// 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_set.h" #include #include #include "base/logging.h" #include "base/memory/linked_ptr.h" #include "base/stl_util.h" #include "base/values.h" #include "extensions/common/error_utils.h" #include "extensions/common/url_pattern.h" #include "url/gurl.h" #include "url/url_constants.h" namespace extensions { namespace { const char kInvalidURLPatternError[] = "Invalid url pattern '*'"; } // namespace // static URLPatternSet URLPatternSet::CreateDifference(const URLPatternSet& set1, const URLPatternSet& set2) { return URLPatternSet(base::STLSetDifference>( set1.patterns_, set2.patterns_)); } // static URLPatternSet URLPatternSet::CreateIntersection(const URLPatternSet& set1, const URLPatternSet& set2) { return URLPatternSet(base::STLSetIntersection>( set1.patterns_, set2.patterns_)); } URLPatternSet URLPatternSet::CreateSemanticIntersection( const URLPatternSet& set1, const URLPatternSet& set2) { URLPatternSet result; for (const URLPattern& pattern : set1) { if (set2.ContainsPattern(pattern)) result.patterns_.insert(pattern); } for (const URLPattern& pattern : set2) { if (set1.ContainsPattern(pattern)) result.patterns_.insert(pattern); } return result; } // static URLPatternSet URLPatternSet::CreateUnion(const URLPatternSet& set1, const URLPatternSet& set2) { return URLPatternSet( base::STLSetUnion>(set1.patterns_, set2.patterns_)); } // static URLPatternSet URLPatternSet::CreateUnion( const std::vector& sets) { URLPatternSet result; if (sets.empty()) return result; // N-way union algorithm is basic O(nlog(n)) merge algorithm. // // Do the first merge step into a working set so that we don't mutate any of // the input. std::vector working; for (size_t i = 0; i < sets.size(); i += 2) { if (i + 1 < sets.size()) working.push_back(CreateUnion(sets[i], sets[i + 1])); else working.push_back(sets[i]); } for (size_t skip = 1; skip < working.size(); skip *= 2) { for (size_t i = 0; i < (working.size() - skip); i += skip) { URLPatternSet u = CreateUnion(working[i], working[i + skip]); working[i].patterns_.swap(u.patterns_); } } result.patterns_.swap(working[0].patterns_); return result; } URLPatternSet::URLPatternSet() {} URLPatternSet::URLPatternSet(const URLPatternSet& rhs) : patterns_(rhs.patterns_) {} URLPatternSet::URLPatternSet(const std::set& patterns) : patterns_(patterns) {} URLPatternSet::~URLPatternSet() {} URLPatternSet& URLPatternSet::operator=(const URLPatternSet& rhs) { patterns_ = rhs.patterns_; return *this; } bool URLPatternSet::operator==(const URLPatternSet& other) const { return patterns_ == other.patterns_; } std::ostream& operator<<(std::ostream& out, const URLPatternSet& url_pattern_set) { out << "{ "; std::set::const_iterator iter = url_pattern_set.patterns().begin(); if (!url_pattern_set.patterns().empty()) { out << *iter; ++iter; } for (;iter != url_pattern_set.patterns().end(); ++iter) out << ", " << *iter; if (!url_pattern_set.patterns().empty()) out << " "; out << "}"; return out; } bool URLPatternSet::is_empty() const { return patterns_.empty(); } size_t URLPatternSet::size() const { return patterns_.size(); } bool URLPatternSet::AddPattern(const URLPattern& pattern) { return patterns_.insert(pattern).second; } void URLPatternSet::AddPatterns(const URLPatternSet& set) { patterns_.insert(set.patterns().begin(), set.patterns().end()); } void URLPatternSet::ClearPatterns() { patterns_.clear(); } bool URLPatternSet::AddOrigin(int valid_schemes, const GURL& origin) { DCHECK_EQ(origin.GetOrigin(), origin); URLPattern origin_pattern(valid_schemes); // Origin adding could fail if |origin| does not match |valid_schemes|. if (origin_pattern.Parse(origin.GetOrigin().spec()) != URLPattern::PARSE_SUCCESS) { return false; } origin_pattern.SetPath("/*"); return AddPattern(origin_pattern); } bool URLPatternSet::Contains(const URLPatternSet& other) const { for (URLPatternSet::const_iterator it = other.begin(); it != other.end(); ++it) { if (!ContainsPattern(*it)) return false; } return true; } bool URLPatternSet::ContainsPattern(const URLPattern& pattern) const { for (URLPatternSet::const_iterator it = begin(); it != end(); ++it) { if (it->Contains(pattern)) return true; } return false; } bool URLPatternSet::MatchesURL(const GURL& url) const { for (URLPatternSet::const_iterator pattern = patterns_.begin(); pattern != patterns_.end(); ++pattern) { if (pattern->MatchesURL(url)) return true; } return false; } bool URLPatternSet::MatchesAllURLs() const { for (URLPatternSet::const_iterator host = begin(); host != end(); ++host) { if (host->match_all_urls() || (host->match_subdomains() && host->host().empty())) return true; } return false; } bool URLPatternSet::MatchesSecurityOrigin(const GURL& origin) const { for (URLPatternSet::const_iterator pattern = patterns_.begin(); pattern != patterns_.end(); ++pattern) { if (pattern->MatchesSecurityOrigin(origin)) return true; } return false; } bool URLPatternSet::OverlapsWith(const URLPatternSet& other) const { // Two extension extents overlap if there is any one URL that would match at // least one pattern in each of the extents. for (URLPatternSet::const_iterator i = patterns_.begin(); i != patterns_.end(); ++i) { for (URLPatternSet::const_iterator j = other.patterns().begin(); j != other.patterns().end(); ++j) { if (i->OverlapsWith(*j)) return true; } } return false; } scoped_ptr URLPatternSet::ToValue() const { scoped_ptr value(new base::ListValue); for (URLPatternSet::const_iterator i = patterns_.begin(); i != patterns_.end(); ++i) value->AppendIfNotPresent(new base::StringValue(i->GetAsString())); return value.Pass(); } bool URLPatternSet::Populate(const std::vector& patterns, int valid_schemes, bool allow_file_access, std::string* error) { ClearPatterns(); for (size_t i = 0; i < patterns.size(); ++i) { URLPattern pattern(valid_schemes); if (pattern.Parse(patterns[i]) != URLPattern::PARSE_SUCCESS) { if (error) { *error = ErrorUtils::FormatErrorMessage(kInvalidURLPatternError, patterns[i]); } else { LOG(ERROR) << "Invalid url pattern: " << patterns[i]; } return false; } if (!allow_file_access && pattern.MatchesScheme(url::kFileScheme)) { pattern.SetValidSchemes( pattern.valid_schemes() & ~URLPattern::SCHEME_FILE); } AddPattern(pattern); } return true; } scoped_ptr > URLPatternSet::ToStringVector() const { scoped_ptr > value(new std::vector); for (URLPatternSet::const_iterator i = patterns_.begin(); i != patterns_.end(); ++i) { value->push_back(i->GetAsString()); } std::unique(value->begin(), value->end()); return value.Pass(); } bool URLPatternSet::Populate(const base::ListValue& value, int valid_schemes, bool allow_file_access, std::string* error) { std::vector patterns; for (size_t i = 0; i < value.GetSize(); ++i) { std::string item; if (!value.GetString(i, &item)) return false; patterns.push_back(item); } return Populate(patterns, valid_schemes, allow_file_access, error); } } // namespace extensions