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Now that all bitmap formatting usages have been converted to '%*pb[l]', the separate formatting functions are unnecessary. The following functions are removed. * bitmap_scn[list]printf() * cpumask_scnprintf(), cpulist_scnprintf() * [__]nodemask_scnprintf(), [__]nodelist_scnprintf() * seq_bitmap[_list](), seq_cpumask[_list](), seq_nodemask[_list]() * seq_buf_bitmask() Signed-off-by: Tejun Heo <tj@kernel.org> Cc: Rusty Russell <rusty@rustcorp.com.au> Signed-off-by: Andrew Morton <akpm@linux-foundation.org> Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
528 lines
16 KiB
C
528 lines
16 KiB
C
#ifndef __LINUX_NODEMASK_H
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#define __LINUX_NODEMASK_H
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/*
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* Nodemasks provide a bitmap suitable for representing the
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* set of Node's in a system, one bit position per Node number.
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*
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* See detailed comments in the file linux/bitmap.h describing the
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* data type on which these nodemasks are based.
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*
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* For details of nodemask_parse_user(), see bitmap_parse_user() in
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* lib/bitmap.c. For details of nodelist_parse(), see bitmap_parselist(),
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* also in bitmap.c. For details of node_remap(), see bitmap_bitremap in
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* lib/bitmap.c. For details of nodes_remap(), see bitmap_remap in
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* lib/bitmap.c. For details of nodes_onto(), see bitmap_onto in
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* lib/bitmap.c. For details of nodes_fold(), see bitmap_fold in
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* lib/bitmap.c.
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*
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* The available nodemask operations are:
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*
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* void node_set(node, mask) turn on bit 'node' in mask
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* void node_clear(node, mask) turn off bit 'node' in mask
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* void nodes_setall(mask) set all bits
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* void nodes_clear(mask) clear all bits
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* int node_isset(node, mask) true iff bit 'node' set in mask
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* int node_test_and_set(node, mask) test and set bit 'node' in mask
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*
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* void nodes_and(dst, src1, src2) dst = src1 & src2 [intersection]
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* void nodes_or(dst, src1, src2) dst = src1 | src2 [union]
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* void nodes_xor(dst, src1, src2) dst = src1 ^ src2
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* void nodes_andnot(dst, src1, src2) dst = src1 & ~src2
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* void nodes_complement(dst, src) dst = ~src
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*
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* int nodes_equal(mask1, mask2) Does mask1 == mask2?
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* int nodes_intersects(mask1, mask2) Do mask1 and mask2 intersect?
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* int nodes_subset(mask1, mask2) Is mask1 a subset of mask2?
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* int nodes_empty(mask) Is mask empty (no bits sets)?
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* int nodes_full(mask) Is mask full (all bits sets)?
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* int nodes_weight(mask) Hamming weight - number of set bits
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*
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* void nodes_shift_right(dst, src, n) Shift right
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* void nodes_shift_left(dst, src, n) Shift left
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*
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* int first_node(mask) Number lowest set bit, or MAX_NUMNODES
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* int next_node(node, mask) Next node past 'node', or MAX_NUMNODES
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* int first_unset_node(mask) First node not set in mask, or
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* MAX_NUMNODES.
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*
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* nodemask_t nodemask_of_node(node) Return nodemask with bit 'node' set
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* NODE_MASK_ALL Initializer - all bits set
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* NODE_MASK_NONE Initializer - no bits set
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* unsigned long *nodes_addr(mask) Array of unsigned long's in mask
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*
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* int nodemask_parse_user(ubuf, ulen, mask) Parse ascii string as nodemask
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* int nodelist_parse(buf, map) Parse ascii string as nodelist
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* int node_remap(oldbit, old, new) newbit = map(old, new)(oldbit)
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* void nodes_remap(dst, src, old, new) *dst = map(old, new)(src)
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* void nodes_onto(dst, orig, relmap) *dst = orig relative to relmap
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* void nodes_fold(dst, orig, sz) dst bits = orig bits mod sz
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*
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* for_each_node_mask(node, mask) for-loop node over mask
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*
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* int num_online_nodes() Number of online Nodes
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* int num_possible_nodes() Number of all possible Nodes
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*
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* int node_random(mask) Random node with set bit in mask
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*
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* int node_online(node) Is some node online?
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* int node_possible(node) Is some node possible?
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*
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* node_set_online(node) set bit 'node' in node_online_map
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* node_set_offline(node) clear bit 'node' in node_online_map
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*
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* for_each_node(node) for-loop node over node_possible_map
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* for_each_online_node(node) for-loop node over node_online_map
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*
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* Subtlety:
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* 1) The 'type-checked' form of node_isset() causes gcc (3.3.2, anyway)
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* to generate slightly worse code. So use a simple one-line #define
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* for node_isset(), instead of wrapping an inline inside a macro, the
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* way we do the other calls.
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*
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* NODEMASK_SCRATCH
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* When doing above logical AND, OR, XOR, Remap operations the callers tend to
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* need temporary nodemask_t's on the stack. But if NODES_SHIFT is large,
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* nodemask_t's consume too much stack space. NODEMASK_SCRATCH is a helper
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* for such situations. See below and CPUMASK_ALLOC also.
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*/
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#include <linux/kernel.h>
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#include <linux/threads.h>
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#include <linux/bitmap.h>
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#include <linux/numa.h>
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typedef struct { DECLARE_BITMAP(bits, MAX_NUMNODES); } nodemask_t;
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extern nodemask_t _unused_nodemask_arg_;
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/**
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* nodemask_pr_args - printf args to output a nodemask
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* @maskp: nodemask to be printed
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*
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* Can be used to provide arguments for '%*pb[l]' when printing a nodemask.
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*/
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#define nodemask_pr_args(maskp) MAX_NUMNODES, (maskp)->bits
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/*
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* The inline keyword gives the compiler room to decide to inline, or
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* not inline a function as it sees best. However, as these functions
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* are called in both __init and non-__init functions, if they are not
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* inlined we will end up with a section mis-match error (of the type of
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* freeable items not being freed). So we must use __always_inline here
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* to fix the problem. If other functions in the future also end up in
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* this situation they will also need to be annotated as __always_inline
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*/
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#define node_set(node, dst) __node_set((node), &(dst))
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static __always_inline void __node_set(int node, volatile nodemask_t *dstp)
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{
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set_bit(node, dstp->bits);
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}
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#define node_clear(node, dst) __node_clear((node), &(dst))
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static inline void __node_clear(int node, volatile nodemask_t *dstp)
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{
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clear_bit(node, dstp->bits);
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}
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#define nodes_setall(dst) __nodes_setall(&(dst), MAX_NUMNODES)
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static inline void __nodes_setall(nodemask_t *dstp, unsigned int nbits)
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{
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bitmap_fill(dstp->bits, nbits);
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}
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#define nodes_clear(dst) __nodes_clear(&(dst), MAX_NUMNODES)
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static inline void __nodes_clear(nodemask_t *dstp, unsigned int nbits)
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{
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bitmap_zero(dstp->bits, nbits);
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}
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/* No static inline type checking - see Subtlety (1) above. */
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#define node_isset(node, nodemask) test_bit((node), (nodemask).bits)
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#define node_test_and_set(node, nodemask) \
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__node_test_and_set((node), &(nodemask))
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static inline int __node_test_and_set(int node, nodemask_t *addr)
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{
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return test_and_set_bit(node, addr->bits);
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}
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#define nodes_and(dst, src1, src2) \
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__nodes_and(&(dst), &(src1), &(src2), MAX_NUMNODES)
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static inline void __nodes_and(nodemask_t *dstp, const nodemask_t *src1p,
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const nodemask_t *src2p, unsigned int nbits)
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{
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bitmap_and(dstp->bits, src1p->bits, src2p->bits, nbits);
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}
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#define nodes_or(dst, src1, src2) \
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__nodes_or(&(dst), &(src1), &(src2), MAX_NUMNODES)
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static inline void __nodes_or(nodemask_t *dstp, const nodemask_t *src1p,
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const nodemask_t *src2p, unsigned int nbits)
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{
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bitmap_or(dstp->bits, src1p->bits, src2p->bits, nbits);
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}
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#define nodes_xor(dst, src1, src2) \
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__nodes_xor(&(dst), &(src1), &(src2), MAX_NUMNODES)
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static inline void __nodes_xor(nodemask_t *dstp, const nodemask_t *src1p,
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const nodemask_t *src2p, unsigned int nbits)
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{
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bitmap_xor(dstp->bits, src1p->bits, src2p->bits, nbits);
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}
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#define nodes_andnot(dst, src1, src2) \
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__nodes_andnot(&(dst), &(src1), &(src2), MAX_NUMNODES)
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static inline void __nodes_andnot(nodemask_t *dstp, const nodemask_t *src1p,
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const nodemask_t *src2p, unsigned int nbits)
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{
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bitmap_andnot(dstp->bits, src1p->bits, src2p->bits, nbits);
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}
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#define nodes_complement(dst, src) \
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__nodes_complement(&(dst), &(src), MAX_NUMNODES)
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static inline void __nodes_complement(nodemask_t *dstp,
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const nodemask_t *srcp, unsigned int nbits)
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{
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bitmap_complement(dstp->bits, srcp->bits, nbits);
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}
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#define nodes_equal(src1, src2) \
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__nodes_equal(&(src1), &(src2), MAX_NUMNODES)
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static inline int __nodes_equal(const nodemask_t *src1p,
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const nodemask_t *src2p, unsigned int nbits)
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{
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return bitmap_equal(src1p->bits, src2p->bits, nbits);
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}
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#define nodes_intersects(src1, src2) \
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__nodes_intersects(&(src1), &(src2), MAX_NUMNODES)
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static inline int __nodes_intersects(const nodemask_t *src1p,
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const nodemask_t *src2p, unsigned int nbits)
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{
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return bitmap_intersects(src1p->bits, src2p->bits, nbits);
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}
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#define nodes_subset(src1, src2) \
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__nodes_subset(&(src1), &(src2), MAX_NUMNODES)
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static inline int __nodes_subset(const nodemask_t *src1p,
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const nodemask_t *src2p, unsigned int nbits)
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{
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return bitmap_subset(src1p->bits, src2p->bits, nbits);
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}
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#define nodes_empty(src) __nodes_empty(&(src), MAX_NUMNODES)
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static inline int __nodes_empty(const nodemask_t *srcp, unsigned int nbits)
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{
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return bitmap_empty(srcp->bits, nbits);
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}
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#define nodes_full(nodemask) __nodes_full(&(nodemask), MAX_NUMNODES)
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static inline int __nodes_full(const nodemask_t *srcp, unsigned int nbits)
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{
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return bitmap_full(srcp->bits, nbits);
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}
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#define nodes_weight(nodemask) __nodes_weight(&(nodemask), MAX_NUMNODES)
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static inline int __nodes_weight(const nodemask_t *srcp, unsigned int nbits)
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{
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return bitmap_weight(srcp->bits, nbits);
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}
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#define nodes_shift_right(dst, src, n) \
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__nodes_shift_right(&(dst), &(src), (n), MAX_NUMNODES)
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static inline void __nodes_shift_right(nodemask_t *dstp,
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const nodemask_t *srcp, int n, int nbits)
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{
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bitmap_shift_right(dstp->bits, srcp->bits, n, nbits);
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}
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#define nodes_shift_left(dst, src, n) \
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__nodes_shift_left(&(dst), &(src), (n), MAX_NUMNODES)
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static inline void __nodes_shift_left(nodemask_t *dstp,
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const nodemask_t *srcp, int n, int nbits)
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{
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bitmap_shift_left(dstp->bits, srcp->bits, n, nbits);
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}
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/* FIXME: better would be to fix all architectures to never return
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> MAX_NUMNODES, then the silly min_ts could be dropped. */
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#define first_node(src) __first_node(&(src))
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static inline int __first_node(const nodemask_t *srcp)
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{
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return min_t(int, MAX_NUMNODES, find_first_bit(srcp->bits, MAX_NUMNODES));
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}
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#define next_node(n, src) __next_node((n), &(src))
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static inline int __next_node(int n, const nodemask_t *srcp)
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{
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return min_t(int,MAX_NUMNODES,find_next_bit(srcp->bits, MAX_NUMNODES, n+1));
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}
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static inline void init_nodemask_of_node(nodemask_t *mask, int node)
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{
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nodes_clear(*mask);
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node_set(node, *mask);
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}
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#define nodemask_of_node(node) \
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({ \
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typeof(_unused_nodemask_arg_) m; \
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if (sizeof(m) == sizeof(unsigned long)) { \
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m.bits[0] = 1UL << (node); \
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} else { \
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init_nodemask_of_node(&m, (node)); \
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} \
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m; \
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})
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#define first_unset_node(mask) __first_unset_node(&(mask))
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static inline int __first_unset_node(const nodemask_t *maskp)
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{
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return min_t(int,MAX_NUMNODES,
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find_first_zero_bit(maskp->bits, MAX_NUMNODES));
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}
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#define NODE_MASK_LAST_WORD BITMAP_LAST_WORD_MASK(MAX_NUMNODES)
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#if MAX_NUMNODES <= BITS_PER_LONG
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#define NODE_MASK_ALL \
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((nodemask_t) { { \
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[BITS_TO_LONGS(MAX_NUMNODES)-1] = NODE_MASK_LAST_WORD \
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} })
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#else
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#define NODE_MASK_ALL \
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((nodemask_t) { { \
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[0 ... BITS_TO_LONGS(MAX_NUMNODES)-2] = ~0UL, \
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[BITS_TO_LONGS(MAX_NUMNODES)-1] = NODE_MASK_LAST_WORD \
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} })
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#endif
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#define NODE_MASK_NONE \
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((nodemask_t) { { \
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[0 ... BITS_TO_LONGS(MAX_NUMNODES)-1] = 0UL \
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} })
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#define nodes_addr(src) ((src).bits)
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#define nodemask_parse_user(ubuf, ulen, dst) \
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__nodemask_parse_user((ubuf), (ulen), &(dst), MAX_NUMNODES)
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static inline int __nodemask_parse_user(const char __user *buf, int len,
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nodemask_t *dstp, int nbits)
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{
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return bitmap_parse_user(buf, len, dstp->bits, nbits);
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}
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#define nodelist_parse(buf, dst) __nodelist_parse((buf), &(dst), MAX_NUMNODES)
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static inline int __nodelist_parse(const char *buf, nodemask_t *dstp, int nbits)
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{
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return bitmap_parselist(buf, dstp->bits, nbits);
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}
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#define node_remap(oldbit, old, new) \
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__node_remap((oldbit), &(old), &(new), MAX_NUMNODES)
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static inline int __node_remap(int oldbit,
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const nodemask_t *oldp, const nodemask_t *newp, int nbits)
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{
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return bitmap_bitremap(oldbit, oldp->bits, newp->bits, nbits);
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}
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#define nodes_remap(dst, src, old, new) \
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__nodes_remap(&(dst), &(src), &(old), &(new), MAX_NUMNODES)
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static inline void __nodes_remap(nodemask_t *dstp, const nodemask_t *srcp,
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const nodemask_t *oldp, const nodemask_t *newp, int nbits)
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{
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bitmap_remap(dstp->bits, srcp->bits, oldp->bits, newp->bits, nbits);
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}
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#define nodes_onto(dst, orig, relmap) \
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__nodes_onto(&(dst), &(orig), &(relmap), MAX_NUMNODES)
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static inline void __nodes_onto(nodemask_t *dstp, const nodemask_t *origp,
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const nodemask_t *relmapp, int nbits)
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{
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bitmap_onto(dstp->bits, origp->bits, relmapp->bits, nbits);
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}
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#define nodes_fold(dst, orig, sz) \
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__nodes_fold(&(dst), &(orig), sz, MAX_NUMNODES)
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static inline void __nodes_fold(nodemask_t *dstp, const nodemask_t *origp,
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int sz, int nbits)
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{
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bitmap_fold(dstp->bits, origp->bits, sz, nbits);
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}
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#if MAX_NUMNODES > 1
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#define for_each_node_mask(node, mask) \
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for ((node) = first_node(mask); \
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(node) < MAX_NUMNODES; \
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(node) = next_node((node), (mask)))
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#else /* MAX_NUMNODES == 1 */
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#define for_each_node_mask(node, mask) \
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if (!nodes_empty(mask)) \
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for ((node) = 0; (node) < 1; (node)++)
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#endif /* MAX_NUMNODES */
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/*
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* Bitmasks that are kept for all the nodes.
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*/
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enum node_states {
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N_POSSIBLE, /* The node could become online at some point */
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N_ONLINE, /* The node is online */
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N_NORMAL_MEMORY, /* The node has regular memory */
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#ifdef CONFIG_HIGHMEM
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N_HIGH_MEMORY, /* The node has regular or high memory */
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#else
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N_HIGH_MEMORY = N_NORMAL_MEMORY,
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#endif
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#ifdef CONFIG_MOVABLE_NODE
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N_MEMORY, /* The node has memory(regular, high, movable) */
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#else
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N_MEMORY = N_HIGH_MEMORY,
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#endif
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N_CPU, /* The node has one or more cpus */
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NR_NODE_STATES
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};
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/*
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* The following particular system nodemasks and operations
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* on them manage all possible and online nodes.
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*/
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extern nodemask_t node_states[NR_NODE_STATES];
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#if MAX_NUMNODES > 1
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static inline int node_state(int node, enum node_states state)
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{
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return node_isset(node, node_states[state]);
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}
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static inline void node_set_state(int node, enum node_states state)
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{
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__node_set(node, &node_states[state]);
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}
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static inline void node_clear_state(int node, enum node_states state)
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{
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__node_clear(node, &node_states[state]);
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}
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static inline int num_node_state(enum node_states state)
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{
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return nodes_weight(node_states[state]);
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|
}
|
|
|
|
#define for_each_node_state(__node, __state) \
|
|
for_each_node_mask((__node), node_states[__state])
|
|
|
|
#define first_online_node first_node(node_states[N_ONLINE])
|
|
#define first_memory_node first_node(node_states[N_MEMORY])
|
|
static inline int next_online_node(int nid)
|
|
{
|
|
return next_node(nid, node_states[N_ONLINE]);
|
|
}
|
|
static inline int next_memory_node(int nid)
|
|
{
|
|
return next_node(nid, node_states[N_MEMORY]);
|
|
}
|
|
|
|
extern int nr_node_ids;
|
|
extern int nr_online_nodes;
|
|
|
|
static inline void node_set_online(int nid)
|
|
{
|
|
node_set_state(nid, N_ONLINE);
|
|
nr_online_nodes = num_node_state(N_ONLINE);
|
|
}
|
|
|
|
static inline void node_set_offline(int nid)
|
|
{
|
|
node_clear_state(nid, N_ONLINE);
|
|
nr_online_nodes = num_node_state(N_ONLINE);
|
|
}
|
|
|
|
#else
|
|
|
|
static inline int node_state(int node, enum node_states state)
|
|
{
|
|
return node == 0;
|
|
}
|
|
|
|
static inline void node_set_state(int node, enum node_states state)
|
|
{
|
|
}
|
|
|
|
static inline void node_clear_state(int node, enum node_states state)
|
|
{
|
|
}
|
|
|
|
static inline int num_node_state(enum node_states state)
|
|
{
|
|
return 1;
|
|
}
|
|
|
|
#define for_each_node_state(node, __state) \
|
|
for ( (node) = 0; (node) == 0; (node) = 1)
|
|
|
|
#define first_online_node 0
|
|
#define first_memory_node 0
|
|
#define next_online_node(nid) (MAX_NUMNODES)
|
|
#define nr_node_ids 1
|
|
#define nr_online_nodes 1
|
|
|
|
#define node_set_online(node) node_set_state((node), N_ONLINE)
|
|
#define node_set_offline(node) node_clear_state((node), N_ONLINE)
|
|
|
|
#endif
|
|
|
|
#if defined(CONFIG_NUMA) && (MAX_NUMNODES > 1)
|
|
extern int node_random(const nodemask_t *maskp);
|
|
#else
|
|
static inline int node_random(const nodemask_t *mask)
|
|
{
|
|
return 0;
|
|
}
|
|
#endif
|
|
|
|
#define node_online_map node_states[N_ONLINE]
|
|
#define node_possible_map node_states[N_POSSIBLE]
|
|
|
|
#define num_online_nodes() num_node_state(N_ONLINE)
|
|
#define num_possible_nodes() num_node_state(N_POSSIBLE)
|
|
#define node_online(node) node_state((node), N_ONLINE)
|
|
#define node_possible(node) node_state((node), N_POSSIBLE)
|
|
|
|
#define for_each_node(node) for_each_node_state(node, N_POSSIBLE)
|
|
#define for_each_online_node(node) for_each_node_state(node, N_ONLINE)
|
|
|
|
/*
|
|
* For nodemask scrach area.
|
|
* NODEMASK_ALLOC(type, name) allocates an object with a specified type and
|
|
* name.
|
|
*/
|
|
#if NODES_SHIFT > 8 /* nodemask_t > 256 bytes */
|
|
#define NODEMASK_ALLOC(type, name, gfp_flags) \
|
|
type *name = kmalloc(sizeof(*name), gfp_flags)
|
|
#define NODEMASK_FREE(m) kfree(m)
|
|
#else
|
|
#define NODEMASK_ALLOC(type, name, gfp_flags) type _##name, *name = &_##name
|
|
#define NODEMASK_FREE(m) do {} while (0)
|
|
#endif
|
|
|
|
/* A example struture for using NODEMASK_ALLOC, used in mempolicy. */
|
|
struct nodemask_scratch {
|
|
nodemask_t mask1;
|
|
nodemask_t mask2;
|
|
};
|
|
|
|
#define NODEMASK_SCRATCH(x) \
|
|
NODEMASK_ALLOC(struct nodemask_scratch, x, \
|
|
GFP_KERNEL | __GFP_NORETRY)
|
|
#define NODEMASK_SCRATCH_FREE(x) NODEMASK_FREE(x)
|
|
|
|
|
|
#endif /* __LINUX_NODEMASK_H */
|