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493 lines
20 KiB
C++
493 lines
20 KiB
C++
// Copyright 2013 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#ifndef URL_GURL_H_
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#define URL_GURL_H_
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#include <stddef.h>
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#include <iosfwd>
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#include <memory>
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#include <string>
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#include "base/strings/string16.h"
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#include "base/strings/string_piece.h"
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#include "url/third_party/mozilla/url_parse.h"
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#include "url/url_canon.h"
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#include "url/url_canon_stdstring.h"
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#include "url/url_constants.h"
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#include "url/url_export.h"
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// Represents a URL.
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//
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// A parsed canonicalized URL will be guaranteed UTF-8. Only the ref (if
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// specified) can be non-ASCII, the host, path, etc. will be guaranteed ASCII
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// and any non-ASCII characters will be encoded and % escaped.
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//
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// The string representation of a URL is called the spec(). Getting the
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// spec will assert if the URL is invalid to help protect against malicious
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// URLs. If you want the "best effort" canonicalization of an invalid URL, you
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// can use possibly_invalid_spec(). Test validity with is_valid(). Data and
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// javascript URLs use GetContent() to extract the data.
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//
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// This class has existence checkers and getters for the various components of
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// a URL. Existence is different than being nonempty. "http://www.google.com/?"
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// has a query that just happens to be empty, and has_query() will return true
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// while the query getters will return the empty string.
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//
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// Prefer not to modify a URL using string operations (though sometimes this is
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// unavoidable). Instead, use ReplaceComponents which can replace or delete
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// multiple parts of a URL in one step, doesn't re-canonicalize unchanged
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// sections, and avoids some screw-ups. An example is creating a URL with a
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// path that contains a literal '#'. Using string concatenation will generate a
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// URL with a truncated path and a reference fragment, while ReplaceComponents
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// will know to escape this and produce the desired result.
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class URL_EXPORT GURL {
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public:
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typedef url::StringPieceReplacements<std::string> Replacements;
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typedef url::StringPieceReplacements<base::string16> ReplacementsW;
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// Creates an empty, invalid URL.
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GURL();
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// Copy construction is relatively inexpensive, with most of the time going
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// to reallocating the string. It does not re-parse.
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GURL(const GURL& other);
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GURL(GURL&& other) noexcept;
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// The strings to this contructor should be UTF-8 / UTF-16.
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explicit GURL(base::StringPiece url_string);
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explicit GURL(base::StringPiece16 url_string);
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// Constructor for URLs that have already been parsed and canonicalized. This
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// is used for conversions from KURL, for example. The caller must supply all
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// information associated with the URL, which must be correct and consistent.
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GURL(const char* canonical_spec,
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size_t canonical_spec_len,
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const url::Parsed& parsed,
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bool is_valid);
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// Notice that we take the canonical_spec by value so that we can convert
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// from WebURL without copying the string. When we call this constructor
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// we pass in a temporary std::string, which lets the compiler skip the
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// copy and just move the std::string into the function argument. In the
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// implementation, we use std::move to move the data into the GURL itself,
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// which means we end up with zero copies.
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GURL(std::string canonical_spec, const url::Parsed& parsed, bool is_valid);
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~GURL();
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GURL& operator=(const GURL& other);
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GURL& operator=(GURL&& other);
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// Returns true when this object represents a valid parsed URL. When not
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// valid, other functions will still succeed, but you will not get canonical
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// data out in the format you may be expecting. Instead, we keep something
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// "reasonable looking" so that the user can see how it's busted if
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// displayed to them.
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bool is_valid() const {
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return is_valid_;
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}
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// Returns true if the URL is zero-length. Note that empty URLs are also
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// invalid, and is_valid() will return false for them. This is provided
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// because some users may want to treat the empty case differently.
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bool is_empty() const {
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return spec_.empty();
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}
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// Returns the raw spec, i.e., the full text of the URL, in canonical UTF-8,
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// if the URL is valid. If the URL is not valid, this will assert and return
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// the empty string (for safety in release builds, to keep them from being
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// misused which might be a security problem).
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//
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// The URL will be ASCII except the reference fragment, which may be UTF-8.
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// It is guaranteed to be valid UTF-8.
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//
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// The exception is for empty() URLs (which are !is_valid()) but this will
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// return the empty string without asserting.
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//
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// Used invalid_spec() below to get the unusable spec of an invalid URL. This
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// separation is designed to prevent errors that may cause security problems
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// that could result from the mistaken use of an invalid URL.
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const std::string& spec() const;
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// Returns the potentially invalid spec for a the URL. This spec MUST NOT be
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// modified or sent over the network. It is designed to be displayed in error
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// messages to the user, as the appearance of the spec may explain the error.
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// If the spec is valid, the valid spec will be returned.
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//
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// The returned string is guaranteed to be valid UTF-8.
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const std::string& possibly_invalid_spec() const {
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return spec_;
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}
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// Getter for the raw parsed structure. This allows callers to locate parts
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// of the URL within the spec themselves. Most callers should consider using
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// the individual component getters below.
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//
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// The returned parsed structure will reference into the raw spec, which may
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// or may not be valid. If you are using this to index into the spec, BE
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// SURE YOU ARE USING possibly_invalid_spec() to get the spec, and that you
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// don't do anything "important" with invalid specs.
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const url::Parsed& parsed_for_possibly_invalid_spec() const {
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return parsed_;
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}
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// Allows GURL to used as a key in STL (for example, a std::set or std::map).
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bool operator<(const GURL& other) const;
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bool operator>(const GURL& other) const;
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// Resolves a URL that's possibly relative to this object's URL, and returns
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// it. Absolute URLs are also handled according to the rules of URLs on web
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// pages.
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//
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// It may be impossible to resolve the URLs properly. If the input is not
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// "standard" (IsStandard() == false) and the input looks relative, we can't
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// resolve it. In these cases, the result will be an empty, invalid GURL.
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//
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// The result may also be a nonempty, invalid URL if the input has some kind
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// of encoding error. In these cases, we will try to construct a "good" URL
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// that may have meaning to the user, but it will be marked invalid.
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//
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// It is an error to resolve a URL relative to an invalid URL. The result
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// will be the empty URL.
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GURL Resolve(const std::string& relative) const;
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GURL Resolve(const base::string16& relative) const;
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// Creates a new GURL by replacing the current URL's components with the
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// supplied versions. See the Replacements class in url_canon.h for more.
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//
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// These are not particularly quick, so avoid doing mutations when possible.
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// Prefer the 8-bit version when possible.
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//
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// It is an error to replace components of an invalid URL. The result will
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// be the empty URL.
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//
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// Note that we use the more general url::Replacements type to give
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// callers extra flexibility rather than our override.
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GURL ReplaceComponents(const url::Replacements<char>& replacements) const;
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GURL ReplaceComponents(
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const url::Replacements<base::char16>& replacements) const;
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// A helper function that is equivalent to replacing the path with a slash
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// and clearing out everything after that. We sometimes need to know just the
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// scheme and the authority. If this URL is not a standard URL (it doesn't
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// have the regular authority and path sections), then the result will be
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// an empty, invalid GURL. Note that this *does* work for file: URLs, which
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// some callers may want to filter out before calling this.
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//
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// It is an error to get an empty path on an invalid URL. The result
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// will be the empty URL.
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GURL GetWithEmptyPath() const;
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// A helper function to return a GURL without the filename, query values, and
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// fragment. For example,
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// GURL("https://www.foo.com/index.html?q=test").GetWithoutFilename().spec()
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// will return "https://www.foo.com/".
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// GURL("https://www.foo.com/bar/").GetWithoutFilename().spec()
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// will return "https://www.foo.com/bar/". If the GURL is invalid or missing a
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// scheme, authority or path, it will return an empty, invalid GURL.
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GURL GetWithoutFilename() const;
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// A helper function to return a GURL containing just the scheme, host,
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// and port from a URL. Equivalent to clearing any username and password,
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// replacing the path with a slash, and clearing everything after that. If
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// this URL is not a standard URL, then the result will be an empty,
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// invalid GURL. If the URL has neither username nor password, this
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// degenerates to GetWithEmptyPath().
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//
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// It is an error to get the origin of an invalid URL. The result
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// will be the empty URL.
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GURL GetOrigin() const;
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// A helper function to return a GURL stripped from the elements that are not
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// supposed to be sent as HTTP referrer: username, password and ref fragment.
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// For invalid URLs or URLs that no valid referrers, an empty URL will be
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// returned.
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GURL GetAsReferrer() const;
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// Returns true if the scheme for the current URL is a known "standard-format"
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// scheme. A standard-format scheme adheres to what RFC 3986 calls "generic
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// URI syntax" (https://tools.ietf.org/html/rfc3986#section-3). This includes
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// file: and filesystem:, which some callers may want to filter out explicitly
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// by calling SchemeIsFile[System].
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bool IsStandard() const;
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// Returns true when the url is of the form about:blank, about:blank?foo or
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// about:blank/#foo.
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bool IsAboutBlank() const;
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// Returns true if the given parameter (should be lower-case ASCII to match
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// the canonicalized scheme) is the scheme for this URL. Do not include a
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// colon.
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bool SchemeIs(base::StringPiece lower_ascii_scheme) const;
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// Returns true if the scheme is "http" or "https".
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bool SchemeIsHTTPOrHTTPS() const;
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// Returns true if the scheme is valid for use as a referrer.
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bool SchemeIsValidForReferrer() const;
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// Returns true is the scheme is "ws" or "wss".
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bool SchemeIsWSOrWSS() const;
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// We often need to know if this is a file URL. File URLs are "standard", but
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// are often treated separately by some programs.
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bool SchemeIsFile() const {
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return SchemeIs(url::kFileScheme);
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}
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// FileSystem URLs need to be treated differently in some cases.
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bool SchemeIsFileSystem() const {
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return SchemeIs(url::kFileSystemScheme);
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}
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// Returns true if the scheme indicates a network connection that uses TLS or
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// some other cryptographic protocol (e.g. QUIC) for security.
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//
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// This function is a not a complete test of whether or not an origin's code
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// is minimally trustworthy. For that, see Chromium's |IsOriginSecure| for a
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// higher-level and more complete semantics. See that function's documentation
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// for more detail.
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bool SchemeIsCryptographic() const {
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return SchemeIs(url::kHttpsScheme) || SchemeIs(url::kWssScheme) ||
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SchemeIs(url::kHttpsSuboriginScheme);
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}
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// Returns true if the scheme is "blob".
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bool SchemeIsBlob() const {
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return SchemeIs(url::kBlobScheme);
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}
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// Returns true if the scheme indicates a serialized suborigin.
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bool SchemeIsSuborigin() const {
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return SchemeIs(url::kHttpSuboriginScheme) ||
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SchemeIs(url::kHttpsSuboriginScheme);
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}
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// The "content" of the URL is everything after the scheme (skipping the
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// scheme delimiting colon). It is an error to get the content of an invalid
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// URL: the result will be an empty string.
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std::string GetContent() const;
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// Returns true if the hostname is an IP address. Note: this function isn't
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// as cheap as a simple getter because it re-parses the hostname to verify.
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bool HostIsIPAddress() const;
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// Not including the colon. If you are comparing schemes, prefer SchemeIs.
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bool has_scheme() const {
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return parsed_.scheme.len >= 0;
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}
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std::string scheme() const {
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return ComponentString(parsed_.scheme);
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}
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base::StringPiece scheme_piece() const {
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return ComponentStringPiece(parsed_.scheme);
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}
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bool has_username() const {
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return parsed_.username.len >= 0;
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}
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std::string username() const {
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return ComponentString(parsed_.username);
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}
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base::StringPiece username_piece() const {
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return ComponentStringPiece(parsed_.username);
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}
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bool has_password() const {
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return parsed_.password.len >= 0;
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}
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std::string password() const {
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return ComponentString(parsed_.password);
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}
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base::StringPiece password_piece() const {
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return ComponentStringPiece(parsed_.password);
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}
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// The host may be a hostname, an IPv4 address, or an IPv6 literal surrounded
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// by square brackets, like "[2001:db8::1]". To exclude these brackets, use
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// HostNoBrackets() below.
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bool has_host() const {
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// Note that hosts are special, absence of host means length 0.
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return parsed_.host.len > 0;
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}
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std::string host() const {
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return ComponentString(parsed_.host);
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}
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base::StringPiece host_piece() const {
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return ComponentStringPiece(parsed_.host);
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}
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// The port if one is explicitly specified. Most callers will want IntPort()
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// or EffectiveIntPort() instead of these. The getters will not include the
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// ':'.
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bool has_port() const {
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return parsed_.port.len >= 0;
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}
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std::string port() const {
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return ComponentString(parsed_.port);
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}
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base::StringPiece port_piece() const {
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return ComponentStringPiece(parsed_.port);
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}
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// Including first slash following host, up to the query. The URL
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// "http://www.google.com/" has a path of "/".
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bool has_path() const {
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return parsed_.path.len >= 0;
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}
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std::string path() const {
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return ComponentString(parsed_.path);
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}
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base::StringPiece path_piece() const {
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return ComponentStringPiece(parsed_.path);
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}
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// Stuff following '?' up to the ref. The getters will not include the '?'.
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bool has_query() const {
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return parsed_.query.len >= 0;
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}
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std::string query() const {
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return ComponentString(parsed_.query);
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}
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base::StringPiece query_piece() const {
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return ComponentStringPiece(parsed_.query);
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}
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// Stuff following '#' to the end of the string. This will be UTF-8 encoded
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// (not necessarily ASCII). The getters will not include the '#'.
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bool has_ref() const {
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return parsed_.ref.len >= 0;
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}
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std::string ref() const {
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return ComponentString(parsed_.ref);
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}
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base::StringPiece ref_piece() const {
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return ComponentStringPiece(parsed_.ref);
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}
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// Returns a parsed version of the port. Can also be any of the special
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// values defined in Parsed for ExtractPort.
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int IntPort() const;
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// Returns the port number of the URL, or the default port number.
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// If the scheme has no concept of port (or unknown default) returns
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// PORT_UNSPECIFIED.
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int EffectiveIntPort() const;
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// Extracts the filename portion of the path and returns it. The filename
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// is everything after the last slash in the path. This may be empty.
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std::string ExtractFileName() const;
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// Returns the path that should be sent to the server. This is the path,
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// parameter, and query portions of the URL. It is guaranteed to be ASCII.
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std::string PathForRequest() const;
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// Returns the host, excluding the square brackets surrounding IPv6 address
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// literals. This can be useful for passing to getaddrinfo().
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std::string HostNoBrackets() const;
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// Returns the same characters as HostNoBrackets(), avoiding a copy.
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base::StringPiece HostNoBracketsPiece() const;
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// Returns true if this URL's host matches or is in the same domain as
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// the given input string. For example, if the hostname of the URL is
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// "www.google.com", this will return true for "com", "google.com", and
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// "www.google.com".
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//
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// The input domain should match host canonicalization rules. i.e. the input
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// show be lowercase except for escape chars.
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//
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// This call is more efficient than getting the host and checking whether the
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// host has the specific domain or not because no copies or object
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// constructions are done.
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bool DomainIs(base::StringPiece canonical_domain) const;
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// Checks whether or not two URLs are differing only in the ref (the part
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// after the # character).
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bool EqualsIgnoringRef(const GURL& other) const;
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// Swaps the contents of this GURL object with |other|, without doing
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// any memory allocations.
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void Swap(GURL* other);
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// Returns a reference to a singleton empty GURL. This object is for callers
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// who return references but don't have anything to return in some cases.
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// If you just want an empty URL for normal use, prefer GURL(). This function
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// may be called from any thread.
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static const GURL& EmptyGURL();
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// Returns the inner URL of a nested URL (currently only non-null for
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// filesystem URLs).
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//
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// TODO(mmenke): inner_url().spec() currently returns the same value as
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// caling spec() on the GURL itself. This should be fixed.
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// See https://crbug.com/619596
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const GURL* inner_url() const {
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return inner_url_.get();
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}
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// Estimates dynamic memory usage.
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// See base/trace_event/memory_usage_estimator.h for more info.
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size_t EstimateMemoryUsage() const;
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private:
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// Variant of the string parsing constructor that allows the caller to elect
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// retain trailing whitespace, if any, on the passed URL spec, but only if
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// the scheme is one that allows trailing whitespace. The primary use-case is
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// for data: URLs. In most cases, you want to use the single parameter
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// constructor above.
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enum RetainWhiteSpaceSelector { RETAIN_TRAILING_PATH_WHITEPACE };
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GURL(const std::string& url_string, RetainWhiteSpaceSelector);
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template<typename STR>
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void InitCanonical(base::BasicStringPiece<STR> input_spec,
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bool trim_path_end);
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void InitializeFromCanonicalSpec();
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// Returns the substring of the input identified by the given component.
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std::string ComponentString(const url::Component& comp) const {
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if (comp.len <= 0)
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return std::string();
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return std::string(spec_, comp.begin, comp.len);
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}
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base::StringPiece ComponentStringPiece(const url::Component& comp) const {
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if (comp.len <= 0)
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return base::StringPiece();
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return base::StringPiece(&spec_[comp.begin], comp.len);
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}
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// The actual text of the URL, in canonical ASCII form.
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std::string spec_;
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// Set when the given URL is valid. Otherwise, we may still have a spec and
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// components, but they may not identify valid resources (for example, an
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// invalid port number, invalid characters in the scheme, etc.).
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bool is_valid_;
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// Identified components of the canonical spec.
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url::Parsed parsed_;
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// Used for nested schemes [currently only filesystem:].
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std::unique_ptr<GURL> inner_url_;
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};
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// Stream operator so GURL can be used in assertion statements.
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URL_EXPORT std::ostream& operator<<(std::ostream& out, const GURL& url);
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URL_EXPORT bool operator==(const GURL& x, const GURL& y);
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URL_EXPORT bool operator!=(const GURL& x, const GURL& y);
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// Equality operator for comparing raw spec_. This should be used in place of
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// url == GURL(spec) where |spec| is known (i.e. constants). This is to prevent
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// needlessly re-parsing |spec| into a temporary GURL.
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URL_EXPORT bool operator==(const GURL& x, const base::StringPiece& spec);
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URL_EXPORT bool operator==(const base::StringPiece& spec, const GURL& x);
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URL_EXPORT bool operator!=(const GURL& x, const base::StringPiece& spec);
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URL_EXPORT bool operator!=(const base::StringPiece& spec, const GURL& x);
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#endif // URL_GURL_H_
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