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signal.d
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signal.d
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module concurrency.signal;
import concurrency.stoptoken;
shared(StopSource) globalStopSource() @trusted {
import core.atomic : atomicLoad, cas;
if (globalSource.atomicLoad is null) {
import concurrency.utils : dynamicLoad;
auto ptr = getGlobalStopSourcePointer();
if (auto source = (*ptr).atomicLoad) {
globalSource = source;
return globalSource;
}
auto tmp = new shared StopSource();
if (ptr.cas(cast(shared StopSource) null, tmp)) {
setupCtrlCHandler(tmp);
globalSource = tmp;
} else
globalSource = (*ptr).atomicLoad;
}
return globalSource;
}
/// Returns true if first to set (otherwise it is ignored)
bool setGlobalStopSource(shared StopSource stopSource) @safe {
import core.atomic : cas;
auto ptr = getGlobalStopSourcePointer();
if (!ptr.cas(cast(shared StopSource) null, stopSource))
return false;
globalSource = stopSource;
return true;
}
/// Sets the stopSource to be called when receiving an interrupt
void setupCtrlCHandler(shared StopSource stopSource) @trusted {
import core.atomic;
if (stopSource is null)
return;
auto old = atomicExchange(&SignalHandler.signalStopSource, stopSource);
if (old !is null)
return;
SignalHandler.setup();
SignalHandler.launchHandlerThread();
version(Windows) {
import core.sys.windows.windows;
SetConsoleCtrlHandler(&signalHandler, true);
} else {
import core.sys.posix.signal;
static void handleSignal(int s) @trusted {
sigaction_t old;
sigset_t sigset;
sigemptyset(&sigset);
sigaction_t siginfo;
siginfo.sa_handler = &signalHandler;
siginfo.sa_mask = sigset;
siginfo.sa_flags = SA_RESTART;
sigaction(s, &siginfo, &old);
// TODO: what to do with old?
}
handleSignal(SIGINT);
handleSignal(SIGTERM);
}
}
private static shared StopSource globalSource;
// we export this function so that dynamic libraries can load it to access
// the host's globalStopSource pointer.
// Otherwise they would access their own local instance.
// should not be called directly by usercode, instead use `globalStopSource`.
export extern(C)
shared(StopSource*) concurrency_globalStopSourcePointer() @safe {
return &globalSource;
}
private shared(StopSource*) getGlobalStopSourcePointer() @safe {
import concurrency.utils : dynamicLoad;
return dynamicLoad!concurrency_globalStopSourcePointer()();
}
struct SignalHandler {
import core.atomic : atomicStore, atomicLoad, MemoryOrder, atomicExchange;
import core.thread : Thread;
static shared int lastSignal; // last signal received
enum int ABORT = -1;
version(Windows) {
import core.sync.event : Event;
private static shared
Event event; // used to notify the dedicated thread to shutdown
static void notify(int num) nothrow @nogc @trusted {
lastSignal.atomicStore!(MemoryOrder.rel)(num);
(cast() event).set();
}
private static int await() nothrow @nogc @trusted {
(cast() event).wait();
return lastSignal.atomicLoad!(MemoryOrder.acq)();
}
private static void setup() @trusted {
(cast() event).initialize(false, false);
}
} else version(linux) {
import core.sys.posix.unistd : write, read;
private static shared int event; // eventfd to notify dedicated thread
static void notify(int num) nothrow @nogc {
lastSignal.atomicStore!(MemoryOrder.rel)(num);
ulong b = 1;
write(event, &b, typeof(b).sizeof);
}
private static int await() nothrow @nogc {
ulong b;
while (read(event, &b, typeof(b).sizeof) != typeof(b).sizeof) {}
return lastSignal.atomicLoad!(MemoryOrder.acq)();
}
private static void setup() {
import core.sys.linux.sys.eventfd;
event = eventfd(0, EFD_CLOEXEC);
}
} else version(Posix) {
import core.sys.posix.unistd : write, read, pipe;
private static shared
int[2] selfPipe; // self pipe to notify dedicated thread
static void notify(int num) nothrow @nogc {
lastSignal.atomicStore!(MemoryOrder.rel)(num);
ulong b = 1;
write(selfPipe[1], &b, typeof(b).sizeof);
}
private static int await() nothrow @nogc {
ulong b;
while (read(cast() selfPipe[0], &b, typeof(b).sizeof)
!= typeof(b).sizeof) {}
return lastSignal.atomicLoad!(MemoryOrder.acq)();
}
private static void setup() {
import std.exception : ErrnoException;
if (pipe(cast(int[2]) selfPipe) == -1)
throw new ErrnoException("Failed to create self-pipe");
}
}
private static void shutdown() {
if (atomicLoad!(MemoryOrder.acq)(signalStopSource) !is null)
SignalHandler.notify(ABORT);
}
private static shared StopSource signalStopSource;
private static shared Thread handlerThread;
private static void launchHandlerThread() {
if (handlerThread.atomicLoad !is null)
return;
auto thread = new Thread(() {
for (;;) {
if (SignalHandler.await() == ABORT) {
return;
}
signalStopSource.stop();
}
});
// This has to be a daemon thread otherwise the runtime will wait on it before calling the shared module destructor that stops it.
thread.isDaemon = true;
if (atomicExchange(&handlerThread, cast(shared) thread) !is null)
return; // someone beat us to it
thread.start();
}
}
/// This is required to properly shutdown in the presence of sanitizers
shared static ~this() {
import core.atomic : atomicExchange;
import core.thread : Thread;
SignalHandler.shutdown();
if (auto thread = atomicExchange(&SignalHandler.handlerThread, null))
(cast() thread).join();
}
version(Windows) {
import core.sys.windows.windows;
extern(Windows) static
BOOL signalHandler(DWORD dwCtrlType) nothrow @system {
import core.stdc.signal;
if (dwCtrlType == CTRL_C_EVENT || dwCtrlType == CTRL_BREAK_EVENT
|| dwCtrlType == CTRL_CLOSE_EVENT
|| dwCtrlType == CTRL_SHUTDOWN_EVENT) {
SignalHandler.notify(SIGINT);
return TRUE;
}
return FALSE;
}
} else {
extern(C) static void signalHandler(int i) nothrow @nogc {
SignalHandler.notify(i);
}
}