/* * Copyright (C) 2018 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #define LOG_TAG "resolv" #include "ResolverEventReporter.h" #include #include using aidl::android::net::metrics::INetdEventListener; using aidl::android::net::resolv::aidl::IDnsResolverUnsolicitedEventListener; ResolverEventReporter& ResolverEventReporter::getInstance() { // It should be initialized only once. static ResolverEventReporter instance; // Add framework metrics listener. Because the binder service "netd_listener" may be launched // later than Netd, try to get binder handler in every instance query if any. The framework // metrics listener should be added only once if it has been already added successfully. instance.addDefaultListener(); return instance; } ResolverEventReporter::ListenerSet ResolverEventReporter::getListeners() const { return getListenersImpl(); } ResolverEventReporter::UnsolEventListenerSet ResolverEventReporter::getUnsolEventListeners() const { return getUnsolEventListenersImpl(); } int ResolverEventReporter::addListener(const std::shared_ptr& listener) { return addListenerImpl(listener); } int ResolverEventReporter::addUnsolEventListener( const std::shared_ptr& listener) { return addUnsolEventListenerImpl(listener); } // TODO: Consider registering metrics listener from framework and remove this function. // Currently, the framework listener "netd_listener" is shared by netd and libnetd_resolv. // Consider breaking it into two listeners. Once it has done, may let framework register // the listener proactively. void ResolverEventReporter::addDefaultListener() { std::lock_guard lock(mMutex); static bool added = false; if (added) return; // Use the non-blocking call AServiceManager_checkService in order not to delay DNS // lookup threads when the netd_listener service is not ready. ndk::SpAIBinder binder = ndk::SpAIBinder(AServiceManager_checkService("netd_listener")); std::shared_ptr listener = INetdEventListener::fromBinder(binder); if (listener == nullptr) return; if (!addListenerImplLocked(listener)) added = true; } void ResolverEventReporter::handleBinderDied(const void* who) { std::lock_guard lock(mMutex); // Use the raw binder pointer address to be the identification of dead binder. Treat "who" // which passes the raw address of dead binder as an identification only. auto found = std::find_if(mListeners.begin(), mListeners.end(), [=](const auto& it) { return static_cast(it.get()) == who; }); if (found != mListeners.end()) mListeners.erase(found); } void ResolverEventReporter::handleUnsolEventBinderDied(const void* who) { std::lock_guard lock(mMutex); // Use the raw binder pointer address to be the identification of dead binder. Treat "who" // which passes the raw address of dead binder as an identification only. auto found = std::find_if(mUnsolEventListeners.begin(), mUnsolEventListeners.end(), [=](const auto& it) { return static_cast(it.get()) == who; }); if (found != mUnsolEventListeners.end()) mUnsolEventListeners.erase(found); } ResolverEventReporter::ListenerSet ResolverEventReporter::getListenersImpl() const { std::lock_guard lock(mMutex); return mListeners; } ResolverEventReporter::UnsolEventListenerSet ResolverEventReporter::getUnsolEventListenersImpl() const { std::lock_guard lock(mMutex); return mUnsolEventListeners; } int ResolverEventReporter::addListenerImpl(const std::shared_ptr& listener) { std::lock_guard lock(mMutex); return addListenerImplLocked(listener); } int ResolverEventReporter::addListenerImplLocked( const std::shared_ptr& listener) { if (listener == nullptr) { LOG(ERROR) << "The listener should not be null"; return -EINVAL; } for (const auto& it : mListeners) { if (it->asBinder().get() == listener->asBinder().get()) { LOG(WARNING) << "The listener was already subscribed"; return -EEXIST; } } static AIBinder_DeathRecipient* deathRecipient = nullptr; if (deathRecipient == nullptr) { // The AIBinder_DeathRecipient object is used to manage all death recipients for multiple // binder objects. It doesn't released because there should have at least one binder object // from framework. // TODO: Considering to remove death recipient for the binder object from framework because // it doesn't need death recipient actually. deathRecipient = AIBinder_DeathRecipient_new([](void* cookie) { ResolverEventReporter::getInstance().handleBinderDied(cookie); }); } // Pass the raw binder pointer address to be the cookie of the death recipient. While the death // notification is fired, the cookie is used for identifying which binder was died. Because // the NDK binder doesn't pass dead binder pointer to binder death handler, the binder death // handler can't know who was died via wp. The reason for wp is not passed // is that NDK binder can't transform a wp to a wp in some cases. // See more information in b/128712772. auto binder = listener->asBinder().get(); auto cookie = static_cast(listener.get()); // Used for dead binder identification. binder_status_t status = AIBinder_linkToDeath(binder, deathRecipient, cookie); if (STATUS_OK != status) { LOG(ERROR) << "Failed to register death notification for INetdEventListener"; return -EAGAIN; } mListeners.insert(listener); return 0; } int ResolverEventReporter::addUnsolEventListenerImpl( const std::shared_ptr& listener) { std::lock_guard lock(mMutex); return addUnsolEventListenerImplLocked(listener); } int ResolverEventReporter::addUnsolEventListenerImplLocked( const std::shared_ptr& listener) { if (listener == nullptr) { LOG(ERROR) << "The unsolicited event listener should not be null"; return -EINVAL; } for (const auto& it : mUnsolEventListeners) { if (it->asBinder().get() == listener->asBinder().get()) { LOG(WARNING) << "The unsolicited event listener was already subscribed"; return -EEXIST; } } static AIBinder_DeathRecipient* deathRecipient = nullptr; if (deathRecipient == nullptr) { // The AIBinder_DeathRecipient object is used to manage all death recipients for multiple // binder objects. It doesn't released because there should have at least one binder object // from framework. // TODO: Considering to remove death recipient for the binder object from framework because // it doesn't need death recipient actually. deathRecipient = AIBinder_DeathRecipient_new([](void* cookie) { ResolverEventReporter::getInstance().handleUnsolEventBinderDied(cookie); }); } // Pass the raw binder pointer address to be the cookie of the death recipient. While the death // notification is fired, the cookie is used for identifying which binder was died. Because // the NDK binder doesn't pass dead binder pointer to binder death handler, the binder death // handler can't know who was died via wp. The reason for wp is not passed // is that NDK binder can't transform a wp to a wp in some cases. // See more information in b/128712772. auto binder = listener->asBinder().get(); auto cookie = static_cast(listener.get()); // Used for dead binder identification. binder_status_t status = AIBinder_linkToDeath(binder, deathRecipient, cookie); if (STATUS_OK != status) { LOG(ERROR) << "Failed to register death notification for IDnsResolverUnsolicitedEventListener"; return -EAGAIN; } mUnsolEventListeners.insert(listener); return 0; }