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open5gs/lib/pfcp/xact.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"
#include "ogs-app.h"
#define PFCP_MIN_XACT_ID 1
#define PFCP_MAX_XACT_ID 0x800000
typedef enum {
PFCP_XACT_UNKNOWN_STAGE,
PFCP_XACT_INITIAL_STAGE,
PFCP_XACT_INTERMEDIATE_STAGE,
PFCP_XACT_FINAL_STAGE,
} ogs_pfcp_xact_stage_t;
static int ogs_pfcp_xact_initialized = 0;
static uint32_t g_xact_id = 0;
static OGS_POOL(pool, ogs_pfcp_xact_t);
static ogs_pfcp_xact_t *ogs_pfcp_xact_remote_create(
ogs_pfcp_node_t *node, uint32_t sqn);
static ogs_pfcp_xact_stage_t ogs_pfcp_xact_get_stage(
uint8_t type, uint32_t xid);
static int ogs_pfcp_xact_update_rx(ogs_pfcp_xact_t *xact, uint8_t type);
static void response_timeout(void *data);
static void holding_timeout(void *data);
static void delayed_commit_timeout(void *data);
int ogs_pfcp_xact_init(void)
{
ogs_assert(ogs_pfcp_xact_initialized == 0);
ogs_pool_init(&pool, ogs_app()->pool.xact);
g_xact_id = 0;
ogs_pfcp_xact_initialized = 1;
return OGS_OK;
}
void ogs_pfcp_xact_final(void)
{
ogs_assert(ogs_pfcp_xact_initialized == 1);
ogs_pool_final(&pool);
ogs_pfcp_xact_initialized = 0;
}
ogs_pfcp_xact_t *ogs_pfcp_xact_local_create(ogs_pfcp_node_t *node,
void (*cb)(ogs_pfcp_xact_t *xact, void *data), void *data)
{
ogs_pfcp_xact_t *xact = NULL;
ogs_assert(node);
ogs_pool_id_calloc(&pool, &xact);
ogs_assert(xact);
xact->index = ogs_pool_index(&pool, xact);
xact->org = OGS_PFCP_LOCAL_ORIGINATOR;
xact->xid = OGS_NEXT_ID(g_xact_id, PFCP_MIN_XACT_ID, PFCP_MAX_XACT_ID);
xact->node = node;
xact->cb = cb;
xact->data = data;
xact->tm_response = ogs_timer_add(
ogs_app()->timer_mgr, response_timeout,
OGS_UINT_TO_POINTER(xact->id));
ogs_assert(xact->tm_response);
xact->response_rcount =
ogs_local_conf()->time.message.pfcp.n1_response_rcount;
xact->tm_holding = ogs_timer_add(
ogs_app()->timer_mgr, holding_timeout,
OGS_UINT_TO_POINTER(xact->id));
ogs_assert(xact->tm_holding);
xact->holding_rcount =
ogs_local_conf()->time.message.pfcp.n1_holding_rcount;
xact->tm_delayed_commit = ogs_timer_add(
ogs_app()->timer_mgr, delayed_commit_timeout,
OGS_UINT_TO_POINTER(xact->id));
ogs_assert(xact->tm_delayed_commit);
ogs_list_add(xact->org == OGS_PFCP_LOCAL_ORIGINATOR ?
&xact->node->local_list : &xact->node->remote_list, xact);
ogs_list_init(&xact->pdr_to_create_list);
ogs_debug("[%d] %s Create peer %s",
xact->xid,
xact->org == OGS_PFCP_LOCAL_ORIGINATOR ? "LOCAL " : "REMOTE",
ogs_sockaddr_to_string_static(node->addr_list));
return xact;
}
static ogs_pfcp_xact_t *ogs_pfcp_xact_remote_create(
ogs_pfcp_node_t *node, uint32_t sqn)
{
ogs_pfcp_xact_t *xact = NULL;
ogs_assert(node);
ogs_pool_id_calloc(&pool, &xact);
ogs_assert(xact);
xact->index = ogs_pool_index(&pool, xact);
xact->org = OGS_PFCP_REMOTE_ORIGINATOR;
xact->xid = OGS_PFCP_SQN_TO_XID(sqn);
xact->node = node;
xact->tm_response = ogs_timer_add(
ogs_app()->timer_mgr, response_timeout,
OGS_UINT_TO_POINTER(xact->id));
ogs_assert(xact->tm_response);
xact->response_rcount =
ogs_local_conf()->time.message.pfcp.n1_response_rcount;
xact->tm_holding = ogs_timer_add(
ogs_app()->timer_mgr, holding_timeout,
OGS_UINT_TO_POINTER(xact->id));
ogs_assert(xact->tm_holding);
xact->holding_rcount =
ogs_local_conf()->time.message.pfcp.n1_holding_rcount;
xact->tm_delayed_commit = ogs_timer_add(
ogs_app()->timer_mgr, delayed_commit_timeout,
OGS_UINT_TO_POINTER(xact->id));
ogs_assert(xact->tm_delayed_commit);
ogs_list_add(xact->org == OGS_PFCP_LOCAL_ORIGINATOR ?
&xact->node->local_list : &xact->node->remote_list, xact);
ogs_debug("[%d] %s Create peer %s",
xact->xid,
xact->org == OGS_PFCP_LOCAL_ORIGINATOR ? "LOCAL " : "REMOTE",
ogs_sockaddr_to_string_static(node->addr_list));
return xact;
}
void ogs_pfcp_xact_delete_all(ogs_pfcp_node_t *node)
{
ogs_pfcp_xact_t *xact = NULL, *next_xact = NULL;
ogs_list_for_each_safe(&node->local_list, next_xact, xact)
ogs_pfcp_xact_delete(xact);
ogs_list_for_each_safe(&node->remote_list, next_xact, xact)
ogs_pfcp_xact_delete(xact);
}
ogs_pfcp_xact_t *ogs_pfcp_xact_find_by_id(ogs_pool_id_t id)
{
return ogs_pool_find_by_id(&pool, id);
}
int ogs_pfcp_xact_update_tx(ogs_pfcp_xact_t *xact,
ogs_pfcp_header_t *hdesc, ogs_pkbuf_t *pkbuf)
{
ogs_pfcp_xact_stage_t stage;
ogs_pfcp_header_t *h = NULL;
int pfcp_hlen = 0;
ogs_assert(xact);
ogs_assert(xact->node);
ogs_assert(hdesc);
ogs_assert(pkbuf);
ogs_debug("[%d] %s UPD TX-%d peer %s",
xact->xid,
xact->org == OGS_PFCP_LOCAL_ORIGINATOR ? "LOCAL " : "REMOTE",
hdesc->type,
ogs_sockaddr_to_string_static(xact->node->addr_list));
stage = ogs_pfcp_xact_get_stage(hdesc->type, xact->xid);
if (xact->org == OGS_PFCP_LOCAL_ORIGINATOR) {
switch (stage) {
case PFCP_XACT_INITIAL_STAGE:
if (xact->step != 0) {
ogs_error("invalid step[%d] type[%d]", xact->step, hdesc->type);
ogs_pkbuf_free(pkbuf);
return OGS_ERROR;
}
break;
case PFCP_XACT_INTERMEDIATE_STAGE:
ogs_expect(0);
ogs_pkbuf_free(pkbuf);
return OGS_ERROR;
case PFCP_XACT_FINAL_STAGE:
if (xact->step != 2) {
ogs_error("invalid step[%d] type[%d]", xact->step, hdesc->type);
ogs_pkbuf_free(pkbuf);
return OGS_ERROR;
}
break;
default:
ogs_assert_if_reached();
break;
}
} else if (xact->org == OGS_PFCP_REMOTE_ORIGINATOR) {
switch (stage) {
case PFCP_XACT_INITIAL_STAGE:
ogs_expect(0);
ogs_pkbuf_free(pkbuf);
return OGS_ERROR;
case PFCP_XACT_INTERMEDIATE_STAGE:
case PFCP_XACT_FINAL_STAGE:
if (xact->step != 1) {
ogs_error("invalid step[%d] type[%d]", xact->step, hdesc->type);
ogs_pkbuf_free(pkbuf);
return OGS_ERROR;
}
break;
default:
ogs_error("invalid stage[%d] type[%d]", stage, hdesc->type);
ogs_pkbuf_free(pkbuf);
return OGS_ERROR;
}
} else {
ogs_error("invalid org[%d] type[%d]", xact->org, hdesc->type);
ogs_pkbuf_free(pkbuf);
return OGS_ERROR;
}
if (hdesc->type >= OGS_PFCP_SESSION_ESTABLISHMENT_REQUEST_TYPE) {
pfcp_hlen = OGS_PFCP_HEADER_LEN;
} else {
pfcp_hlen = OGS_PFCP_HEADER_LEN - OGS_PFCP_SEID_LEN;
}
ogs_pkbuf_push(pkbuf, pfcp_hlen);
h = (ogs_pfcp_header_t *)pkbuf->data;
memset(h, 0, pfcp_hlen);
h->version = OGS_PFCP_VERSION;
h->type = hdesc->type;
if (h->type >= OGS_PFCP_SESSION_ESTABLISHMENT_REQUEST_TYPE) {
h->seid_presence = 1;
h->seid = htobe64(hdesc->seid);
h->sqn = OGS_PFCP_XID_TO_SQN(xact->xid);
} else {
h->seid_presence = 0;
h->sqn_only = OGS_PFCP_XID_TO_SQN(xact->xid);
}
h->length = htobe16(pkbuf->len - 4);
/* Save Message type and packet of this step */
xact->seq[xact->step].type = h->type;
xact->seq[xact->step].pkbuf = pkbuf;
/* Step */
xact->step++;
return OGS_OK;
}
static int ogs_pfcp_xact_update_rx(ogs_pfcp_xact_t *xact, uint8_t type)
{
ogs_pfcp_xact_stage_t stage;
ogs_debug("[%d] %s UPD RX-%d peer %s",
xact->xid,
xact->org == OGS_PFCP_LOCAL_ORIGINATOR ? "LOCAL " : "REMOTE",
type,
ogs_sockaddr_to_string_static(xact->node->addr_list));
stage = ogs_pfcp_xact_get_stage(type, xact->xid);
if (xact->org == OGS_PFCP_LOCAL_ORIGINATOR) {
switch (stage) {
case PFCP_XACT_INITIAL_STAGE:
ogs_expect(0);
return OGS_ERROR;
case PFCP_XACT_INTERMEDIATE_STAGE:
if (xact->seq[1].type == type) {
ogs_pkbuf_t *pkbuf = NULL;
if (xact->step != 2 && xact->step != 3) {
ogs_error("invalid step[%d] type[%d]", xact->step, type);
ogs_pkbuf_free(pkbuf);
return OGS_ERROR;
}
pkbuf = xact->seq[2].pkbuf;
if (pkbuf) {
if (xact->tm_holding)
ogs_timer_start(xact->tm_holding,
ogs_local_conf()->time.message.
pfcp.t1_holding_duration);
ogs_warn("[%d] %s Request Duplicated. Retransmit!"
" for step %d type %d peer %s",
xact->xid,
xact->org == OGS_PFCP_LOCAL_ORIGINATOR ?
"LOCAL " : "REMOTE",
xact->step, type,
ogs_sockaddr_to_string_static(
xact->node->addr_list));
ogs_expect(OGS_OK == ogs_pfcp_sendto(xact->node, pkbuf));
} else {
ogs_warn("[%d] %s Request Duplicated. Discard!"
" for step %d type %d peer %s",
xact->xid,
xact->org == OGS_PFCP_LOCAL_ORIGINATOR ?
"LOCAL " : "REMOTE",
xact->step, type,
ogs_sockaddr_to_string_static(
xact->node->addr_list));
}
return OGS_RETRY;
}
if (xact->step != 1) {
ogs_error("invalid step[%d] type[%d]", xact->step, type);
return OGS_ERROR;
}
if (xact->tm_holding)
ogs_timer_start(xact->tm_holding,
ogs_local_conf()->time.message.pfcp.
t1_holding_duration);
break;
case PFCP_XACT_FINAL_STAGE:
if (xact->step != 1) {
ogs_error("invalid step[%d] type[%d]", xact->step, type);
return OGS_ERROR;
}
break;
default:
ogs_error("invalid stage[%d]", stage);
return OGS_ERROR;
}
} else if (xact->org == OGS_PFCP_REMOTE_ORIGINATOR) {
switch (stage) {
case PFCP_XACT_INITIAL_STAGE:
if (xact->seq[0].type == type) {
ogs_pkbuf_t *pkbuf = NULL;
if (xact->step != 1 && xact->step != 2) {
ogs_error("invalid step[%d] type[%d]", xact->step, type);
return OGS_ERROR;
}
pkbuf = xact->seq[1].pkbuf;
if (pkbuf) {
if (xact->tm_holding)
ogs_timer_start(xact->tm_holding,
ogs_local_conf()->time.message.
pfcp.t1_holding_duration);
ogs_warn("[%d] %s Request Duplicated. Retransmit!"
" for step %d type %d peer %s",
xact->xid,
xact->org == OGS_PFCP_LOCAL_ORIGINATOR ?
"LOCAL " : "REMOTE",
xact->step, type,
ogs_sockaddr_to_string_static(
xact->node->addr_list));
ogs_expect(OGS_OK == ogs_pfcp_sendto(xact->node, pkbuf));
} else {
ogs_warn("[%d] %s Request Duplicated. Discard!"
" for step %d type %d peer %s",
xact->xid,
xact->org == OGS_PFCP_LOCAL_ORIGINATOR ?
"LOCAL " : "REMOTE",
xact->step, type,
ogs_sockaddr_to_string_static(
xact->node->addr_list));
}
return OGS_RETRY;
}
if (xact->step != 0) {
ogs_error("invalid step[%d] type[%d]", xact->step, type);
return OGS_ERROR;
}
if (xact->tm_holding)
ogs_timer_start(xact->tm_holding,
ogs_local_conf()->time.message.pfcp.
t1_holding_duration);
break;
case PFCP_XACT_INTERMEDIATE_STAGE:
ogs_expect(0);
return OGS_ERROR;
case PFCP_XACT_FINAL_STAGE:
if (xact->step != 2) {
ogs_error("invalid step[%d] type[%d]", xact->step, type);
return OGS_ERROR;
}
/* continue */
break;
default:
ogs_error("invalid stage[%d]", stage);
return OGS_ERROR;
}
} else {
ogs_error("invalid org[%d]", xact->org);
return OGS_ERROR;
}
if (xact->tm_response)
ogs_timer_stop(xact->tm_response);
/* Save Message type of this step */
xact->seq[xact->step].type = type;
/* Step */
xact->step++;
return OGS_OK;
}
int ogs_pfcp_xact_commit(ogs_pfcp_xact_t *xact)
{
uint8_t type;
ogs_pkbuf_t *pkbuf = NULL;
ogs_pfcp_xact_stage_t stage;
ogs_assert(xact);
ogs_assert(xact->node);
ogs_debug("[%d] %s Commit peer %s",
xact->xid,
xact->org == OGS_PFCP_LOCAL_ORIGINATOR ? "LOCAL " : "REMOTE",
ogs_sockaddr_to_string_static(xact->node->addr_list));
type = xact->seq[xact->step-1].type;
stage = ogs_pfcp_xact_get_stage(type, xact->xid);
if (xact->org == OGS_PFCP_LOCAL_ORIGINATOR) {
switch (stage) {
case PFCP_XACT_INITIAL_STAGE:
if (xact->step != 1) {
ogs_error("invalid step[%d] type[%d]", xact->step, type);
ogs_pfcp_xact_delete(xact);
return OGS_ERROR;
}
if (xact->tm_response)
ogs_timer_start(xact->tm_response,
ogs_local_conf()->time.message.pfcp.t1_response_duration);
break;
case PFCP_XACT_INTERMEDIATE_STAGE:
ogs_expect(0);
ogs_pfcp_xact_delete(xact);
return OGS_ERROR;
case PFCP_XACT_FINAL_STAGE:
if (xact->step != 2 && xact->step != 3) {
ogs_error("invalid step[%d] type[%d]", xact->step, type);
ogs_pfcp_xact_delete(xact);
return OGS_ERROR;
}
if (xact->step == 2) {
ogs_pfcp_xact_delete(xact);
return OGS_OK;
}
break;
default:
ogs_error("invalid stage[%d] type[%d]", stage, type);
ogs_pfcp_xact_delete(xact);
return OGS_ERROR;
}
} else if (xact->org == OGS_PFCP_REMOTE_ORIGINATOR) {
switch (stage) {
case PFCP_XACT_INITIAL_STAGE:
ogs_expect(0);
ogs_pfcp_xact_delete(xact);
return OGS_ERROR;
case PFCP_XACT_INTERMEDIATE_STAGE:
if (xact->step != 2) {
ogs_error("invalid step[%d] type[%d]", xact->step, type);
ogs_pfcp_xact_delete(xact);
return OGS_ERROR;
}
if (xact->tm_response)
ogs_timer_start(xact->tm_response,
ogs_local_conf()->time.message.pfcp.
t1_response_duration);
break;
case PFCP_XACT_FINAL_STAGE:
if (xact->step != 2 && xact->step != 3) {
ogs_error("invalid step[%d] type[%d]", xact->step, type);
ogs_pfcp_xact_delete(xact);
return OGS_ERROR;
}
if (xact->step == 3) {
ogs_pfcp_xact_delete(xact);
return OGS_OK;
}
break;
default:
ogs_error("invalid stage[%d] type[%d]", stage, type);
ogs_pfcp_xact_delete(xact);
return OGS_ERROR;
}
} else {
ogs_error("invalid org[%d] type[%d]", xact->org, type);
ogs_pfcp_xact_delete(xact);
return OGS_ERROR;
}
pkbuf = xact->seq[xact->step-1].pkbuf;
ogs_assert(pkbuf);
ogs_expect(OGS_OK == ogs_pfcp_sendto(xact->node, pkbuf));
return OGS_OK;
}
void ogs_pfcp_xact_delayed_commit(ogs_pfcp_xact_t *xact, ogs_time_t duration)
{
ogs_assert(xact);
ogs_assert(duration);
ogs_assert(xact->tm_delayed_commit);
ogs_timer_start(xact->tm_delayed_commit, duration);
}
static void response_timeout(void *data)
{
ogs_pool_id_t xact_id = OGS_INVALID_POOL_ID;
ogs_pfcp_xact_t *xact = NULL;
ogs_assert(data);
xact_id = OGS_POINTER_TO_UINT(data);
ogs_assert(xact_id >= OGS_MIN_POOL_ID && xact_id <= OGS_MAX_POOL_ID);
xact = ogs_pfcp_xact_find_by_id(xact_id);
if (!xact) {
ogs_error("PFCP Transaction has already been removed [%d]", xact_id);
return;;
}
ogs_assert(xact->node);
ogs_debug("[%d] %s Response Timeout "
"for step %d type %d peer %s",
xact->xid,
xact->org == OGS_PFCP_LOCAL_ORIGINATOR ? "LOCAL " : "REMOTE",
xact->step, xact->seq[xact->step-1].type,
ogs_sockaddr_to_string_static(xact->node->addr_list));
if (--xact->response_rcount > 0) {
ogs_pkbuf_t *pkbuf = NULL;
if (xact->tm_response)
ogs_timer_start(xact->tm_response,
ogs_local_conf()->time.message.pfcp.t1_response_duration);
pkbuf = xact->seq[xact->step-1].pkbuf;
ogs_assert(pkbuf);
ogs_expect(OGS_OK == ogs_pfcp_sendto(xact->node, pkbuf));
} else {
ogs_warn("[%d] %s No Reponse. Give up! "
"for step %d type %d peer %s",
xact->xid,
xact->org == OGS_PFCP_LOCAL_ORIGINATOR ? "LOCAL " : "REMOTE",
xact->step, xact->seq[xact->step-1].type,
ogs_sockaddr_to_string_static(xact->node->addr_list));
if (xact->cb)
xact->cb(xact, xact->data);
ogs_pfcp_xact_delete(xact);
}
}
static void holding_timeout(void *data)
{
ogs_pool_id_t xact_id = OGS_INVALID_POOL_ID;
ogs_pfcp_xact_t *xact = NULL;
ogs_assert(data);
xact_id = OGS_POINTER_TO_UINT(data);
ogs_assert(xact_id >= OGS_MIN_POOL_ID && xact_id <= OGS_MAX_POOL_ID);
xact = ogs_pfcp_xact_find_by_id(xact_id);
if (!xact) {
ogs_error("PFCP Transaction has already been removed [%d]", xact_id);
return;;
}
ogs_assert(xact->node);
ogs_debug("[%d] %s Holding Timeout "
"for step %d type %d peer %s",
xact->xid,
xact->org == OGS_PFCP_LOCAL_ORIGINATOR ? "LOCAL " : "REMOTE",
xact->step, xact->seq[xact->step-1].type,
ogs_sockaddr_to_string_static(xact->node->addr_list));
if (--xact->holding_rcount > 0) {
if (xact->tm_holding)
ogs_timer_start(xact->tm_holding,
ogs_local_conf()->time.message.pfcp.t1_holding_duration);
} else {
ogs_debug("[%d] %s Delete Transaction "
"for step %d type %d peer %s",
xact->xid,
xact->org == OGS_PFCP_LOCAL_ORIGINATOR ? "LOCAL " : "REMOTE",
xact->step, xact->seq[xact->step-1].type,
ogs_sockaddr_to_string_static(xact->node->addr_list));
ogs_pfcp_xact_delete(xact);
}
}
static void delayed_commit_timeout(void *data)
{
ogs_pool_id_t xact_id = OGS_INVALID_POOL_ID;
ogs_pfcp_xact_t *xact = NULL;
ogs_assert(data);
xact_id = OGS_POINTER_TO_UINT(data);
ogs_assert(xact_id >= OGS_MIN_POOL_ID && xact_id <= OGS_MAX_POOL_ID);
xact = ogs_pfcp_xact_find_by_id(xact_id);
if (!xact) {
ogs_error("PFCP Transaction has already been removed [%d]", xact_id);
return;;
}
ogs_assert(xact->node);
ogs_debug("[%d] %s Delayed Send Timeout "
"for step %d type %d peer %s",
xact->xid,
xact->org == OGS_PFCP_LOCAL_ORIGINATOR ? "LOCAL " : "REMOTE",
xact->step, xact->seq[xact->step-1].type,
ogs_sockaddr_to_string_static(xact->node->addr_list));
ogs_pfcp_xact_commit(xact);
}
int ogs_pfcp_xact_receive(
ogs_pfcp_node_t *node, ogs_pfcp_header_t *h, ogs_pfcp_xact_t **xact)
{
int rv;
uint8_t type;
uint32_t sqn, xid;
ogs_pfcp_xact_stage_t stage;
ogs_list_t *list = NULL;
ogs_pfcp_xact_t *new = NULL;
ogs_assert(node);
ogs_assert(h);
type = h->type;
sqn = h->sqn;
xid = OGS_PFCP_SQN_TO_XID(sqn);
stage = ogs_pfcp_xact_get_stage(type, xid);
switch (stage) {
case PFCP_XACT_INITIAL_STAGE:
list = &node->remote_list;
break;
case PFCP_XACT_INTERMEDIATE_STAGE:
list = &node->local_list;
break;
case PFCP_XACT_FINAL_STAGE:
list = &node->local_list;
break;
default:
ogs_error("[%d] Unexpected type %u from PFCP peer %s",
xid, type, ogs_sockaddr_to_string_static(node->addr_list));
return OGS_ERROR;
}
ogs_assert(list);
ogs_list_for_each(list, new) {
if (new->xid == xid) {
ogs_debug("[%d] %s Find peer %s",
new->xid,
new->org == OGS_PFCP_LOCAL_ORIGINATOR ? "LOCAL " : "REMOTE",
ogs_sockaddr_to_string_static(node->addr_list));
break;
}
}
if (!new) {
ogs_debug("[%d] Cannot find new type %u from PFCP peer %s",
xid, type, ogs_sockaddr_to_string_static(node->addr_list));
new = ogs_pfcp_xact_remote_create(node, sqn);
}
ogs_assert(new);
ogs_debug("[%d] %s Receive peer %s",
new->xid,
new->org == OGS_PFCP_LOCAL_ORIGINATOR ? "LOCAL " : "REMOTE",
ogs_sockaddr_to_string_static(node->addr_list));
rv = ogs_pfcp_xact_update_rx(new, type);
if (rv == OGS_ERROR) {
ogs_error("ogs_pfcp_xact_update_rx() failed");
ogs_pfcp_xact_delete(new);
return rv;
} else if (rv == OGS_RETRY) {
return rv;
}
*xact = new;
return rv;
}
static ogs_pfcp_xact_stage_t ogs_pfcp_xact_get_stage(uint8_t type, uint32_t xid)
{
ogs_pfcp_xact_stage_t stage = PFCP_XACT_UNKNOWN_STAGE;
switch (type) {
case OGS_PFCP_HEARTBEAT_REQUEST_TYPE:
case OGS_PFCP_ASSOCIATION_SETUP_REQUEST_TYPE:
case OGS_PFCP_ASSOCIATION_UPDATE_REQUEST_TYPE:
case OGS_PFCP_ASSOCIATION_RELEASE_REQUEST_TYPE:
case OGS_PFCP_SESSION_ESTABLISHMENT_REQUEST_TYPE:
case OGS_PFCP_SESSION_MODIFICATION_REQUEST_TYPE:
case OGS_PFCP_SESSION_DELETION_REQUEST_TYPE:
case OGS_PFCP_SESSION_REPORT_REQUEST_TYPE:
stage = PFCP_XACT_INITIAL_STAGE;
break;
case OGS_PFCP_HEARTBEAT_RESPONSE_TYPE:
case OGS_PFCP_ASSOCIATION_SETUP_RESPONSE_TYPE:
case OGS_PFCP_ASSOCIATION_UPDATE_RESPONSE_TYPE:
case OGS_PFCP_ASSOCIATION_RELEASE_RESPONSE_TYPE:
case OGS_PFCP_VERSION_NOT_SUPPORTED_RESPONSE_TYPE:
case OGS_PFCP_SESSION_ESTABLISHMENT_RESPONSE_TYPE:
case OGS_PFCP_SESSION_MODIFICATION_RESPONSE_TYPE:
case OGS_PFCP_SESSION_DELETION_RESPONSE_TYPE:
case OGS_PFCP_SESSION_REPORT_RESPONSE_TYPE:
stage = PFCP_XACT_FINAL_STAGE;
break;
default:
ogs_error("Not implemented PFCPv2 Message Type(%d)", type);
break;
}
return stage;
}
int ogs_pfcp_xact_delete(ogs_pfcp_xact_t *xact)
{
ogs_assert(xact);
ogs_assert(xact->node);
ogs_debug("[%d] %s Delete peer %s",
xact->xid,
xact->org == OGS_PFCP_LOCAL_ORIGINATOR ? "LOCAL " : "REMOTE",
ogs_sockaddr_to_string_static(xact->node->addr_list));
if (xact->seq[0].pkbuf)
ogs_pkbuf_free(xact->seq[0].pkbuf);
if (xact->seq[1].pkbuf)
ogs_pkbuf_free(xact->seq[1].pkbuf);
if (xact->seq[2].pkbuf)
ogs_pkbuf_free(xact->seq[2].pkbuf);
if (xact->tm_response)
ogs_timer_delete(xact->tm_response);
if (xact->tm_holding)
ogs_timer_delete(xact->tm_holding);
if (xact->tm_delayed_commit)
ogs_timer_delete(xact->tm_delayed_commit);
ogs_list_remove(xact->org == OGS_PFCP_LOCAL_ORIGINATOR ?
&xact->node->local_list : &xact->node->remote_list, xact);
ogs_pool_id_free(&pool, xact);
return OGS_OK;
}
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