lihai 8d6c751f49 feat: push | 2 years ago | |
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dao | 2 years ago | |
entities | 2 years ago | |
example | 2 years ago | |
local-node-ipc-certs | 2 years ago | |
services | 2 years ago | |
.npmignore | 2 years ago | |
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node-ipc.js | 2 years ago | |
package.json | 2 years ago |
a nodejs module for local and remote Inter Process Communication with full support for Linux, Mac and Windows. It also supports all forms of socket communication from low level unix and windows sockets to UDP and secure TLS and TCP sockets.
A great solution for complex multiprocess Neural Networking in Node.JS
npm install node-ipc
npm info : See npm trends and stats for node-ipc
Build Info :
Mac & Linux : Windows :
Package details websites :
This work is licenced via the DBAD Public Licence.
the latest versions of node-ipc
may work with the --harmony flag. Officially though, we support node v4 and newer with es5 and es6
npm test
will run the jasmine tests with istanbul for node-ipc and generate a coverage report in the spec folder.
You may want to install jasmine and istanbul globally with sudo npm install -g jasmine istanbul
Type | Stability | Definition |
---|---|---|
Unix Socket or Windows Socket | Stable | Gives Linux, Mac, and Windows lightning fast communication and avoids the network card to reduce overhead and latency. Local Unix and Windows Socket examples |
TCP Socket | Stable | Gives the most reliable communication across the network. Can be used for local IPC as well, but is slower than #1's Unix Socket Implementation because TCP sockets go through the network card while Unix Sockets and Windows Sockets do not. Local or remote network TCP Socket examples |
TLS Socket | Stable | Configurable and secure network socket over SSL. Equivalent to https. TLS/SSL documentation |
UDP Sockets | Stable | Gives the fastest network communication. UDP is less reliable but much faster than TCP. It is best used for streaming non critical data like sound, video, or multiplayer game data as it can drop packets depending on network connectivity and other factors. UDP can be used for local IPC as well, but is slower than #1's Unix Socket or Windows Socket Implementation because UDP sockets go through the network card while Unix and Windows Sockets do not. Local or remote network UDP Socket examples |
OS | Supported Sockets |
---|---|
Linux | Unix, Posix, TCP, TLS, UDP |
Mac | Unix, Posix, TCP, TLS, UDP |
Win | Windows, TCP, TLS, UDP |
ipc.config
Set these variables in the ipc.config
scope to overwrite or set default values.
{
appspace : 'app.',
socketRoot : '/tmp/',
id : os.hostname(),
networkHost : 'localhost', //should resolve to 127.0.0.1 or ::1 see the table below related to this
networkPort : 8000,
encoding : 'utf8',
rawBuffer : false,
sync : false,
silent : false,
logInColor : true,
logDepth : 5,
logger : console.log,
maxConnections : 100,
retry : 500,
maxRetries : false,
stopRetrying : false,
unlink : true,
interfaces : {
localAddress: false,
localPort : false,
family : false,
hints : false,
lookup : false
}
}
variable | documentation |
---|---|
appspace | used for Unix Socket (Unix Domain Socket) namespacing. If not set specifically, the Unix Domain Socket will combine the socketRoot, appspace, and id to form the Unix Socket Path for creation or binding. This is available incase you have many apps running on your system, you may have several sockets with the same id, but if you change the appspace, you will still have app specic unique sockets. |
socketRoot | the directory in which to create or bind to a Unix Socket |
id | the id of this socket or service |
networkHost | the local or remote host on which TCP, TLS or UDP Sockets should connect |
networkPort | the default port on which TCP, TLS, or UDP sockets should connect |
encoding | the default encoding for data sent on sockets. Mostly used if rawBuffer is set to true. Valid values are : ascii utf8 utf16le ucs2 base64 hex . |
rawBuffer | if true, data will be sent and received as a raw node Buffer NOT an Object as JSON. This is great for Binary or hex IPC, and communicating with other processes in languages like C and C++ |
sync | synchronous requests. Clients will not send new requests until the server answers. |
silent | turn on/off logging default is false which means logging is on |
logInColor | turn on/off util.inspect colors for ipc.log |
logDepth | set the depth for util.inspect during ipc.log |
logger | the function which receives the output from ipc.log; should take a single string argument |
maxConnections | this is the max number of connections allowed to a socket. It is currently only being set on Unix Sockets. Other Socket types are using the system defaults. |
retry | this is the time in milliseconds a client will wait before trying to reconnect to a server if the connection is lost. This does not effect UDP sockets since they do not have a client server relationship like Unix Sockets and TCP Sockets. |
maxRetries | if set, it represents the maximum number of retries after each disconnect before giving up and completely killing a specific connection |
stopRetrying | Defaults to false meaning clients will continue to retry to connect to servers indefinitely at the retry interval. If set to any number the client will stop retrying when that number is exceeded after each disconnect. If set to true in real time it will immediately stop trying to connect regardless of maxRetries. If set to 0, the client will NOT try to reconnect. |
unlink | Defaults to true meaning that the module will take care of deleting the IPC socket prior to startup. If you use node-ipc in a clustered environment where there will be multiple listeners on the same socket, you must set this to false and then take care of deleting the socket in your own code. |
interfaces | primarily used when specifying which interface a client should connect through. see the socket.connect documentation in the node.js api |
These methods are available in the IPC Scope.
ipc.log(a,b,c,d,e...);
ipc.log will accept any number of arguments and if ipc.config.silent
is not set, it will concat them all with a single space ' ' between them and then log them to the console. This is fast because it prevents any concatenation from happening if the ipc.config.silent is set true
. That way if you leave your logging in place it should have almost no effect on performance.
The log also uses util.inspect You can control if it should log in color, the log depth, and the destination via ipc.config
ipc.config.logInColor=true; //default
ipc.config.logDepth=5; //default
ipc.config.logger=console.log.bind(console); // default
ipc.connectTo(id,path,callback);
Used for connecting as a client to local Unix Sockets and Windows Sockets. This is the fastest way for processes on the same machine to communicate because it bypasses the network card which TCP and UDP must both use.
variable | required | definition |
---|---|---|
id | required | is the string id of the socket being connected to. The socket with this id is added to the ipc.of object when created. |
path | optional | is the path of the Unix Domain Socket File, if the System is Windows, this will automatically be converted to an appropriate pipe with the same information as the Unix Domain Socket File. If not set this will default to ipc.config.socketRoot +ipc.config.appspace +id |
callback | optional | this is the function to execute when the socket has been created. |
examples arguments can be ommitted so long as they are still in order.
ipc.connectTo('world');
or using just an id and a callback
ipc.connectTo(
'world',
function(){
ipc.of.world.on(
'hello',
function(data){
ipc.log(data.debug);
//if data was a string, it would have the color set to the debug style applied to it
}
)
}
);
or explicitly setting the path
ipc.connectTo(
'world',
'myapp.world'
);
or explicitly setting the path with callback
ipc.connectTo(
'world',
'myapp.world',
function(){
...
}
);
ipc.connectToNet(id,host,port,callback)
Used to connect as a client to a TCP or TLS socket via the network card. This can be local or remote, if local, it is recommended that you use the Unix and Windows Socket Implementaion of connectTo
instead as it is much faster since it avoids the network card altogether.
For TLS and SSL Sockets see the node-ipc TLS and SSL docs. They have a few additional requirements, and things to know about and so have their own doc.
variable | required | definition |
---|---|---|
id | required | is the string id of the socket being connected to. For TCP & TLS sockets, this id is added to the ipc.of object when the socket is created with a reference to the socket. |
host | optional | is the host on which the TCP or TLS socket resides. This will default to ipc.config.networkHost if not specified. |
port | optional | the port on which the TCP or TLS socket resides. |
callback | optional | this is the function to execute when the socket has been created. |
examples arguments can be ommitted so long as they are still in order.
So while the default is : (id,host,port,callback), the following examples will still work because they are still in order (id,port,callback) or (id,host,callback) or (id,port) etc.
ipc.connectToNet('world');
or using just an id and a callback
ipc.connectToNet(
'world',
function(){
...
}
);
or explicitly setting the host and path
ipc.connectToNet(
'world',
'myapp.com',serve(path,callback)
3435
);
or only explicitly setting port and callback
ipc.connectToNet(
'world',
3435,
function(){
...
}
);
ipc.disconnect(id)
Used to disconnect a client from a Unix, Windows, TCP or TLS socket. The socket and its refrence will be removed from memory and the ipc.of
scope. This can be local or remote. UDP clients do not maintain connections and so there are no Clients and this method has no value to them.
variable | required | definition |
---|---|---|
id | required | is the string id of the socket from which to disconnect. |
examples
ipc.disconnect('world');
ipc.serve(path,callback);
Used to create local Unix Socket Server or Windows Socket Server to which Clients can bind. The server can emit
events to specific Client Sockets, or broadcast
events to all known Client Sockets.
variable | required | definition |
---|---|---|
path | optional | This is the path of the Unix Domain Socket File, if the System is Windows, this will automatically be converted to an appropriate pipe with the same information as the Unix Domain Socket File. If not set this will default to ipc.config.socketRoot +ipc.config.appspace +id |
callback | optional | This is a function to be called after the Server has started. This can also be done by binding an event to the start event like ipc.server.on('start',function(){}); |
examples arguments can be omitted so long as they are still in order.
ipc.serve();
or specifying callback
ipc.serve(
function(){...}
);
or specify path
ipc.serve(
'/tmp/myapp.myservice'
);
or specifying everything
ipc.serve(
'/tmp/myapp.myservice',
function(){...}
);
serveNet(host,port,UDPType,callback)
Used to create TCP, TLS or UDP Socket Server to which Clients can bind or other servers can send data to. The server can emit
events to specific Client Sockets, or broadcast
events to all known Client Sockets.
variable | required | definition |
---|---|---|
host | optional | If not specified this defaults to the first address in os.networkInterfaces(). For TCP, TLS & UDP servers this is most likely going to be 127.0.0.1 or ::1 |
port | optional | The port on which the TCP, UDP, or TLS Socket server will be bound, this defaults to 8000 if not specified |
UDPType | optional | If set this will create the server as a UDP socket. 'udp4' or 'udp6' are valid values. This defaults to not being set. When using udp6 make sure to specify a valid IPv6 host, like ::1 |
callback | optional | Function to be called when the server is created |
examples arguments can be ommitted solong as they are still in order.
default tcp server
ipc.serveNet();
default udp server
ipc.serveNet('udp4');
or specifying TCP server with callback
ipc.serveNet(
function(){...}
);
or specifying UDP server with callback
ipc.serveNet(
'udp4',
function(){...}
);
or specify port
ipc.serveNet(
3435
);
or specifying everything TCP
ipc.serveNet(
'MyMostAwesomeApp.com',
3435,
function(){...}
);
or specifying everything UDP
ipc.serveNet(
'MyMostAwesomeApp.com',
3435,
'udp4',
function(){...}
);
variable | definition |
---|---|
ipc.of | This is where socket connection refrences will be stored when connecting to them as a client via the ipc.connectTo or iupc.connectToNet . They will be stored based on the ID used to create them, eg : ipc.of.mySocket |
ipc.server | This is a refrence to the server created by ipc.serve or ipc.serveNet |
method | definition |
---|---|
start | start serving need top call serve or serveNet first to set up the server |
stop | close the server and stop serving |
event name | params | definition |
---|---|---|
error | err obj | triggered when an error has occured |
connect | triggered when socket connected | |
disconnect | triggered by client when socket has disconnected from server | |
socket.disconnected | socket destroyedSocketID | triggered by server when a client socket has disconnected |
destroy | triggered when socket has been totally destroyed, no further auto retries will happen and all references are gone. | |
data | buffer | triggered when ipc.config.rawBuffer is true and a message is received. |
your event type | your event data | triggered when a JSON message is received. The event name will be the type string from your message and the param will be the data object from your message eg : { type:'myEvent',data:{a:1}} |
Sometimes you might need explicit and independent instances of node-ipc. Just for such scenarios we have exposed the core IPC class on the IPC singleton.
const RawIPC=require('node-ipc').IPC;
const ipc=new RawIPC;
const someOtherExplicitIPC=new RawIPC;
//OR
const ipc=require('node-ipc');
const someOtherExplicitIPC=new ipc.IPC;
//setting explicit configs
//keep one silent and the other verbose
ipc.config.silent=true;
someOtherExplicitIPC.config.silent=true;
//make one a raw binary and the other json based ipc
ipc.config.rawBuffer=false;
someOtherExplicitIPC.config.rawBuffer=true;
someOtherExplicitIPC.config.encoding='hex';
You can find Advanced Examples in the examples folder. In the examples you will find more complex demos including multi client examples.
The server is the process keeping a socket for IPC open. Multiple sockets can connect to this server and talk to it. It can also broadcast to all clients or emit to a specific client. This is the most basic example which will work for local Unix and Windows Sockets as well as local or remote network TCP Sockets.
var ipc=require('node-ipc');
ipc.config.id = 'world';
ipc.config.retry= 1500;
ipc.serve(
function(){
ipc.server.on(
'message',
function(data,socket){
ipc.log('got a message : '.debug, data);
ipc.server.emit(
socket,
'message', //this can be anything you want so long as
//your client knows.
data+' world!'
);
}
);
ipc.server.on(
'socket.disconnected',
function(socket, destroyedSocketID) {
ipc.log('client ' + destroyedSocketID + ' has disconnected!');
}
);
}
);
ipc.server.start();
The client connects to the servers socket for Inter Process Communication. The socket will receive events emitted to it specifically as well as events which are broadcast out on the socket by the server. This is the most basic example which will work for both local Unix Sockets and local or remote network TCP Sockets.
var ipc=require('node-ipc');
ipc.config.id = 'hello';
ipc.config.retry= 1500;
ipc.connectTo(
'world',
function(){
ipc.of.world.on(
'connect',
function(){
ipc.log('## connected to world ##'.rainbow, ipc.config.delay);
ipc.of.world.emit(
'message', //any event or message type your server listens for
'hello'
)
}
);
ipc.of.world.on(
'disconnect',
function(){
ipc.log('disconnected from world'.notice);
}
);
ipc.of.world.on(
'message', //any event or message type your server listens for
function(data){
ipc.log('got a message from world : '.debug, data);
}
);
}
);
UDP Sockets are different than Unix, Windows & TCP Sockets because they must be bound to a unique port on their machine to receive messages. For example, A TCP, Unix, or Windows Socket client could just connect to a separate TCP, Unix, or Windows Socket sever. That client could then exchange, both send and receive, data on the servers port or location. UDP Sockets can not do this. They must bind to a port to receive or send data.
This means a UDP Client and Server are the same thing because in order to receive data, a UDP Socket must have its own port to receive data on, and only one process can use this port at a time. It also means that in order to emit
or broadcast
data the UDP server will need to know the host and port of the Socket it intends to broadcast the data to.
This is the most basic example which will work for both local and remote UDP Sockets.
var ipc=require('../../../node-ipc');
ipc.config.id = 'world';
ipc.config.retry= 1500;
ipc.serveNet(
'udp4',
function(){
console.log(123);
ipc.server.on(
'message',
function(data,socket){
ipc.log('got a message from '.debug, data.from.variable ,' : '.debug, data.message.variable);
ipc.server.emit(
socket,
'message',
{
from : ipc.config.id,
message : data.message+' world!'
}
);
}
);
console.log(ipc.server);
}
);
ipc.server.start();
note we set the port here to 8001 because the world server is already using the default ipc.config.networkPort of 8000. So we can not bind to 8000 while world is using it.
ipc.config.id = 'hello';
ipc.config.retry= 1500;
ipc.serveNet(
8001,
'udp4',
function(){
ipc.server.on(
'message',
function(data){
ipc.log('got Data');
ipc.log('got a message from '.debug, data.from.variable ,' : '.debug, data.message.variable);
}
);
ipc.server.emit(
{
address : '127.0.0.1', //any hostname will work
port : ipc.config.networkPort
},
'message',
{
from : ipc.config.id,
message : 'Hello'
}
);
}
);
ipc.server.start();
Binary or Buffer sockets can be used with any of the above socket types, however the way data events are emit is slightly different. These may come in handy if working with embedded systems or C / C++ processes. You can even make sure to match C or C++ string typing.
When setting up a rawBuffer socket you must specify it as such :
ipc.config.rawBuffer=true;
You can also specify its encoding type. The default is utf8
ipc.config.encoding='utf8';
emit string buffer :
//server
ipc.server.emit(
socket,
'hello'
);
//client
ipc.of.world.emit(
'hello'
)
emit byte array buffer :
//hex encoding may work best for this.
ipc.config.encoding='hex';
//server
ipc.server.emit(
socket,
[10,20,30]
);
//client
ipc.server.emit(
[10,20,30]
);
emit binary or hex array buffer, this is best for real time data transfer, especially whan connecting to C or C++ processes, or embedded systems :
ipc.config.encoding='hex';
//server
ipc.server.emit(
socket,
[0x05,0x6d,0x5c]
);
//client
ipc.server.emit(
[0x05,0x6d,0x5c]
);
Writing explicit buffers, int types, doubles, floats etc. as well as big endian and little endian data to raw buffer nostly valuable when connecting to C or C++ processes, or embedded systems (see more detailed info on buffers as well as UInt, Int, double etc. here)[https://nodejs.org/api/buffer.html]:
ipc.config.encoding='hex';
//make a 6 byte buffer for example
const myBuffer=new Buffer(6).fill(0);
//fill the first 2 bytes with a 16 bit (2 byte) short unsigned int
//write a UInt16 (2 byte or short) as Big Endian
myBuffer.writeUInt16BE(
2, //value to write
0 //offset in bytes
);
//OR
myBuffer.writeUInt16LE(0x2,0);
//OR
myBuffer.writeUInt16LE(0x02,0);
//fill the remaining 4 bytes with a 32 bit (4 byte) long unsigned int
//write a UInt32 (4 byte or long) as Big Endian
myBuffer.writeUInt32BE(
16772812, //value to write
2 //offset in bytes
);
//OR
myBuffer.writeUInt32BE(0xffeecc,0)
//server
ipc.server.emit(
socket,
myBuffer
);
//client
ipc.server.emit(
myBuffer
);
cluster
Modulenode-ipc
can be used with Node.js' cluster module to provide the ability to have multiple readers for a single socket. Doing so simply requires you to set the unlink
property in the config to false
and take care of unlinking the socket path in the master process:
const fs = require('fs');
const ipc=require('../../../node-ipc');
const cpuCount = require('os').cpus().length;
const cluster = require('cluster');
const socketPath = '/tmp/ipc.sock';
ipc.config.unlink = false;
if (cluster.isMaster) {
if (fs.existsSync(socketPath)) {
fs.unlinkSync(socketPath);
}
for (let i = 0; i < cpuCount; i++) {
cluster.fork();
}
}else{
ipc.serve(
socketPath,
function() {
ipc.server.on(
'currentDate',
function(data,socket) {
console.log(`pid ${process.pid} got: `, data);
}
);
}
);
ipc.server.start();
console.log(`pid ${process.pid} listening on ${socketPath}`);
}
const fs = require('fs');
const ipc = require('../../node-ipc');
const socketPath = '/tmp/ipc.sock';
//loop forever so you can see the pid of the cluster sever change in the logs
setInterval(
function() {
ipc.connectTo(
'world',
socketPath,
connecting
);
},
2000
);
function connecting(socket) {
ipc.of.world.on(
'connect',
function() {
ipc.of.world.emit(
'currentDate',
{
message: new Date().toISOString()
}
);
ipc.disconnect('world');
}
);
}
See the DBAD license in your language or our licence.md file.