1 /* -----------------------------------------------------------------------------
3 * (c) The GHC Team 1998-2005
5 * Prototypes for functions in Schedule.c
6 * (RTS internal scheduler interface)
8 * -------------------------------------------------------------------------*/
13 #include "rts/OSThreads.h"
14 #include "Capability.h"
19 /* initScheduler(), exitScheduler()
20 * Called from STG : no
21 * Locks assumed : none
23 void initScheduler (void);
24 void exitScheduler (rtsBool wait_foreign);
25 void freeScheduler (void);
27 // Place a new thread on the run queue of the current Capability
28 void scheduleThread (Capability *cap, StgTSO *tso);
30 // Place a new thread on the run queue of a specified Capability
31 // (cap is the currently owned Capability, cpu is the number of
32 // the desired Capability).
33 void scheduleThreadOn(Capability *cap, StgWord cpu, StgTSO *tso);
37 * Causes an OS thread to wake up and run the scheduler, if necessary.
39 #if defined(THREADED_RTS)
43 /* raiseExceptionHelper */
44 StgWord raiseExceptionHelper (StgRegTable *reg, StgTSO *tso, StgClosure *exception);
46 /* findRetryFrameHelper */
47 StgWord findRetryFrameHelper (StgTSO *tso);
49 /* Entry point for a new worker */
50 void scheduleWorker (Capability *cap, Task *task);
52 /* The state of the scheduler. This is used to control the sequence
53 * of events during shutdown, and when the runtime is interrupted
56 #define SCHED_RUNNING 0 /* running as normal */
57 #define SCHED_INTERRUPTING 1 /* ^C detected, before threads are deleted */
58 #define SCHED_SHUTTING_DOWN 2 /* final shutdown */
60 extern volatile StgWord sched_state;
63 * flag that tracks whether we have done any execution in this time slice.
65 #define ACTIVITY_YES 0 /* there has been activity in the current slice */
66 #define ACTIVITY_MAYBE_NO 1 /* no activity in the current slice */
67 #define ACTIVITY_INACTIVE 2 /* a complete slice has passed with no activity */
68 #define ACTIVITY_DONE_GC 3 /* like 2, but we've done a GC too */
70 /* Recent activity flag.
71 * Locks required : Transition from MAYBE_NO to INACTIVE
72 * happens in the timer signal, so it is atomic. Trnasition from
73 * INACTIVE to DONE_GC happens under sched_mutex. No lock required
74 * to set it to ACTIVITY_YES.
76 extern volatile StgWord recent_activity;
79 * Locks required : sched_mutex
81 * In GranSim we have one run/blocked_queue per PE.
83 extern StgTSO *blackhole_queue;
84 #if !defined(THREADED_RTS)
85 extern StgTSO *blocked_queue_hd, *blocked_queue_tl;
86 extern StgTSO *sleeping_queue;
89 extern rtsBool heap_overflow;
91 #if defined(THREADED_RTS)
92 extern Mutex sched_mutex;
95 /* Called by shutdown_handler(). */
96 void interruptStgRts (void);
98 void resurrectThreads (StgTSO *);
100 /* -----------------------------------------------------------------------------
101 * Some convenient macros/inline functions...
106 /* END_TSO_QUEUE and friends now defined in includes/StgMiscClosures.h */
108 /* Add a thread to the end of the run queue.
109 * NOTE: tso->link should be END_TSO_QUEUE before calling this macro.
110 * ASSUMES: cap->running_task is the current task.
113 appendToRunQueue (Capability *cap, StgTSO *tso);
116 appendToRunQueue (Capability *cap, StgTSO *tso)
118 ASSERT(tso->_link == END_TSO_QUEUE);
119 if (cap->run_queue_hd == END_TSO_QUEUE) {
120 cap->run_queue_hd = tso;
122 setTSOLink(cap, cap->run_queue_tl, tso);
124 cap->run_queue_tl = tso;
125 traceEventThreadRunnable (cap, tso);
128 /* Push a thread on the beginning of the run queue.
129 * ASSUMES: cap->running_task is the current task.
132 pushOnRunQueue (Capability *cap, StgTSO *tso);
135 pushOnRunQueue (Capability *cap, StgTSO *tso)
137 setTSOLink(cap, tso, cap->run_queue_hd);
138 cap->run_queue_hd = tso;
139 if (cap->run_queue_tl == END_TSO_QUEUE) {
140 cap->run_queue_tl = tso;
144 /* Pop the first thread off the runnable queue.
146 INLINE_HEADER StgTSO *
147 popRunQueue (Capability *cap)
149 StgTSO *t = cap->run_queue_hd;
150 ASSERT(t != END_TSO_QUEUE);
151 cap->run_queue_hd = t->_link;
152 t->_link = END_TSO_QUEUE; // no write barrier req'd
153 if (cap->run_queue_hd == END_TSO_QUEUE) {
154 cap->run_queue_tl = END_TSO_QUEUE;
159 /* Add a thread to the end of the blocked queue.
161 #if !defined(THREADED_RTS)
163 appendToBlockedQueue(StgTSO *tso)
165 ASSERT(tso->_link == END_TSO_QUEUE);
166 if (blocked_queue_hd == END_TSO_QUEUE) {
167 blocked_queue_hd = tso;
169 setTSOLink(&MainCapability, blocked_queue_tl, tso);
171 blocked_queue_tl = tso;
175 /* Check whether various thread queues are empty
177 INLINE_HEADER rtsBool
178 emptyQueue (StgTSO *q)
180 return (q == END_TSO_QUEUE);
183 INLINE_HEADER rtsBool
184 emptyRunQueue(Capability *cap)
186 return emptyQueue(cap->run_queue_hd);
189 #if !defined(THREADED_RTS)
190 #define EMPTY_BLOCKED_QUEUE() (emptyQueue(blocked_queue_hd))
191 #define EMPTY_SLEEPING_QUEUE() (emptyQueue(sleeping_queue))
194 INLINE_HEADER rtsBool
195 emptyThreadQueues(Capability *cap)
197 return emptyRunQueue(cap)
198 #if !defined(THREADED_RTS)
199 && EMPTY_BLOCKED_QUEUE() && EMPTY_SLEEPING_QUEUE()
204 #endif /* !IN_STG_CODE */
208 #endif /* SCHEDULE_H */