noble (2) remap_file_pages.2.gz

Provided by: manpages-dev_6.7-2_all bug

NAME

       remap_file_pages - create a nonlinear file mapping

LIBRARY

       Standard C library (libc, -lc)

SYNOPSIS

       #define _GNU_SOURCE         /* See feature_test_macros(7) */
       #include <sys/mman.h>

       [[deprecated]] int remap_file_pages(void addr[.size], size_t size,
                                           int prot, size_t pgoff, int flags);

DESCRIPTION

       Note:  this  system  call  was  marked  as  deprecated  starting  with  Linux  3.16.   In  Linux 4.0, the
       implementation was replaced by a slower in-kernel emulation.  Those few applications that use this system
       call  should  consider  migrating to alternatives.  This change was made because the kernel code for this
       system call was complex, and it is believed to be little used or perhaps even completely  unused.   While
       it  had  some use cases in database applications on 32-bit systems, those use cases don't exist on 64-bit
       systems.

       The remap_file_pages() system call is used to create a nonlinear mapping, that is, a mapping in which the
       pages  of  the  file  are  mapped  into  a  nonsequential  order  in  memory.   The  advantage  of  using
       remap_file_pages() over using repeated calls to mmap(2) is that the former approach does not require  the
       kernel to create additional VMA (Virtual Memory Area) data structures.

       To create a nonlinear mapping we perform the following steps:

       1. Use  mmap(2)  to  create a mapping (which is initially linear).  This mapping must be created with the
          MAP_SHARED flag.

       2. Use one or more calls to remap_file_pages() to rearrange the correspondence between the pages  of  the
          mapping  and  the  pages  of  the  file.   It is possible to map the same page of a file into multiple
          locations within the mapped region.

       The pgoff and size arguments specify the region of the file that is to be relocated within  the  mapping:
       pgoff is a file offset in units of the system page size; size is the length of the region in bytes.

       The  addr  argument  serves  two  purposes.   First,  it  identifies  the  mapping whose pages we want to
       rearrange.  Thus, addr must be an address that falls within a region  previously  mapped  by  a  call  to
       mmap(2).  Second, addr specifies the address at which the file pages identified by pgoff and size will be
       placed.

       The values specified in addr and size should be multiples of the system page size.  If they are not, then
       the kernel rounds both values down to the nearest multiple of the page size.

       The prot argument must be specified as 0.

       The  flags  argument  has  the  same  meaning  as  for mmap(2), but all flags other than MAP_NONBLOCK are
       ignored.

RETURN VALUE

       On success, remap_file_pages() returns 0.  On error, -1 is returned, and errno is  set  to  indicate  the
       error.

ERRORS

       EINVAL addr does not refer to a valid mapping created with the MAP_SHARED flag.

       EINVAL addr, size, prot, or pgoff is invalid.

STANDARDS

       Linux.

HISTORY

       Linux 2.5.46, glibc 2.3.3.

NOTES

       Since  Linux 2.6.23, remap_file_pages() creates non-linear mappings only on in-memory filesystems such as
       tmpfs(5), hugetlbfs or ramfs.  On filesystems with a backing store, remap_file_pages() is not  much  more
       efficient than using mmap(2) to adjust which parts of the file are mapped to which addresses.

SEE ALSO

       getpagesize(2), mmap(2), mmap2(2), mprotect(2), mremap(2), msync(2)