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Brackets Node Process: Overview for Developers

joelrbrandt edited this page Mar 1, 2013 · 5 revisions

Status: Implemented in Sprint 21. Document last updated 3/1/13.

Overview

Starting with Sprint 21, the Brackets has a Node.js process integrated into the shell. The purpose of this document is to give a brief overview of the architecture as well as pragmatic examples of how to develop for and debug code that leverages node.

For more information on why we've integrated Node in the way we have, take a look at Research: Node.JS Integration.

###API Stability

The API is expected to change dramatically over the next few sprints (starting with Sprint 22). Brave developers are encouraged to use this extensibility mechanism and give us feedback. However, things may break frequently.

We will message any API changes via the Brackets-Dev Google Group and update these docs accordingly.

Architecture

On both Mac and Windows, node runs as a separate child process of the main Brackets-shell process. The child process communicates with the shell via stdin/stdout (communication with the parent process should be kept to a minimum). The node process runs a simple http and websocket server on localhost at a randomly-assigned port, which are used to communicate with the client JS code.

Communication between the node process and client JS code is handled almost exclusively through websockets. The high-level protocol for communication is modeled after the Chromium Web Inspector remote debugging protocol (which is used by our Live Development code).

A major goal of the architecture of the node system is to keep "core" node code as small as possible. This code is responsible for launching the http and websocket servers, managing connections, and allowing extensions to register new commands. Because the core code is small and tied to specific APIs in the brackets shell, this code is in the brackets-shell repo. All "core" code lives in the "appshell/node-core" directory of the brackets-shell repo. An added benefit of this organization is that we get to use the phrase "node-core" a lot, which sounds like a great name for an 80s punk band.

The "useful" parts of the node process are implemented as "domains". (Note: this usage of the word "domains" is modeled after the web inspector usage, not after the Node.js usage. Node.js domains are very different.) Domains define commands and events that can be executed by the client. When a client connects, it can retrieve a list of all registered domains by making an HTTP request to the "/api" path. (I.e., by requesting http://localhost:port/api). This returns a JSON representation of the current API.

On the client side, a connection to the Node server is handled by the NodeConnection class inside src/utils/NodeConnection.js. Upon connection, this class automatically requests the API and constructs wrapper functions that make calling commands, receiving events, and so-forth straightforward. Suppose we have a connection to node stored in an object pointed to by the variable name _nodeConnection. This object will have a property named "domains" which contains functions that wrap commands. In the usage example below, we define a domain called "simple", and a command in that domain called "getMemory". This command can be accessed at _nodeConnection.domains.simple.getMemory. Calling this function will return a promise that will resolve with the result, or reject with an error message.

The connection interface also supports events coming from node. (One example of this is log events.) Events are registered using the registerEvent command in the DomainManger, and emitted using the emitEvent. On the client side, events can be listed for using the standard jQuery event system on instances of the NodeConenction class. So, to listen for log events, we can do:

$(_nodeConnection).on("base.log", function (evt, level, timestamp, message) {
    console.log("[node] %s %s %s", level, timestamp, message);
});

As of right now, Brackets client code automatically registers as a listener for log events and forwards them to the client console, prefixed with "[node-(level) (timestamp)]".

As with almost all things JS, everything here is asynchronous. Here, there there are two different sources of asynchrony to consider. First, communication between the client and node is always asynchronous. Asynchrony on the client side is handled entirely through jQuery promises. Behind the scenes, NodeConnection assigns message IDs to each message sent, maps responses to those original IDs, and resolves appropriate promises that were returned at command call time.

The second source of asynchrony is entirely on the node side: any single command that node executes could be asynchronous (or, it could be synchronous). The ConnectionManager and DomainManager on the node side handle this asynchrony. (See executeCommand in DomainManager.js.) Commands that are asynchronous on the server side are registered with the "isAsync" parameter of registerCommand set to true. Such commands are called with an automatically-constructed "errback" callback (a function with a Google Closure type of {function(err:?string, result:*}). We use errbacks instead of Promises on the node side because most core node modules use errbacks.

Usage Example

Here we walk through how to implement a very simple domain that can be accessed from the client. This domain allows client code to retrieve system memory usage information.

The entire example is available as a Brackets extension at https://github.com/joelrbrandt/brackets-simple-node

Step 0: Setting up the extension.

A brackets extension lives in a single folder, and its entry point is main.js. By convention (but not by necessity), we put all node code in a directory called 'node'.

Note on third-party modules: Convention recommends putting any third-party modules inside a "node_modules" directory that lives inside the "node" directory. For development, node modules can be installed through npm by putting a "package.json" file in the "node" directory and running npm install from inside that directory. By doing this (and adding "node/node_modules" to your .gitignore) you can avoid checking third party code into your repo. For distribution, the actual bits of any third-party modules should be bundled in to the zip. (This is recommended practice in the node community to ensure that all end users get the same bits. See http://www.futurealoof.com/posts/nodemodules-in-git.html )

Step 1: Implementing the domain.

All of our node code will live in a file called "node/SimpleDomain.js". The first thing we need to do in this file is require the built-in libraries we'll be using:

var os = require("os");

Next, we need to implement a command handler that will actually get the data we want.

/**
 * @private
 * Handler function for the simple.getMemory command.
 * @return {{total: number, free: number}} The total and free amount of
 *   memory on the user's system, in bytes.
 */
function cmdGetMemory() {
    return {total: os.totalmem(), free: os.freemem()};
}

When a domain gets registered, the DomainManager calls an init function (if one exists). We need to write our init function that will actually register the command we just created.

When we register a command, we can optionally pass in documentation. This documentation isn't actually used by node in any way. But, it is output through the "/api" call and could be used to actually build human-readable documentation that is (hopefully) in sync with the code. The last three parameters to registerCommand are documentation parameters.

/**
 * Initializes the test domain with several test commands.
 * @param {DomainManager} DomainManager The DomainManager for the server
 */
function init(DomainManager) {
    if (!DomainManager.hasDomain("simple")) {
        DomainManager.registerDomain("simple", {major: 0, minor: 1});
    }
    DomainManager.registerCommand(
        "simple",       // domain name
        "getMemory",    // command name
        cmdGetMemory,   // command handler function
        false,          // this command is synchronous
        "Returns the total and free memory on the user's system in bytes",
        [],             // no parameters
        [{name: "memory",
            type: "{total: number, free: number}",
            description: "amount of total and free memory in bytes"}]
    );
}

Finally, we need to actually export this init function so the DomainManager can call it.

exports.init = init;

That's it! The domain is now implemented. Note that in the full version in the github repo mentioned earlier, the entire file is wrapped in an anonymous function that is immediately called. This is so we can add the "use strict" pragma once. There's no other significance of that code

Step 2: Implementing the client code

Our client code is simple, too: At appReady time, our code will:

  1. Connect to node
  2. Load the domain we just created in the previous step
  3. Call the logMemory command that we just created, and log the data to the console

Of course, this is marginally complicated because every step is asynchronous. To make the code cleaner, we start by defining a helper "chain" function that chains together promise-returning functions.

// Helper function that chains a series of promise-returning
// functions together via their done callbacks.
function chain() {
    var functions = Array.prototype.slice.call(arguments, 0);
    if (functions.length > 0) {
        var firstFunction = functions.shift();
        var firstPromise = firstFunction.call();
        firstPromise.done(function () {
            chain.apply(null, functions);
        });
    }
}

Note that this is a simple chain helper, not a robust chain helper, and is merely present to make the rest of the code simpler.

Next, we need setup our node connection. We start by getting the NodeConnection module:

NodeConnection = brackets.getModule("utils/NodeConnection");

And then by making a new connection object:

var nodeConnection = new NodeConnection();

Now, we need some helper functions to do the connection, domain loading, and command calling:

// Helper function to connect to node
function connect() {
    var connectionPromise = nodeConnection.connect(true);
    connectionPromise.fail(function () {
        console.error("[brackets-simple-node] failed to connect to node");
    });
    return connectionPromise;
}

// Helper function that loads our domain into the node server
function loadSimpleDomain() {
    var path = ExtensionUtils.getModulePath(module, "node/SimpleDomain");
    var loadPromise = nodeConnection.loadDomains([path], true);
    loadPromise.fail(function () {
        console.log("[brackets-simple-node] failed to load domain");
    });
    return loadPromise;
}

// Helper function that runs the simple.getMemory command and
// logs the result to the console
function logMemory() {
    var memoryPromise = nodeConnection.domains.simple.getMemory();
    memoryPromise.fail(function (err) {
        console.error("[brackets-simple-node] failed to run simple.getMemory", err);
    });
    memoryPromise.done(function (memory) {
        console.log(
            "[brackets-simple-node] Memory: %d of %d bytes free (%d%)",
            memory.free,
            memory.total,
            Math.floor(memory.free * 100 / memory.total)
        );
    });
    return memoryPromise;
}

Each of the above functions returns a promise (because each call to NodeConnection is asynchronous and promise-returning). So, we can easily chain them together.

// Call all the helper functions in order
chain(connect, loadSimpleDomain, logMemory);

That's it! There is no step 3! (since we started at step 0...)

Note that there are a few more non-node-related things you need to do to make your extension work. Check out the full source at https://github.com/joelrbrandt/brackets-simple-node

Other Examples

The "StaticServer" extension in "src/extensions/default/StaticServer" in the main Brackets repo is a more complicated example.

How to Debug

Debugging domains is fairly straightforward. Debugging the node core launching process is much more complicated.

Standard debugging

To debug, you will need to start by installing node and node-inspector. Node can be installed from http://nodejs.org and node inspector can then be installed with npm install -g node-inspector.

Once these are installed, do the following:

  1. Launch Brackets
  2. Enable node debugging from the "Debug" menu
  3. Launch node-inspector
  4. Node inspector will print out a URL to go to for debugging. On some machines, you may need to replace "0.0.0.0" with "localhost" in the url.
  5. Set your breakpoints and call your code.

There are some important caveats in debugging. Read the "Common 'Gotchas'" below!

Debugging the startup process

If you need to debug the launch process, start by opening "Launcher.js" in node-core. As a first pass, try setting the LOG_FILENAME_ON_LAUNCH variable to an absolute path that you have write-access to. See if you get the information you need in this log file.

If that doesn't work, set DEBUG_ON_LAUNCH to true. Then, run Brackets (which launches node-core). The debugger will automatically be enabled. Connect to it with node-inspector, set your breakpoints, and then call the globally-defined function debugLaunch from the console. This will start the actual launch routine asynchronously, and you'll hit your breakpoints.

Important: It is very likely that you will get abandoned Brackets-node processes when doing this. Read the "Common 'Gotchas'" below! Failure to pay attention to this will cause massive confusion.

Common "Gotchas"

  • Abandoned Node process during debugging -- In order to figure out when to end its process, Node pays attention to what's happening on it's stdin and stdout pipes. If you hit a breakpoint while debugging and then never resume, Node won't pay attention to its pipes. If you then quit Brackets, the Node process will get abandoned.

    If this happens, the only way to end the process is to use pkill Brackets-node / Activity Manager / Task Manager to kill the process. Note that this should only happen to developers, not to end users.

    Making matters worse, while this abandoned process sticks around, it will hold on to the debugging port. This means that if you don't realize you have an abandoned process and try to debug another Brackets-node process, you'll have a bad time.

  • You cannot debug code that is called synchronously from the console in node-inspector -- That is, if you set a breakpoint in your global function "foo" and call "foo" from the console, the debugger will not stop at the breakpoint.

    A simple workaround is to do process.nextTick(foo)

  • Must restart Node process if you make code changes -- Reloading the Brackets window does not restart the Node process. So, if you make changes to both client and node code, you have to reload Brackets and restart Node. This can be done from the Debug menu.

  • All extensions share the same "domain" space in node, so use unique names -- If one extension loads a domain called foo, every other extension will have access to that domain. This can be advantageous, but it means that unique names are necessary to avoid collisions.

Future Work

  • Linux -- Work with community to integrate into Linux shell

  • Implement "safe mode" in node core -- It is easy to write a domain that continually crashes Node. Right now, if we get two crashes within 5 seconds, we do not restart the node process. The risk here is that the user will install an extension that repeatedly crashes node, parts of Brackets will become unusable. For the things we have implemented now, this isn't a huge problem. But, if we start using node for filesystem access, that means we could get into a state where the user's node process crashes and he or she can't save their open documents.

    A fix for this would be to implement a "safe mode" in node core that doesn't allow registering of new domains. We would only load known-good domains (e.g. a filesystem domain). On any unintended crash/restart, we would enter this safe mode.

  • Remove auto-reconnect / auto-reload-domains from NodeConnection -- This code seems to work great, and has unit tests that seem to consistently pass. But it's really complicated, which means it's more likely to have bugs. If we go to a safe mode, we might be able to remove this logic. (But maybe not: We want intended reloads that happen during the development process to work properly.)

  • Improve the event infrastructure -- Right now, we send all events to every connection. We could instead have connections register for events they care about so that we don't transfer unwanted data over the websocket.

  • Figure out a way to transfer binary data very quickly -- Right now, the safest way to transfer binary data over the websocket is to base64 encode it. Ugh. We don't actually use binary data in Brackets right now, so this isn't a problem. But it could be soon...

  • Use named pipes for communication with parent process -- Right now, we're using stdin/stdout, which was easy but is not ideal. This would also allow us to move to overlapped reads on Windows and would make it cleaner to capture crash debugging info in syslogs.

  • Add more infrastructure around preventing abandoned processes -- Upon successful launch/closing, the shell could check for abandoned Brackets-node processes and kill them.

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