/* ----------------------------------------------------------------------------- * * (c) The GHC Team, 1995-2005 * * Interval timer service for profiling and pre-emptive scheduling. * * ---------------------------------------------------------------------------*/ /* * The interval timer is used for profiling and for context switching in the * threaded build. * * This file defines the platform-independent view of interval timing, relying * on platform-specific services to install and run the timers. * */ #include "PosixSource.h" #include "Rts.h" #include "Timer.h" #include "Proftimer.h" #include "Schedule.h" #include "Ticker.h" #include "Capability.h" #include "RtsSignals.h" /* ticks left before next pre-emptive context switch */ static int ticks_to_ctxt_switch = 0; /* idle ticks left before we perform a GC */ static int ticks_to_gc = 0; /* * Function: handle_tick() * * At each occurrence of a tick, the OS timer will invoke * handle_tick(). */ static void handle_tick(int unused STG_UNUSED) { handleProfTick(); if (RtsFlags.ConcFlags.ctxtSwitchTicks > 0) { ticks_to_ctxt_switch--; if (ticks_to_ctxt_switch <= 0) { ticks_to_ctxt_switch = RtsFlags.ConcFlags.ctxtSwitchTicks; contextSwitchAllCapabilities(); /* schedule a context switch */ } } /* * If we've been inactive for idleGCDelayTime (set by +RTS * -I), tell the scheduler to wake up and do a GC, to check * for threads that are deadlocked. */ switch (recent_activity) { case ACTIVITY_YES: recent_activity = ACTIVITY_MAYBE_NO; ticks_to_gc = RtsFlags.GcFlags.idleGCDelayTime / RtsFlags.MiscFlags.tickInterval; break; case ACTIVITY_MAYBE_NO: if (ticks_to_gc == 0) { if (RtsFlags.GcFlags.doIdleGC) { recent_activity = ACTIVITY_INACTIVE; #ifdef THREADED_RTS wakeUpRts(); // The scheduler will call stopTimer() when it has done // the GC. #endif } else { recent_activity = ACTIVITY_DONE_GC; // disable timer signals (see #1623, #5991) // but only if we're not profiling #ifndef PROFILING stopTimer(); #endif } } else { ticks_to_gc--; } break; default: break; } } // This global counter is used to allow multiple threads to stop the // timer temporarily with a stopTimer()/startTimer() pair. If // timer_enabled == 0 timer is enabled // timer_disabled == N, N > 0 timer is disabled by N threads // When timer_enabled makes a transition to 0, we enable the timer, // and when it makes a transition to non-0 we disable it. static StgWord timer_disabled; void initTimer(void) { initProfTimer(); if (RtsFlags.MiscFlags.tickInterval != 0) { initTicker(RtsFlags.MiscFlags.tickInterval, handle_tick); } timer_disabled = 1; } void startTimer(void) { if (atomic_dec(&timer_disabled) == 0) { if (RtsFlags.MiscFlags.tickInterval != 0) { startTicker(); } } } void stopTimer(void) { if (atomic_inc(&timer_disabled) == 1) { if (RtsFlags.MiscFlags.tickInterval != 0) { stopTicker(); } } } void exitTimer (rtsBool wait) { if (RtsFlags.MiscFlags.tickInterval != 0) { exitTicker(wait); } }