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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 "nsError.h"
#include "nsJSEnvironment.h"
#include "nsIScriptGlobalObject.h"
#include "nsIScriptObjectPrincipal.h"
#include "nsIDOMChromeWindow.h"
#include "nsPIDOMWindow.h"
#include "nsIScriptSecurityManager.h"
#include "nsDOMCID.h"
#include "nsIServiceManager.h"
#include "nsIXPConnect.h"
#include "nsCOMPtr.h"
#include "nsISupportsPrimitives.h"
#include "nsReadableUtils.h"
#include "nsDOMJSUtils.h"
#include "nsJSUtils.h"
#include "nsIDocShell.h"
#include "nsIDocShellTreeItem.h"
#include "nsPresContext.h"
#include "nsIConsoleService.h"
#include "nsIScriptError.h"
#include "nsIInterfaceRequestor.h"
#include "nsIInterfaceRequestorUtils.h"
#include "nsIPrompt.h"
#include "nsIObserverService.h"
#include "nsITimer.h"
#include "nsAtom.h"
#include "nsContentUtils.h"
#include "mozilla/EventDispatcher.h"
#include "nsIContent.h"
#include "nsCycleCollector.h"
#include "nsXPCOMCIDInternal.h"
#include "nsIXULRuntime.h"
#include "nsTextFormatter.h"
#ifdef XP_WIN
#  include <process.h>
#  define getpid _getpid
#else
#  include <unistd.h>  // for getpid()
#endif
#include "xpcpublic.h"

#include "jsapi.h"
#include "js/PropertySpec.h"
#include "js/SliceBudget.h"
#include "js/Wrapper.h"
#include "nsIArray.h"
#include "nsIObjectInputStream.h"
#include "nsIObjectOutputStream.h"
#include "WrapperFactory.h"
#include "nsGlobalWindow.h"
#include "mozilla/AutoRestore.h"
#include "mozilla/MainThreadIdlePeriod.h"
#include "mozilla/PresShell.h"
#include "mozilla/StaticPrefs_javascript.h"
#include "mozilla/StaticPtr.h"
#include "mozilla/dom/DOMException.h"
#include "mozilla/dom/DOMExceptionBinding.h"
#include "mozilla/dom/Element.h"
#include "mozilla/dom/ErrorEvent.h"
#include "mozilla/dom/FetchUtil.h"
#include "mozilla/dom/ScriptSettings.h"
#include "mozilla/dom/SerializedStackHolder.h"
#include "mozilla/CycleCollectedJSRuntime.h"
#include "mozilla/SystemGroup.h"
#include "nsRefreshDriver.h"
#include "nsJSPrincipals.h"

#ifdef XP_MACOSX
// AssertMacros.h defines 'check' and conflicts with AccessCheck.h
#  undef check
#endif
#include "AccessCheck.h"

#include "mozilla/Logging.h"
#include "prthread.h"

#include "mozilla/Preferences.h"
#include "mozilla/Telemetry.h"
#include "mozilla/dom/BindingUtils.h"
#include "mozilla/Attributes.h"
#include "mozilla/dom/CanvasRenderingContext2DBinding.h"
#include "mozilla/ContentEvents.h"
#include "mozilla/CycleCollectedJSContext.h"
#include "nsCycleCollectionNoteRootCallback.h"
#include "GeckoProfiler.h"
#include "mozilla/IdleTaskRunner.h"
#include "nsIDocShell.h"
#include "nsViewManager.h"
#include "mozilla/EventStateManager.h"

using namespace mozilla;
using namespace mozilla::dom;

// Thank you Microsoft!
#ifdef CompareString
#  undef CompareString
#endif

// The amount of time we wait between a request to CC (after GC ran)
// and doing the actual CC.
static const TimeDuration kCCDelay = TimeDuration::FromSeconds(6);

static const TimeDuration kCCSkippableDelay =
    TimeDuration::FromMilliseconds(250);

// In case the cycle collector isn't run at all, we don't want forget skippables
// to run too often. So limit the forget skippable cycle to start at earliest 2
// seconds after the end of the previous cycle.
static const TimeDuration kTimeBetweenForgetSkippableCycles =
    TimeDuration::FromSeconds(2);

// ForgetSkippable is usually fast, so we can use small budgets.
// This isn't a real budget but a hint to IdleTaskRunner whether there
// is enough time to call ForgetSkippable.
static const TimeDuration kForgetSkippableSliceDuration =
    TimeDuration::FromMilliseconds(2);

// Maximum amount of time that should elapse between incremental CC slices
static const TimeDuration kICCIntersliceDelay =
    TimeDuration::FromMilliseconds(64);

// Time budget for an incremental CC slice when using timer to run it.
static const TimeDuration kICCSliceBudget = TimeDuration::FromMilliseconds(3);
// Minimum budget for an incremental CC slice when using idle time to run it.
static const TimeDuration kIdleICCSliceBudget =
    TimeDuration::FromMilliseconds(2);

// Maximum total duration for an ICC
static const TimeDuration kMaxICCDuration = TimeDuration::FromSeconds(2);

// Force a CC after this long if there's more than NS_CC_FORCED_PURPLE_LIMIT
// objects in the purple buffer.
static const TimeDuration kCCForced =
    TimeDuration::FromSeconds(2 * 60);  // 2 min
static const uint32_t kCCForcedPurpleLimit = 10;

// Don't allow an incremental GC to lock out the CC for too long.
static const TimeDuration kMaxCCLockedoutTime = TimeDuration::FromSeconds(30);

// Trigger a CC if the purple buffer exceeds this size when we check it.
static const uint32_t kCCPurpleLimit = 200;

// if you add statics here, add them to the list in StartupJSEnvironment

enum class CCRunnerState { Inactive, EarlyTimer, LateTimer, FinalTimer };

static nsITimer* sGCTimer;
static nsITimer* sShrinkingGCTimer;
static StaticRefPtr<IdleTaskRunner> sCCRunner;
static StaticRefPtr<IdleTaskRunner> sICCRunner;
static nsITimer* sFullGCTimer;
static StaticRefPtr<IdleTaskRunner> sInterSliceGCRunner;

static TimeStamp sLastCCEndTime;

static TimeStamp sLastForgetSkippableCycleEndTime;

static TimeStamp sCurrentGCStartTime;

static CCRunnerState sCCRunnerState = CCRunnerState::Inactive;
static TimeDuration sCCDelay = kCCDelay;
static bool sCCLockedOut;
static TimeStamp sCCLockedOutTime;

static JS::GCSliceCallback sPrevGCSliceCallback;

static bool sHasRunGC;

static uint32_t sCCollectedWaitingForGC;
static uint32_t sCCollectedZonesWaitingForGC;
static uint32_t sLikelyShortLivingObjectsNeedingGC;
static int32_t sCCRunnerEarlyFireCount = 0;
static uint32_t sPreviousSuspectedCount = 0;
static uint32_t sCleanupsSinceLastGC = UINT32_MAX;
static bool sNeedsFullCC = false;
static bool sNeedsFullGC = false;
static bool sNeedsGCAfterCC = false;
static bool sIncrementalCC = false;
static TimeDuration sActiveIntersliceGCBudget =
    TimeDuration::FromMilliseconds(5);

static TimeStamp sFirstCollectionTime;

static bool sIsInitialized;
static bool sDidShutdown;
static bool sShuttingDown;

// nsJSEnvironmentObserver observes the user-interaction-inactive notifications
// and triggers a shrinking a garbage collection if the user is still inactive
// after NS_SHRINKING_GC_DELAY ms later, if the appropriate pref is set.

static bool sIsCompactingOnUserInactive = false;

static TimeDuration sGCUnnotifiedTotalTime;

struct CycleCollectorStats {
  constexpr CycleCollectorStats() = default;
  void Init();
  void Clear();
  void PrepareForCycleCollectionSlice(TimeStamp aDeadline = TimeStamp());
  void FinishCycleCollectionSlice();
  void RunForgetSkippable();
  void UpdateAfterForgetSkippable(TimeDuration duration,
                                  uint32_t aRemovedPurples);
  void UpdateAfterCycleCollection();

  void SendTelemetry(TimeDuration aCCNowDuration) const;
  void MaybeLogStats(const CycleCollectorResults& aResults,
                     uint32_t aCleanups) const;
  void MaybeNotifyStats(const CycleCollectorResults& aResults,
                        TimeDuration aCCNowDuration, uint32_t aCleanups) const;

  // Time the current slice began, including any GC finishing.
  TimeStamp mBeginSliceTime;

  // Time the previous slice of the current CC ended.
  TimeStamp mEndSliceTime;

  // Time the current cycle collection began.
  TimeStamp mBeginTime;

  // The longest GC finishing duration for any slice of the current CC.
  TimeDuration mMaxGCDuration;

  // True if we ran sync forget skippable in any slice of the current CC.
  bool mRanSyncForgetSkippable = false;

  // Number of suspected objects at the start of the current CC.
  uint32_t mSuspected = 0;

  // The longest duration spent on sync forget skippable in any slice of the
  // current CC.
  TimeDuration mMaxSkippableDuration;

  // The longest pause of any slice in the current CC.
  TimeDuration mMaxSliceTime;

  // The longest slice time since ClearMaxCCSliceTime() was called.
  TimeDuration mMaxSliceTimeSinceClear;

  // The total amount of time spent actually running the current CC.
  TimeDuration mTotalSliceTime;

  // True if we were locked out by the GC in any slice of the current CC.
  bool mAnyLockedOut = false;

  // A file to dump CC activity to; set by MOZ_CCTIMER environment variable.
  FILE* mFile = nullptr;

  // In case CC slice was triggered during idle time, set to the end of the idle
  // period.
  TimeStamp mIdleDeadline;

  TimeDuration mMinForgetSkippableTime;
  TimeDuration mMaxForgetSkippableTime;
  TimeDuration mTotalForgetSkippableTime;
  uint32_t mForgetSkippableBeforeCC = 0;

  uint32_t mRemovedPurples = 0;
};

static CycleCollectorStats sCCStats;

static const char* ProcessNameForCollectorLog() {
  return XRE_GetProcessType() == GeckoProcessType_Default ? "default"
                                                          : "content";
}

namespace xpc {

// This handles JS Exceptions (via ExceptionStackOrNull), DOM and XPC
// Exceptions, and arbitrary values that were associated with a stack by the
// JS engine when they were thrown, as specified by exceptionStack.
//
// Note that the returned stackObj and stackGlobal are _not_ wrapped into the
// compartment of exceptionValue.
void FindExceptionStackForConsoleReport(nsPIDOMWindowInner* win,
                                        JS::HandleValue exceptionValue,
                                        JS::HandleObject exceptionStack,
                                        JS::MutableHandleObject stackObj,
                                        JS::MutableHandleObject stackGlobal) {
  stackObj.set(nullptr);
  stackGlobal.set(nullptr);

  if (!exceptionValue.isObject()) {
    // Use the stack provided by the JS engine, if available. This will not be
    // a wrapper.
    if (exceptionStack) {
      stackObj.set(exceptionStack);
      stackGlobal.set(JS::GetNonCCWObjectGlobal(exceptionStack));
    }
    return;
  }

  if (win && win->AsGlobal()->IsDying()) {
    // Pretend like we have no stack, so we don't end up keeping the global
    // alive via the stack.
    return;
  }

  JS::RootingContext* rcx = RootingCx();
  JS::RootedObject exceptionObject(rcx, &exceptionValue.toObject());
  if (JSObject* excStack = JS::ExceptionStackOrNull(exceptionObject)) {
    // At this point we know exceptionObject is a possibly-wrapped
    // js::ErrorObject that has excStack as stack. excStack might also be a CCW,
    // but excStack must be same-compartment with the unwrapped ErrorObject.
    // Return the ErrorObject's global as stackGlobal. This matches what we do
    // in the ErrorObject's |.stack| getter and ensures stackObj and stackGlobal
    // are same-compartment.
    JSObject* unwrappedException = js::UncheckedUnwrap(exceptionObject);
    stackObj.set(excStack);
    stackGlobal.set(JS::GetNonCCWObjectGlobal(unwrappedException));
    return;
  }

  // It is not a JS Exception, try DOM Exception.
  RefPtr<Exception> exception;
  UNWRAP_OBJECT(DOMException, exceptionObject, exception);
  if (!exception) {
    // Not a DOM Exception, try XPC Exception.
    UNWRAP_OBJECT(Exception, exceptionObject, exception);
    if (!exception) {
      // As above, use the stack provided by the JS engine, if available.
      if (exceptionStack) {
        stackObj.set(exceptionStack);
        stackGlobal.set(JS::GetNonCCWObjectGlobal(exceptionStack));
      }
      return;
    }
  }

  nsCOMPtr<nsIStackFrame> stack = exception->GetLocation();
  if (!stack) {
    return;
  }
  JS::RootedValue value(rcx);
  stack->GetNativeSavedFrame(&value);
  if (value.isObject()) {
    stackObj.set(&value.toObject());
    MOZ_ASSERT(JS::IsUnwrappedSavedFrame(stackObj));
    stackGlobal.set(JS::GetNonCCWObjectGlobal(stackObj));
    return;
  }
}

} /* namespace xpc */

static TimeDuration GetCollectionTimeDelta() {
  TimeStamp now = TimeStamp::Now();
  if (sFirstCollectionTime) {
    return now - sFirstCollectionTime;
  }
  sFirstCollectionTime = now;
  return TimeDuration();
}

static void KillTimers() {
  nsJSContext::KillGCTimer();
  nsJSContext::KillShrinkingGCTimer();
  nsJSContext::KillCCRunner();
  nsJSContext::KillICCRunner();
  nsJSContext::KillFullGCTimer();
  nsJSContext::KillInterSliceGCRunner();
}

// If we collected a substantial amount of cycles, poke the GC since more
// objects might be unreachable now.
static bool NeedsGCAfterCC() {
  return sCCollectedWaitingForGC > 250 || sCCollectedZonesWaitingForGC > 0 ||
         sLikelyShortLivingObjectsNeedingGC > 2500 || sNeedsGCAfterCC;
}

class nsJSEnvironmentObserver final : public nsIObserver {
  ~nsJSEnvironmentObserver() {}

 public:
  NS_DECL_ISUPPORTS
  NS_DECL_NSIOBSERVER
};

NS_IMPL_ISUPPORTS(nsJSEnvironmentObserver, nsIObserver)

NS_IMETHODIMP
nsJSEnvironmentObserver::Observe(nsISupports* aSubject, const char* aTopic,
                                 const char16_t* aData) {
  if (!nsCRT::strcmp(aTopic, "memory-pressure")) {
    if (StaticPrefs::javascript_options_gc_on_memory_pressure()) {
      nsDependentString data(aData);
      if (data.EqualsLiteral("low-memory-ongoing")) {
        // Don't GC/CC if we are in an ongoing low-memory state since its very
        // slow and it likely won't help us anyway.
        return NS_OK;
      }
      if (data.EqualsLiteral("low-memory")) {
        nsJSContext::SetLowMemoryState(true);
      }
      nsJSContext::GarbageCollectNow(JS::GCReason::MEM_PRESSURE,
                                     nsJSContext::NonIncrementalGC,
                                     nsJSContext::ShrinkingGC);
      nsJSContext::CycleCollectNow();
      if (NeedsGCAfterCC()) {
        nsJSContext::GarbageCollectNow(JS::GCReason::MEM_PRESSURE,
                                       nsJSContext::NonIncrementalGC,
                                       nsJSContext::ShrinkingGC);
      }
    }
  } else if (!nsCRT::strcmp(aTopic, "memory-pressure-stop")) {
    nsJSContext::SetLowMemoryState(false);
  } else if (!nsCRT::strcmp(aTopic, "user-interaction-inactive")) {
    if (StaticPrefs::javascript_options_compact_on_user_inactive()) {
      nsJSContext::PokeShrinkingGC();
    }
  } else if (!nsCRT::strcmp(aTopic, "user-interaction-active")) {
    nsJSContext::KillShrinkingGCTimer();
    if (sIsCompactingOnUserInactive) {
      AutoJSAPI jsapi;
      jsapi.Init();
      JS::AbortIncrementalGC(jsapi.cx());
    }
    MOZ_ASSERT(!sIsCompactingOnUserInactive);
  } else if (!nsCRT::strcmp(aTopic, "quit-application") ||
             !nsCRT::strcmp(aTopic, NS_XPCOM_SHUTDOWN_OBSERVER_ID)) {
    sShuttingDown = true;
    KillTimers();
  }

  return NS_OK;
}

/****************************************************************
 ************************** AutoFree ****************************
 ****************************************************************/

class AutoFree {
 public:
  explicit AutoFree(void* aPtr) : mPtr(aPtr) {}
  ~AutoFree() {
    if (mPtr) free(mPtr);
  }
  void Invalidate() { mPtr = 0; }

 private:
  void* mPtr;
};

// A utility function for script languages to call.  Although it looks small,
// the use of nsIDocShell and nsPresContext triggers a huge number of
// dependencies that most languages would not otherwise need.
// XXXmarkh - This function is mis-placed!
bool NS_HandleScriptError(nsIScriptGlobalObject* aScriptGlobal,
                          const ErrorEventInit& aErrorEventInit,
                          nsEventStatus* aStatus) {
  bool called = false;
  nsCOMPtr<nsPIDOMWindowInner> win(do_QueryInterface(aScriptGlobal));
  nsIDocShell* docShell = win ? win->GetDocShell() : nullptr;
  if (docShell) {
    RefPtr<nsPresContext> presContext = docShell->GetPresContext();

    static int32_t errorDepth;  // Recursion prevention
    ++errorDepth;

    if (errorDepth < 2) {
      // Dispatch() must be synchronous for the recursion block
      // (errorDepth) to work.
      RefPtr<ErrorEvent> event =
          ErrorEvent::Constructor(nsGlobalWindowInner::Cast(win),
                                  NS_LITERAL_STRING("error"), aErrorEventInit);
      event->SetTrusted(true);

      EventDispatcher::DispatchDOMEvent(win, nullptr, event, presContext,
                                        aStatus);
      called = true;
    }
    --errorDepth;
  }
  return called;
}

class ScriptErrorEvent : public Runnable {
 public:
  ScriptErrorEvent(nsPIDOMWindowInner* aWindow, JS::RootingContext* aRootingCx,
                   xpc::ErrorReport* aReport, JS::Handle<JS::Value> aError,
                   JS::Handle<JSObject*> aErrorStack)
      : mozilla::Runnable("ScriptErrorEvent"),
        mWindow(aWindow),
        mReport(aReport),
        mError(aRootingCx, aError),
        mErrorStack(aRootingCx, aErrorStack) {}

  NS_IMETHOD Run() override {
    nsEventStatus status = nsEventStatus_eIgnore;
    nsPIDOMWindowInner* win = mWindow;
    MOZ_ASSERT(win);
    MOZ_ASSERT(NS_IsMainThread());
    // First, notify the DOM that we have a script error, but only if
    // our window is still the current inner.
    JS::RootingContext* rootingCx = RootingCx();
    if (win->IsCurrentInnerWindow() && win->GetDocShell() &&
        !sHandlingScriptError) {
      AutoRestore<bool> recursionGuard(sHandlingScriptError);
      sHandlingScriptError = true;

      RefPtr<nsPresContext> presContext = win->GetDocShell()->GetPresContext();

      RootedDictionary<ErrorEventInit> init(rootingCx);
      init.mCancelable = true;
      init.mFilename = mReport->mFileName;
      init.mBubbles = true;

      NS_NAMED_LITERAL_STRING(xoriginMsg, "Script error.");
      if (!mReport->mIsMuted) {
        init.mMessage = mReport->mErrorMsg;
        init.mLineno = mReport->mLineNumber;
        init.mColno = mReport->mColumn;
        init.mError = mError;
      } else {
        NS_WARNING("Not same origin error!");
        init.mMessage = xoriginMsg;
        init.mLineno = 0;
      }

      RefPtr<ErrorEvent> event = ErrorEvent::Constructor(
          nsGlobalWindowInner::Cast(win), NS_LITERAL_STRING("error"), init);
      event->SetTrusted(true);

      EventDispatcher::DispatchDOMEvent(win, nullptr, event, presContext,
                                        &status);
    }

    if (status != nsEventStatus_eConsumeNoDefault) {
      JS::Rooted<JSObject*> stack(rootingCx);
      JS::Rooted<JSObject*> stackGlobal(rootingCx);
      xpc::FindExceptionStackForConsoleReport(win, mError, mErrorStack, &stack,
                                              &stackGlobal);
      mReport->LogToConsoleWithStack(stack, stackGlobal,
                                     JS::ExceptionTimeWarpTarget(mError));
    }

    return NS_OK;
  }

 private:
  nsCOMPtr<nsPIDOMWindowInner> mWindow;
  RefPtr<xpc::ErrorReport> mReport;
  JS::PersistentRootedValue mError;
  JS::PersistentRootedObject mErrorStack;

  static bool sHandlingScriptError;
};

bool ScriptErrorEvent::sHandlingScriptError = false;

// This temporarily lives here to avoid code churn. It will go away entirely
// soon.
namespace xpc {

void DispatchScriptErrorEvent(nsPIDOMWindowInner* win,
                              JS::RootingContext* rootingCx,
                              xpc::ErrorReport* xpcReport,
                              JS::Handle<JS::Value> exception,
                              JS::Handle<JSObject*> exceptionStack) {
  nsContentUtils::AddScriptRunner(new ScriptErrorEvent(
      win, rootingCx, xpcReport, exception, exceptionStack));
}

} /* namespace xpc */

#ifdef DEBUG
// A couple of useful functions to call when you're debugging.
nsGlobalWindowInner* JSObject2Win(JSObject* obj) {
  return xpc::WindowOrNull(obj);
}

template <typename T>
void PrintWinURI(T* win) {
  if (!win) {
    printf("No window passed in.\n");
    return;
  }

  nsCOMPtr<Document> doc = win->GetExtantDoc();
  if (!doc) {
    printf("No document in the window.\n");
    return;
  }

  nsIURI* uri = doc->GetDocumentURI();
  if (!uri) {
    printf("Document doesn't have a URI.\n");
    return;
  }

  printf("%s\n", uri->GetSpecOrDefault().get());
}

void PrintWinURIInner(nsGlobalWindowInner* aWin) { return PrintWinURI(aWin); }

void PrintWinURIOuter(nsGlobalWindowOuter* aWin) { return PrintWinURI(aWin); }

template <typename T>
void PrintWinCodebase(T* win) {
  if (!win) {
    printf("No window passed in.\n");
    return;
  }

  nsIPrincipal* prin = win->GetPrincipal();
  if (!prin) {
    printf("Window doesn't have principals.\n");
    return;
  }

  nsCOMPtr<nsIURI> uri;
  prin->GetURI(getter_AddRefs(uri));
  if (!uri) {
    printf("No URI, maybe the system principal.\n");
    return;
  }

  printf("%s\n", uri->GetSpecOrDefault().get());
}

void PrintWinCodebaseInner(nsGlobalWindowInner* aWin) {
  return PrintWinCodebase(aWin);
}

void PrintWinCodebaseOuter(nsGlobalWindowOuter* aWin) {
  return PrintWinCodebase(aWin);
}

void DumpString(const nsAString& str) {
  printf("%s\n", NS_ConvertUTF16toUTF8(str).get());
}
#endif

nsJSContext::nsJSContext(bool aGCOnDestruction,
                         nsIScriptGlobalObject* aGlobalObject)
    : mWindowProxy(nullptr),
      mGCOnDestruction(aGCOnDestruction),
      mGlobalObjectRef(aGlobalObject) {
  EnsureStatics();

  mProcessingScriptTag = false;
  HoldJSObjects(this);
}

nsJSContext::~nsJSContext() {
  mGlobalObjectRef = nullptr;

  Destroy();
}

void nsJSContext::Destroy() {
  if (mGCOnDestruction) {
    PokeGC(JS::GCReason::NSJSCONTEXT_DESTROY, mWindowProxy);
  }

  DropJSObjects(this);
}

// QueryInterface implementation for nsJSContext
NS_IMPL_CYCLE_COLLECTION_CLASS(nsJSContext)

NS_IMPL_CYCLE_COLLECTION_TRACE_BEGIN(nsJSContext)
  NS_IMPL_CYCLE_COLLECTION_TRACE_JS_MEMBER_CALLBACK(mWindowProxy)
NS_IMPL_CYCLE_COLLECTION_TRACE_END

NS_IMPL_CYCLE_COLLECTION_UNLINK_BEGIN(nsJSContext)
  tmp->mGCOnDestruction = false;
  tmp->mWindowProxy = nullptr;
  tmp->Destroy();
  NS_IMPL_CYCLE_COLLECTION_UNLINK(mGlobalObjectRef)
NS_IMPL_CYCLE_COLLECTION_UNLINK_END
NS_IMPL_CYCLE_COLLECTION_TRAVERSE_BEGIN(nsJSContext)
  NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mGlobalObjectRef)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE_END

NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION(nsJSContext)
  NS_INTERFACE_MAP_ENTRY(nsIScriptContext)
  NS_INTERFACE_MAP_ENTRY(nsISupports)
NS_INTERFACE_MAP_END

NS_IMPL_CYCLE_COLLECTING_ADDREF(nsJSContext)
NS_IMPL_CYCLE_COLLECTING_RELEASE(nsJSContext)

#ifdef DEBUG
bool AtomIsEventHandlerName(nsAtom* aName) {
  const char16_t* name = aName->GetUTF16String();

  const char16_t* cp;
  char16_t c;
  for (cp = name; *cp != '\0'; ++cp) {
    c = *cp;
    if ((c < 'A' || c > 'Z') && (c < 'a' || c > 'z')) return false;
  }

  return true;
}
#endif

nsIScriptGlobalObject* nsJSContext::GetGlobalObject() {
  // Note: this could probably be simplified somewhat more; see bug 974327
  // comments 1 and 3.
  if (!mWindowProxy) {
    return nullptr;
  }

  MOZ_ASSERT(mGlobalObjectRef);
  return mGlobalObjectRef;
}

nsresult nsJSContext::SetProperty(JS::Handle<JSObject*> aTarget,
                                  const char* aPropName, nsISupports* aArgs) {
  AutoJSAPI jsapi;
  if (NS_WARN_IF(!jsapi.Init(GetGlobalObject()))) {
    return NS_ERROR_FAILURE;
  }
  JSContext* cx = jsapi.cx();

  JS::RootedVector<JS::Value> args(cx);

  JS::Rooted<JSObject*> global(cx, GetWindowProxy());
  nsresult rv = ConvertSupportsTojsvals(cx, aArgs, global, &args);
  NS_ENSURE_SUCCESS(rv, rv);

  // got the arguments, now attach them.

  for (uint32_t i = 0; i < args.length(); ++i) {
    if (!JS_WrapValue(cx, args[i])) {
      return NS_ERROR_FAILURE;
    }
  }

  JS::Rooted<JSObject*> array(cx, ::JS_NewArrayObject(cx, args));
  if (!array) {
    return NS_ERROR_FAILURE;
  }

  return JS_DefineProperty(cx, aTarget, aPropName, array, 0) ? NS_OK
                                                             : NS_ERROR_FAILURE;
}

nsresult nsJSContext::ConvertSupportsTojsvals(
    JSContext* aCx, nsISupports* aArgs, JS::Handle<JSObject*> aScope,
    JS::MutableHandleVector<JS::Value> aArgsOut) {
  nsresult rv = NS_OK;

  // If the array implements nsIJSArgArray, copy the contents and return.
  nsCOMPtr<nsIJSArgArray> fastArray = do_QueryInterface(aArgs);
  if (fastArray) {
    uint32_t argc;
    JS::Value* argv;
    rv = fastArray->GetArgs(&argc, reinterpret_cast<void**>(&argv));
    if (NS_SUCCEEDED(rv) && !aArgsOut.append(argv, argc)) {
      rv = NS_ERROR_OUT_OF_MEMORY;
    }
    return rv;
  }

  // Take the slower path converting each item.
  // Handle only nsIArray and nsIVariant.  nsIArray is only needed for
  // SetProperty('arguments', ...);

  nsIXPConnect* xpc = nsContentUtils::XPConnect();
  NS_ENSURE_TRUE(xpc, NS_ERROR_UNEXPECTED);

  if (!aArgs) return NS_OK;
  uint32_t argCount;
  // This general purpose function may need to convert an arg array
  // (window.arguments, event-handler args) and a generic property.
  nsCOMPtr<nsIArray> argsArray(do_QueryInterface(aArgs));

  if (argsArray) {
    rv = argsArray->GetLength(&argCount);
    NS_ENSURE_SUCCESS(rv, rv);
    if (argCount == 0) return NS_OK;
  } else {
    argCount = 1;  // the nsISupports which is not an array
  }

  // Use the caller's auto guards to release and unroot.
  if (!aArgsOut.resize(argCount)) {
    return NS_ERROR_OUT_OF_MEMORY;
  }

  if (argsArray) {
    for (uint32_t argCtr = 0; argCtr < argCount && NS_SUCCEEDED(rv); argCtr++) {
      nsCOMPtr<nsISupports> arg;
      JS::MutableHandle<JS::Value> thisVal = aArgsOut[argCtr];
      argsArray->QueryElementAt(argCtr, NS_GET_IID(nsISupports),
                                getter_AddRefs(arg));
      if (!arg) {
        thisVal.setNull();
        continue;
      }
      nsCOMPtr<nsIVariant> variant(do_QueryInterface(arg));
      if (variant != nullptr) {
        rv = xpc->VariantToJS(aCx, aScope, variant, thisVal);
      } else {
        // And finally, support the nsISupportsPrimitives supplied
        // by the AppShell.  It generally will pass only strings, but
        // as we have code for handling all, we may as well use it.
        rv = AddSupportsPrimitiveTojsvals(aCx, arg, thisVal.address());
        if (rv == NS_ERROR_NO_INTERFACE) {
          // something else - probably an event object or similar -
          // just wrap it.
#ifdef DEBUG
          // but first, check its not another nsISupportsPrimitive, as
          // these are now deprecated for use with script contexts.
          nsCOMPtr<nsISupportsPrimitive> prim(do_QueryInterface(arg));
          NS_ASSERTION(prim == nullptr,
                       "Don't pass nsISupportsPrimitives - use nsIVariant!");
#endif
          JSAutoRealm ar(aCx, aScope);
          rv = nsContentUtils::WrapNative(aCx, arg, thisVal);
        }
      }
    }
  } else {
    nsCOMPtr<nsIVariant> variant = do_QueryInterface(aArgs);
    if (variant) {
      rv = xpc->VariantToJS(aCx, aScope, variant, aArgsOut[0]);
    } else {
      NS_ERROR("Not an array, not an interface?");
      rv = NS_ERROR_UNEXPECTED;
    }
  }
  return rv;
}

// This really should go into xpconnect somewhere...
nsresult nsJSContext::AddSupportsPrimitiveTojsvals(JSContext* aCx,
                                                   nsISupports* aArg,
                                                   JS::Value* aArgv) {
  MOZ_ASSERT(aArg, "Empty arg");

  nsCOMPtr<nsISupportsPrimitive> argPrimitive(do_QueryInterface(aArg));
  if (!argPrimitive) return NS_ERROR_NO_INTERFACE;

  uint16_t type;
  argPrimitive->GetType(&type);

  switch (type) {
    case nsISupportsPrimitive::TYPE_CSTRING: {
      nsCOMPtr<nsISupportsCString> p(do_QueryInterface(argPrimitive));
      NS_ENSURE_TRUE(p, NS_ERROR_UNEXPECTED);

      nsAutoCString data;

      p->GetData(data);

      JSString* str = ::JS_NewStringCopyN(aCx, data.get(), data.Length());
      NS_ENSURE_TRUE(str, NS_ERROR_OUT_OF_MEMORY);

      aArgv->setString(str);

      break;
    }
    case nsISupportsPrimitive::TYPE_STRING: {
      nsCOMPtr<nsISupportsString> p(do_QueryInterface(argPrimitive));
      NS_ENSURE_TRUE(p, NS_ERROR_UNEXPECTED);

      nsAutoString data;

      p->GetData(data);

      // cast is probably safe since wchar_t and char16_t are expected
      // to be equivalent; both unsigned 16-bit entities
      JSString* str = ::JS_NewUCStringCopyN(aCx, data.get(), data.Length());
      NS_ENSURE_TRUE(str, NS_ERROR_OUT_OF_MEMORY);

      aArgv->setString(str);
      break;
    }
    case nsISupportsPrimitive::TYPE_PRBOOL: {
      nsCOMPtr<nsISupportsPRBool> p(do_QueryInterface(argPrimitive));
      NS_ENSURE_TRUE(p, NS_ERROR_UNEXPECTED);

      bool data;

      p->GetData(&data);

      aArgv->setBoolean(data);

      break;
    }
    case nsISupportsPrimitive::TYPE_PRUINT8: {
      nsCOMPtr<nsISupportsPRUint8> p(do_QueryInterface(argPrimitive));
      NS_ENSURE_TRUE(p, NS_ERROR_UNEXPECTED);

      uint8_t data;

      p->GetData(&data);

      aArgv->setInt32(data);

      break;
    }
    case nsISupportsPrimitive::TYPE_PRUINT16: {
      nsCOMPtr<nsISupportsPRUint16> p(do_QueryInterface(argPrimitive));
      NS_ENSURE_TRUE(p, NS_ERROR_UNEXPECTED);

      uint16_t data;

      p->GetData(&data);

      aArgv->setInt32(data);

      break;
    }
    case nsISupportsPrimitive::TYPE_PRUINT32: {
      nsCOMPtr<nsISupportsPRUint32> p(do_QueryInterface(argPrimitive));
      NS_ENSURE_TRUE(p, NS_ERROR_UNEXPECTED);

      uint32_t data;

      p->GetData(&data);

      aArgv->setInt32(data);

      break;
    }
    case nsISupportsPrimitive::TYPE_CHAR: {
      nsCOMPtr<nsISupportsChar> p(do_QueryInterface(argPrimitive));
      NS_ENSURE_TRUE(p, NS_ERROR_UNEXPECTED);

      char data;

      p->GetData(&data);

      JSString* str = ::JS_NewStringCopyN(aCx, &data, 1);
      NS_ENSURE_TRUE(str, NS_ERROR_OUT_OF_MEMORY);

      aArgv->setString(str);

      break;
    }
    case nsISupportsPrimitive::TYPE_PRINT16: {
      nsCOMPtr<nsISupportsPRInt16> p(do_QueryInterface(argPrimitive));
      NS_ENSURE_TRUE(p, NS_ERROR_UNEXPECTED);

      int16_t data;

      p->GetData(&data);

      aArgv->setInt32(data);

      break;
    }
    case nsISupportsPrimitive::TYPE_PRINT32: {
      nsCOMPtr<nsISupportsPRInt32> p(do_QueryInterface(argPrimitive));
      NS_ENSURE_TRUE(p, NS_ERROR_UNEXPECTED);

      int32_t data;

      p->GetData(&data);

      aArgv->setInt32(data);

      break;
    }
    case nsISupportsPrimitive::TYPE_FLOAT: {
      nsCOMPtr<nsISupportsFloat> p(do_QueryInterface(argPrimitive));
      NS_ENSURE_TRUE(p, NS_ERROR_UNEXPECTED);

      float data;

      p->GetData(&data);

      *aArgv = ::JS_NumberValue(data);

      break;
    }
    case nsISupportsPrimitive::TYPE_DOUBLE: {
      nsCOMPtr<nsISupportsDouble> p(do_QueryInterface(argPrimitive));
      NS_ENSURE_TRUE(p, NS_ERROR_UNEXPECTED);

      double data;

      p->GetData(&data);

      *aArgv = ::JS_NumberValue(data);

      break;
    }
    case nsISupportsPrimitive::TYPE_INTERFACE_POINTER: {
      nsCOMPtr<nsISupportsInterfacePointer> p(do_QueryInterface(argPrimitive));
      NS_ENSURE_TRUE(p, NS_ERROR_UNEXPECTED);

      nsCOMPtr<nsISupports> data;
      nsIID* iid = nullptr;

      p->GetData(getter_AddRefs(data));
      p->GetDataIID(&iid);
      NS_ENSURE_TRUE(iid, NS_ERROR_UNEXPECTED);

      AutoFree iidGuard(iid);  // Free iid upon destruction.

      JS::Rooted<JSObject*> scope(aCx, GetWindowProxy());
      JS::Rooted<JS::Value> v(aCx);
      JSAutoRealm ar(aCx, scope);
      nsresult rv = nsContentUtils::WrapNative(aCx, data, iid, &v);
      NS_ENSURE_SUCCESS(rv, rv);

      *aArgv = v;

      break;
    }
    case nsISupportsPrimitive::TYPE_ID:
    case nsISupportsPrimitive::TYPE_PRUINT64:
    case nsISupportsPrimitive::TYPE_PRINT64:
    case nsISupportsPrimitive::TYPE_PRTIME: {
      NS_WARNING("Unsupported primitive type used");
      aArgv->setNull();
      break;
    }
    default: {
      NS_WARNING("Unknown primitive type used");
      aArgv->setNull();
      break;
    }
  }
  return NS_OK;
}

#ifdef MOZ_JPROF

#  include <signal.h>

inline bool IsJProfAction(struct sigaction* action) {
  return (action->sa_sigaction &&
          (action->sa_flags & (SA_RESTART | SA_SIGINFO)) ==
              (SA_RESTART | SA_SIGINFO));
}

void NS_JProfStartProfiling();
void NS_JProfStopProfiling();
void NS_JProfClearCircular();

static bool JProfStartProfilingJS(JSContext* cx, unsigned argc, JS::Value* vp) {
  NS_JProfStartProfiling();
  return true;
}

void NS_JProfStartProfiling() {
  // Figure out whether we're dealing with SIGPROF, SIGALRM, or
  // SIGPOLL profiling (SIGALRM for JP_REALTIME, SIGPOLL for
  // JP_RTC_HZ)
  struct sigaction action;

  // Must check ALRM before PROF since both are enabled for real-time
  sigaction(SIGALRM, nullptr, &action);
  // printf("SIGALRM: %p, flags = %x\n",action.sa_sigaction,action.sa_flags);
  if (IsJProfAction(&action)) {
    // printf("Beginning real-time jprof profiling.\n");
    raise(SIGALRM);
    return;
  }

  sigaction(SIGPROF, nullptr, &action);
  // printf("SIGPROF: %p, flags = %x\n",action.sa_sigaction,action.sa_flags);
  if (IsJProfAction(&action)) {
    // printf("Beginning process-time jprof profiling.\n");
    raise(SIGPROF);
    return;
  }

  sigaction(SIGPOLL, nullptr, &action);
  // printf("SIGPOLL: %p, flags = %x\n",action.sa_sigaction,action.sa_flags);
  if (IsJProfAction(&action)) {
    // printf("Beginning rtc-based jprof profiling.\n");
    raise(SIGPOLL);
    return;
  }

  printf("Could not start jprof-profiling since JPROF_FLAGS was not set.\n");
}

static bool JProfStopProfilingJS(JSContext* cx, unsigned argc, JS::Value* vp) {
  NS_JProfStopProfiling();
  return true;
}

void NS_JProfStopProfiling() {
  raise(SIGUSR1);
  // printf("Stopped jprof profiling.\n");
}

static bool JProfClearCircularJS(JSContext* cx, unsigned argc, JS::Value* vp) {
  NS_JProfClearCircular();
  return true;
}

void NS_JProfClearCircular() {
  raise(SIGUSR2);
  // printf("cleared jprof buffer\n");
}

static bool JProfSaveCircularJS(JSContext* cx, unsigned argc, JS::Value* vp) {
  // Not ideal...
  NS_JProfStopProfiling();
  NS_JProfStartProfiling();
  return true;
}

static const JSFunctionSpec JProfFunctions[] = {
    JS_FN("JProfStartProfiling", JProfStartProfilingJS, 0, 0),
    JS_FN("JProfStopProfiling", JProfStopProfilingJS, 0, 0),
    JS_FN("JProfClearCircular", JProfClearCircularJS, 0, 0),
    JS_FN("JProfSaveCircular", JProfSaveCircularJS, 0, 0), JS_FS_END};

#endif /* defined(MOZ_JPROF) */

nsresult nsJSContext::InitClasses(JS::Handle<JSObject*> aGlobalObj) {
  AutoJSAPI jsapi;
  jsapi.Init();
  JSContext* cx = jsapi.cx();
  JSAutoRealm ar(cx, aGlobalObj);

#ifdef MOZ_JPROF
  // Attempt to initialize JProf functions
  ::JS_DefineFunctions(cx, aGlobalObj, JProfFunctions);
#endif

  return NS_OK;
}

bool nsJSContext::GetProcessingScriptTag() { return mProcessingScriptTag; }

void nsJSContext::SetProcessingScriptTag(bool aFlag) {
  mProcessingScriptTag = aFlag;
}

void FullGCTimerFired(nsITimer* aTimer, void* aClosure) {
  nsJSContext::KillFullGCTimer();
  MOZ_ASSERT(!aClosure, "Don't pass a closure to FullGCTimerFired");
  nsJSContext::GarbageCollectNow(JS::GCReason::FULL_GC_TIMER,
                                 nsJSContext::IncrementalGC);
}

// static
void nsJSContext::SetLowMemoryState(bool aState) {
  JSContext* cx = danger::GetJSContext();
  JS::SetLowMemoryState(cx, aState);
}

// static
void nsJSContext::GarbageCollectNow(JS::GCReason aReason,
                                    IsIncremental aIncremental,
                                    IsShrinking aShrinking,
                                    int64_t aSliceMillis) {
  AUTO_PROFILER_LABEL_DYNAMIC_CSTR_NONSENSITIVE(
      "nsJSContext::GarbageCollectNow", GCCC, JS::ExplainGCReason(aReason));

  MOZ_ASSERT_IF(aSliceMillis, aIncremental == IncrementalGC);

  KillGCTimer();

  // We use danger::GetJSContext() since AutoJSAPI will assert if the current
  // thread's context is null (such as during shutdown).
  JSContext* cx = danger::GetJSContext();

  if (!nsContentUtils::XPConnect() || !cx) {
    return;
  }

  if (sCCLockedOut && aIncremental == IncrementalGC) {
    // We're in the middle of incremental GC. Do another slice.
    JS::PrepareForIncrementalGC(cx);
    JS::IncrementalGCSlice(cx, aReason, aSliceMillis);
    return;
  }

  JSGCInvocationKind gckind = aShrinking == ShrinkingGC ? GC_SHRINK : GC_NORMAL;

  if (aIncremental == NonIncrementalGC ||
      aReason == JS::GCReason::FULL_GC_TIMER) {
    sNeedsFullGC = true;
  }

  if (sNeedsFullGC) {
    JS::PrepareForFullGC(cx);
  }

  if (aIncremental == IncrementalGC) {
    JS::StartIncrementalGC(cx, gckind, aReason, aSliceMillis);
  } else {
    JS::NonIncrementalGC(cx, gckind, aReason);
  }
}

static void FinishAnyIncrementalGC() {
  AUTO_PROFILER_LABEL("FinishAnyIncrementalGC", GCCC);

  if (sCCLockedOut) {
    AutoJSAPI jsapi;
    jsapi.Init();

    // We're in the middle of an incremental GC, so finish it.
    JS::PrepareForIncrementalGC(jsapi.cx());
    JS::FinishIncrementalGC(jsapi.cx(), JS::GCReason::CC_FORCED);
  }
}

static inline js::SliceBudget BudgetFromDuration(TimeDuration duration) {
  return js::SliceBudget(js::TimeBudget(duration.ToMilliseconds()));
}

static void FireForgetSkippable(uint32_t aSuspected, bool aRemoveChildless,
                                TimeStamp aDeadline) {
  AUTO_PROFILER_TRACING(
      "CC", aDeadline.IsNull() ? "ForgetSkippable" : "IdleForgetSkippable",
      GCCC);
  TimeStamp startTimeStamp = TimeStamp::Now();

  static uint32_t sForgetSkippableCounter = 0;
  static TimeStamp sForgetSkippableFrequencyStartTime;
  static TimeStamp sLastForgetSkippableEndTime;
  static const TimeDuration minute = TimeDuration::FromSeconds(60.0f);

  if (sForgetSkippableFrequencyStartTime.IsNull()) {
    sForgetSkippableFrequencyStartTime = startTimeStamp;
  } else if (startTimeStamp - sForgetSkippableFrequencyStartTime > minute) {
    TimeStamp startPlusMinute = sForgetSkippableFrequencyStartTime + minute;

    // If we had forget skippables only at the beginning of the interval, we
    // still want to use the whole time, minute or more, for frequency
    // calculation. sLastForgetSkippableEndTime is needed if forget skippable
    // takes enough time to push the interval to be over a minute.
    TimeStamp endPoint = startPlusMinute > sLastForgetSkippableEndTime
                             ? startPlusMinute
                             : sLastForgetSkippableEndTime;

    // Duration in minutes.
    double duration =
        (endPoint - sForgetSkippableFrequencyStartTime).ToSeconds() / 60;
    uint32_t frequencyPerMinute = uint32_t(sForgetSkippableCounter / duration);
    Telemetry::Accumulate(Telemetry::FORGET_SKIPPABLE_FREQUENCY,
                          frequencyPerMinute);
    sForgetSkippableCounter = 0;
    sForgetSkippableFrequencyStartTime = startTimeStamp;
  }
  ++sForgetSkippableCounter;

  FinishAnyIncrementalGC();
  bool earlyForgetSkippable = sCleanupsSinceLastGC < kMajorForgetSkippableCalls;

  TimeDuration budgetTime = aDeadline ? (aDeadline - TimeStamp::Now())
                                      : kForgetSkippableSliceDuration;

  js::SliceBudget budget = BudgetFromDuration(budgetTime);
  nsCycleCollector_forgetSkippable(budget, aRemoveChildless,
                                   earlyForgetSkippable);

  sPreviousSuspectedCount = nsCycleCollector_suspectedCount();
  ++sCleanupsSinceLastGC;

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

  TimeDuration duration = now - startTimeStamp;

  uint32_t removedPurples = aSuspected - sPreviousSuspectedCount;
  sCCStats.UpdateAfterForgetSkippable(duration, removedPurples);

  if (duration.ToSeconds()) {
    TimeDuration idleDuration;
    if (!aDeadline.IsNull()) {
      if (aDeadline < now) {
        // This slice overflowed the idle period.
        if (aDeadline > startTimeStamp) {
          idleDuration = aDeadline - startTimeStamp;
        }
      } else {
        idleDuration = duration;
      }
    }

    uint32_t percent =
        uint32_t(idleDuration.ToSeconds() / duration.ToSeconds() * 100);
    Telemetry::Accumulate(Telemetry::FORGET_SKIPPABLE_DURING_IDLE, percent);
  }
}

MOZ_ALWAYS_INLINE
static TimeDuration TimeBetween(TimeStamp start, TimeStamp end) {
  MOZ_ASSERT(end >= start);
  return end - start;
}

static TimeDuration TimeUntilNow(TimeStamp start) {
  if (start.IsNull()) {
    return TimeDuration();
  }
  return TimeBetween(start, TimeStamp::Now());
}

void CycleCollectorStats::Init() {
  Clear();

  char* env = getenv("MOZ_CCTIMER");
  if (!env) {
    return;
  }
  if (strcmp(env, "none") == 0) {
    mFile = nullptr;
  } else if (strcmp(env, "stdout") == 0) {
    mFile = stdout;
  } else if (strcmp(env, "stderr") == 0) {
    mFile = stderr;
  } else {
    mFile = fopen(env, "a");
    if (!mFile) {
      MOZ_CRASH("Failed to open MOZ_CCTIMER log file.");
    }
  }
}

void CycleCollectorStats::Clear() {
  if (mFile && mFile != stdout && mFile != stderr) {
    fclose(mFile);
  }
  *this = CycleCollectorStats();
}

void CycleCollectorStats::FinishCycleCollectionSlice() {
  if (mBeginSliceTime.IsNull()) {
    // We already called this method from EndCycleCollectionCallback for this
    // slice.
    return;
  }

  mEndSliceTime = TimeStamp::Now();
  TimeDuration duration = mEndSliceTime - mBeginSliceTime;

  if (duration.ToSeconds()) {
    TimeDuration idleDuration;
    if (!mIdleDeadline.IsNull()) {
      if (mIdleDeadline < mEndSliceTime) {
        // This slice overflowed the idle period.
        idleDuration = mIdleDeadline - mBeginSliceTime;
      } else {
        idleDuration = duration;
      }
    }

    uint32_t percent =
        uint32_t(idleDuration.ToSeconds() / duration.ToSeconds() * 100);
    Telemetry::Accumulate(Telemetry::CYCLE_COLLECTOR_SLICE_DURING_IDLE,
                          percent);
  }

  TimeDuration sliceTime = TimeBetween(mBeginSliceTime, mEndSliceTime);
  mMaxSliceTime = std::max(mMaxSliceTime, sliceTime);
  mMaxSliceTimeSinceClear = std::max(mMaxSliceTimeSinceClear, sliceTime);
  mTotalSliceTime += sliceTime;
  mBeginSliceTime = TimeStamp();
}

void CycleCollectorStats::PrepareForCycleCollectionSlice(TimeStamp aDeadline) {
  mBeginSliceTime = TimeStamp::Now();
  mIdleDeadline = aDeadline;

  // Before we begin the cycle collection, make sure there is no active GC.
  if (sCCLockedOut) {
    mAnyLockedOut = true;
    FinishAnyIncrementalGC();
    TimeDuration gcTime = TimeUntilNow(mBeginSliceTime);
    mMaxGCDuration = std::max(mMaxGCDuration, gcTime);
  }
}

void CycleCollectorStats::RunForgetSkippable() {
  // Run forgetSkippable synchronously to reduce the size of the CC graph. This
  // is particularly useful if we recently finished a GC.
  TimeStamp beginForgetSkippable = TimeStamp::Now();
  bool ranSyncForgetSkippable = false;
  while (sCleanupsSinceLastGC < kMajorForgetSkippableCalls) {
    FireForgetSkippable(nsCycleCollector_suspectedCount(), false, TimeStamp());
    ranSyncForgetSkippable = true;
  }

  if (ranSyncForgetSkippable) {
    mMaxSkippableDuration =
        std::max(mMaxSkippableDuration, TimeUntilNow(beginForgetSkippable));
    mRanSyncForgetSkippable = true;
  }
}

void CycleCollectorStats::UpdateAfterForgetSkippable(TimeDuration duration,
                                                     uint32_t aRemovedPurples) {
  if (!mMinForgetSkippableTime || mMinForgetSkippableTime > duration) {
    mMinForgetSkippableTime = duration;
  }
  if (!mMaxForgetSkippableTime || mMaxForgetSkippableTime < duration) {
    mMaxForgetSkippableTime = duration;
  }
  mTotalForgetSkippableTime += duration;
  ++mForgetSkippableBeforeCC;

  mRemovedPurples += aRemovedPurples;
}

void CycleCollectorStats::SendTelemetry(TimeDuration aCCNowDuration) const {
  Telemetry::Accumulate(Telemetry::CYCLE_COLLECTOR_FINISH_IGC, mAnyLockedOut);
  Telemetry::Accumulate(Telemetry::CYCLE_COLLECTOR_SYNC_SKIPPABLE,
                        mRanSyncForgetSkippable);
  Telemetry::Accumulate(Telemetry::CYCLE_COLLECTOR_FULL,
                        aCCNowDuration.ToMilliseconds());
  Telemetry::Accumulate(Telemetry::CYCLE_COLLECTOR_MAX_PAUSE,
                        mMaxSliceTime.ToMilliseconds());

  if (!sLastCCEndTime.IsNull()) {
    TimeDuration timeBetween = TimeBetween(sLastCCEndTime, mBeginTime);
    Telemetry::Accumulate(Telemetry::CYCLE_COLLECTOR_TIME_BETWEEN,
                          timeBetween.ToSeconds());
  }

  Telemetry::Accumulate(Telemetry::FORGET_SKIPPABLE_MAX,
                        mMaxForgetSkippableTime.ToMilliseconds());
}

void CycleCollectorStats::MaybeLogStats(const CycleCollectorResults& aResults,
                                        uint32_t aCleanups) const {
  if (!StaticPrefs::javascript_options_mem_log() && !sCCStats.mFile) {
    return;
  }

  TimeDuration delta = GetCollectionTimeDelta();

  nsCString mergeMsg;
  if (aResults.mMergedZones) {
    mergeMsg.AssignLiteral(" merged");
  }

  nsCString gcMsg;
  if (aResults.mForcedGC) {
    gcMsg.AssignLiteral(", forced a GC");
  }

  const char16_t* kFmt =
      u"CC(T+%.1f)[%s-%i] max pause: %.fms, total time: %.fms, slices: %lu, "
      u"suspected: %lu, visited: %lu RCed and %lu%s GCed, collected: %lu "
      u"RCed and %lu GCed (%lu|%lu|%lu waiting for GC)%s\n"
      u"ForgetSkippable %lu times before CC, min: %.f ms, max: %.f ms, avg: "
      u"%.f ms, total: %.f ms, max sync: %.f ms, removed: %lu";
  nsString msg;
  nsTextFormatter::ssprintf(
      msg, kFmt, delta.ToMicroseconds() / PR_USEC_PER_SEC,
      ProcessNameForCollectorLog(), getpid(), mMaxSliceTime.ToMilliseconds(),
      mTotalSliceTime.ToMilliseconds(), aResults.mNumSlices, mSuspected,
      aResults.mVisitedRefCounted, aResults.mVisitedGCed, mergeMsg.get(),
      aResults.mFreedRefCounted, aResults.mFreedGCed, sCCollectedWaitingForGC,
      sCCollectedZonesWaitingForGC, sLikelyShortLivingObjectsNeedingGC,
      gcMsg.get(), mForgetSkippableBeforeCC,
      mMinForgetSkippableTime.ToMilliseconds(),
      mMaxForgetSkippableTime.ToMilliseconds(),
      mTotalForgetSkippableTime.ToMilliseconds() / aCleanups,
      mTotalForgetSkippableTime.ToMilliseconds(),
      mMaxSkippableDuration.ToMilliseconds(), mRemovedPurples);
  if (StaticPrefs::javascript_options_mem_log()) {
    nsCOMPtr<nsIConsoleService> cs =
        do_GetService(NS_CONSOLESERVICE_CONTRACTID);
    if (cs) {
      cs->LogStringMessage(msg.get());
    }
  }
  if (mFile) {
    fprintf(mFile, "%s\n", NS_ConvertUTF16toUTF8(msg).get());
  }
}

void CycleCollectorStats::MaybeNotifyStats(
    const CycleCollectorResults& aResults, TimeDuration aCCNowDuration,
    uint32_t aCleanups) const {
  if (!StaticPrefs::javascript_options_mem_notify()) {
    return;
  }

  const char16_t* kJSONFmt =
      u"{ \"timestamp\": %llu, "
      u"\"duration\": %.f, "
      u"\"max_slice_pause\": %.f, "
      u"\"total_slice_pause\": %.f, "
      u"\"max_finish_gc_duration\": %.f, "
      u"\"max_sync_skippable_duration\": %.f, "
      u"\"suspected\": %lu, "
      u"\"visited\": { "
      u"\"RCed\": %lu, "
      u"\"GCed\": %lu }, "
      u"\"collected\": { "
      u"\"RCed\": %lu, "
      u"\"GCed\": %lu }, "
      u"\"waiting_for_gc\": %lu, "
      u"\"zones_waiting_for_gc\": %lu, "
      u"\"short_living_objects_waiting_for_gc\": %lu, "
      u"\"forced_gc\": %d, "
      u"\"forget_skippable\": { "
      u"\"times_before_cc\": %lu, "
      u"\"min\": %.f, "
      u"\"max\": %.f, "
      u"\"avg\": %.f, "
      u"\"total\": %.f, "
      u"\"removed\": %lu } "
      u"}";

  nsString json;
  nsTextFormatter::ssprintf(
      json, kJSONFmt, PR_Now(), aCCNowDuration.ToMilliseconds(),
      mMaxSliceTime.ToMilliseconds(), mTotalSliceTime.ToMilliseconds(),
      mMaxGCDuration.ToMilliseconds(), mMaxSkippableDuration.ToMilliseconds(),
      mSuspected, aResults.mVisitedRefCounted, aResults.mVisitedGCed,
      aResults.mFreedRefCounted, aResults.mFreedGCed, sCCollectedWaitingForGC,
      sCCollectedZonesWaitingForGC, sLikelyShortLivingObjectsNeedingGC,
      aResults.mForcedGC, mForgetSkippableBeforeCC,
      mMinForgetSkippableTime.ToMilliseconds(),
      mMaxForgetSkippableTime.ToMilliseconds(),
      mTotalForgetSkippableTime.ToMilliseconds() / aCleanups,
      mTotalForgetSkippableTime.ToMilliseconds(), mRemovedPurples);
  nsCOMPtr<nsIObserverService> observerService =
      mozilla::services::GetObserverService();
  if (observerService) {
    observerService->NotifyObservers(nullptr, "cycle-collection-statistics",
                                     json.get());
  }
}

// static
void nsJSContext::CycleCollectNow(nsICycleCollectorListener* aListener) {
  if (!NS_IsMainThread()) {
    return;
  }

  AUTO_PROFILER_LABEL("nsJSContext::CycleCollectNow", GCCC);

  sCCStats.PrepareForCycleCollectionSlice(TimeStamp());
  nsCycleCollector_collect(aListener);
  sCCStats.FinishCycleCollectionSlice();
}

// static
void nsJSContext::RunCycleCollectorSlice(TimeStamp aDeadline) {
  if (!NS_IsMainThread()) {
    return;
  }

  AUTO_PROFILER_TRACING("CC", aDeadline.IsNull() ? "CCSlice" : "IdleCCSlice",
                        GCCC);

  AUTO_PROFILER_LABEL("nsJSContext::RunCycleCollectorSlice", GCCC);

  sCCStats.PrepareForCycleCollectionSlice(aDeadline);

  // Decide how long we want to budget for this slice. By default,
  // use an unlimited budget.
  js::SliceBudget budget = js::SliceBudget::unlimited();

  if (sIncrementalCC) {
    TimeDuration baseBudget = kICCSliceBudget;
    if (!aDeadline.IsNull()) {
      baseBudget = aDeadline - TimeStamp::Now();
    }

    if (sCCStats.mBeginTime.IsNull()) {
      // If no CC is in progress, use the standard slice time.
      budget = BudgetFromDuration(baseBudget);
    } else {
      TimeStamp now = TimeStamp::Now();

      // Only run a limited slice if we're within the max running time.
      TimeDuration runningTime = TimeBetween(sCCStats.mBeginTime, now);
      if (runningTime < kMaxICCDuration) {
        const TimeDuration maxSlice = TimeDuration::FromMilliseconds(
            MainThreadIdlePeriod::GetLongIdlePeriod());

        // Try to make up for a delay in running this slice.
        double sliceDelayMultiplier =
            TimeBetween(sCCStats.mEndSliceTime, now) / kICCIntersliceDelay;
        TimeDuration delaySliceBudget =
            std::min(baseBudget.MultDouble(sliceDelayMultiplier), maxSlice);

        // Increase slice budgets up to |maxSlice| as we approach
        // half way through the ICC, to avoid large sync CCs.
        double percentToHalfDone =
            std::min(2.0 * (runningTime / kMaxICCDuration), 1.0);
        TimeDuration laterSliceBudget = maxSlice.MultDouble(percentToHalfDone);

        budget = BudgetFromDuration(
            std::max({delaySliceBudget, laterSliceBudget, baseBudget}));
      }
    }
  }

  nsCycleCollector_collectSlice(
      budget,
      aDeadline.IsNull() || (aDeadline - TimeStamp::Now()) < kICCSliceBudget);

  sCCStats.FinishCycleCollectionSlice();
}

// static
void nsJSContext::RunCycleCollectorWorkSlice(int64_t aWorkBudget) {
  if (!NS_IsMainThread()) {
    return;
  }

  AUTO_PROFILER_LABEL("nsJSContext::RunCycleCollectorWorkSlice", GCCC);

  sCCStats.PrepareForCycleCollectionSlice();

  js::SliceBudget budget = js::SliceBudget(js::WorkBudget(aWorkBudget));
  nsCycleCollector_collectSlice(budget);

  sCCStats.FinishCycleCollectionSlice();
}

void nsJSContext::ClearMaxCCSliceTime() {
  sCCStats.mMaxSliceTimeSinceClear = TimeDuration();
}

uint32_t nsJSContext::GetMaxCCSliceTimeSinceClear() {
  return sCCStats.mMaxSliceTimeSinceClear.ToMilliseconds();
}

static bool ICCRunnerFired(TimeStamp aDeadline) {
  if (sDidShutdown) {
    return false;
  }

  // Ignore ICC timer fires during IGC. Running ICC during an IGC will cause us
  // to synchronously finish the GC, which is bad.

  if (sCCLockedOut) {
    TimeStamp now = TimeStamp::Now();
    if (!sCCLockedOutTime) {
      sCCLockedOutTime = now;
      return false;
    }
    if (now - sCCLockedOutTime < kMaxCCLockedoutTime) {
      return false;
    }
  }

  nsJSContext::RunCycleCollectorSlice(aDeadline);
  return true;
}

// static
void nsJSContext::BeginCycleCollectionCallback() {
  MOZ_ASSERT(NS_IsMainThread());

  sCCStats.mBeginTime = sCCStats.mBeginSliceTime.IsNull()
                            ? TimeStamp::Now()
                            : sCCStats.mBeginSliceTime;
  sCCStats.mSuspected = nsCycleCollector_suspectedCount();

  KillCCRunner();

  sCCStats.RunForgetSkippable();

  MOZ_ASSERT(!sICCRunner,
             "Tried to create a new ICC timer when one already existed.");

  if (sShuttingDown) {
    return;
  }

  // Create an ICC timer even if ICC is globally disabled, because we could be
  // manually triggering an incremental collection, and we want to be sure to
  // finish it.
  sICCRunner = IdleTaskRunner::Create(
      ICCRunnerFired, "BeginCycleCollectionCallback::ICCRunnerFired",
      kICCIntersliceDelay.ToMilliseconds(),
      kIdleICCSliceBudget.ToMilliseconds(), true, [] { return sShuttingDown; },
      TaskCategory::GarbageCollection);
}

// static
void nsJSContext::EndCycleCollectionCallback(CycleCollectorResults& aResults) {
  MOZ_ASSERT(NS_IsMainThread());

  nsJSContext::KillICCRunner();

  // Update timing information for the current slice before we log it, if
  // we previously called PrepareForCycleCollectionSlice(). During shutdown
  // CCs, this won't happen.
  sCCStats.FinishCycleCollectionSlice();

  sCCollectedWaitingForGC += aResults.mFreedGCed;
  sCCollectedZonesWaitingForGC += aResults.mFreedJSZones;

  TimeStamp endCCTimeStamp = TimeStamp::Now();
  TimeDuration ccNowDuration = TimeBetween(sCCStats.mBeginTime, endCCTimeStamp);

  if (NeedsGCAfterCC()) {
    MOZ_ASSERT(StaticPrefs::javascript_options_gc_delay() >
                   kMaxICCDuration.ToMilliseconds(),
               "A max duration ICC shouldn't reduce GC delay to 0");

    PokeGC(JS::GCReason::CC_WAITING, nullptr,
           StaticPrefs::javascript_options_gc_delay() -
               std::min(ccNowDuration, kMaxICCDuration).ToMilliseconds());
  }

  // Log information about the CC via telemetry, JSON and the console.

  sCCStats.SendTelemetry(ccNowDuration);

  uint32_t cleanups = std::max(sCCStats.mForgetSkippableBeforeCC, 1u);

  sCCStats.MaybeLogStats(aResults, cleanups);

  sCCStats.MaybeNotifyStats(aResults, ccNowDuration, cleanups);

  // Update global state to indicate we have just run a cycle collection.
  sLastCCEndTime = endCCTimeStamp;
  sNeedsFullCC = false;
  sNeedsGCAfterCC = false;
  sCCStats.Clear();
}

// static
bool InterSliceGCRunnerFired(TimeStamp aDeadline, void* aData) {
  MOZ_ASSERT(sActiveIntersliceGCBudget);
  // We use longer budgets when the CC has been locked out but the CC has tried
  // to run since that means we may have significant amount garbage to collect
  // and better to GC in several longer slices than in a very long one.
  TimeDuration budget = aDeadline.IsNull() ? sActiveIntersliceGCBudget * 2
                                           : aDeadline - TimeStamp::Now();
  if (sCCLockedOut && sCCLockedOutTime) {
    TimeDuration lockedTime = TimeStamp::Now() - sCCLockedOutTime;
    TimeDuration maxSliceGCBudget = sActiveIntersliceGCBudget * 10;
    double percentOfLockedTime =
        std::min(lockedTime / kMaxCCLockedoutTime, 1.0);
    budget = std::max(budget, maxSliceGCBudget.MultDouble(percentOfLockedTime));
  }

  TimeStamp startTimeStamp = TimeStamp::Now();
  TimeDuration duration = sGCUnnotifiedTotalTime;
  uintptr_t reason = reinterpret_cast<uintptr_t>(aData);
  nsJSContext::GarbageCollectNow(
      aData ? static_cast<JS::GCReason>(reason) : JS::GCReason::INTER_SLICE_GC,
      nsJSContext::IncrementalGC, nsJSContext::NonShrinkingGC,
      budget.ToMilliseconds());

  sGCUnnotifiedTotalTime = TimeDuration();
  TimeStamp now = TimeStamp::Now();
  TimeDuration sliceDuration = now - startTimeStamp;
  duration += sliceDuration;
  if (duration.ToSeconds()) {
    TimeDuration idleDuration;
    if (!aDeadline.IsNull()) {
      if (aDeadline < now) {
        // This slice overflowed the idle period.
        idleDuration = aDeadline - startTimeStamp;
      } else {
        // Note, we don't want to use duration here, since it may contain
        // data also from JS engine triggered GC slices.
        idleDuration = sliceDuration;
      }
    }

    uint32_t percent =
        uint32_t(idleDuration.ToSeconds() / duration.ToSeconds() * 100);
    Telemetry::Accumulate(Telemetry::GC_SLICE_DURING_IDLE, percent);
  }

  // If the GC doesn't have any more work to do on the foreground thread (and
  // e.g. is waiting for background sweeping to finish) then return false to
  // make IdleTaskRunner postpone the next call a bit.
  JSContext* cx = danger::GetJSContext();
  return JS::IncrementalGCHasForegroundWork(cx);
}

// static
void GCTimerFired(nsITimer* aTimer, void* aClosure) {
  nsJSContext::KillGCTimer();
  if (sShuttingDown) {
    nsJSContext::KillInterSliceGCRunner();
    return;
  }

  if (sInterSliceGCRunner) {
    return;
  }

  // Now start the actual GC after initial timer has fired.
  sInterSliceGCRunner = IdleTaskRunner::Create(
      [aClosure](TimeStamp aDeadline) {
        return InterSliceGCRunnerFired(aDeadline, aClosure);
      },
      "GCTimerFired::InterSliceGCRunnerFired",
      StaticPrefs::javascript_options_gc_delay_interslice(),
      sActiveIntersliceGCBudget.ToMilliseconds(), true,
      [] { return sShuttingDown; }, TaskCategory::GarbageCollection);
}

// static
void ShrinkingGCTimerFired(nsITimer* aTimer, void* aClosure) {
  nsJSContext::KillShrinkingGCTimer();
  sIsCompactingOnUserInactive = true;
  nsJSContext::GarbageCollectNow(JS::GCReason::USER_INACTIVE,
                                 nsJSContext::IncrementalGC,
                                 nsJSContext::ShrinkingGC);
}

static bool ShouldTriggerCC(uint32_t aSuspected) {
  return sNeedsFullCC || aSuspected > kCCPurpleLimit ||
         (aSuspected > kCCForcedPurpleLimit &&
          TimeUntilNow(sLastCCEndTime) > kCCForced);
}

static inline bool ShouldFireForgetSkippable(uint32_t aSuspected) {
  // Only do a forget skippable if there are more than a few new objects
  // or we're doing the initial forget skippables.
  return ((sPreviousSuspectedCount + 100) <= aSuspected) ||
         sCleanupsSinceLastGC < kMajorForgetSkippableCalls;
}

static inline bool IsLastEarlyCCTimer(int32_t aCurrentFireCount) {
  int32_t numEarlyTimerFires =
      std::max(int32_t(sCCDelay / kCCSkippableDelay) - 2, 1);

  return aCurrentFireCount >= numEarlyTimerFires;
}

static void ActivateCCRunner() {
  MOZ_ASSERT(sCCRunnerState == CCRunnerState::Inactive);
  sCCRunnerState = CCRunnerState::EarlyTimer;
  sCCDelay = kCCDelay;
  sCCRunnerEarlyFireCount = 0;
}

static bool CCRunnerFired(TimeStamp aDeadline) {
  if (sDidShutdown) {
    return false;
  }

  if (sCCLockedOut) {
    TimeStamp now = TimeStamp::Now();
    if (!sCCLockedOutTime) {
      // Reset our state so that we run forgetSkippable often enough before
      // CC. Because of reduced sCCDelay forgetSkippable will be called just a
      // few times. kMaxCCLockedoutTime limit guarantees that we end up calling
      // forgetSkippable and CycleCollectNow eventually.
      sCCRunnerState = CCRunnerState::EarlyTimer;
      sCCRunnerEarlyFireCount = 0;
      sCCDelay = kCCDelay / int64_t(3);
      sCCLockedOutTime = now;
      return false;
    }

    if (now - sCCLockedOutTime < kMaxCCLockedoutTime) {
      return false;
    }
  }

  bool didDoWork = false;
  bool finished = false;

  uint32_t suspected = nsCycleCollector_suspectedCount();

  switch (sCCRunnerState) {
    case CCRunnerState::EarlyTimer:
      ++sCCRunnerEarlyFireCount;
      if (IsLastEarlyCCTimer(sCCRunnerEarlyFireCount)) {
        sCCRunnerState = CCRunnerState::LateTimer;
      }

      if (ShouldFireForgetSkippable(suspected)) {
        FireForgetSkippable(suspected, /* aRemoveChildless = */ false,
                            aDeadline);
        didDoWork = true;
        break;
      }

      if (aDeadline.IsNull()) {
        break;
      }

      // If we're called during idle time, try to find some work to do by
      // advancing to the next state, effectively bypassing some possible forget
      // skippable calls.
      MOZ_ASSERT(!didDoWork);

      sCCRunnerState = CCRunnerState::LateTimer;
      MOZ_FALLTHROUGH;

    case CCRunnerState::LateTimer:
      if (!ShouldTriggerCC(suspected) && ShouldFireForgetSkippable(suspected)) {
        FireForgetSkippable(suspected, /* aRemoveChildless = */ false,
                            aDeadline);
        didDoWork = true;
        finished = true;
        break;
      }

      FireForgetSkippable(suspected, /* aRemoveChildless = */ true, aDeadline);
      didDoWork = true;
      if (!ShouldTriggerCC(nsCycleCollector_suspectedCount())) {
        finished = true;
        break;
      }

      // Our efforts to avoid a CC have failed, so we return to let the
      // timer fire once more to trigger a CC.
      sCCRunnerState = CCRunnerState::FinalTimer;

      if (!aDeadline.IsNull() && TimeStamp::Now() < aDeadline) {
        // Clear content unbinder before the first CC slice.
        Element::ClearContentUnbinder();

        if (TimeStamp::Now() < aDeadline) {
          // And trigger deferred deletion too.
          nsCycleCollector_doDeferredDeletion();
        }
      }

      break;

    case CCRunnerState::FinalTimer:
      if (!ShouldTriggerCC(suspected) && ShouldFireForgetSkippable(suspected)) {
        FireForgetSkippable(suspected, /* aRemoveChildless = */ false,
                            aDeadline);
        didDoWork = true;
        finished = true;
        break;
      }

      // We are in the final timer fire and still meet the conditions for
      // triggering a CC. Let RunCycleCollectorSlice finish the current IGC, if
      // any because that will allow us to include the GC time in the CC pause.
      nsJSContext::RunCycleCollectorSlice(aDeadline);
      didDoWork = true;
      finished = true;
      break;

    default:
      MOZ_CRASH("Unexpected CCRunner state");
  }

  if (finished) {
    sPreviousSuspectedCount = 0;
    nsJSContext::KillCCRunner();
    if (!didDoWork) {
      sLastForgetSkippableCycleEndTime = TimeStamp::Now();
    }
  }

  return didDoWork;
}

// static
uint32_t nsJSContext::CleanupsSinceLastGC() { return sCleanupsSinceLastGC; }

// Check all of the various collector timers/runners and see if they are waiting
// to fire. This does not check sFullGCTimer, as that's a more expensive
// collection we run on a long timer.

// static
void nsJSContext::RunNextCollectorTimer(JS::GCReason aReason,
                                        mozilla::TimeStamp aDeadline) {
  if (sShuttingDown) {
    return;
  }

  if (sGCTimer) {
    if (aReason == JS::GCReason::DOM_WINDOW_UTILS) {
      // Force full GCs when called from reftests so that we collect dead zones
      // that have not been scheduled for collection.
      sNeedsFullGC = true;
    }
    GCTimerFired(nullptr, reinterpret_cast<void*>(aReason));
    return;
  }

  nsCOMPtr<nsIRunnable> runnable;
  if (sInterSliceGCRunner) {
    sInterSliceGCRunner->SetDeadline(aDeadline);
    runnable = sInterSliceGCRunner;
  } else {
    // Check the CC timers after the GC timers, because the CC timers won't do
    // anything if a GC is in progress.
    MOZ_ASSERT(!sCCLockedOut,
               "Don't check the CC timers if the CC is locked out.");

    if (sCCRunner) {
      MOZ_ASSERT(!sICCRunner,
                 "Shouldn't have both sCCRunner and sICCRunner active at the "
                 "same time");
      sCCRunner->SetDeadline(aDeadline);
      runnable = sCCRunner;
    } else if (sICCRunner) {
      sICCRunner->SetDeadline(aDeadline);
      runnable = sICCRunner;
    }
  }

  if (runnable) {
    runnable->Run();
  }
}

// static
void nsJSContext::MaybeRunNextCollectorSlice(nsIDocShell* aDocShell,
                                             JS::GCReason aReason) {
  if (!aDocShell || !XRE_IsContentProcess()) {
    return;
  }

  nsCOMPtr<nsIDocShellTreeItem> root;
  aDocShell->GetInProcessSameTypeRootTreeItem(getter_AddRefs(root));
  if (root == aDocShell) {
    // We don't want to run collectors when loading the top level page.
    return;
  }

  Document* rootDocument = root->GetDocument();
  if (!rootDocument ||
      rootDocument->GetReadyStateEnum() != Document::READYSTATE_COMPLETE ||
      rootDocument->IsInBackgroundWindow()) {
    return;
  }

  PresShell* presShell = rootDocument->GetPresShell();
  if (!presShell) {
    return;
  }

  nsViewManager* vm = presShell->GetViewManager();
  if (!vm) {
    return;
  }

  // GetLastUserEventTime returns microseconds.
  uint32_t lastEventTime = 0;
  vm->GetLastUserEventTime(lastEventTime);
  uint32_t currentTime = PR_IntervalToMicroseconds(PR_IntervalNow());
  // Only try to trigger collectors more often if user hasn't interacted with
  // the page for awhile.
  if ((currentTime - lastEventTime) >
      (StaticPrefs::dom_events_user_interaction_interval() *
       PR_USEC_PER_MSEC)) {
    Maybe<TimeStamp> next = nsRefreshDriver::GetNextTickHint();
    // Try to not delay the next RefreshDriver tick, so give a reasonable
    // deadline for collectors.
    if (next.isSome()) {
      nsJSContext::RunNextCollectorTimer(aReason, next.value());
    }
  }
}

// static
void nsJSContext::PokeGC(JS::GCReason aReason, JSObject* aObj,
                         uint32_t aDelay) {
  if (sShuttingDown) {
    return;
  }

  if (aObj) {
    JS::Zone* zone = JS::GetObjectZone(aObj);
    CycleCollectedJSRuntime::Get()->AddZoneWaitingForGC(zone);
  } else if (aReason != JS::GCReason::CC_WAITING) {
    sNeedsFullGC = true;
  }

  if (sGCTimer || sInterSliceGCRunner) {
    // There's already a timer for GC'ing, just return
    return;
  }

  if (sCCRunner) {
    // Make sure CC is called...
    sNeedsFullCC = true;
    // and GC after it.
    sNeedsGCAfterCC = true;
    return;
  }

  if (sICCRunner) {
    // Make sure GC is called after the current CC completes.
    // No need to set sNeedsFullCC because we are currently running a CC.
    sNeedsGCAfterCC = true;
    return;
  }

  static bool first = true;

  NS_NewTimerWithFuncCallback(
      &sGCTimer, GCTimerFired, reinterpret_cast<void*>(aReason),
      aDelay ? aDelay
             : (first ? StaticPrefs::javascript_options_gc_delay_first()
                      : StaticPrefs::javascript_options_gc_delay()),
      nsITimer::TYPE_ONE_SHOT_LOW_PRIORITY, "GCTimerFired",
      SystemGroup::EventTargetFor(TaskCategory::GarbageCollection));

  first = false;
}

// static
void nsJSContext::PokeShrinkingGC() {
  if (sShrinkingGCTimer || sShuttingDown) {
    return;
  }

  NS_NewTimerWithFuncCallback(
      &sShrinkingGCTimer, ShrinkingGCTimerFired, nullptr,
      StaticPrefs::javascript_options_compact_on_user_inactive_delay(),
      nsITimer::TYPE_ONE_SHOT_LOW_PRIORITY, "ShrinkingGCTimerFired",
      SystemGroup::EventTargetFor(TaskCategory::GarbageCollection));
}

// static
void nsJSContext::MaybePokeCC() {
  if (sCCRunner || sICCRunner || !sHasRunGC || sShuttingDown) {
    return;
  }

  // Don't run consecutive CCs too often.
  if (sCleanupsSinceLastGC && !sLastCCEndTime.IsNull()) {
    TimeDuration sinceLastCCEnd = TimeUntilNow(sLastCCEndTime);
    if (sinceLastCCEnd < kCCDelay) {
      return;
    }
  }

  // If GC hasn't run recently and forget skippable only cycle was run,
  // don't start a new cycle too soon.
  if ((sCleanupsSinceLastGC > kMajorForgetSkippableCalls) &&
      !sLastForgetSkippableCycleEndTime.IsNull()) {
    TimeDuration sinceLastForgetSkippableCycle =
        TimeUntilNow(sLastForgetSkippableCycleEndTime);
    if (sinceLastForgetSkippableCycle < kTimeBetweenForgetSkippableCycles) {
      return;
    }
  }

  if (ShouldTriggerCC(nsCycleCollector_suspectedCount())) {

    // We can kill some objects before running forgetSkippable.
    nsCycleCollector_dispatchDeferredDeletion();

    ActivateCCRunner();
    sCCRunner = IdleTaskRunner::Create(
        CCRunnerFired, "MaybePokeCC::CCRunnerFired",
        kCCSkippableDelay.ToMilliseconds(),
        kForgetSkippableSliceDuration.ToMilliseconds(), true,
        [] { return sShuttingDown; }, TaskCategory::GarbageCollection);
  }
}

// static
void nsJSContext::KillGCTimer() {
  if (sGCTimer) {
    sGCTimer->Cancel();
    NS_RELEASE(sGCTimer);
  }
}

void nsJSContext::KillFullGCTimer() {
  if (sFullGCTimer) {
    sFullGCTimer->Cancel();
    NS_RELEASE(sFullGCTimer);
  }
}

void nsJSContext::KillInterSliceGCRunner() {
  if (sInterSliceGCRunner) {
    sInterSliceGCRunner->Cancel();
    sInterSliceGCRunner = nullptr;
  }
}

// static
void nsJSContext::KillShrinkingGCTimer() {
  if (sShrinkingGCTimer) {
    sShrinkingGCTimer->Cancel();
    NS_RELEASE(sShrinkingGCTimer);
  }
}

// static
void nsJSContext::KillCCRunner() {
  sCCLockedOutTime = TimeStamp();
  sCCRunnerState = CCRunnerState::Inactive;
  if (sCCRunner) {
    sCCRunner->Cancel();
    sCCRunner = nullptr;
  }
}

// static
void nsJSContext::KillICCRunner() {
  sCCLockedOutTime = TimeStamp();

  if (sICCRunner) {
    sICCRunner->Cancel();
    sICCRunner = nullptr;
  }
}

class NotifyGCEndRunnable : public Runnable {
  nsString mMessage;

 public:
  explicit NotifyGCEndRunnable(nsString&& aMessage)
      : mozilla::Runnable("NotifyGCEndRunnable"),
        mMessage(std::move(aMessage)) {}

  NS_DECL_NSIRUNNABLE
};

NS_IMETHODIMP
NotifyGCEndRunnable::Run() {
  MOZ_ASSERT(NS_IsMainThread());

  nsCOMPtr<nsIObserverService> observerService =
      mozilla::services::GetObserverService();
  if (!observerService) {
    return NS_OK;
  }

  const char16_t oomMsg[3] = {'{', '}', 0};
  const char16_t* toSend = mMessage.get() ? mMessage.get() : oomMsg;
  observerService->NotifyObservers(nullptr, "garbage-collection-statistics",
                                   toSend);

  return NS_OK;
}

static void DOMGCSliceCallback(JSContext* aCx, JS::GCProgress aProgress,
                               const JS::GCDescription& aDesc) {
  NS_ASSERTION(NS_IsMainThread(), "GCs must run on the main thread");

  switch (aProgress) {
    case JS::GC_CYCLE_BEGIN: {
      // Prevent cycle collections and shrinking during incremental GC.
      sCCLockedOut = true;
      sCurrentGCStartTime = TimeStamp::Now();
      break;
    }

    case JS::GC_CYCLE_END: {
      TimeDuration delta = GetCollectionTimeDelta();

      if (StaticPrefs::javascript_options_mem_log()) {
        nsString gcstats;
        gcstats.Adopt(aDesc.formatSummaryMessage(aCx));
        nsAutoString prefix;
        nsTextFormatter::ssprintf(prefix, u"GC(T+%.1f)[%s-%i] ",
                                  delta.ToSeconds(),
                                  ProcessNameForCollectorLog(), getpid());
        nsString msg = prefix + gcstats;
        nsCOMPtr<nsIConsoleService> cs =
            do_GetService(NS_CONSOLESERVICE_CONTRACTID);
        if (cs) {
          cs->LogStringMessage(msg.get());
        }
      }

      if (!sShuttingDown) {
        if (StaticPrefs::javascript_options_mem_notify() ||
            Telemetry::CanRecordExtended()) {
          nsString json;
          json.Adopt(aDesc.formatJSONTelemetry(aCx, PR_Now()));
          RefPtr<NotifyGCEndRunnable> notify =
              new NotifyGCEndRunnable(std::move(json));
          SystemGroup::Dispatch(TaskCategory::GarbageCollection,
                                notify.forget());
        }
      }

      sCCLockedOut = false;
      sIsCompactingOnUserInactive = false;

      // May need to kill the inter-slice GC runner
      nsJSContext::KillInterSliceGCRunner();

      sCCollectedWaitingForGC = 0;
      sCCollectedZonesWaitingForGC = 0;
      sLikelyShortLivingObjectsNeedingGC = 0;
      sCleanupsSinceLastGC = 0;
      sNeedsFullCC = true;
      sHasRunGC = true;
      nsJSContext::MaybePokeCC();

      if (aDesc.isZone_) {
        if (!sFullGCTimer && !sShuttingDown) {
          NS_NewTimerWithFuncCallback(
              &sFullGCTimer, FullGCTimerFired, nullptr,
              StaticPrefs::javascript_options_gc_delay_full(),
              nsITimer::TYPE_ONE_SHOT_LOW_PRIORITY, "FullGCTimerFired",
              SystemGroup::EventTargetFor(TaskCategory::GarbageCollection));
        }
      } else {
        nsJSContext::KillFullGCTimer();
      }

      if (ShouldTriggerCC(nsCycleCollector_suspectedCount())) {
        nsCycleCollector_dispatchDeferredDeletion();
      }

      if (!aDesc.isZone_) {
        sNeedsFullGC = false;
      }

      Telemetry::Accumulate(Telemetry::GC_IN_PROGRESS_MS,
                            TimeUntilNow(sCurrentGCStartTime).ToMilliseconds());
      break;
    }

    case JS::GC_SLICE_BEGIN:
      break;

    case JS::GC_SLICE_END:
      sGCUnnotifiedTotalTime +=
          aDesc.lastSliceEnd(aCx) - aDesc.lastSliceStart(aCx);

      if (sShuttingDown || aDesc.isComplete_) {
        nsJSContext::KillInterSliceGCRunner();
      } else if (!sInterSliceGCRunner) {
        // If incremental GC wasn't triggered by GCTimerFired, we may not
        // have a runner to ensure all the slices are handled. So, create
        // the runner here.
        sInterSliceGCRunner = IdleTaskRunner::Create(
            [](TimeStamp aDeadline) {
              return InterSliceGCRunnerFired(aDeadline, nullptr);
            },
            "DOMGCSliceCallback::InterSliceGCRunnerFired",
            StaticPrefs::javascript_options_gc_delay_interslice(),
            sActiveIntersliceGCBudget.ToMilliseconds(), true,
            [] { return sShuttingDown; }, TaskCategory::GarbageCollection);
      }

      if (ShouldTriggerCC(nsCycleCollector_suspectedCount())) {
        nsCycleCollector_dispatchDeferredDeletion();
      }

      if (StaticPrefs::javascript_options_mem_log()) {
        nsString gcstats;
        gcstats.Adopt(aDesc.formatSliceMessage(aCx));
        nsAutoString prefix;
        nsTextFormatter::ssprintf(prefix, u"[%s-%i] ",
                                  ProcessNameForCollectorLog(), getpid());
        nsString msg = prefix + gcstats;
        nsCOMPtr<nsIConsoleService> cs =
            do_GetService(NS_CONSOLESERVICE_CONTRACTID);
        if (cs) {
          cs->LogStringMessage(msg.get());
        }
      }

      break;

    default:
      MOZ_CRASH("Unexpected GCProgress value");
  }

  if (sPrevGCSliceCallback) {
    (*sPrevGCSliceCallback)(aCx, aProgress, aDesc);
  }
}

void nsJSContext::SetWindowProxy(JS::Handle<JSObject*> aWindowProxy) {
  mWindowProxy = aWindowProxy;
}

JSObject* nsJSContext::GetWindowProxy() { return mWindowProxy; }

void nsJSContext::LikelyShortLivingObjectCreated() {
  ++sLikelyShortLivingObjectsNeedingGC;
}

void mozilla::dom::StartupJSEnvironment() {
  // initialize all our statics, so that we can restart XPCOM
  sGCTimer = sShrinkingGCTimer = sFullGCTimer = nullptr;
  sCCLockedOut = false;
  sCCLockedOutTime = TimeStamp();
  sLastCCEndTime = TimeStamp();
  sLastForgetSkippableCycleEndTime = TimeStamp();
  sHasRunGC = false;
  sCCollectedWaitingForGC = 0;
  sCCollectedZonesWaitingForGC = 0;
  sLikelyShortLivingObjectsNeedingGC = 0;
  sNeedsFullCC = false;
  sNeedsFullGC = true;
  sNeedsGCAfterCC = false;
  sIsInitialized = false;
  sDidShutdown = false;
  sShuttingDown = false;
  sCCStats.Init();
}

static void SetGCParameter(JSGCParamKey aParam, uint32_t aValue) {
  AutoJSAPI jsapi;
  jsapi.Init();
  JS_SetGCParameter(jsapi.cx(), aParam, aValue);
}

static void ResetGCParameter(JSGCParamKey aParam) {
  AutoJSAPI jsapi;
  jsapi.Init();
  JS_ResetGCParameter(jsapi.cx(), aParam);
}

static void SetMemoryPrefChangedCallbackMB(const char* aPrefName,
                                           void* aClosure) {
  int32_t prefMB = Preferences::GetInt(aPrefName, -1);
  // handle overflow and negative pref values
  CheckedInt<int32_t> prefB = CheckedInt<int32_t>(prefMB) * 1024 * 1024;
  if (prefB.isValid() && prefB.value() >= 0) {
    SetGCParameter((JSGCParamKey)(uintptr_t)aClosure, prefB.value());
  } else {
    ResetGCParameter((JSGCParamKey)(uintptr_t)aClosure);
  }
}

static void SetMemoryNurseryPrefChangedCallback(const char* aPrefName,
                                                void* aClosure) {
  int32_t prefKB = Preferences::GetInt(aPrefName, -1);
  // handle overflow and negative pref values
  CheckedInt<int32_t> prefB = CheckedInt<int32_t>(prefKB) * 1024;
  if (prefB.isValid() && prefB.value() >= 0) {
    SetGCParameter((JSGCParamKey)(uintptr_t)aClosure, prefB.value());
  } else {
    ResetGCParameter((JSGCParamKey)(uintptr_t)aClosure);
  }
}

static void SetMemoryPrefChangedCallbackInt(const char* aPrefName,
                                            void* aClosure) {
  int32_t pref = Preferences::GetInt(aPrefName, -1);
  // handle overflow and negative pref values
  if (pref >= 0 && pref < 10000) {
    SetGCParameter((JSGCParamKey)(uintptr_t)aClosure, pref);
  } else {
    ResetGCParameter((JSGCParamKey)(uintptr_t)aClosure);
  }
}

static void SetMemoryPrefChangedCallbackBool(const char* aPrefName,
                                             void* aClosure) {
  bool pref = Preferences::GetBool(aPrefName);
  SetGCParameter((JSGCParamKey)(uintptr_t)aClosure, pref);
}

static void SetMemoryGCModePrefChangedCallback(const char* aPrefName,
                                               void* aClosure) {
  bool enableZoneGC =
      Preferences::GetBool("javascript.options.mem.gc_per_zone");
  bool enableIncrementalGC =
      Preferences::GetBool("javascript.options.mem.gc_incremental");
  JSGCMode mode;
  if (enableIncrementalGC) {
    if (enableZoneGC) {
      mode = JSGC_MODE_ZONE_INCREMENTAL;
    } else {
      mode = JSGC_MODE_INCREMENTAL;
    }
  } else {
    if (enableZoneGC) {
      mode = JSGC_MODE_ZONE;
    } else {
      mode = JSGC_MODE_GLOBAL;
    }
  }

  SetGCParameter(JSGC_MODE, mode);
}

static void SetMemoryGCSliceTimePrefChangedCallback(const char* aPrefName,
                                                    void* aClosure) {
  int32_t pref = Preferences::GetInt(aPrefName, -1);
  // handle overflow and negative pref values
  if (pref > 0 && pref < 100000) {
    sActiveIntersliceGCBudget = TimeDuration::FromMilliseconds(pref);
    SetGCParameter(JSGC_SLICE_TIME_BUDGET_MS, pref);
  } else {
    ResetGCParameter(JSGC_SLICE_TIME_BUDGET_MS);
  }
}

static void SetIncrementalCCPrefChangedCallback(const char* aPrefName,
                                                void* aClosure) {
  bool pref = Preferences::GetBool(aPrefName);
  sIncrementalCC = pref;
}

class JSDispatchableRunnable final : public Runnable {
  ~JSDispatchableRunnable() { MOZ_ASSERT(!mDispatchable); }

 public:
  explicit JSDispatchableRunnable(JS::Dispatchable* aDispatchable)
      : mozilla::Runnable("JSDispatchableRunnable"),
        mDispatchable(aDispatchable) {
    MOZ_ASSERT(mDispatchable);
  }

 protected:
  NS_IMETHOD Run() override {
    MOZ_ASSERT(NS_IsMainThread());

    AutoJSAPI jsapi;
    jsapi.Init();

    JS::Dispatchable::MaybeShuttingDown maybeShuttingDown =
        sShuttingDown ? JS::Dispatchable::ShuttingDown
                      : JS::Dispatchable::NotShuttingDown;

    mDispatchable->run(jsapi.cx(), maybeShuttingDown);
    mDispatchable = nullptr;  // mDispatchable may delete itself

    return NS_OK;
  }

 private:
  JS::Dispatchable* mDispatchable;
};

static bool DispatchToEventLoop(void* closure,
                                JS::Dispatchable* aDispatchable) {
  MOZ_ASSERT(!closure);

  // This callback may execute either on the main thread or a random JS-internal
  // helper thread. This callback can be called during shutdown so we cannot
  // simply NS_DispatchToMainThread. Failure during shutdown is expected and
  // properly handled by the JS engine.

  nsCOMPtr<nsIEventTarget> mainTarget = GetMainThreadEventTarget();
  if (!mainTarget) {
    return false;
  }

  RefPtr<JSDispatchableRunnable> r = new JSDispatchableRunnable(aDispatchable);
  MOZ_ALWAYS_SUCCEEDS(mainTarget->Dispatch(r.forget(), NS_DISPATCH_NORMAL));
  return true;
}

static bool ConsumeStream(JSContext* aCx, JS::HandleObject aObj,
                          JS::MimeType aMimeType,
                          JS::StreamConsumer* aConsumer) {
  return FetchUtil::StreamResponseToJS(aCx, aObj, aMimeType, aConsumer,
                                       nullptr);
}

void nsJSContext::EnsureStatics() {
  if (sIsInitialized) {
    if (!nsContentUtils::XPConnect()) {
      MOZ_CRASH();
    }
    return;
  }

  // Let's make sure that our main thread is the same as the xpcom main thread.
  MOZ_ASSERT(NS_IsMainThread());

  AutoJSAPI jsapi;
  jsapi.Init();

  sPrevGCSliceCallback = JS::SetGCSliceCallback(jsapi.cx(), DOMGCSliceCallback);

  JS::InitDispatchToEventLoop(jsapi.cx(), DispatchToEventLoop, nullptr);
  JS::InitConsumeStreamCallback(jsapi.cx(), ConsumeStream,
                                FetchUtil::ReportJSStreamError);

  // Set these global xpconnect options...
  Preferences::RegisterCallbackAndCall(SetMemoryPrefChangedCallbackMB,
                                       "javascript.options.mem.max",
                                       (void*)JSGC_MAX_BYTES);
  Preferences::RegisterCallbackAndCall(SetMemoryNurseryPrefChangedCallback,
                                       "javascript.options.mem.nursery.min_kb",
                                       (void*)JSGC_MIN_NURSERY_BYTES);
  Preferences::RegisterCallbackAndCall(SetMemoryNurseryPrefChangedCallback,
                                       "javascript.options.mem.nursery.max_kb",
                                       (void*)JSGC_MAX_NURSERY_BYTES);

  Preferences::RegisterCallbackAndCall(SetMemoryGCModePrefChangedCallback,
                                       "javascript.options.mem.gc_per_zone");

  Preferences::RegisterCallbackAndCall(SetMemoryGCModePrefChangedCallback,
                                       "javascript.options.mem.gc_incremental");

  Preferences::RegisterCallbackAndCall(
      SetMemoryGCSliceTimePrefChangedCallback,
      "javascript.options.mem.gc_incremental_slice_ms");

  Preferences::RegisterCallbackAndCall(SetMemoryPrefChangedCallbackBool,
                                       "javascript.options.mem.gc_compacting",
                                       (void*)JSGC_COMPACTING_ENABLED);

  Preferences::RegisterCallbackAndCall(
      SetMemoryPrefChangedCallbackInt,
      "javascript.options.mem.gc_high_frequency_time_limit_ms",
      (void*)JSGC_HIGH_FREQUENCY_TIME_LIMIT);

  Preferences::RegisterCallbackAndCall(
      SetMemoryPrefChangedCallbackBool,
      "javascript.options.mem.gc_dynamic_mark_slice",
      (void*)JSGC_DYNAMIC_MARK_SLICE);

  Preferences::RegisterCallbackAndCall(
      SetMemoryPrefChangedCallbackBool,
      "javascript.options.mem.gc_dynamic_heap_growth",
      (void*)JSGC_DYNAMIC_HEAP_GROWTH);

  Preferences::RegisterCallbackAndCall(
      SetMemoryPrefChangedCallbackInt,
      "javascript.options.mem.gc_low_frequency_heap_growth",
      (void*)JSGC_LOW_FREQUENCY_HEAP_GROWTH);

  Preferences::RegisterCallbackAndCall(
      SetMemoryPrefChangedCallbackInt,
      "javascript.options.mem.gc_high_frequency_heap_growth_min",
      (void*)JSGC_HIGH_FREQUENCY_HEAP_GROWTH_MIN);

  Preferences::RegisterCallbackAndCall(
      SetMemoryPrefChangedCallbackInt,
      "javascript.options.mem.gc_high_frequency_heap_growth_max",
      (void*)JSGC_HIGH_FREQUENCY_HEAP_GROWTH_MAX);

  Preferences::RegisterCallbackAndCall(
      SetMemoryPrefChangedCallbackInt,
      "javascript.options.mem.gc_high_frequency_low_limit_mb",
      (void*)JSGC_HIGH_FREQUENCY_LOW_LIMIT);

  Preferences::RegisterCallbackAndCall(
      SetMemoryPrefChangedCallbackInt,
      "javascript.options.mem.gc_high_frequency_high_limit_mb",
      (void*)JSGC_HIGH_FREQUENCY_HIGH_LIMIT);

  Preferences::RegisterCallbackAndCall(
      SetMemoryPrefChangedCallbackInt,
      "javascript.options.mem.gc_allocation_threshold_mb",
      (void*)JSGC_ALLOCATION_THRESHOLD);
  Preferences::RegisterCallbackAndCall(
      SetMemoryPrefChangedCallbackInt,
      "javascript.options.mem.gc_non_incremental_factor",
      (void*)JSGC_NON_INCREMENTAL_FACTOR);
  Preferences::RegisterCallbackAndCall(
      SetMemoryPrefChangedCallbackInt,
      "javascript.options.mem.gc_avoid_interrupt_factor",
      (void*)JSGC_AVOID_INTERRUPT_FACTOR);

  Preferences::RegisterCallbackAndCall(SetIncrementalCCPrefChangedCallback,
                                       "dom.cycle_collector.incremental");

  Preferences::RegisterCallbackAndCall(
      SetMemoryPrefChangedCallbackInt,
      "javascript.options.mem.gc_min_empty_chunk_count",
      (void*)JSGC_MIN_EMPTY_CHUNK_COUNT);

  Preferences::RegisterCallbackAndCall(
      SetMemoryPrefChangedCallbackInt,
      "javascript.options.mem.gc_max_empty_chunk_count",
      (void*)JSGC_MAX_EMPTY_CHUNK_COUNT);

  nsCOMPtr<nsIObserverService> obs = mozilla::services::GetObserverService();
  if (!obs) {
    MOZ_CRASH();
  }

  nsIObserver* observer = new nsJSEnvironmentObserver();
  obs->AddObserver(observer, "memory-pressure", false);
  obs->AddObserver(observer, "user-interaction-inactive", false);
  obs->AddObserver(observer, "user-interaction-active", false);
  obs->AddObserver(observer, "quit-application", false);
  obs->AddObserver(observer, NS_XPCOM_SHUTDOWN_OBSERVER_ID, false);

  sIsInitialized = true;
}

void mozilla::dom::ShutdownJSEnvironment() {
  KillTimers();

  sShuttingDown = true;
  sDidShutdown = true;
}

AsyncErrorReporter::AsyncErrorReporter(xpc::ErrorReport* aReport)
    : Runnable("dom::AsyncErrorReporter"), mReport(aReport) {}

void AsyncErrorReporter::SerializeStack(JSContext* aCx,
                                        JS::Handle<JSObject*> aStack) {
  mStackHolder = MakeUnique<SerializedStackHolder>();
  mStackHolder->SerializeMainThreadOrWorkletStack(aCx, aStack);
}

NS_IMETHODIMP AsyncErrorReporter::Run() {
  AutoJSAPI jsapi;
  DebugOnly<bool> ok = jsapi.Init(xpc::UnprivilegedJunkScope());
  MOZ_ASSERT(ok, "Problem with junk scope?");
  JSContext* cx = jsapi.cx();
  JS::Rooted<JSObject*> stack(cx);
  JS::Rooted<JSObject*> stackGlobal(cx);
  if (mStackHolder) {
    stack = mStackHolder->ReadStack(cx);
    if (stack) {
      stackGlobal = JS::CurrentGlobalOrNull(cx);
    }
  }
  mReport->LogToConsoleWithStack(stack, stackGlobal);
  return NS_OK;
}

// A fast-array class for JS.  This class supports both nsIJSScriptArray and
// nsIArray.  If it is JS itself providing and consuming this class, all work
// can be done via nsIJSScriptArray, and avoid the conversion of elements
// to/from nsISupports.
// When consumed by non-JS (eg, another script language), conversion is done
// on-the-fly.
class nsJSArgArray final : public nsIJSArgArray {
 public:
  nsJSArgArray(JSContext* aContext, uint32_t argc, const JS::Value* argv,
               nsresult* prv);

  // nsISupports
  NS_DECL_CYCLE_COLLECTING_ISUPPORTS
  NS_DECL_CYCLE_COLLECTION_SCRIPT_HOLDER_CLASS_AMBIGUOUS(nsJSArgArray,
                                                         nsIJSArgArray)

  // nsIArray
  NS_DECL_NSIARRAY

  // nsIJSArgArray
  nsresult GetArgs(uint32_t* argc, void** argv) override;

  void ReleaseJSObjects();

 protected:
  ~nsJSArgArray();
  JSContext* mContext;
  JS::Heap<JS::Value>* mArgv;
  uint32_t mArgc;
};

nsJSArgArray::nsJSArgArray(JSContext* aContext, uint32_t argc,
                           const JS::Value* argv, nsresult* prv)
    : mContext(aContext), mArgv(nullptr), mArgc(argc) {
  // copy the array - we don't know its lifetime, and ours is tied to xpcom
  // refcounting.
  if (argc) {
    mArgv = new (fallible) JS::Heap<JS::Value>[argc];
    if (!mArgv) {
      *prv = NS_ERROR_OUT_OF_MEMORY;
      return;
    }
  }

  // Callers are allowed to pass in a null argv even for argc > 0. They can
  // then use GetArgs to initialize the values.
  if (argv) {
    for (uint32_t i = 0; i < argc; ++i) mArgv[i] = argv[i];
  }

  if (argc > 0) {
    mozilla::HoldJSObjects(this);
  }

  *prv = NS_OK;
}

nsJSArgArray::~nsJSArgArray() { ReleaseJSObjects(); }

void nsJSArgArray::ReleaseJSObjects() {
  if (mArgv) {
    delete[] mArgv;
  }
  if (mArgc > 0) {
    mArgc = 0;
    mozilla::DropJSObjects(this);
  }
}

// QueryInterface implementation for nsJSArgArray
NS_IMPL_CYCLE_COLLECTION_CLASS(nsJSArgArray)

NS_IMPL_CYCLE_COLLECTION_UNLINK_BEGIN(nsJSArgArray)
  tmp->ReleaseJSObjects();
NS_IMPL_CYCLE_COLLECTION_UNLINK_END
NS_IMPL_CYCLE_COLLECTION_TRAVERSE_BEGIN(nsJSArgArray)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE_END

NS_IMPL_CYCLE_COLLECTION_TRACE_BEGIN(nsJSArgArray)
  if (tmp->mArgv) {
    for (uint32_t i = 0; i < tmp->mArgc; ++i) {
      NS_IMPL_CYCLE_COLLECTION_TRACE_JS_MEMBER_CALLBACK(mArgv[i])
    }
  }
NS_IMPL_CYCLE_COLLECTION_TRACE_END

NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION(nsJSArgArray)
  NS_INTERFACE_MAP_ENTRY(nsIArray)
  NS_INTERFACE_MAP_ENTRY(nsIJSArgArray)
  NS_INTERFACE_MAP_ENTRY_AMBIGUOUS(nsISupports, nsIJSArgArray)
NS_INTERFACE_MAP_END

NS_IMPL_CYCLE_COLLECTING_ADDREF(nsJSArgArray)
NS_IMPL_CYCLE_COLLECTING_RELEASE(nsJSArgArray)

nsresult nsJSArgArray::GetArgs(uint32_t* argc, void** argv) {
  *argv = (void*)mArgv;
  *argc = mArgc;
  return NS_OK;
}

// nsIArray impl
NS_IMETHODIMP nsJSArgArray::GetLength(uint32_t* aLength) {
  *aLength = mArgc;
  return NS_OK;
}

NS_IMETHODIMP nsJSArgArray::QueryElementAt(uint32_t index, const nsIID& uuid,
                                           void** result) {
  *result = nullptr;
  if (index >= mArgc) return NS_ERROR_INVALID_ARG;

  if (uuid.Equals(NS_GET_IID(nsIVariant)) ||
      uuid.Equals(NS_GET_IID(nsISupports))) {
    // Have to copy a Heap into a Rooted to work with it.
    JS::Rooted<JS::Value> val(mContext, mArgv[index]);
    return nsContentUtils::XPConnect()->JSToVariant(mContext, val,
                                                    (nsIVariant**)result);
  }
  NS_WARNING("nsJSArgArray only handles nsIVariant");
  return NS_ERROR_NO_INTERFACE;
}

NS_IMETHODIMP nsJSArgArray::IndexOf(uint32_t startIndex, nsISupports* element,
                                    uint32_t* _retval) {
  return NS_ERROR_NOT_IMPLEMENTED;
}

NS_IMETHODIMP nsJSArgArray::ScriptedEnumerate(const nsIID& aElemIID,
                                              uint8_t aArgc,
                                              nsISimpleEnumerator** aResult) {
  return NS_ERROR_NOT_IMPLEMENTED;
}

NS_IMETHODIMP nsJSArgArray::EnumerateImpl(const nsID& aEntryIID,
                                          nsISimpleEnumerator** _retval) {
  return NS_ERROR_NOT_IMPLEMENTED;
}

// The factory function
nsresult NS_CreateJSArgv(JSContext* aContext, uint32_t argc,
                         const JS::Value* argv, nsIJSArgArray** aArray) {
  nsresult rv;
  nsCOMPtr<nsIJSArgArray> ret = new nsJSArgArray(aContext, argc, argv, &rv);
  if (NS_FAILED(rv)) {
    return rv;
  }
  ret.forget(aArray);
  return NS_OK;
}