Fix threading issues in the generic Posix event implementation.
Uses socketpair non-Linux systems and two separate UDP sockets on Windows for the cross-thread communication.
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@ -5,13 +5,16 @@ import eventcore.driver;
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import eventcore.drivers.posix.driver;
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import eventcore.internal.consumablequeue : ConsumableQueue;
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import std.socket : InternetAddress;
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version (linux) {
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nothrow @nogc extern (C) int eventfd(uint initval, int flags);
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import core.sys.posix.unistd : close, read, write;
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enum EFD_NONBLOCK = 0x800;
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}
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version (Posix) {
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import core.sys.posix.unistd : close, read, write;
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} else {
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import core.sys.windows.winsock2 : closesocket, AF_INET, SOCKET, SOCK_DGRAM,
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bind, connect, getsockname, send, socket;
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}
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final class PosixEventDriverEvents(Loop : PosixEventLoop, Sockets : EventDriverSockets) : EventDriverEvents {
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@ -19,10 +22,13 @@ final class PosixEventDriverEvents(Loop : PosixEventLoop, Sockets : EventDriverS
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private {
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Loop m_loop;
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Sockets m_sockets;
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ubyte[ulong.sizeof] m_buf;
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version (linux) {}
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else {
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EventSlot[DatagramSocketFD] m_events;
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ubyte[long.sizeof] m_buf;
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// TODO: avoid the overhead of a mutex backed map here
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import core.sync.mutex : Mutex;
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Mutex m_eventsMutex;
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EventID[DatagramSocketFD] m_events;
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}
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}
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@ -30,6 +36,8 @@ final class PosixEventDriverEvents(Loop : PosixEventLoop, Sockets : EventDriverS
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{
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m_loop = loop;
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m_sockets = sockets;
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version (linux) {}
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else m_eventsMutex = new Mutex;
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}
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package @property Loop loop() { return m_loop; }
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@ -53,13 +61,54 @@ final class PosixEventDriverEvents(Loop : PosixEventLoop, Sockets : EventDriverS
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assert(getRC(id) == 1);
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return id;
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} else {
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sock_t[2] fd;
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version (Posix) {
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// create a pair of sockets to communicate between threads
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import core.sys.posix.sys.socket : SOCK_DGRAM, AF_UNIX, socketpair;
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if (() @trusted { return socketpair(AF_UNIX, SOCK_DGRAM, 0, fd); } () != 0)
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return EventID.invalid;
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assert(fd[0] != fd[1]);
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// use the first socket as the async receiver
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auto s = m_sockets.adoptDatagramSocketInternal(fd[0]);
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} else {
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// fake missing socketpair support on Windows
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import std.socket : InternetAddress;
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auto addr = new InternetAddress(0x7F000001, 0);
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auto s = m_sockets.createDatagramSocketInternal(addr, addr, true);
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auto s = m_sockets.createDatagramSocketInternal(addr, null, true);
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if (s == DatagramSocketFD.invalid) return EventID.invalid;
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fd[0] = cast(sock_t)s;
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if (!() @trusted {
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fd[1] = socket(AF_INET, SOCK_DGRAM, 0);
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int nl = addr.nameLen;
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import eventcore.internal.utils : print;
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if (bind(fd[1], addr.name, addr.nameLen) != 0)
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return false;
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assert(nl == addr.nameLen);
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if (getsockname(fd[0], addr.name, &nl) != 0)
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return false;
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if (connect(fd[1], addr.name, addr.nameLen) != 0)
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return false;
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return true;
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} ())
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{
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m_sockets.releaseRef(s);
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return EventID.invalid;
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}
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}
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m_sockets.receive(s, m_buf, IOMode.once, &onSocketData);
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m_events[s] = EventSlot(new ConsumableQueue!EventCallback, false, is_internal); // FIXME: avoid dynamic memory allocation
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m_sockets.releaseRef(s); // receive() increments the reference count, but we need a value of 1 upon return
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auto id = cast(EventID)s;
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// use the second socket as the event ID and as the sending end for
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// other threads
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auto id = cast(EventID)fd[1];
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try {
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synchronized (m_eventsMutex)
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m_events[s] = id;
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} catch (Exception e) assert(false, e.msg);
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m_loop.initFD(id, FDFlags.internal);
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m_loop.m_fds[id].specific = EventSlot(new ConsumableQueue!EventCallback, false, is_internal, s); // FIXME: avoid dynamic memory allocation
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assert(getRC(id) == 1);
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return id;
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}
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@ -91,8 +140,8 @@ final class PosixEventDriverEvents(Loop : PosixEventLoop, Sockets : EventDriverS
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long one = 1;
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//log("emitting for all threads");
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if (notify_all) atomicStore(thisus.getSlot(event).triggerAll, true);
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version (linux) () @trusted { .write(cast(int)event, &one, one.sizeof); } ();
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else thisus.m_sockets.send(cast(DatagramSocketFD)event, thisus.m_buf, IOMode.once, null, &thisus.onSocketDataSent);
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version (Posix) .write(cast(int)event, &one, one.sizeof);
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else assert(send(cast(int)event, cast(const(ubyte*))&one, one.sizeof, 0) == one.sizeof);
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}
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final override void wait(EventID event, EventCallback on_event)
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@ -124,13 +173,15 @@ final class PosixEventDriverEvents(Loop : PosixEventLoop, Sockets : EventDriverS
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version (linux) {}
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else {
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private void onSocketDataSent(DatagramSocketFD s, IOStatus status, size_t, scope RefAddress)
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{
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}
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private void onSocketData(DatagramSocketFD s, IOStatus, size_t, scope RefAddress)
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{
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onEvent(cast(EventID)s);
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m_sockets.receive(s, m_buf, IOMode.once, &onSocketData);
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EventID evt;
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try {
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synchronized (m_eventsMutex)
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evt = m_events[s];
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onEvent(evt);
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} catch (Exception e) assert(false, e.msg);
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}
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}
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@ -143,43 +194,36 @@ final class PosixEventDriverEvents(Loop : PosixEventLoop, Sockets : EventDriverS
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final override bool releaseRef(EventID descriptor)
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{
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assert(getRC(descriptor) > 0, "Releasing reference to unreferenced event FD.");
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void destroy() {
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if (--getRC(descriptor) == 0) {
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if (!isInternal(descriptor))
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m_loop.m_waiterCount -= getSlot(descriptor).waiters.length;
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() @trusted nothrow {
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try .destroy(getSlot(descriptor).waiters);
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catch (Exception e) assert(false, e.msg);
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} ();
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}
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version (linux) {
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if (--getRC(descriptor) == 0) {
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if (!isInternal(descriptor))
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m_loop.m_waiterCount -= getSlot(descriptor).waiters.length;
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destroy();
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m_loop.unregisterFD(descriptor, EventMask.read);
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m_loop.clearFD(descriptor);
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close(cast(int)descriptor);
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return false;
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}
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} else {
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if (!m_sockets.releaseRef(cast(DatagramSocketFD)descriptor)) {
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if (!isInternal(descriptor))
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m_loop.m_waiterCount -= getSlot(descriptor).waiters.length;
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destroy();
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m_events.remove(cast(DatagramSocketFD)descriptor);
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return false;
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auto rs = getSlot(descriptor).recvSocket;
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m_sockets.cancelReceive(rs);
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m_sockets.releaseRef(rs);
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try {
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synchronized (m_eventsMutex)
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m_events.remove(rs);
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} catch (Exception e) assert(false, e.msg);
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}
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m_loop.clearFD(descriptor);
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version (Posix) close(cast(int)descriptor);
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else () @trusted { closesocket(cast(SOCKET)descriptor); } ();
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return false;
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}
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return true;
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}
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private EventSlot* getSlot(EventID id)
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{
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version (linux) {
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assert(id < m_loop.m_fds.length, "Invalid event ID.");
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return () @trusted { return &m_loop.m_fds[id].event(); } ();
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} else {
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assert(cast(DatagramSocketFD)id in m_events, "Invalid event ID.");
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return &m_events[cast(DatagramSocketFD)id];
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}
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}
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private ref uint getRC(EventID id)
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@ -198,4 +242,8 @@ package struct EventSlot {
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ConsumableQueue!EventCallback waiters;
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shared bool triggerAll;
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bool isInternal;
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version (linux) {}
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else {
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DatagramSocketFD recvSocket;
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}
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}
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