This is a complete Redis client for node.js. It supports all Redis commands, including many recently added commands like EVAL from experimental Redis server branches.
Install with:
npm install redis
Pieter Noordhuis has provided a binding to the official hiredis
C library, which is non-blocking and fast. To use hiredis
, do:
npm install hiredis redis
If hiredis
is installed, node_redis
will use it by default. Otherwise, a pure JavaScript parser will be used.
If you use hiredis
, be sure to rebuild it whenever you upgrade your version of node. There are mysterious failures that can
happen between node and native code modules after a node upgrade.
Simple example, included as examples/simple.js
:
var redis = require("redis"),
client = redis.createClient();
client.on("error", function (err) {
console.log("Error " + err);
});
client.set("string key", "string val", redis.print);
client.hset("hash key", "hashtest 1", "some value", redis.print);
client.hset(["hash key", "hashtest 2", "some other value"], redis.print);
client.hkeys("hash key", function (err, replies) {
console.log(replies.length + " replies:");
replies.forEach(function (reply, i) {
console.log(" " + i + ": " + reply);
});
client.quit();
});
This will display:
mjr:~/work/node_redis (master)$ node example.js
Reply: OK
Reply: 0
Reply: 0
2 replies:
0: hashtest 1
1: hashtest 2
mjr:~/work/node_redis (master)$
Here are typical results of multi_bench.js
which is similar to redis-benchmark
from the Redis distribution.
It uses 50 concurrent connections with no pipelining.
JavaScript parser:
PING: 20000 ops 42283.30 ops/sec 0/5/1.182
SET: 20000 ops 32948.93 ops/sec 1/7/1.515
GET: 20000 ops 28694.40 ops/sec 0/9/1.740
INCR: 20000 ops 39370.08 ops/sec 0/8/1.269
LPUSH: 20000 ops 36429.87 ops/sec 0/8/1.370
LRANGE (10 elements): 20000 ops 9891.20 ops/sec 1/9/5.048
LRANGE (100 elements): 20000 ops 1384.56 ops/sec 10/91/36.072
hiredis parser:
PING: 20000 ops 46189.38 ops/sec 1/4/1.082
SET: 20000 ops 41237.11 ops/sec 0/6/1.210
GET: 20000 ops 39682.54 ops/sec 1/7/1.257
INCR: 20000 ops 40080.16 ops/sec 0/8/1.242
LPUSH: 20000 ops 41152.26 ops/sec 0/3/1.212
LRANGE (10 elements): 20000 ops 36563.07 ops/sec 1/8/1.363
LRANGE (100 elements): 20000 ops 21834.06 ops/sec 0/9/2.287
The performance of node_redis
improves dramatically with pipelining, which happens automatically in most normal programs.
Each Redis command is exposed as a function on the client
object.
All functions take either take either an args
Array plus optional callback
Function or
a variable number of individual arguments followed by an optional callback.
Here is an example of passing an array of arguments and a callback:
client.mset(["test keys 1", "test val 1", "test keys 2", "test val 2"], function (err, res) {});
Here is that same call in the second style:
client.mset("test keys 1", "test val 1", "test keys 2", "test val 2", function (err, res) {});
Note that in either form the callback
is optional:
client.set("some key", "some val");
client.set(["some other key", "some val"]);
For a list of Redis commands, see Redis Command Reference
The commands can be specified in uppercase or lowercase for convenience. client.get()
is the same as client.GET()
.
Minimal parsing is done on the replies. Commands that return a single line reply return JavaScript Strings,
integer replies return JavaScript Numbers, "bulk" replies return node Buffers, and "multi bulk" replies return a
JavaScript Array of node Buffers. HGETALL
returns an Object with Buffers keyed by the hash keys.
client
will emit some events about the state of the connection to the Redis server.
client
will emit ready
a connection is established to the Redis server and the server reports
that it is ready to receive commands. Commands issued before the ready
event are queued,
then replayed just before this event is emitted.
client
will emit connect
at the same time as it emits ready
unless client.options.no_ready_check
is set. If this options is set, connect
will be emitted when the stream is connected, and then
you are free to try to send commands.
client
will emit error
when encountering an error connecting to the Redis server.
Note that "error" is a special event type in node. If there are no listeners for an "error" event, node will exit. This is usually what you want, but it can lead to some cryptic error messages like this:
mjr:~/work/node_redis (master)$ node example.js
node.js:50
throw e;
^
Error: ECONNREFUSED, Connection refused
at IOWatcher.callback (net:870:22)
at node.js:607:9
Not very useful in diagnosing the problem, but if your program isn't ready to handle this, it is probably the right thing to just exit.
client
will also emit error
if an exception is thrown inside of node_redis
for whatever reason.
It would be nice to distinguish these two cases.
client
will emit end
when an established Redis server connection has closed.
client
will emit drain
when the TCP connection to the Redis server has been buffering, but is now
writable. This event can be used to stream commands in to Redis and adapt to backpressure. Right now,
you need to check client.command_queue.length
to decide when to reduce your send rate. Then you can
resume sending when you get drain
.
client
will emit idle
when there are no outstanding commands that are awaiting a response.
Create a new client connection. port
defaults to 6379
and host
defaults
to 127.0.0.1
. If you have redis-server
running on the same computer as node, then the defaults for
port and host are probably fine. options
in an object with the following possible properties:
parser
: which Redis protocol reply parser to use. Defaults tohiredis
if that module is installed. This may also be set tojavascript
.return_buffers
: defaults tofalse
. If set totrue
, then all replies will be sent to callbacks as node Buffer objects instead of JavaScript Strings.detect_buffers
: default tofalse
. If set totrue
, then replies will be sent to callbacks as node Buffer objects if any of the input arguments to the original command were Buffer objects. This option lets you switch between Buffers and Strings on a per-command basis, whereasreturn_buffers
applies to every command on a client.socket_nodelay
: defaults totrue
. Whether to call setNoDelay() on the TCP stream, which disables the Nagle algorithm on the underlying socket. Setting this option tofalse
can result in additional throughput at the cost of more latency. Most applications will want this set totrue
.no_ready_check
: defaults tofalse
. When a connection is established to the Redis server, the server might still be loading the database from disk. While loading, the server not respond to any commands. To work around this,node_redis
has a "ready check" which sends theINFO
command to the server. The response from theINFO
command indicates whether the server is ready for more commands. When ready,node_redis
emits aready
event. Settingno_ready_check
totrue
will inhibit this check.
var redis = require("redis"),
client = redis.createClient(null, null, {detect_buffers: true});
client.set("foo_rand000000000000", "OK");
// This will return a JavaScript String
client.get("foo_rand000000000000", function (err, reply) {
console.log(reply.toString()); // Will print `OK`
});
// This will return a Buffer since original key is specified as a Buffer
client.get(new Buffer("foo_rand000000000000"), function (err, reply) {
console.log(reply.toString()); // Will print `<Buffer 4f 4b>`
});
client.end();
createClient()
returns a RedisClient
object that is named client
in all of the examples here.
When connecting to Redis servers that require authentication, the AUTH
command must be sent as the
first command after connecting. This can be tricky to coordinate with reconnections, the ready check,
etc. To make this easier, client.auth()
stashes password
and will send it after each connection,
including reconnections. callback
is invoked only once, after the response to the very first
AUTH
command sent.
NOTE: Your call to client.auth()
should not be inside the ready handler. If
you are doing this wrong, client
will emit an error that looks
something like this Error: Ready check failed: ERR operation not permitted
.
Forcibly close the connection to the Redis server. Note that this does not wait until all replies have been parsed.
If you want to exit cleanly, call client.quit()
to send the QUIT
command after you have handled all replies.
This example closes the connection to the Redis server before the replies have been read. You probably don't want to do this:
var redis = require("redis"),
client = redis.createClient();
client.set("foo_rand000000000000", "some fantastic value");
client.get("foo_rand000000000000", function (err, reply) {
console.log(reply.toString());
});
client.end();
client.end()
is useful for timeout cases where something is stuck or taking too long and you want
to start over.
Most Redis commands take a single String or an Array of Strings as arguments, and replies are sent back as a single String or an Array of Strings. When dealing with hash values, there are a couple of useful exceptions to this.
The reply from an HGETALL command will be converted into a JavaScript Object by node_redis
. That way you can interact
with the responses using JavaScript syntax.
Example:
client.hmset("hosts", "mjr", "1", "another", "23", "home", "1234");
client.hgetall("hosts", function (err, obj) {
console.dir(obj);
});
Output:
{ mjr: '1', another: '23', home: '1234' }
Multiple values in a hash can be set by supplying an object:
client.HMSET(key2, {
"0123456789": "abcdefghij",
"some manner of key": "a type of value"
});
The properties and values of this Object will be set as keys and values in the Redis hash.
Multiple values may also be set by supplying a list:
client.HMSET(key1, "0123456789", "abcdefghij", "some manner of key", "a type of value");
Here is a simple example of the API for publish / subscribe. This program opens two client connections, subscribes to a channel on one of them, and publishes to that channel on the other:
var redis = require("redis"),
client1 = redis.createClient(), client2 = redis.createClient(),
msg_count = 0;
client1.on("subscribe", function (channel, count) {
client2.publish("a nice channel", "I am sending a message.");
client2.publish("a nice channel", "I am sending a second message.");
client2.publish("a nice channel", "I am sending my last message.");
});
client1.on("message", function (channel, message) {
console.log("client1 channel " + channel + ": " + message);
msg_count += 1;
if (msg_count === 3) {
client1.unsubscribe();
client1.end();
client2.end();
}
});
client1.incr("did a thing");
client1.subscribe("a nice channel");
When a client issues a SUBSCRIBE
or PSUBSCRIBE
, that connection is put into "pub/sub" mode.
At that point, only commands that modify the subscription set are valid. When the subscription
set is empty, the connection is put back into regular mode.
If you need to send regular commands to Redis while in pub/sub mode, just open another connection.
If a client has subscriptions active, it may emit these events:
Client will emit message
for every message received that matches an active subscription.
Listeners are passed the channel name as channel
and the message Buffer as message
.
Client will emit pmessage
for every message received that matches an active subscription pattern.
Listeners are passed the original pattern used with PSUBSCRIBE
as pattern
, the sending channel
name as channel
, and the message Buffer as message
.
Client will emit subscribe
in response to a SUBSCRIBE
command. Listeners are passed the
channel name as channel
and the new count of subscriptions for this client as count
.
Client will emit psubscribe
in response to a PSUBSCRIBE
command. Listeners are passed the
original pattern as pattern
, and the new count of subscriptions for this client as count
.
Client will emit unsubscribe
in response to a UNSUBSCRIBE
command. Listeners are passed the
channel name as channel
and the new count of subscriptions for this client as count
. When
count
is 0, this client has left pub/sub mode and no more pub/sub events will be emitted.
Client will emit punsubscribe
in response to a PUNSUBSCRIBE
command. Listeners are passed the
channel name as channel
and the new count of subscriptions for this client as count
. When
count
is 0, this client has left pub/sub mode and no more pub/sub events will be emitted.
MULTI
commands are queued up until an EXEC
is issued, and then all commands are run atomically by
Redis. The interface in node_redis
is to return an individual Multi
object by calling client.multi()
.
var redis = require("./index"),
client = redis.createClient(), set_size = 20;
client.sadd("bigset", "a member");
client.sadd("bigset", "another member");
while (set_size > 0) {
client.sadd("bigset", "member " + set_size);
set_size -= 1;
}
// multi chain with an individual callback
client.multi()
.scard("bigset")
.smembers("bigset")
.keys("*", function (err, replies) {
client.mget(replies, redis.print);
})
.dbsize()
.exec(function (err, replies) {
console.log("MULTI got " + replies.length + " replies");
replies.forEach(function (reply, index) {
console.log("Reply " + index + ": " + reply.toString());
});
});
client.multi()
is a constructor that returns a Multi
object. Multi
objects share all of the
same command methods as client
objects do. Commands are queued up inside the Multi
object
until Multi.exec()
is invoked.
You can either chain together MULTI
commands as in the above example, or you can queue individual
commands while still sending regular client command as in this example:
var redis = require("redis"),
client = redis.createClient(), multi;
// start a separate multi command queue
multi = client.multi();
multi.incr("incr thing", redis.print);
multi.incr("incr other thing", redis.print);
// runs immediately
client.mset("incr thing", 100, "incr other thing", 1, redis.print);
// drains multi queue and runs atomically
multi.exec(function (err, replies) {
console.log(replies); // 101, 2
});
// you can re-run the same transaction if you like
multi.exec(function (err, replies) {
console.log(replies); // 102, 3
client.quit();
});
In addition to adding commands to the MULTI
queue individually, you can also pass an array
of commands and arguments to the constructor:
var redis = require("redis"),
client = redis.createClient(), multi;
client.multi([
["mget", "multifoo", "multibar", redis.print],
["incr", "multifoo"],
["incr", "multibar"]
]).exec(function (err, replies) {
console.log(replies);
});
Redis supports the MONITOR
command, which lets you see all commands received by the Redis server
across all client connections, including from other client libraries and other computers.
After you send the MONITOR
command, no other commands are valid on that connection. node_redis
will emit a monitor
event for every new monitor message that comes across. The callback for the
monitor
event takes a timestamp from the Redis server and an array of command arguments.
Here is a simple example:
var client = require("redis").createClient(),
util = require("util");
client.monitor(function (err, res) {
console.log("Entering monitoring mode.");
});
client.on("monitor", function (time, args) {
console.log(time + ": " + util.inspect(args));
});
Some other things you might like to know about.
After the ready probe completes, the results from the INFO command are saved in the client.server_info
object.
The versions
key contains an array of the elements of the version string for easy comparison.
> client.server_info.redis_version
'2.3.0'
> client.server_info.versions
[ 2, 3, 0 ]
A handy callback function for displaying return values when testing. Example:
var redis = require("redis"),
client = redis.createClient();
client.on("connect", function () {
client.set("foo_rand000000000000", "some fantastic value", redis.print);
client.get("foo_rand000000000000", redis.print);
});
This will print:
Reply: OK
Reply: some fantastic value
Note that this program will not exit cleanly because the client is still connected.
Boolean to enable debug mode and protocol tracing.
var redis = require("redis"),
client = redis.createClient();
redis.debug_mode = true;
client.on("connect", function () {
client.set("foo_rand000000000000", "some fantastic value");
});
This will display:
mjr:~/work/node_redis (master)$ node ~/example.js
send command: *3
$3
SET
$20
foo_rand000000000000
$20
some fantastic value
on_data: +OK
send command
is data sent into Redis and on_data
is data received from Redis.
Used internally to send commands to Redis. For convenience, nearly all commands that are published on the Redis
Wiki have been added to the client
object. However, if I missed any, or if new commands are introduced before
this library is updated, you can use send_command()
to send arbitrary commands to Redis.
All commands are sent as multi-bulk commands. args
can either be an Array of arguments, or individual arguments,
or omitted completely.
Boolean tracking the state of the connection to the Redis server.
The number of commands that have been sent to the Redis server but not yet replied to. You can use this to enforce some kind of maximum queue depth for commands while connected.
Don't mess with client.command_queue
though unless you really know what you are doing.
The number of commands that have been queued up for a future connection. You can use this to enforce some kind of maximum queue depth for pre-connection commands.
Current delay in milliseconds before a connection retry will be attempted. This starts at 250
.
Multiplier for future retry timeouts. This should be larger than 1 to add more time between retries. Defaults to 1.7. The default initial connection retry is 250, so the second retry will be 425, followed by 723.5, etc.
Better tests for auth, disconnect/reconnect, and all combinations thereof.
Stream large set/get values into and out of Redis. Otherwise the entire value must be in node's memory.
Performance can be better for very large values.
I think there are more performance improvements left in there for smaller values, especially for large lists of small values.
Some people have have added features and fixed bugs in node_redis
other than me.
In order of first contribution, they are:
- Tim Smart
- TJ Holowaychuk
- Rick Olson
- Orion Henry
- Hank Sims
- Aivo Paas
- Paul Carey
- Pieter Noordhuis
- Vladimir Dronnikov
- Dave Hoover
Thanks.
Copyright (c) 2010 Matthew Ranney, http://ranney.com/
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.