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This represents UE4/Main @ 14768117 For ReleaseObjectVersion.h #lockdown Marcus.Wassmer [CL 14811440 by Marc Audy in ue5-main branch]
294 lines
8.2 KiB
C++
294 lines
8.2 KiB
C++
// Copyright Epic Games, Inc. All Rights Reserved.
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#include "HttpThread.h"
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#include "IHttpThreadedRequest.h"
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#include "HAL/PlatformTime.h"
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#include "HAL/PlatformProcess.h"
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#include "HAL/RunnableThread.h"
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#include "Misc/CommandLine.h"
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#include "Misc/Fork.h"
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#include "Misc/Parse.h"
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#include "HttpModule.h"
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#include "Http.h"
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#include "Stats/Stats.h"
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DECLARE_STATS_GROUP(TEXT("HTTP Thread"), STATGROUP_HTTPThread, STATCAT_Advanced);
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DECLARE_CYCLE_STAT(TEXT("Process"), STAT_HTTPThread_Process, STATGROUP_HTTPThread);
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DECLARE_CYCLE_STAT(TEXT("TickThreadedRequest"), STAT_HTTPThread_TickThreadedRequest, STATGROUP_HTTPThread);
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DECLARE_CYCLE_STAT(TEXT("StartThreadedRequest"), STAT_HTTPThread_StartThreadedRequest, STATGROUP_HTTPThread);
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DECLARE_CYCLE_STAT(TEXT("HttpThreadTick"), STAT_HTTPThread_HttpThreadTick, STATGROUP_HTTPThread);
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DECLARE_CYCLE_STAT(TEXT("IsThreadedRequestComplete"), STAT_HTTPThread_IsThreadedRequestComplete, STATGROUP_HTTPThread);
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DECLARE_CYCLE_STAT(TEXT("CompleteThreadedRequest"), STAT_HTTPThread_CompleteThreadedRequest, STATGROUP_HTTPThread);
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// FHttpThread
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FHttpThread::FHttpThread()
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: Thread(nullptr)
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, bIsSingleThread(false)
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, bIsStopped(true)
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{
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HttpThreadActiveFrameTimeInSeconds = FHttpModule::Get().GetHttpThreadActiveFrameTimeInSeconds();
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HttpThreadActiveMinimumSleepTimeInSeconds = FHttpModule::Get().GetHttpThreadActiveMinimumSleepTimeInSeconds();
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HttpThreadIdleFrameTimeInSeconds = FHttpModule::Get().GetHttpThreadIdleFrameTimeInSeconds();
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HttpThreadIdleMinimumSleepTimeInSeconds = FHttpModule::Get().GetHttpThreadIdleMinimumSleepTimeInSeconds();
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UE_LOG(LogHttp, Log, TEXT("HTTP thread active frame time %.1f ms. Minimum active sleep time is %.1f ms. HTTP thread idle frame time %.1f ms. Minimum idle sleep time is %.1f ms."), HttpThreadActiveFrameTimeInSeconds * 1000.0, HttpThreadActiveMinimumSleepTimeInSeconds * 1000.0, HttpThreadIdleFrameTimeInSeconds * 1000.0, HttpThreadIdleMinimumSleepTimeInSeconds * 1000.0);
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}
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FHttpThread::~FHttpThread()
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{
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StopThread();
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}
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void FHttpThread::StartThread()
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{
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bIsSingleThread = false;
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const bool bDisableForkedHTTPThread = FParse::Param(FCommandLine::Get(), TEXT("DisableForkedHTTPThread"));
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if (FForkProcessHelper::IsForkedMultithreadInstance() && bDisableForkedHTTPThread == false)
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{
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// We only create forkable threads on the forked instance since the HTTPManager cannot safely transition from fake to real seamlessly
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Thread = FForkProcessHelper::CreateForkableThread(this, TEXT("HttpManagerThread"), 128 * 1024, TPri_Normal);
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}
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else
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{
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// If the runnable thread is fake.
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if (FGenericPlatformProcess::SupportsMultithreading() == false)
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{
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bIsSingleThread = true;
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}
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Thread = FRunnableThread::Create(this, TEXT("HttpManagerThread"), 128 * 1024, TPri_Normal);
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}
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bIsStopped = false;
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}
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void FHttpThread::StopThread()
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{
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if (Thread != nullptr)
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{
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Thread->Kill(true);
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delete Thread;
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Thread = nullptr;
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}
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bIsStopped = true;
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bIsSingleThread = true;
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}
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void FHttpThread::AddRequest(IHttpThreadedRequest* Request)
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{
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PendingThreadedRequests.Enqueue(Request);
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}
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void FHttpThread::CancelRequest(IHttpThreadedRequest* Request)
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{
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CancelledThreadedRequests.Enqueue(Request);
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}
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void FHttpThread::GetCompletedRequests(TArray<IHttpThreadedRequest*>& OutCompletedRequests)
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{
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check(IsInGameThread());
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IHttpThreadedRequest* Request = nullptr;
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while (CompletedThreadedRequests.Dequeue(Request))
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{
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OutCompletedRequests.Add(Request);
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}
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}
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bool FHttpThread::Init()
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{
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LastTime = FPlatformTime::Seconds();
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ExitRequest.Set(false);
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return true;
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}
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uint32 FHttpThread::Run()
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{
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// Arrays declared outside of loop to re-use memory
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TArray<IHttpThreadedRequest*> RequestsToCancel;
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TArray<IHttpThreadedRequest*> RequestsToStart;
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TArray<IHttpThreadedRequest*> RequestsToComplete;
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while (!ExitRequest.GetValue())
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{
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if (ensureMsgf(!bIsSingleThread, TEXT("HTTP Thread was set to singlethread mode while it was running autonomously!")))
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{
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const double OuterLoopBegin = FPlatformTime::Seconds();
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double OuterLoopEnd = 0.0;
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bool bKeepProcessing = true;
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while (bKeepProcessing)
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{
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const double InnerLoopBegin = FPlatformTime::Seconds();
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Process(RequestsToCancel, RequestsToStart, RequestsToComplete);
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if (RunningThreadedRequests.Num() == 0)
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{
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bKeepProcessing = false;
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}
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const double InnerLoopEnd = FPlatformTime::Seconds();
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if (bKeepProcessing)
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{
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double InnerLoopTime = InnerLoopEnd - InnerLoopBegin;
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double InnerSleep = FMath::Max(HttpThreadActiveFrameTimeInSeconds - InnerLoopTime, HttpThreadActiveMinimumSleepTimeInSeconds);
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FPlatformProcess::SleepNoStats(InnerSleep);
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}
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else
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{
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OuterLoopEnd = InnerLoopEnd;
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}
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}
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double OuterLoopTime = OuterLoopEnd - OuterLoopBegin;
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double OuterSleep = FMath::Max(HttpThreadIdleFrameTimeInSeconds - OuterLoopTime, HttpThreadIdleMinimumSleepTimeInSeconds);
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FPlatformProcess::SleepNoStats(OuterSleep);
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}
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else
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{
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break;
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}
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}
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return 0;
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}
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void FHttpThread::Tick()
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{
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if (ensure(bIsSingleThread))
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{
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TArray<IHttpThreadedRequest*> RequestsToCancel;
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TArray<IHttpThreadedRequest*> RequestsToStart;
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TArray<IHttpThreadedRequest*> RequestsToComplete;
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Process(RequestsToCancel, RequestsToStart, RequestsToComplete);
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}
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}
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bool FHttpThread::NeedsSingleThreadTick() const
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{
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return bIsSingleThread;
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}
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void FHttpThread::HttpThreadTick(float DeltaSeconds)
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{
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// empty
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}
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bool FHttpThread::StartThreadedRequest(IHttpThreadedRequest* Request)
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{
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return Request->StartThreadedRequest();
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}
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void FHttpThread::CompleteThreadedRequest(IHttpThreadedRequest* Request)
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{
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// empty
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}
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void FHttpThread::Process(TArray<IHttpThreadedRequest*>& RequestsToCancel, TArray<IHttpThreadedRequest*>& RequestsToStart, TArray<IHttpThreadedRequest*>& RequestsToComplete)
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{
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SCOPE_CYCLE_COUNTER(STAT_HTTPThread_Process);
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// cache all cancelled and pending requests
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{
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IHttpThreadedRequest* Request = nullptr;
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RequestsToCancel.Reset();
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while (CancelledThreadedRequests.Dequeue(Request))
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{
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RequestsToCancel.Add(Request);
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}
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RequestsToStart.Reset();
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while (PendingThreadedRequests.Dequeue(Request))
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{
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RequestsToStart.Add(Request);
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}
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}
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// Cancel any pending cancel requests
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for (IHttpThreadedRequest* Request : RequestsToCancel)
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{
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if (RunningThreadedRequests.Remove(Request) > 0)
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{
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RequestsToComplete.AddUnique(Request);
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}
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}
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const double AppTime = FPlatformTime::Seconds();
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const double ElapsedTime = AppTime - LastTime;
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LastTime = AppTime;
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// Tick any running requests
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// as long as they properly finish in HttpThreadTick below they are unaffected by a possibly large ElapsedTime above
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for (IHttpThreadedRequest* Request : RunningThreadedRequests)
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{
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SCOPE_CYCLE_COUNTER(STAT_HTTPThread_TickThreadedRequest);
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Request->TickThreadedRequest(ElapsedTime);
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}
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// Start any pending requests
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// Tick new requests separately from existing RunningThreadedRequests so they get a chance
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// to send unaffected by possibly large ElapsedTime above
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for (IHttpThreadedRequest* Request : RequestsToStart)
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{
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SCOPE_CYCLE_COUNTER(STAT_HTTPThread_StartThreadedRequest);
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if (StartThreadedRequest(Request))
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{
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RunningThreadedRequests.Add(Request);
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Request->TickThreadedRequest(0.0f);
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}
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else
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{
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RequestsToComplete.AddUnique(Request);
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}
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}
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{
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SCOPE_CYCLE_COUNTER(STAT_HTTPThread_HttpThreadTick);
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// Every valid request in RunningThreadedRequests gets at least two calls to HttpThreadTick
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// Blocking loads still can affect things if the network stack can't keep its connections alive
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HttpThreadTick(ElapsedTime);
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}
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// Move any completed requests
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for (int32 Index = 0; Index < RunningThreadedRequests.Num(); ++Index)
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{
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SCOPE_CYCLE_COUNTER(STAT_HTTPThread_IsThreadedRequestComplete);
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IHttpThreadedRequest* Request = RunningThreadedRequests[Index];
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if (Request->IsThreadedRequestComplete())
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{
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RequestsToComplete.AddUnique(Request);
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RunningThreadedRequests.RemoveAtSwap(Index);
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--Index;
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}
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}
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if (RequestsToComplete.Num() > 0)
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{
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for (IHttpThreadedRequest* Request : RequestsToComplete)
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{
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SCOPE_CYCLE_COUNTER(STAT_HTTPThread_CompleteThreadedRequest);
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CompleteThreadedRequest(Request);
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CompletedThreadedRequests.Enqueue(Request);
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}
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RequestsToComplete.Reset();
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}
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}
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void FHttpThread::Stop()
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{
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ExitRequest.Set(true);
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}
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void FHttpThread::Exit()
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{
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// empty
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}
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