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uci-base
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gather port or path option into proper socket entry 

last commit before major refactor for plugins
master
Kebler Network System Administrator 2021-04-05 17:35:57 -07:00
parent 599b3242ea
commit 439b5dbd7e
2 changed files with 578 additions and 276 deletions
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639
src/base.js
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@ -8,13 +8,15 @@
// --------------- UCI dependencies -------------------
// UCI communication transport communication modules
// TODO change to dynamic import so loads only if that socket type is requestd
// TODO change to dynamic import so loads only if that connector type is requested
import Socket from '@uci/socket' // tcp or named pipe
// TDDO import these socket libraries dynamically from per peerDependencies
import MQTT from '@uci/mqtt' // requires broker
import WebSocket from '@uci/websocket' // server only - client is for web browser only
// UCI helpers
import { Ready, changed, map } from '@uci-utils/ready'
// import { isClass } from '@uci-utils/type'
import { bindFuncs } from '@uci-utils/bind-funcs'
// UCI logger
import logger from '@uci-utils/logger'
@ -33,14 +35,19 @@ import EventEmitter from 'events'
import { cmdProcessor, defaultCmds, namespaces } from './processing'
// Constants
// TODO transport will become "connector"
// type will be input or output, duplex
// TODO make sure reach registered connector has unique name
// const SOCKET_INFO_KEYS = ['name', 'type', 'transport']
// TODO remove this hard-code and get these from plugin
const TRANSLATE = {
n: 'Named Pipe',
t: 'TCP',
s: 'Socket',
c: 'Consumer',
m: 'MQTT',
w: 'Web Socket'
w: 'Web Socket',
}
/**
@ -68,13 +75,14 @@ const TRANSLATE = {
* let mybaseprocess = new Base(opts)
*/
class Base extends EventEmitter {
constructor(opts={}) {
if (typeof opts === 'string') opts=loadYaml.sync(opts)
constructor(opts = {}) {
if (typeof opts === 'string') opts = loadYaml.sync(opts)
super()
this.name = opts.name || opts.appName || 'a base class instance'
this.id = opts.id || 'uci-base:' + new Date().getTime()
log = logger({ name: 'base', id: this.id })
this.desc = opts.desc // additional details for humans
this.opts = opts // make original options available
this._socket = {} // holds all the various communication sockets
// these two if passed will get applied to all consumer sockets, otherwise socket defaults will be used
/** @type {string} - timeout for connecting to a consumer socket */
@ -82,13 +90,19 @@ class Base extends EventEmitter {
this.retryWait = opts.retryWait
this.defaultReturnCmd = opts.defaultReturnCmd
this._cmdProcessors = { _default: cmdProcessor }
this.ready = new Ready({emitter: this})
this.ready = new Ready({ emitter: this })
// ready packet to be sent when process is "ready"
this._readyPacket = {cmd:'ready', event:`${this.name}:process`, name:this.name, id:this.id, ready:false}
this._readyPacket = {
cmd: 'ready',
event: `${this.name}:process`,
name: this.name,
id: this.id,
ready: false,
}
// _c and _s are the default namespaces
this._namespaces =Object.assign({},namespaces)
this._c = Object.assign({},defaultCmds.c)
this._s = Object.assign({},defaultCmds.s)
this._namespaces = Object.assign({}, namespaces)
this._c = Object.assign({}, defaultCmds.c)
this._s = Object.assign({}, defaultCmds.s)
// make available a method that will bind a whole object tree of functions
// Note: functions called via a command namespace are called by base connext by default
// if called directlly/locally they should be bound to base context if desired
@ -99,16 +113,34 @@ class Base extends EventEmitter {
this._namespaces.c.splice(-1, 0, null)
}
// this.bindFuncs = bindFuncs // make available a method that will bind a whole object tree of functions
this.initSockets = opts.sockets // sockets to be registered at init
this._socket = {} // where all sockets are stored
// at creation defined sockets:
if (opts.port) this.registerSocket(`${opts.name||'base'}${opts.port&&opts.path ? ':t':''}`,'s','t',{port:opts.port})
if (opts.path) this.registerSocket(`${opts.name||'base'}${opts.port&&opts.path ? ':n':''}`,'s','n',{path: opts.path})
if (opts.sockets) {
let sockets = opts.sockets
sockets = Array.isArray(sockets) ? sockets:[sockets]
sockets.forEach(socket => this.registerSocket(socket))
}
// generic sockets
opts.sockets = Array.isArray(opts.sockets) ? opts.sockets : [opts.sockets]
if (opts.port)
opts.sockets.push({
name: `${this.name}:tcp`,
type: 's',
transport: 'tcp',
options: { port: opts.port },
})
if (opts.path)
opts.sockets.push({
name: `${this.name}:named`,
type: 's',
transport: 'named',
options: { path: opts.path },
})
// specific sockets
// if (opts.sockets) {
// let sockets = opts.sockets
// sockets = Array.isArray(sockets) ? sockets : [sockets]
// sockets.forEach((socket) => {
// socket.name = socket.name || `${this.name}:${socket.transport}`
// this.registerSocket(socket)
// })
// }
} // end constructor
/*
@ -125,86 +157,116 @@ class Base extends EventEmitter {
* @async
* @public
* @required
* @param {array} sockets string of one or array array names to initialize, if none, then all current added sockets will be initialized
* @param {array} sockets string of one or array of names to initialize, if none, then all current added sockets will be initialized
*
*/
async init(sockets) {
// TODO ready needs to allow multiple all subscribers that get rebuilt on add/remove
// register all sockets requested in constructor
for (const socket of this.opts.sockets) {
socket.name = socket.name || `${this.name}:${socket.transport}` // check for unique name
await this.registerSocket(socket)
}
const res = await this.socketsInit(sockets)
// update ready packet and push/send that changed packet
this.ready.all.subscribe(async ready => {
this._readyPacket.ready= ready
delete (this._readyPacket._header)
if (!ready) { // make a list of the failures to send
// will update ready packet and push/send that changed packet on ready state change
// on can add more observers to the ready
this.ready.all.subscribe(async (ready) => {
this._readyPacket.ready = ready
delete this._readyPacket._header
if (!ready) {
// make a list of the failures to send
// await new Promise(res=>setTimeout(()=>res(),1000))
this._readyPacket.failures = this.ready.failed
} else delete this._readyPacket.failures
let packet = Object.assign({},this._readyPacket)
this.emit('log',{level:'debug', packet:packet, msg:`${this.name} has an updated ready state: broadcasting: event>state = ${this._readyPacket.event}>${this._readyPacket.ready}`})
let packet = Object.assign({}, this._readyPacket)
this.emit('log', {
level: 'debug',
packet: packet,
msg: `${this.name} has an updated ready state: broadcasting: event>state = ${this._readyPacket.event}>${this._readyPacket.ready}`,
})
// console.log('ready packet to broadcast',packet)
// set the connection packet for each socket
this.getSocketsFilter({type:'s'})
.forEach(socket=>this.getSocket(socket).conPackets[0]=packet)
// (re)sets the connection packet for each socket
this.getSocketsFilter({ type: 's' }).forEach(
(socket) => (this.getSocket(socket).conPackets[0] = packet)
)
// announce changed ready state
setTimeout(async () => {
this.send(packet) // to any socket that this instance is connected to
this.push(packet) // to any remote consumer connected to an instance socket
},100) // delay 100ms, fixes issue so won't be sent during a disconnect which causes socket write error
}, 100) // delay 100ms, fixes issue so won't be sent during a disconnect which causes socket write error
})
return res
}
async socketsInit(sockets) {
let results = {}
let errors = {}
// single socket intialize mapper
const initialize = async socket => {
return new Promise(async function(resolve) {
const initialize = async (socket) => {
return new Promise(
async function (resolve) {
try {
const value = await socket.init()
this.emit('log',{level:'info', socketName:socket.name, msg:'socket successfully initialized', message:value})
this.emit('log', {
level: 'info',
socketName: socket.name,
msg: 'socket successfully initialized',
message: value,
})
resolve(value)
} catch (error) {
this.emit('log',{level:'fatal', socketName:socket.name, msg:'socket init error',error:error})// emit an error here, remove socket
this.emit('log', {
level: 'fatal',
socketName: socket.name,
msg: 'socket init error',
error: error,
}) // emit an error here, remove socket
// let res = await this.removeSocket(socket.name)
errors[socket.name]={error:error}
errors[socket.name] = { error: error }
resolve(error)
}
}.bind(this))
}.bind(this)
)
}
let inits = []
if (!sockets) { sockets =
Object.keys(this._socket).filter(name => {
if (!sockets) {
sockets = Object.keys(this._socket).filter((name) => {
return !this._socket[name].active // only intialize (connect) inactive sockets
})
}
if (typeof sockets ==='string') sockets = [sockets]
if (typeof sockets === 'string') sockets = [sockets]
sockets.forEach(name => {
sockets.forEach((name) => {
if (this._socket[name]) {
inits.push({name:name, init:this.getSocketInit(name)})
} else log.warn({msg:`no socket registered by name of ${name} to initialize`})
inits.push({ name: name, init: this.getSocketInit(name) })
} else
log.warn({
msg: `no socket registered by name of ${name} to initialize`,
})
})
let [err] = await to(Promise.all(inits.map(initialize)))
if (err) {
this.emit('log',{level:'fatal', msg:'initialize of socket errors was NOT caught --- bad bad',error:err})
return {errors:[err]}
this.emit('log', {
level: 'fatal',
msg: 'initialize of socket errors was NOT caught --- bad bad',
error: err,
})
return { errors: [err] }
}
if (Object.keys(errors).length===0) errors=false
return {results:results, errors:errors}
if (Object.keys(errors).length === 0) errors = false
return { results: results, errors: errors }
}
// support old name for now
async addSocket(name,type,transport,options) {
return this.registerSocket(name,type,transport,options)
}
// async addSocket(name, type, transport, options) {
// return this.registerSocket(name, type, transport, options);
// }
// TODO use plugins for transports instead
/**
* addSocket - Add a socket at runtime as opposed to via the sockets option at creation
* registerSocket - register a socket for use
* This is not async and will NOT initialize the socket, that must be done with a call to init or socketInit
* @param {type} name Name of socket (usually something short but unique)
* @param {string} [type=c] consumer/client 'c' or socket/server 's'
@ -213,28 +275,64 @@ class Base extends EventEmitter {
*
* @returns {function} if called before base initialzation it can be ignored as all added sockets will be initialized. After through it be called to initialize that socket
*/
registerSocket(name, type = 'c', transport = 'n', options = {}) {
if (isPlainObject(name)) ({name, type = 'c', transport = 'n', options = {}} = name)
if (typeof name !=='string') return null
async registerSocket(name, type = 'c', transport, options = {}) {
if (isPlainObject(name))
({ name, type = 'c', transport, options = {} } = name)
if (typeof name !== 'string') return null
transport = transport || (options.port ? 'tcp' : 'named')
transport = this._validateTransport(transport)
log.debug({ socketName: name, type: type, tranport: transport, options: options, method:'addSocket', line:198, msg:`adding socket ${name}`})
if (!transport) {
log.error({
socketName: name,
type: type,
transport: transport,
options: options,
method: 'registerSocket',
msg: `invalid transport ${transport}`,
})
return null
}
log.info({
socketName: name,
type: type,
tranport: transport,
options: options,
method: 'registerSocket',
line: 198,
msg: `registering socket ${name}`,
})
options.id = options.id || name
options.name = options.name || name
// TODO add a 'd' type for duplex which creates an 's' first and waits on connect to make a 'c'
if (type==='c') options = Object.assign({
initTimeout:this.initTimeout,
retryWait:this.retryWait
},options) // outbound
if (type==='s') {
if (type === 'c')
options = Object.assign(
{
initTimeout: this.initTimeout,
retryWait: this.retryWait,
},
options
) // outbound
if (type === 's') {
let conPackets = [] // [this._readyPacket]
conPackets = options.conPackets ? conPackets.concat(options.conPackets) : conPackets
conPackets = options.conPacket ? conPackets.push(options.conPacket) : conPackets
options = Object.assign({
defaultReturnCmd:this.defaultReturnCmd,
conPackets: conPackets
},options) // inbound
conPackets = options.conPackets
? conPackets.concat(options.conPackets)
: conPackets
conPackets = options.conPacket
? conPackets.push(options.conPacket)
: conPackets
options = Object.assign(
{
defaultReturnCmd: this.defaultReturnCmd,
conPackets: conPackets,
},
options
) // inbound
}
// TODO get rid of hard coded transports and use registered transports (t and n being default)
// TODO dynamically import only requested connector plugins
// Base will pass options to plugin
// plugin will pass a unique transport identifier to base
// all plugins will use a function to generate a class instance
switch (transport) {
case 'n':
options.path = options.path || true
@ -244,7 +342,7 @@ class Base extends EventEmitter {
break
case 'm':
if (type === 'p') type = 'c'
options.client = type==='c' ? true : false
options.client = type === 'c' ? true : false
options.connect = options.connect || {}
if (options.host) options.connect.host = options.host
if (options.port) options.connect.port = options.port
@ -252,10 +350,11 @@ class Base extends EventEmitter {
this._socket[name] = new MQTT(options)
break
case 'w':
if (type === 's') this._socket[name] = new WebSocket(options)
if (type === 's') this._socket[name] = await WebSocket(options)
}
if (this._socket[name]) { // in case of invalid transport
if (this._socket[name]) {
// in case of invalid transport
this._socket[name].name = name
this._socket[name].type = type
@ -265,36 +364,58 @@ class Base extends EventEmitter {
// bubble up events from inidivual sockets to base instance,
// connection:consumer is a socket emitting when a consumer is connecting
// connection:socket is a consumer emiting when connecting to a socket
const EVENTS=['log','socket','connection','connection:consumer', 'connection:socket'] // that should emit up from each socket to instance
EVENTS.forEach(event => {
this._socket[name].on(event, obj => {
const EVENTS = [
'log',
'socket',
'connection',
'connection:consumer',
'connection:socket',
] // that should emit up from each socket to instance
EVENTS.forEach((event) => {
this._socket[name].on(event, (obj) => {
if (Object.prototype.toString.call(obj) !== '[object Object]') {
let data=obj
let data = obj
obj = {}
obj.data = data
}
obj.socketName = name
this.emit(event,obj)
this.emit(event, obj)
})
})
if (type==='c') {
if (type === 'c') {
// when consumer has sucessfully connected to a socket
this._socket[name].obsName = `${name}:${options.path ? options.path : `${options.host}:${options.port}`}<outbound>`
this.ready.addObserver(this._socket[name].obsName,this._socket[name],{event:'connection:socket',condition:ev=>ev.state==='connected'})
this._socket[name].obsName = `${name}:${
options.path ? options.path : `${options.host}:${options.port}`
}<outbound>`
this.ready.addObserver(this._socket[name].obsName, this._socket[name], {
event: 'connection:socket',
condition: (ev) => ev.state === 'connected',
})
// set up listner for any pushed packets and emit locally
this._socket[name].on('pushed', packet => {
packet._header.socketName=name
this._socket[name].on('pushed', (packet) => {
packet._header.socketName = name
this.emit('pushed', packet)
})
}
if (type==='s') {
if (type === 's') {
// when socket is listnening
this.ready.addObserver(`${name}:socket<listening>`,this._socket[name],{ event:'socket', condition: ev => (ev || {}).state ==='listening' })
this.ready.addObserver(
`${name}:socket<listening>`,
this._socket[name],
{
event: 'socket',
condition: (ev) => (ev || {}).state === 'listening',
}
)
// initially set conPackets, ready packets is ALWAYS the first
this._socket[name].conPackets.unshift(this._readyPacket)
if (options.duplex) this.consumerConnected(this._socket[name],{consumer:options.duplex, add:true})
if (options.duplex)
this.consumerConnected(this._socket[name], {
consumer: options.duplex,
add: true,
})
}
return this._socket[name] // return handle to newly registered socket
// return this.getSocketInit(name) // returns the init function (e.g. connect or create) for the socket
@ -310,18 +431,33 @@ class Base extends EventEmitter {
async removeSocket(name) {
// NOTE: uci consumers have .end renamed as .close to match socket method for convenience
if (typeof name !=='string') return 'no socket name passed, nothing to remove'
if (typeof name !== 'string')
return 'no socket name passed, nothing to remove'
const socket = this.getSocket(name)
if (!socket) return 'no socket by that name, nothing to remove'
let closeError
if (typeof socket.close !== 'function') return 'bad socket no close function, nothing to remove'
if (typeof socket.close !== 'function')
return 'bad socket no close function, nothing to remove'
let [err] = await to(socket.close())
if(err) if (err.code !== 'ERR_SERVER_NOT_RUNNING') {
closeError = {socket:this._socket[name].name, error:err, msg:'socket/consumer closed with errors, but removed'}
if (err)
if (err.code !== 'ERR_SERVER_NOT_RUNNING') {
closeError = {
socket: this._socket[name].name,
error: err,
msg: 'socket/consumer closed with errors, but removed',
}
this.emit('log', {level:'warn', msg:`socket ${name} has been removed`, socket:this._socket[name].opts})
}
this.emit('log', {
level: 'warn',
msg: `socket ${name} has been removed`,
socket: this._socket[name].opts,
})
socket.removeAllListeners()
this.ready.removeObserver(socket.type==='c' ? this._socket[name].obsName : `${name}:socket<listening>`)
this.ready.removeObserver(
socket.type === 'c'
? this._socket[name].obsName
: `${name}:socket<listening>`
)
delete this._socket[name]
return closeError ? closeError : 'success'
}
@ -331,29 +467,37 @@ class Base extends EventEmitter {
else return this._socket
}
// returns array of names of sockets that pass filter
getSocketsFilter({type, trans, active}={}) {
getSocketsFilter({ type, trans, active } = {}) {
if (trans) trans = this._validateTransport(trans)
let filtered = []
Object.keys(this._socket).forEach(name => {
if ((type==null || this._socket[name].type === type)
&& (trans==null || this._socket[name].transport === trans)
&& (active==null || this._socket[name].active===active)) filtered.push(name)
Object.keys(this._socket).forEach((name) => {
if (
(type == null || this._socket[name].type === type) &&
(trans == null || this._socket[name].transport === trans) &&
(active == null || this._socket[name].active === active)
)
filtered.push(name)
})
return filtered
}
getConsumers(filter={}) {
filter.type='c'
getConsumers(filter = {}) {
filter.type = 'c'
return this.getSocketsFilter(filter)
}
getSocketInit(name) {
let socket = this._socket[name]
if(!socket) {
log.warn({msg:`can't fetch create/connect function, no socket registered by name of ${name}`})
if (!socket) {
log.warn({
msg: `can't fetch create/connect function, no socket registered by name of ${name}`,
})
return null
}
if (this._socket[name].type === 's' && this._socket[name].transport !== 'm') {
if (
this._socket[name].type === 's' &&
this._socket[name].transport !== 'm'
) {
return socket.create
} else {
return socket.connect
@ -378,48 +522,67 @@ class Base extends EventEmitter {
if (!con) return `no consumer ${name} for sending`
names = [name]
}
if (!packet || !Object.keys(packet).length) return 'no packet to send - aborted'
if (!packet || !Object.keys(packet).length)
return 'no packet to send - aborted'
let sends = []
if (!names.length) return 'no consumers available for send, aborting'
for (let name of names) {
const consumer=this.getSocket(name)
const consumer = this.getSocket(name)
let hookedPacket = {}
hookedPacket = consumer.beforeSend ? await consumer.beforeSend.call(this,Object.assign({},packet)) : packet
log.debug({msg:'after hook, sending packet', name:consumer.name, packet:hookedPacket, method:'send'})
sends.push(consumer.send.bind(consumer,hookedPacket))
hookedPacket = consumer.beforeSend
? await consumer.beforeSend.call(this, Object.assign({}, packet))
: packet
log.debug({
msg: 'after hook, sending packet',
name: consumer.name,
packet: hookedPacket,
method: 'send',
})
sends.push(consumer.send.bind(consumer, hookedPacket))
}
if (sends.length === 1) return await sends[0]()
return Promise.all(
sends.map(send => {
sends.map((send) => {
return send()
})
)
}
async push(packet,opts={}) {
if (!packet || !Object.keys(packet).length) return Promise.resolve('no packet to push - aborted')
let sockets = this.getSocketsFilter({type:'s'})
async push(packet, opts = {}) {
if (!packet || !Object.keys(packet).length)
return Promise.resolve('no packet to push - aborted')
let sockets = this.getSocketsFilter({ type: 's' })
if (!sockets.length) return Promise.resolve('no sockets on which to push')
opts.sockets = opts.sockets ? opts.sockets : (opts.socket ? [opts.socket] : [])
if (opts.sockets.length) sockets = sockets.filter(name=>opts.sockets.includes(name))
opts.sockets = opts.sockets
? opts.sockets
: opts.socket
? [opts.socket]
: []
if (opts.sockets.length)
sockets = sockets.filter((name) => opts.sockets.includes(name))
sockets = sockets
.map(name=>this.getSocket(name))
.filter(sock=> (opts.transport && opts.transport !=='all') ? sock.transport=== this._validateTransport(opts.transport) : true)
.map((name) => this.getSocket(name))
.filter((sock) =>
opts.transport && opts.transport !== 'all'
? sock.transport === this._validateTransport(opts.transport)
: true
)
// console.log(sockets.length, 'sockets for push', sockets.map(socket=>socket.name))
if (!sockets.length) return Promise.resolve('no sockets on which to push')
let broadcast = []
// TODO use map and reflect
for (let socket of sockets) {
let hookedPacket = {}
hookedPacket = socket.beforeSend ? await socket.beforeSend.call(this,Object.assign({},packet),true) : packet
broadcast.push(socket.push.bind(socket,hookedPacket,opts))
hookedPacket = socket.beforeSend
? await socket.beforeSend.call(this, Object.assign({}, packet), true)
: packet
broadcast.push(socket.push.bind(socket, hookedPacket, opts))
}
return Promise.all(
broadcast.map(push => {
broadcast.map((push) => {
return push()
})
)
}
// TODO accept alt transport string i.e. t or TCP
async sendTransport(packet, transport) {
@ -433,7 +596,7 @@ class Base extends EventEmitter {
}
if (sends.length === 1) return sends[0](packet)
return Promise.all(
sends.map(send => {
sends.map((send) => {
return send(packet)
})
)
@ -451,15 +614,13 @@ class Base extends EventEmitter {
// TODO add sendMQTT, sendWS
socketsListen(event,fn) {
this._eventListen('s',event,fn)
socketsListen(event, fn) {
this._eventListen('s', event, fn)
}
consumersListen(event,fn) {
this._eventListen('c',event,fn)
consumersListen(event, fn) {
this._eventListen('c', event, fn)
}
getPacketByName(name, packets) {
if (!packets.length) packets = [packets]
let found = {}
@ -474,9 +635,10 @@ class Base extends EventEmitter {
// add set of functions to class prop/space and then register with this
addNamespace(space, type, trans) {
if (type !=='c' && type !=='s') {
if (type !== 'c' && type !== 's') {
trans = type
type = 's' }
type = 's'
}
trans = this._validateTransport(trans)
if (trans) return this._namespaces[type + trans].unshift(space)
else return this._namespaces[type].unshift(space)
@ -485,35 +647,40 @@ class Base extends EventEmitter {
// object of functions, key is cmd name
amendCommands(funcs, trans, type) {
if (!trans && !type) type = 's'
if (trans ==='c' || trans ==='s') {
if (trans === 'c' || trans === 's') {
type = trans
trans = ''
}
trans = this._validateTransport(trans)
if (!this['_'+type+trans]) this['_'+type+trans] = {}
Object.assign(this['_'+type+trans], funcs) // trans is type here
log.debug({msg:'amended namespace', id:this.id, default_key:'_'+type+trans, functions:this['_'+type+trans]})
if (!this['_' + type + trans]) this['_' + type + trans] = {}
Object.assign(this['_' + type + trans], funcs) // trans is type here
log.debug({
msg: 'amended namespace',
id: this.id,
default_key: '_' + type + trans,
functions: this['_' + type + trans],
})
}
amendConsumerCommands(funcs, trans) {
this.amendCommands(funcs,trans,'c')
this.amendCommands(funcs, trans, 'c')
}
amendSocketCommands(funcs, trans) {
this.amendCommands(funcs,trans)
this.amendCommands(funcs, trans)
}
// func should take and return a packet. if type
beforeSendHook(func,opts) {
this._packetHook('beforeSend', func,opts)
beforeSendHook(func, opts) {
this._packetHook('beforeSend', func, opts)
}
beforeProcessHook(func,opts) {
this._packetHook('beforeProcess', func,opts)
beforeProcessHook(func, opts) {
this._packetHook('beforeProcess', func, opts)
}
afterProcessHook(func,opts) {
this._packetHook('afterProcess', func,opts)
afterProcessHook(func, opts) {
this._packetHook('afterProcess', func, opts)
}
// A Big Hammer - use only if necessary - default with hooks should suffice
@ -544,26 +711,38 @@ class Base extends EventEmitter {
}
// a call to this method will (make or add) return and or subscribe a ready observer for incoming consumer connections
consumerConnected (socket,opts={}) {
let { subscribe, consumer, name, add} = opts
consumerConnected(socket, opts = {}) {
let { subscribe, consumer, name, add } = opts
const conditionHandler = async ev => {
if ((ev||{}).state ==='connected'){
let data = (ev.data ||{})
if (consumer) { // specific consumer check
if (data.name === consumer || [ev.name, ev.id, data.name, data.id].some(name => (name||'').includes(consumer)) ) return true
const conditionHandler = async (ev) => {
if ((ev || {}).state === 'connected') {
let data = ev.data || {}
if (consumer) {
// specific consumer check
if (
data.name === consumer ||
[ev.name, ev.id, data.name, data.id].some((name) =>
(name || '').includes(consumer)
)
)
return true
} else return true
}
return false
}
if (typeof socket ==='string') socket = this.getSocket(socket)
if (typeof socket === 'string') socket = this.getSocket(socket)
name = name || consumer
add = add && consumer
const options = {event:'connection:consumer',condition:conditionHandler}
const options = {
event: 'connection:consumer',
condition: conditionHandler,
}
let oname = `${name}:consumer>${socket.name}:socket<inbound>`
const obs = add ? this.ready.addObserver(oname,socket,options) : this.ready.makeObserver(socket,options)
if (typeof subscribe ==='function') return obs.subscribe(subscribe)
const obs = add
? this.ready.addObserver(oname, socket, options)
: this.ready.makeObserver(socket, options)
if (typeof subscribe === 'function') return obs.subscribe(subscribe)
return obs
} // end consumerConnected
@ -574,68 +753,108 @@ class Base extends EventEmitter {
*
*/
// options allow applying hook function to specific socket or type or transport, default is all type 's' sockets
_packetHook(hook,func,opts) {
log.debug({msg:'hooking a socket(s)', method:'_packetHook', line:334, hook:hook, function:func, options:opts})
let {name,type,trans,all} = opts
if (opts==null) type = 's' // default is all type 's' sockets
_packetHook(hook, func, opts) {
log.debug({
msg: 'hooking a socket(s)',
method: '_packetHook',
line: 334,
hook: hook,
function: func,
options: opts,
})
let { name, type, trans, all } = opts
if (opts == null) type = 's' // default is all type 's' sockets
if (name) this._socket[name][hook] = func
else {
log.debug({msg:'sockets available to hook', method:'_packetHook', line:338, sockets: Object.keys(this._socket)})
log.debug({
msg: 'sockets available to hook',
method: '_packetHook',
line: 338,
sockets: Object.keys(this._socket),
})
for (let name of Object.keys(this._socket)) {
if (this._socket[name].type === type) this._socket[name][hook] = func
if (this._socket[name].transport === trans) this._socket[name][hook] = func
if (this._socket[name].transport === trans)
this._socket[name][hook] = func
if (all) this._socket[name][hook] = func
if (this._socket[name][hook]) log.debug({msg:'hooked socket', method:'_packetHook', line:343, name:name, type:this._socket[name].type, trans:this._socket[name].transport})
if (this._socket[name][hook])
log.debug({
msg: 'hooked socket',
method: '_packetHook',
line: 343,
name: name,
type: this._socket[name].type,
trans: this._socket[name].transport,
})
}
}
}
/*
********** main packet processor for all sockets
* supports per socket before and after hook processors
* supports additonal registered processors called via packet or socket name, with default processor,
*/
async _packetProcess(socket_name, packet) {
if (!packet || !Object.keys(packet).length) packet = {error:'no packet to process'}
if (!socket_name || !this.getSocket(socket_name)) packet.error = 'no socket name passed for packet processing'
if (!this.getSocket(socket_name)) packet.error = `socket by name of ${socket_name}`
if (!packet || !Object.keys(packet).length)
packet = { error: 'no packet to process' }
if (!socket_name || !this.getSocket(socket_name))
packet.error = 'no socket name passed for packet processing'
if (!this.getSocket(socket_name))
packet.error = `socket by name of ${socket_name}`
if (packet.error) {
this.emit('log', {level:'error', error:packet.error, packet:packet, msg:'an error occured before processing an incoming packet'})
this.emit('log', {
level: 'error',
error: packet.error,
packet: packet,
msg: 'an error occured before processing an incoming packet',
})
return packet // don't process a packet with an error
}
// TODO allow adding to or altering the process map
let processors = new Map([
['before', this.getSocket(socket_name).beforeProcess ],
['command', this._cmdProcessors[packet.cmdProcessor || this._cmdProcessors[socket_name] ? socket_name : '_default'] ],
['after', this.getSocket(socket_name).afterProcess ],
['before', this.getSocket(socket_name).beforeProcess],
[
'command',
this._cmdProcessors[
packet.cmdProcessor || this._cmdProcessors[socket_name]
? socket_name
: '_default'
],
],
['after', this.getSocket(socket_name).afterProcess],
])
let err
for (let [name,func] of processors) { // the same as of recipeMap.entries()
[err,packet] = await to(this._process(socket_name,packet,name,func))
for (let [name, func] of processors) {
// the same as of recipeMap.entries()
[err, packet] = await to(this._process(socket_name, packet, name, func))
if (err) packet.error = err
}
return packet
}
async _process(socket_name,packet,name,func) {
async _process(socket_name, packet, name, func) {
if (packet.error) return packet // if an error occurs skip any further processing
let err, res
if (func) {
[err,res] = await to(func.call(this,packet,socket_name))
if (err) { // forced an abort to processing
[err, res] = await to(func.call(this, packet, socket_name))
if (err) {
// forced an abort to processing
packet.error = err
} else {
if (!isPlainObject(res)) packet.processResult ? packet.processResult[name]=res : packet.processResult = {[name]:res}
if (!isPlainObject(res))
packet.processResult
? (packet.processResult[name] = res)
: (packet.processResult = { [name]: res })
else {
let method = (packet.processMethod || {})[name] || packet.processMethod
let method =
(packet.processMethod || {})[name] || packet.processMethod
// TODO could support other specialized merge methods
if (method === 'merge') {
packet = merge(packet,res)
}
else {
packet=res
packet = merge(packet, res)
} else {
packet = res
}
}
}
@ -645,37 +864,47 @@ class Base extends EventEmitter {
// all sockets are emitters. Adds a listener to all sockets of a type with given event.
// now sockets can emit locally processed events
_eventListen(type,event,fn) {
_eventListen(type, event, fn) {
for (let name of Object.keys(this._socket)) {
if (this._socket[name].type === type) {
if (fn==='stop') this._socket[name].removeAllListeners(event)
if (fn === 'stop') this._socket[name].removeAllListeners(event)
else {
log.debug({socket:name, type:type, event:event, msg:'adding listener to socket'})
log.debug({
socket: name,
type: type,
event: event,
msg: 'adding listener to socket',
})
this._socket[name].on(event, fn)
}
}
}
}
_validateTransport(trans, type='s') {
_validateTransport(trans, type = 's') {
const valids = {
w:'w',
web:'w',
n:'n',
named:'n',
unix:'n',
pipe:'n',
t:'t',
tcp:'t',
net:'t',
network:'t',
m:'m',
mqtt:'m',
w: 'w',
web: 'w',
n: 'n',
named: 'n',
unix: 'n',
pipe: 'n',
t: 't',
tcp: 't',
net: 't',
network: 't',
m: 'm',
mqtt: 'm',
}
trans = valids[trans] || ''
if (type !== 's' && trans ==='w') {
log.warn({type: type, transport: trans, msg:'Invalid type/transport - Consumer/Client Web Socket not supported use TCP'})
trans = ''
trans = valids[trans] || null
if (type !== 's' && trans === 'w') {
log.warn({
type: type,
transport: trans,
msg:
'Invalid type/transport - Consumer/Client Web Socket not supported use TCP',
})
trans = null
}
return trans
}
@ -693,7 +922,7 @@ class Base extends EventEmitter {
_getCmdFuncNamespace(cmd, namespaces) {
let cmd_func = null
namespaces.some(namespace => {
namespaces.some((namespace) => {
namespace = namespace ? namespace + '.' + cmd : cmd
cmd_func = this._getCmdFunc(namespace)
if (cmd_func) return true
@ -710,7 +939,14 @@ class Base extends EventEmitter {
var prop = cmd.shift()
if (cmd.length === 0) return obj[prop]
if (!obj[prop]) return null
log.debug({length:cmd.length,cmd:cmd, prop:prop, objprop:obj[prop], method:'_getCmdFunc', msg:'command to corresponding function in a hash'})
log.debug({
length: cmd.length,
cmd: cmd,
prop: prop,
objprop: obj[prop],
method: '_getCmdFunc',
msg: 'command to corresponding function in a hash',
})
return this._getCmdFunc(cmd, obj[prop])
}
@ -720,16 +956,15 @@ class Base extends EventEmitter {
packet.cmd,
this._namespaces[this._type(socket) + this._transport(socket)]
)
if (cmd_func) return await cmd_func.call(this,packet) // todo try .call
if (cmd_func) return await cmd_func.call(this, packet) // todo try .call
cmd_func = this._getCmdFuncNamespace(
packet.cmd,
this._namespaces[this._type(socket)]
)
if (cmd_func) return await cmd_func.call(this,packet)
if (cmd_func) return await cmd_func.call(this, packet)
return 'failed'
}
} // end Base Class
export default Base
export { Base, map, changed, isPlainObject, to, merge, loadYaml } // todo share rxjs
export { Base, Ready, map, changed, isPlainObject, to, merge, loadYaml } // todo share rxjs

147
src/processing.js
View File

@ -1,6 +1,6 @@
import to from 'await-to-js'
import logger from '@uci-utils/logger'
let log = logger({ package: 'base',file:'processing.js'})
let log = logger({ package: 'base', file: 'processing.js' })
// this._processing refers to this module/hash
@ -9,35 +9,57 @@ let log = logger({ package: 'base',file:'processing.js'})
// messaging errors on socket will not be fatal to the entire socket server
// common processor, will call based on type s or c the ones below
const cmdProcessor = async function (packet,socket) {
let [err,res] = await to(_process[this.getSocket(socket).type].call(this,packet,socket))
const cmdProcessor = async function (packet, socket) {
let [err, res] = await to(
_process[this.getSocket(socket).type].call(this, packet, socket)
)
if (err) {
let error = {cmd:'error', error:err, packet:packet, socket:socket, function:'processor', line: 15, msg:`'unhandled error in packet command function ${packet.cmd}`}
let error = {
cmd: 'error',
error: err,
packet: packet,
socket: socket,
function: 'processor',
line: 15,
msg: `'unhandled error in packet command function ${packet.cmd}`,
}
log.error(error)
res = Object.assign({},packet,error)
if (process.env.UCI_PUSH_UNHANDLED==='true') this.push(res)
if (process.env.UCI_SHOW_UNHANDLED==='true') console.log(error)
res = Object.assign({}, packet, error)
if (process.env.UCI_PUSH_UNHANDLED === 'true') this.push(res)
if (process.env.UCI_SHOW_UNHANDLED === 'true') console.log(error)
}
return res
}
// default processors for socket/server and consumer/client
const _process = {
s: async function (packet,socket) {
if (!packet.cmd) return {error: 'no command (cmd:) in packet for socket', packet: packet }
s: async function (packet, socket) {
if (!packet.cmd)
return {
error: 'no command (cmd:) in packet for socket',
packet: packet,
}
// this call will search the namespace and envoke a function and return a repsonse packet
let response = await this._callCmdFunc(packet,socket); if(response!=='failed') return response
return {error: 'no socket processing function supplied for command', packet: packet }
let response = await this._callCmdFunc(packet, socket)
if (response !== 'failed') return response
return {
error: 'no socket processing function supplied for command',
packet: packet,
}
},
c: async function (packet,socket) {
c: async function (packet, socket) {
// the the end of life for a consumer packet that has been sent and returned or a packet that was pushed.
if (packet.error) packet.cmd='error'
if (!packet.cmd) packet.cmd ='reply'
let response = await this._callCmdFunc(packet,socket); if(response!=='failed') return response
packet = {error:`no consumer return processing function supplied for ${packet.cmd}`, packet:packet}
this._c.error(packet)
if (packet.error) packet.cmd = 'error'
if (!packet.cmd) packet.cmd = 'reply'
let response = await this._callCmdFunc(packet, socket)
if (response !== 'failed') return response
packet = {
error: `no consumer return processing function supplied for ${packet.cmd}`,
packet: packet,
}
this._c.error(packet)
},
}
// default name spaces
@ -55,13 +77,13 @@ const namespaces = {
}
/*
*
* Default packet command processing functions
*
*/
*
* Default packet command processing functions
*
*/
const defaultCmds ={
s:{
const defaultCmds = {
s: {
echo: function (packet) {
packet.processed = true
packet.msg = 'default socket echo'
@ -71,36 +93,81 @@ const defaultCmds ={
ack: async function (packet) {
packet.cmd = 'reply'
packet.ack = true
packet.msg = 'this is the base default ack, superceed in your instance or extended class'
packet.msg =
'this is the base default ack, superceed in your instance or extended class'
return packet
},
ready: async function (packet) {
const event = packet.event || packet.name || packet.id
delete(packet._header)
this.emit(event,packet.ready,packet)
this.emit('log', {level:'ready', msg:'change in ready state received via send', ready:packet.ready, packet:packet})
setTimeout(()=>this.emit('log', {level:'state', msg:'new ready state', state:this.ready.state}),1000)
return {cmd:'reply', msg:'consumer sent event was emitted event at socket process', event:event}
delete packet._header
this.emit(event, packet.ready, packet)
this.emit('ready', packet, packet)
this.emit('log', {
level: 'ready',
msg: 'change in ready state received via send',
ready: packet.ready,
packet: packet,
})
setTimeout(
() =>
this.emit('log', {
level: 'state',
msg: 'new ready state',
state: this.ready.state,
}),
1000
)
return {
cmd: 'reply',
msg: 'consumer sent event was emitted event at socket process',
event: event,
}
},
c:{
error: function (packet) { // default
log.error({error:packet.error, packet:packet, msg:'==========Consumer Sent Packet returned with ERROR ========='})
},
c: {
error: function (packet) {
// default
log.error({
error: packet.error,
packet: packet,
msg: '==========Consumer Sent Packet returned with ERROR =========',
})
return packet
},
reply: function(packet) {
if (process.env.UCI_ENV==='dev') log.debug({packet:packet, msg:'====Packet returned from socket - default reply logger==='})
reply: function (packet) {
if (process.env.UCI_ENV === 'dev')
log.debug({
packet: packet,
msg: '====Packet returned from socket - default reply logger===',
})
return packet
},
ready: async function (packet) {
const event = packet.event || packet.name || packet.id
delete(packet._header)
this.emit(event,packet.ready,packet)
this.emit('log', {level:'ready', msg:'change in ready state received via push', ready:packet.ready, packet:packet})
setTimeout(()=>this.emit('log', {level:'state', msg:'new ready state', state:this.ready.state}),1000)
return {cmd:'reply', msg:'ready packet event was emitted at consumer process from push'}
}
delete packet._header
this.emit(event, packet.ready, packet)
this.emit('ready', packet)
this.emit('log', {
level: 'ready',
msg: 'change in ready state received via push',
ready: packet.ready,
packet: packet,
})
setTimeout(
() =>
this.emit('log', {
level: 'state',
msg: 'new ready state',
state: this.ready.state,
}),
1000
)
return {
cmd: 'reply',
msg: 'ready packet event was emitted at consumer process from push',
}
},
},
}
export { cmdProcessor, defaultCmds, namespaces }