/* $NetBSD: ntfs_subr.c,v 1.23 1999/10/31 19:45:26 jdolecek Exp $ */ /*- * Copyright (c) 1998, 1999 Semen Ustimenko (semenu@FreeBSD.org) * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * $FreeBSD$ */ #include #include #include #include #include #include #include #include #include #include #include #include #include /* #define NTFS_DEBUG 1 */ #include #include #include #include #include #include #include static MALLOC_DEFINE(M_NTFSNTVATTR, "ntfs_vattr", "NTFS file attribute information"); static MALLOC_DEFINE(M_NTFSRDATA, "ntfsd_resdata", "NTFS resident data"); static MALLOC_DEFINE(M_NTFSRUN, "ntfs_vrun", "NTFS vrun storage"); static MALLOC_DEFINE(M_NTFSDECOMP, "ntfs_decomp", "NTFS decompression temporary"); static int ntfs_ntlookupattr(struct ntfsmount *, const char *, int, int *, char **); static int ntfs_findvattr(struct ntfsmount *, struct ntnode *, struct ntvattr **, struct ntvattr **, u_int32_t, const char *, size_t, cn_t); static int ntfs_uastricmp(struct ntfsmount *, const wchar *, size_t, const char *, size_t); static int ntfs_uastrcmp(struct ntfsmount *, const wchar *, size_t, const char *, size_t); /* table for mapping Unicode chars into uppercase; it's filled upon first * ntfs mount, freed upon last ntfs umount */ static wchar *ntfs_toupper_tab; #define NTFS_TOUPPER(ch) (ntfs_toupper_tab[(ch)]) static struct lock ntfs_toupper_lock; static signed int ntfs_toupper_usecount; struct iconv_functions *ntfs_iconv = NULL; /* support macro for ntfs_ntvattrget() */ #define NTFS_AALPCMP(aalp,type,name,namelen) ( \ (aalp->al_type == type) && (aalp->al_namelen == namelen) && \ !NTFS_UASTRCMP(aalp->al_name,aalp->al_namelen,name,namelen) ) /* * */ int ntfs_ntvattrrele(vap) struct ntvattr * vap; { dprintf(("ntfs_ntvattrrele: ino: %ju, type: 0x%x\n", (uintmax_t)vap->va_ip->i_number, vap->va_type)); ntfs_ntrele(vap->va_ip); return (0); } /* * find the attribute in the ntnode */ static int ntfs_findvattr(ntmp, ip, lvapp, vapp, type, name, namelen, vcn) struct ntfsmount *ntmp; struct ntnode *ip; struct ntvattr **lvapp, **vapp; u_int32_t type; const char *name; size_t namelen; cn_t vcn; { int error; struct ntvattr *vap; if((ip->i_flag & IN_LOADED) == 0) { dprintf(("ntfs_findvattr: node not loaded, ino: %ju\n", (uintmax_t)ip->i_number)); error = ntfs_loadntnode(ntmp,ip); if (error) { printf("ntfs_findvattr: FAILED TO LOAD INO: %ju\n", (uintmax_t)ip->i_number); return (error); } } *lvapp = NULL; *vapp = NULL; LIST_FOREACH(vap, &ip->i_valist, va_list) { ddprintf(("ntfs_findvattr: type: 0x%x, vcn: %d - %d\n", \ vap->va_type, (u_int32_t) vap->va_vcnstart, \ (u_int32_t) vap->va_vcnend)); if ((vap->va_type == type) && (vap->va_vcnstart <= vcn) && (vap->va_vcnend >= vcn) && (vap->va_namelen == namelen) && (strncmp(name, vap->va_name, namelen) == 0)) { *vapp = vap; ntfs_ntref(vap->va_ip); return (0); } if (vap->va_type == NTFS_A_ATTRLIST) *lvapp = vap; } return (-1); } /* * Search attribute specifed in ntnode (load ntnode if nessecary). * If not found but ATTR_A_ATTRLIST present, read it in and search throught. * VOP_VGET node needed, and lookup througth it's ntnode (load if nessesary). * * ntnode should be locked */ int ntfs_ntvattrget( struct ntfsmount * ntmp, struct ntnode * ip, u_int32_t type, const char *name, cn_t vcn, struct ntvattr ** vapp) { struct ntvattr *lvap = NULL; struct attr_attrlist *aalp; struct attr_attrlist *nextaalp; struct vnode *newvp; struct ntnode *newip; caddr_t alpool; size_t namelen, len; int error; *vapp = NULL; if (name) { dprintf(("ntfs_ntvattrget: " \ "ino: %ju, type: 0x%x, name: %s, vcn: %d\n", \ (uintmax_t)ip->i_number, type, name, (uint32_t)vcn)); namelen = strlen(name); } else { dprintf(("ntfs_ntvattrget: " \ "ino: %ju, type: 0x%x, vcn: %d\n", \ (uintmax_t)ip->i_number, type, (uint32_t)vcn)); name = ""; namelen = 0; } error = ntfs_findvattr(ntmp, ip, &lvap, vapp, type, name, namelen, vcn); if (error >= 0) return (error); if (!lvap) { dprintf(("ntfs_ntvattrget: UNEXISTED ATTRIBUTE: " \ "ino: %ju, type: 0x%x, name: %s, vcn: %d\n", \ (uintmax_t)ip->i_number, type, name, (uint32_t)vcn)); return (ENOENT); } /* Scan $ATTRIBUTE_LIST for requested attribute */ len = lvap->va_datalen; alpool = malloc(len, M_TEMP, M_WAITOK); error = ntfs_readntvattr_plain(ntmp, ip, lvap, 0, len, alpool, &len, NULL); if (error) goto out; aalp = (struct attr_attrlist *) alpool; nextaalp = NULL; for(; len > 0; aalp = nextaalp) { dprintf(("ntfs_ntvattrget: " \ "attrlist: ino: %ju, attr: 0x%x, vcn: %d\n", \ (uintmax_t)aalp->al_inumber, aalp->al_type, \ (uint32_t)aalp->al_vcnstart)); if (len > aalp->reclen) { nextaalp = NTFS_NEXTREC(aalp, struct attr_attrlist *); } else { nextaalp = NULL; } len -= aalp->reclen; if (!NTFS_AALPCMP(aalp, type, name, namelen) || (nextaalp && (nextaalp->al_vcnstart <= vcn) && NTFS_AALPCMP(nextaalp, type, name, namelen))) continue; dprintf(("ntfs_ntvattrget: attribute in ino: %ju\n", (uintmax_t)aalp->al_inumber)); /* this is not a main record, so we can't use just plain vget() */ error = ntfs_vgetex(ntmp->ntm_mountp, aalp->al_inumber, NTFS_A_DATA, NULL, LK_EXCLUSIVE, VG_EXT, curthread, &newvp); if (error) { printf("ntfs_ntvattrget: CAN'T VGET INO: %ju\n", (uintmax_t)aalp->al_inumber); goto out; } newip = VTONT(newvp); /* XXX have to lock ntnode */ error = ntfs_findvattr(ntmp, newip, &lvap, vapp, type, name, namelen, vcn); vput(newvp); if (error == 0) goto out; printf("ntfs_ntvattrget: ATTRLIST ERROR.\n"); break; } error = ENOENT; dprintf(("ntfs_ntvattrget: UNEXISTED ATTRIBUTE: " \ "ino: %ju, type: 0x%x, name: %.*s, vcn: %d\n", \ (uintmax_t)ip->i_number, type, (int)namelen, name, (uint32_t)vcn)); out: free(alpool, M_TEMP); return (error); } /* * Read ntnode from disk, make ntvattr list. * * ntnode should be locked */ int ntfs_loadntnode( struct ntfsmount * ntmp, struct ntnode * ip) { struct filerec *mfrp; daddr_t bn; int error,off; struct attr *ap; struct ntvattr *nvap; dprintf(("ntfs_loadntnode: loading ino: %ju\n", (uintmax_t)ip->i_number)); mfrp = malloc(ntfs_bntob(ntmp->ntm_bpmftrec), M_TEMP, M_WAITOK); if (ip->i_number < NTFS_SYSNODESNUM) { struct buf *bp; dprintf(("ntfs_loadntnode: read system node\n")); bn = ntfs_cntobn(ntmp->ntm_mftcn) + ntmp->ntm_bpmftrec * ip->i_number; bn *= ntmp->ntm_multiplier; error = bread(ntmp->ntm_devvp, bn, ntfs_bntob(ntmp->ntm_bpmftrec), NOCRED, &bp); if (error) { printf("ntfs_loadntnode: BREAD FAILED\n"); brelse(bp); goto out; } memcpy(mfrp, bp->b_data, ntfs_bntob(ntmp->ntm_bpmftrec)); bqrelse(bp); } else { struct vnode *vp; vp = ntmp->ntm_sysvn[NTFS_MFTINO]; error = ntfs_readattr(ntmp, VTONT(vp), NTFS_A_DATA, NULL, ip->i_number * ntfs_bntob(ntmp->ntm_bpmftrec), ntfs_bntob(ntmp->ntm_bpmftrec), mfrp, NULL); if (error) { printf("ntfs_loadntnode: ntfs_readattr failed\n"); goto out; } } /* Check if magic and fixups are correct */ error = ntfs_procfixups(ntmp, NTFS_FILEMAGIC, (caddr_t)mfrp, ntfs_bntob(ntmp->ntm_bpmftrec)); if (error) { printf("ntfs_loadntnode: BAD MFT RECORD %ju\n", (uintmax_t)ip->i_number); goto out; } dprintf(("ntfs_loadntnode: load attrs for ino: %ju\n", (uintmax_t)ip->i_number)); off = mfrp->fr_attroff; ap = (struct attr *) ((caddr_t)mfrp + off); LIST_INIT(&ip->i_valist); while (ap->a_hdr.a_type != -1) { error = ntfs_attrtontvattr(ntmp, &nvap, ap); if (error) break; nvap->va_ip = ip; LIST_INSERT_HEAD(&ip->i_valist, nvap, va_list); off += ap->a_hdr.reclen; ap = (struct attr *) ((caddr_t)mfrp + off); } if (error) { printf("ntfs_loadntnode: failed to load attr ino: %ju\n", (uintmax_t)ip->i_number); goto out; } ip->i_mainrec = mfrp->fr_mainrec; ip->i_nlink = mfrp->fr_nlink; ip->i_frflag = mfrp->fr_flags; ip->i_flag |= IN_LOADED; out: free(mfrp, M_TEMP); return (error); } /* * Routine locks ntnode and increase usecount, just opposite of * ntfs_ntput(). */ int ntfs_ntget(ip) struct ntnode *ip; { dprintf(("ntfs_ntget: get ntnode %ju: %p, usecount: %d\n", (uintmax_t)ip->i_number, ip, ip->i_usecount)); mtx_lock(&ip->i_interlock); ip->i_usecount++; lockmgr(&ip->i_lock, LK_EXCLUSIVE | LK_INTERLOCK, &ip->i_interlock); return 0; } /* * Routine search ntnode in hash, if found: lock, inc usecount and return. * If not in hash allocate structure for ntnode, prefill it, lock, * inc count and return. * * ntnode returned locked */ int ntfs_ntlookup( struct ntfsmount * ntmp, ino_t ino, struct ntnode ** ipp) { struct ntnode *ip; dprintf(("ntfs_ntlookup: looking for ntnode %d\n", ino)); do { ip = ntfs_nthashlookup(ntmp->ntm_devvp->v_rdev, ino); if (ip != NULL) { ntfs_ntget(ip); dprintf(("ntfs_ntlookup: ntnode %d: %p, usecount: %d\n", ino, ip, ip->i_usecount)); *ipp = ip; return (0); } } while (lockmgr(&ntfs_hashlock, LK_EXCLUSIVE | LK_SLEEPFAIL, NULL)); ip = malloc(sizeof(struct ntnode), M_NTFSNTNODE, M_WAITOK | M_ZERO); ddprintf(("ntfs_ntlookup: allocating ntnode: %d: %p\n", ino, ip)); /* Generic initialization */ ip->i_devvp = ntmp->ntm_devvp; ip->i_dev = ntmp->ntm_devvp->v_rdev; ip->i_number = ino; ip->i_mp = ntmp; LIST_INIT(&ip->i_fnlist); VREF(ip->i_devvp); /* init lock and lock the newborn ntnode */ lockinit(&ip->i_lock, PINOD, "ntnode", 0, 0); mtx_init(&ip->i_interlock, "ntnode interlock", NULL, MTX_DEF); ntfs_ntget(ip); ntfs_nthashins(ip); lockmgr(&ntfs_hashlock, LK_RELEASE, NULL); *ipp = ip; dprintf(("ntfs_ntlookup: ntnode %d: %p, usecount: %d\n", ino, ip, ip->i_usecount)); return (0); } /* * Decrement usecount of ntnode and unlock it, if usecount reach zero, * deallocate ntnode. * * ntnode should be locked on entry, and unlocked on return. */ void ntfs_ntput(ip) struct ntnode *ip; { struct ntvattr *vap; dprintf(("ntfs_ntput: rele ntnode %ju: %p, usecount: %d\n", (uintmax_t)ip->i_number, ip, ip->i_usecount)); mtx_lock(&ip->i_interlock); ip->i_usecount--; #ifdef DIAGNOSTIC if (ip->i_usecount < 0) { panic("ntfs_ntput: ino: %ju usecount: %d \n", (uintmax_t)ip->i_number, ip->i_usecount); } #endif if (ip->i_usecount > 0) { lockmgr(&ip->i_lock, LK_RELEASE|LK_INTERLOCK, &ip->i_interlock); return; } dprintf(("ntfs_ntput: deallocating ntnode: %ju\n", (uintmax_t)ip->i_number)); if (LIST_FIRST(&ip->i_fnlist)) panic("ntfs_ntput: ntnode has fnodes\n"); ntfs_nthashrem(ip); while ((vap = LIST_FIRST(&ip->i_valist)) != NULL) { LIST_REMOVE(vap,va_list); ntfs_freentvattr(vap); } lockmgr(&ip->i_lock, LK_RELEASE | LK_INTERLOCK, &ip->i_interlock); mtx_destroy(&ip->i_interlock); lockdestroy(&ip->i_lock); vrele(ip->i_devvp); free(ip, M_NTFSNTNODE); } /* * increment usecount of ntnode */ void ntfs_ntref(ip) struct ntnode *ip; { mtx_lock(&ip->i_interlock); ip->i_usecount++; mtx_unlock(&ip->i_interlock); dprintf(("ntfs_ntref: ino %ju, usecount: %d\n", (uintmax_t)ip->i_number, ip->i_usecount)); } /* * Decrement usecount of ntnode. */ void ntfs_ntrele(ip) struct ntnode *ip; { dprintf(("ntfs_ntrele: rele ntnode %ju: %p, usecount: %d\n", (uintmax_t)ip->i_number, ip, ip->i_usecount)); mtx_lock(&ip->i_interlock); ip->i_usecount--; if (ip->i_usecount < 0) panic("ntfs_ntrele: ino: %ju usecount: %d \n", (uintmax_t)ip->i_number, ip->i_usecount); mtx_unlock(&ip->i_interlock); } /* * Deallocate all memory allocated for ntvattr */ void ntfs_freentvattr(vap) struct ntvattr * vap; { if (vap->va_flag & NTFS_AF_INRUN) { if (vap->va_vruncn) free(vap->va_vruncn, M_NTFSRUN); if (vap->va_vruncl) free(vap->va_vruncl, M_NTFSRUN); } else { if (vap->va_datap) free(vap->va_datap, M_NTFSRDATA); } free(vap, M_NTFSNTVATTR); } /* * Convert disk image of attribute into ntvattr structure, * runs are expanded also. */ int ntfs_attrtontvattr( struct ntfsmount * ntmp, struct ntvattr ** rvapp, struct attr * rap) { int error, i; struct ntvattr *vap; error = 0; *rvapp = NULL; vap = malloc(sizeof(struct ntvattr), M_NTFSNTVATTR, M_WAITOK | M_ZERO); vap->va_ip = NULL; vap->va_flag = rap->a_hdr.a_flag; vap->va_type = rap->a_hdr.a_type; vap->va_compression = rap->a_hdr.a_compression; vap->va_index = rap->a_hdr.a_index; ddprintf(("type: 0x%x, index: %d", vap->va_type, vap->va_index)); vap->va_namelen = rap->a_hdr.a_namelen; if (rap->a_hdr.a_namelen) { wchar *unp = (wchar *) ((caddr_t) rap + rap->a_hdr.a_nameoff); ddprintf((", name:[")); for (i = 0; i < vap->va_namelen; i++) { vap->va_name[i] = unp[i]; ddprintf(("%c", vap->va_name[i])); } ddprintf(("]")); } if (vap->va_flag & NTFS_AF_INRUN) { ddprintf((", nonres.")); vap->va_datalen = rap->a_nr.a_datalen; vap->va_allocated = rap->a_nr.a_allocated; vap->va_vcnstart = rap->a_nr.a_vcnstart; vap->va_vcnend = rap->a_nr.a_vcnend; vap->va_compressalg = rap->a_nr.a_compressalg; error = ntfs_runtovrun(&(vap->va_vruncn), &(vap->va_vruncl), &(vap->va_vruncnt), (caddr_t) rap + rap->a_nr.a_dataoff); } else { vap->va_compressalg = 0; ddprintf((", res.")); vap->va_datalen = rap->a_r.a_datalen; vap->va_allocated = rap->a_r.a_datalen; vap->va_vcnstart = 0; vap->va_vcnend = ntfs_btocn(vap->va_allocated); vap->va_datap = malloc(vap->va_datalen, M_NTFSRDATA, M_WAITOK); memcpy(vap->va_datap, (caddr_t) rap + rap->a_r.a_dataoff, rap->a_r.a_datalen); } ddprintf((", len: %lld", vap->va_datalen)); if (error) free(vap, M_NTFSNTVATTR); else *rvapp = vap; ddprintf(("\n")); return (error); } /* * Expand run into more utilizable and more memory eating format. */ int ntfs_runtovrun( cn_t ** rcnp, cn_t ** rclp, u_long * rcntp, u_int8_t * run) { u_int32_t off; u_int32_t sz, i; cn_t *cn; cn_t *cl; u_long cnt; cn_t prev; cn_t tmp; off = 0; cnt = 0; i = 0; while (run[off]) { off += (run[off] & 0xF) + ((run[off] >> 4) & 0xF) + 1; cnt++; } cn = malloc(cnt * sizeof(cn_t), M_NTFSRUN, M_WAITOK); cl = malloc(cnt * sizeof(cn_t), M_NTFSRUN, M_WAITOK); off = 0; cnt = 0; prev = 0; while (run[off]) { sz = run[off++]; cl[cnt] = 0; for (i = 0; i < (sz & 0xF); i++) cl[cnt] += (u_int32_t) run[off++] << (i << 3); sz >>= 4; if (run[off + sz - 1] & 0x80) { tmp = ((u_int64_t) - 1) << (sz << 3); for (i = 0; i < sz; i++) tmp |= (u_int64_t) run[off++] << (i << 3); } else { tmp = 0; for (i = 0; i < sz; i++) tmp |= (u_int64_t) run[off++] << (i << 3); } if (tmp) prev = cn[cnt] = prev + tmp; else cn[cnt] = tmp; cnt++; } *rcnp = cn; *rclp = cl; *rcntp = cnt; return (0); } /* * Compare unicode and ascii string case insens. */ static int ntfs_uastricmp(ntmp, ustr, ustrlen, astr, astrlen) struct ntfsmount *ntmp; const wchar *ustr; size_t ustrlen; const char *astr; size_t astrlen; { const char *astrp = astr; char tmpbuf[5]; int len, res; size_t i, j, mbstrlen = astrlen; if (ntmp->ntm_ic_l2u) { for (i = 0, j = 0; i < ustrlen && j < astrlen; i++) { len = 4; res = ((int) NTFS_TOUPPER(ustr[i])) - ((int)NTFS_TOUPPER(NTFS_82U(astrp, &len))); astrp += len; j += len; mbstrlen -= len - 1; if (res) return res; } } else { /* * We use NTFS_82U(NTFS_U28(c)) to get rid of unicode * symbols not covered by translation table */ for (i = 0; i < ustrlen && i < astrlen; i++) { res = ((int) NTFS_TOUPPER(NTFS_82U(NTFS_U28(ustr[i]), &len))) - ((int)NTFS_TOUPPER(NTFS_82U(astrp, &len))); astrp++; if (res) return res; } } return (ustrlen - mbstrlen); } /* * Compare unicode and ascii string case sens. */ static int ntfs_uastrcmp(ntmp, ustr, ustrlen, astr, astrlen) struct ntfsmount *ntmp; const wchar *ustr; size_t ustrlen; const char *astr; size_t astrlen; { char *c, tmpbuf[5]; size_t i, j, mbstrlen = astrlen; int res; for (i = 0, j = 0; (i < ustrlen) && (j < astrlen); i++, mbstrlen++) { c = NTFS_U28(ustr[i]); while (*c != '\0') { res = (int) (*c++ - astr[j++]); if (res) return res; mbstrlen--; } } return (ustrlen - mbstrlen); } /* * Search fnode in ntnode, if not found allocate and preinitialize. * * ntnode should be locked on entry. */ int ntfs_fget( struct ntfsmount *ntmp, struct ntnode *ip, int attrtype, char *attrname, struct fnode **fpp) { struct fnode *fp; dprintf(("ntfs_fget: ino: %ju, attrtype: 0x%x, attrname: %s\n", (uintmax_t)ip->i_number, attrtype, attrname ? attrname : "")); *fpp = NULL; LIST_FOREACH(fp, &ip->i_fnlist, f_fnlist){ dprintf(("ntfs_fget: fnode: attrtype: %d, attrname: %s\n", fp->f_attrtype, fp->f_attrname?fp->f_attrname:"")); if ((attrtype == fp->f_attrtype) && ((!attrname && !fp->f_attrname) || (attrname && fp->f_attrname && !strcmp(attrname,fp->f_attrname)))){ dprintf(("ntfs_fget: found existed: %p\n",fp)); *fpp = fp; } } if (*fpp) return (0); fp = malloc(sizeof(struct fnode), M_NTFSFNODE, M_WAITOK | M_ZERO); dprintf(("ntfs_fget: allocating fnode: %p\n",fp)); fp->f_ip = ip; if (attrname) { fp->f_flag |= FN_AATTRNAME; fp->f_attrname = malloc(strlen(attrname)+1, M_TEMP, M_WAITOK); strcpy(fp->f_attrname, attrname); } else fp->f_attrname = NULL; fp->f_attrtype = attrtype; ntfs_ntref(ip); LIST_INSERT_HEAD(&ip->i_fnlist, fp, f_fnlist); *fpp = fp; return (0); } /* * Deallocate fnode, remove it from ntnode's fnode list. * * ntnode should be locked. */ void ntfs_frele( struct fnode *fp) { struct ntnode *ip = FTONT(fp); dprintf(("ntfs_frele: fnode: %p for %ju: %p\n", fp, (uintmax_t)ip->i_number, ip)); dprintf(("ntfs_frele: deallocating fnode\n")); LIST_REMOVE(fp,f_fnlist); if (fp->f_flag & FN_AATTRNAME) free(fp->f_attrname, M_TEMP); if (fp->f_dirblbuf) free(fp->f_dirblbuf, M_NTFSDIR); free(fp, M_NTFSFNODE); ntfs_ntrele(ip); } /* * Lookup attribute name in format: [[:$ATTR_TYPE]:$ATTR_NAME], * $ATTR_TYPE is searched in attrdefs read from $AttrDefs. * If $ATTR_TYPE nott specifed, ATTR_A_DATA assumed. */ static int ntfs_ntlookupattr( struct ntfsmount * ntmp, const char * name, int namelen, int *attrtype, char **attrname) { const char *sys; size_t syslen, i; struct ntvattrdef *adp; if (namelen == 0) return (0); if (name[0] == '$') { sys = name; for (syslen = 0; syslen < namelen; syslen++) { if(sys[syslen] == ':') { name++; namelen--; break; } } name += syslen; namelen -= syslen; adp = ntmp->ntm_ad; for (i = 0; i < ntmp->ntm_adnum; i++, adp++){ if (syslen != adp->ad_namelen || strncmp(sys, adp->ad_name, syslen) != 0) continue; *attrtype = adp->ad_type; goto out; } return (ENOENT); } else *attrtype = NTFS_A_DATA; out: if (namelen) { (*attrname) = malloc(namelen, M_TEMP, M_WAITOK); memcpy((*attrname), name, namelen); (*attrname)[namelen] = '\0'; } return (0); } /* * Lookup specifed node for filename, matching cnp, * return fnode filled. */ int ntfs_ntlookupfile( struct ntfsmount * ntmp, struct vnode * vp, struct componentname * cnp, struct vnode ** vpp) { struct fnode *fp = VTOF(vp); struct ntnode *ip = FTONT(fp); struct ntvattr *vap; /* Root attribute */ cn_t cn; /* VCN in current attribute */ caddr_t rdbuf; /* Buffer to read directory's blocks */ u_int32_t blsize; u_int64_t rdsize; /* Length of data to read from current block */ struct attr_indexentry *iep; int error, res, anamelen, fnamelen; const char *fname,*aname; u_int32_t aoff; int attrtype = NTFS_A_DATA; char *attrname = NULL; struct fnode *nfp; struct vnode *nvp; enum vtype f_type; error = ntfs_ntget(ip); if (error) return (error); error = ntfs_ntvattrget(ntmp, ip, NTFS_A_INDXROOT, "$I30", 0, &vap); if (error || (vap->va_flag & NTFS_AF_INRUN)) return (ENOTDIR); blsize = vap->va_a_iroot->ir_size; rdsize = vap->va_datalen; /* * Divide file name into: foofilefoofilefoofile[:attrspec] * Store like this: fname:fnamelen [aname:anamelen] */ fname = cnp->cn_nameptr; aname = NULL; anamelen = 0; for (fnamelen = 0; fnamelen < cnp->cn_namelen; fnamelen++) if(fname[fnamelen] == ':') { aname = fname + fnamelen + 1; anamelen = cnp->cn_namelen - fnamelen - 1; dprintf(("ntfs_ntlookupfile: %s (%d), attr: %s (%d)\n", fname, fnamelen, aname, anamelen)); break; } dprintf(("ntfs_ntlookupfile: blksz: %d, rdsz: %jd\n", blsize, rdsize)); rdbuf = malloc(blsize, M_TEMP, M_WAITOK); error = ntfs_readattr(ntmp, ip, NTFS_A_INDXROOT, "$I30", 0, rdsize, rdbuf, NULL); if (error) goto fail; aoff = sizeof(struct attr_indexroot); do { iep = (struct attr_indexentry *) (rdbuf + aoff); for (; !(iep->ie_flag & NTFS_IEFLAG_LAST) && (rdsize > aoff); aoff += iep->reclen, iep = (struct attr_indexentry *) (rdbuf + aoff)) { ddprintf(("scan: %d, %d\n", (u_int32_t) iep->ie_number, (u_int32_t) iep->ie_fnametype)); /* check the name - the case-insensitible check * has to come first, to break from this for loop * if needed, so we can dive correctly */ res = NTFS_UASTRICMP(iep->ie_fname, iep->ie_fnamelen, fname, fnamelen); if (res > 0) break; if (res < 0) continue; if (iep->ie_fnametype == 0 || !(ntmp->ntm_flag & NTFS_MFLAG_CASEINS)) { res = NTFS_UASTRCMP(iep->ie_fname, iep->ie_fnamelen, fname, fnamelen); if (res != 0) continue; } if (aname) { error = ntfs_ntlookupattr(ntmp, aname, anamelen, &attrtype, &attrname); if (error) goto fail; } /* Check if we've found ourself */ if ((iep->ie_number == ip->i_number) && (attrtype == fp->f_attrtype) && ((!attrname && !fp->f_attrname) || (attrname && fp->f_attrname && !strcmp(attrname, fp->f_attrname)))) { VREF(vp); *vpp = vp; error = 0; goto fail; } /* vget node, but don't load it */ error = ntfs_vgetex(ntmp->ntm_mountp, iep->ie_number, attrtype, attrname, LK_EXCLUSIVE, VG_DONTLOADIN | VG_DONTVALIDFN, curthread, &nvp); /* free the buffer returned by ntfs_ntlookupattr() */ if (attrname) { free(attrname, M_TEMP); attrname = NULL; } if (error) goto fail; nfp = VTOF(nvp); if (nfp->f_flag & FN_VALID) { *vpp = nvp; goto fail; } nfp->f_fflag = iep->ie_fflag; nfp->f_pnumber = iep->ie_fpnumber; nfp->f_times = iep->ie_ftimes; if((nfp->f_fflag & NTFS_FFLAG_DIR) && (nfp->f_attrtype == NTFS_A_DATA) && (nfp->f_attrname == NULL)) f_type = VDIR; else f_type = VREG; nvp->v_type = f_type; if ((nfp->f_attrtype == NTFS_A_DATA) && (nfp->f_attrname == NULL)) { /* Opening default attribute */ nfp->f_size = iep->ie_fsize; nfp->f_allocated = iep->ie_fallocated; nfp->f_flag |= FN_PRELOADED; } else { error = ntfs_filesize(ntmp, nfp, &nfp->f_size, &nfp->f_allocated); if (error) { vput(nvp); goto fail; } } nfp->f_flag &= ~FN_VALID; *vpp = nvp; goto fail; } /* Dive if possible */ if (iep->ie_flag & NTFS_IEFLAG_SUBNODE) { dprintf(("ntfs_ntlookupfile: diving\n")); cn = *(cn_t *) (rdbuf + aoff + iep->reclen - sizeof(cn_t)); rdsize = blsize; error = ntfs_readattr(ntmp, ip, NTFS_A_INDX, "$I30", ntfs_cntob(cn), rdsize, rdbuf, NULL); if (error) goto fail; error = ntfs_procfixups(ntmp, NTFS_INDXMAGIC, rdbuf, rdsize); if (error) goto fail; aoff = (((struct attr_indexalloc *) rdbuf)->ia_hdrsize + 0x18); } else { dprintf(("ntfs_ntlookupfile: nowhere to dive :-(\n")); error = ENOENT; break; } } while (1); dprintf(("finish\n")); fail: if (attrname) free(attrname, M_TEMP); ntfs_ntvattrrele(vap); ntfs_ntput(ip); free(rdbuf, M_TEMP); return (error); } /* * Check if name type is permitted to show. */ int ntfs_isnamepermitted( struct ntfsmount * ntmp, struct attr_indexentry * iep) { if (ntmp->ntm_flag & NTFS_MFLAG_ALLNAMES) return 1; switch (iep->ie_fnametype) { case 2: ddprintf(("ntfs_isnamepermitted: skipped DOS name\n")); return 0; case 0: case 1: case 3: return 1; default: printf("ntfs_isnamepermitted: " \ "WARNING! Unknown file name type: %d\n", iep->ie_fnametype); break; } return 0; } /* * Read ntfs dir like stream of attr_indexentry, not like btree of them. * This is done by scaning $BITMAP:$I30 for busy clusters and reading them. * Ofcouse $INDEX_ROOT:$I30 is read before. Last read values are stored in * fnode, so we can skip toward record number num almost immediatly. * Anyway this is rather slow routine. The problem is that we don't know * how many records are there in $INDEX_ALLOCATION:$I30 block. */ int ntfs_ntreaddir( struct ntfsmount * ntmp, struct fnode * fp, u_int32_t num, struct attr_indexentry ** riepp) { struct ntnode *ip = FTONT(fp); struct ntvattr *vap = NULL; /* IndexRoot attribute */ struct ntvattr *bmvap = NULL; /* BitMap attribute */ struct ntvattr *iavap = NULL; /* IndexAllocation attribute */ caddr_t rdbuf; /* Buffer to read directory's blocks */ u_int8_t *bmp = NULL; /* Bitmap */ u_int32_t blsize; /* Index allocation size (2048) */ u_int32_t rdsize; /* Length of data to read */ u_int32_t attrnum; /* Current attribute type */ u_int32_t cpbl = 1; /* Clusters per directory block */ u_int32_t blnum; struct attr_indexentry *iep; int error = ENOENT; u_int32_t aoff, cnum; dprintf(("ntfs_ntreaddir: read ino: %ju, num: %d\n", (uintmax_t)ip->i_number, num)); error = ntfs_ntget(ip); if (error) return (error); error = ntfs_ntvattrget(ntmp, ip, NTFS_A_INDXROOT, "$I30", 0, &vap); if (error) return (ENOTDIR); if (fp->f_dirblbuf == NULL) { fp->f_dirblsz = vap->va_a_iroot->ir_size; fp->f_dirblbuf = malloc(max(vap->va_datalen,fp->f_dirblsz), M_NTFSDIR, M_WAITOK); } blsize = fp->f_dirblsz; rdbuf = fp->f_dirblbuf; dprintf(("ntfs_ntreaddir: rdbuf: %p, blsize: %d\n", rdbuf, blsize)); if (vap->va_a_iroot->ir_flag & NTFS_IRFLAG_INDXALLOC) { error = ntfs_ntvattrget(ntmp, ip, NTFS_A_INDXBITMAP, "$I30", 0, &bmvap); if (error) { error = ENOTDIR; goto fail; } bmp = malloc(bmvap->va_datalen, M_TEMP, M_WAITOK); error = ntfs_readattr(ntmp, ip, NTFS_A_INDXBITMAP, "$I30", 0, bmvap->va_datalen, bmp, NULL); if (error) goto fail; error = ntfs_ntvattrget(ntmp, ip, NTFS_A_INDX, "$I30", 0, &iavap); if (error) { error = ENOTDIR; goto fail; } cpbl = ntfs_btocn(blsize + ntfs_cntob(1) - 1); dprintf(("ntfs_ntreaddir: indexalloc: %jd, cpbl: %d\n", iavap->va_datalen, cpbl)); } else { dprintf(("ntfs_ntreadidir: w/o BitMap and IndexAllocation\n")); iavap = bmvap = NULL; bmp = NULL; } /* Try use previous values */ if ((fp->f_lastdnum < num) && (fp->f_lastdnum != 0)) { attrnum = fp->f_lastdattr; aoff = fp->f_lastdoff; blnum = fp->f_lastdblnum; cnum = fp->f_lastdnum; } else { attrnum = NTFS_A_INDXROOT; aoff = sizeof(struct attr_indexroot); blnum = 0; cnum = 0; } do { dprintf(("ntfs_ntreaddir: scan: 0x%x, %d, %d, %d, %d\n", attrnum, (u_int32_t) blnum, cnum, num, aoff)); rdsize = (attrnum == NTFS_A_INDXROOT) ? vap->va_datalen : blsize; error = ntfs_readattr(ntmp, ip, attrnum, "$I30", ntfs_cntob(blnum * cpbl), rdsize, rdbuf, NULL); if (error) goto fail; if (attrnum == NTFS_A_INDX) { error = ntfs_procfixups(ntmp, NTFS_INDXMAGIC, rdbuf, rdsize); if (error) goto fail; } if (aoff == 0) aoff = (attrnum == NTFS_A_INDX) ? (0x18 + ((struct attr_indexalloc *) rdbuf)->ia_hdrsize) : sizeof(struct attr_indexroot); iep = (struct attr_indexentry *) (rdbuf + aoff); for (; !(iep->ie_flag & NTFS_IEFLAG_LAST) && (rdsize > aoff); aoff += iep->reclen, iep = (struct attr_indexentry *) (rdbuf + aoff)) { if (!ntfs_isnamepermitted(ntmp, iep)) continue; if (cnum >= num) { fp->f_lastdnum = cnum; fp->f_lastdoff = aoff; fp->f_lastdblnum = blnum; fp->f_lastdattr = attrnum; *riepp = iep; error = 0; goto fail; } cnum++; } if (iavap) { if (attrnum == NTFS_A_INDXROOT) blnum = 0; else blnum++; while (ntfs_cntob(blnum * cpbl) < iavap->va_datalen) { if (bmp[blnum >> 3] & (1 << (blnum & 7))) break; blnum++; } attrnum = NTFS_A_INDX; aoff = 0; if (ntfs_cntob(blnum * cpbl) >= iavap->va_datalen) break; dprintf(("ntfs_ntreaddir: blnum: %d\n", (u_int32_t) blnum)); } } while (iavap); *riepp = NULL; fp->f_lastdnum = 0; fail: if (vap) ntfs_ntvattrrele(vap); if (bmvap) ntfs_ntvattrrele(bmvap); if (iavap) ntfs_ntvattrrele(iavap); if (bmp) free(bmp, M_TEMP); ntfs_ntput(ip); return (error); } /* * Convert NTFS times that are in 100 ns units and begins from * 1601 Jan 1 into unix times. */ struct timespec ntfs_nttimetounix( u_int64_t nt) { struct timespec t; /* WindowNT times are in 100 ns and from 1601 Jan 1 */ t.tv_nsec = (nt % (1000 * 1000 * 10)) * 100; t.tv_sec = nt / (1000 * 1000 * 10) - 369LL * 365LL * 24LL * 60LL * 60LL - 89LL * 1LL * 24LL * 60LL * 60LL; return (t); } /* * Get file times from NTFS_A_NAME attribute. */ int ntfs_times( struct ntfsmount * ntmp, struct ntnode * ip, ntfs_times_t * tm) { struct ntvattr *vap; int error; dprintf(("ntfs_times: ino: %ju...\n", (uintmax_t)ip->i_number)); error = ntfs_ntget(ip); if (error) return (error); error = ntfs_ntvattrget(ntmp, ip, NTFS_A_NAME, NULL, 0, &vap); if (error) { ntfs_ntput(ip); return (error); } *tm = vap->va_a_name->n_times; ntfs_ntvattrrele(vap); ntfs_ntput(ip); return (0); } /* * Get file sizes from corresponding attribute. * * ntnode under fnode should be locked. */ int ntfs_filesize( struct ntfsmount * ntmp, struct fnode * fp, u_int64_t * size, u_int64_t * bytes) { struct ntvattr *vap; struct ntnode *ip = FTONT(fp); u_int64_t sz, bn; int error; dprintf(("ntfs_filesize: ino: %ju\n", (uintmax_t)ip->i_number)); error = ntfs_ntvattrget(ntmp, ip, fp->f_attrtype, fp->f_attrname, 0, &vap); if (error) return (error); bn = vap->va_allocated; sz = vap->va_datalen; dprintf(("ntfs_filesize: %d bytes (%d bytes allocated)\n", (u_int32_t) sz, (u_int32_t) bn)); if (size) *size = sz; if (bytes) *bytes = bn; ntfs_ntvattrrele(vap); return (0); } /* * This is one of read routines. * * ntnode should be locked. */ int ntfs_readntvattr_plain( struct ntfsmount * ntmp, struct ntnode * ip, struct ntvattr * vap, off_t roff, size_t rsize, void *rdata, size_t * initp, struct uio *uio) { int error = 0; off_t off; *initp = 0; if (vap->va_flag & NTFS_AF_INRUN) { int cnt; cn_t ccn, ccl, cn, left, cl; caddr_t data = rdata; struct buf *bp; size_t tocopy; ddprintf(("ntfs_readntvattr_plain: data in run: %ld chains\n", vap->va_vruncnt)); off = roff; left = rsize; ccl = 0; ccn = 0; cnt = 0; while (left && (cnt < vap->va_vruncnt)) { ccn = vap->va_vruncn[cnt]; ccl = vap->va_vruncl[cnt]; ddprintf(("ntfs_readntvattr_plain: " \ "left %d, cn: 0x%x, cl: %d, off: %d\n", \ (u_int32_t) left, (u_int32_t) ccn, \ (u_int32_t) ccl, (u_int32_t) off)); if (ntfs_cntob(ccl) < off) { off -= ntfs_cntob(ccl); cnt++; continue; } if (ccn || ip->i_number == NTFS_BOOTINO) { ccl -= ntfs_btocn(off); cn = ccn + ntfs_btocn(off); off = ntfs_btocnoff(off); while (left && ccl) { /* * Always read single clusters at a * time - we need to avoid reading * differently-sized blocks at the * same disk offsets to avoid * confusing the buffer cache. */ tocopy = MIN(left, ntfs_cntob(1) - off); cl = ntfs_btocl(tocopy + off); KASSERT(cl == 1 && tocopy <= ntfs_cntob(1), ("single cluster limit mistake")); ddprintf(("ntfs_readntvattr_plain: " \ "read: cn: 0x%x cl: %d, " \ "off: %d len: %d, left: %d\n", (u_int32_t) cn, (u_int32_t) cl, (u_int32_t) off, (u_int32_t) tocopy, (u_int32_t) left)); error = bread(ntmp->ntm_devvp, ntfs_cntobn(cn) * ntmp->ntm_multiplier, ntfs_cntob(cl), NOCRED, &bp); if (error) { brelse(bp); return (error); } if (uio) { uiomove(bp->b_data + off, tocopy, uio); } else { memcpy(data, bp->b_data + off, tocopy); } brelse(bp); data = data + tocopy; *initp += tocopy; off = 0; left -= tocopy; cn += cl; ccl -= cl; } } else { tocopy = MIN(left, ntfs_cntob(ccl) - off); ddprintf(("ntfs_readntvattr_plain: " "hole: ccn: 0x%x ccl: %d, off: %d, " \ " len: %d, left: %d\n", (u_int32_t) ccn, (u_int32_t) ccl, (u_int32_t) off, (u_int32_t) tocopy, (u_int32_t) left)); left -= tocopy; off = 0; if (uio) { size_t remains = tocopy; for(; remains; remains--) uiomove("", 1, uio); } else memset(data, 0, tocopy); data = data + tocopy; } cnt++; } if (left) { printf("ntfs_readntvattr_plain: POSSIBLE RUN ERROR\n"); error = E2BIG; } } else { ddprintf(("ntfs_readnvattr_plain: data is in mft record\n")); if (uio) uiomove(vap->va_datap + roff, rsize, uio); else memcpy(rdata, vap->va_datap + roff, rsize); *initp += rsize; } return (error); } /* * This is one of read routines. */ int ntfs_readattr_plain( struct ntfsmount * ntmp, struct ntnode * ip, u_int32_t attrnum, char *attrname, off_t roff, size_t rsize, void *rdata, size_t * initp, struct uio *uio) { size_t init; int error = 0; off_t off = roff, left = rsize, toread; caddr_t data = rdata; struct ntvattr *vap; *initp = 0; while (left) { error = ntfs_ntvattrget(ntmp, ip, attrnum, attrname, ntfs_btocn(off), &vap); if (error) return (error); toread = MIN(left, ntfs_cntob(vap->va_vcnend + 1) - off); ddprintf(("ntfs_readattr_plain: o: %d, s: %d (%d - %d)\n", (u_int32_t) off, (u_int32_t) toread, (u_int32_t) vap->va_vcnstart, (u_int32_t) vap->va_vcnend)); error = ntfs_readntvattr_plain(ntmp, ip, vap, off - ntfs_cntob(vap->va_vcnstart), toread, data, &init, uio); if (error) { printf("ntfs_readattr_plain: " \ "ntfs_readntvattr_plain failed: o: %d, s: %d\n", (u_int32_t) off, (u_int32_t) toread); printf("ntfs_readattr_plain: attrib: %d - %d\n", (u_int32_t) vap->va_vcnstart, (u_int32_t) vap->va_vcnend); ntfs_ntvattrrele(vap); break; } ntfs_ntvattrrele(vap); left -= toread; off += toread; data = data + toread; *initp += init; } return (error); } /* * This is one of read routines. */ int ntfs_readattr( struct ntfsmount * ntmp, struct ntnode * ip, u_int32_t attrnum, char *attrname, off_t roff, size_t rsize, void *rdata, struct uio *uio) { int error = 0; struct ntvattr *vap; size_t init; ddprintf(("ntfs_readattr: reading %ju: 0x%x, from %jd size %zu bytes\n", (uintmax_t)ip->i_number, attrnum, (intmax_t)roff, rsize)); error = ntfs_ntvattrget(ntmp, ip, attrnum, attrname, 0, &vap); if (error) return (error); if ((roff > vap->va_datalen) || (roff + rsize > vap->va_datalen)) { ddprintf(("ntfs_readattr: offset too big\n")); ntfs_ntvattrrele(vap); return (E2BIG); } if (vap->va_compression && vap->va_compressalg) { u_int8_t *cup; u_int8_t *uup; off_t off = roff, left = rsize, tocopy; caddr_t data = rdata; cn_t cn; ddprintf(("ntfs_ntreadattr: compression: %d\n", vap->va_compressalg)); cup = malloc(ntfs_cntob(NTFS_COMPUNIT_CL), M_NTFSDECOMP, M_WAITOK); uup = malloc(ntfs_cntob(NTFS_COMPUNIT_CL), M_NTFSDECOMP, M_WAITOK); cn = (ntfs_btocn(roff)) & (~(NTFS_COMPUNIT_CL - 1)); off = roff - ntfs_cntob(cn); while (left) { error = ntfs_readattr_plain(ntmp, ip, attrnum, attrname, ntfs_cntob(cn), ntfs_cntob(NTFS_COMPUNIT_CL), cup, &init, NULL); if (error) break; tocopy = MIN(left, ntfs_cntob(NTFS_COMPUNIT_CL) - off); if (init == ntfs_cntob(NTFS_COMPUNIT_CL)) { if (uio) uiomove(cup + off, tocopy, uio); else memcpy(data, cup + off, tocopy); } else if (init == 0) { if (uio) { size_t remains = tocopy; for(; remains; remains--) uiomove("", 1, uio); } else memset(data, 0, tocopy); } else { error = ntfs_uncompunit(ntmp, uup, cup); if (error) break; if (uio) uiomove(uup + off, tocopy, uio); else memcpy(data, uup + off, tocopy); } left -= tocopy; data = data + tocopy; off += tocopy - ntfs_cntob(NTFS_COMPUNIT_CL); cn += NTFS_COMPUNIT_CL; } free(uup, M_NTFSDECOMP); free(cup, M_NTFSDECOMP); } else error = ntfs_readattr_plain(ntmp, ip, attrnum, attrname, roff, rsize, rdata, &init, uio); ntfs_ntvattrrele(vap); return (error); } #if 0 int ntfs_parserun( cn_t * cn, cn_t * cl, u_int8_t * run, u_long len, u_long *off) { u_int8_t sz; int i; if (NULL == run) { printf("ntfs_parsetun: run == NULL\n"); return (EINVAL); } sz = run[(*off)++]; if (0 == sz) { printf("ntfs_parserun: trying to go out of run\n"); return (E2BIG); } *cl = 0; if ((sz & 0xF) > 8 || (*off) + (sz & 0xF) > len) { printf("ntfs_parserun: " \ "bad run: length too big: sz: 0x%02x (%ld < %ld + sz)\n", sz, len, *off); return (EINVAL); } for (i = 0; i < (sz & 0xF); i++) *cl += (u_int32_t) run[(*off)++] << (i << 3); sz >>= 4; if ((sz & 0xF) > 8 || (*off) + (sz & 0xF) > len) { printf("ntfs_parserun: " \ "bad run: length too big: sz: 0x%02x (%ld < %ld + sz)\n", sz, len, *off); return (EINVAL); } for (i = 0; i < (sz & 0xF); i++) *cn += (u_int32_t) run[(*off)++] << (i << 3); return (0); } #endif /* * Process fixup routine on given buffer. */ int ntfs_procfixups( struct ntfsmount * ntmp, u_int32_t magic, caddr_t buf, size_t len) { struct fixuphdr *fhp = (struct fixuphdr *) buf; int i; u_int16_t fixup; u_int16_t *fxp; u_int16_t *cfxp; if (fhp->fh_magic != magic) { printf("ntfs_procfixups: magic doesn't match: %08x != %08x\n", fhp->fh_magic, magic); return (EINVAL); } if ((fhp->fh_fnum - 1) * NTFS_BLOCK_SIZE != len) { printf("ntfs_procfixups: " \ "bad fixups number: %d for %ld bytes block\n", fhp->fh_fnum, (long)len); /* XXX printf kludge */ return (EINVAL); } if (fhp->fh_foff >= ntmp->ntm_spc * ntmp->ntm_mftrecsz * ntmp->ntm_bps) { printf("ntfs_procfixups: invalid offset: %x", fhp->fh_foff); return (EINVAL); } fxp = (u_int16_t *) (buf + fhp->fh_foff); cfxp = (u_int16_t *) (buf + NTFS_BLOCK_SIZE - 2); fixup = *fxp++; for (i = 1; i < fhp->fh_fnum; i++, fxp++) { if (*cfxp != fixup) { printf("ntfs_procfixups: fixup %d doesn't match\n", i); return (EINVAL); } *cfxp = *fxp; cfxp = (u_int16_t *) ((caddr_t) cfxp + NTFS_BLOCK_SIZE); } return (0); } #if 0 int ntfs_runtocn( cn_t * cn, struct ntfsmount * ntmp, u_int8_t * run, u_long len, cn_t vcn) { cn_t ccn = 0; cn_t ccl = 0; u_long off = 0; int error = 0; #if NTFS_DEBUG int i; printf("ntfs_runtocn: run: %p, %ld bytes, vcn:%ld\n", run, len, (u_long) vcn); printf("ntfs_runtocn: run: "); for (i = 0; i < len; i++) printf("0x%02x ", run[i]); printf("\n"); #endif if (NULL == run) { printf("ntfs_runtocn: run == NULL\n"); return (EINVAL); } do { if (run[off] == 0) { printf("ntfs_runtocn: vcn too big\n"); return (E2BIG); } vcn -= ccl; error = ntfs_parserun(&ccn, &ccl, run, len, &off); if (error) { printf("ntfs_runtocn: ntfs_parserun failed\n"); return (error); } } while (ccl <= vcn); *cn = ccn + vcn; return (0); } #endif /* * this initializes toupper table & dependant variables to be ready for * later work */ void ntfs_toupper_init() { ntfs_toupper_tab = (wchar *) NULL; lockinit(&ntfs_toupper_lock, PVFS, "ntfs_toupper", 0, 0); ntfs_toupper_usecount = 0; } void ntfs_toupper_destroy(void) { lockdestroy(&ntfs_toupper_lock); } /* * if the ntfs_toupper_tab[] is filled already, just raise use count; * otherwise read the data from the filesystem we are currently mounting */ int ntfs_toupper_use(mp, ntmp) struct mount *mp; struct ntfsmount *ntmp; { int error = 0; struct vnode *vp; /* get exclusive access */ lockmgr(&ntfs_toupper_lock, LK_EXCLUSIVE, NULL); /* only read the translation data from a file if it hasn't been * read already */ if (ntfs_toupper_tab) goto out; /* * Read in Unicode lowercase -> uppercase translation file. * XXX for now, just the first 256 entries are used anyway, * so don't bother reading more */ ntfs_toupper_tab = malloc(65536 * sizeof(wchar), M_NTFSRDATA, M_WAITOK); if ((error = VFS_VGET(mp, NTFS_UPCASEINO, LK_EXCLUSIVE, &vp))) goto out; error = ntfs_readattr(ntmp, VTONT(vp), NTFS_A_DATA, NULL, 0, 65536*sizeof(wchar), (char *) ntfs_toupper_tab, NULL); vput(vp); out: ntfs_toupper_usecount++; lockmgr(&ntfs_toupper_lock, LK_RELEASE, NULL); return (error); } /* * lower the use count and if it reaches zero, free the memory * tied by toupper table */ void ntfs_toupper_unuse() { /* get exclusive access */ lockmgr(&ntfs_toupper_lock, LK_EXCLUSIVE, NULL); ntfs_toupper_usecount--; if (ntfs_toupper_usecount == 0) { free(ntfs_toupper_tab, M_NTFSRDATA); ntfs_toupper_tab = NULL; } #ifdef DIAGNOSTIC else if (ntfs_toupper_usecount < 0) { panic("ntfs_toupper_unuse(): use count negative: %d\n", ntfs_toupper_usecount); } #endif /* release the lock */ lockmgr(&ntfs_toupper_lock, LK_RELEASE, NULL); } int ntfs_u28_init( struct ntfsmount *ntmp, wchar *u2w, char *cs_local, char *cs_ntfs) { char ** u28; int i, j, h, l; if (ntfs_iconv && cs_local) { ntfs_iconv->open(cs_local, cs_ntfs, &ntmp->ntm_ic_u2l); return (0); } u28 = malloc(256 * sizeof(char*), M_TEMP, M_WAITOK | M_ZERO); for (i=0; i<256; i++) { h = (u2w[i] >> 8) & 0xFF; l = (u2w[i]) &0xFF; if (u28[h] == NULL) { u28[h] = malloc(256 * sizeof(char), M_TEMP, M_WAITOK); for (j=0; j<256; j++) u28[h][j] = '_'; } u28[h][l] = i & 0xFF; } ntmp->ntm_u28 = u28; return (0); } int ntfs_u28_uninit(struct ntfsmount *ntmp) { char ** u28; int i; if (ntmp->ntm_u28 == NULL) { if (ntfs_iconv && ntmp->ntm_ic_u2l) { ntfs_iconv->close(ntmp->ntm_ic_u2l); } return (0); } u28 = ntmp->ntm_u28; for (i=0; i<256; i++) if (u28[i] != NULL) free(u28[i], M_TEMP); free(u28, M_TEMP); return (0); } int ntfs_82u_init( struct ntfsmount *ntmp, char *cs_local, char *cs_ntfs) { wchar * _82u; int i; if (ntfs_iconv && cs_local) { ntfs_iconv->open(cs_ntfs, cs_local, &ntmp->ntm_ic_l2u); return (0); } _82u = malloc(256 * sizeof(wchar), M_TEMP, M_WAITOK); for (i=0; i<256; i++) _82u[i] = i; ntmp->ntm_82u = _82u; return (0); } int ntfs_82u_uninit(struct ntfsmount *ntmp) { if (ntmp->ntm_82u == NULL) { if (ntfs_iconv && ntmp->ntm_ic_l2u) { ntfs_iconv->close(ntmp->ntm_ic_l2u); } return (0); } free(ntmp->ntm_82u, M_TEMP); return (0); } /* * maps the Unicode char to local character */ char * ntfs_u28( char *outbuf, struct ntfsmount *ntmp, wchar wc) { char *p, *outp, inbuf[3]; size_t ilen, olen; outp = outbuf; if (ntfs_iconv && ntmp->ntm_ic_u2l) { ilen = 2; olen = 4; inbuf[0] = (char)(wc>>8); inbuf[1] = (char)wc; inbuf[2] = '\0'; p = inbuf; ntfs_iconv->convchr(ntmp->ntm_ic_u2l, (const char **)&p, &ilen, &outp, &olen); if (olen == 4) *outp++ = '?'; *outp = '\0'; outp = outbuf; return (outp); } p = ntmp->ntm_u28[(wc>>8)&0xFF]; outbuf[0] = (p == NULL) ? '_' : p[wc&0xFF] & 0xFF; outbuf[1] = '\0'; return (outp); } wchar ntfs_82u( struct ntfsmount *ntmp, const char *c, int *len) { char *outp, outbuf[3]; wchar uc; size_t ilen, olen; if (ntfs_iconv && ntmp->ntm_ic_l2u) { ilen = (size_t)*len; olen = 2; outp = outbuf; ntfs_iconv->convchr(ntmp->ntm_ic_l2u, &c, &ilen, &outp, &olen); *len -= (int)ilen; uc = (wchar)((outbuf[0]<<8) | (outbuf[1]&0xFF)); return (uc); } if (ntmp->ntm_82u != NULL) return (ntmp->ntm_82u[*c&0xFF]); return ('?'); }