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#ifndef GOOGLEURL_SRC_GURL_H__
#define GOOGLEURL_SRC_GURL_H__
#include <iostream>
#include <string>
#include "base/string16.h"
#include "googleurl/src/url_canon.h"
#include "googleurl/src/url_canon_stdstring.h"
#include "googleurl/src/url_parse.h"
class GURL {
public:
typedef url_canon::StdStringReplacements<std::string> Replacements;
typedef url_canon::StdStringReplacements<string16> ReplacementsW;
// Creates an empty, invalid URL.
GURL();
// Copy construction is relatively inexpensive, with most of the time going
// to reallocating the string. It does not re-parse.
GURL(const GURL& other);
// The narrow version requires the input be UTF-8. Invalid UTF-8 input will
// result in an invalid URL.
//
// The wide version should also take an encoding parameter so we know how to
// encode the query parameters. It is probably sufficient for the narrow
// version to assume the query parameter encoding should be the same as the
// input encoding.
explicit GURL(const std::string& url_string /*, output_param_encoding*/);
explicit GURL(const string16& url_string /*, output_param_encoding*/);
// Constructor for URLs that have already been parsed and canonicalized. This
// is used for conversions from KURL, for example. The caller must supply all
// information associated with the URL, which must be correct and consistent.
GURL(const char* canonical_spec, size_t canonical_spec_len,
const url_parse::Parsed& parsed, bool is_valid);
// Returns true when this object represents a valid parsed URL. When not
// valid, other functions will still succeed, but you will not get canonical
// data out in the format you may be expecting. Instead, we keep something
// "reasonable looking" so that the user can see how it's busted if
// displayed to them.
bool is_valid() const {
return is_valid_;
}
// Returns true if the URL is zero-length. Note that empty URLs are also
// invalid, and is_valid() will return false for them. This is provided
// because some users may want to treat the empty case differently.
bool is_empty() const {
return spec_.empty();
}
// Returns the raw spec, i.e., the full text of the URL, in canonical UTF-8,
// if the URL is valid. If the URL is not valid, this will assert and return
// the empty string (for safety in release builds, to keep them from being
// misused which might be a security problem).
//
// The URL will be ASCII except the reference fragment, which may be UTF-8.
// It is guaranteed to be valid UTF-8.
//
// The exception is for empty() URLs (which are !is_valid()) but this will
// return the empty string without asserting.
//
// Used invalid_spec() below to get the unusable spec of an invalid URL. This
// separation is designed to prevent errors that may cause security problems
// that could result from the mistaken use of an invalid URL.
const std::string& spec() const;
// Returns the potentially invalid spec for a the URL. This spec MUST NOT be
// modified or sent over the network. It is designed to be displayed in error
// messages to the user, as the apperance of the spec may explain the error.
// If the spec is valid, the valid spec will be returned.
//
// The returned string is guaranteed to be valid UTF-8.
const std::string& possibly_invalid_spec() const {
return spec_;
}
// Getter for the raw parsed structure. This allows callers to locate parts
// of the URL within the spec themselves. Most callers should consider using
// the individual component getters below.
//
// The returned parsed structure will reference into the raw spec, which may
// or may not be valid. If you are using this to index into the spec, BE
// SURE YOU ARE USING possibly_invalid_spec() to get the spec, and that you
// don't do anything "important" with invalid specs.
const url_parse::Parsed& parsed_for_possibly_invalid_spec() const {
return parsed_;
}
// Defiant equality operator!
bool operator==(const GURL& other) const {
return spec_ == other.spec_;
}
bool operator!=(const GURL& other) const {
return spec_ != other.spec_;
}
// Allows GURL to used as a key in STL (for example, a std::set or std::map).
bool operator<(const GURL& other) const {
return spec_ < other.spec_;
}
// Resolves a URL that's possibly relative to this object's URL, and returns
// it. Absolute URLs are also handled according to the rules of URLs on web
// pages.
//
// It may be impossible to resolve the URLs properly. If the input is not
// "standard" (SchemeIsStandard() == false) and the input looks relative, we
// can't resolve it. In these cases, the result will be an empty, invalid
// GURL.
//
// The result may also be a nonempty, invalid URL if the input has some kind
// of encoding error. In these cases, we will try to construct a "good" URL
// that may have meaning to the user, but it will be marked invalid.
//
// It is an error to resolve a URL relative to an invalid URL. The result
// will be the empty URL.
GURL Resolve(const std::string& relative) const;
GURL Resolve(const string16& relative) const;
// Like Resolve() above but takes a character set encoder which will be used
// for any query text specified in the input. The charset converter parameter
// may be NULL, in which case it will be treated as UTF-8.
//
// TODO(brettw): These should be replaced with versions that take something
// more friendly than a raw CharsetConverter (maybe like an ICU character set
// name).
GURL ResolveWithCharsetConverter(
const std::string& relative,
url_canon::CharsetConverter* charset_converter) const;
GURL ResolveWithCharsetConverter(
const string16& relative,
url_canon::CharsetConverter* charset_converter) const;
// Creates a new GURL by replacing the current URL's components with the
// supplied versions. See the Replacements class in url_canon.h for more.
//
// These are not particularly quick, so avoid doing mutations when possible.
// Prefer the 8-bit version when possible.
//
// It is an error to replace components of an invalid URL. The result will
// be the empty URL.
//
// Note that we use the more general url_canon::Replacements type to give
// callers extra flexibility rather than our override.
GURL ReplaceComponents(
const url_canon::Replacements<char>& replacements) const;
GURL ReplaceComponents(
const url_canon::Replacements<char16>& replacements) const;
// A helper function that is equivalent to replacing the path with a slash
// and clearing out everything after that. We sometimes need to know just the
// scheme and the authority. If this URL is not a standard URL (it doesn't
// have the regular authority and path sections), then the result will be
// an empty, invalid GURL. Note that this *does* work for file: URLs, which
// some callers may want to filter out before calling this.
//
// It is an error to get an empty path on an invalid URL. The result
// will be the empty URL.
GURL GetWithEmptyPath() const;
// A helper function to return a GURL containing just the scheme, host,
// and port from a URL. Equivalent to clearing any username and password,
// replacing the path with a slash, and clearing everything after that. If
// this URL is not a standard URL, then the result will be an empty,
// invalid GURL. If the URL has neither username nor password, this
// degenerates to GetWithEmptyPath().
//
// It is an error to get the origin of an invalid URL. The result
// will be the empty URL.
GURL GetOrigin() const;
// Returns true if the scheme for the current URL is a known "standard"
// scheme or there is a "://" after it. Standard schemes have an authority
// and a path section. This includes file:, which some callers may want to
// filter out explicitly by calling SchemeIsFile.
bool IsStandard() const;
// Returns true if the given parameter (should be lower-case ASCII to match
// the canonicalized scheme) is the scheme for this URL. This call is more
// efficient than getting the scheme and comparing it because no copies or
// object constructions are done.
bool SchemeIs(const char* lower_ascii_scheme) const;
// We often need to know if this is a file URL. File URLs are "standard", but
// are often treated separately by some programs.
bool SchemeIsFile() const {
return SchemeIs("file");
}
// If the scheme indicates a secure connection
bool SchemeIsSecure() const {
return SchemeIs("https");
}
// Returns true if the hostname is an IP address. Note: this function isn't
// as cheap as a simple getter because it re-parses the hostname to verify.
// This currently identifies only IPv4 addresses (bug 822685).
bool HostIsIPAddress() const;
// Getters for various components of the URL. The returned string will be
// empty if the component is empty or is not present.
std::string scheme() const { // Not including the colon. See also SchemeIs.
return ComponentString(parsed_.scheme);
}
std::string username() const {
return ComponentString(parsed_.username);
}
std::string password() const {
return ComponentString(parsed_.password);
}
// Note that this may be a hostname, an IPv4 address, or an IPv6 literal
// surrounded by square brackets, like "[2001:db8::1]". To exclude these
// brackets, use HostNoBrackets() below.
std::string host() const {
return ComponentString(parsed_.host);
}
std::string port() const { // Returns -1 if "default"
return ComponentString(parsed_.port);
}
std::string path() const { // Including first slash following host
return ComponentString(parsed_.path);
}
std::string query() const { // Stuff following '?'
return ComponentString(parsed_.query);
}
std::string ref() const { // Stuff following '#'
return ComponentString(parsed_.ref);
}
// Existance querying. These functions will return true if the corresponding
// URL component exists in this URL. Note that existance is different than
// being nonempty. http://www.google.com/? has a query that just happens to
// be empty, and has_query() will return true.
bool has_scheme() const {
return parsed_.scheme.len >= 0;
}
bool has_username() const {
return parsed_.username.len >= 0;
}
bool has_password() const {
return parsed_.password.len >= 0;
}
bool has_host() const {
// Note that hosts are special, absense of host means length 0.
return parsed_.host.len > 0;
}
bool has_port() const {
return parsed_.port.len >= 0;
}
bool has_path() const {
// Note that http://www.google.com/" has a path, the path is "/". This can
// return false only for invalid or nonstandard URLs.
return parsed_.path.len >= 0;
}
bool has_query() const {
return parsed_.query.len >= 0;
}
bool has_ref() const {
return parsed_.ref.len >= 0;
}
// Returns a parsed version of the port. Can also be any of the special
// values defined in Parsed for ExtractPort.
int IntPort() const;
// Returns the port number of the url, or the default port number.
// If the scheme has no concept of port (or unknown default) returns
// PORT_UNSPECIFIED.
int EffectiveIntPort() const;
// Extracts the filename portion of the path and returns it. The filename
// is everything after the last slash in the path. This may be empty.
std::string ExtractFileName() const;
// Returns the path that should be sent to the server. This is the path,
// parameter, and query portions of the URL. It is guaranteed to be ASCII.
std::string PathForRequest() const;
// Returns the host, excluding the square brackets surrounding IPv6 address
// literals. This can be useful for passing to getaddrinfo().
std::string HostNoBrackets() const;
// Returns true if this URL's host matches or is in the same domain as
// the given input string. For example if this URL was "www.google.com",
// this would match "com", "google.com", and "www.google.com
// (input domain should be lower-case ASCII to match the canonicalized
// scheme). This call is more efficient than getting the host and check
// whether host has the specific domain or not because no copies or
// object constructions are done.
//
// If function DomainIs has parameter domain_len, which means the parameter
// lower_ascii_domain does not gurantee to terminate with NULL character.
bool DomainIs(const char* lower_ascii_domain, int domain_len) const;
// If function DomainIs only has parameter lower_ascii_domain, which means
// domain string should be terminate with NULL character.
bool DomainIs(const char* lower_ascii_domain) const {
return DomainIs(lower_ascii_domain,
static_cast<int>(strlen(lower_ascii_domain)));
}
// Swaps the contents of this GURL object with the argument without doing
// any memory allocations.
void Swap(GURL* other);
// Returns a reference to a singleton empty GURL. This object is for callers
// who return references but don't have anything to return in some cases.
// This function may be called from any thread.
static const GURL& EmptyGURL();
private:
// Returns the substring of the input identified by the given component.
std::string ComponentString(const url_parse::Component& comp) const {
if (comp.len <= 0)
return std::string();
return std::string(spec_, comp.begin, comp.len);
}
// The actual text of the URL, in canonical ASCII form.
std::string spec_;
// Set when the given URL is valid. Otherwise, we may still have a spec and
// components, but they may not identify valid resources (for example, an
// invalid port number, invalid characters in the scheme, etc.).
bool is_valid_;
// Identified components of the canonical spec.
url_parse::Parsed parsed_;
// TODO bug 684583: Add encoding for query params.
};
// Stream operator so GURL can be used in assertion statements.
inline std::ostream& operator<<(std::ostream& out, const GURL& url) {
return out << url.possibly_invalid_spec();
}
#endif // GOOGLEURL_SRC_GURL_H__