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|
// Copyright 2013 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 "components/url_matcher/url_matcher.h"
#include <algorithm>
#include <iterator>
#include "base/logging.h"
#include "url/gurl.h"
#include "url/url_canon.h"
namespace url_matcher {
// This set of classes implement a mapping of URL Component Patterns, such as
// host_prefix, host_suffix, host_equals, ..., etc., to StringPatterns
// for use in substring comparisons.
//
// The idea of this mapping is to reduce the problem of comparing many
// URL Component Patterns against one URL to the problem of searching many
// substrings in one string:
//
// ---------------------- -----------------
// | URL Query operator | ----translate----> | StringPattern |
// ---------------------- -----------------
// ^
// |
// compare
// |
// v
// ---------------------- -----------------
// | URL to compare | | |
// | to all URL Query | ----translate----> | String |
// | operators | | |
// ---------------------- -----------------
//
// The reason for this problem reduction is that there are efficient algorithms
// for searching many substrings in one string (see Aho-Corasick algorithm).
//
// Additionally, some of the same pieces are reused to implement regular
// expression comparisons. The FilteredRE2 implementation for matching many
// regular expressions against one string uses prefiltering, in which a set
// of substrings (derived from the regexes) are first searched for, to reduce
// the number of regular expressions to test; the prefiltering step also
// uses Aho-Corasick.
//
// Case 1: {host,path,query}_{prefix,suffix,equals} searches.
// ==========================================================
//
// For searches in this class, we normalize URLs as follows:
//
// Step 1:
// Remove scheme, port and segment from URL:
// -> http://www.example.com:8080/index.html?search=foo#first_match becomes
// www.example.com/index.html?search=foo
//
// We remove the scheme and port number because they can be checked later
// in a secondary filter step. We remove the segment (the #... part) because
// this is not guaranteed to be ASCII-7 encoded.
//
// Step 2:
// Translate URL to String and add the following position markers:
// - BU = Beginning of URL
// - ED = End of Domain
// - EP = End of Path
// - EU = End of URL
// Furthermore, the hostname is canonicalized to start with a ".".
//
// Position markers are represented as characters >127, which are therefore
// guaranteed not to be part of the ASCII-7 encoded URL character set.
//
// -> www.example.com/index.html?search=foo becomes
// BU .www.example.com ED /index.html EP ?search=foo EU
//
// -> www.example.com/index.html becomes
// BU .www.example.com ED /index.html EP EU
//
// Step 3:
// Translate URL Component Patterns as follows:
//
// host_prefix(prefix) = BU add_missing_dot_prefix(prefix)
// -> host_prefix("www.example") = BU .www.example
//
// host_suffix(suffix) = suffix ED
// -> host_suffix("example.com") = example.com ED
// -> host_suffix(".example.com") = .example.com ED
//
// host_equals(domain) = BU add_missing_dot_prefix(domain) ED
// -> host_equals("www.example.com") = BU .www.example.com ED
//
// Similarly for path query parameters ({path, query}_{prefix, suffix, equals}).
//
// With this, we can search the StringPatterns in the normalized URL.
//
//
// Case 2: url_{prefix,suffix,equals,contains} searches.
// =====================================================
//
// Step 1: as above, except that
// - the scheme is not removed
// - the port is not removed if it is specified and does not match the default
// port for the given scheme.
//
// Step 2:
// Translate URL to String and add the following position markers:
// - BU = Beginning of URL
// - EU = End of URL
//
// -> http://www.example.com:8080/index.html?search=foo#first_match becomes
// BU http://www.example.com:8080/index.html?search=foo EU
// -> http://www.example.com:80/index.html?search=foo#first_match becomes
// BU http://www.example.com/index.html?search=foo EU
//
// url_prefix(prefix) = BU prefix
// -> url_prefix("http://www.example") = BU http://www.example
//
// url_contains(substring) = substring
// -> url_contains("index") = index
//
//
// Case 3: {host,path,query}_contains searches.
// ============================================
//
// These kinds of searches are not supported directly but can be derived
// by a combination of a url_contains() query followed by an explicit test:
//
// host_contains(str) = url_contains(str) followed by test whether str occurs
// in host component of original URL.
// -> host_contains("example.co") = example.co
// followed by gurl.host().find("example.co");
//
// [similarly for path_contains and query_contains].
//
//
// Regular expression matching (url_matches searches)
// ==================================================
//
// This class also supports matching regular expressions (RE2 syntax)
// against full URLs, which are transformed as in case 2.
namespace {
bool IsRegexCriterion(URLMatcherCondition::Criterion criterion) {
return criterion == URLMatcherCondition::URL_MATCHES;
}
bool IsOriginAndPathRegexCriterion(URLMatcherCondition::Criterion criterion) {
return criterion == URLMatcherCondition::ORIGIN_AND_PATH_MATCHES;
}
} // namespace
//
// URLMatcherCondition
//
URLMatcherCondition::URLMatcherCondition()
: criterion_(HOST_PREFIX),
string_pattern_(NULL) {}
URLMatcherCondition::~URLMatcherCondition() {}
URLMatcherCondition::URLMatcherCondition(
Criterion criterion,
const StringPattern* string_pattern)
: criterion_(criterion),
string_pattern_(string_pattern) {}
URLMatcherCondition::URLMatcherCondition(const URLMatcherCondition& rhs)
: criterion_(rhs.criterion_),
string_pattern_(rhs.string_pattern_) {}
URLMatcherCondition& URLMatcherCondition::operator=(
const URLMatcherCondition& rhs) {
criterion_ = rhs.criterion_;
string_pattern_ = rhs.string_pattern_;
return *this;
}
bool URLMatcherCondition::operator<(const URLMatcherCondition& rhs) const {
if (criterion_ < rhs.criterion_) return true;
if (criterion_ > rhs.criterion_) return false;
if (string_pattern_ != NULL && rhs.string_pattern_ != NULL)
return *string_pattern_ < *rhs.string_pattern_;
if (string_pattern_ == NULL && rhs.string_pattern_ != NULL) return true;
// Either string_pattern_ != NULL && rhs.string_pattern_ == NULL,
// or both are NULL.
return false;
}
bool URLMatcherCondition::IsFullURLCondition() const {
// For these criteria the SubstringMatcher needs to be executed on the
// GURL that is canonicalized with
// URLMatcherConditionFactory::CanonicalizeURLForFullSearches.
switch (criterion_) {
case HOST_CONTAINS:
case PATH_CONTAINS:
case QUERY_CONTAINS:
case URL_PREFIX:
case URL_SUFFIX:
case URL_CONTAINS:
case URL_EQUALS:
return true;
default:
break;
}
return false;
}
bool URLMatcherCondition::IsRegexCondition() const {
return IsRegexCriterion(criterion_);
}
bool URLMatcherCondition::IsOriginAndPathRegexCondition() const {
return IsOriginAndPathRegexCriterion(criterion_);
}
bool URLMatcherCondition::IsMatch(
const std::set<StringPattern::ID>& matching_patterns,
const GURL& url) const {
DCHECK(string_pattern_);
if (!ContainsKey(matching_patterns, string_pattern_->id()))
return false;
// The criteria HOST_CONTAINS, PATH_CONTAINS, QUERY_CONTAINS are based on
// a substring match on the raw URL. In case of a match, we need to verify
// that the match was found in the correct component of the URL.
switch (criterion_) {
case HOST_CONTAINS:
return url.host().find(string_pattern_->pattern()) !=
std::string::npos;
case PATH_CONTAINS:
return url.path().find(string_pattern_->pattern()) !=
std::string::npos;
case QUERY_CONTAINS:
return url.query().find(string_pattern_->pattern()) !=
std::string::npos;
default:
break;
}
return true;
}
//
// URLMatcherConditionFactory
//
namespace {
// These are symbols that are not contained in 7-bit ASCII used in GURLs.
const char kBeginningOfURL[] = {static_cast<char>(-1), 0};
const char kEndOfDomain[] = {static_cast<char>(-2), 0};
const char kEndOfPath[] = {static_cast<char>(-3), 0};
const char kQueryComponentDelimiter[] = {static_cast<char>(-4), 0};
const char kEndOfURL[] = {static_cast<char>(-5), 0};
// The delimiter for query parameters
const char kQuerySeparator = '&';
} // namespace
URLMatcherConditionFactory::URLMatcherConditionFactory() : id_counter_(0) {}
URLMatcherConditionFactory::~URLMatcherConditionFactory() {
STLDeleteElements(&substring_pattern_singletons_);
STLDeleteElements(®ex_pattern_singletons_);
STLDeleteElements(&origin_and_path_regex_pattern_singletons_);
}
std::string URLMatcherConditionFactory::CanonicalizeURLForComponentSearches(
const GURL& url) const {
return kBeginningOfURL + CanonicalizeHostname(url.host()) + kEndOfDomain +
url.path() + kEndOfPath +
(url.has_query() ? CanonicalizeQuery(url.query(), true, true)
: std::string()) +
kEndOfURL;
}
URLMatcherCondition URLMatcherConditionFactory::CreateHostPrefixCondition(
const std::string& prefix) {
return CreateCondition(URLMatcherCondition::HOST_PREFIX,
kBeginningOfURL + CanonicalizeHostPrefix(prefix));
}
URLMatcherCondition URLMatcherConditionFactory::CreateHostSuffixCondition(
const std::string& suffix) {
return CreateCondition(URLMatcherCondition::HOST_SUFFIX,
CanonicalizeHostSuffix(suffix) + kEndOfDomain);
}
URLMatcherCondition URLMatcherConditionFactory::CreateHostContainsCondition(
const std::string& str) {
return CreateCondition(URLMatcherCondition::HOST_CONTAINS, str);
}
URLMatcherCondition URLMatcherConditionFactory::CreateHostEqualsCondition(
const std::string& str) {
return CreateCondition(URLMatcherCondition::HOST_EQUALS,
kBeginningOfURL + CanonicalizeHostname(str) + kEndOfDomain);
}
URLMatcherCondition URLMatcherConditionFactory::CreatePathPrefixCondition(
const std::string& prefix) {
return CreateCondition(URLMatcherCondition::PATH_PREFIX,
kEndOfDomain + prefix);
}
URLMatcherCondition URLMatcherConditionFactory::CreatePathSuffixCondition(
const std::string& suffix) {
return CreateCondition(URLMatcherCondition::PATH_SUFFIX, suffix + kEndOfPath);
}
URLMatcherCondition URLMatcherConditionFactory::CreatePathContainsCondition(
const std::string& str) {
return CreateCondition(URLMatcherCondition::PATH_CONTAINS, str);
}
URLMatcherCondition URLMatcherConditionFactory::CreatePathEqualsCondition(
const std::string& str) {
return CreateCondition(URLMatcherCondition::PATH_EQUALS,
kEndOfDomain + str + kEndOfPath);
}
URLMatcherCondition URLMatcherConditionFactory::CreateQueryPrefixCondition(
const std::string& prefix) {
std::string pattern;
if (!prefix.empty() && prefix[0] == '?')
pattern = kEndOfPath + CanonicalizeQuery(prefix.substr(1), true, false);
else
pattern = kEndOfPath + CanonicalizeQuery(prefix, true, false);
return CreateCondition(URLMatcherCondition::QUERY_PREFIX, pattern);
}
URLMatcherCondition URLMatcherConditionFactory::CreateQuerySuffixCondition(
const std::string& suffix) {
if (!suffix.empty() && suffix[0] == '?') {
return CreateQueryEqualsCondition(suffix);
} else {
return CreateCondition(URLMatcherCondition::QUERY_SUFFIX,
CanonicalizeQuery(suffix, false, true) + kEndOfURL);
}
}
URLMatcherCondition URLMatcherConditionFactory::CreateQueryContainsCondition(
const std::string& str) {
if (!str.empty() && str[0] == '?')
return CreateQueryPrefixCondition(str);
else
return CreateCondition(URLMatcherCondition::QUERY_CONTAINS, str);
}
URLMatcherCondition URLMatcherConditionFactory::CreateQueryEqualsCondition(
const std::string& str) {
std::string pattern;
if (!str.empty() && str[0] == '?')
pattern =
kEndOfPath + CanonicalizeQuery(str.substr(1), true, true) + kEndOfURL;
else
pattern = kEndOfPath + CanonicalizeQuery(str, true, true) + kEndOfURL;
return CreateCondition(URLMatcherCondition::QUERY_EQUALS, pattern);
}
URLMatcherCondition
URLMatcherConditionFactory::CreateHostSuffixPathPrefixCondition(
const std::string& host_suffix,
const std::string& path_prefix) {
return CreateCondition(URLMatcherCondition::HOST_SUFFIX_PATH_PREFIX,
CanonicalizeHostSuffix(host_suffix) + kEndOfDomain + path_prefix);
}
URLMatcherCondition
URLMatcherConditionFactory::CreateHostEqualsPathPrefixCondition(
const std::string& host,
const std::string& path_prefix) {
return CreateCondition(URLMatcherCondition::HOST_EQUALS_PATH_PREFIX,
kBeginningOfURL + CanonicalizeHostname(host) + kEndOfDomain +
path_prefix);
}
std::string URLMatcherConditionFactory::CanonicalizeURLForFullSearches(
const GURL& url) const {
GURL::Replacements replacements;
replacements.ClearPassword();
replacements.ClearUsername();
replacements.ClearRef();
// Clear port if it is implicit from scheme.
if (url.has_port()) {
const std::string& port = url.scheme();
if (url::DefaultPortForScheme(port.c_str(), port.size()) ==
url.EffectiveIntPort()) {
replacements.ClearPort();
}
}
return kBeginningOfURL + url.ReplaceComponents(replacements).spec() +
kEndOfURL;
}
static std::string CanonicalizeURLForRegexSearchesHelper(
const GURL& url,
bool clear_query) {
GURL::Replacements replacements;
replacements.ClearPassword();
replacements.ClearUsername();
replacements.ClearRef();
if (clear_query)
replacements.ClearQuery();
// Clear port if it is implicit from scheme.
if (url.has_port()) {
const std::string& port = url.scheme();
if (url::DefaultPortForScheme(port.c_str(), port.size()) ==
url.EffectiveIntPort()) {
replacements.ClearPort();
}
}
return url.ReplaceComponents(replacements).spec();
}
std::string URLMatcherConditionFactory::CanonicalizeURLForRegexSearches(
const GURL& url) const {
return CanonicalizeURLForRegexSearchesHelper(url, false);
}
std::string
URLMatcherConditionFactory::CanonicalizeURLForOriginAndPathRegexSearches(
const GURL& url) const {
return CanonicalizeURLForRegexSearchesHelper(url, true);
}
URLMatcherCondition URLMatcherConditionFactory::CreateURLPrefixCondition(
const std::string& prefix) {
return CreateCondition(URLMatcherCondition::URL_PREFIX,
kBeginningOfURL + prefix);
}
URLMatcherCondition URLMatcherConditionFactory::CreateURLSuffixCondition(
const std::string& suffix) {
return CreateCondition(URLMatcherCondition::URL_SUFFIX, suffix + kEndOfURL);
}
URLMatcherCondition URLMatcherConditionFactory::CreateURLContainsCondition(
const std::string& str) {
return CreateCondition(URLMatcherCondition::URL_CONTAINS, str);
}
URLMatcherCondition URLMatcherConditionFactory::CreateURLEqualsCondition(
const std::string& str) {
return CreateCondition(URLMatcherCondition::URL_EQUALS,
kBeginningOfURL + str + kEndOfURL);
}
URLMatcherCondition URLMatcherConditionFactory::CreateURLMatchesCondition(
const std::string& regex) {
return CreateCondition(URLMatcherCondition::URL_MATCHES, regex);
}
URLMatcherCondition
URLMatcherConditionFactory::CreateOriginAndPathMatchesCondition(
const std::string& regex) {
return CreateCondition(URLMatcherCondition::ORIGIN_AND_PATH_MATCHES, regex);
}
void URLMatcherConditionFactory::ForgetUnusedPatterns(
const std::set<StringPattern::ID>& used_patterns) {
PatternSingletons::iterator i = substring_pattern_singletons_.begin();
while (i != substring_pattern_singletons_.end()) {
if (ContainsKey(used_patterns, (*i)->id())) {
++i;
} else {
delete *i;
substring_pattern_singletons_.erase(i++);
}
}
i = regex_pattern_singletons_.begin();
while (i != regex_pattern_singletons_.end()) {
if (ContainsKey(used_patterns, (*i)->id())) {
++i;
} else {
delete *i;
regex_pattern_singletons_.erase(i++);
}
}
i = origin_and_path_regex_pattern_singletons_.begin();
while (i != origin_and_path_regex_pattern_singletons_.end()) {
if (ContainsKey(used_patterns, (*i)->id())) {
++i;
} else {
delete *i;
origin_and_path_regex_pattern_singletons_.erase(i++);
}
}
}
bool URLMatcherConditionFactory::IsEmpty() const {
return substring_pattern_singletons_.empty() &&
regex_pattern_singletons_.empty() &&
origin_and_path_regex_pattern_singletons_.empty();
}
URLMatcherCondition URLMatcherConditionFactory::CreateCondition(
URLMatcherCondition::Criterion criterion,
const std::string& pattern) {
StringPattern search_pattern(pattern, 0);
PatternSingletons* pattern_singletons = NULL;
if (IsRegexCriterion(criterion))
pattern_singletons = ®ex_pattern_singletons_;
else if (IsOriginAndPathRegexCriterion(criterion))
pattern_singletons = &origin_and_path_regex_pattern_singletons_;
else
pattern_singletons = &substring_pattern_singletons_;
PatternSingletons::const_iterator iter =
pattern_singletons->find(&search_pattern);
if (iter != pattern_singletons->end()) {
return URLMatcherCondition(criterion, *iter);
} else {
StringPattern* new_pattern =
new StringPattern(pattern, id_counter_++);
pattern_singletons->insert(new_pattern);
return URLMatcherCondition(criterion, new_pattern);
}
}
std::string URLMatcherConditionFactory::CanonicalizeHostSuffix(
const std::string& suffix) const {
if (!suffix.empty() && suffix[suffix.size() - 1] == '.')
return suffix;
else
return suffix + ".";
}
std::string URLMatcherConditionFactory::CanonicalizeHostPrefix(
const std::string& prefix) const {
if (!prefix.empty() && prefix[0] == '.')
return prefix;
else
return "." + prefix;
}
std::string URLMatcherConditionFactory::CanonicalizeHostname(
const std::string& hostname) const {
return CanonicalizeHostPrefix(CanonicalizeHostSuffix(hostname));
}
// This function prepares the query string by replacing query separator with a
// magic value (|kQueryComponentDelimiter|). When the boolean
// |prepend_beginning_of_query_component| is true the function prepends the
// query with the same magic. This is done to locate the start of a key value
// pair in the query string. The parameter |query| is passed by value
// intentionally, since it is locally modified.
std::string URLMatcherConditionFactory::CanonicalizeQuery(
std::string query,
bool prepend_beginning_of_query_component,
bool append_end_of_query_component) const {
for (std::string::iterator it = query.begin(); it != query.end(); ++it) {
if (*it == kQuerySeparator)
*it = kQueryComponentDelimiter[0];
}
if (prepend_beginning_of_query_component)
query = kQueryComponentDelimiter + query;
if (append_end_of_query_component)
query += kQueryComponentDelimiter;
return query;
}
bool URLMatcherConditionFactory::StringPatternPointerCompare::operator()(
StringPattern* lhs,
StringPattern* rhs) const {
if (lhs == NULL && rhs != NULL) return true;
if (lhs != NULL && rhs != NULL)
return lhs->pattern() < rhs->pattern();
// Either both are NULL or only rhs is NULL.
return false;
}
//
// URLQueryElementMatcherCondition
//
URLQueryElementMatcherCondition::URLQueryElementMatcherCondition(
const std::string& key,
const std::string& value,
QueryValueMatchType query_value_match_type,
QueryElementType query_element_type,
Type match_type,
URLMatcherConditionFactory* factory) {
match_type_ = match_type;
if (query_element_type == ELEMENT_TYPE_KEY_VALUE) {
key_ = kQueryComponentDelimiter + key + "=";
value_ = value;
} else {
key_ = kQueryComponentDelimiter + key;
value_ = std::string();
}
if (query_value_match_type == QUERY_VALUE_MATCH_EXACT)
value_ += kQueryComponentDelimiter;
// If |value_| is empty no need to find the |key_| and verify if the value
// matches. Simply checking the presence of key is sufficient, which is done
// by MATCH_ANY
if (value_.empty())
match_type_ = MATCH_ANY;
URLMatcherCondition condition;
// If |match_type_| is MATCH_ANY, then we could simply look for the
// combination of |key_| + |value_|, which can be efficiently done by
// SubstringMatcher
if (match_type_ == MATCH_ANY)
condition = factory->CreateQueryContainsCondition(key_ + value_);
else
condition = factory->CreateQueryContainsCondition(key_);
string_pattern_ = condition.string_pattern();
key_length_ = key_.length();
value_length_ = value_.length();
}
URLQueryElementMatcherCondition::~URLQueryElementMatcherCondition() {}
bool URLQueryElementMatcherCondition::operator<(
const URLQueryElementMatcherCondition& rhs) const {
if (match_type_ != rhs.match_type_)
return match_type_ < rhs.match_type_;
if (string_pattern_ != NULL && rhs.string_pattern_ != NULL)
return *string_pattern_ < *rhs.string_pattern_;
if (string_pattern_ == NULL && rhs.string_pattern_ != NULL)
return true;
// Either string_pattern_ != NULL && rhs.string_pattern_ == NULL,
// or both are NULL.
return false;
}
bool URLQueryElementMatcherCondition::IsMatch(
const std::string& url_for_component_searches) const {
switch (match_type_) {
case MATCH_ANY: {
// For MATCH_ANY, no additional verification step is needed. We can trust
// the SubstringMatcher to do the verification.
return true;
}
case MATCH_ALL: {
size_t start = 0;
int found = 0;
size_t offset;
while ((offset = url_for_component_searches.find(key_, start)) !=
std::string::npos) {
if (url_for_component_searches.compare(
offset + key_length_, value_length_, value_) != 0) {
return false;
} else {
++found;
}
start = offset + key_length_ + value_length_ - 1;
}
return !!found;
}
case MATCH_FIRST: {
size_t offset = url_for_component_searches.find(key_);
return url_for_component_searches.compare(
offset + key_length_, value_length_, value_) == 0;
}
case MATCH_LAST: {
size_t offset = url_for_component_searches.rfind(key_);
return url_for_component_searches.compare(
offset + key_length_, value_length_, value_) == 0;
}
}
NOTREACHED();
return false;
}
//
// URLMatcherSchemeFilter
//
URLMatcherSchemeFilter::URLMatcherSchemeFilter(const std::string& filter)
: filters_(1) {
filters_.push_back(filter);
}
URLMatcherSchemeFilter::URLMatcherSchemeFilter(
const std::vector<std::string>& filters)
: filters_(filters) {}
URLMatcherSchemeFilter::~URLMatcherSchemeFilter() {}
bool URLMatcherSchemeFilter::IsMatch(const GURL& url) const {
return std::find(filters_.begin(), filters_.end(), url.scheme()) !=
filters_.end();
}
//
// URLMatcherPortFilter
//
URLMatcherPortFilter::URLMatcherPortFilter(
const std::vector<URLMatcherPortFilter::Range>& ranges)
: ranges_(ranges) {}
URLMatcherPortFilter::~URLMatcherPortFilter() {}
bool URLMatcherPortFilter::IsMatch(const GURL& url) const {
int port = url.EffectiveIntPort();
for (std::vector<Range>::const_iterator i = ranges_.begin();
i != ranges_.end(); ++i) {
if (i->first <= port && port <= i->second)
return true;
}
return false;
}
// static
URLMatcherPortFilter::Range URLMatcherPortFilter::CreateRange(int from,
int to) {
return Range(from, to);
}
// static
URLMatcherPortFilter::Range URLMatcherPortFilter::CreateRange(int port) {
return Range(port, port);
}
//
// URLMatcherConditionSet
//
URLMatcherConditionSet::~URLMatcherConditionSet() {}
URLMatcherConditionSet::URLMatcherConditionSet(
ID id,
const Conditions& conditions)
: id_(id),
conditions_(conditions) {}
URLMatcherConditionSet::URLMatcherConditionSet(
ID id,
const Conditions& conditions,
scoped_ptr<URLMatcherSchemeFilter> scheme_filter,
scoped_ptr<URLMatcherPortFilter> port_filter)
: id_(id),
conditions_(conditions),
scheme_filter_(scheme_filter.Pass()),
port_filter_(port_filter.Pass()) {}
URLMatcherConditionSet::URLMatcherConditionSet(
ID id,
const Conditions& conditions,
const QueryConditions& query_conditions,
scoped_ptr<URLMatcherSchemeFilter> scheme_filter,
scoped_ptr<URLMatcherPortFilter> port_filter)
: id_(id),
conditions_(conditions),
query_conditions_(query_conditions),
scheme_filter_(scheme_filter.Pass()),
port_filter_(port_filter.Pass()) {}
bool URLMatcherConditionSet::IsMatch(
const std::set<StringPattern::ID>& matching_patterns,
const GURL& url) const {
return IsMatch(matching_patterns, url, std::string());
}
bool URLMatcherConditionSet::IsMatch(
const std::set<StringPattern::ID>& matching_patterns,
const GURL& url,
const std::string& url_for_component_searches) const {
for (Conditions::const_iterator i = conditions_.begin();
i != conditions_.end(); ++i) {
if (!i->IsMatch(matching_patterns, url))
return false;
}
if (scheme_filter_.get() && !scheme_filter_->IsMatch(url))
return false;
if (port_filter_.get() && !port_filter_->IsMatch(url))
return false;
if (query_conditions_.empty())
return true;
// The loop is duplicated below for performance reasons. If not all query
// elements are found, no need to verify match that is expected to take more
// cycles.
for (QueryConditions::const_iterator i = query_conditions_.begin();
i != query_conditions_.end();
++i) {
if (!ContainsKey(matching_patterns, i->string_pattern()->id()))
return false;
}
for (QueryConditions::const_iterator i = query_conditions_.begin();
i != query_conditions_.end();
++i) {
if (!i->IsMatch(url_for_component_searches))
return false;
}
return true;
}
//
// URLMatcher
//
URLMatcher::URLMatcher() {}
URLMatcher::~URLMatcher() {}
void URLMatcher::AddConditionSets(
const URLMatcherConditionSet::Vector& condition_sets) {
for (URLMatcherConditionSet::Vector::const_iterator i =
condition_sets.begin(); i != condition_sets.end(); ++i) {
DCHECK(url_matcher_condition_sets_.find((*i)->id()) ==
url_matcher_condition_sets_.end());
url_matcher_condition_sets_[(*i)->id()] = *i;
}
UpdateInternalDatastructures();
}
void URLMatcher::RemoveConditionSets(
const std::vector<URLMatcherConditionSet::ID>& condition_set_ids) {
for (std::vector<URLMatcherConditionSet::ID>::const_iterator i =
condition_set_ids.begin(); i != condition_set_ids.end(); ++i) {
DCHECK(url_matcher_condition_sets_.find(*i) !=
url_matcher_condition_sets_.end());
url_matcher_condition_sets_.erase(*i);
}
UpdateInternalDatastructures();
}
void URLMatcher::ClearUnusedConditionSets() {
UpdateConditionFactory();
}
std::set<URLMatcherConditionSet::ID> URLMatcher::MatchURL(
const GURL& url) const {
// Find all IDs of StringPatterns that match |url|.
// See URLMatcherConditionFactory for the canonicalization of URLs and the
// distinction between full url searches and url component searches.
std::set<StringPattern::ID> matches;
std::string url_for_component_searches;
if (!full_url_matcher_.IsEmpty()) {
full_url_matcher_.Match(
condition_factory_.CanonicalizeURLForFullSearches(url), &matches);
}
if (!url_component_matcher_.IsEmpty()) {
url_for_component_searches =
condition_factory_.CanonicalizeURLForComponentSearches(url);
url_component_matcher_.Match(url_for_component_searches, &matches);
}
if (!regex_set_matcher_.IsEmpty()) {
regex_set_matcher_.Match(
condition_factory_.CanonicalizeURLForRegexSearches(url), &matches);
}
if (!origin_and_path_regex_set_matcher_.IsEmpty()) {
origin_and_path_regex_set_matcher_.Match(
condition_factory_.CanonicalizeURLForOriginAndPathRegexSearches(url),
&matches);
}
// Calculate all URLMatcherConditionSets for which all URLMatcherConditions
// were fulfilled.
std::set<URLMatcherConditionSet::ID> result;
for (std::set<StringPattern::ID>::const_iterator i = matches.begin();
i != matches.end(); ++i) {
// For each URLMatcherConditionSet there is exactly one condition
// registered in substring_match_triggers_. This means that the following
// logic tests each URLMatcherConditionSet exactly once if it can be
// completely fulfilled.
StringPatternTriggers::const_iterator triggered_condition_sets_iter =
substring_match_triggers_.find(*i);
if (triggered_condition_sets_iter == substring_match_triggers_.end())
continue; // Not all substring matches are triggers for a condition set.
const std::set<URLMatcherConditionSet::ID>& condition_sets =
triggered_condition_sets_iter->second;
for (std::set<URLMatcherConditionSet::ID>::const_iterator j =
condition_sets.begin(); j != condition_sets.end(); ++j) {
URLMatcherConditionSets::const_iterator condition_set_iter =
url_matcher_condition_sets_.find(*j);
DCHECK(condition_set_iter != url_matcher_condition_sets_.end());
if (condition_set_iter->second->IsMatch(
matches, url, url_for_component_searches))
result.insert(*j);
}
}
return result;
}
bool URLMatcher::IsEmpty() const {
return condition_factory_.IsEmpty() &&
url_matcher_condition_sets_.empty() &&
substring_match_triggers_.empty() &&
full_url_matcher_.IsEmpty() &&
url_component_matcher_.IsEmpty() &&
regex_set_matcher_.IsEmpty() &&
origin_and_path_regex_set_matcher_.IsEmpty() &&
registered_full_url_patterns_.empty() &&
registered_url_component_patterns_.empty();
}
void URLMatcher::UpdateSubstringSetMatcher(bool full_url_conditions) {
// The purpose of |full_url_conditions| is just that we need to execute
// the same logic once for Full URL searches and once for URL Component
// searches (see URLMatcherConditionFactory).
// Determine which patterns need to be registered when this function
// terminates.
std::set<const StringPattern*> new_patterns;
for (URLMatcherConditionSets::const_iterator condition_set_iter =
url_matcher_condition_sets_.begin();
condition_set_iter != url_matcher_condition_sets_.end();
++condition_set_iter) {
const URLMatcherConditionSet::Conditions& conditions =
condition_set_iter->second->conditions();
for (URLMatcherConditionSet::Conditions::const_iterator condition_iter =
conditions.begin(); condition_iter != conditions.end();
++condition_iter) {
// If we are called to process Full URL searches, ignore others, and
// vice versa. (Regex conditions are updated in UpdateRegexSetMatcher.)
if (!condition_iter->IsRegexCondition() &&
!condition_iter->IsOriginAndPathRegexCondition() &&
full_url_conditions == condition_iter->IsFullURLCondition())
new_patterns.insert(condition_iter->string_pattern());
}
if (full_url_conditions)
continue;
const URLMatcherConditionSet::QueryConditions& query_conditions =
condition_set_iter->second->query_conditions();
for (URLMatcherConditionSet::QueryConditions::const_iterator
query_condition_iter = query_conditions.begin();
query_condition_iter != query_conditions.end();
++query_condition_iter) {
new_patterns.insert(query_condition_iter->string_pattern());
}
}
// This is the set of patterns that were registered before this function
// is called.
std::set<const StringPattern*>& registered_patterns =
full_url_conditions ? registered_full_url_patterns_
: registered_url_component_patterns_;
// Add all patterns that are in new_patterns but not in registered_patterns.
std::vector<const StringPattern*> patterns_to_register =
base::STLSetDifference<std::vector<const StringPattern*> >(
new_patterns, registered_patterns);
// Remove all patterns that are in registered_patterns but not in
// new_patterns.
std::vector<const StringPattern*> patterns_to_unregister =
base::STLSetDifference<std::vector<const StringPattern*> >(
registered_patterns, new_patterns);
// Update the SubstringSetMatcher.
SubstringSetMatcher& url_matcher =
full_url_conditions ? full_url_matcher_ : url_component_matcher_;
url_matcher.RegisterAndUnregisterPatterns(patterns_to_register,
patterns_to_unregister);
// Update the set of registered_patterns for the next time this function
// is being called.
registered_patterns.swap(new_patterns);
}
void URLMatcher::UpdateRegexSetMatcher() {
std::vector<const StringPattern*> new_patterns;
std::vector<const StringPattern*> new_origin_and_path_patterns;
for (URLMatcherConditionSets::const_iterator condition_set_iter =
url_matcher_condition_sets_.begin();
condition_set_iter != url_matcher_condition_sets_.end();
++condition_set_iter) {
const URLMatcherConditionSet::Conditions& conditions =
condition_set_iter->second->conditions();
for (URLMatcherConditionSet::Conditions::const_iterator condition_iter =
conditions.begin(); condition_iter != conditions.end();
++condition_iter) {
if (condition_iter->IsRegexCondition()) {
new_patterns.push_back(condition_iter->string_pattern());
} else if (condition_iter->IsOriginAndPathRegexCondition()) {
new_origin_and_path_patterns.push_back(
condition_iter->string_pattern());
}
}
}
// Start over from scratch. We can't really do better than this, since the
// FilteredRE2 backend doesn't support incremental updates.
regex_set_matcher_.ClearPatterns();
regex_set_matcher_.AddPatterns(new_patterns);
origin_and_path_regex_set_matcher_.ClearPatterns();
origin_and_path_regex_set_matcher_.AddPatterns(new_origin_and_path_patterns);
}
void URLMatcher::UpdateTriggers() {
// Count substring pattern frequencies.
std::map<StringPattern::ID, size_t> substring_pattern_frequencies;
for (URLMatcherConditionSets::const_iterator condition_set_iter =
url_matcher_condition_sets_.begin();
condition_set_iter != url_matcher_condition_sets_.end();
++condition_set_iter) {
const URLMatcherConditionSet::Conditions& conditions =
condition_set_iter->second->conditions();
for (URLMatcherConditionSet::Conditions::const_iterator condition_iter =
conditions.begin(); condition_iter != conditions.end();
++condition_iter) {
const StringPattern* pattern = condition_iter->string_pattern();
substring_pattern_frequencies[pattern->id()]++;
}
const URLMatcherConditionSet::QueryConditions& query_conditions =
condition_set_iter->second->query_conditions();
for (URLMatcherConditionSet::QueryConditions::const_iterator
query_condition_iter = query_conditions.begin();
query_condition_iter != query_conditions.end();
++query_condition_iter) {
const StringPattern* pattern = query_condition_iter->string_pattern();
substring_pattern_frequencies[pattern->id()]++;
}
}
// Update trigger conditions: Determine for each URLMatcherConditionSet which
// URLMatcherCondition contains a StringPattern that occurs least
// frequently in this URLMatcher. We assume that this condition is very
// specific and occurs rarely in URLs. If a match occurs for this
// URLMatcherCondition, we want to test all other URLMatcherCondition in the
// respective URLMatcherConditionSet as well to see whether the entire
// URLMatcherConditionSet is considered matching.
substring_match_triggers_.clear();
for (URLMatcherConditionSets::const_iterator condition_set_iter =
url_matcher_condition_sets_.begin();
condition_set_iter != url_matcher_condition_sets_.end();
++condition_set_iter) {
const URLMatcherConditionSet::Conditions& conditions =
condition_set_iter->second->conditions();
if (conditions.empty())
continue;
URLMatcherConditionSet::Conditions::const_iterator condition_iter =
conditions.begin();
StringPattern::ID trigger = condition_iter->string_pattern()->id();
// We skip the first element in the following loop.
++condition_iter;
for (; condition_iter != conditions.end(); ++condition_iter) {
StringPattern::ID current_id =
condition_iter->string_pattern()->id();
if (substring_pattern_frequencies[trigger] >
substring_pattern_frequencies[current_id]) {
trigger = current_id;
}
}
const URLMatcherConditionSet::QueryConditions& query_conditions =
condition_set_iter->second->query_conditions();
for (URLMatcherConditionSet::QueryConditions::const_iterator
query_condition_iter = query_conditions.begin();
query_condition_iter != query_conditions.end();
++query_condition_iter) {
StringPattern::ID current_id =
query_condition_iter->string_pattern()->id();
if (substring_pattern_frequencies[trigger] >
substring_pattern_frequencies[current_id]) {
trigger = current_id;
}
}
substring_match_triggers_[trigger].insert(condition_set_iter->second->id());
}
}
void URLMatcher::UpdateConditionFactory() {
std::set<StringPattern::ID> used_patterns;
for (URLMatcherConditionSets::const_iterator condition_set_iter =
url_matcher_condition_sets_.begin();
condition_set_iter != url_matcher_condition_sets_.end();
++condition_set_iter) {
const URLMatcherConditionSet::Conditions& conditions =
condition_set_iter->second->conditions();
for (URLMatcherConditionSet::Conditions::const_iterator condition_iter =
conditions.begin(); condition_iter != conditions.end();
++condition_iter) {
used_patterns.insert(condition_iter->string_pattern()->id());
}
const URLMatcherConditionSet::QueryConditions& query_conditions =
condition_set_iter->second->query_conditions();
for (URLMatcherConditionSet::QueryConditions::const_iterator
query_condition_iter = query_conditions.begin();
query_condition_iter != query_conditions.end();
++query_condition_iter) {
used_patterns.insert(query_condition_iter->string_pattern()->id());
}
}
condition_factory_.ForgetUnusedPatterns(used_patterns);
}
void URLMatcher::UpdateInternalDatastructures() {
UpdateSubstringSetMatcher(false);
UpdateSubstringSetMatcher(true);
UpdateRegexSetMatcher();
UpdateTriggers();
UpdateConditionFactory();
}
} // namespace url_matcher
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