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SRI_NIC_PERM_FS_1_19910112
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kcc-6/lib/usys/open.c
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/*
** OPEN - URT lowest-level file-opening
**
** (c) Copyright Ken Harrenstien 1989
** for all changes after v.226, 11-Aug-1988
** Copyright (C) 1986 by Ian Macky, SRI International
** Edits for ITS: Copyright (C) 1988 Alan Bawden
**
** Also provides low-level global routines for other I/O calls.
** See the UIODAT.C module for definitions of the internal I/O tables
** and comments on their use.
*/
#include <c-env.h>
#if SYS_T20+SYS_10X+SYS_T10+SYS_CSI+SYS_WTS+SYS_ITS /* Systems supported */
#include <limits.h> /* For CHAR_BIT */
#include <errno.h>
#include <stddef.h> /* for NULL */
#include <string.h>
#include <sys/usysio.h>
#include <sys/usysig.h>
#include <sys/usytty.h>
#include <sys/file.h>
#if SYS_T20+SYS_10X
#include <jsys.h>
#include <strung.h>
#define FILENAME_SIZE (40*6) /* Max size of a filespec */
#elif SYS_ITS
#include <sysits.h>
#define FILENAME_SIZE 200 /* Max size of a filespec */
#elif SYS_T10+SYS_CSI+SYS_WTS
#include <muuo.h>
#include <uuosym.h>
#include <macsym.h>
#include <ctype.h> /* For filename parser */
#endif
/* Exported functions */
int creat(), open(); /* System calls */
int _uiofd(), _openuf(); /* Internal stuff */
struct _ufile *_ufcreate();
#if SYS_T20+SYS_10X
int _gtjfn(); /* Return JFN for general pathname */
int _rljfn();
#elif SYS_T10+SYS_CSI+SYS_WTS
int _fparse(), _frename(), _opnrel(), _flookup();
int _t10error();
#endif
/* Imported functions */
extern int _dvtype(); /* from stat() */
extern void _panic();
#if SYS_T20+SYS_10X
extern int _gtfdb(); /* ditto */
#elif SYS_T10+SYS_CSI+SYS_WTS
extern int _blkprime(); /* from write() */
#endif
static int opensys(); /* Basic OS-dependent open routine */
#define WORD_BIT (sizeof(int)*CHAR_BIT) /* Generality never hurts */
int
creat(path, mode)
char *path;
int mode;
{
return open(path, (O_WRONLY | O_CREAT | O_TRUNC), mode);
}
int
open(path, flags, mode)
char *path;
int flags, mode;
{
struct _ufile *uf;
int fd, err;
USYS_BEG();
if ((fd = _uiofd()) == -1 || !(uf = _ufcreate()))
USYS_RETERR(EMFILE); /* Failed to get FD slot or UF struct */
if (err = opensys(uf, path, flags, mode))
USYS_RETERR(err); /* Failed somehow */
_openuf(uf, flags); /* Set up UF with given flags */
_uffd[fd] = uf; /* Set up UF mapping for the FD! */
USYS_RET(fd);
}
/* _OPENUF - Auxiliary used by _runtm(), open(), pipe() to share common code.
** uf_ch and uf_flgs must already be set.
** uf_buf is either NULL or points to an allocated buffer for re-use.
** (Currently it must always be NULL!)
** Sets:
** uf_flgs (OR'd in)
** uf_type
** uf_dnum
** uf_buf
** uf_cp
** uf_cnt
** uf_pos
** uf_eof
** uf_nopen
** uf_zcnt (on ITS)
*/
int
_openuf(uf, flags)
struct _ufile *uf;
int flags;
{
/* Set various default values if nothing's already there. */
if (!(uf->uf_flgs&(UIOF_READ|UIOF_WRITE))) { /* Set R/W flags */
if (flags & O_RDWR) uf->uf_flgs |= (UIOF_READ | UIOF_WRITE);
else uf->uf_flgs |= ((flags & O_WRONLY) ? UIOF_WRITE : UIOF_READ);
}
if (!uf->uf_bsize) uf->uf_bsize = CHAR_BIT;
if (!uf->uf_nbpw) uf->uf_nbpw = WORD_BIT / uf->uf_bsize;
if (uf->uf_type < 0) /* Get UIO_DVxxx device type */
uf->uf_type = _dvtype(uf->uf_ch);
/* See if device can hang waiting for input or not. This should be
** system-dependent, actually.
*/
if (uf->uf_type != UIO_DVDSK) /* If not disk device, */
uf->uf_flgs |= UIOF_CANHANG; /* say input hangage possible */
if (uf->uf_type == UIO_DVTTY) { /* If TTY, fix up device number */
int i;
if (uf->uf_ch == UIO_CH_CTTRM) /* Always use 0 for control TTY */
i = 0;
else { /* If a random TTY, pick another */
for (i = 1; _ttys[i].tt_uf != NULL;)
if (++i >= _NTTYS)
_panic("open() - opening too many terminal devices");
}
/* i now has index into _ttys[] */
if (_ttys[i].tt_uf == NULL) {
_ttys[i] = _deftty; /* Initialize whole struct! */
_ttys[i].tt_uf = uf; /* Point back to UF */
}
uf->uf_dnum = i; /* Point to tty struct # */
#if SYS_T10
/* Attempt to get UDX, ignore error for now (what else to do??) */
if (uf->uf_ch == UIO_CH_CTTRM)
MUUO_ACVAL("TRMNO.", -1, &_ttys[i].tt_udx);
else {
int ln = 0;
_KCCtype_char6 nam[6];
MUUO_ACVAL("DEVNAM", uf->uf_ch, (int *)nam); /* Get TTYnnn */
if (nam[3]) { /* Figure line # from SIXBIT */
ln = nam[3] - 020;
if (nam[4]) {
ln = (ln<<3) + (nam[4] - 020);
if (nam[5]) {
ln = (ln<<3) + (nam[5] - 020);
}
}
}
_ttys[i].tt_udx = uuosym(".UXTRM") + ln;
}
#elif SYS_CSI /* CSI did this one right */
_ttys[i].tt_udx = XWD(-1, uf->uf_ch);
#endif
}
/* OK, all ready to go! Set confirmation that UF is open. */
uf->uf_nopen = 1; /* UF is open, with only one FD */
}
/* _UIOFD - Find a spare FD (File Descriptor).
** Returns -1 if no more FD slots available.
** Used by open(), pipe(), URT startup.
*/
int
_uiofd()
{
int fd;
for (fd = 0; fd < OPEN_MAX; fd++)
if (!_uffd[fd])
return fd;
errno = EMFILE;
return -1;
}
/* _UFCREATE - Find a spare UF slot and return pointer to it.
** May return NULL if there are no free slots left.
** Used by open(), pipe(), and URT startup.
**
** On ITS, TOPS-10, and WAITS, the uf_ch value is automatically set
** to a corresponding channel number from 0-017 inclusive, since there
** is a one-to-one correspondence between UF number and channel number.
*/
struct _ufile *
_ufcreate()
{
register int i;
struct _ufile *uf;
for (i = 0, uf = _uftab; uf->uf_nopen > 0; ++uf)
if (++i >= OPEN_UF_MAX) {
errno = EMFILE; /* No free slots, fail */
return NULL;
}
/* Found a free slot! */
if (uf->uf_buf) /* Paranoia check; close() always */
_panic("_ufcreate: unreleased IOB"); /* frees any buffers. */
memset((char *)uf, 0, sizeof(*uf)); /* Clear UF struct completely! */
uf->uf_type = -1; /* Device type unknown */
uf->uf_flen = -1; /* File length unknown */
#if SYS_ITS /* On ITS, store correct SYSCALL argument for channel */
uf->uf_ch = SC_IMM(i);
#elif SYS_T10+SYS_CSI+SYS_WTS
uf->uf_ch = i; /* Just use plain channel # */
#endif
return uf;
}
/* _UIOBUF - Set up buffer for a UF
** uf_bsize and uf_nbpw must already be set.
** Also used by read().
*/
int
_uiobuf(uf)
register struct _ufile *uf;
{
if (!uf->uf_buf) {
if (!(uf->uf_buf = _iobget())) {
errno = EMFILE; /* Too many open files */
return 0;
}
switch (uf->uf_bsize) {
case 7:
uf->uf_bpbeg = (char*)(int)(_KCCtype_char7*)(uf->uf_buf->b_data);
uf->uf_blen = uf->uf_nbpw
* sizeof(uf->uf_buf->b_data)/sizeof(int); /* # wds */
break;
case 8:
uf->uf_bpbeg = (char*)(int)(_KCCtype_char8*)(uf->uf_buf->b_data);
uf->uf_blen = uf->uf_nbpw
* sizeof(uf->uf_buf->b_data)/sizeof(int); /* # wds */
break;
case 9:
default:
uf->uf_bpbeg = uf->uf_buf->b_data;
uf->uf_blen = sizeof(uf->uf_buf->b_data);
break;
}
}
return 1;
}
#if SYS_T20+SYS_10X /* TOPS-20/TENEX OS-dependent file opening code */
#define MAX_LINE (512) /* size of a GP string buffer */
struct filename { /* for C:sys/xxx.h */
char path[FILENAME_SIZE]; /* "sys" */
char device[FILENAME_SIZE]; /* "C" - could be a logical! */
char directory[FILENAME_SIZE]; /* NULL */
char filename[FILENAME_SIZE]; /* "xxx.h" */
};
extern int _gtfdb(); /* used by various routines, defined in stat */
static int get_tricky(); /* tricky logical name expander for get_jfn */
static int get_jfn(); /* work-horse for getting a file */
static int o_gtjfn(); /* lowest level gtjfn, which does the GTJFN% */
static void parse_filename(); /* parse up a TOPS-20 filespec */
static void make_filename(); /* construct a TOPS-20 filespec from pieces */
static int log_expand(); /* expand a logical device */
static int o_openf(); /* Call OPENF% */
/* OPENSYS for TOPS-20/TENEX
*/
static int
opensys(uf, path, flags, mode)
struct _ufile *uf;
char *path;
int flags, mode;
{
int jfn;
if (flags & O_SYSFD) {
jfn = (int) path; /* "path" is actually JFN. */
} else {
/* This would be the point to translate the protection modes
* and pass to the GTJFN% as a ";Pnnnnnn" suffix for use if
* creating a new file (or version).
* tnxprot(mode, &protstr);
*/
if (!(jfn = _gtjfn(path, flags)))
return ENOENT; /* Failed to get JFN for file */
}
uf->uf_ch = jfn; /* Store the JFN */
/*
* check to see if this is an old file, or a new one. if FB_NXF
* is set then the file is new and doesn't exist (until closed)
*/
if (!(_gtfdb(jfn, _FBCTL) & FB_NXF))
uf->uf_flgs |= UIOF_OLD;
/*
* now open the file
*/
if (!(o_openf(uf, flags))) {
if ((flags&O_SYSFD)==0) /* Failed, release the JFN if we created one */
_rljfn(jfn);
return ENOENT; /* and lose-return */
}
if (flags & O_APPEND) { /* for append file, read starting position */
int ablock[5];
ablock[1] = uf->uf_ch;
uf->uf_pos = (jsys(RFPTR, ablock)) ? ablock[2] : 0;
}
return 0; /* Won, return without error! */
}
#endif /* SYS_T20+SYS_10X */
#if SYS_T20+SYS_10X
/*
* Get a JFN on a pathname.
* This is the routine that converts Unix-style pathnames into
* T20 filenames.
*/
int _gtjfn(path, flags)
char *path;
int flags;
{
struct filename file;
char tried[MAX_LINE]; /* devices already tried */
parse_filename(path, &file); /* parse up the filename */
if (!*file.path) /* if no unix-style path */
return get_jfn(path, flags); /* spec, then this is easy */
*tried = '\0'; /* nothing tried yet */
return get_tricky(&file, tried, 1, flags); /* alas, do tricky things */
}
/*
* tricky logical-device follower. this traces out logical devices
* and generates full paths from the different end-directories,
* keeping at it until it finds the file. this routine is not needed
* unless foo/ style filespecs are being used.
*
* tried[] is a buf that get_tricky stores devices it has tried into,
* so that it won't re-try anything and potentially get into a loop.
*/
/** WARNING!!! THIS CODE CRAPS OUT BADLY IF THE LOGICAL NAME HAS NO
*** EXPLICIT DEVICE SPEC! FIX LATER!! --KLH 4/17/89
**/
static int get_tricky(file, tried, job_wide_flag, flags)
struct filename *file;
char *tried;
int job_wide_flag;
{
char expansion[MAX_LINE], o_device[FILENAME_SIZE], token[FILENAME_SIZE];
char new_path[MAX_LINE], *cp, *p, *next;
int jfn;
if (!log_expand(file->device, expansion, job_wide_flag)) {
make_filename(new_path, file); /* not a logical device */
return get_jfn(new_path, flags); /* so just look for it. */
}
strcpy(o_device, file->device); /* save original device */
for (cp = expansion; *cp; cp = ++next) { /* loop over expansion. */
next = strchr(cp, ','); /* find separator */
if (next) *next = '\0'; /* tie this one off */
if (p = strchr(cp, '<')) { /* if got a directory */
*strchr(cp, ':') = '\0'; /* kill the colon */
strcpy(file->device, cp); /* device from expansion */
*strchr(p, '>') = '\0'; /* kill trailing > */
strcpy(file->directory, ++p); /* directory from expansion */
make_filename(new_path, file); /* make up the new path */
if (jfn = get_jfn(new_path, flags))
return jfn; /* got it! */
} else {
*strchr(cp, ':') = '\0'; /* kill the colon */
job_wide_flag = (strCMP(o_device, cp) != 0); /* same device on */
*token = (job_wide_flag) ? '*' : '$'; /* right side means sys */
strcpy(token + 1, cp); /* construct device token */
if (!strSTR(tried, token)) { /* if haven't tried this */
strcat(tried, token); /* we're trying it now */
strcpy(file->device, cp); /* try this device now */
if (jfn = get_tricky(file, tried, job_wide_flag, flags))
return jfn;
}
}
}
return 0; /* not found... */
}
/*
* do the real work of finding a file
*/
static int get_jfn(path, flags)
char *path;
int flags;
{
int jfn, bits;
bits = (flags & O_T20_WILD) ? GJ_IFG : 0;
if (flags & (O_RDWR | O_WRONLY | O_APPEND)) {
/*
* Normally we always create a new version for writing.
* The O_T20_WROLD flag exists in order to override this and
* act like UNIX if such behavior is ever desirable (ugh).
* Note that if O_APPEND or O_RDWR is set, we always look
* for an existing file first.
*/
if (!(flags & (O_APPEND | O_RDWR | O_T20_WROLD)))
return o_gtjfn(path, GJ_FOU);
else if (jfn = o_gtjfn(path, GJ_OLD)) {
if ((flags & O_CREAT) && (flags & O_EXCL)) {
_rljfn(jfn);
errno = EEXIST;
return 0;
}
} else if (!(flags & O_CREAT) || !(jfn = o_gtjfn(path, GJ_FOU))) {
errno = ENOENT;
return 0;
} else return jfn;
} else return o_gtjfn(path, ((flags & O_T20_WILD) ? GJ_IFG : 0) | GJ_OLD);
}
/*
* lowest level actual GTJFN% call
*/
static int o_gtjfn(path, flags)
char *path;
int flags;
{
int arg_block[5];
arg_block[1] = GJ_SHT | flags;
arg_block[2] = (int) (path - 1);
return (jsys(GTJFN, arg_block)) ? arg_block[1] : 0;
}
/*
* take apart a TOPS-20 filespec and put the pieces in the given
* (struct filename) structure.
*/
static void parse_filename(path, file)
char *path;
struct filename *file;
{
char *start, *part;
int c, length;
*file->path = *file->device = *file->directory = *file->filename = '\0';
do { /* loop over pathname */
start = path; /* cp to start of part */
length = 0; /* length of part */
part = NULL; /* what this part is */
while (!part) switch (c = *path++) {
case '\26': path++; length++; break; /* ^V quote */
case '\0': part = file->filename; break;
case ':': part = file->device; break;
case '<': start = path; continue;
case '>': part = file->directory; break;
case '/': part = file->path; break;
default: length++;
}
strncpy(part, start, length);
part[length] = '\0';
} while (c);
}
/*
* given a (struct filename) structure, construct a TOPS-20 filename
* from the pieces
*/
static void make_filename(buf, file)
char *buf;
struct filename *file;
{
*buf = '\0'; /* initialize buffer always */
if (*file->device) {
strcat(buf, file->device);
strcat(buf, ":");
}
if (*file->directory || *file->path) {
strcat(buf, "<");
if (*file->directory)
strcat(buf, file->directory);
strcat(buf, ".");
if (*file->path)
strcat(buf, file->path);
strcat(buf, ">");
}
if (*file->filename) strcat(buf, file->filename);
}
/*
* expand the logical device *from (which should not include the
* trailing colon) to *to. if (job_wide) then a local expansion is
* tried first, else just system-wide.
*/
static int log_expand(from, to, job_wide)
char *from, *to;
int job_wide;
{
int ablock[5];
ablock[2] = (int) (from - 1);
ablock[3] = (int) (to - 1);
if (job_wide) { /* not system-logical only? */
ablock[1] = _LNSJB; /* job-wide */
if (jsys(LNMST, ablock)) return 1; /* local expansion worked */
}
ablock[1] = _LNSSY; /* system-wide */
return jsys(LNMST, ablock);
}
#define old_file(uf) (uf->uf_flgs & UIOF_OLD)
#define new_file(uf) (!(uf->uf_flgs & UIOF_OLD))
static int
o_openf(uf, flags)
struct _ufile *uf;
int flags;
{
int byte_size;
int open_mode = 0;
int arg_block[5];
/*
* convert file.h flags into OPENF% bit flags
*/
switch (flags & (O_RDONLY | O_WRONLY | O_RDWR | O_APPEND)) {
case (O_WRONLY | O_APPEND):
case O_APPEND: open_mode = OF_APP; break;
case O_WRONLY: open_mode = OF_WR; break;
case O_RDWR: open_mode = OF_RD | OF_WR | OF_PLN; break;
case (O_RDWR | O_APPEND):
open_mode = OF_RD | OF_WR | OF_APP | OF_PLN; break;
default: open_mode = OF_RD | OF_PLN; break;
}
/*
* you can't open an existing file for write-only (not read-write),
* and not have it be truncated. sorry, kids.
*/
if (old_file(uf) && (open_mode == OF_WR) && !(flags & O_TRUNC)
&& _dvtype(uf->uf_ch) == _DVDSK) {
errno = ETRUNC; /* new T20 error code! */
return 0;
}
/*
* to avoid truncating an existing file, you need to open it in
* r/w mode, even if you just want write.
*/
if (old_file(uf) && !(flags & (O_TRUNC | O_APPEND)))
open_mode |= OF_RD;
/*
* If a byte size is explicitly requested, use that.
* Otherwise:
* for a new file, use 9 if O_BINARY, else 7.
* for an old file, use the file bytesize.
* A size of 0 or 36 is handled as for a new file.
* Any other size is simply used - if this is not
* one of 7, 8, or 9 then the results are unpredictable.
*/
switch (flags & O_BSIZE_MASK) {
case O_BSIZE_7: byte_size = 7; break;
case O_BSIZE_8: byte_size = 8; break;
case O_BSIZE_9: byte_size = 9; break;
default: /* Error, but nothing we can do about it now. */
case 0:
if (new_file(uf))
byte_size = (flags & O_BINARY) ? 9 : 7 ;
else {
byte_size = (_gtfdb(uf->uf_ch,_FBBYV) << FBBSZ_S) & FBBSZ_M;
if (byte_size == 0 || byte_size == 36)
byte_size = (flags & O_BINARY) ? 9 : 7;
}
}
uf->uf_bsize = byte_size; /* save for posterity */
if (flags & O_T20_THAWED) open_mode |= OF_THW; /* thawed access? */
/*
* if they explicitly request converted i/o, then propagate the flag,
* else if they DIDN'T explicitly request UNconverted (e.g. it's up to
* us to decide), and the file is being opened for text in 7-bit bytes,
* then go for conversion.
*/
if ((flags & O_CONVERTED) ||
(byte_size == 7 && !(flags & (O_UNCONVERTED | O_BINARY))))
uf->uf_flgs |= UIOF_CONVERTED;
arg_block[1] = uf->uf_ch;
arg_block[2] = (byte_size << 30) + open_mode;
if (!jsys(OPENF, arg_block))
return 0; /* Open failed */
/* We won! Now do special hack if dealing with a new file -- we
** quickly close and then re-open it, so that the file will then
** actually exist and can be seen by access(), stat(), GTFDB%, and
** everything else. This compensates for the T20 braindamage where
** a new file doesn't really exist (certainly not permanently) until
** it is CLOSF%'d.
*/
if (!new_file(uf))
return 1; /* Not a new file, we're already OK */
arg_block[1] = uf->uf_ch | CO_NRJ;
jsys(CLOSF, arg_block); /* CLOSF% it, keeping JFN (ignore error) */
arg_block[1] = uf->uf_ch; /* Now OPENF% again (ac2 still has mode) */
return jsys(OPENF, arg_block);
}
int _rljfn(jfn)
int jfn;
{
int arg_block[5];
arg_block[1] = jfn;
return jsys(RLJFN, arg_block);
}
#endif /* SYS_T20+SYS_10X */
#if SYS_T10+SYS_CSI+SYS_WTS /* TOPS-10/WAITS OS-dependent file opening code */
/* OPENSYS for TOPS-10/WAITS/CSI
*/
static int chopen(), ringinit();
static int o_lookup(), o_enter(), o_crupd(), o_out(), o_close();
static int o_open(), o_findeof();
static void flerset(), ringfree();
static int
opensys(uf, path, flags, mode)
struct _ufile *uf;
char *path;
int flags, mode;
{
int err, devbits;
int rwflag = 0; /* R/W flags */
int nbufs, bufsiz;
struct _filehack f;
/* Check out flags */
switch (flags & (O_RDONLY | O_WRONLY | O_RDWR)) {
case O_RDONLY: /* Can read */
rwflag = UIOF_READ;
break;
case O_WRONLY: /* Can write */
rwflag = UIOF_WRITE;
break;
case O_RDWR:
rwflag = UIOF_READ | UIOF_WRITE;
break;
default: /* Shouldn't happen */
return EINVAL;
}
if (!(rwflag & UIOF_WRITE)) /* If not writing, then ignore */
flags &= ~(O_CREAT|O_TRUNC|O_APPEND|O_EXCL); /* these flags */
uf->uf_flgs |= rwflag | ((flags & O_APPEND) ? UIOF_APPEND : 0);
/* Now check bytesize, if any given */
switch (flags & O_BSIZE_MASK) {
case O_BSIZE_7: uf->uf_bsize = 7; break;
case O_BSIZE_8: uf->uf_bsize = 8; break;
case O_BSIZE_9: uf->uf_bsize = 9; break;
case 0: uf->uf_bsize = (flags & O_BINARY) ? 9 : 7; break;
default: return EINVAL; /* Bad arg */
}
uf->uf_nbpw = WORD_BIT / uf->uf_bsize;
/* Decide whether to use converted I/O */
if ((flags & O_CONVERTED) ||
(uf->uf_bsize == 7 && !(flags & (O_UNCONVERTED | O_BINARY))))
uf->uf_flgs |= UIOF_CONVERTED;
/* Now attempt to parse the pathname */
if (err = _fparse(&f.fs, path))
return err; /* Ugh, failed somehow */
/* Parse won, set up other vars so we can OPEN device. */
if (!(f.filop.fo_dev = f.fs.fs_dev)) /* If no device given, */
f.filop.fo_dev = _SIXWRD("DSK"); /* use DSK: as default. */
MUUO_ACVAL("DEVCHR", f.filop.fo_dev, &devbits); /* Get dev bits */
if (devbits == 0)
return ENODEV; /* Fail - "no such device" */
if (devbits & uuosym("DV.DSK")) {
/* Disk device gets special handling */
uf->uf_type = UIO_DVDSK;
uf->uf_flgs |= UIOF_BLKDEV; /* Say block device */
/* Decide whether we'll need dump mode or not (see t10io.doc!) */
if ((rwflag&UIOF_WRITE) /* Never if not writing */
&& ( (rwflag&UIOF_READ) /* Doing R/W (update) */
|| !(flags&(O_CREAT|O_TRUNC|O_APPEND)) /* Special case 1 */
|| !(flags&(O_TRUNC|O_APPEND|O_EXCL)) )) { /* Special case 2 */
f.filop.fo_ios = uuosym(".IODMP");
f.filop.fo_brh = 0; /* No buffer rings */
nbufs = 0;
} else { /* Plain R or W */
f.filop.fo_ios = uuosym(".IOIMG");
nbufs = 2; /* Want 2 buffers */
bufsiz = UIO_T10_DSKWDS+3; /* of this size */
}
} else {
/* Random device, probably TTY or something */
f.filop.fo_ios = uuosym(".IOASL"); /* Use this in case terminal */
#if SYS_T10+SYS_CSI
if (!MUUO_ACVAL("DEVSIZ", &f.filop.fo_ios, &bufsiz))
bufsiz = XWD(2,UIO_T10_DSKWDS+3);
if (bufsiz <= 0) /* If no such device or bad mode */
return ENXIO; /* "no such device or address" */
nbufs = FLDGET(bufsiz, _LHALF); /* Get desired # buffers */
bufsiz &= _RHALF;
#elif SYS_WTS
WTSUUO_ACVAL("BUFLEN", f.filop.fo_dev, &bufsiz);
if (bufsiz <= 0) bufsiz = UIO_T10_DSKWDS+1;
bufsiz += 2; /* Canonicalize to T10 value */
nbufs = 2;
#endif
if (bufsiz > (UIO_T10_DSKWDS+3)) /* Don't exceed our max */
bufsiz = UIO_T10_DSKWDS+3; /* too big, use our max. */
}
/* Point to buffer rings we'll use if LOOKUP/ENTER succeeds. */
if (nbufs) {
f.filop.fo_brh = XWD(
(rwflag&UIOF_WRITE ? (int)&uf->uf_boring : 0),
(((rwflag&UIOF_READ) || (flags&O_APPEND))
? (int)&uf->uf_biring : 0)
);
}
if (err = chopen(uf, &f, flags)) /* Open the channel! */
return _opnrel(uf), err;
/* We won, channel is open! Must now set up buffering, bletch.
** Note that input side may have been opened even if user didn't ask
** for it, in order to read last block.
*/
if (nbufs == 0) {
/* Using dump mode, set up just 1 buffer. */
if (!_uiobuf(uf))
return _opnrel(uf), errno;
} else {
if (uf->uf_flgs&(UIOF_READ|UIOF_OREAD)) {
if (err = ringinit(uf, UIOF_READ, nbufs, bufsiz))
return _opnrel(uf), err;
}
if (rwflag&UIOF_WRITE) {
if (err = ringinit(uf, UIOF_WRITE, nbufs, bufsiz))
return _opnrel(uf), err;
}
}
/* See whether to find true EOF or not (only applicable to block devs).
** For simplicity we always do this, even if read-only. The alternative
** would be to set some flag for checking the last block when it's
** finally encountered during a read.
*/
if (uf->uf_flgs & UIOF_BLKDEV) {
if (err = o_findeof(uf)) /* Find true file EOF */
return _opnrel(uf), err;
/* If write-only, buffered, and appending,
** then we've got to preload the last block before closing the
** input side of the channel! After reading it in, it needs to
** be copied into the output buffer. All the flags will already
** have been set correctly, however.
*/
if (nbufs && (uf->uf_flgs&UIOF_APPEND)
&& !(uf->uf_flgs&UIOF_READ)
&& uf->uf_flen > 0) { /* Can also skip if file empty */
char *cp;
uf->uf_pos = uf->uf_flen; /* Seek to EOF */
if (!_blkprime(uf, 0) /* and ensure block read! */
|| !(cp = uf->uf_boring.br_bp)) /* Get ptr to output blk */
return _opnrel(uf), EIO;
/* Note bump of CP prior to use. This is important! */
memcpy(++cp, uf->uf_bpbeg, uf->uf_blen); /* Copy to out blk! */
uf->uf_bpbeg = cp; /* This is new buffer start */
}
/* Clean up after seeks etc so initial pos always 0 even if
** current block is somewhere else.
*/
uf->uf_pos = 0;
uf->uf_rleft = uf->uf_wleft = uf->uf_eof = 0;
}
/* If a user mode doesn't allow reading but we still have channel open
** for input, close the input side. This can happen when setting
** things up for O_APPEND to a write-only file.
** Avoid doing so if using dump mode (to leave the 2 special cases alone).
*/
if (nbufs && !(uf->uf_flgs&UIOF_READ) && (uf->uf_flgs&UIOF_OREAD)) {
o_close(uf, uuosym("CL.OUT")); /* Close input side of chan */
ringfree(&uf->uf_biring);
}
/* Everything's OK, last thing is to remember the filespec we used
** to open this channel, so fstat() has a chance at doing something
** useful. TOPS-10 has almost no ways of interrogating channel status!
*/
uf->uf_fs = f.fs; /* Copy filespec info directly */
return 0; /* Won, return without error! */
}
/* CHOPEN - Open TOPS-10 I/O channel as per flags.
** The "OPEN" block (starting at f->filop.fo_ios) is already set up.
** Returns 0 on success, else error code.
** Sets uf_flen to file size (rounded up to words).
** Sets UIOF_OREAD if channel still open for reading.
*/
static int
chopen(uf, f, flags)
struct _ufile *uf;
struct _filehack *f;
{
int err;
if (flags & O_CREAT) { /* Create file if doesn't exist? */
if (flags & O_EXCL) { /* Error if file exists? */
if (o_lookup(uf, f)==0)
return EEXIST; /* Error - File exists */
if (uf->uf_flgs & UIOF_READ) /* Doesn't exist, reading? */
return o_crupd(uf, f); /* Update a new file! */
else return o_enter(uf, f, _FOWRT); /* Write a new file! */
}
if (flags & O_TRUNC) { /* Truncate if file exists? */
if (uf->uf_flgs & UIOF_READ) /* Doesn't exist, reading? */
return o_crupd(uf, f); /* Update a new file! */
else return o_enter(uf, f, _FOWRT); /* Write a new file! */
}
if (uf->uf_flgs & UIOF_READ) { /* R/W? */
/* fix up (ineff) */
if (o_lookup(uf, f)!=0) /* R/W with C */
return o_crupd(uf, f); /* Create if doesn't exist */
return o_enter(uf, f, _FOSAU); /* Now get W */
}
/* Just writing (with create if file non-ex) */
if (o_lookup(uf, f)!=0)
return o_enter(uf, f, _FOWRT); /* Non-ex, write new file */
return o_enter(uf, f, _FOSAU); /* Open for update, caller closes R */
}
/* Not creating, file must exist. */
if (err = o_lookup(uf, f))
return err; /* Doesn't exist, fail */
if (!(uf->uf_flgs & UIOF_WRITE)) /* If just reading, that was all! */
return 0;
if (flags & O_TRUNC) { /* Truncate existing? */
o_close(uf, 0); /* Yes, close chan */
uf->uf_flen = -1; /* Forget about length */
if (uf->uf_flgs & UIOF_READ) /* Reading too? */
return o_crupd(uf, f); /* Update a new file! */
return o_enter(uf, f, _FOWRT); /* Supersede existing file */
}
/* Writing existing file, no truncate. */
return o_enter(uf, f, _FOSAU); /* File exists, open for update */
}
static int
o_lookup(uf, f)
struct _ufile *uf;
struct _filehack *f;
{
int len;
#if SYS_WTS
if (len = o_open(uf, f, _FORED, LER_OLD)) /* Read, old-style LER block */
return len; /* Failed, return error */
len = f->orb.s.rb_ppn; /* Get word with length in LH */
len >>= WORD_BIT/2; /* Get signed LH */
if (len > 0) len = -len; /* Neg means # words */
else len *= UIO_DSKWDS; /* Pos means # blocks (ugh) */
#else
if (len = o_open(uf, f, _FORED, LER_RBSIZ)) /* Read, new extended LER block */
return len; /* Failed, return error */
len = f->xrb.s.rb_siz; /* Get word with length in it */
#endif
uf->uf_flen = uf->uf_nbpw * len; /* Get file length in bytes */
uf->uf_flgs |= UIOF_OREAD; /* Say opened for reading! */
return 0;
}
static int
o_enter(uf, f, op)
struct _ufile *uf;
struct _filehack *f;
{
int err;
if (err = o_open(uf, f, op, LER_OLD)) /* Write, old-style LER block */
return err;
if (uf->uf_flen < 0) /* Won! If length not already set, */
uf->uf_flen = 0; /* just make it 0 */
return 0;
}
static int
o_crupd(uf, f)
struct _ufile *uf;
struct _filehack *f;
{
int err;
if (err = o_open(uf, f, _FOWRT, LER_OLD)) /* First create empty file */
return err;
/* Let's hope an OUT is unnecessary to create 0-length file! */
o_close(uf, 0);
if (err = o_open(uf, f, _FOSAU, LER_OLD)) /* Now re-open */
return err;
uf->uf_flen = 0; /* Won, length known to be 0! */
return 0;
}
static int
o_out(uf)
struct _ufile *uf;
{
if (!_filopuse)
return !MUUO_IO("OUT", uf->uf_ch, 0);
else {
int argblk = XWD(uf->uf_ch, uuosym(".FOOUT"));
return MUUO_AC("FILOP.", XWD(1,(int)&argblk));
}
}
/* O_CLOSE - Close channel, but don't release it; leaves UIOF_OCHAN set.
*/
static int
o_close(uf, bits)
struct _ufile *uf;
{
struct _foblk fo;
uf->uf_flgs &= ~UIOF_OREAD; /* Will no longer be open for read */
if (!_filopuse)
return MUUO_IO("CLOSE", uf->uf_ch, bits);
fo.fo_chn = uf->uf_ch;
fo.fo_fnc = uuosym(".FOCLS");
fo.fo_ios = bits;
return MUUO_AC("FILOP.", XWD(2,(int)&fo));
}
static int
o_open(uf, f, op, lertyp)
struct _ufile *uf;
struct _filehack *f;
{
int ret;
f->error = -1;
if (!_filopuse) { /* Old-style UUOs */
int rbadr;
/* Must ensure device is OPENed, sigh */
if (!(uf->uf_flgs&(UIOF_OREAD|UIOF_OCHAN)) /* If needed, */
&& !MUUO_IO("OPEN", uf->uf_ch, &f->filop.fo_ios)) { /* open dev! */
return ENXIO; /* "No such device or address" */
}
uf->uf_flgs |= UIOF_OCHAN; /* Remember channel opened */
rbadr = (lertyp == LER_OLD) /* Old or extended lookup blk */
? (int)&f->orb : (int)&f->xrb;
ret = 1;
if ((op == _FORED || op == _FOSAU) /* Read or update */
&& !(uf->uf_flgs&UIOF_OREAD)) { /* and not already open? */
flerset(f, &f->fs, lertyp); /* Set up LER block */
if (ret = MUUO_IO("LOOKUP", uf->uf_ch, rbadr)) {
uf->uf_flgs |= UIOF_OREAD;
}
}
if (ret && (op == _FOWRT || op == _FOSAU)) { /* Write or update */
flerset(f, &f->fs, lertyp = LER_OLD); /* Use old LER blk */
ret = MUUO_IO("ENTER", uf->uf_ch, rbadr);
}
if (!ret) f->error = (lertyp == LER_OLD) /* Get err if any */
? f->orb.s.rb_ext.rbe.err
: f->xrb.s.rb_ext.rbe.err;
} else {
flerset(f, &f->fs, lertyp); /* Set up LER block */
f->filop.fo_chn = uf->uf_ch;
#if !SYS_CSI /* Normal T10's must allocate, barf */
if (uf->uf_ch > 017) f->filop.fo_chn = uuosym("FO.ASC");
#endif
f->filop.fo_fnc = op;
f->filop.fo_nbf = 0;
f->filop.fo_leb = (lertyp == LER_OLD)
? XWD(0,(int)&f->orb) : XWD(0,(int)&f->xrb);
if (!MUUO_ACVAL("FILOP.", XWD(6,(int)&f->filop), &ret))
f->error = ret;
else if (op == _FORED || op == _FOSAU)
uf->uf_flgs |= UIOF_OREAD;
#if !SYS_CSI /* Normal T10 must use ext chan we got */
if (f->error == -1 && uf->uf_ch > 017) /* If no err & extended chn */
uf->uf_ch = f->filop.fo_chn;
#endif
}
return (f->error == -1)
? 0 /* Won */
: _t10error(f->error); /* Failed, analyze error */
}
/* O_FINDEOF - Find actual EOF of file (ugh bletch)
** For 8-bit files on CSI, attempt last-word check.
** For converted files (any size), flush trailing NULs in last word.
** For all others, give up and accept current uf_flen.
** Current position is left random, caller is expected to reset.
*/
static int
o_findeof(uf)
struct _ufile *uf;
{
int adj;
if (uf->uf_flen <= 0 || !(uf->uf_flgs & UIOF_OREAD))
return 0;
if (
#if SYS_CSI
(uf->uf_bsize == 8) ||
#endif
(uf->uf_flgs&UIOF_CONVERTED)) {
uf->uf_pos = uf->uf_flen - 1; /* Want last byte of file */
if (!_blkprime(uf, 0)) /* Attempt prime for reading */
return EIO; /* Ugh, error!! */
#if SYS_CSI
if (uf->uf_bsize == 8) {
/* Do special CSI hack for 8-bit files; check bottom 4 bits
** of last word in file, which contain the # of unused bytes.
*/
if ((adj = (*(int *)uf->uf_cp) & 017) > 3)
adj = 0; /* If bad, use all 4 bytes */
} else
#endif
if (uf->uf_flgs & UIOF_CONVERTED) {
/* Flush trailing NUL chars from N-bit converted file */
for (adj = 0; *(uf->uf_cp) == '\0'; uf->uf_cp--)
if (++adj >= uf->uf_nbpw) break;
}
uf->uf_flen -= adj; /* Adjust file length! */
}
return 0;
}
/* _OPNREL - Close and release I/O channel.
** Called when an open() fails and needs to clean up.
** Also invoked by close().
*/
int
_opnrel(uf)
struct _ufile *uf;
{
if (!_filopuse)
MUUO_IO("RELEAS", uf->uf_ch, 0); /* Flush channel */
else {
int argblk = XWD(uf->uf_ch, uuosym(".FOREL"));
MUUO_AC("FILOP.", XWD(1,(int)&argblk));
}
if (uf->uf_buf) { /* If had a block or conversion buf, */
_iobfre(uf->uf_buf); /* free up the buffer! */
uf->uf_buf = NULL;
}
ringfree(&uf->uf_biring); /* Free up input ring if one */
ringfree(&uf->uf_boring); /* ditto output ring */
return 0;
}
static int
ringinit(uf, iof, nbufs, bufsiz)
struct _ufile *uf;
{
register struct _iobring *br;
register struct _iob *b1, *b2;
/* Point to input or output ring header */
br = (iof & UIOF_READ) ? &uf->uf_biring : &uf->uf_boring;
if (!(b1 = _iobget())) /* At least one buffer... */
return EMFILE; /* No memory for more files */
if (nbufs >= 2) { /* Want double-buffering? */
if (!(b2 = _iobget()))
return EMFILE; /* Out of mem again */
b1->bf_nba = ((int)b2)+1; /* Point buffers to each other */
b2->bf_nba = ((int)b1)+1;
b2->bf_iou = 0; /* Set up 2nd buffer */
b2->bf_siz = bufsiz - 2;
} else
b1->bf_nba = ((int)b1)+1; /* Point single buffer to itself */
b1->bf_iou = 0; /* Set up 1st buffer */
b1->bf_siz = bufsiz - 2;
/* Buffers all set up and linked together, now set up the
** buffer ring header (which evidently is not initialized at all by the
** the OPEN UUO).
** One thing we do is set the byte size of the BP into the buffer;
** but NOTE CAREFULLY that the monitor routines, when they initialize
** a buffer, ALWAYS zero out the P field of the BP and set the RH
** to point at the word before the actual start of data. This is
** OK if a IDPB/ILDB is done, but is a screw for ADJBP because that
** preserves byte alignment!!!!!! So anything that uses br_bp has
** to be aware of this.... ack ugh bletch barf.
*/
br->br_use = 1; /* Say no I/O yet */
br->br_cnt = 0; /* Clear just to be safe */
br->br_buf = ((int)b1)+1; /* Point ring header to 1st buffer */
switch (uf->uf_bsize) { /* Set up byte pointer with right bytesize */
case 7:
case 8:
case 9: /* Put bytesize into S field of byte ptr */
br->br_bp = (char *) ((uf->uf_bsize << 24)
| (((int)(int *)b1->b_data)-1) );
break;
default:
return ENXIO; /* Bad bytesize */
}
if (iof == UIOF_READ) {
/* Set up for buffered input using either block or char device.
** Block devs look at uf_rleft, uf_cp, uf_blen.
** Char devs just look at uf_biring.
*/
uf->uf_blen = uf->uf_nbpw * (bufsiz - 3);
uf->uf_rleft = 0;
} else {
/* Set up for buffered output using either block or character device.
** Block devices look at uf_wleft, uf_cp, and uf_blen.
** Character devices just look at the uf_boring header.
*/
if (o_out(uf) <= 0) /* Init buffers */
return EIO; /* Some error on 1st out */
uf->uf_blen = uf->uf_boring.br_cnt; /* Remember # bytes avail! */
uf->uf_bpbeg = uf->uf_boring.br_bp;
/* Make CP and get right alignment!!! Stupid T10 monitor always gives
** us a byte pointer with a zero P field, which is incorrectly
** aligned for most kinds of bytes. Bumping this by one both gets
** us a char pointer and restores proper alignment.
** If this ever assembles into ADJBP instead of <IBP 0,> we lose big!
*/
++(uf->uf_bpbeg);
uf->uf_wleft = 0; /* Force init on blk-dev write */
}
return 0; /* Success */
}
static void
ringfree(br)
register struct _iobring *br; /* T10 I/O buffer ring header */
{
struct _iob *b, *bf, *bx;
if (br->br_buf) { /* If have a buffer ring... */
bf = b = (struct _iob *)(br->br_buf-1); /* Original ptr */
do {
bx = (struct _iob *)(bf->bf_nba-1); /* Remember next */
_iobfre(bf); /* then flush buf */
} while ((bf = bx) != b); /* loop unless next is orig */
br->br_buf = NULL;
br->br_cnt = 0; /* Clear just in case */
br->br_bp = 0;
}
}
/* _FLOOKUP - T10/WAITS auxiliary file lookup routine.
** This routine is only used by stat() to get information about a file,
** thus it releases the channel immediately after opening.
** This serves the same function as _GTJFN does for T20; it gets a
** handle on a file (here a channel #) without any intention of doing I/O.
** The UF is not seized and so may be re-used (possibly by a signal handler,
** so be careful to have ints disabled).
** Returns 0 if succeeded, else an error number.
*/
int
_flookup(file, f, lertyp)
char *file; /* Filename. If NULL, assumes already parsed. */
struct _filehack *f;
int lertyp; /* LER block type to use */
{
struct _ufile *uf;
int err;
/* Say no lookup error so far */
f->error = -1; /* Must distinguish from ERFNF% (0), sigh. */
/* First parse the filespec, if desired. May be NULL to just use f->fs. */
if (file && (err = _fparse(&f->fs, file)))
return err;
if (!(uf = _ufcreate())) /* Find a free channel # */
return EMFILE; /* Too many files */
/* Set up device and mode */
f->filop.fo_ios = 0; /* Simply zap all flags & mode */
f->filop.fo_brh = 0; /* Use no buffering */
f->filop.fo_dev = f->fs.fs_dev ? f->fs.fs_dev : _SIXWRD("DSK");
if (err = o_open(uf, f, _FORED, lertyp)) { /* Open for read */
_opnrel(uf); /* Failed, flush channel used */
return err; /* Return error */
}
/* Have the info we wanted, now close channel ASAP */
if (!_filopuse)
MUUO_IO("RELEAS", uf->uf_ch, 0);
else {
int arg = XWD(uf->uf_ch, uuosym(".FOREL"));
MUUO_AC("FILOP.", XWD(1,(int)&arg));
}
return 0; /* Won, return success! */
}
/* _FRENAME - T10/WAITS auxiliary file rename routine.
** This is common code used by the USYS calls: unlink() and rename().
** It is located here because of its heavy dependence on LOOKUP.
** Returns 0 if succeeded, else an error number.
** Always releases the channel.
*/
/* TO BE DONE: FIX ATTRIBUTE COPY (so they aren't all zapped to 0)??? */
int
_frename(fsold, fsnew)
struct _filespec *fsold, *fsnew;
{
struct _filehack f, nf;
struct _ufile *uf;
if (!(uf = _ufcreate())) /* Find a free channel # */
return EMFILE; /* Too many files */
f.filop.fo_chn = uf->uf_ch; /* Remember channel # we got */
f.error = -1;
f.filop.fo_ios = 0; /* Simply zap all flags & mode */
f.filop.fo_brh = 0; /* Use no buffering */
f.filop.fo_dev = fsold->fs_dev ? fsold->fs_dev : _SIXWRD("DSK");
flerset(&f, fsold, LER_OLD); /* Use short LER blk for old fspec */
flerset(&nf, fsnew, LER_OLD); /* Another for new filespec */
if (!_filopuse) {
if (!MUUO_IO("OPEN", f.filop.fo_chn, &f.filop.fo_ios))
return ENXIO; /* "No such device or address" (sigh) */
if (!MUUO_IO("LOOKUP", f.filop.fo_chn, &f.orb))
f.error = f.orb.s.rb_ext.rbe.err;
else if (!MUUO_IO("RENAME", f.filop.fo_chn, &nf.orb))
f.error = nf.orb.s.rb_ext.rbe.err;
MUUO_IO("RELEAS", f.filop.fo_chn, 0);
} else {
int ret;
#if !SYS_CSI
if (f.filop.fo_chn > 017) /* Normal T10's must allocate, barf */
f.filop.fo_chn = uuosym("FO.ASC");
#endif
f.filop.fo_fnc = fsnew->fs_nam ? uuosym(".FORNM") : uuosym(".FODLT");
f.filop.fo_nbf = 0;
f.filop.fo_leb = XWD((int)&nf.orb,(int)&f.orb);
if (!MUUO_ACVAL("FILOP.", XWD(6,(int)&f.filop), &ret))
f.error = ret;
f.filop.fo_fnc = uuosym(".FOREL");
MUUO_AC("FILOP.", XWD(1,(int)&f.filop));
}
return (f.error == -1) ? 0 : _t10error(f.error);
}
static void
flerset(f, fs, lertyp)
struct _filehack *f;
struct _filespec *fs;
{
/* First determine right directory path to use (0 or PPN or path spec) */
f->lerppn = (fs->fs_nfds > 1) /* More than one dir given? */
? (int)&fs->fs_path /* Yeah, just point to it */
: fs->fs_path.p_path.ppn; /* No, just use PPN (or 0) */
fs->fs_path.p_arg = 0; /* Clear this just in case */
/* Now set up LER block from filespec as appropriate */
if (lertyp == LER_OLD) {
f->orb.s.rb_nam = fs->fs_nam;
f->orb.s.rb_ext.wd = fs->fs_ext;
f->orb.s.rb_prv.wd = 0;
f->orb.s.rb_ppn = f->lerppn;
} else {
#if SYS_WTS
_panic("flerset: extended fmt"); /* Not supported on WAITS */
#else
/* Want extended block, set that up. If caller plans to use it
** with ENTER, it should zero f->xrb beforehand because of all
** the additional values that the monitor might take from the
** extra words.
*/
f->xrb.s.rb_cnt = lertyp; /* # wds following */
f->xrb.s.rb_ppn = f->lerppn;
f->xrb.s.rb_nam = fs->fs_nam;
f->xrb.s.rb_ext.wd = fs->fs_ext;
f->xrb.s.rb_prv.wd = 0;
#endif
}
}
/* LOOKUP/ENTER/RENAME/GETSEG/RUN ERROR CODES */
#define Eunk EIO /* No obvious mapping, maybe try again later */
static short t10errs[] = {
ENOENT, /* ERFNF% - FILE NOT FOUND */
ENOTDIR, /* ERIPP% - INCORRECT PPN */
EACCES, /* ERPRT% - PROTECTION FAILURE */
EBUSY, /* ERFBM% - FILE BEING MODIFIED */
EEXIST, /* ERAEF% - ALREADY EXISTING FILE NAME */
EFAULT, /* ERISU% - ILLEGAL SEQUENCE OF UUOS */
#if SYS_WTS
EFAULT, EFAULT, EIO, EIO, ENOSPC
#else
EIO, /* ERTRN% - TRANSMISSION ERROR */
ENOEXEC, /* ERNSF% - NOT A SAVE FILE */
ENOMEM, /* ERNEC% - NOT ENOUGH CORE */
ENXIO, /* ERDNA% - DEVICE NOT AVAILABLE */
ENODEV, /* ERNSD% - NO SUCH DEVICE */
Eunk, /* ERILU% - ILLEGAL MONITOR CALL FOR GETSEG OR FILOP, OR SAVE. */
EDQUOT, /* ERNRM% - NO ROOM */
EROFS, /* ERWLK% - WRITE-LOCKED */
ENFILE, /* ERNET% - NOT ENOUGH TABLE SPACE */
Eunk, /* ERPOA% - PARTIAL ALLOCATION */
Eunk, /* ERBNF% - BLOCK NOT FREE */
EISDIR, /* ERCSD% - CAN'T SUPERSEDE A DIRECTORY */
ENOTEMPTY, /* ERDNE% - CAN'T DELETE NON-EMPTY DIRECTORY */
ENOENT, /* ERSNF% - SFD NOT FOUND */
ENOENT, /* ERSLE% - SEARCH LIST EMPTY */
ELOOP, /* ERLVL% - SFD NEST LEVEL TOO DEEP */
Eunk, /* ERNCE% - NO-CREATE FOR ALL S/L */
ETXTBSY, /* ERSNS% - SEGMENT NOT ON SWAP SPACE OR JOB LOCKED */
EPERM, /* ERFCU% - CAN'T UPDATE FILE */
EFAULT, /* ERLOH% - LOW SEG OVERLAPS HI SEG (GETSEG) */
EACCES, /* ERNLI% - NOT LOGGED IN (RUN, SAVE) */
ETXTBSY, /* ERENQ% - FILE STILL HAS OUTSTANDING LOCKS SET */
ENOEXEC, /* ERBED% - BAD .EXE FILE DIRECTORY (GETSEG,RUN) */
ENOEXEC, /* ERBEE% - BAD EXTENSION FOR .EXE FILE(GETSEG,RUN) */
ENOEXEC, /* ERDTB% - .EXE DIRECTORY TOO BIG(GETSEG,RUN,SAVE.) */
Eunk, /* ERENC% - TSK - EXCEEDED NETWORK CAPACITY */
Eunk, /* ERTNA% - TSK - TASK NOT AVAILABLE */
Eunk, /* ERUNN% - TSK - UNDEFINED NETWORK NODE */
Eunk, /* ERSIU% - RENAME - SFD IS IN USE */
Eunk, /* ERNDR% - DELETE - FILE HAS AN NDR LOCK */
Eunk, /* ERJCH% - JOB COUNT HIGH (A.T. READ COUNT OVERFLOW) */
Eunk, /* ERSSL% - CANNOT RENAME SFD TO A LOWER LEVEL */
EBADF, /* ERCNO% - CHANNEL NOT OPENED (FILOP.) */
ENXIO, /* ERDDU% - DEVICE "DOWN" AND UNUSEABLE */
EACCES, /* ERDRS% - DEVICE IS RESTRICTED */
EACCES, /* ERDCM% - DEVICE CONTROLLED BY MDA */
EPERM, /* ERDAJ% - DEVICE ALLOCATED TO ANOTHER JOB */
EIO, /* ERIDM% - ILLEGAL I/O DATA MODE */
EINVAL, /* ERUOB% - UNKNOWN/UNDEFINED OPEN BITS SET */
EBUSY, /* ERDUM% - DEVICE IN USE ON AN MPX CHANNEL */
ENFILE, /* ERNPC% - NO PER-PROCESS SPACE FOR EXTENDED I/O CHANNEL TABLE */
EMFILE, /* ERNFC% - NO FREE CHANNELS AVAILABLE */
EINVAL, /* ERUFF% - UNKNOWN FILOP. FUNCTION */
EMFILE, /* ERCTB% - CHANNEL TOO BIG */
EINVAL, /* ERCIF% - CHANNEL ILLEGAL FOR SPECIFIED FUNCTION */
EFAULT, /* ERACR% - ADDRESS CHECK READING ARGUMENTS */
EFAULT, /* ERACS% - ADDRESS CHECK STORING ANSWER */
EINVAL, /* ERNZA% - NEGATIVE OR ZERO ARGUMENT COUNT */
EINVAL, /* ERATS% - ARGUMENT BLOCK TOO SHORT */
Eunk, /* ERLBL% - MAGTAPE LABELING ERROR */
Eunk, /* ERDPS% - DUPLICATE SEGMENT IN ADDRESS SPACE */
Eunk, /* ERNFS% - NO FREE SECTION (SEGOP.) */
Eunk, /* ERSII% - SEGMENT INFORMATION INCONSISTENT (SEGMENT # AND NAME DON'T MATCH) */
#endif
};
int
_t10error(err)
{
if (err < 0 || err > (sizeof(t10errs)/sizeof(t10errs[0])))
return EIO; /* for now */
return t10errs[err];
}
/* T10/WAITS filespec parser
** This parser is able to handle filename strings which are in standard
** TOPS-10 format, or UNIX format, or a combination thereof.
** The general syntax is:
** {node::} {dev:} {[dirpath]} {upath} {filename} {[dirpath]}
**
** node - a TOPS-10 network site name (single word).
** dev - Device or logical structure name (single word).
** [dirpath] - a TOPS-10 directory path, syntax: [P,PN{,sfds}]
** If present, must always contain the UFD (PPN).
** It may contain SFDs after the PPN.
** Only one [dirpath] may be given.
** upath - a UNIX-style directory path, syntax: {/}{upath | name}/
** filename - Syntax is: name{. | .ext}
** i.e. "name", "name.", or "name.ext"
**
** The "upath" syntax has these peculiarities:
** - An absolute dirpath (begins with "/") must have a PPN after the "/".
** This PPN must not be enclosed in brackets.
** - A PPN has the syntax "n,n" on TOPS-10; "nam,nam" on WAITS.
** Due to possible future ambiguity ("n/n"), it is a bad
** idea to use a PPN as the first part of a relative pathname.
** - A relative dirpath is relative to the "default directory path"
** as returned by PATH. if there is no device, or the "current
** path" for the specified device.
** - "." and ".." can be given as directory names.
** - A upath can be combined with a [dirpath], however the upath cannot
** start with a '/' or a PPN; it is considered to be relative
** to [dirpath].
** - It would be possible for "/dev/foo" to become FOO:, but it's hard
** to think of a plausible use for this.
** Name components can be quoted in the following ways:
** - System-independent quote char "\" quotes next char.
** - System-dependent forms:
** WAITS: ^A (down-arrow) encloses quoted word (no doubling)
** T10: " encloses quoted word (double to quote ")
** CSI: ' or " enclose quoted word (double to quote ' or ")
** Incomplete PPNs can be specified:
** A PPN of the form [,123] or [123,] or [,] will take the unspecified
** fields from either the logged-in PPN (on T10, CSI) or the connected
** disk PPN (on WAITS). WAITS also permits [] or [FOO] to be the
** same as [,] and [FOO,].
*/
static int ppnparse();
static char *getwd6();
static unsigned sixbit();
static int rjust6(), sixoct();
struct word6 {
int len; /* # chars actually in word */
unsigned word; /* word in SIXBIT, left justified */
int term; /* Character terminating word */
int quoted; /* Non-zero if anything was quoted in word */
};
#ifndef NFSCOMPS
#define NFSCOMPS 20
#endif
int
_fparse(f, path)
struct _filespec *f;
char *path;
{
register struct word6 *wp;
register int n;
struct word6 wd[NFSCOMPS]; /* Parsed array of words */
char *cp;
struct word6 *beg, *end, /* Terminator markers */
*opnbrk = 0, *clsbrk = 0,
*slash = 0, *firstslash = 0,
*colon = 0, *dot = 0;
int absupath; /* TRUE if {dev:}/path... */
memset((char *)f, 0, sizeof(*f)); /* Clear entire structure */
/* Fill up parse array with words. */
if (!(cp = path))
return EINVAL;
--cp; /* Back up for PDP-10 efficiency */
wp = beg = &wd[0];
end = &wd[NFSCOMPS-1]; /* Last valid array entry */
for (; cp = getwd6(cp, wp);) {
switch (wp->term) {
case '[': if (opnbrk) return EINVAL;
opnbrk = wp; break;
case ']': if (clsbrk) return EINVAL;
clsbrk = wp; break;
case '.': if (dot) return EINVAL;
dot = wp; break;
case '/': if (!firstslash) firstslash = wp;
slash = wp; break;
case ':': colon = wp; break;
}
if (++wp >= end) /* Check # components, leave 1 at end */
return ENAMETOOLONG; /* File name too long */
}
if (wp->term) /* If stopped due to parse error, */
return wp->term; /* return that error. */
end = wp; /* Done, remember last word we got */
if (end->word == 0) /* If last thing has nothing, */
--end; /* back up to simplify things */
if (beg == end && !beg->word) /* If nothing parsed, */
return ENOENT; /* return "No such file" */
/* OK, now examine results! */
#if SYS_T10+SYS_CSI /* 1st component "node::"? */
if (colon) {
if (beg->term != ':') /* 1st thing better have colon term */
return EINVAL;
if (beg < end && (beg+1)->term == ':' && (beg+1)->word==0) {
f->fs_nod = beg->word; /* Yup, remember node name */
beg += 2; /* and move on to next component */
if (colon < beg) /* If that took care of last colon */
colon = NULL; /* needn't check for device. */
}
}
#endif
if (colon) { /* 1st component now "dev:"? */
if (colon != beg /* Could be, check... */
|| beg->term != ':' /* Avoid stuff like "foo/bar:" or ":foo" */
|| beg->word == 0)
return EINVAL; /* Bad device spec */
f->fs_dev = beg->word; /* OK, get it! */
if (++beg > end) /* Move over it, and return if no more */
return 0; /* win! */
}
/* Set flag if starts with absolute unix-style path */
absupath = (firstslash == beg && beg->word==0);
/* See whether we have a dreaded PPN and hack it if so */
if (opnbrk || clsbrk) { /* If have either of PPN delims, check. */
if (!opnbrk || !clsbrk /* unbalanced? */
|| opnbrk >= clsbrk /* backwards? */
|| absupath /* Conflicts with absolute unix path? */
|| (clsbrk != end /* Not at end of string */
&& (opnbrk != beg /* or at beginning? (if at beg, ensure */
|| opnbrk->word))) /* no preceding component) */
return EINVAL;
} else if (absupath) {
/* We have an absolute unix-style pathname, "/ppn ..." */
opnbrk = beg;
if (firstslash == slash) { /* Allow "/ppn" alone */
clsbrk = end;
slash = NULL;
} else { /* Must be "/ppn/..." */
for (clsbrk = beg; (++clsbrk)->term != '/'; )
if (clsbrk >= end)
return EINVAL; /* Didn't find it??? */
if (slash <= clsbrk) /* If this was last slash, */
slash = NULL; /* forget it, no upath. */
}
}
if (opnbrk) {
/* Seems OK, so hand off to a PPN parser. */
if (n = ppnparse(f, opnbrk, clsbrk))
return n; /* Failed, error of some kind. */
/* Won, so take PPN off string (either at beg or end) */
if (opnbrk == beg) beg = clsbrk+1;
else end = opnbrk;
if (beg > end) /* If that was all, */
return 0; /* we're done, win! */
}
/* beg-end inclusive now contain upath and/or filename.
** Check for existence of a upath (has slash) and handle if so.
** If PPN was parsed, f->fs_nfds will have # of directories
** that were already gobbled as part of absolute path.
** If no PPN was parsed, we need to ask monitor for current abs path.
*/
if (slash) { /* Have unix-style relative dir path? */
if (slash < beg || slash > end)
return EINVAL; /* Some weird syntax error */
if (!(n = f->fs_nfds)) { /* Already have abs part? */
/* No, must ask monitor where we currently are. */
#if SYS_T10+SYS_CSI
/* Ask for default directory path */
f->fs_path.p_arg = f->fs_dev ? f->fs_dev
: uuosym(".PTFRD");
if (!MUUO_AC("PATH.",
XWD(sizeof(f->fs_path)/sizeof(int), (int)&f->fs_path)))
return ENOENT; /* Some problem... */
if (!f->fs_path.p_path.ppn) /* ugh!! */
return ENOENT;
for (n = 0; f->fs_path.p_path.sfd[n]; ++n); /* # SFDs */
n++; /* Plus one for UFD */
#elif SYS_WTS /* Find current disk PPN */
WTSUUO_ACVAL("DSKPPN", 0, &(f->fs_path.p_path.ppn));
n = 1;
#endif
f->fs_nfds = n; /* Update count in filespec */
}
/* Now parse relative path, adding onto end of abs path. */
--n; /* Find # of SFDs so far */
for (;; ++beg) {
if (beg->term != '/')
break;
if (beg->word == 0) /* "...//..." is OK, just ignore */
continue;
if (beg->word == _SIXWRD(".") /* Ditto "/./" */
&& !beg->quoted)
continue;
if (beg->word == _SIXWRD("..")
&& !beg->quoted) {
if (--n < 0) return EINVAL; /* Don't allow "/ppn/../" */
f->fs_path.p_path.sfd[n] = 0; /* Restore terminating 0 */
--(f->fs_nfds);
continue;
}
if (n >= UIO_NSFDS) /* Check for exceeding nest depth */
return ENAMETOOLONG;
f->fs_path.p_path.sfd[n] = beg->word;
++n; /* Bump # of SFDs */
++(f->fs_nfds); /* and # of all FDs */
}
if (beg <= slash) /* Make sure that took care of all */
return EINVAL; /* slashes we saw! */
if (beg > end)
return 0; /* That's all, win! */
}
/* beg-end inclusive now should contain filename only.
** We may have any of these cases:
** 1 word: "name." "name[" "name"
** 2 words: "name. ext" ". ext"
** "name. ext[" ". ext["
*/
switch (end-beg) {
case 0: /* One word */
if (beg->term != '.'
&& beg->term != '['
&& beg->term)
return EINVAL;
f->fs_nam = beg->word;
break;
case 1: /* Two words */
if (beg->term != '.'
|| (end->term != '['
&& end->term != 0))
return EINVAL;
f->fs_nam = beg->word;
f->fs_ext = end->word;
if (f->fs_ext & _RHALF)
return ENAMETOOLONG; /* Extension too long */
break;
default:
return EINVAL; /* Some syntax error */
}
return 0; /* Won!! */
}
/* T10 File parsing utilities */
/* PPNPARSE - parse a PPN, with optional dirpath.
** "beg" points to the token BEFORE the PPN; its terminator will be
** either '/' or '['.
** "end" points to the last token of the PPN; its terminator should be
** one of '/', ']', or NUL.
** Returns zero if parse succeeded, else an error number to be passed to user.
*/
static int
ppnparse(f, beg, end)
struct _filespec *f;
struct word6 *beg, *end;
{
int term, cnt;
int lh, rh; /* Two halves of PPN */
static int defppn = 0; /* Default PPN if halves missing */
cnt = end - beg; /* Find # words in dirpath */
#if SYS_WTS
if (cnt < 1) /* On WAITS, permit [] or [FOO] */
#else
if (cnt < 2) /* Normal TOPS-10, 2 words always required! */
#endif
return EINVAL;
switch (term = beg->term) {
case '[': /* Standard PPN/dirpath syntax */
term = ']'; /* must end with this terminator */
break;
case '/': /* upath syntax must end with this one */
case 0: /* Permit "/23,45" case (NUL terminator) */
if (cnt > 2) /* But both are restricted to 2 wds only! */
return ENAMETOOLONG;
break;
default:
return EINVAL; /* Bad PPN starting delimiter */
}
if (end->term != term) /* Last word must have proper terminator */
return EINVAL;
++beg;
if (cnt > 1 && beg->term != ',') /* 1st wd of 2 must end in comma */
return EINVAL; /* Ugh, bad syntax */
/* Right-justify the first two SIXBIT words */
lh = rjust6(beg->word);
if (cnt > 1) rh = rjust6((++beg)->word);
if ((!lh || !rh) && !defppn) /* If will need default PPN, get it. */
#if SYS_T10+SYS_CSI
MUUO_VAL("GETPPN", &defppn); /* Use logged-in PPN as default */
/* Re-interpret the two SIXBIT words as octal numbers */
if (!lh) lh = FLDGET(defppn, _LHALF);
else lh = sixoct(lh); /* Will return -1 if bad number */
if (!rh) rh = FLDGET(defppn, _RHALF);
else rh = sixoct(rh);
if (lh < 0 || rh < 0)
return EINVAL; /* Non-numeric PPN */
#elif SYS_WTS
WTSUUO_VAL("DSKPPN", &defppn); /* Use connected PPN as default */
if (!lh) lh = FLDGET(defppn, _LHALF);
if (!rh) rh = FLDGET(defppn, _RHALF);
if ((lh & _LHALF) || (rh &_LHALF)) /* Ensure wds <= 3 chars long */
return ENAMETOOLONG; /* Ugh */
#endif
f->fs_path.p_path.ppn = XWD(lh,rh);
f->fs_nfds = 1; /* Say PPN parsed */
/* Now see if any SFDs follow the PPN */
if (cnt > 2) {
register int *ip;
if ((cnt -= 2) > UIO_NSFDS)
return ENAMETOOLONG; /* Too many SFDs */
ip = &(f->fs_path.p_path.sfd[0]);
while (--cnt >= 0) {
++beg;
if (cnt && beg->term != ',')
return EINVAL; /* Non-comma SFD separator! */
*ip++ = beg->word; /* Store SFD name */
++(f->fs_nfds); /* Bump count of dirs seen */
}
}
return 0;
}
/* RJUST6 - right-justify a SIXBIT value */
static int
rjust6(wd)
register unsigned wd;
{
if (wd)
while ((wd & 077) == 0)
wd >>= 6;
return wd;
}
/* SIXOCT - Interpret a right-justified SIXBIT word as an octal number,
** and return the value. Returns -1 if non-digit sixbit char seen.
*/
static int
sixoct(wd)
unsigned wd;
{
register int digit;
if (!wd)
return wd;
digit = (wd&077) - 020;
if (digit >= 0 && digit <= 7
&& (digit += ((unsigned)sixoct(wd>>6)<<3)) >= 0)
return digit;
return -1;
}
#define tosixbit(c) (((c & 0100) ? c|040 : c&~040)&077) /* Convert to SIXBIT */
/* GETWD6 - Scan a SIXBIT word, sets word6 struct and returns updated char ptr.
** Note special hacking for "." and ".." -- they are recognized only
** where meaningful. The caller can distinguish between these and
** explicitly quoted names by checking the "quoted" flag.
*/
static char *
getwd6(cp, wp)
register char *cp;
struct word6 *wp;
{
register int c, n = 0, shift = 36;
register unsigned wd = 0;
wp->quoted = 0;
for (;;) {
switch (c = *++cp) {
case '.': /* Special delimiter */
if (n == 0 && strchr("./[", cp[1])) { /* Chk . / [ or NUL */
if (cp[1] == '.' && strchr("/[", cp[2])) {
wp->word = _SIXWRD("..");
c = *(cp += (n = 2));
} else if (strchr("/[", cp[1])) {
wp->word = _SIXWRD(".");
c = *(cp += (n = 1));
}
}
case '\0': /* Is char a normal delimiter? */
case ':': case '/':
case '[': case ']':
case ',':
break; /* Yup, break out of loop to return */
#if UIO_FSWORDQUOT1
case UIO_FSWORDQUOT1:
#if UIO_FSWORDQUOT2
case UIO_FSWORDQUOT2:
#endif
if (n) /* If in middle of word, error. */
return wp->term = ENOENT, (char *)NULL; /* Bad filespec. */
for (;;) { /* Start gobbling a quoted word. */
if (!*++cp) /* If string ended before 2nd quote, */
return wp->term = ENOENT, (char *)NULL; /* Bad filespec. */
if (*cp == c /* Matches original quote char? */
&& *++cp == c) /* Yes, is it doubled? */
break; /* Yes, so stop loop! Else put in. */
if (++n <= 6) /* If have room, add to SIXBIT */
wd |= (unsigned) tosixbit(*cp) << (shift -= 6);
}
/* Check char following wd, must be valid terminator! */
if (strchr(".[,]/:", (c = *cp)) == NULL)
return wp->term = ENOENT, (char *)NULL; /* Bad filespec. */
break; /* Won, break from loop. */
#endif
#if UIO_FSCHARQUOT1
case UIO_FSCHARQUOT1:
#if UIO_FSCHARQUOT2
case UIO_FSCHARQUOT2: /* If it's quote char, */
#endif
c = *++cp; /* ignore it and always use next */
wp->quoted++;
#endif
default:
if (iscntrl(c)) { /* Don't allow control chars */
case ' ': /* or unquoted spaces */
wp->term = ENOENT; /* Bad filespec, barf. */
return NULL;
}
if (++n <= 6) /* If have room, add to SIXBIT */
wd |= (unsigned) tosixbit(c) << (shift -= 6);
continue;
}
break; /* Breaking from switch also breaks from loop */
}
wp->len = n; /* Won, return goodies */
wp->word = wd;
wp->term = c;
return (c ? cp : NULL);
}
static unsigned
sixbit(s)
register char *s;
{
register int c, n = 36;
register unsigned wd = 0;
c = *s;
do {
wd |= (unsigned)tosixbit(c) << (n -= 6);
} while ((c = *s++) && n >= 6);
return wd;
}
#endif /* SYS_T10+SYS_CSI+SYS_WTS */
#if SYS_ITS /* ITS OS-dependent file opening code */
static void cvt_filename(); /* Convert filename for SOPEN */
/* OPENSYS for ITS
*/
static int
opensys(uf, path, flags, mode)
struct _ufile *uf;
char *path;
int flags, mode;
{
int bits;
char realpath[FILENAME_SIZE+1];
char *realpath_ptr = realpath-1;
/* O_NDELAY: don't hang mode ignored for now */
/* Bits other than the ones listed here are not handled. */
switch (flags & ~(O_BINARY | O_CONVERTED | O_UNCONVERTED | O_BSIZE_MASK |
O_NDELAY | O_ITS_IMAGE | O_ITS_NO_IMAGE)) {
case (O_RDONLY):
bits = SC_IMC(_UAI);
uf->uf_flgs |= UIOF_OLD; /* If we win, it will be old! */
break;
case (O_WRONLY | O_CREAT | O_TRUNC):
bits = SC_IMC(_UAO);
break;
default: return EINVAL;
}
switch (flags & O_BSIZE_MASK) {
case O_BSIZE_7: uf->uf_bsize = 7; break;
case O_BSIZE_8: uf->uf_bsize = 8; break;
case O_BSIZE_9: uf->uf_bsize = 9; break;
default: uf->uf_bsize = (flags & O_BINARY) ? 9 : 7; break;
}
if (uf->uf_bsize == 7) {
/* Assume 7-bit bytes means ASCII, unless user explicitly asks */
/* for image mode: */
if (flags & O_ITS_IMAGE) bits |= _DOIMG;
} else {
/* Assume other byte sizes mean image mode, unless user */
/* explicitly says not to. Turn on block mode and signal */
/* handpacking in either case. */
bits |= ((flags & O_ITS_NO_IMAGE) ? _DOBLK : (_DOBLK | _DOIMG));
uf->uf_flgs |= UIOF_HANDPACK;
}
if ((flags & O_CONVERTED) ||
(uf->uf_bsize == 7 && !(flags & (O_UNCONVERTED | O_BINARY))))
uf->uf_flgs |= UIOF_CONVERTED;
if (strlen(path) > FILENAME_SIZE)
return ENAMETOOLONG;
cvt_filename(path, realpath);
if (SYSCALL3("sopen", bits, uf->uf_ch, &realpath_ptr))
return ENOENT;
uf->uf_type = _dvtype(uf->uf_ch);
if (uf->uf_type == _DVUSR) {
int uind;
SYSCALL3_LOSE("usrvar", uf->uf_ch, SC_SIX("uind"), SC_VAL(&uind));
uf->uf_dnum = SC_IMM(_JSNUM | uind);
}
return 0; /* Won, return without error! */
}
/*
* Convert an ITS filename to make it acceptable to SOPEN.
* "/" becomes ";"
* "." becomes space when embedded in name components
* tab becomes space
* ^Q inhibits the above
*/
static void cvt_filename(from, to)
char *from, *to;
{
char *ptr, *start;
int c, len;
strcpy(to, from);
ptr = to-1;
start = NULL;
do {
switch (c = *++ptr) {
case '/':
*ptr = ';';
case ';':
case ':':
start = NULL;
break;
case '\t':
*ptr = ' ';
case ' ':
case '\0':
if (start)
while (--len > 0)
switch (*++start) {
case '.': *start = ' '; break;
case '\021': ++start; break;
}
start = NULL;
break;
case '\021':
c = *++ptr;
default:
if (start) len++;
else { start = ptr; len = 0; }
break;
}
} while (c);
}
#endif /* SYS_ITS */
#if 0 /* OLD STUFF for T20/10X, no longer used. */
static char *
tnxprot(uprot, str)
int uprot;
char *str;
{
char *s = str;
*s++ = ';';
*s++ = 'P';
f = modprot(mode >> 6); /* user prots */
*s++ = (f >> 3) + '0';
*s++ = (f & 7) + '0';
f = modprot(mode >> 3); /* group prots */
*s++ = (f >> 3) + '0';
*s++ = (f & 7) + '0';
f = modprot(mode); /* other prots */
*s++ = (f >> 3) + '0';
*s++ = (f & 7) + '0';
return str;
}
/* Unix -> T20/10X file protection conversion
*/
static int
modprot(mod)
int mod;
{
int prot = 0;
if (mod & 1) prot |= 012; /* execute (and list) access */
if (mod & 2) prot |= 027; /* write and append access */
if (mod & 4) prot |= 042; /* read (and list) access */
return prot;
}
/* --------------------------------------------------------------------- */
/* jacket routine for GTJFN% to mung filenames into submission */
/* --------------------------------------------------------------------- */
int _gtjfn(name, flags)
char *name;
{
char dirpart[80], filpart[80], *dirptr, *filptr, *_dirst();
int anydir, indir; /* marker for dir part changed */
anydir = 0; /* dir part remains default */
indir = 0; /* assume not in directory part */
dirpart[0] = 'D'; /* start off with directory part */
dirpart[1] = 'S'; /* pointing to "DSK:" */
dirpart[2] = 'K';
dirpart[3] = ':';
dirptr = &dirpart[3]; /* point to just before the end */
filptr = &filpart[-1]; /* of dir and file parts */
while (1) {
switch (*name) {
case '\0': /* run out of chars? */
*++filptr = 0; /* yes, null terminate */
filptr = &filpart[-1]; /* start at top again */
while (*++dirptr = *++filptr) ; /* append to dir part */
return gtjfn_(dirpart, flags); /* do low level lookup */
case ':':
if (anydir) return -1; /* already have dir, lose */
anydir = 1; /* now we have one */
*++filptr = '\0'; /* terminate file part */
dirptr = &dirpart[-1]; /* start at top */
filptr = &filpart[-1]; /* top of filename part */
while (*++dirptr = *++filptr); /* copy across */
*dirptr = ':'; /* put the colon on */
filptr = &filpart[-1]; /* reinitialize file pointer */
break;
case '[':
case '<':
*++filptr = '<'; /* open bracket becomes angle */
indir = 1; /* remember we're in dir part */
break;
case '.':
if (indir < 0) *++filptr = '\026'; /* quote extra dots */
else if (indir == 0) indir = -1; /* only allow one in file */
*++filptr = '.'; /* add the dot */
break;
case '>':
case ']':
if (*dirptr != ':') return -1; /* already have dir, lose */
anydir = 1; /* remember we have a dir and dev */
indir = 0; /* no longer in dir part */
*++filptr = '\0'; /* terminate file part */
filptr = &filpart[-1]; /* top of filename part */
while (*++dirptr = *++filptr); /* copy across */
*dirptr = '>'; /* add the close bracket */
filptr = &filpart[-1]; /* reinitialize file pointer */
break;
case '\026': /* control-V? */
case '\\': /* or quoteing backslash? */
*++filptr = '\026'; /* yes, add it */
*++filptr = *++name; /* and the next char */
break;
case '/': /* slash UNIX dir delimiter? */
indir = 0; /* yes, no longer in dir part */
*(dirptr+1) = '\0'; /* yes, terminate directory part */
*++filptr = '\0'; /* and filename part */
switch (filpart[0]) { /* check out first part of name */
case '.': /* period? */
switch (filpart[1]) { /* yes, look at what follows */
case '\0': /* ./x ? */
name++; /* yes, skip slash */
filptr = &filpart[-1]; /* start again in file part */
continue; /* and ignore this dir part */
default:
return -1; /* .x/y loses */
case '\026': /* maybe ..? */
break; /* yes, handle outside switch */
}
/* dir starts with .. - hack superdirectory */
if (filpart[2] != '.' || filpart[3] != '\0') return -1;
if (*dirptr != '>') { /* do we have a real dir part? */
dirptr = _dirst(dirpart); /* no, fix it up */
if (dirptr == NULL) return -1; /* lost */
}
while (*--dirptr != '.' && *dirptr != ':') ; /* find delim */
if (*dirptr == '.') { /* found subdir start? */
*dirptr = '>'; /* turn into dir end */
name++; /* skip over slash */
filptr = &filpart[-1]; /* forget .. */
continue; /* on with the show */
}
/* no subdirs, move back to dev:<root-dir> */
case '\0': /* no name, want root dir */
if (*dirptr != ':') return -1; /* must have only dev */
filptr = "<ROOT-DIRECTORY" - 1; /* point to dir part */
break;
default:
if (*dirptr != '>') {
dirptr = _dirst(dirpart); /* fix up filename */
if (dirptr == NULL) return -1; /* lost */
}
*dirptr = '.'; /* drop period over close bracket */
filptr = &filpart[-1]; /* normal name, just use it */
}
while (*++dirptr = *++filptr) ; /* append name */
*dirptr = '>'; /* and close bracket */
filptr = &filpart[-1]; /* restart file part */
break;
default:
*++filptr = *name; /* normal char, add to file part */
break;
}
name++; /* move on to next char */
}
}
#endif /* Commented-out stuff */
#endif /* T20+10X+T10+CSI+WAITS+ITS */