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4a92379bdf
Having the trace calls defined in the always inlined kmalloc functions in include/linux/slub_def.h causes a lot of code duplication as the trace functions get instantiated for each kamalloc call site. This can simply be removed by pushing the trace calls down into the functions in slub.c. On my x86_64 built this patch shrinks the code size of the kernel by approx 36K and also shrinks the code size of many modules -- too many to list here ;) size vmlinux (2.6.36) reports text data bss dec hex filename 5410611 743172 828928 6982711 6a8c37 vmlinux 5373738 744244 828928 6946910 6a005e vmlinux + patch The resulting kernel has had some testing & kmalloc trace still seems to work. This patch - moves trace_kmalloc out of the inlined kmalloc() and pushes it down into kmem_cache_alloc_trace() so this it only get instantiated once. - rename kmem_cache_alloc_notrace() to kmem_cache_alloc_trace() to indicate that now is does have tracing. (maybe this would better being called something like kmalloc_kmem_cache ?) - adds a new function kmalloc_order() to handle allocation and tracing of large allocations of page order. - removes tracing from the inlined kmalloc_large() replacing them with a call to kmalloc_order(); - move tracing out of inlined kmalloc_node() and pushing it down into kmem_cache_alloc_node_trace - rename kmem_cache_alloc_node_notrace() to kmem_cache_alloc_node_trace() - removes the include of trace/events/kmem.h from slub_def.h. v2 - keep kmalloc_order_trace inline when !CONFIG_TRACE Signed-off-by: Richard Kennedy <richard@rsk.demon.co.uk> Signed-off-by: Pekka Enberg <penberg@kernel.org>
302 lines
8.2 KiB
C
302 lines
8.2 KiB
C
#ifndef _LINUX_SLUB_DEF_H
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#define _LINUX_SLUB_DEF_H
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/*
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* SLUB : A Slab allocator without object queues.
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*
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* (C) 2007 SGI, Christoph Lameter
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*/
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#include <linux/types.h>
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#include <linux/gfp.h>
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#include <linux/workqueue.h>
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#include <linux/kobject.h>
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#include <linux/kmemleak.h>
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enum stat_item {
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ALLOC_FASTPATH, /* Allocation from cpu slab */
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ALLOC_SLOWPATH, /* Allocation by getting a new cpu slab */
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FREE_FASTPATH, /* Free to cpu slub */
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FREE_SLOWPATH, /* Freeing not to cpu slab */
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FREE_FROZEN, /* Freeing to frozen slab */
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FREE_ADD_PARTIAL, /* Freeing moves slab to partial list */
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FREE_REMOVE_PARTIAL, /* Freeing removes last object */
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ALLOC_FROM_PARTIAL, /* Cpu slab acquired from partial list */
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ALLOC_SLAB, /* Cpu slab acquired from page allocator */
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ALLOC_REFILL, /* Refill cpu slab from slab freelist */
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FREE_SLAB, /* Slab freed to the page allocator */
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CPUSLAB_FLUSH, /* Abandoning of the cpu slab */
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DEACTIVATE_FULL, /* Cpu slab was full when deactivated */
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DEACTIVATE_EMPTY, /* Cpu slab was empty when deactivated */
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DEACTIVATE_TO_HEAD, /* Cpu slab was moved to the head of partials */
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DEACTIVATE_TO_TAIL, /* Cpu slab was moved to the tail of partials */
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DEACTIVATE_REMOTE_FREES,/* Slab contained remotely freed objects */
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ORDER_FALLBACK, /* Number of times fallback was necessary */
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NR_SLUB_STAT_ITEMS };
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struct kmem_cache_cpu {
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void **freelist; /* Pointer to first free per cpu object */
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struct page *page; /* The slab from which we are allocating */
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int node; /* The node of the page (or -1 for debug) */
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#ifdef CONFIG_SLUB_STATS
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unsigned stat[NR_SLUB_STAT_ITEMS];
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#endif
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};
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struct kmem_cache_node {
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spinlock_t list_lock; /* Protect partial list and nr_partial */
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unsigned long nr_partial;
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struct list_head partial;
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#ifdef CONFIG_SLUB_DEBUG
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atomic_long_t nr_slabs;
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atomic_long_t total_objects;
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struct list_head full;
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#endif
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};
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/*
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* Word size structure that can be atomically updated or read and that
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* contains both the order and the number of objects that a slab of the
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* given order would contain.
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*/
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struct kmem_cache_order_objects {
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unsigned long x;
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};
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/*
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* Slab cache management.
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*/
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struct kmem_cache {
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struct kmem_cache_cpu __percpu *cpu_slab;
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/* Used for retriving partial slabs etc */
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unsigned long flags;
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int size; /* The size of an object including meta data */
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int objsize; /* The size of an object without meta data */
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int offset; /* Free pointer offset. */
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struct kmem_cache_order_objects oo;
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/* Allocation and freeing of slabs */
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struct kmem_cache_order_objects max;
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struct kmem_cache_order_objects min;
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gfp_t allocflags; /* gfp flags to use on each alloc */
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int refcount; /* Refcount for slab cache destroy */
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void (*ctor)(void *);
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int inuse; /* Offset to metadata */
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int align; /* Alignment */
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unsigned long min_partial;
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const char *name; /* Name (only for display!) */
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struct list_head list; /* List of slab caches */
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#ifdef CONFIG_SYSFS
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struct kobject kobj; /* For sysfs */
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#endif
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#ifdef CONFIG_NUMA
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/*
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* Defragmentation by allocating from a remote node.
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*/
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int remote_node_defrag_ratio;
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#endif
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struct kmem_cache_node *node[MAX_NUMNODES];
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};
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/*
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* Kmalloc subsystem.
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*/
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#if defined(ARCH_DMA_MINALIGN) && ARCH_DMA_MINALIGN > 8
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#define KMALLOC_MIN_SIZE ARCH_DMA_MINALIGN
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#else
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#define KMALLOC_MIN_SIZE 8
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#endif
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#define KMALLOC_SHIFT_LOW ilog2(KMALLOC_MIN_SIZE)
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#ifdef ARCH_DMA_MINALIGN
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#define ARCH_KMALLOC_MINALIGN ARCH_DMA_MINALIGN
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#else
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#define ARCH_KMALLOC_MINALIGN __alignof__(unsigned long long)
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#endif
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#ifndef ARCH_SLAB_MINALIGN
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#define ARCH_SLAB_MINALIGN __alignof__(unsigned long long)
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#endif
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/*
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* Maximum kmalloc object size handled by SLUB. Larger object allocations
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* are passed through to the page allocator. The page allocator "fastpath"
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* is relatively slow so we need this value sufficiently high so that
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* performance critical objects are allocated through the SLUB fastpath.
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*
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* This should be dropped to PAGE_SIZE / 2 once the page allocator
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* "fastpath" becomes competitive with the slab allocator fastpaths.
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*/
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#define SLUB_MAX_SIZE (2 * PAGE_SIZE)
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#define SLUB_PAGE_SHIFT (PAGE_SHIFT + 2)
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#ifdef CONFIG_ZONE_DMA
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#define SLUB_DMA __GFP_DMA
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#else
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/* Disable DMA functionality */
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#define SLUB_DMA (__force gfp_t)0
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#endif
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/*
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* We keep the general caches in an array of slab caches that are used for
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* 2^x bytes of allocations.
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*/
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extern struct kmem_cache *kmalloc_caches[SLUB_PAGE_SHIFT];
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/*
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* Sorry that the following has to be that ugly but some versions of GCC
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* have trouble with constant propagation and loops.
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*/
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static __always_inline int kmalloc_index(size_t size)
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{
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if (!size)
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return 0;
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if (size <= KMALLOC_MIN_SIZE)
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return KMALLOC_SHIFT_LOW;
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if (KMALLOC_MIN_SIZE <= 32 && size > 64 && size <= 96)
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return 1;
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if (KMALLOC_MIN_SIZE <= 64 && size > 128 && size <= 192)
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return 2;
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if (size <= 8) return 3;
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if (size <= 16) return 4;
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if (size <= 32) return 5;
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if (size <= 64) return 6;
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if (size <= 128) return 7;
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if (size <= 256) return 8;
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if (size <= 512) return 9;
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if (size <= 1024) return 10;
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if (size <= 2 * 1024) return 11;
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if (size <= 4 * 1024) return 12;
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/*
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* The following is only needed to support architectures with a larger page
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* size than 4k.
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*/
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if (size <= 8 * 1024) return 13;
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if (size <= 16 * 1024) return 14;
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if (size <= 32 * 1024) return 15;
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if (size <= 64 * 1024) return 16;
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if (size <= 128 * 1024) return 17;
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if (size <= 256 * 1024) return 18;
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if (size <= 512 * 1024) return 19;
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if (size <= 1024 * 1024) return 20;
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if (size <= 2 * 1024 * 1024) return 21;
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return -1;
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/*
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* What we really wanted to do and cannot do because of compiler issues is:
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* int i;
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* for (i = KMALLOC_SHIFT_LOW; i <= KMALLOC_SHIFT_HIGH; i++)
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* if (size <= (1 << i))
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* return i;
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*/
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}
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/*
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* Find the slab cache for a given combination of allocation flags and size.
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*
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* This ought to end up with a global pointer to the right cache
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* in kmalloc_caches.
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*/
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static __always_inline struct kmem_cache *kmalloc_slab(size_t size)
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{
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int index = kmalloc_index(size);
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if (index == 0)
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return NULL;
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return kmalloc_caches[index];
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}
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void *kmem_cache_alloc(struct kmem_cache *, gfp_t);
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void *__kmalloc(size_t size, gfp_t flags);
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static __always_inline void *
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kmalloc_order(size_t size, gfp_t flags, unsigned int order)
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{
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void *ret = (void *) __get_free_pages(flags | __GFP_COMP, order);
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kmemleak_alloc(ret, size, 1, flags);
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return ret;
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}
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#ifdef CONFIG_TRACING
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extern void *
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kmem_cache_alloc_trace(struct kmem_cache *s, gfp_t gfpflags, size_t size);
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extern void *kmalloc_order_trace(size_t size, gfp_t flags, unsigned int order);
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#else
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static __always_inline void *
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kmem_cache_alloc_trace(struct kmem_cache *s, gfp_t gfpflags, size_t size)
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{
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return kmem_cache_alloc(s, gfpflags);
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}
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static __always_inline void *
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kmalloc_order_trace(size_t size, gfp_t flags, unsigned int order)
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{
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return kmalloc_order(size, flags, order);
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}
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#endif
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static __always_inline void *kmalloc_large(size_t size, gfp_t flags)
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{
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unsigned int order = get_order(size);
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return kmalloc_order_trace(size, flags, order);
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}
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static __always_inline void *kmalloc(size_t size, gfp_t flags)
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{
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if (__builtin_constant_p(size)) {
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if (size > SLUB_MAX_SIZE)
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return kmalloc_large(size, flags);
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if (!(flags & SLUB_DMA)) {
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struct kmem_cache *s = kmalloc_slab(size);
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if (!s)
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return ZERO_SIZE_PTR;
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return kmem_cache_alloc_trace(s, flags, size);
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}
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}
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return __kmalloc(size, flags);
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}
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#ifdef CONFIG_NUMA
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void *__kmalloc_node(size_t size, gfp_t flags, int node);
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void *kmem_cache_alloc_node(struct kmem_cache *, gfp_t flags, int node);
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#ifdef CONFIG_TRACING
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extern void *kmem_cache_alloc_node_trace(struct kmem_cache *s,
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gfp_t gfpflags,
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int node, size_t size);
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#else
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static __always_inline void *
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kmem_cache_alloc_node_trace(struct kmem_cache *s,
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gfp_t gfpflags,
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int node, size_t size)
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{
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return kmem_cache_alloc_node(s, gfpflags, node);
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}
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#endif
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static __always_inline void *kmalloc_node(size_t size, gfp_t flags, int node)
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{
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if (__builtin_constant_p(size) &&
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size <= SLUB_MAX_SIZE && !(flags & SLUB_DMA)) {
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struct kmem_cache *s = kmalloc_slab(size);
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if (!s)
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return ZERO_SIZE_PTR;
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return kmem_cache_alloc_node_trace(s, flags, node, size);
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}
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return __kmalloc_node(size, flags, node);
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}
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#endif
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#endif /* _LINUX_SLUB_DEF_H */
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