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libring - distributed hash ring for Go

libring is a tool for distributing a set of keys across a cluster of nodes and routing requests to the node responsible for a given key. Cluster membership is based on Serf's gossip protocol, and keys are partitioned across nodes using a type of consistent hashing which minimizes data transfer when nodes enter or leave the cluster. Cluster topology changes are exposed as a channel of acquire/release events.

THIS HAS NOT BEEN TESTED AT SCALE! Serf is a mature and well-tested system, however none of the rest of this codebase has been used in large-scale production systems. Caveat emptor.

API Docs

Design

Membership

libring uses Serf for membership. Serf is "a decentralized solution for cluster membership, failure detection, and orchestration". Serf uses a p2p gossip protocol to maintain an eventually-consistent view of a set of nodes in a cluster.

Serf nodes can be tagged with arbitrary key/value pairs, and libring uses this metadata as a way to filter nodes. The current state of all cluster members is kept in memory, but only members with a matching tag are used for resolving keys to members.

libring can join Serf clusters running the serf agent (ie running serf but not libring). This can be useful in cases where libring is used as a routing layer but doesn't run on the hosts being routed to.

Key distribution

libring uses the hashing algorithm described as 'Strategy 3' in the appendix of the Amazon Dynamo Paper. The keyspace is statically mapped to a fixed number of partitions. Partitions are assigned to nodes using a consistent hashing algorithm that minimizes partition relocations under membership changes. Replication is accomplished by picking N adjacent nodes along the 'ring' for each partition.

Keys are mapped to partitions by hashing the key name using the FNV32a hash algorithm, then modding by the partition count to produce an integer partition identifier.

Partitions are mapped to nodes using Google's "jump" consistent hash algorithm. Node names are sorted alphabetically, and the resulting array is indexed into using the hashed partition identifier. Replicas are assigned by incrementing the index by the replica index (0-N). By 'walking' the ring of nodes, a 'preference set' can be generated as described in the Dynamo paper (this can be useful for implementing 'sloppy-quorum' with hinted handoff, for example).

Use

First, configure the cluster

config := libring.Config{
  // Specify a set of tag/values which must be present on a Serf member to be
  // treated as part of the cluster.  Allows multiple clusters to share members,
  // and allows members to communicate about their current state
  WatchTags: map[string]*regexp.Regexp{"ring": regexp.MustCompile(`active`)},
  
  // Join the Serf cluster that these hosts are part of.  Can be pointed at a 
  // load balancer if you hostnames are dynamically assigned.
  BootstrapHosts: []string{"loadbalancer.service.com"},

  // Specifies the hostname to use for the local node.  Defaults to the
  // OS-provided value
  HostName: "my_custom_hostname",

  // The number of partitions to divide the keyspace into.  This value should be
  // an order of maginitude larger than the number of members you expect to
  // participate in the cluster.  Larger values increase the amount of metadata
  // the cluster must track, but smaller values limit the scalability of the
  // cluster.  The partition count is an upper-bound on the number of hosts
  // which can participate in a cluster
  Partitions: 2056,

  // Partitions will be assigned to this many hosts at any given point in time.
  // This represents a lower bound on the number of hosts you should have
  // running at any point in time.
  Redundancy: 2,

  // The serf client will be created with this configuration, so if you need to 
  // do anything unusual you can set it here.  Note that libring will specify
  // the EventCh, specifying it in this config is an error.  (If you need to
  // handle raw serf events, you can provide a channel to SerfEvents below)
  SerfConfig: serf.DefaultConfig(),

  // If provided, serf events will be pushed to this channel *after* they have
  // been processed by libring.  Note that the same warning applies here as
  // to serf.Config.EventCh: "Care must be taken that this channel doesn't 
  // block, either by processing the events quick enough or buffering the 
  // channel"
  SerfEvents: make(chan serf.Event),

  // Channels for receiving notifications when partitions are assigned to the
  // local machine or removed from the local machine.  Events contain the partition 
  // identifier, the 'other' Member, and the serf Event which triggered the 
  // partition to be reassigned.
  Events: make(chan Event),
}

Now you can create a cluster and run it.

cluster := NewCluster(config)

go func() {
  for event := range config.Events {
    select event.Type {
    case Acquisition:
      // Do whatever needs to be done in here
      if acquisition.From != nil {
        fmt.Sprintf("Acquired partition %d, replica %d from %s", acquisition.Partition, acquisition.Replica, acquisition.From.Name)
      }
    case Release:
      // Do whatever needs to be done in here
      if release.To != nil {
        fmt.Sprintf("Release partition %d, replica %d to %s", acquisition.Partition, acquisition.Replica, acquisition.To.Name)
      }
    }
  }
}()

go cluster.Run()

This will fire up Serf and start talking to the other machines in the cluster. Now you can use your shiny new cluster to route requests to nodes

http.HandleFunc("/", func(w http.ResponseWriter, r *http.Request) {
  
  path := r.URL.Path
  nodeForPath := <-cluster.MembersForKey(path)
  
  fmt.Printf("Proxying %s to node %v", path, nodeForPath)

  proxy := httputil.NewSingleHostReverseProxy(nodeForPath.URL)
  proxy.ServeHTTP(w, r)
})

log.Fatal(http.ListenAndServe(":8080", nil))

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Distributed hash ring for Go

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