/* MODULE HTVMSUtil.c
** VMS Utility Routines
**
** AUTHORS:
** MD Mark Donszelmann duns@vxdeop.cern.ch
**
** HISTORY:
** 14 Nov 93 MD Written
**
** BUGS:
**
**
*/
#include <HTUtils.h>
#include <HTFormat.h>
#include <HTStream.h>
#include <UCDefs.h>
#include <UCMap.h>
#include <UCAux.h>
#include <HTVMSUtils.h>
#include <ssdef.h>
#include <jpidef.h>
#include <prvdef.h>
#include <acldef.h>
#include <chpdef.h>
#include <descrip.h>
#include <lib$routines.h>
#include <starlet.h>
#include <rmsdef.h>
#include <LYUtils.h>
#include <LYLeaks.h>
#define INFINITY 512 /* File name length @@ FIXME */
PUBLIC BOOL HTVMSFileVersions=FALSE; /* Include version numbers in listing? */
typedef struct {
unsigned long BufferLength : 16;
unsigned long ItemCode : 16;
unsigned long BufferAddress : 32;
unsigned long ReturnLengthAddress : 32;
} ItemStruct;
extern CONST char * HTHostName NOPARAMS;
/* PUBLIC HTVMS_authSysPrv()
** CHECKS IF THIS PROCESS IS AUTHORIZED TO ENABLE SYSPRV
** ON ENTRY:
** No arguments.
**
** ON EXIT:
** returns YES if SYSPRV is authorized
*/
PUBLIC BOOL HTVMS_authSysPrv NOARGS
{
unsigned long Result;
ItemStruct ItemList[2];
unsigned long Length;
unsigned long Buffer[2];
/* fill Item */
ItemList[0].BufferLength = sizeof(Buffer);
ItemList[0].BufferAddress = (unsigned long)Buffer;
ItemList[0].ReturnLengthAddress = (unsigned long)&Length;
ItemList[0].ItemCode = JPI$_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$M_SYSPRV)
return(YES);
return(NO);
}
/* PUBLIC HTVMS_enableSysPrv()
** ENABLES SYSPRV
** ON ENTRY:
** No arguments.
**
** ON EXIT:
**
*/
PUBLIC void HTVMS_enableSysPrv NOARGS
{
unsigned long Result;
unsigned long Prv[2], PreviousPrv[2];
Prv[0] = PRV$M_SYSPRV;
Prv[1] = 0;
Result = sys$setprv(1,&Prv,0,&PreviousPrv);
if (Result == SS$_NORMAL) {
if (!(PreviousPrv[0] & PRV$M_SYSPRV)) {
CTRACE((tfp, "HTVMS_enableSysPrv: Enabled SYSPRV\n"));
}
}
}
/* PUBLIC HTVMS_disableSysPrv()
** DISABLES SYSPRV
** ON ENTRY:
** No arguments.
**
** ON EXIT:
**
*/
PUBLIC void HTVMS_disableSysPrv NOARGS
{
unsigned long Result;
unsigned long Prv[2], PreviousPrv[2];
Prv[0] = PRV$M_SYSPRV;
Prv[1] = 0;
Result = sys$setprv(0,&Prv,0,&PreviousPrv);
if (Result == SS$_NORMAL) {
if (PreviousPrv[0] & PRV$M_SYSPRV) {
CTRACE((tfp, "HTVMS_disableSysPrv: Disabled SYSPRV\n"));
}
}
}
/* PUBLIC HTVMS_checkAccess()
** CHECKS ACCESS TO FILE FOR CERTAIN USER
** ON ENTRY:
** FileName The file to be accessed
** UserName Name of the user to check access for.
** User nobody, represented by "" is given NO for an answer
** Method Name of the method to be chceked
**
** ON EXIT:
** returns YES if access is allowed
**
*/
PUBLIC BOOL HTVMS_checkAccess ARGS3(
CONST char *, FileName,
CONST char *, UserName,
CONST char *, Method)
{
unsigned long Result;
ItemStruct ItemList[2];
unsigned long Length;
unsigned long Buffer;
unsigned long ObjType;
char *VmsName;
struct dsc$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
**
**
*/
PUBLIC char * HTVMS_wwwName ARGS1(
char *, vmsname)
{
static char wwwname[256];
char *src, *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);
}
/* PUBLIC HTVMS_name()
** CONVERTS WWW name into a VMS name
** ON ENTRY:
** nn Node Name (optional)
** fn WWW file name
**
** ON EXIT:
** returns vms file specification
**
** Bug: Returns pointer to static -- non-reentrant
*/
PUBLIC char * HTVMS_name ARGS2(
CONST char *, nn,
CONST char *, fn)
{
/* We try converting the filename into Files-11 syntax. That is, we assume
** first that the file is, like us, on a VMS node. We try remote
** (or local) DECnet access. Files-11, VMS, VAX and DECnet
** are trademarks of Digital Equipment Corporation.
** The node is assumed to be local if the hostname WITHOUT DOMAIN
** matches the local one. @@@
*/
static char vmsname[INFINITY]; /* returned */
char * filename = (char*)malloc(strlen(fn)+1);
char * nodename = (char*)malloc(strlen(nn)+2+1); /* Copies to hack */
char *second; /* 2nd slash */
char *last; /* last slash */
char * hostname = (char *)HTHostName();
if (!filename || !nodename) outofmem(__FILE__, "HTVMSname");
strcpy(filename, fn);
strcpy(nodename, ""); /* On same node? Yes if node names match */
if (strncmp(nn,"localhost",9)) {
char *p, *q;
for (p=hostname, q=(char *)nn;
*p && *p!='.' && *q && *q!='.'; p++, q++){
if (TOUPPER(*p)!=TOUPPER(*q)) {
strcpy(nodename, nn);
q = strchr(nodename, '.'); /* Mismatch */
if (q) *q=0; /* Chop domain */
strcat(nodename, "::"); /* Try decnet anyway */
break;
}
}
}
second = strchr(filename+1, '/'); /* 2nd slash */
last = strrchr(filename, '/'); /* last slash */
if (!second) { /* Only one slash */
sprintf(vmsname, "%s%s", nodename, filename + 1);
} else if(second==last) { /* Exactly two slashes */
*second = 0; /* Split filename from disk */
sprintf(vmsname, "%s%s:%s", nodename, filename+1, second+1);
*second = '/'; /* restore */
} else { /* More than two slashes */
char * p;
*second = 0; /* Split disk from directories */
*last = 0; /* Split dir from filename */
sprintf(vmsname, "%s%s:[%s]%s",
nodename, filename+1, second+1, last+1);
*second = *last = '/'; /* restore filename */
for (p=strchr(vmsname, '['); *p!=']'; p++)
if (*p=='/') *p='.'; /* Convert dir sep. to dots */
}
FREE(nodename);
FREE(filename);
return vmsname;
}
/*
** The code below is for directory browsing by VMS Curses clients.
** It is based on the newer WWWLib's HTDirBrw.c. - Foteos Macrides
*/
PUBLIC int HTStat ARGS2(
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;
char Name[256];
/* try normal stat... */
Result = stat((char *)filename,info);
if (Result == 0)
return(Result);
/* make local copy */
strcpy(Name,filename);
#ifdef NOT_USED
/* if filename contains a node specification (! or ::), we will try to access
the file via DECNET, but we do not stat it..., just return success
with some fake information... */
if (HTVMS_checkDecnet(Name))
{
/* set up fake info, only the one we use... */
info->st_dev = NULL;
info->st_ino[0] = 0;
info->st_ino[1] = 0;
info->st_ino[2] = 0;
info->st_mode = S_IFREG | S_IREAD; /* assume it is a regular Readable file */
info->st_nlink = NULL;
info->st_uid = 0;
info->st_gid = 0;
info->st_rdev = 0;
info->st_size = 0;
info->st_atime = time(NULL);
info->st_mtime = time(NULL);
info->st_ctime = time(NULL);
return(0);
}
#endif /* NOT_USED */
/* 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... */
strcat(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];
strcpy(End,Ptr);
*(Ptr+1) = '\0';
strcat(Name,"000000");
strcat(Name,End);
}
}
/* try in case a file on toplevel directory or .DIR was alreadyt specified */
Result = stat(Name,info);
if (Result == 0)
return(Result);
/* add .DIR and try again */
strcat(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 {
#if 0
int dd_fd; /* file descriptor */
long dd_loc; /* buf offset of entry from last readddir() */
long dd_size; /* amount of valid data in buffer */
long dd_bsize; /* amount of entries read at a time */
long dd_off; /* Current offset in dir (for telldir) */
char *dd_buf; /* directory data buffer */
#endif
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;
PRIVATE DIR *HTVMSopendir(char *dirname);
PRIVATE struct dirent *HTVMSreaddir(DIR *dirp);
PRIVATE int HTVMSclosedir(DIR *dirp);
#if 0
#ifndef _POSIX_SOURCE
extern void seekdir(/* DIR *dirp, int loc */);
extern long telldir(/* DIR *dirp */);
#endif /* POSIX_SOURCE */
extern void rewinddir(/* DIR *dirp */);
#ifndef lint
#define rewinddir(dirp) seekdir((dirp), (long)0)
#endif
#endif /* not defined for VMS */
/*** #include <sys_dirent.h> ***/
/*** "sys_dirent.h" ***/
struct dirent {
#if 0
off_t d_off; /* offset of next disk dir entry */
#endif
unsigned long d_fileno; /* file number of entry */
#if 0
unsigned short d_reclen; /* length of this record */
#endif
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 */
PRIVATE DIR *HTVMSopendir(char *dirname)
{
static DIR dir;
char *closebracket;
long status;
struct dsc$descriptor_s entryname_desc;
struct dsc$descriptor_s dirname_desc;
char DirEntry[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] */
strcpy(UnixEntry,dirname);
if (UnixEntry[strlen(UnixEntry)-1] != '/')
strcat(UnixEntry,"/");
strcpy(DirEntry, HTVMS_name("",UnixEntry));
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 */
strcpy(dir.dirname, DirEntry);
strcat(dir.dirname, "[000000]");
strcat(DirEntry,"[000000]000000.dir");
}
else
{
char End[256];
strcpy(End,openbr+1);
*(openbr+1) = '\0';
strcat(DirEntry,"000000]");
strcat(DirEntry,End);
strcat(DirEntry,".dir");
}
}
else
{
*dot = ']';
strcat(DirEntry,".dir");
}
dir.context = 0;
dirname_desc.dsc$w_length = strlen(DirEntry);
dirname_desc.dsc$b_dtype = DSC$K_DTYPE_T;
dirname_desc.dsc$b_class = DSC$K_CLASS_S;
dirname_desc.dsc$a_pointer = (char *)&(DirEntry);
/* 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$find_file(&(dirname_desc),
&entryname_desc,
&(dir.context),
0,0,0,0);
if (!(status & 0x01))
{ /* directory not found */
return(NULL);
}
#if 0
/* now correct dirname, which looks like disk$user:[duns.www.test]multi */
/* and should look like disk$user:[duns.www.test.multi] */
closebracket = strchr(dir.dirname,']');
*closebracket = '.';
closebracket = strstr(dir.dirname,".dir");
*closebracket = '\0';
strcat(dir.dirname,"]");
#endif
if (HTVMSFileVersions)
strcat(dir.dirname,"*.*;*");
else
strcat(dir.dirname,"*.*");
dir.context = 0;
dir.dirname_desc.dsc$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$a_pointer = (char *)&(dir.dirname);
return(&dir);
}
PRIVATE struct dirent *HTVMSreaddir(DIR *dirp)
{
static struct dirent entry;
long status;
struct dsc$descriptor_s entryname_desc;
char *space, *slash;
char VMSentry[256];
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);
}
}
PRIVATE int HTVMSclosedir(DIR *dirp)
{
long status;
status = lib$find_file_end(&(dirp->context));
if (!(status & 0x01)) exit(status);
dirp->context = 0;
return(0);
}
#include <HTAnchor.h>
#include <HTParse.h>
#include <HTBTree.h>
#include <HTFile.h> /* For HTFileFormat() */
#include <HTAlert.h>
/*
** Hypertext object building machinery.
*/
#include <HTML.h>
#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
PRIVATE 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;
PRIVATE void free_VMSEntryInfo_contents ARGS1(VMSEntryInfo *,entry_info)
{
if (entry_info) {
FREE(entry_info->filename);
FREE(entry_info->type);
FREE(entry_info->date);
}
/* dont free the struct */
}
#define FILE_BY_NAME 0
#define FILE_BY_TYPE 1
#define FILE_BY_SIZE 2
#define FILE_BY_DATE 3
extern BOOLEAN HTfileSortMethod; /* specifies the method of sorting */
PUBLIC int compare_VMSEntryInfo_structs ARGS2(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);
break;
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));
break;
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, "%s%d", (i < 10 ? "0" : ""), 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, "%s%d", (i < 10 ? "0" : ""), 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));
break;
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).
*/
PUBLIC int HTVMSBrowseDir ARGS4(
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];
extern BOOLEAN no_dotfiles, show_dotfiles;
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) {
relative = (char*) malloc(strlen(tail) + 4);
if (relative == NULL)
outofmem(__FILE__, "HTVMSBrowseDir");
sprintf(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, (VMSEntryInfo *)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);
}