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- <?xml version='1.0' encoding='UTF-8'?>
- <?xml-stylesheet type="text/xsl"
- href="http://docbook.sourceforge.net/release/xsl/current/manpages/docbook.xsl"?>
- <!DOCTYPE refentry PUBLIC "-//OASIS//DTD DocBook XML V4.4//EN"
- "http://www.oasis-open.org/docbook/xml/4.4/docbookx.dtd" [
- ]>
- <refentry>
- <refentryinfo>
- <title>User Manual</title>
- <productname>jemalloc</productname>
- <releaseinfo role="version">@jemalloc_version@</releaseinfo>
- <authorgroup>
- <author>
- <firstname>Jason</firstname>
- <surname>Evans</surname>
- <personblurb>Author</personblurb>
- </author>
- </authorgroup>
- </refentryinfo>
- <refmeta>
- <refentrytitle>JEMALLOC</refentrytitle>
- <manvolnum>3</manvolnum>
- </refmeta>
- <refnamediv>
- <refdescriptor>jemalloc</refdescriptor>
- <refname>jemalloc</refname>
- <!-- Each refname causes a man page file to be created. Only if this were
- the system malloc(3) implementation would these files be appropriate.
- <refname>malloc</refname>
- <refname>calloc</refname>
- <refname>posix_memalign</refname>
- <refname>aligned_alloc</refname>
- <refname>realloc</refname>
- <refname>free</refname>
- <refname>mallocx</refname>
- <refname>rallocx</refname>
- <refname>xallocx</refname>
- <refname>sallocx</refname>
- <refname>dallocx</refname>
- <refname>sdallocx</refname>
- <refname>nallocx</refname>
- <refname>mallctl</refname>
- <refname>mallctlnametomib</refname>
- <refname>mallctlbymib</refname>
- <refname>malloc_stats_print</refname>
- <refname>malloc_usable_size</refname>
- -->
- <refpurpose>general purpose memory allocation functions</refpurpose>
- </refnamediv>
- <refsect1 id="library">
- <title>LIBRARY</title>
- <para>This manual describes jemalloc @jemalloc_version@. More information
- can be found at the <ulink
- url="http://jemalloc.net/">jemalloc website</ulink>.</para>
- </refsect1>
- <refsynopsisdiv>
- <title>SYNOPSIS</title>
- <funcsynopsis>
- <funcsynopsisinfo>#include <<filename class="headerfile">jemalloc/jemalloc.h</filename>></funcsynopsisinfo>
- <refsect2>
- <title>Standard API</title>
- <funcprototype>
- <funcdef>void *<function>malloc</function></funcdef>
- <paramdef>size_t <parameter>size</parameter></paramdef>
- </funcprototype>
- <funcprototype>
- <funcdef>void *<function>calloc</function></funcdef>
- <paramdef>size_t <parameter>number</parameter></paramdef>
- <paramdef>size_t <parameter>size</parameter></paramdef>
- </funcprototype>
- <funcprototype>
- <funcdef>int <function>posix_memalign</function></funcdef>
- <paramdef>void **<parameter>ptr</parameter></paramdef>
- <paramdef>size_t <parameter>alignment</parameter></paramdef>
- <paramdef>size_t <parameter>size</parameter></paramdef>
- </funcprototype>
- <funcprototype>
- <funcdef>void *<function>aligned_alloc</function></funcdef>
- <paramdef>size_t <parameter>alignment</parameter></paramdef>
- <paramdef>size_t <parameter>size</parameter></paramdef>
- </funcprototype>
- <funcprototype>
- <funcdef>void *<function>realloc</function></funcdef>
- <paramdef>void *<parameter>ptr</parameter></paramdef>
- <paramdef>size_t <parameter>size</parameter></paramdef>
- </funcprototype>
- <funcprototype>
- <funcdef>void <function>free</function></funcdef>
- <paramdef>void *<parameter>ptr</parameter></paramdef>
- </funcprototype>
- </refsect2>
- <refsect2>
- <title>Non-standard API</title>
- <funcprototype>
- <funcdef>void *<function>mallocx</function></funcdef>
- <paramdef>size_t <parameter>size</parameter></paramdef>
- <paramdef>int <parameter>flags</parameter></paramdef>
- </funcprototype>
- <funcprototype>
- <funcdef>void *<function>rallocx</function></funcdef>
- <paramdef>void *<parameter>ptr</parameter></paramdef>
- <paramdef>size_t <parameter>size</parameter></paramdef>
- <paramdef>int <parameter>flags</parameter></paramdef>
- </funcprototype>
- <funcprototype>
- <funcdef>size_t <function>xallocx</function></funcdef>
- <paramdef>void *<parameter>ptr</parameter></paramdef>
- <paramdef>size_t <parameter>size</parameter></paramdef>
- <paramdef>size_t <parameter>extra</parameter></paramdef>
- <paramdef>int <parameter>flags</parameter></paramdef>
- </funcprototype>
- <funcprototype>
- <funcdef>size_t <function>sallocx</function></funcdef>
- <paramdef>void *<parameter>ptr</parameter></paramdef>
- <paramdef>int <parameter>flags</parameter></paramdef>
- </funcprototype>
- <funcprototype>
- <funcdef>void <function>dallocx</function></funcdef>
- <paramdef>void *<parameter>ptr</parameter></paramdef>
- <paramdef>int <parameter>flags</parameter></paramdef>
- </funcprototype>
- <funcprototype>
- <funcdef>void <function>sdallocx</function></funcdef>
- <paramdef>void *<parameter>ptr</parameter></paramdef>
- <paramdef>size_t <parameter>size</parameter></paramdef>
- <paramdef>int <parameter>flags</parameter></paramdef>
- </funcprototype>
- <funcprototype>
- <funcdef>size_t <function>nallocx</function></funcdef>
- <paramdef>size_t <parameter>size</parameter></paramdef>
- <paramdef>int <parameter>flags</parameter></paramdef>
- </funcprototype>
- <funcprototype>
- <funcdef>int <function>mallctl</function></funcdef>
- <paramdef>const char *<parameter>name</parameter></paramdef>
- <paramdef>void *<parameter>oldp</parameter></paramdef>
- <paramdef>size_t *<parameter>oldlenp</parameter></paramdef>
- <paramdef>void *<parameter>newp</parameter></paramdef>
- <paramdef>size_t <parameter>newlen</parameter></paramdef>
- </funcprototype>
- <funcprototype>
- <funcdef>int <function>mallctlnametomib</function></funcdef>
- <paramdef>const char *<parameter>name</parameter></paramdef>
- <paramdef>size_t *<parameter>mibp</parameter></paramdef>
- <paramdef>size_t *<parameter>miblenp</parameter></paramdef>
- </funcprototype>
- <funcprototype>
- <funcdef>int <function>mallctlbymib</function></funcdef>
- <paramdef>const size_t *<parameter>mib</parameter></paramdef>
- <paramdef>size_t <parameter>miblen</parameter></paramdef>
- <paramdef>void *<parameter>oldp</parameter></paramdef>
- <paramdef>size_t *<parameter>oldlenp</parameter></paramdef>
- <paramdef>void *<parameter>newp</parameter></paramdef>
- <paramdef>size_t <parameter>newlen</parameter></paramdef>
- </funcprototype>
- <funcprototype>
- <funcdef>void <function>malloc_stats_print</function></funcdef>
- <paramdef>void <parameter>(*write_cb)</parameter>
- <funcparams>void *, const char *</funcparams>
- </paramdef>
- <paramdef>void *<parameter>cbopaque</parameter></paramdef>
- <paramdef>const char *<parameter>opts</parameter></paramdef>
- </funcprototype>
- <funcprototype>
- <funcdef>size_t <function>malloc_usable_size</function></funcdef>
- <paramdef>const void *<parameter>ptr</parameter></paramdef>
- </funcprototype>
- <funcprototype>
- <funcdef>void <function>(*malloc_message)</function></funcdef>
- <paramdef>void *<parameter>cbopaque</parameter></paramdef>
- <paramdef>const char *<parameter>s</parameter></paramdef>
- </funcprototype>
- <para><type>const char *</type><varname>malloc_conf</varname>;</para>
- </refsect2>
- </funcsynopsis>
- </refsynopsisdiv>
- <refsect1 id="description">
- <title>DESCRIPTION</title>
- <refsect2>
- <title>Standard API</title>
- <para>The <function>malloc()</function> function allocates
- <parameter>size</parameter> bytes of uninitialized memory. The allocated
- space is suitably aligned (after possible pointer coercion) for storage
- of any type of object.</para>
- <para>The <function>calloc()</function> function allocates
- space for <parameter>number</parameter> objects, each
- <parameter>size</parameter> bytes in length. The result is identical to
- calling <function>malloc()</function> with an argument of
- <parameter>number</parameter> * <parameter>size</parameter>, with the
- exception that the allocated memory is explicitly initialized to zero
- bytes.</para>
- <para>The <function>posix_memalign()</function> function
- allocates <parameter>size</parameter> bytes of memory such that the
- allocation's base address is a multiple of
- <parameter>alignment</parameter>, and returns the allocation in the value
- pointed to by <parameter>ptr</parameter>. The requested
- <parameter>alignment</parameter> must be a power of 2 at least as large as
- <code language="C">sizeof(<type>void *</type>)</code>.</para>
- <para>The <function>aligned_alloc()</function> function
- allocates <parameter>size</parameter> bytes of memory such that the
- allocation's base address is a multiple of
- <parameter>alignment</parameter>. The requested
- <parameter>alignment</parameter> must be a power of 2. Behavior is
- undefined if <parameter>size</parameter> is not an integral multiple of
- <parameter>alignment</parameter>.</para>
- <para>The <function>realloc()</function> function changes the
- size of the previously allocated memory referenced by
- <parameter>ptr</parameter> to <parameter>size</parameter> bytes. The
- contents of the memory are unchanged up to the lesser of the new and old
- sizes. If the new size is larger, the contents of the newly allocated
- portion of the memory are undefined. Upon success, the memory referenced
- by <parameter>ptr</parameter> is freed and a pointer to the newly
- allocated memory is returned. Note that
- <function>realloc()</function> may move the memory allocation,
- resulting in a different return value than <parameter>ptr</parameter>.
- If <parameter>ptr</parameter> is <constant>NULL</constant>, the
- <function>realloc()</function> function behaves identically to
- <function>malloc()</function> for the specified size.</para>
- <para>The <function>free()</function> function causes the
- allocated memory referenced by <parameter>ptr</parameter> to be made
- available for future allocations. If <parameter>ptr</parameter> is
- <constant>NULL</constant>, no action occurs.</para>
- </refsect2>
- <refsect2>
- <title>Non-standard API</title>
- <para>The <function>mallocx()</function>,
- <function>rallocx()</function>,
- <function>xallocx()</function>,
- <function>sallocx()</function>,
- <function>dallocx()</function>,
- <function>sdallocx()</function>, and
- <function>nallocx()</function> functions all have a
- <parameter>flags</parameter> argument that can be used to specify
- options. The functions only check the options that are contextually
- relevant. Use bitwise or (<code language="C">|</code>) operations to
- specify one or more of the following:
- <variablelist>
- <varlistentry id="MALLOCX_LG_ALIGN">
- <term><constant>MALLOCX_LG_ALIGN(<parameter>la</parameter>)
- </constant></term>
- <listitem><para>Align the memory allocation to start at an address
- that is a multiple of <code language="C">(1 <<
- <parameter>la</parameter>)</code>. This macro does not validate
- that <parameter>la</parameter> is within the valid
- range.</para></listitem>
- </varlistentry>
- <varlistentry id="MALLOCX_ALIGN">
- <term><constant>MALLOCX_ALIGN(<parameter>a</parameter>)
- </constant></term>
- <listitem><para>Align the memory allocation to start at an address
- that is a multiple of <parameter>a</parameter>, where
- <parameter>a</parameter> is a power of two. This macro does not
- validate that <parameter>a</parameter> is a power of 2.
- </para></listitem>
- </varlistentry>
- <varlistentry id="MALLOCX_ZERO">
- <term><constant>MALLOCX_ZERO</constant></term>
- <listitem><para>Initialize newly allocated memory to contain zero
- bytes. In the growing reallocation case, the real size prior to
- reallocation defines the boundary between untouched bytes and those
- that are initialized to contain zero bytes. If this macro is
- absent, newly allocated memory is uninitialized.</para></listitem>
- </varlistentry>
- <varlistentry id="MALLOCX_TCACHE">
- <term><constant>MALLOCX_TCACHE(<parameter>tc</parameter>)
- </constant></term>
- <listitem><para>Use the thread-specific cache (tcache) specified by
- the identifier <parameter>tc</parameter>, which must have been
- acquired via the <link
- linkend="tcache.create"><mallctl>tcache.create</mallctl></link>
- mallctl. This macro does not validate that
- <parameter>tc</parameter> specifies a valid
- identifier.</para></listitem>
- </varlistentry>
- <varlistentry id="MALLOC_TCACHE_NONE">
- <term><constant>MALLOCX_TCACHE_NONE</constant></term>
- <listitem><para>Do not use a thread-specific cache (tcache). Unless
- <constant>MALLOCX_TCACHE(<parameter>tc</parameter>)</constant> or
- <constant>MALLOCX_TCACHE_NONE</constant> is specified, an
- automatically managed tcache will be used under many circumstances.
- This macro cannot be used in the same <parameter>flags</parameter>
- argument as
- <constant>MALLOCX_TCACHE(<parameter>tc</parameter>)</constant>.</para></listitem>
- </varlistentry>
- <varlistentry id="MALLOCX_ARENA">
- <term><constant>MALLOCX_ARENA(<parameter>a</parameter>)
- </constant></term>
- <listitem><para>Use the arena specified by the index
- <parameter>a</parameter>. This macro has no effect for regions that
- were allocated via an arena other than the one specified. This
- macro does not validate that <parameter>a</parameter> specifies an
- arena index in the valid range.</para></listitem>
- </varlistentry>
- </variablelist>
- </para>
- <para>The <function>mallocx()</function> function allocates at
- least <parameter>size</parameter> bytes of memory, and returns a pointer
- to the base address of the allocation. Behavior is undefined if
- <parameter>size</parameter> is <constant>0</constant>.</para>
- <para>The <function>rallocx()</function> function resizes the
- allocation at <parameter>ptr</parameter> to be at least
- <parameter>size</parameter> bytes, and returns a pointer to the base
- address of the resulting allocation, which may or may not have moved from
- its original location. Behavior is undefined if
- <parameter>size</parameter> is <constant>0</constant>.</para>
- <para>The <function>xallocx()</function> function resizes the
- allocation at <parameter>ptr</parameter> in place to be at least
- <parameter>size</parameter> bytes, and returns the real size of the
- allocation. If <parameter>extra</parameter> is non-zero, an attempt is
- made to resize the allocation to be at least <code
- language="C">(<parameter>size</parameter> +
- <parameter>extra</parameter>)</code> bytes, though inability to allocate
- the extra byte(s) will not by itself result in failure to resize.
- Behavior is undefined if <parameter>size</parameter> is
- <constant>0</constant>, or if <code
- language="C">(<parameter>size</parameter> + <parameter>extra</parameter>
- > <constant>SIZE_T_MAX</constant>)</code>.</para>
- <para>The <function>sallocx()</function> function returns the
- real size of the allocation at <parameter>ptr</parameter>.</para>
- <para>The <function>dallocx()</function> function causes the
- memory referenced by <parameter>ptr</parameter> to be made available for
- future allocations.</para>
- <para>The <function>sdallocx()</function> function is an
- extension of <function>dallocx()</function> with a
- <parameter>size</parameter> parameter to allow the caller to pass in the
- allocation size as an optimization. The minimum valid input size is the
- original requested size of the allocation, and the maximum valid input
- size is the corresponding value returned by
- <function>nallocx()</function> or
- <function>sallocx()</function>.</para>
- <para>The <function>nallocx()</function> function allocates no
- memory, but it performs the same size computation as the
- <function>mallocx()</function> function, and returns the real
- size of the allocation that would result from the equivalent
- <function>mallocx()</function> function call, or
- <constant>0</constant> if the inputs exceed the maximum supported size
- class and/or alignment. Behavior is undefined if
- <parameter>size</parameter> is <constant>0</constant>.</para>
- <para>The <function>mallctl()</function> function provides a
- general interface for introspecting the memory allocator, as well as
- setting modifiable parameters and triggering actions. The
- period-separated <parameter>name</parameter> argument specifies a
- location in a tree-structured namespace; see the <xref
- linkend="mallctl_namespace" xrefstyle="template:%t"/> section for
- documentation on the tree contents. To read a value, pass a pointer via
- <parameter>oldp</parameter> to adequate space to contain the value, and a
- pointer to its length via <parameter>oldlenp</parameter>; otherwise pass
- <constant>NULL</constant> and <constant>NULL</constant>. Similarly, to
- write a value, pass a pointer to the value via
- <parameter>newp</parameter>, and its length via
- <parameter>newlen</parameter>; otherwise pass <constant>NULL</constant>
- and <constant>0</constant>.</para>
- <para>The <function>mallctlnametomib()</function> function
- provides a way to avoid repeated name lookups for applications that
- repeatedly query the same portion of the namespace, by translating a name
- to a <quote>Management Information Base</quote> (MIB) that can be passed
- repeatedly to <function>mallctlbymib()</function>. Upon
- successful return from <function>mallctlnametomib()</function>,
- <parameter>mibp</parameter> contains an array of
- <parameter>*miblenp</parameter> integers, where
- <parameter>*miblenp</parameter> is the lesser of the number of components
- in <parameter>name</parameter> and the input value of
- <parameter>*miblenp</parameter>. Thus it is possible to pass a
- <parameter>*miblenp</parameter> that is smaller than the number of
- period-separated name components, which results in a partial MIB that can
- be used as the basis for constructing a complete MIB. For name
- components that are integers (e.g. the 2 in
- <link
- linkend="arenas.bin.i.size"><mallctl>arenas.bin.2.size</mallctl></link>),
- the corresponding MIB component will always be that integer. Therefore,
- it is legitimate to construct code like the following: <programlisting
- language="C"><![CDATA[
- unsigned nbins, i;
- size_t mib[4];
- size_t len, miblen;
- len = sizeof(nbins);
- mallctl("arenas.nbins", &nbins, &len, NULL, 0);
- miblen = 4;
- mallctlnametomib("arenas.bin.0.size", mib, &miblen);
- for (i = 0; i < nbins; i++) {
- size_t bin_size;
- mib[2] = i;
- len = sizeof(bin_size);
- mallctlbymib(mib, miblen, (void *)&bin_size, &len, NULL, 0);
- /* Do something with bin_size... */
- }]]></programlisting></para>
- <varlistentry id="malloc_stats_print_opts">
- </varlistentry>
- <para>The <function>malloc_stats_print()</function> function writes
- summary statistics via the <parameter>write_cb</parameter> callback
- function pointer and <parameter>cbopaque</parameter> data passed to
- <parameter>write_cb</parameter>, or <function>malloc_message()</function>
- if <parameter>write_cb</parameter> is <constant>NULL</constant>. The
- statistics are presented in human-readable form unless <quote>J</quote> is
- specified as a character within the <parameter>opts</parameter> string, in
- which case the statistics are presented in <ulink
- url="http://www.json.org/">JSON format</ulink>. This function can be
- called repeatedly. General information that never changes during
- execution can be omitted by specifying <quote>g</quote> as a character
- within the <parameter>opts</parameter> string. Note that
- <function>malloc_stats_print()</function> uses the
- <function>mallctl*()</function> functions internally, so inconsistent
- statistics can be reported if multiple threads use these functions
- simultaneously. If <option>--enable-stats</option> is specified during
- configuration, <quote>m</quote>, <quote>d</quote>, and <quote>a</quote>
- can be specified to omit merged arena, destroyed merged arena, and per
- arena statistics, respectively; <quote>b</quote> and <quote>l</quote> can
- be specified to omit per size class statistics for bins and large objects,
- respectively; <quote>x</quote> can be specified to omit all mutex
- statistics; <quote>e</quote> can be used to omit extent statistics.
- Unrecognized characters are silently ignored. Note that thread caching
- may prevent some statistics from being completely up to date, since extra
- locking would be required to merge counters that track thread cache
- operations.</para>
- <para>The <function>malloc_usable_size()</function> function
- returns the usable size of the allocation pointed to by
- <parameter>ptr</parameter>. The return value may be larger than the size
- that was requested during allocation. The
- <function>malloc_usable_size()</function> function is not a
- mechanism for in-place <function>realloc()</function>; rather
- it is provided solely as a tool for introspection purposes. Any
- discrepancy between the requested allocation size and the size reported
- by <function>malloc_usable_size()</function> should not be
- depended on, since such behavior is entirely implementation-dependent.
- </para>
- </refsect2>
- </refsect1>
- <refsect1 id="tuning">
- <title>TUNING</title>
- <para>Once, when the first call is made to one of the memory allocation
- routines, the allocator initializes its internals based in part on various
- options that can be specified at compile- or run-time.</para>
- <para>The string specified via <option>--with-malloc-conf</option>, the
- string pointed to by the global variable <varname>malloc_conf</varname>, the
- <quote>name</quote> of the file referenced by the symbolic link named
- <filename class="symlink">/etc/malloc.conf</filename>, and the value of the
- environment variable <envar>MALLOC_CONF</envar>, will be interpreted, in
- that order, from left to right as options. Note that
- <varname>malloc_conf</varname> may be read before
- <function>main()</function> is entered, so the declaration of
- <varname>malloc_conf</varname> should specify an initializer that contains
- the final value to be read by jemalloc. <option>--with-malloc-conf</option>
- and <varname>malloc_conf</varname> are compile-time mechanisms, whereas
- <filename class="symlink">/etc/malloc.conf</filename> and
- <envar>MALLOC_CONF</envar> can be safely set any time prior to program
- invocation.</para>
- <para>An options string is a comma-separated list of option:value pairs.
- There is one key corresponding to each <link
- linkend="opt.abort"><mallctl>opt.*</mallctl></link> mallctl (see the <xref
- linkend="mallctl_namespace" xrefstyle="template:%t"/> section for options
- documentation). For example, <literal>abort:true,narenas:1</literal> sets
- the <link linkend="opt.abort"><mallctl>opt.abort</mallctl></link> and <link
- linkend="opt.narenas"><mallctl>opt.narenas</mallctl></link> options. Some
- options have boolean values (true/false), others have integer values (base
- 8, 10, or 16, depending on prefix), and yet others have raw string
- values.</para>
- </refsect1>
- <refsect1 id="implementation_notes">
- <title>IMPLEMENTATION NOTES</title>
- <para>Traditionally, allocators have used
- <citerefentry><refentrytitle>sbrk</refentrytitle>
- <manvolnum>2</manvolnum></citerefentry> to obtain memory, which is
- suboptimal for several reasons, including race conditions, increased
- fragmentation, and artificial limitations on maximum usable memory. If
- <citerefentry><refentrytitle>sbrk</refentrytitle>
- <manvolnum>2</manvolnum></citerefentry> is supported by the operating
- system, this allocator uses both
- <citerefentry><refentrytitle>mmap</refentrytitle>
- <manvolnum>2</manvolnum></citerefentry> and
- <citerefentry><refentrytitle>sbrk</refentrytitle>
- <manvolnum>2</manvolnum></citerefentry>, in that order of preference;
- otherwise only <citerefentry><refentrytitle>mmap</refentrytitle>
- <manvolnum>2</manvolnum></citerefentry> is used.</para>
- <para>This allocator uses multiple arenas in order to reduce lock
- contention for threaded programs on multi-processor systems. This works
- well with regard to threading scalability, but incurs some costs. There is
- a small fixed per-arena overhead, and additionally, arenas manage memory
- completely independently of each other, which means a small fixed increase
- in overall memory fragmentation. These overheads are not generally an
- issue, given the number of arenas normally used. Note that using
- substantially more arenas than the default is not likely to improve
- performance, mainly due to reduced cache performance. However, it may make
- sense to reduce the number of arenas if an application does not make much
- use of the allocation functions.</para>
- <para>In addition to multiple arenas, this allocator supports
- thread-specific caching, in order to make it possible to completely avoid
- synchronization for most allocation requests. Such caching allows very fast
- allocation in the common case, but it increases memory usage and
- fragmentation, since a bounded number of objects can remain allocated in
- each thread cache.</para>
- <para>Memory is conceptually broken into extents. Extents are always
- aligned to multiples of the page size. This alignment makes it possible to
- find metadata for user objects quickly. User objects are broken into two
- categories according to size: small and large. Contiguous small objects
- comprise a slab, which resides within a single extent, whereas large objects
- each have their own extents backing them.</para>
- <para>Small objects are managed in groups by slabs. Each slab maintains
- a bitmap to track which regions are in use. Allocation requests that are no
- more than half the quantum (8 or 16, depending on architecture) are rounded
- up to the nearest power of two that is at least <code
- language="C">sizeof(<type>double</type>)</code>. All other object size
- classes are multiples of the quantum, spaced such that there are four size
- classes for each doubling in size, which limits internal fragmentation to
- approximately 20% for all but the smallest size classes. Small size classes
- are smaller than four times the page size, and large size classes extend
- from four times the page size up to the largest size class that does not
- exceed <constant>PTRDIFF_MAX</constant>.</para>
- <para>Allocations are packed tightly together, which can be an issue for
- multi-threaded applications. If you need to assure that allocations do not
- suffer from cacheline sharing, round your allocation requests up to the
- nearest multiple of the cacheline size, or specify cacheline alignment when
- allocating.</para>
- <para>The <function>realloc()</function>,
- <function>rallocx()</function>, and
- <function>xallocx()</function> functions may resize allocations
- without moving them under limited circumstances. Unlike the
- <function>*allocx()</function> API, the standard API does not
- officially round up the usable size of an allocation to the nearest size
- class, so technically it is necessary to call
- <function>realloc()</function> to grow e.g. a 9-byte allocation to
- 16 bytes, or shrink a 16-byte allocation to 9 bytes. Growth and shrinkage
- trivially succeeds in place as long as the pre-size and post-size both round
- up to the same size class. No other API guarantees are made regarding
- in-place resizing, but the current implementation also tries to resize large
- allocations in place, as long as the pre-size and post-size are both large.
- For shrinkage to succeed, the extent allocator must support splitting (see
- <link
- linkend="arena.i.extent_hooks"><mallctl>arena.<i>.extent_hooks</mallctl></link>).
- Growth only succeeds if the trailing memory is currently available, and the
- extent allocator supports merging.</para>
- <para>Assuming 4 KiB pages and a 16-byte quantum on a 64-bit system, the
- size classes in each category are as shown in <xref linkend="size_classes"
- xrefstyle="template:Table %n"/>.</para>
- <table xml:id="size_classes" frame="all">
- <title>Size classes</title>
- <tgroup cols="3" colsep="1" rowsep="1">
- <colspec colname="c1" align="left"/>
- <colspec colname="c2" align="right"/>
- <colspec colname="c3" align="left"/>
- <thead>
- <row>
- <entry>Category</entry>
- <entry>Spacing</entry>
- <entry>Size</entry>
- </row>
- </thead>
- <tbody>
- <row>
- <entry morerows="8">Small</entry>
- <entry>lg</entry>
- <entry>[8]</entry>
- </row>
- <row>
- <entry>16</entry>
- <entry>[16, 32, 48, 64, 80, 96, 112, 128]</entry>
- </row>
- <row>
- <entry>32</entry>
- <entry>[160, 192, 224, 256]</entry>
- </row>
- <row>
- <entry>64</entry>
- <entry>[320, 384, 448, 512]</entry>
- </row>
- <row>
- <entry>128</entry>
- <entry>[640, 768, 896, 1024]</entry>
- </row>
- <row>
- <entry>256</entry>
- <entry>[1280, 1536, 1792, 2048]</entry>
- </row>
- <row>
- <entry>512</entry>
- <entry>[2560, 3072, 3584, 4096]</entry>
- </row>
- <row>
- <entry>1 KiB</entry>
- <entry>[5 KiB, 6 KiB, 7 KiB, 8 KiB]</entry>
- </row>
- <row>
- <entry>2 KiB</entry>
- <entry>[10 KiB, 12 KiB, 14 KiB]</entry>
- </row>
- <row>
- <entry morerows="15">Large</entry>
- <entry>2 KiB</entry>
- <entry>[16 KiB]</entry>
- </row>
- <row>
- <entry>4 KiB</entry>
- <entry>[20 KiB, 24 KiB, 28 KiB, 32 KiB]</entry>
- </row>
- <row>
- <entry>8 KiB</entry>
- <entry>[40 KiB, 48 KiB, 56 KiB, 64 KiB]</entry>
- </row>
- <row>
- <entry>16 KiB</entry>
- <entry>[80 KiB, 96 KiB, 112 KiB, 128 KiB]</entry>
- </row>
- <row>
- <entry>32 KiB</entry>
- <entry>[160 KiB, 192 KiB, 224 KiB, 256 KiB]</entry>
- </row>
- <row>
- <entry>64 KiB</entry>
- <entry>[320 KiB, 384 KiB, 448 KiB, 512 KiB]</entry>
- </row>
- <row>
- <entry>128 KiB</entry>
- <entry>[640 KiB, 768 KiB, 896 KiB, 1 MiB]</entry>
- </row>
- <row>
- <entry>256 KiB</entry>
- <entry>[1280 KiB, 1536 KiB, 1792 KiB, 2 MiB]</entry>
- </row>
- <row>
- <entry>512 KiB</entry>
- <entry>[2560 KiB, 3 MiB, 3584 KiB, 4 MiB]</entry>
- </row>
- <row>
- <entry>1 MiB</entry>
- <entry>[5 MiB, 6 MiB, 7 MiB, 8 MiB]</entry>
- </row>
- <row>
- <entry>2 MiB</entry>
- <entry>[10 MiB, 12 MiB, 14 MiB, 16 MiB]</entry>
- </row>
- <row>
- <entry>4 MiB</entry>
- <entry>[20 MiB, 24 MiB, 28 MiB, 32 MiB]</entry>
- </row>
- <row>
- <entry>8 MiB</entry>
- <entry>[40 MiB, 48 MiB, 56 MiB, 64 MiB]</entry>
- </row>
- <row>
- <entry>...</entry>
- <entry>...</entry>
- </row>
- <row>
- <entry>512 PiB</entry>
- <entry>[2560 PiB, 3 EiB, 3584 PiB, 4 EiB]</entry>
- </row>
- <row>
- <entry>1 EiB</entry>
- <entry>[5 EiB, 6 EiB, 7 EiB]</entry>
- </row>
- </tbody>
- </tgroup>
- </table>
- </refsect1>
- <refsect1 id="mallctl_namespace">
- <title>MALLCTL NAMESPACE</title>
- <para>The following names are defined in the namespace accessible via the
- <function>mallctl*()</function> functions. Value types are specified in
- parentheses, their readable/writable statuses are encoded as
- <literal>rw</literal>, <literal>r-</literal>, <literal>-w</literal>, or
- <literal>--</literal>, and required build configuration flags follow, if
- any. A name element encoded as <literal><i></literal> or
- <literal><j></literal> indicates an integer component, where the
- integer varies from 0 to some upper value that must be determined via
- introspection. In the case of <mallctl>stats.arenas.<i>.*</mallctl>
- and <mallctl>arena.<i>.{initialized,purge,decay,dss}</mallctl>,
- <literal><i></literal> equal to
- <constant>MALLCTL_ARENAS_ALL</constant> can be used to operate on all arenas
- or access the summation of statistics from all arenas; similarly
- <literal><i></literal> equal to
- <constant>MALLCTL_ARENAS_DESTROYED</constant> can be used to access the
- summation of statistics from all destroyed arenas. These constants can be
- utilized either via <function>mallctlnametomib()</function> followed by
- <function>mallctlbymib()</function>, or via code such as the following:
- <programlisting language="C"><![CDATA[
- #define STRINGIFY_HELPER(x) #x
- #define STRINGIFY(x) STRINGIFY_HELPER(x)
- mallctl("arena." STRINGIFY(MALLCTL_ARENAS_ALL) ".decay",
- NULL, NULL, NULL, 0);]]></programlisting>
- Take special note of the <link
- linkend="epoch"><mallctl>epoch</mallctl></link> mallctl, which controls
- refreshing of cached dynamic statistics.</para>
- <variablelist>
- <varlistentry id="version">
- <term>
- <mallctl>version</mallctl>
- (<type>const char *</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Return the jemalloc version string.</para></listitem>
- </varlistentry>
- <varlistentry id="epoch">
- <term>
- <mallctl>epoch</mallctl>
- (<type>uint64_t</type>)
- <literal>rw</literal>
- </term>
- <listitem><para>If a value is passed in, refresh the data from which
- the <function>mallctl*()</function> functions report values,
- and increment the epoch. Return the current epoch. This is useful for
- detecting whether another thread caused a refresh.</para></listitem>
- </varlistentry>
- <varlistentry id="background_thread">
- <term>
- <mallctl>background_thread</mallctl>
- (<type>bool</type>)
- <literal>rw</literal>
- </term>
- <listitem><para>Enable/disable internal background worker threads. When
- set to true, background threads are created on demand (the number of
- background threads will be no more than the number of CPUs or active
- arenas). Threads run periodically, and handle <link
- linkend="arena.i.decay">purging</link> asynchronously. When switching
- off, background threads are terminated synchronously. Note that after
- <citerefentry><refentrytitle>fork</refentrytitle><manvolnum>2</manvolnum></citerefentry>
- function, the state in the child process will be disabled regardless
- the state in parent process. See <link
- linkend="stats.background_thread.num_threads"><mallctl>stats.background_thread</mallctl></link>
- for related stats. <link
- linkend="opt.background_thread"><mallctl>opt.background_thread</mallctl></link>
- can be used to set the default option. This option is only available on
- selected pthread-based platforms.</para></listitem>
- </varlistentry>
- <varlistentry id="max_background_threads">
- <term>
- <mallctl>max_background_threads</mallctl>
- (<type>size_t</type>)
- <literal>rw</literal>
- </term>
- <listitem><para>Maximum number of background worker threads that will
- be created. This value is capped at <link
- linkend="opt.max_background_threads"><mallctl>opt.max_background_threads</mallctl></link> at
- startup.</para></listitem>
- </varlistentry>
- <varlistentry id="config.cache_oblivious">
- <term>
- <mallctl>config.cache_oblivious</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- </term>
- <listitem><para><option>--enable-cache-oblivious</option> was specified
- during build configuration.</para></listitem>
- </varlistentry>
- <varlistentry id="config.debug">
- <term>
- <mallctl>config.debug</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- </term>
- <listitem><para><option>--enable-debug</option> was specified during
- build configuration.</para></listitem>
- </varlistentry>
- <varlistentry id="config.fill">
- <term>
- <mallctl>config.fill</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- </term>
- <listitem><para><option>--enable-fill</option> was specified during
- build configuration.</para></listitem>
- </varlistentry>
- <varlistentry id="config.lazy_lock">
- <term>
- <mallctl>config.lazy_lock</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- </term>
- <listitem><para><option>--enable-lazy-lock</option> was specified
- during build configuration.</para></listitem>
- </varlistentry>
- <varlistentry id="config.malloc_conf">
- <term>
- <mallctl>config.malloc_conf</mallctl>
- (<type>const char *</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Embedded configure-time-specified run-time options
- string, empty unless <option>--with-malloc-conf</option> was specified
- during build configuration.</para></listitem>
- </varlistentry>
- <varlistentry id="config.prof">
- <term>
- <mallctl>config.prof</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- </term>
- <listitem><para><option>--enable-prof</option> was specified during
- build configuration.</para></listitem>
- </varlistentry>
- <varlistentry id="config.prof_libgcc">
- <term>
- <mallctl>config.prof_libgcc</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- </term>
- <listitem><para><option>--disable-prof-libgcc</option> was not
- specified during build configuration.</para></listitem>
- </varlistentry>
- <varlistentry id="config.prof_libunwind">
- <term>
- <mallctl>config.prof_libunwind</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- </term>
- <listitem><para><option>--enable-prof-libunwind</option> was specified
- during build configuration.</para></listitem>
- </varlistentry>
- <varlistentry id="config.stats">
- <term>
- <mallctl>config.stats</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- </term>
- <listitem><para><option>--enable-stats</option> was specified during
- build configuration.</para></listitem>
- </varlistentry>
- <varlistentry id="config.utrace">
- <term>
- <mallctl>config.utrace</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- </term>
- <listitem><para><option>--enable-utrace</option> was specified during
- build configuration.</para></listitem>
- </varlistentry>
- <varlistentry id="config.xmalloc">
- <term>
- <mallctl>config.xmalloc</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- </term>
- <listitem><para><option>--enable-xmalloc</option> was specified during
- build configuration.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.abort">
- <term>
- <mallctl>opt.abort</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Abort-on-warning enabled/disabled. If true, most
- warnings are fatal. Note that runtime option warnings are not included
- (see <link
- linkend="opt.abort_conf"><mallctl>opt.abort_conf</mallctl></link> for
- that). The process will call
- <citerefentry><refentrytitle>abort</refentrytitle>
- <manvolnum>3</manvolnum></citerefentry> in these cases. This option is
- disabled by default unless <option>--enable-debug</option> is
- specified during configuration, in which case it is enabled by default.
- </para></listitem>
- </varlistentry>
- <varlistentry id="opt.confirm_conf">
- <term>
- <mallctl>opt.confirm_conf</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Confirm-runtime-options-when-program-starts
- enabled/disabled. If true, the string specified via
- <option>--with-malloc-conf</option>, the string pointed to by the
- global variable <varname>malloc_conf</varname>, the <quote>name</quote>
- of the file referenced by the symbolic link named
- <filename class="symlink">/etc/malloc.conf</filename>, and the value of
- the environment variable <envar>MALLOC_CONF</envar>, will be printed in
- order. Then, each option being set will be individually printed. This
- option is disabled by default.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.abort_conf">
- <term>
- <mallctl>opt.abort_conf</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Abort-on-invalid-configuration enabled/disabled. If
- true, invalid runtime options are fatal. The process will call
- <citerefentry><refentrytitle>abort</refentrytitle>
- <manvolnum>3</manvolnum></citerefentry> in these cases. This option is
- disabled by default unless <option>--enable-debug</option> is
- specified during configuration, in which case it is enabled by default.
- </para></listitem>
- </varlistentry>
- <varlistentry id="opt.cache_oblivious">
- <term>
- <mallctl>opt.cache_oblivious</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Enable / Disable cache-oblivious large allocation
- alignment, for large requests with no alignment constraints. If this
- feature is disabled, all large allocations are page-aligned as an
- implementation artifact, which can severely harm CPU cache utilization.
- However, the cache-oblivious layout comes at the cost of one extra page
- per large allocation, which in the most extreme case increases physical
- memory usage for the 16 KiB size class to 20 KiB. This option is enabled
- by default.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.metadata_thp">
- <term>
- <mallctl>opt.metadata_thp</mallctl>
- (<type>const char *</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Controls whether to allow jemalloc to use transparent
- huge page (THP) for internal metadata (see <link
- linkend="stats.metadata">stats.metadata</link>). <quote>always</quote>
- allows such usage. <quote>auto</quote> uses no THP initially, but may
- begin to do so when metadata usage reaches certain level. The default
- is <quote>disabled</quote>.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.trust_madvise">
- <term>
- <mallctl>opt.trust_madvise</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>If true, do not perform runtime check for MADV_DONTNEED,
- to check that it actually zeros pages. The default is disabled on Linux
- and enabled elsewhere.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.retain">
- <term>
- <mallctl>opt.retain</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>If true, retain unused virtual memory for later reuse
- rather than discarding it by calling
- <citerefentry><refentrytitle>munmap</refentrytitle>
- <manvolnum>2</manvolnum></citerefentry> or equivalent (see <link
- linkend="stats.retained">stats.retained</link> for related details).
- It also makes jemalloc use <citerefentry>
- <refentrytitle>mmap</refentrytitle><manvolnum>2</manvolnum>
- </citerefentry> or equivalent in a more greedy way, mapping larger
- chunks in one go. This option is disabled by default unless discarding
- virtual memory is known to trigger platform-specific performance
- problems, namely 1) for [64-bit] Linux, which has a quirk in its virtual
- memory allocation algorithm that causes semi-permanent VM map holes
- under normal jemalloc operation; and 2) for [64-bit] Windows, which
- disallows split / merged regions with
- <parameter><constant>MEM_RELEASE</constant></parameter>. Although the
- same issues may present on 32-bit platforms as well, retaining virtual
- memory for 32-bit Linux and Windows is disabled by default due to the
- practical possibility of address space exhaustion. </para></listitem>
- </varlistentry>
- <varlistentry id="opt.dss">
- <term>
- <mallctl>opt.dss</mallctl>
- (<type>const char *</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>dss (<citerefentry><refentrytitle>sbrk</refentrytitle>
- <manvolnum>2</manvolnum></citerefentry>) allocation precedence as
- related to <citerefentry><refentrytitle>mmap</refentrytitle>
- <manvolnum>2</manvolnum></citerefentry> allocation. The following
- settings are supported if
- <citerefentry><refentrytitle>sbrk</refentrytitle>
- <manvolnum>2</manvolnum></citerefentry> is supported by the operating
- system: <quote>disabled</quote>, <quote>primary</quote>, and
- <quote>secondary</quote>; otherwise only <quote>disabled</quote> is
- supported. The default is <quote>secondary</quote> if
- <citerefentry><refentrytitle>sbrk</refentrytitle>
- <manvolnum>2</manvolnum></citerefentry> is supported by the operating
- system; <quote>disabled</quote> otherwise.
- </para></listitem>
- </varlistentry>
- <varlistentry id="opt.narenas">
- <term>
- <mallctl>opt.narenas</mallctl>
- (<type>unsigned</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Maximum number of arenas to use for automatic
- multiplexing of threads and arenas. The default is four times the
- number of CPUs, or one if there is a single CPU.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.oversize_threshold">
- <term>
- <mallctl>opt.oversize_threshold</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>The threshold in bytes of which requests are considered
- oversize. Allocation requests with greater sizes are fulfilled from a
- dedicated arena (automatically managed, however not within
- <literal>narenas</literal>), in order to reduce fragmentation by not
- mixing huge allocations with small ones. In addition, the decay API
- guarantees on the extents greater than the specified threshold may be
- overridden. Note that requests with arena index specified via
- <constant>MALLOCX_ARENA</constant>, or threads associated with explicit
- arenas will not be considered. The default threshold is 8MiB. Values
- not within large size classes disables this feature.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.percpu_arena">
- <term>
- <mallctl>opt.percpu_arena</mallctl>
- (<type>const char *</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Per CPU arena mode. Use the <quote>percpu</quote>
- setting to enable this feature, which uses number of CPUs to determine
- number of arenas, and bind threads to arenas dynamically based on the
- CPU the thread runs on currently. <quote>phycpu</quote> setting uses
- one arena per physical CPU, which means the two hyper threads on the
- same CPU share one arena. Note that no runtime checking regarding the
- availability of hyper threading is done at the moment. When set to
- <quote>disabled</quote>, narenas and thread to arena association will
- not be impacted by this option. The default is <quote>disabled</quote>.
- </para></listitem>
- </varlistentry>
- <varlistentry id="opt.background_thread">
- <term>
- <mallctl>opt.background_thread</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Internal background worker threads enabled/disabled.
- Because of potential circular dependencies, enabling background thread
- using this option may cause crash or deadlock during initialization. For
- a reliable way to use this feature, see <link
- linkend="background_thread">background_thread</link> for dynamic control
- options and details. This option is disabled by
- default.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.max_background_threads">
- <term>
- <mallctl>opt.max_background_threads</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Maximum number of background threads that will be created
- if <link linkend="background_thread">background_thread</link> is set.
- Defaults to number of cpus.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.dirty_decay_ms">
- <term>
- <mallctl>opt.dirty_decay_ms</mallctl>
- (<type>ssize_t</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Approximate time in milliseconds from the creation of a
- set of unused dirty pages until an equivalent set of unused dirty pages
- is purged (i.e. converted to muzzy via e.g.
- <function>madvise(<parameter>...</parameter><parameter><constant>MADV_FREE</constant></parameter>)</function>
- if supported by the operating system, or converted to clean otherwise)
- and/or reused. Dirty pages are defined as previously having been
- potentially written to by the application, and therefore consuming
- physical memory, yet having no current use. The pages are incrementally
- purged according to a sigmoidal decay curve that starts and ends with
- zero purge rate. A decay time of 0 causes all unused dirty pages to be
- purged immediately upon creation. A decay time of -1 disables purging.
- The default decay time is 10 seconds. See <link
- linkend="arenas.dirty_decay_ms"><mallctl>arenas.dirty_decay_ms</mallctl></link>
- and <link
- linkend="arena.i.dirty_decay_ms"><mallctl>arena.<i>.dirty_decay_ms</mallctl></link>
- for related dynamic control options. See <link
- linkend="opt.muzzy_decay_ms"><mallctl>opt.muzzy_decay_ms</mallctl></link>
- for a description of muzzy pages.for a description of muzzy pages. Note
- that when the <link
- linkend="opt.oversize_threshold"><mallctl>oversize_threshold</mallctl></link>
- feature is enabled, the arenas reserved for oversize requests may have
- its own default decay settings.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.muzzy_decay_ms">
- <term>
- <mallctl>opt.muzzy_decay_ms</mallctl>
- (<type>ssize_t</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Approximate time in milliseconds from the creation of a
- set of unused muzzy pages until an equivalent set of unused muzzy pages
- is purged (i.e. converted to clean) and/or reused. Muzzy pages are
- defined as previously having been unused dirty pages that were
- subsequently purged in a manner that left them subject to the
- reclamation whims of the operating system (e.g.
- <function>madvise(<parameter>...</parameter><parameter><constant>MADV_FREE</constant></parameter>)</function>),
- and therefore in an indeterminate state. The pages are incrementally
- purged according to a sigmoidal decay curve that starts and ends with
- zero purge rate. A decay time of 0 causes all unused muzzy pages to be
- purged immediately upon creation. A decay time of -1 disables purging.
- The default decay time is 10 seconds. See <link
- linkend="arenas.muzzy_decay_ms"><mallctl>arenas.muzzy_decay_ms</mallctl></link>
- and <link
- linkend="arena.i.muzzy_decay_ms"><mallctl>arena.<i>.muzzy_decay_ms</mallctl></link>
- for related dynamic control options.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.lg_extent_max_active_fit">
- <term>
- <mallctl>opt.lg_extent_max_active_fit</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>When reusing dirty extents, this determines the (log
- base 2 of the) maximum ratio between the size of the active extent
- selected (to split off from) and the size of the requested allocation.
- This prevents the splitting of large active extents for smaller
- allocations, which can reduce fragmentation over the long run
- (especially for non-active extents). Lower value may reduce
- fragmentation, at the cost of extra active extents. The default value
- is 6, which gives a maximum ratio of 64 (2^6).</para></listitem>
- </varlistentry>
- <varlistentry id="opt.stats_print">
- <term>
- <mallctl>opt.stats_print</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Enable/disable statistics printing at exit. If
- enabled, the <function>malloc_stats_print()</function>
- function is called at program exit via an
- <citerefentry><refentrytitle>atexit</refentrytitle>
- <manvolnum>3</manvolnum></citerefentry> function. <link
- linkend="opt.stats_print_opts"><mallctl>opt.stats_print_opts</mallctl></link>
- can be combined to specify output options. If
- <option>--enable-stats</option> is specified during configuration, this
- has the potential to cause deadlock for a multi-threaded process that
- exits while one or more threads are executing in the memory allocation
- functions. Furthermore, <function>atexit()</function> may
- allocate memory during application initialization and then deadlock
- internally when jemalloc in turn calls
- <function>atexit()</function>, so this option is not
- universally usable (though the application can register its own
- <function>atexit()</function> function with equivalent
- functionality). Therefore, this option should only be used with care;
- it is primarily intended as a performance tuning aid during application
- development. This option is disabled by default.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.stats_print_opts">
- <term>
- <mallctl>opt.stats_print_opts</mallctl>
- (<type>const char *</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Options (the <parameter>opts</parameter> string) to pass
- to the <function>malloc_stats_print()</function> at exit (enabled
- through <link
- linkend="opt.stats_print"><mallctl>opt.stats_print</mallctl></link>). See
- available options in <link
- linkend="malloc_stats_print_opts"><function>malloc_stats_print()</function></link>.
- Has no effect unless <link
- linkend="opt.stats_print"><mallctl>opt.stats_print</mallctl></link> is
- enabled. The default is <quote></quote>.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.stats_interval">
- <term>
- <mallctl>opt.stats_interval</mallctl>
- (<type>int64_t</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Average interval between statistics outputs, as measured
- in bytes of allocation activity. The actual interval may be sporadic
- because decentralized event counters are used to avoid synchronization
- bottlenecks. The output may be triggered on any thread, which then
- calls <function>malloc_stats_print()</function>. <link
- linkend="opt.stats_interval_opts"><mallctl>opt.stats_interval_opts</mallctl></link>
- can be combined to specify output options. By default,
- interval-triggered stats output is disabled (encoded as
- -1).</para></listitem>
- </varlistentry>
- <varlistentry id="opt.stats_interval_opts">
- <term>
- <mallctl>opt.stats_interval_opts</mallctl>
- (<type>const char *</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Options (the <parameter>opts</parameter> string) to pass
- to the <function>malloc_stats_print()</function> for interval based
- statistics printing (enabled
- through <link
- linkend="opt.stats_interval"><mallctl>opt.stats_interval</mallctl></link>). See
- available options in <link
- linkend="malloc_stats_print_opts"><function>malloc_stats_print()</function></link>.
- Has no effect unless <link
- linkend="opt.stats_interval"><mallctl>opt.stats_interval</mallctl></link> is
- enabled. The default is <quote></quote>.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.junk">
- <term>
- <mallctl>opt.junk</mallctl>
- (<type>const char *</type>)
- <literal>r-</literal>
- [<option>--enable-fill</option>]
- </term>
- <listitem><para>Junk filling. If set to <quote>alloc</quote>, each byte
- of uninitialized allocated memory will be initialized to
- <literal>0xa5</literal>. If set to <quote>free</quote>, all deallocated
- memory will be initialized to <literal>0x5a</literal>. If set to
- <quote>true</quote>, both allocated and deallocated memory will be
- initialized, and if set to <quote>false</quote>, junk filling be
- disabled entirely. This is intended for debugging and will impact
- performance negatively. This option is <quote>false</quote> by default
- unless <option>--enable-debug</option> is specified during
- configuration, in which case it is <quote>true</quote> by
- default.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.zero">
- <term>
- <mallctl>opt.zero</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- [<option>--enable-fill</option>]
- </term>
- <listitem><para>Zero filling enabled/disabled. If enabled, each byte
- of uninitialized allocated memory will be initialized to 0. Note that
- this initialization only happens once for each byte, so
- <function>realloc()</function> and
- <function>rallocx()</function> calls do not zero memory that
- was previously allocated. This is intended for debugging and will
- impact performance negatively. This option is disabled by default.
- </para></listitem>
- </varlistentry>
- <varlistentry id="opt.utrace">
- <term>
- <mallctl>opt.utrace</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- [<option>--enable-utrace</option>]
- </term>
- <listitem><para>Allocation tracing based on
- <citerefentry><refentrytitle>utrace</refentrytitle>
- <manvolnum>2</manvolnum></citerefentry> enabled/disabled. This option
- is disabled by default.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.xmalloc">
- <term>
- <mallctl>opt.xmalloc</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- [<option>--enable-xmalloc</option>]
- </term>
- <listitem><para>Abort-on-out-of-memory enabled/disabled. If enabled,
- rather than returning failure for any allocation function, display a
- diagnostic message on <constant>STDERR_FILENO</constant> and cause the
- program to drop core (using
- <citerefentry><refentrytitle>abort</refentrytitle>
- <manvolnum>3</manvolnum></citerefentry>). If an application is
- designed to depend on this behavior, set the option at compile time by
- including the following in the source code:
- <programlisting language="C"><![CDATA[
- malloc_conf = "xmalloc:true";]]></programlisting>
- This option is disabled by default.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.tcache">
- <term>
- <mallctl>opt.tcache</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Thread-specific caching (tcache) enabled/disabled. When
- there are multiple threads, each thread uses a tcache for objects up to
- a certain size. Thread-specific caching allows many allocations to be
- satisfied without performing any thread synchronization, at the cost of
- increased memory use. See the <link
- linkend="opt.tcache_max"><mallctl>opt.tcache_max</mallctl></link>
- option for related tuning information. This option is enabled by
- default.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.tcache_max">
- <term>
- <mallctl>opt.tcache_max</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Maximum size class to cache in the thread-specific cache
- (tcache). At a minimum, the first size class is cached; and at a
- maximum, size classes up to 8 MiB can be cached. The default maximum is
- 32 KiB (2^15). As a convenience, this may also be set by specifying
- lg_tcache_max, which will be taken to be the base-2 logarithm of the
- setting of tcache_max.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.thp">
- <term>
- <mallctl>opt.thp</mallctl>
- (<type>const char *</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Transparent hugepage (THP) mode. Settings "always",
- "never" and "default" are available if THP is supported by the operating
- system. The "always" setting enables transparent hugepage for all user
- memory mappings with
- <parameter><constant>MADV_HUGEPAGE</constant></parameter>; "never"
- ensures no transparent hugepage with
- <parameter><constant>MADV_NOHUGEPAGE</constant></parameter>; the default
- setting "default" makes no changes. Note that: this option does not
- affect THP for jemalloc internal metadata (see <link
- linkend="opt.metadata_thp"><mallctl>opt.metadata_thp</mallctl></link>);
- in addition, for arenas with customized <link
- linkend="arena.i.extent_hooks"><mallctl>extent_hooks</mallctl></link>,
- this option is bypassed as it is implemented as part of the default
- extent hooks.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.prof">
- <term>
- <mallctl>opt.prof</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- [<option>--enable-prof</option>]
- </term>
- <listitem><para>Memory profiling enabled/disabled. If enabled, profile
- memory allocation activity. See the <link
- linkend="opt.prof_active"><mallctl>opt.prof_active</mallctl></link>
- option for on-the-fly activation/deactivation. See the <link
- linkend="opt.lg_prof_sample"><mallctl>opt.lg_prof_sample</mallctl></link>
- option for probabilistic sampling control. See the <link
- linkend="opt.prof_accum"><mallctl>opt.prof_accum</mallctl></link>
- option for control of cumulative sample reporting. See the <link
- linkend="opt.lg_prof_interval"><mallctl>opt.lg_prof_interval</mallctl></link>
- option for information on interval-triggered profile dumping, the <link
- linkend="opt.prof_gdump"><mallctl>opt.prof_gdump</mallctl></link>
- option for information on high-water-triggered profile dumping, and the
- <link linkend="opt.prof_final"><mallctl>opt.prof_final</mallctl></link>
- option for final profile dumping. Profile output is compatible with
- the <command>jeprof</command> command, which is based on the
- <command>pprof</command> that is developed as part of the <ulink
- url="http://code.google.com/p/gperftools/">gperftools
- package</ulink>. See <link linkend="heap_profile_format">HEAP PROFILE
- FORMAT</link> for heap profile format documentation.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.prof_prefix">
- <term>
- <mallctl>opt.prof_prefix</mallctl>
- (<type>const char *</type>)
- <literal>r-</literal>
- [<option>--enable-prof</option>]
- </term>
- <listitem><para>Filename prefix for profile dumps. If the prefix is
- set to the empty string, no automatic dumps will occur; this is
- primarily useful for disabling the automatic final heap dump (which
- also disables leak reporting, if enabled). The default prefix is
- <filename>jeprof</filename>. This prefix value can be overridden by
- <link linkend="prof.prefix"><mallctl>prof.prefix</mallctl></link>.
- </para></listitem>
- </varlistentry>
- <varlistentry id="opt.prof_active">
- <term>
- <mallctl>opt.prof_active</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- [<option>--enable-prof</option>]
- </term>
- <listitem><para>Profiling activated/deactivated. This is a secondary
- control mechanism that makes it possible to start the application with
- profiling enabled (see the <link
- linkend="opt.prof"><mallctl>opt.prof</mallctl></link> option) but
- inactive, then toggle profiling at any time during program execution
- with the <link
- linkend="prof.active"><mallctl>prof.active</mallctl></link> mallctl.
- This option is enabled by default.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.prof_thread_active_init">
- <term>
- <mallctl>opt.prof_thread_active_init</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- [<option>--enable-prof</option>]
- </term>
- <listitem><para>Initial setting for <link
- linkend="thread.prof.active"><mallctl>thread.prof.active</mallctl></link>
- in newly created threads. The initial setting for newly created threads
- can also be changed during execution via the <link
- linkend="prof.thread_active_init"><mallctl>prof.thread_active_init</mallctl></link>
- mallctl. This option is enabled by default.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.lg_prof_sample">
- <term>
- <mallctl>opt.lg_prof_sample</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-prof</option>]
- </term>
- <listitem><para>Average interval (log base 2) between allocation
- samples, as measured in bytes of allocation activity. Increasing the
- sampling interval decreases profile fidelity, but also decreases the
- computational overhead. The default sample interval is 512 KiB (2^19
- B).</para></listitem>
- </varlistentry>
- <varlistentry id="opt.prof_accum">
- <term>
- <mallctl>opt.prof_accum</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- [<option>--enable-prof</option>]
- </term>
- <listitem><para>Reporting of cumulative object/byte counts in profile
- dumps enabled/disabled. If this option is enabled, every unique
- backtrace must be stored for the duration of execution. Depending on
- the application, this can impose a large memory overhead, and the
- cumulative counts are not always of interest. This option is disabled
- by default.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.lg_prof_interval">
- <term>
- <mallctl>opt.lg_prof_interval</mallctl>
- (<type>ssize_t</type>)
- <literal>r-</literal>
- [<option>--enable-prof</option>]
- </term>
- <listitem><para>Average interval (log base 2) between memory profile
- dumps, as measured in bytes of allocation activity. The actual
- interval between dumps may be sporadic because decentralized allocation
- counters are used to avoid synchronization bottlenecks. Profiles are
- dumped to files named according to the pattern
- <filename><prefix>.<pid>.<seq>.i<iseq>.heap</filename>,
- where <literal><prefix></literal> is controlled by the
- <link
- linkend="opt.prof_prefix"><mallctl>opt.prof_prefix</mallctl></link> and
- <link linkend="prof.prefix"><mallctl>prof.prefix</mallctl></link>
- options. By default, interval-triggered profile dumping is disabled
- (encoded as -1).
- </para></listitem>
- </varlistentry>
- <varlistentry id="opt.prof_gdump">
- <term>
- <mallctl>opt.prof_gdump</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- [<option>--enable-prof</option>]
- </term>
- <listitem><para>Set the initial state of <link
- linkend="prof.gdump"><mallctl>prof.gdump</mallctl></link>, which when
- enabled triggers a memory profile dump every time the total virtual
- memory exceeds the previous maximum. This option is disabled by
- default.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.prof_final">
- <term>
- <mallctl>opt.prof_final</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- [<option>--enable-prof</option>]
- </term>
- <listitem><para>Use an
- <citerefentry><refentrytitle>atexit</refentrytitle>
- <manvolnum>3</manvolnum></citerefentry> function to dump final memory
- usage to a file named according to the pattern
- <filename><prefix>.<pid>.<seq>.f.heap</filename>,
- where <literal><prefix></literal> is controlled by the <link
- linkend="opt.prof_prefix"><mallctl>opt.prof_prefix</mallctl></link> and
- <link linkend="prof.prefix"><mallctl>prof.prefix</mallctl></link>
- options. Note that <function>atexit()</function> may allocate
- memory during application initialization and then deadlock internally
- when jemalloc in turn calls <function>atexit()</function>, so
- this option is not universally usable (though the application can
- register its own <function>atexit()</function> function with
- equivalent functionality). This option is disabled by
- default.</para></listitem>
- </varlistentry>
- <varlistentry id="opt.prof_leak">
- <term>
- <mallctl>opt.prof_leak</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- [<option>--enable-prof</option>]
- </term>
- <listitem><para>Leak reporting enabled/disabled. If enabled, use an
- <citerefentry><refentrytitle>atexit</refentrytitle>
- <manvolnum>3</manvolnum></citerefentry> function to report memory leaks
- detected by allocation sampling. See the
- <link linkend="opt.prof"><mallctl>opt.prof</mallctl></link> option for
- information on analyzing heap profile output. Works only when combined
- with <link linkend="opt.prof_final"><mallctl>opt.prof_final</mallctl>
- </link>, otherwise does nothing. This option is disabled by default.
- </para></listitem>
- </varlistentry>
- <varlistentry id="opt.prof_leak_error">
- <term>
- <mallctl>opt.prof_leak_error</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- [<option>--enable-prof</option>]
- </term>
- <listitem><para>Similar to <link linkend="opt.prof_leak"><mallctl>
- opt.prof_leak</mallctl></link>, but makes the process exit with error
- code 1 if a memory leak is detected. This option supersedes
- <link linkend="opt.prof_leak"><mallctl>opt.prof_leak</mallctl></link>,
- meaning that if both are specified, this option takes precedence. When
- enabled, also enables <link linkend="opt.prof_leak"><mallctl>
- opt.prof_leak</mallctl></link>. Works only when combined with
- <link linkend="opt.prof_final"><mallctl>opt.prof_final</mallctl></link>,
- otherwise does nothing. This option is disabled by default.
- </para></listitem>
- </varlistentry>
- <varlistentry id="opt.zero_realloc">
- <term>
- <mallctl>opt.zero_realloc</mallctl>
- (<type>const char *</type>)
- <literal>r-</literal>
- </term>
- <listitem><para> Determines the behavior of
- <function>realloc()</function> when passed a value of zero for the new
- size. <quote>alloc</quote> treats this as an allocation of size zero
- (and returns a non-null result except in case of resource exhaustion).
- <quote>free</quote> treats this as a deallocation of the pointer, and
- returns <constant>NULL</constant> without setting
- <varname>errno</varname>. <quote>abort</quote> aborts the process if
- zero is passed. The default is <quote>free</quote> on Linux and
- Windows, and <quote>alloc</quote> elsewhere.</para>
- <para>There is considerable divergence of behaviors across
- implementations in handling this case. Many have the behavior of
- <quote>free</quote>. This can introduce security vulnerabilities, since
- a <constant>NULL</constant> return value indicates failure, and the
- continued validity of the passed-in pointer (per POSIX and C11).
- <quote>alloc</quote> is safe, but can cause leaks in programs that
- expect the common behavior. Programs intended to be portable and
- leak-free cannot assume either behavior, and must therefore never call
- realloc with a size of 0. The <quote>abort</quote> option enables these
- testing this behavior.</para></listitem>
- </varlistentry>
- <varlistentry id="thread.arena">
- <term>
- <mallctl>thread.arena</mallctl>
- (<type>unsigned</type>)
- <literal>rw</literal>
- </term>
- <listitem><para>Get or set the arena associated with the calling
- thread. If the specified arena was not initialized beforehand (see the
- <link
- linkend="arena.i.initialized"><mallctl>arena.i.initialized</mallctl></link>
- mallctl), it will be automatically initialized as a side effect of
- calling this interface.</para></listitem>
- </varlistentry>
- <varlistentry id="thread.allocated">
- <term>
- <mallctl>thread.allocated</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Get the total number of bytes ever allocated by the
- calling thread. This counter has the potential to wrap around; it is
- up to the application to appropriately interpret the counter in such
- cases.</para></listitem>
- </varlistentry>
- <varlistentry id="thread.allocatedp">
- <term>
- <mallctl>thread.allocatedp</mallctl>
- (<type>uint64_t *</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Get a pointer to the the value that is returned by the
- <link
- linkend="thread.allocated"><mallctl>thread.allocated</mallctl></link>
- mallctl. This is useful for avoiding the overhead of repeated
- <function>mallctl*()</function> calls. Note that the underlying counter
- should not be modified by the application.</para></listitem>
- </varlistentry>
- <varlistentry id="thread.deallocated">
- <term>
- <mallctl>thread.deallocated</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Get the total number of bytes ever deallocated by the
- calling thread. This counter has the potential to wrap around; it is
- up to the application to appropriately interpret the counter in such
- cases.</para></listitem>
- </varlistentry>
- <varlistentry id="thread.deallocatedp">
- <term>
- <mallctl>thread.deallocatedp</mallctl>
- (<type>uint64_t *</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Get a pointer to the the value that is returned by the
- <link
- linkend="thread.deallocated"><mallctl>thread.deallocated</mallctl></link>
- mallctl. This is useful for avoiding the overhead of repeated
- <function>mallctl*()</function> calls. Note that the underlying counter
- should not be modified by the application.</para></listitem>
- </varlistentry>
- <varlistentry id="thread.peak.read">
- <term>
- <mallctl>thread.peak.read</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Get an approximation of the maximum value of the
- difference between the number of bytes allocated and the number of bytes
- deallocated by the calling thread since the last call to <link
- linkend="thread.peak.reset"><mallctl>thread.peak.reset</mallctl></link>,
- or since the thread's creation if it has not called <link
- linkend="thread.peak.reset"><mallctl>thread.peak.reset</mallctl></link>.
- No guarantees are made about the quality of the approximation, but
- jemalloc currently endeavors to maintain accuracy to within one hundred
- kilobytes.
- </para></listitem>
- </varlistentry>
- <varlistentry id="thread.peak.reset">
- <term>
- <mallctl>thread.peak.reset</mallctl>
- (<type>void</type>)
- <literal>--</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Resets the counter for net bytes allocated in the calling
- thread to zero. This affects subsequent calls to <link
- linkend="thread.peak.read"><mallctl>thread.peak.read</mallctl></link>,
- but not the values returned by <link
- linkend="thread.allocated"><mallctl>thread.allocated</mallctl></link>
- or <link
- linkend="thread.deallocated"><mallctl>thread.deallocated</mallctl></link>.
- </para></listitem>
- </varlistentry>
- <varlistentry id="thread.tcache.enabled">
- <term>
- <mallctl>thread.tcache.enabled</mallctl>
- (<type>bool</type>)
- <literal>rw</literal>
- </term>
- <listitem><para>Enable/disable calling thread's tcache. The tcache is
- implicitly flushed as a side effect of becoming
- disabled (see <link
- linkend="thread.tcache.flush"><mallctl>thread.tcache.flush</mallctl></link>).
- </para></listitem>
- </varlistentry>
- <varlistentry id="thread.tcache.flush">
- <term>
- <mallctl>thread.tcache.flush</mallctl>
- (<type>void</type>)
- <literal>--</literal>
- </term>
- <listitem><para>Flush calling thread's thread-specific cache (tcache).
- This interface releases all cached objects and internal data structures
- associated with the calling thread's tcache. Ordinarily, this interface
- need not be called, since automatic periodic incremental garbage
- collection occurs, and the thread cache is automatically discarded when
- a thread exits. However, garbage collection is triggered by allocation
- activity, so it is possible for a thread that stops
- allocating/deallocating to retain its cache indefinitely, in which case
- the developer may find manual flushing useful.</para></listitem>
- </varlistentry>
- <varlistentry id="thread.prof.name">
- <term>
- <mallctl>thread.prof.name</mallctl>
- (<type>const char *</type>)
- <literal>r-</literal> or
- <literal>-w</literal>
- [<option>--enable-prof</option>]
- </term>
- <listitem><para>Get/set the descriptive name associated with the calling
- thread in memory profile dumps. An internal copy of the name string is
- created, so the input string need not be maintained after this interface
- completes execution. The output string of this interface should be
- copied for non-ephemeral uses, because multiple implementation details
- can cause asynchronous string deallocation. Furthermore, each
- invocation of this interface can only read or write; simultaneous
- read/write is not supported due to string lifetime limitations. The
- name string must be nil-terminated and comprised only of characters in
- the sets recognized
- by <citerefentry><refentrytitle>isgraph</refentrytitle>
- <manvolnum>3</manvolnum></citerefentry> and
- <citerefentry><refentrytitle>isblank</refentrytitle>
- <manvolnum>3</manvolnum></citerefentry>.</para></listitem>
- </varlistentry>
- <varlistentry id="thread.prof.active">
- <term>
- <mallctl>thread.prof.active</mallctl>
- (<type>bool</type>)
- <literal>rw</literal>
- [<option>--enable-prof</option>]
- </term>
- <listitem><para>Control whether sampling is currently active for the
- calling thread. This is an activation mechanism in addition to <link
- linkend="prof.active"><mallctl>prof.active</mallctl></link>; both must
- be active for the calling thread to sample. This flag is enabled by
- default.</para></listitem>
- </varlistentry>
- <varlistentry id="thread.idle">
- <term>
- <mallctl>thread.idle</mallctl>
- (<type>void</type>)
- <literal>--</literal>
- </term>
- <listitem><para>Hints to jemalloc that the calling thread will be idle
- for some nontrivial period of time (say, on the order of seconds), and
- that doing some cleanup operations may be beneficial. There are no
- guarantees as to what specific operations will be performed; currently
- this flushes the caller's tcache and may (according to some heuristic)
- purge its associated arena.</para>
- <para>This is not intended to be a general-purpose background activity
- mechanism, and threads should not wake up multiple times solely to call
- it. Rather, a thread waiting for a task should do a timed wait first,
- call <link linkend="thread.idle"><mallctl>thread.idle</mallctl></link>
- if no task appears in the timeout interval, and then do an untimed wait.
- For such a background activity mechanism, see
- <link linkend="background_thread"><mallctl>background_thread</mallctl></link>.
- </para></listitem>
- </varlistentry>
- <varlistentry id="tcache.create">
- <term>
- <mallctl>tcache.create</mallctl>
- (<type>unsigned</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Create an explicit thread-specific cache (tcache) and
- return an identifier that can be passed to the <link
- linkend="MALLOCX_TCACHE"><constant>MALLOCX_TCACHE(<parameter>tc</parameter>)</constant></link>
- macro to explicitly use the specified cache rather than the
- automatically managed one that is used by default. Each explicit cache
- can be used by only one thread at a time; the application must assure
- that this constraint holds.
- </para>
- <para>If the amount of space supplied for storing the thread-specific
- cache identifier does not equal
- <code language="C">sizeof(<type>unsigned</type>)</code>, no
- thread-specific cache will be created, no data will be written to the
- space pointed by <parameter>oldp</parameter>, and
- <parameter>*oldlenp</parameter> will be set to 0.
- </para></listitem>
- </varlistentry>
- <varlistentry id="tcache.flush">
- <term>
- <mallctl>tcache.flush</mallctl>
- (<type>unsigned</type>)
- <literal>-w</literal>
- </term>
- <listitem><para>Flush the specified thread-specific cache (tcache). The
- same considerations apply to this interface as to <link
- linkend="thread.tcache.flush"><mallctl>thread.tcache.flush</mallctl></link>,
- except that the tcache will never be automatically discarded.
- </para></listitem>
- </varlistentry>
- <varlistentry id="tcache.destroy">
- <term>
- <mallctl>tcache.destroy</mallctl>
- (<type>unsigned</type>)
- <literal>-w</literal>
- </term>
- <listitem><para>Flush the specified thread-specific cache (tcache) and
- make the identifier available for use during a future tcache creation.
- </para></listitem>
- </varlistentry>
- <varlistentry id="arena.i.initialized">
- <term>
- <mallctl>arena.<i>.initialized</mallctl>
- (<type>bool</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Get whether the specified arena's statistics are
- initialized (i.e. the arena was initialized prior to the current epoch).
- This interface can also be nominally used to query whether the merged
- statistics corresponding to <constant>MALLCTL_ARENAS_ALL</constant> are
- initialized (always true).</para></listitem>
- </varlistentry>
- <varlistentry id="arena.i.decay">
- <term>
- <mallctl>arena.<i>.decay</mallctl>
- (<type>void</type>)
- <literal>--</literal>
- </term>
- <listitem><para>Trigger decay-based purging of unused dirty/muzzy pages
- for arena <i>, or for all arenas if <i> equals
- <constant>MALLCTL_ARENAS_ALL</constant>. The proportion of unused
- dirty/muzzy pages to be purged depends on the current time; see <link
- linkend="opt.dirty_decay_ms"><mallctl>opt.dirty_decay_ms</mallctl></link>
- and <link
- linkend="opt.muzzy_decay_ms"><mallctl>opt.muzy_decay_ms</mallctl></link>
- for details.</para></listitem>
- </varlistentry>
- <varlistentry id="arena.i.purge">
- <term>
- <mallctl>arena.<i>.purge</mallctl>
- (<type>void</type>)
- <literal>--</literal>
- </term>
- <listitem><para>Purge all unused dirty pages for arena <i>, or for
- all arenas if <i> equals <constant>MALLCTL_ARENAS_ALL</constant>.
- </para></listitem>
- </varlistentry>
- <varlistentry id="arena.i.reset">
- <term>
- <mallctl>arena.<i>.reset</mallctl>
- (<type>void</type>)
- <literal>--</literal>
- </term>
- <listitem><para>Discard all of the arena's extant allocations. This
- interface can only be used with arenas explicitly created via <link
- linkend="arenas.create"><mallctl>arenas.create</mallctl></link>. None
- of the arena's discarded/cached allocations may accessed afterward. As
- part of this requirement, all thread caches which were used to
- allocate/deallocate in conjunction with the arena must be flushed
- beforehand.</para></listitem>
- </varlistentry>
- <varlistentry id="arena.i.destroy">
- <term>
- <mallctl>arena.<i>.destroy</mallctl>
- (<type>void</type>)
- <literal>--</literal>
- </term>
- <listitem><para>Destroy the arena. Discard all of the arena's extant
- allocations using the same mechanism as for <link
- linkend="arena.i.reset"><mallctl>arena.<i>.reset</mallctl></link>
- (with all the same constraints and side effects), merge the arena stats
- into those accessible at arena index
- <constant>MALLCTL_ARENAS_DESTROYED</constant>, and then completely
- discard all metadata associated with the arena. Future calls to <link
- linkend="arenas.create"><mallctl>arenas.create</mallctl></link> may
- recycle the arena index. Destruction will fail if any threads are
- currently associated with the arena as a result of calls to <link
- linkend="thread.arena"><mallctl>thread.arena</mallctl></link>.</para></listitem>
- </varlistentry>
- <varlistentry id="arena.i.dss">
- <term>
- <mallctl>arena.<i>.dss</mallctl>
- (<type>const char *</type>)
- <literal>rw</literal>
- </term>
- <listitem><para>Set the precedence of dss allocation as related to mmap
- allocation for arena <i>, or for all arenas if <i> equals
- <constant>MALLCTL_ARENAS_ALL</constant>. See <link
- linkend="opt.dss"><mallctl>opt.dss</mallctl></link> for supported
- settings.</para></listitem>
- </varlistentry>
- <varlistentry id="arena.i.dirty_decay_ms">
- <term>
- <mallctl>arena.<i>.dirty_decay_ms</mallctl>
- (<type>ssize_t</type>)
- <literal>rw</literal>
- </term>
- <listitem><para>Current per-arena approximate time in milliseconds from
- the creation of a set of unused dirty pages until an equivalent set of
- unused dirty pages is purged and/or reused. Each time this interface is
- set, all currently unused dirty pages are considered to have fully
- decayed, which causes immediate purging of all unused dirty pages unless
- the decay time is set to -1 (i.e. purging disabled). See <link
- linkend="opt.dirty_decay_ms"><mallctl>opt.dirty_decay_ms</mallctl></link>
- for additional information.</para></listitem>
- </varlistentry>
- <varlistentry id="arena.i.muzzy_decay_ms">
- <term>
- <mallctl>arena.<i>.muzzy_decay_ms</mallctl>
- (<type>ssize_t</type>)
- <literal>rw</literal>
- </term>
- <listitem><para>Current per-arena approximate time in milliseconds from
- the creation of a set of unused muzzy pages until an equivalent set of
- unused muzzy pages is purged and/or reused. Each time this interface is
- set, all currently unused muzzy pages are considered to have fully
- decayed, which causes immediate purging of all unused muzzy pages unless
- the decay time is set to -1 (i.e. purging disabled). See <link
- linkend="opt.muzzy_decay_ms"><mallctl>opt.muzzy_decay_ms</mallctl></link>
- for additional information.</para></listitem>
- </varlistentry>
- <varlistentry id="arena.i.retain_grow_limit">
- <term>
- <mallctl>arena.<i>.retain_grow_limit</mallctl>
- (<type>size_t</type>)
- <literal>rw</literal>
- </term>
- <listitem><para>Maximum size to grow retained region (only relevant when
- <link linkend="opt.retain"><mallctl>opt.retain</mallctl></link> is
- enabled). This controls the maximum increment to expand virtual memory,
- or allocation through <link
- linkend="arena.i.extent_hooks"><mallctl>arena.<i>extent_hooks</mallctl></link>.
- In particular, if customized extent hooks reserve physical memory
- (e.g. 1G huge pages), this is useful to control the allocation hook's
- input size. The default is no limit.</para></listitem>
- </varlistentry>
- <varlistentry id="arena.i.extent_hooks">
- <term>
- <mallctl>arena.<i>.extent_hooks</mallctl>
- (<type>extent_hooks_t *</type>)
- <literal>rw</literal>
- </term>
- <listitem><para>Get or set the extent management hook functions for
- arena <i>. The functions must be capable of operating on all
- extant extents associated with arena <i>, usually by passing
- unknown extents to the replaced functions. In practice, it is feasible
- to control allocation for arenas explicitly created via <link
- linkend="arenas.create"><mallctl>arenas.create</mallctl></link> such
- that all extents originate from an application-supplied extent allocator
- (by specifying the custom extent hook functions during arena creation).
- However, the API guarantees for the automatically created arenas may be
- relaxed -- hooks set there may be called in a "best effort" fashion; in
- addition there may be extents created prior to the application having an
- opportunity to take over extent allocation.</para>
- <programlisting language="C"><![CDATA[
- typedef extent_hooks_s extent_hooks_t;
- struct extent_hooks_s {
- extent_alloc_t *alloc;
- extent_dalloc_t *dalloc;
- extent_destroy_t *destroy;
- extent_commit_t *commit;
- extent_decommit_t *decommit;
- extent_purge_t *purge_lazy;
- extent_purge_t *purge_forced;
- extent_split_t *split;
- extent_merge_t *merge;
- };]]></programlisting>
- <para>The <type>extent_hooks_t</type> structure comprises function
- pointers which are described individually below. jemalloc uses these
- functions to manage extent lifetime, which starts off with allocation of
- mapped committed memory, in the simplest case followed by deallocation.
- However, there are performance and platform reasons to retain extents
- for later reuse. Cleanup attempts cascade from deallocation to decommit
- to forced purging to lazy purging, which gives the extent management
- functions opportunities to reject the most permanent cleanup operations
- in favor of less permanent (and often less costly) operations. All
- operations except allocation can be universally opted out of by setting
- the hook pointers to <constant>NULL</constant>, or selectively opted out
- of by returning failure. Note that once the extent hook is set, the
- structure is accessed directly by the associated arenas, so it must
- remain valid for the entire lifetime of the arenas.</para>
- <funcsynopsis><funcprototype>
- <funcdef>typedef void *<function>(extent_alloc_t)</function></funcdef>
- <paramdef>extent_hooks_t *<parameter>extent_hooks</parameter></paramdef>
- <paramdef>void *<parameter>new_addr</parameter></paramdef>
- <paramdef>size_t <parameter>size</parameter></paramdef>
- <paramdef>size_t <parameter>alignment</parameter></paramdef>
- <paramdef>bool *<parameter>zero</parameter></paramdef>
- <paramdef>bool *<parameter>commit</parameter></paramdef>
- <paramdef>unsigned <parameter>arena_ind</parameter></paramdef>
- </funcprototype></funcsynopsis>
- <literallayout></literallayout>
- <para>An extent allocation function conforms to the
- <type>extent_alloc_t</type> type and upon success returns a pointer to
- <parameter>size</parameter> bytes of mapped memory on behalf of arena
- <parameter>arena_ind</parameter> such that the extent's base address is
- a multiple of <parameter>alignment</parameter>, as well as setting
- <parameter>*zero</parameter> to indicate whether the extent is zeroed
- and <parameter>*commit</parameter> to indicate whether the extent is
- committed. Upon error the function returns <constant>NULL</constant>
- and leaves <parameter>*zero</parameter> and
- <parameter>*commit</parameter> unmodified. The
- <parameter>size</parameter> parameter is always a multiple of the page
- size. The <parameter>alignment</parameter> parameter is always a power
- of two at least as large as the page size. Zeroing is mandatory if
- <parameter>*zero</parameter> is true upon function entry. Committing is
- mandatory if <parameter>*commit</parameter> is true upon function entry.
- If <parameter>new_addr</parameter> is not <constant>NULL</constant>, the
- returned pointer must be <parameter>new_addr</parameter> on success or
- <constant>NULL</constant> on error. Committed memory may be committed
- in absolute terms as on a system that does not overcommit, or in
- implicit terms as on a system that overcommits and satisfies physical
- memory needs on demand via soft page faults. Note that replacing the
- default extent allocation function makes the arena's <link
- linkend="arena.i.dss"><mallctl>arena.<i>.dss</mallctl></link>
- setting irrelevant.</para>
- <funcsynopsis><funcprototype>
- <funcdef>typedef bool <function>(extent_dalloc_t)</function></funcdef>
- <paramdef>extent_hooks_t *<parameter>extent_hooks</parameter></paramdef>
- <paramdef>void *<parameter>addr</parameter></paramdef>
- <paramdef>size_t <parameter>size</parameter></paramdef>
- <paramdef>bool <parameter>committed</parameter></paramdef>
- <paramdef>unsigned <parameter>arena_ind</parameter></paramdef>
- </funcprototype></funcsynopsis>
- <literallayout></literallayout>
- <para>
- An extent deallocation function conforms to the
- <type>extent_dalloc_t</type> type and deallocates an extent at given
- <parameter>addr</parameter> and <parameter>size</parameter> with
- <parameter>committed</parameter>/decommited memory as indicated, on
- behalf of arena <parameter>arena_ind</parameter>, returning false upon
- success. If the function returns true, this indicates opt-out from
- deallocation; the virtual memory mapping associated with the extent
- remains mapped, in the same commit state, and available for future use,
- in which case it will be automatically retained for later reuse.</para>
- <funcsynopsis><funcprototype>
- <funcdef>typedef void <function>(extent_destroy_t)</function></funcdef>
- <paramdef>extent_hooks_t *<parameter>extent_hooks</parameter></paramdef>
- <paramdef>void *<parameter>addr</parameter></paramdef>
- <paramdef>size_t <parameter>size</parameter></paramdef>
- <paramdef>bool <parameter>committed</parameter></paramdef>
- <paramdef>unsigned <parameter>arena_ind</parameter></paramdef>
- </funcprototype></funcsynopsis>
- <literallayout></literallayout>
- <para>
- An extent destruction function conforms to the
- <type>extent_destroy_t</type> type and unconditionally destroys an
- extent at given <parameter>addr</parameter> and
- <parameter>size</parameter> with
- <parameter>committed</parameter>/decommited memory as indicated, on
- behalf of arena <parameter>arena_ind</parameter>. This function may be
- called to destroy retained extents during arena destruction (see <link
- linkend="arena.i.destroy"><mallctl>arena.<i>.destroy</mallctl></link>).</para>
- <funcsynopsis><funcprototype>
- <funcdef>typedef bool <function>(extent_commit_t)</function></funcdef>
- <paramdef>extent_hooks_t *<parameter>extent_hooks</parameter></paramdef>
- <paramdef>void *<parameter>addr</parameter></paramdef>
- <paramdef>size_t <parameter>size</parameter></paramdef>
- <paramdef>size_t <parameter>offset</parameter></paramdef>
- <paramdef>size_t <parameter>length</parameter></paramdef>
- <paramdef>unsigned <parameter>arena_ind</parameter></paramdef>
- </funcprototype></funcsynopsis>
- <literallayout></literallayout>
- <para>An extent commit function conforms to the
- <type>extent_commit_t</type> type and commits zeroed physical memory to
- back pages within an extent at given <parameter>addr</parameter> and
- <parameter>size</parameter> at <parameter>offset</parameter> bytes,
- extending for <parameter>length</parameter> on behalf of arena
- <parameter>arena_ind</parameter>, returning false upon success.
- Committed memory may be committed in absolute terms as on a system that
- does not overcommit, or in implicit terms as on a system that
- overcommits and satisfies physical memory needs on demand via soft page
- faults. If the function returns true, this indicates insufficient
- physical memory to satisfy the request.</para>
- <funcsynopsis><funcprototype>
- <funcdef>typedef bool <function>(extent_decommit_t)</function></funcdef>
- <paramdef>extent_hooks_t *<parameter>extent_hooks</parameter></paramdef>
- <paramdef>void *<parameter>addr</parameter></paramdef>
- <paramdef>size_t <parameter>size</parameter></paramdef>
- <paramdef>size_t <parameter>offset</parameter></paramdef>
- <paramdef>size_t <parameter>length</parameter></paramdef>
- <paramdef>unsigned <parameter>arena_ind</parameter></paramdef>
- </funcprototype></funcsynopsis>
- <literallayout></literallayout>
- <para>An extent decommit function conforms to the
- <type>extent_decommit_t</type> type and decommits any physical memory
- that is backing pages within an extent at given
- <parameter>addr</parameter> and <parameter>size</parameter> at
- <parameter>offset</parameter> bytes, extending for
- <parameter>length</parameter> on behalf of arena
- <parameter>arena_ind</parameter>, returning false upon success, in which
- case the pages will be committed via the extent commit function before
- being reused. If the function returns true, this indicates opt-out from
- decommit; the memory remains committed and available for future use, in
- which case it will be automatically retained for later reuse.</para>
- <funcsynopsis><funcprototype>
- <funcdef>typedef bool <function>(extent_purge_t)</function></funcdef>
- <paramdef>extent_hooks_t *<parameter>extent_hooks</parameter></paramdef>
- <paramdef>void *<parameter>addr</parameter></paramdef>
- <paramdef>size_t <parameter>size</parameter></paramdef>
- <paramdef>size_t <parameter>offset</parameter></paramdef>
- <paramdef>size_t <parameter>length</parameter></paramdef>
- <paramdef>unsigned <parameter>arena_ind</parameter></paramdef>
- </funcprototype></funcsynopsis>
- <literallayout></literallayout>
- <para>An extent purge function conforms to the
- <type>extent_purge_t</type> type and discards physical pages
- within the virtual memory mapping associated with an extent at given
- <parameter>addr</parameter> and <parameter>size</parameter> at
- <parameter>offset</parameter> bytes, extending for
- <parameter>length</parameter> on behalf of arena
- <parameter>arena_ind</parameter>. A lazy extent purge function (e.g.
- implemented via
- <function>madvise(<parameter>...</parameter><parameter><constant>MADV_FREE</constant></parameter>)</function>)
- can delay purging indefinitely and leave the pages within the purged
- virtual memory range in an indeterminite state, whereas a forced extent
- purge function immediately purges, and the pages within the virtual
- memory range will be zero-filled the next time they are accessed. If
- the function returns true, this indicates failure to purge.</para>
- <funcsynopsis><funcprototype>
- <funcdef>typedef bool <function>(extent_split_t)</function></funcdef>
- <paramdef>extent_hooks_t *<parameter>extent_hooks</parameter></paramdef>
- <paramdef>void *<parameter>addr</parameter></paramdef>
- <paramdef>size_t <parameter>size</parameter></paramdef>
- <paramdef>size_t <parameter>size_a</parameter></paramdef>
- <paramdef>size_t <parameter>size_b</parameter></paramdef>
- <paramdef>bool <parameter>committed</parameter></paramdef>
- <paramdef>unsigned <parameter>arena_ind</parameter></paramdef>
- </funcprototype></funcsynopsis>
- <literallayout></literallayout>
- <para>An extent split function conforms to the
- <type>extent_split_t</type> type and optionally splits an extent at
- given <parameter>addr</parameter> and <parameter>size</parameter> into
- two adjacent extents, the first of <parameter>size_a</parameter> bytes,
- and the second of <parameter>size_b</parameter> bytes, operating on
- <parameter>committed</parameter>/decommitted memory as indicated, on
- behalf of arena <parameter>arena_ind</parameter>, returning false upon
- success. If the function returns true, this indicates that the extent
- remains unsplit and therefore should continue to be operated on as a
- whole.</para>
- <funcsynopsis><funcprototype>
- <funcdef>typedef bool <function>(extent_merge_t)</function></funcdef>
- <paramdef>extent_hooks_t *<parameter>extent_hooks</parameter></paramdef>
- <paramdef>void *<parameter>addr_a</parameter></paramdef>
- <paramdef>size_t <parameter>size_a</parameter></paramdef>
- <paramdef>void *<parameter>addr_b</parameter></paramdef>
- <paramdef>size_t <parameter>size_b</parameter></paramdef>
- <paramdef>bool <parameter>committed</parameter></paramdef>
- <paramdef>unsigned <parameter>arena_ind</parameter></paramdef>
- </funcprototype></funcsynopsis>
- <literallayout></literallayout>
- <para>An extent merge function conforms to the
- <type>extent_merge_t</type> type and optionally merges adjacent extents,
- at given <parameter>addr_a</parameter> and <parameter>size_a</parameter>
- with given <parameter>addr_b</parameter> and
- <parameter>size_b</parameter> into one contiguous extent, operating on
- <parameter>committed</parameter>/decommitted memory as indicated, on
- behalf of arena <parameter>arena_ind</parameter>, returning false upon
- success. If the function returns true, this indicates that the extents
- remain distinct mappings and therefore should continue to be operated on
- independently.</para>
- </listitem>
- </varlistentry>
- <varlistentry id="arenas.narenas">
- <term>
- <mallctl>arenas.narenas</mallctl>
- (<type>unsigned</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Current limit on number of arenas.</para></listitem>
- </varlistentry>
- <varlistentry id="arenas.dirty_decay_ms">
- <term>
- <mallctl>arenas.dirty_decay_ms</mallctl>
- (<type>ssize_t</type>)
- <literal>rw</literal>
- </term>
- <listitem><para>Current default per-arena approximate time in
- milliseconds from the creation of a set of unused dirty pages until an
- equivalent set of unused dirty pages is purged and/or reused, used to
- initialize <link
- linkend="arena.i.dirty_decay_ms"><mallctl>arena.<i>.dirty_decay_ms</mallctl></link>
- during arena creation. See <link
- linkend="opt.dirty_decay_ms"><mallctl>opt.dirty_decay_ms</mallctl></link>
- for additional information.</para></listitem>
- </varlistentry>
- <varlistentry id="arenas.muzzy_decay_ms">
- <term>
- <mallctl>arenas.muzzy_decay_ms</mallctl>
- (<type>ssize_t</type>)
- <literal>rw</literal>
- </term>
- <listitem><para>Current default per-arena approximate time in
- milliseconds from the creation of a set of unused muzzy pages until an
- equivalent set of unused muzzy pages is purged and/or reused, used to
- initialize <link
- linkend="arena.i.muzzy_decay_ms"><mallctl>arena.<i>.muzzy_decay_ms</mallctl></link>
- during arena creation. See <link
- linkend="opt.muzzy_decay_ms"><mallctl>opt.muzzy_decay_ms</mallctl></link>
- for additional information.</para></listitem>
- </varlistentry>
- <varlistentry id="arenas.quantum">
- <term>
- <mallctl>arenas.quantum</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Quantum size.</para></listitem>
- </varlistentry>
- <varlistentry id="arenas.page">
- <term>
- <mallctl>arenas.page</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Page size.</para></listitem>
- </varlistentry>
- <varlistentry id="arenas.tcache_max">
- <term>
- <mallctl>arenas.tcache_max</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Maximum thread-cached size class.</para></listitem>
- </varlistentry>
- <varlistentry id="arenas.nbins">
- <term>
- <mallctl>arenas.nbins</mallctl>
- (<type>unsigned</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Number of bin size classes.</para></listitem>
- </varlistentry>
- <varlistentry id="arenas.nhbins">
- <term>
- <mallctl>arenas.nhbins</mallctl>
- (<type>unsigned</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Total number of thread cache bin size
- classes.</para></listitem>
- </varlistentry>
- <varlistentry id="arenas.bin.i.size">
- <term>
- <mallctl>arenas.bin.<i>.size</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Maximum size supported by size class.</para></listitem>
- </varlistentry>
- <varlistentry id="arenas.bin.i.nregs">
- <term>
- <mallctl>arenas.bin.<i>.nregs</mallctl>
- (<type>uint32_t</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Number of regions per slab.</para></listitem>
- </varlistentry>
- <varlistentry id="arenas.bin.i.slab_size">
- <term>
- <mallctl>arenas.bin.<i>.slab_size</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Number of bytes per slab.</para></listitem>
- </varlistentry>
- <varlistentry id="arenas.nlextents">
- <term>
- <mallctl>arenas.nlextents</mallctl>
- (<type>unsigned</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Total number of large size classes.</para></listitem>
- </varlistentry>
- <varlistentry id="arenas.lextent.i.size">
- <term>
- <mallctl>arenas.lextent.<i>.size</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Maximum size supported by this large size
- class.</para></listitem>
- </varlistentry>
- <varlistentry id="arenas.create">
- <term>
- <mallctl>arenas.create</mallctl>
- (<type>unsigned</type>, <type>extent_hooks_t *</type>)
- <literal>rw</literal>
- </term>
- <listitem><para>Explicitly create a new arena outside the range of
- automatically managed arenas, with optionally specified extent hooks,
- and return the new arena index.</para>
- <para>If the amount of space supplied for storing the arena index does
- not equal <code language="C">sizeof(<type>unsigned</type>)</code>, no
- arena will be created, no data will be written to the space pointed by
- <parameter>oldp</parameter>, and <parameter>*oldlenp</parameter> will
- be set to 0.
- </para></listitem>
- </varlistentry>
- <varlistentry id="arenas.lookup">
- <term>
- <mallctl>arenas.lookup</mallctl>
- (<type>unsigned</type>, <type>void*</type>)
- <literal>rw</literal>
- </term>
- <listitem><para>Index of the arena to which an allocation belongs to.</para></listitem>
- </varlistentry>
- <varlistentry id="prof.thread_active_init">
- <term>
- <mallctl>prof.thread_active_init</mallctl>
- (<type>bool</type>)
- <literal>rw</literal>
- [<option>--enable-prof</option>]
- </term>
- <listitem><para>Control the initial setting for <link
- linkend="thread.prof.active"><mallctl>thread.prof.active</mallctl></link>
- in newly created threads. See the <link
- linkend="opt.prof_thread_active_init"><mallctl>opt.prof_thread_active_init</mallctl></link>
- option for additional information.</para></listitem>
- </varlistentry>
- <varlistentry id="prof.active">
- <term>
- <mallctl>prof.active</mallctl>
- (<type>bool</type>)
- <literal>rw</literal>
- [<option>--enable-prof</option>]
- </term>
- <listitem><para>Control whether sampling is currently active. See the
- <link
- linkend="opt.prof_active"><mallctl>opt.prof_active</mallctl></link>
- option for additional information, as well as the interrelated <link
- linkend="thread.prof.active"><mallctl>thread.prof.active</mallctl></link>
- mallctl.</para></listitem>
- </varlistentry>
- <varlistentry id="prof.dump">
- <term>
- <mallctl>prof.dump</mallctl>
- (<type>const char *</type>)
- <literal>-w</literal>
- [<option>--enable-prof</option>]
- </term>
- <listitem><para>Dump a memory profile to the specified file, or if NULL
- is specified, to a file according to the pattern
- <filename><prefix>.<pid>.<seq>.m<mseq>.heap</filename>,
- where <literal><prefix></literal> is controlled by the
- <link linkend="opt.prof_prefix"><mallctl>opt.prof_prefix</mallctl></link>
- and <link linkend="prof.prefix"><mallctl>prof.prefix</mallctl></link>
- options.</para></listitem>
- </varlistentry>
- <varlistentry id="prof.prefix">
- <term>
- <mallctl>prof.prefix</mallctl>
- (<type>const char *</type>)
- <literal>-w</literal>
- [<option>--enable-prof</option>]
- </term>
- <listitem><para>Set the filename prefix for profile dumps. See
- <link
- linkend="opt.prof_prefix"><mallctl>opt.prof_prefix</mallctl></link>
- for the default setting. This can be useful to differentiate profile
- dumps such as from forked processes.
- </para></listitem>
- </varlistentry>
- <varlistentry id="prof.gdump">
- <term>
- <mallctl>prof.gdump</mallctl>
- (<type>bool</type>)
- <literal>rw</literal>
- [<option>--enable-prof</option>]
- </term>
- <listitem><para>When enabled, trigger a memory profile dump every time
- the total virtual memory exceeds the previous maximum. Profiles are
- dumped to files named according to the pattern
- <filename><prefix>.<pid>.<seq>.u<useq>.heap</filename>,
- where <literal><prefix></literal> is controlled by the <link
- linkend="opt.prof_prefix"><mallctl>opt.prof_prefix</mallctl></link> and
- <link linkend="prof.prefix"><mallctl>prof.prefix</mallctl></link>
- options.</para></listitem>
- </varlistentry>
- <varlistentry id="prof.reset">
- <term>
- <mallctl>prof.reset</mallctl>
- (<type>size_t</type>)
- <literal>-w</literal>
- [<option>--enable-prof</option>]
- </term>
- <listitem><para>Reset all memory profile statistics, and optionally
- update the sample rate (see <link
- linkend="opt.lg_prof_sample"><mallctl>opt.lg_prof_sample</mallctl></link>
- and <link
- linkend="prof.lg_sample"><mallctl>prof.lg_sample</mallctl></link>).
- </para></listitem>
- </varlistentry>
- <varlistentry id="prof.lg_sample">
- <term>
- <mallctl>prof.lg_sample</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-prof</option>]
- </term>
- <listitem><para>Get the current sample rate (see <link
- linkend="opt.lg_prof_sample"><mallctl>opt.lg_prof_sample</mallctl></link>).
- </para></listitem>
- </varlistentry>
- <varlistentry id="prof.interval">
- <term>
- <mallctl>prof.interval</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-prof</option>]
- </term>
- <listitem><para>Average number of bytes allocated between
- interval-based profile dumps. See the
- <link
- linkend="opt.lg_prof_interval"><mallctl>opt.lg_prof_interval</mallctl></link>
- option for additional information.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.allocated">
- <term>
- <mallctl>stats.allocated</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Total number of bytes allocated by the
- application.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.active">
- <term>
- <mallctl>stats.active</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Total number of bytes in active pages allocated by the
- application. This is a multiple of the page size, and greater than or
- equal to <link
- linkend="stats.allocated"><mallctl>stats.allocated</mallctl></link>.
- This does not include <link linkend="stats.arenas.i.pdirty">
- <mallctl>stats.arenas.<i>.pdirty</mallctl></link>,
- <link linkend="stats.arenas.i.pmuzzy">
- <mallctl>stats.arenas.<i>.pmuzzy</mallctl></link>, nor pages
- entirely devoted to allocator metadata.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.metadata">
- <term>
- <mallctl>stats.metadata</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Total number of bytes dedicated to metadata, which
- comprise base allocations used for bootstrap-sensitive allocator
- metadata structures (see <link
- linkend="stats.arenas.i.base"><mallctl>stats.arenas.<i>.base</mallctl></link>)
- and internal allocations (see <link
- linkend="stats.arenas.i.internal"><mallctl>stats.arenas.<i>.internal</mallctl></link>).
- Transparent huge page (enabled with <link
- linkend="opt.metadata_thp">opt.metadata_thp</link>) usage is not
- considered.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.metadata_thp">
- <term>
- <mallctl>stats.metadata_thp</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Number of transparent huge pages (THP) used for
- metadata. See <link
- linkend="stats.metadata"><mallctl>stats.metadata</mallctl></link> and
- <link linkend="opt.metadata_thp">opt.metadata_thp</link>) for
- details.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.resident">
- <term>
- <mallctl>stats.resident</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Maximum number of bytes in physically resident data
- pages mapped by the allocator, comprising all pages dedicated to
- allocator metadata, pages backing active allocations, and unused dirty
- pages. This is a maximum rather than precise because pages may not
- actually be physically resident if they correspond to demand-zeroed
- virtual memory that has not yet been touched. This is a multiple of the
- page size, and is larger than <link
- linkend="stats.active"><mallctl>stats.active</mallctl></link>.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.mapped">
- <term>
- <mallctl>stats.mapped</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Total number of bytes in active extents mapped by the
- allocator. This is larger than <link
- linkend="stats.active"><mallctl>stats.active</mallctl></link>. This
- does not include inactive extents, even those that contain unused dirty
- pages, which means that there is no strict ordering between this and
- <link
- linkend="stats.resident"><mallctl>stats.resident</mallctl></link>.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.retained">
- <term>
- <mallctl>stats.retained</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Total number of bytes in virtual memory mappings that
- were retained rather than being returned to the operating system via
- e.g. <citerefentry><refentrytitle>munmap</refentrytitle>
- <manvolnum>2</manvolnum></citerefentry> or similar. Retained virtual
- memory is typically untouched, decommitted, or purged, so it has no
- strongly associated physical memory (see <link
- linkend="arena.i.extent_hooks">extent hooks</link> for details).
- Retained memory is excluded from mapped memory statistics, e.g. <link
- linkend="stats.mapped"><mallctl>stats.mapped</mallctl></link>.
- </para></listitem>
- </varlistentry>
- <varlistentry id="stats.zero_reallocs">
- <term>
- <mallctl>stats.zero_reallocs</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Number of times that the <function>realloc()</function>
- was called with a non-<constant>NULL</constant> pointer argument and a
- <constant>0</constant> size argument. This is a fundamentally unsafe
- pattern in portable programs; see <link linkend="opt.zero_realloc">
- <mallctl>opt.zero_realloc</mallctl></link> for details.
- </para></listitem>
- </varlistentry>
- <varlistentry id="stats.background_thread.num_threads">
- <term>
- <mallctl>stats.background_thread.num_threads</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para> Number of <link linkend="background_thread">background
- threads</link> running currently.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.background_thread.num_runs">
- <term>
- <mallctl>stats.background_thread.num_runs</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para> Total number of runs from all <link
- linkend="background_thread">background threads</link>.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.background_thread.run_interval">
- <term>
- <mallctl>stats.background_thread.run_interval</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para> Average run interval in nanoseconds of <link
- linkend="background_thread">background threads</link>.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.mutexes.ctl">
- <term>
- <mallctl>stats.mutexes.ctl.{counter};</mallctl>
- (<type>counter specific type</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Statistics on <varname>ctl</varname> mutex (global
- scope; mallctl related). <mallctl>{counter}</mallctl> is one of the
- counters below:</para>
- <varlistentry id="mutex_counters">
- <listitem><para><varname>num_ops</varname> (<type>uint64_t</type>):
- Total number of lock acquisition operations on this mutex.</para>
- <para><varname>num_spin_acq</varname> (<type>uint64_t</type>): Number
- of times the mutex was spin-acquired. When the mutex is currently
- locked and cannot be acquired immediately, a short period of
- spin-retry within jemalloc will be performed. Acquired through spin
- generally means the contention was lightweight and not causing context
- switches.</para>
- <para><varname>num_wait</varname> (<type>uint64_t</type>): Number of
- times the mutex was wait-acquired, which means the mutex contention
- was not solved by spin-retry, and blocking operation was likely
- involved in order to acquire the mutex. This event generally implies
- higher cost / longer delay, and should be investigated if it happens
- often.</para>
- <para><varname>max_wait_time</varname> (<type>uint64_t</type>):
- Maximum length of time in nanoseconds spent on a single wait-acquired
- lock operation. Note that to avoid profiling overhead on the common
- path, this does not consider spin-acquired cases.</para>
- <para><varname>total_wait_time</varname> (<type>uint64_t</type>):
- Cumulative time in nanoseconds spent on wait-acquired lock operations.
- Similarly, spin-acquired cases are not considered.</para>
- <para><varname>max_num_thds</varname> (<type>uint32_t</type>): Maximum
- number of threads waiting on this mutex simultaneously. Similarly,
- spin-acquired cases are not considered.</para>
- <para><varname>num_owner_switch</varname> (<type>uint64_t</type>):
- Number of times the current mutex owner is different from the previous
- one. This event does not generally imply an issue; rather it is an
- indicator of how often the protected data are accessed by different
- threads.
- </para>
- </listitem>
- </varlistentry>
- </listitem>
- </varlistentry>
- <varlistentry id="stats.mutexes.background_thread">
- <term>
- <mallctl>stats.mutexes.background_thread.{counter}</mallctl>
- (<type>counter specific type</type>) <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Statistics on <varname>background_thread</varname> mutex
- (global scope; <link
- linkend="background_thread"><mallctl>background_thread</mallctl></link>
- related). <mallctl>{counter}</mallctl> is one of the counters in <link
- linkend="mutex_counters">mutex profiling
- counters</link>.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.mutexes.prof">
- <term>
- <mallctl>stats.mutexes.prof.{counter}</mallctl>
- (<type>counter specific type</type>) <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Statistics on <varname>prof</varname> mutex (global
- scope; profiling related). <mallctl>{counter}</mallctl> is one of the
- counters in <link linkend="mutex_counters">mutex profiling
- counters</link>.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.mutexes.prof_thds_data">
- <term>
- <mallctl>stats.mutexes.prof_thds_data.{counter}</mallctl>
- (<type>counter specific type</type>) <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Statistics on <varname>prof</varname> threads data mutex
- (global scope; profiling related). <mallctl>{counter}</mallctl> is one
- of the counters in <link linkend="mutex_counters">mutex profiling
- counters</link>.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.mutexes.prof_dump">
- <term>
- <mallctl>stats.mutexes.prof_dump.{counter}</mallctl>
- (<type>counter specific type</type>) <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Statistics on <varname>prof</varname> dumping mutex
- (global scope; profiling related). <mallctl>{counter}</mallctl> is one
- of the counters in <link linkend="mutex_counters">mutex profiling
- counters</link>.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.mutexes.reset">
- <term>
- <mallctl>stats.mutexes.reset</mallctl>
- (<type>void</type>) <literal>--</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Reset all mutex profile statistics, including global
- mutexes, arena mutexes and bin mutexes.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.dss">
- <term>
- <mallctl>stats.arenas.<i>.dss</mallctl>
- (<type>const char *</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>dss (<citerefentry><refentrytitle>sbrk</refentrytitle>
- <manvolnum>2</manvolnum></citerefentry>) allocation precedence as
- related to <citerefentry><refentrytitle>mmap</refentrytitle>
- <manvolnum>2</manvolnum></citerefentry> allocation. See <link
- linkend="opt.dss"><mallctl>opt.dss</mallctl></link> for details.
- </para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.dirty_decay_ms">
- <term>
- <mallctl>stats.arenas.<i>.dirty_decay_ms</mallctl>
- (<type>ssize_t</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Approximate time in milliseconds from the creation of a
- set of unused dirty pages until an equivalent set of unused dirty pages
- is purged and/or reused. See <link
- linkend="opt.dirty_decay_ms"><mallctl>opt.dirty_decay_ms</mallctl></link>
- for details.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.muzzy_decay_ms">
- <term>
- <mallctl>stats.arenas.<i>.muzzy_decay_ms</mallctl>
- (<type>ssize_t</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Approximate time in milliseconds from the creation of a
- set of unused muzzy pages until an equivalent set of unused muzzy pages
- is purged and/or reused. See <link
- linkend="opt.muzzy_decay_ms"><mallctl>opt.muzzy_decay_ms</mallctl></link>
- for details.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.nthreads">
- <term>
- <mallctl>stats.arenas.<i>.nthreads</mallctl>
- (<type>unsigned</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Number of threads currently assigned to
- arena.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.uptime">
- <term>
- <mallctl>stats.arenas.<i>.uptime</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Time elapsed (in nanoseconds) since the arena was
- created. If <i> equals <constant>0</constant> or
- <constant>MALLCTL_ARENAS_ALL</constant>, this is the uptime since malloc
- initialization.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.pactive">
- <term>
- <mallctl>stats.arenas.<i>.pactive</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Number of pages in active extents.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.pdirty">
- <term>
- <mallctl>stats.arenas.<i>.pdirty</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Number of pages within unused extents that are
- potentially dirty, and for which <function>madvise()</function> or
- similar has not been called. See <link
- linkend="opt.dirty_decay_ms"><mallctl>opt.dirty_decay_ms</mallctl></link>
- for a description of dirty pages.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.pmuzzy">
- <term>
- <mallctl>stats.arenas.<i>.pmuzzy</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Number of pages within unused extents that are muzzy.
- See <link
- linkend="opt.muzzy_decay_ms"><mallctl>opt.muzzy_decay_ms</mallctl></link>
- for a description of muzzy pages.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.mapped">
- <term>
- <mallctl>stats.arenas.<i>.mapped</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Number of mapped bytes.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.retained">
- <term>
- <mallctl>stats.arenas.<i>.retained</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Number of retained bytes. See <link
- linkend="stats.retained"><mallctl>stats.retained</mallctl></link> for
- details.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.extent_avail">
- <term>
- <mallctl>stats.arenas.<i>.extent_avail</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Number of allocated (but unused) extent structs in this
- arena.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.base">
- <term>
- <mallctl>stats.arenas.<i>.base</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>
- Number of bytes dedicated to bootstrap-sensitive allocator metadata
- structures.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.internal">
- <term>
- <mallctl>stats.arenas.<i>.internal</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Number of bytes dedicated to internal allocations.
- Internal allocations differ from application-originated allocations in
- that they are for internal use, and that they are omitted from heap
- profiles.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.metadata_thp">
- <term>
- <mallctl>stats.arenas.<i>.metadata_thp</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Number of transparent huge pages (THP) used for
- metadata. See <link linkend="opt.metadata_thp">opt.metadata_thp</link>
- for details.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.resident">
- <term>
- <mallctl>stats.arenas.<i>.resident</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Maximum number of bytes in physically resident data
- pages mapped by the arena, comprising all pages dedicated to allocator
- metadata, pages backing active allocations, and unused dirty pages.
- This is a maximum rather than precise because pages may not actually be
- physically resident if they correspond to demand-zeroed virtual memory
- that has not yet been touched. This is a multiple of the page
- size.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.dirty_npurge">
- <term>
- <mallctl>stats.arenas.<i>.dirty_npurge</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Number of dirty page purge sweeps performed.
- </para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.dirty_nmadvise">
- <term>
- <mallctl>stats.arenas.<i>.dirty_nmadvise</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Number of <function>madvise()</function> or similar
- calls made to purge dirty pages.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.dirty_purged">
- <term>
- <mallctl>stats.arenas.<i>.dirty_purged</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Number of dirty pages purged.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.muzzy_npurge">
- <term>
- <mallctl>stats.arenas.<i>.muzzy_npurge</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Number of muzzy page purge sweeps performed.
- </para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.muzzy_nmadvise">
- <term>
- <mallctl>stats.arenas.<i>.muzzy_nmadvise</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Number of <function>madvise()</function> or similar
- calls made to purge muzzy pages.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.muzzy_purged">
- <term>
- <mallctl>stats.arenas.<i>.muzzy_purged</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Number of muzzy pages purged.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.small.allocated">
- <term>
- <mallctl>stats.arenas.<i>.small.allocated</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Number of bytes currently allocated by small objects.
- </para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.small.nmalloc">
- <term>
- <mallctl>stats.arenas.<i>.small.nmalloc</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Cumulative number of times a small allocation was
- requested from the arena's bins, whether to fill the relevant tcache if
- <link linkend="opt.tcache"><mallctl>opt.tcache</mallctl></link> is
- enabled, or to directly satisfy an allocation request
- otherwise.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.small.ndalloc">
- <term>
- <mallctl>stats.arenas.<i>.small.ndalloc</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Cumulative number of times a small allocation was
- returned to the arena's bins, whether to flush the relevant tcache if
- <link linkend="opt.tcache"><mallctl>opt.tcache</mallctl></link> is
- enabled, or to directly deallocate an allocation
- otherwise.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.small.nrequests">
- <term>
- <mallctl>stats.arenas.<i>.small.nrequests</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Cumulative number of allocation requests satisfied by
- all bin size classes.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.small.nfills">
- <term>
- <mallctl>stats.arenas.<i>.small.nfills</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Cumulative number of tcache fills by all small size
- classes.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.small.nflushes">
- <term>
- <mallctl>stats.arenas.<i>.small.nflushes</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Cumulative number of tcache flushes by all small size
- classes.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.large.allocated">
- <term>
- <mallctl>stats.arenas.<i>.large.allocated</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Number of bytes currently allocated by large objects.
- </para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.large.nmalloc">
- <term>
- <mallctl>stats.arenas.<i>.large.nmalloc</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Cumulative number of times a large extent was allocated
- from the arena, whether to fill the relevant tcache if <link
- linkend="opt.tcache"><mallctl>opt.tcache</mallctl></link> is enabled and
- the size class is within the range being cached, or to directly satisfy
- an allocation request otherwise.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.large.ndalloc">
- <term>
- <mallctl>stats.arenas.<i>.large.ndalloc</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Cumulative number of times a large extent was returned
- to the arena, whether to flush the relevant tcache if <link
- linkend="opt.tcache"><mallctl>opt.tcache</mallctl></link> is enabled and
- the size class is within the range being cached, or to directly
- deallocate an allocation otherwise.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.large.nrequests">
- <term>
- <mallctl>stats.arenas.<i>.large.nrequests</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Cumulative number of allocation requests satisfied by
- all large size classes.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.large.nfills">
- <term>
- <mallctl>stats.arenas.<i>.large.nfills</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Cumulative number of tcache fills by all large size
- classes.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.large.nflushes">
- <term>
- <mallctl>stats.arenas.<i>.large.nflushes</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Cumulative number of tcache flushes by all large size
- classes.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.bins.j.nmalloc">
- <term>
- <mallctl>stats.arenas.<i>.bins.<j>.nmalloc</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Cumulative number of times a bin region of the
- corresponding size class was allocated from the arena, whether to fill
- the relevant tcache if <link
- linkend="opt.tcache"><mallctl>opt.tcache</mallctl></link> is enabled, or
- to directly satisfy an allocation request otherwise.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.bins.j.ndalloc">
- <term>
- <mallctl>stats.arenas.<i>.bins.<j>.ndalloc</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Cumulative number of times a bin region of the
- corresponding size class was returned to the arena, whether to flush the
- relevant tcache if <link
- linkend="opt.tcache"><mallctl>opt.tcache</mallctl></link> is enabled, or
- to directly deallocate an allocation otherwise.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.bins.j.nrequests">
- <term>
- <mallctl>stats.arenas.<i>.bins.<j>.nrequests</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Cumulative number of allocation requests satisfied by
- bin regions of the corresponding size class.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.bins.j.curregs">
- <term>
- <mallctl>stats.arenas.<i>.bins.<j>.curregs</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Current number of regions for this size
- class.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.bins.j.nfills">
- <term>
- <mallctl>stats.arenas.<i>.bins.<j>.nfills</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Cumulative number of tcache fills.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.bins.j.nflushes">
- <term>
- <mallctl>stats.arenas.<i>.bins.<j>.nflushes</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- </term>
- <listitem><para>Cumulative number of tcache flushes.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.bins.j.nslabs">
- <term>
- <mallctl>stats.arenas.<i>.bins.<j>.nslabs</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Cumulative number of slabs created.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.bins.j.nreslabs">
- <term>
- <mallctl>stats.arenas.<i>.bins.<j>.nreslabs</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Cumulative number of times the current slab from which
- to allocate changed.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.bins.j.curslabs">
- <term>
- <mallctl>stats.arenas.<i>.bins.<j>.curslabs</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Current number of slabs.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.bins.j.nonfull_slabs">
- <term>
- <mallctl>stats.arenas.<i>.bins.<j>.nonfull_slabs</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Current number of nonfull slabs.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.bins.mutex">
- <term>
- <mallctl>stats.arenas.<i>.bins.<j>.mutex.{counter}</mallctl>
- (<type>counter specific type</type>) <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Statistics on
- <varname>arena.<i>.bins.<j></varname> mutex (arena bin
- scope; bin operation related). <mallctl>{counter}</mallctl> is one of
- the counters in <link linkend="mutex_counters">mutex profiling
- counters</link>.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.extents.n">
- <term>
- <mallctl>stats.arenas.<i>.extents.<j>.n{extent_type}</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para> Number of extents of the given type in this arena in
- the bucket corresponding to page size index <j>. The extent type
- is one of dirty, muzzy, or retained.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.extents.bytes">
- <term>
- <mallctl>stats.arenas.<i>.extents.<j>.{extent_type}_bytes</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para> Sum of the bytes managed by extents of the given type
- in this arena in the bucket corresponding to page size index <j>.
- The extent type is one of dirty, muzzy, or retained.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.lextents.j.nmalloc">
- <term>
- <mallctl>stats.arenas.<i>.lextents.<j>.nmalloc</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Cumulative number of times a large extent of the
- corresponding size class was allocated from the arena, whether to fill
- the relevant tcache if <link
- linkend="opt.tcache"><mallctl>opt.tcache</mallctl></link> is enabled and
- the size class is within the range being cached, or to directly satisfy
- an allocation request otherwise.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.lextents.j.ndalloc">
- <term>
- <mallctl>stats.arenas.<i>.lextents.<j>.ndalloc</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Cumulative number of times a large extent of the
- corresponding size class was returned to the arena, whether to flush the
- relevant tcache if <link
- linkend="opt.tcache"><mallctl>opt.tcache</mallctl></link> is enabled and
- the size class is within the range being cached, or to directly
- deallocate an allocation otherwise.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.lextents.j.nrequests">
- <term>
- <mallctl>stats.arenas.<i>.lextents.<j>.nrequests</mallctl>
- (<type>uint64_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Cumulative number of allocation requests satisfied by
- large extents of the corresponding size class.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.lextents.j.curlextents">
- <term>
- <mallctl>stats.arenas.<i>.lextents.<j>.curlextents</mallctl>
- (<type>size_t</type>)
- <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Current number of large allocations for this size class.
- </para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.mutexes.large">
- <term>
- <mallctl>stats.arenas.<i>.mutexes.large.{counter}</mallctl>
- (<type>counter specific type</type>) <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Statistics on <varname>arena.<i>.large</varname>
- mutex (arena scope; large allocation related).
- <mallctl>{counter}</mallctl> is one of the counters in <link
- linkend="mutex_counters">mutex profiling
- counters</link>.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.mutexes.extent_avail">
- <term>
- <mallctl>stats.arenas.<i>.mutexes.extent_avail.{counter}</mallctl>
- (<type>counter specific type</type>) <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Statistics on <varname>arena.<i>.extent_avail
- </varname> mutex (arena scope; extent avail related).
- <mallctl>{counter}</mallctl> is one of the counters in <link
- linkend="mutex_counters">mutex profiling
- counters</link>.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.mutexes.extents_dirty">
- <term>
- <mallctl>stats.arenas.<i>.mutexes.extents_dirty.{counter}</mallctl>
- (<type>counter specific type</type>) <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Statistics on <varname>arena.<i>.extents_dirty
- </varname> mutex (arena scope; dirty extents related).
- <mallctl>{counter}</mallctl> is one of the counters in <link
- linkend="mutex_counters">mutex profiling
- counters</link>.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.mutexes.extents_muzzy">
- <term>
- <mallctl>stats.arenas.<i>.mutexes.extents_muzzy.{counter}</mallctl>
- (<type>counter specific type</type>) <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Statistics on <varname>arena.<i>.extents_muzzy
- </varname> mutex (arena scope; muzzy extents related).
- <mallctl>{counter}</mallctl> is one of the counters in <link
- linkend="mutex_counters">mutex profiling
- counters</link>.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.mutexes.extents_retained">
- <term>
- <mallctl>stats.arenas.<i>.mutexes.extents_retained.{counter}</mallctl>
- (<type>counter specific type</type>) <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Statistics on <varname>arena.<i>.extents_retained
- </varname> mutex (arena scope; retained extents related).
- <mallctl>{counter}</mallctl> is one of the counters in <link
- linkend="mutex_counters">mutex profiling
- counters</link>.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.mutexes.decay_dirty">
- <term>
- <mallctl>stats.arenas.<i>.mutexes.decay_dirty.{counter}</mallctl>
- (<type>counter specific type</type>) <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Statistics on <varname>arena.<i>.decay_dirty
- </varname> mutex (arena scope; decay for dirty pages related).
- <mallctl>{counter}</mallctl> is one of the counters in <link
- linkend="mutex_counters">mutex profiling
- counters</link>.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.mutexes.decay_muzzy">
- <term>
- <mallctl>stats.arenas.<i>.mutexes.decay_muzzy.{counter}</mallctl>
- (<type>counter specific type</type>) <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Statistics on <varname>arena.<i>.decay_muzzy
- </varname> mutex (arena scope; decay for muzzy pages related).
- <mallctl>{counter}</mallctl> is one of the counters in <link
- linkend="mutex_counters">mutex profiling
- counters</link>.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.mutexes.base">
- <term>
- <mallctl>stats.arenas.<i>.mutexes.base.{counter}</mallctl>
- (<type>counter specific type</type>) <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Statistics on <varname>arena.<i>.base</varname>
- mutex (arena scope; base allocator related).
- <mallctl>{counter}</mallctl> is one of the counters in <link
- linkend="mutex_counters">mutex profiling
- counters</link>.</para></listitem>
- </varlistentry>
- <varlistentry id="stats.arenas.i.mutexes.tcache_list">
- <term>
- <mallctl>stats.arenas.<i>.mutexes.tcache_list.{counter}</mallctl>
- (<type>counter specific type</type>) <literal>r-</literal>
- [<option>--enable-stats</option>]
- </term>
- <listitem><para>Statistics on
- <varname>arena.<i>.tcache_list</varname> mutex (arena scope;
- tcache to arena association related). This mutex is expected to be
- accessed less often. <mallctl>{counter}</mallctl> is one of the
- counters in <link linkend="mutex_counters">mutex profiling
- counters</link>.</para></listitem>
- </varlistentry>
- </variablelist>
- </refsect1>
- <refsect1 id="heap_profile_format">
- <title>HEAP PROFILE FORMAT</title>
- <para>Although the heap profiling functionality was originally designed to
- be compatible with the
- <command>pprof</command> command that is developed as part of the <ulink
- url="http://code.google.com/p/gperftools/">gperftools
- package</ulink>, the addition of per thread heap profiling functionality
- required a different heap profile format. The <command>jeprof</command>
- command is derived from <command>pprof</command>, with enhancements to
- support the heap profile format described here.</para>
- <para>In the following hypothetical heap profile, <constant>[...]</constant>
- indicates elision for the sake of compactness. <programlisting><![CDATA[
- heap_v2/524288
- t*: 28106: 56637512 [0: 0]
- [...]
- t3: 352: 16777344 [0: 0]
- [...]
- t99: 17754: 29341640 [0: 0]
- [...]
- @ 0x5f86da8 0x5f5a1dc [...] 0x29e4d4e 0xa200316 0xabb2988 [...]
- t*: 13: 6688 [0: 0]
- t3: 12: 6496 [0: 0]
- t99: 1: 192 [0: 0]
- [...]
- MAPPED_LIBRARIES:
- [...]]]></programlisting> The following matches the above heap profile, but most
- tokens are replaced with <constant><description></constant> to indicate
- descriptions of the corresponding fields. <programlisting><![CDATA[
- <heap_profile_format_version>/<mean_sample_interval>
- <aggregate>: <curobjs>: <curbytes> [<cumobjs>: <cumbytes>]
- [...]
- <thread_3_aggregate>: <curobjs>: <curbytes> [<cumobjs>: <cumbytes>]
- [...]
- <thread_99_aggregate>: <curobjs>: <curbytes> [<cumobjs>: <cumbytes>]
- [...]
- @ <top_frame> <frame> [...] <frame> <frame> <frame> [...]
- <backtrace_aggregate>: <curobjs>: <curbytes> [<cumobjs>: <cumbytes>]
- <backtrace_thread_3>: <curobjs>: <curbytes> [<cumobjs>: <cumbytes>]
- <backtrace_thread_99>: <curobjs>: <curbytes> [<cumobjs>: <cumbytes>]
- [...]
- MAPPED_LIBRARIES:
- </proc/<pid>/maps>]]></programlisting></para>
- </refsect1>
- <refsect1 id="debugging_malloc_problems">
- <title>DEBUGGING MALLOC PROBLEMS</title>
- <para>When debugging, it is a good idea to configure/build jemalloc with
- the <option>--enable-debug</option> and <option>--enable-fill</option>
- options, and recompile the program with suitable options and symbols for
- debugger support. When so configured, jemalloc incorporates a wide variety
- of run-time assertions that catch application errors such as double-free,
- write-after-free, etc.</para>
- <para>Programs often accidentally depend on <quote>uninitialized</quote>
- memory actually being filled with zero bytes. Junk filling
- (see the <link linkend="opt.junk"><mallctl>opt.junk</mallctl></link>
- option) tends to expose such bugs in the form of obviously incorrect
- results and/or coredumps. Conversely, zero
- filling (see the <link
- linkend="opt.zero"><mallctl>opt.zero</mallctl></link> option) eliminates
- the symptoms of such bugs. Between these two options, it is usually
- possible to quickly detect, diagnose, and eliminate such bugs.</para>
- <para>This implementation does not provide much detail about the problems
- it detects, because the performance impact for storing such information
- would be prohibitive.</para>
- </refsect1>
- <refsect1 id="diagnostic_messages">
- <title>DIAGNOSTIC MESSAGES</title>
- <para>If any of the memory allocation/deallocation functions detect an
- error or warning condition, a message will be printed to file descriptor
- <constant>STDERR_FILENO</constant>. Errors will result in the process
- dumping core. If the <link
- linkend="opt.abort"><mallctl>opt.abort</mallctl></link> option is set, most
- warnings are treated as errors.</para>
- <para>The <varname>malloc_message</varname> variable allows the programmer
- to override the function which emits the text strings forming the errors
- and warnings if for some reason the <constant>STDERR_FILENO</constant> file
- descriptor is not suitable for this.
- <function>malloc_message()</function> takes the
- <parameter>cbopaque</parameter> pointer argument that is
- <constant>NULL</constant> unless overridden by the arguments in a call to
- <function>malloc_stats_print()</function>, followed by a string
- pointer. Please note that doing anything which tries to allocate memory in
- this function is likely to result in a crash or deadlock.</para>
- <para>All messages are prefixed by
- <quote><computeroutput><jemalloc>: </computeroutput></quote>.</para>
- </refsect1>
- <refsect1 id="return_values">
- <title>RETURN VALUES</title>
- <refsect2>
- <title>Standard API</title>
- <para>The <function>malloc()</function> and
- <function>calloc()</function> functions return a pointer to the
- allocated memory if successful; otherwise a <constant>NULL</constant>
- pointer is returned and <varname>errno</varname> is set to
- <errorname>ENOMEM</errorname>.</para>
- <para>The <function>posix_memalign()</function> function
- returns the value 0 if successful; otherwise it returns an error value.
- The <function>posix_memalign()</function> function will fail
- if:
- <variablelist>
- <varlistentry>
- <term><errorname>EINVAL</errorname></term>
- <listitem><para>The <parameter>alignment</parameter> parameter is
- not a power of 2 at least as large as
- <code language="C">sizeof(<type>void *</type>)</code>.
- </para></listitem>
- </varlistentry>
- <varlistentry>
- <term><errorname>ENOMEM</errorname></term>
- <listitem><para>Memory allocation error.</para></listitem>
- </varlistentry>
- </variablelist>
- </para>
- <para>The <function>aligned_alloc()</function> function returns
- a pointer to the allocated memory if successful; otherwise a
- <constant>NULL</constant> pointer is returned and
- <varname>errno</varname> is set. The
- <function>aligned_alloc()</function> function will fail if:
- <variablelist>
- <varlistentry>
- <term><errorname>EINVAL</errorname></term>
- <listitem><para>The <parameter>alignment</parameter> parameter is
- not a power of 2.
- </para></listitem>
- </varlistentry>
- <varlistentry>
- <term><errorname>ENOMEM</errorname></term>
- <listitem><para>Memory allocation error.</para></listitem>
- </varlistentry>
- </variablelist>
- </para>
- <para>The <function>realloc()</function> function returns a
- pointer, possibly identical to <parameter>ptr</parameter>, to the
- allocated memory if successful; otherwise a <constant>NULL</constant>
- pointer is returned, and <varname>errno</varname> is set to
- <errorname>ENOMEM</errorname> if the error was the result of an
- allocation failure. The <function>realloc()</function>
- function always leaves the original buffer intact when an error occurs.
- </para>
- <para>The <function>free()</function> function returns no
- value.</para>
- </refsect2>
- <refsect2>
- <title>Non-standard API</title>
- <para>The <function>mallocx()</function> and
- <function>rallocx()</function> functions return a pointer to
- the allocated memory if successful; otherwise a <constant>NULL</constant>
- pointer is returned to indicate insufficient contiguous memory was
- available to service the allocation request. </para>
- <para>The <function>xallocx()</function> function returns the
- real size of the resulting resized allocation pointed to by
- <parameter>ptr</parameter>, which is a value less than
- <parameter>size</parameter> if the allocation could not be adequately
- grown in place. </para>
- <para>The <function>sallocx()</function> function returns the
- real size of the allocation pointed to by <parameter>ptr</parameter>.
- </para>
- <para>The <function>nallocx()</function> returns the real size
- that would result from a successful equivalent
- <function>mallocx()</function> function call, or zero if
- insufficient memory is available to perform the size computation. </para>
- <para>The <function>mallctl()</function>,
- <function>mallctlnametomib()</function>, and
- <function>mallctlbymib()</function> functions return 0 on
- success; otherwise they return an error value. The functions will fail
- if:
- <variablelist>
- <varlistentry>
- <term><errorname>EINVAL</errorname></term>
- <listitem><para><parameter>newp</parameter> is not
- <constant>NULL</constant>, and <parameter>newlen</parameter> is too
- large or too small. Alternatively, <parameter>*oldlenp</parameter>
- is too large or too small; when it happens, except for a very few
- cases explicitly documented otherwise, as much data as possible
- are read despite the error, with the amount of data read being
- recorded in <parameter>*oldlenp</parameter>.</para></listitem>
- </varlistentry>
- <varlistentry>
- <term><errorname>ENOENT</errorname></term>
- <listitem><para><parameter>name</parameter> or
- <parameter>mib</parameter> specifies an unknown/invalid
- value.</para></listitem>
- </varlistentry>
- <varlistentry>
- <term><errorname>EPERM</errorname></term>
- <listitem><para>Attempt to read or write void value, or attempt to
- write read-only value.</para></listitem>
- </varlistentry>
- <varlistentry>
- <term><errorname>EAGAIN</errorname></term>
- <listitem><para>A memory allocation failure
- occurred.</para></listitem>
- </varlistentry>
- <varlistentry>
- <term><errorname>EFAULT</errorname></term>
- <listitem><para>An interface with side effects failed in some way
- not directly related to <function>mallctl*()</function>
- read/write processing.</para></listitem>
- </varlistentry>
- </variablelist>
- </para>
- <para>The <function>malloc_usable_size()</function> function
- returns the usable size of the allocation pointed to by
- <parameter>ptr</parameter>. </para>
- </refsect2>
- </refsect1>
- <refsect1 id="environment">
- <title>ENVIRONMENT</title>
- <para>The following environment variable affects the execution of the
- allocation functions:
- <variablelist>
- <varlistentry>
- <term><envar>MALLOC_CONF</envar></term>
- <listitem><para>If the environment variable
- <envar>MALLOC_CONF</envar> is set, the characters it contains
- will be interpreted as options.</para></listitem>
- </varlistentry>
- </variablelist>
- </para>
- </refsect1>
- <refsect1 id="examples">
- <title>EXAMPLES</title>
- <para>To dump core whenever a problem occurs:
- <screen>ln -s 'abort:true' /etc/malloc.conf</screen>
- </para>
- <para>To specify in the source that only one arena should be automatically
- created:
- <programlisting language="C"><![CDATA[
- malloc_conf = "narenas:1";]]></programlisting></para>
- </refsect1>
- <refsect1 id="see_also">
- <title>SEE ALSO</title>
- <para><citerefentry><refentrytitle>madvise</refentrytitle>
- <manvolnum>2</manvolnum></citerefentry>,
- <citerefentry><refentrytitle>mmap</refentrytitle>
- <manvolnum>2</manvolnum></citerefentry>,
- <citerefentry><refentrytitle>sbrk</refentrytitle>
- <manvolnum>2</manvolnum></citerefentry>,
- <citerefentry><refentrytitle>utrace</refentrytitle>
- <manvolnum>2</manvolnum></citerefentry>,
- <citerefentry><refentrytitle>alloca</refentrytitle>
- <manvolnum>3</manvolnum></citerefentry>,
- <citerefentry><refentrytitle>atexit</refentrytitle>
- <manvolnum>3</manvolnum></citerefentry>,
- <citerefentry><refentrytitle>getpagesize</refentrytitle>
- <manvolnum>3</manvolnum></citerefentry></para>
- </refsect1>
- <refsect1 id="standards">
- <title>STANDARDS</title>
- <para>The <function>malloc()</function>,
- <function>calloc()</function>,
- <function>realloc()</function>, and
- <function>free()</function> functions conform to ISO/IEC
- 9899:1990 (<quote>ISO C90</quote>).</para>
- <para>The <function>posix_memalign()</function> function conforms
- to IEEE Std 1003.1-2001 (<quote>POSIX.1</quote>).</para>
- </refsect1>
- </refentry>
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