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985c02c2f1
HandshakeDone will be called after a handshake is finished and also after the certificate verifications are done. The code relies on HandshakeDone to signal that the handshake is done. When early-data is not available HandshakeDone is responsible for setting up a Http2 session if needed. There are 2 outcomes when early-data is used: 1) early-data is accepted and transaction continues polling for read, 2) early-data is rejected. In this case, the transaction is restarted as well as polling flags, i.e. the connection will stop polling for read and start polling for write. Another difference is that a transaction that is started during the early-data period will behave as a normal transaction, i.e. it will write data and continue polling for read to receive response. The special cases during early-data(mWaitingFor0RTTResponse==true) are removed from nsHttpConnection::OnSocketWritable(). EnsureNPNComplete is only responsible for driving handshake and checking the early-data availability. All logic for finishing a handshake (i.e. checking whether early-data is accepted and checking alpn value) has been moved to HandshakeDone. The patch also extracts FinishNPNSetup that is responsible for the bookkeeping after a handshake is done or fails, e.g. resetting transactions if 0Rtt is used but handshake fails, updating timings and sending telemetry. HandshakeDone needs to be dispatched so that it is not called inside nss locks. The side effect of this is that nsHttpConnection::OnSocketWritable() may be called in between HandshakeDone being dispatched and executed. Therefore we still need to keep CheckCanWrite0RTTData(). This can be fixed in a follow up patch. Side cleanups: Remove mNotTrustedMitmDetected - his was used for ESNI, but it is not used anymore Differential Revision: https://phabricator.services.mozilla.com/D123824
355 lines
13 KiB
C++
355 lines
13 KiB
C++
/* vim:set ts=4 sw=2 sts=2 ci et: */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#ifndef nsSocketTransportService2_h__
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#define nsSocketTransportService2_h__
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#include "PollableEvent.h"
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#include "mozilla/Atomics.h"
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#include "mozilla/LinkedList.h"
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#include "mozilla/Logging.h"
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#include "mozilla/Maybe.h"
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#include "mozilla/Mutex.h"
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#include "mozilla/TimeStamp.h"
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#include "mozilla/Tuple.h"
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#include "mozilla/UniquePtr.h"
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#include "mozilla/net/DashboardTypes.h"
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#include "nsCOMPtr.h"
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#include "nsIDirectTaskDispatcher.h"
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#include "nsIObserver.h"
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#include "nsIRunnable.h"
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#include "nsIThreadInternal.h"
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#include "nsITimer.h"
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#include "nsPISocketTransportService.h"
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#include "prinit.h"
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#include "prinrval.h"
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class nsASocketHandler;
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struct PRPollDesc;
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class nsIPrefBranch;
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//-----------------------------------------------------------------------------
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namespace mozilla {
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namespace net {
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//
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// set MOZ_LOG=nsSocketTransport:5
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//
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extern LazyLogModule gSocketTransportLog;
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#define SOCKET_LOG(args) MOZ_LOG(gSocketTransportLog, LogLevel::Debug, args)
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#define SOCKET_LOG1(args) MOZ_LOG(gSocketTransportLog, LogLevel::Error, args)
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#define SOCKET_LOG_ENABLED() MOZ_LOG_TEST(gSocketTransportLog, LogLevel::Debug)
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//
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// set MOZ_LOG=UDPSocket:5
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//
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extern LazyLogModule gUDPSocketLog;
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#define UDPSOCKET_LOG(args) MOZ_LOG(gUDPSocketLog, LogLevel::Debug, args)
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#define UDPSOCKET_LOG_ENABLED() MOZ_LOG_TEST(gUDPSocketLog, LogLevel::Debug)
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//-----------------------------------------------------------------------------
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#define NS_SOCKET_POLL_TIMEOUT PR_INTERVAL_NO_TIMEOUT
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//-----------------------------------------------------------------------------
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// These maximums are borrowed from the linux kernel.
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static const int32_t kMaxTCPKeepIdle = 32767; // ~9 hours.
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static const int32_t kMaxTCPKeepIntvl = 32767;
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static const int32_t kMaxTCPKeepCount = 127;
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static const int32_t kDefaultTCPKeepCount =
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#if defined(XP_WIN)
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10; // Hardcoded in Windows.
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#elif defined(XP_MACOSX)
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8; // Hardcoded in OSX.
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#else
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4; // Specifiable in Linux.
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#endif
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class LinkedRunnableEvent final
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: public LinkedListElement<LinkedRunnableEvent> {
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public:
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explicit LinkedRunnableEvent(nsIRunnable* event) : mEvent(event) {}
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~LinkedRunnableEvent() = default;
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already_AddRefed<nsIRunnable> TakeEvent() { return mEvent.forget(); }
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private:
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nsCOMPtr<nsIRunnable> mEvent;
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};
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//-----------------------------------------------------------------------------
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class nsSocketTransportService final : public nsPISocketTransportService,
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public nsISerialEventTarget,
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public nsIThreadObserver,
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public nsIRunnable,
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public nsIObserver,
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public nsINamed,
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public nsIDirectTaskDispatcher {
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public:
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NS_DECL_THREADSAFE_ISUPPORTS
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NS_DECL_NSPISOCKETTRANSPORTSERVICE
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NS_DECL_NSISOCKETTRANSPORTSERVICE
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NS_DECL_NSIROUTEDSOCKETTRANSPORTSERVICE
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NS_DECL_NSIEVENTTARGET_FULL
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NS_DECL_NSITHREADOBSERVER
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NS_DECL_NSIRUNNABLE
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NS_DECL_NSIOBSERVER
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NS_DECL_NSINAMED
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NS_DECL_NSIDIRECTTASKDISPATCHER
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static const uint32_t SOCKET_LIMIT_MIN = 50U;
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nsSocketTransportService();
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// Max Socket count may need to get initialized/used by nsHttpHandler
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// before this class is initialized.
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static uint32_t gMaxCount;
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static PRCallOnceType gMaxCountInitOnce;
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static PRStatus DiscoverMaxCount();
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bool CanAttachSocket();
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// Called by the networking dashboard on the socket thread only
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// Fills the passed array with socket information
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void GetSocketConnections(nsTArray<SocketInfo>*);
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uint64_t GetSentBytes() { return mSentBytesCount; }
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uint64_t GetReceivedBytes() { return mReceivedBytesCount; }
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// Returns true if keepalives are enabled in prefs.
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bool IsKeepaliveEnabled() { return mKeepaliveEnabledPref; }
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bool IsTelemetryEnabledAndNotSleepPhase();
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PRIntervalTime MaxTimeForPrClosePref() { return mMaxTimeForPrClosePref; }
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// According the preference value of `network.socket.forcePort` this method
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// possibly remaps the port number passed as the arg.
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void ApplyPortRemap(uint16_t* aPort);
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// Reads the preference string and updates (rewrites) the mPortRemapping
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// array on the socket thread. Returns true if the whole pref string was
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// correctly formed.
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bool UpdatePortRemapPreference(nsACString const& aPortMappingPref);
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protected:
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virtual ~nsSocketTransportService();
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private:
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//-------------------------------------------------------------------------
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// misc (any thread)
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//-------------------------------------------------------------------------
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// The value is guaranteed to be valid and not dangling while on the socket
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// thread as mThread is only ever reset after it's been shutdown.
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// This member should only ever be read on the socket thread.
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nsIThread* mRawThread{nullptr};
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// Returns mThread in a thread-safe manner.
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already_AddRefed<nsIThread> GetThreadSafely();
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// Same as above, but return mThread as a nsIDirectTaskDispatcher
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already_AddRefed<nsIDirectTaskDispatcher> GetDirectTaskDispatcherSafely();
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//-------------------------------------------------------------------------
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// initialization and shutdown (any thread)
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//-------------------------------------------------------------------------
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Atomic<bool> mInitialized{false};
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// indicates whether we are currently in the process of shutting down
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Atomic<bool> mShuttingDown{false};
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Mutex mLock{"nsSocketTransportService::mLock"};
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// Variables in the next section protected by mLock
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// mThread and mDirectTaskDispatcher are only ever modified on the main
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// thread. Will be set on Init and set to null after shutdown. You must access
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// mThread and mDirectTaskDispatcher outside the main thread via respectively
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// GetThreadSafely and GetDirectTaskDispatchedSafely().
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nsCOMPtr<nsIThread> mThread;
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// We store a pointer to mThread as a direct task dispatcher to avoid having
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// to do do_QueryInterface whenever we need to access the interface.
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nsCOMPtr<nsIDirectTaskDispatcher> mDirectTaskDispatcher;
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UniquePtr<PollableEvent> mPollableEvent;
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bool mOffline{false};
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bool mGoingOffline{false};
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// Detaches all sockets.
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void Reset(bool aGuardLocals);
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nsresult ShutdownThread();
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//-------------------------------------------------------------------------
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// socket lists (socket thread only)
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//
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// only "active" sockets are on the poll list. the active list is kept
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// in sync with the poll list such that:
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//
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// mActiveList[k].mFD == mPollList[k+1].fd
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//
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// where k=0,1,2,...
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//-------------------------------------------------------------------------
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struct SocketContext {
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PRFileDesc* mFD;
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nsASocketHandler* mHandler;
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PRIntervalTime mPollStartEpoch; // time we started to poll this socket
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public:
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// Returns true iff the socket has not been signalled longer than
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// the desired timeout (mHandler->mPollTimeout).
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bool IsTimedOut(PRIntervalTime now) const;
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// Engages the timeout by marking the epoch we start polling this socket.
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// If epoch is already marked this does nothing, hence, this method can be
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// called everytime we put this socket to poll() list with in-flags set.
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void EnsureTimeout(PRIntervalTime now);
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// Called after an event on a socket has been signalled to turn of the
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// timeout calculation.
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void DisengageTimeout();
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// Returns the number of intervals this socket is about to timeout in,
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// or 0 (zero) when it has already timed out. Returns
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// NS_SOCKET_POLL_TIMEOUT when there is no timeout set on the socket.
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PRIntervalTime TimeoutIn(PRIntervalTime now) const;
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// When a socket timeout is reset and later set again, it may happen
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// that mPollStartEpoch is not reset in between. We have to manually
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// call this on every iteration over sockets to ensure the epoch reset.
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void MaybeResetEpoch();
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};
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SocketContext* mActiveList; /* mListSize entries */
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SocketContext* mIdleList; /* mListSize entries */
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uint32_t mActiveListSize{SOCKET_LIMIT_MIN};
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uint32_t mIdleListSize{SOCKET_LIMIT_MIN};
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uint32_t mActiveCount{0};
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uint32_t mIdleCount{0};
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nsresult DetachSocket(SocketContext*, SocketContext*);
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nsresult AddToIdleList(SocketContext*);
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nsresult AddToPollList(SocketContext*);
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void RemoveFromIdleList(SocketContext*);
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void RemoveFromPollList(SocketContext*);
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void MoveToIdleList(SocketContext* sock);
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void MoveToPollList(SocketContext* sock);
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bool GrowActiveList();
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bool GrowIdleList();
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void InitMaxCount();
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// Total bytes number transfered through all the sockets except active ones
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uint64_t mSentBytesCount{0};
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uint64_t mReceivedBytesCount{0};
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//-------------------------------------------------------------------------
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// poll list (socket thread only)
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//
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// first element of the poll list is mPollableEvent (or null if the pollable
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// event cannot be created).
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//-------------------------------------------------------------------------
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PRPollDesc* mPollList; /* mListSize + 1 entries */
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PRIntervalTime PollTimeout(
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PRIntervalTime now); // computes ideal poll timeout
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nsresult DoPollIteration(TimeDuration* pollDuration);
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// perfoms a single poll iteration
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int32_t Poll(TimeDuration* pollDuration, PRIntervalTime ts);
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// calls PR_Poll. the out param
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// interval indicates the poll
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// duration in seconds.
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// pollDuration is used only for
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// telemetry
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//-------------------------------------------------------------------------
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// pending socket queue - see NotifyWhenCanAttachSocket
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//-------------------------------------------------------------------------
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AutoCleanLinkedList<LinkedRunnableEvent> mPendingSocketQueue;
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// Preference Monitor for SendBufferSize and Keepalive prefs.
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nsresult UpdatePrefs();
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static void UpdatePrefs(const char* aPref, void* aSelf);
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void UpdateSendBufferPref();
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int32_t mSendBufferSize{0};
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// Number of seconds of connection is idle before first keepalive ping.
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int32_t mKeepaliveIdleTimeS{600};
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// Number of seconds between retries should keepalive pings fail.
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int32_t mKeepaliveRetryIntervalS{1};
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// Number of keepalive probes to send.
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int32_t mKeepaliveProbeCount{kDefaultTCPKeepCount};
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// True if TCP keepalive is enabled globally.
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bool mKeepaliveEnabledPref{false};
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// Timeout of pollable event signalling.
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TimeDuration mPollableEventTimeout;
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Atomic<bool> mServingPendingQueue{false};
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Atomic<int32_t, Relaxed> mMaxTimePerPollIter{100};
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Atomic<PRIntervalTime, Relaxed> mMaxTimeForPrClosePref;
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// Timestamp of the last network link change event, tracked
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// also on child processes.
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Atomic<PRIntervalTime, Relaxed> mLastNetworkLinkChangeTime{0};
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// Preference for how long we do busy wait after network link
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// change has been detected.
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Atomic<PRIntervalTime, Relaxed> mNetworkLinkChangeBusyWaitPeriod;
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// Preference for the value of timeout for poll() we use during
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// the network link change event period.
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Atomic<PRIntervalTime, Relaxed> mNetworkLinkChangeBusyWaitTimeout;
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// Between a computer going to sleep and waking up the PR_*** telemetry
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// will be corrupted - so do not record it.
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Atomic<bool, Relaxed> mSleepPhase{false};
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nsCOMPtr<nsITimer> mAfterWakeUpTimer;
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// Lazily created array of forced port remappings. The tuple members meaning
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// is exactly:
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// <0> the greater-or-equal port number of the range to remap
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// <1> the less-or-equal port number of the range to remap
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// <2> the port number to remap to, when the given port number falls to the
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// range
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using TPortRemapping = CopyableTArray<Tuple<uint16_t, uint16_t, uint16_t>>;
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Maybe<TPortRemapping> mPortRemapping;
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// Called on the socket thread to apply the mapping build on the main thread
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// from the preference.
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void ApplyPortRemapPreference(TPortRemapping const& portRemapping);
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void OnKeepaliveEnabledPrefChange();
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void NotifyKeepaliveEnabledPrefChange(SocketContext* sock);
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// Socket thread only for dynamically adjusting max socket size
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#if defined(XP_WIN)
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void ProbeMaxCount();
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#endif
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bool mProbedMaxCount{false};
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// Report socket status to about:networking
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void AnalyzeConnection(nsTArray<SocketInfo>* data, SocketContext* context,
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bool aActive);
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void ClosePrivateConnections();
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void DetachSocketWithGuard(bool aGuardLocals, SocketContext* socketList,
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int32_t index);
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void MarkTheLastElementOfPendingQueue();
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#if defined(XP_WIN)
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Atomic<bool> mPolling{false};
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nsCOMPtr<nsITimer> mPollRepairTimer;
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void StartPollWatchdog();
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void DoPollRepair();
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void StartPolling();
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void EndPolling();
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#endif
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void TryRepairPollableEvent();
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CopyableTArray<nsCOMPtr<nsISTSShutdownObserver>> mShutdownObservers;
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};
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extern nsSocketTransportService* gSocketTransportService;
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bool OnSocketThread();
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} // namespace net
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} // namespace mozilla
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#endif // !nsSocketTransportService_h__
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