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/*
* Copyright 2018-2024 OVO Energy Limited
*
* SPDX-License-Identifier: Apache-2.0
*/
package fs2.kafka
import java.nio.charset.{Charset, StandardCharsets}
import java.util.UUID
import cats.effect.{Resource, Sync}
import cats.syntax.all.*
import cats.MonadError
/**
* Functional composable Kafka key- and record deserializer with support for effect types.
*/
sealed abstract class GenericDeserializer[-T <: KeyOrValue, F[_], A] {
/**
* Attempts to deserialize the specified bytes into a value of type `A`. The Kafka topic name,
* from which the serialized bytes came, and record headers are available.
*/
def deserialize(topic: String, headers: Headers, bytes: Array[Byte]): F[A]
/**
* Creates a new [[Deserializer]] which applies the specified function to the result of this
* [[Deserializer]].
*/
def map[B](f: A => B): GenericDeserializer[T, F, B]
/**
* Creates a new [[Deserializer]] by first deserializing with this [[Deserializer]] and then
* using the result as input to the specified function.
*/
def flatMap[T0 <: T, B](f: A => GenericDeserializer[T0, F, B]): GenericDeserializer[T0, F, B]
/**
* Creates a new [[Deserializer]] which deserializes both using this [[Deserializer]] and that
* [[Deserializer]], and returns both results in a tuple.
*/
def product[T0 <: T, B](that: GenericDeserializer[T0, F, B]): GenericDeserializer[T0, F, (A, B)]
/**
* Creates a new [[Deserializer]] which handles errors by turning them into `Either` values.
*/
def attempt: GenericDeserializer[T, F, Either[Throwable, A]]
/**
* Creates a new [[Deserializer]] which returns `None` when the bytes are `null`, and otherwise
* returns the result of this [[Deserializer]] wrapped in `Some`.
*/
def option: Deserializer[F, Option[A]]
/**
* Creates a new [[Deserializer]] which suspends deserialization, capturing any impure behaviours
* of this [[Deserializer]].
*/
def suspend: Deserializer[F, A]
}
object GenericDeserializer {
def apply[F[_], A](implicit deserializer: Deserializer[F, A]): Deserializer[F, A] = deserializer
/**
* Alias for [[Deserializer#identity]].
*/
def apply[F[_]](implicit F: Sync[F]): Deserializer[F, Array[Byte]] = identity
/**
* Creates a new [[Deserializer]] which deserializes all bytes to the specified value of type
* `A`.
*/
def const[F[_], A](a: A)(implicit F: Sync[F]): Deserializer[F, A] =
Deserializer.lift(_ => F.pure(a))
/**
* Creates a new [[Deserializer]] which delegates deserialization to the specified Kafka
* `Deserializer`. Note that the `close` and `configure` functions won't be called for the
* delegate.
*
* It is assumed the delegate `deserialize` function is pure. If it's not pure, then use
* `suspend` after `delegate`, so the impure behaviours can be captured properly.
*/
def delegate[F[_], A](
deserializer: KafkaDeserializer[A]
)(implicit F: Sync[F]): Deserializer[F, A] =
Deserializer.instance { (topic, headers, bytes) =>
F.pure(deserializer.deserialize(topic, headers.asJava, bytes))
}
/**
* Creates a new [[Deserializer]] which always fails deserialization with the specified exception
* `e`.
*/
def fail[F[_], A](e: Throwable)(implicit F: Sync[F]): Deserializer[F, A] =
Deserializer.lift(_ => F.raiseError(e))
/**
* Creates a new [[Deserializer]] which always fails deserialization with a
* [[DeserializationException]] using the specified message.
*/
def failWith[F[_], A](message: String)(implicit F: Sync[F]): Deserializer[F, A] =
Deserializer.fail(DeserializationException(message))
/**
* Creates a new [[Deserializer]] which can use different [[Deserializer]]s depending on the
* record headers.
*/
def headers[F[_], A](f: Headers => Deserializer[F, A])(implicit F: Sync[F]): Deserializer[F, A] =
Deserializer.instance { (topic, headers, bytes) =>
f(headers).deserialize(topic, headers, bytes)
}
/**
* Creates a new [[Deserializer]] from the specified function. Use [[lift]] instead if the
* deserializer doesn't need access to the Kafka topic name or record headers.
*/
def instance[F[_], A](
f: (String, Headers, Array[Byte]) => F[A]
)(implicit F: Sync[F]): Deserializer[F, A] =
new Deserializer[F, A] {
override def deserialize(topic: String, headers: Headers, bytes: Array[Byte]): F[A] =
f(topic, headers, bytes)
override def map[B](f: A => B): Deserializer[F, B] =
Deserializer.instance { (topic, headers, bytes) =>
deserialize(topic, headers, bytes).map(f)
}
override def flatMap[T0 <: KeyOrValue, B](
f: A => GenericDeserializer[T0, F, B]
): GenericDeserializer[T0, F, B] =
Deserializer.instance { (topic, headers, bytes) =>
deserialize(topic, headers, bytes).flatMap { a =>
f(a).deserialize(topic, headers, bytes)
}
}
override def product[T0 <: KeyOrValue, B](
that: GenericDeserializer[T0, F, B]
): Deserializer[F, (A, B)] =
Deserializer.instance { (topic, headers, bytes) =>
val a = deserialize(topic, headers, bytes)
val b = that.deserialize(topic, headers, bytes)
a.product(b)
}
override def attempt: Deserializer[F, Either[Throwable, A]] =
Deserializer.instance { (topic, headers, bytes) =>
deserialize(topic, headers, bytes).attempt
}
override def option: Deserializer[F, Option[A]] =
Deserializer.instance { (topic, headers, bytes) =>
if (bytes != null)
deserialize(topic, headers, bytes).map(Some.apply)
else
F.pure(None)
}
override def suspend: Deserializer[F, A] =
Deserializer.instance { (topic, headers, bytes) =>
F.defer(deserialize(topic, headers, bytes))
}
override def toString: String =
"Deserializer$" + System.identityHashCode(this)
}
/**
* Creates a new [[Deserializer]] from the specified function, ignoring from which Kafka topic
* the bytes came and any record headers. Use [[instance]] instead if the deserializer needs
* access to the Kafka topic name or the record headers.
*/
def lift[F[_], A](f: Array[Byte] => F[A])(implicit F: Sync[F]): Deserializer[F, A] =
Deserializer.instance((_, _, bytes) => f(bytes))
private[this] def unexpectedTopic[F[_], A](implicit F: Sync[F]): String => Deserializer[F, A] =
topic => Deserializer.fail(UnexpectedTopicException(topic))
/**
* Creates a new [[Deserializer]] which can use different [[Deserializer]]s depending on the
* Kafka topic name from which the serialized bytes came.
*/
def topic[T <: KeyOrValue, F[_], A](
f: PartialFunction[String, GenericDeserializer[T, F, A]]
)(implicit F: Sync[F]): GenericDeserializer[T, F, A] =
Deserializer.instance { (topic, headers, bytes) =>
f.applyOrElse(topic, unexpectedTopic).deserialize(topic, headers, bytes)
}
/**
* Creates a new [[Deserializer]] which deserializes `String` values using the specified
* `Charset`. Note that the default `String` deserializer uses `UTF-8`.
*/
def string[F[_]](charset: Charset)(implicit F: Sync[F]): Deserializer[F, String] =
Deserializer.lift(bytes => F.catchNonFatal(new String(bytes, charset)))
/**
* Creates a new [[Deserializer]] which deserializes `String` values using the specified
* `Charset` as `UUID`s. Note that the default `UUID` deserializer uses `UTF-8`.
*/
def uuid[F[_]](charset: Charset)(implicit F: Sync[F]): Deserializer[F, UUID] =
Deserializer.string[F](charset).map(UUID.fromString).suspend
/**
* The identity [[Deserializer]], which does not perform any kind of deserialization, simply
* using the input bytes as the output.
*/
implicit def identity[F[_]](implicit F: Sync[F]): Deserializer[F, Array[Byte]] =
Deserializer.lift(bytes => F.pure(bytes))
/**
* The attempt [[Deserializer]] try to deserialize to type `A`, When it fails returns `Left`
* containing the exception, otherwise returns `Right` with the value `A`
*/
implicit def attempt[F[_], A](implicit
deserializer: Deserializer[F, A]
): Deserializer[F, Either[Throwable, A]] =
deserializer.attempt
/**
* The option [[Deserializer]] returns `None` when the bytes are `null`, and otherwise
* deserializes using the deserializer for the type `A`, wrapping the result in `Some`.
*/
implicit def option[F[_], A](implicit
deserializer: Deserializer[F, A]
): Deserializer[F, Option[A]] =
deserializer.option
implicit def monadError[T <: KeyOrValue, F[_]](implicit
F: Sync[F]
): MonadError[GenericDeserializer[T, F, *], Throwable] =
new MonadError[GenericDeserializer[T, F, *], Throwable] {
override def pure[A](a: A): GenericDeserializer[T, F, A] =
Deserializer.const(a)
override def map[A, B](
deserializer: GenericDeserializer[T, F, A]
)(f: A => B): GenericDeserializer[T, F, B] =
deserializer.map(f)
override def flatMap[A, B](
deserializer: GenericDeserializer[T, F, A]
)(f: A => GenericDeserializer[T, F, B]): GenericDeserializer[T, F, B] =
deserializer.flatMap(f)
override def product[A, B](
first: GenericDeserializer[T, F, A],
second: GenericDeserializer[T, F, B]
): GenericDeserializer[T, F, (A, B)] =
first.product(second)
override def tailRecM[A, B](
a: A
)(f: A => GenericDeserializer[T, F, Either[A, B]]): GenericDeserializer[T, F, B] =
Deserializer.instance { (topic, headers, bytes) =>
F.tailRecM(a)(f(_).deserialize(topic, headers, bytes))
}
override def handleErrorWith[A](fa: GenericDeserializer[T, F, A])(
f: Throwable => GenericDeserializer[T, F, A]
): GenericDeserializer[T, F, A] =
Deserializer.instance { (topic, headers, bytes) =>
F.handleErrorWith(fa.deserialize(topic, headers, bytes)) { throwable =>
f(throwable).deserialize(topic, headers, bytes)
}
}
override def raiseError[A](e: Throwable): GenericDeserializer[T, F, A] =
Deserializer.fail(e)
}
implicit def double[F[_]](implicit F: Sync[F]): Deserializer[F, Double] =
Deserializer
.delegate[F, Double] {
(new org.apache.kafka.common.serialization.DoubleDeserializer)
.asInstanceOf[org.apache.kafka.common.serialization.Deserializer[Double]]
}
.suspend
implicit def float[F[_]](implicit F: Sync[F]): Deserializer[F, Float] =
Deserializer
.delegate[F, Float] {
(new org.apache.kafka.common.serialization.FloatDeserializer)
.asInstanceOf[org.apache.kafka.common.serialization.Deserializer[Float]]
}
.suspend
implicit def int[F[_]](implicit F: Sync[F]): Deserializer[F, Int] =
Deserializer
.delegate[F, Int] {
(new org.apache.kafka.common.serialization.IntegerDeserializer)
.asInstanceOf[org.apache.kafka.common.serialization.Deserializer[Int]]
}
.suspend
implicit def long[F[_]](implicit F: Sync[F]): Deserializer[F, Long] =
Deserializer
.delegate[F, Long] {
(new org.apache.kafka.common.serialization.LongDeserializer)
.asInstanceOf[org.apache.kafka.common.serialization.Deserializer[Long]]
}
.suspend
implicit def short[F[_]](implicit F: Sync[F]): Deserializer[F, Short] =
Deserializer
.delegate[F, Short] {
(new org.apache.kafka.common.serialization.ShortDeserializer)
.asInstanceOf[org.apache.kafka.common.serialization.Deserializer[Short]]
}
.suspend
implicit def string[F[_]](implicit F: Sync[F]): Deserializer[F, String] =
Deserializer.string(StandardCharsets.UTF_8)
implicit def unit[F[_]](implicit F: Sync[F]): Deserializer[F, Unit] =
Deserializer.const(())
implicit def uuid[F[_]](implicit F: Sync[F]): Deserializer[F, UUID] =
Deserializer.string[F].map(UUID.fromString).suspend
implicit def resource[T <: KeyOrValue, F[_], A](implicit
des: GenericDeserializer[T, F, A]
): Resource[F, GenericDeserializer[T, F, A]] = Resource.pure(des)
}