mirror of
https://github.com/zerotier/ZeroTierOne.git
synced 2024-12-22 22:32:22 +00:00
432 lines
12 KiB
C++
432 lines
12 KiB
C++
/*
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* ZeroTier One - Network Virtualization Everywhere
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* Copyright (C) 2011-2015 ZeroTier, Inc.
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*
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* --
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*
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* ZeroTier may be used and distributed under the terms of the GPLv3, which
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* are available at: http://www.gnu.org/licenses/gpl-3.0.html
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*
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* If you would like to embed ZeroTier into a commercial application or
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* redistribute it in a modified binary form, please contact ZeroTier Networks
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* LLC. Start here: http://www.zerotier.com/
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*/
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#include <stdint.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <unistd.h>
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#include <signal.h>
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#include <fcntl.h>
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#include <errno.h>
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#include <sys/types.h>
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#include <sys/stat.h>
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#include <sys/ioctl.h>
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#include <sys/wait.h>
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#include <sys/select.h>
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#include <netinet/in.h>
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#include <net/if_arp.h>
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#include <arpa/inet.h>
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#include <linux/if.h>
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#include <linux/if_tun.h>
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#include <linux/if_addr.h>
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#include <linux/if_ether.h>
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#include <ifaddrs.h>
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#include <algorithm>
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#include <utility>
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#include "../node/Constants.hpp"
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#include "../node/Utils.hpp"
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#include "../node/Mutex.hpp"
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#include "../node/Dictionary.hpp"
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#include "OSUtils.hpp"
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#include "LinuxEthernetTap.hpp"
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// ff:ff:ff:ff:ff:ff with no ADI
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static const ZeroTier::MulticastGroup _blindWildcardMulticastGroup(ZeroTier::MAC(0xff),0);
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namespace ZeroTier {
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static Mutex __tapCreateLock;
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LinuxEthernetTap::LinuxEthernetTap(
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const char *homePath,
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const MAC &mac,
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unsigned int mtu,
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unsigned int metric,
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uint64_t nwid,
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const char *friendlyName,
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void (*handler)(void *,uint64_t,const MAC &,const MAC &,unsigned int,unsigned int,const void *,unsigned int),
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void *arg) :
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_handler(handler),
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_arg(arg),
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_nwid(nwid),
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_homePath(homePath),
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_mtu(mtu),
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_fd(0),
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_enabled(true)
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{
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char procpath[128],nwids[32];
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struct stat sbuf;
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Utils::snprintf(nwids,sizeof(nwids),"%.16llx",nwid);
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Mutex::Lock _l(__tapCreateLock); // create only one tap at a time, globally
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if (mtu > 2800)
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throw std::runtime_error("max tap MTU is 2800");
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_fd = ::open("/dev/net/tun",O_RDWR);
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if (_fd <= 0)
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throw std::runtime_error(std::string("could not open TUN/TAP device: ") + strerror(errno));
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struct ifreq ifr;
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memset(&ifr,0,sizeof(ifr));
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// Try to recall our last device name, or pick an unused one if that fails.
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bool recalledDevice = false;
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std::string devmapbuf;
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Dictionary devmap;
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if (OSUtils::readFile((_homePath + ZT_PATH_SEPARATOR_S + "devicemap").c_str(),devmapbuf)) {
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devmap.fromString(devmapbuf);
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std::string desiredDevice(devmap.get(nwids,""));
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if (desiredDevice.length() > 2) {
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Utils::scopy(ifr.ifr_name,sizeof(ifr.ifr_name),desiredDevice.c_str());
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Utils::snprintf(procpath,sizeof(procpath),"/proc/sys/net/ipv4/conf/%s",ifr.ifr_name);
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recalledDevice = (stat(procpath,&sbuf) != 0);
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}
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}
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if (!recalledDevice) {
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int devno = 0;
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do {
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Utils::snprintf(ifr.ifr_name,sizeof(ifr.ifr_name),"zt%d",devno++);
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Utils::snprintf(procpath,sizeof(procpath),"/proc/sys/net/ipv4/conf/%s",ifr.ifr_name);
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} while (stat(procpath,&sbuf) == 0); // try zt#++ until we find one that does not exist
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}
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ifr.ifr_flags = IFF_TAP | IFF_NO_PI;
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if (ioctl(_fd,TUNSETIFF,(void *)&ifr) < 0) {
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::close(_fd);
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throw std::runtime_error("unable to configure TUN/TAP device for TAP operation");
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}
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_dev = ifr.ifr_name;
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::ioctl(_fd,TUNSETPERSIST,0); // valgrind may generate a false alarm here
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// Open an arbitrary socket to talk to netlink
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int sock = socket(AF_INET,SOCK_DGRAM,0);
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if (sock <= 0) {
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::close(_fd);
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throw std::runtime_error("unable to open netlink socket");
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}
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// Set MAC address
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ifr.ifr_ifru.ifru_hwaddr.sa_family = ARPHRD_ETHER;
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mac.copyTo(ifr.ifr_ifru.ifru_hwaddr.sa_data,6);
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if (ioctl(sock,SIOCSIFHWADDR,(void *)&ifr) < 0) {
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::close(_fd);
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::close(sock);
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throw std::runtime_error("unable to configure TAP hardware (MAC) address");
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return;
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}
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// Set MTU
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ifr.ifr_ifru.ifru_mtu = (int)mtu;
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if (ioctl(sock,SIOCSIFMTU,(void *)&ifr) < 0) {
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::close(_fd);
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::close(sock);
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throw std::runtime_error("unable to configure TAP MTU");
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}
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if (fcntl(_fd,F_SETFL,fcntl(_fd,F_GETFL) & ~O_NONBLOCK) == -1) {
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::close(_fd);
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throw std::runtime_error("unable to set flags on file descriptor for TAP device");
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}
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/* Bring interface up */
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if (ioctl(sock,SIOCGIFFLAGS,(void *)&ifr) < 0) {
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::close(_fd);
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::close(sock);
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throw std::runtime_error("unable to get TAP interface flags");
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}
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ifr.ifr_flags |= IFF_UP;
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if (ioctl(sock,SIOCSIFFLAGS,(void *)&ifr) < 0) {
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::close(_fd);
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::close(sock);
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throw std::runtime_error("unable to set TAP interface flags");
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}
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::close(sock);
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// Set close-on-exec so that devices cannot persist if we fork/exec for update
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::fcntl(_fd,F_SETFD,fcntl(_fd,F_GETFD) | FD_CLOEXEC);
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::pipe(_shutdownSignalPipe);
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devmap[nwids] = _dev;
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OSUtils::writeFile((_homePath + ZT_PATH_SEPARATOR_S + "devicemap").c_str(),devmap.toString());
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_thread = Thread::start(this);
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}
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LinuxEthernetTap::~LinuxEthernetTap()
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{
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::write(_shutdownSignalPipe[1],"\0",1); // causes thread to exit
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Thread::join(_thread);
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::close(_fd);
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::close(_shutdownSignalPipe[0]);
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::close(_shutdownSignalPipe[1]);
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}
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void LinuxEthernetTap::setEnabled(bool en)
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{
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_enabled = en;
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}
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bool LinuxEthernetTap::enabled() const
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{
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return _enabled;
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}
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static bool ___removeIp(const std::string &_dev,const InetAddress &ip)
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{
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long cpid = (long)vfork();
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if (cpid == 0) {
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OSUtils::redirectUnixOutputs("/dev/null",(const char *)0);
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::execl("/sbin/ip","/sbin/ip","addr","del",ip.toString().c_str(),"dev",_dev.c_str(),(const char *)0);
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::execl("/usr/sbin/ip","/usr/sbin/ip","addr","del",ip.toString().c_str(),"dev",_dev.c_str(),(const char *)0);
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::_exit(-1);
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} else {
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int exitcode = -1;
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::waitpid(cpid,&exitcode,0);
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return (exitcode == 0);
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}
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}
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bool LinuxEthernetTap::addIp(const InetAddress &ip)
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{
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if (!ip)
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return false;
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std::vector<InetAddress> allIps(ips());
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if (std::binary_search(allIps.begin(),allIps.end(),ip))
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return true;
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// Remove and reconfigure if address is the same but netmask is different
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for(std::vector<InetAddress>::iterator i(allIps.begin());i!=allIps.end();++i) {
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if (i->ipsEqual(ip))
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___removeIp(_dev,*i);
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}
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long cpid = (long)vfork();
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if (cpid == 0) {
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OSUtils::redirectUnixOutputs("/dev/null",(const char *)0);
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if (ip.isV4()) {
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::execl("/sbin/ip","/sbin/ip","addr","add",ip.toString().c_str(),"broadcast",ip.broadcast().toIpString().c_str(),"dev",_dev.c_str(),(const char *)0);
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::execl("/usr/sbin/ip","/usr/sbin/ip","addr","add",ip.toString().c_str(),"broadcast",ip.broadcast().toIpString().c_str(),"dev",_dev.c_str(),(const char *)0);
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} else {
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::execl("/sbin/ip","/sbin/ip","addr","add",ip.toString().c_str(),"dev",_dev.c_str(),(const char *)0);
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::execl("/usr/sbin/ip","/usr/sbin/ip","addr","add",ip.toString().c_str(),"dev",_dev.c_str(),(const char *)0);
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}
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::_exit(-1);
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} else if (cpid > 0) {
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int exitcode = -1;
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::waitpid(cpid,&exitcode,0);
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return (exitcode == 0);
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}
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return false;
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}
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bool LinuxEthernetTap::removeIp(const InetAddress &ip)
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{
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if (!ip)
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return true;
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std::vector<InetAddress> allIps(ips());
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if (!std::binary_search(allIps.begin(),allIps.end(),ip)) {
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if (___removeIp(_dev,ip))
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return true;
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}
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return false;
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}
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std::vector<InetAddress> LinuxEthernetTap::ips() const
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{
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struct ifaddrs *ifa = (struct ifaddrs *)0;
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if (getifaddrs(&ifa))
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return std::vector<InetAddress>();
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std::vector<InetAddress> r;
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struct ifaddrs *p = ifa;
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while (p) {
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if ((!strcmp(p->ifa_name,_dev.c_str()))&&(p->ifa_addr)&&(p->ifa_netmask)&&(p->ifa_addr->sa_family == p->ifa_netmask->sa_family)) {
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switch(p->ifa_addr->sa_family) {
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case AF_INET: {
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struct sockaddr_in *sin = (struct sockaddr_in *)p->ifa_addr;
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struct sockaddr_in *nm = (struct sockaddr_in *)p->ifa_netmask;
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r.push_back(InetAddress(&(sin->sin_addr.s_addr),4,Utils::countBits((uint32_t)nm->sin_addr.s_addr)));
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} break;
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case AF_INET6: {
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struct sockaddr_in6 *sin = (struct sockaddr_in6 *)p->ifa_addr;
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struct sockaddr_in6 *nm = (struct sockaddr_in6 *)p->ifa_netmask;
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uint32_t b[4];
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memcpy(b,nm->sin6_addr.s6_addr,sizeof(b));
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r.push_back(InetAddress(sin->sin6_addr.s6_addr,16,Utils::countBits(b[0]) + Utils::countBits(b[1]) + Utils::countBits(b[2]) + Utils::countBits(b[3])));
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} break;
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}
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}
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p = p->ifa_next;
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}
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if (ifa)
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freeifaddrs(ifa);
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std::sort(r.begin(),r.end());
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std::unique(r.begin(),r.end());
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return r;
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}
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void LinuxEthernetTap::put(const MAC &from,const MAC &to,unsigned int etherType,const void *data,unsigned int len)
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{
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char putBuf[8194];
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if ((_fd > 0)&&(len <= _mtu)&&(_enabled)) {
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to.copyTo(putBuf,6);
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from.copyTo(putBuf + 6,6);
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*((uint16_t *)(putBuf + 12)) = htons((uint16_t)etherType);
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memcpy(putBuf + 14,data,len);
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len += 14;
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::write(_fd,putBuf,len);
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}
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}
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std::string LinuxEthernetTap::deviceName() const
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{
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return _dev;
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}
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void LinuxEthernetTap::setFriendlyName(const char *friendlyName)
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{
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}
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void LinuxEthernetTap::scanMulticastGroups(std::vector<MulticastGroup> &added,std::vector<MulticastGroup> &removed)
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{
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char *ptr,*ptr2;
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unsigned char mac[6];
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std::vector<MulticastGroup> newGroups;
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int fd = ::open("/proc/net/dev_mcast",O_RDONLY);
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if (fd > 0) {
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char buf[131072];
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int n = (int)::read(fd,buf,sizeof(buf));
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if ((n > 0)&&(n < (int)sizeof(buf))) {
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buf[n] = (char)0;
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for(char *l=strtok_r(buf,"\r\n",&ptr);(l);l=strtok_r((char *)0,"\r\n",&ptr)) {
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int fno = 0;
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char *devname = (char *)0;
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char *mcastmac = (char *)0;
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for(char *f=strtok_r(l," \t",&ptr2);(f);f=strtok_r((char *)0," \t",&ptr2)) {
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if (fno == 1)
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devname = f;
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else if (fno == 4)
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mcastmac = f;
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++fno;
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}
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if ((devname)&&(!strcmp(devname,_dev.c_str()))&&(mcastmac)&&(Utils::unhex(mcastmac,mac,6) == 6))
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newGroups.push_back(MulticastGroup(MAC(mac,6),0));
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}
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}
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::close(fd);
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}
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std::vector<InetAddress> allIps(ips());
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for(std::vector<InetAddress>::iterator ip(allIps.begin());ip!=allIps.end();++ip)
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newGroups.push_back(MulticastGroup::deriveMulticastGroupForAddressResolution(*ip));
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std::sort(newGroups.begin(),newGroups.end());
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std::unique(newGroups.begin(),newGroups.end());
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for(std::vector<MulticastGroup>::iterator m(newGroups.begin());m!=newGroups.end();++m) {
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if (!std::binary_search(_multicastGroups.begin(),_multicastGroups.end(),*m))
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added.push_back(*m);
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}
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for(std::vector<MulticastGroup>::iterator m(_multicastGroups.begin());m!=_multicastGroups.end();++m) {
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if (!std::binary_search(newGroups.begin(),newGroups.end(),*m))
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removed.push_back(*m);
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}
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_multicastGroups.swap(newGroups);
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}
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void LinuxEthernetTap::threadMain()
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throw()
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{
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fd_set readfds,nullfds;
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MAC to,from;
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int n,nfds,r;
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char getBuf[8194];
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Thread::sleep(500);
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FD_ZERO(&readfds);
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FD_ZERO(&nullfds);
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nfds = (int)std::max(_shutdownSignalPipe[0],_fd) + 1;
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r = 0;
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for(;;) {
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FD_SET(_shutdownSignalPipe[0],&readfds);
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FD_SET(_fd,&readfds);
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select(nfds,&readfds,&nullfds,&nullfds,(struct timeval *)0);
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if (FD_ISSET(_shutdownSignalPipe[0],&readfds)) // writes to shutdown pipe terminate thread
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break;
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if (FD_ISSET(_fd,&readfds)) {
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n = (int)::read(_fd,getBuf + r,sizeof(getBuf) - r);
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if (n < 0) {
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if ((errno != EINTR)&&(errno != ETIMEDOUT))
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break;
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} else {
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// Some tap drivers like to send the ethernet frame and the
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// payload in two chunks, so handle that by accumulating
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// data until we have at least a frame.
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r += n;
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if (r > 14) {
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if (r > ((int)_mtu + 14)) // sanity check for weird TAP behavior on some platforms
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r = _mtu + 14;
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if (_enabled) {
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to.setTo(getBuf,6);
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from.setTo(getBuf + 6,6);
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unsigned int etherType = ntohs(((const uint16_t *)getBuf)[6]);
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// TODO: VLAN support
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_handler(_arg,_nwid,from,to,etherType,0,(const void *)(getBuf + 14),r - 14);
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}
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r = 0;
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}
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}
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}
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}
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}
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} // namespace ZeroTier
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