int rcon_command(int rsock, char *command)
{
int ret;
rc_packet *packet = packet_build(RCON_PID, RCON_EXEC_COMMAND, command);
if(packet == NULL) {
connection_alive = 0;
return 0;
}
ret = net_send_packet(rsock, packet);
if(!ret) return 0; /* send failed */
packet = net_recv_packet(rsock);
if(packet == NULL) return 0;
if(packet->id != RCON_PID) return 0; /* wrong packet id */
if(!silent_mode) {
/*
if(packet->size == 10) {
printf("Unknown command \"%s\". Type \"help\" or \"?\" for help.\n", command);
}
else
*/
if(packet->size > 10)
packet_print(packet);
}
/* return 1 if world was saved */
return 1;
}
/*
====================================================================
Receive packets from server. Use the TIME_PASSED event therefore.
Send a heartbeat every three seconds as well.
====================================================================
*/
void client_recv_packet( GuiWidget *widget, GuiEvent *event )
{
#ifdef NETWORK_ENABLED
int recv_limit;
static int last_heartbeat = 0;
if ( !client_is_connected ) return;
if ( event->type != GUI_TIME_PASSED ) return;
/* heartbeat? */
if ( time(0) >= last_heartbeat + 10 ) {
last_heartbeat = time(0);
msgbuf[0] = MSG_HEARTBEAT;
client_transmit( CODE_BLUE, 1, msgbuf );
}
recv_limit = client_recv_limit; /* limited number of packets if not -1 */
while ( net_recv_packet() && ( recv_limit==-1 || recv_limit > 0) ) {
/* check if this is a valid packet and update the socket */
if ( msg_is_connectionless() )
msg_begin_connectionless_reading();
else
if ( !socket_process_header( &client ) )
continue;
client_parse_packet();
if ( recv_limit != -1 ) recv_limit--;
}
#endif
}
int rcon_auth(int rsock, char *passwd)
{
int ret;
rc_packet *packet = packet_build(RCON_PID, RCON_AUTHENTICATE, passwd);
if(packet == NULL) return 0;
ret = net_send_packet(rsock, packet);
if(!ret) return 0; /* send failed */
packet = net_recv_packet(rsock);
if(packet == NULL) return 0;
/* return 1 if authentication OK */
return packet->id == -1 ? 0 : 1;
}
/*
====================================================================
Try to connect to a game server. Retry twice every second
or quit then.
====================================================================
*/
void client_connect( GuiWidget *widget, GuiEvent *event )
{
#ifdef NETWORK_ENABLED
NetAddr newaddr;
int attempt = 0;
int type;
char server[128];
if ( event->type != GUI_CLICKED ) return;
/* close the connect window */
gui_widget_hide( dlg_connect );
/* disconnect from current server */
client_disconnect();
/* extract ip and port and build a new socket out of it */
gui_edit_get_text( edit_server, server, 128, 0, -1 );
snprintf( config.server, 64, "%s", server );
if ( !net_build_addr( &newaddr, server, 0 ) ) {
client_printf_chatter( 1, _("ERROR: address %s does not resolve"), config.server );
return;
}
socket_init( &client, &newaddr );
/* get username */
gui_edit_get_text( edit_username,
config.username, 16, 0,-1 );
/* build connect message */
msg_begin_writing( msgbuf, &msglen, 64 );
msg_write_int8( MSG_CONNECT );
msg_write_int8( PROTOCOL );
msg_write_string( config.username );
msg_write_string( _("unused") ); /* passwd */
while ( attempt < 3 ) {
client_printf_chatter( 1, "%s: %s...",
config.server,
attempt==0?_("connecting"):_("retry") );
stk_display_update( STK_UPDATE_ALL );
net_transmit_connectionless( &newaddr, msglen, msgbuf );
SDL_Delay( 1000 );
while ( net_recv_packet() ) {
if ( msg_is_connectionless() )
msg_begin_connectionless_reading();
else
if ( !socket_process_header( &client ) )
continue;
type = msg_read_int8();
switch ( type ) {
case MSG_LOGIN_OKAY:
client_id = msg_read_int32();
strcpy( client_name, msg_read_string() );
client_printf_chatter( 1, _("%s: connected!"), config.server );
client_is_connected = 1;
return;
case MSG_ERROR:
client_printf_chatter( 1, _("ERROR: connection refused: %s"),
msg_read_string() );
return;
}
}
attempt++;
}
client_add_chatter( _("ERROR: server does not respond"), 1 );
#endif
}
static int proxy_process(unsigned short server_listen_port, struct sockaddr_in servaddr)
{
int lsock;
struct sockaddr_in laddr;
t_psock_fd_set rfds, wfds;
int highest_fd;
int udpsock;
t_virtconn * vc;
t_elem const * curr;
int csocket;
int ssocket;
if ((udpsock = psock_socket(PSOCK_PF_INET,PSOCK_SOCK_DGRAM,PSOCK_IPPROTO_UDP))<0)
{
eventlog(eventlog_level_error,__FUNCTION__,"could not create UDP socket (psock_socket: %s)",pstrerror(psock_errno()));
return -1;
}
if (psock_ctl(udpsock,PSOCK_NONBLOCK)<0)
eventlog(eventlog_level_error,__FUNCTION__,"could not set UDP listen socket to non-blocking mode (psock_ctl: %s)",pstrerror(psock_errno()));
if ((lsock = psock_socket(PSOCK_PF_INET,PSOCK_SOCK_STREAM,PSOCK_IPPROTO_TCP))<0)
{
eventlog(eventlog_level_error,__FUNCTION__,"could not create listening socket (psock_socket: %s)",pstrerror(psock_errno()));
psock_close(udpsock);
return -1;
}
{
int val=1;
if (psock_setsockopt(lsock,PSOCK_SOL_SOCKET,PSOCK_SO_REUSEADDR,&val,(psock_t_socklen)sizeof(int))<0)
eventlog(eventlog_level_error,__FUNCTION__,"[%d] could not set socket option SO_REUSEADDR (psock_setsockopt: %s)",lsock,pstrerror(psock_errno()));
/* not a fatal error... */
}
memset(&laddr,0,sizeof(laddr));
laddr.sin_family = PSOCK_AF_INET;
laddr.sin_port = htons(server_listen_port);
laddr.sin_addr.s_addr = htonl(INADDR_ANY);
if (psock_bind(lsock,(struct sockaddr *)&laddr,(psock_t_socklen)sizeof(laddr))<0)
{
eventlog(eventlog_level_error,__FUNCTION__,"could not bind socket to address 0.0.0.0:%hu TCP (psock_bind: %s)",server_listen_port,pstrerror(psock_errno()));
psock_close(udpsock);
psock_close(lsock);
return -1;
}
memset(&laddr,0,sizeof(laddr));
laddr.sin_family = PSOCK_AF_INET;
laddr.sin_port = htons(server_listen_port);
laddr.sin_addr.s_addr = htonl(INADDR_ANY);
if (psock_bind(udpsock,(struct sockaddr *)&laddr,(psock_t_socklen)sizeof(laddr))<0)
{
eventlog(eventlog_level_error,__FUNCTION__,"could not bind socket to address 0.0.0.0:%hu UDP (psock_bind: %s)",server_listen_port,pstrerror(psock_errno()));
psock_close(udpsock);
psock_close(lsock);
return -1;
}
eventlog(eventlog_level_info,__FUNCTION__,"bound to UDP port %hu",server_listen_port);
/* tell socket to listen for connections */
if (psock_listen(lsock,LISTEN_QUEUE)<0)
{
eventlog(eventlog_level_error,__FUNCTION__,"could not listen (psock_listen: %s)",pstrerror(psock_errno()));
psock_close(udpsock);
psock_close(lsock);
return -1;
}
if (psock_ctl(lsock,PSOCK_NONBLOCK)<0)
eventlog(eventlog_level_error,__FUNCTION__,"could not set TCP listen socket to non-blocking mode (psock_ctl: %s)",pstrerror(psock_errno()));
eventlog(eventlog_level_info,__FUNCTION__,"listening on TCP port %hu",server_listen_port);
for (;;)
{
/* loop over all connections to create the sets for select() */
PSOCK_FD_ZERO(&rfds);
PSOCK_FD_ZERO(&wfds);
highest_fd = lsock;
PSOCK_FD_SET(lsock,&rfds);
if (udpsock>highest_fd)
highest_fd = udpsock;
PSOCK_FD_SET(udpsock,&rfds);
LIST_TRAVERSE_CONST(virtconnlist(),curr)
{
vc = elem_get_data(curr);
csocket = virtconn_get_client_socket(vc);
if (queue_get_length((t_queue const * const *)virtconn_get_clientout_queue(vc))>0)
PSOCK_FD_SET(csocket,&wfds); /* pending output, also check for writeability */
PSOCK_FD_SET(csocket,&rfds);
if (csocket>highest_fd)
highest_fd = csocket;
switch (virtconn_get_state(vc))
{
case virtconn_state_connecting:
eventlog(eventlog_level_debug,__FUNCTION__,"waiting for %d to finish connecting",ssocket);
ssocket = virtconn_get_server_socket(vc);
PSOCK_FD_SET(ssocket,&wfds); /* wait for connect to complete */
if (ssocket>highest_fd)
highest_fd = ssocket;
break;
case virtconn_state_connected:
eventlog(eventlog_level_debug,__FUNCTION__,"checking for reading on connected socket %d",ssocket);
ssocket = virtconn_get_server_socket(vc);
if (queue_get_length((t_queue const * const *)virtconn_get_serverout_queue(vc))>0)
PSOCK_FD_SET(ssocket,&wfds); /* pending output, also check for writeability */
PSOCK_FD_SET(ssocket,&rfds);
if (ssocket>highest_fd)
highest_fd = ssocket;
break;
default: /* avoid warning */
break;
}
}
/* find which sockets need servicing */
if (psock_select(highest_fd+1,&rfds,&wfds,NULL,NULL)<0)
{
if (errno!=PSOCK_EINTR)
eventlog(eventlog_level_error,__FUNCTION__,"select failed (select: %s)",pstrerror(errno));
continue;
}
/* check for incoming connection */
if (PSOCK_FD_ISSET(lsock,&rfds))
{
int asock;
struct sockaddr_in caddr;
psock_t_socklen caddr_len;
/* accept the connection */
caddr_len = sizeof(caddr);
if ((asock = psock_accept(lsock,(struct sockaddr *)&caddr,&caddr_len))<0)
{
if (psock_errno()==PSOCK_EWOULDBLOCK || psock_errno()==PSOCK_ECONNABORTED) /* BSD, POSIX error for aborted connections, SYSV often uses EAGAIN */
eventlog(eventlog_level_error,__FUNCTION__,"client aborted connection (psock_accept: %s)",pstrerror(psock_errno()));
else /* EAGAIN can mean out of resources _or_ connection aborted */
if (psock_errno()!=PSOCK_EINTR)
eventlog(eventlog_level_error,__FUNCTION__,"could not accept new connection (psock_accept: %s)",pstrerror(psock_errno()));
}
else
{
int ssd;
int val=1;
eventlog(eventlog_level_info,__FUNCTION__,"[%d] accepted connection from %s:%hu",asock,inet_ntoa(caddr.sin_addr),ntohs(caddr.sin_port));
if (psock_setsockopt(asock,PSOCK_SOL_SOCKET,PSOCK_SO_KEEPALIVE,&val,(psock_t_socklen)sizeof(val))<0)
eventlog(eventlog_level_error,__FUNCTION__,"[%d] could not set socket option SO_KEEPALIVE (psock_setsockopt: %s)",asock,pstrerror(psock_errno()));
/* not a fatal error */
if (psock_ctl(asock,PSOCK_NONBLOCK)<0)
{
eventlog(eventlog_level_error,__FUNCTION__,"[%d] could not set TCP socket to non-blocking mode (closing connection) (psock_ctl: %s)",asock,pstrerror(psock_errno()));
psock_close(asock);
}
else
if ((ssd = psock_socket(PSOCK_PF_INET,PSOCK_SOCK_STREAM,PSOCK_IPPROTO_TCP))<0)
{
eventlog(eventlog_level_error,__FUNCTION__,"[%d] could create TCP socket (closing connection) (psock_socket: %s)",asock,pstrerror(psock_errno()));
psock_close(asock);
}
else
if (psock_ctl(ssd,PSOCK_NONBLOCK)<0)
{
eventlog(eventlog_level_error,__FUNCTION__,"[%d] could not set TCP socket to non-blocking mode (closing connection) (psock_ctl: %s)",asock,pstrerror(psock_errno()));
psock_close(ssd);
psock_close(asock);
}
else
if (!(vc = virtconn_create(asock,ssd,ntohl(caddr.sin_addr.s_addr),BNETD_MIN_TEST_PORT)))
{
eventlog(eventlog_level_error,__FUNCTION__,"[%d] unable to create new connection (closing connection)",asock);
psock_close(ssd);
psock_close(asock);
}
else
{
memset(&caddr,0,sizeof(caddr));
caddr.sin_family = PSOCK_AF_INET;
caddr.sin_port = htons(virtconn_get_udpport(vc));
caddr.sin_addr.s_addr = htonl(virtconn_get_udpaddr(vc));
eventlog(eventlog_level_info,__FUNCTION__,"[%d] addr now %s:%hu",asock,inet_ntoa(caddr.sin_addr),ntohs(caddr.sin_port));
}
}
}
eventlog(eventlog_level_debug,__FUNCTION__,"checking for incoming UDP");
if (PSOCK_FD_ISSET(udpsock,&rfds))
{
t_packet * upacket;
struct sockaddr_in toaddr;
struct sockaddr_in fromaddr;
psock_t_socklen fromlen;
int len;
if (!(upacket = packet_create(packet_class_raw)))
eventlog(eventlog_level_error,__FUNCTION__,"could not allocate raw packet for input");
else
{
/* packet_set_flags(upacket,PROXY_FLAG_UDP);*/
fromlen = sizeof(fromaddr);
if ((len = psock_recvfrom(udpsock,packet_get_raw_data_build(upacket,0),MAX_PACKET_SIZE,0,(struct sockaddr *)&fromaddr,&fromlen))<0)
{
if (psock_errno()!=PSOCK_EINTR && psock_errno()!=PSOCK_EAGAIN && psock_errno()!=PSOCK_EWOULDBLOCK)
eventlog(eventlog_level_error,__FUNCTION__,"could not recv UDP datagram (psock_recvfrom: %s)",pstrerror(psock_errno()));
}
else
{
if (fromaddr.sin_family!=PSOCK_AF_INET)
eventlog(eventlog_level_error,__FUNCTION__,"got UDP datagram with bad address family %d",fromaddr.sin_family);
else
{
char tempa[32];
char tempb[32];
packet_set_size(upacket,len);
if (fromaddr.sin_addr.s_addr==servaddr.sin_addr.s_addr) /* from server */
{
if ((curr = list_get_first_const(virtconnlist()))) /* hack.. find proper client */
{
vc = elem_get_data(curr);
memset(&toaddr,0,sizeof(toaddr));
toaddr.sin_family = PSOCK_AF_INET;
toaddr.sin_port = htons(virtconn_get_udpport(vc));
toaddr.sin_addr.s_addr = htonl(virtconn_get_udpaddr(vc));
eventlog(eventlog_level_info,__FUNCTION__,"[%d] addr by UDP send is %s:%hu",virtconn_get_client_socket(vc),inet_ntoa(toaddr.sin_addr),ntohs(toaddr.sin_port));
if (hexstrm)
{
strcpy(tempa,inet_ntoa(fromaddr.sin_addr));
strcpy(tempb,inet_ntoa(toaddr.sin_addr));
fprintf(hexstrm,"%d: srv prot=UDP from=%s:%hu to=%s:%hu length=%d\n",
udpsock,
tempa,
ntohs(fromaddr.sin_port),
tempb,
ntohs(toaddr.sin_port),
len);
hexdump(hexstrm,packet_get_raw_data(upacket,0),len);
}
/*queue_push_packet(virtconn_get_clientout_queue(__));*/ /* where to queue ... */
for (;;) /* hack.. just block for now */
{
if (psock_sendto(udpsock,packet_get_raw_data_const(upacket,0),len,0,
(struct sockaddr *)&toaddr,(psock_t_socklen)sizeof(toaddr))<len)
{
if (psock_errno()==PSOCK_EINTR || psock_errno()==PSOCK_EAGAIN || psock_errno()==PSOCK_EWOULDBLOCK)
continue;
eventlog(eventlog_level_error,__FUNCTION__,"could not send UDP datagram to client (psock_sendto: %s)",pstrerror(psock_errno()));
}
break;
}
}
}
else /* from client */
{
if (hexstrm)
{
strcpy(tempa,inet_ntoa(fromaddr.sin_addr));
strcpy(tempb,inet_ntoa(servaddr.sin_addr));
fprintf(hexstrm,"%d: clt prot=UDP from=%s:%hu to=%s:%hu length=%d\n",
udpsock,
tempa,
ntohs(fromaddr.sin_port),
tempb,
ntohs(servaddr.sin_port),
len);
hexdump(hexstrm,packet_get_raw_data(upacket,0),len);
}
/*queue_push_packet(virtconn_get_serverout_queue(vc));*/
for (;;) /* hack.. just block for now */
{
if (psock_sendto(udpsock,packet_get_raw_data_const(upacket,0),len,0,
(struct sockaddr *)&servaddr,(psock_t_socklen)sizeof(servaddr))<len)
{
if (psock_errno()==PSOCK_EINTR || psock_errno()==PSOCK_EAGAIN || psock_errno()==PSOCK_EWOULDBLOCK)
continue;
eventlog(eventlog_level_error,__FUNCTION__,"could not send UDP datagram to server (psock_sendto: %s)",pstrerror(psock_errno()));
}
break;
}
}
}
}
packet_del_ref(upacket);
}
}
/* search connections for sockets that need service */
eventlog(eventlog_level_debug,__FUNCTION__,"checking for sockets that need service");
LIST_TRAVERSE_CONST(virtconnlist(),curr)
{
unsigned int currsize;
t_packet * packet;
vc = elem_get_data(curr);
csocket = virtconn_get_client_socket(vc);
if (virtconn_get_state(vc)==virtconn_state_connected ||
virtconn_get_state(vc)==virtconn_state_connecting)
ssocket = virtconn_get_server_socket(vc);
else
ssocket = -1;
eventlog(eventlog_level_debug,__FUNCTION__,"checking %d for client readability",csocket);
if (PSOCK_FD_ISSET(csocket,&rfds))
{
if (virtconn_get_state(vc)==virtconn_state_initial)
{
if (init_virtconn(vc,servaddr)<0)
{
virtconn_destroy(vc);
continue;
}
}
else
{
currsize = virtconn_get_clientin_size(vc);
if (!queue_get_length(virtconn_get_clientin_queue(vc)))
{
switch (virtconn_get_class(vc))
{
case virtconn_class_bnet:
if (!(packet = packet_create(packet_class_bnet)))
{
eventlog(eventlog_level_error,__FUNCTION__,"could not allocate normal packet for input");
continue;
}
break;
case virtconn_class_file:
if (!(packet = packet_create(packet_class_file)))
{
eventlog(eventlog_level_error,__FUNCTION__,"could not allocate file packet for input");
continue;
}
break;
case virtconn_class_bot:
if (!(packet = packet_create(packet_class_raw)))
{
eventlog(eventlog_level_error,__FUNCTION__,"could not allocate raw packet for input");
continue;
}
packet_set_size(packet,1); /* start by only reading one char */
break;
default:
eventlog(eventlog_level_error,__FUNCTION__,"[%d] connection has bad type (closing connection)",virtconn_get_client_socket(vc));
virtconn_destroy(vc);
continue;
}
queue_push_packet(virtconn_get_clientin_queue(vc),packet);
packet_del_ref(packet);
if (!queue_get_length(virtconn_get_clientin_queue(vc)))
continue; /* push failed */
currsize = 0;
}
packet = queue_peek_packet((t_queue const * const *)virtconn_get_clientin_queue(vc)); /* avoid warning */
switch (net_recv_packet(csocket,packet,&currsize))
{
case -1:
virtconn_destroy(vc);
continue;
case 0: /* still working on it */
virtconn_set_clientin_size(vc,currsize);
break;
case 1: /* done reading */
if (virtconn_get_class(vc)==virtconn_class_bot &&
currsize<MAX_PACKET_SIZE)
{
char const * const temp=packet_get_raw_data_const(packet,0);
if (temp[currsize-1]!='\r' && temp[currsize-1]!='\n')
{
virtconn_set_clientin_size(vc,currsize);
packet_set_size(packet,currsize+1);
break; /* no end of line, get another char */
}
/* got a complete line... fall through */
}
packet = queue_pull_packet(virtconn_get_clientin_queue(vc));
if (hexstrm)
{
fprintf(hexstrm,"%d: cli class=%s[0x%04hx] type=%s[0x%04hx] length=%hu\n",
csocket,
packet_get_class_str(packet),packet_get_class(packet),
packet_get_type_str(packet,packet_dir_from_client),packet_get_type(packet),
packet_get_size(packet));
hexdump(hexstrm,packet_get_raw_data_const(packet,0),packet_get_size(packet));
}
queue_push_packet(virtconn_get_serverout_queue(vc),packet);
packet_del_ref(packet);
virtconn_set_clientin_size(vc,0);
}
}
}
eventlog(eventlog_level_debug,__FUNCTION__,"checking %d for server readability",ssocket);
if (ssocket!=-1 && PSOCK_FD_ISSET(ssocket,&rfds))
{
currsize = virtconn_get_serverin_size(vc);
if (!queue_get_length(virtconn_get_serverin_queue(vc)))
{
switch (virtconn_get_class(vc))
{
case virtconn_class_bnet:
if (!(packet = packet_create(packet_class_bnet)))
{
eventlog(eventlog_level_error,__FUNCTION__,"could not allocate normal packet for input");
continue;
}
break;
case virtconn_class_file:
{
unsigned int fileleft;
if ((fileleft = virtconn_get_fileleft(vc))>0)
{
if (!(packet = packet_create(packet_class_raw)))
{
eventlog(eventlog_level_error,__FUNCTION__,"could not allocate raw file packet for input");
continue;
}
if (fileleft>MAX_PACKET_SIZE)
packet_set_size(packet,MAX_PACKET_SIZE);
else
packet_set_size(packet,fileleft);
}
else
{
if (!(packet = packet_create(packet_class_file)))
{
eventlog(eventlog_level_error,__FUNCTION__,"could not allocate file packet for input");
continue;
}
}
}
break;
case virtconn_class_bot:
if (!(packet = packet_create(packet_class_raw)))
{
eventlog(eventlog_level_error,__FUNCTION__,"could not allocate raw packet for input");
continue;
}
packet_set_size(packet,MAX_PACKET_SIZE); /* read as much as possible */
break;
default:
eventlog(eventlog_level_error,__FUNCTION__,"[%d] connection has bad type (closing connection)",virtconn_get_client_socket(vc));
virtconn_destroy(vc);
continue;
}
queue_push_packet(virtconn_get_serverin_queue(vc),packet);
packet_del_ref(packet);
if (!queue_get_length(virtconn_get_serverin_queue(vc)))
continue; /* push failed */
currsize = 0;
}
packet = queue_peek_packet((t_queue const * const *)virtconn_get_serverin_queue(vc)); /* avoid warning */
switch (net_recv_packet(ssocket,packet,&currsize))
{
case -1:
virtconn_destroy(vc);
continue;
case 0: /* still working on it */
virtconn_set_serverin_size(vc,currsize);
if (virtconn_get_class(vc)!=virtconn_class_bot || currsize<1)
break;
else
packet_set_size(packet,currsize);
/* fallthough... we take what we can get with the bot data */
case 1: /* done reading */
packet = queue_pull_packet(virtconn_get_serverin_queue(vc));
if (virtconn_get_class(vc)==virtconn_class_file)
{
unsigned int len=virtconn_get_fileleft(vc);
if (len)
virtconn_set_fileleft(vc,len-currsize);
else if (packet_get_type(packet)==SERVER_FILE_REPLY &&
packet_get_size(packet)>=sizeof(t_server_file_reply))
virtconn_set_fileleft(vc,bn_int_get(packet->u.server_file_reply.filelen));
}
queue_push_packet(virtconn_get_clientout_queue(vc),packet);
packet_del_ref(packet);
virtconn_set_serverin_size(vc,0);
}
}
eventlog(eventlog_level_debug,__FUNCTION__,"checking %d for client writeability",csocket);
if (PSOCK_FD_ISSET(csocket,&wfds))
{
currsize = virtconn_get_clientout_size(vc);
switch (net_send_packet(csocket,queue_peek_packet((t_queue const * const *)virtconn_get_clientout_queue(vc)),&currsize)) /* avoid warning */
{
case -1:
virtconn_destroy(vc);
continue;
case 0: /* still working on it */
virtconn_set_clientout_size(vc,currsize);
break;
case 1: /* done sending */
packet = queue_pull_packet(virtconn_get_clientout_queue(vc));
if (hexstrm)
{
fprintf(hexstrm,"%d: srv class=%s[0x%04hx] type=%s[0x%04hx] length=%hu\n",
csocket,
packet_get_class_str(packet),packet_get_class(packet),
packet_get_type_str(packet,packet_dir_from_server),packet_get_type(packet),
packet_get_size(packet));
hexdump(hexstrm,packet_get_raw_data(packet,0),packet_get_size(packet));
}
packet_del_ref(packet);
virtconn_set_clientout_size(vc,0);
}
}
eventlog(eventlog_level_debug,__FUNCTION__,"checking %d for server writeability",ssocket);
if (ssocket!=-1 && PSOCK_FD_ISSET(ssocket,&wfds))
{
if (virtconn_get_state(vc)==virtconn_state_connecting)
{
int err;
psock_t_socklen errlen;
err = 0;
errlen = sizeof(err);
if (psock_getsockopt(ssocket,PSOCK_SOL_SOCKET,PSOCK_SO_ERROR,&err,&errlen)<0)
{
eventlog(eventlog_level_error,__FUNCTION__,"[%d] unable to read socket error (psock_getsockopt[psock_connect]: %s)",virtconn_get_client_socket(vc),pstrerror(psock_errno()));
virtconn_destroy(vc);
continue;
}
if (errlen==0 || err==0)
virtconn_set_state(vc,virtconn_state_connected);
else
{
eventlog(eventlog_level_error,__FUNCTION__,"[%d] could not connect to server (psock_getsockopt[psock_connect]: %s)",virtconn_get_client_socket(vc),pstrerror(err));
virtconn_destroy(vc);
continue;
}
}
else
{
currsize = virtconn_get_serverout_size(vc);
switch (net_send_packet(ssocket,queue_peek_packet((t_queue const * const *)virtconn_get_serverout_queue(vc)),&currsize)) /* avoid warning */
{
case -1:
virtconn_destroy(vc);
continue;
case 0: /* still working on it */
virtconn_set_serverout_size(vc,currsize);
break;
case 1: /* done sending */
packet = queue_pull_packet(virtconn_get_serverout_queue(vc));
packet_del_ref(packet);
virtconn_set_serverout_size(vc,0);
}
}
}
}
static int sd_tcpinput(int csocket, t_connection * c)
{
unsigned int currsize;
t_packet * packet;
currsize = conn_get_in_size(c);
if (!*conn_get_in_queue(c))
{
switch (conn_get_class(c))
{
case conn_class_init:
if (!(packet = packet_create(packet_class_init)))
{
eventlog(eventlog_level_error,"sd_tcpinput","could not allocate init packet for input");
return -1;
}
break;
case conn_class_d2cs_bnetd:
if (!(packet = packet_create(packet_class_d2cs_bnetd)))
{
eventlog(eventlog_level_error,"server_process","could not allocate d2cs_bnetd packet");
return -1;
}
break;
case conn_class_bnet:
if (!(packet = packet_create(packet_class_bnet)))
{
eventlog(eventlog_level_error,"sd_tcpinput","could not allocate bnet packet for input");
return -1;
}
break;
case conn_class_file:
if (!(packet = packet_create(packet_class_file)))
{
eventlog(eventlog_level_error,"sd_tcpinput","could not allocate file packet for input");
return -1;
}
break;
case conn_class_bits:
if (!(packet = packet_create(packet_class_bits)))
{
eventlog(eventlog_level_error,"sd_tcpinput","could not allocate BITS packet for input");
return -1;
}
break;
case conn_class_defer:
case conn_class_bot:
case conn_class_irc:
case conn_class_telnet:
if (!(packet = packet_create(packet_class_raw)))
{
eventlog(eventlog_level_error,"sd_tcpinput","could not allocate raw packet for input");
return -1;
}
packet_set_size(packet,1); /* start by only reading one char */
break;
case conn_class_auth:
if (!(packet = packet_create(packet_class_auth)))
{
eventlog(eventlog_level_error,"sd_tcpinput","could not allocate auth packet for input");
return -1;
}
break;
default:
eventlog(eventlog_level_error,"sd_tcpinput","[%d] connection has bad class (closing connection)",conn_get_socket(c));
conn_destroy(c);
return -1;
}
queue_push_packet(conn_get_in_queue(c),packet);
packet_del_ref(packet);
if (!*conn_get_in_queue(c))
return -1; /* push failed */
currsize = 0;
}
packet = queue_peek_packet((t_queue const * const *)conn_get_in_queue(c)); /* avoid warning */
switch (net_recv_packet(csocket,packet,&currsize))
{
case -1:
eventlog(eventlog_level_debug,"sd_tcpinput","[%d] read FAILED (closing connection)",conn_get_socket(c));
conn_destroy(c);
return -1;
case 0: /* still working on it */
/* eventlog(eventlog_level_debug,"sd_tcpinput","[%d] still reading \"%s\" packet (%u of %u bytes so far)",conn_get_socket(c),packet_get_class_str(packet),conn_get_in_size(c),packet_get_size(packet)); */
conn_set_in_size(c,currsize);
break;
case 1: /* done reading */
switch (conn_get_class(c))
{
case conn_class_defer:
{
unsigned char const * const temp=packet_get_raw_data_const(packet,0);
eventlog(eventlog_level_debug,"sd_tcpinput","[%d] got first packet byte %02x",conn_get_socket(c),(unsigned int)temp[0]);
if (temp[0]==(unsigned char)0xff) /* HACK: thankfully all bnet packet types end with ff */
{
conn_set_class(c,conn_class_bnet);
conn_set_in_size(c,currsize);
packet_set_class(packet,packet_class_bnet);
eventlog(eventlog_level_debug,"sd_tcpinput","[%d] defered connection class is bnet",conn_get_socket(c));
}
else
{
conn_set_class(c,conn_class_auth);
conn_set_in_size(c,currsize);
packet_set_class(packet,packet_class_auth);
eventlog(eventlog_level_debug,"sd_tcpinput","[%d] defered connection class is auth",conn_get_socket(c));
}
}
break;
case conn_class_bot:
case conn_class_telnet:
if (currsize<MAX_PACKET_SIZE) /* if we overflow, we can't wait for the end of the line.
handle_*_packet() should take care of it */
{
char const * const temp=packet_get_raw_data_const(packet,0);
if ((temp[currsize-1]=='\003')||(temp[currsize-1]=='\004')) {
/* we have to ignore these special characters, since
* some bots even send them after login (eg. UltimateBot)
*/
currsize--;
break;
}
if (temp[currsize-1]!='\r' && temp[currsize-1]!='\n')
{
conn_set_in_size(c,currsize);
packet_set_size(packet,currsize+1);
break; /* no end of line, get another char */
}
}
/* got a complete line or overflow, so: */
/*FALLTHRU*/
default:
packet = queue_pull_packet(conn_get_in_queue(c));
if (hexstrm)
{
fprintf(hexstrm,"%d: recv class=%s[0x%02x] type=%s[0x%04x] length=%u\n",
csocket,
packet_get_class_str(packet),(unsigned int)packet_get_class(packet),
packet_get_type_str(packet,packet_dir_from_client),packet_get_type(packet),
packet_get_size(packet));
hexdump(hexstrm,packet_get_raw_data_const(packet,0),packet_get_size(packet));
}
if (conn_get_class(c)==conn_class_bot ||
conn_get_class(c)==conn_class_telnet) /* NUL terminate the line to make life easier */
{
char * const temp=packet_get_raw_data(packet,0);
if (temp[currsize-1]=='\r' || temp[currsize-1]=='\n')
temp[currsize-1] = '\0'; /* have to do it here instead of above so everything
is intact for the hexdump */
}
{
int ret;
switch (conn_get_class(c))
{
case conn_class_bits:
#ifdef WITH_BITS
ret = handle_bits_packet(c,packet);
#else
eventlog(eventlog_level_error,"sd_tcpinput","[%d] BITS not enabled (closing connection)",conn_get_socket(c));
ret = -1;
#endif
break;
case conn_class_init:
ret = handle_init_packet(c,packet);
break;
case conn_class_bnet:
ret = handle_bnet_packet(c,packet);
break;
case conn_class_d2cs_bnetd:
ret = handle_d2cs_packet(c,packet);
break;
case conn_class_bot:
ret = handle_bot_packet(c,packet);
break;
case conn_class_telnet:
ret = handle_telnet_packet(c,packet);
break;
case conn_class_file:
ret = handle_file_packet(c,packet);
break;
case conn_class_auth:
ret = handle_auth_packet(c,packet);
break;
case conn_class_irc:
ret = handle_irc_packet(c,packet);
break;
default:
eventlog(eventlog_level_error,"sd_tcpinput","[%d] bad packet class %d (closing connection)",conn_get_socket(c),(int)packet_get_class(packet));
ret = -1;
}
packet_del_ref(packet);
if (ret<0)
{
conn_destroy(c);
return -1;
}
}
conn_set_in_size(c,0);
}
}
return 0;
}
