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Porting pice. Added coff symbol parsing to pice, and some other small things.

Browse source 
svn path=/trunk/; revision=2486
This commit is contained in:
Eugene Ingerman 2002-01-04 23:37:29 +00:00
parent fae2e4844a
commit fa8eafcb38
10 changed files with 591 additions and 463 deletions
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72
reactos/apps/utils/pice/loader/main.c
View file

@ -32,6 +32,7 @@ Copyright notice:
///////////////////////////////////////////////////////////////////////////////////
// includes
#include "stdinc.h"
#include <wchar.h>
///////////////////////////////////////////////////////////////////////////////////
// constant defines
@ -53,7 +54,7 @@ ULONG ulGlobalVerbose = 0;
///////////////////////////////////////////////////////////////////////////////////
void process_stabs(
char* pExeName, // name of exe
int fileout, // symbol file handle
HANDLE fileout, // symbol file handle
PIMAGE_SECTION_HEADER section, //Elf32_Shdr* pSHdr,
int sectionHeadersSize, //int nSHdrSize,
void* p, // ptr to memory where whole exe was read
@ -74,6 +75,8 @@ void process_stabs(
LPSTR pSlash,pDot;
char temp[2048];
char* pCopyExeName = temp;
WCHAR tempstr[64];
DWORD wrote;
//printf("LOADER: enter process_stabs()\n");
@ -91,7 +94,10 @@ void process_stabs(
{
pCopyExeName = pSlash+1;
}
strcpy(SymbolFileHeader.name,pCopyExeName);
strLen = MultiByteToWideChar(CP_ACP, NULL, pCopyExeName, -1, tempstr, 64 );
if( !strLen )
printf("Cannot convert string to multibyte: %s\n", pCopyExeName );
wcscpy(SymbolFileHeader.name,tempstr);
for(i=0;i<(nStabLen/sizeof(STAB_ENTRY));i++)
{
@ -219,22 +225,25 @@ void process_stabs(
SymbolFileHeader.ulOffsetToSrcFiles = sizeof(PICE_SYMBOLFILE_HEADER)+sectionHeadersSize+nGlobalLen+nGlobalStrLen+nStabLen+nStrLen;
SymbolFileHeader.ulNumberOfSrcFiles = ulCurrentSrcFile;
write(fileout,&SymbolFileHeader,sizeof(SymbolFileHeader));
write(fileout,section,sectionHeadersSize);
write(fileout,pGlobals,nGlobalLen);
write(fileout,pGlobalsStr,nGlobalStrLen);
write(fileout,pStab,nStabLen);
write(fileout,pStr,nStrLen);
printf("sectionHeaderSize: %ld, nGlobalLen: %ld, nGlobalStrLen: %ld, nStabLen: %ld,
nStrLen: %ld, ulCurrentSrcFile: %ld, ulOffsetToStabs: %ld \n", sectionHeadersSize, nGlobalLen, nGlobalStrLen,
nStabLen, nStrLen, ulCurrentSrcFile, SymbolFileHeader.ulOffsetToStabs);
WriteFile(fileout,&SymbolFileHeader,sizeof(PICE_SYMBOLFILE_HEADER),&wrote, NULL);
WriteFile(fileout,section,sectionHeadersSize,&wrote, NULL);
WriteFile(fileout,pGlobals,nGlobalLen,&wrote, NULL);
WriteFile(fileout,pGlobalsStr,nGlobalStrLen,&wrote, NULL);
WriteFile(fileout,pStab,nStabLen,&wrote, NULL);
WriteFile(fileout,pStr,nStrLen,&wrote, NULL);
for(i=0;i<ulCurrentSrcFile;i++)
{
int file;
HANDLE file;
int len;
PVOID pFile;
PICE_SYMBOLFILE_SOURCE pss;
file = _open(SrcFileNames[i],O_RDONLY);
if( file <= 0 ){
file = CreateFile(SrcFileNames[i],O_RDONLY, 0, NULL, OPEN_EXISTING, 0, 0);
if( file == INVALID_HANDLE_VALUE ){
//let's try win format drive:/file
char srctmp[2048];
strcpy(srctmp, SrcFileNames[i] );
@ -242,19 +251,19 @@ void process_stabs(
*(srctmp) = *(srctmp+2);
*(srctmp+1) = ':';
*(srctmp+2) = '/';
file = _open(srctmp,O_RDONLY);
if( file <= 0 )
file = CreateFile(srctmp,O_RDONLY, 0, NULL, OPEN_EXISTING, 0, 0);
if( file == INVALID_HANDLE_VALUE )
printf("Can't open file: %s\n", srctmp );
}
}
if(file>0)
if(file != INVALID_HANDLE_VALUE)
{
//printf("LOADER: [%u] opened %s as FD %x\n",i,SrcFileNames[i],file);
len = _lseek(file,0,SEEK_END);
len = SetFilePointer(file,0,NULL,FILE_END);
//printf("LOADER: length = %x\n",(int)len);
_lseek(file,0,SEEK_SET);
SetFilePointer(file,0,NULL,FILE_BEGIN);
strcpy(pss.filename,SrcFileNames[i]);
pss.ulOffsetToNext = len+sizeof(PICE_SYMBOLFILE_SOURCE);
@ -264,15 +273,15 @@ void process_stabs(
if(pFile)
{
//printf("LOADER: reading file...\n");
_read(file,pFile,len);
ReadFile(file,pFile,len,&wrote,NULL);
_write(fileout,&pss,sizeof(PICE_SYMBOLFILE_SOURCE));
WriteFile(fileout,&pss,sizeof(PICE_SYMBOLFILE_SOURCE),&wrote, NULL);
//printf("LOADER: writing file...\n");
_write(fileout,pFile,len);
WriteFile(fileout,pFile,len,&wrote, NULL);
free(pFile);
}
_close(file);
CloseHandle(file);
}
}
@ -329,7 +338,7 @@ int process_pe(char* filename,int file,void* p,int len)
char* pSymTab;
char szSymName[2048];
int fileout;
HANDLE fileout;
int nSymStrLen,nStabStrLen;
int iRetVal = 0;
@ -346,9 +355,8 @@ int process_pe(char* filename,int file,void* p,int len)
nSym = pNTHeaders->FileHeader.NumberOfSymbols;
//string table follows immediately after symbol table. first 4 bytes give the length of the table
//references to string table include the first 4 bytes.
pStrTab = (PIMAGE_SYMBOL)pSymTab + nSym;
pStrTab = (char*)((PIMAGE_SYMBOL)pSymTab + nSym);
nSymStrLen = *((DWORD*)pStrTab);
find_stab_sections(p,IMAGE_FIRST_SECTION(pNTHeaders),pNTHeaders->FileHeader.NumberOfSections,
&pStab,&nStabLen,&pStr,&nStabStrLen);
@ -370,24 +378,32 @@ int process_pe(char* filename,int file,void* p,int len)
//printf("LOADER: symbol file name = %s\n",szSymName);
printf("LOADER: creating symbol file %s for %s\n",szSymName,filename);
fileout = _creat(szSymName, _S_IREAD | _S_IWRITE ); // make r/w
if(fileout != -1)
fileout = CreateFile(szSymName,
GENERIC_READ | GENERIC_WRITE,
0,
NULL,
CREATE_ALWAYS,
0,
0);
if(fileout != INVALID_HANDLE_VALUE)
{
printf("NumberOfSections: %d, size: %d\n", pNTHeaders->FileHeader.NumberOfSections,sizeof(IMAGE_SECTION_HEADER));
process_stabs(szSymName,
fileout,
IMAGE_FIRST_SECTION(pNTHeaders),
pNTHeaders->FileHeader.NumberOfSections*sizeof(PIMAGE_SECTION_HEADER),
pNTHeaders->FileHeader.NumberOfSections*sizeof(IMAGE_SECTION_HEADER),
p,
pStab,
nStabLen,
pStr,
nStabStrLen,
(char*)pSymTab,
nSym,
nSym*sizeof(IMAGE_SYMBOL),
pStrTab,
nSymStrLen);
close(fileout);
CloseHandle(fileout);
}
else
{

42
reactos/apps/utils/pice/loader/makefile
View file

@ -1,15 +1,37 @@
CC = gcc
CFLAGS := -Wall -fomit-frame-pointer -O2 -DLINUX
LDFLAGS := -dynamic
#CC = gcc
#CFLAGS := -g -Wall -fomit-frame-pointer -O2
#LDFLAGS := -dynamic
#-lncurses
OBJS = main.o terminal.o
#OBJS = main.o terminal.o
#
#loader: $(OBJS)
# $(CC) $(LDFLAGS) $(CFLAGS) -o $@ $^
#clean:
# @echo deleting all intermediate files
# @rm $(OBJS) loader -f
# make
loader: $(OBJS)
$(CC) $(LDFLAGS) $(CFLAGS) -o $@ $^
PATH_TO_TOP = ../../..
TARGET_NORC = yes
TARGET_TYPE = program
TARGET_APPTYPE = console
TARGET_NAME = loader
TARGET_CFLAGS = -g -fomit-frame-pointer
TARGET_SDKLIBS =
TARGET_OBJECTS = main.o terminal.o
include $(PATH_TO_TOP)/rules.mak
include $(TOOLS_PATH)/helper.mk
clean:
@echo deleting all intermediate files
@rm $(OBJS) loader -f
make

6
reactos/apps/utils/pice/loader/stdinc.h
View file

@ -2,9 +2,11 @@
#include <string.h>
#include <malloc.h>
#include <io.h>
//#include <ddk/winnt.h>
#include <windows.h>
#include <winnt.h>
//#include <winnt.h>
#include <sys/types.h>
//#include <sys/wait.h>
//#include <sys/ioctl.h>
@ -15,7 +17,7 @@
//#include <unistd.h>
//#include <linux/unistd.h>
//#include "../../../include/pe.h"
#include "../../../include/pe.h"
#include "stab_gnu.h"
//#include "retypes.h"
//#include "terminal.h"

159
reactos/apps/utils/pice/module/init.c
View file

@ -1,28 +1,28 @@
/*++
Copyright (c) 1998-2001 Klaus P. Gerlicher
Module Name:
init.c
Abstract:
initialisation and cleanup of debugger kernel module
Environment:
Kernel mode only
Author:
Author:
Klaus P. Gerlicher
Revision History:
25-Jan-1999: created
15-Nov-2000: general cleanup of source files
Copyright notice:
This file may be distributed under the terms of the GNU Public License.
@ -46,12 +46,16 @@ ULONG ulDoInitialBreak=1;
char szBootParams[1024]="";
char tempInit[256];
//*************************************************************************
// InitPICE()
//
//*************************************************************************
BOOLEAN InitPICE(void)
{
PDIRECTORY_OBJECT *pNameSpaceRoot = NULL;
PDEBUG_MODULE pdebug_module_tail = NULL;
PDEBUG_MODULE pdebug_module_head = NULL;
//*************************************************************************
// InitPICE()
//
//*************************************************************************
BOOLEAN InitPICE(void)
{
ULONG ulHandleScancode=0,ulHandleKbdEvent=0;
ARGS Args;
@ -67,25 +71,25 @@ BOOLEAN InitPICE(void)
{
DPRINT((0,"InitPICE: LoadSymbolsFromConfig() failed\n"));
LEAVE_FUNC();
return FALSE;
return FALSE;
}
DPRINT((0,"InitPICE(): trace step 3\n"));
// init the output console
// init the output console
// this might be one of the following depending setup
// a) monochrome card
// b) serial terminal (TODO)
if(!ConsoleInit())
{
if(!ConsoleInit())
{
DPRINT((0,"InitPICE: ConsoleInit() failed\n"));
UnloadSymbols();
LEAVE_FUNC();
return FALSE;
}
return FALSE;
}
DPRINT((0,"InitPICE(): trace step 4\n"));
// print the initial screen template
PrintTemplate();
PrintTemplate();
DPRINT((0,"InitPICE(): trace step 5\n"));
// ask the user if he wants to abort the debugger load
@ -143,11 +147,12 @@ BOOLEAN InitPICE(void)
}
DPRINT((0,"InitPICE(): trace step 9\n"));
// the loaded module list
ScanExports("module_list",(PULONG)&pmodule_list);
if(!pmodule_list)
// the loaded module list
ScanExports("_NameSpaceRoot", (PULONG)pNameSpaceRoot);
if(!pNameSpaceRoot)
{
Print(OUTPUT_WINDOW,"pICE: ABORT (couldn't retreive kernel module list)\n");
Print(OUTPUT_WINDOW,"pICE: ABORT (couldn't retreive name space root)\n");
Print(OUTPUT_WINDOW,"pICE: press any key to continue...\n");
while(!GetKeyPolled());
UnloadExports();
@ -158,11 +163,12 @@ BOOLEAN InitPICE(void)
}
DPRINT((0,"InitPICE(): trace step 10\n"));
// setup a fake module struct for use by symbol routines
if(!InitFakeKernelModule())
// setup a linked list for use in module parsing routines.
if(!InitModuleList(&pdebug_module_head, 100))
{
Print(OUTPUT_WINDOW,"pICE: ABORT (couldn't initialize kernel module)\n");
Print(OUTPUT_WINDOW,"pICE: ABORT (couldn't initialize kernel module list)\n");
Print(OUTPUT_WINDOW,"pICE: press any key to continue...\n");
FreeModuleList( pdebug_module_head );
while(!GetKeyPolled());
UnloadExports();
UnloadSymbols();
@ -170,6 +176,7 @@ BOOLEAN InitPICE(void)
LEAVE_FUNC();
return FALSE;
}
pdebug_module_tail = pdebug_module_head;
DPRINT((0,"InitPICE(): trace step 11\n"));
// do a sanity check on exports
@ -186,11 +193,11 @@ BOOLEAN InitPICE(void)
}
DPRINT((0,"InitPICE(): trace step 12\n"));
DPRINT((0,"InitPICE(): trace step 13\n"));
// patch the keyboard driver
if(PatchKeyboardDriver())
{
Print(OUTPUT_WINDOW,"pICE: ABORT (couldn't patch keyboard driver)\n");
@ -205,30 +212,30 @@ BOOLEAN InitPICE(void)
DPRINT((0,"InitPICE(): trace step 14\n"));
// partial init of shadow registers
CurrentCS = GLOBAL_CODE_SEGMENT;
CurrentEIP = (ULONG)RealIsr;
CurrentDS = CurrentSS = GLOBAL_DATA_SEGMENT;
CurrentCS = GLOBAL_CODE_SEGMENT;
CurrentEIP = (ULONG)RealIsr;
CurrentDS = CurrentSS = GLOBAL_DATA_SEGMENT;
__asm__("
mov %%esp,%%eax
mov %%eax,CurrentESP
":::"eax");
// display version and symbol information
Ver(NULL);
// disable HW breakpoints
__asm__("
__asm__("
xorl %%eax,%%eax
mov %%eax,%%dr6
mov %%eax,%%dr6
mov %%eax,%%dr7
mov %%dr0,%%eax
mov %%dr1,%%eax
mov %%dr2,%%eax
mov %%dr3,%%eax"
:::"eax"
);
);
DPRINT((0,"InitPICE(): trace step 15\n"));
TakeIdtSnapshot();
@ -238,7 +245,7 @@ BOOLEAN InitPICE(void)
InstallTraceHook();
InstallGlobalKeyboardHook();
InstallSyscallHook();
InstallInt3Hook();
InstallInt3Hook();
InstallPrintkHook();
InstallDblFltHook();
InstallGPFaultHook();
@ -247,48 +254,48 @@ BOOLEAN InitPICE(void)
DPRINT((0,"InitPICE(): trace step 16\n"));
if(ulDoInitialBreak)
{
DPRINT((0,"about to do initial break...\n"));
// simulate an initial break
__asm__("
pushfl
pushl %cs
pushl $initialreturnpoint
DPRINT((0,"about to do initial break...\n"));
// simulate an initial break
__asm__("
pushfl
pushl %cs
pushl $initialreturnpoint
pushl $" STR(REASON_CTRLF) "
jmp NewInt31Handler
jmp NewInt31Handler
initialreturnpoint:");
}
else
{
// display register contents
DisplayRegs();
// display data window
Args.Value[0]=CurrentDS;
Args.Value[1]=CurrentEIP;
Args.Count=2;
DisplayMemory(&Args);
// disassembly from current address
Args.Value[0]=CurrentCS;
Args.Value[1]=CurrentEIP;
Args.Count=2;
Unassemble(&Args);
// display register contents
DisplayRegs();
// display data window
Args.Value[0]=CurrentDS;
Args.Value[1]=CurrentEIP;
Args.Count=2;
DisplayMemory(&Args);
// disassembly from current address
Args.Value[0]=CurrentCS;
Args.Value[1]=CurrentEIP;
Args.Count=2;
Unassemble(&Args);
}
DPRINT((0,"InitPICE(): trace step 17\n"));
InitPiceRunningTimer();
LEAVE_FUNC();
return TRUE;
}
return TRUE;
}
//*************************************************************************
// CleanUpPICE()
//
//*************************************************************************
void CleanUpPICE(void)
{
//*************************************************************************
// CleanUpPICE()
//
//*************************************************************************
void CleanUpPICE(void)
{
DPRINT((0,"CleanUpPICE(): trace step 1\n"));
RemovePiceRunningTimer();
@ -308,7 +315,7 @@ void CleanUpPICE(void)
DPRINT((0,"CleanUpPICE(): trace step 4\n"));
UnloadExports(); // don't use ScanExports() after this
UnloadSymbols();
UnloadSymbols();
DPRINT((0,"CleanUpPICE(): trace step 5\n"));
// restore patch of keyboard driver
@ -319,5 +326,5 @@ void CleanUpPICE(void)
DPRINT((0,"CleanUpPICE(): trace step 7\n"));
// cleanup the console
ConsoleShutdown();
ConsoleShutdown();
}

32
reactos/apps/utils/pice/module/patch.c
View file

@ -37,7 +37,7 @@ Copyright notice:
#include "remods.h"
#include "precomp.h"
#include <asm/system.h>
//#include <asm/system.h>
#include <ddk/ntddkbd.h>
#include <ddk/ntdd8042.h>
@ -59,7 +59,7 @@ UCHAR ucBreakKey = 'D'; // key that will break into debugger in combination with
////
//***********************************************************************************
// PiceKbdIsr - keyboard isr hook routine.
// PiceKbdIsr - keyboard isr hook routine.
// IsrContext - context that we passed to keyboard driver in internal iocontrol
// pCurrentInput, pCurrentOutput - not implemented yet
// StatusByte - keyboard status register
@ -85,7 +85,7 @@ BOOLEAN PiceKbdIsr (
// BUG!! should protect with spinlock since bControl is static.
DPRINT((0,"PiceKbdIsr(%x,%u)\n",pByte,isDown));
DPRINT((0,"PiceKbdIsr(1): bControl = %u bForward = %u bEnterNow = %u\n",bControl,bForward,bEnterNow));
if(isDown)
{
// CTRL pressed
@ -121,7 +121,7 @@ BOOLEAN PiceKbdIsr (
*ContinueProcessing = bForward;
LEAVE_FUNC();
return TRUE;
}
}
//***********************************************************************************
// PiceSendIoctl - send internal_io_control to the driver
@ -145,9 +145,9 @@ NTSTATUS PiceSendIoctl(PDEVICE_OBJECT Target, ULONG Ioctl,
if (NULL == (irp = IoBuildDeviceIoControlRequest(Ioctl,
Target,
InputBuffer,
InputBuffer,
InputBufferLength,
0,
0,
0,
TRUE,
&event,
@ -158,12 +158,12 @@ NTSTATUS PiceSendIoctl(PDEVICE_OBJECT Target, ULONG Ioctl,
status = IoCallDriver(Target, irp);
if (STATUS_PENDING == status) {
status = KeWaitForSingleObject(&event,
Executive,
KernelMode,
FALSE,
NULL);
FALSE,
NULL);
assert(STATUS_SUCCESS == status);
status = iosb.Status;
@ -174,7 +174,7 @@ NTSTATUS PiceSendIoctl(PDEVICE_OBJECT Target, ULONG Ioctl,
//**************************************************
// PatchKeyboardDriver - set keyboard driver hook.
// We use interface supported by standard keyboard drivers.
// We use interface supported by standard keyboard drivers.
//**************************************************
BOOLEAN PatchKeyboardDriver(void)
{
@ -191,21 +191,21 @@ BOOLEAN PatchKeyboardDriver(void)
//Get pointer to keyboard device
if( !NT_SUCCESS( IoGetDeviceObjectPointer( &DevName, FILE_READ_ACCESS, &FO, &kbdDevice ) ) )
return FALSE;
phkData = ExAllocatePool( PagedPool, sizeof( INTERNAL_I8042_HOOK_KEYBOARD ) );
RtlZeroMemory( phkData, sizeof( INTERNAL_I8042_HOOK_KEYBOARD ) );
phkData->IsrRoutine = (PI8042_KEYBOARD_ISR) PiceKbdIsr;
phkData->Context = (PVOID) NULL; //DeviceObject;
//call keyboard device internal io control to hook keyboard input stream
status = PiceSendIoctl( kbdDevice, IOCTL_INTERNAL_I8042_HOOK_KEYBOARD,
status = PiceSendIoctl( kbdDevice, IOCTL_INTERNAL_I8042_HOOK_KEYBOARD,
phkData, sizeof( INTERNAL_I8042_HOOK_KEYBOARD ) );
ObDereferenceObject(FO);
ExFreePool(phkData);
LEAVE_FUNC();
return NT_SUCCESS(status);
@ -216,4 +216,4 @@ void RestoreKeyboardDriver(void)
ENTER_FUNC();
DbgPrint("RestoreKeyboardDriver: Not Implemented yet!!!\n");
LEAVE_FUNC();
}
}

623
reactos/apps/utils/pice/module/symbols.c
View file

@ -43,6 +43,16 @@ Copyright notice:
#include <asm/delay.h>
#include <linux/ctype.h>
#include <ntdll/ldr.h>
#include <ntdll/rtl.h>
#include <internal/ps.h>
#include <internal/ob.h>
#include <internal/module.h>
#define NDEBUG
#include <debug.h>
PVOID pExports=0;
ULONG ulExportLen=0;
@ -83,43 +93,194 @@ ULONG ulNumStructMembers;
BOOLEAN Expression(PVRET pvr);
//*************************************************************************
// InitFakeKernelModule()
//
//*************************************************************************
BOOLEAN InitFakeKernelModule(void)
extern PDIRECTORY_OBJECT *pNameSpaceRoot;
extern PDEBUG_MODULE pdebug_module_tail;
extern PDEBUG_MODULE pdebug_module_head;
PVOID HEADER_TO_BODY(POBJECT_HEADER obj)
{
struct module* pMod;
ENTER_FUNC();
if(pmodule_list)
{
DPRINT((0,"InitFakeKernelModule(): *pmodule_list = %x\n",(ULONG)*pmodule_list));
if(IsAddressValid((ULONG)*pmodule_list) )
{
pMod = *pmodule_list;
DPRINT((0,"InitFakeKernelModule(): start pMod = %x\n",(ULONG)pMod));
do
{
if(!pMod->size)
{
DPRINT((0,"InitFakeKernelModule(): pMod = %x\n",(ULONG)pMod));
fake_kernel_module = * pMod;
PICE_strcpy((LPSTR)(fake_kernel_module.name),"vmlinux");
fake_kernel_module.size = kernel_end - KERNEL_START;
DPRINT((0,"InitFakeKernelModule(): SUCCESS\n"));
LEAVE_FUNC();
return TRUE;
}
}while((pMod = pMod->next));
}
}
LEAVE_FUNC();
return FALSE;
return(((void *)obj)+sizeof(OBJECT_HEADER)-sizeof(COMMON_BODY_HEADER));
}
POBJECT_HEADER BODY_TO_HEADER(PVOID body)
{
PCOMMON_BODY_HEADER chdr = (PCOMMON_BODY_HEADER)body;
return(CONTAINING_RECORD((&(chdr->Type)),OBJECT_HEADER,Type));
}
/*-----------------12/26/2001 7:59PM----------------
* FreeModuleList - free list allocated with InitModuleList. Must
* be called at passive irql.
* --------------------------------------------------*/
VOID FreeModuleList( PDEBUG_MODULE pm )
{
PDEBUG_MODULE pNext = pm;
ENTER_FUNC();
while( pNext ){
pNext = pm->next;
RtlFreeUnicodeString( &(pm->name) );
ExFreePool( pm );
}
LEAVE_FUNC();
}
/*-----------------12/26/2001 7:58PM----------------
* InitModuleList - creates linked list of length len for debugger. Can't be
* called at elevated IRQL
* --------------------------------------------------*/
BOOLEAN InitModuleList( PDEBUG_MODULE *ppmodule, ULONG len )
{
ULONG i;
PDEBUG_MODULE pNext = NULL, pm = *ppmodule;
ENTER_FUNC();
assert(pm==NULL);
for(i=1;i<=len;i++){
pm = (PDEBUG_MODULE)ExAllocatePool( NonPagedPool, sizeof( DEBUG_MODULE ) );
if( !pm ){
FreeModuleList(pNext);
return FALSE;
}
pm->next = pNext;
pm->size = 0;
pm->BaseAddress = NULL;
RtlCreateUnicodeString(&(pm->name), L" \0");
//DbgPrint("len1: %d\n", pm->name.Length);
pNext = pm;
}
*ppmodule = pm;
LEAVE_FUNC();
return TRUE;
}
BOOLEAN ListUserModules( PPEB peb )
{
PLIST_ENTRY ModuleListHead;
PLIST_ENTRY Entry;
PLDR_MODULE Module;
ENTER_FUNC();
ModuleListHead = &peb->Ldr->InLoadOrderModuleList;
Entry = ModuleListHead->Flink;
while (Entry != ModuleListHead)
{
Module = CONTAINING_RECORD(Entry, LDR_MODULE, InLoadOrderModuleList);
//DbgPrint("Module: %x, BaseAddress: %x\n", Module, Module->BaseAddress);
DPRINT("FullName: %S, BaseName: %S, Length: %ld, EntryPoint: %x, BaseAddress: %x\n", Module->FullDllName.Buffer,
Module->BaseDllName.Buffer, Module->SizeOfImage, Module->EntryPoint, Module->BaseAddress );
pdebug_module_tail->size = Module->SizeOfImage;
pdebug_module_tail->BaseAddress = Module->BaseAddress;
pdebug_module_tail->EntryPoint = Module->EntryPoint;
RtlCopyUnicodeString( &(pdebug_module_tail->name), &(Module->BaseDllName));
pdebug_module_tail = pdebug_module_tail->next;
Entry = Entry->Flink;
}
LEAVE_FUNC();
return TRUE;
}
POBJECT FindDriverObjectDirectory( void )
{
PLIST_ENTRY current;
POBJECT_HEADER current_obj;
PDIRECTORY_OBJECT pd;
ENTER_FUNC();
if( pNameSpaceRoot && *pNameSpaceRoot ){
current = (*pNameSpaceRoot)->head.Flink;
while (current!=(&((*pNameSpaceRoot)->head)))
{
current_obj = CONTAINING_RECORD(current,OBJECT_HEADER,Entry);
DPRINT("Scanning %S\n",current_obj->Name.Buffer);
if (_wcsicmp(current_obj->Name.Buffer, L"Modules")==0)
{
DPRINT("Found it %x\n",HEADER_TO_BODY(current_obj));
pd=HEADER_TO_BODY(current_obj);
return pd;
}
current = current->Flink;
}
}
LEAVE_FUNC();
return NULL;
}
BOOLEAN ListDriverModules( void )
{
PLIST_ENTRY current;
POBJECT_HEADER current_obj;
PDIRECTORY_OBJECT pd;
PMODULE pm;
ENTER_FUNC();
if( pd = (PDIRECTORY_OBJECT) FindDriverObjectDirectory() ){
current = pd->head.Flink;
while (current!=(&(pd->head)))
{
current_obj = CONTAINING_RECORD(current,OBJECT_HEADER,Entry);
DPRINT("Modules %S\n",current_obj->Name.Buffer);
pm = HEADER_TO_BODY(current_obj);
DPRINT("FullName: %S, BaseName: %S, Length: %ld, EntryPoint: %x\n", pm->FullName.Buffer,
pm->BaseName.Buffer, pm->Length, pm->EntryPoint );
pdebug_module_tail->size = pm->Length;
pdebug_module_tail->BaseAddress = pm->Base;
pdebug_module_tail->EntryPoint = pm->EntryPoint;
RtlCopyUnicodeString( &(pdebug_module_tail->name), &(pm->BaseName));
pdebug_module_tail = pdebug_module_tail->next;
/*
if (_wcsicmp(current_obj->Name.Buffer, "Modules")==0)
{
DbgPrint("Found it %x\n",HEADER_TO_BODY(current_obj));
pd=HEADER_TO_BODY(current_obj);
}
*/
current = current->Flink;
}
}
LEAVE_FUNC();
return TRUE;
}
BOOLEAN BuildModuleList( void )
{
PPEB peb;
ENTER_FUNC();
pdebug_module_tail = pdebug_module_head;
peb = IoGetCurrentProcess()->Peb;
if( peb ){
if( !ListUserModules( peb ) ){
LEAVE_FUNC();
return FALSE;
}
}
if( !ListDriverModules() ){
LEAVE_FUNC();
return FALSE;
}
LEAVE_FUNC();
return TRUE;
}
//*************************************************************************
// ScanExports()
//
@ -260,27 +421,27 @@ BOOLEAN ValidityCheckSymbols(PICE_SYMBOLFILE_HEADER* pSymbols)
//*************************************************************************
PICE_SYMBOLFILE_HEADER* FindModuleSymbols(ULONG addr)
{
struct module* pMod;
ULONG start,end,i;
PDEBUG_MODULE pd = pdebug_module_head;
DPRINT((0,"FindModuleSymbols(%x)\n",addr));
if(pmodule_list)
if(BuildModuleList())
{
i=0;
pMod = *pmodule_list;
pd = pdebug_module_head;
do
{
if(pMod->size)
if(pd->size)
{
start = (ULONG)pMod+sizeof(struct module);
end = start + pMod->size-sizeof(struct module);
DPRINT((0,"FindModuleSymbols(): %s %x-%x\n",pMod->name,start,end));
start = (ULONG)pd->BaseAddress;
end = start + pd->size;
DPRINT((0,"FindModuleSymbols(): %S %x-%x\n",pd->name,start,end));
if(addr>=start && addr<end)
{
DPRINT((0,"FindModuleSymbols(): address matches %s %x-%x\n",pMod->name,start,end));
DPRINT((0,"FindModuleSymbols(): address matches %S %x-%x\n",pd->name,start,end));
for(i=0;i<ulNumSymbolsLoaded;i++)
{
if(PICE_strcmpi((LPSTR)pMod->name,apSymbols[i]->name) == 0)
if(PICE_wcsicmp(pd->name.Buffer,apSymbols[i]->name) == 0)
{
if(ValidityCheckSymbols(apSymbols[i]))
return apSymbols[i];
@ -290,27 +451,7 @@ PICE_SYMBOLFILE_HEADER* FindModuleSymbols(ULONG addr)
}
}
}
else
{
start = (ULONG)KERNEL_START + sizeof(struct module);
end = start + fake_kernel_module.size-sizeof(struct module);
DPRINT((0,"FindModuleSymbols(): %s %x-%x\n",fake_kernel_module.name,start,end));
if(addr>=start && addr<end)
{
DPRINT((0,"FindModuleSymbols(): address matches %s %x-%x\n",fake_kernel_module.name,start,end));
for(i=0;i<ulNumSymbolsLoaded;i++)
{
if(PICE_strcmpi((LPSTR)fake_kernel_module.name,apSymbols[i]->name) == 0)
{
if(ValidityCheckSymbols(apSymbols[i]))
return apSymbols[i];
else
return NULL;
}
}
}
}
}while((pMod = pMod->next));
}while((pd = pd->next) != pdebug_module_tail);
}
return NULL;
@ -320,41 +461,29 @@ PICE_SYMBOLFILE_HEADER* FindModuleSymbols(ULONG addr)
// FindModuleFromAddress()
//
//*************************************************************************
struct module* FindModuleFromAddress(ULONG addr)
PDEBUG_MODULE FindModuleFromAddress(ULONG addr)
{
struct module* pMod;
PDEBUG_MODULE pd;
ULONG start,end;
DPRINT((0,"FindModuleFromAddress()\n"));
if(pmodule_list)
if(BuildModuleList())
{
pMod = *pmodule_list;
pd = pdebug_module_head;
do
{
if(pMod->size)
if(pd->size)
{
start = (ULONG)pMod+sizeof(struct module);
end = start + pMod->size-sizeof(struct module);
DPRINT((0,"FindModuleFromAddress(): %s %x-%x\n",pMod->name,start,end));
start = (ULONG)pd->BaseAddress;
end = start + pMod->size;
DPRINT((0,"FindModuleFromAddress(): %S %x-%x\n",pd->name,start,end));
if(addr>=start && addr<end)
{
DPRINT((0,"FindModuleFromAddress(): found %s\n",pMod->name));
return pMod;
DPRINT((0,"FindModuleFromAddress(): found %S\n",pd->name));
return pd;
}
}
// must be the kernel
else
{
start = (ULONG)KERNEL_START + sizeof(struct module);
end = start + fake_kernel_module.size-sizeof(struct module);
DPRINT((0,"FindModuleFromAddress(): %s %x-%x\n",fake_kernel_module.name,start,end));
if(addr>=start && addr<end)
{
DPRINT((0,"FindModuleFromAddress(): found %s\n",fake_kernel_module.name));
return &fake_kernel_module;
}
}
}while((pMod = pMod->next));
}while((pd = pd->next)!=pdebug_module_tail);
}
return NULL;
@ -364,33 +493,32 @@ struct module* FindModuleFromAddress(ULONG addr)
// FindModuleByName()
//
//*************************************************************************
struct module* FindModuleByName(LPSTR modname)
PDEBUG_MODULE FindModuleByName(LPSTR modname)
{
struct module* pMod;
PDEBUG_MODULE pd;
WCHAR tempstr[64];
DPRINT((0,"FindModuleFromAddress()\n"));
if(pmodule_list)
if( !MultiByteToWideChar(CP_ACP, NULL, modname, -1, tempstr, 64 ) )
{
DPRINT((0,"Can't convert module name.\n"));
return NULL;
}
if(BuildModuleList())
{
pMod = *pmodule_list;
pd = pdebug_module_head;
do
{
if(pMod->size)
if(pd->size)
{
if(PICE_strcmpi(modname,(LPSTR)pMod->name) == 0)
if(PICE_wcsicmp(tempstr,pMod->name) == 0)
{
DPRINT((0,"FindModuleByName(): found %s\n",pMod->name));
return pMod;
DPRINT((0,"FindModuleByName(): found %S\n",pd->name));
return pd;
}
}
else
{
if(PICE_strcmpi(modname,(LPSTR)fake_kernel_module.name) == 0)
{
DPRINT((0,"FindModuleByName(): found %s\n",fake_kernel_module.name));
return &fake_kernel_module;
}
}
}while((pMod = pMod->next));
}while((pd = pd->next) != pdebug_module_tail);
}
return NULL;
@ -403,11 +531,18 @@ struct module* FindModuleByName(LPSTR modname)
PICE_SYMBOLFILE_HEADER* FindModuleSymbolsByModuleName(LPSTR modname)
{
ULONG i;
WCHAR tempstr[64];
DPRINT((0,"FindModuleSymbols()\n"));
if( !MultiByteToWideChar(CP_ACP, NULL, modname, -1, tempstr, 64 ) )
{
DPRINT((0,"Can't convert module name in FindModuleSymbols.\n"));
return NULL;
}
for(i=0;i<ulNumSymbolsLoaded;i++)
{
if(PICE_strcmpi(modname,apSymbols[i]->name) == 0)
if(PICE_wcsicmp(tempstr,apSymbols[i]->name) == 0)
return apSymbols[i];
}
@ -425,141 +560,118 @@ BOOLEAN ScanExportsByAddress(LPSTR *pFind,ULONG ulValue)
LPSTR p,pStartOfLine,pSymbolName=NULL;
ULONG ulCurrentValue=0,i;
BOOLEAN bResult = FALSE;
struct module *pMod;
PDEBUG_MODULE pd;
ULONG ulMinValue = -1;
Elf32_Sym* pElfSym;
LPSTR pElfStr;
Elf32_Shdr* pElfShdr;
PIMAGE_SYMBOL pSym,pSymEnd; //running pointer to symbols and end of sym talbe
PIMAGE_SYMBOL pFoundSym = NULL; //current best symbol match
ULONG ulAddr = 0x0; //address of the best match
LPSTR pStr;
PIMAGE_SECTION_HEADER pShdr;
PICE_SYMBOLFILE_HEADER* pSymbols;
ULONG ulSectionSize;
LPSTR pName;
ENTER_FUNC();
if(ulValue < TASK_SIZE)
{
LEAVE_FUNC();
return FALSE;
}
pSymbols = FindModuleSymbols(ulValue);
if(pSymbols && pmodule_list)
if(pSymbols && pdebug_module_head)
{
struct module* pModTemp;
PDEBUG_MODULE pdTemp;
DPRINT((0,"looking up symbols\n"));
pMod = *pmodule_list;
pd = pdebug_module_head;
do
{
if(!pMod->size)
pModTemp = &fake_kernel_module;
else
pModTemp = pMod;
assert(pd->size);
if(ulValue>=((ULONG)pModTemp+sizeof(struct module)) && ulValue<((ULONG)pModTemp+pModTemp->size-sizeof(struct module)))
pdTemp = pd;
if(ulValue>=((ULONG)pdTemp->BaseAddress) && ulValue<((ULONG)pdTemp+pdTemp->size))
{
if(PICE_strcmpi((LPSTR)pModTemp->name,pSymbols->name) == 0)
if(PICE_wcsicmp(pdTemp->name,pSymbols->name) == 0)
{
DPRINT((0,"ScanExportsByAddress(): found symbols for module %s @ \n",pModTemp->name,(ULONG)pSymbols));
DPRINT((0,"ScanExportsByAddress(): found symbols for module %S @ %x \n",pdTemp->name,(ULONG)pSymbols));
pElfSym = (Elf32_Sym*)((ULONG)pSymbols+pSymbols->ulOffsetToGlobals);
pElfStr = (LPSTR)((ULONG)pSymbols+pSymbols->ulOffsetToGlobalsStrings);
pElfShdr = (Elf32_Shdr*)((ULONG)pSymbols+pSymbols->ulOffsetToHeaders);
pSym = (PIMAGE_SYMBOL)((ULONG)pSymbols+pSymbols->ulOffsetToGlobals);
pSymEnd = (PIMAGE_SYMBOL)((ULONG)pSym+pSymbols->ulSizeOfGlobals);
pStr = (LPSTR)((ULONG)pSymbols+pSymbols->ulOffsetToGlobalsStrings);
pShdr = (PIMAGE_SECTION_HEADER)((ULONG)pSymbols+pSymbols->ulOffsetToHeaders);
DPRINT((0,"ScanExportsByAddress(): pElfSym = %x\n",pElfSym));
DPRINT((0,"ScanExportsByAddress(): pElfStr = %x\n",pElfStr));
DPRINT((0,"ScanExportsByAddress(): pElfShdr = %x\n",pElfShdr));
DPRINT((0,"ScanExportsByAddress(): %s has %u symbols\n",pSymbols->name,pSymbols->ulSizeOfGlobals/sizeof(Elf32_Sym)));
for(i=0;i<(pSymbols->ulSizeOfGlobals/sizeof(Elf32_Sym));i++)
if(!IsRangeValid((ULONG)pSym,sizeof(IMAGE_SYMBOL) ) ) //should we actually check all the symbols here?
{
if((ELF32_ST_BIND(pElfSym->st_info)==STB_GLOBAL || ELF32_ST_BIND(pElfSym->st_info)==STB_LOCAL || ELF32_ST_BIND(pElfSym->st_info)==STB_WEAK) &&
(ELF32_ST_TYPE(pElfSym->st_info)==STT_OBJECT || ELF32_ST_TYPE(pElfSym->st_info)==STT_FUNC) &&
(pElfSym->st_shndx<SHN_LORESERVE || pElfSym->st_shndx==SHN_ABS || pElfSym->st_shndx==SHN_COMMON))
{
LPSTR pName = &pElfStr[pElfSym->st_name];
ULONG start,end;
DPRINT((0,"ScanExportsByAddress(): pName = %x\n",(ULONG)pName));
if(!IsAddressValid((ULONG)pName) )
{
DPRINT((0,"ScanExportsByAddress(): pName is not a valid pointer\n"));
return FALSE;
}
DPRINT((0,"ScanExportsByAddress(): pName = %s\n",pName));
if(!IsRangeValid((ULONG)pElfSym,sizeof(Elf32_Sym) ) )
{
DPRINT((0,"ScanExportsByAddress(): pElfSym = %x is not a valid pointer\n",(ULONG)pElfSym));
return FALSE;
}
DPRINT((0,"ScanExportsByAddress(): pModTemp = %x\n",(ULONG)pModTemp));
if(pModTemp != &fake_kernel_module)
{
Elf32_Shdr* pElfShdrThis = (Elf32_Shdr*)pElfShdr + pElfSym->st_shndx;
DPRINT((0,"ScanExportsByAddress(): module is not kernel\n"));
DPRINT((0,"ScanExportsByAddress(): pElfShdr[%x] = %x\n",pElfSym->st_shndx,(ULONG)pElfShdrThis));
if(!IsRangeValid((ULONG)pElfShdrThis,sizeof(Elf32_Shdr)) )
{
DPRINT((0,"ScanExportsByAddress(): pElfShdr[%x] = %x is not a valid pointer\n",pElfSym->st_shndx,pElfShdrThis));
return FALSE;
}
start = ((ULONG)pModTemp+pElfShdrThis->sh_offset);
DPRINT((0,"ScanExportsByAddress(): start [1] = %x\n",start));
start = (start+pElfShdrThis->sh_addralign)&~(pElfShdrThis->sh_addralign-1);
DPRINT((0,"ScanExportsByAddress(): start [2] = %x\n",start));
start += pElfSym->st_value;
DPRINT((0,"ScanExportsByAddress(): start [3] = %x\n",start));
}
else
{
DPRINT((0,"ScanExportsByAddress(): module is kernel\n"));
start = pElfSym->st_value;
DPRINT((0,"ScanExportsByAddress(): start [1] = %x\n",start));
}
end = start+pElfSym->st_size;
DPRINT((0,"ScanExportsByAddress(): end = %x\n",end));
if(ulValue>=start && ulValue<end)
{
DPRINT((0,"[%u] %.8X %.8X %.8X %.8X %.8X %.8X %.8X\n",
pElfSym->st_shndx,
((ULONG)pModTemp+pElfShdr[pElfSym->st_shndx].sh_offset),
pElfShdr[pElfSym->st_shndx].sh_addr,
pElfShdr[pElfSym->st_shndx].sh_offset,
pElfShdr[pElfSym->st_shndx].sh_size,
pElfShdr[pElfSym->st_shndx].sh_type,
pElfShdr[pElfSym->st_shndx].sh_link,
pElfShdr[pElfSym->st_shndx].sh_addralign));
DPRINT((0,"in section [%u] %8x value = %x module struct %x (%x)\n",pElfSym->st_shndx,pElfShdr[pElfSym->st_shndx].sh_offset,ulValue,sizeof(struct module),((sizeof(struct module)+0x10)&~0x0F)));
DPRINT((0,"[%u] %32s %.8X %.8X %.8X %.8X %.8X %.8X\n",i,pName,pElfSym->st_name,pElfSym->st_value,pElfSym->st_info,pElfSym->st_other,pElfSym->st_size,pElfSym->st_shndx));
DPRINT((0,"start %x end %x\n",start,end));
*pFind = temp3;
if(ulValue-start)
PICE_sprintf(temp3,"%s!%s+%x",pModTemp->name,pName,ulValue-start);
else
PICE_sprintf(temp3,"%s!%s",pModTemp->name,pName);
return TRUE;
}
}
pElfSym++;
DPRINT((0,"ScanExportsByAddress(): pSym = %x is not a valid pointer\n",(ULONG)pSym));
return FALSE;
}
DPRINT((0,"ScanExportsByAddress(): pSym = %x\n",pSym));
DPRINT((0,"ScanExportsByAddress(): pStr = %x\n",pStr));
DPRINT((0,"ScanExportsByAddress(): pShdr = %x\n",pShdr));
DPRINT((0,"ScanExportsByAddress(): %s has %u symbols\n",pSymbols->name,pSymbols->ulSizeOfGlobals/sizeof(IMAGE_SYMBOL)));
/* go through all the global symbols and find the one with
the largest address which is less than ulValue */
while(pSym < pSymEnd)
{ //it seems only 0x0 and 0x20 are used for type and External or Static storage classes
if(((pSym->Type == 0x0) || (pSym->Type == 0x20) ) &&
((pSym->StorageClass == IMAGE_SYM_CLASS_EXTERNAL) || (pSym->StorageClass==IMAGE_SYM_CLASS_STATIC)) &&
(pSym->SectionNumber > 0 ))
{
ULONG ulCurrAddr;
PIMAGE_SECTION_HEADER pShdrThis = (PIMAGE_SECTION_HEADER)pShdr + pSym->SectionNumber;
DPRINT((0,"ScanExportsByAddress(): pShdr[%x] = %x\n",pSym->SectionNumber,(ULONG)pShdrThis));
if(!IsRangeValid((ULONG)pShdrThis,sizeof(IMAGE_SECTION_HEADER)) )
{
DPRINT((0,"ScanExportsByAddress(): pElfShdr[%x] = %x is not a valid pointer\n",pSym->SectionNumber,(ULONG)pShdrThis));
return FALSE;
}
//to get address in the memory we base address of the module and
//add offset of the section and then add offset of the symbol from
//the begining of the section
ulCurrAddr = ((ULONG)pdTemp->BaseAddress+pShdrThis->VirtualAddress+pSym->Value);
DPRINT((0,"ScanExportsByAddress(): CurrAddr [1] = %x\n",ulCurrAddr));
if(ulCurrAddr<=ulValue && ulCurrAddr>ulAddr)
{
ulAddr = ulCurrAddr;
pFoundSym = pSym;
}
}
//skip the auxiliary symbols and get the next symbol
pSym += pSym->NumberOfAuxSymbols + 1;
}
*pFind = temp3;
{
PIMAGE_SECTION_HEADER pShdrThis = (PIMAGE_SECTION_HEADER)pShdr + pFoundSym->SectionNumber;
//check that ulValue is below the limit for the section where best match is found
assert(ulValue < ((ULONG)pdTemp->BaseAddress+pShdrThis->SizeOfRawData));
}
if( !(pFoundSym->Name.Short) ){
pName = pFoundSym->ShortName; //name is in the header
PICE_sprintf(temp3,"%s!%.8s",pdTemp->name,pName); //if name is in the header it may be nonzero terminated
}
else{
assert(pFoundSym->Name.Long<=pSymbols->ulSizeOfGlobalsStrings); //sanity check
pName = pStr[pFoundSym->Name.Long];
if(!IsAddressValid((ULONG)pName))
{
DPRINT((0,"ScanExportsByAddress(): pName = %x is not a valid pointer\n",pName));
return FALSE;
}
PICE_sprintf(temp3,"%s!%s",pdTemp->name,pName);
}
DPRINT((0,"ScanExportsByAddress(): pName = %x\n",(ULONG)pName));
return TRUE;
}
}
}while((pMod = pMod->next));
}
if(pExports && ulValue >= TASK_SIZE && ulValue < kernel_end)
// if haven't found in the symbols try ntoskrnl exports. (note: check that this is needed since we
// already checked ntoskrnl coff symbol table)
if(pExports && ulValue >= TASK_SIZE /*&& ulValue < kernel_end*/)
{
p = pExports;
// while we bound in System.map
@ -594,82 +706,13 @@ BOOLEAN ScanExportsByAddress(LPSTR *pFind,ULONG ulValue)
temp[i] = 0;
// decide if we need to append an offset
if(ulMinValue)
PICE_sprintf(temp3,"vmlinux!%s+%.8X",temp,ulMinValue);
PICE_sprintf(temp3,"ntoskrnl!%s+%.8X",temp,ulMinValue);
else
PICE_sprintf(temp3,"vmlinux!%s",temp);
PICE_sprintf(temp3,"ntoskrnl!%s",temp);
}
}
if(pmodule_list && ulMinValue!=0)
{
pMod = *pmodule_list;
do
{
if(ulValue>=((ULONG)pMod+sizeof(struct module)) && ulValue<((ULONG)pMod+pMod->size-sizeof(struct module)))
{
if(pMod->syms)
{
for(i=0;i<pMod->nsyms;i++)
{
ulCurrentValue = pMod->syms[i].value;
if(ulValue>=ulCurrentValue && (LONG)(ulValue-ulCurrentValue)<ulMinValue)
{
ulMinValue = ulValue-ulCurrentValue;
if(ulValue-ulCurrentValue)
PICE_sprintf(temp3,"%s!%s+%.8X",pMod->name,pMod->syms[i].name,ulValue-ulCurrentValue);
else
PICE_sprintf(temp3,"%s!%s",pMod->name,pMod->syms[i].name);
bResult = TRUE;
*pFind = temp3;
if(ulMinValue == 0)
break;
}
}
}
// this could be near entry and cleanup of a module
ulCurrentValue = (ULONG)pMod->init;
if(ulCurrentValue)
{
if(ulValue>=ulCurrentValue && (LONG)(ulValue-ulCurrentValue)<ulMinValue)
{
ulMinValue = ulValue-ulCurrentValue;
if(ulValue-ulCurrentValue)
PICE_sprintf(temp3,"%s!init_module+%.8X",pMod->name,ulValue-ulCurrentValue);
else
PICE_sprintf(temp3,"%s!init_module",pMod->name);
bResult = TRUE;
*pFind = temp3;
if(ulMinValue == 0)
break;
}
}
ulCurrentValue = (ULONG)pMod->cleanup;
if(ulCurrentValue)
{
if(ulValue>=ulCurrentValue && (LONG)(ulValue-ulCurrentValue)<ulMinValue)
{
ulMinValue = ulValue-ulCurrentValue;
if(ulValue-ulCurrentValue)
PICE_sprintf(temp3,"%s!cleanup_module+%.8X",pMod->name,ulValue-ulCurrentValue);
else
PICE_sprintf(temp3,"%s!cleanup_module",pMod->name);
bResult = TRUE;
*pFind = temp3;
if(ulMinValue == 0)
break;
}
}
}
}while((pMod = pMod->next));
}
LEAVE_FUNC();
return bResult;
}
@ -1829,7 +1872,7 @@ BOOLEAN LoadExports(void)
if(hf)
{
mm_segment_t oldfs;
//mm_segment_t oldfs;
size_t len;
len = PICE_len(hf);

27
reactos/apps/utils/pice/module/symbols.h
View file

@ -15,7 +15,7 @@ Environment:
LINUX 2.2.X
Kernel mode only
Author:
Author:
Klaus P. Gerlicher
@ -30,6 +30,8 @@ Copyright notice:
--*/
// constant defines
#define FIELD_OFFSET(Type,Field) (LONG)(&(((Type *)(0))->Field))
#define CONTAINING_RECORD(Address,Type,Field) (Type *)(((LONG)Address) - FIELD_OFFSET(Type,Field))
typedef struct _LOCAL_VARIABLE
{
@ -38,6 +40,22 @@ typedef struct _LOCAL_VARIABLE
ULONG value,offset,line;
BOOLEAN bRegister;
}LOCAL_VARIABLE,*PLOCAL_VARIABLE;
struct _DEBUG_MODULE_SYMBOL_
{
ULONG value;
char* name;
};
typedef struct _DEBUG_MODULE_
{
struct _DEBUG_MODULE_ *next;
ULONG size;
PVOID BaseAddress;
PVOID EntryPoint;
UNICODE_STRING name;
struct _DEBUG_MODULE_SYMBOL_ syms;
}DEBUG_MODULE, *PDEBUG_MODULE;
BOOLEAN InitFakeKernelModule(void);
BOOLEAN LoadExports(void);
@ -64,8 +82,9 @@ void Evaluate(PICE_SYMBOLFILE_HEADER* pSymbols,LPSTR p);
LONG ExtractNumber(LPSTR p);
LPSTR ExtractTypeName(LPSTR p);
extern ULONG kernel_end;
//extern ULONG kernel_end;
extern PICE_SYMBOLFILE_HEADER* apSymbols[32];
extern struct module fake_kernel_module;
#define KERNEL_START (0xc0100000)
//extern struct module fake_kernel_module;
#define KERNEL_START (0xc0000000)

19
reactos/apps/utils/pice/module/utils.c
View file

@ -291,6 +291,25 @@ ULONG result=1;
return result;
}
ULONG PICE_wcsicmp(WCHAR* s1, WCHAR* s2)
{
ULONG result=1;
while(IsAddressValid((ULONG)s1) && *s1 && // not end of string
IsAddressValid((ULONG)s2) && *s2 && // not end of string
towlower(*s1)==towlower(*s2) ) // char are the same except case
{
s1++;
s2++;
}
// strings same length
if(*s1==0 && *s2==0)
result=0;
return result;
}
}
//*************************************************************************
// PICE_strrev()
//

70
reactos/apps/utils/pice/module/vga.c
View file

@ -7,7 +7,7 @@ Module Name:
vga.c
Abstract:
VGA HW dependent draw routines
Environment:
@ -22,7 +22,7 @@ Revision History:
04-Aug-1998: created
15-Nov-2000: general cleanup of source files
Copyright notice:
This file may be distributed under the terms of the GNU Public License.
@ -36,7 +36,7 @@ Copyright notice:
#include "precomp.h"
//#include <asm/io.h>
#include <linux/ctype.h>
//#include <linux/ctype.h>
////////////////////////////////////////////////////
@ -64,7 +64,7 @@ WINDOW wWindowVga[4]=
UCHAR MGATable25[]={97,80,82,15,25, 6,25,25, 2,13,11,12, 0, 0, 0, 0};
PUCHAR pScreenBufferVga;
PUCHAR pScreenBufferSaveVga = NULL;
PUCHAR pScreenBufferSaveVga = NULL;
PUCHAR pScreenBufferTempVga;
PUCHAR pScreenBufferHardwareVga;
@ -78,7 +78,7 @@ struct _attr
{
struct
{
UCHAR fgcol : 4;
UCHAR bkcol : 3;
UCHAR blink : 1;
@ -124,9 +124,9 @@ void PrintGrafVga(ULONG x,ULONG y,UCHAR c)
void ShowCursorVga(void)
{
ENTER_FUNC();
bCursorEnabled=TRUE;
#ifdef LOCAL_CONSOLE
outb_p(0x0a,0x3d4);
outb_p(inb_p(0x3d5)&~0x20,0x3d5);
@ -147,7 +147,7 @@ void HideCursorVga(void)
{
ENTER_FUNC();
bCursorEnabled=FALSE;
#ifdef LOCAL_CONSOLE
outb_p(0x0a,0x3d4);
outb_p(inb_p(0x3d5)|0x20,0x3d5);
@ -155,7 +155,7 @@ void HideCursorVga(void)
outb_p(0x0a,0x3b4);
outb_p(inb_p(0x3b5)|0x20,0x3b5);
#endif
LEAVE_FUNC();
}
@ -263,24 +263,24 @@ void PrintCursorVga(BOOLEAN bForce)
if( count++>250 )
{
count=0;
charoffset = (y* GLOBAL_SCREEN_WIDTH + x);
#ifndef LOCAL_CONSOLE
outb_p(0x0e,0x3b4);
data=(UCHAR)((charoffset>>8)&0xFF);
data=(UCHAR)((charoffset>>8)&0xFF);
outb_p(data,0x3b5);
outb_p(0x0d,0x3b4);
data=(UCHAR)(charoffset & 0xFF);
data=(UCHAR)(charoffset & 0xFF);
outb_p(data,0x3b5);
#else
outb_p(0x0e,0x3d4);
data=(UCHAR)((charoffset>>8)&0xFF);
data=(UCHAR)((charoffset>>8)&0xFF);
outb_p(data,0x3d5);
outb_p(0x0f,0x3d4);
data=(UCHAR)(charoffset & 0xFF);
data=(UCHAR)(charoffset & 0xFF);
outb_p(data,0x3d5);
#endif
}
@ -356,7 +356,7 @@ void RestoreGraphicsStateVga(void)
//
// init terminal screen
//*************************************************************************
BOOLEAN ConsoleInitVga(void)
BOOLEAN ConsoleInitVga(void)
{
BOOLEAN bResult = FALSE;
#ifndef LOCAL_CONSOLE
@ -393,40 +393,40 @@ BOOLEAN ConsoleInitVga(void)
#ifdef LOCAL_CONSOLE
// the real framebuffer
pScreenBufferHardwareVga = MmMapIoSpace(0xB8000,FRAMEBUFFER_SIZE,MmWriteCombined);
pScreenBufferHardwareVga = MmMapIoSpace(0xB8000,FRAMEBUFFER_SIZE,MmWriteCombined);
// the console
pScreenBufferVga = PICE_malloc(FRAMEBUFFER_SIZE,NONPAGEDPOOL);
pScreenBufferVga = PICE_malloc(FRAMEBUFFER_SIZE,NONPAGEDPOOL);
// the save area
pScreenBufferTempVga = PICE_malloc(FRAMEBUFFER_SIZE,NONPAGEDPOOL);
pScreenBufferTempVga = PICE_malloc(FRAMEBUFFER_SIZE,NONPAGEDPOOL);
#else
outb_p(0,0x3b8);
outb_p(0,0x3bf);
for(i=0;i<sizeof(MGATable25);i++)
{
reg=i;
for(i=0;i<sizeof(MGATable25);i++)
{
reg=i;
outb_p(reg,0x3b4);
data=pMGATable[i];
data=pMGATable[i];
outb_p(data,0x3b5);
}
outb_p(0x08,0x3b8);
pScreenBufferVga=MmMapIoSpace(0xB0000,FRAMEBUFFER_SIZE,MmWriteCombined);
#endif
pScreenBufferVga=MmMapIoSpace(0xB0000,FRAMEBUFFER_SIZE,MmWriteCombined);
#endif
if(pScreenBufferVga)
{
DPRINT((0,"VGA memory phys. 0x000b0000 mapped to virt. 0x%x\n",pScreenBufferVga));
DPRINT((0,"VGA memory phys. 0x000b0000 mapped to virt. 0x%x\n",pScreenBufferVga));
bResult = TRUE;
p = (PUSHORT)pScreenBufferVga;
PICE_memset(pScreenBufferVga,0x0,FRAMEBUFFER_SIZE);
DPRINT((0,"VGA memory cleared!\n"));
DPRINT((0,"VGA memory cleared!\n"));
EmptyRingBuffer();
DPRINT((0,"ConsoleInitVga() SUCCESS!\n"));
DPRINT((0,"ConsoleInitVga() SUCCESS!\n"));
}
LEAVE_FUNC();
@ -439,24 +439,24 @@ BOOLEAN ConsoleInitVga(void)
//
// exit terminal screen
//*************************************************************************
void ConsoleShutdownVga(void)
{
void ConsoleShutdownVga(void)
{
ENTER_FUNC();
#ifdef LOCAL_CONSOLE
if(pScreenBufferVga)
{
PICE_free(pScreenBufferVga);
PICE_free(pScreenBufferTempVga);
MmUnmapIoSpace(pScreenBufferHardwareVga,FRAMEBUFFER_SIZE);
MmUnmapIoSpace(pScreenBufferHardwareVga,FRAMEBUFFER_SIZE);
}
#else
// HERC video off
// HERC video off
outb_p(0,0x3b8);
outb_p(0,0x3bf);
if(pScreenBufferVga)
MmUnmapIoSpace(pScreenBufferVga,FRAMEBUFFER_SIZE);
MmUnmapIoSpace(pScreenBufferVga,FRAMEBUFFER_SIZE);
#endif
LEAVE_FUNC();

4
reactos/apps/utils/pice/shared/shared.h
View file

@ -36,7 +36,7 @@ Copyright notice:
--*/
//#include <ddk/ntddk.h>
#include <winnt.h>
//#include <winnt.h>
//temporary
@ -80,7 +80,7 @@ typedef struct _DEBUGGER_STATUS_BLOCK
typedef struct _PICE_SYMBOLFILE_HEADER
{
ULONG magic;
char name[32];
WCHAR name[64];
ULONG ulOffsetToHeaders,ulSizeOfHeader;
ULONG ulOffsetToGlobals,ulSizeOfGlobals;
ULONG ulOffsetToGlobalsStrings,ulSizeOfGlobalsStrings;