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/*
* Copyright 2014-2015 Con Kolivas
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the Free
* Software Foundation; either version 3 of the License, or (at your option)
* any later version. See COPYING for more details.
*/
#include "config.h"
#include <arpa/inet.h>
#include <netinet/in.h>
#include <sys/epoll.h>
#include <sys/socket.h>
#include <string.h>
#include <unistd.h>
#include "ckpool.h"
#include "libckpool.h"
#include "uthash.h"
#include "utlist.h"
#define MAX_MSGSIZE 1024
#define SOI (sizeof(int))
struct client_instance {
/* For clients hashtable */
UT_hash_handle hh;
int64_t id;
int fd;
/* Reference count for when this instance is used outside of the
* connector_data lock */
int ref;
/* For dead_clients list */
struct client_instance *next;
struct client_instance *prev;
struct sockaddr address;
char address_name[INET6_ADDRSTRLEN];
/* Which serverurl is this instance connected to */
int server;
char buf[PAGESIZE];
int bufofs;
bool passthrough;
};
typedef struct client_instance client_instance_t;
struct sender_send {
struct sender_send *next;
struct sender_send *prev;
client_instance_t *client;
char *buf;
int len;
};
typedef struct sender_send sender_send_t;
/* Private data for the connector */
struct connector_data {
ckpool_t *ckp;
cklock_t lock;
proc_instance_t *pi;
/* Array of server fds */
int *serverfd;
/* All time count of clients connected */
int nfds;
bool accept;
pthread_t pth_sender;
pthread_t pth_receiver;
/* For the hashtable of all clients */
client_instance_t *clients;
/* Linked list of dead clients no longer in use but may still have references */
client_instance_t *dead_clients;
int clients_generated;
int dead_generated;
int64_t client_id;
/* For the linked list of pending sends */
sender_send_t *sender_sends;
sender_send_t *delayed_sends;
int64_t sends_generated;
int64_t sends_delayed;
/* For protecting the pending sends list */
pthread_mutex_t sender_lock;
pthread_cond_t sender_cond;
};
typedef struct connector_data cdata_t;
/* Increase the reference count of instance */
static void __inc_instance_ref(client_instance_t *client)
{
client->ref++;
}
/* Increase the reference count of instance */
static void __dec_instance_ref(client_instance_t *client)
{
client->ref--;
}
static void dec_instance_ref(cdata_t *cdata, client_instance_t *client)
{
ck_wlock(&cdata->lock);
__dec_instance_ref(client);
ck_wunlock(&cdata->lock);
}
/* Accepts incoming connections on the server socket and generates client
* instances */
static int accept_client(cdata_t *cdata, const int epfd, const uint64_t server)
{
int fd, port, no_clients, sockd;
ckpool_t *ckp = cdata->ckp;
client_instance_t *client;
struct epoll_event event;
socklen_t address_len;
ck_rlock(&cdata->lock);
no_clients = HASH_COUNT(cdata->clients);
ck_runlock(&cdata->lock);
if (unlikely(ckp->maxclients && no_clients >= ckp->maxclients)) {
LOGWARNING("Server full with %d clients", no_clients);
return 0;
}
sockd = cdata->serverfd[server];
client = ckzalloc(sizeof(client_instance_t));
client->server = server;
address_len = sizeof(client->address);
fd = accept(sockd, &client->address, &address_len);
if (unlikely(fd < 0)) {
/* Handle these errors gracefully should we ever share this
* socket */
if (errno == EAGAIN || errno == EWOULDBLOCK || errno == ECONNABORTED) {
LOGERR("Recoverable error on accept in accept_client");
return 0;
}
LOGERR("Failed to accept on socket %d in acceptor", sockd);
dealloc(client);
return -1;
}
switch (client->address.sa_family) {
const struct sockaddr_in *inet4_in;
const struct sockaddr_in6 *inet6_in;
case AF_INET:
inet4_in = (struct sockaddr_in *)&client->address;
inet_ntop(AF_INET, &inet4_in->sin_addr, client->address_name, INET6_ADDRSTRLEN);
port = htons(inet4_in->sin_port);
break;
case AF_INET6:
inet6_in = (struct sockaddr_in6 *)&client->address;
inet_ntop(AF_INET6, &inet6_in->sin6_addr, client->address_name, INET6_ADDRSTRLEN);
port = htons(inet6_in->sin6_port);
break;
default:
LOGWARNING("Unknown INET type for client %d on socket %d",
cdata->nfds, fd);
Close(fd);
free(client);
return 0;
}
keep_sockalive(fd);
nolinger_socket(fd);
LOGINFO("Connected new client %d on socket %d to %d active clients from %s:%d",
cdata->nfds, fd, no_clients, client->address_name, port);
client->fd = fd;
event.data.ptr = client;
event.events = EPOLLIN;
if (unlikely(epoll_ctl(epfd, EPOLL_CTL_ADD, fd, &event) < 0)) {
LOGERR("Failed to epoll_ctl add in accept_client");
free(client);
return 0;
}
/* We increase the ref count on this client as epoll creates a pointer
* to it. We drop that reference when the socket is closed which
* removes it automatically from the epoll list. */
__inc_instance_ref(client);
ck_wlock(&cdata->lock);
cdata->clients_generated++;
client->id = cdata->client_id++;
HASH_ADD_I64(cdata->clients, id, client);
cdata->nfds++;
ck_wunlock(&cdata->lock);
return 1;
}
/* Client must hold a reference count */
static int drop_client(cdata_t *cdata, client_instance_t *client)
{
int64_t client_id = 0;
int fd;
ck_wlock(&cdata->lock);
fd = client->fd;
if (fd != -1) {
client_id = client->id;
Close(client->fd);
HASH_DEL(cdata->clients, client);
DL_APPEND(cdata->dead_clients, client);
/* This is the reference to this client's presence in the
* epoll list. */
__dec_instance_ref(client);
cdata->dead_generated++;
}
ck_wunlock(&cdata->lock);
if (fd > -1)
LOGINFO("Connector dropped client %"PRId64" fd %d", client_id, fd);
return fd;
}
static void stratifier_drop_client(ckpool_t *ckp, int64_t id)
{
char buf[256];
sprintf(buf, "dropclient=%ld", id);
send_proc(ckp->stratifier, buf);
}
/* Invalidate this instance. Remove them from the hashtables we look up
* regularly but keep the instances in a linked list until their ref count
* drops to zero when we can remove them lazily. Client must hold a reference
* count. */
static int invalidate_client(ckpool_t *ckp, cdata_t *cdata, client_instance_t *client)
{
client_instance_t *tmp;
int ret;
ret = drop_client(cdata, client);
if (ckp->passthrough)
goto out;
stratifier_drop_client(ckp, client->id);
/* Cull old unused clients lazily when there are no more reference
* counts for them. */
ck_wlock(&cdata->lock);
DL_FOREACH_SAFE(cdata->dead_clients, client, tmp) {
if (!client->ref) {
DL_DELETE(cdata->dead_clients, client);
LOGINFO("Connector discarding client %ld", client->id);
dealloc(client);
}
}
ck_wunlock(&cdata->lock);
out:
return ret;
}
static void send_client(cdata_t *cdata, int64_t id, char *buf);
/* Client is holding a reference count from being on the epoll list */
static void parse_client_msg(cdata_t *cdata, client_instance_t *client)
{
int buflen, ret, selfail = 0;
ckpool_t *ckp = cdata->ckp;
char msg[PAGESIZE], *eol;
json_t *val;
retry:
/* Select should always return positive after poll unless we have
* been disconnected. On retries, decdatade whether we should do further
* reads based on select readiness and only fail if we get an error. */
ret = wait_read_select(client->fd, 0);
if (ret < 1) {
if (ret > selfail)
return;
LOGINFO("Client fd %d disconnected - select fail with bufofs %d ret %d errno %d %s",
client->fd, client->bufofs, ret, errno, ret && errno ? strerror(errno) : "");
invalidate_client(ckp, cdata, client);
return;
}
selfail = -1;
buflen = PAGESIZE - client->bufofs;
ret = recv(client->fd, client->buf + client->bufofs, buflen, 0);
if (ret < 1) {
/* We should have something to read if called since poll set
* this fd's revents status so if there's nothing it means the
* client has disconnected. */
LOGINFO("Client fd %d disconnected - recv fail with bufofs %d ret %d errno %d %s",
client->fd, client->bufofs, ret, errno, ret && errno ? strerror(errno) : "");
invalidate_client(ckp, cdata, client);
return;
}
client->bufofs += ret;
reparse:
eol = memchr(client->buf, '\n', client->bufofs);
if (!eol) {
if (unlikely(client->bufofs > MAX_MSGSIZE)) {
LOGWARNING("Client fd %d overloaded buffer without EOL, disconnecting", client->fd);
invalidate_client(ckp, cdata, client);
return;
}
goto retry;
}
/* Do something useful with this message now */
buflen = eol - client->buf + 1;
if (unlikely(buflen > MAX_MSGSIZE)) {
LOGWARNING("Client fd %d message oversize, disconnecting", client->fd);
invalidate_client(ckp, cdata, client);
return;
}
memcpy(msg, client->buf, buflen);
msg[buflen] = '\0';
client->bufofs -= buflen;
memmove(client->buf, client->buf + buflen, client->bufofs);
client->buf[client->bufofs] = '\0';
if (!(val = json_loads(msg, 0, NULL))) {
char *buf = strdup("Invalid JSON, disconnecting\n");
LOGINFO("Client id %ld sent invalid json message %s", client->id, msg);
send_client(cdata, client->id, buf);
invalidate_client(ckp, cdata, client);
return;
} else {
int64_t passthrough_id;
char *s;
if (client->passthrough) {
passthrough_id = json_integer_value(json_object_get(val, "client_id"));
json_object_del(val, "client_id");
passthrough_id = (client->id << 32) | passthrough_id;
json_object_set_new_nocheck(val, "client_id", json_integer(passthrough_id));
} else
json_object_set_new_nocheck(val, "client_id", json_integer(client->id));
json_object_set_new_nocheck(val, "address", json_string(client->address_name));
json_object_set_new_nocheck(val, "server", json_integer(client->server));
s = json_dumps(val, 0);
/* Do not send messages of clients we've already dropped. We
* do this unlocked as the occasional false negative can be
* filtered by the stratifier. */
if (likely(client->fd != -1)) {
if (ckp->passthrough)
send_proc(ckp->generator, s);
else
send_proc(ckp->stratifier, s);
}
free(s);
json_decref(val);
}
if (client->bufofs)
goto reparse;
goto retry;
}
/* Waits on fds ready to read on from the list stored in conn_instance and
* handles the incoming messages */
void *receiver(void *arg)
{
cdata_t *cdata = (cdata_t *)arg;
int ret, epfd, i, serverfds;
struct epoll_event event;
rename_proc("creceiver");
epfd = epoll_create1(EPOLL_CLOEXEC);
if (epfd < 0) {
LOGEMERG("FATAL: Failed to create epoll in receiver");
return NULL;
}
serverfds = cdata->ckp->serverurls;
/* Add all the serverfds to the epoll */
for (i = 0; i < serverfds; i++) {
/* The small values will be easily identifiable compared to
* pointers */
event.data.u64 = i;
event.events = EPOLLIN;
ret = epoll_ctl(epfd, EPOLL_CTL_ADD, cdata->serverfd[i], &event);
if (ret < 0) {
LOGEMERG("FATAL: Failed to add epfd %d to epoll_ctl", epfd);
return NULL;
}
/* When we first start we listen to as many connections as
* possible. Once we start polling we drop the listen to the
* minimum to effectively ratelimit how fast we can receive
* connections. */
LOGDEBUG("Dropping listen backlog to 0");
listen(cdata->serverfd[i], 0);
}
while (42) {
client_instance_t *client;
while (unlikely(!cdata->accept))
cksleep_ms(100);
ret = epoll_wait(epfd, &event, 1, 1000);
if (unlikely(ret == -1)) {
LOGEMERG("FATAL: Failed to epoll_wait in receiver");
break;
}
if (unlikely(!ret))
continue;
if (event.data.u64 < (uint64_t)serverfds) {
ret = accept_client(cdata, epfd, event.data.u64);
if (unlikely(ret < 0)) {
LOGEMERG("FATAL: Failed to accept_client in receiver");
break;
}
continue;
}
client = event.data.ptr;
if ((event.events & EPOLLERR) || (event.events & EPOLLHUP)) {
/* Client disconnected */
LOGDEBUG("Client fd %d HUP in epoll", client->fd);
invalidate_client(cdata->pi->ckp, cdata, client);
continue;
}
parse_client_msg(cdata, client);
}
return NULL;
}
/* Use a thread to send queued messages, using select() to only send to sockets
* ready for writing immediately to not delay other messages. */
void *sender(void *arg)
{
cdata_t *cdata = (cdata_t *)arg;
ckpool_t *ckp = cdata->ckp;
bool sent = false;
rename_proc("csender");
while (42) {
sender_send_t *sender_send;
client_instance_t *client;
int ret, fd, ofs = 0;
mutex_lock(&cdata->sender_lock);
/* Poll every 100ms if there are no new sends. Re-examine
* delayed sends immediately after a successful send in case
* endless new sends more frequently end up starving the
* delayed sends. */
if (!cdata->sender_sends && !sent) {
const ts_t polltime = {0, 100000000};
ts_t timeout_ts;
ts_realtime(&timeout_ts);
timeraddspec(&timeout_ts, &polltime);
pthread_cond_timedwait(&cdata->sender_cond, &cdata->sender_lock, &timeout_ts);
}
sender_send = cdata->sender_sends;
if (sender_send)
DL_DELETE(cdata->sender_sends, sender_send);
mutex_unlock(&cdata->sender_lock);
sent = false;
/* Service delayed sends only if we have timed out on the
* conditional with no new sends appearing or have just
* serviced another message successfully. */
if (!sender_send) {
if (!cdata->delayed_sends)
continue;
sender_send = cdata->delayed_sends;
DL_DELETE(cdata->delayed_sends, sender_send);
}
client = sender_send->client;
ck_rlock(&cdata->lock);
fd = client->fd;
ck_runlock(&cdata->lock);
if (fd == -1) {
LOGDEBUG("Discarding message sent to invalidated client");
goto contfree;
}
/* If this socket is not ready to receive data from us, put the
* send back on the tail of the list and decrease the timeout
* to poll to either look for a client that is ready or poll
* select on this one */
ret = wait_write_select(fd, 0);
if (ret < 1) {
if (ret < 0) {
LOGINFO("Client id %ld fd %d interrupted", client->id, fd);
invalidate_client(ckp, cdata, client);
goto contfree;
}
LOGDEBUG("Client %"PRId64" not ready for writes", client->id);
/* Append it to the tail of the delayed sends list.
* This is the only function that alters it so no
* locking is required. Keep the client ref. */
DL_APPEND(cdata->delayed_sends, sender_send);
cdata->sends_delayed++;
continue;
}
sent = true;
while (sender_send->len) {
ret = send(fd, sender_send->buf + ofs, sender_send->len , 0);
if (unlikely(ret < 0)) {
LOGINFO("Client id %ld fd %d disconnected", client->id, fd);
invalidate_client(ckp, cdata, client);
break;
}
ofs += ret;
sender_send->len -= ret;
}
contfree:
free(sender_send->buf);
free(sender_send);
dec_instance_ref(cdata, client);
}
return NULL;
}
/* Send a client by id a heap allocated buffer, allowing this function to
* free the ram. */
static void send_client(cdata_t *cdata, int64_t id, char *buf)
{
sender_send_t *sender_send;
client_instance_t *client;
int fd = -1, len;
if (unlikely(!buf)) {
LOGWARNING("Connector send_client sent a null buffer");
return;
}
len = strlen(buf);
if (unlikely(!len)) {
LOGWARNING("Connector send_client sent a zero length buffer");
free(buf);
return;
}
ck_ilock(&cdata->lock);
HASH_FIND_I64(cdata->clients, &id, client);
if (likely(client)) {
ck_ulock(&cdata->lock);
fd = client->fd;
/* Grab a reference to this client until the sender_send has
* completed processing. */
__inc_instance_ref(client);
ck_dwilock(&cdata->lock);
}
ck_uilock(&cdata->lock);
if (unlikely(fd == -1)) {
ckpool_t *ckp = cdata->ckp;
if (client) {
/* This shouldn't happen */
LOGWARNING("Client id %ld disconnected but fd already invalidated!", id);
invalidate_client(ckp, cdata, client);
} else {
LOGINFO("Connector failed to find client id %ld to send to", id);
}
free(buf);
return;
}
sender_send = ckzalloc(sizeof(sender_send_t));
sender_send->client = client;
sender_send->buf = buf;
sender_send->len = len;
mutex_lock(&cdata->sender_lock);
cdata->sends_generated++;
DL_APPEND(cdata->sender_sends, sender_send);
pthread_cond_signal(&cdata->sender_cond);
mutex_unlock(&cdata->sender_lock);
}
static client_instance_t *ref_client_by_id(cdata_t *cdata, int64_t id)
{
client_instance_t *client;
ck_ilock(&cdata->lock);
HASH_FIND_I64(cdata->clients, &id, client);
if (client) {
ck_ulock(&cdata->lock);
__inc_instance_ref(client);
ck_dwilock(&cdata->lock);
}
ck_uilock(&cdata->lock);
return client;
}
static void passthrough_client(cdata_t *cdata, client_instance_t *client)
{
char *buf;
LOGINFO("Connector adding passthrough client %"PRId64, client->id);
client->passthrough = true;
ASPRINTF(&buf, "{\"result\": true}\n");
send_client(cdata, client->id, buf);
}
static void process_client_msg(cdata_t *cdata, const char *buf)
{
int64_t client_id64, client_id;
json_t *json_msg;
char *msg;
json_msg = json_loads(buf, 0, NULL);
if (unlikely(!json_msg)) {
LOGWARNING("Invalid json message: %s", buf);
return;
}
/* Extract the client id from the json message and remove its entry */
client_id64 = json_integer_value(json_object_get(json_msg, "client_id"));
json_object_del(json_msg, "client_id");
if (client_id64 > 0xffffffffll) {
int64_t passthrough_id;
passthrough_id = client_id64 & 0xffffffffll;
client_id = client_id64 >> 32;
json_object_set_new_nocheck(json_msg, "client_id", json_integer(passthrough_id));
} else
client_id = client_id64;
msg = json_dumps(json_msg, JSON_EOL);
send_client(cdata, client_id, msg);
json_decref(json_msg);
}
static char *connector_stats(cdata_t *cdata)
{
json_t *val = json_object(), *subval;
client_instance_t *client;
int objects, generated;
sender_send_t *send;
int64_t memsize;
char *buf;
ck_rlock(&cdata->lock);
objects = HASH_COUNT(cdata->clients);
memsize = SAFE_HASH_OVERHEAD(cdata->clients) + sizeof(client_instance_t) * objects;
generated = cdata->clients_generated;
ck_runlock(&cdata->lock);
JSON_CPACK(subval, "{si,si,si}", "count", objects, "memory", memsize, "generated", generated);
json_set_object(val, "clients", subval);
ck_rlock(&cdata->lock);
DL_COUNT(cdata->dead_clients, client, objects);
generated = cdata->dead_generated;
ck_runlock(&cdata->lock);
memsize = objects * sizeof(client_instance_t);
JSON_CPACK(subval, "{si,si,si}", "count", objects, "memory", memsize, "generated", generated);
json_set_object(val, "dead", subval);
objects = 0;
memsize = 0;
mutex_lock(&cdata->sender_lock);
generated = cdata->sends_generated;
DL_FOREACH(cdata->sender_sends, send) {
objects++;
memsize += sizeof(sender_send_t) + send->len + 1;
}
mutex_unlock(&cdata->sender_lock);
JSON_CPACK(subval, "{si,si,si}", "count", objects, "memory", memsize, "generated", generated);
json_set_object(val, "sends", subval);
objects = 0;
memsize = 0;
mutex_lock(&cdata->sender_lock);
generated = cdata->sends_delayed;
DL_FOREACH(cdata->delayed_sends, send) {
objects++;
memsize += sizeof(sender_send_t) + send->len + 1;
}
mutex_unlock(&cdata->sender_lock);
JSON_CPACK(subval, "{si,si,si}", "count", objects, "memory", memsize, "generated", generated);
json_set_object(val, "delays", subval);
buf = json_dumps(val, JSON_NO_UTF8 | JSON_PRESERVE_ORDER);
json_decref(val);
LOGNOTICE("Connector stats: %s", buf);
return buf;
}
static int connector_loop(proc_instance_t *pi, cdata_t *cdata)
{
int sockd = -1, ret = 0, selret;
int64_t client_id64, client_id;
unixsock_t *us = &pi->us;
ckpool_t *ckp = pi->ckp;
uint8_t test_cycle = 0;
char *buf = NULL;
do {
selret = wait_read_select(us->sockd, 5);
if (!selret && !ping_main(ckp)) {
LOGEMERG("Connector failed to ping main process, exiting");
ret = 1;
goto out;
}
} while (selret < 1);
LOGWARNING("%s connector ready", ckp->name);
retry:
if (!++test_cycle) {
/* Test for pthread join every 256 messages */
if (unlikely(!pthread_tryjoin_np(cdata->pth_sender, NULL))) {
LOGEMERG("Connector sender thread shutdown, exiting");
ret = 1;
goto out;
}
if (unlikely(!pthread_tryjoin_np(cdata->pth_receiver, NULL))) {
LOGEMERG("Connector receiver thread shutdown, exiting");
ret = 1;
goto out;
}
}
Close(sockd);
sockd = accept(us->sockd, NULL, NULL);
if (sockd < 0) {
LOGEMERG("Failed to accept on connector socket, exiting");
ret = 1;
goto out;
}
dealloc(buf);
buf = recv_unix_msg(sockd);
if (!buf) {
LOGWARNING("Failed to get message in connector_loop");
goto retry;
}
LOGDEBUG("Connector received message: %s", buf);
/* The bulk of the messages will be json messages to send to clients
* so look for them first. */
if (likely(buf[0] == '{')) {
process_client_msg(cdata, buf);
} else if (cmdmatch(buf, "dropclient")) {
client_instance_t *client;
ret = sscanf(buf, "dropclient=%ld", &client_id64);
if (ret < 0) {
LOGDEBUG("Connector failed to parse dropclient command: %s", buf);
goto retry;
}
client_id = client_id64 & 0xffffffffll;
client = ref_client_by_id(cdata, client_id);
if (unlikely(!client)) {
LOGINFO("Connector failed to find client id %ld to drop", client_id);
goto retry;
}
ret = invalidate_client(ckp, cdata, client);
dec_instance_ref(cdata, client);
if (ret >= 0)
LOGINFO("Connector dropped client id: %ld", client_id);
} else if (cmdmatch(buf, "ping")) {
LOGDEBUG("Connector received ping request");
send_unix_msg(sockd, "pong");
} else if (cmdmatch(buf, "accept")) {
LOGDEBUG("Connector received accept signal");
cdata->accept = true;
} else if (cmdmatch(buf, "reject")) {
LOGDEBUG("Connector received reject signal");
cdata->accept = false;
} else if (cmdmatch(buf, "stats")) {
char *msg;
LOGDEBUG("Connector received stats request");
msg = connector_stats(cdata);
send_unix_msg(sockd, msg);
} else if (cmdmatch(buf, "loglevel")) {
sscanf(buf, "loglevel=%d", &ckp->loglevel);
} else if (cmdmatch(buf, "shutdown")) {
goto out;
} else if (cmdmatch(buf, "passthrough")) {
client_instance_t *client;
ret = sscanf(buf, "passthrough=%ld", &client_id);
if (ret < 0) {
LOGDEBUG("Connector failed to parse passthrough command: %s", buf);
goto retry;
}
client = ref_client_by_id(cdata, client_id);
if (unlikely(!client)) {
LOGINFO("Connector failed to find client id %ld to pass through", client_id);
goto retry;
}
passthrough_client(cdata, client);
dec_instance_ref(cdata, client);
} else if (cmdmatch(buf, "getxfd")) {
int fdno = -1;
sscanf(buf, "getxfd%d", &fdno);
if (fdno > -1 && fdno < ckp->serverurls)
send_fd(cdata->serverfd[fdno], sockd);
} else
LOGWARNING("Unhandled connector message: %s", buf);
goto retry;
out:
Close(sockd);
dealloc(buf);
return ret;
}
int connector(proc_instance_t *pi)
{
cdata_t *cdata = ckzalloc(sizeof(cdata_t));
ckpool_t *ckp = pi->ckp;
int sockd, ret = 0, i;
const int on = 1;
int tries = 0;
LOGWARNING("%s connector starting", ckp->name);
ckp->data = cdata;
cdata->ckp = ckp;
if (!ckp->serverurls)
cdata->serverfd = ckalloc(sizeof(int *));
else
cdata->serverfd = ckalloc(sizeof(int *) * ckp->serverurls);
if (!ckp->serverurls) {
/* No serverurls have been specified. Bind to all interfaces
* on default sockets. */
struct sockaddr_in serv_addr;
sockd = socket(AF_INET, SOCK_STREAM, 0);
if (sockd < 0) {
LOGERR("Connector failed to open socket");
ret = 1;
goto out;
}
setsockopt(sockd, SOL_SOCKET, SO_REUSEADDR, &on, sizeof(on));
memset(&serv_addr, 0, sizeof(serv_addr));
serv_addr.sin_family = AF_INET;
serv_addr.sin_addr.s_addr = htonl(INADDR_ANY);
serv_addr.sin_port = htons(ckp->proxy ? 3334 : 3333);
do {
ret = bind(sockd, (struct sockaddr*)&serv_addr, sizeof(serv_addr));
if (!ret)
break;
LOGWARNING("Connector failed to bind to socket, retrying in 5s");
sleep(5);
} while (++tries < 25);
if (ret < 0) {
LOGERR("Connector failed to bind to socket for 2 minutes");
Close(sockd);
goto out;
}
if (listen(sockd, SOMAXCONN) < 0) {
LOGERR("Connector failed to listen on socket");
Close(sockd);
goto out;
}
cdata->serverfd[0] = sockd;
} else {
for (i = 0; i < ckp->serverurls; i++) {
char oldurl[INET6_ADDRSTRLEN], oldport[8];
char newurl[INET6_ADDRSTRLEN], newport[8];
char *serverurl = ckp->serverurl[i];
if (!url_from_serverurl(serverurl, newurl, newport)) {
LOGWARNING("Failed to extract resolved url from %s", serverurl);
ret = 1;
goto out;
}
sockd = ckp->oldconnfd[i];
if (url_from_socket(sockd, oldurl, oldport)) {
if (strcmp(newurl, oldurl) || strcmp(newport, oldport)) {
LOGWARNING("Handed over socket url %s:%s does not match config %s:%s, creating new socket",
oldurl, oldport, newurl, newport);
Close(sockd);
}
}
do {
if (sockd > 0)
break;
sockd = bind_socket(newurl, newport);
if (sockd > 0)
break;
LOGWARNING("Connector failed to bind to socket, retrying in 5s");
sleep(5);
} while (++tries < 25);
if (sockd < 0) {
LOGERR("Connector failed to bind to socket for 2 minutes");
ret = 1;
goto out;
}
if (listen(sockd, SOMAXCONN) < 0) {
LOGERR("Connector failed to listen on socket");
Close(sockd);
goto out;
}
cdata->serverfd[i] = sockd;
}
}
if (tries)
LOGWARNING("Connector successfully bound to socket");
cklock_init(&cdata->lock);
cdata->pi = pi;
cdata->nfds = 0;
cdata->client_id = 1;
mutex_init(&cdata->sender_lock);
cond_init(&cdata->sender_cond);
create_pthread(&cdata->pth_sender, sender, cdata);
create_pthread(&cdata->pth_receiver, receiver, cdata);
ret = connector_loop(pi, cdata);
out:
dealloc(ckp->data);
return process_exit(ckp, pi, ret);
}