/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this file, * You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "ProcessPriorityManager.h" #include "mozilla/ClearOnShutdown.h" #include "mozilla/dom/ContentParent.h" #include "mozilla/dom/Element.h" #include "mozilla/dom/TabParent.h" #include "mozilla/Hal.h" #include "mozilla/IntegerPrintfMacros.h" #include "mozilla/Preferences.h" #include "mozilla/Services.h" #include "mozilla/unused.h" #include "AudioChannelService.h" #include "prlog.h" #include "nsPrintfCString.h" #include "nsXULAppAPI.h" #include "nsIFrameLoader.h" #include "nsIObserverService.h" #include "StaticPtr.h" #include "nsIMozBrowserFrame.h" #include "nsIObserver.h" #include "nsITimer.h" #include "nsIPropertyBag2.h" #include "nsComponentManagerUtils.h" #ifdef XP_WIN #include #define getpid _getpid #else #include #endif #ifdef LOG #undef LOG #endif // Use LOGP inside a ParticularProcessPriorityManager method; use LOG // everywhere else. LOGP prints out information about the particular process // priority manager. // // (Wow, our logging story is a huge mess.) // #define ENABLE_LOGGING 1 #if defined(ANDROID) && defined(ENABLE_LOGGING) # include # define LOG(fmt, ...) \ __android_log_print(ANDROID_LOG_INFO, \ "Gecko:ProcessPriorityManager", \ fmt, ## __VA_ARGS__) # define LOGP(fmt, ...) \ __android_log_print(ANDROID_LOG_INFO, \ "Gecko:ProcessPriorityManager", \ "[%schild-id=%" PRIu64 ", pid=%d] " fmt, \ NameWithComma().get(), \ static_cast(ChildID()), Pid(), ## __VA_ARGS__) #elif defined(ENABLE_LOGGING) # define LOG(fmt, ...) \ printf("ProcessPriorityManager - " fmt "\n", ##__VA_ARGS__) # define LOGP(fmt, ...) \ printf("ProcessPriorityManager[%schild-id=%" PRIu64 ", pid=%d] - " \ fmt "\n", \ NameWithComma().get(), \ static_cast(ChildID()), Pid(), ##__VA_ARGS__) #else static PRLogModuleInfo* GetPPMLog() { static PRLogModuleInfo *sLog; if (!sLog) sLog = PR_NewLogModule("ProcessPriorityManager"); return sLog; } # define LOG(fmt, ...) \ PR_LOG(GetPPMLog(), PR_LOG_DEBUG, \ ("ProcessPriorityManager - " fmt, ##__VA_ARGS__)) # define LOGP(fmt, ...) \ PR_LOG(GetPPMLog(), PR_LOG_DEBUG, \ ("ProcessPriorityManager[%schild-id=%" PRIu64 ", pid=%d] - " fmt, \ NameWithComma().get(), \ static_cast(ChildID()), Pid(), ##__VA_ARGS__)) #endif using namespace mozilla; using namespace mozilla::dom; using namespace mozilla::hal; namespace { class ParticularProcessPriorityManager; class ProcessLRUPool final { public: /** * Creates a new process LRU pool for the specified priority. */ ProcessLRUPool(ProcessPriority aPriority, uint32_t aBias); /** * Used to remove a particular process priority manager from the LRU pool * when the associated ContentParent is destroyed or its priority changes. */ void Remove(ParticularProcessPriorityManager* aParticularManager); /** * Used to add a particular process priority manager into the LRU pool when * the associated ContentParent's priority changes. */ void Add(ParticularProcessPriorityManager* aParticularManager); private: ProcessPriority mPriority; uint32_t mLRUPoolLevels; uint32_t mLRUPoolSize; uint32_t mBias; nsTArray mLRUPool; uint32_t CalculateLRULevel(uint32_t aLRUPoolIndex); void AdjustLRUValues( nsTArray::index_type aStart, bool removed); DISALLOW_EVIL_CONSTRUCTORS(ProcessLRUPool); }; /** * This singleton class does the work to implement the process priority manager * in the main process. This class may not be used in child processes. (You * can call StaticInit, but it won't do anything, and GetSingleton() will * return null.) * * ProcessPriorityManager::CurrentProcessIsForeground() and * ProcessPriorityManager::AnyProcessHasHighPriority() which can be called in * any process, are handled separately, by the ProcessPriorityManagerChild * class. */ class ProcessPriorityManagerImpl final : public nsIObserver , public WakeLockObserver { public: /** * If we're in the main process, get the ProcessPriorityManagerImpl * singleton. If we're in a child process, return null. */ static ProcessPriorityManagerImpl* GetSingleton(); static void StaticInit(); static bool PrefsEnabled(); NS_DECL_ISUPPORTS NS_DECL_NSIOBSERVER /** * This function implements ProcessPriorityManager::SetProcessPriority. */ void SetProcessPriority(ContentParent* aContentParent, ProcessPriority aPriority, uint32_t aLRU = 0); /** * If a magic testing-only pref is set, notify the observer service on the * given topic with the given data. This is used for testing */ void FireTestOnlyObserverNotification(const char* aTopic, const nsACString& aData = EmptyCString()); /** * Does one of the child processes have priority FOREGROUND_HIGH? */ bool ChildProcessHasHighPriority(); /** * This must be called by a ParticularProcessPriorityManager when it changes * its priority. */ void NotifyProcessPriorityChanged( ParticularProcessPriorityManager* aParticularManager, hal::ProcessPriority aOldPriority); /** * Implements WakeLockObserver, used to monitor wake lock changes in the * main process. */ virtual void Notify(const WakeLockInformation& aInfo) override; /** * Prevents processes from changing priority until unfrozen. */ void Freeze(); /** * Allow process' priorities to change again. This will immediately adjust * processes whose priority change did not happen because of the freeze. */ void Unfreeze(); private: static bool sPrefListenersRegistered; static bool sInitialized; static bool sFrozen; static StaticRefPtr sSingleton; static void PrefChangedCallback(const char* aPref, void* aClosure); ProcessPriorityManagerImpl(); ~ProcessPriorityManagerImpl(); DISALLOW_EVIL_CONSTRUCTORS(ProcessPriorityManagerImpl); void Init(); already_AddRefed GetParticularProcessPriorityManager(ContentParent* aContentParent); void ObserveContentParentCreated(nsISupports* aContentParent); void ObserveContentParentDestroyed(nsISupports* aSubject); void ObserveScreenStateChanged(const char16_t* aData); nsDataHashtable > mParticularManagers; /** True if the main process is holding a high-priority wakelock */ bool mHighPriority; /** Contains the PIDs of child processes holding high-priority wakelocks */ nsTHashtable mHighPriorityChildIDs; /** Contains a pseudo-LRU list of background processes */ ProcessLRUPool mBackgroundLRUPool; /** Contains a pseudo-LRU list of foreground processes */ ProcessLRUPool mForegroundLRUPool; }; /** * This singleton class implements the parts of the process priority manager * that are available from all processes. */ class ProcessPriorityManagerChild final : public nsIObserver { public: static void StaticInit(); static ProcessPriorityManagerChild* Singleton(); NS_DECL_ISUPPORTS NS_DECL_NSIOBSERVER bool CurrentProcessIsForeground(); bool CurrentProcessIsHighPriority(); private: static StaticRefPtr sSingleton; ProcessPriorityManagerChild(); ~ProcessPriorityManagerChild() {} DISALLOW_EVIL_CONSTRUCTORS(ProcessPriorityManagerChild); void Init(); hal::ProcessPriority mCachedPriority; }; /** * This class manages the priority of one particular process. It is * main-process only. */ class ParticularProcessPriorityManager final : public WakeLockObserver , public nsIObserver , public nsITimerCallback , public nsSupportsWeakReference { ~ParticularProcessPriorityManager(); public: explicit ParticularProcessPriorityManager(ContentParent* aContentParent, bool aFrozen = false); NS_DECL_ISUPPORTS NS_DECL_NSIOBSERVER NS_DECL_NSITIMERCALLBACK virtual void Notify(const WakeLockInformation& aInfo) override; void Init(); int32_t Pid() const; uint64_t ChildID() const; bool IsPreallocated() const; /** * Used in logging, this method returns the ContentParent's name followed by * ", ". If we can't get the ContentParent's name for some reason, it * returns an empty string. * * The reference returned here is guaranteed to be live until the next call * to NameWithComma() or until the ParticularProcessPriorityManager is * destroyed, whichever comes first. */ const nsAutoCString& NameWithComma(); bool HasAppType(const char* aAppType); bool IsExpectingSystemMessage(); void OnAudioChannelProcessChanged(nsISupports* aSubject); void OnRemoteBrowserFrameShown(nsISupports* aSubject); void OnTabParentDestroyed(nsISupports* aSubject); void OnFrameloaderVisibleChanged(nsISupports* aSubject); ProcessPriority CurrentPriority(); ProcessPriority ComputePriority(); void ScheduleResetPriority(const char* aTimeoutPref); void ResetPriority(); void ResetPriorityNow(); void SetPriorityNow(ProcessPriority aPriority, uint32_t aLRU = 0); void Freeze(); void Unfreeze(); void ShutDown(); private: void FireTestOnlyObserverNotification( const char* aTopic, const nsACString& aData = EmptyCString()); void FireTestOnlyObserverNotification( const char* aTopic, const char* aData = nullptr); ContentParent* mContentParent; uint64_t mChildID; ProcessPriority mPriority; uint32_t mLRU; bool mHoldsCPUWakeLock; bool mHoldsHighPriorityWakeLock; bool mFrozen; /** * Used to implement NameWithComma(). */ nsAutoCString mNameWithComma; nsCOMPtr mResetPriorityTimer; }; /* static */ bool ProcessPriorityManagerImpl::sInitialized = false; /* static */ bool ProcessPriorityManagerImpl::sPrefListenersRegistered = false; /* static */ bool ProcessPriorityManagerImpl::sFrozen = false; /* static */ StaticRefPtr ProcessPriorityManagerImpl::sSingleton; NS_IMPL_ISUPPORTS(ProcessPriorityManagerImpl, nsIObserver); /* static */ void ProcessPriorityManagerImpl::PrefChangedCallback(const char* aPref, void* aClosure) { StaticInit(); } /* static */ bool ProcessPriorityManagerImpl::PrefsEnabled() { return Preferences::GetBool("dom.ipc.processPriorityManager.enabled") && !Preferences::GetBool("dom.ipc.tabs.disabled"); } /* static */ void ProcessPriorityManagerImpl::StaticInit() { if (sInitialized) { return; } // The process priority manager is main-process only. if (XRE_GetProcessType() != GeckoProcessType_Default) { sInitialized = true; return; } // If IPC tabs aren't enabled at startup, don't bother with any of this. if (!PrefsEnabled()) { LOG("InitProcessPriorityManager bailing due to prefs."); // Run StaticInit() again if the prefs change. We don't expect this to // happen in normal operation, but it happens during testing. if (!sPrefListenersRegistered) { sPrefListenersRegistered = true; Preferences::RegisterCallback(PrefChangedCallback, "dom.ipc.processPriorityManager.enabled"); Preferences::RegisterCallback(PrefChangedCallback, "dom.ipc.tabs.disabled"); } return; } sInitialized = true; sSingleton = new ProcessPriorityManagerImpl(); sSingleton->Init(); ClearOnShutdown(&sSingleton); } /* static */ ProcessPriorityManagerImpl* ProcessPriorityManagerImpl::GetSingleton() { if (!sSingleton) { StaticInit(); } return sSingleton; } ProcessPriorityManagerImpl::ProcessPriorityManagerImpl() : mHighPriority(false) , mBackgroundLRUPool(PROCESS_PRIORITY_BACKGROUND, 1) , mForegroundLRUPool(PROCESS_PRIORITY_FOREGROUND, 0) { MOZ_ASSERT(XRE_GetProcessType() == GeckoProcessType_Default); RegisterWakeLockObserver(this); } ProcessPriorityManagerImpl::~ProcessPriorityManagerImpl() { UnregisterWakeLockObserver(this); } void ProcessPriorityManagerImpl::Init() { LOG("Starting up. This is the master process."); // The master process's priority never changes; set it here and then forget // about it. We'll manage only subprocesses' priorities using the process // priority manager. hal::SetProcessPriority(getpid(), PROCESS_PRIORITY_MASTER); nsCOMPtr os = services::GetObserverService(); if (os) { os->AddObserver(this, "ipc:content-created", /* ownsWeak */ false); os->AddObserver(this, "ipc:content-shutdown", /* ownsWeak */ false); os->AddObserver(this, "screen-state-changed", /* ownsWeak */ false); } } NS_IMETHODIMP ProcessPriorityManagerImpl::Observe( nsISupports* aSubject, const char* aTopic, const char16_t* aData) { nsDependentCString topic(aTopic); if (topic.EqualsLiteral("ipc:content-created")) { ObserveContentParentCreated(aSubject); } else if (topic.EqualsLiteral("ipc:content-shutdown")) { ObserveContentParentDestroyed(aSubject); } else if (topic.EqualsLiteral("screen-state-changed")) { ObserveScreenStateChanged(aData); } else { MOZ_ASSERT(false); } return NS_OK; } already_AddRefed ProcessPriorityManagerImpl::GetParticularProcessPriorityManager( ContentParent* aContentParent) { #ifdef MOZ_NUWA_PROCESS // Do not attempt to change the priority of the Nuwa process if (aContentParent->IsNuwaProcess()) { return nullptr; } #endif nsRefPtr pppm; uint64_t cpId = aContentParent->ChildID(); mParticularManagers.Get(cpId, &pppm); if (!pppm) { pppm = new ParticularProcessPriorityManager(aContentParent, sFrozen); pppm->Init(); mParticularManagers.Put(cpId, pppm); FireTestOnlyObserverNotification("process-created", nsPrintfCString("%lld", cpId)); } return pppm.forget(); } void ProcessPriorityManagerImpl::SetProcessPriority(ContentParent* aContentParent, ProcessPriority aPriority, uint32_t aLRU) { MOZ_ASSERT(aContentParent); nsRefPtr pppm = GetParticularProcessPriorityManager(aContentParent); if (pppm) { pppm->SetPriorityNow(aPriority, aLRU); } } void ProcessPriorityManagerImpl::ObserveContentParentCreated( nsISupports* aContentParent) { // Do nothing; it's sufficient to get the PPPM. But assign to nsRefPtr so we // don't leak the already_AddRefed object. nsCOMPtr cp = do_QueryInterface(aContentParent); nsRefPtr pppm = GetParticularProcessPriorityManager(cp->AsContentParent()); } void ProcessPriorityManagerImpl::ObserveContentParentDestroyed(nsISupports* aSubject) { nsCOMPtr props = do_QueryInterface(aSubject); NS_ENSURE_TRUE_VOID(props); uint64_t childID = CONTENT_PROCESS_ID_UNKNOWN; props->GetPropertyAsUint64(NS_LITERAL_STRING("childID"), &childID); NS_ENSURE_TRUE_VOID(childID != CONTENT_PROCESS_ID_UNKNOWN); nsRefPtr pppm; mParticularManagers.Get(childID, &pppm); if (pppm) { // Unconditionally remove the manager from the pools mBackgroundLRUPool.Remove(pppm); mForegroundLRUPool.Remove(pppm); pppm->ShutDown(); mParticularManagers.Remove(childID); if (mHighPriorityChildIDs.Contains(childID)) { mHighPriorityChildIDs.RemoveEntry(childID); } } } static PLDHashOperator FreezeParticularProcessPriorityManagers( const uint64_t& aKey, nsRefPtr aValue, void* aUserData) { aValue->Freeze(); return PL_DHASH_NEXT; } static PLDHashOperator UnfreezeParticularProcessPriorityManagers( const uint64_t& aKey, nsRefPtr aValue, void* aUserData) { aValue->Unfreeze(); return PL_DHASH_NEXT; } void ProcessPriorityManagerImpl::ObserveScreenStateChanged(const char16_t* aData) { if (NS_LITERAL_STRING("on").Equals(aData)) { sFrozen = false; mParticularManagers.EnumerateRead( &UnfreezeParticularProcessPriorityManagers, nullptr); } else { sFrozen = true; mParticularManagers.EnumerateRead( &FreezeParticularProcessPriorityManagers, nullptr); } } bool ProcessPriorityManagerImpl::ChildProcessHasHighPriority( void ) { return mHighPriorityChildIDs.Count() > 0; } void ProcessPriorityManagerImpl::NotifyProcessPriorityChanged( ParticularProcessPriorityManager* aParticularManager, ProcessPriority aOldPriority) { ProcessPriority newPriority = aParticularManager->CurrentPriority(); bool isPreallocated = aParticularManager->IsPreallocated(); if (newPriority == PROCESS_PRIORITY_BACKGROUND && aOldPriority != PROCESS_PRIORITY_BACKGROUND && !isPreallocated) { mBackgroundLRUPool.Add(aParticularManager); } else if (newPriority != PROCESS_PRIORITY_BACKGROUND && aOldPriority == PROCESS_PRIORITY_BACKGROUND && !isPreallocated) { mBackgroundLRUPool.Remove(aParticularManager); } if (newPriority == PROCESS_PRIORITY_FOREGROUND && aOldPriority != PROCESS_PRIORITY_FOREGROUND) { mForegroundLRUPool.Add(aParticularManager); } else if (newPriority != PROCESS_PRIORITY_FOREGROUND && aOldPriority == PROCESS_PRIORITY_FOREGROUND) { mForegroundLRUPool.Remove(aParticularManager); } if (newPriority >= PROCESS_PRIORITY_FOREGROUND_HIGH && aOldPriority < PROCESS_PRIORITY_FOREGROUND_HIGH) { mHighPriorityChildIDs.PutEntry(aParticularManager->ChildID()); } else if (newPriority < PROCESS_PRIORITY_FOREGROUND_HIGH && aOldPriority >= PROCESS_PRIORITY_FOREGROUND_HIGH) { mHighPriorityChildIDs.RemoveEntry(aParticularManager->ChildID()); } } /* virtual */ void ProcessPriorityManagerImpl::Notify(const WakeLockInformation& aInfo) { /* The main process always has an ID of 0, if it is present in the wake-lock * information then we explicitly requested a high-priority wake-lock for the * main process. */ if (aInfo.topic().EqualsLiteral("high-priority")) { if (aInfo.lockingProcesses().Contains((uint64_t)0)) { mHighPriority = true; } else { mHighPriority = false; } LOG("Got wake lock changed event. " "Now mHighPriorityParent = %d\n", mHighPriority); } } NS_IMPL_ISUPPORTS(ParticularProcessPriorityManager, nsIObserver, nsITimerCallback, nsISupportsWeakReference); ParticularProcessPriorityManager::ParticularProcessPriorityManager( ContentParent* aContentParent, bool aFrozen) : mContentParent(aContentParent) , mChildID(aContentParent->ChildID()) , mPriority(PROCESS_PRIORITY_UNKNOWN) , mLRU(0) , mHoldsCPUWakeLock(false) , mHoldsHighPriorityWakeLock(false) , mFrozen(aFrozen) { MOZ_ASSERT(XRE_GetProcessType() == GeckoProcessType_Default); LOGP("Creating ParticularProcessPriorityManager."); } void ParticularProcessPriorityManager::Init() { RegisterWakeLockObserver(this); nsCOMPtr os = services::GetObserverService(); if (os) { os->AddObserver(this, "audio-channel-process-changed", /* ownsWeak */ true); os->AddObserver(this, "remote-browser-shown", /* ownsWeak */ true); os->AddObserver(this, "ipc:browser-destroyed", /* ownsWeak */ true); os->AddObserver(this, "frameloader-visible-changed", /* ownsWeak */ true); } // This process may already hold the CPU lock; for example, our parent may // have acquired it on our behalf. WakeLockInformation info1, info2; GetWakeLockInfo(NS_LITERAL_STRING("cpu"), &info1); mHoldsCPUWakeLock = info1.lockingProcesses().Contains(ChildID()); GetWakeLockInfo(NS_LITERAL_STRING("high-priority"), &info2); mHoldsHighPriorityWakeLock = info2.lockingProcesses().Contains(ChildID()); LOGP("Done starting up. mHoldsCPUWakeLock=%d, mHoldsHighPriorityWakeLock=%d", mHoldsCPUWakeLock, mHoldsHighPriorityWakeLock); } ParticularProcessPriorityManager::~ParticularProcessPriorityManager() { LOGP("Destroying ParticularProcessPriorityManager."); // Unregister our wake lock observer if ShutDown hasn't been called. (The // wake lock observer takes raw refs, so we don't want to take chances here!) // We don't call UnregisterWakeLockObserver unconditionally because the code // will print a warning if it's called unnecessarily. if (mContentParent) { UnregisterWakeLockObserver(this); } } /* virtual */ void ParticularProcessPriorityManager::Notify(const WakeLockInformation& aInfo) { if (!mContentParent) { // We've been shut down. return; } bool* dest = nullptr; if (aInfo.topic().EqualsLiteral("cpu")) { dest = &mHoldsCPUWakeLock; } else if (aInfo.topic().EqualsLiteral("high-priority")) { dest = &mHoldsHighPriorityWakeLock; } if (dest) { bool thisProcessLocks = aInfo.lockingProcesses().Contains(ChildID()); if (thisProcessLocks != *dest) { *dest = thisProcessLocks; LOGP("Got wake lock changed event. " "Now mHoldsCPUWakeLock=%d, mHoldsHighPriorityWakeLock=%d", mHoldsCPUWakeLock, mHoldsHighPriorityWakeLock); ResetPriority(); } } } NS_IMETHODIMP ParticularProcessPriorityManager::Observe(nsISupports* aSubject, const char* aTopic, const char16_t* aData) { if (!mContentParent) { // We've been shut down. return NS_OK; } nsDependentCString topic(aTopic); if (topic.EqualsLiteral("audio-channel-process-changed")) { OnAudioChannelProcessChanged(aSubject); } else if (topic.EqualsLiteral("remote-browser-shown")) { OnRemoteBrowserFrameShown(aSubject); } else if (topic.EqualsLiteral("ipc:browser-destroyed")) { OnTabParentDestroyed(aSubject); } else if (topic.EqualsLiteral("frameloader-visible-changed")) { OnFrameloaderVisibleChanged(aSubject); } else { MOZ_ASSERT(false); } return NS_OK; } uint64_t ParticularProcessPriorityManager::ChildID() const { // We have to cache mContentParent->ChildID() instead of getting it from the // ContentParent each time because after ShutDown() is called, mContentParent // is null. If we didn't cache ChildID(), then we wouldn't be able to run // LOGP() after ShutDown(). return mChildID; } int32_t ParticularProcessPriorityManager::Pid() const { return mContentParent ? mContentParent->Pid() : -1; } bool ParticularProcessPriorityManager::IsPreallocated() const { return mContentParent ? mContentParent->IsPreallocated() : false; } const nsAutoCString& ParticularProcessPriorityManager::NameWithComma() { mNameWithComma.Truncate(); if (!mContentParent) { return mNameWithComma; // empty string } nsAutoString name; mContentParent->FriendlyName(name); if (name.IsEmpty()) { return mNameWithComma; // empty string } mNameWithComma = NS_ConvertUTF16toUTF8(name); mNameWithComma.AppendLiteral(", "); return mNameWithComma; } void ParticularProcessPriorityManager::OnAudioChannelProcessChanged(nsISupports* aSubject) { nsCOMPtr props = do_QueryInterface(aSubject); NS_ENSURE_TRUE_VOID(props); uint64_t childID = CONTENT_PROCESS_ID_UNKNOWN; props->GetPropertyAsUint64(NS_LITERAL_STRING("childID"), &childID); if (childID == ChildID()) { ResetPriority(); } } void ParticularProcessPriorityManager::OnRemoteBrowserFrameShown(nsISupports* aSubject) { nsCOMPtr fl = do_QueryInterface(aSubject); NS_ENSURE_TRUE_VOID(fl); TabParent* tp = TabParent::GetFrom(fl); NS_ENSURE_TRUE_VOID(tp); MOZ_ASSERT(XRE_GetProcessType() == GeckoProcessType_Default); if (tp->Manager() != mContentParent) { return; } // Ignore notifications that aren't from a BrowserOrApp bool isBrowserOrApp; fl->GetOwnerIsBrowserOrAppFrame(&isBrowserOrApp); if (isBrowserOrApp) { ResetPriority(); } nsCOMPtr os = services::GetObserverService(); if (os) { os->RemoveObserver(this, "remote-browser-shown"); } } void ParticularProcessPriorityManager::OnTabParentDestroyed(nsISupports* aSubject) { nsCOMPtr tp = do_QueryInterface(aSubject); NS_ENSURE_TRUE_VOID(tp); MOZ_ASSERT(XRE_GetProcessType() == GeckoProcessType_Default); if (TabParent::GetFrom(tp)->Manager() != mContentParent) { return; } ResetPriority(); } void ParticularProcessPriorityManager::OnFrameloaderVisibleChanged(nsISupports* aSubject) { nsCOMPtr fl = do_QueryInterface(aSubject); NS_ENSURE_TRUE_VOID(fl); if (mFrozen) { return; // Ignore visibility changes when the screen is off } TabParent* tp = TabParent::GetFrom(fl); if (!tp) { return; } MOZ_ASSERT(XRE_GetProcessType() == GeckoProcessType_Default); if (tp->Manager() != mContentParent) { return; } // Most of the time when something changes in a process we call // ResetPriority(), giving a grace period before downgrading its priority. // But notice that here don't give a grace period: We call ResetPriorityNow() // instead. // // We do this because we're reacting here to a setVisibility() call, which is // an explicit signal from the process embedder that we should re-prioritize // a process. If we gave a grace period in response to setVisibility() // calls, it would be impossible for the embedder to explicitly prioritize // processes and prevent e.g. the case where we switch which process is in // the foreground and, during the old fg processs's grace period, it OOMs the // new fg process. ResetPriorityNow(); } void ParticularProcessPriorityManager::ResetPriority() { ProcessPriority processPriority = ComputePriority(); if (mPriority == PROCESS_PRIORITY_UNKNOWN || mPriority > processPriority) { // Apps set at a perceivable background priority are often playing media. // Most media will have short gaps while changing tracks between songs, // switching videos, etc. Give these apps a longer grace period so they // can get their next track started, if there is one, before getting // downgraded. if (mPriority == PROCESS_PRIORITY_BACKGROUND_PERCEIVABLE) { ScheduleResetPriority("backgroundPerceivableGracePeriodMS"); } else { ScheduleResetPriority("backgroundGracePeriodMS"); } return; } SetPriorityNow(processPriority); } void ParticularProcessPriorityManager::ResetPriorityNow() { SetPriorityNow(ComputePriority()); } void ParticularProcessPriorityManager::ScheduleResetPriority(const char* aTimeoutPref) { if (mResetPriorityTimer) { LOGP("ScheduleResetPriority bailing; the timer is already running."); return; } uint32_t timeout = Preferences::GetUint( nsPrintfCString("dom.ipc.processPriorityManager.%s", aTimeoutPref).get()); LOGP("Scheduling reset timer to fire in %dms.", timeout); mResetPriorityTimer = do_CreateInstance("@mozilla.org/timer;1"); mResetPriorityTimer->InitWithCallback(this, timeout, nsITimer::TYPE_ONE_SHOT); } NS_IMETHODIMP ParticularProcessPriorityManager::Notify(nsITimer* aTimer) { LOGP("Reset priority timer callback; about to ResetPriorityNow."); ResetPriorityNow(); mResetPriorityTimer = nullptr; return NS_OK; } bool ParticularProcessPriorityManager::HasAppType(const char* aAppType) { const InfallibleTArray& browsers = mContentParent->ManagedPBrowserParent(); for (uint32_t i = 0; i < browsers.Length(); i++) { nsAutoString appType; TabParent::GetFrom(browsers[i])->GetAppType(appType); if (appType.EqualsASCII(aAppType)) { return true; } } return false; } bool ParticularProcessPriorityManager::IsExpectingSystemMessage() { const InfallibleTArray& browsers = mContentParent->ManagedPBrowserParent(); for (uint32_t i = 0; i < browsers.Length(); i++) { TabParent* tp = TabParent::GetFrom(browsers[i]); nsCOMPtr bf = do_QueryInterface(tp->GetOwnerElement()); if (!bf) { continue; } if (bf->GetIsExpectingSystemMessage()) { return true; } } return false; } ProcessPriority ParticularProcessPriorityManager::CurrentPriority() { return mPriority; } ProcessPriority ParticularProcessPriorityManager::ComputePriority() { if ((mHoldsCPUWakeLock || mHoldsHighPriorityWakeLock) && HasAppType("critical")) { return PROCESS_PRIORITY_FOREGROUND_HIGH; } bool isVisible = false; const InfallibleTArray& browsers = mContentParent->ManagedPBrowserParent(); for (uint32_t i = 0; i < browsers.Length(); i++) { if (TabParent::GetFrom(browsers[i])->IsVisible()) { isVisible = true; break; } } if (isVisible) { return HasAppType("inputmethod") ? PROCESS_PRIORITY_FOREGROUND_KEYBOARD : PROCESS_PRIORITY_FOREGROUND; } if ((mHoldsCPUWakeLock || mHoldsHighPriorityWakeLock) && IsExpectingSystemMessage()) { return PROCESS_PRIORITY_BACKGROUND_PERCEIVABLE; } AudioChannelService* service = AudioChannelService::GetOrCreateAudioChannelService(); if (service->ProcessContentOrNormalChannelIsActive(ChildID())) { return PROCESS_PRIORITY_BACKGROUND_PERCEIVABLE; } return PROCESS_PRIORITY_BACKGROUND; } void ParticularProcessPriorityManager::SetPriorityNow(ProcessPriority aPriority, uint32_t aLRU) { if (aPriority == PROCESS_PRIORITY_UNKNOWN) { MOZ_ASSERT(false); return; } if (!ProcessPriorityManagerImpl::PrefsEnabled() || !mContentParent || mFrozen || ((mPriority == aPriority) && (mLRU == aLRU))) { return; } if ((mPriority == aPriority) && (mLRU != aLRU)) { mLRU = aLRU; hal::SetProcessPriority(Pid(), mPriority, aLRU); nsPrintfCString processPriorityWithLRU("%s:%d", ProcessPriorityToString(mPriority), aLRU); FireTestOnlyObserverNotification("process-priority-with-LRU-set", processPriorityWithLRU.get()); return; } LOGP("Changing priority from %s to %s.", ProcessPriorityToString(mPriority), ProcessPriorityToString(aPriority)); ProcessPriority oldPriority = mPriority; mPriority = aPriority; hal::SetProcessPriority(Pid(), mPriority); if (oldPriority != mPriority) { ProcessPriorityManagerImpl::GetSingleton()-> NotifyProcessPriorityChanged(this, oldPriority); unused << mContentParent->SendNotifyProcessPriorityChanged(mPriority); } if (aPriority < PROCESS_PRIORITY_FOREGROUND) { unused << mContentParent->SendFlushMemory(NS_LITERAL_STRING("low-memory")); } FireTestOnlyObserverNotification("process-priority-set", ProcessPriorityToString(mPriority)); } void ParticularProcessPriorityManager::Freeze() { mFrozen = true; } void ParticularProcessPriorityManager::Unfreeze() { mFrozen = false; } void ParticularProcessPriorityManager::ShutDown() { MOZ_ASSERT(mContentParent); UnregisterWakeLockObserver(this); if (mResetPriorityTimer) { mResetPriorityTimer->Cancel(); mResetPriorityTimer = nullptr; } mContentParent = nullptr; } void ProcessPriorityManagerImpl::FireTestOnlyObserverNotification( const char* aTopic, const nsACString& aData /* = EmptyCString() */) { if (!Preferences::GetBool("dom.ipc.processPriorityManager.testMode")) { return; } nsCOMPtr os = services::GetObserverService(); NS_ENSURE_TRUE_VOID(os); nsPrintfCString topic("process-priority-manager:TEST-ONLY:%s", aTopic); LOG("Notifying observer %s, data %s", topic.get(), PromiseFlatCString(aData).get()); os->NotifyObservers(nullptr, topic.get(), NS_ConvertUTF8toUTF16(aData).get()); } void ParticularProcessPriorityManager::FireTestOnlyObserverNotification( const char* aTopic, const char* aData /* = nullptr */ ) { if (!Preferences::GetBool("dom.ipc.processPriorityManager.testMode")) { return; } nsAutoCString data; if (aData) { data.AppendASCII(aData); } FireTestOnlyObserverNotification(aTopic, data); } void ParticularProcessPriorityManager::FireTestOnlyObserverNotification( const char* aTopic, const nsACString& aData /* = EmptyCString() */) { if (!Preferences::GetBool("dom.ipc.processPriorityManager.testMode")) { return; } nsAutoCString data(nsPrintfCString("%lld", ChildID())); if (!aData.IsEmpty()) { data.Append(':'); data.Append(aData); } // ProcessPriorityManagerImpl::GetSingleton() is guaranteed not to return // null, since ProcessPriorityManagerImpl is the only class which creates // ParticularProcessPriorityManagers. ProcessPriorityManagerImpl::GetSingleton()-> FireTestOnlyObserverNotification(aTopic, data); } StaticRefPtr ProcessPriorityManagerChild::sSingleton; /* static */ void ProcessPriorityManagerChild::StaticInit() { if (!sSingleton) { sSingleton = new ProcessPriorityManagerChild(); sSingleton->Init(); ClearOnShutdown(&sSingleton); } } /* static */ ProcessPriorityManagerChild* ProcessPriorityManagerChild::Singleton() { StaticInit(); return sSingleton; } NS_IMPL_ISUPPORTS(ProcessPriorityManagerChild, nsIObserver) ProcessPriorityManagerChild::ProcessPriorityManagerChild() { if (XRE_GetProcessType() == GeckoProcessType_Default) { mCachedPriority = PROCESS_PRIORITY_MASTER; } else { mCachedPriority = PROCESS_PRIORITY_UNKNOWN; } } void ProcessPriorityManagerChild::Init() { // The process priority should only be changed in child processes; don't even // bother listening for changes if we're in the main process. if (XRE_GetProcessType() != GeckoProcessType_Default) { nsCOMPtr os = services::GetObserverService(); NS_ENSURE_TRUE_VOID(os); os->AddObserver(this, "ipc:process-priority-changed", /* weak = */ false); } } NS_IMETHODIMP ProcessPriorityManagerChild::Observe( nsISupports* aSubject, const char* aTopic, const char16_t* aData) { MOZ_ASSERT(!strcmp(aTopic, "ipc:process-priority-changed")); nsCOMPtr props = do_QueryInterface(aSubject); NS_ENSURE_TRUE(props, NS_OK); int32_t priority = static_cast(PROCESS_PRIORITY_UNKNOWN); props->GetPropertyAsInt32(NS_LITERAL_STRING("priority"), &priority); NS_ENSURE_TRUE(ProcessPriority(priority) != PROCESS_PRIORITY_UNKNOWN, NS_OK); mCachedPriority = static_cast(priority); return NS_OK; } bool ProcessPriorityManagerChild::CurrentProcessIsForeground() { return mCachedPriority == PROCESS_PRIORITY_UNKNOWN || mCachedPriority >= PROCESS_PRIORITY_FOREGROUND; } bool ProcessPriorityManagerChild::CurrentProcessIsHighPriority() { return mCachedPriority == PROCESS_PRIORITY_UNKNOWN || mCachedPriority >= PROCESS_PRIORITY_FOREGROUND_HIGH; } ProcessLRUPool::ProcessLRUPool(ProcessPriority aPriority, uint32_t aBias) : mPriority(aPriority) , mLRUPoolLevels(1) , mBias(aBias) { // We set mLRUPoolLevels according to our pref. // This value is used to set background process LRU pool const char* str = ProcessPriorityToString(aPriority); nsPrintfCString pref("dom.ipc.processPriorityManager.%s.LRUPoolLevels", str); Preferences::GetUint(pref.get(), &mLRUPoolLevels); // GonkHal defines OOM_ADJUST_MAX is 15 and b2g.js defines // PROCESS_PRIORITY_BACKGROUND's oom_score_adj is 667 and oom_adj is 10. // This means we can only have at most (15 -10 + 1) = 6 background LRU levels. // Similarly we can have at most 4 foreground LRU levels. We should really be // getting rid of oom_adj and just rely on oom_score_adj only which would // lift this constraint. MOZ_ASSERT(aPriority != PROCESS_PRIORITY_BACKGROUND || mLRUPoolLevels <= 6); MOZ_ASSERT(aPriority != PROCESS_PRIORITY_FOREGROUND || mLRUPoolLevels <= 4); // LRU pool size = 2 ^ (number of background LRU pool levels) - 1 mLRUPoolSize = (1 << mLRUPoolLevels) - 1; LOG("Making %s LRU pool with size(%d)", str, mLRUPoolSize); } uint32_t ProcessLRUPool::CalculateLRULevel(uint32_t aLRU) { // This is used to compute the LRU adjustment for the specified LRU position. // We use power-of-two groups with increasing adjustments that look like the // following: // Priority : LRU0, LRU1 // Priority+1: LRU2, LRU3 // Priority+2: LRU4, LRU5, LRU6, LRU7 // Priority+3: LRU8, LRU9, LRU10, LRU11, LRU12, LRU12, LRU13, LRU14, LRU15 // ... // Priority+L-1: 2^(number of LRU pool levels - 1) // (End of buffer) // Biasing the input can be used to shift the assignment int exp; unused << frexp(static_cast(aLRU), &exp); uint32_t level = std::max(exp - 1, 0); return std::min(mLRUPoolLevels - 1, level); } void ProcessLRUPool::Remove(ParticularProcessPriorityManager* aParticularManager) { nsTArray::index_type index = mLRUPool.IndexOf(aParticularManager); if (index == nsTArray::NoIndex) { return; } mLRUPool.RemoveElementAt(index); AdjustLRUValues(index, /* removed */ true); LOG("Remove ChildID(%" PRIu64 ") from %s LRU pool", static_cast(aParticularManager->ChildID()), ProcessPriorityToString(mPriority)); } /* * Adjust the LRU values of all the processes in an LRU pool. When true the * `removed` parameter indicates that the processes were shifted left because * an element was removed; otherwise it means the elements were shifted right * as an element was added. */ void ProcessLRUPool::AdjustLRUValues( nsTArray::index_type aStart, bool removed) { uint32_t adj = (removed ? 1 : 0) + mBias; for (nsTArray::index_type i = aStart; i < mLRUPool.Length(); i++) { /* Check whether i is a power of two. If so, then it crossed a LRU group * boundary and we need to assign its new process priority LRU. Note that * depending on the direction and the bias this test will pick different * elements. */ if (((i + adj) & (i + adj - 1)) == 0) { mLRUPool[i]->SetPriorityNow(mPriority, CalculateLRULevel(i + mBias)); } } } void ProcessLRUPool::Add(ParticularProcessPriorityManager* aParticularManager) { // Shift the list in the pool, so we have room at index 0 for the newly added // manager mLRUPool.InsertElementAt(0, aParticularManager); AdjustLRUValues(1, /* removed */ false); LOG("Add ChildID(%" PRIu64 ") into %s LRU pool", static_cast(aParticularManager->ChildID()), ProcessPriorityToString(mPriority)); } } // anonymous namespace namespace mozilla { /* static */ void ProcessPriorityManager::Init() { ProcessPriorityManagerImpl::StaticInit(); ProcessPriorityManagerChild::StaticInit(); } /* static */ void ProcessPriorityManager::SetProcessPriority(ContentParent* aContentParent, ProcessPriority aPriority) { MOZ_ASSERT(aContentParent); ProcessPriorityManagerImpl* singleton = ProcessPriorityManagerImpl::GetSingleton(); if (singleton) { singleton->SetProcessPriority(aContentParent, aPriority); } } /* static */ bool ProcessPriorityManager::CurrentProcessIsForeground() { return ProcessPriorityManagerChild::Singleton()-> CurrentProcessIsForeground(); } /* static */ bool ProcessPriorityManager::AnyProcessHasHighPriority() { ProcessPriorityManagerImpl* singleton = ProcessPriorityManagerImpl::GetSingleton(); if (singleton) { return singleton->ChildProcessHasHighPriority(); } else { return ProcessPriorityManagerChild::Singleton()-> CurrentProcessIsHighPriority(); } } } // namespace mozilla