Roll src/third_party/WebKit d9c6159:8139f33 (svn 201974:201975)
[chromium-blink-merge.git] / extensions / common / url_pattern_set.cc
blobbc1d0d57b34a9c5db87976134301131d4553eec9
1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "extensions/common/url_pattern_set.h"
7 #include <iterator>
8 #include <ostream>
10 #include "base/logging.h"
11 #include "base/memory/linked_ptr.h"
12 #include "base/stl_util.h"
13 #include "base/values.h"
14 #include "extensions/common/error_utils.h"
15 #include "extensions/common/url_pattern.h"
16 #include "url/gurl.h"
17 #include "url/url_constants.h"
19 namespace extensions {
21 namespace {
23 const char kInvalidURLPatternError[] = "Invalid url pattern '*'";
25 } // namespace
27 // static
28 void URLPatternSet::CreateDifference(const URLPatternSet& set1,
29 const URLPatternSet& set2,
30 URLPatternSet* out) {
31 out->patterns_ = base::STLSetDifference<std::set<URLPattern> >(
32 set1.patterns_, set2.patterns_);
35 // static
36 void URLPatternSet::CreateIntersection(const URLPatternSet& set1,
37 const URLPatternSet& set2,
38 URLPatternSet* out) {
39 out->patterns_ = base::STLSetIntersection<std::set<URLPattern> >(
40 set1.patterns_, set2.patterns_);
43 // static
44 void URLPatternSet::CreateUnion(const URLPatternSet& set1,
45 const URLPatternSet& set2,
46 URLPatternSet* out) {
47 out->patterns_ = base::STLSetUnion<std::set<URLPattern> >(
48 set1.patterns_, set2.patterns_);
51 // static
52 void URLPatternSet::CreateUnion(const std::vector<URLPatternSet>& sets,
53 URLPatternSet* out) {
54 out->ClearPatterns();
55 if (sets.empty())
56 return;
58 // N-way union algorithm is basic O(nlog(n)) merge algorithm.
60 // Do the first merge step into a working set so that we don't mutate any of
61 // the input.
62 std::vector<URLPatternSet> working;
63 for (size_t i = 0; i < sets.size(); i += 2) {
64 if (i + 1 < sets.size()) {
65 URLPatternSet u;
66 URLPatternSet::CreateUnion(sets[i], sets[i + 1], &u);
67 working.push_back(u);
68 } else {
69 working.push_back(sets[i]);
73 for (size_t skip = 1; skip < working.size(); skip *= 2) {
74 for (size_t i = 0; i < (working.size() - skip); i += skip) {
75 URLPatternSet u;
76 URLPatternSet::CreateUnion(working[i], working[i + skip], &u);
77 working[i].patterns_.swap(u.patterns_);
81 out->patterns_.swap(working[0].patterns_);
84 URLPatternSet::URLPatternSet() {}
86 URLPatternSet::URLPatternSet(const URLPatternSet& rhs)
87 : patterns_(rhs.patterns_) {}
89 URLPatternSet::URLPatternSet(const std::set<URLPattern>& patterns)
90 : patterns_(patterns) {}
92 URLPatternSet::~URLPatternSet() {}
94 URLPatternSet& URLPatternSet::operator=(const URLPatternSet& rhs) {
95 patterns_ = rhs.patterns_;
96 return *this;
99 bool URLPatternSet::operator==(const URLPatternSet& other) const {
100 return patterns_ == other.patterns_;
103 std::ostream& operator<<(std::ostream& out,
104 const URLPatternSet& url_pattern_set) {
105 out << "{ ";
107 std::set<URLPattern>::const_iterator iter =
108 url_pattern_set.patterns().begin();
109 if (!url_pattern_set.patterns().empty()) {
110 out << *iter;
111 ++iter;
114 for (;iter != url_pattern_set.patterns().end(); ++iter)
115 out << ", " << *iter;
117 if (!url_pattern_set.patterns().empty())
118 out << " ";
120 out << "}";
121 return out;
124 bool URLPatternSet::is_empty() const {
125 return patterns_.empty();
128 size_t URLPatternSet::size() const {
129 return patterns_.size();
132 bool URLPatternSet::AddPattern(const URLPattern& pattern) {
133 return patterns_.insert(pattern).second;
136 void URLPatternSet::AddPatterns(const URLPatternSet& set) {
137 patterns_.insert(set.patterns().begin(),
138 set.patterns().end());
141 void URLPatternSet::ClearPatterns() {
142 patterns_.clear();
145 bool URLPatternSet::AddOrigin(int valid_schemes, const GURL& origin) {
146 DCHECK_EQ(origin.GetOrigin(), origin);
147 URLPattern origin_pattern(valid_schemes);
148 // Origin adding could fail if |origin| does not match |valid_schemes|.
149 if (origin_pattern.Parse(origin.GetOrigin().spec()) !=
150 URLPattern::PARSE_SUCCESS) {
151 return false;
153 origin_pattern.SetPath("/*");
154 return AddPattern(origin_pattern);
157 bool URLPatternSet::Contains(const URLPatternSet& other) const {
158 for (URLPatternSet::const_iterator it = other.begin();
159 it != other.end(); ++it) {
160 if (!ContainsPattern(*it))
161 return false;
164 return true;
167 bool URLPatternSet::ContainsPattern(const URLPattern& pattern) const {
168 for (URLPatternSet::const_iterator it = begin();
169 it != end(); ++it) {
170 if (it->Contains(pattern))
171 return true;
173 return false;
176 bool URLPatternSet::MatchesURL(const GURL& url) const {
177 for (URLPatternSet::const_iterator pattern = patterns_.begin();
178 pattern != patterns_.end(); ++pattern) {
179 if (pattern->MatchesURL(url))
180 return true;
183 return false;
186 bool URLPatternSet::MatchesAllURLs() const {
187 for (URLPatternSet::const_iterator host = begin(); host != end(); ++host) {
188 if (host->match_all_urls() ||
189 (host->match_subdomains() && host->host().empty()))
190 return true;
192 return false;
195 bool URLPatternSet::MatchesSecurityOrigin(const GURL& origin) const {
196 for (URLPatternSet::const_iterator pattern = patterns_.begin();
197 pattern != patterns_.end(); ++pattern) {
198 if (pattern->MatchesSecurityOrigin(origin))
199 return true;
202 return false;
205 bool URLPatternSet::OverlapsWith(const URLPatternSet& other) const {
206 // Two extension extents overlap if there is any one URL that would match at
207 // least one pattern in each of the extents.
208 for (URLPatternSet::const_iterator i = patterns_.begin();
209 i != patterns_.end(); ++i) {
210 for (URLPatternSet::const_iterator j = other.patterns().begin();
211 j != other.patterns().end(); ++j) {
212 if (i->OverlapsWith(*j))
213 return true;
217 return false;
220 scoped_ptr<base::ListValue> URLPatternSet::ToValue() const {
221 scoped_ptr<base::ListValue> value(new base::ListValue);
222 for (URLPatternSet::const_iterator i = patterns_.begin();
223 i != patterns_.end(); ++i)
224 value->AppendIfNotPresent(new base::StringValue(i->GetAsString()));
225 return value.Pass();
228 bool URLPatternSet::Populate(const std::vector<std::string>& patterns,
229 int valid_schemes,
230 bool allow_file_access,
231 std::string* error) {
232 ClearPatterns();
233 for (size_t i = 0; i < patterns.size(); ++i) {
234 URLPattern pattern(valid_schemes);
235 if (pattern.Parse(patterns[i]) != URLPattern::PARSE_SUCCESS) {
236 if (error) {
237 *error = ErrorUtils::FormatErrorMessage(kInvalidURLPatternError,
238 patterns[i]);
239 } else {
240 LOG(ERROR) << "Invalid url pattern: " << patterns[i];
242 return false;
244 if (!allow_file_access && pattern.MatchesScheme(url::kFileScheme)) {
245 pattern.SetValidSchemes(
246 pattern.valid_schemes() & ~URLPattern::SCHEME_FILE);
248 AddPattern(pattern);
250 return true;
253 scoped_ptr<std::vector<std::string> > URLPatternSet::ToStringVector() const {
254 scoped_ptr<std::vector<std::string> > value(new std::vector<std::string>);
255 for (URLPatternSet::const_iterator i = patterns_.begin();
256 i != patterns_.end();
257 ++i) {
258 value->push_back(i->GetAsString());
260 std::unique(value->begin(), value->end());
261 return value.Pass();
264 bool URLPatternSet::Populate(const base::ListValue& value,
265 int valid_schemes,
266 bool allow_file_access,
267 std::string* error) {
268 std::vector<std::string> patterns;
269 for (size_t i = 0; i < value.GetSize(); ++i) {
270 std::string item;
271 if (!value.GetString(i, &item))
272 return false;
273 patterns.push_back(item);
275 return Populate(patterns, valid_schemes, allow_file_access, error);
278 } // namespace extensions