/* * Copyright (C) 2020 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_NDEBUG 0 #define LOG_TAG "TranscodingUidPolicy" #include #include #include #include #include #include #include #include namespace android { constexpr static uid_t OFFLINE_UID = -1; constexpr static int32_t IMPORTANCE_UNKNOWN = INT32_MAX; TranscodingUidPolicy::TranscodingUidPolicy() : mUidObserver(nullptr), mRegistered(false), mTopUidState(IMPORTANCE_UNKNOWN) { registerSelf(); } TranscodingUidPolicy::~TranscodingUidPolicy() { unregisterSelf(); } void TranscodingUidPolicy::OnUidImportance(uid_t uid, int32_t uidImportance, void* cookie) { TranscodingUidPolicy* owner = reinterpret_cast(cookie); owner->onUidStateChanged(uid, uidImportance); } void TranscodingUidPolicy::registerSelf() { if (__builtin_available(android __TRANSCODING_MIN_API__, *)) { mUidObserver = AActivityManager_addUidImportanceListener(&OnUidImportance, -1, (void*)this); } if (mUidObserver == nullptr) { ALOGE("Failed to register uid observer"); return; } Mutex::Autolock _l(mUidLock); mRegistered = true; ALOGI("Registered uid observer"); } void TranscodingUidPolicy::unregisterSelf() { if (__builtin_available(android __TRANSCODING_MIN_API__, *)) { AActivityManager_removeUidImportanceListener(mUidObserver); mUidObserver = nullptr; Mutex::Autolock _l(mUidLock); mRegistered = false; ALOGI("Unregistered uid observer"); } else { ALOGE("Failed to unregister uid observer"); } } void TranscodingUidPolicy::setCallback(const std::shared_ptr& cb) { mUidPolicyCallback = cb; } void TranscodingUidPolicy::registerMonitorUid(uid_t uid) { Mutex::Autolock _l(mUidLock); if (uid == OFFLINE_UID) { ALOGW("Ignoring the offline uid"); return; } if (mUidStateMap.find(uid) != mUidStateMap.end()) { ALOGE("%s: Trying to register uid: %d which is already monitored!", __FUNCTION__, uid); return; } int32_t state = IMPORTANCE_UNKNOWN; if (__builtin_available(android __TRANSCODING_MIN_API__, *)) { if (mRegistered && AActivityManager_isUidActive(uid)) { state = AActivityManager_getUidImportance(uid); } } ALOGV("%s: inserting new uid: %u, procState %d", __FUNCTION__, uid, state); mUidStateMap.emplace(std::pair(uid, state)); mStateUidMap[state].insert(uid); updateTopUid_l(); } void TranscodingUidPolicy::unregisterMonitorUid(uid_t uid) { Mutex::Autolock _l(mUidLock); auto it = mUidStateMap.find(uid); if (it == mUidStateMap.end()) { ALOGE("%s: Trying to unregister uid: %d which is not monitored!", __FUNCTION__, uid); return; } auto stateIt = mStateUidMap.find(it->second); if (stateIt != mStateUidMap.end()) { stateIt->second.erase(uid); if (stateIt->second.empty()) { mStateUidMap.erase(stateIt); } } mUidStateMap.erase(it); updateTopUid_l(); } bool TranscodingUidPolicy::isUidOnTop(uid_t uid) { Mutex::Autolock _l(mUidLock); return mTopUidState != IMPORTANCE_UNKNOWN && mTopUidState == getProcState_l(uid); } std::unordered_set TranscodingUidPolicy::getTopUids() const { Mutex::Autolock _l(mUidLock); if (mTopUidState == IMPORTANCE_UNKNOWN) { return std::unordered_set(); } return mStateUidMap.at(mTopUidState); } void TranscodingUidPolicy::onUidStateChanged(uid_t uid, int32_t procState) { ALOGV("onUidStateChanged: uid %u, procState %d", uid, procState); bool topUidSetChanged = false; bool isUidGone = false; std::unordered_set topUids; { Mutex::Autolock _l(mUidLock); auto it = mUidStateMap.find(uid); if (it != mUidStateMap.end() && it->second != procState) { isUidGone = (procState == AACTIVITYMANAGER_IMPORTANCE_GONE); topUids = mStateUidMap[mTopUidState]; // Move uid to the new procState. mStateUidMap[it->second].erase(uid); mStateUidMap[procState].insert(uid); it->second = procState; updateTopUid_l(); if (topUids != mStateUidMap[mTopUidState]) { // Make a copy of the uid set for callback. topUids = mStateUidMap[mTopUidState]; topUidSetChanged = true; } } } ALOGV("topUidSetChanged: %d, isUidGone %d", topUidSetChanged, isUidGone); if (topUidSetChanged) { auto callback = mUidPolicyCallback.lock(); if (callback != nullptr) { callback->onTopUidsChanged(topUids); } } if (isUidGone) { auto callback = mUidPolicyCallback.lock(); if (callback != nullptr) { callback->onUidGone(uid); } } } void TranscodingUidPolicy::updateTopUid_l() { mTopUidState = IMPORTANCE_UNKNOWN; // Find the lowest uid state (ignoring PROCESS_STATE_UNKNOWN) with some monitored uids. for (auto stateIt = mStateUidMap.begin(); stateIt != mStateUidMap.end(); stateIt++) { if (stateIt->first != IMPORTANCE_UNKNOWN && !stateIt->second.empty()) { mTopUidState = stateIt->first; break; } } ALOGV("%s: top uid state is %d", __FUNCTION__, mTopUidState); } int32_t TranscodingUidPolicy::getProcState_l(uid_t uid) { auto it = mUidStateMap.find(uid); if (it != mUidStateMap.end()) { return it->second; } return IMPORTANCE_UNKNOWN; } } // namespace android