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/*
* (C) 2006-2007 by Pablo Neira Ayuso <pablo@netfilter.org>
*
* 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 2 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, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#include <stdlib.h>
#include "cache.h"
#include "conntrackd.h"
#include <libnfnetlink/libnfnetlink.h>
#include <libnetfilter_conntrack/libnetfilter_conntrack.h>
#include <errno.h>
#include "us-conntrack.h"
#include <signal.h>
#include <sys/select.h>
#include "sync.h"
#include "network.h"
#include "buffer.h"
#include "debug.h"
static void do_mcast_handler_step(struct nethdr *net)
{
unsigned int query;
struct netpld *pld = NETHDR_DATA(net);
char __ct[nfct_maxsize()];
struct nf_conntrack *ct = (struct nf_conntrack *) __ct;
struct us_conntrack *u = NULL;
if (STATE_SYNC(sync)->recv(net))
return;
memset(ct, 0, sizeof(__ct));
/* XXX: check for malformed */
parse_netpld(ct, pld, &query);
switch(query) {
case NFCT_Q_CREATE:
retry:
if ((u = cache_add(STATE_SYNC(external), ct))) {
debug_ct(u->ct, "external new");
} else {
/*
* One certain connection A arrives to the cache but
* another existing connection B in the cache has
* the same configuration, therefore B clashes with A.
*/
if (errno == EEXIST) {
cache_del(STATE_SYNC(external), ct);
goto retry;
}
debug_ct(ct, "can't add");
}
break;
case NFCT_Q_UPDATE:
if ((u = cache_update_force(STATE_SYNC(external), ct))) {
debug_ct(u->ct, "external update");
} else
debug_ct(ct, "can't update");
break;
case NFCT_Q_DESTROY:
if (cache_del(STATE_SYNC(external), ct))
debug_ct(ct, "external destroy");
else
debug_ct(ct, "can't destroy");
break;
default:
dlog(STATE(log), "mcast received unknown query %d\n", query);
break;
}
}
/* handler for multicast messages received */
static void mcast_handler()
{
int numbytes, remain;
char __net[4096], *ptr = __net;
numbytes = mcast_recv(STATE_SYNC(mcast_server), __net, sizeof(__net));
if (numbytes <= 0)
return;
remain = numbytes;
while (remain > 0) {
struct nethdr *net = (struct nethdr *) ptr;
if (ntohs(net->len) > remain) {
dlog(STATE(log), "fragmented messages");
break;
}
debug("recv sq: %u fl:%u len:%u (rem:%d)\n",
ntohl(net->seq), ntohs(net->flags),
ntohs(net->len), remain);
if (handle_netmsg(net) == -1) {
STATE(malformed)++;
return;
}
do_mcast_handler_step(net);
ptr += net->len;
remain -= net->len;
}
}
static int init_sync(void)
{
int ret;
state.sync = malloc(sizeof(struct ct_sync_state));
if (!state.sync) {
dlog(STATE(log), "[FAIL] can't allocate memory for state sync");
return -1;
}
memset(state.sync, 0, sizeof(struct ct_sync_state));
if (CONFIG(flags) & SYNC_MODE_NACK)
STATE_SYNC(sync) = &nack;
else
/* default to persistent mode */
STATE_SYNC(sync) = ¬rack;
if (STATE_SYNC(sync)->init)
STATE_SYNC(sync)->init();
STATE_SYNC(internal) =
cache_create("internal",
STATE_SYNC(sync)->internal_cache_flags,
CONFIG(family),
STATE_SYNC(sync)->internal_cache_extra);
if (!STATE_SYNC(internal)) {
dlog(STATE(log), "[FAIL] can't allocate memory for "
"the internal cache");
return -1;
}
STATE_SYNC(external) =
cache_create("external",
STATE_SYNC(sync)->external_cache_flags,
CONFIG(family),
NULL);
if (!STATE_SYNC(external)) {
dlog(STATE(log), "[FAIL] can't allocate memory for the "
"external cache");
return -1;
}
/* multicast server to receive events from the wire */
STATE_SYNC(mcast_server) = mcast_server_create(&CONFIG(mcast));
if (STATE_SYNC(mcast_server) == NULL) {
dlog(STATE(log), "[FAIL] can't open multicast server!");
return -1;
}
/* multicast client to send events on the wire */
STATE_SYNC(mcast_client) = mcast_client_create(&CONFIG(mcast));
if (STATE_SYNC(mcast_client) == NULL) {
dlog(STATE(log), "[FAIL] can't open client multicast socket!");
return -1;
}
/* initialization of multicast sequence generation */
STATE_SYNC(last_seq_sent) = time(NULL);
return 0;
}
static int add_fds_to_set_sync(fd_set *readfds)
{
FD_SET(STATE_SYNC(mcast_server->fd), readfds);
return STATE_SYNC(mcast_server->fd);
}
static void run_sync(fd_set *readfds, int step)
{
/* multicast packet has been received */
if (FD_ISSET(STATE_SYNC(mcast_server->fd), readfds))
mcast_handler();
if (STATE_SYNC(sync)->run)
STATE_SYNC(sync)->run(step);
/* flush pending messages */
mcast_buffered_pending_netmsg(STATE_SYNC(mcast_client));
}
static void kill_sync()
{
cache_destroy(STATE_SYNC(internal));
cache_destroy(STATE_SYNC(external));
mcast_server_destroy(STATE_SYNC(mcast_server));
mcast_client_destroy(STATE_SYNC(mcast_client));
if (STATE_SYNC(sync)->kill)
STATE_SYNC(sync)->kill();
}
static dump_stats_sync(int fd)
{
char buf[512];
int size;
size = sprintf(buf, "multicast sequence tracking:\n"
"%20llu Pckts mfrm "
"%20llu Pckts lost\n\n",
STATE(malformed),
STATE_SYNC(packets_lost));
send(fd, buf, size, 0);
}
/* handler for requests coming via UNIX socket */
static int local_handler_sync(int fd, int type, void *data)
{
int ret = 1;
switch(type) {
case DUMP_INTERNAL:
ret = fork();
if (ret == 0) {
cache_dump(STATE_SYNC(internal), fd, NFCT_O_PLAIN);
exit(EXIT_SUCCESS);
}
break;
case DUMP_EXTERNAL:
ret = fork();
if (ret == 0) {
cache_dump(STATE_SYNC(external), fd, NFCT_O_PLAIN);
exit(EXIT_SUCCESS);
}
break;
case DUMP_INT_XML:
ret = fork();
if (ret == 0) {
cache_dump(STATE_SYNC(internal), fd, NFCT_O_XML);
exit(EXIT_SUCCESS);
}
break;
case DUMP_EXT_XML:
ret = fork();
if (ret == 0) {
cache_dump(STATE_SYNC(external), fd, NFCT_O_XML);
exit(EXIT_SUCCESS);
}
break;
case COMMIT:
ret = fork();
if (ret == 0) {
dlog(STATE(log), "[REQ] committing external cache");
cache_commit(STATE_SYNC(external));
exit(EXIT_SUCCESS);
}
break;
case FLUSH_CACHE:
dlog(STATE(log), "[REQ] flushing caches");
cache_flush(STATE_SYNC(internal));
cache_flush(STATE_SYNC(external));
break;
case KILL:
killer();
break;
case STATS:
cache_stats(STATE_SYNC(internal), fd);
cache_stats(STATE_SYNC(external), fd);
dump_traffic_stats(fd);
mcast_dump_stats(fd, STATE_SYNC(mcast_client),
STATE_SYNC(mcast_server));
dump_stats_sync(fd);
break;
default:
if (STATE_SYNC(sync)->local)
ret = STATE_SYNC(sync)->local(fd, type, data);
break;
}
return ret;
}
static void dump_sync(struct nf_conntrack *ct)
{
/* This is required by kernels < 2.6.20 */
nfct_attr_unset(ct, ATTR_TIMEOUT);
nfct_attr_unset(ct, ATTR_ORIG_COUNTER_BYTES);
nfct_attr_unset(ct, ATTR_ORIG_COUNTER_PACKETS);
nfct_attr_unset(ct, ATTR_REPL_COUNTER_BYTES);
nfct_attr_unset(ct, ATTR_REPL_COUNTER_PACKETS);
nfct_attr_unset(ct, ATTR_USE);
if (cache_update_force(STATE_SYNC(internal), ct))
debug_ct(ct, "resync");
}
static void mcast_send_sync(struct us_conntrack *u,
struct nf_conntrack *ct,
int query)
{
int len;
struct nethdr *net;
if (!state_helper_verdict(query, ct))
return;
net = BUILD_NETMSG(ct, query);
len = prepare_send_netmsg(STATE_SYNC(mcast_client), net);
mcast_buffered_send_netmsg(STATE_SYNC(mcast_client), net, len);
if (STATE_SYNC(sync)->send)
STATE_SYNC(sync)->send(net, u);
}
static int overrun_cb(enum nf_conntrack_msg_type type,
struct nf_conntrack *ct,
void *data)
{
struct us_conntrack *u;
if (ignore_conntrack(ct))
return NFCT_CB_CONTINUE;
/* This is required by kernels < 2.6.20 */
nfct_attr_unset(ct, ATTR_TIMEOUT);
nfct_attr_unset(ct, ATTR_ORIG_COUNTER_BYTES);
nfct_attr_unset(ct, ATTR_ORIG_COUNTER_PACKETS);
nfct_attr_unset(ct, ATTR_REPL_COUNTER_BYTES);
nfct_attr_unset(ct, ATTR_REPL_COUNTER_PACKETS);
nfct_attr_unset(ct, ATTR_USE);
if (!cache_test(STATE_SYNC(internal), ct)) {
if ((u = cache_update_force(STATE_SYNC(internal), ct))) {
int len;
debug_ct(u->ct, "overrun resync");
struct nethdr *net = BUILD_NETMSG(u->ct, NFCT_Q_UPDATE);
len = prepare_send_netmsg(STATE_SYNC(mcast_client),net);
mcast_buffered_send_netmsg(STATE_SYNC(mcast_client),
net, len);
if (STATE_SYNC(sync)->send)
STATE_SYNC(sync)->send(net, u);
}
}
return NFCT_CB_CONTINUE;
}
static int overrun_purge_step(void *data1, void *data2)
{
int ret;
struct nfct_handle *h = data1;
struct us_conntrack *u = data2;
ret = nfct_query(h, NFCT_Q_GET, u->ct);
if (ret == -1 && errno == ENOENT) {
int len;
struct nethdr *net = BUILD_NETMSG(u->ct, NFCT_Q_DESTROY);
debug_ct(u->ct, "overrun purge resync");
len = prepare_send_netmsg(STATE_SYNC(mcast_client), net);
mcast_buffered_send_netmsg(STATE_SYNC(mcast_client), net, len);
if (STATE_SYNC(sync)->send)
STATE_SYNC(sync)->send(net, u);
cache_del(STATE_SYNC(internal), u->ct);
}
return 0;
}
/* it's likely that we're losing events, just try to do our best here */
static void overrun_sync()
{
int ret;
struct nfct_handle *h;
int family = CONFIG(family);
h = nfct_open(CONNTRACK, 0);
if (!h) {
dlog(STATE(log), "can't open overrun handler");
return;
}
nfct_callback_register(h, NFCT_T_ALL, overrun_cb, NULL);
ret = nfct_query(h, NFCT_Q_DUMP, &family);
if (ret == -1)
dlog(STATE(log), "overrun query error %s", strerror(errno));
nfct_callback_unregister(h);
cache_iterate(STATE_SYNC(internal), h, overrun_purge_step);
nfct_close(h);
}
static void event_new_sync(struct nf_conntrack *ct)
{
struct us_conntrack *u;
/* required by linux kernel <= 2.6.20 */
nfct_attr_unset(ct, ATTR_ORIG_COUNTER_BYTES);
nfct_attr_unset(ct, ATTR_ORIG_COUNTER_PACKETS);
nfct_attr_unset(ct, ATTR_REPL_COUNTER_BYTES);
nfct_attr_unset(ct, ATTR_REPL_COUNTER_PACKETS);
nfct_attr_unset(ct, ATTR_TIMEOUT);
retry:
if ((u = cache_add(STATE_SYNC(internal), ct))) {
mcast_send_sync(u, ct, NFCT_Q_CREATE);
debug_ct(u->ct, "internal new");
} else {
if (errno == EEXIST) {
cache_del(STATE_SYNC(internal), ct);
mcast_send_sync(NULL, ct, NFCT_Q_DESTROY);
goto retry;
}
dlog(STATE(log), "can't add to internal cache: "
"%s\n", strerror(errno));
debug_ct(ct, "can't add");
}
}
static void event_update_sync(struct nf_conntrack *ct)
{
struct us_conntrack *u;
nfct_attr_unset(ct, ATTR_TIMEOUT);
if ((u = cache_update_force(STATE_SYNC(internal), ct)) == NULL) {
debug_ct(ct, "can't update");
return;
}
debug_ct(u->ct, "internal update");
mcast_send_sync(u, ct, NFCT_Q_UPDATE);
}
static int event_destroy_sync(struct nf_conntrack *ct)
{
nfct_attr_unset(ct, ATTR_TIMEOUT);
if (cache_del(STATE_SYNC(internal), ct)) {
mcast_send_sync(NULL, ct, NFCT_Q_DESTROY);
debug_ct(ct, "internal destroy");
} else
debug_ct(ct, "can't destroy");
}
struct ct_mode sync_mode = {
.init = init_sync,
.add_fds_to_set = add_fds_to_set_sync,
.run = run_sync,
.local = local_handler_sync,
.kill = kill_sync,
.dump = dump_sync,
.overrun = overrun_sync,
.event_new = event_new_sync,
.event_upd = event_update_sync,
.event_dst = event_destroy_sync
};
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