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airproxy.c
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airproxy.c
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/* Airhook TCP proxy, copyright 2001 Dan Egnor.
* This software comes with ABSOLUTELY NO WARRANTY. You may redistribute it
* under the terms of the GNU General Public License, version 2.
* See the file COPYING for more details. */
#include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <netdb.h>
#include <sys/types.h>
#include <sys/time.h>
#include <signal.h>
#include <unistd.h>
#include <getopt.h>
#include <syslog.h>
#include <fcntl.h>
#include <errno.h>
#include <assert.h>
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <time.h>
#include "airhook.h"
enum { packet_size = 1500 };
enum { allocation_size = 8192 };
enum { escape_value = airhook_size - 1 };
struct owner {
unsigned int use_count;
unsigned char data[1];
};
struct memory {
struct owner *owner;
unsigned char *begin,*end;
};
enum {
input_closed = 1,
output_closed = 2,
is_dirty = 128,
};
struct options {
struct airhook_time keepalive;
struct airhook_time timeout;
struct sockaddr_in remote;
};
struct socket {
signed short handle;
struct memory incoming[256];
struct airhook_outgoing outgoing[256];
struct airhook_outgoing handshake;
unsigned char out_head,out_tail;
unsigned char in_tail;
unsigned char flags,out_flags;
unsigned short out_pending;
};
static struct memory current = { NULL, NULL, NULL };
static unsigned int socket_count = 0;
static struct socket *active = NULL;
static unsigned int active_size = 0;
static unsigned short *handle = NULL;
static unsigned int handle_size = 0;
static struct memory get_memory(unsigned long min) {
struct memory mem = current;
unsigned long size;
if (NULL != mem.owner && mem.end - mem.begin >= min) {
current.owner = NULL;
return mem;
}
size = min + sizeof(*mem.owner) - sizeof(mem.owner->data);
if (size < allocation_size) size = allocation_size;
mem.owner = malloc(size);
if (NULL == mem.owner) {
syslog(LOG_ERR,"malloc: %m");
exit(1);
}
mem.begin = &mem.owner->data[0];
mem.end = &mem.owner->data[size
- sizeof(*mem.owner)
+ sizeof(mem.owner->data)];
mem.owner->use_count = 1;
return mem;
}
static void release_memory(struct memory mem) {
if (NULL != current.owner) {
if (current.end - current.begin > mem.end - mem.begin) {
if (0 == --mem.owner->use_count) free(mem.owner);
return;
}
if (0 == --current.owner->use_count) free(current.owner);
}
current = mem;
}
static void release_outgoing(struct airhook_outgoing *out) {
const struct airhook_outgoing_status status =
airhook_outgoing_status(out);
if (ah_discarded != status.state) {
const struct memory mem = {
(struct owner *) status.user,
(unsigned char *) status.data.begin,
(unsigned char *) status.data.end
};
airhook_discard_outgoing(out);
release_memory(mem);
}
}
static unsigned char inc(unsigned char ch) {
++ch;
if (escape_value == ch) ++ch;
return ch;
}
static void close_socket(int i) {
unsigned char c = active[i].in_tail;
do {
if (NULL != active[i].incoming[c].owner)
release_memory(active[i].incoming[c]);
c = inc(c);
} while (c != active[i].in_tail);
while (active[i].out_tail != active[i].out_head) {
release_outgoing(&active[i].outgoing[active[i].out_tail]);
active[i].out_tail = inc(active[i].out_tail);
}
release_outgoing(&active[i].handshake);
if (active[i].handle < 0) {
assert(-active[i].handle < handle_size);
handle[-active[i].handle] = 0;
}
active[i].handle = 0;
close(i);
--socket_count;
}
static void send_handshake(struct airhook_socket *air,int i) {
struct memory mem = get_memory(5);
const struct airhook_data data = { mem.begin, mem.begin + 5 };
++mem.owner->use_count;
mem.begin += data.end - data.begin;
release_memory(mem);
mem.end = mem.begin;
mem.begin -= data.end - data.begin;
mem.begin[0] = active[i].handle >> 8; /* BUG? */
mem.begin[1] = active[i].handle & 0xFF;
mem.begin[2] = escape_value;
mem.begin[3] = active[i].out_flags;
mem.begin[4] = active[i].in_tail;
airhook_init_outgoing(&active[i].handshake,air,data,mem.owner);
}
static void open_socket(struct airhook_socket *air,int i) {
unsigned char c = 0;
if (i >= active_size) {
active = realloc(active,sizeof(*active)*(1 + 2*i));
if (NULL == active) {
syslog(LOG_ERR,"malloc: %m");
exit(1);
}
while (active_size <= 2*i) active[active_size++].handle = 0;
}
assert(0 == active[i].handle);
do {
active[i].incoming[c].owner = NULL;
c = inc(c);
} while (0 != c);
active[i].handle = i;
active[i].out_head = active[i].out_tail = 0;
active[i].in_tail = 0;
active[i].flags = active[i].out_flags = 0;
active[i].out_pending = 0;
fcntl(i,F_SETFL,O_NONBLOCK);
++socket_count;
}
static void reset(void) {
int i;
for (i = 0; i < active_size; ++i)
if (0 != active[i].handle && (active[i].flags & is_dirty))
close_socket(i);
}
static void run(
struct airhook_socket *air,
struct options opt,int udp,int tcp)
{
unsigned long last_session = 0;
struct timeval last,now;
struct airhook_time idle;
unsigned char buffer[packet_size];
gettimeofday(&now,NULL);
last = now;
idle.second = 2 * opt.keepalive.second;
idle.nanosecond = 2 * opt.keepalive.nanosecond;
if (idle.nanosecond > 1000000000) {
idle.nanosecond -= 1000000000;
++idle.second;
}
if (0 == tcp) {
tcp = dup(tcp);
if (tcp < 0) {
syslog(LOG_ERR,"TCP socket: %m");
exit(1);
}
close(0);
open_socket(air,tcp);
send_handshake(air,tcp);
tcp = -1;
}
for (;;) {
int i,r;
int delay_update = 0;
fd_set rfd,wfd;
struct airhook_data data;
struct airhook_time next;
struct airhook_status status;
struct airhook_outgoing *out;
status = airhook_status(air);
if (status.remote_session != last_session) {
last_session = status.remote_session;
reset();
}
/* Discard confirmed data. */
while (airhook_next_changed(air,&out)) {
const struct airhook_outgoing_status s =
airhook_outgoing_status(out);
if (ah_confirmed == s.state)
release_outgoing(out);
}
/* Process incoming messages. Must happen after confirmed
* data is discarded. */
while (airhook_next_incoming(air,&data)) {
signed short h;
unsigned char seq;
if (data.end - data.begin < 4
|| (escape_value == data.begin[2]
&& data.end - data.begin < 5)) {
syslog(LOG_WARNING,"truncated message received");
continue;
}
h = (data.begin[0] << 8) | data.begin[1];
h = -h;
if (h < 0) {
if (-h >= handle_size) {
handle = realloc(handle,
sizeof(*handle) * 2 * (-h + 1));
if (NULL == handle) {
syslog(LOG_ERR,"malloc: %m");
exit(1);
}
while (handle_size <= 2 * -h)
handle[handle_size++] = 0;
}
i = handle[-h];
if (0 == i) {
i = socket(PF_INET,SOCK_STREAM,0);
/* TODO: i < 0? */
open_socket(air,i);
handle[-h] = i;
active[i].handle = h;
active[i].flags |= is_dirty;
send_handshake(air,i);
if (connect(i,
(struct sockaddr *) &opt.remote,
sizeof(opt.remote))
&& errno != EINPROGRESS)
active[i].flags |=
input_closed
| output_closed;
}
} else if (h >= active_size || 0 == active[h].handle) {
syslog(LOG_WARNING,"unknown link");
continue;
} else
i = h;
seq = data.begin[2];
if (escape_value == seq) {
const unsigned char flags = data.begin[3];
const unsigned char tail = data.begin[4];
if (flags & output_closed) {
if (!(active[i].flags & input_closed))
shutdown(i,0);
active[i].flags |= input_closed;
active[i].out_flags |= input_closed;
}
if (flags & input_closed) {
if (!(active[i].flags & output_closed))
shutdown(i,1);
active[i].flags |= output_closed;
active[i].out_flags |= output_closed;
}
while (active[i].out_tail != tail
&& active[i].out_tail != active[i].out_head)
{
struct airhook_outgoing * const out =
&active[i].outgoing[
active[i].out_tail];
const struct airhook_outgoing_status s =
airhook_outgoing_status(out);
if (ah_discarded != s.state) {
syslog(LOG_WARNING,"bad");
break;
}
active[i].out_pending -=
s.data.end - s.data.begin - 3;
active[i].out_tail =
inc(active[i].out_tail);
}
} else {
struct memory * const mem =
&active[i].incoming[seq];
const unsigned long len =
data.end - data.begin - 3;
if (NULL != mem->owner) {
syslog(LOG_WARNING,"overflow");
continue;
}
*mem = get_memory(len);
memcpy(mem->begin,data.begin + 3,len);
++mem->owner->use_count;
mem->begin += len;
release_memory(*mem);
mem->end = mem->begin;
mem->begin -= len;
}
}
/* Check flags for outgoing updates or closed connections.
* Must come after incoming messages are processed and
* after confirmations are discarded. */
for (i = 0; i < active_size; ++i) {
unsigned char out_flags;
if (0 == active[i].handle) continue;
out_flags = active[i].flags & ~is_dirty;
if (active[i].out_head != active[i].out_tail)
out_flags &= ~input_closed;
out_flags |= active[i].out_flags;
if (out_flags != active[i].out_flags) {
active[i].out_flags = out_flags;
release_outgoing(&active[i].handshake);
send_handshake(air,i);
continue;
}
if ((active[i].out_flags & input_closed)
&& (active[i].out_flags & output_closed)) {
const struct airhook_outgoing_status s =
airhook_outgoing_status(
&active[i].handshake);
if (ah_discarded == s.state) close_socket(i);
}
}
/* If we have no way to get more TCP sockets, we're done. */
if (0 == socket_count && 0 > tcp && 0 == opt.remote.sin_port)
break;
/* Check for timeout. */
if (now.tv_sec > last.tv_sec
|| (now.tv_sec == last.tv_sec && now.tv_usec > last.tv_usec)) {
struct timeval age;
age.tv_sec = now.tv_sec - last.tv_sec;
if (now.tv_usec >= last.tv_usec)
age.tv_usec = now.tv_usec - last.tv_usec;
else {
--age.tv_sec;
age.tv_usec = 1000000+now.tv_usec-last.tv_usec;
}
if (0 == socket_count
&& (age.tv_sec > idle.second
|| (age.tv_sec == idle.second
&& age.tv_usec > idle.nanosecond / 1000)))
break;
if (age.tv_sec > opt.timeout.second
|| (age.tv_sec == opt.timeout.second
&& age.tv_usec > opt.timeout.nanosecond / 1000)) {
reset();
last = now;
}
}
/* Compute fd_set and timeout for select.
* Must come after everything else. */
status = airhook_status(air);
FD_ZERO(&rfd);
FD_ZERO(&wfd);
FD_SET(udp,&rfd);
if (tcp >= 0) FD_SET(tcp,&rfd);
for (i = 0; i < active_size; ++i) {
if (0 == active[i].handle) continue;
if (status.wanted > 0
&& active[i].out_pending < status.settings.window_size
&& inc(active[i].out_head) != active[i].out_tail
&& ((active[i].flags & is_dirty)
|| ah_discarded
== airhook_outgoing_status(&active[i].handshake).state)
&& !(active[i].flags & input_closed))
FD_SET(i,&rfd);
if (NULL != active[i].incoming[active[i].in_tail].owner
&& !(active[i].flags & output_closed))
FD_SET(i,&wfd);
}
next = status.last_transmit;
next.second += opt.keepalive.second;
next.nanosecond += opt.keepalive.nanosecond;
if (next.nanosecond > 1000000000) {
++next.second;
next.nanosecond -= 1000000000;
}
if (next.second > status.next_transmit.second
|| (next.second == status.next_transmit.second
&& next.nanosecond > status.next_transmit.nanosecond))
next = status.next_transmit;
if (now.tv_sec > next.second
|| (now.tv_sec == next.second
&& now.tv_usec > next.nanosecond / 1000)) {
FD_SET(udp,&wfd);
r = select(FD_SETSIZE,&rfd,&wfd,NULL,NULL);
} else {
struct timeval tv;
if (next.nanosecond / 1000 < now.tv_usec) {
--next.second;
next.nanosecond += 1000000000;
}
tv.tv_sec = next.second - now.tv_sec;
tv.tv_usec = next.nanosecond / 1000 - now.tv_usec;
r = select(FD_SETSIZE,&rfd,&wfd,NULL,&tv);
}
if (r < 0) {
syslog(LOG_ERR,"select: %m");
exit(1);
}
gettimeofday(&now,NULL);
if (r == 0) continue;
/* Accept new incoming connections. */
if (tcp >= 0 && FD_ISSET(tcp,&rfd)) {
struct sockaddr_in sin;
socklen_t len = sizeof(sin);
const int s = accept(tcp,(struct sockaddr *) &sin,&len);
if (s < 0)
syslog(LOG_WARNING,"accept: %m");
else {
open_socket(air,s);
send_handshake(air,s);
}
}
for (i = 0; i < active_size; ++i) {
unsigned char in_tail = active[i].in_tail;
if (0 == active[i].handle) continue;
if (FD_ISSET(i,&rfd)) {
struct memory mem = get_memory(4);
const unsigned long len = mem.end - mem.begin;
unsigned long max = len - 3;
if (max > airhook_message_size - 3)
max = airhook_message_size - 3;
active[i].flags |= is_dirty;
r = read(i,3 + mem.begin,max); /* TODO: ??? */
if (r <= 0)
active[i].flags |= input_closed;
else {
struct airhook_data data;
mem.begin[0] = active[i].handle >> 8;
mem.begin[1] = active[i].handle;
mem.begin[2] = active[i].out_head;
data.begin = mem.begin;
data.end = mem.begin + 3 + r;
airhook_init_outgoing(
&active[i].outgoing[
active[i].out_head],
air,data,mem.owner);
active[i].out_head =
inc(active[i].out_head);
active[i].out_pending += r;
AIRHOOK_ASSERT(active[i].out_head
!= active[i].out_tail);
++mem.owner->use_count;
mem.begin += 3 + r;
}
release_memory(mem);
delay_update = 1;
}
if (FD_ISSET(i,&wfd)) {
struct memory * const mem =
&active[i].incoming[in_tail];
const unsigned long len =
mem->end - mem->begin;
active[i].flags |= is_dirty;
r = write(i,mem->begin,len); /* TODO: writev? */
if (r <= 0)
active[i].flags |= output_closed;
else {
++mem->owner->use_count;
mem->end = mem->begin + r;
release_memory(*mem);
mem->end = mem->begin + len;
mem->begin += r;
if (mem->begin == mem->end) {
release_memory(*mem);
mem->owner = NULL;
in_tail = inc(in_tail);
}
}
}
if (in_tail != active[i].in_tail) {
active[i].in_tail = in_tail;
release_outgoing(&active[i].handshake);
send_handshake(air,i);
delay_update = 1;
}
}
if (FD_ISSET(udp,&rfd)) {
struct airhook_time when;
when.second = now.tv_sec;
when.nanosecond = now.tv_usec * 1000;
r = recv(udp,buffer,sizeof(buffer),0);
if (r < 0) {
if (ECONNREFUSED == errno)
reset();
else
syslog(LOG_WARNING,"recv: %m");
} else {
const struct airhook_data data =
{ buffer, r + buffer };
if (!airhook_receive(air,when,data))
syslog(LOG_WARNING,"invalid packet");
else
last = now;
}
}
else if (!delay_update && FD_ISSET(udp,&wfd)) {
struct airhook_time when;
when.second = now.tv_sec;
when.nanosecond = now.tv_usec * 1000;
r = airhook_transmit(air,when,sizeof(buffer),buffer);
if (r > 0) {
r = send(udp,buffer,r,0);
if (r < 0) {
if (ECONNREFUSED == errno)
reset();
else
syslog(LOG_WARNING,"send: %m");
}
}
}
}
}
static void usage(struct airhook_settings s,struct options o) {
fprintf(stderr,
"Airhook TCP proxy version 1, copyright 2001 Dan Egnor\n"
"\n"
"flags: -l [host:]port Local UDP port [and interface] to receive Airhook\n"
" -r [host:]port Remote UDP port [and host] to send Airhook\n"
" -i [host:]port Incoming TCP port [and interface] to listen on\n"
" -o [host:]port Outgoing TCP port [and host] to connect to\n"
" -f retransmit Retransmission interval in seconds (normally %g)\n"
" -k keepalive Keepalive interval in seconds (normally %g)\n"
" -t timeout Connection timeout in seconds (normally %g)\n"
" -w windowsize Transmission window size in bytes (normally %lu)\n"
"\n"
"At least one of -i or -o must be specified unless run from inetd/tcp, and\n"
"at least one of -l or -r must be specified unless run from inetd/udp.\n"
"\n"
"Connections from the remote UDP port are forwarded to the outgoing TCP port.\n"
"Connections to the incoming TCP port are forwarded to the remote UDP port.\n"
"Interfaces default to INADDR_ANY. Hosts default to the local host.\n"
"\n"
"This software comes with ABSOLUTELY NO WARRANTY. You may redistribute it\n"
"under the terms of the GNU General Public License, Version 2.\n"
, s.retransmit.second + 0.000000001 * s.retransmit.nanosecond
, o.keepalive.second + 0.000000001 * o.keepalive.nanosecond
, o.timeout.second + 0.000000001 * o.timeout.nanosecond
, s.window_size);
exit(3);
}
static struct sockaddr_in parse_address(char *str,const char *proto) {
struct sockaddr_in sin;
struct servent *service;
const char *first = strtok(str,":");
const char *second = strtok(NULL,"");
char *end;
sin.sin_family = AF_INET;
if (NULL == second) {
second = first;
sin.sin_addr.s_addr = 0;
} else {
struct hostent * const host = gethostbyname(first);
if (NULL == host) {
syslog(LOG_ERR,"%s: unknown host",first);
exit(2);
}
if (sin.sin_family != host->h_addrtype
|| sizeof(sin.sin_addr) != host->h_length) {
syslog(LOG_ERR,"%s: wrong address type",first);
exit(2);
}
sin.sin_addr = * (struct in_addr *) host->h_addr;
}
service = getservbyname(second,proto);
if (NULL != service)
sin.sin_port = service->s_port;
else {
sin.sin_port = htons(strtoul(second,&end,0));
if (*second == '\0' || *end != '\0' || 0 == sin.sin_port) {
syslog(LOG_ERR,"%s: unknown service and invalid port number",second);
exit(3);
}
}
return sin;
}
static struct airhook_time parse_time(char *str) {
char *end;
const double d = strtod(str,&end);
struct airhook_time time;
if ('\0' == *str || '\0' != *end || d <= 0.0) {
syslog(LOG_ERR,"%s: invalid time value",str);
exit(2);
}
time.second = d;
time.nanosecond = 1000000000.0 * (d - time.second);
return time;
}
unsigned long swap(unsigned long value) {
return ((value & 0x000000FF) << 24)
| ((value & 0x0000FF00) << 8)
| ((value & 0x00FF0000) >> 8)
| ((value & 0xFF000000) >> 24);
}
int main(int argc,char *argv[]) {
int opt;
struct sockaddr_in local_tcp,remote_tcp;
struct sockaddr_in local_udp,remote_udp;
struct airhook_socket airhook;
struct airhook_settings settings;
struct options options;
int udp_socket,tcp_socket,socket_type;
unsigned long session = time(NULL) ^ swap(getpid());
socklen_t length = sizeof(int);
const int o = 1;
local_tcp.sin_family = AF_INET;
local_tcp.sin_port = 0;
local_tcp.sin_addr.s_addr = 0;
remote_udp = local_udp = remote_tcp = local_tcp;
openlog("airproxy",LOG_CONS|LOG_PERROR|LOG_PID,LOG_DAEMON);
signal(SIGCHLD,SIG_IGN);
signal(SIGPIPE,SIG_IGN);
airhook_init(&airhook,session);
settings = airhook_status(&airhook).settings;
options.keepalive.second = 60;
options.keepalive.nanosecond = 0;
options.timeout.second = 86400;
options.timeout.nanosecond = 0;
while (EOF != (opt = getopt(argc,argv,"l:r:i:o:f:k:t:w:")))
switch (opt) {
case 'l': local_udp = parse_address(optarg,"udp"); break;
case 'r': remote_udp = parse_address(optarg,"udp"); break;
case 'i': local_tcp = parse_address(optarg,"tcp"); break;
case 'o': remote_tcp = parse_address(optarg,"tcp"); break;
case 'f': settings.retransmit = parse_time(optarg); break;
case 'k': options.keepalive = parse_time(optarg); break;
case 't': options.timeout = parse_time(optarg); break;
case 'w': settings.window_size = strtoul(optarg,NULL,0);
if (0 == settings.window_size) {
syslog(LOG_ERR,"%s: invalid window size",optarg);
exit(2);
}
break;
case '?': usage(settings,options);
}
if (argc != optind) usage(settings,options);
if (getsockopt(0,SOL_SOCKET,SO_TYPE,&socket_type,&length)
|| length != sizeof(socket_type))
socket_type = -1;
if (SOCK_STREAM == socket_type) {
if (0 != local_tcp.sin_port) {
syslog(LOG_WARNING,"ignoring -i in inetd/tcp mode");
local_tcp.sin_port = 0;
}
if (0 != remote_tcp.sin_port) {
syslog(LOG_WARNING,"ignoring -o in inetd/tcp mode");
remote_tcp.sin_port = 0;
}
if (0 != local_udp.sin_port) {
syslog(LOG_WARNING,"ignoring -l in inetd/tcp mode");
local_udp.sin_port = 0;
}
tcp_socket = 0;
} else if (0 == local_tcp.sin_port && 0 == remote_tcp.sin_port) {
syslog(LOG_ERR,"invalid usage: no TCP endpoint specified (-i or -o)");
usage(settings,options);
} else if (0 == local_tcp.sin_port)
tcp_socket = -1;
else {
struct sockaddr * const local = (struct sockaddr *) &local_tcp;
tcp_socket = socket(PF_INET,SOCK_STREAM,0);
if (0 == tcp_socket) {
tcp_socket = dup(tcp_socket);
close(0);
}
assert(0 != tcp_socket);
if (tcp_socket < 0
|| setsockopt(tcp_socket,SOL_SOCKET,SO_REUSEADDR,&o,sizeof(o))
|| bind(tcp_socket,local,sizeof(local_tcp))
|| fcntl(tcp_socket,F_SETFL,O_NONBLOCK)
|| listen(tcp_socket,20)) {
syslog(LOG_ERR,"TCP socket: %m");
exit(1);
}
}
options.remote = remote_tcp;
if (SOCK_DGRAM == socket_type) {
if (0 != local_udp.sin_port) {
syslog(LOG_WARNING,"ignoring -l in inetd/udp mode");
local_udp.sin_port = 0;
}
if (0 != remote_udp.sin_port) {
syslog(LOG_WARNING,"ignoring -r in inetd/udp mode");
remote_udp.sin_port = 0;
}
udp_socket = 0;
} else if (0 == local_udp.sin_port && 0 == remote_udp.sin_port) {
syslog(LOG_ERR,"invalid usage: no UDP endpoint specified (-l or -r)");
usage(settings,options);
} else {
struct sockaddr * const local = (struct sockaddr *) &local_udp;
udp_socket = socket(PF_INET,SOCK_DGRAM,0);
if (udp_socket < 0
|| setsockopt(udp_socket,SOL_SOCKET,SO_REUSEADDR,&o,sizeof(o))
|| bind(udp_socket,local,sizeof(local_udp)))
{
syslog(LOG_ERR,"UDP socket: %m");
exit(1);
}
}
fcntl(udp_socket,F_SETFL,O_NONBLOCK);
if (0 != remote_udp.sin_port) { /* UDP client mode */
struct sockaddr * const addr = (struct sockaddr *) &remote_udp;
if (connect(udp_socket,addr,sizeof(remote_udp))) {
syslog(LOG_ERR,"UDP connect: %m");
exit(1);
}
airhook_settings(&airhook,settings);
do run(&airhook,options,udp_socket,tcp_socket);
while (0 != tcp_socket); /* Exit if run from inetd */
return 0;
}
assert(0 != tcp_socket);
do { /* UDP server mode */
struct sockaddr_in sock,peer;
socklen_t socklen = sizeof(sock),peerlen = sizeof(peer);
const int new_socket = socket(PF_INET,SOCK_DGRAM,0);
struct timeval tv;
struct airhook_time now;
unsigned char buf[packet_size];
fd_set fds;
int r;
FD_ZERO(&fds);
FD_SET(udp_socket,&fds);
r = select(1 + udp_socket,&fds,NULL,NULL,NULL);
if (r < 0) {
syslog(LOG_ERR,"select: %m");
exit(1);
}
r = recvfrom(udp_socket,
buf,sizeof(buf),0,
(struct sockaddr *) &peer,&peerlen);
if (r < 0) {
syslog(LOG_WARNING,"recv: %m");
close(new_socket);
continue;
}
gettimeofday(&tv,NULL);
now.second = tv.tv_sec;
now.nanosecond = tv.tv_usec * 1000;
if (new_socket < 0
|| setsockopt(new_socket,SOL_SOCKET,SO_REUSEADDR,
&o,sizeof(o))
|| getsockname(udp_socket,(struct sockaddr *) &sock,&socklen)
|| bind(new_socket,(struct sockaddr *) &sock,socklen)
|| connect(new_socket,(struct sockaddr *) &peer,peerlen)) {
syslog(LOG_WARNING,"UDP socket: %m");
close(new_socket);
continue;
}
++session;
if (0 == fork()) {
struct airhook_socket airhook;
struct airhook_data data = { buf, buf + r };
close(udp_socket);
airhook_init(&airhook,session);
airhook_settings(&airhook,settings);
airhook_receive(&airhook,now,data);
run(&airhook,options,new_socket,tcp_socket);
exit(0);
}
close(new_socket);
while (recv(udp_socket,buf,sizeof(buf),0) >= 0) ;
} while (0 != local_udp.sin_port || 0 != remote_udp.sin_port);
return 0;
}