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/* Copyright (C) 2003,2004 Andi Kleen, SuSE Labs. 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 */ #ifndef _NUMA_H #define _NUMA_H 1 /* allow an application to test for the current programming interface: */ #define LIBNUMA_API_VERSION 2 /* Simple NUMA policy library */ #include <stddef.h> #include <string.h> #include <sys/types.h> #include <stdlib.h> #if defined(__x86_64__) || defined(__i386__) #define NUMA_NUM_NODES 128 #else #define NUMA_NUM_NODES 2048 #endif #ifdef __cplusplus extern "C" { #endif typedef struct { unsigned long n[NUMA_NUM_NODES/(sizeof(unsigned long)*8)]; } nodemask_t; struct bitmask { unsigned long size; /* number of bits in the map */ unsigned long *maskp; }; /* operations on struct bitmask */ int numa_bitmask_isbitset(const struct bitmask *, unsigned int); struct bitmask *numa_bitmask_setall(struct bitmask *); struct bitmask *numa_bitmask_clearall(struct bitmask *); struct bitmask *numa_bitmask_setbit(struct bitmask *, unsigned int); struct bitmask *numa_bitmask_clearbit(struct bitmask *, unsigned int); unsigned int numa_bitmask_nbytes(struct bitmask *); unsigned int numa_bitmask_weight(const struct bitmask *); struct bitmask *numa_bitmask_alloc(unsigned int); void numa_bitmask_free(struct bitmask *); int numa_bitmask_equal(const struct bitmask *, const struct bitmask *); void copy_nodemask_to_bitmask(nodemask_t *, struct bitmask *); void copy_bitmask_to_nodemask(struct bitmask *, nodemask_t *); void copy_bitmask_to_bitmask(struct bitmask *, struct bitmask *); /* compatibility for codes that used them: */ static inline void nodemask_zero(nodemask_t *mask) { struct bitmask tmp; tmp.maskp = (unsigned long *)mask; tmp.size = sizeof(nodemask_t) * 8; numa_bitmask_clearall(&tmp); } static inline void nodemask_zero_compat(nodemask_t *mask) { struct bitmask tmp; tmp.maskp = (unsigned long *)mask; tmp.size = sizeof(nodemask_t) * 8; numa_bitmask_clearall(&tmp); } static inline void nodemask_set_compat(nodemask_t *mask, int node) { mask->n[node / (8*sizeof(unsigned long))] |= (1UL<<(node%(8*sizeof(unsigned long)))); } static inline void nodemask_clr_compat(nodemask_t *mask, int node) { mask->n[node / (8*sizeof(unsigned long))] &= ~(1UL<<(node%(8*sizeof(unsigned long)))); } static inline int nodemask_isset_compat(const nodemask_t *mask, int node) { if ((unsigned)node >= NUMA_NUM_NODES) return 0; if (mask->n[node / (8*sizeof(unsigned long))] & (1UL<<(node%(8*sizeof(unsigned long))))) return 1; return 0; } static inline int nodemask_equal(const nodemask_t *a, const nodemask_t *b) { struct bitmask tmp_a, tmp_b; tmp_a.maskp = (unsigned long *)a; tmp_a.size = sizeof(nodemask_t) * 8; tmp_b.maskp = (unsigned long *)b; tmp_b.size = sizeof(nodemask_t) * 8; return numa_bitmask_equal(&tmp_a, &tmp_b); } static inline int nodemask_equal_compat(const nodemask_t *a, const nodemask_t *b) { struct bitmask tmp_a, tmp_b; tmp_a.maskp = (unsigned long *)a; tmp_a.size = sizeof(nodemask_t) * 8; tmp_b.maskp = (unsigned long *)b; tmp_b.size = sizeof(nodemask_t) * 8; return numa_bitmask_equal(&tmp_a, &tmp_b); } /* NUMA support available. If this returns a negative value all other function in this library are undefined. */ int numa_available(void); /* Basic NUMA state */ /* Get max available node */ int numa_max_node(void); int numa_max_possible_node(void); /* Return preferred node */ int numa_preferred(void); /* Return node size and free memory */ long long numa_node_size64(int node, long long *freep); long numa_node_size(int node, long *freep); int numa_pagesize(void); /* Set with all nodes from which the calling process may allocate memory. Only valid after numa_available. */ extern struct bitmask *numa_all_nodes_ptr; /* Set with all nodes the kernel has exposed to userspace */ extern struct bitmask *numa_nodes_ptr; /* For source compatibility */ extern nodemask_t numa_all_nodes; /* Set with all cpus. */ extern struct bitmask *numa_all_cpus_ptr; /* Set with no nodes */ extern struct bitmask *numa_no_nodes_ptr; /* Source compatibility */ extern nodemask_t numa_no_nodes; /* Only run and allocate memory from a specific set of nodes. */ void numa_bind(struct bitmask *nodes); /* Set the NUMA node interleaving mask. 0 to turn off interleaving */ void numa_set_interleave_mask(struct bitmask *nodemask); /* Return the current interleaving mask */ struct bitmask *numa_get_interleave_mask(void); /* allocate a bitmask big enough for all nodes */ struct bitmask *numa_allocate_nodemask(void); static inline void numa_free_nodemask(struct bitmask *b) { numa_bitmask_free(b); } /* Some node to preferably allocate memory from for task. */ void numa_set_preferred(int node); /* Returns whether or not the platform supports MPOL_PREFERRED_MANY */ int numa_has_preferred_many(void); /* Set of nodes to preferably allocate memory from for task. */ void numa_set_preferred_many(struct bitmask *bitmask); /* Return preferred nodes */ struct bitmask *numa_preferred_many(void); /* Set local memory allocation policy for task */ void numa_set_localalloc(void); /* Only allocate memory from the nodes set in mask. 0 to turn off */ void numa_set_membind(struct bitmask *nodemask); /* Only allocate memory from the nodes set in mask. Optimize page placement with Linux kernel NUMA balancing if possible. 0 to turn off */ void numa_set_membind_balancing(struct bitmask *bmp); /* Return current membind */ struct bitmask *numa_get_membind(void); /* Return allowed memories [nodes] */ struct bitmask *numa_get_mems_allowed(void); int numa_get_interleave_node(void); /* NUMA memory allocation. These functions always round to page size and are relatively slow. */ /* Alloc memory page interleaved on nodes in mask */ void *numa_alloc_interleaved_subset(size_t size, struct bitmask *nodemask); /* Alloc memory page interleaved on all nodes. */ void *numa_alloc_interleaved(size_t size); /* Alloc memory located on node */ void *numa_alloc_onnode(size_t size, int node); /* Alloc memory on local node */ void *numa_alloc_local(size_t size); /* Allocation with current policy */ void *numa_alloc(size_t size); /* Change the size of a memory area preserving the memory policy */ void *numa_realloc(void *old_addr, size_t old_size, size_t new_size); /* Free memory allocated by the functions above */ void numa_free(void *mem, size_t size); /* Low level functions, primarily for shared memory. All memory processed by these must not be touched yet */ /* Interleave a memory area. */ void numa_interleave_memory(void *mem, size_t size, struct bitmask *mask); /* Allocate a memory area on a specific node. */ void numa_tonode_memory(void *start, size_t size, int node); /* Allocate memory on a mask of nodes. */ void numa_tonodemask_memory(void *mem, size_t size, struct bitmask *mask); /* Allocate a memory area on the current node. */ void numa_setlocal_memory(void *start, size_t size); /* Allocate memory area with current memory policy */ void numa_police_memory(void *start, size_t size); /* Run current task only on nodes in mask */ int numa_run_on_node_mask(struct bitmask *mask); /* Run current task on nodes in mask without any cpuset awareness */ int numa_run_on_node_mask_all(struct bitmask *mask); /* Run current task only on node */ int numa_run_on_node(int node); /* Return current mask of nodes the task can run on */ struct bitmask * numa_get_run_node_mask(void); /* When strict fail allocation when memory cannot be allocated in target node(s). */ void numa_set_bind_policy(int strict); /* Fail when existing memory has incompatible policy */ void numa_set_strict(int flag); /* maximum nodes (size of kernel nodemask_t) */ int numa_num_possible_nodes(void); /* maximum cpus (size of kernel cpumask_t) */ int numa_num_possible_cpus(void); /* nodes in the system */ int numa_num_configured_nodes(void); /* maximum cpus */ int numa_num_configured_cpus(void); /* maximum cpus allowed to current task */ int numa_num_task_cpus(void); int numa_num_thread_cpus(void); /* backward compatibility */ /* maximum nodes allowed to current task */ int numa_num_task_nodes(void); int numa_num_thread_nodes(void); /* backward compatibility */ /* allocate a bitmask the size of the kernel cpumask_t */ struct bitmask *numa_allocate_cpumask(void); static inline void numa_free_cpumask(struct bitmask *b) { numa_bitmask_free(b); } /* Convert node to CPU mask. -1/errno on failure, otherwise 0. */ int numa_node_to_cpus(int, struct bitmask *); void numa_node_to_cpu_update(void); /* report the node of the specified cpu. -1/errno on invalid cpu. */ int numa_node_of_cpu(int cpu); /* Report distance of node1 from node2. 0 on error.*/ int numa_distance(int node1, int node2); /* Error handling. */ /* This is an internal function in libnuma that can be overwritten by an user program. Default is to print an error to stderr and exit if numa_exit_on_error is true. */ void numa_error(char *where); /* When true exit the program when a NUMA system call (except numa_available) fails */ extern int numa_exit_on_error; /* Warning function. Can also be overwritten. Default is to print on stderr once. */ void numa_warn(int num, char *fmt, ...); /* When true exit the program on a numa_warn() call */ extern int numa_exit_on_warn; int numa_migrate_pages(int pid, struct bitmask *from, struct bitmask *to); int numa_move_pages(int pid, unsigned long count, void **pages, const int *nodes, int *status, int flags); int numa_sched_getaffinity(pid_t, struct bitmask *); int numa_sched_setaffinity(pid_t, struct bitmask *); /* Convert an ascii list of nodes to a bitmask */ struct bitmask *numa_parse_nodestring(const char *); /* Convert an ascii list of nodes to a bitmask without current nodeset * dependency */ struct bitmask *numa_parse_nodestring_all(const char *); /* Convert an ascii list of cpu to a bitmask */ struct bitmask *numa_parse_cpustring(const char *); /* Convert an ascii list of cpu to a bitmask without current taskset * dependency */ struct bitmask *numa_parse_cpustring_all(const char *); /* * The following functions are for source code compatibility * with releases prior to version 2. * Such codes should be compiled with NUMA_VERSION1_COMPATIBILITY defined. */ static inline void numa_set_interleave_mask_compat(nodemask_t *nodemask) { struct bitmask tmp; tmp.maskp = (unsigned long *)nodemask; tmp.size = sizeof(nodemask_t) * 8; numa_set_interleave_mask(&tmp); } static inline nodemask_t numa_get_interleave_mask_compat(void) { struct bitmask *tp; nodemask_t mask; tp = numa_get_interleave_mask(); copy_bitmask_to_nodemask(tp, &mask); numa_bitmask_free(tp); return mask; } static inline void numa_bind_compat(nodemask_t *mask) { struct bitmask *tp; tp = numa_allocate_nodemask(); copy_nodemask_to_bitmask(mask, tp); numa_bind(tp); numa_bitmask_free(tp); } static inline void numa_set_membind_compat(nodemask_t *mask) { struct bitmask tmp; tmp.maskp = (unsigned long *)mask; tmp.size = sizeof(nodemask_t) * 8; numa_set_membind(&tmp); } static inline nodemask_t numa_get_membind_compat(void) { struct bitmask *tp; nodemask_t mask; tp = numa_get_membind(); copy_bitmask_to_nodemask(tp, &mask); numa_bitmask_free(tp); return mask; } static inline void *numa_alloc_interleaved_subset_compat(size_t size, const nodemask_t *mask) { struct bitmask tmp; tmp.maskp = (unsigned long *)mask; tmp.size = sizeof(nodemask_t) * 8; return numa_alloc_interleaved_subset(size, &tmp); } static inline int numa_run_on_node_mask_compat(const nodemask_t *mask) { struct bitmask tmp; tmp.maskp = (unsigned long *)mask; tmp.size = sizeof(nodemask_t) * 8; return numa_run_on_node_mask(&tmp); } static inline nodemask_t numa_get_run_node_mask_compat(void) { struct bitmask *tp; nodemask_t mask; tp = numa_get_run_node_mask(); copy_bitmask_to_nodemask(tp, &mask); numa_bitmask_free(tp); return mask; } static inline void numa_interleave_memory_compat(void *mem, size_t size, const nodemask_t *mask) { struct bitmask tmp; tmp.maskp = (unsigned long *)mask; tmp.size = sizeof(nodemask_t) * 8; numa_interleave_memory(mem, size, &tmp); } static inline void numa_tonodemask_memory_compat(void *mem, size_t size, const nodemask_t *mask) { struct bitmask tmp; tmp.maskp = (unsigned long *)mask; tmp.size = sizeof(nodemask_t) * 8; numa_tonodemask_memory(mem, size, &tmp); } static inline int numa_sched_getaffinity_compat(pid_t pid, unsigned len, unsigned long *mask) { struct bitmask tmp; tmp.maskp = (unsigned long *)mask; tmp.size = len * 8; return numa_sched_getaffinity(pid, &tmp); } static inline int numa_sched_setaffinity_compat(pid_t pid, unsigned len, unsigned long *mask) { struct bitmask tmp; tmp.maskp = (unsigned long *)mask; tmp.size = len * 8; return numa_sched_setaffinity(pid, &tmp); } static inline int numa_node_to_cpus_compat(int node, unsigned long *buffer, int buffer_len) { struct bitmask tmp; tmp.maskp = (unsigned long *)buffer; tmp.size = buffer_len * 8; return numa_node_to_cpus(node, &tmp); } /* end of version 1 compatibility functions */ /* * To compile an application that uses libnuma version 1: * add -DNUMA_VERSION1_COMPATIBILITY to your Makefile's CFLAGS */ #ifdef NUMA_VERSION1_COMPATIBILITY #include <numacompat1.h> #endif #ifdef __cplusplus } #endif #endif