mirror of
https://github.com/zerotier/ZeroTierOne.git
synced 2024-12-18 20:47:53 +00:00
320 lines
10 KiB
C++
320 lines
10 KiB
C++
/*
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* ZeroTier One - Network Virtualization Everywhere
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* Copyright (C) 2011-2016 ZeroTier, Inc. https://www.zerotier.com/
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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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// HACK! Will eventually use epoll() or something in Phy<> instead of select().
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// Also be sure to change ulimit -n and fs.file-max in /etc/sysctl.conf on relays.
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#if defined(__linux__) || defined(__LINUX__) || defined(__LINUX) || defined(LINUX)
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#include <linux/posix_types.h>
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#include <bits/types.h>
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#undef __FD_SETSIZE
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#define __FD_SETSIZE 1048576
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#undef FD_SETSIZE
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#define FD_SETSIZE 1048576
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#endif
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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 <time.h>
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#include <stdint.h>
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#include <unistd.h>
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#include <signal.h>
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#include <map>
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#include <set>
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#include <string>
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#include <algorithm>
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#include <vector>
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#include "../osdep/Phy.hpp"
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#include "../node/Metrics.hpp"
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#define ZT_TCP_PROXY_CONNECTION_TIMEOUT_SECONDS 300
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#define ZT_TCP_PROXY_TCP_PORT 443
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using namespace ZeroTier;
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/*
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* ZeroTier TCP Proxy Server
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*
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* This implements a simple packet encapsulation that is designed to look like
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* a TLS connection. It's not a TLS connection, but it sends TLS format record
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* headers. It could be extended in the future to implement a fake TLS
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* handshake.
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*
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* At the moment, each packet is just made to look like TLS application data:
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* <[1] TLS content type> - currently 0x17 for "application data"
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* <[1] TLS major version> - currently 0x03 for TLS 1.2
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* <[1] TLS minor version> - currently 0x03 for TLS 1.2
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* <[2] payload length> - 16-bit length of payload in bytes
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* <[...] payload> - Message payload
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*
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* TCP is inherently inefficient for encapsulating Ethernet, since TCP and TCP
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* like protocols over TCP lead to double-ACKs. So this transport is only used
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* to enable access when UDP or other datagram protocols are not available.
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*
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* Clients send a greeting, which is a four-byte message that contains:
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* <[1] ZeroTier major version>
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* <[1] minor version>
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* <[2] revision>
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*
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* If a client has sent a greeting, it uses the new version of this protocol
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* in which every encapsulated ZT packet is prepended by an IP address where
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* it should be forwarded (or where it came from for replies). This causes
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* this proxy to act as a remote UDP socket similar to a socks proxy, which
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* will allow us to move this function off the rootservers and onto dedicated
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* proxy nodes.
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*
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* Older ZT clients that do not send this message get their packets relayed
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* to/from 127.0.0.1:9993, which will allow them to talk to and relay via
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* the ZT node on the same machine as the proxy. We'll only support this for
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* as long as such nodes appear to be in the wild.
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*/
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struct TcpProxyService;
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struct TcpProxyService
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{
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Phy<TcpProxyService *> *phy;
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int udpPortCounter;
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struct Client
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{
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char tcpReadBuf[131072];
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char tcpWriteBuf[131072];
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unsigned long tcpWritePtr;
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unsigned long tcpReadPtr;
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PhySocket *tcp;
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PhySocket *udp;
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time_t lastActivity;
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bool newVersion;
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};
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std::map< PhySocket *,Client > clients;
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PhySocket *getUnusedUdp(void *uptr)
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{
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for(int i=0;i<65535;++i) {
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++udpPortCounter;
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if (udpPortCounter > 0xfffe)
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udpPortCounter = 1024;
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struct sockaddr_in laddr;
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memset(&laddr,0,sizeof(struct sockaddr_in));
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laddr.sin_family = AF_INET;
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laddr.sin_port = htons((uint16_t)udpPortCounter);
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PhySocket *udp = phy->udpBind(reinterpret_cast<struct sockaddr *>(&laddr),uptr);
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if (udp)
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return udp;
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}
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return (PhySocket *)0;
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}
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void phyOnDatagram(PhySocket *sock,void **uptr,const struct sockaddr *localAddr,const struct sockaddr *from,void *data,unsigned long len)
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{
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if (!*uptr)
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return;
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if ((from->sa_family == AF_INET)&&(len >= 16)&&(len < 2048)) {
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Client &c = *((Client *)*uptr);
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c.lastActivity = time((time_t *)0);
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unsigned long mlen = len;
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if (c.newVersion)
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mlen += 7; // new clients get IP info
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if ((c.tcpWritePtr + 5 + mlen) <= sizeof(c.tcpWriteBuf)) {
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if (!c.tcpWritePtr)
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phy->setNotifyWritable(c.tcp,true);
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c.tcpWriteBuf[c.tcpWritePtr++] = 0x17; // look like TLS data
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c.tcpWriteBuf[c.tcpWritePtr++] = 0x03; // look like TLS 1.2
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c.tcpWriteBuf[c.tcpWritePtr++] = 0x03; // look like TLS 1.2
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c.tcpWriteBuf[c.tcpWritePtr++] = (char)((mlen >> 8) & 0xff);
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c.tcpWriteBuf[c.tcpWritePtr++] = (char)(mlen & 0xff);
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if (c.newVersion) {
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c.tcpWriteBuf[c.tcpWritePtr++] = (char)4; // IPv4
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*((uint32_t *)(c.tcpWriteBuf + c.tcpWritePtr)) = ((const struct sockaddr_in *)from)->sin_addr.s_addr;
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c.tcpWritePtr += 4;
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*((uint16_t *)(c.tcpWriteBuf + c.tcpWritePtr)) = ((const struct sockaddr_in *)from)->sin_port;
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c.tcpWritePtr += 2;
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}
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for(unsigned long i=0;i<len;++i)
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c.tcpWriteBuf[c.tcpWritePtr++] = ((const char *)data)[i];
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}
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printf("<< UDP %s:%d -> %.16llx\n",inet_ntoa(reinterpret_cast<const struct sockaddr_in *>(from)->sin_addr),(int)ntohs(reinterpret_cast<const struct sockaddr_in *>(from)->sin_port),(unsigned long long)&c);
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}
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}
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void phyOnTcpConnect(PhySocket *sock,void **uptr,bool success)
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{
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// unused, we don't initiate outbound connections
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}
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void phyOnTcpAccept(PhySocket *sockL,PhySocket *sockN,void **uptrL,void **uptrN,const struct sockaddr *from)
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{
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Client &c = clients[sockN];
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PhySocket *udp = getUnusedUdp((void *)&c);
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if (!udp) {
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phy->close(sockN);
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clients.erase(sockN);
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printf("** TCP rejected, no more UDP ports to assign\n");
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return;
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}
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c.tcpWritePtr = 0;
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c.tcpReadPtr = 0;
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c.tcp = sockN;
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c.udp = udp;
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c.lastActivity = time((time_t *)0);
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c.newVersion = false;
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*uptrN = (void *)&c;
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printf("<< TCP from %s -> %.16llx\n",inet_ntoa(reinterpret_cast<const struct sockaddr_in *>(from)->sin_addr),(unsigned long long)&c);
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}
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void phyOnTcpClose(PhySocket *sock,void **uptr)
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{
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if (!*uptr)
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return;
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Client &c = *((Client *)*uptr);
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phy->close(c.udp);
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clients.erase(sock);
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printf("** TCP %.16llx closed\n",(unsigned long long)*uptr);
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}
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void phyOnTcpData(PhySocket *sock,void **uptr,void *data,unsigned long len)
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{
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Client &c = *((Client *)*uptr);
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c.lastActivity = time((time_t *)0);
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for(unsigned long i=0;i<len;++i) {
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if (c.tcpReadPtr >= sizeof(c.tcpReadBuf)) {
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phy->close(sock);
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return;
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}
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c.tcpReadBuf[c.tcpReadPtr++] = ((const char *)data)[i];
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if (c.tcpReadPtr >= 5) {
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unsigned long mlen = ( ((((unsigned long)c.tcpReadBuf[3]) & 0xff) << 8) | (((unsigned long)c.tcpReadBuf[4]) & 0xff) );
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if (c.tcpReadPtr >= (mlen + 5)) {
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if (mlen == 4) {
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// Right now just sending this means the client is 'new enough' for the IP header
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c.newVersion = true;
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printf("<< TCP %.16llx HELLO\n",(unsigned long long)*uptr);
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} else if (mlen >= 7) {
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char *payload = c.tcpReadBuf + 5;
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unsigned long payloadLen = mlen;
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struct sockaddr_in dest;
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memset(&dest,0,sizeof(dest));
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if (c.newVersion) {
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if (*payload == (char)4) {
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// New clients tell us where their packets go.
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++payload;
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dest.sin_family = AF_INET;
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dest.sin_addr.s_addr = *((uint32_t *)payload);
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payload += 4;
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dest.sin_port = *((uint16_t *)payload); // will be in network byte order already
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payload += 2;
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payloadLen -= 7;
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}
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} else {
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// For old clients we will just proxy everything to a local ZT instance. The
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// fact that this will come from 127.0.0.1 will in turn prevent that instance
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// from doing unite() with us. It'll just forward. There will not be many of
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// these.
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dest.sin_family = AF_INET;
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dest.sin_addr.s_addr = htonl(0x7f000001); // 127.0.0.1
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dest.sin_port = htons(9993);
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}
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// Note: we do not relay to privileged ports... just an abuse prevention rule.
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if ((ntohs(dest.sin_port) > 1024)&&(payloadLen >= 16)) {
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phy->udpSend(c.udp,(const struct sockaddr *)&dest,payload,payloadLen);
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printf(">> TCP %.16llx to %s:%d\n",(unsigned long long)*uptr,inet_ntoa(dest.sin_addr),(int)ntohs(dest.sin_port));
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}
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}
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memmove(c.tcpReadBuf,c.tcpReadBuf + (mlen + 5),c.tcpReadPtr -= (mlen + 5));
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}
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}
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}
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}
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void phyOnTcpWritable(PhySocket *sock,void **uptr)
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{
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Client &c = *((Client *)*uptr);
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if (c.tcpWritePtr) {
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long n = phy->streamSend(sock,c.tcpWriteBuf,c.tcpWritePtr);
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if (n > 0) {
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memmove(c.tcpWriteBuf,c.tcpWriteBuf + n,c.tcpWritePtr -= (unsigned long)n);
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if (!c.tcpWritePtr)
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phy->setNotifyWritable(sock,false);
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}
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} else phy->setNotifyWritable(sock,false);
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}
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void doHousekeeping()
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{
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std::vector<PhySocket *> toClose;
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time_t now = time((time_t *)0);
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for(std::map< PhySocket *,Client >::iterator c(clients.begin());c!=clients.end();++c) {
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if ((now - c->second.lastActivity) >= ZT_TCP_PROXY_CONNECTION_TIMEOUT_SECONDS) {
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toClose.push_back(c->first);
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toClose.push_back(c->second.udp);
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}
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}
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for(std::vector<PhySocket *>::iterator s(toClose.begin());s!=toClose.end();++s)
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phy->close(*s);
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}
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};
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int main(int argc,char **argv)
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{
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signal(SIGPIPE,SIG_IGN);
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signal(SIGHUP,SIG_IGN);
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srand(time((time_t *)0));
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TcpProxyService svc;
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Phy<TcpProxyService *> phy(&svc,false,true);
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svc.phy = &phy;
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svc.udpPortCounter = 1023;
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{
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struct sockaddr_in laddr;
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memset(&laddr,0,sizeof(laddr));
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laddr.sin_family = AF_INET;
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laddr.sin_port = htons(ZT_TCP_PROXY_TCP_PORT);
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if (!phy.tcpListen((const struct sockaddr *)&laddr)) {
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fprintf(stderr,"%s: fatal error: unable to bind TCP port %d\n",argv[0],ZT_TCP_PROXY_TCP_PORT);
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return 1;
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}
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}
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time_t lastDidHousekeeping = time((time_t *)0);
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for(;;) {
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phy.poll(120000);
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time_t now = time((time_t *)0);
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if ((now - lastDidHousekeeping) > 120) {
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lastDidHousekeeping = now;
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svc.doHousekeeping();
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}
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}
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return 0;
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}
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