/** @file
Copyright (c) 2007, 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.
**/
#include "Edb.h"
extern EDB_DISASM_INSTRUCTION mEdbDisasmInstructionTable[];
typedef struct {
CHAR16 Name[EDB_INSTRUCTION_NAME_MAX_LENGTH];
CHAR16 Content[EDB_INSTRUCTION_CONTENT_MAX_LENGTH];
CHAR16 Tail;
} EDB_INSTRUCTION_STRING;
EDB_INSTRUCTION_STRING mInstructionString;
UINTN mInstructionNameOffset;
UINTN mInstructionContentOffset;
/**
Set offset for Instruction name and content.
@param InstructionNameOffset - Instruction name offset
@param InstructionContentOffset - Instruction content offset
**/
VOID
EdbSetOffset (
IN UINTN InstructionNameOffset,
IN UINTN InstructionContentOffset
)
{
mInstructionNameOffset = InstructionNameOffset;
mInstructionContentOffset = InstructionContentOffset;
return ;
}
/**
Pre instruction string construction.
@return Instruction string
**/
CHAR16 *
EdbPreInstructionString (
VOID
)
{
ZeroMem (&mInstructionString, sizeof(mInstructionString));
mInstructionNameOffset = 0;
mInstructionContentOffset = 0;
return (CHAR16 *)&mInstructionString;
}
/**
Post instruction string construction.
@return Instruction string
**/
CHAR16 *
EdbPostInstructionString (
VOID
)
{
CHAR16 *Char;
for (Char = (CHAR16 *)&mInstructionString; Char < &mInstructionString.Tail; Char++) {
if (*Char == 0) {
*Char = L' ';
}
}
mInstructionString.Tail = 0;
mInstructionNameOffset = 0;
mInstructionContentOffset = 0;
return (CHAR16 *)&mInstructionString;
}
/**
Get Sign, NaturalUnits, and ConstantUnits of the WORD data.
@param Data16 - WORD data
@param NaturalUnits - Natural Units of the WORD
@param ConstantUnits - Constant Units of the WORD
@return Sign value of WORD
**/
BOOLEAN
EdbGetNaturalIndex16 (
IN UINT16 Data16,
OUT UINTN *NaturalUnits,
OUT UINTN *ConstantUnits
)
{
BOOLEAN Sign;
UINTN NaturalUnitBit;
Sign = (BOOLEAN)(Data16 >> 15);
NaturalUnitBit = (UINTN)((Data16 >> 12) & 0x7);
NaturalUnitBit *= 2;
Data16 = Data16 & 0xFFF;
*NaturalUnits = (UINTN)(Data16 & ((1 << NaturalUnitBit) - 1));
*ConstantUnits = (UINTN)((Data16 >> NaturalUnitBit) & ((1 << (12 - NaturalUnitBit)) - 1));
return Sign;
}
/**
Get Sign, NaturalUnits, and ConstantUnits of the DWORD data.
@param Data32 - DWORD data
@param NaturalUnits - Natural Units of the DWORD
@param ConstantUnits - Constant Units of the DWORD
@return Sign value of DWORD
**/
BOOLEAN
EdbGetNaturalIndex32 (
IN UINT32 Data32,
OUT UINTN *NaturalUnits,
OUT UINTN *ConstantUnits
)
{
BOOLEAN Sign;
UINTN NaturalUnitBit;
Sign = (BOOLEAN)(Data32 >> 31);
NaturalUnitBit = (UINTN)((Data32 >> 28) & 0x7);
NaturalUnitBit *= 4;
Data32 = Data32 & 0xFFFFFFF;
*NaturalUnits = (UINTN)(Data32 & ((1 << NaturalUnitBit) - 1));
*ConstantUnits = (UINTN)((Data32 >> NaturalUnitBit) & ((1 << (28 - NaturalUnitBit)) - 1));
return Sign;
}
/**
Get Sign, NaturalUnits, and ConstantUnits of the QWORD data.
@param Data64 - QWORD data
@param NaturalUnits - Natural Units of the QWORD
@param ConstantUnits - Constant Units of the QWORD
@return Sign value of QWORD
**/
BOOLEAN
EdbGetNaturalIndex64 (
IN UINT64 Data64,
OUT UINT64 *NaturalUnits,
OUT UINT64 *ConstantUnits
)
{
BOOLEAN Sign;
UINTN NaturalUnitBit;
Sign = (BOOLEAN)RShiftU64 (Data64, 63);
NaturalUnitBit = (UINTN)(RShiftU64 (Data64, 60) & 0x7);
NaturalUnitBit *= 8;
Data64 = RShiftU64 (LShiftU64 (Data64, 4), 4);
*NaturalUnits = (UINT64)(Data64 & (LShiftU64 (1, NaturalUnitBit) - 1));
*ConstantUnits = (UINT64)(RShiftU64 (Data64, NaturalUnitBit) & (LShiftU64 (1, (60 - NaturalUnitBit)) - 1));
return Sign;
}
/**
Get Bit Width of the value.
@param Value - data
@return Bit width
**/
UINT8
EdbGetBitWidth (
IN UINT64 Value
)
{
if (Value >= 10000000000000) {
return 14;
} else if (Value >= 1000000000000) {
return 13;
} else if (Value >= 100000000000) {
return 12;
} else if (Value >= 10000000000) {
return 11;
} else if (Value >= 1000000000) {
return 10;
} else if (Value >= 100000000) {
return 9;
} else if (Value >= 10000000) {
return 8;
} else if (Value >= 1000000) {
return 7;
} else if (Value >= 100000) {
return 6;
} else if (Value >= 10000) {
return 5;
} else if (Value >= 1000) {
return 4;
} else if (Value >= 100) {
return 3;
} else if (Value >= 10) {
return 2;
} else {
return 1;
}
}
/**
Print the instruction name.
@param Name - instruction name
@return Instruction name offset
**/
UINTN
EdbPrintInstructionName (
IN CHAR16 *Name
)
{
EDBSPrintWithOffset (
mInstructionString.Name,
EDB_INSTRUCTION_NAME_MAX_SIZE,
mInstructionNameOffset,
L"%s",
Name
);
mInstructionNameOffset += StrLen (Name);
return mInstructionNameOffset;
}
/**
Print register 1 in operands.
@param Operands - instruction operands
@return Instruction content offset
**/
UINTN
EdbPrintRegister1 (
IN UINT8 Operands
)
{
if ((Operands & OPERAND_M_INDIRECT1) != 0) {
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"@"
);
mInstructionContentOffset += 1;
}
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"R%d",
(UINTN)(Operands & OPERAND_M_OP1)
);
mInstructionContentOffset += 2;
return mInstructionContentOffset;
}
/**
Print register 2 in operands.
@param Operands - instruction operands
@return Instruction content offset
**/
UINTN
EdbPrintRegister2 (
IN UINT8 Operands
)
{
if ((Operands & OPERAND_M_INDIRECT2) != 0) {
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"@"
);
mInstructionContentOffset += 1;
}
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"R%d",
(UINTN)((Operands & OPERAND_M_OP2) >> 4)
);
mInstructionContentOffset += 2;
return mInstructionContentOffset;
}
/**
Print dedicated register 1 in operands.
@param Operands - instruction operands
@return Instruction content offset
**/
UINTN
EdbPrintDedicatedRegister1 (
IN UINT8 Operands
)
{
switch (Operands & OPERAND_M_OP1) {
case 0:
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"[FLAGS]"
);
mInstructionContentOffset += 7;
break;
case 1:
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"[IP]"
);
mInstructionContentOffset += 4;
break;
}
return mInstructionContentOffset;
}
/**
Print dedicated register 2 in operands.
@param Operands - instruction operands
@return Instruction content offset
**/
UINTN
EdbPrintDedicatedRegister2 (
IN UINT8 Operands
)
{
switch ((Operands & OPERAND_M_OP2) >> 4) {
case 0:
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"[FLAGS]"
);
mInstructionContentOffset += 7;
break;
case 1:
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"[IP]"
);
mInstructionContentOffset += 4;
break;
}
return mInstructionContentOffset;
}
/**
Print the hexical UINTN index data to instruction content.
@param Sign - Signed bit of UINTN data
@param NaturalUnits - natural units of UINTN data
@param ConstantUnits - natural units of UINTN data
@return Instruction content offset
**/
UINTN
EdbPrintIndexData (
IN BOOLEAN Sign,
IN UINTN NaturalUnits,
IN UINTN ConstantUnits
)
{
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"(%s%d,%s%d)",
Sign ? L"-" : L"+",
NaturalUnits,
Sign ? L"-" : L"+",
ConstantUnits
);
mInstructionContentOffset = mInstructionContentOffset + 5 + EdbGetBitWidth (NaturalUnits) + EdbGetBitWidth (ConstantUnits);
return mInstructionContentOffset;
}
/**
Print the hexical QWORD index data to instruction content.
@param Sign - Signed bit of QWORD data
@param NaturalUnits - natural units of QWORD data
@param ConstantUnits - natural units of QWORD data
@return Instruction content offset
**/
UINTN
EdbPrintIndexData64 (
IN BOOLEAN Sign,
IN UINT64 NaturalUnits,
IN UINT64 ConstantUnits
)
{
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"(%s%ld,%s%ld)",
Sign ? L"-" : L"+",
NaturalUnits,
Sign ? L"-" : L"+",
ConstantUnits
);
mInstructionContentOffset = mInstructionContentOffset + 5 + EdbGetBitWidth (NaturalUnits) + EdbGetBitWidth (ConstantUnits);
return mInstructionContentOffset;
}
/**
Print the hexical WORD raw index data to instruction content.
@param Data16 - WORD data
@return Instruction content offset
**/
UINTN
EdbPrintRawIndexData16 (
IN UINT16 Data16
)
{
BOOLEAN Sign;
UINTN NaturalUnits;
UINTN ConstantUnits;
UINTN Offset;
Sign = EdbGetNaturalIndex16 (Data16, &NaturalUnits, &ConstantUnits);
Offset = EdbPrintIndexData (Sign, NaturalUnits, ConstantUnits);
return Offset;
}
/**
Print the hexical DWORD raw index data to instruction content.
@param Data32 - DWORD data
@return Instruction content offset
**/
UINTN
EdbPrintRawIndexData32 (
IN UINT32 Data32
)
{
BOOLEAN Sign;
UINTN NaturalUnits;
UINTN ConstantUnits;
UINTN Offset;
Sign = EdbGetNaturalIndex32 (Data32, &NaturalUnits, &ConstantUnits);
Offset = EdbPrintIndexData (Sign, NaturalUnits, ConstantUnits);
return Offset;
}
/**
Print the hexical QWORD raw index data to instruction content.
@param Data64 - QWORD data
@return Instruction content offset
**/
UINTN
EdbPrintRawIndexData64 (
IN UINT64 Data64
)
{
BOOLEAN Sign;
UINT64 NaturalUnits;
UINT64 ConstantUnits;
UINTN Offset;
Sign = EdbGetNaturalIndex64 (Data64, &NaturalUnits, &ConstantUnits);
Offset = EdbPrintIndexData64 (Sign, NaturalUnits, ConstantUnits);
return Offset;
}
/**
Print the hexical BYTE immediate data to instruction content.
@param Data - BYTE data
@return Instruction content offset
**/
UINTN
EdbPrintImmData8 (
IN UINT8 Data
)
{
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"(0x%02x)",
(UINTN)Data
);
mInstructionContentOffset += 6;
return mInstructionContentOffset;
}
/**
Print the hexical WORD immediate data to instruction content.
@param Data - WORD data
@return Instruction content offset
**/
UINTN
EdbPrintImmData16 (
IN UINT16 Data
)
{
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"(0x%04x)",
(UINTN)Data
);
mInstructionContentOffset += 8;
return mInstructionContentOffset;
}
/**
Print the hexical DWORD immediate data to instruction content.
@param Data - DWORD data
@return Instruction content offset
**/
UINTN
EdbPrintImmData32 (
IN UINT32 Data
)
{
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"(0x%08x)",
(UINTN)Data
);
mInstructionContentOffset += 12;
return mInstructionContentOffset;
}
/**
Print the hexical QWORD immediate data to instruction content.
@param Data - QWORD data
@return Instruction content offset
**/
UINTN
EdbPrintImmData64 (
IN UINT64 Data
)
{
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"(0x%016lx)",
Data
);
mInstructionContentOffset += 20;
return mInstructionContentOffset;
}
/**
Print the decimal UINTN immediate data to instruction content.
@param Data - UINTN data
@return Instruction content offset
**/
UINTN
EdbPrintImmDatan (
IN UINTN Data
)
{
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"(%d)",
(UINTN)Data
);
mInstructionContentOffset = mInstructionContentOffset + 2 + EdbGetBitWidth (Data);
return mInstructionContentOffset;
}
/**
Print the decimal QWORD immediate data to instruction content.
@param Data64 - QWORD data
@return Instruction content offset
**/
UINTN
EdbPrintImmData64n (
IN UINT64 Data64
)
{
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"(%ld)",
Data64
);
mInstructionContentOffset = mInstructionContentOffset + 2 + EdbGetBitWidth (Data64);
return mInstructionContentOffset;
}
/**
Print the hexical BYTE to instruction content.
@param Data8 - BYTE data
@return Instruction content offset
**/
UINTN
EdbPrintData8 (
IN UINT8 Data8
)
{
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"0x%02x",
(UINTN)Data8
);
mInstructionContentOffset += 4;
return mInstructionContentOffset;
}
/**
Print the hexical WORD to instruction content.
@param Data16 - WORD data
@return Instruction content offset
**/
UINTN
EdbPrintData16 (
IN UINT16 Data16
)
{
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"0x%04x",
(UINTN)Data16
);
mInstructionContentOffset += 6;
return mInstructionContentOffset;
}
/**
Print the hexical DWORD to instruction content.
@param Data32 - DWORD data
@return Instruction content offset
**/
UINTN
EdbPrintData32 (
IN UINT32 Data32
)
{
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"0x%08x",
(UINTN)Data32
);
mInstructionContentOffset += 10;
return mInstructionContentOffset;
}
/**
Print the hexical QWORD to instruction content.
@param Data64 - QWORD data
@return Instruction content offset
**/
UINTN
EdbPrintData64 (
IN UINT64 Data64
)
{
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"0x%016lx",
(UINT64)Data64
);
mInstructionContentOffset += 18;
return mInstructionContentOffset;
}
/**
Print the decimal unsigned UINTN to instruction content.
@param Data - unsigned UINTN data
@return Instruction content offset
**/
UINTN
EdbPrintDatan (
IN UINTN Data
)
{
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"%d",
(UINTN)Data
);
mInstructionContentOffset = mInstructionContentOffset + EdbGetBitWidth (Data);
return mInstructionContentOffset;
}
/**
Print the decimal unsigned QWORD to instruction content.
@param Data64 - unsigned QWORD data
@return Instruction content offset
**/
UINTN
EdbPrintData64n (
IN UINT64 Data64
)
{
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"%ld",
Data64
);
mInstructionContentOffset = mInstructionContentOffset + EdbGetBitWidth (Data64);
return mInstructionContentOffset;
}
/**
Print the decimal signed BYTE to instruction content.
@param Data8 - signed BYTE data
@return Instruction content offset
**/
UINTN
EdbPrintData8s (
IN UINT8 Data8
)
{
BOOLEAN Sign;
Sign = (BOOLEAN)(Data8 >> 7);
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"%s%d",
Sign ? L"-" : L"+",
(UINTN)(Data8 & 0x7F)
);
mInstructionContentOffset = mInstructionContentOffset + 1 + EdbGetBitWidth (Data8 & 0x7F);
return mInstructionContentOffset;
}
/**
Print the decimal signed WORD to instruction content.
@param Data16 - signed WORD data
@return Instruction content offset
**/
UINTN
EdbPrintData16s (
IN UINT16 Data16
)
{
BOOLEAN Sign;
Sign = (BOOLEAN)(Data16 >> 15);
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"%s%d",
Sign ? L"-" : L"+",
(UINTN)(Data16 & 0x7FFF)
);
mInstructionContentOffset = mInstructionContentOffset + 1 + EdbGetBitWidth (Data16 & 0x7FFF);
return mInstructionContentOffset;
}
/**
Print the decimal signed DWORD to instruction content.
@param Data32 - signed DWORD data
@return Instruction content offset
**/
UINTN
EdbPrintData32s (
IN UINT32 Data32
)
{
BOOLEAN Sign;
Sign = (BOOLEAN)(Data32 >> 31);
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"%s%d",
Sign ? L"-" : L"+",
(UINTN)(Data32 & 0x7FFFFFFF)
);
mInstructionContentOffset = mInstructionContentOffset + 1 + EdbGetBitWidth (Data32 & 0x7FFFFFFF);
return mInstructionContentOffset;
}
/**
Print the decimal signed QWORD to instruction content.
@param Data64 - signed QWORD data
@return Instruction content offset
**/
UINTN
EdbPrintData64s (
IN UINT64 Data64
)
{
BOOLEAN Sign;
INT64 Data64s;
Sign = (BOOLEAN)RShiftU64 (Data64, 63);
Data64s = (INT64)RShiftU64 (LShiftU64 (Data64, 1), 1);
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"%s%ld",
Sign ? L"-" : L"+",
(UINT64)Data64s
);
mInstructionContentOffset = mInstructionContentOffset + 1 + EdbGetBitWidth (Data64s);
return mInstructionContentOffset;
}
/**
Print the comma to instruction content.
@return Instruction content offset
**/
UINTN
EdbPrintComma (
VOID
)
{
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L", "
);
mInstructionContentOffset += 2;
return mInstructionContentOffset;
}
/**
Find the symbol string according to address, then print it.
@param Address - instruction address
@retval 1 - symbol string is found and printed
@retval 0 - symbol string not found
**/
UINTN
EdbFindAndPrintSymbol (
IN UINTN Address
)
{
CHAR8 *SymbolStr;
SymbolStr = FindSymbolStr (Address);
if (SymbolStr != NULL) {
EDBSPrintWithOffset (
mInstructionString.Content,
EDB_INSTRUCTION_CONTENT_MAX_SIZE,
mInstructionContentOffset,
L"[%a]",
SymbolStr
);
return 1;
}
return 0;
}
/**
Print the EBC byte code.
@param InstructionAddress - instruction address
@param InstructionNumber - instruction number
**/
VOID
EdbPrintRaw (
IN EFI_PHYSICAL_ADDRESS InstructionAddress,
IN UINTN InstructionNumber
)
{
UINTN LineNumber;
UINTN ByteNumber;
UINTN LineIndex;
UINTN ByteIndex;
CHAR8 *SymbolStr;
if (InstructionNumber == 0) {
return ;
}
LineNumber = InstructionNumber / EDB_BYTECODE_NUMBER_IN_LINE;
ByteNumber = InstructionNumber % EDB_BYTECODE_NUMBER_IN_LINE;
if (ByteNumber == 0) {
LineNumber -= 1;
ByteNumber = EDB_BYTECODE_NUMBER_IN_LINE;
}
//
// Print Symbol
//
SymbolStr = FindSymbolStr ((UINTN)InstructionAddress);
if (SymbolStr != NULL) {
EDBPrint (L"[%a]:\n", SymbolStr);
}
for (LineIndex = 0; LineIndex < LineNumber; LineIndex++) {
EDBPrint (EDB_PRINT_ADDRESS_FORMAT, (UINTN)InstructionAddress);
for (ByteIndex = 0; ByteIndex < EDB_BYTECODE_NUMBER_IN_LINE; ByteIndex++) {
EDBPrint (L"%02x ", *(UINT8 *)(UINTN)InstructionAddress);
InstructionAddress += 1;
}
EDBPrint (L"\n");
}
EDBPrint (EDB_PRINT_ADDRESS_FORMAT, (UINTN)InstructionAddress);
for (ByteIndex = 0; ByteIndex < ByteNumber; ByteIndex++) {
EDBPrint (L"%02x ", *(UINT8 *)(UINTN)InstructionAddress);
InstructionAddress += 1;
}
for (ByteIndex = 0; ByteIndex < EDB_BYTECODE_NUMBER_IN_LINE - ByteNumber; ByteIndex++) {
EDBPrint (L" ");
}
return ;
}
/**
Print the EBC asm code.
@param DebuggerPrivate - EBC Debugger private data structure
@param SystemContext - EBC system context.
@retval EFI_SUCCESS - show disasm successfully
**/
EFI_STATUS
EdbShowDisasm (
IN EFI_DEBUGGER_PRIVATE_DATA *DebuggerPrivate,
IN EFI_SYSTEM_CONTEXT SystemContext
)
{
EFI_PHYSICAL_ADDRESS InstructionAddress;
UINTN InstructionNumber;
UINTN InstructionLength;
UINT8 Opcode;
CHAR16 *InstructionString;
// UINTN Result;
InstructionAddress = DebuggerPrivate->InstructionScope;
for (InstructionNumber = 0; InstructionNumber < DebuggerPrivate->InstructionNumber; InstructionNumber++) {
//
// Break each 0x10 instruction
//
if (((InstructionNumber % EFI_DEBUGGER_LINE_NUMBER_IN_PAGE) == 0) &&
(InstructionNumber != 0)) {
if (SetPageBreak ()) {
break;
}
}
Opcode = GET_OPCODE(InstructionAddress);
if ((Opcode < OPCODE_MAX) && (mEdbDisasmInstructionTable[Opcode] != NULL)) {
InstructionLength = mEdbDisasmInstructionTable [Opcode] (InstructionAddress, SystemContext, &InstructionString);
if (InstructionLength != 0) {
//
// Print Source
//
// Result = EdbPrintSource ((UINTN)InstructionAddress, FALSE);
if (!DebuggerPrivate->DebuggerSymbolContext.DisplayCodeOnly) {
EdbPrintRaw (InstructionAddress, InstructionLength);
if (InstructionString != NULL) {
EDBPrint (L"%s\n", InstructionString);
} else {
EDBPrint (L"%s\n", L"");
}
}
EdbPrintSource ((UINTN)InstructionAddress, TRUE);
InstructionAddress += InstructionLength;
} else {
//
// Something wrong with OPCODE
//
EdbPrintRaw (InstructionAddress, EDB_BYTECODE_NUMBER_IN_LINE);
EDBPrint (L"%s\n", L"");
break;
}
} else {
//
// Something wrong with OPCODE
//
EdbPrintRaw (InstructionAddress, EDB_BYTECODE_NUMBER_IN_LINE);
EDBPrint (L"%s\n", L"");
break;
}
}
return EFI_SUCCESS;
}
/**
Get register value according to the system context, and register index.
@param SystemContext - EBC system context.
@param Index - EBC register index
@return register value
**/
UINT64
GetRegisterValue (
IN EFI_SYSTEM_CONTEXT SystemContext,
IN UINT8 Index
)
{
switch (Index) {
case 0:
return SystemContext.SystemContextEbc->R0;
case 1:
return SystemContext.SystemContextEbc->R1;
case 2:
return SystemContext.SystemContextEbc->R2;
case 3:
return SystemContext.SystemContextEbc->R3;
case 4:
return SystemContext.SystemContextEbc->R4;
case 5:
return SystemContext.SystemContextEbc->R5;
case 6:
return SystemContext.SystemContextEbc->R6;
case 7:
return SystemContext.SystemContextEbc->R7;
default:
ASSERT (FALSE);
break;
}
return 0;
}