/* * Copyright (C) 2010 Google Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following disclaimer * in the documentation and/or other materials provided with the * distribution. * * Neither the name of Google Inc. nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "config.h" #include "core/page/PerformanceTiming.h" #include "core/dom/Document.h" #include "core/dom/DocumentTiming.h" #include "core/loader/DocumentLoadTiming.h" #include "core/loader/DocumentLoader.h" #include "core/loader/FrameLoader.h" #include "core/page/Frame.h" #include "core/platform/network/ResourceLoadTiming.h" #include "core/platform/network/ResourceResponse.h" namespace WebCore { static unsigned long long toIntegerMilliseconds(double seconds) { ASSERT(seconds >= 0); return static_cast(seconds * 1000.0); } PerformanceTiming::PerformanceTiming(Frame* frame) : DOMWindowProperty(frame) { ScriptWrappable::init(this); } unsigned long long PerformanceTiming::navigationStart() const { DocumentLoadTiming* timing = documentLoadTiming(); if (!timing) return 0; return monotonicTimeToIntegerMilliseconds(timing->navigationStart()); } unsigned long long PerformanceTiming::unloadEventStart() const { DocumentLoadTiming* timing = documentLoadTiming(); if (!timing) return 0; if (timing->hasCrossOriginRedirect() || !timing->hasSameOriginAsPreviousDocument()) return 0; return monotonicTimeToIntegerMilliseconds(timing->unloadEventStart()); } unsigned long long PerformanceTiming::unloadEventEnd() const { DocumentLoadTiming* timing = documentLoadTiming(); if (!timing) return 0; if (timing->hasCrossOriginRedirect() || !timing->hasSameOriginAsPreviousDocument()) return 0; return monotonicTimeToIntegerMilliseconds(timing->unloadEventEnd()); } unsigned long long PerformanceTiming::redirectStart() const { DocumentLoadTiming* timing = documentLoadTiming(); if (!timing) return 0; if (timing->hasCrossOriginRedirect()) return 0; return monotonicTimeToIntegerMilliseconds(timing->redirectStart()); } unsigned long long PerformanceTiming::redirectEnd() const { DocumentLoadTiming* timing = documentLoadTiming(); if (!timing) return 0; if (timing->hasCrossOriginRedirect()) return 0; return monotonicTimeToIntegerMilliseconds(timing->redirectEnd()); } unsigned long long PerformanceTiming::fetchStart() const { DocumentLoadTiming* timing = documentLoadTiming(); if (!timing) return 0; return monotonicTimeToIntegerMilliseconds(timing->fetchStart()); } unsigned long long PerformanceTiming::domainLookupStart() const { ResourceLoadTiming* timing = resourceLoadTiming(); if (!timing) return fetchStart(); // This will be zero when a DNS request is not performed. // Rather than exposing a special value that indicates no DNS, we "backfill" with fetchStart. double dnsStart = timing->dnsStart; if (dnsStart == 0.0) return fetchStart(); return monotonicTimeToIntegerMilliseconds(dnsStart); } unsigned long long PerformanceTiming::domainLookupEnd() const { ResourceLoadTiming* timing = resourceLoadTiming(); if (!timing) return domainLookupStart(); // This will be zero when a DNS request is not performed. // Rather than exposing a special value that indicates no DNS, we "backfill" with domainLookupStart. double dnsEnd = timing->dnsEnd; if (dnsEnd == 0.0) return domainLookupStart(); return monotonicTimeToIntegerMilliseconds(dnsEnd); } unsigned long long PerformanceTiming::connectStart() const { DocumentLoader* loader = documentLoader(); if (!loader) return domainLookupEnd(); ResourceLoadTiming* timing = loader->response().resourceLoadTiming(); if (!timing) return domainLookupEnd(); // connectStart will be zero when a network request is not made. // Rather than exposing a special value that indicates no new connection, we "backfill" with domainLookupEnd. double connectStart = timing->connectStart; if (connectStart == 0.0 || loader->response().connectionReused()) return domainLookupEnd(); // ResourceLoadTiming's connect phase includes DNS, however Navigation Timing's // connect phase should not. So if there is DNS time, trim it from the start. if (timing->dnsEnd > 0.0 && timing->dnsEnd > connectStart) connectStart = timing->dnsEnd; return monotonicTimeToIntegerMilliseconds(connectStart); } unsigned long long PerformanceTiming::connectEnd() const { DocumentLoader* loader = documentLoader(); if (!loader) return connectStart(); ResourceLoadTiming* timing = loader->response().resourceLoadTiming(); if (!timing) return connectStart(); // connectEnd will be zero when a network request is not made. // Rather than exposing a special value that indicates no new connection, we "backfill" with connectStart. double connectEnd = timing->connectEnd; if (connectEnd == 0.0 || loader->response().connectionReused()) return connectStart(); return monotonicTimeToIntegerMilliseconds(connectEnd); } unsigned long long PerformanceTiming::secureConnectionStart() const { DocumentLoader* loader = documentLoader(); if (!loader) return 0; ResourceLoadTiming* timing = loader->response().resourceLoadTiming(); if (!timing) return 0; double sslStart = timing->sslStart; if (sslStart == 0.0) return 0; return monotonicTimeToIntegerMilliseconds(sslStart); } unsigned long long PerformanceTiming::requestStart() const { ResourceLoadTiming* timing = resourceLoadTiming(); if (!timing || timing->sendStart == 0.0) return connectEnd(); return monotonicTimeToIntegerMilliseconds(timing->sendStart); } unsigned long long PerformanceTiming::responseStart() const { ResourceLoadTiming* timing = resourceLoadTiming(); if (!timing || timing->receiveHeadersEnd == 0.0) return requestStart(); // FIXME: Response start needs to be the time of the first received byte. // However, the ResourceLoadTiming API currently only supports the time // the last header byte was received. For many responses with reasonable // sized cookies, the HTTP headers fit into a single packet so this time // is basically equivalent. But for some responses, particularly those with // headers larger than a single packet, this time will be too late. return monotonicTimeToIntegerMilliseconds(timing->receiveHeadersEnd); } unsigned long long PerformanceTiming::responseEnd() const { DocumentLoadTiming* timing = documentLoadTiming(); if (!timing) return 0; return monotonicTimeToIntegerMilliseconds(timing->responseEnd()); } unsigned long long PerformanceTiming::domLoading() const { const DocumentTiming* timing = documentTiming(); if (!timing) return fetchStart(); return monotonicTimeToIntegerMilliseconds(timing->domLoading); } unsigned long long PerformanceTiming::domInteractive() const { const DocumentTiming* timing = documentTiming(); if (!timing) return 0; return monotonicTimeToIntegerMilliseconds(timing->domInteractive); } unsigned long long PerformanceTiming::domContentLoadedEventStart() const { const DocumentTiming* timing = documentTiming(); if (!timing) return 0; return monotonicTimeToIntegerMilliseconds(timing->domContentLoadedEventStart); } unsigned long long PerformanceTiming::domContentLoadedEventEnd() const { const DocumentTiming* timing = documentTiming(); if (!timing) return 0; return monotonicTimeToIntegerMilliseconds(timing->domContentLoadedEventEnd); } unsigned long long PerformanceTiming::domComplete() const { const DocumentTiming* timing = documentTiming(); if (!timing) return 0; return monotonicTimeToIntegerMilliseconds(timing->domComplete); } unsigned long long PerformanceTiming::loadEventStart() const { DocumentLoadTiming* timing = documentLoadTiming(); if (!timing) return 0; return monotonicTimeToIntegerMilliseconds(timing->loadEventStart()); } unsigned long long PerformanceTiming::loadEventEnd() const { DocumentLoadTiming* timing = documentLoadTiming(); if (!timing) return 0; return monotonicTimeToIntegerMilliseconds(timing->loadEventEnd()); } DocumentLoader* PerformanceTiming::documentLoader() const { if (!m_frame) return 0; return m_frame->loader()->documentLoader(); } const DocumentTiming* PerformanceTiming::documentTiming() const { if (!m_frame) return 0; Document* document = m_frame->document(); if (!document) return 0; return document->timing(); } DocumentLoadTiming* PerformanceTiming::documentLoadTiming() const { DocumentLoader* loader = documentLoader(); if (!loader) return 0; return loader->timing(); } ResourceLoadTiming* PerformanceTiming::resourceLoadTiming() const { DocumentLoader* loader = documentLoader(); if (!loader) return 0; return loader->response().resourceLoadTiming(); } unsigned long long PerformanceTiming::monotonicTimeToIntegerMilliseconds(double monotonicSeconds) const { ASSERT(monotonicSeconds >= 0); const DocumentLoadTiming* timing = documentLoadTiming(); ASSERT(timing); return toIntegerMilliseconds(timing->monotonicTimeToPseudoWallTime(monotonicSeconds)); } } // namespace WebCore