mirror of
https://github.com/bitdefender/bddisasm.git
synced 2024-11-25 00:48:09 +00:00
767bf2e5c0
Added support for AMD RMPREAD instruction. Improved EVEX decoding, including the new U bit. Fixed ENTER & LEAVE operands.
548 lines
13 KiB
C
548 lines
13 KiB
C
/*
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* Copyright (c) 2020 Bitdefender
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* SPDX-License-Identifier: Apache-2.0
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*/
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#include "bdshemu.h"
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#include "include/bdshemu_common.h"
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#include "../bddisasm/include/bddisasm_crt.h"
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#ifndef UNREFERENCED_PARAMETER
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#define UNREFERENCED_PARAMETER(P) ((void)(P))
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#endif
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//
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// shemu_printf - simple version
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//
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#ifndef BDDISASM_NO_FORMAT
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void
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shemu_printf(
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SHEMU_CONTEXT *Context,
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char *formatstring,
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...
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)
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{
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char buff[768];
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va_list args;
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if (ND_NULL == Context->Log)
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{
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return;
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}
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nd_memzero(buff, sizeof(buff));
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va_start(args, formatstring);
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nd_vsnprintf_s(buff, sizeof(buff), sizeof(buff) - 1, formatstring, args);
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va_end(args);
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Context->Log(buff, Context->AuxData);
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}
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#else
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void
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shemu_printf(
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SHEMU_CONTEXT *Context,
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char *formatstring,
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...
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)
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{
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UNREFERENCED_PARAMETER(Context);
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UNREFERENCED_PARAMETER(formatstring);
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}
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#endif // !BDDISASM_NO_FORMAT
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//
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// shemu_memcpy
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//
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void *
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shemu_memcpy(
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void *Dest,
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const void *Source,
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ND_SIZET Size
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)
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{
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if (ND_NULL == Dest)
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{
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return ND_NULL;
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}
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if (ND_NULL == Source)
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{
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return ND_NULL;
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}
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for (ND_SIZET index = 0; index < Size; index++)
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{
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((char *)Dest)[index] = ((const char *)Source)[index];
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}
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return Dest;
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}
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//
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// ShemuHexlify
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//
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void
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ShemuHexlify(
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ND_UINT8 *Value,
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ND_UINT64 ValueSize,
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char *Hex,
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ND_UINT64 HexSize
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)
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{
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const char hexDigits[16] =
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{
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'0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'A', 'B', 'C', 'D', 'E', 'F'
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};
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nd_memzero(Hex, (ND_SIZET)HexSize);
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if (HexSize <= ValueSize * 2)
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{
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return;
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}
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// Convert instruction bytes to string.
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for (ND_UINT32 i = 0; i < ValueSize; i++)
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{
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Hex[(i * 2) + 0] = hexDigits[(Value[i] >> 4) & 0xF];
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Hex[(i * 2) + 1] = hexDigits[(Value[i] >> 0) & 0xF];
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}
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// Since we make sure HexSize is greater than twice the size of the Value, and since we always nd_memzero Hex
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// at the beginning, we are guaranteed that Hex will be properly NULL terminated.
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}
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//
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// ShemuBmpStateUpdate
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//
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void
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ShemuBmpStateUpdate(
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ND_UINT8 *Bitmap,
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ND_UINT64 Size,
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ND_UINT64 Start,
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ND_UINT64 Count,
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ND_UINT8 Flags,
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ND_BOOL Clear
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)
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//
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// Sets the indicated state inside the Bitmap.
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//
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{
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ND_UINT64 i;
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if (ND_NULL == Bitmap || Start >= Size || Count > Size || Start + Count > Size)
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{
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return;
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}
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for (i = 0; i < Count; i++)
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{
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if (!Clear)
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{
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Bitmap[Start + i] |= Flags;
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}
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else
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{
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Bitmap[Start + i] &= ~Flags;
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}
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}
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}
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//
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// ShemuBmpStateCheck
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//
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ND_BOOL
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ShemuBmpStateCheck(
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ND_UINT8 *Bitmap,
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ND_UINT64 Size,
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ND_UINT64 Start,
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ND_UINT64 Count,
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ND_UINT8 Flags
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)
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//
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// Check if any of the state bytes in the Bitmap has any of the Flags set.
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//
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// @returns ND_TRUE if any state byte contains the indicated Flags.
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//
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{
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ND_UINT64 i;
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if (ND_NULL == Bitmap || Start >= Size || Count > Size || Start + Count > Size)
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{
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return ND_FALSE;
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}
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for (i = 0; i < Count; i++)
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{
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if (Bitmap[Start + i] & Flags)
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{
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return ND_TRUE;
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}
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}
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return ND_FALSE;
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}
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//
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// ShemuIsShellcodePtr
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//
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ND_BOOL
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ShemuIsShellcodePtr(
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SHEMU_CONTEXT *Context,
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ND_UINT64 Gla,
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ND_UINT64 Size
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)
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{
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return (Gla >= Context->ShellcodeBase && Gla < Context->ShellcodeBase + Context->ShellcodeSize &&
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Gla + Size > Context->ShellcodeBase && Gla + Size <= Context->ShellcodeBase + Context->ShellcodeSize &&
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Size <= Context->ShellcodeSize);
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}
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//
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// ShemuIsStackPtr
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//
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ND_BOOL
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ShemuIsStackPtr(
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SHEMU_CONTEXT *Context,
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ND_UINT64 Gla,
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ND_UINT64 Size
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)
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{
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return (Gla >= Context->StackBase && Gla < Context->StackBase + Context->StackSize &&
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Gla + Size > Context->StackBase && Gla + Size <= Context->StackBase + Context->StackSize &&
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Size <= Context->StackSize);
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}
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//
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// ShemuIsIcachePtr
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//
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ND_BOOL
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ShemuIsIcachePtr(
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SHEMU_CONTEXT *Context,
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ND_UINT64 Gla,
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ND_UINT64 Size
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)
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{
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return (Gla >= Context->Icache.Address && Gla < Context->Icache.Address + Context->Icache.Size &&
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Gla + Size > Context->Icache.Address && Gla + Size <= Context->Icache.Address + Context->Icache.Size &&
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Size <= Context->Icache.Size);
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}
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//
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// ShemuCopyMem
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//
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void
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ShemuCopyMem(
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ND_UINT8 *Destination,
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ND_UINT8 *Source,
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ND_UINT64 Size
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)
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{
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shemu_memcpy(Destination, Source, (ND_SIZET)Size);
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}
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//
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// ShemuMemLoad
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//
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SHEMU_STATUS
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ShemuMemLoad(
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SHEMU_CONTEXT *Context,
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ND_UINT64 Gla,
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ND_UINT64 Size,
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ND_UINT8 *Value
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)
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{
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if (ShemuIsShellcodePtr(Context, Gla, Size))
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{
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// Shellcode access.
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if (0 == (Context->Options & SHEMU_OPT_DIRECT_MAPPED_SHELL))
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{
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// Shellocode is local copy, we can directly access it.
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ShemuCopyMem(Value, Context->Shellcode + (Gla - Context->ShellcodeBase), Size);
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}
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else
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{
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// Shellcode is directly mapped, we must go through the shellcode access API.
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if ((ND_NULL == Context->AccessShellcode) ||
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!Context->AccessShellcode(Context, Gla, (ND_SIZET)Size, Value, ND_FALSE))
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{
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return SHEMU_ABORT_GLA_OUTSIDE;
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}
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}
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}
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else if (ShemuIsStackPtr(Context, Gla, Size))
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{
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ShemuCopyMem(Value, Context->Stack + (Gla - Context->StackBase), Size);
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}
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else
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{
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ND_UINT32 selfOffset = 0;
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ND_BOOL res = ND_FALSE;
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// We allow a maximum number of external memory accesses, due to performance reasons.
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if (++Context->ExtMemAccess > Context->MemThreshold)
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{
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goto _check_special_access;
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}
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// NOTE: The accessed GLA may partially access an internal address (shellcode or stack) and an external address.
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// Since the AccessMemory callback can be provided with the full SHEMU_CONTEXT, the integrator can choose how
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// to handle those accesses; some options are:
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// - Don't handle them at all, and return error (ND_FALSE);
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// - Handle them by reading the actual memory value; this has the disadvantage that if the shellcode/stack
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// portion has been modified due to emulation, the AccessMemory function would return the original memory
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// value;
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// - Handle them properly, by returning the emulated values for the internal addresses, and the external
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// values for the external addresses.
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// bdshemu does not care directly about this, and lets the integrator choose his own strategy.
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if (ND_NULL != Context->AccessMemory)
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{
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res = Context->AccessMemory(Context, Gla, (ND_SIZET)Size, Value, ND_FALSE);
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}
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if (res)
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{
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return SHEMU_SUCCESS;
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}
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_check_special_access:
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if (Context->ArchType == SHEMU_ARCH_TYPE_X86)
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{
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selfOffset = Context->Arch.X86.Mode == ND_CODE_32 ? 0x18 : 0x30;
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}
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else
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{
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return SHEMU_ABORT_INVALID_PARAMETER;
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}
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// If we got here, the external memory access has not been handled.
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if (Gla == Context->TibBase + selfOffset)
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{
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// TEB.Self access.
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if (Size == 4)
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{
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*(ND_UINT32*)Value = (ND_UINT32)Context->TibBase;
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return SHEMU_SUCCESS;
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}
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else if (Size == 8)
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{
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*(ND_UINT64*)Value = (ND_UINT64)Context->TibBase;
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return SHEMU_SUCCESS;
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}
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}
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return SHEMU_ABORT_GLA_OUTSIDE;
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}
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return SHEMU_SUCCESS;
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}
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//
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// ShemuMemStore
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//
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SHEMU_STATUS
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ShemuMemStore(
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SHEMU_CONTEXT *Context,
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ND_UINT64 Gla,
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ND_UINT64 Size,
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ND_UINT8 *Value
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)
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{
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if (ShemuIsShellcodePtr(Context, Gla, Size))
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{
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// Bypass self-writes, if needed to. No need to invalidate the icache in this case.
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if (!!(Context->Options & SHEMU_OPT_BYPASS_SELF_WRITES))
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{
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return SHEMU_SUCCESS;
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}
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// Flush the instruction cache, if any stored address in it. We can do this AFTER checking
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// for SHEMU_OPT_BYPASS_SELF_WRITES - with that flag set, the shellcode will never be modified.
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if (ShemuIsIcachePtr(Context, Gla, 1) || ShemuIsIcachePtr(Context, Gla + Size - 1, 1))
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{
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ShemuFlushIcache(Context);
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}
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// Shellcode access.
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if (0 == (Context->Options & SHEMU_OPT_DIRECT_MAPPED_SHELL))
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{
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// Shellocode is local copy, we can directly access it.
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ShemuCopyMem(Context->Shellcode + (Gla - Context->ShellcodeBase), Value, Size);
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}
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else
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{
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// Shellcode is directly mapped, we must go through the memory access API. Note that the integrator
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// is free to do whatever it wants with this call - generally, it is a good idea to just discard
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// modifications. For safety, currently we force the SHEMU_OPT_BYPASS_SELF_WRITES option whenever
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// the SHEMU_OPT_DIRECT_MAPPED_SHELL option is used, to avoid problems.
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if ((ND_NULL == Context->AccessShellcode) ||
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!Context->AccessShellcode(Context, Gla, (ND_SIZET)Size, Value, ND_TRUE))
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{
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return SHEMU_ABORT_GLA_OUTSIDE;
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}
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}
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}
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else if (ShemuIsStackPtr(Context, Gla, Size))
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{
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ShemuCopyMem(Context->Stack + (Gla - Context->StackBase), Value, Size);
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}
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else
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{
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ND_BOOL res = ND_FALSE;
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// We allow a maximum number of external memory accesses, due to performance reasons.
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if (++Context->ExtMemAccess > Context->MemThreshold)
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{
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return SHEMU_ABORT_GLA_OUTSIDE;
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}
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// Handling external stores made by the shellcode can be done in a variety of ways by the integrator. Some
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// of the solutions are:
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// - Abort on external stores; this will cause the emulation to immediately stop;
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// - Discard external stores; this is very simple, and it assumes that modified memory addresses will
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// not be read later on by the shellcode;
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// - Create a store-buffer like structure, where every external store is cached; when a load is issued on
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// a previously written address, the value from the store-buffer can be returned;
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// For obvious reasons, actually storing the value at the indicated address is a very, very bad idea.
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if (ND_NULL != Context->AccessMemory)
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{
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res = Context->AccessMemory(Context, Gla, (ND_SIZET)Size, Value, ND_TRUE);
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}
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if (res)
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{
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return SHEMU_SUCCESS;
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}
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return SHEMU_ABORT_GLA_OUTSIDE;
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}
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return SHEMU_SUCCESS;
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}
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//
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// ShemuMemFetch
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//
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SHEMU_STATUS
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ShemuMemFetch(
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SHEMU_CONTEXT *Context,
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ND_UINT64 Gla,
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ND_UINT64 Size,
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ND_UINT8 *Bytes
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)
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{
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ND_UINT8 *addr;
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ND_UINT64 offset;
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if (Size > SHEMU_ICACHE_SIZE || Size == 0)
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{
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return SHEMU_ABORT_INVALID_PARAMETER;
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}
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if (!ShemuIsShellcodePtr(Context, Gla, Size))
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{
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return SHEMU_ABORT_RIP_OUTSIDE;
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}
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addr = Context->Shellcode;
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offset = Gla - Context->ShellcodeBase;
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if (0 != (Context->Options & SHEMU_OPT_DIRECT_MAPPED_SHELL))
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{
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// If the entire address is NOT inside the cache, re-fill the entire line, starting with Gla.
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if (!ShemuIsIcachePtr(Context, Gla, 1) || !ShemuIsIcachePtr(Context, Gla + Size - 1, 1))
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{
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// Re-fill the line.
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Context->Icache.Address = Gla;
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Context->Icache.Size = MIN(SHEMU_ICACHE_SIZE, Context->ShellcodeSize - offset);
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if (Context->Icache.Size < Size)
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{
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return SHEMU_ABORT_RIP_OUTSIDE;
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}
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if ((ND_NULL == Context->AccessShellcode) ||
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!Context->AccessShellcode(Context, Gla, (ND_SIZET)Context->Icache.Size, Context->Icache.Icache, ND_FALSE))
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{
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return SHEMU_ABORT_FETCH_ERROR;
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}
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}
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addr = Context->Icache.Icache;
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offset = Gla - Context->Icache.Address;
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}
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shemu_memcpy(Bytes, addr + offset, (ND_SIZET)Size);
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return SHEMU_SUCCESS;
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}
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void
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ShemuFlushIcache(
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SHEMU_CONTEXT *Context
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)
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{
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Context->Icache.Address = 0;
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Context->Icache.Size = 0;
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}
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//
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// ShemuDisplayMemValue
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//
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void
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ShemuDisplayMemValue(
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SHEMU_CONTEXT *Context,
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ND_UINT64 Gla,
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ND_UINT64 Size,
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ND_UINT8 *Value,
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ND_BOOL Load
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)
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{
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char svalue[ND_MAX_REGISTER_SIZE * 2 + 2] = { 0 };
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if (Size > ND_MAX_REGISTER_SIZE)
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{
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// Truncate the displayed value to 64 bytes.
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Size = ND_MAX_REGISTER_SIZE;
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}
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ShemuHexlify(Value, Size, svalue, sizeof(svalue));
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shemu_printf(Context, " Memory %s, address 0x%016llx, size %lld, value %s\n",
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Load ? "LOAD" : "STOR", Gla, Size, svalue);
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}
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//
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// ShemuEmulate
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//
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SHEMU_STATUS
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ShemuEmulate(
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SHEMU_CONTEXT *Context
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)
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{
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if (Context->ArchType == SHEMU_ARCH_TYPE_X86)
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{
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return ShemuX86Emulate(Context);
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}
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else
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{
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return SHEMU_ABORT_INVALID_PARAMETER;
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}
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}
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