On this page
Caution
The documentation you are viewing is for an older version of this component.
Switch to the latest (v3) version.
Writing Validators
laminas-validator supplies a set of commonly needed validators, but many
applications have needs for custom validators. The component allows this via
implementations of Laminas\Validator\ValidatorInterface
.
Laminas\Validator\ValidatorInterface
defines two methods: isValid()
and
getMessages()
. An object that implements the interface may be added to a
validator chain using Laminas\Validator\ValidatorChain::addValidator()
. Such
objects may also be used with
laminas-inputfilter.
Validators will return a boolean value from isValid()
, and report information
regarding why a value failed validation via getMessages()
. The
availability of the reasons for validation failures may be valuable to an
application for various purposes, such as providing statistics for usability
analysis.
Basic validation failure message functionality is implemented in
Laminas\Validator\AbstractValidator
, which you may extend for your custom
validators. Extending class you would implement the isValid()
method logic
and define the message variables and message templates that correspond to the
types of validation failures that can occur. If a value fails your validation
tests, then isValid()
should return false
. If the value passes your
validation tests, then isValid()
should return true
.
In general, the isValid()
method should not throw any exceptions, except where
it is impossible to determine whether or not the input value is valid. A few
examples of reasonable cases for throwing an exception might be if a file cannot
be opened, an LDAP server could not be contacted, or a database connection is
unavailable, where such a thing may be required for validation success or
failure to be determined.
Creating a Validation Class
The following example demonstrates how a custom validator might be written. In this case, the validator tests that a value is a floating point value.
namespace MyValid;
use Laminas\Validator\AbstractValidator;
class Float extends AbstractValidator
{
const FLOAT = 'float';
protected $messageTemplates = [
self::FLOAT => "'%value%' is not a floating point value",
];
public function isValid($value)
{
$this->setValue($value);
if (! is_float($value)) {
$this->error(self::FLOAT);
return false;
}
return true;
}
}
The class defines a template for its single validation failure message, which
includes the built-in magic parameter, %value%
. The call to setValue()
prepares the object to insert the tested value into the failure message
automatically, should the value fail validation. The call to error()
tracks a
reason for validation failure. Since this class only defines one failure
message, it is not necessary to provide error()
with the name of the failure
message template.
Writing a Validation Class having Dependent Conditions
The following example demonstrates a more complex set of validation rules:
- The input must be numeric.
- The input must fall within a range of boundary values.
An input value would fail validation for exactly one of the following reasons:
- The input value is not numeric.
- The input value is less than the minimum allowed value.
- The input value is more than the maximum allowed value.
These validation failure reasons are then translated to definitions in the class:
namespace MyValid;
use Laminas\Validator\AbstractValidator;
class NumericBetween extends AbstractValidator
{
const MSG_NUMERIC = 'msgNumeric';
const MSG_MINIMUM = 'msgMinimum';
const MSG_MAXIMUM = 'msgMaximum';
public $minimum = 0;
public $maximum = 100;
protected $messageVariables = [
'min' => 'minimum',
'max' => 'maximum',
];
protected $messageTemplates = [
self::MSG_NUMERIC => "'%value%' is not numeric",
self::MSG_MINIMUM => "'%value%' must be at least '%min%'",
self::MSG_MAXIMUM => "'%value%' must be no more than '%max%'",
];
public function isValid($value)
{
$this->setValue($value);
if (! is_numeric($value)) {
$this->error(self::MSG_NUMERIC);
return false;
}
if ($value < $this->minimum) {
$this->error(self::MSG_MINIMUM);
return false;
}
if ($value > $this->maximum) {
$this->error(self::MSG_MAXIMUM);
return false;
}
return true;
}
}
The public properties $minimum
and $maximum
have been established to provide
the minimum and maximum boundaries, respectively, for a value to successfully
validate. The class also defines two message variables that correspond to the
public properties and allow min
and max
to be used in message templates as
magic parameters, just as with value
.
Note that if any one of the validation checks in isValid()
fails, an
appropriate failure message is prepared, and the method immediately returns
false
. These validation rules are therefore sequentially dependent; that is,
if one test should fail, there is no need to test any subsequent validation
rules. This need not be the case, however. The following example illustrates how
to write a class having independent validation rules, where the validation
object may return multiple reasons why a particular validation attempt failed.
Validation with Independent Conditions, Multiple Reasons for Failure
Consider writing a validation class for password strength enforcement - when a user is required to choose a password that meets certain criteria for helping secure user accounts. Let us assume that the password security criteria enforce that the password:
- is at least 8 characters in length,
- contains at least one uppercase letter,
- contains at least one lowercase letter,
- and contains at least one digit character.
The following class implements these validation criteria:
namespace MyValid;
use Laminas\Validator\AbstractValidator;
class PasswordStrength extends AbstractValidator
{
const LENGTH = 'length';
const UPPER = 'upper';
const LOWER = 'lower';
const DIGIT = 'digit';
protected $messageTemplates = [
self::LENGTH => "'%value%' must be at least 8 characters in length",
self::UPPER => "'%value%' must contain at least one uppercase letter",
self::LOWER => "'%value%' must contain at least one lowercase letter",
self::DIGIT => "'%value%' must contain at least one digit character",
];
public function isValid($value)
{
$this->setValue($value);
$isValid = true;
if (strlen($value) < 8) {
$this->error(self::LENGTH);
$isValid = false;
}
if (! preg_match('/[A-Z]/', $value)) {
$this->error(self::UPPER);
$isValid = false;
}
if (! preg_match('/[a-z]/', $value)) {
$this->error(self::LOWER);
$isValid = false;
}
if (! preg_match('/\d/', $value)) {
$this->error(self::DIGIT);
$isValid = false;
}
return $isValid;
}
}
Note that the four criteria tests in isValid()
do not immediately return
false
. This allows the validation class to provide all of the reasons that
the input password failed to meet the validation requirements. If, for example,
a user were to input the string #$%
as a password, isValid()
would cause
all four validation failure messages to be returned by a subsequent call to
getMessages()
.