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#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <unistd.h>
#include <ecp/core.h>
#include <ecp/ht.h>
#include <ecp/tm.h>
#include <ecp/vconn/vconn.h>
#include <ecp/dir/dir.h>
#include "dir.h"
#include "vlink.h"
#include "ht.h"
#include "server.h"
static ecp_ht_table_t *vlink_conn = NULL;
static pthread_rwlock_t vlink_conn_rwlock;
static pthread_t vlink_keyx_thd;
static SRVConfig *srv_config;
#define MAX(X, Y) (((X) > (Y)) ? (X) : (Y))
int vlink_open_conn(ECPSocket *sock, ECPNode *node, ECPConnection **_conn) {
ECPConnection *conn;
int rv;
*_conn = NULL;
conn = malloc(sizeof(ECPConnection));
if (conn == NULL) return ECP_ERR_ALLOC;
ecp_vlink_init(conn, sock);
rv = ecp_conn_open(conn, node);
if (rv) {
free(conn);
return rv;
}
*_conn = conn;
return ECP_OK;
}
void vlink_new_node(ECPSocket *sock, ECPDirItem *dir_item) {
ECPConnection *conn;
int rv;
if (!(dir_item->roles & ECP_ROLE_VCONN) || (memcmp(&dir_item->node.key_perma.public, &srv_config->key_perma.public, sizeof(srv_config->key_perma.public)) == 0)) return;
pthread_rwlock_rdlock(&vlink_conn_rwlock);
conn = ecp_ht_search(vlink_conn, &dir_item->node.key_perma.public);
pthread_rwlock_unlock(&vlink_conn_rwlock);
if (conn) return;
rv = vlink_open_conn(sock, &dir_item->node, &conn);
if (rv) {
LOG(LOG_ERR, "vlink_new_node: open conn err:%d\n", rv);
return;
}
pthread_rwlock_wrlock(&vlink_conn_rwlock);
rv = ht_insert_conn(vlink_conn, conn);
pthread_rwlock_unlock(&vlink_conn_rwlock);
if (rv) {
LOG(LOG_ERR, "vlink_new_node: ins conn err:%d\n", rv);
ecp_conn_close(conn);
return;
}
LOG(LOG_DEBUG, "vlink_new_node: new connection\n");
}
void vlink_del_node(ECPDirItem *dir_item) {
ECPConnection *conn;
if (!(dir_item->roles & ECP_ROLE_VCONN) || (memcmp(&dir_item->node.key_perma.public, &srv_config->key_perma.public, sizeof(srv_config->key_perma.public)) == 0)) return;
pthread_rwlock_rdlock(&vlink_conn_rwlock);
conn = ecp_ht_search(vlink_conn, &dir_item->node.key_perma.public);
if (conn) ecp_conn_set_uflags(conn, VLINK_UFLAG_DISCONNECT);
pthread_rwlock_unlock(&vlink_conn_rwlock);
}
void vlink_keyx(ECPSocket *sock, int keyx_period) {
struct hashtable_itr itr;
ECPConnection *conn;
ecp_ecdh_public_t *conn_next;
ECPConnection *keyx_conn[MAX_NODE_ANNOUNCE];
unsigned int ht_count;
int keyx_cnt;
int i;
int rv;
conn_next = NULL;
do {
uint32_t delay;
uint32_t rnd;
keyx_cnt = 0;
pthread_rwlock_rdlock(&vlink_conn_rwlock);
ht_count = ecp_ht_count(vlink_conn);
if (ht_count > 0) {
ecp_ht_itr_create(&itr, vlink_conn);
if (conn_next) {
rv = ecp_ht_itr_search(&itr, conn_next);
if (rv) {
LOG(LOG_ERR, "vlink_keyx: itr search err:%d\n", rv);
break;
}
conn_next = NULL;
}
do {
conn = ecp_ht_itr_value(&itr);
if (keyx_cnt < MAX_NODE_ANNOUNCE) {
keyx_conn[keyx_cnt] = conn;
keyx_cnt++;
} else {
conn_next = ecp_ht_itr_key(&itr);
break;
}
rv = ecp_ht_itr_advance(&itr);
} while (rv == ECP_OK);
}
/* no need to copy conn_next key, since this is the only thread that can remove connection */
pthread_rwlock_unlock(&vlink_conn_rwlock);
/* we are counting delay for total hashtable entries; delay for absolute max ht_count (256 msgs with max load, keyx period of 600s) is ~70ms */
delay = keyx_period * 1000000 / MAX(ht_count, 100);
for (i=0; i<keyx_cnt; i++) {
int is_d, is_reg, is_open, is_z;
ecp_sts_t now;
conn = keyx_conn[i];
is_d = is_reg = is_open = is_z = 0;
now = ecp_tm_get_s();
ecp_conn_lock(conn);
is_d = _ecp_conn_test_uflags(conn, VLINK_UFLAG_DISCONNECT);
is_reg = _ecp_conn_is_reg(conn);
if (is_reg) is_open = _ecp_conn_is_open(conn);
if (is_open) is_z = _ecp_conn_is_zombie(conn, now, KEYX_PERIOD * 3);
ecp_conn_unlock(conn);
if (is_d) {
ECPConnection *_conn = NULL;
LOG(LOG_DEBUG, "vlink_keyx: disconnect\n");
/* close all inbound connections */
while ((_conn = ecp_sock_gct_search(conn->sock, &conn->remote.key_perma.public))) {
ecp_conn_close(_conn);
ecp_conn_refcount_dec(_conn);
}
pthread_rwlock_wrlock(&vlink_conn_rwlock);
ht_remove_conn(vlink_conn, conn);
pthread_rwlock_unlock(&vlink_conn_rwlock);
ecp_conn_close(conn);
} else if (!is_reg || is_z) {
ECPConnection *_conn = NULL;
LOG(LOG_DEBUG, "vlink_keyx: reconnect\n");
rv = vlink_open_conn(conn->sock, &conn->remote, &_conn);
if (rv) {
LOG(LOG_ERR, "vlink_keyx: conn open err:%d\n", rv);
continue;
}
pthread_rwlock_wrlock(&vlink_conn_rwlock);
ht_remove_conn(vlink_conn, conn);
rv = ht_insert_conn(vlink_conn, _conn);
pthread_rwlock_unlock(&vlink_conn_rwlock);
ecp_conn_close(conn);
if (rv) {
LOG(LOG_ERR, "vlink_keyx: conn insert err:%d\n", rv);
ecp_conn_close(_conn);
}
} else if (is_open) {
ssize_t _rv;
_rv = ecp_send_keyx_req(conn, 1);
if (_rv < 0) LOG(LOG_ERR, "vlink_keyx: send keyx req err:%ld\n", _rv);
}
if (delay) {
/* randomize over delay / 2 and delay + delay / 2 */
rnd = arc4random_uniform(delay + 1);
usleep(delay / 2 + rnd);
}
}
} while (conn_next);
LOG(LOG_DEBUG, "vlink_keyx: connection count:%u\n", ht_count);
}
static void *_vlink_keyx(void *arg) {
ECPSocket *sock = arg;
uint32_t rnd;
time_t tv_sec;
int delay;
while (1) {
tv_sec = time(NULL);
vlink_keyx(sock, KEYX_PERIOD);
/* resolution is 1s */
delay = KEYX_PERIOD - (time(NULL) - tv_sec);
if (delay > 0) {
rnd = arc4random_uniform(delay + 1);
sleep(delay / 2 + rnd);
}
}
return NULL;
}
int vlink_start_keyx(ECPSocket *sock) {
int rv;
rv = pthread_create(&vlink_keyx_thd, NULL, _vlink_keyx, sock);
if (rv) return ECP_ERR;
return ECP_OK;
}
int vlink_init(ECPSocket *sock) {
ECPContext *ctx = sock->ctx;
int rv;
srv_config = srv_get_config();
rv = pthread_rwlock_init(&vlink_conn_rwlock, NULL);
if (rv) return ECP_ERR;
vlink_conn = ecp_ht_create_keys();
if (vlink_conn == NULL) {
pthread_rwlock_destroy(&vlink_conn_rwlock);
return ECP_ERR_ALLOC;
}
return ECP_OK;
}
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