#include "Rts.h" #include "Stable.h" #include "TopHandler.h" #if defined(THREADED_RTS) static Mutex m; // Protects the operations on topHandlerPtr, // which aren't atomic #endif static StgStablePtr topHandlerPtr; void rts_setMainThread(StgWeak *weak) { ACQUIRE_LOCK(&m); if (topHandlerPtr != NULL) { freeStablePtr(topHandlerPtr); // OK to do under the lock } topHandlerPtr = getStablePtr((StgPtr)weak); // referent is a Weak# ASSERT(weak->header.info == &stg_WEAK_info); // See Note [rts_setMainThread has an unsound type] in // libraries/base/GHC/TopHandler.hs. ASSERT(weak->key->header.info == &stg_TSO_info); RELEASE_LOCK(&m); } StgTSO *getTopHandlerThread(void) { ACQUIRE_LOCK(&m); StgWeak *weak = (StgWeak*)deRefStablePtr(topHandlerPtr); RELEASE_LOCK(&m); const StgInfoTable *info = weak->header.info; if (info == &stg_WEAK_info) { StgClosure *key = ((StgWeak*)weak)->key; // See Note [rts_setMainThread has an unsound type] in // libraries/base/GHC/TopHandler.hs. ASSERT(key->header.info == &stg_TSO_info); return (StgTSO *)key; } else if (info == &stg_DEAD_WEAK_info) { return NULL; } else { barf("getTopHandlerThread: neither a WEAK nor a DEAD_WEAK: %p %p %d", weak, info, info->type); return NULL; } } void initTopHandler(void) { #if defined(THREADED_RTS) initMutex(&m); #endif topHandlerPtr = NULL; } void exitTopHandler(void) { freeStablePtr(topHandlerPtr); topHandlerPtr = NULL; #if defined(THREADED_RTS) closeMutex(&m); #endif }