man Apache::ConfigFile () - Parse an Apache style httpd.conf configuration file
NAME
Apache::ConfigFile - Parse an Apache style httpd.conf configuration file
SYNOPSIS
# # Parse the standard Apache httpd.conf # use Apache::ConfigFile; my $ac = Apache::ConfigFile->read("/etc/apache/httpd.conf");
# You can get at individual configuration commands using # the cmd_config() method:
my $hostname = $ac->cmd_config('ServerName'); my $doc_root = $ac->cmd_config('DocumentRoot');
# Multiple values are returned as a list, meaning that you # can directly assign them to an array:
my @perlmods = $ac->cmd_config('PerlModule');
# And, you can use the cmd_config_hash() routine to get at # multiple settings where the first is a type of "key":
my %ftypes = $ac->cmd_config_hash('FileTypeSuffix');
# Then, you can reset the context of the calls using the # cmd_context() method so that you are accessing the # appropriate values. For example, if you had a context # block like # # <VirtualHost "10.1.1.2"> # ServerName "www.mydomain.com" # DocumentRoot "/www/mydomain.com/htdocs" # </VirtualHost> # # You would get to this definition via:
my $vh = $ac->cmd_context(VirtualHost => '10.1.1.2'); my $vhost_server_name = $vh->cmd_config('ServerName'); my $vhost_doc_root = $vh->cmd_config('DocumentRoot');
# If you had multiple VirtualHost declarations for a # given IP (as would be the case if you're using # NameVirtualHosts), you could cycle through them with:
for my $vh ($ac->cmd_context(VirtualHost => '10.1.1.3')) { my $vhost_server_name = $vh->cmd_config('ServerName'); my $vhost_doc_root = $vh->cmd_config('DocumentRoot'); }
# In fact, even better you can "search" for one by specifying # an additional set of criteria to cmd_config(). To just get # the VirtualHost "docs.mydomain.com", for example, try:
my $docs_svr = $ac->cmd_context(VirtualHost => '10.1.1.3', ServerName => 'docs.mydomain.com'); my $docs_base_dir = $docs_svr->cmd_config('DocumentRoot');
# In addition, this module will automatically autoload # directive-based functions, meaning you can get to # commonly-used commands by name:
my $host = $ac->server_name; my $root = $ac->server_root; my $html = $ac->document_root;
# You also get the mod_perl dir_config() command to get # at PerlSetVar declarations by name. So, the block: # # <Location /myapp> # SetHandler perl-script # PerlHandler Apache::MyApp # PerlSetVar MyAppRoot "/usr/myapp" # PerlSetVar MyAppRefresh "30m" # </Location> # # Would be accessed as:
my $loc = $ac->cmd_context(Location => '/myapp'); my $app_root = $loc->dir_config('MyAppRoot'); my $app_refr = $loc->dir_config('MyAppRefresh');
# Finally, you get two other utility methods. The first # will return the current data structure verbatim, and # the second one will return a dump which you can print # out or parse or whatever:
my %config = $self->data; warn "DEBUG: ", $self->dump, "\n";
DESCRIPTION
This module parses the Apache httpd.conf, or any compatible config file, and provides methods for you to access the values from the config file. The above examples show basic usage of this module, which boils down to reading a given config file and then using the CWcmd_config() and CWcmd_context() functions to access its information.
By default, the config file is parsed more or less verbatim, meaning that directives are case-sensitive, variables are not interpolated, and so forth. These features can be changed by options given to the CWread() function (see below).
The CWread() function is the constructor, which reads in a configuration file and returns an object with methods that can be used to access directives from the file. The simplest usage is something like this:
use Apache::ConfigFile; my $ac = Apache::ConfigFile->read("/path/to/httpd.conf");
Which would parse the Apache CWhttpd.conf file and give you back an CW$ac object with the following methods:
- cmd_config()
- Used to access individual configuration commands
- cmd_context()
- Used to change the context of the commands you're accessing
- dir_config()
- Used to access values set via the CWPerlSetVar command (like CWmod_perl)
For more examples of standard Apache usage, you should read the SYNOPSIS above or skip down to the FUNCTIONS.
In addition to reading an Apache config file, this module provides some options that allow the Apache syntax to be extended. This is useful if you're writing your own application and want to use a config file resembling Apache's.
use Apache::ConfigFile; my $ac = Apache::ConfigFile->read( file => "/path/to/httpd.conf", ignore_case => 1, expand_vars => 1, fix_booleans => 1 );
These options would allow us to write a custom config file looking like this:
BaseDir "/export" ImageDir "$BaseDir/images" BuildDir "$BaseDir/images"
<Release "sw7"> OfficialName "Software Update 7" BuildPath "$BuildDir/sw7/REL" Platforms Solaris Linux IRIX HP-UX Supported Yes </Release>
Then, you would be able to access it as follows:
use Apache::ConfigFile; my $swcfg = Apache::ConfigFile->read("releases.conf");
# Note that case does not matter my $rel = $swcfg->cmd_context(release => 'sw7'); my $ofn = $rel->cmd_config('bUiLdPaTh');
# This is autoloading + fix_booleans unless ($rel->supported) { die "Sorry, that release is not supported"; }
There are several things to note. First, all our CWcmd_ functions are now case-insensitive, since we turned on the CWignore_case flag (which is off by default). Second, notice a couple things about our CWunless statement. Since we specified CWfix_booleans, the words Yes, True, and On will be converted to CW1 (true), and No, False, and Off will become CW0 (false). As such, we can use these directives in boolean statements throughout our code.
In addition, since this module provides autoloading so that all config commands are turned into functions, you can access values directly, as shown by the statement CW$rel->supported. This statement is equivalent to the longer CW$rel->cmd_config('supported').
Finally, if you just wish to manually navigate the data structure (which is a huge hash of hashes of arrays) without using the accessor functions, you can return the thing verbatim:
my %conf = $ac->data; print "Release is $conf{'release'}\n";
However, note that the internal representation is subject to change, so using the accessor functions is recommended.
FUNCTIONS
read(filename)
read(file => filename, opt => val, opt => val)
The CWread() function reads the configuration file specified and returns an object with methods to access its directives. CWread() has two calling forms. In the simplest version, you just specify a filename, and a new CWApache::ConfigFile object is returned. Or, if you want to specify options, you specify each one as a key/value pair. For example:
# keep default options my $ac = Apache::ConfigFile->read("httpd.conf");
# override the case sensitivity and boolean translation my $ac = Apache::ConfigFile->read(file => "httpd.conf", ignore_case => 1, fix_booleans => 1);
The list of valid options is:
- file
- Path to configuration file. If not provided then CW/usr/local/apache/conf/httpd.conf is used by default.
- ignore_case
- If set to 1, then all directives will be case-insensitive and stored in lowercase. Defaults to 0.
- fix_booleans
- If set to 1, then the words Yes, True, and On will be converted to CW1 (true), and No, False, and Off will become CW0 (false). This allows you to easily use these types of directives in if statements. Defaults to 0.
- expand_vars
-
If set to 1, then you can reuse variables that you have
defined elsewhere in the config file by prefixing them
with a CW$. For example:
BaseDir "/export" HomeDir "$BaseDir/home"
Currently, you can only reuse variables defined at the very top-level. Variables defined within context blocks of any kind cannot be reused. - raise_error
- If set to 1, any type of error becomes fatal. Defaults to 0.
cmd_config(directive)
This is the meat-and-potatoes of the module; the method that lets you access configuration directives from your file. Examples:
my $server_name = $ac->cmd_config('ServerName'); my $doc_root = $ac->cmd_config('DocumentRoot');
This is a fairly straightforward function. You just give it the name of the directive you wish to access and you get its value back. Each time you call it, you will get the value for the next available instance of that variable. If called in a scalar context, you will just get the first value, assumed to be the key.
What this means is that if you have a config file like this:
ErrorDocument 404 /errors/404.cgi ErrorDocument 500 /errors/500.cgi
To get each line you would use a CWwhile loop:
while (my @line = $ac->cmd_config('ErrorDocument')) { print "For error $line[0] we're using $line[1]\n"; }
Which should print:
For error 404 we're using /errors/404.cgi For error 500 we're using /errors/500.cgi
Now, if you just wanted to get the error codes that were being handled, you would still use a CWwhile loop but in a scalar context:
while (my $code = $ac->cmd_config('ErrorDocument')) { print "We're handling $code\n"; }
Which should print:
We're handling 404 We're handling 500
If you want more flexibility, read the following two functions.
cmd_config_array(directive)
This returns the entire data structure for a given directive as an array of arrays. So, you could get all the CWErrorDocument configs by saying:
my @errors = $ac->cmd_config_array('ErrorDocument');
Then, you would have to iterate over these yourself, since each element is an array reference:
for my $e (@errors) { print "Code is $e->[0] and script is $e->[1]\n"; }
Which should print:
Code is 404 and script is /errors/404.cgi Code is 500 and script is /errors/500.cgi
Assuming the same configuration as above.
cmd_config_hash(directive)
This is perhaps the most useful form. It returns a set of key/value pairs where the key is the first element and the value is the rest of the line. This is great for handling CWFileTypeSuffix or CWAddHandler lines, for example:
my %handler = $ac->cmd_config_hash('AddHandler');
This would return a hash where the keys would be the first field, such as CWcgi-script or CWserver-parsed, and value is the remaining line as an array reference.
As such, you could access a specific one as:
print "Suffixes for CGI scripts are: @{$handler{cgi-script}}\n";
Which should print out something like this:
Suffixes for CGI scripts are: .cgi .pl
Note that you had to derefence the value inside of a CW@{} since the value is an array reference. This is so that you can get a list of values reliably. For example:
my %handler = $ac->cmd_config_hash('AddHandler'); my @cgi_suffixes = @{$handler{cgi-script}}; my @shtml_suffixed = @{$handler{server-parsed}};
That way you get the proper values even in the case of embedded whitespace. In addition, it allows you to define your own complex directives:
# Format: key "Real Name" option1 option2 option3 CustomField lname "Last Name" CustomField ctry "Country" US CA MX JP Other
Then in your code:
my %custom_field = $ac->cmd_config_hash('CustomField'); while(my($key, $val) = each %custom_field) { my $label = shift(@$val) || ucfirst($key); # see if we have any options remaining if (@$val) { # have options; create select list print qq($label: <select name="$key">\n"); for my $opt (@$val) { print qq(<option value="$opt">$opt</option>\n); } print qq(</select>\n); } else { # no options; text field print qq($label: <input name="$key" type="text type="text"">\n); } }
That way you could use an Apache style config file to setup a custom form based application.
cmd_context(context => specification)
You use this command to change the current context of what you are looking at. When you start, you are looking at the very top-level of the config file. However, you may want to look at a specific virtual host or directory. You can do so with this command.
my $vhost = $ac->cmd_context(VirtualHost => '10.1.1.2'); my $server_name = $vhost->cmd_config('ServerName'); my $doc_root = $vhost->cmd_config('DocumentRoot');
You'll notice that the CWcmd_context() call returns an object will all the same methods, but the data structure now starts from that point down. The context has been altered so that you are looking at the CW<VirtualHost "10.1.1.2">. block. As such, any commands that you do will affect that part of the configuration.
In some cases, you may have multiple definitions for a certain context level. One example is CWVirtualHost blocks if you're using CWNameVirtualHosts. You have two options. First, you could cycle through all of them in sequence:
for my $vhost ($ac->cmd_context(VirtualHost => '10.1.1.2')) { # ... do stuff ... }
However, you may not know what you're looking for. In this case, if you just want to get the keys of all the CWVirtualHost definitions and then iterate through all of them, you might do something like this:
my @vhkeys = $ac->cmd_context('VirtualHost'); for my $vhkey (@vhkeys) { my $vhost = $ac->cmd_context(VirtualHost => $vhkey); }
Note that this is the one situation where the CWcmd_context() function does not return an object, but rather a list of string keys.
Conversely, you may know exactly which one you're looking for. If so, you can specify one additional search parameter. For example, if you want the CWsuperfoo server, you could say:
my $sf = $ac->cmd_context(VirtualHost => '10.1.1.2', ServerName => 'superfoo');
And this would look for a context block that looked something like this:
<VirtualHost "10.1.1.2"> ServerName "superfoo" # ... more config options ... </VirtualHost>
you can easily access nested configurations as well. If you had a configuration like this:
<Location "/upload"> SetHandler perl-script PerlHandler Apache::MyUploadModule PerlSetVar MyUploadModuleMaxsize "5M" PerlSetVar MyUploadModuleTimeout "300s" <Limit> require user "bob" require user "jim" </Limit> </Location>
And you wanted to find out what the valid users were who could access this page, you would navigate it like so:
my $loc = $ac->cmd_context(Location => '/upload'); my $lim = $loc->cmd_context('Limit'); my @users = $lim->cmd_config('require');
Or, more succintly:
my @users = $ac->cmd_context(Location => '/upload') ->cmd_context(Limit => '')->cmd_config('require');
Since CWcmd_context() returns an object pointing to the next context, you can chain calls together to get to a deeply nested level.
dir_config()
This routine is provided for CWmod_perl compatibility. It allows you to access configuration commands specified via the CWPerlSetVar directive. So, assuming the above example, you could access the settings for CWMyUploadModule like so:
my $upload = $ac->cmd_context(Location => '/upload');
my $maxsize = $upload->dir_config('MyUploadModuleMaxsize'); my $timeout = $upload->dir_config('MyUploadModuleTimeout');
The idea is to provide an interface which walks and talks roughly like Apache actually would.
data()
This returns the entire data structure under the current context verabatim. So, you could get all the values for a CWVirtualHost with:
my $vh = $ac->cmd_context(VirtualHost => '10.1.1.4'); my %vhost = $vh->data;
If you specified CWignore_case, then all the keys will be lowercase; otherwise, they will be in whatever case they are in the config file.
dump()
This returns a dump of the current data structure in string form. So for debugging purposes you can dump the config with something like this:
warn "DUMP: ", $ac->dump, "\n";
reread()
You can use this function to reread the configuration file. For example, maybe you want your application to reread its config if it receives a CWSIGHUP:
$SIG{HUP} = \&handler; sub handler { my $sig = shift; if ($sig eq 'HUP') { # reread our config file on kill -HUP $config->reread; } }
The above would handle a CWSIGHUP by rereading the config file.
write([file])
This writes the configuration out to disk. If no file is specified, then the one passed to CWread() is used. This method is currently under development and does not work. Patches welcome.
autoloaded calls
In addition to the above, you can also access values by calling a function named for the config command directly:
my $server_name = $ac->cmd_config('ServerName');
Is the same as:
my $server_name = $ac->server_name;
Underscores in the function name are taken as a place to put an uppercase letter. So these are all equivalent:
my $doc_root = $ac->cmd_config('DocumentRoot'); my $doc_root = $ac->DocumentRoot; # looks silly my $doc_root = $ac->document_root;
Note, though, that the following would not work unless you had set the CWignore_case option:
my $doc_root = $ac->documentroot; # won't work
This is because it will look for the directive CWDocumentroot, which probably doesn't exist.
ALIASES
When I initially wrote this module, I tried to follow the internal Apache API pretty closely. However, for those unfamiliar with Apache these method names probably make little sense. As such, the following function aliases are provided
- directive
- Same as CWcmd_config()
- directive_array
- Same as CWcmd_config_array()
- directive_hash
- Same as CWcmd_config_hash()
- section
- Same as CWcmd_context()
So this code:
my $vh = $ac->cmd_context(VirtualHost => '10.1.1.2'); my $vhost_server_name = $vh->cmd_config('ServerName'); my $vhost_doc_root = $vh->cmd_config('DocumentRoot'); my %error_handlers = $ac->cmd_config_hash('ErrorDocument');
Could be rewritten as the following and work exactly the same:
my $vh = $ac->section(VirtualHost => '10.1.1.2'); my $vhost_server_name = $vh->directive('ServerName'); my $vhost_doc_root = $vh->directive('DocumentRoot'); my %error_handlers = $ac->directive_hash('ErrorDocument');
These will always be supported so feel free to use them.
NOTES
Currently CWLogFormat and any other directive with embedded quotes, even if escaped, are not handled correctly. I know there is a fix for it but I have a mental block and can't figure it out. Help!
This module does not mimic the behavior of a live Apache config. In particular, there is no configuration inheritance. This means that subdirectories and virtual hosts do not inherit their defaults from the upper levels of the configuration. This may or may not change in a future version.
Currently, the order of context blocks is not maintained. So, if you define two blocks:
<Directory "/"> Options +MultiViews </Directory>
<Directory "/var/apache/htdocs"> Options +ExecCGI </Directory>
There will be no way for you to tell the order in which these were defined. Normally this should not matter, since the idea of a context section is to create a logical entity. However, patches to overcome this limitation are welcomed.
This module has only been tested and used on UNIX platforms. Patches to fix problems with other OSes are welcome.
VERSION
$Id: ConfigFile.pm,v 1.18 2001/09/18 18:31:23 nwiger Exp $
AUTHOR
Copyright (c) 1999-2001, Nathan Wiger <nate@wiger.org>. All Rights Reserved.
This module is free software; you may copy this under the terms of the GNU General Public License, or the Artistic License, copies of which should have accompanied your Perl kit.