переназначить адрес виртуальной памяти (remap a virtual memory address)
Имя (Name)
mremap - remap a virtual memory address
Синопсис (Synopsis)
#define _GNU_SOURCE /* See feature_test_macros(7) */
#include <sys/mman.h>
void *mremap(void *old_address, size_t old_size,
size_t new_size, int flags, ... /* void *new_address */);
Описание (Description)
mremap() expands (or shrinks) an existing memory mapping,
potentially moving it at the same time (controlled by the flags
argument and the available virtual address space).
old_address is the old address of the virtual memory block that
you want to expand (or shrink). Note that old_address has to be
page aligned. old_size is the old size of the virtual memory
block. new_size is the requested size of the virtual memory
block after the resize. An optional fifth argument, new_address,
may be provided; see the description of MREMAP_FIXED below.
If the value of old_size is zero, and old_address refers to a
shareable mapping (see mmap(2) MAP_SHARED), then mremap() will
create a new mapping of the same pages. new_size will be the
size of the new mapping and the location of the new mapping may
be specified with new_address; see the description of
MREMAP_FIXED below. If a new mapping is requested via this
method, then the MREMAP_MAYMOVE flag must also be specified.
The flags bit-mask argument may be 0, or include the following
flags:
MREMAP_MAYMOVE
By default, if there is not sufficient space to expand a
mapping at its current location, then mremap() fails. If
this flag is specified, then the kernel is permitted to
relocate the mapping to a new virtual address, if
necessary. If the mapping is relocated, then absolute
pointers into the old mapping location become invalid
(offsets relative to the starting address of the mapping
should be employed).
MREMAP_FIXED (since Linux 2.3.31)
This flag serves a similar purpose to the MAP_FIXED flag
of mmap(2). If this flag is specified, then mremap()
accepts a fifth argument, void *new_address, which
specifies a page-aligned address to which the mapping must
be moved. Any previous mapping at the address range
specified by new_address and new_size is unmapped.
If MREMAP_FIXED is specified, then MREMAP_MAYMOVE must
also be specified.
MREMAP_DONTUNMAP (since Linux 5.7)
This flag, which must be used in conjunction with
MREMAP_MAYMOVE, remaps a mapping to a new address but does
not unmap the mapping at old_address.
The MREMAP_DONTUNMAP flag can be used only with private
anonymous mappings (see the description of MAP_PRIVATE and
MAP_ANONYMOUS in mmap(2)).
After completion, any access to the range specified by
old_address and old_size will result in a page fault. The
page fault will be handled by a userfaultfd(2) handler if
the address is in a range previously registered with
userfaultfd(2). Otherwise, the kernel allocates a zero-
filled page to handle the fault.
The MREMAP_DONTUNMAP flag may be used to atomically move a
mapping while leaving the source mapped. See NOTES for
some possible applications of MREMAP_DONTUNMAP.
If the memory segment specified by old_address and old_size is
locked (using mlock(2) or similar), then this lock is maintained
when the segment is resized and/or relocated. As a consequence,
the amount of memory locked by the process may change.
Возвращаемое значение (Return value)
On success mremap() returns a pointer to the new virtual memory
area. On error, the value MAP_FAILED (that is, (void *) -1) is
returned, and errno is set to indicate the error.
Ошибки (Error)
EAGAIN The caller tried to expand a memory segment that is
locked, but this was not possible without exceeding the
RLIMIT_MEMLOCK resource limit.
EFAULT Some address in the range old_address to
old_address+old_size is an invalid virtual memory address
for this process. You can also get EFAULT even if there
exist mappings that cover the whole address space
requested, but those mappings are of different types.
EINVAL An invalid argument was given. Possible causes are:
* old_address was not page aligned;
* a value other than MREMAP_MAYMOVE or MREMAP_FIXED or
MREMAP_DONTUNMAP was specified in flags;
* new_size was zero;
* new_size or new_address was invalid;
* the new address range specified by new_address and
new_size overlapped the old address range specified by
old_address and old_size;
* MREMAP_FIXED or MREMAP_DONTUNMAP was specified without
also specifying MREMAP_MAYMOVE;
* MREMAP_DONTUNMAP was specified, but one or more pages
in the range specified by old_address and old_size were
not private anonymous;
* MREMAP_DONTUNMAP was specified and old_size was not
equal to new_size;
* old_size was zero and old_address does not refer to a
shareable mapping (but see BUGS);
* old_size was zero and the MREMAP_MAYMOVE flag was not
specified.
ENOMEM Not enough memory was available to complete the operation.
Possible causes are:
* The memory area cannot be expanded at the current
virtual address, and the MREMAP_MAYMOVE flag is not set
in flags. Or, there is not enough (virtual) memory
available.
* MREMAP_DONTUNMAP was used causing a new mapping to be
created that would exceed the (virtual) memory
available. Or, it would exceed the maximum number of
allowed mappings.
Стандарты (Conforming to)
This call is Linux-specific, and should not be used in programs
intended to be portable.
Примечание (Note)
mremap() changes the mapping between virtual addresses and memory
pages. This can be used to implement a very efficient
realloc(3).
In Linux, memory is divided into pages. A process has (one or)
several linear virtual memory segments. Each virtual memory
segment has one or more mappings to real memory pages (in the
page table). Each virtual memory segment has its own protection
(access rights), which may cause a segmentation violation
(SIGSEGV) if the memory is accessed incorrectly (e.g., writing to
a read-only segment). Accessing virtual memory outside of the
segments will also cause a segmentation violation.
If mremap() is used to move or expand an area locked with
mlock(2) or equivalent, the mremap() call will make a best effort
to populate the new area but will not fail with ENOMEM if the
area cannot be populated.
Prior to version 2.4, glibc did not expose the definition of
MREMAP_FIXED, and the prototype for mremap() did not allow for
the new_address argument.
MREMAP_DONTUNMAP use cases
Possible applications for MREMAP_DONTUNMAP include:
* Non-cooperative userfaultfd(2): an application can yank out a
virtual address range using MREMAP_DONTUNMAP and then employ a
userfaultfd(2) handler to handle the page faults that
subsequently occur as other threads in the process touch pages
in the yanked range.
* Garbage collection: MREMAP_DONTUNMAP can be used in
conjunction with userfaultfd(2) to implement garbage
collection algorithms (e.g., in a Java virtual machine). Such
an implementation can be cheaper (and simpler) than
conventional garbage collection techniques that involve
marking pages with protection PROT_NONE in conjunction with
the of a SIGSEGV handler to catch accesses to those pages.
Ошибки (баги) (Bugs)
Before Linux 4.14, if old_size was zero and the mapping referred
to by old_address was a private mapping (mmap(2) MAP_PRIVATE),
mremap() created a new private mapping unrelated to the original
mapping. This behavior was unintended and probably unexpected in
user-space applications (since the intention of mremap() is to
create a new mapping based on the original mapping). Since Linux
4.14, mremap() fails with the error EINVAL in this scenario.
Смотри также (See also)
brk(2), getpagesize(2), getrlimit(2), mlock(2), mmap(2), sbrk(2),
malloc(3), realloc(3)
Your favorite text book on operating systems for more information
on paged memory (e.g., Modern Operating Systems by Andrew S.
Tanenbaum, Inside Linux by Randolph Bentson, The Design of the
UNIX Operating System by Maurice J. Bach)
