Gathering detailed insights and metrics for @valkey/bloom
Gathering detailed insights and metrics for @valkey/bloom
Gathering detailed insights and metrics for @valkey/bloom
Gathering detailed insights and metrics for @valkey/bloom
npm install @valkey/bloom
Module System
Min. Node Version
Typescript Support
Node Version
NPM Version
4 Stars
1,950 Commits
2 Forks
1 Watching
1 Branches
1 Contributors
Updated on 24 Oct 2024
TypeScript (99.33%)
JavaScript (0.66%)
Dockerfile (0.01%)
Cumulative downloads
Total Downloads
Last day
-0.6%
467
Compared to previous day
Last week
3.6%
2,440
Compared to previous week
Last month
365.3%
11,014
Compared to previous month
Last year
0%
17,146
Compared to previous year
1
[!NOTE]
Since the Valkey project might diverge from Valkey when it comes to its API, I've decided to create a fork of node-valkey. In case the Valkey project wants me to move the maintenance of this to them, please contact me. This project is not affiliated with or endorsed by the Valkey project.
node-valkey is a modern, high performance Valkey client for Node.js.
Name | Description |
---|---|
valkey | |
@valkey/client | |
@valkey/bloom | Valkey Bloom commands |
@valkey/graph | Valkey Graph commands |
@valkey/json | Valkey JSON commands |
@valkey/search | RediSearch commands |
@valkey/time-series | Valkey Time-Series commands |
Start a Valkey instance via docker:
[!NOTE]
An official Docker image for Valkey is not available yet.
To install node-valkey, simply:
1npm install valkey
1import { createClient } from "valkey"; 2 3const client = await createClient() 4 .on("error", (err) => console.log("Valkey Client Error", err)) 5 .connect(); 6 7await client.set("key", "value"); 8const value = await client.get("key"); 9await client.disconnect();
The above code connects to localhost on port 6379. To connect to a different host or port, use a connection string in the format valkey[s]://[[username][:password]@][host][:port][/db-number]
:
1createClient({ 2 url: "valkey://alice:foobared@awesome.valkey.server:6380", 3});
You can also use discrete parameters, UNIX sockets, and even TLS to connect. Details can be found in the client configuration guide.
To check if the the client is connected and ready to send commands, use client.isReady
which returns a boolean. client.isOpen
is also available. This returns true
when the client's underlying socket is open, and false
when it isn't (for example when the client is still connecting or reconnecting after a network error).
There is built-in support for all of the out-of-the-box Valkey commands. They are exposed using the raw Valkey command names (HSET
, HGETALL
, etc.) and a friendlier camel-cased version (hSet
, hGetAll
, etc.):
1// raw Valkey commands 2await client.HSET("key", "field", "value"); 3await client.HGETALL("key"); 4 5// friendly JavaScript commands 6await client.hSet("key", "field", "value"); 7await client.hGetAll("key");
Modifiers to commands are specified using a JavaScript object:
1await client.set("key", "value", { 2 EX: 10, 3 NX: true, 4});
Replies will be transformed into useful data structures:
1await client.hGetAll("key"); // { field1: 'value1', field2: 'value2' } 2await client.hVals("key"); // ['value1', 'value2']
Buffer
s are supported as well:
1await client.hSet("key", "field", Buffer.from("value")); // 'OK' 2await client.hGetAll(commandOptions({ returnBuffers: true }), "key"); // { field: <Buffer 76 61 6c 75 65> }
If you want to run commands and/or use arguments that Node Valkey doesn't know about (yet!) use .sendCommand()
:
1await client.sendCommand(["SET", "key", "value", "NX"]); // 'OK' 2 3await client.sendCommand(["HGETALL", "key"]); // ['key1', 'field1', 'key2', 'field2']
Start a transaction by calling .multi()
, then chaining your commands. When you're done, call .exec()
and you'll get an array back with your results:
1await client.set("another-key", "another-value"); 2 3const [setKeyReply, otherKeyValue] = await client 4 .multi() 5 .set("key", "value") 6 .get("another-key") 7 .exec(); // ['OK', 'another-value']
You can also watch keys by calling .watch()
. Your transaction will abort if any of the watched keys change.
To dig deeper into transactions, check out the Isolated Execution Guide.
Any command can be run on a new connection by specifying the isolated
option. The newly created connection is closed when the command's Promise
is fulfilled.
This pattern works especially well for blocking commands—such as BLPOP
and BLMOVE
:
1import { commandOptions } from "valkey"; 2 3const blPopPromise = client.blPop(commandOptions({ isolated: true }), "key", 0); 4 5await client.lPush("key", ["1", "2"]); 6 7await blPopPromise; // '2'
To learn more about isolated execution, check out the guide.
See the Pub/Sub overview.
SCAN
results can be looped over using async iterators:
1for await (const key of client.scanIterator()) { 2 // use the key! 3 await client.get(key); 4}
This works with HSCAN
, SSCAN
, and ZSCAN
too:
1for await (const { field, value } of client.hScanIterator("hash")) { 2} 3for await (const member of client.sScanIterator("set")) { 4} 5for await (const { score, value } of client.zScanIterator("sorted-set")) { 6}
You can override the default options by providing a configuration object:
1client.scanIterator({ 2 TYPE: "string", // `SCAN` only 3 MATCH: "patter*", 4 COUNT: 100, 5});
Valkey provides a programming interface allowing code execution on the valkey server.
The following example retrieves a key in valkey, returning the value of the key, incremented by an integer. For example, if your key foo has the value 17 and we run add('foo', 25)
, it returns the answer to Life, the Universe and Everything.
1#!lua name=library 2 3valkey.register_function { 4 function_name = 'add', 5 callback = function(keys, args) return valkey.call('GET', keys[1]) + args[1] end, 6 flags = { 'no-writes' } 7}
Here is the same example, but in a format that can be pasted into the valkey-cli
.
FUNCTION LOAD "#!lua name=library\nvalkey.register_function{function_name=\"add\", callback=function(keys, args) return valkey.call('GET', keys[1])+args[1] end, flags={\"no-writes\"}}"
Load the prior valkey function on the valkey server before running the example below.
1import { createClient } from "valkey"; 2 3const client = createClient({ 4 functions: { 5 library: { 6 add: { 7 NUMBER_OF_KEYS: 1, 8 transformArguments(key: string, toAdd: number): Array<string> { 9 return [key, toAdd.toString()]; 10 }, 11 transformReply(reply: number): number { 12 return reply; 13 }, 14 }, 15 }, 16 }, 17}); 18 19await client.connect(); 20 21await client.set("key", "1"); 22await client.library.add("key", 2); // 3
The following is an end-to-end example of the prior concept.
1import { createClient, defineScript } from "valkey"; 2 3const client = createClient({ 4 scripts: { 5 add: defineScript({ 6 NUMBER_OF_KEYS: 1, 7 SCRIPT: 'return valkey.call("GET", KEYS[1]) + ARGV[1];', 8 transformArguments(key: string, toAdd: number): Array<string> { 9 return [key, toAdd.toString()]; 10 }, 11 transformReply(reply: number): number { 12 return reply; 13 }, 14 }), 15 }, 16}); 17 18await client.connect(); 19 20await client.set("key", "1"); 21await client.add("key", 2); // 3
There are two functions that disconnect a client from the Valkey server. In most scenarios you should use .quit()
to ensure that pending commands are sent to Valkey before closing a connection.
.QUIT()
/.quit()
Gracefully close a client's connection to Valkey, by sending the QUIT
command to the server. Before quitting, the client executes any remaining commands in its queue, and will receive replies from Valkey for each of them.
1const [ping, get, quit] = await Promise.all([ 2 client.ping(), 3 client.get("key"), 4 client.quit(), 5]); // ['PONG', null, 'OK'] 6 7try { 8 await client.get("key"); 9} catch (err) { 10 // ClosedClient Error 11}
.disconnect()
Forcibly close a client's connection to Valkey immediately. Calling disconnect
will not send further pending commands to the Valkey server, or wait for or parse outstanding responses.
1await client.disconnect();
Node Valkey will automatically pipeline requests that are made during the same "tick".
1client.set("Tm9kZSBSZWRpcw==", "users:1"); 2client.sAdd("users:1:tokens", "Tm9kZSBSZWRpcw==");
Of course, if you don't do something with your Promises you're certain to get unhandled Promise exceptions. To take advantage of auto-pipelining and handle your Promises, use Promise.all()
.
1await Promise.all([ 2 client.set("Tm9kZSBSZWRpcw==", "users:1"), 3 client.sAdd("users:1:tokens", "Tm9kZSBSZWRpcw=="), 4]);
Check out the Clustering Guide when using Node Valkey to connect to a Valkey Cluster.
The Node Valkey client class is an Nodejs EventEmitter and it emits an event each time the network status changes:
Name | When | Listener arguments |
---|---|---|
connect | Initiating a connection to the server | No arguments |
ready | Client is ready to use | No arguments |
end | Connection has been closed (via .quit() or .disconnect() ) | No arguments |
error | An error has occurred—usually a network issue such as "Socket closed unexpectedly" | (error: Error) |
reconnecting | Client is trying to reconnect to the server | No arguments |
sharded-channel-moved | See here | See here |
:warning: You MUST listen to
error
events. If a client doesn't have at least oneerror
listener registered and anerror
occurs, that error will be thrown and the Node.js process will exit. See theEventEmitter
docs for more details.
The client will not emit any other events beyond those listed above.
Node Valkey is supported with the following versions of Valkey:
Version | Supported |
---|---|
7.0.z | :heavy_check_mark: |
6.2.z | :heavy_check_mark: |
6.0.z | :heavy_check_mark: |
5.0.z | :heavy_check_mark: |
< 5.0 | :x: |
Node Valkey should work with older versions of Valkey, but it is not fully tested and we cannot offer support.
If you'd like to contribute, check out the contributing guide.
Thank you to all the people who already contributed to Node Valkey!
This repository is licensed under the "MIT" license. See LICENSE.
No vulnerabilities found.
No security vulnerabilities found.