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/* -*- 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 "nsThread.h"

#include "base/message_loop.h"
#include "base/platform_thread.h"

// Chromium's logging can sometimes leak through...
#ifdef LOG
#  undef LOG
#endif

#include "mozilla/ReentrantMonitor.h"
#include "nsMemoryPressure.h"
#include "nsThreadManager.h"
#include "nsIClassInfoImpl.h"
#include "nsAutoPtr.h"
#include "nsCOMPtr.h"
#include "nsQueryObject.h"
#include "pratom.h"
#include "mozilla/BackgroundHangMonitor.h"
#include "mozilla/CycleCollectedJSContext.h"
#include "mozilla/Logging.h"
#include "nsIObserverService.h"
#include "mozilla/IntegerTypeTraits.h"
#include "mozilla/IOInterposer.h"
#include "mozilla/ipc/MessageChannel.h"
#include "mozilla/ipc/BackgroundChild.h"
#include "mozilla/Preferences.h"
#include "mozilla/SchedulerGroup.h"
#include "mozilla/Services.h"
#include "mozilla/SystemGroup.h"
#include "nsXPCOMPrivate.h"
#include "mozilla/ChaosMode.h"
#include "mozilla/Telemetry.h"
#include "mozilla/TimeStamp.h"
#include "mozilla/Unused.h"
#include "mozilla/dom/ScriptSettings.h"
#include "nsThreadSyncDispatch.h"
#include "nsServiceManagerUtils.h"
#include "GeckoProfiler.h"
#ifdef MOZ_GECKO_PROFILER
#  include "ProfilerMarkerPayload.h"
#endif
#include "InputEventStatistics.h"
#include "ThreadEventQueue.h"
#include "ThreadEventTarget.h"
#include "ThreadDelay.h"

#ifdef XP_LINUX
#  ifdef __GLIBC__
#    include <gnu/libc-version.h>
#  endif
#  include <sys/mman.h>
#  include <sys/time.h>
#  include <sys/resource.h>
#  include <sched.h>
#  include <stdio.h>
#endif

#ifdef XP_WIN
#  include "mozilla/DynamicallyLinkedFunctionPtr.h"

#  include <winbase.h>

using GetCurrentThreadStackLimitsFn = void(WINAPI*)(PULONG_PTR LowLimit,
                                                    PULONG_PTR HighLimit);
#endif

#define HAVE_UALARM                                                        \
  _BSD_SOURCE ||                                                           \
      (_XOPEN_SOURCE >= 500 || _XOPEN_SOURCE && _XOPEN_SOURCE_EXTENDED) && \
          !(_POSIX_C_SOURCE >= 200809L || _XOPEN_SOURCE >= 700)

#if defined(XP_LINUX) && !defined(ANDROID) && defined(_GNU_SOURCE)
#  define HAVE_SCHED_SETAFFINITY
#endif

#ifdef XP_MACOSX
#  include <mach/mach.h>
#  include <mach/thread_policy.h>
#endif

#ifdef MOZ_CANARY
#  include <unistd.h>
#  include <execinfo.h>
#  include <signal.h>
#  include <fcntl.h>
#  include "nsXULAppAPI.h"
#endif

#if defined(NS_FUNCTION_TIMER) && defined(_MSC_VER)
#  include "nsTimerImpl.h"
#  include "mozilla/StackWalk.h"
#endif
#ifdef NS_FUNCTION_TIMER
#  include "nsCRT.h"
#endif

#ifdef MOZ_TASK_TRACER
#  include "GeckoTaskTracer.h"
#  include "TracedTaskCommon.h"
using namespace mozilla::tasktracer;
#endif

using namespace mozilla;

static LazyLogModule sThreadLog("nsThread");
#ifdef LOG
#  undef LOG
#endif
#define LOG(args) MOZ_LOG(sThreadLog, mozilla::LogLevel::Debug, args)

NS_DECL_CI_INTERFACE_GETTER(nsThread)

Array<char, nsThread::kRunnableNameBufSize> nsThread::sMainThreadRunnableName;

uint32_t nsThread::sActiveThreads;
uint32_t nsThread::sMaxActiveThreads;

#ifdef EARLY_BETA_OR_EARLIER
const uint32_t kTelemetryWakeupCountLimit = 100;
#endif

//-----------------------------------------------------------------------------
// Because we do not have our own nsIFactory, we have to implement nsIClassInfo
// somewhat manually.

class nsThreadClassInfo : public nsIClassInfo {
 public:
  NS_DECL_ISUPPORTS_INHERITED  // no mRefCnt
      NS_DECL_NSICLASSINFO

      nsThreadClassInfo() {}
};

NS_IMETHODIMP_(MozExternalRefCountType)
nsThreadClassInfo::AddRef() { return 2; }
NS_IMETHODIMP_(MozExternalRefCountType)
nsThreadClassInfo::Release() { return 1; }
NS_IMPL_QUERY_INTERFACE(nsThreadClassInfo, nsIClassInfo)

NS_IMETHODIMP
nsThreadClassInfo::GetInterfaces(nsTArray<nsIID>& aArray) {
  return NS_CI_INTERFACE_GETTER_NAME(nsThread)(aArray);
}

NS_IMETHODIMP
nsThreadClassInfo::GetScriptableHelper(nsIXPCScriptable** aResult) {
  *aResult = nullptr;
  return NS_OK;
}

NS_IMETHODIMP
nsThreadClassInfo::GetContractID(nsACString& aResult) {
  aResult.SetIsVoid(true);
  return NS_OK;
}

NS_IMETHODIMP
nsThreadClassInfo::GetClassDescription(nsACString& aResult) {
  aResult.SetIsVoid(true);
  return NS_OK;
}

NS_IMETHODIMP
nsThreadClassInfo::GetClassID(nsCID** aResult) {
  *aResult = nullptr;
  return NS_OK;
}

NS_IMETHODIMP
nsThreadClassInfo::GetFlags(uint32_t* aResult) {
  *aResult = THREADSAFE;
  return NS_OK;
}

NS_IMETHODIMP
nsThreadClassInfo::GetClassIDNoAlloc(nsCID* aResult) {
  return NS_ERROR_NOT_AVAILABLE;
}

//-----------------------------------------------------------------------------

NS_IMPL_ADDREF(nsThread)
NS_IMPL_RELEASE(nsThread)
NS_INTERFACE_MAP_BEGIN(nsThread)
  NS_INTERFACE_MAP_ENTRY(nsIThread)
  NS_INTERFACE_MAP_ENTRY(nsIThreadInternal)
  NS_INTERFACE_MAP_ENTRY(nsIEventTarget)
  NS_INTERFACE_MAP_ENTRY(nsISerialEventTarget)
  NS_INTERFACE_MAP_ENTRY(nsISupportsPriority)
  NS_INTERFACE_MAP_ENTRY_AMBIGUOUS(nsISupports, nsIThread)
  if (aIID.Equals(NS_GET_IID(nsIClassInfo))) {
    static nsThreadClassInfo sThreadClassInfo;
    foundInterface = static_cast<nsIClassInfo*>(&sThreadClassInfo);
  } else
NS_INTERFACE_MAP_END
NS_IMPL_CI_INTERFACE_GETTER(nsThread, nsIThread, nsIThreadInternal,
                            nsIEventTarget, nsISupportsPriority)

//-----------------------------------------------------------------------------

class nsThreadStartupEvent final : public Runnable {
 public:
  nsThreadStartupEvent()
      : Runnable("nsThreadStartupEvent"),
        mMon("nsThreadStartupEvent.mMon"),
        mInitialized(false) {}

  // This method does not return until the thread startup object is in the
  // completion state.
  void Wait() {
    ReentrantMonitorAutoEnter mon(mMon);
    while (!mInitialized) {
      mon.Wait();
    }
  }

 private:
  ~nsThreadStartupEvent() = default;

  NS_IMETHOD Run() override {
    ReentrantMonitorAutoEnter mon(mMon);
    mInitialized = true;
    mon.Notify();
    return NS_OK;
  }

  ReentrantMonitor mMon;
  bool mInitialized;
};
//-----------------------------------------------------------------------------

struct nsThreadShutdownContext {
  nsThreadShutdownContext(NotNull<nsThread*> aTerminatingThread,
                          NotNull<nsThread*> aJoiningThread,
                          bool aAwaitingShutdownAck)
      : mTerminatingThread(aTerminatingThread),
        mJoiningThread(aJoiningThread),
        mAwaitingShutdownAck(aAwaitingShutdownAck),
        mIsMainThreadJoining(NS_IsMainThread()) {
    MOZ_COUNT_CTOR(nsThreadShutdownContext);
  }
  ~nsThreadShutdownContext() { MOZ_COUNT_DTOR(nsThreadShutdownContext); }

  // NB: This will be the last reference.
  NotNull<RefPtr<nsThread>> mTerminatingThread;
  NotNull<nsThread*> MOZ_UNSAFE_REF(
      "Thread manager is holding reference to joining thread") mJoiningThread;
  bool mAwaitingShutdownAck;
  bool mIsMainThreadJoining;
};

// This event is responsible for notifying nsThread::Shutdown that it is time
// to call PR_JoinThread. It implements nsICancelableRunnable so that it can
// run on a DOM Worker thread (where all events must implement
// nsICancelableRunnable.)
class nsThreadShutdownAckEvent : public CancelableRunnable {
 public:
  explicit nsThreadShutdownAckEvent(NotNull<nsThreadShutdownContext*> aCtx)
      : CancelableRunnable("nsThreadShutdownAckEvent"),
        mShutdownContext(aCtx) {}
  NS_IMETHOD Run() override {
    mShutdownContext->mTerminatingThread->ShutdownComplete(mShutdownContext);
    return NS_OK;
  }
  nsresult Cancel() override { return Run(); }

 private:
  virtual ~nsThreadShutdownAckEvent() {}

  NotNull<nsThreadShutdownContext*> mShutdownContext;
};

// This event is responsible for setting mShutdownContext
class nsThreadShutdownEvent : public Runnable {
 public:
  nsThreadShutdownEvent(NotNull<nsThread*> aThr,
                        NotNull<nsThreadShutdownContext*> aCtx)
      : Runnable("nsThreadShutdownEvent"),
        mThread(aThr),
        mShutdownContext(aCtx) {}
  NS_IMETHOD Run() override {
    mThread->mShutdownContext = mShutdownContext;
    MessageLoop::current()->Quit();
    return NS_OK;
  }

 private:
  NotNull<RefPtr<nsThread>> mThread;
  NotNull<nsThreadShutdownContext*> mShutdownContext;
};

//-----------------------------------------------------------------------------

static void SetThreadAffinity(unsigned int cpu) {
#ifdef HAVE_SCHED_SETAFFINITY
  cpu_set_t cpus;
  CPU_ZERO(&cpus);
  CPU_SET(cpu, &cpus);
  sched_setaffinity(0, sizeof(cpus), &cpus);
  // Don't assert sched_setaffinity's return value because it intermittently (?)
  // fails with EINVAL on Linux x64 try runs.
#elif defined(XP_MACOSX)
  // OS X does not provide APIs to pin threads to specific processors, but you
  // can tag threads as belonging to the same "affinity set" and the OS will try
  // to run them on the same processor. To run threads on different processors,
  // tag them as belonging to different affinity sets. Tag 0, the default, means
  // "no affinity" so let's pretend each CPU has its own tag `cpu+1`.
  thread_affinity_policy_data_t policy;
  policy.affinity_tag = cpu + 1;
  MOZ_ALWAYS_TRUE(thread_policy_set(mach_thread_self(), THREAD_AFFINITY_POLICY,
                                    &policy.affinity_tag, 1) == KERN_SUCCESS);
#elif defined(XP_WIN)
  MOZ_ALWAYS_TRUE(SetThreadIdealProcessor(GetCurrentThread(), cpu) !=
                  (DWORD)-1);
#endif
}

static void SetupCurrentThreadForChaosMode() {
  if (!ChaosMode::isActive(ChaosFeature::ThreadScheduling)) {
    return;
  }

#ifdef XP_LINUX
  // PR_SetThreadPriority doesn't really work since priorities >
  // PR_PRIORITY_NORMAL can't be set by non-root users. Instead we'll just use
  // setpriority(2) to set random 'nice values'. In regular Linux this is only
  // a dynamic adjustment so it still doesn't really do what we want, but tools
  // like 'rr' can be more aggressive about honoring these values.
  // Some of these calls may fail due to trying to lower the priority
  // (e.g. something may have already called setpriority() for this thread).
  // This makes it hard to have non-main threads with higher priority than the
  // main thread, but that's hard to fix. Tools like rr can choose to honor the
  // requested values anyway.
  // Use just 4 priorities so there's a reasonable chance of any two threads
  // having equal priority.
  setpriority(PRIO_PROCESS, 0, ChaosMode::randomUint32LessThan(4));
#else
  // We should set the affinity here but NSPR doesn't provide a way to expose
  // it.
  uint32_t priority = ChaosMode::randomUint32LessThan(PR_PRIORITY_LAST + 1);
  PR_SetThreadPriority(PR_GetCurrentThread(), PRThreadPriority(priority));
#endif

  // Force half the threads to CPU 0 so they compete for CPU
  if (ChaosMode::randomUint32LessThan(2)) {
    SetThreadAffinity(0);
  }
}

namespace {

struct ThreadInitData {
  nsThread* thread;
  const nsACString& name;
};

}  // namespace

/* static */ mozilla::OffTheBooksMutex& nsThread::ThreadListMutex() {
  static OffTheBooksMutex sMutex("nsThread::ThreadListMutex");
  return sMutex;
}

/* static */ LinkedList<nsThread>& nsThread::ThreadList() {
  static LinkedList<nsThread> sList;
  return sList;
}

/* static */
void nsThread::ClearThreadList() {
  OffTheBooksMutexAutoLock mal(ThreadListMutex());
  while (ThreadList().popFirst()) {
  }
}

/* static */
nsThreadEnumerator nsThread::Enumerate() { return {}; }

/* static */
uint32_t nsThread::MaxActiveThreads() {
  OffTheBooksMutexAutoLock mal(ThreadListMutex());
  return sMaxActiveThreads;
}

void nsThread::AddToThreadList() {
  OffTheBooksMutexAutoLock mal(ThreadListMutex());
  MOZ_ASSERT(!isInList());

  sActiveThreads++;
  sMaxActiveThreads = std::max(sActiveThreads, sMaxActiveThreads);

  ThreadList().insertBack(this);
}

void nsThread::MaybeRemoveFromThreadList() {
  OffTheBooksMutexAutoLock mal(ThreadListMutex());
  if (isInList()) {
    sActiveThreads--;
    removeFrom(ThreadList());
  }
}

/*static*/
void nsThread::ThreadFunc(void* aArg) {
  using mozilla::ipc::BackgroundChild;

  ThreadInitData* initData = static_cast<ThreadInitData*>(aArg);
  nsThread* self = initData->thread;  // strong reference

  MOZ_ASSERT(self->mEventTarget);
  MOZ_ASSERT(self->mEvents);

  self->mThread = PR_GetCurrentThread();
  self->mVirtualThread = GetCurrentVirtualThread();
  self->mEventTarget->SetCurrentThread();
  SetupCurrentThreadForChaosMode();

  if (!initData->name.IsEmpty()) {
    NS_SetCurrentThreadName(initData->name.BeginReading());
  }

  self->InitCommon();

  // Inform the ThreadManager
  nsThreadManager::get().RegisterCurrentThread(*self);

  mozilla::IOInterposer::RegisterCurrentThread();

  // This must come after the call to nsThreadManager::RegisterCurrentThread(),
  // because that call is needed to properly set up this thread as an nsThread,
  // which profiler_register_thread() requires. See bug 1347007.
  if (!initData->name.IsEmpty()) {
    PROFILER_REGISTER_THREAD(initData->name.BeginReading());
  }

  // Wait for and process startup event
  nsCOMPtr<nsIRunnable> event = self->mEvents->GetEvent(true, nullptr);
  MOZ_ASSERT(event);

  initData = nullptr;  // clear before unblocking nsThread::Init

  event->Run();  // unblocks nsThread::Init
  event = nullptr;

  {
    // Scope for MessageLoop.
    nsAutoPtr<MessageLoop> loop(
        new MessageLoop(MessageLoop::TYPE_MOZILLA_NONMAINTHREAD, self));

    // Now, process incoming events...
    loop->Run();

    BackgroundChild::CloseForCurrentThread();

    // NB: The main thread does not shut down here!  It shuts down via
    // nsThreadManager::Shutdown.

    // Do NS_ProcessPendingEvents but with special handling to set
    // mEventsAreDoomed atomically with the removal of the last event. The key
    // invariant here is that we will never permit PutEvent to succeed if the
    // event would be left in the queue after our final call to
    // NS_ProcessPendingEvents. We also have to keep processing events as long
    // as we have outstanding mRequestedShutdownContexts.
    while (true) {
      // Check and see if we're waiting on any threads.
      self->WaitForAllAsynchronousShutdowns();

      if (self->mEvents->ShutdownIfNoPendingEvents()) {
        break;
      }
      NS_ProcessPendingEvents(self);
    }
  }

  mozilla::IOInterposer::UnregisterCurrentThread();

  // Inform the threadmanager that this thread is going away
  nsThreadManager::get().UnregisterCurrentThread(*self);

  PROFILER_UNREGISTER_THREAD();

  // Dispatch shutdown ACK
  NotNull<nsThreadShutdownContext*> context =
      WrapNotNull(self->mShutdownContext);
  MOZ_ASSERT(context->mTerminatingThread == self);
  event = do_QueryObject(new nsThreadShutdownAckEvent(context));
  if (context->mIsMainThreadJoining) {
    SystemGroup::Dispatch(TaskCategory::Other, event.forget());
  } else {
    context->mJoiningThread->Dispatch(event, NS_DISPATCH_NORMAL);
  }

  // Release any observer of the thread here.
  self->SetObserver(nullptr);

#ifdef MOZ_TASK_TRACER
  FreeTraceInfo();
#endif

  NS_RELEASE(self);
}

void nsThread::InitCommon() {
  mThreadId = uint32_t(PlatformThread::CurrentId());

  {
#if defined(XP_LINUX)
    pthread_attr_t attr;
    pthread_attr_init(&attr);
    pthread_getattr_np(pthread_self(), &attr);

    size_t stackSize;
    pthread_attr_getstack(&attr, &mStackBase, &stackSize);

    // Glibc prior to 2.27 reports the stack size and base including the guard
    // region, so we need to compensate for it to get accurate accounting.
    // Also, this behavior difference isn't guarded by a versioned symbol, so we
    // actually need to check the runtime glibc version, not the version we were
    // compiled against.
    static bool sAdjustForGuardSize = ({
#  ifdef __GLIBC__
      unsigned major, minor;
      sscanf(gnu_get_libc_version(), "%u.%u", &major, &minor) < 2 ||
          major < 2 || (major == 2 && minor < 27);
#  else
      false;
#  endif
    });
    if (sAdjustForGuardSize) {
      size_t guardSize;
      pthread_attr_getguardsize(&attr, &guardSize);

      // Note: This assumes that the stack grows down, as is the case on all of
      // our tier 1 platforms. On platforms where the stack grows up, the
      // mStackBase adjustment is unnecessary, but doesn't cause any harm other
      // than under-counting stack memory usage by one page.
      mStackBase = reinterpret_cast<char*>(mStackBase) + guardSize;
      stackSize -= guardSize;
    }

    mStackSize = stackSize;

    // This is a bit of a hack.
    //
    // We really do want the NOHUGEPAGE flag on our thread stacks, since we
    // don't expect any of them to need anywhere near 2MB of space. But setting
    // it here is too late to have an effect, since the first stack page has
    // already been faulted in existence, and NSPR doesn't give us a way to set
    // it beforehand.
    //
    // What this does get us, however, is a different set of VM flags on our
    // thread stacks compared to normal heap memory. Which makes the Linux
    // kernel report them as separate regions, even when they are adjacent to
    // heap memory. This allows us to accurately track the actual memory
    // consumption of our allocated stacks.
    madvise(mStackBase, stackSize, MADV_NOHUGEPAGE);

    pthread_attr_destroy(&attr);
#elif defined(XP_WIN)
    static const StaticDynamicallyLinkedFunctionPtr<
        GetCurrentThreadStackLimitsFn>
        sGetStackLimits(L"kernel32.dll", "GetCurrentThreadStackLimits");

    if (sGetStackLimits) {
      ULONG_PTR stackBottom, stackTop;
      sGetStackLimits(&stackBottom, &stackTop);
      mStackBase = reinterpret_cast<void*>(stackBottom);
      mStackSize = stackTop - stackBottom;
    }
#endif
  }

  InitThreadLocalVariables();
  AddToThreadList();
}

//-----------------------------------------------------------------------------

#ifdef MOZ_CANARY
int sCanaryOutputFD = -1;
#endif

nsThread::nsThread(NotNull<SynchronizedEventQueue*> aQueue,
                   MainThreadFlag aMainThread, uint32_t aStackSize)
    : mEvents(aQueue.get()),
      mEventTarget(
          new ThreadEventTarget(mEvents.get(), aMainThread == MAIN_THREAD)),
      mShutdownContext(nullptr),
      mScriptObserver(nullptr),
      mThread(nullptr),
      mStackSize(aStackSize),
      mNestedEventLoopDepth(0),
      mCurrentEventLoopDepth(MaxValue<uint32_t>::value),
      mShutdownRequired(false),
      mPriority(PRIORITY_NORMAL),
      mIsMainThread(aMainThread == MAIN_THREAD),
      mIsAPoolThreadFree(nullptr),
      mCanInvokeJS(false),
      mCurrentEvent(nullptr),
      mCurrentEventStart(TimeStamp::Now()),
#ifdef EARLY_BETA_OR_EARLIER
      mLastWakeupCheckTime(mCurrentEventStart),
#endif
      mCurrentPerformanceCounter(nullptr) {
  mLastLongTaskEnd = mCurrentEventStart;
  mLastLongNonIdleTaskEnd = mCurrentEventStart;
}

nsThread::nsThread()
    : mEvents(nullptr),
      mEventTarget(nullptr),
      mShutdownContext(nullptr),
      mScriptObserver(nullptr),
      mThread(nullptr),
      mStackSize(0),
      mNestedEventLoopDepth(0),
      mCurrentEventLoopDepth(MaxValue<uint32_t>::value),
      mShutdownRequired(false),
      mPriority(PRIORITY_NORMAL),
      mIsMainThread(false),
      mCanInvokeJS(false),
      mCurrentEvent(nullptr),
      mCurrentEventStart(TimeStamp::Now()),
#ifdef EARLY_BETA_OR_EARLIER
      mLastWakeupCheckTime(mCurrentEventStart),
#endif
      mCurrentPerformanceCounter(nullptr) {
  mLastLongTaskEnd = mCurrentEventStart;
  mLastLongNonIdleTaskEnd = mCurrentEventStart;
  MOZ_ASSERT(!NS_IsMainThread());
}

nsThread::~nsThread() {
  NS_ASSERTION(mRequestedShutdownContexts.IsEmpty(),
               "shouldn't be waiting on other threads to shutdown");

  MaybeRemoveFromThreadList();

#ifdef DEBUG
  // We deliberately leak these so they can be tracked by the leak checker.
  // If you're having nsThreadShutdownContext leaks, you can set:
  //   XPCOM_MEM_LOG_CLASSES=nsThreadShutdownContext
  // during a test run and that will at least tell you what thread is
  // requesting shutdown on another, which can be helpful for diagnosing
  // the leak.
  for (size_t i = 0; i < mRequestedShutdownContexts.Length(); ++i) {
    Unused << mRequestedShutdownContexts[i].forget();
  }
#endif
}

nsresult nsThread::Init(const nsACString& aName) {
  MOZ_ASSERT(mEvents);
  MOZ_ASSERT(mEventTarget);

  // spawn thread and wait until it is fully setup
  RefPtr<nsThreadStartupEvent> startup = new nsThreadStartupEvent();

  NS_ADDREF_THIS();

  mShutdownRequired = true;

  ThreadInitData initData = {this, aName};

  // ThreadFunc is responsible for setting mThread
  if (!PR_CreateThread(PR_USER_THREAD, ThreadFunc, &initData,
                       PR_PRIORITY_NORMAL, PR_GLOBAL_THREAD, PR_JOINABLE_THREAD,
                       mStackSize)) {
    NS_RELEASE_THIS();
    return NS_ERROR_OUT_OF_MEMORY;
  }

  // ThreadFunc will wait for this event to be run before it tries to access
  // mThread.  By delaying insertion of this event into the queue, we ensure
  // that mThread is set properly.
  {
    mEvents->PutEvent(do_AddRef(startup),
                      EventQueuePriority::Normal);  // retain a reference
  }

  // Wait for thread to call ThreadManager::SetupCurrentThread, which completes
  // initialization of ThreadFunc.
  startup->Wait();
  return NS_OK;
}

nsresult nsThread::InitCurrentThread() {
  mThread = PR_GetCurrentThread();
  mVirtualThread = GetCurrentVirtualThread();
  SetupCurrentThreadForChaosMode();
  InitCommon();

  nsThreadManager::get().RegisterCurrentThread(*this);
  return NS_OK;
}

//-----------------------------------------------------------------------------
// nsIEventTarget

NS_IMETHODIMP
nsThread::DispatchFromScript(nsIRunnable* aEvent, uint32_t aFlags) {
  MOZ_ASSERT(mEventTarget);
  NS_ENSURE_TRUE(mEventTarget, NS_ERROR_NOT_IMPLEMENTED);

  nsCOMPtr<nsIRunnable> event(aEvent);
  return mEventTarget->Dispatch(event.forget(), aFlags);
}

NS_IMETHODIMP
nsThread::Dispatch(already_AddRefed<nsIRunnable> aEvent, uint32_t aFlags) {
  MOZ_ASSERT(mEventTarget);
  NS_ENSURE_TRUE(mEventTarget, NS_ERROR_NOT_IMPLEMENTED);

  LOG(("THRD(%p) Dispatch [%p %x]\n", this, /* XXX aEvent */ nullptr, aFlags));

  return mEventTarget->Dispatch(std::move(aEvent), aFlags);
}

NS_IMETHODIMP
nsThread::DelayedDispatch(already_AddRefed<nsIRunnable> aEvent,
                          uint32_t aDelayMs) {
  MOZ_ASSERT(mEventTarget);
  NS_ENSURE_TRUE(mEventTarget, NS_ERROR_NOT_IMPLEMENTED);

  return mEventTarget->DelayedDispatch(std::move(aEvent), aDelayMs);
}

NS_IMETHODIMP
nsThread::GetRunningEventDelay(TimeDuration* aDelay, TimeStamp* aStart) {
  if (mIsAPoolThreadFree && *mIsAPoolThreadFree) {
    // if there are unstarted threads in the pool, a new event to the
    // pool would not be delayed at all (beyond thread start time)
    *aDelay = TimeDuration();
    *aStart = TimeStamp();
  } else {
    *aDelay = mLastEventDelay;
    *aStart = mLastEventStart;
  }
  return NS_OK;
}

NS_IMETHODIMP
nsThread::SetRunningEventDelay(TimeDuration aDelay, TimeStamp aStart) {
  mLastEventDelay = aDelay;
  mLastEventStart = aStart;
  return NS_OK;
}

NS_IMETHODIMP
nsThread::IsOnCurrentThread(bool* aResult) {
  if (mEventTarget) {
    return mEventTarget->IsOnCurrentThread(aResult);
  }
  *aResult = GetCurrentVirtualThread() == mVirtualThread;
  return NS_OK;
}

NS_IMETHODIMP_(bool)
nsThread::IsOnCurrentThreadInfallible() {
  // Rely on mVirtualThread being correct.
  MOZ_CRASH("IsOnCurrentThreadInfallible should never be called on nsIThread");
}

//-----------------------------------------------------------------------------
// nsIThread

NS_IMETHODIMP
nsThread::GetPRThread(PRThread** aResult) {
  *aResult = mThread;
  return NS_OK;
}

NS_IMETHODIMP
nsThread::GetCanInvokeJS(bool* aResult) {
  *aResult = mCanInvokeJS;
  return NS_OK;
}

NS_IMETHODIMP
nsThread::SetCanInvokeJS(bool aCanInvokeJS) {
  mCanInvokeJS = aCanInvokeJS;
  return NS_OK;
}

NS_IMETHODIMP
nsThread::GetLastLongTaskEnd(TimeStamp* _retval) {
  *_retval = mLastLongTaskEnd;
  return NS_OK;
}

NS_IMETHODIMP
nsThread::GetLastLongNonIdleTaskEnd(TimeStamp* _retval) {
  *_retval = mLastLongNonIdleTaskEnd;
  return NS_OK;
}

NS_IMETHODIMP
nsThread::SetNameForWakeupTelemetry(const nsACString& aName) {
#ifdef EARLY_BETA_OR_EARLIER
  mNameForWakeupTelemetry = aName;
#endif
  return NS_OK;
}

NS_IMETHODIMP
nsThread::AsyncShutdown() {
  LOG(("THRD(%p) async shutdown\n", this));

  // XXX If we make this warn, then we hit that warning at xpcom shutdown while
  //     shutting down a thread in a thread pool.  That happens b/c the thread
  //     in the thread pool is already shutdown by the thread manager.
  if (!mThread) {
    return NS_OK;
  }

  return !!ShutdownInternal(/* aSync = */ false) ? NS_OK : NS_ERROR_UNEXPECTED;
}

nsThreadShutdownContext* nsThread::ShutdownInternal(bool aSync) {
  MOZ_ASSERT(mEvents);
  MOZ_ASSERT(mEventTarget);
  MOZ_ASSERT(mThread);
  MOZ_ASSERT(mThread != PR_GetCurrentThread());
  if (NS_WARN_IF(mThread == PR_GetCurrentThread())) {
    return nullptr;
  }

  // Prevent multiple calls to this method
  if (!mShutdownRequired.compareExchange(true, false)) {
    return nullptr;
  }

  MaybeRemoveFromThreadList();

  NotNull<nsThread*> currentThread =
      WrapNotNull(nsThreadManager::get().GetCurrentThread());

  MOZ_DIAGNOSTIC_ASSERT(currentThread->EventQueue(),
                        "Shutdown() may only be called from an XPCOM thread");

  nsAutoPtr<nsThreadShutdownContext>& context =
      *currentThread->mRequestedShutdownContexts.AppendElement();
  context =
      new nsThreadShutdownContext(WrapNotNull(this), currentThread, aSync);

  // Set mShutdownContext and wake up the thread in case it is waiting for
  // events to process.
  nsCOMPtr<nsIRunnable> event =
      new nsThreadShutdownEvent(WrapNotNull(this), WrapNotNull(context.get()));
  // XXXroc What if posting the event fails due to OOM?
  mEvents->PutEvent(event.forget(), EventQueuePriority::Normal);

  // We could still end up with other events being added after the shutdown
  // task, but that's okay because we process pending events in ThreadFunc
  // after setting mShutdownContext just before exiting.
  return context;
}

void nsThread::ShutdownComplete(NotNull<nsThreadShutdownContext*> aContext) {
  MOZ_ASSERT(mEvents);
  MOZ_ASSERT(mEventTarget);
  MOZ_ASSERT(mThread);
  MOZ_ASSERT(aContext->mTerminatingThread == this);

  MaybeRemoveFromThreadList();

  if (aContext->mAwaitingShutdownAck) {
    // We're in a synchronous shutdown, so tell whatever is up the stack that
    // we're done and unwind the stack so it can call us again.
    aContext->mAwaitingShutdownAck = false;
    return;
  }

  // Now, it should be safe to join without fear of dead-locking.

  PR_JoinThread(mThread);
  mThread = nullptr;

#ifdef DEBUG
  nsCOMPtr<nsIThreadObserver> obs = mEvents->GetObserver();
  MOZ_ASSERT(!obs, "Should have been cleared at shutdown!");
#endif

  // Delete aContext.
  // aContext might not be in mRequestedShutdownContexts if it belongs to a
  // thread that was leaked by calling nsIThreadPool::ShutdownWithTimeout.
  aContext->mJoiningThread->mRequestedShutdownContexts.RemoveElement(aContext);
}

void nsThread::WaitForAllAsynchronousShutdowns() {
  // This is the motivating example for why SpinEventLoop has the template
  // parameter we are providing here.
  SpinEventLoopUntil<ProcessFailureBehavior::IgnoreAndContinue>(
      [&]() { return mRequestedShutdownContexts.IsEmpty(); }, this);
}

NS_IMETHODIMP
nsThread::Shutdown() {
  LOG(("THRD(%p) sync shutdown\n", this));

  // XXX If we make this warn, then we hit that warning at xpcom shutdown while
  //     shutting down a thread in a thread pool.  That happens b/c the thread
  //     in the thread pool is already shutdown by the thread manager.
  if (!mThread) {
    return NS_OK;
  }

  nsThreadShutdownContext* maybeContext = ShutdownInternal(/* aSync = */ true);
  if (!maybeContext) return NS_ERROR_UNEXPECTED;

  NotNull<nsThreadShutdownContext*> context = WrapNotNull(maybeContext);

  // Process events on the current thread until we receive a shutdown ACK.
  // Allows waiting; ensure no locks are held that would deadlock us!
  SpinEventLoopUntil([&, context]() { return !context->mAwaitingShutdownAck; },
                     context->mJoiningThread);

  ShutdownComplete(context);

  return NS_OK;
}

NS_IMETHODIMP
nsThread::HasPendingEvents(bool* aResult) {
  if (NS_WARN_IF(PR_GetCurrentThread() != mThread)) {
    return NS_ERROR_NOT_SAME_THREAD;
  }

  *aResult = mEvents->HasPendingEvent();
  return NS_OK;
}

NS_IMETHODIMP
nsThread::HasPendingHighPriorityEvents(bool* aResult) {
  if (NS_WARN_IF(PR_GetCurrentThread() != mThread)) {
    return NS_ERROR_NOT_SAME_THREAD;
  }

  *aResult = mEvents->HasPendingHighPriorityEvents();
  return NS_OK;
}

NS_IMETHODIMP
nsThread::DispatchToQueue(already_AddRefed<nsIRunnable> aEvent,
                          EventQueuePriority aQueue) {
  nsCOMPtr<nsIRunnable> event = aEvent;

  if (NS_WARN_IF(!event)) {
    return NS_ERROR_INVALID_ARG;
  }

  if (!mEvents->PutEvent(event.forget(), aQueue)) {
    NS_WARNING(
        "An idle event was posted to a thread that will never run it "
        "(rejected)");
    return NS_ERROR_UNEXPECTED;
  }

  return NS_OK;
}

#ifdef MOZ_CANARY
void canary_alarm_handler(int signum);

class Canary {
  // XXX ToDo: support nested loops
 public:
  Canary() {
    if (sCanaryOutputFD > 0 && EventLatencyIsImportant()) {
      signal(SIGALRM, canary_alarm_handler);
      ualarm(15000, 0);
    }
  }

  ~Canary() {
    if (sCanaryOutputFD != 0 && EventLatencyIsImportant()) {
      ualarm(0, 0);
    }
  }

  static bool EventLatencyIsImportant() {
    return NS_IsMainThread() && XRE_IsParentProcess();
  }
};

void canary_alarm_handler(int signum) {
  void* array[30];
  const char msg[29] = "event took too long to run:\n";
  // use write to be safe in the signal handler
  write(sCanaryOutputFD, msg, sizeof(msg));
  backtrace_symbols_fd(array, backtrace(array, 30), sCanaryOutputFD);
}

#endif

#define NOTIFY_EVENT_OBSERVERS(observers_, func_, params_)                  \
  do {                                                                      \
    if (!observers_.IsEmpty()) {                                            \
      nsTObserverArray<nsCOMPtr<nsIThreadObserver>>::ForwardIterator iter_( \
          observers_);                                                      \
      nsCOMPtr<nsIThreadObserver> obs_;                                     \
      while (iter_.HasMore()) {                                             \
        obs_ = iter_.GetNext();                                             \
        obs_->func_ params_;                                                \
      }                                                                     \
    }                                                                       \
  } while (0)

#ifdef MOZ_COLLECTING_RUNNABLE_TELEMETRY
static bool GetLabeledRunnableName(nsIRunnable* aEvent, nsACString& aName,
                                   EventQueuePriority aPriority) {
  bool labeled = false;
  if (RefPtr<SchedulerGroup::Runnable> groupRunnable = do_QueryObject(aEvent)) {
    labeled = true;
    MOZ_ALWAYS_TRUE(NS_SUCCEEDED(groupRunnable->GetName(aName)));
  } else if (nsCOMPtr<nsINamed> named = do_QueryInterface(aEvent)) {
    MOZ_ALWAYS_TRUE(NS_SUCCEEDED(named->GetName(aName)));
  } else {
    aName.AssignLiteral("non-nsINamed runnable");
  }
  if (aName.IsEmpty()) {
    aName.AssignLiteral("anonymous runnable");
  }

  if (!labeled && aPriority > EventQueuePriority::Input) {
    aName.AppendLiteral("(unlabeled)");
  }

  return labeled;
}
#endif

mozilla::PerformanceCounter* nsThread::GetPerformanceCounter(
    nsIRunnable* aEvent) {
  RefPtr<SchedulerGroup::Runnable> docRunnable = do_QueryObject(aEvent);
  if (docRunnable) {
    mozilla::dom::DocGroup* docGroup = docRunnable->DocGroup();
    if (docGroup) {
      return docGroup->GetPerformanceCounter();
    }
  }
  return nullptr;
}

size_t nsThread::ShallowSizeOfIncludingThis(
    mozilla::MallocSizeOf aMallocSizeOf) const {
  size_t n = 0;
  if (mShutdownContext) {
    n += aMallocSizeOf(mShutdownContext);
  }
  n += mRequestedShutdownContexts.ShallowSizeOfExcludingThis(aMallocSizeOf);
  return aMallocSizeOf(this) + aMallocSizeOf(mThread) + n;
}

size_t nsThread::SizeOfEventQueues(mozilla::MallocSizeOf aMallocSizeOf) const {
  size_t n = 0;
  if (mCurrentPerformanceCounter) {
    n += aMallocSizeOf(mCurrentPerformanceCounter);
  }
  if (mEventTarget) {
    // The size of mEvents is reported by mEventTarget.
    n += mEventTarget->SizeOfIncludingThis(aMallocSizeOf);
  }
  return n;
}

size_t nsThread::SizeOfIncludingThis(
    mozilla::MallocSizeOf aMallocSizeOf) const {
  return ShallowSizeOfIncludingThis(aMallocSizeOf) +
         SizeOfEventQueues(aMallocSizeOf);
}

NS_IMETHODIMP
nsThread::ProcessNextEvent(bool aMayWait, bool* aResult) {
  MOZ_ASSERT(mEvents);
  NS_ENSURE_TRUE(mEvents, NS_ERROR_NOT_IMPLEMENTED);

  LOG(("THRD(%p) ProcessNextEvent [%u %u]\n", this, aMayWait,
       mNestedEventLoopDepth));

  if (NS_WARN_IF(PR_GetCurrentThread() != mThread)) {
    return NS_ERROR_NOT_SAME_THREAD;
  }

  // The toplevel event loop normally blocks waiting for the next event, but
  // if we're trying to shut this thread down, we must exit the event loop when
  // the event queue is empty.
  // This only applys to the toplevel event loop! Nested event loops (e.g.
  // during sync dispatch) are waiting for some state change and must be able
  // to block even if something has requested shutdown of the thread. Otherwise
  // we'll just busywait as we endlessly look for an event, fail to find one,
  // and repeat the nested event loop since its state change hasn't happened
  // yet.
  bool reallyWait = aMayWait && (mNestedEventLoopDepth > 0 || !ShuttingDown());

  if (mIsInLocalExecutionMode) {
    EventQueuePriority priority;
    if (const nsCOMPtr<nsIRunnable> event =
            mEvents->GetEvent(reallyWait, &priority)) {
      *aResult = true;
      event->Run();
    } else {
      *aResult = false;
    }
    return NS_OK;
  }

  if (mIsMainThread) {
    DoMainThreadSpecificProcessing(reallyWait);
  }

  ++mNestedEventLoopDepth;

  // We only want to create an AutoNoJSAPI on threads that actually do DOM stuff
  // (including workers).  Those are exactly the threads that have an
  // mScriptObserver.
  Maybe<dom::AutoNoJSAPI> noJSAPI;
  bool callScriptObserver = !!mScriptObserver;
  if (callScriptObserver) {
    noJSAPI.emplace();
    mScriptObserver->BeforeProcessTask(reallyWait);
  }

#ifdef EARLY_BETA_OR_EARLIER
  // Need to capture mayWaitForWakeup state before OnProcessNextEvent,
  // since on the main thread OnProcessNextEvent ends up waiting for the new
  // events.
  bool mayWaitForWakeup = reallyWait && !mEvents->HasPendingEvent();
#endif

  nsCOMPtr<nsIThreadObserver> obs = mEvents->GetObserverOnThread();
  if (obs) {
    obs->OnProcessNextEvent(this, reallyWait);
  }

  NOTIFY_EVENT_OBSERVERS(EventQueue()->EventObservers(), OnProcessNextEvent,
                         (this, reallyWait));

#ifdef MOZ_CANARY
  Canary canary;
#endif
  nsresult rv = NS_OK;

  {
    // Scope for |event| to make sure that its destructor fires while
    // mNestedEventLoopDepth has been incremented, since that destructor can
    // also do work.
    EventQueuePriority priority;
    nsCOMPtr<nsIRunnable> event =
        mEvents->GetEvent(reallyWait, &priority, &mLastEventDelay);

    *aResult = (event.get() != nullptr);

    if (event) {
#ifdef EARLY_BETA_OR_EARLIER
      if (mayWaitForWakeup && mThread) {
        ++mWakeupCount;
        if (mWakeupCount == kTelemetryWakeupCountLimit) {
          TimeStamp now = TimeStamp::Now();
          double ms = (now - mLastWakeupCheckTime).ToMilliseconds();
          if (ms < 0) {
            ms = 0;
          }
          const char* name = !mNameForWakeupTelemetry.IsEmpty()
                                 ? mNameForWakeupTelemetry.get()
                                 : PR_GetThreadName(mThread);
          if (!name) {
            name = mIsMainThread ? "MainThread" : "(nameless thread)";
          }
          nsDependentCString key(name);
          Telemetry::Accumulate(Telemetry::THREAD_WAKEUP, key,
                                static_cast<uint32_t>(ms));
          mLastWakeupCheckTime = now;
          mWakeupCount = 0;
        }
      }
#endif

      LOG(("THRD(%p) running [%p]\n", this, event.get()));

      // Delay event processing to encourage whoever dispatched this event
      // to run.
      DelayForChaosMode(ChaosFeature::TaskRunning, 1000);

      mozilla::TimeStamp now = mozilla::TimeStamp::Now();

      if (mIsMainThread) {
        BackgroundHangMonitor().NotifyActivity();
      }

      if (mNestedEventLoopDepth > mCurrentEventLoopDepth &&
          mCurrentPerformanceCounter) {
        // This is a recursive call, we're saving the time
        // spent in the parent event if the runnable is linked to a DocGroup.
        mozilla::TimeDuration duration = now - mCurrentEventStart;
        mCurrentPerformanceCounter->IncrementExecutionDuration(
            duration.ToMicroseconds());
      }

#ifdef MOZ_COLLECTING_RUNNABLE_TELEMETRY
      // If we're on the main thread, we want to record our current runnable's
      // name in a static so that BHR can record it.
      Array<char, kRunnableNameBufSize> restoreRunnableName;
      restoreRunnableName[0] = '\0';
      auto clear = MakeScopeExit([&] {
        if (mIsMainThread) {
          MOZ_ASSERT(NS_IsMainThread());
          sMainThreadRunnableName = restoreRunnableName;
        }
      });
      if (mIsMainThread) {
        nsAutoCString name;
        GetLabeledRunnableName(event, name, priority);

        MOZ_ASSERT(NS_IsMainThread());
        restoreRunnableName = sMainThreadRunnableName;

        // Copy the name into sMainThreadRunnableName's buffer, and append a
        // terminating null.
        uint32_t length = std::min((uint32_t)kRunnableNameBufSize - 1,
                                   (uint32_t)name.Length());
        memcpy(sMainThreadRunnableName.begin(), name.BeginReading(), length);
        sMainThreadRunnableName[length] = '\0';
      }
#endif
      Maybe<AutoTimeDurationHelper> timeDurationHelper;
      if (priority == EventQueuePriority::Input) {
        timeDurationHelper.emplace();
      }

      // The event starts to run, storing the timestamp.
      bool recursiveEvent = mNestedEventLoopDepth > mCurrentEventLoopDepth;
      mCurrentEventLoopDepth = mNestedEventLoopDepth;
      if (mIsMainThread && !recursiveEvent) {
        mCurrentEventStart = now;
      }
      RefPtr<mozilla::PerformanceCounter> currentPerformanceCounter;
      mLastEventStart = now;
      mCurrentEvent = event;
      mCurrentPerformanceCounter = GetPerformanceCounter(event);
      currentPerformanceCounter = mCurrentPerformanceCounter;

      event->Run();
      mEvents->DidRunEvent();

      mozilla::TimeDuration duration;
      // Remember the last 50ms+ task on mainthread for Long Task.
      if (mIsMainThread && !recursiveEvent) {
        TimeStamp now = TimeStamp::Now();
        duration = now - mCurrentEventStart;
        if (duration.ToMilliseconds() > LONGTASK_BUSY_WINDOW_MS) {
          // Idle events (gc...) don't *really* count here
          if (priority != EventQueuePriority::Idle) {
            mLastLongNonIdleTaskEnd = now;
          }
          mLastLongTaskEnd = now;
#ifdef MOZ_GECKO_PROFILER
          if (profiler_thread_is_being_profiled()) {
            PROFILER_ADD_MARKER_WITH_PAYLOAD(
                (priority != EventQueuePriority::Idle) ? "LongTask"
                                                       : "LongIdleTask",
                OTHER, LongTaskMarkerPayload, (mCurrentEventStart, now));
          }
#endif
        }
      }

      // End of execution, we can send the duration for the group
      if (recursiveEvent) {
        // If we're in a recursive call, reset the timer,
        // so the parent gets its remaining execution time right.
        mCurrentEventStart = mozilla::TimeStamp::Now();
        mCurrentPerformanceCounter = currentPerformanceCounter;
      } else {
        // We're done with this dispatch
        if (currentPerformanceCounter) {
          mozilla::TimeDuration duration =
              TimeStamp::Now() - mCurrentEventStart;
          currentPerformanceCounter->IncrementExecutionDuration(
              duration.ToMicroseconds());
        }
        mCurrentEvent = nullptr;
        mCurrentEventLoopDepth = MaxValue<uint32_t>::value;
        mCurrentPerformanceCounter = nullptr;
      }
    } else {
      mLastEventDelay = TimeDuration();
      mLastEventStart = TimeStamp();
      if (aMayWait) {
        MOZ_ASSERT(ShuttingDown(),
                   "This should only happen when shutting down");
        rv = NS_ERROR_UNEXPECTED;
      }
    }
  }

  NOTIFY_EVENT_OBSERVERS(EventQueue()->EventObservers(), AfterProcessNextEvent,
                         (this, *aResult));

  if (obs) {
    obs->AfterProcessNextEvent(this, *aResult);
  }

  if (callScriptObserver) {
    if (mScriptObserver) {
      mScriptObserver->AfterProcessTask(mNestedEventLoopDepth);
    }
    noJSAPI.reset();
  }

  --mNestedEventLoopDepth;

  return rv;
}

//-----------------------------------------------------------------------------
// nsISupportsPriority

NS_IMETHODIMP
nsThread::GetPriority(int32_t* aPriority) {
  *aPriority = mPriority;
  return NS_OK;
}

NS_IMETHODIMP
nsThread::SetPriority(int32_t aPriority) {
  if (NS_WARN_IF(!mThread)) {
    return NS_ERROR_NOT_INITIALIZED;
  }

  // NSPR defines the following four thread priorities:
  //   PR_PRIORITY_LOW
  //   PR_PRIORITY_NORMAL
  //   PR_PRIORITY_HIGH
  //   PR_PRIORITY_URGENT
  // We map the priority values defined on nsISupportsPriority to these values.

  mPriority = aPriority;

  PRThreadPriority pri;
  if (mPriority <= PRIORITY_HIGHEST) {
    pri = PR_PRIORITY_URGENT;
  } else if (mPriority < PRIORITY_NORMAL) {
    pri = PR_PRIORITY_HIGH;
  } else if (mPriority > PRIORITY_NORMAL) {
    pri = PR_PRIORITY_LOW;
  } else {
    pri = PR_PRIORITY_NORMAL;
  }
  // If chaos mode is active, retain the randomly chosen priority
  if (!ChaosMode::isActive(ChaosFeature::ThreadScheduling)) {
    PR_SetThreadPriority(mThread, pri);
  }

  return NS_OK;
}

NS_IMETHODIMP
nsThread::AdjustPriority(int32_t aDelta) {
  return SetPriority(mPriority + aDelta);
}

//-----------------------------------------------------------------------------
// nsIThreadInternal

NS_IMETHODIMP
nsThread::GetObserver(nsIThreadObserver** aObs) {
  MOZ_ASSERT(mEvents);
  NS_ENSURE_TRUE(mEvents, NS_ERROR_NOT_IMPLEMENTED);

  nsCOMPtr<nsIThreadObserver> obs = mEvents->GetObserver();
  obs.forget(aObs);
  return NS_OK;
}

NS_IMETHODIMP
nsThread::SetObserver(nsIThreadObserver* aObs) {
  MOZ_ASSERT(mEvents);
  NS_ENSURE_TRUE(mEvents, NS_ERROR_NOT_IMPLEMENTED);

  if (NS_WARN_IF(PR_GetCurrentThread() != mThread)) {
    return NS_ERROR_NOT_SAME_THREAD;
  }

  mEvents->SetObserver(aObs);
  return NS_OK;
}

uint32_t nsThread::RecursionDepth() const {
  MOZ_ASSERT(PR_GetCurrentThread() == mThread);
  return mNestedEventLoopDepth;
}

NS_IMETHODIMP
nsThread::AddObserver(nsIThreadObserver* aObserver) {
  MOZ_ASSERT(mEvents);
  NS_ENSURE_TRUE(mEvents, NS_ERROR_NOT_IMPLEMENTED);

  if (NS_WARN_IF(!aObserver)) {
    return NS_ERROR_INVALID_ARG;
  }
  if (NS_WARN_IF(PR_GetCurrentThread() != mThread)) {
    return NS_ERROR_NOT_SAME_THREAD;
  }

  EventQueue()->AddObserver(aObserver);

  return NS_OK;
}

NS_IMETHODIMP
nsThread::RemoveObserver(nsIThreadObserver* aObserver) {
  MOZ_ASSERT(mEvents);
  NS_ENSURE_TRUE(mEvents, NS_ERROR_NOT_IMPLEMENTED);

  if (NS_WARN_IF(PR_GetCurrentThread() != mThread)) {
    return NS_ERROR_NOT_SAME_THREAD;
  }

  EventQueue()->RemoveObserver(aObserver);

  return NS_OK;
}

void nsThread::SetScriptObserver(
    mozilla::CycleCollectedJSContext* aScriptObserver) {
  if (!aScriptObserver) {
    mScriptObserver = nullptr;
    return;
  }

  MOZ_ASSERT(!mScriptObserver);
  mScriptObserver = aScriptObserver;
}

void nsThread::DoMainThreadSpecificProcessing(bool aReallyWait) {
  MOZ_ASSERT(mIsMainThread);

  ipc::CancelCPOWs();

  if (aReallyWait) {
    BackgroundHangMonitor().NotifyWait();
  }

  // Fire a memory pressure notification, if one is pending.
  if (!ShuttingDown()) {
    MemoryPressureState mpPending = NS_GetPendingMemoryPressure();
    if (mpPending != MemPressure_None) {
      nsCOMPtr<nsIObserverService> os = services::GetObserverService();

      if (os) {
        if (mpPending == MemPressure_Stopping) {
          os->NotifyObservers(nullptr, "memory-pressure-stop", nullptr);
        } else {
          os->NotifyObservers(nullptr, "memory-pressure",
                              mpPending == MemPressure_New
                                  ? u"low-memory"
                                  : u"low-memory-ongoing");
        }
      } else {
        NS_WARNING("Can't get observer service!");
      }
    }
  }
}

NS_IMETHODIMP
nsThread::GetEventTarget(nsIEventTarget** aEventTarget) {
  nsCOMPtr<nsIEventTarget> target = this;
  target.forget(aEventTarget);
  return NS_OK;
}

nsIEventTarget* nsThread::EventTarget() { return this; }

nsISerialEventTarget* nsThread::SerialEventTarget() { return this; }

nsLocalExecutionRecord nsThread::EnterLocalExecution() {
  MOZ_RELEASE_ASSERT(!mIsInLocalExecutionMode);
  MOZ_ASSERT(IsOnCurrentThread());
  MOZ_ASSERT(EventQueue());
  return nsLocalExecutionRecord(*EventQueue(), mIsInLocalExecutionMode);
}

nsLocalExecutionGuard::nsLocalExecutionGuard(
    nsLocalExecutionRecord&& aLocalExecutionRecord)
    : mEventQueueStack(aLocalExecutionRecord.mEventQueueStack),
      mLocalEventTarget(mEventQueueStack.PushEventQueue()),
      mLocalExecutionFlag(aLocalExecutionRecord.mLocalExecutionFlag) {
  MOZ_ASSERT(mLocalEventTarget);
  MOZ_ASSERT(!mLocalExecutionFlag);
  mLocalExecutionFlag = true;
}

nsLocalExecutionGuard::~nsLocalExecutionGuard() {
  MOZ_ASSERT(mLocalExecutionFlag);
  mLocalExecutionFlag = false;
  mEventQueueStack.PopEventQueue(mLocalEventTarget);
}