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author | Eric Wing <ewing . public |-at-| gmail . com> |
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date | Sat, 30 Aug 2008 08:46:39 -0700 |
parents | 4b915342e2a8 |
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<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01//EN" "http://www.w3.org/TR/html4/strict.dtd"> <html> <head> <meta name="description" content="LuaSocket: URL manipulation"> <meta name="keywords" content="Lua, LuaSocket, URL, Library, Link, Network, Support"> <title>LuaSocket: URL support</title> <link rel="stylesheet" href="reference.css" type="text/css"> </head> <body> <!-- header +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ --> <div class=header> <hr> <center> <table summary="LuaSocket logo"> <tr><td align=center><a href="http://www.lua.org"> <img width=128 height=128 border=0 alt="LuaSocket" src="luasocket.png"> </a></td></tr> <tr><td align=center valign=top>Network support for the Lua language </td></tr> </table> <p class=bar> <a href="home.html">home</a> · <a href="home.html#download">download</a> · <a href="installation.html">installation</a> · <a href="introduction.html">introduction</a> · <a href="reference.html">reference</a> </p> </center> <hr> </div> <!-- url ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ --> <h2 id=url>URL</h2> <p> The <tt>url</tt> namespace provides functions to parse, protect, and build URLs, as well as functions to compose absolute URLs from base and relative URLs, according to <a href="http://www.cs.princeton.edu/~diego/rfc/rfc2396.txt">RFC 2396</a>. </p> <p> To obtain the <tt>url</tt> namespace, run: </p> <pre class=example> -- loads the URL module local url = require("socket.url") </pre> <p> An URL is defined by the following grammar: </p> <blockquote> <tt> <url> ::= [<scheme>:][//<authority>][/<path>][;<params>][?<query>][#<fragment>]<br> <authority> ::= [<userinfo>@]<host>[:<port>]<br> <userinfo> ::= <user>[:<password>]<br> <path> ::= {<segment>/}<segment><br> </tt> </blockquote> <!-- absolute +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ --> <p class=name id=absolute> url.<b>absolute(</b>base, relative<b>)</b> </p> <p class=description> Builds an absolute URL from a base URL and a relative URL. </p> <p class=parameters> <tt>Base</tt> is a string with the base URL or a parsed URL table. <tt>Relative</tt> is a string with the relative URL. </p> <p class=return> The function returns a string with the absolute URL. </p> <p class=note> Note: The rules that govern the composition are fairly complex, and are described in detail in <a href="http://www.cs.princeton.edu/~diego/rfc/rfc2396.txt">RFC 2396</a>. The example bellow should give an idea of what the rules are. </p> <pre class=example> http://a/b/c/d;p?q + g:h = g:h g = http://a/b/c/g ./g = http://a/b/c/g g/ = http://a/b/c/g/ /g = http://a/g //g = http://g ?y = http://a/b/c/?y g?y = http://a/b/c/g?y #s = http://a/b/c/d;p?q#s g#s = http://a/b/c/g#s g?y#s = http://a/b/c/g?y#s ;x = http://a/b/c/;x g;x = http://a/b/c/g;x g;x?y#s = http://a/b/c/g;x?y#s . = http://a/b/c/ ./ = http://a/b/c/ .. = http://a/b/ ../ = http://a/b/ ../g = http://a/b/g ../.. = http://a/ ../../ = http://a/ ../../g = http://a/g </pre> <!-- build ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ --> <p class=name id=build> url.<b>build(</b>parsed_url<b>)</b> </p> <p class=description> Rebuilds an URL from its parts. </p> <p class=parameters> <tt>Parsed_url</tt> is a table with same components returned by <a href="#parse"><tt>parse</tt></a>. Lower level components, if specified, take precedence over high level components of the URL grammar. </p> <p class=return> The function returns a string with the built URL. </p> <!-- build_path +++++++++++++++++++++++++++++++++++++++++++++++++++++++++ --> <p class=name id=build_path> url.<b>build_path(</b>segments, unsafe<b>)</b> </p> <p class=description> Builds a <tt><path></tt> component from a list of <tt><segment></tt> parts. Before composition, any reserved characters found in a segment are escaped into their protected form, so that the resulting path is a valid URL path component. </p> <p class=parameters> <tt>Segments</tt> is a list of strings with the <tt><segment></tt> parts. If <tt>unsafe</tt> is anything but <b><tt>nil</tt></b>, reserved characters are left untouched. </p> <p class=return> The function returns a string with the built <tt><path></tt> component. </p> <!-- escape +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ --> <p class=name id="escape"> url.<b>escape(</b>content<b>)</b> </p> <p class=description> Applies the URL escaping content coding to a string Each byte is encoded as a percent character followed by the two byte hexadecimal representation of its integer value. </p> <p class=parameters> <tt>Content</tt> is the string to be encoded. </p> <p class=result> The function returns the encoded string. </p> <pre class=example> -- load url module url = require("socket.url") code = url.escape("/#?;") -- code = "%2f%23%3f%3b" </pre> <!-- parse ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ --> <p class=name id=parse> url.<b>parse(</b>url, default<b>)</b> </p> <p class=description> Parses an URL given as a string into a Lua table with its components. </p> <p class=parameters> <tt>Url</tt> is the URL to be parsed. If the <tt>default</tt> table is present, it is used to store the parsed fields. Only fields present in the URL are overwritten. Therefore, this table can be used to pass default values for each field. </p> <p class=return> The function returns a table with all the URL components: </p> <blockquote><tt> parsed_url = {<br> url = <i>string</i>,<br> scheme = <i>string</i>,<br> authority = <i>string</i>,<br> path = <i>string</i>,<br> params = <i>string</i>,<br> query = <i>string</i>,<br> fragment = <i>string</i>,<br> userinfo = <i>string</i>,<br> host = <i>string</i>,<br> port = <i>string</i>,<br> user = <i>string</i>,<br> password = <i>string</i><br> } </tt></blockquote> <pre class=example> -- load url module url = require("socket.url") parsed_url = url.parse("http://www.example.com/cgilua/index.lua?a=2#there") -- parsed_url = { -- scheme = "http", -- authority = "www.example.com", -- path = "/cgilua/index.lua" -- query = "a=2", -- fragment = "there", -- host = "www.puc-rio.br", -- } parsed_url = url.parse("ftp://root:passwd@unsafe.org/pub/virus.exe;type=i") -- parsed_url = { -- scheme = "ftp", -- authority = "root:passwd@unsafe.org", -- path = "/pub/virus.exe", -- params = "type=i", -- userinfo = "root:passwd", -- host = "unsafe.org", -- user = "root", -- password = "passwd", -- } </pre> <!-- parse_path +++++++++++++++++++++++++++++++++++++++++++++++++++++++++ --> <p class=name id=parse_path> url.<b>parse_path(</b>path<b>)</b> </p> <p class=description> Breaks a <tt><path></tt> URL component into all its <tt><segment></tt> parts. </p> <p class=description> <tt>Path</tt> is a string with the path to be parsed. </p> <p class=return> Since some characters are reserved in URLs, they must be escaped whenever present in a <tt><path></tt> component. Therefore, before returning a list with all the parsed segments, the function removes escaping from all of them. </p> <!-- unescape +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ --> <p class=name id="unescape"> url.<b>unescape(</b>content<b>)</b> </p> <p class=description> Removes the URL escaping content coding from a string. </p> <p class=parameters> <tt>Content</tt> is the string to be decoded. </p> <p class=return> The function returns the decoded string. </p> <!-- footer +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ --> <div class=footer> <hr> <center> <p class=bar> <a href="home.html">home</a> · <a href="home.html#down">download</a> · <a href="installation.html">installation</a> · <a href="introduction.html">introduction</a> · <a href="reference.html">reference</a> </p> <p> <small> Last modified by Diego Nehab on <br> Thu Apr 20 00:26:05 EDT 2006 </small> </p> </center> </div> </body> </html>