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hashcat/tools/test.sh
jsteube 71a8459d85 Two new modes added:
* Added new hash-mode 14000 = DES (PT = $salt, key = $pass)
* Added new hash-mode 14100 = 3DES (PT = $salt, key = $pass)
This patch initial was created out of this PR: https://github.com/hashcat/hashcat/pull/452 which is now no longer required
I've replace the -a 3 kernel with a bitsliced version which is around 10 times faster
I've also added test.sh and test.pl patches, but some of the test scripts need to be fixed
2016-08-30 17:44:14 +02:00

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#!/usr/bin/env bash
##
## Authors.....: Gabriele Gristina <matrix@hashcat.net>
## Jens Steube <jens.steube@gmail.com>
## magnum <john.magnum@hushmail.com>
##
## License.....: MIT
##
# missing hash types: 5200,6211,6221,6231,6241,6251,6261,6271,6281
HASH_TYPES="0 10 11 12 20 21 22 23 30 40 50 60 100 101 110 111 112 120 121 122 125 130 131 132 133 140 141 150 160 200 300 400 500 900 1000 1100 1400 1410 1420 1430 1440 1441 1450 1460 1500 1600 1700 1710 1711 1720 1722 1730 1731 1740 1750 1760 1800 2100 2400 2410 2500 2600 2611 2612 2711 2811 3000 3100 3200 3710 3711 3800 4300 4400 4500 4700 4800 4900 5000 5100 5300 5400 5500 5600 5700 5800 6000 6100 6300 6400 6500 6600 6700 6800 6900 7100 7200 7300 7400 7500 7600 7700 7800 7900 8000 8100 8200 8300 8400 8500 8600 8700 8900 9100 9200 9300 9400 9500 9600 9700 9800 9900 10000 10100 10200 10300 10400 10500 10600 10700 10800 10900 11000 11100 11200 11300 11400 11500 11600 11900 12000 12100 12200 12300 12400 12600 12800 12900 13000 13100 13200 13300 13400 13500 13600 13800 14000 14100"
#ATTACK_MODES="0 1 3 6 7"
ATTACK_MODES="0 1 3 7"
VECTOR_WIDTHS="1 2 4 8 16"
MATCH_PASS_ONLY="2500 5300 5400 6600 6800 8200"
HASHFILE_ONLY="2500"
NEVER_CRACK="11600"
SLOW_ALGOS="400 500 501 1600 1800 2100 2500 3200 5200 5800 6211 6221 6231 6241 6251 6261 6271 6281 6300 6400 6500 6600 6700 6800 7100 7200 7400 7900 8200 8800 8900 9000 9100 9200 9300 9400 9500 9600 10000 10300 10500 10700 10900 11300 11600 11900 12000 12100 12200 12300 12400 12500 12800 12900 13000 13200 13400 13600"
OPTS="--quiet --force --potfile-disable --runtime 200 --gpu-temp-disable --weak-hash-threshold=0"
OUTD="test_$(date +%s)"
PACKAGE_CMD="7z a"
PACKAGE_FOLDER=""
mask_3[0]=""
mask_3[1]="?d"
mask_3[2]="?d?d"
mask_3[3]="?d?d?d"
mask_3[4]="?d?d?d?d"
mask_3[5]="?d?d?d?d?d"
mask_3[6]="?d?d?d?d?d?d"
mask_3[7]="?d?d?d?d?d?d?d"
mask_3[8]="?d?d?d?d?d?d?d?d"
mask_3[9]="?d?d?d?d?d?d?d?d?d"
mask_3[10]="?d?d?d?d?d?d?d?d?d?d"
mask_3[11]="?d?d?d?d?d?d?d?d?d?d?d"
mask_3[12]="?d?d?d?d?d?d?d?d?d?d?d?d"
mask_3[13]="?d?d?d?d?d?d?d?d?d?d?d?d?d"
mask_3[14]="?d?d?d?d?d?d?d?d?d?d?d?d?d?d"
mask_3[15]="?d?d?d?d?d?d?d?d?d?d?d?d?d?d?d"
mask_3[16]="?d?d?d?d?d?d?d?d?d?d?d?d?d?d?d0"
mask_3[17]="?d?d?d?d?d?d?d?d?d?d?d?d?d?d?d00"
mask_3[18]="?d?d?d?d?d?d?d?d?d?d?d?d?d?d?d000"
mask_3[19]="?d?d?d?d?d?d?d?d?d?d?d?d?d?d?d0000"
mask_3[20]="?d?d?d?d?d?d?d?d?d?d?d?d?d?d?d00000"
mask_3[21]="?d?d?d?d?d?d?d?d?d?d?d?d?d?d?d000000"
mask_3[22]="?d?d?d?d?d?d?d?d?d?d?d?d?d?d?d0000000"
mask_3[23]="?d?d?d?d?d?d?d?d?d?d?d?d?d?d?d00000000"
mask_3[24]="?d?d?d?d?d?d?d?d?d?d?d?d?d?d?d000000000"
mask_3[25]="?d?d?d?d?d?d?d?d?d?d?d?d?d?d?d0000000000"
mask_3[26]="?d?d?d?d?d?d?d?d?d?d?d?d?d?d?d00000000000"
mask_3[27]="?d?d?d?d?d?d?d?d?d?d?d?d?d?d?d000000000000"
mask_3[28]="?d?d?d?d?d?d?d?d?d?d?d?d?d?d?d0000000000000"
mask_3[29]="?d?d?d?d?d?d?d?d?d?d?d?d?d?d?d00000000000000"
mask_3[30]="?d?d?d?d?d?d?d?d?d?d?d?d?d?d?d000000000000000"
mask_3[31]="?d?d?d?d?d?d?d?d?d?d?d?d?d?d?d0000000000000000"
mask_6[0]=""
mask_6[1]=""
mask_6[2]="?d"
mask_6[3]="?d?d"
mask_6[4]="?d?d"
mask_6[5]="?d?d?d"
mask_6[6]="?d?d?d"
mask_6[7]="?d?d?d?d"
mask_6[8]="?d?d?d?d"
mask_6[9]="?d?d?d?d?d"
mask_6[10]="?d?d?d?d?d"
mask_6[11]="?d?d?d?d?d?d"
mask_6[12]="?d?d?d?d?d?d"
mask_6[13]="?d?d?d?d?d?d?d"
mask_6[14]="?d?d?d?d?d?d?d"
mask_6[15]="?d?d?d?d?d?d?d?d"
mask_6[16]="?d?d?d?d?d?d?d?d"
mask_6[17]="?d?d?d?d?d?d?d?d0"
mask_6[18]="?d?d?d?d?d?d?d?d0"
mask_6[19]="?d?d?d?d?d?d?d?d00"
mask_6[20]="?d?d?d?d?d?d?d?d00"
mask_6[21]="?d?d?d?d?d?d?d?d000"
mask_6[22]="?d?d?d?d?d?d?d?d000"
mask_6[23]="?d?d?d?d?d?d?d?d0000"
mask_6[24]="?d?d?d?d?d?d?d?d0000"
mask_6[25]="?d?d?d?d?d?d?d?d00000"
mask_6[26]="?d?d?d?d?d?d?d?d00000"
mask_6[27]="?d?d?d?d?d?d?d?d000000"
mask_6[28]="?d?d?d?d?d?d?d?d000000"
mask_6[29]="?d?d?d?d?d?d?d?d0000000"
mask_6[30]="?d?d?d?d?d?d?d?d0000000"
mask_6[31]="?d?d?d?d?d?d?d?d00000000"
mask_7[0]=""
mask_7[1]=""
mask_7[2]="?d"
mask_7[3]="?d"
mask_7[4]="?d?d"
mask_7[5]="?d?d"
mask_7[6]="?d?d?d"
mask_7[7]="?d?d?d"
mask_7[8]="?d?d?d?d"
mask_7[9]="?d?d?d?d"
mask_7[10]="?d?d?d?d?d"
mask_7[11]="?d?d?d?d?d"
mask_7[12]="?d?d?d?d?d?d"
mask_7[13]="?d?d?d?d?d?d"
mask_7[14]="?d?d?d?d?d?d?d"
mask_7[15]="?d?d?d?d?d?d?d"
mask_7[16]="?d?d?d?d?d?d?d?d"
mask_7[17]="?d?d?d?d?d?d?d?d"
mask_7[18]="?d?d?d?d?d?d?d?d0"
mask_7[19]="?d?d?d?d?d?d?d?d0"
mask_7[20]="?d?d?d?d?d?d?d?d00"
mask_7[21]="?d?d?d?d?d?d?d?d00"
mask_7[22]="?d?d?d?d?d?d?d?d000"
mask_7[23]="?d?d?d?d?d?d?d?d000"
mask_7[24]="?d?d?d?d?d?d?d?d0000"
mask_7[25]="?d?d?d?d?d?d?d?d0000"
mask_7[26]="?d?d?d?d?d?d?d?d00000"
mask_7[27]="?d?d?d?d?d?d?d?d00000"
mask_7[28]="?d?d?d?d?d?d?d?d000000"
mask_7[29]="?d?d?d?d?d?d?d?d000000"
mask_7[30]="?d?d?d?d?d?d?d?d0000000"
mask_7[31]="?d?d?d?d?d?d?d?d0000000"
contains ()
{
for element in "${@:2}"; do
if [ "${element}" == "${1}" ]; then
return 1
fi
done
return 0
}
function init()
{
if [ "${PACKAGE}" -eq 1 ]; then
echo "[ ${OUTD} ] > Generate tests for hash type $hash_type."
else
echo "[ ${OUTD} ] > Init test for hash type $hash_type."
fi
rm -rf ${OUTD}/${hash_type}.sh ${OUTD}/${hash_type}_passwords.txt ${OUTD}/${hash_type}_hashes.txt
# create list of password and hashes of same type
grep " ${hash_type} '" ${OUTD}/all.sh > ${OUTD}/${hash_type}.sh
# create separate list of password and hashes
cat ${OUTD}/${hash_type}.sh | awk '{print $3}' > ${OUTD}/${hash_type}_passwords.txt
cat ${OUTD}/${hash_type}.sh | awk '{print $11}' | cut -d"'" -f2 > ${OUTD}/${hash_type}_hashes.txt
if [ "${hash_type}" -eq 10300 ]; then
cat ${OUTD}/${hash_type}.sh | cut -d' ' -f11- | cut -d"'" -f2 > ${OUTD}/${hash_type}_hashes.txt
fi
# truncate dicts
rm -rf ${OUTD}/${hash_type}_dict1 ${OUTD}/${hash_type}_dict2
touch ${OUTD}/${hash_type}_dict1 ${OUTD}/${hash_type}_dict2
# foreach password entry split password in 2 (skip first entry, is len 1)
i=1
# minimum password length
min_len=0
if [ "${hash_type}" -eq 2500 ]; then
min_len=7 # means length 8, since we start with 0
fi
if [ "${hash_type}" -eq 14000 ]; then
min_len=7
fi
if [ "${hash_type}" -eq 14100 ]; then
min_len=23
fi
while read -u 9 pass; do
if [ ${i} -gt 1 ]; then
# split password, 'i' is the len
p0=$((i / 2))
p1=$((p0 + 1))
# special case (passwords longer than expected)
pass_len=${#pass}
if [ "${pass_len}" -gt 1 ]
then
p1=$((p1 + ${min_len}))
p0=$((p0 + ${min_len}))
if [ "${p1}" -gt ${pass_len} ]; then
p1=${pass_len}
p0=$((p1 - 1))
fi
# add splitted password to dicts
echo ${pass} | cut -c -${p0} >> ${OUTD}/${hash_type}_dict1
echo ${pass} | cut -c ${p1}- >> ${OUTD}/${hash_type}_dict2
fi
fi
((i++))
done 9< ${OUTD}/${hash_type}_passwords.txt
min_len=0
if [ "${hash_type}" -eq 2500 ]; then
min_len=7 # means length 8, since we start with 0
fi
if [ "${hash_type}" -eq 14000 ]; then
min_len=7
fi
if [ "${hash_type}" -eq 14100 ]; then
min_len=23
fi
# generate multiple pass/hash foreach len (2 to 8)
if [ ${MODE} -ge 1 ]; then
for ((i = 2; i < 9; i++)); do
rm -rf ${OUTD}/${hash_type}_multi_${i}.txt ${OUTD}/${hash_type}_passwords_multi_${i}.txt ${OUTD}/${hash_type}_hashes_multi_${i}.txt
rm -rf ${OUTD}/${hash_type}_dict1_multi_${i} ${OUTD}/${hash_type}_dict2_multi_${i}
touch ${OUTD}/${hash_type}_dict1_multi_${i} ${OUTD}/${hash_type}_dict2_multi_${i}
perl tools/test.pl single ${hash_type} ${i} > ${OUTD}/${hash_type}_multi_${i}.txt
cat ${OUTD}/${hash_type}_multi_${i}.txt | awk '{print $3}' > ${OUTD}/${hash_type}_passwords_multi_${i}.txt
cat ${OUTD}/${hash_type}_multi_${i}.txt | awk '{print $11}' | cut -d"'" -f2 > ${OUTD}/${hash_type}_hashes_multi_${i}.txt
if [ "${hash_type}" -eq 10300 ]; then
cat ${OUTD}/${hash_type}_multi_${i}.txt | cut -d' ' -f11- | cut -d"'" -f2 > ${OUTD}/${hash_type}_hashes_multi_${i}.txt
fi
# split password, 'i' is the len
p0=$((i / 2))
p1=$((p0 + 1))
p0=$((p0 + ${min_len}))
p1=$((p1 + ${min_len}))
while read -u 9 pass; do
# add splitted password to dicts
echo ${pass} | cut -c -${p0} >> ${OUTD}/${hash_type}_dict1_multi_${i}
echo ${pass} | cut -c ${p1}- >> ${OUTD}/${hash_type}_dict2_multi_${i}
done 9< ${OUTD}/${hash_type}_passwords_multi_${i}.txt
done
fi
}
function status()
{
RET=$1
((cnt++))
if [ ${RET} -ne 0 ]; then
case ${RET} in
1)
if contains ${hash_type} ${NEVER_CRACK_ALGOS}; then
echo "password not found, cmdline : ${CMD}" &>> ${OUTD}/logfull.txt
((e_nf++))
fi
;;
2)
echo "timeout reached, cmdline : ${CMD}" &>> ${OUTD}/logfull.txt
((e_to++))
;;
10)
if [ "${pass_only}" -eq 1 ]; then
echo "plains not found in output, cmdline : ${CMD}" &>> ${OUTD}/logfull.txt
else
echo "hash:plains not matched in output, cmdline : ${CMD}" &>> ${OUTD}/logfull.txt
fi
((e_nm++))
;;
*)
echo "! unhandled return code ${RET}, cmdline : ${CMD}" &>> ${OUTD}/logfull.txt
echo "! unhandled return code, see ${OUTD}/logfull.txt for details."
((e_nf++))
;;
esac
fi
}
function attack_0()
{
file_only=0
if ! contains ${hash_type} ${FILE_BASED_ALGOS}; then
file_only=1
fi
# single hash
if [ ${MODE} -ne 1 ]; then
e_to=0
e_nf=0
e_nm=0
cnt=0
echo "> Testing hash type $hash_type with attack mode 0, markov ${MARKOV}, single hash, device-type ${TYPE}, vector-width ${VECTOR}." &>> ${OUTD}/logfull.txt
max=32
if ! contains ${hash_type} ${TIMEOUT_ALGOS}; then
max=12
fi
i=0
while read -u 9 line; do
if [ "${i}" -ge ${max} ]; then
break
fi
hash="$(echo "$line" | cut -d\' -f2)"
pass="$(echo "$line" | cut -d' ' -f3)"
if [ -z "${hash}" ]; then
break
fi
if [ "${file_only}" -eq 1 ]; then
temp_file="${OUTD}/${hash_type}_filebased_only_temp.txt"
echo ${hash} | base64 -d > ${temp_file}
hash="${temp_file}"
fi
CMD="echo -n "${pass}" | ./${BIN} ${OPTS} -a 0 -m ${hash_type} '${hash}'"
echo -n "[ len $((i + 1)) ] " &>> ${OUTD}/logfull.txt
output=$(echo -n "${pass}" | ./${BIN} ${OPTS} -a 0 -m ${hash_type} "${hash}" 2>&1)
ret=${?}
echo "${output}" >> ${OUTD}/logfull.txt
if [ "${ret}" -eq 0 ]; then
if [ ${pass_only} -eq 1 ]; then
search=":${pass}"
else
search="${hash}:${pass}"
fi
echo "${output}" | grep -F "${search}" &> /dev/null
if [ "${?}" -ne 0 ]; then
ret=10
fi
fi
status ${ret}
i=$((i + 1))
done 9< ${OUTD}/${hash_type}.sh
msg="OK"
if [ "${e_nf}" -ne 0 -o "${e_nm}" -ne 0 ]; then
msg="Error"
elif [ "${e_to}" -ne 0 ]; then
msg="Warning"
fi
echo "[ ${OUTD} ] [ Type ${hash_type}, Attack 0, Mode single, Device-Type ${TYPE}, Vector-Width ${VECTOR} ] > $msg : ${e_nf}/${cnt} not found, ${e_nm}/${cnt} not matched, ${e_to}/${cnt} timeout"
fi
# multihash
if [ ${MODE} -ne 0 ]; then
e_to=0
e_nf=0
e_nm=0
cnt=0
echo "> Testing hash type $hash_type with attack mode 0, markov ${MARKOV}, multi hash, Device-Type ${TYPE}, vector-width ${VECTOR}." &>> ${OUTD}/logfull.txt
hash_file=${OUTD}/${hash_type}_hashes.txt
# if file_only -> decode all base64 "hashes" and put them in the temporary file
if [ "${file_only}" -eq 1 ]; then
temp_file="${OUTD}/${hash_type}_filebased_only_temp.txt"
rm -f ${temp_file}
hash_file=${temp_file}
while read base64_hash; do
echo -n ${base64_hash} | base64 -d >> ${temp_file}
done < ${OUTD}/${hash_type}_hashes.txt
fi
CMD="cat ${OUTD}/${hash_type}_passwords.txt | ./${BIN} ${OPTS} -a 0 -m ${hash_type} ${hash_file}"
output=$(cat ${OUTD}/${hash_type}_passwords.txt | ./${BIN} ${OPTS} -a 0 -m ${hash_type} ${hash_file} 2>&1)
ret=${?}
echo "${output}" >> ${OUTD}/logfull.txt
if [ "${ret}" -eq 0 ]; then
i=1
while read -u 9 hash; do
pass=$(sed -n ${i}p ${OUTD}/${hash_type}_passwords.txt)
if [ ${pass_only} -eq 1 ]; then
search=":${pass}"
else
search="${hash}:${pass}"
fi
echo "${output}" | grep -F "${search}" &> /dev/null
if [ "${?}" -ne 0 ]; then
ret=10
break
fi
i=$((i + 1))
done 9< ${OUTD}/${hash_type}_hashes.txt
fi
status ${ret}
msg="OK"
if [ "${e_nf}" -ne 0 -o "${e_nm}" -ne 0 ]; then
msg="Error"
elif [ "${e_to}" -ne 0 ]; then
msg="Warning"
fi
echo "[ ${OUTD} ] [ Type ${hash_type}, Attack 0, Mode multi, Device-Type ${TYPE}, Vector-Width ${VECTOR} ] > $msg : ${e_nf}/${cnt} not found, ${e_nm}/${cnt} not matched, ${e_to}/${cnt} timeout"
fi
}
function attack_1()
{
file_only=0
if ! contains ${hash_type} ${FILE_BASED_ALGOS}; then
file_only=1
fi
# single hash
if [ ${MODE} -ne 1 ]; then
e_to=0
e_nf=0
e_nm=0
cnt=0
echo "> Testing hash type $hash_type with attack mode 1, markov ${MARKOV}, single hash, Device-Type ${TYPE}, vector-width ${VECTOR}." &>> ${OUTD}/logfull.txt
i=1
while read -u 9 hash; do
if [ $i -gt 1 ]; then
if [ "${file_only}" -eq 1 ]; then
temp_file="${OUTD}/${hash_type}_filebased_only_temp.txt"
echo ${hash} | base64 -d > ${temp_file}
hash="${temp_file}"
fi
CMD="./${BIN} ${OPTS} -a 1 -m ${hash_type} '${hash}' ${OUTD}/${hash_type}_dict1 ${OUTD}/${hash_type}_dict2"
echo -n "[ len $i ] " &>> ${OUTD}/logfull.txt
output=$(./${BIN} ${OPTS} -a 1 -m ${hash_type} "${hash}" ${OUTD}/${hash_type}_dict1 ${OUTD}/${hash_type}_dict2 2>&1)
ret=${?}
echo "${output}" >> ${OUTD}/logfull.txt
if [ "${ret}" -eq 0 ]; then
line_nr=$((i - 1))
line_dict1=$(sed -n ${line_nr}p ${OUTD}/${hash_type}_dict1)
line_dict2=$(sed -n ${line_nr}p ${OUTD}/${hash_type}_dict2)
if [ ${pass_only} -eq 1 ]; then
search=":${line_dict1}${line_dict2}"
else
search="${hash}:${line_dict1}${line_dict2}"
fi
echo "${output}" | grep -F "${search}" &> /dev/null
if [ "${?}" -ne 0 ]; then
ret=10
fi
fi
status ${ret}
fi
((i++))
done 9< ${OUTD}/${hash_type}_hashes.txt
msg="OK"
if [ "${e_nf}" -ne 0 -o "${e_nm}" -ne 0 ]; then
msg="Error"
elif [ "${e_to}" -ne 0 ]; then
msg="Warning"
fi
echo "[ ${OUTD} ] [ Type ${hash_type}, Attack 1, Mode single, Device-Type ${TYPE}, Vector-Width ${VECTOR} ] > $msg : ${e_nf}/${cnt} not found, ${e_nm}/${cnt} not matched, ${e_to}/${cnt} timeout"
fi
# multihash
if [ ${MODE} -ne 0 ]; then
e_to=0
e_nf=0
e_nm=0
cnt=0
offset=14
if [ ${hash_type} -eq 2500 ]; then
offset=7
elif [ ${hash_type} -eq 5800 ]; then
offset=6
elif [ ${hash_type} -eq 3000 ]; then
offset=6
elif [ ${hash_type} -eq 2100 ]; then
offset=11
elif [ ${hash_type} -eq 1500 ]; then
offset=7
elif [ ${hash_type} -eq 7700 ]; then
offset=7
elif [ ${hash_type} -eq 8500 ]; then
offset=7
elif [ ${hash_type} -eq 14000 ]; then
offset=7
elif [ ${hash_type} -eq 14100 ]; then
offset=23
fi
hash_file=${OUTD}/${hash_type}_multihash_combi.txt
tail -n ${offset} ${OUTD}/${hash_type}_hashes.txt > ${hash_file}
# if file_only -> decode all base64 "hashes" and put them in the temporary file
if [ "${file_only}" -eq 1 ]; then
temp_file="${OUTD}/${hash_type}_filebased_only_temp.txt"
rm -f ${temp_file}
hash_file=${temp_file}
while read base64_hash; do
echo -n ${base64_hash} | base64 -d >> ${temp_file}
done < ${OUTD}/${hash_type}_multihash_combi.txt
fi
CMD="./${BIN} ${OPTS} -a 1 -m ${hash_type} ${hash_file} ${OUTD}/${hash_type}_dict1 ${OUTD}/${hash_type}_dict2"
echo "> Testing hash type $hash_type with attack mode 1, markov ${MARKOV}, multi hash, Device-Type ${TYPE}, vector-width ${VECTOR}." &>> ${OUTD}/logfull.txt
output=$(./${BIN} ${OPTS} -a 1 -m ${hash_type} ${hash_file} ${OUTD}/${hash_type}_dict1 ${OUTD}/${hash_type}_dict2 2>&1)
ret=${?}
echo "${output}" >> ${OUTD}/logfull.txt
if [ "${ret}" -eq 0 ]; then
i=0
while read -u 9 hash; do
line_nr=$((offset - i))
line_dict1=$(tail -n ${line_nr} ${OUTD}/${hash_type}_dict1 | head -1)
line_dict2=$(tail -n ${line_nr} ${OUTD}/${hash_type}_dict2 | head -1)
if [ ${pass_only} -eq 1 ]; then
search=":${line_dict1}${line_dict2}"
else
search="${hash}:${line_dict1}${line_dict2}"
fi
echo "${output}" | grep -F "${search}" &> /dev/null
if [ "${?}" -ne 0 ]; then
ret=10
break
fi
i=$((i + 1))
done 9< ${OUTD}/${hash_type}_multihash_combi.txt
fi
status ${ret}
msg="OK"
if [ "${e_nf}" -ne 0 -o "${e_nm}" -ne 0 ]; then
msg="Error"
elif [ "${e_to}" -ne 0 ]; then
msg="Warning"
fi
echo "[ ${OUTD} ] [ Type ${hash_type}, Attack 1, Mode multi, Device-Type ${TYPE}, Vector-Width ${VECTOR} ] > $msg : ${e_nf}/${cnt} not found, ${e_nm}/${cnt} not matched, ${e_to}/${cnt} timeout"
fi
}
function attack_3()
{
file_only=0
if ! contains ${hash_type} ${FILE_BASED_ALGOS}; then
file_only=1
fi
# single hash
if [ ${MODE} -ne 1 ]; then
e_to=0
e_nf=0
e_nm=0
cnt=0
echo "> Testing hash type $hash_type with attack mode 3, markov ${MARKOV}, single hash, Device-Type ${TYPE}, vector-width ${VECTOR}." &>> ${OUTD}/logfull.txt
max=8
mask_offset=0
# some algos have a minimum password length
if [ "${hash_type}" -eq 2500 ];then
mask_offset=7
max=7
fi
if [ "${hash_type}" -eq 14000 ]; then
mask_offset=7
max=7
fi
if [ "${hash_type}" -eq 14100 ]; then
mask_offset=23
max=23
fi
i=1
while read -u 9 hash; do
if [ "${i}" -gt 6 ]; then
if ! contains ${hash_type} ${TIMEOUT_ALGOS}; then
break;
fi
fi
if [ "${file_only}" -eq 1 ]; then
temp_file="${OUTD}/${hash_type}_filebased_only_temp.txt"
echo ${hash} | base64 -d > ${temp_file}
hash="${temp_file}"
fi
mask=${mask_3[$((i + ${mask_offset}))]}
# modify "default" mask if needed (and set custom charset to reduce keyspace)
if [ "${hash_type}" -eq 2500 ]; then
pass=$(sed -n ${i}p ${OUTD}/${hash_type}_passwords.txt)
mask=${pass}
# replace the first x positions in the mask with ?d's
# first: remove first i (== amount) chars
mask=$(echo ${mask} | cut -b $((i + 1))-)
# prepend the ?d's
for i in $(seq 1 ${i}); do
mask="?d${mask}"
done
fi
CMD="./${BIN} ${OPTS} -a 3 -m ${hash_type} '${hash}' ${mask}"
echo -n "[ len $i ] " &>> ${OUTD}/logfull.txt
output=$(./${BIN} ${OPTS} -a 3 -m ${hash_type} "${hash}" ${mask} 2>&1)
ret=${?}
echo "${output}" >> ${OUTD}/logfull.txt
if [ "${ret}" -eq 0 ]; then
line_dict=$(sed -n ${i}p ${OUTD}/${hash_type}_passwords.txt)
if [ ${pass_only} -eq 1 ]; then
search=":${line_dict}"
else
search="${hash}:${line_dict}"
fi
echo "${output}" | grep -F "${search}" &> /dev/null
if [ "${?}" -ne 0 ]; then
ret=10
fi
fi
status ${ret}
if [ $i -eq ${max} ]; then break; fi
((i++))
done 9< ${OUTD}/${hash_type}_hashes.txt
msg="OK"
if [ "${e_nf}" -ne 0 -o "${e_nm}" -ne 0 ]; then
msg="Error"
elif [ "${e_to}" -ne 0 ]; then
msg="Warning"
fi
echo "[ ${OUTD} ] [ Type ${hash_type}, Attack 3, Mode single, Device-Type ${TYPE}, Vector-Width ${VECTOR} ] > $msg : ${e_nf}/${cnt} not found, ${e_nm}/${cnt} not matched, ${e_to}/${cnt} timeout"
fi
# multihash
if [ ${MODE} -ne 0 ]; then
e_to=0
e_nf=0
e_nm=0
cnt=0
increment_max=8
if ! contains ${hash_type} ${TIMEOUT_ALGOS}; then
increment_max=5
fi
increment_min=1
if [ "${hash_type}" -eq 2500 ]; then
increment_min=8
increment_max=9
fi
if [ "${hash_type}" -eq 14000 ]; then
increment_min=8
increment_max=8
fi
if [ "${hash_type}" -eq 14100 ]; then
increment_min=24
increment_max=24
fi
hash_file=${OUTD}/${hash_type}_multihash_bruteforce.txt
head -n $((increment_max - ${increment_min} + 1)) ${OUTD}/${hash_type}_hashes.txt > ${hash_file}
# if file_only -> decode all base64 "hashes" and put them in the temporary file
if [ "${file_only}" -eq 1 ]; then
temp_file="${OUTD}/${hash_type}_filebased_only_temp.txt"
rm -f ${temp_file}
hash_file=${temp_file}
while read base64_hash; do
echo -n ${base64_hash} | base64 -d >> ${temp_file}
done < ${OUTD}/${hash_type}_multihash_bruteforce.txt
fi
mask=${mask_3[8]}
custom_charsets=""
# modify "default" mask if needed (and set custom charset to reduce keyspace)
if [ "${hash_type}" -eq 2500 ]; then
mask="?d?d?d?d?d?1?2?3?4"
charset_1=""
charset_2=""
charset_3=""
charset_4=""
# check positions (here we assume that mask is always composed of non literal chars
# i.e. something like ?d?l?u?s?1 is possible, but ?d?dsuffix not
charset_1_pos=$(expr index "${mask}" 1)
charset_2_pos=$(expr index "${mask}" 2)
charset_3_pos=$(expr index "${mask}" 3)
charset_4_pos=$(expr index "${mask}" 4)
# divide each charset position by 2 since each of them occupies 2 positions in the mask
charset_1_pos=$((charset_1_pos / 2))
charset_2_pos=$((charset_2_pos / 2))
charset_3_pos=$((charset_3_pos / 2))
charset_4_pos=$((charset_4_pos / 2))
i=1
while read -u 9 hash; do
pass=$(sed -n ${i}p ${OUTD}/${hash_type}_passwords.txt)
# charset 1
char=$(echo "${pass}" | cut -b ${charset_1_pos})
charset_1=$(echo -e "${charset_1}\n${char}")
# charset 2
char=$(echo "${pass}" | cut -b ${charset_2_pos})
charset_2=$(echo -e "${charset_2}\n${char}")
# charset 3
char=$(echo "${pass}" | cut -b ${charset_3_pos})
charset_3=$(echo -e "${charset_3}\n${char}")
# charset 4
char=$(echo "${pass}" | cut -b ${charset_4_pos})
charset_4=$(echo -e "${charset_4}\n${char}")
i=$((i + 1))
done 9< ${OUTD}/${hash_type}_multihash_bruteforce.txt
# just make sure that all custom charset fields are initialized
if [ -z "${charset_1}" ]; then
charset_1="1"
fi
if [ -z "${charset_2}" ]; then
charset_2="2"
fi
if [ -z "${charset_3}" ]; then
charset_3="3"
fi
if [ -z "${charset_4}" ]; then
charset_4="4"
fi
# unique and remove new lines
charset_1=$(echo "${charset_1}" | sort -u | tr -d '\n')
charset_2=$(echo "${charset_2}" | sort -u | tr -d '\n')
charset_3=$(echo "${charset_3}" | sort -u | tr -d '\n')
charset_4=$(echo "${charset_4}" | sort -u | tr -d '\n')
custom_charsets="-1 ${charset_1} -2 ${charset_2} -3 ${charset_3} -4 ${charset_4}"
fi
CMD="./${BIN} ${OPTS} -a 3 -m ${hash_type} --increment --increment-min ${increment_min} --increment-max ${increment_max} ${custom_charsets} ${hash_file} ${mask} "
echo "> Testing hash type $hash_type with attack mode 3, markov ${MARKOV}, multi hash, Device-Type ${TYPE}, vector-width ${VECTOR}." &>> ${OUTD}/logfull.txt
output=$(./${BIN} ${OPTS} -a 3 -m ${hash_type} --increment --increment-min ${increment_min} --increment-max ${increment_max} ${custom_charsets} ${hash_file} ${mask} 2>&1)
ret=${?}
echo "${output}" >> ${OUTD}/logfull.txt
if [ "${ret}" -eq 0 ]; then
i=1
while read -u 9 hash; do
pass=$(sed -n ${i}p ${OUTD}/${hash_type}_passwords.txt)
if [ ${pass_only} -eq 1 ]; then
search=":${pass}"
else
search="${hash}:${pass}"
fi
echo "${output}" | grep -F "${search}" &> /dev/null
if [ "${?}" -ne 0 ]; then
ret=10
break
fi
i=$((i + 1))
done 9< ${OUTD}/${hash_type}_multihash_bruteforce.txt
fi
status ${ret}
msg="OK"
if [ "${e_nf}" -ne 0 -o "${e_nm}" -ne 0 ]; then
msg="Error"
elif [ "${e_to}" -ne 0 ]; then
msg="Warning"
fi
echo "[ ${OUTD} ] [ Type ${hash_type}, Attack 3, Mode multi, Device-Type ${TYPE}, Vector-Width ${VECTOR} ] > $msg : ${e_nf}/${cnt} not found, ${e_nm}/${cnt} not matched, ${e_to}/${cnt} timeout"
fi
}
function attack_6()
{
file_only=0
if ! contains ${hash_type} ${FILE_BASED_ALGOS}; then
file_only=1
fi
# single hash
if [ ${MODE} -ne 1 ]; then
e_to=0
e_nf=0
e_nm=0
cnt=0
echo "> Testing hash type $hash_type with attack mode 6, markov ${MARKOV}, single hash, Device-Type ${TYPE}, vector-width ${VECTOR}." &>> ${OUTD}/logfull.txt
i=1
max=8
if [ "${hash_type}" -eq 2500 ]; then
max=6
fi
if [ "${hash_type}" -eq 14000 ]; then
max=6
fi
if [ "${hash_type}" -eq 14100 ]; then
max=6
fi
while read -u 9 hash; do
if [ "${i}" -gt 6 ]; then
if ! contains ${hash_type} ${TIMEOUT_ALGOS}; then
break;
fi
fi
if [ $i -gt 1 ]; then
if [ "${file_only}" -eq 1 ]; then
temp_file="${OUTD}/${hash_type}_filebased_only_temp.txt"
echo ${hash} | base64 -d > ${temp_file}
hash="${temp_file}"
fi
CMD="./${BIN} ${OPTS} -a 6 -m ${hash_type} '${hash}' ${OUTD}/${hash_type}_dict1 ${mask_6[$i]}"
echo -n "[ len $i ] " &>> ${OUTD}/logfull.txt
output=$(./${BIN} ${OPTS} -a 6 -m ${hash_type} "${hash}" ${OUTD}/${hash_type}_dict1 ${mask_6[$i]} 2>&1)
ret=${?}
echo "${output}" >> ${OUTD}/logfull.txt
if [ "${ret}" -eq 0 ]; then
line_nr=$((i - 1))
line_dict1=$(sed -n ${line_nr}p ${OUTD}/${hash_type}_dict1)
line_dict2=$(sed -n ${line_nr}p ${OUTD}/${hash_type}_dict2)
if [ ${pass_only} -eq 1 ]; then
search=":${line_dict1}${line_dict2}"
else
search="${hash}:${line_dict1}${line_dict2}"
fi
echo "${output}" | grep -F "${search}" &> /dev/null
if [ "${?}" -ne 0 ]; then
ret=10
fi
fi
status ${ret}
fi
if [ "${i}" -eq ${max} ]; then break; fi
((i++))
done 9< ${OUTD}/${hash_type}_hashes.txt
msg="OK"
if [ "${e_nf}" -ne 0 -o "${e_nm}" -ne 0 ]; then
msg="Error"
elif [ "${e_to}" -ne 0 ]; then
msg="Warning"
fi
echo "[ ${OUTD} ] [ Type ${hash_type}, Attack 6, Mode single, Device-Type ${TYPE}, Vector-Width ${VECTOR} ] > $msg : ${e_nf}/${cnt} not found, ${e_nm}/${cnt} not matched, ${e_to}/${cnt} timeout"
fi
# multihash
if [ ${MODE} -ne 0 ]; then
e_to=0
e_nf=0
e_nm=0
cnt=0
max=9
if [ ${hash_type} -eq 2500 ]; then
max=5
elif [ ${hash_type} -eq 3000 ]; then
max=8
elif [ ${hash_type} -eq 7700 ]; then
max=8
elif [ ${hash_type} -eq 8500 ]; then
max=8
elif [ ${hash_type} -eq 14000 ]; then
max=5
elif [ ${hash_type} -eq 14100 ]; then
max=5
fi
if ! contains ${hash_type} ${TIMEOUT_ALGOS}; then
max=5
if [ "${hash_type}" -eq 3200 ]; then
max=3
fi
fi
for ((i = 2; i < ${max}; i++)); do
hash_file=${OUTD}/${hash_type}_hashes_multi_${i}.txt
# if file_only -> decode all base64 "hashes" and put them in the temporary file
if [ "${file_only}" -eq 1 ]; then
temp_file="${OUTD}/${hash_type}_filebased_only_temp.txt"
rm -f ${temp_file}
hash_file=${temp_file}
while read base64_hash; do
echo -n ${base64_hash} | base64 -d >> ${temp_file}
done < ${OUTD}/${hash_type}_hashes_multi_${i}.txt
fi
CMD="./${BIN} ${OPTS} -a 6 -m ${hash_type} ${hash_file} ${OUTD}/${hash_type}_dict1_multi_${i} ${mask_6[$i]}"
echo "> Testing hash type $hash_type with attack mode 6, markov ${MARKOV}, multi hash with word len ${i}." &>> ${OUTD}/logfull.txt
output=$(./${BIN} ${OPTS} -a 6 -m ${hash_type} ${hash_file} ${OUTD}/${hash_type}_dict1_multi_${i} ${mask_6[$i]} 2>&1)
ret=${?}
echo "${output}" >> ${OUTD}/logfull.txt
if [ "${ret}" -eq 0 ]; then
j=1
while read -u 9 hash; do
line_dict1=$(sed -n ${j}p ${OUTD}/${hash_type}_dict1_multi_${i})
line_dict2=$(sed -n ${j}p ${OUTD}/${hash_type}_dict2_multi_${i})
if [ ${pass_only} -eq 1 ]; then
search=":${line_dict1}${line_dict2}"
else
search="${hash}:${line_dict1}${line_dict2}"
fi
echo "${output}" | grep -F "${search}" &> /dev/null
if [ "${?}" -ne 0 ]; then
ret=10
break
fi
j=$((j + 1))
done 9< ${OUTD}/${hash_type}_hashes_multi_${i}.txt
fi
status ${ret}
done
msg="OK"
if [ "${e_nf}" -ne 0 -o "${e_nm}" -ne 0 ]; then
msg="Error"
elif [ "${e_to}" -ne 0 ]; then
msg="Warning"
fi
echo "[ ${OUTD} ] [ Type ${hash_type}, Attack 6, Mode multi, Device-Type ${TYPE}, Vector-Width ${VECTOR} ] > $msg : ${e_nf}/${cnt} not found, ${e_nm}/${cnt} not matched, ${e_to}/${cnt} timeout"
fi
}
function attack_7()
{
file_only=0
if ! contains ${hash_type} ${FILE_BASED_ALGOS}; then
file_only=1
fi
# single hash
if [ ${MODE} -ne 1 ]; then
e_to=0
e_nf=0
e_nm=0
cnt=0
echo "> Testing hash type $hash_type with attack mode 7, markov ${MARKOV}, single hash, Device-Type ${TYPE}, vector-width ${VECTOR}." &>> ${OUTD}/logfull.txt
max=8
if [ "${hash_type}" -eq 2500 ]; then
max=5
fi
if [ "${hash_type}" -eq 14000 ]; then
max=5
fi
if [ "${hash_type}" -eq 14100 ]; then
max=5
fi
i=1
while read -u 9 hash; do
if [ $i -gt 1 ]; then
if [ "${file_only}" -eq 1 ]; then
temp_file="${OUTD}/${hash_type}_filebased_only_temp.txt"
echo ${hash} | base64 -d > ${temp_file}
hash="${temp_file}"
fi
mask=${mask_7[$i]}
# adjust mask if needed
if [ "${hash_type}" -eq 2500 ]; then
line_nr=$((i - 1))
pass_part_1=$(sed -n ${line_nr}p ${OUTD}/${hash_type}_dict1)
pass_part_2=$(sed -n ${line_nr}p ${OUTD}/${hash_type}_dict2)
pass_part_2_len=${#pass_part_2}
pass=${pass_part_1}${pass_part_2}
pass_len=${#pass}
# add first x chars of password to mask and append the (old) mask
mask_len=${#mask}
mask_len=$((mask_len / 2))
mask_prefix=$(echo ${pass} | cut -b -$((pass_len - ${mask_len} - ${pass_part_2_len})))
mask=${mask_prefix}${mask}
fi
CMD="./${BIN} ${OPTS} -a 7 -m ${hash_type} '${hash}' ${mask} ${OUTD}/${hash_type}_dict2"
echo -n "[ len $i ] " &>> ${OUTD}/logfull.txt
output=$(./${BIN} ${OPTS} -a 7 -m ${hash_type} "${hash}" ${mask} ${OUTD}/${hash_type}_dict2 2>&1)
ret=${?}
echo "${output}" >> ${OUTD}/logfull.txt
if [ "${ret}" -eq 0 ]; then
line_nr=$((i - 1))
line_dict1=$(sed -n ${line_nr}p ${OUTD}/${hash_type}_dict1)
line_dict2=$(sed -n ${line_nr}p ${OUTD}/${hash_type}_dict2)
if [ ${pass_only} -eq 1 ]; then
search=":${line_dict1}${line_dict2}"
else
search="${hash}:${line_dict1}${line_dict2}"
fi
echo "${output}" | grep -F "${search}" &> /dev/null
if [ "${?}" -ne 0 ]; then
ret=10
fi
fi
status ${ret}
fi
if [ $i -eq ${max} ]; then break; fi
((i++))
done 9< ${OUTD}/${hash_type}_hashes.txt
msg="OK"
if [ "${e_nf}" -ne 0 -o "${e_nm}" -ne 0 ]; then
msg="Error"
elif [ "${e_to}" -ne 0 ]; then
msg="Warning"
fi
echo "[ ${OUTD} ] [ Type ${hash_type}, Attack 7, Mode single, Device-Type ${TYPE}, Vector-Width ${VECTOR} ] > $msg : ${e_nf}/${cnt} not found, ${e_nm}/${cnt} not matched, ${e_to}/${cnt} timeout"
fi
# multihash
if [ ${MODE} -ne 0 ]; then
e_to=0
e_nf=0
e_nm=0
cnt=0
max=9
if [ ${hash_type} -eq 2500 ]; then
max=5
elif [ ${hash_type} -eq 3000 ]; then
max=8
elif [ ${hash_type} -eq 7700 ]; then
max=8
elif [ ${hash_type} -eq 8500 ]; then
max=8
elif [ ${hash_type} -eq 14000 ]; then
max=5
elif [ ${hash_type} -eq 14100 ]; then
max=5
fi
if ! contains ${hash_type} ${TIMEOUT_ALGOS}; then
max=7
if [ "${hash_type}" -eq 3200 ]; then
max=4
fi
fi
for ((i = 2; i < ${max}; i++)); do
hash_file=${OUTD}/${hash_type}_hashes_multi_${i}.txt
dict_file=${OUTD}/${hash_type}_dict2_multi_${i}
mask=${mask_7[$i]}
# if file_only -> decode all base64 "hashes" and put them in the temporary file
if [ "${file_only}" -eq 1 ]; then
temp_file="${OUTD}/${hash_type}_filebased_only_temp.txt"
rm -f ${temp_file}
hash_file=${temp_file}
while read base64_hash; do
echo -n ${base64_hash} | base64 -d >> ${temp_file}
done < ${OUTD}/${hash_type}_hashes_multi_${i}.txt
# a little hack: since we don't want to have a very large mask (and wpa has minimum length of 8),
# we need to create a temporary dict file on-the-fly and use it like this: [small mask] [long(er) words in dict]
dict_file=${OUTD}/${hash_type}_dict2_multi_${i}_longer
rm -f ${dict_file}
mask_len=${#mask}
mask_len=$((mask_len / 2))
j=1
while read -u 9 hash; do
pass_part_1=$(sed -n ${j}p ${OUTD}/${hash_type}_dict1_multi_${i})
pass_part_2=$(sed -n ${j}p ${OUTD}/${hash_type}_dict2_multi_${i})
pass="${pass_part_1}${pass_part_2}"
pass_suffix=$(echo "${pass}" | cut -b $((mask_len + 1))-)
echo "${pass_suffix}" >> ${dict_file}
j=$((j + 1))
done 9< ${OUTD}/${hash_type}_hashes_multi_${i}.txt
fi
CMD="./${BIN} ${OPTS} -a 7 -m ${hash_type} ${hash_file} ${mask} ${dict_file}"
echo "> Testing hash type $hash_type with attack mode 7, markov ${MARKOV}, multi hash with word len ${i}." &>> ${OUTD}/logfull.txt
output=$(./${BIN} ${OPTS} -a 7 -m ${hash_type} ${hash_file} ${mask} ${dict_file} 2>&1)
ret=${?}
echo "${output}" >> ${OUTD}/logfull.txt
if [ "${ret}" -eq 0 ]; then
j=1
while read -u 9 hash; do
line_dict1=$(sed -n ${j}p ${OUTD}/${hash_type}_dict1_multi_${i})
line_dict2=$(sed -n ${j}p ${OUTD}/${hash_type}_dict2_multi_${i})
if [ ${pass_only} -eq 1 ]; then
search=":${line_dict1}${line_dict2}"
else
search="${hash}:${line_dict1}${line_dict2}"
fi
echo "${output}" | grep -F "${search}" &> /dev/null
if [ "${?}" -ne 0 ]; then
ret=10
break
fi
j=$((j + 1))
done 9< ${OUTD}/${hash_type}_hashes_multi_${i}.txt
fi
status ${ret}
done
msg="OK"
if [ "${e_nf}" -ne 0 -o "${e_nm}" -ne 0 ]; then
msg="Error"
elif [ "${e_to}" -ne 0 ]; then
msg="Warning"
fi
echo "[ ${OUTD} ] [ Type ${hash_type}, Attack 7, Mode multi, Device-Type ${TYPE}, Vector-Width ${VECTOR} ] > $msg : ${e_nf}/${cnt} not found, ${e_nm}/${cnt} not matched, ${e_to}/${cnt} timeout"
fi
}
function usage()
{
cat << EOF
> Usage : ${0} <options>
OPTIONS:
-V OpenCL vector-width (either 1, 2, 4 or 8), overrides value from device query :
'1' => vector-width 1
'2' => vector-width 2 (default)
'4' => vector-width 4
'8' => vector-width 8
'all' => test sequentially vector-width ${VECTOR_WIDTHS}
-T OpenCL device-types to use :
'gpu' => gpu devices (default)
'cpu' => cpu devices
'all' => gpu and cpu devices
-t Select test mode :
'single' => single hash (default)
'multi' => multi hash
'all' => single and multi hash
-m Select hash type :
'all' => all hash type supported
(int) => hash type integer code (default : 0)
-a Select attack mode :
'all' => all attack modes
(int) => attack mode integer code (default : 0)
-x Select cpu architecture :
'32' => 32 bit architecture
'64' => 64 bit architecture (default)
-o Select operating system :
'win' => windows operating system (use .exe file extension etc)
'linux' => *nix based operating systems (.bin for binaries)
'osx' => mac osx operating systems (.app for binaries)
-c Disables markov-chains
-p Package the tests into a .7z file
-d Use this folder as input/output folder for packaged tests
(string) => path to folder
-h Show this help
EOF
exit 1
}
BIN="hashcat"
MARKOV="enabled"
ATTACK=0
MODE=0
TYPE="null"
VECTOR="default"
HT=0
PACKAGE=0
while getopts "V:T:t:m:a:b:hcpd:x:o:" opt; do
case ${opt} in
"V")
if [ ${OPTARG} == "1" ]; then
VECTOR=1
elif [ ${OPTARG} == "2" ]; then
VECTOR=2
elif [ ${OPTARG} == "4" ]; then
VECTOR=4
elif [ ${OPTARG} == "8" ]; then
VECTOR=8
elif [ ${OPTARG} == "16" ]; then
VECTOR=16
elif [ ${OPTARG} == "all" ]; then
VECTOR="all"
else
usage
fi
;;
"T")
if [ ${OPTARG} == "gpu" ]; then
OPTS="${OPTS} --opencl-device-types 2"
TYPE="Gpu"
elif [ ${OPTARG} == "cpu" ]; then
OPTS="${OPTS} --opencl-device-types 1"
TYPE="Cpu"
elif [ ${OPTARG} == "all" ]; then
OPTS="${OPTS} --opencl-device-types 1,2"
TYPE="Cpu + Gpu"
else
usage
fi
;;
"t")
if [ ${OPTARG} == "single" ]; then
MODE=0
elif [ ${OPTARG} == "multi" ]; then
MODE=1
elif [ ${OPTARG} == "all" ]; then
MODE=2
else
usage
fi
;;
"m")
if [ ${OPTARG} == "all" ]; then
HT=65535
else
HT=${OPTARG}
fi
;;
"a")
if [ ${OPTARG} == "all" ]; then
ATTACK=65535
elif [ ${OPTARG} == "0" ]; then
ATTACK=0
elif [ ${OPTARG} == "1" ]; then
ATTACK=1
elif [ ${OPTARG} == "3" ]; then
ATTACK=3
elif [ ${OPTARG} == "6" ]; then
ATTACK=6
elif [ ${OPTARG} == "7" ]; then
ATTACK=7
else
usage
fi
;;
"c")
OPTS="${OPTS} --markov-disable"
MARKOV="disabled"
;;
"d")
PACKAGE_FOLDER=$( echo ${OPTARG} | sed 's!/$!!g' )
;;
"p")
PACKAGE=1
;;
"x")
if [ ${OPTARG} == "32" ]; then
ARCHITECTURE=32
elif [ ${OPTARG} == "64" ]; then
ARCHITECTURE=64
else
usage
fi
;;
"o")
if [ ${OPTARG} == "win" ]; then
EXTENSION="exe"
elif [ ${OPTARG} == "linux" ]; then
EXTENSION="bin"
elif [ ${OPTARG} == "osx" ]; then
EXTENSION="app"
else
usage
fi
;;
\?)
usage
;;
"h")
usage
;;
esac
done
if [ "${TYPE}" == "null" ]; then
TYPE="Gpu"
OPTS="${OPTS} --opencl-device-types 2"
fi
if [ -n "${ARCHITECTURE}" ]; then
BIN="${BIN}${ARCHITECTURE}"
fi
if [ -n "${EXTENSION}" ]; then
BIN="${BIN}.${EXTENSION}"
fi
if [ -n "${PACKAGE_FOLDER}" ]; then
if [ ! -e "${PACKAGE_FOLDER}" ]; then
echo "! folder '${PACKAGE_FOLDER}' does not exist"
exit 1
fi
fi
if [ "${PACKAGE}" -eq 0 -o -z "${PACKAGE_FOLDER}" ]; then
# check existence of binary
if [ ! -e "${BIN}" ]; then
echo "! ${BIN} not found, please build binary before run test."
exit 1
fi
# filter by hash_type
if [ ${HT} -ne 65535 ]; then
# validate filter
check=0
for hash_type in $(echo ${HASH_TYPES}); do
if [ ${HT} -ne ${hash_type} ]; then continue; fi
check=1
break
done
if [ ${check} -ne 1 ]; then
echo "! invalid hash type selected ..."
usage
fi
fi
if [ -z "${PACKAGE_FOLDER}" ]; then
# make new dir
mkdir -p ${OUTD}
# generate random test entry
if [ ${HT} -eq 65535 ]; then
perl tools/test.pl single > ${OUTD}/all.sh
else
perl tools/test.pl single ${HT} > ${OUTD}/all.sh
fi
else
OUTD=${PACKAGE_FOLDER}
fi
rm -rf ${OUTD}/logfull.txt && touch ${OUTD}/logfull.txt
# populate array of hash types where we only should check if pass is in output (not both hash:pass)
IFS=';' read -ra PASS_ONLY <<< "${MATCH_PASS_ONLY}"
IFS=';' read -ra TIMEOUT_ALGOS <<< "${SLOW_ALGOS}"
IFS=';' read -ra NEVER_CRACK_ALGOS <<< "${NEVER_CRACK}"
# for these particular algos we need to save the output to a temporary file
IFS=';' read -ra FILE_BASED_ALGOS <<< "${HASHFILE_ONLY}"
for hash_type in $(echo $HASH_TYPES); do
if [[ ${HT} -ne 65535 ]] && [[ ${HT} -ne ${hash_type} ]]; then continue; fi
if [ -z "${PACKAGE_FOLDER}" ]; then
# init test data
init
else
echo "[ ${OUTD} ] > Run packaged test for hash type $hash_type."
fi
if [ "${PACKAGE}" -eq 0 ]; then
# should we check only the pass?
contains ${hash_type} ${PASS_ONLY}
pass_only=$?
contains ${hash_type} ${SLOW_ALGOS}
IS_SLOW=$?
if [[ ${hash_type} -eq 400 ]]; then
# we use phpass as slow hash for testing the AMP kernel
IS_SLOW=0
fi
OPTS_OLD=${OPTS}
VECTOR_OLD=${VECTOR}
for CUR_WIDTH in $(echo $VECTOR_WIDTHS); do
if [ "${VECTOR_OLD}" == "all" ] || [ "${VECTOR_OLD}" == "default" ] || [ "${VECTOR_OLD}" == "${CUR_WIDTH}" ]; then
if [ "${VECTOR_OLD}" == "default" ] && \
[ "${CUR_WIDTH}" != "1" ] && \
[ "${CUR_WIDTH}" != "4" ]; then
continue
fi
VECTOR=${CUR_WIDTH}
OPTS="${OPTS_OLD} --opencl-vector-width ${VECTOR}"
if [[ ${IS_SLOW} -eq 1 ]]; then
# run attack mode 0 (stdin)
if [[ ${ATTACK} -eq 65535 ]] || [[ ${ATTACK} -eq 0 ]]; then attack_0; fi
else
# run attack mode 0 (stdin)
if [[ ${ATTACK} -eq 65535 ]] || [[ ${ATTACK} -eq 0 ]]; then attack_0; fi
# run attack mode 1 (combinator)
if [[ ${ATTACK} -eq 65535 ]] || [[ ${ATTACK} -eq 1 ]]; then attack_1; fi
# run attack mode 3 (bruteforce)
if [[ ${ATTACK} -eq 65535 ]] || [[ ${ATTACK} -eq 3 ]]; then attack_3; fi
# run attack mode 6 (dict+mask)
if [[ ${ATTACK} -eq 65535 ]] || [[ ${ATTACK} -eq 6 ]]; then attack_6; fi
# run attack mode 7 (mask+dict)
if [[ ${ATTACK} -eq 65535 ]] || [[ ${ATTACK} -eq 7 ]]; then attack_7; fi
fi
fi
done
OPTS="${OPTS_OLD}"
VECTOR="${VECTOR_OLD}"
fi
done
else
OUTD=${PACKAGE_FOLDER}
fi
# fix logfile
if [ "${PACKAGE}" -eq 0 ]; then
cat -A ${OUTD}/logfull.txt | sed -e 's/\^M \^M//g' | sed -e 's/\$$//g' > ${OUTD}/test_report.log
fi
rm -rf ${OUTD}/logfull.txt
if [ "${PACKAGE}" -eq 1 ]; then
echo "[ ${OUTD} ] > Generate package ${OUTD}/${OUTD}.7z"
cp "${BASH_SOURCE[0]}" ${OUTD}/test.sh
# if we package from a given folder, we need to check if e.g. the files needed for multi mode are there
if [ -n "${PACKAGE_FOLDER}" ]; then
MODE=2
ls "${PACKAGE_FOLDER}"/*multi* &> /dev/null
if [ "${?}" -ne 0 ]
then
MODE=0
fi
HT=$(grep -o -- "-m *[0-9]*" ${PACKAGE_FOLDER}/all.sh | sort -u | sed 's/-m //' 2> /dev/null)
if [ -n "${HT}" ]; then
HT_COUNT=$(echo "${HT}" | wc -l)
if [ "${HT_COUNT}" -gt 1 ]; then
HT=65535
fi
fi
#ATTACK=65535 # more appropriate ?
fi
# for convenience: 'run package' is default action for packaged test.sh ( + add other defaults too )
sed -i -e 's/^\(PACKAGE_FOLDER\)=""/\1="$( echo "${BASH_SOURCE[0]}" | sed \"s!test.sh\\$!!\" )"/' \
-e "s/^\(HT\)=0/\1=${HT}/" \
-e "s/^\(MODE\)=0/\1=${MODE}/" \
-e "s/^\(ATTACK\)=0/\1=${ATTACK}/" \
${OUTD}/test.sh
${PACKAGE_CMD} ${OUTD}/${OUTD}.7z ${OUTD}/ &> /dev/null
fi