mirror of
https://github.com/klzgrad/naiveproxy.git
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176 lines
6.4 KiB
C++
176 lines
6.4 KiB
C++
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// Copyright 2016 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "net/nqe/network_qualities_prefs_manager.h"
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#include <string>
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#include <utility>
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#include "base/bind.h"
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#include "base/optional.h"
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#include "base/rand_util.h"
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#include "base/sequenced_task_runner.h"
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#include "base/threading/thread_checker.h"
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#include "base/threading/thread_task_runner_handle.h"
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#include "net/nqe/network_quality_estimator.h"
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namespace net {
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namespace {
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// Maximum size of the prefs that hold the qualities of different networks.
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// A single entry in the cache consists of three tuples:
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// (i) SSID or MCCMNC of the network. SSID is at most 32 characters in length
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// (but is typically shorter than that). MCCMNC is at most 6 characters
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// long.
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// (ii) Connection type of the network as reported by network
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// change notifier (an enum).
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// (iii) Effective connection type of the network (an enum).
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constexpr size_t kMaxCacheSize = 20u;
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// Parses |value| into a map of NetworkIDs and CachedNetworkQualities,
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// and returns the map.
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ParsedPrefs ConvertDictionaryValueToMap(const base::DictionaryValue* value) {
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DCHECK_GE(kMaxCacheSize, value->size());
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ParsedPrefs read_prefs;
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for (const auto& it : value->DictItems()) {
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nqe::internal::NetworkID network_id =
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nqe::internal::NetworkID::FromString(it.first);
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std::string effective_connection_type_string;
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const bool effective_connection_type_available =
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it.second.GetAsString(&effective_connection_type_string);
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DCHECK(effective_connection_type_available);
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base::Optional<EffectiveConnectionType> effective_connection_type =
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GetEffectiveConnectionTypeForName(effective_connection_type_string);
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DCHECK(effective_connection_type.has_value());
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nqe::internal::CachedNetworkQuality cached_network_quality(
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effective_connection_type.value_or(EFFECTIVE_CONNECTION_TYPE_UNKNOWN));
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read_prefs[network_id] = cached_network_quality;
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}
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return read_prefs;
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}
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} // namespace
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NetworkQualitiesPrefsManager::NetworkQualitiesPrefsManager(
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std::unique_ptr<PrefDelegate> pref_delegate)
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: pref_delegate_(std::move(pref_delegate)),
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pref_task_runner_(base::ThreadTaskRunnerHandle::Get()),
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prefs_(pref_delegate_->GetDictionaryValue()),
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network_quality_estimator_(nullptr),
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read_prefs_startup_(ConvertDictionaryValueToMap(prefs_.get())),
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pref_weak_ptr_factory_(this) {
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DCHECK(pref_delegate_);
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DCHECK(pref_task_runner_);
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DCHECK_GE(kMaxCacheSize, prefs_->size());
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pref_weak_ptr_ = pref_weak_ptr_factory_.GetWeakPtr();
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}
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NetworkQualitiesPrefsManager::~NetworkQualitiesPrefsManager() {
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if (!network_task_runner_)
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return;
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DCHECK(network_task_runner_->RunsTasksInCurrentSequence());
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if (network_quality_estimator_)
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network_quality_estimator_->RemoveNetworkQualitiesCacheObserver(this);
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}
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void NetworkQualitiesPrefsManager::InitializeOnNetworkThread(
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NetworkQualityEstimator* network_quality_estimator) {
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DCHECK(!network_task_runner_);
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DCHECK(network_quality_estimator);
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network_task_runner_ = base::ThreadTaskRunnerHandle::Get();
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network_quality_estimator_ = network_quality_estimator;
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network_quality_estimator_->AddNetworkQualitiesCacheObserver(this);
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// Notify network quality estimator of the read prefs.
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network_quality_estimator_->OnPrefsRead(read_prefs_startup_);
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}
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void NetworkQualitiesPrefsManager::OnChangeInCachedNetworkQuality(
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const nqe::internal::NetworkID& network_id,
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const nqe::internal::CachedNetworkQuality& cached_network_quality) {
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DCHECK(network_task_runner_->RunsTasksInCurrentSequence());
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// Notify |this| on the pref thread.
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pref_task_runner_->PostTask(
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FROM_HERE,
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base::Bind(&NetworkQualitiesPrefsManager::
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OnChangeInCachedNetworkQualityOnPrefSequence,
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pref_weak_ptr_, network_id, cached_network_quality));
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}
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void NetworkQualitiesPrefsManager::ShutdownOnPrefSequence() {
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DCHECK(pref_task_runner_->RunsTasksInCurrentSequence());
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pref_weak_ptr_factory_.InvalidateWeakPtrs();
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pref_delegate_.reset();
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}
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void NetworkQualitiesPrefsManager::ClearPrefs() {
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DCHECK(pref_task_runner_->RunsTasksInCurrentSequence());
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prefs_->Clear();
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DCHECK_EQ(0u, prefs_->size());
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pref_delegate_->SetDictionaryValue(*prefs_);
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}
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void NetworkQualitiesPrefsManager::OnChangeInCachedNetworkQualityOnPrefSequence(
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const nqe::internal::NetworkID& network_id,
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const nqe::internal::CachedNetworkQuality& cached_network_quality) {
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// The prefs can only be written on the pref thread.
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DCHECK(pref_task_runner_->RunsTasksInCurrentSequence());
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DCHECK_GE(kMaxCacheSize, prefs_->size());
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std::string network_id_string = network_id.ToString();
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// If the network ID contains a period, then return early since the dictionary
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// prefs cannot contain period in the path.
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if (network_id_string.find('.') != std::string::npos)
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return;
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prefs_->SetString(network_id_string,
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GetNameForEffectiveConnectionType(
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cached_network_quality.effective_connection_type()));
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if (prefs_->size() > kMaxCacheSize) {
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// Delete one randomly selected value that has a key that is different from
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// |network_id|.
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DCHECK_EQ(kMaxCacheSize + 1, prefs_->size());
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// Generate a random number in the range [0, |kMaxCacheSize| - 1] since the
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// number of network IDs in |prefs_| other than |network_id| is
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// |kMaxCacheSize|.
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int index_to_delete = base::RandInt(0, kMaxCacheSize - 1);
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for (const auto& it : prefs_->DictItems()) {
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// Delete the kth element in the dictionary, not including the element
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// that represents the current network. k == |index_to_delete|.
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if (nqe::internal::NetworkID::FromString(it.first) == network_id)
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continue;
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if (index_to_delete == 0) {
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prefs_->RemoveKey(it.first);
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break;
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}
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index_to_delete--;
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}
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}
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DCHECK_GE(kMaxCacheSize, prefs_->size());
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// Notify the pref delegate so that it updates the prefs on the disk.
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pref_delegate_->SetDictionaryValue(*prefs_);
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}
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ParsedPrefs NetworkQualitiesPrefsManager::ForceReadPrefsForTesting() const {
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DCHECK(pref_task_runner_->RunsTasksInCurrentSequence());
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std::unique_ptr<base::DictionaryValue> value(
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pref_delegate_->GetDictionaryValue());
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return ConvertDictionaryValueToMap(value.get());
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}
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} // namespace net
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