Linux premium180.web-hosting.com 4.18.0-553.54.1.lve.el8.x86_64 #1 SMP Wed Jun 4 13:01:13 UTC 2025 x86_64
LiteSpeed
: 162.0.209.168 | : 216.73.216.187
Cant Read [ /etc/named.conf ]
8.3.30
nortrmdp
www.github.com/MadExploits
Terminal
AUTO ROOT
Adminer
Backdoor Destroyer
Linux Exploit
Lock Shell
Lock File
Create User
CREATE RDP
PHP Mailer
BACKCONNECT
UNLOCK SHELL
HASH IDENTIFIER
CPANEL RESET
CREATE WP USER
BLACK DEFEND!
README
+ Create Folder
+ Create File
/
usr /
share /
perl5 /
vendor_perl /
Authen /
NTLM /
[ HOME SHELL ]
Name
Size
Permission
Action
DES.pm
6.84
KB
-rw-r--r--
MD4.pm
4.7
KB
-rw-r--r--
Delete
Unzip
Zip
${this.title}
Close
Code Editor : MD4.pm
#!/usr/local/bin/perl # # This is a partial implentation of the MD4 checksum code. # # NOTE # # The function &add() in this module is required as we need to be # able to add 32bit integers ignoring overflow. The C code this is # based on does this because it uses the underlying hardware to # perform the required addition however we need to be more careful # as Perl will overflow an int and produce a result of 0xffffffff # which is not very useful. The &add() function splits its arguments # into two shorts and adds these carrying overflow from the low short # to the high short and ignoring carry from the high short. Not # exactly efficient, but it works and is fast enough for the purposes # of this implementation # package Authen::NTLM::MD4; use vars qw($VERSION @ISA @EXPORT); require Exporter; $VERSION = "1.02"; @ISA = qw(Exporter); @EXPORT = qw(mdfour); my ($A, $B, $C, $D); my (@X, $M); sub mdfour { my ($in) = @_; my ($i, $pos); my $len = length($in); my $b = $len * 8; $in .= "\0"x128; $A = 0x67452301; $B = 0xefcdab89; $C = 0x98badcfe; $D = 0x10325476; $pos = 0; while ($len > 64) { ©64(substr($in, $pos, 64)); &mdfour64; $pos += 64; $len -= 64; } my $buf = substr($in, $pos, $len); $buf .= sprintf "%c", 0x80; if ($len <= 55) { $buf .= "\0"x(55-$len); $buf .= pack("V", $b); $buf .= "\0"x4; ©64($buf); &mdfour64; } else { $buf .= "\0"x(120-$len); $buf .= pack("V", $b); $buf .= "\0"x4; ©64(substr($buf, 0, 64)); &mdfour64; ©64(substr($buf, 64, 64)); &mdfour64; } my $out = pack("VVVV", $A, $B, $C, $D); return $out; } sub F { my ($X, $Y, $Z) = @_; my $res = ($X&$Y) | ((~$X)&$Z); return $res; } sub G { my ($X, $Y, $Z) = @_; return ($X&$Y) | ($X&$Z) | ($Y&$Z); } sub H { my ($X, $Y, $Z) = @_; return $X^$Y^$Z; } sub lshift { my ($x, $s) = @_; $x &= 0xffffffff; return (($x<<$s)&0xffffffff) | ($x>>(32-$s)); } sub ROUND1 { my ($a, $b, $c, $d, $k, $s) = @_; my $e = &add($a, &F($b, $c, $d), $X[$k]); return &lshift($e, $s); } sub ROUND2 { my ($a, $b, $c, $d, $k, $s) = @_; my $e = &add($a, &G($b, $c, $d), $X[$k], 0x5a827999); return &lshift($e, $s); } sub ROUND3 { my ($a, $b, $c, $d, $k, $s) = @_; my $e = &add($a, &H($b, $c, $d), $X[$k], 0x6ed9eba1); return &lshift($e, $s); } sub mdfour64 { my ($i, $AA, $BB, $CC, $DD); @X = unpack("N16", $M); $AA = $A; $BB = $B; $CC = $C; $DD = $D; $A = &ROUND1($A,$B,$C,$D, 0, 3); $D = &ROUND1($D,$A,$B,$C, 1, 7); $C = &ROUND1($C,$D,$A,$B, 2,11); $B = &ROUND1($B,$C,$D,$A, 3,19); $A = &ROUND1($A,$B,$C,$D, 4, 3); $D = &ROUND1($D,$A,$B,$C, 5, 7); $C = &ROUND1($C,$D,$A,$B, 6,11); $B = &ROUND1($B,$C,$D,$A, 7,19); $A = &ROUND1($A,$B,$C,$D, 8, 3); $D = &ROUND1($D,$A,$B,$C, 9, 7); $C = &ROUND1($C,$D,$A,$B,10,11); $B = &ROUND1($B,$C,$D,$A,11,19); $A = &ROUND1($A,$B,$C,$D,12, 3); $D = &ROUND1($D,$A,$B,$C,13, 7); $C = &ROUND1($C,$D,$A,$B,14,11); $B = &ROUND1($B,$C,$D,$A,15,19); $A = &ROUND2($A,$B,$C,$D, 0, 3); $D = &ROUND2($D,$A,$B,$C, 4, 5); $C = &ROUND2($C,$D,$A,$B, 8, 9); $B = &ROUND2($B,$C,$D,$A,12,13); $A = &ROUND2($A,$B,$C,$D, 1, 3); $D = &ROUND2($D,$A,$B,$C, 5, 5); $C = &ROUND2($C,$D,$A,$B, 9, 9); $B = &ROUND2($B,$C,$D,$A,13,13); $A = &ROUND2($A,$B,$C,$D, 2, 3); $D = &ROUND2($D,$A,$B,$C, 6, 5); $C = &ROUND2($C,$D,$A,$B,10, 9); $B = &ROUND2($B,$C,$D,$A,14,13); $A = &ROUND2($A,$B,$C,$D, 3, 3); $D = &ROUND2($D,$A,$B,$C, 7, 5); $C = &ROUND2($C,$D,$A,$B,11, 9); $B = &ROUND2($B,$C,$D,$A,15,13); $A = &ROUND3($A,$B,$C,$D, 0, 3); $D = &ROUND3($D,$A,$B,$C, 8, 9); $C = &ROUND3($C,$D,$A,$B, 4,11); $B = &ROUND3($B,$C,$D,$A,12,15); $A = &ROUND3($A,$B,$C,$D, 2, 3); $D = &ROUND3($D,$A,$B,$C,10, 9); $C = &ROUND3($C,$D,$A,$B, 6,11); $B = &ROUND3($B,$C,$D,$A,14,15); $A = &ROUND3($A,$B,$C,$D, 1, 3); $D = &ROUND3($D,$A,$B,$C, 9, 9); $C = &ROUND3($C,$D,$A,$B, 5,11); $B = &ROUND3($B,$C,$D,$A,13,15); $A = &ROUND3($A,$B,$C,$D, 3, 3); $D = &ROUND3($D,$A,$B,$C,11, 9); $C = &ROUND3($C,$D,$A,$B, 7,11); $B = &ROUND3($B,$C,$D,$A,15,15); $A = &add($A, $AA); $B = &add($B, $BB); $C = &add($C, $CC); $D = &add($D, $DD); $A &= 0xffffffff; $B &= 0xffffffff; $C &= 0xffffffff; $D &= 0xffffffff; map {$_ = 0} @X; } sub copy64 { my ($in) = @_; $M = pack("V16", unpack("N16", $in)); } # see note at top of this file about this function sub add { my (@nums) = @_; my ($r_low, $r_high, $n_low, $l_high); my $num; $r_low = $r_high = 0; foreach $num (@nums) { $n_low = $num & 0xffff; $n_high = ($num&0xffff0000)>>16; $r_low += $n_low; ($r_low&0xf0000) && $r_high++; $r_low &= 0xffff; $r_high += $n_high; $r_high &= 0xffff; } return ($r_high<<16)|$r_low; } 1;
Close
