147 lines
6.7 KiB
Markdown
147 lines
6.7 KiB
Markdown
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# Working on UI development
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The UI is presented from a single HTML page (index.html) and any number
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of Javascript files, css files, images, etc. These are "packed" together
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using [webpack](https://webpack.js.org).
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For ongoing development it is possible to have the UI running in a web
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browser using "hot loading". This means that as you make changes to source
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files, they will be detected, the webpack will be recompiled and generated
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and then the browser will be informed to reload things. In combination with
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the debugger built into modern browsers this makes for a reasonable process.
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For a production build, the same process is followed, except with different
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settings. In particular, no hot loading development server will be started
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and more effort is expended on packing and minimizing the components of
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the application as represented in the various "bundles". Read more about
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this in the webpack documentation.
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## Getting started
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Checkout the branch you want to work on and type
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$ yarn start
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This will pack and prepare a development setup. By default the development
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server that serves up the web page(s) will listen on
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[http://localhost:3000](http://localhost:3000) so you can direct your browser
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there.
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Make any changes to the source code as you desire (look at existing code
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for examples and typical style), and the browser will hot-load your changes.
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Often times you will make mistakes. Anything from a coding error (for which
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you can use the browser's debugger), or compilation breaking Javascript errors.
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The latter will often be reported as errors during the webpack assembly
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process, but some will show up in the browser console, or both.
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## Control and location of settings
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Much of the settings needed to put the UI together, run webpack etc. is
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located in a series of files that contain webpack configuration. These
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files all live in the "webpack" subdirectory. We will not explain all
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of them here, as you should rarely need to understand them, let alone
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modify them.
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What is worth mentioning is that the `package.json` file is configured
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to use a different webpack configuration for development vs. production
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builds. Both configurations depend on a shared configuration common to
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both.
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There are also some settings that control aspects of the MoonFire UI
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behavior, such as window titles etc. These settings are found in the
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`settings-nvr.js` file in the project root directory. They should be
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pretty self explanatory.
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The webpack configuration for all webpack builds is able to load the
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values from `settings-nvr.js` and then, if the file exists, load those
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from `settings-nvr-local.js` and use them to add to the configuration,
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or replace. You can take advantage of this to add your own configuration
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values in the "local" file, which does not get checked in, but is used
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to affect development, and production builds.
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## Special considerations for API calls
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The UI code will make calls to the MoonFire NVR's server API, which is
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assumed to run on the same host as the MoonFire server. This makes sense
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because that server is also normally the one serving up the UI. For UI
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development, however this is not always convenient, or even useful.
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For one, you may be doing this development on a machine other than where
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the main MoonFire server is running. That can work, but of course that
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machine will not be responding the the API calls. If the UI does not
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gracefully handle API failure errors (it should but development on that
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is ongoing), it may break your UI code.
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Therefore, for practical purposes, you may want the API calls to go to
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a different server than where the localhost is. Rather than editing the
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`webpack/dev.conf.js` file to make this happen, you should use a different
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mechanism. The reason for not modifying this file (unless the change is
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needed by all), is that the file is under source control and thus should
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not reflect settings that are just for your personal use.
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The manner in which you can achieve using a different server for API
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calls is by telling the development server to use a "proxy" for
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certain urls. All API calls start with "/api", so we'll take advantage
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of that. Create a the file `settings-nvr-local.js` right next to the standard
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`settings-nvr.js`. The file should look something like this:
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module.exports.settings = {
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devServer: {
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proxy: {
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'/api': 'http://192.168.1.232:8080'
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}
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}
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};
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This tells the development server to proxy all urls that it encounters
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requests for to the url specified. The way this is done is by taking the
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full URI component for the original request, and appending it to the string
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configured on the right side of the path to be rewritten above. In a standard
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MoonFire install, the server (and thus the API server as well), will be
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listening on port 8080 a the IP address where the server lives. So adjust
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the above for reach your own MoonFire instance where there is a server
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running with some real data behind it.
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### Issues with "older" MoonFire builds
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You might also have though to change the "/api" string in the source code
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to include the IP address of the MoonFire server. This would use the
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"right" (desirable) URLs, but the requests will fail due to a violation
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of the Cross-Origin Resource Sharing (CORS) protocol. If you really
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need to, you can add a configuration option to the MoonFire server
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by modifying its "service definition". We will not explain here how.
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## Changing development server configuration
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You can find our standard configuration for the development server inside
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the `webpacks/dev.conf.js` file. Using the technique outlined above you
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can change ports, ip addresses etc. One example where this may come in
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useful is that you may want to "test" your new API code, running on
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machine "A" (from a development server), proxying API requests to machine
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"B" (because it has real data), from a browser running on machine "C".
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The development server normally is configured to listing on port 3000
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on "localhost." (which would correspond to machine "A" in this example).
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However, you cannot use "localhost" on another machine to refer to "A".
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You may think that using the IP address of "A" works, but it doesn't
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because "localhost" lives at an IP address local to machine "A".
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To make this work you must tell the development server on host "A" to
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listen differently. You need to configure it to listen on IP address
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"0.0.0.0", which means "all available interfaces". Once that is in
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place you can use the IP address to reach "A" from "C". "A" will then
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send API requests on to "B", and present final UI using information
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from "A" and "B" to the browser on "C".
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Modify the local settings to something like this:
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module.exports.settings = {
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devServer: {
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host: "0.0.0.0",
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proxy: {
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'/api': 'http://192.168.1.232:8080'
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}
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}
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};
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