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zapret/tpws/tpws_conn.c

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#define _GNU_SOURCE
#include <stdio.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include <unistd.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <arpa/inet.h>
#include <netinet/in.h>
#include <netinet/ip.h>
#include <netinet/tcp.h>
#include <sys/epoll.h>
#include <sys/ioctl.h>
#include <fcntl.h>
#include <netdb.h>
#include "tpws.h"
#include "tpws_conn.h"
#include "redirect.h"
#include "tamper.h"
#include "socks.h"
#include "helpers.h"
#include "hostlist.h"
// keep separate legs counter. counting every time thousands of legs can consume cpu
static int legs_local, legs_remote;
/*
static void count_legs(struct tailhead *conn_list)
{
tproxy_conn_t *conn = NULL;
legs_local = legs_remote = 0;
TAILQ_FOREACH(conn, conn_list, conn_ptrs)
conn->remote ? legs_remote++ : legs_local++;
}
*/
static void print_legs(void)
{
VPRINT("Legs : local:%d remote:%d\n", legs_local, legs_remote);
}
static bool socks5_send_rep(int fd,uint8_t rep)
{
s5_rep s5rep;
memset(&s5rep,0,sizeof(s5rep));
s5rep.ver = 5;
s5rep.rep = rep;
s5rep.atyp = S5_ATYP_IP4;
return send(fd,&s5rep,sizeof(s5rep),MSG_DONTWAIT)==sizeof(s5rep);
}
static bool socks5_send_rep_errno(int fd,int errn)
{
uint8_t rep;
switch(errn)
{
case 0:
rep=S5_REP_OK; break;
case ECONNREFUSED:
rep=S5_REP_CONN_REFUSED; break;
case ENETUNREACH:
rep=S5_REP_NETWORK_UNREACHABLE; break;
case ETIMEDOUT:
case EHOSTUNREACH:
rep=S5_REP_HOST_UNREACHABLE; break;
default:
rep=S5_REP_GENERAL_FAILURE;
}
return socks5_send_rep(fd,rep);
}
static bool socks4_send_rep(int fd, uint8_t rep)
{
s4_rep s4rep;
memset(&s4rep, 0, sizeof(s4rep));
s4rep.rep = rep;
return send(fd, &s4rep, sizeof(s4rep), MSG_DONTWAIT) == sizeof(s4rep);
}
static bool socks4_send_rep_errno(int fd, int errn)
{
return socks4_send_rep(fd, errn ? S4_REP_FAILED : S4_REP_OK);
}
static bool socks_send_rep(uint8_t ver, int fd, uint8_t rep5)
{
return ver==5 ? socks5_send_rep(fd, rep5) : socks4_send_rep(fd, rep5 ? S4_REP_FAILED : S4_REP_OK);
}
static bool socks_send_rep_errno(uint8_t ver, int fd, int errn)
{
return ver==5 ? socks5_send_rep_errno(fd,errn) : socks4_send_rep_errno(fd, errn);
}
ssize_t send_with_ttl(int fd, const void *buf, size_t len, int flags, int ttl)
{
ssize_t wr;
if (ttl)
{
DBGPRINT("send_with_ttl %d fd=%d\n",ttl,fd);
if (!set_ttl_hl(fd, ttl))
//DLOG_ERR("could not set ttl %d to fd=%d\n",ttl,fd);
DLOG_ERR("could not set ttl %d to fd=%d\n",ttl,fd);
}
wr = send(fd, buf, len, flags);
if (ttl)
{
int e=errno;
if (!set_ttl_hl(fd, params.ttl_default))
DLOG_ERR("could not set ttl %d to fd=%d\n",params.ttl_default,fd);
errno=e;
}
return wr;
}
static bool send_buffer_create(send_buffer_t *sb, const void *data, size_t len, size_t extra_bytes, int flags, int ttl)
{
if (sb->data)
{
DLOG_ERR("FATAL : send_buffer_create but buffer is not empty\n");
exit(1);
}
sb->data = malloc(len + extra_bytes);
if (!sb->data)
{
DBGPRINT("send_buffer_create failed\n");
return false;
}
if (data) memcpy(sb->data,data,len);
sb->len = len;
sb->pos = 0;
sb->ttl = ttl;
sb->flags = flags;
return true;
}
static bool send_buffer_realloc(send_buffer_t *sb, size_t extra_bytes)
{
if (sb->data)
{
uint8_t *p = (uint8_t*)realloc(sb->data, sb->len + extra_bytes);
if (p)
{
sb->data = p;
DBGPRINT("reallocated send_buffer from %zd to %zd\n", sb->len, sb->len + extra_bytes);
return true;
}
else
{
DBGPRINT("failed to realloc send_buffer from %zd to %zd\n", sb->len, sb->len + extra_bytes);
}
}
return false;
}
static void send_buffer_free(send_buffer_t *sb)
{
if (sb->data)
{
free(sb->data);
sb->data = NULL;
}
}
static void send_buffers_free(send_buffer_t *sb_array, int count)
{
for (int i=0;i<count;i++)
send_buffer_free(sb_array+i);
}
static void conn_free_buffers(tproxy_conn_t *conn)
{
send_buffers_free(conn->wr_buf,sizeof(conn->wr_buf)/sizeof(conn->wr_buf[0]));
}
static bool send_buffer_present(send_buffer_t *sb)
{
return !!sb->data;
}
static bool send_buffers_present(send_buffer_t *sb_array, int count)
{
for(int i=0;i<count;i++)
if (send_buffer_present(sb_array+i))
return true;
return false;
}
static ssize_t send_buffer_send(send_buffer_t *sb, int fd)
{
ssize_t wr;
wr = send_with_ttl(fd, sb->data + sb->pos, sb->len - sb->pos, sb->flags, sb->ttl);
DBGPRINT("send_buffer_send len=%zu pos=%zu wr=%zd err=%d\n",sb->len,sb->pos,wr,errno);
if (wr>0)
{
sb->pos += wr;
if (sb->pos >= sb->len)
{
send_buffer_free(sb);
}
}
else if (wr<0 && errno==EAGAIN) wr=0;
return wr;
}
static ssize_t send_buffers_send(send_buffer_t *sb_array, int count, int fd, size_t *real_wr)
{
ssize_t wr,twr=0;
for (int i=0;i<count;i++)
{
if (send_buffer_present(sb_array+i))
{
wr = send_buffer_send(sb_array+i, fd);
DBGPRINT("send_buffers_send(%d) wr=%zd err=%d\n",i,wr,errno);
if (wr<0)
{
if (real_wr) *real_wr = twr;
return wr; // send error
}
twr+=wr;
if (send_buffer_present(sb_array+i)) // send next buffer only when current is fully sent
break;
}
}
if (real_wr) *real_wr = twr;
return twr;
}
static bool conn_in_tcp_mode(tproxy_conn_t *conn)
{
return !(conn->conn_type==CONN_TYPE_SOCKS && conn->socks_state!=S_TCP);
}
static bool conn_partner_alive(tproxy_conn_t *conn)
{
return conn->partner && conn->partner->state!=CONN_CLOSED;
}
static bool conn_buffers_present(tproxy_conn_t *conn)
{
return send_buffers_present(conn->wr_buf,sizeof(conn->wr_buf)/sizeof(conn->wr_buf[0]));
}
static ssize_t conn_buffers_send(tproxy_conn_t *conn)
{
size_t wr,real_twr;
wr = send_buffers_send(conn->wr_buf,sizeof(conn->wr_buf)/sizeof(conn->wr_buf[0]), conn->fd, &real_twr);
conn->twr += real_twr;
return wr;
}
static bool conn_has_unsent(tproxy_conn_t *conn)
{
return conn->wr_unsent || conn_buffers_present(conn);
}
static int conn_bytes_unread(tproxy_conn_t *conn)
{
int numbytes=-1;
ioctl(conn->fd, FIONREAD, &numbytes);
return numbytes;
}
static bool conn_has_unsent_pair(tproxy_conn_t *conn)
{
return conn_has_unsent(conn) || (conn_partner_alive(conn) && conn_has_unsent(conn->partner));
}
static bool conn_shutdown(tproxy_conn_t *conn)
{
conn->bShutdown = true;
if (shutdown(conn->fd,SHUT_WR)<0)
{
DLOG_PERROR("shutdown");
return false;
}
return true;
}
static ssize_t send_or_buffer(send_buffer_t *sb, int fd, const void *buf, size_t len, int flags, int ttl)
{
ssize_t wr=0;
if (len)
{
wr = send_with_ttl(fd, buf, len, flags, ttl);
if (wr<0 && errno==EAGAIN) wr=0;
if (wr>=0 && wr<len)
{
if (!send_buffer_create(sb, buf+wr, len-wr, 0, flags, ttl))
wr=-1;
}
}
return wr;
}
static void dbgprint_socket_buffers(int fd)
{
if (params.debug>=2)
{
int v;
socklen_t sz;
sz=sizeof(int);
if (!getsockopt(fd,SOL_SOCKET,SO_RCVBUF,&v,&sz))
DBGPRINT("fd=%d SO_RCVBUF=%d\n",fd,v);
sz=sizeof(int);
if (!getsockopt(fd,SOL_SOCKET,SO_SNDBUF,&v,&sz))
DBGPRINT("fd=%d SO_SNDBUF=%d\n",fd,v);
}
}
bool set_socket_buffers(int fd, int rcvbuf, int sndbuf)
{
DBGPRINT("set_socket_buffers fd=%d rcvbuf=%d sndbuf=%d\n",fd,rcvbuf,sndbuf);
if (rcvbuf && setsockopt(fd, SOL_SOCKET, SO_RCVBUF, &rcvbuf, sizeof(int)) <0)
{
DLOG_PERROR("setsockopt (SO_RCVBUF)");
close(fd);
return false;
}
if (sndbuf && setsockopt(fd, SOL_SOCKET, SO_SNDBUF, &sndbuf, sizeof(int)) <0)
{
DLOG_PERROR("setsockopt (SO_SNDBUF)");
close(fd);
return false;
}
dbgprint_socket_buffers(fd);
return true;
}
static bool proxy_remote_conn_ack(tproxy_conn_t *conn, int sock_err)
{
// if proxy mode acknowledge connection request
// conn = remote. conn->partner = local
if (!conn->remote || !conn_partner_alive(conn)) return false;
bool bres = true;
switch(conn->partner->conn_type)
{
case CONN_TYPE_SOCKS:
if (conn->partner->socks_state==S_WAIT_CONNECTION)
{
conn->partner->socks_state=S_TCP;
bres = socks_send_rep_errno(conn->partner->socks_ver,conn->partner->fd,sock_err);
DBGPRINT("socks connection acknowledgement. bres=%d remote_errn=%d remote_fd=%d local_fd=%d\n",bres,sock_err,conn->fd,conn->partner->fd);
}
break;
}
return bres;
}
#if defined(__linux__) || defined(__APPLE__)
static void set_user_timeout(int fd, int timeout)
{
#ifdef __linux__
if (timeout>0)
{
int msec = 1000*timeout;
if (setsockopt(fd, IPPROTO_TCP, TCP_USER_TIMEOUT, &msec, sizeof(int)) <0)
DLOG_PERROR("setsockopt (TCP_USER_TIMEOUT)");
}
#elif defined(__APPLE__)
if (timeout>0 && setsockopt(fd, IPPROTO_TCP, TCP_RXT_CONNDROPTIME, &timeout, sizeof(int)) <0)
DLOG_PERROR("setsockopt (TCP_RXT_CONNDROPTIME)");
#endif
}
#else
#define set_user_timeout(fd,timeout)
#endif
//Createas a socket and initiates the connection to the host specified by
//remote_addr.
//Returns -1 if something fails, >0 on success (socket fd).
static int connect_remote(const struct sockaddr *remote_addr, bool bApplyConnectionFooling)
{
int remote_fd = 0, yes = 1, no = 0;
if((remote_fd = socket(remote_addr->sa_family, SOCK_STREAM, 0)) < 0)
{
DLOG_PERROR("socket (connect_remote)");
return -1;
}
// Use NONBLOCK to avoid slow connects affecting the performance of other connections
// separate fcntl call to comply with macos
if (fcntl(remote_fd, F_SETFL, O_NONBLOCK)<0)
{
DLOG_PERROR("socket set O_NONBLOCK (connect_remote)");
close(remote_fd);
return -1;
}
if (setsockopt(remote_fd, SOL_SOCKET, SO_REUSEADDR, &yes, sizeof(yes)) < 0)
{
DLOG_PERROR("setsockopt (SO_REUSEADDR, connect_remote)");
close(remote_fd);
return -1;
}
if (!set_socket_buffers(remote_fd, params.remote_rcvbuf, params.remote_sndbuf))
return -1;
if (!set_keepalive(remote_fd))
{
DLOG_PERROR("set_keepalive");
close(remote_fd);
return -1;
}
if (setsockopt(remote_fd, IPPROTO_TCP, TCP_NODELAY, params.skip_nodelay ? &no : &yes, sizeof(int)) <0)
{
DLOG_PERROR("setsockopt (TCP_NODELAY, connect_remote)");
close(remote_fd);
return -1;
}
if (bApplyConnectionFooling && params.mss)
{
uint16_t port = saport(remote_addr);
if (pf_in_range(port,&params.mss_pf))
{
VPRINT("Setting MSS %d\n",params.mss);
if (setsockopt(remote_fd, IPPROTO_TCP, TCP_MAXSEG, &params.mss, sizeof(int)) <0)
{
DLOG_PERROR("setsockopt (TCP_MAXSEG, connect_remote)");
close(remote_fd);
return -1;
}
}
else
{
VPRINT("Not setting MSS. Port %u is out of MSS port range.\n",port);
}
}
// if no bind address specified - address family will be 0 in params_connect_bindX
if(remote_addr->sa_family == params.connect_bind4.sin_family)
{
if (bind(remote_fd, (struct sockaddr *)&params.connect_bind4, sizeof(struct sockaddr_in)) == -1)
{
DLOG_PERROR("bind on connect");
close(remote_fd);
return -1;
}
}
else if(remote_addr->sa_family == params.connect_bind6.sin6_family)
{
if (*params.connect_bind6_ifname && !params.connect_bind6.sin6_scope_id)
{
params.connect_bind6.sin6_scope_id=if_nametoindex(params.connect_bind6_ifname);
if (!params.connect_bind6.sin6_scope_id)
{
DLOG_ERR("interface name not found : %s\n", params.connect_bind6_ifname);
close(remote_fd);
return -1;
}
}
if (bind(remote_fd, (struct sockaddr *)&params.connect_bind6, sizeof(struct sockaddr_in6)) == -1)
{
DLOG_PERROR("bind on connect");
close(remote_fd);
return -1;
}
}
set_user_timeout(remote_fd, params.tcp_user_timeout_remote);
if (connect(remote_fd, remote_addr, remote_addr->sa_family == AF_INET ? sizeof(struct sockaddr_in) : sizeof(struct sockaddr_in6)) < 0)
{
if(errno != EINPROGRESS)
{
DLOG_PERROR("connect (connect_remote)");
close(remote_fd);
return -1;
}
}
DBGPRINT("Connecting remote fd=%d\n",remote_fd);
return remote_fd;
}
//Free resources occupied by this connection
static void free_conn(tproxy_conn_t *conn)
{
if (!conn) return;
if (conn->fd) close(conn->fd);
if (conn->splice_pipe[0])
{
close(conn->splice_pipe[0]);
close(conn->splice_pipe[1]);
}
conn_free_buffers(conn);
if (conn->partner) conn->partner->partner=NULL;
if (conn->track.hostname) free(conn->track.hostname);
if (conn->socks_ri) conn->socks_ri->ptr = NULL; // detach conn
free(conn);
}
static tproxy_conn_t *new_conn(int fd, bool remote)
{
tproxy_conn_t *conn;
//Create connection object and fill in information
if((conn = (tproxy_conn_t*) malloc(sizeof(tproxy_conn_t))) == NULL)
{
DLOG_ERR("Could not allocate memory for connection\n");
return NULL;
}
memset(conn, 0, sizeof(tproxy_conn_t));
conn->state = CONN_UNAVAILABLE;
conn->fd = fd;
conn->remote = remote;
#ifdef SPLICE_PRESENT
// if dont tamper - both legs are spliced, create 2 pipes
// otherwise create pipe only in local leg
if (!params.nosplice && ( !remote || !params.tamper || params.tamper_start || params.tamper_cutoff ) && pipe2(conn->splice_pipe, O_NONBLOCK) != 0)
{
DLOG_ERR("Could not create the splice pipe\n");
free_conn(conn);
return NULL;
}
#endif
return conn;
}
static bool epoll_set(tproxy_conn_t *conn, uint32_t events)
{
struct epoll_event ev;
memset(&ev, 0, sizeof(ev));
ev.events = events;
ev.data.ptr = (void*) conn;
DBGPRINT("epoll_set fd=%d events=%08X\n",conn->fd,events);
if(epoll_ctl(conn->efd, EPOLL_CTL_MOD, conn->fd, &ev)==-1 &&
epoll_ctl(conn->efd, EPOLL_CTL_ADD, conn->fd, &ev)==-1)
{
DLOG_PERROR("epoll_ctl (add/mod)");
return false;
}
return true;
}
static bool epoll_del(tproxy_conn_t *conn)
{
struct epoll_event ev;
memset(&ev, 0, sizeof(ev));
DBGPRINT("epoll_del fd=%d\n",conn->fd);
if(epoll_ctl(conn->efd, EPOLL_CTL_DEL, conn->fd, &ev)==-1)
{
DLOG_PERROR("epoll_ctl (del)");
return false;
}
return true;
}
static bool epoll_update_flow(tproxy_conn_t *conn)
{
if (conn->bFlowInPrev==conn->bFlowIn && conn->bFlowOutPrev==conn->bFlowOut && conn->bPrevRdhup==(conn->state==CONN_RDHUP))
return true; // unchanged, no need to syscall
DBGPRINT("SET FLOW fd=%d to in=%d out=%d state_rdhup=%d\n",conn->fd,conn->bFlowIn,conn->bFlowOut,conn->state==CONN_RDHUP);
uint32_t evtmask = (conn->state==CONN_RDHUP ? 0 : EPOLLRDHUP)|(conn->bFlowIn?EPOLLIN:0)|(conn->bFlowOut?EPOLLOUT:0);
if (!epoll_set(conn, evtmask))
return false;
conn->bFlowInPrev = conn->bFlowIn;
conn->bFlowOutPrev = conn->bFlowOut;
conn->bPrevRdhup = (conn->state==CONN_RDHUP);
return true;
}
static bool epoll_set_flow(tproxy_conn_t *conn, bool bFlowIn, bool bFlowOut)
{
conn->bFlowIn = bFlowIn;
conn->bFlowOut = bFlowOut;
return epoll_update_flow(conn);
}
//Acquires information, initiates a connect and initialises a new connection
//object. Return NULL if anything fails, pointer to object otherwise
static tproxy_conn_t* add_tcp_connection(int efd, struct tailhead *conn_list,int local_fd, const struct sockaddr *accept_sa, uint16_t listen_port, conn_type_t proxy_type)
{
struct sockaddr_storage orig_dst;
tproxy_conn_t *conn;
int remote_fd=0;
if (proxy_type==CONN_TYPE_TRANSPARENT)
{
if(!get_dest_addr(local_fd, accept_sa, &orig_dst))
{
DLOG_ERR("Could not get destination address\n");
close(local_fd);
return NULL;
}
if (check_local_ip((struct sockaddr*)&orig_dst) && saport((struct sockaddr*)&orig_dst)==listen_port)
{
VPRINT("Dropping connection to local address to the same port to avoid loop\n");
close(local_fd);
return NULL;
}
}
// socket buffers inherited from listen_fd
dbgprint_socket_buffers(local_fd);
if(!set_keepalive(local_fd))
{
DLOG_PERROR("set_keepalive");
close(local_fd);
return 0;
}
if (proxy_type==CONN_TYPE_TRANSPARENT)
{
if ((remote_fd = connect_remote((struct sockaddr *)&orig_dst, true)) < 0)
{
DLOG_ERR("Failed to connect\n");
close(local_fd);
return NULL;
}
}
if(!(conn = new_conn(local_fd, false)))
{
if (remote_fd) close(remote_fd);
close(local_fd);
return NULL;
}
conn->conn_type = proxy_type; // only local connection has proxy_type. remote is always in tcp mode
conn->state = CONN_AVAILABLE; // accepted connection is immediately available
conn->efd = efd;
if (proxy_type==CONN_TYPE_TRANSPARENT)
{
if(!(conn->partner = new_conn(remote_fd, true)))
{
free_conn(conn);
close(remote_fd);
return NULL;
}
conn->partner->partner = conn;
conn->partner->efd = efd;
//remote_fd is connecting. Non-blocking connects are signaled as done by
//socket being marked as ready for writing
if (!epoll_set(conn->partner, EPOLLOUT))
{
free_conn(conn->partner);
free_conn(conn);
return NULL;
}
}
//Transparent proxy mode :
// Local socket can be closed while waiting for connection attempt. I need
// to detect this when waiting for connect() to complete. However, I dont
// want to get EPOLLIN-events, as I dont want to receive any data before
// remote connection is established
//Proxy mode : I need to service proxy protocol
// remote connection not started until proxy handshake is complete
if (!epoll_set(conn, proxy_type==CONN_TYPE_TRANSPARENT ? EPOLLRDHUP : (EPOLLIN|EPOLLRDHUP)))
{
free_conn(conn->partner);
free_conn(conn);
return NULL;
}
TAILQ_INSERT_HEAD(conn_list, conn, conn_ptrs);
legs_local++;
if (conn->partner)
{
TAILQ_INSERT_HEAD(conn_list, conn->partner, conn_ptrs);
legs_remote++;
}
return conn;
}
//Checks if a connection attempt was successful or not
//Returns true if successfull, false if not
static bool check_connection_attempt(tproxy_conn_t *conn, int efd)
{
int errn = 0;
socklen_t optlen = sizeof(errn);
if (conn->state!=CONN_UNAVAILABLE || !conn->remote)
{
// locals are connected since accept
// remote need to be checked only once
return true;
}
// check the connection was sucessfull. it means its not in in SO_ERROR state
if(getsockopt(conn->fd, SOL_SOCKET, SO_ERROR, &errn, &optlen) == -1)
{
DLOG_PERROR("getsockopt (SO_ERROR)");
return false;
}
if (!errn)
{
if (params.debug>=1)
{
struct sockaddr_storage sa;
socklen_t salen=sizeof(sa);
char ip_port[48];
if (getsockname(conn->fd,(struct sockaddr *)&sa,&salen))
*ip_port=0;
else
ntop46_port((struct sockaddr*)&sa,ip_port,sizeof(ip_port));
VPRINT("Socket fd=%d (remote) connected from : %s\n", conn->fd, ip_port);
}
if (!epoll_set_flow(conn, true, false) || (conn_partner_alive(conn) && !epoll_set_flow(conn->partner, true, false)))
{
return false;
}
conn->state = CONN_AVAILABLE;
}
proxy_remote_conn_ack(conn,get_so_error(conn->fd));
return !errn;
}
static bool epoll_set_flow_pair(tproxy_conn_t *conn)
{
bool bHasUnsent = conn_has_unsent(conn);
bool bHasUnsentPartner = conn_partner_alive(conn) ? conn_has_unsent(conn->partner) : false;
DBGPRINT("epoll_set_flow_pair fd=%d remote=%d partner_fd=%d bHasUnsent=%d bHasUnsentPartner=%d state_rdhup=%d\n",
conn->fd , conn->remote, conn_partner_alive(conn) ? conn->partner->fd : 0, bHasUnsent, bHasUnsentPartner, conn->state==CONN_RDHUP);
if (!epoll_set_flow(conn, !bHasUnsentPartner && (conn->state != CONN_RDHUP), bHasUnsent))
return false;
if (conn_partner_alive(conn))
{
if (!epoll_set_flow(conn->partner, !bHasUnsent && (conn->partner->state != CONN_RDHUP), bHasUnsentPartner))
return false;
}
return true;
}
static bool handle_unsent(tproxy_conn_t *conn)
{
ssize_t wr;
DBGPRINT("+handle_unsent, fd=%d has_unsent=%d has_unsent_partner=%d\n",conn->fd,conn_has_unsent(conn),conn_partner_alive(conn) ? conn_has_unsent(conn->partner) : false);
#ifdef SPLICE_PRESENT
if (!params.nosplice && conn->wr_unsent)
{
wr = splice(conn->splice_pipe[0], NULL, conn->fd, NULL, conn->wr_unsent, SPLICE_F_MOVE | SPLICE_F_NONBLOCK);
DBGPRINT("splice unsent=%zd wr=%zd err=%d\n",conn->wr_unsent,wr,errno);
if (wr<0)
{
if (errno==EAGAIN) wr=0;
else return false;
}
conn->twr += wr;
conn->wr_unsent -= wr;
}
#endif
if (!conn->wr_unsent && conn_buffers_present(conn))
{
wr=conn_buffers_send(conn);
DBGPRINT("conn_buffers_send wr=%zd\n",wr);
if (wr<0) return false;
}
if (!conn_has_unsent(conn) && conn_partner_alive(conn) && conn->partner->state==CONN_RDHUP)
{
if (!conn->bShutdown)
{
DBGPRINT("fd=%d no more has unsent. partner in RDHUP state. executing delayed shutdown.\n", conn->fd);
if (!conn_shutdown(conn))
{
DBGPRINT("emergency connection close due to failed shutdown\n");
return false;
}
}
if (conn->state==CONN_RDHUP && !conn_has_unsent(conn->partner))
{
DBGPRINT("both partners are in RDHUP state and have no unsent. closing.\n");
return false;
}
}
return epoll_set_flow_pair(conn);
}
bool proxy_mode_connect_remote(const struct sockaddr *sa, tproxy_conn_t *conn, struct tailhead *conn_list)
{
int remote_fd;
if (params.debug>=1)
{
char ip_port[48];
ntop46_port(sa,ip_port,sizeof(ip_port));
VPRINT("socks target for fd=%d is : %s\n", conn->fd, ip_port);
}
if (check_local_ip((struct sockaddr *)sa))
{
VPRINT("Dropping connection to local address for security reasons\n");
socks_send_rep(conn->socks_ver, conn->fd, S5_REP_NOT_ALLOWED_BY_RULESET);
return false;
}
bool bConnFooling=true;
if (conn->track.hostname && params.mss)
{
bConnFooling=HostlistCheck(conn->track.hostname, NULL);
if (!bConnFooling)
VPRINT("0-phase desync hostlist check negative. not acting on this connection.\n");
}
if ((remote_fd = connect_remote(sa, bConnFooling)) < 0)
{
DLOG_ERR("socks failed to connect (1) errno=%d\n", errno);
socks_send_rep_errno(conn->socks_ver, conn->fd, errno);
return false;
}
if (!(conn->partner = new_conn(remote_fd, true)))
{
close(remote_fd);
DLOG_ERR("socks out-of-memory (1)\n");
socks_send_rep(conn->socks_ver, conn->fd, S5_REP_GENERAL_FAILURE);
return false;
}
conn->partner->partner = conn;
conn->partner->efd = conn->efd;
if (!epoll_set(conn->partner, EPOLLOUT))
{
DLOG_ERR("socks epoll_set error %d\n", errno);
free_conn(conn->partner);
conn->partner = NULL;
socks_send_rep(conn->socks_ver, conn->fd, S5_REP_GENERAL_FAILURE);
return false;
}
TAILQ_INSERT_HEAD(conn_list, conn->partner, conn_ptrs);
legs_remote++;
print_legs();
DBGPRINT("S_WAIT_CONNECTION\n");
conn->socks_state = S_WAIT_CONNECTION;
return true;
}
static bool handle_proxy_mode(tproxy_conn_t *conn, struct tailhead *conn_list)
{
// To simplify things I dont care about buffering. If message splits, I just hang up
// in proxy mode messages are short. they can be split only intentionally. all normal programs send them in one packet
ssize_t rd,wr;
char buf[sizeof(s5_req)]; // s5_req - the largest possible req
struct sockaddr_storage ss;
// receive proxy control message
rd=recv(conn->fd, buf, sizeof(buf), MSG_DONTWAIT);
DBGPRINT("handle_proxy_mode rd=%zd\n",rd);
if (rd<1) return false; // hangup
switch(conn->conn_type)
{
case CONN_TYPE_SOCKS:
switch(conn->socks_state)
{
case S_WAIT_HANDSHAKE:
DBGPRINT("S_WAIT_HANDSHAKE\n");
if (buf[0] != 5 && buf[0] != 4) return false; // unknown socks version
conn->socks_ver = buf[0];
DBGPRINT("socks version %u\n", conn->socks_ver);
if (conn->socks_ver==5)
{
s5_handshake *m = (s5_handshake*)buf;
s5_handshake_ack ack;
uint8_t k;
ack.ver=5;
if (!S5_REQ_HANDHSHAKE_VALID(m,rd))
{
DBGPRINT("socks5 proxy handshake invalid\n");
return false;
}
for (k=0;k<m->nmethods;k++) if (m->methods[k]==S5_AUTH_NONE) break;
if (k>=m->nmethods)
{
DBGPRINT("socks5 client wants authentication but we dont support\n");
ack.method=S5_AUTH_UNACCEPTABLE;
wr=send(conn->fd,&ack,sizeof(ack),MSG_DONTWAIT);
return false;
}
DBGPRINT("socks5 recv valid handshake\n");
ack.method=S5_AUTH_NONE;
wr=send(conn->fd,&ack,sizeof(ack),MSG_DONTWAIT);
if (wr!=sizeof(ack))
{
DBGPRINT("socks5 handshake ack send error. wr=%zd errno=%d\n",wr,errno);
return false;
}
DBGPRINT("socks5 send handshake ack OK\n");
conn->socks_state=S_WAIT_REQUEST;
return true;
}
else
{
// socks4 does not have separate handshake phase. it starts with connect request
// ipv6 and domain resolving are not supported
s4_req *m = (s4_req*)buf;
if (!S4_REQ_HEADER_VALID(m, rd))
{
DBGPRINT("socks4 request invalid\n");
return false;
}
if (m->cmd!=S4_CMD_CONNECT)
{
// BIND is not supported
DBGPRINT("socks4 unsupported command %02X\n", m->cmd);
socks4_send_rep(conn->fd, S4_REP_FAILED);
return false;
}
if (!S4_REQ_CONNECT_VALID(m, rd))
{
DBGPRINT("socks4 connect request invalid\n");
socks4_send_rep(conn->fd, S4_REP_FAILED);
return false;
}
if (!m->port)
{
DBGPRINT("socks4 zero port\n");
socks4_send_rep(conn->fd, S4_REP_FAILED);
return false;
}
if (m->ip==htonl(1)) // special ip 0.0.0.1
{
VPRINT("socks4a protocol not supported\n");
socks4_send_rep(conn->fd, S4_REP_FAILED);
return false;
}
ss.ss_family = AF_INET;
((struct sockaddr_in*)&ss)->sin_port = m->port;
((struct sockaddr_in*)&ss)->sin_addr.s_addr = m->ip;
return proxy_mode_connect_remote((struct sockaddr *)&ss, conn, conn_list);
}
break;
case S_WAIT_REQUEST:
DBGPRINT("S_WAIT_REQUEST\n");
{
s5_req *m = (s5_req*)buf;
if (!S5_REQ_HEADER_VALID(m,rd))
{
DBGPRINT("socks5 request invalid\n");
return false;
}
if (m->cmd!=S5_CMD_CONNECT)
{
// BIND and UDP are not supported
DBGPRINT("socks5 unsupported command %02X\n", m->cmd);
socks5_send_rep(conn->fd,S5_REP_COMMAND_NOT_SUPPORTED);
return false;
}
if (!S5_REQ_CONNECT_VALID(m,rd))
{
DBGPRINT("socks5 connect request invalid\n");
return false;
}
DBGPRINT("socks5 recv valid connect request\n");
switch(m->atyp)
{
case S5_ATYP_IP4:
ss.ss_family = AF_INET;
((struct sockaddr_in*)&ss)->sin_port = m->d4.port;
((struct sockaddr_in*)&ss)->sin_addr = m->d4.addr;
break;
case S5_ATYP_IP6:
ss.ss_family = AF_INET6;
((struct sockaddr_in6*)&ss)->sin6_port = m->d6.port;
((struct sockaddr_in6*)&ss)->sin6_addr = m->d6.addr;
((struct sockaddr_in6*)&ss)->sin6_flowinfo = 0;
((struct sockaddr_in6*)&ss)->sin6_scope_id = 0;
break;
case S5_ATYP_DOM:
{
uint16_t port;
if (params.no_resolve)
{
VPRINT("socks5 hostname resolving disabled\n");
socks5_send_rep(conn->fd,S5_REP_NOT_ALLOWED_BY_RULESET);
return false;
}
port=S5_PORT_FROM_DD(m,rd);
if (!port)
{
VPRINT("socks5 no port is given\n");
socks5_send_rep(conn->fd,S5_REP_HOST_UNREACHABLE);
return false;
}
m->dd.domport[m->dd.len] = 0;
DBGPRINT("socks5 queue resolve hostname '%s' port '%u'\n",m->dd.domport,port);
conn->socks_ri = resolver_queue(m->dd.domport,port,conn);
if (!conn->socks_ri)
{
VPRINT("socks5 could not queue resolve item\n");
socks5_send_rep(conn->fd,S5_REP_GENERAL_FAILURE);
return false;
}
conn->socks_state=S_WAIT_RESOLVE;
DBGPRINT("S_WAIT_RESOLVE\n");
return true;
}
break;
default:
return false; // should not be here. S5_REQ_CONNECT_VALID checks for valid atyp
}
return proxy_mode_connect_remote((struct sockaddr *)&ss,conn,conn_list);
}
break;
case S_WAIT_RESOLVE:
DBGPRINT("socks received message while in S_WAIT_RESOLVE. hanging up\n");
break;
case S_WAIT_CONNECTION:
DBGPRINT("socks received message while in S_WAIT_CONNECTION. hanging up\n");
break;
default:
DBGPRINT("socks received message while in an unexpected connection state\n");
break;
}
break;
}
return false;
}
static bool resolve_complete(struct resolve_item *ri, struct tailhead *conn_list)
{
tproxy_conn_t *conn = (tproxy_conn_t *)ri->ptr;
if (conn && (conn->state != CONN_CLOSED))
{
if (conn->socks_state==S_WAIT_RESOLVE)
{
DBGPRINT("resolve_complete %s. getaddrinfo result %d\n", ri->dom, ri->ga_res);
if (ri->ga_res)
{
socks5_send_rep(conn->fd,S5_REP_HOST_UNREACHABLE);
return false;;
}
else
{
if (!conn->track.hostname)
{
DBGPRINT("resolve_complete put hostname : %s\n", ri->dom);
conn->track.hostname = strdup(ri->dom);
}
return proxy_mode_connect_remote((struct sockaddr *)&ri->ss,conn,conn_list);
}
}
else
DLOG_ERR("resolve_complete: conn in wrong socks_state !!! (%s)\n", ri->dom);
}
else
DBGPRINT("resolve_complete: orphaned resolve for %s\n", ri->dom);
return true;
}
static bool in_tamper_out_range(tproxy_conn_t *conn)
{
return (params.tamper_start_n ? (conn->tnrd+1) : conn->trd) >= params.tamper_start &&
(!params.tamper_cutoff || (params.tamper_cutoff_n ? (conn->tnrd+1) : conn->trd) < params.tamper_cutoff);
}
static void tamper(tproxy_conn_t *conn, uint8_t *segment, size_t segment_buffer_size, size_t *segment_size, size_t *split_pos, uint8_t *split_flags)
{
*split_pos=0;
if (params.tamper)
{
if (conn->remote)
{
if (conn_partner_alive(conn) && !conn->partner->track.bTamperInCutoff)
{
tamper_in(&conn->partner->track,segment,segment_buffer_size,segment_size);
}
}
else
{
bool in_range = in_tamper_out_range(conn);
DBGPRINT("tamper_out stream pos %" PRIu64 "(n%" PRIu64 "). tamper range %s%u-%s%u (%s)\n",
conn->trd, conn->tnrd+1,
params.tamper_start_n ? "n" : "" , params.tamper_start,
params.tamper_cutoff_n ? "n" : "" , params.tamper_cutoff,
in_range ? "IN RANGE" : "OUT OF RANGE");
if (in_range) tamper_out(&conn->track,segment,segment_buffer_size,segment_size,split_pos,split_flags);
}
}
}
// buffer must have at least one extra byte for OOB
static ssize_t send_or_buffer_oob(send_buffer_t *sb, int fd, uint8_t *buf, size_t len, int ttl, bool oob)
{
ssize_t wr;
if (oob)
{
VPRINT("Sending OOB byte %02X\n", params.oob_byte);
uint8_t oob_save;
oob_save = buf[len];
buf[len] = params.oob_byte;
wr = send_or_buffer(sb, fd, buf, len+1, MSG_OOB, ttl);
buf[len] = oob_save;
}
else
wr = send_or_buffer(sb, fd, buf, len, 0, ttl);
return wr;
}
#define RD_BLOCK_SIZE 65536
#define MAX_WASTE (1024*1024)
static bool handle_epoll(tproxy_conn_t *conn, struct tailhead *conn_list, uint32_t evt)
{
int numbytes;
ssize_t rd = 0, wr = 0;
size_t bs;
DBGPRINT("+handle_epoll\n");
if (!conn_in_tcp_mode(conn))
{
if (!(evt & EPOLLIN))
return true; // nothing to read
return handle_proxy_mode(conn,conn_list);
}
if (!handle_unsent(conn))
return false; // error
if (!conn_partner_alive(conn) && !conn_has_unsent(conn))
return false; // when no partner, we only waste read and send unsent
if (!(evt & EPOLLIN))
return true; // nothing to read
if (!conn_partner_alive(conn))
{
// throw it to a black hole
uint8_t waste[65070];
uint64_t trd=0;
while((rd=recv(conn->fd, waste, sizeof(waste), MSG_DONTWAIT))>0 && trd<MAX_WASTE)
{
trd+=rd;
conn->trd+=rd;
}
DBGPRINT("wasted recv=%zd all_rd=%" PRIu64 " err=%d\n",rd,trd,errno);
return true;
}
// do not receive new until old is sent
if (conn_has_unsent(conn->partner))
return true;
bool oom=false;
numbytes=conn_bytes_unread(conn);
DBGPRINT("numbytes=%d\n",numbytes);
if (numbytes>0)
{
DBGPRINT("%s leg fd=%d stream pos : %" PRIu64 "(n%" PRIu64 ")/%" PRIu64 "\n", conn->remote ? "remote" : "local", conn->fd, conn->trd,conn->tnrd+1,conn->twr);
#ifdef SPLICE_PRESENT
if (!params.nosplice && (!params.tamper || (conn->remote && conn->partner->track.bTamperInCutoff) || (!conn->remote && !in_tamper_out_range(conn))))
{
// incoming data from remote leg we splice without touching
// pipe is in the local leg, so its in conn->partner->splice_pipe
// if we dont tamper - splice both legs
rd = splice(conn->fd, NULL, conn->partner->splice_pipe[1], NULL, SPLICE_LEN, SPLICE_F_MOVE | SPLICE_F_NONBLOCK);
DBGPRINT("splice fd=%d remote=%d len=%d rd=%zd err=%d\n",conn->fd,conn->remote,SPLICE_LEN,rd,errno);
if (rd<0 && errno==EAGAIN) rd=0;
if (rd>0)
{
conn->tnrd++;
conn->trd += rd;
conn->partner->wr_unsent += rd;
wr = splice(conn->partner->splice_pipe[0], NULL, conn->partner->fd, NULL, conn->partner->wr_unsent, SPLICE_F_MOVE | SPLICE_F_NONBLOCK);
DBGPRINT("splice fd=%d remote=%d wr=%zd err=%d\n",conn->partner->fd,conn->partner->remote,wr,errno);
if (wr<0 && errno==EAGAIN) wr=0;
if (wr>0)
{
conn->partner->wr_unsent -= wr;
conn->partner->twr += wr;
}
}
}
else
#endif
{
// incoming data from local leg
uint8_t buf[RD_BLOCK_SIZE + 5];
rd = recv(conn->fd, buf, RD_BLOCK_SIZE, MSG_DONTWAIT);
DBGPRINT("recv fd=%d rd=%zd err=%d\n",conn->fd, rd,errno);
if (rd<0 && errno==EAGAIN) rd=0;
if (rd>0)
{
size_t split_pos;
uint8_t split_flags;
bs = rd;
// tamper needs to know stream position of the block start
tamper(conn, buf, sizeof(buf), &bs, &split_pos, &split_flags);
// increase after tamper
conn->tnrd++;
conn->trd+=rd;
if (split_pos && bs<sizeof(buf) && split_pos<sizeof(buf))
{
VPRINT("Splitting at pos %zu%s\n", split_pos, (split_flags & SPLIT_FLAG_DISORDER) ? " with disorder" : "");
wr = send_or_buffer_oob(conn->partner->wr_buf, conn->partner->fd, buf, split_pos, !!(split_flags & SPLIT_FLAG_DISORDER), !!(split_flags & SPLIT_FLAG_OOB));
DBGPRINT("send_or_buffer(1) fd=%d wr=%zd err=%d\n",conn->partner->fd,wr,errno);
if (wr >= 0)
{
conn->partner->twr += wr;
wr = send_or_buffer(conn->partner->wr_buf + 1, conn->partner->fd, buf + split_pos, bs - split_pos, 0, 0);
DBGPRINT("send_or_buffer(2) fd=%d wr=%zd err=%d\n",conn->partner->fd,wr,errno);
if (wr>0) conn->partner->twr += wr;
}
}
else
{
wr = send_or_buffer(conn->partner->wr_buf, conn->partner->fd, buf, bs, 0, 0);
DBGPRINT("send_or_buffer(3) fd=%d wr=%zd err=%d\n",conn->partner->fd,wr,errno);
if (wr>0) conn->partner->twr += wr;
}
if (wr<0 && errno==ENOMEM) oom=true;
}
}
if (!epoll_set_flow_pair(conn))
return false;
}
DBGPRINT("-handle_epoll rd=%zd wr=%zd\n",rd,wr);
if (oom) DBGPRINT("handle_epoll: OUT_OF_MEMORY\n");
// do not fail if partner fails.
// if partner fails there will be another epoll event with EPOLLHUP or EPOLLERR
return rd>=0 && !oom;
}
static bool remove_closed_connections(int efd, struct tailhead *close_list)
{
tproxy_conn_t *conn = NULL;
bool bRemoved = false;
while ((conn = TAILQ_FIRST(close_list)))
{
TAILQ_REMOVE(close_list, conn, conn_ptrs);
epoll_del(conn);
VPRINT("Socket fd=%d (partner_fd=%d, remote=%d) closed, connection removed. total_read=%" PRIu64 " total_write=%" PRIu64 " event_count=%u\n",
conn->fd, conn->partner ? conn->partner->fd : 0, conn->remote, conn->trd, conn->twr, conn->event_count);
if (conn->remote) legs_remote--; else legs_local--;
free_conn(conn);
bRemoved = true;
}
return bRemoved;
}
// move to close list connection and its partner
static void close_tcp_conn(struct tailhead *conn_list, struct tailhead *close_list, tproxy_conn_t *conn)
{
if (conn->state != CONN_CLOSED)
{
conn->state = CONN_CLOSED;
TAILQ_REMOVE(conn_list, conn, conn_ptrs);
TAILQ_INSERT_TAIL(close_list, conn, conn_ptrs);
}
}
static bool read_all_and_buffer(tproxy_conn_t *conn, int buffer_number)
{
if (conn_partner_alive(conn))
{
int numbytes=conn_bytes_unread(conn);
DBGPRINT("read_all_and_buffer(%d) numbytes=%d\n",buffer_number,numbytes);
if (numbytes>0)
{
if (send_buffer_create(conn->partner->wr_buf+buffer_number, NULL, numbytes, 5, 0, 0))
{
ssize_t rd = recv(conn->fd, conn->partner->wr_buf[buffer_number].data, numbytes, MSG_DONTWAIT);
if (rd>0)
{
conn->trd+=rd;
conn->partner->wr_buf[buffer_number].len = rd;
conn->partner->bFlowOut = true;
size_t split_pos;
uint8_t split_flags;
tamper(conn, conn->partner->wr_buf[buffer_number].data, numbytes+5, &conn->partner->wr_buf[buffer_number].len, &split_pos, &split_flags);
if (epoll_update_flow(conn->partner))
return true;
}
send_buffer_free(conn->partner->wr_buf+buffer_number);
}
}
}
return false;
}
static bool conn_timed_out(tproxy_conn_t *conn)
{
if (conn->orphan_since && conn->state==CONN_UNAVAILABLE)
{
time_t timediff = time(NULL) - conn->orphan_since;
return timediff>=params.max_orphan_time;
}
else
return false;
}
static void conn_close_timed_out(struct tailhead *conn_list, struct tailhead *close_list)
{
tproxy_conn_t *c,*cnext = NULL;
DBGPRINT("conn_close_timed_out\n");
c = TAILQ_FIRST(conn_list);
while(c)
{
cnext = TAILQ_NEXT(c,conn_ptrs);
if (conn_timed_out(c))
{
DBGPRINT("closing timed out connection: fd=%d remote=%d\n",c->fd,c->remote);
close_tcp_conn(conn_list,close_list,c);
}
c = cnext;
}
}
static void conn_close_both(struct tailhead *conn_list, struct tailhead *close_list, tproxy_conn_t *conn)
{
if (conn_partner_alive(conn)) close_tcp_conn(conn_list,close_list,conn->partner);
close_tcp_conn(conn_list,close_list,conn);
}
static void conn_close_with_partner_check(struct tailhead *conn_list, struct tailhead *close_list, tproxy_conn_t *conn)
{
close_tcp_conn(conn_list,close_list,conn);
if (conn_partner_alive(conn))
{
if (!conn_has_unsent(conn->partner))
close_tcp_conn(conn_list,close_list,conn->partner);
else if (conn->partner->remote && conn->partner->state==CONN_UNAVAILABLE && params.max_orphan_time)
// time out only remote legs that are not connected yet
conn->partner->orphan_since = time(NULL);
}
}
static bool handle_resolve_pipe(tproxy_conn_t **conn, struct tailhead *conn_list, int fd)
{
ssize_t rd;
struct resolve_item *ri;
bool b;
rd = read(fd,&ri,sizeof(void*));
if (rd<0)
{
DLOG_PERROR("resolve_pipe read");
return false;
}
else if (rd!=sizeof(void*))
{
// partial pointer read is FATAL. in any case it will cause pointer corruption and coredump
DLOG_ERR("resolve_pipe not full read %zu\n",rd);
exit(1000);
}
b = resolve_complete(ri, conn_list);
*conn = (tproxy_conn_t *)ri->ptr;
if (*conn) (*conn)->socks_ri = NULL;
free(ri);
return b;
}
int event_loop(const int *listen_fd, size_t listen_fd_ct)
{
int retval = 0, num_events = 0;
int tmp_fd = 0; //Used to temporarily hold the accepted file descriptor
tproxy_conn_t *conn = NULL;
int efd=0, i;
struct epoll_event ev, events[MAX_EPOLL_EVENTS];
struct tailhead conn_list, close_list;
time_t tm,last_timeout_check=0;
tproxy_conn_t *listen_conn = NULL;
size_t sct;
struct sockaddr_storage accept_sa;
socklen_t accept_salen;
int resolve_pipe[2];
if (!listen_fd_ct) return -1;
resolve_pipe[0]=resolve_pipe[1]=0;
legs_local = legs_remote = 0;
//Initialize queue (remember that TAILQ_HEAD just defines the struct)
TAILQ_INIT(&conn_list);
TAILQ_INIT(&close_list);
if ((efd = epoll_create(1)) == -1) {
DLOG_PERROR("epoll_create");
return -1;
}
if (!(listen_conn=calloc(listen_fd_ct,sizeof(*listen_conn))))
{
DLOG_PERROR("calloc listen_conn");
return -1;
}
//Start monitoring listen sockets
memset(&ev, 0, sizeof(ev));
ev.events = EPOLLIN;
for(sct=0;sct<listen_fd_ct;sct++)
{
listen_conn[sct].listener = true;
listen_conn[sct].fd = listen_fd[sct];
ev.data.ptr = listen_conn + sct;
if (epoll_ctl(efd, EPOLL_CTL_ADD, listen_conn[sct].fd, &ev) == -1) {
DLOG_PERROR("epoll_ctl (listen socket)");
retval = -1;
goto ex;
}
}
if ((params.proxy_type==CONN_TYPE_SOCKS) && !params.no_resolve)
{
if (pipe(resolve_pipe)==-1)
{
DLOG_PERROR("pipe (resolve_pipe)");
retval = -1;
goto ex;
}
if (fcntl(resolve_pipe[0], F_SETFL, O_NONBLOCK) < 0)
{
DLOG_PERROR("resolve_pipe set O_NONBLOCK");
retval = -1;
goto ex;
}
ev.data.ptr = NULL;
if (epoll_ctl(efd, EPOLL_CTL_ADD, resolve_pipe[0], &ev) == -1) {
DLOG_PERROR("epoll_ctl (listen socket)");
retval = -1;
goto ex;
}
if (!resolver_init(params.resolver_threads,resolve_pipe[1]))
{
DLOG_ERR("could not initialize multithreaded resolver\n");
retval = -1;
goto ex;
}
VPRINT("initialized multi threaded resolver with %d threads\n",resolver_thread_count());
}
for(;;)
{
DBGPRINT("epoll_wait\n");
if ((num_events = epoll_wait(efd, events, MAX_EPOLL_EVENTS, -1)) == -1)
{
if (errno == EINTR) continue; // system call was interrupted
DLOG_PERROR("epoll_wait");
retval = -1;
break;
}
dohup();
for (i = 0; i < num_events; i++)
{
conn = (tproxy_conn_t*)events[i].data.ptr;
if (!conn)
{
DBGPRINT("\nEVENT mask %08X resolve_pipe\n",events[i].events);
if (events[i].events & EPOLLIN)
{
DBGPRINT("EPOLLIN\n");
if (!handle_resolve_pipe(&conn, &conn_list, resolve_pipe[0]))
{
DBGPRINT("handle_resolve_pipe false\n");
if (conn) close_tcp_conn(&conn_list,&close_list,conn);
}
}
continue;
}
conn->event_count++;
if (conn->listener)
{
DBGPRINT("\nEVENT mask %08X fd=%d accept\n",events[i].events,conn->fd);
accept_salen = sizeof(accept_sa);
//Accept new connection
#if defined (__APPLE__)
// macos does not have accept4()
tmp_fd = accept(conn->fd, (struct sockaddr*)&accept_sa, &accept_salen);
#else
tmp_fd = accept4(conn->fd, (struct sockaddr*)&accept_sa, &accept_salen, SOCK_NONBLOCK);
#endif
if (tmp_fd < 0)
{
DLOG_PERROR("Failed to accept connection");
}
else if (legs_local >= params.maxconn) // each connection has 2 legs - local and remote
{
close(tmp_fd);
VPRINT("Too many local legs : %d\n", legs_local);
}
#if defined (__APPLE__)
// separate fcntl call to comply with macos
else if (fcntl(tmp_fd, F_SETFL, O_NONBLOCK) < 0)
{
DLOG_PERROR("socket set O_NONBLOCK (accept)");
close(tmp_fd);
}
#endif
else if (!(conn=add_tcp_connection(efd, &conn_list, tmp_fd, (struct sockaddr*)&accept_sa, params.port, params.proxy_type)))
{
// add_tcp_connection closes fd in case of failure
VPRINT("Failed to add connection\n");
}
else
{
print_legs();
if (params.debug>=1)
{
struct sockaddr_storage sa;
socklen_t salen=sizeof(sa);
char ip_port[48];
if (getpeername(conn->fd,(struct sockaddr *)&sa,&salen))
*ip_port=0;
else
ntop46_port((struct sockaddr*)&sa,ip_port,sizeof(ip_port));
VPRINT("Socket fd=%d (local) connected from %s\n", conn->fd, ip_port);
}
set_user_timeout(conn->fd, params.tcp_user_timeout_local);
}
}
else
{
DBGPRINT("\nEVENT mask %08X fd=%d remote=%d fd_partner=%d\n",events[i].events,conn->fd,conn->remote,conn_partner_alive(conn) ? conn->partner->fd : 0);
if (conn->state != CONN_CLOSED)
{
if (events[i].events & (EPOLLHUP|EPOLLERR))
{
int errn = get_so_error(conn->fd);
const char *se;
switch (events[i].events & (EPOLLHUP|EPOLLERR))
{
case EPOLLERR: se="EPOLLERR"; break;
case EPOLLHUP: se="EPOLLHUP"; break;
case EPOLLHUP|EPOLLERR: se="EPOLLERR EPOLLHUP"; break;
default: se=NULL;
}
VPRINT("Socket fd=%d (partner_fd=%d, remote=%d) %s so_error=%d (%s)\n",conn->fd,conn->partner ? conn->partner->fd : 0,conn->remote,se,errn,strerror(errn));
proxy_remote_conn_ack(conn,errn);
read_all_and_buffer(conn,3);
if (errn==ECONNRESET && conn_partner_alive(conn))
{
if (conn->remote && params.tamper) rst_in(&conn->partner->track);
struct linger lin;
lin.l_onoff=1;
lin.l_linger=0;
DBGPRINT("setting LINGER=0 to partner to force mirrored RST close\n");
if (setsockopt(conn->partner->fd,SOL_SOCKET,SO_LINGER,&lin,sizeof(lin))<0)
DLOG_PERROR("setsockopt (SO_LINGER)");
}
conn_close_with_partner_check(&conn_list,&close_list,conn);
continue;
}
if (events[i].events & EPOLLOUT)
{
if (!check_connection_attempt(conn, efd))
{
VPRINT("Connection attempt failed for fd=%d\n", conn->fd);
conn_close_both(&conn_list,&close_list,conn);
continue;
}
}
if (events[i].events & EPOLLRDHUP)
{
DBGPRINT("EPOLLRDHUP\n");
read_all_and_buffer(conn,2);
if (!conn->remote && params.tamper) hup_out(&conn->track);
conn->state = CONN_RDHUP; // only writes. do not receive RDHUP anymore
if (conn_has_unsent(conn))
{
DBGPRINT("conn fd=%d has unsent\n", conn->fd);
epoll_set_flow(conn,false,true);
}
else
{
DBGPRINT("conn fd=%d has no unsent\n", conn->fd);
conn->bFlowIn = false;
epoll_update_flow(conn);
if (conn_partner_alive(conn))
{
if (conn_has_unsent(conn->partner))
DBGPRINT("partner has unset. partner shutdown delayed.\n");
else
{
DBGPRINT("partner has no unsent. shutting down partner.\n");
if (!conn_shutdown(conn->partner))
{
DBGPRINT("emergency connection close due to failed shutdown\n");
conn_close_with_partner_check(&conn_list,&close_list,conn);
}
if (conn->partner->state==CONN_RDHUP)
{
DBGPRINT("both partners are in RDHUP state and have no unsent. closing.\n");
conn_close_with_partner_check(&conn_list,&close_list,conn);
}
}
}
else
{
DBGPRINT("partner is absent or not alive. closing.\n");
close_tcp_conn(&conn_list,&close_list,conn);
}
}
continue;
}
if (events[i].events & (EPOLLIN|EPOLLOUT))
{
const char *se;
switch (events[i].events & (EPOLLIN|EPOLLOUT))
{
case EPOLLIN: se="EPOLLIN"; break;
case EPOLLOUT: se="EPOLLOUT"; break;
case EPOLLIN|EPOLLOUT: se="EPOLLIN EPOLLOUT"; break;
default: se=NULL;
}
if (se) DBGPRINT("%s\n",se);
// will not receive this until successful check_connection_attempt()
if (!handle_epoll(conn, &conn_list, events[i].events))
{
DBGPRINT("handle_epoll false\n");
conn_close_with_partner_check(&conn_list,&close_list,conn);
continue;
}
if ((conn->state == CONN_RDHUP) && conn_partner_alive(conn) && !conn->partner->bShutdown && !conn_has_unsent(conn))
{
DBGPRINT("conn fd=%d has no unsent. shutting down partner.\n", conn->fd);
if (!conn_shutdown(conn->partner))
{
DBGPRINT("emergency connection close due to failed shutdown\n");
conn_close_with_partner_check(&conn_list,&close_list,conn);
continue;
}
}
}
}
}
}
tm = time(NULL);
if (last_timeout_check!=tm)
{
// limit whole list lookups to once per second
last_timeout_check=tm;
conn_close_timed_out(&conn_list,&close_list);
}
if (remove_closed_connections(efd, &close_list))
{
// at least one leg was removed. recount legs
print_legs();
}
fflush(stderr); fflush(stdout); // for console messages
}
ex:
if (efd) close(efd);
if (listen_conn) free(listen_conn);
resolver_deinit();
if (resolve_pipe[0]) close(resolve_pipe[0]);
if (resolve_pipe[1]) close(resolve_pipe[1]);
return retval;
}
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