Provided by: libdata-formvalidator-perl_4.88-2_all bug

NAME

       Data::FormValidator::Constraints - Basic sets of constraints on input profile.

SYNOPSIS

        use Data::FormValidator::Constraints qw(:closures);

       In an Data::FormValidator profile:

           constraint_methods => {
               email   => email(),
               phone   => american_phone(),
               first_names =>  {
                  constraint_method => FV_max_length(3),
                  name => 'my_custom_name',
              },
           },
           msgs => {
              constraints => {
                   my_custom_name => 'My message',
              },
           },

DESCRIPTION

       These are the builtin constraints that can be specified by name in the input profiles.

       Be sure to check out the SEE ALSO section for even more pre-packaged constraints you can
       use.

   FV_length_between(1,23)
   FV_max_length(23)
   FV_min_length(1)
         use Data::FormValidator::Constraints qw(
           FV_length_between
           FV_min_length
           FV_max_length
         );

         constraint_methods => {

           # specify a min and max, inclusive
           last_name        => FV_length_between(1,23),

         }

       Specify a length constraint for a field.

       These constraints have a different naming convention because they are higher-order
       functions. They take input and return a code reference to a standard constraint method. A
       constraint name of "length_between", "min_length", or "max_length" will be set,
       corresponding to the function name you choose.

       The checks are all inclusive, so a max length of '100' will allow the length 100.

       Length is measured in perl characters as opposed to bytes or anything else.

       This constraint will untaint your data if you have untainting turned on. However, a length
       check alone may not be enough to insure the safety of the data you are receiving.  Using
       additional constraints to check the data is encouraged.

   FV_eq_with
         use Data::FormValidator::Constraints qw( FV_eq_with );

         constraint_methods => {
           password  => FV_eq_with('password_confirm'),
         }

       Compares the current field to another field.  A constraint name of "eq_with" will be set.

   FV_num_values
           use Data::FormValidator::Constraints qw ( FV_num_values );

           constraint_methods => {
               attachments => FV_num_values(4),
           }

       Checks the number of values in the array named by this param.  Note that this is useful
       for making sure that only one value was passed for a given param (by supplying a size
       argument of 1).  A constraint name of "num_values" will be set.

   FV_num_values_between
           use Data::FormValidator::Constraints qw ( FV_num_values_between );

           constraint_methods => {
               attachments => FV_num_values_between(1,4),
           }

       Checks that the number of values in the array named by this param is between the supplied
       bounds (inclusively).  A constraint name of "num_values_between" will be set.

   email
       Checks if the email LOOKS LIKE an email address. This should be sufficient 99% of the
       time.

       Look elsewhere if you want something super fancy that matches every possible variation
       that is valid in the RFC, or runs out and checks some MX records.

   state_or_province
       This one checks if the input correspond to an american state or a canadian province.

   state
       This one checks if the input is a valid two letter abbreviation of an American state.

   province
       This checks if the input is a two letter Canadian province abbreviation.

   zip_or_postcode
       This constraints checks if the input is an American zipcode or a Canadian postal code.

   postcode
       This constraints checks if the input is a valid Canadian postal code.

   zip
       This input validator checks if the input is a valid american zipcode : 5 digits followed
       by an optional mailbox number.

   phone
       This one checks if the input looks like a phone number, (if it contains at least 6
       digits.)

   american_phone
       This constraints checks if the number is a possible North American style of phone number :
       (XXX) XXX-XXXX. It has to contains 7 or more digits.

   cc_number
       This constraint references the value of a credit card type field.

        constraint_methods => {
           cc_no      => cc_number({fields => ['cc_type']}),
         }

       The number is checked only for plausibility, it checks if the number could be valid for a
       type of card by checking the checksum and looking at the number of digits and the number
       of digits of the number.

       This functions is only good at catching typos. IT DOESN'T CHECK IF THERE IS AN ACCOUNT
       ASSOCIATED WITH THE NUMBER.

   cc_exp
       This one checks if the input is in the format MM/YY or MM/YYYY and if the MM part is a
       valid month (1-12) and if that date is not in the past.

   cc_type
       This one checks if the input field starts by M(asterCard), V(isa), A(merican express) or
       D(iscovery).

   ip_address
       This checks if the input is formatted like a dotted decimal IP address (v4).  For other
       kinds of IP address method, See Regexp::Common::net which provides several more options.
       "REGEXP::COMMON SUPPORT" explains how we easily integrate with Regexp::Common.

RENAMING BUILT-IN CONSTAINTS

       If you'd like, you can rename any of the built-in constraints. Just define the
       constraint_method and name in a hashref, like this:

               constraint_methods => {
                   first_names =>  {
                       constraint_method => FV_max_length(3),
                       name => 'custom_length',
                   }
               },

REGEXP::COMMON SUPPORT

       Data::FormValidator also includes built-in support for using any of regular expressions in
       Regexp::Common as named constraints. Simply use the name of regular expression you want.
       This works whether you want to untaint the data or not. For example:

        use Data::FormValidator::Constraints qw(:regexp_common);

        constraint_methods => {
           my_ip_address => FV_net_IPv4(),

           # An example with parameters
           other_ip      => FV_net_IPv4(-sep=>' '),
        }

       Notice that the routines are named with the prefix "FV_" instead of "RE_" now.  This is
       simply a visual cue that these are slightly modified versions. We've made a wrapper for
       each Regexp::Common routine so that it can be used as a named constraint like this.

       Be sure to check out the Regexp::Common syntax for how its syntax works. It will make more
       sense to add future regular expressions to Regexp::Common rather than to
       Data::FormValidator.

PROCEDURAL INTERFACE

       You may also call these functions directly through the procedural interface by either
       importing them directly or importing the whole :validators group.  This is useful if you
       want to use the built-in validators out of the usual profile specification interface.

       For example, if you want to access the email validator directly, you could either do:

           use Data::FormValidator::Constraints (qw/valid_email/);
           or
           use Data::FormValidator::Constraints (:validators);

           if (valid_email($email)) {
             # do something with the email address
           }

       Notice that when you call validators directly, you'll need to prefix the validator name
       with "valid_"

       Each validator also has a version that returns the untainted value if the validation
       succeeded. You may call these functions directly through the procedural interface by
       either importing them directly or importing the :matchers group. For example if you want
       to untaint a value with the email validator directly you may:

           if ($email = match_email($email)) {
               system("echo $email");
           }
           else {
               die "Unable to validate email";
           }

       Notice that when you call validators directly and want them to return an untainted value,
       you'll need to prefix the validator name with "match_"

WRITING YOUR OWN CONSTRAINT ROUTINES

   New School Constraints Overview
       This is the current recommended way to write constraints. See also "Old School
       Constraints".

       The most flexible way to create constraints to use closures-- a normal seeming outer
       subroutine which returns a customized DFV method subroutine as a result.  It's easy to do.
       These "constraint methods" can be named whatever you like, and imported normally into the
       name space where the profile is located.

       Let's look at an example.

         # Near your profile
         # Of course, you don't have to export/import if your constraints are in the same
         # package as the profile.
         use My::Constraints 'coolness';

         # In your profile
         constraint_methods => {
           email            => email(),
           prospective_date => coolness( 40, 60,
               {fields => [qw/personality smarts good_looks/]}
           ),
         }

       Let's look at how this complex "coolness" constraint method works. The interface asks for
       users to define minimum and maximum coolness values, as well as declaring three data field
       names that we should peek into to look their values.

       Here's what the code might look like:

         sub coolness {
           my ($min_cool,$max_cool, $attrs) = @_;
           my ($personality,$smarts,$looks) = @{ $attrs->{fields} } if $attrs->{fields};
           return sub {
               my $dfv = shift;

               # Name it to refer to in the 'msgs' system.
               $dfv->name_this('coolness');

               # value of 'prospective_date' parameter
               my $val = $dfv->get_current_constraint_value();

               # get other data to refer to
               my $data = $dfv->get_filtered_data;

               my $has_all_three = ($data->{$personality} && $data->{$smarts} && $data->{$looks});
               return ( ($val >= $min_cool) && ($val <= $max_cool) && $has_all_three );
           }
         }

   Old School Constraints
       Here is documentation on how old school constraints are created. These are supported, but
       the new school style documented above is recommended.

       See also the "validator_packages" option in the input profile, for loading sets of old
       school constraints from other packages.

       Old school constraint routines are named two ways. Some are named with the prefix "match_"
       while others start with "valid_". The difference is that the "match_" routines are built
       to untaint the data and return a safe version of it if it validates, while "valid_"
       routines simply return a true value if the validation succeeds and false otherwise.

       It is preferable to write "match_" routines that untaint data for the extra security
       benefits. Plus, Data::FormValidator will AUTOLOAD a "valid_" version if anyone tries to
       use it, so you only need to write one routine to cover both cases.

       Usually constraint routines only need one input, the value being specified.  However,
       sometimes more than one value is needed.

       Example:

               image_field  => {
                   constraint_method  => 'max_image_dimensions',
                   params => [\100,\200],
               },

       Using that syntax, the first parameter that will be passed to the routine is the
       Data::FormValidator object. The remaining parameters will come from the "params" array.
       Strings will be replaced by the values of fields with the same names, and references will
       be passed directly.

       In addition to "constraint_method", there is also an even older technique using the name
       "constraint" instead. Routines that are designed to work with "constraint" don't have
       access to Data::FormValidator object, which means users need to pass in the name of the
       field being validated. Besides adding unnecessary syntax to the user interface, it won't
       work in conjunction with "constraint_regexp_map".

   Methods available for use inside of constraints
       A few useful methods to use on the Data::FormValidator::Results object are available to
       you to use inside of your routine.

       get_input_data()

       Returns the raw input data. This may be a CGI object if that's what was used in the
       constraint routine.

       Examples:

        # Raw and uncensored
        my $data = $self->get_input_data;

        # tamed to be a hashref, if it wasn't already
        my $data = $self->get_input_data( as_hashref => 1 );

       get_filtered_data()

        my $data = $self->get_filtered_data;

       Returns the valid filtered data as a hashref, regardless of whether it started out as a
       CGI.pm compatible object. Multiple values are expressed as array references.

       get_current_constraint_field()

       Returns the name of the current field being tested in the constraint.

       Example:

        my $field = $self->get_current_constraint_field;

       This reduces the number of parameters that need to be passed into the routine and allows
       multi-valued constraints to be used with "constraint_regexp_map".

       For complete examples of multi-valued constraints, see
       Data::FormValidator::Constraints::Upload

       get_current_constraint_value()

       Returns the name of the current value being tested in the constraint.

       Example:

        my $value = $self->get_current_constraint_value;

       This reduces the number of parameters that need to be passed into the routine and allows
       multi-valued constraints to be used with "constraint_regexp_map".

       get_current_constraint_name()

       Returns the name of the current constraint being applied

       Example:

        my $value = $self->get_current_constraint_name;

       This is useful for building a constraint on the fly based on its name.  It's used
       internally as part of the interface to the Regexp::Commmon regular expressions.

       untainted_constraint_value()

          return $dfv->untainted_constraint_value($match);

       If you have written a constraint which untaints, use this method to return the untainted
       result. It will prepare the right result whether the user has requested untainting or not.

       name_this()

       set_current_constraint_name()

       Sets the name of the current constraint being applied.

       Example:

        sub my_constraint {
           my @outer_params = @_;
           return sub {
               my $dfv = shift;
               $dfv->set_current_constraint_name('my_constraint');
               my @params = @outer_params;
               # do something constraining here...
           }
        }

       By returning a closure which uses this method,  you can build an advanced named constraint
       in your profile, before you actually have access to the DFV object that will be used
       later. See Data::FormValidator::Constraints::Upload for an example.

       "name_this" is a provided as a shorter synonym.

       The "meta()" method may also be useful to communicate meta data that may have been found.
       See Data::FormValidator::Results for documentation of that method.

BACKWARDS COMPATIBILITY

       Prior to Data::FormValidator 4.00, constraints were specified a bit differently.  This
       older style is still supported.

       It was not necessary to explicitly load some constraints into your name space, and the
       names were given as strings, like this:

           constraints  => {
               email         => 'email',
               fax           => 'american_phone',
               phone         => 'american_phone',
               state         => 'state',
               my_ip_address => 'RE_net_IPv4',
               other_ip => {
                   constraint => 'RE_net_IPv4',
                   params => [ \'-sep'=> \' ' ],
               },
               my_cc_no      => {
                   constraint => 'cc_number',
                   params => [qw/cc_no cc_type/],
               }
           },

SEE ALSO

   Constraints available in other modules
       Data::FormValidator::Constraints::Upload - validate the bytes, format and dimensions of
       file uploads
       Data::FormValidator::Constraints::DateTime - A newer DateTime constraint module. May save
       you a step of transforming the date into a more useful format after it's validated.
       Data::FormValidator::Constraints::Dates - the original DFV date constraint module. Try the
       newer one first!
       Data::FormValidator::Constraints::Japanese - Japan-specific constraints
       Data::FormValidator::Constraints::MethodsFactory - a useful collection of tools generate
       more complex constraints. Recommended!

   Related modules in this package
       Data::FormValidator::Filters - transform data before constraints are applied
       Data::FormValidator::ConstraintsFactory - This is a historical collection of constraints
       that suffer from cumbersome names. They are worth reviewing though-- "make_and_constraint"
       will allow one to validate against a list of constraints and shortcircuit if the first one
       fails. That's perfect if the second constraint depends on the first one having passed. For
       a modern version of this toolkit, see Data::FormValidator::Constraints::MethodsFactory.
       Data::FormValidator

CREDITS

       Some of those input validation functions have been taken from MiniVend by Michael J. Heins

       The credit card checksum validation was taken from contribution by Bruce Albrecht to the
       MiniVend program.

AUTHORS

           Francis J. Lacoste
           Michael J. Heins
           Bruce Albrecht
           Mark Stosberg

COPYRIGHT

       Copyright (c) 1999 iNsu Innovations Inc.  All rights reserved.

       Parts Copyright 1996-1999 by Michael J. Heins Parts Copyright 1996-1999 by Bruce Albrecht
       Parts Copyright 2005-2009 by Mark Stosberg

       This program is free software; you can redistribute it and/or modify it under the terms as
       perl itself.