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HTTP request dispatch and session manager

Woomera #

Introduction #

Woomera is a Dart package for implementing Web servers.

It is used to create server-side Dart programs that function as a Web server. A Web server listens for HTTP requests and respond to them with HTTP responses: a simple task, but one that can get complicated (and difficult to maintain) when the program has many different pages to display, handle errors and maintain state. This package aims to reduce that complexity.

Main features include:

  • URL pattern matching inspired by the Sinatra Web framework;
  • Pipelines of patterns to allow sophisticated processing, if needed;
  • Exception handling to ensure error pages are reliably generated;
  • Session management using cookies or URL rewriting;
  • Responses can be generated into a buffer;
  • Responses can be read from a stream of data.

This following is a tutorial which provides an overview the main features of the package. For details about the package and its advanced features, please see the API documentation.

Tutorial #

1. A basic Web server #

1.1. Overview

This is a basic Web server that serves up one page. It creates a server with one response handler.

import 'dart:async';
import 'dart:io';

import 'package:woomera/woomera.dart';

Future main() async {
  // Create and configure server

  var ws = new Server();
  ws.bindAddress = InternetAddress.ANY_IP_V6;
  ws.bindPort = 1024;

  // Register rules

  var p = ws.pipelines.first;
  p.get("~/", handleTopLevel);

  // Run the server

  await ws.run();
}

Future<Response> handleTopLevel(Request req) async {
  var name = req.queryParams["name"];
  name = (name.isEmpty) ? "world" : name;

  var resp = new ResponseBuffered(ContentType.HTML);
  resp.write("""
<html>
  <head>
    <title>Woomera Tutorial</title>
  </head>
  <body>
    <h1>Hello ${HEsc.text(name)}!</h1>
  </body>
</html>
""");
  return resp;
}

The most important feature of the package is to organise response handlers, so that HTTP requests can be matched to Dart code to process them and to generate a HTTP response.

A Server has of a sequence of pipelines, and each pipeline has a sequence of rules. Each rule consists of the HTTP method (e.g. GET or POST), a path pattern, and a request handler method.

When a HTTP request arrives, the pipelines are search (in order) for a rule that matches the request. A match is when the HTTP method is the same and the pattern matches the request URL's path. If found, the corresponding handler is invoked to produce the HTTP response. If no rule is found (after searching through all the rules in all the pipelines), the resource is treated as not found.

1.2. Importing the package

Any program that uses the framework must first import the package:

import 'package:woomera/woomera.dart';

1.3. The server

For the Web server, a Server object is created and configured for the TCP/IP address and port it will listen for HTTP requests on.

var ws = new Server();
ws.bindAddress = InternetAddress.ANY_IP_V6;
ws.bindPort = 1024;

Typically, when deployed in production, the bind address will be InternetAddress.LOOPBACK_IP_V6 (the default) and the service is running behind a reverse Web proxy (e.g. Apache or Nginx). The service will only be accessed from the same host it is running on.

For testing, the above example sets it to InternetAddress.ANY_IP_V6, so the service can be accessed from any external machine.

A port number 1024 or greater should be used, because the lower port numbers are require special permission to use.

1.4. The pipeline

The Server (by default) automatically creates one pipeline, since that is the most common scenario. The pipelines member is a List of ServerPipeline objects, so retrieve it from the server using something like:

var p = ws.pipelines.first;

1.5. The rules

Rules are registered with the pipeline. The get method on the ServerPipeline object will register a rule for the HTTP GET method, and the post method will register a rule for the HTTP POST method. The first parameter is the pattern. The second parameter is the handler method: the method that gets invoked when the rule matches the HTTP request.

p.get("~/", handlerTopLevel);

The tilde ("~") indicates this is relative to the base path of the server. The default base path is "/". See the API documentation for information about changing the base path. For now, all paths should begin with "~/".

1.6. Running the server

After configuring the [Server], start it using its run method. The run method returns a Future that completes when the Web server finishes running; but normally a Web server runs forever without stopping.

await ws.run();

1.7. Request handlers

A request handler method is used to process the HTTP request to produce a HTTP response. It is passed the HTTP request as a Request object; and it returns a HTTP response as represented by a Response object.

There are different types of Response objects. The commonly used one for generating HTML pages is the ResponseBuffered. It acts as a buffer where the contents is appended to it using the write method. After the response is returned from the request handler, the framework uses it to generate the HTTP response that is sent back to the client.

This first example request handler returns a simple HTML page.

Future<Response> handleTopLevel(Request req) async {
  var name = req.queryParams["name"];
  name = (name.isEmpty) ? "world" : name;

  var resp = new ResponseBuffered(ContentType.HTML);
  resp.write("""
<html>
  <head><title>Example 1</title></head>
  <body>
    <h1>Hello ${HEsc.text(name)}!</h1>
  </body>
</html>
""");
  return resp;
}

The "name" query parameter is retrieved from the request. If it is the empty string, a default constant value is used instead. The square bracket operator returns the empty string if the parameter does not exist.

The name is used in the HTML heading. The HEsc.text method is used to escape any special characters, to prevent accidential or malicious HTML injection.

When a Web browser sends a request to the site's URL the HTML page is returned. In this document, the example URLs will show the hostname of the server as "localhost"; if necessary, change it to the hostname or IP address of the machine running your server.

Run the server and try visiting:

The last example demonstrates the importance of using HEsc.text to escape values.

Also visit something like http://localhost:1024/nosuchpage and the basic built-in error page appears. To customize the error page, a custom exception handler is used.

1.8. Exception handler

An exception handler processes any exceptions that are raised: either by one of the request handlers or by the framework.

It is similar to a request handler, because it is a method that returns a Response object. But it is different, because it is also passed the exception and sometimes a stack trace.

When setting up the server, set its exception handler in main (anywhere before the server is run):

ws.exceptionHandler = myExceptionHandler;

And define the exception handler method as:

Future<Response> myExceptionHandler(Request req, Object ex, StackTrace st) async {
  var status;
  var message;

  if (ex is NotFoundException) {
    status = (ex.found == NotFoundException.foundNothing) ? HttpStatus.METHOD_NOT_ALLOWED : HttpStatus.NOT_FOUND;
    message = "Sorry, the page you were looking for could not be found.";
  } else {
    status = HttpStatus.INTERNAL_SERVER_ERROR;
    message = "Sorry, an internal error occured.";
    print("Exception: $ex");
  }

  var resp = new ResponseBuffered(ContentType.HTML);
  resp.status = status;

  resp.write("""
<html>
  <head>
    <title>Error</title>
  </head>
  <body>
    <h1>Error</h1>
    <p>$message</p>
  </body>
</html>
""");

  return resp;
}

This exception handler customizes the error page when the NotFoundException is encountered: it is raised when none of the rules matched the request. Notice that it reports a different status code if no rules for the method could be found (405 method not allowed), versus when some rules for the method exist but their pattern did not match the requested path (404 not found).

Other exceptions can be detected and handled differently. But in this example, they all produce the same error page.

Run this server and visit http://localhost:1024/nosuchpage to see the custom error page.

2. HTML escaping methods #

The HEsc class defines three static methods which are useful for converting objects into Strings that are then escaped for embedded into HTML.

  • attr for escaping values to be inserted into attributes.
  • text for escaping values to be inserted into element content.
  • lines which is the same as text, but adds line breaks elements (i.e. <br/>) where newlines exist in the original value.

These methods will be used to escape values which might contain characters with special meaning in HTML.

3. Parameters #

The request handler methods can receive three different types of parameters:

  • path parametrs;
  • query parameters; and
  • post parameters.

3.1. Path parameters

The path parameters are extracted from the path of the URL being requested.

The path parameters are defined by the rule's pattern, which is made up of components separated by a slash ("/"). Path parameters are represented by a component starting with a colon (":") followed by the name of the parameter.

The path parameters are made available to the handler via the pathParams member of the Request object.

This is an example of a rule with a fixed path, where each component must match the requested URL exactly and there are no path parameters.

p.get("~/foo/bar/baz", handleParams);

This is an example with a single parameter:

p.get("~/user/:name", handleParams);

This is an example with two parameters:

p.get("~/user/:name/:orderNumber", handleParams);

The wildcard is a special path parameter that will match zero or more segments in the URL path.

p.get("~/product/*", handleParams);

Here is an example request handler that shows the parameters in the request.

Future<Response> handleParams(Request req) async {
  var resp = new ResponseBuffered(ContentType.HTML);
  resp.write("""
<html>
  <head>
    <title>Woomera Tutorial</title>
  </head>
  <body>
    <h1>Parameters</h1>
""");

  resp.write("<h2>Path parameters</h2>");
  _dumpParam(req.pathParams, resp);

  resp.write("<h2>Query parameters</h2>");
  _dumpParam(req.queryParams, resp);

  resp.write("<h2>POST parameters</h2>");
  _dumpParam(req.postParams, resp);

  resp.write("""
  </body>
</html>
""");
  return resp;
}

void _dumpParam(RequestParams p, ResponseBuffered resp) {
  if (p != null) {
    var keys = p.keys;

    if (keys.isNotEmpty) {
      resp.write("<p>Number of keys: ${keys.length}</p>");
      resp.write("<dl>");

      for (var k in keys) {
        resp.write("<dt>${HEsc.text(k)}</dt><dd><ul>");
        for (var v in p.values(k)) {
          resp.write("<li>${HEsc.text(v)}</li>");
        }
        resp.write("</ul></dd>");
      }

      resp.write("</dl>");
    } else {
      resp.write("<p>No parameters.</p>");
    }
  } else {
    resp.write("<p>Not available.</p>");
  }
}

Here are a few URLs to try:

3.2. Query parameters

The query parameters are the query parameters from the URL. That is, the name-value pairs after the question mark ("?").

The path parameters are made available to the handler via the queryParams member of the Request object. They are not (and cannot) be specified in the rule.

Here are a few URLs to try:

3.3. Post parameters

The post parameters are extracted from the contents of a HTTP POST request. Obviously, they are only available when processing a POST request.

The path parameters are made available to the handler via the postParams member of the Request object, which is null unless it is a POST request. They are not (and cannot) be specified in the rule.

For example, try this form:

<form method="POST" action="http://example.com/transaction">
  <input type="radio" name="type" value="out" id="w"/> <label for="w">Withdraw</label>
  <input type="radio" name="type" value="in" id="d"/> <label for="d">Deposit</label>
  <input type="text" name="amount"/>
</form>

processed by the above handler prints out:

"Hello World"

3.4. Common aspects

The three parameter members are instances of the RequestParams class.

It is important to remember that parameters can be repeated. For example, checkboxes on a form will result in one instance of the named parameter for every checkbox that is checked. This can apply to path parameters, query parameters and post parameters.

3.4.1. Retrieving parameters

The RequestParams class can be thought of as a Map, where the keys are the names of the parameters which maps into a List of values. If there is only one value, there is still a list: a list containing only one value.

The names of all the available parameters can be obtained using the keys method.

for (var k in req.queryParams.keys) {
  print("Got a query parameter named: $k");
}

All the values for a given key can be obtained using the values method.

for (var k in req.queryParams.keys) {
  var vList = req.queryParams.values(k);
  for (var v in vList) {
    print("$k = $v");
  }
}

If your request handler is expecting only one value, the square-bracket operator can be used to retrieve a single value instead of a list.

 var t = req.queryParams["title"];
3.4.2. Raw vs processed values

The methods described above for retrieving value(s) returns a cleaned up processed version of the value. The processing:

  • removes all leading whitespaces;
  • removes all trailing whitespace;
  • collapses multiple whitespaces in a row into a single whitespace; and
  • convert all whitespace characters into the space character.

To obtain the unprocessed value, set raw to true with the values method:

req.queryParams.values("category", raw: true);
3.4.3. Expecting the unexpected

To make a robust application, do not make any assumptions about what parameters may or may not be present: check everything and fail gracefully. The parameters might be different from what is expected because of programming errors, misuse or (worst case, but very important to deal with) the application is under malicious attack.

If a parameter is missing, the square bracket operator returns an empty string, and the values method returns an empty list when it is returning proceesed values. In raw mode, the values method returns null if the value does not exist: which is the only way to detect the difference between the presence of a blank/empty parameter versus the absence of the parameter.

An application might be designed to expect exactly one instance of a parameter, but a malicious client might try to send two or more values to break. The square bracket operator, which is used when only one value is expected, will return the empty string if the multiple copies of the parameter exist.

Both the names and values are always strings.

4. Exceptions #

Exception handlers are a type of handler used to process exceptions that are raised. They are passed the request and the exception, and are expected to generate a Response. The exception handler should create a response that serves as an error page for the client.

Future<Response> myExceptionHandler(Request req
    Object exception, StackTrace st) async {
  var resp = new ResponseBuffered(ContentType.HTML);
  resp.write("""
<html>
  <head><title>Error</title></head>
  <body>
    <h1>Error</h1>
    <p>Sorry, an error occured: ${HEsc.text(exception.toString())}</p>
  </body>
</html>
""");
  return resp;
}

Exception handlers can be attached to the pipelines and the server.

A hierarchy determines which exception handler is invoked. If an exception occurs inside a request handler method (and has not been caught and processed within the handler) it is passed to the exception handler attached to the pipeline: the pipeline with the rule that invoked the request handler method. If no exception handler was attached to the pipeline, the exception handler attached to the server is used. If no exception handler was attached to the server, a default exception handler is used.

The hierarchy is also used if an exception handler itself throws an exception. (Though, hopefully, exception handlers will not throw an exception). In that situation, a ExceptionHandlerException is thrown.

4.1. Standard exceptions

The framework throws exceptions that are also processed by the same exception handling hierarchy.

The NotFoundException is thrown when a matching rule is not found. The exception handler should produce a "page not found" error page with a HTTP response status of either HttpStatus.NOT_FOUND or HttpStatus.METHOD_NOT_ALLOWED.

Other exceptions defined in the package are subclasses of WoomeraException.

5. Responses #

The request handlers and exception handlers must return a Future that returns a Response object. The Response class is an abstract class and three subclasses of it have been defined in the package:

  • ResponseBuffered
  • ResponseStream
  • ResponseRedirect

5.1. ResponseBuffered

This is used to write the contents of the response into a buffer, which is used to create the HTTP response after the request hander returns.

The HTTP response is only created after the request handler finishes. If an error occurs while generating the response, the partially created ResponseBuffered object can be discarded and a new response created. The new response can be created in the response handler or in an exception handler. The new response can show an error page, instead of trying to output an error message at the end of a partially generated page.

5.2. ResponseRedirect

This is used to generate a HTTP redirect, which tells the client to go to a different URL.

5.3. ResponseStream

This is used to produce the contents of the response from a stream.

5.4. Common features

With all three types of responses, the application can:

  • Set the HTTP status code;
  • Create HTTP headers; and/or
  • Create or delete cookies.

5.5. Static file response

The package includes a request handler for serving up files and directories from the local disk. It can be used to serve static files for all or some of the Web server (for example, the images and stylesheets).

See the API documentation for the StaticFiles class.

6. Sessions #

The framework provides a mechanism to manage sessions. HTTP is a stateless protocol, but sessions have been added to support the tracking of state.

A session can be created and attached to a HTTP request. That session will be attached to subsequent Request objects. The framework handles the preserving and restoration of the session using either session cookies or URL rewriting. The application can terminate a session, or they will automatically terminate after a nominated timeout period after they were last used.

7. References #

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HTTP request dispatch and session manager

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logging, uuid

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