1 /* Based on nsURLParsers.cc from Mozilla
2 * -------------------------------------
3 * The contents of this file are subject to the Mozilla Public License Version
4 * 1.1 (the "License"); you may not use this file except in compliance with
5 * the License. You may obtain a copy of the License at
6 * http://www.mozilla.org/MPL/
8 * Software distributed under the License is distributed on an "AS IS" basis,
9 * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
10 * for the specific language governing rights and limitations under the
13 * The Original Code is mozilla.org code.
15 * The Initial Developer of the Original Code is
16 * Netscape Communications Corporation.
17 * Portions created by the Initial Developer are Copyright (C) 1998
18 * the Initial Developer. All Rights Reserved.
21 * Darin Fisher (original author)
23 * Alternatively, the contents of this file may be used under the terms of
24 * either the GNU General Public License Version 2 or later (the "GPL"), or
25 * the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
26 * in which case the provisions of the GPL or the LGPL are applicable instead
27 * of those above. If you wish to allow use of your version of this file only
28 * under the terms of either the GPL or the LGPL, and not to allow others to
29 * use your version of this file under the terms of the MPL, indicate your
30 * decision by deleting the provisions above and replace them with the notice
31 * and other provisions required by the GPL or the LGPL. If you do not delete
32 * the provisions above, a recipient may use your version of this file under
33 * the terms of any one of the MPL, the GPL or the LGPL.
35 * ***** END LICENSE BLOCK ***** */
37 #include "url/url_parse.h"
41 #include "base/logging.h"
42 #include "url/url_parse_internal.h"
43 #include "url/url_util.h"
44 #include "url/url_util_internal.h"
50 // Returns true if the given character is a valid digit to use in a port.
51 inline bool IsPortDigit(char16 ch
) {
52 return ch
>= '0' && ch
<= '9';
55 // Returns the offset of the next authority terminator in the input starting
56 // from start_offset. If no terminator is found, the return value will be equal
58 template<typename CHAR
>
59 int FindNextAuthorityTerminator(const CHAR
* spec
,
62 for (int i
= start_offset
; i
< spec_len
; i
++) {
63 if (IsAuthorityTerminator(spec
[i
]))
66 return spec_len
; // Not found.
69 template<typename CHAR
>
70 void ParseUserInfo(const CHAR
* spec
,
71 const Component
& user
,
73 Component
* password
) {
74 // Find the first colon in the user section, which separates the username and
77 while (colon_offset
< user
.len
&& spec
[user
.begin
+ colon_offset
] != ':')
80 if (colon_offset
< user
.len
) {
81 // Found separator: <username>:<password>
82 *username
= Component(user
.begin
, colon_offset
);
83 *password
= MakeRange(user
.begin
+ colon_offset
+ 1,
84 user
.begin
+ user
.len
);
86 // No separator, treat everything as the username
88 *password
= Component();
92 template<typename CHAR
>
93 void ParseServerInfo(const CHAR
* spec
,
94 const Component
& serverinfo
,
96 Component
* port_num
) {
97 if (serverinfo
.len
== 0) {
98 // No server info, host name is empty.
104 // If the host starts with a left-bracket, assume the entire host is an
105 // IPv6 literal. Otherwise, assume none of the host is an IPv6 literal.
106 // This assumption will be overridden if we find a right-bracket.
108 // Our IPv6 address canonicalization code requires both brackets to exist,
109 // but the ability to locate an incomplete address can still be useful.
110 int ipv6_terminator
= spec
[serverinfo
.begin
] == '[' ? serverinfo
.end() : -1;
113 // Find the last right-bracket, and the last colon.
114 for (int i
= serverinfo
.begin
; i
< serverinfo
.end(); i
++) {
125 if (colon
> ipv6_terminator
) {
126 // Found a port number: <hostname>:<port>
127 *hostname
= MakeRange(serverinfo
.begin
, colon
);
128 if (hostname
->len
== 0)
130 *port_num
= MakeRange(colon
+ 1, serverinfo
.end());
132 // No port: <hostname>
133 *hostname
= serverinfo
;
138 // Given an already-identified auth section, breaks it into its consituent
139 // parts. The port number will be parsed and the resulting integer will be
140 // filled into the given *port variable, or -1 if there is no port number or it
142 template<typename CHAR
>
143 void DoParseAuthority(const CHAR
* spec
,
144 const Component
& auth
,
148 Component
* port_num
) {
149 DCHECK(auth
.is_valid()) << "We should always get an authority";
158 // Search backwards for @, which is the separator between the user info and
160 int i
= auth
.begin
+ auth
.len
- 1;
161 while (i
> auth
.begin
&& spec
[i
] != '@')
164 if (spec
[i
] == '@') {
165 // Found user info: <user-info>@<server-info>
166 ParseUserInfo(spec
, Component(auth
.begin
, i
- auth
.begin
),
168 ParseServerInfo(spec
, MakeRange(i
+ 1, auth
.begin
+ auth
.len
),
171 // No user info, everything is server info.
174 ParseServerInfo(spec
, auth
, hostname
, port_num
);
178 template<typename CHAR
>
179 void ParsePath(const CHAR
* spec
,
180 const Component
& path
,
184 // path = [/]<segment1>/<segment2>/<...>/<segmentN>;<param>?<query>#<ref>
186 // Special case when there is no path.
187 if (path
.len
== -1) {
193 DCHECK(path
.len
> 0) << "We should never have 0 length paths";
195 // Search for first occurrence of either ? or #.
196 int path_end
= path
.begin
+ path
.len
;
198 int query_separator
= -1; // Index of the '?'
199 int ref_separator
= -1; // Index of the '#'
200 for (int i
= path
.begin
; i
< path_end
; i
++) {
203 // Only match the query string if it precedes the reference fragment
204 // and when we haven't found one already.
205 if (ref_separator
< 0 && query_separator
< 0)
209 // Record the first # sign only.
210 if (ref_separator
< 0)
216 // Markers pointing to the character after each of these corresponding
217 // components. The code below words from the end back to the beginning,
218 // and will update these indices as it finds components that exist.
219 int file_end
, query_end
;
221 // Ref fragment: from the # to the end of the path.
222 if (ref_separator
>= 0) {
223 file_end
= query_end
= ref_separator
;
224 *ref
= MakeRange(ref_separator
+ 1, path_end
);
226 file_end
= query_end
= path_end
;
230 // Query fragment: everything from the ? to the next boundary (either the end
231 // of the path or the ref fragment).
232 if (query_separator
>= 0) {
233 file_end
= query_separator
;
234 *query
= MakeRange(query_separator
+ 1, query_end
);
239 // File path: treat an empty file path as no file path.
240 if (file_end
!= path
.begin
)
241 *filepath
= MakeRange(path
.begin
, file_end
);
246 template<typename CHAR
>
247 bool DoExtractScheme(const CHAR
* url
,
250 // Skip leading whitespace and control characters.
252 while (begin
< url_len
&& ShouldTrimFromURL(url
[begin
]))
254 if (begin
== url_len
)
255 return false; // Input is empty or all whitespace.
257 // Find the first colon character.
258 for (int i
= begin
; i
< url_len
; i
++) {
260 *scheme
= MakeRange(begin
, i
);
264 return false; // No colon found: no scheme
267 // Fills in all members of the Parsed structure except for the scheme.
269 // |spec| is the full spec being parsed, of length |spec_len|.
270 // |after_scheme| is the character immediately following the scheme (after the
271 // colon) where we'll begin parsing.
273 // Compatability data points. I list "host", "path" extracted:
274 // Input IE6 Firefox Us
275 // ----- -------------- -------------- --------------
276 // http://foo.com/ "foo.com", "/" "foo.com", "/" "foo.com", "/"
277 // http:foo.com/ "foo.com", "/" "foo.com", "/" "foo.com", "/"
278 // http:/foo.com/ fail(*) "foo.com", "/" "foo.com", "/"
279 // http:\foo.com/ fail(*) "\foo.com", "/"(fail) "foo.com", "/"
280 // http:////foo.com/ "foo.com", "/" "foo.com", "/" "foo.com", "/"
282 // (*) Interestingly, although IE fails to load these URLs, its history
283 // canonicalizer handles them, meaning if you've been to the corresponding
284 // "http://foo.com/" link, it will be colored.
285 template <typename CHAR
>
286 void DoParseAfterScheme(const CHAR
* spec
,
290 int num_slashes
= CountConsecutiveSlashes(spec
, after_scheme
, spec_len
);
291 int after_slashes
= after_scheme
+ num_slashes
;
293 // First split into two main parts, the authority (username, password, host,
294 // and port) and the full path (path, query, and reference).
298 // Found "//<some data>", looks like an authority section. Treat everything
299 // from there to the next slash (or end of spec) to be the authority. Note
300 // that we ignore the number of slashes and treat it as the authority.
301 int end_auth
= FindNextAuthorityTerminator(spec
, after_slashes
, spec_len
);
302 authority
= Component(after_slashes
, end_auth
- after_slashes
);
304 if (end_auth
== spec_len
) // No beginning of path found.
305 full_path
= Component();
306 else // Everything starting from the slash to the end is the path.
307 full_path
= Component(end_auth
, spec_len
- end_auth
);
309 // Now parse those two sub-parts.
310 DoParseAuthority(spec
, authority
, &parsed
->username
, &parsed
->password
,
311 &parsed
->host
, &parsed
->port
);
312 ParsePath(spec
, full_path
, &parsed
->path
, &parsed
->query
, &parsed
->ref
);
315 // The main parsing function for standard URLs. Standard URLs have a scheme,
317 template<typename CHAR
>
318 void DoParseStandardURL(const CHAR
* spec
, int spec_len
, Parsed
* parsed
) {
319 DCHECK(spec_len
>= 0);
321 // Strip leading & trailing spaces and control characters.
323 TrimURL(spec
, &begin
, &spec_len
);
326 if (DoExtractScheme(spec
, spec_len
, &parsed
->scheme
)) {
327 after_scheme
= parsed
->scheme
.end() + 1; // Skip past the colon.
329 // Say there's no scheme when there is no colon. We could also say that
330 // everything is the scheme. Both would produce an invalid URL, but this way
331 // seems less wrong in more cases.
332 parsed
->scheme
.reset();
333 after_scheme
= begin
;
335 DoParseAfterScheme(spec
, spec_len
, after_scheme
, parsed
);
338 template<typename CHAR
>
339 void DoParseFileSystemURL(const CHAR
* spec
, int spec_len
, Parsed
* parsed
) {
340 DCHECK(spec_len
>= 0);
342 // Get the unused parts of the URL out of the way.
343 parsed
->username
.reset();
344 parsed
->password
.reset();
345 parsed
->host
.reset();
346 parsed
->port
.reset();
347 parsed
->path
.reset(); // May use this; reset for convenience.
348 parsed
->ref
.reset(); // May use this; reset for convenience.
349 parsed
->query
.reset(); // May use this; reset for convenience.
350 parsed
->clear_inner_parsed(); // May use this; reset for convenience.
352 // Strip leading & trailing spaces and control characters.
354 TrimURL(spec
, &begin
, &spec_len
);
356 // Handle empty specs or ones that contain only whitespace or control chars.
357 if (begin
== spec_len
) {
358 parsed
->scheme
.reset();
362 int inner_start
= -1;
364 // Extract the scheme. We also handle the case where there is no scheme.
365 if (DoExtractScheme(&spec
[begin
], spec_len
- begin
, &parsed
->scheme
)) {
366 // Offset the results since we gave ExtractScheme a substring.
367 parsed
->scheme
.begin
+= begin
;
369 if (parsed
->scheme
.end() == spec_len
- 1)
372 inner_start
= parsed
->scheme
.end() + 1;
374 // No scheme found; that's not valid for filesystem URLs.
375 parsed
->scheme
.reset();
379 url_parse::Component inner_scheme
;
380 const CHAR
* inner_spec
= &spec
[inner_start
];
381 int inner_spec_len
= spec_len
- inner_start
;
383 if (DoExtractScheme(inner_spec
, inner_spec_len
, &inner_scheme
)) {
384 // Offset the results since we gave ExtractScheme a substring.
385 inner_scheme
.begin
+= inner_start
;
387 if (inner_scheme
.end() == spec_len
- 1)
390 // No scheme found; that's not valid for filesystem URLs.
391 // The best we can do is return "filesystem://".
397 if (url_util::CompareSchemeComponent(
398 spec
, inner_scheme
, url_util::kFileScheme
)) {
399 // File URLs are special.
400 ParseFileURL(inner_spec
, inner_spec_len
, &inner_parsed
);
401 } else if (url_util::CompareSchemeComponent(spec
, inner_scheme
,
402 url_util::kFileSystemScheme
)) {
403 // Filesystem URLs don't nest.
405 } else if (url_util::IsStandard(spec
, inner_scheme
)) {
406 // All "normal" URLs.
407 DoParseStandardURL(inner_spec
, inner_spec_len
, &inner_parsed
);
412 // All members of inner_parsed need to be offset by inner_start.
413 // If we had any scheme that supported nesting more than one level deep,
414 // we'd have to recurse into the inner_parsed's inner_parsed when
415 // adjusting by inner_start.
416 inner_parsed
.scheme
.begin
+= inner_start
;
417 inner_parsed
.username
.begin
+= inner_start
;
418 inner_parsed
.password
.begin
+= inner_start
;
419 inner_parsed
.host
.begin
+= inner_start
;
420 inner_parsed
.port
.begin
+= inner_start
;
421 inner_parsed
.query
.begin
+= inner_start
;
422 inner_parsed
.ref
.begin
+= inner_start
;
423 inner_parsed
.path
.begin
+= inner_start
;
425 // Query and ref move from inner_parsed to parsed.
426 parsed
->query
= inner_parsed
.query
;
427 inner_parsed
.query
.reset();
428 parsed
->ref
= inner_parsed
.ref
;
429 inner_parsed
.ref
.reset();
431 parsed
->set_inner_parsed(inner_parsed
);
432 if (!inner_parsed
.scheme
.is_valid() || !inner_parsed
.path
.is_valid() ||
433 inner_parsed
.inner_parsed()) {
437 // The path in inner_parsed should start with a slash, then have a filesystem
438 // type followed by a slash. From the first slash up to but excluding the
439 // second should be what it keeps; the rest goes to parsed. If the path ends
440 // before the second slash, it's still pretty clear what the user meant, so
441 // we'll let that through.
442 if (!IsURLSlash(spec
[inner_parsed
.path
.begin
])) {
445 int inner_path_end
= inner_parsed
.path
.begin
+ 1; // skip the leading slash
446 while (inner_path_end
< spec_len
&&
447 !IsURLSlash(spec
[inner_path_end
]))
449 parsed
->path
.begin
= inner_path_end
;
450 int new_inner_path_length
= inner_path_end
- inner_parsed
.path
.begin
;
451 parsed
->path
.len
= inner_parsed
.path
.len
- new_inner_path_length
;
452 parsed
->inner_parsed()->path
.len
= new_inner_path_length
;
455 // Initializes a path URL which is merely a scheme followed by a path. Examples
456 // include "about:foo" and "javascript:alert('bar');"
457 template<typename CHAR
>
458 void DoParsePathURL(const CHAR
* spec
, int spec_len
, Parsed
* parsed
) {
459 // Get the non-path and non-scheme parts of the URL out of the way, we never
461 parsed
->username
.reset();
462 parsed
->password
.reset();
463 parsed
->host
.reset();
464 parsed
->port
.reset();
465 parsed
->query
.reset();
468 // Strip leading & trailing spaces and control characters.
470 TrimURL(spec
, &begin
, &spec_len
);
472 // Handle empty specs or ones that contain only whitespace or control chars.
473 if (begin
== spec_len
) {
474 parsed
->scheme
.reset();
475 parsed
->path
.reset();
479 // Extract the scheme, with the path being everything following. We also
480 // handle the case where there is no scheme.
481 if (ExtractScheme(&spec
[begin
], spec_len
- begin
, &parsed
->scheme
)) {
482 // Offset the results since we gave ExtractScheme a substring.
483 parsed
->scheme
.begin
+= begin
;
485 // For compatability with the standard URL parser, we treat no path as
486 // -1, rather than having a length of 0 (we normally wouldn't care so
487 // much for these non-standard URLs).
488 if (parsed
->scheme
.end() == spec_len
- 1)
489 parsed
->path
.reset();
491 parsed
->path
= MakeRange(parsed
->scheme
.end() + 1, spec_len
);
493 // No scheme found, just path.
494 parsed
->scheme
.reset();
495 parsed
->path
= MakeRange(begin
, spec_len
);
499 template<typename CHAR
>
500 void DoParseMailtoURL(const CHAR
* spec
, int spec_len
, Parsed
* parsed
) {
501 DCHECK(spec_len
>= 0);
503 // Get the non-path and non-scheme parts of the URL out of the way, we never
505 parsed
->username
.reset();
506 parsed
->password
.reset();
507 parsed
->host
.reset();
508 parsed
->port
.reset();
510 parsed
->query
.reset(); // May use this; reset for convenience.
512 // Strip leading & trailing spaces and control characters.
514 TrimURL(spec
, &begin
, &spec_len
);
516 // Handle empty specs or ones that contain only whitespace or control chars.
517 if (begin
== spec_len
) {
518 parsed
->scheme
.reset();
519 parsed
->path
.reset();
526 // Extract the scheme, with the path being everything following. We also
527 // handle the case where there is no scheme.
528 if (ExtractScheme(&spec
[begin
], spec_len
- begin
, &parsed
->scheme
)) {
529 // Offset the results since we gave ExtractScheme a substring.
530 parsed
->scheme
.begin
+= begin
;
532 if (parsed
->scheme
.end() != spec_len
- 1) {
533 path_begin
= parsed
->scheme
.end() + 1;
537 // No scheme found, just path.
538 parsed
->scheme
.reset();
543 // Split [path_begin, path_end) into a path + query.
544 for (int i
= path_begin
; i
< path_end
; ++i
) {
545 if (spec
[i
] == '?') {
546 parsed
->query
= MakeRange(i
+ 1, path_end
);
552 // For compatability with the standard URL parser, treat no path as
553 // -1, rather than having a length of 0
554 if (path_begin
== path_end
) {
555 parsed
->path
.reset();
557 parsed
->path
= MakeRange(path_begin
, path_end
);
561 // Converts a port number in a string to an integer. We'd like to just call
562 // sscanf but our input is not NULL-terminated, which sscanf requires. Instead,
563 // we copy the digits to a small stack buffer (since we know the maximum number
564 // of digits in a valid port number) that we can NULL terminate.
565 template<typename CHAR
>
566 int DoParsePort(const CHAR
* spec
, const Component
& component
) {
567 // Easy success case when there is no port.
568 const int kMaxDigits
= 5;
569 if (!component
.is_nonempty())
570 return PORT_UNSPECIFIED
;
572 // Skip over any leading 0s.
573 Component
digits_comp(component
.end(), 0);
574 for (int i
= 0; i
< component
.len
; i
++) {
575 if (spec
[component
.begin
+ i
] != '0') {
576 digits_comp
= MakeRange(component
.begin
+ i
, component
.end());
580 if (digits_comp
.len
== 0)
581 return 0; // All digits were 0.
583 // Verify we don't have too many digits (we'll be copying to our buffer so
584 // we need to double-check).
585 if (digits_comp
.len
> kMaxDigits
)
588 // Copy valid digits to the buffer.
589 char digits
[kMaxDigits
+ 1]; // +1 for null terminator
590 for (int i
= 0; i
< digits_comp
.len
; i
++) {
591 CHAR ch
= spec
[digits_comp
.begin
+ i
];
592 if (!IsPortDigit(ch
)) {
593 // Invalid port digit, fail.
596 digits
[i
] = static_cast<char>(ch
);
599 // Null-terminate the string and convert to integer. Since we guarantee
600 // only digits, atoi's lack of error handling is OK.
601 digits
[digits_comp
.len
] = 0;
602 int port
= atoi(digits
);
604 return PORT_INVALID
; // Out of range.
608 template<typename CHAR
>
609 void DoExtractFileName(const CHAR
* spec
,
610 const Component
& path
,
611 Component
* file_name
) {
612 // Handle empty paths: they have no file names.
613 if (!path
.is_nonempty()) {
618 // Search backwards for a parameter, which is a normally unused field in a
619 // URL delimited by a semicolon. We parse the parameter as part of the
620 // path, but here, we don't want to count it. The last semicolon is the
621 // parameter. The path should start with a slash, so we don't need to check
623 int file_end
= path
.end();
624 for (int i
= path
.end() - 1; i
> path
.begin
; i
--) {
625 if (spec
[i
] == ';') {
631 // Now search backwards from the filename end to the previous slash
632 // to find the beginning of the filename.
633 for (int i
= file_end
- 1; i
>= path
.begin
; i
--) {
634 if (IsURLSlash(spec
[i
])) {
635 // File name is everything following this character to the end
636 *file_name
= MakeRange(i
+ 1, file_end
);
641 // No slash found, this means the input was degenerate (generally paths
642 // will start with a slash). Let's call everything the file name.
643 *file_name
= MakeRange(path
.begin
, file_end
);
647 template<typename CHAR
>
648 bool DoExtractQueryKeyValue(const CHAR
* spec
,
652 if (!query
->is_nonempty())
655 int start
= query
->begin
;
657 int end
= query
->end();
659 // We assume the beginning of the input is the beginning of the "key" and we
660 // skip to the end of it.
662 while (cur
< end
&& spec
[cur
] != '&' && spec
[cur
] != '=')
664 key
->len
= cur
- key
->begin
;
666 // Skip the separator after the key (if any).
667 if (cur
< end
&& spec
[cur
] == '=')
670 // Find the value part.
672 while (cur
< end
&& spec
[cur
] != '&')
674 value
->len
= cur
- value
->begin
;
676 // Finally skip the next separator if any
677 if (cur
< end
&& spec
[cur
] == '&')
680 // Save the new query
681 *query
= url_parse::MakeRange(cur
, end
);
687 Parsed::Parsed() : inner_parsed_(NULL
) {
690 Parsed::Parsed(const Parsed
& other
) :
691 scheme(other
.scheme
),
692 username(other
.username
),
693 password(other
.password
),
699 inner_parsed_(NULL
) {
700 if (other
.inner_parsed_
)
701 set_inner_parsed(*other
.inner_parsed_
);
704 Parsed
& Parsed::operator=(const Parsed
& other
) {
705 if (this != &other
) {
706 scheme
= other
.scheme
;
707 username
= other
.username
;
708 password
= other
.password
;
714 if (other
.inner_parsed_
)
715 set_inner_parsed(*other
.inner_parsed_
);
717 clear_inner_parsed();
723 delete inner_parsed_
;
726 int Parsed::Length() const {
729 return CountCharactersBefore(REF
, false);
732 int Parsed::CountCharactersBefore(ComponentType type
,
733 bool include_delimiter
) const {
737 // There will be some characters after the scheme like "://" and we don't
738 // know how many. Search forwards for the next thing until we find one.
740 if (scheme
.is_valid())
741 cur
= scheme
.end() + 1; // Advance over the ':' at the end of the scheme.
743 if (username
.is_valid()) {
744 if (type
<= USERNAME
)
745 return username
.begin
;
746 cur
= username
.end() + 1; // Advance over the '@' or ':' at the end.
749 if (password
.is_valid()) {
750 if (type
<= PASSWORD
)
751 return password
.begin
;
752 cur
= password
.end() + 1; // Advance over the '@' at the end.
755 if (host
.is_valid()) {
761 if (port
.is_valid()) {
762 if (type
< PORT
|| (type
== PORT
&& include_delimiter
))
763 return port
.begin
- 1; // Back over delimiter.
765 return port
.begin
; // Don't want delimiter counted.
769 if (path
.is_valid()) {
775 if (query
.is_valid()) {
776 if (type
< QUERY
|| (type
== QUERY
&& include_delimiter
))
777 return query
.begin
- 1; // Back over delimiter.
779 return query
.begin
; // Don't want delimiter counted.
783 if (ref
.is_valid()) {
784 if (type
== REF
&& !include_delimiter
)
785 return ref
.begin
; // Back over delimiter.
787 // When there is a ref and we get here, the component we wanted was before
788 // this and not found, so we always know the beginning of the ref is right.
789 return ref
.begin
- 1; // Don't want delimiter counted.
795 bool ExtractScheme(const char* url
, int url_len
, Component
* scheme
) {
796 return DoExtractScheme(url
, url_len
, scheme
);
799 bool ExtractScheme(const char16
* url
, int url_len
, Component
* scheme
) {
800 return DoExtractScheme(url
, url_len
, scheme
);
803 // This handles everything that may be an authority terminator, including
804 // backslash. For special backslash handling see DoParseAfterScheme.
805 bool IsAuthorityTerminator(char16 ch
) {
806 return IsURLSlash(ch
) || ch
== '?' || ch
== '#';
809 void ExtractFileName(const char* url
,
810 const Component
& path
,
811 Component
* file_name
) {
812 DoExtractFileName(url
, path
, file_name
);
815 void ExtractFileName(const char16
* url
,
816 const Component
& path
,
817 Component
* file_name
) {
818 DoExtractFileName(url
, path
, file_name
);
821 bool ExtractQueryKeyValue(const char* url
,
825 return DoExtractQueryKeyValue(url
, query
, key
, value
);
828 bool ExtractQueryKeyValue(const char16
* url
,
832 return DoExtractQueryKeyValue(url
, query
, key
, value
);
835 void ParseAuthority(const char* spec
,
836 const Component
& auth
,
840 Component
* port_num
) {
841 DoParseAuthority(spec
, auth
, username
, password
, hostname
, port_num
);
844 void ParseAuthority(const char16
* spec
,
845 const Component
& auth
,
849 Component
* port_num
) {
850 DoParseAuthority(spec
, auth
, username
, password
, hostname
, port_num
);
853 int ParsePort(const char* url
, const Component
& port
) {
854 return DoParsePort(url
, port
);
857 int ParsePort(const char16
* url
, const Component
& port
) {
858 return DoParsePort(url
, port
);
861 void ParseStandardURL(const char* url
, int url_len
, Parsed
* parsed
) {
862 DoParseStandardURL(url
, url_len
, parsed
);
865 void ParseStandardURL(const char16
* url
, int url_len
, Parsed
* parsed
) {
866 DoParseStandardURL(url
, url_len
, parsed
);
869 void ParsePathURL(const char* url
, int url_len
, Parsed
* parsed
) {
870 DoParsePathURL(url
, url_len
, parsed
);
873 void ParsePathURL(const char16
* url
, int url_len
, Parsed
* parsed
) {
874 DoParsePathURL(url
, url_len
, parsed
);
877 void ParseFileSystemURL(const char* url
, int url_len
, Parsed
* parsed
) {
878 DoParseFileSystemURL(url
, url_len
, parsed
);
881 void ParseFileSystemURL(const char16
* url
, int url_len
, Parsed
* parsed
) {
882 DoParseFileSystemURL(url
, url_len
, parsed
);
885 void ParseMailtoURL(const char* url
, int url_len
, Parsed
* parsed
) {
886 DoParseMailtoURL(url
, url_len
, parsed
);
889 void ParseMailtoURL(const char16
* url
, int url_len
, Parsed
* parsed
) {
890 DoParseMailtoURL(url
, url_len
, parsed
);
893 void ParsePathInternal(const char* spec
,
894 const Component
& path
,
898 ParsePath(spec
, path
, filepath
, query
, ref
);
901 void ParsePathInternal(const char16
* spec
,
902 const Component
& path
,
906 ParsePath(spec
, path
, filepath
, query
, ref
);
909 void ParseAfterScheme(const char* spec
,
913 DoParseAfterScheme(spec
, spec_len
, after_scheme
, parsed
);
916 void ParseAfterScheme(const char16
* spec
,
920 DoParseAfterScheme(spec
, spec_len
, after_scheme
, parsed
);
923 } // namespace url_parse