X-Git-Url: http://wagnertech.de/git?a=blobdiff_plain;f=SL%2FAuth%2FPassword.pm;h=20a9ed57c4bae3e0ad84fab23f12867b33988c82;hb=9b039e37be3108c90d20d4db36f0a9a54400c800;hp=9b0f1aec7be4ccfa8e5878eb4a88bbe406655929;hpb=58fdd50dbb6b909d48b2846f36857b2bd2219441;p=kivitendo-erp.git

diff --git a/SL/Auth/Password.pm b/SL/Auth/Password.pm
index 9b0f1aec7..20a9ed57c 100644
--- a/SL/Auth/Password.pm
+++ b/SL/Auth/Password.pm
@@ -3,43 +3,80 @@ package SL::Auth::Password;
 use strict;
 
 use Carp;
+use Digest::SHA ();
+use Encode ();
+use PBKDF2::Tiny ();
 
-sub hash {
+sub hash_pkkdf2 {
   my ($class, %params) = @_;
 
-  if (!$params{algorithm}) {
-    $params{algorithm}          = 'SHA1';
-    $params{fallback_algorithm} = 'MD5';
+  # PBKDF2::Tiny expects data to be in octets. Therefore we must
+  # encode everything we hand over (login, password) to UTF-8.
+
+  # This hash method uses a random hash and not just the user's login
+  # for its salt. This is due to the official recommendation that at
+  # least eight octets of random data should be used. Therefore we
+  # must store the salt together with the hashed password. The format
+  # in the database is:
+
+  # {PBKDF2}salt-in-hex:hash-in-hex
+
+  my $salt;
+
+  if ((defined $params{stored_password}) && ($params{stored_password} =~ m/^\{PBKDF2\} ([0-9a-f]+) :/x)) {
+    $salt = (split m{:}, Encode::encode('utf-8', $1), 2)[0];
+
+  } else {
+    my @login  = map { ord } split m{}, Encode::encode('utf-8', $params{login});
+    my @random = map { int(rand(256)) } (0..16);
+
+    $salt      = join '', map { sprintf '%02x', $_ } @login, @random;
   }
 
-  if ($params{algorithm} eq 'SHA1') {
-    if (eval { require Digest::SHA1; 1 }) {
-      return '{SHA1}' . Digest::SHA1::sha1_hex($params{password});
+  my $hashed = "{PBKDF2}${salt}:" . join('', map { sprintf '%02x', ord } split m{}, PBKDF2::Tiny::derive('SHA-256', $salt, Encode::encode('utf-8', $params{password})));
 
-    } elsif ($params{fallback_algorithm}) {
-      return $class->hash_password(%params, algorithm => $params{fallback_algorithm});
+  return $hashed;
+}
 
-    } else {
-      die 'Digest::SHA1 not available';
-    }
+sub hash {
+  my ($class, %params) = @_;
 
-  } elsif ($params{algorithm} eq 'MD5') {
-    require Digest::MD5;
-    return '{MD5}' . Digest::MD5::md5_hex($params{password});
+  $params{algorithm} ||= 'PBKDF2';
 
-  } elsif ($params{algorithm} eq 'CRYPT') {
-    return '{CRYPT}' . crypt($params{password}, substr($params{login}, 0, 2));
+  my $salt = $params{algorithm} =~ m/S$/ ? $params{login} : '';
+
+  if ($params{algorithm} =~ m/^SHA256/) {
+    return '{' . $params{algorithm} . '}' . Digest::SHA::sha256_hex($salt . $params{password});
+
+  } elsif ($params{algorithm} =~ m/^PBKDF2/) {
+    return $class->hash_pkkdf2(password => $params{password}, stored_password => $params{stored_password});
 
   } else {
     croak 'Unsupported hash algorithm ' . $params{algorithm};
   }
 }
 
+sub hash_if_unhashed {
+  my ($class, %params) = @_;
+
+  my ($algorithm, $password) = $class->parse($params{password}, 'NONE');
+
+  return $params{password} unless $algorithm eq 'NONE';
+
+  if ($params{look_up_algorithm}) {
+    my $stored_password    = $params{auth}->get_stored_password($params{login});
+    my ($stored_algorithm) = $class->parse($stored_password);
+    $params{algorithm}     = $stored_algorithm;
+  }
+
+  return $class->hash(%params);
+}
+
 sub parse {
-  my ($class, $password) = @_;
+  my ($class, $password, $default_algorithm) = @_;
 
   return ($1, $2) if $password =~ m/^\{ ([^\}]+) \} (.+)/x;
-  return ('CRYPT', $password);
+  return ($default_algorithm || 'PBKDF2', $password);
 }
 
 1;