420 lines
13 KiB
Groff
420 lines
13 KiB
Groff
.\"
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.\" Copyright (c) 1998 Berkeley Software Design, Inc. All rights reserved.
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.\"
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.\" Redistribution and use in source and binary forms, with or without
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.\" modification, are permitted provided that the following conditions
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.\" are met:
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.\" 1. Redistributions of source code must retain the above copyright
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.\" notice, this list of conditions and the following disclaimer.
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.\" 2. Redistributions in binary form must reproduce the above copyright
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.\" notice, this list of conditions and the following disclaimer in the
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.\" documentation and/or other materials provided with the distribution.
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.\" 3. Berkeley Software Design Inc's name may not be used to endorse or
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.\" promote products derived from this software without specific prior
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.\" written permission.
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.\"
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.\" THIS SOFTWARE IS PROVIDED BY BERKELEY SOFTWARE DESIGN INC ``AS IS'' AND
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.\" ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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.\" IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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.\" ARE DISCLAIMED. IN NO EVENT SHALL BERKELEY SOFTWARE DESIGN INC BE LIABLE
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.\" FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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.\" DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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.\" OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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.\" HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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.\" LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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.\" OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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.\" SUCH DAMAGE.
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.\"
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.\" from BSDI $Id: mutex.4,v 1.1.2.3 1998/04/27 22:53:13 ewv Exp $
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.\" $FreeBSD$
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.\"
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.Dd April 20, 1998
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.Dt MUTEX 9
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.Sh NAME
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.Nm mutex ,
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.Nm mtx_init ,
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.Nm mtx_enter ,
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.Nm mtx_try_enter ,
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.Nm mtx_exit ,
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.Nm mtx_destroy ,
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.Nm mtx_owned ,
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.Nm mtx_assert ,
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.Nm MUTEX_DECLARE
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.Nd kernel synchronization primitives
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.Sh SYNOPSIS
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.Fd #include <sys/mutex.h>
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.Ft int
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.Fn mtx_init "struct mtx *mutex" "char *name" "flags"
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.Ft void
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.Fn mtx_enter "struct mtx *mutex" "int flags"
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.Ft void
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.Fn mtx_try_enter "struct mtx *mutex" "int flags"
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.Ft void
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.Fn mtx_exit "struct mtx *mutex" "int flags"
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.Ft void
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.Fn mtx_destroy "struct mtx *mutex"
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.Ft int
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.Fn mtx_owned "struct mtx *mutex"
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.Ft void
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.Fn mtx_assert "struct mtx *mutex" "int what"
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.Fn MUTEX_DECLARE "modifiers" "name"
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.Sh DESCRIPTION
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Mutexes are the most basic and primary method of process synchronization.
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The major design considerations for mutexes are:
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.Bl -enum
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.It
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Acquiring and releasing uncontested mutexes should be as cheap
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as possible.
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.It
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They must have the information and storage space to support
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priority propagation.
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.It
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A process must be able to recursively acquire a mutex.
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.El
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.Pp
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There are currently two flavors of mutexes, those that context switch
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when they block and those that do not.
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.Pp
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By default mutexes will context switch when they are already held.
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As a machine dependent optimization they may spin for some amount
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of time before context switching.
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It is important to remember that since a process may be preempted
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at any time, the possible context switch introduced by acquiring a
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mutex is guaranteed to not break anything that isn't already broken.
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.Pp
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Mutexes which do not context switch are spin mutexes.
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These should only be used to protect data shared with device that
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require non-preemptive interrupts, and low level scheduling code.
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In most/all architectures both acquiring and releasing of a
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uncontested spin mutex is more expensive than the same operation
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on a non spin mutex.
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In order to protect an interrupt service routine from blocking
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against itself all interrupts are blocked on a processor while
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holding a spin lock.
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It is permissible to hold multiple spin mutexes.
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In this case it is a required that they be released in the opposite
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order to that which they were acquired.
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.Pp
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Once a spin mutex has been acquired it is not permissible to acquire a
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blocking mutex.
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.Pp
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The storage needed to implement a mutex is provided by a
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.Dv struct mtx .
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In general this should be treated as an opaque object and
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referenced only with the mutex primitives.
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.Pp
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The
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.Fn mtx_init
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function must be used to initialize a mutex
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before it can be passed to
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.Fn mtx_enter .
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The
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.Ar name
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argument is used by the witness code
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to classify a mutex when doing checks of lock ordering.
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The pointer passed in as the
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.Ar name
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is saved rather than the data it points to.
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The data pointed to must remain stable
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until the mutex is destroyed.
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Currently the
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.Ar flag
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argument is unused.
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In the future it will likely be at least
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used to identify spin mutexes
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so that debug code can verify
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consistent use of a mutex.
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It is not permissible to pass the same
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.Ar mutex
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to
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.Fn mtx_init
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multiple times without intervening calls to
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.Fn mtx_destroy .
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.Pp
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The
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.Fn mtx_enter
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function acquires a mutual exclusion lock
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on behalf of the currently running kernel thread.
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If another kernel thread is holding the mutex,
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the caller will be disconnected from the CPU
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until the mutex is available
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(i.e. it will sleep),
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spin wait for the mutex,
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or possibly a combination of both.
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.Pp
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It is possible for the same thread to recursively acquire a mutex
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with no ill effects;
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if recursion on a given mutex can be avoided,
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faster and smaller code will usually be generated.
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.Pp
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The
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.Fn mtx_try_enter
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function is used to acquire exclusive access
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to those objects protected by the mutex
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pointed to by
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.Ar mutex .
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The
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.Ar flag
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argument is used to specify various options,
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typically
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.Dv MTX_DEF
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is supplied.
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If the mutex can not be immediately acquired
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.Fn mtx_try_enter
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will return 0,
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otherwise the mutex will be acquired
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and a non-zero value will be returned.
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.Pp
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The
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.Fn mtx_exit
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function releases a mutual exclusion lock;
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if a higher priority thread is waiting for the mutex,
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the releasing thread may be disconnected
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to allow the higher priority thread to acquire the mutex and run.
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.Pp
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The
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.Fn mtx_destroy
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function is used to destroy
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.Ar mutex
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so the data associated with it may be freed
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or otherwise overwritten.
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Any mutex which is destroyed
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must previously have been initialized with
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.Fn mtx_init .
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It is permissible to have a single hold count
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on a mutex when it is destroyed.
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It is not permissible to hold the mutex recursively,
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or have another process blocked on the mutex
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when it is destroyed.
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.Pp
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The
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.Fn mtx_owned
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function returns non-zero
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if the current process holds
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.Ar mutex .
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If the current process does not hold
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.Ar mutex
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zero is returned.
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.Pp
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The
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.Fn mtx_assert
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function allows assertions to be made about
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.Ar mutex .
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If the assertions are not true and the kernel is compiled with
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.Dv INVARIANTS
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then the kernel will panic.
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Currently the following assertions are supported:
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.Bl -enum
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.It
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.Dv MA_OWNED
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Assert that the current thread
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holds the mutex
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pointed to by the first argument.
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.It
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.Dv MA_NOTOWNED
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Assert that the current thread
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does not hold the mutex
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pointed to by the first argument.
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.It
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.Dv MA_RECURSED
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Assert that the current thread has recursed on the mutex
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pointed to by the first argument.
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This assertion is only valid in conjuction with
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.Dv MA_OWNED .
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.It
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.Dv MA_NOTRECURSED
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Assert that the current thread has not recursed on the mutex
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pointed to by the first argument.
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This assertion is only valid in conjuction with
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.Dv MA_OWNED .
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.El
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.Pp
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The
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.Fn MUTEX_DECLARE
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macro is used to declare a mutex that is initialized before
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.Xr malloc 9
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is operating.
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Unfortunately, mutex initialization may require
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.Xr malloc 9 .
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However, some mutexes are intialized and used before
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.Xr malloc 9
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can be used.
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Declaring these mutexes with the
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.Fn MUTEX_DECLARE
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macro and then using the
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.Dv MTX_COLD
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flag when calling
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.Fn mtx_init
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allows these early mutexes to be initialized and used before
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.Xr malloc 9
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is available.
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The
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.Ar modifiers
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argument is a list of attributes to be applied to the mutex structure being
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declared such as
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.Dq static .
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The
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.Ar name
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argument is the name of the mutex structure to declare.
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.Pp
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The type of a mutex is not an attribute of the mutex,
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but instead a function of the
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.Fa flags
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argument passed to
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.Fn mtx_enter
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and
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.Fn mtx_exit ;
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this allows code to be generated for the specific mutex type
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at compile time
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and avoids wasting run time on the determination of lock features.
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This does place on the programmer,
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the burden of using matching forms of the
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.Fn mtx_enter
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and
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.Fn mtx_exit
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functions for a given mutex.
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It is an error to acquire a mutex in one mode (e.g. spin)
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and release it in another (e.g. default).
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It is also an error to get the lock in one mode
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and allow another thread to attempt to get the lock in another mode.
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A good general rule is to always use a given mutex in one mode only.
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.Ss The default Mutex Type
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Most kernel code should use the default lock type;
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the default lock type will allow the thread
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to be disconnected from the CPU
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if it cannot get the lock.
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The machine dependent implementation
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may treat the lock as a short term spin lock
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under some circumstances.
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However, it is always safe to use these forms of locks
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in an interrupt thread
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without fear of deadlock
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against an interrupted thread on the same CPU.
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.Ss The spin Mutex Type
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A spin mutex will not relinquish the CPU
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when it cannot immediately get the requested lock,
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but will loop, waiting for the mutex to be released by another CPU.
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This could result in deadlock
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if a thread interrupted the thread which held a mutex
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and then tried to acquire the mutex;
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for this reason spin locks will disable all interrupts
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(on the local CPU only)
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by default.
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.Pp
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Spin locks are fairly specialized locks
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that are intended to be held for very short periods of time;
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their primary purpose is to protect portions of the code
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that implement default (i.e. sleep) locks.
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.Ss Flags
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The flags passed to the
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.Fn mtx_enter
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and
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.Fn mtx_exit
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functions determine what type of mutex is being used
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and also provide various options
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used to generate more efficient code under certain circumstances.
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.Pp
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Both lock types (default and spin)
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can be acquired recursively by the same thread.
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This behavior can be changed with flags.
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.Pp
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The type of the mutex must always be specified:
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.Bl -tag -width MTX_NORECURSE
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.It Dv MTX_DEF
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Default lock type;
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will always allow the current thread to be suspended
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to avoid deadlock conditions against interrupt threads.
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The machine dependent implementation of this lock type
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may spin for a while before suspending the current thread.
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Most locks should be of this type.
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.It Dv MTX_SPIN
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Spin lock;
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will never relinquish the CPU.
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By default all interrupts are disabled on the local CPU
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while any spin lock is held.
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.El
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.Pp
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Options that modify mutex behavior:
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.Bl -tag -width MTX_NORECURSE
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.It Dv MTX_NORECURSE
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If it is known, absolutely,
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that the mutex will not be recursively acquired at this invocation
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then this flag should be specified.
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.Pp
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If the lock is already held by the current thread,
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then a kernel with
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.Dv MUTEX_DEBUG
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defined will panic;
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without debugging enabled,
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the thread may deadlock against itself
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or leave the mutex in a corrupted state.
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.Pp
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This flag prevents generation of additional inline code
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to deal with recursive lock acquisitions
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and should be specified whenever possible
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in the interests of efficiency.
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Not specifying this flag will only cause the generated code
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to be a little larger than necessary;
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it will still operate correctly.
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.It Dv MTX_RLIKELY
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This provides a hint that it is likely that this mutex
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will be held recursively at this invocation.
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The actual optimization used is machine dependent;
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generally, this will inline code to handle recursion
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where a function call would otherwise be needed.
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.Pp
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This is a hint only;
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leaving it out or specifying it inappropriately
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will not cause any great harm other than
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possibly generating less efficient code.
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.It Dv MTX_TOPHALF
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This option applies to spin locks only.
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It indicates that the mutex is never acquired
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from an interrupt thread,
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so it is safe to leave interrupts enabled while holding the lock.
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Since an interrupt may occur while holding the lock,
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this may be detrimental to other processors
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spin waiting for the lock.
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Do not forget to include this option when the lock is released.
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.Pp
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This option should not be used in new code;
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it is documented here for completeness only.
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.It Dv MTX_FIRST
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This option applies to spin locks only.
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It indicates this is the first spin lock acquired by the thread.
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No other spin locks may be held,
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and the requested lock also may not be currently held.
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Do not forget to include this option when the lock is released.
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.It Dv MTX_NOSWITCH
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When releasing a mutex,
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this flag prevents a thread switch that might occur
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if another higher priority thread was waiting for the mutex.
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This may cause priority inversion and should be used carefully.
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.Pp
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This flag is used internally by the lock code.
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It should not be used in general kernel code
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and is documented here for completeness only.
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.It Dv MTX_NOSPIN
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For default locks,
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this hint will prevent spinning before relinquishing the CPU.
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This should be specified when it is known
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that the lock will usually remain unavailable for some time
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when it is not immediately available
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(i.e.: coarse grained locks protecting large subsystems).
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.It Dv MTX_COLD
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This option is only used in
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.Fn mtx_init
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and is used in conjunction with mutexes declared with
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.Fn MUTEX_DECLARE
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to initialize mutexes that are needed before
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.Xr malloc 9
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is available for use.
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.It Dv MTX_QUIET
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This option is used to quiet logging messages during mutex operations.
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This can be used to trim superfluous logging messages for debugging purposes.
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.El
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.Sh HISTORY
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These
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functions appeared in BSD/OS 4.1 and
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.Fx 5.0 .
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