Skip to content

Unofficial iRobot Roomba and Braava (i7/i7+, 980, 960, 900, e5, 690, 675, m6, etc) node.js library (SDK) to control your robot

License

Notifications You must be signed in to change notification settings

stleusc/dorita980

 
 

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

93 Commits
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

dorita980

Build Status npm version

Unofficial iRobot Roomba (i7/i7+, 980, 960, e5, 690, 675, etc) node.js library (SDK).

With this library you can send commands to your wifi enabled Roomba through the iRobot cloud API or directly from your LAN and integrate your roboot with your own Home Automation or IoT project.

See rest980 if you need a HTTP REST API interface.

Advice

If you enjoy dorita980 and it works nice for you, I recommend blocking the internet access to your robot to avoid the OTA firmware updates. New firmware changes can cause dorita980 to stop working. Blocking firmware updates can be performed using the parental control options on your router.

When a new firmware is published, you can come here to verify if dorita980 is still compatible. Once dorita980 is compatible you can temporarily enable internet access for your robot to get the firmware upgrade.

If you have firmware version 1.6.x click here to see the old documentation.

Check your robot version!

Features

  • Compatible robots: all 600, 800, 900, e5 and i7/i7+ series with HOME app and Braava m6.
  • Get your username/password easily.
  • Auto discovery robot IP (optional).
  • Local API control (from your LAN).
  • Simplified Cleaning Preferences settings.
  • Firmware 1.6.x compatible.
  • Firmware 2.x.x compatible (latest serie 900 uses firmware v2, not v3).
  • Firmware 3.2.x compatible (latest serie 800 uses firmware v3).
  • See rest980 if you need a HTTP REST API interface to use dorita980 through it.

iRobot Roomba 980 cleaning map using dorita980 lib

Video: Realtime cleaning map using dorita980 lib in rest980.

Supported Features by Firmware Version

1.6.x Local 1.6.x Cloud 2.x.x Local 2.x.x Cloud 3.x.x Local
Clean/Start/Stop/Pause/Dock/Resume/CleanRoom yes yes yes pending yes
Get Preferences yes yes yes pending yes
Set Preferences yes yes yes pending yes
Get x,y,d Position yes yes yes pending -
Get Mission yes yes yes pending yes
Get Mission number no no yes pending yes
Get General Info yes yes yes pending yes
Get Schedule yes yes yes pending yes
Set Schedule yes yes yes pending yes
Set CarpetBoost (performance, eco, auto) yes yes yes pending -
Set Edge Clean yes yes yes pending -
Set Cleaning Passes (auto, on, two) yes yes yes pending -
set Always Finish yes yes yes pending -
MQTT Custom events - - yes pending yes
HTTP API yes yes - - -
Discovery Robot IP yes - yes - yes
Get BLID and Password yes - yes - yes
Support multiples clients at the same time yes yes no pending no

Install

First you need node.js installed and then:

$ npm install dorita980 --save

Quick start via Local request on your LAN

You can control the robot from your local network.

Create myapp.js file with this content:

var dorita980 = require('dorita980');

var myRobotViaLocal = new dorita980.Local('MyUsernameBlid', 'MyPassword', '192.168.1.104'); // robot IP address

myRobotViaLocal.on('connect', init);

function init () {
  myRobotViaLocal.clean()
  .then(() => myRobotViaLocal.end()) // disconnect to leave free the channel for the mobile app.
  .catch(console.log);
}

Then install dorita980 using npm and run your program:

$ npm install dorita980 --save
$ node myapp.js

Examples

Pause the robot via Local request:

var dorita980 = require('dorita980');

var myRobotViaLocal = new dorita980.Local('MyUsernameBlid', 'MyPassword', '192.168.1.104'); // robot IP address 

myRobotViaLocal.on('connect', init);

function init () {
  myRobotViaLocal.pause()
  .then(() => myRobotViaLocal.end()) // disconnect to leave free the channel for the mobile app.
  .catch(console.log);
}

Get robot week schedule

var dorita980 = require('dorita980');

var myRobotViaLocal = new dorita980.Local('MyUsernameBlid', 'MyPassword', '192.168.1.104'); // robot IP address 

myRobotViaLocal.on('connect', init);

function init () {
  myRobotViaLocal.getWeek()
  .then((weekConfig) => {
    console.log(weekConfig)
    myRobotViaLocal.end()
  })
  .catch(console.log);
}

How to get your username/blid and password

(Needed for Cloud and Local requests)

You need to know your robot IP address (look in your router or scan your LAN network with nmap to find it). Or use the dorita980.getRobotIP() method.

Install dorita980 globally and then run the get-roomba-password command:

$ npm install -g dorita980
$ get-roomba-password <robotIP>

or clone the repo and then run the npm script:

$ git clone https://github.com/koalazak/dorita980.git
$ cd dorita980
$ npm install
$ npm run getpassword <robotIP>

or docker run command:

docker run -it node sh -c "npm install -g dorita980 && get-roomba-password <robotIP>"

Example Output:

$ npm install -g dorita980
$ get-roomba-password 192.168.1.103

Make sure your robot is on the Home Base and powered on. Then press and hold the HOME button on your robot until it plays a series of tones (about 2 seconds). Release the button and your robot will flash WIFI light.
Then press any key...
{ ver: '2',
  hostname: 'Roomba-xxxxxxxxxxxxx',
  robotname: 'Dorita',
  ip: '192.168.1.103',
  mac: '12:12:12:12:12:12',
  sw: 'v2.0.0-34',
  sku: 'R98----',
  nc: 0,
  proto: 'mqtt',
  blid: 'xxxxxxxxxxxxx' <---- username/blid
}
Password=> :1:1486937829:gktkDoYpWaDxCfGh <= Yes, all this string.
Use this credentials in dorita980 lib :)

Auto discover IP address for local request:

If you don't known which IP address to use in dorita980.Local() you can use dorita980.getRobotIP() to find it. This process takes 1-2 seconds, so if you know the IP you can just use it explicity.

You need UDP brodcast enable in your network!

var dorita980 = require('dorita980');

dorita980.getRobotIP((ierr, ip) => {
  if (ierr) return console.log('error looking for robot IP');

  var myRobotViaLocal = new dorita980.Local('MyUsernameBlid', 'MyPassword', ip);

  myRobotViaLocal.getMission()
  .then((mission) => {
    console.log(mission);
  }).catch((err) => {
    console.log(err);
  });
});

You can also use .discovery method to get all the robots discovery data:

You need UDP brodcast enabled in your network!

var dorita980 = require('dorita980');

dorita980.discovery((ierr, data) => {
  console.log(data);
});

Will print:

{ ver: '2',
  hostname: 'Roomba-xxxxxxxxxxxxx',
  robotname: 'Dorita',
  ip: '192.168.1.103',
  mac: '12:12:12:12:12:12',
  sw: 'v2.0.0-34',
  sku: 'R98----',
  nc: 0,
  proto: 'mqtt' }

Local API

The library send commands directly over wifi to your robot. You dont need an internet connection.

Methods

end()

Close the connection to the robot. It's important if you want to send commands via the official mobile app via Local network. There's a maximum of 1 connection at any time in local network, so if your app is connected, the official mobile app only works via cloud access.

While dorita980 is connected, you can call other methods to send commands and listen for the events to get data. Just call the .end() method if you want. While dorita980 is connected, the official mobile app will only work via the cloud to send commands to your robot.

getRobotState(Array waitForFields)

Get the robot state but wait for the waitForFields fields before return.

The state object starts empty and the robot will add data over time.

myRobotViaLocal.getRobotState(['batPct', 'bbchg3']).then((actualState) => {
  console.log(actualState);
});

Full state should contain:

{ netinfo:
   { dhcp: true,
     addr: 4294967040,
     mask: 4294967040,
     gw: 4294967040,
     dns1: 4294967040,
     dns2: 0,
     bssid: '12:12:12:12:12:12',
     sec: 4 },
  wifistat: { wifi: 1, uap: false, cloud: 4 },
  wlcfg: { sec: 7, ssid: '123123123123123123123123' },
  mac: '34:34:34:34:34:34',
  country: 'US',
  cloudEnv: 'prod',
  svcEndpoints: { svcDeplId: 'v005' },
  localtimeoffset: -180,
  utctime: 1487103319,
  pose: { theta: 61, point: { x: 171, y: -113 } },
  batPct: 100,
  dock: { known: true },
  bin: { present: true, full: false },
  audio: { active: false },
  cleanMissionStatus:
   { cycle: 'none',
     phase: 'charge',
     expireM: 0,
     rechrgM: 0,
     error: 0,
     notReady: 0,
     mssnM: 2,
     sqft: 29,
     initiator: 'manual',
     nMssn: 324 },
  language: 2,
  noAutoPasses: false,
  noPP: false,
  ecoCharge: false,
  vacHigh: false,
  binPause: false,
  carpetBoost: true,
  openOnly: false,
  twoPass: false,
  schedHold: false,
  lastCommand: { command: 'dock', time: 1487103424, initiator: 'manual' },
  langs:
   [ { 'en-US': 0 },
     { 'fr-FR': 1 },
     { 'es-ES': 2 },
     { 'de-DE': 3 },
     { 'it-IT': 4 } ],
  bbnav: { aMtrack: 45, nGoodLmrks: 15, aGain: 12, aExpo: 9 },
  bbpanic: { panics: [ 8, 8, 8, 14, 8 ] },
  bbpause: { pauses: [ 15, 0, 0, 0, 0, 0, 0, 0, 0, 17 ] },
  bbmssn:
   { nMssn: 323,
     nMssnOk: 218,
     nMssnC: 99,
     nMssnF: 1,
     aMssnM: 35,
     aCycleM: 31 },
  bbrstinfo: { nNavRst: 41, nMobRst: 0, causes: '0000' },
  cap: { pose: 1, ota: 2, multiPass: 2, carpetBoost: 1 },
  sku: 'R98----',
  batteryType: 'lith',
  soundVer: '31',
  uiSwVer: '4582',
  navSwVer: '01.09.09',
  wifiSwVer: '20902',
  mobilityVer: '5309',
  bootloaderVer: '3580',
  umiVer: '5',
  softwareVer: 'v2.0.0-34',
  tz:
   { events: [ { dt: 0, off: -180 }, { dt: 0, off: -180 }, { dt: 0, off: 0 } ],
     ver: 2 },
  timezone: 'America/Buenos_Aires',
  name: 'robotNAme',
  cleanSchedule:
   { cycle: [ 'none', 'none', 'none', 'none', 'none', 'none', 'none' ],
     h: [ 17, 10, 10, 12, 10, 13, 17 ],
     m: [ 0, 30, 30, 0, 30, 30, 0 ] },
  bbchg3:
   { avgMin: 158,
     hOnDock: 6110,
     nAvail: 1280,
     estCap: 12311,
     nLithChrg: 233,
     nNimhChrg: 0,
     nDocks: 98 },
  bbchg: { nChgOk: 226, nLithF: 0, aborts: [ 4, 4, 4 ] },
  bbswitch: { nBumper: 55889, nClean: 300, nSpot: 47, nDock: 98, nDrops: 300 },
  bbrun:
   { hr: 211,
     min: 48,
     sqft: 566,
     nStuck: 17,
     nScrubs: 85,
     nPicks: 592,
     nPanics: 178,
     nCliffsF: 1532,
     nCliffsR: 2224,
     nMBStll: 0,
     nWStll: 1,
     nCBump: 0 },
  bbsys: { hr: 6522, min: 54 },
  signal: { rssi: -43, snr: 40 } }

getPreferences()

Get the full robot state but wait for the ['cleanMissionStatus', 'cleanSchedule', 'name', 'vacHigh', 'pose'] fields before returning.

Alias for getRobotState(['cleanMissionStatus', 'cleanSchedule', 'name', 'vacHigh', 'pose', 'signal'])

Waits for the 'signal' to make sure we have the full state object.

Use getRobotState(['cleanMissionStatus', 'cleanSchedule', 'name', 'vacHigh', 'signal']) without pose in models without navigation like E6 models.

setPreferences(newPreferences)

Partially overwrites the robot state to configure it.

var newPreferences = { 
 binPause: false
};

myRobotViaLocal.setPreferences(newPreferences)

Response:

{"ok":null}

getMission()

With this you can draw a map :) in models with position reporting. Use getBasicMission() in robots without position reporting feature like E5 models.

{ cleanMissionStatus:
   { cycle: 'none',
     phase: 'charge',
     expireM: 0,
     rechrgM: 0,
     error: 0,
     notReady: 0,
     mssnM: 15,
     sqft: 0,
     initiator: 'localApp',
     nMssn: 323 },
  pose: { theta: -160, point: { x: 166, y: -11 } } }

getBasicMission()

Same as getMission but don't wait for pose information

{ cleanMissionStatus:
   { cycle: 'none',
     phase: 'charge',
     expireM: 0,
     rechrgM: 0,
     error: 0,
     notReady: 0,
     mssnM: 15,
     sqft: 0,
     initiator: 'localApp',
     nMssn: 323 }}

getWirelessStatus()

{ wifistat: { wifi: 1, uap: false, cloud: 4 },
  netinfo:
   { dhcp: true,
     addr: 3232235880,
     mask: 4294967040,
     gw: 3232235777,
     dns1: 3232235777,
     dns2: 0,
     bssid: 'c0:56:27:70:3b:fe',
     sec: 4 } }

getTime()

1487100141

getBbrun()

 { hr: 211,
   min: 48,
   sqft: 566,
   nStuck: 17,
   nScrubs: 85,
   nPicks: 592,
   nPanics: 178,
   nCliffsF: 1532,
   nCliffsR: 2224,
   nMBStll: 0,
   nWStll: 1,
   nCBump: 0 }

getLangs()

 [ { 'en-US': 0 },
   { 'fr-FR': 1 },
   { 'es-ES': 2 },
   { 'de-DE': 3 },
   { 'it-IT': 4 } ]

getSys()

{ bbrstinfo: { nNavRst: 41, nMobRst: 0, causes: '0000' },
  cap: { pose: 1, ota: 2, multiPass: 2, carpetBoost: 1 },
  sku: 'R98----',
  batteryType: 'lith',
  soundVer: '31',
  uiSwVer: '4582',
  navSwVer: '01.09.09',
  wifiSwVer: '20902',
  mobilityVer: '5309',
  bootloaderVer: '3580',
  umiVer: '5',
  softwareVer: 'v2.0.0-34',
  audio: { active: false },
  bin: { present: true, full: false } }

getWirelessLastStatus()

{ wifi: 1, uap: false, cloud: 4 },
  wlcfg: { sec: 7, ssid: '1234567890796857336364' }

getWeek()

Disable Monday and start every day at 10:30am

{ cycle: [ 'none', 'none', 'none', 'none', 'none', 'none', 'none' ],
  h: [ 17, 10, 10, 12, 10, 13, 17 ],
  m: [ 0, 30, 30, 0, 30, 30, 0 ] }

setWeek(newWeek)

Disable Sunday and start every day at 10:30am

var newWeek = {"cycle":["none","start","start","start","start","start","start"],"h":[10,10,10,10,10,10,10],"m":[30,30,30,30,30,30,30]}
myRobotViaLocal.setWeek(newWeek)

Response:

{"ok":null}

getCloudConfig()

prod

start()

{"ok":null}

clean()

{"ok":null}

cleanRoom(args)

cleanRoom is an alias for start - but with arguments. To clean a room - you need a structure similar to:

const args = {
  "pmap_id": "ABCDEFG123456FGKS789",
  "regions": [
    { "region_id": "5", "region_name": "Hallway", "region_type": "hallway", "type": "rid"}
  ],
  "user_pmapv_id": "190917T20125Z"
};

myRobotViaLocal.cleanRoom(args);
{"ok":null}

The easiest way to find this information is to start a clean using the iRobot app and then call the getRobotState method and copy the lastCommand values from it. Using this you can derive the pmap_id, user_pmapv_id and regions data. Or looking into pmaps property in the state.

cleanRoom(args) for multiple rooms

By adding more regions to the regions array, a set of rooms will be cleaned. At least from firmware Version 3.8.3 you can set the desired order, when cleaning multiple rooms by adding ordered = 1:

const args = {
  "ordered": 1,
  "pmap_id": "ABCDEFG123456FGKS789",
  "regions": [
    { "region_id": "5", "region_name": "Hallway", "region_type": "hallway", "type": "rid"},
    { "region_id": "0", "region_name": "living room", "region_type": "familiy room", "type": "rid"},
    { "region_id": "1", "region_name": "kitchen", "region_type": "kitchen", "type": "rid"}
  ],
  "user_pmapv_id": "190917T20125Z"
};

myRobotViaLocal.cleanRoom(args);
{"ok":null}

pause()

{"ok":null}

stop()

{"ok":null}

resume()

{"ok":null}

dock()

Note: before dock you need to pause() or stop() your robot.

{"ok":null}

Simplifications to set Cleaning Preferences:

This methods use setPreferences() with the correct flags for each setting.

setCarpetBoostAuto()

{"ok":null}

setCarpetBoostPerformance()

setCarpetBoostEco()

setEdgeCleanOn()

setEdgeCleanOff()

setCleaningPassesAuto()

setCleaningPassesOne()

setCleaningPassesTwo()

setAlwaysFinishOn()

setAlwaysFinishOff()

publish(topic, rawJsonMessageAsString, callback)

Just to experiment with raw commands using the MQTT client. Known topics are cmd and delta. But Experiment with other topics and message formats!

The delta commands tipicaly have the following json format:

{'state': newState}

The cmd commands tipicaly have the following json format:

{'command': command, time: Date.now() / 1000 | 0, initiator: 'localApp'};

For example to send a clean command:

let myCommand = {command: 'clean', time: Date.now() / 1000 | 0, initiator: 'localApp'};

myRobotViaLocal.publish('cmd', JSON.stringify(myCommand), function(e) {
  if(e) console.log('error', e);
});

Dont forget stringify the json message with JSON.stringify(rawJsonMessageAsString).

You can see undocument commands and preferences in this thread

Events

connect event

Emitted on successful Connection.

function () {}

Put your code inside this callback.

close event

Emitted after a disconnection.

offline event

Emitted when the client goes offline.

update event

Emitted every time the Robot publishes a new message to the mqtt bus.

function (data) {}

  • data Data published by the Robot
myRobotViaLocal.on('update', function (data) {
 console.log(data);
});

Will print:

{ state:
   { reported:
      { soundVer: '31',
        uiSwVer: '4582',
        navSwVer: '01.09.09',
        wifiSwVer: '20902',
        mobilityVer: '5309',
        bootloaderVer: '3580',
        umiVer: '5',
        softwareVer: 'v2.0.0-34' } } }

mission event

Emitted every emitIntervalTime milliseconds with the mission data. (util for mapping in models with position reporting)

function (data) {}

  • data Mission data with cleanMissionStatus and pose state properties.
var cleanMissionStatus = 300; // default is 800ms
var myRobotViaLocal = new dorita980.Local('MyUsernameBlid', 'MyPassword', '192.168.1.104', 2, cleanMissionStatus); // Note Firmware version.

myRobotViaLocal.on('mission', function (data) {
  console.log(data);
});

Will print each 300ms:

{ cleanMissionStatus:
   { cycle: 'none',
     phase: 'charge',
     expireM: 0,
     rechrgM: 0,
     error: 0,
     notReady: 0,
     mssnM: 15,
     sqft: 0,
     initiator: 'localApp',
     nMssn: 323 },
  pose: { theta: -160, point: { x: 166, y: -11 } } }

state event

Emitted every time the Robot publish a new message to the mqtt bus.

function (data) {}

  • data Full robot state object
myRobotViaLocal.on('state', function (data) {
 console.log(data);
});

Will print the Full robot state!

Cloud API

Not implemented yet in Firmware 2.0.0. Help wanted!

Note for node.js v0.10 users

dorita980 is compatible with node.js > 4.0 But you can use the getpassword feature in node.js < 4.0 using --harmony flag like that:

$ node --harmony ./bin/getpassword.js "192.168.1.104"

Custom tls cipher

You can set ROBOT_CIPHERS environment variable to overwrite the cipher suit used in tls connection to the robot. Default is AES128-SHA256

$ ROBOT_CIPHERS=AES128-SHA node myscript.js

Author

About

Unofficial iRobot Roomba and Braava (i7/i7+, 980, 960, 900, e5, 690, 675, m6, etc) node.js library (SDK) to control your robot

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages

  • JavaScript 100.0%