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Man page of MADVISE
MADVISE
Section: Linux Programmer's Manual (2)
Updated: 2016-10-08
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NAME
madvise - give advice about use of memory
SYNOPSIS
#include <sys/mman.h>
int madvise(void *addr, size_t length, int advice);
Feature Test Macro Requirements for glibc (see
feature_test_macros(7)):
madvise():
-
- Since glibc 2.19:
-
_DEFAULT_SOURCE
- Up to and including glibc 2.19:
-
_BSD_SOURCE
DESCRIPTION
The
madvise()
system call is used to give advice or directions to the kernel
about the address range beginning at address
addr
and with size
length
bytes.
Initially, the system call supported a set of "conventional"
advice
values, which are also available on several other implementations.
(Note, though, that
madvise()
is not specified in POSIX.)
Subsequently, a number of Linux-specific
advice
values have been added.
Conventional advice values
The
advice
values listed below
allow an application to tell the kernel how it expects to use
some mapped or shared memory areas, so that the kernel can choose
appropriate read-ahead and caching techniques.
These
advice
values do not influence the semantics of the application
(except in the case of
MADV_DONTNEED),
but may influence its performance.
All of the
advice
values listed here have analogs in the POSIX-specified
posix_madvise(3)
function, and the values have the same meanings, with the exception of
MADV_DONTNEED.
The advice is indicated in the
advice
argument, which is one of the following:
- MADV_NORMAL
-
No special treatment.
This is the default.
- MADV_RANDOM
-
Expect page references in random order.
(Hence, read ahead may be less useful than normally.)
- MADV_SEQUENTIAL
-
Expect page references in sequential order.
(Hence, pages in the given range can be aggressively read ahead,
and may be freed soon after they are accessed.)
- MADV_WILLNEED
-
Expect access in the near future.
(Hence, it might be a good idea to read some pages ahead.)
- MADV_DONTNEED
-
Do not expect access in the near future.
(For the time being, the application is finished with the given range,
so the kernel can free resources associated with it.)
After a successful
MADV_DONTNEED
operation,
the semantics of memory access in the specified region are changed:
subsequent accesses of pages in the range will succeed, but will result
in either repopulating the memory contents from the
up-to-date contents of the underlying mapped file
(for shared file mappings, shared anonymous mappings,
and shmem-based techniques such as System V shared memory segments)
or zero-fill-on-demand pages for anonymous private mappings.
Note that, when applied to shared mappings,
MADV_DONTNEED
might not lead to immediate freeing of the pages in the range.
The kernel is free to delay freeing the pages until an appropriate moment.
The resident set size (RSS) of the calling process will be immediately
reduced however.
MADV_DONTNEED
cannot be applied to locked pages, Huge TLB pages, or
VM_PFNMAP
pages.
(Pages marked with the kernel-internal
VM_PFNMAP
flag are special memory areas that are not managed
by the virtual memory subsystem.
Such pages are typically created by device drivers that
map the pages into user space.)
Linux-specific advice values
The following Linux-specific
advice
values have no counterparts in the POSIX-specified
posix_madvise(3),
and may or may not have counterparts in the
madvise()
interface available on other implementations.
Note that some of these operations change the semantics of memory accesses.
- MADV_REMOVE (since Linux 2.6.16)
-
Free up a given range of pages
and its associated backing store.
This is equivalent to punching a hole in the corresponding byte
range of the backing store (see
fallocate(2)).
Subsequent accesses in the specified address range will see
bytes containing zero.
The specified address range must be mapped shared and writable.
This flag cannot be applied to locked pages, Huge TLB pages, or
VM_PFNMAP
pages.
In the initial implementation, only
tmpfs(5)
is supported
MADV_REMOVE;
but since Linux 3.5,
any filesystem which supports the
fallocate(2)
FALLOC_FL_PUNCH_HOLE
mode also supports
MADV_REMOVE.
Hugetlbfs will fail with the error
EINVAL
and other filesystems fail with the error
EOPNOTSUPP.
- MADV_DONTFORK (since Linux 2.6.16)
-
Do not make the pages in this range available to the child after a
fork(2).
This is useful to prevent copy-on-write semantics from changing
the physical location of a page if the parent writes to it after a
fork(2).
(Such page relocations cause problems for hardware that
DMAs into the page.)
- MADV_DOFORK (since Linux 2.6.16)
-
Undo the effect of
MADV_DONTFORK,
restoring the default behavior, whereby a mapping is inherited across
fork(2).
- MADV_HWPOISON (since Linux 2.6.32)
-
Poison the pages in the range specified by
addr
and
length
and handle subsequent references to those pages
like a hardware memory corruption.
This operation is available only for privileged
(CAP_SYS_ADMIN)
processes.
This operation may result in the calling process receiving a
SIGBUS
and the page being unmapped.
This feature is intended for testing of memory error-handling code;
it is available only if the kernel was configured with
CONFIG_MEMORY_FAILURE.
- MADV_MERGEABLE (since Linux 2.6.32)
-
Enable Kernel Samepage Merging (KSM) for the pages in the range specified by
addr
and
length.
The kernel regularly scans those areas of user memory that have
been marked as mergeable,
looking for pages with identical content.
These are replaced by a single write-protected page (which is automatically
copied if a process later wants to update the content of the page).
KSM merges only private anonymous pages (see
mmap(2)).
The KSM feature is intended for applications that generate many
instances of the same data (e.g., virtualization systems such as KVM).
It can consume a lot of processing power; use with care.
See the Linux kernel source file
Documentation/vm/ksm.txt
for more details.
The
MADV_MERGEABLE
and
MADV_UNMERGEABLE
operations are available only if the kernel was configured with
CONFIG_KSM.
- MADV_UNMERGEABLE (since Linux 2.6.32)
-
Undo the effect of an earlier
MADV_MERGEABLE
operation on the specified address range;
KSM unmerges whatever pages it had merged in the address range specified by
addr
and
length.
- MADV_SOFT_OFFLINE (since Linux 2.6.33)
-
Soft offline the pages in the range specified by
addr
and
length.
The memory of each page in the specified range is preserved
(i.e., when next accessed, the same content will be visible,
but in a new physical page frame),
and the original page is offlined
(i.e., no longer used, and taken out of normal memory management).
The effect of the
MADV_SOFT_OFFLINE
operation is invisible to (i.e., does not change the semantics of)
the calling process.
This feature is intended for testing of memory error-handling code;
it is available only if the kernel was configured with
CONFIG_MEMORY_FAILURE.
- MADV_HUGEPAGE (since Linux 2.6.38)
-
Enable Transparent Huge Pages (THP) for pages in the range specified by
addr
and
length.
Currently, Transparent Huge Pages work only with private anonymous pages (see
mmap(2)).
The kernel will regularly scan the areas marked as huge page candidates
to replace them with huge pages.
The kernel will also allocate huge pages directly when the region is
naturally aligned to the huge page size (see
posix_memalign(2)).
This feature is primarily aimed at applications that use large mappings of
data and access large regions of that memory at a time (e.g., virtualization
systems such as QEMU).
It can very easily waste memory (e.g., a 2MB mapping that only ever accesses
1 byte will result in 2MB of wired memory instead of one 4KB page).
See the Linux kernel source file
Documentation/vm/transhuge.txt
for more details.
The
MADV_HUGEPAGE
and
MADV_NOHUGEPAGE
operations are available only if the kernel was configured with
CONFIG_TRANSPARENT_HUGEPAGE.
- MADV_NOHUGEPAGE (since Linux 2.6.38)
-
Ensures that memory in the address range specified by
addr
and
length
will not be collapsed into huge pages.
- MADV_DONTDUMP (since Linux 3.4)
-
Exclude from a core dump those pages in the range specified by
addr
and
length.
This is useful in applications that have large areas of memory
that are known not to be useful in a core dump.
The effect of
MADV_DONTDUMP
takes precedence over the bit mask that is set via the
/proc/[pid]/coredump_filter
file (see
core(5)).
- MADV_DODUMP (since Linux 3.4)
-
Undo the effect of an earlier
MADV_DONTDUMP.
- MADV_FREE (since Linux 4.5)
-
The application no longer requires the pages in the range specified by
addr
and
len.
The kernel can thus free these pages,
but the freeing could be delayed until memory pressure occurs.
For each of the pages that has been marked to be freed
but has not yet been freed,
the free operation will be canceled if the caller writes into the page.
After a successful
MADV_FREE
operation, any stale data (i.e., dirty, unwritten pages) will be lost
when the kernel frees the pages.
However, subsequent writes to pages in the range will succeed
and then kernel cannot free those dirtied pages,
so that the caller can always see just written data.
If there is no subsequent write,
the kernel can free the pages at any time.
Once pages in the range have been freed, the caller will
see zero-fill-on-demand pages upon subsequent page references.
The
MADV_FREE
operation
can be applied only to private anonymous pages (see
mmap(2)).
On a swapless system, freeing pages in a given range happens instantly,
regardless of memory pressure.
RETURN VALUE
On success,
madvise()
returns zero.
On error, it returns -1 and
errno
is set appropriately.
ERRORS
- EACCES
-
advice
is
MADV_REMOVE,
but the specified address range is not a shared writable mapping.
- EAGAIN
-
A kernel resource was temporarily unavailable.
- EBADF
-
The map exists, but the area maps something that isn't a file.
- EINVAL
-
addr
is not page-aligned or
length
is negative.
- EINVAL
-
advice
is not a valid.
- EINVAL
-
advice
is
MADV_DONTNEED
or
MADV_REMOVE
and the specified address range includes locked, Huge TLB pages, or
VM_PFNMAP
pages.
- EINVAL
-
advice
is
MADV_MERGEABLE
or
MADV_UNMERGEABLE,
but the kernel was not configured with
CONFIG_KSM.
- EIO
-
(for
MADV_WILLNEED)
Paging in this area would exceed the process's
maximum resident set size.
- ENOMEM
-
(for
MADV_WILLNEED)
Not enough memory: paging in failed.
- ENOMEM
-
Addresses in the specified range are not currently
mapped, or are outside the address space of the process.
- EPERM
-
advice
is
MADV_HWPOISON,
but the caller does not have the
CAP_SYS_ADMIN
capability.
VERSIONS
Since Linux 3.18,
support for this system call is optional,
depending on the setting of the
CONFIG_ADVISE_SYSCALLS
configuration option.
CONFORMING TO
madvise()
is not specified by any standards.
Versions of this system call, implementing a wide variety of
advice
values, exist on many other implementations.
Other implementations typically implement at least the flags listed
above under
Conventional advice flags,
albeit with some variation in semantics.
POSIX.1-2001 describes
posix_madvise(3)
with constants
POSIX_MADV_NORMAL,
POSIX_MADV_RANDOM,
POSIX_MADV_SEQUENTIAL,
POSIX_MADV_WILLNEED,
and
POSIX_MADV_DONTNEED,
and so on, with behavior close to the similarly named flags listed above.
(POSIX.1-2008 adds a further flag,
POSIX_MADV_NOREUSE,
that has no analog in
madvise().)
NOTES
Linux notes
The Linux implementation requires that the address
addr
be page-aligned, and allows
length
to be zero.
If there are some parts of the specified address range
that are not mapped, the Linux version of
madvise()
ignores them and applies the call to the rest (but returns
ENOMEM
from the system call, as it should).
SEE ALSO
getrlimit(2),
mincore(2),
mmap(2),
mprotect(2),
msync(2),
munmap(2),
prctl(2),
posix_madvise(3),
core(5)
COLOPHON
This page is part of release 4.09 of the Linux
man-pages
project.
A description of the project,
information about reporting bugs,
and the latest version of this page,
can be found at
https://www.kernel.org/doc/man-pages/.
Index
- NAME
-
- SYNOPSIS
-
- DESCRIPTION
-
- Conventional advice values
-
- Linux-specific advice values
-
- RETURN VALUE
-
- ERRORS
-
- VERSIONS
-
- CONFORMING TO
-
- NOTES
-
- Linux notes
-
- SEE ALSO
-
- COLOPHON
-
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Time: 14:28:27 GMT, February 25, 2017