1 #ifndef __INCLUDE_INTERNAL_NTOSKRNL_H
2 #define __INCLUDE_INTERNAL_NTOSKRNL_H
5 * Use these to place a function in a specific section of the executable
7 #define PLACE_IN_SECTION(s) __attribute__((section (s)))
9 #define INIT_FUNCTION PLACE_IN_SECTION("INIT")
10 #define PAGE_LOCKED_FUNCTION PLACE_IN_SECTION("pagelk")
11 #define PAGE_UNLOCKED_FUNCTION PLACE_IN_SECTION("pagepo")
14 #define PAGE_LOCKED_FUNCTION
15 #define PAGE_UNLOCKED_FUNCTION
21 #define KeGetCurrentThread _KeGetCurrentThread
22 #define KeGetPreviousMode _KeGetPreviousMode
24 #undef PsGetCurrentProcess
25 #define PsGetCurrentProcess _PsGetCurrentProcess
28 // We are very lazy on ARM -- we just import intrinsics
29 // Question: Why wasn't this done for x86 too? (see fastintrlck.asm)
31 #define InterlockedDecrement _InterlockedDecrement
32 #define InterlockedDecrement16 _InterlockedDecrement16
33 #define InterlockedIncrement _InterlockedIncrement
34 #define InterlockedIncrement16 _InterlockedIncrement16
35 #define InterlockedCompareExchange _InterlockedCompareExchange
36 #define InterlockedCompareExchange16 _InterlockedCompareExchange16
37 #define InterlockedCompareExchange64 _InterlockedCompareExchange64
38 #define InterlockedExchange _InterlockedExchange
39 #define InterlockedExchangeAdd _InterlockedExchangeAdd
40 #define InterlockedOr _InterlockedOr
41 #define InterlockedAnd _InterlockedAnd
63 #include "../kdbg/kdb.h"
71 #include "arch/intrin_i.h"
74 * generic information class probing code
77 #define ICIF_QUERY 0x1
79 #define ICIF_QUERY_SIZE_VARIABLE 0x4
80 #define ICIF_SET_SIZE_VARIABLE 0x8
81 #define ICIF_SIZE_VARIABLE (ICIF_QUERY_SIZE_VARIABLE | ICIF_SET_SIZE_VARIABLE)
83 typedef struct _INFORMATION_CLASS_INFO
85 ULONG RequiredSizeQUERY
;
86 ULONG RequiredSizeSET
;
90 } INFORMATION_CLASS_INFO
, *PINFORMATION_CLASS_INFO
;
92 #define ICI_SQ_SAME(Type, Alignment, Flags) \
93 { Type, Type, Alignment, Alignment, Flags }
95 #define ICI_SQ(TypeQuery, TypeSet, AlignmentQuery, AlignmentSet, Flags) \
96 { TypeQuery, TypeSet, AlignmentQuery, AlignmentSet, Flags }
101 #define IQS_SAME(Type, Alignment, Flags) \
102 { sizeof(Type), sizeof(Type), sizeof(Alignment), sizeof(Alignment), Flags }
104 #define IQS(TypeQuery, TypeSet, AlignmentQuery, AlignmentSet, Flags) \
105 { sizeof(TypeQuery), sizeof(TypeSet), sizeof(AlignmentQuery), sizeof(AlignmentSet), Flags }
108 * Use IsPointerOffset to test whether a pointer should be interpreted as an offset
111 #if defined(_X86_) || defined(_M_AMD64) || defined(_MIPS_) || defined(_PPC_) || defined(_ARM_)
113 /* for x86 and x86-64 the MSB is 1 so we can simply test on that */
114 #define IsPointerOffset(Ptr) ((LONG_PTR)(Ptr) >= 0)
116 #elif defined(_IA64_)
118 /* on Itanium if the 24 most significant bits are set, we're not dealing with
120 #define IsPointerOffset(Ptr) (((ULONG_PTR)(Ptr) & 0xFFFFFF0000000000ULL) == 0)
123 #error IsPointerOffset() needs to be defined for this architecture
128 C_ASSERT(FIELD_OFFSET(KUSER_SHARED_DATA
, SystemCall
) == 0x300);
129 C_ASSERT(FIELD_OFFSET(KTHREAD
, InitialStack
) == KTHREAD_INITIAL_STACK
);
130 C_ASSERT(FIELD_OFFSET(KTHREAD
, Teb
) == KTHREAD_TEB
);
131 C_ASSERT(FIELD_OFFSET(KTHREAD
, KernelStack
) == KTHREAD_KERNEL_STACK
);
132 C_ASSERT(FIELD_OFFSET(KTHREAD
, NpxState
) == KTHREAD_NPX_STATE
);
133 C_ASSERT(FIELD_OFFSET(KTHREAD
, ServiceTable
) == KTHREAD_SERVICE_TABLE
);
134 C_ASSERT(FIELD_OFFSET(KTHREAD
, PreviousMode
) == KTHREAD_PREVIOUS_MODE
);
135 C_ASSERT(FIELD_OFFSET(KTHREAD
, TrapFrame
) == KTHREAD_TRAP_FRAME
);
136 C_ASSERT(FIELD_OFFSET(KTHREAD
, CallbackStack
) == KTHREAD_CALLBACK_STACK
);
137 C_ASSERT(FIELD_OFFSET(KTHREAD
, ApcState
.Process
) == KTHREAD_APCSTATE_PROCESS
);
138 C_ASSERT(FIELD_OFFSET(KPROCESS
, DirectoryTableBase
) == KPROCESS_DIRECTORY_TABLE_BASE
);
139 C_ASSERT(FIELD_OFFSET(KPCR
, Tib
.ExceptionList
) == KPCR_EXCEPTION_LIST
);
141 C_ASSERT(FIELD_OFFSET(KPCR
, Self
) == KPCR_SELF
);
143 C_ASSERT(FIELD_OFFSET(KPCR
, IRR
) == KPCR_IRR
);
144 C_ASSERT(FIELD_OFFSET(KPCR
, IDR
) == KPCR_IDR
);
145 C_ASSERT(FIELD_OFFSET(KPCR
, Irql
) == KPCR_IRQL
);
146 C_ASSERT(FIELD_OFFSET(KIPCR
, PrcbData
) + FIELD_OFFSET(KPRCB
, CurrentThread
) == KPCR_CURRENT_THREAD
);
147 C_ASSERT(FIELD_OFFSET(KIPCR
, PrcbData
) + FIELD_OFFSET(KPRCB
, NextThread
) == KPCR_PRCB_NEXT_THREAD
);
148 C_ASSERT(FIELD_OFFSET(KIPCR
, PrcbData
) + FIELD_OFFSET(KPRCB
, NpxThread
) == KPCR_NPX_THREAD
);
149 C_ASSERT(FIELD_OFFSET(KIPCR
, PrcbData
) == KPCR_PRCB_DATA
);
150 C_ASSERT(FIELD_OFFSET(KIPCR
, PrcbData
) + FIELD_OFFSET(KPRCB
, KeSystemCalls
) == KPCR_SYSTEM_CALLS
);
151 C_ASSERT(FIELD_OFFSET(KIPCR
, PrcbData
) + FIELD_OFFSET(KPRCB
, DpcData
) + FIELD_OFFSET(KDPC_DATA
, DpcQueueDepth
) == KPCR_PRCB_DPC_QUEUE_DEPTH
);
152 C_ASSERT(FIELD_OFFSET(KIPCR
, PrcbData
) + FIELD_OFFSET(KPRCB
, DpcData
) + 16 == KPCR_PRCB_DPC_COUNT
);
153 C_ASSERT(FIELD_OFFSET(KIPCR
, PrcbData
) + FIELD_OFFSET(KPRCB
, DpcStack
) == KPCR_PRCB_DPC_STACK
);
154 C_ASSERT(FIELD_OFFSET(KIPCR
, PrcbData
) + FIELD_OFFSET(KPRCB
, TimerRequest
) == KPCR_PRCB_TIMER_REQUEST
);
155 C_ASSERT(FIELD_OFFSET(KIPCR
, PrcbData
) + FIELD_OFFSET(KPRCB
, MaximumDpcQueueDepth
) == KPCR_PRCB_MAXIMUM_DPC_QUEUE_DEPTH
);
156 C_ASSERT(FIELD_OFFSET(KIPCR
, PrcbData
) + FIELD_OFFSET(KPRCB
, DpcRequestRate
) == KPCR_PRCB_DPC_REQUEST_RATE
);
157 C_ASSERT(FIELD_OFFSET(KIPCR
, PrcbData
) + FIELD_OFFSET(KPRCB
, DpcInterruptRequested
) == KPCR_PRCB_DPC_INTERRUPT_REQUESTED
);
158 C_ASSERT(FIELD_OFFSET(KIPCR
, PrcbData
) + FIELD_OFFSET(KPRCB
, DpcRoutineActive
) == KPCR_PRCB_DPC_ROUTINE_ACTIVE
);
159 C_ASSERT(FIELD_OFFSET(KIPCR
, PrcbData
) + FIELD_OFFSET(KPRCB
, DpcLastCount
) == KPCR_PRCB_DPC_LAST_COUNT
);
160 C_ASSERT(FIELD_OFFSET(KIPCR
, PrcbData
) + FIELD_OFFSET(KPRCB
, TimerRequest
) == KPCR_PRCB_TIMER_REQUEST
);
161 C_ASSERT(FIELD_OFFSET(KIPCR
, PrcbData
) + FIELD_OFFSET(KPRCB
, QuantumEnd
) == KPCR_PRCB_QUANTUM_END
);
162 C_ASSERT(FIELD_OFFSET(KIPCR
, PrcbData
) + FIELD_OFFSET(KPRCB
, DeferredReadyListHead
) == KPCR_PRCB_DEFERRED_READY_LIST_HEAD
);
163 C_ASSERT(FIELD_OFFSET(KIPCR
, PrcbData
) + FIELD_OFFSET(KPRCB
, PowerState
) == KPCR_PRCB_POWER_STATE_IDLE_FUNCTION
);
164 C_ASSERT(FIELD_OFFSET(KIPCR
, PrcbData
) + FIELD_OFFSET(KPRCB
, PrcbLock
) == KPCR_PRCB_PRCB_LOCK
);
165 C_ASSERT(FIELD_OFFSET(KIPCR
, PrcbData
) + FIELD_OFFSET(KPRCB
, DpcStack
) == KPCR_PRCB_DPC_STACK
);
166 C_ASSERT(FIELD_OFFSET(KIPCR
, PrcbData
) + FIELD_OFFSET(KPRCB
, IdleSchedule
) == KPCR_PRCB_IDLE_SCHEDULE
);
167 C_ASSERT(sizeof(FX_SAVE_AREA
) == SIZEOF_FX_SAVE_AREA
);
169 /* Platform specific checks */
170 C_ASSERT(FIELD_OFFSET(KPROCESS
, IopmOffset
) == KPROCESS_IOPM_OFFSET
);
171 C_ASSERT(FIELD_OFFSET(KPROCESS
, LdtDescriptor
) == KPROCESS_LDT_DESCRIPTOR0
);
172 C_ASSERT(FIELD_OFFSET(KV86M_TRAP_FRAME
, SavedExceptionStack
) == TF_SAVED_EXCEPTION_STACK
);
173 C_ASSERT(FIELD_OFFSET(KV86M_TRAP_FRAME
, regs
) == TF_REGS
);
174 C_ASSERT(FIELD_OFFSET(KV86M_TRAP_FRAME
, orig_ebp
) == TF_ORIG_EBP
);
175 C_ASSERT(FIELD_OFFSET(KTSS
, Esp0
) == KTSS_ESP0
);
176 C_ASSERT(FIELD_OFFSET(KTSS
, IoMapBase
) == KTSS_IOMAPBASE
);
179 #endif /* INCLUDE_INTERNAL_NTOSKRNL_H */