* PROJECT: ReactOS kernel
* FILE: ntoskrnl/ke/i386/exp.c
* PURPOSE: Handling exceptions
- * PROGRAMMER: David Welch (welch@cwcom.net)
+ * PROGRAMMERS: David Welch (welch@cwcom.net)
+ * Skywing (skywing@valhallalegends.com)
* REVISION HISTORY:
* ??/??/??: Created
+ * 09/12/03: KeRaiseUserException added (Skywing).
*/
/* INCLUDES *****************************************************************/
-#include <ddk/ntddk.h>
-#include <internal/ntoskrnl.h>
-#include <internal/ke.h>
-#include <internal/i386/segment.h>
-#include <internal/i386/mm.h>
-#include <internal/module.h>
-#include <internal/mm.h>
-#include <internal/ps.h>
-#include <internal/trap.h>
-
+#include <ntoskrnl.h>
#define NDEBUG
#include <internal/debug.h>
/* GLOBALS *****************************************************************/
+#define FLAG_IF (1<<9)
+
#define _STR(x) #x
#define STR(x) _STR(x)
+#ifndef ARRAY_SIZE
+# define ARRAY_SIZE(x) (sizeof (x) / sizeof (x[0]))
+#endif
+
extern void interrupt_handler2e(void);
extern void interrupt_handler2d(void);
extern VOID KiTrap14(VOID);
extern VOID KiTrap15(VOID);
extern VOID KiTrap16(VOID);
+extern VOID KiTrap17(VOID);
+extern VOID KiTrap18(VOID);
+extern VOID KiTrap19(VOID);
extern VOID KiTrapUnknown(VOID);
extern ULONG init_stack;
extern ULONG init_stack_top;
-static char KiNullLdt[8] = {0,};
+extern BOOLEAN Ke386NoExecute;
-/* FUNCTIONS ****************************************************************/
+static char *ExceptionTypeStrings[] =
+ {
+ "Divide Error",
+ "Debug Trap",
+ "NMI",
+ "Breakpoint",
+ "Overflow",
+ "BOUND range exceeded",
+ "Invalid Opcode",
+ "No Math Coprocessor",
+ "Double Fault",
+ "Unknown(9)",
+ "Invalid TSS",
+ "Segment Not Present",
+ "Stack Segment Fault",
+ "General Protection",
+ "Page Fault",
+ "Reserved(15)",
+ "Math Fault",
+ "Alignment Check",
+ "Machine Check",
+ "SIMD Fault"
+ };
-extern unsigned int _text_start__, _text_end__;
+static NTSTATUS ExceptionToNtStatus[] =
+ {
+ STATUS_INTEGER_DIVIDE_BY_ZERO,
+ STATUS_SINGLE_STEP,
+ STATUS_ACCESS_VIOLATION,
+ STATUS_BREAKPOINT,
+ STATUS_INTEGER_OVERFLOW,
+ STATUS_ARRAY_BOUNDS_EXCEEDED,
+ STATUS_ILLEGAL_INSTRUCTION,
+ STATUS_ACCESS_VIOLATION, /* STATUS_FLT_INVALID_OPERATION */
+ STATUS_ACCESS_VIOLATION,
+ STATUS_ACCESS_VIOLATION,
+ STATUS_ACCESS_VIOLATION,
+ STATUS_ACCESS_VIOLATION,
+ STATUS_STACK_OVERFLOW,
+ STATUS_ACCESS_VIOLATION,
+ STATUS_ACCESS_VIOLATION,
+ STATUS_ACCESS_VIOLATION, /* RESERVED */
+ STATUS_ACCESS_VIOLATION, /* STATUS_FLT_INVALID_OPERATION */
+ STATUS_DATATYPE_MISALIGNMENT,
+ STATUS_ACCESS_VIOLATION,
+ STATUS_ACCESS_VIOLATION /* STATUS_FLT_MULTIPLE_TRAPS? */
+ };
-STATIC BOOLEAN
-print_address(PVOID address)
+/* FUNCTIONS ****************************************************************/
+
+#if defined(DBG) || defined(KDBG)
+BOOLEAN STDCALL
+KeRosPrintAddress(PVOID address)
+{
+ return KdbSymPrintAddress(address);
+}
+#else /* KDBG */
+BOOLEAN STDCALL
+KeRosPrintAddress(PVOID address)
{
PLIST_ENTRY current_entry;
MODULE_TEXT_SECTION* current;
extern LIST_ENTRY ModuleTextListHead;
-
+ ULONG_PTR RelativeAddress;
+
current_entry = ModuleTextListHead.Flink;
-
+
while (current_entry != &ModuleTextListHead &&
current_entry != NULL)
{
- current =
+ current =
CONTAINING_RECORD(current_entry, MODULE_TEXT_SECTION, ListEntry);
-
+
if (address >= (PVOID)current->Base &&
address < (PVOID)(current->Base + current->Length))
{
- DbgPrint("<%ws: %x>", current->Name,
- address - current->Base);
- return(TRUE);
+ RelativeAddress = (ULONG_PTR) address - current->Base;
+ DbgPrint("<%ws: %x>", current->Name, RelativeAddress);
+ return(TRUE);
}
-
current_entry = current_entry->Flink;
}
-#if 0
- DbgPrint("<%x>", address);
-#endif
return(FALSE);
}
+#endif /* KDBG */
ULONG
-KiUserTrapHandler(PKTRAP_FRAME Tf, ULONG ExceptionNr, PVOID Cr2)
+KiKernelTrapHandler(PKTRAP_FRAME Tf, ULONG ExceptionNr, PVOID Cr2)
{
EXCEPTION_RECORD Er;
- if (ExceptionNr == 0)
- {
- Er.ExceptionCode = STATUS_INTEGER_DIVIDE_BY_ZERO;
- }
- else if (ExceptionNr == 1)
- {
- Er.ExceptionCode = STATUS_SINGLE_STEP;
- }
- else if (ExceptionNr == 3)
- {
- Er.ExceptionCode = STATUS_BREAKPOINT;
- }
- else if (ExceptionNr == 4)
- {
- Er.ExceptionCode = STATUS_INTEGER_OVERFLOW;
- }
- else if (ExceptionNr == 5)
- {
- Er.ExceptionCode = STATUS_ARRAY_BOUNDS_EXCEEDED;
- }
- else if (ExceptionNr == 6)
- {
- Er.ExceptionCode = STATUS_ILLEGAL_INSTRUCTION;
- }
- else
- {
- Er.ExceptionCode = STATUS_ACCESS_VIOLATION;
- }
Er.ExceptionFlags = 0;
Er.ExceptionRecord = NULL;
Er.ExceptionAddress = (PVOID)Tf->Eip;
+
if (ExceptionNr == 14)
{
+ Er.ExceptionCode = STATUS_ACCESS_VIOLATION;
Er.NumberParameters = 2;
Er.ExceptionInformation[0] = Tf->ErrorCode & 0x1;
Er.ExceptionInformation[1] = (ULONG)Cr2;
}
else
{
+ if (ExceptionNr < ARRAY_SIZE(ExceptionToNtStatus))
+ {
+ Er.ExceptionCode = ExceptionToNtStatus[ExceptionNr];
+ }
+ else
+ {
+ Er.ExceptionCode = STATUS_ACCESS_VIOLATION;
+ }
Er.NumberParameters = 0;
}
-
- KiDispatchException(&Er, 0, Tf, UserMode, TRUE);
+ Er.ExceptionFlags = ((NTSTATUS) STATUS_SINGLE_STEP == (NTSTATUS) Er.ExceptionCode
+ || (NTSTATUS) STATUS_BREAKPOINT == (NTSTATUS) Er.ExceptionCode) ?
+ EXCEPTION_NONCONTINUABLE : 0;
+
+ KiDispatchException(&Er, 0, Tf, KernelMode, TRUE);
+
return(0);
}
KiDoubleFaultHandler(VOID)
{
unsigned int cr2;
- unsigned int i;
- PULONG stack;
ULONG StackLimit;
+ ULONG StackBase;
ULONG Esp0;
ULONG ExceptionNr = 8;
- extern KTSS KiTss;
- static char *TypeStrings[] =
- {
- "Divide Error",
- "Debug Trap",
- "NMI",
- "Breakpoint",
- "Overflow",
- "BOUND range exceeded",
- "Invalid Opcode",
- "No Math Coprocessor",
- "Double Fault",
- "Unknown(9)",
- "Invalid TSS",
- "Segment Not Present",
- "Stack Segment Fault",
- "General Protection",
- "Page Fault",
- "Math Fault",
- "Alignment Check",
- "Machine Check"
- };
-
- /* Use the address of the trap frame as approximation to the ring0 esp */
- Esp0 = KiTss.Esp0;
-
- /* Get CR2 */
- __asm__("movl %%cr2,%0\n\t" : "=d" (cr2));
-
+ KTSS* OldTss;
+ PULONG Frame;
+ ULONG OldCr3;
+#if 0
+ ULONG i, j;
+ static PVOID StackTrace[MM_STACK_SIZE / sizeof(PVOID)];
+ static ULONG StackRepeatCount[MM_STACK_SIZE / sizeof(PVOID)];
+ static ULONG StackRepeatLength[MM_STACK_SIZE / sizeof(PVOID)];
+ ULONG TraceLength;
+ BOOLEAN FoundRepeat;
+#endif
+
+ OldTss = KeGetCurrentKPCR()->TSS;
+ Esp0 = OldTss->Esp;
+
+ /* Get CR2 */
+ cr2 = Ke386GetCr2();
+ if (PsGetCurrentThread() != NULL &&
+ PsGetCurrentThread()->ThreadsProcess != NULL)
+ {
+ OldCr3 = (ULONG)
+ PsGetCurrentThread()->ThreadsProcess->Pcb.DirectoryTableBase.QuadPart;
+ }
+ else
+ {
+ OldCr3 = 0xBEADF0AL;
+ }
+
/*
* Check for stack underflow
*/
Esp0, (ULONG)PsGetCurrentThread()->Tcb.StackLimit);
ExceptionNr = 12;
}
-
+
/*
* Print out the CPU registers
*/
- if (ExceptionNr < 19)
+ if (ExceptionNr < ARRAY_SIZE(ExceptionTypeStrings))
{
- DbgPrint("%s Exception: %d(%x)\n",TypeStrings[ExceptionNr],
+ DbgPrint("%s Exception: %d(%x)\n", ExceptionTypeStrings[ExceptionNr],
ExceptionNr, 0);
}
else
{
DbgPrint("Exception: %d(%x)\n", ExceptionNr, 0);
}
- DbgPrint("CS:EIP %x:%x ", KiTss.Cs, KiTss.Eip);
- print_address((PVOID)KiTss.Eip);
+ DbgPrint("CS:EIP %x:%x ", OldTss->Cs, OldTss->Eip);
+ KeRosPrintAddress((PVOID)OldTss->Eip);
DbgPrint("\n");
- DbgPrint("cr2 %x cr3 %x ", cr2, KiTss.Cr3);
+ DbgPrint("cr2 %x cr3 %x ", cr2, OldCr3);
DbgPrint("Proc: %x ",PsGetCurrentProcess());
if (PsGetCurrentProcess() != NULL)
{
PsGetCurrentThread()->Cid.UniqueThread);
}
DbgPrint("\n");
- DbgPrint("DS %x ES %x FS %x GS %x\n", KiTss.Ds, KiTss.Es,
- KiTss.Fs, KiTss.Gs);
- DbgPrint("EAX: %.8x EBX: %.8x ECX: %.8x\n", KiTss.Eax, KiTss.Ebx,
- KiTss.Ecx);
- DbgPrint("EDX: %.8x EBP: %.8x ESI: %.8x\n", KiTss.Edx, KiTss.Ebp,
- KiTss.Esi);
- DbgPrint("EDI: %.8x EFLAGS: %.8x ", KiTss.Edi, KiTss.Eflags);
- if (KiTss.Cs == KERNEL_CS)
+ DbgPrint("DS %x ES %x FS %x GS %x\n", OldTss->Ds, OldTss->Es,
+ OldTss->Fs, OldTss->Gs);
+ DbgPrint("EAX: %.8x EBX: %.8x ECX: %.8x\n", OldTss->Eax, OldTss->Ebx,
+ OldTss->Ecx);
+ DbgPrint("EDX: %.8x EBP: %.8x ESI: %.8x\n ESP: %.8x", OldTss->Edx,
+ OldTss->Ebp, OldTss->Esi, Esp0);
+ DbgPrint("EDI: %.8x EFLAGS: %.8x ", OldTss->Edi, OldTss->Eflags);
+ if (OldTss->Cs == KERNEL_CS)
{
DbgPrint("kESP %.8x ", Esp0);
if (PsGetCurrentThread() != NULL)
{
DbgPrint("kernel stack base %x\n",
PsGetCurrentThread()->Tcb.StackLimit);
-
+
}
}
else
{
- DbgPrint("User ESP %.8x\n", KiTss.Esp);
+ DbgPrint("User ESP %.8x\n", OldTss->Esp);
}
- if ((KiTss.Cs & 0xffff) == KERNEL_CS)
+ if ((OldTss->Cs & 0xffff) == KERNEL_CS)
{
- DbgPrint("ESP %x\n", Esp0);
- stack = (PULONG) (Esp0 + 24);
- stack = (PULONG)(((ULONG)stack) & (~0x3));
- if (PsGetCurrentThread() != NULL)
- {
- StackLimit = (ULONG)PsGetCurrentThread()->Tcb.StackBase;
- }
- else
+ if (PsGetCurrentThread() != NULL)
+ {
+ StackLimit = (ULONG)PsGetCurrentThread()->Tcb.StackBase;
+ StackBase = (ULONG)PsGetCurrentThread()->Tcb.StackLimit;
+ }
+ else
+ {
+ StackLimit = (ULONG)&init_stack_top;
+ StackBase = (ULONG)&init_stack;
+ }
+
+ /*
+ Change to an #if 0 to reduce the amount of information printed on
+ a recursive stack trace.
+ */
+#if 1
+ DbgPrint("Frames: ");
+ Frame = (PULONG)OldTss->Ebp;
+ while (Frame != NULL && (ULONG)Frame >= StackBase)
+ {
+ KeRosPrintAddress((PVOID)Frame[1]);
+ Frame = (PULONG)Frame[0];
+ DbgPrint(" ");
+ }
+#else
+ DbgPrint("Frames: ");
+ i = 0;
+ Frame = (PULONG)OldTss->Ebp;
+ while (Frame != NULL && (ULONG)Frame >= StackBase)
+ {
+ StackTrace[i] = (PVOID)Frame[1];
+ Frame = (PULONG)Frame[0];
+ i++;
+ }
+ TraceLength = i;
+
+ i = 0;
+ while (i < TraceLength)
+ {
+ StackRepeatCount[i] = 0;
+ j = i + 1;
+ FoundRepeat = FALSE;
+ while ((j - i) <= (TraceLength - j) && FoundRepeat == FALSE)
+ {
+ if (memcmp(&StackTrace[i], &StackTrace[j],
+ (j - i) * sizeof(PVOID)) == 0)
+ {
+ StackRepeatCount[i] = 2;
+ StackRepeatLength[i] = j - i;
+ FoundRepeat = TRUE;
+ }
+ else
+ {
+ j++;
+ }
+ }
+ if (FoundRepeat == FALSE)
+ {
+ i++;
+ continue;
+ }
+ j = j + StackRepeatLength[i];
+ while ((TraceLength - j) >= StackRepeatLength[i] &&
+ FoundRepeat == TRUE)
+ {
+ if (memcmp(&StackTrace[i], &StackTrace[j],
+ StackRepeatLength[i] * sizeof(PVOID)) == 0)
+ {
+ StackRepeatCount[i]++;
+ j = j + StackRepeatLength[i];
+ }
+ else
+ {
+ FoundRepeat = FALSE;
+ }
+ }
+ i = j;
+ }
+
+ i = 0;
+ while (i < TraceLength)
+ {
+ if (StackRepeatCount[i] == 0)
+ {
+ KeRosPrintAddress(StackTrace[i]);
+ i++;
+ }
+ else
+ {
+ DbgPrint("{");
+ if (StackRepeatLength[i] == 0)
+ {
+ for(;;);
+ }
+ for (j = 0; j < StackRepeatLength[i]; j++)
+ {
+ KeRosPrintAddress(StackTrace[i + j]);
+ }
+ DbgPrint("}*%d", StackRepeatCount[i]);
+ i = i + StackRepeatLength[i] * StackRepeatCount[i];
+ }
+ }
+#endif
+ }
+
+ DbgPrint("\n");
+ for(;;);
+ return 0;
+}
+
+VOID
+KiDumpTrapFrame(PKTRAP_FRAME Tf, ULONG Parameter1, ULONG Parameter2)
+{
+ ULONG cr3_;
+ ULONG i;
+ ULONG StackLimit;
+ PULONG Frame;
+ ULONG Esp0;
+ ULONG ExceptionNr = (ULONG)Tf->DebugArgMark;
+ ULONG cr2 = (ULONG)Tf->DebugPointer;
+
+ Esp0 = (ULONG)Tf;
+
+ /*
+ * Print out the CPU registers
+ */
+ if (ExceptionNr < ARRAY_SIZE(ExceptionTypeStrings))
+ {
+ DbgPrint("%s Exception: %d(%x)\n", ExceptionTypeStrings[ExceptionNr],
+ ExceptionNr, Tf->ErrorCode&0xffff);
+ }
+ else
+ {
+ DbgPrint("Exception: %d(%x)\n", ExceptionNr, Tf->ErrorCode&0xffff);
+ }
+ DbgPrint("Processor: %d CS:EIP %x:%x ", KeGetCurrentProcessorNumber(),
+ Tf->Cs&0xffff, Tf->Eip);
+ KeRosPrintAddress((PVOID)Tf->Eip);
+ DbgPrint("\n");
+ Ke386GetPageTableDirectory(cr3_);
+ DbgPrint("cr2 %x cr3 %x ", cr2, cr3_);
+ DbgPrint("Proc: %x ",PsGetCurrentProcess());
+ if (PsGetCurrentProcess() != NULL)
+ {
+ DbgPrint("Pid: %x <", PsGetCurrentProcess()->UniqueProcessId);
+ DbgPrint("%.8s> ", PsGetCurrentProcess()->ImageFileName);
+ }
+ if (PsGetCurrentThread() != NULL)
+ {
+ DbgPrint("Thrd: %x Tid: %x",
+ PsGetCurrentThread(),
+ PsGetCurrentThread()->Cid.UniqueThread);
+ }
+ DbgPrint("\n");
+ DbgPrint("DS %x ES %x FS %x GS %x\n", Tf->Ds&0xffff, Tf->Es&0xffff,
+ Tf->Fs&0xffff, Tf->Gs&0xfff);
+ DbgPrint("EAX: %.8x EBX: %.8x ECX: %.8x\n", Tf->Eax, Tf->Ebx, Tf->Ecx);
+ DbgPrint("EDX: %.8x EBP: %.8x ESI: %.8x ESP: %.8x\n", Tf->Edx,
+ Tf->Ebp, Tf->Esi, Esp0);
+ DbgPrint("EDI: %.8x EFLAGS: %.8x ", Tf->Edi, Tf->Eflags);
+ if ((Tf->Cs&0xffff) == KERNEL_CS)
+ {
+ DbgPrint("kESP %.8x ", Esp0);
+ if (PsGetCurrentThread() != NULL)
+ {
+ DbgPrint("kernel stack base %x\n",
+ PsGetCurrentThread()->Tcb.StackLimit);
+
+ }
+ }
+
+ if (PsGetCurrentThread() != NULL)
+ {
+ StackLimit = (ULONG)PsGetCurrentThread()->Tcb.StackBase;
+ }
+ else
+ {
+ StackLimit = (ULONG)&init_stack_top;
+ }
+
+ /*
+ * Dump the stack frames
+ */
+ DbgPrint("Frames: ");
+ /* Change to an #if 0 if no frames are printed because of fpo. */
+#if 1
+ i = 1;
+ Frame = (PULONG)Tf->Ebp;
+ while (Frame != NULL)
+ {
+ NTSTATUS Status;
+ PVOID Eip;
+ Status = MmSafeCopyFromUser(&Eip, Frame + 1, sizeof(Eip));
+ if (!NT_SUCCESS(Status))
{
- StackLimit = (ULONG)&init_stack_top;
+ DbgPrint("<INVALID>");
+ break;
}
-
- DbgPrint("stack<%p>: ", stack);
-
- for (i = 0; i < 18 && (((ULONG)&stack[i+5]) < StackLimit); i = i + 6)
+ if (!KeRosPrintAddress(Eip))
{
- DbgPrint("%.8x %.8x %.8x %.8x\n",
- stack[i], stack[i+1],
- stack[i+2], stack[i+3],
- stack[i+4], stack[i+5]);
+ DbgPrint("<%X>", Eip);
}
- DbgPrint("Frames:\n");
- for (i = 0; i < 32 && (((ULONG)&stack[i]) < StackLimit); i++)
+ Status = MmSafeCopyFromUser(&Frame, Frame, sizeof(Frame));
+ if (!NT_SUCCESS(Status))
{
- if (stack[i] > ((unsigned int) &_text_start__) &&
- !(stack[i] >= ((ULONG)&init_stack) &&
- stack[i] <= ((ULONG)&init_stack_top)))
- {
- print_address((PVOID)stack[i]);
- DbgPrint(" ");
- }
+ break;
}
- }
-
- DbgPrint("\n");
- for(;;);
+ i++;
+ DbgPrint(" ");
+ }
+#else
+ i = 1;
+ Frame = (PULONG)((ULONG_PTR)Esp0 + KTRAP_FRAME_EFLAGS);
+ while (Frame < (PULONG)PsGetCurrentThread()->Tcb.StackBase && i < 50)
+ {
+ ULONG Address = *Frame;
+ if (KeRosPrintAddress((PVOID)Address))
+ {
+ i++;
+ }
+ Frame++;
+ }
+#endif
}
ULONG
KiTrapHandler(PKTRAP_FRAME Tf, ULONG ExceptionNr)
/*
- * FUNCTION: Called by the lowlevel execption handlers to print an amusing
+ * FUNCTION: Called by the lowlevel execption handlers to print an amusing
* message and halt the computer
* ARGUMENTS:
* Complete CPU context
*/
{
- unsigned int cr2, cr3;
- unsigned int i;
-// unsigned int j, sym;
- PULONG stack;
+ unsigned int cr2;
NTSTATUS Status;
ULONG Esp0;
- static char *TypeStrings[] =
- {
- "Divide Error",
- "Debug Trap",
- "NMI",
- "Breakpoint",
- "Overflow",
- "BOUND range exceeded",
- "Invalid Opcode",
- "No Math Coprocessor",
- "Double Fault",
- "Unknown(9)",
- "Invalid TSS",
- "Segment Not Present",
- "Stack Segment Fault",
- "General Protection",
- "Page Fault",
- "Math Fault",
- "Alignment Check",
- "Machine Check"
- };
+
+ /* Store the exception number in an unused field in the trap frame. */
+ Tf->DebugArgMark = (PVOID)ExceptionNr;
/* Use the address of the trap frame as approximation to the ring0 esp */
Esp0 = (ULONG)&Tf->Eip;
-
+
/* Get CR2 */
- __asm__("movl %%cr2,%0\n\t" : "=d" (cr2));
-
+ cr2 = Ke386GetCr2();
+ Tf->DebugPointer = (PVOID)cr2;
+
+ if (ExceptionNr == 14 && Tf->Eflags & FLAG_IF)
+ {
+ Ke386EnableInterrupts();
+ }
+
/*
* If this was a V86 mode exception then handle it specially
*/
}
/*
- * Check for stack underflow
+ * Check for stack underflow, this may be obsolete
*/
if (PsGetCurrentThread() != NULL &&
Esp0 < (ULONG)PsGetCurrentThread()->Tcb.StackLimit)
Esp0, (ULONG)PsGetCurrentThread()->Tcb.StackLimit);
ExceptionNr = 12;
}
-
+
+ /*
+ * Maybe handle the page fault and return
+ */
if (ExceptionNr == 14)
{
- __asm__("sti\n\t");
+ if (Ke386NoExecute && Tf->ErrorCode & 0x10 && cr2 >= KERNEL_BASE)
+ {
+ KEBUGCHECKWITHTF(ATTEMPTED_EXECUTE_OF_NOEXECUTE_MEMORY, 0, 0, 0, 0, Tf);
+ }
Status = MmPageFault(Tf->Cs&0xffff,
&Tf->Eip,
&Tf->Eax,
}
}
-#if 0
- if ((Tf->Cs & 0xFFFF) == USER_CS)
+ /*
+ * Check for a breakpoint that was only for the attention of the debugger.
+ */
+ if (ExceptionNr == 3 && Tf->Eip == ((ULONG)DbgBreakPointNoBugCheck) + 1)
{
- return(KiUserTrapHandler(Tf, ExceptionNr, (PVOID)cr2));
+ /*
+ EIP is already adjusted by the processor to point to the instruction
+ after the breakpoint.
+ */
+ return(0);
}
-#endif
/*
- * Print out the CPU registers
+ * Try to handle device-not-present, math-fault and xmm-fault exceptions.
*/
- if (ExceptionNr < 19)
+ if (ExceptionNr == 7 || ExceptionNr == 16 || ExceptionNr == 19)
{
- DbgPrint("%s Exception: %d(%x)\n",TypeStrings[ExceptionNr],
- ExceptionNr, Tf->ErrorCode&0xffff);
- }
- else
- {
- DbgPrint("Exception: %d(%x)\n", ExceptionNr, Tf->ErrorCode&0xffff);
- }
- DbgPrint("CS:EIP %x:%x ", Tf->Cs&0xffff, Tf->Eip);
- print_address((PVOID)Tf->Eip);
- DbgPrint("\n");
- __asm__("movl %%cr3,%0\n\t" : "=d" (cr3));
- DbgPrint("cr2 %x cr3 %x ", cr2, cr3);
- DbgPrint("Proc: %x ",PsGetCurrentProcess());
- if (PsGetCurrentProcess() != NULL)
- {
- DbgPrint("Pid: %x <", PsGetCurrentProcess()->UniqueProcessId);
- DbgPrint("%.8s> ", PsGetCurrentProcess()->ImageFileName);
- }
- if (PsGetCurrentThread() != NULL)
- {
- DbgPrint("Thrd: %x Tid: %x",
- PsGetCurrentThread(),
- PsGetCurrentThread()->Cid.UniqueThread);
+ Status = KiHandleFpuFault(Tf, ExceptionNr);
+ if (NT_SUCCESS(Status))
+ {
+ return(0);
+ }
}
- DbgPrint("\n");
- DbgPrint("DS %x ES %x FS %x GS %x\n", Tf->Ds&0xffff, Tf->Es&0xffff,
- Tf->Fs&0xffff, Tf->Gs&0xfff);
- DbgPrint("EAX: %.8x EBX: %.8x ECX: %.8x\n", Tf->Eax, Tf->Ebx, Tf->Ecx);
- DbgPrint("EDX: %.8x EBP: %.8x ESI: %.8x\n", Tf->Edx, Tf->Ebp, Tf->Esi);
- DbgPrint("EDI: %.8x EFLAGS: %.8x ", Tf->Edi, Tf->Eflags);
- if ((Tf->Cs&0xffff) == KERNEL_CS)
+
+ /*
+ * Handle user exceptions differently
+ */
+ if ((Tf->Cs & 0xFFFF) == USER_CS)
{
- DbgPrint("kESP %.8x ", Esp0);
- if (PsGetCurrentThread() != NULL)
- {
- DbgPrint("kernel stack base %x\n",
- PsGetCurrentThread()->Tcb.StackLimit);
-
- }
+ return(KiUserTrapHandler(Tf, ExceptionNr, (PVOID)cr2));
}
else
- {
- DbgPrint("User ESP %.8x\n", Tf->Esp);
- }
- if ((Tf->Cs & 0xffff) == KERNEL_CS)
{
- DbgPrint("ESP %x\n", Esp0);
- stack = (PULONG) (Esp0 + 24);
- stack = (PULONG)(((ULONG)stack) & (~0x3));
-
- DbgPrint("stack<%p>: ", stack);
-
- for (i = 0; i < 18; i = i + 6)
- {
- DbgPrint("%.8x %.8x %.8x %.8x\n",
- stack[i], stack[i+1],
- stack[i+2], stack[i+3],
- stack[i+4], stack[i+5]);
- }
- DbgPrint("Frames:\n");
- for (i = 0; i < 32; i++)
- {
- if (stack[i] > ((unsigned int) &_text_start__) &&
- !(stack[i] >= ((ULONG)&init_stack) &&
- stack[i] <= ((ULONG)&init_stack_top)))
- {
- // DbgPrint(" %.8x", stack[i]);
- print_address((PVOID)stack[i]);
- DbgPrint(" ");
- }
- }
+ return(KiKernelTrapHandler(Tf, ExceptionNr, (PVOID)cr2));
}
- else
- {
-#if 1
- DbgPrint("SS:ESP %x:%x\n", Tf->Ss, Tf->Esp);
- stack=(PULONG)(Tf->Esp);
-
- DbgPrint("Stack:\n");
- for (i=0; i<64; i++)
- {
- if (MmIsPagePresent(NULL,&stack[i]))
- {
- DbgPrint("%.8x ",stack[i]);
- if (((i+1)%8) == 0)
- {
- DbgPrint("\n");
- }
- }
- }
-
- if (MmIsPagePresent(NULL, (PVOID)Tf->Eip))
- {
- unsigned char instrs[512];
-
- memcpy(instrs, (PVOID)Tf->Eip, 512);
-
- DbgPrint("Instrs: ");
-
- for (i=0; i<10; i++)
- {
- DbgPrint("%x ", instrs[i]);
- }
- }
-#endif
- }
-
- DbgPrint("\n");
- if ((Tf->Cs&0xffff) == USER_CS &&
- Tf->Eip < KERNEL_BASE)
- {
- DbgPrint("Killing current task\n");
- KeLowerIrql(PASSIVE_LEVEL);
- if ((Tf->Cs&0xffff) == USER_CS)
- {
- ZwTerminateProcess(NtCurrentProcess(),
- STATUS_NONCONTINUABLE_EXCEPTION);
- }
- }
- for(;;);
}
-VOID KeDumpStackFrames(PVOID _Stack, ULONG NrFrames)
+VOID
+KeDumpStackFrames(PULONG Frame)
{
- PULONG Stack = (PULONG)_Stack;
- ULONG i;
-
- Stack = (PVOID)(((ULONG)Stack) & (~0x3));
- DbgPrint("Stack: %x\n", Stack);
- if (PsGetCurrentThread() != NULL)
- {
- DbgPrint("kernel stack base %x\n",
- PsGetCurrentThread()->Tcb.StackLimit);
- }
-
- DbgPrint("Frames:\n");
- for (i=0; i<NrFrames; i++)
- {
-// if (Stack[i] > KERNEL_BASE && Stack[i] < ((ULONG)&etext))
- if (Stack[i] > KERNEL_BASE)
- {
-// DbgPrint("%.8x ",Stack[i]);
- print_address((PVOID)Stack[i]);
- DbgPrint(" ");
- }
- if (Stack[i] == 0xceafbeef)
- {
- DbgPrint("IRQ ");
- }
- }
- DbgPrint("\n");
+ DbgPrint("Frames: ");
+ while ( MmIsAddressValid(Frame) )
+ {
+ ULONG Addr = Frame[1];
+ if (!KeRosPrintAddress((PVOID)Addr))
+ DbgPrint("<%X>", Addr);
+ if ( Addr == 0 || Addr == 0xDEADBEEF )
+ break;
+ Frame = (PULONG)Frame[0];
+ DbgPrint(" ");
+ }
+ DbgPrint("\n");
+}
+
+VOID STDCALL
+KeRosDumpStackFrames ( PULONG Frame, ULONG FrameCount )
+{
+ ULONG i=0;
+
+ DbgPrint("Frames: ");
+ if ( !Frame )
+ {
+#if defined __GNUC__
+ __asm__("mov %%ebp, %%ebx" : "=b" (Frame) : );
+#elif defined(_MSC_VER)
+ __asm mov [Frame], ebp
+#endif
+ Frame = (PULONG)Frame[0]; // step out of KeRosDumpStackFrames
+ }
+ while ( MmIsAddressValid(Frame) && i++ < FrameCount )
+ {
+ ULONG Addr = Frame[1];
+ if (!KeRosPrintAddress((PVOID)Addr))
+ DbgPrint("<%X>", Addr);
+ if ( Addr == 0 || Addr == 0xDEADBEEF )
+ break;
+ Frame = (PULONG)Frame[0];
+ DbgPrint(" ");
+ }
+ DbgPrint("\n");
}
static void set_system_call_gate(unsigned int sel, unsigned int func)
DPRINT("set_interrupt_gate(sel %d, func %x)\n",sel,func);
KiIdt[sel].a = (((int)func)&0xffff) +
(KERNEL_CS << 16);
- KiIdt[sel].b = 0x8f00 + (((int)func)&0xffff0000);
+ KiIdt[sel].b = 0x8e00 + (((int)func)&0xffff0000);
+}
+
+static void set_trap_gate(unsigned int sel, unsigned int func, unsigned int dpl)
+{
+ DPRINT("set_trap_gate(sel %d, func %x, dpl %d)\n",sel, func, dpl);
+ ASSERT(dpl <= 3);
+ KiIdt[sel].a = (((int)func)&0xffff) +
+ (KERNEL_CS << 16);
+ KiIdt[sel].b = 0x8f00 + (dpl << 13) + (((int)func)&0xffff0000);
}
static void
KiIdt[sel].b = 0x8500;
}
-void KeInitExceptions(void)
+VOID INIT_FUNCTION
+KeInitExceptions(VOID)
/*
* FUNCTION: Initalize CPU exception handling
*/
{
int i;
- ULONG base, length;
- extern USHORT KiGdt[];
- extern unsigned int trap_stack_top;
- extern KTSS KiTss;
- extern KTSS KiTrapTss;
- ULONG cr3;
-
- DPRINT("KeInitExceptions()\n",0);
-
- __asm__("movl %%cr3,%0\n\t" : "=d" (cr3));
-
- /*
- * Set up an a descriptor for the LDT
- */
- memset(KiNullLdt, 0, sizeof(KiNullLdt));
- base = (unsigned int)&KiNullLdt;
- length = sizeof(KiNullLdt) - 1;
-
- KiGdt[(LDT_SELECTOR / 2) + 0] = (length & 0xFFFF);
- KiGdt[(LDT_SELECTOR / 2) + 1] = (base & 0xFFFF);
- KiGdt[(LDT_SELECTOR / 2) + 2] = ((base & 0xFF0000) >> 16) | 0x8200;
- KiGdt[(LDT_SELECTOR / 2) + 3] = ((length & 0xF0000) >> 16) |
- ((base & 0xFF000000) >> 16);
-
- /*
- * Set up a descriptor for the TSS
- */
- memset(&KiTss, 0, sizeof(KiTss));
- base = (unsigned int)&KiTss;
- length = sizeof(KiTss) - 1;
-
- KiGdt[(TSS_SELECTOR / 2) + 0] = (length & 0xFFFF);
- KiGdt[(TSS_SELECTOR / 2) + 1] = (base & 0xFFFF);
- KiGdt[(TSS_SELECTOR / 2) + 2] = ((base & 0xFF0000) >> 16) | 0x8900;
- KiGdt[(TSS_SELECTOR / 2) + 3] = ((length & 0xF0000) >> 16) |
- ((base & 0xFF000000) >> 16);
-
- /*
- * Initialize the TSS
- */
- KiTss.Esp0 = (ULONG)&init_stack_top;
- KiTss.Ss0 = KERNEL_DS;
- // KiTss.IoMapBase = FIELD_OFFSET(KTSS, IoBitmap);
- KiTss.IoMapBase = 0xFFFF; /* No i/o bitmap */
- KiTss.IoBitmap[0] = 0xFF;
- KiTss.Ldt = LDT_SELECTOR;
-
- /*
- * Load the task register
- */
- __asm__("ltr %%ax"
- : /* no output */
- : "a" (TSS_SELECTOR));
- /*
- * Set up the TSS for handling double faults
- */
- memset(&KiTrapTss, 0, sizeof(KiTrapTss));
- base = (unsigned int)&KiTrapTss;
- length = sizeof(KiTrapTss) - 1;
-
- KiGdt[(TRAP_TSS_SELECTOR / 2) + 0] = (length & 0xFFFF);
- KiGdt[(TRAP_TSS_SELECTOR / 2) + 1] = (base & 0xFFFF);
- KiGdt[(TRAP_TSS_SELECTOR / 2) + 2] = ((base & 0xFF0000) >> 16) | 0x8900;
- KiGdt[(TRAP_TSS_SELECTOR / 2) + 3] = ((length & 0xF0000) >> 16) |
- ((base & 0xFF000000) >> 16);
-
- KiTrapTss.Eflags = 0;
- KiTrapTss.Esp0 = (ULONG)&trap_stack_top;
- KiTrapTss.Ss0 = KERNEL_DS;
- KiTrapTss.Esp = (ULONG)&trap_stack_top;
- KiTrapTss.Cs = KERNEL_CS;
- KiTrapTss.Eip = (ULONG)KiTrap8;
- KiTrapTss.Ss = KERNEL_DS;
- KiTrapTss.Ds = KERNEL_DS;
- KiTrapTss.Es = KERNEL_DS;
- KiTrapTss.Fs = PCR_SELECTOR;
- KiTrapTss.IoMapBase = 0xFFFF; /* No i/o bitmap */
- KiTrapTss.IoBitmap[0] = 0xFF;
- KiTrapTss.Ldt = LDT_SELECTOR;
- KiTrapTss.Cr3 = cr3;
+ DPRINT("KeInitExceptions()\n");
/*
* Set up the other gates
*/
- set_interrupt_gate(0, (ULONG)KiTrap0);
- set_interrupt_gate(1, (ULONG)KiTrap1);
- set_interrupt_gate(2, (ULONG)KiTrap2);
- set_interrupt_gate(3, (ULONG)KiTrap3);
- set_interrupt_gate(4, (ULONG)KiTrap4);
- set_interrupt_gate(5, (ULONG)KiTrap5);
- set_interrupt_gate(6, (ULONG)KiTrap6);
- set_interrupt_gate(7, (ULONG)KiTrap7);
+ set_trap_gate(0, (ULONG)KiTrap0, 0);
+ set_trap_gate(1, (ULONG)KiTrap1, 0);
+ set_trap_gate(2, (ULONG)KiTrap2, 0);
+ set_trap_gate(3, (ULONG)KiTrap3, 3);
+ set_trap_gate(4, (ULONG)KiTrap4, 0);
+ set_trap_gate(5, (ULONG)KiTrap5, 0);
+ set_trap_gate(6, (ULONG)KiTrap6, 0);
+ set_trap_gate(7, (ULONG)KiTrap7, 0);
set_task_gate(8, TRAP_TSS_SELECTOR);
- set_interrupt_gate(9, (ULONG)KiTrap9);
- set_interrupt_gate(10, (ULONG)KiTrap10);
- set_interrupt_gate(11, (ULONG)KiTrap11);
- set_interrupt_gate(12, (ULONG)KiTrap12);
- set_interrupt_gate(13, (ULONG)KiTrap13);
+ set_trap_gate(9, (ULONG)KiTrap9, 0);
+ set_trap_gate(10, (ULONG)KiTrap10, 0);
+ set_trap_gate(11, (ULONG)KiTrap11, 0);
+ set_trap_gate(12, (ULONG)KiTrap12, 0);
+ set_trap_gate(13, (ULONG)KiTrap13, 0);
set_interrupt_gate(14, (ULONG)KiTrap14);
- set_interrupt_gate(15, (ULONG)KiTrap15);
- set_interrupt_gate(16, (ULONG)KiTrap16);
-
- for (i=17;i<256;i++)
- {
- set_interrupt_gate(i,(int)KiTrapUnknown);
- }
-
+ set_trap_gate(15, (ULONG)KiTrap15, 0);
+ set_trap_gate(16, (ULONG)KiTrap16, 0);
+ set_trap_gate(17, (ULONG)KiTrap17, 0);
+ set_trap_gate(18, (ULONG)KiTrap18, 0);
+ set_trap_gate(19, (ULONG)KiTrap19, 0);
+
+ for (i = 20; i < 256; i++)
+ {
+ set_trap_gate(i,(int)KiTrapUnknown, 0);
+ }
+
set_system_call_gate(0x2d,(int)interrupt_handler2d);
set_system_call_gate(0x2e,(int)interrupt_handler2e);
}
+
+/*
+ * @implemented
+ */
+
+NTSTATUS STDCALL
+KeRaiseUserException(IN NTSTATUS ExceptionCode)
+{
+ /* FIXME: This needs SEH */
+ ULONG OldEip;
+ PKTHREAD Thread = KeGetCurrentThread();
+
+ ProbeForWrite(&Thread->Teb->ExceptionCode, sizeof(NTSTATUS), sizeof(NTSTATUS)); /* NT doesn't check this -- bad? */
+ OldEip = Thread->TrapFrame->Eip;
+ Thread->TrapFrame->Eip = (ULONG_PTR)LdrpGetSystemDllRaiseExceptionDispatcher();
+ Thread->Teb->ExceptionCode = ExceptionCode;
+ return((NTSTATUS)OldEip);
+}
+
+VOID
+FASTCALL
+KeRosTrapReturn ( PKTRAP_FRAME TrapFrame, PKTRAP_FRAME PrevTrapFrame );
+
+/*
+ * @implemented
+ */
+NTSTATUS STDCALL
+NtRaiseException (
+ IN PEXCEPTION_RECORD ExceptionRecord,
+ IN PCONTEXT Context,
+ IN BOOLEAN SearchFrames)
+{
+ PKTRAP_FRAME TrapFrame = KeGetCurrentThread()->TrapFrame;
+ PKTRAP_FRAME PrevTrapFrame = (PKTRAP_FRAME)TrapFrame->Edx;
+
+ KeGetCurrentKPCR()->Tib.ExceptionList = TrapFrame->ExceptionList;
+
+ KiDispatchException(ExceptionRecord,
+ Context,
+ PsGetCurrentThread()->Tcb.TrapFrame,
+ (KPROCESSOR_MODE)ExGetPreviousMode(),
+ SearchFrames);
+
+ KeRosTrapReturn ( TrapFrame, PrevTrapFrame );
+ return(STATUS_SUCCESS);
+}