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NAME

       mbind - set memory policy for a memory range

LIBRARY

       NUMA (Non-Uniform Memory Access) policy library (libnuma, -lnuma)

SYNOPSIS

       #include <numaif.h>

       long mbind(void addr[.len], unsigned long len, int mode,
                  const unsigned long nodemask[(.maxnode + ULONG_WIDTH - 1)
                                               / ULONG_WIDTH],
                  unsigned long maxnode, unsigned int flags);

DESCRIPTION

       mbind()  sets  the  NUMA  memory  policy, which consists of a policy mode and zero or more
       nodes, for the memory range starting with addr and continuing for len bytes.   The  memory
       policy defines from which node memory is allocated.

       If the memory range specified by the addr and len arguments includes an "anonymous" region
       of memory—that is a region of memory created  using  the  mmap(2)  system  call  with  the
       MAP_ANONYMOUS—or  a  memory-mapped  file,  mapped  using  the mmap(2) system call with the
       MAP_PRIVATE flag, pages will be allocated only according to the specified policy when  the
       application  writes  (stores)  to the page.  For anonymous regions, an initial read access
       will use a shared page in the kernel  containing  all  zeros.   For  a  file  mapped  with
       MAP_PRIVATE,  an initial read access will allocate pages according to the memory policy of
       the thread that causes the page to be allocated.  This may not be the thread  that  called
       mbind().

       The  specified  policy will be ignored for any MAP_SHARED mappings in the specified memory
       range.  Rather the pages will be allocated according to the memory policy  of  the  thread
       that  caused  the  page  to  be  allocated.  Again, this may not be the thread that called
       mbind().

       If the specified memory range includes a shared memory region created using the  shmget(2)
       system call and attached using the shmat(2) system call, pages allocated for the anonymous
       or shared memory region will be allocated according to the policy specified, regardless of
       which  process  attached to the shared memory segment causes the allocation.  If, however,
       the shared memory region was created with the SHM_HUGETLB flag, the  huge  pages  will  be
       allocated  according  to the policy specified only if the page allocation is caused by the
       process that calls mbind() for that region.

       By default, mbind() has an effect only for new allocations; if the pages inside the  range
       have  been already touched before setting the policy, then the policy has no effect.  This
       default behavior  may  be  overridden  by  the  MPOL_MF_MOVE  and  MPOL_MF_MOVE_ALL  flags
       described below.

       The   mode   argument  must  specify  one  of  MPOL_DEFAULT,  MPOL_BIND,  MPOL_INTERLEAVE,
       MPOL_WEIGHTED_INTERLEAVE, MPOL_PREFERRED, or MPOL_LOCAL (which  are  described  in  detail
       below).   All  policy  modes except MPOL_DEFAULT require the caller to specify the node or
       nodes to which the mode applies, via the nodemask argument.

       The mode argument may also include an optional mode flag.  The supported mode flags are:

       MPOL_F_NUMA_BALANCING (since Linux 5.15)
              When mode is MPOL_BIND, enable the kernel NUMA balancing for  the  task  if  it  is
              supported  by  the  kernel.   If the flag isn't supported by the kernel, or is used
              with mode other than MPOL_BIND, -1 is returned and errno is set to EINVAL.

       MPOL_F_STATIC_NODES (since Linux-2.6.26)
              A nonempty nodemask specifies physical node IDs.  Linux does not remap the nodemask
              when  the  thread  moves  to  a different cpuset context, nor when the set of nodes
              allowed by the thread's current cpuset context changes.

       MPOL_F_RELATIVE_NODES (since Linux-2.6.26)
              A nonempty nodemask specifies node IDs that are relative to the  set  of  node  IDs
              allowed by the thread's current cpuset.

       nodemask  points  to a bit mask of nodes containing up to maxnode bits.  The bit mask size
       is rounded to the next multiple of sizeof(unsigned long), but the  kernel  will  use  bits
       only  up  to  maxnode.   A NULL value of nodemask or a maxnode value of zero specifies the
       empty set of nodes.  If the value of maxnode is zero, the nodemask  argument  is  ignored.
       Where  a  nodemask is required, it must contain at least one node that is on-line, allowed
       by the thread's current cpuset  context  (unless  the  MPOL_F_STATIC_NODES  mode  flag  is
       specified), and contains memory.

       The mode argument must include one of the following values:

       MPOL_DEFAULT
              This  mode  requests  that  any  nondefault  policy  be  removed, restoring default
              behavior.  When applied to a range of memory via mbind(), this  means  to  use  the
              thread  memory  policy, which may have been set with set_mempolicy(2).  If the mode
              of the thread memory policy is also MPOL_DEFAULT, the  system-wide  default  policy
              will  be  used.   The system-wide default policy allocates pages on the node of the
              CPU that triggers the allocation.   For  MPOL_DEFAULT,  the  nodemask  and  maxnode
              arguments must be specify the empty set of nodes.

       MPOL_BIND
              This  mode  specifies a strict policy that restricts memory allocation to the nodes
              specified in nodemask.  If nodemask specifies more than one node, page  allocations
              will  come  from  the  node with sufficient free memory that is closest to the node
              where the allocation takes place.  Pages will not be allocated from  any  node  not
              specified  in  the  IR nodemask .  (Before Linux 2.6.26, page allocations came from
              the node with the lowest numeric node ID first, until that node contained  no  free
              memory.   Allocations  then  came  from  the  node  with  the  next highest node ID
              specified in nodemask and so forth, until none of  the  specified  nodes  contained
              free memory.)

       MPOL_INTERLEAVE
              This  mode  specifies  that page allocations be interleaved across the set of nodes
              specified in  nodemask.   This  optimizes  for  bandwidth  instead  of  latency  by
              spreading  out  pages and memory accesses to those pages across multiple nodes.  To
              be effective the memory area should be fairly large, at least 1 MB or bigger with a
              fairly uniform access pattern.  Accesses to a single page of the area will still be
              limited to the memory bandwidth of a single node.

       MPOL_WEIGHTED_INTERLEAVE (since Linux 6.9)
              This mode interleaves page allocations  across  the  nodes  specified  in  nodemask
              according  to  the  weights  in  /sys/kernel/mm/mempolicy/weighted_interleave.  For
              example,  if  bits  0,  2,  and  5  are  set  in  nodemask,  and  the  contents  of
              /sys/kernel/mm/mempolicy/weighted_interleave/node0,       /sys/.../node2,       and
              /sys/.../node5 are 4, 7, and 9, respectively, then pages in  this  region  will  be
              allocated on nodes 0, 2, and 5 in a 4:7:9 ratio.

       MPOL_PREFERRED
              This  mode sets the preferred node for allocation.  The kernel will try to allocate
              pages from this node first and fall back to other nodes if the preferred  nodes  is
              low on free memory.  If nodemask specifies more than one node ID, the first node in
              the mask will be selected as the preferred  node.   If  the  nodemask  and  maxnode
              arguments  specify  the  empty set, then the memory is allocated on the node of the
              CPU that triggered the allocation.

       MPOL_LOCAL (since Linux 3.8)
              This mode specifies "local allocation"; the memory is allocated on the node of  the
              CPU  that  triggered  the  allocation (the "local node").  The nodemask and maxnode
              arguments must specify the empty set.  If the "local node" is low on  free  memory,
              the  kernel will try to allocate memory from other nodes.  The kernel will allocate
              memory from the "local node" whenever memory for this node is  available.   If  the
              "local node" is not allowed by the thread's current cpuset context, the kernel will
              try to allocate memory from other nodes.  The kernel will allocate memory from  the
              "local  node"  whenever  it becomes allowed by the thread's current cpuset context.
              By contrast, MPOL_DEFAULT reverts to the memory policy of the thread (which may  be
              set  via  set_mempolicy(2));  that  policy  may  be  something  other  than  "local
              allocation".

       If MPOL_MF_STRICT is passed in flags and mode is not MPOL_DEFAULT,  then  the  call  fails
       with the error EIO if the existing pages in the memory range don't follow the policy.

       If  MPOL_MF_MOVE  is  specified  in  flags,  then  the kernel will attempt to move all the
       existing pages in the memory range so that they follow the policy.  Pages that are  shared
       with  other  processes  will  not be moved.  If MPOL_MF_STRICT is also specified, then the
       call fails with the error EIO if some pages could not be moved.   If  the  MPOL_INTERLEAVE
       policy was specified, pages already residing on the specified nodes will not be moved such
       that they are interleaved.

       If MPOL_MF_MOVE_ALL is passed in flags, then the kernel will attempt to move all  existing
       pages  in  the  memory  range  regardless  of  whether other processes use the pages.  The
       calling thread must be privileged (CAP_SYS_NICE) to use this flag.  If  MPOL_MF_STRICT  is
       also  specified,  then the call fails with the error EIO if some pages could not be moved.
       If the MPOL_INTERLEAVE policy was specified, pages already residing on the specified nodes
       will not be moved such that they are interleaved.

RETURN VALUE

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

ERRORS

       EFAULT Part or all of the memory range specified by nodemask and  maxnode  points  outside
              your  accessible  address  space.   Or, there was an unmapped hole in the specified
              memory range specified by addr and len.

       EINVAL An invalid value was specified for flags or mode; or addr + len was less than addr;
              or  addr  is  not a multiple of the system page size.  Or, mode is MPOL_DEFAULT and
              nodemask specified a nonempty set; or mode  is  MPOL_BIND  or  MPOL_INTERLEAVE  and
              nodemask  is  empty.   Or,  maxnode  exceeds  a kernel-imposed limit.  Or, nodemask
              specifies one or more node IDs that are greater than the maximum supported node ID.
              Or,  none  of  the  node  IDs  specified by nodemask are on-line and allowed by the
              thread's current cpuset context, or none of the  specified  nodes  contain  memory.
              Or, the mode argument specified both MPOL_F_STATIC_NODES and MPOL_F_RELATIVE_NODES.

       EIO    MPOL_MF_STRICT  was  specified and an existing page was already on a node that does
              not follow the policy; or MPOL_MF_MOVE or MPOL_MF_MOVE_ALL was  specified  and  the
              kernel was unable to move all existing pages in the range.

       ENOMEM Insufficient kernel memory was available.

       EPERM  The  flags argument included the MPOL_MF_MOVE_ALL flag and the caller does not have
              the CAP_SYS_NICE privilege.

STANDARDS

       Linux.

HISTORY

       Linux 2.6.7.

       Support for huge page policy was added with Linux 2.6.16.  For  interleave  policy  to  be
       effective  on  huge  page  mappings  the  policied memory needs to be tens of megabytes or
       larger.

       Before Linux 5.7.  MPOL_MF_STRICT was ignored on huge page mappings.

       MPOL_MF_MOVE and MPOL_MF_MOVE_ALL are available only on Linux 2.6.16 and later.

NOTES

       For information on library support, see numa(7).

       NUMA policy is not supported on a memory-mapped  file  range  that  was  mapped  with  the
       MAP_SHARED flag.

       The  MPOL_DEFAULT  mode can have different effects for mbind() and set_mempolicy(2).  When
       MPOL_DEFAULT is specified for set_mempolicy(2), the thread's memory policy reverts to  the
       system  default policy or local allocation.  When MPOL_DEFAULT is specified for a range of
       memory using mbind(), any pages  subsequently  allocated  for  that  range  will  use  the
       thread's memory policy, as set by set_mempolicy(2).  This effectively removes the explicit
       policy from the specified range, "falling back"  to  a  possibly  nondefault  policy.   To
       select  explicit  "local  allocation"  for a memory range, specify a mode of MPOL_LOCAL or
       MPOL_PREFERRED with an empty set of nodes.  This method will work for set_mempolicy(2), as
       well.

SEE ALSO

       get_mempolicy(2),  getcpu(2),  mmap(2),  set_mempolicy(2),  shmat(2),  shmget(2), numa(3),
       cpuset(7), numa(7), numactl(8)