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phorge-phorge/webroot/rsrc/externals/javelin/lib/Leader.js

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/**
* @requires javelin-install
* @provides javelin-leader
* @javelin
*/
/**
* Synchronize multiple tabs over LocalStorage.
*
* This class elects one tab as the "Leader". It remains the leader until it
* is closed.
*
* Tabs can conditionally call a function if they are the leader using
* @{method:callIfLeader}. This will trigger leader election, and call the
* function if the current tab is elected. This can be used to keep one
* websocket open across a group of tabs, or play a sound only once in response
* to a server state change.
*
* Tabs can broadcast messages to other tabs using @{method:broadcast}. Each
* message has an optional ID. When a tab receives multiple copies of a message
* with the same ID, copies after the first copy are discarded. This can be
* used in conjunction with @{method:callIfLeader} to allow multiple event
* responders to trigger a reaction to an event (like a sound) and ensure that
* it is played only once (not once for each notification), and by only one
* tab (not once for each tab).
*
* Finally, tabs can register a callback which will run if they become the
* leading tab, by listening for `onBecomeLeader`.
*/
JX.install('Leader', {
events: ['onBecomeLeader', 'onReceiveBroadcast'],
statics: {
_interval: null,
_broadcastKey: 'JX.Leader.broadcast',
_leaderKey: 'JX.Leader.id',
/**
* Tracks leadership state. Since leadership election is asynchronous,
* we can't expose this directly without inconsistent behavior.
*/
_isLeader: false,
/**
* Keeps track of message IDs we've seen, so we send each message only
* once.
*/
_seen: {},
/**
* Helps keep the list of seen message IDs from growing without bound.
*/
_seenList: [],
/**
* Elect a leader, triggering leadership callbacks if they are registered.
*/
start: function() {
var self = JX.Leader;
self.callIfLeader(JX.bag);
},
/**
* Call a method if this tab is the leader.
*
* This is asynchronous because leadership election is asynchronous. If
* the current tab is not the leader after any election takes place, the
* callback will not be invoked.
*/
callIfLeader: function(callback) {
JX.Leader._callIf(callback, JX.bag);
},
/**
* Call a method after leader election.
*
* This is asynchronous because leadership election is asynchronous. The
* callback will be invoked after election takes place.
*
* This method is useful if you want to invoke a callback no matter what,
* but the callback behavior depends on whether this is the leader or
* not.
*/
call: function(callback) {
JX.Leader._callIf(callback, callback);
},
/**
* Elect a leader, then invoke either a leader callback or a follower
* callback.
*/
_callIf: function(leader_callback, follower_callback) {
if (!window.localStorage) {
// If we don't have localStorage, pretend we're the only tab.
self._becomeLeader();
leader_callback();
return;
}
var self = JX.Leader;
// If we don't have an ID for this tab yet, generate one and register
// event listeners.
if (!self._id) {
self._id = 1 + parseInt(Math.random() * 1000000000, 10);
JX.Stratcom.listen('pagehide', null, self._pagehide);
JX.Stratcom.listen('storage', null, self._storage);
}
// Read the current leadership lease.
var lease = self._read();
// If the lease is good, we're all set.
var now = +new Date();
if (lease.until > now) {
if (lease.id === self._id) {
// If we haven't installed an update timer yet, do so now. This will
// renew our lease every 5 seconds, making sure we hold it until the
// tab is closed.
if (!self._interval && lease.until > now + 10000) {
self._interval = window.setInterval(self._write, 5000);
}
self._becomeLeader();
leader_callback();
} else {
follower_callback();
}
return;
}
// If the lease isn't good, try to become the leader. We don't have
// proper locking primitives for this, but can do a relatively good
// job. The algorithm here is:
//
// - Write our ID, trying to acquire the lease.
// - Delay for much longer than a write "could possibly" take.
// - Read the key back.
// - If nothing else overwrote the key, we become the leader.
//
// This avoids a race where our reads and writes could otherwise
// interleave with another tab's reads and writes, electing both or
// neither as the leader.
//
// This approximately follows an algorithm attributed to Fischer in
// "A Fast Mutual Exclusion Algorithm" (Leslie Lamport, 1985). That
// paper also describes a faster (but more complex) algorithm, but
// it's not problematic to add a significant delay here because
// leader election is not especially performance-sensitive.
self._write();
window.setTimeout(
JX.bind(null, self._callIf, leader_callback, follower_callback),
50);
},
/**
* Send a message to all open tabs.
*
* Tabs can receive messages by listening to `onReceiveBroadcast`.
*
* @param string|null Message ID. If provided, subsequent messages with
* the same ID will be discarded.
* @param wild The message to send.
*/
broadcast: function(id, message) {
var self = JX.Leader;
if (id !== null) {
if (id in self._seen) {
return;
}
self._markSeen(id);
}
if (window.localStorage) {
var json = JX.JSON.stringify(
{
id: id,
message: message,
// LocalStorage only emits events if the value changes. Include
// a random component to make sure that broadcasts are never
// eaten. Although this is probably not often useful in a
// production system, it makes testing easier and more predictable.
uniq: parseInt(Math.random() * 1000000, 10)
});
window.localStorage.setItem(self._broadcastKey, json);
}
self._receiveBroadcast(message);
},
/**
* Write a lease which names us as the leader.
*/
_write: function() {
var self = JX.Leader;
var str = [self._id, ((+new Date()) + 16000)].join(':');
window.localStorage.setItem(self._leaderKey, str);
},
/**
* Read the current lease.
*/
_read: function() {
var self = JX.Leader;
var leader = window.localStorage.getItem(self._leaderKey) || '0:0';
leader = leader.split(':');
return {
id: parseInt(leader[0], 10),
until: parseInt(leader[1], 10)
};
},
/**
* When the tab is closed, if we're the leader, release leadership.
*
* This will trigger a new election if there are other tabs open.
*/
_pagehide: function() {
var self = JX.Leader;
if (self._read().id === self._id) {
window.localStorage.removeItem(self._leaderKey);
}
},
/**
* React to a storage update.
*/
_storage: function(e) {
var self = JX.Leader;
var key = e.getRawEvent().key;
var new_value = e.getRawEvent().newValue;
switch (key) {
case self._broadcastKey:
new_value = JX.JSON.parse(new_value);
if (new_value.id !== null) {
if (new_value.id in self._seen) {
return;
}
self._markSeen(new_value.id);
}
self._receiveBroadcast(new_value.message);
break;
case self._leaderKey:
// If the leader tab closed, elect a new leader.
if (new_value === null) {
self.callIfLeader(JX.bag);
}
break;
}
},
_receiveBroadcast: function(message) {
var self = JX.Leader;
new JX.Leader().invoke('onReceiveBroadcast', message, self._isLeader);
},
_becomeLeader: function() {
var self = JX.Leader;
if (self._isLeader) {
return;
}
self._isLeader = true;
new JX.Leader().invoke('onBecomeLeader');
},
/**
* Mark a message as seen.
*
* We keep a fixed-sized list of recent messages, and let old ones fall
* off the end after a while.
*/
_markSeen: function(id) {
var self = JX.Leader;
self._seen[id] = true;
self._seenList.push(id);
while (self._seenList.length > 128) {
delete self._seen[self._seenList[0]];
self._seenList.splice(0, 1);
}
}
}
});