PSKDM/nasa-mapper/util/nt.hpp

#pragma once
#include <Windows.h>
#include <winternl.h>
#pragma comment(lib, "ntdll.lib")

#if _DEBUG
#define DBG_ASSERT(...) assert(__VA_ARGS__)
#define DBG_PRINT(...) printf(__VA_ARGS__)
#else
#define DBG_ASSERT(...) assert(__VA_ARGS__)
#define DBG_PRINT(...) printf(__VA_ARGS__)
#endif

#define MM_COPY_MEMORY_PHYSICAL             0x1
#define MM_COPY_MEMORY_VIRTUAL              0x2

inline const char piddb_lock_sig[] = "\x48\x8D\x0D\x00\x00\x00\x00\xE8\x00\x00\x00\x00\x4C\x8B\x8C\x24";
inline const char piddb_lock_mask[] = "xxx????x????xxxx";

inline const char piddb_table_sig[] = "\x48\x8D\x0D\x00\x00\x00\x00\xE8\x00\x00\x00\x00\x48\x8D\x1D\x00\x00\x00\x00\x48\x85\xC0\x0F";
inline const char piddb_table_mask[] = "xxx????x????xxx????xxxx";

constexpr auto PAGE_SIZE = 0x1000;
constexpr auto STATUS_INFO_LENGTH_MISMATCH = 0xC0000004;

constexpr auto SystemModuleInformation = 11;
constexpr auto SystemHandleInformation = 16;
constexpr auto SystemExtendedHandleInformation = 64;

typedef struct PiDDBCacheEntry
{
    LIST_ENTRY		list;
    UNICODE_STRING	driver_name;
    ULONG			time_stamp;
    NTSTATUS		load_status;
    char			_0x0028[16]; // data from the shim engine, or uninitialized memory for custom drivers
}PIDCacheobj;

typedef struct _SYSTEM_HANDLE
{
	PVOID Object;
	HANDLE UniqueProcessId;
	HANDLE HandleValue;
	ULONG GrantedAccess;
	USHORT CreatorBackTraceIndex;
	USHORT ObjectTypeIndex;
	ULONG HandleAttributes;
	ULONG Reserved;
} SYSTEM_HANDLE, * PSYSTEM_HANDLE;

typedef struct _SYSTEM_HANDLE_INFORMATION_EX
{
	ULONG_PTR HandleCount;
	ULONG_PTR Reserved;
	SYSTEM_HANDLE Handles[1];
} SYSTEM_HANDLE_INFORMATION_EX, * PSYSTEM_HANDLE_INFORMATION_EX;

typedef struct _RTL_PROCESS_MODULE_INFORMATION
{
	HANDLE Section;
	PVOID MappedBase;
	PVOID ImageBase;
	ULONG ImageSize;
	ULONG Flags;
	USHORT LoadOrderIndex;
	USHORT InitOrderIndex;
	USHORT LoadCount;
	USHORT OffsetToFileName;
	UCHAR FullPathName[256];
} RTL_PROCESS_MODULE_INFORMATION, * PRTL_PROCESS_MODULE_INFORMATION;

typedef struct _RTL_PROCESS_MODULES
{
	ULONG NumberOfModules;
	RTL_PROCESS_MODULE_INFORMATION Modules[1];
} RTL_PROCESS_MODULES, * PRTL_PROCESS_MODULES;

typedef LARGE_INTEGER PHYSICAL_ADDRESS, * PPHYSICAL_ADDRESS;

typedef struct _MM_COPY_ADDRESS {
    union {
        PVOID            VirtualAddress;
        PHYSICAL_ADDRESS PhysicalAddress;
    };
} MM_COPY_ADDRESS, * PMMCOPY_ADDRESS;

typedef CCHAR KPROCESSOR_MODE;
typedef enum _MODE {
	KernelMode,
	UserMode,
	MaximumMode
} MODE;

typedef enum _POOL_TYPE {
    NonPagedPool,
    NonPagedPoolExecute,
    PagedPool,
    NonPagedPoolMustSucceed,
    DontUseThisType,
    NonPagedPoolCacheAligned,
    PagedPoolCacheAligned,
    NonPagedPoolCacheAlignedMustS,
    MaxPoolType,
    NonPagedPoolBase,
    NonPagedPoolBaseMustSucceed,
    NonPagedPoolBaseCacheAligned,
    NonPagedPoolBaseCacheAlignedMustS,
    NonPagedPoolSession,
    PagedPoolSession,
    NonPagedPoolMustSucceedSession,
    DontUseThisTypeSession,
    NonPagedPoolCacheAlignedSession,
    PagedPoolCacheAlignedSession,
    NonPagedPoolCacheAlignedMustSSession,
    NonPagedPoolNx,
    NonPagedPoolNxCacheAligned,
    NonPagedPoolSessionNx
} POOL_TYPE;

typedef enum _MEMORY_CACHING_TYPE {
    MmNonCached,
    MmCached,
    MmWriteCombined,
    MmHardwareCoherentCached,
    MmNonCachedUnordered,
    MmUSWCCached,
    MmMaximumCacheType,
    MmNotMapped
} MEMORY_CACHING_TYPE;

typedef struct _KAPC_STATE {
    LIST_ENTRY ApcListHead[MaximumMode];
    struct _KPROCESS* Process;
    union {
        UCHAR InProgressFlags;
        struct {
            BOOLEAN KernelApcInProgress : 1;
            BOOLEAN SpecialApcInProgress : 1;
        };
    };

    BOOLEAN KernelApcPending;
    union {
        BOOLEAN UserApcPendingAll;
        struct {
            BOOLEAN SpecialUserApcPending : 1;
            BOOLEAN UserApcPending : 1;
        };
    };
} KAPC_STATE, * PKAPC_STATE, * PRKAPC_STATE;

using PEPROCESS = PVOID;

using ZwOpenProcess = NTSYSAPI NTSTATUS (__fastcall*)(
	PHANDLE            ProcessHandle,
	ACCESS_MASK        DesiredAccess,
	POBJECT_ATTRIBUTES ObjectAttributes,
	CLIENT_ID*         ClientId
);

using ZwAllocateVirtualMemory = NTSTATUS(__fastcall*)(
	_In_    HANDLE    ProcessHandle,
	_Inout_ PVOID* BaseAddress,
	_In_    ULONG_PTR ZeroBits,
	_Inout_ PSIZE_T   RegionSize,
	_In_    ULONG     AllocationType,
	_In_    ULONG     Protect
);

using MmCopyVirtualMemory = NTSTATUS (__fastcall*)(
	IN PEPROCESS FromProcess,
	IN PVOID FromAddress,
	IN PEPROCESS ToProcess,
	OUT PVOID ToAddress,
	IN SIZE_T BufferSize,
	IN KPROCESSOR_MODE PreviousMode,
	OUT PSIZE_T NumberOfBytesCopied
);

using PsLookupProcessByProcessId = NTSTATUS (__fastcall*)(
	HANDLE    ProcessId,
	PEPROCESS* Process
);

using MmCopyMemory = NTSTATUS(__stdcall*)(
    PVOID, 
    MM_COPY_ADDRESS,
    SIZE_T,
    ULONG, 
    PSIZE_T
);

using MmGetVirtualForPhysical = PVOID(__fastcall*)(
    __in PHYSICAL_ADDRESS PhysicalAddress
);

using MmGetPhysicalAddress = PVOID (__fastcall*)(
    __in PVOID BaseAddress
);

using ExAllocatePool = PVOID (__fastcall*) (
    POOL_TYPE PoolType,
    SIZE_T NumberOfBytes
);

using IoAllocateMdl = PVOID(__fastcall*)(
    __drv_aliasesMem PVOID VirtualAddress,
    ULONG                  Length,
    BOOLEAN                SecondaryBuffer,
    BOOLEAN                ChargeQuota,
    PVOID                  Irp
);

using MmBuildMdlForNonPagedPool = void (__fastcall*)(
    PVOID MemoryDescriptorList
);

using MmMapLockedPagesSpecifyCache = PVOID (__fastcall*)(
    PVOID                                                                         MemoryDescriptorList,
    KPROCESSOR_MODE                                                               AccessMode,
    MEMORY_CACHING_TYPE                                                           CacheType,
    PVOID                                                                         RequestedAddress,
    ULONG                                                                         BugCheckOnFailure,
    ULONG                                                                         Priority
);

using KeUnstackDetachProcess = void (__fastcall*)(
    PRKAPC_STATE ApcState
);

using KeStackAttachProcess = void (__fastcall*)(
    PEPROCESS           PROCESS,
    PRKAPC_STATE        ApcState
);

using ExFreePool = void* (__fastcall*)(
    PVOID P
);

using ZwLockVirtualMemory = NTSTATUS (__fastcall*)(
    IN HANDLE,
    IN OUT PVOID,
    IN OUT PULONG,
    IN ULONG
);

typedef union _virt_addr_t
{
    PVOID value;
    struct
    {
        ULONG64 offset : 12;
        ULONG64 pt_index : 9;
        ULONG64 pd_index : 9;
        ULONG64 pdpt_index : 9;
        ULONG64 pml4_index : 9;
        ULONG64 reserved : 16;
    };
} virt_addr_t, *pvirt_addr_t;
static_assert(sizeof(virt_addr_t) == sizeof(PVOID), "Size mismatch, only 64-bit supported.");

typedef union _pml4e
{
    ULONG64 value;
    struct
    {
        ULONG64 present : 1;          // Must be 1, region invalid if 0.
        ULONG64 ReadWrite : 1;        // If 0, writes not allowed.
        ULONG64 user_supervisor : 1;   // If 0, user-mode accesses not allowed.
        ULONG64 PageWriteThrough : 1; // Determines the memory type used to access PDPT.
        ULONG64 page_cache : 1; // Determines the memory type used to access PDPT.
        ULONG64 accessed : 1;         // If 0, this entry has not been used for translation.
        ULONG64 Ignored1 : 1;
        ULONG64 page_size : 1;         // Must be 0 for PML4E.
        ULONG64 Ignored2 : 4;
        ULONG64 pfn : 36; // The page frame number of the PDPT of this PML4E.
        ULONG64 Reserved : 4;
        ULONG64 Ignored3 : 11;
        ULONG64 nx : 1; // If 1, instruction fetches not allowed.
    };
} pml4e, * ppml4e;
static_assert(sizeof(pml4e) == sizeof(PVOID), "Size mismatch, only 64-bit supported.");

typedef union _pdpte
{
    ULONG64 value;
    struct
    {
        ULONG64 present : 1;          // Must be 1, region invalid if 0.
        ULONG64 rw : 1;        // If 0, writes not allowed.
        ULONG64 user_supervisor : 1;   // If 0, user-mode accesses not allowed.
        ULONG64 PageWriteThrough : 1; // Determines the memory type used to access PD.
        ULONG64 page_cache : 1; // Determines the memory type used to access PD.
        ULONG64 accessed : 1;         // If 0, this entry has not been used for translation.
        ULONG64 Ignored1 : 1;
        ULONG64 page_size : 1;         // If 1, this entry maps a 1GB page.
        ULONG64 Ignored2 : 4;
        ULONG64 pfn : 36; // The page frame number of the PD of this PDPTE.
        ULONG64 Reserved : 4;
        ULONG64 Ignored3 : 11;
        ULONG64 nx : 1; // If 1, instruction fetches not allowed.
    };
} pdpte, * ppdpte;
static_assert(sizeof(pdpte) == sizeof(PVOID), "Size mismatch, only 64-bit supported.");

typedef union _pde
{
    ULONG64 value;
    struct
    {
        ULONG64 present : 1;          // Must be 1, region invalid if 0.
        ULONG64 ReadWrite : 1;        // If 0, writes not allowed.
        ULONG64 user_supervisor : 1;   // If 0, user-mode accesses not allowed.
        ULONG64 PageWriteThrough : 1; // Determines the memory type used to access PT.
        ULONG64 page_cache : 1; // Determines the memory type used to access PT.
        ULONG64 Accessed : 1;         // If 0, this entry has not been used for translation.
        ULONG64 Ignored1 : 1;
        ULONG64 page_size : 1; // If 1, this entry maps a 2MB page.
        ULONG64 Ignored2 : 4;
        ULONG64 pfn : 36; // The page frame number of the PT of this PDE.
        ULONG64 Reserved : 4;
        ULONG64 Ignored3 : 11;
        ULONG64 nx : 1; // If 1, instruction fetches not allowed.
    };
} pde, * ppde;
static_assert(sizeof(pde) == sizeof(PVOID), "Size mismatch, only 64-bit supported.");

typedef union _pte
{
    ULONG64 value;
    struct
    {
        ULONG64 present : 1;          // Must be 1, region invalid if 0.
        ULONG64 ReadWrite : 1;        // If 0, writes not allowed.
        ULONG64 user_supervisor : 1;   // If 0, user-mode accesses not allowed.
        ULONG64 PageWriteThrough : 1; // Determines the memory type used to access the memory.
        ULONG64 page_cache : 1; // Determines the memory type used to access the memory.
        ULONG64 accessed : 1;         // If 0, this entry has not been used for translation.
        ULONG64 Dirty : 1;            // If 0, the memory backing this page has not been written to.
        ULONG64 PageAccessType : 1;   // Determines the memory type used to access the memory.
        ULONG64 Global : 1;           // If 1 and the PGE bit of CR4 is set, translations are global.
        ULONG64 Ignored2 : 3;
        ULONG64 pfn : 36; // The page frame number of the backing physical page.
        ULONG64 Reserved : 4;
        ULONG64 Ignored3 : 7;
        ULONG64 ProtectionKey : 4;  // If the PKE bit of CR4 is set, determines the protection key.
        ULONG64 nx : 1; // If 1, instruction fetches not allowed.
    };
} pte, * ppte;
static_assert(sizeof(pte) == sizeof(PVOID), "Size mismatch, only 64-bit supported.");

using ExAllocatePool = PVOID(__stdcall*) (POOL_TYPE, SIZE_T);
using ExAllocatePoolWithTag = PVOID(__stdcall*)(POOL_TYPE, SIZE_T, ULONG);
using MmCopyMemory = NTSTATUS(__stdcall*)(PVOID, MM_COPY_ADDRESS, SIZE_T, ULONG, PSIZE_T);
using DRIVER_INITIALIZE = NTSTATUS(__stdcall*)(uintptr_t, size_t);
using ExAcquireResourceExclusiveLite = BOOLEAN(__stdcall*)(void*, bool);
using RtlLookupElementGenericTableAvl = PIDCacheobj * (__stdcall*) (void*, void*);
using RtlDeleteElementGenericTableAvl = bool(__stdcall*)(void*, void*);
using ExReleaseResourceLite = bool(__stdcall*)(void*);
using PsGetProcessSectionBaseAddress = void* (__fastcall*)(PEPROCESS);