📄 malloc.h
字号:
"UFS quota", /* 27 M_DQUOT */ \
"UFS mount", /* 28 M_UFSMNT */ \
"shm", /* 29 M_SHM */ \
"VM map", /* 30 M_VMMAP */ \
"VM mapent", /* 31 M_VMMAPENT */ \
"VM object", /* 32 M_VMOBJ */ \
"VM objhash", /* 33 M_VMOBJHASH */ \
"VM pmap", /* 34 M_VMPMAP */ \
"VM pvmap", /* 35 M_VMPVENT */ \
"VM pager", /* 36 M_VMPAGER */ \
"VM pgdata", /* 37 M_VMPGDATA */ \
"file", /* 38 M_FILE */ \
"file desc", /* 39 M_FILEDESC */ \
"lockf", /* 40 M_LOCKF */ \
"proc", /* 41 M_PROC */ \
"subproc", /* 42 M_SUBPROC */ \
"LFS segment", /* 43 M_SEGMENT */ \
"LFS node", /* 44 M_LFSNODE */ \
"FFS node", /* 45 M_FFSNODE */ \
"MFS node", /* 46 M_MFSNODE */ \
"NQNFS Lease", /* 47 M_NQLEASE */ \
"NQNFS Host", /* 48 M_NQMHOST */ \
"Export Host", /* 49 M_NETADDR */ \
"NFS srvsock", /* 50 M_NFSSVC */ \
"NFS uid", /* 51 M_NFSUID */ \
"NFS daemon", /* 52 M_NFSD */ \
"ip_moptions", /* 53 M_IPMOPTS */ \
"in_multi", /* 54 M_IPMADDR */ \
"ether_multi", /* 55 M_IFMADDR */ \
"mrt", /* 56 M_MRTABLE */ \
"ISOFS mount", /* 57 M_ISOFSMNT */ \
"ISOFS node", /* 58 M_ISOFSNODE */ \
"MSDOSFS mount", /* 59 M_MSDOSFSMNT */ \
"MSDOSFS fat", /* 60 M_MSDOSFSFAT */ \
"MSDOSFS node", /* 61 M_MSDOSFSNODE */ \
"ttys", /* 62 M_TTYS */ \
"exec", /* 63 M_EXEC */ \
"miscfs mount", /* 64 M_MISCFSMNT */ \
"miscfs node", /* 65 M_MISCFSNODE */ \
"adosfs mount", /* 66 M_ADOSFSMNT */ \
"adosfs node", /* 67 M_ADOSFSNODE */ \
"adosfs anode", /* 68 M_ANODE */ \
"IP queue ent", /* 69 M_IPQ */ \
"afs", /* 70 M_AFS */ \
"adosfs bitmap", /* 71 M_ADOSFSBITMAP */ \
"EXT2FS node", /* 72 M_EXT2FSNODE */ \
"pfil", /* 73 M_PFIL */ \
"pfkey data", /* 74 M_PFKEY */ \
"tdb", /* 75 M_TDB */ \
"xform_data", /* 76 M_XDATA */ \
"vfs", /* 77 M_VFS */ \
"pagedep", /* 78 M_PAGEDEP */ \
"inodedep", /* 79 M_INODEDEP */ \
"newblk", /* 80 M_NEWBLK */ \
"bmsafemap", /* 81 M_BMSAFEMAP */ \
"allocdirect", /* 82 M_ALLOCDIRECT */ \
"indirdep", /* 83 M_INDIRDEP */ \
"allocindir", /* 84 M_ALLOCINDIR */ \
"freefrag", /* 85 M_FREEFRAG */ \
"freeblks", /* 86 M_FREEBLKS */ \
"freefile", /* 87 M_FREEFILE */ \
"diradd", /* 88 M_DIRADD */ \
"mkdir", /* 89 M_MKDIR */ \
"dirrem", /* 90 M_DIRREM */ \
"VM page bucket", /* 91 M_VMPBUCKET */ \
"VM swap", /* 92 M_VMSWAP */ \
"IPv6 discq", /* 93 M_DISCQ */ \
"IPv6 fragq", /* 94 M_FRAGQ */ \
"Sec Assoc", /* 95 M_SECA */ \
"IPv6 if info", /* 96 M_I6IFP */ \
"RaidFrame data", /* 97 M_RAIDFRAME */ \
"UVM amap", /* 98 M_UVMAMAP */ \
"UVM aobj", /* 99 M_UVMAOBJ */ \
"pool", /* 100 M_POOL */ \
"USB", /* 101 M_USB */ \
"USB device", /* 102 M_USBDEV */ \
"USB HC", /* 103 M_USBHC */ \
"pipe", /* 104 M_PIPE */ \
"memdesc", /* 105 M_MEMDESC */ \
NULL, \
NULL, NULL, NULL, NULL, NULL, \
NULL, NULL, NULL, NULL, NULL, \
NULL, NULL, NULL, NULL, NULL, \
NULL, \
"ip6_options", /* 123 M_IP6OPT */ \
"NDP", /* 124 M_IP6NDP */ \
"ip6rr", /* 125 M_IP6RR */ \
"rp_addr", /* 126 M_RR_ADDR */ \
"temp", /* 127 M_TEMP */ \
}
#ifndef __ECOS
struct kmemstats {
long ks_inuse; /* # of packets of this type currently in use */
long ks_calls; /* total packets of this type ever allocated */
long ks_memuse; /* total memory held in bytes */
u_short ks_limblocks; /* number of times blocked for hitting limit */
u_short ks_mapblocks; /* number of times blocked for kernel map */
long ks_maxused; /* maximum number ever used */
long ks_limit; /* most that are allowed to exist */
long ks_size; /* sizes of this thing that are allocated */
long ks_spare;
};
/*
* Array of descriptors that describe the contents of each page
*/
struct kmemusage {
short ku_indx; /* bucket index */
union {
u_short freecnt;/* for small allocations, free pieces in page */
u_short pagecnt;/* for large allocations, pages alloced */
} ku_un;
};
#define ku_freecnt ku_un.freecnt
#define ku_pagecnt ku_un.pagecnt
/*
* Set of buckets for each size of memory block that is retained
*/
struct kmembuckets {
caddr_t kb_next; /* list of free blocks */
caddr_t kb_last; /* last free block */
long kb_calls; /* total calls to allocate this size */
long kb_total; /* total number of blocks allocated */
long kb_totalfree; /* # of free elements in this bucket */
long kb_elmpercl; /* # of elements in this sized allocation */
long kb_highwat; /* high water mark */
long kb_couldfree; /* over high water mark and could free */
};
#ifdef _KERNEL
#define MINALLOCSIZE (1 << MINBUCKET)
#define BUCKETINDX(size) \
((size) <= (MINALLOCSIZE * 128) \
? (size) <= (MINALLOCSIZE * 8) \
? (size) <= (MINALLOCSIZE * 2) \
? (size) <= (MINALLOCSIZE * 1) \
? (MINBUCKET + 0) \
: (MINBUCKET + 1) \
: (size) <= (MINALLOCSIZE * 4) \
? (MINBUCKET + 2) \
: (MINBUCKET + 3) \
: (size) <= (MINALLOCSIZE* 32) \
? (size) <= (MINALLOCSIZE * 16) \
? (MINBUCKET + 4) \
: (MINBUCKET + 5) \
: (size) <= (MINALLOCSIZE * 64) \
? (MINBUCKET + 6) \
: (MINBUCKET + 7) \
: (size) <= (MINALLOCSIZE * 2048) \
? (size) <= (MINALLOCSIZE * 512) \
? (size) <= (MINALLOCSIZE * 256) \
? (MINBUCKET + 8) \
: (MINBUCKET + 9) \
: (size) <= (MINALLOCSIZE * 1024) \
? (MINBUCKET + 10) \
: (MINBUCKET + 11) \
: (size) <= (MINALLOCSIZE * 8192) \
? (size) <= (MINALLOCSIZE * 4096) \
? (MINBUCKET + 12) \
: (MINBUCKET + 13) \
: (size) <= (MINALLOCSIZE * 16384) \
? (MINBUCKET + 14) \
: (MINBUCKET + 15))
/*
* Turn virtual addresses into kmem map indicies
*/
#define kmemxtob(alloc) (kmembase + (alloc) * NBPG)
#define btokmemx(addr) (((caddr_t)(addr) - kmembase) / NBPG)
#define btokup(addr) (&kmemusage[((caddr_t)(addr) - kmembase) >> CLSHIFT])
/*
* Macro versions for the usual cases of malloc/free
*/
#if defined(KMEMSTATS) || defined(DIAGNOSTIC) || defined(_LKM)
#define MALLOC(space, cast, size, type, flags) \
(space) = (cast)malloc((u_long)(size), type, flags)
#define FREE(addr, type) free((caddr_t)(addr), type)
#else /* do not collect statistics */
#define MALLOC(space, cast, size, type, flags) do { \
register struct kmembuckets *kbp = &bucket[BUCKETINDX(size)]; \
long s = splimp(); \
if (kbp->kb_next == NULL) { \
(space) = (cast)malloc((u_long)(size), type, flags); \
} else { \
(space) = (cast)kbp->kb_next; \
kbp->kb_next = *(caddr_t *)(space); \
} \
splx(s); \
} while (0)
#define FREE(addr, type) do { \
register struct kmembuckets *kbp; \
register struct kmemusage *kup = btokup(addr); \
long s = splimp(); \
if (1 << kup->ku_indx > MAXALLOCSAVE) { \
free((caddr_t)(addr), type); \
} else { \
kbp = &bucket[kup->ku_indx]; \
if (kbp->kb_next == NULL) \
kbp->kb_next = (caddr_t)(addr); \
else \
*(caddr_t *)(kbp->kb_last) = (caddr_t)(addr); \
*(caddr_t *)(addr) = NULL; \
kbp->kb_last = (caddr_t)(addr); \
} \
splx(s); \
} while(0)
#endif /* do not collect statistics */
extern struct kmemstats kmemstats[];
extern struct kmemusage *kmemusage;
extern char *kmembase;
extern struct kmembuckets bucket[];
extern void *malloc __P((unsigned long size, int type, int flags));
extern void free __P((void *addr, int type));
#endif /* _KERNEL */
#endif // __ECOS
#if defined(__ECOS) && defined(_KERNEL)
extern void *cyg_net_malloc(u_long size, int type, int flags);
extern void cyg_net_free(caddr_t addr, int type);
#define MALLOC(space, cast, size, type, flags) \
(space) = (cast)cyg_net_malloc((u_long)(size), type, flags)
#define malloc(size, type, flags) cyg_net_malloc((u_long)size, type, flags)
#define FREE(addr, type) cyg_net_free((caddr_t)(addr), type)
#define free(addr, type) FREE(addr, type)
#endif
#endif /* !_SYS_MALLOC_H_ */
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