//* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* ***** BEGIN LICENSE BLOCK *****
* Version: MPL 1.1/GPL 2.0/LGPL 2.1
*
* The contents of this file are subject to the Mozilla Public License Version
* 1.1 (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
* http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the
* License.
*
* The Original Code is Mozilla TLD Service
*
* The Initial Developer of the Original Code is
* Google Inc.
* Portions created by the Initial Developer are Copyright (C) 2006
* the Initial Developer. All Rights Reserved.
*
* Contributor(s):
* Pamela Greene <pamg.bugs@gmail.com> (original author)
*
* Alternatively, the contents of this file may be used under the terms of
* either the GNU General Public License Version 2 or later (the "GPL"), or
* the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
* in which case the provisions of the GPL or the LGPL are applicable instead
* of those above. If you wish to allow use of your version of this file only
* under the terms of either the GPL or the LGPL, and not to allow others to
* use your version of this file under the terms of the MPL, indicate your
* decision by deleting the provisions above and replace them with the notice
* and other provisions required by the GPL or the LGPL. If you do not delete
* the provisions above, a recipient may use your version of this file under
* the terms of any one of the MPL, the GPL or the LGPL.
*
* ***** END LICENSE BLOCK ***** */
// NB: Modelled after Mozilla's code (originally written by Pamela Greene,
// later modified by others), but almost entirely rewritten for Chrome.
/*
(Documentation based on the Mozilla documentation currently at
http://wiki.mozilla.org/Gecko:Effective_TLD_Service, written by the same
author.)
The RegistryControlledDomainService examines the hostname of a GURL passed to
it and determines the longest portion that is controlled by a registrar.
Although technically the top-level domain (TLD) for a hostname is the last
dot-portion of the name (such as .com or .org), many domains (such as co.uk)
function as though they were TLDs, allocating any number of more specific,
essentially unrelated names beneath them. For example, .uk is a TLD, but
nobody is allowed to register a domain directly under .uk; the "effective"
TLDs are ac.uk, co.uk, and so on. We wouldn't want to allow any site in
*.co.uk to set a cookie for the entire co.uk domain, so it's important to be
able to identify which higher-level domains function as effective TLDs and
which can be registered.
The service obtains its information about effective TLDs from a text resource
that must be in the following format:
* It should use plain ASCII.
* It should contain one domain rule per line, terminated with \n, with nothing
else on the line. (The last rule in the file may omit the ending \n.)
* Rules should have been normalized using the same canonicalization that GURL
applies. For ASCII, that means they're not case-sensitive, among other
things; other normalizations are applied for other characters.
* Each rule should list the entire TLD-like domain name, with any subdomain
portions separated by dots (.) as usual.
* Rules should neither begin nor end with a dot.
* If a hostname matches more than one rule, the most specific rule (that is,
the one with more dot-levels) will be used.
* Other than in the case of wildcards (see below), rules do not implicitly
include their subcomponents. For example, "bar.baz.uk" does not imply
"baz.uk", and if "bar.baz.uk" is the only rule in the list, "foo.bar.baz.uk"
will match, but "baz.uk" and "qux.baz.uk" won't.
* The wildcard character '*' will match any valid sequence of characters.
* Wildcards may only appear as the entire most specific level of a rule. That
is, a wildcard must come at the beginning of a line and must be followed by
a dot. (You may not use a wildcard as the entire rule.)
* A wildcard rule implies a rule for the entire non-wildcard portion. For
example, the rule "*.foo.bar" implies the rule "foo.bar" (but not the rule
"bar"). This is typically important in the case of exceptions (see below).
* The exception character '!' before a rule marks an exception to a wildcard
rule. If your rules are "*.tokyo.jp" and "!pref.tokyo.jp", then
"a.b.tokyo.jp" has an effective TLD of "b.tokyo.jp", but "a.pref.tokyo.jp"
has an effective TLD of "tokyo.jp" (the exception prevents the wildcard
match, and we thus fall through to matching on the implied "tokyo.jp" rule
from the wildcard).
* If you use an exception rule without a corresponding wildcard rule, the
behavior is undefined.
Firefox has a very similar service, and it's their data file we use to
construct our resource. However, the data expected by this implementation
differs from the Mozilla file in several important ways:
(1) We require that all single-level TLDs (com, edu, etc.) be explicitly
listed. As of this writing, Mozilla's file includes the single-level
TLDs too, but that might change.
(2) Our data is expected be in pure ASCII: all UTF-8 or otherwise encoded
items must already have been normalized.
(3) We do not allow comments, rule notes, blank lines, or line endings other
than LF.
Rules are also expected to be syntactically valid.
The utility application tld_cleanup.exe converts a Mozilla-style file into a
Chrome one, making sure that single-level TLDs are explicitly listed, using
GURL to normalize rules, and validating the rules.
*/
#ifndef NET_BASE_REGISTRY_CONTROLLED_DOMAIN_H_
#define NET_BASE_REGISTRY_CONTROLLED_DOMAIN_H_
#include <string>
#include "base/basictypes.h"
class GURL;
template <typename T>
struct DefaultSingletonTraits;
struct DomainRule;
namespace net {
struct RegistryControlledDomainServiceSingletonTraits;
// This class is a singleton.
class RegistryControlledDomainService {
public:
~RegistryControlledDomainService() { }
// Returns the registered, organization-identifying host and all its registry
// information, but no subdomains, from the given GURL. Returns an empty
// string if the GURL is invalid, has no host (e.g. a file: URL), has multiple
// trailing dots, is an IP address, has only one subcomponent (i.e. no dots
// other than leading/trailing ones), or is itself a recognized registry
// identifier. If no matching rule is found in the effective-TLD data (or in
// the default data, if the resource failed to load), the last subcomponent of
// the host is assumed to be the registry.
//
// Examples:
// http://www.google.com/file.html -> "google.com" (com)
// http://..google.com/file.html -> "google.com" (com)
// http://google.com./file.html -> "google.com." (com)
// http://a.b.co.uk/file.html -> "b.co.uk" (co.uk)
// file:///C:/bar.html -> "" (no host)
// http://foo.com../file.html -> "" (multiple trailing dots)
// http://192.168.0.1/file.html -> "" (IP address)
// http://bar/file.html -> "" (no subcomponents)
// http://co.uk/file.html -> "" (host is a registry)
// http://foo.bar/file.html -> "foo.bar" (no rule; assume bar)
static std::string GetDomainAndRegistry(const GURL& gurl);
// Like the GURL version, but takes a host (which is canonicalized internally)
// instead of a full GURL.
static std::string GetDomainAndRegistry(const std::string& host);
static std::string GetDomainAndRegistry(const std::wstring& host);
// This convenience function returns true if the two GURLs both have hosts
// and one of the following is true:
// * They each have a known domain and registry, and it is the same for both
// URLs. Note that this means the trailing dot, if any, must match too.
// * They don't have known domains/registries, but the hosts are identical.
// Effectively, callers can use this function to check whether the input URLs
// represent hosts "on the same site".
static bool SameDomainOrHost(const GURL& gurl1, const GURL& gurl2);
// Finds the length in bytes of the registrar portion of the host in the
// given GURL. Returns std::string::npos if the GURL is invalid or has no
// host (e.g. a file: URL). Returns 0 if the GURL has multiple trailing dots,
// is an IP address, has no subcomponents, or is itself a recognized registry
// identifier. If no matching rule is found in the effective-TLD data (or in
// the default data, if the resource failed to load), returns 0 if
// |allow_unknown_registries| is false, or the length of the last subcomponent
// if |allow_unknown_registries| is true.
//
// Examples:
// http://www.google.com/file.html -> 3 (com)
// http://..google.com/file.html -> 3 (com)
// http://google.com./file.html -> 4 (com)
// http://a.b.co.uk/file.html -> 5 (co.uk)
// file:///C:/bar.html -> std::string::npos (no host)
// http://foo.com../file.html -> 0 (multiple trailing
// dots)
// http://192.168.0.1/file.html -> 0 (IP address)
// http://bar/file.html -> 0 (no subcomponents)
// http://co.uk/file.html -> 0 (host is a registry)
// http://foo.bar/file.html -> 0 or 3, depending (no rule; assume
// bar)
static size_t GetRegistryLength(const GURL& gurl,
bool allow_unknown_registries);
// Like the GURL version, but takes a host (which is canonicalized internally)
// instead of a full GURL.
static size_t GetRegistryLength(const std::string& host,
bool allow_unknown_registries);
static size_t GetRegistryLength(const std::wstring& host,
bool allow_unknown_registries);
protected:
// The entire protected API is only for unit testing. I mean it. Don't make
// me come over there!
RegistryControlledDomainService();
// Set the RegistryControledDomainService instance to be used internally.
// |instance| will supersede the singleton instance normally used. If
// |instance| is NULL, normal behavior is restored, and internal operations
// will return to using the singleton. This function always returns the
// instance set by the most recent call to SetInstance.
static RegistryControlledDomainService* SetInstance(
RegistryControlledDomainService* instance);
typedef const struct DomainRule* (*FindDomainPtr)(const char *, unsigned int);
// Used for unit tests, so that a different perfect hash map from the full
// list is used.
static void UseFindDomainFunction(FindDomainPtr function);
private:
// To allow construction of the internal singleton instance.
friend struct DefaultSingletonTraits<RegistryControlledDomainService>;
// Returns the singleton instance, after attempting to initialize it.
// NOTE that if the effective-TLD data resource can't be found, the instance
// will be initialized and continue operation with simple default TLD data.
static RegistryControlledDomainService* GetInstance();
// Internal workings of the static public methods. See above.
static std::string GetDomainAndRegistryImpl(const std::string& host);
size_t GetRegistryLengthImpl(const std::string& host,
bool allow_unknown_registries);
// Function that returns a DomainRule given a domain.
FindDomainPtr find_domain_function_;
DISALLOW_COPY_AND_ASSIGN(RegistryControlledDomainService);
};
} // namespace net
#endif // NET_BASE_REGISTRY_CONTROLLED_DOMAIN_H_