mirror of
https://repo.or.cz/socat.git
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266 lines
8 KiB
Bash
Executable file
266 lines
8 KiB
Bash
Executable file
#! /usr/bin/env bash
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# Copyright Gerhard Rieger and contributors (see file CHANGES)
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# Published under the GNU General Public License V.2, see file COPYING
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# Shell script to build a chain of Socat instances connected via TCP sockets.
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# This allows to drive, e.g., PROXY-CONNECT over SSL, or SSL over serial.
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# Currently only a chain made from 3 addresses, resulting in two instances, is
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# implemented.
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# The 2nd address must be one of OPENSSL (SSL), PROXY-CONNECT (PROXY),
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# SOCKS4, SOCKS4A, SOCKS5
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# This is beta!
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# Examples:
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# Drive HTTP CONNECT (PROXY) over SSL
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# (establish an SSL tunnel to a proxy server, request being forwarded to a
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# telnet server):
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# socat-chain.sh \
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# STDIO \
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# PROXY::<telnet-server>:23 \
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# OPENSSL:<proxy-server>:8443
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# Accept connections that arrive on port 7777, encrypt the data, and send it
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# via socks server to final target:
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# socat-chain.sh \
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# TCP-L:7777,reuseaddr,fork \
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# OPENSSL,verify=0 \
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# SOCKS4:<socks-server>:<ssl-server>:8443
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# Receive SSL coming from a serial lie
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# socat-chain.sh \
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# /dev/ttyS0,cfmakeraw \
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# SSL-L,cafile=server.pem,verify=0 \
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# TCP4:localhost:80
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# Formally, this is what happens:
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# socat-chain.sh addr1 addr2 addr3
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# results in something like:
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# socat TCP-L:RANDOM addr3 &
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# socat addr1 addr2:localhost:RANDOM
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# or on passive/listening addr2:
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# socat addr2:RANDOM addr3 &
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# socat addr1 TCP:localhost:RANDOM
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ECHO="echo -e"
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usage () {
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$ECHO "Usage: $0 <options> <address1> <address2> <address3>"
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$ECHO " <address1> is typically a passive (listening) address like"
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$ECHO " TCP-L:1234"
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$ECHO " <address2> must be one of OPENSSL, PROXY, SOCK4, SOCKS4A, or SOCKS5,"
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$ECHO " or SSL-L (passive/listening)"
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$ECHO " Given server hostname and port are ignored and replaced by internal"
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$ECHO " communication point"
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$ECHO " <address3> is typically a client address with protocol like OPENSSL"
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$ECHO " <options>:"
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$ECHO " -d* -S <sigmask> -t <timeout> -T <timeout> are passed to socat"
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$ECHO " -V Shows executed Socat commands and some infos"
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$ECHO "Example to drive SOCKS over TLS:"
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$ECHO " $0 \\"
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$ECHO " TCP4-L:1234,reuseaddr,fork \\"
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$ECHO " SOCKS::<server>:<port> \\"
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$ECHO " OPENSSL:10.2.3.4:12345,cafile=..."
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$ECHO " Clients that connect to port 1234 will be forwarded to <server>:<port> using socks"
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$ECHO " over TLS"
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}
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LOCALHOST=127.0.0.1
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VERBOSE= QUIET= OPTS=
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while [ "$1" ]; do
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case "X$1" in
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X-h) usage; exit ;;
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X-V) VERBOSE=1 ;;
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X-q) QUIET=1; OPTS="-d0" ;;
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X-d*|X-l?*) OPTS="$OPTS $1" ;;
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X-b|X-S|X-t|X-T|X-l) OPT=$1; shift; OPTS="$OPTS $OPT $1" ;;
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X-) break ;;
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X-*) echo "$0: Unknown option \"$1\"" >&2
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usage >&2
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exit 1 ;;
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*) break ;;
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esac
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shift
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done
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ARG0="$1"
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ARG1="$2"
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ARG2="$3"
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if [ -z "$ARG0" -o -z "$ARG1" -o -z "$ARG2" ]; then
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echo "$0: Three addresses required" >&2
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usage >&2
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exit 1
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fi
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mkprogname () {
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ARG="$1"
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if [[ "$ARG" =~ .*[:].* ]]; then
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NAME="${ARG%%:*}"
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elif [[ "$ARG" =~ .*[,].* ]]; then
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NAME="${ARG%%,*}"
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elif [ "X$ARG" = X- ]; then
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NAME=stdio
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else
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NAME="$ARG"
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fi
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NAME="${NAME,,*}"
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echo $NAME
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}
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# You may place a fork option in the first address
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# in which case the following internal listeners do fork too
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FORK=
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case "$ARG0" in
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*,fork,*|*,fork) FORK=fork ;;
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esac
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# Split middle address for insertion of additional parts
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if [[ "$ARG1" =~ .*,.* ]]; then
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ARG1A="${ARG1%%,*}"
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ARG1B="${ARG1#*,}"
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else
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ARG1A="$ARG1"
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ARG1B=
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fi
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case "$0" in
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*/*) if [ -x ${0%/*}/socat ]; then SOCAT=${0%/*}/socat; fi ;;
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esac
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if [ -z "$SOCAT" ]; then SOCAT=socat; fi
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[ "$VERBOSE" ] && echo "# $0: Using executable $SOCAT" >&2
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# We need a free TCP port (on loopback)
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PORT=$($SOCAT -d -d TCP4-L:0,accept-timeout=0.000001 /dev/null 2>&1 |grep listening |sed 's/.*:\([1-9][0-9]*\)$/\1/')
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if [ -z "$PORT" ]; then
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echo "$0: Failed to determine free TCP port" >&2
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exit 1
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fi
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PASSIVE= # is the second address passive/listening/server?
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case "${ARG1A^^*}" in
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OPENSSL|OPENSSL:*|SSL|SSL:.*)
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OPTS1A=
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#if [[ $ARG1A =~ ^\([^:]*\):\([^:]*\):\([^,]*\)\(.*\) ]]; then # bash 3
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if [[ $ARG1A =~ ^([^:]*):([^:]*):([^,]*)(.*) ]]; then
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OPTS1A="${BASH_REMATCH[4]}"
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#elif [[ $ARG1A =~ ^\([^,]*\)\(.*\) ]]; then # bash 3
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elif [[ $ARG1A =~ ^([^,]*)(.*) ]]; then
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OPTS1A="${BASH_REMATCH[2]}"
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else
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echo "$0: \"$ARG1A\": invalid arguments" >&2
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exit 1
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fi
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PROG1="${BASH_REMATCH[1]}"
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NAME1=$(mkprogname "${BASH_REMATCH[1]}")
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NAME2=$(mkprogname "$ARG2")
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ARG1A=$PROG1:$LOCALHOST:$PORT$OPTS1A ;;
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PROXY-CONNECT:*|PROXY:*)
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#if ! [[ $ARG1A =~ ^\([^:]*\):\([^:]*\):\([^:]*\):\([^,]*\)\(.*\) ]]; then # bash 3
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if ! [[ $ARG1A =~ ^([^:]*):([^:]*):([^:]*):([^,]*)(.*) ]]; then
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echo "$0: \"$ARG1A\": invalid arguments" >&2
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exit 1
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fi
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#echo "0:\"${BASH_REMATCH[0]}\" 1:\"${BASH_REMATCH[1]}\" 2:\"${BASH_REMATCH[2]}\" 3:\"${BASH_REMATCH[3]}\" 4:\"${BASH_REMATCH[4]}\""
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PROG1="${BASH_REMATCH[1]}"
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NAME1=$(mkprogname "${PROG1,,*}")
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NAME2=$(mkprogname "$ARG2")
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OPTS1A="${BASH_REMATCH[5]}"
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ARG1A="$PROG1:$LOCALHOST:${BASH_REMATCH[3]}:${BASH_REMATCH[4]},proxyport=$PORT,$OPTS1A" ;;
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SOCKS:*|SOCKS4:*|SOCKS4A*)
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#if ! [[ $ARG1A =~ ^\([^:]*\):\([^:]*\):\([^:]*\):\([^:,]*\),* ]]; then # bash 3
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if ! [[ $ARG1A =~ ^([^:]*):([^:]*):([^:]*):([^:,]*),* ]]; then
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echo "$0: \"$ARG1A\": invalid arguments" >&2
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exit 1
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fi
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PROG1="${BASH_REMATCH[1]}"
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NAME1=$(mkprogname "${PROG1,,*}")
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NAME2=$(mkprogname "$ARG2")
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OPTS1A="${BASH_REMATCH[5]}"
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ARG1A="$PROG1:$LOCALHOST:${BASH_REMATCH[3]}:${BASH_REMATCH[4]},socksport=$PORT,$OPTS1A" ;;
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SOCKS5:*|SOCKS5-CONNECT*)
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#if ! [[ $ARG1A =~ ^\([^:]*\):\([^:]*\):\([^:]*\):\([^:,]*\):\([^:,]*\),* ]]; then # bash 3
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if ! [[ $ARG1A =~ ^([^:]*):([^:]*):([^:]*):([^:,]*):([^:,]*),* ]]; then
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echo "$0: \"$ARG1A\": invalid arguments" >&2
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exit 1
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fi
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PROG1="${BASH_REMATCH[1]}"
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NAME1=$(mkprogname "${PROG1,,*}")
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NAME2=$(mkprogname "$ARG2")
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OPTS1A="${BASH_REMATCH[6]}"
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ARG1A="$PROG1:$LOCALHOST:$PORT:${BASH_REMATCH[4]}:${BASH_REMATCH[5]},$OPTS1A" ;;
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# Passive (server) addresses
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OPENSSL-LISTEN|OPENSSL-LISTEN:*|SSL-L|SSL-L:.*)
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PASSIVE=1
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OPTS1A=
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#if [[ $ARG1A =~ ^\([^:]*\):\([^,]*\)\(.*\) ]]; then # bash 3
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if [[ $ARG1A =~ ^([^:]*):([^,]*)(.*) ]]; then
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OPTS1A="${BASH_REMATCH[3]}"
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#elif [[ $ARG1A =~ ^\([^,]*\)\(.*\) ]]; then # bash 3
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elif [[ $ARG1A =~ ^([^,]*)(.*) ]]; then
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OPTS1A="${BASH_REMATCH[2]}"
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else
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echo "$0: \"$ARG1A\": invalid arguments" >&2
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exit 1
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fi
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PROG1="${BASH_REMATCH[1]}"
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NAME1=$(mkprogname "$ARG0")
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NAME2=$(mkprogname "${BASH_REMATCH[1]}")
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ARG1A=$PROG1:$PORT$OPTS1A ;;
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*) echo "$0: Unsupported address \"$ARG1A\"" >&2
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usage >&2
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exit 1 ;;
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esac
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ADDR1A="$ARG0"
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if [ -z "$PASSIVE" ]; then
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ADDR1B="$ARG1A,bind=$LOCALHOST,$ARG1B"
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ADDR2A="TCP4-L:$PORT,reuseaddr,$FORK,bind=$LOCALHOST,range=$LOCALHOST/32"
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else
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ADDR1B="TCP4:$LOCALHOST:$PORT,bind=$LOCALHOST"
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ADDR2A="$ARG1A,reuseaddr,$FORK,bind=$LOCALHOST,range=$LOCALHOST/32,$ARG1B"
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fi
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ADDR2B="$ARG2"
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pid1= pid2=
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trap '[ "$pid1" ] && kill $pid1 2>/dev/null; [ "$pid2" ] && kill $pid2 2>/dev/null' EXIT
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set -bm
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trap 'rc=$?; if ! kill -n 0 $pid2 2>/dev/null; then [ -z "$QUIET" -a $rc -ne 0 ] && echo "$0: socat-$NAME2 exited with rc=$rc" >&2; exit $rc; fi' SIGCHLD
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# Start instance 2 first, because instance 1 ("left") connects to 2
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if [ "$VERBOSE" ]; then
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$ECHO "$SOCAT $OPTS -lp socat-$NAME2 \\
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\"$ADDR2A\" \\
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\"$ADDR2B\" &"
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fi
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$SOCAT $OPTS -lp socat-$NAME2 \
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"$ADDR2A" \
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"$ADDR2B" &
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pid2=$!
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sleep 0.1
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#trap 'if ! kill -n 0 $pid1 2>/dev/null; then [ -z "$QUIET" ] && echo "$0: socat-$NAME1 exited with rc=$?" >&2; kill $pid2 2>/dev/null; exit 1; elif ! kill -n 0 $pid2 2>/dev/null; then [ -z "$QUIET" ] && echo "$0: socat-$NAME2 exited with rc=$?" >&2; kill $pid1 2>/dev/null; exit 1; fi' SIGCHLD
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if [ "$VERBOSE" ]; then
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$ECHO "$SOCAT $OPTS -lp socat-$NAME1 \\
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\"$ADDR1A\" \\
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\"$ADDR1B\""
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fi
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$SOCAT $OPTS -lp socat-$NAME1 \
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"$ADDR1A" \
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"$ADDR1B"
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#pid1=$!
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rc1=$?
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kill $pid2 2>/dev/null
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wait 2>/dev/null
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#wait -f
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exit $rc1
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