endp) { LOGP(DMGCP, LOGL_ERROR, "Cannot find an endpoint for circuit_id=%d\n", osmuxh->circuit_id); goto out; } endp->osmux.stats.octets += osmux_chunk_length(msg, rem); endp->osmux.stats.chunks++; rem = msg->len; osmux_xfrm_output(osmuxh, &endp->osmux.out, &list); osmux_tx_sched(&list, scheduled_tx_bts_cb, endp); } out: msgb_free(msg); return 0; } /* This is called from the bsc-nat */ static int osmux_handle_dummy(struct mgcp_config *cfg, struct sockaddr_in *addr, struct msgb *msg) { struct mgcp_endpoint *endp; uint8_t osmux_cid; if (msg->len < 1 + sizeof(osmux_cid)) { LOGP(DMGCP, LOGL_ERROR, "Discarding truncated Osmux dummy load\n"); goto out; } LOGP(DMGCP, LOGL_DEBUG, "Received Osmux dummy load from %s\n", inet_ntoa(addr->sin_addr)); if (!cfg->osmux) { LOGP(DMGCP, LOGL_ERROR, "bsc wants to use Osmux but bsc-nat did not request it\n"); goto out; } /* extract the osmux CID from the dummy message */ memcpy(&osmux_cid, &msg->data[1], sizeof(osmux_cid)); endp = endpoint_lookup(cfg, osmux_cid, &addr->sin_addr, MGCP_DEST_BTS); if (!endp) { LOGP(DMGCP, LOGL_ERROR, "Cannot find endpoint for Osmux CID %d\n", osmux_cid); goto out; } if (endp->osmux.state == OSMUX_STATE_ENABLED) goto out; if (osmux_enable_endpoint(endp, OSMUX_ROLE_BSC_NAT, &addr->sin_addr, addr->sin_port) < 0 ){ LOGP(DMGCP, LOGL_ERROR, "Could not enable osmux in endpoint %d\n", ENDPOINT_NUMBER(endp)); goto out; } LOGP(DMGCP, LOGL_INFO, "Enabling osmux in endpoint %d for %s:%u\n", ENDPOINT_NUMBER(endp), inet_ntoa(addr->sin_addr), ntohs(addr->sin_port)); out: msgb_free(msg); return 0; } int osmux_read_from_bsc_cb(struct osmo_fd *ofd, unsigned int what) { struct msgb *msg; struct osmux_hdr *osmuxh; struct llist_head list; struct sockaddr_in addr; struct mgcp_config *cfg = ofd->data; uint32_t rem; msg = osmux_recv(ofd, &addr); if (!msg) return -1; /* not any further processing dummy messages */ if (msg->data[0] == MGCP_DUMMY_LOAD) return osmux_handle_dummy(cfg, &addr, msg); rem = msg->len; while((osmuxh = osmux_xfrm_output_pull(msg)) != NULL) { struct mgcp_endpoint *endp; /* Yes, we use MGCP_DEST_BTS to locate the origin */ endp = endpoint_lookup(cfg, osmuxh->circuit_id, &addr.sin_addr, MGCP_DEST_BTS); if (!endp) { LOGP(DMGCP, LOGL_ERROR, "Cannot find an endpoint for circuit_id=%d\n", osmuxh->circuit_id); goto out; } endp->osmux.stats.octets += osmux_chunk_length(msg, rem); endp->osmux.stats.chunks++; rem = msg->len; osmux_xfrm_output(osmuxh, &endp->osmux.out, &list); osmux_tx_sched(&list, scheduled_tx_net_cb, endp); } out: msgb_free(msg); return 0; } int osmux_init(int role, struct mgcp_config *cfg) { int ret; switch(role) { case OSMUX_ROLE_BSC: osmux_fd.cb = osmux_read_from_bsc_nat_cb; break; case OSMUX_ROLE_BSC_NAT: osmux_fd.cb = osmux_read_from_bsc_cb; break; default: LOGP(DMGCP, LOGL_ERROR, "wrong role for OSMUX\n"); return -1; } osmux_fd.data = cfg; ret = mgcp_create_bind(cfg->osmux_addr, &osmux_fd, cfg->osmux_port); if (ret < 0) { LOGP(DMGCP, LOGL_ERROR, "cannot bind OSMUX socket\n"); return ret; } mgcp_set_ip_tos(osmux_fd.fd, cfg->endp_dscp); osmux_fd.when |= BSC_FD_READ; ret = osmo_fd_register(&osmux_fd); if (ret < 0) { LOGP(DMGCP, LOGL_ERROR, "cannot register OSMUX socket\n"); return ret; } cfg->osmux_init = 1; return 0; } int osmux_enable_endpoint(struct mgcp_endpoint *endp, int role, struct in_addr *addr, uint16_t port) { /* If osmux is enabled, initialize the output handler. This handler is * used to reconstruct the RTP flow from osmux. The RTP SSRC is * allocated based on the circuit ID (endp->osmux.cid), which is unique * in the local scope to the BSC/BSC-NAT. We use it to divide the RTP * SSRC space (2^32) by the 256 possible circuit IDs, then randomly * select one value from that window. Thus, we have no chance to have * overlapping RTP SSRC traveling to the BTSes behind the BSC, * similarly, for flows traveling to the MSC. */ static const uint32_t rtp_ssrc_winlen = UINT32_MAX / 256; if (endp->osmux.state == OSMUX_STATE_DISABLED) { LOGP(DMGCP, LOGL_ERROR, "Endpoint %u didn't request Osmux\n", ENDPOINT_NUMBER(endp)); return -1; } osmux_xfrm_output_init(&endp->osmux.out, (endp->osmux.cid * rtp_ssrc_winlen) + (random() % rtp_ssrc_winlen)); endp->osmux.in = osmux_handle_lookup(endp->cfg, addr, port); if (!endp->osmux.in) { LOGP(DMGCP, LOGL_ERROR, "Cannot allocate input osmux handle\n"); return -1; } if (!osmux_xfrm_input_open_circuit(endp->osmux.in, endp->osmux.cid, endp->cfg->osmux_dummy)) { LOGP(DMGCP, LOGL_ERROR, "Cannot open osmux circuit %u\n", endp->osmux.cid); return -1; } switch (endp->cfg->role) { case MGCP_BSC_NAT: endp->type = MGCP_OSMUX_BSC_NAT; break; case MGCP_BSC: endp->type = MGCP_OSMUX_BSC; break; } endp->osmux.state = OSMUX_STATE_ENABLED; return 0; } void osmux_disable_endpoint(struct mgcp_endpoint *endp) { LOGP(DMGCP, LOGL_INFO, "Releasing endpoint %u using Osmux CID %u\n", ENDPOINT_NUMBER(endp), endp->osmux.cid); osmux_xfrm_input_close_circuit(endp->osmux.in, endp->osmux.cid); endp->osmux.state = OSMUX_STATE_DISABLED; endp->osmux.cid = -1; osmux_handle_put(endp->osmux.in); } void osmux_release_cid(struct mgcp_endpoint *endp) { if (endp->osmux.allocated_cid >= 0) osmux_put_cid(endp->osmux.allocated_cid); endp->osmux.allocated_cid = -1; } void osmux_allocate_cid(struct mgcp_endpoint *endp) { osmux_release_cid(endp); endp->osmux.allocated_cid = osmux_get_cid(); } /* We don't need to send the dummy load for osmux so often as another endpoint * may have already punched the hole in the firewall. This approach is simple * though. */ int osmux_send_dummy(struct mgcp_endpoint *endp) { char buf[1 + sizeof(uint8_t)]; struct in_addr addr_unset = {}; buf[0] = MGCP_DUMMY_LOAD; memcpy(&buf[1], &endp->osmux.cid, sizeof(endp->osmux.cid)); /* Wait until we have the connection information from MDCX */ if (memcmp(&endp->net_end.addr, &addr_unset, sizeof(addr_unset)) == 0) return 0; if (endp->osmux.state == OSMUX_STATE_ACTIVATING) { if (osmux_enable_endpoint(endp, OSMUX_ROLE_BSC, &endp->net_end.addr, htons(endp->cfg->osmux_port)) < 0) { LOGP(DMGCP, LOGL_ERROR, "Could not activate osmux in endpoint %d\n", ENDPOINT_NUMBER(endp)); } LOGP(DMGCP, LOGL_ERROR, "Osmux CID %u for %s:%u is now enabled\n", endp->osmux.cid, inet_ntoa(endp->net_end.addr), endp->cfg->osmux_port); } LOGP(DMGCP, LOGL_DEBUG, "sending OSMUX dummy load to %s CID %u\n", inet_ntoa(endp->net_end.addr), endp->osmux.cid); return mgcp_udp_send(osmux_fd.fd, &endp->net_end.addr, htons(endp->cfg->osmux_port), buf, sizeof(buf)); } /* bsc-nat allocates/releases the Osmux circuit ID */ static uint8_t osmux_cid_bitmap[(OSMUX_CID_MAX + 1) / 8]; int osmux_used_cid(void) { int i, j, used = 0; for (i = 0; i < sizeof(osmux_cid_bitmap); i++) { for (j = 0; j < 8; j++) { if (osmux_cid_bitmap[i] & (1 << j)) used += 1; } } return used; } int osmux_get_cid(void) { int i, j; for (i = 0; i < sizeof(osmux_cid_bitmap); i++) { for (j = 0; j < 8; j++) { if (osmux_cid_bitmap[i] & (1 << j)) continue; osmux_cid_bitmap[i] |= (1 << j); LOGP(DMGCP, LOGL_DEBUG, "Allocating Osmux CID %u from pool\n", (i * 8) + j); return (i * 8) + j; } } LOGP(DMGCP, LOGL_ERROR, "All Osmux circuits are in use!\n"); return -1; } void osmux_put_cid(uint8_t osmux_cid) { LOGP(DMGCP, LOGL_DEBUG, "Osmux CID %u is back to the pool\n", osmux_cid); osmux_cid_bitmap[osmux_cid / 8] &= ~(1 << (osmux_cid % 8)); }