socat/EXAMPLES

// Examples for using socat (and filan)


//"$" means normal user, "#" requires privileges, "//" starts a comment

///////////////////////////////////////////////////////////////////////////////
// Similar to netcat

// Connect to 10.1.1.1 on port 80 and relay to and from stdio
$ socat - TCP:10.1.1.1:80	# similar to "netcat 10.1.1.1 80"

// Listen on port 25, wait for an incoming connection, use CR+NL on this
// connection, relay data to and from stdio;
// then emulate a mailserver by hand :-)
# socat - TCP-LISTEN:25,crlf

// Listen on port 25, wait for an incoming connection, use CR+NL on this
// connection, relay data to and from stdio, but have line editing and history;
// then emulate a mailserver by hand :-)
# socat READLINE TCP-LISTEN:25,crlf

// Provide a transient history enabled front end to stupid line based
// interactive programs 
$ socat \
	READLINE \
	EXEC:"nslookup",pty,ctty,setsid,echo=0
// Same works for ftp (but password is not hidden)

// You may also use a file based history list
$ socat \
	READLINE,history=.nslookup_hist \
	EXEC:"nslookup",pty,ctty,setsid,echo=0
// Using ~ as abbreviation for $HOME does not work!

// Poor mans 'telnetd' replacement
# socat \
	TCP-L:2023,reuseaddr,fork \
	EXEC:/bin/login,pty,setsid,setpgid,stderr,ctty
// and here an appropriate client:
$ socat \
	-,raw,echo=0 \
	TCP:172.16.181.130:2023
// Use ssl with client and server certificate for improved security;
// replace /bin/login by /bin/bash when using SSL client authentication, can be
// run without root then

// This is a cool trick, proposed by Christophe Lohr, to dump communications to
// two files; it would also work for other manipulations (recode, compress...)
// and it might also work with netcat ;-)
$ socat \
	TCP-LISTEN:5555 \
	SYSTEM:'tee l2r | socat - "TCP:remote:5555" | tee r2l' 

///////////////////////////////////////////////////////////////////////////////
// Emergence solution because usleep(1) is not always available
// this will "sleep" for 0.1s
$ socat -T 0.1 PIPE PIPE

///////////////////////////////////////////////////////////////////////////////
// A very primitive HTTP/1.0 echo server (problems: sends reply headers before
// request; hangs if client does not shutdown - HTTP keep-alive) 
// wait for a connection on port 8000; do not wait for request, but immediately
// start a shell that sends reply headers and an empty line; then echo all
// incoming data back to client
$ socat \
	TCP-LISTEN:8000,crlf \
	SYSTEM:"echo HTTP/1.0 200; echo Content-Type\: text/plain; echo; cat"

// A less primitive HTTP echo server that sends back not only the reqest but
// also server and client address and port. Might have portability issues with
// echo
$ socat -T 1 -d -d \
	TCP-L:10081,reuseaddr,fork,crlf \
	SYSTEM:"echo -e \"\\\"HTTP/1.0 200 OK\\\nDocumentType: text/html\\\n\\\n<html>date: \$\(date\)<br>server:\$SOCAT_SOCKADDR:\$SOCAT_SOCKPORT<br>client: \$SOCAT_PEERADDR:\$SOCAT_PEERPORT\\\n<pre>\\\"\"; cat; echo -e \"\\\"\\\n</pre></html>\\\"\""

///////////////////////////////////////////////////////////////////////////////
// For communicating with an attached modem, I had reasonable results with
// following command line. Required privileges depend on device mode.
// After leaving socat, type "sane".
// Replace /dev/ttyS0 by the correct serial line or with /dev/modem
$ socat \
	READLINE \
	/dev/ttyS0,raw,echo=0,crlf
// or
$ socat \
	READLINE \
	/dev/ttyS0,raw,echo=0,crlf,nonblock
// then enter "at$"

///////////////////////////////////////////////////////////////////////////////
// Relay TCP port 80 from everywhere (internet, intranet, dmz) through your
// firewall to your DMZ webserver (like plug-gw) 
// Listen on port 80; whenever a connection is made, fork a new process (parent
// Process keeps accepting connections), su to nobody, and connect to 
// www.dmz.mydomain.org on port 80.
// Attention: this is a substitute for a reverse proxy without providing
// application level security.
# socat \
	TCP-LISTEN:80,reuseaddr,fork,su=nobody \
	TCP:www.dmz.mydomain.org:80
// Note: parent process keeps running as root, su after forking

///////////////////////////////////////////////////////////////////////////////
// Relay mail from your DMZ server through your firewall.
// accept connections only on dmz interface and allow connections only from
// smtp.dmz.mydomain.org. 
// the advantages over plug-gw and other relays are:
// * you can bind to an IP address (even an alias), therefore enhance security
// * in your OS you can create several IP aliases and bind another socat daemon
//   to each, making several application servers addressable
// * lots of options, like switching user, chroot, IP performance tuning
// * no need for inetd
# socat -lm -d -d \
	TCP-LISTEN:25,bind=fw.dmz.mydomain.org,fork,su=nobody,range=smtp.dmz.mydomain.org/32 \
	TCP:smtp.intra.mydomain.org:25

///////////////////////////////////////////////////////////////////////////////
// Convert line terminator in ascii streams, stdin to stdout
// use unidirectional mode, convert nl to crnl
$ socat -u - -,crlf
// or cr to nl
$ socat -u -,cr -

// Save piped data similar to 'tee':
// copies stdin to stdout, but writes everything to the file too
$ socat \
	-,echo=0 \
	OPEN:/tmp/myfile,create,trunc,ignoreeof!!/tmp/myfile

///////////////////////////////////////////////////////////////////////////////
// Intrusion testing

// Found an XWindow Server behind IP filters with FTP data hole? (you are
// lucky!) 
// prepare your host:
# rm -f /tmp/.X11-unix/X1
// relay a pseudo display :1 on your machine to victim:0
# socat \
	UNIX-LISTEN:/tmp/.X11-unix/X1,fork \
	TCP:host.victim.org:6000,sp=20 &
// and try to take a screendump (must be very lucky - when server has not even
// host based authentication!)
# xwd -root -display :1 -silent >victim.xwd

// You sit behind a socks firewall that has IP filters but lazily allows socks
// connections to loopback and has only host based X11 security.
// like above, but from your inside client:
# socat \
	UNIX-LISTEN:/tmp/.X11-unix/X1,fork \
	SOCKS4:firewall:loopback:6000
// or for the HTTP proxy:
# socat \
	UNIX-LISTEN:/tmp/.X11-unix/X1,fork \
	PROXY:firewall:loopback:6000

///////////////////////////////////////////////////////////////////////////////
// forms of stdin with stdout, all equivalent
$ socat PIPE -
$ socat PIPE STDIO
$ socat PIPE STDIN!!STDOUT
$ socat PIPE STDIO!!STDIO
$ socat PIPE -!!-
$ socat PIPE FD:0!!FD:1
$ socat PIPE 0!!1
$ socat PIPE /dev/stdin!!/dev/stdout	// when your OS provides these

///////////////////////////////////////////////////////////////////////////////
// some echo address examples
$ socat - PIPE
$ socat - PIPE:/tmp/pipi		// other version of echo
$ socat - PIPE:/tmp/pipi,nonblock!!/tmp/pipi	// other version of echo
$ socat - EXEC:/bin/cat		// another echo
$ socat - SYSTEM:/bin/cat		// another echo
$ socat - TCP:loopback:7	// if inetd echo/TCP service activated
$ socat - UDP:loopback:7	// if inetd echo/UDP service activated
$ socat - /tmp/hugo,trunc,ignoreeof!!/tmp/hugo	// with delay
$ socat - UDP:loopback:2000,bind=:2000	// self "connection"
$ socat - TCP:loopback:2000,bind=:2000	// Linux bug?
# socat - IP:loopback:222	// raw protocol, self "connected" (attention,
// Linux might drop packets with less than 8 bytes payload)

///////////////////////////////////////////////////////////////////////////////
// unidirectional data transfer
$ socat -u - -
// like "tail -f", but start with showing all file contents:
$ socat -u FILE:/var/log/syslog.debug,ignoreeof -	
// like "tail -f", but do not show existing file contents:
$ socat -u FILE:/var/log/syslog.debug,ignoreeof,seek-end -
// write to new file, create with given permission and group (must be member) - race condition with group!!!
$ socat -u - CREATE:/tmp/outfile1,group=floppy,perm=0640
//
// for an existing file /tmp/outfile1
# socat -u - FILE:/tmp/outfile1,group=floppy,perm=0700,user=4321


///////////////////////////////////////////////////////////////////////////////
// File handling
$ socat - FILE:/tmp/outfile1,ignoreeof!!FILE:/tmp/outfile1,append	// prints outfile1, then echoes input and protocols into file (appends to old data)

///////////////////////////////////////////////////////////////////////////////
// UNIX socket handling

// Create a listening unix socket
$ rm -f /tmp/mysocket; socat UNIX-LISTEN:/tmp/mysocket -
// From another terminal, connect to this socket
$ socat UNIX:/tmp/mysocket -
// then transfer data bidirectionally


///////////////////////////////////////////////////////////////////////////////
// Transport examples

// Socks relay (externally socksify applications);
// your ssh client and OS are not socksified, but you want to pass a socks
// server with ssh:
$ socat \
	TCP-LISTEN:10022,fork \
	SOCKS4:socks.mydomain.org:ssh-serv:22
$ ssh -p 10022 loopback 
// or better define a ProxyCommand in ~/.ssh/config:
ProxyCommand socat - SOCKS:socks.mydomain.org:%h:%p
// and with proxy:
ProxyCommand socat - PROXY:proxy.mydomain.org:%h:%p,proxyport=8000

///////////////////////////////////////////////////////////////////////////////
// Application examples

// run sendmail daemon with your favorite network options
# socat \
	TCP-LISTEN:25,fork,ip-ttl=4,ip-tos=7,tcp-maxseg=576 \
	EXEC:"/usr/sbin/sendmail -bs",nofork

// Local mail delivery over UNIX socket - no SUID program required
# socat \
	UNIX-LISTEN:/tmp/postoffice,fork,perm-early=0666 \
	EXEC:"/usr/sbin/sendmail -bs"
$ socat - /tmp/postoffice

///////////////////////////////////////////////////////////////////////////////
// Uses of filan
// See what your operating system opens for you
$ filan
// or if that was too detailled
$ filan -s
// See what file descriptors are passed via exec function
$ socat - EXEC:"filan -s",nofork
$ socat - EXEC:"filan -s"
$ socat - EXEC:"filan -s",pipes,stderr
$ socat - EXEC:"filan -s",pipes
$ socat - EXEC:"filan -s",pty
// see what's done by your shell and with option "pipes"
$ socat - SYSTEM:"filan -s",pipes
// see if gdb gives you an equivalent environment or opens some files for your program
$ gdb ./filan
(gdb) r -s
(gdb) r

///////////////////////////////////////////////////////////////////////////////
// Want to use chat from the ppp package?
// Note: some OS's do not need "-e" for echo to print control characters
// Note: chat might send bytes one by one
// With AIX, a similar program is available under the name "pppdial"
$ socat -d -d \
	TCP:localhost:25,crlf,nodelay \
	EXEC:'/usr/sbin/chat -v -s "\"220 \"" "\"HELO loopback\"" "\"250 \"" "\"MAIL FROM: <hugo@localhost>\"" "\"250 \"" "\"RCPT TO: root\"" "\"250 \"" "\"DATA\"" "\"354 \"" "\"test1'$(echo -e "\r.")'\"" "\"250 \"" "\"QUIT\"" "\"221 \""',pty,echo=0,cr

//////////////////////////////////////////////////////////////////////////////
// IP6

# socat \
	READLINE \
	TCP6:[::1]:21	# if your inetd/ftp is listening on ip6

//////////////////////////////////////////////////////////////////////////////
// VSOCK
# Start a linux VM with cid=21
#    qemu-system-x86_64 -m 1G -smp 2 -cpu host -M accel=kvm \
#     -drive if=virtio,file=/path/to/fedora.img,format=qcow2  \
#     -device vhost-vsock-pci,guest-cid=21

# guest listens on port 1234 and host connects to it
guest$ socat - VSOCK-LISTEN:1234
host$ socat - VSOCK-CONNECT:21:1234

# Host (well know CID_HOST = 2) listens on port 4321 and guest connects to it
host$ socat - VSOCK-LISTEN:4321
guest$ socat - VSOCK-CONNECT:2:4321

///////////////////////////////////////////////////////////////////////////////
// Application server solutions
// Run a program (here: /bin/sh) chrooted, unprivileged; 
// parent process stays in real / running as root
# socat -d -d - EXEC:/bin/sh,chroot=/home/sandbox,su=sandbox,pty

// Make a program available on the network chrooted, unprivileged; 
// parent process stays in / running as root
// script path is already chrooted
# ./socat -lm -d -d \
	TCP-LISTEN:5555,fork \
	EXEC:/bin/myscript,chroot=/home/sandbox,su=sandbox,pty,stderr
// To avoid terminal problems, you might - instead of telnet - connect using
$ socat \
	-,icanon=0,echo=0 \
	TCP:target:5555; reset


// Access local display from ssh server, when ssh port forwarding is disabled
// Socat must be installed on ssh server host
// Might have to use xauth...
// This example is one-shot because ssh can handle only one channel
xterm1$ socat -d -d \
	EXEC:"ssh www.dest-unreach.org rm -f /tmp/.X11-unix/X9; ~/bin/socat -d -d unix-l\:/tmp/.X11-unix/X9\,fork -" \
	UNIX:/tmp/.X11-unix/X0
xterm2$ ssh target
target$ DISPLAY=:9 myxapplication

// Touch with perms:
// no race condition for perms (applied with creat() call)
$ socat -u \
	/dev/null \
	CREAT:/tmp/tempfile,perm=0600

// Touch with owner and perms:
// race condition before changing owner, but who cares - only root may access
# socat -u \
	/dev/null \
	CREAT:/tmp/tempfile,user=user1,perm=0600

// Invoke an interactive ssh with EXEC
// First example passes control chars (^C etc.) to remote server as usual
socat \
	-,echo=0,raw \
	EXEC:'ssh server',pty,setsid,ctty
// Second example interprets control chars on local command line
socat \
	-,echo=0,icanon=0 \
	EXEC:'ssh server',pty,setsid,ctty
// afterwards, type "reset"!

// Convince ssh to provide an "interactive" shell to your script
// three main versions for entering password:
// 1) from your TTY; have 10 seconds to enter password:
(sleep 10; echo "ls"; sleep 1) |socat - EXEC:'ssh server',pty
// 2) from XWindows (DISPLAY !); again 10 seconds
(sleep 10; echo "ls"; sleep 1) |socat - EXEC:'ssh server',pty,setsid
// 3) from script
(sleep 5; echo PASSWORD; echo ls; sleep 1) |./socat - EXEC:'ssh server',pty,setsid,ctty


// Download with proxy CONNECT
// use echo -e if required for \n
$ (echo -e "CONNECT 128.129.130.131:80 HTTP/1.0\n"; sleep 5; echo -e "GET /download/file HTTP/1.0\n"; sleep 10) |
socat -d -d -t 3600 - tcp:proxy:8080,crlf

// Retrieve a file from an sshd site with sourceforge style entry menu; 
// fill in your personal values; cat lets you enter your password (will be
// visible on screen)
$ (sleep 10; read pass; echo $pass; sleep 10; echo M; sleep 5; echo cat FILENAME; sleep 10) |
./socat -d -d -ly - EXEC:'ssh -c 3des -l USER cf.sourceforge.net',pty,setsid,ctty |
tee FILENAME

// Multicast community on local network: start the following command on all
// participating hosts; like a conference call:
# socat -d -d -d -d  - \
	UDP-DATAGRAM:224.0.0.2:6666,bind=:6666,ip-add-membership=224.0.0.2:eth0,bindtodevice=eth0
// or
$ socat -d -d -d -d  - \
	UDP-DATAGRAM:224.0.0.2:6666,bind=:6666,ip-add-membership=224.0.0.2:eth0
// Possible reasons for failure:
// iptables or other filters (open your filters as required)
// Packets leave via wrong interface (set route: ...)
// Socket bound to specific address

//=============================================================================
// GENERIC FUNCTION CALLS

// ioctl(): open CD drive (given value valid on Linux)
// on my Linux system I find in /usr/include/linux/cdrom.h the define:
// #define CDROMEJECT           0x5309 /* Ejects the cdrom media */
// The following command makes something like ioctl(fd, CDROMEJECT, NULL)
// (don't care about the read error):
$ socat /dev/cdrom,o-nonblock,ioctl-void=0x5309 -

// setsockopt(): SO_REUSEADDR
// The following command performs - beyond lots of overhead - something like:
// myint=1; setsockopt(fd, SOL_SOCKET, SO_REUSEADDR, &myint, sizeof(myint))
$ socat -u UDP-RECV:7777,setsockopt-int=1:2:1 -
// setsockopt(): SO_BINDTODEVICE

// Ways to apply SO_BINDTODEVICE without using the special socat address option
// so-bindtodevice:
// with string argument:
$ sudo socat TCP-L:7777,setsockopt-string=1:25:eth0 PIPE
// with binary argument:
$ sudo socat TCP-L:7777,setsockopt-bin=1:25:x6574683000 PIPE

===============================================================================

// Not tested, just ideas, or have problems


// Traverse firewall for making internal telnet server accessible for outside
// telnet client, when only outbound traffic (syn-filter) is allowed:
//   on external client run "double server". this process waits for a
// connection from localhost on port 10023, and, when it is established, waits
// for a connection from anywhere to port 20023:
ext$ socat -d \
	TCP-LISTEN:10023,range=localhost \
	TCP-LISTEN:20023
//   on internal server run double client:
int$ socat -d \
	TCP:localhost:23 \
	TCP:extclient:10023
//   or, with socks firewall:
int$ socat -d \
	TCP:localhost:23 \
	SOCKS:socksserver:extclient:10023
//   login with:
ext$ telnet localhost 20023

// YOU can make a double server capable of handling multiple instances:
ext$ socat -d \
	TCP-LISTEN:10023,range=localhost,fork \
	TCP-LISTEN:20023,reuseaddr

// Access remote display via ssh, when ssh port forwarding is disabled
$ socat -d -d \
	EXEC:"ssh target socat - UNIX:/tmp/.X11-unix/X0" \
	TCP-LISTEN:6030
$ xclock -display localhost:30

// Relay multiple webserver addresses through your firewall into your DMZ:
// Make IP aliases on your firewall, and then:
# socat -d -d \
	TCP-L:80,bind=fw-addr1,fork \
	TCP:dmz-www1:80
# socat -d -d \
	TCP-L:80,bind=fw-addr2,fork \
	TCP:dmz-www2:80
// and for improved security:
# socat -d -d \
	TCP-L:80,bind=fw-addr3,su=nobody,fork \
	TCP:dmz-www3:80

// Proxy an arbitrary IP protocol over your firewall (answers won't work)
# socat -d -d \
	IP:0.0.0.0:150,bind=fwnonsec \
	IP:sec-host:150,bind=fwsec

// Proxy an unsupported IP protocol over your firewall, point to point
// end points see firewall interfaces as IP peers!
# socat -d -d \
	IP:nonsec-host:150,bind=fwnonsec \
	IP:sec-host:150,bind=fwsec
// note that, for IPsec, you might face problems that are known with NAT