reactos/ntoskrnl/kd64/kdinit.c

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/*
* PROJECT: ReactOS Kernel
* LICENSE: GPL - See COPYING in the top level directory
* FILE: ntoskrnl/kd64/kdinit.c
* PURPOSE: KD64 Initialization Code
* PROGRAMMERS: Alex Ionescu (alex.ionescu@reactos.org)
- Replace RtlpGetExceptionAddress by the _ReturnAddress intrinsic and add it to ARM intrin.h as it was missing. - Simplify RtlpCheckForActiveDebugger: Remove the BOOLEAN parameter as we would always pass it FALSE. Always return FALSE false from kernel mode for simplicity. - Fix a critical flaw in our exception support: RtlRaiseException and RtlRaiseStatus were implemented in C on x86. This lead to unpredictable register corruption because the compiler could not know that it had to preserve non-volatile registers before calling RtlCaptureContext as the saved context is later used to restore the caller in case the exception is handled and execution is continued. This made the functions unsafe to return from as any non-volatile register could be corrupted. Implement them in assembly for x86 to safely capture the context using only EBP and ESP. The C versions of those routines are still used and shared for the other architectures we support -- needs to be determined if this is safe and correct for those architectures. - The ntdll exception Wine exposed this issue, and all tests now pass. The remaining failures on the build server are caused by missing or incomplete debug register support in KVM/QEMU. Run the test in another VM or on real hardware and all the tests will pass. - Implement Debug Prompt (DbgPrompt) support for KD and KDBG. The KDBG implementation reads the prompt from keyboard or serial depending on the mode so that sysreg and rosdbg can support it too. - Properly implement RtlAssert using DbgPrompt to prompt for the action to take instead of always doing a breakpoint. The new implementation is disabled until sysreg can support this. Also move RtlAssert to its own file as it has nothing to do with the error routines (nor does it belong in exception.c). - Note that DbgPrompt was already used in PspCatchCriticalBreak, and this would have resulted in a silent hang as BREAKPOINT_PROMPT wasn't handled at all by KDBG. - Implement KiRaiseAssertion (10 lines of code with the trap macros) and thus support NT_ASSERT. Add partial support for it to KDBG to print out a warning and the address of the failure, but don't do anything else. Also add NT_ASSERT to the DDK headers so that we can use it, but don't use it yet as the ARM method of performing this has not been decided nor implemented. - KiTrap3 doesn't set STATUS_SUCCESS but BREAKPOINT_BREAK. They have the same numerical value but very different meaning -- BREAKPOINT_BREAK means that the exception is a software breakpoint and not a debug service call. Fix some comments to document that this is what is checked for. - Fix inverted and broken logic in KdpReport. It would never pass second chance exceptions to the debugger, didn't respect the stop-on-exception flag properly and would always fail to handle some special exceptions in both first and second chance instead of just failing to handle it in first chance. Clean up, reformat and document what is going on. - The DebugPrint and DebugPrompt support routines only perform a 2D interrupt on x86; use more portable comments. - Add Alex to the programmer section of x86's kdsup.c -- he wrote KdpGetStateChange, KdpSetContextState and the code that was previously in KdpRead/WriteControlSpace. - Add my name to the parts of KD where I have made significant work on getting KD/WinDbg support up and running. - KD debugging is now quite functional and stable. Some bugs and stubs remain to be flushed out, but overall KD is now much better and easier to use than KDBG. svn path=/trunk/; revision=43705
2009-10-24 06:51:39 +08:00
* Stefan Ginsberg (stefan.ginsberg@reactos.org)
*/
/* INCLUDES ******************************************************************/
#include <ntoskrnl.h>
#include <reactos/buildno.h>
#define NDEBUG
#include <debug.h>
/* UTILITY FUNCTIONS *********************************************************/
/*
* Get the total size of the memory before
* Mm is initialized, by counting the number
* of physical pages. Useful for debug logging.
*
* Strongly inspired by:
* mm\ARM3\mminit.c : MiScanMemoryDescriptors(...)
*
* See also: kd\kdio.c
*/
static CODE_SEG("INIT")
SIZE_T
KdpGetMemorySizeInMBs(IN PLOADER_PARAMETER_BLOCK LoaderBlock)
{
PLIST_ENTRY ListEntry;
PMEMORY_ALLOCATION_DESCRIPTOR Descriptor;
SIZE_T NumberOfPhysicalPages = 0;
/* Loop the memory descriptors */
for (ListEntry = LoaderBlock->MemoryDescriptorListHead.Flink;
ListEntry != &LoaderBlock->MemoryDescriptorListHead;
ListEntry = ListEntry->Flink)
{
/* Get the descriptor */
Descriptor = CONTAINING_RECORD(ListEntry,
MEMORY_ALLOCATION_DESCRIPTOR,
ListEntry);
/* Check if this is invisible memory */
if ((Descriptor->MemoryType == LoaderFirmwarePermanent) ||
(Descriptor->MemoryType == LoaderSpecialMemory) ||
(Descriptor->MemoryType == LoaderHALCachedMemory) ||
(Descriptor->MemoryType == LoaderBBTMemory))
{
/* Skip this descriptor */
continue;
}
/* Check if this is bad memory */
if (Descriptor->MemoryType != LoaderBad)
{
/* Count this in the total of pages */
NumberOfPhysicalPages += Descriptor->PageCount;
}
}
/* Round size up. Assumed to better match actual physical RAM size */
return ALIGN_UP_BY(NumberOfPhysicalPages * PAGE_SIZE, 1024 * 1024) / (1024 * 1024);
}
/* See also: kd\kdio.c */
static CODE_SEG("INIT")
VOID
KdpPrintBanner(IN SIZE_T MemSizeMBs)
{
DPRINT1("-----------------------------------------------------\n");
DPRINT1("ReactOS " KERNEL_VERSION_STR " (Build " KERNEL_VERSION_BUILD_STR ") (Commit " KERNEL_VERSION_COMMIT_HASH ")\n");
DPRINT1("%u System Processor [%u MB Memory]\n", KeNumberProcessors, MemSizeMBs);
if (KeLoaderBlock)
{
DPRINT1("Command Line: %s\n", KeLoaderBlock->LoadOptions);
DPRINT1("ARC Paths: %s %s %s %s\n", KeLoaderBlock->ArcBootDeviceName, KeLoaderBlock->NtHalPathName, KeLoaderBlock->ArcHalDeviceName, KeLoaderBlock->NtBootPathName);
}
}
/* FUNCTIONS *****************************************************************/
VOID
NTAPI
KdUpdateDataBlock(VOID)
{
/* Update the KeUserCallbackDispatcher pointer */
KdDebuggerDataBlock.KeUserCallbackDispatcher =
(ULONG_PTR)KeUserCallbackDispatcher;
}
BOOLEAN
NTAPI
KdRegisterDebuggerDataBlock(IN ULONG Tag,
IN PDBGKD_DEBUG_DATA_HEADER64 DataHeader,
IN ULONG Size)
{
KIRQL OldIrql;
PLIST_ENTRY NextEntry;
PDBGKD_DEBUG_DATA_HEADER64 CurrentHeader;
/* Acquire the Data Lock */
KeAcquireSpinLock(&KdpDataSpinLock, &OldIrql);
/* Loop the debugger data list */
NextEntry = KdpDebuggerDataListHead.Flink;
while (NextEntry != &KdpDebuggerDataListHead)
{
/* Get the header for this entry */
CurrentHeader = CONTAINING_RECORD(NextEntry,
DBGKD_DEBUG_DATA_HEADER64,
List);
/* Move to the next one */
NextEntry = NextEntry->Flink;
/* Check if we already have this data block */
if ((CurrentHeader == DataHeader) || (CurrentHeader->OwnerTag == Tag))
{
/* Release the lock and fail */
KeReleaseSpinLock(&KdpDataSpinLock, OldIrql);
return FALSE;
}
}
/* Setup the header */
DataHeader->OwnerTag = Tag;
DataHeader->Size = Size;
/* Insert it into the list and release the lock */
InsertTailList(&KdpDebuggerDataListHead, (PLIST_ENTRY)&DataHeader->List);
KeReleaseSpinLock(&KdpDataSpinLock, OldIrql);
return TRUE;
}
BOOLEAN
NTAPI
KdInitSystem(
_In_ ULONG BootPhase,
_In_opt_ PLOADER_PARAMETER_BLOCK LoaderBlock)
{
BOOLEAN EnableKd, DisableKdAfterInit = FALSE, BlockEnable;
PSTR CommandLine, DebugLine, DebugOptionStart, DebugOptionEnd;
- DBGKD_WAIT_STATE_CHANGE64 is used in KD protocol 5, not number 6 that we use. Protocol 6 uses the DBGKD_ANY_WAIT_STATE_CHANGE structure which is sized according to the largest control-report structure (AMD64_DBGKD_CONTROL_REPORT currently), and is larger than DBGKD_WAIT_STATE_CHANGE64 on x86. This worked because our DBGKD_WAIT_STATE_CHANGE32/64 structures contained incorrect DBGKD_CONTROL_REPORT (used) and CONTEXT (unused) members that sized up the wait-state structure to pass WinDbg's length verification! It actually becomes larger than DBGKD_ANY_WAIT_STATE_CHANGE, but WinDbg only seems bail out only if the structure is too small. Remove the incorrect members from the protocol 5 structures and change to DBGKD_ANY_WAIT_STATE_CHANGE everywhere. - Correct the value of SIZE_OF_FX_REGISTERS -- it was 4 times too low which resulted in KeContextToTrapFrame not properly clearing out the XMM register area. Correct the define and move it out from ke.h to x86's ketypes.h and use it in the FXSAVE format structure. Also remove the IOPM definitions from ke.h as they have been in the NDK for a while. - KD uses STRINGs, not ANSI_STRINGs -- they are the same thing, but let's be consistent. - ExceptionRecord32To64 should be available for both 32 and 64 bit builds (and it shouldn't be a forceinline). Get rid of CopyExceptionRecord and determine if we need to convert or can just copy it directly instead. - Use _WIN64 instead of _M_AMD64 when determining if we need to set the DBGKD_VERS_FLAG_PTR64 flag. - Don't check Nt/DbgQueryDebugFilterState for zero or nonzero -- it actually returns TRUE, FALSE or STATUS_INVALID_PARAMETER_1! Check for != TRUE in preparation for proper implementation of NtSet/QueryDebugFilterState. - Fix Format parameter of DbgPrintReturnControlC -- it is const like the other DbgPrint* routines. - Be consistent with the types used in debug.c and don't set local variables to zero if we are going to return to caller -- this doesn't seem to be required anymore. - Fix DebugService and DebugService2: DebugService should take a ULONG followed by 4 pointers and DebugService2 doesn't return anything. - Use ZwCurrentProcess() instead of -1 or 0xFFFFFFFF (which is incorrect for 64-bit) for the ProcessId parameter of DbgLoad/UnloadImageSymbols to clarify what is being passed. Don't use ZwCurrentProcess() in KeBugCheckWithTf for the pointer parameter of DbgUnLoadImageSymbols either. Use MAXULONG_PTR casted to PVOID instead. - Use better named and sized variables in KdpTrap for setting the "return register" in the caller's CONTEXT. - Correct and clarify the comment documenting under what conditions we pass user mode exceptions to the kernel debugger. svn path=/trunk/; revision=43741
2009-10-25 23:56:38 +08:00
STRING ImageName;
PLDR_DATA_TABLE_ENTRY LdrEntry;
PLIST_ENTRY NextEntry;
ULONG i, j, Length;
SIZE_T DebugOptionLength;
SIZE_T MemSizeMBs;
CHAR NameBuffer[256];
PWCHAR Name;
#if defined(__GNUC__)
/* Make gcc happy */
BlockEnable = FALSE;
#endif
/* Check if this is Phase 1 */
if (BootPhase)
{
/* Just query the performance counter */
KeQueryPerformanceCounter(&KdPerformanceCounterRate);
return TRUE;
}
/* Check if we already initialized once */
if (KdDebuggerEnabled) return TRUE;
/* Set the Debug Routine as the Stub for now */
KiDebugRoutine = KdpStub;
/* Disable break after symbol load for now */
KdBreakAfterSymbolLoad = FALSE;
/* Check if the Debugger Data Block was already initialized */
if (!KdpDebuggerDataListHead.Flink)
{
/* It wasn't...Initialize the KD Data Listhead */
InitializeListHead(&KdpDebuggerDataListHead);
/* Register the Debugger Data Block */
KdRegisterDebuggerDataBlock(KDBG_TAG,
&KdDebuggerDataBlock.Header,
sizeof(KdDebuggerDataBlock));
/* Fill out the KD Version Block */
- Fix support for /CRASHDEBUG and /NODEBUG; we didn't respect those settings properly and would initialize KD at boot even if they were set. - Re-enable the breakpoint in vDbgPrintExWithPrefixInternal() as this works properly now. Without this breakpoint some break-in requests got lost if the break-in occurred when handling a debug print (happened a lot at boot). - Implement Command String support for DbgCommandString() -- we now handle every debug service call. - Implement NtSetDebugFilterState() and NtQueryDebugFilterState() for KD, meaning we now support debug filters properly. - Implement KdRefreshDebuggerNotPresent(), KdChangeOption() and KdPowerTransition(). Stub KdSystemDebugControl() to return error status instead of hanging the system. - Stub the rest of the KD API to print a warning and return a failure packet instead of hanging. - Set and respect KdpContextSent when getting and setting the thread context -- WinDbg doesn't seem to rely on this, but better safe than sorry. - Support MP when getting and setting the thread context too -- if the context is operation is for another processor than the current, just get it through the KiProcessorBlock array. - Initialize the MajorVersion in the KD version block more properly -- the high byte is the major identifier (0 for NT). Add the required DBGKD_MAJOR_TYPES enumeration to wdbgexts.h. - Simplify setting and clearing the InDbgPrint flag in the TEB to minimize the impact on kernel execution; use 2 dedicated routines instead of a generic one. - KdpSymbol doesn't return anything, so don't return an ignore status from KdpReportLoadSymbolsStateChange. - Expose the KdpDefaultRetries and Kd_WIN2000_Mask variables to the registry and add them to KDBG too (unused there). - No reason to implement KdpSysGetVersion per architecture; move it back to the generic code. - Add some ARM offsets to the debugger data block that (N/A on other architectures). - Fix the default size of the DbgPrint log buffer for free builds to save some space. It should be 4 KB for a free build and 32 KB for a checked build. - Move KeDisableInterrupts to cpu.c as it fits here more than in the IRQ support code in irqobj.c. - Use KeDisableInterrupts in KeFreezeExecution instead of checking the x86 EFLAG directly. svn path=/trunk/; revision=43912
2009-11-03 01:45:51 +08:00
KdVersionBlock.MajorVersion = (USHORT)((DBGKD_MAJOR_NT << 8) | (NtBuildNumber >> 28));
KdVersionBlock.MinorVersion = (USHORT)(NtBuildNumber & 0xFFFF);
#ifdef CONFIG_SMP
/* This is an MP Build */
KdVersionBlock.Flags |= DBGKD_VERS_FLAG_MP;
#endif
/* Save Pointers to Loaded Module List and Debugger Data */
KdVersionBlock.PsLoadedModuleList = (ULONG64)(LONG_PTR)&PsLoadedModuleList;
KdVersionBlock.DebuggerDataList = (ULONG64)(LONG_PTR)&KdpDebuggerDataListHead;
/* Set protocol limits */
KdVersionBlock.MaxStateChange = DbgKdMaximumStateChange -
DbgKdMinimumStateChange;
KdVersionBlock.MaxManipulate = DbgKdMaximumManipulate -
DbgKdMinimumManipulate;
KdVersionBlock.Unused[0] = 0;
/* Link us in the KPCR */
KeGetPcr()->KdVersionBlock = &KdVersionBlock;
}
/* Check if we have a loader block */
if (LoaderBlock)
{
/* Get the image entry */
LdrEntry = CONTAINING_RECORD(LoaderBlock->LoadOrderListHead.Flink,
LDR_DATA_TABLE_ENTRY,
InLoadOrderLinks);
/* Save the Kernel Base */
PsNtosImageBase = (ULONG_PTR)LdrEntry->DllBase;
KdVersionBlock.KernBase = (ULONG64)(LONG_PTR)LdrEntry->DllBase;
/* Check if we have a command line */
CommandLine = LoaderBlock->LoadOptions;
if (CommandLine)
{
/* Upcase it */
_strupr(CommandLine);
/* Assume we'll disable KD */
EnableKd = FALSE;
- Fix support for /CRASHDEBUG and /NODEBUG; we didn't respect those settings properly and would initialize KD at boot even if they were set. - Re-enable the breakpoint in vDbgPrintExWithPrefixInternal() as this works properly now. Without this breakpoint some break-in requests got lost if the break-in occurred when handling a debug print (happened a lot at boot). - Implement Command String support for DbgCommandString() -- we now handle every debug service call. - Implement NtSetDebugFilterState() and NtQueryDebugFilterState() for KD, meaning we now support debug filters properly. - Implement KdRefreshDebuggerNotPresent(), KdChangeOption() and KdPowerTransition(). Stub KdSystemDebugControl() to return error status instead of hanging the system. - Stub the rest of the KD API to print a warning and return a failure packet instead of hanging. - Set and respect KdpContextSent when getting and setting the thread context -- WinDbg doesn't seem to rely on this, but better safe than sorry. - Support MP when getting and setting the thread context too -- if the context is operation is for another processor than the current, just get it through the KiProcessorBlock array. - Initialize the MajorVersion in the KD version block more properly -- the high byte is the major identifier (0 for NT). Add the required DBGKD_MAJOR_TYPES enumeration to wdbgexts.h. - Simplify setting and clearing the InDbgPrint flag in the TEB to minimize the impact on kernel execution; use 2 dedicated routines instead of a generic one. - KdpSymbol doesn't return anything, so don't return an ignore status from KdpReportLoadSymbolsStateChange. - Expose the KdpDefaultRetries and Kd_WIN2000_Mask variables to the registry and add them to KDBG too (unused there). - No reason to implement KdpSysGetVersion per architecture; move it back to the generic code. - Add some ARM offsets to the debugger data block that (N/A on other architectures). - Fix the default size of the DbgPrint log buffer for free builds to save some space. It should be 4 KB for a free build and 32 KB for a checked build. - Move KeDisableInterrupts to cpu.c as it fits here more than in the IRQ support code in irqobj.c. - Use KeDisableInterrupts in KeFreezeExecution instead of checking the x86 EFLAG directly. svn path=/trunk/; revision=43912
2009-11-03 01:45:51 +08:00
/* Check for CRASHDEBUG, NODEBUG and just DEBUG */
if (strstr(CommandLine, "CRASHDEBUG"))
{
/* Don't enable KD now, but allow it to be enabled later */
KdPitchDebugger = FALSE;
}
else if (strstr(CommandLine, "NODEBUG"))
{
/* Don't enable KD and don't let it be enabled later */
KdPitchDebugger = TRUE;
}
else if ((DebugLine = strstr(CommandLine, "DEBUG")) != NULL)
{
/* Enable KD */
EnableKd = TRUE;
/* Check if there are any options */
if (DebugLine[5] == '=')
{
/* Save pointers */
DebugOptionStart = DebugOptionEnd = &DebugLine[6];
/* Scan the string for debug options */
for (;;)
{
/* Loop until we reach the end of the string */
while (*DebugOptionEnd != ANSI_NULL)
{
/* Check if this is a comma, a space or a tab */
if ((*DebugOptionEnd == ',') ||
(*DebugOptionEnd == ' ') ||
(*DebugOptionEnd == '\t'))
{
/*
* We reached the end of the option or
* the end of the string, break out
*/
break;
}
else
{
/* Move on to the next character */
DebugOptionEnd++;
}
}
/* Calculate the length of the current option */
DebugOptionLength = (DebugOptionEnd - DebugOptionStart);
/*
* Break out if we reached the last option
* or if there were no options at all
*/
if (!DebugOptionLength) break;
/* Now check which option this is */
if ((DebugOptionLength == 10) &&
!(strncmp(DebugOptionStart, "AUTOENABLE", 10)))
{
/*
* Disable the debugger, but
* allow it to be reenabled
*/
DisableKdAfterInit = TRUE;
BlockEnable = FALSE;
KdAutoEnableOnEvent = TRUE;
}
else if ((DebugOptionLength == 7) &&
!(strncmp(DebugOptionStart, "DISABLE", 7)))
{
/* Disable the debugger */
DisableKdAfterInit = TRUE;
BlockEnable = TRUE;
KdAutoEnableOnEvent = FALSE;
}
else if ((DebugOptionLength == 6) &&
!(strncmp(DebugOptionStart, "NOUMEX", 6)))
{
/* Ignore user mode exceptions */
KdIgnoreUmExceptions = TRUE;
}
/*
* If there are more options then
* the next character should be a comma
*/
if (*DebugOptionEnd != ',')
{
/* It isn't, break out */
break;
}
/* Move on to the next option */
DebugOptionEnd++;
DebugOptionStart = DebugOptionEnd;
}
}
}
}
else
{
/* No command line options? Disable debugger by default */
KdPitchDebugger = TRUE;
EnableKd = FALSE;
}
}
else
{
/* Called from a bugcheck or a re-enable. Save the Kernel Base. */
KdVersionBlock.KernBase = (ULONG64)(LONG_PTR)PsNtosImageBase;
/* Unconditionally enable KD */
EnableKd = TRUE;
}
/* Set the Kernel Base in the Data Block */
KdDebuggerDataBlock.KernBase = (ULONG_PTR)KdVersionBlock.KernBase;
/* Initialize the debugger if requested */
if (EnableKd && (NT_SUCCESS(KdDebuggerInitialize0(LoaderBlock))))
{
/* Now set our real KD routine */
KiDebugRoutine = KdpTrap;
/* Check if we've already initialized our structures */
if (!KdpDebuggerStructuresInitialized)
{
/* Set Retries */
KdpContext.KdpDefaultRetries = 20;
/* Initialize breakpoints owed flag and table */
KdpOweBreakpoint = FALSE;
for (i = 0; i < KD_BREAKPOINT_MAX; i++)
{
KdpBreakpointTable[i].Flags = 0;
KdpBreakpointTable[i].DirectoryTableBase = 0;
KdpBreakpointTable[i].Address = NULL;
}
/* Initialize the Time Slip DPC */
KeInitializeDpc(&KdpTimeSlipDpc, KdpTimeSlipDpcRoutine, NULL);
KeInitializeTimer(&KdpTimeSlipTimer);
ExInitializeWorkItem(&KdpTimeSlipWorkItem, KdpTimeSlipWork, NULL);
/* First-time initialization done! */
KdpDebuggerStructuresInitialized = TRUE;
}
/* Initialize the timer */
KdTimerStart.QuadPart = 0;
/* Officially enable KD */
KdPitchDebugger = FALSE;
KdDebuggerEnabled = TRUE;
/* Let user-mode know that it's enabled as well */
SharedUserData->KdDebuggerEnabled = TRUE;
/* Display separator + ReactOS version at start of the debug log */
MemSizeMBs = KdpGetMemorySizeInMBs(KeLoaderBlock);
KdpPrintBanner(MemSizeMBs);
/* Check if the debugger should be disabled initially */
if (DisableKdAfterInit)
{
/* Disable it */
KdDisableDebuggerWithLock(FALSE);
/*
* Save the enable block state and return initialized
* (the debugger is active but disabled).
*/
KdBlockEnable = BlockEnable;
return TRUE;
}
/* Check if we have a loader block */
if (LoaderBlock)
{
/* Loop boot images */
NextEntry = LoaderBlock->LoadOrderListHead.Flink;
i = 0;
while ((NextEntry != &LoaderBlock->LoadOrderListHead) && (i < 2))
{
/* Get the image entry */
LdrEntry = CONTAINING_RECORD(NextEntry,
LDR_DATA_TABLE_ENTRY,
InLoadOrderLinks);
/* Generate the image name */
Name = LdrEntry->FullDllName.Buffer;
Length = LdrEntry->FullDllName.Length / sizeof(WCHAR);
j = 0;
do
{
/* Do cheap Unicode to ANSI conversion */
NameBuffer[j++] = (CHAR)*Name++;
} while (j < Length);
/* Null-terminate */
NameBuffer[j] = ANSI_NULL;
/* Load symbols for image */
- DBGKD_WAIT_STATE_CHANGE64 is used in KD protocol 5, not number 6 that we use. Protocol 6 uses the DBGKD_ANY_WAIT_STATE_CHANGE structure which is sized according to the largest control-report structure (AMD64_DBGKD_CONTROL_REPORT currently), and is larger than DBGKD_WAIT_STATE_CHANGE64 on x86. This worked because our DBGKD_WAIT_STATE_CHANGE32/64 structures contained incorrect DBGKD_CONTROL_REPORT (used) and CONTEXT (unused) members that sized up the wait-state structure to pass WinDbg's length verification! It actually becomes larger than DBGKD_ANY_WAIT_STATE_CHANGE, but WinDbg only seems bail out only if the structure is too small. Remove the incorrect members from the protocol 5 structures and change to DBGKD_ANY_WAIT_STATE_CHANGE everywhere. - Correct the value of SIZE_OF_FX_REGISTERS -- it was 4 times too low which resulted in KeContextToTrapFrame not properly clearing out the XMM register area. Correct the define and move it out from ke.h to x86's ketypes.h and use it in the FXSAVE format structure. Also remove the IOPM definitions from ke.h as they have been in the NDK for a while. - KD uses STRINGs, not ANSI_STRINGs -- they are the same thing, but let's be consistent. - ExceptionRecord32To64 should be available for both 32 and 64 bit builds (and it shouldn't be a forceinline). Get rid of CopyExceptionRecord and determine if we need to convert or can just copy it directly instead. - Use _WIN64 instead of _M_AMD64 when determining if we need to set the DBGKD_VERS_FLAG_PTR64 flag. - Don't check Nt/DbgQueryDebugFilterState for zero or nonzero -- it actually returns TRUE, FALSE or STATUS_INVALID_PARAMETER_1! Check for != TRUE in preparation for proper implementation of NtSet/QueryDebugFilterState. - Fix Format parameter of DbgPrintReturnControlC -- it is const like the other DbgPrint* routines. - Be consistent with the types used in debug.c and don't set local variables to zero if we are going to return to caller -- this doesn't seem to be required anymore. - Fix DebugService and DebugService2: DebugService should take a ULONG followed by 4 pointers and DebugService2 doesn't return anything. - Use ZwCurrentProcess() instead of -1 or 0xFFFFFFFF (which is incorrect for 64-bit) for the ProcessId parameter of DbgLoad/UnloadImageSymbols to clarify what is being passed. Don't use ZwCurrentProcess() in KeBugCheckWithTf for the pointer parameter of DbgUnLoadImageSymbols either. Use MAXULONG_PTR casted to PVOID instead. - Use better named and sized variables in KdpTrap for setting the "return register" in the caller's CONTEXT. - Correct and clarify the comment documenting under what conditions we pass user mode exceptions to the kernel debugger. svn path=/trunk/; revision=43741
2009-10-25 23:56:38 +08:00
RtlInitString(&ImageName, NameBuffer);
DbgLoadImageSymbols(&ImageName,
LdrEntry->DllBase,
(ULONG_PTR)PsGetCurrentProcessId());
/* Go to the next entry */
NextEntry = NextEntry->Flink;
i++;
}
}
/* Check for incoming breakin and break on symbol load if we have it */
KdBreakAfterSymbolLoad = KdPollBreakIn();
}
else
{
/* Disable debugger */
KdDebuggerNotPresent = TRUE;
}
/* Return initialized */
return TRUE;
}