/* SGs Interface according to 3GPP TS 23.272 + TS 29.118 */
/* (C) 2018-2019 by sysmocom s.f.m.c. GmbH
* All Rights Reserved
*
* Author: Harald Welte, Philipp Maier
*
* 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
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#define S(x) (1 << (x))
/* A pointer to the GSM network we work with. By the current paradigm,
* there can only be one gsm_network per MSC. The pointer is set once
* when calling sgs_iface_init() */
static struct gsm_network *gsm_network = NULL;
static struct osmo_fsm sgs_vlr_reset_fsm;
static void sgs_tx(struct sgs_connection *sgc, struct msgb *msg);
struct sgs_state *g_sgs;
/***********************************************************************
* SGs state per MME connection
***********************************************************************/
#define LOGSGC(sgc, lvl, fmt, args...) \
LOGP(DSGS, lvl, "%s: " fmt, sgc->sockname, ## args)
#define LOGSGC_VSUB(sgc, sub_info, lvl, fmt, args...) \
LOGP(DSGS, lvl, "(sub %s) %s: " fmt, sub_info, sgc->sockname, ## args)
#define LOGMME(mme, lvl, fmt, args...) \
LOGP(DSGS, lvl, "%s: " fmt, mme->fqdn ? mme->fqdn : mme->conn->sockname, ## args)
enum sgs_vlr_reset_fsm_state {
SGS_VLRR_ST_NULL,
SGS_VLRR_ST_WAIT_ACK,
SGS_VLRR_ST_COMPLETE,
};
enum sgs_vlr_reset_fsm_event {
SGS_VLRR_E_START_RESET,
SGS_VLRR_E_RX_RESET_ACK,
};
/***********************************************************************
* SGs utility functions
***********************************************************************/
/* Allocate a new subscriber connection */
static struct ran_conn *subscr_conn_allocate_sgs(struct sgs_connection *sgc, struct vlr_subscr *vsub, bool mt)
{
struct ran_conn *conn;
conn = ran_conn_alloc(gsm_network, OSMO_RAT_EUTRAN_SGS, vsub->sgs.lai.lac);
if (!conn) {
LOGSGC_VSUB(sgc, vlr_subscr_name(vsub), LOGL_ERROR, "Connection allocation failed\n");
return NULL;
}
conn->vsub = vsub;
conn->vsub->cs.attached_via_ran = conn->via_ran;
/* Accept the connection immediately, since the UE is already
* authenticated by the MME no authentication is required. */
conn->complete_layer3_type = mt ? COMPLETE_LAYER3_PAGING_RESP : COMPLETE_LAYER3_CM_SERVICE_REQ;
ran_conn_update_id(conn);
osmo_fsm_inst_dispatch(conn->fi, RAN_CONN_E_COMPLETE_LAYER_3, NULL);
osmo_fsm_inst_dispatch(conn->fi, RAN_CONN_E_ACCEPTED, NULL);
LOG_RAN_CONN(conn, LOGL_DEBUG, "RAN connection successfully allocated!\n");
return conn;
}
/* Check if there are connections associated with a given subscriber. If yes,
* make sure that those connections are tossed. */
static void subscr_conn_toss(struct vlr_subscr *vsub)
{
struct ran_conn *conn;
conn = connection_for_subscr(vsub);
if (!conn)
return;
LOG_RAN_CONN(conn, LOGL_DEBUG, "RAN connection tossed because of unexpected RAN change!\n");
ran_conn_mo_close(conn, GSM48_REJECT_CONGESTION);
}
struct sgs_mme_ctx *sgs_mme_by_fqdn(struct sgs_state *sgs, const char *mme_fqdn)
{
struct sgs_mme_ctx *mme;
llist_for_each_entry(mme, &sgs->mme_list, entry) {
if (!strcasecmp(mme_fqdn, mme->fqdn))
return mme;
}
return NULL;
}
static struct sgs_mme_ctx *sgs_mme_alloc(struct sgs_state *sgs, const char *mme_fqdn, const struct osmo_gummei *gummei)
{
struct sgs_mme_ctx *mme;
OSMO_ASSERT(sgs_mme_by_fqdn(sgs, mme_fqdn) == NULL);
mme = talloc_zero(sgs, struct sgs_mme_ctx);
if (!mme)
return NULL;
mme->sgs = sgs;
OSMO_STRLCPY_ARRAY(mme->fqdn, mme_fqdn);
mme->fi = osmo_fsm_inst_alloc(&sgs_vlr_reset_fsm, mme, mme, LOGL_INFO, osmo_gummei_name(gummei));
if (!mme->fi) {
talloc_free(mme);
return NULL;
}
llist_add_tail(&mme->entry, &sgs->mme_list);
return mme;
}
/* Decode and verify MME name */
static int decode_mme_name(char *mme_name, const struct tlv_parsed *tp)
{
const uint8_t *mme_name_enc = TLVP_VAL_MINLEN(tp, SGSAP_IE_MME_NAME, SGS_MME_NAME_LEN);
struct osmo_gummei gummei;
if (!mme_name_enc)
return -EINVAL;
/* decode the MME name from DNS labels to string */
osmo_apn_to_str(mme_name, TLVP_VAL(tp, SGSAP_IE_MME_NAME), TLVP_LEN(tp, SGSAP_IE_MME_NAME));
/* try to parse the MME name into a GUMMEI as a test for the format */
if (osmo_parse_mme_domain(&gummei, mme_name) < 0)
return -EINVAL;
return 0;
}
/* A MME FQDN was received (e.g. RESET-IND/RESET-ACK/LU-REQ) */
static int sgs_mme_fqdn_received(struct sgs_connection *sgc, const char *mme_fqdn)
{
struct sgs_mme_ctx *mme;
struct osmo_gummei gummei;
/* caller must pass in a valid FQDN string syntax */
OSMO_ASSERT(osmo_parse_mme_domain(&gummei, mme_fqdn) == 0);
if (!sgc->mme) {
/* attempt to find MME with given name */
mme = sgs_mme_by_fqdn(sgc->sgs, mme_fqdn);
if (!mme)
mme = sgs_mme_alloc(sgc->sgs, mme_fqdn, &gummei);
OSMO_ASSERT(mme);
if (mme->conn) {
/* The MME context has another connection !?! */
LOGSGC(sgc, LOGL_ERROR, "Rx MME name %s, but that MME already has other "
"SCTP connection?!?\n", mme_fqdn);
return -1;
} else {
/* associate the two */
mme->conn = sgc;
sgc->mme = mme;
}
} else {
mme = sgc->mme;
if (strcasecmp(mme->fqdn, mme_fqdn) != 0) {
LOGMME(mme, LOGL_ERROR, "Rx MME name \"%s\" in packet from MME \"%s\" ?!?\n", mme_fqdn,
mme->fqdn);
return -2;
}
}
return 0;
}
/* Safely get the mme-name for an sgs-connection */
static char *sgs_mme_fqdn_get(struct sgs_connection *sgc)
{
if (!sgc)
return NULL;
if (!sgc->mme)
return NULL;
if (sgc->mme->fqdn[0] == '\0')
return NULL;
return sgc->mme->fqdn;
}
/* Find an sgs_mme_ctx for a given vlr subscriber, also check result */
struct sgs_mme_ctx *sgs_mme_ctx_by_vsub(struct vlr_subscr *vsub, uint8_t msg_type)
{
struct sgs_mme_ctx *mme;
/* Find SGS connection by MME name */
mme = sgs_mme_by_fqdn(g_sgs, vsub->sgs.mme_name);
if (!mme) {
LOGP(DSGS, LOGL_ERROR, "(sub %s) Tx %s cannot find suitable MME!\n",
vlr_subscr_name(vsub), sgsap_msg_type_name(msg_type));
return NULL;
}
if (!mme->conn) {
LOGP(DSGS, LOGL_ERROR,
"(sub %s) Tx %s suitable MME found, but no SGS connection present!\n",
vlr_subscr_name(vsub), sgsap_msg_type_name(msg_type));
return NULL;
}
if (!mme->sgs) {
LOGP(DSGS, LOGL_ERROR,
"(sub %s) Tx %s suitable MME found, but no SGS state present!\n",
vlr_subscr_name(vsub), sgsap_msg_type_name(msg_type));
return NULL;
}
return mme;
}
/* Make sure that the subscriber is known and that the subscriber is in the
* SGs associated state. In case of failure the function returns false and
* automatically sends a release message to the MME */
static bool check_sgs_association(struct sgs_connection *sgc, struct msgb *msg, char *imsi)
{
struct vlr_subscr *vsub;
struct msgb *resp;
uint8_t msg_type = msg->data[0];
/* Subscriber must be known by the VLR */
vsub = vlr_subscr_find_by_imsi(gsm_network->vlr, imsi);
if (!vsub) {
LOGSGC(sgc, LOGL_NOTICE, "SGsAP Message %s with unknown IMSI (%s), releasing\n",
sgsap_msg_type_name(msg_type), imsi);
resp = gsm29118_create_release_req(imsi, SGSAP_SGS_CAUSE_IMSI_UNKNOWN);
sgs_tx(sgc, resp);
return false;
}
/* The SGs FSM must also be in SGs associated state */
if (vsub->sgs_fsm->state != SGS_UE_ST_ASSOCIATED) {
LOGSGC(sgc, LOGL_NOTICE, "(sub %s) SGsAP Message %s subscriber not SGs-associated, releasing\n",
vlr_subscr_name(vsub), sgsap_msg_type_name(msg_type));
resp = gsm29118_create_release_req(vsub->imsi, SGSAP_SGS_CAUSE_IMSI_DET_EPS_NONEPS);
sgs_tx(sgc, resp);
vlr_subscr_put(vsub);
return false;
}
vlr_subscr_put(vsub);
return true;
}
/***********************************************************************
* SGsAP transmit functions
***********************************************************************/
/* Send message out to remote end (final step) */
static void sgs_tx(struct sgs_connection *sgc, struct msgb *msg)
{
if (!msg) {
LOGSGC(sgc, LOGL_NOTICE, "Null message, cannot transmit!\n");
return;
}
msgb_sctp_ppid(msg) = 0;
if (!sgc) {
LOGSGC(sgc, LOGL_NOTICE, "Cannot transmit %s: connection dead. Discarding\n",
sgsap_msg_type_name(msg->data[0]));
msgb_free(msg);
return;
}
osmo_stream_srv_send(sgc->srv, msg);
}
/* Get some subscriber info from ISMI (for the log text) */
const char *subscr_info(const char *imsi)
{
const char *subscr_string = "";
struct vlr_subscr *vsub;
if (imsi) {
vsub = vlr_subscr_find_by_imsi(gsm_network->vlr, imsi);
if (!vsub)
subscr_string = imsi;
else {
subscr_string = vlr_subscr_name(vsub);
vlr_subscr_put(vsub);
}
}
return subscr_string;
}
/* Comfortable status message generator that also generates some basic
* context-dependent dependand log output */
static int sgs_tx_status(struct sgs_connection *sgc, const char *imsi, enum sgsap_sgs_cause cause, struct msgb *msg,
int sgsap_iei)
{
struct msgb *resp;
if (sgsap_iei < 0) {
LOGSGC_VSUB(sgc, subscr_info(imsi), LOGL_ERROR, "Rx %s failed with cause %s!\n",
sgsap_msg_type_name(msg->data[0]), sgsap_sgs_cause_name(cause));
} else if (cause == SGSAP_SGS_CAUSE_MISSING_MAND_IE) {
LOGSGC_VSUB(sgc, subscr_info(imsi), LOGL_ERROR, "Rx %s with missing mandatory %s IEI!\n",
sgsap_msg_type_name(msg->data[0]), sgsap_iei_name(sgsap_iei));
} else if (cause == SGSAP_SGS_CAUSE_INVALID_MAND_IE) {
LOGSGC_VSUB(sgc, subscr_info(imsi), LOGL_ERROR, "Rx %s with invalid mandatory %s IEI!\n",
sgsap_msg_type_name(msg->data[0]), sgsap_iei_name(sgsap_iei));
} else if (cause == SGSAP_SGS_CAUSE_COND_IE_ERROR) {
LOGSGC_VSUB(sgc, subscr_info(imsi), LOGL_ERROR, "Rx %s with errornous conditional %s IEI!\n",
sgsap_msg_type_name(msg->data[0]), sgsap_iei_name(sgsap_iei));
} else {
LOGSGC_VSUB(sgc, subscr_info(imsi), LOGL_ERROR, "Rx %s failed with cause %s at %s IEI!\n",
sgsap_msg_type_name(msg->data[0]), sgsap_sgs_cause_name(cause), sgsap_iei_name(sgsap_iei));
}
resp = gsm29118_create_status(imsi, cause, msg);
sgs_tx(sgc, resp);
return 0;
}
/* Called by VLR via callback, transmits the the location update response or
* reject, depending on the outcome of the location update. */
static void sgs_tx_loc_upd_resp_cb(struct sgs_lu_response *response)
{
struct msgb *resp;
struct vlr_subscr *vsub = response->vsub;
struct sgs_mme_ctx *mme;
uint8_t new_id[2 + GSM48_TMSI_LEN];
uint8_t *new_id_ptr = new_id;
unsigned int new_id_len = 0;
uint8_t resp_msg_type;
if (response->accepted)
resp_msg_type = SGSAP_MSGT_LOC_UPD_ACK;
else
resp_msg_type = SGSAP_MSGT_LOC_UPD_REJ;
mme = sgs_mme_ctx_by_vsub(vsub, resp_msg_type);
if (!mme)
return;
if (response->accepted) {
if (vsub->tmsi_new != GSM_RESERVED_TMSI) {
new_id_len = gsm48_generate_mid_from_tmsi(new_id, vsub->tmsi_new);
new_id_ptr = new_id + 2;
new_id_len -= 2;
}
resp = gsm29118_create_lu_ack(vsub->imsi, &vsub->sgs.lai, new_id_ptr, new_id_len);
sgs_tx(mme->conn, resp);
vlr_sgs_loc_update_acc_sent(vsub);
} else {
resp = gsm29118_create_lu_rej(vsub->imsi, SGSAP_SGS_CAUSE_IMSI_UNKNOWN, &vsub->sgs.lai);
sgs_tx(mme->conn, resp);
vlr_sgs_loc_update_rej_sent(vsub);
}
}
/* Called by VLR via callback, transmits MM information to the UE */
static void sgs_tx_mm_info_cb(struct vlr_subscr *vsub)
{
struct msgb *msg;
struct msgb *msg_mm_info;
struct sgs_mme_ctx *mme;
/* The sending of MM information requests is an optional feature and
* depends on the network configuration (VTY) */
if (!gsm_network->send_mm_info)
return;
mme = sgs_mme_ctx_by_vsub(vsub, SGSAP_MSGT_MM_INFO_REQ);
if (!mme)
return;
/* Create and send MM information request message, see also:
* 3GPP TS 29.118, chapter 8.12 SGsAP-MM-INFORMATION-REQUEST and
* 3GPP TS 29.018, chapter 18.4.16 MM information. */
msg_mm_info = gsm48_create_mm_info(gsm_network);
msg = gsm29118_create_mm_info_req(vsub->imsi, msg_mm_info->data + 2, msg_mm_info->len - 2);
sgs_tx(mme->conn, msg);
msgb_free(msg_mm_info);
}
/*! Page UE through SGs interface
* \param[in] vsub subscriber context
* \param[in] serv_ind service indicator (sms or voide)
* \returns 0 in case of success, -EINVAL in case of error. */
int sgs_iface_tx_paging(struct vlr_subscr *vsub, enum sgsap_service_ind serv_ind)
{
struct msgb *resp;
struct gsm29118_paging_req paging_params;
struct sgs_mme_ctx *mme;
/* See also: 3GPP TS 29.118, chapter 5.1.2.2 Paging Initiation */
if (vsub->sgs_fsm->state == SGS_UE_ST_NULL && vsub->conf_by_radio_contact_ind == true)
return -EINVAL;
mme = sgs_mme_ctx_by_vsub(vsub, SGSAP_MSGT_PAGING_REQ);
if (!mme)
return -EINVAL;
/* Check if there is still a paging in progress for this subscriber,
* if yes, don't initiate another paging request. */
if (vlr_sgs_pag_pend(vsub))
return 0;
memset(&paging_params, 0, sizeof(paging_params));
osmo_strlcpy(paging_params.imsi, vsub->imsi, sizeof(paging_params.imsi));
osmo_strlcpy(paging_params.vlr_name, mme->sgs->cfg.vlr_name, sizeof(paging_params.vlr_name));
paging_params.serv_ind = serv_ind;
if (vsub->conf_by_radio_contact_ind == true) {
memcpy(&paging_params.lai, &vsub->sgs.lai, sizeof(paging_params.lai));
paging_params.lai_present = true;
}
resp = gsm29118_create_paging_req(&paging_params);
sgs_tx(mme->conn, resp);
/* FIXME: If we are in SGS_UE_ST_NULL while sub->conf_by_radio_contact_ind == false,
* we are supposed to start a search procedure as defined in 3GPP TS 23.018 */
/* Inform the VLR that a paging via SGs is in progress */
vlr_sgs_pag(vsub, serv_ind);
/* Return a page count of 1 (success) */
return 1;
}
/***********************************************************************
* SGs incoming messages from the MME
***********************************************************************/
/* Safely read out the SGs cause code from a given message/tlv set, send status
* message in case the cause code is invalid or missing. */
static int sgs_cause_from_msg(struct sgs_connection *sgc, struct msgb *msg, const struct tlv_parsed *tp,
const char *imsi)
{
enum sgsap_sgs_cause cause;
const uint8_t *cause_ptr;
cause_ptr = TLVP_VAL_MINLEN(tp, SGSAP_IE_SGS_CAUSE, 1);
if (!cause_ptr) {
sgs_tx_status(sgc, imsi, SGSAP_SGS_CAUSE_MISSING_MAND_IE, msg, SGSAP_IE_SGS_CAUSE);
return -1;
} else
cause = *cause_ptr;
return cause;
}
/* SGsAP-STATUS 3GPP TS 29.118, chapter 8.18 */
static int sgs_rx_status(struct sgs_connection *sgc, struct msgb *msg, const struct tlv_parsed *tp, const char *imsi)
{
int cause;
const uint8_t *err_msg;
const char *imsi_ptr;
char *err_msg_hex = "(none)";
cause = sgs_cause_from_msg(sgc, msg, tp, NULL);
if (cause < 0)
return 0;
if (imsi[0] != '\0')
imsi_ptr = imsi;
else
imsi_ptr = "";
if (TLVP_PRESENT(tp, SGSAP_IE_ERR_MSG))
err_msg = TLVP_VAL(tp, SGSAP_IE_ERR_MSG);
else
err_msg = NULL;
if (err_msg)
err_msg_hex = osmo_hexdump(err_msg, TLVP_LEN(tp, SGSAP_IE_ERR_MSG));
LOGSGC(sgc, LOGL_NOTICE, "Rx STATUS cause=%s, IMSI=%s, err_msg=%s\n",
sgsap_sgs_cause_name(cause), imsi_ptr, err_msg_hex);
return 0;
}
/* SGsAP-RESET-INDICATION 3GPP TS 29.118, chapter 8.16 */
static int sgs_rx_reset_ind(struct sgs_connection *sgc, struct msgb *msg, const struct tlv_parsed *tp)
{
struct gsm29118_reset_msg reset_params;
struct msgb *resp;
memset(&reset_params, 0, sizeof(reset_params));
osmo_strlcpy(reset_params.vlr_name, sgc->sgs->cfg.vlr_name, sizeof(reset_params.vlr_name));
reset_params.vlr_name_present = true;
resp = gsm29118_create_reset_ack(&reset_params);
/* Perform a reset of the SGS FSM of all subscribers that are present in the VLR */
vlr_sgs_reset(gsm_network->vlr);
sgs_tx(sgc, resp);
return 0;
}
/* SGsAP-RESET-ACK 3GPP TS 29.118, chapter 8.15 */
static int sgs_rx_reset_ack(struct sgs_connection *sgc, struct msgb *msg, const struct tlv_parsed *tp)
{
/* dispatch event to VLR reset FSM for this MME */
if (sgc->mme && sgc->mme->fi)
osmo_fsm_inst_dispatch(sgc->mme->fi, SGS_VLRR_E_RX_RESET_ACK, msg);
return 0;
}
/* SGsAP-LOCATION-UPDATE-REQUEST 3GPP TS 29.118, chapter 8.11 */
static int sgs_rx_loc_upd_req(struct sgs_connection *sgc, struct msgb *msg, const struct tlv_parsed *tp, char *imsi)
{
struct msgb *resp;
const uint8_t *lu_type_ie;
enum vlr_lu_type type;
struct osmo_location_area_id new_lai;
const struct gsm48_loc_area_id *gsm48_lai;
int rc;
char *mme_name;
struct vlr_sgs_cfg vlr_sgs_cfg;
struct vlr_subscr *vsub;
/* Check for lingering connections */
vsub = vlr_subscr_find_by_imsi(gsm_network->vlr, imsi);
if (vsub) {
subscr_conn_toss(vsub);
vlr_subscr_put(vsub);
}
/* Determine MME-Name */
mme_name = sgs_mme_fqdn_get(sgc);
if (!mme_name) {
resp = gsm29118_create_lu_rej(imsi, SGSAP_SGS_CAUSE_IMSI_UNKNOWN, NULL);
sgs_tx(sgc, resp);
return 0;
}
/* Parse LU-Type */
lu_type_ie = TLVP_VAL_MINLEN(tp, SGSAP_IE_EPS_LU_TYPE, 1);
if (!lu_type_ie)
return sgs_tx_status(sgc, imsi, SGSAP_SGS_CAUSE_MISSING_MAND_IE, msg, SGSAP_IE_EPS_LU_TYPE);
if (lu_type_ie[0] == 0x01)
type = VLR_LU_TYPE_IMSI_ATTACH;
else
type = VLR_LU_TYPE_REGULAR;
/* Parse LAI of the new location */
gsm48_lai = (struct gsm48_loc_area_id *)TLVP_VAL_MINLEN(tp, SGSAP_IE_LAI, 5);
if (!gsm48_lai)
return sgs_tx_status(sgc, imsi, SGSAP_SGS_CAUSE_MISSING_MAND_IE, msg, SGSAP_IE_LAI);
gsm48_decode_lai2(gsm48_lai, &new_lai);
/* Perform actual location update */
memcpy(vlr_sgs_cfg.timer, sgc->sgs->cfg.timer, sizeof(vlr_sgs_cfg.timer));
memcpy(vlr_sgs_cfg.counter, sgc->sgs->cfg.counter, sizeof(vlr_sgs_cfg.counter));
rc = vlr_sgs_loc_update(gsm_network->vlr, &vlr_sgs_cfg, sgs_tx_loc_upd_resp_cb, sgs_iface_tx_paging,
sgs_tx_mm_info_cb, mme_name, type, imsi, &new_lai);
if (rc != 0) {
resp = gsm29118_create_lu_rej(imsi, SGSAP_SGS_CAUSE_IMSI_UNKNOWN, NULL);
sgs_tx(sgc, resp);
}
return 0;
}
/* SGsAP-IMSI-DETACH-INDICATION 3GPP TS 29.118, chapter 8.8 */
static int sgs_rx_imsi_det_ind(struct sgs_connection *sgc, struct msgb *msg, const struct tlv_parsed *tp, char *imsi)
{
struct msgb *resp;
enum sgsap_imsi_det_noneps_type type;
const uint8_t *type_ie;
type_ie = TLVP_VAL_MINLEN(tp, SGSAP_IE_IMSI_DET_NONEPS_TYPE, 1);
if (!type_ie)
return sgs_tx_status(sgc, imsi, SGSAP_SGS_CAUSE_MISSING_MAND_IE, msg, SGSAP_IE_IMSI_DET_NONEPS_TYPE);
switch (type_ie[0]) {
case SGSAP_ID_NONEPS_T_EXPLICIT_UE_NONEPS:
type = SGSAP_ID_NONEPS_T_EXPLICIT_UE_NONEPS;
break;
case SGSAP_ID_NONEPS_T_COMBINED_UE_EPS_NONEPS:
type = SGSAP_ID_NONEPS_T_COMBINED_UE_EPS_NONEPS;
break;
case SGSAP_ID_NONEPS_T_IMPLICIT_UE_EPS_NONEPS:
type = SGSAP_ID_NONEPS_T_IMPLICIT_UE_EPS_NONEPS;
break;
default:
return sgs_tx_status(sgc, imsi, SGSAP_SGS_CAUSE_INVALID_MAND_IE, msg, SGSAP_IE_IMSI_DET_NONEPS_TYPE);
break;
}
vlr_sgs_imsi_detach(gsm_network->vlr, imsi, type);
resp = gsm29118_create_imsi_det_ack(imsi);
sgs_tx(sgc, resp);
return 0;
}
/* SGsAP-EPS-DETACH-INDICATION 3GPP TS 29.118, chapter 8.6 */
static int sgs_rx_eps_det_ind(struct sgs_connection *sgc, struct msgb *msg, const struct tlv_parsed *tp, char *imsi)
{
struct msgb *resp;
enum sgsap_imsi_det_eps_type type;
const uint8_t *type_ie;
type_ie = TLVP_VAL_MINLEN(tp, SGSAP_IE_IMSI_DET_EPS_TYPE, 1);
if (!type_ie)
return sgs_tx_status(sgc, imsi, SGSAP_SGS_CAUSE_MISSING_MAND_IE, msg, SGSAP_IE_IMSI_DET_EPS_TYPE);
switch (type_ie[0]) {
case SGSAP_ID_EPS_T_NETWORK_INITIATED:
type = SGSAP_ID_EPS_T_NETWORK_INITIATED;
break;
case SGSAP_ID_EPS_T_UE_INITIATED:
type = SGSAP_ID_EPS_T_UE_INITIATED;
break;
case SGSAP_ID_EPS_T_EPS_NOT_ALLOWED:
type = SGSAP_ID_EPS_T_EPS_NOT_ALLOWED;
break;
default:
return sgs_tx_status(sgc, imsi, SGSAP_SGS_CAUSE_INVALID_MAND_IE, msg, SGSAP_IE_IMSI_DET_EPS_TYPE);
break;
}
vlr_sgs_eps_detach(gsm_network->vlr, imsi, type);
resp = gsm29118_create_eps_det_ack(imsi);
sgs_tx(sgc, resp);
return 0;
}
/* SGsAP-PAGING-REJECT 3GPP TS 29.118, chapter 8.13 */
static int sgs_rx_pag_rej(struct sgs_connection *sgc, struct msgb *msg, const struct tlv_parsed *tp, char *imsi)
{
int cause;
struct vlr_subscr *vsub;
cause = sgs_cause_from_msg(sgc, msg, tp, NULL);
if (cause < 0)
return 0;
/* Subscriber must be known by the VLR */
vsub = vlr_subscr_find_by_imsi(gsm_network->vlr, imsi);
if (!vsub)
return sgs_tx_status(sgc, imsi, SGSAP_SGS_CAUSE_IMSI_UNKNOWN, msg, SGSAP_IE_IMSI);
/* Inform the VLR */
vlr_sgs_pag_rej(gsm_network->vlr, imsi, cause);
/* Stop all paging activity */
subscr_paging_cancel(vsub, GSM_PAGING_EXPIRED);
/* Depending on the cause code some action is required */
if (cause == SGSAP_SGS_CAUSE_MT_CSFB_REJ_USER) {
/* FIXME: We are supposed to trigger a User Determined User Busy (UDUB)
* as specified in 3GPP TS 24.082 here, SGs association state shall not
* be changed */
LOGSGC(sgc, LOGL_ERROR,
"Rx %s with SGSAP_SGS_CAUSE_MT_CSFB_REJ_USER, but sending UDUP is not implemented yet!\n",
sgsap_msg_type_name(msg->data[0]));
} else if (cause == SGSAP_SGS_CAUSE_IMSI_DET_EPS) {
/* FIXME: In this case we should send the paging via A/Iu interface */
OSMO_ASSERT(false);
}
vlr_subscr_put(vsub);
return 0;
}
/* SGsAP-UE-UNREACHABLE 3GPP TS 29.118, chapter 8.21 */
static int sgs_rx_ue_unr(struct sgs_connection *sgc, struct msgb *msg, const struct tlv_parsed *tp, char *imsi)
{
int cause;
cause = sgs_cause_from_msg(sgc, msg, tp, NULL);
if (cause < 0)
return 0;
vlr_sgs_ue_unr(gsm_network->vlr, imsi, cause);
return 0;
}
/* SGsAP-TMSI-REALLOCATION-COMPLETE 3GPP TS 29.118, chapter 8.19 */
static int sgs_rx_tmsi_reall_cmpl(struct sgs_connection *sgc, struct msgb *msg, const struct tlv_parsed *tp, char *imsi)
{
vlr_sgs_tmsi_reall_compl(gsm_network->vlr, imsi);
return 0;
}
/* SGsAP-SERVICE-REQUEST 3GPP TS 29.118, chapter 8.17 */
static int sgs_rx_service_req(struct sgs_connection *sgc, struct msgb *msg, const struct tlv_parsed *tp, char *imsi)
{
enum sgsap_service_ind serv_ind;
const uint8_t *serv_ind_ie;
struct ran_conn *conn;
struct vlr_subscr *vsub;
/* Note: While in other RAN concepts a service request is used to
* initiate mobile originated operation, the service request in SGsAP
* is comparable to a paging response. The SGsAP SERVICE REQUEST must
* not be confused or compared with a CM SERVICE REQUEST! */
if (!check_sgs_association(sgc, msg, imsi))
return 0;
vsub = vlr_subscr_find_by_imsi(gsm_network->vlr, imsi);
/* Note: vsub is already sufficiently verified by check_sgs_association(),
* we must have a vsub at this point! */
OSMO_ASSERT(vsub);
/* The Service request is intended as a paging response, if one is
* received while nothing is paging something is very wrong! */
if (!vlr_sgs_pag_pend(vsub)) {
vlr_subscr_put(vsub);
return sgs_tx_status(sgc, imsi, SGSAP_SGS_CAUSE_MSG_INCOMP_STATE, msg, -1);
}
serv_ind_ie = TLVP_VAL_MINLEN(tp, SGSAP_IE_SERVICE_INDICATOR, 1);
if (!serv_ind_ie) {
vlr_subscr_put(vsub);
return sgs_tx_status(sgc, imsi, SGSAP_SGS_CAUSE_MISSING_MAND_IE, msg, SGSAP_IE_SERVICE_INDICATOR);
}
if (serv_ind_ie[0] == SGSAP_SERV_IND_CS_CALL)
serv_ind = serv_ind_ie[0];
else if (serv_ind_ie[0] == SGSAP_SERV_IND_SMS)
serv_ind = serv_ind_ie[0];
else {
vlr_subscr_put(vsub);
return sgs_tx_status(sgc, imsi, SGSAP_SGS_CAUSE_INVALID_MAND_IE, msg, SGSAP_IE_SERVICE_INDICATOR);
}
/* FIXME: The MME shall include an UE EMM Mode IE, but the field is
* marked optional. (Why do we need this info at all?) */
/* Report to the VLR that the paging has successfully completed */
vlr_sgs_pag_ack(gsm_network->vlr, imsi);
/* Exit early when the service indicator indicates that a call is being
* established. In those cases we do not allocate a connection, instead
* the connection will be allocated when the MS is appearing on the
* A-Interface. */
if (serv_ind == SGSAP_SERV_IND_CS_CALL) {
vlr_subscr_put(vsub);
return 0;
}
/* Allocate subscriber connection */
conn = subscr_conn_allocate_sgs(sgc, vsub, true);
if (!conn) {
vlr_subscr_put(vsub);
return sgs_tx_status(sgc, imsi, SGSAP_SGS_CAUSE_MSG_INCOMP_STATE, msg, -1);
}
return 0;
}
/* SGsAP-UPLINK-UNITDATA 3GPP TS 29.118, chapter 8.22 */
static int sgs_rx_ul_ud(struct sgs_connection *sgc, struct msgb *msg, const struct tlv_parsed *tp, char *imsi)
{
struct dtap_header *dtap;
struct ran_conn *conn;
bool ran_conn_created = false;
const uint8_t *nas_msg_container_ie;
struct vlr_subscr *vsub;
if (!check_sgs_association(sgc, msg, imsi))
return 0;
vsub = vlr_subscr_find_by_imsi(gsm_network->vlr, imsi);
/* Note: vsub is already sufficiently verified by check_sgs_association(),
* we must have a vsub at this point! */
OSMO_ASSERT(vsub);
/* Try to find existing connection (MT) or allocate a new one (MO) */
conn = connection_for_subscr(vsub);
if (!conn) {
conn = subscr_conn_allocate_sgs(sgc, vsub, false);
ran_conn_created = true;
} else {
if (conn->via_ran != OSMO_RAT_EUTRAN_SGS) {
LOGSGC(sgc, LOGL_ERROR,
"Receiving uplink unit-data for non-sgs connection -- discarding message!\n");
msgb_free(msg);
return 0;
}
}
/* If we do not find an existing connection and allocating a new one
* faild, give up and return status. */
if (!conn) {
vlr_subscr_put(vsub);
return sgs_tx_status(sgc, imsi, SGSAP_SGS_CAUSE_MSG_INCOMP_STATE, msg, 0);
}
nas_msg_container_ie = TLVP_VAL_MINLEN(tp, SGSAP_IE_NAS_MSG_CONTAINER, 1);
if (!nas_msg_container_ie) {
vlr_subscr_put(vsub);
return sgs_tx_status(sgc, imsi, SGSAP_SGS_CAUSE_MISSING_MAND_IE, msg, SGSAP_IE_NAS_MSG_CONTAINER);
}
/* ran_conn_dtap expects the dtap payload in l3h */
dtap = (struct dtap_header *)nas_msg_container_ie;
msg->l3h = (uint8_t *) nas_msg_container_ie;
OMSC_LINKID_CB(msg) = dtap->link_id;
/* Forward dtap payload into the msc */
ran_conn_dtap(conn, msg);
/* If we did not create the conn right here, we just handle the ref
* counting normally. Otherwise we are in the same role as
* sgs_rx_service_req() and we want that the refcount says incremented
* througout the lifetime of the newly created conn. */
if (!ran_conn_created)
vlr_subscr_put(vsub);
return 0;
}
/* SGsAP-MO-CSFB-INDICATION, chapter 8.25 */
static int sgs_rx_csfb_ind(struct sgs_connection *sgc, struct msgb *msg, const struct tlv_parsed *tp, char *imsi)
{
struct vlr_subscr *vsub;
/* The MME informs us with this message that the UE has returned back
* to the 4G network, so we use the SGs interface again for further
* communication with the UE. */
vsub = vlr_subscr_find_by_imsi(gsm_network->vlr, imsi);
if (!vsub)
return sgs_tx_status(sgc, imsi, SGSAP_SGS_CAUSE_IMSI_UNKNOWN, msg, SGSAP_IE_IMSI);
/* Check for lingering connections */
subscr_conn_toss(vsub);
vsub->cs.attached_via_ran = OSMO_RAT_EUTRAN_SGS;
vlr_subscr_put(vsub);
return 0;
}
/* SGsAP-UE-ACTIVITY-INDICATION, chapter 8.20 */
static int sgs_rx_ue_act_ind(struct sgs_connection *sgc, struct msgb *msg, const struct tlv_parsed *tp, char *imsi)
{
/* In this MSC/VLR implementation we do not support the alerting
* procedure yet and therefore we will never request any alerting
* at the MME. Given that it is unlikely that we ever get activity
* indications from the MME, but if we do we should not act all too
* hostile and ignore the indication silently. */
LOGSGC(sgc, LOGL_ERROR, "Rx %s unexpected, we do not implement alerting yet, ignoring!\n",
sgsap_msg_type_name(msg->data[0]));
return 0;
}
#define TX_STATUS_AND_LOG(sgc, msg_type, cause, fmt) \
LOGSGC(sgc, LOGL_ERROR, fmt, sgsap_msg_type_name(msg_type)); \
resp = gsm29118_create_status(NULL, cause, msg); \
sgs_tx(sgc, resp); \
/*! Process incoming SGs message (see sgs_server.c)
* \param[in] sgc related sgs connection
* \param[in] msg received message
* \returns 0 in case of success, -EINVAL in case of error. */
int sgs_iface_rx(struct sgs_connection *sgc, struct msgb *msg)
{
struct msgb *resp;
uint8_t msg_type = msg->l2h[0];
struct tlv_parsed tp;
int rc;
char imsi[GSM48_MI_SIZE];
char mme_name[SGS_MME_NAME_LEN + 1];
memset(imsi, 0, sizeof(imsi));
memset(mme_name, 0, sizeof(mme_name));
/* When the receiving entity receives a message that is too short to contain a complete
* message type information element, the receiving entity shall ignore that message. */
if (msgb_l2len(msg) < 1)
goto error;
/* Parse TLV elements */
rc = tlv_parse(&tp, &sgsap_ie_tlvdef, msgb_l2(msg) + 1, msgb_l2len(msg) - 1, 0, 0);
if (rc < 0) {
TX_STATUS_AND_LOG(sgc, msg_type, SGSAP_SGS_CAUSE_SEMANT_INCORR_MSG, "SGsAP Message %s parsing error\n");
goto error;
}
/* Most of the messages contain an IMSI as mandatory IE, parse it right here */
if (!TLVP_PRESENT(&tp, SGSAP_IE_IMSI) &&
msg_type != SGSAP_MSGT_STATUS && msg_type != SGSAP_MSGT_RESET_IND && msg_type != SGSAP_MSGT_RESET_ACK) {
/* reject the message; all but the three above have mandatory IMSI */
TX_STATUS_AND_LOG(sgc, msg_type, SGSAP_SGS_CAUSE_MISSING_MAND_IE,
"SGsAP Message %s without IMSI, dropping\n");
goto error;
}
if (TLVP_PRESENT(&tp, SGSAP_IE_IMSI)) {
gsm48_mi_to_string(imsi, sizeof(imsi), TLVP_VAL(&tp, SGSAP_IE_IMSI), TLVP_LEN(&tp, SGSAP_IE_IMSI));
if (strlen(imsi) < GSM23003_IMSI_MIN_DIGITS) {
TX_STATUS_AND_LOG(sgc, msg_type, SGSAP_SGS_CAUSE_INVALID_MAND_IE,
"SGsAP Message %s with short IMSI, dropping\n");
goto error;
}
}
/* Some messages contain an MME-NAME as mandatore IE, parse it right here. The
* MME-NAME is als immediately registered with the sgc, so it will be implicitly
* known to all functions that have access to the sgc context. */
if (!TLVP_PRESENT(&tp, SGSAP_IE_MME_NAME)
&& (msg_type == SGSAP_MSGT_RESET_IND || msg_type == SGSAP_MSGT_RESET_ACK
|| msg_type == SGSAP_MSGT_LOC_UPD_REQ || msg_type == SGSAP_MSGT_IMSI_DET_IND
|| msg_type == SGSAP_MSGT_EPS_DET_IND)) {
TX_STATUS_AND_LOG(sgc, msg_type, SGSAP_SGS_CAUSE_MISSING_MAND_IE,
"SGsAP Message %s without MME-Name, dropping\n");
goto error;
}
if (TLVP_PRESENT(&tp, SGSAP_IE_MME_NAME)) {
if (decode_mme_name(mme_name, &tp) != 0) {
TX_STATUS_AND_LOG(sgc, msg_type, SGSAP_SGS_CAUSE_INVALID_MAND_IE,
"SGsAP Message %s with invalid MME-Name, dropping\n");
goto error;
}
/* Regsister/check mme_name with sgc */
if (sgs_mme_fqdn_received(sgc, mme_name) < 0) {
TX_STATUS_AND_LOG(sgc, msg_type, SGSAP_SGS_CAUSE_MSG_INCOMP_STATE,
"SGsAP Message %s with invalid MME-Name, dropping\n");
goto error;
}
}
/* dispatch msg to various handler functions. msgb ownership remains here! */
rc = -EINVAL;
switch (msg_type) {
case SGSAP_MSGT_STATUS:
rc = sgs_rx_status(sgc, msg, &tp, imsi);
break;
case SGSAP_MSGT_RESET_IND:
rc = sgs_rx_reset_ind(sgc, msg, &tp);
break;
case SGSAP_MSGT_RESET_ACK:
rc = sgs_rx_reset_ack(sgc, msg, &tp);
break;
case SGSAP_MSGT_LOC_UPD_REQ:
rc = sgs_rx_loc_upd_req(sgc, msg, &tp, imsi);
break;
case SGSAP_MSGT_IMSI_DET_IND:
rc = sgs_rx_imsi_det_ind(sgc, msg, &tp, imsi);
break;
case SGSAP_MSGT_EPS_DET_IND:
rc = sgs_rx_eps_det_ind(sgc, msg, &tp, imsi);
break;
case SGSAP_MSGT_PAGING_REJ:
rc = sgs_rx_pag_rej(sgc, msg, &tp, imsi);
break;
case SGSAP_MSGT_UE_UNREACHABLE:
rc = sgs_rx_ue_unr(sgc, msg, &tp, imsi);
break;
case SGSAP_MSGT_TMSI_REALL_CMPL:
rc = sgs_rx_tmsi_reall_cmpl(sgc, msg, &tp, imsi);
break;
case SGSAP_MSGT_SERVICE_REQ:
rc = sgs_rx_service_req(sgc, msg, &tp, imsi);
break;
case SGSAP_MSGT_UL_UD:
rc = sgs_rx_ul_ud(sgc, msg, &tp, imsi);
break;
case SGSAP_MSGT_MO_CSFB_IND:
rc = sgs_rx_csfb_ind(sgc, msg, &tp, imsi);
break;
case SGSAP_MSGT_UE_ACT_IND:
rc = sgs_rx_ue_act_ind(sgc, msg, &tp, imsi);
break;
case SGSAP_MSGT_ALERT_ACK:
case SGSAP_MSGT_ALERT_REJ:
LOGSGC(sgc, LOGL_ERROR, "Rx unmplemented SGsAP %s: %s\n",
sgsap_msg_type_name(msg_type), msgb_hexdump(msg));
resp = gsm29118_create_status(imsi, SGSAP_SGS_CAUSE_MSG_UNKNOWN, msg);
sgs_tx(sgc, resp);
rc = 0;
break;
default:
LOGSGC(sgc, LOGL_ERROR, "Rx unknown SGsAP message type 0x%02x: %s\n", msg_type, msgb_hexdump(msg));
resp = gsm29118_create_status(imsi, SGSAP_SGS_CAUSE_MSG_UNKNOWN, msg);
sgs_tx(sgc, resp);
rc = 0;
break;
}
/* Catch unhandled errors */
if (rc < 0) {
/* Note: Usually the sgs_rx_ should catch errors locally and
* eimit a status message with proper cause code, including
* a suitable log message. If we end up here, something is
* not right and should be fixed */
LOGSGC(sgc, LOGL_ERROR, "Rx unable to decode SGsAP %s: %s\n",
sgsap_msg_type_name(msg_type), msgb_hexdump(msg));
resp = gsm29118_create_status(imsi, SGSAP_SGS_CAUSE_MSG_UNKNOWN, msg);
sgs_tx(sgc, resp);
}
error:
msgb_free(msg);
return 0;
}
/***********************************************************************
* SGs connection "VLR Reset Procedure" FSM
***********************************************************************/
static const struct value_string sgs_vlr_reset_fsm_event_names[] = {
{SGS_VLRR_E_START_RESET, "START-RESET"},
{SGS_VLRR_E_RX_RESET_ACK, "RX-RESET-ACK"},
{0, NULL}
};
static void sgs_vlr_reset_fsm_null(struct osmo_fsm_inst *fi, uint32_t event, void *data)
{
switch (event) {
case SGS_VLRR_E_RX_RESET_ACK:
break;
default:
OSMO_ASSERT(0);
break;
}
}
static void sgs_vlr_reset_fsm_wait_ack(struct osmo_fsm_inst *fi, uint32_t event, void *data)
{
switch (event) {
case SGS_VLRR_E_RX_RESET_ACK:
osmo_fsm_inst_state_chg(fi, SGS_VLRR_ST_COMPLETE, 0, 0);
break;
default:
OSMO_ASSERT(0);
break;
}
}
static void sgs_vlr_reset_fsm_complete(struct osmo_fsm_inst *fi, uint32_t event, void *data)
{
switch (event) {
case SGS_VLRR_E_RX_RESET_ACK:
break;
default:
OSMO_ASSERT(0);
break;
}
}
static void sgs_vlr_reset_fsm_allstate(struct osmo_fsm_inst *fi, uint32_t event, void *data)
{
struct msgb *reset_ind;
struct gsm29118_reset_msg reset_params;
struct sgs_mme_ctx *mme = (struct sgs_mme_ctx *)fi->priv;
struct sgs_connection *sgc = mme->conn;
struct sgs_state *sgs = mme->sgs;
switch (event) {
case SGS_VLRR_E_START_RESET:
osmo_fsm_inst_state_chg(fi, SGS_VLRR_ST_NULL, 0, 0);
mme->ns11_remaining = sgs->cfg.counter[SGS_STATE_NS11];
/* send a reset message and enter WAIT_ACK state */
memset(&reset_params, 0, sizeof(reset_params));
osmo_strlcpy(reset_params.vlr_name, sgs->cfg.vlr_name, sizeof(reset_params.vlr_name));
reset_params.vlr_name_present = true;
reset_ind = gsm29118_create_reset_ind(&reset_params);
sgs_tx(sgc, reset_ind);
osmo_fsm_inst_state_chg(fi, SGS_VLRR_ST_WAIT_ACK, sgs->cfg.timer[SGS_STATE_TS11], 11);
break;
default:
OSMO_ASSERT(0);
break;
}
}
static int sgs_vlr_reset_fsm_timer_cb(struct osmo_fsm_inst *fi)
{
struct msgb *reset_ind;
struct gsm29118_reset_msg reset_params;
struct sgs_mme_ctx *mme = (struct sgs_mme_ctx *)fi->priv;
struct sgs_connection *sgc = mme->conn;
struct sgs_state *sgs = mme->sgs;
switch (fi->T) {
case 11:
if (mme->ns11_remaining >= 1) {
memset(&reset_params, 0, sizeof(reset_params));
osmo_strlcpy(reset_params.vlr_name, sgs->cfg.vlr_name, sizeof(reset_params.vlr_name));
reset_params.vlr_name_present = true;
reset_ind = gsm29118_create_reset_ind(&reset_params);
sgs_tx(sgc, reset_ind);
osmo_fsm_inst_state_chg(fi, SGS_VLRR_ST_WAIT_ACK, sgs->cfg.timer[SGS_STATE_TS11], 11);
mme->ns11_remaining--;
} else {
LOGMME(mme, LOGL_ERROR, "Ts11 expired more than %u (Ns11) times, giving up\n",
sgs->cfg.counter[SGS_STATE_NS11]);
osmo_fsm_inst_state_chg(fi, SGS_VLRR_ST_NULL, 0, 0);
}
break;
default:
OSMO_ASSERT(0);
break;
}
return 0;
}
static const struct osmo_fsm_state sgs_vlr_reset_fsm_states[] = {
[SGS_VLRR_ST_NULL] = {
/* We haven't even tried yet to send a RESET */
.name = "NULL",
.action = sgs_vlr_reset_fsm_null,
.in_event_mask = S(SGS_VLRR_E_RX_RESET_ACK),
.out_state_mask = S(SGS_VLRR_ST_NULL) | S(SGS_VLRR_ST_WAIT_ACK),
},
[SGS_VLRR_ST_WAIT_ACK] = {
/* We're waiting for a SGsAP_RESET_ACK */
.name = "WAIT-ACK",
.action = sgs_vlr_reset_fsm_wait_ack,
.in_event_mask = S(SGS_VLRR_E_RX_RESET_ACK),
.out_state_mask = S(SGS_VLRR_ST_NULL) |
S(SGS_VLRR_ST_COMPLETE) | S(SGS_VLRR_ST_WAIT_ACK),
},
[SGS_VLRR_ST_COMPLETE] = {
/* Reset procedure to this MME has been completed */
.name = "COMPLETE",
.action = sgs_vlr_reset_fsm_complete,
.in_event_mask = S(SGS_VLRR_E_RX_RESET_ACK),
.out_state_mask = S(SGS_VLRR_ST_NULL) | S(SGS_VLRR_ST_COMPLETE),
},
};
static struct osmo_fsm sgs_vlr_reset_fsm = {
.name = "SGs-VLR-RESET",
.states = sgs_vlr_reset_fsm_states,
.allstate_event_mask = S(SGS_VLRR_E_START_RESET),
.allstate_action = sgs_vlr_reset_fsm_allstate,
.timer_cb = sgs_vlr_reset_fsm_timer_cb,
.log_subsys = DSGS,
.event_names = sgs_vlr_reset_fsm_event_names,
};
/*! Send unit-data through SGs interface (see msc_ifaces.c)
* \param[in] msg layer 3 message to send.
* \returns 0 in case of success, -EINVAL in case of error. */
int sgs_iface_tx_dtap_ud(struct msgb *msg)
{
struct ran_conn *conn;
struct vlr_subscr *vsub;
struct msgb *msg_sgs;
struct sgs_mme_ctx *mme;
int rc = -EINVAL;
/* This function expects a pointer to the related gsm subscriber
* connection (conn) in msg->dst. Also conn->vsub must point to
* the related subscriber */
OSMO_ASSERT(msg->dst);
conn = msg->dst;
OSMO_ASSERT(conn->vsub);
vsub = conn->vsub;
mme = sgs_mme_ctx_by_vsub(vsub, SGSAP_MSGT_DL_UD);
if (!mme)
goto error;
/* Make sure the subscriber has a valid SGs association, otherwise
* don't let unit-data through. */
if (vsub->sgs_fsm->state != SGS_UE_ST_ASSOCIATED) {
LOG_RAN_CONN(conn, LOGL_NOTICE, "Tx %s subscriber not SGs-associated, dropping\n",
sgsap_msg_type_name(SGSAP_MSGT_DL_UD));
goto error;
}
msg_sgs = gsm29118_create_dl_ud(vsub->imsi, msg);
sgs_tx(mme->conn, msg_sgs);
rc = 0;
error:
msgb_free(msg);
return rc;
}
/*! Send a relase message through SGs interface (see msc_ifaces.c)
* \param[in] msg layer 3 message to send.
* \returns 0 in case of success, -EINVAL in case of error. */
void sgs_iface_tx_release(struct ran_conn *conn)
{
struct msgb *msg_sgs;
struct vlr_subscr *vsub;
struct sgs_mme_ctx *mme;
/*! Use this function to release an SGs connection normally
* (cause code is 0). This function also automatically causes
* the VLR subscriber usage to be balanced. */
OSMO_ASSERT(conn->vsub);
vsub = conn->vsub;
mme = sgs_mme_ctx_by_vsub(vsub, SGSAP_MSGT_DL_UD);
if (!mme)
return;
msg_sgs = gsm29118_create_release_req(vsub->imsi, 0);
sgs_tx(mme->conn, msg_sgs);
}
/*! initalize SGs new interface
* \param[in] ctx talloc context
* \param[in] network associated gsm network
* \returns returns allocated sgs_stae, NULL in case of error. */
struct sgs_state *sgs_iface_init(void *ctx, struct gsm_network *network)
{
struct sgs_state *sgs;
gsm_network = network;
sgs = sgs_server_alloc(ctx);
OSMO_ASSERT(sgs);
/* We currently only support one SGs instance */
if (g_sgs)
return NULL;
g_sgs = sgs;
sgs_server_open(sgs);
return sgs;
}
static __attribute__((constructor)) void on_dso_load(void)
{
OSMO_ASSERT(osmo_fsm_register(&sgs_vlr_reset_fsm) == 0);
}