Leaked source code of windows server 2003
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1963 lines
67 KiB

/*
* MODIFICATION HISTORY
*
* M001 07/08/87 rlb
* - Added NOIOPL recognition (PTM 6075).
* - Version number changed to 1.00.01.
* M002 10/05/87 rlb
* - Added REALMODE
* - Version number ==> 1.00.02
*/
%token T_FALIAS
%token T_KCLASS
%token T_KNAME
%token T_KLIBRARY
%token T_KBASE
%token T_KDEVICE
%token T_KPHYSICAL
%token T_KVIRTUAL
%token T_ID
%token T_NUMBER
%token T_KDESCRIPTION
%token T_KHEAPSIZE
%token T_KSTACKSIZE
%token T_KMAXVAL
%token T_KCODE
%token T_KCONSTANT
%token <_wd> T_FDISCARDABLE T_FNONDISCARDABLE
%token T_FEXEC
%token T_FFIXED
%token T_FMOVABLE
%token T_FSWAPPABLE
%token T_FSHARED
%token T_FMIXED
%token T_FNONSHARED
%token T_FPRELOAD
%token T_FINVALID
%token T_FLOADONCALL
%token T_FRESIDENT
%token T_FPERM
%token T_FCONTIG
%token T_FDYNAMIC
%token T_FNONPERM
%token T_KDATA
%token T_FNONE
%token T_FSINGLE
%token T_FMULTIPLE
%token T_KSEGMENTS
%token T_KOBJECTS
%token T_KSECTIONS
%token T_KSTUB
%token T_KEXPORTS
%token T_KEXETYPE
%token T_KSUBSYSTEM
%token T_FDOS
%token T_FOS2
%token T_FUNKNOWN
%token T_FWINDOWS
%token T_FDEV386
%token T_FMACINTOSH
%token T_FWINDOWSNT
%token T_FWINDOWSCHAR
%token T_FPOSIX
%token T_FNT
%token T_FUNIX
%token T_KIMPORTS
%token T_KNODATA
%token T_KOLD
%token T_KCONFORM
%token T_KNONCONFORM
%token T_KEXPANDDOWN T_KNOEXPANDDOWN
%token T_EQ
%token T_AT
%token T_KRESIDENTNAME
%token T_KNONAME
%token T_STRING
%token T_DOT
%token T_COLON
%token T_COMA
%token T_ERROR
%token T_FHUGE T_FIOPL T_FNOIOPL
%token T_PROTMODE
%token T_FEXECREAD T_FRDWR
%token T_FRDONLY
%token T_FINITGLOB T_FINITINST T_FTERMINST
%token T_FWINAPI T_FWINCOMPAT T_FNOTWINCOMPAT T_FPRIVATE T_FNEWFILES
%token T_REALMODE
%token T_FUNCTIONS
%token T_APPLOADER
%token T_OVL
%token T_KVERSION
%{ /* SCCSID = %W% %E% */
#if _M_IX86 >= 300
#define M_I386 1
#define HOST32
#ifndef _WIN32
#define i386
#endif
#endif
#ifdef _WIN32
#ifndef HOST32
#define HOST32
#endif
#endif
#include <basetsd.h>
#include <stdio.h>
#include <string.h>
#include <malloc.h>
#include <stdlib.h>
#include <process.h>
#include <stdarg.h>
#include <io.h>
#include "impliber.h"
#include "verimp.h" /* VERSION_STRING header */
#ifdef _MBCS
#define _CRTVAR1
#include <mbctype.h>
#include <mbstring.h>
#endif
#define EXE386 0
#define NOT !
#define AND &&
#define OR ||
#define NEAR
#include <newexe.h>
typedef unsigned char BYTE; /* Byte */
#ifdef HOST32
#define FAR
#define HUGE
#define NEAR
#define FSTRICMP _stricmp
#define PASCAL
#else
#define FAR far
#define HUGE huge
#define FSTRICMP _fstricmp
#define PASCAL __pascal
#endif
#ifndef TRUE
#define TRUE 1
#endif
#ifndef FALSE
#define FALSE 0
#endif
#define C8_IDE TRUE
#ifndef LOCAL
#ifndef _WIN32
#define LOCAL static
#else
#define LOCAL
#endif
#endif
#define WRBIN "wb" /* Write only binary mode */
#define RDBIN "rb" /* Read only binary mode */
#define UPPER(c) (((c)>='a' && (c)<='z')? (c) - 'a' + 'A': (c))
/* Raise char to upper case */
#define YYS_WD(x) (x)._wd /* Access macro */
#define YYS_BP(x) (x)._bp /* Access macro */
#define SBMAX 255 /* Max. of length-prefixed string */
#define MAXDICLN 997 /* Max. no. of pages in dictionary */
#define PAGLEN 512 /* 512 bytes per page */
#define THEADR 0x80 /* THEADR record type */
#define COMENT 0x88 /* COMENT record type */
#define MODEND 0x8A /* MODEND record type */
#define PUBDEF 0x90 /* PUBDEF record type */
#define LIBHDR 0xF0 /* Library header recod */
#define DICHDR 0xF1 /* Dictionary header record */
#define MSEXT 0xA0 /* OMF extension comment class */
#define IMPDEF 0x01 /* IMPort DEFinition record */
#define NBUCKETS 37 /* Thirty-seven buckets per page */
#define PAGEFULL ((char)(0xFF)) /* Page full flag */
#define FREEWD 19 /* Word index of first free word */
#define WPP (PAGLEN >> 1) /* Number of words per page */
#define pagout(pb) fwrite(pb,1,PAGLEN,fo)
/* Write dictionary page to library */
#define INCLUDE_DIR 0xffff /* Include directive for the lexer */
#define MAX_NEST 7
#define IO_BUF_SIZE 512
typedef struct import /* Import record */
{
struct import *i_next; /* Link to next in list */
char *i_extnam; /* Pointer to external name */
char *i_internal; /* Pointer to internal name */
unsigned short i_ord; /* Ordinal number */
unsigned short i_flags; /* Extra flags */
}
IMPORT; /* Import record */
#define I_NEXT(x) (x).i_next
#define I_EXTNAM(x) (x).i_extnam
#define I_INTNAM(x) (x).i_internal
#define I_ORD(x) (x).i_ord
#define I_FLAGS(x) (x).i_flags
typedef unsigned char byte;
typedef unsigned short word;
#ifdef M68000
#define strrchr rindex
#endif
LOCAL int fIgnorecase = 1;/* True if ignoring case - default */
LOCAL int fBannerOnScreen;/* True if banner on screen */
LOCAL int fFileNameExpected = 1;
LOCAL int fNTdll; /* If true add file name extension to module names */
LOCAL int fIgnorewep = 0; /* True if ignoring multiple WEPs */
LOCAL FILE *includeDisp[MAX_NEST];
// Include file stack
LOCAL short curLevel; // Current include nesting level
// Zero means main .DEF file
char prognam[] = "IMPLIB";
FILE *fi; /* Input file */
FILE *fo; /* Output file */
int yylineno = 1; /* Line number */
char rgbid[SBMAX]; /* I.D. buffer */
char sbModule[SBMAX];/* Module name */
IMPORT *implist; /* List of importable symbols */
IMPORT *lastimp; /* Pointer to end of list */
IMPORT *newimps; /* List of importable symbols */
word csyms; /* Symbol count */
word csymsmod; /* Per-module symbol count */
long cbsyms; /* Symbol byte count */
word diclength; /* Dictionary length in PAGEs */
char *mpdpnpag[MAXDICLN];
/* Page buffer array */
char *defname; /* Name of definitions file */
int exitCode; /* code returned to OS */
#if C8_IDE
int fC8IDE = FALSE;
char msgBuf[_MAX_PATH];
#endif
LOCAL char moduleEXE[] = ".exe";
LOCAL char moduleDLL[] = ".dll";
word prime[] = /* Array of primes */
{
2, 3, 5, 7, 11, 13, 17, 19, 23, 29,
31, 37, 41, 43, 47, 53, 59, 61, 67, 71,
73, 79, 83, 89, 97, 101, 103, 107, 109, 113,
127, 131, 137, 139, 149, 151, 157, 163, 167, 173,
179, 181, 191, 193, 197, 199, 211, 223, 227, 229,
233, 239, 241, 251, 257, 263, 269, 271, 277, 281,
283, 293, 307, 311, 313, 317, 331, 337, 347, 349,
353, 359, 367, 373, 379, 383, 389, 397, 401, 409,
419, 421, 431, 433, 439, 443, 449, 457, 461, 463,
467, 479, 487, 491, 499, 503, 509, 521, 523, 541,
547, 557, 563, 569, 571, 577, 587, 593, 599, 601,
607, 613, 617, 619, 631, 641, 643, 647, 653, 659,
661, 673, 677, 683, 691, 701, 709, 719, 727, 733,
739, 743, 751, 757, 761, 769, 773, 787, 797, 809,
811, 821, 823, 827, 829, 839, 853, 857, 859, 863,
877, 881, 883, 887, 907, 911, 919, 929, 937, 941,
947, 953, 961, 967, 971, 977, 983, 991, MAXDICLN,
0
};
LOCAL void MOVE(int cb, char *src, char *dst);
LOCAL void DefaultModule(char *defaultExt);
LOCAL void NewModule(char *sbNew, char *defaultExt);
LOCAL char *alloc(word cb);
LOCAL void export(char *sbEntry, char *sbInternal, word ordno, word flags);
LOCAL word theadr(char *sbName);
LOCAL void outimpdefs(void);
LOCAL short symeq(char *ps1,char *ps2);
LOCAL void initsl(void);
LOCAL word rol(word x, word n);
LOCAL word ror(word x, word n);
LOCAL void hashsym(char *pf, word *pdpi, word *pdpid,word *pdpo, word *pdpod);
LOCAL void nullfill(char *pbyte, word length);
LOCAL int pagesearch(char *psym, char *dicpage, word *pdpo, word dpod);
LOCAL word instsym(IMPORT *psym);
LOCAL void nulpagout(void);
LOCAL void writedic(void);
LOCAL int IsPrefix(char *prefix, char *s);
LOCAL void DisplayBanner(void);
int NEAR yyparse(void);
LOCAL void yyerror(char *);
char *keywds[] = /* Keyword array */
{
"ALIAS", (char *) T_FALIAS,
"APPLOADER", (char *) T_APPLOADER,
"BASE", (char *) T_KBASE,
"CLASS", (char *) T_KCLASS,
"CODE", (char *) T_KCODE,
"CONFORMING", (char *) T_KCONFORM,
"CONSTANT", (char *) T_KCONSTANT,
"CONTIGUOUS", (char *) T_FCONTIG,
"DATA", (char *) T_KDATA,
"DESCRIPTION", (char *) T_KDESCRIPTION,
"DEV386", (char *) T_FDEV386,
"DEVICE", (char *) T_KDEVICE,
"DISCARDABLE", (char *) T_FDISCARDABLE,
"DOS", (char *) T_FDOS,
"DYNAMIC", (char *) T_FDYNAMIC,
"EXECUTE-ONLY", (char *) T_FEXEC,
"EXECUTEONLY", (char *) T_FEXEC,
"EXECUTEREAD", (char *) T_FEXECREAD,
"EXETYPE", (char *) T_KEXETYPE,
"EXPANDDOWN", (char *) T_KEXPANDDOWN,
"EXPORTS", (char *) T_KEXPORTS,
"FIXED", (char *) T_FFIXED,
"FUNCTIONS", (char *) T_FUNCTIONS,
"HEAPSIZE", (char *) T_KHEAPSIZE,
"HUGE", (char *) T_FHUGE,
"IMPORTS", (char *) T_KIMPORTS,
"IMPURE", (char *) T_FNONSHARED,
"INCLUDE", (char *) INCLUDE_DIR,
"INITGLOBAL", (char *) T_FINITGLOB,
"INITINSTANCE", (char *) T_FINITINST,
"INVALID", (char *) T_FINVALID,
"IOPL", (char *) T_FIOPL,
"LIBRARY", (char *) T_KLIBRARY,
"LOADONCALL", (char *) T_FLOADONCALL,
"LONGNAMES", (char *) T_FNEWFILES,
"MACINTOSH", (char *) T_FMACINTOSH,
"MAXVAL", (char *) T_KMAXVAL,
"MIXED1632", (char *) T_FMIXED,
"MOVABLE", (char *) T_FMOVABLE,
"MOVEABLE", (char *) T_FMOVABLE,
"MULTIPLE", (char *) T_FMULTIPLE,
"NAME", (char *) T_KNAME,
"NEWFILES", (char *) T_FNEWFILES,
"NODATA", (char *) T_KNODATA,
"NOEXPANDDOWN", (char *) T_KNOEXPANDDOWN,
"NOIOPL", (char *) T_FNOIOPL,
"NONAME", (char *) T_KNONAME,
"NONCONFORMING", (char *) T_KNONCONFORM,
"NONDISCARDABLE", (char *) T_FNONDISCARDABLE,
"NONE", (char *) T_FNONE,
"NONPERMANENT", (char *) T_FNONPERM,
"NONSHARED", (char *) T_FNONSHARED,
"NOTWINDOWCOMPAT", (char *) T_FNOTWINCOMPAT,
"NT", (char *) T_FNT,
"OBJECTS", (char *) T_KOBJECTS,
"OLD", (char *) T_KOLD,
"OS2", (char *) T_FOS2,
"OVERLAY", (char *) T_OVL,
"OVL", (char *) T_OVL,
"PERMANENT", (char *) T_FPERM,
"PHYSICAL", (char *) T_KPHYSICAL,
"POSIX", (char *) T_FPOSIX,
"PRELOAD", (char *) T_FPRELOAD,
"PRIVATE", (char *) T_FPRIVATE,
"PRIVATELIB", (char *) T_FPRIVATE,
"PROTMODE", (char *) T_PROTMODE,
"PURE", (char *) T_FSHARED,
"READONLY", (char *) T_FRDONLY,
"READWRITE", (char *) T_FRDWR,
"REALMODE", (char *) T_REALMODE,
"RESIDENT", (char *) T_FRESIDENT,
"RESIDENTNAME", (char *) T_KRESIDENTNAME,
"SECTIONS", (char *) T_KSECTIONS,
"SEGMENTS", (char *) T_KSEGMENTS,
"SHARED", (char *) T_FSHARED,
"SINGLE", (char *) T_FSINGLE,
"STACKSIZE", (char *) T_KSTACKSIZE,
"STUB", (char *) T_KSTUB,
"SUBSYSTEM", (char *) T_KSUBSYSTEM,
"SWAPPABLE", (char *) T_FSWAPPABLE,
"TERMINSTANCE", (char *) T_FTERMINST,
"UNIX", (char *) T_FUNIX,
"UNKNOWN", (char *) T_FUNKNOWN,
"VERSION", (char *) T_KVERSION,
"VIRTUAL", (char *) T_KVIRTUAL,
"WINDOWAPI", (char *) T_FWINAPI,
"WINDOWCOMPAT", (char *) T_FWINCOMPAT,
"WINDOWS", (char *) T_FWINDOWS,
"WINDOWSCHAR", (char *) T_FWINDOWSCHAR,
"WINDOWSNT", (char *) T_FWINDOWSNT,
NULL
};
%}
%union
{
word _wd;
char *_bp;
}
%type <_bp> T_ID
%type <_bp> T_STRING
%type <_bp> Idname
%type <_bp> Internal
%type <_wd> T_NUMBER
%type <_wd> Exportopts
%type <_wd> ExportOtherFlags
%type <_wd> ScopeFlag
%%
Definitions : Name Options
| Name
|
{
DefaultModule(moduleEXE);
}
Options
;
Name : T_KNAME Idname
{
fFileNameExpected = 0;
}
Apptype OtherFlags VirtBase
{
NewModule($2, moduleEXE);
}
| T_KNAME
{
fFileNameExpected = 0;
}
Apptype OtherFlags VirtBase
{
DefaultModule(moduleEXE);
}
| T_KLIBRARY Idname
{
fFileNameExpected = 0;
}
Libflags OtherFlags VirtBase
{
NewModule($2, moduleDLL);
}
| T_KLIBRARY
{
fFileNameExpected = 0;
}
Libflags OtherFlags VirtBase
{
DefaultModule(moduleDLL);
}
| T_KPHYSICAL T_KDEVICE Idname
{
fFileNameExpected = 0;
}
Libflags VirtBase
{
NewModule($3, moduleDLL);
}
| T_KPHYSICAL T_KDEVICE
{
fFileNameExpected = 0;
}
Libflags VirtBase
{
DefaultModule(moduleDLL);
}
| T_KVIRTUAL T_KDEVICE Idname
{
fFileNameExpected = 0;
}
Libflags VirtBase
{
NewModule($3, moduleDLL);
}
| T_KVIRTUAL T_KDEVICE
{
fFileNameExpected = 0;
}
Libflags VirtBase
{
DefaultModule(moduleDLL);
}
;
Libflags : T_FINITGLOB
{
}
| InstanceFlags
|
;
InstanceFlags : InstanceFlags InstanceFlag
| InstanceFlag
;
InstanceFlag : T_FINITINST
| T_FTERMINST
;
VirtBase : T_KBASE T_EQ T_NUMBER
|
;
Apptype : T_FWINAPI
| T_FWINCOMPAT
| T_FNOTWINCOMPAT
| T_FPRIVATE
|
;
OtherFlags : T_FNEWFILES
|
;
Options : Options Option
| Option
;
Option : T_KDESCRIPTION T_STRING
| T_KOLD T_STRING
| T_KSTUB T_FNONE
| T_KSTUB T_STRING
| T_KHEAPSIZE SizeSpec
| T_KSTACKSIZE SizeSpec
| T_PROTMODE
| T_REALMODE
| T_APPLOADER Idname
| Codeflags
| Dataflags
| Segments
| Exports
| Imports
| ExeType
| SubSystem
| ProcOrder
| UserVersion
;
SizeSpec : T_NUMBER T_COMA T_NUMBER
| T_NUMBER
| T_KMAXVAL
;
Codeflags : T_KCODE Codeflaglist
;
Codeflaglist : Codeflaglist Codeflag
| Codeflag
;
Codeflag : Baseflag
| Codeonly
;
Codeonly : T_FEXEC
| T_FEXECREAD
| T_FDISCARDABLE
| T_FNONDISCARDABLE
| T_KCONFORM
| T_KNONCONFORM
;
Dataflags : T_KDATA Dataflaglist
;
Dataflaglist : Dataflaglist Dataflag
| Dataflag
;
Dataflag : Baseflag
| Dataonly
| T_FNONE
| T_FSINGLE
| T_FMULTIPLE
| T_FDISCARDABLE
| T_FNONDISCARDABLE
;
Dataonly : T_FRDONLY
| T_FRDWR
| T_KEXPANDDOWN
| T_KNOEXPANDDOWN
;
Segments : T_KSEGMENTS Segattrlist
| T_KSEGMENTS
| T_KOBJECTS Segattrlist
| T_KOBJECTS
| T_KSECTIONS Segattrlist
| T_KSECTIONS
;
Segattrlist : Segattrlist Segattr
| Segattr
;
Segattr : SegIdname Class Segflags
;
SegIdname : T_ID
| T_STRING
;
Class : T_KCLASS T_STRING
|
;
Segflag : Baseflag
| Codeonly
| Dataonly
;
;
Segflaglist : Segflaglist Segflag
| Segflag
;
Segflags : Segflaglist
|
;
Baseflag : T_FSHARED
| T_FNONSHARED
| T_FINVALID
| T_FIOPL
| T_FNOIOPL
| T_FFIXED
| T_FMOVABLE
| T_FPRELOAD
| T_FLOADONCALL
| T_FHUGE
| T_FSWAPPABLE
| T_FRESIDENT
| T_FALIAS
| T_FMIXED
| T_FNONPERM
| T_FPERM
| T_FCONTIG
| T_FDYNAMIC
;
Exports : T_KEXPORTS Exportlist
| T_KEXPORTS
;
Exportlist : Exportlist Export
| Export
;
Export : Idname Internal Exportopts Exportflags ExportOtherFlags ScopeFlag
{
if ($6)
{
// Skip private exports
free($1);
free($2);
}
else
export($1,$2,$3,$5);
}
;
Internal : T_EQ Idname
{
$$ = $2;
}
|
{
$$ = NULL;
}
;
Exportopts : T_AT T_NUMBER T_KRESIDENTNAME
{
$$ = $2;
}
| T_AT T_NUMBER T_KNONAME
{
$$ = $2;
}
| T_AT T_NUMBER
{
$$ = $2;
}
|
{
$$ = 0;
}
;
Exportflags : Nodata Parmwds
;
Nodata : T_KNODATA
|
;
Parmwds : T_NUMBER
|
;
ExportOtherFlags: T_KCONSTANT
{
$$ = 0x1;
}
|
{
$$ = 0;
}
;
ScopeFlag : T_FPRIVATE
{
$$ = 1;
}
|
{
$$ = 0;
}
;
Imports : T_KIMPORTS Importlist
| T_KIMPORTS
;
Importlist : Importlist Import
| Import
;
Import : Idname Internal T_DOT Idname ImportFlags
| Idname Internal T_DOT T_NUMBER ImportFlags
;
Idname : T_ID
{
$$ = _strdup(rgbid);
}
| T_STRING
{
$$ = _strdup(rgbid);
}
;
ImportFlags : T_KCONSTANT
|
;
ExeType : T_KEXETYPE ExeFlags ExeVersion
| T_KEXETYPE
;
ExeFlags : T_FDOS
| T_FOS2
| T_FUNKNOWN
| T_FWINDOWS
| T_FDEV386
| T_FNT
| T_FUNIX
| T_FMACINTOSH T_FSWAPPABLE
| T_FMACINTOSH
;
ExeVersion : MajorVer T_DOT MinorVer
| MajorVer
;
MajorVer : T_NUMBER
|
;
MinorVer : T_NUMBER
|
;
UserVersion : T_KVERSION ExeVersion
;
SubSystem : T_KSUBSYSTEM SubSystemFlags
;
SubSystemFlags : T_FUNKNOWN
| T_FOS2
| T_FWINDOWS
| T_FWINDOWSNT
| T_FWINDOWSCHAR
| T_FPOSIX
;
ProcOrder : T_FUNCTIONS SegOrOvl ProcList
;
SegOrOvl : T_COLON NameOrNumber
|
;
NameOrNumber : Idname
| T_NUMBER
;
ProcList : ProcList Idname
| Idname
;
%%
#ifndef M_I386
extern char * PASCAL __FMSG_TEXT ( unsigned );
#else
#ifdef _WIN32
extern char * PASCAL __FMSG_TEXT ( unsigned );
#endif
#endif
/*** Error - display error message
*
* Purpose:
* Display error message.
*
* Input:
* errNo - error number
*
* Output:
* No explicit value is returned. Error message written out to stderr.
*
* Exceptions:
* None.
*
* Notes:
* This function takes variable number of parameters. MUST be in
* C calling convention.
*
*************************************************************************/
LOCAL void cdecl Error(unsigned errNo,...)
{
va_list pArgList;
if (!fBannerOnScreen)
DisplayBanner();
va_start(pArgList, errNo); /* Get start of argument list */
/* Write out standard error prefix */
fprintf(stderr, "%s : %s IM%d: ", prognam, GET_MSG(M_error), errNo);
/* Write out error message */
vfprintf(stderr, GET_MSG(errNo), pArgList);
fprintf(stderr, "\n");
if (!exitCode)
exitCode = (errNo >= ER_Min && errNo <= ER_Max)
|| (errNo >= ER_MinFatal && errNo <= ER_MaxFatal);
}
/*** Fatal - display error message
*
* Purpose:
* Display error message and exit to operating system.
*
* Input:
* errNo - error number
*
* Output:
* No explicit value is returned. Error message written out to stderr.
*
* Exceptions:
* None.
*
* Notes:
* This function takes variable number of parameters. MUST be in
* C calling convention.
*
*************************************************************************/
LOCAL void cdecl Fatal(unsigned errNo,...)
{
va_list pArgList;
if (!fBannerOnScreen)
DisplayBanner();
va_start(pArgList, errNo); /* Get start of argument list */
/* Write out standard error prefix */
fprintf(stderr, "%s : %s %s IM%d: ", prognam, GET_MSG(M_fatal), GET_MSG(M_error),errNo);
/* Write out fatal error message */
vfprintf(stderr, GET_MSG(errNo), pArgList);
fprintf(stderr, "\n");
exit(1);
}
/*
* Check if error in output file, abort if there is.
*/
void chkerror ()
{
if(ferror(fo))
{
Fatal(ER_outfull, strerror(errno));
}
}
LOCAL void MOVE(int cb, char *src, char *dst)
{
while(cb--) *dst++ = *src++;
}
LOCAL char *alloc(word cb)
{
char *cp; /* Pointer */
if((cp = malloc(cb)) != NULL) return(cp);
/* Call malloc() to get the space */
Fatal(ER_nomem, "far");
return 0;
}
LOCAL int lookup() /* Keyword lookup */
{
char **pcp; /* Pointer to character pointer */
int i; /* Comparison value */
for(pcp = keywds; *pcp != NULL; pcp += 2)
{ /* Look through keyword table */
if(!(i = FSTRICMP(&rgbid[1],*pcp)))
return((int)(INT_PTR) pcp[1]); /* If found, return token type */
if(i < 0) break; /* Break if we've gone too far */
}
return(T_ID); /* Just your basic identifier */
}
LOCAL int GetChar(void)
{
int c; /* A character */
c = getc(fi);
if (c == EOF && curLevel > 0)
{
fclose(fi);
fi = includeDisp[curLevel];
curLevel--;
c = GetChar();
}
return(c);
}
LOCAL int yylex() /* Lexical analyzer */
{
int c = 0; /* A character */
word x; /* Numeric token value */
int state; /* State variable */
char *cp; /* Character pointer */
char *sz; /* Zero-terminated string */
static int lastc; /* Previous character */
int fFileNameSave;
state = 0; /* Assume we're not in a comment */
for(;;) /* Loop to skip white space */
{
lastc = c;
if((c = GetChar()) == EOF || c == '\032' || c == '\377') return(EOF);
/* Get a character */
if(c == ';') state = 1; /* If comment, set flag */
else if(c == '\n') /* If end of line */
{
state = 0; /* End of comment */
if(!curLevel)
++yylineno; /* Increment line number count */
}
else if(state == 0 && c != ' ' && c != '\t' && c != '\r') break;
/* Break on non-white space */
}
switch(c) /* Handle one-character tokens */
{
case '.': /* Name separator */
if (fFileNameExpected)
break;
return(T_DOT);
case '@': /* Ordinal specifier */
/*
* Require that whitespace precede '@' if introducing an
* ordinal, to allow '@' in identifiers.
*/
if(lastc == ' ' || lastc == '\t' || lastc == '\r')
return(T_AT);
break;
case '=': /* Name assignment */
return(T_EQ);
case ':':
return(T_COLON);
case ',':
return(T_COMA);
}
if(c >= '0' && c <= '9' && !fFileNameExpected)
{ /* If token is a number */
x = c - '0'; /* Get first digit */
c = GetChar(); /* Get next character */
if(x == 0) /* If octal or hex */
{
if(c == 'x' || c == 'X')/* If it is an 'x' */
{
state = 16; /* Base is hexadecimal */
c = GetChar(); /* Get next character */
}
else state = 8; /* Else octal */
}
else state = 10; /* Else decimal */
for(;;)
{
if(c >= '0' && c <= '9') c -= '0';
else if(c >= 'A' && c <= 'F') c -= 'A' - 10;
else if(c >= 'a' && c <= 'f') c -= 'a' - 10;
else break;
if(c >= state) break;
x = x*state + c;
c = GetChar();
}
ungetc(c,fi);
YYS_WD(yylval) = x;
return(T_NUMBER);
}
if(c == '\'' || c == '"') /* If token is a string */
{
sz = &rgbid[1]; /* Initialize */
for(state = 0; state != 2;) /* State machine loop */
{
if((c = GetChar()) == EOF) return(EOF);
/* Check for EOF */
if (sz >= &rgbid[sizeof(rgbid)])
{
Error(ER_linemax, yylineno, sizeof(rgbid)-1);
state = 2;
}
switch(state) /* Transitions */
{
case 0: /* Inside quote */
if(c == '\'' || c == '"') state = 1;
/* Change state if quote found */
else *sz++ = (char) c;/* Else save character */
break;
case 1: /* Inside quote with quote */
if(c == '\'' || c == '"')/* If consecutive quotes */
{
*sz++ = (char) c;/* Quote inside string */
state = 0; /* Back to state 0 */
}
else state = 2; /* Else end of string */
break;
}
}
ungetc(c,fi); /* Put back last character */
*sz = '\0'; /* Null-terminate the string */
rgbid[0] = (char)(sz - &rgbid[1]);
/* Set length of string */
YYS_BP(yylval) = rgbid; /* Save ptr. to identifier */
return(T_STRING); /* String found */
}
sz = &rgbid[1]; /* Initialize */
for(;;) /* Loop to get i.d.'s */
{
if (fFileNameExpected)
cp = " \t\r\n\f";
else
cp = " \t\r\n.=';\032";
while(*cp && *cp != (char) c)
++cp;
/* Check for end of identifier */
if(*cp) break; /* Break if end of identifier found */
if (sz >= &rgbid[sizeof(rgbid)])
Fatal(ER_linemax, yylineno, sizeof(rgbid)-1);
*sz++ = (byte) c; /* Save the character */
if((c = GetChar()) == EOF) break;
/* Get next character */
}
ungetc(c,fi); /* Put character back */
*sz = '\0'; /* Null-terminate the string */
rgbid[0] = (char)(sz - &rgbid[1]); /* Set length of string */
YYS_BP(yylval) = rgbid; /* Save ptr. to identifier */
state = lookup(); /* Look up the identifier */
if (state == INCLUDE_DIR)
{
// Process include directive
fFileNameSave = fFileNameExpected;
fFileNameExpected = 1;
state = yylex();
fFileNameExpected = fFileNameSave;
if (state == T_ID || state == T_STRING)
{
if (curLevel < MAX_NEST - 1)
{
curLevel++;
includeDisp[curLevel] = fi;
fi = fopen(&rgbid[1], RDBIN);
if (fi == NULL)
Fatal(ER_badopen, &rgbid[1], strerror(errno));
return(yylex());
}
else
Fatal(ER_toomanyincl);
}
else
Fatal(ER_badinclname);
return (0);
}
else
return(state);
}
LOCAL void yyerror(s) /* Error routine */
char *s; /* Error message */
{
fprintf(stderr, "%s(%d) : %s %s IM%d: %s %s\n",
defname, yylineno, GET_MSG(M_fatal), GET_MSG(M_error),
ER_syntax, s, GET_MSG(ER_syntax));
exit(1);
}
/*
* Use the basename of the current .DEF file name as the module name.
*/
LOCAL void DefaultModule(char *defaultExt)
{
char drive[_MAX_DRIVE];
char dir[_MAX_DIR];
char fname[_MAX_FNAME];
char ext[_MAX_EXT];
_splitpath(defname, drive, dir, fname, ext);
if (fNTdll)
{
if (ext[0] == '\0')
_makepath(&sbModule[1], NULL, NULL, fname, defaultExt);
else if (ext[0] == '.' && ext[1] == '\0')
strcpy(&sbModule[1], fname);
else
_makepath(&sbModule[1], NULL, NULL, fname, ext);
}
else
_makepath(&sbModule[1], NULL, NULL, fname, NULL);
sbModule[0] = (unsigned char) strlen(&sbModule[1]);
}
LOCAL void NewModule(char *sbNew, char *defaultExt)
{
char drive[_MAX_DRIVE];
char dir[_MAX_DIR];
char fname[_MAX_FNAME];
char ext[_MAX_EXT];
sbNew[sbNew[0]+1] = '\0';
_splitpath(&sbNew[1], drive, dir, fname, ext);
if (fNTdll)
{
if (ext[0] == '\0')
_makepath(&sbModule[1], NULL, NULL, fname, defaultExt);
else if (ext[0] == '.' && ext[1] == '\0')
strcpy(&sbModule[1], fname);
else
_makepath(&sbModule[1], NULL, NULL, fname, ext);
}
else
strcpy(&sbModule[1], fname);
sbModule[0] = (unsigned char) strlen(&sbModule[1]);
}
LOCAL void export(char *sbEntry, char *sbInternal, word ordno, word flags)
{
IMPORT *imp; /* Import definition */
if(fIgnorewep && strcmp(sbEntry+1, "WEP") == 0)
return;
imp = (IMPORT *) alloc(sizeof(IMPORT));
/* Allocate a cell */
if (newimps == NULL) /* If list empty */
newimps = imp; /* Define start of list */
else
I_NEXT(*lastimp) = imp; /* Append it to list */
I_NEXT(*imp) = NULL;
I_EXTNAM(*imp) = sbEntry; /* Save the external name */
I_INTNAM(*imp) = sbInternal; /* Save the internal name */
I_ORD(*imp) = ordno; /* Save the ordinal number */
I_FLAGS(*imp) = flags; /* Save extra flags */
lastimp = imp; /* Save pointer to end of list */
}
/* Output a THEADR record */
LOCAL word theadr(char *sbName)
{
fputc(THEADR,fo);
fputc(sbName[0] + 2,fo);
fputc(0,fo);
fwrite(sbName,sizeof(char),sbName[0] + 1,fo);
fputc(0,fo);
chkerror();
return(sbName[0] + 5);
}
word modend() /* Output a MODEND record */
{
fwrite("\212\002\0\0\0",sizeof(char),5,fo);
/* Write a MODEND record */
chkerror();
return(5); /* It is 5 bytes long */
}
LOCAL void outimpdefs(void)/* Output import definitions */
{
IMPORT *imp; /* Pointer to import record */
word reclen; /* Record length */
word ord; /* Ordinal number */
long lfa; /* File address */
word tlen; /* Length of THEADR */
byte impFlags;
for (imp = newimps; imp != NULL; imp = I_NEXT(*imp))
{ /* Traverse the list */
lfa = ftell(fo); /* Find out where we are */
tlen = theadr(I_EXTNAM(*imp));
/* Output a THEADR record */
// 1 1 1 1 n + 1 n + 1 n + 1 or 2 1
// +---+----+---+-----+-----------+-----------+------------------+---+
// | 0 | A0 | 1 | Flg | Ext. Name | Mod. Name | Int. Name or Ord | 0 |
// +---+----+---+-----+-----------+-----------+------------------+---+
reclen = 4 + sbModule[0] + 1 + I_EXTNAM(*imp)[0] + 1 + 1;
/* Initialize */
ord = I_ORD(*imp);
if (ord != 0)
reclen +=2; /* Two bytes for ordinal number */
else if (I_INTNAM(*imp))
reclen += I_INTNAM(*imp)[0] + 1;
/* Length of internal name */
else
reclen++;
I_ORD(*imp) = (word)(lfa >> 4);
/* Save page number */
++csymsmod; /* Increment symbol count */
cbsyms += (long) I_EXTNAM(*imp)[0] + 4;
/* Increment symbol space count */
fputc(COMENT,fo); /* Comment record */
fputc(reclen & 0xFF,fo); /* Lo-byte of record length */
fputc(reclen >> 8,fo); /* Hi-byte of length */
fputc(0,fo); /* Purgable, listable */
fputc(MSEXT,fo); /* Microsoft OMF extension class */
fputc(IMPDEF,fo); /* IMPort DEFinition record */
impFlags = 0;
if (ord != 0)
impFlags |= 0x1;
if (I_FLAGS(*imp) & 0x1)
impFlags |= 0x2;
fputc(impFlags, fo); /* Import type (name or ordinal or constant) */
fwrite(I_EXTNAM(*imp),sizeof(char),I_EXTNAM(*imp)[0] + 1,fo);
/* Write the external name */
fwrite(sbModule,sizeof(char),sbModule[0] + 1,fo);
/* Write the module name */
if (ord != 0) /* If import by ordinal */
{
fputc(ord & 0xFF,fo); /* Lo-byte of ordinal */
fputc(ord >> 8,fo); /* Hi-byte of ordinal */
}
else if (I_INTNAM(*imp))
fwrite(I_INTNAM(*imp), sizeof(char), I_INTNAM(*imp)[0] + 1, fo);
/* Write internal name */
else
fputc(0, fo); /* No internal name */
fputc(0,fo); /* Checksum byte */
reclen += tlen + modend() + 3; /* Output a MODEND record */
if(reclen &= 0xF) /* If padding needed */
{
reclen = 0x10 - reclen; /* Calculate needed padding */
while(reclen--) fputc(0,fo);/* Pad to page boundary */
}
chkerror();
}
}
/* Compare two symbols */
LOCAL short symeq(char *ps1,char *ps2)
{
int length; /* No. of char.s to compare */
length = *ps1 + 1; /* Take length of first symbol */
if (length != *ps2 + 1)
return(0); /* Length must match */
while(length--) /* While not at end of symbol */
if (fIgnorecase)
{
if (UPPER(*ps1) != UPPER(*ps2))
return(0); /* If not equal, return zero */
++ps1;
++ps2;
}
else if (*ps1++ != *ps2++)
return(0); /* If not equal, return zero */
return(1); /* Symbols match */
}
LOCAL word calclen() /* Calculate dictionary length */
{
word avglen; /* Average entry length */
word avgentries; /* Average no. of entries per page */
word minpages; /* Min. no. of pages in dictionary */
register word i; /* Index variable */
if(!csyms) return(1); /* One page for an empty dictionary */
avglen = (word)(cbsyms/csyms) + 1;
/* Average entry length */
avgentries = (PAGLEN - NBUCKETS - 1)/avglen;
/* Average no. of entries per page */
minpages = (word) csyms/avgentries + 1;
/* Minimum no. of pages in dict. */
if(minpages < (i = (word) csyms/NBUCKETS + 1))
{
minpages = i;
}
else
{
/* Add some extra pages if there is a lot long symbol names */
#define MAXOVERHEAD 10
i = (word)(((avglen+5L) * minpages *4)/(3*PAGLEN)); // The more symbols the larger increase...
if(i>MAXOVERHEAD)
i = MAXOVERHEAD; /* Do not add more than MAXOVERHEAD pages */
minpages += i;
}
/* Insure enough buckets allotted */
i = 0; /* Initialize index */
do /* Look through prime array */
{
if(minpages <= prime[i]) return(prime[i]);
/* Return smallest prime >= minpages */
}
while(prime[i++]); /* Until end of table found */
return(0); /* Too many symbols */
}
/* Initialize Symbol Lookup */
LOCAL void initsl(void)
{
register word i; /* Index variable */
diclength = calclen(); /* Calculate dictionaly length */
for(i = 0; i < diclength; ++i) mpdpnpag[i] = NULL;
/* Initialize page table */
}
LOCAL word ror(word x, word n) /* Rotate right */
{
#if ODDWORDLN
return(((x << (16 - n)) | ((x >> n) & ~(~0 << (16 - n))))
& ~(~0 << 16));
#else
return((x << (16 - n)) | ((x >> n) & ~(~0 << (16 - n))));
#endif
}
LOCAL word rol(word x, word n) /* Rotate left */
{
#if ODDWORDLN
return(((x << n) | ((x >> (16 - n)) & ~(~0 << n))) & ~(~0 << 16));
#else
return((x << n) | ((x >> (16 - n)) & ~(~0 << n)));
#endif
}
LOCAL void hashsym(char *pf, word *pdpi, word *pdpid,word *pdpo, word *pdpod)
{
char *pb; /* Pointer to back of symbol */
register word len; /* Length of symbol */
register word ch; /* Character */
len = *pf; /* Get length */
pb = &pf[len]; /* Get pointer to back */
*pdpi = 0; /* Initialize */
*pdpid = 0; /* Initialize */
*pdpo = 0; /* Initialize */
*pdpod = 0; /* Initialize */
while(len--) /* Loop */
{
ch = *pf++ | 32; /* Force char to lower case */
*pdpi = rol(*pdpi,2) ^ ch; /* Hash */
*pdpod = ror(*pdpod,2) ^ ch; /* Hash */
ch = *pb-- | 32; /* Force char to lower case */
*pdpo = ror(*pdpo,2) ^ ch; /* Hash */
*pdpid = rol(*pdpid,2) ^ ch; /* Hash */
}
*pdpi %= diclength; /* Calculate page index */
if(!(*pdpid %= diclength)) *pdpid = 1;
/* Calculate page index delta */
*pdpo %= NBUCKETS; /* Calculate page bucket no. */
if(!(*pdpod %= NBUCKETS)) *pdpod = 1;
/* Calculate page bucket delta */
}
LOCAL void nullfill(char *pbyte, word length)
{
while(length--) *pbyte++ = '\0'; /* Load with nulls */
}
/*
* Returns:
* -1 Symbol not in dictionary
* 0 Search inconclusive
* 1 Symbol on this page
*/
LOCAL int pagesearch(char *psym, char *dicpage, word *pdpo, word dpod)
{
register word i; /* Index variable */
word dpo; /* Initial bucket number */
dpo = *pdpo; /* Remember starting position */
for(;;) /* Forever */
{
if(i = ((word) dicpage[*pdpo] & 0xFF) << 1)
{ /* If bucket is not empty */
if(symeq(psym,&dicpage[i])) /* If we've found a match */
return(1); /* Found */
else /* Otherwise */
{
if((*pdpo += dpod) >= NBUCKETS) *pdpo -= NBUCKETS;
/* Try next bucket */
if(*pdpo == dpo) return(0);
/* Symbol not on this page */
}
}
else if(dicpage[NBUCKETS] == PAGEFULL) return(0);
/* Search inconclusive */
else return(-1); /* Symbol not in dictionary */
}
}
/* Install symbol in dictionary */
LOCAL word instsym(IMPORT *psym)
{
word dpi; /* Dictionary page index */
word dpid; /* Dictionary page index delta */
word dpo; /* Dictionary page offset */
word dpod; /* Dict. page offset delta */
word dpii; /* Initial dict. page index */
register int erc; /* Error code */
char *dicpage; /* Pointer to dictionary page */
hashsym(I_EXTNAM(*psym),&dpi,&dpid,&dpo,&dpod);
/* Hash the symbol */
dpii = dpi; /* Save initial page index */
for(;;) /* Forever */
{
if(mpdpnpag[dpi] == NULL) /* If page unallocated */
{
mpdpnpag[dpi] = alloc(PAGLEN);
/* Allocate a page */
nullfill(mpdpnpag[dpi],PAGLEN);
/* Fill it with nulls */
mpdpnpag[dpi][NBUCKETS] = FREEWD;
/* Initialize pointer to free space */
}
dicpage = mpdpnpag[dpi]; /* Set pointer to page */
if((erc = pagesearch(I_EXTNAM(*psym),dicpage,&dpo,dpod)) > 0)
return(1); /* Return 1 if symbol in table */
if(erc == -1) /* If empty bucket found */
{
if(((I_EXTNAM(*psym)[0] + 4) >> 1) <
WPP - ((int) dicpage[NBUCKETS] & 0xFF))
{ /* If enough free space on page */
dicpage[dpo] = dicpage[NBUCKETS];
/* Load bucket with pointer */
erc = ((int) dicpage[NBUCKETS] & 0xFF) << 1;
/* Get byte index to free space */
dpi = I_EXTNAM(*psym)[0];
/* Get symbol length */
for(dpo = 0; dpo <= dpi;)
dicpage[erc++] = I_EXTNAM(*psym)[dpo++];
/* Install the symbol text */
dicpage[erc++] = (char)(I_ORD(*psym) & 0xFF);
/* Load low-order byte */
dicpage[erc++] = (char)(I_ORD(*psym) >> 8);
/* Load high-order byte */
if(++erc >= PAGLEN) dicpage[NBUCKETS] = PAGEFULL;
else dicpage[NBUCKETS] = (char)(erc >> 1);
/* Update free word pointer */
return(0); /* Mission accomplished */
}
else dicpage[NBUCKETS] = PAGEFULL;
/* Mark page as full */
}
if((dpi += dpid) >= diclength) dpi -= diclength;
/* Try next page */
if(dpi == dpii) return(2); /* Once around without finding it */
}
}
/* Output empty dictionary page */
LOCAL void nulpagout(void)
{
register word i; /* Counter */
char temp[PAGLEN]; /* Page buffer */
i = 0; /* Initialize */
while(i < NBUCKETS) temp[i++] = '\0';
/* Empty hash table */
temp[i++] = FREEWD; /* Set free word pointer */
while(i < PAGLEN) temp[i++] = '\0'; /* Clear rest of page */
fwrite(temp,1,PAGLEN,fo); /* Write empty page */
chkerror();
}
/* Write dictionary to library */
LOCAL void writedic(void)
{
register IMPORT *imp; /* Symbol record */
word i; /* Index variable */
initsl(); /* Initialize */
for(imp = implist; imp != NULL; imp = I_NEXT(*imp))
{
if(instsym(imp)) /* If symbol already in dictionary */
Error(ER_multdef, &I_EXTNAM(*imp)[1]);
/* Issue error message */
}
for(i = 0; i < diclength; ++i) /* Look through mapping table */
{
if(mpdpnpag[i] != NULL) pagout(mpdpnpag[i]);
/* Write page if it exists */
else nulpagout(); /* Else write an empty page */
}
chkerror();
}
LOCAL void DisplayBanner(void)
{
if (!fBannerOnScreen)
{
fprintf( stdout, "\nMicrosoft (R) Import Library Manager NtGroup "VERSION_STRING );
fputs("\nCopyright (C) Microsoft Corp 1984-1996. All rights reserved.\n\n", stdout);
fflush(stdout);
fBannerOnScreen = 1;
#if C8_IDE
if(fC8IDE)
{ sprintf(msgBuf, "@I0\r\n");
_write(_fileno(stderr), msgBuf, strlen(msgBuf));
sprintf(msgBuf, "@I1Microsoft (R) Import Library Manager "VERSION_STRING"\r\n" );
_write(_fileno(stderr), msgBuf, strlen(msgBuf));
sprintf(msgBuf, "@I2Copyright (C) Microsoft Corp 1984-1992. All rights reserved.\r\n");
_write(_fileno(stderr), msgBuf, strlen(msgBuf));
}
#endif
}
}
/****************************************************************
* *
* IsPrefix: *
* *
* This function takes as its arguments a pointer to a *
* null-terminated character string and a pointer to a second *
* null-terminated character string. The function returns *
* true if the first string is a prefix of the second; *
* otherwise, it returns false. *
* *
****************************************************************/
LOCAL int IsPrefix(char *prefix, char *s)
{
while(*prefix) /* While not at end of prefix */
{
if(UPPER(*prefix) != UPPER(*s)) return(0);
/* Return zero if mismatch */
++prefix; /* Increment pointer */
++s; /* Increment pointer */
}
return(1); /* We have a prefix */
}
/*** ScanTable - build list of exports
*
* Purpose:
* Scans Resident or Nonresident Name Table, Entry Table and
* builds list of exported entries.
*
* Input:
* pbTable - pointer to Name Table
* cbTable - size of Name Table
* fNoRes - TRUE if non resident name table
*
* Output:
* List of exported entries by DLL.
*
* Exceptions:
* None.
*
* Notes:
* None.
*
*************************************************************************/
LOCAL void ScanTable(word cbTable, int fNoRes)
{
word eno;
char buffer[256];
register char *pch;
register byte *pb;
byte *pTable;
pb = alloc(cbTable);
pTable = pb;
fread(pb, sizeof(char), cbTable, fi);
while(cbTable != 0)
{
/* Get exported name length - if zero continue */
--cbTable;
if (!(eno = (word) *pb++ & 0xff))
break;
cbTable -= eno + 2;
/* Copy name - length prefixed */
pch = &buffer[1];
buffer[0] = (byte) eno;
while(eno--)
*pch++ = *pb++;
*pch = '\0';
/* Get ordinal */
eno = ((word) pb[0] & 0xff) + (((word) pb[1] & 0xff) << 8);
pb += 2;
/* If WEP and fIgnorewep is TRUE, ignore this symbol */
if(fIgnorewep && strcmp(&buffer[1], "WEP") == 0)
continue;
if (eno != 0)
{
pch = alloc((word)(buffer[0] + 1));
strncpy(pch, buffer, buffer[0] + 1);
// If Implib is run on a DLL, it exports symbols:
// - by names for symbols in the resident name table
// - by ordinal for symbols in the non-resident name table
export(pch, pch, (word)(fNoRes ? eno : 0), (word)0);
}
else if (!fNoRes)
strncpy(sbModule, buffer, buffer[0] + 1);
/* eno == 0 && !fNoRes --> module name */
}
if (cbTable != 0)
Error(ER_baddll);
free(pTable);
}
/*** ProcessDLL - extract information about exports from DLL
*
* Purpose:
* Read in header of DLL and create list of exported entries.
*
* Input:
* lfahdr - seek offset to segmented executable header.
*
* Output:
* List of exported entries by DLL.
*
* Exceptions:
* None.
*
* Notes:
* None.
*
*************************************************************************/
LOCAL void ProcessDLL(long lfahdr)
{
struct new_exe hdr; /* .EXE header */
fseek(fi, lfahdr, SEEK_SET);
fread(&hdr, sizeof(char), sizeof(struct new_exe), fi);
if(NE_CSEG(hdr) != 0)
{
/* If there are segments - read in tables */
if (NE_MODTAB(hdr) > NE_RESTAB(hdr))
{
/* Process resident names table */
fseek(fi, lfahdr + NE_RESTAB(hdr), SEEK_SET);
ScanTable((word)(NE_MODTAB(hdr) - NE_RESTAB(hdr)), 0);
}
if (NE_CBNRESTAB(hdr) != 0)
{
/* Process non-resident names table */
fseek(fi, (long) NE_NRESTAB(hdr), SEEK_SET);
ScanTable(NE_CBNRESTAB(hdr), 1);
}
}
}
/* Print usage message */
void usage(int fShortHelp)
{
int nRetCode;
#if NOT C8_IDE
// in C8 implib /? == /HELP
if (!fShortHelp)
{
nRetCode = spawnlp(P_WAIT, "qh", "qh", "/u implib.exe", NULL);
fShortHelp = nRetCode<0 || nRetCode==3;
}
if (fShortHelp)
#endif
{
DisplayBanner();
fprintf(stderr,"%s\n", GET_MSG(M_usage1));
fprintf(stderr,"%s\n", GET_MSG(M_usage2));
fprintf(stderr," %s\n", GET_MSG(M_usage3));
// fprintf(stderr," %s\n", GET_MSG(M_usage4));
fprintf(stderr," %s\n", GET_MSG(M_usage8));
fprintf(stderr," %s\n", GET_MSG(M_usage5));
fprintf(stderr," %s\n", GET_MSG(M_usage6));
fprintf(stderr," %s\n", GET_MSG(M_usage7));
}
exit(0);
}
void cdecl main(int argc, char *argv[]) /* Parse the definitions file */
{
int i; /* Counter */
long lfadic; /* File address of dictionary */
int iArg; /* Argument index */
word magic; /* Magic number */
struct exe_hdr exe; /* Old .EXE header */
int fNologo;
char drive[_MAX_DRIVE], dir[_MAX_DIR]; /* Needed for _splitpath */
char fname[_MAX_FNAME], ext[_MAX_EXT];
int fDefdllfound = 0; /* Flag will be set if the user
specifies dll/def file */
#if C8_IDE
char *pIDE = getenv("_MSC_IDE_FLAGS");
#endif
exitCode = 0;
fNologo = 0;
iArg = 1;
#if C8_IDE
if(pIDE)
{
if(strstr(pIDE, "FEEDBACK"))
{
fC8IDE = TRUE;
#if DEBUG_IDE
fprintf(stdout, "\r\nIDE ACTIVE - FEEDBACK is ON");
#endif
}
}
#endif
if (argc > 1)
{
while (iArg < argc && (argv[iArg][0] == '-' || argv[iArg][0] == '/'))
{
if (argv[iArg][1] == '?')
usage(1);
else if (IsPrefix(&argv[iArg][1], "help"))
usage(0);
else if(IsPrefix(&argv[iArg][1], "ignorecase"))
fIgnorecase = 1;
else if(IsPrefix(&argv[iArg][1], "noignorecase"))
fIgnorecase = 0;
else if(IsPrefix(&argv[iArg][1], "nologo"))
fNologo = 1;
else if(IsPrefix(&argv[iArg][1], "ntdll"))
fNTdll = 1;
else if(IsPrefix(&argv[iArg][1], "nowep"))
fIgnorewep = 1;
else
Error(ER_badoption, argv[iArg]);
iArg++;
}
}
else
{
DisplayBanner();
exit(exitCode); /* All done */
}
if (!fNologo)
DisplayBanner();
_splitpath( argv[iArg], drive, dir, fname, ext );
if(!_stricmp(ext,".DEF")||!_stricmp(ext,".DLL")) /* Ext. not allowed-bug #3*/
{
Fatal(ER_badtarget, ext);
}
#if C8_IDE
if(fC8IDE)
{
sprintf(msgBuf, "@I3%s\r\n", GET_MSG(M_IDEco));
_write(_fileno(stderr), msgBuf, strlen(msgBuf));
sprintf(msgBuf, "@I4%s\r\n", argv[iArg]);
_write(_fileno(stderr), msgBuf, strlen(msgBuf));
}
#endif
if((fo = fopen(argv[iArg],WRBIN)) == NULL)
{ /* If open fails */
Fatal(ER_badcreate, argv[iArg], strerror(errno));
}
for(i = 0; i < 16; ++i) fputc(0,fo);/* Skip zeroth page for now */
chkerror();
implist = NULL; /* Initialize */
csyms = 0;
cbsyms = 0L;
#if C8_IDE
if(fC8IDE)
{
sprintf(msgBuf, "@I3%s\r\n", GET_MSG(M_IDEri));
_write(_fileno(stderr), msgBuf, strlen(msgBuf));
}
#endif
for(iArg++; iArg < argc; ++iArg)
{
if (argv[iArg][0] == '-' || argv[iArg][0] == '/')
{
fIgnorecase = IsPrefix(&argv[iArg][1], "ignorecase");
iArg++;
continue;
}
#if C8_IDE
if(fC8IDE)
{
sprintf(msgBuf, "@I4%s\r\n",argv[iArg]);
_write(_fileno(stderr), msgBuf, strlen(msgBuf));
}
#endif
if((fi = fopen(defname = argv[iArg],RDBIN)) == NULL)
{ /* If open fails */
Fatal(ER_badopen, argv[iArg], strerror(errno));
/* Print error message */
}
fDefdllfound = 1;
newimps = NULL; /* Initialize */
lastimp = NULL; /* Initialize */
csymsmod = 0; /* Initialize */
fread(&exe, 1, sizeof(struct exe_hdr), fi);
/* Read old .EXE header */
if(E_MAGIC(exe) == EMAGIC) /* If old header found */
{
if(E_LFARLC(exe) == sizeof(struct exe_hdr))
{
fseek(fi, E_LFANEW(exe), 0);
/* Read magic number */
magic = (word) (getc(fi) & 0xff);
magic += (word) ((getc(fi) & 0xff) << 8);
if (magic == NEMAGIC)
ProcessDLL(E_LFANEW(exe));
/* Scan .DLL */
else
{
Error(ER_baddll1, argv[iArg]);
}
}
else
{
Error(ER_baddll1, argv[iArg]);
}
}
else
{
fseek(fi, 0L, SEEK_SET);
yyparse(); /* Parse the definitions file */
}
fclose(fi); /* Close the definitions file */
if(newimps != NULL) /* If at least one new IMPDEF */
{
outimpdefs(); /* Output the library modules */
I_NEXT(*lastimp) = implist; /* Concatenate lists */
implist = newimps; /* New head of list */
csyms += csymsmod; /* Increment symbol count */
}
}
if (!fDefdllfound) /* No .def or .dll source was given */
Fatal(ER_nosource);
if(i = (int)((ftell(fo) + 4) & (PAGLEN - 1))) i = PAGLEN - i;
/* Calculate padding needed */
++i; /* One for the checksum */
fputc(DICHDR,fo); /* Dictionary header */
fputc(i & 0xFF,fo); /* Lo-byte */
fputc(i >> 8,fo); /* Hi-byte */
while(i--) fputc(0,fo); /* Padding */
lfadic = ftell(fo); /* Get dictionary offset */
writedic(); /* Write the dictionary */
fseek(fo,0L,0); /* Seek to header */
fputc(LIBHDR,fo); /* Library header */
fputc(13,fo); /* Length */
fputc(0,fo); /* Length */
fputc((int)(lfadic & 0xFF),fo); /* Dictionary offset */
fputc((int)((lfadic >> 8) & 0xFF),fo);
/* Dictionary offset */
fputc((int)((lfadic >> 16) & 0xFF),fo);
/* Dictionary offset */
fputc((int)(lfadic >> 24),fo); /* Dictionary offset */
fputc(diclength & 0xFF,fo); /* Dictionary length */
fputc(diclength >> 8,fo); /* Dictionary length */
if (fIgnorecase) /* Dictionary case sensivity */
fputc(0, fo);
else
fputc(1, fo);
chkerror();
fclose(fo); /* Close the library */
exit(exitCode); /* All done */
}