/* GSM Mobile Radio Interface Layer 3 messages on the A-bis interface * 3GPP TS 04.08 version 7.21.0 Release 1998 / ETSI TS 100 940 V7.21.0 */ /* (C) 2009-2010 by Harald Welte * * All Rights Reserved * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include extern struct sgsn_instance *sgsn; /* Protocol related stuff, should go into libosmocore */ /* 10.5.5.14 GPRS MM Cause / Table 10.5.147 */ const struct value_string gmm_cause_names[] = { /* FIXME */ { GMM_CAUSE_SEM_INCORR_MSG, "Semantically incorrect message" }, { GMM_CAUSE_INV_MAND_INFO, "Invalid mandatory information" }, { GMM_CAUSE_MSGT_NOTEXIST_NOTIMPL, "Message type non-existant or not implemented" }, { GMM_CAUSE_MSGT_INCOMP_P_STATE, "Message type not compatible with protocol state" }, { GMM_CAUSE_IE_NOTEXIST_NOTIMPL, "Information element non-existent or not implemented" }, { GMM_CAUSE_COND_IE_ERR, "Conditional IE error" }, { GMM_CAUSE_MSG_INCOMP_P_STATE, "Message not compatible with protocol state " }, { GMM_CAUSE_PROTO_ERR_UNSPEC, "Protocol error, unspecified" }, { 0, NULL } }; /* 10.5.6.6 SM Cause / Table 10.5.157 */ const struct value_string gsm_cause_names[] = { { GSM_CAUSE_INSUFF_RSRC, "Insufficient resources" }, { GSM_CAUSE_MISSING_APN, "Missing or unknown APN" }, { GSM_CAUSE_UNKNOWN_PDP, "Unknown PDP address or PDP type" }, { GSM_CAUSE_AUTH_FAILED, "User Authentication failed" }, { GSM_CAUSE_ACT_REJ_GGSN, "Activation rejected by GGSN" }, { GSM_CAUSE_ACT_REJ_UNSPEC, "Activation rejected, unspecified" }, { GSM_CAUSE_SERV_OPT_NOTSUPP, "Service option not supported" }, { GSM_CAUSE_REQ_SERV_OPT_NOTSUB, "Requested service option not subscribed" }, { GSM_CAUSE_SERV_OPT_TEMP_OOO, "Service option temporarily out of order" }, { GSM_CAUSE_NSAPI_IN_USE, "NSAPI already used" }, { GSM_CAUSE_DEACT_REGULAR, "Regular deactivation" }, { GSM_CAUSE_QOS_NOT_ACCEPTED, "QoS not accepted" }, { GSM_CAUSE_NET_FAIL, "Network Failure" }, { GSM_CAUSE_REACT_RQD, "Reactivation required" }, { GSM_CAUSE_FEATURE_NOTSUPP, "Feature not supported " }, { GSM_CAUSE_INVALID_TRANS_ID, "Invalid transaction identifier" }, { GSM_CAUSE_SEM_INCORR_MSG, "Semantically incorrect message" }, { GSM_CAUSE_INV_MAND_INFO, "Invalid mandatory information" }, { GSM_CAUSE_MSGT_NOTEXIST_NOTIMPL, "Message type non-existant or not implemented" }, { GSM_CAUSE_MSGT_INCOMP_P_STATE, "Message type not compatible with protocol state" }, { GSM_CAUSE_IE_NOTEXIST_NOTIMPL, "Information element non-existent or not implemented" }, { GSM_CAUSE_COND_IE_ERR, "Conditional IE error" }, { GSM_CAUSE_MSG_INCOMP_P_STATE, "Message not compatible with protocol state " }, { GSM_CAUSE_PROTO_ERR_UNSPEC, "Protocol error, unspecified" }, { 0, NULL } }; /* 10.5.5.2 */ const struct value_string gprs_att_t_strs[] = { { GPRS_ATT_T_ATTACH, "GPRS attach" }, { GPRS_ATT_T_ATT_WHILE_IMSI, "GPRS attach while IMSI attached" }, { GPRS_ATT_T_COMBINED, "Combined GPRS/IMSI attach" }, { 0, NULL } }; const struct value_string gprs_upd_t_strs[] = { { GPRS_UPD_T_RA, "RA updating" }, { GPRS_UPD_T_RA_LA, "combined RA/LA updating" }, { GPRS_UPD_T_RA_LA_IMSI_ATT, "combined RA/LA updating + IMSI attach" }, { GPRS_UPD_T_PERIODIC, "periodic updating" }, { 0, NULL } }; /* 10.5.5.5 */ const struct value_string gprs_det_t_mo_strs[] = { { GPRS_DET_T_MO_GPRS, "GPRS detach" }, { GPRS_DET_T_MO_IMSI, "IMSI detach" }, { GPRS_DET_T_MO_COMBINED, "Combined GPRS/IMSI detach" }, { 0, NULL } }; /* Our implementation, should be kept in SGSN */ /* Send a message through the underlying layer */ static int gsm48_gmm_sendmsg(struct msgb *msg, int command) { /* caller needs to provide TLLI, BVCI and NSEI */ return gprs_llc_tx_ui(msg, GPRS_SAPI_GMM, command); } /* copy identifiers from old message to new message, this * is required so lower layers can route it correctly */ static void gmm_copy_id(struct msgb *msg, const struct msgb *old) { msgb_tlli(msg) = msgb_tlli(old); msgb_bvci(msg) = msgb_bvci(old); msgb_nsei(msg) = msgb_nsei(old); } static struct gsm48_qos default_qos = { .delay_class = 4, /* best effort */ .reliab_class = GSM48_QOS_RC_LLC_UN_RLC_ACK_DATA_PROT, .peak_tput = GSM48_QOS_PEAK_TPUT_32000bps, .preced_class = GSM48_QOS_PC_NORMAL, .mean_tput = GSM48_QOS_MEAN_TPUT_BEST_EFFORT, .traf_class = GSM48_QOS_TC_INTERACTIVE, .deliv_order = GSM48_QOS_DO_UNORDERED, .deliv_err_sdu = GSM48_QOS_ERRSDU_YES, .max_sdu_size = GSM48_QOS_MAXSDU_1520, .max_bitrate_up = GSM48_QOS_MBRATE_63k, .max_bitrate_down = GSM48_QOS_MBRATE_63k, .resid_ber = GSM48_QOS_RBER_5e_2, .sdu_err_ratio = GSM48_QOS_SERR_1e_2, .handling_prio = 3, .xfer_delay = 0x10, /* 200ms */ .guar_bitrate_up = GSM48_QOS_MBRATE_0k, .guar_bitrate_down = GSM48_QOS_MBRATE_0k, .sig_ind = 0, /* not optimised for signalling */ .max_bitrate_down_ext = 0, /* use octet 9 */ .guar_bitrate_down_ext = 0, /* use octet 13 */ }; /* Chapter 9.4.2: Attach accept */ static int gsm48_tx_gmm_att_ack(struct msgb *old_msg) { struct msgb *msg = gsm48_msgb_alloc(); struct gsm48_hdr *gh; struct gsm48_attach_ack *aa; struct gprs_ra_id ra_id; DEBUGP(DMM, "<- GPRS ATTACH ACCEPT\n"); gmm_copy_id(msg, old_msg); gh = (struct gsm48_hdr *) msgb_put(msg, sizeof(*gh)); gh->proto_discr = GSM48_PDISC_MM_GPRS; gh->msg_type = GSM48_MT_GMM_ATTACH_ACK; aa = (struct gsm48_attach_ack *) msgb_put(msg, sizeof(*aa)); aa->force_stby = 0; /* not indicated */ aa->att_result = 1; /* GPRS only */ aa->ra_upd_timer = GPRS_TMR_MINUTE | 10; aa->radio_prio = 4; /* lowest */ bssgp_parse_cell_id(&ra_id, msgb_bcid(old_msg)); gsm48_construct_ra(aa->ra_id.digits, &ra_id); /* Option: P-TMSI signature, allocated P-TMSI, MS ID, ... */ return gsm48_gmm_sendmsg(msg, 0); } /* Chapter 9.4.5: Attach reject */ static int gsm48_tx_gmm_att_rej(struct msgb *old_msg, uint8_t gmm_cause) { struct msgb *msg = gsm48_msgb_alloc(); struct gsm48_hdr *gh; DEBUGP(DMM, "<- GPRS ATTACH REJECT\n"); gmm_copy_id(msg, old_msg); gh = (struct gsm48_hdr *) msgb_put(msg, sizeof(*gh) + 1); gh->proto_discr = GSM48_PDISC_MM_GPRS; gh->msg_type = GSM48_MT_GMM_ATTACH_REJ; gh->data[0] = gmm_cause; return gsm48_gmm_sendmsg(msg, 0); } /* Chapter 9.4.6.2 Detach accept */ static gsm48_tx_gmm_det_ack(struct msgb *old_msg, uint8_t force_stby) { struct msgb *msg = gsm48_msgb_alloc(); struct gsm48_hdr *gh; DEBUGP(DMM, "<- GPRS DETACH ACCEPT\n"); gh = (struct gsm48_hdr *) msgb_put(msg, sizeof(*gh) + 1); gh->proto_discr = GSM48_PDISC_MM_GPRS; gh->msg_type = GSM48_MT_GMM_DETACH_ACK; gh->data[0] = force_stby; return gsm48_gmm_sendmsg(msg, 0); } /* Transmit Chapter 9.4.12 Identity Request */ static int gsm48_tx_gmm_id_req(struct msgb *old_msg, uint8_t id_type) { struct msgb *msg = gsm48_msgb_alloc(); struct gsm48_hdr *gh; DEBUGP(DMM, "-> GPRS IDENTITY REQUEST: mi_type=%02x\n", id_type); gmm_copy_id(msg, old_msg); gh = (struct gsm48_hdr *) msgb_put(msg, sizeof(*gh) + 1); gh->proto_discr = GSM48_PDISC_MM_GPRS; gh->msg_type = GSM48_MT_GMM_ID_REQ; /* 10.5.5.9 ID type 2 + identity type and 10.5.5.7 'force to standby' IE */ gh->data[0] = id_type & 0xf; return gsm48_gmm_sendmsg(msg, 0); } /* Check if we can already authorize a subscriber */ static int gsm48_gmm_authorize(struct sgsn_mm_ctx *ctx, struct msgb *msg) { if (strlen(ctx->imei) && strlen(ctx->imsi)) { ctx->mm_state = GMM_REGISTERED_NORMAL; return gsm48_tx_gmm_att_ack(msg); } if (!strlen(ctx->imei)) return gsm48_tx_gmm_id_req(msg, GSM_MI_TYPE_IMEI); if (!strlen(ctx->imsi)) return gsm48_tx_gmm_id_req(msg, GSM_MI_TYPE_IMSI); return 0; } /* Parse Chapter 9.4.13 Identity Response */ static int gsm48_rx_gmm_id_resp(struct sgsn_mm_ctx *ctx, struct msgb *msg) { struct gsm48_hdr *gh = (struct gsm48_hdr *) msgb_gmmh(msg); uint8_t mi_type = gh->data[1] & GSM_MI_TYPE_MASK; char mi_string[GSM48_MI_SIZE]; struct gprs_ra_id ra_id; gsm48_mi_to_string(mi_string, sizeof(mi_string), &gh->data[1], gh->data[0]); DEBUGP(DMM, "-> GMM IDENTITY RESPONSE: mi_type=0x%02x MI(%s) ", mi_type, mi_string); if (!ctx) { DEBUGP(DMM, "from unknown TLLI 0x%08x?!?\n", msgb_tlli(msg)); return -EINVAL; } switch (mi_type) { case GSM_MI_TYPE_IMSI: /* we already have a mm context with current TLLI, but no * P-TMSI / IMSI yet. What we now need to do is to fill * this initial context with data from the HLR */ strncpy(ctx->imsi, mi_string, sizeof(ctx->imei)); break; case GSM_MI_TYPE_IMEI: strncpy(ctx->imei, mi_string, sizeof(ctx->imei)); break; case GSM_MI_TYPE_IMEISV: break; } DEBUGPC(DMM, "\n"); /* Check if we can let the mobile station enter */ return gsm48_gmm_authorize(ctx, msg); } static void attach_rej_cb(void *data) { struct sgsn_mm_ctx *ctx = data; /* FIXME: determine through which BTS/TRX to send this */ //gsm48_tx_gmm_att_rej(ctx->tlli, GMM_CAUSE_MS_ID_NOT_DERIVED); ctx->mm_state = GMM_DEREGISTERED; /* FIXME: release the context */ } static void schedule_reject(struct sgsn_mm_ctx *ctx) { ctx->T = 3370; ctx->timer.cb = attach_rej_cb; ctx->timer.data = ctx; bsc_schedule_timer(&ctx->timer, 6, 0); } /* Section 9.4.1 Attach request */ static int gsm48_rx_gmm_att_req(struct sgsn_mm_ctx *mmctx, struct msgb *msg) { struct gsm48_hdr *gh = (struct gsm48_hdr *) msgb_gmmh(msg); uint8_t *cur = gh->data, *msnc, *mi, *old_ra_info; uint8_t msnc_len, att_type, mi_len, mi_type; uint16_t drx_par; uint32_t tmsi; char mi_string[GSM48_MI_SIZE]; struct gprs_ra_id ra_id; uint16_t cid; struct sgsn_mm_ctx *ctx; DEBUGP(DMM, "-> GMM ATTACH REQUEST "); /* As per TS 04.08 Chapter 4.7.1.4, the attach request arrives either * with a foreign TLLI (P-TMSI that was allocated to the MS before), * or with random TLLI. */ cid = bssgp_parse_cell_id(&ra_id, msgb_bcid(msg)); /* MS network capability 10.5.5.12 */ msnc_len = *cur++; msnc = cur; if (msnc_len > 2) goto err_inval; cur += msnc_len; /* aTTACH Type 10.5.5.2 */ att_type = *cur++ & 0x0f; /* DRX parameter 10.5.5.6 */ drx_par = *cur++; drx_par |= *cur++ << 8; /* Mobile Identity (P-TMSI or IMSI) 10.5.1.4 */ mi_len = *cur++; mi = cur; if (mi_len > 8) goto err_inval; mi_type = *mi & GSM_MI_TYPE_MASK; cur += mi_len; gsm48_mi_to_string(mi_string, sizeof(mi_string), mi, mi_len); DEBUGPC(DMM, "MI(%s) type=\"%s\" ", mi_string, get_value_string(gprs_att_t_strs, att_type)); /* Old routing area identification 10.5.5.15 */ old_ra_info = cur; cur += 6; /* MS Radio Access Capability 10.5.5.12a */ /* Optional: Old P-TMSI Signature, Requested READY timer, TMSI Status */ switch (mi_type) { case GSM_MI_TYPE_IMSI: /* Try to find MM context based on IMSI */ ctx = sgsn_mm_ctx_by_imsi(mi_string); if (!ctx) { #if 0 return gsm48_tx_gmm_att_rej(msg, GMM_CAUSE_IMSI_UNKNOWN); #else /* As a temorary hack, we simply assume that the IMSI exists */ ctx = sgsn_mm_ctx_alloc(0, &ra_id); if (!ctx) return gsm48_tx_gmm_att_rej(msg, GMM_CAUSE_NET_FAIL); strncpy(ctx->imsi, mi_string, sizeof(ctx->imsi)); #endif } /* FIXME: Start some timer */ ctx->mm_state = GMM_COMMON_PROC_INIT; ctx->tlli = msgb_tlli(msg); break; case GSM_MI_TYPE_TMSI: tmsi = strtoul(mi_string, NULL, 10); /* Try to find MM context based on P-TMSI */ ctx = sgsn_mm_ctx_by_ptmsi(tmsi); if (!ctx) { ctx = sgsn_mm_ctx_alloc(msgb_tlli(msg), &ra_id); /* FIXME: Start some timer */ ctx->mm_state = GMM_COMMON_PROC_INIT; ctx->tlli = msgb_tlli(msg); } break; default: return 0; } /* Update MM Context with currient RA and Cell ID */ ctx->ra = ra_id; ctx->cell_id = cid; /* FIXME: allocate a new P-TMSI (+ P-TMSI signature) */ /* FIXME: update the TLLI with the new local TLLI based on the P-TMSI */ DEBUGPC(DMM, "\n"); return ctx ? gsm48_gmm_authorize(ctx, msg) : 0; err_inval: DEBUGPC(DMM, "\n"); return gsm48_tx_gmm_att_rej(msg, GMM_CAUSE_SEM_INCORR_MSG); } /* Section 4.7.4.1 / 9.4.5.2 MO Detach request */ static int gsm48_rx_gmm_det_req(struct sgsn_mm_ctx *ctx, struct msgb *msg) { struct gsm48_hdr *gh = (struct gsm48_hdr *) msgb_gmmh(msg); uint8_t detach_type, power_off; detach_type = gh->data[0] & 0x7; power_off = gh->data[0] & 0x8; /* FIXME: In 24.008 there is an optional P-TMSI and P-TMSI signature IE */ DEBUGP(DMM, "-> GMM DETACH REQUEST TLLI=0x%08x type=%s %s\n", msgb_tlli(msg), get_value_string(gprs_det_t_mo_strs, detach_type), power_off ? "Power-off" : ""); /* Mark MM state as deregistered */ ctx->mm_state = GMM_DEREGISTERED; /* force_stby = 0 */ return gsm48_tx_gmm_det_ack(msg, 0); } /* Chapter 9.4.15: Routing area update accept */ static int gsm48_tx_gmm_ra_upd_ack(struct msgb *old_msg) { struct msgb *msg = gsm48_msgb_alloc(); struct gsm48_hdr *gh; struct gsm48_ra_upd_ack *rua; struct gprs_ra_id ra_id; DEBUGP(DMM, "<- ROUTING AREA UPDATE ACCEPT\n"); gmm_copy_id(msg, old_msg); gh = (struct gsm48_hdr *) msgb_put(msg, sizeof(*gh)); gh->proto_discr = GSM48_PDISC_MM_GPRS; gh->msg_type = GSM48_MT_GMM_RA_UPD_ACK; rua = (struct gsm48_ra_upd_ack *) msgb_put(msg, sizeof(*rua)); rua->force_stby = 0; /* not indicated */ rua->upd_result = 0; /* RA updated */ rua->ra_upd_timer = GPRS_TMR_MINUTE | 10; bssgp_parse_cell_id(&ra_id, msgb_bcid(old_msg)); gsm48_construct_ra(rua->ra_id.digits, &ra_id); /* Option: P-TMSI signature, allocated P-TMSI, MS ID, ... */ return gsm48_gmm_sendmsg(msg, 0); } /* Chapter 9.4.17: Routing area update reject */ static int gsm48_tx_gmm_ra_upd_rej(struct msgb *old_msg, uint8_t cause) { struct msgb *msg = gsm48_msgb_alloc(); struct gsm48_hdr *gh; DEBUGP(DMM, "<- ROUTING AREA UPDATE REJECT\n"); gmm_copy_id(msg, old_msg); gh = (struct gsm48_hdr *) msgb_put(msg, sizeof(*gh) + 2); gh->proto_discr = GSM48_PDISC_MM_GPRS; gh->msg_type = GSM48_MT_GMM_RA_UPD_REJ; gh->data[0] = cause; gh->data[1] = 0; /* ? */ /* Option: P-TMSI signature, allocated P-TMSI, MS ID, ... */ return gsm48_gmm_sendmsg(msg, 0); } /* Chapter 9.4.14: Routing area update request */ static int gsm48_rx_gmm_ra_upd_req(struct sgsn_mm_ctx *mmctx, struct msgb *msg) { struct gsm48_hdr *gh = (struct gsm48_hdr *) msgb_gmmh(msg); uint8_t *cur = gh->data; struct gprs_ra_id old_ra_id; uint8_t upd_type; /* Update Type 10.5.5.18 */ upd_type = *cur++ & 0x0f; DEBUGP(DMM, "-> GMM RA UPDATE REQUEST type=\"%s\" ", get_value_string(gprs_upd_t_strs, upd_type)); /* Old routing area identification 10.5.5.15 */ gsm48_parse_ra(&old_ra_id, cur); cur += 6; /* MS Radio Access Capability 10.5.5.12a */ /* Optional: Old P-TMSI Signature, Requested READY timer, TMSI Status, * DRX parameter, MS network capability */ switch (upd_type) { case GPRS_UPD_T_RA_LA: case GPRS_UPD_T_RA_LA_IMSI_ATT: DEBUGPC(DMM, " unsupported in Mode III, is your SI13 corrupt?\n"); return gsm48_tx_gmm_ra_upd_rej(msg, GMM_CAUSE_PROTO_ERR_UNSPEC); break; case GPRS_UPD_T_RA: case GPRS_UPD_T_PERIODIC: break; } /* Look-up the MM context based on old RA-ID and TLLI */ if (!mmctx || mmctx->mm_state == GMM_DEREGISTERED) { /* The MS has to perform GPRS attach */ DEBUGPC(DMM, " REJECT\n"); return gsm48_tx_gmm_ra_upd_rej(msg, GMM_CAUSE_IMPL_DETACHED); } /* Update the MM context with the new RA-ID */ bssgp_parse_cell_id(&mmctx->ra, msgb_bcid(msg)); /* Update the MM context with the new TLLI */ mmctx->tlli = msgb_tlli(msg); /* FIXME: Update the MM context with the MS radio acc capabilities */ /* FIXME: Update the MM context with the MS network capabilities */ DEBUGPC(DMM, " ACCEPT\n"); return gsm48_tx_gmm_ra_upd_ack(msg); } static int gsm48_rx_gmm_status(struct sgsn_mm_ctx *mmctx, struct msgb *msg) { struct gsm48_hdr *gh = msgb_l3(msg); DEBUGP(DMM, "-> GPRS MM STATUS (cause: %s)\n", get_value_string(gmm_cause_names, gh->data[0])); return 0; } /* GPRS Mobility Management */ static int gsm0408_rcv_gmm(struct sgsn_mm_ctx *mmctx, struct msgb *msg) { struct gsm48_hdr *gh = (struct gsm48_hdr *) msgb_gmmh(msg); int rc; if (!mmctx && gh->msg_type != GSM48_MT_GMM_ATTACH_REQ && gh->msg_type != GSM48_MT_GMM_RA_UPD_REQ) { LOGP(DMM, LOGL_NOTICE, "Cannot handle GMM for unknown MM CTX\n"); return -EINVAL; } switch (gh->msg_type) { case GSM48_MT_GMM_RA_UPD_REQ: rc = gsm48_rx_gmm_ra_upd_req(mmctx, msg); break; case GSM48_MT_GMM_ATTACH_REQ: rc = gsm48_rx_gmm_att_req(mmctx, msg); break; case GSM48_MT_GMM_ID_RESP: rc = gsm48_rx_gmm_id_resp(mmctx, msg); break; case GSM48_MT_GMM_STATUS: rc = gsm48_rx_gmm_status(mmctx, msg); break; case GSM48_MT_GMM_DETACH_REQ: rc = gsm48_rx_gmm_det_req(mmctx, msg); break; case GSM48_MT_GMM_RA_UPD_COMPL: /* only in case SGSN offered new P-TMSI */ case GSM48_MT_GMM_ATTACH_COMPL: /* only in case SGSN offered new P-TMSI */ case GSM48_MT_GMM_PTMSI_REALL_COMPL: case GSM48_MT_GMM_AUTH_CIPH_RESP: DEBUGP(DMM, "Unimplemented GSM 04.08 GMM msg type 0x%02x\n", gh->msg_type); /* FIXME: Send GMM_CAUSE_MSGT_NOTEXIST_NOTIMPL */ break; default: DEBUGP(DMM, "Unknown GSM 04.08 GMM msg type 0x%02x\n", gh->msg_type); /* FIXME: Send GMM_CAUSE_MSGT_NOTEXIST_NOTIMPL */ break; } return rc; } static void msgb_put_pdp_addr_ipv4(struct msgb *msg, uint32_t ipaddr) { uint8_t v[6]; v[0] = PDP_TYPE_ORG_IETF; v[1] = PDP_TYPE_N_IETF_IPv4; *(uint32_t *)(v+2) = htonl(ipaddr); msgb_tlv_put(msg, GSM48_IE_GSM_PDP_ADDR, sizeof(v), v); } static void msgb_put_pdp_addr_ppp(struct msgb *msg) { uint8_t v[2]; v[0] = PDP_TYPE_ORG_ETSI; v[1] = PDP_TYPE_N_ETSI_PPP; msgb_tlv_put(msg, GSM48_IE_GSM_PDP_ADDR, sizeof(v), v); } /* Section 9.5.2: Ativate PDP Context Accept */ static int gsm48_tx_gsm_act_pdp_acc(struct msgb *old_msg, struct gsm48_act_pdp_ctx_req *req) { struct gsm48_hdr *old_gh = (struct gsm48_hdr *) msgb_gmmh(old_msg); struct msgb *msg = gsm48_msgb_alloc(); struct gsm48_act_pdp_ctx_ack *act_ack; struct gsm48_hdr *gh; uint8_t transaction_id = ((old_gh->proto_discr >> 4) ^ 0x8); /* flip */ DEBUGP(DMM, "<- ACTIVATE PDP CONTEXT ACK\n"); gmm_copy_id(msg, old_msg); gh = (struct gsm48_hdr *) msgb_put(msg, sizeof(*gh)); gh->proto_discr = GSM48_PDISC_SM_GPRS | (transaction_id << 4); gh->msg_type = GSM48_MT_GSM_ACT_PDP_ACK; /* Negotiated LLC SAPI */ msgb_v_put(msg, req->req_llc_sapi); /* copy QoS parameters from original request */ msgb_lv_put(msg, sizeof(default_qos), (uint8_t *)&default_qos); /* Radio priority 10.5.7.2 */ msgb_v_put(msg, 4); /* PDP address */ msgb_put_pdp_addr_ipv4(msg, 0x01020304); /* Optional: Protocol configuration options */ /* Optional: Packet Flow Identifier */ return gsm48_gmm_sendmsg(msg, 0); } /* Section 9.5.9: Deactivate PDP Context Accept */ static int gsm48_tx_gsm_deact_pdp_acc(struct sgsn_mm_ctx *mmctx, struct msgb *old_msg) { struct gsm48_hdr *old_gh = (struct gsm48_hdr *) msgb_gmmh(old_msg); struct msgb *msg = gsm48_msgb_alloc(); struct gsm48_hdr *gh; uint8_t transaction_id = ((old_gh->proto_discr >> 4) ^ 0x8); /* flip */ DEBUGP(DMM, "<- DEACTIVATE PDP CONTEXT ACK\n"); gmm_copy_id(msg, old_msg); gh = (struct gsm48_hdr *) msgb_put(msg, sizeof(*gh)); gh->proto_discr = GSM48_PDISC_SM_GPRS | (transaction_id << 4); gh->msg_type = GSM48_MT_GSM_DEACT_PDP_ACK; return gsm48_gmm_sendmsg(msg, 0); } /* Section 9.5.1: Activate PDP Context Request */ static int gsm48_rx_gsm_act_pdp_req(struct sgsn_mm_ctx *mmctx, struct msgb *msg) { struct gsm48_hdr *gh = (struct gsm48_hdr *) msgb_gmmh(msg); struct gsm48_act_pdp_ctx_req *act_req = (struct gsm48_act_pdp_ctx_req *) gh->data; uint8_t *pdp_addr_lv = act_req->data; uint8_t req_qos_len, req_pdpa_len; uint8_t *req_qos, *req_pdpa; struct tlv_parsed tp; DEBUGP(DMM, "-> ACTIVATE PDP CONTEXT REQ: "); req_qos_len = act_req->data[0]; req_qos = act_req->data + 1; /* 10.5.6.5 */ req_pdpa_len = act_req->data[1 + req_qos_len]; req_pdpa = act_req->data + 1 + req_qos_len + 1; /* 10.5.6.4 */ switch (req_pdpa[0] & 0xf) { case 0x0: DEBUGPC(DMM, "ETSI "); break; case 0x1: DEBUGPC(DMM, "IETF "); break; case 0xf: DEBUGPC(DMM, "Empty "); break; } switch (req_pdpa[1]) { case 0x21: DEBUGPC(DMM, "IPv4 "); if (req_pdpa_len >= 6) { struct in_addr ia; ia.s_addr = ntohl(*((uint32_t *) (req_pdpa+2))); DEBUGPC(DMM, "%s ", inet_ntoa(ia)); } break; case 0x57: DEBUGPC(DMM, "IPv6 "); if (req_pdpa_len >= 18) { /* FIXME: print IPv6 address */ } break; default: DEBUGPC(DMM, "0x%02x ", req_pdpa[1]); break; } /* put the non-TLV elements in the TLV parser structure to * pass them on to the SGSN / GTP code */ tp.lv[OSMO_IE_GSM_REQ_QOS].len = req_qos_len; tp.lv[OSMO_IE_GSM_REQ_QOS].val = req_qos; tp.lv[OSMO_IE_GSM_REQ_PDP_ADDR].len = req_pdpa_len; tp.lv[OSMO_IE_GSM_REQ_PDP_ADDR].val = req_pdpa; /* FIXME: parse TLV for AP name and protocol config options */ if (TLVP_PRESENT(&tp, GSM48_IE_GSM_APN)) {} if (TLVP_PRESENT(&tp, GSM48_IE_GSM_PROTO_CONF_OPT)) {} #if 1 { struct ggsn_ctx ggsn; ggsn.gtp_version = 1; inet_aton("192.168.100.239", &ggsn.remote_addr); ggsn.gsn = sgsn->gsn; return sgsn_create_pdp_ctx(ggsn, mmctx, 5, &tp); } #else return gsm48_tx_gsm_act_pdp_acc(msg, act_req); #endif } /* Section 9.5.8: Deactivate PDP Context Request */ static int gsm48_rx_gsm_deact_pdp_req(struct sgsn_mm_ctx *ctx, struct msgb *msg) { struct gsm48_hdr *gh = (struct gsm48_hdr *) msgb_gmmh(msg); DEBUGP(DMM, "-> DEACTIVATE PDP CONTEXT REQ (cause: %s)\n", get_value_string(gsm_cause_names, gh->data[0])); return gsm48_tx_gsm_deact_pdp_acc(ctx, msg); } static int gsm48_rx_gsm_status(struct sgsn_mm_ctx *ctx, struct msgb *msg) { struct gsm48_hdr *gh = msgb_l3(msg); DEBUGP(DMM, "-> GPRS SM STATUS (cause: %s)\n", get_value_string(gsm_cause_names, gh->data[0])); return 0; } /* GPRS Session Management */ static int gsm0408_rcv_gsm(struct sgsn_mm_ctx *mmctx, struct msgb *msg) { struct gsm48_hdr *gh = (struct gsm48_hdr *) msgb_gmmh(msg); int rc; if (!mmctx) { LOGP(DMM, LOGL_NOTICE, "Cannot handle SM for unknown MM CTX\n"); return -EINVAL; } switch (gh->msg_type) { case GSM48_MT_GSM_ACT_PDP_REQ: rc = gsm48_rx_gsm_act_pdp_req(mmctx, msg); break; case GSM48_MT_GSM_DEACT_PDP_REQ: rc = gsm48_rx_gsm_deact_pdp_req(mmctx, msg); case GSM48_MT_GSM_STATUS: rc = gsm48_rx_gsm_status(mmctx, msg); break; case GSM48_MT_GSM_REQ_PDP_ACT_REJ: case GSM48_MT_GSM_ACT_AA_PDP_REQ: case GSM48_MT_GSM_DEACT_AA_PDP_REQ: DEBUGP(DMM, "Unimplemented GSM 04.08 GSM msg type 0x%02x\n", gh->msg_type); break; default: DEBUGP(DMM, "Unknown GSM 04.08 GSM msg type 0x%02x\n", gh->msg_type); break; } return rc; } /* Main entry point for incoming 04.08 GPRS messages */ int gsm0408_gprs_rcvmsg(struct msgb *msg) { struct gsm48_hdr *gh = (struct gsm48_hdr *) msgb_gmmh(msg); uint8_t pdisc = gh->proto_discr & 0x0f; struct sgsn_mm_ctx *mmctx; struct gprs_ra_id ra_id; int rc = -EINVAL; bssgp_parse_cell_id(&ra_id, msgb_bcid(msg)); mmctx = sgsn_mm_ctx_by_tlli(msgb_tlli(msg), &ra_id); /* MMCTX can be NULL */ switch (pdisc) { case GSM48_PDISC_MM_GPRS: rc = gsm0408_rcv_gmm(mmctx, msg); break; case GSM48_PDISC_SM_GPRS: rc = gsm0408_rcv_gsm(mmctx, msg); break; default: DEBUGP(DMM, "Unknown GSM 04.08 discriminator 0x%02x\n", pdisc); break; } return rc; }