gecko-dev/dom/performance/PerformanceTiming.cpp

/* -*- 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 "PerformanceTiming.h"
#include "mozilla/dom/PerformanceTimingBinding.h"
#include "mozilla/Telemetry.h"
#include "nsIDocShell.h"
#include "nsIDocShellTreeItem.h"
#include "nsIDocument.h"
#include "nsITimedChannel.h"

namespace mozilla {
namespace dom {

NS_IMPL_CYCLE_COLLECTION_WRAPPERCACHE(PerformanceTiming, mPerformance)

NS_IMPL_CYCLE_COLLECTION_ROOT_NATIVE(PerformanceTiming, AddRef)
NS_IMPL_CYCLE_COLLECTION_UNROOT_NATIVE(PerformanceTiming, Release)

/* static */ PerformanceTimingData*
PerformanceTimingData::Create(nsITimedChannel* aTimedChannel,
                              nsIHttpChannel* aChannel,
                              DOMHighResTimeStamp aZeroTime,
                              nsAString& aInitiatorType,
                              nsAString& aEntryName)
{
  MOZ_ASSERT(NS_IsMainThread());

  // Check if resource timing is prefed off.
  if (!nsContentUtils::IsResourceTimingEnabled()) {
    return nullptr;
  }

  if (!aChannel || !aTimedChannel) {
    return nullptr;
  }

  bool reportTiming = true;
  aTimedChannel->GetReportResourceTiming(&reportTiming);

  if (!reportTiming) {
    return nullptr;
  }

  aTimedChannel->GetInitiatorType(aInitiatorType);

  // If the initiator type had no valid value, then set it to the default
  // ("other") value.
  if (aInitiatorType.IsEmpty()) {
    aInitiatorType = NS_LITERAL_STRING("other");
  }

  // According to the spec, "The name attribute must return the resolved URL
  // of the requested resource. This attribute must not change even if the
  // fetch redirected to a different URL."
  nsCOMPtr<nsIURI> originalURI;
  aChannel->GetOriginalURI(getter_AddRefs(originalURI));

  nsAutoCString name;
  originalURI->GetSpec(name);
  aEntryName = NS_ConvertUTF8toUTF16(name);

  // The nsITimedChannel argument will be used to gather all the timings.
  // The nsIHttpChannel argument will be used to check if any cross-origin
  // redirects occurred.
  // The last argument is the "zero time" (offset). Since we don't want
  // any offset for the resource timing, this will be set to "0" - the
  // resource timing returns a relative timing (no offset).
  return new PerformanceTimingData(aTimedChannel, aChannel, 0);
}

PerformanceTiming::PerformanceTiming(Performance* aPerformance,
                                     nsITimedChannel* aChannel,
                                     nsIHttpChannel* aHttpChannel,
                                     DOMHighResTimeStamp aZeroTime)
  : mPerformance(aPerformance)
{
  MOZ_ASSERT(aPerformance, "Parent performance object should be provided");

  mTimingData.reset(new PerformanceTimingData(aChannel, aHttpChannel,
    aPerformance->IsSystemPrincipal()
    ? aZeroTime
    : nsRFPService::ReduceTimePrecisionAsMSecs(aZeroTime,
        aPerformance->GetRandomTimelineSeed())));

  // Non-null aHttpChannel implies that this PerformanceTiming object is being
  // used for subresources, which is irrelevant to this probe.
  if (!aHttpChannel &&
      nsContentUtils::IsPerformanceTimingEnabled() &&
      IsTopLevelContentDocument()) {
    Telemetry::Accumulate(Telemetry::TIME_TO_RESPONSE_START_MS,
                          mTimingData->ResponseStartHighRes(aPerformance) -
                            mTimingData->ZeroTime());
  }
}

// Copy the timing info from the channel so we don't need to keep the channel
// alive just to get the timestamps.
PerformanceTimingData::PerformanceTimingData(nsITimedChannel* aChannel,
                                             nsIHttpChannel* aHttpChannel,
                                             DOMHighResTimeStamp aZeroTime)
  : mZeroTime(0.0)
  , mFetchStart(0.0)
  , mEncodedBodySize(0)
  , mTransferSize(0)
  , mDecodedBodySize(0)
  , mRedirectCount(0)
  , mAllRedirectsSameOrigin(true)
  , mReportCrossOriginRedirect(true)
  , mSecureConnection(false)
  , mTimingAllowed(true)
  , mInitialized(false)
{
  mInitialized = !!aChannel;
  mZeroTime = aZeroTime;

  if (!nsContentUtils::IsPerformanceTimingEnabled() ||
      nsContentUtils::ShouldResistFingerprinting()) {
    mZeroTime = 0;
  }

  nsCOMPtr<nsIURI> uri;
  if (aHttpChannel) {
    aHttpChannel->GetURI(getter_AddRefs(uri));
  } else {
    nsCOMPtr<nsIHttpChannel> httpChannel = do_QueryInterface(aChannel);
    if (httpChannel) {
      httpChannel->GetURI(getter_AddRefs(uri));
    }
  }

  if (uri) {
    nsresult rv = uri->SchemeIs("https", &mSecureConnection);
    if (NS_FAILED(rv)) {
      mSecureConnection = false;
    }
  }

  if (aChannel) {
    aChannel->GetAsyncOpen(&mAsyncOpen);
    aChannel->GetAllRedirectsSameOrigin(&mAllRedirectsSameOrigin);
    aChannel->GetRedirectCount(&mRedirectCount);
    aChannel->GetRedirectStart(&mRedirectStart);
    aChannel->GetRedirectEnd(&mRedirectEnd);
    aChannel->GetDomainLookupStart(&mDomainLookupStart);
    aChannel->GetDomainLookupEnd(&mDomainLookupEnd);
    aChannel->GetConnectStart(&mConnectStart);
    aChannel->GetSecureConnectionStart(&mSecureConnectionStart);
    aChannel->GetConnectEnd(&mConnectEnd);
    aChannel->GetRequestStart(&mRequestStart);
    aChannel->GetResponseStart(&mResponseStart);
    aChannel->GetCacheReadStart(&mCacheReadStart);
    aChannel->GetResponseEnd(&mResponseEnd);
    aChannel->GetCacheReadEnd(&mCacheReadEnd);

    aChannel->GetDispatchFetchEventStart(&mWorkerStart);
    aChannel->GetHandleFetchEventStart(&mWorkerRequestStart);
    // TODO: Track when FetchEvent.respondWith() promise resolves as
    //       ServiceWorker interception responseStart?
    aChannel->GetHandleFetchEventEnd(&mWorkerResponseEnd);

    // The performance timing api essentially requires that the event timestamps
    // have a strict relation with each other. The truth, however, is the
    // browser engages in a number of speculative activities that sometimes mean
    // connections and lookups begin at different times. Workaround that here by
    // clamping these values to what we expect FetchStart to be.  This means the
    // later of AsyncOpen or WorkerStart times.
    if (!mAsyncOpen.IsNull()) {
      // We want to clamp to the expected FetchStart value.  This is later of
      // the AsyncOpen and WorkerStart values.
      const TimeStamp* clampTime = &mAsyncOpen;
      if (!mWorkerStart.IsNull() && mWorkerStart > mAsyncOpen) {
        clampTime = &mWorkerStart;
      }

      if (!mDomainLookupStart.IsNull() && mDomainLookupStart < *clampTime) {
        mDomainLookupStart = *clampTime;
      }

      if (!mDomainLookupEnd.IsNull() && mDomainLookupEnd < *clampTime) {
        mDomainLookupEnd = *clampTime;
      }

      if (!mConnectStart.IsNull() && mConnectStart < *clampTime) {
        mConnectStart = *clampTime;
      }

      if (mSecureConnection && !mSecureConnectionStart.IsNull() &&
          mSecureConnectionStart < *clampTime) {
        mSecureConnectionStart = *clampTime;
      }

      if (!mConnectEnd.IsNull() && mConnectEnd < *clampTime) {
        mConnectEnd = *clampTime;
      }
    }
  }

  // The aHttpChannel argument is null if this PerformanceTiming object is
  // being used for navigation timing (which is only relevant for documents).
  // It has a non-null value if this PerformanceTiming object is being used
  // for resource timing, which can include document loads, both toplevel and
  // in subframes, and resources linked from a document.
  if (aHttpChannel) {
    mTimingAllowed = CheckAllowedOrigin(aHttpChannel, aChannel);
    bool redirectsPassCheck = false;
    aChannel->GetAllRedirectsPassTimingAllowCheck(&redirectsPassCheck);
    mReportCrossOriginRedirect = mTimingAllowed && redirectsPassCheck;

    SetPropertiesFromHttpChannel(aHttpChannel);
  }
}

void
PerformanceTimingData::SetPropertiesFromHttpChannel(nsIHttpChannel* aHttpChannel)
{
  MOZ_ASSERT(aHttpChannel);

  nsAutoCString protocol;
  Unused << aHttpChannel->GetProtocolVersion(protocol);
  mNextHopProtocol = NS_ConvertUTF8toUTF16(protocol);

  Unused << aHttpChannel->GetEncodedBodySize(&mEncodedBodySize);
  Unused << aHttpChannel->GetTransferSize(&mTransferSize);
  Unused << aHttpChannel->GetDecodedBodySize(&mDecodedBodySize);
  if (mDecodedBodySize == 0) {
    mDecodedBodySize = mEncodedBodySize;
  }
}

PerformanceTiming::~PerformanceTiming()
{
}

DOMHighResTimeStamp
PerformanceTimingData::FetchStartHighRes(Performance* aPerformance)
{
  MOZ_ASSERT(aPerformance);

  if (!mFetchStart) {
    if (!nsContentUtils::IsPerformanceTimingEnabled() || !IsInitialized() ||
        nsContentUtils::ShouldResistFingerprinting()) {
      return mZeroTime;
    }
    MOZ_ASSERT(!mAsyncOpen.IsNull(), "The fetch start time stamp should always be "
        "valid if the performance timing is enabled");
    if (!mAsyncOpen.IsNull()) {
      if (!mWorkerRequestStart.IsNull() && mWorkerRequestStart > mAsyncOpen) {
        mFetchStart = TimeStampToDOMHighRes(aPerformance, mWorkerRequestStart);
      } else {
        mFetchStart = TimeStampToDOMHighRes(aPerformance, mAsyncOpen);
      }
    }
  }
  if (aPerformance->IsSystemPrincipal()) {
    return mFetchStart;
  }
  return nsRFPService::ReduceTimePrecisionAsMSecs(mFetchStart,
    aPerformance->GetRandomTimelineSeed());
}

DOMTimeMilliSec
PerformanceTiming::FetchStart()
{
  return static_cast<int64_t>(mTimingData->FetchStartHighRes(mPerformance));
}

bool
PerformanceTimingData::CheckAllowedOrigin(nsIHttpChannel* aResourceChannel,
                                          nsITimedChannel* aChannel)
{
  if (!IsInitialized()) {
    return false;
  }

  // Check that the current document passes the ckeck.
  nsCOMPtr<nsILoadInfo> loadInfo;
  aResourceChannel->GetLoadInfo(getter_AddRefs(loadInfo));
  if (!loadInfo) {
    return false;
  }

  // TYPE_DOCUMENT loads have no loadingPrincipal.  And that's OK, because we
  // never actually need to have a performance timing entry for TYPE_DOCUMENT
  // loads.
  if (loadInfo->GetExternalContentPolicyType() == nsIContentPolicy::TYPE_DOCUMENT) {
    return false;
  }

  nsCOMPtr<nsIPrincipal> principal = loadInfo->LoadingPrincipal();

  // Check if the resource is either same origin as the page that started
  // the load, or if the response contains the proper Timing-Allow-Origin
  // header with the domain of the page that started the load.
  return aChannel->TimingAllowCheck(principal);
}

uint8_t
PerformanceTimingData::GetRedirectCount() const
{
  if (!nsContentUtils::IsPerformanceTimingEnabled() || !IsInitialized() ||
      nsContentUtils::ShouldResistFingerprinting()) {
    return 0;
  }
  if (!mAllRedirectsSameOrigin) {
    return 0;
  }
  return mRedirectCount;
}

bool
PerformanceTimingData::ShouldReportCrossOriginRedirect() const
{
  if (!nsContentUtils::IsPerformanceTimingEnabled() || !IsInitialized() ||
      nsContentUtils::ShouldResistFingerprinting()) {
    return false;
  }

  // If the redirect count is 0, or if one of the cross-origin
  // redirects doesn't have the proper Timing-Allow-Origin header,
  // then RedirectStart and RedirectEnd will be set to zero
  return (mRedirectCount != 0) && mReportCrossOriginRedirect;
}

DOMHighResTimeStamp
PerformanceTimingData::AsyncOpenHighRes(Performance* aPerformance)
{
  MOZ_ASSERT(aPerformance);

  if (!nsContentUtils::IsPerformanceTimingEnabled() || !IsInitialized() ||
      nsContentUtils::ShouldResistFingerprinting() || mAsyncOpen.IsNull()) {
    return mZeroTime;
  }
  DOMHighResTimeStamp rawValue = TimeStampToDOMHighRes(aPerformance, mAsyncOpen);
  if (aPerformance->IsSystemPrincipal()) {
    return rawValue;
  }
  return nsRFPService::ReduceTimePrecisionAsMSecs(rawValue,
    aPerformance->GetRandomTimelineSeed());
}

DOMHighResTimeStamp
PerformanceTimingData::WorkerStartHighRes(Performance* aPerformance)
{
  MOZ_ASSERT(aPerformance);

  if (!nsContentUtils::IsPerformanceTimingEnabled() || !IsInitialized() ||
      nsContentUtils::ShouldResistFingerprinting() || mWorkerStart.IsNull()) {
    return mZeroTime;
  }
  DOMHighResTimeStamp rawValue = TimeStampToDOMHighRes(aPerformance, mWorkerStart);
  if (aPerformance->IsSystemPrincipal()) {
    return rawValue;
  }
  return nsRFPService::ReduceTimePrecisionAsMSecs(rawValue,
    aPerformance->GetRandomTimelineSeed());
}

/**
 * RedirectStartHighRes() is used by both the navigation timing and the
 * resource timing. Since, navigation timing and resource timing check and
 * interpret cross-domain redirects in a different manner,
 * RedirectStartHighRes() will make no checks for cross-domain redirect.
 * It's up to the consumers of this method (PerformanceTiming::RedirectStart()
 * and PerformanceResourceTiming::RedirectStart() to make such verifications.
 *
 * @return a valid timing if the Performance Timing is enabled
 */
DOMHighResTimeStamp
PerformanceTimingData::RedirectStartHighRes(Performance* aPerformance)
{
  MOZ_ASSERT(aPerformance);

  if (!nsContentUtils::IsPerformanceTimingEnabled() || !IsInitialized() ||
      nsContentUtils::ShouldResistFingerprinting()) {
    return mZeroTime;
  }
  return TimeStampToReducedDOMHighResOrFetchStart(aPerformance, mRedirectStart);
}

DOMTimeMilliSec
PerformanceTiming::RedirectStart()
{
  if (!mTimingData->IsInitialized()) {
    return 0;
  }
  // We have to check if all the redirect URIs had the same origin (since there
  // is no check in RedirectStartHighRes())
  if (mTimingData->AllRedirectsSameOrigin() &&
      mTimingData->RedirectCountReal()) {
    return static_cast<int64_t>(mTimingData->RedirectStartHighRes(mPerformance));
  }
  return 0;
}

/**
 * RedirectEndHighRes() is used by both the navigation timing and the resource
 * timing. Since, navigation timing and resource timing check and interpret
 * cross-domain redirects in a different manner, RedirectEndHighRes() will make
 * no checks for cross-domain redirect. It's up to the consumers of this method
 * (PerformanceTiming::RedirectEnd() and
 * PerformanceResourceTiming::RedirectEnd() to make such verifications.
 *
 * @return a valid timing if the Performance Timing is enabled
 */
DOMHighResTimeStamp
PerformanceTimingData::RedirectEndHighRes(Performance* aPerformance)
{
  MOZ_ASSERT(aPerformance);

  if (!nsContentUtils::IsPerformanceTimingEnabled() || !IsInitialized() ||
      nsContentUtils::ShouldResistFingerprinting()) {
    return mZeroTime;
  }
  return TimeStampToReducedDOMHighResOrFetchStart(aPerformance, mRedirectEnd);
}

DOMTimeMilliSec
PerformanceTiming::RedirectEnd()
{
  if (!mTimingData->IsInitialized()) {
    return 0;
  }
  // We have to check if all the redirect URIs had the same origin (since there
  // is no check in RedirectEndHighRes())
  if (mTimingData->AllRedirectsSameOrigin() &&
      mTimingData->RedirectCountReal()) {
    return static_cast<int64_t>(mTimingData->RedirectEndHighRes(mPerformance));
  }
  return 0;
}

DOMHighResTimeStamp
PerformanceTimingData::DomainLookupStartHighRes(Performance* aPerformance)
{
  MOZ_ASSERT(aPerformance);

  if (!nsContentUtils::IsPerformanceTimingEnabled() || !IsInitialized() ||
      nsContentUtils::ShouldResistFingerprinting()) {
    return mZeroTime;
  }
  return TimeStampToReducedDOMHighResOrFetchStart(aPerformance,
                                                  mDomainLookupStart);
}

DOMTimeMilliSec
PerformanceTiming::DomainLookupStart()
{
  return static_cast<int64_t>(mTimingData->DomainLookupStartHighRes(mPerformance));
}

DOMHighResTimeStamp
PerformanceTimingData::DomainLookupEndHighRes(Performance* aPerformance)
{
  MOZ_ASSERT(aPerformance);

  if (!nsContentUtils::IsPerformanceTimingEnabled() || !IsInitialized() ||
      nsContentUtils::ShouldResistFingerprinting()) {
    return mZeroTime;
  }
  // Bug 1155008 - nsHttpTransaction is racy. Return DomainLookupStart when null
  if (mDomainLookupEnd.IsNull()) {
    return DomainLookupStartHighRes(aPerformance);
  }
  DOMHighResTimeStamp rawValue = TimeStampToDOMHighRes(aPerformance, mDomainLookupEnd);
  if (aPerformance->IsSystemPrincipal()) {
    return rawValue;
  }
  return nsRFPService::ReduceTimePrecisionAsMSecs(rawValue,
    aPerformance->GetRandomTimelineSeed());
}

DOMTimeMilliSec
PerformanceTiming::DomainLookupEnd()
{
  return static_cast<int64_t>(mTimingData->DomainLookupEndHighRes(mPerformance));
}

DOMHighResTimeStamp
PerformanceTimingData::ConnectStartHighRes(Performance* aPerformance)
{
  MOZ_ASSERT(aPerformance);

  if (!nsContentUtils::IsPerformanceTimingEnabled() || !IsInitialized() ||
      nsContentUtils::ShouldResistFingerprinting()) {
    return mZeroTime;
  }
  if (mConnectStart.IsNull()) {
    return DomainLookupEndHighRes(aPerformance);
  }
  DOMHighResTimeStamp rawValue = TimeStampToDOMHighRes(aPerformance, mConnectStart);
  if (aPerformance->IsSystemPrincipal()) {
    return rawValue;
  }
  return nsRFPService::ReduceTimePrecisionAsMSecs(rawValue,
    aPerformance->GetRandomTimelineSeed());
}

DOMTimeMilliSec
PerformanceTiming::ConnectStart()
{
  return static_cast<int64_t>(mTimingData->ConnectStartHighRes(mPerformance));
}

DOMHighResTimeStamp
PerformanceTimingData::SecureConnectionStartHighRes(Performance* aPerformance)
{
  MOZ_ASSERT(aPerformance);

  if (!nsContentUtils::IsPerformanceTimingEnabled() || !IsInitialized() ||
      nsContentUtils::ShouldResistFingerprinting()) {
    return mZeroTime;
  }
  if (!mSecureConnection) {
    return 0; // We use 0 here, because mZeroTime is sometimes set to the navigation
        // start time.
  }
  if (mSecureConnectionStart.IsNull()) {
    return mZeroTime;
  }
  DOMHighResTimeStamp rawValue = TimeStampToDOMHighRes(aPerformance, mSecureConnectionStart);
  if (aPerformance->IsSystemPrincipal()) {
    return rawValue;
  }
  return nsRFPService::ReduceTimePrecisionAsMSecs(rawValue,
    aPerformance->GetRandomTimelineSeed());
}

DOMTimeMilliSec
PerformanceTiming::SecureConnectionStart()
{
  return static_cast<int64_t>(mTimingData->SecureConnectionStartHighRes(mPerformance));
}

DOMHighResTimeStamp
PerformanceTimingData::ConnectEndHighRes(Performance* aPerformance)
{
  MOZ_ASSERT(aPerformance);

  if (!nsContentUtils::IsPerformanceTimingEnabled() || !IsInitialized() ||
      nsContentUtils::ShouldResistFingerprinting()) {
    return mZeroTime;
  }
  // Bug 1155008 - nsHttpTransaction is racy. Return ConnectStart when null
  if (mConnectEnd.IsNull()) {
    return ConnectStartHighRes(aPerformance);
  }
  DOMHighResTimeStamp rawValue = TimeStampToDOMHighRes(aPerformance, mConnectEnd);
  if (aPerformance->IsSystemPrincipal()) {
    return rawValue;
  }
  return nsRFPService::ReduceTimePrecisionAsMSecs(rawValue,
    aPerformance->GetRandomTimelineSeed());
}

DOMTimeMilliSec
PerformanceTiming::ConnectEnd()
{
  return static_cast<int64_t>(mTimingData->ConnectEndHighRes(mPerformance));
}

DOMHighResTimeStamp
PerformanceTimingData::RequestStartHighRes(Performance* aPerformance)
{
  MOZ_ASSERT(aPerformance);

  if (!nsContentUtils::IsPerformanceTimingEnabled() || !IsInitialized() ||
      nsContentUtils::ShouldResistFingerprinting()) {
    return mZeroTime;
  }

  if (mRequestStart.IsNull()) {
    mRequestStart = mWorkerRequestStart;
  }

  return TimeStampToReducedDOMHighResOrFetchStart(aPerformance, mRequestStart);
}

DOMTimeMilliSec
PerformanceTiming::RequestStart()
{
  return static_cast<int64_t>(mTimingData->RequestStartHighRes(mPerformance));
}

DOMHighResTimeStamp
PerformanceTimingData::ResponseStartHighRes(Performance* aPerformance)
{
  MOZ_ASSERT(aPerformance);

  if (!nsContentUtils::IsPerformanceTimingEnabled() || !IsInitialized() ||
      nsContentUtils::ShouldResistFingerprinting()) {
    return mZeroTime;
  }
  if (mResponseStart.IsNull() ||
     (!mCacheReadStart.IsNull() && mCacheReadStart < mResponseStart)) {
    mResponseStart = mCacheReadStart;
  }

  if (mResponseStart.IsNull() ||
      (!mRequestStart.IsNull() && mResponseStart < mRequestStart)) {
    mResponseStart = mRequestStart;
  }
  return TimeStampToReducedDOMHighResOrFetchStart(aPerformance, mResponseStart);
}

DOMTimeMilliSec
PerformanceTiming::ResponseStart()
{
  return static_cast<int64_t>(mTimingData->ResponseStartHighRes(mPerformance));
}

DOMHighResTimeStamp
PerformanceTimingData::ResponseEndHighRes(Performance* aPerformance)
{
  MOZ_ASSERT(aPerformance);

  if (!nsContentUtils::IsPerformanceTimingEnabled() || !IsInitialized() ||
      nsContentUtils::ShouldResistFingerprinting()) {
    return mZeroTime;
  }
  if (mResponseEnd.IsNull() ||
     (!mCacheReadEnd.IsNull() && mCacheReadEnd < mResponseEnd)) {
    mResponseEnd = mCacheReadEnd;
  }
  if (mResponseEnd.IsNull()) {
    mResponseEnd = mWorkerResponseEnd;
  }
  // Bug 1155008 - nsHttpTransaction is racy. Return ResponseStart when null
  if (mResponseEnd.IsNull()) {
    return ResponseStartHighRes(aPerformance);
  }
  DOMHighResTimeStamp rawValue = TimeStampToDOMHighRes(aPerformance, mResponseEnd);
  if (aPerformance->IsSystemPrincipal()) {
    return rawValue;
  }
  return nsRFPService::ReduceTimePrecisionAsMSecs(rawValue,
    aPerformance->GetRandomTimelineSeed());
}

DOMTimeMilliSec
PerformanceTiming::ResponseEnd()
{
  return static_cast<int64_t>(mTimingData->ResponseEndHighRes(mPerformance));
}

JSObject*
PerformanceTiming::WrapObject(JSContext *cx, JS::Handle<JSObject*> aGivenProto)
{
  return PerformanceTimingBinding::Wrap(cx, this, aGivenProto);
}

bool
PerformanceTiming::IsTopLevelContentDocument() const
{
  nsCOMPtr<nsIDocument> document = mPerformance->GetDocumentIfCurrent();
  if (!document) {
    return false;
  }
  nsCOMPtr<nsIDocShell> docShell = document->GetDocShell();
  if (!docShell) {
    return false;
  }
  nsCOMPtr<nsIDocShellTreeItem> rootItem;
  Unused << docShell->GetSameTypeRootTreeItem(getter_AddRefs(rootItem));
  if (rootItem.get() != static_cast<nsIDocShellTreeItem*>(docShell.get())) {
    return false;
  }
  return rootItem->ItemType() == nsIDocShellTreeItem::typeContent;
}

} // dom namespace
} // mozilla namespace