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|
// SPDX-License-Identifier: GPL-2.0-or-later
/*
* Copyright (C) 2020 NetDEF, Inc.
*/
#include <zebra.h>
#include "log.h"
#include "command.h"
#include "libfrr.h"
#include "printfrr.h"
#include "northbound.h"
#include "frr_pthread.h"
#include "jhash.h"
#include "network.h"
#include "pathd/pathd.h"
#include "pathd/path_errors.h"
#include "pathd/path_pcep.h"
#include "pathd/path_pcep_controller.h"
#include "pathd/path_pcep_pcc.h"
#include "pathd/path_pcep_config.h"
#include "pathd/path_pcep_debug.h"
#define MAX_RECONNECT_DELAY 120
/* Event handling data structures */
enum pcep_ctrl_event_type {
EV_UPDATE_PCC_OPTS = 1,
EV_UPDATE_PCE_OPTS,
EV_REMOVE_PCC,
EV_PATHD_EVENT,
EV_SYNC_PATH,
EV_SYNC_DONE,
EV_PCEPLIB_EVENT,
EV_RESET_PCC_SESSION,
EV_SEND_REPORT,
EV_SEND_ERROR,
EV_PATH_REFINED
};
struct pcep_ctrl_event_data {
struct ctrl_state *ctrl_state;
enum pcep_ctrl_event_type type;
uint32_t sub_type;
int pcc_id;
void *payload;
};
struct pcep_main_event_data {
pcep_main_event_handler_t handler;
int pcc_id;
enum pcep_main_event_type type;
void *payload;
};
struct pcep_refine_path_event_data {
struct ctrl_state *ctrl_state;
int pcc_id;
pcep_refine_callback_t continue_lsp_update_handler;
struct path *path;
void *payload;
};
/* Synchronous call arguments */
struct get_counters_args {
struct ctrl_state *ctrl_state;
int pcc_id;
struct counters_group *counters;
};
struct get_pcep_session_args {
struct ctrl_state *ctrl_state;
int pcc_id;
pcep_session *pcep_session;
};
/* Internal Functions Called From Main Thread */
static int pcep_ctrl_halt_cb(struct frr_pthread *fpt, void **res);
static void pcep_refine_path_event_cb(struct event *thread);
/* Internal Functions Called From Controller Thread */
static void pcep_thread_finish_event_handler(struct event *thread);
/* Controller Thread Timer Handler */
static int schedule_thread_timer(struct ctrl_state *ctrl_state, int pcc_id,
enum pcep_ctrl_timer_type timer_type,
enum pcep_ctrl_timeout_type timeout_type,
uint32_t delay, void *payload,
struct event **thread);
static int schedule_thread_timer_with_cb(
struct ctrl_state *ctrl_state, int pcc_id,
enum pcep_ctrl_timer_type timer_type,
enum pcep_ctrl_timeout_type timeout_type, uint32_t delay, void *payload,
struct event **thread, pcep_ctrl_thread_callback timer_cb);
static void pcep_thread_timer_handler(struct event *thread);
/* Controller Thread Socket read/write Handler */
static int schedule_thread_socket(struct ctrl_state *ctrl_state, int pcc_id,
enum pcep_ctrl_socket_type type, bool is_read,
void *payload, int fd, struct event **thread,
pcep_ctrl_thread_callback cb);
/* Controller Thread Event Handler */
static int send_to_thread(struct ctrl_state *ctrl_state, int pcc_id,
enum pcep_ctrl_event_type type, uint32_t sub_type,
void *payload);
static int send_to_thread_with_cb(struct ctrl_state *ctrl_state, int pcc_id,
enum pcep_ctrl_event_type type,
uint32_t sub_type, void *payload,
pcep_ctrl_thread_callback event_cb);
static void pcep_thread_event_handler(struct event *thread);
static int pcep_thread_event_update_pcc_options(struct ctrl_state *ctrl_state,
struct pcc_opts *opts);
static int pcep_thread_event_update_pce_options(struct ctrl_state *ctrl_state,
int pcc_id,
struct pce_opts *opts);
static int pcep_thread_event_remove_pcc_by_id(struct ctrl_state *ctrl_state,
int pcc_id);
static int pcep_thread_event_remove_pcc_all(struct ctrl_state *ctrl_state);
static int pcep_thread_event_remove_pcc(struct ctrl_state *ctrl_state,
struct pce_opts *pce_opts);
static int pcep_thread_event_sync_path(struct ctrl_state *ctrl_state,
int pcc_id, struct path *path);
static int pcep_thread_event_sync_done(struct ctrl_state *ctrl_state,
int pcc_id);
static int pcep_thread_event_pathd_event(struct ctrl_state *ctrl_state,
enum pcep_pathd_event_type type,
struct path *path);
static void
pcep_thread_path_refined_event(struct ctrl_state *ctrl_state,
struct pcep_refine_path_event_data *data);
/* Main Thread Event Handler */
static int send_to_main(struct ctrl_state *ctrl_state, int pcc_id,
enum pcep_main_event_type type, void *payload);
static void pcep_main_event_handler(struct event *thread);
/* Helper functions */
static void set_ctrl_state(struct frr_pthread *fpt,
struct ctrl_state *ctrl_state);
static struct ctrl_state *get_ctrl_state(struct frr_pthread *fpt);
int get_next_id(struct ctrl_state *ctrl_state);
int set_pcc_state(struct ctrl_state *ctrl_state, struct pcc_state *pcc_state);
void remove_pcc_state(struct ctrl_state *ctrl_state,
struct pcc_state *pcc_state);
static uint32_t backoff_delay(uint32_t max, uint32_t base, uint32_t attempt);
static const char *timer_type_name(enum pcep_ctrl_timer_type type);
static const char *timeout_type_name(enum pcep_ctrl_timeout_type type);
/* ------------ API Functions Called from Main Thread ------------ */
int pcep_ctrl_initialize(struct event_loop *main_thread,
struct frr_pthread **fpt,
pcep_main_event_handler_t event_handler)
{
assert(fpt != NULL);
int ret = 0;
struct ctrl_state *ctrl_state;
struct frr_pthread_attr attr = {
.start = frr_pthread_attr_default.start,
.stop = pcep_ctrl_halt_cb,
};
PCEP_DEBUG("Initializing pcep module controller");
/* Create and start the FRR pthread */
*fpt = frr_pthread_new(&attr, "PCEP thread", "pcep_controller");
if (*fpt == NULL) {
flog_err(EC_PATH_SYSTEM_CALL,
"failed to initialize PCEP thread");
return 1;
}
ret = frr_pthread_run(*fpt, NULL);
if (ret < 0) {
flog_err(EC_PATH_SYSTEM_CALL, "failed to create PCEP thread");
return ret;
}
frr_pthread_wait_running(*fpt);
/* Initialize the thread state */
ctrl_state = XCALLOC(MTYPE_PCEP, sizeof(*ctrl_state));
ctrl_state->main = main_thread;
ctrl_state->self = (*fpt)->master;
ctrl_state->main_event_handler = event_handler;
ctrl_state->pcc_count = 0;
ctrl_state->pcc_last_id = 0;
ctrl_state->pcc_opts =
XCALLOC(MTYPE_PCEP, sizeof(*ctrl_state->pcc_opts));
/* Default to no PCC address defined */
ctrl_state->pcc_opts->addr.ipa_type = IPADDR_NONE;
ctrl_state->pcc_opts->port = PCEP_DEFAULT_PORT;
/* Keep the state reference for events */
set_ctrl_state(*fpt, ctrl_state);
return ret;
}
int pcep_ctrl_finalize(struct frr_pthread **fpt)
{
assert(fpt != NULL);
int ret = 0;
PCEP_DEBUG("Finalizing pcep module controller");
if (*fpt != NULL) {
frr_pthread_stop(*fpt, NULL);
*fpt = NULL;
}
return ret;
}
int pcep_ctrl_update_pcc_options(struct frr_pthread *fpt, struct pcc_opts *opts)
{
struct ctrl_state *ctrl_state = get_ctrl_state(fpt);
return send_to_thread(ctrl_state, 0, EV_UPDATE_PCC_OPTS, 0, opts);
}
int pcep_ctrl_update_pce_options(struct frr_pthread *fpt, struct pce_opts *opts)
{
struct ctrl_state *ctrl_state = get_ctrl_state(fpt);
return send_to_thread(ctrl_state, 0, EV_UPDATE_PCE_OPTS, 0, opts);
}
int pcep_ctrl_remove_pcc(struct frr_pthread *fpt, struct pce_opts *pce_opts)
{
struct ctrl_state *ctrl_state = get_ctrl_state(fpt);
return send_to_thread(ctrl_state, 0, EV_REMOVE_PCC, 0, pce_opts);
}
int pcep_ctrl_reset_pcc_session(struct frr_pthread *fpt, char *pce_name)
{
struct ctrl_state *ctrl_state = get_ctrl_state(fpt);
return send_to_thread(ctrl_state, 0, EV_RESET_PCC_SESSION, 0, pce_name);
}
int pcep_ctrl_pathd_event(struct frr_pthread *fpt,
enum pcep_pathd_event_type type, struct path *path)
{
struct ctrl_state *ctrl_state = get_ctrl_state(fpt);
return send_to_thread(ctrl_state, 0, EV_PATHD_EVENT, type, path);
}
int pcep_ctrl_sync_path(struct frr_pthread *fpt, int pcc_id, struct path *path)
{
struct ctrl_state *ctrl_state = get_ctrl_state(fpt);
return send_to_thread(ctrl_state, pcc_id, EV_SYNC_PATH, 0, path);
}
int pcep_ctrl_sync_done(struct frr_pthread *fpt, int pcc_id)
{
struct ctrl_state *ctrl_state = get_ctrl_state(fpt);
return send_to_thread(ctrl_state, pcc_id, EV_SYNC_DONE, 0, NULL);
}
struct counters_group *pcep_ctrl_get_counters(struct frr_pthread *fpt,
int pcc_id)
{
struct ctrl_state *ctrl_state = get_ctrl_state(fpt);
struct counters_group *counters = NULL;
struct pcc_state *pcc_state;
pcc_state = pcep_pcc_get_pcc_by_id(ctrl_state->pcc, pcc_id);
if (pcc_state) {
counters = pcep_lib_copy_counters(pcc_state->sess);
}
return counters;
}
pcep_session *pcep_ctrl_get_pcep_session(struct frr_pthread *fpt, int pcc_id)
{
struct ctrl_state *ctrl_state = get_ctrl_state(fpt);
struct pcc_state *pcc_state;
pcep_session *session = NULL;
pcc_state = pcep_pcc_get_pcc_by_id(ctrl_state->pcc, pcc_id);
if (pcc_state) {
session = pcep_lib_copy_pcep_session(pcc_state->sess);
}
return session;
}
struct pcep_pcc_info *pcep_ctrl_get_pcc_info(struct frr_pthread *fpt,
const char *pce_name)
{
struct ctrl_state *ctrl_state = get_ctrl_state(fpt);
struct pcep_pcc_info *pcc_info = XCALLOC(MTYPE_PCEP, sizeof(*pcc_info));
if( pcc_info && ctrl_state){
strlcpy(pcc_info->pce_name, pce_name, sizeof(pcc_info->pce_name));
pcep_pcc_copy_pcc_info(ctrl_state->pcc, pcc_info);
}
return pcc_info;
}
int pcep_ctrl_send_report(struct frr_pthread *fpt, int pcc_id,
struct path *path, bool is_stable)
{
struct ctrl_state *ctrl_state = get_ctrl_state(fpt);
return send_to_thread(ctrl_state, pcc_id, EV_SEND_REPORT, is_stable,
path);
}
int pcep_ctrl_send_error(struct frr_pthread *fpt, int pcc_id,
struct pcep_error *error)
{
struct ctrl_state *ctrl_state = get_ctrl_state(fpt);
return send_to_thread(ctrl_state, pcc_id, EV_SEND_ERROR, 0, error);
}
/* ------------ Internal Functions Called from Main Thread ------------ */
int pcep_ctrl_halt_cb(struct frr_pthread *fpt, void **res)
{
event_add_event(fpt->master, pcep_thread_finish_event_handler,
(void *)fpt, 0, NULL);
pthread_join(fpt->thread, res);
return 0;
}
void pcep_refine_path_event_cb(struct event *thread)
{
struct pcep_refine_path_event_data *data = EVENT_ARG(thread);
assert(data != NULL);
struct ctrl_state *ctrl_state = data->ctrl_state;
struct path *path = data->path;
assert(path != NULL);
int pcc_id = data->pcc_id;
path_pcep_refine_path(path);
send_to_thread(ctrl_state, pcc_id, EV_PATH_REFINED, 0, data);
}
/* ------------ API Functions Called From Controller Thread ------------ */
void pcep_thread_start_sync(struct ctrl_state *ctrl_state, int pcc_id)
{
send_to_main(ctrl_state, pcc_id, PCEP_MAIN_EVENT_START_SYNC, NULL);
}
void pcep_thread_update_path(struct ctrl_state *ctrl_state, int pcc_id,
struct path *path)
{
send_to_main(ctrl_state, pcc_id, PCEP_MAIN_EVENT_UPDATE_CANDIDATE,
path);
}
void pcep_thread_initiate_path(struct ctrl_state *ctrl_state, int pcc_id,
struct path *path)
{
send_to_main(ctrl_state, pcc_id, PCEP_MAIN_EVENT_INITIATE_CANDIDATE,
path);
}
void pcep_thread_remove_candidate_path_segments(struct ctrl_state *ctrl_state,
struct pcc_state *pcc_state)
{
if (!pcc_state)
return;
/* Will be deleted when the event is handled */
char *originator = XSTRDUP(MTYPE_PCEP, pcc_state->originator);
PCEP_DEBUG("schedule candidate path segments removal for originator %s",
originator);
send_to_main(ctrl_state, pcep_pcc_get_pcc_id(pcc_state),
PCEP_MAIN_EVENT_REMOVE_CANDIDATE_LSP, originator);
}
void pcep_thread_schedule_sync_best_pce(struct ctrl_state *ctrl_state,
int pcc_id, int delay,
struct event **thread)
{
schedule_thread_timer(ctrl_state, pcc_id, TM_CALCULATE_BEST_PCE,
TO_UNDEFINED, delay, NULL, thread);
}
void pcep_thread_cancel_timer(struct event **thread)
{
if (thread == NULL || *thread == NULL) {
return;
}
struct pcep_ctrl_timer_data *data = EVENT_ARG(*thread);
PCEP_DEBUG("Timer %s / %s canceled", timer_type_name(data->timer_type),
timeout_type_name(data->timeout_type));
if (data != NULL) {
XFREE(MTYPE_PCEP, data);
}
if ((*thread)->master->owner == pthread_self()) {
event_cancel(thread);
} else {
event_cancel_async((*thread)->master, thread, NULL);
}
}
void pcep_thread_schedule_reconnect(struct ctrl_state *ctrl_state, int pcc_id,
int retry_count, struct event **thread)
{
uint32_t delay = backoff_delay(MAX_RECONNECT_DELAY, 1, retry_count);
PCEP_DEBUG("Schedule RECONNECT_PCC for %us (retry %u)", delay,
retry_count);
schedule_thread_timer(ctrl_state, pcc_id, TM_RECONNECT_PCC,
TO_UNDEFINED, delay, NULL, thread);
}
void pcep_thread_schedule_timeout(struct ctrl_state *ctrl_state, int pcc_id,
enum pcep_ctrl_timeout_type timeout_type,
uint32_t delay, void *param,
struct event **thread)
{
assert(timeout_type > TO_UNDEFINED);
assert(timeout_type < TO_MAX);
PCEP_DEBUG("Schedule timeout %s for %us",
timeout_type_name(timeout_type), delay);
schedule_thread_timer(ctrl_state, pcc_id, TM_TIMEOUT, timeout_type,
delay, param, thread);
}
void pcep_thread_schedule_pceplib_timer(struct ctrl_state *ctrl_state,
int delay, void *payload,
struct event **thread,
pcep_ctrl_thread_callback timer_cb)
{
PCEP_DEBUG("Schedule PCEPLIB_TIMER for %us", delay);
schedule_thread_timer_with_cb(ctrl_state, 0, TM_PCEPLIB_TIMER,
TO_UNDEFINED, delay, payload, thread,
timer_cb);
}
void pcep_thread_schedule_session_timeout(struct ctrl_state *ctrl_state,
int pcc_id, int delay,
struct event **thread)
{
PCEP_DEBUG("Schedule session_timeout interval for %us", delay);
schedule_thread_timer(ctrl_state, pcc_id, TM_SESSION_TIMEOUT_PCC,
TO_UNDEFINED, delay, NULL, thread);
}
int pcep_thread_pcc_count(struct ctrl_state *ctrl_state)
{
if (ctrl_state == NULL) {
return 0;
}
return ctrl_state->pcc_count;
}
int pcep_thread_refine_path(struct ctrl_state *ctrl_state, int pcc_id,
pcep_refine_callback_t cb, struct path *path,
void *payload)
{
struct pcep_refine_path_event_data *data;
data = XCALLOC(MTYPE_PCEP, sizeof(*data));
data->ctrl_state = ctrl_state;
data->path = path;
data->pcc_id = pcc_id;
data->continue_lsp_update_handler = cb;
data->payload = payload;
event_add_event(ctrl_state->main, pcep_refine_path_event_cb,
(void *)data, 0, NULL);
return 0;
}
void pcep_thread_path_refined_event(struct ctrl_state *ctrl_state,
struct pcep_refine_path_event_data *data)
{
assert(data != NULL);
int pcc_id = data->pcc_id;
pcep_refine_callback_t continue_lsp_update_handler = data->continue_lsp_update_handler;
assert(continue_lsp_update_handler != NULL);
struct path *path = data->path;
void *payload = data->payload;
struct pcc_state *pcc_state = NULL;
XFREE(MTYPE_PCEP, data);
pcc_state = pcep_pcc_get_pcc_by_id(ctrl_state->pcc, pcc_id);
continue_lsp_update_handler(ctrl_state, pcc_state, path, payload);
}
/* ------------ Internal Functions Called From Controller Thread ------------ */
void pcep_thread_finish_event_handler(struct event *thread)
{
int i;
struct frr_pthread *fpt = EVENT_ARG(thread);
struct ctrl_state *ctrl_state = fpt->data;
assert(ctrl_state != NULL);
for (i = 0; i < MAX_PCC; i++) {
if (ctrl_state->pcc[i]) {
pcep_pcc_finalize(ctrl_state, ctrl_state->pcc[i]);
ctrl_state->pcc[i] = NULL;
}
}
XFREE(MTYPE_PCEP, ctrl_state->pcc_opts);
XFREE(MTYPE_PCEP, ctrl_state);
fpt->data = NULL;
atomic_store_explicit(&fpt->running, false, memory_order_relaxed);
}
/* ------------ Controller Thread Timer Handler ------------ */
int schedule_thread_timer_with_cb(struct ctrl_state *ctrl_state, int pcc_id,
enum pcep_ctrl_timer_type timer_type,
enum pcep_ctrl_timeout_type timeout_type,
uint32_t delay, void *payload,
struct event **thread,
pcep_ctrl_thread_callback timer_cb)
{
assert(thread != NULL);
struct pcep_ctrl_timer_data *data;
data = XCALLOC(MTYPE_PCEP, sizeof(*data));
data->ctrl_state = ctrl_state;
data->timer_type = timer_type;
data->timeout_type = timeout_type;
data->pcc_id = pcc_id;
data->payload = payload;
event_add_timer(ctrl_state->self, timer_cb, (void *)data, delay,
thread);
return 0;
}
int schedule_thread_timer(struct ctrl_state *ctrl_state, int pcc_id,
enum pcep_ctrl_timer_type timer_type,
enum pcep_ctrl_timeout_type timeout_type,
uint32_t delay, void *payload, struct event **thread)
{
return schedule_thread_timer_with_cb(ctrl_state, pcc_id, timer_type,
timeout_type, delay, payload,
thread, pcep_thread_timer_handler);
}
void pcep_thread_timer_handler(struct event *thread)
{
/* data unpacking */
struct pcep_ctrl_timer_data *data = EVENT_ARG(thread);
assert(data != NULL);
struct ctrl_state *ctrl_state = data->ctrl_state;
assert(ctrl_state != NULL);
enum pcep_ctrl_timer_type timer_type = data->timer_type;
enum pcep_ctrl_timeout_type timeout_type = data->timeout_type;
int pcc_id = data->pcc_id;
void *param = data->payload;
XFREE(MTYPE_PCEP, data);
struct pcc_state *pcc_state = NULL;
switch (timer_type) {
case TM_RECONNECT_PCC:
pcc_state = pcep_pcc_get_pcc_by_id(ctrl_state->pcc, pcc_id);
if (!pcc_state)
return;
pcep_pcc_reconnect(ctrl_state, pcc_state);
break;
case TM_TIMEOUT:
pcc_state = pcep_pcc_get_pcc_by_id(ctrl_state->pcc, pcc_id);
if (!pcc_state)
return;
pcep_pcc_timeout_handler(ctrl_state, pcc_state, timeout_type,
param);
break;
case TM_CALCULATE_BEST_PCE:
/* Previous best disconnect so new best should be synced */
pcep_pcc_timer_update_best_pce(ctrl_state, pcc_id);
break;
case TM_SESSION_TIMEOUT_PCC:
pcc_state = pcep_pcc_get_pcc_by_id(ctrl_state->pcc, pcc_id);
pcep_thread_remove_candidate_path_segments(ctrl_state,
pcc_state);
break;
case TM_PCEPLIB_TIMER:
case TM_UNDEFINED:
case TM_MAX:
flog_warn(EC_PATH_PCEP_RECOVERABLE_INTERNAL_ERROR,
"Unknown controller timer triggered: %u", timer_type);
break;
}
}
void pcep_thread_pcep_event(struct event *thread)
{
struct pcep_ctrl_event_data *data = EVENT_ARG(thread);
assert(data != NULL);
struct ctrl_state *ctrl_state = data->ctrl_state;
pcep_event *event = data->payload;
XFREE(MTYPE_PCEP, data);
int i;
for (i = 0; i < MAX_PCC; i++) {
if (ctrl_state->pcc[i]) {
struct pcc_state *pcc_state = ctrl_state->pcc[i];
if (pcc_state->sess != event->session)
continue;
pcep_pcc_pcep_event_handler(ctrl_state, pcc_state,
event);
break;
}
}
destroy_pcep_event(event);
}
/* ------------ Controller Thread Socket Functions ------------ */
int schedule_thread_socket(struct ctrl_state *ctrl_state, int pcc_id,
enum pcep_ctrl_socket_type type, bool is_read,
void *payload, int fd, struct event **thread,
pcep_ctrl_thread_callback socket_cb)
{
assert(thread != NULL);
struct pcep_ctrl_socket_data *data;
data = XCALLOC(MTYPE_PCEP, sizeof(*data));
data->ctrl_state = ctrl_state;
data->type = type;
data->is_read = is_read;
data->fd = fd;
data->pcc_id = pcc_id;
data->payload = payload;
if (is_read) {
event_add_read(ctrl_state->self, socket_cb, (void *)data, fd,
thread);
} else {
event_add_write(ctrl_state->self, socket_cb, (void *)data, fd,
thread);
}
return 0;
}
int pcep_thread_socket_write(void *fpt, void **thread, int fd, void *payload,
pcep_ctrl_thread_callback socket_cb)
{
struct ctrl_state *ctrl_state = ((struct frr_pthread *)fpt)->data;
return schedule_thread_socket(ctrl_state, 0, SOCK_PCEPLIB, false,
payload, fd, (struct event **)thread,
socket_cb);
}
int pcep_thread_socket_read(void *fpt, void **thread, int fd, void *payload,
pcep_ctrl_thread_callback socket_cb)
{
struct ctrl_state *ctrl_state = ((struct frr_pthread *)fpt)->data;
return schedule_thread_socket(ctrl_state, 0, SOCK_PCEPLIB, true,
payload, fd, (struct event **)thread,
socket_cb);
}
int pcep_thread_send_ctrl_event(void *fpt, void *payload,
pcep_ctrl_thread_callback cb)
{
struct ctrl_state *ctrl_state = ((struct frr_pthread *)fpt)->data;
return send_to_thread_with_cb(ctrl_state, 0, EV_PCEPLIB_EVENT, 0,
payload, cb);
}
/* ------------ Controller Thread Event Handler ------------ */
int send_to_thread(struct ctrl_state *ctrl_state, int pcc_id,
enum pcep_ctrl_event_type type, uint32_t sub_type,
void *payload)
{
return send_to_thread_with_cb(ctrl_state, pcc_id, type, sub_type,
payload, pcep_thread_event_handler);
}
int send_to_thread_with_cb(struct ctrl_state *ctrl_state, int pcc_id,
enum pcep_ctrl_event_type type, uint32_t sub_type,
void *payload, pcep_ctrl_thread_callback event_cb)
{
struct pcep_ctrl_event_data *data;
data = XCALLOC(MTYPE_PCEP, sizeof(*data));
data->ctrl_state = ctrl_state;
data->type = type;
data->sub_type = sub_type;
data->pcc_id = pcc_id;
data->payload = payload;
event_add_event(ctrl_state->self, event_cb, (void *)data, 0, NULL);
return 0;
}
void pcep_thread_event_handler(struct event *thread)
{
/* data unpacking */
struct pcep_ctrl_event_data *data = EVENT_ARG(thread);
assert(data != NULL);
struct ctrl_state *ctrl_state = data->ctrl_state;
assert(ctrl_state != NULL);
enum pcep_ctrl_event_type type = data->type;
uint32_t sub_type = data->sub_type;
int pcc_id = data->pcc_id;
void *payload = data->payload;
XFREE(MTYPE_PCEP, data);
/* Possible sub-type values */
enum pcep_pathd_event_type path_event_type = PCEP_PATH_UNDEFINED;
/* Possible payload values, maybe an union would be better... */
struct path *path = NULL;
struct pcc_opts *pcc_opts = NULL;
struct pce_opts *pce_opts = NULL;
struct pcc_state *pcc_state = NULL;
struct pcep_refine_path_event_data *refine_data = NULL;
struct path *path_copy = NULL;
struct pcep_error *error = NULL;
switch (type) {
case EV_UPDATE_PCC_OPTS:
assert(payload != NULL);
pcc_opts = (struct pcc_opts *)payload;
pcep_thread_event_update_pcc_options(ctrl_state, pcc_opts);
break;
case EV_UPDATE_PCE_OPTS:
assert(payload != NULL);
pce_opts = (struct pce_opts *)payload;
pcep_thread_event_update_pce_options(ctrl_state, pcc_id,
pce_opts);
break;
case EV_REMOVE_PCC:
pce_opts = (struct pce_opts *)payload;
if (pcep_thread_event_remove_pcc(ctrl_state, pce_opts) == 0)
pcep_pcc_multi_pce_remove_pcc(ctrl_state,
ctrl_state->pcc);
break;
case EV_PATHD_EVENT:
assert(payload != NULL);
path_event_type = (enum pcep_pathd_event_type)sub_type;
path = (struct path *)payload;
pcep_thread_event_pathd_event(ctrl_state, path_event_type,
path);
break;
case EV_SYNC_PATH:
assert(payload != NULL);
path = (struct path *)payload;
pcep_pcc_multi_pce_sync_path(ctrl_state, pcc_id,
ctrl_state->pcc);
pcep_thread_event_sync_path(ctrl_state, pcc_id, path);
break;
case EV_SYNC_DONE:
pcep_thread_event_sync_done(ctrl_state, pcc_id);
break;
case EV_RESET_PCC_SESSION:
pcc_state = pcep_pcc_get_pcc_by_name(ctrl_state->pcc,
(const char *)payload);
if (pcc_state) {
pcep_pcc_disable(ctrl_state, pcc_state);
pcep_pcc_enable(ctrl_state, pcc_state);
} else {
flog_warn(EC_PATH_PCEP_RECOVERABLE_INTERNAL_ERROR,
"Cannot reset state for PCE: %s",
(const char *)payload);
}
break;
case EV_SEND_REPORT:
assert(payload != NULL);
path = (struct path *)payload;
if (pcc_id == 0) {
for (int i = 0; i < MAX_PCC; i++) {
if (ctrl_state->pcc[i]) {
path_copy = pcep_copy_path(path);
pcep_pcc_send_report(
ctrl_state, ctrl_state->pcc[i],
path_copy, (bool)sub_type);
}
}
} else {
pcc_state =
pcep_pcc_get_pcc_by_id(ctrl_state->pcc, pcc_id);
pcep_pcc_send_report(ctrl_state, pcc_state, path,
(bool)sub_type);
}
break;
case EV_PATH_REFINED:
assert(payload != NULL);
refine_data = (struct pcep_refine_path_event_data *)payload;
pcep_thread_path_refined_event(ctrl_state, refine_data);
break;
case EV_SEND_ERROR:
assert(payload != NULL);
error = (struct pcep_error *)payload;
pcc_state = pcep_pcc_get_pcc_by_id(ctrl_state->pcc, pcc_id);
pcep_pcc_send_error(ctrl_state, pcc_state, error,
(bool)sub_type);
break;
case EV_PCEPLIB_EVENT:
flog_warn(EC_PATH_PCEP_RECOVERABLE_INTERNAL_ERROR,
"Unexpected event received in controller thread: %u",
type);
break;
}
}
int pcep_thread_event_update_pcc_options(struct ctrl_state *ctrl_state,
struct pcc_opts *opts)
{
assert(opts != NULL);
if (ctrl_state->pcc_opts != NULL) {
XFREE(MTYPE_PCEP, ctrl_state->pcc_opts);
}
ctrl_state->pcc_opts = opts;
return 0;
}
int pcep_thread_event_update_pce_options(struct ctrl_state *ctrl_state,
int pcc_id, struct pce_opts *pce_opts)
{
if (!pce_opts || !ctrl_state) {
return 0;
}
struct pcc_state *pcc_state;
struct pcc_opts *pcc_opts;
int current_pcc_id =
pcep_pcc_get_pcc_id_by_ip_port(ctrl_state->pcc, pce_opts);
if (current_pcc_id) {
pcc_state =
pcep_pcc_get_pcc_by_id(ctrl_state->pcc, current_pcc_id);
} else {
pcc_state = pcep_pcc_initialize(ctrl_state,
get_next_id(ctrl_state));
if (set_pcc_state(ctrl_state, pcc_state)) {
XFREE(MTYPE_PCEP, pcc_state);
return 0;
}
}
/* Copy the pcc options to delegate it to the update function */
pcc_opts = XCALLOC(MTYPE_PCEP, sizeof(*pcc_opts));
memcpy(pcc_opts, ctrl_state->pcc_opts, sizeof(*pcc_opts));
if (pcep_pcc_update(ctrl_state, pcc_state, pcc_opts, pce_opts)) {
flog_err(EC_PATH_PCEP_PCC_CONF_UPDATE,
"failed to update PCC configuration");
}
return 0;
}
int pcep_thread_event_remove_pcc_by_id(struct ctrl_state *ctrl_state,
int pcc_id)
{
if (pcc_id) {
struct pcc_state *pcc_state =
pcep_pcc_get_pcc_by_id(ctrl_state->pcc, pcc_id);
if (pcc_state) {
remove_pcc_state(ctrl_state, pcc_state);
pcep_pcc_finalize(ctrl_state, pcc_state);
}
}
return 0;
}
int pcep_thread_event_remove_pcc_all(struct ctrl_state *ctrl_state)
{
assert(ctrl_state != NULL);
for (int i = 0; i < MAX_PCC; i++) {
pcep_thread_event_remove_pcc_by_id(
ctrl_state,
pcep_pcc_get_pcc_id_by_idx(ctrl_state->pcc, i));
}
return 0;
}
int pcep_thread_event_remove_pcc(struct ctrl_state *ctrl_state,
struct pce_opts *pce_opts)
{
assert(ctrl_state != NULL);
if (pce_opts) {
int pcc_id = pcep_pcc_get_pcc_id_by_ip_port(ctrl_state->pcc,
pce_opts);
if (pcc_id) {
pcep_thread_event_remove_pcc_by_id(ctrl_state, pcc_id);
} else {
return -1;
}
XFREE(MTYPE_PCEP, pce_opts);
} else {
pcep_thread_event_remove_pcc_all(ctrl_state);
}
return 0;
}
int pcep_thread_event_sync_path(struct ctrl_state *ctrl_state, int pcc_id,
struct path *path)
{
struct pcc_state *pcc_state =
pcep_pcc_get_pcc_by_id(ctrl_state->pcc, pcc_id);
pcep_pcc_sync_path(ctrl_state, pcc_state, path);
pcep_free_path(path);
return 0;
}
int pcep_thread_event_sync_done(struct ctrl_state *ctrl_state, int pcc_id)
{
struct pcc_state *pcc_state =
pcep_pcc_get_pcc_by_id(ctrl_state->pcc, pcc_id);
pcep_pcc_sync_done(ctrl_state, pcc_state);
return 0;
}
int pcep_thread_event_pathd_event(struct ctrl_state *ctrl_state,
enum pcep_pathd_event_type type,
struct path *path)
{
int i;
for (i = 0; i < MAX_PCC; i++) {
if (ctrl_state->pcc[i]) {
struct pcc_state *pcc_state = ctrl_state->pcc[i];
pcep_pcc_pathd_event_handler(ctrl_state, pcc_state,
type, path);
}
}
pcep_free_path(path);
return 0;
}
/* ------------ Main Thread Event Handler ------------ */
int send_to_main(struct ctrl_state *ctrl_state, int pcc_id,
enum pcep_main_event_type type, void *payload)
{
struct pcep_main_event_data *data;
data = XCALLOC(MTYPE_PCEP, sizeof(*data));
data->handler = ctrl_state->main_event_handler;
data->type = type;
data->pcc_id = pcc_id;
data->payload = payload;
event_add_event(ctrl_state->main, pcep_main_event_handler, (void *)data,
0, NULL);
return 0;
}
void pcep_main_event_handler(struct event *thread)
{
/* data unpacking */
struct pcep_main_event_data *data = EVENT_ARG(thread);
assert(data != NULL);
pcep_main_event_handler_t handler = data->handler;
enum pcep_main_event_type type = data->type;
int pcc_id = data->pcc_id;
void *payload = data->payload;
XFREE(MTYPE_PCEP, data);
handler(type, pcc_id, payload);
}
/* ------------ Helper functions ------------ */
void set_ctrl_state(struct frr_pthread *fpt, struct ctrl_state *ctrl_state)
{
assert(fpt != NULL);
fpt->data = ctrl_state;
}
struct ctrl_state *get_ctrl_state(struct frr_pthread *fpt)
{
assert(fpt != NULL);
assert(fpt->data != NULL);
struct ctrl_state *ctrl_state;
ctrl_state = (struct ctrl_state *)fpt->data;
assert(ctrl_state != NULL);
return ctrl_state;
}
int get_next_id(struct ctrl_state *ctrl_state)
{
return ++ctrl_state->pcc_last_id;
}
int set_pcc_state(struct ctrl_state *ctrl_state, struct pcc_state *pcc_state)
{
assert(ctrl_state != NULL);
assert(pcep_pcc_get_pcc_id(pcc_state) != 0);
int current_pcc_idx = pcep_pcc_get_free_pcc_idx(ctrl_state->pcc);
if (current_pcc_idx >= 0) {
ctrl_state->pcc[current_pcc_idx] = pcc_state;
ctrl_state->pcc_count++;
PCEP_DEBUG("added pce pcc_id (%d) idx (%d)",
pcep_pcc_get_pcc_id(pcc_state), current_pcc_idx);
return 0;
} else {
PCEP_DEBUG("Max number of pce ");
return 1;
}
}
void remove_pcc_state(struct ctrl_state *ctrl_state,
struct pcc_state *pcc_state)
{
assert(ctrl_state != NULL);
assert(pcep_pcc_get_pcc_id(pcc_state) != 0);
int idx = 0;
idx = pcep_pcc_get_pcc_idx_by_id(ctrl_state->pcc,
pcep_pcc_get_pcc_id(pcc_state));
if (idx != -1) {
ctrl_state->pcc[idx] = NULL;
ctrl_state->pcc_count--;
PCEP_DEBUG("removed pce pcc_id (%d)",
pcep_pcc_get_pcc_id(pcc_state));
}
}
uint32_t backoff_delay(uint32_t max, uint32_t base, uint32_t retry_count)
{
uint32_t a = MIN(max, base * (1 << retry_count));
uint64_t r = frr_weak_random(), m = RAND_MAX;
uint32_t b = (a / 2) + (r * (a / 2)) / m;
return b;
}
const char *timer_type_name(enum pcep_ctrl_timer_type type)
{
switch (type) {
case TM_UNDEFINED:
return "UNDEFINED";
case TM_RECONNECT_PCC:
return "RECONNECT_PCC";
case TM_PCEPLIB_TIMER:
return "PCEPLIB_TIMER";
case TM_TIMEOUT:
return "TIMEOUT";
case TM_CALCULATE_BEST_PCE:
return "BEST_PCE";
case TM_SESSION_TIMEOUT_PCC:
return "TIMEOUT_PCC";
case TM_MAX:
return "UNKNOWN";
}
assert(!"Reached end of function where we did not expect to");
}
const char *timeout_type_name(enum pcep_ctrl_timeout_type type)
{
switch (type) {
case TO_UNDEFINED:
return "UNDEFINED";
case TO_COMPUTATION_REQUEST:
return "COMPUTATION_REQUEST";
case TO_MAX:
return "UNKNOWN";
}
assert(!"Reached end of function where we did not expect to");
}
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