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/*
Copyright (C) 1990-1993 Mark Adler, Richard B. Wales, Jean-loup Gailly,
Kai Uwe Rommel and Igor Mandrichenko.
Permission is granted to any individual or institution to use, copy, or
redistribute this software so long as all of the original files are included,
that it is not sold for profit, and that this copyright notice is retained.
*/
/*
* zipfile.c by Mark Adler.
*/
#define NOCPYRT /* this is not a main module */
#include "zip.h"
#include "revision.h"
#ifdef VMS
# include "VMSmunch.h"
# include <rms.h>
#endif
/* Macros for converting integers in little-endian to machine format */
#define SH(a) (((ush)(uch)(a)[0]) | (((ush)(uch)(a)[1]) << 8))
#define LG(a) ((ulg)SH(a) | ((ulg)SH((a)+2) << 16))
/* Macros for writing machine integers to little-endian format */
#define PUTSH(a,f) {putc((char)(a) & 0xff,(f)); putc((char)((a) >> 8),(f));}
#define PUTLG(a,f) {PUTSH((a) & 0xffff,f) PUTSH((a) >> 16,f)}
/* -- Structure of a ZIP file -- */
/* Signatures for zip file information headers */
#define LOCSIG 0x04034b50L
#define CENSIG 0x02014b50L
#define ENDSIG 0x06054b50L
#define EXTLOCSIG 0x08074b50L
/* Offsets of values in headers */
#define LOCVER 0 /* version needed to extract */
#define LOCFLG 2 /* encrypt, deflate flags */
#define LOCHOW 4 /* compression method */
#define LOCTIM 6 /* last modified file time, DOS format */
#define LOCDAT 8 /* last modified file date, DOS format */
#define LOCCRC 10 /* uncompressed crc-32 for file */
#define LOCSIZ 14 /* compressed size in zip file */
#define LOCLEN 18 /* uncompressed size */
#define LOCNAM 22 /* length of filename */
#define LOCEXT 24 /* length of extra field */
#define EXTCRC 0 /* uncompressed crc-32 for file */
#define EXTSIZ 4 /* compressed size in zip file */
#define EXTLEN 8 /* uncompressed size */
#define CENVEM 0 /* version made by */
#define CENVER 2 /* version needed to extract */
#define CENFLG 4 /* encrypt, deflate flags */
#define CENHOW 6 /* compression method */
#define CENTIM 8 /* last modified file time, DOS format */
#define CENDAT 10 /* last modified file date, DOS format */
#define CENCRC 12 /* uncompressed crc-32 for file */
#define CENSIZ 16 /* compressed size in zip file */
#define CENLEN 20 /* uncompressed size */
#define CENNAM 24 /* length of filename */
#define CENEXT 26 /* length of extra field */
#define CENCOM 28 /* file comment length */
#define CENDSK 30 /* disk number start */
#define CENATT 32 /* internal file attributes */
#define CENATX 34 /* external file attributes */
#define CENOFF 38 /* relative offset of local header */
#define ENDDSK 0 /* number of this disk */
#define ENDBEG 2 /* number of the starting disk */
#define ENDSUB 4 /* entries on this disk */
#define ENDTOT 6 /* total number of entries */
#define ENDSIZ 8 /* size of entire central directory */
#define ENDOFF 12 /* offset of central on starting disk */
#define ENDCOM 16 /* length of zip file comment */
/* Local functions */
local int zqcmp OF((const voidp *, const voidp *));
# ifndef UTIL
local int rqcmp OF((const voidp *, const voidp *));
local int zbcmp OF((const voidp *, const voidp far *));
local void cutpath OF((char *p));
# endif /* !UTIL */
local int zqcmp(a, b)
const voidp *a, *b; /* pointers to pointers to zip entries */
/* Used by qsort() to compare entries in the zfile list.
* Compares the internal names z->zname */
{
return namecmp((*(struct zlist far **)a)->zname,
(*(struct zlist far **)b)->zname);
}
#ifndef UTIL
local int rqcmp(a, b)
const voidp *a, *b; /* pointers to pointers to zip entries */
/* Used by qsort() to compare entries in the zfile list.
* Compare the internal names z->zname, but in reverse order. */
{
return namecmp((*(struct zlist far **)b)->zname,
(*(struct zlist far **)a)->zname);
}
local int zbcmp(n, z)
const voidp *n; /* string to search for */
const voidp far *z; /* pointer to a pointer to a zip entry */
/* Used by search() to compare a target to an entry in the zfile list. */
{
return namecmp((char *)n, ((struct zlist far *)z)->zname);
}
struct zlist far *zsearch(n)
char *n; /* name to find */
/* Return a pointer to the entry in zfile with the name n, or NULL if
not found. */
{
voidp far **p; /* result of search() */
if (zcount && (p = search(n, (voidp far **)zsort, zcount, zbcmp)) != NULL)
return *(struct zlist far **)p;
else
return NULL;
}
#endif /* !UTIL */
#ifndef VMS
# define PATHCUT '/'
char *ziptyp(s)
char *s; /* file name to force to zip */
/* If the file name *s has a dot (other than the first char), then return
the name, otherwise append .zip to the name. Allocate the space for
the name in either case. Return a pointer to the new name, or NULL
if malloc() fails. */
{
char *q; /* temporary pointer */
char *t; /* pointer to malloc'ed string */
if ((t = malloc(strlen(s) + 5)) == NULL)
return NULL;
strcpy(t, s);
#ifdef __human68k__
_toslash(t);
#endif
#ifdef MSDOS
for (q = t; *q; q++)
if (*q == '\\')
*q = '/';
#endif /* MSDOS */
#ifdef AMIGA
if ((q = strrchr(t, '/')) == NULL)
q = strrchr(t, ':');
if (strrchr((q ? q + 1 : t), '.') == NULL)
#else /* !AMIGA */
if (strrchr((q = strrchr(t, PATHCUT)) == NULL ? t : q + 1, '.') == NULL)
#endif /* ?AMIGA */
strcat(t, ".zip");
return t;
}
#else /* VMS */
# define PATHCUT ']'
char *ziptyp(s)
char *s;
{ int status;
struct FAB fab;
struct NAM nam;
static char zero=0;
char result[NAM$C_MAXRSS+1],exp[NAM$C_MAXRSS+1];
char *p;
fab = cc$rms_fab;
nam = cc$rms_nam;
fab.fab$l_fna = s;
fab.fab$b_fns = strlen(fab.fab$l_fna);
fab.fab$l_dna = "sys$disk:[].zip"; /* Default fspec */
fab.fab$b_dns = strlen(fab.fab$l_dna);
fab.fab$l_nam = &nam;
nam.nam$l_rsa = result; /* Put resultant name of */
nam.nam$b_rss = sizeof(result)-1; /* existing zipfile here */
nam.nam$l_esa = exp; /* For full spec of */
nam.nam$b_ess = sizeof(exp)-1; /* file to create */
status = sys$parse(&fab);
if( (status & 1) == 0 )
return &zero;
status = sys$search(&fab);
if( status & 1 )
{ /* Existing ZIP file */
int l;
if( (p=malloc( (l=nam.nam$b_rsl) + 1 )) != NULL )
{ result[l] = 0;
strcpy(p,result);
}
}
else
{ /* New ZIP file */
int l;
if( (p=malloc( (l=nam.nam$b_esl) + 1 )) != NULL )
{ exp[l] = 0;
strcpy(p,exp);
}
}
return p;
}
#endif /* VMS */
int readzipfile()
/*
Make first pass through zip file, reading information from local file
headers and then verifying that information with the central file
headers. Any deviation from the expected zip file format returns an
error. At the end, a sorted list of file names in the zip file is made
to facilitate searching by name.
The name of the zip file is pointed to by the global "zipfile". The
globals zfiles, zcount, zcomlen, zcomment, and zsort are filled in.
Return an error code in the ZE_ class.
*/
{
ulg a = 0L; /* attributes returned by filetime() */
char b[CENHEAD]; /* buffer for central headers */
FILE *f; /* zip file */
ush flg; /* general purpose bit flag */
int m; /* mismatch flag */
extent n; /* length of name */
ulg p; /* current file offset */
char r; /* holds reserved bits during memcmp() */
ulg s; /* size of data, start of central */
char *t; /* temporary variable */
char far *u; /* temporary variable */
struct zlist far * far *x; /* pointer last entry's link */
struct zlist far *z; /* current zip entry structure */
ulg temp; /* required to avoid Coherent compiler bug */
/* Initialize zip file info */
zipbeg = 0;
zfiles = NULL; /* Points to first header */
zcomlen = 0; /* zip file comment length */
/* If zip file exists, read headers and check structure */
#ifdef VMS
if (zipfile == NULL || !(*zipfile) || !strcmp(zipfile, "-"))
return ZE_OK;
{
int rtype;
VMSmunch(zipfile, GET_RTYPE, (char *)&rtype);
if (rtype == FAT$C_VARIABLE) {
fprintf(stderr,
"\n Error: zipfile is in variable-length record format. Please\n\
run \"bilf b %s\" to convert the zipfile to fixed-length\n\
record format. (Bilf.exe, bilf.c and make_bilf.com are included\n\
in the VMS UnZip distribution.)\n\n", zipfile);
return ZE_FORM;
}
}
if ((f = fopen(zipfile, FOPR)) != NULL)
#else /* !VMS */
if (zipfile != NULL && *zipfile && strcmp(zipfile, "-") &&
(f = fopen(zipfile, FOPR)) != NULL)
#endif /* ?VMS */
{
/* Get any file attribute valid for this OS, to set in the central
* directory when fixing the archive:
*/
#ifndef UTIL
if (fix)
filetime(zipfile, &a, (long*)&s);
#endif
x = &zfiles; /* first link */
p = 0; /* starting file offset */
zcount = 0; /* number of files */
/* Find start of zip structures */
for (;;) {
while ((m = getc(f)) != EOF && m != 'P') p++;
b[0] = (char) m;
if (fread(b+1, 3, 1, f) != 1 || (s = LG(b)) == LOCSIG || s == ENDSIG)
break;
if (fseek(f, -3L, SEEK_CUR))
return ferror(f) ? ZE_READ : ZE_EOF;
p++;
}
zipbeg = p;
/* Read local headers */
while (LG(b) == LOCSIG)
{
/* Read local header raw to compare later with central header
(this requires that the offest of ext in the zlist structure
be greater than or equal to LOCHEAD) */
if ((z = (struct zlist far *)farmalloc(sizeof(struct zlist))) == NULL)
return ZE_MEM;
if (fread(b, LOCHEAD, 1, f) != 1) {
if (fix)
break;
else
return ferror(f) ? ZE_READ : ZE_EOF;
}
if (fix) {
z->ver = SH(LOCVER + b);
z->vem = dosify ? 20 : OS_CODE + REVISION;
z->dosflag = dosify;
flg = z->flg = z->lflg = SH(LOCFLG + b);
z->how = SH(LOCHOW + b);
z->tim = LG(LOCTIM + b); /* time and date into one long */
z->crc = LG(LOCCRC + b);
z->siz = LG(LOCSIZ + b);
z->len = LG(LOCLEN + b);
n = z->nam = SH(LOCNAM + b);
z->cext = z->ext = SH(LOCEXT + b);
z->com = 0;
z->dsk = 0;
z->att = 0;
z->atx = dosify ? a & 0xff : a; /* Attributes from filetime() */
z->mark = 0;
z->trash = 0;
s = fix > 1 ? 0L : z->siz; /* discard compressed size with -FF */
} else {
t = b; u = (char far *)z; n = LOCHEAD;
do {
*u++ = *t++;
} while (--n);
z->ext = SH(LOCEXT + (uch far *)z);
n = SH(LOCNAM + (uch far *)z);
flg = SH(b+LOCFLG);
s = LG(LOCSIZ + (uch far *)z);
}
/* Link into list */
*x = z;
z->nxt = NULL;
x = &z->nxt;
/* Read file name and extra field and skip data */
if (n == 0)
{
sprintf(errbuf, "%d", zcount + 1);
warn("zero-length name for entry #", errbuf);
#ifndef DEBUG
return ZE_FORM;
#endif
}
if ((z->zname = malloc(n+1)) == NULL ||
(z->ext && (z->extra = malloc(z->ext)) == NULL))
return ZE_MEM;
if (fread(z->zname, n, 1, f) != 1 ||
(z->ext && fread(z->extra, z->ext, 1, f) != 1) ||
(s && fseek(f, (long)s, SEEK_CUR)))
return ferror(f) ? ZE_READ : ZE_EOF;
/* If there is an extended local header, s is either 0 or
* the correct compressed size.
*/
z->zname[n] = 0; /* terminate name */
if (fix) {
z->cextra = z->extra;
if (noisy) fprintf(mesg, "zip: reading %s\n", z->zname);
}
#ifdef UTIL
z->name = z->zname; /* !!! to be checked */
#else /* !UTIL */
z->name = in2ex(z->zname); /* convert to external name */
if (z->name == NULL)
return ZE_MEM;
#endif /* ?UTIL */
/* Save offset, update for next header */
z->off = p;
p += 4 + LOCHEAD + n + z->ext + s;
zcount++;
/* Skip extended local header if there is one */
if ((flg & 8) != 0) {
/* Skip the compressed data if compressed size is unknown.
* For safety, we should use the central directory.
*/
if (s == 0) {
for (;;) {
while ((m = getc(f)) != EOF && m != 'P') ;
b[0] = (char) m;
if (fread(b+1, 15, 1, f) != 1 || LG(b) == EXTLOCSIG)
break;
if (fseek(f, -15L, SEEK_CUR))
return ferror(f) ? ZE_READ : ZE_EOF;
}
s = LG(4 + EXTSIZ + b);
p += s;
if ((ulg) ftell(f) != p+16L) {
warn("bad extended local header for ", z->zname);
return ZE_FORM;
}
} else {
/* compressed size non zero, assume that it is valid: */
Assert(p == ftell(f), "bad compressed size with extended header");
if (fseek(f, p, SEEK_SET) || fread(b, 16, 1, f) != 1)
return ferror(f) ? ZE_READ : ZE_EOF;
if (LG(b) != EXTLOCSIG) {
warn("extended local header not found for ", z->zname);
return ZE_FORM;
}
}
/* overwrite the unknown values of the local header: */
if (fix) {
/* already in host format */
z->crc = LG(4 + EXTCRC + b);
z->siz = s;
z->len = LG(4 + EXTLEN + b);
} else {
/* Keep in Intel format for comparison with central header */
t = b+4; u = (char far *)z+LOCCRC; n = 12;
do {
*u++ = *t++;
} while (--n);
}
p += 16L;
}
else if (fix > 1) {
/* Don't trust the compressed size */
for (;;) {
while ((m = getc(f)) != EOF && m != 'P') p++;
b[0] = (char) m;
if (fread(b+1, 3, 1, f) != 1 || (s = LG(b)) == LOCSIG || s == CENSIG)
break;
if (fseek(f, -3L, SEEK_CUR))
return ferror(f) ? ZE_READ : ZE_EOF;
p++;
}
s = p - (z->off + 4 + LOCHEAD + n + z->ext);
if (s != z->siz) {
fprintf(stderr, " compressed size %ld, actual size %ld for %s\n",
z->siz, s, z->zname);
z->siz = s;
}
/* next LOCSIG already read at this point, don't read it again: */
continue;
}
/* Read next signature */
if (fread(b, 4, 1, f) != 1) {
if (fix)
break;
else
return ferror(f) ? ZE_READ : ZE_EOF;
}
}
/* Point to start of header list and read central headers */
z = zfiles;
s = p; /* save start of central */
if (fix) {
if (LG(b) != CENSIG && noisy) {
fprintf(mesg, "zip warning: %s %s truncated.\n", zipfile,
fix > 1 ? "has been" : "would be");
if (fix == 1) {
fprintf(mesg,
"Retry with option -qF to truncate, with -FF to attempt full recovery\n");
err(ZE_FORM, NULL);
}
}
} else while (LG(b) == CENSIG)
{
if (z == NULL)
{
warn("extraneous central header signature", "");
return ZE_FORM;
}
/* Read central header */
if (fread(b, CENHEAD, 1, f) != 1)
return ferror(f) ? ZE_READ : ZE_EOF;
/* Compare local header with that part of central header (except
for the reserved bits in the general purpose flags and except
for length of extra fields--authentication can make these
different in central and local headers) */
z->lflg = SH(LOCFLG + (uch far *)z); /* Save reserved bits */
r = b[CENFLG+1];
((uch far *)z)[LOCFLG+1] &= 0x1f; /* Zero out reserved bits */
b[CENFLG+1] &= 0x1f;
for (m = 0, u = (char far *)z, n = 0; n < LOCHEAD - 2; n++)
if (u[n] != b[n+2])
{
if (!m && noisy)
warn("local and central headers differ for ", z->zname);
m = 1;
sprintf(errbuf, " offset %d--local = %02x, central = %02x",
n, (uch)u[n], (uch)b[n+2]);
if (noisy) warn(errbuf, "");
b[n+2] = u[n]; /* fix the zipfile */
}
if (m)
return ZE_FORM;
b[CENFLG+1] = r; /* Restore reserved bits */
/* Overwrite local header with translated central header */
z->vem = SH(CENVEM + b);
z->ver = SH(CENVER + b);
z->flg = SH(CENFLG + b); /* may be different from z->lflg */
z->how = SH(CENHOW + b);
z->tim = LG(CENTIM + b); /* time and date into one long */
z->crc = LG(CENCRC + b);
z->siz = LG(CENSIZ + b);
z->len = LG(CENLEN + b);
z->nam = SH(CENNAM + b);
z->cext = SH(CENEXT + b); /* may be different from z->ext */
z->com = SH(CENCOM + b);
z->dsk = SH(CENDSK + b);
z->att = SH(CENATT + b);
z->atx = LG(CENATX + b);
z->dosflag = (z->vem & 0xff00) == 0;
temp = LG(CENOFF + b); /* to avoid Coherent compiler bug */
if (z->off != temp) {
warn("local offset in central header incorrect for ", z->zname);
return ZE_FORM;
}
/* Compare name and extra fields and read comment field */
if ((t = malloc(z->nam)) == NULL)
return ZE_MEM;
if (fread(t, z->nam, 1, f) != 1)
{
free((voidp *)t);
return ferror(f) ? ZE_READ : ZE_EOF;
}
if (memcmp(t, z->zname, z->nam))
{
free((voidp *)t);
warn("names in local and central differ for ", z->zname);
return ZE_FORM;
}
free((voidp *)t);
if (z->cext)
{
if ((z->cextra = malloc(z->cext)) == NULL)
return ZE_MEM;
if (fread(z->cextra, z->cext, 1, f) != 1)
{
free((voidp *)(z->cextra));
return ferror(f) ? ZE_READ : ZE_EOF;
}
if (z->ext == z->cext && memcmp(z->extra, z->cextra, z->ext) == 0)
{
free((voidp *)(z->cextra));
z->cextra = z->extra;
}
}
if (z->com)
{
if ((z->comment = malloc(z->com)) == NULL)
return ZE_MEM;
if (fread(z->comment, z->com, 1, f) != 1)
{
free((voidp *)(z->comment));
return ferror(f) ? ZE_READ : ZE_EOF;
}
}
/* Note oddities */
if (verbose)
{
if (z->vem != 10 && z->vem != 11 && z->vem != 20 &&
(n = z->vem >> 8) != 3 && n != 2 && n != 6 && n != 0)
{
sprintf(errbuf, "made by version %d.%d on system type %d: ",
(ush)(z->vem & 0xff) / (ush)10,
(ush)(z->vem & 0xff) % (ush)10, z->vem >> 8);
warn(errbuf, z->zname);
}
if (z->ver != 10 && z->ver != 11 && z->ver != 20)
{
sprintf(errbuf, "needs unzip %d.%d on system type %d: ",
(ush)(z->ver & 0xff) / (ush)10,
(ush)(z->ver & 0xff) % (ush)10, z->ver >> 8);
warn(errbuf, z->zname);
}
if (z->flg != z->lflg)
{
sprintf(errbuf, "local flags = 0x%04x, central = 0x%04x: ",
z->lflg, z->flg);
warn(errbuf, z->zname);
}
else if (z->flg & ~0xf)
{
sprintf(errbuf, "undefined bits used in flags = 0x%04x: ", z->flg);
warn(errbuf, z->zname);
}
if (z->how > DEFLATE)
{
sprintf(errbuf, "unknown compression method %u: ", z->how);
warn(errbuf, z->zname);
}
if (z->dsk)
{
sprintf(errbuf, "starts on disk %u: ", z->dsk);
warn(errbuf, z->zname);
}
if (z->att & ~1)
{
sprintf(errbuf, "unknown internal attributes = 0x%04x: ", z->att);
warn(errbuf, z->zname);
}
if (((n = z->vem >> 8) != 3) && n != 2 && z->atx & ~0xffL)
{
sprintf(errbuf, "unknown external attributes = 0x%08lx: ", z->atx);
warn(errbuf, z->zname);
}
if (z->ext || z->cext)
if (z->ext == z->cext && z->extra == z->cextra)
{
sprintf(errbuf, "has %d bytes of extra data: ", z->ext);
warn(errbuf, z->zname);
}
else
{
sprintf(errbuf,
"local extra (%d bytes) != central extra (%d bytes): ",
z->ext, z->cext);
warn(errbuf, z->zname);
}
}
/* Clear actions */
z->mark = 0;
z->trash = 0;
/* Update file offset */
p += 4 + CENHEAD + z->nam + z->cext + z->com;
/* Advance to next header structure */
z = z->nxt;
/* Read next signature */
if (fread(b, 4, 1, f) != 1)
return ferror(f) ? ZE_READ : ZE_EOF;
}
/* Read end header */
if (!fix) {
if (z != NULL || LG(b) != ENDSIG)
{
warn("missing end signature--probably not a zip file (did you", "");
warn("remember to use binary mode when you transferred it?)", "");
return ZE_FORM;
}
if (fread(b, ENDHEAD, 1, f) != 1)
return ferror(f) ? ZE_READ : ZE_EOF;
if (SH(ENDDSK + b) || SH(ENDBEG + b) ||
SH(ENDSUB + b) != SH(ENDTOT + b))
warn("multiple disk information ignored", "");
if (zcount != SH(ENDSUB + b))
{
warn("count in end of central directory incorrect", "");
return ZE_FORM;
}
temp = LG(ENDSIZ + b);
if (temp != p - s)
{
warn("central directory size is incorrect (made by stzip?)", "");
/* stzip 0.9 gets this wrong, so be tolerant */
/* return ZE_FORM; */
}
temp = LG(ENDOFF + b);
if (temp != s)
{
warn("central directory start is incorrect", "");
return ZE_FORM;
}
}
cenbeg = s;
zcomlen = fix ? 0 : SH(ENDCOM + b);
if (zcomlen)
{
if ((zcomment = malloc(zcomlen)) == NULL)
return ZE_MEM;
if (fread(zcomment, zcomlen, 1, f) != 1)
{
free((voidp *)zcomment);
return ferror(f) ? ZE_READ : ZE_EOF;
}
}
if (zipbeg)
{
sprintf(errbuf, " has a preamble of %ld bytes", zipbeg);
warn(zipfile, errbuf);
}
if (!fix && getc(f) != EOF)
warn("garbage at end of zip file ignored", "");
/* Done with zip file for now */
fclose(f);
/* If one or more files, sort by name */
if (zcount)
{
if ((x = zsort =
(struct zlist far **)malloc(zcount * sizeof(struct zlist far *))) ==
NULL)
return ZE_MEM;
for (z = zfiles; z != NULL; z = z->nxt)
*x++ = z;
qsort((char *)zsort, zcount, sizeof(struct zlist far *), zqcmp);
}
}
return ZE_OK;
}
int putlocal(z, f)
struct zlist far *z; /* zip entry to write local header for */
FILE *f; /* file to write to */
/* Write a local header described by *z to file *f. Return an error code
in the ZE_ class. */
{
PUTLG(LOCSIG, f);
PUTSH(z->ver, f);
PUTSH(z->lflg, f);
PUTSH(z->how, f);
PUTLG(z->tim, f);
PUTLG(z->crc, f);
PUTLG(z->siz, f);
PUTLG(z->len, f);
PUTSH(z->nam, f);
PUTSH(z->ext, f);
if (fwrite(z->zname, 1, z->nam, f) != z->nam ||
(z->ext && fwrite(z->extra, 1, z->ext, f) != z->ext))
return ZE_TEMP;
return ZE_OK;
}
int putextended(z, f)
struct zlist far *z; /* zip entry to write local header for */
FILE *f; /* file to write to */
/* Write an extended local header described by *z to file *f.
* Return an error code in the ZE_ class. */
{
PUTLG(EXTLOCSIG, f);
PUTLG(z->crc, f);
PUTLG(z->siz, f);
PUTLG(z->len, f);
return ZE_OK;
}
int putcentral(z, f)
struct zlist far *z; /* zip entry to write central header for */
FILE *f; /* file to write to */
/* Write a central header described by *z to file *f. Return an error code
in the ZE_ class. */
{
PUTLG(CENSIG, f);
PUTSH(z->vem, f);
PUTSH(z->ver, f);
PUTSH(z->flg, f);
PUTSH(z->how, f);
PUTLG(z->tim, f);
PUTLG(z->crc, f);
PUTLG(z->siz, f);
PUTLG(z->len, f);
PUTSH(z->nam, f);
PUTSH(z->cext, f);
PUTSH(z->com, f);
PUTSH(z->dsk, f);
PUTSH(z->att, f);
PUTLG(z->atx, f);
PUTLG(z->off, f);
if (fwrite(z->zname, 1, z->nam, f) != z->nam ||
(z->cext && fwrite(z->cextra, 1, z->cext, f) != z->cext) ||
(z->com && fwrite(z->comment, 1, z->com, f) != z->com))
return ZE_TEMP;
return ZE_OK;
}
int putend(n, s, c, m, z, f)
int n; /* number of entries in central directory */
ulg s; /* size of central directory */
ulg c; /* offset of central directory */
extent m; /* length of zip file comment (0 if none) */
char *z; /* zip file comment if m != 0 */
FILE *f; /* file to write to */
/* Write the end of central directory data to file *f. Return an error code
in the ZE_ class. */
{
PUTLG(ENDSIG, f);
PUTSH(0, f);
PUTSH(0, f);
PUTSH(n, f);
PUTSH(n, f);
PUTLG(s, f);
PUTLG(c, f);
PUTSH(m, f);
if (m && fwrite(z, 1, m, f) != m)
return ZE_TEMP;
return ZE_OK;
}
#ifndef UTIL
local void cutpath(p)
char *p; /* path string */
/* Cut the last path component off the name *p in place.
* This should work on both internal and external names.
*/
{
char *r; /* pointer to last path delimiter */
#ifdef VMS /* change [w.x.y]z to [w.x]y.DIR */
if ((r = strrchr(p, ']')) != NULL)
{
*r = 0;
if ((r = strrchr(p, '.')) != NULL)
{
*r = ']';
strcat(r, ".DIR;1"); /* this assumes a little padding--see PAD */
} else {
*p = 0;
}
} else {
*p = 0;
}
#endif /* ?VMS */
if ((r = strrchr(p, '/')) != NULL)
*r = 0;
else
*p = 0;
}
int trash()
/* Delete the compressed files and the directories that contained the deleted
files, if empty. Return an error code in the ZE_ class. Failure of
destroy() or deletedir() is ignored. */
{
extent i; /* counter on deleted names */
extent n; /* number of directories to delete */
struct zlist far **s; /* table of zip entries to handle, sorted */
struct zlist far *z; /* current zip entry */
/* Delete marked names and count directories */
n = 0;
for (z = zfiles; z != NULL; z = z->nxt)
if (z->mark || z->trash)
{
z->mark = 1;
if (z->zname[z->nam - 1] != '/') { /* don't unlink directory */
if (verbose)
fprintf(mesg, "zip diagnostic: trashing file %s\n", z->name);
destroy(z->name);
/* Try to delete all paths that lead up to marked names. This is
* necessary only without the -D option.
*/
if (!dirnames) {
cutpath(z->name);
cutpath(z->zname);
if (z->zname[0] != '\0') {
strcat(z->zname, "/");
}
z->nam = strlen(z->zname);
if (z->nam > 0) n++;
}
} else {
n++;
}
}
/* Construct the list of all marked directories. Some may be duplicated
* if -D was used.
*/
if (n)
{
if ((s = (struct zlist far **)malloc(n*sizeof(struct zlist far *))) ==
NULL)
return ZE_MEM;
n = 0;
for (z = zfiles; z != NULL; z = z->nxt) {
if (z->mark && z->nam > 0 && z->zname[z->nam - 1] == '/'
&& (n == 0 || strcmp(z->zname, s[n-1]->zname) != 0)) {
s[n++] = z;
}
}
/* Sort the files in reverse order to get subdirectories first.
* To avoid problems with strange naming conventions as in VMS,
* we sort on the internal names, so x/y/z will always be removed
* before x/y. On VMS, x/y/z > x/y but [x.y.z] < [x.y]
*/
qsort((char *)s, n, sizeof(struct zlist far *), rqcmp);
for (i = 0; i < n; i++) {
char *p = s[i]->name;
if (*p == '\0') continue;
if (p[strlen(p) - 1] == '/') { /* keep VMS [x.y]z.dir;1 intact */
p[strlen(p) - 1] = '\0';
}
if (i == 0 || strcmp(s[i]->zname, s[i-1]->zname) != 0) {
if (verbose) {
fprintf(mesg, "zip diagnostic: trashing directory %s (if empty)\n",
s[i]->name);
}
deletedir(s[i]->name);
}
}
free((voidp *)s);
}
return ZE_OK;
}
#endif /* !UTIL */
These are the contents of the former NiCE NeXT User Group NeXTSTEP/OpenStep software archive, currently hosted by Netfuture.ch.