/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ /* * University Copyright- Copyright (c) 1982, 1986, 1988 * The Regents of the University of California * All Rights Reserved * * University Acknowledgment- Portions of this document are derived from * software developed by the University of California, Berkeley, and its * contributors. */ #pragma ident "%Z%%M% %I% %E% SMI" #include "synonyms.h" #include #include #include #include #include #include #include #include #include #include #include /* add support for batched writing for NIS */ #define _DBM_DEFWRITE 0x4 #define _DBM_DIRTY 0x8 #define _DBM_DIRDIRTY 0x10 #define dbm_dirty(db) ((db)->dbm_flags & _DBM_DIRTY) #define dbm_dirdirty(db) ((db)->dbm_flags & _DBM_DIRDIRTY) #define dbm_defwrite(db) ((db)->dbm_flags & _DBM_DEFWRITE) #define dbm_setdirty(db) (db)->dbm_flags |= _DBM_DIRTY #define dbm_clrdirty(db) (db)->dbm_flags &= ~_DBM_DIRTY #define dbm_setdirdirty(db) (db)->dbm_flags |= _DBM_DIRDIRTY #define dbm_clrdirdirty(db) (db)->dbm_flags &= ~_DBM_DIRDIRTY /* * forward declarations */ static datum makdatum(char *, int); static unsigned long dcalchash(datum); static void dbm_access(DBM *, unsigned long); static int finddatum(char *, datum); static int delitem(char *, int); static int additem(char *, datum, datum); static int cmpdatum(datum, datum); static int setbit(DBM *); static int getbit(DBM *); static int dbm_flushdir(DBM *); static int dbm_flushpag(DBM *db); /* the following three are required by mapfile-vers */ datum dbm_do_nextkey(DBM *, datum); int dbm_close_status(DBM *); /* used to make a dbm file all at once instead of incrementally */ void dbm_setdefwrite(DBM *db) { db->dbm_flags |= _DBM_DEFWRITE; } #undef dbm_error int dbm_error(DBM *db) { return (db->dbm_flags & _DBM_IOERR); } #undef dbm_clearerr int dbm_clearerr(DBM *db) { return (db->dbm_flags &= ~_DBM_IOERR); } int dbm_flush(DBM *db) { int ok = 0; if (dbm_flushpag(db) < 0) ok = -1; if (dbm_flushdir(db) < 0) ok = -1; return (ok); } static int dbm_flushpag(DBM *db) { int ok = 0; off64_t where; if (dbm_dirty(db)) { /* must page out the page */ where = (((off64_t)db->dbm_pagbno) * PBLKSIZ); if ((lseek64(db->dbm_pagf, where, L_SET) != where) || (write(db->dbm_pagf, db->dbm_pagbuf, PBLKSIZ) != PBLKSIZ)) { db->dbm_flags |= _DBM_IOERR; ok = -1; } dbm_clrdirty(db); } return (ok); } static int dbm_flushdir(DBM *db) { int ok = 0; off64_t where; if (dbm_dirdirty(db)) { /* must page out the dir */ where = (((off64_t)db->dbm_dirbno) * DBLKSIZ); if ((lseek64(db->dbm_dirf, where, L_SET) != where) || (write(db->dbm_dirf, db->dbm_dirbuf, DBLKSIZ) != DBLKSIZ)) { ok = -1; } dbm_clrdirdirty(db); } return (ok); } #define BYTESIZ 8 #undef setbit DBM * dbm_open(const char *file, int flags, mode_t mode) { struct stat64 statb; DBM *db; int serrno; if ((db = (DBM *)malloc(sizeof (*db))) == 0) { errno = ENOMEM; return ((DBM *)0); } db->dbm_flags = (flags & 03) == O_RDONLY ? _DBM_RDONLY : 0; if ((flags & 03) == O_WRONLY) flags = (flags & ~03) | O_RDWR; if (strlcpy(db->dbm_pagbuf, file, sizeof (db->dbm_pagbuf)) >= sizeof (db->dbm_pagbuf) || strlcat(db->dbm_pagbuf, ".pag", sizeof (db->dbm_pagbuf)) >= sizeof (db->dbm_pagbuf)) { /* * file.pag does not fit into dbm_pagbuf. * fail with ENAMETOOLONG. */ serrno = ENAMETOOLONG; goto bad; } db->dbm_pagf = open64(db->dbm_pagbuf, flags, mode); if (db->dbm_pagf < 0) { serrno = errno; goto bad; } /* * We know this won't overflow so it is safe to ignore the * return value; we use strl* to prevent false hits in * code sweeps. */ (void) strlcpy(db->dbm_pagbuf, file, sizeof (db->dbm_pagbuf)); (void) strlcat(db->dbm_pagbuf, ".dir", sizeof (db->dbm_pagbuf)); db->dbm_dirf = open64(db->dbm_pagbuf, flags, mode); if (db->dbm_dirf < 0) { serrno = errno; goto bad1; } (void) fstat64(db->dbm_dirf, &statb); db->dbm_maxbno = statb.st_size * BYTESIZ-1; db->dbm_pagbno = db->dbm_dirbno = -1; return (db); bad1: (void) close(db->dbm_pagf); bad: free((char *)db); errno = serrno; return ((DBM *)0); } void dbm_close(DBM *db) { (void) dbm_close_status(db); } /* close with return code */ int dbm_close_status(DBM *db) { int ok; ok = 0; if (dbm_flush(db) < 0) ok = -1; if (close(db->dbm_dirf) < 0) ok = -1; if (close(db->dbm_pagf) < 0) ok = -1; free((char *)db); return (ok); } long dbm_forder(DBM *db, datum key) { unsigned long hash; hash = dcalchash(key); for (db->dbm_hmask = 0; ; db->dbm_hmask = (db->dbm_hmask<<1)+1) { db->dbm_blkno = hash & db->dbm_hmask; db->dbm_bitno = db->dbm_blkno + db->dbm_hmask; if (getbit(db) == 0) break; } return (db->dbm_blkno); } datum dbm_fetch(DBM *db, datum key) { int i; datum item; if (dbm_error(db)) goto err; dbm_access(db, dcalchash(key)); if ((i = finddatum(db->dbm_pagbuf, key)) >= 0) { item = makdatum(db->dbm_pagbuf, i+1); if (item.dptr != NULL) return (item); } err: item.dptr = NULL; item.dsize = 0; return (item); } int dbm_delete(DBM *db, datum key) { int i; off64_t where; if (dbm_error(db)) return (-1); if (dbm_rdonly(db)) { errno = EPERM; return (-1); } dbm_access(db, dcalchash(key)); if ((i = finddatum(db->dbm_pagbuf, key)) < 0) return (-1); if (!delitem(db->dbm_pagbuf, i)) goto err; db->dbm_pagbno = db->dbm_blkno; if (dbm_defwrite(db)) { dbm_setdirty(db); } else { where = (((off64_t)db->dbm_blkno) * PBLKSIZ); if ((lseek64(db->dbm_pagf, where, L_SET) != where) || (write(db->dbm_pagf, db->dbm_pagbuf, PBLKSIZ) != PBLKSIZ)) { err: db->dbm_flags |= _DBM_IOERR; return (-1); } } return (0); } int dbm_store(DBM *db, datum key, datum dat, int replace) { int i; datum item, item1; char ovfbuf[PBLKSIZ]; unsigned long hashdiff, key_hash, item_hash; off64_t where; if (dbm_error(db)) return (-1); if (dbm_rdonly(db)) { errno = EPERM; return (-1); } loop: key_hash = dcalchash(key); dbm_access(db, key_hash); if ((i = finddatum(db->dbm_pagbuf, key)) >= 0) { if (!replace) return (1); if (!delitem(db->dbm_pagbuf, i)) { db->dbm_flags |= _DBM_IOERR; return (-1); } } if (!additem(db->dbm_pagbuf, key, dat)) goto split; db->dbm_pagbno = db->dbm_blkno; if (dbm_defwrite(db)) { dbm_setdirty(db); } else { where = (((off64_t)db->dbm_blkno) * PBLKSIZ); if ((lseek64(db->dbm_pagf, where, L_SET) != where) || (write(db->dbm_pagf, db->dbm_pagbuf, PBLKSIZ) != PBLKSIZ)) { db->dbm_flags |= _DBM_IOERR; return (-1); } } return (0); split: hashdiff = 0; if (key.dsize + dat.dsize + 3 * (int)sizeof (short) >= PBLKSIZ) { db->dbm_flags |= _DBM_IOERR; errno = ENOSPC; return (-1); } (void) memset(ovfbuf, 0, PBLKSIZ); for (i = 0; ; ) { item = makdatum(db->dbm_pagbuf, i); if (item.dptr == NULL) break; item_hash = dcalchash(item); if (item_hash != key_hash) { hashdiff++; } if (item_hash & (db->dbm_hmask+1)) { item1 = makdatum(db->dbm_pagbuf, i+1); if (item1.dptr == NULL) { /* (void) fprintf(stderr, "ndbm: */ /* split not paired\n"); */ db->dbm_flags |= _DBM_IOERR; break; } if (!additem(ovfbuf, item, item1) || !delitem(db->dbm_pagbuf, i)) { db->dbm_flags |= _DBM_IOERR; return (-1); } continue; } i += 2; } db->dbm_pagbno = db->dbm_blkno; where = (((off64_t)db->dbm_blkno) * PBLKSIZ); if ((lseek64(db->dbm_pagf, where, L_SET) != where) || (write(db->dbm_pagf, db->dbm_pagbuf, PBLKSIZ) != PBLKSIZ)) { db->dbm_flags |= _DBM_IOERR; return (-1); } dbm_clrdirty(db); /* clear dirty */ where = (((off64_t)db->dbm_blkno + db->dbm_hmask + 1) * PBLKSIZ); if ((lseek64(db->dbm_pagf, where, L_SET) != where) || (write(db->dbm_pagf, ovfbuf, PBLKSIZ) != PBLKSIZ)) { db->dbm_flags |= _DBM_IOERR; return (-1); } if (setbit(db) < 0) { db->dbm_flags |= _DBM_IOERR; return (-1); } if (hashdiff == 0) { db->dbm_flags |= _DBM_IOERR; return (-1); } goto loop; } static unsigned long dbm_hashinc(DBM *db, unsigned long hash) { long bit; hash &= db->dbm_hmask; bit = db->dbm_hmask+1; for (;;) { bit >>= 1; if (bit == 0) return (0L); if ((hash&bit) == 0) return (hash|bit); hash &= ~bit; } } static datum nullkey = {NULL, 0}; datum dbm_firsthash(DBM *db, unsigned long hash) { int i, j; datum item, bitem; loop: dbm_access(db, hash); j = 0; bitem = makdatum(db->dbm_pagbuf, 0); for (i = 2; ; i += 2) { item = makdatum(db->dbm_pagbuf, i); if (item.dptr == NULL) break; if (cmpdatum(bitem, item) < 0) { j = i; bitem = item; } } if (bitem.dptr != NULL) { db->dbm_keyptr = j + 2; db->dbm_blkptr = db->dbm_blkno; return (bitem); } hash = dbm_hashinc(db, hash); if (hash == 0) return (item); /* null item */ goto loop; } datum dbm_firstkey(DBM *db) { /* * For some reason, the Posix specification (SUSv3) * says that dbm_firstkey() is not a cancellation point. * It really should be, but in order to pass the SUSv3 * test suite we make it not a cancellation point. * XXX: fix me when the SUSv3 specification gets fixed. */ int cancel_state; datum rval; db->dbm_blkptr = 0L; db->dbm_keyptr = 0; (void) pthread_setcancelstate(PTHREAD_CANCEL_DISABLE, &cancel_state); rval = dbm_firsthash(db, 0L); (void) pthread_setcancelstate(cancel_state, NULL); return (rval); } datum dbm_nextkey(DBM *db) { return (dbm_do_nextkey(db, nullkey)); } /* * this is used if keyptr-2, blocknum doesn't point to the previous * specific key allowing the fast hash order search -- * its use indicates user tampering with our state variables, * which some evil users might do to search from some specific place. * It finds the first key at or after blkptr, keyptr in block seq order * this requires looking at all sorts of emtpy blocks in many cases */ static datum dbm_slow_nextkey(DBM *db) { struct stat64 statb; datum item; off64_t where; if (dbm_error(db) || fstat64(db->dbm_pagf, &statb) < 0) goto err; statb.st_size /= PBLKSIZ; for (;;) { if (db->dbm_blkptr != db->dbm_pagbno) { if (dbm_dirty(db)) (void) dbm_flushpag(db); db->dbm_pagbno = db->dbm_blkptr; where = (((off64_t)db->dbm_blkptr) * PBLKSIZ); if ((lseek64(db->dbm_pagf, where, L_SET) != where) || (read(db->dbm_pagf, db->dbm_pagbuf, PBLKSIZ) != PBLKSIZ)) (void) memset(db->dbm_pagbuf, 0, PBLKSIZ); #ifdef DEBUG else if (chkblk(db->dbm_pagbuf) < 0) db->dbm_flags |= _DBM_IOERR; #endif } /* Am I an empty block? */ if (((short *)(uintptr_t)db->dbm_pagbuf)[0] != 0) { item = makdatum(db->dbm_pagbuf, db->dbm_keyptr); if (item.dptr != NULL) { db->dbm_keyptr += 2; return (item); } db->dbm_keyptr = 0; } /* go to next sequential block */ if (++db->dbm_blkptr >= statb.st_size) break; } err: item.dptr = NULL; item.dsize = 0; return (item); } datum dbm_do_nextkey(DBM *db, datum inkey) { datum item, bitem; unsigned long hash; datum key; int f; int i; int j; short *sp; long n; char *p1, *p2; off64_t where; if (dbm_error(db)) { item.dptr = NULL; item.dsize = 0; return (item); } /* user has supplied lastkey */ if (inkey.dptr != NULL) { dbm_access(db, (hash = dcalchash(inkey))); if ((i = finddatum(db->dbm_pagbuf, inkey)) >= 0) { db->dbm_keyptr = i + 2; db->dbm_blkptr = db->dbm_blkno; } key = inkey; } else { /* is this a manual firstkey request? */ if (db->dbm_blkptr == 0L && db->dbm_keyptr == 0) return (dbm_firsthash(db, 0L)); /* no -- get lastkey this is like dbm_access by blkptr */ if (db->dbm_blkptr != db->dbm_pagbno) { if (dbm_dirty(db)) (void) dbm_flushpag(db); db->dbm_pagbno = db->dbm_blkptr; where = (((off64_t)db->dbm_blkptr) * PBLKSIZ); if ((lseek64(db->dbm_pagf, where, L_SET) != where) || (read(db->dbm_pagf, db->dbm_pagbuf, PBLKSIZ) != PBLKSIZ)) (void) memset(db->dbm_pagbuf, 0, PBLKSIZ); #ifdef DEBUG else if (chkblk(db->dbm_pagbuf) < 0) db->dbm_flags |= _DBM_IOERR; #endif } /* now just make up last key datum */ if (db->dbm_keyptr >= 2) key = makdatum(db->dbm_pagbuf, (db->dbm_keyptr-2)); else key = nullkey; /* * the keyptr pagbuf have failed us, the user must * be an extra clever moron who depends on * these variables and their former meaning. * If we set the variables this would have got * us the key for sure! So give him the old algorithm. */ if (key.dptr == NULL) return (dbm_slow_nextkey(db)); } /* * at this point the last key is paged in and * we can proceed as in old dbm -- like Ken did his. */ f = 1; j = 0; sp = (short *)(uintptr_t)db->dbm_pagbuf; for (i = 0; ; i += 2) { /* begin put makdatum inline */ if ((unsigned)i >= sp[0]) { item.dptr = NULL; item.dsize = 0; break; /* from below */ } else { if (i > 0) item.dsize = sp[i] - sp[i + 1]; else item.dsize = PBLKSIZ - sp[i + 1]; item.dptr = db->dbm_pagbuf+sp[i + 1]; } /* item = makdatum(db->dbm_pagbuf, i); */ /* end put makdatum inline */ if (item.dptr == NULL) break; /* inline cmpdatum */ n = key.dsize; if (n != item.dsize) { if ((n - item.dsize) <= 0) continue; } else { if (n == 0) continue; p1 = key.dptr; p2 = item.dptr; do { if (*p1++ != *p2++) if ((*--p1 - *--p2) > 0) goto keep_going; else continue; } while (--n); continue; } keep_going: /* end inline cmpdatum */ /* * if (cmpdatum(key, item) <= 0) * continue; */ if (f) { bitem = item; j = i; f = 0; } else { /* if (cmpdatum(bitem, item) < 0) */ n = bitem.dsize; if (n != item.dsize) { if ((n - item.dsize) < 0) { bitem = item; j = i; } } else if (n != 0) { p1 = bitem.dptr; p2 = item.dptr; do { if (*p1++ != *p2++) { if ((*--p1 - *--p2) < 0) { bitem = item; j = i; } break; } } while (--n); } } } if (f == 0) { db->dbm_keyptr = j + 2; db->dbm_blkptr = db->dbm_blkno; return (bitem); } /* really need hash at this point */ /* if he gave us a key we have already calculated the hash */ /* if not get it */ if (inkey.dptr == NULL) hash = dcalchash(key); hash = dbm_hashinc(db, hash); if (hash == 0) return (item); /* null */ /* get first item on next page in hash table order */ return (dbm_firsthash(db, hash)); } static void dbm_access(DBM *db, unsigned long hash) { long b, i, n; long bn; long my_bitno; long my_hmask; long my_blkno; int j = (sizeof (my_hmask)) * 8; off64_t where; for (my_hmask = 0; j-- > 0; my_hmask = (my_hmask<<1) + 1) { my_blkno = hash & my_hmask; my_bitno = my_blkno + my_hmask; /* getbit inline */ if (my_bitno > db->dbm_maxbno) break; n = my_bitno % BYTESIZ; bn = my_bitno / BYTESIZ; i = bn % DBLKSIZ; b = bn / DBLKSIZ; if (b != db->dbm_dirbno) { if (dbm_dirdirty(db)) (void) dbm_flushdir(db); /* must flush */ db->dbm_dirbno = b; where = (((off64_t)b) * DBLKSIZ); if ((lseek64(db->dbm_dirf, where, L_SET) != where) || (read(db->dbm_dirf, db->dbm_dirbuf, DBLKSIZ) != DBLKSIZ)) (void) memset(db->dbm_dirbuf, 0, DBLKSIZ); } if ((db->dbm_dirbuf[i] & (1<dbm_blkno = my_blkno; db->dbm_bitno = my_bitno; db->dbm_hmask = my_hmask; if (my_blkno != db->dbm_pagbno) { if (dbm_dirty(db)) { /* must page out the page */ where = (((off64_t)db->dbm_pagbno) * PBLKSIZ); if ((lseek64(db->dbm_pagf, where, L_SET) != where) || (write(db->dbm_pagf, db->dbm_pagbuf, PBLKSIZ) != PBLKSIZ)) { db->dbm_flags |= _DBM_IOERR; } dbm_clrdirty(db); } db->dbm_pagbno = my_blkno; where = (((off64_t)my_blkno) * PBLKSIZ); if ((lseek64(db->dbm_pagf, where, L_SET) != where) || (read(db->dbm_pagf, db->dbm_pagbuf, PBLKSIZ) != PBLKSIZ)) (void) memset(db->dbm_pagbuf, 0, PBLKSIZ); #ifdef DEBUG else if (chkblk(db->dbm_pagbuf) < 0) db->dbm_flags |= _DBM_IOERR; #endif } } static int getbit(DBM *db) { long bn; long b, i, n; off64_t where; if (db->dbm_bitno > db->dbm_maxbno) return (0); n = db->dbm_bitno % BYTESIZ; bn = db->dbm_bitno / BYTESIZ; i = bn % DBLKSIZ; b = bn / DBLKSIZ; if (b != db->dbm_dirbno) { if (dbm_dirdirty(db)) (void) dbm_flushdir(db); /* must flush */ db->dbm_dirbno = b; where = (((off64_t)b) * DBLKSIZ); if ((lseek64(db->dbm_dirf, where, L_SET) != where) || (read(db->dbm_dirf, db->dbm_dirbuf, DBLKSIZ) != DBLKSIZ)) (void) memset(db->dbm_dirbuf, 0, DBLKSIZ); } return (db->dbm_dirbuf[i] & (1<dbm_bitno > db->dbm_maxbno) db->dbm_maxbno = db->dbm_bitno; n = db->dbm_bitno % BYTESIZ; bn = db->dbm_bitno / BYTESIZ; i = bn % DBLKSIZ; b = bn / DBLKSIZ; if (b != db->dbm_dirbno) { if (dbm_dirdirty(db)) (void) dbm_flushdir(db); db->dbm_dirbno = b; where = (((off64_t)b) * DBLKSIZ); if ((lseek64(db->dbm_dirf, where, L_SET) != where) || (read(db->dbm_dirf, db->dbm_dirbuf, DBLKSIZ) != DBLKSIZ)) (void) memset(db->dbm_dirbuf, 0, DBLKSIZ); } db->dbm_dirbuf[i] |= 1<dbm_dirbno = b; if (dbm_defwrite(db)) { dbm_setdirdirty(db); } else { where = (((off64_t)b) * DBLKSIZ); if ((lseek64(db->dbm_dirf, where, L_SET) != where) || (write(db->dbm_dirf, db->dbm_dirbuf, DBLKSIZ) != DBLKSIZ)) { return (-1); } } return (0); } static datum makdatum(char buf[PBLKSIZ], int n) { short *sp; int t; datum item; sp = (short *)(uintptr_t)buf; if ((unsigned)n >= sp[0]) { item.dptr = NULL; item.dsize = 0; return (item); } t = PBLKSIZ; if (n > 0) t = sp[n]; item.dptr = buf + sp[n + 1]; item.dsize = t - sp[n + 1]; return (item); } static int cmpdatum(datum d1, datum d2) { long n; char *p1, *p2; n = d1.dsize; if (n != d2.dsize) return ((int)(n - d2.dsize)); if (n == 0) return (0); p1 = d1.dptr; p2 = d2.dptr; do { if (*p1 != *p2) return (*p1 - *p2); else { p1++; p2++; } } while (--n); return (0); } static int finddatum(char buf[PBLKSIZ], datum item) { short *sp; int i, n, j; sp = (short *)(uintptr_t)buf; n = PBLKSIZ; for (i = 0, j = sp[0]; i < j; i += 2, n = sp[i]) { n -= sp[i + 1]; if (n != item.dsize) continue; if (n == 0 || memcmp(&buf[sp[i+1]], item.dptr, n) == 0) return (i); } return (-1); } static const int hitab[16] /* * ken's * { * 055, 043, 036, 054, 063, 014, 004, 005, * 010, 064, 077, 000, 035, 027, 025, 071, * }; */ = { 61, 57, 53, 49, 45, 41, 37, 33, 29, 25, 21, 17, 13, 9, 5, 1, }; /* could consider to make it 32-bit int table to minimize memory usage */ static const long hltab[64] = { 06100151277L, 06106161736L, 06452611562L, 05001724107L, 02614772546L, 04120731531L, 04665262210L, 07347467531L, 06735253126L, 06042345173L, 03072226605L, 01464164730L, 03247435524L, 07652510057L, 01546775256L, 05714532133L, 06173260402L, 07517101630L, 02431460343L, 01743245566L, 00261675137L, 02433103631L, 03421772437L, 04447707466L, 04435620103L, 03757017115L, 03641531772L, 06767633246L, 02673230344L, 00260612216L, 04133454451L, 00615531516L, 06137717526L, 02574116560L, 02304023373L, 07061702261L, 05153031405L, 05322056705L, 07401116734L, 06552375715L, 06165233473L, 05311063631L, 01212221723L, 01052267235L, 06000615237L, 01075222665L, 06330216006L, 04402355630L, 01451177262L, 02000133436L, 06025467062L, 07121076461L, 03123433522L, 01010635225L, 01716177066L, 05161746527L, 01736635071L, 06243505026L, 03637211610L, 01756474365L, 04723077174L, 03642763134L, 05750130273L, 03655541561L, }; static unsigned long dcalchash(datum item) { long s; int c, j; char *cp; unsigned long hashl; long hashi; hashl = 0; hashi = 0; for (cp = item.dptr, s = item.dsize; --s >= 0; ) { c = *cp++; for (j = 0; j < BYTESIZ; j += 4) { hashi += hitab[c&017]; hashl += hltab[hashi&63]; c >>= 4; } } return (hashl); } /* * Delete pairs of items (n & n+1). */ static int delitem(char buf[PBLKSIZ], int n) { short *sp, *sp1; int i1, i2; sp = (short *)(uintptr_t)buf; i2 = sp[0]; if ((unsigned)n >= i2 || (n & 1)) return (0); if (n == i2-2) { sp[0] -= 2; return (1); } i1 = PBLKSIZ; if (n > 0) i1 = sp[n]; i1 -= sp[n+2]; if (i1 > 0) { i2 = sp[i2]; (void) memmove(&buf[i2 + i1], &buf[i2], sp[n+2] - i2); } sp[0] -= 2; for (sp1 = sp + sp[0], sp += n+1; sp <= sp1; sp++) sp[0] = sp[2] + i1; return (1); } /* * Add pairs of items (item & item1). */ static int additem(char buf[PBLKSIZ], datum item, datum item1) { short *sp; int i1, i2; sp = (short *)(uintptr_t)buf; i1 = PBLKSIZ; i2 = sp[0]; if (i2 > 0) i1 = sp[i2]; i1 -= item.dsize + item1.dsize; if (i1 <= (i2+3) * (int)sizeof (short)) return (0); sp[0] += 2; sp[++i2] = (short)(i1 + item1.dsize); (void) memmove(&buf[i1 + item1.dsize], item.dptr, item.dsize); sp[++i2] = i1; (void) memmove(&buf[i1], item1.dptr, item1.dsize); return (1); } #ifdef DEBUG static int chkblk(char buf[PBLKSIZ]) { short *sp; int t, i; sp = (short *)buf; t = PBLKSIZ; for (i = 0; i < sp[0]; i++) { if (sp[i + 1] > t) return (-1); t = sp[i + 1]; } if (t < (sp[0] + 1) * sizeof (short)) return (-1); return (0); } #endif