X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=ghc%2Frts%2FSignals.c;h=ac6d26674d92c6e2688455deb2a8dd6ebcc5900a;hb=bb01a96bea6bd7808332d43a5bed78d1aff4a3fd;hp=90b46ba9b9b1e24237f43c231a9bf4c85550ee6c;hpb=2edb47935ae6e86c1e55efba9f2fa0ddf69dcd6f;p=ghc-hetmet.git diff --git a/ghc/rts/Signals.c b/ghc/rts/Signals.c index 90b46ba..ac6d266 100644 --- a/ghc/rts/Signals.c +++ b/ghc/rts/Signals.c @@ -1,5 +1,4 @@ /* ----------------------------------------------------------------------------- - * $Id: Signals.c,v 1.14 2000/02/29 14:38:19 simonmar Exp $ * * (c) The GHC Team, 1998-1999 * @@ -7,68 +6,138 @@ * * ---------------------------------------------------------------------------*/ +/* This is non-Posix-compliant. + #include "PosixSource.h" +*/ #include "Rts.h" #include "SchedAPI.h" #include "Schedule.h" #include "Signals.h" #include "RtsUtils.h" #include "RtsFlags.h" -#include "StablePriv.h" -#ifndef mingw32_TARGET_OS +#ifdef alpha_TARGET_ARCH +# if defined(linux_TARGET_OS) +# include +# else +# include +# endif +#endif + +#ifdef HAVE_UNISTD_H +# include +#endif -#ifndef PAR +#ifdef HAVE_SIGNAL_H +# include +#endif + +#include +/* This curious flag is provided for the benefit of the Haskell binding + * to POSIX.1 to control whether or not to include SA_NOCLDSTOP when + * installing a SIGCHLD handler. + * + */ +StgInt nocldstop = 0; + +#if defined(RTS_USER_SIGNALS) + +/* SUP: The type of handlers is a little bit, well, doubtful... */ static StgInt *handlers = NULL; /* Dynamically grown array of signal handlers */ static StgInt nHandlers = 0; /* Size of handlers array */ +static nat n_haskell_handlers = 0; + #define N_PENDING_HANDLERS 16 StgPtr pending_handler_buf[N_PENDING_HANDLERS]; StgPtr *next_pending_handler = pending_handler_buf; -StgInt nocldstop = 0; +/* ----------------------------------------------------------------------------- + * Signal handling + * -------------------------------------------------------------------------- */ + +#ifdef RTS_SUPPORTS_THREADS +pthread_t signalHandlingThread; +#endif + +// Handle all signals in the current thread. +// Called from Capability.c whenever the main capability is granted to a thread +// and in installDefaultHandlers +void +handleSignalsInThisThread(void) +{ +#ifdef RTS_SUPPORTS_THREADS + signalHandlingThread = pthread_self(); +#endif +} /* ----------------------------------------------------------------------------- - Allocate/resize the table of signal handlers. - -------------------------------------------------------------------------- */ + * Allocate/resize the table of signal handlers. + * -------------------------------------------------------------------------- */ static void more_handlers(I_ sig) { - I_ i; + StgInt i; if (sig < nHandlers) - return; + return; if (handlers == NULL) - handlers = (I_ *) malloc((sig + 1) * sizeof(I_)); + handlers = (StgInt *)stgMallocBytes((sig + 1) * sizeof(StgInt), "more_handlers"); else - handlers = (I_ *) realloc(handlers, (sig + 1) * sizeof(I_)); + handlers = (StgInt *)stgReallocBytes(handlers, (sig + 1) * sizeof(StgInt), "more_handlers"); - if (handlers == NULL) { - /* don't fflush(stdout); WORKAROUND bug in Linux glibc */ - barf("VM exhausted (in more_handlers)"); - } for(i = nHandlers; i <= sig; i++) - /* Fill in the new slots with default actions */ - handlers[i] = STG_SIG_DFL; + // Fill in the new slots with default actions + handlers[i] = STG_SIG_DFL; nHandlers = sig + 1; } /* ----------------------------------------------------------------------------- - Low-level signal handler + * SIGCONT handler + * + * It seems that shells tend to put stdin back into blocking mode + * following a suspend/resume of the process. Here we arrange to put + * it back into non-blocking mode. We don't do anything to + * stdout/stderr because these handles don't get put into non-blocking + * mode at all - see the comments on stdout/stderr in PrelHandle.hsc. + * -------------------------------------------------------------------------- */ - Places the requested handler on a stack of pending handlers to be - started up at the next context switch. - -------------------------------------------------------------------------- */ +static void +cont_handler(int sig STG_UNUSED) +{ + setNonBlockingFd(0); +} + +/* ----------------------------------------------------------------------------- + * Low-level signal handler + * + * Places the requested handler on a stack of pending handlers to be + * started up at the next context switch. + * -------------------------------------------------------------------------- */ static void generic_handler(int sig) { sigset_t signals; +#if defined(THREADED_RTS) + // Make the thread that currently holds the main capability + // handle the signal. + // This makes sure that awaitEvent() is interrupted + // and it (hopefully) prevents race conditions + // (signal handlers are not atomic with respect to other threads) + + if(pthread_self() != signalHandlingThread) { + pthread_kill(signalHandlingThread, sig); + return; + } +#endif + /* Can't call allocate from here. Probably can't call malloc either. However, we have to schedule a new thread somehow. @@ -97,24 +166,30 @@ generic_handler(int sig) circumstances, depending on the signal. */ - *next_pending_handler++ = deRefStablePtr(handlers[sig]); + *next_pending_handler++ = deRefStablePtr((StgStablePtr)handlers[sig]); - /* stack full? */ + // stack full? if (next_pending_handler == &pending_handler_buf[N_PENDING_HANDLERS]) { - barf("too many pending signals"); + errorBelch("too many pending signals"); + stg_exit(EXIT_FAILURE); } - /* re-establish the signal handler, and carry on */ + // re-establish the signal handler, and carry on sigemptyset(&signals); sigaddset(&signals, sig); sigprocmask(SIG_UNBLOCK, &signals, NULL); + // *always* do the SIGCONT handler, even if the user overrides it. + if (sig == SIGCONT) { + cont_handler(sig); + } + context_switch = 1; } /* ----------------------------------------------------------------------------- - Blocking/Unblocking of the user signals - -------------------------------------------------------------------------- */ + * Blocking/Unblocking of the user signals + * -------------------------------------------------------------------------- */ static sigset_t userSignals; static sigset_t savedSignals; @@ -128,7 +203,7 @@ initUserSignals(void) void blockUserSignals(void) { - sigprocmask(SIG_SETMASK, &userSignals, &savedSignals); + sigprocmask(SIG_BLOCK, &userSignals, &savedSignals); } void @@ -137,28 +212,44 @@ unblockUserSignals(void) sigprocmask(SIG_SETMASK, &savedSignals, NULL); } +rtsBool +anyUserHandlers(void) +{ + return n_haskell_handlers != 0; +} + +void +awaitUserSignals(void) +{ + while (!signals_pending() && !interrupted) { + pause(); + } +} /* ----------------------------------------------------------------------------- - Install a Haskell signal handler. - -------------------------------------------------------------------------- */ + * Install a Haskell signal handler. + * -------------------------------------------------------------------------- */ -StgInt -sig_install(StgInt sig, StgInt spi, StgStablePtr handler, sigset_t *mask) +int +stg_sig_install(int sig, int spi, StgStablePtr *handler, void *mask) { - sigset_t signals; + sigset_t signals, osignals; struct sigaction action; StgInt previous_spi; - /* Block the signal until we figure out what to do */ - /* Count on this to fail if the signal number is invalid */ - if(sig < 0 || sigemptyset(&signals) || sigaddset(&signals, sig) || - sigprocmask(SIG_BLOCK, &signals, NULL)) - return STG_SIG_ERR; - + // Block the signal until we figure out what to do + // Count on this to fail if the signal number is invalid + if (sig < 0 || sigemptyset(&signals) || + sigaddset(&signals, sig) || sigprocmask(SIG_BLOCK, &signals, &osignals)) { + return STG_SIG_ERR; + } + more_handlers(sig); previous_spi = handlers[sig]; + action.sa_flags = 0; + switch(spi) { case STG_SIG_IGN: handlers[sig] = STG_SIG_IGN; @@ -173,43 +264,53 @@ sig_install(StgInt sig, StgInt spi, StgStablePtr handler, sigset_t *mask) break; case STG_SIG_HAN: - handlers[sig] = (I_)handler; + case STG_SIG_RST: + handlers[sig] = (StgInt)*handler; sigaddset(&userSignals, sig); action.sa_handler = generic_handler; + if (spi == STG_SIG_RST) { + action.sa_flags = SA_RESETHAND; + } + n_haskell_handlers++; break; default: - barf("sig_install: bad spi"); + barf("stg_sig_install: bad spi"); } - if (mask != 0) - action.sa_mask = *mask; + if (mask != NULL) + action.sa_mask = *(sigset_t *)mask; else sigemptyset(&action.sa_mask); - action.sa_flags = sig == SIGCHLD && nocldstop ? SA_NOCLDSTOP : 0; + action.sa_flags |= sig == SIGCHLD && nocldstop ? SA_NOCLDSTOP : 0; if (sigaction(sig, &action, NULL) || - sigprocmask(SIG_UNBLOCK, &signals, NULL)) + sigprocmask(SIG_SETMASK, &osignals, NULL)) { - /* need to return an error code, so avoid a stable pointer leak - * by freeing the previous handler if there was one. - */ - if (previous_spi >= 0) { - freeStablePtr(handlers[sig]); - } - return STG_SIG_ERR; + // need to return an error code, so avoid a stable pointer leak + // by freeing the previous handler if there was one. + if (previous_spi >= 0) { + freeStablePtr(stgCast(StgStablePtr,handlers[sig])); + n_haskell_handlers--; + } + return STG_SIG_ERR; } - return previous_spi; + if (previous_spi == STG_SIG_DFL || previous_spi == STG_SIG_IGN + || previous_spi == STG_SIG_ERR) { + return previous_spi; + } else { + *handler = (StgStablePtr)previous_spi; + return STG_SIG_HAN; + } } /* ----------------------------------------------------------------------------- - Creating new threads for the pending signal handlers. - -------------------------------------------------------------------------- */ - + * Creating new threads for the pending signal handlers. + * -------------------------------------------------------------------------- */ void -start_signal_handlers(void) +startSignalHandlers(void) { blockUserSignals(); @@ -217,34 +318,55 @@ start_signal_handlers(void) next_pending_handler--; - createIOThread(RtsFlags.GcFlags.initialStkSize, - (StgClosure *) *next_pending_handler); + scheduleThread( + createIOThread(RtsFlags.GcFlags.initialStkSize, + (StgClosure *) *next_pending_handler)); } unblockUserSignals(); } -#else /* PAR */ -StgInt -sig_install(StgInt sig, StgInt spi, StgStablePtr handler, sigset_t *mask) +/* ---------------------------------------------------------------------------- + * Mark signal handlers during GC. + * + * We do this rather than trying to start all the signal handlers + * prior to GC, because that requires extra heap for the new threads. + * Signals must be blocked (see blockUserSignals() above) during GC to + * avoid race conditions. + * -------------------------------------------------------------------------- */ + +void +markSignalHandlers (evac_fn evac) { - /* don't fflush(stdout); WORKAROUND bug in Linux glibc */ - barf("no signal handling support in a parallel implementation"); + StgPtr *p; + + p = next_pending_handler; + while (p != pending_handler_buf) { + p--; + evac((StgClosure **)p); + } } -void -start_signal_handlers(void) +#else /* !RTS_USER_SIGNALS */ +StgInt +stg_sig_install(StgInt sig STG_UNUSED, + StgInt spi STG_UNUSED, + StgStablePtr* handler STG_UNUSED, + void* mask STG_UNUSED) { + //barf("User signals not supported"); + return STG_SIG_DFL; } + #endif +#if defined(RTS_USER_SIGNALS) /* ----------------------------------------------------------------------------- - SIGINT handler. - - We like to shutdown nicely after receiving a SIGINT, write out the - stats, write profiling info, close open files and flush buffers etc. - -------------------------------------------------------------------------- */ - + * SIGINT handler. + * + * We like to shutdown nicely after receiving a SIGINT, write out the + * stats, write profiling info, close open files and flush buffers etc. + * -------------------------------------------------------------------------- */ #ifdef SMP pthread_t startup_guy; #endif @@ -253,20 +375,40 @@ static void shutdown_handler(int sig STG_UNUSED) { #ifdef SMP - /* if I'm a worker thread, send this signal to the guy who - * originally called startupHaskell(). Since we're handling - * the signal, it won't be a "send to all threads" type of signal - * (according to the POSIX threads spec). - */ - if (pthread_self() != startup_guy) { - pthread_kill(startup_guy, sig); - } else + // if I'm a worker thread, send this signal to the guy who + // originally called startupHaskell(). Since we're handling + // the signal, it won't be a "send to all threads" type of signal + // (according to the POSIX threads spec). + if (pthread_self() != startup_guy) { + pthread_kill(startup_guy, sig); + return; + } + // ToDo: The code for the threaded RTS below does something very + // similar. Maybe the SMP special case is not needed + // -- Wolfgang Thaller +#elif defined(THREADED_RTS) + // Make the thread that currently holds the main capability + // handle the signal. + // This makes sure that awaitEvent() is interrupted + if(pthread_self() != signalHandlingThread) { + pthread_kill(signalHandlingThread, sig); + return; + } #endif - interruptStgRts(); + // If we're already trying to interrupt the RTS, terminate with + // extreme prejudice. So the first ^C tries to exit the program + // cleanly, and the second one just kills it. + if (interrupted) { + stg_exit(EXIT_INTERRUPTED); + } else { + interruptStgRts(); + } } -/* +/* ----------------------------------------------------------------------------- + * Install default signal handlers. + * * The RTS installs a default signal handler for catching * SIGINT, so that we can perform an orderly shutdown. * @@ -274,30 +416,65 @@ shutdown_handler(int sig STG_UNUSED) * fine, provided they're so kind as to put back the old one * when they de-install. * - * We ignore SIGPIPE, because our I/O library handles EPIPE properly, - * and a SIGPIPE tends to cause the program to exit silently and - * mysteriously. - */ + * In addition to handling SIGINT, the RTS also handles SIGFPE + * by ignoring it. Apparently IEEE requires floating-point + * exceptions to be ignored by default, but alpha-dec-osf3 + * doesn't seem to do so. + * -------------------------------------------------------------------------- */ void -init_default_handlers() +initDefaultHandlers() { struct sigaction action,oact; #ifdef SMP startup_guy = pthread_self(); #endif +#ifdef RTS_SUPPORTS_THREADS + handleSignalsInThisThread(); +#endif + + // install the SIGINT handler action.sa_handler = shutdown_handler; sigemptyset(&action.sa_mask); action.sa_flags = 0; if (sigaction(SIGINT, &action, &oact) != 0) { - /* Oh well, at least we tried. */ - prog_belch("failed to install SIGINT handler"); + errorBelch("warning: failed to install SIGINT handler"); + } + +#if defined(HAVE_SIGINTERRUPT) + siginterrupt(SIGINT, 1); // isn't this the default? --SDM +#endif + + // install the SIGCONT handler + action.sa_handler = cont_handler; + sigemptyset(&action.sa_mask); + action.sa_flags = 0; + if (sigaction(SIGCONT, &action, &oact) != 0) { + errorBelch("warning: failed to install SIGCONT handler"); } + // install the SIGFPE handler + + // In addition to handling SIGINT, also handle SIGFPE by ignoring it. + // Apparently IEEE requires floating-point exceptions to be ignored by + // default, but alpha-dec-osf3 doesn't seem to do so. + + // Commented out by SDM 2/7/2002: this causes an infinite loop on + // some architectures when an integer division by zero occurs: we + // don't recover from the floating point exception, and the + // program just generates another one immediately. +#if 0 action.sa_handler = SIG_IGN; - if (sigaction(SIGPIPE, &action, &oact) != 0) { - prog_belch("failed to install SIGINT handler"); + sigemptyset(&action.sa_mask); + action.sa_flags = 0; + if (sigaction(SIGFPE, &action, &oact) != 0) { + errorBelch("warning: failed to install SIGFPE handler"); } +#endif + +#ifdef alpha_TARGET_ARCH + ieee_set_fp_control(0); +#endif } -#endif /*! mingw32_TARGET_OS */ +#endif /* RTS_USER_SIGNALS */