Canonicalization

Not to be confused with URL canonicalization or Canonization.

In computer science, canonicalization (sometimes standardization or normalization) is a process for converting data that has more than one possible representation into a "standard", "normal", or canonical form. This can be done to compare different representations for equivalence, to count the number of distinct data structures, to improve the efficiency of various algorithms by eliminating repeated calculations, or to make it possible to impose a meaningful sorting order.

Usage cases

Web servers

Canonicalization of filenames is important for computer security. For example, a web server may have a restriction that only files under the cgi directory C:\inetpub\wwwroot\cgi-bin may be executed. This rule is enforced by checking that the path starts with C:\inetpub\wwwroot\cgi-bin\ and only then executing it. While the file C:\inetpub\wwwroot\cgi-bin\..\..\..\Windows\System32\cmd.exe initially appears to be in the cgi directory, it exploits the .. path specifier to traverse back up the directory hierarchy in an attempt to execute a file outside of cgi-bin. Permitting cmd.exe to execute would be an error caused by a failure to canonicalize the filename to the simplest representation, C:\Windows\System32\cmd.exe, and is called a directory traversal vulnerability. With the path canonicalized, it is clear the file should not be executed.

Unicode

In Unicode, many accented letters can be represented in more than one way. For example, é can be represented in Unicode as the Unicode character U+0065 (LATIN SMALL LETTER E) followed by the character U+0301 (COMBINING ACUTE ACCENT), but it can also be represented as the precomposed character U+00E9 (LATIN SMALL LETTER E WITH ACUTE). This makes string comparison more complicated, since every possible representation of a string containing such glyphs must be considered. To deal with this, Unicode provides the mechanism of canonical equivalence. In this context, canonicalization is Unicode normalization.

Variable-length encodings in the Unicode standard, in particular UTF-8, may cause an additional need for canonicalization in some situations. Namely, by the standard, in UTF-8 there is only one valid byte sequence for any Unicode character,^[1] but some byte sequences are invalid, i. e. cannot be obtained by encoding any string of Unicode characters into UTF-8. Some sloppy decoder implementations may accept invalid byte sequences as input and produce a valid Unicode character as output for such a sequence. If one uses such a decoder, some Unicode characters have effectively more than one corresponding byte sequence: the valid one and some invalid ones. This could lead to security issues similar to the one described in the previous section. Therefore, if one wants to apply some filter (e. g. a regular expression written in UTF-8) to UTF-8 strings that will later be passed to a decoder that allows invalid byte sequences, one should canonicalize the strings before passing them to the filter. In this context, canonicalization is the process of translating every string character to its single valid byte sequence. An alternative to canonicalization is to reject any strings containing invalid byte sequences..

Search engines and SEO

In web search and search engine optimization (SEO), URL canonicalization deals with web content that has more than one possible URL. Having multiple URLs for the same web content can cause problems for search engines - specifically in determining which URL should be shown in search results.^[2]

Example:

All of these URLs point to the homepage of Wikipedia, but a search engine will only consider one of them to be the canonical form of the URL.

XML

A Canonical XML document is by definition an XML document that is in XML Canonical form, defined by The Canonical XML specification. Briefly, canonicalization removes whitespace within tags, uses particular character encodings, sorts namespace references and eliminates redundant ones, removes XML and DOCTYPE declarations, and transforms relative URIs into absolute URIs.

A simple example would be the following two snippets of XML:

<node1>Data</node1 > <node2>Data</node2>
<node1>Data</node1> <node2>Data</node2>

The first example contains extra spaces in the closing tag of the first node. The second example, which has been canonicalized, has had these spaces removed. Note that only the spaces within the tags are removed under W3C canonicalization, not those between tags.

A full summary of canonicalization changes is listed below:

The document is encoded in UTF-8
Line breaks normalized to #xA on input, before parsing
Attribute values are normalized, as if by a validating processor
Character and parsed entity references are replaced
CDATA sections are replaced with their character content
The XML declaration and document type declaration are removed
Empty elements are converted to start-end tag pairs
Whitespace outside of the document element and within start and end tags is normalized
All whitespace in character content is retained (excluding characters removed during line feed normalization)
Attribute value delimiters are set to quotation marks (double quotes)
Special characters in attribute values and character content are replaced by character references
Superfluous namespace declarations are removed from each element
Default attributes are added to each element
Fixup of xml:base attributes is performed
Lexicographic order is imposed on the namespace declarations and attributes of each element

Computational linguistics

In morphology and lexicography, a lemma is the canonical form of a set of words. In English, for example, run, runs, ran and running are forms of the same lexeme, so we can elect one of them, ex. run, to represent all the forms. Lexical databases as Unitex use this kind of representation.

Lemmatisation is the process to convert a word into its canonical form.

References

↑ http://www.ietf.org/rfc/rfc2279.txt
↑ Cutts, Matt (January 4, 2006). "SEO advice: url canonicalization". Matt Cutts: Gadgets, Google, and SEO. Retrieved 3 September 2013.

External links

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