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A strongly consistent distributed coordination system, built using proven protocols & implemented in Rust.

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haret

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haret provides a distributed service built on proven protocols that exposes strongly consistent coordination primitives via an easy to use API, in order to satisfy the essential dependencies of many distributed applications. You can read more about why we decided to build haret here.

This README contains quickstart instructions for both developers and users. More information about using haret can be found in the rough and incomplete User Guide.

Release Quickstart

Start Here if you are an enduser of haret and not interested in building the code.

Running a replication group on a single node

Release binaries for Mac OSX and Linux can be downloaded here.

Each release directory contains a config.toml file for running a single node of haret. From the release directory containing the config.toml and binaries, run haret in a terminal with the following command to start a node:

RUST_LOG=haret=info,rabble=info ./haret

While a haret replication group (namespace) is intended to run in a cluster across multiple physical machines for fault tolerance, it is capable of running in a single process for testing purposes. Each replica in the group is represented by a lightweight actor that can receive and respond to messages, so we can just designate a group of actors on the same node to be the replication group.

Open another terminal that we can use to communicate with this node.

Connect to the admin server of node1

./haret-admin 127.0.0.1:5001

Check the cluster status to verify only a single node exists

haret-admin> cluster status

Create a namespaces on node1

haret-admin> vr create namespace test-ns r1::node1@127.0.0.1:5000,r2::node1@127.0.0.1:5000,r3::node1@127.0.0.1:5000

List namespaces

haret-admin> vr namespaces

Get the state of r1::dev1 - It will show the primary of the test-ns namespace toward the top.

haret-admin> vr replica test-ns::r1::node1@127.0.0.1:2000`

Show Configuration

haret-admin> config

Now exit the admin CLI and connect to the API port on node1 using the CLI client

./haret-cli-client 127.0.0.1:5002

List namespaces

haret> list-namespaces

Enter the test-ns namespace so you can issue operations against the namespace's tree. This entails learning which replica is the primary for that namespace so it can be sent messages.

haret> enter test-ns

Now start issuing operations against the namespace. They can be discovered by typing help at the prompt. More examples are shown below.

If you'd like to build a multi-node cluster all on localhost, it's a simple matter of copying the release directory n times, where n is the size of the cluster, and then editing each config file to listen on different ports (This is exactly what make devrel does if you have the build dependencies). Each haret in each directory can then be started. From there the instructions below detail joining nodes together to form a cluster.

Developer Quickstart

Start here if you are looking to hack on haret.

Setting up a development cluster

  • Install Rust. Haret builds on any stable version after rust 1.15
  • Install rlwrap so that you can have readline support on CLIs
  • Build a 3 node development cluster and launch 3 nodes on localhost
    • cd haret && make devrel && make launch
  • Note that all node configuration is stored in haret/dev/devN

Joining 3 nodes to create a cluster

  • Open a new terminal window (output from the launched nodes shows up in the original)
  • Connect to the admin server of node1
    • rlwrap ./target/debug/haret-admin 127.0.0.1:2001
  • Check the cluster status to verify only a single node (dev1) exists
    • haret-admin> cluster status
  • Join the nodes together using their cluster ports to form a cluster
    • haret-admin> cluster join dev2@127.0.0.1:3000
    • haret-admin> cluster join dev3@127.0.0.1:4000

Creating and operating on a namespace

  • Create a namespace
    • haret-admin> vr create namespace test-ns r1::dev1@127.0.0.1:2000,r2::dev2@127.0.0.1:3000,r3::dev3@127.0.0.1:4000
  • List namespaces
    • haret-admin> vr namespaces
  • Get the state of r1::dev1 - It should show the primary toward the top.
    • haret-admin> vr replica test-ns::r1::dev1@127.0.0.1:2000
  • Show Configuration
    • config
  • Exit the Admin client
  • Run the CLI client, giving the API address of any node. We chose to connect to dev1 here.
    • rlwrap target/debug/haret-cli-client 127.0.0.1:2002
  • List namespaces
    • list-namespaces
  • Enter the test-ns namespace so you can issue operations against the namespace's tree
    • enter test-ns

Issuing commands against a namespace

haret> create set /some/other/node
Ok
Epoch = 1, View = 6, Client Request Num = 3
haret> set insert /some/other/node hi
true
Version = 1 Epoch = 1, View = 6, Client Request Num = 4
haret> set contains /some/other/node hi
true
Version = 1 Epoch = 1, View = 6, Client Request Num = 5
haret> set contains /some/other/node h
false
Version = 1 Epoch = 1, View = 6, Client Request Num = 6
haret> create set /some/set
Ok
Epoch = 1, View = 6, Client Request Num = 7
haret> set insert /some/set blah
true
Version = 1 Epoch = 1, View = 6, Client Request Num = 8
haret> set intersection /some/set /some/other/node
Epoch = 1, View = 6, Client Request Num = 9
haret> set union /some/set /some/other/node
hi
blah
Epoch = 1, View = 6, Client Request Num = 10
haret>

Test failover

  • Note the haret state
    • haret-admin> vr replica test-ns::r1::dev1
  • Kill the primary (in this case dev2)
    • make stop-dev2
  • Wait a few seconds for re-election to occur and then re-enter the namespace from the client cli. to try to discover the new primary.
    • enter test-ns
  • Issue new commands that show the state is preserved after crashing the master
haret> set union /some/set /some/other/node
hi
blah
Epoch = 1, View = 7, Client Request Num = 11

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