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d181ab54ccf9fb829ec491dfc18ab42e4179ae8f
open5gs/lib/pfcp/path.c
Sukchan Lee d181ab54cc [PFCP] Refactor PFCP address handling (#3431) 
- Replace direct usage of OGS_ADDR/OGS_PORT macros with
  ogs_sockaddr_to_string_static() for consistent IPv4/IPv6 logging.
- Remove redundant stack buffer allocations for address printing.
- Update PFCP node address handling to use addr_list and related
  merges, avoiding obsolete sa_list references.
- Use ogs_pfcp_extract_node_id() and related APIs to safely extract
  PFCP Node ID, improving error handling and reducing stack usage.
2025-01-11 20:33:02 +09:00

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/*
* Copyright (C) 2019 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 "ogs-pfcp.h"
ogs_sock_t *ogs_pfcp_server(ogs_socknode_t *node)
{
char buf[OGS_ADDRSTRLEN];
ogs_sock_t *pfcp;
ogs_assert(node);
pfcp = ogs_udp_server(node->addr, node->option);
if (pfcp) {
ogs_info("pfcp_server() [%s]:%d",
OGS_ADDR(node->addr, buf), OGS_PORT(node->addr));
node->sock = pfcp;
}
return pfcp;
}
int ogs_pfcp_sendto(ogs_pfcp_node_t *node, ogs_pkbuf_t *pkbuf)
{
ssize_t sent;
ogs_sock_t *sock = NULL;
ogs_sockaddr_t *addr = NULL;
ogs_assert(node);
ogs_assert(pkbuf);
ogs_assert(node->addr_list);
/* Initialize round-robin iterator if needed */
if (node->current_addr == NULL) {
node->current_addr = node->addr_list;
}
addr = node->current_addr;
ogs_assert(addr);
if (addr->ogs_sa_family == AF_INET) {
sock = ogs_pfcp_self()->pfcp_sock;
if (!sock) {
ogs_error("IPv4 socket (pfcp_sock) is not available. "
"Ensure that 'pfcp.server.address: 127.0.0.1' "
"is set in the YAML configuration file.");
return OGS_ERROR;
}
} else if (addr->ogs_sa_family == AF_INET6) {
sock = ogs_pfcp_self()->pfcp_sock6;
if (!sock) {
ogs_error("IPv6 socket (pfcp_sock) is not available. "
"Ensure that 'pfcp.server.address: [::1]' "
"is set in the YAML configuration file.");
return OGS_ERROR;
}
} else
ogs_assert_if_reached();
sent = ogs_sendto(sock->fd, pkbuf->data, pkbuf->len, 0, addr);
if (sent < 0 || sent != pkbuf->len) {
if (ogs_socket_errno != OGS_EAGAIN) {
char buf[OGS_ADDRSTRLEN];
int err = ogs_socket_errno;
ogs_log_message(OGS_LOG_ERROR, err,
"ogs_sendto(%u, %p, %u, 0, %s:%u) failed",
sock->fd, pkbuf->data, pkbuf->len,
OGS_ADDR(addr, buf), OGS_PORT(addr));
}
return OGS_ERROR;
}
/* Move to next address in round-robin sequence */
if (node->current_addr->next)
node->current_addr = node->current_addr->next;
else
/* If end of list reached, wrap around to the start */
node->current_addr = node->addr_list;
return OGS_OK;
}
int ogs_pfcp_send_heartbeat_request(ogs_pfcp_node_t *node,
void (*cb)(ogs_pfcp_xact_t *xact, void *data))
{
int rv;
ogs_pkbuf_t *pkbuf = NULL;
ogs_pfcp_header_t h;
ogs_pfcp_xact_t *xact = NULL;
ogs_assert(node);
memset(&h, 0, sizeof(ogs_pfcp_header_t));
h.type = OGS_PFCP_HEARTBEAT_REQUEST_TYPE;
h.seid = 0;
xact = ogs_pfcp_xact_local_create(node, cb, node);
if (!xact) {
ogs_error("ogs_pfcp_xact_local_create() failed");
return OGS_ERROR;
}
pkbuf = ogs_pfcp_build_heartbeat_request(h.type);
if (!pkbuf) {
ogs_error("ogs_pfcp_build_heartbeat_request() failed");
return OGS_ERROR;
}
rv = ogs_pfcp_xact_update_tx(xact, &h, pkbuf);
if (rv != OGS_OK) {
ogs_error("ogs_pfcp_xact_update_tx() failed");
return OGS_ERROR;
}
rv = ogs_pfcp_xact_commit(xact);
ogs_expect(rv == OGS_OK);
return rv;
}
int ogs_pfcp_send_heartbeat_response(ogs_pfcp_xact_t *xact)
{
int rv;
ogs_pkbuf_t *pkbuf = NULL;
ogs_pfcp_header_t h;
ogs_assert(xact);
memset(&h, 0, sizeof(ogs_pfcp_header_t));
h.type = OGS_PFCP_HEARTBEAT_RESPONSE_TYPE;
h.seid = 0;
pkbuf = ogs_pfcp_build_heartbeat_response(h.type);
if (!pkbuf) {
ogs_error("ogs_pfcp_build_heartbeat_response() failed");
return OGS_ERROR;
}
rv = ogs_pfcp_xact_update_tx(xact, &h, pkbuf);
if (rv != OGS_OK) {
ogs_error("ogs_pfcp_xact_update_tx() failed");
return OGS_ERROR;
}
rv = ogs_pfcp_xact_commit(xact);
ogs_expect(rv == OGS_OK);
/*
* Force delete the PFCP transaction to check the PFCP recovery timestamp.
*
* Otherwise, duplicated request (lib/pfcp/xact.c:384) prevents the message
* from being passed to the state machine, so the PFCP recovery timestamp
* cannot be delivered in the handler routine.
*/
ogs_pfcp_xact_delete(xact);
return rv;
}
int ogs_pfcp_cp_send_association_setup_request(ogs_pfcp_node_t *node,
void (*cb)(ogs_pfcp_xact_t *xact, void *data))
{
int rv;
ogs_pkbuf_t *pkbuf = NULL;
ogs_pfcp_header_t h;
ogs_pfcp_xact_t *xact = NULL;
ogs_assert(node);
memset(&h, 0, sizeof(ogs_pfcp_header_t));
h.type = OGS_PFCP_ASSOCIATION_SETUP_REQUEST_TYPE;
h.seid = 0;
xact = ogs_pfcp_xact_local_create(node, cb, node);
if (!xact) {
ogs_error("ogs_pfcp_xact_local_create() failed");
return OGS_ERROR;
}
pkbuf = ogs_pfcp_cp_build_association_setup_request(h.type);
if (!pkbuf) {
ogs_error("ogs_pfcp_cp_build_association_setup_request() failed");
return OGS_ERROR;
}
rv = ogs_pfcp_xact_update_tx(xact, &h, pkbuf);
if (rv != OGS_OK) {
ogs_error("ogs_pfcp_xact_update_tx() failed");
return OGS_ERROR;
}
rv = ogs_pfcp_xact_commit(xact);
ogs_expect(rv == OGS_OK);
return rv;
}
int ogs_pfcp_cp_send_association_setup_response(ogs_pfcp_xact_t *xact,
uint8_t cause)
{
int rv;
ogs_pkbuf_t *pkbuf = NULL;
ogs_pfcp_header_t h;
ogs_assert(xact);
memset(&h, 0, sizeof(ogs_pfcp_header_t));
h.type = OGS_PFCP_ASSOCIATION_SETUP_RESPONSE_TYPE;
h.seid = 0;
pkbuf = ogs_pfcp_cp_build_association_setup_response(h.type, cause);
if (!pkbuf) {
ogs_error("ogs_pfcp_cp_build_association_setup_response() failed");
return OGS_ERROR;
}
rv = ogs_pfcp_xact_update_tx(xact, &h, pkbuf);
if (rv != OGS_OK) {
ogs_error("ogs_pfcp_xact_update_tx() failed");
return OGS_ERROR;
}
rv = ogs_pfcp_xact_commit(xact);
ogs_expect(rv == OGS_OK);
return rv;
}
int ogs_pfcp_up_send_association_setup_request(ogs_pfcp_node_t *node,
void (*cb)(ogs_pfcp_xact_t *xact, void *data))
{
int rv;
ogs_pkbuf_t *pkbuf = NULL;
ogs_pfcp_header_t h;
ogs_pfcp_xact_t *xact = NULL;
ogs_assert(node);
memset(&h, 0, sizeof(ogs_pfcp_header_t));
h.type = OGS_PFCP_ASSOCIATION_SETUP_REQUEST_TYPE;
h.seid = 0;
xact = ogs_pfcp_xact_local_create(node, cb, node);
if (!xact) {
ogs_error("ogs_pfcp_xact_local_create() failed");
return OGS_ERROR;
}
pkbuf = ogs_pfcp_up_build_association_setup_request(h.type);
if (!pkbuf) {
ogs_error("ogs_pfcp_build_heartbeat_request() failed");
return OGS_ERROR;
}
rv = ogs_pfcp_xact_update_tx(xact, &h, pkbuf);
if (rv != OGS_OK) {
ogs_error("ogs_pfcp_xact_update_tx() failed");
return OGS_ERROR;
}
rv = ogs_pfcp_xact_commit(xact);
ogs_expect(rv == OGS_OK);
return rv;
}
int ogs_pfcp_up_send_association_setup_response(ogs_pfcp_xact_t *xact,
uint8_t cause)
{
int rv;
ogs_pkbuf_t *pkbuf = NULL;
ogs_pfcp_header_t h;
ogs_assert(xact);
memset(&h, 0, sizeof(ogs_pfcp_header_t));
h.type = OGS_PFCP_ASSOCIATION_SETUP_RESPONSE_TYPE;
h.seid = 0;
pkbuf = ogs_pfcp_up_build_association_setup_response(h.type, cause);
if (!pkbuf) {
ogs_error("ogs_pfcp_up_build_association_setup_response() failed");
return OGS_ERROR;
}
rv = ogs_pfcp_xact_update_tx(xact, &h, pkbuf);
if (rv != OGS_OK) {
ogs_error("ogs_pfcp_xact_update_tx() failed");
return OGS_ERROR;
}
rv = ogs_pfcp_xact_commit(xact);
ogs_expect(rv == OGS_OK);
return rv;
}
void ogs_pfcp_send_g_pdu(
ogs_pfcp_pdr_t *pdr,
ogs_gtp2_header_desc_t *sendhdr, ogs_pkbuf_t *sendbuf)
{
ogs_gtp_node_t *gnode = NULL;
ogs_pfcp_far_t *far = NULL;
ogs_gtp2_header_desc_t header_desc;
ogs_assert(pdr);
ogs_assert(sendhdr);
ogs_assert(sendbuf);
far = pdr->far;
if (!far) {
ogs_error("No FAR");
ogs_pkbuf_free(sendbuf);
return;
}
if (far->dst_if == OGS_PFCP_INTERFACE_UNKNOWN) {
ogs_error("No Destination Interface");
ogs_pkbuf_free(sendbuf);
return;
}
gnode = far->gnode;
ogs_assert(gnode);
ogs_assert(gnode->sock);
memset(&header_desc, 0, sizeof(header_desc));
header_desc.type = sendhdr->type;
header_desc.teid = far->outer_header_creation.teid;
if (pdr->qer && pdr->qer->qfi) {
header_desc.pdu_type =
OGS_GTP2_EXTENSION_HEADER_PDU_TYPE_DL_PDU_SESSION_INFORMATION;
header_desc.qos_flow_identifier = pdr->qer->qfi;
}
if (sendhdr->udp.presence == true) {
header_desc.udp.presence = sendhdr->udp.presence;
header_desc.udp.port = sendhdr->udp.port;
}
if (sendhdr->pdcp_number_presence == true) {
header_desc.pdcp_number_presence = sendhdr->pdcp_number_presence;
header_desc.pdcp_number = sendhdr->pdcp_number;
}
ogs_gtp2_send_user_plane(gnode, &header_desc, sendbuf);
}
int ogs_pfcp_send_end_marker(ogs_pfcp_pdr_t *pdr)
{
ogs_gtp_node_t *gnode = NULL;
ogs_pfcp_far_t *far = NULL;
ogs_pkbuf_t *sendbuf = NULL;
ogs_gtp2_header_desc_t header_desc;
ogs_assert(pdr);
far = pdr->far;
ogs_assert(far);
gnode = far->gnode;
if (!gnode) {
ogs_error("No GTP Node Setup");
return OGS_DONE;
}
if (!gnode->sock) {
ogs_error("No GTP Socket Setup");
return OGS_DONE;
}
sendbuf = ogs_pkbuf_alloc(NULL, OGS_GTPV1U_5GC_HEADER_LEN);
if (!sendbuf) {
ogs_error("ogs_pkbuf_alloc() failed");
return OGS_ERROR;
}
ogs_pkbuf_reserve(sendbuf, OGS_GTPV1U_5GC_HEADER_LEN);
memset(&header_desc, 0, sizeof(header_desc));
header_desc.type = OGS_GTPU_MSGTYPE_END_MARKER;
header_desc.teid = far->outer_header_creation.teid;
if (pdr->qer && pdr->qer->qfi) {
header_desc.pdu_type =
OGS_GTP2_EXTENSION_HEADER_PDU_TYPE_DL_PDU_SESSION_INFORMATION;
header_desc.qos_flow_identifier = pdr->qer->qfi;
}
ogs_gtp2_send_user_plane(gnode, &header_desc, sendbuf);
return OGS_OK;
}
void ogs_pfcp_send_buffered_packet(ogs_pfcp_pdr_t *pdr)
{
ogs_pfcp_far_t *far = NULL;
int i;
ogs_assert(pdr);
far = pdr->far;
if (far && far->gnode) {
if (far->apply_action & OGS_PFCP_APPLY_ACTION_FORW) {
for (i = 0; i < far->num_of_buffered_packet; i++) {
ogs_gtp2_header_desc_t sendhdr;
memset(&sendhdr, 0, sizeof(sendhdr));
sendhdr.type = OGS_GTPU_MSGTYPE_GPDU;
ogs_pfcp_send_g_pdu(
pdr, &sendhdr, far->buffered_packet[i]);
}
far->num_of_buffered_packet = 0;
}
}
}
void ogs_pfcp_send_error_message(
ogs_pfcp_xact_t *xact, uint64_t seid, uint8_t type,
uint8_t cause_value, uint16_t offending_ie_value)
{
int rv;
ogs_pfcp_message_t errmsg;
ogs_pfcp_tlv_cause_t *cause = NULL;
ogs_pfcp_tlv_offending_ie_t *offending_ie = NULL;
ogs_pkbuf_t *pkbuf = NULL;
ogs_assert(xact);
memset(&errmsg, 0, sizeof(ogs_pfcp_message_t));
errmsg.h.seid = seid;
errmsg.h.type = type;
switch (type) {
case OGS_PFCP_PFD_MANAGEMENT_RESPONSE_TYPE:
cause = &errmsg.pfcp_pfd_management_response.cause;
offending_ie = &errmsg.pfcp_pfd_management_response.offending_ie;
break;
case OGS_PFCP_ASSOCIATION_SETUP_RESPONSE_TYPE:
cause = &errmsg.pfcp_association_setup_response.cause;
break;
case OGS_PFCP_ASSOCIATION_UPDATE_RESPONSE_TYPE:
cause = &errmsg.pfcp_association_update_response.cause;
break;
case OGS_PFCP_ASSOCIATION_RELEASE_RESPONSE_TYPE:
cause = &errmsg.pfcp_association_release_response.cause;
break;
case OGS_PFCP_NODE_REPORT_RESPONSE_TYPE:
cause = &errmsg.pfcp_node_report_response.cause;
offending_ie = &errmsg.pfcp_node_report_response.offending_ie;
break;
case OGS_PFCP_SESSION_SET_DELETION_RESPONSE_TYPE:
cause = &errmsg.pfcp_session_set_deletion_response.cause;
offending_ie = &errmsg.pfcp_session_set_deletion_response.offending_ie;
break;
case OGS_PFCP_SESSION_ESTABLISHMENT_RESPONSE_TYPE:
cause = &errmsg.pfcp_session_establishment_response.cause;
offending_ie = &errmsg.pfcp_session_establishment_response.offending_ie;
break;
case OGS_PFCP_SESSION_MODIFICATION_RESPONSE_TYPE:
cause = &errmsg.pfcp_session_modification_response.cause;
offending_ie = &errmsg.pfcp_session_modification_response.offending_ie;
break;
case OGS_PFCP_SESSION_DELETION_RESPONSE_TYPE:
cause = &errmsg.pfcp_session_deletion_response.cause;
offending_ie = &errmsg.pfcp_session_deletion_response.offending_ie;
break;
case OGS_PFCP_SESSION_REPORT_RESPONSE_TYPE:
cause = &errmsg.pfcp_session_report_response.cause;
offending_ie = &errmsg.pfcp_session_report_response.offending_ie;
break;
default:
ogs_assert_if_reached();
return;
}
ogs_assert(cause);
cause->presence = 1;
cause->u8 = cause_value;
if (offending_ie && offending_ie_value) {
offending_ie->presence = 1;
offending_ie->u16 = offending_ie_value;
}
pkbuf = ogs_pfcp_build_msg(&errmsg);
if (!pkbuf) {
ogs_error("ogs_pfcp_build_msg() failed");
return;
}
rv = ogs_pfcp_xact_update_tx(xact, &errmsg.h, pkbuf);
if (rv != OGS_OK) {
ogs_error("ogs_pfcp_xact_update_tx() failed");
return;
}
rv = ogs_pfcp_xact_commit(xact);
ogs_expect(rv == OGS_OK);
}
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