/* namspace.c 21-Apr-00 : NameSpace Services, mars_nwe */ /* !!!!!!!!!!!! NOTE !!!!!!!!!! */ /* Its still dirty, but it should work fairly well */ /* (C)opyright (C) 1993,1998 Martin Stover, Marburg, Germany * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ /* history since 21-Apr-00 * * mst:21-Apr-00: fixed routine 0x57/0x18, Get Name Spaces Loaded * count_namespaces is word field, not byte. * * */ #include "net.h" #include #include #ifndef LINUX #include #endif #include "nwfname.h" #include "nwvolume.h" #include "connect.h" #include "nwattrib.h" #include "trustee.h" #include "nwconn.h" #include "nwfile.h" #include "unxfile.h" #include "namspace.h" #include "nameos2.h" #if WITH_NAME_SPACE_CALLS #define NW_PATH /* */ typedef struct { int volume; /* Volume Number */ int has_wild; /* fn has wildcards */ int namespace; /* which namespace do we use here*/ struct stat statb; /* stat buff */ uint8 *fn; /* points to last entry of path */ uint8 path[512]; /* path + fn, unixfilename */ } N_NW_PATH; typedef struct { DIR *fdir; /* for dir searches */ uint8 *kpath; /* points one after unixname */ uint8 *unixname; /* allocated fullname of path */ /* + 257 Byte for filename. */ } DIR_SEARCH_STRUCT; typedef struct { uint32 basehandle; int slot; /* act slot in table */ int locked; /* if locked then do not remove */ /* and do not move till end */ N_NW_PATH nwpath; } DIR_BASE_ENTRY; static DIR_BASE_ENTRY **dir_base=NULL; static int anz_dbe = 0; static int max_dir_base_entries=0; typedef struct { int dev; /* from searchdir */ ino_t inode; /* from searchdir */ int idle; off_t dirpos; /* last readdirpos */ ino_t found_inode; /* last found inode at readdirpos */ int lastsequence; /* last sequence */ } DIR_SEARCH_HANDLE; static DIR_SEARCH_HANDLE **dir_search_handles=NULL; static int count_dsh = 0; static int max_dir_search_handles=0; static uint32 new_search_handle(int dev, ino_t inode) { int k=count_dsh; int foundfree=-1; DIR_SEARCH_HANDLE *d; while (k--) { if (!dir_search_handles[k]) { foundfree=k; } else { if (dir_search_handles[k]->idle < MAX_I32) dir_search_handles[k]->idle++; else { xfree(dir_search_handles[k]); if (foundfree < 0 && k+1==count_dsh) count_dsh--; else foundfree=k; } } } if (foundfree < 0 && count_dsh < max_dir_search_handles) foundfree=count_dsh++; if (foundfree < 0) { int idle=-1; for (k=0; k < count_dsh; k++){ if (dir_search_handles[k]->idle > idle) { foundfree=k; idle=dir_search_handles[k]->idle; } } } else { dir_search_handles[foundfree]= (DIR_SEARCH_HANDLE*)xmalloc(sizeof(DIR_SEARCH_HANDLE)); } d=dir_search_handles[foundfree]; memset(d, 0, sizeof(DIR_SEARCH_HANDLE)); d->dev = dev; d->inode = inode; return((uint32) foundfree); } static void free_search_handles(void) { while (count_dsh--) { xfree(dir_search_handles[count_dsh]); } count_dsh=0; xfree(dir_search_handles); } static void init_nwpath(N_NW_PATH *nwpath, int namespace) { nwpath->volume = -1; nwpath->namespace = namespace; nwpath->has_wild = 0; nwpath->fn = nwpath->path; *(nwpath->path) = '\0'; nwpath->statb.st_ino = -1; } static void norm_nwpath_fn(N_NW_PATH *nwpath) { nwpath->fn = (uint8*)strrchr((char*)nwpath->path, '/'); if (nwpath->fn) nwpath->fn++; else nwpath->fn=nwpath->path; } static char *xnwpath_2_unix(N_NW_PATH *nwpath, int modus, int allocate_extra, uint8 *extra_path) /* * returns complete UNIX path * modus & 1 : ignore fn, (only path) * modus & 2 : no '/' at end * * if allocate_extra > 0, then the returned buffer must be * deallocated later */ { static char *last_unixname=NULL; char *unixname; int len; int volume = nwpath->volume; int len_extra = (extra_path) ? strlen(extra_path) : 0; char *p, *pp; if (volume < 0 || volume >= used_nw_volumes || !nw_volumes[volume].unixnamlen ) { char *errorstr="Z/Z/Z"; errorp(0, "xnwpath_2_unix", "volume=%d not ok", volume); len = strlen(errorstr); unixname=xmalloc(len_extra+allocate_extra+len+10); memcpy(unixname, errorstr,len); unixname[len] = '\0'; } else { int m = ((modus & 1) && nwpath->fn > nwpath->path) /* last path = fn */ ? nwpath->fn - nwpath->path : strlen((char*)nwpath->path); len = nw_volumes[volume].unixnamlen; unixname=xmalloc(len_extra+allocate_extra+m+len+10); memcpy(unixname, nw_volumes[volume].unixname, len); /* first UNIXNAME VOLUME */ p = pp = unixname+len; memcpy(p, nwpath->path, m); /* path or partiell path */ len += m; p += m; if ((modus & 2) && *(p-1) == '/' ) { if (p > unixname+1) { --p; --len; --m; } else { *p++ = '.'; ++len; } } else if (len_extra) { if (*(p-1) != '/') { *p++='/'; len++; } memcpy(p, extra_path, len_extra); p += len_extra; len += len_extra; } *p = '\0'; } dos2unixcharset(unixname); if (!allocate_extra) { xfree(last_unixname); last_unixname=unixname; } return(unixname); } #define nwpath_2_unix(nwpath, modus) \ xnwpath_2_unix((nwpath), (modus), 0, NULL) #define alloc_nwpath2unix(nwpath, modus) \ xnwpath_2_unix((nwpath), (modus), 1, NULL) #define alloc_nwpath2unix_big(nwpath, modus) \ xnwpath_2_unix((nwpath), (modus), 258, NULL) #define alloc_nwpath2unix_extra(nwpath, modus, extrastr) \ xnwpath_2_unix((nwpath), (modus), 1, extrastr) char *debug_nwpath_name(N_NW_PATH *p) /* only for debugging */ { #if DO_DEBUG static char *nwpathname=NULL; char volname[300]; int len; if (nw_get_volume_name(p->volume, volname, sizeof(volname)) < 1) sprintf(volname, "<%d=NOT-OK>", (int)p->volume); len = strlen(volname) + strlen(p->path) + strlen(p->fn) + 40; xfree(nwpathname); nwpathname=xmalloc(len); sprintf(nwpathname, "%d `%s:%s`,fn=`%s`", p->namespace, volname, p->path, p->fn); #else static char nwpathname[2]; nwpathname[0]='\0'; nwpathname[1]='\0'; #endif return(nwpathname); } static int nwp_stat(N_NW_PATH *nwpath, char *debstr) { uint8 *uname=alloc_nwpath2unix(nwpath, 2); int result=stat(uname, &(nwpath->statb)); if (result && errno == EACCES){ /* mst:14-Apr-00 */ seteuid(0); result = stat(uname, &(nwpath->statb)); reseteuid(); } if (nw_debug) { char xdebstr[2]; if (!debstr) { xdebstr[0]='\0'; debstr = xdebstr; } XDPRINTF((4, 0, "nwp_stat:%s:%d,%s", debstr, result, debug_nwpath_name(nwpath))); } xfree(uname); return(result); } static int downsort_dbe_entries(int dbase) { DIR_BASE_ENTRY **dbep=&(dir_base[dbase]); DIR_BASE_ENTRY **dbpq=dbep; int k=dbase; while (k--) { --dbpq; if (!(*dbpq) || !(*dbpq)->locked) { *dbep = *dbpq; if (*dbep) (*dbep)->slot = dbase; dbep=dbpq; dbase=k; } } return(dbase); } static void put_dbe_to_disk(DIR_BASE_ENTRY *dbe) { char buf[255]; char volname[100]; int l; uint8 inode_uc[4]; #if 0 int voloptions=get_volume_options(dbe->nwpath.volume); #endif if (nw_get_volume_name(dbe->nwpath.volume, volname, sizeof(volname)) < 1) return; U32_TO_BE32(dbe->nwpath.statb.st_ino, inode_uc); l=sprintf(buf, "%s/%s/%x/%x/%x/%x/%x", path_vol_inodes_cache, volname, #if 0 (voloptions & VOL_OPTION_IS_HOME) ? act_connection : 0, #else 0, #endif (int) dbe->nwpath.statb.st_dev, (int) inode_uc[0], (int) inode_uc[1], (int) inode_uc[2]); seteuid(0); unx_xmkdir(buf, 0755); sprintf(buf+l, "/%x", (int) inode_uc[3]); unlink(buf); symlink(dbe->nwpath.path, buf); reseteuid(); } static void del_dbe_from_disk(DIR_BASE_ENTRY *dbe) { char buf[255]; char volname[100]; uint8 inode_uc[4]; #if 0 int voloptions=get_volume_options(dbe->nwpath.volume); #endif if (nw_get_volume_name(dbe->nwpath.volume, volname, sizeof(volname) ) < 1) return; U32_TO_BE32(dbe->nwpath.statb.st_ino, inode_uc); sprintf(buf, "%s/%s/%x/%x/%x/%x/%x/%x", path_vol_inodes_cache, volname, #if 0 (voloptions & VOL_OPTION_IS_HOME) ? act_connection : 0, #else 0, #endif (int) dbe->nwpath.statb.st_dev, (int) inode_uc[0], (int) inode_uc[1], (int) inode_uc[2], (int) inode_uc[3]); seteuid(0); unlink(buf); reseteuid(); } static int get_dbe_data_from_disk(int volume, int dev, ino_t inode, uint8 *path) /* returns 0 if all ok */ { char buf[255]; char volname[100]; int l; uint8 inode_uc[4]; #if 0 int voloptions=get_volume_options(volume); #endif if (nw_get_volume_name(volume, volname, sizeof(volname) ) < 1) { XDPRINTF((1, 0, "get_dbe_d_f_d: wrong volume=%d", volume)); return (-1); } U32_TO_BE32(inode, inode_uc); sprintf(buf, "%s/%s/%x/%x/%x/%x/%x/%x", path_vol_inodes_cache, volname, #if 0 (voloptions & VOL_OPTION_IS_HOME) ? act_connection : 0, #else 0, #endif dev, (int) inode_uc[0], (int) inode_uc[1], (int) inode_uc[2], (int) inode_uc[3]); seteuid(0); l=readlink(buf, path, 511); reseteuid(); if (l > 0) { path[l]='\0'; return(0); } else { errorp(0, "get_dbe_d_f_d", "readlink of `%s`=%d", buf, l); return(-1); } } static DIR_BASE_ENTRY *allocate_dbe_p(int namespace) /* returns new allocated dir_base_entry_pointer */ { int j =-1; int to_use_free=-1; int to_use_file=-1; DIR_BASE_ENTRY *dbe; while (++j < anz_dbe && NULL != (dbe = dir_base[j])){ if (j > 3 && !dbe->locked) { if (!dbe->basehandle) to_use_free=j; else if (j > 10 && !S_ISDIR(dbe->nwpath.statb.st_mode)) to_use_file=j; } if (dbe->slot != j) { errorp(0, "allocate_dbe_p", "slot %d != %d", dbe->slot); } } if (j == anz_dbe) { if (anz_dbe == max_dir_base_entries) { if (to_use_free > -1) { j = to_use_free; } else if (to_use_file > -1) { j = to_use_file; /* caching directories is more important than caching files */ } else { while (j && dir_base[--j]->locked) ;; } if (S_ISDIR(dir_base[j]->nwpath.statb.st_mode) || (entry8_flags & 0x20) ) { put_dbe_to_disk(dir_base[j]); } xfree(dir_base[j]); } else anz_dbe++; dir_base[j] = NULL; } j=downsort_dbe_entries(j); dbe=dir_base[j]=(DIR_BASE_ENTRY*)xcmalloc(sizeof(DIR_BASE_ENTRY)); dbe->slot = j; init_nwpath(&(dbe->nwpath), namespace); return(dbe); } static void free_dir_bases(void) /* free's all dir_bases */ { if (dir_base) { while (anz_dbe--) { if (dir_base[anz_dbe]) { if (S_ISDIR(dir_base[anz_dbe]->nwpath.statb.st_mode) || (entry8_flags & 0x20) ) { put_dbe_to_disk(dir_base[anz_dbe]); } xfree(dir_base[anz_dbe]); } } anz_dbe=0; xfree(dir_base); } } static void xx_free_dbe_p(DIR_BASE_ENTRY **dbe) { if (NULL != dbe && NULL != *dbe) { int slot=(*dbe)->slot; xfree(*dbe); *dbe=dir_base[slot] = NULL; while (anz_dbe && ((DIR_BASE_ENTRY*)NULL == dir_base[anz_dbe-1]) ) --anz_dbe; } } #define free_dbe_p(dbe) xx_free_dbe_p(&(dbe)) static int touch_handle_entry_p(DIR_BASE_ENTRY *dbe) /* routine touchs this entry and returns the new offset */ { int dbase = (NULL != dbe) ? dbe->slot : -1; XDPRINTF((7, 0, "touch_handle_entry_p entry dbase=%d", dbase)); if (dbase > 4) { dir_base[dbase] = NULL; dbase=downsort_dbe_entries(dbase); dir_base[dbase] = dbe; dbe->slot = dbase; } XDPRINTF((7, 0, "touch_handle_entry_p return dbase=%d", dbase)); return(dbase); } static void rmdir_from_structures(char *unname, DIR_BASE_ENTRY *dbe) /* is called after directory is deleted from disk, frees some structures */ { int k=count_dsh; int dev = dbe->nwpath.statb.st_dev; ino_t inode = dbe->nwpath.statb.st_ino; free_nw_ext_inode(dbe->nwpath.volume, unname, dev, inode); while (k--) { DIR_SEARCH_HANDLE *dsh=dir_search_handles[k]; if (dsh && dsh->inode == inode && dsh->dev == dev) { xfree(dir_search_handles[k]); if (k+1 == count_dsh) count_dsh--; } } del_dbe_from_disk(dbe); free_dbe_p(dbe); } static int get_comp_pathes_size(NW_HPATH *nwp, uint8 *pp_pathes) /* returns size of path components in bytes */ { int k = -1; int size = 0; while (++k < nwp->components) { int len = (int) *(pp_pathes++); pp_pathes+= len; size += len; size++; } return(size); } static int add_hpath_to_nwpath(N_NW_PATH *nwpath, NW_HPATH *nwp, uint8 *pp_pathes) /* * Routine adds nwp to nwpath * nwpath must be filled correctly before entry * return > -1 if ok */ { int result = 0; int k = -1; int npbeg = strlen(nwpath->path); uint8 *pp = nwpath->path+npbeg; #if 0 int perhaps_inode_mode = 0; #endif XDPRINTF((4, 0, "entry add_hpath_to_nwpath: '%s', components = %d", debug_nwpath_name(nwpath), nwp->components)); while (!result && ++k < nwp->components) { int len = (int) *(pp_pathes++); uint8 *p = pp_pathes; pp_pathes+=len; XDPRINTF((5, 0, "component %2d, len=%3d, path='%s'", k, len, gettmpstr(p, len, 0) )); if (!len) { /* this means '..' ! */ if (pp > nwpath->path) { pp=strrchr((char*)nwpath->path, '/'); if (!pp) pp=nwpath->path; *pp='\0'; npbeg = pp - nwpath->path; continue; } else { result=-0x9c; /* wrong path */ goto leave_build_nwpath; } } if (!k && nwpath->volume == -1) { /* first component is volume */ if ((nwpath->volume=nw_get_volume_number(p, len)) < 0) { /* something not OK */ result = nwpath->volume; goto leave_build_nwpath; } pp = nwpath->path; *pp = '\0'; npbeg = 0; } else { /* here is path (+ fn ) */ int i=len; if (pp > nwpath->path) { /* not the first entry */ *pp = '/'; /* we must add a slash */ if (*(nwpath->path+npbeg) == '/') ++npbeg; *++pp = '\0'; } while (i--) { if (*p == 0xae || *p == '.') { *pp++ = '.'; #if 0 if (nwpath->namespace == NAME_DOS) { if (i==3 && *(p+1) == '_') perhaps_inode_mode++; } #endif } else if (*p == 0xaa || *p == '*' ) { *pp++ = '*'; nwpath->has_wild++; } else if (*p == 0xbf || *p == '?' ) { *pp++ = '?'; nwpath->has_wild++; } else if (*p == '/' || *p == '\\') { *pp++ = '/'; } else if (*p == ':') { /* extract volumename */ int vlen = (int) (pp - nwpath->path); if ((nwpath->volume=nw_get_volume_number(nwpath->path, vlen)) < 0) { result = nwpath->volume; goto leave_build_nwpath; } pp = nwpath->path; *pp = '\0'; npbeg = 0; } else *pp++ = *p; p++; } /* while */ *pp = '\0'; } /* else */ } /* while */ if (nwpath->volume < 0) result=-0x9c; /* wrong path */ leave_build_nwpath: if ((!result) && (!act_obj_id) && !(entry8_flags & 1)) { if (nwpath->volume) result = -0x9c; /* wrong path, only volume 0 is OK */ else { char *p=nwpath->path; char pp[10]; while (*p=='/') ++p; strmaxcpy(pp, p, 6); up_fn(pp); p=pp+5; if (memcmp(pp, "LOGIN", 5) || (*p!='\0' && *p!='/') ) result=-0x9c; } } if (!result) { NW_VOL *v = &nw_volumes[nwpath->volume]; if (nwpath->namespace == NAME_DOS || nwpath->namespace == NAME_OS2) { if (v->options & VOL_OPTION_IGNCASE /* || perhaps_inode_mode*/) { int nplen = (int)(pp - nwpath->path) - npbeg; if (nplen > 0) { /* mst:13-Apr-00 */ uint8 unixname[1024]; /* should be enough */ memcpy(unixname, v->unixname, v->unixnamlen); strmaxcpy(unixname+v->unixnamlen, nwpath->path, sizeof(unixname) -1 - v->unixnamlen); pp = unixname+v->unixnamlen; if (nwpath->namespace == NAME_OS2) { dos2unixcharset(pp); pp += npbeg; mangle_os2_name(v, unixname, pp, sizeof(unixname)-v->unixnamlen-npbeg); if (nplen > 0) { unix2doscharset(pp); memcpy(nwpath->path+npbeg, pp, nplen); } XDPRINTF((5,0, "Mangle OS/2 unixname='%s'", unixname)); } else if (nwpath->namespace == NAME_DOS) { dos2unixcharset(pp); pp += npbeg; if (v->options & VOL_OPTION_DOWNSHIFT) down_fn(pp); else up_fn(pp); mangle_dos_name(v, unixname, pp); if (nplen > 0) { unix2doscharset(pp); memcpy(nwpath->path+npbeg, pp, nplen); } XDPRINTF((5,0, "Mangle DOS unixname='%s'", unixname)); } } else { XDPRINTF((5,0, "no mangeling, nplen=%d", nplen)); } } else { if (v->options & VOL_OPTION_DOWNSHIFT) down_fn(nwpath->path); else up_fn(nwpath->path); #if 0 if (nwpath->namespace == NAME_DOS){ } #endif } } } XDPRINTF((4, 0, "add_hpath_to_nwpath: result=0x%x, %s", result, debug_nwpath_name(nwpath))); return(result); } static uint32 name_2_base(N_NW_PATH *nwpath, int namespace, int no_stat) /* returns basehandle of path, or 0 if not exist !! */ /* nwpath must be filled, namespace must be specified */ { uint32 basehandle=0L; if (no_stat || !nwp_stat(nwpath, "name_2_base")) { DEV_NAMESPACE_MAP dnm; dnm.dev = nwpath->statb.st_dev; dnm.namespace = namespace; basehandle = nw_vol_inode_to_handle(nwpath->volume, nwpath->statb.st_ino, &dnm); } return(basehandle); } static int volume_supports_namespace(int volume, int namespace) { int voloptions = get_volume_options(volume); if ( ( (namespace&NAME_OS2) && !(VOL_NAMESPACE_OS2&voloptions) ) || ( (namespace&NAME_NFS) && !(VOL_NAMESPACE_NFS&voloptions) ) ) { XDPRINTF((2, 0, "wrong namespace=%d, voloptions=0x%x, volume=%d", namespace, voloptions, volume)); return(-0xbf); /* invalid namespace */ } return(0); } static int add_dbe_entry(int namspace, int volume, uint32 basehandle, uint8 *path, struct stat *stb) /* creats an dbe entry * returns slot on success * or errorcode */ { DIR_BASE_ENTRY *dbe=allocate_dbe_p(namspace); if (dbe) { dbe->nwpath.volume = volume; dbe->basehandle = basehandle; if (path) { xstrcpy(dbe->nwpath.path, path); norm_nwpath_fn(&(dbe->nwpath)); } if (stb) memcpy(&(dbe->nwpath.statb), stb, sizeof(struct stat)); else { if (nwp_stat(&(dbe->nwpath), "add_dbe_entry")){ del_dbe_from_disk(dbe); free_dbe_p(dbe); return(-0x9b); /* we use wrong path here */ } } return(dbe->slot); } return(-0x96); /* we use out of memory here */ } static int find_base_entry(int volume, uint32 basehandle) /* returns base_entry from volume/basehandle pair */ { int k=-1; DEV_NAMESPACE_MAP dnm; ino_t ino; if (!basehandle) return(-0x9b); ino = nw_vol_handle_to_inode(volume, basehandle, &dnm); while (++k < anz_dbe) { DIR_BASE_ENTRY *e=dir_base[k]; if ( (DIR_BASE_ENTRY*)NULL != e && volume == e->nwpath.volume && ino == e->nwpath.statb.st_ino && dnm.dev == e->nwpath.statb.st_dev) { if (!nwp_stat(&(e->nwpath), "find_base_entry")) { return(touch_handle_entry_p(e)); } else { /* the path has changed, we say handle is wrong */ free_dbe_p(e); return(-0x9b); } } } if (0 < ino) { struct stat statb; uint8 path[512]; /* now we test whether it is the root of volume */ if (ino == get_volume_inode(volume, &statb)) { /* its the handle of the volumes root */ return(add_dbe_entry(dnm.namespace, volume, basehandle, NULL, &statb)); } /* now we try it from disk */ if (!get_dbe_data_from_disk(volume, dnm.dev, ino, path)) { /* we found it on disk */ return(add_dbe_entry(dnm.namespace, volume, basehandle, path, NULL)); } } XDPRINTF((1, 0, "Could not find path of vol=%d, base=0x%x, dev=0x%x, inode=%d", volume, basehandle, dnm.dev, ino)); return(-0x9b); } static int insert_get_base_entry(N_NW_PATH *nwpath, int namespace, int creatmode) { uint32 basehandle = name_2_base(nwpath, namespace, 0); if (!basehandle && creatmode) { /* now creat the entry (file or dir) */ int result = 0; char *unname = nwpath_2_unix(nwpath, 2); int voloptions=get_volume_options(nwpath->volume); if (voloptions&VOL_OPTION_READONLY) return(-0x8a); if (creatmode & FILE_ATTR_DIR) { /* creat dir */ if (nw_creat_node(nwpath->volume, unname, 1)) result=-0x84; } else { /* creat file */ if (nw_creat_node(nwpath->volume, unname, 0)) result=-0x84; } if (result) return(result); basehandle = name_2_base(nwpath, namespace, 0); } if (basehandle) { int k=-1; while (++k < anz_dbe) { DIR_BASE_ENTRY *e=dir_base[k]; if ( (DIR_BASE_ENTRY*)NULL != e && nwpath->volume == e->nwpath.volume && nwpath->statb.st_ino == e->nwpath.statb.st_ino && nwpath->statb.st_dev == e->nwpath.statb.st_dev) { if (nwp_stat(&(e->nwpath), "insert_get_base_entry") || strcmp(e->nwpath.path, nwpath->path)) { /* the path has changed, we remove this entry */ free_dbe_p(e); } else { return(touch_handle_entry_p(e)); } break; } } /* now i know that it's a new base entry */ return(add_dbe_entry(namespace, nwpath->volume, basehandle, nwpath->path, &(nwpath->statb))); } return(-0xff); /* invalid path = -0x9c, -0xff no matching files */ } static int build_base(int namespace, NW_HPATH *nwp, uint8 *pathes, int mode, uint8 *rets, int size_rets) /* * routine returns the actual dbe entry offset or * < 0 if error * if mode == 1, then last path element will be ignored * and will be put into the rets variable */ { int result=0; N_NW_PATH loc_nwpath; N_NW_PATH *nwpath=&loc_nwpath; init_nwpath(nwpath, namespace); if (!nwp->flag) { /* short directory handle */ result=nw_dir_get_vol_path((int)nwp->base[0], nwpath->path); if (result > -1){ nwpath->volume = result; result=0; } XDPRINTF((4, 0, "build_base with short_dir_handle=%d, result=0x%x", (int)nwp->base[0], result)); } else if (nwp->flag == 1) { /* basehandle */ if (-1 < (result = find_base_entry(nwp->volume, GET_32(nwp->base)))) { DIR_BASE_ENTRY *e = dir_base[result]; nwpath->volume = nwp->volume; xstrcpy(nwpath->path, e->nwpath.path); result = 0; } else if (!GET_32(nwp->base)) { nwpath->volume = nwp->volume; nwpath->path[0] = '\0'; result = 0; } XDPRINTF((4, 0, "build_base with basehandle=%ld, result=0x%x", GET_32(nwp->base), result)); } else if (nwp->flag != 0xff) result=-0x9c; /* wrong path */ if (!result) { nwpath->namespace = namespace; if ((result = add_hpath_to_nwpath(nwpath, nwp, pathes)) > -1 && namespace) { int lresult = volume_supports_namespace(nwpath->volume, namespace); if (lresult) result = lresult; } if (result > -1) { char *pp=strrchr((char*)nwpath->path, '/'); if (mode) { if (pp) { if (rets) strmaxcpy(rets, pp+1, size_rets-1); *(pp)=0; pp=strrchr((char*)nwpath->path, '/'); } else { if (rets) strmaxcpy(rets, nwpath->path, size_rets-1); *(nwpath->path) = '\0'; } } nwpath->fn = (pp) ? (uint8*)pp+1 : nwpath->path; result = insert_get_base_entry(nwpath, namespace, 0); } } return(result); } static int build_dos_name(DIR_BASE_ENTRY *e, uint8 *fname, int size_fname) { uint8 *ss=e->nwpath.fn; int len=0; int pf=0; int is_ok=1; int options=get_volume_options(e->nwpath.volume); for (; *ss; ss++){ if (*ss == '.') { if (pf++) { /* no 2. point */ is_ok=0; break; } len=0; } else { ++len; if ((pf && len > 3) || len > 8) { is_ok=0; break; } if (!(options & VOL_OPTION_IGNCASE)){ if (options & VOL_OPTION_DOWNSHIFT){ /* only downshift chars */ if (*ss >= 'A' && *ss <= 'Z') { is_ok=0; break; } } else { /* only upshift chars */ if (*ss >= 'a' && *ss <= 'z') { is_ok=0; break; } } } } } if (is_ok) { strmaxcpy(fname, e->nwpath.fn, size_fname-1); up_fn(fname); return(strlen(fname)); } else { return(sprintf(fname, "%ld.___", (long)e->nwpath.statb.st_ino)); } } #if 0 typedef struct { int anz; DIR_BASE_ENTRY **ee; } BASE_COMPONENTS; static BASE_COMPONENTS *get_path_components(DIR_BASE_ENTRY *dbe) { BASE_COMPONENTS *be=(BASE_COMPONENTS*)xcmalloc(sizeof(BASE_COMPONENTS)); uint8 *p=dbe->nwpath.path; uint8 *lastpp = p+strlen(p); int len=0; int k=0; int done=(lastpp==dbe->nwpath.path || (lastpp==dbe->nwpath.path+1 && *(dbe->nwpath.path)== '/' )); result = insert_get_base_entry(nwpath, namespace, 0); int l; while (!done) { uint8 *pp=lastpp; while (pp > dbe->nwpath.path && *pp!='/') --pp; if (*pp != '/') { done++; l = lastpp-pp; } else { pp++; l = lastpp-pp; lastpp=pp-1; } if (!k++) { } else { } if (l > 255) return(-0xff); len+=(l+1); *(p++) = (uint8)l; memcpy(p, pp, l); *(p+l)='\0'; k++; XDPRINTF((5, 0, "component=%d, path=`%s`", k ,p)); p+=l; } /* now as last element the volume */ l=strlen(nw_volumes[dbe->nwpath.volume].sysname); len+=(l+1); *(p++) = (uint8)l; memcpy(p, nw_volumes[dbe->nwpath.volume].sysname, l); *(p+l)='\0'; k++; XDPRINTF((5, 0, "component=%d, path=`%s`", k ,p)); if (len > 400) return(-0xff); /* we support only 'short' pathnames */ } #endif int nw_generate_dir_path(int namespace, NW_HPATH *nwp, uint8 *ns_dir_base, uint8 *dos_dir_base) /* returns Volume Number >=0 or errcode < 0 if error */ { int result = build_base(namespace, nwp, nwp->pathes, 0, NULL, 0); if (result > -1) { DIR_BASE_ENTRY *dbe=dir_base[result]; U32_TO_32(dbe->basehandle, ns_dir_base); /* LOW - HIGH */ if (namespace != NAME_DOS) { U32_TO_32(name_2_base(&(dbe->nwpath), NAME_DOS, 1), dos_dir_base); } else { U32_TO_32(dbe->basehandle, dos_dir_base); } XDPRINTF((4, 0, "nw_generate_dir_path path=%s, result=%d, basehandle=0x%x", debug_nwpath_name(&(dbe->nwpath)), result, dbe->basehandle)); result= dbe->nwpath.volume; } else { XDPRINTF((3, 0, "nw_generate_dir_path NOT OK result=-0x%x", -result)); } return(result); } static int build_dir_info(DIR_BASE_ENTRY *dbe, char *unixname, int namespace, uint32 infomask, uint8 *p) { N_NW_PATH *nwpath = &(dbe->nwpath); int result = volume_supports_namespace(nwpath->volume, namespace); if (!result) { struct stat *stb=&(nwpath->statb); uint32 owner = get_file_owner(stb); int voloptions = get_volume_options(nwpath->volume); result = 76; /* minimumsize */ memset(p, 0, result+2); if ( (!S_ISDIR(stb->st_mode)) && (voloptions & VOL_OPTION_IS_PIPE) ) { (void)time(&(stb->st_mtime)); stb->st_size = 0x70000000|(stb->st_mtime&0xfffffff); stb->st_atime = stb->st_mtime; } if (infomask & INFO_MSK_DATA_STREAM_SPACE) { U32_TO_32(stb->st_size, p); } p += 4; if (infomask & INFO_MSK_ATTRIBUTE_INFO) { uint32 attrib = get_nw_attrib_dword(nwpath->volume, unixname, stb); U32_TO_32(attrib, p); p += 4; U16_TO_16((uint16)(attrib & 0xFFFF), p); p += 2; } else p+=6; if (infomask & INFO_MSK_DATA_STREAM_SIZE) { U32_TO_32(stb->st_size, p); } p +=4; if (infomask & INFO_MSK_TOTAL_DATA_STREAM_SIZE) { U32_TO_32(stb->st_size, p); p +=4; U16_TO_16(0, p); p +=2; } else p+=6; if (infomask & INFO_MSK_CREAT_INFO) { un_time_2_nw(stb->st_mtime, p, 0); p +=2; un_date_2_nw(stb->st_mtime, p, 0); p +=2; U32_TO_BE32(owner, p); /* HI-LOW ! */ p +=4; } else p+=8; if (infomask & INFO_MSK_MODIFY_INFO) { un_time_2_nw(stb->st_mtime, p, 0); p +=2; un_date_2_nw(stb->st_mtime, p, 0); p +=2; U32_TO_BE32(owner, p); /* HI-LOW ! */ p +=4; un_date_2_nw(stb->st_atime, p, 0); /* access date */ p +=2; } else p+=10; if (infomask & INFO_MSK_ARCHIVE_INFO) { un_time_2_nw(0, p, 0); p +=2; un_date_2_nw(0, p, 0); p +=2; U32_TO_BE32(0, p); /* HI-LOW */ p +=4; } else p+=8; if (infomask & INFO_MSK_RIGHTS_INFO) { /* eff. rights ! */ U16_TO_16(tru_get_eff_rights(nwpath->volume, unixname, stb), p); } p +=2; if (infomask & INFO_MSK_DIR_ENTRY_INFO) { U32_TO_32(dbe->basehandle, p); p +=4; #if 0 U32_TO_32(dbe->basehandle, p); #else U32_TO_32(name_2_base(nwpath, NAME_DOS, 1), p); #endif p +=4; U32_TO_32(nwpath->volume, p); p +=4; } else p+=12; if (infomask & INFO_MSK_EXT_ATTRIBUTES) { U32_TO_32(0, p); /* Ext Attr Data Size */ p +=4; U32_TO_32(0, p); /* Ext Attr Count */ p +=4; U32_TO_32(0, p); /* Ext Attr Key Size */ p +=4; } else p+=12; if (infomask & INFO_MSK_NAME_SPACE_INFO){ U32_TO_32(namespace, p); /* using namespace */ } p +=4; /* ---------------------------------------------- */ if (infomask & INFO_MSK_ENTRY_NAME) { result++; if (namespace == NAME_DOS) { *p=(uint8) build_dos_name(dbe, p+1, 13 ); result += (int) *p; } else { *p = (uint8) strlen(nwpath->fn); if (*p) { memcpy(p+1, nwpath->fn, (int) *p); result += (int) *p; } } } } XDPRINTF((4, 0, "build_d_i:space=%d, path=%s, result=%d, handle=0x%x, mask=0x%lx", namespace, debug_nwpath_name(nwpath), result, dbe->basehandle, infomask)); return(result); } int nw_optain_file_dir_info(int namespace, NW_HPATH *nwp, int destnamspace, int searchattrib, uint32 infomask, uint8 *responsedata) /* returns sizeof info_mask * the sizeof info_mask is NOT related by the infomask. * But the _valid_ info is. * must return -0xff for file not found ! */ { int result = build_base(namespace, nwp, nwp->pathes, 0, NULL, 0); if (result > -1) { DIR_BASE_ENTRY *dbe=dir_base[result]; char *unixname = alloc_nwpath2unix(&(dbe->nwpath), 2); nwp_stat(&(dbe->nwpath), "nw_optain_file_dir_info"); result = build_dir_info(dbe, unixname, destnamspace, infomask, responsedata); xfree(unixname); } if (result < 0) { XDPRINTF((3, 0, "nw_optain_file_dir_info NOT OK result=-0x%x", -result)); } return(result); } static int nsp_get_eff_rights(int namespace, NW_HPATH *nwp, int destnamspace, int searchattrib, uint32 infomask, uint8 *responsedata) { int result = build_base(namespace, nwp, nwp->pathes, 0, NULL, 0); if (result > -1) { DIR_BASE_ENTRY *dbe=dir_base[result]; char *unixname = alloc_nwpath2unix(&(dbe->nwpath), 2); nwp_stat(&(dbe->nwpath), "nsp_get_eff_rights"); U16_TO_16(tru_get_eff_rights(dbe->nwpath.volume, unixname, &(dbe->nwpath.statb)), responsedata); responsedata+=2; result = build_dir_info(dbe, unixname, destnamspace, infomask, responsedata); if (result>-1) result+=2; xfree(unixname); } if (result <0 ) { XDPRINTF((3, 0, "nsp_get_eff_rights NOT OK result=-0x%x", -result)); } return(result); } static int nw_init_search(int namespace, NW_HPATH *nwp, uint8 *pathes, uint8 *responsedata) { int result = build_base(namespace, nwp, pathes, 0, NULL, 0); if (result > -1) { DIR_BASE_ENTRY *dbe=dir_base[result]; result = S_ISDIR(dbe->nwpath.statb.st_mode) ? 0 : -0xff; if (result > -1) { *responsedata++ = dbe->nwpath.volume; U32_TO_32(dbe->basehandle, responsedata); responsedata+=4; memset(responsedata, 0xff, 4); /* INIT sequence */ result = 9; } XDPRINTF((3, 0, "nw_init_search path=%s, result=%d, basehandle=0x%x", debug_nwpath_name(&(dbe->nwpath)), result, dbe->basehandle)); } else { XDPRINTF((3, 0, "nw_init_search NOT OK result=%d", result)); } return(result); } static int get_add_new_entry(DIR_BASE_ENTRY *qbe, int namespace, uint8 *path, int creatmode) { N_NW_PATH nwpath; nwpath.volume = qbe->nwpath.volume; nwpath.namespace = namespace; xstrcpy(nwpath.path, qbe->nwpath.path); nwpath.fn = nwpath.path+strlen(nwpath.path); if (nwpath.fn > nwpath.path && *(nwpath.fn-1) != '/') { *(nwpath.fn) = '/'; *(++nwpath.fn) = '\0'; } strmaxcpy(nwpath.fn, path, sizeof(nwpath.path) - (int) (nwpath.fn - nwpath.path) -1); return(insert_get_base_entry(&nwpath, namespace, creatmode)); } /* the new fn_dos_match routine from Andrew do not work ok * for namespace dos searches, because namespace searches do * something like "0xff *" to match all files. * or "0xff ? 0xff ? ... 0xff ? . 0xff ? 0xff ? 0xff ?" to match * 12345678.abc */ static int x_str_match(uint8 *s, uint8 *p, int soptions) { uint8 pc, sc; uint state = 0; uint8 anf, ende; int not = 0; uint found = 0; while ( (pc = *p++) != 0) { if (state != 100) { if (pc == 255 && (*p == '*' || *p == '?' || *p==0xaa || *p==0xae || *p==0xbf || *p=='.')) { pc=*p++; } switch (pc) { case 0xaa: pc='*'; break; case 0xae: pc='.'; break; case 0xbf: pc='?'; break; } } switch (state){ case 0 : switch (pc) { case '\\': /* any following char */ if (*p++ != *s++) return(0); break; case '?' : if (!*s || (sc = *s++) == '.') state = 10; break; case '.' : if (*s && pc != *s++) return(0); break; case '*' : if (!*p) return(1); /* last star */ while (*s) { if (x_str_match(s, p, soptions) == 1) return(1); else if (*s == '.') return(0); ++s; } state = 30; break; case '[' : if ( (*p == '!') || (*p == '^') ){ ++p; not = 1; } state = 100; continue; default : /* 'normal' chars */ if (soptions & VOL_OPTION_IGNCASE) { if (!dfn_imatch(*s, pc)) return(0); } else if (pc != *s) return(0); s++; break; } /* switch */ break; case 10 : if (pc != '*' && pc != '?' ) { if (pc == '.') state = 0; else return(0); } break; case 30: if (pc != '.') return(0); state = 31; break; case 31: if (pc != '*' ) return(0); break; case 100 : /* Bereich von Zeichen */ sc = *s++; found = not; if (!sc) return(0); do { if (pc == '\\') pc = *(p++); if (!pc) return(0); anf = pc; if (*p == '-' && *(p+1) != ']'){ ende = *(++p); p++; } else ende = anf; if (found == not) { /* only if not found */ if (anf == sc || (anf <= sc && sc <= ende)) found = !not; } } while ((pc = *(p++)) != ']'); if (! found ) return(0); not = 0; found = 0; state = 0; break; default : break; } /* switch */ } /* while */ if (*s=='.' && *(s+1)=='\0') return(1); /* I hope this is right */ return ( (*s) ? 0 : 1); } static int fn_dos_match_old(uint8 *s, uint8 *p, int options) { uint8 *ss=s; int len=0; int pf=0; for (; *ss; ss++){ if (*ss == '.') { if (pf++) return(0); /* no 2. point */ len=0; } else { ++len; if ((pf && len > 3) || len > 8) return(0); if (!(options & VOL_OPTION_IGNCASE)){ if (options & VOL_OPTION_DOWNSHIFT){ /* only downshift chars */ if (*ss >= 'A' && *ss <= 'Z') return(0); } else { /* only upshift chars */ if (*ss >= 'a' && *ss <= 'z') return(0); } } } } return(x_str_match(s, p, options)); } static int namespace_fn_match(uint8 *s, uint8 *p, int namespace) /* for *OTHER* namespaces than DOS + OS2 */ { int pc, sc; uint state = 0; int anf, ende; int not = 0; uint found = 0; while ( (pc = *p++) != 0) { switch (state){ case 0 : if (pc == 255) { switch (pc=*p++) { case 0xaa : case '*' : pc=3000; break; /* star */ case 0xae : case '.' : pc=1000; break; /* point */ case 0xbf : case '?' : pc=2000; break; /* ? */ default : pc=*(--p); break; } } else if (pc == '\\') continue; switch (pc) { case 1000: if ('.' != *s++) return(0); break; case 2000: if (!*s++) return(0); break; case 3000 : if (!*p) return(1); while (*s){ if (namespace_fn_match(s, p, namespace) == 1) return(1); ++s; } return(0); case '[' : if ( (*p == '!') || (*p == '^') ){ ++p; not = 1; } state = 1; continue; default : if ( pc != *s ) return(0); ++s; break; } /* switch */ break; case 1 : /* Bereich von Zeichen */ sc = *s++; found = not; if (!sc) return(0); do { if (pc == '\\') pc = *(p++); if (!pc) return(0); anf = pc; if (*p == '-' && *(p+1) != ']'){ ende = *(++p); p++; } else ende = anf; if (found == not) { /* only if not found */ if (anf == sc || (anf <= sc && sc <= ende)) found = !not; } } while ((pc = *(p++)) != ']'); if (! found ) return(0); not = 0; found = 0; state = 0; break; default : break; } /* switch */ } /* while */ return ( (*s) ? 0 : 1); } static int search_match(struct dirent *dirbuff, int volume, int vol_options, int namespace, int inode_search, /* do we search an inode */ uint8 *entry, int searchattrib, int needs_search_trustee, /* mst: 13-Apr-00 */ uint8 *dname, int size_dname, DIR_SEARCH_STRUCT *ds) /* returns 1 if match, 0= no match */ { int flag=0; if (dirbuff->d_ino && strlen(dirbuff->d_name) < 256) { uint8 *name=(uint8*)(dirbuff->d_name); struct stat statb; if (namespace == NAME_DOS || namespace == NAME_OS2) { strmaxcpy(dname, name, size_dname-1); unix2doscharset(dname); } else strmaxcpy(dname, name, size_dname-1); XDPRINTF((8,0,"search_match, Name='%s' dname='%s'", name, dname)); if (!inode_search) { if (namespace == NAME_DOS) { flag = (*name != '.' && fn_dos_match_old(dname, entry, vol_options)); } else if (namespace == NAME_OS2) { flag = (*name != '.' || (*(name+1) != '.' && *(name+1) != '\0' )) && fn_os2_match(dname, entry, vol_options); } else { flag = (!strcmp(name, entry) || namespace_fn_match(name, entry, namespace)); } } else flag = (dirbuff->d_ino == inode_search); if (flag) { int statflag; strmaxcpy(ds->kpath, name, 255); XDPRINTF((7,0,"search_match, Name found=%s unixname=%s", name, ds->unixname)); statflag = stat(ds->unixname, &statb); if (statflag && errno == EACCES) { /* mst:21-Apr-00 */ seteuid(0); statflag = stat(ds->unixname, &statb); reseteuid(); } if (!statflag) { if (needs_search_trustee /* mst: 13-Apr-00 */ && tru_eff_rights_exists(volume, ds->unixname, &statb, TRUSTEE_T)){ flag = 0; XDPRINTF((2,0,"search_match: no trustee rights fn='%s'", ds->unixname)); } if (flag) { flag = (searchattrib & W_SEARCH_ATTR_ALL) == W_SEARCH_ATTR_ALL; if (!flag) { int do_searchdir = ((searchattrib & W_SEARCH_ATTR_DIR) || (searchattrib & FILE_ATTR_DIR)) ? 1 : 0; if (S_ISDIR(statb.st_mode)) flag = do_searchdir; else flag = !do_searchdir; } if (!flag) { XDPRINTF((10, 0, "type = %s not ok searchattrib=0x%x", S_ISDIR(statb.st_mode) ? "DIR" :"FILE" ,searchattrib)); } } } else { XDPRINTF((2,0,"search_match: stat error fn='%s'", ds->unixname)); } *(ds->kpath) = '\0'; } } return(flag); } int nw_search_file_dir(int namespace, int datastream, uint32 searchattrib, uint32 infomask, int *count, int volume, uint32 basehandle, uint32 *psequence, int len, uint8 *path, uint8 *info, int *perhaps_more) { #if 0 int max_counts = *count; #endif int result = find_base_entry(volume, basehandle); DIR_BASE_ENTRY *dest_dbe=NULL; DIR_SEARCH_HANDLE *dsh=NULL; DIR_BASE_ENTRY *dbe=NULL; uint8 *unixname =NULL; int sequence; int no_search_trustee = 0; *perhaps_more = 0; *count = 0; MDEBUG(D_FN_SEARCH, { char fname[300]; strmaxcpy(fname, path, min(sizeof(fname)-1, len)); xdprintf(1,0,"nwsfd:sequence=%d,%d, base=%d, attrib=0x%x, fn=`%s`", *psequence & 0xff, *psequence >> 8, basehandle, searchattrib, fname); }) if (len > 255) result=-0x9c; /* we say wrong path here */ if (result > -1) { dbe=dir_base[result]; unixname = (uint8*)alloc_nwpath2unix_big(&(dbe->nwpath), 2); if ( (no_search_trustee = tru_eff_rights_exists(dbe->nwpath.volume, unixname, &(dbe->nwpath.statb), TRUSTEE_F)) && !(no_search_trustee&TRUSTEE_T) ) result=-0xff; /* no search rights */ } if (result > -1) { dbe=dir_base[result]; if (*psequence == MAX_U32) { *psequence=new_search_handle(dbe->nwpath.statb.st_dev, dbe->nwpath.statb.st_ino); MDEBUG(D_FN_SEARCH, { xdprintf(1,0,"nwsfd:got new search seqence=%d", *psequence); }) } sequence = *psequence >> 8; *psequence &= 0xff; if (*psequence < count_dsh) { dsh=dir_search_handles[*psequence]; if (dsh && (dbe->nwpath.statb.st_dev != dsh->dev || dbe->nwpath.statb.st_ino != dsh->inode)) dsh=NULL; } if (!dsh) { *psequence=new_search_handle(dbe->nwpath.statb.st_dev, dbe->nwpath.statb.st_ino); *psequence &= 0xff; dsh=dir_search_handles[*psequence]; } } if (NULL != dsh) { DIR_SEARCH_STRUCT *ds=(DIR_SEARCH_STRUCT*) xcmalloc(sizeof(DIR_SEARCH_STRUCT)); ds->unixname = unixname; if (NULL == (ds->fdir = opendir(ds->unixname)) ) { seteuid(0); ds->fdir=opendir(ds->unixname); reseteuid(); } if (NULL != ds->fdir) { uint8 entry[257]; uint8 *pe=entry; int have_wild=0; /* do we have a wildcard entry */ int inode_search=0; uint8 *is_ap=NULL; /* one after point */ struct dirent *dirbuff=NULL; int dest_entry=-1; int vol_options = get_volume_options(volume); ds->kpath = ds->unixname+strlen(ds->unixname); *(ds->kpath) = '/'; *(++(ds->kpath)) = '\0'; dbe->locked++; /* lock dbe */ dsh->idle=0; /* touch dsh */ while (len--) { uint8 c=*path++; *pe++=c; if (!have_wild) { if (c==0xff) { if (*path == '?' || *path == '*' || *path == 0xae || *path == 0xbf || *path==0xaa) have_wild++; } else if (c == '.') is_ap=pe; } } *pe='\0'; if ((!have_wild) && is_ap && pe - is_ap == 3 && *is_ap== '_' && *(is_ap+1) == '_' && *(is_ap+2) == '_') { *(is_ap -1) = '\0'; inode_search=atoi(entry); *(is_ap -1) = '.'; } if ( (namespace == NAME_DOS || namespace == NAME_OS2) && !(vol_options & VOL_OPTION_IGNCASE) ) { if (vol_options & VOL_OPTION_DOWNSHIFT) { down_fn(entry); } else { up_fn(entry); } } XDPRINTF((5,0,"nw_s_f_d namsp=%d, sequence=%d, search='%s'", namespace, sequence, entry )); if ( (!sequence) || (sequence != dsh->lastsequence)) { XDPRINTF((5, 0, "dirpos set to 0 dsh->lastsequence = %d, dirpos=%d", dsh->lastsequence, dsh->dirpos)); dsh->dirpos = (off_t)0; } if (dsh->dirpos) { SEEKDIR(ds->fdir, dsh->dirpos); if (( (dirbuff=readdir(ds->fdir)) == NULL || (dirbuff->d_ino != dsh->found_inode)) && dsh->found_inode>0) { SEEKDIR(ds->fdir, 0L); XDPRINTF((5, 0, "dirbuff->d_ino %d != dsh->found_inode=%d ", (dirbuff)?dirbuff->d_ino:0, dsh->found_inode)); dsh->lastsequence=0; while((dirbuff=readdir(ds->fdir)) != NULL && dirbuff->d_ino != dsh->found_inode) dsh->lastsequence++; } if (!dirbuff) /* inode not found */ SEEKDIR(ds->fdir, 0L); } if (dirbuff==NULL) { dsh->lastsequence=0; while ((dirbuff=readdir(ds->fdir)) != NULL && dsh->lastsequence < sequence) dsh->lastsequence++; } while (dirbuff!=NULL) { uint8 dname[257]; if (search_match( dirbuff, volume, vol_options, namespace, inode_search, entry, searchattrib, no_search_trustee, /* mst: 13-Apr-00 */ dname, sizeof(dname), ds)) { if ((dest_entry = get_add_new_entry(dbe, namespace, dname, 0)) > -1) break; else { XDPRINTF((2, 0, "nw_search_file_dir:Cannot add entry '%s'", entry)); } } /* if */ dirbuff = readdir(ds->fdir); dsh->lastsequence++; } /* while */ *(ds->kpath) = '\0'; if (dest_entry > -1) { char *funixname; dest_dbe=dir_base[dest_entry]; funixname = alloc_nwpath2unix(&(dbe->nwpath), 2); (void) nwp_stat(&(dest_dbe->nwpath), "nw_search_file_dir"); result = build_dir_info(dest_dbe, funixname, datastream, infomask |INFO_MSK_NAME_SPACE_INFO, info); xfree(funixname); *count=1; dsh->dirpos = TELLDIR(ds->fdir); dirbuff = readdir(ds->fdir); dsh->found_inode=0; *perhaps_more=0; dsh->lastsequence++; /* set to next */ while (dirbuff) { uint8 dname[257]; if (search_match( dirbuff, volume, vol_options, namespace, inode_search, entry, searchattrib, no_search_trustee, /* mst: 13-Apr-00 */ dname, sizeof(dname), ds)) { *perhaps_more=0xff; dsh->found_inode=dirbuff->d_ino; break; } dsh->dirpos = TELLDIR(ds->fdir); dirbuff = readdir(ds->fdir); dsh->lastsequence++; } /* while */ *psequence |= (dsh->lastsequence << 8); if (!*perhaps_more) dsh->idle=MAX_I32-4; XDPRINTF((5, 0, "more=%d, sequence = 0x%x, file=%s,next=%s", *perhaps_more, *psequence, dest_dbe->nwpath.path, dirbuff?dirbuff->d_name:"")); } else { dsh->idle = MAX_I32-2; dsh->dirpos = (off_t)0; result=-0xff; /* no files matching */ XDPRINTF((5, 0, "no files matching")); } dbe->locked=0; closedir(ds->fdir); } else { /* if NULL != ds->fdir */ result=-0xff; /* thanks Peter Gerhard :) */ XDPRINTF((5, 0, "could not opendir=`%s`", ds->unixname)); } xfree(ds); } else if (result > -1) result=-0xff; MDEBUG(D_FN_SEARCH, { char fname[300]; strmaxcpy(fname, path, min(sizeof(fname-1), len)); xdprintf(1, (result>-1)?2:0,"nwsfd:result=0x%x,more=%d ", result, *perhaps_more); if (result>-1) { xdprintf(1, 1,"found='%s'", (dest_dbe) ? (char*) (dest_dbe->nwpath.path) : "" ); } }) xfree(unixname); return(result); } static int nw_open_creat_file_or_dir( int namespace, int opencreatmode, int attrib, uint32 infomask, uint32 creatattrib, int access_rights, NW_HPATH *nwp, uint8 *pathes, uint8 *responsedata, int task) { int result = build_base(namespace, nwp, pathes, 0, NULL, 0); int exist = result; uint8 last_part[258]; *last_part='\0'; if (result == -0xff && (opencreatmode & (OPC_MODE_CREAT|OPC_MODE_REPLACE))) { /* do not exist */ result = build_base(namespace, nwp, pathes, 1, last_part, sizeof(last_part)); XDPRINTF((5, 0, "nw_open_c... result=%d, last_part='%s'", result, last_part)); if (result > -1) result = get_add_new_entry(dir_base[result], namespace, last_part, (creatattrib & FILE_ATTR_DIR) ? FILE_ATTR_DIR : 1); } if (result<0) { XDPRINTF((5, 0, "nw_open_c... result=0x%x", -result)); } /* 16-May-99, if file exist but mode == CREAT then error */ if (result > -1 && exist > -1 && opencreatmode == OPC_MODE_CREAT) { result = -0x85; /* No Priv */ } if (result > -1) { uint32 fhandle=0L; int actionresult=0; DIR_BASE_ENTRY *dbe=dir_base[result]; if (exist < 0) actionresult |= OPC_ACTION_CREAT; if (!(creatattrib & FILE_ATTR_DIR)) { int creatmode=0; /* open */ int attrib=0; if (opencreatmode & (OPC_MODE_OPEN | OPC_MODE_CREAT| OPC_MODE_REPLACE) ) { if (opencreatmode & OPC_MODE_CREAT) { #if 0 if (exist > -1 && !(opencreatmode & OPC_MODE_REPLACE)) creatmode=2; else #endif creatmode = 1; } if ((result = file_creat_open(dbe->nwpath.volume, nwpath_2_unix(&dbe->nwpath, 2), &(dbe->nwpath.statb), attrib, access_rights, creatmode, task)) > -1) { fhandle = (uint32) result; #if 1 /* should be ok, 31-Jul-97 0.99.pl1 */ actionresult |= OPC_ACTION_OPEN; /* FILE OPEN */ #endif if (exist > -1 && (opencreatmode & OPC_MODE_REPLACE)) actionresult |= OPC_ACTION_REPLACE; /* FILE REPLACED */ } } else result=-0xff; } else if (exist > -1) result=-0x84; if (result > -1) { char *unixname = alloc_nwpath2unix(&(dbe->nwpath), 2); U32_TO_32(fhandle, responsedata); responsedata += 4; *responsedata =(uint8) actionresult; *(responsedata+1) = 0; responsedata+=2; result = build_dir_info(dbe, unixname, namespace, infomask, responsedata); if (result>-1) result+=6; xfree(unixname); } } XDPRINTF((3, 0, "nw_open_creat mode=0x%x, creatattr=0x%x, access=0x%x, attr=0x%x, result=%d", opencreatmode, creatattrib, access_rights, attrib, result)); return(result); } typedef struct { int searchattrib; uint8 *ubuf; /* userbuff */ } FUNC_SEARCH; static int func_search_entry(DIR_BASE_ENTRY *dbe, int namespace, uint8 *path, int len, int searchattrib, int (*fs_func)(DIR_BASE_ENTRY *dbe, FUNC_SEARCH *fs), FUNC_SEARCH *fs) { int result=-0xff; FUNC_SEARCH fs_local; if (!fs) { fs = &fs_local; fs->ubuf = NULL; } fs->searchattrib = searchattrib; if (!len && ( !dbe->nwpath.path[0] || (dbe->nwpath.path[0]=='/' && dbe->nwpath.path[1]=='\0'))) { /* volume path */ if (searchattrib & (W_SEARCH_ATTR_DIR | FILE_ATTR_DIR)) { int res = (*fs_func)(dbe, fs); if (res < 0) result=res; else result=0; } } else { DIR_SEARCH_STRUCT *ds=(DIR_SEARCH_STRUCT*) xcmalloc(sizeof(DIR_SEARCH_STRUCT)); ds->unixname = (uint8*)alloc_nwpath2unix_big(&(dbe->nwpath), 2); if (!tru_eff_rights_exists(dbe->nwpath.volume, ds->unixname, &(dbe->nwpath.statb), TRUSTEE_F)) { if (NULL == (ds->fdir = opendir(ds->unixname)) ) { seteuid(0); ds->fdir = opendir(ds->unixname); reseteuid(); } } else ds->fdir=NULL; if (NULL != ds->fdir) { uint8 entry[257]; uint8 *pe=entry; int have_wild = 0; /* do we have a wildcard entry */ int inode_search = 0; uint8 *is_ap = NULL; /* one after point */ struct dirent *dirbuff = NULL; int vol_options = get_volume_options(dbe->nwpath.volume); ds->kpath = ds->unixname+strlen(ds->unixname); *(ds->kpath) = '/'; *(++(ds->kpath)) = '\0'; dbe->locked++; /* lock dbe */ while (len--) { uint8 c=*path++; *pe++=c; if (!have_wild) { if (c==0xff) { if (*path == '?' || *path == '*' || *path == 0xae || *path == 0xbf || *path==0xaa) have_wild++; } else if (c == '.') is_ap=pe; } } *pe='\0'; if ((!have_wild) && is_ap && pe - is_ap == 3 && *is_ap== '_' && *(is_ap+1) == '_' && *(is_ap+2) == '_') { *(is_ap -1) = '\0'; inode_search=atoi(entry); *(is_ap -1) = '.'; } if ( (namespace == NAME_DOS || namespace == NAME_OS2) && !(vol_options & VOL_OPTION_IGNCASE) ) { if (vol_options & VOL_OPTION_DOWNSHIFT) { down_fn(entry); } else { up_fn(entry); } } while (NULL != (dirbuff=readdir(ds->fdir))) { uint8 dname[257]; if (search_match( dirbuff, dbe->nwpath.volume, vol_options, namespace, inode_search, entry, searchattrib, 0, /* mst: 13-Apr-00 */ dname, sizeof(dname), ds)) { int dest_entry = get_add_new_entry(dbe, namespace, dname, 0); if (dest_entry > -1) { int res = (*fs_func)(dir_base[dest_entry], fs); if (res < 0) { result=res; break; } else result=0; } else { XDPRINTF((2, 0, "func_search_entry:Cannot add entry '%s'", entry)); } } } /* while */ *(ds->kpath) = '\0'; dbe->locked=0; closedir(ds->fdir); } else { /* if NULL != ds->fdir */ XDPRINTF((5, 0, "func_search_entry:could not opendir=`%s`", ds->unixname)); } xfree(ds->unixname); xfree(ds); } return(result); } static int delete_file_dir(DIR_BASE_ENTRY *dbe, FUNC_SEARCH *fs) /* callbackroutine */ { uint8 *unname=(uint8*)nwpath_2_unix(&(dbe->nwpath), 2); int result=nw_unlink_node(dbe->nwpath.volume, unname,&dbe->nwpath.statb); if (!result) { if (S_ISDIR(dbe->nwpath.statb.st_mode)) /* directory */ rmdir_from_structures(unname, dbe); else /* file */ free_dbe_p(dbe); } return(result); } static int nw_delete_file_dir(int namespace, int searchattrib, NW_HPATH *nwp) { uint8 search_entry[258]; int result = build_base(namespace, nwp, nwp->pathes, 1, search_entry, sizeof(search_entry)); if (result > -1) { DIR_BASE_ENTRY *dbe=dir_base[result]; if (get_volume_options(dbe->nwpath.volume) & VOL_OPTION_READONLY) result = -0x8a; else result=func_search_entry(dbe, namespace, search_entry, strlen(search_entry), searchattrib, delete_file_dir, NULL); } return(result); } static int nw_alloc_short_dir_handle(int namespace, int hmode, NW_HPATH *nwp, int task, int *volume) { int result = build_base(namespace, nwp, nwp->pathes, 0, NULL, 0); if (result > -1) { DIR_BASE_ENTRY *dbe=dir_base[result]; if (S_ISDIR(dbe->nwpath.statb.st_mode)) { result=xinsert_new_dir(dbe->nwpath.volume, dbe->nwpath.path, dbe->nwpath.statb.st_dev, dbe->nwpath.statb.st_ino, 300, hmode, task); *volume=dbe->nwpath.volume; } else result=-0xff; } return(result); } static int nw_set_short_dir_handle(int namespace, int desthandle, NW_HPATH *nwp, int task) { int result = build_base(namespace, nwp, nwp->pathes, 0, NULL, 0); if (result > -1) { DIR_BASE_ENTRY *dbe=dir_base[result]; if (S_ISDIR(dbe->nwpath.statb.st_mode)) { result=alter_dir_handle(desthandle, dbe->nwpath.volume, dbe->nwpath.path, dbe->nwpath.statb.st_dev, dbe->nwpath.statb.st_ino, task); } else result=-0x9c; /* wrong path */ } return((result > 0) ? 0 : result); } typedef struct { int count; /* count oic */ NW_OIC *nwoic; } S_ADD_TRUSTEE_SET; static int add_trustee_set(DIR_BASE_ENTRY *dbe, FUNC_SEARCH *fs) /* callbackroutine */ { uint8 *unname=(uint8*)nwpath_2_unix(&(dbe->nwpath), 2); S_ADD_TRUSTEE_SET *st=(S_ADD_TRUSTEE_SET*)fs->ubuf; return(tru_add_trustee_set(dbe->nwpath.volume, unname, &(dbe->nwpath.statb), st->count, st->nwoic)); } static int nw_add_trustee_set(int namespace, int searchattrib, NW_HPATH *nwp, int trustee_rights, int count, uint8 *oic) { uint8 search_entry[258]; int result = build_base(namespace, nwp, nwp->pathes, 1, search_entry, sizeof(search_entry)); if (result > -1) { DIR_BASE_ENTRY *dbe=dir_base[result]; if (get_volume_options(dbe->nwpath.volume) & VOL_OPTION_READONLY) result = -0x8a; else { FUNC_SEARCH fs; S_ADD_TRUSTEE_SET st; NW_OIC *nwoic=st.nwoic=(NW_OIC*)xmalloc(sizeof(NW_OIC)*count); st.count=0; fs.ubuf=(uint8*)&st; while (count--) { nwoic->id=GET_BE32(oic); oic += 4; if (trustee_rights == -1) nwoic->trustee=GET_16(oic); else nwoic->trustee=trustee_rights; oic+=2; if (nwoic->id) { st.count++; nwoic++; } } result = func_search_entry(dbe, namespace, search_entry, strlen(search_entry), searchattrib, add_trustee_set, &fs); xfree(st.nwoic); } } return(result); } typedef struct { int count; /* count oic */ uint32 *ids; } S_DEL_TRUSTEE_SET; static int del_trustee_set(DIR_BASE_ENTRY *dbe, FUNC_SEARCH *fs) /* callbackroutine */ { uint8 *unname=(uint8*)nwpath_2_unix(&(dbe->nwpath), 2); int result=0; S_DEL_TRUSTEE_SET *st=(S_DEL_TRUSTEE_SET*)fs->ubuf; int k=st->count; uint32 *ids=st->ids; while (k--) { int res=tru_del_trustee(dbe->nwpath.volume, unname, &(dbe->nwpath.statb), *ids); if (res < 0) { result=res; break; } ids++; } return(result); } static int nw_del_trustee_set(int namespace, NW_HPATH *nwp, int count, uint8 *did) { uint8 search_entry[258]; int result = build_base(namespace, nwp, nwp->pathes, 1, search_entry, sizeof(search_entry) ); if (result > -1) { DIR_BASE_ENTRY *dbe=dir_base[result]; if (get_volume_options(dbe->nwpath.volume) & VOL_OPTION_READONLY) result = -0x8a; else { FUNC_SEARCH fs; S_DEL_TRUSTEE_SET st; uint32 *ids=st.ids=(uint32*)xmalloc(sizeof(uint32)*count); st.count=0; fs.ubuf=(uint8*)&st; while (count--) { *ids=GET_BE32(did); if (*ids) { st.count++; ids++; } did+=4; } result = func_search_entry(dbe, namespace, search_entry, strlen(search_entry), W_SEARCH_ATTR_ALL, del_trustee_set, &fs); xfree(st.ids); } } return(result); } static int nw_get_trustee_set(int namespace, int searchattrib, NW_HPATH *nwp, uint32 *scansequence, uint8 *oic) { int result = build_base(namespace, nwp, nwp->pathes, 0, NULL, 0); if (result > -1) { DIR_BASE_ENTRY *dbe=dir_base[result]; char *unixname = alloc_nwpath2unix(&(dbe->nwpath), 2); uint32 ids[20]; int trustees[20]; nwp_stat(&(dbe->nwpath), "nw_get_trustee_set"); result=tru_get_trustee_set(dbe->nwpath.volume, unixname, &(dbe->nwpath.statb), (int)*scansequence, 20, ids, trustees); if (result > 0) { int k=-1; while (++k < result){ U32_TO_BE32(ids[k], oic); oic += 4; U16_TO_16(trustees[k], oic); oic += 2; } (*scansequence)++; } xfree(unixname); } return(result); } static int nw_get_full_path_cookies(int namespace, int destnamspace, NW_HPATH *nwp, int *cookieflags, uint32 *cookie1, uint32 *cookie2, int *components, uint8 *componentpath) /* SIMPLE IMPLEMENTATION, needs more work !!!! */ { int result = build_base(namespace, nwp, nwp->pathes, 0, NULL, 0); if (result > -1) { DIR_BASE_ENTRY *dbe=dir_base[result]; uint8 *p = componentpath; uint8 *lastpp = dbe->nwpath.path+strlen(dbe->nwpath.path); int len=0; int k=0; int done=(lastpp==dbe->nwpath.path || (lastpp==dbe->nwpath.path+1 && *(dbe->nwpath.path)== '/' )); int l; if (*cookie1 != MAX_U32 || *cookie2 != MAX_U32) return(-0xff); if (strlen(dbe->nwpath.path) > 256) return(-0xfb); /* we do support 'short' pathnames only */ while (!done) { uint8 *pp=lastpp; while (pp > dbe->nwpath.path && *--pp !='/');; if (*pp == '/') { if (pp < dbe->nwpath.path + 1) ++done; pp++; l = lastpp-pp; lastpp = pp-1; } else { done++; l = lastpp-pp; } if (l > 255) return(-0xff); else if (l > 0) { len+=(l+1); *(p++) = (uint8)l; memcpy(p, pp, l); *(p+l)='\0'; if (!namespace) up_fn(p); k++; XDPRINTF((5, 0, "component=%d, path=`%s`", k ,p)); p+=l; } else { XDPRINTF((1, 0, "component=%d, l=%d", k ,l)); } } /* now as last element the volume */ l=strlen(nw_volumes[dbe->nwpath.volume].sysname); len+=(l+1); *(p++) = (uint8)l; memcpy(p, nw_volumes[dbe->nwpath.volume].sysname, l); *(p+l)='\0'; k++; XDPRINTF((5, 0, "component=%d, path=`%s`", k ,p)); if (len > 400) return(-0xff); /* we support only 'short' pathnames */ *components = k; *cookieflags = (S_ISDIR(dbe->nwpath.statb.st_mode)) ? 0 : 1; *cookie1 = 0; *cookie2 = MAX_U32; /* no more cookies */ return(len); } return(result); } static int nw_rename_file_dir(int namespace, NW_HPATH *nwps, uint8 *pathes_s, NW_HPATH *nwpd, uint8 *pathes_d, int searchattrib, int renameflag) { int result = build_base(namespace, nwps, pathes_s, 0, NULL, 0); if (result > -1) { DIR_BASE_ENTRY *dbe_s = dir_base[result]; uint8 last_part[258]; uint8 *unname_s= (uint8*)alloc_nwpath2unix(&(dbe_s->nwpath), 2); result = build_base(namespace, nwpd, pathes_d, 1, last_part, sizeof(last_part)); if (result > -1) { DIR_BASE_ENTRY *dbe_d = dir_base[result]; uint8 *unname_dp= /* directory */ (uint8*)alloc_nwpath2unix(&(dbe_d->nwpath), 2); uint8 *unname_d = (uint8*)alloc_nwpath2unix_extra(&(dbe_d->nwpath), 0, last_part); if (tru_eff_rights_exists(dbe_s->nwpath.volume, unname_s, &dbe_s->nwpath.statb, TRUSTEE_W|TRUSTEE_M|TRUSTEE_R)) result=-0x8b; else if (tru_eff_rights_exists(dbe_d->nwpath.volume, unname_dp, &dbe_d->nwpath.statb, TRUSTEE_W)) result=-0x8b; if (result > -1) { seteuid(0); if (S_ISDIR(dbe_s->nwpath.statb.st_mode)) result = unx_mvdir(unname_s, unname_d); else result = unx_mvfile(unname_s, unname_d); reseteuid(); if (result==EEXIST) result = -0x92; } XDPRINTF((5, 0, "Rename:%d '%s' -> '%s'", result, unname_s, unname_d)); xfree(unname_dp); xfree(unname_d); if (!result) { free_dbe_p(dbe_s); if ((result=get_add_new_entry(dbe_d, namespace, last_part, 0)) > -1) result = 0; } } xfree(unname_s); } return(result); } static int nw_modify_file_dir(int namespace, NW_HPATH *nwp, uint8 *pathes, int searchattrib, uint32 infomask, DOS_MODIFY_INFO *dmi) { int result = build_base(namespace, nwp, pathes, 0, NULL, 0); if (result > -1) { DIR_BASE_ENTRY *dbe=dir_base[result]; uint8 *uname=alloc_nwpath2unix(&(dbe->nwpath), 2); struct stat *stb = &(dbe->nwpath.statb); int voloptions = get_volume_options(dbe->nwpath.volume); if (-1 != (result=stat(uname, stb))){ if (S_ISFIFO(stb->st_mode) || (voloptions&VOL_OPTION_IS_PIPE)){ xfree(uname); return(0); /* do nothing but report OK */ } if (tru_eff_rights_exists(dbe->nwpath.volume, uname, stb, TRUSTEE_M)) result=-0x8c; /* no modify rights */ if (infomask & DOS_MSK_ATTRIBUTE){ result=set_nw_attrib_dword(dbe->nwpath.volume, uname, stb, GET_32(dmi->attributes)); } if ( (!result) && (infomask & DOS_MSK_INHERIT_RIGHTS) && !tru_eff_rights_exists(dbe->nwpath.volume, uname, stb, TRUSTEE_A) ) { int mask = tru_get_inherited_mask(dbe->nwpath.volume, uname, stb); int grantmask = GET_16(dmi->rightsgrantmask); int revokemask = GET_16(dmi->rightsrevokemask); revokemask &= (~TRUSTEE_S); /* do not remove supervisory mask bit*/ mask &= (~revokemask); mask |= grantmask; (void)tru_set_inherited_mask(dbe->nwpath.volume, uname, stb, mask); } } else result=-0xff; if (!result) { struct utimbuf ut; int do_utime=0; uint8 datetime[4]; un_time_2_nw(stb->st_mtime, datetime, 1); un_date_2_nw(stb->st_mtime, datetime+2, 1); ut.actime = stb->st_atime; ut.modtime = stb->st_mtime; XDPRINTF((5, 0, "modify datetime 1=%2x,%2x,%2x,%2x", (int) *datetime, (int) *(datetime+1), (int) *(datetime+2), (int) *(datetime+3))); if (infomask & DOS_MSK_MODIFY_DATE || infomask & DOS_MSK_MODIFY_TIME) { if (infomask & DOS_MSK_MODIFY_TIME){ datetime[0] = dmi->modified_time[1]; datetime[1] = dmi->modified_time[0]; } if (infomask & DOS_MSK_MODIFY_DATE) { datetime[2] = dmi->modified_date[1]; datetime[3] = dmi->modified_date[0]; } do_utime++; } else if (infomask & DOS_MSK_CREAT_DATE || infomask & DOS_MSK_CREAT_TIME) { if (infomask & DOS_MSK_CREAT_TIME) { datetime[0] = dmi->created_time[1]; datetime[1] = dmi->created_time[0]; } if (infomask & DOS_MSK_CREAT_DATE) { datetime[2] = dmi->created_date[1]; datetime[3] = dmi->created_date[0]; } do_utime++; } if (do_utime) { XDPRINTF((5, 0, "modify datetime 2=%2x,%2x,%2x,%2x", (int) *datetime, (int) *(datetime+1), (int) *(datetime+2), (int) *(datetime+3))); ut.modtime = nw_2_un_time(datetime+2, datetime); if (-1==utime(uname, &ut)) { seteuid(0); utime(uname, &ut); reseteuid(); } } } xfree(uname); } return(result); } int handle_func_0x57(uint8 *p, uint8 *responsedata, int task) { int result = -0xfb; /* unknown request */ int ufunc = (int) *p++; /* now p locates at 4 byte boundary ! */ int namespace = (int) *p; /* for most calls */ XDPRINTF((3, 0, "0x57 call ufunc=0x%x namespace=%d", ufunc, namespace)); switch (ufunc) { case 0x01 : /* open creat file or subdir */ { /* NW PATH STRUC */ int opencreatmode = (int) *(p+1); int attrib = (int) GET_16(p+2); /* LOW-HI */ uint32 infomask = GET_32(p+4); /* LOW-HI */ uint32 creatattrib = GET_32(p+8); int access_rights = (int) GET_16(p+12); /* LOW-HI */ NW_HPATH nwpathstruct; memcpy(&nwpathstruct, p+14, sizeof(nwpathstruct)); result = nw_open_creat_file_or_dir(namespace, opencreatmode, attrib, infomask, creatattrib, access_rights, &nwpathstruct, p+21, responsedata, task); } break; case 0x02 : /* Initialize Search */ { /* NW PATH STRUC */ NW_HPATH nwpathstruct; memcpy(&nwpathstruct, p+2, sizeof(nwpathstruct)); result = nw_init_search(namespace, &nwpathstruct, p+9, /* pathes */ responsedata); } break; case 0x03 : /* Search for File or DIR */ { struct OUTPUT { uint8 volume; uint8 basehandle[4]; uint8 sequence[4]; uint8 reserved; } *xdata= (struct OUTPUT*)responsedata; /* NW PATH STRUC */ #if 0 int datastream = (int) *(p+1); #endif int searchattrib = (int) GET_16(p+2); /* LOW-HI */ uint32 infomask = GET_32(p+4); /* LOW-HI */ int volume = *(p+8); uint32 basehandle = GET_32(p+9); /* LOW-HI */ uint32 sequence = GET_32(p+13); /* LOW-HI */ int len = *(p+17); uint8 *path = p+18; int count = 1; int more_entries; result = nw_search_file_dir(namespace, namespace /*datastream*/, searchattrib, infomask, &count, volume, basehandle, &sequence, len, path, responsedata+sizeof(struct OUTPUT), &more_entries); if (result > -1) { xdata->volume = (uint8)volume; U32_TO_32(basehandle, xdata->basehandle); U32_TO_32(sequence, xdata->sequence); xdata->reserved = (uint8) 0; result+=sizeof(struct OUTPUT); } } break; case 0x04 : /* rename File or Dir */ { int renameflag = *(p+1); int searchattrib = (int) GET_16(p+2); /* LOW-HI */ NW_HPATH nwps; NW_HPATH nwpd; int size; p+=4; memcpy(&nwps, p, 7); p+=7; memcpy(&nwpd, p, 7); p+=7; size = get_comp_pathes_size(&nwps, p); result = nw_rename_file_dir(namespace, &nwps, p, &nwpd, p+size, searchattrib, renameflag); } break; case 0x05 : /* Scan File/Dir for Trustees */ { #if 0 int reserved = (int) *(p+1); #endif int searchattrib = (int) GET_16(p+2); /* LOW-HI */ uint32 scansequence = GET_32(p+4); /* LOW-HI */ NW_HPATH *nwpathstruct = (NW_HPATH *) (p+8); result = nw_get_trustee_set(namespace, searchattrib, nwpathstruct, &scansequence, responsedata+6); U32_TO_32(scansequence, responsedata); if (result > -1) { U16_TO_16(result, responsedata+4); /* count */ result=(result*6)+6; } else { U16_TO_16(0, responsedata+4); /* count */ } } break; case 0x06 : /* Obtain File or Subdir Info */ { #if 0 static int code = 0; #endif int destnamspace = (int) *(p+1); int searchattrib = (int) GET_16(p+2); /* LOW-HI */ uint32 infomask = GET_32(p+4); /* LOW-HI */ NW_HPATH *nwpathstruct = (NW_HPATH *) (p+8); result = nw_optain_file_dir_info(namespace, nwpathstruct, destnamspace, searchattrib, infomask, responsedata); #if 0 if (result < 0) { /* Unix Client errormessages */ /* there exist *NO* result to force client to use new */ /* basehandles :-(( */ /* most are -> IO/Error */ /* -0x9c; -> no such file or dir */ /* -0xfb; -> Protokoll Error */ /* -0xff; -> no such file or dir */ if (code < 0xff) result=-(++code); else result=-0xfe; } #endif } break; case 0x07 : /* Modify File or Dir Info */ { NW_HPATH nwp; DOS_MODIFY_INFO dmi; int searchattrib = (int) GET_16(p+2); uint32 infomask = GET_32(p+4); /* LOW-HI */ p+=8; memcpy(&dmi, p, sizeof(DOS_MODIFY_INFO)); p+= sizeof(DOS_MODIFY_INFO); memcpy(&nwp, p, 7); result = nw_modify_file_dir(namespace, &nwp, p+7, searchattrib, infomask, &dmi); } break; case 0x08 : /* Delete a File or Subdir */ { int searchattrib = (int) GET_16(p+2); /* LOW-HI */ NW_HPATH *nwpathstruct = (NW_HPATH *) (p+4); result = nw_delete_file_dir(namespace, searchattrib, nwpathstruct); } break; case 0x09 : /* Set short Dir Handle*/ { /* nw32client needs it */ int desthandle = (int)*(p+2); NW_HPATH *nwp = (NW_HPATH *)(p+4); result = nw_set_short_dir_handle(namespace, desthandle, nwp, task); /* NO REPLY Packet */ } break; case 0x0a : /* Add trustee set to file or dir*/ { int searchattrib = (int) GET_16(p+2); /* LO-HI */ int trustee_rights = (int) GET_16(p+4); /* LO-HI */ /* if trustee_rights == 0xffff, use trustee from OIC structure */ int count = (int) GET_16(p+6); /* LO-HI */ NW_HPATH *nwp = (NW_HPATH *)(p+8); if (trustee_rights==0xffff) trustee_rights=-1; p+=315; result = nw_add_trustee_set(namespace, searchattrib, nwp, trustee_rights, count, p); /* OIC structure { uint8 id[4]; uint8 trusttee[2] LO-HI } */ /* NO REPLY Packet */ } break; case 0x0b : /* delete trustee set from file or dir */ { int count = (int) GET_16(p+2); NW_HPATH *nwp = (NW_HPATH *)(p+4); p+=311; result = nw_del_trustee_set(namespace, nwp, count, p); /* object id's */ /* NO REPLY Packet */ } break; case 0x0c : /* alloc short dir Handle */ { int hmode = (int) GET_16(p+2); /* 0=p, 1=temp, 2=speztemp */ NW_HPATH *nwp = (NW_HPATH *)(p+4); struct OUTPUT { uint8 dir_handle; uint8 volume; uint8 reserved[4]; } *xdata= (struct OUTPUT*)responsedata; int volume; result = nw_alloc_short_dir_handle(namespace, hmode, nwp, task, &volume); if (result > -1) { xdata->dir_handle = (uint8) result; xdata->volume = (uint8) volume; U32_TO_32(0L, xdata->reserved); result=sizeof(struct OUTPUT); } } break; case 0x14 : /* Search for File or Subdir Set */ /* SIMPLE IMPLEMENTATION, needs more work !!!! */ { struct OUTPUT { uint8 volume; uint8 basehandle[4]; uint8 sequence[4]; uint8 more_entries; /* NW4.1 (UNIX) says 0xff here */ uint8 count[2]; /* count of entries */ } *xdata= (struct OUTPUT*)responsedata; #if 0 int datastream = (int) *(p+1); #endif int searchattrib = (int) GET_16(p+2); /* LOW-HI */ uint32 infomask = GET_32(p+4); /* LOW-HI */ int count = (int)GET_16(p+8); int volume = *(p+10); uint32 basehandle = GET_32(p+11); /* LOW-HI */ uint32 sequence = GET_32(p+15); /* LOW-HI */ int len = *(p+19); uint8 *path = p+20; int more_entries; result = nw_search_file_dir(namespace, namespace /*datastream*/, searchattrib, infomask, &count, volume, basehandle, &sequence, len, path, responsedata+sizeof(struct OUTPUT), &more_entries); if (result > -1) { xdata->volume = (uint8)volume; U32_TO_32(basehandle, xdata->basehandle); U32_TO_32(sequence, xdata->sequence); xdata->more_entries = (uint8) more_entries; U16_TO_16(count, xdata->count); result+=sizeof(struct OUTPUT); } } break; case 0x15 : /* Get Path String from short dir new */ { int dir_handle=(int) *(p+1); result=nw_get_directory_path(dir_handle, responsedata+1, 256); if (result > -1) { *responsedata=(uint8) result; result+=1; } } break; case 0x16 : /* Generate Dir BASE and VolNumber */ { NW_HPATH *nwpathstruct = (NW_HPATH *) (p+4); struct OUTPUT { uint8 ns_dir_base[4]; /* BASEHANDLE */ uint8 dos_dir_base[4]; /* BASEHANDLE */ uint8 volume; /* Volumenumber*/ } *xdata= (struct OUTPUT*)responsedata; result = nw_generate_dir_path(namespace, nwpathstruct, xdata->ns_dir_base, xdata->dos_dir_base); if (result >-1 ) { xdata->volume = result; result = sizeof(struct OUTPUT); } } break; case 0x18 : /* Get Name Spaces Loaded */ { int volume=*(p+2); struct OUTPUT { uint8 count_namespaces[2]; /* LO-HI */ uint8 name_space_list[1]; } *xdata= (struct OUTPUT*)responsedata; result=get_volume_options(volume); xdata->count_namespaces[0] = (uint8) 0; xdata->count_namespaces[1] = (uint8) 0; if (result & VOL_NAMESPACE_DOS) xdata->name_space_list[xdata->count_namespaces[0]++] = (uint8) NAME_DOS; if (result & VOL_NAMESPACE_OS2) xdata->name_space_list[xdata->count_namespaces[0]++] = (uint8) NAME_OS2; if (result & VOL_NAMESPACE_NFS) xdata->name_space_list[xdata->count_namespaces[0]++] = (uint8) NAME_NFS; result = xdata->count_namespaces[0]+sizeof(xdata->count_namespaces); } break; case 0x1a : /* Get Huge NS Info new*/ { } break; case 0x1c : /* GetFullPathString new*/ { /* nw32 client needs it */ /* SIMPLE IMPLEMENTATION, needs more work !!!! */ int destnamspace = (int)*(p+1); int cookieflags = (int)GET_16(p+2); uint32 cookie1 = GET_32(p+4); uint32 cookie2 = GET_32(p+8); NW_HPATH *nwpathstruct = (NW_HPATH *)(p+12); int components; struct OUTPUT { uint8 cookieflags[2]; /* 0 = DIR; 1 = FILE */ uint8 cookie1[4]; uint8 cookie2[4]; uint8 pathsize[2]; /* complete components size */ uint8 pathcount[2]; /* component counts */ } *xdata= (struct OUTPUT*)responsedata; result = nw_get_full_path_cookies(namespace, destnamspace, nwpathstruct, &cookieflags, &cookie1, &cookie2, &components, responsedata+sizeof(struct OUTPUT)); if (result > -1) { U16_TO_16(cookieflags, xdata->cookieflags); U32_TO_32(cookie1, xdata->cookie1); U32_TO_32(cookie2, xdata->cookie2); U16_TO_16(result, xdata->pathsize); U16_TO_16(components, xdata->pathcount); result+=sizeof(struct OUTPUT); } } break; case 0x1d : /* GetEffDirRights new */ { int destnamspace = (int) *(p+1); int searchattrib = (int) GET_16(p+2); /* LOW-HI */ uint32 infomask = GET_32(p+4); /* LOW-HI */ NW_HPATH *nwpathstruct = (NW_HPATH *) (p+8); result = nsp_get_eff_rights(namespace, nwpathstruct, destnamspace, searchattrib, infomask, responsedata); } break; default : result = -0xfb; /* unknown request */ } /* switch */ return(result); } int fill_namespace_buffer(int volume, uint8 *rdata) { if (volume < used_nw_volumes) { int voloptions=get_volume_options(volume); uint8 *p=rdata; int count=0; *p++=5; /* we say 5 known namespaces (index 0=DOS .. 4=OS2 */ /* names */ *p++=3; memcpy(p,"DOS", 3); p+=3; *p++=9; memcpy(p,"MACINTOSH", 9); p+=9; *p++=3; memcpy(p,"NFS", 3); p+=3; *p++=4; memcpy(p,"FTAM", 4); p+=4; *p++=3; memcpy(p,"OS2", 3); p+=3; /* datastreams */ *p++=3; /* we say 3 datastreams here */ *p++=NAME_DOS; *p++=19; memcpy(p,"Primary Data Stream", 19); p+=19; *p++=NAME_MAC; *p++=23; memcpy(p,"Macintosh Resource Fork", 23); p+=23; *p++=NAME_FTAM; *p++=20; memcpy(p,"FTAM Extra Data Fork", 20); p+=20; if (loaded_namespaces & VOL_NAMESPACE_DOS) ++count; if (loaded_namespaces & VOL_NAMESPACE_OS2) ++count; if (loaded_namespaces & VOL_NAMESPACE_NFS) ++count; *p++ = count; /* loaded namespaces */ if (loaded_namespaces & VOL_NAMESPACE_DOS) *p++ = NAME_DOS; if (loaded_namespaces & VOL_NAMESPACE_OS2) *p++ = NAME_OS2; if (loaded_namespaces & VOL_NAMESPACE_NFS) *p++ = NAME_NFS; count=0; if (voloptions & VOL_NAMESPACE_DOS) ++count; if (voloptions & VOL_NAMESPACE_OS2) ++count; if (voloptions & VOL_NAMESPACE_NFS) ++count; *p++ = count; /* volume namespaces */ if (voloptions & VOL_NAMESPACE_DOS) *p++ = NAME_DOS; if (voloptions & VOL_NAMESPACE_OS2) *p++ = NAME_OS2; if (voloptions & VOL_NAMESPACE_NFS) *p++ = NAME_NFS; *p++ = 1; /* only one datastream */ *p++ = 0; /* DOS datastream */ return((int)(p-rdata)); } else return(-0x98); } int get_namespace_dir_entry(int volume, uint32 basehandle, int namspace, uint8 *rdata) { int result = find_base_entry(volume, basehandle); XDPRINTF((3, 0, "get_ns_dir_entry: vol=%d, base=0x%lx, namspace=%d", volume, basehandle, namspace)); if (result > -1) { DIR_BASE_ENTRY *e = dir_base[result]; NW_SCAN_DIR_INFO *scif = (NW_SCAN_DIR_INFO*)rdata; uint8 fname[20]; char *unixname=alloc_nwpath2unix(&(e->nwpath), 2); (void) stat(unixname, &(e->nwpath.statb)); memset(rdata, 0, sizeof(NW_SCAN_DIR_INFO)); #if 0 U32_TO_32(basehandle, scif->searchsequence); #else U32_TO_32(name_2_base(&(e->nwpath), NAME_DOS, 1), scif->searchsequence); #endif (void)build_dos_name(e, fname, sizeof(fname)); if (S_ISDIR(e->nwpath.statb.st_mode)) { get_dos_dir_attrib(&(scif->u.d), &e->nwpath.statb, e->nwpath.volume, fname, unixname); } else { get_dos_file_attrib(&(scif->u.f), &e->nwpath.statb, e->nwpath.volume, fname, unixname); } xfree(unixname); return(sizeof(NW_SCAN_DIR_INFO)); } return(result); } int handle_func_0x56(uint8 *p, uint8 *responsedata, int task) /* extended attribute calls */ { int result = -0xfb; /* unknown request */ int ufunc = (int) *p++; /* now p locates at 4 byte boundary */ XDPRINTF((3, 0, "0x56 call ufunc=0x%x", ufunc)); switch (ufunc) { #if 1 case 0x01 : /* close extended attribute handle */ { /* uint32 ea_handle=GET_BE32(p+2); */ result=0; /* dummy */ } break; case 0x02 : /* write extended attribute handle */ { result=0; /* dummy */ } break; case 0x03 : /* read extended attribute */ { #if 0 int flags = GET_16(p); /* LOW-HIGH */ /* next 2 entries only if flags bits 0-1 = 00 */ /* (~(flags & 3)) volume + basehandle */ /* ( flag s & 2) eahandle + basehandle */ int volume = (int)GET_32(p+2); uint32 basehandle = (int)GET_32(p+6); uint32 readpos = GET_32(p+10); uint32 size = GET_32(p+14); uint16 keylen = GET_16(p+18); /* LOW-HIGH */ #endif struct OUTPUT { uint8 errorcode[4]; /* LOW-HIGH */ uint8 ttl_v_length[4]; /* LOW-HIGH */ uint8 ea_handle[4]; /* ???? */ uint8 access[4]; /* ???? */ uint8 value_length[2]; /* LOW-HIGH */ uint8 value[2]; } *xdata= (struct OUTPUT*)responsedata; memset(xdata, 0, sizeof(struct OUTPUT)); U32_TO_32(0xc9, xdata->errorcode); /* NO extended Attributes */ result = sizeof(struct OUTPUT); } break; case 0x04 : /* enumerate extended attributes */ { struct OUTPUT { uint8 dontknow1[16]; /* all zero */ uint8 ea_handle[4]; /* ???? */ uint8 dontknow3[4]; /* all zero */ } *xdata= (struct OUTPUT*)responsedata; memset(xdata, 0, sizeof(struct OUTPUT)); result = sizeof(struct OUTPUT); } break; case 0x05 : /* duplicate extended attributes */ { } break; #endif default : result = -0xfb; /* unknown request */ } /* switch */ return(result); } void exit_name_space_module(void) { free_dir_bases(); free_search_handles(); } void init_name_space_module(int max_baseh, int max_searchh) { exit_name_space_module(); max_dir_base_entries=(max_baseh < 5) ? MAX_DIR_BASE_ENTRIES : max_baseh; dir_base=(DIR_BASE_ENTRY **)xcmalloc( sizeof(DIR_BASE_ENTRY*) * max_dir_base_entries); max_dir_search_handles=(max_searchh < 10 || max_searchh > 255) ? 50 : max_searchh; dir_search_handles=(DIR_SEARCH_HANDLE **)xcmalloc( sizeof(DIR_SEARCH_HANDLE*) * max_dir_search_handles); } #endif