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/* $Id: semmutex-r0drv-darwin.cpp $ */
/** @file
* IPRT - Mutex Semaphores, Ring-0 Driver, Darwin.
*/
/*
* Copyright (C) 2006-2019 Oracle Corporation
*
* This file is part of VirtualBox Open Source Edition (OSE), as
* available from http://www.virtualbox.org. This file is free software;
* you can redistribute it and/or modify it under the terms of the GNU
* General Public License (GPL) as published by the Free Software
* Foundation, in version 2 as it comes in the "COPYING" file of the
* VirtualBox OSE distribution. VirtualBox OSE is distributed in the
* hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
*
* The contents of this file may alternatively be used under the terms
* of the Common Development and Distribution License Version 1.0
* (CDDL) only, as it comes in the "COPYING.CDDL" file of the
* VirtualBox OSE distribution, in which case the provisions of the
* CDDL are applicable instead of those of the GPL.
*
* You may elect to license modified versions of this file under the
* terms and conditions of either the GPL or the CDDL or both.
*/
/*********************************************************************************************************************************
* Header Files *
*********************************************************************************************************************************/
#define RTSEMMUTEX_WITHOUT_REMAPPING
#include "the-darwin-kernel.h"
#include "internal/iprt.h"
#include <iprt/semaphore.h>
#include <iprt/asm.h>
#if defined(RT_ARCH_AMD64) || defined(RT_ARCH_X86)
# include <iprt/asm-amd64-x86.h>
#endif
#include <iprt/assert.h>
#include <iprt/err.h>
#include <iprt/mem.h>
#include <iprt/thread.h>
#include "internal/magics.h"
/*********************************************************************************************************************************
* Structures and Typedefs *
*********************************************************************************************************************************/
/**
* Darwin mutex semaphore.
*/
typedef struct RTSEMMUTEXINTERNAL
{
/** Magic value (RTSEMMUTEX_MAGIC). */
uint32_t volatile u32Magic;
/** The number of waiting threads. */
uint32_t cWaiters;
/** The number of references. */
uint32_t volatile cRefs;
/** The number of recursions. */
uint32_t cRecursions;
/** The handle of the owner thread. */
RTNATIVETHREAD hNativeOwner;
/** The spinlock protecting us. */
lck_spin_t *pSpinlock;
} RTSEMMUTEXINTERNAL, *PRTSEMMUTEXINTERNAL;
RTDECL(int) RTSemMutexCreate(PRTSEMMUTEX phMutexSem)
{
return RTSemMutexCreateEx(phMutexSem, 0 /*fFlags*/, NIL_RTLOCKVALCLASS, RTLOCKVAL_SUB_CLASS_NONE, NULL);
}
RTDECL(int) RTSemMutexCreateEx(PRTSEMMUTEX phMutexSem, uint32_t fFlags,
RTLOCKVALCLASS hClass, uint32_t uSubClass, const char *pszNameFmt, ...)
{
RT_NOREF(hClass, uSubClass, pszNameFmt);
AssertReturn(!(fFlags & ~RTSEMMUTEX_FLAGS_NO_LOCK_VAL), VERR_INVALID_PARAMETER);
RT_ASSERT_PREEMPTIBLE();
IPRT_DARWIN_SAVE_EFL_AC();
AssertCompile(sizeof(RTSEMMUTEXINTERNAL) > sizeof(void *));
PRTSEMMUTEXINTERNAL pThis = (PRTSEMMUTEXINTERNAL)RTMemAlloc(sizeof(*pThis));
if (pThis)
{
pThis->u32Magic = RTSEMMUTEX_MAGIC;
pThis->cWaiters = 0;
pThis->cRefs = 1;
pThis->cRecursions = 0;
pThis->hNativeOwner = NIL_RTNATIVETHREAD;
Assert(g_pDarwinLockGroup);
pThis->pSpinlock = lck_spin_alloc_init(g_pDarwinLockGroup, LCK_ATTR_NULL);
if (pThis->pSpinlock)
{
*phMutexSem = pThis;
IPRT_DARWIN_RESTORE_EFL_AC();
return VINF_SUCCESS;
}
RTMemFree(pThis);
}
IPRT_DARWIN_RESTORE_EFL_AC();
return VERR_NO_MEMORY;
}
/**
* Called when the refcount reaches zero.
*/
static void rtSemMutexDarwinFree(PRTSEMMUTEXINTERNAL pThis)
{
IPRT_DARWIN_SAVE_EFL_AC();
lck_spin_unlock(pThis->pSpinlock);
lck_spin_destroy(pThis->pSpinlock, g_pDarwinLockGroup);
RTMemFree(pThis);
IPRT_DARWIN_RESTORE_EFL_AC();
}
RTDECL(int) RTSemMutexDestroy(RTSEMMUTEX hMutexSem)
{
/*
* Validate input.
*/
PRTSEMMUTEXINTERNAL pThis = (PRTSEMMUTEXINTERNAL)hMutexSem;
if (pThis == NIL_RTSEMMUTEX)
return VERR_INVALID_PARAMETER;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
AssertMsgReturn(pThis->u32Magic == RTSEMMUTEX_MAGIC, ("u32Magic=%RX32 pThis=%p\n", pThis->u32Magic, pThis), VERR_INVALID_HANDLE);
RT_ASSERT_INTS_ON();
IPRT_DARWIN_SAVE_EFL_AC();
/*
* Kill it, wake up all waiting threads and release the reference.
*/
AssertReturn(ASMAtomicCmpXchgU32(&pThis->u32Magic, ~RTSEMMUTEX_MAGIC, RTSEMMUTEX_MAGIC), VERR_INVALID_HANDLE);
lck_spin_lock(pThis->pSpinlock);
if (pThis->cWaiters > 0)
thread_wakeup_prim((event_t)pThis, FALSE /* one_thread */, THREAD_RESTART);
if (ASMAtomicDecU32(&pThis->cRefs) == 0)
rtSemMutexDarwinFree(pThis);
else
lck_spin_unlock(pThis->pSpinlock);
IPRT_DARWIN_RESTORE_EFL_AC();
return VINF_SUCCESS;
}
/**
* Internal worker for the sleep scenario.
*
* Called owning the spinlock, returns without it.
*
* @returns IPRT status code.
* @param pThis The mutex instance.
* @param cMillies The timeout.
* @param fInterruptible Whether it's interruptible
* (RTSemMutexRequestNoResume) or not
* (RTSemMutexRequest).
* @param hNativeSelf The thread handle of the caller.
*/
static int rtR0SemMutexDarwinRequestSleep(PRTSEMMUTEXINTERNAL pThis, RTMSINTERVAL cMillies,
wait_interrupt_t fInterruptible, RTNATIVETHREAD hNativeSelf)
{
/*
* Grab a reference and indicate that we're waiting.
*/
pThis->cWaiters++;
ASMAtomicIncU32(&pThis->cRefs);
/*
* Go to sleep, use the address of the mutex instance as sleep/blocking/event id.
*/
wait_result_t rcWait;
if (cMillies == RT_INDEFINITE_WAIT)
rcWait = lck_spin_sleep(pThis->pSpinlock, LCK_SLEEP_DEFAULT, (event_t)pThis, fInterruptible);
else
{
uint64_t u64AbsTime;
nanoseconds_to_absolutetime(cMillies * UINT64_C(1000000), &u64AbsTime);
u64AbsTime += mach_absolute_time();
rcWait = lck_spin_sleep_deadline(pThis->pSpinlock, LCK_SLEEP_DEFAULT,
(event_t)pThis, fInterruptible, u64AbsTime);
}
/*
* Translate the rc.
*/
int rc;
switch (rcWait)
{
case THREAD_AWAKENED:
if (RT_LIKELY(pThis->u32Magic == RTSEMMUTEX_MAGIC))
{
if (RT_LIKELY( pThis->cRecursions == 0
&& pThis->hNativeOwner == NIL_RTNATIVETHREAD))
{
pThis->cRecursions = 1;
pThis->hNativeOwner = hNativeSelf;
rc = VINF_SUCCESS;
}
else
{
Assert(pThis->cRecursions == 0);
Assert(pThis->hNativeOwner == NIL_RTNATIVETHREAD);
rc = VERR_INTERNAL_ERROR_3;
}
}
else
rc = VERR_SEM_DESTROYED;
break;
case THREAD_TIMED_OUT:
Assert(cMillies != RT_INDEFINITE_WAIT);
rc = VERR_TIMEOUT;
break;
case THREAD_INTERRUPTED:
Assert(fInterruptible);
rc = VERR_INTERRUPTED;
break;
case THREAD_RESTART:
Assert(pThis->u32Magic == ~RTSEMMUTEX_MAGIC);
rc = VERR_SEM_DESTROYED;
break;
default:
AssertMsgFailed(("rcWait=%d\n", rcWait));
rc = VERR_GENERAL_FAILURE;
break;
}
/*
* Dereference it and quit the lock.
*/
Assert(pThis->cWaiters > 0);
pThis->cWaiters--;
Assert(pThis->cRefs > 0);
if (RT_UNLIKELY(ASMAtomicDecU32(&pThis->cRefs) == 0))
rtSemMutexDarwinFree(pThis);
else
lck_spin_unlock(pThis->pSpinlock);
return rc;
}
/**
* Internal worker for RTSemMutexRequest and RTSemMutexRequestNoResume
*
* @returns IPRT status code.
* @param hMutexSem The mutex handle.
* @param cMillies The timeout.
* @param fInterruptible Whether it's interruptible
* (RTSemMutexRequestNoResume) or not
* (RTSemMutexRequest).
*/
DECLINLINE(int) rtR0SemMutexDarwinRequest(RTSEMMUTEX hMutexSem, RTMSINTERVAL cMillies, wait_interrupt_t fInterruptible)
{
/*
* Validate input.
*/
PRTSEMMUTEXINTERNAL pThis = (PRTSEMMUTEXINTERNAL)hMutexSem;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
AssertReturn(pThis->u32Magic == RTSEMMUTEX_MAGIC, VERR_INVALID_HANDLE);
RT_ASSERT_PREEMPTIBLE();
IPRT_DARWIN_SAVE_EFL_AC();
/*
* Grab the lock and check out the state.
*/
RTNATIVETHREAD hNativeSelf = RTThreadNativeSelf();
int rc = VINF_SUCCESS;
lck_spin_lock(pThis->pSpinlock);
/* Recursive call? */
if (pThis->hNativeOwner == hNativeSelf)
{
Assert(pThis->cRecursions > 0);
Assert(pThis->cRecursions < 256);
pThis->cRecursions++;
}
/* Is it free and nobody ahead of us in the queue? */
else if ( pThis->hNativeOwner == NIL_RTNATIVETHREAD
&& pThis->cWaiters == 0)
{
pThis->hNativeOwner = hNativeSelf;
pThis->cRecursions = 1;
}
/* Polling call? */
else if (cMillies == 0)
rc = VERR_TIMEOUT;
/* Yawn, time for a nap... */
else
{
rc = rtR0SemMutexDarwinRequestSleep(pThis, cMillies, fInterruptible, hNativeSelf);
IPRT_DARWIN_RESTORE_EFL_ONLY_AC();
return rc;
}
lck_spin_unlock(pThis->pSpinlock);
IPRT_DARWIN_RESTORE_EFL_ONLY_AC();
return rc;
}
RTDECL(int) RTSemMutexRequest(RTSEMMUTEX hMutexSem, RTMSINTERVAL cMillies)
{
return rtR0SemMutexDarwinRequest(hMutexSem, cMillies, THREAD_UNINT);
}
RTDECL(int) RTSemMutexRequestDebug(RTSEMMUTEX hMutexSem, RTMSINTERVAL cMillies, RTHCUINTPTR uId, RT_SRC_POS_DECL)
{
RT_SRC_POS_NOREF(); RT_NOREF(uId);
return RTSemMutexRequest(hMutexSem, cMillies);
}
RTDECL(int) RTSemMutexRequestNoResume(RTSEMMUTEX hMutexSem, RTMSINTERVAL cMillies)
{
return rtR0SemMutexDarwinRequest(hMutexSem, cMillies, THREAD_ABORTSAFE);
}
RTDECL(int) RTSemMutexRequestNoResumeDebug(RTSEMMUTEX hMutexSem, RTMSINTERVAL cMillies, RTHCUINTPTR uId, RT_SRC_POS_DECL)
{
RT_SRC_POS_NOREF(); RT_NOREF(uId);
return RTSemMutexRequestNoResume(hMutexSem, cMillies);
}
RTDECL(int) RTSemMutexRelease(RTSEMMUTEX hMutexSem)
{
/*
* Validate input.
*/
PRTSEMMUTEXINTERNAL pThis = (PRTSEMMUTEXINTERNAL)hMutexSem;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
AssertReturn(pThis->u32Magic == RTSEMMUTEX_MAGIC, VERR_INVALID_HANDLE);
RT_ASSERT_PREEMPTIBLE();
IPRT_DARWIN_SAVE_EFL_AC();
/*
* Take the lock and do the job.
*/
RTNATIVETHREAD hNativeSelf = RTThreadNativeSelf();
int rc = VINF_SUCCESS;
lck_spin_lock(pThis->pSpinlock);
if (pThis->hNativeOwner == hNativeSelf)
{
Assert(pThis->cRecursions > 0);
if (--pThis->cRecursions == 0)
{
pThis->hNativeOwner = NIL_RTNATIVETHREAD;
if (pThis->cWaiters > 0)
thread_wakeup_prim((event_t)pThis, TRUE /* one_thread */, THREAD_AWAKENED);
}
}
else
rc = VERR_NOT_OWNER;
lck_spin_unlock(pThis->pSpinlock);
AssertRC(rc);
IPRT_DARWIN_RESTORE_EFL_ONLY_AC();
return VINF_SUCCESS;
}
RTDECL(bool) RTSemMutexIsOwned(RTSEMMUTEX hMutexSem)
{
/*
* Validate.
*/
RTSEMMUTEXINTERNAL *pThis = hMutexSem;
AssertPtrReturn(pThis, false);
AssertReturn(pThis->u32Magic == RTSEMMUTEX_MAGIC, false);
IPRT_DARWIN_SAVE_EFL_AC();
/*
* Take the lock and do the check.
*/
lck_spin_lock(pThis->pSpinlock);
bool fRc = pThis->hNativeOwner != NIL_RTNATIVETHREAD;
lck_spin_unlock(pThis->pSpinlock);
IPRT_DARWIN_RESTORE_EFL_AC();
return fRc;
}
|