A browser based plugin simulation tool to aid development and testing of Cordova applications, used by taco-cli.
npm install -g taco-simulate
Use require('taco-simulate')
to launch a simulation via the API:
var simulate = require('taco-simulate');
simulate(opts);
Where opts is an object with the following properties (all optional):
- platform - Any Cordova platform that has been added to your project. Defaults to
browser
. - target - The name of the browser to launch your app in. Can be any of the following:
chrome
,chromium
,edge
,firefox
,ie
,opera
,safari
. Defaults tochrome
. - port - The desired port for the server to use. Defaults to
8000
. - dir - The directory to launch from (where it should look for a Cordova project). Defaults to cwd.
- nolivereload - A boolean. Set to true to disable live reload. Defaults to false.
- preparecss - A boolean. Set to true to force a
cordova prepare
when a CSS file changes during live reload. Ignored if live reload is disabled. Defaults to false.
Calling simulate()
will launch your app in the browser, and open a second browser window displaying UI (the simulation host) that allows you to configure how plugins in your app respond.
- Allows the user to configure plugin simulation through a UI.
- Launches the application in a separate browser window so that it's not launched within an iFrame, to ease up debugging.
- Allows user to persist the settings for a plug-in response.
- Allows plugins to customize their own UI.
- Reloads the simulated app as the user makes changes to source files (CSS, JS and HTML).
Note for live reload: Changes to CSS files are propagated to the running app without a full page reload. Changes to JS and HTML files trigger a full reload of the page.
This preview version currently includes built-in support for the following Cordova plugins:
- cordova-plugin-camera
- cordova-plugin-console
- cordova-plugin-contacts
- cordova-plugin-device
- cordova-plugin-device-motion
- cordova-plugin-dialogs
- cordova-plugin-file
- cordova-plugin-geolocation
- cordova-plugin-globalization
- cordova-plugin-media
- cordova-plugin-vibration
It also allows for plugins to define their own UI. To add simulation support to a plugin, follow these steps:
- Clone the
taco-simulate-server
git repository (git clone https://github.com/microsoft/taco-simulate-server.git
), as it contains useful example code (seesrc/plugins
). - Add your plugin UI code to your plugin in
src/simulation
. Follow the file naming conventions seen in the built-in plugins.
In your plugin project, add a simulation
folder under src
, then add any of the following files:
sim-host-panels.html
sim-host-dialogs.html
sim-host.js
sim-host-handlers.js
app-host.js
app-host-handlers.js
app-host-clobbers.js
sim-host-panels.html
This defines panels that will appear in the simulation host UI. At the top level, it should contain one or more
cordova-panel
elements. The cordova-panel
element should have an id
which is unique to the plugin (so the plugin
name is one possibility, or the shortened version for common plugins (like just camera
instead of
cordova-plugin-camera
). It should also have a caption
attribute which defines the caption of the panel.
The contents of the cordova-panel
element can be regular HTML, or the various custom elements which are supported
(see the existing plugin files for more details).
This file shouldn't contain any JavaScript (including inline event handlers), nor should it link any JavaScript files.
Any JavaScript required can be provided in the standard JavaScript files described below, or in additional JavaScript
files that can be included using require()
.
sim-host-dialogs.html
This defines any dialogs that will be used (dialogs are simple modal popups � such as used for the Camera plugin). At
the top level it should contain one or more cordova-dialog
elements. Each of these must have id
and caption
attributes (as for sim-host-panels.html
). The id
will be used in calls to dialog.showDialog()
and
dialog.hideDialog()
(see [taco-simulate-server/src/plugins/cordova-plugin-camera/sim-host.js]
(https://github.com/Microsoft/taco-simulate-server/blob/master/src/plugins/cordova-plugin-camera/sim-host.js)
for example code).
Other rules for this file are the same as for sim-host-panels.html
.
sim-host.js
This file should contain code to initialize your UI. For example � attach event handlers, populate lists etc. It should
set module.exports
to one of the following:
- An object with an
initialize
method, like this:
module.exports = {
initialize: function () {
// Your initialization code here.
}
};
- A function that returns an object with an
initialize
method. This function will be passed a single parameter �messages
� which is a plugin messaging object that can be used to communicate betweensim-host
andapp-host
. This form is used when the plugin requires thatmessages
object � otherwise the simple form can be used. For example:
module.exports = function (messages) {
return {
initialize: function () {
// Your initialization code here.
}
};
};
In both cases, the code currently executes in the context of the overall simulation host HTML document. You can use
getElementById()
or querySelector()
etc to reference elements in your panel to attach events etc. In the future,
this will change and there will be a well defined, limited, asynchronous API for manipulating elements in your
simulation UI.
sim-host-handlers.js
This file defines handlers for plugin exec
calls. It should return an object in the following form:
{
service1: {
action1: function (success, error, args) {
// exec handler
},
action2: function (success, error, args) {
// exec handler
}
},
service2: {
action1: function (success, error, args) {
// exec handler
},
action2: function (success, error, args) {
// exec handler
}
}
}
It can define handlers for any number of service/action combinations. As for sim-host.js
, it can return the object
either by;
- Setting module.exports to this object.
- Setting module.exports to a function that returns this object (in which case the messages parameter will be passed to that function).
app-host.js
This file is injected into the app itself (as part of a single, combined, app-host.js
file). Typically, it would
contain code to respond to messages from sim-host
code, and as such module.exports
should be set a function that
takes a single messages
parameter. It doesn't need to return anything.
app-host-handlers.js
This file is to provide app-host
side handling of exec
calls (if an exec
call is handled on the app-host
side,
then it doesn't need to be handled on the sim-host
side, and in fact any sim-host
handler will be ignored). The
format is the same as sim-host-handlers.js
.
app-host-clobbers.js
This file provides support for "clobbering" built in JavaScript objects. It's form is similar to app-host-handlers.js
,
expect that the returned object defines what you are clobbering. For example, the built-in support for the geolocation
plugin uses this to support simulating geolocation even when the plugin isn't present in the app (just like Ripple
does), by returning the following:
{
navigator: {
geolocation: {
getCurrentPosition: function (successCallback, errorCallback, options) {
// Blah blah blah
},
watchPosition: function (successCallback, errorCallback, options) {
// Blah blah blah
}
}
}
}
A messages
object is provided to all standard JavaScript files on both the app-host
and sim-host
side of things.
It provides the following methods:
messages.call(method, param1, param2 ...)
: Calls a method implemented on "the other side" (that were registered by
calling messages.register()
) and returns a promise for the return value, that is fulfilled when the method returns.
messages.register(method, handler)
: Registers a method handler, which can be called via messages.call()
.
messages.emit(message, data)
: Emits a message with data (scalar value or JavaScript object) which will be received by
any code that registers for it (in both app-host
and sim-host
).
messages.on(message, handler)
: Register interest in a particular message.
messages.off(message, handler)
: Un-register interest in a particular message.
Note that:
- All the above methods are isolated to the plugin � that is, they can only be used to communicate within the plugin's own code. For example, when you emit a message, it will only be received by code for the same plugin that registers to hear it. So different plugins can use the same method and message names without conflict.
- A method call is always sent from
app-host
tosim-host
or vice versa (that is, a call fromapp-host
can only be handled by a method registered onsim-host
, and vice versa). - Emitted messages, on the other hand, are sent both "locally" and across to the "other side".