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URI(7)			   Linux Programmer's Manual			URI(7)

NAME
       uri,  url,  urn - uniform resource identifier (URI), including a URL or
       URN

SYNOPSIS
       URI = [ absoluteURI | relativeURI ] [ "#" fragment ]

       absoluteURI = scheme ":" ( hierarchical_part | opaque_part )

       relativeURI = ( net_path | absolute_path | relative_path ) [ "?" query ]

       scheme = "http" | "ftp" | "gopher" | "mailto" | "news" | "telnet" |
		  "file" | "man" | "info" | "whatis" | "ldap" | "wais" | ...

       hierarchical_part = ( net_path | absolute_path ) [ "?" query ]

       net_path = "//" authority [ absolute_path ]

       absolute_path = "/"  path_segments

       relative_path = relative_segment [ absolute_path ]

DESCRIPTION
       A Uniform Resource Identifier (URI) is a	 short	string	of  characters
       identifying an abstract or physical resource (for example, a web page).
       A Uniform Resource Locator (URL) is a URI that  identifies  a  resource
       through	its  primary  access mechanism (e.g., its network "location"),
       rather than by name or some other attribute of that resource.   A  Uni‐
       form  Resource Name (URN) is a URI that must remain globally unique and
       persistent even when the resource ceases to exist or  becomes  unavail‐
       able.

       URIs are the standard way to name hypertext link destinations for tools
       such as web browsers.  The string "http://www.kernelnotes.org" is a URL
       (and thus it is also a URI).  Many people use the term URL loosely as a
       synonym for URI (though technically URLs are a subset of URIs).

       URIs can be absolute or relative.  An absolute identifier refers	 to  a
       resource	 independent of context, while a relative identifier refers to
       a resource by describing	 the  difference  from	the  current  context.
       Within  a  relative  path reference, the complete path segments "." and
       ".." have special meanings: "the	 current  hierarchy  level"  and  "the
       level  above  this hierarchy level", respectively, just like they do in
       UNIX-like systems.  A path segment which	 contains  a  colon  character
       can't  be  used	as  the	 first	segment	 of a relative URI path (e.g.,
       "this:that"), because it would be mistaken for a scheme	name;  precede
       such  segments with ./ (e.g., "./this:that").  Note that descendants of
       MS-DOS (e.g., Microsoft Windows) replace	 devicename  colons  with  the
       vertical bar ("|") in URIs, so "C:" becomes "C|".

       A  fragment  identifier, if included, refers to a particular named por‐
       tion (fragment) of a resource; text after a '#'	identifies  the	 frag‐
       ment.   A URI beginning with '#' refers to that fragment in the current
       resource.

   Usage
       There are many different URI schemes,  each  with  specific  additional
       rules and meanings, but they are intentionally made to be as similar as
       possible.  For example, many URL schemes permit the authority to be the
       following format, called here an ip_server (square brackets show what's
       optional):

       ip_server = [user [ : password ] @ ] host [ : port]

       This format allows you to optionally insert a  username,	 a  user  plus
       password,  and/or a port number.	 The host is the name of the host com‐
       puter, either its name as determined by DNS or an IP  address  (numbers
       separated   by	periods).    Thus   the	  URI	<http://fred:fredpass‐
       word@xyz.com:8080/> logs into a web server  on  host  xyz.com  as  fred
       (using  fredpassword) using port 8080.  Avoid including a password in a
       URI if possible because of the many security risks of having a password
       written	down.  If the URL supplies a username but no password, and the
       remote server requests a password, the  program	interpreting  the  URL
       should request one from the user.

       Here  are  some	of the most common schemes in use on UNIX-like systems
       that are understood by many tools.  Note that  many  tools  using  URIs
       also  have  internal  schemes  or specialized schemes; see those tools'
       documentation for information on those schemes.

       http - Web (HTTP) server

       http://ip_server/path
       http://ip_server/path?query

       This is a URL accessing a web (HTTP) server.  The default port  is  80.
       If  the	path refers to a directory, the web server will choose what to
       return; usually if there is a file named	 "index.html"  or  "index.htm"
       its  content is returned, otherwise, a list of the files in the current
       directory (with appropriate links) is generated and returned.  An exam‐
       ple is <http://lwn.net>.

       A  query	 can be given in the archaic "isindex" format, consisting of a
       word or phrase and not including an equal sign (=).  A query  can  also
       be  in  the longer "GET" format, which has one or more query entries of
       the form key=value separated by the ampersand character (&).  Note that
       key  can	 be  repeated more than once, though it's up to the web server
       and its application programs to determine if  there's  any  meaning  to
       that.   There  is an unfortunate interaction with HTML/XML/SGML and the
       GET query format; when such URIs with more than one key are embedded in
       SGML/XML	 documents  (including	HTML),	the  ampersand	(&)  has to be
       rewritten as &.  Note that not all queries use this format;	larger
       forms may be too long to store as a URI, so they use a different inter‐
       action mechanism (called POST) which does not include the data  in  the
       URI.	See    the   Common   Gateway	Interface   specification   at
       ⟨http://www.w3.org/CGI⟩ for more information.

       ftp - File Transfer Protocol (FTP)

       ftp://ip_server/path

       This is a URL accessing a  file	through	 the  file  transfer  protocol
       (FTP).	The  default  port  (for  control)  is	21.  If no username is
       included, the username "anonymous" is supplied, and in that  case  many
       clients provide as the password the requestor's Internet email address.
       An example is <ftp://ftp.is.co.za/rfc/rfc1808.txt>.

       gopher - Gopher server

       gopher://ip_server/gophertype selector
       gopher://ip_server/gophertype selector%09search
       gopher://ip_server/gophertype selector%09search%09gopher+_string

       The default gopher port is 70.  gophertype is a single-character	 field
       to denote the Gopher type of the resource to which the URL refers.  The
       entire path may also be empty, in which case the delimiting "/" is also
       optional and the gophertype defaults to "1".

       selector is the Gopher selector string.	In the Gopher protocol, Gopher
       selector strings are a sequence of octets which may contain any	octets
       except  09  hexadecimal	(US-ASCII HT or tab), 0A hexadecimal (US-ASCII
       character LF), and 0D (US-ASCII character CR).

       mailto - Email address

       mailto:email-address

       This is an email address,  usually  of  the  form  name@hostname.   See
       mailaddr(7)  for	 more  information  on	the correct format of an email
       address.	 Note that any % character must be rewritten as %25.  An exam‐
       ple is <mailto:dwheeler@dwheeler.com>.

       news - Newsgroup or News message

       news:newsgroup-name
       news:message-id

       A  newsgroup-name  is  a	 period-delimited  hierarchical	 name, such as
       "comp.infosystems.www.misc".   If  <newsgroup-name>  is	"*"   (as   in
       <news:*>),  it  is  used	 to  refer to "all available news groups".  An
       example is <news:comp.lang.ada>.

       A  message-id  corresponds  to  the  Message-ID	 of   IETF   RFC 1036,
       ⟨http://www.ietf.org/rfc/rfc1036.txt⟩  without  the  enclosing  "<" and
       ">"; it takes the form unique@full_domain_name.	A  message  identifier
       may  be distinguished from a news group name by the presence of the "@"
       character.

       telnet - Telnet login

       telnet://ip_server/

       The Telnet URL scheme is used to designate  interactive	text  services
       that  may  be accessed by the Telnet protocol.  The final "/" character
       may be  omitted.	  The  default	port  is  23.	An  example  is	 <tel‐
       net://melvyl.ucop.edu/>.

       file - Normal file

       file://ip_server/path_segments
       file:path_segments

       This  represents	 a file or directory accessible locally.  As a special
       case, ip_server can be the string "localhost" or the empty string; this
       is  interpreted	as  "the  machine  from	 which the URL is being inter‐
       preted".	 If the path is to a directory, the viewer should display  the
       directory's contents with links to each containee; not all viewers cur‐
       rently  do  this.   KDE	supports  generated  files  through  the   URL
       <file:/cgi-bin>.	  If  the  given file isn't found, browser writers may
       want to try to expand the filename via filename globbing	 (see  glob(7)
       and glob(3)).

       The  second  format  (e.g., <file:/etc/passwd>) is a correct format for
       referring to a local file.  However, older  standards  did  not	permit
       this  format,  and some programs don't recognize this as a URI.	A more
       portable syntax is to use an empty string as the server name, for exam‐
       ple,  <file:///etc/passwd>; this form does the same thing and is easily
       recognized by pattern matchers and older programs as a URI.  Note  that
       if  you	really	mean  to  say "start from the current location," don't
       specify the scheme at all; use a relative address  like	<../test.txt>,
       which  has  the side-effect of being scheme-independent.	 An example of
       this scheme is <file:///etc/passwd>.

       man - Man page documentation

       man:command-name
       man:command-name(section)

       This refers to local online manual (man) reference pages.  The  command
       name  can  optionally  be followed by a parenthesis and section number;
       see man(7) for more information on the meaning of the section  numbers.
       This  URI  scheme is unique to UNIX-like systems (such as Linux) and is
       not currently registered by the IETF.  An example is <man:ls(1)>.

       info - Info page documentation

       info:virtual-filename
       info:virtual-filename#nodename
       info:(virtual-filename)
       info:(virtual-filename)nodename

       This scheme refers to online info reference pages (generated from  tex‐
       info  files),  a	 documentation format used by programs such as the GNU
       tools.  This URI scheme is unique to UNIX-like systems (such as	Linux)
       and is not currently registered by the IETF.  As of this writing, GNOME
       and KDE differ in their URI syntax and do not accept the	 other's  syn‐
       tax.  The first two formats are the GNOME format; in nodenames all spa‐
       ces are written as underscores.	The second two	formats	 are  the  KDE
       format; spaces in nodenames must be written as spaces, even though this
       is forbidden by the URI standards.  It's hoped that in the future  most
       tools  will  understand	all  of	 these	formats and will always accept
       underscores for spaces in nodenames.  In both GNOME  and	 KDE,  if  the
       form  without the nodename is used the nodename is assumed to be "Top".
       Examples of the GNOME format are <info:gcc> and <info:gcc#G++_and_GCC>.
       Examples	 of  the  KDE  format  are <info:(gcc)> and <info:(gcc)G++ and
       GCC>.

       whatis - Documentation search

       whatis:string

       This scheme searches the database of short (one-line)  descriptions  of
       commands	 and  returns  a  list of descriptions containing that string.
       Only complete word matches are  returned.   See	whatis(1).   This  URI
       scheme  is  unique to UNIX-like systems (such as Linux) and is not cur‐
       rently registered by the IETF.

       ghelp - GNOME help documentation

       ghelp:name-of-application

       This loads GNOME help for the given application.	 Note  that  not  much
       documentation currently exists in this format.

       ldap - Lightweight Directory Access Protocol

       ldap://hostport
       ldap://hostport/
       ldap://hostport/dn
       ldap://hostport/dn?attributes
       ldap://hostport/dn?attributes?scope
       ldap://hostport/dn?attributes?scope?filter
       ldap://hostport/dn?attributes?scope?filter?extensions

       This scheme supports queries to the Lightweight Directory Access Proto‐
       col (LDAP), a protocol for querying a set of servers for hierarchically
       organized  information  (such  as people and computing resources).  See
       RFC 2255 ⟨http://www.ietf.org/rfc/rfc2255.txt⟩ for more information  on
       the LDAP URL scheme.  The components of this URL are:

       hostport	   the	LDAP server to query, written as a hostname optionally
		   followed by a colon and the port number.  The default  LDAP
		   port	 is  TCP  port	389.   If empty, the client determines
		   which the LDAP server to use.

       dn	   the LDAP Distinguished  Name,  which	 identifies  the  base
		   object     of     the    LDAP    search    (see    RFC 2253
		   ⟨http://www.ietf.org/rfc/rfc2253.txt⟩ section 3).

       attributes  a comma-separated list of attributes to  be	returned;  see
		   RFC 2251  section 4.1.5.  If omitted, all attributes should
		   be returned.

       scope	   specifies the scope of the search,  which  can  be  one  of
		   "base"  (for	 a base object search), "one" (for a one-level
		   search), or "sub" (for a  subtree  search).	 If  scope  is
		   omitted, "base" is assumed.

       filter	   specifies  the search filter (subset of entries to return).
		   If omitted, all entries should be returned.	 See  RFC 2254
		   ⟨http://www.ietf.org/rfc/rfc2254.txt⟩ section 4.

       extensions  a  comma-separated  list  of	 type=value  pairs,  where the
		   =value portion may be omitted for options not requiring it.
		   An  extension prefixed with a '!' is critical (must be sup‐
		   ported  to  be  valid),   otherwise	 it   is   noncritical
		   (optional).

       LDAP  queries  are  easiest to explain by example.  Here's a query that
       asks ldap.itd.umich.edu for information about the University of	Michi‐
       gan in the U.S.:

       ldap://ldap.itd.umich.edu/o=University%20of%20Michigan,c=US

       To just get its postal address attribute, request:

       ldap://ldap.itd.umich.edu/o=University%20of%20Michigan,c=US?postalAddress

       To  ask	a  host.com at port 6666 for information about the person with
       common name (cn) "Babs Jensen" at University of Michigan, request:

       ldap://host.com:6666/o=University%20of%20Michigan,c=US??sub?(cn=Babs%20Jensen)

       wais - Wide Area Information Servers

       wais://hostport/database
       wais://hostport/database?search
       wais://hostport/database/wtype/wpath

       This scheme designates a WAIS database, search, or document  (see  IETF
       RFC 1625	 ⟨http://www.ietf.org/rfc/rfc1625.txt⟩ for more information on
       WAIS).  Hostport is the hostname, optionally followed by	 a  colon  and
       port number (the default port number is 210).

       The  first  form	 designates a WAIS database for searching.  The second
       form designates a particular search of the WAIS database database.  The
       third  form  designates a particular document within a WAIS database to
       be retrieved.  wtype is the WAIS designation of the type of the	object
       and wpath is the WAIS document-id.

       other schemes

       There  are many other URI schemes.  Most tools that accept URIs support
       a set of internal URIs (e.g., Mozilla has the about: scheme for	inter‐
       nal  information,  and  the  GNOME help browser has the toc: scheme for
       various starting locations).  There are many  schemes  that  have  been
       defined	but  are  not  as widely used at the current time (e.g., pros‐
       pero).  The nntp: scheme is deprecated in favor of  the	news:  scheme.
       URNs  are  to be supported by the urn: scheme, with a hierarchical name
       space (e.g., urn:ietf:... would identify IETF documents); at this  time
       URNs are not widely implemented.	 Not all tools support all schemes.

   Character encoding
       URIs  use  a  limited number of characters so that they can be typed in
       and used in a variety of situations.

       The following characters are reserved, that is, they may	 appear	 in  a
       URI  but	 their	use  is limited to their reserved purpose (conflicting
       data must be escaped before forming the URI):

		 ; / ? : @ & = + $ ,

       Unreserved characters may be included in a URI.	Unreserved  characters
       include	upper  and lower case English letters, decimal digits, and the
       following limited set of punctuation marks and symbols:

	       - _ . ! ~ * ' ( )

       All other characters must be escaped.  An escaped octet is encoded as a
       character  triplet, consisting of the percent character "%" followed by
       the two hexadecimal digits representing the octet  code	(you  can  use
       upper  or lower case letters for the hexadecimal digits).  For example,
       a blank space must be escaped as "%20", a tab character as  "%09",  and
       the  "&"	 as  "%26".   Because the percent "%" character always has the
       reserved purpose of being the escape indicator, it must be  escaped  as
       "%25".	It  is	common practice to escape space characters as the plus
       symbol (+) in query text; this practice isn't uniformly defined in  the
       relevant RFCs (which recommend %20 instead) but any tool accepting URIs
       with query text should be prepared for them.  A URI is always shown  in
       its "escaped" form.

       Unreserved  characters can be escaped without changing the semantics of
       the URI, but this should not be done unless the URI is being used in  a
       context	that  does  not	 allow the unescaped character to appear.  For
       example, "%7e" is sometimes used instead of "~" in an  HTTP  URL	 path,
       but the two are equivalent for an HTTP URL.

       For  URIs  which	 must handle characters outside the US ASCII character
       set, the HTML 4.01 specification (section B.2) and IETF RFC 2718	 (sec‐
       tion 2.2.5) recommend the following approach:

       1.  translate  the  character  sequences into UTF-8 (IETF RFC 2279)—see
	   utf-8(7)—and then

       2.  use the URI escaping mechanism, that is, use the %HH	 encoding  for
	   unsafe octets.

   Writing a URI
       When  written,  URIs  should  be	 placed	 inside	 double	 quotes (e.g.,
       "http://www.kernelnotes.org"),  enclosed	 in  angle   brackets	(e.g.,
       <http://lwn.net>),  or  placed  on a line by themselves.	 A warning for
       those who use double-quotes: never move extraneous punctuation (such as
       the  period  ending  a  sentence	 or the comma in a list) inside a URI,
       since this will change the value of the URI.  Instead, use angle brack‐
       ets instead, or switch to a quoting system that never includes extrane‐
       ous characters inside quotation marks.  This latter system, called  the
       'new'  or  'logical'  quoting  system by "Hart's Rules" and the "Oxford
       Dictionary for Writers and Editors", is	preferred  practice  in	 Great
       Britain	and hackers worldwide (see the Jargon File's section on Hacker
       Writing		 Style,		  ⟨http://www.fwi.uva.nl/~mes/jargon/h
       /HackerWritingStyle.html⟩, for more information).  Older documents sug‐
       gested inserting the prefix "URL:" just before the URI, but  this  form
       has never caught on.

       The  URI	 syntax was designed to be unambiguous.	 However, as URIs have
       become commonplace, traditional media (television,  radio,  newspapers,
       billboards,  etc.)  have	 increasingly  used abbreviated URI references
       consisting of only the authority and path portions  of  the  identified
       resource	 (e.g., <www.w3.org/Addressing>).  Such references are primar‐
       ily intended for human interpretation rather  than  machine,  with  the
       assumption that context-based heuristics are sufficient to complete the
       URI (e.g., hostnames beginning with "www" are likely to have a URI pre‐
       fix  of	"http://"  and hostnames beginning with "ftp" likely to have a
       prefix of "ftp://").  Many client implementations heuristically resolve
       these  references.   Such heuristics may change over time, particularly
       when new schemes are introduced.	 Since an abbreviated URI has the same
       syntax  as  a  relative	URL path, abbreviated URI references cannot be
       used where relative URIs are permitted, and can be used only when there
       is  no  defined	base (such as in dialog boxes).	 Don't use abbreviated
       URIs as hypertext links inside a document; use the standard  format  as
       described here.

CONFORMING TO
       (IETF   RFC 2396)   ⟨http://www.ietf.org/rfc/rfc2396.txt⟩,  (HTML  4.0)
       ⟨http://www.w3.org/TR/REC-html40⟩.

NOTES
       Any tool accepting URIs (e.g., a web browser) on a Linux system	should
       be able to handle (directly or indirectly) all of the schemes described
       here, including the man: and info: schemes.  Handling them by  invoking
       some other program is fine and in fact encouraged.

       Technically the fragment isn't part of the URI.

       For information on how to embed URIs (including URLs) in a data format,
       see documentation on that format.  HTML uses the format <A  HREF="uri">
       text </A>.  Texinfo files use the format @uref{uri}.  Man and mdoc have
       the recently added UR macro, or just include the URI in the text (view‐
       ers should be able to detect :// as part of a URI).

       The  GNOME and KDE desktop environments currently vary in the URIs they
       accept, in particular in their respective help browsers.	 To  list  man
       pages,  GNOME  uses <toc:man> while KDE uses <man:(index)>, and to list
       info pages, GNOME uses <toc:info>  while	 KDE  uses  <info:(dir)>  (the
       author  of  this	 man page prefers the KDE approach here, though a more
       regular format would be even better).  In general, KDE uses <file:/cgi-
       bin/>  as a prefix to a set of generated files.	KDE prefers documenta‐
       tion  in	 HTML,	accessed  via  the  <file:/cgi-bin/helpindex>.	 GNOME
       prefers	the  ghelp  scheme  to	store and find documentation.  Neither
       browser handles file: references to directories at  the	time  of  this
       writing,	 making	 it  difficult	to refer to an entire directory with a
       browsable URI.  As noted above, these environments differ in  how  they
       handle  the info: scheme, probably the most important variation.	 It is
       expected that GNOME and KDE will converge to common URI formats, and  a
       future  version	of  this  man page will describe the converged result.
       Efforts to aid this convergence are encouraged.

   Security
       A URI does not in itself pose a security threat.	 There is  no  general
       guarantee  that a URL, which at one time located a given resource, will
       continue to do so.  Nor is there any guarantee  that  a	URL  will  not
       locate a different resource at some later point in time; such a guaran‐
       tee can be obtained only from the person(s) controlling that  namespace
       and the resource in question.

       It  is  sometimes  possible  to construct a URL such that an attempt to
       perform a seemingly harmless operation, such as	the  retrieval	of  an
       entity associated with the resource, will in fact cause a possibly dam‐
       aging remote operation to occur.	 The  unsafe  URL  is  typically  con‐
       structed	 by  specifying a port number other than that reserved for the
       network protocol in question.  The client unwittingly contacts  a  site
       that  is	 in fact running a different protocol.	The content of the URL
       contains instructions that, when interpreted according  to  this	 other
       protocol,  cause	 an unexpected operation.  An example has been the use
       of a gopher URL to cause an unintended or impersonating message	to  be
       sent via a SMTP server.

       Caution	should be used when using any URL that specifies a port number
       other than the default for the protocol, especially when it is a number
       within the reserved space.

       Care should be taken when a URI contains escaped delimiters for a given
       protocol (for example, CR and LF characters for telnet protocols)  that
       these  are  not	unescaped before transmission.	This might violate the
       protocol, but avoids the potential for such characters to  be  used  to
       simulate	 an extra operation or parameter in that protocol, which might
       lead to an unexpected and possibly harmful remote operation to be  per‐
       formed.

       It  is  clearly	unwise	to use a URI that contains a password which is
       intended to be secret.  In particular, the use of a password within the
       "userinfo" component of a URI is strongly recommended against except in
       those rare cases where the "password" parameter is intended to be  pub‐
       lic.

BUGS
       Documentation  may  be  placed in a variety of locations, so there cur‐
       rently isn't a good URI scheme  for  general  online  documentation  in
       arbitrary  formats.  References of the form <file:///usr/doc/ZZZ> don't
       work because different distributions and	 local	installation  require‐
       ments  may  place  the  files  in  different  directories (it may be in
       /usr/doc, or /usr/local/doc, or /usr/share, or somewhere else).	 Also,
       the  directory ZZZ usually changes when a version changes (though file‐
       name globbing could partially overcome this).  Finally, using the file:
       scheme doesn't easily support people who dynamically load documentation
       from the Internet (instead of loading the files onto a  local  filesys‐
       tem).   A  future  URI scheme may be added (e.g., "userdoc:") to permit
       programs to include cross-references  to	 more  detailed	 documentation
       without	having	to  know  the  exact  location	of that documentation.
       Alternatively, a future version of  the	filesystem  specification  may
       specify	file  locations	 sufficiently so that the file: scheme will be
       able to locate documentation.

       Many programs and file formats don't include a way  to  incorporate  or
       implement links using URIs.

       Many  programs  can't  handle all of these different URI formats; there
       should be a standard mechanism to load an arbitrary URI that  automati‐
       cally  detects  the users' environment (e.g., text or graphics, desktop
       environment, local user preferences, and currently executing tools) and
       invokes the right tool for any URI.

SEE ALSO
       lynx(1), man2html(1), mailaddr(7), utf-8(7)

       IETF RFC 2255 ⟨http://www.ietf.org/rfc/rfc2255.txt⟩

COLOPHON
       This  page  is  part of release 3.55 of the Linux man-pages project.  A
       description of the project, and information about reporting  bugs,  can
       be found at http://www.kernel.org/doc/man-pages/.

Linux				  2013-05-18				URI(7)
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