/* MODULE HTVMSUtil.c * VMS Utility Routines * * AUTHORS: * MD Mark Donszelmann duns@vxdeop.cern.ch * * HISTORY: * 14 Nov 93 MD Written * * BUGS: * * */ #include #ifdef VMS #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include BOOL HTVMSFileVersions = FALSE; /* Include version numbers in listing? */ typedef struct { unsigned long BufferLength:16; unsigned long ItemCode:16; unsigned long BufferAddress:32; unsigned long ReturnLengthAddress:32; } ItemStruct; /* PUBLIC HTVMS_authSysPrv() * CHECKS IF THIS PROCESS IS AUTHORIZED TO ENABLE SYSPRV * ON ENTRY: * No arguments. * * ON EXIT: * returns YES if SYSPRV is authorized */ BOOL HTVMS_authSysPrv(void) { unsigned long Result; ItemStruct ItemList[2]; unsigned long Length; unsigned long Buffer[2]; /* fill Item */ ItemList[0].BufferLength = sizeof(Buffer); ItemList[0].BufferAddress = (unsigned long) Buffer; ItemList[0].ReturnLengthAddress = (unsigned long) &Length; ItemList[0].ItemCode = JPI$_AUTHPRIV; /* terminate list */ ItemList[1].ItemCode = 0; ItemList[1].BufferLength = 0; /* call system */ Result = sys$getjpiw(0, 0, 0, ItemList, 0, 0, 0); if (Result != SS$_NORMAL) return (NO); if (Buffer[0] & PRV$M_SYSPRV) return (YES); return (NO); } /* PUBLIC HTVMS_enableSysPrv() * ENABLES SYSPRV * ON ENTRY: * No arguments. * * ON EXIT: * */ void HTVMS_enableSysPrv(void) { unsigned long Result; unsigned long Prv[2], PreviousPrv[2]; Prv[0] = PRV$M_SYSPRV; Prv[1] = 0; Result = sys$setprv(1, &Prv, 0, &PreviousPrv); if (Result == SS$_NORMAL) { if (!(PreviousPrv[0] & PRV$M_SYSPRV)) { CTRACE((tfp, "HTVMS_enableSysPrv: Enabled SYSPRV\n")); } } } /* PUBLIC HTVMS_disableSysPrv() * DISABLES SYSPRV * ON ENTRY: * No arguments. * * ON EXIT: * */ void HTVMS_disableSysPrv(void) { unsigned long Result; unsigned long Prv[2], PreviousPrv[2]; Prv[0] = PRV$M_SYSPRV; Prv[1] = 0; Result = sys$setprv(0, &Prv, 0, &PreviousPrv); if (Result == SS$_NORMAL) { if (PreviousPrv[0] & PRV$M_SYSPRV) { CTRACE((tfp, "HTVMS_disableSysPrv: Disabled SYSPRV\n")); } } } /* PUBLIC HTVMS_checkAccess() * CHECKS ACCESS TO FILE FOR CERTAIN USER * ON ENTRY: * FileName The file to be accessed * UserName Name of the user to check access for. * User nobody, represented by "" is given NO for an answer * Method Name of the method to be chceked * * ON EXIT: * returns YES if access is allowed * */ BOOL HTVMS_checkAccess(const char *FileName, const char *UserName, const char *Method) { unsigned long Result; ItemStruct ItemList[2]; unsigned long Length; unsigned long Buffer; unsigned long ObjType; char *VmsName; struct dsc$descriptor_s FileNameDesc; struct dsc$descriptor_s UserNameDesc; char *colon; /* user nobody should access as from account under which server is running */ if (0 == strcmp(UserName, "")) return (NO); /* check Filename and convert */ colon = strchr(FileName, ':'); if (colon) VmsName = HTVMS_name("", colon + 1); else VmsName = HTVMS_name("", FileName); /* check for GET */ if (0 == strcmp(Method, "GET")) { /* fill Item */ ItemList[0].BufferLength = sizeof(Buffer); ItemList[0].BufferAddress = (unsigned long) &Buffer; ItemList[0].ReturnLengthAddress = (unsigned long) &Length; ItemList[0].ItemCode = CHP$_FLAGS; /* terminate list */ ItemList[1].ItemCode = 0; ItemList[1].BufferLength = 0; /* fill input */ ObjType = ACL$C_FILE; Buffer = CHP$M_READ; UserNameDesc.dsc$w_length = strlen(UserName); UserNameDesc.dsc$b_dtype = DSC$K_DTYPE_T; UserNameDesc.dsc$b_class = DSC$K_CLASS_S; UserNameDesc.dsc$a_pointer = (char *) UserName; FileNameDesc.dsc$w_length = strlen(VmsName); FileNameDesc.dsc$b_dtype = DSC$K_DTYPE_T; FileNameDesc.dsc$b_class = DSC$K_CLASS_S; FileNameDesc.dsc$a_pointer = VmsName; /* call system */ Result = sys$check_access(&ObjType, &FileNameDesc, &UserNameDesc, ItemList); if (Result == SS$_NORMAL) return (YES); else return (NO); } return (NO); } /* PUBLIC HTVMS_wwwName() * CONVERTS VMS Name into WWW Name * ON ENTRY: * vmsname VMS file specification (NO NODE) * * ON EXIT: * returns www file specification * * EXAMPLES: * vmsname wwwname * DISK$USER disk$user * DISK$USER: /disk$user/ * DISK$USER:[DUNS] /disk$user/duns * DISK$USER:[DUNS.ECHO] /disk$user/duns/echo * [DUNS] duns * [DUNS.ECHO] duns/echo * [DUNS.ECHO.-.TRANS] duns/echo/../trans * [DUNS.ECHO.--.TRANS] duns/echo/../../trans * [.DUNS] duns * [.DUNS.ECHO] duns/echo * [.DUNS.ECHO]TEST.COM duns/echo/test.com * TEST.COM test.com * * */ const char *HTVMS_wwwName(const char *vmsname) { static char wwwname[LY_MAXPATH]; const char *src; char *dst; int dir; dst = wwwname; src = vmsname; dir = 0; if (strchr(src, ':')) *(dst++) = '/'; for (; *src != '\0'; src++) { switch (*src) { case ':': *(dst++) = '/'; break; case '-': if (dir) { if ((*(src - 1) == '[' || *(src - 1) == '.' || *(src - 1) == '-') && (*(src + 1) == '.' || *(src + 1) == '-')) { *(dst++) = '/'; *(dst++) = '.'; *(dst++) = '.'; } else *(dst++) = '-'; } else { if (*(src - 1) == ']') *(dst++) = '/'; *(dst++) = '-'; } break; case '.': if (dir) { if (*(src - 1) != '[') *(dst++) = '/'; } else { if (*(src - 1) == ']') *(dst++) = '/'; *(dst++) = '.'; } break; case '[': dir = 1; break; case ']': dir = 0; break; default: if (*(src - 1) == ']') *(dst++) = '/'; *(dst++) = *src; break; } } *(dst++) = '\0'; return (wwwname); } /* * The code below is for directory browsing by VMS Curses clients. * It is based on the newer WWWLib's HTDirBrw.c. - Foteos Macrides */ int HTStat(const char *filename, struct stat *info) { /* the following stuff does not work in VMS with a normal stat... --> /disk$user/duns/www if www is a directory is statted like: /disk$user/duns/www.dir after a normal stat has failed --> /disk$user/duns if duns is a toplevel directory is statted like: /disk$user/000000/duns.dir --> /disk$user since disk$user is a device is statted like: /disk$user/000000/000000.dir --> / searches all devices, no solution yet... --> /vxcern!/disk$cr/wwwteam/login.com is not statted but granted with fake information... */ int Result; int Len; char *Ptr, *Ptr2; static char *Name; /* try normal stat... */ Result = stat((char *) filename, info); if (Result == 0) return (Result); /* make local copy */ StrAllocCopy(Name, filename); /* failed,so do device search in case root is requested */ if (!strcmp(Name, "/")) { /* root requested */ return (-1); } /* failed so this might be a directory, add '.dir' */ Len = strlen(Name); if (Name[Len - 1] == '/') Name[Len - 1] = '\0'; /* fail in case of device */ Ptr = strchr(Name + 1, '/'); if ((Ptr == NULL) && (Name[0] == '/')) { /* device only... */ StrAllocCat(Name, "/000000/000000"); } if (Ptr != NULL) { /* correct filename in case of toplevel dir */ Ptr2 = strchr(Ptr + 1, '/'); if ((Ptr2 == NULL) && (Name[0] == '/')) { char End[256]; LYstrncpy(End, Ptr, sizeof(End) - 1); *(Ptr + 1) = '\0'; StrAllocCat(Name, "000000"); StrAllocCat(Name, End); } } /* try in case a file on toplevel directory or .DIR was already specified */ Result = stat(Name, info); if (Result == 0) return (Result); /* add .DIR and try again */ StrAllocCat(Name, ".dir"); Result = stat(Name, info); return (Result); } #ifndef _POSIX_SOURCE #define d_ino d_fileno /* compatability */ #ifndef NULL #define NULL 0 #endif #endif /* !_POSIX_SOURCE */ typedef struct __dirdesc { long context; /* context descriptor for LIB$FIND_FILE calls */ char dirname[255 + 1]; /* keeps the directory name, including *.* */ struct dsc$descriptor_s dirname_desc; /* descriptor of dirname */ } DIR; static DIR *HTVMSopendir(char *dirname); static struct dirent *HTVMSreaddir(DIR *dirp); static int HTVMSclosedir(DIR *dirp); /*** #include ***/ /*** "sys_dirent.h" ***/ struct dirent { unsigned long d_fileno; /* file number of entry */ unsigned short d_namlen; /* length of string in d_name */ char d_name[255 + 1]; /* name (up to MAXNAMLEN + 1) */ }; #ifndef _POSIX_SOURCE /* * It's unlikely to change, but make sure that sizeof d_name above is * at least MAXNAMLEN + 1 (more may be added for padding). */ #define MAXNAMLEN 255 /* * The macro DIRSIZ(dp) gives the minimum amount of space required to represent * a directory entry. For any directory entry dp->d_reclen >= DIRSIZ(dp). * Specific filesystem types may use this macro to construct the value * for d_reclen. */ #undef DIRSIZ #define DIRSIZ(dp) \ (((sizeof(struct dirent) - (MAXNAMLEN+1) + ((dp)->d_namlen+1)) +3) & ~3) #endif /* !_POSIX_SOURCE */ static DIR *HTVMSopendir(char *dirname) { static DIR dir; char *closebracket; long status; struct dsc$descriptor_s entryname_desc; struct dsc$descriptor_s dirname_desc; static char *DirEntry; char Actual[256]; char VMSentry[256]; char UnixEntry[256]; int index; char *dot; /* check if directory exists */ /* dirname can look like /disk$user/duns/www/test/multi */ /* or like /disk$user/duns/www/test/multi/ */ /* DirEntry should look like disk$user:[duns.www.test]multi in both cases */ /* dir.dirname should look like disk$user:[duns.www.test.multi] */ sprintf(UnixEntry, "%.*s", sizeof(UnixEntry) - 2, dirname); if (UnixEntry[strlen(UnixEntry) - 1] != '/') strcat(UnixEntry, "/"); StrAllocCopy(DirEntry, HTVMS_name("", UnixEntry)); if (strlen(DirEntry) > sizeof(dir.dirname) - 1) return (NULL); strcpy(dir.dirname, DirEntry); index = strlen(DirEntry) - 1; if (DirEntry[index] == ']') DirEntry[index] = '\0'; if ((dot = strrchr(DirEntry, '.')) == NULL) { /* convert disk$user:[duns] into disk$user:[000000]duns.dir */ char *openbr = strrchr(DirEntry, '['); if (!openbr) { /* convert disk$user: into disk$user:[000000]000000.dir */ if (strlen(dir.dirname) > sizeof(dir.dirname) - 10) return (NULL); sprintf(dir.dirname, "%.*s[000000]", sizeof(dir.dirname) - 9, DirEntry); StrAllocCat(DirEntry, "[000000]000000.dir"); } else { char End[256]; strcpy(End, openbr + 1); *(openbr + 1) = '\0'; StrAllocCat(DirEntry, "000000]"); StrAllocCat(DirEntry, End); StrAllocCat(DirEntry, ".dir"); } } else { *dot = ']'; StrAllocCat(DirEntry, ".dir"); } /* lib$find_file needs a fixed-size buffer */ LYstrncpy(Actual, DirEntry, sizeof(Actual) - 1); dir.context = 0; dirname_desc.dsc$w_length = strlen(Actual); dirname_desc.dsc$b_dtype = DSC$K_DTYPE_T; dirname_desc.dsc$b_class = DSC$K_CLASS_S; dirname_desc.dsc$a_pointer = (char *) &(Actual); /* look for the directory */ entryname_desc.dsc$w_length = 255; entryname_desc.dsc$b_dtype = DSC$K_DTYPE_T; entryname_desc.dsc$b_class = DSC$K_CLASS_S; entryname_desc.dsc$a_pointer = VMSentry; status = lib$find_file(&(dirname_desc), &entryname_desc, &(dir.context), 0, 0, 0, 0); if (!(status & 0x01)) { /* directory not found */ return (NULL); } if (strlen(dir.dirname) > sizeof(dir.dirname) - 10) return (NULL); if (HTVMSFileVersions) strcat(dir.dirname, "*.*;*"); else strcat(dir.dirname, "*.*"); dir.context = 0; dir.dirname_desc.dsc$w_length = strlen(dir.dirname); dir.dirname_desc.dsc$b_dtype = DSC$K_DTYPE_T; dir.dirname_desc.dsc$b_class = DSC$K_CLASS_S; dir.dirname_desc.dsc$a_pointer = (char *) &(dir.dirname); return (&dir); } static struct dirent *HTVMSreaddir(DIR *dirp) { static struct dirent entry; long status; struct dsc$descriptor_s entryname_desc; char *space, *slash; char VMSentry[256]; const char *UnixEntry; entryname_desc.dsc$w_length = 255; entryname_desc.dsc$b_dtype = DSC$K_DTYPE_T; entryname_desc.dsc$b_class = DSC$K_CLASS_S; entryname_desc.dsc$a_pointer = VMSentry; status = lib$find_file(&(dirp->dirname_desc), &entryname_desc, &(dirp->context), 0, 0, 0, 0); if (status == RMS$_NMF) { /* no more files */ return (NULL); } else { /* ok */ if (!(status & 0x01)) return (0); if (HTVMSFileVersions) space = strchr(VMSentry, ' '); else space = strchr(VMSentry, ';'); if (space) *space = '\0'; /* convert to unix style... */ UnixEntry = HTVMS_wwwName(VMSentry); slash = strrchr(UnixEntry, '/') + 1; strcpy(entry.d_name, slash); entry.d_namlen = strlen(entry.d_name); entry.d_fileno = 1; return (&entry); } } static int HTVMSclosedir(DIR *dirp) { long status; status = lib$find_file_end(&(dirp->context)); if (!(status & 0x01)) exit_immediately(status); dirp->context = 0; return (0); } #include #include #include #include /* For HTFileFormat() */ #include /* * Hypertext object building machinery. */ #include #define PUTC(c) (*targetClass.put_character)(target, c) #define PUTS(s) (*targetClass.put_string)(target, s) #define START(e) (*targetClass.start_element)(target, e, 0, 0, -1, 0) #define END(e) (*targetClass.end_element)(target, e, 0) #define FREE_TARGET (*targetClass._free)(target) #define ABORT_TARGET (*targetClass._free)(target) struct _HTStructured { const HTStructuredClass *isa; /* ... */ }; #define STRUCT_DIRENT struct dirent static char *months[12] = { "Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec" }; typedef struct _VMSEntryInfo { char *filename; char *type; char *date; unsigned int size; BOOLEAN display; /* show this entry? */ } VMSEntryInfo; static void free_VMSEntryInfo_contents(VMSEntryInfo * entry_info) { if (entry_info) { FREE(entry_info->filename); FREE(entry_info->type); FREE(entry_info->date); } /* dont free the struct */ } int compare_VMSEntryInfo_structs(VMSEntryInfo * entry1, VMSEntryInfo * entry2) { int i, status; char date1[16], date2[16], time1[8], time2[8], month[4]; switch (HTfileSortMethod) { case FILE_BY_SIZE: /* both equal or both 0 */ if (entry1->size == entry2->size) return (strcasecomp(entry1->filename, entry2->filename)); else if (entry1->size > entry2->size) return (1); else return (-1); case FILE_BY_TYPE: if (entry1->type && entry2->type) { status = strcasecomp(entry1->type, entry2->type); if (status) return (status); /* else fall to filename comparison */ } return (strcasecomp(entry1->filename, entry2->filename)); case FILE_BY_DATE: if (entry1->date && entry2->date) { /* * Make sure we have the correct length. - FM */ if (strlen(entry1->date) != 12 || strlen(entry2->date) != 12) { return (strcasecomp(entry1->filename, entry2->filename)); } /* * Set up for sorting in reverse * chronological order. - FM */ if (entry1->date[7] != ' ') { strcpy(date1, "9999"); strcpy(time1, (char *) &entry1->date[7]); } else { strcpy(date1, (char *) &entry1->date[8]); strcpy(time1, "00:00"); } strncpy(month, entry1->date, 3); month[3] = '\0'; for (i = 0; i < 12; i++) { if (!strcasecomp(month, months[i])) { break; } } i++; sprintf(month, "%02d", i); strcat(date1, month); strncat(date1, (char *) &entry1->date[4], 2); date1[8] = '\0'; if (date1[6] == ' ') { date1[6] = '0'; } strcat(date1, time1); if (entry2->date[7] != ' ') { strcpy(date2, "9999"); strcpy(time2, (char *) &entry2->date[7]); } else { strcpy(date2, (char *) &entry2->date[8]); strcpy(time2, "00:00"); } strncpy(month, entry2->date, 3); month[3] = '\0'; for (i = 0; i < 12; i++) { if (!strcasecomp(month, months[i])) { break; } } i++; sprintf(month, "%02d", i); strcat(date2, month); strncat(date2, (char *) &entry2->date[4], 2); date2[8] = '\0'; if (date2[6] == ' ') { date2[6] = '0'; } strcat(date2, time2); /* * Do the comparison. - FM */ status = strcasecomp(date2, date1); if (status) return (status); /* else fall to filename comparison */ } return (strcasecomp(entry1->filename, entry2->filename)); case FILE_BY_NAME: default: return (strcmp(entry1->filename, entry2->filename)); } } /* HTVMSBrowseDir() * * This function generates a directory listing as an HTML-object * for local file URL's. It assumes the first two elements of * of the path are a device followed by a directory: * * file://localhost/device/directory[/[foo]] * * Will not accept 000000 as a directory name. * Will offer links to parent through the top directory, unless * a terminal slash was included in the calling URL. * * Returns HT_LOADED on success, HTLoadError() messages on error. * * Developed for Lynx by Foteos Macrides (macrides@sci.wfeb.edu). */ int HTVMSBrowseDir(const char *address, HTParentAnchor *anchor, HTFormat format_out, HTStream *sink) { HTStructured *target; HTStructuredClass targetClass; char *pathname = HTParse(address, "", PARSE_PATH + PARSE_PUNCTUATION); char *tail = NULL; char *title = NULL; char *header = NULL; char *parent = NULL; char *relative = NULL; char *cp, *cp1; int pathend, len; DIR *dp; struct stat file_info; time_t NowTime; static char ThisYear[8]; VMSEntryInfo *entry_info = 0; char string_buffer[64]; HTUnEscape(pathname); CTRACE((tfp, "HTVMSBrowseDir: Browsing `%s\'\n", pathname)); /* * Require at least two elements (presumably a device and directory) and * disallow the device root (000000 directory). Symbolic paths (e.g., * sys$help) should have been translated and expanded (e.g., to * /sys$sysroot/syshlp) before calling this routine. */ if (((*pathname != '/') || (cp = strchr(pathname + 1, '/')) == NULL || *(cp + 1) == '\0' || 0 == strncmp((cp + 1), "000000", 6)) || (dp = HTVMSopendir(pathname)) == NULL) { FREE(pathname); return HTLoadError(sink, 403, COULD_NOT_ACCESS_DIR); } /* * Set up the output stream. */ _HTProgress(BUILDING_DIR_LIST); if (UCLYhndl_HTFile_for_unspec >= 0) { HTAnchor_setUCInfoStage(anchor, UCLYhndl_HTFile_for_unspec, UCT_STAGE_PARSER, UCT_SETBY_DEFAULT); } target = HTML_new(anchor, format_out, sink); targetClass = *(target->isa); /* * Set up the offset string of the anchor reference, and strings for the * title and header. */ cp = strrchr(pathname, '/'); /* find lastslash */ StrAllocCopy(tail, (cp + 1)); /* take slash off the beginning */ if (*tail != '\0') { StrAllocCopy(title, tail); *cp = '\0'; if ((cp1 = strrchr(pathname, '/')) != NULL && cp1 != pathname && strncmp((cp1 + 1), "000000", 6)) StrAllocCopy(parent, (cp1 + 1)); *cp = '/'; } else { pathname[strlen(pathname) - 1] = '\0'; cp = strrchr(pathname, '/'); StrAllocCopy(title, (cp + 1)); pathname[strlen(pathname)] = '/'; } StrAllocCopy(header, pathname); /* * Initialize path name for HTStat(). */ pathend = strlen(pathname); if (*(pathname + pathend - 1) != '/') { StrAllocCat(pathname, "/"); pathend++; } /* * Output the title and header. */ START(HTML_HTML); PUTC('\n'); START(HTML_HEAD); PUTC('\n'); HTUnEscape(title); START(HTML_TITLE); PUTS(title); PUTS(" directory"); END(HTML_TITLE); PUTC('\n'); FREE(title); END(HTML_HEAD); PUTC('\n'); START(HTML_BODY); PUTC('\n'); HTUnEscape(header); START(HTML_H1); PUTS(header); END(HTML_H1); PUTC('\n'); if (HTDirReadme == HT_DIR_README_TOP) { FILE *fp; if (header[strlen(header) - 1] != '/') StrAllocCat(header, "/"); StrAllocCat(header, HT_DIR_README_FILE); if ((fp = fopen(header, "r")) != NULL) { START(HTML_PRE); for (;;) { char c = fgetc(fp); if (c == (char) EOF) break; #ifdef NOTDEFINED switch (c) { case '&': case '<': case '>': PUTC('&'); PUTC('#'); PUTC((char) (c / 10)); PUTC((char) (c % 10)); PUTC(';'); break; default: PUTC(c); } #else PUTC(c); #endif /* NOTDEFINED */ } END(HTML_PRE); fclose(fp); } } FREE(header); if (parent) { HTSprintf0(&relative, "%s/..", tail); HTStartAnchor(target, "", relative); PUTS("Up to "); HTUnEscape(parent); PUTS(parent); END(HTML_A); START(HTML_P); PUTC('\n'); FREE(relative); FREE(parent); } /* * Set up the date comparison. */ NowTime = time(NULL); strcpy(ThisYear, (char *) ctime(&NowTime) + 20); ThisYear[4] = '\0'; /* * Now, generate the Btree and put it out to the output stream. */ { char dottest = 2; /* To avoid two strcmp() each time */ STRUCT_DIRENT *dirbuf; HTBTree *bt; /* Set up sort key and initialize BTree */ bt = HTBTree_new((HTComparer) compare_VMSEntryInfo_structs); /* Build tree */ while ((dirbuf = HTVMSreaddir(dp))) { HTAtom *encoding = NULL; HTFormat format; /* Skip if not used */ if (!dirbuf->d_ino) { continue; } /* Current and parent directories are never shown in list */ if (dottest && (!strcmp(dirbuf->d_name, ".") || !strcmp(dirbuf->d_name, ".."))) { dottest--; continue; } /* Don't show the selective enabling file * unless version numbers are included */ if (!strcasecomp(dirbuf->d_name, HT_DIR_ENABLE_FILE)) { continue; } /* Skip files beginning with a dot? */ if ((no_dotfiles || !show_dotfiles) && *dirbuf->d_name == '.') { continue; } /* OK, make an lstat() and get a key ready. */ *(pathname + pathend) = '\0'; StrAllocCat(pathname, dirbuf->d_name); if (HTStat(pathname, &file_info)) { /* for VMS the failure here means the file is not readable... we however continue to browse through the directory... */ continue; } entry_info = (VMSEntryInfo *) malloc(sizeof(VMSEntryInfo)); if (entry_info == NULL) outofmem(__FILE__, "HTVMSBrowseDir"); entry_info->type = 0; entry_info->size = 0; entry_info->date = 0; entry_info->filename = 0; entry_info->display = TRUE; /* Get the type */ format = HTFileFormat(dirbuf->d_name, &encoding, (const char **) &cp); if (!cp) { if (!strncmp(HTAtom_name(format), "application", 11)) { cp = HTAtom_name(format) + 12; if (!strncmp(cp, "x-", 2)) cp += 2; } else cp = HTAtom_name(format); } StrAllocCopy(entry_info->type, cp); StrAllocCopy(entry_info->filename, dirbuf->d_name); if (S_ISDIR(file_info.st_mode)) { /* strip .DIR part... */ char *dot; dot = strstr(entry_info->filename, ".DIR"); if (dot) *dot = '\0'; LYLowerCase(entry_info->filename); StrAllocCopy(entry_info->type, "Directory"); } else { if ((cp = strstr(entry_info->filename, "READ")) == NULL) { cp = entry_info->filename; } else { cp += 4; if (!strncmp(cp, "ME", 2)) { cp += 2; while (cp && *cp && *cp != '.') { cp++; } } else if (!strncmp(cp, ".ME", 3)) { cp = (entry_info->filename + strlen(entry_info->filename)); } else { cp = entry_info->filename; } } LYLowerCase(cp); if (((len = strlen(entry_info->filename)) > 2) && entry_info->filename[len - 1] == 'z') { if (entry_info->filename[len - 2] == '.' || entry_info->filename[len - 2] == '_') entry_info->filename[len - 1] = 'Z'; } } /* Get the date */ { char *t = (char *) ctime((const time_t *) &file_info.st_ctime); *(t + 24) = '\0'; StrAllocCopy(entry_info->date, (t + 4)); *((entry_info->date) + 7) = '\0'; if ((atoi((t + 19))) < atoi(ThisYear)) StrAllocCat(entry_info->date, (t + 19)); else { StrAllocCat(entry_info->date, (t + 11)); *((entry_info->date) + 12) = '\0'; } } /* Get the size */ if (!S_ISDIR(file_info.st_mode)) entry_info->size = (unsigned int) file_info.st_size; else entry_info->size = 0; /* Now, update the BTree etc. */ if (entry_info->display) { CTRACE((tfp, "Adding file to BTree: %s\n", entry_info->filename)); HTBTree_add(bt, entry_info); } } /* End while HTVMSreaddir() */ FREE(pathname); HTVMSclosedir(dp); START(HTML_PRE); /* * Run through the BTree printing out in order */ { HTBTElement *ele; int i; for (ele = HTBTree_next(bt, NULL); ele != NULL; ele = HTBTree_next(bt, ele)) { entry_info = (VMSEntryInfo *) HTBTree_object(ele); /* Output the date */ if (entry_info->date) { PUTS(entry_info->date); PUTS(" "); } else PUTS(" * "); /* Output the type */ if (entry_info->type) { for (i = 0; entry_info->type[i] != '\0' && i < 15; i++) PUTC(entry_info->type[i]); for (; i < 17; i++) PUTC(' '); } /* Output the link for the name */ HTDirEntry(target, tail, entry_info->filename); PUTS(entry_info->filename); END(HTML_A); /* Output the size */ if (entry_info->size) { if (entry_info->size < 1024) sprintf(string_buffer, " %d bytes", entry_info->size); else sprintf(string_buffer, " %dKb", entry_info->size / 1024); PUTS(string_buffer); } PUTC('\n'); /* end of this entry */ free_VMSEntryInfo_contents(entry_info); } } HTBTreeAndObject_free(bt); } /* End of both BTree loops */ /* * Complete the output stream. */ END(HTML_PRE); PUTC('\n'); END(HTML_BODY); PUTC('\n'); END(HTML_HTML); PUTC('\n'); FREE(tail); FREE_TARGET; return HT_LOADED; } /* End of directory reading section */ /* * Remove all versions of the given file. We assume there are no permissions * problems, since we do this mainly for removing temporary files. */ int HTVMS_remove(char *filename) { int code = remove(filename); /* return the first status code */ while (remove(filename) == 0) ; return code; } /* * Remove all older versions of the given file. We may fail to remove some * version due to permissions -- the loop stops either at that point, or when * we run out of older versions to remove. */ void HTVMS_purge(char *filename) { char *older_file = 0; char *oldest_file = 0; struct stat sb; StrAllocCopy(older_file, filename); StrAllocCat(older_file, ";-1"); while (remove(older_file) == 0) ; /* * If we do not have any more older versions, it is safe to rename the * current file to version #1. */ if (stat(older_file, &sb) != 0) { StrAllocCopy(oldest_file, filename); StrAllocCat(oldest_file, ";1"); rename(older_file, oldest_file); FREE(oldest_file); } FREE(older_file); } #endif /* VMS */