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mirror of https://github.com/bitdefender/bddisasm.git synced 2024-12-22 22:18:09 +00:00

disasmtool_lix: Added the --extended parameter which shows the instructions info

This commit is contained in:
Cristian-Bogdan SIRB 2020-07-28 16:14:28 +03:00
parent 75702e9f0d
commit 2868b2afde
3 changed files with 170 additions and 150 deletions

View File

@ -56,6 +56,8 @@ typedef size_t SIZE_T;
std::string enc_mode_to_str(const uint8_t enc_mode);
std::string op_type_to_str(const ND_OPERAND_TYPE type);
std::string op_enc_to_str(const ND_OPERAND_ENCODING Encoding);
std::string ins_class_to_str(const ND_INS_CLASS cls);
std::string ins_cat_to_str(ND_INS_CATEGORY category);
std::string ins_set_to_str(ND_INS_SET ins_set);

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@ -50,6 +50,7 @@ struct options {
bool interactive;
bool comm;
bool json_output;
bool extended;
std::string in_file;
std::string hex_string;
@ -284,187 +285,155 @@ void print_instruction(const size_t rip, INSTRUX *instrux, const options &opts)
std::cout << instruxText << std::endl;
// if (Options->ExtendedInfo)
// {
// const BYTE opsize[3] = { 2, 4, 8 };
// const BYTE adsize[3] = { 2, 4, 8 };
// const BYTE veclen[3] = { 16, 32, 64 };
if (opts.extended) {
const uint8_t opsize[3] = { 2, 4, 8 };
const uint8_t adsize[3] = { 2, 4, 8 };
const uint8_t veclen[3] = { 16, 32, 64 };
// printf(" DSIZE: %2d, ASIZE: %2d, VLEN: ",
// opsize[instrux->EfOpMode] * 8, adsize[instrux->AddrMode] * 8);
printf(" DSIZE: %2d, ASIZE: %2d, VLEN: ",
opsize[instrux->EfOpMode] * 8, adsize[instrux->AddrMode] * 8);
// if (ND_HAS_VECTOR(instrux))
// {
// printf("%2d\n", veclen[instrux->VecMode] * 8);
// }
// else
// {
// printf("-\n");
// }
if (ND_HAS_VECTOR(instrux)) {
printf("%2d\n", veclen[instrux->VecMode] * 8);
} else {
printf("-\n");
}
// printf(" ISA Set: %s, Ins cat: %s, Ins class: %d, CET tracked: %s\n",
// set_to_string(instrux->IsaSet), category_to_string(instrux->Category), instrux->Instruction,
// instrux->IsCetTracked ? "yes" : "no");
printf(" ISA Set: %s, Ins cat: %s, Ins class: %d, CET tracked: %s\n",
ins_set_to_str(instrux->IsaSet).c_str(), ins_cat_to_str(instrux->Category).c_str(), instrux->Instruction,
instrux->IsCetTracked ? "yes" : "no");
// if (0 != instrux->CpuidFlag.Flag)
// {
// char *regs[4] = { "eax", "ecx", "edx", "ebx" };
if (0 != instrux->CpuidFlag.Flag) {
const char *regs[4] = { "eax", "ecx", "edx", "ebx" };
// printf(" CPUID leaf: 0x%08x", instrux->CpuidFlag.Leaf);
printf(" CPUID leaf: 0x%08x", instrux->CpuidFlag.Leaf);
// if (instrux->CpuidFlag.SubLeaf != ND_CFF_NO_SUBLEAF)
// {
// printf(", sub-leaf: 0x%08x", instrux->CpuidFlag.SubLeaf);
// }
if (instrux->CpuidFlag.SubLeaf != ND_CFF_NO_SUBLEAF)
{
printf(", sub-leaf: 0x%08x", instrux->CpuidFlag.SubLeaf);
}
// printf(", reg: %s, bit %d\n", regs[instrux->CpuidFlag.Reg], instrux->CpuidFlag.Bit);
// }
printf(", reg: %s, bit %d\n", regs[instrux->CpuidFlag.Reg], instrux->CpuidFlag.Bit);
}
// {
// DWORD fidx, all;
// char *flags[22] = { "CF", NULL, "PF", NULL, "AF", NULL, "ZF", "SF", "TF", "IF", "DF", "OF", "IOPL", NULL, "NT", NULL, "RF", "VM", "AC", "VIF", "VIP", "ID" };
printf(" FLAGS access: ");
// all = instrux->FlagsAccess.Tested.Raw | instrux->FlagsAccess.Modified.Raw | instrux->FlagsAccess.Set.Raw |
// instrux->FlagsAccess.Cleared.Raw | instrux->FlagsAccess.Undefined.Raw;
// printf(" FLAGS access: ");
uint32_t all = instrux->FlagsAccess.Tested.Raw | instrux->FlagsAccess.Modified.Raw | instrux->FlagsAccess.Set.Raw
| instrux->FlagsAccess.Cleared.Raw | instrux->FlagsAccess.Undefined.Raw;
const char *flags[22] = { "CF", nullptr, "PF", nullptr, "AF", nullptr, "ZF", "SF", "TF", "IF", "DF", "OF", "IOPL", nullptr, "NT", nullptr, "RF", "VM", "AC", "VIF", "VIP", "ID" };
// for (fidx = 0; fidx < 21; fidx++)
// {
// if (flags[fidx] != NULL)
// {
// if (0 == (all & (1ULL << fidx)))
// {
// continue;
// }
for (uint32_t fidx = 0; fidx < 21; fidx++) {
if (flags[fidx] != nullptr) {
if (0 == (all & (1ULL << fidx))) {
continue;
}
// printf("%s: ", flags[fidx]);
printf("%s: ", flags[fidx]);
// if (instrux->FlagsAccess.Tested.Raw & (1ULL << fidx))
// {
// printf("t");
// }
if (instrux->FlagsAccess.Tested.Raw & (1ULL << fidx)) {
printf("t");
}
// if (instrux->FlagsAccess.Modified.Raw & (1ULL << fidx))
// {
// printf("m");
// }
if (instrux->FlagsAccess.Modified.Raw & (1ULL << fidx)) {
printf("m");
}
// if (instrux->FlagsAccess.Set.Raw & (1ULL << fidx))
// {
// printf("1");
// }
if (instrux->FlagsAccess.Set.Raw & (1ULL << fidx)) {
printf("1");
}
// if (instrux->FlagsAccess.Cleared.Raw & (1ULL << fidx))
// {
// printf("0");
// }
if (instrux->FlagsAccess.Cleared.Raw & (1ULL << fidx)) {
printf("0");
}
// if (instrux->FlagsAccess.Undefined.Raw & (1ULL << fidx))
// {
// printf("u");
// }
if (instrux->FlagsAccess.Undefined.Raw & (1ULL << fidx)) {
printf("u");
}
// printf("; ");
// }
// }
printf("; ");
}
}
// printf("\n");
// }
printf("\n");
// printf(" Valid modes: R0: %s, R1: %s, R2: %s, R3: %s, Real: %s, V8086: %s, Prot: %s, Compat: %s, Long: %s, SMM: %s, SGX: %s, TSX: %s, VMXRoot: %s, VMXNonRoot: %s\n",
// instrux->ValidModes.Ring0 ? "yes" : "no",
// instrux->ValidModes.Ring1 ? "yes" : "no",
// instrux->ValidModes.Ring2 ? "yes" : "no",
// instrux->ValidModes.Ring3 ? "yes" : "no",
// instrux->ValidModes.Real ? "yes" : "no",
// instrux->ValidModes.V8086 ? "yes" : "no",
// instrux->ValidModes.Protected ? "yes" : "no",
// instrux->ValidModes.Compatibility ? "yes" : "no",
// instrux->ValidModes.Long ? "yes" : "no",
// instrux->ValidModes.Smm ? "yes" : "no",
// instrux->ValidModes.Sgx ? "yes" : "no",
// instrux->ValidModes.Tsx ? "yes" : "no",
// instrux->ValidModes.VmxRoot ? "yes" : "no",
// instrux->ValidModes.VmxNonRoot ? "yes" : "no"
// );
printf(" Valid modes: R0: %s, R1: %s, R2: %s, R3: %s, Real: %s, V8086: %s, Prot: %s, Compat: %s, Long: %s, SMM: %s, SGX: %s, TSX: %s, VMXRoot: %s, VMXNonRoot: %s\n",
instrux->ValidModes.Ring0 ? "yes" : "no",
instrux->ValidModes.Ring1 ? "yes" : "no",
instrux->ValidModes.Ring2 ? "yes" : "no",
instrux->ValidModes.Ring3 ? "yes" : "no",
instrux->ValidModes.Real ? "yes" : "no",
instrux->ValidModes.V8086 ? "yes" : "no",
instrux->ValidModes.Protected ? "yes" : "no",
instrux->ValidModes.Compat ? "yes" : "no",
instrux->ValidModes.Long ? "yes" : "no",
instrux->ValidModes.Smm ? "yes" : "no",
instrux->ValidModes.Sgx ? "yes" : "no",
instrux->ValidModes.Tsx ? "yes" : "no",
instrux->ValidModes.VmxRoot ? "yes" : "no",
instrux->ValidModes.VmxNonRoot ? "yes" : "no");
// for (i = 0; i < instrux->OperandsCount; i++)
// {
// printf(" Operand %d %s Type: %10s, Size: %2d, RawSize: %2d, Encoding: %s", i,
// instrux->Operands[i].Access.Read && instrux->Operands[i].Access.Write ? "RW" :
// instrux->Operands[i].Access.Write ? "-W" : instrux->Operands[i].Access.Read ? "R-" : "--",
// optype_to_string(instrux->Operands[i].Type), instrux->Operands[i].Size,
// instrux->Operands[i].RawSize, encoding_to_string(instrux->Operands[i].Encoding)
// );
for (uint8_t i = 0; i < instrux->OperandsCount; i++) {
printf(" Operand %d %s Type: %10s, Size: %2d, RawSize: %2d, Encoding: %s", i,
instrux->Operands[i].Access.Read && instrux->Operands[i].Access.Write ? "RW" :
instrux->Operands[i].Access.Write ? "-W" : instrux->Operands[i].Access.Read ? "R-" : "--",
op_type_to_str(instrux->Operands[i].Type).c_str(), instrux->Operands[i].Size,
instrux->Operands[i].RawSize, op_enc_to_str(instrux->Operands[i].Encoding).c_str());
// if (ND_OP_MEM == instrux->Operands[i].Type)
// {
// printf(", ");
if (ND_OP_MEM == instrux->Operands[i].Type) {
printf(", ");
// if (instrux->Operands[i].Info.Memory.IsAG)
// {
// printf("Address Generator, ");
// }
if (instrux->Operands[i].Info.Memory.IsAG) {
printf("Address Generator, ");
}
// if (instrux->Operands[i].Info.Memory.IsBitbase)
// {
// printf("Bitbase Addressing, ");
// }
if (instrux->Operands[i].Info.Memory.IsBitbase) {
printf("Bitbase Addressing, ");
}
// if (instrux->Operands[i].Info.Memory.IsMib)
// {
// printf("MIB Addressing, ");
// }
if (instrux->Operands[i].Info.Memory.IsMib) {
printf("MIB Addressing, ");
}
// if (instrux->Operands[i].Info.Memory.IsVsib)
// {
// printf("VSIB Addressing, ");
// }
if (instrux->Operands[i].Info.Memory.IsVsib) {
printf("VSIB Addressing, ");
}
// if (instrux->Operands[i].Info.Memory.IsStack)
// {
// printf("Stack, ");
// }
if (instrux->Operands[i].Info.Memory.IsStack) {
printf("Stack, ");
}
// if (instrux->Operands[i].Info.Memory.IsShadowStack)
// {
// printf("Shadow Stack, ");
// }
// }
if (instrux->Operands[i].Info.Memory.IsShadowStack) {
printf("Shadow Stack, ");
}
}
// if (ND_OP_REG == instrux->Operands[i].Type)
// {
// printf(", Type: %16s, Size: %2d, Reg: %d, Count: %d\n",
// regtype_to_string(instrux->Operands[i].Info.Register.Type),
// instrux->Operands[i].Info.Register.Size,
// instrux->Operands[i].Info.Register.Reg,
// instrux->Operands[i].Info.Register.Count);
// }
// else
// {
// printf("\n");
// }
if (ND_OP_REG == instrux->Operands[i].Type) {
printf(", Type: %16s, Size: %2d, Reg: %d, Count: %d",
reg_type_to_str(instrux->Operands[i].Info.Register.Type).c_str(),
instrux->Operands[i].Info.Register.Size,
instrux->Operands[i].Info.Register.Reg,
instrux->Operands[i].Info.Register.Count);
}
// if (instrux->Operands[i].Decorator.HasBroadcast)
// {
// printf(" Decorator: Broadcast %d bytes element %d times\n",
// instrux->Operands[i].Decorator.Broadcast.Size,
// instrux->Operands[i].Decorator.Broadcast.Count);
// }
printf("\n");
// if (instrux->Operands[i].Decorator.HasMask)
// {
// printf(" Decorator: Mask k%d\n", instrux->Operands[i].Decorator.Mask.Msk);
// }
if (instrux->Operands[i].Decorator.HasBroadcast) {
printf(" Decorator: Broadcast %d bytes element %d times\n",
instrux->Operands[i].Decorator.Broadcast.Size,
instrux->Operands[i].Decorator.Broadcast.Count);
}
// if (instrux->Operands[i].Decorator.HasZero)
// {
// printf(" Decorator: Zero (no merging)\n");
// }
// }
if (instrux->Operands[i].Decorator.HasMask) {
printf(" Decorator: Mask k%d\n", instrux->Operands[i].Decorator.Mask.Msk);
}
// printf("\n");
// }
if (instrux->Operands[i].Decorator.HasZero) {
printf(" Decorator: Zero (no merging)\n");
}
}
printf("\n");
}
}
@ -653,6 +622,7 @@ int main(int argc, char **argv)
parser.add_argument("-b", "--bits", "Use the arch [16, 32, 64]", false);
parser.add_argument("--verbose", "Verbose mode", false);
parser.add_argument("--json", "Output to json", false);
parser.add_argument("--extended", "Extended instruction info", false);
try {
parser.parse(argc, argv);
@ -661,7 +631,7 @@ int main(int argc, char **argv)
return 1;
}
opts.bits = parser.get<uint8_t>("bits");
opts.bits = parser.get<uint64_t>("bits");
opts.interactive = parser.get<bool>("interactive");
opts.comm = parser.get<bool>("comm");
opts.offset = _get_hex_opt(parser, "offset");
@ -675,6 +645,7 @@ int main(int argc, char **argv)
opts.dump_stats = parser.get<bool>("stats");
opts.verbose = parser.get<bool>("verbose");
opts.json_output = parser.get<bool>("json");
opts.extended = parser.get<bool>("extended");
if (opts.verbose) {
std::cout << "interactive: " << opts.interactive << std::endl;
@ -689,6 +660,7 @@ int main(int argc, char **argv)
std::cout << "stats: " << opts.dump_stats << std::endl;
std::cout << "hex: " << opts.hex_string << std::endl;
std::cout << "json: " << opts.json_output << std::endl;
std::cout << "extended: " << opts.extended << std::endl;
}
if (!_validate_and_fix_args(opts)) {

View File

@ -18,6 +18,52 @@ std::string enc_mode_to_str(const uint8_t enc_mode)
}
std::string op_enc_to_str(const ND_OPERAND_ENCODING Encoding)
{
switch (Encoding) {
case ND_OPE_NP: return "NP";
case ND_OPE_R: return "R";
case ND_OPE_M: return "M";
case ND_OPE_V: return "V";
case ND_OPE_O: return "O";
case ND_OPE_I: return "I";
case ND_OPE_D: return "D";
case ND_OPE_C: return "C";
case ND_OPE_1: return "1";
case ND_OPE_A: return "A";
case ND_OPE_L: return "L";
case ND_OPE_E: return "E";
case ND_OPE_S: return "S";
default: return "";
}
}
std::string op_type_to_str(const ND_OPERAND_TYPE type)
{
switch(type) {
case ND_OP_NOT_PRESENT:
return "not_present";
case ND_OP_REG:
return "register";
case ND_OP_MEM:
return "memory";
case ND_OP_IMM:
return "immediate";
case ND_OP_OFFS:
return "offset";
case ND_OP_ADDR:
return "address";
case ND_OP_CONST:
return "const";
case ND_OP_BANK:
return "bank";
}
return "<unknown>";
}
std::string ins_class_to_str(const ND_INS_CLASS cls)
{
switch (cls) {