src/common/malloc.c

/* Copyright (c) 1991 Regents of the University of California */

#ifndef lint
static char SCCSid[] = "$SunId$ LBL";
#endif

/*
 * Fast malloc for memory hogs and VM environments.
 * Performs a minimum of searching through free lists.
 * malloc(), realloc() and free() use buckets
 *      containing blocks in powers of two, similar to CIT routines.
 * bfree() puts memory from any source into malloc free lists.
 * bmalloc() doesn't keep track of free lists -- it's usually
 *      just a buffered call to sbrk(2).  However, bmalloc will
 *      call mscrounge() if sbrk fails.
 * mscrounge() returns whatever free memory it can find to satisfy the
 *      request along with the number of bytes (modified).
 * mcompact() takes the same arguments as mscrounge() (and is in fact
 *      called by mscrounge() under dire circumstances), but it uses
 *      memory compaction to return a larger block.  (MCOMP)
 *
 *      Greg Ward       Lawrence Berkeley Laboratory
 */

#include  <errno.h>

#ifdef MSTATS
#include  <stdio.h>
static unsigned b_nsbrked = 0;
static unsigned b_nalloced = 0;
static unsigned b_nfreed = 0;
static unsigned b_nscrounged = 0;
static unsigned b_ncompacted = 0;
static unsigned m_nalloced = 0;
static unsigned m_nfreed = 0;
static unsigned m_nwasted = 0;
#else
#define  NULL           0
#endif

#ifndef ALIGN
#define  ALIGN          int                     /* align type */
#endif
#define  BYTES_WORD     sizeof(ALIGN)

#define  MAXINCR        (1<<16)                 /* largest sbrk(2) increment */

#ifdef  NOVMEM
#define  getpagesize()  1024
#endif
                                        /* malloc free lists */
typedef union m_head {
        union m_head    *next;
        struct {
                short           magic;
                short           bucket;
        }       a;
        ALIGN           dummy;
} M_HEAD;

#define MAGIC           0x1a2           /* magic number for allocated memory */

#define FIRSTBUCKET     3
#define NBUCKETS        30

static M_HEAD   *free_list[NBUCKETS];

static ALIGN    dummy_mem;

#define DUMMYLOC        ((char *)&dummy_mem)

#ifdef  MCOMP                   /* memory compaction routines */
static char     seedtab[1024];          /* seed for compaction table */

static struct mblk {
        char            *ptr;   /* pointer to memory block */
        unsigned        siz;    /* size of memory block */
}       cptab = {seedtab, sizeof(seedtab)};

#define mtab(mb)        ((struct mblk *)(mb)->ptr)
#define mtablen(mb)     ((mb)->siz/sizeof(struct mblk))


static int
mbcmp(m1, m2)           /* compare memory block locations */
register struct mblk    *m1, *m2;
{
                                /* put empty blocks at end */
        if (m1->siz == 0)
                return(m2->siz == 0 ? 0 : 1);
        if (m2->siz == 0)
                return(-1);
                                /* otherwise, ascending order */
        return(m1->ptr - m2->ptr);
}


int
compactfree()           /* compact free lists (moving to table) */
{
        register struct mblk    *tp;
        register int    bucket;
        unsigned        n, bsiz, ncomp;
                                /* fill table from free lists */
        tp = mtab(&cptab); n = mtablen(&cptab);
        bucket = NBUCKETS-1; bsiz = 1<<(NBUCKETS-1);
        ncomp = 0;
        for ( ; ; ) {
                while (tp->siz) {       /* find empty slot */
                        if (--n == 0)
                                goto loopexit;
                        tp++;
                }
                while (free_list[bucket] == NULL) {     /* find block */
                        if (--bucket < FIRSTBUCKET)
                                goto loopexit;
                        bsiz >>= 1;
                }
                tp->ptr = (char *)free_list[bucket];
                ncomp += (tp->siz = bsiz + sizeof(M_HEAD));
                free_list[bucket] = free_list[bucket]->next;
        }
loopexit:
        if (ncomp == 0)
                return(0);              /* nothing new to compact */
#ifdef MSTATS
        b_ncompacted += ncomp;
#endif
        tp = mtab(&cptab); n = mtablen(&cptab);         /* sort table */
        qsort((char *)tp, n, sizeof(struct mblk), mbcmp);
        ncomp = 0;                                      /* collect blocks */
        while (--n && tp[1].siz) {
                if (tp[0].ptr + tp[0].siz == tp[1].ptr) {
                        tp[1].ptr = tp[0].ptr;
                        tp[1].siz += tp[0].siz;
                        ncomp += tp[0].siz;
                        tp[0].siz = 0;
                }
                tp++;
        }
        return(ncomp);
}


char *
mcompact(np)            /* compact free lists to satisfy request */
unsigned        *np;
{
        struct mblk     *tab;
        unsigned        tablen;
        register struct mblk    *bp, *big;

        for ( ; ; ) {
                                        /* compact free lists */
                compactfree();
                                        /* find largest block */
                tab = mtab(&cptab); tablen = mtablen(&cptab);
                big = tab;
                bp = tab + tablen;
                while (--bp > tab)
                        if (bp->siz > big->siz)
                                big = bp;
                if (big->siz >= *np) {          /* big enough? */
                        *np = big->siz;
                        big->siz = 0;           /* remove from table */
                        return(big->ptr);       /* return it */
                }
                if (mtablen(big) < tablen+1) {
                        *np = 0;                /* cannot grow table */
                        return(NULL);           /* report failure */
                }
                                /* enlarge table, free old one */
                mtab(big)[0].ptr = cptab.ptr;
                mtab(big)[0].siz = cptab.siz;
                cptab.ptr = big->ptr;
                cptab.siz = big->siz;
                big->siz = 0;                   /* clear and copy */
#ifdef BSD
                bcopy((char *)tab, (char *)(mtab(&cptab)+1),
                                tablen*sizeof(struct mblk));
                bzero((char *)(mtab(&cptab)+tablen+1),
                        (mtablen(&cptab)-tablen-1)*sizeof(struct mblk));
#else
                (void)memcpy((char *)(mtab(&cptab)+1), (char *)tab,
                                tablen*sizeof(struct mblk));
                memset((char *)(mtab(&cptab)+tablen+1), 0,
                        (mtablen(&cptab)-tablen-1)*sizeof(struct mblk));
#endif
        }                       /* next round */
}
#endif          /* MCOMP */


char *
mscrounge(np)           /* search free lists to satisfy request */
register unsigned       *np;
{
        char    *p;
        register int    bucket;
        register unsigned       bsiz;

        for (bucket = FIRSTBUCKET, bsiz = 1<<FIRSTBUCKET;
                        bucket < NBUCKETS; bucket++, bsiz <<= 1)
                if (free_list[bucket] != NULL && bsiz+sizeof(M_HEAD) >= *np) {
                        *np = bsiz+sizeof(M_HEAD);
                        p = (char *)free_list[bucket];
                        free_list[bucket] = free_list[bucket]->next;
#ifdef MSTATS
                        b_nscrounged += *np;
#endif
                        return(p);
                }
#ifdef MCOMP
        return(mcompact(np));           /* try compaction */
#else
        *np = 0;
        return(NULL);
#endif
}


char *
bmalloc(n)              /* allocate a block of n bytes, sans header */
register unsigned  n;
{
        extern char  *sbrk();
        static unsigned  pagesz = 0;
        static unsigned  amnt;
        static char  *bpos;
        static unsigned  nrem;
        unsigned  thisamnt;
        register char   *p;

        if (pagesz == 0) {                              /* initialize */
                pagesz = amnt = getpagesize();
                nrem = (int)sbrk(0);                    /* page align break */
                nrem = pagesz - (nrem&(pagesz-1));
                bpos = sbrk(nrem);                      /* word aligned! */
                if ((int)bpos == -1)
                        return(NULL);
#ifdef MSTATS
                b_nsbrked += nrem;
#endif
        }

        n = (n+(BYTES_WORD-1))&~(BYTES_WORD-1);         /* word align rqst. */

        if (n > nrem) {                                 /* need more core */
                if (n > amnt) {                         /* big chunk */
                        thisamnt = (n+(pagesz-1))&~(pagesz-1);
                        if (thisamnt <= MAXINCR)        /* increase amnt */
                                amnt = thisamnt;
                } else
                        thisamnt = amnt;
                p = sbrk(thisamnt);
                if ((int)p == -1) {                     /* uh-oh, ENOMEM */
                        thisamnt = n;                   /* search free lists */
                        p = mscrounge(&thisamnt);
                        if (p == NULL)                  /* we're really out */
                                return(NULL);
                }
#ifdef MSTATS
                else b_nsbrked += thisamnt;
#endif
                if (p != bpos+nrem) {                   /* not an increment */
                        bfree(bpos, nrem);              /* free what we have */
                        bpos = p;
                        nrem = thisamnt;
                } else                                  /* otherwise tack on */
                        nrem += thisamnt;
        }
        p = bpos;
        bpos += n;                                      /* advance */
        nrem -= n;
#ifdef MSTATS
        b_nalloced += n;
#endif
        return(p);
}


bfree(p, n)                     /* free n bytes of random memory */
register char  *p;
register unsigned  n;
{
        register int    bucket;
        register unsigned       bsiz;

#ifdef MSTATS
        b_nfreed += n;
#endif
                                        /* align pointer */
        bsiz = BYTES_WORD - ((unsigned)p&(BYTES_WORD-1));
        if (bsiz < BYTES_WORD) {
                p += bsiz;
                n -= bsiz;
        }
                                        /* fill big buckets first */
        for (bucket = NBUCKETS-1, bsiz = 1<<(NBUCKETS-1);
                        bucket >= FIRSTBUCKET; bucket--, bsiz >>= 1)
                if (n >= bsiz+sizeof(M_HEAD)) {
                        ((M_HEAD *)p)->next = free_list[bucket];
                        free_list[bucket] = (M_HEAD *)p;
                        p += bsiz+sizeof(M_HEAD);
                        n -= bsiz+sizeof(M_HEAD);
                }
}


char *
malloc(n)                       /* allocate n bytes of memory */
unsigned        n;
{
        extern int  errno;
        register M_HEAD *mp;
        register int    bucket;
        register unsigned       bsiz;
                                        /* don't return NULL on 0 request */
        if (n == 0)
                return(DUMMYLOC);
                                        /* find first bucket that fits */
        for (bucket = FIRSTBUCKET, bsiz = 1<<FIRSTBUCKET;
                        bucket < NBUCKETS; bucket++, bsiz <<= 1)
                if (bsiz >= n)
                        break;
        if (bucket >= NBUCKETS) {
                errno = EINVAL;
                return(NULL);
        }
        if (free_list[bucket] == NULL) {        /* need more core */
                mp = (M_HEAD *)bmalloc(bsiz+sizeof(M_HEAD));
                if (mp == NULL)
                        return(NULL);
        } else {                                /* got it */
                mp = free_list[bucket];
                free_list[bucket] = mp->next;
        }
#ifdef MSTATS
        m_nalloced += bsiz + sizeof(M_HEAD);
        m_nwasted += bsiz + sizeof(M_HEAD) - n;
#endif
        mp->a.magic = MAGIC;                    /* tag block */
        mp->a.bucket = bucket;
        return((char *)(mp+1));
}


char *
realloc(op, n)                  /* reallocate memory using malloc() */
register char   *op;
unsigned        n;
{
        char    *p;
        register unsigned       on;
                                        /* get old size */
        if (op != NULL && op != DUMMYLOC && ((M_HEAD *)op-1)->a.magic == MAGIC)
                on = 1 << ((M_HEAD *)op-1)->a.bucket;
        else
                on = 0;
        if (n <= on && (n > on>>1 || on == 1<<FIRSTBUCKET))
                return(op);             /* same bucket */
        if ((p = malloc(n)) == NULL)
                return(NULL);
        if (on) {
#ifdef  BSD
                bcopy(op, p, n>on ? on : n);
#else
                (void)memcpy(p, op, n>on ? on : n);
#endif
                free(op);
        }
        return(p);
}


free(p)                 /* free memory allocated by malloc */
char    *p;
{
        register M_HEAD *mp;
        register int    bucket;

        if (p == NULL || p == DUMMYLOC)
                return(1);
        mp = (M_HEAD *)p - 1;
        if (mp->a.magic != MAGIC)               /* sanity check */
                return(0);
        bucket = mp->a.bucket;
        mp->next = free_list[bucket];
        free_list[bucket] = mp;
#ifdef MSTATS
        m_nfreed += (1 << bucket) + sizeof(M_HEAD);
#endif
        return(1);
}


#ifndef NOVMEM
#ifndef BSD
#include <sys/var.h>
int
getpagesize()                   /* use SYSV var structure to get page size */
{
        struct var  v;

        uvar(&v);
        return(1 << v.v_pageshift);
}
#endif
#endif


#ifdef MSTATS
printmemstats(fp)               /* print memory statistics to stream */
FILE    *fp;
{
        register int    i;
        int     n;
        register M_HEAD *mp;
        unsigned int    total = 0;

        fprintf(fp, "Memory statistics:\n");
        fprintf(fp, "\tbmalloc: %d bytes from sbrk\n", b_nsbrked);
        fprintf(fp, "\tbmalloc: %d bytes allocated\n", b_nalloced);
        fprintf(fp, "\tbmalloc: %d bytes freed\n", b_nfreed);
        fprintf(fp, "\tbmalloc: %d bytes scrounged\n", b_nscrounged);
        fprintf(fp, "\tbmalloc: %d bytes compacted\n", b_ncompacted);
        fprintf(fp, "\tmalloc: %d bytes allocated\n", m_nalloced);
        fprintf(fp, "\tmalloc: %d bytes wasted (%.1f%%)\n", m_nwasted,
                        100.0*m_nwasted/m_nalloced);
        fprintf(fp, "\tmalloc: %d bytes freed\n", m_nfreed);
        for (i = NBUCKETS-1; i >= FIRSTBUCKET; i--) {
                n = 0;
                for (mp = free_list[i]; mp != NULL; mp = mp->next)
                        n++;
                if (n) {
                        fprintf(fp, "\t%d * %u\n", n, 1<<i);
                        total += n * ((1<<i) + sizeof(M_HEAD));
                }
        }
        fprintf(fp, "\t %u total bytes in free list\n", total);
}
#endif
Revision:	1.14
Committed:	Mon Aug 26 10:12:24 1991 UTC (32 years, 8 months ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 1.13:	+138 -0 lines
Log Message:	added memory compaction
#	Content
1	/* Copyright (c) 1991 Regents of the University of California */
2
3	#ifndef lint
4	static char SCCSid[] = "$SunId$ LBL";
5	#endif
6
7	/*
8	* Fast malloc for memory hogs and VM environments.
9	* Performs a minimum of searching through free lists.
10	* malloc(), realloc() and free() use buckets
11	* containing blocks in powers of two, similar to CIT routines.
12	* bfree() puts memory from any source into malloc free lists.
13	* bmalloc() doesn't keep track of free lists -- it's usually
14	* just a buffered call to sbrk(2). However, bmalloc will
15	* call mscrounge() if sbrk fails.
16	* mscrounge() returns whatever free memory it can find to satisfy the
17	* request along with the number of bytes (modified).
18	* mcompact() takes the same arguments as mscrounge() (and is in fact
19	* called by mscrounge() under dire circumstances), but it uses
20	* memory compaction to return a larger block. (MCOMP)
21	*
22	* Greg Ward Lawrence Berkeley Laboratory
23	*/
24
25	#include <errno.h>
26
27	#ifdef MSTATS
28	#include <stdio.h>
29	static unsigned b_nsbrked = 0;
30	static unsigned b_nalloced = 0;
31	static unsigned b_nfreed = 0;
32	static unsigned b_nscrounged = 0;
33	static unsigned b_ncompacted = 0;
34	static unsigned m_nalloced = 0;
35	static unsigned m_nfreed = 0;
36	static unsigned m_nwasted = 0;
37	#else
38	#define NULL 0
39	#endif
40
41	#ifndef ALIGN
42	#define ALIGN int /* align type */
43	#endif
44	#define BYTES_WORD sizeof(ALIGN)
45
46	#define MAXINCR (1<<16) /* largest sbrk(2) increment */
47
48	#ifdef NOVMEM
49	#define getpagesize() 1024
50	#endif
51	/* malloc free lists */
52	typedef union m_head {
53	union m_head *next;
54	struct {
55	short magic;
56	short bucket;
57	} a;
58	ALIGN dummy;
59	} M_HEAD;
60
61	#define MAGIC 0x1a2 /* magic number for allocated memory */
62
63	#define FIRSTBUCKET 3
64	#define NBUCKETS 30
65
66	static M_HEAD *free_list[NBUCKETS];
67
68	static ALIGN dummy_mem;
69
70	#define DUMMYLOC ((char *)&dummy_mem)
71
72	#ifdef MCOMP /* memory compaction routines */
73	static char seedtab[1024]; /* seed for compaction table */
74
75	static struct mblk {
76	char ptr; / pointer to memory block */
77	unsigned siz; /* size of memory block */
78	} cptab = {seedtab, sizeof(seedtab)};
79
80	#define mtab(mb) ((struct mblk *)(mb)->ptr)
81	#define mtablen(mb) ((mb)->siz/sizeof(struct mblk))
82
83
84	static int
85	mbcmp(m1, m2) /* compare memory block locations */
86	register struct mblk m1, m2;
87	{
88	/* put empty blocks at end */
89	if (m1->siz == 0)
90	return(m2->siz == 0 ? 0 : 1);
91	if (m2->siz == 0)
92	return(-1);
93	/* otherwise, ascending order */
94	return(m1->ptr - m2->ptr);
95	}
96
97
98	int
99	compactfree() /* compact free lists (moving to table) */
100	{
101	register struct mblk *tp;
102	register int bucket;
103	unsigned n, bsiz, ncomp;
104	/* fill table from free lists */
105	tp = mtab(&cptab); n = mtablen(&cptab);
106	bucket = NBUCKETS-1; bsiz = 1<<(NBUCKETS-1);
107	ncomp = 0;
108	for ( ; ; ) {
109	while (tp->siz) { /* find empty slot */
110	if (--n == 0)
111	goto loopexit;
112	tp++;
113	}
114	while (free_list[bucket] == NULL) { /* find block */
115	if (--bucket < FIRSTBUCKET)
116	goto loopexit;
117	bsiz >>= 1;
118	}
119	tp->ptr = (char *)free_list[bucket];
120	ncomp += (tp->siz = bsiz + sizeof(M_HEAD));
121	free_list[bucket] = free_list[bucket]->next;
122	}
123	loopexit:
124	if (ncomp == 0)
125	return(0); /* nothing new to compact */
126	#ifdef MSTATS
127	b_ncompacted += ncomp;
128	#endif
129	tp = mtab(&cptab); n = mtablen(&cptab); /* sort table */
130	qsort((char *)tp, n, sizeof(struct mblk), mbcmp);
131	ncomp = 0; /* collect blocks */
132	while (--n && tp[1].siz) {
133	if (tp[0].ptr + tp[0].siz == tp[1].ptr) {
134	tp[1].ptr = tp[0].ptr;
135	tp[1].siz += tp[0].siz;
136	ncomp += tp[0].siz;
137	tp[0].siz = 0;
138	}
139	tp++;
140	}
141	return(ncomp);
142	}
143
144
145	char *
146	mcompact(np) /* compact free lists to satisfy request */
147	unsigned *np;
148	{
149	struct mblk *tab;
150	unsigned tablen;
151	register struct mblk bp, big;
152
153	for ( ; ; ) {
154	/* compact free lists */
155	compactfree();
156	/* find largest block */
157	tab = mtab(&cptab); tablen = mtablen(&cptab);
158	big = tab;
159	bp = tab + tablen;
160	while (--bp > tab)
161	if (bp->siz > big->siz)
162	big = bp;
163	if (big->siz >= np) { / big enough? */
164	*np = big->siz;
165	big->siz = 0; /* remove from table */
166	return(big->ptr); /* return it */
167	}
168	if (mtablen(big) < tablen+1) {
169	np = 0; / cannot grow table */
170	return(NULL); /* report failure */
171	}
172	/* enlarge table, free old one */
173	mtab(big)[0].ptr = cptab.ptr;
174	mtab(big)[0].siz = cptab.siz;
175	cptab.ptr = big->ptr;
176	cptab.siz = big->siz;
177	big->siz = 0; /* clear and copy */
178	#ifdef BSD
179	bcopy((char )tab, (char )(mtab(&cptab)+1),
180	tablen*sizeof(struct mblk));
181	bzero((char *)(mtab(&cptab)+tablen+1),
182	(mtablen(&cptab)-tablen-1)*sizeof(struct mblk));
183	#else
184	(void)memcpy((char )(mtab(&cptab)+1), (char )tab,
185	tablen*sizeof(struct mblk));
186	memset((char *)(mtab(&cptab)+tablen+1), 0,
187	(mtablen(&cptab)-tablen-1)*sizeof(struct mblk));
188	#endif
189	} /* next round */
190	}
191	#endif /* MCOMP */
192
193
194	char *
195	mscrounge(np) /* search free lists to satisfy request */
196	register unsigned *np;
197	{
198	char *p;
199	register int bucket;
200	register unsigned bsiz;
201
202	for (bucket = FIRSTBUCKET, bsiz = 1<<FIRSTBUCKET;
203	bucket < NBUCKETS; bucket++, bsiz <<= 1)
204	if (free_list[bucket] != NULL && bsiz+sizeof(M_HEAD) >= *np) {
205	*np = bsiz+sizeof(M_HEAD);
206	p = (char *)free_list[bucket];
207	free_list[bucket] = free_list[bucket]->next;
208	#ifdef MSTATS
209	b_nscrounged += *np;
210	#endif
211	return(p);
212	}
213	#ifdef MCOMP
214	return(mcompact(np)); /* try compaction */
215	#else
216	*np = 0;
217	return(NULL);
218	#endif
219	}
220
221
222	char *
223	bmalloc(n) /* allocate a block of n bytes, sans header */
224	register unsigned n;
225	{
226	extern char *sbrk();
227	static unsigned pagesz = 0;
228	static unsigned amnt;
229	static char *bpos;
230	static unsigned nrem;
231	unsigned thisamnt;
232	register char *p;
233
234	if (pagesz == 0) { /* initialize */
235	pagesz = amnt = getpagesize();
236	nrem = (int)sbrk(0); /* page align break */
237	nrem = pagesz - (nrem&(pagesz-1));
238	bpos = sbrk(nrem); /* word aligned! */
239	if ((int)bpos == -1)
240	return(NULL);
241	#ifdef MSTATS
242	b_nsbrked += nrem;
243	#endif
244	}
245
246	n = (n+(BYTES_WORD-1))&~(BYTES_WORD-1); /* word align rqst. */
247
248	if (n > nrem) { /* need more core */
249	if (n > amnt) { /* big chunk */
250	thisamnt = (n+(pagesz-1))&~(pagesz-1);
251	if (thisamnt <= MAXINCR) /* increase amnt */
252	amnt = thisamnt;
253	} else
254	thisamnt = amnt;
255	p = sbrk(thisamnt);
256	if ((int)p == -1) { /* uh-oh, ENOMEM */
257	thisamnt = n; /* search free lists */
258	p = mscrounge(&thisamnt);
259	if (p == NULL) /* we're really out */
260	return(NULL);
261	}
262	#ifdef MSTATS
263	else b_nsbrked += thisamnt;
264	#endif
265	if (p != bpos+nrem) { /* not an increment */
266	bfree(bpos, nrem); /* free what we have */
267	bpos = p;
268	nrem = thisamnt;
269	} else /* otherwise tack on */
270	nrem += thisamnt;
271	}
272	p = bpos;
273	bpos += n; /* advance */
274	nrem -= n;
275	#ifdef MSTATS
276	b_nalloced += n;
277	#endif
278	return(p);
279	}
280
281
282	bfree(p, n) /* free n bytes of random memory */
283	register char *p;
284	register unsigned n;
285	{
286	register int bucket;
287	register unsigned bsiz;
288
289	#ifdef MSTATS
290	b_nfreed += n;
291	#endif
292	/* align pointer */
293	bsiz = BYTES_WORD - ((unsigned)p&(BYTES_WORD-1));
294	if (bsiz < BYTES_WORD) {
295	p += bsiz;
296	n -= bsiz;
297	}
298	/* fill big buckets first */
299	for (bucket = NBUCKETS-1, bsiz = 1<<(NBUCKETS-1);
300	bucket >= FIRSTBUCKET; bucket--, bsiz >>= 1)
301	if (n >= bsiz+sizeof(M_HEAD)) {
302	((M_HEAD *)p)->next = free_list[bucket];
303	free_list[bucket] = (M_HEAD *)p;
304	p += bsiz+sizeof(M_HEAD);
305	n -= bsiz+sizeof(M_HEAD);
306	}
307	}
308
309
310	char *
311	malloc(n) /* allocate n bytes of memory */
312	unsigned n;
313	{
314	extern int errno;
315	register M_HEAD *mp;
316	register int bucket;
317	register unsigned bsiz;
318	/* don't return NULL on 0 request */
319	if (n == 0)
320	return(DUMMYLOC);
321	/* find first bucket that fits */
322	for (bucket = FIRSTBUCKET, bsiz = 1<<FIRSTBUCKET;
323	bucket < NBUCKETS; bucket++, bsiz <<= 1)
324	if (bsiz >= n)
325	break;
326	if (bucket >= NBUCKETS) {
327	errno = EINVAL;
328	return(NULL);
329	}
330	if (free_list[bucket] == NULL) { /* need more core */
331	mp = (M_HEAD *)bmalloc(bsiz+sizeof(M_HEAD));
332	if (mp == NULL)
333	return(NULL);
334	} else { /* got it */
335	mp = free_list[bucket];
336	free_list[bucket] = mp->next;
337	}
338	#ifdef MSTATS
339	m_nalloced += bsiz + sizeof(M_HEAD);
340	m_nwasted += bsiz + sizeof(M_HEAD) - n;
341	#endif
342	mp->a.magic = MAGIC; /* tag block */
343	mp->a.bucket = bucket;
344	return((char *)(mp+1));
345	}
346
347
348	char *
349	realloc(op, n) /* reallocate memory using malloc() */
350	register char *op;
351	unsigned n;
352	{
353	char *p;
354	register unsigned on;
355	/* get old size */
356	if (op != NULL && op != DUMMYLOC && ((M_HEAD *)op-1)->a.magic == MAGIC)
357	on = 1 << ((M_HEAD *)op-1)->a.bucket;
358	else
359	on = 0;
360	if (n <= on && (n > on>>1 \|\| on == 1<<FIRSTBUCKET))
361	return(op); /* same bucket */
362	if ((p = malloc(n)) == NULL)
363	return(NULL);
364	if (on) {
365	#ifdef BSD
366	bcopy(op, p, n>on ? on : n);
367	#else
368	(void)memcpy(p, op, n>on ? on : n);
369	#endif
370	free(op);
371	}
372	return(p);
373	}
374
375
376	free(p) /* free memory allocated by malloc */
377	char *p;
378	{
379	register M_HEAD *mp;
380	register int bucket;
381
382	if (p == NULL \|\| p == DUMMYLOC)
383	return(1);
384	mp = (M_HEAD *)p - 1;
385	if (mp->a.magic != MAGIC) /* sanity check */
386	return(0);
387	bucket = mp->a.bucket;
388	mp->next = free_list[bucket];
389	free_list[bucket] = mp;
390	#ifdef MSTATS
391	m_nfreed += (1 << bucket) + sizeof(M_HEAD);
392	#endif
393	return(1);
394	}
395
396
397	#ifndef NOVMEM
398	#ifndef BSD
399	#include <sys/var.h>
400	int
401	getpagesize() /* use SYSV var structure to get page size */
402	{
403	struct var v;
404
405	uvar(&v);
406	return(1 << v.v_pageshift);
407	}
408	#endif
409	#endif
410
411
412	#ifdef MSTATS
413	printmemstats(fp) /* print memory statistics to stream */
414	FILE *fp;
415	{
416	register int i;
417	int n;
418	register M_HEAD *mp;
419	unsigned int total = 0;
420
421	fprintf(fp, "Memory statistics:\n");
422	fprintf(fp, "\tbmalloc: %d bytes from sbrk\n", b_nsbrked);
423	fprintf(fp, "\tbmalloc: %d bytes allocated\n", b_nalloced);
424	fprintf(fp, "\tbmalloc: %d bytes freed\n", b_nfreed);
425	fprintf(fp, "\tbmalloc: %d bytes scrounged\n", b_nscrounged);
426	fprintf(fp, "\tbmalloc: %d bytes compacted\n", b_ncompacted);
427	fprintf(fp, "\tmalloc: %d bytes allocated\n", m_nalloced);
428	fprintf(fp, "\tmalloc: %d bytes wasted (%.1f%%)\n", m_nwasted,
429	100.0*m_nwasted/m_nalloced);
430	fprintf(fp, "\tmalloc: %d bytes freed\n", m_nfreed);
431	for (i = NBUCKETS-1; i >= FIRSTBUCKET; i--) {
432	n = 0;
433	for (mp = free_list[i]; mp != NULL; mp = mp->next)
434	n++;
435	if (n) {
436	fprintf(fp, "\t%d * %u\n", n, 1<<i);
437	total += n * ((1<<i) + sizeof(M_HEAD));
438	}
439	}
440	fprintf(fp, "\t %u total bytes in free list\n", total);
441	}
442	#endif