/*! \file gprs_bssgp.c * GPRS BSSGP protocol implementation as per 3GPP TS 08.18. */ /* * (C) 2009-2017 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, see . * * TODO: * o properly count incoming BVC-RESET packets in counter group * o set log context as early as possible for outgoing packets */ #include #include #include #include #include #include #include #include #include #include #include #include #include "osmocom/gsm/gsm48.h" #include "gprs_bssgp_internal.h" void *bssgp_tall_ctx = NULL; static int _gprs_ns_sendmsg(void *ctx, struct msgb *msg); bssgp_bvc_send bssgp_ns_send = _gprs_ns_sendmsg; void *bssgp_ns_send_data = NULL; static const struct rate_ctr_desc bssgp_ctr_description[] = { { "packets:in", "Packets at BSSGP Level ( In)" }, { "packets:out","Packets at BSSGP Level (Out)" }, { "bytes:in", "Bytes at BSSGP Level ( In)" }, { "bytes:out", "Bytes at BSSGP Level (Out)" }, { "blocked", "BVC Blocking count" }, { "discarded", "BVC LLC Discarded count" }, { "status", "BVC Status count" }, }; static const struct rate_ctr_group_desc bssgp_ctrg_desc = { .group_name_prefix = "bssgp:bss_ctx", .group_description = "BSSGP Peer Statistics", .num_ctr = ARRAY_SIZE(bssgp_ctr_description), .ctr_desc = bssgp_ctr_description, .class_id = OSMO_STATS_CLASS_PEER, }; LLIST_HEAD(bssgp_bvc_ctxts); static int _bssgp_tx_dl_ud(struct bssgp_flow_control *fc, struct msgb *msg, uint32_t llc_pdu_len, void *priv); /* callback to be backward compatible with old users which do not set the bssgp_ns_send function */ static int _gprs_ns_sendmsg(void *ctx, struct msgb *msg) { OSMO_ASSERT(bssgp_nsi); return gprs_ns_sendmsg(bssgp_nsi, msg); } /* Find a BTS Context based on parsed RA ID and Cell ID */ struct bssgp_bvc_ctx *btsctx_by_raid_cid(const struct gprs_ra_id *raid, uint16_t cid) { struct bssgp_bvc_ctx *bctx; llist_for_each_entry(bctx, &bssgp_bvc_ctxts, list) { if (!memcmp(&bctx->ra_id, raid, sizeof(bctx->ra_id)) && bctx->cell_id == cid) return bctx; } return NULL; } /* Transmit a BVC-RESET or BVC-RESET-ACK with a given nsei and bvci (Chapter 10.4.12) * \param[in] pdu Either BSSGP_PDUT_BVC_RESET or BSSGP_PDUT_BVC_RESET_ACK * \param[in] nsei The NSEI to transmit over * \param[in] bvci BVCI of the BVC to reset * \param[in] cause The cause of the reset only valid for BSSGP_PDUT_BVC_RESET. * \param[in] ra_id Pointer to the ra_id to include. If NULL no cell information will be included * \param[in] cell_id The cell_id to include (if ra_id is not NULL) * returns >= 0 on success, on error < 0. */ static int tx_bvc_reset_nsei_bvci(enum bssgp_pdu_type pdu, uint16_t nsei, uint16_t bvci, enum gprs_bssgp_cause cause, const struct gprs_ra_id *ra_id, uint16_t cell_id) { struct msgb *msg = bssgp_msgb_alloc(); struct bssgp_normal_hdr *bgph = (struct bssgp_normal_hdr *) msgb_put(msg, sizeof(*bgph)); uint16_t _bvci = osmo_htons(bvci); OSMO_ASSERT(pdu == BSSGP_PDUT_BVC_RESET || pdu == BSSGP_PDUT_BVC_RESET_ACK); msgb_nsei(msg) = nsei; msgb_bvci(msg) = BVCI_SIGNALLING; bgph->pdu_type = pdu; msgb_tvlv_put(msg, BSSGP_IE_BVCI, 2, (uint8_t *) &_bvci); if (pdu == BSSGP_PDUT_BVC_RESET) { msgb_tvlv_put(msg, BSSGP_IE_CAUSE, 1, (uint8_t *) &cause); LOGP(DLBSSGP, LOGL_NOTICE, "BSSGP (BVCI=%u) Tx BVC-RESET " "CAUSE=%s\n", bvci, bssgp_cause_str(cause)); } else { LOGP(DLBSSGP, LOGL_NOTICE, "BSSGP (BVCI=%u) Tx BVC-RESET-ACK\n", bvci); } if (ra_id) { uint8_t bssgp_cid[8]; bssgp_create_cell_id(bssgp_cid, ra_id, cell_id); msgb_tvlv_put(msg, BSSGP_IE_CELL_ID, sizeof(bssgp_cid), bssgp_cid); } /* Optional: Feature Bitmap */ return bssgp_ns_send(bssgp_ns_send_data, msg); } /*! Transmit a BVC-RESET message with a given nsei and bvci (Chapter 10.4.12) * \param[in] nsei The NSEI to transmit over * \param[in] bvci BVCI of the BVC to reset * \param[in] cause The cause of the reset * \param[in] ra_id Pointer to the ra_id to include. If NULL no cell information will be included * \param[in] cell_id The cell_id to include (if ra_id is not NULL) * returns >= 0 on success, on error < 0. */ int bssgp_tx_bvc_reset_nsei_bvci(uint16_t nsei, uint16_t bvci, enum gprs_bssgp_cause cause, const struct gprs_ra_id *ra_id, uint16_t cell_id) { return tx_bvc_reset_nsei_bvci(BSSGP_PDUT_BVC_RESET, nsei, bvci, cause, ra_id, cell_id); } /*! Transmit a BVC-RESET-ACK message with a given nsei and bvci (Chapter 10.4.12) * \param[in] nsei The NSEI to transmit over * \param[in] bvci BVCI of the BVC to reset * \param[in] ra_id Pointer to the ra_id to include. If NULL no cell information will be included * \param[in] cell_id The cell_id to include (if ra_id is not NULL) * returns >= 0 on success, on error < 0. */ int bssgp_tx_bvc_reset_ack_nsei_bvci(uint16_t nsei, uint16_t bvci, const struct gprs_ra_id *ra_id, uint16_t cell_id) { return tx_bvc_reset_nsei_bvci(BSSGP_PDUT_BVC_RESET_ACK, nsei, bvci, 0, ra_id, cell_id); } /*! Initiate reset procedure for all PTP BVC on a given NSEI. * * This function initiates reset procedure for all PTP BVC with a given cause. * \param[in] nsei NSEI to which PTP BVC should belong to * \param[in] cause Cause of BVC RESET * \returns 0 on success, negative error code otherwise */ int bssgp_tx_bvc_ptp_reset(uint16_t nsei, enum gprs_bssgp_cause cause) { int rc; struct bssgp_bvc_ctx *bctx; llist_for_each_entry(bctx, &bssgp_bvc_ctxts, list) { if (bctx->nsei == nsei && bctx->bvci != BVCI_SIGNALLING) { LOGP(DLBSSGP, LOGL_DEBUG, "NSEI=%u/BVCI=%u RESET due to %s\n", nsei, bctx->bvci, bssgp_cause_str(cause)); rc = bssgp_tx_bvc_reset(bctx, bctx->bvci, cause); if (rc < 0) return rc; } } return 0; } /* Find a BTS context based on BVCI+NSEI tuple */ struct bssgp_bvc_ctx *btsctx_by_bvci_nsei(uint16_t bvci, uint16_t nsei) { struct bssgp_bvc_ctx *bctx; llist_for_each_entry(bctx, &bssgp_bvc_ctxts, list) { if (bctx->nsei == nsei && bctx->bvci == bvci) return bctx; } return NULL; } void bssgp_set_bssgp_callback(bssgp_bvc_send ns_send, void *data) { bssgp_ns_send = ns_send; bssgp_ns_send_data = data; } struct bssgp_bvc_ctx *btsctx_alloc(uint16_t bvci, uint16_t nsei) { struct bssgp_bvc_ctx *ctx; ctx = talloc_zero(bssgp_tall_ctx, struct bssgp_bvc_ctx); if (!ctx) return NULL; ctx->bvci = bvci; ctx->nsei = nsei; ctx->is_sgsn = true; /* FIXME: BVCI is not unique, only BVCI+NSEI ?!? */ ctx->ctrg = rate_ctr_group_alloc(ctx, &bssgp_ctrg_desc, bvci); if (!ctx->ctrg) goto err_ctrg; ctx->fc = talloc_zero(ctx, struct bssgp_flow_control); if (!ctx->fc) goto err_fc; /* cofigure for 2Mbit, 30 packets in queue */ bssgp_fc_init(ctx->fc, 100000, 2*1024*1024/8, 30, &_bssgp_tx_dl_ud); llist_add(&ctx->list, &bssgp_bvc_ctxts); return ctx; err_fc: rate_ctr_group_free(ctx->ctrg); err_ctrg: talloc_free(ctx); return NULL; } void bssgp_bvc_ctx_free(struct bssgp_bvc_ctx *ctx) { if (!ctx) return; osmo_timer_del(&ctx->fc->timer); rate_ctr_group_free(ctx->ctrg); llist_del(&ctx->list); talloc_free(ctx); } /* Chapter 10.4.5: Flow Control BVC ACK */ static int bssgp_tx_fc_bvc_ack(uint16_t nsei, uint8_t tag, uint16_t ns_bvci) { struct msgb *msg = bssgp_msgb_alloc(); struct bssgp_normal_hdr *bgph = (struct bssgp_normal_hdr *) msgb_put(msg, sizeof(*bgph)); msgb_nsei(msg) = nsei; msgb_bvci(msg) = ns_bvci; bgph->pdu_type = BSSGP_PDUT_FLOW_CONTROL_BVC_ACK; msgb_tvlv_put(msg, BSSGP_IE_TAG, 1, &tag); return bssgp_ns_send(bssgp_ns_send_data, msg); } /* 10.3.7 SUSPEND-ACK PDU */ int bssgp_tx_suspend_ack(uint16_t nsei, uint32_t tlli, const struct gprs_ra_id *ra_id, uint8_t suspend_ref) { struct msgb *msg = bssgp_msgb_alloc(); struct bssgp_normal_hdr *bgph = (struct bssgp_normal_hdr *) msgb_put(msg, sizeof(*bgph)); msgb_nsei(msg) = nsei; msgb_bvci(msg) = 0; /* Signalling */ bgph->pdu_type = BSSGP_PDUT_SUSPEND_ACK; bssgp_msgb_tlli_put(msg, tlli); bssgp_msgb_ra_put(msg, ra_id); msgb_tvlv_put(msg, BSSGP_IE_SUSPEND_REF_NR, 1, &suspend_ref); return bssgp_ns_send(bssgp_ns_send_data, msg); } /* 10.3.8 SUSPEND-NACK PDU */ int bssgp_tx_suspend_nack(uint16_t nsei, uint32_t tlli, const struct gprs_ra_id *ra_id, uint8_t *cause) { struct msgb *msg = bssgp_msgb_alloc(); struct bssgp_normal_hdr *bgph = (struct bssgp_normal_hdr *) msgb_put(msg, sizeof(*bgph)); msgb_nsei(msg) = nsei; msgb_bvci(msg) = 0; /* Signalling */ bgph->pdu_type = BSSGP_PDUT_SUSPEND_NACK; bssgp_msgb_tlli_put(msg, tlli); bssgp_msgb_ra_put(msg, ra_id); if (cause) msgb_tvlv_put(msg, BSSGP_IE_CAUSE, 1, cause); return bssgp_ns_send(bssgp_ns_send_data, msg); } /* 10.3.10 RESUME-ACK PDU */ int bssgp_tx_resume_ack(uint16_t nsei, uint32_t tlli, const struct gprs_ra_id *ra_id) { struct msgb *msg = bssgp_msgb_alloc(); struct bssgp_normal_hdr *bgph = (struct bssgp_normal_hdr *) msgb_put(msg, sizeof(*bgph)); msgb_nsei(msg) = nsei; msgb_bvci(msg) = 0; /* Signalling */ bgph->pdu_type = BSSGP_PDUT_RESUME_ACK; bssgp_msgb_tlli_put(msg, tlli); bssgp_msgb_ra_put(msg, ra_id); return bssgp_ns_send(bssgp_ns_send_data, msg); } /* 10.3.11 RESUME-NACK PDU */ int bssgp_tx_resume_nack(uint16_t nsei, uint32_t tlli, const struct gprs_ra_id *ra_id, uint8_t *cause) { struct msgb *msg = bssgp_msgb_alloc(); struct bssgp_normal_hdr *bgph = (struct bssgp_normal_hdr *) msgb_put(msg, sizeof(*bgph)); msgb_nsei(msg) = nsei; msgb_bvci(msg) = 0; /* Signalling */ bgph->pdu_type = BSSGP_PDUT_SUSPEND_NACK; bssgp_msgb_tlli_put(msg, tlli); bssgp_msgb_ra_put(msg, ra_id); if (cause) msgb_tvlv_put(msg, BSSGP_IE_CAUSE, 1, cause); return bssgp_ns_send(bssgp_ns_send_data, msg); } uint16_t bssgp_parse_cell_id(struct gprs_ra_id *raid, const uint8_t *buf) { /* 6 octets RAC */ gsm48_parse_ra(raid, buf); /* 2 octets CID */ return osmo_load16be(buf+6); } int bssgp_create_cell_id(uint8_t *buf, const struct gprs_ra_id *raid, uint16_t cid) { /* 6 octets RAC */ gsm48_encode_ra((struct gsm48_ra_id *)buf, raid); /* 2 octets CID */ osmo_store16be(cid, buf+6); return 8; } /* Chapter 8.4 BVC-Reset Procedure */ static int bssgp_rx_bvc_reset(struct msgb *msg, struct tlv_parsed *tp, uint16_t ns_bvci) { struct osmo_bssgp_prim nmp; struct bssgp_bvc_ctx *bctx; uint16_t nsei = msgb_nsei(msg); uint16_t bvci; bvci = tlvp_val16be(tp, BSSGP_IE_BVCI); DEBUGP(DLBSSGP, "BSSGP BVCI=%u Rx RESET cause=%s\n", bvci, bssgp_cause_str(*TLVP_VAL(tp, BSSGP_IE_CAUSE))); /* look-up or create the BTS context for this BVC */ bctx = btsctx_by_bvci_nsei(bvci, nsei); if (!bctx) bctx = btsctx_alloc(bvci, nsei); /* As opposed to NS-VCs, BVCs are NOT blocked after RESET */ bctx->state &= ~BVC_S_BLOCKED; /* When we receive a BVC-RESET PDU (at least of a PTP BVCI), the BSS * informs us about its RAC + Cell ID, so we can create a mapping */ if (bctx->is_sgsn && bvci != BVCI_SIGNALLING && bvci != BVCI_PTM) { if (!TLVP_PRES_LEN(tp, BSSGP_IE_CELL_ID, 8)) { LOGP(DLBSSGP, LOGL_ERROR, "BSSGP BVCI=%u Rx RESET " "missing mandatory IE\n", bvci); return -EINVAL; } /* actually extract RAC / CID */ bctx->cell_id = bssgp_parse_cell_id(&bctx->ra_id, TLVP_VAL(tp, BSSGP_IE_CELL_ID)); LOGP(DLBSSGP, LOGL_NOTICE, "Cell %s CI %u on BVCI %u\n", osmo_rai_name(&bctx->ra_id), bctx->cell_id, bvci); } /* Acknowledge the RESET to the BTS */ if (bvci == BVCI_SIGNALLING || bvci == BVCI_PTM || bctx->is_sgsn) bssgp_tx_simple_bvci(BSSGP_PDUT_BVC_RESET_ACK, nsei, bvci, ns_bvci); else bssgp_tx_bvc_reset_ack_nsei_bvci(nsei, bvci, &bctx->ra_id, bctx->cell_id); /* Send NM_BVC_RESET.ind to NM */ memset(&nmp, 0, sizeof(nmp)); nmp.nsei = nsei; nmp.bvci = bvci; nmp.tp = tp; nmp.ra_id = &bctx->ra_id; osmo_prim_init(&nmp.oph, SAP_BSSGP_NM, PRIM_NM_BVC_RESET, PRIM_OP_INDICATION, msg); bssgp_prim_cb(&nmp.oph, NULL); return 0; } static int bssgp_rx_bvc_block(struct msgb *msg, struct tlv_parsed *tp) { struct osmo_bssgp_prim nmp; uint16_t bvci, nsei = msgb_nsei(msg); struct bssgp_bvc_ctx *ptp_ctx; bvci = tlvp_val16be(tp, BSSGP_IE_BVCI); if (bvci == BVCI_SIGNALLING) { /* 8.3.2: Signalling BVC shall never be blocked */ LOGP(DLBSSGP, LOGL_ERROR, "NSEI=%u/BVCI=%u " "received block for signalling BVC!?!\n", nsei, msgb_bvci(msg)); return 0; } LOGP(DLBSSGP, LOGL_INFO, "BSSGP Rx BVCI=%u BVC-BLOCK\n", bvci); ptp_ctx = btsctx_by_bvci_nsei(bvci, nsei); if (!ptp_ctx) return bssgp_tx_status(BSSGP_CAUSE_UNKNOWN_BVCI, &bvci, msg); ptp_ctx->state |= BVC_S_BLOCKED; rate_ctr_inc(rate_ctr_group_get_ctr(ptp_ctx->ctrg, BSSGP_CTR_BLOCKED)); /* Send NM_BVC_BLOCK.ind to NM */ memset(&nmp, 0, sizeof(nmp)); nmp.nsei = nsei; nmp.bvci = bvci; nmp.tp = tp; osmo_prim_init(&nmp.oph, SAP_BSSGP_NM, PRIM_NM_BVC_BLOCK, PRIM_OP_INDICATION, msg); bssgp_prim_cb(&nmp.oph, NULL); /* We always acknowledge the BLOCKing */ return bssgp_tx_simple_bvci(BSSGP_PDUT_BVC_BLOCK_ACK, nsei, bvci, msgb_bvci(msg)); }; static int bssgp_rx_bvc_unblock(struct msgb *msg, struct tlv_parsed *tp) { struct osmo_bssgp_prim nmp; uint16_t bvci, nsei = msgb_nsei(msg); struct bssgp_bvc_ctx *ptp_ctx; bvci = tlvp_val16be(tp, BSSGP_IE_BVCI); if (bvci == BVCI_SIGNALLING) { /* 8.3.2: Signalling BVC shall never be blocked */ LOGP(DLBSSGP, LOGL_ERROR, "NSEI=%u/BVCI=%u " "received unblock for signalling BVC!?!\n", nsei, msgb_bvci(msg)); return 0; } DEBUGP(DLBSSGP, "BSSGP BVCI=%u Rx BVC-UNBLOCK\n", bvci); ptp_ctx = btsctx_by_bvci_nsei(bvci, nsei); if (!ptp_ctx) return bssgp_tx_status(BSSGP_CAUSE_UNKNOWN_BVCI, &bvci, msg); ptp_ctx->state &= ~BVC_S_BLOCKED; /* Send NM_BVC_UNBLOCK.ind to NM */ memset(&nmp, 0, sizeof(nmp)); nmp.nsei = nsei; nmp.bvci = bvci; nmp.tp = tp; osmo_prim_init(&nmp.oph, SAP_BSSGP_NM, PRIM_NM_BVC_UNBLOCK, PRIM_OP_INDICATION, msg); bssgp_prim_cb(&nmp.oph, NULL); /* We always acknowledge the unBLOCKing */ return bssgp_tx_simple_bvci(BSSGP_PDUT_BVC_UNBLOCK_ACK, nsei, bvci, msgb_bvci(msg)); }; /* Uplink unit-data */ static int bssgp_rx_ul_ud(struct msgb *msg, struct tlv_parsed *tp, struct bssgp_bvc_ctx *ctx) { struct osmo_bssgp_prim gbp; struct bssgp_ud_hdr *budh = (struct bssgp_ud_hdr *) msgb_bssgph(msg); /* extract TLLI and parse TLV IEs */ msgb_tlli(msg) = osmo_ntohl(budh->tlli); DEBUGP(DLBSSGP, "BSSGP TLLI=0x%08x Rx UPLINK-UNITDATA\n", msgb_tlli(msg)); /* Cell ID and LLC_PDU are the only mandatory IE */ if (!TLVP_PRES_LEN(tp, BSSGP_IE_CELL_ID, 8) || !TLVP_PRESENT(tp, BSSGP_IE_LLC_PDU)) { LOGP(DLBSSGP, LOGL_ERROR, "BSSGP TLLI=0x%08x Rx UL-UD " "missing mandatory IE\n", msgb_tlli(msg)); return bssgp_tx_status(BSSGP_CAUSE_MISSING_MAND_IE, NULL, msg); } /* store pointer to LLC header and CELL ID in msgb->cb */ msgb_llch(msg) = (uint8_t *) TLVP_VAL(tp, BSSGP_IE_LLC_PDU); msgb_bcid(msg) = (uint8_t *) TLVP_VAL(tp, BSSGP_IE_CELL_ID); /* Send BSSGP_UL_UD.ind to NM */ memset(&gbp, 0, sizeof(gbp)); gbp.nsei = ctx->nsei; gbp.bvci = ctx->bvci; gbp.tlli = msgb_tlli(msg); gbp.tp = tp; osmo_prim_init(&gbp.oph, SAP_BSSGP_LL, PRIM_BSSGP_UL_UD, PRIM_OP_INDICATION, msg); return bssgp_prim_cb(&gbp.oph, NULL); } static int bssgp_rx_suspend(struct msgb *msg, struct tlv_parsed *tp) { struct osmo_bssgp_prim gbp; struct gprs_ra_id raid; uint32_t tlli; uint16_t ns_bvci = msgb_bvci(msg), nsei = msgb_nsei(msg); int rc; if (!TLVP_PRES_LEN(tp, BSSGP_IE_TLLI, 4) || !TLVP_PRES_LEN(tp, BSSGP_IE_ROUTEING_AREA, 6)) { LOGP(DLBSSGP, LOGL_ERROR, "BSSGP BVCI=%u Rx SUSPEND " "missing mandatory IE\n", ns_bvci); return bssgp_tx_status(BSSGP_CAUSE_MISSING_MAND_IE, NULL, msg); } tlli = tlvp_val32be(tp, BSSGP_IE_TLLI); DEBUGP(DLBSSGP, "BSSGP BVCI=%u TLLI=0x%08x Rx SUSPEND\n", ns_bvci, tlli); gsm48_parse_ra(&raid, TLVP_VAL(tp, BSSGP_IE_ROUTEING_AREA)); /* Inform GMM about the SUSPEND request */ memset(&gbp, 0, sizeof(gbp)); gbp.nsei = nsei; gbp.bvci = ns_bvci; gbp.tlli = tlli; gbp.ra_id = &raid; osmo_prim_init(&gbp.oph, SAP_BSSGP_GMM, PRIM_BSSGP_GMM_SUSPEND, PRIM_OP_REQUEST, msg); rc = bssgp_prim_cb(&gbp.oph, NULL); if (rc < 0) return bssgp_tx_suspend_nack(nsei, tlli, &raid, NULL); bssgp_tx_suspend_ack(nsei, tlli, &raid, 0); return 0; } static int bssgp_rx_resume(struct msgb *msg, struct tlv_parsed *tp) { struct osmo_bssgp_prim gbp; struct gprs_ra_id raid; uint32_t tlli; uint8_t suspend_ref; uint16_t ns_bvci = msgb_bvci(msg), nsei = msgb_nsei(msg); int rc; if (!TLVP_PRES_LEN(tp, BSSGP_IE_TLLI, 4 ) || !TLVP_PRES_LEN(tp, BSSGP_IE_ROUTEING_AREA, 6) || !TLVP_PRES_LEN(tp, BSSGP_IE_SUSPEND_REF_NR, 1)) { LOGP(DLBSSGP, LOGL_ERROR, "BSSGP BVCI=%u Rx RESUME " "missing mandatory IE\n", ns_bvci); return bssgp_tx_status(BSSGP_CAUSE_MISSING_MAND_IE, NULL, msg); } tlli = tlvp_val32be(tp, BSSGP_IE_TLLI); suspend_ref = *TLVP_VAL(tp, BSSGP_IE_SUSPEND_REF_NR); DEBUGP(DLBSSGP, "BSSGP BVCI=%u TLLI=0x%08x Rx RESUME\n", ns_bvci, tlli); gsm48_parse_ra(&raid, TLVP_VAL(tp, BSSGP_IE_ROUTEING_AREA)); /* Inform GMM about the RESUME request */ memset(&gbp, 0, sizeof(gbp)); gbp.nsei = nsei; gbp.bvci = ns_bvci; gbp.tlli = tlli; gbp.ra_id = &raid; gbp.u.resume.suspend_ref = suspend_ref; osmo_prim_init(&gbp.oph, SAP_BSSGP_GMM, PRIM_BSSGP_GMM_RESUME, PRIM_OP_REQUEST, msg); rc = bssgp_prim_cb(&gbp.oph, NULL); if (rc < 0) return bssgp_tx_resume_nack(nsei, tlli, &raid, NULL); bssgp_tx_resume_ack(nsei, tlli, &raid); return 0; } static int bssgp_rx_llc_disc(struct msgb *msg, struct tlv_parsed *tp, struct bssgp_bvc_ctx *ctx) { struct osmo_bssgp_prim nmp; uint32_t tlli = 0; uint16_t nsei = msgb_nsei(msg); if (!TLVP_PRES_LEN(tp, BSSGP_IE_TLLI, 4) || !TLVP_PRES_LEN(tp, BSSGP_IE_LLC_FRAMES_DISCARDED, 1) || !TLVP_PRES_LEN(tp, BSSGP_IE_BVCI, 2) || !TLVP_PRES_LEN(tp, BSSGP_IE_NUM_OCT_AFF, 3)) { LOGP(DLBSSGP, LOGL_ERROR, "BSSGP BVCI=%u Rx LLC DISCARDED " "missing mandatory IE\n", ctx->bvci); return bssgp_tx_status(BSSGP_CAUSE_MISSING_MAND_IE, NULL, msg); } tlli = tlvp_val32be(tp, BSSGP_IE_TLLI); DEBUGP(DLBSSGP, "BSSGP BVCI=%u TLLI=%08x Rx LLC DISCARDED\n", ctx->bvci, tlli); rate_ctr_inc(rate_ctr_group_get_ctr(ctx->ctrg, BSSGP_CTR_DISCARDED)); /* send NM_LLC_DISCARDED to NM */ memset(&nmp, 0, sizeof(nmp)); nmp.nsei = nsei; nmp.bvci = ctx->bvci; nmp.tlli = tlli; nmp.tp = tp; osmo_prim_init(&nmp.oph, SAP_BSSGP_NM, PRIM_NM_LLC_DISCARDED, PRIM_OP_INDICATION, msg); return bssgp_prim_cb(&nmp.oph, NULL); } int bssgp_rx_status(struct msgb *msg, struct tlv_parsed *tp, uint16_t bvci, struct bssgp_bvc_ctx *bctx) { uint16_t nsei = msgb_nsei(msg); struct osmo_bssgp_prim nmp; enum gprs_bssgp_cause cause; if (!TLVP_PRES_LEN(tp, BSSGP_IE_CAUSE, 1)) { LOGP(DLBSSGP, LOGL_ERROR, "BSSGP BVCI=%u Rx STATUS " "missing mandatory IE\n", bvci); cause = BSSGP_CAUSE_PROTO_ERR_UNSPEC; } else { cause = *TLVP_VAL(tp, BSSGP_IE_CAUSE); } LOGP(DLBSSGP, LOGL_NOTICE, "BSSGP BVCI=%u Rx BVC STATUS, cause=%s\n", bvci, bssgp_cause_str(cause)); if (cause == BSSGP_CAUSE_BVCI_BLOCKED || cause == BSSGP_CAUSE_UNKNOWN_BVCI) { if (!TLVP_PRES_LEN(tp, BSSGP_IE_BVCI, 2)) LOGP(DLBSSGP, LOGL_ERROR, "BSSGP BVCI=%u Rx STATUS cause=%s " "missing conditional BVCI IE\n", bvci, bssgp_cause_str(cause)); } if (bctx) rate_ctr_inc(rate_ctr_group_get_ctr(bctx->ctrg, BSSGP_CTR_STATUS)); /* send NM_STATUS to NM */ memset(&nmp, 0, sizeof(nmp)); nmp.nsei = nsei; nmp.bvci = bvci; nmp.tp = tp; osmo_prim_init(&nmp.oph, SAP_BSSGP_NM, PRIM_NM_STATUS, PRIM_OP_INDICATION, msg); return bssgp_prim_cb(&nmp.oph, NULL); } /* One element (msgb) in a BSSGP Flow Control queue */ struct bssgp_fc_queue_element { /* linked list of queue elements */ struct llist_head list; /* The message that we have enqueued */ struct msgb *msg; /* Length of the LLC PDU part of the contained message */ uint32_t llc_pdu_len; /* private pointer passed to the flow control out_cb function */ void *priv; }; static int fc_queue_timer_cfg(struct bssgp_flow_control *fc); static int bssgp_fc_needs_queueing(struct bssgp_flow_control *fc, uint32_t pdu_len); static void fc_timer_cb(void *data) { struct bssgp_flow_control *fc = data; struct bssgp_fc_queue_element *fcqe; struct timeval time_now; /* if the queue is empty, we return without sending something * and without re-starting the timer */ if (llist_empty(&fc->queue)) return; /* get the first entry from the queue */ fcqe = llist_entry(fc->queue.next, struct bssgp_fc_queue_element, list); if (bssgp_fc_needs_queueing(fc, fcqe->llc_pdu_len)) { LOGP(DLBSSGP, LOGL_NOTICE, "BSSGP-FC: fc_timer_cb() but still " "not able to send PDU of %u bytes\n", fcqe->llc_pdu_len); /* make sure we re-start the timer */ fc_queue_timer_cfg(fc); return; } /* remove from the queue */ llist_del(&fcqe->list); fc->queue_depth--; /* record the time we transmitted this PDU */ osmo_gettimeofday(&time_now, NULL); fc->time_last_pdu = time_now; /* call the output callback for this FC instance */ fc->out_cb(fcqe->priv, fcqe->msg, fcqe->llc_pdu_len, NULL); /* we expect that out_cb will in the end free the msgb once * it is no longer needed */ /* but we have to free the queue element ourselves */ talloc_free(fcqe); /* re-configure the timer for the next PDU */ fc_queue_timer_cfg(fc); } /* configure/schedule the flow control timer to expire once the bucket * will have leaked a sufficient number of bytes to transmit the next * PDU in the queue */ static int fc_queue_timer_cfg(struct bssgp_flow_control *fc) { struct bssgp_fc_queue_element *fcqe; uint32_t msecs; if (llist_empty(&fc->queue)) return 0; fcqe = llist_entry(fc->queue.next, struct bssgp_fc_queue_element, list); if (fc->bucket_leak_rate != 0) { /* Calculate the point in time at which we will have leaked * a sufficient number of bytes from the bucket to transmit * the first PDU in the queue */ msecs = (fcqe->llc_pdu_len * 1000) / fc->bucket_leak_rate; /* FIXME: add that time to fc->time_last_pdu and subtract it from * current time */ osmo_timer_setup(&fc->timer, fc_timer_cb, fc); osmo_timer_schedule(&fc->timer, msecs / 1000, (msecs % 1000) * 1000); } else { /* If the PCU is telling us to not send any more data at all, * there's no point starting a timer. */ } return 0; } /* Enqueue a PDU in the flow control queue for delayed transmission */ static int fc_enqueue(struct bssgp_flow_control *fc, struct msgb *msg, uint32_t llc_pdu_len, void *priv) { struct bssgp_fc_queue_element *fcqe; if (fc->queue_depth >= fc->max_queue_depth) return -ENOSPC; fcqe = talloc_zero(fc, struct bssgp_fc_queue_element); if (!fcqe) return -ENOMEM; fcqe->msg = msg; fcqe->llc_pdu_len = llc_pdu_len; fcqe->priv = priv; llist_add_tail(&fcqe->list, &fc->queue); fc->queue_depth++; /* re-configure the timer for dequeueing the pdu */ fc_queue_timer_cfg(fc); return 0; } /* According to Section 8.2 */ static int bssgp_fc_needs_queueing(struct bssgp_flow_control *fc, uint32_t pdu_len) { struct timeval time_now, time_diff; int64_t bucket_predicted; uint32_t csecs_elapsed, leaked; /* B' = B + L(p) - (Tc - Tp)*R */ /* compute number of centi-seconds that have elapsed since transmitting * the last PDU (Tc - Tp) */ osmo_gettimeofday(&time_now, NULL); timersub(&time_now, &fc->time_last_pdu, &time_diff); csecs_elapsed = time_diff.tv_sec*100 + time_diff.tv_usec/10000; /* compute number of bytes that have leaked in the elapsed number * of centi-seconds */ leaked = csecs_elapsed * (fc->bucket_leak_rate / 100); /* add the current PDU length to the last bucket level */ bucket_predicted = fc->bucket_counter + pdu_len; /* ... and subtract the number of leaked bytes */ bucket_predicted -= leaked; if (bucket_predicted < pdu_len) return 0; if (bucket_predicted <= fc->bucket_size_max) { /* the bucket is not full yet, we can pass the packet */ fc->bucket_counter = bucket_predicted; return 0; } /* bucket is full, PDU needs to be delayed */ return 1; } /* output callback for BVC flow control */ static int _bssgp_tx_dl_ud(struct bssgp_flow_control *fc, struct msgb *msg, uint32_t llc_pdu_len, void *priv) { return bssgp_ns_send(bssgp_ns_send_data, msg); } /* input function of the flow control implementation, called first * for the MM flow control, and then as the MM flow control output * callback in order to perform BVC flow control */ int bssgp_fc_in(struct bssgp_flow_control *fc, struct msgb *msg, uint32_t llc_pdu_len, void *priv) { struct timeval time_now; if (llc_pdu_len > fc->bucket_size_max) { LOGP(DLBSSGP, LOGL_NOTICE, "Single PDU (size=%u) is larger " "than maximum bucket size (%u)!\n", llc_pdu_len, fc->bucket_size_max); msgb_free(msg); return -EIO; } if (bssgp_fc_needs_queueing(fc, llc_pdu_len)) { int rc; rc = fc_enqueue(fc, msg, llc_pdu_len, priv); if (rc) msgb_free(msg); return rc; } else { /* record the time we transmitted this PDU */ osmo_gettimeofday(&time_now, NULL); fc->time_last_pdu = time_now; return fc->out_cb(priv, msg, llc_pdu_len, NULL); } } /* Initialize the Flow Control structure */ void bssgp_fc_init(struct bssgp_flow_control *fc, uint32_t bucket_size_max, uint32_t bucket_leak_rate, uint32_t max_queue_depth, int (*out_cb)(struct bssgp_flow_control *fc, struct msgb *msg, uint32_t llc_pdu_len, void *priv)) { fc->out_cb = out_cb; fc->bucket_size_max = bucket_size_max; fc->bucket_leak_rate = bucket_leak_rate; fc->max_queue_depth = max_queue_depth; INIT_LLIST_HEAD(&fc->queue); osmo_gettimeofday(&fc->time_last_pdu, NULL); } /* Initialize the Flow Control parameters for a new MS according to * default values for the BVC specified by BVCI and NSEI */ int bssgp_fc_ms_init(struct bssgp_flow_control *fc_ms, uint16_t bvci, uint16_t nsei, uint32_t max_queue_depth) { struct bssgp_bvc_ctx *ctx; ctx = btsctx_by_bvci_nsei(bvci, nsei); if (!ctx) return -ENODEV; /* output call-back of per-MS FC is per-CTX FC */ bssgp_fc_init(fc_ms, ctx->bmax_default_ms, ctx->r_default_ms, max_queue_depth, bssgp_fc_in); return 0; } static int bssgp_rx_fc_bvc(struct msgb *msg, struct tlv_parsed *tp, struct bssgp_bvc_ctx *bctx) { uint32_t old_leak_rate = bctx->fc->bucket_leak_rate; uint32_t old_r_def_ms = bctx->r_default_ms; DEBUGP(DLBSSGP, "BSSGP BVCI=%u Rx Flow Control BVC\n", bctx->bvci); if (!TLVP_PRES_LEN(tp, BSSGP_IE_TAG, 1) || !TLVP_PRES_LEN(tp, BSSGP_IE_BVC_BUCKET_SIZE, 2) || !TLVP_PRES_LEN(tp, BSSGP_IE_BUCKET_LEAK_RATE, 2) || !TLVP_PRES_LEN(tp, BSSGP_IE_BMAX_DEFAULT_MS, 2) || !TLVP_PRES_LEN(tp, BSSGP_IE_R_DEFAULT_MS,2)) { LOGP(DLBSSGP, LOGL_ERROR, "BSSGP BVCI=%u Rx FC BVC " "missing mandatory IE\n", bctx->bvci); return bssgp_tx_status(BSSGP_CAUSE_MISSING_MAND_IE, NULL, msg); } /* 11.3.5 Bucket Size in 100 octets unit */ bctx->fc->bucket_size_max = 100 * tlvp_val16be(tp, BSSGP_IE_BVC_BUCKET_SIZE); /* 11.3.4 Bucket Leak Rate in 100 bits/sec unit */ bctx->fc->bucket_leak_rate = 100 * tlvp_val16be(tp, BSSGP_IE_BUCKET_LEAK_RATE) / 8; /* 11.3.2 in octets */ bctx->bmax_default_ms = tlvp_val16be(tp, BSSGP_IE_BMAX_DEFAULT_MS); /* 11.3.32 Bucket Leak rate in 100bits/sec unit */ bctx->r_default_ms = 100 * tlvp_val16be(tp, BSSGP_IE_R_DEFAULT_MS) / 8; if (old_leak_rate != 0 && bctx->fc->bucket_leak_rate == 0) LOGP(DLBSSGP, LOGL_NOTICE, "BSS instructs us to bucket leak " "rate of 0, stopping all DL GPRS!\n"); else if (old_leak_rate == 0 && bctx->fc->bucket_leak_rate != 0) LOGP(DLBSSGP, LOGL_NOTICE, "BSS instructs us to bucket leak " "rate of != 0, restarting all DL GPRS!\n"); if (old_r_def_ms != 0 && bctx->r_default_ms == 0) LOGP(DLBSSGP, LOGL_NOTICE, "BSS instructs us to MS default " "bucket leak rate of 0, stopping DL GPRS!\n"); else if (old_r_def_ms == 0 && bctx->r_default_ms != 0) LOGP(DLBSSGP, LOGL_NOTICE, "BSS instructs us to MS default " "bucket leak rate != 0, restarting DL GPRS!\n"); /* reconfigure the timer for flow control based on new values */ fc_queue_timer_cfg(bctx->fc); /* Send FLOW_CONTROL_BVC_ACK */ return bssgp_tx_fc_bvc_ack(msgb_nsei(msg), *TLVP_VAL(tp, BSSGP_IE_TAG), msgb_bvci(msg)); } /* Receive a BSSGP PDU from a BSS on a PTP BVCI */ static int bssgp_rx_ptp(struct msgb *msg, struct tlv_parsed *tp, struct bssgp_bvc_ctx *bctx) { struct bssgp_normal_hdr *bgph = (struct bssgp_normal_hdr *) msgb_bssgph(msg); uint8_t pdu_type = bgph->pdu_type; int rc = 0; OSMO_ASSERT(pdu_type != BSSGP_PDUT_STATUS); /* If traffic is received on a BVC that is marked as blocked, the * received PDU shall not be accepted and a STATUS PDU (Cause value: * BVC Blocked) shall be sent to the peer entity on the signalling BVC */ if (bctx->state & BVC_S_BLOCKED) { uint16_t bvci = msgb_bvci(msg); return bssgp_tx_status(BSSGP_CAUSE_BVCI_BLOCKED, &bvci, msg); } switch (pdu_type) { case BSSGP_PDUT_UL_UNITDATA: /* some LLC data from the MS */ rc = bssgp_rx_ul_ud(msg, tp, bctx); break; case BSSGP_PDUT_RA_CAPABILITY: /* BSS requests RA capability or IMSI */ DEBUGP(DLBSSGP, "BSSGP BVCI=%u Rx RA CAPABILITY UPDATE\n", bctx->bvci); /* FIXME: send GMM_RA_CAPABILITY_UPDATE.ind to GMM */ /* FIXME: send RA_CAPA_UPDATE_ACK */ break; case BSSGP_PDUT_RADIO_STATUS: DEBUGP(DLBSSGP, "BSSGP BVCI=%u Rx RADIO STATUS\n", bctx->bvci); /* BSS informs us of some exception */ /* FIXME: send GMM_RADIO_STATUS.ind to GMM */ break; case BSSGP_PDUT_FLOW_CONTROL_BVC: /* BSS informs us of available bandwidth in Gb interface */ rc = bssgp_rx_fc_bvc(msg, tp, bctx); break; case BSSGP_PDUT_FLOW_CONTROL_MS: /* BSS informs us of available bandwidth to one MS */ DEBUGP(DLBSSGP, "BSSGP BVCI=%u Rx Flow Control MS\n", bctx->bvci); /* FIXME: actually implement flow control */ /* FIXME: Send FLOW_CONTROL_MS_ACK */ break; case BSSGP_PDUT_STATUS: /* This is already handled in bssgp_rcvmsg() */ break; case BSSGP_PDUT_BVC_RESET: rc = bssgp_rx_bvc_reset(msg, tp, bctx->bvci); break; case BSSGP_PDUT_DOWNLOAD_BSS_PFC: case BSSGP_PDUT_CREATE_BSS_PFC_ACK: case BSSGP_PDUT_CREATE_BSS_PFC_NACK: case BSSGP_PDUT_MODIFY_BSS_PFC: case BSSGP_PDUT_DELETE_BSS_PFC_ACK: DEBUGP(DLBSSGP, "BSSGP BVCI=%u Rx PDU type %s not [yet] " "implemented\n", bctx->bvci, bssgp_pdu_str(pdu_type)); rc = bssgp_tx_status(BSSGP_CAUSE_PDU_INCOMP_FEAT, NULL, msg); break; /* those only exist in the SGSN -> BSS direction */ case BSSGP_PDUT_DL_UNITDATA: case BSSGP_PDUT_PAGING_PS: case BSSGP_PDUT_PAGING_CS: case BSSGP_PDUT_RA_CAPA_UPDATE_ACK: case BSSGP_PDUT_FLOW_CONTROL_BVC_ACK: case BSSGP_PDUT_FLOW_CONTROL_MS_ACK: DEBUGP(DLBSSGP, "BSSGP BVCI=%u PDU type %s only exists in DL\n", bctx->bvci, bssgp_pdu_str(pdu_type)); bssgp_tx_status(BSSGP_CAUSE_PROTO_ERR_UNSPEC, NULL, msg); rc = -EINVAL; break; default: DEBUGP(DLBSSGP, "BSSGP BVCI=%u PDU type %s unknown\n", bctx->bvci, bssgp_pdu_str(pdu_type)); rc = bssgp_tx_status(BSSGP_CAUSE_PROTO_ERR_UNSPEC, NULL, msg); break; } return rc; } /* Receive a BSSGP PDU from a BSS on a SIGNALLING BVCI */ static int bssgp_rx_sign(struct msgb *msg, struct tlv_parsed *tp, struct bssgp_bvc_ctx *bctx) { struct bssgp_normal_hdr *bgph = (struct bssgp_normal_hdr *) msgb_bssgph(msg); uint8_t pdu_type = bgph->pdu_type; int rc = 0; uint16_t ns_bvci = msgb_bvci(msg); uint16_t bvci = bctx ? bctx->bvci : ns_bvci; switch (bgph->pdu_type) { case BSSGP_PDUT_SUSPEND: /* MS wants to suspend */ rc = bssgp_rx_suspend(msg, tp); break; case BSSGP_PDUT_RESUME: /* MS wants to resume */ rc = bssgp_rx_resume(msg, tp); break; case BSSGP_PDUT_FLUSH_LL_ACK: /* BSS informs us it has performed LL FLUSH */ DEBUGP(DLBSSGP, "BSSGP Rx BVCI=%u FLUSH LL ACK\n", bvci); /* FIXME: send NM_FLUSH_LL.res to NM */ break; case BSSGP_PDUT_LLC_DISCARD: /* BSS informs that some LLC PDU's have been discarded */ if (!bctx) { LOGP(DLBSSGP, LOGL_ERROR, "BSSGP Rx LLC-DISCARD missing mandatory BVCI\n"); goto err_mand_ie; } rc = bssgp_rx_llc_disc(msg, tp, bctx); break; case BSSGP_PDUT_BVC_BLOCK: /* BSS tells us that BVC shall be blocked */ if (!TLVP_PRES_LEN(tp, BSSGP_IE_BVCI, 2) || !TLVP_PRES_LEN(tp, BSSGP_IE_CAUSE, 1)) { LOGP(DLBSSGP, LOGL_ERROR, "BSSGP Rx BVC-BLOCK " "missing mandatory IE\n"); goto err_mand_ie; } rc = bssgp_rx_bvc_block(msg, tp); break; case BSSGP_PDUT_BVC_UNBLOCK: /* BSS tells us that BVC shall be unblocked */ if (!TLVP_PRES_LEN(tp, BSSGP_IE_BVCI, 2)) { LOGP(DLBSSGP, LOGL_ERROR, "BSSGP Rx BVC-UNBLOCK " "missing mandatory IE\n"); goto err_mand_ie; } rc = bssgp_rx_bvc_unblock(msg, tp); break; case BSSGP_PDUT_BVC_RESET_ACK: LOGP(DLBSSGP, LOGL_ERROR, "BSSGP BVCI=%u Rx BVC-RESET-ACK\n", bvci); break; case BSSGP_PDUT_BVC_RESET: /* SGSN or BSS tells us that BVC init is required */ if (!TLVP_PRES_LEN(tp, BSSGP_IE_BVCI, 2) || !TLVP_PRES_LEN(tp, BSSGP_IE_CAUSE, 1)) { LOGP(DLBSSGP, LOGL_ERROR, "BSSGP Rx BVC-RESET " "missing mandatory IE\n"); goto err_mand_ie; } rc = bssgp_rx_bvc_reset(msg, tp, ns_bvci); break; case BSSGP_PDUT_STATUS: /* This is already handled in bssgp_rcvmsg() */ break; case BSSGP_PDUT_RAN_INFO: case BSSGP_PDUT_RAN_INFO_REQ: case BSSGP_PDUT_RAN_INFO_ACK: case BSSGP_PDUT_RAN_INFO_ERROR: case BSSGP_PDUT_RAN_INFO_APP_ERROR: rc = bssgp_rx_rim(msg, tp, bvci); break; /* those only exist in the SGSN -> BSS direction */ case BSSGP_PDUT_PAGING_PS: case BSSGP_PDUT_PAGING_CS: case BSSGP_PDUT_SUSPEND_ACK: case BSSGP_PDUT_SUSPEND_NACK: case BSSGP_PDUT_RESUME_ACK: case BSSGP_PDUT_RESUME_NACK: case BSSGP_PDUT_FLUSH_LL: case BSSGP_PDUT_BVC_BLOCK_ACK: case BSSGP_PDUT_BVC_UNBLOCK_ACK: case BSSGP_PDUT_SGSN_INVOKE_TRACE: DEBUGP(DLBSSGP, "BSSGP BVCI=%u Rx PDU type %s only exists in DL\n", bvci, bssgp_pdu_str(pdu_type)); bssgp_tx_status(BSSGP_CAUSE_PROTO_ERR_UNSPEC, NULL, msg); rc = -EINVAL; break; default: DEBUGP(DLBSSGP, "BSSGP BVCI=%u Rx PDU type %s unknown\n", bvci, bssgp_pdu_str(pdu_type)); rc = bssgp_tx_status(BSSGP_CAUSE_PROTO_ERR_UNSPEC, NULL, msg); break; } return rc; err_mand_ie: return bssgp_tx_status(BSSGP_CAUSE_MISSING_MAND_IE, NULL, msg); } /* We expect msgb_bssgph() to point to the BSSGP header */ int bssgp_rcvmsg(struct msgb *msg) { struct bssgp_normal_hdr *bgph = (struct bssgp_normal_hdr *) msgb_bssgph(msg); struct bssgp_ud_hdr *budh = (struct bssgp_ud_hdr *) msgb_bssgph(msg); struct tlv_parsed tp; struct bssgp_bvc_ctx *bctx; uint8_t pdu_type = bgph->pdu_type; uint16_t ns_bvci = msgb_bvci(msg); uint16_t nsei = msgb_nsei(msg); uint16_t bvci = ns_bvci; int data_len; int rc = 0; /* Identifiers from DOWN: NSEI, BVCI (both in msg->cb) */ /* UNITDATA BSSGP headers have TLLI in front */ if (pdu_type != BSSGP_PDUT_UL_UNITDATA && pdu_type != BSSGP_PDUT_DL_UNITDATA) { data_len = msgb_bssgp_len(msg) - sizeof(*bgph); rc = bssgp_tlv_parse(&tp, bgph->data, data_len); } else { data_len = msgb_bssgp_len(msg) - sizeof(*budh); rc = bssgp_tlv_parse(&tp, budh->data, data_len); } if (rc < 0) { LOGP(DLBSSGP, LOGL_ERROR, "Failed to parse BSSGP %s message. Invalid message was: %s\n", bssgp_pdu_str(pdu_type), msgb_hexdump(msg)); if (pdu_type != BSSGP_PDUT_STATUS) return bssgp_tx_status(BSSGP_CAUSE_INV_MAND_INF, NULL, msg); return rc; } if (bvci == BVCI_SIGNALLING && TLVP_PRES_LEN(&tp, BSSGP_IE_BVCI, 2)) bvci = tlvp_val16be(&tp, BSSGP_IE_BVCI); /* look-up or create the BTS context for this BVC */ bctx = btsctx_by_bvci_nsei(bvci, nsei); if (bctx) { log_set_context(LOG_CTX_GB_BVC, bctx); rate_ctr_inc(rate_ctr_group_get_ctr(bctx->ctrg, BSSGP_CTR_PKTS_IN)); rate_ctr_add(rate_ctr_group_get_ctr(bctx->ctrg, BSSGP_CTR_BYTES_IN), msgb_bssgp_len(msg)); } /* Always handle STATUS PDUs, even if they contain an invalid BVCI or * are otherwise unexpected */ if (pdu_type == BSSGP_PDUT_STATUS) /* Some exception has occurred */ return bssgp_rx_status(msg, &tp, bvci, bctx); /* Only a RESET PDU can create a new BVC context, otherwise it must be * registered if a BVCI is given. */ if (!bctx && bvci != BVCI_SIGNALLING && pdu_type != BSSGP_PDUT_BVC_RESET) { LOGP(DLBSSGP, LOGL_NOTICE, "NSEI=%u/BVCI=%u Rejecting PDU type %s for unknown BVCI\n", nsei, bvci, bssgp_pdu_str(pdu_type)); return bssgp_tx_status(BSSGP_CAUSE_UNKNOWN_BVCI, &bvci, msg); } if (ns_bvci == BVCI_SIGNALLING) rc = bssgp_rx_sign(msg, &tp, bctx); else if (ns_bvci == BVCI_PTM) rc = bssgp_tx_status(BSSGP_CAUSE_PDU_INCOMP_FEAT, NULL, msg); else if (bctx) rc = bssgp_rx_ptp(msg, &tp, bctx); else LOGP(DLBSSGP, LOGL_NOTICE, "NSEI=%u/BVCI=%u Cannot handle PDU type %s for unknown BVCI, NS BVCI %u\n", nsei, bvci, bssgp_pdu_str(pdu_type), ns_bvci); return rc; } int bssgp_tx_dl_ud(struct msgb *msg, uint16_t pdu_lifetime, struct bssgp_dl_ud_par *dup) { struct bssgp_bvc_ctx *bctx; struct bssgp_ud_hdr *budh; uint8_t llc_pdu_tlv_hdr_len = 2; uint8_t *llc_pdu_tlv; uint16_t msg_len = msg->len; uint16_t bvci = msgb_bvci(msg); uint16_t nsei = msgb_nsei(msg); uint16_t _pdu_lifetime = osmo_htons(pdu_lifetime); /* centi-seconds */ uint16_t drx_params; OSMO_ASSERT(dup != NULL); /* Identifiers from UP: TLLI, BVCI, NSEI (all in msgb->cb) */ if (bvci <= BVCI_PTM ) { LOGP(DLBSSGP, LOGL_ERROR, "Cannot send DL-UD to BVCI %u\n", bvci); msgb_free(msg); return -EINVAL; } bctx = btsctx_by_bvci_nsei(bvci, nsei); if (!bctx) { LOGP(DLBSSGP, LOGL_ERROR, "Cannot send DL-UD to unknown BVCI %u\n", bvci); msgb_free(msg); return -ENODEV; } if (msg->len > TVLV_MAX_ONEBYTE) llc_pdu_tlv_hdr_len += 1; /* prepend the tag and length of the LLC-PDU TLV */ llc_pdu_tlv = msgb_push(msg, llc_pdu_tlv_hdr_len); llc_pdu_tlv[0] = BSSGP_IE_LLC_PDU; if (llc_pdu_tlv_hdr_len > 2) { llc_pdu_tlv[1] = msg_len >> 8; llc_pdu_tlv[2] = msg_len & 0xff; } else { llc_pdu_tlv[1] = msg_len & 0x7f; llc_pdu_tlv[1] |= 0x80; } /* FIXME: optional elements: Alignment, UTRAN CCO, LSA, PFI */ /* Old TLLI to help BSS map from old->new */ if (dup->tlli) { uint32_t tlli = osmo_htonl(*dup->tlli); msgb_tvlv_push(msg, BSSGP_IE_TLLI, 4, (uint8_t *) &tlli); } /* IMSI */ if (dup->imsi && strlen(dup->imsi)) { uint8_t mi[GSM48_MID_MAX_SIZE]; /* gsm48_generate_mid_from_imsi() is guaranteed to never return more than 11, * but somehow gcc (8.2) is not smart enough to figure this out and claims that * the memcpy in msgb_tvlv_put() below will cause and out-of-bounds access up to * mi[131], which is wrong */ #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Warray-bounds" int imsi_len = gsm48_generate_mid_from_imsi(mi, dup->imsi); OSMO_ASSERT(imsi_len <= GSM48_MID_MAX_SIZE); if (imsi_len > 2) msgb_tvlv_push(msg, BSSGP_IE_IMSI, imsi_len-2, mi+2); #pragma GCC diagnostic pop } /* DRX parameters */ drx_params = osmo_htons(dup->drx_parms); msgb_tvlv_push(msg, BSSGP_IE_DRX_PARAMS, 2, (uint8_t *) &drx_params); /* FIXME: Priority */ /* MS Radio Access Capability */ if (dup->ms_ra_cap.len) msgb_tvlv_push(msg, BSSGP_IE_MS_RADIO_ACCESS_CAP, dup->ms_ra_cap.len, dup->ms_ra_cap.v); /* prepend the pdu lifetime */ msgb_tvlv_push(msg, BSSGP_IE_PDU_LIFETIME, 2, (uint8_t *)&_pdu_lifetime); /* prepend the QoS profile, TLLI and pdu type */ budh = (struct bssgp_ud_hdr *) msgb_push(msg, sizeof(*budh)); memcpy(budh->qos_profile, dup->qos_profile, sizeof(budh->qos_profile)); budh->tlli = osmo_htonl(msgb_tlli(msg)); budh->pdu_type = BSSGP_PDUT_DL_UNITDATA; rate_ctr_inc(rate_ctr_group_get_ctr(bctx->ctrg, BSSGP_CTR_PKTS_OUT)); rate_ctr_add(rate_ctr_group_get_ctr(bctx->ctrg, BSSGP_CTR_BYTES_OUT), msg->len); /* Identifiers down: BVCI, NSEI (in msgb->cb) */ /* check if we have to go through per-ms flow control or can go * directly to the per-BSS flow control */ if (dup->fc) return bssgp_fc_in(dup->fc, msg, msg_len, bctx->fc); else return bssgp_fc_in(bctx->fc, msg, msg_len, NULL); } /* Send a single GMM-PAGING.req to a given NSEI/NS-BVCI */ int bssgp_tx_paging(uint16_t nsei, uint16_t ns_bvci, struct bssgp_paging_info *pinfo) { struct msgb *msg = bssgp_msgb_alloc(); struct bssgp_normal_hdr *bgph = (struct bssgp_normal_hdr *) msgb_put(msg, sizeof(*bgph)); uint16_t drx_params = osmo_htons(pinfo->drx_params); uint8_t mi[GSM48_MID_MAX_SIZE]; int imsi_len = gsm48_generate_mid_from_imsi(mi, pinfo->imsi); struct gsm48_ra_id ra; if (imsi_len < 2) return -EINVAL; msgb_nsei(msg) = nsei; msgb_bvci(msg) = ns_bvci; if (pinfo->mode == BSSGP_PAGING_PS) bgph->pdu_type = BSSGP_PDUT_PAGING_PS; else bgph->pdu_type = BSSGP_PDUT_PAGING_CS; /* IMSI */ /* gsm48_generate_mid_from_imsi() is guaranteed to never return more than 11, * but somehow gcc (8.2) is not smart enough to figure this out and claims that * the memcpy in msgb_tvlv_put() below will cause and out-of-bounds access up to * mi[131], which is wrong */ #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Warray-bounds" OSMO_ASSERT(imsi_len <= GSM48_MID_MAX_SIZE); msgb_tvlv_put(msg, BSSGP_IE_IMSI, imsi_len-2, mi+2); #pragma GCC diagnostic pop /* DRX Parameters */ msgb_tvlv_put(msg, BSSGP_IE_DRX_PARAMS, 2, (uint8_t *) &drx_params); /* Scope */ switch (pinfo->scope) { case BSSGP_PAGING_BSS_AREA: { uint8_t null = 0; msgb_tvlv_put(msg, BSSGP_IE_BSS_AREA_ID, 1, &null); } break; case BSSGP_PAGING_LOCATION_AREA: gsm48_encode_ra(&ra, &pinfo->raid); msgb_tvlv_put(msg, BSSGP_IE_LOCATION_AREA, 4, (const uint8_t *)&ra); break; case BSSGP_PAGING_ROUTEING_AREA: bssgp_msgb_ra_put(msg, &pinfo->raid); break; case BSSGP_PAGING_BVCI: { uint16_t bvci = osmo_htons(pinfo->bvci); msgb_tvlv_put(msg, BSSGP_IE_BVCI, 2, (uint8_t *)&bvci); } break; } /* QoS profile mandatory for PS */ if (pinfo->mode == BSSGP_PAGING_PS) msgb_tvlv_put(msg, BSSGP_IE_QOS_PROFILE, 3, pinfo->qos); /* Optional (P-)TMSI */ if (pinfo->ptmsi) { uint32_t ptmsi = osmo_htonl(*pinfo->ptmsi); msgb_tvlv_put(msg, BSSGP_IE_TMSI, 4, (uint8_t *) &ptmsi); } return bssgp_ns_send(bssgp_ns_send_data, msg); } void bssgp_set_log_ss(int ss) { /* BSSGP has moved from DGPRS to DLGPRS, please update your code if it's * still calling this function */ } /*! * \brief Flush the queue of the bssgp_flow_control * \param[in] The flow control object which holds the queue. */ void bssgp_fc_flush_queue(struct bssgp_flow_control *fc) { struct bssgp_fc_queue_element *element, *tmp; llist_for_each_entry_safe(element, tmp, &fc->queue, list) { msgb_free(element->msg); llist_del(&element->list); talloc_free(element); } } /*! * \brief Flush the queues of all BSSGP contexts. */ void bssgp_flush_all_queues(void) { struct bssgp_bvc_ctx *bctx; llist_for_each_entry(bctx, &bssgp_bvc_ctxts, list) { if (bctx->fc) bssgp_fc_flush_queue(bctx->fc); } }