/* 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) 2008-2016 by Harald Welte * (C) 2008-2012 by Holger Hans Peter Freyther * * All Rights 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. * * 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 Affero General Public License for more details. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . * */ #include #include #include #include #include #include #include #include #include "config.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include void *tall_locop_ctx; void *tall_authciphop_ctx; static int gsm0408_loc_upd_acc(struct msc_a *msc_a, uint32_t send_tmsi); /*! Send a simple GSM 04.08 message without any payload * \param conn Active RAN connection * \param[in] pdisc Protocol discriminator * \param[in] msg_type Message type * \return result of \ref gsm48_conn_sendmsg */ int gsm48_tx_simple(struct msc_a *msc_a, uint8_t pdisc, uint8_t msg_type) { struct msgb *msg = gsm48_msgb_alloc_name("GSM 04.08 TX SIMPLE"); struct gsm48_hdr *gh = (struct gsm48_hdr *) msgb_put(msg, sizeof(*gh)); gh->proto_discr = pdisc; gh->msg_type = msg_type; return msc_a_tx_dtap_to_i(msc_a, msg); } /* clear all transactions globally; used in case of MNCC socket disconnect */ void gsm0408_clear_all_trans(struct gsm_network *net, enum trans_type type) { struct gsm_trans *trans, *temp; LOGP(DCC, LOGL_NOTICE, "Clearing all currently active transactions!!!\n"); llist_for_each_entry_safe(trans, temp, &net->trans_list, entry) { if (trans->type == type) { trans->callref = 0; trans_free(trans); } } } /* Chapter 9.2.14 : Send LOCATION UPDATING REJECT */ static int gsm0408_loc_upd_rej(struct msc_a *msc_a, uint8_t cause) { struct msgb *msg; msg = gsm48_create_loc_upd_rej(cause); if (!msg) { LOG_MSC_A_CAT(msc_a, DMM, LOGL_ERROR, "Failed to create msg for LOCATION UPDATING REJECT.\n"); return -1; } LOG_MSC_A_CAT(msc_a, DMM, LOGL_INFO, "LOCATION UPDATING REJECT\n"); return msc_a_tx_dtap_to_i(msc_a, msg); } /* Chapter 9.2.13 : Send LOCATION UPDATE ACCEPT */ static int gsm0408_loc_upd_acc(struct msc_a *msc_a, uint32_t send_tmsi) { struct msgb *msg = gsm48_msgb_alloc_name("GSM 04.08 LOC UPD ACC"); struct gsm48_hdr *gh; struct gsm48_loc_area_id *lai; uint8_t *mid; struct gsm_network *net = msc_a_net(msc_a); struct vlr_subscr *vsub = msc_a_vsub(msc_a); struct osmo_location_area_id laid = { .plmn = net->plmn, .lac = vsub->cgi.lai.lac, }; gh = (struct gsm48_hdr *) msgb_put(msg, sizeof(*gh)); gh->proto_discr = GSM48_PDISC_MM; gh->msg_type = GSM48_MT_MM_LOC_UPD_ACCEPT; lai = (struct gsm48_loc_area_id *) msgb_put(msg, sizeof(*lai)); gsm48_generate_lai2(lai, &laid); if (send_tmsi == GSM_RESERVED_TMSI) { /* we did not allocate a TMSI to the MS, so we need to * include the IMSI in order for the MS to delete any * old TMSI that might still be allocated */ uint8_t mi[10]; int len; len = gsm48_generate_mid_from_imsi(mi, vsub->imsi); mid = msgb_put(msg, len); memcpy(mid, mi, len); DEBUGP(DMM, "-> %s LOCATION UPDATE ACCEPT\n", vlr_subscr_name(vsub)); } else { /* Include the TMSI, which means that the MS will send a * TMSI REALLOCATION COMPLETE, and we should wait for * that until T3250 expiration */ mid = msgb_put(msg, GSM48_MID_TMSI_LEN); gsm48_generate_mid_from_tmsi(mid, send_tmsi); DEBUGP(DMM, "-> %s LOCATION UPDATE ACCEPT (TMSI = 0x%08x)\n", vlr_subscr_name(vsub), send_tmsi); } /* TODO: Follow-on proceed */ /* TODO: CTS permission */ /* TODO: Equivalent PLMNs */ /* TODO: Emergency Number List */ /* TODO: Per-MS T3312 */ return msc_a_tx_dtap_to_i(msc_a, msg); } /* Transmit Chapter 9.2.10 Identity Request */ static int mm_tx_identity_req(struct msc_a *msc_a, uint8_t id_type) { struct msgb *msg = gsm48_msgb_alloc_name("GSM 04.08 ID REQ"); struct gsm48_hdr *gh; gh = (struct gsm48_hdr *) msgb_put(msg, sizeof(*gh) + 1); gh->proto_discr = GSM48_PDISC_MM; gh->msg_type = GSM48_MT_MM_ID_REQ; gh->data[0] = id_type; return msc_a_tx_dtap_to_i(msc_a, msg); } /* Parse Chapter 9.2.11 Identity Response */ static int mm_rx_id_resp(struct msc_a *msc_a, struct msgb *msg) { struct gsm48_hdr *gh = msgb_l3(msg); uint8_t *mi = gh->data+1; uint8_t mi_len = gh->data[0]; uint8_t mi_type; struct vlr_subscr *vsub = msc_a_vsub(msc_a); if (!vsub) { LOGP(DMM, LOGL_ERROR, "Rx MM Identity Response: invalid: no subscriber\n"); return -EINVAL; } /* There muct be at least one octet with MI type */ if (!mi_len) { LOGP(DMM, LOGL_NOTICE, "MM Identity Response contains " "malformed Mobile Identity\n"); return -EINVAL; } /* Make sure we got what we expected */ mi_type = mi[0] & GSM_MI_TYPE_MASK; if (mi_type == GSM_MI_TYPE_NONE) { LOGP(DMM, LOGL_NOTICE, "MM Identity Response contains no identity, " "perhaps the MS has no Mobile Identity type %s?\n", gsm48_mi_type_name(msc_a->mm_id_req_type)); return -EINVAL; } else if (mi_type != msc_a->mm_id_req_type) { LOGP(DMM, LOGL_NOTICE, "MM Identity Response contains unexpected " "Mobile Identity type %s (extected %s)\n", gsm48_mi_type_name(mi_type), gsm48_mi_type_name(msc_a->mm_id_req_type)); return -EINVAL; } DEBUGP(DMM, "IDENTITY RESPONSE: MI=%s\n", osmo_mi_name(mi, mi_len)); osmo_signal_dispatch(SS_SUBSCR, S_SUBSCR_IDENTITY, gh->data); return vlr_subscr_rx_id_resp(vsub, mi, mi_len); } /* 9.2.5 CM service accept */ static int msc_gsm48_tx_mm_serv_ack(struct msc_a *msc_a) { struct msgb *msg; struct gsm48_hdr *gh; msg = gsm48_msgb_alloc_name("GSM 04.08 SERV ACC"); gh = (struct gsm48_hdr *) msgb_put(msg, sizeof(*gh)); gh->proto_discr = GSM48_PDISC_MM; gh->msg_type = GSM48_MT_MM_CM_SERV_ACC; return msc_a_tx_dtap_to_i(msc_a, msg); } /* 9.2.6 CM service reject */ static int msc_gsm48_tx_mm_serv_rej(struct msc_a *msc_a, enum gsm48_reject_value value) { struct msgb *msg; msg = gsm48_create_mm_serv_rej(value); if (!msg) { LOGP(DMM, LOGL_ERROR, "Failed to allocate CM Service Reject.\n"); return -1; } LOG_MSC_A_CAT(msc_a, DMM, LOGL_DEBUG, "-> CM SERVICE Reject cause: %d\n", value); return msc_a_tx_dtap_to_i(msc_a, msg); } /* Extract the R99 flag from various Complete Level 3 messages. Depending on the Message Type, extract R99 from the * Classmark Type 1 or the Classmark Type 2. Return 1 for R99, 0 for pre-R99, negative if not a valid Complete Level 3 * message. */ int compl_l3_msg_is_r99(const struct msgb *msg) { const struct gsm48_hdr *gh = msgb_l3(msg); uint8_t pdisc = gsm48_hdr_pdisc(gh); const struct gsm48_loc_upd_req *lu; const struct gsm48_imsi_detach_ind *idi; uint8_t cm2_len; const struct gsm48_classmark2 *cm2; switch (pdisc) { case GSM48_PDISC_MM: switch (gsm48_hdr_msg_type(gh)) { case GSM48_MT_MM_LOC_UPD_REQUEST: lu = (const struct gsm48_loc_upd_req *) gh->data; return osmo_gsm48_classmark1_is_r99(&lu->classmark1) ? 1 : 0; case GSM48_MT_MM_CM_SERV_REQ: case GSM48_MT_MM_CM_REEST_REQ: break; case GSM48_MT_MM_IMSI_DETACH_IND: idi = (const struct gsm48_imsi_detach_ind *) gh->data; return osmo_gsm48_classmark1_is_r99(&idi->classmark1) ? 1 : 0; default: return -1; } break; case GSM48_PDISC_RR: switch (gsm48_hdr_msg_type(gh)) { case GSM48_MT_RR_PAG_RESP: break; default: return -1; } break; default: return -1; } /* Both CM Service Request and Paging Response have Classmark Type 2 at the same location: */ cm2_len = gh->data[1]; cm2 = (void*)gh->data+2; return osmo_gsm48_classmark2_is_r99(cm2, cm2_len) ? 1 : 0; } /* Chapter 9.2.15: Receive Location Updating Request. * Keep this function non-static for direct invocation by unit tests. */ static int mm_rx_loc_upd_req(struct msc_a *msc_a, struct msgb *msg) { struct gsm48_hdr *gh = msgb_l3(msg); struct gsm48_loc_upd_req *lu; uint8_t mi_type; char mi_string[GSM48_MI_SIZE]; enum vlr_lu_type vlr_lu_type = VLR_LU_TYPE_REGULAR; uint32_t tmsi; char *imsi; struct osmo_location_area_id old_lai; struct osmo_fsm_inst *lu_fsm; bool is_utran; struct gsm_network *net = msc_a_net(msc_a); struct vlr_subscr *vsub; lu = (struct gsm48_loc_upd_req *) gh->data; if (msc_a_is_establishing_auth_ciph(msc_a)) { LOG_MSC_A_CAT(msc_a, DMM, LOGL_ERROR, "Cannot accept another LU, conn already busy establishing authenticity;" " extraneous LOCATION UPDATING REQUEST: MI=%s LU-type=%s\n", osmo_mi_name(lu->mi, lu->mi_len), osmo_lu_type_name(lu->type)); return -EINVAL; } if (msc_a_is_accepted(msc_a)) { LOG_MSC_A_CAT(msc_a, DMM, LOGL_ERROR, "Cannot accept another LU, conn already established;" " extraneous LOCATION UPDATING REQUEST: MI=%s LU-type=%s\n", osmo_mi_name(lu->mi, lu->mi_len), osmo_lu_type_name(lu->type)); return -EINVAL; } msc_a->complete_layer3_type = COMPLETE_LAYER3_LU; msub_update_id_from_mi(msc_a->c.msub, lu->mi, lu->mi_len); LOG_MSC_A_CAT(msc_a, DMM, LOGL_DEBUG, "LOCATION UPDATING REQUEST: MI=%s LU-type=%s\n", osmo_mi_name(lu->mi, lu->mi_len), osmo_lu_type_name(lu->type)); osmo_signal_dispatch(SS_SUBSCR, S_SUBSCR_IDENTITY, &lu->mi_len); switch (lu->type) { case GSM48_LUPD_NORMAL: rate_ctr_inc(&net->msc_ctrs->ctr[MSC_CTR_LOC_UPDATE_TYPE_NORMAL]); vlr_lu_type = VLR_LU_TYPE_REGULAR; break; case GSM48_LUPD_IMSI_ATT: rate_ctr_inc(&net->msc_ctrs->ctr[MSC_CTR_LOC_UPDATE_TYPE_ATTACH]); vlr_lu_type = VLR_LU_TYPE_IMSI_ATTACH; break; case GSM48_LUPD_PERIODIC: rate_ctr_inc(&net->msc_ctrs->ctr[MSC_CTR_LOC_UPDATE_TYPE_PERIODIC]); vlr_lu_type = VLR_LU_TYPE_PERIODIC; break; } /* TODO: 10.5.1.6 MS Classmark for UMTS / Classmark 2 */ /* TODO: 10.5.3.14 Additional update parameters (CS fallback calls) */ /* TODO: 10.5.7.8 Device properties */ /* TODO: 10.5.1.15 MS network feature support */ mi_type = lu->mi[0] & GSM_MI_TYPE_MASK; gsm48_mi_to_string(mi_string, sizeof(mi_string), lu->mi, lu->mi_len); switch (mi_type) { case GSM_MI_TYPE_IMSI: tmsi = GSM_RESERVED_TMSI; imsi = mi_string; break; case GSM_MI_TYPE_TMSI: tmsi = tmsi_from_string(mi_string); imsi = NULL; break; default: LOG_MSC_A_CAT(msc_a, DMM, LOGL_ERROR, "unknown mobile identity type\n"); tmsi = GSM_RESERVED_TMSI; imsi = NULL; break; } gsm48_decode_lai2(&lu->lai, &old_lai); LOG_MSC_A_CAT(msc_a, DMM, LOGL_DEBUG, "USIM: old LAI: %s\n", osmo_lai_name(&old_lai)); msc_a_get(msc_a, __func__); msc_a_get(msc_a, MSC_A_USE_LOCATION_UPDATING); is_utran = (msc_a->c.ran->type == OSMO_RAT_UTRAN_IU); lu_fsm = vlr_loc_update(msc_a->c.fi, MSC_A_EV_AUTHENTICATED, MSC_A_EV_CN_CLOSE, NULL, net->vlr, msc_a, vlr_lu_type, tmsi, imsi, &old_lai, &msc_a->via_cell.lai, is_utran || net->authentication_required, is_utran ? net->uea_encryption : net->a5_encryption_mask > 0x01, lu->key_seq, osmo_gsm48_classmark1_is_r99(&lu->classmark1), is_utran, net->vlr->cfg.assign_tmsi); if (!lu_fsm) { LOG_MSC_A(msc_a, LOGL_ERROR, "Can't start LU FSM\n"); msc_a_put(msc_a, MSC_A_USE_LOCATION_UPDATING); msc_a_put(msc_a, __func__); return 0; } /* From vlr_loc_update() we expect an implicit dispatch of * VLR_ULA_E_UPDATE_LA, and thus we expect msc_vlr_subscr_assoc() to * already have been called and completed. Has an error occurred? */ vsub = msc_a_vsub(msc_a); if (!vsub) { msc_a_put(msc_a, __func__); return 0; } if (vsub->lu_fsm != lu_fsm) { LOG_MSC_A(msc_a, LOGL_ERROR, "Internal Error during Location Updating attempt\n"); msc_a_release_cn(msc_a); msc_a_put(msc_a, __func__); return -EIO; } vsub->classmark.classmark1 = lu->classmark1; vsub->classmark.classmark1_set = true; msc_a_put(msc_a, __func__); return 0; } /* Turn int into semi-octet representation: 98 => 0x89 */ /* FIXME: libosmocore/libosmogsm */ static uint8_t bcdify(uint8_t value) { uint8_t ret; ret = value / 10; ret |= (value % 10) << 4; return ret; } /* Generate a message buffer that contains a valid MM info message, * See also 3GPP TS 24.008, chapter 9.2.15a */ struct msgb *gsm48_create_mm_info(struct gsm_network *net) { struct msgb *msg = gsm48_msgb_alloc_name("GSM 04.08 MM INF"); struct gsm48_hdr *gh; uint8_t *ptr8; int name_len, name_pad; time_t cur_t; struct tm* gmt_time; struct tm* local_time; int tzunits; int dst = 0; gh = (struct gsm48_hdr *) msgb_put(msg, sizeof(*gh)); gh->proto_discr = GSM48_PDISC_MM; gh->msg_type = GSM48_MT_MM_INFO; if (net->name_long) { #if 0 name_len = strlen(net->name_long); /* 10.5.3.5a */ ptr8 = msgb_put(msg, 3); ptr8[0] = GSM48_IE_NAME_LONG; ptr8[1] = name_len*2 +1; ptr8[2] = 0x90; /* UCS2, no spare bits, no CI */ ptr16 = (uint16_t *) msgb_put(msg, name_len*2); for (i = 0; i < name_len; i++) ptr16[i] = htons(net->name_long[i]); /* FIXME: Use Cell Broadcast, not UCS-2, since * UCS-2 is only supported by later revisions of the spec */ #endif name_len = (strlen(net->name_long)*7)/8; name_pad = (8 - strlen(net->name_long)*7)%8; if (name_pad > 0) name_len++; /* 10.5.3.5a */ ptr8 = msgb_put(msg, 3); ptr8[0] = GSM48_IE_NAME_LONG; ptr8[1] = name_len +1; ptr8[2] = 0x80 | name_pad; /* Cell Broadcast DCS, no CI */ ptr8 = msgb_put(msg, name_len); gsm_7bit_encode_n(ptr8, name_len, net->name_long, NULL); } if (net->name_short) { #if 0 name_len = strlen(net->name_short); /* 10.5.3.5a */ ptr8 = (uint8_t *) msgb_put(msg, 3); ptr8[0] = GSM48_IE_NAME_SHORT; ptr8[1] = name_len*2 + 1; ptr8[2] = 0x90; /* UCS2, no spare bits, no CI */ ptr16 = (uint16_t *) msgb_put(msg, name_len*2); for (i = 0; i < name_len; i++) ptr16[i] = htons(net->name_short[i]); #endif name_len = (strlen(net->name_short)*7)/8; name_pad = (8 - strlen(net->name_short)*7)%8; if (name_pad > 0) name_len++; /* 10.5.3.5a */ ptr8 = (uint8_t *) msgb_put(msg, 3); ptr8[0] = GSM48_IE_NAME_SHORT; ptr8[1] = name_len +1; ptr8[2] = 0x80 | name_pad; /* Cell Broadcast DCS, no CI */ ptr8 = msgb_put(msg, name_len); gsm_7bit_encode_n(ptr8, name_len, net->name_short, NULL); } /* Section 10.5.3.9 */ cur_t = time(NULL); gmt_time = gmtime(&cur_t); ptr8 = msgb_put(msg, 8); ptr8[0] = GSM48_IE_NET_TIME_TZ; ptr8[1] = bcdify(gmt_time->tm_year % 100); ptr8[2] = bcdify(gmt_time->tm_mon + 1); ptr8[3] = bcdify(gmt_time->tm_mday); ptr8[4] = bcdify(gmt_time->tm_hour); ptr8[5] = bcdify(gmt_time->tm_min); ptr8[6] = bcdify(gmt_time->tm_sec); if (net->tz.override) { /* Convert tz.hr and tz.mn to units */ if (net->tz.hr < 0) { tzunits = ((net->tz.hr/-1)*4); tzunits = tzunits + (net->tz.mn/15); ptr8[7] = bcdify(tzunits); /* Set negative time */ ptr8[7] |= 0x08; } else { tzunits = net->tz.hr*4; tzunits = tzunits + (net->tz.mn/15); ptr8[7] = bcdify(tzunits); } /* Convert DST value */ if (net->tz.dst >= 0 && net->tz.dst <= 2) dst = net->tz.dst; } else { /* Need to get GSM offset and convert into 15 min units */ /* This probably breaks if gmtoff returns a value not evenly divisible by 15? */ #ifdef HAVE_TM_GMTOFF_IN_TM local_time = localtime(&cur_t); tzunits = (local_time->tm_gmtoff/60)/15; #else /* find timezone offset */ time_t utc; double offsetFromUTC; utc = mktime(gmt_time); local_time = localtime(&cur_t); offsetFromUTC = difftime(cur_t, utc); if (local_time->tm_isdst) offsetFromUTC += 3600.0; tzunits = ((int)offsetFromUTC) / 60 / 15; #endif if (tzunits < 0) { tzunits = tzunits/-1; ptr8[7] = bcdify(tzunits); /* Flip it to negative */ ptr8[7] |= 0x08; } else ptr8[7] = bcdify(tzunits); /* Does not support DST +2 */ if (local_time->tm_isdst) dst = 1; } if (dst) { ptr8 = msgb_put(msg, 3); ptr8[0] = GSM48_IE_NET_DST; ptr8[1] = 1; ptr8[2] = dst; } return msg; } /* Section 9.2.15a */ int gsm48_tx_mm_info(struct msc_a *msc_a) { struct gsm_network *net = msc_a_net(msc_a); struct msgb *msg; msg = gsm48_create_mm_info(net); LOG_MSC_A(msc_a, LOGL_DEBUG, "Tx MM INFO\n"); return msc_a_tx_dtap_to_i(msc_a, msg); } /*! Send an Authentication Request to MS on the given RAN connection * according to 3GPP/ETSI TS 24.008, Section 9.2.2. * \param[in] conn Subscriber connection to send on. * \param[in] rand Random challenge token to send, must be 16 bytes long. * \param[in] autn r99: In case of UMTS mutual authentication, AUTN token to * send; must be 16 bytes long, or pass NULL for plain GSM auth. * \param[in] key_seq auth tuple's sequence number. */ int gsm48_tx_mm_auth_req(struct msc_a *msc_a, uint8_t *rand, uint8_t *autn, int key_seq) { struct msgb *msg = gsm48_msgb_alloc_name("GSM 04.08 AUTH REQ"); struct gsm48_hdr *gh = (struct gsm48_hdr *) msgb_put(msg, sizeof(*gh)); struct gsm48_auth_req *ar = (struct gsm48_auth_req *) msgb_put(msg, sizeof(*ar)); DEBUGP(DMM, "Tx AUTH REQ (rand = %s)\n", osmo_hexdump_nospc(rand, 16)); if (autn) DEBUGP(DMM, " AUTH REQ (autn = %s)\n", osmo_hexdump_nospc(autn, 16)); gh->proto_discr = GSM48_PDISC_MM; gh->msg_type = GSM48_MT_MM_AUTH_REQ; ar->key_seq = key_seq; /* 16 bytes RAND parameters */ osmo_static_assert(sizeof(ar->rand) == 16, sizeof_auth_req_r99_rand); if (rand) memcpy(ar->rand, rand, 16); /* 16 bytes AUTN */ if (autn) msgb_tlv_put(msg, GSM48_IE_AUTN, 16, autn); return msc_a_tx_dtap_to_i(msc_a, msg); } /* Section 9.2.1 */ int gsm48_tx_mm_auth_rej(struct msc_a *msc_a) { LOG_MSC_A_CAT(msc_a, DMM, LOGL_DEBUG, "-> AUTH REJECT\n"); return gsm48_tx_simple(msc_a, GSM48_PDISC_MM, GSM48_MT_MM_AUTH_REJ); } static int msc_vlr_tx_cm_serv_rej(void *msc_conn_ref, enum osmo_cm_service_type cm_service_type, enum gsm48_reject_value cause); static int cm_serv_reuse_conn(struct msc_a *msc_a, const uint8_t *mi_lv, enum osmo_cm_service_type cm_serv_type) { uint8_t mi_type; char mi_string[GSM48_MI_SIZE]; uint32_t tmsi; struct gsm_network *net = msc_a_net(msc_a); struct vlr_subscr *vsub = msc_a_vsub(msc_a); gsm48_mi_to_string(mi_string, sizeof(mi_string), mi_lv+1, mi_lv[0]); mi_type = mi_lv[1] & GSM_MI_TYPE_MASK; switch (mi_type) { case GSM_MI_TYPE_IMSI: if (vlr_subscr_matches_imsi(vsub, mi_string)) goto accept_reuse; break; case GSM_MI_TYPE_TMSI: tmsi = osmo_load32be(mi_lv+2); if (vlr_subscr_matches_tmsi(vsub, tmsi)) goto accept_reuse; break; case GSM_MI_TYPE_IMEI: if (vlr_subscr_matches_imei(vsub, mi_string)) goto accept_reuse; break; default: break; } LOG_MSC_A_CAT(msc_a, DMM, LOGL_ERROR, "CM Service Request with mismatching mobile identity: %s %s\n", gsm48_mi_type_name(mi_type), mi_string); msc_vlr_tx_cm_serv_rej(msc_a, cm_serv_type, GSM48_REJECT_ILLEGAL_MS); return -EINVAL; accept_reuse: LOG_MSC_A_CAT(msc_a, DMM, LOGL_DEBUG, "re-using already accepted connection\n"); msc_a_get(msc_a, msc_a_cm_service_type_to_use(cm_serv_type)); msub_update_id(msc_a->c.msub); return net->vlr->ops.tx_cm_serv_acc(msc_a, cm_serv_type); } /* * Handle CM Service Requests * a) Verify that the packet is long enough to contain the information * we require otherwise reject with INCORRECT_MESSAGE * b) Try to parse the TMSI. If we do not have one reject * c) Check that we know the subscriber with the TMSI otherwise reject * with a HLR cause * d) Set the subscriber on the conn and accept * * Keep this function non-static for direct invocation by unit tests. */ int gsm48_rx_mm_serv_req(struct msc_a *msc_a, struct msgb *msg) { struct gsm_network *net = msc_a_net(msc_a); struct gsm48_hdr *gh; struct gsm48_service_request *req; struct gsm48_classmark2 *cm2; uint8_t *cm2_buf, cm2_len; uint8_t *mi_buf, mi_len; uint8_t *mi, mi_type; bool is_utran; struct vlr_subscr *vsub; /* Make sure that both header and CM Service Request fit into the buffer */ if (msgb_l3len(msg) < sizeof(*gh) + sizeof(*req)) { LOG_MSC_A(msc_a, LOGL_ERROR, "Rx CM SERVICE REQUEST: wrong message size (%u < %zu)\n", msgb_l3len(msg), sizeof(*gh) + sizeof(*req)); return msc_gsm48_tx_mm_serv_rej(msc_a, GSM48_REJECT_INCORRECT_MESSAGE); } gh = (struct gsm48_hdr *) msgb_l3(msg); req = (struct gsm48_service_request *) gh->data; /* Unfortunately in Phase1 the Classmark2 length is variable, so we cannot * just use gsm48_service_request struct, and need to parse it manually. */ cm2_len = gh->data[1]; cm2_buf = gh->data + 2; cm2 = (struct gsm48_classmark2 *) cm2_buf; /* Prevent buffer overrun: check the length of Classmark2 */ if (cm2_buf + cm2_len > msg->tail) { LOG_MSC_A(msc_a, LOGL_ERROR, "Rx CM SERVICE REQUEST: Classmark2 " "length=%u is too big\n", cm2_len); return msc_gsm48_tx_mm_serv_rej(msc_a, GSM48_REJECT_INCORRECT_MESSAGE); } /* MI (Mobile Identity) LV follows the Classmark2 */ mi_buf = cm2_buf + cm2_len; mi_len = mi_buf[0]; mi = mi_buf + 1; /* Prevent buffer overrun: check the length of MI */ if (mi_buf + mi_len > msg->tail) { LOG_MSC_A(msc_a, LOGL_ERROR, "Rx CM SERVICE REQUEST: Mobile Identity " "length=%u is too big\n", cm2_len); return msc_gsm48_tx_mm_serv_rej(msc_a, GSM48_REJECT_INCORRECT_MESSAGE); } if (msc_a_is_establishing_auth_ciph(msc_a)) { LOG_MSC_A(msc_a, LOGL_ERROR, "Cannot accept CM Service Request, conn already busy establishing authenticity\n"); return msc_gsm48_tx_mm_serv_rej(msc_a, GSM48_REJECT_CONGESTION); /* or should we accept and note down the service request anyway? */ } msc_a->complete_layer3_type = COMPLETE_LAYER3_CM_SERVICE_REQ; msub_update_id_from_mi(msc_a->c.msub, mi, mi_len); LOG_MSC_A_CAT(msc_a, DMM, LOGL_DEBUG, "Rx CM SERVICE REQUEST cm_service_type=%s\n", osmo_cm_service_type_name(req->cm_service_type)); mi_type = (mi && mi_len) ? (mi[0] & GSM_MI_TYPE_MASK) : GSM_MI_TYPE_NONE; switch (mi_type) { case GSM_MI_TYPE_IMSI: case GSM_MI_TYPE_TMSI: /* continue below */ break; case GSM_MI_TYPE_IMEI: if (req->cm_service_type == GSM48_CMSERV_EMERGENCY) { /* We don't do emergency calls by IMEI */ LOG_MSC_A(msc_a, LOGL_NOTICE, "Tx CM SERVICE REQUEST REJECT: " "emergency services by IMEI are not supported\n"); return msc_gsm48_tx_mm_serv_rej(msc_a, GSM48_REJECT_IMEI_NOT_ACCEPTED); } /* fall-through for non-emergency setup */ default: LOG_MSC_A(msc_a, LOGL_ERROR, "MI type is not expected: %s\n", gsm48_mi_type_name(mi_type)); return msc_gsm48_tx_mm_serv_rej(msc_a, GSM48_REJECT_INCORRECT_MESSAGE); } if (!msc_a_cm_service_type_to_use(req->cm_service_type)) return msc_gsm48_tx_mm_serv_rej(msc_a, GSM48_REJECT_SRV_OPT_NOT_SUPPORTED); if (msc_a_is_accepted(msc_a)) return cm_serv_reuse_conn(msc_a, mi_buf, req->cm_service_type); osmo_signal_dispatch(SS_SUBSCR, S_SUBSCR_IDENTITY, mi_buf); msc_a_get(msc_a, msc_a_cm_service_type_to_use(req->cm_service_type)); is_utran = (msc_a->c.ran->type == OSMO_RAT_UTRAN_IU); vlr_proc_acc_req(msc_a->c.fi, MSC_A_EV_AUTHENTICATED, MSC_A_EV_CN_CLOSE, NULL, net->vlr, msc_a, VLR_PR_ARQ_T_CM_SERV_REQ, req->cm_service_type, mi-1, &msc_a->via_cell.lai, is_utran || net->authentication_required, is_utran ? net->uea_encryption : net->a5_encryption_mask > 0x01, req->cipher_key_seq, osmo_gsm48_classmark2_is_r99(cm2, cm2_len), is_utran); /* From vlr_proc_acc_req() we expect an implicit dispatch of PR_ARQ_E_START we expect * msc_vlr_subscr_assoc() to already have been called and completed. Has an error occurred? */ vsub = msc_a_vsub(msc_a); if (!vsub) { LOG_MSC_A(msc_a, LOGL_ERROR, "subscriber not allowed to do a CM Service Request\n"); return -EIO; } vsub->classmark.classmark2 = *cm2; vsub->classmark.classmark2_len = cm2_len; return 0; } /* Receive a CM Re-establish Request */ static int gsm48_rx_cm_reest_req(struct msc_a *msc_a, struct msgb *msg) { uint8_t mi_type; char mi_string[GSM48_MI_SIZE]; struct gsm48_hdr *gh = msgb_l3(msg); uint8_t classmark2_len = gh->data[1]; uint8_t *classmark2 = gh->data+2; uint8_t mi_len = *(classmark2 + classmark2_len); uint8_t *mi = (classmark2 + classmark2_len + 1); gsm48_mi_to_string(mi_string, sizeof(mi_string), mi, mi_len); mi_type = mi[0] & GSM_MI_TYPE_MASK; DEBUGP(DMM, "<- CM RE-ESTABLISH REQUEST MI(%s)=%s\n", gsm48_mi_type_name(mi_type), mi_string); /* we don't support CM call re-establishment */ return msc_gsm48_tx_mm_serv_rej(msc_a, GSM48_REJECT_SRV_OPT_NOT_SUPPORTED); } static int gsm48_rx_mm_imsi_detach_ind(struct msc_a *msc_a, struct msgb *msg) { struct gsm_network *net = msc_a_net(msc_a); struct gsm48_hdr *gh = msgb_l3(msg); struct gsm48_imsi_detach_ind *idi = (struct gsm48_imsi_detach_ind *) gh->data; uint8_t mi_type = idi->mi[0] & GSM_MI_TYPE_MASK; char mi_string[GSM48_MI_SIZE]; struct vlr_subscr *vsub = NULL; gsm48_mi_to_string(mi_string, sizeof(mi_string), idi->mi, idi->mi_len); DEBUGP(DMM, "IMSI DETACH INDICATION: MI(%s)=%s\n", gsm48_mi_type_name(mi_type), mi_string); rate_ctr_inc(&net->msc_ctrs->ctr[MSC_CTR_LOC_UPDATE_TYPE_DETACH]); switch (mi_type) { case GSM_MI_TYPE_TMSI: vsub = vlr_subscr_find_by_tmsi(net->vlr, tmsi_from_string(mi_string), __func__); break; case GSM_MI_TYPE_IMSI: vsub = vlr_subscr_find_by_imsi(net->vlr, mi_string, __func__); break; case GSM_MI_TYPE_IMEI: case GSM_MI_TYPE_IMEISV: /* no sim card... FIXME: what to do ? */ LOGP(DMM, LOGL_ERROR, "MI(%s)=%s: unimplemented mobile identity type\n", gsm48_mi_type_name(mi_type), mi_string); break; default: LOGP(DMM, LOGL_ERROR, "MI(%s)=%s: unknown mobile identity type\n", gsm48_mi_type_name(mi_type), mi_string); break; } if (!vsub) { LOGP(DMM, LOGL_ERROR, "IMSI DETACH for unknown subscriber MI(%s)=%s\n", gsm48_mi_type_name(mi_type), mi_string); } else { LOGP(DMM, LOGL_INFO, "IMSI DETACH for %s\n", vlr_subscr_name(vsub)); msub_set_vsub(msc_a->c.msub, vsub); if (vsub->cs.is_paging) paging_expired(vsub); vsub->classmark.classmark1 = idi->classmark1; vlr_subscr_rx_imsi_detach(vsub); osmo_signal_dispatch(SS_SUBSCR, S_SUBSCR_DETACHED, vsub); vlr_subscr_put(vsub, __func__); } msc_a_release_cn(msc_a); return 0; } static int gsm48_rx_mm_status(struct msgb *msg) { struct gsm48_hdr *gh = msgb_l3(msg); DEBUGP(DMM, "MM STATUS (reject cause 0x%02x)\n", gh->data[0]); return 0; } static int parse_gsm_auth_resp(uint8_t *res, uint8_t *res_len, struct msc_a *msc_a, struct msgb *msg) { struct gsm48_hdr *gh = msgb_l3(msg); struct gsm48_auth_resp *ar = (struct gsm48_auth_resp*) gh->data; if (msgb_l3len(msg) < sizeof(*gh) + sizeof(*ar)) { LOG_MSC_A_CAT(msc_a, DMM, LOGL_ERROR, "MM AUTHENTICATION RESPONSE: l3 length invalid: %u\n", msgb_l3len(msg)); return -EINVAL; } *res_len = sizeof(ar->sres); memcpy(res, ar->sres, sizeof(ar->sres)); return 0; } static int parse_umts_auth_resp(uint8_t *res, uint8_t *res_len, struct msc_a *msc_a, struct msgb *msg) { struct gsm48_hdr *gh; uint8_t *data; uint8_t iei; uint8_t ie_len; unsigned int data_len; /* First parse the GSM part */ if (parse_gsm_auth_resp(res, res_len, msc_a, msg)) return -EINVAL; OSMO_ASSERT(*res_len == 4); /* Then add the extended res part */ gh = msgb_l3(msg); data = gh->data + sizeof(struct gsm48_auth_resp); data_len = msgb_l3len(msg) - (data - (uint8_t*)msgb_l3(msg)); if (data_len < 3) { LOG_MSC_A_CAT(msc_a, DMM, LOGL_ERROR, "MM AUTHENTICATION RESPONSE: " "message length=%u is too short\n", data_len); return -EINVAL; } iei = data[0]; ie_len = data[1]; if (iei != GSM48_IE_AUTH_RES_EXT) { LOG_MSC_A_CAT(msc_a, DMM, LOGL_ERROR, "MM R99 AUTHENTICATION RESPONSE: expected IEI 0x%02x, got 0x%02x\n", GSM48_IE_AUTH_RES_EXT, iei); return -EINVAL; } if (ie_len > 12) { LOG_MSC_A_CAT(msc_a, DMM, LOGL_ERROR, "MM R99 AUTHENTICATION RESPONSE: extended Auth Resp IE 0x%02x is too large: %u bytes\n", GSM48_IE_AUTH_RES_EXT, ie_len); return -EINVAL; } *res_len += ie_len; memcpy(res + 4, &data[2], ie_len); return 0; } /* Chapter 9.2.3: Authentication Response */ static int gsm48_rx_mm_auth_resp(struct msc_a *msc_a, struct msgb *msg) { uint8_t res[16]; uint8_t res_len; int rc; bool is_umts; struct vlr_subscr *vsub = msc_a_vsub(msc_a); if (!vsub) { LOG_MSC_A_CAT(msc_a, DMM, LOGL_ERROR, "MM AUTHENTICATION RESPONSE: invalid: no subscriber\n"); msc_a_release_mo(msc_a, GSM_CAUSE_AUTH_FAILED); return -EINVAL; } is_umts = (msgb_l3len(msg) > sizeof(struct gsm48_hdr) + sizeof(struct gsm48_auth_resp)); if (is_umts) rc = parse_umts_auth_resp(res, &res_len, msc_a, msg); else rc = parse_gsm_auth_resp(res, &res_len, msc_a, msg); if (rc) { LOG_MSC_A_CAT(msc_a, DMM, LOGL_ERROR, "MM AUTHENTICATION RESPONSE: invalid: parsing %s AKA Auth Response" " failed with rc=%d; dispatching zero length SRES/RES to trigger failure\n", is_umts ? "UMTS" : "GSM", rc); memset(res, 0, sizeof(res)); res_len = 0; } LOG_MSC_A_CAT(msc_a, DMM, LOGL_DEBUG, "MM %s AUTHENTICATION RESPONSE (%s = %s)\n", is_umts ? "UMTS" : "GSM", is_umts ? "res" : "sres", osmo_hexdump_nospc(res, res_len)); return vlr_subscr_rx_auth_resp(vsub, osmo_gsm48_classmark_is_r99(&vsub->classmark), msc_a->c.ran->type == OSMO_RAT_UTRAN_IU, res, res_len); } static int gsm48_rx_mm_auth_fail(struct msc_a *msc_a, struct msgb *msg) { struct gsm48_hdr *gh = msgb_l3(msg); uint8_t cause; uint8_t auts_tag; uint8_t auts_len; uint8_t *auts; struct vlr_subscr *vsub = msc_a_vsub(msc_a); if (!vsub) { LOG_MSC_A_CAT(msc_a, DMM, LOGL_ERROR, "MM R99 AUTHENTICATION FAILURE: invalid: no subscriber\n"); msc_a_release_mo(msc_a, GSM_CAUSE_AUTH_FAILED); return -EINVAL; } if (msgb_l3len(msg) < sizeof(*gh) + 1) { LOG_MSC_A_CAT(msc_a, DMM, LOGL_ERROR, "MM R99 AUTHENTICATION FAILURE: l3 length invalid: %u\n", msgb_l3len(msg)); msc_a_release_mo(msc_a, GSM_CAUSE_AUTH_FAILED); return -EINVAL; } cause = gh->data[0]; if (cause != GSM48_REJECT_SYNCH_FAILURE) { LOG_MSC_A_CAT(msc_a, DMM, LOGL_INFO, "MM R99 AUTHENTICATION FAILURE: cause 0x%0x\n", cause); vlr_subscr_rx_auth_fail(vsub, NULL); return 0; } /* This is a Synch Failure procedure, which should pass an AUTS to * resynchronize the sequence nr with the HLR. Expecting exactly one * TLV with 14 bytes of AUTS. */ if (msgb_l3len(msg) < sizeof(*gh) + 1 + 2) { LOG_MSC_A_CAT(msc_a, DMM, LOGL_INFO, "MM R99 AUTHENTICATION FAILURE: invalid Synch Failure: missing AUTS IE\n"); msc_a_release_mo(msc_a, GSM_CAUSE_AUTH_FAILED); return -EINVAL; } auts_tag = gh->data[1]; auts_len = gh->data[2]; auts = &gh->data[3]; if (auts_tag != GSM48_IE_AUTS || auts_len != 14) { LOG_MSC_A_CAT(msc_a, DMM, LOGL_INFO, "MM R99 AUTHENTICATION FAILURE: invalid Synch Failure:" " expected AUTS IE 0x%02x of 14 bytes," " got IE 0x%02x of %u bytes\n", GSM48_IE_AUTS, auts_tag, auts_len); msc_a_release_mo(msc_a, GSM_CAUSE_AUTH_FAILED); return -EINVAL; } if (msgb_l3len(msg) < sizeof(*gh) + 1 + 2 + auts_len) { LOG_MSC_A_CAT(msc_a, DMM, LOGL_INFO, "MM R99 AUTHENTICATION FAILURE: invalid Synch Failure msg: message truncated (%u)\n", msgb_l3len(msg)); msc_a_release_mo(msc_a, GSM_CAUSE_AUTH_FAILED); return -EINVAL; } /* We have an AUTS IE with exactly 14 bytes of AUTS and the msgb is * large enough. */ LOG_MSC_A_CAT(msc_a, DMM, LOGL_DEBUG, "MM R99 AUTHENTICATION SYNCH (AUTS = %s)\n", osmo_hexdump_nospc(auts, 14)); return vlr_subscr_rx_auth_fail(vsub, auts); } static int gsm48_rx_mm_tmsi_reall_compl(struct msc_a *msc_a) { struct vlr_subscr *vsub = msc_a_vsub(msc_a); if (!vsub) { LOG_MSC_A_CAT(msc_a, DMM, LOGL_ERROR, "Rx MM TMSI Reallocation Complete: invalid: no subscriber\n"); return -EINVAL; } LOG_MSC_A_CAT(msc_a, DMM, LOGL_DEBUG, "TMSI Reallocation Completed\n"); return vlr_subscr_rx_tmsi_reall_compl(vsub); } /* Receive a GSM 04.08 Mobility Management (MM) message */ int gsm0408_rcv_mm(struct msc_a *msc_a, struct msgb *msg) { struct gsm48_hdr *gh = msgb_l3(msg); int rc = 0; switch (gsm48_hdr_msg_type(gh)) { case GSM48_MT_MM_LOC_UPD_REQUEST: rc = mm_rx_loc_upd_req(msc_a, msg); break; case GSM48_MT_MM_ID_RESP: rc = mm_rx_id_resp(msc_a, msg); break; case GSM48_MT_MM_CM_SERV_REQ: rc = gsm48_rx_mm_serv_req(msc_a, msg); break; case GSM48_MT_MM_STATUS: rc = gsm48_rx_mm_status(msg); break; case GSM48_MT_MM_TMSI_REALL_COMPL: rc = gsm48_rx_mm_tmsi_reall_compl(msc_a); break; case GSM48_MT_MM_IMSI_DETACH_IND: rc = gsm48_rx_mm_imsi_detach_ind(msc_a, msg); break; case GSM48_MT_MM_CM_REEST_REQ: rc = gsm48_rx_cm_reest_req(msc_a, msg); break; case GSM48_MT_MM_AUTH_RESP: rc = gsm48_rx_mm_auth_resp(msc_a, msg); break; case GSM48_MT_MM_AUTH_FAIL: rc = gsm48_rx_mm_auth_fail(msc_a, msg); break; default: LOGP(DMM, LOGL_NOTICE, "Unknown GSM 04.08 MM msg type 0x%02x\n", gh->msg_type); break; } return rc; } /* Receive a PAGING RESPONSE message from the MS */ static int gsm48_rx_rr_pag_resp(struct msc_a *msc_a, struct msgb *msg) { struct gsm_network *net = msc_a_net(msc_a); struct gsm48_hdr *gh = msgb_l3(msg); struct gsm48_pag_resp *pr = (struct gsm48_pag_resp *)gh->data; uint8_t classmark2_len = gh->data[1]; uint8_t *classmark2_buf = gh->data+2; struct gsm48_classmark2 *cm2 = (void*)classmark2_buf; uint8_t *mi_lv = classmark2_buf + classmark2_len; bool is_utran; struct vlr_subscr *vsub; if (msc_a_is_establishing_auth_ciph(msc_a)) { LOG_MSC_A_CAT(msc_a, DMM, LOGL_ERROR, "Ignoring Paging Response, conn already busy establishing authenticity\n"); return 0; } if (msc_a_is_accepted(msc_a)) { LOG_MSC_A_CAT(msc_a, DMM, LOGL_ERROR, "Ignoring Paging Response, conn already established\n"); return 0; } msc_a->complete_layer3_type = COMPLETE_LAYER3_PAGING_RESP; msub_update_id_from_mi(msc_a->c.msub, mi_lv + 1, *mi_lv); LOG_MSC_A_CAT(msc_a, DRR, LOGL_DEBUG, "Rx PAGING RESPONSE\n"); msc_a_get(msc_a, MSC_A_USE_PAGING_RESPONSE); is_utran = (msc_a->c.ran->type == OSMO_RAT_UTRAN_IU); vlr_proc_acc_req(msc_a->c.fi, MSC_A_EV_AUTHENTICATED, MSC_A_EV_CN_CLOSE, NULL, net->vlr, msc_a, VLR_PR_ARQ_T_PAGING_RESP, 0, mi_lv, &msc_a->via_cell.lai, is_utran || net->authentication_required, is_utran ? net->uea_encryption : net->a5_encryption_mask > 0x01, pr->key_seq, osmo_gsm48_classmark2_is_r99(cm2, classmark2_len), is_utran); /* From vlr_proc_acc_req() we expect an implicit dispatch of PR_ARQ_E_START we expect * msc_vlr_subscr_assoc() to already have been called and completed. Has an error occurred? */ vsub = msc_a_vsub(msc_a); if (!vsub) { LOG_MSC_A(msc_a, LOGL_ERROR, "subscriber not allowed to do a Paging Response\n"); msc_a_put(msc_a, MSC_A_USE_PAGING_RESPONSE); return -EIO; } vsub->classmark.classmark2 = *cm2; vsub->classmark.classmark2_len = classmark2_len; return 0; } static int gsm48_rx_rr_ciphering_mode_complete(struct msc_a *msc_a, struct msgb *msg) { struct vlr_subscr *vsub = msc_a_vsub(msc_a); struct gsm48_hdr *gh = msgb_l3(msg); unsigned int payload_len = msgb_l3len(msg) - sizeof(*gh); struct tlv_parsed tp; struct tlv_p_entry *mi; tlv_parse(&tp, &gsm48_att_tlvdef, gh->data, payload_len, 0, 0); mi = TLVP_GET(&tp, GSM48_IE_MOBILE_ID); /* IMEI(SV) is optional for this message */ if (!mi) return 0; if (!mi->len) return -EINVAL; if ((mi->val[0] & GSM_MI_TYPE_MASK) != GSM_MI_TYPE_IMEISV) { LOGP(DMM, LOGL_ERROR, "RR Ciphering Mode Complete contains " "unexpected Mobile Identity type %s\n", gsm48_mi_type_name(mi->val[0] & GSM_MI_TYPE_MASK)); return -EINVAL; } LOG_MSC_A(msc_a, LOGL_DEBUG, "RR Ciphering Mode Complete contains Mobile Identity: %s\n", osmo_mi_name(mi->val, mi->len)); if (!vsub) return 0; return vlr_subscr_rx_id_resp(vsub, mi->val, mi->len); } static int gsm48_rx_rr_app_info(struct msc_a *msc_a, struct msgb *msg) { struct gsm48_hdr *gh = msgb_l3(msg); uint8_t apdu_id_flags; uint8_t apdu_len; uint8_t *apdu_data; apdu_id_flags = gh->data[0]; apdu_len = gh->data[1]; apdu_data = gh->data+2; DEBUGP(DRR, "RX APPLICATION INFO id/flags=0x%02x apdu_len=%u apdu=%s\n", apdu_id_flags, apdu_len, osmo_hexdump(apdu_data, apdu_len)); /* we're not using the app info blob anywhere, so ignore. */ #if 0 return db_apdu_blob_store(conn->subscr, apdu_id_flags, apdu_len, apdu_data); #else return 0; #endif } /* Receive a GSM 04.08 Radio Resource (RR) message */ int gsm0408_rcv_rr(struct msc_a *msc_a, struct msgb *msg) { struct gsm48_hdr *gh = msgb_l3(msg); int rc = 0; switch (gh->msg_type) { case GSM48_MT_RR_PAG_RESP: rc = gsm48_rx_rr_pag_resp(msc_a, msg); break; case GSM48_MT_RR_CIPH_M_COMPL: rc = gsm48_rx_rr_ciphering_mode_complete(msc_a, msg); break; case GSM48_MT_RR_APP_INFO: rc = gsm48_rx_rr_app_info(msc_a, msg); break; default: LOG_MSC_A_CAT(msc_a, DRR, LOGL_NOTICE, "MSC: Unimplemented %s GSM 04.08 RR " "message\n", gsm48_rr_msg_name(gh->msg_type)); break; } return rc; } int gsm48_send_rr_app_info(struct msc_a *msc_a, uint8_t apdu_id, uint8_t apdu_len, const uint8_t *apdu) { struct msgb *msg = gsm48_msgb_alloc_name("GSM 04.08 APP INF"); struct gsm48_hdr *gh; DEBUGP(DRR, "TX APPLICATION INFO id=0x%02x, len=%u\n", apdu_id, apdu_len); gh = (struct gsm48_hdr *) msgb_put(msg, sizeof(*gh) + 2 + apdu_len); gh->proto_discr = GSM48_PDISC_RR; gh->msg_type = GSM48_MT_RR_APP_INFO; gh->data[0] = apdu_id; gh->data[1] = apdu_len; memcpy(gh->data+2, apdu, apdu_len); return msc_a_tx_dtap_to_i(msc_a, msg); } extern int gsm0408_rcv_cc(struct msc_a *msc_a, struct msgb *msg); /*********************************************************************** * VLR integration ***********************************************************************/ /* VLR asks us to send an authentication request */ static int msc_vlr_tx_auth_req(void *msc_conn_ref, struct vlr_auth_tuple *at, bool send_autn) { struct msc_a *msc_a = msc_conn_ref; return gsm48_tx_mm_auth_req(msc_a, at->vec.rand, send_autn? at->vec.autn : NULL, at->key_seq); } /* VLR asks us to send an authentication reject */ static int msc_vlr_tx_auth_rej(void *msc_conn_ref) { struct msc_a *msc_a = msc_conn_ref; return gsm48_tx_mm_auth_rej(msc_a); } /* VLR asks us to transmit an Identity Request of given type */ static int msc_vlr_tx_id_req(void *msc_conn_ref, uint8_t mi_type) { struct msc_a *msc_a = msc_conn_ref; /* Store requested MI type, so we can check the response */ msc_a->mm_id_req_type = mi_type; return mm_tx_identity_req(msc_a, mi_type); } /* VLR asks us to transmit a Location Update Accept */ static int msc_vlr_tx_lu_acc(void *msc_conn_ref, uint32_t send_tmsi) { struct msc_a *msc_a = msc_conn_ref; return gsm0408_loc_upd_acc(msc_a, send_tmsi); } /* VLR asks us to transmit a Location Update Reject */ static int msc_vlr_tx_lu_rej(void *msc_conn_ref, enum gsm48_reject_value cause) { struct msc_a *msc_a = msc_conn_ref; return gsm0408_loc_upd_rej(msc_a, cause); } /* VLR asks us to transmit a CM Service Accept */ int msc_vlr_tx_cm_serv_acc(void *msc_conn_ref, enum osmo_cm_service_type cm_service_type) { struct msc_a *msc_a = msc_conn_ref; return msc_gsm48_tx_mm_serv_ack(msc_a); } static int msc_vlr_tx_common_id(void *msc_conn_ref) { struct msc_a *msc_a = msc_conn_ref; struct ran_msg msg = { .msg_type = RAN_MSG_COMMON_ID, .common_id = { .imsi = msc_a_vsub(msc_a)->imsi, }, }; return msc_a_ran_down(msc_a, MSC_ROLE_I, &msg); } /* VLR asks us to transmit MM info. */ static int msc_vlr_tx_mm_info(void *msc_conn_ref) { struct msc_a *msc_a = msc_conn_ref; struct gsm_network *net = msc_a_net(msc_a); if (!net->send_mm_info) return 0; return gsm48_tx_mm_info(msc_a); } /* VLR asks us to transmit a CM Service Reject */ static int msc_vlr_tx_cm_serv_rej(void *msc_conn_ref, enum osmo_cm_service_type cm_service_type, enum gsm48_reject_value cause) { struct msc_a *msc_a = msc_conn_ref; msc_gsm48_tx_mm_serv_rej(msc_a, cause); msc_a_put(msc_a, msc_a_cm_service_type_to_use(cm_service_type)); return 0; } /* VLR informs us that the subscriber data has somehow been modified */ static void msc_vlr_subscr_update(struct vlr_subscr *subscr) { struct msub *msub = msub_for_vsub(subscr); LOGVSUBP(LOGL_NOTICE, subscr, "VLR: update for IMSI=%s (MSISDN=%s)%s\n", subscr->imsi, subscr->msisdn, msub ? "" : " (NO CONN!)"); msub_update_id(msub); } /* VLR informs us that the subscriber has been associated with a conn */ static int msc_vlr_subscr_assoc(void *msc_conn_ref, struct vlr_subscr *vsub) { struct msc_a *msc_a = msc_conn_ref; struct msub *msub = msc_a->c.msub; OSMO_ASSERT(vsub); if (msub_set_vsub(msub, vsub)) return -EINVAL; vsub->cs.attached_via_ran = msc_a->c.ran->type; /* In case we have already received Classmark Information before the VLR Subscriber was * associated with the conn: merge the new Classmark into vsub->classmark. Don't overwrite valid * vsub->classmark with unset classmark, though. */ osmo_gsm48_classmark_update(&vsub->classmark, &msc_a->temporary_classmark); msub_update_id(msub); osmo_fsm_inst_dispatch(msc_a->c.fi, MSC_A_EV_COMPLETE_LAYER_3_OK, NULL); return 0; } /* operations that we need to implement for libvlr */ const struct vlr_ops msc_vlr_ops = { .tx_auth_req = msc_vlr_tx_auth_req, .tx_auth_rej = msc_vlr_tx_auth_rej, .tx_id_req = msc_vlr_tx_id_req, .tx_lu_acc = msc_vlr_tx_lu_acc, .tx_lu_rej = msc_vlr_tx_lu_rej, .tx_cm_serv_acc = msc_vlr_tx_cm_serv_acc, .tx_cm_serv_rej = msc_vlr_tx_cm_serv_rej, .set_ciph_mode = msc_a_vlr_set_cipher_mode, .tx_common_id = msc_vlr_tx_common_id, .tx_mm_info = msc_vlr_tx_mm_info, .subscr_update = msc_vlr_subscr_update, .subscr_assoc = msc_vlr_subscr_assoc, }; struct msgb *gsm48_create_mm_serv_rej(enum gsm48_reject_value value) { struct msgb *msg; struct gsm48_hdr *gh; msg = gsm48_msgb_alloc_name("GSM 04.08 SERV REJ"); if (!msg) return NULL; gh = (struct gsm48_hdr *) msgb_put(msg, sizeof(*gh) + 1); gh->proto_discr = GSM48_PDISC_MM; gh->msg_type = GSM48_MT_MM_CM_SERV_REJ; gh->data[0] = value; return msg; } struct msgb *gsm48_create_loc_upd_rej(uint8_t cause) { struct gsm48_hdr *gh; struct msgb *msg; msg = gsm48_msgb_alloc_name("GSM 04.08 LOC UPD REJ"); if (!msg) return NULL; gh = (struct gsm48_hdr *) msgb_put(msg, sizeof(*gh) + 1); gh->proto_discr = GSM48_PDISC_MM; gh->msg_type = GSM48_MT_MM_LOC_UPD_REJECT; gh->data[0] = cause; return msg; } int gsm48_extract_mi(uint8_t *classmark2_lv, int length, char *mi_string, uint8_t *mi_type) { /* Check the size for the classmark */ if (length < 1 + *classmark2_lv) return -1; uint8_t *mi_lv = classmark2_lv + *classmark2_lv + 1; if (length < 2 + *classmark2_lv + mi_lv[0]) return -2; *mi_type = mi_lv[1] & GSM_MI_TYPE_MASK; return gsm48_mi_to_string(mi_string, GSM48_MI_SIZE, mi_lv+1, *mi_lv); } int gsm48_paging_extract_mi(struct gsm48_pag_resp *resp, int length, char *mi_string, uint8_t *mi_type) { static const uint32_t classmark_offset = offsetof(struct gsm48_pag_resp, classmark2); uint8_t *classmark2_lv = (uint8_t *) &resp->classmark2; return gsm48_extract_mi(classmark2_lv, length - classmark_offset, mi_string, mi_type); }