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janusdata / raw_data /open5gs_source_code /lib /pfcp /context.c
UmakantKulkarni
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 /*
* Copyright (C) 2019-2023 by Sukchan Lee <acetcom@gmail.com>
*
* This file is part of Open5GS.
*
* 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
#include "app/ogs-app.h"
#include "ogs-pfcp.h"
int __ogs_pfcp_domain;
static ogs_pfcp_context_t self;
static int context_initialized = 0;
static OGS_POOL(ogs_pfcp_node_pool, ogs_pfcp_node_t);
static OGS_POOL(ogs_pfcp_sess_pool, ogs_pfcp_sess_t);
static OGS_POOL(ogs_pfcp_far_pool, ogs_pfcp_far_t);
static OGS_POOL(ogs_pfcp_urr_pool, ogs_pfcp_urr_t);
static OGS_POOL(ogs_pfcp_qer_pool, ogs_pfcp_qer_t);
static OGS_POOL(ogs_pfcp_bar_pool, ogs_pfcp_bar_t);
static OGS_POOL(ogs_pfcp_pdr_pool, ogs_pfcp_pdr_t);
static OGS_POOL(ogs_pfcp_pdr_teid_pool, ogs_pool_id_t);
static ogs_pool_id_t *pdr_random_to_index;
static OGS_POOL(ogs_pfcp_rule_pool, ogs_pfcp_rule_t);
static OGS_POOL(ogs_pfcp_dev_pool, ogs_pfcp_dev_t);
static OGS_POOL(ogs_pfcp_subnet_pool, ogs_pfcp_subnet_t);
void ogs_pfcp_context_init(void)
{
int i;
ogs_assert(context_initialized == 0);
/* Initialize SMF context */
memset(&self, 0, sizeof(ogs_pfcp_context_t));
self.local_recovery = ogs_time_ntp32_now();
ogs_log_install_domain(&__ogs_pfcp_domain, "pfcp", ogs_core()->log.level);
ogs_pool_init(&ogs_pfcp_node_pool, ogs_app()->pool.nf);
ogs_pool_init(&ogs_pfcp_sess_pool, ogs_app()->pool.sess);
ogs_pool_init(&ogs_pfcp_far_pool,
ogs_app()->pool.sess * OGS_MAX_NUM_OF_FAR);
ogs_pool_init(&ogs_pfcp_urr_pool,
ogs_app()->pool.sess * OGS_MAX_NUM_OF_URR);
ogs_pool_init(&ogs_pfcp_qer_pool,
ogs_app()->pool.sess * OGS_MAX_NUM_OF_QER);
ogs_pool_init(&ogs_pfcp_bar_pool,
ogs_app()->pool.sess * OGS_MAX_NUM_OF_BAR);
ogs_pool_init(&ogs_pfcp_pdr_pool,
ogs_app()->pool.sess * OGS_MAX_NUM_OF_PDR);
ogs_pool_init(&ogs_pfcp_pdr_teid_pool, ogs_pfcp_pdr_pool.size);
ogs_pool_random_id_generate(&ogs_pfcp_pdr_teid_pool);
pdr_random_to_index = ogs_calloc(
sizeof(ogs_pool_id_t), ogs_pfcp_pdr_pool.size+1);
ogs_assert(pdr_random_to_index);
for (i = 0; i < ogs_pfcp_pdr_pool.size; i++)
pdr_random_to_index[ogs_pfcp_pdr_teid_pool.array[i]] = i;
ogs_pool_init(&ogs_pfcp_rule_pool,
ogs_app()->pool.sess *
OGS_MAX_NUM_OF_PDR * OGS_MAX_NUM_OF_FLOW_IN_PDR);
ogs_pool_init(&ogs_pfcp_dev_pool, OGS_MAX_NUM_OF_DEV);
ogs_pool_init(&ogs_pfcp_subnet_pool, OGS_MAX_NUM_OF_SUBNET);
self.object_teid_hash = ogs_hash_make();
ogs_assert(self.object_teid_hash);
self.far_f_teid_hash = ogs_hash_make();
ogs_assert(self.far_f_teid_hash);
self.far_teid_hash = ogs_hash_make();
ogs_assert(self.far_teid_hash);
context_initialized = 1;
}
void ogs_pfcp_context_final(void)
{
ogs_assert(context_initialized == 1);
ogs_assert(self.object_teid_hash);
ogs_hash_destroy(self.object_teid_hash);
ogs_assert(self.far_f_teid_hash);
ogs_hash_destroy(self.far_f_teid_hash);
ogs_assert(self.far_teid_hash);
ogs_hash_destroy(self.far_teid_hash);
ogs_pfcp_dev_remove_all();
ogs_pfcp_subnet_remove_all();
ogs_pool_final(&ogs_pfcp_dev_pool);
ogs_pool_final(&ogs_pfcp_subnet_pool);
ogs_pool_final(&ogs_pfcp_rule_pool);
ogs_pool_final(&ogs_pfcp_pdr_pool);
ogs_pool_final(&ogs_pfcp_pdr_teid_pool);
ogs_free(pdr_random_to_index);
ogs_pool_final(&ogs_pfcp_sess_pool);
ogs_pool_final(&ogs_pfcp_far_pool);
ogs_pool_final(&ogs_pfcp_urr_pool);
ogs_pool_final(&ogs_pfcp_qer_pool);
ogs_pool_final(&ogs_pfcp_bar_pool);
ogs_pfcp_node_remove_all(&self.pfcp_peer_list);
ogs_pool_final(&ogs_pfcp_node_pool);
context_initialized = 0;
}
ogs_pfcp_context_t *ogs_pfcp_self(void)
{
return &self;
}
static int ogs_pfcp_context_prepare(void)
{
self.pfcp_port = OGS_PFCP_UDP_PORT;
self.tun_ifname = "ogstun";
return OGS_OK;
}
static int ogs_pfcp_check_subnet_overlapping(void)
{
ogs_pfcp_subnet_t *subnet = NULL;
ogs_pfcp_subnet_t *next_subnet = NULL;
char buf1[OGS_ADDRSTRLEN];
char buf2[OGS_ADDRSTRLEN];
int rv = OGS_OK;
ogs_list_for_each(&self.subnet_list, subnet){
for (next_subnet = ogs_list_next(subnet); (next_subnet);
next_subnet = ogs_list_next(next_subnet)) {
if ((strlen(subnet->dnn) == 0 ||
strlen(next_subnet->dnn) == 0 ||
(strcmp(subnet->dnn, next_subnet->dnn)) == 0) &&
subnet->gw.family == next_subnet->gw.family) {
uint32_t *addr1 = subnet->sub.sub;
uint32_t *addr2 = next_subnet->sub.sub;
uint32_t mask[4];
int i;
/* Get smaller subnet mask for IPv4 or IPv6 */
for (i = 0; i < 4 ; i++) {
mask[i] = (subnet->sub.mask[i] & next_subnet->sub.mask[i]);
}
/* Compare masked subnets if they overlap */
if (subnet->gw.family == AF_INET) {
if ((addr1[0] & mask[0]) == (addr2[0] & mask[0])) {
ogs_error("Overlapping subnets in SMF configuration file: %s/%d and %s/%d",
OGS_INET_NTOP(&subnet->gw.sub[0], buf1),
subnet->prefixlen,
OGS_INET_NTOP(&next_subnet->gw.sub[0], buf2),
next_subnet->prefixlen);
rv = OGS_ERROR;
}
} else if (subnet->gw.family == AF_INET6) {
if (((addr1[0] & mask[0]) == (addr2[0] & mask[0])) &&
((addr1[1] & mask[1]) == (addr2[1] & mask[1])) &&
((addr1[2] & mask[2]) == (addr2[2] & mask[2])) &&
((addr1[3] & mask[3]) == (addr2[3] & mask[3]))) {
ogs_error("Overlapping subnets in SMF configuration file: %s/%d and %s/%d",
OGS_INET6_NTOP(&subnet->gw.sub[0], buf1),
subnet->prefixlen,
OGS_INET6_NTOP(&next_subnet->gw.sub[0], buf2),
next_subnet->prefixlen);
rv = OGS_ERROR;
}
} else {
ogs_error("Invalid family in subnet configuration [%d]",
subnet->gw.family);
rv = OGS_ERROR;
ogs_assert_if_reached();
}
}
}
}
return rv;
}
static int ogs_pfcp_context_validation(const char *local)
{
if (ogs_list_first(&self.pfcp_list) == NULL &&
ogs_list_first(&self.pfcp_list6) == NULL) {
ogs_error("No %s.pfcp.address: in '%s'", local, ogs_app()->file);
return OGS_ERROR;
}
if (ogs_pfcp_check_subnet_overlapping() != OGS_OK)
return OGS_ERROR;
return OGS_OK;
}
int ogs_pfcp_context_parse_config(const char *local, const char *remote)
{
int rv;
yaml_document_t *document = NULL;
ogs_yaml_iter_t root_iter;
document = ogs_app()->document;
ogs_assert(document);
rv = ogs_pfcp_context_prepare();
if (rv != OGS_OK) return rv;
ogs_yaml_iter_init(&root_iter, document);
while (ogs_yaml_iter_next(&root_iter)) {
const char *root_key = ogs_yaml_iter_key(&root_iter);
ogs_assert(root_key);
if (!strcmp(root_key, local)) {
ogs_yaml_iter_t local_iter;
ogs_yaml_iter_recurse(&root_iter, &local_iter);
while (ogs_yaml_iter_next(&local_iter)) {
const char *local_key = ogs_yaml_iter_key(&local_iter);
ogs_assert(local_key);
if (!strcmp(local_key, "pfcp")) {
ogs_yaml_iter_t pfcp_iter;
ogs_yaml_iter_recurse(&local_iter, &pfcp_iter);
while (ogs_yaml_iter_next(&pfcp_iter)) {
const char *pfcp_key = ogs_yaml_iter_key(&pfcp_iter);
ogs_assert(pfcp_key);
if (!strcmp(pfcp_key, "server")) {
ogs_yaml_iter_t server_iter, server_array;
ogs_yaml_iter_recurse(&pfcp_iter, &server_array);
do {
int family = AF_UNSPEC;
int i, num = 0;
const char *hostname[OGS_MAX_NUM_OF_HOSTNAME];
int num_of_advertise = 0;
const char *advertise[OGS_MAX_NUM_OF_HOSTNAME];
uint16_t port = self.pfcp_port;
const char *dev = NULL;
ogs_sockaddr_t *addr = NULL;
ogs_sockopt_t option;
bool is_option = false;
if (ogs_yaml_iter_type(&server_array) ==
YAML_MAPPING_NODE) {
memcpy(&server_iter, &server_array,
sizeof(ogs_yaml_iter_t));
} else if (ogs_yaml_iter_type(&server_array) ==
YAML_SEQUENCE_NODE) {
if (!ogs_yaml_iter_next(&server_array))
break;
ogs_yaml_iter_recurse(
&server_array, &server_iter);
} else if (ogs_yaml_iter_type(&server_array) ==
YAML_SCALAR_NODE) {
break;
} else
ogs_assert_if_reached();
while (ogs_yaml_iter_next(&server_iter)) {
const char *server_key =
ogs_yaml_iter_key(&server_iter);
ogs_assert(server_key);
if (!strcmp(server_key, "family")) {
const char *v =
ogs_yaml_iter_value(&server_iter);
if (v) family = atoi(v);
if (family != AF_UNSPEC &&
family != AF_INET &&
family != AF_INET6) {
ogs_warn("Ignore family(%d) : "
"AF_UNSPEC(%d), "
"AF_INET(%d), AF_INET6(%d) ",
family,
AF_UNSPEC, AF_INET, AF_INET6);
family = AF_UNSPEC;
}
} else if (!strcmp(server_key, "address")) {
ogs_yaml_iter_t hostname_iter;
ogs_yaml_iter_recurse(&server_iter,
&hostname_iter);
ogs_assert(ogs_yaml_iter_type(
&hostname_iter) !=
YAML_MAPPING_NODE);
do {
if (ogs_yaml_iter_type(
&hostname_iter) ==
YAML_SEQUENCE_NODE) {
if (!ogs_yaml_iter_next(
&hostname_iter))
break;
}
ogs_assert(num <
OGS_MAX_NUM_OF_HOSTNAME);
hostname[num++] =
ogs_yaml_iter_value(
&hostname_iter);
} while (ogs_yaml_iter_type(
&hostname_iter) ==
YAML_SEQUENCE_NODE);
} else if (!strcmp(
server_key, "advertise")) {
ogs_yaml_iter_t hostname_iter;
ogs_yaml_iter_recurse(&server_iter,
&hostname_iter);
ogs_assert(ogs_yaml_iter_type(
&hostname_iter) !=
YAML_MAPPING_NODE);
do {
if (ogs_yaml_iter_type(
&hostname_iter) ==
YAML_SEQUENCE_NODE) {
if (!ogs_yaml_iter_next(
&hostname_iter))
break;
}
ogs_assert(num <
OGS_MAX_NUM_OF_HOSTNAME);
advertise[num_of_advertise++] =
ogs_yaml_iter_value(
&hostname_iter);
} while (ogs_yaml_iter_type(
&hostname_iter) ==
YAML_SEQUENCE_NODE);
} else if (!strcmp(server_key, "port")) {
const char *v =
ogs_yaml_iter_value(&server_iter);
if (v) {
port = atoi(v);
self.pfcp_port = port;
}
} else if (!strcmp(server_key, "dev")) {
dev = ogs_yaml_iter_value(&server_iter);
} else if (!strcmp(server_key, "option")) {
rv = ogs_app_parse_sockopt_config(
&server_iter, &option);
if (rv != OGS_OK) {
ogs_error("ogs_app_parse_sockopt_"
"config() failed");
return rv;
}
is_option = true;
} else if (!strcmp(server_key, "apn") ||
!strcmp(server_key, "dnn")) {
/* Skip */
} else
ogs_warn("unknown key `%s`",
server_key);
}
addr = NULL;
for (i = 0; i < num; i++) {
rv = ogs_addaddrinfo(&addr,
family, hostname[i], port, 0);
ogs_assert(rv == OGS_OK);
}
if (addr) {
if (ogs_global_conf()->
parameter.no_ipv4 == 0)
ogs_socknode_add(
&self.pfcp_list, AF_INET, addr,
is_option ? &option : NULL);
if (ogs_global_conf()->
parameter.no_ipv6 == 0)
ogs_socknode_add(
&self.pfcp_list6, AF_INET6, addr,
is_option ? &option : NULL);
ogs_freeaddrinfo(addr);
}
addr = NULL;
for (i = 0; i < num_of_advertise; i++) {
rv = ogs_addaddrinfo(&addr,
family, advertise[i], port, 0);
ogs_assert(rv == OGS_OK);
}
if (addr) {
if (ogs_global_conf()->
parameter.no_ipv4 == 0 &&
!self.pfcp_advertise) {
ogs_copyaddrinfo(
&self.pfcp_advertise, addr);
ogs_filteraddrinfo(
&self.pfcp_advertise, AF_INET);
}
if (ogs_global_conf()->
parameter.no_ipv6 == 0 &&
!self.pfcp_advertise6) {
ogs_copyaddrinfo(
&self.pfcp_advertise6, addr);
ogs_filteraddrinfo(
&self.pfcp_advertise6,
AF_INET6);
}
ogs_freeaddrinfo(addr);
}
if (dev) {
rv = ogs_socknode_probe(
ogs_global_conf()->
parameter.no_ipv4 ?
NULL : &self.pfcp_list,
ogs_global_conf()->
parameter.no_ipv6 ?
NULL : &self.pfcp_list6,
dev, self.pfcp_port,
is_option ? &option : NULL);
ogs_assert(rv == OGS_OK);
}
} while (ogs_yaml_iter_type(&server_array) ==
YAML_SEQUENCE_NODE);
} else if (!strcmp(pfcp_key, "client")) {
ogs_yaml_iter_t client_iter;
ogs_yaml_iter_recurse(&pfcp_iter, &client_iter);
while (ogs_yaml_iter_next(&client_iter)) {
const char *client_key =
ogs_yaml_iter_key(&client_iter);
ogs_assert(client_key);
if (!strcmp(client_key, remote)) {
ogs_yaml_iter_t remote_array, remote_iter;
ogs_yaml_iter_recurse(
&client_iter, &remote_array);
do {
ogs_pfcp_node_t *node = NULL;
ogs_sockaddr_t *addr = NULL;
int family = AF_UNSPEC;
int i, num = 0;
const char *hostname[
OGS_MAX_NUM_OF_HOSTNAME];
uint16_t port = self.pfcp_port;
uint16_t tac[OGS_MAX_NUM_OF_TAI] = {0,};
int num_of_tac = 0;
const char *dnn[OGS_MAX_NUM_OF_DNN];
int num_of_dnn = 0;
uint32_t e_cell_id[
OGS_MAX_NUM_OF_CELL_ID] = {0,};
int num_of_e_cell_id = 0;
uint64_t nr_cell_id[
OGS_MAX_NUM_OF_CELL_ID] = {0,};
int num_of_nr_cell_id = 0;
if (ogs_yaml_iter_type(&remote_array) ==
YAML_MAPPING_NODE) {
memcpy(&remote_iter, &remote_array,
sizeof(ogs_yaml_iter_t));
} else if (ogs_yaml_iter_type(
&remote_array) ==
YAML_SEQUENCE_NODE) {
if (!ogs_yaml_iter_next(
&remote_array))
break;
ogs_yaml_iter_recurse(&remote_array,
&remote_iter);
} else if (ogs_yaml_iter_type(
&remote_array) ==
YAML_SCALAR_NODE) {
break;
} else
ogs_assert_if_reached();
while (ogs_yaml_iter_next(
&remote_iter)) {
const char *remote_key =
ogs_yaml_iter_key(&remote_iter);
ogs_assert(remote_key);
if (!strcmp(remote_key, "family")) {
const char *v =
ogs_yaml_iter_value(
&remote_iter);
if (v) family = atoi(v);
if (family != AF_UNSPEC &&
family != AF_INET &&
family != AF_INET6) {
ogs_warn(
"Ignore family(%d) : "
"AF_UNSPEC(%d), "
"AF_INET(%d), "
"AF_INET6(%d) ",
family, AF_UNSPEC,
AF_INET, AF_INET6);
family = AF_UNSPEC;
}
} else if (!strcmp(remote_key,
"address")) {
ogs_yaml_iter_t hostname_iter;
ogs_yaml_iter_recurse(
&remote_iter,
&hostname_iter);
ogs_assert(ogs_yaml_iter_type(
&hostname_iter) !=
YAML_MAPPING_NODE);
do {
if (ogs_yaml_iter_type(
&hostname_iter) ==
YAML_SEQUENCE_NODE) {
if (!ogs_yaml_iter_next(
&hostname_iter))
break;
}
ogs_assert(num <
OGS_MAX_NUM_OF_HOSTNAME);
hostname[num++] =
ogs_yaml_iter_value(
&hostname_iter);
} while (ogs_yaml_iter_type(
&hostname_iter) ==
YAML_SEQUENCE_NODE);
} else if (!strcmp(remote_key,
"advertise")) {
/* Nothing in client */
} else if (!strcmp(remote_key,
"port")) {
const char *v =
ogs_yaml_iter_value(
&remote_iter);
if (v) port = atoi(v);
} else if (!strcmp(remote_key,
"tac")) {
ogs_yaml_iter_t tac_iter;
ogs_yaml_iter_recurse(
&remote_iter,
&tac_iter);
ogs_assert(ogs_yaml_iter_type(
&tac_iter) !=
YAML_MAPPING_NODE);
do {
const char *v = NULL;
ogs_assert(num_of_tac <
OGS_MAX_NUM_OF_TAI);
if (ogs_yaml_iter_type(
&tac_iter) ==
YAML_SEQUENCE_NODE) {
if (!ogs_yaml_iter_next(
&tac_iter))
break;
}
v = ogs_yaml_iter_value(
&tac_iter);
if (v) {
tac[num_of_tac] =
atoi(v);
num_of_tac++;
}
} while (ogs_yaml_iter_type(
&tac_iter) ==
YAML_SEQUENCE_NODE);
} else if (!strcmp(
remote_key, "apn") ||
!strcmp(
remote_key, "dnn")) {
ogs_yaml_iter_t dnn_iter;
ogs_yaml_iter_recurse(
&remote_iter,
&dnn_iter);
ogs_assert(ogs_yaml_iter_type(
&dnn_iter) !=
YAML_MAPPING_NODE);
do {
const char *v = NULL;
ogs_assert(num_of_dnn <
OGS_MAX_NUM_OF_DNN);
if (ogs_yaml_iter_type(
&dnn_iter) ==
YAML_SEQUENCE_NODE) {
if (!ogs_yaml_iter_next(
&dnn_iter))
break;
}
v = ogs_yaml_iter_value(
&dnn_iter);
if (v) {
dnn[num_of_dnn] = v;
num_of_dnn++;
}
} while (ogs_yaml_iter_type(
&dnn_iter) ==
YAML_SEQUENCE_NODE);
} else if (!strcmp(remote_key,
"e_cell_id")) {
ogs_yaml_iter_t e_cell_id_iter;
ogs_yaml_iter_recurse(
&remote_iter,
&e_cell_id_iter);
ogs_assert(ogs_yaml_iter_type(
&e_cell_id_iter) !=
YAML_MAPPING_NODE);
do {
const char *v = NULL;
ogs_assert(
num_of_e_cell_id <
OGS_MAX_NUM_OF_ENB_ID);
if (ogs_yaml_iter_type(
&e_cell_id_iter) ==
YAML_SEQUENCE_NODE) {
if (!ogs_yaml_iter_next(
&e_cell_id_iter))
break;
}
v = ogs_yaml_iter_value(
&e_cell_id_iter);
if (v) {
e_cell_id[
num_of_e_cell_id] =
ogs_uint64_from_string(
(char*)v);
num_of_e_cell_id++;
}
} while (ogs_yaml_iter_type(
&e_cell_id_iter) ==
YAML_SEQUENCE_NODE);
} else if (!strcmp(remote_key,
"nr_cell_id")) {
ogs_yaml_iter_t nr_cell_id_iter;
ogs_yaml_iter_recurse(
&remote_iter,
&nr_cell_id_iter);
ogs_assert(ogs_yaml_iter_type(
&nr_cell_id_iter) !=
YAML_MAPPING_NODE);
do {
const char *v = NULL;
ogs_assert(
num_of_nr_cell_id <
OGS_MAX_NUM_OF_ENB_ID);
if (ogs_yaml_iter_type(
&nr_cell_id_iter) ==
YAML_SEQUENCE_NODE) {
if (!ogs_yaml_iter_next(
&nr_cell_id_iter))
break;
}
v = ogs_yaml_iter_value(
&nr_cell_id_iter);
if (v) {
nr_cell_id[
num_of_nr_cell_id] =
ogs_uint64_from_string(
(char*)v);
num_of_nr_cell_id++;
}
} while (ogs_yaml_iter_type(
&nr_cell_id_iter) ==
YAML_SEQUENCE_NODE);
} else
ogs_warn("unknown key `%s`",
remote_key);
}
addr = NULL;
for (i = 0; i < num; i++) {
rv = ogs_addaddrinfo(&addr, family,
hostname[i], port, 0);
ogs_assert(rv == OGS_OK);
}
ogs_filter_ip_version(&addr,
ogs_global_conf()->parameter.
no_ipv4,
ogs_global_conf()->parameter.
no_ipv6,
ogs_global_conf()->parameter.
prefer_ipv4);
if (addr == NULL) continue;
node = ogs_pfcp_node_new(addr);
ogs_assert(node);
ogs_list_add(
&self.pfcp_peer_list, node);
node->num_of_tac = num_of_tac;
if (num_of_tac != 0)
memcpy(node->tac,
tac, sizeof(node->tac));
node->num_of_dnn = num_of_dnn;
if (num_of_dnn != 0)
memcpy(node->dnn,
dnn, sizeof(node->dnn));
node->num_of_e_cell_id =
num_of_e_cell_id;
if (num_of_e_cell_id != 0)
memcpy(node->e_cell_id, e_cell_id,
sizeof(node->e_cell_id));
node->num_of_nr_cell_id =
num_of_nr_cell_id;
if (num_of_nr_cell_id != 0)
memcpy(node->nr_cell_id, nr_cell_id,
sizeof(node->nr_cell_id));
} while (ogs_yaml_iter_type(
&remote_array) ==
YAML_SEQUENCE_NODE);
}
}
} else
ogs_warn("unknown key `%s`", pfcp_key);
}
} else if (!strcmp(local_key, "session")) {
ogs_yaml_iter_t subnet_array, subnet_iter;
ogs_yaml_iter_recurse(&local_iter, &subnet_array);
do {
ogs_pfcp_subnet_t *subnet = NULL;
const char *ipstr = NULL;
const char *gateway = NULL;
const char *mask_or_numbits = NULL;
const char *dnn = NULL;
const char *dev = self.tun_ifname;
const char *low[OGS_MAX_NUM_OF_SUBNET_RANGE];
const char *high[OGS_MAX_NUM_OF_SUBNET_RANGE];
int i, num = 0;
memset(low, 0, sizeof(low));
memset(high, 0, sizeof(high));
if (ogs_yaml_iter_type(&subnet_array) ==
YAML_MAPPING_NODE) {
memcpy(&subnet_iter, &subnet_array,
sizeof(ogs_yaml_iter_t));
} else if (ogs_yaml_iter_type(&subnet_array) ==
YAML_SEQUENCE_NODE) {
if (!ogs_yaml_iter_next(&subnet_array))
break;
ogs_yaml_iter_recurse(&subnet_array, &subnet_iter);
} else if (ogs_yaml_iter_type(&subnet_array) ==
YAML_SCALAR_NODE) {
break;
} else
ogs_assert_if_reached();
while (ogs_yaml_iter_next(&subnet_iter)) {
const char *subnet_key =
ogs_yaml_iter_key(&subnet_iter);
ogs_assert(subnet_key);
if (!strcmp(subnet_key, "subnet")) {
char *v =
(char *)ogs_yaml_iter_value(&subnet_iter);
if (v) {
ipstr = (const char *)strsep(&v, "/");
if (ipstr) {
mask_or_numbits = (const char *)v;
}
}
} else if (!strcmp(subnet_key, "gateway")) {
gateway = ogs_yaml_iter_value(&subnet_iter);
} else if (!strcmp(subnet_key, "apn") ||
!strcmp(subnet_key, "dnn")) {
dnn = ogs_yaml_iter_value(&subnet_iter);
} else if (!strcmp(subnet_key, "dev")) {
dev = ogs_yaml_iter_value(&subnet_iter);
} else if (!strcmp(subnet_key, "range")) {
ogs_yaml_iter_t range_iter;
ogs_yaml_iter_recurse(
&subnet_iter, &range_iter);
ogs_assert(ogs_yaml_iter_type(&range_iter) !=
YAML_MAPPING_NODE);
do {
char *v = NULL;
if (ogs_yaml_iter_type(&range_iter) ==
YAML_SEQUENCE_NODE) {
if (!ogs_yaml_iter_next(&range_iter))
break;
}
v = (char *)
ogs_yaml_iter_value(&range_iter);
if (v) {
ogs_assert(num <
OGS_MAX_NUM_OF_SUBNET_RANGE);
low[num] =
(const char *)strsep(&v, "-");
if (low[num] && strlen(low[num]) == 0)
low[num] = NULL;
high[num] = (const char *)v;
if (high[num] && strlen(high[num]) == 0)
high[num] = NULL;
}
if (low[num] || high[num]) num++;
} while (
ogs_yaml_iter_type(&range_iter) ==
YAML_SEQUENCE_NODE);
} else
ogs_warn("unknown key `%s`", subnet_key);
}
subnet = ogs_pfcp_subnet_add(
ipstr, mask_or_numbits, gateway, dnn, dev);
ogs_assert(subnet);
subnet->num_of_range = num;
for (i = 0; i < subnet->num_of_range; i++) {
subnet->range[i].low = low[i];
subnet->range[i].high = high[i];
}
} while (ogs_yaml_iter_type(&subnet_array) ==
YAML_SEQUENCE_NODE);
}
}
}
}
rv = ogs_pfcp_context_validation(local);
if (rv != OGS_OK) return rv;
return OGS_OK;
}
ogs_pfcp_node_t *ogs_pfcp_node_new(ogs_sockaddr_t *sa_list)
{
ogs_pfcp_node_t *node = NULL;
ogs_assert(sa_list);
ogs_pool_alloc(&ogs_pfcp_node_pool, &node);
if (!node) {
ogs_error("No memory: ogs_pool_alloc() failed");
return NULL;
}
memset(node, 0, sizeof(ogs_pfcp_node_t));
node->sa_list = sa_list;
ogs_list_init(&node->local_list);
ogs_list_init(&node->remote_list);
ogs_list_init(&node->gtpu_resource_list);
return node;
}
void ogs_pfcp_node_free(ogs_pfcp_node_t *node)
{
ogs_assert(node);
ogs_gtpu_resource_remove_all(&node->gtpu_resource_list);
ogs_pfcp_xact_delete_all(node);
ogs_freeaddrinfo(node->sa_list);
ogs_pool_free(&ogs_pfcp_node_pool, node);
}
ogs_pfcp_node_t *ogs_pfcp_node_add(
ogs_list_t *list, ogs_sockaddr_t *addr)
{
ogs_pfcp_node_t *node = NULL;
ogs_sockaddr_t *new = NULL;
ogs_assert(list);
ogs_assert(addr);
ogs_assert(OGS_OK == ogs_copyaddrinfo(&new, addr));
node = ogs_pfcp_node_new(new);
if (!node) {
ogs_error("No memory : ogs_pfcp_node_new() failed");
ogs_freeaddrinfo(new);
return NULL;
}
ogs_assert(node);
memcpy(&node->addr, new, sizeof node->addr);
ogs_list_add(list, node);
return node;
}
ogs_pfcp_node_t *ogs_pfcp_node_find(
ogs_list_t *list, ogs_sockaddr_t *addr)
{
ogs_pfcp_node_t *node = NULL;
ogs_assert(list);
ogs_assert(addr);
ogs_list_for_each(list, node) {
if (ogs_sockaddr_is_equal(&node->addr, addr) == true)
break;
}
return node;
}
void ogs_pfcp_node_remove(ogs_list_t *list, ogs_pfcp_node_t *node)
{
ogs_assert(list);
ogs_assert(node);
ogs_list_remove(list, node);
ogs_pfcp_node_free(node);
}
void ogs_pfcp_node_remove_all(ogs_list_t *list)
{
ogs_pfcp_node_t *node = NULL, *next_node = NULL;
ogs_assert(list);
ogs_list_for_each_safe(list, next_node, node)
ogs_pfcp_node_remove(list, node);
}
ogs_gtpu_resource_t *ogs_pfcp_find_gtpu_resource(ogs_list_t *list,
char *dnn, ogs_pfcp_interface_t source_interface)
{
ogs_gtpu_resource_t *resource = NULL;
ogs_assert(list);
ogs_list_for_each(list, resource) {
bool match = true;
if (resource->info.assoni &&
strlen(resource->info.network_instance) &&
dnn && strlen(dnn) &&
ogs_strcasecmp(dnn, resource->info.network_instance) != 0) {
match = false;
}
if (resource->info.assosi &&
resource->info.source_interface <= OGS_PFCP_INTERFACE_LI_FUNCTION &&
source_interface <= OGS_PFCP_INTERFACE_LI_FUNCTION &&
source_interface != resource->info.source_interface) {
match = false;
}
if (match == true) return resource;
}
return NULL;
}
int ogs_pfcp_setup_far_gtpu_node(ogs_pfcp_far_t *far)
{
int rv;
ogs_ip_t ip;
ogs_gtp_node_t *gnode = NULL;
ogs_assert(far);
ogs_pfcp_outer_header_creation_to_ip(&far->outer_header_creation, &ip);
/* No Outer Header Creation */
if (ip.len == 0) return OGS_DONE;
gnode = ogs_gtp_node_find_by_ip(&ogs_gtp_self()->gtpu_peer_list, &ip);
if (!gnode) {
gnode = ogs_gtp_node_add_by_ip(
&ogs_gtp_self()->gtpu_peer_list, &ip, ogs_gtp_self()->gtpu_port);
if (!gnode) {
ogs_error("ogs_gtp_node_add_by_ip() failed");
return OGS_ERROR;
}
rv = ogs_gtp_connect(
ogs_gtp_self()->gtpu_sock, ogs_gtp_self()->gtpu_sock6, gnode);
if (rv != OGS_OK) {
ogs_error("ogs_gtp_connect() failed");
return rv;
}
}
OGS_SETUP_GTP_NODE(far, gnode);
return OGS_OK;
}
int ogs_pfcp_setup_pdr_gtpu_node(ogs_pfcp_pdr_t *pdr)
{
int rv;
ogs_ip_t ip;
ogs_gtp_node_t *gnode = NULL;
ogs_assert(pdr);
/* No F-TEID */
if (pdr->f_teid_len == 0) return OGS_DONE;
rv = ogs_pfcp_f_teid_to_ip(&pdr->f_teid, &ip);
if (rv != OGS_OK) {
ogs_error("ogs_pfcp_f_teid_to_ip() failed");
return rv;
}
gnode = ogs_gtp_node_find_by_ip(&ogs_gtp_self()->gtpu_peer_list, &ip);
if (!gnode) {
gnode = ogs_gtp_node_add_by_ip(
&ogs_gtp_self()->gtpu_peer_list, &ip, ogs_gtp_self()->gtpu_port);
if (!gnode) {
ogs_error("ogs_gtp_node_add_by_ip() failed");
return OGS_ERROR;
}
rv = ogs_gtp_connect(
ogs_gtp_self()->gtpu_sock, ogs_gtp_self()->gtpu_sock6, gnode);
if (rv != OGS_OK) {
ogs_error("ogs_gtp_connect() failed");
return rv;
}
}
OGS_SETUP_GTP_NODE(pdr, gnode);
return OGS_OK;
}
void ogs_pfcp_sess_clear(ogs_pfcp_sess_t *sess)
{
ogs_pfcp_pdr_remove_all(sess);
ogs_pfcp_far_remove_all(sess);
ogs_pfcp_urr_remove_all(sess);
ogs_pfcp_qer_remove_all(sess);
if (sess->bar) ogs_pfcp_bar_delete(sess->bar);
}
static int precedence_compare(ogs_pfcp_pdr_t *pdr1, ogs_pfcp_pdr_t *pdr2)
{
if (pdr1->precedence == pdr2->precedence)
return 0;
else if (pdr1->precedence < pdr2->precedence)
return -1;
else
return 1;
}
ogs_pfcp_pdr_t *ogs_pfcp_pdr_add(ogs_pfcp_sess_t *sess)
{
ogs_pfcp_pdr_t *pdr = NULL;
ogs_assert(sess);
ogs_pool_alloc(&ogs_pfcp_pdr_pool, &pdr);
if (pdr == NULL) {
ogs_error("pdr_pool() failed");
return NULL;
}
memset(pdr, 0, sizeof *pdr);
pdr->obj.type = OGS_PFCP_OBJ_PDR_TYPE;
pdr->src_if = OGS_PFCP_INTERFACE_UNKNOWN;
/* Set TEID */
ogs_pool_alloc(&ogs_pfcp_pdr_teid_pool, &pdr->teid_node);
ogs_assert(pdr->teid_node);
pdr->teid = *(pdr->teid_node);
/* Set PDR-ID */
ogs_pool_alloc(&sess->pdr_id_pool, &pdr->id_node);
if (pdr->id_node == NULL) {
ogs_error("pdr_id_pool() failed");
ogs_pool_free(&ogs_pfcp_pdr_pool, pdr);
return NULL;
}
pdr->id = *(pdr->id_node);
ogs_assert(pdr->id > 0 && pdr->id <= OGS_MAX_NUM_OF_PDR);
pdr->sess = sess;
ogs_list_add(&sess->pdr_list, pdr);
return pdr;
}
ogs_pfcp_pdr_t *ogs_pfcp_pdr_find(
ogs_pfcp_sess_t *sess, ogs_pfcp_pdr_id_t id)
{
ogs_pfcp_pdr_t *pdr = NULL;
ogs_assert(sess);
ogs_list_for_each(&sess->pdr_list, pdr)
if (pdr->id == id) return pdr;
return NULL;
}
ogs_pfcp_pdr_t *ogs_pfcp_pdr_find_or_add(
ogs_pfcp_sess_t *sess, ogs_pfcp_pdr_id_t id)
{
ogs_pfcp_pdr_t *pdr = NULL;
ogs_assert(sess);
pdr = ogs_pfcp_pdr_find(sess, id);
if (!pdr) {
pdr = ogs_pfcp_pdr_add(sess);
ogs_assert(pdr);
pdr->id = id;
}
return pdr;
}
void ogs_pfcp_pdr_swap_teid(ogs_pfcp_pdr_t *pdr)
{
int i = 0;
ogs_assert(pdr);
ogs_assert(pdr->f_teid.teid > 0 &&
pdr->f_teid.teid <= ogs_pfcp_pdr_teid_pool.size);
/* Find out the Array Index for the restored TEID. */
i = pdr_random_to_index[pdr->f_teid.teid];
ogs_assert(i < ogs_pfcp_pdr_teid_pool.size);
ogs_assert(pdr->teid_node);
/*
* If SWAP has already done this, it will not try this again.
* This situation can occur when multiple PDRs are restored
* with the same TEID.
*/
if (pdr->f_teid.teid == ogs_pfcp_pdr_teid_pool.array[i]) {
ogs_pfcp_pdr_teid_pool.array[i] = *(pdr->teid_node);
*(pdr->teid_node) = pdr->f_teid.teid;
}
}
void ogs_pfcp_object_teid_hash_set(
ogs_pfcp_object_type_e type, ogs_pfcp_pdr_t *pdr,
bool restoration_indication)
{
ogs_assert(type);
ogs_assert(pdr);
if (ogs_pfcp_self()->up_function_features.ftup && pdr->f_teid.ch) {
ogs_pfcp_pdr_t *choosed_pdr = NULL;
if (pdr->f_teid.chid) {
choosed_pdr = ogs_pfcp_pdr_find_by_choose_id(
pdr->sess, pdr->f_teid.choose_id);
if (!choosed_pdr) {
pdr->chid = true;
pdr->choose_id = pdr->f_teid.choose_id;
}
}
if (choosed_pdr) {
pdr->f_teid_len = choosed_pdr->f_teid_len;
memcpy(&pdr->f_teid, &choosed_pdr->f_teid, pdr->f_teid_len);
} else {
ogs_gtpu_resource_t *resource = NULL;
resource = ogs_pfcp_find_gtpu_resource(
&ogs_gtp_self()->gtpu_resource_list,
pdr->dnn, pdr->src_if);
if (resource) {
ogs_assert(
(resource->info.v4 && pdr->f_teid.ipv4) ||
(resource->info.v6 && pdr->f_teid.ipv6));
ogs_assert(OGS_OK ==
ogs_pfcp_user_plane_ip_resource_info_to_f_teid(
&resource->info, &pdr->f_teid, &pdr->f_teid_len));
if (resource->info.teidri)
pdr->f_teid.teid = OGS_PFCP_GTPU_INDEX_TO_TEID(
pdr->teid, resource->info.teidri,
resource->info.teid_range);
else
pdr->f_teid.teid = pdr->teid;
} else {
ogs_assert(
(ogs_gtp_self()->gtpu_addr && pdr->f_teid.ipv4) ||
(ogs_gtp_self()->gtpu_addr6 && pdr->f_teid.ipv6));
ogs_assert(OGS_OK ==
ogs_pfcp_sockaddr_to_f_teid(
pdr->f_teid.ipv4 ?
ogs_gtp_self()->gtpu_addr : NULL,
pdr->f_teid.ipv6 ?
ogs_gtp_self()->gtpu_addr6 : NULL,
&pdr->f_teid, &pdr->f_teid_len));
pdr->f_teid.teid = pdr->teid;
}
}
}
if (pdr->hash.teid.len)
ogs_hash_set(self.object_teid_hash,
&pdr->hash.teid.key, pdr->hash.teid.len, NULL);
pdr->hash.teid.key = pdr->f_teid.teid;
pdr->hash.teid.len = sizeof(pdr->hash.teid.key);
switch(type) {
case OGS_PFCP_OBJ_PDR_TYPE:
ogs_hash_set(self.object_teid_hash,
&pdr->hash.teid.key, pdr->hash.teid.len, pdr);
break;
case OGS_PFCP_OBJ_SESS_TYPE:
ogs_assert(pdr->sess);
ogs_hash_set(self.object_teid_hash,
&pdr->hash.teid.key, pdr->hash.teid.len, pdr->sess);
break;
default:
ogs_fatal("Unknown type [%d]", type);
ogs_assert_if_reached();
}
}
ogs_pfcp_object_t *ogs_pfcp_object_find_by_teid(uint32_t teid)
{
return (ogs_pfcp_object_t *)ogs_hash_get(
self.object_teid_hash, &teid, sizeof(teid));
}
int ogs_pfcp_object_count_by_teid(ogs_pfcp_sess_t *sess, uint32_t teid)
{
ogs_pfcp_pdr_t *pdr = NULL;
int count = 0;
ogs_assert(sess);
ogs_list_for_each(&sess->pdr_list, pdr) {
if (pdr->f_teid.teid == teid) count++;
}
return count;
}
ogs_pfcp_pdr_t *ogs_pfcp_pdr_find_by_choose_id(
ogs_pfcp_sess_t *sess, uint8_t choose_id)
{
ogs_pfcp_pdr_t *pdr = NULL;
ogs_assert(sess);
ogs_list_for_each(&sess->pdr_list, pdr)
if (pdr->chid == true && pdr->choose_id == choose_id)
return pdr;
return NULL;
}
void ogs_pfcp_pdr_reorder_by_precedence(
ogs_pfcp_pdr_t *pdr, ogs_pfcp_precedence_t precedence)
{
ogs_pfcp_sess_t *sess = NULL;
ogs_assert(pdr);
sess = pdr->sess;
ogs_assert(sess);
ogs_list_remove(&sess->pdr_list, pdr);
pdr->precedence = precedence;
ogs_list_insert_sorted(&sess->pdr_list, pdr, precedence_compare);
}
void ogs_pfcp_pdr_associate_far(ogs_pfcp_pdr_t *pdr, ogs_pfcp_far_t *far)
{
ogs_assert(pdr);
ogs_assert(far);
pdr->far = far;
}
void ogs_pfcp_pdr_associate_urr(ogs_pfcp_pdr_t *pdr, ogs_pfcp_urr_t *urr)
{
ogs_assert(pdr);
ogs_assert(urr);
ogs_assert(pdr->num_of_urr < OGS_ARRAY_SIZE(pdr->urr));
int i;
/* Avoid storing duplicate pointers */
for (i = 0; i < pdr->num_of_urr; i++) {
if (pdr->urr[i]->id == urr->id)
return;
}
pdr->urr[pdr->num_of_urr++] = urr;
}
void ogs_pfcp_pdr_associate_qer(ogs_pfcp_pdr_t *pdr, ogs_pfcp_qer_t *qer)
{
ogs_assert(pdr);
ogs_assert(qer);
pdr->qer = qer;
}
void ogs_pfcp_pdr_remove(ogs_pfcp_pdr_t *pdr)
{
int i;
ogs_assert(pdr);
ogs_assert(pdr->sess);
ogs_list_remove(&pdr->sess->pdr_list, pdr);
ogs_pfcp_rule_remove_all(pdr);
if (pdr->hash.teid.len) {
/*
* Issues #2003
*
* In 5G Core, two PDRs can use different QFIDs for the same TEID.
* So, before deleting a TEID, we should check if there is a PDR
* using the same TEID.
*
* Since this PDR has already been deleted with ogs_list_remove() above,
* if the current list has a TEID count of 0, there are no other PDRs.
*/
if (ogs_pfcp_object_count_by_teid(pdr->sess, pdr->f_teid.teid) == 0)
ogs_hash_set(self.object_teid_hash,
&pdr->hash.teid.key, pdr->hash.teid.len, NULL);
}
if (pdr->dnn)
ogs_free(pdr->dnn);
if (pdr->id_node)
ogs_pool_free(&pdr->sess->pdr_id_pool, pdr->id_node);
if (pdr->ipv4_framed_routes) {
for (i = 0; i < OGS_MAX_NUM_OF_FRAMED_ROUTES_IN_PDI; i++) {
if (!pdr->ipv4_framed_routes[i])
break;
ogs_free(pdr->ipv4_framed_routes[i]);
}
ogs_free(pdr->ipv4_framed_routes);
}
if (pdr->ipv6_framed_routes) {
for (i = 0; i < OGS_MAX_NUM_OF_FRAMED_ROUTES_IN_PDI; i++) {
if (!pdr->ipv6_framed_routes[i])
break;
ogs_free(pdr->ipv6_framed_routes[i]);
}
ogs_free(pdr->ipv6_framed_routes);
}
ogs_pool_free(&ogs_pfcp_pdr_teid_pool, pdr->teid_node);
ogs_pool_free(&ogs_pfcp_pdr_pool, pdr);
}
void ogs_pfcp_pdr_remove_all(ogs_pfcp_sess_t *sess)
{
ogs_pfcp_pdr_t *pdr = NULL, *next_pdr = NULL;
ogs_assert(sess);
ogs_list_for_each_safe(&sess->pdr_list, next_pdr, pdr)
ogs_pfcp_pdr_remove(pdr);
}
ogs_pfcp_far_t *ogs_pfcp_far_add(ogs_pfcp_sess_t *sess)
{
ogs_pfcp_far_t *far = NULL;
ogs_assert(sess);
ogs_pool_alloc(&ogs_pfcp_far_pool, &far);
if (far == NULL) {
ogs_error("far_pool() failed");
return NULL;
}
memset(far, 0, sizeof *far);
ogs_pool_alloc(&sess->far_id_pool, &far->id_node);
if (far->id_node == NULL) {
ogs_error("far_id_pool() failed");
ogs_pool_free(&ogs_pfcp_far_pool, far);
return NULL;
}
far->id = *(far->id_node);
ogs_assert(far->id > 0 && far->id <= OGS_MAX_NUM_OF_FAR);
far->dst_if = OGS_PFCP_INTERFACE_UNKNOWN;
far->sess = sess;
ogs_list_add(&sess->far_list, far);
return far;
}
ogs_pfcp_far_t *ogs_pfcp_far_find(
ogs_pfcp_sess_t *sess, ogs_pfcp_far_id_t id)
{
ogs_pfcp_far_t *far = NULL;
ogs_assert(sess);
ogs_list_for_each(&sess->far_list, far)
if (far->id == id) return far;
return NULL;
}
ogs_pfcp_far_t *ogs_pfcp_far_find_or_add(
ogs_pfcp_sess_t *sess, ogs_pfcp_far_id_t id)
{
ogs_pfcp_far_t *far = NULL;
ogs_assert(sess);
far = ogs_pfcp_far_find(sess, id);
if (!far) {
far = ogs_pfcp_far_add(sess);
ogs_assert(far);
far->id = id;
}
return far;
}
void ogs_pfcp_far_f_teid_hash_set(ogs_pfcp_far_t *far)
{
int family;
ogs_gtp_node_t *gnode = NULL;
ogs_sockaddr_t *addr = NULL;
ogs_assert(far);
gnode = far->gnode;
ogs_assert(gnode);
addr = &gnode->addr;
ogs_assert(addr);
if (far->hash.f_teid.len)
ogs_hash_set(self.far_f_teid_hash,
&far->hash.f_teid.key, far->hash.f_teid.len, NULL);
far->hash.f_teid.key.teid = far->outer_header_creation.teid;
far->hash.f_teid.len = sizeof(far->hash.f_teid.key.teid);
family = addr->ogs_sa_family;
switch (family) {
case AF_INET:
memcpy(far->hash.f_teid.key.addr, &addr->sin.sin_addr, OGS_IPV4_LEN);
far->hash.f_teid.len += OGS_IPV4_LEN;
break;
case AF_INET6:
memcpy(far->hash.f_teid.key.addr, &addr->sin6.sin6_addr, OGS_IPV6_LEN);
far->hash.f_teid.len += OGS_IPV6_LEN;
break;
default:
ogs_fatal("Unknown family(%d)", family);
ogs_abort();
return;
}
ogs_hash_set(self.far_f_teid_hash,
&far->hash.f_teid.key, far->hash.f_teid.len, far);
}
ogs_pfcp_far_t *ogs_pfcp_far_find_by_gtpu_error_indication(ogs_pkbuf_t *pkbuf)
{
ogs_pfcp_far_hash_f_teid_t hashkey;
int hashkey_len;
uint32_t teid;
uint16_t len;
unsigned char *p = NULL;
ogs_assert(pkbuf);
p = pkbuf->data;
ogs_assert(p);
/*
* 8.3 Tunnel Endpoint Identifier Data I
*
* Octet 1 : Type = 16 (Decimal)
* Octet 2-5 : Tunnel Endpoint Identitifer Data I
*/
if (*p != 16) {
ogs_error("Unknown Type [%d]", *p);
return NULL;
}
p += 1;
memcpy(&teid, p, 4);
teid = be32toh(teid);
p += 4;
/*
* 8.4 GTP-U Peer Address
*
* Octet 1 : Type = 133 (Decimal)
* Octet 2-3 : Length
* Octet 4-n : IPv4 or IPv6 Address
*/
if (*p != 133) {
ogs_error("Unknown Type [%d]", *p);
return NULL;
}
p += 1;
memcpy(&len, p, 2);
len = be16toh(len);
p += 2;
if (len == OGS_IPV4_LEN) {
} else if (len == OGS_IPV6_LEN) {
} else {
ogs_error("Invalid Length [%d]", len);
return NULL;
}
hashkey.teid = teid;
memcpy(hashkey.addr, p, len);
hashkey_len = 4 + len;
return (ogs_pfcp_far_t *)ogs_hash_get(
self.far_f_teid_hash, &hashkey, hashkey_len);
}
ogs_pfcp_far_t *ogs_pfcp_far_find_by_pfcp_session_report(
ogs_pfcp_sess_t *sess,
ogs_pfcp_tlv_error_indication_report_t *error_indication_report)
{
ogs_pfcp_far_t *far = NULL;
ogs_pfcp_f_teid_t *remote_f_teid = NULL;
uint32_t teid;
uint16_t len; /* OGS_IPV4_LEN or OGS_IPV6_LEN */
uint32_t addr[4];
ogs_assert(sess);
ogs_assert(error_indication_report);
if (error_indication_report->presence == 0) {
ogs_error("No Error Indication Report");
return NULL;
}
if (error_indication_report->remote_f_teid.presence == 0) {
ogs_error("No Remote F-TEID");
return NULL;
}
remote_f_teid = error_indication_report->remote_f_teid.data;
ogs_assert(remote_f_teid);
teid = be32toh(remote_f_teid->teid);
if (remote_f_teid->ipv4 && remote_f_teid->ipv6) {
ogs_error("User plane should not set both IPv4 and IPv6");
return NULL;
} else if (remote_f_teid->ipv4) {
len = OGS_IPV4_LEN;
memcpy(addr, &remote_f_teid->addr, len);
} else if (remote_f_teid->ipv6) {
len = OGS_IPV6_LEN;
memcpy(addr, remote_f_teid->addr6, len);
} else {
ogs_error("No IPv4 and IPv6");
return NULL;
}
ogs_list_for_each(&sess->far_list, far) {
if (teid == far->outer_header_creation.teid)
return far;
}
ogs_error("Cannot find the session context "
"[TEID:0x%x,LEN:%d,ADDR:%08x %08x %08x %08x]",
teid, len, be32toh(addr[0]), be32toh(addr[1]),
be32toh(addr[2]), be32toh(addr[3]));
return NULL;
}
void ogs_pfcp_far_teid_hash_set(ogs_pfcp_far_t *far)
{
ogs_assert(far);
if (far->hash.teid.len)
ogs_hash_set(self.far_teid_hash,
&far->hash.teid.key, far->hash.teid.len, NULL);
far->hash.teid.key = far->outer_header_creation.teid;
far->hash.teid.len = sizeof(far->hash.teid.key);
ogs_hash_set(self.far_teid_hash,
&far->hash.teid.key, far->hash.teid.len, far);
}
ogs_pfcp_far_t *ogs_pfcp_far_find_by_teid(uint32_t teid)
{
return (ogs_pfcp_far_t *)ogs_hash_get(
self.far_teid_hash, &teid, sizeof(teid));
}
void ogs_pfcp_far_remove(ogs_pfcp_far_t *far)
{
int i;
ogs_pfcp_sess_t *sess = NULL;
ogs_assert(far);
sess = far->sess;
ogs_assert(sess);
ogs_list_remove(&sess->far_list, far);
if (far->hash.teid.len)
ogs_hash_set(self.far_teid_hash,
&far->hash.teid.key, far->hash.teid.len, NULL);
if (far->hash.f_teid.len)
ogs_hash_set(self.far_f_teid_hash,
&far->hash.f_teid.key, far->hash.f_teid.len, NULL);
if (far->dnn)
ogs_free(far->dnn);
for (i = 0; i < far->num_of_buffered_packet; i++)
ogs_pkbuf_free(far->buffered_packet[i]);
if (far->id_node)
ogs_pool_free(&far->sess->far_id_pool, far->id_node);
ogs_pool_free(&ogs_pfcp_far_pool, far);
}
void ogs_pfcp_far_remove_all(ogs_pfcp_sess_t *sess)
{
ogs_pfcp_far_t *far = NULL, *next_far = NULL;
ogs_assert(sess);
ogs_list_for_each_safe(&sess->far_list, next_far, far)
ogs_pfcp_far_remove(far);
}
ogs_pfcp_urr_t *ogs_pfcp_urr_add(ogs_pfcp_sess_t *sess)
{
ogs_pfcp_urr_t *urr = NULL;
ogs_assert(sess);
ogs_pool_alloc(&ogs_pfcp_urr_pool, &urr);
if (urr == NULL) {
ogs_error("urr_pool() failed");
return NULL;
}
memset(urr, 0, sizeof *urr);
ogs_pool_alloc(&sess->urr_id_pool, &urr->id_node);
if (urr->id_node == NULL) {
ogs_error("urr_id_pool() failed");
ogs_pool_free(&ogs_pfcp_urr_pool, urr);
return NULL;
}
urr->id = *(urr->id_node);
ogs_assert(urr->id > 0 && urr->id <= OGS_MAX_NUM_OF_URR);
urr->sess = sess;
ogs_list_add(&sess->urr_list, urr);
return urr;
}
ogs_pfcp_urr_t *ogs_pfcp_urr_find(
ogs_pfcp_sess_t *sess, ogs_pfcp_urr_id_t id)
{
ogs_pfcp_urr_t *urr = NULL;
ogs_assert(sess);
ogs_list_for_each(&sess->urr_list, urr)
if (urr->id == id) return urr;
return NULL;
}
ogs_pfcp_urr_t *ogs_pfcp_urr_find_or_add(
ogs_pfcp_sess_t *sess, ogs_pfcp_urr_id_t id)
{
ogs_pfcp_urr_t *urr = NULL;
ogs_assert(sess);
urr = ogs_pfcp_urr_find(sess, id);
if (!urr) {
urr = ogs_pfcp_urr_add(sess);
ogs_assert(urr);
urr->id = id;
}
return urr;
}
void ogs_pfcp_urr_remove(ogs_pfcp_urr_t *urr)
{
ogs_pfcp_sess_t *sess = NULL;
ogs_assert(urr);
sess = urr->sess;
ogs_assert(sess);
ogs_list_remove(&sess->urr_list, urr);
if (urr->id_node)
ogs_pool_free(&urr->sess->urr_id_pool, urr->id_node);
ogs_pool_free(&ogs_pfcp_urr_pool, urr);
}
void ogs_pfcp_urr_remove_all(ogs_pfcp_sess_t *sess)
{
ogs_pfcp_urr_t *urr = NULL, *next_urr = NULL;
ogs_assert(sess);
ogs_list_for_each_safe(&sess->urr_list, next_urr, urr)
ogs_pfcp_urr_remove(urr);
}
ogs_pfcp_qer_t *ogs_pfcp_qer_add(ogs_pfcp_sess_t *sess)
{
ogs_pfcp_qer_t *qer = NULL;
ogs_assert(sess);
ogs_pool_alloc(&ogs_pfcp_qer_pool, &qer);
if (qer == NULL) {
ogs_error("qer_pool() failed");
return NULL;
}
memset(qer, 0, sizeof *qer);
ogs_pool_alloc(&sess->qer_id_pool, &qer->id_node);
if (qer->id_node == NULL) {
ogs_error("qer_id_pool() failed");
ogs_pool_free(&ogs_pfcp_qer_pool, qer);
return NULL;
}
qer->id = *(qer->id_node);
ogs_assert(qer->id > 0 && qer->id <= OGS_MAX_NUM_OF_QER);
qer->sess = sess;
ogs_list_add(&sess->qer_list, qer);
return qer;
}
ogs_pfcp_qer_t *ogs_pfcp_qer_find(
ogs_pfcp_sess_t *sess, ogs_pfcp_qer_id_t id)
{
ogs_pfcp_qer_t *qer = NULL;
ogs_assert(sess);
ogs_list_for_each(&sess->qer_list, qer)
if (qer->id == id) return qer;
return NULL;
}
ogs_pfcp_qer_t *ogs_pfcp_qer_find_or_add(
ogs_pfcp_sess_t *sess, ogs_pfcp_qer_id_t id)
{
ogs_pfcp_qer_t *qer = NULL;
ogs_assert(sess);
qer = ogs_pfcp_qer_find(sess, id);
if (!qer) {
qer = ogs_pfcp_qer_add(sess);
ogs_assert(qer);
qer->id = id;
}
return qer;
}
void ogs_pfcp_qer_remove(ogs_pfcp_qer_t *qer)
{
ogs_pfcp_sess_t *sess = NULL;
ogs_assert(qer);
sess = qer->sess;
ogs_assert(sess);
ogs_list_remove(&sess->qer_list, qer);
if (qer->id_node)
ogs_pool_free(&qer->sess->qer_id_pool, qer->id_node);
ogs_pool_free(&ogs_pfcp_qer_pool, qer);
}
void ogs_pfcp_qer_remove_all(ogs_pfcp_sess_t *sess)
{
ogs_pfcp_qer_t *qer = NULL, *next_qer = NULL;
ogs_assert(sess);
ogs_list_for_each_safe(&sess->qer_list, next_qer, qer)
ogs_pfcp_qer_remove(qer);
}
ogs_pfcp_bar_t *ogs_pfcp_bar_new(ogs_pfcp_sess_t *sess)
{
ogs_pfcp_bar_t *bar = NULL;
ogs_assert(sess);
ogs_assert(sess->bar == NULL); /* Only One BAR is supported */
ogs_pool_alloc(&ogs_pfcp_bar_pool, &bar);
ogs_assert(bar);
memset(bar, 0, sizeof *bar);
ogs_pool_alloc(&sess->bar_id_pool, &bar->id_node);
ogs_assert(bar->id_node);
bar->id = *(bar->id_node);
ogs_assert(bar->id > 0 && bar->id <= OGS_MAX_NUM_OF_BAR);
bar->sess = sess;
sess->bar = bar;
return bar;
}
void ogs_pfcp_bar_delete(ogs_pfcp_bar_t *bar)
{
ogs_pfcp_sess_t *sess = NULL;
ogs_assert(bar);
sess = bar->sess;
ogs_assert(sess);
if (bar->id_node)
ogs_pool_free(&bar->sess->bar_id_pool, bar->id_node);
ogs_pool_free(&ogs_pfcp_bar_pool, bar);
bar->sess = NULL;
sess->bar = NULL;
}
ogs_pfcp_rule_t *ogs_pfcp_rule_add(ogs_pfcp_pdr_t *pdr)
{
ogs_pfcp_rule_t *rule = NULL;
ogs_assert(pdr);
ogs_pool_alloc(&ogs_pfcp_rule_pool, &rule);
ogs_assert(rule);
memset(rule, 0, sizeof *rule);
rule->pdr = pdr;
ogs_list_add(&pdr->rule_list, rule);
return rule;
}
ogs_pfcp_rule_t *ogs_pfcp_rule_find_by_sdf_filter_id(
ogs_pfcp_sess_t *sess, uint32_t sdf_filter_id)
{
ogs_pfcp_pdr_t *pdr = NULL;
ogs_pfcp_rule_t *rule = NULL;
ogs_assert(sess);
ogs_list_for_each(&sess->pdr_list, pdr) {
ogs_list_for_each(&pdr->rule_list, rule) {
if (rule->bid && rule->sdf_filter_id == sdf_filter_id)
return rule;
}
}
return NULL;
}
void ogs_pfcp_rule_remove(ogs_pfcp_rule_t *rule)
{
ogs_pfcp_pdr_t *pdr = NULL;
ogs_assert(rule);
pdr = rule->pdr;
ogs_assert(pdr);
ogs_list_remove(&pdr->rule_list, rule);
ogs_pool_free(&ogs_pfcp_rule_pool, rule);
}
void ogs_pfcp_rule_remove_all(ogs_pfcp_pdr_t *pdr)
{
ogs_pfcp_rule_t *rule = NULL, *next_rule = NULL;
ogs_assert(pdr);
ogs_list_for_each_safe(&pdr->rule_list, next_rule, rule)
ogs_pfcp_rule_remove(rule);
}
int ogs_pfcp_ue_pool_generate(void)
{
int i, rv;
ogs_pfcp_subnet_t *subnet = NULL;
ogs_list_for_each(&self.subnet_list, subnet) {
int maxbytes = 0;
int lastindex = 0;
uint32_t start[4], end[4], broadcast[4];
int rangeindex, num_of_range;
int poolindex;
int inc;
if (subnet->family == AF_INET) {
maxbytes = 4;
lastindex = 0;
} else if (subnet->family == AF_INET6) {
maxbytes = 8; /* Default Prefixlen 64bits */
lastindex = 1;
} else {
/* subnet->family might be AF_UNSPEC. So, skip it */
continue;
}
for (i = 0; i < 4; i++) {
broadcast[i] = subnet->sub.sub[i] + ~subnet->sub.mask[i];
}
num_of_range = subnet->num_of_range;
if (!num_of_range) num_of_range = 1;
poolindex = 0;
for (rangeindex = 0; rangeindex < num_of_range; rangeindex++) {
if (subnet->num_of_range &&
subnet->range[rangeindex].low) {
ogs_ipsubnet_t low;
rv = ogs_ipsubnet(&low, subnet->range[rangeindex].low, NULL);
ogs_assert(rv == OGS_OK);
memcpy(start, low.sub, maxbytes);
} else {
memcpy(start, subnet->sub.sub, maxbytes);
}
if (subnet->num_of_range &&
subnet->range[rangeindex].high) {
ogs_ipsubnet_t high;
rv = ogs_ipsubnet(&high, subnet->range[rangeindex].high, NULL);
ogs_assert(rv == OGS_OK);
high.sub[lastindex] += htobe32(1);
memcpy(end, high.sub, maxbytes);
} else {
memcpy(end, broadcast, maxbytes);
}
inc = 0;
while(poolindex < ogs_app()->pool.sess) {
ogs_pfcp_ue_ip_t *ue_ip = NULL;
ue_ip = &subnet->pool.array[poolindex];
ogs_assert(ue_ip);
memset(ue_ip, 0, sizeof *ue_ip);
ue_ip->subnet = subnet;
memcpy(ue_ip->addr, start, maxbytes);
ue_ip->addr[lastindex] += htobe32(inc);
inc++;
if (memcmp(ue_ip->addr, end, maxbytes) == 0)
break;
/* Exclude Network Address */
if (memcmp(ue_ip->addr, subnet->sub.sub, maxbytes) == 0)
continue;
/* Exclude TUN IP Address */
if (memcmp(ue_ip->addr, subnet->gw.sub, maxbytes) == 0)
continue;
/* Allocate Full IPv6 Address */
if (lastindex == 1)
ue_ip->addr[3] += htobe32(inc);
ogs_trace("[%d] - %x:%x:%x:%x",
poolindex,
ue_ip->addr[0], ue_ip->addr[1],
ue_ip->addr[2], ue_ip->addr[3]);
poolindex++;
}
}
subnet->pool.size = subnet->pool.avail = poolindex;
}
return OGS_OK;
}
ogs_pfcp_ue_ip_t *ogs_pfcp_ue_ip_alloc(
uint8_t *cause_value, int family, const char *dnn, uint8_t *addr)
{
ogs_pfcp_subnet_t *subnet = NULL;
ogs_pfcp_ue_ip_t *ue_ip = NULL;
uint8_t zero[16];
size_t maxbytes = 0;
memset(zero, 0, sizeof zero);
if (family == AF_INET) {
maxbytes = 4;
} else if (family == AF_INET6) {
maxbytes = 16;
} else {
ogs_error("Invalid family[%d]", family);
ogs_assert_if_reached();
return NULL;
}
if (dnn)
subnet = ogs_pfcp_find_subnet_by_dnn(family, dnn);
else
subnet = ogs_pfcp_find_subnet(family);
if (subnet == NULL) {
ogs_error("All IP addresses in all subnets are occupied");
*cause_value = OGS_PFCP_CAUSE_NO_RESOURCES_AVAILABLE;
return NULL;
}
/* if assigning a static IP, do so. If not, assign dynamically! */
if (memcmp(addr, zero, maxbytes) != 0) {
ue_ip = ogs_calloc(1, sizeof(ogs_pfcp_ue_ip_t));
if (!ue_ip) {
ogs_error("All dynamic addresses are occupied");
*cause_value = OGS_PFCP_CAUSE_ALL_DYNAMIC_ADDRESS_ARE_OCCUPIED;
return NULL;
}
ue_ip->subnet = subnet;
ue_ip->static_ip = true;
memcpy(ue_ip->addr, addr, maxbytes);
} else {
ogs_pool_alloc(&subnet->pool, &ue_ip);
if (!ue_ip) {
ogs_error("No resources available");
*cause_value = OGS_PFCP_CAUSE_NO_RESOURCES_AVAILABLE;
return NULL;
}
}
return ue_ip;
}
void ogs_pfcp_ue_ip_free(ogs_pfcp_ue_ip_t *ue_ip)
{
ogs_pfcp_subnet_t *subnet = NULL;
ogs_assert(ue_ip);
subnet = ue_ip->subnet;
ogs_assert(subnet);
if (ue_ip->static_ip) {
ogs_free(ue_ip);
} else {
ogs_pool_free(&subnet->pool, ue_ip);
}
}
ogs_pfcp_dev_t *ogs_pfcp_dev_add(const char *ifname)
{
ogs_pfcp_dev_t *dev = NULL;
ogs_assert(ifname);
ogs_pool_alloc(&ogs_pfcp_dev_pool, &dev);
ogs_assert(dev);
memset(dev, 0, sizeof *dev);
strcpy(dev->ifname, ifname);
ogs_list_add(&self.dev_list, dev);
return dev;
}
void ogs_pfcp_dev_remove(ogs_pfcp_dev_t *dev)
{
ogs_assert(dev);
ogs_list_remove(&self.dev_list, dev);
ogs_pool_free(&ogs_pfcp_dev_pool, dev);
}
void ogs_pfcp_dev_remove_all(void)
{
ogs_pfcp_dev_t *dev = NULL, *next_dev = NULL;
ogs_list_for_each_safe(&self.dev_list, next_dev, dev)
ogs_pfcp_dev_remove(dev);
}
ogs_pfcp_dev_t *ogs_pfcp_dev_find_by_ifname(const char *ifname)
{
ogs_pfcp_dev_t *dev = NULL;
ogs_assert(ifname);
ogs_list_for_each(&ogs_pfcp_self()->dev_list, dev) {
if (ogs_strcasecmp(dev->ifname, ifname) == 0)
return dev;
}
return OGS_OK;
}
ogs_pfcp_subnet_t *ogs_pfcp_subnet_add(
const char *ipstr, const char *mask_or_numbits,
const char *gateway, const char *dnn, const char *ifname)
{
int rv;
ogs_pfcp_dev_t *dev = NULL;
ogs_pfcp_subnet_t *subnet = NULL;
ogs_assert(ifname);
dev = ogs_pfcp_dev_find_by_ifname(ifname);
if (!dev)
dev = ogs_pfcp_dev_add(ifname);
ogs_assert(dev);
ogs_pool_alloc(&ogs_pfcp_subnet_pool, &subnet);
ogs_assert(subnet);
memset(subnet, 0, sizeof *subnet);
subnet->family = AF_UNSPEC;
subnet->dev = dev;
if (ipstr && mask_or_numbits) {
rv = ogs_ipsubnet(&subnet->gw, ipstr, NULL);
ogs_assert(rv == OGS_OK);
rv = ogs_ipsubnet(&subnet->sub, ipstr, mask_or_numbits);
ogs_assert(rv == OGS_OK);
subnet->family = subnet->gw.family;
subnet->prefixlen = atoi(mask_or_numbits);
if (memcmp(subnet->gw.sub, subnet->sub.sub,
sizeof(subnet->gw.sub)) != 0) {
char *subnet_string = NULL;
if (subnet->family == AF_INET) {
subnet_string = ogs_ipv4_to_string(subnet->sub.sub[0]);
ogs_assert(subnet_string);
} else if (subnet->family == AF_INET6) {
subnet_string = ogs_ipv6addr_to_string(
(uint8_t*)&subnet->sub.sub[0]);
ogs_assert(subnet_string);
}
ogs_warn("Please change the configuration files of "
"smf.yaml and upf.yaml as below.");
ogs_log_print(OGS_LOG_WARN, "\n<OLD Format>\n");
ogs_log_print(OGS_LOG_WARN, "smf:\n");
ogs_log_print(OGS_LOG_WARN, " session:\n");
ogs_log_print(OGS_LOG_WARN, " - subnet: %s/%s\n",
ipstr, mask_or_numbits);
ogs_log_print(OGS_LOG_WARN, "\n<NEW Format>\n");
ogs_log_print(OGS_LOG_WARN, "smf:\n");
ogs_log_print(OGS_LOG_WARN, " session:\n");
ogs_log_print(OGS_LOG_WARN, " - subnet: %s/%s\n",
subnet_string ? subnet_string : "Unknown", mask_or_numbits);
ogs_log_print(OGS_LOG_WARN, " gateway: %s\n\n\n", ipstr);
ogs_free(subnet_string);
}
}
if (gateway) {
rv = ogs_ipsubnet(&subnet->gw, gateway, NULL);
ogs_assert(rv == OGS_OK);
}
if (dnn)
strcpy(subnet->dnn, dnn);
ogs_pool_init(&subnet->pool, ogs_app()->pool.sess);
ogs_list_add(&self.subnet_list, subnet);
return subnet;
}
void ogs_pfcp_subnet_remove(ogs_pfcp_subnet_t *subnet)
{
ogs_assert(subnet);
ogs_list_remove(&self.subnet_list, subnet);
ogs_pool_final(&subnet->pool);
ogs_pool_free(&ogs_pfcp_subnet_pool, subnet);
}
void ogs_pfcp_subnet_remove_all(void)
{
ogs_pfcp_subnet_t *subnet = NULL, *next_subnet = NULL;
ogs_list_for_each_safe(&self.subnet_list, next_subnet, subnet)
ogs_pfcp_subnet_remove(subnet);
}
ogs_pfcp_subnet_t *ogs_pfcp_find_subnet(int family)
{
ogs_pfcp_subnet_t *subnet = NULL;
ogs_assert(family == AF_INET || family == AF_INET6);
ogs_list_for_each(&self.subnet_list, subnet) {
if ((subnet->family == AF_UNSPEC || subnet->family == family) &&
(strlen(subnet->dnn) == 0) &&
subnet->pool.avail)
break;
}
return subnet;
}
ogs_pfcp_subnet_t *ogs_pfcp_find_subnet_by_dnn(int family, const char *dnn)
{
ogs_pfcp_subnet_t *subnet = NULL;
ogs_assert(dnn);
ogs_assert(family == AF_INET || family == AF_INET6);
ogs_list_for_each(&self.subnet_list, subnet) {
if ((subnet->family == AF_UNSPEC || subnet->family == family) &&
(strlen(subnet->dnn) == 0 ||
(strlen(subnet->dnn) && ogs_strcasecmp(subnet->dnn, dnn) == 0)) &&
subnet->pool.avail)
break;
}
return subnet;
}
void ogs_pfcp_pool_init(ogs_pfcp_sess_t *sess)
{
ogs_assert(sess);
sess->obj.type = OGS_PFCP_OBJ_SESS_TYPE;
ogs_pool_create(&sess->pdr_id_pool, OGS_MAX_NUM_OF_PDR);
ogs_pool_create(&sess->far_id_pool, OGS_MAX_NUM_OF_FAR);
ogs_pool_create(&sess->urr_id_pool, OGS_MAX_NUM_OF_URR);
ogs_pool_create(&sess->qer_id_pool, OGS_MAX_NUM_OF_QER);
ogs_pool_create(&sess->bar_id_pool, OGS_MAX_NUM_OF_BAR);
ogs_pool_sequence_id_generate(&sess->pdr_id_pool);
ogs_pool_sequence_id_generate(&sess->far_id_pool);
ogs_pool_sequence_id_generate(&sess->urr_id_pool);
ogs_pool_sequence_id_generate(&sess->qer_id_pool);
ogs_pool_sequence_id_generate(&sess->bar_id_pool);
}
void ogs_pfcp_pool_final(ogs_pfcp_sess_t *sess)
{
ogs_assert(sess);
ogs_pool_destroy(&sess->pdr_id_pool);
ogs_pool_destroy(&sess->far_id_pool);
ogs_pool_destroy(&sess->urr_id_pool);
ogs_pool_destroy(&sess->qer_id_pool);
ogs_pool_destroy(&sess->bar_id_pool);
}