1URI(3) User Contributed Perl Documentation URI(3)
2
3
4
6 URI - Uniform Resource Identifiers (absolute and relative)
7
9 use URI;
10
11 $u1 = URI->new("http://www.perl.com");
12 $u2 = URI->new("foo", "http");
13 $u3 = $u2->abs($u1);
14 $u4 = $u3->clone;
15 $u5 = URI->new("HTTP://WWW.perl.com:80")->canonical;
16
17 $str = $u->as_string;
18 $str = "$u";
19
20 $scheme = $u->scheme;
21 $opaque = $u->opaque;
22 $path = $u->path;
23 $frag = $u->fragment;
24
25 $u->scheme("ftp");
26 $u->host("ftp.perl.com");
27 $u->path("cpan/");
28
30 This module implements the "URI" class. Objects of this class
31 represent "Uniform Resource Identifier references" as specified in RFC
32 2396 (and updated by RFC 2732).
33
34 A Uniform Resource Identifier is a compact string of characters that
35 identifies an abstract or physical resource. A Uniform Resource
36 Identifier can be further classified as either a Uniform Resource
37 Locator (URL) or a Uniform Resource Name (URN). The distinction
38 between URL and URN does not matter to the "URI" class interface. A
39 "URI-reference" is a URI that may have additional information attached
40 in the form of a fragment identifier.
41
42 An absolute URI reference consists of three parts: a scheme, a scheme-
43 specific part and a fragment identifier. A subset of URI references
44 share a common syntax for hierarchical namespaces. For these, the
45 scheme-specific part is further broken down into authority, path and
46 query components. These URIs can also take the form of relative URI
47 references, where the scheme (and usually also the authority) component
48 is missing, but implied by the context of the URI reference. The three
49 forms of URI reference syntax are summarized as follows:
50
51 <scheme>:<scheme-specific-part>#<fragment>
52 <scheme>://<authority><path>?<query>#<fragment>
53 <path>?<query>#<fragment>
54
55 The components into which a URI reference can be divided depend on the
56 scheme. The "URI" class provides methods to get and set the individual
57 components. The methods available for a specific "URI" object depend
58 on the scheme.
59
61 The following methods construct new "URI" objects:
62
63 $uri = URI->new( $str )
64 $uri = URI->new( $str, $scheme )
65 Constructs a new URI object. The string representation of a URI is
66 given as argument, together with an optional scheme specification.
67 Common URI wrappers like "" and <>, as well as leading and trailing
68 white space, are automatically removed from the $str argument
69 before it is processed further.
70
71 The constructor determines the scheme, maps this to an appropriate
72 URI subclass, constructs a new object of that class and returns it.
73
74 If the scheme isn't one of those that URI recognizes, you still get
75 an URI object back that you can access the generic methods on. The
76 "$uri->has_recognized_scheme" method can be used to test for this.
77
78 The $scheme argument is only used when $str is a relative URI. It
79 can be either a simple string that denotes the scheme, a string
80 containing an absolute URI reference, or an absolute "URI" object.
81 If no $scheme is specified for a relative URI $str, then $str is
82 simply treated as a generic URI (no scheme-specific methods
83 available).
84
85 The set of characters available for building URI references is
86 restricted (see URI::Escape). Characters outside this set are
87 automatically escaped by the URI constructor.
88
89 $uri = URI->new_abs( $str, $base_uri )
90 Constructs a new absolute URI object. The $str argument can denote
91 a relative or absolute URI. If relative, then it is absolutized
92 using $base_uri as base. The $base_uri must be an absolute URI.
93
94 $uri = URI::file->new( $filename )
95 $uri = URI::file->new( $filename, $os )
96 Constructs a new file URI from a file name. See URI::file.
97
98 $uri = URI::file->new_abs( $filename )
99 $uri = URI::file->new_abs( $filename, $os )
100 Constructs a new absolute file URI from a file name. See
101 URI::file.
102
103 $uri = URI::file->cwd
104 Returns the current working directory as a file URI. See
105 URI::file.
106
107 $uri->clone
108 Returns a copy of the $uri.
109
111 The methods described in this section are available for all "URI"
112 objects.
113
114 Methods that give access to components of a URI always return the old
115 value of the component. The value returned is "undef" if the component
116 was not present. There is generally a difference between a component
117 that is empty (represented as "") and a component that is missing
118 (represented as "undef"). If an accessor method is given an argument,
119 it updates the corresponding component in addition to returning the old
120 value of the component. Passing an undefined argument removes the
121 component (if possible). The description of each accessor method
122 indicates whether the component is passed as an escaped (percent-
123 encoded) or an unescaped string. A component that can be further
124 divided into sub-parts are usually passed escaped, as unescaping might
125 change its semantics.
126
127 The common methods available for all URI are:
128
129 $uri->scheme
130 $uri->scheme( $new_scheme )
131 Sets and returns the scheme part of the $uri. If the $uri is
132 relative, then $uri->scheme returns "undef". If called with an
133 argument, it updates the scheme of $uri, possibly changing the
134 class of $uri, and returns the old scheme value. The method croaks
135 if the new scheme name is illegal; a scheme name must begin with a
136 letter and must consist of only US-ASCII letters, numbers, and a
137 few special marks: ".", "+", "-". This restriction effectively
138 means that the scheme must be passed unescaped. Passing an
139 undefined argument to the scheme method makes the URI relative (if
140 possible).
141
142 Letter case does not matter for scheme names. The string returned
143 by $uri->scheme is always lowercase. If you want the scheme just
144 as it was written in the URI in its original case, you can use the
145 $uri->_scheme method instead.
146
147 $uri->has_recognized_scheme
148 Returns TRUE if the URI scheme is one that URI recognizes.
149
150 It will also be TRUE for relative URLs where a recognized scheme
151 was provided to the constructor, even if "$uri->scheme" returns
152 "undef" for these.
153
154 $uri->opaque
155 $uri->opaque( $new_opaque )
156 Sets and returns the scheme-specific part of the $uri (everything
157 between the scheme and the fragment) as an escaped string.
158
159 $uri->path
160 $uri->path( $new_path )
161 Sets and returns the same value as $uri->opaque unless the URI
162 supports the generic syntax for hierarchical namespaces. In that
163 case the generic method is overridden to set and return the part of
164 the URI between the host name and the fragment.
165
166 $uri->fragment
167 $uri->fragment( $new_frag )
168 Returns the fragment identifier of a URI reference as an escaped
169 string.
170
171 $uri->as_string
172 Returns a URI object to a plain ASCII string. URI objects are also
173 converted to plain strings automatically by overloading. This
174 means that $uri objects can be used as plain strings in most Perl
175 constructs.
176
177 $uri->as_iri
178 Returns a Unicode string representing the URI. Escaped UTF-8
179 sequences representing non-ASCII characters are turned into their
180 corresponding Unicode code point.
181
182 $uri->canonical
183 Returns a normalized version of the URI. The rules for
184 normalization are scheme-dependent. They usually involve
185 lowercasing the scheme and Internet host name components, removing
186 the explicit port specification if it matches the default port,
187 uppercasing all escape sequences, and unescaping octets that can be
188 better represented as plain characters.
189
190 For efficiency reasons, if the $uri is already in normalized form,
191 then a reference to it is returned instead of a copy.
192
193 $uri->eq( $other_uri )
194 URI::eq( $first_uri, $other_uri )
195 Tests whether two URI references are equal. URI references that
196 normalize to the same string are considered equal. The method can
197 also be used as a plain function which can also test two string
198 arguments.
199
200 If you need to test whether two "URI" object references denote the
201 same object, use the '==' operator.
202
203 $uri->abs( $base_uri )
204 Returns an absolute URI reference. If $uri is already absolute,
205 then a reference to it is simply returned. If the $uri is
206 relative, then a new absolute URI is constructed by combining the
207 $uri and the $base_uri, and returned.
208
209 $uri->rel( $base_uri )
210 Returns a relative URI reference if it is possible to make one that
211 denotes the same resource relative to $base_uri. If not, then $uri
212 is simply returned.
213
214 $uri->secure
215 Returns a TRUE value if the URI is considered to point to a
216 resource on a secure channel, such as an SSL or TLS encrypted one.
217
219 The following methods are available to schemes that use the
220 common/generic syntax for hierarchical namespaces. The descriptions of
221 schemes below indicate which these are. Unrecognized schemes are
222 assumed to support the generic syntax, and therefore the following
223 methods:
224
225 $uri->authority
226 $uri->authority( $new_authority )
227 Sets and returns the escaped authority component of the $uri.
228
229 $uri->path
230 $uri->path( $new_path )
231 Sets and returns the escaped path component of the $uri (the part
232 between the host name and the query or fragment). The path can
233 never be undefined, but it can be the empty string.
234
235 $uri->path_query
236 $uri->path_query( $new_path_query )
237 Sets and returns the escaped path and query components as a single
238 entity. The path and the query are separated by a "?" character,
239 but the query can itself contain "?".
240
241 $uri->path_segments
242 $uri->path_segments( $segment, ... )
243 Sets and returns the path. In a scalar context, it returns the
244 same value as $uri->path. In a list context, it returns the
245 unescaped path segments that make up the path. Path segments that
246 have parameters are returned as an anonymous array. The first
247 element is the unescaped path segment proper; subsequent elements
248 are escaped parameter strings. Such an anonymous array uses
249 overloading so it can be treated as a string too, but this string
250 does not include the parameters.
251
252 Note that absolute paths have the empty string as their first
253 path_segment, i.e. the path "/foo/bar" have 3 path_segments; "",
254 "foo" and "bar".
255
256 $uri->query
257 $uri->query( $new_query )
258 Sets and returns the escaped query component of the $uri.
259
260 $uri->query_form
261 $uri->query_form( $key1 => $val1, $key2 => $val2, ... )
262 $uri->query_form( $key1 => $val1, $key2 => $val2, ..., $delim )
263 $uri->query_form( \@key_value_pairs )
264 $uri->query_form( \@key_value_pairs, $delim )
265 $uri->query_form( \%hash )
266 $uri->query_form( \%hash, $delim )
267 Sets and returns query components that use the
268 application/x-www-form-urlencoded format. Key/value pairs are
269 separated by "&", and the key is separated from the value by a "="
270 character.
271
272 The form can be set either by passing separate key/value pairs, or
273 via an array or hash reference. Passing an empty array or an empty
274 hash removes the query component, whereas passing no arguments at
275 all leaves the component unchanged. The order of keys is undefined
276 if a hash reference is passed. The old value is always returned as
277 a list of separate key/value pairs. Assigning this list to a hash
278 is unwise as the keys returned might repeat.
279
280 The values passed when setting the form can be plain strings or
281 references to arrays of strings. Passing an array of values has
282 the same effect as passing the key repeatedly with one value at a
283 time. All the following statements have the same effect:
284
285 $uri->query_form(foo => 1, foo => 2);
286 $uri->query_form(foo => [1, 2]);
287 $uri->query_form([ foo => 1, foo => 2 ]);
288 $uri->query_form([ foo => [1, 2] ]);
289 $uri->query_form({ foo => [1, 2] });
290
291 The $delim parameter can be passed as ";" to force the key/value
292 pairs to be delimited by ";" instead of "&" in the query string.
293 This practice is often recommended for URLs embedded in HTML or XML
294 documents as this avoids the trouble of escaping the "&" character.
295 You might also set the $URI::DEFAULT_QUERY_FORM_DELIMITER variable
296 to ";" for the same global effect.
297
298 The "URI::QueryParam" module can be loaded to add further methods
299 to manipulate the form of a URI. See URI::QueryParam for details.
300
301 $uri->query_keywords
302 $uri->query_keywords( $keywords, ... )
303 $uri->query_keywords( \@keywords )
304 Sets and returns query components that use the keywords separated
305 by "+" format.
306
307 The keywords can be set either by passing separate keywords
308 directly or by passing a reference to an array of keywords.
309 Passing an empty array removes the query component, whereas passing
310 no arguments at all leaves the component unchanged. The old value
311 is always returned as a list of separate words.
312
314 For schemes where the authority component denotes an Internet host, the
315 following methods are available in addition to the generic methods.
316
317 $uri->userinfo
318 $uri->userinfo( $new_userinfo )
319 Sets and returns the escaped userinfo part of the authority
320 component.
321
322 For some schemes this is a user name and a password separated by a
323 colon. This practice is not recommended. Embedding passwords in
324 clear text (such as URI) has proven to be a security risk in almost
325 every case where it has been used.
326
327 $uri->host
328 $uri->host( $new_host )
329 Sets and returns the unescaped hostname.
330
331 If the $new_host string ends with a colon and a number, then this
332 number also sets the port.
333
334 For IPv6 addresses the brackets around the raw address is removed
335 in the return value from $uri->host. When setting the host
336 attribute to an IPv6 address you can use a raw address or one
337 enclosed in brackets. The address needs to be enclosed in brackets
338 if you want to pass in a new port value as well.
339
340 $uri->ihost
341 Returns the host in Unicode form. Any IDNA A-labels are turned
342 into U-labels.
343
344 $uri->port
345 $uri->port( $new_port )
346 Sets and returns the port. The port is a simple integer that
347 should be greater than 0.
348
349 If a port is not specified explicitly in the URI, then the URI
350 scheme's default port is returned. If you don't want the default
351 port substituted, then you can use the $uri->_port method instead.
352
353 $uri->host_port
354 $uri->host_port( $new_host_port )
355 Sets and returns the host and port as a single unit. The returned
356 value includes a port, even if it matches the default port. The
357 host part and the port part are separated by a colon: ":".
358
359 For IPv6 addresses the bracketing is preserved; thus
360 URI->new("http://[::1]/")->host_port returns "[::1]:80". Contrast
361 this with $uri->host which will remove the brackets.
362
363 $uri->default_port
364 Returns the default port of the URI scheme to which $uri belongs.
365 For http this is the number 80, for ftp this is the number 21, etc.
366 The default port for a scheme can not be changed.
367
369 Scheme-specific support is provided for the following URI schemes. For
370 "URI" objects that do not belong to one of these, you can only use the
371 common and generic methods.
372
373 data:
374 The data URI scheme is specified in RFC 2397. It allows inclusion
375 of small data items as "immediate" data, as if it had been included
376 externally.
377
378 "URI" objects belonging to the data scheme support the common
379 methods and two new methods to access their scheme-specific
380 components: $uri->media_type and $uri->data. See URI::data for
381 details.
382
383 file:
384 An old specification of the file URI scheme is found in RFC 1738.
385 A new RFC 2396 based specification in not available yet, but file
386 URI references are in common use.
387
388 "URI" objects belonging to the file scheme support the common and
389 generic methods. In addition, they provide two methods for mapping
390 file URIs back to local file names; $uri->file and $uri->dir. See
391 URI::file for details.
392
393 ftp:
394 An old specification of the ftp URI scheme is found in RFC 1738. A
395 new RFC 2396 based specification in not available yet, but ftp URI
396 references are in common use.
397
398 "URI" objects belonging to the ftp scheme support the common,
399 generic and server methods. In addition, they provide two methods
400 for accessing the userinfo sub-components: $uri->user and
401 $uri->password.
402
403 gopher:
404 The gopher URI scheme is specified in
405 <draft-murali-url-gopher-1996-12-04> and will hopefully be
406 available as a RFC 2396 based specification.
407
408 "URI" objects belonging to the gopher scheme support the common,
409 generic and server methods. In addition, they support some methods
410 for accessing gopher-specific path components: $uri->gopher_type,
411 $uri->selector, $uri->search, $uri->string.
412
413 http:
414 The http URI scheme is specified in RFC 2616. The scheme is used
415 to reference resources hosted by HTTP servers.
416
417 "URI" objects belonging to the http scheme support the common,
418 generic and server methods.
419
420 https:
421 The https URI scheme is a Netscape invention which is commonly
422 implemented. The scheme is used to reference HTTP servers through
423 SSL connections. Its syntax is the same as http, but the default
424 port is different.
425
426 ldap:
427 The ldap URI scheme is specified in RFC 2255. LDAP is the
428 Lightweight Directory Access Protocol. An ldap URI describes an
429 LDAP search operation to perform to retrieve information from an
430 LDAP directory.
431
432 "URI" objects belonging to the ldap scheme support the common,
433 generic and server methods as well as ldap-specific methods:
434 $uri->dn, $uri->attributes, $uri->scope, $uri->filter,
435 $uri->extensions. See URI::ldap for details.
436
437 ldapi:
438 Like the ldap URI scheme, but uses a UNIX domain socket. The
439 server methods are not supported, and the local socket path is
440 available as $uri->un_path. The ldapi scheme is used by the
441 OpenLDAP package. There is no real specification for it, but it is
442 mentioned in various OpenLDAP manual pages.
443
444 ldaps:
445 Like the ldap URI scheme, but uses an SSL connection. This scheme
446 is deprecated, as the preferred way is to use the start_tls
447 mechanism.
448
449 mailto:
450 The mailto URI scheme is specified in RFC 2368. The scheme was
451 originally used to designate the Internet mailing address of an
452 individual or service. It has (in RFC 2368) been extended to allow
453 setting of other mail header fields and the message body.
454
455 "URI" objects belonging to the mailto scheme support the common
456 methods and the generic query methods. In addition, they support
457 the following mailto-specific methods: $uri->to, $uri->headers.
458
459 Note that the "foo@example.com" part of a mailto is not the
460 "userinfo" and "host" but instead the "path". This allows a mailto
461 URI to contain multiple comma separated email addresses.
462
463 mms:
464 The mms URL specification can be found at <http://sdp.ppona.com/>.
465 "URI" objects belonging to the mms scheme support the common,
466 generic, and server methods, with the exception of userinfo and
467 query-related sub-components.
468
469 news:
470 The news, nntp and snews URI schemes are specified in
471 <draft-gilman-news-url-01> and will hopefully be available as an
472 RFC 2396 based specification soon.
473
474 "URI" objects belonging to the news scheme support the common,
475 generic and server methods. In addition, they provide some methods
476 to access the path: $uri->group and $uri->message.
477
478 nntp:
479 See news scheme.
480
481 pop:
482 The pop URI scheme is specified in RFC 2384. The scheme is used to
483 reference a POP3 mailbox.
484
485 "URI" objects belonging to the pop scheme support the common,
486 generic and server methods. In addition, they provide two methods
487 to access the userinfo components: $uri->user and $uri->auth
488
489 rlogin:
490 An old specification of the rlogin URI scheme is found in RFC 1738.
491 "URI" objects belonging to the rlogin scheme support the common,
492 generic and server methods.
493
494 rtsp:
495 The rtsp URL specification can be found in section 3.2 of RFC 2326.
496 "URI" objects belonging to the rtsp scheme support the common,
497 generic, and server methods, with the exception of userinfo and
498 query-related sub-components.
499
500 rtspu:
501 The rtspu URI scheme is used to talk to RTSP servers over UDP
502 instead of TCP. The syntax is the same as rtsp.
503
504 rsync:
505 Information about rsync is available from
506 <http://rsync.samba.org/>. "URI" objects belonging to the rsync
507 scheme support the common, generic and server methods. In
508 addition, they provide methods to access the userinfo sub-
509 components: $uri->user and $uri->password.
510
511 sip:
512 The sip URI specification is described in sections 19.1 and 25 of
513 RFC 3261. "URI" objects belonging to the sip scheme support the
514 common, generic, and server methods with the exception of path
515 related sub-components. In addition, they provide two methods to
516 get and set sip parameters: $uri->params_form and $uri->params.
517
518 sips:
519 See sip scheme. Its syntax is the same as sip, but the default
520 port is different.
521
522 snews:
523 See news scheme. Its syntax is the same as news, but the default
524 port is different.
525
526 telnet:
527 An old specification of the telnet URI scheme is found in RFC 1738.
528 "URI" objects belonging to the telnet scheme support the common,
529 generic and server methods.
530
531 tn3270:
532 These URIs are used like telnet URIs but for connections to IBM
533 mainframes. "URI" objects belonging to the tn3270 scheme support
534 the common, generic and server methods.
535
536 ssh:
537 Information about ssh is available at <http://www.openssh.com/>.
538 "URI" objects belonging to the ssh scheme support the common,
539 generic and server methods. In addition, they provide methods to
540 access the userinfo sub-components: $uri->user and $uri->password.
541
542 sftp:
543 "URI" objects belonging to the sftp scheme support the common,
544 generic and server methods. In addition, they provide methods to
545 access the userinfo sub-components: $uri->user and $uri->password.
546
547 urn:
548 The syntax of Uniform Resource Names is specified in RFC 2141.
549 "URI" objects belonging to the urn scheme provide the common
550 methods, and also the methods $uri->nid and $uri->nss, which return
551 the Namespace Identifier and the Namespace-Specific String
552 respectively.
553
554 The Namespace Identifier basically works like the Scheme identifier
555 of URIs, and further divides the URN namespace. Namespace
556 Identifier assignments are maintained at
557 <http://www.iana.org/assignments/urn-namespaces>.
558
559 Letter case is not significant for the Namespace Identifier. It is
560 always returned in lower case by the $uri->nid method. The
561 $uri->_nid method can be used if you want it in its original case.
562
563 urn:isbn:
564 The "urn:isbn:" namespace contains International Standard Book
565 Numbers (ISBNs) and is described in RFC 3187. A "URI" object
566 belonging to this namespace has the following extra methods (if the
567 Business::ISBN module is available): $uri->isbn,
568 $uri->isbn_publisher_code, $uri->isbn_group_code (formerly
569 isbn_country_code, which is still supported by issues a deprecation
570 warning), $uri->isbn_as_ean.
571
572 urn:oid:
573 The "urn:oid:" namespace contains Object Identifiers (OIDs) and is
574 described in RFC 3061. An object identifier consists of sequences
575 of digits separated by dots. A "URI" object belonging to this
576 namespace has an additional method called $uri->oid that can be
577 used to get/set the oid value. In a list context, oid numbers are
578 returned as separate elements.
579
581 The following configuration variables influence how the class and its
582 methods behave:
583
584 $URI::ABS_ALLOW_RELATIVE_SCHEME
585 Some older parsers used to allow the scheme name to be present in
586 the relative URL if it was the same as the base URL scheme. RFC
587 2396 says that this should be avoided, but you can enable this old
588 behaviour by setting the $URI::ABS_ALLOW_RELATIVE_SCHEME variable
589 to a TRUE value. The difference is demonstrated by the following
590 examples:
591
592 URI->new("http:foo")->abs("http://host/a/b")
593 ==> "http:foo"
594
595 local $URI::ABS_ALLOW_RELATIVE_SCHEME = 1;
596 URI->new("http:foo")->abs("http://host/a/b")
597 ==> "http:/host/a/foo"
598
599 $URI::ABS_REMOTE_LEADING_DOTS
600 You can also have the abs() method ignore excess ".." segments in
601 the relative URI by setting $URI::ABS_REMOTE_LEADING_DOTS to a TRUE
602 value. The difference is demonstrated by the following examples:
603
604 URI->new("../../../foo")->abs("http://host/a/b")
605 ==> "http://host/../../foo"
606
607 local $URI::ABS_REMOTE_LEADING_DOTS = 1;
608 URI->new("../../../foo")->abs("http://host/a/b")
609 ==> "http://host/foo"
610
611 $URI::DEFAULT_QUERY_FORM_DELIMITER
612 This value can be set to ";" to have the query form "key=value"
613 pairs delimited by ";" instead of "&" which is the default.
614
616 There are some things that are not quite right:
617
618 · Using regexp variables like $1 directly as arguments to the URI
619 accessor methods does not work too well with current perl
620 implementations. I would argue that this is actually a bug in
621 perl. The workaround is to quote them. Example:
622
623 /(...)/ || die;
624 $u->query("$1");
625
626 · The escaping (percent encoding) of chars in the 128 .. 255 range
627 passed to the URI constructor or when setting URI parts using the
628 accessor methods depend on the state of the internal UTF8 flag (see
629 utf8::is_utf8) of the string passed. If the UTF8 flag is set the
630 UTF-8 encoded version of the character is percent encoded. If the
631 UTF8 flag isn't set the Latin-1 version (byte) of the character is
632 percent encoded. This basically exposes the internal encoding of
633 Perl strings.
634
636 As an alternative to this module, the following (official) regular
637 expression can be used to decode a URI:
638
639 my($scheme, $authority, $path, $query, $fragment) =
640 $uri =~ m|(?:([^:/?#]+):)?(?://([^/?#]*))?([^?#]*)(?:\?([^#]*))?(?:#(.*))?|;
641
642 The "URI::Split" module provides the function uri_split() as a readable
643 alternative.
644
646 URI::file, URI::WithBase, URI::QueryParam, URI::Escape, URI::Split,
647 URI::Heuristic
648
649 RFC 2396: "Uniform Resource Identifiers (URI): Generic Syntax",
650 Berners-Lee, Fielding, Masinter, August 1998.
651
652 <http://www.iana.org/assignments/uri-schemes>
653
654 <http://www.iana.org/assignments/urn-namespaces>
655
656 <http://www.w3.org/Addressing/>
657
659 Copyright 1995-2009 Gisle Aas.
660
661 Copyright 1995 Martijn Koster.
662
663 This program is free software; you can redistribute it and/or modify it
664 under the same terms as Perl itself.
665
667 This module is based on the "URI::URL" module, which in turn was
668 (distantly) based on the "wwwurl.pl" code in the libwww-perl for perl4
669 developed by Roy Fielding, as part of the Arcadia project at the
670 University of California, Irvine, with contributions from Brooks
671 Cutter.
672
673 "URI::URL" was developed by Gisle Aas, Tim Bunce, Roy Fielding and
674 Martijn Koster with input from other people on the libwww-perl mailing
675 list.
676
677 "URI" and related subclasses was developed by Gisle Aas.
678
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681perl v5.30.1 2020-01-30 URI(3)