/* ---------------------------------------------------------------------------- * * (c) The GHC Team, 2005-2013 * * Macros for THREADED_RTS support * * -------------------------------------------------------------------------- */ #pragma once #include "BeginPrivate.h" #if defined(CMINUSMINUS) /* Lock closure, equivalent to ccall lockClosure but the condition is inlined. * Arguments are swapped for uniformity with unlockClosure. */ #if defined(THREADED_RTS) #define LOCK_CLOSURE(closure, info) \ if (CInt[n_capabilities] == 1 :: CInt) { \ info = GET_INFO(closure); \ } else { \ ("ptr" info) = ccall reallyLockClosure(closure "ptr"); \ } #else #define LOCK_CLOSURE(closure, info) info = GET_INFO(closure) #endif #define unlockClosure(ptr,info) \ prim_write_barrier; \ StgHeader_info(ptr) = info; #else INLINE_HEADER StgInfoTable *lockClosure(StgClosure *p); EXTERN_INLINE StgInfoTable *reallyLockClosure(StgClosure *p); EXTERN_INLINE StgInfoTable *tryLockClosure(StgClosure *p); EXTERN_INLINE void unlockClosure(StgClosure *p, const StgInfoTable *info); #if defined(THREADED_RTS) #if defined(PROF_SPIN) extern volatile StgWord64 whitehole_lockClosure_spin; extern volatile StgWord64 whitehole_lockClosure_yield; #endif /* ----------------------------------------------------------------------------- * Locking/unlocking closures * * This is used primarily in the implementation of MVars. * -------------------------------------------------------------------------- */ // We want a callable copy of reallyLockClosure() so that we can refer to it // from .cmm files compiled using the native codegen, so these are given // EXTERN_INLINE. C-- should use LOCK_CLOSURE not lockClosure, so we've // kept it INLINE_HEADER. EXTERN_INLINE StgInfoTable *reallyLockClosure(StgClosure *p) { StgWord info; do { uint32_t i = 0; do { info = xchg((P_)(void *)&p->header.info, (W_)&stg_WHITEHOLE_info); if (info != (W_)&stg_WHITEHOLE_info) return (StgInfoTable *)info; #if defined(PROF_SPIN) NONATOMIC_ADD(&whitehole_lockClosure_spin, 1); #endif busy_wait_nop(); } while (++i < SPIN_COUNT); #if defined(PROF_SPIN) NONATOMIC_ADD(&whitehole_lockClosure_yield, 1); #endif yieldThread(); } while (1); } INLINE_HEADER StgInfoTable *lockClosure(StgClosure *p) { if (n_capabilities == 1) { return (StgInfoTable *)p->header.info; } else { return reallyLockClosure(p); } } // ToDo: consider splitting tryLockClosure into reallyTryLockClosure, // same as lockClosure EXTERN_INLINE StgInfoTable *tryLockClosure(StgClosure *p) { StgWord info; if (n_capabilities == 1) { return (StgInfoTable *)p->header.info; } else { info = xchg((P_)(void *)&p->header.info, (W_)&stg_WHITEHOLE_info); if (info != (W_)&stg_WHITEHOLE_info) { return (StgInfoTable *)info; } else { return NULL; } } } #else /* !THREADED_RTS */ EXTERN_INLINE StgInfoTable * reallyLockClosure(StgClosure *p) { return (StgInfoTable *)p->header.info; } INLINE_HEADER StgInfoTable * lockClosure(StgClosure *p) { return (StgInfoTable *)p->header.info; } EXTERN_INLINE StgInfoTable * tryLockClosure(StgClosure *p) { return (StgInfoTable *)p->header.info; } #endif /* THREADED_RTS */ EXTERN_INLINE void unlockClosure(StgClosure *p, const StgInfoTable *info) { // This is a strictly ordered write, so we need a RELEASE ordering. RELEASE_STORE(&p->header.info, info); } #endif /* CMINUSMINUS */ #include "EndPrivate.h"