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/* $Id: waitqueue-r0drv-linux.h $ */
/** @file
* IPRT - Linux Ring-0 Driver Helpers for Abstracting Wait Queues,
*/
/*
* Copyright (C) 2006-2023 Oracle and/or its affiliates.
*
* This file is part of VirtualBox base platform packages, as
* available from https://www.virtualbox.org.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation, in version 3 of the
* License.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, see <https://www.gnu.org/licenses>.
*
* The contents of this file may alternatively be used under the terms
* of the Common Development and Distribution License Version 1.0
* (CDDL), a copy of it is provided in the "COPYING.CDDL" file included
* in the VirtualBox 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.
*
* SPDX-License-Identifier: GPL-3.0-only OR CDDL-1.0
*/
#ifndef IPRT_INCLUDED_SRC_r0drv_linux_waitqueue_r0drv_linux_h
#define IPRT_INCLUDED_SRC_r0drv_linux_waitqueue_r0drv_linux_h
#ifndef RT_WITHOUT_PRAGMA_ONCE
# pragma once
#endif
#include "the-linux-kernel.h"
#include <iprt/asm-math.h>
#include <iprt/err.h>
#include <iprt/string.h>
#include <iprt/time.h>
/** The resolution (nanoseconds) specified when using
* schedule_hrtimeout_range. */
#define RTR0SEMLNXWAIT_RESOLUTION 50000
/**
* Kernel mode Linux wait state structure.
*/
typedef struct RTR0SEMLNXWAIT
{
/** The wait queue entry. */
#if RTLNX_VER_MIN(4,13,0) || RTLNX_SUSE_MAJ_PREREQ(12, 4) || RTLNX_SUSE_MAJ_PREREQ(15, 0)
wait_queue_entry_t WaitQE;
#else
wait_queue_t WaitQE;
#endif
/** The absolute timeout given as nano seconds since the start of the
* monotonic clock. */
uint64_t uNsAbsTimeout;
/** The timeout in nano seconds relative to the start of the wait. */
uint64_t cNsRelTimeout;
/** The native timeout value. */
union
{
#ifdef IPRT_LINUX_HAS_HRTIMER
/** The timeout when fHighRes is true. Absolute, so no updating. */
ktime_t KtTimeout;
#endif
/** The timeout when fHighRes is false. Updated after waiting. */
long lTimeout;
} u;
/** Set if we use high resolution timeouts. */
bool fHighRes;
/** Set if it's an indefinite wait. */
bool fIndefinite;
/** Set if we've already timed out.
* Set by rtR0SemLnxWaitDoIt and read by rtR0SemLnxWaitHasTimedOut. */
bool fTimedOut;
/** TASK_INTERRUPTIBLE or TASK_UNINTERRUPTIBLE. */
int iWaitState;
/** The wait queue. */
wait_queue_head_t *pWaitQueue;
} RTR0SEMLNXWAIT;
/** Pointer to a linux wait state. */
typedef RTR0SEMLNXWAIT *PRTR0SEMLNXWAIT;
/**
* Initializes a wait.
*
* The caller MUST check the wait condition BEFORE calling this function or the
* timeout logic will be flawed.
*
* @returns VINF_SUCCESS or VERR_TIMEOUT.
* @param pWait The wait structure.
* @param fFlags The wait flags.
* @param uTimeout The timeout.
* @param pWaitQueue The wait queue head.
*/
DECLINLINE(int) rtR0SemLnxWaitInit(PRTR0SEMLNXWAIT pWait, uint32_t fFlags, uint64_t uTimeout,
wait_queue_head_t *pWaitQueue)
{
/*
* Process the flags and timeout.
*/
if (!(fFlags & RTSEMWAIT_FLAGS_INDEFINITE))
{
/** @todo optimize: millisecs -> nanosecs -> millisec -> jiffies */
if (fFlags & RTSEMWAIT_FLAGS_MILLISECS)
uTimeout = uTimeout < UINT64_MAX / RT_US_1SEC * RT_US_1SEC
? uTimeout * RT_US_1SEC
: UINT64_MAX;
if (uTimeout == UINT64_MAX)
fFlags |= RTSEMWAIT_FLAGS_INDEFINITE;
else
{
uint64_t u64Now;
if (fFlags & RTSEMWAIT_FLAGS_RELATIVE)
{
if (uTimeout == 0)
return VERR_TIMEOUT;
u64Now = RTTimeSystemNanoTS();
pWait->cNsRelTimeout = uTimeout;
pWait->uNsAbsTimeout = u64Now + uTimeout;
if (pWait->uNsAbsTimeout < u64Now) /* overflow */
fFlags |= RTSEMWAIT_FLAGS_INDEFINITE;
}
else
{
u64Now = RTTimeSystemNanoTS();
if (u64Now >= uTimeout)
return VERR_TIMEOUT;
pWait->cNsRelTimeout = uTimeout - u64Now;
pWait->uNsAbsTimeout = uTimeout;
}
}
}
if (!(fFlags & RTSEMWAIT_FLAGS_INDEFINITE))
{
pWait->fIndefinite = false;
#ifdef IPRT_LINUX_HAS_HRTIMER
if ( (fFlags & (RTSEMWAIT_FLAGS_NANOSECS | RTSEMWAIT_FLAGS_ABSOLUTE))
|| pWait->cNsRelTimeout < RT_NS_1SEC / HZ * 4)
{
pWait->fHighRes = true;
# if BITS_PER_LONG < 64
if ( KTIME_SEC_MAX <= LONG_MAX
&& pWait->uNsAbsTimeout >= KTIME_SEC_MAX * RT_NS_1SEC_64 + (RT_NS_1SEC - 1))
fFlags |= RTSEMWAIT_FLAGS_INDEFINITE;
else
# endif
pWait->u.KtTimeout = ns_to_ktime(pWait->uNsAbsTimeout);
}
else
#endif
{
uint64_t cJiffies = ASMMultU64ByU32DivByU32(pWait->cNsRelTimeout, HZ, RT_NS_1SEC);
if (cJiffies >= MAX_JIFFY_OFFSET)
fFlags |= RTSEMWAIT_FLAGS_INDEFINITE;
else
{
pWait->u.lTimeout = (long)cJiffies;
pWait->fHighRes = false;
}
}
}
if (fFlags & RTSEMWAIT_FLAGS_INDEFINITE)
{
pWait->fIndefinite = true;
pWait->fHighRes = false;
pWait->uNsAbsTimeout = UINT64_MAX;
pWait->cNsRelTimeout = UINT64_MAX;
pWait->u.lTimeout = LONG_MAX;
}
pWait->fTimedOut = false;
/*
* Initialize the wait queue related bits.
*/
#if RTLNX_VER_MIN(2,5,39)
init_wait((&pWait->WaitQE));
#else
RT_ZERO(pWait->WaitQE);
init_waitqueue_entry((&pWait->WaitQE), current);
#endif
pWait->pWaitQueue = pWaitQueue;
pWait->iWaitState = fFlags & RTSEMWAIT_FLAGS_INTERRUPTIBLE
? TASK_INTERRUPTIBLE : TASK_UNINTERRUPTIBLE;
return VINF_SUCCESS;
}
/**
* Prepares the next wait.
*
* This must be called before rtR0SemLnxWaitDoIt, and the caller should check
* the exit conditions in-between the two calls.
*
* @param pWait The wait structure.
*/
DECLINLINE(void) rtR0SemLnxWaitPrepare(PRTR0SEMLNXWAIT pWait)
{
/* Make everything thru schedule*() atomic scheduling wise. (Is this correct?) */
prepare_to_wait(pWait->pWaitQueue, &pWait->WaitQE, pWait->iWaitState);
}
/**
* Do the actual wait.
*
* @param pWait The wait structure.
*/
DECLINLINE(void) rtR0SemLnxWaitDoIt(PRTR0SEMLNXWAIT pWait)
{
if (pWait->fIndefinite)
schedule();
#ifdef IPRT_LINUX_HAS_HRTIMER
else if (pWait->fHighRes)
{
int rc = schedule_hrtimeout_range(&pWait->u.KtTimeout, HRTIMER_MODE_ABS, RTR0SEMLNXWAIT_RESOLUTION);
if (!rc)
pWait->fTimedOut = true;
}
#endif
else
{
pWait->u.lTimeout = schedule_timeout(pWait->u.lTimeout);
if (pWait->u.lTimeout <= 0)
pWait->fTimedOut = true;
}
after_wait((&pWait->WaitQE));
}
/**
* Checks if a linux wait was interrupted.
*
* @returns true / false
* @param pWait The wait structure.
* @remarks This shall be called before the first rtR0SemLnxWaitDoIt().
*/
DECLINLINE(bool) rtR0SemLnxWaitWasInterrupted(PRTR0SEMLNXWAIT pWait)
{
return pWait->iWaitState == TASK_INTERRUPTIBLE
&& signal_pending(current);
}
/**
* Checks if a linux wait has timed out.
*
* @returns true / false
* @param pWait The wait structure.
*/
DECLINLINE(bool) rtR0SemLnxWaitHasTimedOut(PRTR0SEMLNXWAIT pWait)
{
return pWait->fTimedOut;
}
/**
* Deletes a linux wait.
*
* @param pWait The wait structure.
*/
DECLINLINE(void) rtR0SemLnxWaitDelete(PRTR0SEMLNXWAIT pWait)
{
finish_wait(pWait->pWaitQueue, &pWait->WaitQE);
}
/**
* Gets the max resolution of the timeout machinery.
*
* @returns Resolution specified in nanoseconds.
*/
DECLINLINE(uint32_t) rtR0SemLnxWaitGetResolution(void)
{
#ifdef IPRT_LINUX_HAS_HRTIMER
return RTR0SEMLNXWAIT_RESOLUTION;
#else
return RT_NS_1SEC / HZ; /* ns */
#endif
}
#endif /* !IPRT_INCLUDED_SRC_r0drv_linux_waitqueue_r0drv_linux_h */
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