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124 lines
3.7 KiB
Go
124 lines
3.7 KiB
Go
package sarama
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import (
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"hash"
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"hash/fnv"
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"math/rand"
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"time"
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)
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// Partitioner is anything that, given a Kafka message and a number of partitions indexed [0...numPartitions-1],
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// decides to which partition to send the message. RandomPartitioner, RoundRobinPartitioner and HashPartitioner are provided
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// as simple default implementations.
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type Partitioner interface {
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// Partition takes a message and partition count and chooses a partition
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Partition(message *ProducerMessage, numPartitions int32) (int32, error)
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// RequiresConsistency indicates to the user of the partitioner whether the
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// mapping of key->partition is consistent or not. Specifically, if a
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// partitioner requires consistency then it must be allowed to choose from all
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// partitions (even ones known to be unavailable), and its choice must be
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// respected by the caller. The obvious example is the HashPartitioner.
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RequiresConsistency() bool
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}
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// PartitionerConstructor is the type for a function capable of constructing new Partitioners.
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type PartitionerConstructor func(topic string) Partitioner
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type manualPartitioner struct{}
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// NewManualPartitioner returns a Partitioner which uses the partition manually set in the provided
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// ProducerMessage's Partition field as the partition to produce to.
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func NewManualPartitioner(topic string) Partitioner {
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return new(manualPartitioner)
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}
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func (p *manualPartitioner) Partition(message *ProducerMessage, numPartitions int32) (int32, error) {
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return message.Partition, nil
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}
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func (p *manualPartitioner) RequiresConsistency() bool {
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return true
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}
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type randomPartitioner struct {
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generator *rand.Rand
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}
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// NewRandomPartitioner returns a Partitioner which chooses a random partition each time.
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func NewRandomPartitioner(topic string) Partitioner {
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p := new(randomPartitioner)
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p.generator = rand.New(rand.NewSource(time.Now().UTC().UnixNano()))
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return p
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}
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func (p *randomPartitioner) Partition(message *ProducerMessage, numPartitions int32) (int32, error) {
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return int32(p.generator.Intn(int(numPartitions))), nil
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}
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func (p *randomPartitioner) RequiresConsistency() bool {
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return false
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}
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type roundRobinPartitioner struct {
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partition int32
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}
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// NewRoundRobinPartitioner returns a Partitioner which walks through the available partitions one at a time.
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func NewRoundRobinPartitioner(topic string) Partitioner {
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return &roundRobinPartitioner{}
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}
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func (p *roundRobinPartitioner) Partition(message *ProducerMessage, numPartitions int32) (int32, error) {
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if p.partition >= numPartitions {
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p.partition = 0
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}
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ret := p.partition
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p.partition++
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return ret, nil
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}
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func (p *roundRobinPartitioner) RequiresConsistency() bool {
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return false
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}
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type hashPartitioner struct {
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random Partitioner
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hasher hash.Hash32
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}
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// NewHashPartitioner returns a Partitioner which behaves as follows. If the message's key is nil then a
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// random partition is chosen. Otherwise the FNV-1a hash of the encoded bytes of the message key is used,
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// modulus the number of partitions. This ensures that messages with the same key always end up on the
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// same partition.
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func NewHashPartitioner(topic string) Partitioner {
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p := new(hashPartitioner)
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p.random = NewRandomPartitioner(topic)
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p.hasher = fnv.New32a()
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return p
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}
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func (p *hashPartitioner) Partition(message *ProducerMessage, numPartitions int32) (int32, error) {
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if message.Key == nil {
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return p.random.Partition(message, numPartitions)
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}
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bytes, err := message.Key.Encode()
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if err != nil {
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return -1, err
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}
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p.hasher.Reset()
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_, err = p.hasher.Write(bytes)
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if err != nil {
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return -1, err
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}
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partition := int32(p.hasher.Sum32()) % numPartitions
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if partition < 0 {
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partition = -partition
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}
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return partition, nil
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}
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func (p *hashPartitioner) RequiresConsistency() bool {
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return true
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}
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