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April 9, 2010 06:34
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/*********************************************************************** | |
* connect.c -- Make socket connection using SOCKS4/5 and HTTP tunnel. | |
* | |
* Copyright (c) 2000-2006 Shun-ichi Goto | |
* Copyright (c) 2002, J. Grant (English Corrections) | |
* Copyright (c) 2010, Reini Urban (added realm to http_auth basic) | |
* | |
* This program is free software; you can redistribute it and/or | |
* modify it under the terms of the GNU General Public License | |
* as published by the Free Software Foundation; either version 2 | |
* of the License, or (at your option) any later version. | |
* | |
* This program is distributed in the hope that it will be useful, | |
* but WITHOUT ANY WARRANTY; without even the implied warranty of | |
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | |
* GNU General Public License for more details. | |
* | |
* You should have received a copy of the GNU General Public License | |
* along with this program; if not, write to the Free Software | |
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. | |
* | |
* --------------------------------------------------------- | |
* PROJECT: My Test Program | |
* AUTHOR: Shun-ichi GOTO <[email protected]> | |
* CREATE: Wed Jun 21, 2000 | |
* REVISION: $Revision: 100 $ | |
* --------------------------------------------------------- | |
* | |
* Getting Source | |
* ============== | |
* | |
* Recent version of 'connect.c' is available from | |
* http://www.taiyo.co.jp/~gotoh/ssh/connect.c | |
* | |
* Related tool, ssh-askpass.exe (alternative ssh-askpass on UNIX) | |
* is available: | |
* http://www.taiyo.co.jp/~gotoh/ssh/ssh-askpass.exe.gz | |
* | |
* See more detail: | |
* http://www.taiyo.co.jp/~gotoh/ssh/connect.html | |
* | |
* With realm for http_auth basic: | |
* http://gist.github.com/360940 | |
* | |
* How To Compile | |
* ============== | |
* | |
* On UNIX environment: | |
* $ gcc connect.c -o connect | |
* | |
* On SOLARIS: | |
* $ gcc -o connect -lresolv -lsocket -lnsl connect.c | |
* | |
* on Win32 environment: | |
* $ cl connect.c wsock32.lib advapi32.lib | |
* or | |
* $ bcc32 connect.c wsock32.lib advapi32.lib | |
* or | |
* $ gcc connect.c -o connect | |
* | |
* on Mac OS X environment: | |
* $ gcc connect.c -o connect -lresolv | |
* or | |
* $ gcc connect.c -o connect -DBIND_8_COMPAT=1 | |
* | |
* How To Use | |
* ========== | |
* | |
* You can specify proxy method in an environment variable or in a | |
* command line option. | |
* | |
* usage: connect [-dnhst45] [-R resolve] [-p local-port] [-w sec] | |
* [-H [user@]proxy-server[:port]] | |
* [-S [user@]socks-server[:port]] | |
* [-T proxy-server[:port]] | |
* [-c telnet proxy command] | |
* host port | |
* | |
* "host" and "port" is for the target hostname and port-number to | |
* connect to. | |
* | |
* The -H option specifys a hostname and port number of the http proxy | |
* server to relay. If port is omitted, 80 is used. You can specify this | |
* value in the environment variable HTTP_PROXY and pass the -h option | |
* to use it. | |
* | |
* The -S option specifys the hostname and port number of the SOCKS | |
* server to relay. Like -H, port number can be omitted and the default | |
* is 1080. You can also specify this value pair in the environment | |
* variable SOCKS5_SERVER and give the -s option to use it. | |
* | |
* The '-4' and the '-5' options are for specifying SOCKS relaying and | |
* indicates protocol version to use. It is valid only when used with | |
* '-s' or '-S'. Default is '-5' (protocol version 5) | |
* | |
* The '-R' option is for specifying method to resolve the | |
* hostname. Three keywords ("local", "remote", "both") or dot-notation | |
* IP address are acceptable. The keyword "both" means, "Try local | |
* first, then remote". If a dot-notation IP address is specified, use | |
* this host as nameserver. The default is "remote" for SOCKS5 or | |
* "local" for others. On SOCKS4 protocol, remote resolving method | |
* ("remote" and "both") requires protocol 4a supported server. | |
* | |
* The '-p' option will forward a local TCP port instead of using the | |
* standard input and output. | |
* | |
* The '-P' option is same to '-p' except keep remote session. The | |
* program repeats waiting the port with holding remote session without | |
* disconnecting. To disconnect the remote session, send EOF to stdin or | |
* kill the program. | |
* | |
* The '-w' option specifys timeout seconds for making connection with | |
* TARGET host. | |
* | |
* The '-d' option is used for debug. If you fail to connect, use this | |
* and check request to and response from server. | |
* | |
* You can omit the "port" argument when program name is special format | |
* containing port number itself. For example, | |
* $ ln -s connect connect-25 | |
* means this connect-25 command is spcifying port number 25 already | |
* so you need not 2nd argument (and ignored if specified). | |
* | |
* To use proxy, this example is for SOCKS5 connection to connect to | |
* 'host' at port 25 via SOCKS5 server on 'firewall' host. | |
* $ connect -S firewall host 25 | |
* or | |
* $ SOCKS5_SERVER=firewall; export SOCKS5_SERVER | |
* $ connect -s host 25 | |
* | |
* For a HTTP-PROXY connection: | |
* $ connect -H proxy-server:8080 host 25 | |
* or | |
* $ HTTP_PROXY=proxy-server:8080; export HTTP_PROXY | |
* $ connect -h host 25 | |
* To forward a local port, for example to use ssh: | |
* $ connect -p 5550 -H proxy-server:8080 host 22 | |
* ($ ssh -l user -p 5550 localhost ) | |
* | |
* TIPS | |
* ==== | |
* | |
* Connect.c doesn't have any configuration to specify the SOCKS server. | |
* If you are a mobile user, this limitation might bother you. However, | |
* You can compile connect.c and link with other standard SOCKS library | |
* like the NEC SOCKS5 library or Dante. This means connect.c is | |
* socksified and uses a configration file like to other SOCKSified | |
* network commands and you can switch configuration file any time | |
* (ex. when ppp startup) that brings you switching of SOCKS server for | |
* connect.c in same way with other commands. For this case, you can | |
* write ~/.ssh/config like this: | |
* | |
* ProxyCommand connect -n %h %p | |
* | |
* SOCKS5 authentication | |
* ===================== | |
* | |
* Only USER/PASS authentication is supported. | |
* | |
* Proxy authentication | |
* ==================== | |
* | |
* Only BASIC scheme is supported. | |
* | |
* Authentication informations | |
* =========================== | |
* | |
* User name for authentication is specifed by an environment variable | |
* or system login name. And password is specified from environment | |
* variable or external program (specified in $SSH_ASKPASS) or tty. | |
* | |
* Following environment variable is used for specifying user name. | |
* SOCKS: $SOCKS5_USER, $LOGNAME, $USER | |
* HTTP Proxy: $HTTP_PROXY_USER, $LOGNAME, $USER | |
* | |
* ssh-askpass support | |
* =================== | |
* | |
* You can use ssh-askpass (came from OpenSSH or else) to specify | |
* password on graphical environment (X-Window or MS Windows). To use | |
* this, set program name to environment variable SSH_ASKPASS. On UNIX, | |
* X-Window must be required, so $DISPLAY environment variable is also | |
* needed. On Win32 environment, $DISPLAY is not mentioned. | |
* | |
* Related Informations | |
* ==================== | |
* | |
* SOCKS5 -- RFC 1928, RFC 1929, RFC 1961 | |
* NEC SOCKS Reference Implementation is available from: | |
* http://www.socks.nec.com | |
* DeleGate version 5 or earlier can be SOCKS4 server, | |
* and version 6 can be SOCKS5 and SOCKS4 server. | |
* and version 7.7.0 or later can be SOCKS5 and SOCKS4a server. | |
* http://www.delegate.org/delegate/ | |
* | |
* HTTP-Proxy -- | |
* Many http proxy servers supports this, but https should | |
* be allowed as configuration on your host. | |
* For example on DeleGate, you should add "https" to the | |
* "REMITTABLE" parameter to allow HTTP-Proxy like this: | |
* delegated -Pxxxx ...... REMITTABLE="+,https" ... | |
* | |
* Hypertext Transfer Protocol -- HTTP/1.1 -- RFC 2616 | |
* HTTP Authentication: Basic and Digest Access Authentication -- RFC 2617 | |
* For proxy authentication, refer these documents. | |
* | |
* Debugging | |
* ========= | |
* Use -d -d twice to print a hex encoded stream for both directions and | |
* decode them via | |
* perl -e'local $/;$_=<>;print chr(hex($_)) for split / /,$_' | |
* | |
***********************************************************************/ | |
#include <stdio.h> | |
#include <stdlib.h> | |
#include <string.h> | |
#include <ctype.h> | |
#include <memory.h> | |
#include <errno.h> | |
#include <assert.h> | |
#include <sys/types.h> | |
#include <stdarg.h> | |
#include <fcntl.h> | |
#include <signal.h> | |
#ifdef __CYGWIN32__ | |
#undef _WIN32 | |
#endif | |
#ifdef _WIN32 | |
#include <windows.h> | |
#include <winsock.h> | |
#include <sys/stat.h> | |
#include <io.h> | |
#include <conio.h> | |
#else /* !_WIN32 */ | |
#include <unistd.h> | |
#include <pwd.h> | |
#include <termios.h> | |
#include <sys/time.h> | |
#ifndef __hpux | |
#include <sys/select.h> | |
#endif /* __hpux */ | |
#include <sys/socket.h> | |
#include <netinet/in.h> | |
#include <arpa/inet.h> | |
#include <netdb.h> | |
#if !defined(_WIN32) && !defined(__CYGWIN32__) | |
#define WITH_RESOLVER 1 | |
#include <arpa/nameser.h> | |
#include <resolv.h> | |
#else /* not ( not _WIN32 && not __CYGWIN32__) */ | |
#undef WITH_RESOLVER | |
#endif /* not ( not _WIN32 && not __CYGWIN32__) */ | |
#endif /* !_WIN32 */ | |
#ifdef _WIN32 | |
#define ECONNRESET WSAECONNRESET | |
#endif /* _WI32 */ | |
#ifndef LINT | |
static char *vcid = "$Id: connect.c 100 2007-07-03 10:48:26Z gotoh $"; | |
#endif | |
/* Microsoft Visual C/C++ has _snprintf() and _vsnprintf() */ | |
#ifdef _MSC_VER | |
#define snprintf _snprintf | |
#define vsnprintf _vsnprintf | |
#endif | |
/* consider Borland C */ | |
#ifdef __BORLANDC__ | |
#define _kbhit kbhit | |
#define _setmode setmode | |
#endif | |
/* help message. | |
Win32 environment does not support -R option (vc and cygwin) | |
Win32 native compilers does not support -w option, yet (vc) | |
*/ | |
static char *usage = "usage: %s [-dnhst45] [-p local-port]" | |
#ifdef _WIN32 | |
#ifdef __CYGWIN32__ | |
"[-w timeout] \n" /* cygwin cannot -R */ | |
#else /* not __CYGWIN32__ */ | |
" \n" /* VC cannot -w nor -R */ | |
#endif /* not __CYGWIN32__ */ | |
#else /* not _WIN32 */ | |
/* help message for UNIX */ | |
"[-R resolve] [-w timeout] \n" | |
#endif /* not _WIN32 */ | |
" [-H proxy-server[:port]] [-S [user@]socks-server[:port]] \n" | |
" [-T proxy-server[:port]]\n" | |
" [-c telnet-proxy-command]\n" | |
" host port\n"; | |
/* name of this program */ | |
char *progname = NULL; | |
char *progdesc = "connect --- simple relaying command via proxy."; | |
char *rcs_revstr = "$Revision: 100 $"; | |
char *revstr = NULL; | |
int major_version = 1; | |
int minor_version = 0; | |
/* set of character for strspn() */ | |
const char *digits = "0123456789"; | |
const char *dotdigits = "0123456789."; | |
/* options */ | |
int f_debug = 0; | |
/* report flag to hide secure information */ | |
int f_report = 1; | |
int connect_timeout = 0; | |
/* local input type */ | |
#define LOCAL_STDIO 0 | |
#define LOCAL_SOCKET 1 | |
char *local_type_names[] = { "stdio", "socket" }; | |
int local_type = LOCAL_STDIO; | |
u_short local_port = 0; /* option 'p' */ | |
int f_hold_session = 0; /* option 'P' */ | |
char *telnet_command = "telnet %h %p"; | |
/* utiity types, pair holder of number and string */ | |
typedef struct { | |
int num; | |
const char *str; | |
} LOOKUP_ITEM; | |
/* relay method, server and port */ | |
#define METHOD_UNDECIDED 0 | |
#define METHOD_DIRECT 1 | |
#define METHOD_SOCKS 2 | |
#define METHOD_HTTP 3 | |
#define METHOD_TELNET 4 | |
char *method_names[] = { "UNDECIDED", "DIRECT", "SOCKS", "HTTP", "TELNET" }; | |
int relay_method = METHOD_UNDECIDED; /* relaying method */ | |
char *relay_host = NULL; /* hostname of relay server */ | |
u_short relay_port = 0; /* port of relay server */ | |
char *relay_user = NULL; /* user name for auth */ | |
char realm[1024]; /* for basic http_auth */ | |
/* destination target host and port */ | |
char *dest_host = NULL; | |
struct sockaddr_in dest_addr; | |
u_short dest_port = 0; | |
/* informations for SOCKS */ | |
#define SOCKS5_REP_SUCCEEDED 0x00 /* succeeded */ | |
#define SOCKS5_REP_FAIL 0x01 /* general SOCKS serer failure */ | |
#define SOCKS5_REP_NALLOWED 0x02 /* connection not allowed by ruleset */ | |
#define SOCKS5_REP_NUNREACH 0x03 /* Network unreachable */ | |
#define SOCKS5_REP_HUNREACH 0x04 /* Host unreachable */ | |
#define SOCKS5_REP_REFUSED 0x05 /* connection refused */ | |
#define SOCKS5_REP_EXPIRED 0x06 /* TTL expired */ | |
#define SOCKS5_REP_CNOTSUP 0x07 /* Command not supported */ | |
#define SOCKS5_REP_ANOTSUP 0x08 /* Address not supported */ | |
#define SOCKS5_REP_INVADDR 0x09 /* Inalid address */ | |
LOOKUP_ITEM socks5_rep_names[] = { | |
{ SOCKS5_REP_SUCCEEDED, "succeeded"}, | |
{ SOCKS5_REP_FAIL, "general SOCKS server failure"}, | |
{ SOCKS5_REP_NALLOWED, "connection not allowed by ruleset"}, | |
{ SOCKS5_REP_NUNREACH, "Network unreachable"}, | |
{ SOCKS5_REP_HUNREACH, "Host unreachable"}, | |
{ SOCKS5_REP_REFUSED, "connection refused"}, | |
{ SOCKS5_REP_EXPIRED, "TTL expired"}, | |
{ SOCKS5_REP_CNOTSUP, "Command not supported"}, | |
{ SOCKS5_REP_ANOTSUP, "Address not supported"}, | |
{ SOCKS5_REP_INVADDR, "Invalid address"}, | |
{ -1, NULL } | |
}; | |
/* SOCKS5 authentication methods */ | |
#define SOCKS5_AUTH_REJECT 0xFF /* No acceptable auth method */ | |
#define SOCKS5_AUTH_NOAUTH 0x00 /* without authentication */ | |
#define SOCKS5_AUTH_GSSAPI 0x01 /* GSSAPI */ | |
#define SOCKS5_AUTH_USERPASS 0x02 /* User/Password */ | |
#define SOCKS5_AUTH_CHAP 0x03 /* Challenge-Handshake Auth Proto. */ | |
#define SOCKS5_AUTH_EAP 0x05 /* Extensible Authentication Proto. */ | |
#define SOCKS5_AUTH_MAF 0x08 /* Multi-Authentication Framework */ | |
#define SOCKS4_REP_SUCCEEDED 90 /* rquest granted (succeeded) */ | |
#define SOCKS4_REP_REJECTED 91 /* request rejected or failed */ | |
#define SOCKS4_REP_IDENT_FAIL 92 /* cannot connect identd */ | |
#define SOCKS4_REP_USERID 93 /* user id not matched */ | |
LOOKUP_ITEM socks4_rep_names[] = { | |
{ SOCKS4_REP_SUCCEEDED, "request granted (succeeded)"}, | |
{ SOCKS4_REP_REJECTED, "request rejected or failed"}, | |
{ SOCKS4_REP_IDENT_FAIL, "cannot connect identd"}, | |
{ SOCKS4_REP_USERID, "user id not matched"}, | |
{ -1, NULL } | |
}; | |
#define RESOLVE_UNKNOWN 0 | |
#define RESOLVE_LOCAL 1 | |
#define RESOLVE_REMOTE 2 | |
#define RESOLVE_BOTH 3 | |
char *resolve_names[] = { "UNKNOWN", "LOCAL", "REMOTE", "BOTH" }; | |
int socks_version = 5; /* SOCKS protocol version */ | |
int socks_resolve = RESOLVE_UNKNOWN; | |
struct sockaddr_in socks_ns; | |
char *socks5_auth = NULL; | |
/* Environment variable names */ | |
#define ENV_SOCKS_SERVER "SOCKS_SERVER" /* SOCKS server */ | |
#define ENV_SOCKS5_SERVER "SOCKS5_SERVER" | |
#define ENV_SOCKS4_SERVER "SOCKS4_SERVER" | |
#define ENV_SOCKS_RESOLVE "SOCKS_RESOLVE" /* resolve method */ | |
#define ENV_SOCKS5_RESOLVE "SOCKS5_RESOLVE" | |
#define ENV_SOCKS4_RESOLVE "SOCKS4_RESOLVE" | |
#define ENV_SOCKS5_USER "SOCKS5_USER" /* auth user for SOCKS5 */ | |
#define ENV_SOCKS4_USER "SOCKS4_USER" /* auth user for SOCKS4 */ | |
#define ENV_SOCKS_USER "SOCKS_USER" /* auth user for SOCKS */ | |
#define ENV_SOCKS5_PASSWD "SOCKS5_PASSWD" /* auth password for SOCKS5 */ | |
#define ENV_SOCKS5_PASSWORD "SOCKS5_PASSWORD" /* old style */ | |
#define ENV_HTTP_PROXY "HTTP_PROXY" /* common env var */ | |
#define ENV_HTTP_PROXY_USER "HTTP_PROXY_USER" /* auth user */ | |
#define ENV_HTTP_PROXY_PASSWORD "HTTP_PROXY_PASSWORD" /* auth password */ | |
#define ENV_TELNET_PROXY "TELNET_PROXY" /* common env var */ | |
#define ENV_CONNECT_USER "CONNECT_USER" /* default auth user name */ | |
#define ENV_CONNECT_PASSWORD "CONNECT_PASSWORD" /* default auth password */ | |
#define ENV_SOCKS_DIRECT "SOCKS_DIRECT" /* addr-list for non-proxy */ | |
#define ENV_SOCKS5_DIRECT "SOCKS5_DIRECT" | |
#define ENV_SOCKS4_DIRECT "SOCKS4_DIRECT" | |
#define ENV_HTTP_DIRECT "HTTP_DIRECT" | |
#define ENV_CONNECT_DIRECT "CONNECT_DIRECT" | |
#define ENV_SOCKS5_AUTH "SOCKS5_AUTH" | |
#define ENV_SSH_ASKPASS "SSH_ASKPASS" /* askpass program */ | |
/* Prefix string of HTTP_PROXY */ | |
#define HTTP_PROXY_PREFIX "http://" | |
#define PROXY_AUTH_NONE 0 | |
#define PROXY_AUTH_BASIC 1 | |
#define PROXY_AUTH_DIGEST 2 | |
int proxy_auth_type = PROXY_AUTH_NONE; | |
/* reason of end repeating */ | |
#define REASON_UNK -2 | |
#define REASON_ERROR -1 | |
#define REASON_CLOSED_BY_LOCAL 0 | |
#define REASON_CLOSED_BY_REMOTE 1 | |
/* return value of relay start function. */ | |
#define START_ERROR -1 | |
#define START_OK 0 | |
#define START_RETRY 1 | |
/* socket related definitions */ | |
#ifndef _WIN32 | |
#define SOCKET int | |
#endif | |
#ifndef SOCKET_ERROR | |
#define SOCKET_ERROR -1 | |
#endif | |
#ifdef _WIN32 | |
#define socket_errno() WSAGetLastError() | |
#else /* !_WIN32 */ | |
#define closesocket close | |
#define socket_errno() (errno) | |
#endif /* !_WIN32 */ | |
#ifdef _WIN32 | |
#define popen _popen | |
#endif /* WIN32 */ | |
/* packet operation macro */ | |
#define PUT_BYTE(ptr,data) (*(unsigned char*)ptr = data) | |
/* debug message output */ | |
void | |
debug( const char *fmt, ... ) | |
{ | |
va_list args; | |
if ( f_debug ) { | |
va_start( args, fmt ); | |
fprintf(stderr, "DEBUG: "); | |
vfprintf( stderr, fmt, args ); | |
va_end( args ); | |
} | |
} | |
void | |
debug_( const char *fmt, ... ) /* without prefix */ | |
{ | |
va_list args; | |
if ( f_debug ) { | |
va_start( args, fmt ); | |
vfprintf( stderr, fmt, args ); | |
va_end( args ); | |
} | |
} | |
/* error message output */ | |
void | |
error( const char *fmt, ... ) | |
{ | |
va_list args; | |
va_start( args, fmt ); | |
fprintf(stderr, "ERROR: "); | |
vfprintf( stderr, fmt, args ); | |
va_end( args ); | |
} | |
void | |
fatal( const char *fmt, ... ) | |
{ | |
va_list args; | |
va_start( args, fmt ); | |
fprintf(stderr, "FATAL: "); | |
vfprintf( stderr, fmt, args ); | |
va_end( args ); | |
exit (EXIT_FAILURE); | |
} | |
void * | |
xmalloc (size_t size) | |
{ | |
void *ret = malloc(size); | |
if (ret == NULL) | |
fatal("Cannot allocate memory: %d bytes.\n", size); | |
return ret; | |
} | |
char * | |
downcase( char *str ) | |
{ | |
char *buf = str; | |
while ( *buf ) { | |
if ( isupper(*buf) ) | |
*buf += 'a'-'A'; | |
buf++; | |
} | |
return str; /* return converted arg */ | |
} | |
char * | |
expand_host_and_port (const char *fmt, const char *host, int port) | |
{ | |
const char *src; | |
char *buf, *dst, *ptr; | |
size_t len = strlen(fmt) + strlen(host) + 20; | |
buf = xmalloc (len); | |
dst = buf; | |
src = fmt; | |
while (*src) { | |
if (*src == '%') { | |
switch (src[1]) { | |
case 'h': | |
strcpy (dst, host); | |
src += 2; | |
break; | |
case 'p': | |
snprintf (dst, len, "%d", port); | |
src += 2; | |
break; | |
default: | |
src ++; | |
break; | |
} | |
dst = buf + strlen (buf); | |
} else if (*src == '\\') { | |
switch (src[1]) { | |
case 'r': /* CR */ | |
*dst++ = '\r'; | |
src += 2; | |
break; | |
case 'n': /* LF */ | |
*dst++ = '\n'; | |
src += 2; | |
break; | |
case 't': /* TAB */ | |
*dst++ = '\t'; | |
src += 2; | |
break; | |
default: | |
src ++; | |
break; | |
} | |
} else { | |
/* usual */ | |
*dst++ = *src++; | |
} | |
*dst = '\0'; | |
} | |
assert (strlen(buf) < len); | |
return buf; | |
} | |
int | |
lookup_resolve( const char *str ) | |
{ | |
char *buf = strdup( str ); | |
int ret; | |
downcase( buf ); | |
if ( strcmp( buf, "both" ) == 0 ) | |
ret = RESOLVE_BOTH; | |
else if ( strcmp( buf, "remote" ) == 0 ) | |
ret = RESOLVE_REMOTE; | |
else if ( strcmp( buf, "local" ) == 0 ) | |
ret = RESOLVE_LOCAL; | |
else if ( strspn(buf, dotdigits) == strlen(buf) ) { | |
#ifndef WITH_RESOLVER | |
fatal("Sorry, you can't specify to resolve the hostname with the -R option on Win32 environment."); | |
#endif /* not WITH_RESOLVER */ | |
ret = RESOLVE_LOCAL; /* this case is also 'local' */ | |
socks_ns.sin_addr.s_addr = inet_addr(buf); | |
socks_ns.sin_family = AF_INET; | |
} | |
else | |
ret = RESOLVE_UNKNOWN; | |
free(buf); | |
return ret; | |
} | |
char * | |
getusername(void) | |
{ | |
#ifdef _WIN32 | |
static char buf[1024]; | |
DWORD size = sizeof(buf); | |
buf[0] = '\0'; | |
GetUserName( buf, &size); | |
return buf; | |
#else /* not _WIN32 */ | |
struct passwd *pw = getpwuid(getuid()); | |
if ( pw == NULL ) | |
fatal("getpwuid() failed for uid: %d\n", getuid()); | |
return pw->pw_name; | |
#endif /* not _WIN32 */ | |
} | |
/* expect | |
check STR is begin with substr with case-ignored comparison. | |
Return 1 if matched, otherwise 0. | |
*/ | |
int | |
expect( char *str, char *substr) | |
{ | |
int len = strlen(substr); | |
while ( 0 < len-- ) { | |
if ( toupper(*str) != toupper(*substr) ) | |
return 0; /* not matched */ | |
str++, substr++; | |
} | |
return 1; /* good, matched */ | |
} | |
/** PARAMETER operation **/ | |
#define PARAMETER_FILE "/etc/connectrc" | |
#define PARAMETER_DOTFILE ".connectrc" | |
typedef struct { | |
char* name; | |
char* value; | |
} PARAMETER_ITEM; | |
PARAMETER_ITEM parameter_table[] = { | |
{ ENV_SOCKS_SERVER, NULL }, | |
{ ENV_SOCKS5_SERVER, NULL }, | |
{ ENV_SOCKS4_SERVER, NULL }, | |
{ ENV_SOCKS_RESOLVE, NULL }, | |
{ ENV_SOCKS5_RESOLVE, NULL }, | |
{ ENV_SOCKS4_RESOLVE, NULL }, | |
{ ENV_SOCKS5_USER, NULL }, | |
{ ENV_SOCKS5_PASSWD, NULL }, | |
{ ENV_SOCKS5_PASSWORD, NULL }, | |
{ ENV_HTTP_PROXY, NULL }, | |
{ ENV_HTTP_PROXY_USER, NULL }, | |
{ ENV_HTTP_PROXY_PASSWORD, NULL }, | |
{ ENV_CONNECT_USER, NULL }, | |
{ ENV_CONNECT_PASSWORD, NULL }, | |
{ ENV_SSH_ASKPASS, NULL }, | |
{ ENV_SOCKS5_DIRECT, NULL }, | |
{ ENV_SOCKS4_DIRECT, NULL }, | |
{ ENV_SOCKS_DIRECT, NULL }, | |
{ ENV_HTTP_DIRECT, NULL }, | |
{ ENV_CONNECT_DIRECT, NULL }, | |
{ ENV_SOCKS5_AUTH, NULL }, | |
{ NULL, NULL } | |
}; | |
PARAMETER_ITEM* | |
find_parameter_item(const char* name) | |
{ | |
int i; | |
for( i = 0; parameter_table[i].name != NULL; i++ ){ | |
if ( strcmp(name, parameter_table[i].name) == 0 ) | |
return ¶meter_table[i]; | |
} | |
return NULL; | |
} | |
void | |
read_parameter_file_1(const char* name) | |
{ | |
FILE* f; | |
int line; | |
char lbuf[1025]; | |
f = fopen(name, "r"); | |
if( f ){ | |
debug("Reading parameter file(%s)\n", name); | |
for ( line = 1; fgets(lbuf, 1024, f); line++ ) { | |
char *p, *q, *param, *value; | |
p = strchr(lbuf, '\n'); | |
if ( p == NULL ) | |
fatal("%s:%d: buffer overflow\n", name, line); | |
*p = '\0'; | |
p = strchr(lbuf, '#'); | |
if ( p ) | |
*p = '\0'; | |
for ( p = lbuf; *p; p++ ) | |
if( *p != ' ' && *p != '\t' ) break; | |
if ( *p == '\0' ) continue; | |
param = p; | |
p = strchr(p, '='); | |
if ( p == NULL ) { | |
error("%s:%d: missing equal sign\n", name, line); | |
continue; | |
} | |
for ( q = p - 1; q >= lbuf; q-- ) | |
if ( *q != ' ' && *q != '\t' ) break; | |
*++q = '\0'; | |
for ( ++p; *p; p++ ) | |
if ( *p != ' ' && *p != '\t' ) break; | |
value = p; | |
for ( ; *p; p++ ); | |
for ( p--; p >= lbuf; p-- ) | |
if ( *p != ' ' && *p != '\t' ) break; | |
*++p = '\0'; | |
if ( param && value ) { | |
PARAMETER_ITEM *item; | |
item = find_parameter_item(param); | |
if ( item == NULL ) { | |
error("%s:%d: unknown parameter `%s'\n", name, line, param); | |
continue; | |
} | |
item->value = strdup(value); | |
debug("Parameter `%s' is set to `%s'\n", param, value); | |
} | |
} | |
} | |
} | |
void | |
read_parameter_file(void) | |
{ | |
#if !defined(_WIN32) || defined(cygwin) | |
char *name; | |
struct passwd *pw; | |
#endif | |
read_parameter_file_1(PARAMETER_FILE); | |
#if !defined(_WIN32) || defined(cygwin) | |
pw = getpwuid(getuid()); | |
if ( pw == NULL ) | |
fatal("getpwuid() failed for uid: %d\n", getuid()); | |
name = xmalloc(strlen(pw->pw_dir) + strlen(PARAMETER_DOTFILE) + 2); | |
strcpy(name, pw->pw_dir); | |
strcat(name, "/" PARAMETER_DOTFILE); | |
read_parameter_file_1(name); | |
free(name); | |
#endif /* _WIN32 */ | |
} | |
char* | |
getparam(const char* name) | |
{ | |
char *value = getenv(name); | |
if ( value == NULL ){ | |
PARAMETER_ITEM *item = find_parameter_item(name); | |
if ( item != NULL ) | |
value = item->value; | |
} | |
return value; | |
} | |
/** DIRECT connection **/ | |
#define MAX_DIRECT_ADDR_LIST 256 | |
struct ADDRPAIR { | |
struct in_addr addr; | |
struct in_addr mask; | |
char *name; | |
int negative; | |
}; | |
struct ADDRPAIR direct_addr_list[MAX_DIRECT_ADDR_LIST]; | |
int n_direct_addr_list = 0; | |
void | |
mask_addr (void *addr, void *mask, int addrlen) | |
{ | |
char *a, *m; | |
a = addr; | |
m = mask; | |
while ( 0 < addrlen-- ) | |
*a++ &= *m++; | |
} | |
int | |
add_direct_addr (struct in_addr *addr, struct in_addr *mask, int negative) | |
{ | |
struct in_addr iaddr; | |
char *s; | |
if ( MAX_DIRECT_ADDR_LIST <= n_direct_addr_list ) { | |
error("direct address table is full!\n"); | |
return -1; | |
} | |
iaddr = *addr; | |
mask_addr(&iaddr, mask, sizeof(iaddr)); | |
s = strdup(inet_ntoa(iaddr)); | |
debug("adding direct addr entry: %s%s/%s\n", | |
negative? "!": "", s, inet_ntoa(*mask)); | |
free(s); | |
memcpy( &direct_addr_list[n_direct_addr_list].addr, | |
&iaddr, sizeof(iaddr)); | |
memcpy( &direct_addr_list[n_direct_addr_list].mask, | |
mask, sizeof(*mask)); | |
direct_addr_list[n_direct_addr_list].name = NULL; | |
direct_addr_list[n_direct_addr_list].negative = negative; | |
n_direct_addr_list++; | |
return 0; | |
} | |
/* add domain/host name entry to direct name table */ | |
int | |
add_direct_host( const char *name, int negative) | |
{ | |
if ( MAX_DIRECT_ADDR_LIST <= n_direct_addr_list ) { | |
error("direct address table is full!\n"); | |
return -1; | |
} | |
if (*name == '*') | |
name++; | |
if (*name == '.') | |
name++; | |
debug("adding direct name entry: %s%s\n", negative? "!": "", name); | |
direct_addr_list[n_direct_addr_list].name = downcase(strdup(name)); | |
direct_addr_list[n_direct_addr_list].negative = negative; | |
n_direct_addr_list++; | |
return 0; | |
} | |
int | |
parse_addr_pair (const char *str, struct in_addr *addr, struct in_addr *mask) | |
{ | |
/* NOTE: */ | |
/* Assume already be splitted by separator | |
and formatted as folowing: | |
1) 12.34.56.789/255.255.255.0 | |
2) 12.34.56.789/24 | |
3) 12.34.56. | |
All above generates same addr/mask pair 12.34.56.0 and 255.255.255.0 | |
*/ | |
const char *ptr; | |
u_char *dsta, *dstm; | |
int i, n; | |
assert( str != NULL ); | |
addr->s_addr = 0; | |
mask->s_addr = 0; | |
ptr = str; | |
dsta = (u_char*)&addr->s_addr; | |
dstm = (u_char*)&mask->s_addr; | |
for (i=0; i<4; i++ ) { | |
if ( *ptr == '\0' ) | |
break; /* case of format #3 */ | |
if ( !isdigit(*ptr) ) | |
return -1; /* format error: */ | |
*dsta++ = atoi( ptr ); | |
*dstm++ = 255; /* automatic mask for format #3 */ | |
while ( isdigit(*ptr) ) /* skip digits */ | |
ptr++; | |
if ( *ptr == '.' ) | |
ptr++; | |
else | |
break; | |
} | |
/* At this point, *ptr points '/' or EOS ('\0') */ | |
if ( *ptr == '\0' ) | |
return 0; /* complete as format #3 */ | |
if ( *ptr != '/' ) | |
return -1; /* format error */ | |
/* Now parse mask for format #1 or #2 */ | |
ptr++; | |
mask->s_addr = 0; /* clear automatic mask */ | |
if ( strchr( ptr, '.') ) { | |
/* case of format #1 */ | |
dstm = (u_char*)&mask->s_addr; | |
for (i=0; i<4; i++) { | |
if ( !isdigit(*ptr) ) | |
return -1; /* format error: */ | |
*dstm++ = atoi(ptr); | |
while ( isdigit(*ptr) ) /* skip digits */ | |
ptr++; | |
if ( *ptr == '.' ) | |
ptr++; | |
else | |
break; /* from for loop */ | |
} | |
/* complete as format #1 */ | |
} else { | |
/* case of format #2 */ | |
if ( !isdigit(*ptr) ) | |
return -1; /* format error: */ | |
n = atoi(ptr); | |
if ( n<0 || 32<n) | |
return -1; /* format error */ | |
mask->s_addr = (n==0)? 0: htonl(((u_long)0xFFFFFFFF)<<(32-n)); | |
/* complete as format #1 */ | |
} | |
return 0; | |
} | |
void | |
initialize_direct_addr (void) | |
{ | |
int negative; | |
int n_entries; | |
char *env = NULL, *beg, *next, *envkey = NULL; | |
struct in_addr addr, mask; | |
if ( relay_method == METHOD_SOCKS ){ | |
if ( socks_version == 5 ) | |
envkey = ENV_SOCKS5_DIRECT; | |
else | |
envkey = ENV_SOCKS4_DIRECT; | |
env = getparam(envkey); | |
if ( env == NULL ) | |
env = getparam(ENV_SOCKS_DIRECT); | |
} else if ( relay_method == METHOD_HTTP ){ | |
env = getparam(ENV_HTTP_DIRECT); | |
} | |
if ( env == NULL ) | |
env = getparam(ENV_CONNECT_DIRECT); | |
if ( env == NULL ) | |
return; /* no entry */ | |
debug("making direct addr list from: '%s'\n", env); | |
env = strdup( env ); /* reallocate to modify */ | |
beg = next = env; | |
n_entries = 0; | |
do { | |
if ( MAX_DIRECT_ADDR_LIST <= n_entries ) { | |
error("too many entries in %s", envkey); | |
break; /* from do loop */ | |
} | |
next = strchr( beg, ','); | |
if ( next != NULL ) | |
*next++ = '\0'; | |
addr.s_addr = 0; | |
mask.s_addr = 0; | |
if (*beg == '!') { | |
negative = 1; | |
beg++; | |
} else | |
negative = 0; | |
if ( !parse_addr_pair( beg, &addr, &mask ) ) { | |
add_direct_addr( &addr, &mask, negative ); | |
} else { | |
add_direct_host( beg, negative ); | |
} | |
if ( next != NULL ) | |
beg = next; | |
} while ( next != NULL ); | |
free( env ); | |
return; | |
} | |
int | |
cmp_addr (void *addr1, void *addr2, int addrlen) | |
{ | |
return memcmp( addr1, addr2, addrlen ); | |
} | |
int | |
is_direct_address (const struct in_addr addr) | |
{ | |
int i, neg; | |
struct in_addr iaddr; | |
/* Note: assume IPV4 address !! */ | |
for (i=0; i<n_direct_addr_list; i++ ) { | |
if (direct_addr_list[i].name != NULL) | |
continue; /* it's name entry */ | |
neg = direct_addr_list[i].negative; | |
iaddr = addr; | |
mask_addr( &iaddr, &direct_addr_list[i].mask, | |
sizeof(struct in_addr)); | |
if (cmp_addr(&iaddr, &direct_addr_list[i].addr, | |
sizeof(struct in_addr)) == 0) { | |
char *a, *m; | |
a = strdup(inet_ntoa(direct_addr_list[i].addr)); | |
m = strdup(inet_ntoa(direct_addr_list[i].mask)); | |
debug("match with: %s/%s%s\n", a, m, neg? " (negative)": ""); | |
free(a); | |
free(m); | |
return !neg? 1: 0; | |
} | |
} | |
debug("not matched, addr to be relayed: %s\n", inet_ntoa(addr)); | |
return 0; /* not direct */ | |
} | |
/* check s1 is ends with s2. | |
return 1 if exact match or domain part match. | |
return 0 if s1 is shorter than s2 or partial match. | |
For example, | |
ends_with("bar.com", "bar.com") => 1 (exact match) | |
ends_with("foo.bar.com", "bar.com") => 1 (domain match) | |
ends_with("foo.beebar.com", "bar.com") => 0 (partial match) | |
ends_with("bar", "bar.com") => 0 (shorter) | |
*/ | |
domain_match(const char *s1, const char *s2) | |
{ | |
int len1, len2; | |
const char *tail1, *tail2; | |
len1 = strlen(s1); | |
len2 = strlen(s2); | |
if (len1 < len2 || len1 == 0 || len2 == 0) | |
return 0; /* not match */ | |
tail1 = s1 + len1; | |
tail2 = s2 + len2; | |
while (0 < len1 && 0 < len2) { | |
if (*--tail1 != *--tail2) | |
break; /* not match */ | |
len1--, len2--; | |
} | |
if (len2 != 0) | |
return 0; /* not match */ | |
/* Now exact match, domain match or partial match. | |
Return true if exact or domain match. | |
Or continue checking. */ | |
if (tail1 == s1 || tail1[-1] == '.') | |
return 1; /* match! */ | |
return 0; /* not match */ | |
} | |
/* Check given NAME is ends with one of | |
registered direct name entry. | |
Return 1 if matched, or 0. | |
*/ | |
int | |
is_direct_name (const char *name) | |
{ | |
int len, i; | |
const char *tail; | |
debug("checking %s is for direct?\n", name); | |
name = downcase(strdup(name)); | |
len = strlen(name); | |
if (len < 1) | |
return 0; /* false */ | |
tail = &name[len]; | |
for (i=0; i<n_direct_addr_list; i++ ) { | |
int dlen, neg; | |
const char *dname; | |
const char *n, *d; | |
dname = direct_addr_list[i].name; | |
if (dname == NULL) | |
continue; /* it's addr/mask entry */ | |
neg = direct_addr_list[i].negative; | |
if (domain_match(name, dname)) { | |
debug("match with: %s%s\n", dname, neg? " (negative)": ""); | |
if (neg) { | |
return 0; /* not direct */ | |
} else { | |
return 1; /* direct*/ | |
} | |
} | |
} | |
return 0; /* not matched */ | |
} | |
/* check to connect to HOST directyly? | |
return 1 if to be direct, 0 for else. */ | |
int | |
check_direct(const char *host) | |
{ | |
struct in_addr addr; | |
addr.s_addr = inet_addr(host); | |
if (addr.s_addr != INADDR_NONE) { | |
/* case of IP address */ | |
if (is_direct_address(addr)) { | |
debug("%s is for direct.\n", host); | |
return 1; /* true */ | |
} | |
} else { | |
/* case of hostname */ | |
if (is_direct_name(host)) { | |
debug("%s is for direct.\n", host); | |
return 1; /* true */ | |
} | |
} | |
debug("%s is for not direct.\n", host); | |
return 0; /* false */ | |
} | |
/** TTY operation **/ | |
int intr_flag = 0; | |
#ifndef _WIN32 | |
void | |
intr_handler(int sig) | |
{ | |
intr_flag = 1; | |
} | |
void | |
tty_change_echo(int fd, int enable) | |
{ | |
static struct termios ntio, otio; /* new/old termios */ | |
static sigset_t nset, oset; /* new/old sigset */ | |
static struct sigaction nsa, osa; /* new/old sigaction */ | |
static int disabled = 0; | |
if ( disabled && enable ) { | |
/* enable echo */ | |
tcsetattr(fd, TCSANOW, &otio); | |
disabled = 0; | |
/* resotore sigaction */ | |
sigprocmask(SIG_SETMASK, &oset, NULL); | |
sigaction(SIGINT, &osa, NULL); | |
if ( intr_flag != 0 ) { | |
/* re-generate signal */ | |
kill(getpid(), SIGINT); | |
sigemptyset(&nset); | |
sigsuspend(&nset); | |
intr_flag = 0; | |
} | |
} else if (!disabled && !enable) { | |
/* set SIGINTR handler and break syscall on singal */ | |
sigemptyset(&nset); | |
sigaddset(&nset, SIGTSTP); | |
sigprocmask(SIG_BLOCK, &nset, &oset); | |
intr_flag = 0; | |
memset(&nsa, 0, sizeof(nsa)); | |
nsa.sa_handler = intr_handler; | |
sigaction(SIGINT, &nsa, &osa); | |
/* disable echo */ | |
if (tcgetattr(fd, &otio) == 0 && (otio.c_lflag & ECHO)) { | |
disabled = 1; | |
ntio = otio; | |
ntio.c_lflag &= ~(ECHO | ECHOE | ECHOK | ECHONL); | |
(void) tcsetattr(fd, TCSANOW, &ntio); | |
} | |
} | |
return; | |
} | |
#define TTY_NAME "/dev/tty" | |
int | |
tty_readpass( const char *prompt, char *buf, size_t size ) | |
{ | |
int tty, ret = 0; | |
tty = open(TTY_NAME, O_RDWR); | |
if ( tty < 0 ) { | |
error("Unable to open %s\n", TTY_NAME); | |
return -1; /* can't open tty */ | |
} | |
if ( size <= 0 ) | |
return -1; /* no room */ | |
write(tty, prompt, strlen(prompt)); | |
buf[0] = '\0'; | |
tty_change_echo(tty, 0); /* disable echo */ | |
ret = read(tty,buf, size-1); | |
tty_change_echo(tty, 1); /* restore */ | |
write(tty, "\n", 1); /* new line */ | |
close(tty); | |
if ( strchr(buf,'\n') == NULL ) | |
return -1; | |
if ( 0 < ret ) | |
buf[ret] = '\0'; | |
return ret; | |
} | |
#else /* _WIN32 */ | |
BOOL __stdcall | |
w32_intr_handler(DWORD dwCtrlType) | |
{ | |
if ( dwCtrlType == CTRL_C_EVENT ) { | |
intr_flag = 1; | |
return TRUE; | |
} else { | |
return FALSE; | |
} | |
} | |
#define tty_readpass w32_tty_readpass | |
int | |
w32_tty_readpass( const char *prompt, char *buf, size_t size ) | |
{ | |
HANDLE in = CreateFile("CONIN$", GENERIC_READ|GENERIC_WRITE, | |
0, NULL, OPEN_EXISTING, 0, NULL); | |
HANDLE out = CreateFile("CONOUT$", GENERIC_WRITE, | |
0, NULL, OPEN_EXISTING, 0, NULL); | |
DWORD mode; | |
DWORD ret, bytes; | |
if (in == INVALID_HANDLE_VALUE || out == INVALID_HANDLE_VALUE) | |
fatal("Cannot open console. (errno=%d)", GetLastError()); | |
WriteFile(out, prompt, strlen(prompt), &bytes, 0); | |
SetConsoleCtrlHandler(w32_intr_handler, TRUE ); /* add handler */ | |
GetConsoleMode(in, &mode); | |
SetConsoleMode(in, mode&~ENABLE_ECHO_INPUT); /* disable echo */ | |
ret = ReadFile(in, buf, size, &bytes, 0); | |
SetConsoleMode(in, mode); /* enable echo */ | |
SetConsoleCtrlHandler( w32_intr_handler, FALSE ); /* remove handler */ | |
if ( intr_flag ) | |
GenerateConsoleCtrlEvent(CTRL_C_EVENT, 0); /* re-signal */ | |
WriteFile(out,"\n", 1, &bytes, 0); | |
CloseHandle(in); | |
CloseHandle(out); | |
return ret; | |
} | |
#endif /* _WIN32 */ | |
/*** User / Password ***/ | |
/* SOCKS5 and HTTP Proxy authentication may requires username and | |
password. We ll give it via environment variable or tty. | |
Username and password for authentication are decided by | |
following rules: | |
Username is taken from | |
1) server location spec (i.e. user@host:port) | |
2) environment variables (see tables.1) | |
3) system account name currently logged in. | |
Table.1 Order of environment variables for username | |
| SOCKS v5 | SOCKS v4 | HTTP proxy | | |
--+-------------+-------------+-----------------+ | |
1 | SOCKS45_USER | SOCKS4_USER | HTTP_PROXY_USER | | |
--+-------------+-------------+ | | |
2 | SOCKS_USER | | | |
--+---------------------------+-----------------+ | |
3 | CONNECT_USER | | |
--+---------------------------------------------+ | |
Password is taken from | |
1) by environment variables (see table.2) | |
2) by entering from tty. | |
Table.2 Order of environment variables for password | |
| SOCKS v5 | HTTP proxy | | |
--+-----------------+---------------------+ | |
1 | SOCKS5_PASSWD | | | |
--+-----------------+ HTTP_PROXY_PASSWORD | | |
2 | SOCKS5_PASSWORD | | | |
--+-----------------+---------------------+ | |
3 | CONNECT_PASSWORD | | |
--+---------------------------------------+ | |
Note: SOCKS5_PASSWD which is added in rev. 1.79 | |
to share value with NEC SOCKS implementation. | |
*/ | |
char * | |
determine_relay_user () | |
{ | |
char *user = NULL; | |
/* get username from environment variable, or system. */ | |
if (relay_method == METHOD_SOCKS) { | |
if (user == NULL && socks_version == 5) | |
user = getparam (ENV_SOCKS5_USER); | |
if (user == NULL && socks_version == 4) | |
user = getparam (ENV_SOCKS4_USER); | |
if (user == NULL) | |
user = getparam (ENV_SOCKS_USER); | |
} else if (relay_method == METHOD_HTTP) { | |
if (user == NULL) | |
user = getparam (ENV_HTTP_PROXY_USER); | |
} | |
if (user == NULL) | |
user = getparam (ENV_CONNECT_USER); | |
/* determine relay user by system call if not yet. */ | |
if (user == NULL) | |
user = getusername(); | |
return user; | |
} | |
char * | |
determine_relay_password () | |
{ | |
char *pass = NULL; | |
if (pass == NULL && relay_method == METHOD_HTTP) | |
pass = getparam(ENV_HTTP_PROXY_PASSWORD); | |
if (pass == NULL && relay_method == METHOD_SOCKS) | |
pass = getparam(ENV_SOCKS5_PASSWD); | |
if (pass == NULL && relay_method == METHOD_SOCKS) | |
pass = getparam(ENV_SOCKS5_PASSWORD); | |
if (pass == NULL) | |
pass = getparam(ENV_CONNECT_PASSWORD); | |
return pass; | |
} | |
/*** network operations ***/ | |
/* set_relay() | |
Determine relay informations: | |
method, host, port, and username. | |
1st arg, METHOD should be METHOD_xxx. | |
2nd arg, SPEC is hostname or hostname:port or user@hostame:port. | |
hostname is domain name or dot notation. | |
If port is omitted, use 80 for METHOD_HTTP method, | |
use 1080 for METHOD_SOCKS method. | |
Username is also able to given by 3rd. format. | |
2nd argument SPEC can be NULL. if NULL, use environment variable. | |
*/ | |
int | |
set_relay( int method, char *spec ) | |
{ | |
char *buf, *sep, *resolve; | |
relay_method = method; | |
read_parameter_file(); | |
initialize_direct_addr(); | |
if (n_direct_addr_list == 0) { | |
debug ("No direct address are specified.\n"); | |
} else { | |
debug ("%d direct address entries.\n", n_direct_addr_list); | |
} | |
switch ( method ) { | |
case METHOD_DIRECT: | |
return -1; /* nothing to do */ | |
case METHOD_SOCKS: | |
if ( spec == NULL ) { | |
switch ( socks_version ) { | |
case 5: | |
spec = getparam(ENV_SOCKS5_SERVER); | |
break; | |
case 4: | |
spec = getparam(ENV_SOCKS4_SERVER); | |
break; | |
} | |
} | |
if ( spec == NULL ) | |
spec = getparam(ENV_SOCKS_SERVER); | |
if ( spec == NULL ) | |
fatal("Failed to determine SOCKS server.\n"); | |
relay_port = 1080; /* set default first */ | |
/* determine resolve method */ | |
if ( socks_resolve == RESOLVE_UNKNOWN ) { | |
if ( ((socks_version == 5) && | |
((resolve = getparam(ENV_SOCKS5_RESOLVE)) != NULL)) || | |
((socks_version == 4) && | |
((resolve = getparam(ENV_SOCKS4_RESOLVE)) != NULL)) || | |
((resolve = getparam(ENV_SOCKS_RESOLVE)) != NULL) ) { | |
socks_resolve = lookup_resolve( resolve ); | |
if ( socks_resolve == RESOLVE_UNKNOWN ) | |
fatal("Invalid resolve method: %s\n", resolve); | |
} else { | |
/* default */ | |
if ( socks_version == 5 ) | |
socks_resolve = RESOLVE_REMOTE; | |
else | |
socks_resolve = RESOLVE_LOCAL; | |
} | |
} | |
break; | |
case METHOD_HTTP: | |
if ( spec == NULL ) | |
spec = getparam(ENV_HTTP_PROXY); | |
if ( spec == NULL ) | |
fatal("You must specify http proxy server\n"); | |
relay_port = 80; /* set default first */ | |
break; | |
case METHOD_TELNET: | |
if ( spec == NULL ) | |
spec = getparam(ENV_TELNET_PROXY); | |
if ( spec == NULL ) | |
fatal("You must specify telnet proxy server\n"); | |
relay_port = 23; /* set default first */ | |
} | |
if (expect( spec, HTTP_PROXY_PREFIX)) { | |
/* URL format like: "http://server:port/" */ | |
/* extract server:port part */ | |
buf = strdup( spec + strlen(HTTP_PROXY_PREFIX)); | |
buf[strcspn(buf, "/")] = '\0'; | |
} else { | |
/* assume spec is aready "server:port" format */ | |
buf = strdup( spec ); | |
} | |
spec = buf; | |
/* check username in spec */ | |
sep = strchr( spec, '@' ); | |
if ( sep != NULL ) { | |
*sep = '\0'; | |
relay_user = strdup( spec ); | |
spec = sep +1; | |
} | |
if (relay_user == NULL) | |
relay_user = determine_relay_user(); | |
/* split out hostname and port number from spec */ | |
sep = strchr(spec,':'); | |
if ( sep == NULL ) { | |
/* hostname only, port is already set as default */ | |
relay_host = strdup( spec ); | |
} else { | |
/* hostname and port */ | |
relay_port = atoi(sep+1); | |
*sep = '\0'; | |
relay_host = strdup( spec ); | |
} | |
free(buf); | |
return 0; | |
} | |
u_short | |
resolve_port( const char *service ) | |
{ | |
int port; | |
if ( service[strspn (service, digits)] == '\0' ) { | |
/* all digits, port number */ | |
port = atoi(service); | |
} else { | |
/* treat as service name */ | |
struct servent *ent; | |
ent = getservbyname( service, NULL ); | |
if ( ent == NULL ) { | |
debug("Unknown service, '%s'\n", service); | |
port = 0; | |
} else { | |
port = ntohs(ent->s_port); | |
debug("service: %s => %d\n", service, port); | |
} | |
} | |
return (u_short)port; | |
} | |
void | |
make_revstr(void) | |
{ | |
char *ptr; | |
size_t len; | |
ptr = strstr(rcs_revstr, ": "); | |
if (!ptr) { | |
revstr = strdup("unknown"); | |
return; | |
} | |
ptr += 2; | |
/* assume subversion's keyword expansion like "Revision: 96". */ | |
minor_version = atoi(ptr); | |
revstr = xmalloc(20); | |
snprintf(revstr, 20, "%d.%d", major_version, minor_version); | |
} | |
int | |
getarg( int argc, char **argv ) | |
{ | |
int err = 0; | |
char *ptr, *server = (char*)NULL; | |
int method = METHOD_DIRECT; | |
progname = *argv; | |
argc--, argv++; | |
/* check optinos */ | |
while ( (0 < argc) && (**argv == '-') ) { | |
ptr = *argv + 1; | |
while ( *ptr ) { | |
switch ( *ptr ) { | |
case 's': /* use SOCKS */ | |
method = METHOD_SOCKS; | |
break; | |
case 'n': /* no proxy */ | |
method = METHOD_DIRECT; | |
break; | |
case 'h': /* use http-proxy */ | |
method = METHOD_HTTP; | |
break; | |
case 't': | |
method = METHOD_TELNET; | |
break; | |
case 'S': /* specify SOCKS server */ | |
if ( 1 < argc ) { | |
argv++, argc--; | |
method = METHOD_SOCKS; | |
server = *argv; | |
} else { | |
error("option '-%c' needs argument.\n", *ptr); | |
err++; | |
} | |
break; | |
case 'H': /* specify http-proxy server */ | |
if ( 1 < argc ) { | |
argv++, argc--; | |
method = METHOD_HTTP; | |
server = *argv; | |
} else { | |
error("option '-%c' needs argument.\n", *ptr); | |
err++; | |
} | |
break; | |
case 'T': /* specify telnet proxy server */ | |
if ( 1 < argc ) { | |
argv++, argc--; | |
method = METHOD_TELNET; | |
server = *argv; | |
} else { | |
error("option '-%c' needs argument.\n", *ptr); | |
err++; | |
} | |
break; | |
case 'c': | |
if (1 < argc) { | |
argv++, argc--; | |
telnet_command = *argv; | |
} else { | |
error("option '%c' needs argument.\n", *ptr); | |
err++; | |
} | |
break; | |
case 'P': | |
f_hold_session = 1; | |
/* without break */ | |
case 'p': /* specify port to forward */ | |
if ( 1 < argc ) { | |
argv++, argc--; | |
local_type = LOCAL_SOCKET; | |
local_port = resolve_port(*argv); | |
} else { | |
error("option '-%c' needs argument.\n", *ptr); | |
err++; | |
} | |
break; | |
#ifndef _WIN32 | |
case 'w': | |
if ( 1 < argc ) { | |
argv++, argc--; | |
connect_timeout = atoi(*argv); | |
} else { | |
error("option '-%c' needs argument.\n", *ptr); | |
err++; | |
} | |
break; | |
#endif /* not _WIN32 */ | |
case '4': | |
socks_version = 4; | |
break; | |
case '5': | |
socks_version = 5; | |
break; | |
case 'a': | |
if ( 1 < argc ) { | |
argv++, argc--; | |
socks5_auth = *argv; | |
} else { | |
error("option '-%c' needs argument.\n", *ptr); | |
err++; | |
} | |
break; | |
case 'R': /* specify resolve method */ | |
if ( 1 < argc ) { | |
argv++, argc--; | |
socks_resolve = lookup_resolve( *argv ); | |
} else { | |
error("option '-%c' needs argument.\n", *ptr); | |
err++; | |
} | |
break; | |
case 'V': /* print version */ | |
fprintf(stderr, "%s\nVersion %s\n", progdesc, revstr); | |
exit(0); | |
case 'd': /* debug mode */ | |
f_debug++; | |
break; | |
default: | |
error("unknown option '-%c'\n", *ptr); | |
err++; | |
} | |
ptr++; | |
} | |
argc--, argv++; | |
} | |
/* check error */ | |
if ( 0 < err ) | |
goto quit; | |
set_relay( method, server ); | |
/* check destination HOST (MUST) */ | |
if ( argc == 0 ) { | |
fprintf(stderr, "%s\nVersion %s\n", progdesc, revstr); | |
fprintf(stderr, usage, progname); | |
exit(0); | |
} | |
dest_host = argv[0]; | |
/* decide port or service name from programname or argument */ | |
if ( ((ptr=strrchr( progname, '/' )) != NULL) || | |
((ptr=strchr( progname, '\\')) != NULL) ) | |
ptr++; | |
else | |
ptr = progname; | |
if ( dest_port == 0 ) { | |
/* accept only if -P is not specified. */ | |
if ( 1 < argc ) { | |
/* get port number from argument (prior to progname) */ | |
/* NOTE: This way is for cvs ext method. */ | |
dest_port = resolve_port(argv[1]); | |
} else if ( strncmp( ptr, "connect-", 8) == 0 ) { | |
/* decide port number from program name */ | |
char *str = strdup( ptr+8 ); | |
str[strcspn( str, "." )] = '\0'; | |
dest_port = resolve_port(str); | |
free(str); | |
} | |
} | |
/* check port number */ | |
if ( dest_port <= 0 ) { | |
error( "You must specify the destination port correctly.\n"); | |
err++; | |
goto quit; | |
} | |
if ( (relay_method != METHOD_DIRECT) && (relay_port <= 0) ) { | |
error("Invalid relay port: %d\n", dest_port); | |
err++; | |
goto quit; | |
} | |
quit: | |
/* report for debugging */ | |
debug("relay_method = %s (%d)\n", | |
method_names[relay_method], relay_method); | |
if ( relay_method != METHOD_DIRECT ) { | |
debug("relay_host=%s\n", relay_host); | |
debug("relay_port=%d\n", relay_port); | |
debug("relay_user=%s\n", relay_user); | |
} | |
if ( relay_method == METHOD_SOCKS ) { | |
debug("socks_version=%d\n", socks_version); | |
debug("socks_resolve=%s (%d)\n", | |
resolve_names[socks_resolve], socks_resolve); | |
} | |
debug("local_type=%s\n", local_type_names[local_type]); | |
if ( local_type == LOCAL_SOCKET ) { | |
debug("local_port=%d\n", local_port); | |
if (f_hold_session) | |
debug (" with holding remote session.\n"); | |
} | |
debug("dest_host=%s\n", dest_host); | |
debug("dest_port=%d\n", dest_port); | |
if ( 0 < err ) { | |
fprintf(stderr, usage, progname); | |
exit(1); | |
} | |
return 0; | |
} | |
#ifndef _WIN32 | |
/* Time-out feature is not allowed for Win32 native compilers. */ | |
/* MSVC and Borland C cannot but Cygwin and UNIXes can. */ | |
/* timeout signal hander */ | |
void | |
sig_timeout(void) | |
{ | |
signal( SIGALRM, SIG_IGN ); | |
alarm( 0 ); | |
error( "timed out\n" ); | |
exit(1); | |
} | |
/* set timeout param = seconds, 0 clears */ | |
void | |
set_timeout(int timeout) | |
{ | |
/* This feature is allowed for UNIX or cygwin environments, currently */ | |
if ( timeout == 0 ) { | |
debug( "clearing timeout\n" ); | |
signal( SIGALRM, SIG_IGN ); | |
alarm( 0 ); | |
} else { | |
debug( "setting timeout: %d seconds\n", timeout ); | |
signal(SIGALRM, (void *)sig_timeout); | |
alarm( timeout ); | |
} | |
} | |
#endif | |
#if !defined(_WIN32) && !defined(__CYGWIN32__) | |
void | |
switch_ns (struct sockaddr_in *ns) | |
{ | |
res_init(); | |
memcpy (&_res.nsaddr_list[0], ns, sizeof(*ns)); | |
_res.nscount = 1; | |
debug("Using nameserver at %s\n", inet_ntoa(ns->sin_addr)); | |
} | |
#endif /* !_WIN32 && !__CYGWIN32__ */ | |
/* TODO: IPv6 | |
TODO: fallback if askpass execution failed. | |
*/ | |
int | |
local_resolve (const char *host, struct sockaddr_in *addr) | |
{ | |
struct hostent *ent; | |
if ( strspn(host, dotdigits) == strlen(host) ) { | |
/* given by IPv4 address */ | |
addr->sin_family = AF_INET; | |
addr->sin_addr.s_addr = inet_addr(host); | |
} else { | |
debug("resolving host by name: %s\n", host); | |
ent = gethostbyname (host); | |
if ( ent ) { | |
memcpy (&addr->sin_addr, ent->h_addr, ent->h_length); | |
addr->sin_family = ent->h_addrtype; | |
debug("resolved: %s (%s)\n", | |
host, inet_ntoa(addr->sin_addr)); | |
} else { | |
debug("failed to resolve locally.\n"); | |
return -1; /* failed */ | |
} | |
} | |
return 0; /* good */ | |
} | |
int | |
open_connection( const char *host, u_short port ) | |
{ | |
SOCKET s; | |
struct sockaddr_in saddr; | |
/* resolve address of proxy or direct target */ | |
if (local_resolve (host, &saddr) < 0) { | |
error("can't resolve hostname: %s\n", host); | |
return SOCKET_ERROR; | |
} | |
saddr.sin_port = htons(port); | |
debug("connecting to %s:%u\n", inet_ntoa(saddr.sin_addr), port); | |
s = socket( AF_INET, SOCK_STREAM, 0 ); | |
if ( connect( s, (struct sockaddr *)&saddr, sizeof(saddr)) | |
== SOCKET_ERROR) { | |
debug( "connect() failed.\n"); | |
return SOCKET_ERROR; | |
} | |
return s; | |
} | |
void | |
report_text( char *prefix, char *buf ) | |
{ | |
static char work[1024]; | |
char *tmp; | |
if ( !f_debug ) | |
return; | |
if ( !f_report ) | |
return; /* don't report */ | |
debug("%s \"", prefix); | |
while ( *buf ) { | |
memset( work, 0, sizeof(work)); | |
tmp = work; | |
while ( *buf && ((tmp-work) < (int)sizeof(work)-5) ) { | |
switch ( *buf ) { | |
case '\t': *tmp++ = '\\'; *tmp++ = 't'; break; | |
case '\r': *tmp++ = '\\'; *tmp++ = 'r'; break; | |
case '\n': *tmp++ = '\\'; *tmp++ = 'n'; break; | |
case '\\': *tmp++ = '\\'; *tmp++ = '\\'; break; | |
default: | |
if ( isprint(*buf) ) { | |
*tmp++ = *buf; | |
} else { | |
int consumed = tmp - work; | |
snprintf( tmp, sizeof(work)-consumed, | |
"\\x%02X", (unsigned char)*buf); | |
tmp += strlen(tmp); | |
} | |
} | |
buf++; | |
*tmp = '\0'; | |
} | |
debug_("%s", work); | |
} | |
debug_("\"\n"); | |
} | |
void | |
report_bytes( char *prefix, char *buf, int len ) | |
{ | |
if ( ! f_debug ) | |
return; | |
debug( "%s", prefix ); | |
while ( 0 < len ) { | |
fprintf( stderr, " %02x", *(unsigned char *)buf); | |
buf++; | |
len--; | |
} | |
fprintf(stderr, "\n"); | |
return; | |
} | |
int | |
atomic_out( SOCKET s, char *buf, int size ) | |
{ | |
int ret, len; | |
assert( buf != NULL ); | |
assert( 0<=size ); | |
/* do atomic out */ | |
ret = 0; | |
while ( 0 < size ) { | |
len = send( s, buf+ret, size, 0 ); | |
if ( len == -1 ) | |
fatal("atomic_out() failed to send(), %d\n", socket_errno()); | |
ret += len; | |
size -= len; | |
} | |
if (!f_report) { | |
debug("atomic_out() [some bytes]\n"); | |
debug(">>> xx xx xx xx ...\n"); | |
} else { | |
debug("atomic_out() [%d bytes]\n", ret); | |
report_bytes(">>>", buf, ret); | |
} | |
return ret; | |
} | |
int | |
atomic_in( SOCKET s, char *buf, int size ) | |
{ | |
int ret, len; | |
assert( buf != NULL ); | |
assert( 0<=size ); | |
/* do atomic in */ | |
ret = 0; | |
while ( 0 < size ) { | |
len = recv( s, buf+ret, size, 0 ); | |
if ( len == -1 ) { | |
fatal("atomic_in() failed to recv(), %d\n", socket_errno()); | |
} else if ( len == 0 ) { | |
fatal( "Connection closed by peer.\n"); | |
} | |
ret += len; | |
size -= len; | |
} | |
if (!f_report) { | |
debug("atomic_in() [some bytes]\n"); | |
debug("<<< xx xx xx xx ...\n"); | |
} else { | |
debug("atomic_in() [%d bytes]\n", ret); | |
report_bytes("<<<", buf, ret); | |
} | |
return ret; | |
} | |
int | |
line_input( SOCKET s, char *buf, int size ) | |
{ | |
char *dst = buf; | |
if ( size == 0 ) | |
return 0; /* no error */ | |
size--; | |
while ( 0 < size ) { | |
switch ( recv( s, dst, 1, 0) ) { /* recv one-by-one */ | |
case SOCKET_ERROR: | |
error("recv() error\n"); | |
return -1; /* error */ | |
case 0: | |
size = 0; /* end of stream */ | |
break; | |
default: | |
/* continue reading until last 1 char is EOL? */ | |
if ( *dst == '\n' ) { | |
/* finished */ | |
size = 0; | |
} else { | |
/* more... */ | |
size--; | |
} | |
dst++; | |
} | |
} | |
*dst = '\0'; | |
report_text( "<<<", buf); | |
return 0; | |
} | |
/* cut_token() | |
Span token in given string STR until char in DELIM is appeared. | |
Then replace contiguous DELIMS with '\0' for string termination | |
and returns next pointer. | |
If no next token, return NULL. | |
*/ | |
char * | |
cut_token( char *str, char *delim) | |
{ | |
char *ptr = str + strcspn(str, delim); | |
char *end = ptr + strspn(ptr, delim); | |
if ( ptr == str ) | |
return NULL; | |
while ( ptr < end ) | |
*ptr++ = '\0'; | |
return ptr; | |
} | |
const char * | |
lookup(int num, LOOKUP_ITEM *items) | |
{ | |
int i = 0; | |
while (0 <= items[i].num) { | |
if (items[i].num == num) | |
return items[i].str; | |
i++; | |
} | |
return "(unknown)"; | |
} | |
/* readpass() | |
password input routine | |
Use ssh-askpass (same mechanism to OpenSSH) | |
*/ | |
char * | |
readpass( const char* prompt, ...) | |
{ | |
static char buf[1000]; /* XXX, don't be fix length */ | |
va_list args; | |
va_start(args, prompt); | |
vsnprintf(buf, sizeof(buf), prompt, args); | |
va_end(args); | |
if ( getparam(ENV_SSH_ASKPASS) | |
#if !defined(_WIN32) && !defined(__CYGWIN32__) | |
&& getenv("DISPLAY") | |
#endif /* not _WIN32 && not __CYGWIN32__ */ | |
) { | |
/* use ssh-askpass to get password */ | |
FILE *fp; | |
char *askpass = getparam(ENV_SSH_ASKPASS), *cmd; | |
int cmd_size = strlen(askpass) +1 +1 +strlen(buf) +1 +1; | |
cmd = xmalloc(cmd_size); | |
snprintf(cmd, cmd_size, "%s \"%s\"", askpass, buf); | |
fp = popen(cmd, "r"); | |
free(cmd); | |
if ( fp == NULL ) | |
return NULL; /* fail */ | |
buf[0] = '\0'; | |
if (fgets(buf, sizeof(buf), fp) == NULL) | |
return NULL; /* fail */ | |
fclose(fp); | |
} else { | |
tty_readpass( buf, buf, sizeof(buf)); | |
} | |
buf[strcspn(buf, "\r\n")] = '\0'; | |
return buf; | |
} | |
static int | |
socks5_do_auth_userpass( int s ) | |
{ | |
unsigned char buf[1024], *ptr; | |
char *pass = NULL; | |
int len; | |
/* do User/Password authentication. */ | |
/* This feature requires username and password from | |
command line argument or environment variable, | |
or terminal. */ | |
if (relay_user == NULL) | |
fatal("cannot determine user name.\n"); | |
/* get password from environment variable if exists. */ | |
if ((pass=determine_relay_password()) == NULL && | |
(pass=readpass("Enter SOCKS5 password for %s@%s: ", | |
relay_user, relay_host)) == NULL) | |
fatal("Cannot get password for user: %s\n", relay_user); | |
/* make authentication packet */ | |
ptr = buf; | |
PUT_BYTE( ptr++, 1 ); /* subnegotiation ver.: 1 */ | |
len = strlen( relay_user ); /* ULEN and UNAME */ | |
PUT_BYTE( ptr++, len ); | |
strcpy( ptr, relay_user ); | |
ptr += len; | |
len = strlen( pass ); /* PLEN and PASSWD */ | |
PUT_BYTE( ptr++, strlen(pass)); | |
strcpy( ptr, pass ); | |
ptr += len; | |
memset (pass, 0, strlen(pass)); /* erase password */ | |
/* send it and get answer */ | |
f_report = 0; | |
atomic_out( s, buf, ptr-buf ); | |
f_report = 1; | |
atomic_in( s, buf, 2 ); | |
/* check status */ | |
if ( buf[1] == 0 ) | |
return 0; /* success */ | |
else | |
return -1; /* fail */ | |
} | |
static const char * | |
socks5_getauthname( int auth ) | |
{ | |
switch ( auth ) { | |
case SOCKS5_AUTH_REJECT: return "REJECTED"; | |
case SOCKS5_AUTH_NOAUTH: return "NO-AUTH"; | |
case SOCKS5_AUTH_GSSAPI: return "GSSAPI"; | |
case SOCKS5_AUTH_USERPASS: return "USERPASS"; | |
case SOCKS5_AUTH_CHAP: return "CHAP"; | |
case SOCKS5_AUTH_EAP: return "EAP"; | |
case SOCKS5_AUTH_MAF: return "MAF"; | |
default: return "(unknown)"; | |
} | |
} | |
typedef struct { | |
char* name; | |
unsigned char auth; | |
} AUTH_METHOD_ITEM; | |
AUTH_METHOD_ITEM socks5_auth_table[] = { | |
{ "none", SOCKS5_AUTH_NOAUTH }, | |
{ "gssapi", SOCKS5_AUTH_GSSAPI }, | |
{ "userpass", SOCKS5_AUTH_USERPASS }, | |
{ "chap", SOCKS5_AUTH_CHAP }, | |
{ NULL, -1 }, | |
}; | |
int | |
socks5_auth_parse_1(char *start, char *end){ | |
int i, len; | |
for ( ; *start; start++ ) | |
if ( *start != ' ' && *start != '\t') break; | |
for ( end--; end >= start; end-- ) { | |
if ( *end != ' ' && *end != '\t'){ | |
end++; | |
break; | |
} | |
} | |
len = end - start; | |
for ( i = 0; socks5_auth_table[i].name != NULL; i++ ){ | |
if ( strncmp(start, socks5_auth_table[i].name, len) == 0) { | |
return socks5_auth_table[i].auth; | |
} | |
} | |
fatal("Unknown auth method: %s\n", start); | |
return -1; | |
} | |
int | |
socks5_auth_parse(char *start, unsigned char *auth_list, int max_auth){ | |
char *end; | |
int i = 0; | |
while ( i < max_auth ) { | |
end = strchr(start, ','); | |
if (*start && end) { | |
auth_list[i++] = socks5_auth_parse_1(start, end); | |
start = ++end; | |
} else { | |
break; | |
} | |
} | |
if ( *start && ( i < max_auth ) ){ | |
for( end = start; *end; end++ ); | |
auth_list[i++] = socks5_auth_parse_1(start, end); | |
} else { | |
fatal("Too much auth method.\n"); | |
} | |
return i; | |
} | |
/* begin SOCKS5 relaying | |
And no authentication is supported. | |
*/ | |
int | |
begin_socks5_relay( SOCKET s ) | |
{ | |
unsigned char buf[256], *ptr, *env = socks5_auth; | |
unsigned char n_auth = 0; unsigned char auth_list[10], auth_method; | |
int len, auth_result, i; | |
debug( "begin_socks_relay()\n"); | |
/* request authentication */ | |
ptr = buf; | |
PUT_BYTE( ptr++, 5); /* SOCKS version (5) */ | |
if ( env == NULL ) | |
env = getparam(ENV_SOCKS5_AUTH); | |
if ( env == NULL ) { | |
/* add no-auth authentication */ | |
auth_list[n_auth++] = SOCKS5_AUTH_NOAUTH; | |
/* add user/pass authentication */ | |
auth_list[n_auth++] = SOCKS5_AUTH_USERPASS; | |
} else { | |
n_auth = socks5_auth_parse(env, auth_list, 10); | |
} | |
PUT_BYTE( ptr++, n_auth); /* num auth */ | |
for (i=0; i<n_auth; i++) { | |
debug("available auth method[%d] = %s (0x%02x)\n", | |
i, socks5_getauthname(auth_list[i]), auth_list[i]); | |
PUT_BYTE( ptr++, auth_list[i]); /* authentications */ | |
} | |
atomic_out( s, buf, ptr-buf ); /* send requst */ | |
atomic_in( s, buf, 2 ); /* recv response */ | |
if ( (buf[0] != 5) || /* ver5 response */ | |
(buf[1] == 0xFF) ) { /* check auth method */ | |
error("No auth method accepted.\n"); | |
return -1; | |
} | |
auth_method = buf[1]; | |
debug("auth method: %s\n", socks5_getauthname(auth_method)); | |
switch ( auth_method ) { | |
case SOCKS5_AUTH_REJECT: | |
error("No acceptable authentication method\n"); | |
return -1; /* fail */ | |
case SOCKS5_AUTH_NOAUTH: | |
/* nothing to do */ | |
auth_result = 0; | |
break; | |
case SOCKS5_AUTH_USERPASS: | |
auth_result = socks5_do_auth_userpass(s); | |
break; | |
default: | |
error("Unsupported authentication method: %s\n", | |
socks5_getauthname( auth_method )); | |
return -1; /* fail */ | |
} | |
if ( auth_result != 0 ) { | |
error("Authentication failed.\n"); | |
return -1; | |
} | |
/* request to connect */ | |
ptr = buf; | |
PUT_BYTE( ptr++, 5); /* SOCKS version (5) */ | |
PUT_BYTE( ptr++, 1); /* CMD: CONNECT */ | |
PUT_BYTE( ptr++, 0); /* FLG: 0 */ | |
if ( dest_addr.sin_addr.s_addr == 0 ) { | |
/* resolved by SOCKS server */ | |
PUT_BYTE( ptr++, 3); /* ATYP: DOMAINNAME */ | |
len = strlen(dest_host); | |
PUT_BYTE( ptr++, len); /* DST.ADDR (len) */ | |
memcpy( ptr, dest_host, len ); /* (hostname) */ | |
ptr += len; | |
} else { | |
/* resolved localy */ | |
PUT_BYTE( ptr++, 1 ); /* ATYP: IPv4 */ | |
memcpy( ptr, &dest_addr.sin_addr.s_addr, sizeof(dest_addr.sin_addr)); | |
ptr += sizeof(dest_addr.sin_addr); | |
} | |
PUT_BYTE( ptr++, dest_port>>8); /* DST.PORT */ | |
PUT_BYTE( ptr++, dest_port&0xFF); | |
atomic_out( s, buf, ptr-buf); /* send request */ | |
atomic_in( s, buf, 4 ); /* recv response */ | |
if ( (buf[1] != SOCKS5_REP_SUCCEEDED) ) { /* check reply code */ | |
error("Got error response from SOCKS server: %d (%s).\n", | |
buf[1], lookup(buf[1], socks5_rep_names)); | |
return -1; | |
} | |
ptr = buf + 4; | |
switch ( buf[3] ) { /* case by ATYP */ | |
case 1: /* IP v4 ADDR*/ | |
atomic_in( s, ptr, 4+2 ); /* recv IPv4 addr and port */ | |
break; | |
case 3: /* DOMAINNAME */ | |
atomic_in( s, ptr, 1 ); /* recv name and port */ | |
atomic_in( s, ptr+1, *(unsigned char*)ptr + 2); | |
break; | |
case 4: /* IP v6 ADDR */ | |
atomic_in( s, ptr, 16+2 ); /* recv IPv6 addr and port */ | |
break; | |
} | |
/* Conguraturation, connected via SOCKS5 server! */ | |
return 0; | |
} | |
/* begin SOCKS protocol 4 relaying | |
And no authentication is supported. | |
There's SOCKS protocol version 4 and 4a. Protocol version | |
4a has capability to resolve hostname by SOCKS server, so | |
we don't need resolving IP address of destination host on | |
local machine. | |
Environment variable SOCKS_RESOLVE directs how to resolve | |
IP addess. There's 3 keywords allowed; "local", "remote" | |
and "both" (case insensitive). Keyword "local" means taht | |
target host name is resolved by localhost resolver | |
(usualy with gethostbyname()), "remote" means by remote | |
SOCKS server, "both" means to try resolving by localhost | |
then remote. | |
SOCKS4 protocol and authentication of SOCKS5 protocol | |
requires user name on connect request. | |
User name is determined by following method. | |
1. If server spec has user@hostname:port format then | |
user part is used for this SOCKS server. | |
2. Get user name from environment variable LOGNAME, USER | |
(in this order). | |
*/ | |
int | |
begin_socks4_relay( SOCKET s ) | |
{ | |
unsigned char buf[256], *ptr; | |
debug( "begin_socks_relay()\n"); | |
/* make connect request packet | |
protocol v4: | |
VN:1, CD:1, PORT:2, ADDR:4, USER:n, NULL:1 | |
protocol v4a: | |
VN:1, CD:1, PORT:2, DUMMY:4, USER:n, NULL:1, HOSTNAME:n, NULL:1 | |
*/ | |
ptr = buf; | |
PUT_BYTE( ptr++, 4); /* protocol version (4) */ | |
PUT_BYTE( ptr++, 1); /* CONNECT command */ | |
PUT_BYTE( ptr++, dest_port>>8); /* destination Port */ | |
PUT_BYTE( ptr++, dest_port&0xFF); | |
/* destination IP */ | |
memcpy(ptr, &dest_addr.sin_addr, sizeof(dest_addr.sin_addr)); | |
ptr += sizeof(dest_addr.sin_addr); | |
if ( dest_addr.sin_addr.s_addr == 0 ) | |
*(ptr-1) = 1; /* fake, protocol 4a */ | |
/* username */ | |
if (relay_user == NULL) | |
fatal( "Cannot determine user name.\n"); | |
strcpy( ptr, relay_user ); | |
ptr += strlen( relay_user ) +1; | |
/* destination host name (for protocol 4a) */ | |
if ( (socks_version == 4) && (dest_addr.sin_addr.s_addr == 0)) { | |
strcpy( ptr, dest_host ); | |
ptr += strlen( dest_host ) +1; | |
} | |
/* send command and get response | |
response is: VN:1, CD:1, PORT:2, ADDR:4 */ | |
atomic_out( s, buf, ptr-buf); /* send request */ | |
atomic_in( s, buf, 8 ); /* recv response */ | |
if ( (buf[1] != SOCKS4_REP_SUCCEEDED) ) { /* check reply code */ | |
error("Got error response: %d: '%s'.\n", | |
buf[1], lookup(buf[1], socks4_rep_names)); | |
return -1; /* failed */ | |
} | |
/* Conguraturation, connected via SOCKS4 server! */ | |
return 0; | |
} | |
int | |
sendf(SOCKET s, const char *fmt,...) | |
{ | |
static char buf[10240]; /* xxx, enough? */ | |
va_list args; | |
va_start( args, fmt ); | |
vsnprintf( buf, sizeof(buf), fmt, args ); | |
va_end( args ); | |
report_text(">>>", buf); | |
if ( send(s, buf, strlen(buf), 0) == SOCKET_ERROR ) { | |
debug("failed to send http request. errno=%d\n", socket_errno()); | |
return -1; | |
} | |
return 0; | |
} | |
const char *base64_table = | |
"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"; | |
char * | |
make_base64_string(const char *str) | |
{ | |
static char *buf; | |
unsigned char *src; | |
char *dst; | |
int bits, data, src_len, dst_len; | |
/* make base64 string */ | |
src_len = strlen(str); | |
dst_len = (src_len+2)/3*4; | |
buf = xmalloc(dst_len+1); | |
bits = data = 0; | |
src = (unsigned char *)str; | |
dst = (unsigned char *)buf; | |
while ( dst_len-- ) { | |
if ( bits < 6 ) { | |
data = (data << 8) | *src; | |
bits += 8; | |
if ( *src != 0 ) | |
src++; | |
} | |
*dst++ = base64_table[0x3F & (data >> (bits-6))]; | |
bits -= 6; | |
} | |
*dst = '\0'; | |
/* fix-up tail padding */ | |
switch ( src_len%3 ) { | |
case 1: | |
*--dst = '='; | |
case 2: | |
*--dst = '='; | |
} | |
return buf; | |
} | |
int | |
basic_auth (SOCKET s) | |
{ | |
char *userpass; | |
char *cred; | |
const char *user = relay_user; | |
char *pass = NULL; | |
int len, ret; | |
/* Get username/password for authentication */ | |
if (user == NULL) | |
fatal("Cannot decide username for proxy authentication."); | |
if ((pass = determine_relay_password ()) == NULL && | |
(pass = readpass("Enter proxy authentication password for %s@%s: ", | |
relay_user, relay_host)) == NULL) | |
fatal("Cannot decide password for proxy authentication."); | |
len = strlen(user)+strlen(pass)+1; | |
userpass = xmalloc(len+1); | |
snprintf(userpass, len+1, "%s:%s", user, pass); | |
memset (pass, 0, strlen(pass)); | |
cred = make_base64_string(userpass); | |
memset (userpass, 0, len); | |
f_report = 0; /* don't report for security */ | |
if (realm) { | |
ret = sendf(s, "Proxy-Authorization: Basic %s %s\r\n", cred, realm); | |
f_report = 1; | |
report_text(">>>", "Proxy-Authorization: Basic xxxxx realm=\"xxxxx\"\r\n"); | |
} else { | |
ret = sendf(s, "Proxy-Authorization: Basic %s\r\n", cred); | |
f_report = 1; | |
report_text(">>>", "Proxy-Authorization: Basic xxxxx\r\n"); | |
} | |
memset(cred, 0, strlen(cred)); | |
free(cred); | |
return ret; | |
} | |
/* begin relaying via HTTP proxy | |
Directs CONNECT method to proxy server to connect to | |
destination host (and port). It may not be allowed on your | |
proxy server. | |
*/ | |
int | |
begin_http_relay( SOCKET s ) | |
{ | |
char buf[1024]; | |
int result; | |
char *auth_what; | |
debug("begin_http_relay()\n"); | |
if (sendf(s,"CONNECT %s:%d HTTP/1.0\r\n", dest_host, dest_port) < 0) | |
return START_ERROR; | |
if (proxy_auth_type == PROXY_AUTH_BASIC && basic_auth (s) < 0) | |
return START_ERROR; | |
if (sendf(s,"\r\n") < 0) | |
return START_ERROR; | |
/* get response */ | |
if ( line_input(s, buf, sizeof(buf)) < 0 ) { | |
debug("failed to read http response.\n"); | |
return START_ERROR; | |
} | |
/* check status */ | |
if (!strchr(buf, ' ')) { | |
error ("Unexpected http response: '%s'.\n", buf); | |
return START_ERROR; | |
} | |
result = atoi(strchr(buf,' ')); | |
switch ( result ) { | |
case 200: | |
/* Conguraturation, connected via http proxy server! */ | |
debug("connected, start user session.\n"); | |
break; | |
case 302: /* redirect */ | |
do { | |
if (line_input(s, buf, sizeof(buf))) | |
break; | |
downcase(buf); | |
if (expect(buf, "Location: ")) { | |
relay_host = cut_token(buf, "//"); | |
cut_token(buf, "/"); | |
relay_port = atoi(cut_token(buf, ":")); | |
} | |
} while (strcmp(buf,"\r\n") != 0); | |
return START_RETRY; | |
/* We handle both 401 and 407 codes here: 401 is WWW-Authenticate, which | |
* not strictly the correct response, but some proxies do send this (e.g. | |
* Symantec's Raptor firewall) */ | |
case 401: /* WWW-Auth required */ | |
case 407: /* Proxy-Auth required */ | |
/** NOTE: As easy implementation, we support only BASIC scheme */ | |
/* If proxy_auth_type is PROXY_AUTH_BASIC and get | |
this result code, authentication was failed. */ | |
if (proxy_auth_type != PROXY_AUTH_NONE) { | |
error("Authentication failed.\n"); | |
return START_ERROR; | |
} | |
auth_what = (result == 401) ? "WWW-Authenticate:" : "Proxy-Authenticate:"; | |
do { | |
if ( line_input(s, buf, sizeof(buf)) ) { | |
break; | |
} | |
downcase(buf); | |
if (expect(buf, auth_what)) { | |
/* parse type and realm */ | |
char *scheme, *mrealm; | |
scheme = cut_token(buf, " "); | |
mrealm = cut_token(scheme, " "); | |
if ( scheme == NULL || realm == NULL ) { | |
debug("Invalid format of %s field.", auth_what); | |
return START_ERROR; /* fail */ | |
} | |
/* check supported auth type */ | |
if (expect(scheme, "basic")) { | |
proxy_auth_type = PROXY_AUTH_BASIC; | |
strcpy(realm, mrealm); | |
debug("realm: %s", mrealm); | |
} else { | |
debug("Unsupported authentication type: %s", scheme); | |
} | |
} | |
} while (strcmp(buf,"\r\n") != 0); | |
if ( proxy_auth_type == PROXY_AUTH_NONE ) { | |
debug("Can't find %s in response header.", auth_what); | |
return START_ERROR; | |
} else { | |
debug("START_RETRY with proxy_auth_type=%d\n", PROXY_AUTH_BASIC); | |
return START_RETRY; | |
} | |
default: | |
/* Not allowed */ | |
debug("http proxy is not allowed.\n"); | |
return START_ERROR; | |
} | |
/* skip to end of response header */ | |
do { | |
if ( line_input(s, buf, sizeof(buf) ) ) { | |
debug("Can't skip response headers\n"); | |
return START_ERROR; | |
} | |
} while ( strcmp(buf,"\r\n") != 0 ); | |
return START_OK; | |
} | |
/* begin relaying via TELNET proxy. | |
Sends string specified by telnet_command (-c option) with | |
replacing host name and port number to the socket. */ | |
int | |
begin_telnet_relay( SOCKET s ) | |
{ | |
char buf[1024]; | |
char *cmd; | |
char *good_phrase = "connected to"; | |
char *bad_phrase_list[] = { | |
" failed", " refused", " rejected", " closed" | |
}; | |
char sep = ' '; | |
int i; | |
debug("begin_telnet_relay()\n"); | |
/* report phrase */ | |
debug("good phrase: '%s'\n", good_phrase); | |
debug("bad phrases"); | |
sep = ':'; | |
for (i=0; i< (sizeof(bad_phrase_list) / sizeof(char*)); i++) { | |
debug_("%c '%s'", sep, bad_phrase_list[i]); | |
sep = ','; | |
} | |
debug_("\n"); | |
/* make request string with replacing %h by destination hostname | |
and %p by port number, etc. */ | |
cmd = expand_host_and_port(telnet_command, dest_host, dest_port); | |
/* Sorry, we send request string now without waiting a prompt. */ | |
if (sendf(s, "%s\r\n", cmd) < 0) { | |
free(cmd); | |
return START_ERROR; | |
} | |
free(cmd); | |
/* Process answer from proxy until good or bad phrase is detected. We | |
assume that the good phrase should be appeared only in the final | |
line of proxy responses. Bad keywods in the line causes operation | |
fail. First checks a good phrase, then checks bad phrases. | |
If no match, continue reading line from proxy. */ | |
while (!line_input(s, buf, sizeof(buf)) && buf[0] != '\0') { | |
downcase(buf); | |
/* first, check good phrase */ | |
if (strstr(buf, good_phrase)) { | |
debug("good phrase is detected: '%s'\n", good_phrase); | |
return START_OK; | |
} | |
/* then, check bad phrase */ | |
for (i=0; i<(sizeof(bad_phrase_list)/sizeof(char*)); i++) { | |
if (strstr(buf, bad_phrase_list[i]) != NULL) { | |
debug("bad phrase is detected: '%s'\n", bad_phrase_list[i]); | |
return START_ERROR; | |
} | |
} | |
} | |
debug("error reading from telnet proxy\n"); | |
return START_ERROR; | |
} | |
#ifdef _WIN32 | |
/* ddatalen() | |
Returns 1 if data is available, otherwise return 0 | |
*/ | |
int | |
stdindatalen (void) | |
{ | |
DWORD len = 0; | |
struct stat st; | |
fstat( 0, &st ); | |
if ( st.st_mode & _S_IFIFO ) { | |
/* in case of PIPE */ | |
if ( !PeekNamedPipe( GetStdHandle(STD_INPUT_HANDLE), | |
NULL, 0, NULL, &len, NULL) ) { | |
if ( GetLastError() == ERROR_BROKEN_PIPE ) { | |
/* PIPE source is closed */ | |
/* read() will detects EOF */ | |
len = 1; | |
} else { | |
fatal("PeekNamedPipe() failed, errno=%d\n", | |
GetLastError()); | |
} | |
} | |
} else if ( st.st_mode & _S_IFREG ) { | |
/* in case of regular file (redirected) */ | |
len = 1; /* always data ready */ | |
} else if ( _kbhit() ) { | |
/* in case of console */ | |
len = 1; | |
} | |
return len; | |
} | |
#endif /* _WIN32 */ | |
/* relay byte from stdin to socket and fro socket to stdout. | |
returns reason of termination */ | |
int | |
do_repeater( SOCKET local_in, SOCKET local_out, SOCKET remote ) | |
{ | |
/** vars for local input data **/ | |
char lbuf[1024]; /* local input buffer */ | |
int lbuf_len; /* available data in lbuf */ | |
int f_local; /* read local input more? */ | |
/** vars for remote input data **/ | |
char rbuf[1024]; /* remote input buffer */ | |
int rbuf_len; /* available data in rbuf */ | |
int f_remote; /* read remote input more? */ | |
int close_reason = REASON_UNK; /* reason of end repeating */ | |
/** other variables **/ | |
int nfds, len; | |
fd_set ifds, ofds; | |
struct timeval *tmo; | |
#ifdef _WIN32 | |
struct timeval win32_tmo; | |
#endif /* _WIN32 */ | |
/* repeater between stdin/out and socket */ | |
nfds = ((local_in<remote)? remote: local_in) +1; | |
f_local = 1; /* yes, read from local */ | |
f_remote = 1; /* yes, read from remote */ | |
lbuf_len = 0; | |
rbuf_len = 0; | |
while ( f_local || f_remote ) { | |
FD_ZERO(&ifds ); | |
FD_ZERO(&ofds ); | |
tmo = NULL; | |
/** prepare for reading local input **/ | |
if ( f_local && (lbuf_len < (int)sizeof(lbuf)) ) { | |
#ifdef _WIN32 | |
if ( local_type != LOCAL_SOCKET ) { | |
/* select() on Winsock is not accept standard handle. | |
So use select() with short timeout and checking data | |
in stdin by another method. */ | |
win32_tmo.tv_sec = 0; | |
win32_tmo.tv_usec = 10*1000; /* 10 ms */ | |
tmo = &win32_tmo; | |
} else | |
#endif /* !_WIN32 */ | |
FD_SET( local_in, &ifds ); | |
} | |
/** prepare for reading remote input **/ | |
if ( f_remote && (rbuf_len < (int)sizeof(rbuf)) ) { | |
FD_SET( remote, &ifds ); | |
} | |
/* FD_SET( local_out, ofds ); */ | |
/* FD_SET( remote, ofds ); */ | |
if ( select( nfds, &ifds, &ofds, (fd_set*)NULL, tmo ) == -1 ) { | |
/* some error */ | |
error( "select() failed, %d\n", socket_errno()); | |
return REASON_ERROR; | |
} | |
#ifdef _WIN32 | |
/* fake ifds if local is stdio handle because | |
select() of Winsock does not accept stdio | |
handle. */ | |
if (f_local && (local_type!=LOCAL_SOCKET) && (0<stdindatalen())) | |
FD_SET(0,&ifds); /* data ready */ | |
#endif | |
/* remote => local */ | |
if ( FD_ISSET(remote, &ifds) && (rbuf_len < (int)sizeof(rbuf)) ) { | |
len = recv( remote, rbuf + rbuf_len, sizeof(rbuf)-rbuf_len, 0); | |
if ( len == 0 || (len == -1 && socket_errno() == ECONNRESET)) { | |
debug("connection %s by peer\n", | |
(len==0)? "closed": "reset"); | |
close_reason = REASON_CLOSED_BY_REMOTE; | |
f_remote = 0; /* no more read from socket */ | |
f_local = 0; | |
} else if ( len == -1 ) { | |
/* error */ | |
fatal("recv() failed, %d\n", socket_errno()); | |
} else { | |
debug("recv %d bytes\n", len); | |
if ( 1 < f_debug ) { /* more verbose */ | |
report_bytes( "<<<", rbuf+rbuf_len, len); | |
} | |
rbuf_len += len; | |
} | |
} | |
/* local => remote */ | |
if ( FD_ISSET(local_in, &ifds) && (lbuf_len < (int)sizeof(lbuf)) ) { | |
if (local_type == LOCAL_SOCKET) | |
len = recv(local_in, lbuf + lbuf_len, | |
sizeof(lbuf)-lbuf_len, 0); | |
else | |
len = read(local_in, lbuf + lbuf_len, sizeof(lbuf)-lbuf_len); | |
if ( len == 0 ) { | |
/* stdin is EOF */ | |
debug("local input is EOF\n"); | |
if (!f_hold_session) | |
shutdown(remote, 1); /* no-more writing */ | |
f_local = 0; | |
close_reason = REASON_CLOSED_BY_LOCAL; | |
} else if ( len == -1 ) { | |
/* error on reading from stdin */ | |
if (f_hold_session) { | |
debug ("failed to read from local\n"); | |
f_local = 0; | |
close_reason = REASON_CLOSED_BY_LOCAL; | |
} else | |
fatal("recv() failed, errno = %d\n", errno); | |
} else { | |
/* repeat */ | |
lbuf_len += len; | |
} | |
} | |
/* flush data in buffer to socket */ | |
if ( 0 < lbuf_len ) { | |
len = send(remote, lbuf, lbuf_len, 0); | |
if ( len == -1 ) { | |
fatal("send() failed, %d\n", socket_errno()); | |
} else if ( 0 < len ) { | |
if ( 1 < f_debug ) /* more verbose */ | |
report_bytes( ">>>", lbuf, len); | |
/* move data on to top of buffer */ | |
debug("sent %d bytes\n", len); | |
lbuf_len -= len; | |
if ( 0 < lbuf_len ) | |
memcpy( lbuf, lbuf+len, lbuf_len ); | |
assert( 0 <= lbuf_len ); | |
} | |
} | |
/* flush data in buffer to local output */ | |
if ( 0 < rbuf_len ) { | |
if (local_type == LOCAL_SOCKET) | |
len = send( local_out, rbuf, rbuf_len, 0); | |
else | |
len = write( local_out, rbuf, rbuf_len); | |
if ( len == -1 ) { | |
fatal("output (local) failed, errno=%d\n", errno); | |
} | |
rbuf_len -= len; | |
if ( len < rbuf_len ) | |
memcpy( rbuf, rbuf+len, rbuf_len ); | |
assert( 0 <= rbuf_len ); | |
} | |
if (f_local == 0 && f_hold_session) { | |
debug ("closing local port without disconnecting from remote\n"); | |
f_remote = 0; | |
shutdown (local_out, 2); | |
close (local_out); | |
break; | |
} | |
} | |
return close_reason; | |
} | |
int | |
accept_connection (u_short port) | |
{ | |
static int sock = -1; | |
int connection; | |
struct sockaddr_in name; | |
struct sockaddr client; | |
int socklen; | |
fd_set ifds; | |
int nfds; | |
int sockopt; | |
/* Create the socket. */ | |
debug("Creating source port to forward.\n"); | |
sock = socket (PF_INET, SOCK_STREAM, 0); | |
if (sock < 0) | |
fatal("socket() failed, errno=%d\n", socket_errno()); | |
sockopt = 1; | |
setsockopt (sock, SOL_SOCKET, SO_REUSEADDR, | |
(void*)&sockopt, sizeof(sockopt)); | |
/* Give the socket a name. */ | |
name.sin_family = AF_INET; | |
name.sin_port = htons (port); | |
name.sin_addr.s_addr = htonl (INADDR_ANY); | |
if (bind (sock, (struct sockaddr *) &name, sizeof (name)) < 0) | |
fatal ("bind() failed, errno=%d\n", socket_errno()); | |
if (listen( sock, 1) < 0) | |
fatal ("listen() failed, errno=%d\n", socket_errno()); | |
/* wait for new connection with watching EOF of stdin. */ | |
debug ("waiting new connection at port %d (socket=%d)\n", port, sock); | |
nfds = sock + 1; | |
do { | |
int n; | |
struct timeval *ptmo = NULL; | |
#ifdef _WIN32 | |
struct timeval tmo; | |
tmo.tv_sec = 0; | |
tmo.tv_usec = 100*1000; /* On Windows, 100ms timeout */ | |
ptmo = &tmo; | |
#endif /* _WIN32 */ | |
FD_ZERO (&ifds); | |
FD_SET ((SOCKET)sock, &ifds); | |
#ifndef _WIN32 | |
FD_SET (0, &ifds); /* watch stdin */ | |
#endif | |
n = select (nfds, &ifds, NULL, NULL, ptmo); | |
if (n == -1) { | |
fatal ("select() failed, %d\n", socket_errno()); | |
exit (1); | |
} | |
#ifdef _WIN32 | |
if (0 < stdindatalen()) { | |
FD_SET (0, &ifds); /* fake */ | |
n++; | |
} | |
#endif | |
if (0 < n) { | |
if (FD_ISSET(0, &ifds) && (getchar() <= 0)) { | |
/* EOF */ | |
debug ("Give-up waiting port because stdin is closed."); | |
exit(0); | |
} | |
if (FD_ISSET(sock, &ifds)) | |
break; /* socket is stimulated */ | |
} | |
} while (1); | |
socklen = sizeof(client); | |
connection = accept( sock, &client, &socklen); | |
if ( connection < 0 ) | |
fatal ("accept() failed, errno=%d\n", socket_errno()); | |
return connection; | |
} | |
/** Main of program **/ | |
int | |
main( int argc, char **argv ) | |
{ | |
int ret; | |
int remote; /* socket */ | |
int local_in; /* Local input */ | |
int local_out; /* Local output */ | |
int reason; | |
#ifdef _WIN32 | |
WSADATA wsadata; | |
WSAStartup( 0x101, &wsadata); | |
#endif /* _WIN32 */ | |
/* initialization */ | |
make_revstr(); | |
getarg( argc, argv ); | |
debug("Program is $Revision: 100 $\n"); | |
/* Open local_in and local_out if forwarding a port */ | |
if ( local_type == LOCAL_SOCKET ) { | |
/* Relay between local port and destination */ | |
local_in = local_out = accept_connection( local_port ); | |
} else { | |
/* Relay between stdin/stdout and desteination */ | |
local_in = 0; | |
local_out = 1; | |
#ifdef _WIN32 | |
_setmode(local_in, O_BINARY); | |
_setmode(local_out, O_BINARY); | |
#endif | |
} | |
retry: | |
#ifndef _WIN32 | |
if (0 < connect_timeout) | |
set_timeout (connect_timeout); | |
#endif /* not _WIN32 */ | |
if (check_direct(dest_host)) | |
relay_method = METHOD_DIRECT; | |
/* make connection */ | |
if ( relay_method == METHOD_DIRECT ) { | |
remote = open_connection (dest_host, dest_port); | |
if ( remote == SOCKET_ERROR ) | |
fatal( "Unable to connect to destination host, errno=%d\n", | |
socket_errno()); | |
} else { | |
remote = open_connection (relay_host, relay_port); | |
if ( remote == SOCKET_ERROR ) | |
fatal( "Unable to connect to relay host, errno=%d\n", | |
socket_errno()); | |
} | |
/** resolve destination host (SOCKS) **/ | |
#if !defined(_WIN32) && !defined(__CYGWIN32__) | |
if (socks_ns.sin_addr.s_addr != 0) | |
switch_ns (&socks_ns); | |
#endif /* not _WIN32 && not __CYGWIN32__ */ | |
if (relay_method == METHOD_SOCKS && | |
socks_resolve == RESOLVE_LOCAL && | |
local_resolve (dest_host, &dest_addr) < 0) { | |
fatal("Unknown host: %s", dest_host); | |
} | |
/** relay negociation **/ | |
switch ( relay_method ) { | |
case METHOD_SOCKS: | |
if ( ((socks_version == 5) && (begin_socks5_relay(remote) < 0)) || | |
((socks_version == 4) && (begin_socks4_relay(remote) < 0)) ) | |
fatal( "failed to begin relaying via SOCKS.\n"); | |
break; | |
case METHOD_HTTP: | |
ret = begin_http_relay(remote); | |
switch (ret) { | |
case START_ERROR: | |
close (remote); | |
fatal("failed to begin relaying via HTTP.\n"); | |
case START_OK: | |
break; | |
case START_RETRY: | |
/* retry with authentication */ | |
close (remote); | |
goto retry; | |
} | |
break; | |
case METHOD_TELNET: | |
if (begin_telnet_relay(remote) < 0) | |
fatal("failed to begin relaying via telnet.\n"); | |
break; | |
} | |
debug("connected\n"); | |
#ifndef _WIN32 | |
if (0 < connect_timeout) | |
set_timeout (0); | |
#endif /* not _WIN32 */ | |
/* main loop */ | |
debug ("start relaying.\n"); | |
do_repeater: | |
reason = do_repeater(local_in, local_out, remote); | |
debug ("relaying done.\n"); | |
if (local_type == LOCAL_SOCKET && | |
reason == REASON_CLOSED_BY_LOCAL && | |
f_hold_session) { | |
/* re-wait at local port without closing remote session */ | |
debug ("re-waiting at local port %d\n", local_port); | |
local_in = local_out = accept_connection( local_port ); | |
debug ("re-start relaying\n"); | |
goto do_repeater; | |
} | |
closesocket(remote); | |
if ( local_type == LOCAL_SOCKET) | |
closesocket(local_in); | |
#ifdef _WIN32 | |
WSACleanup(); | |
#endif /* _WIN32 */ | |
debug ("that's all, bye.\n"); | |
return 0; | |
} | |
/* ------------------------------------------------------------ | |
Local Variables: | |
compile-command: "cc connect.c -o connect" | |
tab-width: 8 | |
fill-column: 74 | |
comment-column: 48 | |
End: | |
------------------------------------------------------------ */ | |
/*** end of connect.c ***/ |
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