A simple and easy to use header only library to make the life of a reverse engineer much harder.
LI_FN(OutputDebugStringA)("hello world");
LI_FN(VirtualProtect).in(LI_MODULE("kernel32.dll").cached());IDA output when compiling first line
- Does not leave any strings in memory.
- Does not allocate any memory.
- Can be easily inlined.
- Does not leave any imports in the executable.
- Produces extremely small assembly.
- Non caching functions do not leave anything in data sections.
- Hashes are randomized for each compilation to defeat basic hash database attacks.
LI_FN(function_pointer) -> lazy_functionLI_FN_DEF(function_type) -> lazy_functionLI_MODULE(module_name) -> lazy_module
safeindicates that when function cannot complete its task successfully 0 is returned instead of undefined behaviour manifesting.cachedindicates that the result is only computed during the first call and later reused.forwardedindicates that export forwarding will be correctly resolved.
| function | safe | cached | |
|---|---|---|---|
| Attempts to find the given module and returns its address | |||
get<T = void*>() -> T |
❌ | ❌ | |
safe<T = void*>() -> T |
✅ | ❌ | |
cached<T = void*>() -> T |
❌ | ✅ | |
safe_cached<T = void*>() -> T |
✅ | ✅ | |
| Attemps to find the given module using the given LDR_DATA_TABLE_ENTRY pointer | |||
in<T = void*, Ldr>(Ldr ldr_entry) -> T |
✅ | ❌ | |
in_cached<T = void*, Ldr>(Ldr ldr_entry) -> T |
✅ | ✅ | |
| function | safe | cached | forwarded |
|---|---|---|---|
| calls resolved export using given arguments | |||
operator()(...) -> result_of<F, ...> |
❌ | ❌ | ❌ |
| attempts to resolve an export in all loaded modules and returns the function address | |||
get<T = F>() -> T |
❌ | ❌ | ❌ |
safe<T = F>() -> T |
✅ | ❌ | ❌ |
cached<T = F>() -> T |
❌ | ✅ | ❌ |
safe_cached<T = F>() -> T |
✅ | ✅ | ❌ |
forwarded<T = F>() -> T |
❌ | ❌ | ✅ |
forwarded_safe<T = F>() -> T |
✅ | ❌ | ✅ |
forwarded_cached<T = F>() -> T |
❌ | ✅ | ✅ |
forwarded_safe_cached<T = F>() -> T |
✅ | ✅ | ✅ |
| attempts to resolve an export in the given module and returns the function address | |||
in<T = F, A>(A module_address) -> T |
❌ | ❌ | ❌ |
in_safe<T = F, A>(A module_address) -> T |
✅ | ❌ | ❌ |
in_cached<T = F, A>(A module_address) -> T |
❌ | ✅ | ❌ |
in_safe_cached<T = F, A>(A module_address) -> T |
✅ | ✅ | ❌ |
attempts to resolve an export in ntdll and returns the function address |
|||
nt<T = F>() -> T |
❌ | ❌ | ❌ |
nt_safe<T = F>() -> T |
✅ | ❌ | ❌ |
nt_cached<T = F>() -> T |
❌ | ✅ | ❌ |
nt_safe_cached<T = F>() -> T |
✅ | ✅ | ❌ |
#define |
effects |
|---|---|
LAZY_IMPORTER_NO_FORCEINLINE |
disables force inlining |
LAZY_IMPORTER_CASE_INSENSITIVE |
enables case insensitive comparison. Might be required for forwarded export resolution. |
LAZY_IMPORTER_CACHE_OPERATOR_PARENS |
uses cached() instead of get() in operator() of lazy_function |
LAZY_IMPORTER_RESOLVE_FORWARDED_EXPORTS |
uses forwarded() in get(). WARNING does not apply to nt() and in(). |
LAZY_IMPORTER_HARDENED_MODULE_CHECKS |
adds extra sanity checks to module enumeration. |
LAZY_IMPORTER_NO_CPP_FORWARD |
Removes dependence on <utility> c++ header. |
for ( i = *(_QWORD **)(*(_QWORD *)(__readgsqword(0x60u) + 24) + 16i64); ; i = (_QWORD *)*i )
{
v1 = i[6];
v2 = *(unsigned int *)(*(signed int *)(v1 + 60) + v1 + 136);
v3 = (_DWORD *)(v2 + v1);
if ( v2 + v1 != v1 )
{
LODWORD(v4) = v3[6];
if ( (_DWORD)v4 )
break;
}
LABEL_8:
;
}
while ( 1 )
{
v4 = (unsigned int)(v4 - 1);
v5 = -2128831035;
v6 = (char *)(v1 + *(unsigned int *)((unsigned int)v3[8] + 4 * v4 + v1));
v7 = *v6;
v8 = (signed __int64)(v6 + 1);
if ( v7 )
{
do
{
++v8;
v5 = 16777619 * (v5 ^ v7);
v7 = *(_BYTE *)(v8 - 1);
}
while ( v7 );
if ( v5 == -973690651 )
break;
}
if ( !(_DWORD)v4 )
goto LABEL_8;
}
((void (__fastcall *)(const char *))(v1
+ *(unsigned int *)(v1
+ (unsigned int)v3[7]
+ 4i64 * *(unsigned __int16 *)(v1 + (unsigned int)v3[9] + 2 * v4))))("hello world");I would like to thank people that have reached out to me and donated some money to support me and my projects
