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Kernel-Tests.cpp
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#include "pch.h"
#include "CtlTypes.h"
#include "User-Bridge.h"
#include "Kernel-Tests.h"
#include <intrin.h>
bool BeeperTest::RunTest() {
using namespace IO::Beeper;
KbSetBeeperRegime();
KbSetBeeperFrequency(1000);
KbStartBeeper();
Sleep(500);
KbStopBeeper();
return true;
}
bool IoplTest::RunTest() {
using namespace IO::Iopl;
bool Status = false;
BOOL RaisingStatus = KbRaiseIopl();
if (!RaisingStatus) return false;
__try {
__outbyte(0x43, 0xB6); // Set beeper regime
Status = true;
} __except (EXCEPTION_EXECUTE_HANDLER) {
Status = false;
}
return KbResetIopl();
}
bool VirtualMemoryTest::RunTest() {
using namespace VirtualMemory;
constexpr int Size = 1048576;
WdkTypes::PVOID Address;
BOOL Status = KbAllocKernelMemory(Size, TRUE, &Address);
if (!Status) Log(L"KbAllocKernelMemory == FALSE");
if (!Address) {
Log(L"Address == NULL");
return FALSE;
}
bool TestStatus = false;
PVOID UserMemory = NULL;
__try {
UserMemory = VirtualAlloc(NULL, Size, MEM_RESERVE | MEM_COMMIT, PAGE_EXECUTE_READWRITE);
Status = KbFillMemory(reinterpret_cast<WdkTypes::PVOID>(UserMemory), 0x90, Size);
if (!Status) Log(L"KbFillMemory == FALSE");
Status = KbCopyMoveMemory(Address, reinterpret_cast<WdkTypes::PVOID>(UserMemory), Size, FALSE);
if (!Status) Log(L"KbCopyMoveMemory == FALSE");
BOOLEAN Equals = FALSE;
Status = KbEqualMemory(reinterpret_cast<WdkTypes::PVOID>(UserMemory), Address, Size, &Equals);
if (!Status) Log(L"KbEqualMemory == FALSE");
TestStatus = KbFreeKernelMemory(Address);
if (!TestStatus) Log(L"KbFreeKernelMemory == FALSE");
} __except (EXCEPTION_EXECUTE_HANDLER) {
TestStatus = false;
}
if (UserMemory) VirtualFree(UserMemory, 0, MEM_RELEASE);
return TestStatus;
}
bool MdlTest::RunTest() {
using namespace Mdl;
constexpr int Size = 1048576;
PVOID Buffer = VirtualAlloc(NULL, Size, MEM_RESERVE | MEM_COMMIT, PAGE_EXECUTE_READWRITE);
bool TestStatus = false;
Mdl::MAPPING_INFO MappingInfo = {};
BOOL Status = KbMapMemory(&MappingInfo, 0, 0, reinterpret_cast<WdkTypes::PVOID>(Buffer), Size);
if (!Status) Log(L"KbMapMemory == FALSE");
if (!Status || !MappingInfo.MappedAddress || !MappingInfo.Mdl) {
VirtualFree(Buffer, 0, MEM_RELEASE);
return false;
}
PVOID Mapped = reinterpret_cast<PVOID>(MappingInfo.MappedAddress);
BOOL Equals = FALSE;
__try {
FillMemory(Mapped, Size, 0xC6);
Equals = !memcmp(Buffer, Mapped, Size);
} __except (EXCEPTION_EXECUTE_HANDLER) {
Log(L"Filling and comparing failure!");
Equals = FALSE;
}
if (!KbUnmapMemory(&MappingInfo)) Log(L"KbUnmapMemory == FALSE");
VirtualFree(Buffer, 0, MEM_RELEASE);
return Equals;
}
bool PhysicalMemoryTest::RunTest() {
using namespace PhysicalMemory;
using namespace Mdl;
UINT64 Value = 0x1EE7C0DEC0FFEE;
VirtualLock(&Value, sizeof(Value));
bool TestStatus = false;
__try {
WdkTypes::PVOID PhysicalAddress = NULL;
BOOL Status = KbGetPhysicalAddress(NULL, reinterpret_cast<WdkTypes::PVOID>(&Value), &PhysicalAddress);
if (!Status) Log(L"KbGetPhysicalAddress == FALSE");
if (!PhysicalAddress) {
VirtualUnlock(&Value, sizeof(Value));
return FALSE;
}
WdkTypes::PVOID VirtualAddress = NULL;
Status = KbMapPhysicalMemory(PhysicalAddress, sizeof(Value), &VirtualAddress);
if (!Status) Log(L"KbMapPhysicalMemory == FALSE");
Mdl::MAPPING_INFO MappingInfo = {};
KbMapMemory(&MappingInfo, 0, 0, VirtualAddress, sizeof(Value));
PUINT64 Mapping = reinterpret_cast<PUINT64>(MappingInfo.MappedAddress);
if (*Mapping != Value) {
Log(L"*Mapping != Value");
VirtualUnlock(&Value, sizeof(Value));
return FALSE;
}
*Mapping = 0xC0FFEE;
if (Value != 0xC0FFEE) Log(L"Value != 0xC0FFEE");
KbUnmapMemory(&MappingInfo);
UINT64 Buffer = 0;
Status = KbReadPhysicalMemory(PhysicalAddress, &Buffer, sizeof(Buffer));
if (!Status) Log(L"KbReadPhysicalMemory == FALSE");
if (Buffer != Value) Log(L"Buffer != Value");
Buffer = 0x900DDA7E;
Status = KbWritePhysicalMemory(PhysicalAddress, &Buffer, sizeof(Buffer));
if (!Status) Log(L"KbWritePhysicalMemory == FALSE");
if (Value != Buffer) Log(L"Value != Buffer 0x900DDA7E");
TestStatus = true;
} __except (EXCEPTION_EXECUTE_HANDLER) {
Log(L"Something goes wrong");
}
VirtualUnlock(&Value, sizeof(Value));
return TestStatus;
}
bool ProcessesTest::RunTest() {
using namespace Processes;
using namespace Descriptors;
using namespace Threads;
using namespace MemoryManagement;
BOOL TestStatus = true;
ULONG ProcessId = GetCurrentProcessId();
ULONG ThreadId = GetCurrentThreadId();
BOOL Status = FALSE;
WdkTypes::PEPROCESS Process = NULL;
TestStatus &= Status = KbGetEprocess(ProcessId, &Process);
if (!Process) Log(L"Process == NULL");
WdkTypes::PETHREAD Thread = NULL;
TestStatus &= Status = KbGetEthread(ThreadId, &Thread);
if (!Process) Log(L"Thread == NULL");
KbDereferenceObject(Process);
KbDereferenceObject(Thread);
WdkTypes::HANDLE hProcess = NULL;
TestStatus &= Status = KbOpenProcess(ProcessId, &hProcess);
if (!Status) Log(L"KbOpenProcess == FALSE");
KbCloseHandle(hProcess);
constexpr int Size = 1048576;
WdkTypes::PVOID Buffer = NULL;
TestStatus &= Status = KbAllocUserMemory(ProcessId, PAGE_READWRITE, Size, &Buffer);
if (!Status) Log(L"KbAllocUserMemory == FALSE");
if (Status) {
PVOID uBuffer = reinterpret_cast<PVOID>(Buffer);
FillMemory(uBuffer, Size, 0x90);
UINT64 Data = 0;
TestStatus &= Status = KbReadProcessMemory(ProcessId, Buffer, &Data, sizeof(Data));
if (!Status) Log(L"KbReadProcessMemory == FALSE");
if (Data != 0x9090909090909090) Log(L"Data != 0x9090909090909090");
Data = 0x1122334455667788;
TestStatus &= Status = KbWriteProcessMemory(ProcessId, Buffer, &Data, sizeof(Data));
if (!Status) Log(L"KbWriteProcessMemory == FALSE");
Data = 0;
TestStatus &= Status = KbReadProcessMemory(ProcessId, Buffer, &Data, sizeof(Data));
if (!Status) Log(L"KbReadProcessMemory == FALSE");
if (Data != 0x1122334455667788) Log(L"Data != 0x1122334455667788");
TestStatus &= Status = KbFreeUserMemory(ProcessId, Buffer);
if (!Status) Log(L"KbFreeUserMemory == FALSE");
}
return static_cast<bool>(TestStatus);
}