windows-nt/Source/XPSP1/NT/sdktools/debuggers/ntsd64/instr.cpp

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2020-09-26 03:20:57 -05:00
//----------------------------------------------------------------------------
//
// Functions dealing with instructions, such as assembly or disassembly.
//
// Copyright (C) Microsoft Corporation, 1997-2001.
//
//----------------------------------------------------------------------------
#include "ntsdp.hpp"
static ULONG64 s_igrepSearchStartAddress = 0L;
static ULONG64 s_igrepLastPc;
static CHAR s_igrepLastPattern[256];
ULONG g_AsmOptions;
// This array must be in ASMOPT bit order.
PCSTR g_AsmOptionNames[] =
{
"verbose"
};
void ChangeAsmOptions(BOOL Set, PSTR Args)
{
ULONG Flags = 0;
PSTR Arg;
ULONG i;
for (;;)
{
//
// Parse out a single flag argument.
//
while (isspace(*Args))
{
*Args++;
}
if (*Args == 0)
{
break;
}
Arg = Args;
while (*Args && !isspace(*Args))
{
Args++;
}
if (isspace(*Args))
{
*Args++ = 0;
}
//
// Find value for argument.
//
for (i = 0; i < DIMA(g_AsmOptionNames); i++)
{
if (!_stricmp(Arg, g_AsmOptionNames[i]))
{
break;
}
}
if (i < DIMA(g_AsmOptionNames))
{
Flags |= 1 << i;
}
else
{
ErrOut("Unknown assembly option '%s'\n", Arg);
}
}
if (Set)
{
g_AsmOptions |= Flags;
}
else
{
g_AsmOptions &= ~Flags;
}
dprintf("Assembly options:");
if (g_AsmOptions == 0)
{
dprintf(" <default>\n");
}
else
{
for (i = 0; i < DIMA(g_AsmOptionNames); i++)
{
if (g_AsmOptions & (1 << i))
{
dprintf(" %s", g_AsmOptionNames[i]);
}
}
dprintf("\n");
}
}
void igrep (void)
{
ULONG64 dwNextGrepAddr;
ULONG64 dwCurrGrepAddr;
CHAR SourceLine[MAX_DISASM_LEN];
BOOL NewPc;
ULONG64 d;
PCHAR pc = g_CurCmd;
PCHAR Pattern;
PCHAR Expression;
CHAR Symbol[MAX_SYMBOL_LEN];
ULONG64 Displacement;
ADDR TempAddr;
ULONG64 dwCurrentPc;
g_Machine->GetPC(&TempAddr);
dwCurrentPc = Flat(TempAddr);
if ( s_igrepLastPc && s_igrepLastPc == dwCurrentPc )
{
NewPc = FALSE;
}
else
{
s_igrepLastPc = dwCurrentPc;
NewPc = TRUE;
}
//
// check for pattern.
//
Pattern = NULL;
Expression = NULL;
if (*pc)
{
while (*pc <= ' ')
{
pc++;
}
Pattern = pc;
while (*pc > ' ')
{
pc++;
}
//
// check for an expression
//
if (*pc != '\0')
{
*pc = '\0';
pc++;
if (*pc <= ' ')
{
while (*pc <= ' ')
{
pc++;
}
}
if (*pc)
{
Expression = pc;
}
}
}
if (Pattern)
{
for (pc = Pattern; *pc; pc++)
{
*pc = (CHAR)toupper(*pc);
}
s_igrepLastPattern[0] = '*';
strcpy(s_igrepLastPattern + 1, Pattern);
if (Pattern[0] == '*')
{
strcpy(s_igrepLastPattern, Pattern);
}
if (Pattern[strlen(Pattern)] != '*')
{
strcat(s_igrepLastPattern, "*");
}
}
if (Expression)
{
s_igrepSearchStartAddress = ExtGetExpression(Expression);
}
if (!s_igrepSearchStartAddress)
{
dprintf("Search address set to %s\n", FormatAddr64(s_igrepLastPc));
s_igrepSearchStartAddress = s_igrepLastPc;
return;
}
dwNextGrepAddr = s_igrepSearchStartAddress;
dwCurrGrepAddr = dwNextGrepAddr;
d = ExtDisasm(&dwNextGrepAddr, SourceLine, FALSE);
while (d)
{
for (pc = SourceLine; *pc; pc++)
{
*pc = (CHAR)tolower(*pc);
}
if (MatchPattern(SourceLine, s_igrepLastPattern))
{
g_LastExpressionValue = dwCurrGrepAddr;
s_igrepSearchStartAddress = dwNextGrepAddr;
GetSymbolStdCall(dwCurrGrepAddr, Symbol, sizeof(Symbol),
&Displacement, NULL);
ExtDisasm(&dwCurrGrepAddr, SourceLine, FALSE);
dprintf("%s", SourceLine);
return;
}
if (CheckUserInterrupt())
{
return;
}
dwCurrGrepAddr = dwNextGrepAddr;
d = ExtDisasm(&dwNextGrepAddr, SourceLine, FALSE);
}
}
/*** fnAssemble - interactive assembly routine
*
* Purpose:
* Function of "a <range>" command.
*
* Prompt the user with successive assembly addresses until
* a blank line is input. Assembly errors do not abort the
* function, but the prompt is output again for a retry.
* The variables g_CommandStart, g_CurCmd, and cbPrompt
* are set to make a local error context and restored on routine
* exit.
*
* Input:
* *addr - starting address for assembly
*
* Output:
* *addr - address after the last assembled instruction.
*
* Notes:
* all error processing is local, no errors are returned.
*
*************************************************************************/
void
TryAssemble(PADDR paddr)
{
char Assemble[MAX_DISASM_LEN];
//
// Set local prompt and command.
//
g_CommandStart = Assemble;
g_CurCmd = Assemble;
g_PromptLength = 9;
Assemble[0] = '\0';
while (TRUE)
{
char ch;
dprintAddr(paddr);
GetInput("", Assemble, sizeof(Assemble));
g_CurCmd = Assemble;
RemoveDelChar(g_CurCmd);
do
{
ch = *g_CurCmd++;
}
while (ch == ' ' || ch == '\t');
if (ch == '\0')
{
break;
}
g_CurCmd--;
assert(fFlat(*paddr) || fInstrPtr(*paddr));
g_Machine->Assemble(paddr, g_CurCmd);
}
}
void
fnAssemble(PADDR paddr)
{
//
// Save present prompt and command.
//
PSTR StartSave = g_CommandStart; // saved start of cmd buffer
PSTR CommandSave = g_CurCmd; // current ptr in cmd buffer
ULONG PromptSave = g_PromptLength; // size of prompt string
BOOL Done = FALSE;
while (!Done)
{
__try
{
TryAssemble(paddr);
// If assembly returned normally we're done.
Done = TRUE;
}
__except(CommandExceptionFilter(GetExceptionInformation()))
{
// If illegal input was encountered keep looping.
}
}
//
// Restore entry prompt and command.
//
g_CommandStart = StartSave;
g_CurCmd = CommandSave;
g_PromptLength = PromptSave;
}
/*** fnUnassemble - disassembly of an address range
*
* Purpose:
* Function of "u<range>" command.
*
* Output the disassembly of the instruction in the given
* address range. Since some processors have variable
* instruction lengths, use fLength value to determine if
* instruction count or inclusive range should be used.
*
* Input:
* *addr - pointer to starting address to disassemble
* value - if fLength = TRUE, count of instructions to output
* if fLength = FALSE, ending address of inclusive range
*
* Output:
* *addr - address after last instruction disassembled
*
* Exceptions:
* error exit: MEMORY - memory access error
*
* Notes:
*
*************************************************************************/
void
fnUnassemble (
PADDR Addr,
ULONG64 Value,
BOOL Length
)
{
if (!IS_MACHINE_ACCESSIBLE())
{
error(BADTHREAD);
}
CHAR Buffer[MAX_DISASM_LEN];
BOOL Status;
ADDR EndAddr;
ULONG SymAddrFlags = SYMADDR_FORCE | SYMADDR_LABEL | SYMADDR_SOURCE;
Flat(EndAddr) = Value;
while ((Length && Value--) || (!Length && AddrLt(*Addr, EndAddr)))
{
OutputSymAddr(Flat(*Addr), SymAddrFlags);
Status = g_Machine->Disassemble(Addr, Buffer, FALSE);
dprintf("%s", Buffer);
if (!Status)
{
error(MEMORY);
}
SymAddrFlags &= ~SYMADDR_FORCE;
if (CheckUserInterrupt())
{
return;
}
}
}