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A rule-based entity management library written in Kotlin

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Thing πŸ’«

A rule-based entity management library written in Kotlin

Latest version PRs welcome

πŸš€ Getting started

implementation("so.kciter:thing:{version}")

πŸ‘€ At a glance

data class Person(
  val email: String,
  val creditCard: String
): Thing<Person> {
  override val rule: Rule<Person>
    get() = Rule {
      Normalization {
        Person::email { trim() }
        Person::creditCard { trim() }
      }

      Validation {
        Person::email { email() }
      }

      Redaction {
        Person::creditCard { creditCard() }
      }
    }
}

val person = Person(
  email = " kciter@naver   ",
  creditCard = "1234-1234-1234-1234"
)

println(person)
// Person(email= kciter@naver   , creditCard=1234-1234-1234-1234)
println(person.normalize())
// Person(email=kciter@naver, creditCard=1234-1234-1234-1234)
println(person.validate())
// ValidationResult.Invalid(dataPath=.email, message=must be a valid email address)
println(person.redact())
// Person(email=kciter@naver, creditCard=[REDACTED])

✨ Usecase

Validation

Bad data can always be entered. You need to filter out bad data. In this case, you can use Validation.

For example, you can validate the email field.

data class Person(
  val email: String
): Thing<Person> {
  override val rule: Rule<Person>
    get() = Rule {
      Validation {
        Person::email { email() }
      }
    }
}

Then run the validate function, which returns the result of the validation.

val person = Person(
  email = "kciter@naver"
)
println(person.validate())
// ValidationResult.Invalid(dataPath=.email, message=must be a valid email address)

You can also use different logic based on the validation results.

val result = person.validate()
when (result) {
  is ValidationResult.Valid -> {
    /* ... */
  }
  is ValidationResult.Invalid -> {
    /* ... */
  }
}

Normalization

Data often comes to us in the wrong form. Sometimes it's unavoidable if it's very different, but sometimes a little tweaking will put it in the right shape. In these cases, you can use Normalization.

For example, you can trim login form data.

data class Login(
  val email: String,
  val password: String
): Thing<Person> {
  override val rule: Rule<Login>
    get() = Rule {
      Normalization {
        Login::email { trim() }
        Login::password { trim() }
      }
    }
}

Then run the normalize function, which changes the data to the correct form.

val loginData = Login(
  email = "  [email protected]    ",
  password = "1q2w3e4r!"
)
println(loginData.normalize()) // Login([email protected], password=1q2w3e4r!)

Redaction

Sometimes there's information you don't want to show. In such cases we can use the Redaction.

For example, card information can be sensitive, so write a condition in the rule to redact if the creditCard field contains card information.

data class Foo(
  val creditCard: String
): Thing<Person> {
  override val rule: Rule<Foo>
    get() = Rule {
      Redaction {
        Foo::creditCard { creditCard() }
      }
    }
}

Then run the redact function, which changes the data to [REDACTED].

val foo = Foo(
  creditCard = "1234-1234-1234-1234"
)

foo.redact()
println(foo) // Foo(creditCard=[REDACTED])

With Spring Boot

If you want to use Spring Boot and Thing together, you can use thing-spring.

implementation("so.kciter:thing:{version}")
implementation("so.kciter:thing-spring:{version}")

You can use the @ThingHandler annotation instead of the @Validated annotation in Bean Validation(JSR-380).

If the Controller contains the @ThingHandler annotation, ThingPostProcessor check to see if a Thing object exists when the function is executed. If a Thing object exists, it normalizes it before running the function and then performs validation. And when we return the result, if it's a Thing object, we return it after redacting.

@ThingHandler
@RestController
@RequestMapping("/api")
class ApiController {
  @PostMapping
  fun createPerson(@RequestBody person: Person): AnyResponse {
    /* ... */
  }
}

Instead of adding an annotation to a class, you can also add it to a method. In this case, it will only work on specific methods, not the class as a whole.

@ThingHandler
@PostMapping
fun createPerson(@RequestBody person: Person): AnyResponse {
  /* ... */
}

Unfortunately, this library has not yet ignored a response with rule property. So, when responding to the Thing entity, you need to add @JsonIgnore annotation to rule property.

data class Person(
  val email: String
): Thing<Person> {
  @JsonIgnore
  override val rule: Rule<Person>
    get() = Rule {
      Validation {
        Person::email { email() }
      }
    }
}

If you want more detail, see thing-spring-example.

πŸ†š Bean Validation

Thing Bean Validation
How to use Kotlin DSL Annotation
Custom Validation Easy to extend Difficult to extend
Nested Easy Confuse
Support Iterable, Array, Map βœ… ❌
Validation βœ… βœ…
Normalization βœ… ❌
Redaction βœ… ❌
Can use with Spring Boot βœ… βœ…

Bean Validation is a great library. However, it is not suitable for all cases. For example, if you want to normalize or redact data, you can't do it with Bean Validation. In this case, you can use Thing.

Nested

Thing supports nested data. For example, if you have a Group object that contains a person field, you can use it as follows:

data class Person(
  val name: String,
  val email: String
)

data class Group(
  val person: Person
): Thing<Group> {
  override val rule: Rule<Group>
    get() = Rule {
      Validation {
        Group::person {
          Person::name { notEmpty() }
          Person::email { email() }
        }
      }
    }
}

Iterable, Array, Map

Thing supports Iterable, Array, and Map types. For example, if you have a Group object that contains a people field, you can use it as follows:

data class Person(
  val name: String,
  val email: String
)

data class Group(
  val people: List<Person>
): Thing<Group> {
  override val rule: Rule<Group>
    get() = Rule {
      Validation {
        Group::people {
          onEach {
            Person::name { notEmpty() }
            Person::email { email() }
          }
        }
      }
    }
}

Add Custom Rule

You may want to add custom rules in addition to the ones provided by default. If so, you can do so as follows:

data class Foo(
  val data: String
): Thing<Person> {
  override val rule: Rule<Foo>
    get() = Rule {
      Validation {
        Foo::data {
          addValidator("must be `bar`") {
            it == "bar"
          }
        }
      }
    }
}

Normalization and Redaction also addition custom rules.

data class Foo(
  val data: String
): Thing<Person> {
  override val rule: Rule<Foo>
    get() = Rule {
      Normalization {
        Foo::data {
          addNormalizer {
            it.replace("bar", "foo")
          }
        }
      }

      Redaction {
        Foo::data {
          addRedactor("[REDACTED]") {
            it.contains("bar")
          }
        }
      }
    }
}

If you need a common rule that you use in multiple places, you can write it like this:

fun ValidationRuleBuilder<String>.isBar() {
  addValidator("must be `bar`") {
    it == "bar"
  }
}

fun NormalizationRuleBuilder<String>.replaceBarToFoo() {
  addNormalizer {
    it.replace("bar", "foo")
  }
}

fun RedactionRuleBuilder<String>.redactBar() {
  addRedactor("[REDACTED]") {
    it.contains("bar")
  }
}

data class Foo(
  val data: String
): Thing<Person> {
  override val rule: Rule<Foo>
    get() = Rule {
      Normalization {
        Foo::data { replaceBarToFoo() }
      }

      Validation {
        Foo::data { isBar() }
      }

      Redaction {
        Foo::data { redactBar() }
      }
    }
}

πŸ’Œ Reference

πŸ“„ License

Thing is made available under the MIT License.