board/MAI/bios_emulator/scitech/src/common/peloader.c - uboot/windcharger - Git at Google

 /****************************************************************************
 *
 *                       SciTech MGL Graphics Library
 *
 *  ========================================================================
 *
 *    The contents of this file are subject to the SciTech MGL Public
 *    License Version 1.0 (the "License"); you may not use this file
 *    except in compliance with the License. You may obtain a copy of
 *    the License at http://www.scitechsoft.com/mgl-license.txt
 *
 *    Software distributed under the License is distributed on an
 *    "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or
 *    implied. See the License for the specific language governing
 *    rights and limitations under the License.
 *
 *    The Original Code is Copyright (C) 1991-1998 SciTech Software, Inc.
 *
 *    The Initial Developer of the Original Code is SciTech Software, Inc.
 *    All Rights Reserved.
 *
 *  ========================================================================
 *
 * Language:     ANSI C
 * Environment:  Any
 *
 * Description:  Module to implement a simple Portable Binary DLL loader
 *               library. This library can be used to load PE DLL's under
 *               any Intel based OS, provided the DLL's do not have any
 *               imports in the import table.
 *
 *               NOTE: This loader module expects the DLL's to be built with
 *                     Watcom C++ and may produce unexpected results with
 *                     DLL's linked by another compiler.
 *
 ****************************************************************************/

 #include "drvlib/peloader.h"
 #include "pmapi.h"
 #include "drvlib/os/os.h"
 #include "drvlib/libc/init.h"
 #if (defined(__WINDOWS32__) || defined(__DRIVER__)) && defined(CHECKED)
 #define WIN32_LEAN_AND_MEAN
 #define STRICT
 #include <windows.h>
 #endif
 #include "drvlib/pe.h"

 /*--------------------------- Global variables ----------------------------*/

 static int          result = PE_ok;

 /*------------------------- Implementation --------------------------------*/

 /****************************************************************************
 PARAMETERS:
 f           - Handle to open file to read driver from
 startOffset - Offset to the start of the driver within the file

 RETURNS:
 Handle to loaded PE DLL, or NULL on failure.

 REMARKS:
 This function loads a Portable Binary DLL library from disk, relocates
 the code and returns a handle to the loaded library. This function is the
 same as the regular PE_loadLibrary except that it take a handle to an
 open file and an offset within that file for the DLL to load.
 ****************************************************************************/
 static int PE_readHeader(
     FILE *f,
     long startOffset,
     FILE_HDR *filehdr,
     OPTIONAL_HDR *opthdr)
 {
     EXE_HDR exehdr;
     ulong   offset,signature;

     /* Read the EXE header and check for valid header signature */
     result = PE_invalidDLLImage;
     fseek(f, startOffset, SEEK_SET);
     if (fread(&exehdr, 1, sizeof(exehdr), f) != sizeof(exehdr))
 	return false;
     if (exehdr.signature != 0x5A4D)
 	return false;

     /* Now seek to the start of the PE header defined at offset 0x3C
      * in the MS-DOS EXE header, and read the signature and check it.
      */
     fseek(f, startOffset+0x3C, SEEK_SET);
     if (fread(&offset, 1, sizeof(offset), f) != sizeof(offset))
 	return false;
     fseek(f, startOffset+offset, SEEK_SET);
     if (fread(&signature, 1, sizeof(signature), f) != sizeof(signature))
 	return false;
     if (signature != 0x00004550)
 	return false;

     /* Now read the PE file header and check that it is correct */
     if (fread(filehdr, 1, sizeof(*filehdr), f) != sizeof(*filehdr))
 	return false;
     if (filehdr->Machine != IMAGE_FILE_MACHINE_I386)
 	return false;
     if (!(filehdr->Characteristics & IMAGE_FILE_32BIT_MACHINE))
 	return false;
     if (!(filehdr->Characteristics & IMAGE_FILE_DLL))
 	return false;
     if (fread(opthdr, 1, sizeof(*opthdr), f) != sizeof(*opthdr))
 	return false;
     if (opthdr->Magic != 0x10B)
 	return false;

     /* Success, so return true! */
     return true;
 }

 /****************************************************************************
 PARAMETERS:
 f           - Handle to open file to read driver from
 startOffset - Offset to the start of the driver within the file

 RETURNS:
 Size of the DLL file on disk, or -1 on error

 REMARKS:
 This function scans the headers for a Portable Binary DLL to determine the
 length of the DLL file on disk.
 {secret}
 ****************************************************************************/
 ulong PEAPI PE_getFileSize(
     FILE *f,
     ulong startOffset)
 {
     FILE_HDR        filehdr;
     OPTIONAL_HDR    opthdr;
     SECTION_HDR     secthdr;
     ulong           size;
     int             i;

     /* Read the PE file headers from disk */
     if (!PE_readHeader(f,startOffset,&filehdr,&opthdr))
 	return 0xFFFFFFFF;

     /* Scan all the section headers summing up the total size */
     size = opthdr.SizeOfHeaders;
     for (i = 0; i < filehdr.NumberOfSections; i++) {
 	if (fread(&secthdr, 1, sizeof(secthdr), f) != sizeof(secthdr))
 	    return 0xFFFFFFFF;
 	size += secthdr.SizeOfRawData;
 	}
     return size;
 }

 /****************************************************************************
 DESCRIPTION:
 Loads a Portable Binary DLL into memory from an open file

 HEADER:
 peloader.h

 PARAMETERS:
 f           - Handle to open file to read driver from
 startOffset - Offset to the start of the driver within the file
 size        - Place to store the size of the driver loaded
 shared      - True to load module into shared memory

 RETURNS:
 Handle to loaded PE DLL, or NULL on failure.

 REMARKS:
 This function loads a Portable Binary DLL library from disk, relocates
 the code and returns a handle to the loaded library. This function is the
 same as the regular PE_loadLibrary except that it take a handle to an
 open file and an offset within that file for the DLL to load.

 SEE ALSO:
 PE_loadLibrary, PE_getProcAddress, PE_freeLibrary
 ****************************************************************************/
 PE_MODULE * PEAPI PE_loadLibraryExt(
     FILE *f,
     ulong startOffset,
     ulong *size,
     ibool shared)
 {
     FILE_HDR        filehdr;
     OPTIONAL_HDR    opthdr;
     SECTION_HDR     secthdr;
     ulong           offset,pageOffset;
     ulong           text_off,text_addr,text_size;
     ulong           data_off,data_addr,data_size,data_end;
     ulong           export_off,export_addr,export_size,export_end;
     ulong           reloc_off,reloc_size;
     ulong           image_size;
     int             i,delta,numFixups;
     ushort          relocType,*fixup;
     PE_MODULE       *hMod = NULL;
     void            *reloc = NULL;
     BASE_RELOCATION *baseReloc;
     InitLibC_t      InitLibC;

     /* Read the PE file headers from disk */
     if (!PE_readHeader(f,startOffset,&filehdr,&opthdr))
 	return NULL;

     /* Scan all the section headers and find the necessary sections */
     text_off = data_off = reloc_off = export_off = 0;
     text_addr = text_size = 0;
     data_addr = data_size = data_end = 0;
     export_addr = export_size = export_end = 0;
     reloc_size = 0;
     for (i = 0; i < filehdr.NumberOfSections; i++) {
 	if (fread(&secthdr, 1, sizeof(secthdr), f) != sizeof(secthdr))
 	    goto Error;
 	if (strcmp(secthdr.Name, ".edata") == 0 || strcmp(secthdr.Name, ".rdata") == 0) {
 	    /* Exports section */
 	    export_off = secthdr.PointerToRawData;
 	    export_addr = secthdr.VirtualAddress;
 	    export_size = secthdr.SizeOfRawData;
 	    export_end = export_addr + export_size;
 	    }
 	else if (strcmp(secthdr.Name, ".idata") == 0) {
 	    /* Imports section, ignore */
 	    }
 	else if (strcmp(secthdr.Name, ".reloc") == 0) {
 	    /* Relocations section */
 	    reloc_off = secthdr.PointerToRawData;
 	    reloc_size = secthdr.SizeOfRawData;
 	    }
 	else if (!text_off && secthdr.Characteristics & IMAGE_SCN_CNT_CODE) {
 	    /* Code section */
 	    text_off = secthdr.PointerToRawData;
 	    text_addr = secthdr.VirtualAddress;
 	    text_size = secthdr.SizeOfRawData;
 	    }
 	else if (!data_off && secthdr.Characteristics & IMAGE_SCN_CNT_INITIALIZED_DATA) {
 	    /* Data section */
 	    data_off = secthdr.PointerToRawData;
 	    data_addr = secthdr.VirtualAddress;
 	    data_size = secthdr.SizeOfRawData;
 	    data_end = data_addr + data_size;
 	    }
 	}

     /* Check to make sure that we have all the sections we need */
     if (!text_off || !data_off || !export_off || !reloc_off) {
 	result = PE_invalidDLLImage;
 	goto Error;
 	}

     /* Find the size of the image to load allocate memory for it */
     image_size = MAX(export_end,data_end) - text_addr;
     *size = sizeof(PE_MODULE) + image_size + 4096;
     if (shared)
 	hMod = PM_mallocShared(*size);
     else
 	hMod = PM_malloc(*size);
     reloc = PM_malloc(reloc_size);
     if (!hMod || !reloc) {
 	result = PE_outOfMemory;
 	goto Error;
 	}

     hMod->text = (uchar*)ROUND_4K((ulong)hMod + sizeof(PE_MODULE));
     hMod->data = (uchar*)((ulong)hMod->text + (data_addr - text_addr));
     hMod->export = (uchar*)((ulong)hMod->text + (export_addr - text_addr));
     hMod->textBase = text_addr;
     hMod->dataBase = data_addr;
     hMod->exportBase = export_addr;
     hMod->exportDir = opthdr.DataDirectory[0].RelVirtualAddress - export_addr;
     hMod->shared = shared;

     /* Now read the section images from disk */
     result = PE_invalidDLLImage;
     fseek(f, startOffset+text_off, SEEK_SET);
     if (fread(hMod->text, 1, text_size, f) != text_size)
 	goto Error;
     fseek(f, startOffset+data_off, SEEK_SET);
     if (fread(hMod->data, 1, data_size, f) != data_size)
 	goto Error;
     fseek(f, startOffset+export_off, SEEK_SET);
     if (fread(hMod->export, 1, export_size, f) != export_size)
 	goto Error;
     fseek(f, startOffset+reloc_off, SEEK_SET);
     if (fread(reloc, 1, reloc_size, f) != reloc_size)
 	goto Error;

     /* Now perform relocations on all sections in the image */
     delta = (ulong)hMod->text - opthdr.ImageBase - text_addr;
     baseReloc = (BASE_RELOCATION*)reloc;
     for (;;) {
 	/* Check for termination condition */
 	if (!baseReloc->PageRVA || !baseReloc->BlockSize)
 	    break;

 	/* Do fixups */
 	pageOffset = baseReloc->PageRVA - hMod->textBase;
 	numFixups = (baseReloc->BlockSize - sizeof(BASE_RELOCATION)) / sizeof(ushort);
 	fixup = (ushort*)(baseReloc + 1);
 	for (i = 0; i < numFixups; i++) {
 	    relocType = *fixup >> 12;
 	    if (relocType) {
 		offset = pageOffset + (*fixup & 0x0FFF);
 		*(ulong*)(hMod->text + offset) += delta;
 		}
 	    fixup++;
 	    }

 	/* Move to next relocation block */
 	baseReloc = (BASE_RELOCATION*)((ulong)baseReloc + baseReloc->BlockSize);
 	}

     /* Initialise the C runtime library for the loaded DLL */
     result = PE_unableToInitLibC;
     if ((InitLibC = (InitLibC_t)PE_getProcAddress(hMod,"_InitLibC")) == NULL)
 	goto Error;
     if (!InitLibC(&___imports,PM_getOSType()))
 	goto Error;

     /* Clean up, close the file and return the loaded module handle */
     PM_free(reloc);
     result = PE_ok;
     return hMod;

 Error:
     if (shared)
 	PM_freeShared(hMod);
     else
 	PM_free(hMod);
     PM_free(reloc);
     return NULL;
 }

 /****************************************************************************
 DESCRIPTION:
 Loads a Portable Binary DLL into memory

 HEADER:
 peloader.h

 PARAMETERS:
 szDLLName   - Name of the PE DLL library to load
 shared      - True to load module into shared memory

 RETURNS:
 Handle to loaded PE DLL, or NULL on failure.

 REMARKS:
 This function loads a Portable Binary DLL library from disk, relocates
 the code and returns a handle to the loaded library. This function
 will only work on DLL's that do not have any imports, since we don't
 resolve import dependencies in this function.

 SEE ALSO:
 PE_getProcAddress, PE_freeLibrary
 ****************************************************************************/
 PE_MODULE * PEAPI PE_loadLibrary(
     const char *szDLLName,
     ibool shared)
 {
     PE_MODULE   *hMod;

 #if (defined(__WINDOWS32__) || defined(__DRIVER__)) && defined(CHECKED)
     if (!shared) {
 	PM_MODULE       hInst;
 	InitLibC_t      InitLibC;

 	/* For Win32 if are building checked libraries for debugging, we use
 	 * the real Win32 DLL functions so that we can debug the resulting DLL
 	 * files with the Win32 debuggers. Note that we can't do this if
 	 * we need to load the files into a shared memory context.
 	 */
 	if ((hInst = PM_loadLibrary(szDLLName)) == NULL) {
 	    result = PE_fileNotFound;
 	    return NULL;
 	    }

 	/* Initialise the C runtime library for the loaded DLL */
 	result = PE_unableToInitLibC;
 	if ((InitLibC = (void*)PM_getProcAddress(hInst,"_InitLibC")) == NULL)
 	    return NULL;
 	if (!InitLibC(&___imports,PM_getOSType()))
 	    return NULL;

 	/* Allocate the PE_MODULE structure */
 	if ((hMod = PM_malloc(sizeof(*hMod))) == NULL)
 	    return NULL;
 	hMod->text = (void*)hInst;
 	hMod->shared = -1;

 	/* DLL loaded successfully so return module handle */
 	result = PE_ok;
 	return hMod;
 	}
     else
 #endif
 	{
 	FILE        *f;
 	ulong       size;

 	/* Attempt to open the file on disk */
 	if (shared < 0)
 	    shared = 0;
 	if ((f = fopen(szDLLName,"rb")) == NULL) {
 	    result = PE_fileNotFound;
 	    return NULL;
 	    }
 	hMod = PE_loadLibraryExt(f,0,&size,shared);
 	fclose(f);
 	return hMod;
 	}
 }

 /****************************************************************************
 DESCRIPTION:
 Loads a Portable Binary DLL into memory

 HEADER:
 peloader.h

 PARAMETERS:
 szDLLName   - Name of the PE DLL library to load
 shared      - True to load module into shared memory

 RETURNS:
 Handle to loaded PE DLL, or NULL on failure.

 REMARKS:
 This function is the same as the regular PE_loadLibrary function, except
 that it looks for the drivers in the MGL_ROOT/drivers directory or a
 /drivers directory relative to the current directory.

 SEE ALSO:
 PE_loadLibraryMGL, PE_getProcAddress, PE_freeLibrary
 ****************************************************************************/
 PE_MODULE * PEAPI PE_loadLibraryMGL(
     const char *szDLLName,
     ibool shared)
 {
 #if !defined(__WIN32_VXD__) && !defined(__NT_DRIVER__)
     PE_MODULE   *hMod;
 #endif
     char        path[256] = "";

     /* We look in the 'drivers' directory, optionally under the MGL_ROOT
      * environment variable directory.
      */
 #if !defined(__WIN32_VXD__) && !defined(__NT_DRIVER__)
     if (getenv("MGL_ROOT")) {
 	strcpy(path,getenv("MGL_ROOT"));
 	PM_backslash(path);
 	}
     strcat(path,"drivers");
     PM_backslash(path);
     strcat(path,szDLLName);
     if ((hMod = PE_loadLibrary(path,shared)) != NULL)
 	return hMod;
 #endif
     strcpy(path,"drivers");
     PM_backslash(path);
     strcat(path,szDLLName);
     return PE_loadLibrary(path,shared);
 }

 /****************************************************************************
 DESCRIPTION:
 Gets a function address from a Portable Binary DLL

 HEADER:
 peloader.h

 PARAMETERS:
 hModule     - Handle to a loaded PE DLL library
 szProcName  - Name of the function to get the address of

 RETURNS:
 Pointer to the function, or NULL on failure.

 REMARKS:
 This function searches for the named, exported function in a loaded PE
 DLL library, and returns the address of the function. If the function is
 not found in the library, this function return NULL.

 SEE ALSO:
 PE_loadLibrary, PE_freeLibrary
 ****************************************************************************/
 void * PEAPI PE_getProcAddress(
     PE_MODULE *hModule,
     const char *szProcName)
 {
 #if (defined(__WINDOWS32__) || defined(__DRIVER__)) && defined(CHECKED)
     if (hModule->shared == -1)
 	return (void*)PM_getProcAddress(hModule->text,szProcName);
     else
 #endif
 	{
 	uint                i;
 	EXPORT_DIRECTORY    *exports;
 	ulong               funcOffset;
 	ulong               *AddressTable;
 	ulong               *NameTable;
 	ushort              *OrdinalTable;
 	char                *name;

 	/* Find the address of the export tables from the export section */
 	if (!hModule)
 	    return NULL;
 	exports = (EXPORT_DIRECTORY*)(hModule->export + hModule->exportDir);
 	AddressTable = (ulong*)(hModule->export + exports->AddressTableRVA - hModule->exportBase);
 	NameTable = (ulong*)(hModule->export + exports->NameTableRVA - hModule->exportBase);
 	OrdinalTable = (ushort*)(hModule->export + exports->OrdinalTableRVA - hModule->exportBase);

 	/* Search the export name table to find the function name */
 	for (i = 0; i < exports->NumberOfNamePointers; i++) {
 	    name = (char*)(hModule->export + NameTable[i] - hModule->exportBase);
 	    if (strcmp(name,szProcName) == 0)
 		break;
 	    }
 	if (i == exports->NumberOfNamePointers)
 	    return NULL;
 	funcOffset = AddressTable[OrdinalTable[i]];
 	if (!funcOffset)
 	    return NULL;
 	return (void*)(hModule->text + funcOffset - hModule->textBase);
 	}
 }

 /****************************************************************************
 DESCRIPTION:
 Frees a loaded Portable Binary DLL

 HEADER:
 peloader.h

 PARAMETERS:
 hModule     - Handle to a loaded PE DLL library to free

 REMARKS:
 This function frees a loaded PE DLL library from memory.

 SEE ALSO:
 PE_getProcAddress, PE_loadLibrary
 ****************************************************************************/
 void PEAPI PE_freeLibrary(
     PE_MODULE *hModule)
 {
     TerminateLibC_t TerminateLibC;

 #if (defined(__WINDOWS32__) || defined(__DRIVER__)) && defined(CHECKED)
     if (hModule->shared == -1) {
 	/* Run the C runtime library exit code on module unload */
 	if ((TerminateLibC = (TerminateLibC_t)PM_getProcAddress(hModule->text,"_TerminateLibC")) != NULL)
 	    TerminateLibC();
 	PM_freeLibrary(hModule->text);
 	PM_free(hModule);
 	}
     else
 #endif
 	{
 	if (hModule) {
 	    /* Run the C runtime library exit code on module unload */
 	    if ((TerminateLibC = (TerminateLibC_t)PE_getProcAddress(hModule,"_TerminateLibC")) != NULL)
 		TerminateLibC();
 	    if (hModule->shared)
 		PM_freeShared(hModule);
 	    else
 		PM_free(hModule);
 	    }
 	}
 }

 /****************************************************************************
 DESCRIPTION:
 Returns the error code for the last operation

 HEADER:
 peloader.h

 RETURNS:
 Error code for the last operation.

 SEE ALSO:
 PE_getProcAddress, PE_loadLibrary
 ****************************************************************************/
 int PEAPI PE_getError(void)
 {
     return result;
 }
	/****************************************************************************
	*
	* SciTech MGL Graphics Library
	*
	* ========================================================================
	*
	* The contents of this file are subject to the SciTech MGL Public
	* License Version 1.0 (the "License"); you may not use this file
	* except in compliance with the License. You may obtain a copy of
	* the License at http://www.scitechsoft.com/mgl-license.txt
	*
	* Software distributed under the License is distributed on an
	* "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or
	* implied. See the License for the specific language governing
	* rights and limitations under the License.
	*
	* The Original Code is Copyright (C) 1991-1998 SciTech Software, Inc.
	*
	* The Initial Developer of the Original Code is SciTech Software, Inc.
	* All Rights Reserved.
	*
	* ========================================================================
	*
	* Language: ANSI C
	* Environment: Any
	*
	* Description: Module to implement a simple Portable Binary DLL loader
	* library. This library can be used to load PE DLL's under
	* any Intel based OS, provided the DLL's do not have any
	* imports in the import table.
	*
	* NOTE: This loader module expects the DLL's to be built with
	* Watcom C++ and may produce unexpected results with
	* DLL's linked by another compiler.
	*
	****************************************************************************/

	#include "drvlib/peloader.h"
	#include "pmapi.h"
	#include "drvlib/os/os.h"
	#include "drvlib/libc/init.h"
	#if (defined(__WINDOWS32__) \|\| defined(__DRIVER__)) && defined(CHECKED)
	#define WIN32_LEAN_AND_MEAN
	#define STRICT
	#include <windows.h>
	#endif
	#include "drvlib/pe.h"

	/--------------------------- Global variables ----------------------------/

	static int result = PE_ok;

	/------------------------- Implementation --------------------------------/

	/****************************************************************************
	PARAMETERS:
	f - Handle to open file to read driver from
	startOffset - Offset to the start of the driver within the file

	RETURNS:
	Handle to loaded PE DLL, or NULL on failure.

	REMARKS:
	This function loads a Portable Binary DLL library from disk, relocates
	the code and returns a handle to the loaded library. This function is the
	same as the regular PE_loadLibrary except that it take a handle to an
	open file and an offset within that file for the DLL to load.
	****************************************************************************/
	static int PE_readHeader(
	FILE *f,
	long startOffset,
	FILE_HDR *filehdr,
	OPTIONAL_HDR *opthdr)
	{
	EXE_HDR exehdr;
	ulong offset,signature;

	/* Read the EXE header and check for valid header signature */
	result = PE_invalidDLLImage;
	fseek(f, startOffset, SEEK_SET);
	if (fread(&exehdr, 1, sizeof(exehdr), f) != sizeof(exehdr))
	return false;
	if (exehdr.signature != 0x5A4D)
	return false;

	/* Now seek to the start of the PE header defined at offset 0x3C
	* in the MS-DOS EXE header, and read the signature and check it.
	*/
	fseek(f, startOffset+0x3C, SEEK_SET);
	if (fread(&offset, 1, sizeof(offset), f) != sizeof(offset))
	return false;
	fseek(f, startOffset+offset, SEEK_SET);
	if (fread(&signature, 1, sizeof(signature), f) != sizeof(signature))
	return false;
	if (signature != 0x00004550)
	return false;

	/* Now read the PE file header and check that it is correct */
	if (fread(filehdr, 1, sizeof(filehdr), f) != sizeof(filehdr))
	return false;
	if (filehdr->Machine != IMAGE_FILE_MACHINE_I386)
	return false;
	if (!(filehdr->Characteristics & IMAGE_FILE_32BIT_MACHINE))
	return false;
	if (!(filehdr->Characteristics & IMAGE_FILE_DLL))
	return false;
	if (fread(opthdr, 1, sizeof(opthdr), f) != sizeof(opthdr))
	return false;
	if (opthdr->Magic != 0x10B)
	return false;

	/* Success, so return true! */
	return true;
	}

	/****************************************************************************
	PARAMETERS:
	f - Handle to open file to read driver from
	startOffset - Offset to the start of the driver within the file

	RETURNS:
	Size of the DLL file on disk, or -1 on error

	REMARKS:
	This function scans the headers for a Portable Binary DLL to determine the
	length of the DLL file on disk.
	{secret}
	****************************************************************************/
	ulong PEAPI PE_getFileSize(
	FILE *f,
	ulong startOffset)
	{
	FILE_HDR filehdr;
	OPTIONAL_HDR opthdr;
	SECTION_HDR secthdr;
	ulong size;
	int i;

	/* Read the PE file headers from disk */
	if (!PE_readHeader(f,startOffset,&filehdr,&opthdr))
	return 0xFFFFFFFF;

	/* Scan all the section headers summing up the total size */
	size = opthdr.SizeOfHeaders;
	for (i = 0; i < filehdr.NumberOfSections; i++) {
	if (fread(&secthdr, 1, sizeof(secthdr), f) != sizeof(secthdr))
	return 0xFFFFFFFF;
	size += secthdr.SizeOfRawData;
	}
	return size;
	}

	/****************************************************************************
	DESCRIPTION:
	Loads a Portable Binary DLL into memory from an open file

	HEADER:
	peloader.h

	PARAMETERS:
	f - Handle to open file to read driver from
	startOffset - Offset to the start of the driver within the file
	size - Place to store the size of the driver loaded
	shared - True to load module into shared memory

	RETURNS:
	Handle to loaded PE DLL, or NULL on failure.

	REMARKS:
	This function loads a Portable Binary DLL library from disk, relocates
	the code and returns a handle to the loaded library. This function is the
	same as the regular PE_loadLibrary except that it take a handle to an
	open file and an offset within that file for the DLL to load.

	SEE ALSO:
	PE_loadLibrary, PE_getProcAddress, PE_freeLibrary
	****************************************************************************/
	PE_MODULE * PEAPI PE_loadLibraryExt(
	FILE *f,
	ulong startOffset,
	ulong *size,
	ibool shared)
	{
	FILE_HDR filehdr;
	OPTIONAL_HDR opthdr;
	SECTION_HDR secthdr;
	ulong offset,pageOffset;
	ulong text_off,text_addr,text_size;
	ulong data_off,data_addr,data_size,data_end;
	ulong export_off,export_addr,export_size,export_end;
	ulong reloc_off,reloc_size;
	ulong image_size;
	int i,delta,numFixups;
	ushort relocType,*fixup;
	PE_MODULE *hMod = NULL;
	void *reloc = NULL;
	BASE_RELOCATION *baseReloc;
	InitLibC_t InitLibC;

	/* Read the PE file headers from disk */
	if (!PE_readHeader(f,startOffset,&filehdr,&opthdr))
	return NULL;

	/* Scan all the section headers and find the necessary sections */
	text_off = data_off = reloc_off = export_off = 0;
	text_addr = text_size = 0;
	data_addr = data_size = data_end = 0;
	export_addr = export_size = export_end = 0;
	reloc_size = 0;
	for (i = 0; i < filehdr.NumberOfSections; i++) {
	if (fread(&secthdr, 1, sizeof(secthdr), f) != sizeof(secthdr))
	goto Error;
	if (strcmp(secthdr.Name, ".edata") == 0 \|\| strcmp(secthdr.Name, ".rdata") == 0) {
	/* Exports section */
	export_off = secthdr.PointerToRawData;
	export_addr = secthdr.VirtualAddress;
	export_size = secthdr.SizeOfRawData;
	export_end = export_addr + export_size;
	}
	else if (strcmp(secthdr.Name, ".idata") == 0) {
	/* Imports section, ignore */
	}
	else if (strcmp(secthdr.Name, ".reloc") == 0) {
	/* Relocations section */
	reloc_off = secthdr.PointerToRawData;
	reloc_size = secthdr.SizeOfRawData;
	}
	else if (!text_off && secthdr.Characteristics & IMAGE_SCN_CNT_CODE) {
	/* Code section */
	text_off = secthdr.PointerToRawData;
	text_addr = secthdr.VirtualAddress;
	text_size = secthdr.SizeOfRawData;
	}
	else if (!data_off && secthdr.Characteristics & IMAGE_SCN_CNT_INITIALIZED_DATA) {
	/* Data section */
	data_off = secthdr.PointerToRawData;
	data_addr = secthdr.VirtualAddress;
	data_size = secthdr.SizeOfRawData;
	data_end = data_addr + data_size;
	}
	}

	/* Check to make sure that we have all the sections we need */
	if (!text_off \|\| !data_off \|\| !export_off \|\| !reloc_off) {
	result = PE_invalidDLLImage;
	goto Error;
	}

	/* Find the size of the image to load allocate memory for it */
	image_size = MAX(export_end,data_end) - text_addr;
	*size = sizeof(PE_MODULE) + image_size + 4096;
	if (shared)
	hMod = PM_mallocShared(*size);
	else
	hMod = PM_malloc(*size);
	reloc = PM_malloc(reloc_size);
	if (!hMod \|\| !reloc) {
	result = PE_outOfMemory;
	goto Error;
	}

	hMod->text = (uchar*)ROUND_4K((ulong)hMod + sizeof(PE_MODULE));
	hMod->data = (uchar*)((ulong)hMod->text + (data_addr - text_addr));
	hMod->export = (uchar*)((ulong)hMod->text + (export_addr - text_addr));
	hMod->textBase = text_addr;
	hMod->dataBase = data_addr;
	hMod->exportBase = export_addr;
	hMod->exportDir = opthdr.DataDirectory[0].RelVirtualAddress - export_addr;
	hMod->shared = shared;

	/* Now read the section images from disk */
	result = PE_invalidDLLImage;
	fseek(f, startOffset+text_off, SEEK_SET);
	if (fread(hMod->text, 1, text_size, f) != text_size)
	goto Error;
	fseek(f, startOffset+data_off, SEEK_SET);
	if (fread(hMod->data, 1, data_size, f) != data_size)
	goto Error;
	fseek(f, startOffset+export_off, SEEK_SET);
	if (fread(hMod->export, 1, export_size, f) != export_size)
	goto Error;
	fseek(f, startOffset+reloc_off, SEEK_SET);
	if (fread(reloc, 1, reloc_size, f) != reloc_size)
	goto Error;

	/* Now perform relocations on all sections in the image */
	delta = (ulong)hMod->text - opthdr.ImageBase - text_addr;
	baseReloc = (BASE_RELOCATION*)reloc;
	for (;;) {
	/* Check for termination condition */
	if (!baseReloc->PageRVA \|\| !baseReloc->BlockSize)
	break;

	/* Do fixups */
	pageOffset = baseReloc->PageRVA - hMod->textBase;
	numFixups = (baseReloc->BlockSize - sizeof(BASE_RELOCATION)) / sizeof(ushort);
	fixup = (ushort*)(baseReloc + 1);
	for (i = 0; i < numFixups; i++) {
	relocType = *fixup >> 12;
	if (relocType) {
	offset = pageOffset + (*fixup & 0x0FFF);
	(ulong)(hMod->text + offset) += delta;
	}
	fixup++;
	}

	/* Move to next relocation block */
	baseReloc = (BASE_RELOCATION*)((ulong)baseReloc + baseReloc->BlockSize);
	}

	/* Initialise the C runtime library for the loaded DLL */
	result = PE_unableToInitLibC;
	if ((InitLibC = (InitLibC_t)PE_getProcAddress(hMod,"_InitLibC")) == NULL)
	goto Error;
	if (!InitLibC(&___imports,PM_getOSType()))
	goto Error;

	/* Clean up, close the file and return the loaded module handle */
	PM_free(reloc);
	result = PE_ok;
	return hMod;

	Error:
	if (shared)
	PM_freeShared(hMod);
	else
	PM_free(hMod);
	PM_free(reloc);
	return NULL;
	}

	/****************************************************************************
	DESCRIPTION:
	Loads a Portable Binary DLL into memory

	HEADER:
	peloader.h

	PARAMETERS:
	szDLLName - Name of the PE DLL library to load
	shared - True to load module into shared memory

	RETURNS:
	Handle to loaded PE DLL, or NULL on failure.

	REMARKS:
	This function loads a Portable Binary DLL library from disk, relocates
	the code and returns a handle to the loaded library. This function
	will only work on DLL's that do not have any imports, since we don't
	resolve import dependencies in this function.

	SEE ALSO:
	PE_getProcAddress, PE_freeLibrary
	****************************************************************************/
	PE_MODULE * PEAPI PE_loadLibrary(
	const char *szDLLName,
	ibool shared)
	{
	PE_MODULE *hMod;

	#if (defined(__WINDOWS32__) \|\| defined(__DRIVER__)) && defined(CHECKED)
	if (!shared) {
	PM_MODULE hInst;
	InitLibC_t InitLibC;

	/* For Win32 if are building checked libraries for debugging, we use
	* the real Win32 DLL functions so that we can debug the resulting DLL
	* files with the Win32 debuggers. Note that we can't do this if
	* we need to load the files into a shared memory context.
	*/
	if ((hInst = PM_loadLibrary(szDLLName)) == NULL) {
	result = PE_fileNotFound;
	return NULL;
	}

	/* Initialise the C runtime library for the loaded DLL */
	result = PE_unableToInitLibC;
	if ((InitLibC = (void*)PM_getProcAddress(hInst,"_InitLibC")) == NULL)
	return NULL;
	if (!InitLibC(&___imports,PM_getOSType()))
	return NULL;

	/* Allocate the PE_MODULE structure */
	if ((hMod = PM_malloc(sizeof(*hMod))) == NULL)
	return NULL;
	hMod->text = (void*)hInst;
	hMod->shared = -1;

	/* DLL loaded successfully so return module handle */
	result = PE_ok;
	return hMod;
	}
	else
	#endif
	{
	FILE *f;
	ulong size;

	/* Attempt to open the file on disk */
	if (shared < 0)
	shared = 0;
	if ((f = fopen(szDLLName,"rb")) == NULL) {
	result = PE_fileNotFound;
	return NULL;
	}
	hMod = PE_loadLibraryExt(f,0,&size,shared);
	fclose(f);
	return hMod;
	}
	}

	/****************************************************************************
	DESCRIPTION:
	Loads a Portable Binary DLL into memory

	HEADER:
	peloader.h

	PARAMETERS:
	szDLLName - Name of the PE DLL library to load
	shared - True to load module into shared memory

	RETURNS:
	Handle to loaded PE DLL, or NULL on failure.

	REMARKS:
	This function is the same as the regular PE_loadLibrary function, except
	that it looks for the drivers in the MGL_ROOT/drivers directory or a
	/drivers directory relative to the current directory.

	SEE ALSO:
	PE_loadLibraryMGL, PE_getProcAddress, PE_freeLibrary
	****************************************************************************/
	PE_MODULE * PEAPI PE_loadLibraryMGL(
	const char *szDLLName,
	ibool shared)
	{
	#if !defined(__WIN32_VXD__) && !defined(__NT_DRIVER__)
	PE_MODULE *hMod;
	#endif
	char path[256] = "";

	/* We look in the 'drivers' directory, optionally under the MGL_ROOT
	* environment variable directory.
	*/
	#if !defined(__WIN32_VXD__) && !defined(__NT_DRIVER__)
	if (getenv("MGL_ROOT")) {
	strcpy(path,getenv("MGL_ROOT"));
	PM_backslash(path);
	}
	strcat(path,"drivers");
	PM_backslash(path);
	strcat(path,szDLLName);
	if ((hMod = PE_loadLibrary(path,shared)) != NULL)
	return hMod;
	#endif
	strcpy(path,"drivers");
	PM_backslash(path);
	strcat(path,szDLLName);
	return PE_loadLibrary(path,shared);
	}

	/****************************************************************************
	DESCRIPTION:
	Gets a function address from a Portable Binary DLL

	HEADER:
	peloader.h

	PARAMETERS:
	hModule - Handle to a loaded PE DLL library
	szProcName - Name of the function to get the address of

	RETURNS:
	Pointer to the function, or NULL on failure.

	REMARKS:
	This function searches for the named, exported function in a loaded PE
	DLL library, and returns the address of the function. If the function is
	not found in the library, this function return NULL.

	SEE ALSO:
	PE_loadLibrary, PE_freeLibrary
	****************************************************************************/
	void * PEAPI PE_getProcAddress(
	PE_MODULE *hModule,
	const char *szProcName)
	{
	#if (defined(__WINDOWS32__) \|\| defined(__DRIVER__)) && defined(CHECKED)
	if (hModule->shared == -1)
	return (void*)PM_getProcAddress(hModule->text,szProcName);
	else
	#endif
	{
	uint i;
	EXPORT_DIRECTORY *exports;
	ulong funcOffset;
	ulong *AddressTable;
	ulong *NameTable;
	ushort *OrdinalTable;
	char *name;

	/* Find the address of the export tables from the export section */
	if (!hModule)
	return NULL;
	exports = (EXPORT_DIRECTORY*)(hModule->export + hModule->exportDir);
	AddressTable = (ulong*)(hModule->export + exports->AddressTableRVA - hModule->exportBase);
	NameTable = (ulong*)(hModule->export + exports->NameTableRVA - hModule->exportBase);
	OrdinalTable = (ushort*)(hModule->export + exports->OrdinalTableRVA - hModule->exportBase);

	/* Search the export name table to find the function name */
	for (i = 0; i < exports->NumberOfNamePointers; i++) {
	name = (char*)(hModule->export + NameTable[i] - hModule->exportBase);
	if (strcmp(name,szProcName) == 0)
	break;
	}
	if (i == exports->NumberOfNamePointers)
	return NULL;
	funcOffset = AddressTable[OrdinalTable[i]];
	if (!funcOffset)
	return NULL;
	return (void*)(hModule->text + funcOffset - hModule->textBase);
	}
	}

	/****************************************************************************
	DESCRIPTION:
	Frees a loaded Portable Binary DLL

	HEADER:
	peloader.h

	PARAMETERS:
	hModule - Handle to a loaded PE DLL library to free

	REMARKS:
	This function frees a loaded PE DLL library from memory.

	SEE ALSO:
	PE_getProcAddress, PE_loadLibrary
	****************************************************************************/
	void PEAPI PE_freeLibrary(
	PE_MODULE *hModule)
	{
	TerminateLibC_t TerminateLibC;

	#if (defined(__WINDOWS32__) \|\| defined(__DRIVER__)) && defined(CHECKED)
	if (hModule->shared == -1) {
	/* Run the C runtime library exit code on module unload */
	if ((TerminateLibC = (TerminateLibC_t)PM_getProcAddress(hModule->text,"_TerminateLibC")) != NULL)
	TerminateLibC();
	PM_freeLibrary(hModule->text);
	PM_free(hModule);
	}
	else
	#endif
	{
	if (hModule) {
	/* Run the C runtime library exit code on module unload */
	if ((TerminateLibC = (TerminateLibC_t)PE_getProcAddress(hModule,"_TerminateLibC")) != NULL)
	TerminateLibC();
	if (hModule->shared)
	PM_freeShared(hModule);
	else
	PM_free(hModule);
	}
	}
	}

	/****************************************************************************
	DESCRIPTION:
	Returns the error code for the last operation

	HEADER:
	peloader.h

	RETURNS:
	Error code for the last operation.

	SEE ALSO:
	PE_getProcAddress, PE_loadLibrary
	****************************************************************************/
	int PEAPI PE_getError(void)
	{
	return result;
	}