NF_CAP::NF_CAP()
: traffCnt(NULL),
- tidTCP(0),
- tidUDP(0),
+ settings(),
+ tidTCP(),
+ tidUDP(),
runningTCP(false),
runningUDP(false),
stoppedTCP(true),
portT(0),
portU(0),
sockTCP(-1),
- sockUDP(-1)
+ sockUDP(-1),
+ errorStr()
{
}
CloseUDP();
for (int i = 0; i < 25 && !stoppedUDP; ++i)
{
- usleep(200000);
+ struct timespec ts = {0, 200000000};
+ nanosleep(&ts, NULL);
}
if (stoppedUDP)
{
CloseTCP();
for (int i = 0; i < 25 && !stoppedTCP; ++i)
{
- usleep(200000);
+ struct timespec ts = {0, 200000000};
+ nanosleep(&ts, NULL);
}
if (stoppedTCP)
{
{
NF_DATA * data = reinterpret_cast<NF_DATA *>(buf + 24 + i * 48);
- ip.header.ipHeader.ip_v = 4;
- ip.header.ipHeader.ip_hl = 5;
- ip.header.ipHeader.ip_p = data->proto;
+ ip.rawPacket.header.ipHeader.ip_v = 4;
+ ip.rawPacket.header.ipHeader.ip_hl = 5;
+ ip.rawPacket.header.ipHeader.ip_p = data->proto;
ip.dataLen = ntohl(data->octets);
- ip.header.ipHeader.ip_src.s_addr = data->srcAddr;
- ip.header.ipHeader.ip_dst.s_addr = data->dstAddr;
- ip.header.sPort = data->srcPort;
- ip.header.dPort = data->dstPort;
+ ip.rawPacket.header.ipHeader.ip_src.s_addr = data->srcAddr;
+ ip.rawPacket.header.ipHeader.ip_dst.s_addr = data->dstAddr;
+ ip.rawPacket.header.sPort = data->srcPort;
+ ip.rawPacket.header.dPort = data->dstPort;
traffCnt->Process(ip);
}