| Current File : //usr/share/webmin/useradmin/md5-lib.pl |
# Functions for MD5 and SHA1 password encryption
use strict;
use warnings;
no warnings 'redefine';
no warnings 'uninitialized';
our %config;
# check_md5()
# Returns a perl module name if the needed perl module(s) for MD5 encryption
# are not installed, or undef if they are
sub check_md5
{
# On some systems, the crypt function just works!
return undef if (&unix_crypt_supports_md5());
# Try Perl modules
eval "use MD5";
if (!$@) {
eval "use Digest::MD5";
if ($@) {
return "Digest::MD5";
}
}
return undef;
}
# encrypt_md5(string, [salt])
# Returns a string encrypted in MD5 format
sub encrypt_md5
{
my ($passwd, $salt) = @_;
my $magic = '$1$';
if ($salt && $salt =~ /^\$1\$([^\$]+)/) {
# Extract actual salt from already encrypted password
$salt = $1;
}
if ($salt && $salt !~ /^[a-z0-9\/\.]{8}$/i) {
# Non-MD5 salt
$salt = undef;
}
$salt ||= substr(time(), -8);
# Use built-in crypt support for MD5, if we can
if (&unix_crypt_supports_md5()) {
return crypt($passwd, $magic.$salt.'$xxxxxxxxxxxxxxxxxxxxxx');
}
# Add the password, magic and salt
my $cls = "MD5";
eval "use MD5";
if ($@) {
$cls = "Digest::MD5";
eval "use Digest::MD5";
if ($@) {
&error("Missing MD5 or Digest::MD5 perl modules");
}
}
my $ctx = eval "new $cls";
$ctx->add($passwd);
$ctx->add($magic);
$ctx->add($salt);
# Add some more stuff from the hash of the password and salt
my $ctx1 = eval "new $cls";
$ctx1->add($passwd);
$ctx1->add($salt);
$ctx1->add($passwd);
my $final = $ctx1->digest();
for(my $pl=length($passwd); $pl>0; $pl-=16) {
$ctx->add($pl > 16 ? $final : substr($final, 0, $pl));
}
# This piece of code seems rather pointless, but it's in the C code that
# does MD5 in PAM so it has to go in!
my $j = 0;
for(my $i=length($passwd); $i; $i >>= 1) {
if ($i & 1) {
$ctx->add("\0");
}
else {
$ctx->add(substr($passwd, $j, 1));
}
}
$final = $ctx->digest();
# This loop exists only to waste time
for(my $i=0; $i<1000; $i++) {
my $ctx1 = eval "new $cls";
$ctx1->add($i & 1 ? $passwd : $final);
$ctx1->add($salt) if ($i % 3);
$ctx1->add($passwd) if ($i % 7);
$ctx1->add($i & 1 ? $final : $passwd);
$final = $ctx1->digest();
}
# Convert the 16-byte final string into a readable form
my $rv = $magic.$salt.'$';
my @final = map { ord($_) } split(//, $final);
my $l = ($final[ 0]<<16) + ($final[ 6]<<8) + $final[12];
$rv .= &to64($l, 4);
$l = ($final[ 1]<<16) + ($final[ 7]<<8) + $final[13];
$rv .= &to64($l, 4);
$l = ($final[ 2]<<16) + ($final[ 8]<<8) + $final[14];
$rv .= &to64($l, 4);
$l = ($final[ 3]<<16) + ($final[ 9]<<8) + $final[15];
$rv .= &to64($l, 4);
$l = ($final[ 4]<<16) + ($final[10]<<8) + $final[ 5];
$rv .= &to64($l, 4);
$l = $final[11];
$rv .= &to64($l, 2);
return $rv;
}
# unix_crypt_supports_md5()
# Returns 1 if the built-in crypt() function can already do MD5
sub unix_crypt_supports_md5
{
my $hash = '$1$A9wB3O18$zaZgqrEmb9VNltWTL454R/';
my $newhash = eval { crypt('test', $hash) };
return $newhash eq $hash;
}
our @itoa64 = split(//, "./0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz");
sub to64
{
my ($v, $n) = @_;
my $r = "";
while(--$n >= 0) {
$r .= $itoa64[$v & 0x3f];
$v >>= 6;
}
return $r;
}
sub check_sha1
{
eval "use Digest::SHA1";
return undef if (!$@);
eval "use Digest::SHA";
return undef if (!$@);
return "Digest::SHA";
}
# encrypt_sha1(password)
# Encrypts a password in SHA1 format
sub encrypt_sha1
{
my ($pass) = @_;
my $sh = eval "use Digest::SHA1 qw(sha1_base64);return sha1_base64(\$pass);";
if ($@) {
$sh = eval "use Digest::SHA qw(sha1_base64);return sha1_base64(\$pass);";
}
return "{SHA}$sh=";
}
# encrypt_sha1_hash(password, salt)
# Hashes a combined salt+password with SHA1, and returns it in hex. Used on OSX
sub encrypt_sha1_hash
{
my ($pass, $salt) = @_;
# XXX not done yet??
}
# check_blowfish()
# Returns an missing Perl module if blowfish is not available, undef if OK
sub check_blowfish
{
eval "use Crypt::Eksblowfish::Bcrypt";
return $@ ? "Crypt::Eksblowfish::Bcrypt" : undef;
}
# encrypt_blowfish(password, [salt])
# Returns a string encrypted in blowfish format, suitable for /etc/shadow
sub encrypt_blowfish
{
my ($passwd, $salt) = @_;
my ($plain, $base64) = ("", "");
eval "use Crypt::Eksblowfish::Bcrypt";
if ($salt && $salt !~ /^\$2a\$/) {
# Invalid salt for Blowfish
$salt = undef;
}
if (!$salt) {
# Generate a 22-character base-64 format salt
&seed_random();
while(length($base64) < 22) {
$plain .= chr(int(rand()*96)+32);
$base64 = Crypt::Eksblowfish::Bcrypt::en_base64($plain);
}
$base64 = substr($base64, 0, 22);
$salt = '$2a$'.'08'.'$'.$base64;
}
return Crypt::Eksblowfish::Bcrypt::bcrypt($passwd, $salt);
}
# unix_crypt_supports_sha512()
# Returns 1 if the built-in crypt() function can already do SHA512
sub unix_crypt_supports_sha512
{
my $hash = '$6$Tk5o/GEE$zjvXhYf/dr5M7/jan3pgunkNrAsKmQO9r5O8sr/Cr1hFOLkWmsH4iE9hhqdmHwXd5Pzm4ubBWTEjtMeC.h5qv1';
my $newhash = eval { crypt('test', $hash) };
return $newhash eq $hash;
}
# check_sha512()
# Returns undef if SHA512 hashing is supported, or an error message if not
sub check_sha512
{
return &unix_crypt_supports_sha512() ? undef : 'Crypt::SHA';
}
# encrypt_sha512(password, [salt])
# Hashes a password, possibly with the given salt, with SHA512
sub encrypt_sha512
{
my ($passwd, $salt) = @_;
$salt = '$6$'.substr(time(), -8).'$' if (!$salt || $salt !~ /^\$6\$/);
return crypt($passwd, $salt);
}
# unix_crypt_supports_yescrypt()
# Returns 1 if the built-in crypt() function can already do yescrypt
sub unix_crypt_supports_yescrypt
{
my $hash = '$y$j9T$waHytoaqP/CEnKFroGn0S/$fxd5mVc2mBPUc3vv.cpqDckpwrWTyIm2iD4JfnVBi26';
my $newhash = eval { crypt('test', $hash) };
return $newhash eq $hash;
}
# check_yescrypt()
# Returns undef if yescrypt hashing is supported, or an error message if not
sub check_yescrypt
{
return &unix_crypt_supports_yescrypt() ? undef : 'Crypt::NaCl::Sodium';
}
# encrypt_yescrypt(password, [salt])
# Hashes a password, possibly with the given salt, with yescrypt
sub encrypt_yescrypt
{
my ($passwd, $salt) = @_;
$salt = &substitute_pattern('$y$j9T$[A-Z]{4}.[a-zA-Z0-9]{16}.$[a-zA-Z0-9]{14}.[a-zA-Z0-9]{7}/[a-zA-Z0-9]{15}/[a-zA-Z0-9]{4}') if (!$salt || $salt !~ /^\$y\$/);
return crypt($passwd, $salt);
}
# validate_password(password, hash)
# Compares a password with a hash to see if they match, returns 1 if so,
# 0 otherwise. Tries all supported hashing schemes.
sub validate_password
{
my ($passwd, $hash) = @_;
# Classic Unix crypt
my $chash = eval {
local $main::error_must_die = 1;
&unix_crypt($passwd, $hash);
};
return 1 if ($chash eq $hash);
# MD5
if (!&check_md5()) {
my $mhash = &encrypt_md5($passwd, $hash);
return 1 if ($mhash eq $hash);
}
# Blowfish
if (!&check_blowfish()) {
my $mhash = &encrypt_blowfish($passwd, $hash);
return 1 if ($mhash eq $hash);
}
# SHA512
if (!&check_sha512()) {
my $shash = &encrypt_sha512($passwd, $hash);
return 1 if ($shash && $shash eq $hash);
}
# yescrypt
if (!&check_yescrypt()) {
my $shash = &encrypt_yescrypt($passwd, $hash);
return 1 if ($shash && $shash eq $hash);
}
# Some other hashing, maybe supported by crypt
my $ohash = eval { crypt($passwd, $hash) };
return 1 if ($ohash && $ohash eq $hash);
return 0;
}
=head2 is_dictionary_word(word)
Returns 1 if some file can be found in a dictionary words file
=cut
sub is_dictionary_word
{
my ($word) = @_;
$word = lc($word);
my @files;
if ($config{'dict_file'}) {
@files = split(/\s+/, $config{'dict_file'});
}
else {
@files = ( "/usr/share/dict/words",
"/usr/share/dict/linux.words",
"/usr/dict/words" );
}
foreach my $f (@files) {
my $found = 0;
my $fh = "WORDS";
&open_readfile($fh, $f);
while(<$fh>) {
s/#.*//;
s/\s//;
if (lc($_) eq $word) {
$found = 1;
last;
}
}
close($fh);
return 1 if ($found);
}
return 0;
}
1;