You may have heard of the Advanced API. If you're interested in reading dry prose and boring functional specifications, feel free to click that link to get a no-nonsense overview on the Advanced API. For the rest of us, there's this tutorial. By the time you're finished reading this, you should have a pretty good idea on how to implement custom tags and attributes that HTML Purifier may not have.
Before we even write any code, it is paramount to consider whether or not the code we're writing is necessary or not. HTML Purifier, by default, contains a large set of elements and attributes: large enough so that any element or attribute in XHTML 1.0 (and its HTML variant) that can be safely used by the general public is implemented.
So what needs to be implemented? (Feel free to skip this section if you know what you want).
All of the modules listed below are based off of the modularization of XHTML, which, while technically for XHTML 1.1, is quite a useful resource.
If you don't recognize it, you probably don't need it. But the curious can look all of these modules up in the above-mentioned document. Note that inline scripting comes packaged with HTML Purifier (more on this later).
We have not implemented the Ruby module, which defines a set of tags for publishing short annotations for text, used mostly in Japanese and Chinese school texts.
XHTML 2.0 is still a working draft, so any elements introduced in the specification have not been implemented and will not be implemented until we get a recommendation or proposal. Because XHTML 2.0 is an entirely new markup language, implementing rules for it will be no easy task.
HTML 5
is a fork of HTML 4.01 by WHATWG, who believed that XHTML 2.0 was headed
in the wrong direction. It too is a working draft, and may change
drastically before publication, but it should be noted that the
canvas
tag has been implemented by many browser vendors.
There are a number of proprietary tags still in the wild. Many of them have been documented in ref-proprietary-tags.txt, but there is currently no implementation for any of them.
There are also a number of other XML languages out there that can be embedded in HTML documents: two of the most popular are MathML and SVG, and I frequently get requests to implement these. But they are expansive, comprehensive specifications, and it would take far too long to implement them correctly (most systems I've seen go as far as whitelisting tags and no further; come on, what about nesting!)
Word of warning: HTML Purifier is currently not namespace aware.
As you may imagine from the details above (don't be abashed if you didn't read it all: a glance over would have done), there's quite a bit that HTML Purifier doesn't implement. Recent architectural changes have allowed HTML Purifier to implement elements and attributes that are not safe! Don't worry, they won't be activated unless you set %HTML.Trusted to true, but they certainly help out users who need to put, say, forms on their page and don't want to go through the trouble of reading this and implementing it themself.
So any of the above that you implement for your own application could help out some other poor sap on the other side of the globe. Help us out, and send back code so that it can be hammered into a module and released with the core. Any code would be greatly appreciated!
Enough philosophical talk, time for some code:
$config = HTMLPurifier_Config::createDefault(); $config->set('HTML', 'DefinitionID', 'enduser-customize.html tutorial'); $config->set('HTML', 'DefinitionRev', 1); $def =& $config->getHTMLDefinition(true);
Assuming that HTML Purifier has already been properly loaded (hint:
include HTMLPurifier.auto.php
), this code will set up
the environment that you need to start customizing the HTML definition.
What's going on?
HTMLPurifier_HTMLDefinition
object that we will be tweaking. If the parameter was removed, we
would be retrieving a fully formed definition object, which is somewhat
useless for customization purposes.
Those of you who have already been twiddling around with the raw HTML definition object, you'll be noticing that you're getting an error when you attempt to retrieve the raw definition object without specifying a DefinitionID. It is vital to caching (see below) that you make a unique name for your customized definition, so make up something right now and things will operate again.
To make development easier, we're going to temporarily turn off definition caching:
$config = HTMLPurifier_Config::createDefault(); $config->set('HTML', 'DefinitionID', 'enduser-customize.html tutorial'); $config->set('HTML', 'DefinitionRev', 1); $config->set('Core', 'DefinitionCache', null); // remove this later! $def =& $config->getHTMLDefinition(true);
A few things should be mentioned about the caching mechanism before
we move on. For performance reasons, HTML Purifier caches generated
HTMLPurifier_Definition
objects in serialized files
stored (by default) in library/HTMLPurifier/DefinitionCache/Serializer
.
A lot of processing is done in order to create these objects, so it
makes little sense to repeat the same processing over and over again
whenever HTML Purifier is called.
In order to identify a cache entry, HTML Purifier uses three variables: the library's version number, the value of %HTML.DefinitionRev and a serial of relevant configuration. Whenever any of these changes, a new HTML definition is generated. Notice that there is no way for the definition object to track changes to customizations: here, it is up to you to supply appropriate information to DefinitionID and DefinitionRev.
For this example, we're going to implement the target
attribute found
on a
elements. To implement an attribute, we have to
ask a few questions:
The first three are easy: the element is a
, the attribute
is target
, and it is not a required attribute. (If it
was required, we'd need to append an asterisk to the attribute name,
you'll see an example of this in the addElement() example).
The last question is a little trickier. Lets allow the special values: _blank, _self, _target and _top. The form of this is called an enumeration, a list of valid values, although only one can be used at a time. To translate this into code form, we write:
$config = HTMLPurifier_Config::createDefault(); $config->set('HTML', 'DefinitionID', 'enduser-customize.html tutorial'); $config->set('HTML', 'DefinitionRev', 1); $config->set('Core', 'DefinitionCache', null); // remove this later! $def =& $config->getHTMLDefinition(true); $def->addAttribute('a', 'target', 'Enum#_blank,_self,_target,_top');
The Enum#_blank,_self,_target,_top
does all the magic.
The string is split into two parts, separated by a hash mark (#):
AttrDef
AttrDef
If that sounds vague and generic, it's because it is! HTML Purifier defines an assortment of different attribute types one can use, and each of these has their own specialized parameter format. Here are some of the more useful ones:
Type | Format | Description |
---|---|---|
Enum | [s:]value1,value2,... | Attribute with a number of valid values, one of which may be used. When s: is present, the enumeration is case sensitive. |
Bool | attribute_name | Boolean attribute, with only one valid value: the name of the attribute. |
CDATA | Attribute of arbitrary text. Can also be referred to as Text (the specification makes a semantic distinction between the two). | |
ID | Attribute that specifies a unique ID | |
Pixels | Attribute that specifies an integer pixel length | |
Length | Attribute that specifies a pixel or percentage length | |
NMTOKENS |
Attribute that specifies a number of name tokens, example: the
class attribute
|
|
URI |
Attribute that specifies a URI, example: the href
attribute
|
|
Number | Attribute that specifies an positive integer number |
For a complete list, consult
library/HTMLPurifier/AttrTypes.php
;
more information on attributes that accept parameters can be found on their
respective includes in
library/HTMLPurifier/AttrDef
.
Sometimes, the restrictive list in AttrTypes just doesn't cut it. Don't sweat: you can also use a fully instantiated object as the value. The equivalent, verbose form of the above example is:
$config = HTMLPurifier_Config::createDefault(); $config->set('HTML', 'DefinitionID', 'enduser-customize.html tutorial'); $config->set('HTML', 'DefinitionRev', 1); $config->set('Core', 'DefinitionCache', null); // remove this later! $def =& $config->getHTMLDefinition(true); $def->addAttribute('a', 'target', new HTMLPurifier_AttrDef_Enum( array('_blank','_self','_target','_top') ));
Trust me, you'll learn to love the shorthand.
Adding attributes is really small-fry stuff, though, and it was possible to add them (albeit a bit more wordy) prior to 2.0. The real gem of the Advanced API is adding elements. There are five questions to ask when adding a new element:
It's a mouthful, and you'll be slightly lost if your not familiar with the HTML specification, so let's explain them step by step.
The HTML specification defines two major content sets: Inline
and Block. Each of these
content sets contain a list of elements: Inline contains things like
span
and b
while Block contains things like
div
and blockquote
.
These content sets amount to a macro mechanism for HTML definition. Most elements in HTML are organized into one of these two sets, and most elements in HTML allow elements from one of these sets. If we had to write each element verbatim into each other element's allowed children, we would have ridiculously large lists; instead we use content sets to compactify the declaration.
Practically speaking, there are several useful values you can use here:
Content set | Description |
---|---|
Inline | Character level elements, text |
Block | Block-like elements, like paragraphs and lists |
false |
Any element that doesn't fit into the mold, for example li
or tr
|
By specifying a valid value here, all other elements that use that content set will also allow your element, without you having to do anything. If you specify false, you'll have to register your element manually.
Allowed children defines the elements that this element can contain. The allowed values may range from none to a complex regexp depending on your element.
If you've ever taken a look at the HTML DTD's before, you may have noticed declarations like this:
<!ELEMENT LI - O (%flow;)* -- list item -->
The (%flow;)*
indicates the allowed children of the
li
tag: li
allows any number of flow
elements as its children. In HTML Purifier, we'd write it like
Flow
(here's where the content sets we were
discussing earlier come into play). There are three shorthand content models you
can specify:
Content model | Description |
---|---|
Empty | No children allowed, like br or hr |
Inline | Any number of inline elements and text, like span |
Flow | Any number of inline elements, block elements and text, like div |
This covers 90% of all the cases out there, but what about elements that
break the mold like ul
? This guy requires at least one
child, and the only valid children for it are li
. The
content model is: Required: li
. There are two parts: the
first type determines what ChildDef
will be used to validate
content models. The most common values are:
Type | Description |
---|---|
Required | Children must be one or more of the valid elements |
Optional | Children can be any number of the valid elements |
Custom | Children must follow the DTD-style regex |
You can also implement your own ChildDef
: this was done
for a few special cases in HTML Purifier such as Chameleon
(for ins
and del
), StrictBlockquote
and Table
.
The second part specifies either valid elements or a regular expression.
Valid elements are separated with horizontal bars (|), i.e.
"a | b | c
". Use #PCDATA to represent plain text.
Regular expressions are based off of DTD's style:
For example, "a, b?, (c | d), e+, f*
" means "In this order,
one a
element, at most one b
element,
one c
or d
element (but not both), one or more
e
elements, and any number of f
elements."
Regex veterans should be able to jump right in, and those not so savvy
can always copy-paste W3C's content model definitions into HTML Purifier
and hope for the best.
A word of warning: while the regex format is extremely flexible on
the developer's side, it is
quite unforgiving on the user's side. If the user input does not exactly
match the specification, the entire contents of the element will
be nuked. This is why there is are specific content model types like
Optional and Required: while they could be implemented as Custom:
(valid | elements)*
, the custom classes contain special recovery
measures that make sure as much of the user's original content gets
through. HTML Purifier's core, as a rule, does not use Custom.
One final note: you can also use Content Sets inside your valid elements lists or regular expressions. In fact, the three shorthand content models mentioned above are just that: abbreviations:
Content model | Implementation |
---|---|
Inline | Optional: Inline | #PCDATA |
Flow | Optional: Flow | #PCDATA |
When the definition is compiled, Inline will be replaced with a horizontal-bar separated list of inline elements. Also, notice that it does not contain text: you have to specify that yourself.
Congratulations: you have just gotten over the proverbial hump (Allowed
children). Common attributes is much simpler, and boils down to
one question: does your element have the id
, style
,
class
, title
and lang
attributes?
If so, you'll want to specify the Common
attribute collection,
which contains these five attributes that are found on almost every
HTML element in the specification.
There are a few more collections, but they're really edge cases:
Collection | Attributes |
---|---|
I18N | lang , possibly xml:lang |
Core | style , class , id and title |
Common is a combination of the above-mentioned collections.
If you didn't read the previous section on
adding attributes, read it now. The last parameter is simply
array of attribute names to attribute implementations, in the exact
same format as addAttribute()
.
We're going to implement form
. Before we embark, lets
grab a reference implementation from over at the
transitional DTD:
<!ELEMENT FORM - - (%flow;)* -(FORM) -- interactive form --> <!ATTLIST FORM %attrs; -- %coreattrs, %i18n, %events -- action %URI; #REQUIRED -- server-side form handler -- method (GET|POST) GET -- HTTP method used to submit the form-- enctype %ContentType; "application/x-www-form-urlencoded" accept %ContentTypes; #IMPLIED -- list of MIME types for file upload -- name CDATA #IMPLIED -- name of form for scripting -- onsubmit %Script; #IMPLIED -- the form was submitted -- onreset %Script; #IMPLIED -- the form was reset -- target %FrameTarget; #IMPLIED -- render in this frame -- accept-charset %Charsets; #IMPLIED -- list of supported charsets -- >
Juicy! With just this, we can answer four of our five questions:
FORM
and determine which set it is in.)form
saction
, method
and name
Time for some code:
$config = HTMLPurifier_Config::createDefault(); $config->set('HTML', 'DefinitionID', 'enduser-customize.html tutorial'); $config->set('HTML', 'DefinitionRev', 1); $config->set('Core', 'DefinitionCache', null); // remove this later! $def =& $config->getHTMLDefinition(true); $def->addAttribute('a', 'target', new HTMLPurifier_AttrDef_Enum( array('_blank','_self','_target','_top') )); $form =& $def->addElement( 'form', // name 'Block', // content set 'Flow', // allowed children 'Common', // attribute collection array( // attributes 'action*' => 'URI', 'method' => 'Enum#get|post', 'name' => 'ID' ) ); $form->excludes = array('form' => true);
Each of the parameters corresponds to one of the questions we asked.
Notice that we added an asterisk to the end of the action
attribute to indicate that it is required. If someone specifies a
form
without that attribute, the tag will be axed.
Also, the extra line at the end is a special extra declaration that
prevents forms from being nested within each other.
And that's all there is to it! Implementing the rest of the form
module is left as an exercise to the user; to see more examples
check the library/HTMLPurifier/HTMLModule/
directory
in your local HTML Purifier installation.
Perceptive users may have realized that, to a certain extent, we have simply re-implemented the facilities of XML Schema or the Document Type Definition. What you are seeing here, however, is not just an XML Schema or Document Type Definition: it is a fully expressive method of specifying the definition of HTML that is a portable superset of the capabilities of the two above-mentioned schema languages. What makes HTMLDefinition so powerful is the fact that if we don't have an implementation for a content model or an attribute definition, you can supply it yourself by writing a PHP class.
There are many facets of HTMLDefinition beyond the Advanced API I have walked you through today. To find out more about these, you can check out these source files: