extensions/browser/api/declarative/rules_registry.cc - chromium/src - 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/browser/api/declarative/rules_registry.h"

 #include <utility>

 #include "base/bind.h"
 #include "base/logging.h"
 #include "base/metrics/histogram_macros.h"
 #include "base/stl_util.h"
 #include "base/strings/stringprintf.h"
 #include "base/strings/utf_string_conversions.h"
 #include "base/task/post_task.h"
 #include "base/time/time.h"
 #include "base/values.h"
 #include "content/public/browser/browser_task_traits.h"
 #include "content/public/browser/browser_thread.h"
 #include "content/public/browser/notification_details.h"
 #include "content/public/browser/notification_source.h"
 #include "extensions/browser/api/declarative/rules_cache_delegate.h"
 #include "extensions/browser/extension_error.h"
 #include "extensions/browser/extension_prefs.h"
 #include "extensions/browser/extension_system.h"
 #include "extensions/browser/extensions_browser_client.h"
 #include "extensions/browser/state_store.h"
 #include "extensions/common/api/declarative/declarative_manifest_data.h"
 #include "extensions/common/extension.h"
 #include "extensions/common/extensions_client.h"
 #include "extensions/common/manifest_constants.h"

 namespace extensions {

 namespace {

 const char kSuccess[] = "";
 const char kDuplicateRuleId[] = "Duplicate rule ID: %s";
 const char kErrorCannotRemoveManifestRules[] =
     "Rules declared in the 'event_rules' manifest field cannot be removed";

 base::Value RulesToValue(const std::vector<const api::events::Rule*>& rules) {
   base::Value value(base::Value::Type::LIST);
   for (const auto* rule : rules)
     value.GetList().push_back(std::move(*rule->ToValue()));
   return value;
 }

 std::vector<api::events::Rule> RulesFromValue(const base::Value* value) {
   std::vector<api::events::Rule> rules;

   const base::ListValue* list = NULL;
   if (!value || !value->GetAsList(&list))
     return rules;

   rules.reserve(list->GetSize());
   for (size_t i = 0; i < list->GetSize(); ++i) {
     const base::DictionaryValue* dict = NULL;
     if (!list->GetDictionary(i, &dict))
       continue;
     api::events::Rule rule;
     if (api::events::Rule::Populate(*dict, &rule))
       rules.push_back(std::move(rule));
   }

   return rules;
 }

 std::string ToId(int identifier) {
   return base::StringPrintf("_%d_", identifier);
 }

 }  // namespace


 // RulesRegistry

 RulesRegistry::RulesRegistry(content::BrowserContext* browser_context,
                              const std::string& event_name,
                              content::BrowserThread::ID owner_thread,
                              RulesCacheDelegate* cache_delegate,
                              int id)
     : browser_context_(browser_context),
       owner_thread_(owner_thread),
       event_name_(event_name),
       id_(id),
       ready_(/*signaled=*/!cache_delegate),  // Immediately ready if no cache
                                              // delegate to wait for.
       last_generated_rule_identifier_id_(0),
       weak_ptr_factory_(this) {
   if (cache_delegate) {
     cache_delegate_ = cache_delegate->GetWeakPtr();
     cache_delegate->Init(this);
   }
 }

 std::string RulesRegistry::AddRulesNoFill(
     const std::string& extension_id,
     std::vector<api::events::Rule> rules_in,
     RulesDictionary* destination,
     std::vector<const api::events::Rule*>* rules_out) {
   DCHECK_CURRENTLY_ON(owner_thread());

   // Verify that all rule IDs are new.
   for (const auto& rule : rules_in) {
     const RuleId& rule_id = *(rule.id);
     // Every rule should have a priority assigned.
     DCHECK(rule.priority);
     RulesDictionaryKey key(extension_id, rule_id);
     if (rules_.find(key) != rules_.end() ||
         manifest_rules_.find(key) != manifest_rules_.end())
       return base::StringPrintf(kDuplicateRuleId, rule_id.c_str());
   }

   std::vector<const api::events::Rule*> rule_ptrs;
   rule_ptrs.reserve(rules_in.size());
   for (auto& rule : rules_in)
     rule_ptrs.push_back(&rule);
   std::string error = AddRulesImpl(extension_id, rule_ptrs);

   if (!error.empty())
     return error;

   // Commit all rules into |rules_| on success.
   rule_ptrs.clear();
   for (auto& rule : rules_in) {
     const RuleId& rule_id = *(rule.id);
     RulesDictionaryKey key(extension_id, rule_id);

     auto insert_result = destination->emplace(key, std::move(rule));
     // All rule IDs are new so insert had better not have failed.
     DCHECK(insert_result.second);

     if (rules_out)
       rule_ptrs.push_back(&(insert_result.first->second));
   }
   if (rules_out)
     *rules_out = rule_ptrs;

   MaybeProcessChangedRules(extension_id);
   return kSuccess;
 }

 std::string RulesRegistry::AddRules(
     const std::string& extension_id,
     std::vector<api::events::Rule> rules_in,
     std::vector<const api::events::Rule*>* rules_out) {
   return AddRulesInternal(extension_id, std::move(rules_in), &rules_,
                           rules_out);
 }

 std::string RulesRegistry::AddRulesInternal(
     const std::string& extension_id,
     std::vector<api::events::Rule> rules_in,
     RulesDictionary* destination,
     std::vector<const api::events::Rule*>* rules_out) {
   DCHECK_CURRENTLY_ON(owner_thread());

   std::string error = CheckAndFillInOptionalRules(extension_id, &rules_in);
   if (!error.empty())
     return error;
   FillInOptionalPriorities(&rules_in);

   return AddRulesNoFill(extension_id, std::move(rules_in), destination,
                         rules_out);
 }

 std::string RulesRegistry::RemoveRules(
     const std::string& extension_id,
     const std::vector<std::string>& rule_identifiers) {
   DCHECK_CURRENTLY_ON(owner_thread());

   // Check if any of the rules are non-removable.
   for (RuleId rule_id : rule_identifiers) {
     RulesDictionaryKey lookup_key(extension_id, rule_id);
     auto itr = manifest_rules_.find(lookup_key);
     if (itr != manifest_rules_.end())
       return kErrorCannotRemoveManifestRules;
   }

   std::string error = RemoveRulesImpl(extension_id, rule_identifiers);

   if (!error.empty())
     return error;

   for (auto i = rule_identifiers.cbegin(); i != rule_identifiers.cend(); ++i) {
     RulesDictionaryKey lookup_key(extension_id, *i);
     rules_.erase(lookup_key);
   }

   MaybeProcessChangedRules(extension_id);
   RemoveUsedRuleIdentifiers(extension_id, rule_identifiers);
   return kSuccess;
 }

 std::string RulesRegistry::RemoveAllRules(const std::string& extension_id) {
   std::string result =
       RulesRegistry::RemoveAllRulesNoStoreUpdate(extension_id, false);
   MaybeProcessChangedRules(extension_id);  // Now update the prefs and store.
   return result;
 }

 std::string RulesRegistry::RemoveAllRulesNoStoreUpdate(
     const std::string& extension_id,
     bool remove_manifest_rules) {
   DCHECK_CURRENTLY_ON(owner_thread());

   std::string error = RemoveAllRulesImpl(extension_id);

   if (!error.empty())
     return error;

   auto remove_rules = [&extension_id](RulesDictionary& dictionary) {
     for (auto it = dictionary.begin(); it != dictionary.end();) {
       if (it->first.first == extension_id)
         dictionary.erase(it++);
       else
         ++it;
     }
   };
   remove_rules(rules_);
   if (remove_manifest_rules)
     remove_rules(manifest_rules_);

   RemoveAllUsedRuleIdentifiers(extension_id);
   return kSuccess;
 }

 void RulesRegistry::GetRules(const std::string& extension_id,
                              const std::vector<std::string>& rule_identifiers,
                              std::vector<const api::events::Rule*>* out) {
   DCHECK_CURRENTLY_ON(owner_thread());

   for (const auto& i : rule_identifiers) {
     RulesDictionaryKey lookup_key(extension_id, i);
     auto entry = rules_.find(lookup_key);
     if (entry != rules_.end())
       out->push_back(&entry->second);
     entry = manifest_rules_.find(lookup_key);
     if (entry != manifest_rules_.end())
       out->push_back(&entry->second);
   }
 }

 void RulesRegistry::GetRules(const std::string& extension_id,
                              RulesDictionary* rules,
                              std::vector<const api::events::Rule*>* out) {
   for (auto& i : *rules) {
     const RulesDictionaryKey& key = i.first;
     if (key.first == extension_id)
       out->push_back(&i.second);
   }
 }

 void RulesRegistry::GetAllRules(const std::string& extension_id,
                                 std::vector<const api::events::Rule*>* out) {
   DCHECK_CURRENTLY_ON(owner_thread());
   GetRules(extension_id, &manifest_rules_, out);
   GetRules(extension_id, &rules_, out);
 }

 void RulesRegistry::OnExtensionUnloaded(const Extension* extension) {
   DCHECK_CURRENTLY_ON(owner_thread());
   std::string error = RemoveAllRulesImpl(extension->id());
   if (!error.empty())
     ReportInternalError(extension->id(), error);
 }

 void RulesRegistry::OnExtensionUninstalled(const Extension* extension) {
   DCHECK_CURRENTLY_ON(owner_thread());
   std::string error = RemoveAllRulesNoStoreUpdate(extension->id(), true);
   if (!error.empty())
     ReportInternalError(extension->id(), error);
 }

 void RulesRegistry::OnExtensionLoaded(const Extension* extension) {
   DCHECK_CURRENTLY_ON(owner_thread());

   std::vector<const api::events::Rule*> rules;
   GetAllRules(extension->id(), &rules);

   DeclarativeManifestData* declarative_data =
       DeclarativeManifestData::Get(extension);
   if (declarative_data) {
     std::vector<api::events::Rule> manifest_rules =
         declarative_data->RulesForEvent(event_name_);
     if (manifest_rules.size()) {
       std::string error =
           AddRulesInternal(extension->id(), std::move(manifest_rules),
                            &manifest_rules_, nullptr);
       if (!error.empty())
         ReportInternalError(extension->id(), error);
     }
   }

   std::string error = AddRulesImpl(extension->id(), rules);
   if (!error.empty())
     ReportInternalError(extension->id(), error);
 }

 size_t RulesRegistry::GetNumberOfUsedRuleIdentifiersForTesting() const {
   size_t entry_count = 0u;
   for (auto extension = used_rule_identifiers_.cbegin();
        extension != used_rule_identifiers_.cend(); ++extension) {
     // Each extension is counted as 1 just for being there. Otherwise we miss
     // keys with empty values.
     entry_count += 1u + extension->second.size();
   }
   return entry_count;
 }

 void RulesRegistry::DeserializeAndAddRules(const std::string& extension_id,
                                            std::unique_ptr<base::Value> rules) {
   DCHECK_CURRENTLY_ON(owner_thread());

   std::string error = AddRulesNoFill(extension_id, RulesFromValue(rules.get()),
                                      &rules_, nullptr);
   if (!error.empty())
     ReportInternalError(extension_id, error);
 }

 void RulesRegistry::ReportInternalError(const std::string& extension_id,
                                         const std::string& error) {
   std::unique_ptr<ExtensionError> error_instance(new InternalError(
       extension_id, base::ASCIIToUTF16(error), logging::LOG_ERROR));
   ExtensionsBrowserClient::Get()->ReportError(browser_context_,
                                               std::move(error_instance));
 }

 RulesRegistry::~RulesRegistry() {
 }

 void RulesRegistry::MarkReady(base::Time storage_init_time) {
   DCHECK_CURRENTLY_ON(owner_thread());

   if (!storage_init_time.is_null()) {
     UMA_HISTOGRAM_TIMES("Extensions.DeclarativeRulesStorageInitialization",
                         base::Time::Now() - storage_init_time);
   }

   ready_.Signal();
 }

 void RulesRegistry::ProcessChangedRules(const std::string& extension_id) {
   DCHECK_CURRENTLY_ON(owner_thread());

   DCHECK(base::ContainsKey(process_changed_rules_requested_, extension_id));
   process_changed_rules_requested_[extension_id] = NOT_SCHEDULED_FOR_PROCESSING;

   std::vector<const api::events::Rule*> new_rules;
   GetRules(extension_id, &rules_, &new_rules);
   base::PostTaskWithTraits(
       FROM_HERE, {content::BrowserThread::UI},
       base::BindOnce(&RulesCacheDelegate::UpdateRules, cache_delegate_,
                      extension_id, RulesToValue(new_rules)));
 }

 void RulesRegistry::MaybeProcessChangedRules(const std::string& extension_id) {
   // Read and initialize |process_changed_rules_requested_[extension_id]| if
   // necessary. (Note that the insertion below will not overwrite
   // |process_changed_rules_requested_[extension_id]| if that already exists.
   std::pair<ProcessStateMap::iterator, bool> insertion =
       process_changed_rules_requested_.insert(std::make_pair(
           extension_id,
           browser_context_ ? NOT_SCHEDULED_FOR_PROCESSING : NEVER_PROCESS));
   if (insertion.first->second != NOT_SCHEDULED_FOR_PROCESSING)
     return;

   process_changed_rules_requested_[extension_id] = SCHEDULED_FOR_PROCESSING;
   ready_.Post(FROM_HERE,
               base::Bind(&RulesRegistry::ProcessChangedRules,
                          weak_ptr_factory_.GetWeakPtr(),
                          extension_id));
 }

 bool RulesRegistry::IsUniqueId(const std::string& extension_id,
                                const std::string& rule_id) const {
   auto identifiers = used_rule_identifiers_.find(extension_id);
   if (identifiers == used_rule_identifiers_.end())
     return true;
   return identifiers->second.find(rule_id) == identifiers->second.end();
 }

 std::string RulesRegistry::GenerateUniqueId(const std::string& extension_id) {
   while (!IsUniqueId(extension_id, ToId(last_generated_rule_identifier_id_)))
     ++last_generated_rule_identifier_id_;
   return ToId(last_generated_rule_identifier_id_);
 }

 std::string RulesRegistry::CheckAndFillInOptionalRules(
     const std::string& extension_id,
     std::vector<api::events::Rule>* rules) {
   // IDs we have inserted, in case we need to rollback this operation.
   // TODO(rdevlin.cronin, avi): Um, this variable is never inserted into; is
   // this a bug? https://crbug.com/913655
   std::vector<std::string> rollback_log;

   // First we insert all rules with existing identifier, so that generated
   // identifiers cannot collide with identifiers passed by the caller.
   for (const auto& rule : *rules) {
     if (rule.id.get()) {
       std::string id = *(rule.id);
       if (!IsUniqueId(extension_id, id)) {
         RemoveUsedRuleIdentifiers(extension_id, rollback_log);
         return "Id " + id + " was used multiple times.";
       }
       used_rule_identifiers_[extension_id].insert(id);
     }
   }
   // Now we generate IDs in case they were not specified in the rules. This
   // cannot fail so we do not need to keep track of a rollback log.
   for (auto& rule : *rules) {
     if (!rule.id.get()) {
       rule.id.reset(new std::string(GenerateUniqueId(extension_id)));
       used_rule_identifiers_[extension_id].insert(*(rule.id));
     }
   }
   return std::string();
 }

 void RulesRegistry::FillInOptionalPriorities(
     std::vector<api::events::Rule>* rules) {
   for (auto& rule : *rules) {
     if (!rule.priority.get())
       rule.priority.reset(new int(DEFAULT_PRIORITY));
   }
 }

 void RulesRegistry::RemoveUsedRuleIdentifiers(
     const std::string& extension_id,
     const std::vector<std::string>& identifiers) {
   std::vector<std::string>::const_iterator i;
   for (i = identifiers.begin(); i != identifiers.end(); ++i)
     used_rule_identifiers_[extension_id].erase(*i);
 }

 void RulesRegistry::RemoveAllUsedRuleIdentifiers(
     const std::string& extension_id) {
   used_rule_identifiers_.erase(extension_id);
 }

 }  // namespace extensions
	// 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/browser/api/declarative/rules_registry.h"

	#include <utility>

	#include "base/bind.h"
	#include "base/logging.h"
	#include "base/metrics/histogram_macros.h"
	#include "base/stl_util.h"
	#include "base/strings/stringprintf.h"
	#include "base/strings/utf_string_conversions.h"
	#include "base/task/post_task.h"
	#include "base/time/time.h"
	#include "base/values.h"
	#include "content/public/browser/browser_task_traits.h"
	#include "content/public/browser/browser_thread.h"
	#include "content/public/browser/notification_details.h"
	#include "content/public/browser/notification_source.h"
	#include "extensions/browser/api/declarative/rules_cache_delegate.h"
	#include "extensions/browser/extension_error.h"
	#include "extensions/browser/extension_prefs.h"
	#include "extensions/browser/extension_system.h"
	#include "extensions/browser/extensions_browser_client.h"
	#include "extensions/browser/state_store.h"
	#include "extensions/common/api/declarative/declarative_manifest_data.h"
	#include "extensions/common/extension.h"
	#include "extensions/common/extensions_client.h"
	#include "extensions/common/manifest_constants.h"

	namespace extensions {

	namespace {

	const char kSuccess[] = "";
	const char kDuplicateRuleId[] = "Duplicate rule ID: %s";
	const char kErrorCannotRemoveManifestRules[] =
	"Rules declared in the 'event_rules' manifest field cannot be removed";

	base::Value RulesToValue(const std::vector<const api::events::Rule*>& rules) {
	base::Value value(base::Value::Type::LIST);
	for (const auto* rule : rules)
	value.GetList().push_back(std::move(*rule->ToValue()));
	return value;
	}

	std::vector<api::events::Rule> RulesFromValue(const base::Value* value) {
	std::vector<api::events::Rule> rules;

	const base::ListValue* list = NULL;
	if (!value \|\| !value->GetAsList(&list))
	return rules;

	rules.reserve(list->GetSize());
	for (size_t i = 0; i < list->GetSize(); ++i) {
	const base::DictionaryValue* dict = NULL;
	if (!list->GetDictionary(i, &dict))
	continue;
	api::events::Rule rule;
	if (api::events::Rule::Populate(*dict, &rule))
	rules.push_back(std::move(rule));
	}

	return rules;
	}

	std::string ToId(int identifier) {
	return base::StringPrintf("_%d_", identifier);
	}

	} // namespace


	// RulesRegistry

	RulesRegistry::RulesRegistry(content::BrowserContext* browser_context,
	const std::string& event_name,
	content::BrowserThread::ID owner_thread,
	RulesCacheDelegate* cache_delegate,
	int id)
	: browser_context_(browser_context),
	owner_thread_(owner_thread),
	event_name_(event_name),
	id_(id),
	ready_(/signaled=/!cache_delegate), // Immediately ready if no cache
	// delegate to wait for.
	last_generated_rule_identifier_id_(0),
	weak_ptr_factory_(this) {
	if (cache_delegate) {
	cache_delegate_ = cache_delegate->GetWeakPtr();
	cache_delegate->Init(this);
	}
	}

	std::string RulesRegistry::AddRulesNoFill(
	const std::string& extension_id,
	std::vector<api::events::Rule> rules_in,
	RulesDictionary* destination,
	std::vector<const api::events::Rule> rules_out) {
	DCHECK_CURRENTLY_ON(owner_thread());

	// Verify that all rule IDs are new.
	for (const auto& rule : rules_in) {
	const RuleId& rule_id = *(rule.id);
	// Every rule should have a priority assigned.
	DCHECK(rule.priority);
	RulesDictionaryKey key(extension_id, rule_id);
	if (rules_.find(key) != rules_.end() \|\|
	manifest_rules_.find(key) != manifest_rules_.end())
	return base::StringPrintf(kDuplicateRuleId, rule_id.c_str());
	}

	std::vector<const api::events::Rule*> rule_ptrs;
	rule_ptrs.reserve(rules_in.size());
	for (auto& rule : rules_in)
	rule_ptrs.push_back(&rule);
	std::string error = AddRulesImpl(extension_id, rule_ptrs);

	if (!error.empty())
	return error;

	// Commit all rules into \|rules_\| on success.
	rule_ptrs.clear();
	for (auto& rule : rules_in) {
	const RuleId& rule_id = *(rule.id);
	RulesDictionaryKey key(extension_id, rule_id);

	auto insert_result = destination->emplace(key, std::move(rule));
	// All rule IDs are new so insert had better not have failed.
	DCHECK(insert_result.second);

	if (rules_out)
	rule_ptrs.push_back(&(insert_result.first->second));
	}
	if (rules_out)
	*rules_out = rule_ptrs;

	MaybeProcessChangedRules(extension_id);
	return kSuccess;
	}

	std::string RulesRegistry::AddRules(
	const std::string& extension_id,
	std::vector<api::events::Rule> rules_in,
	std::vector<const api::events::Rule> rules_out) {
	return AddRulesInternal(extension_id, std::move(rules_in), &rules_,
	rules_out);
	}

	std::string RulesRegistry::AddRulesInternal(
	const std::string& extension_id,
	std::vector<api::events::Rule> rules_in,
	RulesDictionary* destination,
	std::vector<const api::events::Rule> rules_out) {
	DCHECK_CURRENTLY_ON(owner_thread());

	std::string error = CheckAndFillInOptionalRules(extension_id, &rules_in);
	if (!error.empty())
	return error;
	FillInOptionalPriorities(&rules_in);

	return AddRulesNoFill(extension_id, std::move(rules_in), destination,
	rules_out);
	}

	std::string RulesRegistry::RemoveRules(
	const std::string& extension_id,
	const std::vector<std::string>& rule_identifiers) {
	DCHECK_CURRENTLY_ON(owner_thread());

	// Check if any of the rules are non-removable.
	for (RuleId rule_id : rule_identifiers) {
	RulesDictionaryKey lookup_key(extension_id, rule_id);
	auto itr = manifest_rules_.find(lookup_key);
	if (itr != manifest_rules_.end())
	return kErrorCannotRemoveManifestRules;
	}

	std::string error = RemoveRulesImpl(extension_id, rule_identifiers);

	if (!error.empty())
	return error;

	for (auto i = rule_identifiers.cbegin(); i != rule_identifiers.cend(); ++i) {
	RulesDictionaryKey lookup_key(extension_id, *i);
	rules_.erase(lookup_key);
	}

	MaybeProcessChangedRules(extension_id);
	RemoveUsedRuleIdentifiers(extension_id, rule_identifiers);
	return kSuccess;
	}

	std::string RulesRegistry::RemoveAllRules(const std::string& extension_id) {
	std::string result =
	RulesRegistry::RemoveAllRulesNoStoreUpdate(extension_id, false);
	MaybeProcessChangedRules(extension_id); // Now update the prefs and store.
	return result;
	}

	std::string RulesRegistry::RemoveAllRulesNoStoreUpdate(
	const std::string& extension_id,
	bool remove_manifest_rules) {
	DCHECK_CURRENTLY_ON(owner_thread());

	std::string error = RemoveAllRulesImpl(extension_id);

	if (!error.empty())
	return error;

	auto remove_rules = [&extension_id](RulesDictionary& dictionary) {
	for (auto it = dictionary.begin(); it != dictionary.end();) {
	if (it->first.first == extension_id)
	dictionary.erase(it++);
	else
	++it;
	}
	};
	remove_rules(rules_);
	if (remove_manifest_rules)
	remove_rules(manifest_rules_);

	RemoveAllUsedRuleIdentifiers(extension_id);
	return kSuccess;
	}

	void RulesRegistry::GetRules(const std::string& extension_id,
	const std::vector<std::string>& rule_identifiers,
	std::vector<const api::events::Rule> out) {
	DCHECK_CURRENTLY_ON(owner_thread());

	for (const auto& i : rule_identifiers) {
	RulesDictionaryKey lookup_key(extension_id, i);
	auto entry = rules_.find(lookup_key);
	if (entry != rules_.end())
	out->push_back(&entry->second);
	entry = manifest_rules_.find(lookup_key);
	if (entry != manifest_rules_.end())
	out->push_back(&entry->second);
	}
	}

	void RulesRegistry::GetRules(const std::string& extension_id,
	RulesDictionary* rules,
	std::vector<const api::events::Rule> out) {
	for (auto& i : *rules) {
	const RulesDictionaryKey& key = i.first;
	if (key.first == extension_id)
	out->push_back(&i.second);
	}
	}

	void RulesRegistry::GetAllRules(const std::string& extension_id,
	std::vector<const api::events::Rule> out) {
	DCHECK_CURRENTLY_ON(owner_thread());
	GetRules(extension_id, &manifest_rules_, out);
	GetRules(extension_id, &rules_, out);
	}

	void RulesRegistry::OnExtensionUnloaded(const Extension* extension) {
	DCHECK_CURRENTLY_ON(owner_thread());
	std::string error = RemoveAllRulesImpl(extension->id());
	if (!error.empty())
	ReportInternalError(extension->id(), error);
	}

	void RulesRegistry::OnExtensionUninstalled(const Extension* extension) {
	DCHECK_CURRENTLY_ON(owner_thread());
	std::string error = RemoveAllRulesNoStoreUpdate(extension->id(), true);
	if (!error.empty())
	ReportInternalError(extension->id(), error);
	}

	void RulesRegistry::OnExtensionLoaded(const Extension* extension) {
	DCHECK_CURRENTLY_ON(owner_thread());

	std::vector<const api::events::Rule*> rules;
	GetAllRules(extension->id(), &rules);

	DeclarativeManifestData* declarative_data =
	DeclarativeManifestData::Get(extension);
	if (declarative_data) {
	std::vector<api::events::Rule> manifest_rules =
	declarative_data->RulesForEvent(event_name_);
	if (manifest_rules.size()) {
	std::string error =
	AddRulesInternal(extension->id(), std::move(manifest_rules),
	&manifest_rules_, nullptr);
	if (!error.empty())
	ReportInternalError(extension->id(), error);
	}
	}

	std::string error = AddRulesImpl(extension->id(), rules);
	if (!error.empty())
	ReportInternalError(extension->id(), error);
	}

	size_t RulesRegistry::GetNumberOfUsedRuleIdentifiersForTesting() const {
	size_t entry_count = 0u;
	for (auto extension = used_rule_identifiers_.cbegin();
	extension != used_rule_identifiers_.cend(); ++extension) {
	// Each extension is counted as 1 just for being there. Otherwise we miss
	// keys with empty values.
	entry_count += 1u + extension->second.size();
	}
	return entry_count;
	}

	void RulesRegistry::DeserializeAndAddRules(const std::string& extension_id,
	std::unique_ptr<base::Value> rules) {
	DCHECK_CURRENTLY_ON(owner_thread());

	std::string error = AddRulesNoFill(extension_id, RulesFromValue(rules.get()),
	&rules_, nullptr);
	if (!error.empty())
	ReportInternalError(extension_id, error);
	}

	void RulesRegistry::ReportInternalError(const std::string& extension_id,
	const std::string& error) {
	std::unique_ptr<ExtensionError> error_instance(new InternalError(
	extension_id, base::ASCIIToUTF16(error), logging::LOG_ERROR));
	ExtensionsBrowserClient::Get()->ReportError(browser_context_,
	std::move(error_instance));
	}

	RulesRegistry::~RulesRegistry() {
	}

	void RulesRegistry::MarkReady(base::Time storage_init_time) {
	DCHECK_CURRENTLY_ON(owner_thread());

	if (!storage_init_time.is_null()) {
	UMA_HISTOGRAM_TIMES("Extensions.DeclarativeRulesStorageInitialization",
	base::Time::Now() - storage_init_time);
	}

	ready_.Signal();
	}

	void RulesRegistry::ProcessChangedRules(const std::string& extension_id) {
	DCHECK_CURRENTLY_ON(owner_thread());

	DCHECK(base::ContainsKey(process_changed_rules_requested_, extension_id));
	process_changed_rules_requested_[extension_id] = NOT_SCHEDULED_FOR_PROCESSING;

	std::vector<const api::events::Rule*> new_rules;
	GetRules(extension_id, &rules_, &new_rules);
	base::PostTaskWithTraits(
	FROM_HERE, {content::BrowserThread::UI},
	base::BindOnce(&RulesCacheDelegate::UpdateRules, cache_delegate_,
	extension_id, RulesToValue(new_rules)));
	}

	void RulesRegistry::MaybeProcessChangedRules(const std::string& extension_id) {
	// Read and initialize \|process_changed_rules_requested_[extension_id]\| if
	// necessary. (Note that the insertion below will not overwrite
	// \|process_changed_rules_requested_[extension_id]\| if that already exists.
	std::pair<ProcessStateMap::iterator, bool> insertion =
	process_changed_rules_requested_.insert(std::make_pair(
	extension_id,
	browser_context_ ? NOT_SCHEDULED_FOR_PROCESSING : NEVER_PROCESS));
	if (insertion.first->second != NOT_SCHEDULED_FOR_PROCESSING)
	return;

	process_changed_rules_requested_[extension_id] = SCHEDULED_FOR_PROCESSING;
	ready_.Post(FROM_HERE,
	base::Bind(&RulesRegistry::ProcessChangedRules,
	weak_ptr_factory_.GetWeakPtr(),
	extension_id));
	}

	bool RulesRegistry::IsUniqueId(const std::string& extension_id,
	const std::string& rule_id) const {
	auto identifiers = used_rule_identifiers_.find(extension_id);
	if (identifiers == used_rule_identifiers_.end())
	return true;
	return identifiers->second.find(rule_id) == identifiers->second.end();
	}

	std::string RulesRegistry::GenerateUniqueId(const std::string& extension_id) {
	while (!IsUniqueId(extension_id, ToId(last_generated_rule_identifier_id_)))
	++last_generated_rule_identifier_id_;
	return ToId(last_generated_rule_identifier_id_);
	}

	std::string RulesRegistry::CheckAndFillInOptionalRules(
	const std::string& extension_id,
	std::vector<api::events::Rule>* rules) {
	// IDs we have inserted, in case we need to rollback this operation.
	// TODO(rdevlin.cronin, avi): Um, this variable is never inserted into; is
	// this a bug? https://crbug.com/913655
	std::vector<std::string> rollback_log;

	// First we insert all rules with existing identifier, so that generated
	// identifiers cannot collide with identifiers passed by the caller.
	for (const auto& rule : *rules) {
	if (rule.id.get()) {
	std::string id = *(rule.id);
	if (!IsUniqueId(extension_id, id)) {
	RemoveUsedRuleIdentifiers(extension_id, rollback_log);
	return "Id " + id + " was used multiple times.";
	}
	used_rule_identifiers_[extension_id].insert(id);
	}
	}
	// Now we generate IDs in case they were not specified in the rules. This
	// cannot fail so we do not need to keep track of a rollback log.
	for (auto& rule : *rules) {
	if (!rule.id.get()) {
	rule.id.reset(new std::string(GenerateUniqueId(extension_id)));
	used_rule_identifiers_[extension_id].insert(*(rule.id));
	}
	}
	return std::string();
	}

	void RulesRegistry::FillInOptionalPriorities(
	std::vector<api::events::Rule>* rules) {
	for (auto& rule : *rules) {
	if (!rule.priority.get())
	rule.priority.reset(new int(DEFAULT_PRIORITY));
	}
	}

	void RulesRegistry::RemoveUsedRuleIdentifiers(
	const std::string& extension_id,
	const std::vector<std::string>& identifiers) {
	std::vector<std::string>::const_iterator i;
	for (i = identifiers.begin(); i != identifiers.end(); ++i)
	used_rule_identifiers_[extension_id].erase(*i);
	}

	void RulesRegistry::RemoveAllUsedRuleIdentifiers(
	const std::string& extension_id) {
	used_rule_identifiers_.erase(extension_id);
	}

	} // namespace extensions