/*
* (C) 2019 by sysmocom - s.f.m.c. GmbH <info@sysmocom.de>
* All Rights Reserved
*
* SPDX-License-Identifier: AGPL-3.0+
*
* Author: Neels Hofmeyr
*
* 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 <http://www.gnu.org/licenses/>.
*/
#include <osmocom/core/linuxlist.h>
#include <osmocom/core/logging.h>
#include <osmocom/core/fsm.h>
#include <osmocom/gsm/bssmap_le.h>
#include <osmocom/sigtran/sccp_helpers.h>
#include <osmocom/smlc/smlc_data.h>
#include <osmocom/smlc/sccp_lb_inst.h>
#include <osmocom/smlc/lb_peer.h>
static struct osmo_fsm lb_peer_fsm;
static __attribute__((constructor)) void lb_peer_init()
{
OSMO_ASSERT( osmo_fsm_register(&lb_peer_fsm) == 0);
}
static struct lb_peer *lb_peer_alloc(struct sccp_lb_inst *sli, const struct osmo_sccp_addr *peer_addr)
{
struct lb_peer *lbp;
struct osmo_fsm_inst *fi;
fi = osmo_fsm_inst_alloc(&lb_peer_fsm, sli, NULL, LOGL_DEBUG, NULL);
OSMO_ASSERT(fi);
osmo_fsm_inst_update_id(fi, osmo_sccp_addr_to_id_c(OTC_SELECT, osmo_sccp_get_ss7(sli->sccp), peer_addr));
lbp = talloc_zero(fi, struct lb_peer);
OSMO_ASSERT(lbp);
*lbp = (struct lb_peer){
.fi = fi,
.sli = sli,
.peer_addr = *peer_addr,
};
fi->priv = lbp;
llist_add(&lbp->entry, &sli->lb_peers);
return lbp;
}
struct lb_peer *lb_peer_find_or_create(struct sccp_lb_inst *sli, const struct osmo_sccp_addr *peer_addr)
{
struct lb_peer *lbp = lb_peer_find(sli, peer_addr);
if (lbp)
return lbp;
return lb_peer_alloc(sli, peer_addr);
}
struct lb_peer *lb_peer_find(struct sccp_lb_inst *sli, const struct osmo_sccp_addr *peer_addr)
{
struct lb_peer *lbp;
llist_for_each_entry(lbp, &sli->lb_peers, entry) {
if (osmo_sccp_addr_ri_cmp(peer_addr, &lbp->peer_addr))
continue;
return lbp;
}
return NULL;
}
static const struct osmo_tdef_state_timeout lb_peer_fsm_timeouts[32] = {
[LB_PEER_ST_WAIT_RX_RESET_ACK] = { .T = -13 },
[LB_PEER_ST_DISCARDING] = { .T = -14 },
};
#define lb_peer_state_chg(LB_PEER, NEXT_STATE) \
osmo_tdef_fsm_inst_state_chg((LB_PEER)->fi, NEXT_STATE, lb_peer_fsm_timeouts, g_smlc_tdefs, 5)
void lb_peer_discard_all_conns(struct lb_peer *lbp)
{
struct lb_conn *lb_conn, *next;
lb_peer_for_each_lb_conn_safe(lb_conn, next, lbp) {
lb_conn_discard(lb_conn);
}
}
/* Drop all SCCP connections for this lb_peer, respond with RESET ACKNOWLEDGE and move to READY state. */
static void lb_peer_rx_reset(struct lb_peer *lbp, struct msgb *msg)
{
struct msgb *resp;
struct bssap_le_pdu reset_ack = {
.discr = BSSAP_LE_MSG_DISCR_BSSMAP_LE,
.bssmap_le = {
.msg_type = BSSMAP_LE_MSGT_RESET_ACK,
},
};
lb_peer_discard_all_conns(lbp);
resp = osmo_bssap_le_enc(&reset_ack);
if (!resp) {
LOG_LB_PEER(lbp, LOGL_ERROR, "Failed to compose RESET ACKNOWLEDGE message\n");
lb_peer_state_chg(lbp, LB_PEER_ST_WAIT_RX_RESET);
return;
}
if (sccp_lb_down_l2_cl(lbp->sli, &lbp->peer_addr, resp)) {
LOG_LB_PEER(lbp, LOGL_ERROR, "Failed to send RESET ACKNOWLEDGE message\n");
lb_peer_state_chg(lbp, LB_PEER_ST_WAIT_RX_RESET);
msgb_free(msg);
return;
}
LOG_LB_PEER(lbp, LOGL_INFO, "Sent RESET ACKNOWLEDGE\n");
/* sccp_lb_down_l2_cl() doesn't free msgb */
msgb_free(resp);
lb_peer_state_chg(lbp, LB_PEER_ST_READY);
}
static void lb_peer_rx_reset_ack(struct lb_peer *lbp, struct msgb* msg)
{
lb_peer_state_chg(lbp, LB_PEER_ST_READY);
}
void lb_peer_reset(struct lb_peer *lbp)
{
struct bssap_le_pdu reset = {
.discr = BSSAP_LE_MSG_DISCR_BSSMAP_LE,
.bssmap_le = {
.msg_type = BSSMAP_LE_MSGT_RESET,
.reset = GSM0808_CAUSE_EQUIPMENT_FAILURE,
},
};
struct msgb *msg;
int rc;
lb_peer_state_chg(lbp, LB_PEER_ST_WAIT_RX_RESET_ACK);
lb_peer_discard_all_conns(lbp);
msg = osmo_bssap_le_enc(&reset);
if (!msg) {
LOG_LB_PEER(lbp, LOGL_ERROR, "Failed to compose RESET message\n");
lb_peer_state_chg(lbp, LB_PEER_ST_WAIT_RX_RESET);
return;
}
rc = sccp_lb_down_l2_cl(lbp->sli, &lbp->peer_addr, msg);
msgb_free(msg);
if (rc) {
LOG_LB_PEER(lbp, LOGL_ERROR, "Failed to send RESET message\n");
lb_peer_state_chg(lbp, LB_PEER_ST_WAIT_RX_RESET);
}
}
void lb_peer_allstate_action(struct osmo_fsm_inst *fi, uint32_t event, void *data)
{
struct lb_peer *lbp = fi->priv;
struct lb_peer_ev_ctx *ctx = data;
struct msgb *msg = ctx->msg;
enum bssmap_le_msgt msg_type;
switch (event) {
case LB_PEER_EV_MSG_UP_CL:
msg_type = osmo_bssmap_le_msgt(msgb_l2(msg), msgb_l2len(msg));
switch (msg_type) {
case BSSMAP_LE_MSGT_RESET:
osmo_fsm_inst_dispatch(fi, LB_PEER_EV_RX_RESET, msg);
return;
case BSSMAP_LE_MSGT_RESET_ACK:
osmo_fsm_inst_dispatch(fi, LB_PEER_EV_RX_RESET_ACK, msg);
return;
default:
LOG_LB_PEER(lbp, LOGL_ERROR, "Unhandled ConnectionLess message received: %s\n",
osmo_bssmap_le_msgt_name(msg_type));
return;
}
default:
LOG_LB_PEER(lbp, LOGL_ERROR, "Unhandled event: %s\n", osmo_fsm_event_name(&lb_peer_fsm, event));
return;
}
}
void lb_peer_st_wait_rx_reset(struct osmo_fsm_inst *fi, uint32_t event, void *data)
{
struct lb_peer *lbp = fi->priv;
struct lb_peer_ev_ctx *ctx;
struct msgb *msg;
switch (event) {
case LB_PEER_EV_MSG_UP_CO:
case LB_PEER_EV_MSG_UP_CO_INITIAL:
ctx = data;
OSMO_ASSERT(ctx);
LOG_LB_PEER(lbp, LOGL_ERROR, "Receiving CO message on Lb peer that has not done a proper RESET yet."
" Disconnecting on incoming message, sending RESET to Lb peer.\n");
/* No valid RESET procedure has happened here yet. Usually, we're expecting the Lb peer (BSC,
* RNC) to first send a RESET message before sending Connection Oriented messages. So if we're
* getting a CO message, likely we've just restarted or something. Send a RESET to the peer. */
lb_peer_disconnect(lbp->sli, ctx->conn_id);
lb_peer_reset(lbp);
return;
case LB_PEER_EV_RX_RESET:
msg = (struct msgb*)data;
lb_peer_rx_reset(lbp, msg);
return;
default:
LOG_LB_PEER(lbp, LOGL_ERROR, "Unhandled event: %s\n", osmo_fsm_event_name(&lb_peer_fsm, event));
return;
}
}
void lb_peer_st_wait_rx_reset_ack(struct osmo_fsm_inst *fi, uint32_t event, void *data)
{
struct lb_peer *lbp = fi->priv;
struct lb_peer_ev_ctx *ctx;
struct msgb *msg;
switch (event) {
case LB_PEER_EV_RX_RESET_ACK:
msg = (struct msgb*)data;
lb_peer_rx_reset_ack(lbp, msg);
return;
case LB_PEER_EV_MSG_UP_CO:
case LB_PEER_EV_MSG_UP_CO_INITIAL:
ctx = data;
OSMO_ASSERT(ctx);
LOG_LB_PEER(lbp, LOGL_ERROR, "Receiving CO message on Lb peer that has not done a proper RESET yet."
" Disconnecting on incoming message, sending RESET to Lb peer.\n");
sccp_lb_disconnect(lbp->sli, ctx->conn_id, 0);
/* No valid RESET procedure has happened here yet. */
lb_peer_reset(lbp);
return;
case LB_PEER_EV_RX_RESET:
msg = (struct msgb*)data;
lb_peer_rx_reset(lbp, msg);
return;
default:
LOG_LB_PEER(lbp, LOGL_ERROR, "Unhandled event: %s\n", osmo_fsm_event_name(&lb_peer_fsm, event));
return;
}
}
void lb_peer_st_ready(struct osmo_fsm_inst *fi, uint32_t event, void *data)
{
struct lb_peer *lbp = fi->priv;
struct lb_peer_ev_ctx *ctx;
struct lb_conn *lb_conn;
struct msgb *msg;
switch (event) {
case LB_PEER_EV_MSG_UP_CO_INITIAL:
ctx = data;
OSMO_ASSERT(ctx);
OSMO_ASSERT(!ctx->lb_conn);
OSMO_ASSERT(ctx->msg);
lb_conn = lb_conn_create_incoming(lbp, ctx->conn_id, __func__);
if (!lb_conn) {
LOG_LB_PEER(lbp, LOGL_ERROR, "Cannot allocate lb_conn\n");
return;
}
lb_conn_rx(lb_conn, ctx->msg, true);
lb_conn_put(lb_conn, __func__);
return;
case LB_PEER_EV_MSG_UP_CO:
ctx = data;
OSMO_ASSERT(ctx);
OSMO_ASSERT(ctx->lb_conn);
OSMO_ASSERT(ctx->msg);
lb_conn_rx(ctx->lb_conn, ctx->msg, false);
return;
case LB_PEER_EV_MSG_DOWN_CO_INITIAL:
ctx = data;
OSMO_ASSERT(ctx);
OSMO_ASSERT(ctx->msg);
sccp_lb_down_l2_co_initial(lbp->sli, &lbp->peer_addr, ctx->conn_id, ctx->msg);
return;
case LB_PEER_EV_MSG_DOWN_CO:
ctx = data;
OSMO_ASSERT(ctx);
OSMO_ASSERT(ctx->msg);
sccp_lb_down_l2_co(lbp->sli, ctx->conn_id, ctx->msg);
return;
case LB_PEER_EV_MSG_DOWN_CL:
OSMO_ASSERT(data);
sccp_lb_down_l2_cl(lbp->sli, &lbp->peer_addr, (struct msgb*)data);
return;
case LB_PEER_EV_RX_RESET:
msg = (struct msgb*)data;
lb_peer_rx_reset(lbp, msg);
return;
default:
LOG_LB_PEER(lbp, LOGL_ERROR, "Unhandled event: %s\n", osmo_fsm_event_name(&lb_peer_fsm, event));
return;
}
}
static int lb_peer_fsm_timer_cb(struct osmo_fsm_inst *fi)
{
struct lb_peer *lbp = fi->priv;
lb_peer_state_chg(lbp, LB_PEER_ST_WAIT_RX_RESET);
return 0;
}
void lb_peer_fsm_cleanup(struct osmo_fsm_inst *fi, enum osmo_fsm_term_cause cause)
{
struct lb_peer *lbp = fi->priv;
lb_peer_discard_all_conns(lbp);
llist_del(&lbp->entry);
}
static const struct value_string lb_peer_fsm_event_names[] = {
OSMO_VALUE_STRING(LB_PEER_EV_MSG_UP_CL),
OSMO_VALUE_STRING(LB_PEER_EV_MSG_UP_CO_INITIAL),
OSMO_VALUE_STRING(LB_PEER_EV_MSG_UP_CO),
OSMO_VALUE_STRING(LB_PEER_EV_MSG_DOWN_CL),
OSMO_VALUE_STRING(LB_PEER_EV_MSG_DOWN_CO_INITIAL),
OSMO_VALUE_STRING(LB_PEER_EV_MSG_DOWN_CO),
OSMO_VALUE_STRING(LB_PEER_EV_RX_RESET),
OSMO_VALUE_STRING(LB_PEER_EV_RX_RESET_ACK),
OSMO_VALUE_STRING(LB_PEER_EV_CONNECTION_SUCCESS),
OSMO_VALUE_STRING(LB_PEER_EV_CONNECTION_TIMEOUT),
{}
};
#define S(x) (1 << (x))
static const struct osmo_fsm_state lb_peer_fsm_states[] = {
[LB_PEER_ST_WAIT_RX_RESET] = {
.name = "WAIT_RX_RESET",
.action = lb_peer_st_wait_rx_reset,
.in_event_mask = 0
| S(LB_PEER_EV_RX_RESET)
| S(LB_PEER_EV_MSG_UP_CO_INITIAL)
| S(LB_PEER_EV_MSG_UP_CO)
| S(LB_PEER_EV_CONNECTION_TIMEOUT)
,
.out_state_mask = 0
| S(LB_PEER_ST_WAIT_RX_RESET)
| S(LB_PEER_ST_WAIT_RX_RESET_ACK)
| S(LB_PEER_ST_READY)
| S(LB_PEER_ST_DISCARDING)
,
},
[LB_PEER_ST_WAIT_RX_RESET_ACK] = {
.name = "WAIT_RX_RESET_ACK",
.action = lb_peer_st_wait_rx_reset_ack,
.in_event_mask = 0
| S(LB_PEER_EV_RX_RESET)
| S(LB_PEER_EV_RX_RESET_ACK)
| S(LB_PEER_EV_MSG_UP_CO_INITIAL)
| S(LB_PEER_EV_MSG_UP_CO)
| S(LB_PEER_EV_CONNECTION_TIMEOUT)
,
.out_state_mask = 0
| S(LB_PEER_ST_WAIT_RX_RESET)
| S(LB_PEER_ST_WAIT_RX_RESET_ACK)
| S(LB_PEER_ST_READY)
| S(LB_PEER_ST_DISCARDING)
,
},
[LB_PEER_ST_READY] = {
.name = "READY",
.action = lb_peer_st_ready,
.in_event_mask = 0
| S(LB_PEER_EV_RX_RESET)
| S(LB_PEER_EV_MSG_UP_CO_INITIAL)
| S(LB_PEER_EV_MSG_UP_CO)
| S(LB_PEER_EV_MSG_DOWN_CO_INITIAL)
| S(LB_PEER_EV_MSG_DOWN_CO)
| S(LB_PEER_EV_MSG_DOWN_CL)
,
.out_state_mask = 0
| S(LB_PEER_ST_WAIT_RX_RESET)
| S(LB_PEER_ST_WAIT_RX_RESET_ACK)
| S(LB_PEER_ST_READY)
| S(LB_PEER_ST_DISCARDING)
,
},
[LB_PEER_ST_DISCARDING] = {
.name = "DISCARDING",
},
};
static struct osmo_fsm lb_peer_fsm = {
.name = "lb_peer",
.states = lb_peer_fsm_states,
.num_states = ARRAY_SIZE(lb_peer_fsm_states),
.log_subsys = DLB,
.event_names = lb_peer_fsm_event_names,
.timer_cb = lb_peer_fsm_timer_cb,
.cleanup = lb_peer_fsm_cleanup,
.allstate_action = lb_peer_allstate_action,
.allstate_event_mask = 0
| S(LB_PEER_EV_MSG_UP_CL)
,
};
int lb_peer_up_l2(struct sccp_lb_inst *sli, const struct osmo_sccp_addr *calling_addr, bool co, uint32_t conn_id,
struct msgb *l2)
{
struct lb_peer *lb_peer = NULL;
uint32_t event;
struct lb_peer_ev_ctx ctx = {
.conn_id = conn_id,
.msg = l2,
};
if (co) {
struct lb_conn *lb_conn;
llist_for_each_entry(lb_conn, &sli->lb_conns, entry) {
if (lb_conn->sccp_conn_id == conn_id) {
lb_peer = lb_conn->lb_peer;
ctx.lb_conn = lb_conn;
break;
}
}
if (lb_peer && calling_addr) {
LOG_SCCP_LB_CO(sli, calling_addr, conn_id, LOGL_ERROR,
"Connection-Oriented Initial message for already existing conn_id."
" Dropping message.\n");
return -EINVAL;
}
if (!lb_peer && !calling_addr) {
LOG_SCCP_LB_CO(sli, calling_addr, conn_id, LOGL_ERROR,
"Connection-Oriented non-Initial message for unknown conn_id %u."
" Dropping message.\n", conn_id);
return -EINVAL;
}
}
if (calling_addr) {
lb_peer = lb_peer_find_or_create(sli, calling_addr);
if (!lb_peer) {
LOG_SCCP_LB_CL(sli, calling_addr, LOGL_ERROR, "Cannot register Lb peer\n");
return -EIO;
}
}
OSMO_ASSERT(lb_peer && lb_peer->fi);
if (co)
event = calling_addr ? LB_PEER_EV_MSG_UP_CO_INITIAL : LB_PEER_EV_MSG_UP_CO;
else
event = LB_PEER_EV_MSG_UP_CL;
return osmo_fsm_inst_dispatch(lb_peer->fi, event, &ctx);
}
void lb_peer_disconnect(struct sccp_lb_inst *sli, uint32_t conn_id)
{
struct lb_conn *lb_conn;
llist_for_each_entry(lb_conn, &sli->lb_conns, entry) {
if (lb_conn->sccp_conn_id == conn_id) {
lb_conn_discard(lb_conn);
return;
}
}
}