X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=rts%2Fposix%2FItimer.c;fp=rts%2Fposix%2FItimer.c;h=83ed84d6ef02787d171a0131e0a7fff50d2b366f;hb=0065d5ab628975892cea1ec7303f968c3338cbe1;hp=0000000000000000000000000000000000000000;hpb=28a464a75e14cece5db40f2765a29348273ff2d2;p=ghc-hetmet.git diff --git a/rts/posix/Itimer.c b/rts/posix/Itimer.c new file mode 100644 index 0000000..83ed84d --- /dev/null +++ b/rts/posix/Itimer.c @@ -0,0 +1,226 @@ +/* ----------------------------------------------------------------------------- + * + * (c) The GHC Team, 1995-1999 + * + * Interval timer for profiling and pre-emptive scheduling. + * + * ---------------------------------------------------------------------------*/ + +/* + * The interval timer is used for profiling and for context switching in the + * threaded build. Though POSIX 1003.1b includes a standard interface for + * such things, no one really seems to be implementing them yet. Even + * Solaris 2.3 only seems to provide support for @CLOCK_REAL@, whereas we're + * keen on getting access to @CLOCK_VIRTUAL@. + * + * Hence, we use the old-fashioned @setitimer@ that just about everyone seems + * to support. So much for standards. + */ +#include "Rts.h" +#include "RtsFlags.h" +#include "Timer.h" +#include "Ticker.h" +#include "posix/Itimer.h" +#include "Proftimer.h" +#include "Schedule.h" +#include "posix/Select.h" + +/* As recommended in the autoconf manual */ +# ifdef TIME_WITH_SYS_TIME +# include +# include +# else +# ifdef HAVE_SYS_TIME_H +# include +# else +# include +# endif +# endif + +#ifdef HAVE_SIGNAL_H +# include +#endif + +/* Major bogosity: + * + * In the threaded RTS, we can't set the virtual timer because the + * thread which has the virtual timer might be sitting waiting for a + * capability, and the virtual timer only ticks in CPU time. + * + * So, possible solutions: + * + * (1) tick in realtime. Not very good, because this ticker is used for + * profiling, and this will give us unreliable time profiling + * results. Furthermore, this requires picking a single OS thread + * to be the timekeeper, which is a bad idea because the thread in + * question might just be making a temporary call into Haskell land. + * + * (2) save/restore the virtual timer around excursions into STG land. + * Sounds great, but I tried it and the resolution of the virtual timer + * isn't good enough (on Linux) - most of our excursions fall + * within the timer's resolution and we never make any progress. + * + * (3) have a virtual timer in every OS thread. Might be reasonable, + * because most of the time there is only ever one of these + * threads running, so it approximates a single virtual timer. + * But still quite bogus (and I got crashes when I tried this). + * + * For now, we're using (1), but this needs a better solution. --SDM + */ +#ifdef THREADED_RTS +#define ITIMER_FLAVOUR ITIMER_REAL +#define ITIMER_SIGNAL SIGALRM +#else +#define ITIMER_FLAVOUR ITIMER_VIRTUAL +#define ITIMER_SIGNAL SIGVTALRM +#endif + +static +int +install_vtalrm_handler(TickProc handle_tick) +{ + struct sigaction action; + + action.sa_handler = handle_tick; + + sigemptyset(&action.sa_mask); + +#ifdef SA_RESTART + // specify SA_RESTART. One consequence if we don't do this is + // that readline gets confused by the -threaded RTS. It seems + // that if a SIGALRM handler is installed without SA_RESTART, + // readline installs its own SIGALRM signal handler (see + // readline's signals.c), and this somehow causes readline to go + // wrong when the input exceeds a single line (try it). + action.sa_flags = SA_RESTART; +#else + action.sa_flags = 0; +#endif + + return sigaction(ITIMER_SIGNAL, &action, NULL); +} + +int +startTicker(nat ms, TickProc handle_tick) +{ +# ifndef HAVE_SETITIMER + /* debugBelch("No virtual timer on this system\n"); */ + return -1; +# else + struct itimerval it; + + install_vtalrm_handler(handle_tick); + +#if !defined(THREADED_RTS) + timestamp = getourtimeofday(); +#endif + + it.it_value.tv_sec = ms / 1000; + it.it_value.tv_usec = 1000 * (ms - (1000 * it.it_value.tv_sec)); + it.it_interval = it.it_value; + return (setitimer(ITIMER_FLAVOUR, &it, NULL)); +# endif +} + +int +stopTicker() +{ +# ifndef HAVE_SETITIMER + /* debugBelch("No virtual timer on this system\n"); */ + return -1; +# else + struct itimerval it; + + it.it_value.tv_sec = 0; + it.it_value.tv_usec = 0; + it.it_interval = it.it_value; + return (setitimer(ITIMER_FLAVOUR, &it, NULL)); +# endif +} + +# if 0 +/* This is a potential POSIX version */ +int +startTicker(nat ms) +{ + struct sigevent se; + struct itimerspec it; + timer_t tid; + +#if !defined(THREADED_RTS) + timestamp = getourtimeofday(); +#endif + + se.sigev_notify = SIGEV_SIGNAL; + se.sigev_signo = ITIMER_SIGNAL; + se.sigev_value.sival_int = ITIMER_SIGNAL; + if (timer_create(CLOCK_VIRTUAL, &se, &tid)) { + barf("can't create virtual timer"); + } + it.it_value.tv_sec = ms / 1000; + it.it_value.tv_nsec = 1000000 * (ms - 1000 * it.it_value.tv_sec); + it.it_interval = it.it_value; + return timer_settime(tid, TIMER_RELTIME, &it, NULL); +} + +int +stopTicker() +{ + struct sigevent se; + struct itimerspec it; + timer_t tid; + +#if !defined(THREADED_RTS) + timestamp = getourtimeofday(); +#endif + + se.sigev_notify = SIGEV_SIGNAL; + se.sigev_signo = ITIMER_SIGNAL; + se.sigev_value.sival_int = ITIMER_SIGNAL; + if (timer_create(CLOCK_VIRTUAL, &se, &tid)) { + barf("can't create virtual timer"); + } + it.it_value.tv_sec = 0; + it.it_value.tv_nsec = 0; + it.it_interval = it.it_value; + return timer_settime(tid, TIMER_RELTIME, &it, NULL); +} +# endif + +#if 0 +/* Currently unused */ +void +block_vtalrm_signal(void) +{ + sigset_t signals; + + sigemptyset(&signals); + sigaddset(&signals, ITIMER_SIGNAL); + + (void) sigprocmask(SIG_BLOCK, &signals, NULL); +} + +void +unblock_vtalrm_signal(void) +{ + sigset_t signals; + + sigemptyset(&signals); + sigaddset(&signals, ITIMER_SIGNAL); + + (void) sigprocmask(SIG_UNBLOCK, &signals, NULL); +} +#endif + +/* gettimeofday() takes around 1us on our 500MHz PIII. Since we're + * only calling it 50 times/s, it shouldn't have any great impact. + */ +lnat +getourtimeofday(void) +{ + struct timeval tv; + gettimeofday(&tv, (struct timezone *) NULL); + // cast to lnat because nat may be 64 bit when int is only 32 bit + return ((lnat)tv.tv_sec * TICK_FREQUENCY + + (lnat)tv.tv_usec * TICK_FREQUENCY / 1000000); +}