Awesome
Meteor Desktop
aka Meteor Electron Desktop Client
Build desktop apps with Meteor & Electron. Full integration with hot code push implementation.
What is this?
This is a complete implementation of integration between Meteor
and Electron
aiming to achieve the same level of developer experience like Meteor
gives.
To make it clear from the start, this is a desktop client - it is just like your mobile
clients with Cordova
- but this is for desktops with Electron
. It also features a full hot code
push implementation - which means you can release updates the same way you are used to.
Migrating from meteor-desktop
to @meteor-community/meteor-desktop
This package was created by wojtkowiak and was published under the name meteor-desktop
up until version 2.2.5. After 2.2.6 it transitioned to being owned and published under the Meteor-Community-Packages GitHub and npm org.
To migrate from the original meteor-desktop
:
- Replace the npm package
- Replace your package.json "devDependencies" entry for
"meteor-desktop"
to"@meteor-community/meteor-desktop"
- Replace your package.json "devDependencies" entry for
- Replace the two Meteor Atmosphere packages
- Run
meteor remove omega:meteor-desktop-bundler
andmeteor add communitypackages:meteor-desktop-bundler
- Run
meteor remove omega:meteor-desktop-watcher
andmeteor add communitypackages:meteor-desktop-watcher
- Run
Prerequisites
- Meteor >=
1.12.1
- at least basic Electron framework knowledge
- mobile platform added to project<sup>*1</sup>
<sup>*1 you can always build with --server-only
if you do not want to have mobile clients, you do not actually have to have android sdk or xcode to go on with your project</sup>
Quick start
cd /your/meteor/app
meteor npm install --save-dev @meteor-community/meteor-desktop
meteor add-platform ios # or android
npm run desktop -- init
meteor --mobile-server=127.0.0.1:3000
# open new terminal
npm run desktop
The first time, you can also combine npm run desktop -- init
and npm run desktop
into npm run desktop -- --scaffold
once meteor is running.
Usage --help
// Assumming you have a `desktop` script in npm scripts that equals to "@meteor-community/meteor-desktop"
Usage: npm run desktop -- [command] [options]
Commands:
init scaffolds .desktop dir in the meteor app
run [ddp_url] (default) builds and runs desktop app
build [ddp_url] builds your desktop app
build-installer [ddp_url] creates the installer
just-run alias for running `electron .` in `.meteor/desktop-build`
package [ddp_url] runs electron packager
init-tests-support prepares project for running functional tests of desktop app
Options:
-h, --help output usage information
-b, --build-meteor runs meteor to obtain the mobile build, kills it after
-t, --build-timeout <timeout_in_sec> timeout value when waiting for meteor to build, default 600sec
-p, --port <port> port on which meteor is running, when with -b this will be passed to meteor when obtaining the build
--production builds meteor app with the production switch, uglifies contents of .desktop, packs app to app.asar
-a, --android force adding android as a mobile platform instead of ios
-s, --scaffold will scaffold .desktop if not present
-i, --ignore-stderr [string] only with -b, strings that when found will not terminate meteor build
--meteor-settings <path> only with -b, adds --settings options to meteor
--prod-debug forces adding dev tools to a production build
--ia32 generate 32bit installer/package
--all-archs generate 32bit and 64bit installers
--win generate Windows installer
--linux generate Linux installer
--mac generate Mac installer
-d, --debug run electron with debug switch
-V, --version output the version number
[ddp_url] - pass a ddp url if you want to use different one than used in meteor's --mobile-server
this will also work with -b
--build-meteor
If you just want to build the desktop app, package it or build installer without running the
Meteor
project separately you can just use -b
and all will be done automatically - this is useful when
for example building on a CI etc.
--android
When there is no mobile platform in the project and -b
is used, mobile platform is added
automatically and removed at the end of the build process. Normally an ios
platform is added
but you can change this to android
through this option.
Documentation
- Architecture
- Scaffolding your desktop app
- Writing modules
- Hot code push support
- Meteor.isDesktop
- Accessing local filesystem in Meteor
- Accessing .desktop/assets in Meteor
- <code>Desktop</code> and <code>Module</code> - communication between Meteor and Electron
- desktopHCP - .desktop hot code push
- How to write plugins
- Squirrel autoupdate support
- Native modules support
- Testing desktop app and modules
- MD_LOG_LEVEL
- Packaging
- Building installer
- Roadmap
- Contribution
- Built with meteor-desktop
- FAQ
- Changelog
Architecture
If you have ever been using any Cordova
plugins before you will find this approach alike. In Cordova
every plugin exposes its native code through a JS api available in some global namespace like cordova.plugins
. The approach used here is similar.
In Electron
app, there are two processes running along in your app. The so-called main process
and renderer process
. Main process is just a JS code executed in node
, and the
renderer is a Chromium
process. In this integration your Meteor
app is being run in the
renderer
process and your desktop specific code runs in the main
process. They are
communicating through IPC events. Basically, the desktop side publishes its API as an IPC event
listeners. In your Meteor
code, calling it is as simple as Desktop.send('module', 'event');
.
Code on the desktop side is preferred to be modular - that is just for simplifying testing and
encapsulating functionalities into independent modules. However, you do not have to follow this style, there is an import
dir in which you can structure your code however you want. The basics of an Electron
app are already in place (reffered as Skeleton App
) and your code is loaded like a plugin to it.
Below is a high level architecture diagram of this integration.
How does this work with Meteor?
<sup>or how hacky is this?</sup>
The main goal was to provide a non hacky integration without actually submitting any desktop
oriented pull request to Meteor
.
The whole concept is based on taking the web.cordova
build, modifying it as little as possible
and running it in the Electron's
renderer process. The current cordova
integration
architecture is more or less conceptually replicated.
Currently the only modification that the mobile build is subjected to is injecting the Meteor.isDesktop
variable.
To obtain the mobile build, this integration takes the build from either
.meteor/local/cordova-build
(version < 1.3.4.1
) or from .meteor/local/build/programs/web.cordova
.
Because index.html
is not present in the web.cordova
directory and program.json
lacks
version
field, they are just downloaded from the running project.
How the Electron
app is structured?
The produced Electron
app consists barely of 4 files:
app.asar
- bundledSkeleton App
andnode_modules
(including all your dependencies fromsettings.json
and modules)meteor.asar
- yourMeteor
app bundled to an.asar
desktop.asar
- processed contents from.desktop
package.json
-Electron
requires apackage.json
to be present
While developing, the app
is not asared so you can take a closer look at the Skeleton
that is
produced by this integration. You will find it in the .meteor/desktop-build
directory.
Where is my app.on('ready')
?
The app.on('ready')
is handled for you by the Skeleton
app, but that does not mean you can
not hook into it. Basically, code that is in the constructor of .desktop/desktop.js
and
all constructors of your modules is executed while being inside ready
. Remember that is always
a good practice not to do time consuming tasks inside the constructors but instead delay those tasks
by hooking to beforeDesktopJsLoad
, desktopLoaded
or afterInitialization
on the eventsBus
.
Scaffolding your desktop app
If you have not run the example from the Quick start paragraph, first you need to scaffold a
.desktop
dir in which your Electron's
main process code lives.
To do that run: (assuming npm install --save-dev meteor-desktop
did add successfully a desktop
entry in the package.json scripts
section)
npm run desktop -- init
This will generate an exemplary .desktop
dir. Lets take a look what we can find there:
.desktop
├── assets # place all your assets here
├── import # all code you do not want to structure into modules
├── modules # your desktop modules (check modules section for explanation)
│ └── example # module example
│ ├── index.js # entrypoint of the example module
│ ├── example.test.js # functional test for the example module
│ └── module.json # module configuration
├── desktop.js # your Electron main process entry point - treated like a module
├── desktop.test.js # functional test for you desktop app
├── settings.json # your app settings
└── squirrelEvents.js # handling of squirrel.windows events
Tak a look into the files. Most of them have meaningful comments inside.
Some files are described more in detail below..
settings.json
This is the main configuration file for your desktop app. Below you can find brief descriptions of the fields.
field | description |
---|---|
name | just a name for your project |
version | version of the desktop app |
projectName | this will be used as a name in the generated app's package.json |
devTools | whether to install and open devTools , set automatically to false when building with --production |
singleInstance | sets the single instance mode - more |
desktopHCP | whether to use .desktop hot code push module - more |
<sup>desktopHCPIgnoreCompatibilityVersion </sup> | ignore the .desktop compatibility version and install new versions even if they can be incompatible |
desktopHCPCompatibilityVersion | allows to override .desktop compatibility version |
squirrel.autoUpdateFeedUrl | <sup>DEPRECATED</sup> url passed to autoUpdater.setFeedUrl , more |
squirrel.autoUpdateFeedHeaders | <sup>DEPRECATED</sup> http headers passed to autoUpdater.setFeedUrl |
squirrel.autoUpdateCheckOnStart | <sup>DEPRECATED</sup> whether to check for updates on app start |
rebuildNativeNodeModules | turn on or off recompiling native modules, more |
webAppStartupTimeout | amount of time after which the downloaded version is considered faulty if Meteor app did not start - more |
exposeLocalFilesystem | turns on or off local filesystem exposure over url alias, more |
exposedModules | array of module names, exposes any renderer modules in Desktop.electron space, i.e. list webFrame here to acess it via Desktop.electron.webFrame in Meteor project code |
showWindowOnStartupDidComplete | normally, main window appears after Chromes did-stop-loading event, set this to true if you want to depened on Meteor's startupDidComplete event |
window | production options for the main window - see here |
windowDev | development options for the main window, applied on top of production options |
uglify | whether to process the production build with uglify |
plugins | meteor-desktop plugins list |
dependencies | npm dependencies of your desktop app, the same like in package.json , only explicit versions are supported - check here |
linkPackages | array of packages names you want to link (runs npm link <packageName> for every package listed) |
packageJsonFields | fields to add to the generated package.json in your desktop app |
builderOptions | electron-builder options |
builderCliOptions | specify additional electron-builder CLI options e.g for publishing artifacts |
packagerOptions | electron-packager options |
extract | array containing dependencies that should not be packed into asar (should not be needed as there is an automatic algorithm that will exclude all dependencies containing binary files) |
Applying different window options for different OS
You can use _windows
, _osx
, _linux
properties to set additional settings for different OS.
The default settings.json
is already using that for setting a different window icon for OSX.
Supported dependency version types
Only explicit versions are supported to avoid potential problems with different versions being
installed. It is no different from Meteor
because the same applies to adding Cordova
plugins.
You can however use a local path to a npm package - and that will not be forbidden. You need to keep track what has been distributed to your clients and what your current code is expecting when releasing a HCP update.
desktop.js
The desktop.js
is the entrypoint of your desktop app. Let's take a look what references we
receive in the constructor.
/**
* @param {Object} log - Winston logger instance
* @param {Object} skeletonApp - reference to the skeleton app instance
* @param {Object} appSettings - settings.json contents
* @param {Object} eventsBus - event emitter for listening or emitting events
* shared across skeleton app and every module/plugin
* @param {Object} modules - references to all loaded modules
* @param {Object} Module - reference to the Module class
* @constructor
*/
constructor({ log, skeletonApp, appSettings, eventsBus, modules, Module })
Some of the references are describe in detail below:
skeletonApp
This is a reference to the Skeleton App. Currently there are only two methods you can call.
isProduction
- whether this is a production build
removeUncaughtExceptionListener
- removes the default handler so you can put your own in place
eventsBus
This is just an EventEmitter
that is an event bus meant to be used across all entities running
in the Electron's
main process (.desktop
). Currently there are several events emitted on the
bus by the Skeleton App
that you may find useful:
event name | payload | description |
---|---|---|
unhandledException | emitted on any unhandled exceptions, by hooking to it you can run code before any other handler will be executed | |
beforePluginsLoad | emitted before plugins are loaded | |
beforeModulesLoad | emitted before internal modules and modules from .desktop are loaded | |
beforeDesktopJsLoad | emitted before desktop.js is loaded | |
beforeLocalServerInit | emitted before local http server starts | |
desktopLoaded | (desktop) | emitted after loading desktop.js , carries the reference to class instance exported from it |
afterInitialization | emitted after initialization of internal modules like HCP and local HTTP server | |
startupFailed | emitted when the Skeleton App could not start you Meteor app | |
beforeLoadFinish | emitted when the Meteor app finished loading, but just before the window is shown | |
loadingFinished | emitted when the Meteor app finished loading (also after HCP reload) | |
windowSettings | (windowSettings) | emitted with the settings that will be passed to BrowserWindow constructor - if needed the object can be modified in the event handler to override window settings from settings.json |
windowCreated | (window) | emitted when the BrowserWindow (Chrome window with Meteor app) is created, passes a reference to this window |
newVersionReady | (version, desktopVersion) | emitted when a new Meteor bundle was downloaded and is ready to be applied |
revertVersionReady | (version) | emitted just before the Meteor app version will be reverted (due to faulty version fallback mechanism) be applied |
beforfeLoadUrl | (port, lastPort) | emitted before webContents.loadURL is invoked, in other words just before loading the Meteor app; port - the port on which the app is served, lastPort - the port on which the app was served previously (when HCP is applied) |
beforeReload | (pendingVersion, containsDesktopUpdate) | emitted just before HCP reload |
moduleLoadFailed | (dirName, error) | emitted if a module failed to load |
childWindow | (openWindowHandlerResult, details) | emitted when child window is created. Gives possibility to reject or set up BrowserWindowConstructorOptions. For details see setWindowOpenHandler |
Your can also emit events on this bus as well. A good practice is to namespace them using dots,
like for instance myModule.initalized
.
modules
Object with references to other modules and plugins. Plugins can be found under their names i.e.,
modules['meteor-desktop-splash-screen]
.
Any module can be found under the name from module.json
.
Internal modules such as autoupdate
and localServer
are also there. You can also get reference to the desktop.js
from modules['desktop']
(note that the reference is also passed in
the desktopLoaded
event).
Module
Class that provides a way of defining API reachable by Meteor
app - more.
Writing modules
Module is just an encapsulated piece of code. Usually you would just provide certain type of
grouped functionality in it. You can treat it like a plugin to your desktop app.
One important rule is that you should not import files from the outside of your module directory
as this will cause you problems when writing tests.
You can always reach to other modules through modules
and you can as well add a module with
some common code or utils.
Every module lives in its own directory and has to have a module.json
file. Currently there are
only four fields there supported:
name
- name of your module, will be used as a key inmodules
objectdependencies
- list of npm depsextract
- list of files that should be excluded from packing into.asar
(e.g. executables, files meant to be changed etc)settings
- this object is passed assettings
field in the object passed to module constructor
extract
A little bit more about this. Files should be listed in a form of relative path to the module
directory without any leading slashes, for example extract: [ "dir/something.exe" ]
will be
matched to .desktop/modules/myModule/dir/something.exe
.
To path to your extracted files is added to your module settings
as extractedFilesPath
. So your module constructor can look like this:
import path from 'path';
export default class Desktop {
constructor({ log, skeletonApp, appSettings, eventsBus, modules, settings, Module }) {
this.pathToExe = path.join(settings.extractedFilesPath, 'dir/something.exe');
}
}
WARNING: currently the path of the file is not reconstructed meaning extract: [ "dir1/something.exe", "dir2/something.exe' ]
will try to put both something.exe
files to the same dir and that may fail or produce inconsistent result. So the bare file names without the path must be unique.
Hot code push support
Applications produced by this integration are fully compatible with Meteor
's hot code push
mechanism.
The faulty version recovery is also in place - more about it here. You can configure the timeout via
webAppStartupTimeout
field in settings.json
.
Versions are downloaded and served from userData
directory.
There you can find autoupdate.json
and versions
dir. If you want to return to first
bundled version just delete them.
You can also analyze autoupdate.log
if you are experiencing any issues.
Meteor.isDesktop
In your Meteor
app to run a part of the code only in the desktop context you can use Meteor.isDesktop
. Use it the same way you would use Meteor.isClient
or Meteor.isCordova
.
Accessing local filesystem in Meteor
Local filesystem is exposed under and url alias (similarly to Cordova integration).
This feature is disabled by default so you need to enable it first by setting
exposeLocalFilesystem
in your settings.json
to true
. Files are exposed under
/local-filesystem/<absolute-path>
url.
You can use some convenience methods:
Desktop.getFileUrl(absolutePath)
- returns an url to a fileDesktop.fetchFile(absolutePath)
- invokesfetch
on a file's url and returns it'sPromise
Accessing .desktop/assets
in Meteor
Assets are exposed over an url alias \___desktop\<asset-path>
.
So to display an image named test.png
from .desktop/assets
you should use a
\___desktop\test.png
url.
You can use some convenience methods:
Desktop.getAssetUrl(assetPath)
- returns an asset's urlDesktop.fetchAsset(assetPath)
- invokesfetch
on an asset's url and returns it'sPromise
Desktop
and Module
- communication between Meteor and Electron
Module
- desktop side
Use it to declare your API on the desktop side which you can later call from Meteor project.
this.module = new Module('myModuleName');
Documentation of the Module API - basically, it reflects ipcMain
.
The only two additions are the fetch
and respond
methods:
- fetch
(event, timeout = 2000, ...args)
- like send but returns aPromise
that resolves to a response, timeouts after 2000ms by default - call
(module, ...args)
-fetch
but without the need specify timeout - setDefaultFetchTimeout
(timeout)
- set the default timeout forfetch
within this module - respond
(event, fetchId, ...data)
is a convenient method of sending response toDesktop.fetch
. ThefetchId
is always the second argument received inon
.
Here is an usage example.
Desktop
- Meteor side
Documentation of the Desktop API - reflects partially ipcRenderer
<sup>*</sup>.
<sup>* sendSync
and sendToHost
are not available</sup>
Use it to call and listen for events from the desktop side.
The only difference is that you always need to precede arguments with module name. There are two extra methods:
- fetch
(module, event, timeout = 2000, ...args)
- like send but returns aPromise
that resolves to a response, timeouts after 2000ms by default - call
(module, event, ...args)
-fetch
but without the need specify timeout - setDefaultFetchTimeout
(timeout)
- set the default timeout forfetch
- respond
(module, event, fetchId, ...data)
is a convenient method of sending response toModule.fetch
. ThefetchId
is always the second argument received inon
. - sendGlobal - alias for
ipcRenderer.send
- if you need to send an IPC that is not namespaced
Example of send
and fetch
usage - here.
desktopHCP - .desktop
hot code push
experimental!
There is an experimental support for hot code push of the .desktop
directory.
It works similarly to the Meteor
's builtin one. It also produces a version
and
compatibilityVersion
to detect whether the update can be made.
In Meteor
whenever you change any of your Cordova
dependencies (add/remove/change version)
you will make an incompatible change meaning that a new version will not be hot code pushed.
The same applies here. In this case your desktop dependencies are npm packages.
To make it clear, npm packages are not hot code pushed - only contents of .desktop
are.
The compatibilityVersion
is calculated from combined list of:
- dependencies from
settings.json
- plugins from
settings.json
- dependencies from all modules in
.desktop/modules
- major version of
meteor-desktop
(X.Y.Z - only X is taken) - major version from
settings.json
(X.Y.Z - only X is taken).
Be aware that when it comes to linked packages (via linkPackages
in settings.json
) the
explicitly declared version (the one in settings.json
or modules) is taken into account, not the
actual one from package's package.json. The same applies to packages added from local paths.
Generally, it is a bad idea to build production app with linked/local packages. Changes in those will not trigger a compatibility version change so you migh accidentally push a new version with desktopHCP
that will not work.
How this works
Two Meteor plugins are added to your project - bundler and watcher. Bundler prepares the desktop.asar
which is then added to you project as an asset.
Watcher just watches for file changes and triggers project rebuilds.
Caveats
- desktop app needs to be restarted when a new bundle is applied
- the bundled desktop app goes over normal HCP mechanism meaning that a
desktop.asar
file will also be distributed to your mobile clients and cause unnecessary updates in case you only made changes in.desktop
- files that are excluded from
desktop.asar
(viaextract
settings in a desktop module) are not updated, nor checked for changes! - if you had errors (i.e. syntax) in
.desktop
which prevented startup, watcher might not work correctly and further changes in.desktop
will not trigger rebuilds, in that case you need to make any change inversion
field in thedesktop.version
to trigger rebuild (this file is in the root of your project) - this can be any change like just adding random char to the hash - after reload logs will no longer be shown in the console
How to write plugins
Plugin is basically a module exported to a npm package. module.json
is not needed and not taken
into account because name
and dependencies
are already in package.json
. Also you can not use
the extract
functionality as that only works in modules. Plugin settings
are set and taken
from the plugins
section of settings.json
. Here is an example of passing settings to splash
screen plugin.
While developing you will probably need to make use of linkPackages
in settings.json
, so that
your npm-packaged plugin would be linked instead of downloaded. However the advised approach is
to make the development test driven - meaning that you should make your tests the main way of
verifying whether the plugin does what it should.
meteorDependencies
in package.json
One extra feature is that you can also depend on Meteor packages through meteorDependencies
field in package.json
. Check out meteor-desktop-localstorage
for example.
A good practice when your plugin contains a meteor plugin is to publish both at the same version.
You can then use @version
in the meteorDependecies
to indicate that the Meteor plugin's
version should be equal to npm package version.
If you made a plugin, please let us know so that it can be listed here.
List of known plugins:
meteor-desktop-system-notifications
meteor-desktop-splashscreen
meteor-desktop-localstorage
(deprecated, do not use from 1.0.0
)
Squirrel autoupdate support (DEPRECATED)
Squirrel Window and OSX autoupdates are supported. So far the only tested server is
electron-release-server
and the
default url http://127.0.0.1/update/:platform/:version
provided in settings.json
assumes you
will be using it.
The :platform
and :version
tags are automatically replaced by correct values.
You can hook into Squirrel Windows events in squirrelEvents.js
in .desktop
.
More:
https://github.com/electron/electron/blob/master/docs/api/auto-updater.md
https://github.com/ArekSredzki/electron-release-server
Native modules support
This integration fully supports rebuilding native modules (npm packages with native node modules)
against Electron's
node
version. The mechanism is enabled by default.
Testing desktop app and modules
For unit tests you should not have problems with using electron-mocha.
For functional testing Spectron should be used.
There are two exemplary tests present in the default scaffold. Check them out as they have some
comments in them.
To run them you need to init functional test support by invoking:
npm run desktop -- init-tests-support
Two tasks should be added to your scripts
section: test-desktop
and test-desktop-watch
.
Feel free to run the tests with: npm run test-desktop
.
For testing modules there is a test suite available. It is used extensively in the plugins (splash screen & localstorage) tests so you can check there for more examples.
MD_LOG_LEVEL
MD_LOG_LEVEL
env var is used to set the logger verbosity. It is set to
ALL
by default but you can change it to any of INFO, WARN, ERROR, DEBUG, VERBOSE, TRACE
. You can also
select multiple levels joining them with a comma, for example: INFO,WARN
.
Packaging
npm run desktop -- package <ddp-url>
This produces a package using electron-packager
.
Package is produced and saved in .desktop-package
directory. You can pass options via packagerOptions
in
settings.json
.
Building installer
npm run desktop -- build-installer <ddp-url>
This packages and builds installer using electron-builder
.
Installer is produced and saved in .desktop-installer
directory. You can pass options via
builderOptions
in settings.json
.
If you do not pass any target platforms via --win
, --linux
or --mac
it will build for your
current platform. If at least one the platform is specified, the current platform will not be
added automatically. So if you want to build Windows and Mac at the same time, being on Mac,
you need to pass --win --mac
, not only --win
. To check what targets you can build on certain platform and what does it require
check Multi-Platform-Build
Please note that electron-builder
does not use electron-packager
to create a package. So the
options from packagerOptions
are not taken into account.
Building for linux
Currently there are some defaults provided only for Windows
and Mac
. If you want to build for
Linux
you need to add a linux
section in your builderOptions
and comply to these
requirements.
Building for Windows Store (AppX)
Change target: ["appx"]
in win
section of builderOptions
. In case of problems please refer to
electron-builder documentation.
Developing meteor-desktop
No matter which method below you choose, run npm run build-watch
in your local meteor-desktop folder before making changes to the code, if you want them reflected in Meteor apps that depend on the package.
Using devEnvSetup.js
To help you contribute, there is a development environment setup script. It also runs default tests.
This script assumes you have npm
, git
and meteor
available from the command line. Note that by default, the script will install packages in the parent directory of where it is, so it is recommended to clone meteor-desktop inside an empty dir.
mkdir meteor-desktop-dev && cd meteor-desktop-dev
git clone https://github.com/Meteor-Community-Packages/meteor-desktop.git
cd meteor-desktop
npm install
node devEnvSetup.js
Without using devEnvSetup.js
- Clone and install meteor-desktop as above
- From a clean Meteor project, install meteor-desktop from its local folder:
meteor npm i --save-dev /path/to/meteor-desktop
(doesn't work with npm link, tbc) - In your Meteor app's
package.json
:- Add a script
desktop
withMETEOR_PACKAGE_DIRS=/path/to/meteor-desktop/plugins node /path/to/meteor-desktop/dist/bin/cli.js
- Add
METEOR_PACKAGE_DIRS=/path/to/meteor-desktop/plugins
to thestart
script as well.
- Add a script
The last step is so that the desktop HCP Meteor packages are also taken from your local meteor-desktop repo.
Make sure to run Meteor with meteor npm start
rather than just meteor
.
Finally, follow the above "Quick start" steps (except the npm install) from your Meteor app.
Built with meteor-desktop
Built an app using meteor-desktop? File an issue or PR to list it here.
- Coygo - Multi-exchange cryptocurrency and digital asset trading tool
FAQ
How to disable
zip
building when usingbuild-installer
on OSX.
Add target: ["dmg"]
to mac
section of builderOptions
.
Changelog
is here