423 lines
10 KiB
JavaScript
423 lines
10 KiB
JavaScript
'use strict'
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const db = require('../db')
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const log = require('../log')('intval')
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const storage = require('node-persist')
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const fs = require('fs')
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let Gpio
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try {
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Gpio = require('onoff').Gpio
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} catch (e) {
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log.warn('Failed including Gpio, using sim')
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Gpio = require('../../lib/onoffsim').Gpio
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}
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const PINS = {
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fwd : {
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pin : 13,
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dir : 'out'
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},
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bwd : {
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pin : 19,
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dir : 'out'
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},
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micro : {
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pin : 5,
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dir : 'in',
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edge : 'both'
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},
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release : {
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pin : 6,
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dir : 'in',
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edge : 'both'
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}
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}
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/** Object representing the intval3 features */
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const intval = {}
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intval._frame = {
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open : 250, //delay before pausing frame in open state
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openBwd : 400,
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closed : 100, //time that frame actually remains closed for
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expected : 630 //expected length of frame, in ms
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}
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intval._release = {
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min : 20,
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seq : 1000
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}
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intval._microDelay = 10 // delay after stop signal before stopping motors
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intval._pin = {}
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/**
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*
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*/
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intval.init = function () {
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if (!fs.existsSync('./state')) fs.mkdirSync('./state')
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storage.init({
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dir: './state',
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stringify: JSON.stringify,
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parse: JSON.parse,
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encoding: 'utf8',
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logging: false, // can also be custom logging function
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continuous: true, // continously persist to disk
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interval: false, // milliseconds, persist to disk on an interval
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ttl: false, // ttl* [NEW], can be true for 24h default or a number in MILLISECONDS
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expiredInterval: 2 * 60 * 1000, // [NEW] every 2 minutes the process will clean-up the expired cache
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forgiveParseErrors: false // [NEW]
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}).then(intval._restoreState).catch((err) => {
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log.warn('init', err)
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intval.reset()
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intval._declarePins()
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})
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process.on('SIGINT', intval._undeclarePins)
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process.on('uncaughtException', intval._undeclarePins)
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}
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intval._restoreState = function (res) {
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storage.getItem('_state', 'test').then(intval._setState).catch((err) => {
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intval._setState(undefined)
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log.error('_restoreState', err)
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})
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intval._declarePins()
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}
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intval._setState = function (data) {
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if (typeof data !== 'undefined') {
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intval._state = data
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intval._state.frame.cb = () => {}
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log.info('_setState', 'Restored intval state from disk')
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return true
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}
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log.info('_setState', 'Setting state from defaults')
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intval._state = {
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frame : {
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dir : true, //forward
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start : 0, //time frame started, timestamp
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active : false, //should frame be running
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paused : false,
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exposure : 0, //length of frame exposure, in ms
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delay : 0, //delay before start of frame, in ms
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current : {}, //current settings
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cb : () => {}
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},
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release : {
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time: 0,
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active : false //is pressed
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},
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micro : {
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time : 0,
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primed : false //is ready to stop frame
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},
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counter : 0,
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sequence : false
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}
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intval._storeState()
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}
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intval._storeState = function () {
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storage.setItem('_state', intval._state)
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.then(() => {})
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.catch((err) => {
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log.error('_storeState', err)
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})
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}
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/**
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* (internal function) Declares all Gpio pins that will be used
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*
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*/
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intval._declarePins = function () {
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let pin
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for (let p in PINS) {
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pin = PINS[p]
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if (pin.edge) intval._pin[p] = Gpio(pin.pin, pin.dir, pin.edge)
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if (!pin.edge) intval._pin[p] = Gpio(pin.pin, pin.dir)
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log.info('_declarePins', { pin : pin.pin, dir : pin.dir, edge : pin.edge })
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}
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intval._pin.release.watch(intval._watchRelease)
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}
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/**
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* (internal function) Undeclares all Gpio in event of uncaught error
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* that interupts the node process
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*
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*/
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intval._undeclarePins = function (e) {
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log.error(e)
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if (!intval._pin) {
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log.warn('_undeclarePins', { reason : 'No pins'})
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return process.exit()
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}
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log.warn('_undeclarePins', { pin : PINS.fwd.pin, val : 0, reason : 'exiting'})
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intval._pin.fwd.writeSync(0)
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log.warn('_undeclarePins', { pin : PINS.bwd.pin, val : 0, reason : 'exiting'})
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intval._pin.bwd.writeSync(0)
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intval._pin.fwd.unexport()
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intval._pin.bwd.unexport()
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intval._pin.micro.unexport()
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intval._pin.release.unexport()
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process.exit()
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}
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/**
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* Start motor in forward direction by setting correct pins in h-bridge
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*
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*/
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intval._startFwd = function () {
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intval._pin.fwd.writeSync(1)
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intval._pin.bwd.writeSync(0)
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}
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/**
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* Start motor in backward direction by setting correct pins in h-bridge
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*
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*/
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intval._startBwd = function () {
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intval._pin.fwd.writeSync(0)
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intval._pin.bwd.writeSync(1)
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}
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intval._pause = function () {
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intval._pin.fwd.writeSync(0)
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intval._pin.bwd.writeSync(0)
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//log.info('_pause', 'frame paused')
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}
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/**
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* Stop motor by setting both motor pins to 0 (LOW)
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*
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*/
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intval._stop = function () {
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const entry = {}
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const now = +new Date()
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const len = now - intval._state.frame.start
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intval._pin.fwd.writeSync(0)
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intval._pin.bwd.writeSync(0)
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log.info(`_stop`, { frame : len })
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intval._pin.micro.unwatch()
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intval._state.frame.active = false
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if (intval._state.frame.cb) intval._state.frame.cb(len)
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entry.start = intval._state.frame.start
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entry.stop = now
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entry.len = len
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entry.dir = intval._state.frame.current.dir ? 1 : 0
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entry.exposure = intval._state.frame.current.exposure
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entry.counter = intval._state.counter
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entry.sequence = intval._state.sequence ? 1 : 0
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db.insert(entry)
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intval._state.frame.current = {}
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}
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/**
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* Callback for watching relese switch state changes.
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* Using GPIO 06 on Raspberry Pi Zero W.
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*
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* 1) If closed AND frame active, start timer, set state primed to `true`.
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* 1) If opened AND frame active, stop frame
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*
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* Microswitch + 10K ohm resistor
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* * 1 === open
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* * 0 === closed
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*
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*
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* @param {object} err Error object present if problem reading pin
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* @param {integer} val Current value of the pin
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*
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*/
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intval._watchMicro = function (err, val) {
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const now = +new Date()
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if (err) {
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log.error('_watchMicro', err)
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}
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//log.info(`Microswitch val: ${val}`)
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//determine when to stop
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if (val === 0 && intval._state.frame.active) {
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if (!intval._state.micro.primed && (now - intval._state.frame.start) > 100) {
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intval._state.micro.primed = true
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intval._state.micro.time = now
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log.info('Microswitch primed to stop motor')
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}
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} else if (val === 1 && intval._state.frame.active) {
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if (intval._state.micro.primed && !intval._state.micro.paused && (now - intval._state.frame.start) > intval._frame.open) {
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intval._state.micro.primed = false
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intval._state.micro.time = 0
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setTimeout( () => {
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intval._stop()
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}, intval._microDelay)
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}
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}
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}
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/**
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* Callback for watching relese switch state changes.
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* Using GPIO 05 on Raspberry Pi Zero W.
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*
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* 1) If closed, start timer.
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* 2) If opened, check timer AND
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* 3) If `press` (`now - intval._state.release.time`) greater than minimum and less than `intval._release.seq`, start frame
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* 4) If `press` greater than `intval._release.seq`, start sequence
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*
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* Button + 10K ohm resistor
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* * 1 === open
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* * 0 === closed
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*
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* @param {object} err Error object present if problem reading pin
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* @param {integer} val Current value of the pin
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*
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*/
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intval._watchRelease = function (err, val) {
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const now = +new Date()
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let press = 0
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if (err) {
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return log.error(err)
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}
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//log.info(`Release switch val: ${val}`)
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if (val === 0) {
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//closed
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if (intval._releaseClosedState(now)) {
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intval._state.release.time = now
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intval._state.release.active = true //maybe unncecessary
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}
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} else if (val === 1) {
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//opened
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if (intval._state.release.active) {
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press = now - intval._state.release.time
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if (press > intval._release.min && press < intval._release.seq) {
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intval.frame()
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} else if (press >= intval._release.seq) {
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intval.sequence()
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}
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//log.info(`Release closed for ${press}ms`)
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intval._state.release.time = 0
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intval._state.release.active = false
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}
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}
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}
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intval._releaseClosedState = function (now) {
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if (!intval._state.release.active && intval._state.release.time === 0) {
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return true
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}
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if (intval._state.release.active && (now - intval._state.release.time) > (intval._release.seq * 10)) {
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return true
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}
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return false
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}
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intval.reset = function () {
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intval._setState()
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intval._storeState()
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}
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/**
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* Set the default direction of the camera.
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* * forward = true
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* * backward = false
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*
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* @param {boolean} [dir=true] Direction of the camera
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*
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*/
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intval.setDir = function (val = true) {
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if (typeof val !== 'boolean') {
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return log.warn('Direction must be represented as either true or false')
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}
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intval._state.frame.dir = val
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intval._storeState()
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log.info('setDir', { direction : val ? 'forward' : 'backward' })
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}
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intval.setExposure = function (val = 0) {
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intval._state.frame.exposure = val
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intval._storeState()
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log.info('setExposure', { exposure : val })
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}
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intval.setDelay = function (val = 0) {
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intval._state.frame.delay = val
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intval._storeState()
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log.info('setDelay', { delay : val })
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}
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intval.setCounter = function (val = 0) {
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intval._state.counter = val
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intval._storeState()
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log.info('setCounter', { counter : val })
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}
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/**
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* Begin a single frame with set variables or defaults
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*
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* @param {?boolean} [dir="null"] (optional) Direction of the frame
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* @param {?integer} [exposure="null"] (optional) Exposure time, 0 = minimum
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*
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*/
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intval.frame = function (dir = null, exposure = null, cb = () => {}) {
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if (dir === true || (dir === null && intval._state.frame.dir === true) ) {
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dir = true
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} else {
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dir = false
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}
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if (exposure === null && intval._state.frame.exposure !== 0) {
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exposure = intval._state.frame.exposure
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} else if (exposure === null) {
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exposure = 0 //default speed
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}
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intval._state.frame.start = +new Date()
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intval._state.frame.active = true
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intval._pin.micro.watch(intval._watchMicro)
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log.info('frame', {dir : dir ? 'forward' : 'backward', exposure : exposure})
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if (dir) {
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intval._startFwd()
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} else {
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intval._startBwd()
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}
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if (exposure !== 0) {
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intval._state.frame.paused = true
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if (dir) {
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setTimeout(intval._pause, intval._frame.open)
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//log.info('frame', { pausing : time + intval._frame.open })
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setTimeout( () => {
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intval._state.frame.paused = false
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intval._startFwd()
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}, exposure + intval._frame.closed)
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} else {
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setTimeout(intval._pause, intval._frame.openBwd)
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setTimeout( () => {
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//log.info('frame', 'restarting')
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intval._state.frame.paused = false
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intval._startBwd()
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}, exposure + intval._frame.closed)
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}
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}
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if (dir) {
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intval._state.frame.cb = (len) => {
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intval._state.counter++
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intval._storeState()
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cb(len)
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}
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} else {
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intval._state.frame.cb = (len) => {
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intval._state.counter--
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intval._storeState()
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cb(len)
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}
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}
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intval._state.frame.current = {
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dir: dir,
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exposure: exposure
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}
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}
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intval.status = function () {
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return intval._state
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}
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module.exports = intval |