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index.js
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const EventEmitter = require('eventemitter3');
const modification = require('modification');
const Tick = require('tick-tock');
const ms = require('millisecond');
const one = require('one-time');
const emits = require('emits');
/**
* Generate a somewhat unique UUID.
*
* @see stackoverflow.com/q/105034
* @returns {String} UUID.
* @private
*/
function UUID() {
return 'xxxxxxxx-xxxx-4xxx-yxxx-xxxxxxxxxxxx'.replace(/[xy]/g, function gen(c) {
var random = Math.random() * 16 | 0
, value = c !== 'x'
? (random & 0x3 | 0x8)
: random;
return value.toString(16);
});
}
/**
* Emit when modifications are made.
*
* @type {Fucntion}
* @private
*/
const change = require('modification')(' change');
/**
* A nope function for when people don't want message acknowledgements. Because
* they don't care about CAP.
*
* @private
*/
function nope() {}
/**
* Representation of a single raft node in the cluster.
*
* Options:
*
* - `address`: An unique id of this given node.
* - `heartbeat`: Heartbeat timeout.
* - `election min`: Minimum election timeout.
* - `election max`: Maximum election timeout.
* - `threshold`: Threshold when the heartbeat RTT is close to the election
* timeout.
* - `Log`: A Log constructor that should be used to store commit logs.
* - `state`: Our initial state. This is a private property and should not be
* set you unless you know what your are doing but as you want to use this
* property I highly doubt that that..
*
* Please note, when adding new options make sure that you also update the
* `Raft#join` method so it will correctly copy the new option to the clone as
* well.
*
* @constructor
* @param {Mixed} address Unique address, id or name of this given raft node.
* @param {Object} options Raft configuration.
* @public
*/
class Raft extends EventEmitter {
constructor(address, options = {}) {
super();
var raft = this;
if ('object' === typeof address) options = address;
else if (!options.address) options.address = address;
raft.election = {
min: ms(options['election min'] || '150 ms'),
max: ms(options['election max'] || '300 ms')
};
raft.beat = ms(options.heartbeat || '50 ms');
raft.votes = {
for: null, // Who did we vote for in this current term.
granted: 0 // How many votes we're granted to us.
};
raft.write = raft.write || options.write || null;
raft.threshold = options.threshold || 0.8;
raft.address = options.address || UUID();
raft.timers = new Tick(raft);
raft.Log = options.Log;
raft.change = change;
raft.emits = emits;
raft.latency = 0;
raft.log = null;
raft.nodes = [];
//
// Raft §5.2:
//
// When a server starts, it's always started as Follower and it will remain in
// this state until receive a message from a Leader or Candidate.
//
raft.state = options.state || Raft.FOLLOWER; // Our current state.
raft.leader = ''; // Leader in our cluster.
raft.term = 0; // Our current term.
raft._initialize(options);
}
/**
* Initialize Raft and start listening to the various of events we're
* emitting as we're quite chatty to provide the maximum amount of flexibility
* and reconfigurability.
*
* @param {Object} options The configuration you passed in the constructor.
* @private
*/
_initialize(options) {
var raft = this;
//
// Reset our vote as we're starting a new term. Votes only last one term.
//
raft.on('term change', function change() {
raft.votes.for = null;
raft.votes.granted = 0;
});
//
// Reset our times and start the heartbeat again. If we're promoted to leader
// the heartbeat will automatically be broadcasted to users as well.
//
raft.on('state change', function change(state) {
raft.timers.clear('heartbeat, election');
raft.heartbeat(Raft.LEADER === raft.state ? raft.beat : raft.timeout());
raft.emit(Raft.states[state].toLowerCase());
});
//
// Receive incoming messages and process them.
//
raft.on('data', async (packet, write) => {
write = write || nope;
var reason;
if ('object' !== raft.type(packet)) {
reason = 'Invalid packet received';
raft.emit('error', new Error(reason));
return write(await raft.packet('error', reason));
}
//
// Raft §5.1:
//
// Applies to all states. If a response contains a higher term then our
// current term need to change our state to FOLLOWER and set the received
// term.
//
// If the raft receives a request with a stale term number it should be
// rejected.
//
if (packet.term > raft.term) {
raft.change({
leader: Raft.LEADER === packet.state ? packet.address : packet.leader || raft.leader,
state: Raft.FOLLOWER,
term: packet.term
});
} else if (packet.term < raft.term) {
reason = 'Stale term detected, received `'+ packet.term +'` we are at '+ raft.term;
raft.emit('error', new Error(reason));
return write(raft.packet('error', reason));
}
//
// Raft §5.2:
//
// If we receive a message from someone who claims to be leader and shares
// our same term while we're in candidate mode we will recognize their
// leadership and return as follower.
//
// If we got this far we already know that our terms are the same as it
// would be changed or prevented above..
//
if (Raft.LEADER === packet.state) {
if (Raft.FOLLOWER !== raft.state) raft.change({ state: Raft.FOLLOWER });
if (packet.address !== raft.leader) raft.change({ leader: packet.address });
//
// Always when we receive an message from the Leader we need to reset our
// heartbeat.
//
raft.heartbeat(raft.timeout());
}
switch (packet.type) {
//
// Raft §5.2:
// Raft §5.4:
//
// A raft asked us to vote on them. We can only vote to them if they
// represent a higher term (and last log term, last log index).
//
case 'vote':
//
// The term of the vote is bigger then ours so we need to update it. If
// it's the same and we already voted, we need to deny the vote.
//
if (raft.votes.for && raft.votes.for !== packet.address) {
raft.emit('vote', packet, false);
return write(await raft.packet('voted', { granted: false }));
}
//
// If we maintain a log, check if the candidates log is as up to date as
// ours.
//
if (raft.log) {
const { index, term } = await raft.log.getLastInfo();
if (index > packet.last.index && term > packet.last.term) {
raft.emit('vote', packet, false);
return write(await raft.packet('voted', { granted: false }));
}
}
//
// We've made our decision, we haven't voted for this term yet and this
// candidate came in first so it gets our vote as all requirements are
// met.
//
raft.votes.for = packet.address;
raft.emit('vote', packet, true);
raft.change({ leader: packet.address, term: packet.term });
write(await raft.packet('voted', { granted: true }));
//
// We've accepted someone as potential new leader, so we should reset
// our heartbeat to prevent this raft from timing out after voting.
// Which would again increment the term causing us to be next CANDIDATE
// and invalidates the request we just got, so that's silly willy.
//
raft.heartbeat(raft.timeout());
break;
//
// A new incoming vote.
//
case 'voted':
//
// Only accepts votes while we're still in a CANDIDATE state.
//
if (Raft.CANDIDATE !== raft.state) {
return write(await raft.packet('error', 'No longer a candidate, ignoring vote'));
}
//
// Increment our received votes when our voting request has been
// granted by the raft that received the data.
//
if (packet.data.granted) {
raft.votes.granted++;
}
//
// Check if we've received the minimal amount of votes required for this
// current voting round to be considered valid.
//
if (raft.quorum(raft.votes.granted)) {
raft.change({ leader: raft.address, state: Raft.LEADER });
//
// Send a heartbeat message to all connected clients.
//
raft.message(Raft.FOLLOWER, await raft.packet('append'));
}
//
// Empty write, nothing to do.
//
write();
break;
case 'error':
raft.emit('error', new Error(packet.data));
break;
case 'append':
const {term, index} = await raft.log.getLastInfo();
// We do not have the last index as our last entry
// Look back in log in case we have it previously
// if we do remove any bad uncommitted entries following it
if (packet.last.index !== index && packet.last.index !== 0) {
const hasIndex = await raft.log.has(packet.last.index);
if (hasIndex) raft.log.removeEntriesAfter(packet.last.index);
else return raft.message(Raft.LEADER, await raft.packet('append fail', {
term: packet.last.term,
index: packet.last.index
}));
}
if (packet.data) {
const entry = packet.data[0];
await raft.log.saveCommand(entry.command, entry.term, entry.index);
raft.message(Raft.LEADER, await raft.packet('append ack', {
term: entry.term,
index: entry.index
}));
}
//if packet commit index not the same. Commit commands
if (raft.log.committedIndex < packet.last.committedIndex) {
const entries = await raft.log.getUncommittedEntriesUpToIndex(packet.last.committedIndex, packet.last.term);
raft.commitEntries(entries);
}
break;
case 'append ack':
const entry = await raft.log.commandAck(packet.data.index, packet.address);
if (raft.quorum(entry.responses.length) && !entry.committed) {
const entries = await raft.log.getUncommittedEntriesUpToIndex(entry.index, entry.term);
raft.commitEntries(entries);
}
break;
case 'append fail':
const previousEntry = await raft.log.get(packet.data.index);
const append = await raft.appendPacket(previousEntry);
write(append);
break;
//
// RPC command
//
case 'exec':
break;
//
// Unknown event, we have no idea how to process this so we're going to
// return an error.
//
default:
if (raft.listeners('rpc').length) {
raft.emit('rpc', packet, write);
} else {
write(await raft.packet('error', 'Unknown message type: '+ packet.type));
}
}
});
//
// We do not need to execute the rest of the functionality below as we're
// currently running as "child" raft of the cluster not as the "root" raft.
//
if (Raft.CHILD === raft.state) return raft.emit('initialize');
//
// Setup the log & appends. Assume that if we're given a function log that it
// needs to be initialized as it requires access to our raft instance so it
// can read our information like our leader, state, term etc.
//
if ('function' === raft.type(raft.Log)) {
raft.log = new raft.Log(raft, options);
}
/**
* The raft is now listening to events so we can start our heartbeat timeout.
* So that if we don't hear anything from a leader we can promote our selfs to
* a candidate state.
*
* Start listening listening for heartbeats when implementors are also ready
* with setting up their code.
*
* @api private
*/
function initialize(err) {
if (err) return raft.emit('error', err);
raft.emit('initialize');
raft.heartbeat(raft.timeout());
}
if ('function' === raft.type(raft.initialize)) {
if (raft.initialize.length === 2) return raft.initialize(options, initialize);
raft.initialize(options);
}
initialize();
}
/**
* Proper type checking.
*
* @param {Mixed} of Thing we want to know the type of.
* @returns {String} The type.
* @private
*/
type(of) {
return Object.prototype.toString.call(of).slice(8, -1).toLowerCase();
}
/**
* Check if we've reached our quorum (a.k.a. minimum amount of votes requires
* for a voting round to be considered valid) for the given amount of votes.
*
* @param {Number} responses Amount of responses received.
* @returns {Boolean}
* @public
*/
quorum(responses) {
if (!this.nodes.length || !responses) return false;
return responses >= this.majority();
}
/**
* The majority required to reach our the quorum.
*
* @returns {Number}
* @public
*/
majority() {
return Math.ceil(this.nodes.length / 2) + 1;
}
/**
* Attempt to run a function indefinitely until the callback is called.
*
* @param {Function} attempt Function that needs to be attempted.
* @param {Function} fn Completion callback.
* @param {Number} timeout Which timeout should we use.
* @returns {Raft}
* @public
*/
indefinitely(attempt, fn, timeout) {
var uuid = UUID()
, raft = this;
(function again() {
//
// We need to force async execution here because we do not want to saturate
// the event loop with sync executions. We know that it's important these
// functions are retried indefinitely but if it's called synchronously we will
// not have time to receive data or updates.
//
var next = one(function force(err, data) {
if (!raft.timers) return; // We're been destroyed, ignore all.
raft.timers.setImmediate(uuid +'@async', function async() {
if (err) {
raft.emit('error', err);
return again();
}
fn(data);
});
});
//
// Ensure that the assigned callback has the same context as our raft.
//
attempt.call(raft, next);
raft.timers.setTimeout(uuid, function timeoutfn() {
next(new Error('Timed out, attempting to retry again'));
}, +timeout || raft.timeout());
}());
return this;
}
/**
* Start or update the heartbeat of the Raft. If we detect that we've received
* a heartbeat timeout we will promote our selfs to a candidate to take over the
* leadership.
*
* @param {String|Number} duration Time it would take for the heartbeat to timeout.
* @returns {Raft}
* @private
*/
heartbeat(duration) {
var raft = this;
duration = duration || raft.beat;
if (raft.timers.active('heartbeat')) {
raft.timers.adjust('heartbeat', duration);
return raft;
}
raft.timers.setTimeout('heartbeat', async () => {
if (Raft.LEADER !== raft.state) {
raft.emit('heartbeat timeout');
return raft.promote();
}
//
// According to the raft spec we should be sending empty append requests as
// heartbeat. We want to emit an event so people can modify or inspect the
// payload before we send it. It's also a good indication for when the
// idle state of a LEADER as it didn't get any messages to append/commit to
// the FOLLOWER'S.
//
var packet = await raft.packet('append');
raft.emit('heartbeat', packet);
raft.message(Raft.FOLLOWER, packet).heartbeat(raft.beat);
}, duration);
return raft;
}
/**
* Send a message to connected nodes within our cluster. The following messaging
* patterns (who) are available:
*
* - Raft.LEADER : Send a message to cluster's current leader.
* - Raft.FOLLOWER : Send a message to all non leaders.
* - Raft.CHILD : Send a message to everybody.
* - <address> : Send a message to a raft based on the address.
*
* @param {Mixed} who Recipient of the message.
* @param {Mixed} what The data we need to send.
* @param {Function} when Completion callback
* @returns {Raft}
* @public
*/
message(who, what, when) {
when = when || nope;
//
// If the "who" is undefined, the developer made an error somewhere. Tell them!
//
if (typeof who === 'undefined') {
throw new Error('Cannot send message to `undefined`. Check your spelling!');
}
var output = { errors: {}, results: {} }
, length = this.nodes.length
, errors = false
, latency = []
, raft = this
, nodes = []
, i = 0;
switch (who) {
case Raft.LEADER: for (; i < length; i++)
if (raft.leader === raft.nodes[i].address) {
nodes.push(raft.nodes[i]);
}
break;
case Raft.FOLLOWER: for (; i < length; i++)
if (raft.leader !== raft.nodes[i].address) {
nodes.push(raft.nodes[i]);
}
break;
case Raft.CHILD:
Array.prototype.push.apply(nodes, raft.nodes);
break;
default: for (; i < length; i++)
if (who === raft.nodes[i].address) {
nodes.push(raft.nodes[i]);
}
}
/**
* A small wrapper to force indefinitely sending of a certain packet.
*
* @param {Raft} client Raft we need to write a message to.
* @param {Object} data Message that needs to be send.
* @api private
*/
function wrapper(client, data) {
var start = +new Date();
client.write(data, function written(err, data) {
latency.push(+new Date() - start);
//
// Add the error or output to our `output` object to be
// passed to the callback when all the writing is done.
//
if (err) {
errors = true;
output.errors[client.address] = err;
} else {
output.results[client.address] = data;
}
//
// OK, so this is the strange part here. We've broadcasted messages and
// got replies back. This reply contained data so we need to process it.
// What if the data is incorrect? Then we have no way at the moment to
// send back reply to a reply to the server.
//
if (err) raft.emit('error', err);
else if (data) raft.emit('data', data);
//
// Messaging has been completed.
//
if (latency.length === length) {
raft.timing(latency);
when(errors ? output.errors : undefined, output.results);
latency.length = nodes.length = 0;
output = null;
}
});
}
length = nodes.length;
i = 0;
for (; i < length; i++) {
wrapper(nodes[i], what);
}
return raft;
};
/**
* Generate the various of timeouts.
*
* @returns {Number}
* @private
*/
timeout() {
var times = this.election;
return Math.floor(Math.random() * (times.max - times.min + 1) + times.min);
}
/**
* Calculate if our average latency causes us to come dangerously close to the
* minimum election timeout.
*
* @param {Array} latency Latency of the last broadcast.
* @param {Boolean} Success-fully calculated the threshold.
* @private
*/
timing(latency) {
var raft = this
, sum = 0
, i = 0;
if (Raft.STOPPED === raft.state) return false;
for (; i < latency.length; i++) {
sum += latency[i];
}
raft.latency = Math.floor(sum / latency.length);
if (raft.latency > raft.election.min * raft.threshold) {
raft.emit('threshold');
}
return true;
}
/**
* Raft §5.2:
*
* We've detected a timeout from the leaders heartbeats and need to start a new
* election for leadership. We increment our current term, set the CANDIDATE
* state, vote our selfs and ask all others rafts to vote for us.
*
* @returns {Raft}
* @private
*/
async promote() {
var raft = this;
raft.change({
state: Raft.CANDIDATE, // We're now a candidate,
term: raft.term + 1, // but only for this term.
leader: '' // We no longer have a leader.
});
//
// Candidates are always biased and vote for them selfs first before sending
// out a voting request to all other rafts in the cluster.
//
raft.votes.for = raft.address;
raft.votes.granted = 1;
//
// Broadcast the voting request to all connected rafts in your private
// cluster.
//
const packet = await raft.packet('vote')
raft.message(Raft.FOLLOWER, packet);
//
// Set the election timeout. This gives the rafts some time to reach
// consensuses about who they want to vote for. If no consensus has been
// reached within the set timeout we will attempt it again.
//
raft.timers
.clear('heartbeat, election')
.setTimeout('election', raft.promote, raft.timeout());
return raft;
}
/**
* Wrap the outgoing messages in an object with additional required data.
*
* @async
* @param {String} type Message type we're trying to send.
* @param {Mixed} data Data to be transfered.
* @returns {Promise<Object>} Packet.
* @private
*/
async packet(type, data) {
var raft = this
, wrapped = {
state: raft.state, // Are we're a leader, candidate or follower.
term: raft.term, // Our current term so we can find mis matches.
address: raft.address, // Address of the sender.
type: type, // Message type.
leader: raft.leader, // Who is our leader.
};
//
// If we have logging and state replication enabled we also need to send this
// additional data so we can use it determine the state of this raft.
//
if (raft.log) wrapped.last = await raft.log.getLastInfo();
if (arguments.length === 2) wrapped.data = data;
return wrapped;
}
/**
* appendPacket - Send append message with entry and using the previous entry as the last.index and last.term
*
* @param {Entry} entry Entry to send as data
*
* @return {Promise<object>} Description
* @private
*/
async appendPacket (entry) {
const raft = this;
const last = await raft.log.getEntryInfoBefore(entry);
return{
state: raft.state, // Are we're a leader, candidate or follower.
term: raft.term, // Our current term so we can find mis matches.
address: raft.address, // Address of the sender.
type: 'append', // Append message type .
leader: raft.leader, // Who is our leader.
data: [entry], // The command to send to the other nodes
last,
};
}
/**
* Create a clone of the current instance with the same configuration. Ideally
* for creating connected nodes in a cluster.. And let that be something we're
* planning on doing.
*
* @param {Object} options Configuration that should override the default config.
* @returns {Raft} The newly created instance.
* @public
*/
clone(options) {
options = options || {};
var raft = this
, node = {
'Log': raft.Log,
'election max': raft.election.max,
'election min': raft.election.min,
'heartbeat': raft.beat,
'threshold': raft.threshold,
}, key;
for (key in node) {
if (key in options || !node.hasOwnProperty(key)) continue;
options[key] = node[key];
}
return new raft.constructor(options);
}
/**
* A new raft is about to join the cluster. So we need to upgrade the
* configuration of every single raft.
*
* @param {String} address The address of the raft that is connected.
* @param {Function} write A method that we use to write data.
* @returns {Raft} The raft we created and that joined our cluster.
* @public
*/
join(address, write) {
var raft = this;
// can be function or asyncfunction
if (/function/.test(raft.type(address))) {
write = address; address = null;
}
//
// You shouldn't be able to join the cluster as your self. So we're going to
// add a really simple address check here. Return nothing so people can actually
// check if a raft has been added.
//
if (raft.address === address) return;
var node = raft.clone({
write: write, // Optional function that receives our writes.
address: address, // A custom address for the raft we added.
state: Raft.CHILD // We are a raft in the cluster.
});
node.once('end', function end() {
raft.leave(node);
}, raft);
raft.nodes.push(node);
raft.emit('join', node);
return node;
}
/**
* Remove a raft from the cluster.
*
* @param {String} address The address of the raft that should be removed.
* @returns {Raft} The raft that we removed.
* @public
*/
leave(address) {
var raft = this
, index = -1
, node;
for (var i = 0; i < raft.nodes.length; i++) {
if (raft.nodes[i] === address || raft.nodes[i].address === address) {
node = raft.nodes[i];
index = i;
break;
}
}
if (~index && node) {
raft.nodes.splice(index, 1);
if (node.end) node.end();
raft.emit('leave', node);
}
return node;
}
/**
* This Raft needs to be shut down.
*
* @returns {Boolean} Successful destruction.
* @public
*/
end() {
var raft = this;
if (Raft.STOPPED === raft.state) return false;
raft.change({ state: Raft.STOPPED });
if (raft.nodes.length) for (var i = 0; i < raft.nodes.length; i++) {
raft.leave(raft.nodes[i]);
}
raft.emit('end');
raft.timers.end();
raft.removeAllListeners();
if (raft.log) raft.log.end();
raft.timers = raft.Log = raft.beat = raft.election = null;
return true;
}
/**
* Raft §5.3:
* command - Saves command to log and replicates to followers
*
* @param {type} command Json command to be stored in the log
*
* @return {Promise<void>} Description
*/
async command(command) {
let raft = this;
if(raft.state !== Raft.LEADER) {
return fn({
message: 'NOTLEADER',
leaderAddress: raft.leader
});
}
// about to send an append so don't send a heart beat
// raft.heartbeat(raft.beat);
const entry = await raft.log.saveCommand(command, raft.term);
const appendPacket = await raft.appendPacket(entry);
raft.message(Raft.FOLLOWER, appendPacket);
}
/**
* commitEntries - Commites entries in log and emits commited entries
*
* @param {Entry[]} entries Entries to commit
* @return {Promise<void>}
*/
async commitEntries (entries) {
entries.forEach(async (entry) => {
await this.log.commit(entry.index)
this.emit('commit', entry.command);
});
}
}
/**
* Raft §5.1:
*
* A Raft can be in only one of the various states. The stopped state is not
* something that is part of the Raft protocol but something we might want to
* use internally while we're starting or shutting down our node. The following
* states are generated:
*
* - STOPPED: Assume we're dead.
* - LEADER: We're selected as leader process.
* - CANDIDATE: We want to be promoted to leader.
* - FOLLOWER: We're just following a leader.
* - CHILD: A node that has been added using JOIN.
*
* @type {Number}
* @private
*/
Raft.states = 'STOPPED,LEADER,CANDIDATE,FOLLOWER,CHILD'.split(',');
for (var s = 0; s < Raft.states.length; s++) {
Raft[Raft.states[s]] = s;
}
module.exports = Raft;