大体的说下,Linux下目前比较流行的加密方法有两种:
第一种方法:
采用gzexe加密,严格来讲,gzexe这种脚本加密方式不是加密,而是把代码进行了压缩,但是这种方式能够满足一般的加密用途,可以隐蔽脚本中的密码等信息。它是使用Liunx系统环境下自带的gzexe程序,它不但加密,同时压缩文件。
gzexe加密linux脚本的使用方法:
gzexe file.sh /它会把原来的文件备份为 file.sh~ ,同时 file.sh 即被变成加密后的可执行文件
使用gzexe加密的shell脚本代码特征为:前面一段代码是正常的命令字符,到了后面某一行开始就全部为乱码,示例如下
示例代码
skip=44
tab=' '
nl='
'
IFS=" $tab$nl"
umask=umask
umask 77
gztmpdir=
trap 'res=$?
test -n "$gztmpdir" && rm -fr "$gztmpdir"
(exit $res); exit $res
' 0 1 2 3 5 10 13 15
if type mktemp >/dev/null 2>&1; then
gztmpdir=mktemp -dt
else
gztmpdir=/tmp/gztmp$$; mkdir $gztmpdir
fi || { (exit 127); exit 127; }
gztmp=$gztmpdir/$0
case $0 in
-* | */*'
') mkdir -p "$gztmp" && rm -r "$gztmp";;
*/*) gztmp=$gztmpdir/basename "$0";;
esac || { (exit 127); exit 127; }
case echo X | tail -n +1 2>/dev/null in
X) tail_n=-n;;
*) tail_n=;;
esac
if tail $tail_n +$skip <"$0" | gzip -cd > "$gztmp"; then
umask $umask
chmod 700 "$gztmp"
(sleep 5; rm -fr "$gztmpdir") 2>/dev/null &
"$gztmp" ${1+"$@"}; res=$?
else
echo >&2 "Cannot decompress $0"
(exit 127); res=127
fi; exit $res
??Wopenvpn ?ks /此处开始乱码
gzexe加密shell解密思路:跟踪代码的执行过程可以发现,脚本执行到某一步的时候会生成临时解密的shell脚本
,整个脚本执行完之后再把临时解密shell脚本所在目录删除。有了这个发现,我们就找到了方法了。
示例代码
cd /tmp /切换到/tmp目录
gunzip 1.gz /解压解密后的文件,就可以得出解密后的代码了
第二种方法:
使用Linux下脚本加密工具SHC对shell脚本进行加密,SHC可以将shell脚本转换为一个可执行的二进制文件。经过shc对shell脚本进行加密后,会同时生成两个新的文件,一个是加密后的可执行的二进制文件(name.sh.x),另一个是C语言的原文件(name.sh.x.c)。shc加密工具的详细安装和使用教程我这里就不讲了,有兴趣的朋友自己搜一下有很多,使用也比较简单。在这里博主主要给大家分享一个SHC加密工具破解的方法,此破解工具来源于国外的大牛,详细的代码在下面,复制下面的脚本后另存为unshc.sh,然后执行脚本即可,会有提示告诉你怎么解密。
unshc.sh一键解密脚本
示例代码
###################
# Author: Luiz Otavio Duarte a.k.a. (LOD)
# 11/03/08 - v.0.1
# Updated: Yann CAM v0.2 - yann.cam@gmail.com | www.asafety.fr
# 06/27/13 - v.0.2
# -- Adding new objdump format (2.22) to retrieve data (especially on Ubuntu distribution)
# -- Patch few regex with sorted address list
# Updated: Yann CAM v0.3 - yann.cam@gmail.com | www.asafety.fr
# 18/11/15 - v.0.3
# -- Adapt script for new architecture
# -- Clean and optimize functions
# -- Add an (unsigned long) cast in shc C source code
# Updated: Yann CAM v0.3 - yann.cam@gmail.com | www.asafety.fr
# 14/12/15 - v.0.4
# -- Comment specific return statement in C source
# Updated: Yann CAM v0.5 - yann.cam@gmail.com | www.asafety.fr
# 15/12/15 - v.0.5
# -- Patch extract arc4 function to keep the latest offset only
# Updated: Yann CAM v0.5 - yann.cam@gmail.com | www.asafety.fr
# 16/12/15 - v.0.6
# -- Add bash script options (getopts)
###################
# Tested on :
# Ubuntu 14.04.3 LTS x86_64
# Linux server 3.13.0-61-generic #100-Ubuntu SMP Wed Jul 29 11:21:34 UTC 2015 x86_64 x86_64 x86_64 GNU/Linux
# Linux version 3.13.0-61-generic (buildd@lgw01-50) (gcc version 4.8.2 (Ubuntu 4.8.2-19ubuntu1) ) #100-Ubuntu SMP Wed Jul 29 11:21:34 UTC 2015
#
# CentOS release 6.6 (Final) x86_64
# Linux server 2.6.32-504.23.4.el6.x86_64 #1 SMP Tue Jun 9 20:57:37 UTC 2015 x86_64 x86_64 x86_64 GNU/Linux
# Linux version 2.6.32-504.23.4.el6.x86_64 (mockbuild@c6b9.bsys.dev.centos.org) (gcc version 4.4.7 20120313 (Red Hat 4.4.7-11) (GCC) ) #1 SMP Tue Jun 9 20:57:37 UTC 2015
#
# Debian 7.8 i686
# Linux server 3.2.0-4-686-pae #1 SMP Debian 3.2.68-1+deb7u2 i686 GNU/Linux
# Linux version 3.2.0-4-686-pae (debian-kernel@lists.debian.org) (gcc version 4.6.3 (Debian 4.6.3-14) ) #1 SMP Debian 3.2.68-1+deb7u2
###################
VERSION="0.5"
OBJDUMP=which objdump
GREP=which grep
CUT=which cut
SHRED=which shred
UNIQ=which uniq
SORT=which sort
GCC=which gcc
WC=which wc
AWK=which awk
SED=which sed
TR=which tr
HEAD=which head
BINARY=""
TMPBINARY=$(mktemp /tmp/XXXXXX)
DUMPFILE=""
STRINGFILE=""
CALLFILE=$(mktemp /tmp/XXXXXX)
CALLADDRFILE=$(mktemp /tmp/XXXXXX)
CALLSIZEFILE=$(mktemp /tmp/XXXXXX)
declare -A LISTOFCALL
# Variable to know the index of variables.
# This var is to loop on each 14 arc4() call with ordered args.
j=0
# Simple usage help / man
function usage(){
printf "[*] Usage : $0 [OPTIONS] \n"
printf "\t -h | --help : print this help message\n"
printf "\t -a OFFSET | --arc4 OFFSET : specify the arc4() offset arbitrarily (without 0x prefix)\n"
printf "\t -d DUMPFILE | --dumpfile DUMPFILE : provide an object dump file (objdump -D script.sh.x > DUMPFILE)\n"
printf "\t -s STRFILE | --stringfile STRFILE : provide a string dump file (objdump -s script.sh.x > STRFILE)\n"
printf "\t -o OUTFILE | --outputfile OUTFILE : indicate the output file name\n\n"
printf "[*] e.g : \n"
printf "\t$0 script.sh.x\n"
printf "\t$0 script.sh.x -o script_decrypted.sh\n"
printf "\t$0 script.sh.x -a 400f9b\n"
printf "\t$0 script.sh.x -d /tmp/dumpfile -s /tmp/strfile\n"
printf "\t$0 script.sh.x -a 400f9b -d /tmp/dumpfile -s /tmp/strfile -o script_decrypted.sh\n"
}
# Clean all temp file created for this script
function clean(){
$SHRED -zu -n 1 $DUMPFILE $CALLFILE $CALLADDRFILE $CALLSIZEFILE $STRINGFILE $TMPBINARY ${TMPBINARY}.c >/dev/null 2>&1
}
# Clean error exit function after cleaning temp file
function exit_error(){
clean
exit 1;
}
# Check the availability of basic commands usefull for this script
function check_binaries() {
if [ ! -x ${OBJDUMP} ]; then
echo "[-] Error, cannot execute or find objdump binary"
exit_error
fi
if [ ! -x ${GREP} ]; then
echo "[-] Error, cannot execute or find grep binary"
exit_error
fi
if [ ! -x ${CUT} ]; then
echo "[-] Error, cannot execute or find cut binary"
exit_error
fi
if [ ! -x ${SHRED} ]; then
echo "[-] Error, cannot execute or find shred binary"
exit_error
fi
if [ ! -x ${UNIQ} ]; then
echo "[-] Error, cannot execute or find uniq binary"
exit_error
fi
if [ ! -x ${SORT} ]; then
echo "[-] Error, cannot execute or find sort binary"
exit_error
fi
if [ ! -x ${GCC} ]; then
echo "[-] Error, cannot execute or find gcc binary"
exit_error
fi
if [ ! -x ${WC} ]; then
echo "[-] Error, cannot execute or find wc binary"
exit_error
fi
}
# Create dump files of encrypted script
function generate_dump() {
# DUMPFILE dump to retrive arc4 address, address and size of each arc4 arguments and pwd
$OBJDUMP -D $BINARY > "$DUMPFILE"
# STRINGFILE dump to retrieve pwd and arc4 argument
$OBJDUMP -s $BINARY > "$STRINGFILE"
}
# Find out the most called function. This function is arc4() and there are 14 calls.
# Update 27/06/2013 : Regexps updated to match new objdump format and retrieve the $CALLADDR from his number of call (bug initial with "sort")
# Update 16/11/2015 : Adding new architecture support
function extract_arc4_call_addr(){
CALLADDR=$($GREP -Eo "call.*[0-9a-f]{6,}" $DUMPFILE | $GREP -Eo "[0-9a-f]{6,}" | $SORT | $UNIQ -c | $SORT | $GREP -Eo "(14).*[0-9a-f]{6,}" | $GREP -Eo "[0-9a-f]{6,}" | tail -n 1)
if [ -z "$CALLADDR" ]; then
echo "[-] Unable to define arc4() call address..."
exit_error
fi
echo "[+] ARC4 address call defined : [0x$CALLADDR]"
}
# Extract each args values of arc4 calls
function extract_variables_from_binary(){
echo "[*] Extracting each args address and size for the 14 arc4() calls..."
# Initialize the number of line before CALLADDR to looking for addresses of args
i=2
# Retrieve ordered list of address var and put it to $CALLADDRFILE
while [[ $($WC -l < $CALLADDRFILE) -ne 14 ]]; do $GREP -B $i "call.*$CALLADDR" $DUMPFILE | $GREP -v "$CALLADDR" | $GREP -Eo "(0x[0-9a-f]{6,})" > $CALLADDRFILE
i=$(($i + 1))
if [ $i -eq 10 ]; then
echo "[-] Unable to extract addresses of 14 arc4 args..."
exit_error
fi
done
# Initialize the number of line before CALLADDR to looking for sizes of args
i=3
# Retrieve ordered list of size var and append it to $CALLSIZEFILE
while [[ $($WC -l < $CALLSIZEFILE) -ne 14 ]]; do $GREP -B $i "call.*$CALLADDR" $DUMPFILE | $GREP -v "$CALLADDR" | $GREP -Eo "(0x[0-9a-f]+,)" | $GREP -Eo "(0x[0-9a-f]+)" | $GREP -Ev "0x[0-9a-f]{6,}" > $CALLSIZEFILE
i=$(($i + 1))
if [ $i -eq 10 ]; then
echo "[-] Unable to extract sizes of 14 arc4 args..."
exit_error
fi
done
#cat $CALLADDRFILE
#cat $CALLSIZEFILE
# For each full address in $CALLADDRFILE and corresponding size in $CALLSIZEFILE
IFS=$'\n' read -d '' -r -a LISTOFADDR < $CALLADDRFILE
IFS=$'\n' read -d '' -r -a LISTOFSIZE < $CALLSIZEFILE
for (( x = 0; x < ${#LISTOFADDR[*]}; x = x+1 ))
do
i=${LISTOFADDR[$x]}
NBYTES=${LISTOFSIZE[$x]}
echo -e "\t[$x] Working with var address at offset [$i] ($NBYTES bytes)"
# Some diferences in assembly.
# We can have:
# mov ,%eax
# push 0x
# push %eax
# call $CALLADDR
#
# or
#
# push 0x
# push 0x
# call $CALLADDR
#
# UPDATE 27/06/2013 :
# Adding support of objdump format
# New format supported (Debian 7 x86) :
#
# movl $0x,0x4(%esp)
#
# movl $0x,(%esp)
# call $CALLADDR
#
# UPDATE 18/11/2015 :
# Adding support of objdump format
# Ubuntu 14.04 LTS x86_64
#
# mov $0x,%esi
# mov $0x,%edi
# callq $CALLADDR <fork@plt+0x23b>
#
# Key is the address with the variable content.
KEY=$(echo $i | $CUT -d 'x' -f 2)
# A 2 bytes variable (NBYTES > 0) can be found like this: (in STRINGFILE)
# ---------------X
# X---------------
#
# So we need 2 lines from STRINGFILE to make it all correct. So:
NLINES=$(( ($NBYTES / 16) +2 ))
# All line in STRINGFILE starts from 0 to f. So LASTBIT tells me the index in the line to start recording.
let LASTBYTE="0x${KEY:$((${#KEY}-1))}"
# Grep all lines needed from STRINGFILE, merge lines.
STRING=$( $GREP -A $(($NLINES-1)) -E "^ ${KEY:0:$((${#KEY}-1))}0 " $STRINGFILE | $AWK '{ print $2$3$4$5}' | $TR '\n' 'T' | $SED -e "s:T::g")
# Change string to begin in the line index.
STRING=${STRING:$((2*$LASTBYTE))}
# Cut the string to the number off bytes of the variable.
STRING=${STRING:0:$(($NBYTES * 2))}
# We need to convert to a \x??\x?? structure so:
FINALSTRING=""
for ((i = 0; i < $((${#STRING} /2 )); i++)); do FINALSTRING="${FINALSTRING}\x${STRING:$(($i * 2)):2}" done define_variable done } # arc4 function is called 14 times in the C code. # Each call is done with the same args sequence even if their declaration is randomized : # msg1, date, shll, inlo, xecc, lsto, tst1, chk1, msg2, rlax, opts, text, tst2 and chk2. function define_variable() { case "$j" in 0) VAR_MSG1=$FINALSTRING VAR_MSG1_Z=$NBYTES;; 1) VAR_DATE=$FINALSTRING VAR_DATE_Z=$NBYTES;; 2) VAR_SHLL=$FINALSTRING VAR_SHLL_Z=$NBYTES;; 3) VAR_INLO=$FINALSTRING VAR_INLO_Z=$NBYTES;; 4) VAR_XECC=$FINALSTRING VAR_XECC_Z=$NBYTES;; 5) VAR_LSTO=$FINALSTRING VAR_LSTO_Z=$NBYTES;; 6) VAR_TST1=$FINALSTRING VAR_TST1_Z=$NBYTES;; 7) VAR_CHK1=$FINALSTRING VAR_CHK1_Z=$NBYTES;; 8) VAR_MSG2=$FINALSTRING VAR_MSG2_Z=$NBYTES;; 9) VAR_RLAX=$FINALSTRING VAR_RLAX_Z=$NBYTES;; 10) VAR_OPTS=$FINALSTRING VAR_OPTS_Z=$NBYTES;; 11) VAR_TEXT=$FINALSTRING VAR_TEXT_Z=$NBYTES;; 12) VAR_TST2=$FINALSTRING VAR_TST2_Z=$NBYTES;; 13) VAR_CHK2=$FINALSTRING VAR_CHK2_Z=$NBYTES;; esac j=$(($j + 1)) } # The password is used in the key function right before first call to arc4. # So we need the previous call just before the first "call ARC4_CALLADDR" and its args. # Update 27/06/2013 : Add new objdump format # Update 18/11/2015 : Simplify extraction function extract_password_from_binary(){ echo "[*] Extracting password..." KEY_ADDR="" KEY_SIZE="" # Initialize the number of line before CALLADDR to watch i=5 while [[ ( -z "$KEY_ADDR" ) || ( -z "$KEY_SIZE" ) ]]; do $GREP -B $i -m 1 "call.*$CALLADDR" $DUMPFILE | $GREP -v $CALLADDR > $CALLFILE
#cat $CALLFILE
# Adjust these two next line to grep right addr & size value (depending on your architecture)
KEY_ADDR=$($GREP -B 3 -m 1 "call" $CALLFILE | $GREP mov | $GREP -oE "0x[0-9a-z]{6,}+" | $HEAD -n 1)
KEY_SIZE=$($GREP -B 3 -m 1 "call" $CALLFILE | $GREP mov | $GREP -v $KEY_ADDR | $GREP -oE "0x[0-9a-z]+" | $HEAD -n 1)
i=$(($i + 1))
if [ $i -eq 10 ]; then
echo "[-] Error, function call previous first call of arc4() hasn't been identified..."
exit_error
fi
done
echo -e "\t[+] PWD address found : [$KEY_ADDR]"
echo -e "\t[+] PWD size found : [$KEY_SIZE]"
# Defining the address without 0x.
KEY=$(echo $KEY_ADDR | $CUT -d 'x' -f 2)
# Like the other NLINES
NLINES=$(( ($KEY_SIZE / 16) +2 ))
# Like the other LASTBYTE
LASTBYTE="0x${KEY:$((${#KEY}-1))}"
# Extract PWD from STRINGFILE
STRING=$( $GREP -A $(($NLINES-1)) -E "^ ${KEY:0:$((${#KEY}-1))}0 " $STRINGFILE | $AWK '{ print $2$3$4$5}' | $TR '\n' 'T' | $SED -e "s:T::g")
STRING=${STRING:$((2*$LASTBYTE))}
STRING=${STRING:0:$(($KEY_SIZE * 2))}
# Encode / rewrite PWD in the \x??\x?? format
FINALSTRING=""
for ((i=0;i<$((${#STRING} /2 ));i++)); do FINALSTRING="${FINALSTRING}\x${STRING:$(($i * 2)):2}" done VAR_PSWD=$FINALSTRING } # This function append a generic engine for decrypt from shc project. With out own new variables extracted. # Rather than execute the source code decrypted, it's printed in stdout. function generic_file(){ cat > ${TMPBINARY}.c << EOF
#define msg1_z $VAR_MSG1_Z
#define date_z $VAR_DATE_Z
#define shll_z $VAR_SHLL_Z
#define inlo_z $VAR_INLO_Z
#define xecc_z $VAR_XECC_Z
#define lsto_z $VAR_LSTO_Z
#define tst1_z $VAR_TST1_Z
#define chk1_z $VAR_CHK1_Z
#define msg2_z $VAR_MSG2_Z
#define rlax_z $VAR_RLAX_Z
#define opts_z $VAR_OPTS_Z
#define text_z $VAR_TEXT_Z
#define tst2_z $VAR_TST2_Z
#define chk2_z $VAR_CHK2_Z
#define pswd_z $KEY_SIZE
static char msg1 [] = "$VAR_MSG1";
static char date [] = "$VAR_DATE";
static char shll [] = "$VAR_SHLL";
static char inlo [] = "$VAR_INLO";
static char xecc [] = "$VAR_XECC";
static char lsto [] = "$VAR_LSTO";
static char tst1 [] = "$VAR_TST1";
static char chk1 [] = "$VAR_CHK1";
static char msg2 [] = "$VAR_MSG2";
static char rlax [] = "$VAR_RLAX";
static char opts [] = "$VAR_OPTS";
static char text [] = "$VAR_TEXT";
static char tst2 [] = "$VAR_TST2";
static char chk2 [] = "$VAR_CHK2";
static char pswd [] = "$VAR_PSWD";
#define hide_z 4096
/* rtc.c */
#include <sys/stat.h>
#include <sys/types.h>
#include
#include
#include
#include
#include
#include
/* 'Alleged RC4' */
static unsigned char stte[256], indx, jndx, kndx;
/*
* Reset arc4 stte.
*/
void stte_0(void)
{
indx = jndx = kndx = 0;
do {
stte[indx] = indx;
} while (++indx);
}
/*
* Set key. Can be used more than once.
*/
void key(void * str, int len)
{
unsigned char tmp, * ptr = (unsigned char *)str;
while (len > 0) {
do {
tmp = stte[indx];
kndx += tmp;
kndx += ptr[(int)indx % len];
stte[indx] = stte[kndx];
stte[kndx] = tmp;
} while (++indx);
ptr += 256;
len -= 256;
}
}
/*
* Crypt data.
*/
void arc4(void * str, int len)
{
unsigned char tmp, * ptr = (unsigned char *)str;
while (len > 0) {
indx++;
tmp = stte[indx];
jndx += tmp;
stte[indx] = stte[jndx];
stte[jndx] = tmp;
tmp += stte[indx];
*ptr ^= stte[tmp];
ptr++;
len--;
}
}
/* End of ARC4 */
/*
* Key with file invariants.
*/
int key_with_file(char * file)
{
struct stat statf[1];
struct stat control[1];
if (stat(file, statf) < 0) return -1; /* Turn on stable fields */ memset(control, 0, sizeof(control)); control->st_ino = statf->st_ino;
control->st_dev = statf->st_dev;
control->st_rdev = statf->st_rdev;
control->st_uid = statf->st_uid;
control->st_gid = statf->st_gid;
control->st_size = statf->st_size;
control->st_mtime = statf->st_mtime;
control->st_ctime = statf->st_ctime;
key(control, sizeof(control));
return 0;
}
void rmarg(char ** argv, char * arg)
{
for (; argv && *argv && *argv != arg; argv++);
for (; argv && *argv; argv++)
*argv = argv[1];
}
// Update 18/11/2015 : Update "mask" casting from "unsigned" to "unsigned long".
int chkenv(int argc)
{
char buff[512];
unsigned mask, m;
int l, a, c;
char * string;
extern char ** environ;
mask = (unsigned long)chkenv;
mask ^= (unsigned)getpid() * ~mask;
sprintf(buff, "x%x", mask);
string = getenv(buff);
l = strlen(buff);
if (!string) {
/* 1st */
sprintf(&buff[l], "=%u %d", mask, argc);
putenv(strdup(buff));
return 0;
}
c = sscanf(string, "%u %d%c", &m, &a, buff);
if (c == 2 && m == mask) {
/* 3rd */
rmarg(environ, &string[-l - 1]);
return 1 + (argc - a);
}
return -1;
}
char * xsh(int argc, char ** argv)
{
char * scrpt;
int ret, i, j;
char ** varg;
stte_0();
key(pswd, pswd_z);
arc4(msg1, msg1_z);
arc4(date, date_z);
//if (date[0] && date[0]<time(NULL))
// return msg1;
arc4(shll, shll_z);
arc4(inlo, inlo_z);
arc4(xecc, xecc_z);
arc4(lsto, lsto_z);
arc4(tst1, tst1_z);
key(tst1, tst1_z);
arc4(chk1, chk1_z);
if ((chk1_z != tst1_z) || memcmp(tst1, chk1, tst1_z))
return tst1;
ret = chkenv(argc);
arc4(msg2, msg2_z);
if (ret < 0)
return msg2;
varg = (char **)calloc(argc + 10, sizeof(char *));
if (!varg)
return 0;
if (ret) {
arc4(rlax, rlax_z);
if (!rlax[0] && key_with_file(shll))
return shll;
arc4(opts, opts_z);
arc4(text, text_z);
printf("%s",text);
return 0;
/*arc4(tst2, tst2_z);
key(tst2, tst2_z);
arc4(chk2, chk2_z);
if ((chk2_z != tst2_z) || memcmp(tst2, chk2, tst2_z))
return tst2;
if (text_z < hide_z) { scrpt = malloc(hide_z); if (!scrpt) return 0; memset(scrpt, (int) ' ', hide_z); memcpy(&scrpt[hide_z - text_z], text, text_z); } else { scrpt = text; }*/ } else { if (*xecc) { scrpt = malloc(512); if (!scrpt) return 0; sprintf(scrpt, xecc, argv[0]); } else { scrpt = argv[0]; } } j = 0; varg[j++] = argv[0]; /* My own name at execution */ if (ret && *opts) varg[j++] = opts; /* Options on 1st line of code */ if (*inlo) varg[j++] = inlo; /* Option introducing inline code */ varg[j++] = scrpt; /* The script itself */ if (*lsto) varg[j++] = lsto; /* Option meaning last option */ i = (ret > 1) ? ret : 0; /* Args numbering correction */
while (i < argc) varg[j++] = argv[i++]; /* Main run-time arguments */ varg[j] = 0; /* NULL terminated array */ execvp(shll, varg); return shll; } int main(int argc, char ** argv) { argv[1] = xsh(argc, argv); return 1; } EOF } ########################################## ## Starting echo " _ _ _____ _ _ " echo "| | | | / ___| | | | " echo "| | | |_ __ \ --.| |_| | ___ " echo "| | | | '_ \ --. \ _ |/ __|" echo "| |_| | | | /\__/ / | | | (__ " echo " \___/|_| |_\____/\_| |_/\___|" echo echo "--- UnSHc - The shc decrypter." echo "--- Version: $VERSION" echo "------------------------------" echo "UnSHc is used to decrypt script encrypted with SHc" echo "Original idea from Luiz Octavio Duarte (LOD)" echo "Updated and modernized by Yann CAM" echo "- SHc : [http://www.datsi.fi.upm.es/~frosal/]" echo "- UnSHc : [https://www.asafety.fr/unshc-the-shc-decrypter/]" echo "------------------------------" echo if [ $# -lt 1 ]; then echo "[?] Type -h or --help for how to use it" clean exit 0 fi # Check the availability of each command needed in this script. check_binaries OPTS=$( getopt -o h,a:,d:,s:,o: -l help,arc4:,dumpfile:,stringfile:,outputfile: -- "$@" ) if [ $? != 0 ]; then exit_error; fi while [ "$#" -gt 0 ] ; do case "$1" in -h|--help) usage; clean; exit 0;; -a|--arc4) echo "[+] ARC4() offset function call address specified [0x$2]"; CALLADDR=$2; shift 2;; -d|--dumpfile) echo "[+] Object dump file specified [$2]"; DUMPFILE=$2; shift 2;; -s|--stringfile) echo "[+] String dump file specified [$2]"; STRINGFILE=$2; shift 2;; -o|--outputfile) echo "[+] Output file name specified [$2]"; OUTPUTFILE=$2; shift 2;; -*) echo "[-] Unknown option: [$1]" >&2;
exit_error;;
--)
shift;
break;;
*)
echo "[*] Input file name to decrypt [$1]";
BINARY=$1
shift 1;;
esac
done
if [ ! -e $BINARY ]; then
echo "[-] Error, File [$BINARY] not found."
exit_error
fi
if [ -z "$DUMPFILE" ]; then
DUMPFILE=$(mktemp /tmp/XXXXXX)
else
if [ ! -e $DUMPFILE ]; then
echo "[-] Object dump file [$DUMPFILE] not found."
exit_error;
fi
fi
if [ -z "$STRINGFILE" ]; then
STRINGFILE=$(mktemp /tmp/XXXXXX)
else
if [ ! -e $STRINGFILE ]; then
echo "[-] String dump file [$STRINGFILE] not found."
exit_error;
fi
fi
# Fill DUMPFILE and STRINGFILE from objdump of the *.sh.x encrypted script
generate_dump
# Find out the most called function. This function is arc4() and there are 14 calls.
if [ -z "$CALLADDR" ]; then
extract_arc4_call_addr
fi
# Retrieve the data used in each CALLADDR call
extract_variables_from_binary
# Retrieve PWD from function call just before the first CALLADDR call
extract_password_from_binary
# Create a C source code to decrypt *.sh.x file with previously extracted data
generic_file
# Compile C source code to decrypt *.sh.x file
$GCC -o $TMPBINARY ${TMPBINARY}.c >/dev/null 2>&1
echo "[*] Executing [$TMPBINARY] to decrypt [${BINARY}]"
if [ -z "$OUTPUTFILE" ]; then
echo "[*] Retrieving initial source code in [${BINARY%.x}]"
$TMPBINARY > ${BINARY%.x}
else
echo "[*] Retrieving initial source code in [$OUTPUTFILE]"
$TMPBINARY > $OUTPUTFILE
fi
echo "[*] All done!"
clean
exit 0