Developing modules for the Apache HTTP Server 2.4

Available Languages: en

+ +

This document explains how you can develop modules for the Apache HTTP +Server 2.4

Introduction
Defining a module
Getting started: Hooking into the server
Building a handler
Adding configuration options
Context aware configurations
Summing up
Some useful snippets of code

Introduction

What we will be discussing in this document

+This document will discuss how you can create modules for the Apache +HTTP Server 2.4, by exploring an example module called +mod_example. In the first part of this document, the purpose +of this module will be to calculate and print out various digest values for +existing files on your web server, whenever we access the URL +http://hostname/filename.sum. For instance, if we want to know the +MD5 digest value of the file located at +http://www.example.com/index.html, we would visit +http://www.example.com/index.html.sum. +

+ +

+In the second part of this document, which deals with configuration +directive and context awareness, we will be looking at a module that simply +writes out its own configuration to the client. +

+ + +

Prerequisites

+First and foremost, you are expected to have a basic knowledge of how the C +programming language works. In most cases, we will try to be as pedagogical +as possible and link to documents describing the functions used in the +examples, but there are also many cases where it is necessary to either +just assume that "it works" or do some digging yourself into what the hows +and whys of various function calls. +

+Lastly, you will need to have a basic understanding of how modules are +loaded and configured in the Apache HTTP Server, as well as how to get the headers for +Apache if you do not have them already, as these are needed for compiling +new modules. +

+ +

Compiling your module

+To compile the source code we are building in this document, we will be +using APXS. Assuming your source file +is called mod_example.c, compiling, installing and activating the module is +as simple as: +

apxs -i -a -c mod_example.c

+ + +

Defining a module

+ Module name tags
+Every module starts with the same declaration, or name tag if you will, +that defines a module as a separate entity within Apache:

+ + + +

module AP_MODULE_DECLARE_DATA   example_module =
+{ 
+    STANDARD20_MODULE_STUFF,
+    create_dir_conf, /* Per-directory configuration handler */
+    merge_dir_conf,  /* Merge handler for per-directory configurations */
+    create_svr_conf, /* Per-server configuration handler */
+    merge_svr_conf,  /* Merge handler for per-server configurations */
+    directives,      /* Any directives we may have for httpd */
+    register_hooks   /* Our hook registering function */
+};

+ + + +

+This bit of code lets the server know that we have now registered a new module +in the system, and that its name is example_module. The name +of the module is used primarily for two things:
+

Letting the server know how to load the module using the LoadModule
Setting up a namespace for the module to use in configurations

+For now, we're only concerned with the first purpose of the module name, +which comes into play when we need to load the module: +

LoadModule example_module modules/mod_example.so

+ +

+In essence, this tells the server to open up mod_example.so and look for a module +called example_module. +

+Within this name tag of ours is also a bunch of references to how we would +like to handle things: Which directives do we respond to in a configuration +file or .htaccess, how do we operate within specific contexts, and what +handlers are we interested in registering with the Apache HTTP service. We'll +return to all these elements later in this document. +

Getting started: Hooking into the server

An introduction to hooks

+When handling requests in Apache HTTP Server 2.4, the first thing you will need to do is +create a hook into the request handling process. A hook is essentially a +message telling the server that you are willing to either serve or at least +take a glance at certain requests given by clients. All handlers, whether +it's mod_rewrite, mod_authn_*, mod_proxy and so on, are hooked into +specific parts of the request process. As you are probably aware, modules +serve different purposes; Some are authentication/authorization handlers, +others are file or script handlers while some third modules rewrite URIs or +proxies content. Furthermore, in the end, it is up to the user of the server +how and when each module will come into place. Thus, the server itself does not +presume to know which module is responsible for handling a specific +request, and will ask each module whether they have an interest in a given +request or not. It is then up to each module to either gently decline +serving a request, accept serving it or flat out deny the request from +being served, as authentication/authorization modules do:
+ Hook handling in httpd
+To make it a bit easier for handlers such as our mod_example to know +whether the client is requesting content we should handle or not, the server +has directives for hinting to modules whether their assistance is needed or +not. Two of these are AddHandler +and SetHandler. Let's take a look at +an example using AddHandler. In +our example case, we want every request ending with .sum to be served by +mod_example, so we'll add a configuration directive that tells +the server to do just that: +

AddHandler example-handler .sum

+ +

+What this tells the server is the following: Whenever we receive a request +for a URI ending in .sum, we are to let all modules know that we are +looking for whoever goes by the name of "example-handler" . +Thus, when a request is being served that ends in .sum, the server will let all +modules know, that this request should be served by "example-handler +". As you will see later, when we start building mod_example, we will +check for this handler tag relayed by AddHandler and reply to +the server based on the value of this tag. +

+ +

Hooking into httpd

+To begin with, we only want to create a simple handler that replies to the +client browser when a specific URL is requested, so we won't bother setting +up configuration handlers and directives just yet. Our initial module +definition will look like this:

+ + + +

module AP_MODULE_DECLARE_DATA   example_module =
+{
+    STANDARD20_MODULE_STUFF,
+    NULL,
+    NULL,
+    NULL,
+    NULL,
+    NULL,
+    register_hooks   /* Our hook registering function */
+};

+ + + + +

This lets the server know that we are not interested in anything fancy, we +just want to hook onto the requests and possibly handle some of them.

+ +

The reference in our example declaration, register_hooks +is the name of a function we will create to manage how we hook onto the +request process. In this example module, the function has just one purpose; +To create a simple hook that gets called after all the rewrites, access +control etc has been handled. Thus, we will let the server know that we want +to hook into its process as one of the last modules: +

+ + +

static void register_hooks(apr_pool_t *pool)
+{
+    /* Create a hook in the request handler, so we get called when a request arrives */
+    ap_hook_handler(example_handler, NULL, NULL, APR_HOOK_LAST);
+}

+ + + +

+The example_handler reference is the function that will handle +the request. We will discuss how to create a handler in the next chapter. +

+ +

Other useful hooks

+Hooking into the request handling phase is but one of many hooks that you +can create. Some other ways of hooking are: +

ap_hook_child_init: Place a hook that executes when a child process is spawned (commonly used for initializing modules after the server has forked)
ap_hook_pre_config: Place a hook that executes before any configuration data has been read (very early hook)
ap_hook_post_config: Place a hook that executes after configuration has been parsed, but before the server has forked
ap_hook_pre_translate_name: Place a hook that executes when a URI needs to be translated into a filename on the server, before decoding
ap_hook_translate_name: Place a hook that executes when a URI needs to be translated into a filename on the server (think mod_rewrite)
ap_hook_quick_handler: Similar to ap_hook_handler, except it is run before any other request hooks (translation, auth, fixups etc)
ap_hook_log_transaction: Place a hook that executes when the server is about to add a log entry of the current request

+ + +

Building a handler

+A handler is essentially a function that receives a callback when a request +to the server is made. It is passed a record of the current request (how it was +made, which headers and requests were passed along, who's giving the +request and so on), and is put in charge of either telling the server that it's +not interested in the request or handle the request with the tools provided. +

A simple "Hello, world!" +handler

Let's start off by making a very simple request handler +that does the following: +

Check that this is a request that should be served by "example-handler"
Set the content type of our output to text/html
Write "Hello, world!" back to the client browser
Let the server know that we took care of this request and everything went fine

+In C code, our example handler will now look like this: +

+ + +

static int example_handler(request_rec *r)
+{
+    /* First off, we need to check if this is a call for the "example-handler" handler.
+     * If it is, we accept it and do our things, if not, we simply return DECLINED,
+     * and the server will try somewhere else.
+     */
+    if (!r->handler || strcmp(r->handler, "example-handler")) return (DECLINED);
+    
+    /* Now that we are handling this request, we'll write out "Hello, world!" to the client.
+     * To do so, we must first set the appropriate content type, followed by our output.
+     */
+    ap_set_content_type(r, "text/html");
+    ap_rprintf(r, "Hello, world!");
+    
+    /* Lastly, we must tell the server that we took care of this request and everything went fine.
+     * We do so by simply returning the value OK to the server.
+     */
+    return OK;
+}

+ + + +

+Now, we put all we have learned together and end up with a program that +looks like +mod_example_1.c +. The functions used in this example will be explained later in the section +"Some useful functions you should know". +

+ +

The request_rec structure

The most essential part of any request is the request record +. In a call to a handler function, this is represented by the +request_rec* structure passed along with every call that is made. +This struct, typically just referred to as r in modules, +contains all the information you need for your module to fully process any +HTTP request and respond accordingly.

Some key elements of the +request_rec structure are: +

r->handler (char*): Contains the name of the handler the server is currently asking to do the handling of this request
r->method (char*): Contains the HTTP method being used, f.x. GET or POST
r->filename (char*): Contains the translated filename the client is requesting
r->args (char*): Contains the query string of the request, if any
r->headers_in (apr_table_t*): Contains all the headers sent by the client
r->connection (conn_rec*): A record containing information about the current connection
r->user (char*): If the URI requires authentication, this is set to the username provided
r->useragent_ip (char*): The IP address of the client connecting to us
r->pool (apr_pool_t*): The memory pool of this request. We'll discuss this in the +"Memory management" chapter.

+A complete list of all the values contained within the request_rec structure can be found in +the httpd.h header +file or at http://ci.apache.org/projects/httpd/trunk/doxygen/structrequest__rec.html. +

+ + +

+Let's try out some of these variables in another example handler:
+

+ + +

static int example_handler(request_rec *r)
+{
+    /* Set the appropriate content type */
+    ap_set_content_type(r, "text/html");
+
+    /* Print out the IP address of the client connecting to us: */
+    ap_rprintf(r, "<h2>Hello, %s!</h2>", r->useragent_ip);
+    
+    /* If we were reached through a GET or a POST request, be happy, else sad. */
+    if ( !strcmp(r->method, "POST") || !strcmp(r->method, "GET") ) {
+        ap_rputs("You used a GET or a POST method, that makes us happy!<br/>", r);
+    }
+    else {
+        ap_rputs("You did not use POST or GET, that makes us sad :(<br/>", r);
+    }
+
+    /* Lastly, if there was a query string, let's print that too! */
+    if (r->args) {
+        ap_rprintf(r, "Your query string was: %s", r->args);
+    }
+    return OK;
+}

+ + + + + +

Return values

+Apache relies on return values from handlers to signify whether a request +was handled or not, and if so, whether the request went well or not. If a +module is not interested in handling a specific request, it should always +return the value DECLINED. If it is handling a request, it +should either return the generic value OK, or a specific HTTP +status code, for example: +

+ + +

static int example_handler(request_rec *r)
+{
+    /* Return 404: Not found */
+    return HTTP_NOT_FOUND;
+}

+ + + +

+Returning OK or a HTTP status code does not necessarily mean +that the request will end. The server may still have other handlers that are +interested in this request, for instance the logging modules which, upon a +successful request, will write down a summary of what was requested and how +it went. To do a full stop and prevent any further processing after your +module is done, you can return the value DONE to let the server +know that it should cease all activity on this request and carry on with +the next, without informing other handlers. +
+General response codes: +

DECLINED: We are not handling this request
OK: We handled this request and it went well
DONE: We handled this request and the server should just close this thread without further processing

+HTTP specific return codes (excerpt): +

HTTP_OK (200): Request was okay
HTTP_MOVED_PERMANENTLY (301): The resource has moved to a new URL
HTTP_UNAUTHORIZED (401): Client is not authorized to visit this page
HTTP_FORBIDDEN (403): Permission denied
HTTP_NOT_FOUND (404): File not found
HTTP_INTERNAL_SERVER_ERROR (500): Internal server error (self explanatory)

+ + +

Some useful functions you should know

+ +

+ ap_rputs(const char *string, request_rec *r):
+ Sends a string of text to the client. This is a shorthand version of + ap_rwrite. + + + +
```
ap_rputs("Hello, world!", r);
```
+ + + + +
+ + ap_rprintf:
+ This function works just like printf, except it sends the result to the client. + + + +
```
ap_rprintf(r, "Hello, %s!", r->useragent_ip);
```
+ + + +
+ + ap_set_content_type(request_rec *r, const char *type):
+ Sets the content type of the output you are sending. + + + +
```
ap_set_content_type(r, "text/plain"); /* force a raw text output */
```
+ + + +

+ + +

Memory management

+Managing your resources in Apache HTTP Server 2.4 is quite easy, thanks to the memory pool +system. In essence, each server, connection and request have their own +memory pool that gets cleaned up when its scope ends, e.g. when a request +is done or when a server process shuts down. All your module needs to do is +latch onto this memory pool, and you won't have to worry about having to +clean up after yourself - pretty neat, huh? +

+ +

+In our module, we will primarily be allocating memory for each request, so +it's appropriate to use the r->pool +reference when creating new objects. A few of the functions for allocating +memory within a pool are: +

void* apr_palloc( +apr_pool_t *p, apr_size_t size): Allocates size number of bytes in the pool for you
void* apr_pcalloc( +apr_pool_t *p, apr_size_t size): Allocates size number of bytes in the pool for you and sets all bytes to 0
char* apr_pstrdup( +apr_pool_t *p, const char *s): Creates a duplicate of the string s. This is useful for copying constant values so you can edit them
char* apr_psprintf( +apr_pool_t *p, const char *fmt, ...): Similar to sprintf, except the server supplies you with an appropriately allocated target variable

+ +

Let's put these functions into an example handler:

+ + + +

static int example_handler(request_rec *r)
+{
+    const char *original = "You can't edit this!";
+    char *copy;
+    int *integers;
+    
+    /* Allocate space for 10 integer values and set them all to zero. */
+    integers = apr_pcalloc(r->pool, sizeof(int)*10); 
+    
+    /* Create a copy of the 'original' variable that we can edit. */
+    copy = apr_pstrdup(r->pool, original);
+    return OK;
+}

+ + + +

+This is all well and good for our module, which won't need any +pre-initialized variables or structures. However, if we wanted to +initialize something early on, before the requests come rolling in, we +could simply add a call to a function in our register_hooks +function to sort it out: +

+ + +

static void register_hooks(apr_pool_t *pool)
+{
+    /* Call a function that initializes some stuff */
+    example_init_function(pool);
+    /* Create a hook in the request handler, so we get called when a request arrives */
+    ap_hook_handler(example_handler, NULL, NULL, APR_HOOK_LAST);
+}

+ + + +

+In this pre-request initialization function we would not be using the +same pool as we did when allocating resources for request-based functions. +Instead, we would use the pool given to us by the server for allocating memory +on a per-process based level. +

+ + +

Parsing request data

+In our example module, we would like to add a feature, that checks which +type of digest, MD5 or SHA1 the client would like to see. This could be +solved by adding a query string to the request. A query string is typically +comprised of several keys and values put together in a string, for instance +valueA=yes&valueB=no&valueC=maybe. It is up to the +module itself to parse these and get the data it requires. In our example, +we'll be looking for a key called digest, and if set to +md5, we'll produce an MD5 digest, otherwise we'll produce a SHA1 +digest. +

+Since the introduction of Apache HTTP Server 2.4, parsing request data from GET and +POST requests have never been easier. All we require to parse both GET and +POST data is four simple lines: +

+ + + +

+apr_table_t *GET; 
+apr_array_header_t*POST; 
+
+
+
+ap_args_to_table(r, &GET); 
+
+ap_parse_form_data(r, NULL, &POST, -1, 8192);

+ + + +

+In our specific example module, we're looking for the digest +value from the query string, which now resides inside a table called +GET. To extract this value, we need only perform a simple operation: +

+ + + +

/* Get the "digest" key from the query string, if any. */
+const char *digestType = apr_table_get(GET, "digest");
+
+/* If no key was returned, we will set a default value instead. */
+if (!digestType) digestType = "sha1";

+ + + +

+The structures used for the POST and GET data are not exactly the same, so +if we were to fetch a value from POST data instead of the query string, we +would have to resort to a few more lines, as outlined in this example in the last chapter of this document. +

+ + +

Making an advanced handler

+Now that we have learned how to parse form data and manage our resources, +we can move on to creating an advanced version of our module, that spits +out the MD5 or SHA1 digest of files: +

+ + + +

static int example_handler(request_rec *r)
+{
+    int rc, exists;
+    apr_finfo_t finfo;
+    apr_file_t *file;
+    char *filename;
+    char buffer[256];
+    apr_size_t readBytes;
+    int n;
+    apr_table_t *GET;
+    apr_array_header_t *POST;
+    const char *digestType;
+    
+    
+    /* Check that the "example-handler" handler is being called. */
+    if (!r->handler || strcmp(r->handler, "example-handler")) return (DECLINED);
+    
+    /* Figure out which file is being requested by removing the .sum from it */
+    filename = apr_pstrdup(r->pool, r->filename);
+    filename[strlen(filename)-4] = 0; /* Cut off the last 4 characters. */
+    
+    /* Figure out if the file we request a sum on exists and isn't a directory */
+    rc = apr_stat(&finfo, filename, APR_FINFO_MIN, r->pool);
+    if (rc == APR_SUCCESS) {
+        exists =
+        (
+            (finfo.filetype != APR_NOFILE)
+        &&  !(finfo.filetype & APR_DIR)
+        );
+        if (!exists) return HTTP_NOT_FOUND; /* Return a 404 if not found. */
+    }
+    /* If apr_stat failed, we're probably not allowed to check this file. */
+    else return HTTP_FORBIDDEN;
+    
+    /* Parse the GET and, optionally, the POST data sent to us */
+    
+    ap_args_to_table(r, &GET);
+    ap_parse_form_data(r, NULL, &POST, -1, 8192);
+    
+    /* Set the appropriate content type */
+    ap_set_content_type(r, "text/html");
+    
+    /* Print a title and some general information */
+    ap_rprintf(r, "<h2>Information on %s:</h2>", filename);
+    ap_rprintf(r, "<b>Size:</b> %u bytes<br/>", finfo.size);
+    
+    /* Get the digest type the client wants to see */
+    digestType = apr_table_get(GET, "digest");
+    if (!digestType) digestType = "MD5";
+    
+    
+    rc = apr_file_open(&file, filename, APR_READ, APR_OS_DEFAULT, r->pool);
+    if (rc == APR_SUCCESS) {
+        
+        /* Are we trying to calculate the MD5 or the SHA1 digest? */
+        if (!strcasecmp(digestType, "md5")) {
+            /* Calculate the MD5 sum of the file */
+            union {
+                char      chr[16];
+                uint32_t  num[4];
+            } digest;
+            apr_md5_ctx_t md5;
+            apr_md5_init(&md5);
+            readBytes = 256;
+            while ( apr_file_read(file, buffer, &readBytes) == APR_SUCCESS ) {
+                apr_md5_update(&md5, buffer, readBytes);
+            }
+            apr_md5_final(digest.chr, &md5);
+            
+            /* Print out the MD5 digest */
+            ap_rputs("<b>MD5: </b><code>", r);
+            for (n = 0; n < APR_MD5_DIGESTSIZE/4; n++) {
+                ap_rprintf(r, "%08x", digest.num[n]);
+            }
+            ap_rputs("</code>", r);
+            /* Print a link to the SHA1 version */
+            ap_rputs("<br/><a href='?digest=sha1'>View the SHA1 hash instead</a>", r);
+        }
+        else {
+            /* Calculate the SHA1 sum of the file */
+            union {
+                char      chr[20];
+                uint32_t  num[5];
+            } digest;
+            apr_sha1_ctx_t sha1;
+            apr_sha1_init(&sha1);
+            readBytes = 256;
+            while ( apr_file_read(file, buffer, &readBytes) == APR_SUCCESS ) {
+                apr_sha1_update(&sha1, buffer, readBytes);
+            }
+            apr_sha1_final(digest.chr, &sha1);
+            
+            /* Print out the SHA1 digest */
+            ap_rputs("<b>SHA1: </b><code>", r);
+            for (n = 0; n < APR_SHA1_DIGESTSIZE/4; n++) {
+                ap_rprintf(r, "%08x", digest.num[n]);
+            }
+            ap_rputs("</code>", r);
+            
+            /* Print a link to the MD5 version */
+            ap_rputs("<br/><a href='?digest=md5'>View the MD5 hash instead</a>", r);
+        }
+        apr_file_close(file);
+        
+    }    
+    /* Let the server know that we responded to this request. */
+    return OK;
+}

+ + + +

+This version in its entirety can be found here: +mod_example_2.c. +

+ + +

Adding configuration options

+In this next segment of this document, we will turn our eyes away from the +digest module and create a new example module, whose only function is to +write out its own configuration. The purpose of this is to examine how +the server works with configuration, and what happens when you start writing +advanced configurations +for your modules. +

An introduction to configuration +directives

+If you are reading this, then you probably already know +what a configuration directive is. Simply put, a directive is a way of +telling an individual module (or a set of modules) how to behave, such as +these directives control how mod_rewrite works: +

RewriteEngine On
+RewriteCond "%{REQUEST_URI}" "^/foo/bar"
+RewriteRule "^/foo/bar/(.*)$" "/foobar?page=$1"

+ +

+Each of these configuration directives are handled by a separate function, +that parses the parameters given and sets up a configuration accordingly. +

+ +

Making an example configuration

To begin with, we'll create a basic configuration in C-space:

+ + + +

typedef struct {
+    int         enabled;      /* Enable or disable our module */
+    const char *path;         /* Some path to...something */
+    int         typeOfAction; /* 1 means action A, 2 means action B and so on */
+} example_config;

+ + + +

+Now, let's put this into perspective by creating a very small module that +just prints out a hard-coded configuration. You'll notice that we use the +register_hooks function for initializing the configuration +values to their defaults: +

+ + +

typedef struct {
+    int         enabled;      /* Enable or disable our module */
+    const char *path;         /* Some path to...something */
+    int         typeOfAction; /* 1 means action A, 2 means action B and so on */
+} example_config;
+
+static example_config config;
+
+static int example_handler(request_rec *r)
+{
+    if (!r->handler || strcmp(r->handler, "example-handler")) return(DECLINED);
+    ap_set_content_type(r, "text/plain");
+    ap_rprintf(r, "Enabled: %u\n", config.enabled);
+    ap_rprintf(r, "Path: %s\n", config.path);
+    ap_rprintf(r, "TypeOfAction: %x\n", config.typeOfAction);
+    return OK;
+}
+
+static void register_hooks(apr_pool_t *pool) 
+{
+    config.enabled = 1;
+    config.path = "/foo/bar";
+    config.typeOfAction = 0x00;
+    ap_hook_handler(example_handler, NULL, NULL, APR_HOOK_LAST);
+}
+
+/* Define our module as an entity and assign a function for registering hooks  */
+
+module AP_MODULE_DECLARE_DATA   example_module =
+{
+    STANDARD20_MODULE_STUFF,
+    NULL,            /* Per-directory configuration handler */
+    NULL,            /* Merge handler for per-directory configurations */
+    NULL,            /* Per-server configuration handler */
+    NULL,            /* Merge handler for per-server configurations */
+    NULL,            /* Any directives we may have for httpd */
+    register_hooks   /* Our hook registering function */
+};

+ + + +

+So far so good. To access our new handler, we could add the following to +our configuration: +

<Location "/example">
+    SetHandler example-handler
+</Location>

+ +

+When we visit, we'll see our current configuration being spit out by our +module. +

+ + +

Registering directives with the server

+What if we want to change our configuration, not by hard-coding new values +into the module, but by using either the httpd.conf file or possibly a +.htaccess file? It's time to let the server know that we want this to be +possible. To do so, we must first change our name tag to include a +reference to the configuration directives we want to register with the server: +

+ + +

module AP_MODULE_DECLARE_DATA   example_module =
+{
+    STANDARD20_MODULE_STUFF,
+    NULL,               /* Per-directory configuration handler */
+    NULL,               /* Merge handler for per-directory configurations */
+    NULL,               /* Per-server configuration handler */
+    NULL,               /* Merge handler for per-server configurations */
+    example_directives, /* Any directives we may have for httpd */
+    register_hooks      /* Our hook registering function */
+};

+ + + +

+This will tell the server that we are now accepting directives from the +configuration files, and that the structure called example_directives + holds information on what our directives are and how they work. +Since we have three different variables in our module configuration, we +will add a structure with three directives and a NULL at the end: +

+ + +

static const command_rec        example_directives[] =
+{
+    AP_INIT_TAKE1("exampleEnabled", example_set_enabled, NULL, RSRC_CONF, "Enable or disable mod_example"),
+    AP_INIT_TAKE1("examplePath", example_set_path, NULL, RSRC_CONF, "The path to whatever"),
+    AP_INIT_TAKE2("exampleAction", example_set_action, NULL, RSRC_CONF, "Special action value!"),
+    { NULL }
+};

+ + + +

+ Directives structure
+As you can see, each directive needs at least 5 parameters set: +

AP_INIT_TAKE1: This is a macro that tells the server that this directive takes one and only one argument. +If we required two arguments, we could use the macro AP_INIT_TAKE2 and so on (refer to httpd_conf.h +for more macros).
exampleEnabled: This is the name of our directive. More precisely, it is what the user must put in his/her +configuration in order to invoke a configuration change in our module.
example_set_enabled: This is a reference to a C function that parses the directive and sets the configuration +accordingly. We will discuss how to make this in the following paragraph.
RSRC_CONF: This tells the server where the directive is permitted. We'll go into details on this value in the +later chapters, but for now, RSRC_CONF means that the server will only accept these directives in a server context.
"Enable or disable....": This is simply a brief description of what the directive does.

+(The "missing" parameter in our definition, which is usually set to +NULL, is an optional function that can be run after the +initial function to parse the arguments have been run. This is usually +omitted, as the function for verifying arguments might as well be used to +set them.) +

+ +

The directive handler function

+Now that we have told the server to expect some directives for our module, it's +time to make a few functions for handling these. What the server reads in the +configuration file(s) is text, and so naturally, what it passes along to +our directive handler is one or more strings, that we ourselves need to +recognize and act upon. You'll notice, that since we set our +exampleAction directive to accept two arguments, its C function also +has an additional parameter defined:

+ + +

/* Handler for the "exampleEnabled" directive */
+const char *example_set_enabled(cmd_parms *cmd, void *cfg, const char *arg)
+{
+    if(!strcasecmp(arg, "on")) config.enabled = 1;
+    else config.enabled = 0;
+    return NULL;
+}
+
+/* Handler for the "examplePath" directive */
+const char *example_set_path(cmd_parms *cmd, void *cfg, const char *arg)
+{
+    config.path = arg;
+    return NULL;
+}
+
+/* Handler for the "exampleAction" directive */
+/* Let's pretend this one takes one argument (file or db), and a second (deny or allow), */
+/* and we store it in a bit-wise manner. */
+const char *example_set_action(cmd_parms *cmd, void *cfg, const char *arg1, const char *arg2)
+{
+    if(!strcasecmp(arg1, "file")) config.typeOfAction = 0x01;
+    else config.typeOfAction = 0x02;
+    
+    if(!strcasecmp(arg2, "deny")) config.typeOfAction += 0x10;
+    else config.typeOfAction += 0x20;
+    return NULL;
+}

+ + + + + +

Putting it all together

+Now that we have our directives set up, and handlers configured for them, +we can assemble our module into one big file: +

+ + +

/* mod_example_config_simple.c: */
+#include <stdio.h>
+#include "apr_hash.h"
+#include "ap_config.h"
+#include "ap_provider.h"
+#include "httpd.h"
+#include "http_core.h"
+#include "http_config.h"
+#include "http_log.h"
+#include "http_protocol.h"
+#include "http_request.h"
+
+/*
+ ==============================================================================
+ Our configuration prototype and declaration:
+ ==============================================================================
+ */
+typedef struct {
+    int         enabled;      /* Enable or disable our module */
+    const char *path;         /* Some path to...something */
+    int         typeOfAction; /* 1 means action A, 2 means action B and so on */
+} example_config;
+
+static example_config config;
+
+/*
+ ==============================================================================
+ Our directive handlers:
+ ==============================================================================
+ */
+/* Handler for the "exampleEnabled" directive */
+const char *example_set_enabled(cmd_parms *cmd, void *cfg, const char *arg)
+{
+    if(!strcasecmp(arg, "on")) config.enabled = 1;
+    else config.enabled = 0;
+    return NULL;
+}
+
+/* Handler for the "examplePath" directive */
+const char *example_set_path(cmd_parms *cmd, void *cfg, const char *arg)
+{
+    config.path = arg;
+    return NULL;
+}
+
+/* Handler for the "exampleAction" directive */
+/* Let's pretend this one takes one argument (file or db), and a second (deny or allow), */
+/* and we store it in a bit-wise manner. */
+const char *example_set_action(cmd_parms *cmd, void *cfg, const char *arg1, const char *arg2)
+{
+    if(!strcasecmp(arg1, "file")) config.typeOfAction = 0x01;
+    else config.typeOfAction = 0x02;
+    
+    if(!strcasecmp(arg2, "deny")) config.typeOfAction += 0x10;
+    else config.typeOfAction += 0x20;
+    return NULL;
+}
+
+/*
+ ==============================================================================
+ The directive structure for our name tag:
+ ==============================================================================
+ */
+static const command_rec        example_directives[] =
+{
+    AP_INIT_TAKE1("exampleEnabled", example_set_enabled, NULL, RSRC_CONF, "Enable or disable mod_example"),
+    AP_INIT_TAKE1("examplePath", example_set_path, NULL, RSRC_CONF, "The path to whatever"),
+    AP_INIT_TAKE2("exampleAction", example_set_action, NULL, RSRC_CONF, "Special action value!"),
+    { NULL }
+};
+/*
+ ==============================================================================
+ Our module handler:
+ ==============================================================================
+ */
+static int example_handler(request_rec *r)
+{
+    if(!r->handler || strcmp(r->handler, "example-handler")) return(DECLINED);
+    ap_set_content_type(r, "text/plain");
+    ap_rprintf(r, "Enabled: %u\n", config.enabled);
+    ap_rprintf(r, "Path: %s\n", config.path);
+    ap_rprintf(r, "TypeOfAction: %x\n", config.typeOfAction);
+    return OK;
+}
+
+/*
+ ==============================================================================
+ The hook registration function (also initializes the default config values):
+ ==============================================================================
+ */
+static void register_hooks(apr_pool_t *pool) 
+{
+    config.enabled = 1;
+    config.path = "/foo/bar";
+    config.typeOfAction = 3;
+    ap_hook_handler(example_handler, NULL, NULL, APR_HOOK_LAST);
+}
+/*
+ ==============================================================================
+ Our module name tag:
+ ==============================================================================
+ */
+module AP_MODULE_DECLARE_DATA   example_module =
+{
+    STANDARD20_MODULE_STUFF,
+    NULL,               /* Per-directory configuration handler */
+    NULL,               /* Merge handler for per-directory configurations */
+    NULL,               /* Per-server configuration handler */
+    NULL,               /* Merge handler for per-server configurations */
+    example_directives, /* Any directives we may have for httpd */
+    register_hooks      /* Our hook registering function */
+};

+ + + + +

+In our httpd.conf file, we can now change the hard-coded configuration by +adding a few lines: +

ExampleEnabled On
+ExamplePath "/usr/bin/foo"
+ExampleAction file allow

+ +

+And thus we apply the configuration, visit /example on our +web site, and we see the configuration has adapted to what we wrote in our +configuration file. +

+ + + +

Context aware configurations

Introduction to context aware configurations

+In Apache HTTP Server 2.4, different URLs, virtual hosts, directories etc can have very +different meanings to the user of the server, and thus different contexts +within which modules must operate. For example, let's assume you have this +configuration set up for mod_rewrite: +

<Directory "/var/www">
+    RewriteCond "%{HTTP_HOST}" "^example.com$"
+    RewriteRule "(.*)" "http://www.example.com/$1"
+</Directory>
+<Directory "/var/www/sub">
+    RewriteRule "^foobar$" "index.php?foobar=true"
+</Directory>

+ +

+In this example, you will have set up two different contexts for +mod_rewrite:

Inside /var/www, all requests for http://example.com must go to http://www.example.com
Inside /var/www/sub, all requests for foobar must go to index.php?foobar=true

+If mod_rewrite (or the entire server for that matter) wasn't context aware, then +these rewrite rules would just apply to every and any request made, +regardless of where and how they were made, but since the module can pull +the context specific configuration straight from the server, it does not need +to know itself, which of the directives are valid in this context, since +the server takes care of this.

+ +

+So how does a module get the specific configuration for the server, +directory or location in question? It does so by making one simple call: +

+ + +

example_config *config = (example_config*) ap_get_module_config(r->per_dir_config, &example_module);

+ + + +

+That's it! Of course, a whole lot goes on behind the scenes, which we will +discuss in this chapter, starting with how the server came to know what our +configuration looks like, and how it came to be set up as it is in the +specific context. +

+ + +

Our basic configuration setup

In this chapter, we will be working with a slightly modified version of +our previous context structure. We will set a context +variable that we can use to track which context configuration is being +used by the server in various places: +

+ +

typedef struct {
+    char        context[256];
+    char        path[256];
+    int         typeOfAction;
+    int         enabled;
+} example_config;

+ + + +

Our handler for requests will also be modified, yet still very simple:

+ + + +

static int example_handler(request_rec *r)
+{
+    if(!r->handler || strcmp(r->handler, "example-handler")) return(DECLINED);
+    example_config *config = (example_config*) ap_get_module_config(r->per_dir_config, &example_module);
+    ap_set_content_type(r, "text/plain");
+    ap_rprintf("Enabled: %u\n", config->enabled);
+    ap_rprintf("Path: %s\n", config->path);
+    ap_rprintf("TypeOfAction: %x\n", config->typeOfAction);
+    ap_rprintf("Context: %s\n", config->context);
+    return OK;
+}

+ + + + + +

Choosing a context

+Before we can start making our module context aware, we must first define, +which contexts we will accept. As we saw in the previous chapter, defining +a directive required five elements be set:

+ + + +

AP_INIT_TAKE1("exampleEnabled", example_set_enabled, NULL, RSRC_CONF, "Enable or disable mod_example"),

+ + + + +

The RSRC_CONF definition told the server that we would only allow +this directive in a global server context, but since we are now trying out +a context aware version of our module, we should set this to something +more lenient, namely the value ACCESS_CONF, which lets us use +the directive inside <Directory> and <Location> blocks. For more +control over the placement of your directives, you can combine the following +restrictions together to form a specific rule: +

RSRC_CONF: Allow in .conf files (not .htaccess) outside <Directory> or <Location>
ACCESS_CONF: Allow in .conf files (not .htaccess) inside <Directory> or <Location>
OR_OPTIONS: Allow in .conf files and .htaccess when AllowOverride Options is set
OR_FILEINFO: Allow in .conf files and .htaccess when AllowOverride FileInfo is set
OR_AUTHCFG: Allow in .conf files and .htaccess when AllowOverride AuthConfig is set
OR_INDEXES: Allow in .conf files and .htaccess when AllowOverride Indexes is set
OR_ALL: Allow anywhere in .conf files and .htaccess

+ + +

Using the server to allocate configuration slots

A much smarter way to manage your configurations is by letting the server +help you create them. To do so, we must first start off by changing our +name tag to let the server know, that it should assist us in creating +and managing our configurations. Since we have chosen the per-directory +(or per-location) context for our module configurations, we'll add a +per-directory creator and merger function reference in our tag:

+ + +

module AP_MODULE_DECLARE_DATA   example_module =
+{
+    STANDARD20_MODULE_STUFF,
+    create_dir_conf, /* Per-directory configuration handler */
+    merge_dir_conf,  /* Merge handler for per-directory configurations */
+    NULL,            /* Per-server configuration handler */
+    NULL,            /* Merge handler for per-server configurations */
+    directives,      /* Any directives we may have for httpd */
+    register_hooks   /* Our hook registering function */
+};

+ + + + + + + +

Creating new context configurations

+Now that we have told the server to help us create and manage configurations, +our first step is to make a function for creating new, blank +configurations. We do so by creating the function we just referenced in +our name tag as the Per-directory configuration handler:

+ +

void *create_dir_conf(apr_pool_t *pool, char *context) {
+    context = context ? context : "(undefined context)";
+    example_config *cfg = apr_pcalloc(pool, sizeof(example_config));
+    if(cfg) {
+        /* Set some default values */
+        strcpy(cfg->context, context);
+        cfg->enabled = 0;
+        cfg->path = "/foo/bar";
+        cfg->typeOfAction = 0x11;
+    }
+    return cfg;
+}

+ + + + + + +

Merging configurations

+Our next step in creating a context aware configuration is merging +configurations. This part of the process particularly applies to scenarios +where you have a parent configuration and a child, such as the following: +

<Directory "/var/www">
+    ExampleEnabled On
+    ExamplePath "/foo/bar"
+    ExampleAction file allow
+</Directory>
+<Directory "/var/www/subdir">
+    ExampleAction file deny
+</Directory>

+ +

+In this example, it is natural to assume that the directory +/var/www/subdir should inherit the values set for the /var/www + directory, as we did not specify an ExampleEnabled nor +an ExamplePath for this directory. The server does not presume to +know if this is true, but cleverly does the following: +

Creates a new configuration for /var/www
Sets the configuration values according to the directives given for /var/www
Creates a new configuration for /var/www/subdir
Sets the configuration values according to the directives given for /var/www/subdir
Proposes a merge of the two configurations into a new configuration for /var/www/subdir

+This proposal is handled by the merge_dir_conf function we +referenced in our name tag. The purpose of this function is to assess the +two configurations and decide how they are to be merged:

+ + + +

void *merge_dir_conf(apr_pool_t *pool, void *BASE, void *ADD) {
+    example_config *base = (example_config *) BASE ; /* This is what was set in the parent context */
+    example_config *add = (example_config *) ADD ;   /* This is what is set in the new context */
+    example_config *conf = (example_config *) create_dir_conf(pool, "Merged configuration"); /* This will be the merged configuration */
+    
+    /* Merge configurations */
+    conf->enabled = ( add->enabled == 0 ) ? base->enabled : add->enabled ;
+    conf->typeOfAction = add->typeOfAction ? add->typeOfAction : base->typeOfAction;
+    strcpy(conf->path, strlen(add->path) ? add->path : base->path);
+    
+    return conf ;
+}

+ + + + + + +

Trying out our new context aware configurations

+Now, let's try putting it all together to create a new module that is +context aware. First off, we'll create a configuration that lets us test +how the module works: +

<Location "/a">
+    SetHandler example-handler
+    ExampleEnabled on
+    ExamplePath "/foo/bar"
+    ExampleAction file allow
+</Location>
+
+<Location "/a/b">
+    ExampleAction file deny
+    ExampleEnabled off
+</Location>
+
+<Location "/a/b/c">
+    ExampleAction db deny
+    ExamplePath "/foo/bar/baz"
+    ExampleEnabled on
+</Location>

+ +

+Then we'll assemble our module code. Note, that since we are now using our +name tag as reference when fetching configurations in our handler, I have +added some prototypes to keep the compiler happy: +

+ + +

/*$6
+ +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
+ * mod_example_config.c
+ +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
+ */
+
+
+#include <stdio.h>
+#include "apr_hash.h"
+#include "ap_config.h"
+#include "ap_provider.h"
+#include "httpd.h"
+#include "http_core.h"
+#include "http_config.h"
+#include "http_log.h"
+#include "http_protocol.h"
+#include "http_request.h"
+
+/*$1
+ ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+    Configuration structure
+ ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+ */
+
+typedef struct
+{
+    char    context[256];
+    char    path[256];
+    int     typeOfAction;
+    int     enabled;
+} example_config;
+
+/*$1
+ ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+    Prototypes
+ ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+ */
+
+static int    example_handler(request_rec *r);
+const char    *example_set_enabled(cmd_parms *cmd, void *cfg, const char *arg);
+const char    *example_set_path(cmd_parms *cmd, void *cfg, const char *arg);
+const char    *example_set_action(cmd_parms *cmd, void *cfg, const char *arg1, const char *arg2);
+void          *create_dir_conf(apr_pool_t *pool, char *context);
+void          *merge_dir_conf(apr_pool_t *pool, void *BASE, void *ADD);
+static void   register_hooks(apr_pool_t *pool);
+
+/*$1
+ ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+    Configuration directives
+ ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+ */
+
+static const command_rec    directives[] =
+{
+    AP_INIT_TAKE1("exampleEnabled", example_set_enabled, NULL, ACCESS_CONF, "Enable or disable mod_example"),
+    AP_INIT_TAKE1("examplePath", example_set_path, NULL, ACCESS_CONF, "The path to whatever"),
+    AP_INIT_TAKE2("exampleAction", example_set_action, NULL, ACCESS_CONF, "Special action value!"),
+    { NULL }
+};
+
+/*$1
+ ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+    Our name tag
+ ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+ */
+
+module AP_MODULE_DECLARE_DATA    example_module =
+{
+    STANDARD20_MODULE_STUFF,
+    create_dir_conf,    /* Per-directory configuration handler */
+    merge_dir_conf,     /* Merge handler for per-directory configurations */
+    NULL,               /* Per-server configuration handler */
+    NULL,               /* Merge handler for per-server configurations */
+    directives,         /* Any directives we may have for httpd */
+    register_hooks      /* Our hook registering function */
+};
+
+/*
+ =======================================================================================================================
+    Hook registration function
+ =======================================================================================================================
+ */
+static void register_hooks(apr_pool_t *pool)
+{
+    ap_hook_handler(example_handler, NULL, NULL, APR_HOOK_LAST);
+}
+
+/*
+ =======================================================================================================================
+    Our example web service handler
+ =======================================================================================================================
+ */
+static int example_handler(request_rec *r)
+{
+    if(!r->handler || strcmp(r->handler, "example-handler")) return(DECLINED);
+
+    /*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
+    example_config    *config = (example_config *) ap_get_module_config(r->per_dir_config, &example_module);
+    /*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
+
+    ap_set_content_type(r, "text/plain");
+    ap_rprintf(r, "Enabled: %u\n", config->enabled);
+    ap_rprintf(r, "Path: %s\n", config->path);
+    ap_rprintf(r, "TypeOfAction: %x\n", config->typeOfAction);
+    ap_rprintf(r, "Context: %s\n", config->context);
+    return OK;
+}
+
+/*
+ =======================================================================================================================
+    Handler for the "exampleEnabled" directive
+ =======================================================================================================================
+ */
+const char *example_set_enabled(cmd_parms *cmd, void *cfg, const char *arg)
+{
+    /*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
+    example_config    *conf = (example_config *) cfg;
+    /*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
+
+    if(conf)
+    {
+        if(!strcasecmp(arg, "on"))
+            conf->enabled = 1;
+        else
+            conf->enabled = 0;
+    }
+
+    return NULL;
+}
+
+/*
+ =======================================================================================================================
+    Handler for the "examplePath" directive
+ =======================================================================================================================
+ */
+const char *example_set_path(cmd_parms *cmd, void *cfg, const char *arg)
+{
+    /*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
+    example_config    *conf = (example_config *) cfg;
+    /*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
+
+    if(conf)
+    {
+        strcpy(conf->path, arg);
+    }
+
+    return NULL;
+}
+
+/*
+ =======================================================================================================================
+    Handler for the "exampleAction" directive ;
+    Let's pretend this one takes one argument (file or db), and a second (deny or allow), ;
+    and we store it in a bit-wise manner.
+ =======================================================================================================================
+ */
+const char *example_set_action(cmd_parms *cmd, void *cfg, const char *arg1, const char *arg2)
+{
+    /*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
+    example_config    *conf = (example_config *) cfg;
+    /*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
+
+    if(conf)
+    {
+        {
+            if(!strcasecmp(arg1, "file"))
+                conf->typeOfAction = 0x01;
+            else
+                conf->typeOfAction = 0x02;
+            if(!strcasecmp(arg2, "deny"))
+                conf->typeOfAction += 0x10;
+            else
+                conf->typeOfAction += 0x20;
+        }
+    }
+
+    return NULL;
+}
+
+/*
+ =======================================================================================================================
+    Function for creating new configurations for per-directory contexts
+ =======================================================================================================================
+ */
+void *create_dir_conf(apr_pool_t *pool, char *context)
+{
+    context = context ? context : "Newly created configuration";
+
+    /*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
+    example_config    *cfg = apr_pcalloc(pool, sizeof(example_config));
+    /*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
+
+    if(cfg)
+    {
+        {
+            /* Set some default values */
+            strcpy(cfg->context, context);
+            cfg->enabled = 0;
+            memset(cfg->path, 0, 256);
+            cfg->typeOfAction = 0x00;
+        }
+    }
+
+    return cfg;
+}
+
+/*
+ =======================================================================================================================
+    Merging function for configurations
+ =======================================================================================================================
+ */
+void *merge_dir_conf(apr_pool_t *pool, void *BASE, void *ADD)
+{
+    /*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
+    example_config    *base = (example_config *) BASE;
+    example_config    *add = (example_config *) ADD;
+    example_config    *conf = (example_config *) create_dir_conf(pool, "Merged configuration");
+    /*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
+
+    conf->enabled = (add->enabled == 0) ? base->enabled : add->enabled;
+    conf->typeOfAction = add->typeOfAction ? add->typeOfAction : base->typeOfAction;
+    strcpy(conf->path, strlen(add->path) ? add->path : base->path);
+    return conf;
+}

+ + + + + + + +

Summing up

+We have now looked at how to create simple modules for Apache HTTP Server 2.4 and +configuring them. What you do next is entirely up to you, but it is my +hope that something valuable has come out of reading this documentation. +If you have questions on how to further develop modules, you are welcome +to join our mailing lists +or check out the rest of our documentation for further tips. +

Some useful snippets of code

+ +

Retrieve variables from POST form data

+ + + +

typedef struct {
+    const char *key;
+    const char *value;
+} keyValuePair;
+
+keyValuePair *readPost(request_rec *r) {
+    apr_array_header_t *pairs = NULL;
+    apr_off_t len;
+    apr_size_t size;
+    int res;
+    int i = 0;
+    char *buffer;
+    keyValuePair *kvp;
+
+    res = ap_parse_form_data(r, NULL, &pairs, -1, HUGE_STRING_LEN);
+    if (res != OK || !pairs) return NULL; /* Return NULL if we failed or if there are is no POST data */
+    kvp = apr_pcalloc(r->pool, sizeof(keyValuePair) * (pairs->nelts + 1));
+    while (pairs && !apr_is_empty_array(pairs)) {
+        ap_form_pair_t *pair = (ap_form_pair_t *) apr_array_pop(pairs);
+        apr_brigade_length(pair->value, 1, &len);
+        size = (apr_size_t) len;
+        buffer = apr_palloc(r->pool, size + 1);
+        apr_brigade_flatten(pair->value, buffer, &size);
+        buffer[len] = 0;
+        kvp[i].key = apr_pstrdup(r->pool, pair->name);
+        kvp[i].value = buffer;
+        i++;
+    }
+    return kvp;
+}
+
+static int example_handler(request_rec *r)
+{
+    /*~~~~~~~~~~~~~~~~~~~~~~*/
+    keyValuePair *formData;
+    /*~~~~~~~~~~~~~~~~~~~~~~*/
+
+    formData = readPost(r);
+    if (formData) {
+        int i;
+        for (i = 0; &formData[i]; i++) {
+            if (formData[i].key && formData[i].value) {
+                ap_rprintf(r, "%s = %s\n", formData[i].key, formData[i].value);
+            } else if (formData[i].key) {
+                ap_rprintf(r, "%s\n", formData[i].key);
+            } else if (formData[i].value) {
+                ap_rprintf(r, "= %s\n", formData[i].value);
+            } else {
+                break;
+            }
+        }
+    }
+    return OK;
+}

+ + + + + + +

Printing out every HTTP header received

+ + + +

static int example_handler(request_rec *r)
+{
+    /*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
+    const apr_array_header_t    *fields;
+    int                         i;
+    apr_table_entry_t           *e = 0;
+    /*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
+
+    fields = apr_table_elts(r->headers_in);
+    e = (apr_table_entry_t *) fields->elts;
+    for(i = 0; i < fields->nelts; i++) {
+        ap_rprintf(r, "%s: %s\n", e[i].key, e[i].val);
+    }
+    return OK;
+}

+ + + + + + +

Reading the request body into memory

+ + + +

static int util_read(request_rec *r, const char **rbuf, apr_off_t *size)
+{
+    /*~~~~~~~~*/
+    int rc = OK;
+    /*~~~~~~~~*/
+
+    if((rc = ap_setup_client_block(r, REQUEST_CHUNKED_ERROR))) {
+        return(rc);
+    }
+
+    if(ap_should_client_block(r)) {
+
+        /*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
+        char         argsbuffer[HUGE_STRING_LEN];
+        apr_off_t    rsize, len_read, rpos = 0;
+        apr_off_t length = r->remaining;
+        /*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
+
+        *rbuf = (const char *) apr_pcalloc(r->pool, (apr_size_t) (length + 1));
+        *size = length;
+        while((len_read = ap_get_client_block(r, argsbuffer, sizeof(argsbuffer))) > 0) {
+            if((rpos + len_read) > length) {
+                rsize = length - rpos;
+            }
+            else {
+                rsize = len_read;
+            }
+
+            memcpy((char *) *rbuf + rpos, argsbuffer, (size_t) rsize);
+            rpos += rsize;
+        }
+    }
+    return(rc);
+}
+
+static int example_handler(request_rec *r) 
+{
+    /*~~~~~~~~~~~~~~~~*/
+    apr_off_t   size;
+    const char  *buffer;
+    /*~~~~~~~~~~~~~~~~*/
+
+    if(util_read(r, &buffer, &size) == OK) {
+        ap_rprintf(r, "We read a request body that was %" APR_OFF_T_FMT " bytes long", size);
+    }
+    return OK;
+}

+ + + + + + + +

Developing modules for the Apache HTTP Server 2.4

See also

Introduction

What we will be discussing in this document

Prerequisites

Compiling your module

Defining a module

Getting started: Hooking into the server

An introduction to hooks

Hooking into httpd

Other useful hooks

Building a handler

A simple "Hello, world!" +handler

The request_rec structure

Return values

Some useful functions you should know

Memory management

Parsing request data

Making an advanced handler

Adding configuration options

An introduction to configuration +directives

Making an example configuration

Registering directives with the server

The directive handler function

Putting it all together

Context aware configurations

Introduction to context aware configurations

Our basic configuration setup

Choosing a context

Using the server to allocate configuration slots

Creating new context configurations

Merging configurations

Trying out our new context aware configurations

Summing up

Some useful snippets of code

Retrieve variables from POST form data

Printing out every HTTP header received

Reading the request body into memory

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