A fully featured Memcached API client, supporting both single and clustered Memcached servers through consistent hashing and failover/failure. Memcached is rewrite of nMemcached, which will be deprecated in the near future.

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memcached is a fully featured Memcached client for Node.js. memcached is built with scaling, high availability and exceptional performance in mind. We use consistent hashing to store the data across different nodes. Consistent hashing is a scheme that provides a hash table functionality in a way that adding or removing a server node does not significantly change the mapping of the keys to server nodes. The algorithm that is used for consistent hashing is the same as libketama.
There are different ways to handle errors for example, when a server becomes unavailable you can configure the client to see all requests to that server as cache misses until it goes up again. It's also possible to automatically remove the affected server from the consistent hashing algorithm or provide memcached with a failover server that can take the place of the unresponsive server.
When these issues occur the memcached client will emit different events where you can subscribe to containing detailed information about the issues.
The client is configurable on different levels. There's a global configuration that you update so all your Memcached clusters will use the same failure configuration for example, but it's also possible to overwrite these changes per memcached instance.


As in other databases and message queues, this module uses the ASCII protocol to communicate with the server, which means that you can see what is send over the wire. For debugging this is easier for both the users and the developers however this also means that SASL auth is not supported because it demands the binary protocol.


npm install memcached

Setting up the client

The constructor of the memcached client take 2 different arguments `server locations and options`. Syntax:
var Memcached = require('memcached');
var memcached = new Memcached(Server locations, options);

Server locations

The server locations is designed to work with different formats. These formats are all internally parsed to the correct format so our consistent hashing scheme can work with it. You can either use:
  1. String, this only works if you are running a single server instance
of Memcached.  It's as easy a suppling a string in the following format:
`hostname:port`. For example `` This would tell the client
to connect to host `` on port number `11211`.
  1. Array, if you are running a single server you would only have to supply
one item in the array. The array format is particularly useful if you are running a cluster of Memcached servers. This will allow you to spread the keys and load between the different servers. Giving you higher availability when one of your Memcached servers goes down.
  1. Object, when running a cluster of Memcached servers, some servers may allocate different amounts of memory, e.g. 128, 512, and 128mb. While by default all servers are equally important and dispatch consistently the keys between the servers (33/33/33%), it is possible to send more keys in servers having more memory. To do so, define an object whose key represents the server location and whose value represents a server weight, the default weight for a server being 1; so, for instance { '': 1, '': 2, '': 1 } distributes 50% of the keys on server 103, but only 25% on 104 and 25% on 102.

To implement one of the above formats, your constructor would look like this:
var memcached = new Memcached({ '': 1, '': 2, '': 1 });
var memcached = new Memcached([ '', '', '' ]);
var memcached = new Memcached('');


Memcached accepts two option schemes. The first one inherits of all Memcached server instances while the second one is client specific and overwrites the globals. To define these options, Memcached server uses the same properties:
  • maxKeySize: 250, the maximum key size allowed.
  • maxExpiration: 2592000, the maximum expiration time of keys (in seconds).
  • maxValue: 1048576, the maximum size of a value.
  • poolSize: 10, the maximum size of the connection pool.
  • algorithm: md5, the hashing algorithm used to generate the hashRing values.
  • reconnect: 18000000, the time between reconnection attempts (in milliseconds).
  • timeout: 5000, the time after which Memcached sends a connection timeout (in milliseconds).
  • retries: 5, the number of socket allocation retries per request.
  • failures: 5, the number of failed-attempts to a server before it is regarded as 'dead'.
  • retry: 30000, the time between a server failure and an attempt to set it up back in service.
  • remove: false, if true, authorizes the automatic removal of dead servers from the pool.
  • failOverServers: undefined, an array of server_locations to replace servers that fail and
that are removed from the consistent hashing scheme.
  • keyCompression: true, whether to use md5 as hashing scheme when keys exceed maxKeySize.
  • idle: 5000, the idle timeout for the connections.

Example usage:
var memcached = new Memcached('localhost:11211', {retries:10,retry:10000,remove:true,failOverServers:['']});

If you wish to configure the options globally:
var Memcached = require('memcached');
// all global configurations should be applied to the .config object of the Client.
Memcached.config.poolSize = 25;


Public methods

memcached.touch Touches the given key.
  • key: String The key
  • lifetime: Number After how long should the key expire measured in seconds
  • callback: Function

memcached.touch('key', 10, function (err) { /* stuff */ });

memcached.get Get the value for the given key.
  • key: String, the key
  • callback: Function, the callback.

memcached.get('foo', function (err, data) {

memcached.gets Get the value and the CAS id.
  • key: String, the key
  • callback: Function, the callback.

memcached.gets('foo', function (err, data) {

  // Please note that the data is stored under the name of the given key.
memcached.getMulti Retrieves a bunch of values from multiple keys.
  • keys: Array, all the keys that needs to be fetched
  • callback: Function, the callback.

memcached.getMulti(['foo', 'bar'], function (err, data) {

memcached.set Stores a new value in Memcached.
  • key: String the name of the key
  • value: Mixed Either a buffer, JSON, number or string that you want to store.
  • lifetime: Number, how long the data needs to be stored measured in seconds
  • callback: Function the callback

memcached.set('foo', 'bar', 10, function (err) { /* stuff */ });

memcached.replace Replaces the value in memcached.
  • key: String the name of the key
  • value: Mixed Either a buffer, JSON, number or string that you want to store.
  • lifetime: Number, how long the data needs to be replaced measured in seconds
  • callback: Function the callback

memcached.replace('foo', 'bar', 10, function (err) { /* stuff */ });

memcached.add Add the value, only if it's not in memcached already.
  • key: String the name of the key
  • value: Mixed Either a buffer, JSON, number or string that you want to store.
  • lifetime: Number, how long the data needs to be replaced measured in seconds
  • callback: Function the callback

memcached.add('foo', 'bar', 10, function (err) { /* stuff */ });

memcached.cas Add the value, only if it matches the given CAS value.
  • key: String the name of the key
  • value: Mixed Either a buffer, JSON, number or string that you want to store.
  • lifetime: Number, how long the data needs to be replaced measured in seconds
  • cas: String the CAS value
  • callback: Function the callback

memcached.gets('foo', function (err, data) {
  memcached.cas('foo', 'bar', data.cas, 10, function (err) { /* stuff */ });

memcached.append Add the given value string to the value of an existing item.
  • key: String the name of the key
  • value: Mixed Either a buffer, JSON, number or string that you want to store.
  • callback: Function the callback

memcached.append('foo', 'bar', function (err) { /* stuff */ });

memcached.prepend Add the given value string to the value of an existing item.
  • key: String the name of the key
  • value: Mixed Either a buffer, JSON, number or string that you want to store.
  • callback: Function the callback

memcached.preprend('foo', 'bar', function (err) { /* stuff */ });

memcached.incr Increment a given key.
  • key: String the name of the key
  • amount: Number The increment
  • callback: Function the callback

memcached.incr('foo', 10, function (err) { /* stuff */ });

memcached.decr Decrement a given key.
  • key: String the name of the key
  • amount: Number The increment
  • callback: Function the callback

memcached.decr('foo', 10, function (err) { /* stuff */ });

memcached.del Remove the key from memcached.
  • key: String the name of the key
  • callback: Function the callback

memcached.del('foo', function (err) { /* stuff */ });

memcached.version Retrieves the version number of your server.
  • callback

memcached.flush Flushes the memcached server.
  • callback

memcached.stats Retrieves stats from your memcached server.
  • callback

memcached.settings Retrieves your stats settings.
  • callback

memcached.slabs Retrieves stats slabs information.
  • callback

memcached.items Retrieves stats items information.
  • callback

memcached.cachedump Inspect cache, see examples for a detailed explanation.
  • server
  • slabid
  • number
  • callback

memcached.end Closes all active memcached connections.

Private methods

The following methods are intended for private usage
.connect Fetches or generates a connection for the given server. The supplied callback function will receive a reference to the connection as argument. If there are issues with the server connection, we are going to respond with cache-miss pattern.
  • server: String, The server that needs a connection, the format must be
confirm the serverlocations specification.
  • callback: Function, The callback function that receives the net.Stre

memcached.connect( '', function( err, conn ){
  if( err ) throw new Error( err );
  console.log( conn.server );

.multi A small wrapper function that makes it easier to query multiple Memcached servers. It will return the location for each key or the complete list of servers.
  • keys: Array (optional), They keys that needs to be converted to a server.
  • callback: Function, The callback function for the data, it will be called
for each key. It will be called with 4 arguments:
  1. server: String, The server location.
  2. key: String, The key associated with the server, if you didn't specify
keys, this variable will be undefined.
  1. index: Number, The current index of the loop
  2. total: Number, The total amount server retrieved.

memcached.multi( false, function( server, key, index, totals ){
  if( err ) throw new Error( err );

  this.connect( server, function( err, conn ){
    console.log( "connection ready" )

.command This is the core functionality of the memcached client. All public API's are routed through this function. It takes care of the argument validations Server retrieval ( If the server argument isn't specified ). After all data ready a connection is asked for the private connect method and the command is written to the Memcached server.
  • query: Object, The metaData object, see the Callbacks section for the
  • server: String, The server the to connect. This is only needed when the
metaData object doesn't contain a key property to retrieve the server from.
  key: 'key', callback: function(){ console.dir( arguments ); },

  // validate the arguments
  validate: [[ 'key', String ], [ 'callback', Function ]],

  // used for the query
  type: 'delete',
  command: 'delete key'

.connectionIssue A internal function for logging issues with connections. As there can be various of ways that an error occurs we need solid issue manager to handle all these cases. For example server could crash or the Memcached server could respond with SERVER ERROR <broken>.
  • error: String, The actual error message.
  • Stream: net.Stream, A reference to the connection stream where the error
occurred on.
  • callback: Function (optional), The callback function of a potential
request, it will be marked as cache miss if it was provided
memcached.connectionIssue( "Server down", connectionReference );


Each method requires a callback function. Once this function get executed there will be 2 variables applied:
  • error: A error response if something went wrong while retrieving data from
the Memcached server. Depending on the type of request this will either be an string or an Array with multiple errors.
  • response: The actual result from the Memcached server. If the response is
false or undefined than a cache miss occurred. Cache misses will also occur when there is an error. So you might want to check on errors first.
When we have a successful response, the context of the callback function will shift to a metaData object. The metaData object contains all information that we used to generate the request for the Memcached server. The metaData object contains the following properties:
  • start: Date in milliseconds when the request was received
  • execution: Total execution time for the request, including response parsing.
  • callback: Reference to the callback function
  • type: The type of Memcached command
  • command: The compiled command that was send through the sockets
  • validate: The properties of metaData object that needs type validation.

And all the arguments you have send to the method, this depends on the method you have called.


When connection issues occur we send out different notifications using the EventEmitter protocol. This can be useful for logging, notification and debugging purposes. Each event will receive details Object containing detailed information about the issues that occurred.

Details Object

The details Object contains the various of error messages that caused, the following 3 will always be present in all error events:
  • server: the server where the issue occurred on
  • tokens: a array of the parsed server string in [port, hostname] format.
  • messages: a array containing all error messages that this server received.
As messages are added to the array using .push(), the first issue will at the beginning and the latest error at the end of the array.
The following properties depend on the type of event that is send. If we are still in our retry phase the details will also contain:
  • failures: the amount of failures left before we mark the server as dead.
  • totalFailures: the total amount of failures that occurred on this server, as when the
server has been reconnected after it's dead the failures will be rest to defaults and messages will be removed.
If the server is dead these details will be added:
  • totalReconnectsAttempted: the total reconnects we have attempted. This is
the success and failure combined.
  • totalReconnectsSuccess: the total successful reconnects we have made.
  • totalReconnectsFailed: the total failed reconnects we have made.
  • totalDownTime: the total down time that was generated. Formula: (
totalReconnectsFailed reconnecttimeout ) + ( totalRetries retrytimeout).


There are 5 different events that the memcached client emits when connection issues occur.
  • issue: a issue occurred on one a server, we are going to attempt a retry next.
  • failure: a server has been marked as failure or dead.
  • reconnecting: we are going to attempt to reconnect the to the failed server.
  • reconnect: successfully reconnected to the memcached server.
  • remove: removing the server from our consistent hashing.

Example implementations:
var memcached = new Memcached([ '', '' ]);
memcached.on('failure', function( details ){ sys.error( "Server " + details.server + "went down due to: " + details.messages.join( '' ) ) });
memcached.on('reconnecting', function( details ){ sys.debug( "Total downtime caused by server " + details.server + " :" + details.totalDownTime + "ms")});
For compatibility with other libmemcached
clients they need to have the behavior ketama_weighted set to true and the hash set to the same as node-memcached's algorithm.
Due to client dependent type flags it is unlikely that any types other than string will work.
This project wouldn't be possible without the hard work of our amazing contributors. See the contributors tab in Github for an up to date list of contributors.
Thanks for all your hard work on this project!
The driver is released under the MIT license. See the LICENSE for more information.