CloverBootloader/CloverEFI/CpuDxe/Cpu.c

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/*++
Copyright (c) 2006, Intel Corporation
All rights reserved. This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
Module Name:
Cpu.c
Abstract:
--*/
#include "CpuDxe.h"
#include <Protocol/MsgLog.h>
CHAR8 *msgCursor;
MESSAGE_LOG_PROTOCOL *Msg;
//extern VOID BiosPutC(CHAR8 ch);
//
// Global Variables
//
//extern
UINT32 CONST mExceptionCodeSize = 9;
#if 0 //defined(MDE_CPU_X64)
extern UINTN mGdtPtr;
extern UINTN mIdtPtr;
extern UINTN GDT_BASE;
extern UINTN IDT_BASE;
#endif
BOOLEAN mInterruptState = FALSE;
UINTN mTimerVector = 0;
volatile EFI_CPU_INTERRUPT_HANDLER mTimerHandler = NULL;
EFI_LEGACY_8259_PROTOCOL *gLegacy8259 = NULL;
THUNK_CONTEXT mThunkContext;
#define EFI_CPU_EFLAGS_IF 0x200
VOID
InitializeBiosIntCaller (
VOID
);
BOOLEAN
EFIAPI
LegacyBiosInt86 (
IN UINT8 BiosInt,
IN EFI_IA32_REGISTER_SET *Regs
);
//
// The Cpu Architectural Protocol that this Driver produces
//
EFI_HANDLE mHandle = NULL;
EFI_CPU_ARCH_PROTOCOL mCpu = {
CpuFlushCpuDataCache, //used in LightMemoryTest
CpuEnableInterrupt, //not-used in LegacyBoot
CpuDisableInterrupt,
CpuGetInterruptState,
CpuInit,
CpuRegisterInterruptHandler, //used in 8254Timer, HPETTimer,
CpuGetTimerValue,
CpuSetMemoryAttributes,
1, // NumberOfTimers
4, // DmaBufferAlignment
};
EFI_STATUS
EFIAPI
CpuFlushCpuDataCache (
IN EFI_CPU_ARCH_PROTOCOL *This,
IN EFI_PHYSICAL_ADDRESS Start,
IN UINT64 Length,
IN EFI_CPU_FLUSH_TYPE FlushType
)
/*++
Routine Description:
Flush CPU data cache. If the instruction cache is fully coherent
with all DMA operations then function can just return EFI_SUCCESS.
Arguments:
This - Protocol instance structure
Start - Physical address to start flushing from.
Length - Number of bytes to flush. Round up to chipset
granularity.
FlushType - Specifies the type of flush operation to perform.
Returns:
EFI_SUCCESS - If cache was flushed
EFI_UNSUPPORTED - If flush type is not supported.
EFI_DEVICE_ERROR - If requested range could not be flushed.
--*/
{
if (FlushType == EfiCpuFlushTypeWriteBackInvalidate) {
AsmWbinvd ();
return EFI_SUCCESS;
} else if (FlushType == EfiCpuFlushTypeInvalidate) {
AsmInvd ();
return EFI_SUCCESS;
} else {
return EFI_UNSUPPORTED;
}
}
EFI_STATUS
EFIAPI
CpuEnableInterrupt (
IN EFI_CPU_ARCH_PROTOCOL *This
)
/*++
Routine Description:
Enables CPU interrupts.
Arguments:
This - Protocol instance structure
Returns:
EFI_SUCCESS - If interrupts were enabled in the CPU
EFI_DEVICE_ERROR - If interrupts could not be enabled on the CPU.
--*/
{
EnableInterrupts ();
mInterruptState = TRUE;
return EFI_SUCCESS;
}
EFI_STATUS
EFIAPI
CpuDisableInterrupt (
IN EFI_CPU_ARCH_PROTOCOL *This
)
/*++
Routine Description:
Disables CPU interrupts.
Arguments:
This - Protocol instance structure
Returns:
EFI_SUCCESS - If interrupts were disabled in the CPU.
EFI_DEVICE_ERROR - If interrupts could not be disabled on the CPU.
--*/
{
DisableInterrupts ();
mInterruptState = FALSE;
return EFI_SUCCESS;
}
EFI_STATUS
EFIAPI
CpuGetInterruptState (
IN EFI_CPU_ARCH_PROTOCOL *This,
OUT BOOLEAN *State
)
/*++
Routine Description:
Return the state of interrupts.
Arguments:
This - Protocol instance structure
State - Pointer to the CPU's current interrupt state
Returns:
EFI_SUCCESS - If interrupts were disabled in the CPU.
EFI_INVALID_PARAMETER - State is NULL.
--*/
{
if (State == NULL) {
return EFI_INVALID_PARAMETER;
}
*State = mInterruptState;
return EFI_SUCCESS;
}
EFI_STATUS
EFIAPI
CpuInit (
IN EFI_CPU_ARCH_PROTOCOL *This,
IN EFI_CPU_INIT_TYPE InitType
)
/*++
Routine Description:
Generates an INIT to the CPU
Arguments:
This - Protocol instance structure
InitType - Type of CPU INIT to perform
Returns:
EFI_SUCCESS - If CPU INIT occurred. This value should never be
seen.
EFI_DEVICE_ERROR - If CPU INIT failed.
EFI_NOT_SUPPORTED - Requested type of CPU INIT not supported.
--*/
{
BootLog("CPU init type=%x\n", InitType);
return EFI_UNSUPPORTED;
}
EFI_STATUS
EFIAPI
CpuRegisterInterruptHandler (
IN EFI_CPU_ARCH_PROTOCOL *This,
IN EFI_EXCEPTION_TYPE InterruptType,
IN EFI_CPU_INTERRUPT_HANDLER InterruptHandler
)
/*++
Routine Description:
Registers a function to be called from the CPU interrupt handler.
Arguments:
This - Protocol instance structure
InterruptType - Defines which interrupt to hook. IA-32 valid range
is 0x00 through 0xFF
InterruptHandler - A pointer to a function of type
EFI_CPU_INTERRUPT_HANDLER that is called when a
processor interrupt occurs. A null pointer
is an error condition.
Returns:
EFI_SUCCESS - If handler installed or uninstalled.
EFI_ALREADY_STARTED - InterruptHandler is not NULL, and a handler for
InterruptType was previously installed
EFI_INVALID_PARAMETER - InterruptHandler is NULL, and a handler for
InterruptType was not previously installed.
EFI_UNSUPPORTED - The interrupt specified by InterruptType is not
supported.
--*/
{
if ((InterruptType < 0) || (InterruptType >= INTERRUPT_VECTOR_NUMBER)) {
return EFI_UNSUPPORTED;
}
if ((UINTN)(UINT32)InterruptType != mTimerVector) {
return EFI_UNSUPPORTED;
}
if ((mTimerHandler == NULL) && (InterruptHandler == NULL)) {
return EFI_INVALID_PARAMETER;
} else if ((mTimerHandler != NULL) && (InterruptHandler != NULL)) {
return EFI_ALREADY_STARTED;
}
mTimerHandler = InterruptHandler;
return EFI_SUCCESS;
}
EFI_STATUS
EFIAPI
CpuGetTimerValue (
IN EFI_CPU_ARCH_PROTOCOL *This,
IN UINT32 TimerIndex,
OUT UINT64 *TimerValue,
OUT UINT64 *TimerPeriod OPTIONAL
)
/*++
Routine Description:
Returns a timer value from one of the CPU's internal timers. There is no
inherent time interval between ticks but is a function of the CPU
frequency.
Arguments:
This - Protocol instance structure
TimerIndex - Specifies which CPU timer ie requested
TimerValue - Pointer to the returned timer value
TimerPeriod -
Returns:
EFI_SUCCESS - If the CPU timer count was returned.
EFI_UNSUPPORTED - If the CPU does not have any readable timers
EFI_DEVICE_ERROR - If an error occurred reading the timer.
EFI_INVALID_PARAMETER - TimerIndex is not valid
--*/
{
if (TimerValue == NULL) {
return EFI_INVALID_PARAMETER;
}
if (TimerIndex == 0) {
*TimerValue = AsmReadTsc ();
if (TimerPeriod != NULL) {
//
// BugBug: Hard coded. Don't know how to do this generically
//
*TimerPeriod = 1000000000;
}
return EFI_SUCCESS;
}
return EFI_INVALID_PARAMETER;
}
EFI_STATUS
EFIAPI
CpuSetMemoryAttributes (
IN EFI_CPU_ARCH_PROTOCOL *This,
IN EFI_PHYSICAL_ADDRESS BaseAddress,
IN UINT64 Length,
IN UINT64 Attributes
)
/*++
Routine Description:
Set memory cacheability attributes for given range of memory
Arguments:
This - Protocol instance structure
BaseAddress - Specifies the start address of the memory range
Length - Specifies the length of the memory range
Attributes - The memory cacheability for the memory range
Returns:
EFI_SUCCESS - If the cacheability of that memory range is set successfully
EFI_UNSUPPORTED - If the desired operation cannot be done
EFI_INVALID_PARAMETER - The input parameter is not correct, such as Length = 0
--*/
{
return EFI_UNSUPPORTED;
}
#if CPU_EXCEPTION_DEBUG_OUTPUT
VOID
DumpExceptionDataDebugOut (
IN EFI_EXCEPTION_TYPE InterruptType,
IN EFI_SYSTEM_CONTEXT SystemContext
)
{
UINT32 ErrorCodeFlag;
ErrorCodeFlag = 0x00027d00;
#ifdef MDE_CPU_IA32
DEBUG ((
EFI_D_ERROR,
"!!!! IA32 Exception Type - %08x !!!!\n",
InterruptType
));
DEBUG ((
EFI_D_ERROR,
"EIP - %08x, CS - %08x, EFLAGS - %08x\n",
SystemContext.SystemContextIa32->Eip,
SystemContext.SystemContextIa32->Cs,
SystemContext.SystemContextIa32->Eflags
));
if (ErrorCodeFlag & (1 << InterruptType)) {
DEBUG ((
EFI_D_ERROR,
"ExceptionData - %08x\n",
SystemContext.SystemContextIa32->ExceptionData
));
}
DEBUG ((
EFI_D_ERROR,
"EAX - %08x, ECX - %08x, EDX - %08x, EBX - %08x\n",
SystemContext.SystemContextIa32->Eax,
SystemContext.SystemContextIa32->Ecx,
SystemContext.SystemContextIa32->Edx,
SystemContext.SystemContextIa32->Ebx
));
DEBUG ((
EFI_D_ERROR,
"ESP - %08x, EBP - %08x, ESI - %08x, EDI - %08x\n",
SystemContext.SystemContextIa32->Esp,
SystemContext.SystemContextIa32->Ebp,
SystemContext.SystemContextIa32->Esi,
SystemContext.SystemContextIa32->Edi
));
DEBUG ((
EFI_D_ERROR,
"DS - %08x, ES - %08x, FS - %08x, GS - %08x, SS - %08x\n",
SystemContext.SystemContextIa32->Ds,
SystemContext.SystemContextIa32->Es,
SystemContext.SystemContextIa32->Fs,
SystemContext.SystemContextIa32->Gs,
SystemContext.SystemContextIa32->Ss
));
DEBUG ((
EFI_D_ERROR,
"GDTR - %08x %08x, IDTR - %08x %08x\n",
SystemContext.SystemContextIa32->Gdtr[0],
SystemContext.SystemContextIa32->Gdtr[1],
SystemContext.SystemContextIa32->Idtr[0],
SystemContext.SystemContextIa32->Idtr[1]
));
DEBUG ((
EFI_D_ERROR,
"LDTR - %08x, TR - %08x\n",
SystemContext.SystemContextIa32->Ldtr,
SystemContext.SystemContextIa32->Tr
));
DEBUG ((
EFI_D_ERROR,
"CR0 - %08x, CR2 - %08x, CR3 - %08x, CR4 - %08x\n",
SystemContext.SystemContextIa32->Cr0,
SystemContext.SystemContextIa32->Cr2,
SystemContext.SystemContextIa32->Cr3,
SystemContext.SystemContextIa32->Cr4
));
DEBUG ((
EFI_D_ERROR,
"DR0 - %08x, DR1 - %08x, DR2 - %08x, DR3 - %08x\n",
SystemContext.SystemContextIa32->Dr0,
SystemContext.SystemContextIa32->Dr1,
SystemContext.SystemContextIa32->Dr2,
SystemContext.SystemContextIa32->Dr3
));
DEBUG ((
EFI_D_ERROR,
"DR6 - %08x, DR7 - %08x\n",
SystemContext.SystemContextIa32->Dr6,
SystemContext.SystemContextIa32->Dr7
));
#else
DEBUG ((
EFI_D_ERROR,
"!!!! X64 Exception Type - %016lx !!!!\n",
(UINT64)InterruptType
));
DEBUG ((
EFI_D_ERROR,
"RIP - %016lx, CS - %016lx, RFLAGS - %016lx\n",
SystemContext.SystemContextX64->Rip,
SystemContext.SystemContextX64->Cs,
SystemContext.SystemContextX64->Rflags
));
if (ErrorCodeFlag & (1 << InterruptType)) {
DEBUG ((
EFI_D_ERROR,
"ExceptionData - %016lx\n",
SystemContext.SystemContextX64->ExceptionData
));
}
DEBUG ((
EFI_D_ERROR,
"RAX - %016lx, RCX - %016lx, RDX - %016lx\n",
SystemContext.SystemContextX64->Rax,
SystemContext.SystemContextX64->Rcx,
SystemContext.SystemContextX64->Rdx
));
DEBUG ((
EFI_D_ERROR,
"RBX - %016lx, RSP - %016lx, RBP - %016lx\n",
SystemContext.SystemContextX64->Rbx,
SystemContext.SystemContextX64->Rsp,
SystemContext.SystemContextX64->Rbp
));
DEBUG ((
EFI_D_ERROR,
"RSI - %016lx, RDI - %016lx\n",
SystemContext.SystemContextX64->Rsi,
SystemContext.SystemContextX64->Rdi
));
DEBUG ((
EFI_D_ERROR,
"R8 - %016lx, R9 - %016lx, R10 - %016lx\n",
SystemContext.SystemContextX64->R8,
SystemContext.SystemContextX64->R9,
SystemContext.SystemContextX64->R10
));
DEBUG ((
EFI_D_ERROR,
"R11 - %016lx, R12 - %016lx, R13 - %016lx\n",
SystemContext.SystemContextX64->R11,
SystemContext.SystemContextX64->R12,
SystemContext.SystemContextX64->R13
));
DEBUG ((
EFI_D_ERROR,
"R14 - %016lx, R15 - %016lx\n",
SystemContext.SystemContextX64->R14,
SystemContext.SystemContextX64->R15
));
DEBUG ((
EFI_D_ERROR,
"DS - %016lx, ES - %016lx, FS - %016lx\n",
SystemContext.SystemContextX64->Ds,
SystemContext.SystemContextX64->Es,
SystemContext.SystemContextX64->Fs
));
DEBUG ((
EFI_D_ERROR,
"GS - %016lx, SS - %016lx\n",
SystemContext.SystemContextX64->Gs,
SystemContext.SystemContextX64->Ss
));
DEBUG ((
EFI_D_ERROR,
"GDTR - %016lx %016lx, LDTR - %016lx\n",
SystemContext.SystemContextX64->Gdtr[0],
SystemContext.SystemContextX64->Gdtr[1],
SystemContext.SystemContextX64->Ldtr
));
DEBUG ((
EFI_D_ERROR,
"IDTR - %016lx %016lx, TR - %016lx\n",
SystemContext.SystemContextX64->Idtr[0],
SystemContext.SystemContextX64->Idtr[1],
SystemContext.SystemContextX64->Tr
));
DEBUG ((
EFI_D_ERROR,
"CR0 - %016lx, CR2 - %016lx, CR3 - %016lx\n",
SystemContext.SystemContextX64->Cr0,
SystemContext.SystemContextX64->Cr2,
SystemContext.SystemContextX64->Cr3
));
DEBUG ((
EFI_D_ERROR,
"CR4 - %016lx, CR8 - %016lx\n",
SystemContext.SystemContextX64->Cr4,
SystemContext.SystemContextX64->Cr8
));
DEBUG ((
EFI_D_ERROR,
"DR0 - %016lx, DR1 - %016lx, DR2 - %016lx\n",
SystemContext.SystemContextX64->Dr0,
SystemContext.SystemContextX64->Dr1,
SystemContext.SystemContextX64->Dr2
));
DEBUG ((
EFI_D_ERROR,
"DR3 - %016lx, DR6 - %016lx, DR7 - %016lx\n",
SystemContext.SystemContextX64->Dr3,
SystemContext.SystemContextX64->Dr6,
SystemContext.SystemContextX64->Dr7
));
#endif
return ;
}
#endif
STATIC
CHAR16*
DumpMemoryVgaOut (
IN CHAR16* VideoBuffer,
IN UINTN ColumnMax,
IN UINTN MemoryAddress,
IN UINTN Count
)
{
UINT32 Space = 8U;
UINT32 InLine = 4U;
CHAR16* Line = VideoBuffer;
UINT8 CONST* Data = (UINT8 CONST*) MemoryAddress;
while (Count) {
UnicodeSPrintAsciiFormat (
VideoBuffer,
3U * sizeof (CHAR16),
"%02x",
(UINTN) *Data
);
VideoBuffer += 2;
--Space;
if (!Space) {
*(CHAR8*) VideoBuffer = ' ';
++VideoBuffer;
Space = 8U;
--InLine;
if (!InLine) {
Line += ColumnMax;
VideoBuffer = Line;
InLine = 4U;
}
}
++Data;
--Count;
}
if (VideoBuffer != Line) {
Line += ColumnMax;
VideoBuffer = Line;
}
return VideoBuffer;
}
VOID
DumpExceptionDataVgaOut (
IN EFI_EXCEPTION_TYPE InterruptType,
IN EFI_SYSTEM_CONTEXT SystemContext
)
{
UINTN COLUMN_MAX;
UINTN ROW_MAX;
UINT32 ErrorCodeFlag;
CHAR16 *VideoBufferBase;
CHAR16 *VideoBuffer;
UINTN Index;
COLUMN_MAX = 80;
ROW_MAX = 25;
ErrorCodeFlag = 0x00027d00;
VideoBufferBase = (CHAR16 *) (UINTN) 0xb8000;
VideoBuffer = (CHAR16 *) (UINTN) 0xb8000;
#ifdef MDE_CPU_IA32
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"!!!! IA32 Exception Type - %08x !!!!",
InterruptType
);
VideoBuffer += COLUMN_MAX;
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"EIP - %08x, CS - %08x, EFLAGS - %08x",
SystemContext.SystemContextIa32->Eip,
SystemContext.SystemContextIa32->Cs,
SystemContext.SystemContextIa32->Eflags
);
VideoBuffer += COLUMN_MAX;
if (ErrorCodeFlag & (1 << InterruptType)) {
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"ExceptionData - %08x",
SystemContext.SystemContextIa32->ExceptionData
);
VideoBuffer += COLUMN_MAX;
}
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"EAX - %08x, ECX - %08x, EDX - %08x, EBX - %08x",
SystemContext.SystemContextIa32->Eax,
SystemContext.SystemContextIa32->Ecx,
SystemContext.SystemContextIa32->Edx,
SystemContext.SystemContextIa32->Ebx
);
VideoBuffer += COLUMN_MAX;
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"ESP - %08x, EBP - %08x, ESI - %08x, EDI - %08x",
SystemContext.SystemContextIa32->Esp,
SystemContext.SystemContextIa32->Ebp,
SystemContext.SystemContextIa32->Esi,
SystemContext.SystemContextIa32->Edi
);
VideoBuffer += COLUMN_MAX;
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"DS - %08x, ES - %08x, FS - %08x, GS - %08x, SS - %08x",
SystemContext.SystemContextIa32->Ds,
SystemContext.SystemContextIa32->Es,
SystemContext.SystemContextIa32->Fs,
SystemContext.SystemContextIa32->Gs,
SystemContext.SystemContextIa32->Ss
);
VideoBuffer += COLUMN_MAX;
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"GDTR - %08x %08x, IDTR - %08x %08x",
SystemContext.SystemContextIa32->Gdtr[0],
SystemContext.SystemContextIa32->Gdtr[1],
SystemContext.SystemContextIa32->Idtr[0],
SystemContext.SystemContextIa32->Idtr[1]
);
VideoBuffer += COLUMN_MAX;
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"LDTR - %08x, TR - %08x",
SystemContext.SystemContextIa32->Ldtr,
SystemContext.SystemContextIa32->Tr
);
VideoBuffer += COLUMN_MAX;
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"CR0 - %08x, CR2 - %08x, CR3 - %08x, CR4 - %08x",
SystemContext.SystemContextIa32->Cr0,
SystemContext.SystemContextIa32->Cr2,
SystemContext.SystemContextIa32->Cr3,
SystemContext.SystemContextIa32->Cr4
);
VideoBuffer += COLUMN_MAX;
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"DR0 - %08x, DR1 - %08x, DR2 - %08x, DR3 - %08x",
SystemContext.SystemContextIa32->Dr0,
SystemContext.SystemContextIa32->Dr1,
SystemContext.SystemContextIa32->Dr2,
SystemContext.SystemContextIa32->Dr3
);
VideoBuffer += COLUMN_MAX;
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"DR6 - %08x, DR7 - %08x",
SystemContext.SystemContextIa32->Dr6,
SystemContext.SystemContextIa32->Dr7
);
VideoBuffer += COLUMN_MAX;
VideoBuffer = DumpMemoryVgaOut (
VideoBuffer,
COLUMN_MAX,
(UINTN) SystemContext.SystemContextIa32->Esp,
128U
);
VideoBuffer = DumpMemoryVgaOut (
VideoBuffer,
COLUMN_MAX,
(UINTN) SystemContext.SystemContextIa32->Eip - 64U,
128U
);
#else
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"!!!! X64 Exception Type - %016lx !!!!",
(UINT64)InterruptType
);
VideoBuffer += COLUMN_MAX;
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"RIP - %016lx, CS - %016lx, RFLAGS - %016lx",
SystemContext.SystemContextX64->Rip,
SystemContext.SystemContextX64->Cs,
SystemContext.SystemContextX64->Rflags
);
VideoBuffer += COLUMN_MAX;
if (ErrorCodeFlag & (1 << InterruptType)) {
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"ExceptionData - %016lx",
SystemContext.SystemContextX64->ExceptionData
);
VideoBuffer += COLUMN_MAX;
}
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"RAX - %016lx, RCX - %016lx, RDX - %016lx",
SystemContext.SystemContextX64->Rax,
SystemContext.SystemContextX64->Rcx,
SystemContext.SystemContextX64->Rdx
);
VideoBuffer += COLUMN_MAX;
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"RBX - %016lx, RSP - %016lx, RBP - %016lx",
SystemContext.SystemContextX64->Rbx,
SystemContext.SystemContextX64->Rsp,
SystemContext.SystemContextX64->Rbp
);
VideoBuffer += COLUMN_MAX;
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"RSI - %016lx, RDI - %016lx",
SystemContext.SystemContextX64->Rsi,
SystemContext.SystemContextX64->Rdi
);
VideoBuffer += COLUMN_MAX;
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"R8 - %016lx, R9 - %016lx, R10 - %016lx",
SystemContext.SystemContextX64->R8,
SystemContext.SystemContextX64->R9,
SystemContext.SystemContextX64->R10
);
VideoBuffer += COLUMN_MAX;
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"R11 - %016lx, R12 - %016lx, R13 - %016lx",
SystemContext.SystemContextX64->R11,
SystemContext.SystemContextX64->R12,
SystemContext.SystemContextX64->R13
);
VideoBuffer += COLUMN_MAX;
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"R14 - %016lx, R15 - %016lx",
SystemContext.SystemContextX64->R14,
SystemContext.SystemContextX64->R15
);
VideoBuffer += COLUMN_MAX;
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"DS - %016lx, ES - %016lx, FS - %016lx",
SystemContext.SystemContextX64->Ds,
SystemContext.SystemContextX64->Es,
SystemContext.SystemContextX64->Fs
);
VideoBuffer += COLUMN_MAX;
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"GS - %016lx, SS - %016lx",
SystemContext.SystemContextX64->Gs,
SystemContext.SystemContextX64->Ss
);
VideoBuffer += COLUMN_MAX;
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"GDTR - %016lx %016lx, LDTR - %016lx",
SystemContext.SystemContextX64->Gdtr[0],
SystemContext.SystemContextX64->Gdtr[1],
SystemContext.SystemContextX64->Ldtr
);
VideoBuffer += COLUMN_MAX;
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"IDTR - %016lx %016lx, TR - %016lx",
SystemContext.SystemContextX64->Idtr[0],
SystemContext.SystemContextX64->Idtr[1],
SystemContext.SystemContextX64->Tr
);
VideoBuffer += COLUMN_MAX;
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"CR0 - %016lx, CR2 - %016lx, CR3 - %016lx",
SystemContext.SystemContextX64->Cr0,
SystemContext.SystemContextX64->Cr2,
SystemContext.SystemContextX64->Cr3
);
VideoBuffer += COLUMN_MAX;
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"CR4 - %016lx, CR8 - %016lx",
SystemContext.SystemContextX64->Cr4,
SystemContext.SystemContextX64->Cr8
);
VideoBuffer += COLUMN_MAX;
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"DR0 - %016lx, DR1 - %016lx, DR2 - %016lx",
SystemContext.SystemContextX64->Dr0,
SystemContext.SystemContextX64->Dr1,
SystemContext.SystemContextX64->Dr2
);
VideoBuffer += COLUMN_MAX;
UnicodeSPrintAsciiFormat (
VideoBuffer,
COLUMN_MAX * sizeof (CHAR16),
"DR3 - %016lx, DR6 - %016lx, DR7 - %016lx",
SystemContext.SystemContextX64->Dr3,
SystemContext.SystemContextX64->Dr6,
SystemContext.SystemContextX64->Dr7
);
VideoBuffer += COLUMN_MAX;
VideoBuffer = DumpMemoryVgaOut (
VideoBuffer,
COLUMN_MAX,
(UINTN) SystemContext.SystemContextX64->Rsp,
128U
);
VideoBuffer = DumpMemoryVgaOut (
VideoBuffer,
COLUMN_MAX,
(UINTN) SystemContext.SystemContextX64->Rip - 64U,
128U
);
#endif
for (Index = 0; Index < COLUMN_MAX * ROW_MAX; Index ++) {
if (Index > (UINTN)(VideoBuffer - VideoBufferBase)) {
VideoBufferBase[Index] = 0x0c20;
} else {
VideoBufferBase[Index] |= 0x0c00;
}
}
return ;
}
#if CPU_EXCEPTION_VGA_SWITCH
UINT16
SwitchVideoMode (
UINT16 NewVideoMode
)
/*++
Description
Switch Video Mode from current mode to new mode, and return the old mode.
Use Thuink
Arguments
NewVideoMode - new video mode want to set
Return
UINT16 - (UINT16) -1 indicates failure
Other value indicates the old mode, which can be used for restore later
--*/
{
EFI_IA32_REGISTER_SET Regs;
UINT16 OriginalVideoMode = (UINT16) -1;
#if 0
//
// VESA SuperVGA BIOS - GET CURRENT VIDEO MODE
// AX = 4F03h
// Return:AL = 4Fh if function supported
// AH = status 00h successful
// BX = video mode (see #0082,#0083)
//
SetMem(&Regs, sizeof (Regs), 0);
Regs.X.AX = 0x4F03;
LegacyBiosInt86 (0x10, &Regs);
if (Regs.X.AX == 0x004F) {
OriginalVideoMode = Regs.X.BX;
} else {
//
// VIDEO - GET CURRENT VIDEO MODE
// AH = 0Fh
// Return:AH = number of character columns
// AL = display mode (see #0009 at AH=00h)
// BH = active page (see AH=05h)
//
SetMem(&Regs, sizeof (Regs), 0);
Regs.H.AH = 0x0F;
LegacyBiosInt86 (0x10, &Regs);
OriginalVideoMode = Regs.H.AL;
}
#endif
//
// Set new video mode
//
if (NewVideoMode < 0x100) {
//
// Set the 80x25 Text VGA Mode: Assume successful always
//
// VIDEO - SET VIDEO MODE
// AH = 00h
// AL = desired video mode (see #0009)
// Return:AL = video mode flag (Phoenix, AMI BIOS)
// 20h mode > 7
// 30h modes 0-5 and 7
// 3Fh mode 6
// AL = CRT controller mode byte (Phoenix 386 BIOS v1.10)
//
SetMem(&Regs, sizeof (Regs), 0);
Regs.H.AH = 0x00;
Regs.H.AL = (UINT8) NewVideoMode;
LegacyBiosInt86 (0x10, &Regs);
//
// VIDEO - TEXT-MODE CHARGEN - LOAD ROM 8x16 CHARACTER SET (VGA)
// AX = 1114h
// BL = block to load
// Return:Nothing
//
SetMem(&Regs, sizeof (Regs), 0);
Regs.H.AH = 0x11;
Regs.H.AL = 0x14;
Regs.H.BL = 0;
LegacyBiosInt86 (0x10, &Regs);
} else {
//
// VESA SuperVGA BIOS - SET SuperVGA VIDEO MODE
// AX = 4F02h
// BX = mode (see #0082,#0083)
// bit 15 set means don't clear video memory
// bit 14 set means enable linear framebuffer mode (VBE v2.0+)
// Return:AL = 4Fh if function supported
// AH = status
// 00h successful
// 01h failed
//
SetMem(&Regs, sizeof (Regs), 0);
Regs.X.AX = 0x4F02;
Regs.X.BX = NewVideoMode;
LegacyBiosInt86 (0x10, &Regs);
if (Regs.X.AX != 0x004F) {
// DEBUG ((EFI_D_ERROR, "SORRY: Cannot set to video mode: 0x%04X!\n", NewVideoMode));
return (UINT16) -1;
}
}
return OriginalVideoMode;
}
#endif
VOID
EFIAPI
ExceptionHandler (
IN EFI_EXCEPTION_TYPE InterruptType,
IN EFI_SYSTEM_CONTEXT SystemContext
)
{
#if CPU_EXCEPTION_VGA_SWITCH
UINT16 VideoMode;
#endif
#if CPU_EXCEPTION_DEBUG_OUTPUT
DumpExceptionDataDebugOut (InterruptType, SystemContext);
#endif
#if CPU_EXCEPTION_VGA_SWITCH
//
// Switch to text mode for RED-SCREEN output
//
VideoMode = SwitchVideoMode (0x83);
// if (VideoMode == (UINT16) -1) {
// DEBUG ((EFI_D_ERROR, "Video Mode Unknown!\n"));
// }
#endif
DumpExceptionDataVgaOut (InterruptType, SystemContext);
//
// Use this macro to hang so that the compiler does not optimize out
// the following RET instructions. This allows us to return if we
// have a debugger attached.
//
CpuDeadLoop ();
#if CPU_EXCEPTION_VGA_SWITCH
//
// Switch back to the old video mode
//
if (VideoMode != (UINT16)-1) {
SwitchVideoMode (VideoMode);
}
#endif
return ;
}
VOID
EFIAPI
TimerHandler (
IN EFI_EXCEPTION_TYPE InterruptType,
IN EFI_SYSTEM_CONTEXT SystemContext
)
{
if (mTimerHandler != NULL) {
mTimerHandler (InterruptType, SystemContext);
}
}
EFI_STATUS
EFIAPI
InitializeCpu (
IN EFI_HANDLE ImageHandle,
IN EFI_SYSTEM_TABLE *SystemTable
)
/*++
Routine Description:
Initialize the state information for the CPU Architectural Protocol
Arguments:
ImageHandle of the loaded driver
Pointer to the System Table
Returns:
EFI_SUCCESS - thread can be successfully created
EFI_OUT_OF_RESOURCES - cannot allocate protocol data structure
EFI_DEVICE_ERROR - cannot create the thread
--*/
{
EFI_STATUS Status;
EFI_8259_IRQ Irq;
UINT32 InterruptVector;
Msg = NULL;
Status = gBS->LocateProtocol(&gMsgLogProtocolGuid, NULL, (VOID **) &Msg);
if (!EFI_ERROR(Status) && (Msg != NULL)) {
msgCursor = Msg->Cursor;
BootLog("MsgLog Protocol installed in CpuDxe\n");
}
//
// Find the Legacy8259 protocol.
//
Status = gBS->LocateProtocol (&gEfiLegacy8259ProtocolGuid, NULL, (VOID **) &gLegacy8259);
// ASSERT_EFI_ERROR(Status);
if (EFI_ERROR(Status)) {
return Status;
}
//
// Get the interrupt vector number corresponding to IRQ0 from the 8259 driver
//
Status = gLegacy8259->GetVector (gLegacy8259, Efi8259Irq0, (UINT8 *) &mTimerVector);
// ASSERT_EFI_ERROR(Status);
if (EFI_ERROR(Status)) {
return Status;
}
//
// Reload GDT, IDT
//
//CopyMem(((UINT8 *)&mGdtPtr), (UINT8 *)&GDT_BASE, sizeof(UINTN));
#if 0 //defined(MDE_CPU_X64)
mGdtPtr = (UINTN)&GDT_BASE;
mIdtPtr = (UINTN)&IDT_BASE;
#endif
InitDescriptor ();
//
// Install Exception Handler (0x00 ~ 0x1F)
//
for (InterruptVector = 0; InterruptVector < 0x20; InterruptVector++) {
InstallInterruptHandler (
InterruptVector,
(VOID (*)(VOID))(UINTN)((UINTN)SystemExceptionHandler + mExceptionCodeSize * InterruptVector)
);
}
//
// Install Timer Handler
//
InstallInterruptHandler (mTimerVector, SystemTimerHandler);
//#if defined(MDE_CPU_X64)
// now we want to patch mTimerVector
// CopyMem(((UINT8 *)(UINTN)&SystemTimerHandler) + 3, (UINT8 *)&mTimerVector, 1);
//#endif
((UINT8 *)(UINTN)&SystemTimerHandler)[3] = (UINT8)mTimerVector;
//
// BUGBUG: We add all other interrupt vector
//
for (Irq = Efi8259Irq1; Irq <= Efi8259Irq15; Irq++) {
InterruptVector = 0;
Status = gLegacy8259->GetVector (gLegacy8259, Irq, (UINT8 *) &InterruptVector);
// ASSERT_EFI_ERROR(Status);
if (EFI_ERROR(Status)) {
return Status;
}
InstallInterruptHandler (InterruptVector, SystemTimerHandler);
}
InitializeBiosIntCaller();
//
// Install CPU Architectural Protocol and the thunk protocol
//
mHandle = NULL;
Status = gBS->InstallMultipleProtocolInterfaces (
&mHandle,
&gEfiCpuArchProtocolGuid,
&mCpu,
NULL
);
// ASSERT_EFI_ERROR(Status);
return Status;
}
VOID
InitializeBiosIntCaller (
VOID
)
{
EFI_STATUS Status;
UINT32 RealModeBufferSize;
UINT32 ExtraStackSize;
EFI_PHYSICAL_ADDRESS LegacyRegionBase;
UINT32 LegacyRegionSize;
//
// Get LegacyRegion
//
AsmGetThunk16Properties (&RealModeBufferSize, &ExtraStackSize);
LegacyRegionSize = (((RealModeBufferSize + ExtraStackSize) / EFI_PAGE_SIZE) + 1) * EFI_PAGE_SIZE;
LegacyRegionBase = 0x0C0000;
Status = gBS->AllocatePages (
AllocateMaxAddress,
EfiACPIMemoryNVS,
EFI_SIZE_TO_PAGES(LegacyRegionSize),
&LegacyRegionBase
);
// ASSERT_EFI_ERROR(Status);
if (EFI_ERROR(Status)) {
mThunkContext.RealModeBuffer = 0;
return;
}
mThunkContext.RealModeBuffer = (VOID*)(UINTN)LegacyRegionBase;
mThunkContext.RealModeBufferSize = LegacyRegionSize;
mThunkContext.ThunkAttributes = 3;
AsmPrepareThunk16(&mThunkContext);
}
BOOLEAN
EFIAPI
LegacyBiosInt86 (
IN UINT8 BiosInt,
IN EFI_IA32_REGISTER_SET *Regs
)
{
UINTN Status;
UINTN Eflags;
IA32_REGISTER_SET ThunkRegSet;
BOOLEAN Ret;
UINT16 *Stack16;
if (!gLegacy8259 || !mThunkContext.RealModeBuffer) {
return FALSE;
}
Regs->X.Flags.Reserved1 = 1;
Regs->X.Flags.Reserved2 = 0;
Regs->X.Flags.Reserved3 = 0;
Regs->X.Flags.Reserved4 = 0;
Regs->X.Flags.IOPL = 3;
Regs->X.Flags.NT = 0;
Regs->X.Flags.IF = 1;
Regs->X.Flags.TF = 0;
Regs->X.Flags.CF = 0;
ZeroMem (&ThunkRegSet, sizeof (ThunkRegSet));
ThunkRegSet.E.EDI = Regs->E.EDI;
ThunkRegSet.E.ESI = Regs->E.ESI;
ThunkRegSet.E.EBP = Regs->E.EBP;
ThunkRegSet.E.EBX = Regs->E.EBX;
ThunkRegSet.E.EDX = Regs->E.EDX;
ThunkRegSet.E.ECX = Regs->E.ECX;
ThunkRegSet.E.EAX = Regs->E.EAX;
ThunkRegSet.E.DS = Regs->E.DS;
ThunkRegSet.E.ES = Regs->E.ES;
CopyMem(&(ThunkRegSet.E.EFLAGS), &(Regs->E.EFlags), sizeof (UINT32));
//
// The call to Legacy16 is a critical section to EFI
//
Eflags = AsmReadEflags ();
if ((Eflags & EFI_CPU_EFLAGS_IF) != 0) {
DisableInterrupts ();
}
//
// Set Legacy16 state. 0x08, 0x70 is legacy 8259 vector bases.
//
Status = gLegacy8259->SetMode (gLegacy8259, Efi8259LegacyMode, NULL, NULL);
// ASSERT_EFI_ERROR(Status);
if (EFI_ERROR(Status)) {
if ((Eflags & EFI_CPU_EFLAGS_IF) != 0) {
EnableInterrupts ();
}
return FALSE;
}
Stack16 = (UINT16 *)((UINT8 *) mThunkContext.RealModeBuffer + mThunkContext.RealModeBufferSize - sizeof (UINT16));
Stack16 -= sizeof (ThunkRegSet.E.EFLAGS) / sizeof (UINT16);
CopyMem(Stack16, &ThunkRegSet.E.EFLAGS, sizeof (ThunkRegSet.E.EFLAGS));
ThunkRegSet.E.SS = (UINT16) (((UINTN) Stack16 >> 16) << 12);
ThunkRegSet.E.ESP = (UINT16) (UINTN) Stack16;
// ThunkRegSet.E.Eip = (UINT16)((UINT32 *)NULL)[BiosInt];
// ThunkRegSet.E.CS = (UINT16)(((UINT32 *)NULL)[BiosInt] >> 16);
ThunkRegSet.E.Eip = *(UINT16*)(((UINTN)BiosInt) * sizeof(UINT32));
ThunkRegSet.E.CS = *(UINT16*)((((UINTN)BiosInt) * sizeof(UINT32)) + sizeof(UINT16));
mThunkContext.RealModeState = &ThunkRegSet;
AsmThunk16 (&mThunkContext);
//
// Restore protected mode interrupt state
//
Status = gLegacy8259->SetMode (gLegacy8259, Efi8259ProtectedMode, NULL, NULL);
// ASSERT_EFI_ERROR(Status);
// if (EFI_ERROR(Status)) {
// return FALSE;
// }
//
// End critical section
//
if ((Eflags & EFI_CPU_EFLAGS_IF) != 0) {
EnableInterrupts ();
}
Regs->E.EDI = ThunkRegSet.E.EDI;
Regs->E.ESI = ThunkRegSet.E.ESI;
Regs->E.EBP = ThunkRegSet.E.EBP;
Regs->E.EBX = ThunkRegSet.E.EBX;
Regs->E.EDX = ThunkRegSet.E.EDX;
Regs->E.ECX = ThunkRegSet.E.ECX;
Regs->E.EAX = ThunkRegSet.E.EAX;
Regs->E.SS = ThunkRegSet.E.SS;
Regs->E.CS = ThunkRegSet.E.CS;
Regs->E.DS = ThunkRegSet.E.DS;
Regs->E.ES = ThunkRegSet.E.ES;
CopyMem(&(Regs->E.EFlags), &(ThunkRegSet.E.EFLAGS), sizeof (UINT32));
Ret = (BOOLEAN) (Regs->E.EFlags.CF == 1);
return Ret;
}
#if 0
VOID BiosPutC(CHAR8 ch)
{
EFI_IA32_REGISTER_SET Regs;
SetMem(&Regs, sizeof (Regs), 0);
Regs.H.AH = 0x0e;
Regs.H.AL = ch;
Regs.H.BL = 0x0F; /* foreground white */
Regs.H.BH = 0x00; /* background black */
LegacyBiosInt86 (0x10, &Regs);
}
#endif