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MasterPassword/platform-independent/scripts/timetocrack

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#!/usr/bin/env bash
source bashlib
calc() { python -c "import math; print $1"; }
scale() {
local number=$1 precision=$2 definition unit weight; shift 2
for definition in "$@"; do
definition=$definition
weight=${definition#*:}
[[ ! $weight || $(calc "($number) > ($weight)") = True ]] || break
number=$(calc "(1.0 * $number) / (1.0 * ${weight:-1})") unit=${definition%:*}
done
printf "%'0.${precision}f %s" "$number" "$unit"
}
scaleTime() { scale "$1" "${2:-2}" 'Seconds:' "Hours:3600" "Days:24" "Months:30" "Years:356/30" "K Years:1000" "M Years:1000" "B Years:1000" "T Years:1000"; }
scaleEnergy() { scale "$1" "${2:-2}" 'Wh:' 'kWh:1000' 'MWh:1000' 'GWh:1000' 'TWh:1000'; }
scaleCost() { scale "$1" "${2:-2}" '$US:' 'K$US:1000' 'M$US:1000' 'B$US:1000' 'T$US:1000'; }
inf 'Calculate the maximum amount of time required to brute-force search for a password.'
## CLASSES
V="AEIOU"
C="BCDFGHJKLMNPQRSTVWXYZ"
v="aeiou"
c="bcdfghjklmnpqrstvwxyz"
A="$V$C"
a="$V$v$C$c"
n="0123456789"
o="&@%?,=[]_:-+*\$#!'^~;()/."
x="$a$n!@#\$%^&*()"
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w="@words.txt"
## METRICS
# Last update: 2016-09
# GTX Titan X -- https://gist.github.com/epixoip/1f26f43e9036d9ce0eb8
#hardwareName='GTX Titan X (SHA1)' hardwareHPS='5302M' hardwareCost='950' hardwareWatt='250' # -mpl: 4.67 m
#hardwareName='GTX Titan X (HMAC-SHA-256)' hardwareHPS='2113M' hardwareCost='950' hardwareWatt='250' # -mpl: 0.99 y
#hardwareName='GTX Titan X (bcrypt-10)' hardwareHPS='14440/32' hardwareCost='950' hardwareWatt='250' # -mpl: 4.62 My
# GTX 980 Ti -- https://gist.github.com/epixoip/d34245293ccecbfcc7c7
#hardwareName='GTX 980 Ti (SHA1)' hardwareHPS='5366M' hardwareCost='450' hardwareWatt='250' # -mpl: 4.61 m
#hardwareName='GTX 980 Ti (SHA256)' hardwareHPS='2032M' hardwareCost='450' hardwareWatt='250' # -mpl: 1.03 y
#hardwareName='GTX 980 Ti (bcrypt-10)' hardwareHPS='14521/32' hardwareCost='450' hardwareWatt='250' # -mpl: 4.60 My
# GTX 1060 -- https://gist.github.com/derpasaurusz/817638385a35026383331b22e6f2d490
#hardwareName='GTX 1060 (SHA1)' hardwareHPS='4218M' hardwareCost='400' hardwareWatt='120' # -mpl: 5.87 m
#hardwareName='GTX 1060 (SHA256)' hardwareHPS='1632M' hardwareCost='400' hardwareWatt='120' # -mpl: 1.28 y
#hardwareName='GTX 1060 (bcrypt-10)' hardwareHPS='8046/32' hardwareCost='400' hardwareWatt='120' # -mpl: 8.30 My
# GTX 1080 Ti -- https://gist.github.com/epixoip/ace60d09981be09544fdd35005051505
#hardwareName='GTX 1080 Ti (SHA1)' hardwareHPS='12696M' hardwareCost='1200' hardwareWatt='250' # -mpl: 1.95 m
#hardwareName='GTX 1080 Ti (SHA256)' hardwareHPS='4967M' hardwareCost='1200' hardwareWatt='250' # -mpl: 4.99 m
#hardwareName='GTX 1080 Ti (bcrypt-10)' hardwareHPS='23266/32' hardwareCost='1200' hardwareWatt='250' # -mpl: 2.87 My
hardwareName='GTX 1080 Ti (mpw?)' hardwareHPS='56*3' hardwareCost='1200' hardwareWatt='250' # -mpl: 2.87 My
# ASICs
#hardwareName='AntMiner L3+ (scrypt)' hardwareHPS='1M' hardwareCost='2500' hardwareWatt='800'
#hardwareName='AntMiner S9 (SHA256)' hardwareHPS='14T' hardwareCost='1288' hardwareWatt='1400'
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# mpw-bench
#hardwareName='2.3 GHz i7, 8GB (MPW)' hardwareHPS=7.46
costPerKWh='0.1' # ~0.1$/kWh
hardwareQuantity=$(calc "5000000000 / ($hardwareCost)")
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second='1'
secondsInHour='3600'
secondsInDay='3600 * 24'
secondsInMonth='3600 * 24 * 30'
secondsInYear='3600 * 24 * 356'
hardwareHPS=${hardwareHPS//k/000}
hardwareHPS=${hardwareHPS//M/000000}
hardwareHPS=${hardwareHPS//G/000000000}
hardwareHPS=${hardwareHPS//T/000000000000}
## SEARCH SPACE
hr
inf 'SEARCH SPACE'
inf 'You can use the following variables:'
for _c in V C v c A a n o x w; do
cc=${!_c}
if [[ $cc = @* ]]; then
file=${cc#@} file=${file/#~\//$HOME\/}
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if [[ ! -e $file && -e "${BASH_SOURCE%/*}/$file" ]]; then
file="${BASH_SOURCE%/*}/$file"
fi
read cs < <(wc -l < "$file")
else
cs=${#cc}
fi
inf '%s: Class contains %d entities: %s' "$_c" "$cs" "$cc"
done
spaceString=${1:-$(ask -d "x ** 12" "Size of the space?")}
case "$spaceString" in
-mp*) mpmode=${spaceString#-mp} mpmode=${mpmode:-long}
case "$mpmode" in
long|l) spaceString='(CvcvnoCvcvCvcv+CvcvCvcvnoCvcv+CvcvCvcvCvcvno+CvccnoCvcvCvcv+CvccCvcvnoCvcv+CvccCvcvCvcvno+CvcvnoCvccCvcv+CvcvCvccnoCvcv+CvcvCvccCvcvno+CvcvnoCvcvCvcc+CvcvCvcvnoCvcc+CvcvCvcvCvccno+CvccnoCvccCvcv+CvccCvccnoCvcv+CvccCvccCvcvno+CvcvnoCvccCvcc+CvcvCvccnoCvcc+CvcvCvccCvccno+CvccnoCvcvCvcc+CvccCvcvnoCvcc+CvccCvcvCvccno)' ;;
max|secure|x) spaceString='aonxxxxxxxxxxxxxxxxx+axxxxxxxxxxxxxxxxxon' ;;
med|m) spaceString='CvcnoCvc+CvcCvcno' ;;
basic|b) spaceString='aaanaaan+aannaaan+aaannaaa' ;;
*) ftl 'Unknown mode: %s' "$mpmode" || exit
esac ;;
-pw*) password=${spaceString#-pw} spaceString=
while read -N1 pwchar; do
for _c in v c a n x; do
cc=${!_c}
[[ $cc = *$pwchar* ]] && spaceString+=$_c && break
done || spaceString+=" 256 "
done <<< "$password"
;;
esac
spaceSize=$spaceString
for _c in V C v c A a n o x w; do
cc=${!_c}
if [[ $cc = @* ]]; then
file=${cc#@} file=${file/#~\//$HOME\/}
read cs < <(wc -l < "$file")
else
cs=${#cc}
fi
spaceSize=${spaceSize//$_c/ 0$cs }
done
# Replace sequences of numbers by multiplication of those numbers. Then, pretty-print.
spaceSize=$(sed -e 's/\([[:digit:]]\) *\([[:digit:]]\)/\1 * \2/g' -e 's/ 00*\([1-9]\)/ \1/g' <<< "$spaceSize")
spaceSize=$(tr -s ' ' <<< "$spaceSize") spaceSize=${spaceSize# } spaceSize=${spaceSize% }
inf ''
inf "Search space: %s = %s = %'.f possibilities to try (~%.1f bit)." "$spaceString" "$spaceSize" "$(calc "$spaceSize")" "$(bc -l <<< "l($(calc "$spaceSize")) / l(2)")"
## CLUSTER SIZE
hr
inf 'CLUSTER SIZE'
inf "Simulating %s at a rate of about %'.1f attempts per second." "$hardwareName" "$(calc "$hardwareHPS")"
cluster=$(ask -d "$hardwareQuantity" "Amount of units?")
## CALCULATE
hr
inf 'TIMING'
inf "Time to search the entire space using %dx %s units (unit rate=%'.1f H/s)" "$cluster" "$hardwareName" "$(calc "$hardwareHPS")"
seconds=$(calc "(1.0 * $spaceSize) / (1.0 * $hardwareHPS * $cluster)")
inf "Time to crack: %s (ie. %s Seconds)" "$(scale "$seconds" 2 'Seconds:' "Hours:3600" "Days:24" "Months:30" "Years:356/30")" "$seconds"
timing() {
local title=$1 unit=$2 precision=$3 seconds=$4
time=$(calc "(1.0 * $spaceSize) / (1.0 * $hardwareHPS * $cluster) / ($seconds)")
percent=$(calc "(100.0 * $hardwareHPS * $cluster * $seconds) / (1.0 * $spaceSize)")
amount=$(calc "$percent / 100.0")
if [[ $(calc "$percent < 100") = True ]]; then
inf " - %10s: %'0.${precision}f (ie. %0.1f%% / %s)" \
"$title" "$time" "$percent" "$unit"
else
inf " - %10s: %'0.${precision}f (ie. %0.1fx / %s)" \
"$title" "$time" "$amount" "$unit"
fi
}
timing Seconds s 0 "$second"
timing Hours h 2 "$secondsInHour"
timing Days d 3 "$secondsInDay"
timing Months m 4 "$secondsInMonth"
timing Years y 4 "$secondsInYear"
hr
inf 'COST'
inf "Budget required to search the entire space using %dx %s units (unit cost=%s + %s / year => %s annum, %s / HPS)" \
"$cluster" "$hardwareName" "$(scaleCost "$hardwareCost")" "$(scaleCost "1.0 * $hardwareWatt * 356 * 24 * $costPerKWh / 1000")" "$(scaleCost "$hardwareCost + 1.0 * $hardwareWatt * 356 * 24 * $costPerKWh / 1000")" "$(scaleCost "$hardwareCost / (1.0 * $hardwareHPS)")"
fixedCost=$(calc "(1.0 * $cluster * $hardwareCost)")
energyCost=$(calc "(1.0 * $cluster * $hardwareWatt * $seconds) / 3600") # Wh
totalCost=$(calc "1.0 * $fixedCost + ($energyCost * $costPerKWh) / 1000.0")
inf "Time cost : %s" "$(scaleTime "$seconds")"
inf "Fixed costs: %s" "$(scaleCost "$fixedCost")"
inf "Energy cost: %s" "$(scaleEnergy "$energyCost")"
inf "Budget cost: %s" "$(scaleCost "$totalCost")"