What is CouchApp?

What the HTTP is CouchApp?

This blog post is in response to a lot of well-deserved confusion in the community around CouchApps. We haven’t been clear enough in the past (either in technical description or in the notion of the project). I hope to change all that (with your help). This is just the beginning.

The Basics

A CouchApp is just a JavaScript and HTML5 app that can be served directly to the browser from CouchDB, without any other software in the stack. There are many benefits (and some constraints) to doing it this way. The first section of this article will address these tradeoffs.

In the bad old days (2008 and earlier), if you wanted to write a dynamic database-backed web application, you had to have an architecture that looked like a layer cake:

Browser (UI and links between pages)
-------------- HTTP ---------------
Application server (business logic, templates, etc)
--------- custom binary -----------
Persistence: MySQL, PostgreSQL, Oracle

 

In fact, the bad old days are still with us, as most applications still rely on fragile custom code, running in an application server like Ruby on Rails, Python’s Django, or some kinda Java thing. The pain-points of the 3 tier architecture are well known: application developers must understand the concept of shared-nothing state, or else clients can see inconsistent results if they are load balanced across a cluster of app servers. The application server is usually a memory hog. And at the end of the day, when you’ve finally gotten the app layer to horizontal scalability, it turns our that your database-tier has fatal scalability flaws…

CouchDB is an HTTP server, capable of serving HTML directly to the browser. It is also a database designed from the ground up for horizontal scalability. Did I say silver bullet? ūüėČ (Of course it is not a silver bullet — if you can’t fit your app into CouchDB’s constraints, you’ll still have scaling issues.) If you can build your app¬†with the grain¬†of CouchDB’s APIs, then you can piggyback on all the work¬†otherpeople¬†have done to¬†scale.

The fact is, 2-layer applications are simpler:

Browser (UI and links between pages)
-------------- HTTP ---------------
CouchDB (persistence, business logic, and templating)

Because CouchDB is a web server, you can serve applications directly the browser without any middle tier. When I’m feeling punchy, I like to call the traditional application server stack “extra code to make CouchDB uglier and slower.”

Aside from simplicity and the scalability that comes with it, there is another major benefit to creating a 100% pure CouchApp:Replication.¬†When your app is hosted by just a CouchDB, that means it can be run from¬†any¬†CouchDB, with no need to set up complex server-side dependencies. When your app can run on¬†any¬†CouchDB, you are free to take advantage of CouchDB’s killer feature: replicating the app and the data anywhere on the network.

Have you ever been frustrated by a slow website? Filling out forms and waiting even a few seconds for the response can be infuriating. Many users will hit the submit button over and over again, compounding whatever performance issues that are effecting them, while introducing data integrity issues as well. Google, Facebook, and other large competitive web properies know that perceived latency drives user engagement like nothing else, and they invest huge sums to make their sites seem faster.

Your site can be faster than theirs, if you serve it from localhost. CouchDB makes this possible. Here are installers for OSX, Windows, and Linux and you can install CouchDB on Android here.

The take-home message from this section is: CouchDB can scale. If your app is served by raw CouchDB, it can scale just the same. Also, there’s no server faster than the server running on your local device. And fast is what matters for users.

In the next section we’ll see what it takes to get your app to be served directly from CouchDB, and what you can (and can’t) do.

CouchDB’s built-in programming model

The CouchDB API is full featured and applicable to a lot of use cases. I can’t possible go in-depth here. Instead I’ll focus only on the broad outline, and on what is useful and necessary for CouchApps. If you want to learn more, check out¬†the CouchDB wiki¬†or the¬†free CouchDB book.

The first thing to understand about CouchDB is that the entire API is HTTP. Data is stored and retrieved using the protocol your browser is good at. Even¬†the CouchDB test suite¬†is written in JavaScript and executed from the browser.¬†It’s all just HTTP.

HTML Attachments

A common question I get from people starting to write Ajax apps using CouchDB, is “when I try to query the CouchDB with jQuery, it doesn’t work.” Usually it turns out that they have an index.html file on their filesystem, which is attempting to do an Ajax call against the CouchDB server. After I explain to them¬†the same origin security policy, they start to understand this this means CouchDB needs to serve their HTML (rather than loading it in the browser direct from the filesystem).

CouchDB documents may have¬†binary attachments.¬†The easiest way to add an attachment to a document is via Futon. We’ll do that later in this blog post.

So, the simplest possible CouchApp is just an HTML file, served directly from CouchDB, that uses Ajax to load and save data from the CouchDB.

Map Reduce queries

What sets CouchDB apart from a simple key value store like Memcached or¬†Amazon S3, is that you can query it by building indexes across the stored objects. You do this by writing JavaScript functions that are passed each of your documents, and can pick from them a set of keys under which you’d like to locate them.

So for a blog post, you might pick out all the tags, and make keys like [tag, doc.created_at]. Once you have a view like that, you can easily get a view of all your blog posts with a given tag, in chronological order, no less. By adding the reduce operator _count you can also see how many blog posts are tagged "foo" or whatever.

I’m not gonna try to teach you all about views here. Try the¬†CouchDB book’s guide to views, the¬†wiki¬†and this¬†chapter on advanced views.

Server Side Validations

The second thing people usually ask when they start to grok the CouchApp model, is “How do I keep people from destroying all my data? How do I ensure they only do what they are allowed to do?” The answer to that is¬†validation functions. In a nutshell, each time someone saves or updates a CouchDB document, it is passed to your validation function, which has the option to throw an error. It can either throw¬†{"forbidden" : "no matter what"}¬†or¬†{"unauthorized" : "maybe if you login as someone else"}¬†where, of course, you are free to craft your own messages. If the function doesn’t have any errors, the save is allowed to proceed.

Rendering Dynamic HTML

After a new user understands validation functions, they have begun to see that perhaps CouchDB / CouchApps is a good candidate for their application. But maybe something is missing… Search engines don’t treat Ajax applications with the same respect they do static HTML applications. Also, a fair proportion of users have JavaScript disabled, or are using a screen-reader type application, which may not understand Ajax.

These are all great reasons your application should ship the basic content of a page as real-deal HTML. Luckily, CouchDB has an answer to that as well.

Show functions allow you to transform a document GET from JSON into the format of your choice. On this wiki application the main wiki content is rendered as server-side HTML, using a show function. You can also use a show function to provide an XML, CSV, or even PNG version of your original document. Some folks also use it to filter security-sensitive fields from a JSON document, so that only public data is available to end-users.

List functions are the analog of show functions, but for view results. A view result is just a long list of JSON rows. A list function transforms those rows to other formats. Here is the JSON view of recent posts on my blog, and here is the HTML page that results from running that same view through a list function.

We added these capabilities to CouchDB because we knew that without the ability to serve plain-old HTML, we wouldn’t be completely RESTful.

Rounding out this group, is the ability to accept plain HTML form POSTs. (And other arbitary input). For that, CouchDB uses update functions, which can take arbitrary input and turn it in to JSON for saving to the database.

Pretty URLs

“All well and good”, you may say, “but I can’t really suggest to my clients that their website should have URLs likehttp://jchrisa.net/drl/_design/sofa/_list/index/recent-posts?descending=true&limit=5!”

I used to respond with skepicism to such claims,¬†like a total moaf. But I’ve mended my ways, and seen the light. It also didn’t hurt thatBenoit¬†committed an¬†awesome rewriter¬†to CouchDB, so we can provide nice pretty URLs like¬†/posts/recent¬†instead of the above mess.

Realtime Updates

Lastly, something folks don’t usually ask for, but which is insanely useful:¬†realtime notification about changes to the database.Essentially, CouchDB keeps a record of the order in which operations were applied to a given database. This way, you can always ask it “what’s happened since the last time I asked?”

CouchDB implements this with the _changes feed, a JSON HTTP response, which sends a single line, whenever something happens to the database. Since CouchDB is implemented in Erlang, it is not expensive for it to hold open tens of thousands of concurrent connections.

The _changes feed can be used to power realtime updates to a browser UI. For instance, this TODO manager updates in realtime whenever a team member adds or updates a TODO item.

The _changes feed is integral to CouchDB itself (not just a bolted on feature), as it is used to power to replication itself. The replicator listens to the changes feed of the source database, and writes changes to the target database. This is what allows CouchDB to keep 2 database in sync in near realtime.

You can also use¬†_changes¬†to drive asynchronous business logic. There will be a webcast in August on this topic, as well as a blog post with more details, from Couchio’s¬†Jason Smith.

Filtered replication

One last part of the programming model. You can write a JavaScript function that decides whether to include a given change in the_changes¬†feed. The possibilities are endless. See¬†Jan’s blog post on new replication features¬†for some interesting use-cases that might stimulate your imagination.

Hello World

Now that I’ve described the theory of CouchApps to you, let’s dig into the practice. Before we get into the expert toolchain, let’s see what we can do with a little bit of HTML. I’ll assume you have a CouchDB running at localhost. If you don’t, install one now (or signup for hosting at¬†http://couch.io/get).

Quick, create a file called test.html, and put this in it:

<!DOCTYPE html>
<html>
 <head>
<title>Tiny CouchApp</title>
 </head>
 <body>
  <h1>Tiny CouchApp</h1>
  <ul id="databases"></ul>
 </body>
 <script src="/_utils/script/jquery.js"></script>
 <script src="/_utils/script/jquery.couch.js"></script>
 <script> $.couch.allDbs({ success : function(dbs)  { dbs.forEach(function(db)
 { $("#databases").
       append('<li><a href="/_utils/database.html?'+db+'">'+db+'</a></li>');
 });
 }
 }); </script>
</html>

Now browse to your CouchDB’s Futon at¬†http://localhost:5984/_utils¬†and create a database called “whatever”. Now visit that database, and create a document. You will be creating what is known as a, “Design Document”, which is a special kind of document in CouchDb that contains application code. The only thing you need to know now is to set the document id to something that begins with “_design/” and save it. Now click the button labeled “Upload Attachment” and choose the index.html file you just created, and upload it. Now click the link in Futon for index.html, and you should see a list of the databases on that CouchDB instance.

You gotta admit there was nothing to that.

Make it easy it with the CouchApp toolchain

Now that we’ve seen how you can build a basic CouchApp with the same set of tools you’d use to do plain-old HTML, CSS, and JavaScript development, let’s learn how the experts (and the lazy!) do it.

Uploading each changed file to CouchDB via Futon would get tedious quick. Alternatively, you could download the entire design document as JSON, and edit that JSON in your editor… but keeping track of proper JSON escaping and formattng is a task better done by a machine.

Back in the early days of CouchDB, I solved this problem with a Ruby script that would update my map and reduce function from a folder. This way I could open the folder in TextMate, and get all the proper JavaScript syntax highlighting. To deploy the changes I’d run the Ruby script, and CouchDB would have my new Map Reduce views.

That would have been the end of the story, except that for some reason, many people had boatloads of trouble installing the Ruby script. I may have been suffering from a bit of “grass is always greener,” because my reaction was to port the Ruby stuff to Python (with a little help from my friends), which I thought would have a cleaner install story. (It almost does!)

Since then the Python CouchApp script has grown in capability. It boasts the ability to push edits in real time, import vendor modules, and more. Benoit Chesneau keeps it up to date pretty agressively, it just got some GeoCouch features today.

So let’s use it!

Installing CouchApp

There is a lot of documentation already out there about how to install the CouchApp toolchain. I’ll just link to it. The basic installation instructions are¬†in the README¬†and in¬†the CouchDB Book.

Here are some hints about installing on Windows.

Once you have CouchApp installed, the basic usage is simple. From within your application directory, issue the following command.

couchapp push . http://myname:mypass@localhost:5984/mydb 

Replace¬†myname¬†and¬†mypass¬†with those you set up on your CouchDB using Futon. If you didn’t setup an admin password on Futon, you should do that — until you do, your CouchDB can be administered by anyone. Also, if you are running a CouchDB in the cloud, you’ll need to replace¬†localhost:5984¬†with something like¬†mycouch.couchone.com. Also, of course,¬†mydb¬†should be changed to the name of the database you want your program to live in.

All this is coverered in great detail in the CouchApp README and the book, as linked above.

The Standard Library

We’ve made it nearly to the end of this post. The last thing to cover are the various JavaScript libraries for making CouchApps. I won’t try to document them, just name them, and say a little about their purpose.

I have a mental plan to clean up and consolidate some of these libraries, so they are more modular. This should make it so that CouchApp code loads faster, among other things.

The jQuery CouchDB Client API

We already used jquery.couch.js in the Tiny CouchApp example HTML above. This is the basic CouchDB library for jQuery. It handles things like saveDoc and openDoc, view queries, replication requests, etc. Essentially it wraps the CouchDB API in Ajaxy goodness. This library ships as part of CouchDB, as it is used by Futon.

The CouchApp Code Loader

The CouchApp toolchain ships with¬†jquery.couch.app.js, which is tasked with one job — loading your application code into the page. This CouchApp jQuery plugin loads your design document (the JSON saved as a result of a¬†couchapp push¬†command), so that the browser has access to your view definitions, show and list functions, etc. It is invoked like so:

$.couch.app(function(app) {
// app.db is your jquery.couch.js object
// app.require("lib/foo") gives you access to libraries });

Essentially, all this function does, is inspect the page you are on, determine how to load the design document, load it, and gives you an object that references it and allows you to require libraries from it. (There is some legacy featuritis in there, but I’m working to remove that.)

Evently

Evently is a convenience library I wrote for myself. Essentially it does two things: One is it allows you to write complex jQuery code in a declarative fashion. This makes code reuse easier, by avoiding the tangled web of dependencies you often see in deeply nested jQuery code. The other is that Evently knows a bunch of CouchDB tricks, so you can get it to run a view query and hand you the results, without having to write nested callbacks in the Ajax style.

As a coincidence, Evently’s declarative structures happen to map onto JSON objects nicely. It also happens that¬†couchapp push¬†maps filesystem structures to JSON code as well. It was only after I’d written lots of Evently code all in one file, that I realized I could nest the JSON structures into a tree of folders and JavaScript files.

People think that Evently and the deeply-nested folders and files things must go together, but it is just one way of doing things. For moreEvently docs, visit this link.

Pathbinder

Pathbinder makes it so you can assign events to be triggered when the hash part of the browser URL changes. Evently knows how to use it, so you can declaratively link paths and events. Pathbinder docs are here.

Examples

There is a list of CouchApps here

Reference : http://couchapp.org/page/what-is-couchapp

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