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      1 // Copyright 2013 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.
      4 
      5 #include "components/url_matcher/url_matcher_factory.h"
      6 
      7 #include <algorithm>
      8 #include <cctype>
      9 
     10 #include "base/lazy_instance.h"
     11 #include "base/logging.h"
     12 #include "base/strings/stringprintf.h"
     13 #include "base/values.h"
     14 #include "components/url_matcher/url_matcher_constants.h"
     15 #include "components/url_matcher/url_matcher_helpers.h"
     16 #include "third_party/re2/re2/re2.h"
     17 
     18 namespace url_matcher {
     19 
     20 namespace helpers = url_matcher_helpers;
     21 namespace keys = url_matcher_constants;
     22 
     23 namespace {
     24 
     25 // Error messages:
     26 const char kInvalidPortRanges[] = "Invalid port ranges in UrlFilter.";
     27 const char kVectorOfStringsExpected[] =
     28     "UrlFilter attribute '%s' expected a vector of strings as parameter.";
     29 const char kUnknownURLFilterAttribute[] =
     30     "Unknown attribute '%s' in UrlFilter.";
     31 const char kAttributeExpectedString[] =
     32     "UrlFilter attribute '%s' expected a string value.";
     33 const char kUnparseableRegexString[] =
     34     "Could not parse regular expression '%s': %s";
     35 const char kLowerCaseExpected[] = "%s values need to be in lower case.";
     36 
     37 // Registry for all factory methods of URLMatcherConditionFactory
     38 // that allows translating string literals from the extension API into
     39 // the corresponding factory method to be called.
     40 class URLMatcherConditionFactoryMethods {
     41  public:
     42   URLMatcherConditionFactoryMethods() {
     43     typedef URLMatcherConditionFactory F;
     44     factory_methods_[keys::kHostContainsKey] = &F::CreateHostContainsCondition;
     45     factory_methods_[keys::kHostEqualsKey] = &F::CreateHostEqualsCondition;
     46     factory_methods_[keys::kHostPrefixKey] = &F::CreateHostPrefixCondition;
     47     factory_methods_[keys::kHostSuffixKey] = &F::CreateHostSuffixCondition;
     48     factory_methods_[keys::kOriginAndPathMatchesKey] =
     49         &F::CreateOriginAndPathMatchesCondition;
     50     factory_methods_[keys::kPathContainsKey] = &F::CreatePathContainsCondition;
     51     factory_methods_[keys::kPathEqualsKey] = &F::CreatePathEqualsCondition;
     52     factory_methods_[keys::kPathPrefixKey] = &F::CreatePathPrefixCondition;
     53     factory_methods_[keys::kPathSuffixKey] = &F::CreatePathSuffixCondition;
     54     factory_methods_[keys::kQueryContainsKey] =
     55         &F::CreateQueryContainsCondition;
     56     factory_methods_[keys::kQueryEqualsKey] = &F::CreateQueryEqualsCondition;
     57     factory_methods_[keys::kQueryPrefixKey] = &F::CreateQueryPrefixCondition;
     58     factory_methods_[keys::kQuerySuffixKey] = &F::CreateQuerySuffixCondition;
     59     factory_methods_[keys::kURLContainsKey] = &F::CreateURLContainsCondition;
     60     factory_methods_[keys::kURLEqualsKey] = &F::CreateURLEqualsCondition;
     61     factory_methods_[keys::kURLPrefixKey] = &F::CreateURLPrefixCondition;
     62     factory_methods_[keys::kURLSuffixKey] = &F::CreateURLSuffixCondition;
     63     factory_methods_[keys::kURLMatchesKey] = &F::CreateURLMatchesCondition;
     64   }
     65 
     66   // Returns whether a factory method for the specified |pattern_type| (e.g.
     67   // "host_suffix") is known.
     68   bool Contains(const std::string& pattern_type) const {
     69     return factory_methods_.find(pattern_type) != factory_methods_.end();
     70   }
     71 
     72   // Creates a URLMatcherCondition instance from |url_matcher_condition_factory|
     73   // of the given |pattern_type| (e.g. "host_suffix") for the given
     74   // |pattern_value| (e.g. "example.com").
     75   // The |pattern_type| needs to be known to this class (see Contains()) or
     76   // a CHECK is triggered.
     77   URLMatcherCondition Call(
     78       URLMatcherConditionFactory* url_matcher_condition_factory,
     79       const std::string& pattern_type,
     80       const std::string& pattern_value) const {
     81     FactoryMethods::const_iterator i = factory_methods_.find(pattern_type);
     82     CHECK(i != factory_methods_.end());
     83     const FactoryMethod& method = i->second;
     84     return (url_matcher_condition_factory->*method)(pattern_value);
     85   }
     86 
     87  private:
     88   typedef URLMatcherCondition
     89       (URLMatcherConditionFactory::* FactoryMethod)
     90       (const std::string& prefix);
     91   typedef std::map<std::string, FactoryMethod> FactoryMethods;
     92 
     93   FactoryMethods factory_methods_;
     94 
     95   DISALLOW_COPY_AND_ASSIGN(URLMatcherConditionFactoryMethods);
     96 };
     97 
     98 static base::LazyInstance<URLMatcherConditionFactoryMethods>
     99     g_url_matcher_condition_factory_methods = LAZY_INSTANCE_INITIALIZER;
    100 
    101 }  // namespace
    102 
    103 // static
    104 scoped_refptr<URLMatcherConditionSet>
    105 URLMatcherFactory::CreateFromURLFilterDictionary(
    106     URLMatcherConditionFactory* url_matcher_condition_factory,
    107     const base::DictionaryValue* url_filter_dict,
    108     URLMatcherConditionSet::ID id,
    109     std::string* error) {
    110   scoped_ptr<URLMatcherSchemeFilter> url_matcher_schema_filter;
    111   scoped_ptr<URLMatcherPortFilter> url_matcher_port_filter;
    112   URLMatcherConditionSet::Conditions url_matcher_conditions;
    113 
    114   for (base::DictionaryValue::Iterator iter(*url_filter_dict);
    115        !iter.IsAtEnd(); iter.Advance()) {
    116     const std::string& condition_attribute_name = iter.key();
    117     const base::Value& condition_attribute_value = iter.value();
    118     if (IsURLMatcherConditionAttribute(condition_attribute_name)) {
    119       // Handle {host, path, ...}{Prefix, Suffix, Contains, Equals}.
    120       URLMatcherCondition url_matcher_condition =
    121           CreateURLMatcherCondition(
    122               url_matcher_condition_factory,
    123               condition_attribute_name,
    124               &condition_attribute_value,
    125               error);
    126       if (!error->empty())
    127         return scoped_refptr<URLMatcherConditionSet>(NULL);
    128       url_matcher_conditions.insert(url_matcher_condition);
    129     } else if (condition_attribute_name == keys::kSchemesKey) {
    130       // Handle scheme.
    131       url_matcher_schema_filter = CreateURLMatcherScheme(
    132           &condition_attribute_value, error);
    133       if (!error->empty())
    134         return scoped_refptr<URLMatcherConditionSet>(NULL);
    135     } else if (condition_attribute_name == keys::kPortsKey) {
    136       // Handle ports.
    137       url_matcher_port_filter = CreateURLMatcherPorts(
    138           &condition_attribute_value, error);
    139       if (!error->empty())
    140         return scoped_refptr<URLMatcherConditionSet>(NULL);
    141     } else {
    142       // Handle unknown attributes.
    143       *error = base::StringPrintf(kUnknownURLFilterAttribute,
    144                                   condition_attribute_name.c_str());
    145       return scoped_refptr<URLMatcherConditionSet>(NULL);
    146     }
    147   }
    148 
    149   // As the URL is the preliminary matching criterion that triggers the tests
    150   // for the remaining condition attributes, we insert an empty URL match if
    151   // no other url match conditions were specified. Such an empty URL is always
    152   // matched.
    153   if (url_matcher_conditions.empty()) {
    154     url_matcher_conditions.insert(
    155         url_matcher_condition_factory->CreateHostPrefixCondition(
    156             std::string()));
    157   }
    158 
    159   scoped_refptr<URLMatcherConditionSet> url_matcher_condition_set(
    160       new URLMatcherConditionSet(id, url_matcher_conditions,
    161           url_matcher_schema_filter.Pass(), url_matcher_port_filter.Pass()));
    162   return url_matcher_condition_set;
    163 }
    164 
    165 // static
    166 bool URLMatcherFactory::IsURLMatcherConditionAttribute(
    167     const std::string& condition_attribute_name) {
    168   return g_url_matcher_condition_factory_methods.Get().Contains(
    169       condition_attribute_name);
    170 }
    171 
    172 namespace {
    173 
    174 // Returns true if some alphabetic characters in this string are upper case.
    175 bool ContainsUpperCase(const std::string& str) {
    176   return std::find_if(str.begin(), str.end(), ::isupper) != str.end();
    177 }
    178 
    179 }  // namespace
    180 
    181 // static
    182 URLMatcherCondition URLMatcherFactory::CreateURLMatcherCondition(
    183     URLMatcherConditionFactory* url_matcher_condition_factory,
    184     const std::string& condition_attribute_name,
    185     const base::Value* value,
    186     std::string* error) {
    187   std::string str_value;
    188   if (!value->GetAsString(&str_value)) {
    189     *error = base::StringPrintf(kAttributeExpectedString,
    190                                 condition_attribute_name.c_str());
    191     return URLMatcherCondition();
    192   }
    193   if (condition_attribute_name == keys::kHostContainsKey ||
    194       condition_attribute_name == keys::kHostPrefixKey ||
    195       condition_attribute_name == keys::kHostSuffixKey ||
    196       condition_attribute_name == keys::kHostEqualsKey) {
    197     if (ContainsUpperCase(str_value)) {
    198       *error = base::StringPrintf(kLowerCaseExpected, "Host");
    199       return URLMatcherCondition();
    200     }
    201   }
    202 
    203   // Test regular expressions for validity.
    204   if (condition_attribute_name == keys::kURLMatchesKey ||
    205       condition_attribute_name == keys::kOriginAndPathMatchesKey) {
    206     re2::RE2 regex(str_value);
    207     if (!regex.ok()) {
    208       *error = base::StringPrintf(
    209           kUnparseableRegexString, str_value.c_str(), regex.error().c_str());
    210       return URLMatcherCondition();
    211     }
    212   }
    213   return g_url_matcher_condition_factory_methods.Get().Call(
    214       url_matcher_condition_factory, condition_attribute_name, str_value);
    215 }
    216 
    217 // static
    218 scoped_ptr<URLMatcherSchemeFilter> URLMatcherFactory::CreateURLMatcherScheme(
    219     const base::Value* value,
    220     std::string* error) {
    221   std::vector<std::string> schemas;
    222   if (!helpers::GetAsStringVector(value, &schemas)) {
    223     *error = base::StringPrintf(kVectorOfStringsExpected, keys::kSchemesKey);
    224     return scoped_ptr<URLMatcherSchemeFilter>();
    225   }
    226   for (std::vector<std::string>::const_iterator it = schemas.begin();
    227        it != schemas.end(); ++it) {
    228     if (ContainsUpperCase(*it)) {
    229       *error = base::StringPrintf(kLowerCaseExpected, "Scheme");
    230       return scoped_ptr<URLMatcherSchemeFilter>();
    231     }
    232   }
    233   return scoped_ptr<URLMatcherSchemeFilter>(
    234       new URLMatcherSchemeFilter(schemas));
    235 }
    236 
    237 // static
    238 scoped_ptr<URLMatcherPortFilter> URLMatcherFactory::CreateURLMatcherPorts(
    239     const base::Value* value,
    240     std::string* error) {
    241   std::vector<URLMatcherPortFilter::Range> ranges;
    242   const base::ListValue* value_list = NULL;
    243   if (!value->GetAsList(&value_list)) {
    244     *error = kInvalidPortRanges;
    245     return scoped_ptr<URLMatcherPortFilter>();
    246   }
    247 
    248   for (base::ListValue::const_iterator i = value_list->begin();
    249        i != value_list->end(); ++i) {
    250     base::Value* entry = *i;
    251     int port = 0;
    252     base::ListValue* range = NULL;
    253     if (entry->GetAsInteger(&port)) {
    254       ranges.push_back(URLMatcherPortFilter::CreateRange(port));
    255     } else if (entry->GetAsList(&range)) {
    256       int from = 0, to = 0;
    257       if (range->GetSize() != 2u ||
    258           !range->GetInteger(0, &from) ||
    259           !range->GetInteger(1, &to)) {
    260         *error = kInvalidPortRanges;
    261         return scoped_ptr<URLMatcherPortFilter>();
    262       }
    263       ranges.push_back(URLMatcherPortFilter::CreateRange(from, to));
    264     } else {
    265       *error = kInvalidPortRanges;
    266       return scoped_ptr<URLMatcherPortFilter>();
    267     }
    268   }
    269 
    270   return scoped_ptr<URLMatcherPortFilter>(new URLMatcherPortFilter(ranges));
    271 }
    272 
    273 }  // namespace url_matcher
    274