/*
* NAME: node->new()
* DESCRIPTION: allocate a new b*-tree node
*/
int n_new(node *np)
{
btree *bt = np->bt;
unsigned long num;
if (bt->hdr.bthFree == 0)
ERROR(EIO, "b*-tree full");
num = 0;
while (num < bt->hdr.bthNNodes && BMTST(bt->map, num))
++num;
if (num == bt->hdr.bthNNodes)
ERROR(EIO, "free b*-tree node not found");
np->nnum = num;
BMSET(bt->map, num);
--bt->hdr.bthFree;
bt->flags |= HFS_BT_UPDATE_HDR;
return 0;
fail:
return -1;
}
/*
* NAME: markexts()
* DESCRIPTION: set bits from an extent record in the volume bitmap
*/
static
void markexts(const block *vbm, const ExtDataRec *exts)
{
int i;
unsigned int start, len;
for (i = 0; i < 3; ++i)
{
for (start = (*exts)[i].xdrStABN,
len = (*exts)[i].xdrNumABlks; len--; ++start)
BMSET(vbm, start);
}
}
/*
* NAME: vol->allocblocks()
* DESCRIPTION: allocate a contiguous range of blocks
*/
int v_allocblocks(hfsvol *vol, ExtDescriptor *blocks)
{
unsigned int request, found, foundat, start, end;
register unsigned int pt;
const block *vbm;
int wrap = 0;
if (vol->mdb.drFreeBks == 0)
ERROR(ENOSPC, "volume full");
request = blocks->xdrNumABlks;
found = 0;
foundat = 0;
start = vol->mdb.drAllocPtr;
end = vol->mdb.drNmAlBlks;
vbm = vol->vbm;
# ifdef DEBUG
if (request == 0)
abort();
# endif
/* backtrack the start pointer to recover unused space */
if (! BMTST(vbm, start))
{
while (start > 0 && ! BMTST(vbm, start - 1))
--start;
}
/* find largest unused block which satisfies request */
pt = start;
while (1)
{
unsigned int mark;
/* skip blocks in use */
while (pt < end && BMTST(vbm, pt))
++pt;
if (wrap && pt >= start)
break;
/* count blocks not in use */
mark = pt;
while (pt < end && pt - mark < request && ! BMTST(vbm, pt))
++pt;
if (pt - mark > found)
{
found = pt - mark;
foundat = mark;
}
if (wrap && pt >= start)
break;
if (pt == end)
pt = 0, wrap = 1;
if (found == request)
break;
}
if (found == 0 || found > vol->mdb.drFreeBks)
ERROR(EIO, "bad volume bitmap or free block count");
blocks->xdrStABN = foundat;
blocks->xdrNumABlks = found;
vol->mdb.drAllocPtr = pt;
vol->mdb.drFreeBks -= found;
for (pt = foundat; pt < foundat + found; ++pt)
BMSET(vbm, pt);
vol->flags |= HFS_VOL_UPDATE_MDB | HFS_VOL_UPDATE_VBM;
return 0;
fail:
return -1;
}
/*
* NAME: vol->allocblocks()
* DESCRIPTION: allocate a contiguous range of blocks
*/
int v_allocblocks(hfsvol *vol, ExtDescriptor *blocks)
{
unsigned int request, found, foundat, start, end, pt;
block *vbm;
int wrap = 0;
if (vol->mdb.drFreeBks == 0)
{
ERROR(ENOSPC, "volume full");
return -1;
}
request = blocks->xdrNumABlks;
found = 0;
foundat = 0;
start = vol->mdb.drAllocPtr;
end = vol->mdb.drNmAlBlks;
pt = start;
vbm = vol->vbm;
if (request == 0)
abort();
while (1)
{
unsigned int mark;
/* skip blocks in use */
while (pt < end && BMTST(vbm, pt))
++pt;
if (wrap && pt >= start)
break;
/* count blocks not in use */
mark = pt;
while (pt < end && pt - mark < request && ! BMTST(vbm, pt))
++pt;
if (pt - mark > found)
{
found = pt - mark;
foundat = mark;
}
if (pt == end)
pt = 0, wrap = 1;
if (found == request)
break;
}
if (found == 0 || found > vol->mdb.drFreeBks)
{
ERROR(EIO, "bad volume bitmap or free block count");
return -1;
}
blocks->xdrStABN = foundat;
blocks->xdrNumABlks = found;
vol->mdb.drAllocPtr = pt;
vol->mdb.drFreeBks -= found;
for (pt = foundat; pt < foundat + found; ++pt)
BMSET(vbm, pt);
vol->flags |= HFS_UPDATE_MDB | HFS_UPDATE_VBM;
return 0;
}
int hfs_callback_format(oscallback func, void* cookie, int mode,
const char* vname)
#endif
{
hfsvol vol;
btree *ext = &vol.ext;
btree *cat = &vol.cat;
unsigned int i, *badalloc = 0;
v_init(&vol, mode);
if (! validvname(vname))
goto fail;
#ifdef CP_NOT_USED
if (v_open(&vol, path, HFS_MODE_RDWR) == -1 ||
v_geometry(&vol, pnum) == -1)
goto fail;
#else
if (v_callback_open(&vol, func, cookie) != 0 ||
v_geometry(&vol, 0) != 0)
goto fail;
#endif
/* initialize volume geometry */
vol.lpa = 1 + ((vol.vlen - 6) >> 16);
if (vol.flags & HFS_OPT_2048)
vol.lpa = (vol.lpa + 3) & ~3;
vol.vbmsz = (vol.vlen / vol.lpa + 0x0fff) >> 12;
vol.mdb.drSigWord = HFS_SIGWORD;
vol.mdb.drCrDate = d_mtime(time(0));
vol.mdb.drLsMod = vol.mdb.drCrDate;
vol.mdb.drAtrb = 0;
vol.mdb.drNmFls = 0;
vol.mdb.drVBMSt = 3;
vol.mdb.drAllocPtr = 0;
vol.mdb.drAlBlkSiz = vol.lpa << HFS_BLOCKSZ_BITS;
vol.mdb.drClpSiz = vol.mdb.drAlBlkSiz << 2;
vol.mdb.drAlBlSt = vol.mdb.drVBMSt + vol.vbmsz;
if (vol.flags & HFS_OPT_2048)
vol.mdb.drAlBlSt = ((vol.vstart & 3) + vol.mdb.drAlBlSt + 3) & ~3;
vol.mdb.drNmAlBlks = (vol.vlen - 2 - vol.mdb.drAlBlSt) / vol.lpa;
vol.mdb.drNxtCNID = HFS_CNID_ROOTDIR; /* modified later */
vol.mdb.drFreeBks = vol.mdb.drNmAlBlks;
strcpy(vol.mdb.drVN, vname);
vol.mdb.drVolBkUp = 0;
vol.mdb.drVSeqNum = 0;
vol.mdb.drWrCnt = 0;
vol.mdb.drXTClpSiz = vol.mdb.drNmAlBlks / 128 * vol.mdb.drAlBlkSiz;
vol.mdb.drCTClpSiz = vol.mdb.drXTClpSiz;
vol.mdb.drNmRtDirs = 0;
vol.mdb.drFilCnt = 0;
vol.mdb.drDirCnt = -1; /* incremented when root directory is created */
for (i = 0; i < 8; ++i)
vol.mdb.drFndrInfo[i] = 0;
vol.mdb.drEmbedSigWord = 0x0000;
vol.mdb.drEmbedExtent.xdrStABN = 0;
vol.mdb.drEmbedExtent.xdrNumABlks = 0;
/* vol.mdb.drXTFlSize */
/* vol.mdb.drCTFlSize */
/* vol.mdb.drXTExtRec[0..2] */
/* vol.mdb.drCTExtRec[0..2] */
vol.flags |= HFS_VOL_UPDATE_MDB | HFS_VOL_UPDATE_ALTMDB;
/* initialize volume bitmap */
vol.vbm = ALLOC(block, vol.vbmsz);
if (vol.vbm == 0)
ERROR(ENOMEM, 0);
memset(vol.vbm, 0, vol.vbmsz << HFS_BLOCKSZ_BITS);
vol.flags |= HFS_VOL_UPDATE_VBM;
/* perform initial bad block sparing */
#ifdef CP_NOT_USED
if (nbadblocks > 0)
{
if (nbadblocks * 4 > vol.vlen)
ERROR(EINVAL, "volume contains too many bad blocks");
badalloc = ALLOC(unsigned int, nbadblocks);
if (badalloc == 0)
ERROR(ENOMEM, 0);
if (vol.mdb.drNmAlBlks == 1594)
vol.mdb.drFreeBks = --vol.mdb.drNmAlBlks;
for (i = 0; i < nbadblocks; ++i)
{
unsigned long bnum;
unsigned int anum;
bnum = badblocks[i];
if (bnum < vol.mdb.drAlBlSt || bnum == vol.vlen - 2)
ERROR(EINVAL, "can't spare critical bad block");
else if (bnum >= vol.vlen)
ERROR(EINVAL, "bad block not in volume");
anum = (bnum - vol.mdb.drAlBlSt) / vol.lpa;
if (anum < vol.mdb.drNmAlBlks)
BMSET(vol.vbm, anum);
badalloc[i] = anum;
}
vol.mdb.drAtrb |= HFS_ATRB_BBSPARED;
}
#endif
/* create extents overflow file */
n_init(&ext->hdrnd, ext, ndHdrNode, 0);
ext->hdrnd.nnum = 0;
ext->hdrnd.nd.ndNRecs = 3;
ext->hdrnd.roff[1] = 0x078;
ext->hdrnd.roff[2] = 0x0f8;
ext->hdrnd.roff[3] = 0x1f8;
memset(HFS_NODEREC(ext->hdrnd, 1), 0, 128);
ext->hdr.bthDepth = 0;
ext->hdr.bthRoot = 0;
ext->hdr.bthNRecs = 0;
ext->hdr.bthFNode = 0;
ext->hdr.bthLNode = 0;
ext->hdr.bthNodeSize = HFS_BLOCKSZ;
ext->hdr.bthKeyLen = 0x07;
ext->hdr.bthNNodes = 0;
ext->hdr.bthFree = 0;
for (i = 0; i < 76; ++i)
ext->hdr.bthResv[i] = 0;
ext->map = ALLOC(byte, HFS_MAP1SZ);
if (ext->map == 0)
ERROR(ENOMEM, 0);
memset(ext->map, 0, HFS_MAP1SZ);
BMSET(ext->map, 0);
ext->mapsz = HFS_MAP1SZ;
ext->flags = HFS_BT_UPDATE_HDR;
/* create catalog file */
n_init(&cat->hdrnd, cat, ndHdrNode, 0);
cat->hdrnd.nnum = 0;
cat->hdrnd.nd.ndNRecs = 3;
cat->hdrnd.roff[1] = 0x078;
cat->hdrnd.roff[2] = 0x0f8;
cat->hdrnd.roff[3] = 0x1f8;
memset(HFS_NODEREC(cat->hdrnd, 1), 0, 128);
cat->hdr.bthDepth = 0;
cat->hdr.bthRoot = 0;
cat->hdr.bthNRecs = 0;
cat->hdr.bthFNode = 0;
cat->hdr.bthLNode = 0;
cat->hdr.bthNodeSize = HFS_BLOCKSZ;
cat->hdr.bthKeyLen = 0x25;
cat->hdr.bthNNodes = 0;
cat->hdr.bthFree = 0;
for (i = 0; i < 76; ++i)
cat->hdr.bthResv[i] = 0;
cat->map = ALLOC(byte, HFS_MAP1SZ);
if (cat->map == 0)
ERROR(ENOMEM, 0);
memset(cat->map, 0, HFS_MAP1SZ);
BMSET(cat->map, 0);
cat->mapsz = HFS_MAP1SZ;
cat->flags = HFS_BT_UPDATE_HDR;
/* allocate space for header nodes (and initial extents) */
if (bt_space(ext, 1) == -1 ||
bt_space(cat, 1) == -1)
goto fail;
--ext->hdr.bthFree;
--cat->hdr.bthFree;
/* create extent records for bad blocks */
#ifdef CP_NOT_USED
if (nbadblocks > 0)
{
hfsfile bbfile;
ExtDescriptor extent;
ExtDataRec *extrec;
ExtKeyRec key;
byte record[HFS_MAX_EXTRECLEN];
unsigned int reclen;
f_init(&bbfile, &vol, HFS_CNID_BADALLOC, "bad blocks");
qsort(badalloc, nbadblocks, sizeof(*badalloc),
(int (*)(const void *, const void *)) compare);
for (i = 0; i < nbadblocks; ++i)
{
if (i == 0 || badalloc[i] != extent.xdrStABN)
{
extent.xdrStABN = badalloc[i];
extent.xdrNumABlks = 1;
if (extent.xdrStABN < vol.mdb.drNmAlBlks &&
f_addextent(&bbfile, &extent) == -1)
goto fail;
}
}
/* flush local extents into extents overflow file */
f_getptrs(&bbfile, &extrec, 0, 0);
r_makeextkey(&key, bbfile.fork, bbfile.cat.u.fil.filFlNum, 0);
r_packextrec(&key, extrec, record, &reclen);
if (bt_insert(&vol.ext, record, reclen) == -1)
goto fail;
}
#endif
vol.flags |= HFS_VOL_MOUNTED;
/* create root directory */
if (v_mkdir(&vol, HFS_CNID_ROOTPAR, vname) == -1)
goto fail;
vol.mdb.drNxtCNID = 16; /* first CNID not reserved by Apple */
/* write boot blocks */
if (m_zerobb(&vol) == -1)
goto fail;
/* zero other unused space, if requested */
if (vol.flags & HFS_OPT_ZERO)
{
block b;
unsigned long bnum;
memset(&b, 0, sizeof(b));
/* between MDB and VBM (never) */
for (bnum = 3; bnum < vol.mdb.drVBMSt; ++bnum)
b_writelb(&vol, bnum, &b);
/* between VBM and first allocation block (sometimes if HFS_OPT_2048) */
for (bnum = vol.mdb.drVBMSt + vol.vbmsz; bnum < vol.mdb.drAlBlSt; ++bnum)
b_writelb(&vol, bnum, &b);
/* between last allocation block and alternate MDB (sometimes) */
for (bnum = vol.mdb.drAlBlSt + vol.mdb.drNmAlBlks * vol.lpa;
bnum < vol.vlen - 2; ++bnum)
b_writelb(&vol, bnum, &b);
/* final block (always) */
b_writelb(&vol, vol.vlen - 1, &b);
}
/* flush remaining state and close volume */
if (v_close(&vol) == -1)
goto fail;
FREE(badalloc);
return 0;
fail:
v_close(&vol);
FREE(badalloc);
return -1;
}
/*
* NAME: hfs->format()
* DESCRIPTION: write a new filesystem
*/
int hfs_format(char *path, int pnum, char *vname)
{
hfsvol vol;
btree *ext = &vol.ext;
btree *cat = &vol.cat;
unsigned int vbmsz;
int i, result = 0;
block vbm[16];
char *map;
if (mystrchr(vname, ':'))
{
ERROR(EINVAL, "volume name may not contain colons");
return -1;
}
i = strlen(vname);
if (i < 1 || i > HFS_MAX_VLEN)
{
ERROR(EINVAL, "volume name must be 1-27 chars");
return -1;
}
vol.flags = 0;
vol.pnum = pnum;
vol.vstart = 0;
vol.vlen = 0;
vol.lpa = 0;
vol.vbm = vbm;
vol.cwd = HFS_CNID_ROOTDIR;
vol.refs = 0;
vol.files = 0;
vol.dirs = 0;
vol.prev = 0;
vol.next = 0;
#if 0
vol.fd = open(path, O_RDWR);
if (vol.fd < 0)
{
ERROR(errno, "error opening device for writing");
return -1;
}
#endif
if (l_lockvol(&vol) < 0)
{
#if 0
close(vol.fd);
#endif
return -1;
}
if (pnum > 0)
{
if (l_readpm(&vol) < 0)
{
#if 0
close(vol.fd);
#endif
return -1;
}
}
else /* determine size of entire device */
{
unsigned long low, high, mid;
block b;
for (low = 0, high = 2879; b_readlb(&vol, high, &b) >= 0; high *= 2)
low = high;
while (low < high - 1)
{
mid = (low + high) / 2;
if (b_readlb(&vol, mid, &b) < 0)
high = mid;
else
low = mid;
}
vol.vlen = low + 1;
}
if (vol.vlen < 800 * 1024 / HFS_BLOCKSZ)
{
#if 0
close(vol.fd);
#endif
ERROR(EINVAL, "volume size must be >= 800K");
return -1;
}
/* initialize volume geometry */
vol.lpa = 1 + vol.vlen / 65536;
vbmsz = (vol.vlen / vol.lpa + 4095) / 4096;
vol.mdb.drSigWord = 0x4244;
vol.mdb.drCrDate = d_tomtime(/*time*/(0));
vol.mdb.drLsMod = vol.mdb.drCrDate;
vol.mdb.drAtrb = 0;
vol.mdb.drNmFls = 0;
vol.mdb.drVBMSt = 3;
vol.mdb.drAllocPtr = 0;
vol.mdb.drNmAlBlks = (vol.vlen - 5 - vbmsz) / vol.lpa;
vol.mdb.drAlBlkSiz = vol.lpa * HFS_BLOCKSZ;
vol.mdb.drClpSiz = vol.mdb.drAlBlkSiz * 4;
vol.mdb.drAlBlSt = 3 + vbmsz;
vol.mdb.drNxtCNID = HFS_CNID_ROOTDIR; /* modified later */
vol.mdb.drFreeBks = vol.mdb.drNmAlBlks;
strcpy(vol.mdb.drVN, vname);
vol.mdb.drVolBkUp = 0;
vol.mdb.drVSeqNum = 0;
vol.mdb.drWrCnt = 0;
vol.mdb.drXTClpSiz = vol.mdb.drNmAlBlks / 128 * vol.mdb.drAlBlkSiz;
vol.mdb.drCTClpSiz = vol.mdb.drXTClpSiz;
vol.mdb.drNmRtDirs = 0;
vol.mdb.drFilCnt = 0;
vol.mdb.drDirCnt = -1; /* incremented when root folder is created */
for (i = 0; i < 8; ++i)
vol.mdb.drFndrInfo[i] = 0;
vol.mdb.drVCSize = 0;
vol.mdb.drVBMCSize = 0;
vol.mdb.drCtlCSize = 0;
vol.mdb.drXTFlSize = 0;
vol.mdb.drCTFlSize = 0;
for (i = 0; i < 3; ++i)
{
vol.mdb.drXTExtRec[i].xdrStABN = 0;
vol.mdb.drXTExtRec[i].xdrNumABlks = 0;
vol.mdb.drCTExtRec[i].xdrStABN = 0;
vol.mdb.drCTExtRec[i].xdrNumABlks = 0;
}
/* initialize volume bitmap */
memset(vol.vbm, 0, sizeof(vbm));
/* create extents overflow file */
ext->f.vol = &vol;
ext->f.parid = 0;
strcpy(ext->f.name, "extents overflow");
ext->f.cat.cdrType = cdrFilRec;
/* ext->f.cat.cdrResrv2 */
ext->f.cat.u.fil.filFlags = 0;
ext->f.cat.u.fil.filTyp = 0;
/* ext->f.cat.u.fil.filUsrWds */
ext->f.cat.u.fil.filFlNum = HFS_CNID_EXT;
ext->f.cat.u.fil.filStBlk = 0;
ext->f.cat.u.fil.filLgLen = 0;
ext->f.cat.u.fil.filPyLen = 0;
ext->f.cat.u.fil.filRStBlk = 0;
ext->f.cat.u.fil.filRLgLen = 0;
ext->f.cat.u.fil.filRPyLen = 0;
ext->f.cat.u.fil.filCrDat = vol.mdb.drCrDate;
ext->f.cat.u.fil.filMdDat = vol.mdb.drLsMod;
ext->f.cat.u.fil.filBkDat = 0;
/* ext->f.cat.u.fil.filFndrInfo */
ext->f.cat.u.fil.filClpSize = 0;
for (i = 0; i < 3; ++i)
{
ext->f.cat.u.fil.filExtRec[i].xdrStABN = 0;
ext->f.cat.u.fil.filExtRec[i].xdrNumABlks = 0;
ext->f.cat.u.fil.filRExtRec[i].xdrStABN = 0;
ext->f.cat.u.fil.filRExtRec[i].xdrNumABlks = 0;
}
/* ext->f.cat.u.fil.filResrv */
f_selectfork(&ext->f, 0);
ext->f.clump = vol.mdb.drXTClpSiz;
ext->f.flags = 0;
ext->f.prev = ext->f.next = 0;
n_init(&ext->hdrnd, ext, ndHdrNode, 0);
ext->hdrnd.nnum = 0;
ext->hdrnd.nd.ndNRecs = 3;
ext->hdrnd.roff[1] = 0x078;
ext->hdrnd.roff[2] = 0x0f8;
ext->hdrnd.roff[3] = 0x1f8;
memset(HFS_NODEREC(ext->hdrnd, 1), 0, 128);
ext->hdr.bthDepth = 0;
ext->hdr.bthRoot = 0;
ext->hdr.bthNRecs = 0;
ext->hdr.bthFNode = 0;
ext->hdr.bthLNode = 0;
ext->hdr.bthNodeSize = HFS_BLOCKSZ;
ext->hdr.bthKeyLen = 0x07;
ext->hdr.bthNNodes = 0;
ext->hdr.bthFree = 0;
for (i = 0; i < 76; ++i)
ext->hdr.bthResv[i] = 0;
map = ALLOC(char, HFS_MAP1SZ);
if (map == 0)
{
if (result == 0)
{
ERROR(ENOMEM, 0);
result = -1;
}
}
else
{
memset(map, 0, HFS_MAP1SZ);
BMSET(map, 0);
}
ext->map = map;
ext->mapsz = HFS_MAP1SZ;
ext->flags = HFS_UPDATE_BTHDR;
ext->compare = r_compareextkeys;
if (result == 0 && bt_space(ext, 1) < 0)
result = -1;
--ext->hdr.bthFree;
/* create catalog file */
cat->f.vol = &vol;
cat->f.parid = 0;
strcpy(cat->f.name, "catalog");
cat->f.cat.cdrType = cdrFilRec;
/* cat->f.cat.cdrResrv2 */
cat->f.cat.u.fil.filFlags = 0;
cat->f.cat.u.fil.filTyp = 0;
/* cat->f.cat.u.fil.filUsrWds */
cat->f.cat.u.fil.filFlNum = HFS_CNID_CAT;
cat->f.cat.u.fil.filStBlk = 0;
cat->f.cat.u.fil.filLgLen = 0;
cat->f.cat.u.fil.filPyLen = 0;
cat->f.cat.u.fil.filRStBlk = 0;
cat->f.cat.u.fil.filRLgLen = 0;
cat->f.cat.u.fil.filRPyLen = 0;
cat->f.cat.u.fil.filCrDat = vol.mdb.drCrDate;
cat->f.cat.u.fil.filMdDat = vol.mdb.drLsMod;
cat->f.cat.u.fil.filBkDat = 0;
/* cat->f.cat.u.fil.filFndrInfo */
cat->f.cat.u.fil.filClpSize = 0;
for (i = 0; i < 3; ++i)
{
cat->f.cat.u.fil.filExtRec[i].xdrStABN = 0;
cat->f.cat.u.fil.filExtRec[i].xdrNumABlks = 0;
cat->f.cat.u.fil.filRExtRec[i].xdrStABN = 0;
cat->f.cat.u.fil.filRExtRec[i].xdrNumABlks = 0;
}
/* cat->f.cat.u.fil.filResrv */
f_selectfork(&cat->f, 0);
cat->f.clump = vol.mdb.drCTClpSiz;
cat->f.flags = 0;
cat->f.prev = cat->f.next = 0;
n_init(&cat->hdrnd, cat, ndHdrNode, 0);
cat->hdrnd.nnum = 0;
cat->hdrnd.nd.ndNRecs = 3;
cat->hdrnd.roff[1] = 0x078;
cat->hdrnd.roff[2] = 0x0f8;
cat->hdrnd.roff[3] = 0x1f8;
memset(HFS_NODEREC(cat->hdrnd, 1), 0, 128);
cat->hdr.bthDepth = 0;
cat->hdr.bthRoot = 0;
cat->hdr.bthNRecs = 0;
cat->hdr.bthFNode = 0;
cat->hdr.bthLNode = 0;
cat->hdr.bthNodeSize = HFS_BLOCKSZ;
cat->hdr.bthKeyLen = 0x25;
cat->hdr.bthNNodes = 0;
cat->hdr.bthFree = 0;
for (i = 0; i < 76; ++i)
cat->hdr.bthResv[i] = 0;
map = ALLOC(char, HFS_MAP1SZ);
if (map == 0)
{
if (result == 0)
{
ERROR(ENOMEM, 0);
result = -1;
}
}
else
{
memset(map, 0, HFS_MAP1SZ);
BMSET(map, 0);
}
cat->map = map;
cat->mapsz = HFS_MAP1SZ;
cat->flags = HFS_UPDATE_BTHDR;
cat->compare = r_comparecatkeys;
if (result == 0 && bt_space(cat, 1) < 0)
result = -1;
--cat->hdr.bthFree;
/* create root folder */
if (result == 0 && v_newfolder(&vol, HFS_CNID_ROOTPAR, vname) < 0)
result = -1;
vol.mdb.drNxtCNID = 16;
/* finish up */
if (result == 0)
{
block b;
/* write boot blocks */
memset(&b, 0, sizeof(b));
b_writelb(&vol, 0, &b);
b_writelb(&vol, 1, &b);
/* flush other disk state */
vol.flags |= HFS_UPDATE_MDB | HFS_UPDATE_ALTMDB | HFS_UPDATE_VBM;
if (v_flush(&vol, 1) < 0)
result = -1;
}
if (
#if 0
close(vol.fd) < 0 &&
#endif
result == 0)
{
ERROR(errno, "error closing device");
result = -1;
}
FREE(vol.ext.map);
FREE(vol.cat.map);
return result;
}
