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mainloop.ic
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mainloop.ic
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/***************************************************************************
* Copyright (C) 2015 by Tobias Volk *
* *
* 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. *
* *
* 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, see <http://www.gnu.org/licenses/>. *
***************************************************************************/
// generates warning message
static void logWarning(char *msg) {
if(msg != NULL) printf("[%d] warning: %s\n", p2psecUptime(g_p2psec), msg);
}
// Connect initpeers.
static void connectInitpeers() {
int i,j,k,l;
char *hostname = NULL;
char *port = NULL;
struct s_io_addrinfo new_peeraddrs;
i=0;j=0;k=0;l=0;
for(;;) {
j = g_initpeers[i];
if((j > 0) && (i+j+1 < INITPEER_STORAGE)) {
if(k) {
port = &g_initpeers[i+1];
printf("[%d] resolving %s:%s...\n",p2psecUptime(g_p2psec),hostname,port);
if(ioResolveName(&new_peeraddrs, hostname, port)) {
for(l=0; l<new_peeraddrs.count; l++) {
if(p2psecConnect(g_p2psec,new_peeraddrs.item[l].addr)) {
printf(" done.\n");
}
else {
printf(" failed: connection could not be created.\n");
}
}
}
else {
printf(" failed: name could not be resolved.\n");
}
k=0;
}
else {
hostname = &g_initpeers[i+1];
k=1;
}
i=i+j+1;
}
else {
break;
}
}
}
// the mainloop
static void mainLoop() {
int fd;
int tnow;
unsigned char sockdata_buf[4096];
int sockdata_len;
int sockdata_lastlen;
unsigned char tapmsg_buf[1024];
int tapmsg_len;
unsigned char *msg;
unsigned char *msg_buf;
int msg_len;
int msg_offset;
int msg_ok;
int lastinit = 0;
int laststatus = 0;
int lastconnectcount = -1;
int connectcount = 0;
int do_broadcast = 0;
int ndp_peerid = 0;
int ndp_peerct = 0;
int frametype;
int source_peerid;
int source_peerct;
struct s_io_addr new_peeraddr;
msg_len = 0;
sockdata_len = 0;
sockdata_lastlen = 0;
tapmsg_len = 0;
while(g_mainloop) {
tnow = utilGetClock();
// read all fds
ioReadAll(&iostate);
// check udp sockets
while(!((fd = (ioGetGroup(&iostate, IOGRP_SOCKET))) < 0)) {
if(p2psecInputPacket(g_p2psec, ioGetData(&iostate, fd), ioGetDataLen(&iostate, fd), ioGetAddr(&iostate, fd)->addr)) {
// output frames to tap device
msg = p2psecRecvMSGFromPeerID(g_p2psec, &source_peerid, &source_peerct, &msg_len);
if(msg != NULL && msg_len > 12 && g_enableeth > 0) {
switchFrameIn(&g_switchstate, msg, msg_len, source_peerid, source_peerct);
ndp6PacketIn(&g_ndpstate, msg, msg_len, source_peerid, source_peerct);
if(!(ioWriteGroup(&iostate, IOGRP_TAP, msg, msg_len, NULL) > 0)) {
logWarning("could not write to tap device!");
}
}
// output packets
while((sockdata_len = (p2psecOutputPacket(g_p2psec, sockdata_buf, 4096, new_peeraddr.addr))) > 0) {
sockdata_lastlen = sockdata_len;
if(!(ioWriteGroup(&iostate, IOGRP_SOCKET, sockdata_buf, sockdata_len, &new_peeraddr) > 0)) {
logWarning("could not send packet!");
}
}
}
ioGetClear(&iostate, fd);
}
// check for ethernet frames on tap device
if(g_enableeth > 0) {
while(!((fd = (ioGetGroup(&iostate, IOGRP_TAP))) < 0)) {
msg_buf = ioGetData(&iostate, fd);
msg_len = ioGetDataLen(&iostate, fd);
msg_ok = 1;
// check frame
if((sockdata_lastlen > 0) && (msg_len > sockdata_lastlen)) {
msg_offset = msg_len - sockdata_lastlen;
if(memcmp(&msg_buf[msg_offset], sockdata_buf, sockdata_lastlen) == 0) {
// drop packets which have been sent out via PeerVPN's socket before to avoid loops
logWarning("recursive packet filtered!");
msg_ok = 0;
}
}
// process frame
if(msg_ok) {
if((g_enablevirtserv) && ((tapmsg_len = (virtservFrame(&g_virtserv, tapmsg_buf, 1024, msg_buf, msg_len))) > 0)) {
// virtual service frame
if(!(ioWriteGroup(&iostate, IOGRP_TAP, tapmsg_buf, tapmsg_len, NULL) > 0)) {
logWarning("could not write to tap device!");
}
}
else {
// regular frame
frametype = switchFrameOut(&g_switchstate, msg_buf, msg_len, &source_peerid, &source_peerct);
switch(frametype) {
case switch_FRAME_TYPE_UNICAST:
if(peermgtIsActiveIDCT(&g_p2psec->mgt, source_peerid, source_peerct)) {
do_broadcast = 0;
p2psecSendMSGToPeerID(g_p2psec, source_peerid, source_peerct, msg_buf, msg_len);
}
else {
do_broadcast = 1;
}
break;
case(switch_FRAME_TYPE_BROADCAST):
do_broadcast = 1;
break;
default:
do_broadcast = 0;
break;
}
if(do_broadcast) {
if(g_enablendpcache) {
// ndp cache enabled, check whether we can avoid the broadcast and answer from the cache instead
tapmsg_len = ndp6GenAdv(&g_ndpstate, msg_buf, msg_len, tapmsg_buf, 128, &ndp_peerid, &ndp_peerct);
if(tapmsg_len > 0) {
if(peermgtIsActiveIDCT(&g_p2psec->mgt, ndp_peerid, ndp_peerct)) {
// answer from cache
if(!(ioWriteGroup(&iostate, IOGRP_TAP, tapmsg_buf, tapmsg_len, NULL) > 0)) {
logWarning("could not write to tap device!");
}
}
else {
// cache entry is outdated, send broadcast
p2psecSendBroadcastMSG(g_p2psec, msg_buf, msg_len);
}
}
else {
// no cache entry or message not a neighbour solicitation, send broadcast
p2psecSendBroadcastMSG(g_p2psec, msg_buf, msg_len);
}
}
else {
// ndp cache disabled, send broadcast
p2psecSendBroadcastMSG(g_p2psec, msg_buf, msg_len);
}
}
// output packets
while((sockdata_len = (p2psecOutputPacket(g_p2psec, sockdata_buf, 4096, new_peeraddr.addr))) > 0) {
sockdata_lastlen = sockdata_len;
if(!(ioWriteGroup(&iostate, IOGRP_SOCKET, sockdata_buf, sockdata_len, &new_peeraddr) > 0)) {
logWarning("could not send packet!");
}
}
}
}
// clear frame
ioGetClear(&iostate, fd);
}
}
// output packets
while((sockdata_len = (p2psecOutputPacket(g_p2psec, sockdata_buf, 4096, new_peeraddr.addr))) > 0) {
sockdata_lastlen = sockdata_len;
if(!(ioWriteGroup(&iostate, IOGRP_SOCKET, sockdata_buf, sockdata_len, &new_peeraddr) > 0)) {
logWarning("could not send packet!");
}
}
// show status
if((tnow - laststatus) > 10) {
laststatus = tnow;
connectcount = p2psecPeerCount(g_p2psec);
if(lastconnectcount != connectcount) {
printf("[%d] %d peers connected.\n", p2psecUptime(g_p2psec), connectcount);
lastconnectcount = connectcount;
}
}
/*
if((tnow - laststatus) > 0) {
laststatus = tnow;
connectcount = p2psecPeerCount(g_p2psec);
printf("\ruptime: %d, peers connected: %d", p2psecUptime(g_p2psec), connectcount);
}
*/
// connect initpeers
if(((tnow - lastinit) > 30) && (!(mapGetKeyCount(&g_p2psec->mgt.map) > 1))) {
lastinit = tnow;
connectInitpeers();
}
// check console
if(g_enableconsole > 0) {
if(!((fd = (ioGetGroup(&iostate, IOGRP_CONSOLE))) < 0)) {
decodeConsole((char *)ioGetData(&iostate, fd), ioGetDataLen(&iostate, fd));
ioGetClear(&iostate, fd);
}
}
}
}