wine/tools/winedump/le.c
2006-05-23 14:11:13 +02:00

359 lines
13 KiB
C

/*
* Dumping of LE binaries
*
* Copyright 2004 Robert Reif
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
*/
#include "config.h"
#include "wine/port.h"
#include <fcntl.h>
#include <stdarg.h>
#include <stdio.h>
#ifdef HAVE_UNISTD_H
#include <unistd.h>
#endif
#include "windef.h"
#include "winbase.h"
#include "wine/winbase16.h"
#include "winedump.h"
struct o32_obj
{
unsigned long o32_size;
unsigned long o32_base;
unsigned long o32_flags;
unsigned long o32_pagemap;
unsigned long o32_mapsize;
char o32_name[4];
};
struct o32_map
{
unsigned short o32_pagedataoffset;
unsigned char o32_pagesize;
unsigned char o32_pageflags;
};
struct b32_bundle
{
unsigned char b32_cnt;
unsigned char b32_type;
};
struct vxd_descriptor
{
unsigned long next;
unsigned short sdk_version;
unsigned short device_number;
unsigned char version_major;
unsigned char version_minor;
unsigned short flags;
char name[8];
unsigned long init_order;
unsigned long ctrl_ofs;
unsigned long v86_ctrl_ofs;
unsigned long pm_ctrl_ofs;
unsigned long v86_ctrl_csip;
unsigned long pm_ctrl_csip;
unsigned long rm_ref_data;
unsigned long service_table_ofs;
unsigned long service_table_size;
unsigned long win32_service_table_ofs;
unsigned long prev;
unsigned long size;
unsigned long reserved0;
unsigned long reserved1;
unsigned long reserved2;
};
static inline WORD get_word( const BYTE *ptr )
{
return ptr[0] | (ptr[1] << 8);
}
static void dump_le_header( const IMAGE_VXD_HEADER *le )
{
printf( "File header:\n" );
printf( " Magic: %04x (%c%c)\n",
le->e32_magic, LOBYTE(le->e32_magic), HIBYTE(le->e32_magic));
printf( " Byte order: %s\n",
le->e32_border == 0 ? "little-indian" : "big-endian");
printf( " Word order: %s\n",
le->e32_worder == 0 ? "little-indian" : "big-endian");
printf( " Executable format level: %ld\n",
le->e32_level);
printf( " CPU type: %s\n",
le->e32_cpu == 0x01 ? "Intel 80286" :
le->e32_cpu == 0x02 ? "Intel 80386" :
le->e32_cpu == 0x03 ? "Intel 80486" :
le->e32_cpu == 0x04 ? "Intel 80586" :
le->e32_cpu == 0x20 ? "Intel i860 (N10)" :
le->e32_cpu == 0x21 ? "Intel i860 (N11)" :
le->e32_cpu == 0x40 ? "MIPS Mark I" :
le->e32_cpu == 0x41 ? "MIPS Mark II" :
le->e32_cpu == 0x42 ? "MIPS Mark III" :
"Unknown");
printf( " Target operating system: %s\n",
le->e32_os == 0x01 ? "OS/2" :
le->e32_os == 0x02 ? "Windows" :
le->e32_os == 0x03 ? "DOS 4.x" :
le->e32_os == 0x04 ? "Windows 386" :
"Unknown");
printf( " Module version: %ld\n",
le->e32_ver);
printf( " Module type flags: %08lx\n",
le->e32_mflags);
if (le->e32_mflags & 0x8000)
{
if (le->e32_mflags & 0x0004)
printf( " Global initialization\n");
else
printf( " Per-Process initialization\n");
if (le->e32_mflags & 0x0010)
printf( " No internal fixup\n");
if (le->e32_mflags & 0x0020)
printf( " No external fixup\n");
if ((le->e32_mflags & 0x0700) == 0x0100)
printf( " Incompatible with PM windowing\n");
else if ((le->e32_mflags & 0x0700) == 0x0200)
printf( " Compatible with PM windowing\n");
else if ((le->e32_mflags & 0x0700) == 0x0300)
printf( " Uses PM windowing API\n");
if (le->e32_mflags & 0x2000)
printf( " Module not loadable\n");
if (le->e32_mflags & 0x8000)
printf( " Module is DLL\n");
}
printf( " Number of memory pages: %ld\n",
le->e32_mpages);
printf( " Initial object CS number: %08lx\n",
le->e32_startobj);
printf( " Initial EIP: %08lx\n",
le->e32_eip);
printf( " Initial object SS number: %08lx\n",
le->e32_stackobj);
printf( " Initial ESP: %08lx\n",
le->e32_esp);
printf( " Memory page size: %ld\n",
le->e32_pagesize);
printf( " Bytes on last page: %ld\n",
le->e32_lastpagesize);
printf( " Fix-up section size: %ld\n",
le->e32_fixupsize);
printf( " Fix-up section checksum: %08lx\n",
le->e32_fixupsum);
printf( " Loader section size: %ld\n",
le->e32_ldrsize);
printf( " Loader section checksum: %08lx\n",
le->e32_ldrsum);
printf( " Offset of object table: %08lx\n",
le->e32_objtab);
printf( " Object table entries: %ld\n",
le->e32_objcnt);
printf( " Object page map offset: %08lx\n",
le->e32_objmap);
printf( " Object iterate data map offset: %08lx\n",
le->e32_itermap);
printf( " Resource table offset: %08lx\n",
le->e32_rsrctab);
printf( " Resource table entries: %ld\n",
le->e32_rsrccnt);
printf( " Resident names table offset: %08lx\n",
le->e32_restab);
printf( " Entry table offset: %08lx\n",
le->e32_enttab);
printf( " Module directives table offset: %08lx\n",
le->e32_dirtab);
printf( " Module directives entries: %ld\n",
le->e32_dircnt);
printf( " Fix-up page table offset: %08lx\n",
le->e32_fpagetab);
printf( " Fix-up record table offset: %08lx\n",
le->e32_frectab);
printf( " Imported modules name table offset: %08lx\n",
le->e32_impmod);
printf( " Imported modules count: %ld\n",
le->e32_impmodcnt);
printf( " Imported procedure name table offset: %08lx\n",
le->e32_impproc);
printf( " Per-page checksum table offset: %08lx\n",
le->e32_pagesum);
printf( " Data pages offset from top of table: %08lx\n",
le->e32_datapage);
printf( " Preload page count: %08lx\n",
le->e32_preload);
printf( " Non-resident names table offset: %08lx\n",
le->e32_nrestab);
printf( " Non-resident names table length: %ld\n",
le->e32_cbnrestab);
printf( " Non-resident names table checksum: %08lx\n",
le->e32_nressum);
printf( " Automatic data object: %08lx\n",
le->e32_autodata);
printf( " Debug information offset: %08lx\n",
le->e32_debuginfo);
printf( " Debug information length: %ld\n",
le->e32_debuglen);
printf( " Preload instance pages number: %ld\n",
le->e32_instpreload);
printf( " Demand instance pages number: %ld\n",
le->e32_instdemand);
printf( " Extra heap allocation: %ld\n",
le->e32_heapsize);
printf( " VxD resource table offset: %08lx\n",
le->e32_winresoff);
printf( " Size of VxD resource table: %ld\n",
le->e32_winreslen);
printf( " VxD identifier: %x\n",
le->e32_devid);
printf( " VxD DDK version: %x\n",
le->e32_ddkver);
}
static void dump_le_objects( const void *base, const IMAGE_VXD_HEADER *le )
{
const struct o32_obj *pobj;
unsigned int i;
printf("\nObject table:\n");
pobj = (const struct o32_obj *)((const unsigned char *)le + le->e32_objtab);
for (i = 0; i < le->e32_objcnt; i++)
{
unsigned int j;
const struct o32_map *pmap=0;
printf(" Obj. Rel.Base Codesize Flags Tableidx Tablesize Name\n");
printf(" %04X %08lx %08lx %08lx %08lx %08lx ", i + 1,
pobj->o32_base, pobj->o32_size, pobj->o32_flags,
pobj->o32_pagemap, pobj->o32_mapsize);
for (j = 0; j < 4; j++)
{
if (isprint(pobj->o32_name[j]))
printf("%c", pobj->o32_name[j]);
else
printf(".");
}
printf("\n");
if(pobj->o32_flags & 0x0001)
printf("\tReadable\n");
if(pobj->o32_flags & 0x0002)
printf("\tWriteable\n");
if(pobj->o32_flags & 0x0004)
printf("\tExecutable\n");
if(pobj->o32_flags & 0x0008)
printf("\tResource\n");
if(pobj->o32_flags & 0x0010)
printf("\tDiscardable\n");
if(pobj->o32_flags & 0x0020)
printf("\tShared\n");
if(pobj->o32_flags & 0x0040)
printf("\tPreloaded\n");
if(pobj->o32_flags & 0x0080)
printf("\tInvalid\n");
if(pobj->o32_flags & 0x2000)
printf("\tUse 32\n");
printf(" Page tables:\n");
printf(" Tableidx Offset Flags\n");
pmap = (const struct o32_map *)((const unsigned char *)le + le->e32_objmap);
pmap = &(pmap[pobj->o32_pagemap - 1]);
for (j = 0; j < pobj->o32_mapsize; j++)
{
printf(" %08lx %06x %02x\n",
pobj->o32_pagemap + j,
(pmap->o32_pagedataoffset << 8) + pmap->o32_pagesize,
(int)pmap->o32_pageflags);
pmap++;
}
pobj++;
}
}
static void dump_le_names( const void *base, const IMAGE_VXD_HEADER *le )
{
const unsigned char *pstr = (const unsigned char *)le + le->e32_restab;
printf( "\nResident name table:\n" );
while (*pstr)
{
printf( " %4d: %*.*s\n", get_word(pstr + *pstr + 1), *pstr, *pstr,
pstr + 1 );
pstr += *pstr + 1 + sizeof(WORD);
}
if (le->e32_cbnrestab)
{
printf( "\nNon-resident name table:\n" );
pstr = (const unsigned char *)base + le->e32_nrestab;
while (*pstr)
{
printf( " %4d: %*.*s\n", get_word(pstr + *pstr + 1), *pstr, *pstr,
pstr + 1 );
pstr += *pstr + 1 + sizeof(WORD);
}
}
}
static void dump_le_resources( const void *base, const IMAGE_VXD_HEADER *le )
{
printf( "\nResources:\n" );
printf( " Not Implemented\n" );
}
static void dump_le_modules( const void *base, const IMAGE_VXD_HEADER *le )
{
printf( "\nImported modulename table:\n" );
printf( " Not Implemented\n" );
}
static void dump_le_entries( const void *base, const IMAGE_VXD_HEADER *le )
{
printf( "\nEntry table:\n" );
printf( " Not Implemented\n" );
}
static void dump_le_fixups( const void *base, const IMAGE_VXD_HEADER *le )
{
printf( "\nFixup table:\n" );
printf( " Not Implemented\n" );
}
static void dump_le_VxD( const void *base, const IMAGE_VXD_HEADER *le )
{
printf( "\nVxD descriptor:\n" );
printf( " Not Implemented\n" );
}
void le_dump( const void *exe, size_t exe_size )
{
const IMAGE_DOS_HEADER *dos = exe;
const IMAGE_VXD_HEADER *le;
le = (const IMAGE_VXD_HEADER*)((const char *)dos + dos->e_lfanew);
dump_le_header( le );
dump_le_objects( exe, le );
dump_le_resources( exe, le );
dump_le_names( exe, le );
dump_le_entries( exe, le );
dump_le_modules( exe, le );
dump_le_fixups( exe, le );
dump_le_VxD( exe, le );
}