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libnuma.c
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libnuma.c
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/* Simple NUMA library.
Copyright (C) 2003,2004,2005,2008 Andi Kleen,SuSE Labs and
Cliff Wickman,SGI.
libnuma is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; version
2.1.
libnuma is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should find a copy of v2.1 of the GNU Lesser General Public License
somewhere on your Linux system; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
All calls are undefined when numa_available returns an error. */
#define _GNU_SOURCE 1
#include <stdlib.h>
#include <stdio.h>
#include <unistd.h>
#include <string.h>
#include <sched.h>
#include <dirent.h>
#include <errno.h>
#include <stdarg.h>
#include <ctype.h>
#include <sys/mman.h>
#include <limits.h>
#include "config.h"
#include "numa.h"
#include "numaif.h"
#include "numaint.h"
#include "util.h"
#include "affinity.h"
#define WEAK __attribute__((weak))
#define CPU_BUFFER_SIZE 4096 /* This limits you to 32768 CPUs */
/* these are the old (version 1) masks */
nodemask_t numa_no_nodes;
nodemask_t numa_all_nodes;
/* these are now the default bitmask (pointers to) (version 2) */
struct bitmask *numa_no_nodes_ptr = NULL;
struct bitmask *numa_all_nodes_ptr = NULL;
struct bitmask *numa_possible_nodes_ptr = NULL;
struct bitmask *numa_all_cpus_ptr = NULL;
struct bitmask *numa_possible_cpus_ptr = NULL;
/* I would prefer to use symbol versioning to create v1 and v2 versions
of numa_no_nodes and numa_all_nodes, but the loader does not correctly
handle versioning of BSS versus small data items */
struct bitmask *numa_nodes_ptr = NULL;
static struct bitmask *numa_memnode_ptr = NULL;
static unsigned long *node_cpu_mask_v1[NUMA_NUM_NODES];
static struct bitmask **node_cpu_mask_v2;
WEAK void numa_error(char *where);
#ifndef TLS
#warning "not threadsafe"
#define __thread
#endif
static __thread int bind_policy = MPOL_BIND;
static __thread unsigned int mbind_flags = 0;
static int sizes_set=0;
static int maxconfigurednode = -1;
static int maxconfiguredcpu = -1;
static int numprocnode = -1;
static int numproccpu = -1;
static int nodemask_sz = 0;
static int cpumask_sz = 0;
int numa_exit_on_error = 0;
int numa_exit_on_warn = 0;
static void set_sizes(void);
/*
* There are two special functions, _init(void) and _fini(void), which
* are called automatically by the dynamic loader whenever a library is loaded.
*
* The v1 library depends upon nodemask_t's of all nodes and no nodes.
*/
void __attribute__((constructor))
numa_init(void)
{
int max,i;
if (sizes_set)
return;
set_sizes();
/* numa_all_nodes should represent existing nodes on this system */
max = numa_num_configured_nodes();
for (i = 0; i < max; i++)
nodemask_set_compat((nodemask_t *)&numa_all_nodes, i);
memset(&numa_no_nodes, 0, sizeof(numa_no_nodes));
}
#define FREE_AND_ZERO(x) if (x) { \
numa_bitmask_free(x); \
x = NULL; \
}
void __attribute__((destructor))
numa_fini(void)
{
FREE_AND_ZERO(numa_all_cpus_ptr);
FREE_AND_ZERO(numa_possible_cpus_ptr);
FREE_AND_ZERO(numa_all_nodes_ptr);
FREE_AND_ZERO(numa_possible_nodes_ptr);
FREE_AND_ZERO(numa_no_nodes_ptr);
FREE_AND_ZERO(numa_memnode_ptr);
FREE_AND_ZERO(numa_nodes_ptr);
}
/*
* The following bitmask declarations, bitmask_*() routines, and associated
* _setbit() and _getbit() routines are:
* Copyright (c) 2004_2007 Silicon Graphics, Inc. (SGI) All rights reserved.
* SGI publishes it under the terms of the GNU General Public License, v2,
* as published by the Free Software Foundation.
*/
static unsigned int
_getbit(const struct bitmask *bmp, unsigned int n)
{
if (n < bmp->size)
return (bmp->maskp[n/bitsperlong] >> (n % bitsperlong)) & 1;
else
return 0;
}
static void
_setbit(struct bitmask *bmp, unsigned int n, unsigned int v)
{
if (n < bmp->size) {
if (v)
bmp->maskp[n/bitsperlong] |= 1UL << (n % bitsperlong);
else
bmp->maskp[n/bitsperlong] &= ~(1UL << (n % bitsperlong));
}
}
int
numa_bitmask_isbitset(const struct bitmask *bmp, unsigned int i)
{
return _getbit(bmp, i);
}
struct bitmask *
numa_bitmask_setall(struct bitmask *bmp)
{
unsigned int i;
for (i = 0; i < bmp->size; i++)
_setbit(bmp, i, 1);
return bmp;
}
struct bitmask *
numa_bitmask_clearall(struct bitmask *bmp)
{
unsigned int i;
for (i = 0; i < bmp->size; i++)
_setbit(bmp, i, 0);
return bmp;
}
struct bitmask *
numa_bitmask_setbit(struct bitmask *bmp, unsigned int i)
{
_setbit(bmp, i, 1);
return bmp;
}
struct bitmask *
numa_bitmask_clearbit(struct bitmask *bmp, unsigned int i)
{
_setbit(bmp, i, 0);
return bmp;
}
unsigned int
numa_bitmask_nbytes(struct bitmask *bmp)
{
return longsperbits(bmp->size) * sizeof(unsigned long);
}
/* where n is the number of bits in the map */
/* This function should not exit on failure, but right now we cannot really
recover from this. */
struct bitmask *
numa_bitmask_alloc(unsigned int n)
{
struct bitmask *bmp;
if (n < 1) {
errno = EINVAL;
numa_error("request to allocate mask for invalid number");
exit(1);
}
bmp = malloc(sizeof(*bmp));
if (bmp == 0)
goto oom;
bmp->size = n;
bmp->maskp = calloc(longsperbits(n), sizeof(unsigned long));
if (bmp->maskp == 0) {
free(bmp);
goto oom;
}
return bmp;
oom:
numa_error("Out of memory allocating bitmask");
exit(1);
}
void
numa_bitmask_free(struct bitmask *bmp)
{
if (bmp == 0)
return;
free(bmp->maskp);
bmp->maskp = (unsigned long *)0xdeadcdef; /* double free tripwire */
free(bmp);
return;
}
/* True if two bitmasks are equal */
int
numa_bitmask_equal(const struct bitmask *bmp1, const struct bitmask *bmp2)
{
unsigned int i;
for (i = 0; i < bmp1->size || i < bmp2->size; i++)
if (_getbit(bmp1, i) != _getbit(bmp2, i))
return 0;
return 1;
}
/* Hamming Weight: number of set bits */
unsigned int numa_bitmask_weight(const struct bitmask *bmp)
{
unsigned int i;
unsigned int w = 0;
for (i = 0; i < bmp->size; i++)
if (_getbit(bmp, i))
w++;
return w;
}
/* *****end of bitmask_ routines ************ */
/* Next two can be overwritten by the application for different error handling */
WEAK void numa_error(char *where)
{
int olde = errno;
perror(where);
if (numa_exit_on_error)
exit(1);
errno = olde;
}
WEAK void numa_warn(int num, char *fmt, ...)
{
static unsigned warned;
va_list ap;
int olde = errno;
/* Give each warning only once */
if ((1<<num) & warned)
return;
warned |= (1<<num);
va_start(ap,fmt);
fprintf(stderr, "libnuma: Warning: ");
vfprintf(stderr, fmt, ap);
fputc('\n', stderr);
va_end(ap);
errno = olde;
}
static void setpol(int policy, struct bitmask *bmp)
{
if (set_mempolicy(policy, bmp->maskp, bmp->size + 1) < 0)
numa_error("set_mempolicy");
}
static void getpol(int *oldpolicy, struct bitmask *bmp)
{
if (get_mempolicy(oldpolicy, bmp->maskp, bmp->size + 1, 0, 0) < 0)
numa_error("get_mempolicy");
}
static void dombind(void *mem, size_t size, int pol, struct bitmask *bmp)
{
if (mbind(mem, size, pol, bmp ? bmp->maskp : NULL, bmp ? bmp->size + 1 : 0,
mbind_flags) < 0)
numa_error("mbind");
}
/* (undocumented) */
/* gives the wrong answer for hugetlbfs mappings. */
int numa_pagesize(void)
{
static int pagesize;
if (pagesize > 0)
return pagesize;
pagesize = getpagesize();
return pagesize;
}
make_internal_alias(numa_pagesize);
/*
* Find nodes (numa_nodes_ptr), nodes with memory (numa_memnode_ptr)
* and the highest numbered existing node (maxconfigurednode).
*/
static void
set_configured_nodes(void)
{
DIR *d;
struct dirent *de;
long long freep;
numa_memnode_ptr = numa_allocate_nodemask();
numa_nodes_ptr = numa_allocate_nodemask();
d = opendir("/sys/devices/system/node");
if (!d) {
maxconfigurednode = 0;
} else {
while ((de = readdir(d)) != NULL) {
int nd;
if (strncmp(de->d_name, "node", 4))
continue;
nd = strtoul(de->d_name+4, NULL, 0);
numa_bitmask_setbit(numa_nodes_ptr, nd);
if (numa_node_size64(nd, &freep) > 0)
numa_bitmask_setbit(numa_memnode_ptr, nd);
if (maxconfigurednode < nd)
maxconfigurednode = nd;
}
closedir(d);
}
}
/*
* Convert the string length of an ascii hex mask to the number
* of bits represented by that mask.
*/
static int s2nbits(const char *s)
{
return strlen(s) * 32 / 9;
}
/* Is string 'pre' a prefix of string 's'? */
static int strprefix(const char *s, const char *pre)
{
return strncmp(s, pre, strlen(pre)) == 0;
}
static const char *mask_size_file = "/proc/self/status";
static const char *nodemask_prefix = "Mems_allowed:\t";
/*
* (do this the way Paul Jackson's libcpuset does it)
* The nodemask values in /proc/self/status are in an
* ascii format that uses 9 characters for each 32 bits of mask.
* (this could also be used to find the cpumask size)
*/
static void
set_nodemask_size(void)
{
FILE *fp;
char *buf = NULL;
size_t bufsize = 0;
if ((fp = fopen(mask_size_file, "r")) == NULL)
goto done;
while (getline(&buf, &bufsize, fp) > 0) {
if (strprefix(buf, nodemask_prefix)) {
nodemask_sz = s2nbits(buf + strlen(nodemask_prefix));
break;
}
}
free(buf);
fclose(fp);
done:
if (nodemask_sz == 0) {/* fall back on error */
int pol;
unsigned long *mask = NULL;
nodemask_sz = 16;
do {
nodemask_sz <<= 1;
mask = realloc(mask, nodemask_sz / 8);
if (!mask)
return;
} while (get_mempolicy(&pol, mask, nodemask_sz + 1, 0, 0) < 0 && errno == EINVAL &&
nodemask_sz < 4096*8);
free(mask);
}
}
/*
* Read a mask consisting of a sequence of hexadecimal longs separated by
* commas. Order them correctly and return the number of bits set.
*/
static int
read_mask(char *s, struct bitmask *bmp)
{
char *end = s;
int tmplen = (bmp->size + bitsperint - 1) / bitsperint;
unsigned int tmp[tmplen];
unsigned int *start = tmp;
unsigned int i, n = 0, m = 0;
if (!s)
return 0; /* shouldn't happen */
i = strtoul(s, &end, 16);
/* Skip leading zeros */
while (!i && *end++ == ',') {
i = strtoul(end, &end, 16);
}
if (!i)
/* End of string. No mask */
return -1;
start[n++] = i;
/* Read sequence of ints */
while (*end++ == ',') {
i = strtoul(end, &end, 16);
start[n++] = i;
/* buffer overflow */
if (n > tmplen)
return -1;
}
/*
* Invert sequence of ints if necessary since the first int
* is the highest and we put it first because we read it first.
*/
while (n) {
int w;
unsigned long x = 0;
/* read into long values in an endian-safe way */
for (w = 0; n && w < bitsperlong; w += bitsperint)
x |= ((unsigned long)start[n-- - 1] << w);
bmp->maskp[m++] = x;
}
/*
* Return the number of bits set
*/
return numa_bitmask_weight(bmp);
}
/*
* Read a processes constraints in terms of nodes and cpus from
* /proc/self/status.
*/
static void
set_task_constraints(void)
{
int hicpu = maxconfiguredcpu;
int i;
char *buffer = NULL;
size_t buflen = 0;
FILE *f;
numa_all_cpus_ptr = numa_allocate_cpumask();
numa_possible_cpus_ptr = numa_allocate_cpumask();
numa_all_nodes_ptr = numa_allocate_nodemask();
numa_possible_nodes_ptr = numa_allocate_cpumask();
numa_no_nodes_ptr = numa_allocate_nodemask();
f = fopen(mask_size_file, "r");
if (!f) {
//numa_warn(W_cpumap, "Cannot parse %s", mask_size_file);
return;
}
while (getline(&buffer, &buflen, f) > 0) {
/* mask starts after [last] tab */
char *mask = strrchr(buffer,'\t') + 1;
if (strncmp(buffer,"Cpus_allowed:",13) == 0)
numproccpu = read_mask(mask, numa_all_cpus_ptr);
if (strncmp(buffer,"Mems_allowed:",13) == 0) {
numprocnode = read_mask(mask, numa_all_nodes_ptr);
}
}
fclose(f);
free(buffer);
for (i = 0; i <= hicpu; i++)
numa_bitmask_setbit(numa_possible_cpus_ptr, i);
for (i = 0; i <= maxconfigurednode; i++)
numa_bitmask_setbit(numa_possible_nodes_ptr, i);
/*
* Cpus_allowed in the kernel can be defined to all f's
* i.e. it may be a superset of the actual available processors.
* As such let's reduce numproccpu to the number of actual
* available cpus.
*/
if (numproccpu <= 0) {
for (i = 0; i <= hicpu; i++)
numa_bitmask_setbit(numa_all_cpus_ptr, i);
numproccpu = hicpu+1;
}
if (numproccpu > hicpu+1) {
numproccpu = hicpu+1;
for (i=hicpu+1; i<numa_all_cpus_ptr->size; i++) {
numa_bitmask_clearbit(numa_all_cpus_ptr, i);
}
}
if (numprocnode <= 0) {
for (i = 0; i <= maxconfigurednode; i++)
numa_bitmask_setbit(numa_all_nodes_ptr, i);
numprocnode = maxconfigurednode + 1;
}
return;
}
/*
* Find the highest cpu number possible (in other words the size
* of a kernel cpumask_t (in bits) - 1)
*/
static void
set_numa_max_cpu(void)
{
int len = 4096;
int n;
int olde = errno;
struct bitmask *buffer;
do {
buffer = numa_bitmask_alloc(len);
n = numa_sched_getaffinity_v2_int(0, buffer);
/* on success, returns size of kernel cpumask_t, in bytes */
if (n < 0) {
if (errno == EINVAL) {
if (len >= 1024*1024)
break;
len *= 2;
numa_bitmask_free(buffer);
continue;
} else {
numa_warn(W_numcpus, "Unable to determine max cpu"
" (sched_getaffinity: %s); guessing...",
strerror(errno));
n = sizeof(cpu_set_t);
break;
}
}
} while (n < 0);
numa_bitmask_free(buffer);
errno = olde;
cpumask_sz = n*8;
}
/*
* get the total (configured) number of cpus - both online and offline
*/
static void
set_configured_cpus(void)
{
maxconfiguredcpu = sysconf(_SC_NPROCESSORS_CONF) - 1;
if (maxconfiguredcpu == -1)
numa_error("sysconf(NPROCESSORS_CONF) failed");
}
/*
* Initialize all the sizes.
*/
static void
set_sizes(void)
{
sizes_set++;
set_nodemask_size(); /* size of kernel nodemask_t */
set_configured_nodes(); /* configured nodes listed in /sys */
set_numa_max_cpu(); /* size of kernel cpumask_t */
set_configured_cpus(); /* cpus listed in /sys/devices/system/cpu */
set_task_constraints(); /* cpus and nodes for current task */
}
int
numa_num_configured_nodes(void)
{
/*
* NOTE: this function's behavior matches the documentation (ie: it
* returns a count of nodes with memory) despite the poor function
* naming. We also cannot use the similarly poorly named
* numa_all_nodes_ptr as it only tracks nodes with memory from which
* the calling process can allocate. Think sparse nodes, memory-less
* nodes, cpusets...
*/
int memnodecount=0, i;
for (i=0; i <= maxconfigurednode; i++) {
if (numa_bitmask_isbitset(numa_memnode_ptr, i))
memnodecount++;
}
return memnodecount;
}
int
numa_num_configured_cpus(void)
{
return maxconfiguredcpu+1;
}
int
numa_num_possible_nodes(void)
{
return nodemask_sz;
}
int
numa_num_possible_cpus(void)
{
return cpumask_sz;
}
int
numa_num_task_nodes(void)
{
return numprocnode;
}
/*
* for backward compatibility
*/
int
numa_num_thread_nodes(void)
{
return numa_num_task_nodes();
}
int
numa_num_task_cpus(void)
{
return numproccpu;
}
/*
* for backward compatibility
*/
int
numa_num_thread_cpus(void)
{
return numa_num_task_cpus();
}
/*
* Return the number of the highest node in this running system,
*/
int
numa_max_node(void)
{
return maxconfigurednode;
}
make_internal_alias(numa_max_node);
/*
* Return the number of the highest possible node in a system,
* which for v1 is the size of a numa.h nodemask_t(in bits)-1.
* but for v2 is the size of a kernel nodemask_t(in bits)-1.
*/
int
numa_max_possible_node_v1(void)
{
return ((sizeof(nodemask_t)*8)-1);
}
__asm__(".symver numa_max_possible_node_v1,numa_max_possible_node@libnuma_1.1");
int
numa_max_possible_node_v2(void)
{
return numa_num_possible_nodes()-1;
}
__asm__(".symver numa_max_possible_node_v2,numa_max_possible_node@@libnuma_1.2");
make_internal_alias(numa_max_possible_node_v1);
make_internal_alias(numa_max_possible_node_v2);
/*
* Allocate a bitmask for cpus, of a size large enough to
* match the kernel's cpumask_t.
*/
struct bitmask *
numa_allocate_cpumask()
{
int ncpus = numa_num_possible_cpus();
return numa_bitmask_alloc(ncpus);
}
/*
* Allocate a bitmask the size of a libnuma nodemask_t
*/
static struct bitmask *
allocate_nodemask_v1(void)
{
int nnodes = numa_max_possible_node_v1_int()+1;
return numa_bitmask_alloc(nnodes);
}
/*
* Allocate a bitmask for nodes, of a size large enough to
* match the kernel's nodemask_t.
*/
struct bitmask *
numa_allocate_nodemask(void)
{
struct bitmask *bmp;
int nnodes = numa_max_possible_node_v2_int() + 1;
bmp = numa_bitmask_alloc(nnodes);
return bmp;
}
/* (cache the result?) */
long long numa_node_size64(int node, long long *freep)
{
size_t len = 0;
char *line = NULL;
long long size = -1;
FILE *f;
char fn[64];
int ok = 0;
int required = freep ? 2 : 1;
if (freep)
*freep = -1;
sprintf(fn,"/sys/devices/system/node/node%d/meminfo", node);
f = fopen(fn, "r");
if (!f)
return -1;
while (getdelim(&line, &len, '\n', f) > 0) {
char *end;
char *s = strcasestr(line, "kB");
if (!s)
continue;
--s;
while (s > line && isspace(*s))
--s;
while (s > line && isdigit(*s))
--s;
if (strstr(line, "MemTotal")) {
size = strtoull(s,&end,0) << 10;
if (end == s)
size = -1;
else
ok++;
}
if (freep && strstr(line, "MemFree")) {
*freep = strtoull(s,&end,0) << 10;
if (end == s)
*freep = -1;
else
ok++;
}
}
fclose(f);
free(line);
if (ok != required)
numa_warn(W_badmeminfo, "Cannot parse sysfs meminfo (%d)", ok);
return size;
}
make_internal_alias(numa_node_size64);
long numa_node_size(int node, long *freep)
{
long long f2;
long sz = numa_node_size64_int(node, &f2);
if (freep)
*freep = f2;
return sz;
}
int numa_available(void)
{
if (get_mempolicy(NULL, NULL, 0, 0, 0) < 0 && errno == ENOSYS)
return -1;
return 0;
}
void
numa_interleave_memory_v1(void *mem, size_t size, const nodemask_t *mask)
{
struct bitmask bitmask;
bitmask.size = sizeof(nodemask_t) * 8;
bitmask.maskp = (unsigned long *)mask;
dombind(mem, size, MPOL_INTERLEAVE, &bitmask);
}
__asm__(".symver numa_interleave_memory_v1,numa_interleave_memory@libnuma_1.1");
void
numa_interleave_memory_v2(void *mem, size_t size, struct bitmask *bmp)
{
dombind(mem, size, MPOL_INTERLEAVE, bmp);
}
__asm__(".symver numa_interleave_memory_v2,numa_interleave_memory@@libnuma_1.2");
void numa_tonode_memory(void *mem, size_t size, int node)
{
struct bitmask *nodes;
nodes = numa_allocate_nodemask();
numa_bitmask_setbit(nodes, node);
dombind(mem, size, bind_policy, nodes);
numa_bitmask_free(nodes);
}
void
numa_tonodemask_memory_v1(void *mem, size_t size, const nodemask_t *mask)
{
struct bitmask bitmask;
bitmask.maskp = (unsigned long *)mask;
bitmask.size = sizeof(nodemask_t);
dombind(mem, size, bind_policy, &bitmask);
}
__asm__(".symver numa_tonodemask_memory_v1,numa_tonodemask_memory@libnuma_1.1");
void
numa_tonodemask_memory_v2(void *mem, size_t size, struct bitmask *bmp)
{
dombind(mem, size, bind_policy, bmp);
}
__asm__(".symver numa_tonodemask_memory_v2,numa_tonodemask_memory@@libnuma_1.2");
void numa_setlocal_memory(void *mem, size_t size)
{
dombind(mem, size, MPOL_PREFERRED, NULL);
}
void numa_police_memory(void *mem, size_t size)
{
int pagesize = numa_pagesize_int();
unsigned long i;
for (i = 0; i < size; i += pagesize)
((volatile char*)mem)[i] = ((volatile char*)mem)[i];
}
make_internal_alias(numa_police_memory);
void *numa_alloc(size_t size)
{
char *mem;
mem = mmap(0, size, PROT_READ|PROT_WRITE, MAP_PRIVATE|MAP_ANONYMOUS,
0, 0);
if (mem == (char *)-1)
return NULL;
numa_police_memory_int(mem, size);
return mem;
}
void *numa_realloc(void *old_addr, size_t old_size, size_t new_size)
{
char *mem;
mem = mremap(old_addr, old_size, new_size, MREMAP_MAYMOVE);
if (mem == (char *)-1)
return NULL;
/*
* The memory policy of the allocated pages is preserved by mremap(), so
* there is no need to (re)set it here. If the policy of the original
* allocation is not set, the new pages will be allocated according to the
* process' mempolicy. Trying to allocate explicitly the new pages on the
* same node as the original ones would require changing the policy of the
* newly allocated pages, which violates the numa_realloc() semantics.
*/
return mem;
}
void *numa_alloc_interleaved_subset_v1(size_t size, const nodemask_t *mask)
{
char *mem;
struct bitmask bitmask;
mem = mmap(0, size, PROT_READ|PROT_WRITE, MAP_PRIVATE|MAP_ANONYMOUS,
0, 0);
if (mem == (char *)-1)
return NULL;
bitmask.maskp = (unsigned long *)mask;
bitmask.size = sizeof(nodemask_t);
dombind(mem, size, MPOL_INTERLEAVE, &bitmask);
return mem;
}
__asm__(".symver numa_alloc_interleaved_subset_v1,numa_alloc_interleaved_subset@libnuma_1.1");
void *numa_alloc_interleaved_subset_v2(size_t size, struct bitmask *bmp)
{
char *mem;
mem = mmap(0, size, PROT_READ|PROT_WRITE, MAP_PRIVATE|MAP_ANONYMOUS,
0, 0);
if (mem == (char *)-1)
return NULL;
dombind(mem, size, MPOL_INTERLEAVE, bmp);
return mem;
}
__asm__(".symver numa_alloc_interleaved_subset_v2,numa_alloc_interleaved_subset@@libnuma_1.2");
make_internal_alias(numa_alloc_interleaved_subset_v1);
make_internal_alias(numa_alloc_interleaved_subset_v2);
void *
numa_alloc_interleaved(size_t size)
{
return numa_alloc_interleaved_subset_v2_int(size, numa_all_nodes_ptr);
}
/*
* given a user node mask, set memory policy to use those nodes
*/
void
numa_set_interleave_mask_v1(nodemask_t *mask)
{
struct bitmask *bmp;
int nnodes = numa_max_possible_node_v1_int()+1;
bmp = numa_bitmask_alloc(nnodes);
copy_nodemask_to_bitmask(mask, bmp);
if (numa_bitmask_equal(bmp, numa_no_nodes_ptr))
setpol(MPOL_DEFAULT, bmp);
else
setpol(MPOL_INTERLEAVE, bmp);
numa_bitmask_free(bmp);
}
__asm__(".symver numa_set_interleave_mask_v1,numa_set_interleave_mask@libnuma_1.1");
void
numa_set_interleave_mask_v2(struct bitmask *bmp)
{
if (numa_bitmask_equal(bmp, numa_no_nodes_ptr))
setpol(MPOL_DEFAULT, bmp);
else
setpol(MPOL_INTERLEAVE, bmp);
}
__asm__(".symver numa_set_interleave_mask_v2,numa_set_interleave_mask@@libnuma_1.2");
nodemask_t
numa_get_interleave_mask_v1(void)
{
int oldpolicy;
struct bitmask *bmp;
nodemask_t mask;
bmp = allocate_nodemask_v1();
getpol(&oldpolicy, bmp);
if (oldpolicy == MPOL_INTERLEAVE)
copy_bitmask_to_nodemask(bmp, &mask);
else
copy_bitmask_to_nodemask(numa_no_nodes_ptr, &mask);
numa_bitmask_free(bmp);
return mask;
}
__asm__(".symver numa_get_interleave_mask_v1,numa_get_interleave_mask@libnuma_1.1");
struct bitmask *
numa_get_interleave_mask_v2(void)
{
int oldpolicy;
struct bitmask *bmp;
bmp = numa_allocate_nodemask();
getpol(&oldpolicy, bmp);
if (oldpolicy != MPOL_INTERLEAVE)
copy_bitmask_to_bitmask(numa_no_nodes_ptr, bmp);
return bmp;
}
__asm__(".symver numa_get_interleave_mask_v2,numa_get_interleave_mask@@libnuma_1.2");
/* (undocumented) */
int numa_get_interleave_node(void)
{
int nd;
if (get_mempolicy(&nd, NULL, 0, 0, MPOL_F_NODE) == 0)