592 lines
21 KiB
Groff
592 lines
21 KiB
Groff
.\" Copyright (c) 2009 Facebook, Inc. All rights reserved.
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.\" Copyright (c) 2006-2008 Jason Evans <jasone@canonware.com>.
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.\" All rights reserved.
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.\" Copyright (c) 1980, 1991, 1993
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.\" The Regents of the University of California. All rights reserved.
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.\"
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.\" This code is derived from software contributed to Berkeley by
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.\" the American National Standards Committee X3, on Information
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.\" Processing Systems.
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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. Neither the name of the University nor the names of its contributors
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.\" may be used to endorse or promote products derived from this software
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.\" without specific prior written permission.
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.\"
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.\" THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``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 THE REGENTS OR CONTRIBUTORS 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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.\" @(#)malloc.3 8.1 (Berkeley) 6/4/93
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.\" $FreeBSD: head/lib/libc/stdlib/malloc.3 182225 2008-08-27 02:00:53Z jasone $
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.\"
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.Dd November 13, 2009
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.Dt JEMALLOC 3
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.Os
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.Sh NAME
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.Nm malloc , calloc , posix_memalign , realloc , free , malloc_usable_size
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.Nd general purpose memory allocation functions
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.Sh LIBRARY
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.Lb libjemalloc
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.Sh SYNOPSIS
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.In stdlib.h
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.In jemalloc.h
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.Ft void *
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.Fn @jemalloc_prefix@malloc "size_t size"
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.Ft void *
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.Fn @jemalloc_prefix@calloc "size_t number" "size_t size"
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.Ft int
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.Fn @jemalloc_prefix@posix_memalign "void **ptr" "size_t alignment" "size_t size"
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.Ft void *
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.Fn @jemalloc_prefix@realloc "void *ptr" "size_t size"
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.Ft void
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.Fn @jemalloc_prefix@free "void *ptr"
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.Ft size_t
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.Fn @jemalloc_prefix@malloc_usable_size "const void *ptr"
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.Ft const char *
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.Va @jemalloc_prefix@malloc_options ;
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.Ft void
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.Fo \*(lp*@jemalloc_prefix@malloc_message\*(rp
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.Fa "const char *p1" "const char *p2" "const char *p3" "const char *p4"
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.Fc
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.Sh DESCRIPTION
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The
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.Fn @jemalloc_prefix@malloc
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function allocates
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.Fa size
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bytes of uninitialized memory.
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The allocated space is suitably aligned
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@roff_tiny@(after possible pointer coercion)
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for storage of any type of object.
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.Pp
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The
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.Fn @jemalloc_prefix@calloc
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function allocates space for
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.Fa number
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objects,
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each
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.Fa size
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bytes in length.
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The result is identical to calling
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.Fn @jemalloc_prefix@malloc
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with an argument of
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.Dq "number * size" ,
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with the exception that the allocated memory is explicitly initialized
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to zero bytes.
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.Pp
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The
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.Fn @jemalloc_prefix@posix_memalign
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function allocates
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.Fa size
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bytes of memory such that the allocation's base address is an even multiple of
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.Fa alignment ,
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and returns the allocation in the value pointed to by
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.Fa ptr .
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The requested
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.Fa alignment
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must be a power of 2 at least as large as
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.Fn sizeof "void *" .
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.Pp
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The
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.Fn @jemalloc_prefix@realloc
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function changes the size of the previously allocated memory referenced by
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.Fa ptr
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to
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.Fa size
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bytes.
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The contents of the memory are unchanged up to the lesser of the new and
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old sizes.
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If the new size is larger,
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the contents of the newly allocated portion of the memory are undefined.
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Upon success, the memory referenced by
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.Fa ptr
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is freed and a pointer to the newly allocated memory is returned.
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Note that
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.Fn @jemalloc_prefix@realloc
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may move the memory allocation, resulting in a different return value than
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.Fa ptr .
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If
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.Fa ptr
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is
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.Dv NULL ,
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the
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.Fn @jemalloc_prefix@realloc
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function behaves identically to
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.Fn @jemalloc_prefix@malloc
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for the specified size.
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.Pp
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The
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.Fn @jemalloc_prefix@free
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function causes the allocated memory referenced by
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.Fa ptr
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to be made available for future allocations.
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If
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.Fa ptr
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is
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.Dv NULL ,
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no action occurs.
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.Pp
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The
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.Fn @jemalloc_prefix@malloc_usable_size
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function returns the usable size of the allocation pointed to by
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.Fa ptr .
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The return value may be larger than the size that was requested during
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allocation.
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The
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.Fn @jemalloc_prefix@malloc_usable_size
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function is not a mechanism for in-place
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.Fn @jemalloc_prefix@realloc ;
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rather it is provided solely as a tool for introspection purposes.
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Any discrepancy between the requested allocation size and the size reported by
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.Fn @jemalloc_prefix@malloc_usable_size
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should not be depended on, since such behavior is entirely
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implementation-dependent.
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.Sh TUNING
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Once, when the first call is made to one of these memory allocation
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routines, various flags will be set or reset, which affects the
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workings of this allocator implementation.
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.Pp
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The
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.Dq name
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of the file referenced by the symbolic link named
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.Pa /etc/jemalloc.conf ,
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the value of the environment variable
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.Ev JEMALLOC_OPTIONS ,
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and the string pointed to by the global variable
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.Va @jemalloc_prefix@malloc_options
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will be interpreted, in that order, from left to right as flags.
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.Pp
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Each flag is a single letter, optionally prefixed by a non-negative base 10
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integer repetition count.
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For example,
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.Dq 3N
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is equivalent to
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.Dq NNN .
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Some flags control parameter magnitudes, where uppercase increases the
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magnitude, and lowercase decreases the magnitude.
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Other flags control boolean parameters, where uppercase indicates that a
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behavior is set, or on, and lowercase means that a behavior is not set, or off.
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.Bl -tag -width indent
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.It A
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All warnings (except for the warning about unknown
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flags being set) become fatal.
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The process will call
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.Xr abort 3
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in these cases.
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@roff_balance@@roff_tls@.It B
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@roff_balance@@roff_tls@Double/halve the per-arena lock contention threshold at
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@roff_balance@@roff_tls@which a thread is randomly re-assigned to an arena.
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@roff_balance@@roff_tls@This dynamic load balancing tends to push threads away
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@roff_balance@@roff_tls@from highly contended arenas, which avoids worst case
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@roff_balance@@roff_tls@contention scenarios in which threads disproportionately
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@roff_balance@@roff_tls@utilize arenas.
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@roff_balance@@roff_tls@However, due to the highly dynamic load that
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@roff_balance@@roff_tls@applications may place on the allocator, it is
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@roff_balance@@roff_tls@impossible for the allocator to know in advance how
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@roff_balance@@roff_tls@sensitive it should be to contention over arenas.
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@roff_balance@@roff_tls@Therefore, some applications may benefit from increasing
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@roff_balance@@roff_tls@or decreasing this threshold parameter.
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.It C
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Double/halve the size of the maximum size class that is a multiple of the
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cacheline size (64).
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Above this size, subpage spacing (256 bytes) is used for size classes.
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The default value is 512 bytes.
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@roff_dss@.It D
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@roff_dss@Use
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@roff_dss@.Xr sbrk 2
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@roff_dss@to acquire memory in the data storage segment (DSS).
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@roff_dss@This option is enabled by default.
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@roff_dss@See the
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@roff_dss@.Dq M
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@roff_dss@option for related information and interactions.
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.It F
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Double/halve the per-arena maximum number of dirty unused pages that are
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allowed to accumulate before informing the kernel about at least half of those
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pages via
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.Xr madvise 2 .
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This provides the kernel with sufficient information to recycle dirty pages if
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physical memory becomes scarce and the pages remain unused.
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The default is 512 pages per arena;
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.Ev JEMALLOC_OPTIONS=10f
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will prevent any dirty unused pages from accumulating.
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@roff_mag@@roff_tls@.It G
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@roff_mag@@roff_tls@When there are multiple threads, use thread-specific caching
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@roff_mag@@roff_tls@for objects that are smaller than one page.
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@roff_mag@@roff_tls@This option is enabled by default.
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@roff_mag@@roff_tls@Thread-specific caching allows many allocations to be
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@roff_mag@@roff_tls@satisfied without performing any thread synchronization, at
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@roff_mag@@roff_tls@the cost of increased memory use.
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@roff_mag@@roff_tls@See the
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@roff_mag@@roff_tls@.Dq R
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@roff_mag@@roff_tls@option for related tuning information.
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@roff_fill@.It J
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@roff_fill@Each byte of new memory allocated by
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@roff_fill@.Fn @jemalloc_prefix@malloc
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@roff_fill@or
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@roff_fill@.Fn @jemalloc_prefix@realloc
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@roff_fill@will be initialized to 0xa5.
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@roff_fill@All memory returned by
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@roff_fill@.Fn @jemalloc_prefix@free
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@roff_fill@or
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@roff_fill@.Fn @jemalloc_prefix@realloc
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@roff_fill@will be initialized to 0x5a.
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@roff_fill@This is intended for debugging and will impact performance
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@roff_fill@negatively.
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.It K
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Double/halve the virtual memory chunk size.
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The default chunk size is 1 MB.
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@roff_dss@.It M
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@roff_dss@Use
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@roff_dss@.Xr mmap 2
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@roff_dss@to acquire anonymously mapped memory.
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@roff_dss@This option is enabled by default.
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@roff_dss@If both the
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@roff_dss@.Dq D
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@roff_dss@and
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@roff_dss@.Dq M
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@roff_dss@options are enabled, the allocator prefers the DSS over anonymous
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@roff_dss@mappings, but allocation only fails if memory cannot be acquired via
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@roff_dss@either method.
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@roff_dss@If neither option is enabled, then the
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@roff_dss@.Dq M
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@roff_dss@option is implicitly enabled in order to assure that there is a method
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@roff_dss@for acquiring memory.
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.It N
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Double/halve the number of arenas.
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The default number of arenas is two times the number of CPUs, or one if there
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is a single CPU.
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.It P
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Various statistics are printed at program exit via an
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.Xr atexit 3
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function.
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This has the potential to cause deadlock for a multi-threaded process that exits
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while one or more threads are executing in the memory allocation functions.
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Therefore, this option should only be used with care; it is primarily intended
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as a performance tuning aid during application development.
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.It Q
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Double/halve the size of the maximum size class that is a multiple of the
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quantum (8 or 16 bytes, depending on architecture).
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Above this size, cacheline spacing is used for size classes.
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The default value is 128 bytes.
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@roff_mag@@roff_tls@.It R
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@roff_mag@@roff_tls@Double/halve magazine size, which approximately
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@roff_mag@@roff_tls@doubles/halves the number of rounds in each magazine.
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@roff_mag@@roff_tls@Magazines are used by the thread-specific caching machinery
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@roff_mag@@roff_tls@to acquire and release objects in bulk.
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@roff_mag@@roff_tls@Increasing the magazine size decreases locking overhead, at
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@roff_mag@@roff_tls@the expense of increased memory usage.
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@roff_trace@.It T
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@roff_trace@Write a verbose trace log to a set of files named according to the
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@roff_trace@pattern
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@roff_trace@.Pa jemtr.<pid>.<arena>
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@roff_trace@for all allocation operations.
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@roff_trace@The result can be converted from
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@roff_trace@.Nm jemtr
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@roff_trace@to
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@roff_trace@.Nm mtr
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@roff_trace@format via
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@roff_trace@.Xr jemtr2mtr 1 ,
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@roff_trace@the output of which can be used by
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@roff_trace@.Xr mtrplay 1
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@roff_trace@and
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@roff_trace@.Xr mtrgraph 1 .
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@roff_sysv@.It V
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@roff_sysv@Attempting to allocate zero bytes will return a
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@roff_sysv@.Dv NULL
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@roff_sysv@pointer instead of a valid pointer.
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@roff_sysv@(The default behavior is to make a minimal allocation and return a
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@roff_sysv@pointer to it.)
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@roff_sysv@This option is provided for System V compatibility.
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@roff_sysv@@roff_xmalloc@This option is incompatible with the
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@roff_sysv@@roff_xmalloc@.Dq X
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@roff_sysv@@roff_xmalloc@option.
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@roff_xmalloc@.It X
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@roff_xmalloc@Rather than return failure for any allocation function, display a
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@roff_xmalloc@diagnostic message on
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@roff_xmalloc@.Dv stderr
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@roff_xmalloc@and cause the program to drop core (using
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@roff_xmalloc@.Xr abort 3 ) .
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@roff_xmalloc@This option should be set at compile time by including the
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@roff_xmalloc@following in the source code:
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@roff_xmalloc@.Bd -literal -offset indent
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@roff_xmalloc@@jemalloc_prefix@malloc_options = "X";
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@roff_xmalloc@.Ed
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@roff_fill@.It Z
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@roff_fill@Each byte of new memory allocated by
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@roff_fill@.Fn @jemalloc_prefix@malloc
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@roff_fill@or
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@roff_fill@.Fn @jemalloc_prefix@realloc
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@roff_fill@will be initialized to 0.
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@roff_fill@Note that this initialization only happens once for each byte, so
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@roff_fill@.Fn @jemalloc_prefix@realloc
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@roff_fill@calls do not zero memory that was previously allocated.
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@roff_fill@This is intended for debugging and will impact performance
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@roff_fill@negatively.
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.El
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.Pp
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@roff_fill@The
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@roff_fill@.Dq J
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@roff_fill@and
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@roff_fill@.Dq Z
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@roff_fill@options are intended for testing and debugging.
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@roff_fill@An application which changes its behavior when these options are used
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@roff_fill@is flawed.
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.Sh IMPLEMENTATION NOTES
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@roff_dss@Traditionally, allocators have used
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@roff_dss@.Xr sbrk 2
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@roff_dss@to obtain memory, which is suboptimal for several reasons, including
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@roff_dss@race conditions, increased fragmentation, and artificial limitations
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@roff_dss@on maximum usable memory.
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@roff_dss@This allocator uses both
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@roff_dss@.Xr sbrk 2
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@roff_dss@and
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@roff_dss@.Xr mmap 2
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@roff_dss@by default, but it can be configured at run time to use only one or
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@roff_dss@the other.
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.Pp
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This allocator uses multiple arenas in order to reduce lock contention for
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threaded programs on multi-processor systems.
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This works well with regard to threading scalability, but incurs some costs.
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There is a small fixed per-arena overhead, and additionally, arenas manage
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memory completely independently of each other, which means a small fixed
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increase in overall memory fragmentation.
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These overheads are not generally an issue, given the number of arenas normally
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used.
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Note that using substantially more arenas than the default is not likely to
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improve performance, mainly due to reduced cache performance.
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However, it may make sense to reduce the number of arenas if an application
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does not make much use of the allocation functions.
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.Pp
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@roff_mag@In addition to multiple arenas, this allocator supports
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@roff_mag@thread-specific caching for small objects (smaller than one page), in
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@roff_mag@order to make it possible to completely avoid synchronization for most
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@roff_mag@small allocation requests.
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@roff_mag@Such caching allows very fast allocation in the common case, but it
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@roff_mag@increases memory usage and fragmentation, since a bounded number of
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@roff_mag@objects can remain allocated in each thread cache.
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@roff_mag@.Pp
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Memory is conceptually broken into equal-sized chunks, where the chunk size is
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a power of two that is greater than the page size.
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Chunks are always aligned to multiples of the chunk size.
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This alignment makes it possible to find metadata for user objects very
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quickly.
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.Pp
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User objects are broken into three categories according to size: small, large,
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and huge.
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Small objects are smaller than one page.
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Large objects are smaller than the chunk size.
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Huge objects are a multiple of the chunk size.
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Small and large objects are managed by arenas; huge objects are managed
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separately in a single data structure that is shared by all threads.
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Huge objects are used by applications infrequently enough that this single
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data structure is not a scalability issue.
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.Pp
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Each chunk that is managed by an arena tracks its contents as runs of
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contiguous pages (unused, backing a set of small objects, or backing one large
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object).
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The combination of chunk alignment and chunk page maps makes it possible to
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determine all metadata regarding small and large allocations in constant time.
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.Pp
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Small objects are managed in groups by page runs.
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Each run maintains a bitmap that tracks which regions are in use.
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@roff_tiny@Allocation requests that are no more than half the quantum (8 or 16,
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@roff_tiny@depending on architecture) are rounded up to the nearest power of
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@roff_tiny@two.
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Allocation requests that are
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@roff_tiny@more than half the quantum, but
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no more than the minimum cacheline-multiple size class (see the
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.Dq Q
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option) are rounded up to the nearest multiple of the
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@roff_tiny@quantum.
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@roff_no_tiny@quantum (8 or 16, depending on architecture).
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Allocation requests that are more than the minumum cacheline-multiple size
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class, but no more than the minimum subpage-multiple size class (see the
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.Dq C
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option) are rounded up to the nearest multiple of the cacheline size (64).
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Allocation requests that are more than the minimum subpage-multiple size class
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are rounded up to the nearest multiple of the subpage size (256).
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Allocation requests that are more than one page, but small enough to fit in
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an arena-managed chunk (see the
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.Dq K
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option), are rounded up to the nearest run size.
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Allocation requests that are too large to fit in an arena-managed chunk are
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rounded up to the nearest multiple of the chunk size.
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.Pp
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Allocations are packed tightly together, which can be an issue for
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multi-threaded applications.
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If you need to assure that allocations do not suffer from cacheline sharing,
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round your allocation requests up to the nearest multiple of the cacheline
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size.
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.Sh DEBUGGING MALLOC PROBLEMS
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|
The first thing to do is to set the
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.Dq A
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option.
|
|
This option forces a coredump (if possible) at the first sign of trouble,
|
|
rather than the normal policy of trying to continue if at all possible.
|
|
.Pp
|
|
It is probably also a good idea to recompile the program with suitable
|
|
options and symbols for debugger support.
|
|
.Pp
|
|
@roff_fill@If the program starts to give unusual results, coredump or generally
|
|
@roff_fill@behave differently without emitting any of the messages mentioned in
|
|
@roff_fill@the next section, it is likely because it depends on the storage
|
|
@roff_fill@being filled with zero bytes.
|
|
@roff_fill@Try running it with the
|
|
@roff_fill@.Dq Z
|
|
@roff_fill@option set;
|
|
@roff_fill@if that improves the situation, this diagnosis has been confirmed.
|
|
@roff_fill@If the program still misbehaves,
|
|
@roff_fill@the likely problem is accessing memory outside the allocated area.
|
|
@roff_fill@.Pp
|
|
@roff_fill@Alternatively, if the symptoms are not easy to reproduce, setting the
|
|
@roff_fill@.Dq J
|
|
@roff_fill@option may help provoke the problem.
|
|
@roff_fill@.Pp
|
|
@roff_stats@In truly difficult cases, the
|
|
@roff_stats@.Dq U
|
|
@roff_stats@option can provide a detailed trace of all calls made to these
|
|
@roff_stats@functions.
|
|
@roff_stats@.Pp
|
|
Unfortunately this implementation does not provide much detail about
|
|
the problems it detects; the performance impact for storing such information
|
|
would be prohibitive.
|
|
There are a number of allocator implementations available on the Internet
|
|
which focus on detecting and pinpointing problems by trading performance for
|
|
extra sanity checks and detailed diagnostics.
|
|
.Sh DIAGNOSTIC MESSAGES
|
|
If any of the memory allocation/deallocation functions detect an error or
|
|
warning condition, a message will be printed to file descriptor
|
|
.Dv STDERR_FILENO .
|
|
Errors will result in the process dumping core.
|
|
If the
|
|
.Dq A
|
|
option is set, all warnings are treated as errors.
|
|
.Pp
|
|
The
|
|
.Va @jemalloc_prefix@malloc_message
|
|
variable allows the programmer to override the function which emits
|
|
the text strings forming the errors and warnings if for some reason
|
|
the
|
|
.Dv stderr
|
|
file descriptor is not suitable for this.
|
|
Please note that doing anything which tries to allocate memory in
|
|
this function is likely to result in a crash or deadlock.
|
|
.Pp
|
|
All messages are prefixed by
|
|
.Dq <jemalloc>: .
|
|
.Sh RETURN VALUES
|
|
The
|
|
.Fn @jemalloc_prefix@malloc
|
|
and
|
|
.Fn @jemalloc_prefix@calloc
|
|
functions return a pointer to the allocated memory if successful; otherwise
|
|
a
|
|
.Dv NULL
|
|
pointer is returned and
|
|
.Va errno
|
|
is set to
|
|
.Er ENOMEM .
|
|
.Pp
|
|
The
|
|
.Fn @jemalloc_prefix@posix_memalign
|
|
function returns the value 0 if successful; otherwise it returns an error value.
|
|
The
|
|
.Fn @jemalloc_prefix@posix_memalign
|
|
function will fail if:
|
|
.Bl -tag -width Er
|
|
.It Bq Er EINVAL
|
|
The
|
|
.Fa alignment
|
|
parameter is not a power of 2 at least as large as
|
|
.Fn sizeof "void *" .
|
|
.It Bq Er ENOMEM
|
|
Memory allocation error.
|
|
.El
|
|
.Pp
|
|
The
|
|
.Fn @jemalloc_prefix@realloc
|
|
function returns a pointer, possibly identical to
|
|
.Fa ptr ,
|
|
to the allocated memory
|
|
if successful; otherwise a
|
|
.Dv NULL
|
|
pointer is returned, and
|
|
.Va errno
|
|
is set to
|
|
.Er ENOMEM
|
|
if the error was the result of an allocation failure.
|
|
The
|
|
.Fn @jemalloc_prefix@realloc
|
|
function always leaves the original buffer intact
|
|
when an error occurs.
|
|
.Pp
|
|
The
|
|
.Fn @jemalloc_prefix@free
|
|
function returns no value.
|
|
.Pp
|
|
The
|
|
.Fn @jemalloc_prefix@malloc_usable_size
|
|
function returns the usable size of the allocation pointed to by
|
|
.Fa ptr .
|
|
.Sh ENVIRONMENT
|
|
The following environment variables affect the execution of the allocation
|
|
functions:
|
|
.Bl -tag -width ".Ev JEMALLOC_OPTIONS"
|
|
.It Ev JEMALLOC_OPTIONS
|
|
If the environment variable
|
|
.Ev JEMALLOC_OPTIONS
|
|
is set, the characters it contains will be interpreted as flags to the
|
|
allocation functions.
|
|
.El
|
|
.Sh EXAMPLES
|
|
To dump core whenever a problem occurs:
|
|
.Pp
|
|
.Bd -literal -offset indent
|
|
ln -s 'A' /etc/jemalloc.conf
|
|
.Ed
|
|
.Pp
|
|
To specify in the source that a program does no return value checking
|
|
on calls to these functions:
|
|
.Bd -literal -offset indent
|
|
@jemalloc_prefix@malloc_options = "X";
|
|
.Ed
|
|
.Sh SEE ALSO
|
|
.Xr mtrgraph 1 ,
|
|
.Xr mtrplay 1 ,
|
|
.Xr jemtr2mtr 1 ,
|
|
.Xr madvise 2 ,
|
|
.Xr mmap 2 ,
|
|
.Xr sbrk 2 ,
|
|
.Xr alloca 3 ,
|
|
.Xr atexit 3 ,
|
|
.Xr getpagesize 3
|
|
.Sh STANDARDS
|
|
The
|
|
.Fn @jemalloc_prefix@malloc ,
|
|
.Fn @jemalloc_prefix@calloc ,
|
|
.Fn @jemalloc_prefix@realloc
|
|
and
|
|
.Fn @jemalloc_prefix@free
|
|
functions conform to
|
|
.St -isoC .
|
|
.Pp
|
|
The
|
|
.Fn @jemalloc_prefix@posix_memalign
|
|
function conforms to
|
|
.St -p1003.1-2001 .
|