kolibrios/programs/fs/unzip60/os2/os2.c
siemargl e9b1c1bac6 unzip initial commit
git-svn-id: svn://kolibrios.org@6725 a494cfbc-eb01-0410-851d-a64ba20cac60
2016-11-18 13:40:05 +00:00

2413 lines
76 KiB
C

/*
Copyright (c) 1990-2007 Info-ZIP. All rights reserved.
See the accompanying file LICENSE, version 2000-Apr-09 or later
(the contents of which are also included in zip.h) for terms of use.
If, for some reason, both of these files are missing, the Info-ZIP license
also may be found at: ftp://ftp.info-zip.org/pub/infozip/license.html
*/
/*---------------------------------------------------------------------------
os2.c
OS/2-specific routines for use with Info-ZIP's UnZip 5.1 and later.
This file contains the OS/2 versions of the file name/attribute/time/etc
code. Most or all of the routines which make direct use of OS/2 system
calls (i.e., the non-lowercase routines) are Kai Uwe Rommel's. The read-
dir() suite was written by Michael Rendell and ported to OS/2 by Kai Uwe;
it is in the public domain.
Contains: GetCountryInfo()
SetFileSize()
GetFileTime()
SetFileTime() (TIMESTAMP only)
stamp_file() (TIMESTAMP only)
Utime2DosDateTime()
SetPathAttrTimes()
SetEAs()
GetLoadPath()
opendir()
closedir()
readdir()
[ seekdir() ] not used
[ telldir() ] not used
free_dircontents()
getdirent()
IsFileSystemFAT()
do_wild()
mapattr()
mapname()
checkdir()
isfloppy()
IsFileNameValid()
map2fat()
SetLongNameEA()
close_outfile()
check_for_newer()
dateformat()
version()
zcalloc() (16-bit, only)
zcfree() (16-bit, only)
InitNLS()
IsUpperNLS()
ToLowerNLS()
StringLower()
screensize()
DebugMalloc()
---------------------------------------------------------------------------*/
#define UNZIP_INTERNAL
#include "unzip.h"
/* fUnZip does not need anything from here except the zcalloc() & zcfree()
* function pair (when Deflate64 support is enabled in 16-bit environment).
*/
#ifndef FUNZIP
#include "os2acl.h"
extern ZCONST char Far TruncEAs[];
/* local prototypes */
#ifdef TIMESTAMP
static int SetFileTime(ZCONST char *name, ulg stamp);
#endif
#if defined(USE_EF_UT_TIME) || defined(TIMESTAMP)
static ulg Utime2DosDateTime OF((time_t uxtime));
#endif
static int getOS2filetimes OF((__GPRO__
ulg *pM_dt, ulg *pA_dt, ulg *pC_dt));
static void SetPathAttrTimes OF((__GPRO__ int flags, int dir));
static int SetEAs OF((__GPRO__ const char *path,
void *ef_block));
static int SetACL OF((__GPRO__ const char *path,
void *ef_block));
static int EvalExtraFields OF((__GPRO__ const char *path,
void *extra_field, unsigned ef_len));
static int isfloppy OF((int nDrive));
static int IsFileNameValid OF((const char *name));
static void map2fat OF((char *pathcomp, char **pEndFAT));
static int SetLongNameEA OF((char *name, char *longname));
static void InitNLS OF((void));
#ifdef ACORN_FTYPE_NFS
/* Acorn bits for NFS filetyping */
typedef struct {
uch ID[2];
uch size[2];
uch ID_2[4];
uch loadaddr[4];
uch execaddr[4];
uch attr[4];
} RO_extra_block;
#endif /* ACORN_FTYPE_NFS */
/*****************************/
/* Strings used in os2.c */
/*****************************/
#ifndef SFX
static ZCONST char Far CantAllocateWildcard[] =
"warning: cannot allocate wildcard buffers\n";
#endif
static ZCONST char Far WarnDirTraversSkip[] =
"warning: skipped \"../\" path component(s) in %s\n";
static ZCONST char Far Creating[] = " creating: %-22s ";
static ZCONST char Far ConversionFailed[] =
"mapname: conversion of %s failed\n";
static ZCONST char Far Labelling[] = "labelling %c: %-22s\n";
static ZCONST char Far ErrSetVolLabel[] =
"mapname: error setting volume label\n";
static ZCONST char Far PathTooLong[] = "checkdir error: path too long: %s\n";
static ZCONST char Far CantCreateDir[] = "checkdir error: cannot create %s\n\
unable to process %s.\n";
static ZCONST char Far DirIsntDirectory[] =
"checkdir error: %s exists but is not directory\n\
unable to process %s.\n";
static ZCONST char Far PathTooLongTrunc[] =
"checkdir warning: path too long; truncating\n %s\n\
-> %s\n";
#if (!defined(SFX) || defined(SFX_EXDIR))
static ZCONST char Far CantCreateExtractDir[] =
"checkdir: cannot create extraction directory: %s\n";
#endif
#ifndef __GNUC__
/* all supported non-gcc compilers provide MSC/DOS style mkdir() */
# if (_MSC_VER >= 600) || defined(__IBMC__)
# include <direct.h> /* have special MSC/IBM C mkdir prototype */
# else /* own prototype because dir.h conflicts? */
int mkdir(const char *path);
# endif
# define MKDIR(path,mode) mkdir(path)
#else
/* EMX and hopefully all other gcc ports support POSIX style mkdir() */
# define MKDIR(path,mode) mkdir(path,mode)
#endif
#ifdef __32BIT__
USHORT DosDevIOCtl32(PVOID pData, USHORT cbData, PVOID pParms, USHORT cbParms,
USHORT usFunction, USHORT usCategory, HFILE hDevice)
{
ULONG ulParmLengthInOut = cbParms, ulDataLengthInOut = cbData;
return (USHORT) DosDevIOCtl(hDevice, usCategory, usFunction,
pParms, cbParms, &ulParmLengthInOut,
pData, cbData, &ulDataLengthInOut);
}
# define DosDevIOCtl DosDevIOCtl32
#else
# define DosDevIOCtl DosDevIOCtl2
#endif
typedef struct
{
ush nID;
ush nSize;
ulg lSize;
}
EFHEADER, *PEFHEADER;
#ifdef __32BIT__
#define DosFindFirst(p1, p2, p3, p4, p5, p6) \
DosFindFirst(p1, p2, p3, p4, p5, p6, 1)
#else
typedef struct
{
ULONG oNextEntryOffset;
BYTE fEA;
BYTE cbName;
USHORT cbValue;
CHAR szName[1];
}
FEA2, *PFEA2;
typedef struct
{
ULONG cbList;
FEA2 list[1];
}
FEA2LIST, *PFEA2LIST;
#define DosQueryCurrentDisk DosQCurDisk
#define DosQueryFSAttach(p1, p2, p3, p4, p5) \
DosQFSAttach(p1, p2, p3, p4, p5, 0)
#define DosEnumAttribute(p1, p2, p3, p4, p5, p6, p7) \
DosEnumAttribute(p1, p2, p3, p4, p5, p6, p7, 0)
#define DosFindFirst(p1, p2, p3, p4, p5, p6) \
DosFindFirst(p1, p2, p3, p4, p5, p6, 0)
#define DosMapCase DosCaseMap
#define DosSetPathInfo(p1, p2, p3, p4, p5) \
DosSetPathInfo(p1, p2, p3, p4, p5, 0)
#define DosQueryPathInfo(p1, p2, p3, p4) \
DosQPathInfo(p1, p2, p3, p4, 0)
#define DosQueryFileInfo DosQFileInfo
#define DosMapCase DosCaseMap
#define DosQueryCtryInfo DosGetCtryInfo
#endif /* !__32BIT__ */
/*
* @(#) dir.h 1.4 87/11/06 Public Domain.
*/
#define A_RONLY 0x01
#define A_HIDDEN 0x02
#define A_SYSTEM 0x04
#define A_LABEL 0x08
#define A_DIR 0x10
#define A_ARCHIVE 0x20
const int attributes = A_DIR | A_HIDDEN | A_SYSTEM;
extern DIR *opendir(__GPRO__ ZCONST char *);
extern struct direct *readdir(__GPRO__ DIR *);
extern void seekdir(DIR *, long);
extern long telldir(DIR *);
extern void closedir(DIR *);
#define rewinddir(dirp) seekdir(dirp, 0L)
int IsFileSystemFAT(__GPRO__ ZCONST char *dir);
char *StringLower(char *szArg);
/*
* @(#)dir.c 1.4 87/11/06 Public Domain.
*/
#ifndef S_IFMT
# define S_IFMT 0xF000
#endif
#ifndef SFX
static char *getdirent(__GPRO__ ZCONST char *);
static void free_dircontents(struct _dircontents *);
#endif /* !SFX */
int GetCountryInfo(void)
{
COUNTRYINFO ctryi;
COUNTRYCODE ctryc;
#ifdef __32BIT__
ULONG cbInfo;
#else
USHORT cbInfo;
#endif
ctryc.country = ctryc.codepage = 0;
if ( DosQueryCtryInfo(sizeof(ctryi), &ctryc, &ctryi, &cbInfo) != NO_ERROR )
return 0;
return ctryi.fsDateFmt;
}
int SetFileSize(FILE *file, ulg filesize)
{
#ifdef __32BIT__
return DosSetFileSize(fileno(file), (size_t)filesize) ? -1 : 0;
#else
return 0;
#endif
}
long GetFileTime(ZCONST char *name)
{
#ifdef __32BIT__
FILESTATUS3 fs;
#else
FILESTATUS fs;
#endif
USHORT nDate, nTime;
if ( DosQueryPathInfo((PSZ) name, 1, (PBYTE) &fs, sizeof(fs)) )
return -1;
nDate = * (USHORT *) &fs.fdateLastWrite;
nTime = * (USHORT *) &fs.ftimeLastWrite;
return ((ULONG) nDate) << 16 | nTime;
}
#ifdef TIMESTAMP
static int SetFileTime(ZCONST char *name, ulg stamp) /* swiped from Zip */
{
FILESTATUS fs;
USHORT fd, ft;
if (DosQueryPathInfo((PSZ) name, FIL_STANDARD, (PBYTE) &fs, sizeof(fs)))
return -1;
fd = (USHORT) (stamp >> 16);
ft = (USHORT) stamp;
fs.fdateLastWrite = fs.fdateCreation = * (FDATE *) &fd;
fs.ftimeLastWrite = fs.ftimeCreation = * (FTIME *) &ft;
if (DosSetPathInfo((PSZ) name, FIL_STANDARD, (PBYTE) &fs, sizeof(fs), 0))
return -1;
return 0;
}
int stamp_file(ZCONST char *fname, time_t modtime)
{
return SetFileTime(fname, Utime2DosDateTime(modtime));
}
#endif /* TIMESTAMP */
/* The following DOS date/time structures are machine-dependent as they
* assume "little-endian" byte order. For OS/2-specific code, which
* is run on x86 CPUs (or emulators?), this assumption is valid; but
* care should be taken when using this code as template for other ports.
*/
typedef union {
ULONG timevalue; /* combined value, useful for comparisons */
struct {
FTIME ft; /* system file time record:
* USHORT twosecs : 5
* USHORT minutes : 6;
* USHORT hours : 5; */
FDATE fd; /* system file date record:
* USHORT day : 5
* USHORT month : 4;
* USHORT year : 7; */
} _fdt;
} F_DATE_TIME, *PF_DATE_TIME;
#if defined(USE_EF_UT_TIME) || defined(TIMESTAMP)
static ulg Utime2DosDateTime(uxtime)
time_t uxtime;
{
F_DATE_TIME dosfiletime;
struct tm *t;
/* round up to even seconds */
/* round up (down if "up" overflows) to even seconds */
if (((ulg)uxtime) & 1)
uxtime = (uxtime + 1 > uxtime) ? uxtime + 1 : uxtime - 1;
t = localtime(&(uxtime));
if (t == (struct tm *)NULL) {
/* time conversion error; use current time instead, hoping
that localtime() does not reject it as well! */
time_t now = time(NULL);
t = localtime(&now);
}
if (t->tm_year < 80) {
dosfiletime._fdt.ft.twosecs = 0;
dosfiletime._fdt.ft.minutes = 0;
dosfiletime._fdt.ft.hours = 0;
dosfiletime._fdt.fd.day = 1;
dosfiletime._fdt.fd.month = 1;
dosfiletime._fdt.fd.year = 0;
} else {
dosfiletime._fdt.ft.twosecs = t->tm_sec >> 1;
dosfiletime._fdt.ft.minutes = t->tm_min;
dosfiletime._fdt.ft.hours = t->tm_hour;
dosfiletime._fdt.fd.day = t->tm_mday;
dosfiletime._fdt.fd.month = t->tm_mon + 1;
dosfiletime._fdt.fd.year = t->tm_year - 80;
}
return dosfiletime.timevalue;
} /* end function Utime2DosDateTime() */
#endif /* USE_EF_UT_TIME || TIMESTAMP */
static int getOS2filetimes(__GPRO__ ulg *pM_dt, ulg *pA_dt, ulg *pC_dt)
{
#ifdef USE_EF_UT_TIME
unsigned eb_izux_flg;
iztimes z_utime;
#endif
/* Copy and/or convert time and date variables, if necessary; */
/* return a flag indicating which time stamps are available. */
#ifdef USE_EF_UT_TIME
if (G.extra_field &&
#ifdef IZ_CHECK_TZ
G.tz_is_valid &&
#endif
((eb_izux_flg = ef_scan_for_izux(G.extra_field,
G.lrec.extra_field_length, 0, G.lrec.last_mod_dos_datetime,
&z_utime, NULL)) & EB_UT_FL_MTIME))
{
TTrace((stderr, "getOS2filetimes: UT e.f. modif. time = %lu\n",
z_utime.mtime));
*pM_dt = Utime2DosDateTime(z_utime.mtime);
if (eb_izux_flg & EB_UT_FL_ATIME) {
TTrace((stderr, "getOS2filetimes: UT e.f. access time = %lu\n",
z_utime.atime));
*pA_dt = Utime2DosDateTime(z_utime.atime);
}
if (eb_izux_flg & EB_UT_FL_CTIME) {
TTrace((stderr, "getOS2filetimes: UT e.f. creation time = %lu\n",
z_utime.ctime));
*pC_dt = Utime2DosDateTime(z_utime.ctime);
} else {
/* no creation time value supplied, set it to modification time */
*pC_dt = *pM_dt;
eb_izux_flg |= EB_UT_FL_CTIME;
}
return (int)eb_izux_flg;
}
#endif /* USE_EF_UT_TIME */
*pC_dt = *pM_dt = G.lrec.last_mod_dos_datetime;
TTrace((stderr, "\ngetOS2filetimes: DOS dir modific./creation time = %lu\n",
*pM_dt));
return (EB_UT_FL_MTIME | EB_UT_FL_CTIME);
}
static void SetPathAttrTimes(__GPRO__ int flags, int dir)
{
HFILE hFile;
#ifdef __32BIT__
ULONG nAction;
#else
USHORT nAction;
#endif
FILESTATUS fs;
USHORT nLength;
char szName[CCHMAXPATH];
ulg Mod_dt, Acc_dt, Cre_dt;
int gotTimes;
strcpy(szName, G.filename);
nLength = strlen(szName);
if (szName[nLength - 1] == '/')
szName[nLength - 1] = 0;
if (dir)
{
if ( DosQueryPathInfo(szName, FIL_STANDARD, (PBYTE) &fs, sizeof(fs)) )
return;
}
else
{
/* for regular files, open them and operate on the file handle, to
work around certain network operating system bugs ... */
if ( DosOpen(szName, &hFile, &nAction, 0, 0,
OPEN_ACTION_OPEN_IF_EXISTS | OPEN_ACTION_CREATE_IF_NEW,
OPEN_SHARE_DENYREADWRITE | OPEN_ACCESS_READWRITE, 0) )
return;
if ( DosQueryFileInfo(hFile, FIL_STANDARD, (PBYTE) &fs, sizeof(fs)) )
return;
}
if (uO.D_flag <= (dir ? 1 : 0)) {
/* set date/time stamps */
gotTimes = getOS2filetimes(__G__ &Mod_dt, &Acc_dt, &Cre_dt);
if (gotTimes & EB_UT_FL_MTIME) {
fs.fdateLastWrite = ((F_DATE_TIME *)&Mod_dt)->_fdt.fd;
fs.ftimeLastWrite = ((F_DATE_TIME *)&Mod_dt)->_fdt.ft;
}
if (gotTimes & EB_UT_FL_ATIME) {
fs.fdateLastAccess = ((F_DATE_TIME *)&Acc_dt)->_fdt.fd;
fs.ftimeLastAccess = ((F_DATE_TIME *)&Acc_dt)->_fdt.ft;
}
if (gotTimes & EB_UT_FL_CTIME) {
fs.fdateCreation = ((F_DATE_TIME *)&Cre_dt)->_fdt.fd;
fs.ftimeCreation = ((F_DATE_TIME *)&Cre_dt)->_fdt.ft;
}
}
if ( flags != -1 )
fs.attrFile = flags; /* hidden, system, archive, read-only */
if (dir)
{
DosSetPathInfo(szName, FIL_STANDARD, (PBYTE) &fs, sizeof(fs), 0);
}
else
{
DosSetFileInfo(hFile, FIL_STANDARD, (PBYTE) &fs, sizeof(fs));
DosClose(hFile);
}
}
typedef struct
{
ULONG cbList; /* length of value + 22 */
#ifdef __32BIT__
ULONG oNext;
#endif
BYTE fEA; /* 0 */
BYTE cbName; /* length of ".LONGNAME" = 9 */
USHORT cbValue; /* length of value + 4 */
BYTE szName[10]; /* ".LONGNAME" */
USHORT eaType; /* 0xFFFD for length-preceded ASCII */
USHORT eaSize; /* length of value */
BYTE szValue[CCHMAXPATH];
}
FEALST;
static int SetEAs(__GPRO__ const char *path, void *ef_block)
{ /* returns almost-PK errors */
EFHEADER *pEAblock = (PEFHEADER) ef_block;
#ifdef __32BIT__
EAOP2 eaop;
PFEA2LIST pFEA2list;
#else
EAOP eaop;
PFEALIST pFEAlist;
PFEA pFEA;
PFEA2LIST pFEA2list;
PFEA2 pFEA2;
ULONG nLength2;
#endif
USHORT nLength;
char szName[CCHMAXPATH];
int error;
if ( ef_block == NULL || pEAblock -> nID != EF_OS2 )
return PK_OK; /* not an OS/2 extra field: assume OK */
if ( pEAblock->nSize < 4 || (pEAblock->lSize > 0L && pEAblock->nSize <= 10) )
return IZ_EF_TRUNC; /* no compressed data! */
strcpy(szName, path);
nLength = strlen(szName);
if (szName[nLength - 1] == '/')
szName[nLength - 1] = 0;
if ( (pFEA2list = (PFEA2LIST) malloc((size_t) pEAblock -> lSize)) == NULL )
return PK_MEM4;
if ( (error = memextract(__G__ (uch *)pFEA2list, pEAblock->lSize,
(uch *)(pEAblock+1), (ulg)(pEAblock->nSize - 4))) != PK_OK )
{
free(pFEA2list);
return error;
}
#ifdef __32BIT__
eaop.fpGEA2List = NULL;
eaop.fpFEA2List = pFEA2list;
#else
pFEAlist = (PVOID) pFEA2list;
pFEA2 = pFEA2list -> list;
pFEA = pFEAlist -> list;
do
{
nLength2 = pFEA2 -> oNextEntryOffset;
nLength = sizeof(FEA) + pFEA2 -> cbName + 1 + pFEA2 -> cbValue;
memcpy(pFEA, (PCH) pFEA2 + sizeof(pFEA2 -> oNextEntryOffset), nLength);
pFEA2 = (PFEA2) ((PCH) pFEA2 + nLength2);
pFEA = (PFEA) ((PCH) pFEA + nLength);
}
while ( nLength2 != 0 );
pFEAlist -> cbList = (PCH) pFEA - (PCH) pFEAlist;
eaop.fpGEAList = NULL;
eaop.fpFEAList = pFEAlist;
#endif
eaop.oError = 0;
DosSetPathInfo(szName, FIL_QUERYEASIZE, (PBYTE) &eaop, sizeof(eaop), 0);
if (!uO.tflag && QCOND2)
Info(slide, 0, ((char *)slide, " (%ld bytes EAs)", pFEA2list -> cbList));
free(pFEA2list);
return PK_COOL;
}
static int SetACL(__GPRO__ const char *path, void *ef_block)
{ /* returns almost-PK errors */
EFHEADER *pACLblock = (PEFHEADER) ef_block;
char *szACL;
int error;
if ( ef_block == NULL || pACLblock -> nID != EF_ACL )
return PK_OK; /* not an OS/2 extra field: assume OK */
if (pACLblock->nSize < 4 || (pACLblock->lSize > 0L && pACLblock->nSize <= 10))
return IZ_EF_TRUNC; /* no compressed data! */
if ( (szACL = malloc((size_t) pACLblock -> lSize)) == NULL )
return PK_MEM4;
if ( (error = memextract(__G__ (uch *)szACL, pACLblock->lSize,
(uch *)(pACLblock+1), (ulg)(pACLblock->nSize - 4))) != PK_OK )
{
free(szACL);
return error;
}
if (acl_set(NULL, path, szACL) == 0)
if (!uO.tflag && QCOND2)
Info(slide, 0, ((char *)slide, " (%ld bytes ACL)", strlen(szACL)));
free(szACL);
return PK_COOL;
}
#ifdef SFX
char *GetLoadPath(__GPRO)
{
#ifdef __32BIT__ /* generic for 32-bit API */
PTIB pptib;
PPIB pppib;
char *szPath;
DosGetInfoBlocks(&pptib, &pppib);
szPath = pppib -> pib_pchenv;
#else /* 16-bit, note: requires large data model */
SEL selEnv;
USHORT offCmd;
char *szPath;
DosGetEnv(&selEnv, &offCmd);
szPath = MAKEP(selEnv, 0);
#endif
while (*szPath) /* find end of process environment */
szPath = strchr(szPath, 0) + 1;
return szPath + 1; /* .exe file name follows environment */
} /* end function GetLoadPath() */
#else /* !SFX */
DIR *opendir(__GPRO__ const char *name)
{
struct stat statb;
DIR *dirp;
char c;
char *s;
struct _dircontents *dp;
char nbuf[MAXPATHLEN + 1];
int len;
strcpy(nbuf, name);
if ((len = strlen(nbuf)) == 0)
return NULL;
if ( ((c = nbuf[len - 1]) == '\\' || c == '/') && (len > 1) )
{
nbuf[len - 1] = 0;
--len;
if ( nbuf[len - 1] == ':' )
{
strcpy(nbuf+len, "\\.");
len += 2;
}
}
else
if ( nbuf[len - 1] == ':' )
{
strcpy(nbuf+len, ".");
++len;
}
/* GRR: Borland and Watcom C return non-zero on wildcards... < 0 ? */
if (stat(nbuf, &statb) < 0 || (statb.st_mode & S_IFMT) != S_IFDIR)
{
Trace((stderr, "opendir: stat(%s) returns negative or not directory\n",
FnFilter1(nbuf)));
return NULL;
}
if ( (dirp = malloc(sizeof(DIR))) == NULL )
return NULL;
if ( nbuf[len - 1] == '.' && (len == 1 || nbuf[len - 2] != '.') )
strcpy(nbuf+len-1, "*");
else
if ( ((c = nbuf[len - 1]) == '\\' || c == '/') && (len == 1) )
strcpy(nbuf+len, "*");
else
strcpy(nbuf+len, "\\*");
/* len is no longer correct (but no longer needed) */
Trace((stderr, "opendir: nbuf = [%s]\n", FnFilter1(nbuf)));
dirp -> dd_loc = 0;
dirp -> dd_contents = dirp -> dd_cp = NULL;
if ((s = getdirent(__G__ nbuf)) == NULL)
return dirp;
do
{
if (((dp = malloc(sizeof(struct _dircontents))) == NULL) ||
((dp -> _d_entry = malloc(strlen(s) + 1)) == NULL) )
{
if (dp)
free(dp);
free_dircontents(dirp -> dd_contents);
return NULL;
}
if (dirp -> dd_contents)
{
dirp -> dd_cp -> _d_next = dp;
dirp -> dd_cp = dirp -> dd_cp -> _d_next;
}
else
dirp -> dd_contents = dirp -> dd_cp = dp;
strcpy(dp -> _d_entry, s);
dp -> _d_next = NULL;
dp -> _d_size = G.os2.find.cbFile;
dp -> _d_mode = G.os2.find.attrFile;
dp -> _d_time = *(unsigned *) &(G.os2.find.ftimeLastWrite);
dp -> _d_date = *(unsigned *) &(G.os2.find.fdateLastWrite);
}
while ((s = getdirent(__G__ NULL)) != NULL);
dirp -> dd_cp = dirp -> dd_contents;
return dirp;
}
void closedir(DIR * dirp)
{
free_dircontents(dirp -> dd_contents);
free(dirp);
}
struct direct *readdir(__GPRO__ DIR * dirp)
{
/* moved to os2data.h so it can be global */
/* static struct direct dp; */
if (dirp -> dd_cp == NULL)
return NULL;
G.os2.dp.d_namlen = G.os2.dp.d_reclen =
strlen(strcpy(G.os2.dp.d_name, dirp -> dd_cp -> _d_entry));
G.os2.dp.d_ino = 0;
G.os2.dp.d_size = dirp -> dd_cp -> _d_size;
G.os2.dp.d_mode = dirp -> dd_cp -> _d_mode;
G.os2.dp.d_time = dirp -> dd_cp -> _d_time;
G.os2.dp.d_date = dirp -> dd_cp -> _d_date;
dirp -> dd_cp = dirp -> dd_cp -> _d_next;
dirp -> dd_loc++;
return &G.os2.dp;
}
#if 0 /* not used in unzip; retained for possibly future use */
void seekdir(DIR * dirp, long off)
{
long i = off;
struct _dircontents *dp;
if (off >= 0)
{
for (dp = dirp -> dd_contents; --i >= 0 && dp; dp = dp -> _d_next);
dirp -> dd_loc = off - (i + 1);
dirp -> dd_cp = dp;
}
}
long telldir(DIR * dirp)
{
return dirp -> dd_loc;
}
#endif /* 0 */
static void free_dircontents(struct _dircontents * dp)
{
struct _dircontents *odp;
while (dp)
{
if (dp -> _d_entry)
free(dp -> _d_entry);
dp = (odp = dp) -> _d_next;
free(odp);
}
}
static char *getdirent(__GPRO__ ZCONST char *dir)
{
int done;
/* moved to os2data.h so it can be global */
/* static int lower; */
if (dir != NULL)
{ /* get first entry */
G.os2.hdir = HDIR_SYSTEM;
G.os2.count = 1;
done = DosFindFirst((PSZ) dir, &G.os2.hdir, attributes,
&G.os2.find, sizeof(G.os2.find), &G.os2.count);
G.os2.lower = IsFileSystemFAT(__G__ dir);
}
else /* get next entry */
done = DosFindNext(G.os2.hdir,
&G.os2.find, sizeof(G.os2.find), &G.os2.count);
if (done == 0)
{
if ( G.os2.lower )
StringLower(G.os2.find.achName);
return G.os2.find.achName;
}
else
{
DosFindClose(G.os2.hdir);
return NULL;
}
}
int IsFileSystemFAT(__GPRO__ ZCONST char *dir) /* FAT / HPFS detection */
{
/* moved to os2data.h so they can be global */
/* static USHORT nLastDrive=(USHORT)(-1), nResult; */
ULONG lMap;
BYTE bData[64];
char bName[3];
#ifdef __32BIT__
ULONG nDrive, cbData;
PFSQBUFFER2 pData = (PFSQBUFFER2) bData;
#else
USHORT nDrive, cbData;
PFSQBUFFER pData = (PFSQBUFFER) bData;
#endif
/* We separate FAT and HPFS+other file systems here.
at the moment I consider other systems to be similar to HPFS,
i.e. support long file names and case sensitive */
if ( isalpha((uch)dir[0]) && (dir[1] == ':') )
nDrive = toupper(dir[0]) - '@';
else
DosQueryCurrentDisk(&nDrive, &lMap);
if ( nDrive == G.os2.nLastDrive )
return G.os2.nResult;
bName[0] = (char) (nDrive + '@');
bName[1] = ':';
bName[2] = 0;
G.os2.nLastDrive = nDrive;
cbData = sizeof(bData);
if ( !DosQueryFSAttach(bName, 0, FSAIL_QUERYNAME, (PVOID) pData, &cbData) )
G.os2.nResult = !strcmp((char *) (pData -> szFSDName) + pData -> cbName,
"FAT");
else
G.os2.nResult = FALSE;
/* End of this ugly code */
return G.os2.nResult;
} /* end function IsFileSystemFAT() */
/************************/
/* Function do_wild() */
/************************/
char *do_wild(__G__ wildspec)
__GDEF
ZCONST char *wildspec; /* only used first time on a given dir */
{
/* moved to os2data.h so they can be global */
#if 0
static DIR *wild_dir = NULL;
static ZCONST char *wildname;
static char *dirname, matchname[FILNAMSIZ];
static int notfirstcall=FALSE, have_dirname, dirnamelen;
#endif
char *fnamestart;
struct direct *file;
/* Even when we're just returning wildspec, we *always* do so in
* matchname[]--calling routine is allowed to append four characters
* to the returned string, and wildspec may be a pointer to argv[].
*/
if (!G.os2.notfirstcall) { /* first call: must initialize everything */
G.os2.notfirstcall = TRUE;
if (!iswild(wildspec)) {
strncpy(G.os2.matchname, wildspec, FILNAMSIZ);
G.os2.matchname[FILNAMSIZ-1] = '\0';
G.os2.have_dirname = FALSE;
G.os2.wild_dir = NULL;
return G.os2.matchname;
}
/* break the wildspec into a directory part and a wildcard filename */
if ((G.os2.wildname = (ZCONST char *)strrchr(wildspec, '/')) == NULL &&
(G.os2.wildname = (ZCONST char *)strrchr(wildspec, ':')) == NULL) {
G.os2.dirname = ".";
G.os2.dirnamelen = 1;
G.os2.have_dirname = FALSE;
G.os2.wildname = wildspec;
} else {
++G.os2.wildname; /* point at character after '/' or ':' */
G.os2.dirnamelen = G.os2.wildname - wildspec;
if ((G.os2.dirname = (char *)malloc(G.os2.dirnamelen+1)) == NULL) {
Info(slide, 1, ((char *)slide,
LoadFarString(CantAllocateWildcard)));
strncpy(G.os2.matchname, wildspec, FILNAMSIZ);
G.os2.matchname[FILNAMSIZ-1] = '\0';
return G.os2.matchname; /* but maybe filespec was not a wildcard */
}
strncpy(G.os2.dirname, wildspec, G.os2.dirnamelen);
G.os2.dirname[G.os2.dirnamelen] = '\0'; /* terminate for strcpy below */
G.os2.have_dirname = TRUE;
}
Trace((stderr, "do_wild: dirname = [%s]\n",
FnFilter1(G.os2.dirname)));
if ((G.os2.wild_dir = opendir(__G__ G.os2.dirname)) != NULL) {
if (G.os2.have_dirname) {
strcpy(G.os2.matchname, G.os2.dirname);
fnamestart = G.os2.matchname + G.os2.dirnamelen;
} else
fnamestart = G.os2.matchname;
while ((file = readdir(__G__ G.os2.wild_dir)) != NULL) {
Trace((stderr, "do_wild: readdir returns %s\n",
FnFilter1(file->d_name)));
strcpy(fnamestart, file->d_name);
if (strrchr(fnamestart, '.') == (char *)NULL)
strcat(fnamestart, ".");
if (match(fnamestart, G.os2.wildname, 1 WISEP) &&
/* 1 == ignore case */
/* skip "." and ".." directory entries */
strcmp(fnamestart, ".") && strcmp(fnamestart, "..")) {
Trace((stderr, "do_wild: match() succeeds\n"));
/* remove trailing dot */
fnamestart += strlen(fnamestart) - 1;
if (*fnamestart == '.')
*fnamestart = '\0';
return G.os2.matchname;
}
}
/* if we get to here directory is exhausted, so close it */
closedir(G.os2.wild_dir);
G.os2.wild_dir = NULL;
}
#ifdef DEBUG
else {
Trace((stderr, "do_wild: opendir(%s) returns NULL\n",
FnFilter1(G.os2.dirname)));
}
#endif /* DEBUG */
/* return the raw wildspec in case that works (e.g., directory not
* searchable, but filespec was not wild and file is readable) */
strncpy(G.os2.matchname, wildspec, FILNAMSIZ);
G.os2.matchname[FILNAMSIZ-1] = '\0';
return G.os2.matchname;
}
/* last time through, might have failed opendir but returned raw wildspec */
if (G.os2.wild_dir == NULL) {
G.os2.notfirstcall = FALSE; /* nothing left to try--reset */
if (G.os2.have_dirname)
free(G.os2.dirname);
return (char *)NULL;
}
/* If we've gotten this far, we've read and matched at least one entry
* successfully (in a previous call), so dirname has been copied into
* matchname already.
*/
if (G.os2.have_dirname) {
/* strcpy(G.os2.matchname, G.os2.dirname); */
fnamestart = G.os2.matchname + G.os2.dirnamelen;
} else
fnamestart = G.os2.matchname;
while ((file = readdir(__G__ G.os2.wild_dir)) != NULL) {
Trace((stderr, "do_wild: readdir returns %s\n",
FnFilter1(file->d_name)));
strcpy(fnamestart, file->d_name);
if (strrchr(fnamestart, '.') == (char *)NULL)
strcat(fnamestart, ".");
if (match(fnamestart, G.os2.wildname, 1 WISEP)) { /* 1==ignore case */
Trace((stderr, "do_wild: match() succeeds\n"));
/* remove trailing dot */
fnamestart += strlen(fnamestart) - 1;
if (*fnamestart == '.')
*fnamestart = '\0';
return G.os2.matchname;
}
}
closedir(G.os2.wild_dir); /* have read at least one entry; nothing left */
G.os2.wild_dir = NULL;
G.os2.notfirstcall = FALSE; /* reset for new wildspec */
if (G.os2.have_dirname)
free(G.os2.dirname);
return (char *)NULL;
} /* end function do_wild() */
#endif /* !SFX */
/* scan extra fields for something we happen to know */
static int EvalExtraFields(__GPRO__ const char *path,
void *extra_field, unsigned ef_len)
{
char *ef_ptr = extra_field;
PEFHEADER pEFblock;
int rc = PK_OK;
while (ef_len >= sizeof(EFHEADER))
{
pEFblock = (PEFHEADER) ef_ptr;
if (pEFblock -> nSize > (ef_len - EB_HEADSIZE))
return PK_ERR; /* claimed EFblock length exceeds EF size! */
switch (pEFblock -> nID)
{
case EF_OS2:
rc = SetEAs(__G__ path, ef_ptr);
break;
case EF_ACL:
rc = (uO.X_flag) ? SetACL(__G__ path, ef_ptr) : PK_OK;
break;
#if 0
case EF_IZUNIX:
case EF_PKUNIX:
/* handled elsewhere */
break;
#endif
default:
TTrace((stderr,"EvalExtraFields: unknown extra field block, ID=%d\n",
pEFblock -> nID));
break;
}
ef_ptr += (pEFblock -> nSize + EB_HEADSIZE);
ef_len -= (pEFblock -> nSize + EB_HEADSIZE);
if (rc != PK_OK)
break;
}
return rc;
}
/************************/
/* Function mapattr() */
/************************/
int mapattr(__G)
__GDEF
{
/* set archive bit (file is not backed up): */
G.pInfo->file_attr = (unsigned)(G.crec.external_file_attributes | 32) & 0xff;
return 0;
}
/************************/
/* Function mapname() */
/************************/
/*
* There are presently two possibilities in OS/2: the output filesystem is
* FAT, or it is HPFS. If the former, we need to map to FAT, obviously, but
* we *also* must map to HPFS and store that version of the name in extended
* attributes. Either way, we need to map to HPFS, so the main mapname
* routine does that. In the case that the output file system is FAT, an
* extra filename-mapping routine is called in checkdir(). While it should
* be possible to determine the filesystem immediately upon entry to mapname(),
* it is conceivable that the DOS APPEND utility could be added to OS/2 some-
* day, allowing a FAT directory to be APPENDed to an HPFS drive/path. There-
* fore we simply check the filesystem at each path component.
*
* Note that when alternative IFSes become available/popular, everything will
* become immensely more complicated. For example, a Minix filesystem would
* have limited filename lengths like FAT but no extended attributes in which
* to store the longer versions of the names. A BSD Unix filesystem would
* support paths of length 1024 bytes or more, but it is not clear that FAT
* EAs would allow such long .LONGNAME fields or that OS/2 would properly
* restore such fields when moving files from FAT to the new filesystem.
*
* GRR: some or all of the following chars should be checked in either
* mapname (HPFS) or map2fat (FAT), depending: ,=^+'"[]<>|\t&
*/
int mapname(__G__ renamed)
__GDEF
int renamed;
/*
* returns:
* MPN_OK - no problem detected
* MPN_INF_TRUNC - caution (truncated filename)
* MPN_INF_SKIP - info "skip entry" (dir doesn't exist)
* MPN_ERR_SKIP - error -> skip entry
* MPN_ERR_TOOLONG - error -> path is too long
* MPN_NOMEM - error (memory allocation failed) -> skip entry
* [also MPN_VOL_LABEL, MPN_CREATED_DIR]
*/
{
char pathcomp[FILNAMSIZ]; /* path-component buffer */
char *pp, *cp=(char *)NULL; /* character pointers */
char *lastsemi=(char *)NULL; /* pointer to last semi-colon in pathcomp */
#ifdef ACORN_FTYPE_NFS
char *lastcomma=(char *)NULL; /* pointer to last comma in pathcomp */
RO_extra_block *ef_spark; /* pointer Acorn FTYPE ef block */
#endif
int killed_ddot = FALSE; /* is set when skipping "../" pathcomp */
int error = MPN_OK;
register unsigned workch; /* hold the character being tested */
/*---------------------------------------------------------------------------
Initialize various pointers and counters and stuff.
---------------------------------------------------------------------------*/
/* can create path as long as not just freshening, or if user told us */
G.create_dirs = (!uO.fflag || renamed);
G.os2.created_dir = FALSE; /* not yet */
G.os2.renamed_fullpath = FALSE;
G.os2.fnlen = strlen(G.filename);
/* GRR: for VMS, convert to internal format now or later? or never? */
if (renamed) {
cp = G.filename - 1; /* point to beginning of renamed name... */
while (*++cp)
if (*cp == '\\') /* convert backslashes to forward */
*cp = '/';
cp = G.filename;
/* use temporary rootpath if user gave full pathname */
if (G.filename[0] == '/') {
G.os2.renamed_fullpath = TRUE;
pathcomp[0] = '/'; /* copy the '/' and terminate */
pathcomp[1] = '\0';
++cp;
} else if (isalpha((uch)G.filename[0]) && G.filename[1] == ':') {
G.os2.renamed_fullpath = TRUE;
pp = pathcomp;
*pp++ = *cp++; /* copy the "d:" (+ '/', possibly) */
*pp++ = *cp++;
if (*cp == '/')
*pp++ = *cp++; /* otherwise add "./"? */
*pp = '\0';
}
}
/* pathcomp is ignored unless renamed_fullpath is TRUE: */
if ((error = checkdir(__G__ pathcomp, INIT)) != 0) /* init path buffer */
return error; /* ...unless no mem or vol label on hard disk */
*pathcomp = '\0'; /* initialize translation buffer */
pp = pathcomp; /* point to translation buffer */
if (!renamed) { /* cp already set if renamed */
if (uO.jflag) /* junking directories */
/* GRR: watch out for VMS version... */
cp = (char *)strrchr(G.filename, '/');
if (cp == (char *)NULL) /* no '/' or not junking dirs */
cp = G.filename; /* point to internal zipfile-member pathname */
else
++cp; /* point to start of last component of path */
}
/*---------------------------------------------------------------------------
Begin main loop through characters in filename.
---------------------------------------------------------------------------*/
while ((workch = (uch)*cp++) != 0) {
switch (workch) {
case '/': /* can assume -j flag not given */
*pp = '\0';
if (strcmp(pathcomp, ".") == 0) {
/* don't bother appending "./" to the path */
*pathcomp = '\0';
} else if (!uO.ddotflag && strcmp(pathcomp, "..") == 0) {
/* "../" dir traversal detected, skip over it */
*pathcomp = '\0';
killed_ddot = TRUE; /* set "show message" flag */
}
/* when path component is not empty, append it now */
if (*pathcomp != '\0' &&
((error = checkdir(__G__ pathcomp, APPEND_DIR))
& MPN_MASK) > MPN_INF_TRUNC)
return error;
pp = pathcomp; /* reset conversion buffer for next piece */
lastsemi = (char *)NULL; /* leave direct. semi-colons alone */
break;
case ':': /* drive never stored, so no colon allowed */
case '\\': /* "non-dos" FSs may allow '\\' as normal */
*pp++ = '_'; /* character in filenames */
break; /* -> map invalid chars to underscore */
case ';': /* start of VMS version? */
lastsemi = pp; /* remove VMS version later... */
*pp++ = ';'; /* but keep semicolon for now */
break;
#ifdef ACORN_FTYPE_NFS
case ',': /* NFS filetype extension */
lastcomma = pp;
*pp++ = ','; /* keep for now; may need to remove */
break; /* later, if requested */
#endif
case ' ': /* keep spaces unless specifically */
if (uO.sflag) /* requested to change to underscore */
*pp++ = '_';
else
*pp++ = ' ';
break;
default:
/* allow ASCII 255 and European characters in filenames: */
if (isprint(workch) || workch >= 127)
*pp++ = (char)workch;
} /* end switch */
} /* end while loop */
/* Show warning when stripping insecure "parent dir" path components */
if (killed_ddot && QCOND2) {
Info(slide, 0, ((char *)slide, LoadFarString(WarnDirTraversSkip),
FnFilter1(G.filename)));
if (!(error & ~MPN_MASK))
error = (error & MPN_MASK) | PK_WARN;
}
/*---------------------------------------------------------------------------
Report if directory was created (and no file to create: filename ended
in '/'), check name to be sure it exists, and combine path and name be-
fore exiting.
---------------------------------------------------------------------------*/
if (G.filename[G.os2.fnlen-1] == '/') {
checkdir(__G__ G.filename, GETPATH);
if (G.os2.created_dir) {
if (QCOND2)
Info(slide, 0, ((char *)slide, LoadFarString(Creating),
FnFilter1(G.filename)));
if (G.extra_field) { /* zipfile extra field has extended attribs */
int err = EvalExtraFields(__G__ G.filename, G.extra_field,
G.lrec.extra_field_length);
if (err == IZ_EF_TRUNC) {
if (uO.qflag)
Info(slide, 1, ((char *)slide, "%-22s ",
FnFilter1(G.filename)));
Info(slide, 1, ((char *)slide, LoadFarString(TruncEAs),
makeword(G.extra_field+2)-10, "\n"));
} else if (!uO.qflag)
(*G.message)((zvoid *)&G, (uch *)"\n", 1L, 0);
} else if (!uO.qflag)
(*G.message)((zvoid *)&G, (uch *)"\n", 1L, 0);
/* set date/time stamps */
SetPathAttrTimes(__G__ G.pInfo->file_attr & ~A_ARCHIVE, 1);
/* dir time already set */
return (error & ~MPN_MASK) | MPN_CREATED_DIR;
} else if (G.extra_field && IS_OVERWRT_ALL) {
/* overwrite EAs of existing directory since user requested it */
int err = EvalExtraFields(__G__ G.filename, G.extra_field,
G.lrec.extra_field_length);
if (err == IZ_EF_TRUNC) {
Info(slide, 0x421, ((char *)slide, "%-22s ",
FnFilter1(G.filename)));
Info(slide, 0x401, ((char *)slide, LoadFarString(TruncEAs),
makeword(G.extra_field+2)-10, "\n"));
}
/* set date/time stamps (dirs only have creation times) */
SetPathAttrTimes(__G__ G.pInfo->file_attr & ~A_ARCHIVE, 1);
}
/* dir existed already; don't look for data to extract */
return (error & ~MPN_MASK) | MPN_INF_SKIP;
}
*pp = '\0'; /* done with pathcomp: terminate it */
/* if not saving them, remove VMS version numbers (appended "###") */
if (!uO.V_flag && lastsemi) {
pp = lastsemi + 1; /* semi-colon was kept: expect #s after */
while (isdigit((uch)(*pp)))
++pp;
if (*pp == '\0') /* only digits between ';' and end: nuke */
*lastsemi = '\0';
}
#ifdef ACORN_FTYPE_NFS
/* translate Acorn filetype information if asked to do so */
if (uO.acorn_nfs_ext &&
(ef_spark = (RO_extra_block *)
getRISCOSexfield(G.extra_field, G.lrec.extra_field_length))
!= (RO_extra_block *)NULL)
{
/* file *must* have a RISC OS extra field */
long ft = (long)makelong(ef_spark->loadaddr);
/*32-bit*/
if (lastcomma) {
pp = lastcomma + 1;
while (isxdigit((uch)(*pp))) ++pp;
if (pp == lastcomma+4 && *pp == '\0') *lastcomma='\0'; /* nuke */
}
if ((ft & 1<<31)==0) ft=0x000FFD00;
sprintf(pathcomp+strlen(pathcomp), ",%03x", (int)(ft>>8) & 0xFFF);
}
#endif /* ACORN_FTYPE_NFS */
if (*pathcomp == '\0') {
Info(slide, 1, ((char *)slide, LoadFarString(ConversionFailed),
FnFilter1(G.filename)));
return (error & ~MPN_MASK) | MPN_ERR_SKIP;
}
checkdir(__G__ pathcomp, APPEND_NAME); /* returns 1 if truncated: care? */
checkdir(__G__ G.filename, GETPATH);
Trace((stderr, "mapname returns with filename = [%s] (error = %d)\n\n",
FnFilter1(G.filename), error));
if (G.pInfo->vollabel) { /* set the volume label now */
VOLUMELABEL FSInfoBuf;
/* GRR: "VOLUMELABEL" defined for IBM C and emx, but haven't checked MSC... */
strcpy(FSInfoBuf.szVolLabel, G.filename);
FSInfoBuf.cch = (BYTE)strlen(FSInfoBuf.szVolLabel);
if (!uO.qflag)
Info(slide, 0, ((char *)slide, LoadFarString(Labelling),
(char)(G.os2.nLabelDrive + 'a' - 1), FnFilter1(G.filename)));
if (DosSetFSInfo(G.os2.nLabelDrive, FSIL_VOLSER, (PBYTE)&FSInfoBuf,
sizeof(VOLUMELABEL)))
{
Info(slide, 1, ((char *)slide, LoadFarString(ErrSetVolLabel)));
return (error & ~MPN_MASK) | MPN_ERR_SKIP;
}
/* success: skip the "extraction" quietly */
return (error & ~MPN_MASK) | MPN_INF_SKIP;
}
return error;
} /* end function mapname() */
/***********************/
/* Function checkdir() */
/***********************/
int checkdir(__G__ pathcomp, flag)
__GDEF
char *pathcomp;
int flag;
/*
* returns:
* MPN_OK - no problem detected
* MPN_INF_TRUNC - (on APPEND_NAME) truncated filename
* MPN_INF_SKIP - path doesn't exist, not allowed to create
* MPN_ERR_SKIP - path doesn't exist, tried to create and failed; or path
* exists and is not a directory, but is supposed to be
* MPN_ERR_TOOLONG - path is too long
* MPN_NOMEM - can't allocate memory for filename buffers
*/
{
/* moved to os2data.h so they can be global */
#if 0
static int rootlen = 0; /* length of rootpath */
static char *rootpath; /* user's "extract-to" directory */
static char *buildpathHPFS; /* full path (so far) to extracted file, */
static char *buildpathFAT; /* both HPFS/EA (main) and FAT versions */
static char *endHPFS; /* corresponding pointers to end of */
static char *endFAT; /* buildpath ('\0') */
#endif
# define FN_MASK 7
# define FUNCTION (flag & FN_MASK)
/*---------------------------------------------------------------------------
APPEND_DIR: append the path component to the path being built and check
for its existence. If doesn't exist and we are creating directories, do
so for this one; else signal success or error as appropriate.
---------------------------------------------------------------------------*/
if (FUNCTION == APPEND_DIR) {
char *p = pathcomp;
int longdirEA, too_long=FALSE;
Trace((stderr, "appending dir segment [%s]\n", FnFilter1(pathcomp)));
while ((*G.os2.endHPFS = *p++) != '\0') /* copy to HPFS filename */
++G.os2.endHPFS;
if (IsFileNameValid(G.os2.buildpathHPFS)) {
longdirEA = FALSE;
p = pathcomp;
while ((*G.os2.endFAT = *p++) != '\0') /* copy to FAT filename, too */
++G.os2.endFAT;
} else {
longdirEA = TRUE;
/* GRR: check error return? */
map2fat(pathcomp, &G.os2.endFAT); /* map, put in FAT fn, update endFAT */
}
/* GRR: could do better check, see if overrunning buffer as we go:
* check endHPFS-G.os2.buildpathHPFS after each append, set warning variable
* if within 20 of FILNAMSIZ; then if var set, do careful check when
* appending. Clear variable when begin new path. */
/* next check: need to append '/', at least one-char name, '\0' */
if ((G.os2.endHPFS-G.os2.buildpathHPFS) > FILNAMSIZ-3)
too_long = TRUE; /* check if extracting dir? */
#ifdef MSC /* MSC 6.00 bug: stat(non-existent-dir) == 0 [exists!] */
if (GetFileTime(G.os2.buildpathFAT) == -1 || stat(G.os2.buildpathFAT, &G.statbuf))
#else
if (stat(G.os2.buildpathFAT, &G.statbuf)) /* path doesn't exist */
#endif
{
if (!G.create_dirs) { /* told not to create (freshening) */
free(G.os2.buildpathHPFS);
free(G.os2.buildpathFAT);
/* path doesn't exist: nothing to do */
return MPN_INF_SKIP;
}
if (too_long) { /* GRR: should allow FAT extraction w/o EAs */
Info(slide, 1, ((char *)slide, LoadFarString(PathTooLong),
FnFilter1(G.os2.buildpathHPFS)));
free(G.os2.buildpathHPFS);
free(G.os2.buildpathFAT);
/* no room for filenames: fatal */
return MPN_ERR_TOOLONG;
}
if (MKDIR(G.os2.buildpathFAT, 0777) == -1) { /* create the directory */
Info(slide, 1, ((char *)slide, LoadFarString(CantCreateDir),
FnFilter2(G.os2.buildpathFAT), FnFilter1(G.filename)));
free(G.os2.buildpathHPFS);
free(G.os2.buildpathFAT);
/* path didn't exist, tried to create, failed */
return MPN_ERR_SKIP;
}
G.os2.created_dir = TRUE;
/* only set EA if creating directory */
/* GRR: need trailing '/' before function call? */
if (longdirEA) {
#ifdef DEBUG
int e =
#endif
SetLongNameEA(G.os2.buildpathFAT, pathcomp);
Trace((stderr, "APPEND_DIR: SetLongNameEA() returns %d\n", e));
}
} else if (!S_ISDIR(G.statbuf.st_mode)) {
Info(slide, 1, ((char *)slide, LoadFarString(DirIsntDirectory),
FnFilter2(G.os2.buildpathFAT), FnFilter1(G.filename)));
free(G.os2.buildpathHPFS);
free(G.os2.buildpathFAT);
/* path existed but wasn't dir */
return MPN_ERR_SKIP;
}
if (too_long) {
Info(slide, 1, ((char *)slide, LoadFarString(PathTooLong),
FnFilter1(G.os2.buildpathHPFS)));
free(G.os2.buildpathHPFS);
free(G.os2.buildpathFAT);
/* no room for filenames: fatal */
return MPN_ERR_TOOLONG;
}
*G.os2.endHPFS++ = '/';
*G.os2.endFAT++ = '/';
*G.os2.endHPFS = *G.os2.endFAT = '\0';
Trace((stderr, "buildpathHPFS now = [%s]\n",
FnFilter1(G.os2.buildpathHPFS)));
Trace((stderr, "buildpathFAT now = [%s]\n",
FnFilter1(G.os2.buildpathFAT)));
return MPN_OK;
} /* end if (FUNCTION == APPEND_DIR) */
/*---------------------------------------------------------------------------
GETPATH: copy full FAT path to the string pointed at by pathcomp (want
filename to reflect name used on disk, not EAs; if full path is HPFS,
buildpathFAT and buildpathHPFS will be identical). Also free both paths.
---------------------------------------------------------------------------*/
if (FUNCTION == GETPATH) {
Trace((stderr, "getting and freeing FAT path [%s]\n",
FnFilter1(G.os2.buildpathFAT)));
Trace((stderr, "freeing HPFS path [%s]\n",
FnFilter1(G.os2.buildpathHPFS)));
strcpy(pathcomp, G.os2.buildpathFAT);
free(G.os2.buildpathFAT);
free(G.os2.buildpathHPFS);
G.os2.buildpathHPFS = G.os2.buildpathFAT = G.os2.endHPFS = G.os2.endFAT = (char *)NULL;
return MPN_OK;
}
/*---------------------------------------------------------------------------
APPEND_NAME: assume the path component is the filename; append it and
return without checking for existence.
---------------------------------------------------------------------------*/
if (FUNCTION == APPEND_NAME) {
char *p = pathcomp;
int error = MPN_OK;
Trace((stderr, "appending filename [%s]\n", FnFilter1(pathcomp)));
/* The buildpathHPFS buffer has been allocated large enough to
* hold the complete combined name, so there is no need to check
* for OS filename size limit overflow within the copy loop.
*/
while ((*G.os2.endHPFS = *p++) != '\0') { /* copy to HPFS filename */
++G.os2.endHPFS;
}
/* Now, check for OS filename size overflow. When detected, the
* mapped HPFS name is truncated and a warning message is shown.
*/
if ((G.os2.endHPFS-G.os2.buildpathHPFS) >= FILNAMSIZ) {
G.os2.buildpathHPFS[FILNAMSIZ-1] = '\0';
Info(slide, 1, ((char *)slide, LoadFarString(PathTooLongTrunc),
FnFilter1(G.filename), FnFilter2(G.os2.buildpathHPFS)));
error = MPN_INF_TRUNC; /* filename truncated */
}
/* GRR: how can longnameEA ever be set before this point??? we don't want
* to save the original name to EAs if user renamed it, do we?
*
* if (!G.os2.longnameEA && ((G.os2.longnameEA = !IsFileNameValid(name)) != 0))
*/
/* The buildpathFAT buffer has the same allocated size as the
* buildpathHPFS buffer, so there is no need for an overflow check
* within the following copy loop, either.
*/
if (G.pInfo->vollabel || IsFileNameValid(G.os2.buildpathHPFS)) {
G.os2.longnameEA = FALSE;
/* copy to FAT filename, too */
p = pathcomp;
while ((*G.os2.endFAT = *p++) != '\0')
++G.os2.endFAT;
} else {
G.os2.longnameEA = TRUE;
if ((G.os2.lastpathcomp = (char *)malloc(strlen(pathcomp)+1)) ==
(char *)NULL)
{
Info(slide, 1, ((char *)slide,
"checkdir warning: cannot save longname EA: out of memory\n"));
G.os2.longnameEA = FALSE;
/* can't set .LONGNAME extended attribute */
error = MPN_INF_TRUNC;
} else /* used and freed in close_outfile() */
strcpy(G.os2.lastpathcomp, pathcomp);
/* map, put in FAT fn, update endFAT */
map2fat(pathcomp, &G.os2.endFAT);
}
/* Check that the FAT path does not exceed the FILNAMSIZ limit, and
* truncate when neccessary.
* Note that truncation can only happen when the HPFS path (which is
* never shorter than the FAT path) has been already truncated.
* So, emission of the warning message and setting the error code
* has already happened.
*/
if ((G.os2.endFAT-G.os2.buildpathFAT) >= FILNAMSIZ)
G.os2.buildpathFAT[FILNAMSIZ-1] = '\0';
Trace((stderr, "buildpathHPFS: %s\nbuildpathFAT: %s\n",
FnFilter1(G.os2.buildpathHPFS), FnFilter2(G.os2.buildpathFAT)));
return error; /* could check for existence, prompt for new name... */
} /* end if (FUNCTION == APPEND_NAME) */
/*---------------------------------------------------------------------------
INIT: allocate and initialize buffer space for the file currently being
extracted. If file was renamed with an absolute path, don't prepend the
extract-to path.
---------------------------------------------------------------------------*/
if (FUNCTION == INIT) {
Trace((stderr, "initializing buildpathHPFS and buildpathFAT to "));
#ifdef ACORN_FTYPE_NFS
if ((G.os2.buildpathHPFS = (char *)malloc(G.os2.fnlen+G.os2.rootlen+
(uO.acorn_nfs_ext ? 5 : 1)))
#else
if ((G.os2.buildpathHPFS = (char *)malloc(G.os2.fnlen+G.os2.rootlen+1))
#endif
== (char *)NULL)
return MPN_NOMEM;
#ifdef ACORN_FTYPE_NFS
if ((G.os2.buildpathFAT = (char *)malloc(G.os2.fnlen+G.os2.rootlen+
(uO.acorn_nfs_ext ? 5 : 1)))
#else
if ((G.os2.buildpathFAT = (char *)malloc(G.os2.fnlen+G.os2.rootlen+1))
#endif
== (char *)NULL) {
free(G.os2.buildpathHPFS);
return MPN_NOMEM;
}
if (G.pInfo->vollabel) { /* use root or renamed path, but don't store */
/* GRR: for network drives, do strchr() and return IZ_VOL_LABEL if not [1] */
if (G.os2.renamed_fullpath && pathcomp[1] == ':')
*G.os2.buildpathHPFS = (char)ToLower(*pathcomp);
else if (!G.os2.renamed_fullpath && G.os2.rootlen > 1 && G.os2.rootpath[1] == ':')
*G.os2.buildpathHPFS = (char)ToLower(*G.os2.rootpath);
else {
ULONG lMap;
DosQueryCurrentDisk(&G.os2.nLabelDrive, &lMap);
*G.os2.buildpathHPFS = (char)(G.os2.nLabelDrive - 1 + 'a');
}
G.os2.nLabelDrive = *G.os2.buildpathHPFS - 'a' + 1; /* save for mapname() */
if (uO.volflag == 0 || *G.os2.buildpathHPFS < 'a' || /* no labels/bogus? */
(uO.volflag == 1 && !isfloppy(G.os2.nLabelDrive))) { /* -$: no fixed */
free(G.os2.buildpathHPFS);
free(G.os2.buildpathFAT);
return MPN_VOL_LABEL; /* skipping with message */
}
*G.os2.buildpathHPFS = '\0';
} else if (G.os2.renamed_fullpath) /* pathcomp = valid data */
strcpy(G.os2.buildpathHPFS, pathcomp);
else if (G.os2.rootlen > 0)
strcpy(G.os2.buildpathHPFS, G.os2.rootpath);
else
*G.os2.buildpathHPFS = '\0';
G.os2.endHPFS = G.os2.buildpathHPFS;
G.os2.endFAT = G.os2.buildpathFAT;
while ((*G.os2.endFAT = *G.os2.endHPFS) != '\0') {
++G.os2.endFAT;
++G.os2.endHPFS;
}
Trace((stderr, "[%s]\n", FnFilter1(G.os2.buildpathHPFS)));
return MPN_OK;
}
/*---------------------------------------------------------------------------
ROOT: if appropriate, store the path in rootpath and create it if neces-
sary; else assume it's a zipfile member and return. This path segment
gets used in extracting all members from every zipfile specified on the
command line. Note that under OS/2 and MS-DOS, if a candidate extract-to
directory specification includes a drive letter (leading "x:"), it is
treated just as if it had a trailing '/'--that is, one directory level
will be created if the path doesn't exist, unless this is otherwise pro-
hibited (e.g., freshening).
---------------------------------------------------------------------------*/
#if (!defined(SFX) || defined(SFX_EXDIR))
if (FUNCTION == ROOT) {
Trace((stderr, "initializing root path to [%s]\n",
FnFilter1(pathcomp)));
if (pathcomp == (char *)NULL) {
G.os2.rootlen = 0;
return MPN_OK;
}
if (G.os2.rootlen > 0) /* rootpath was already set, nothing to do */
return MPN_OK;
if ((G.os2.rootlen = strlen(pathcomp)) > 0) {
int had_trailing_pathsep=FALSE, has_drive=FALSE, add_dot=FALSE;
char *tmproot;
if ((tmproot = (char *)malloc(G.os2.rootlen+3)) == (char *)NULL) {
G.os2.rootlen = 0;
return MPN_NOMEM;
}
strcpy(tmproot, pathcomp);
if (isalpha((uch)tmproot[0]) && tmproot[1] == ':')
has_drive = TRUE; /* drive designator */
if (tmproot[G.os2.rootlen-1] == '/') {
tmproot[--G.os2.rootlen] = '\0';
had_trailing_pathsep = TRUE;
}
if (has_drive && (G.os2.rootlen == 2)) {
if (!had_trailing_pathsep) /* i.e., original wasn't "x:/" */
add_dot = TRUE; /* relative path: add '.' before '/' */
} else if (G.os2.rootlen > 0) { /* need not check "x:." and "x:/" */
#ifdef MSC /* MSC 6.00 bug: stat(non-existent-dir) == 0 [exists!] */
if (GetFileTime(tmproot) == -1 ||
SSTAT(tmproot, &G.statbuf) || !S_ISDIR(G.statbuf.st_mode))
#else
if (SSTAT(tmproot, &G.statbuf) || !S_ISDIR(G.statbuf.st_mode))
#endif
{ /* path does not exist */
if (!G.create_dirs /* || iswild(tmproot) */
) {
free(tmproot);
G.os2.rootlen = 0;
return MPN_INF_SKIP; /* treat as stored file */
}
/* create directory (could add loop here scanning tmproot
* to create more than one level, but really necessary?) */
if (MKDIR(tmproot, 0777) == -1) {
Info(slide, 1, ((char *)slide,
LoadFarString(CantCreateExtractDir),
FnFilter1(tmproot)));
free(tmproot);
G.os2.rootlen = 0;
/* path didn't exist, tried to create, failed: */
/* file exists, or need 2+ directory levels */
return MPN_ERR_SKIP;
}
}
}
if (add_dot) /* had just "x:", make "x:." */
tmproot[G.os2.rootlen++] = '.';
tmproot[G.os2.rootlen++] = '/';
tmproot[G.os2.rootlen] = '\0';
if ((G.os2.rootpath = realloc(tmproot, G.os2.rootlen+1)) == NULL) {
free(tmproot);
G.os2.rootlen = 0;
return MPN_NOMEM;
}
Trace((stderr, "rootpath now = [%s]\n", FnFilter1(G.os2.rootpath)));
}
return MPN_OK;
}
#endif /* !SFX || SFX_EXDIR */
/*---------------------------------------------------------------------------
END: free rootpath, immediately prior to program exit.
---------------------------------------------------------------------------*/
if (FUNCTION == END) {
Trace((stderr, "freeing rootpath\n"));
if (G.os2.rootlen > 0) {
free(G.os2.rootpath);
G.os2.rootlen = 0;
}
return MPN_OK;
}
return MPN_INVALID; /* should never reach */
} /* end function checkdir() */
/***********************/
/* Function isfloppy() */ /* more precisely, is it removable? */
/***********************/
static int isfloppy(nDrive)
int nDrive; /* 1 == A:, 2 == B:, etc. */
{
uch ParmList[1] = {0};
uch DataArea[1] = {0};
char Name[3];
HFILE handle;
#ifdef __32BIT__
ULONG rc;
ULONG action;
#else
USHORT rc;
USHORT action;
#endif
Name[0] = (char) (nDrive + 'A' - 1);
Name[1] = ':';
Name[2] = 0;
rc = DosOpen(Name, &handle, &action, 0L, FILE_NORMAL, FILE_OPEN,
OPEN_FLAGS_DASD | OPEN_FLAGS_FAIL_ON_ERROR |
OPEN_ACCESS_READONLY | OPEN_SHARE_DENYNONE, 0L);
if (rc == ERROR_NOT_READY) /* must be removable */
return TRUE;
else if (rc) { /* other error: do default a/b heuristic instead */
Trace((stderr, "error in DosOpen(DASD): guessing...\n", rc));
return (nDrive == 1 || nDrive == 2)? TRUE : FALSE;
}
rc = DosDevIOCtl(DataArea, sizeof(DataArea), ParmList, sizeof(ParmList),
DSK_BLOCKREMOVABLE, IOCTL_DISK, handle);
DosClose(handle);
if (rc) { /* again, just check for a/b */
Trace((stderr, "error in DosDevIOCtl category IOCTL_DISK, function "
"DSK_BLOCKREMOVABLE\n (rc = 0x%04x): guessing...\n", rc));
return (nDrive == 1 || nDrive == 2)? TRUE : FALSE;
} else {
return DataArea[0] ? FALSE : TRUE;
}
} /* end function isfloppy() */
static int IsFileNameValid(const char *name)
{
HFILE hf;
#ifdef __32BIT__
ULONG uAction;
#else
USHORT uAction;
#endif
switch( DosOpen((PSZ) name, &hf, &uAction, 0, 0, FILE_OPEN,
OPEN_ACCESS_READONLY | OPEN_SHARE_DENYNONE, 0) )
{
case ERROR_INVALID_NAME:
case ERROR_FILENAME_EXCED_RANGE:
return FALSE;
case NO_ERROR:
DosClose(hf);
default:
return TRUE;
}
}
/**********************/
/* Function map2fat() */
/**********************/
static void map2fat(pathcomp, pEndFAT)
char *pathcomp, **pEndFAT;
{
char *ppc = pathcomp; /* variable pointer to pathcomp */
char *pEnd = *pEndFAT; /* variable pointer to buildpathFAT */
char *pBegin = *pEndFAT; /* constant pointer to start of this comp. */
char *last_dot = (char *)NULL; /* last dot not converted to underscore */
int dotname = FALSE; /* flag: path component begins with dot */
/* ("." and ".." don't count) */
register unsigned workch; /* hold the character being tested */
/* Only need check those characters which are legal in HPFS but not
* in FAT: to get here, must already have passed through mapname.
* (GRR: oops, small bug--if char was quoted, no longer have any
* knowledge of that.) Also must truncate path component to ensure
* 8.3 compliance...
*/
while ((workch = (uch)*ppc++) != 0) {
switch (workch) {
case '[': /* add '"' '+' ',' '=' ?? */
case ']':
*pEnd++ = '_'; /* convert brackets to underscores */
break;
case '.':
if (pEnd == *pEndFAT) { /* nothing appended yet... */
if (*ppc == '\0') /* don't bother appending a */
break; /* "./" component to the path */
else if (*ppc == '.' && ppc[1] == '\0') { /* "../" */
*pEnd++ = '.'; /* add first dot, unchanged... */
++ppc; /* skip second dot, since it will */
} else { /* be "added" at end of if-block */
*pEnd++ = '_'; /* FAT doesn't allow null filename */
dotname = TRUE; /* bodies, so map .exrc -> _.exrc */
} /* (extra '_' now, "dot" below) */
} else if (dotname) { /* found a second dot, but still */
dotname = FALSE; /* have extra leading underscore: */
*pEnd = '\0'; /* remove it by shifting chars */
pEnd = *pEndFAT + 1; /* left one space (e.g., .p1.p2: */
while (pEnd[1]) { /* __p1 -> _p1_p2 -> _p1.p2 when */
*pEnd = pEnd[1]; /* finished) [opt.: since first */
++pEnd; /* two chars are same, can start */
} /* shifting at second position] */
}
last_dot = pEnd; /* point at last dot so far... */
*pEnd++ = '_'; /* convert dot to underscore for now */
break;
default:
*pEnd++ = (char)workch;
} /* end switch */
} /* end while loop */
*pEnd = '\0'; /* terminate buildpathFAT */
/* NOTE: keep in mind that pEnd points to the end of the path
* component, and *pEndFAT still points to the *beginning* of it...
* Also note that the algorithm does not try to get too fancy:
* if there are no dots already, the name either gets truncated
* at 8 characters or the last underscore is converted to a dot
* (only if more characters are saved that way). In no case is
* a dot inserted between existing characters.
*/
if (last_dot == (char *)NULL) { /* no dots: check for underscores... */
char *plu = strrchr(pBegin, '_'); /* pointer to last underscore */
if (plu == (char *)NULL) { /* no dots, no underscores: truncate at 8 */
*pEndFAT += 8; /* chars (could insert '.' and keep 11...) */
if (*pEndFAT > pEnd)
*pEndFAT = pEnd; /* oops...didn't have 8 chars to truncate */
else
**pEndFAT = '\0';
} else if (MIN(plu - pBegin, 8) + MIN(pEnd - plu - 1, 3) > 8) {
last_dot = plu; /* be lazy: drop through to next if-block */
} else if ((pEnd - *pEndFAT) > 8) {
*pEndFAT += 8; /* more fits into just basename than if */
**pEndFAT = '\0'; /* convert last underscore to dot */
} else
*pEndFAT = pEnd; /* whole thing fits into 8 chars or less */
}
if (last_dot != (char *)NULL) { /* one dot (or two, in the case of */
*last_dot = '.'; /* "..") is OK: put it back in */
if ((last_dot - pBegin) > 8) {
char *p, *q;
int i;
p = last_dot;
q = last_dot = pBegin + 8;
for (i = 0; (i < 4) && *p; ++i) /* too many chars in basename: */
*q++ = *p++; /* shift ".ext" left and */
*q = '\0'; /* truncate/terminate it */
*pEndFAT = q;
} else if ((pEnd - last_dot) > 4) { /* too many chars in extension */
*pEndFAT = last_dot + 4;
**pEndFAT = '\0';
} else
*pEndFAT = pEnd; /* filename is fine; point at terminating zero */
if ((last_dot - pBegin) > 0 && last_dot[-1] == ' ')
last_dot[-1] = '_'; /* NO blank in front of '.'! */
}
} /* end function map2fat() */
static int SetLongNameEA(char *name, char *longname)
{
EAOP eaop;
FEALST fealst;
eaop.fpFEAList = (PFEALIST) &fealst;
eaop.fpGEAList = NULL;
eaop.oError = 0;
strcpy((char *) fealst.szName, ".LONGNAME");
strcpy((char *) fealst.szValue, longname);
fealst.cbList = sizeof(fealst) - CCHMAXPATH + strlen((char *) fealst.szValue);
fealst.cbName = (BYTE) strlen((char *) fealst.szName);
fealst.cbValue = sizeof(USHORT) * 2 + strlen((char *) fealst.szValue);
#ifdef __32BIT__
fealst.oNext = 0;
#endif
fealst.fEA = 0;
fealst.eaType = 0xFFFD;
fealst.eaSize = strlen((char *) fealst.szValue);
return DosSetPathInfo(name, FIL_QUERYEASIZE,
(PBYTE) &eaop, sizeof(eaop), 0);
}
/****************************/
/* Function close_outfile() */
/****************************/
/* GRR: need to return error level!! */
void close_outfile(__G) /* only for extracted files, not directories */
__GDEF
{
fclose(G.outfile);
/* set extra fields, both stored-in-zipfile and .LONGNAME flavors */
if (G.extra_field) { /* zipfile extra field may have extended attribs */
int err = EvalExtraFields(__G__ G.filename, G.extra_field,
G.lrec.extra_field_length);
if (err == IZ_EF_TRUNC) {
if (uO.qflag)
Info(slide, 1, ((char *)slide, "%-22s ",
FnFilter1(G.filename)));
Info(slide, 1, ((char *)slide, LoadFarString(TruncEAs),
makeword(G.extra_field+2)-10, uO.qflag? "\n" : ""));
}
}
if (G.os2.longnameEA) {
#ifdef DEBUG
int e =
#endif
SetLongNameEA(G.filename, G.os2.lastpathcomp);
Trace((stderr, "close_outfile: SetLongNameEA() returns %d\n", e));
free(G.os2.lastpathcomp);
}
/* set date/time and permissions */
SetPathAttrTimes(__G__ G.pInfo->file_attr, 0);
} /* end function close_outfile() */
/******************************/
/* Function check_for_newer() */
/******************************/
int check_for_newer(__G__ filename) /* return 1 if existing file newer or equal; */
__GDEF
char *filename; /* 0 if older; -1 if doesn't exist yet */
{
ulg existing, archive;
#ifdef USE_EF_UT_TIME
iztimes z_utime;
#endif
if ((existing = (ulg)GetFileTime(filename)) == (ulg)-1)
return DOES_NOT_EXIST;
#ifdef USE_EF_UT_TIME
if (G.extra_field &&
#ifdef IZ_CHECK_TZ
G.tz_is_valid &&
#endif
(ef_scan_for_izux(G.extra_field, G.lrec.extra_field_length, 0,
G.lrec.last_mod_dos_datetime, &z_utime, NULL)
& EB_UT_FL_MTIME))
{
TTrace((stderr, "check_for_newer: using Unix extra field mtime\n"));
archive = Utime2DosDateTime(z_utime.mtime);
} else {
archive = G.lrec.last_mod_dos_datetime;
}
#else /* !USE_EF_UT_TIME */
archive = G.lrec.last_mod_dos_datetime;
#endif /* ?USE_EF_UT_TIME */
return (existing >= archive);
} /* end function check_for_newer() */
#ifndef SFX
/*************************/
/* Function dateformat() */
/*************************/
int dateformat()
{
/*-----------------------------------------------------------------------------
For those operating systems which support it, this function returns a value
which tells how national convention says that numeric dates are displayed.
Return values are DF_YMD, DF_DMY and DF_MDY.
-----------------------------------------------------------------------------*/
switch (GetCountryInfo()) {
case 0:
return DF_MDY;
case 1:
return DF_DMY;
case 2:
return DF_YMD;
}
return DF_MDY; /* default if error */
} /* end function dateformat() */
/************************/
/* Function version() */
/************************/
void version(__G)
__GDEF
{
int len;
#if defined(__IBMC__) || defined(__WATCOMC__) || defined(_MSC_VER)
char buf[80];
#endif
len = sprintf((char *)slide, LoadFarString(CompiledWith),
#if defined(__GNUC__)
# ifdef __EMX__ /* __EMX__ is defined as "1" only (sigh) */
"emx+gcc ", __VERSION__,
# else
"gcc ", __VERSION__,
# endif
#elif defined(__IBMC__)
"IBM ",
# if (__IBMC__ < 200)
(sprintf(buf, "C Set/2 %d.%02d", __IBMC__/100,__IBMC__%100), buf),
# elif (__IBMC__ < 300)
(sprintf(buf, "C Set++ %d.%02d", __IBMC__/100,__IBMC__%100), buf),
# else
(sprintf(buf, "Visual Age C++ %d.%02d", __IBMC__/100,__IBMC__%100), buf),
# endif
#elif defined(__WATCOMC__)
"Watcom C", (sprintf(buf, " (__WATCOMC__ = %d)", __WATCOMC__), buf),
#elif defined(__TURBOC__)
# ifdef __BORLANDC__
"Borland C++",
# if (__BORLANDC__ < 0x0460)
" 1.0",
# elif (__BORLANDC__ == 0x0460)
" 1.5", /* from Kai Uwe: three less than DOS */
# else
" 2.0", /* (__BORLANDC__ == 0x0500)? */
# endif
# else
"Turbo C", /* these are probably irrelevant */
# if (__TURBOC__ >= 661)
"++ 1.0 or later",
# elif (__TURBOC__ == 661)
" 3.0?",
# elif (__TURBOC__ == 397)
" 2.0",
# else
" 1.0 or 1.5?",
# endif
# endif
#elif defined(MSC)
"Microsoft C ",
# ifdef _MSC_VER
(sprintf(buf, "%d.%02d", _MSC_VER/100, _MSC_VER%100), buf),
# else
"5.1 or earlier",
# endif
#else
"unknown compiler", "",
#endif /* ?compilers */
"OS/2",
/* GRR: does IBM C/2 identify itself as IBM rather than Microsoft? */
#if (defined(MSC) || (defined(__WATCOMC__) && !defined(__386__)))
# if defined(M_I86HM) || defined(__HUGE__)
" (16-bit, huge)",
# elif defined(M_I86LM) || defined(__LARGE__)
" (16-bit, large)",
# elif defined(M_I86MM) || defined(__MEDIUM__)
" (16-bit, medium)",
# elif defined(M_I86CM) || defined(__COMPACT__)
" (16-bit, compact)",
# elif defined(M_I86SM) || defined(__SMALL__)
" (16-bit, small)",
# elif defined(M_I86TM) || defined(__TINY__)
" (16-bit, tiny)",
# else
" (16-bit)",
# endif
#else
" (32-bit)",
#endif
#ifdef __DATE__
" on ", __DATE__
#else
"", ""
#endif
);
(*G.message)((zvoid *)&G, slide, (ulg)len, 0);
/* MSC can't handle huge macro expansions */
/* temporary debugging code for Borland compilers only */
/* __TCPLUSPLUS__, __BCPLUSPLUS__ not defined for v1.5 */
#if (defined(__TURBOC__) && defined(DEBUG))
Info(slide, 0, ((char *)slide, "\t(__TURBOC__ = 0x%04x = %d)\n", __TURBOC__,
__TURBOC__));
#ifdef __BORLANDC__
Info(slide, 0, ((char *)slide, "\t(__BORLANDC__ = 0x%04x)\n",__BORLANDC__));
#else
Info(slide, 0, ((char *)slide, "\tdebug(__BORLANDC__ not defined)\n"));
#endif
#endif /* __TURBOC__ && DEBUG */
} /* end function version() */
#endif /* !SFX */
#endif /* !FUNZIP */
#ifdef MY_ZCALLOC /* Special zcalloc function for MEMORY16 (MSDOS/OS2) */
#if defined(MSC) || defined(__WATCOMC__)
#if (!defined(_MSC_VER) || (_MSC_VER < 700))
# define _halloc halloc
# define _hfree hfree
#endif
zvoid far *zcalloc (unsigned items, unsigned size)
{
return (zvoid far *)_halloc((long)items, size);
}
zvoid zcfree (zvoid far *ptr)
{
_hfree((void huge *)ptr);
}
#endif /* MSC || __WATCOMC__ */
#endif /* MY_ZCALLOC */
#ifndef FUNZIP
/* This table can be static because it is pseudo-constant */
static unsigned char cUpperCase[256], cLowerCase[256];
static BOOL bInitialized=FALSE;
/* Initialize the tables of upper- and lowercase characters, including
handling of country-dependent characters. */
static void InitNLS(void)
{
unsigned nCnt, nU;
COUNTRYCODE cc;
if (bInitialized == FALSE) {
bInitialized = TRUE;
for ( nCnt = 0; nCnt < 256; nCnt++ )
cUpperCase[nCnt] = cLowerCase[nCnt] = (unsigned char) nCnt;
cc.country = cc.codepage = 0;
DosMapCase(sizeof(cUpperCase), &cc, (PCHAR) cUpperCase);
for ( nCnt = 0; nCnt < 256; nCnt++ ) {
nU = cUpperCase[nCnt];
if (nU != nCnt && cLowerCase[nU] == (unsigned char) nU)
cLowerCase[nU] = (unsigned char) nCnt;
}
for ( nCnt = 'A'; nCnt <= 'Z'; nCnt++ )
cLowerCase[nCnt] = (unsigned char) (nCnt - 'A' + 'a');
}
}
int IsUpperNLS(int nChr)
{
return (cUpperCase[nChr] == (unsigned char) nChr);
}
int ToLowerNLS(int nChr)
{
return cLowerCase[nChr];
}
char *StringLower(char *szArg)
{
unsigned char *szPtr;
for ( szPtr = (unsigned char *) szArg; *szPtr; szPtr++ )
*szPtr = cLowerCase[*szPtr];
return szArg;
}
#ifdef MORE
int screensize(int *tt_rows, int *tt_cols)
{
#ifdef __EMX__
int dst[2];
_scrsize(dst);
if (tt_rows != NULL) *tt_rows = dst[1];
if (tt_cols != NULL) *tt_cols = dst[0];
#else
VIOMODEINFO vmi;
vmi.cb = sizeof(vmi);
VioGetMode(&vmi, 0);
if (tt_rows != NULL) *tt_rows = vmi.row;
if (tt_cols != NULL) *tt_cols = vmi.col;
#endif
return 0;
}
#endif /* MORE */
#if defined(__IBMC__) && defined(__DEBUG_ALLOC__)
void DebugMalloc(void)
{
_dump_allocated(0); /* print out debug malloc memory statistics */
}
#endif
#if defined(REENTRANT) && defined(USETHREADID)
ulg GetThreadId(void)
{
PTIB pptib; /* Address of a pointer to the
Thread Information Block */
PPIB pppib; /* Address of a pointer to the
Process Information Block */
DosGetInfoBlocks(&pptib, &pppib);
return pptib->tib_ptib2->tib2_ultid;
}
#endif /* defined(REENTRANT) && defined(USETHREADID) */
void os2GlobalsCtor(__GPRO)
{
G.os2.nLastDrive = (USHORT)(-1);
#ifdef OS2DLL
G.os2.rexx_mes = "0";
#endif
InitNLS();
}
#endif /* !FUNZIP */