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/* ISC license. */
#include <unistd.h>
#include <errno.h>
#include <skalibs/uint32.h>
#include <skalibs/diuint32.h>
#include <skalibs/genalloc.h>
#include <skalibs/buffer.h>
#include <skalibs/djbunix.h>
#include <skalibs/cdb.h>
#include <skalibs/cdb_make.h>
static void cdb_make_free (struct cdb_make *c)
{
struct cdb_make zero = CDB_MAKE_ZERO ;
genalloc_free(diuint32, &c->hplist) ;
*c = zero ;
}
int cdb_make_start (struct cdb_make *c, int fd)
{
c->hplist = genalloc_zero ;
c->fd = fd ;
c->pos = 2048 ;
buffer_init(&c->b, &buffer_write, fd, c->buf, BUFFER_OUTSIZE) ;
return seek_set(fd, c->pos) ;
}
static int posplus (struct cdb_make *c, uint32 len)
{
register uint32 newpos = c->pos + len ;
if (newpos < len) return (errno = ENOMEM, 0) ;
c->pos = newpos ;
return 1 ;
}
static int cdb_make_addend (struct cdb_make *c, unsigned int keylen, unsigned int datalen, uint32 h)
{
diuint32 blah = { h, c->pos } ;
if (!genalloc_append(diuint32, &c->hplist, &blah) || !posplus(c, 8) || !posplus(c, keylen) || !posplus(c, datalen))
{
cdb_make_free(c) ;
return -1 ;
}
return 0 ;
}
static int cdb_make_addbegin (struct cdb_make *c, unsigned int keylen, unsigned int datalen)
{
char buf[8] ;
if ((keylen > 0xffffffff) || (datalen > 0xffffffff))
{
errno = ENOMEM ;
goto err ;
}
uint32_pack(buf, keylen) ;
uint32_pack(buf + 4, datalen) ;
if (buffer_put(&c->b, buf, 8) < 0) goto err ;
return 0 ;
err:
cdb_make_free(c) ;
return -1 ;
}
int cdb_make_add (struct cdb_make *c, char const *key, unsigned int keylen, char const *data, unsigned int datalen)
{
if ((cdb_make_addbegin(c, keylen, datalen) < 0)
|| (buffer_put(&c->b, key, keylen) < 0)
|| (buffer_put(&c->b, data, datalen) < 0)
|| (cdb_make_addend(c, keylen, datalen, cdb_hash(key, keylen)) < 0))
return -1 ;
return 0 ;
}
int cdb_make_finish (struct cdb_make *c)
{
uint32 count[256] ;
uint32 start[256] ;
char final[2048] ;
unsigned int size = 1 ;
unsigned int n = genalloc_len(diuint32, &c->hplist) ;
register unsigned int i = 0 ;
register diuint32 *hp = genalloc_s(diuint32, &c->hplist) ;
for ( ; i < 256 ; i++) count[i] = 0 ;
for (i = 0 ; i < n ; i++) ++count[hp[i].left & 255] ;
{
register uint32 u = 0 ;
for (i = 0 ; i < 256 ; i++) start[i] = u += count[i] ; /* bounded by n */
for (i = 0 ; i < 256 ; i++)
{
u = count[i] << 1 ;
if (u > size) size = u ;
}
size += n ; /* no overflow possible up to now */
u = 0xffffffffUL ; u /= sizeof(diuint32) ;
if (size > u) return (errno = ENOMEM, -1) ;
}
i = n ;
{
diuint32 split[size] ;
while (i--) split[--start[hp[i].left & 255]] = hp[i] ;
genalloc_free(diuint32, &c->hplist) ;
hp = split + n ;
for (i = 0 ; i < 256 ; ++i)
{
char buf[8] ;
register uint32 k = count[i] ;
register uint32 len = k << 1 ; /* no overflow possible */
register diuint32 *p = split + start[i] ;
register unsigned int j = 0 ;
uint32_pack(final + (i << 3), c->pos) ;
uint32_pack(final + (i << 3) + 4, len) ;
for ( ; j < len ; j++) hp[j].left = hp[j].right = 0 ;
for (j = 0 ; j < k ; j++)
{
register uint32 where = (p->left >> 8) % len ;
while (hp[where].right) if (++where == len) where = 0 ;
hp[where] = *p++ ;
}
for (j = 0 ; j < len ; j++)
{
uint32_pack(buf, hp[j].left) ;
uint32_pack(buf + 4, hp[j].right) ;
if (buffer_put(&c->b, buf, 8) < 0) goto err0 ;
if (!posplus(c, 8)) goto err0 ;
}
}
}
if (!buffer_flush(&c->b)) goto err0 ;
if (seek_begin(c->fd) == -1) goto err0 ;
if (buffer_putflush(&c->b, final, 2048) < 0) goto err0 ;
cdb_make_free(c) ;
return 0 ;
err0:
cdb_make_free(c) ;
return -1 ;
}
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