extensions/common/url_pattern.cc - platform/external/chromium_org - Git at Google

 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "extensions/common/url_pattern.h"

 #include "base/strings/string_number_conversions.h"
 #include "base/strings/string_piece.h"
 #include "base/strings/string_split.h"
 #include "base/strings/string_util.h"
 #include "content/public/common/url_constants.h"
 #include "extensions/common/constants.h"
 #include "url/gurl.h"
 #include "url/url_util.h"

 const char URLPattern::kAllUrlsPattern[] = "<all_urls>";

 namespace {

 // TODO(aa): What about more obscure schemes like data: and javascript: ?
 // Note: keep this array in sync with kValidSchemeMasks.
 const char* kValidSchemes[] = {
     url::kHttpScheme,
     url::kHttpsScheme,
     url::kFileScheme,
     url::kFtpScheme,
     content::kChromeUIScheme,
     extensions::kExtensionScheme,
     url::kFileSystemScheme,
 };

 const int kValidSchemeMasks[] = {
   URLPattern::SCHEME_HTTP,
   URLPattern::SCHEME_HTTPS,
   URLPattern::SCHEME_FILE,
   URLPattern::SCHEME_FTP,
   URLPattern::SCHEME_CHROMEUI,
   URLPattern::SCHEME_EXTENSION,
   URLPattern::SCHEME_FILESYSTEM,
 };

 COMPILE_ASSERT(arraysize(kValidSchemes) == arraysize(kValidSchemeMasks),
                must_keep_these_arrays_in_sync);

 const char kParseSuccess[] = "Success.";
 const char kParseErrorMissingSchemeSeparator[] = "Missing scheme separator.";
 const char kParseErrorInvalidScheme[] = "Invalid scheme.";
 const char kParseErrorWrongSchemeType[] = "Wrong scheme type.";
 const char kParseErrorEmptyHost[] = "Host can not be empty.";
 const char kParseErrorInvalidHostWildcard[] = "Invalid host wildcard.";
 const char kParseErrorEmptyPath[] = "Empty path.";
 const char kParseErrorInvalidPort[] = "Invalid port.";
 const char kParseErrorInvalidHost[] = "Invalid host.";

 // Message explaining each URLPattern::ParseResult.
 const char* const kParseResultMessages[] = {
   kParseSuccess,
   kParseErrorMissingSchemeSeparator,
   kParseErrorInvalidScheme,
   kParseErrorWrongSchemeType,
   kParseErrorEmptyHost,
   kParseErrorInvalidHostWildcard,
   kParseErrorEmptyPath,
   kParseErrorInvalidPort,
   kParseErrorInvalidHost,
 };

 COMPILE_ASSERT(URLPattern::NUM_PARSE_RESULTS == arraysize(kParseResultMessages),
                must_add_message_for_each_parse_result);

 const char kPathSeparator[] = "/";

 bool IsStandardScheme(const std::string& scheme) {
   // "*" gets the same treatment as a standard scheme.
   if (scheme == "*")
     return true;

   return url::IsStandard(scheme.c_str(),
                          url::Component(0, static_cast<int>(scheme.length())));
 }

 bool IsValidPortForScheme(const std::string& scheme, const std::string& port) {
   if (port == "*")
     return true;

   // Only accept non-wildcard ports if the scheme uses ports.
   if (url::DefaultPortForScheme(scheme.c_str(), scheme.length()) ==
       url::PORT_UNSPECIFIED) {
     return false;
   }

   int parsed_port = url::PORT_UNSPECIFIED;
   if (!base::StringToInt(port, &parsed_port))
     return false;
   return (parsed_port >= 0) && (parsed_port < 65536);
 }

 // Returns |path| with the trailing wildcard stripped if one existed.
 //
 // The functions that rely on this (OverlapsWith and Contains) are only
 // called for the patterns inside URLPatternSet. In those cases, we know that
 // the path will have only a single wildcard at the end. This makes figuring
 // out overlap much easier. It seems like there is probably a computer-sciency
 // way to solve the general case, but we don't need that yet.
 std::string StripTrailingWildcard(const std::string& path) {
   size_t wildcard_index = path.find('*');
   size_t path_last = path.size() - 1;
   DCHECK(wildcard_index == std::string::npos || wildcard_index == path_last);
   return wildcard_index == path_last ? path.substr(0, path_last) : path;
 }

 }  // namespace

 // static
 bool URLPattern::IsValidSchemeForExtensions(const std::string& scheme) {
   for (size_t i = 0; i < arraysize(kValidSchemes); ++i) {
     if (scheme == kValidSchemes[i])
       return true;
   }
   return false;
 }

 URLPattern::URLPattern()
     : valid_schemes_(SCHEME_NONE),
       match_all_urls_(false),
       match_subdomains_(false),
       port_("*") {}

 URLPattern::URLPattern(int valid_schemes)
     : valid_schemes_(valid_schemes),
       match_all_urls_(false),
       match_subdomains_(false),
       port_("*") {}

 URLPattern::URLPattern(int valid_schemes, const std::string& pattern)
     // Strict error checking is used, because this constructor is only
     // appropriate when we know |pattern| is valid.
     : valid_schemes_(valid_schemes),
       match_all_urls_(false),
       match_subdomains_(false),
       port_("*") {
   ParseResult result = Parse(pattern);
   if (PARSE_SUCCESS != result)
     NOTREACHED() << "URLPattern invalid: " << pattern << " result " << result;
 }

 URLPattern::~URLPattern() {
 }

 bool URLPattern::operator<(const URLPattern& other) const {
   return GetAsString() < other.GetAsString();
 }

 bool URLPattern::operator>(const URLPattern& other) const {
   return GetAsString() > other.GetAsString();
 }

 bool URLPattern::operator==(const URLPattern& other) const {
   return GetAsString() == other.GetAsString();
 }

 URLPattern::ParseResult URLPattern::Parse(const std::string& pattern) {
   spec_.clear();
   SetMatchAllURLs(false);
   SetMatchSubdomains(false);
   SetPort("*");

   // Special case pattern to match every valid URL.
   if (pattern == kAllUrlsPattern) {
     SetMatchAllURLs(true);
     return PARSE_SUCCESS;
   }

   // Parse out the scheme.
   size_t scheme_end_pos = pattern.find(url::kStandardSchemeSeparator);
   bool has_standard_scheme_separator = true;

   // Some urls also use ':' alone as the scheme separator.
   if (scheme_end_pos == std::string::npos) {
     scheme_end_pos = pattern.find(':');
     has_standard_scheme_separator = false;
   }

   if (scheme_end_pos == std::string::npos)
     return PARSE_ERROR_MISSING_SCHEME_SEPARATOR;

   if (!SetScheme(pattern.substr(0, scheme_end_pos)))
     return PARSE_ERROR_INVALID_SCHEME;

   bool standard_scheme = IsStandardScheme(scheme_);
   if (standard_scheme != has_standard_scheme_separator)
     return PARSE_ERROR_WRONG_SCHEME_SEPARATOR;

   // Advance past the scheme separator.
   scheme_end_pos +=
       (standard_scheme ? strlen(url::kStandardSchemeSeparator) : 1);
   if (scheme_end_pos >= pattern.size())
     return PARSE_ERROR_EMPTY_HOST;

   // Parse out the host and path.
   size_t host_start_pos = scheme_end_pos;
   size_t path_start_pos = 0;

   if (!standard_scheme) {
     path_start_pos = host_start_pos;
   } else if (scheme_ == url::kFileScheme) {
     size_t host_end_pos = pattern.find(kPathSeparator, host_start_pos);
     if (host_end_pos == std::string::npos) {
       // Allow hostname omission.
       // e.g. file://* is interpreted as file:///*,
       // file://foo* is interpreted as file:///foo*.
       path_start_pos = host_start_pos - 1;
     } else {
       // Ignore hostname if scheme is file://.
       // e.g. file://localhost/foo is equal to file:///foo.
       path_start_pos = host_end_pos;
     }
   } else {
     size_t host_end_pos = pattern.find(kPathSeparator, host_start_pos);

     // Host is required.
     if (host_start_pos == host_end_pos)
       return PARSE_ERROR_EMPTY_HOST;

     if (host_end_pos == std::string::npos)
       return PARSE_ERROR_EMPTY_PATH;

     host_ = pattern.substr(host_start_pos, host_end_pos - host_start_pos);

     // The first component can optionally be '*' to match all subdomains.
     std::vector<std::string> host_components;
     base::SplitString(host_, '.', &host_components);
     if (host_components[0] == "*") {
       match_subdomains_ = true;
       host_components.erase(host_components.begin(),
                             host_components.begin() + 1);
     }
     host_ = JoinString(host_components, '.');

     path_start_pos = host_end_pos;
   }

   SetPath(pattern.substr(path_start_pos));

   size_t port_pos = host_.find(':');
   if (port_pos != std::string::npos) {
     if (!SetPort(host_.substr(port_pos + 1)))
       return PARSE_ERROR_INVALID_PORT;
     host_ = host_.substr(0, port_pos);
   }

   // No other '*' can occur in the host, though. This isn't necessary, but is
   // done as a convenience to developers who might otherwise be confused and
   // think '*' works as a glob in the host.
   if (host_.find('*') != std::string::npos)
     return PARSE_ERROR_INVALID_HOST_WILDCARD;

   // Null characters are not allowed in hosts.
   if (host_.find('\0') != std::string::npos)
     return PARSE_ERROR_INVALID_HOST;

   return PARSE_SUCCESS;
 }

 void URLPattern::SetValidSchemes(int valid_schemes) {
   spec_.clear();
   valid_schemes_ = valid_schemes;
 }

 void URLPattern::SetHost(const std::string& host) {
   spec_.clear();
   host_ = host;
 }

 void URLPattern::SetMatchAllURLs(bool val) {
   spec_.clear();
   match_all_urls_ = val;

   if (val) {
     match_subdomains_ = true;
     scheme_ = "*";
     host_.clear();
     SetPath("/*");
   }
 }

 void URLPattern::SetMatchSubdomains(bool val) {
   spec_.clear();
   match_subdomains_ = val;
 }

 bool URLPattern::SetScheme(const std::string& scheme) {
   spec_.clear();
   scheme_ = scheme;
   if (scheme_ == "*") {
     valid_schemes_ &= (SCHEME_HTTP | SCHEME_HTTPS);
   } else if (!IsValidScheme(scheme_)) {
     return false;
   }
   return true;
 }

 bool URLPattern::IsValidScheme(const std::string& scheme) const {
   if (valid_schemes_ == SCHEME_ALL)
     return true;

   for (size_t i = 0; i < arraysize(kValidSchemes); ++i) {
     if (scheme == kValidSchemes[i] && (valid_schemes_ & kValidSchemeMasks[i]))
       return true;
   }

   return false;
 }

 void URLPattern::SetPath(const std::string& path) {
   spec_.clear();
   path_ = path;
   path_escaped_ = path_;
   ReplaceSubstringsAfterOffset(&path_escaped_, 0, "\\", "\\\\");
   ReplaceSubstringsAfterOffset(&path_escaped_, 0, "?", "\\?");
 }

 bool URLPattern::SetPort(const std::string& port) {
   spec_.clear();
   if (IsValidPortForScheme(scheme_, port)) {
     port_ = port;
     return true;
   }
   return false;
 }

 bool URLPattern::MatchesURL(const GURL& test) const {
   const GURL* test_url = &test;
   bool has_inner_url = test.inner_url() != NULL;

   if (has_inner_url) {
     if (!test.SchemeIsFileSystem())
       return false;  // The only nested URLs we handle are filesystem URLs.
     test_url = test.inner_url();
   }

   if (!MatchesScheme(test_url->scheme()))
     return false;

   if (match_all_urls_)
     return true;

   std::string path_for_request = test.PathForRequest();
   if (has_inner_url)
     path_for_request = test_url->path() + path_for_request;

   return MatchesSecurityOriginHelper(*test_url) &&
          MatchesPath(path_for_request);
 }

 bool URLPattern::MatchesSecurityOrigin(const GURL& test) const {
   const GURL* test_url = &test;
   bool has_inner_url = test.inner_url() != NULL;

   if (has_inner_url) {
     if (!test.SchemeIsFileSystem())
       return false;  // The only nested URLs we handle are filesystem URLs.
     test_url = test.inner_url();
   }

   if (!MatchesScheme(test_url->scheme()))
     return false;

   if (match_all_urls_)
     return true;

   return MatchesSecurityOriginHelper(*test_url);
 }

 bool URLPattern::MatchesScheme(const std::string& test) const {
   if (!IsValidScheme(test))
     return false;

   return scheme_ == "*" || test == scheme_;
 }

 bool URLPattern::MatchesHost(const std::string& host) const {
   std::string test(url::kHttpScheme);
   test += url::kStandardSchemeSeparator;
   test += host;
   test += "/";
   return MatchesHost(GURL(test));
 }

 bool URLPattern::MatchesHost(const GURL& test) const {
   // If the hosts are exactly equal, we have a match.
   if (test.host() == host_)
     return true;

   // If we're matching subdomains, and we have no host in the match pattern,
   // that means that we're matching all hosts, which means we have a match no
   // matter what the test host is.
   if (match_subdomains_ && host_.empty())
     return true;

   // Otherwise, we can only match if our match pattern matches subdomains.
   if (!match_subdomains_)
     return false;

   // We don't do subdomain matching against IP addresses, so we can give up now
   // if the test host is an IP address.
   if (test.HostIsIPAddress())
     return false;

   // Check if the test host is a subdomain of our host.
   if (test.host().length() <= (host_.length() + 1))
     return false;

   if (test.host().compare(test.host().length() - host_.length(),
                           host_.length(), host_) != 0)
     return false;

   return test.host()[test.host().length() - host_.length() - 1] == '.';
 }

 bool URLPattern::MatchesPath(const std::string& test) const {
   // Make the behaviour of OverlapsWith consistent with MatchesURL, which is
   // need to match hosted apps on e.g. 'google.com' also run on 'google.com/'.
   if (test + "/*" == path_escaped_)
     return true;

   return MatchPattern(test, path_escaped_);
 }

 const std::string& URLPattern::GetAsString() const {
   if (!spec_.empty())
     return spec_;

   if (match_all_urls_) {
     spec_ = kAllUrlsPattern;
     return spec_;
   }

   bool standard_scheme = IsStandardScheme(scheme_);

   std::string spec = scheme_ +
       (standard_scheme ? url::kStandardSchemeSeparator : ":");

   if (scheme_ != url::kFileScheme && standard_scheme) {
     if (match_subdomains_) {
       spec += "*";
       if (!host_.empty())
         spec += ".";
     }

     if (!host_.empty())
       spec += host_;

     if (port_ != "*") {
       spec += ":";
       spec += port_;
     }
   }

   if (!path_.empty())
     spec += path_;

   spec_ = spec;
   return spec_;
 }

 bool URLPattern::OverlapsWith(const URLPattern& other) const {
   if (match_all_urls() || other.match_all_urls())
     return true;
   return (MatchesAnyScheme(other.GetExplicitSchemes()) ||
           other.MatchesAnyScheme(GetExplicitSchemes()))
       && (MatchesHost(other.host()) || other.MatchesHost(host()))
       && (MatchesPortPattern(other.port()) || other.MatchesPortPattern(port()))
       && (MatchesPath(StripTrailingWildcard(other.path())) ||
           other.MatchesPath(StripTrailingWildcard(path())));
 }

 bool URLPattern::Contains(const URLPattern& other) const {
   if (match_all_urls())
     return true;
   return MatchesAllSchemes(other.GetExplicitSchemes())
       && MatchesHost(other.host())
       && MatchesPortPattern(other.port())
       && MatchesPath(StripTrailingWildcard(other.path()));
 }

 bool URLPattern::MatchesAnyScheme(
     const std::vector<std::string>& schemes) const {
   for (std::vector<std::string>::const_iterator i = schemes.begin();
        i != schemes.end(); ++i) {
     if (MatchesScheme(*i))
       return true;
   }

   return false;
 }

 bool URLPattern::MatchesAllSchemes(
     const std::vector<std::string>& schemes) const {
   for (std::vector<std::string>::const_iterator i = schemes.begin();
        i != schemes.end(); ++i) {
     if (!MatchesScheme(*i))
       return false;
   }

   return true;
 }

 bool URLPattern::MatchesSecurityOriginHelper(const GURL& test) const {
   // Ignore hostname if scheme is file://.
   if (scheme_ != url::kFileScheme && !MatchesHost(test))
     return false;

   if (!MatchesPortPattern(base::IntToString(test.EffectiveIntPort())))
     return false;

   return true;
 }

 bool URLPattern::MatchesPortPattern(const std::string& port) const {
   return port_ == "*" || port_ == port;
 }

 std::vector<std::string> URLPattern::GetExplicitSchemes() const {
   std::vector<std::string> result;

   if (scheme_ != "*" && !match_all_urls_ && IsValidScheme(scheme_)) {
     result.push_back(scheme_);
     return result;
   }

   for (size_t i = 0; i < arraysize(kValidSchemes); ++i) {
     if (MatchesScheme(kValidSchemes[i])) {
       result.push_back(kValidSchemes[i]);
     }
   }

   return result;
 }

 std::vector<URLPattern> URLPattern::ConvertToExplicitSchemes() const {
   std::vector<std::string> explicit_schemes = GetExplicitSchemes();
   std::vector<URLPattern> result;

   for (std::vector<std::string>::const_iterator i = explicit_schemes.begin();
        i != explicit_schemes.end(); ++i) {
     URLPattern temp = *this;
     temp.SetScheme(*i);
     temp.SetMatchAllURLs(false);
     result.push_back(temp);
   }

   return result;
 }

 // static
 const char* URLPattern::GetParseResultString(
     URLPattern::ParseResult parse_result) {
   return kParseResultMessages[parse_result];
 }
	// Copyright (c) 2012 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "extensions/common/url_pattern.h"

	#include "base/strings/string_number_conversions.h"
	#include "base/strings/string_piece.h"
	#include "base/strings/string_split.h"
	#include "base/strings/string_util.h"
	#include "content/public/common/url_constants.h"
	#include "extensions/common/constants.h"
	#include "url/gurl.h"
	#include "url/url_util.h"

	const char URLPattern::kAllUrlsPattern[] = "<all_urls>";

	namespace {

	// TODO(aa): What about more obscure schemes like data: and javascript: ?
	// Note: keep this array in sync with kValidSchemeMasks.
	const char* kValidSchemes[] = {
	url::kHttpScheme,
	url::kHttpsScheme,
	url::kFileScheme,
	url::kFtpScheme,
	content::kChromeUIScheme,
	extensions::kExtensionScheme,
	url::kFileSystemScheme,
	};

	const int kValidSchemeMasks[] = {
	URLPattern::SCHEME_HTTP,
	URLPattern::SCHEME_HTTPS,
	URLPattern::SCHEME_FILE,
	URLPattern::SCHEME_FTP,
	URLPattern::SCHEME_CHROMEUI,
	URLPattern::SCHEME_EXTENSION,
	URLPattern::SCHEME_FILESYSTEM,
	};

	COMPILE_ASSERT(arraysize(kValidSchemes) == arraysize(kValidSchemeMasks),
	must_keep_these_arrays_in_sync);

	const char kParseSuccess[] = "Success.";
	const char kParseErrorMissingSchemeSeparator[] = "Missing scheme separator.";
	const char kParseErrorInvalidScheme[] = "Invalid scheme.";
	const char kParseErrorWrongSchemeType[] = "Wrong scheme type.";
	const char kParseErrorEmptyHost[] = "Host can not be empty.";
	const char kParseErrorInvalidHostWildcard[] = "Invalid host wildcard.";
	const char kParseErrorEmptyPath[] = "Empty path.";
	const char kParseErrorInvalidPort[] = "Invalid port.";
	const char kParseErrorInvalidHost[] = "Invalid host.";

	// Message explaining each URLPattern::ParseResult.
	const char* const kParseResultMessages[] = {
	kParseSuccess,
	kParseErrorMissingSchemeSeparator,
	kParseErrorInvalidScheme,
	kParseErrorWrongSchemeType,
	kParseErrorEmptyHost,
	kParseErrorInvalidHostWildcard,
	kParseErrorEmptyPath,
	kParseErrorInvalidPort,
	kParseErrorInvalidHost,
	};

	COMPILE_ASSERT(URLPattern::NUM_PARSE_RESULTS == arraysize(kParseResultMessages),
	must_add_message_for_each_parse_result);

	const char kPathSeparator[] = "/";

	bool IsStandardScheme(const std::string& scheme) {
	// "*" gets the same treatment as a standard scheme.
	if (scheme == "*")
	return true;

	return url::IsStandard(scheme.c_str(),
	url::Component(0, static_cast<int>(scheme.length())));
	}

	bool IsValidPortForScheme(const std::string& scheme, const std::string& port) {
	if (port == "*")
	return true;

	// Only accept non-wildcard ports if the scheme uses ports.
	if (url::DefaultPortForScheme(scheme.c_str(), scheme.length()) ==
	url::PORT_UNSPECIFIED) {
	return false;
	}

	int parsed_port = url::PORT_UNSPECIFIED;
	if (!base::StringToInt(port, &parsed_port))
	return false;
	return (parsed_port >= 0) && (parsed_port < 65536);
	}

	// Returns \|path\| with the trailing wildcard stripped if one existed.
	//
	// The functions that rely on this (OverlapsWith and Contains) are only
	// called for the patterns inside URLPatternSet. In those cases, we know that
	// the path will have only a single wildcard at the end. This makes figuring
	// out overlap much easier. It seems like there is probably a computer-sciency
	// way to solve the general case, but we don't need that yet.
	std::string StripTrailingWildcard(const std::string& path) {
	size_t wildcard_index = path.find('*');
	size_t path_last = path.size() - 1;
	DCHECK(wildcard_index == std::string::npos \|\| wildcard_index == path_last);
	return wildcard_index == path_last ? path.substr(0, path_last) : path;
	}

	} // namespace

	// static
	bool URLPattern::IsValidSchemeForExtensions(const std::string& scheme) {
	for (size_t i = 0; i < arraysize(kValidSchemes); ++i) {
	if (scheme == kValidSchemes[i])
	return true;
	}
	return false;
	}

	URLPattern::URLPattern()
	: valid_schemes_(SCHEME_NONE),
	match_all_urls_(false),
	match_subdomains_(false),
	port_("*") {}

	URLPattern::URLPattern(int valid_schemes)
	: valid_schemes_(valid_schemes),
	match_all_urls_(false),
	match_subdomains_(false),
	port_("*") {}

	URLPattern::URLPattern(int valid_schemes, const std::string& pattern)
	// Strict error checking is used, because this constructor is only
	// appropriate when we know \|pattern\| is valid.
	: valid_schemes_(valid_schemes),
	match_all_urls_(false),
	match_subdomains_(false),
	port_("*") {
	ParseResult result = Parse(pattern);
	if (PARSE_SUCCESS != result)
	NOTREACHED() << "URLPattern invalid: " << pattern << " result " << result;
	}

	URLPattern::~URLPattern() {
	}

	bool URLPattern::operator<(const URLPattern& other) const {
	return GetAsString() < other.GetAsString();
	}

	bool URLPattern::operator>(const URLPattern& other) const {
	return GetAsString() > other.GetAsString();
	}

	bool URLPattern::operator==(const URLPattern& other) const {
	return GetAsString() == other.GetAsString();
	}

	URLPattern::ParseResult URLPattern::Parse(const std::string& pattern) {
	spec_.clear();
	SetMatchAllURLs(false);
	SetMatchSubdomains(false);
	SetPort("*");

	// Special case pattern to match every valid URL.
	if (pattern == kAllUrlsPattern) {
	SetMatchAllURLs(true);
	return PARSE_SUCCESS;
	}

	// Parse out the scheme.
	size_t scheme_end_pos = pattern.find(url::kStandardSchemeSeparator);
	bool has_standard_scheme_separator = true;

	// Some urls also use ':' alone as the scheme separator.
	if (scheme_end_pos == std::string::npos) {
	scheme_end_pos = pattern.find(':');
	has_standard_scheme_separator = false;
	}

	if (scheme_end_pos == std::string::npos)
	return PARSE_ERROR_MISSING_SCHEME_SEPARATOR;

	if (!SetScheme(pattern.substr(0, scheme_end_pos)))
	return PARSE_ERROR_INVALID_SCHEME;

	bool standard_scheme = IsStandardScheme(scheme_);
	if (standard_scheme != has_standard_scheme_separator)
	return PARSE_ERROR_WRONG_SCHEME_SEPARATOR;

	// Advance past the scheme separator.
	scheme_end_pos +=
	(standard_scheme ? strlen(url::kStandardSchemeSeparator) : 1);
	if (scheme_end_pos >= pattern.size())
	return PARSE_ERROR_EMPTY_HOST;

	// Parse out the host and path.
	size_t host_start_pos = scheme_end_pos;
	size_t path_start_pos = 0;

	if (!standard_scheme) {
	path_start_pos = host_start_pos;
	} else if (scheme_ == url::kFileScheme) {
	size_t host_end_pos = pattern.find(kPathSeparator, host_start_pos);
	if (host_end_pos == std::string::npos) {
	// Allow hostname omission.
	// e.g. file://* is interpreted as file:///*,
	// file://foo* is interpreted as file:///foo*.
	path_start_pos = host_start_pos - 1;
	} else {
	// Ignore hostname if scheme is file://.
	// e.g. file://localhost/foo is equal to file:///foo.
	path_start_pos = host_end_pos;
	}
	} else {
	size_t host_end_pos = pattern.find(kPathSeparator, host_start_pos);

	// Host is required.
	if (host_start_pos == host_end_pos)
	return PARSE_ERROR_EMPTY_HOST;

	if (host_end_pos == std::string::npos)
	return PARSE_ERROR_EMPTY_PATH;

	host_ = pattern.substr(host_start_pos, host_end_pos - host_start_pos);

	// The first component can optionally be '*' to match all subdomains.
	std::vector<std::string> host_components;
	base::SplitString(host_, '.', &host_components);
	if (host_components[0] == "*") {
	match_subdomains_ = true;
	host_components.erase(host_components.begin(),
	host_components.begin() + 1);
	}
	host_ = JoinString(host_components, '.');

	path_start_pos = host_end_pos;
	}

	SetPath(pattern.substr(path_start_pos));

	size_t port_pos = host_.find(':');
	if (port_pos != std::string::npos) {
	if (!SetPort(host_.substr(port_pos + 1)))
	return PARSE_ERROR_INVALID_PORT;
	host_ = host_.substr(0, port_pos);
	}

	// No other '*' can occur in the host, though. This isn't necessary, but is
	// done as a convenience to developers who might otherwise be confused and
	// think '*' works as a glob in the host.
	if (host_.find('*') != std::string::npos)
	return PARSE_ERROR_INVALID_HOST_WILDCARD;

	// Null characters are not allowed in hosts.
	if (host_.find('\0') != std::string::npos)
	return PARSE_ERROR_INVALID_HOST;

	return PARSE_SUCCESS;
	}

	void URLPattern::SetValidSchemes(int valid_schemes) {
	spec_.clear();
	valid_schemes_ = valid_schemes;
	}

	void URLPattern::SetHost(const std::string& host) {
	spec_.clear();
	host_ = host;
	}

	void URLPattern::SetMatchAllURLs(bool val) {
	spec_.clear();
	match_all_urls_ = val;

	if (val) {
	match_subdomains_ = true;
	scheme_ = "*";
	host_.clear();
	SetPath("/*");
	}
	}

	void URLPattern::SetMatchSubdomains(bool val) {
	spec_.clear();
	match_subdomains_ = val;
	}

	bool URLPattern::SetScheme(const std::string& scheme) {
	spec_.clear();
	scheme_ = scheme;
	if (scheme_ == "*") {
	valid_schemes_ &= (SCHEME_HTTP \| SCHEME_HTTPS);
	} else if (!IsValidScheme(scheme_)) {
	return false;
	}
	return true;
	}

	bool URLPattern::IsValidScheme(const std::string& scheme) const {
	if (valid_schemes_ == SCHEME_ALL)
	return true;

	for (size_t i = 0; i < arraysize(kValidSchemes); ++i) {
	if (scheme == kValidSchemes[i] && (valid_schemes_ & kValidSchemeMasks[i]))
	return true;
	}

	return false;
	}

	void URLPattern::SetPath(const std::string& path) {
	spec_.clear();
	path_ = path;
	path_escaped_ = path_;
	ReplaceSubstringsAfterOffset(&path_escaped_, 0, "\\", "\\\\");
	ReplaceSubstringsAfterOffset(&path_escaped_, 0, "?", "\\?");
	}

	bool URLPattern::SetPort(const std::string& port) {
	spec_.clear();
	if (IsValidPortForScheme(scheme_, port)) {
	port_ = port;
	return true;
	}
	return false;
	}

	bool URLPattern::MatchesURL(const GURL& test) const {
	const GURL* test_url = &test;
	bool has_inner_url = test.inner_url() != NULL;

	if (has_inner_url) {
	if (!test.SchemeIsFileSystem())
	return false; // The only nested URLs we handle are filesystem URLs.
	test_url = test.inner_url();
	}

	if (!MatchesScheme(test_url->scheme()))
	return false;

	if (match_all_urls_)
	return true;

	std::string path_for_request = test.PathForRequest();
	if (has_inner_url)
	path_for_request = test_url->path() + path_for_request;

	return MatchesSecurityOriginHelper(*test_url) &&
	MatchesPath(path_for_request);
	}

	bool URLPattern::MatchesSecurityOrigin(const GURL& test) const {
	const GURL* test_url = &test;
	bool has_inner_url = test.inner_url() != NULL;

	if (has_inner_url) {
	if (!test.SchemeIsFileSystem())
	return false; // The only nested URLs we handle are filesystem URLs.
	test_url = test.inner_url();
	}

	if (!MatchesScheme(test_url->scheme()))
	return false;

	if (match_all_urls_)
	return true;

	return MatchesSecurityOriginHelper(*test_url);
	}

	bool URLPattern::MatchesScheme(const std::string& test) const {
	if (!IsValidScheme(test))
	return false;

	return scheme_ == "*" \|\| test == scheme_;
	}

	bool URLPattern::MatchesHost(const std::string& host) const {
	std::string test(url::kHttpScheme);
	test += url::kStandardSchemeSeparator;
	test += host;
	test += "/";
	return MatchesHost(GURL(test));
	}

	bool URLPattern::MatchesHost(const GURL& test) const {
	// If the hosts are exactly equal, we have a match.
	if (test.host() == host_)
	return true;

	// If we're matching subdomains, and we have no host in the match pattern,
	// that means that we're matching all hosts, which means we have a match no
	// matter what the test host is.
	if (match_subdomains_ && host_.empty())
	return true;

	// Otherwise, we can only match if our match pattern matches subdomains.
	if (!match_subdomains_)
	return false;

	// We don't do subdomain matching against IP addresses, so we can give up now
	// if the test host is an IP address.
	if (test.HostIsIPAddress())
	return false;

	// Check if the test host is a subdomain of our host.
	if (test.host().length() <= (host_.length() + 1))
	return false;

	if (test.host().compare(test.host().length() - host_.length(),
	host_.length(), host_) != 0)
	return false;

	return test.host()[test.host().length() - host_.length() - 1] == '.';
	}

	bool URLPattern::MatchesPath(const std::string& test) const {
	// Make the behaviour of OverlapsWith consistent with MatchesURL, which is
	// need to match hosted apps on e.g. 'google.com' also run on 'google.com/'.
	if (test + "/*" == path_escaped_)
	return true;

	return MatchPattern(test, path_escaped_);
	}

	const std::string& URLPattern::GetAsString() const {
	if (!spec_.empty())
	return spec_;

	if (match_all_urls_) {
	spec_ = kAllUrlsPattern;
	return spec_;
	}

	bool standard_scheme = IsStandardScheme(scheme_);

	std::string spec = scheme_ +
	(standard_scheme ? url::kStandardSchemeSeparator : ":");

	if (scheme_ != url::kFileScheme && standard_scheme) {
	if (match_subdomains_) {
	spec += "*";
	if (!host_.empty())
	spec += ".";
	}

	if (!host_.empty())
	spec += host_;

	if (port_ != "*") {
	spec += ":";
	spec += port_;
	}
	}

	if (!path_.empty())
	spec += path_;

	spec_ = spec;
	return spec_;
	}

	bool URLPattern::OverlapsWith(const URLPattern& other) const {
	if (match_all_urls() \|\| other.match_all_urls())
	return true;
	return (MatchesAnyScheme(other.GetExplicitSchemes()) \|\|
	other.MatchesAnyScheme(GetExplicitSchemes()))
	&& (MatchesHost(other.host()) \|\| other.MatchesHost(host()))
	&& (MatchesPortPattern(other.port()) \|\| other.MatchesPortPattern(port()))
	&& (MatchesPath(StripTrailingWildcard(other.path())) \|\|
	other.MatchesPath(StripTrailingWildcard(path())));
	}

	bool URLPattern::Contains(const URLPattern& other) const {
	if (match_all_urls())
	return true;
	return MatchesAllSchemes(other.GetExplicitSchemes())
	&& MatchesHost(other.host())
	&& MatchesPortPattern(other.port())
	&& MatchesPath(StripTrailingWildcard(other.path()));
	}

	bool URLPattern::MatchesAnyScheme(
	const std::vector<std::string>& schemes) const {
	for (std::vector<std::string>::const_iterator i = schemes.begin();
	i != schemes.end(); ++i) {
	if (MatchesScheme(*i))
	return true;
	}

	return false;
	}

	bool URLPattern::MatchesAllSchemes(
	const std::vector<std::string>& schemes) const {
	for (std::vector<std::string>::const_iterator i = schemes.begin();
	i != schemes.end(); ++i) {
	if (!MatchesScheme(*i))
	return false;
	}

	return true;
	}

	bool URLPattern::MatchesSecurityOriginHelper(const GURL& test) const {
	// Ignore hostname if scheme is file://.
	if (scheme_ != url::kFileScheme && !MatchesHost(test))
	return false;

	if (!MatchesPortPattern(base::IntToString(test.EffectiveIntPort())))
	return false;

	return true;
	}

	bool URLPattern::MatchesPortPattern(const std::string& port) const {
	return port_ == "*" \|\| port_ == port;
	}

	std::vector<std::string> URLPattern::GetExplicitSchemes() const {
	std::vector<std::string> result;

	if (scheme_ != "*" && !match_all_urls_ && IsValidScheme(scheme_)) {
	result.push_back(scheme_);
	return result;
	}

	for (size_t i = 0; i < arraysize(kValidSchemes); ++i) {
	if (MatchesScheme(kValidSchemes[i])) {
	result.push_back(kValidSchemes[i]);
	}
	}

	return result;
	}

	std::vector<URLPattern> URLPattern::ConvertToExplicitSchemes() const {
	std::vector<std::string> explicit_schemes = GetExplicitSchemes();
	std::vector<URLPattern> result;

	for (std::vector<std::string>::const_iterator i = explicit_schemes.begin();
	i != explicit_schemes.end(); ++i) {
	URLPattern temp = *this;
	temp.SetScheme(*i);
	temp.SetMatchAllURLs(false);
	result.push_back(temp);
	}

	return result;
	}

	// static
	const char* URLPattern::GetParseResultString(
	URLPattern::ParseResult parse_result) {
	return kParseResultMessages[parse_result];
	}