This library provides extended validation of fields and field arguments for graphql-java
<dependency>
<groupId>com.graphql-java</groupId>
<artifactId>graphql-java-extended-validation</artifactId>
<version>17.0.0</version>
<type>pom</type>
</dependency>compile 'com.graphql-java:graphql-java-extended-validation:17.0.0'Note:
use 0.0.3 or below for graphql-java 13.x and below
use 14.0.1 or above for graphql-java 14.x and above
use 15.0.1 or above for graphql-java 15.x and above
use 16.0.0 or above for graphql-java 16.x and above
use 17.0.0 or above for graphql-java 17.x and above
It's currently available from Maven central.
This library provides a series of directives that can be applied to field arguments and input type fields which will constrain their allowable values.
These names and semantics are inspired from the javax.validation annotations
https://javaee.github.io/javaee-spec/javadocs/javax/validation/constraints/package-summary.html
You can add these onto arguments or input types in your graphql SDL.
For example
#
# this declares the directive as being possible on arguments and input fields
#
directive @Size(min : Int = 0, max : Int = 2147483647, message : String = "graphql.validation.Size.message")
on ARGUMENT_DEFINITION | INPUT_FIELD_DEFINITION
input Application {
name : String @Size(min : 3, max : 100)
}
type Query {
hired (applications : [Application!] @Size(max : 10)) : [Boolean]
}In the example above, we have a applications argument that takes at most 10 applications and within each Application input object,
the name field must be at least 3 characters long and no more than 100 characters long to be considered valid.
The @Expression validation directive allows Java EL to be used to help build validation rules.
Java EL is a powerful expression syntax for expressing validation conditions.
Some simple sample Java EL expressions might be :
| EL Expression | Result |
|---|---|
${1> (4/2)} |
false |
${4.0>= 3} |
true |
${100.0 == 100} |
true |
${(10*10) ne 100} |
false |
${'a' > 'b'} |
false |
${'hip' lt 'hit'} |
true |
${4> 3} |
true |
${1.2E4 + 1.4} |
12001.4 |
${3 div 4} |
0.75 |
${10 mod 4} |
2 |
${((x, y) → x + y)(3, 5.5)} |
8.5 |
[1,2,3,4].stream().sum() |
10 |
[1,3,5,2].stream().sorted().toList() |
[1, 2, 3, 5] |
The following validation variables are made available to you :
| Name | Value |
|---|---|
validatedValue |
The value being validated |
gqlField |
The GraphQLFieldDefinition being validated |
gqlFieldContainer |
The GraphQLFieldsContainer parent type containing that field |
gqlArgument |
The GraphQLArgument being validated. This can be null for field level validation |
arguments |
The map of all argument values for the current field |
args |
A short hand name for the map of all argument values for the current field |
The Java EL expression MUST evaluate to a boolean value to be useful in the @Expresion directive.
See here for a more complete overview of Java EL
The validation code uses a graphql.validation.interpolation.MessageInterpolator interface to build out error messages. A default
ResourceBundleMessageInterpolator class is provided to load error messages from Java resource bundles to allow internationalised messages (I18N)
You can use Java EL syntax in the message templates to format even more powerful error messages.
The field ${gqlField.name} has the following invalid value : ${formatter.format('%1$.2f', validatedValue)}
If you use directive arguments like message : String = "graphql.validation.Size.message" then the ResourceBundleMessageInterpolator class
will use that as a resource bundle lookup key. This too is inspired by the javax.validation annotations and how they work.
Like javax.validation, this library ships with some default error message templates but you can override them.
The validation library aims to offer Internationalisation (18N) of the error messages. When the validation rules
run they are passed in a java.util.Locale. A ResourceBundleMessageInterpolator can then be used to build up messages
that come from I18N bundles.
A Locale should be created per graphql execution. However at the time of writing graphql-java does not
pass in a Locale per request ExecutionInput . A PR exists to fix this and it will be released in v14.0. This
library will then be updated to to take advantage of this.
In the mean time you can work around this by having the context, source or root implement graphql.validation.locale.LocaleProvider and
the library will extract a Locale from that.
If you are using graphql SDL to build your graphql schema then you can use a ValidationSchemaWiring class to automatically
change your field data fetchers so that validation rules are called before the field data is fetched.
This allows you to automatically enhance your schema with validation by directives alone.
The following shows how to setup the SDL generation so that the build schema will have validation in place.
//
// This contains by default the standard library provided @Directive constraints
//
ValidationRules validationRules = ValidationRules.newValidationRules()
.onValidationErrorStrategy(OnValidationErrorStrategy.RETURN_NULL)
.build();
//
// This will rewrite your data fetchers when rules apply to them so that validation
ValidationSchemaWiring schemaWiring = new ValidationSchemaWiring(validationRules);
//
// we add this schema wiring to the graphql runtime
RuntimeWiring runtimeWiring = RuntimeWiring.newRuntimeWiring().directiveWiring(schemaWiring).build();
//
// then pretty much standard graphql-java code to build a graphql schema
Reader sdl = buildSDL();
TypeDefinitionRegistry typeDefinitionRegistry = new SchemaParser().parse(sdl);
GraphQLSchema graphQLSchema = new SchemaGenerator().makeExecutableSchema(typeDefinitionRegistry, runtimeWiring);Under the covers ValidationSchemaWiring asks each possible rule if it applies to a field as they are encountered (at schema build time).
If they do apply then it rewrites the DataFetcher so that it first calls the validation code and produces errors if the field input is not considered valid.
The default strategy OnValidationErrorStrategy.RETURN_NULL will return null for the field input if it is not considered valid. You can
write your own strategy if you want.
We recommend that you use the SDL schema directive wiring and @directives for the easiest way to get input type validation.
However there can be reasons why you cant use this approach and you have use the API directly in your data fetching code.
//
// an example of writing your own custom validation rule
//
ValidationRule myCustomValidationRule = new ValidationRule() {
@Override
public boolean appliesTo(GraphQLFieldDefinition fieldDefinition, GraphQLFieldsContainer fieldsContainer) {
return fieldDefinition.getName().equals("decide whether this rule applies here");
}
@Override
public boolean appliesTo(GraphQLArgument argument, GraphQLFieldDefinition fieldDefinition, GraphQLFieldsContainer fieldsContainer) {
return argument.getName().equals("decide whether this rule applies here to an argument");
}
@Override
public List<GraphQLError> runValidation(ValidationEnvironment validationEnvironment) {
List<GraphQLError> errors = new ArrayList<>();
Map<String, Object> argumentValues = validationEnvironment.getArgumentValues();
for (String argName : argumentValues.keySet()) {
Object argValue = argumentValues.get(argName);
GraphQLError error = runCodeThatValidatesInputHere(validationEnvironment, argName, argValue);
if (error != null) {
errors.add(error);
}
}
return errors;
}
};
DataFetcher dataFetcher = new DataFetcher() {
@Override
public Object get(DataFetchingEnvironment env) {
//
// By default the ValidationRule contains the SDL @directive rules, but
// you can also add your own as we do here.
//
ValidationRules validationRules = ValidationRules
.newValidationRules()
.locale(Locale.getDefault())
.addRule(myCustomValidationRule)
.build();
//
// The expected strategy is to return null data and the errors if there are any validation
// problems
//
List<GraphQLError> errors = validationRules.runValidationRules(env);
if (!errors.isEmpty()) {
return DataFetcherResult.newResult().errors(errors).data(null).build();
}
return normalDataFetchingCodeRunsNow(env);
}
};The above code shows a custom validation rule (with nonsense logic for demonstration purposes) and then a data fetcher
that uses the ValidationRules API to run validation rules.
The boolean value must be false.
-
Example :
updateDriver( isDrunk : Boolean @AssertFalse) : DriverDetails -
Applies to :
Boolean -
SDL :
directive @AssertFalse(message : String = "graphql.validation.AssertFalse.message") on ARGUMENT_DEFINITION | INPUT_FIELD_DEFINITION -
Message :
graphql.validation.AssertFalse.message
The boolean value must be true.
-
Example :
driveCar( hasLicence : Boolean @AssertTrue) : DriverDetails -
Applies to :
Boolean -
SDL :
directive @AssertTrue(message : String = "graphql.validation.AssertTrue.message") on ARGUMENT_DEFINITION | INPUT_FIELD_DEFINITION -
Message :
graphql.validation.AssertTrue.message
The element must be a number whose value must be less than or equal to the specified maximum.
-
Example :
driveCar( bloodAlcoholLevel : Float @DecimalMax(value : "0.05") : DriverDetails -
Applies to :
String,Byte,Short,Int,Long,BigDecimal,BigInteger,Float -
SDL :
directive @DecimalMax(value : String!, inclusive : Boolean! = true, message : String = "graphql.validation.DecimalMax.message") on ARGUMENT_DEFINITION | INPUT_FIELD_DEFINITION -
Message :
graphql.validation.DecimalMax.message
The element must be a number whose value must be greater than or equal to the specified minimum.
-
Example :
driveCar( carHorsePower : Float @DecimalMin(value : "300.50") : DriverDetails -
Applies to :
String,Byte,Short,Int,Long,BigDecimal,BigInteger,Float -
SDL :
directive @DecimalMin(value : String!, inclusive : Boolean! = true, message : String = "graphql.validation.DecimalMin.message") on ARGUMENT_DEFINITION | INPUT_FIELD_DEFINITION -
Message :
graphql.validation.DecimalMin.message
The element must be a number inside the specified integer and fraction range.
-
Example :
buyCar( carCost : Float @Digits(integer : 5, fraction : 2) : DriverDetails -
Applies to :
String,Byte,Short,Int,Long,BigDecimal,BigInteger,Float -
SDL :
directive @Digits(integer : Int!, fraction : Int!, message : String = "graphql.validation.Digits.message") on ARGUMENT_DEFINITION | INPUT_FIELD_DEFINITION -
Message :
graphql.validation.Digits.message
The provided expression must evaluate to true. The expression language is Java EL and expressions MUST resolve to a boolean value, ie. it is valid or not.
-
Example :
drivers( first : Int, after : String!, last : Int, before : String) : DriverConnection @Expression(value : "${args.containsOneOf('first','last') }" -
Applies to :
All Types and Scalars -
SDL :
directive @Expression(value : String!, message : String = "graphql.validation.Expression.message") on FIELD_DEFINITION | ARGUMENT_DEFINITION | INPUT_FIELD_DEFINITION -
Message :
graphql.validation.Expression.message
The element must be a number whose value must be less than or equal to the specified maximum.
-
Example :
driveCar( horsePower : Float @Max(value : 1000) : DriverDetails -
Applies to :
Byte,Short,Int,Long,BigDecimal,BigInteger,Float -
SDL :
directive @Max(value : Int! = 2147483647, message : String = "graphql.validation.Max.message") on ARGUMENT_DEFINITION | INPUT_FIELD_DEFINITION -
Message :
graphql.validation.Max.message
The element must be a number whose value must be greater than or equal to the specified minimum.
-
Example :
driveCar( age : Int @Min(value : 18) : DriverDetails -
Applies to :
Byte,Short,Int,Long,BigDecimal,BigInteger,Float -
SDL :
directive @Min(value : Int! = 0, message : String = "graphql.validation.Min.message") on ARGUMENT_DEFINITION | INPUT_FIELD_DEFINITION -
Message :
graphql.validation.Min.message
The element must be a negative number.
-
Example :
driveCar( lostLicencePoints : Int @Negative) : DriverDetails -
Applies to :
Byte,Short,Int,Long,BigDecimal,BigInteger,Float -
SDL :
directive @Negative(message : String = "graphql.validation.Negative.message") on ARGUMENT_DEFINITION | INPUT_FIELD_DEFINITION -
Message :
graphql.validation.Negative.message
The element must be a negative number or zero.
-
Example :
driveCar( lostLicencePoints : Int @NegativeOrZero) : DriverDetails -
Applies to :
Byte,Short,Int,Long,BigDecimal,BigInteger,Float -
SDL :
directive @NegativeOrZero(message : String = "graphql.validation.NegativeOrZero.message") on ARGUMENT_DEFINITION | INPUT_FIELD_DEFINITION -
Message :
graphql.validation.NegativeOrZero.message
The String must contain at least one non-whitespace character, according to Java's Character.isWhitespace().
-
Example :
updateAccident( accidentNotes : String @NotBlank) : DriverDetails -
Applies to :
String,ID,Lists -
SDL :
directive @NotBlank(message : String = "graphql.validation.NotBlank.message") on ARGUMENT_DEFINITION | INPUT_FIELD_DEFINITION -
Message :
graphql.validation.NotBlank.message
The element must have a non zero size.
-
Example :
updateAccident( accidentNotes : [Notes]! @NotEmpty) : DriverDetails -
Applies to :
String,ID,Lists,Input Objects -
SDL :
directive @NotEmpty(message : String = "graphql.validation.NotEmpty.message") on ARGUMENT_DEFINITION | INPUT_FIELD_DEFINITION -
Message :
graphql.validation.NotEmpty.message
The String must match the specified regular expression, which follows the Java regular expression conventions.
-
Example :
updateDriver( licencePlate : String @Pattern(regexp : "[A-Z][A-Z][A-Z]-[0-9][0-9][0-9]") : DriverDetails -
Applies to :
String,ID,Lists -
SDL :
directive @Pattern(regexp : String! =".*", message : String = "graphql.validation.Pattern.message") on ARGUMENT_DEFINITION | INPUT_FIELD_DEFINITION -
Message :
graphql.validation.Pattern.message
The element must be a positive number.
-
Example :
driver( licencePoints : Int @Positive) : DriverDetails -
Applies to :
Byte,Short,Int,Long,BigDecimal,BigInteger,Float -
SDL :
directive @Positive(message : String = "graphql.validation.Positive.message") on ARGUMENT_DEFINITION | INPUT_FIELD_DEFINITION -
Message :
graphql.validation.Positive.message
The element must be a positive number or zero.
-
Example :
driver( licencePoints : Int @PositiveOrZero) : DriverDetails -
Applies to :
Byte,Short,Int,Long,BigDecimal,BigInteger,Float -
SDL :
directive @PositiveOrZero(message : String = "graphql.validation.PositiveOrZero.message") on ARGUMENT_DEFINITION | INPUT_FIELD_DEFINITION -
Message :
graphql.validation.PositiveOrZero.message
The element range must be between the specified min and max boundaries (inclusive). It accepts numbers and strings that represent numerical values.
-
Example :
driver( milesTravelled : Int @Range( min : 1000, max : 100000)) : DriverDetails -
Applies to :
String,Byte,Short,Int,Long,BigDecimal,BigInteger,Float -
SDL :
directive @Range(min : Int = 0, max : Int = 2147483647, message : String = "graphql.validation.Range.message") on ARGUMENT_DEFINITION | INPUT_FIELD_DEFINITION -
Message :
graphql.validation.Range.message
The element size must be between the specified min and max boundaries (inclusive).
-
Example :
updateDrivingNotes( drivingNote : String @Size( min : 1000, max : 100000)) : DriverDetails -
Applies to :
String,ID,Lists,Input Objects -
SDL :
directive @Size(min : Int = 0, max : Int = 2147483647, message : String = "graphql.validation.Size.message") on ARGUMENT_DEFINITION | INPUT_FIELD_DEFINITION -
Message :
graphql.validation.Size.message