Source code of Windows XP (NT5)
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750 lines
15 KiB

/*++
Copyright (c) 1989 Microsoft Corporation
Module Name:
psp.h
Abstract:
Private Interfaces for process structure.
Author:
Mark Lucovsky (markl) 20-Apr-1989
Revision History:
--*/
#ifndef _PSP_
#define _PSP_
#pragma warning(disable:4054) // Cast of function pointer to PVOID
#pragma warning(disable:4055) // Cast of function pointer
#pragma warning(disable:4115) // named type definition in parentheses
#pragma warning(disable:4127) // condition expression is constant
#pragma warning(disable:4152) // Casting function pointers
#pragma warning(disable:4201) // nameless struct/union
#pragma warning(disable:4214) // bit field types other than int
#pragma warning(disable:4324) // alignment sensitive to declspec
#pragma warning(disable:4327) // alignment on assignment
#pragma warning(disable:4328) // alignment on assignment
#include "ntos.h"
#include "ntrtl.h"
#include "nturtl.h"
#include "zwapi.h"
#include "ki.h"
#if defined(_X86_)
#include <vdmntos.h>
#endif
#define NOEXTAPI
#include "wdbgexts.h"
#include "ntdbg.h"
#include <string.h>
#if defined(_WIN64)
#include <wow64t.h>
#endif
#ifdef POOL_TAGGING
#define ExAllocatePool(a,b) ExAllocatePoolWithTag(a,b,' sP')
#define ExAllocatePoolWithQuota(a,b) ExAllocatePoolWithQuotaTag(a,b,' sP')
#endif
//
// Working Set Watcher is 8kb. This lets us watch about 4mb of working
// set.
//
#define WS_CATCH_SIZE 8192
#define WS_OVERHEAD 16
#define MAX_WS_CATCH_INDEX (((WS_CATCH_SIZE-WS_OVERHEAD)/sizeof(PROCESS_WS_WATCH_INFORMATION)) - 2)
//
// Process Quota Charges:
//
// PagedPool
// Directory Base Page - PAGE_SIZE
//
// NonPaged
// Object Body - sizeof(EPROCESS)
//
#define PSP_PROCESS_PAGED_CHARGE (PAGE_SIZE)
#define PSP_PROCESS_NONPAGED_CHARGE (sizeof(EPROCESS))
//
// Thread Quota Charges:
//
// PagedPool
// Kernel Stack - 0
//
// NonPaged
// Object Body - sizeof(ETHREAD)
//
#define PSP_THREAD_PAGED_CHARGE (0)
#define PSP_THREAD_NONPAGED_CHARGE (sizeof(ETHREAD))
typedef struct _GETSETCONTEXT {
KAPC Apc;
KPROCESSOR_MODE Mode;
KEVENT OperationComplete;
CONTEXT Context;
KNONVOLATILE_CONTEXT_POINTERS NonVolatileContext;
} GETSETCONTEXT, *PGETSETCONTEXT;
typedef struct _SYSTEM_DLL {
PVOID Section;
PVOID DllBase;
PKNORMAL_ROUTINE LoaderInitRoutine;
} SYSTEM_DLL, PSYSTEM_DLL;
typedef struct _JOB_WORKING_SET_CHANGE_HEAD {
LIST_ENTRY Links;
FAST_MUTEX Lock;
SIZE_T MinimumWorkingSetSize;
SIZE_T MaximumWorkingSetSize;
} JOB_WORKING_SET_CHANGE_HEAD, *PJOB_WORKING_SET_CHANGE_HEAD;
typedef struct _JOB_WORKING_SET_CHANGE_RECORD {
LIST_ENTRY Links;
PEPROCESS Process;
} JOB_WORKING_SET_CHANGE_RECORD, *PJOB_WORKING_SET_CHANGE_RECORD;
JOB_WORKING_SET_CHANGE_HEAD PspWorkingSetChangeHead;
//
// Private Entry Points
//
VOID
PspProcessDump(
IN PVOID Object,
IN POB_DUMP_CONTROL Control OPTIONAL
);
VOID
PspProcessDelete(
IN PVOID Object
);
VOID
PspThreadDump(
IN PVOID Object,
IN POB_DUMP_CONTROL Control OPTIONAL
);
VOID
PspInheritQuota(
IN PEPROCESS NewProcess,
IN PEPROCESS ParentProcess
);
VOID
PspDereferenceQuota(
IN PEPROCESS Process
);
VOID
PspThreadDelete(
IN PVOID Object
);
//
// Initialization and loader entrypoints
//
BOOLEAN
PspInitPhase0 (
IN PLOADER_PARAMETER_BLOCK LoaderBlock
);
BOOLEAN
PspInitPhase1 (
IN PLOADER_PARAMETER_BLOCK LoaderBlock
);
NTSTATUS
PspInitializeSystemDll( VOID );
NTSTATUS
PspLookupSystemDllEntryPoint(
IN PSZ EntryPointName,
OUT PVOID *EntryPointAddress
);
NTSTATUS
PspLookupKernelUserEntryPoints(
VOID
);
USHORT
PspNameToOrdinal(
IN PSZ EntryPointName,
IN ULONG DllBase,
IN ULONG NumberOfNames,
IN PULONG NameTableBase,
IN PUSHORT OrdinalTableBase
);
NTSTATUS
PspMapSystemDll(
IN PEPROCESS Process,
OUT PVOID *DllBase OPTIONAL
);
//
// Internal Creation Functions
//
NTSTATUS
PspCreateProcess(
OUT PHANDLE ProcessHandle,
IN ACCESS_MASK DesiredAccess,
IN POBJECT_ATTRIBUTES ObjectAttributes OPTIONAL,
IN HANDLE ParentProcess OPTIONAL,
IN ULONG Flags,
IN HANDLE SectionHandle OPTIONAL,
IN HANDLE DebugPort OPTIONAL,
IN HANDLE ExceptionPort OPTIONAL,
IN ULONG JobMemberLevel
);
#define PSP_MAX_CREATE_PROCESS_NOTIFY 8
//
// Define process callouts. These are of type PCREATE_PROCESS_NOTIFY_ROUTINE
// Called on process create and delete.
//
ULONG PspCreateProcessNotifyRoutineCount;
EX_CALLBACK PspCreateProcessNotifyRoutine[PSP_MAX_CREATE_PROCESS_NOTIFY];
#define PSP_MAX_CREATE_THREAD_NOTIFY 8
//
// Define thread callouts. These are of type PCREATE_THREAD_NOTIFY_ROUTINE
// Called on thread create and delete.
//
ULONG PspCreateThreadNotifyRoutineCount;
EX_CALLBACK PspCreateThreadNotifyRoutine[PSP_MAX_CREATE_THREAD_NOTIFY];
#define PSP_MAX_LOAD_IMAGE_NOTIFY 8
//
// Define image load callbacks. These are of type PLOAD_IMAGE_NOTIFY_ROUTINE
// Called on image load.
//
ULONG PspLoadImageNotifyRoutineCount;
EX_CALLBACK PspLoadImageNotifyRoutine[PSP_MAX_LOAD_IMAGE_NOTIFY];
NTSTATUS
PspCreateThread(
OUT PHANDLE ThreadHandle,
IN ACCESS_MASK DesiredAccess,
IN POBJECT_ATTRIBUTES ObjectAttributes OPTIONAL,
IN HANDLE ProcessHandle,
IN PEPROCESS ProcessPointer,
OUT PCLIENT_ID ClientId OPTIONAL,
IN PCONTEXT ThreadContext OPTIONAL,
IN PINITIAL_TEB InitialTeb OPTIONAL,
IN BOOLEAN CreateSuspended,
IN PKSTART_ROUTINE StartRoutine OPTIONAL,
IN PVOID StartContext
);
//
// Startup Routines
//
VOID
PspUserThreadStartup(
IN PKSTART_ROUTINE StartRoutine,
IN PVOID StartContext
);
VOID
PspSystemThreadStartup(
IN PKSTART_ROUTINE StartRoutine,
IN PVOID StartContext
);
VOID
PspReaper(
IN PVOID StartContext
);
VOID
PspNullSpecialApc(
IN PKAPC Apc,
IN OUT PKNORMAL_ROUTINE *NormalRoutine,
IN OUT PVOID *NormalContext,
IN OUT PVOID *SystemArgument1,
IN OUT PVOID *SystemArgument2
);
//
// Thread Exit Support
//
VOID
PspExitApcRundown(
IN PKAPC Apc
);
DECLSPEC_NORETURN
VOID
PspExitThread(
IN NTSTATUS ExitStatus
);
NTSTATUS
PspTerminateThreadByPointer(
IN PETHREAD Thread,
IN NTSTATUS ExitStatus
);
VOID
PspExitSpecialApc(
IN PKAPC Apc,
IN OUT PKNORMAL_ROUTINE *NormalRoutine,
IN OUT PVOID *NormalContext,
IN OUT PVOID *SystemArgument1,
IN OUT PVOID *SystemArgument2
);
VOID
PspExitProcess(
IN BOOLEAN TrimAddressSpace,
IN PEPROCESS Process
);
NTSTATUS
PspWaitForUsermodeExit(
IN PEPROCESS Process
);
//
// Context Management
//
VOID
PspSetContext(
OUT PKTRAP_FRAME TrapFrame,
OUT PKNONVOLATILE_CONTEXT_POINTERS NonVolatileContext,
IN PCONTEXT Context,
KPROCESSOR_MODE Mode
);
VOID
PspGetContext(
IN PKTRAP_FRAME TrapFrame,
IN PKNONVOLATILE_CONTEXT_POINTERS NonVolatileContext,
IN OUT PCONTEXT Context
);
VOID
PspGetSetContextSpecialApc(
IN PKAPC Apc,
IN OUT PKNORMAL_ROUTINE *NormalRoutine,
IN OUT PVOID *NormalContext,
IN OUT PVOID *SystemArgument1,
IN OUT PVOID *SystemArgument2
);
VOID
PspExitNormalApc(
IN PVOID NormalContext,
IN PVOID SystemArgument1,
IN PVOID SystemArgument2
);
//
// private security routines
//
NTSTATUS
PspInitializeProcessSecurity(
IN PEPROCESS Parent OPTIONAL,
IN PEPROCESS Child
);
VOID
PspDeleteProcessSecurity(
IN PEPROCESS Process
);
VOID
PspInitializeThreadSecurity(
IN PEPROCESS Process,
IN PETHREAD Thread
);
VOID
PspDeleteThreadSecurity(
IN PETHREAD Thread
);
NTSTATUS
PspAssignPrimaryToken(
IN PEPROCESS Process,
IN HANDLE Token OPTIONAL,
IN PACCESS_TOKEN TokenPointer OPTIONAL
);
NTSTATUS
PspSetPrimaryToken(
IN HANDLE ProcessHandle,
IN PEPROCESS ProcessPointer OPTIONAL,
IN HANDLE TokenHandle OPTIONAL,
IN PACCESS_TOKEN TokenPointer OPTIONAL,
IN BOOLEAN PrivilegeChecked
);
//
// Ldt support routines
//
#if defined(i386)
NTSTATUS
PspLdtInitialize(
);
#endif
//
// Vdm support Routines
#if defined(i386)
NTSTATUS
PspVdmInitialize(
);
#endif
NTSTATUS
PspQueryLdtInformation(
IN PEPROCESS Process,
OUT PVOID LdtInformation,
IN ULONG LdtInformationLength,
OUT PULONG ReturnLength
);
NTSTATUS
PspSetLdtInformation(
IN PEPROCESS Process,
IN PVOID LdtInformation,
IN ULONG LdtInformationLength
);
NTSTATUS
PspSetLdtSize(
IN PEPROCESS Process,
IN PVOID LdtSize,
IN ULONG LdtSizeLength
);
VOID
PspDeleteLdt(
IN PEPROCESS Process
);
//
// Io handling support routines
//
NTSTATUS
PspSetProcessIoHandlers(
IN PEPROCESS Process,
IN PVOID IoHandlerInformation,
IN ULONG IoHandlerLength
);
VOID
PspDeleteVdmObjects(
IN PEPROCESS Process
);
NTSTATUS
PspQueryDescriptorThread (
PETHREAD Thread,
PVOID ThreadInformation,
ULONG ThreadInformationLength,
PULONG ReturnLength
);
//
// Job Object Support Routines
//
VOID
PspInitializeJobStructures(
);
VOID
PspInitializeJobStructuresPhase1(
);
VOID
PspJobTimeLimitsWork(
IN PVOID Context
);
VOID
PspJobTimeLimitsDpcRoutine(
IN PKDPC Dpc,
IN PVOID DeferredContext,
IN PVOID SystemArgument1,
IN PVOID SystemArgument2
);
VOID
PspJobDelete(
IN PVOID Object
);
VOID
PspJobClose (
IN PEPROCESS Process,
IN PVOID Object,
IN ACCESS_MASK GrantedAccess,
IN ULONG ProcessHandleCount,
IN ULONG SystemHandleCount
);
NTSTATUS
PspAddProcessToJob(
PEJOB Job,
PEPROCESS Process
);
VOID
PspRemoveProcessFromJob(
PEJOB Job,
PEPROCESS Process
);
VOID
PspExitProcessFromJob(
PEJOB Job,
PEPROCESS Process
);
VOID
PspApplyJobLimitsToProcessSet(
PEJOB Job
);
VOID
PspApplyJobLimitsToProcess(
PEJOB Job,
PEPROCESS Process
);
BOOLEAN
PspTerminateAllProcessesInJob(
PEJOB Job,
NTSTATUS Status,
BOOLEAN IncCounter
);
VOID
PspFoldProcessAccountingIntoJob(
PEJOB Job,
PEPROCESS Process
);
NTSTATUS
PspCaptureTokenFilter(
KPROCESSOR_MODE PreviousMode,
PJOBOBJECT_SECURITY_LIMIT_INFORMATION SecurityLimitInfo,
PPS_JOB_TOKEN_FILTER * TokenFilter
);
VOID
PspShutdownJobLimits(
VOID
);
NTSTATUS
PspTerminateProcess(
PEPROCESS Process,
NTSTATUS Status
);
NTSTATUS
PspGetJobFromSet (
IN PEJOB ParentJob,
IN ULONG JobMemberLevel,
OUT PEJOB *pJob);
NTSTATUS
PspWin32SessionCallout(
IN PKWIN32_JOB_CALLOUT CalloutRoutine,
IN PKWIN32_JOBCALLOUT_PARAMETERS Parameters,
IN ULONG SessionId
);
//
// This test routine is called on checked systems to test this path
//
VOID
PspImageNotifyTest(
IN PUNICODE_STRING FullImageName,
IN HANDLE ProcessId,
IN PIMAGE_INFO ImageInfo
);
PEPROCESS
PspGetNextJobProcess (
IN PEJOB Job,
IN PEPROCESS Process
);
VOID
PspQuitNextJobProcess (
IN PEPROCESS Process
);
VOID
PspInsertQuotaBlock (
IN PEPROCESS_QUOTA_BLOCK QuotaBlock
);
#define PspInitializeProcessLock(xProcess) { \
ExInitializePushLock (&xProcess->ProcessLock); \
}
#define PspLockProcessExclusive(xProcess,xCurrentThread) { \
KeEnterCriticalRegionThread (&(xCurrentThread)->Tcb); \
ExAcquirePushLockExclusive (&xProcess->ProcessLock); \
}
#define PspLockProcessShared(xProcess,xCurrentThread) { \
KeEnterCriticalRegionThread (&(xCurrentThread)->Tcb); \
ExAcquirePushLockShared (&xProcess->ProcessLock); \
}
#define PspUnlockProcessShared(xProcess,xCurrentThread) { \
ExReleasePushLockShared (&xProcess->ProcessLock); \
KeLeaveCriticalRegionThread (&(xCurrentThread)->Tcb); \
}
#define PspUnlockProcessExclusive(xProcess,xCurrentThread) { \
ExReleasePushLockExclusive (&xProcess->ProcessLock); \
KeLeaveCriticalRegionThread (&(xCurrentThread)->Tcb); \
}
//
// Define macros to lock the security fields of the process and thread
//
#define PspLockProcessSecurityExclusive(xProcess,xCurrentThread) \
PspLockProcessExclusive (xProcess, xCurrentThread)
#define PspLockProcessSecurityShared(xProcess,xCurrentThread) \
PspLockProcessShared (xProcess, xCurrentThread)
#define PspUnlockProcessSecurityShared(xProcess,xCurrentThread) \
PspUnlockProcessShared (xProcess, xCurrentThread)
#define PspUnlockProcessSecurityExclusive(xProcess,xCurrentThread) \
PspUnlockProcessExclusive (xProcess, xCurrentThread)
#define PspInitializeThreadLock(xThread) { \
ExInitializePushLock (&xThread->ThreadLock); \
}
#define PspLockThreadSecurityExclusive(xThread,xCurrentThread) { \
KeEnterCriticalRegionThread (&(xCurrentThread)->Tcb); \
ExAcquirePushLockExclusive (&xThread->ThreadLock); \
}
#define PspLockThreadSecurityShared(xThread,xCurrentThread) { \
KeEnterCriticalRegionThread (&(xCurrentThread)->Tcb); \
ExAcquirePushLockShared (&xThread->ThreadLock); \
}
#define PspLockThreadSecurityExclusive(xThread,xCurrentThread) { \
KeEnterCriticalRegionThread (&(xCurrentThread)->Tcb); \
ExAcquirePushLockExclusive (&xThread->ThreadLock); \
}
#define PspUnlockThreadSecurityShared(xThread,xCurrentThread) { \
ExReleasePushLockShared (&xThread->ThreadLock); \
KeLeaveCriticalRegionThread (&(xCurrentThread)->Tcb); \
}
#define PspUnlockThreadSecurityExclusive(xThread,xCurrentThread) { \
ExReleasePushLockExclusive (&xThread->ThreadLock); \
KeLeaveCriticalRegionThread (&(xCurrentThread)->Tcb); \
}
//
// Define macros to lock the global process list
//
#define PspLockProcessList(xCurrentThread) { \
KeEnterCriticalRegionThread (&(xCurrentThread)->Tcb); \
ExAcquireFastMutexUnsafe (&PspActiveProcessMutex); \
}
#define PspUnlockProcessList(xCurrentThread) { \
ExReleaseFastMutexUnsafe (&PspActiveProcessMutex); \
KeLeaveCriticalRegionThread (&(xCurrentThread)->Tcb); \
}
//
//
// Global Data
//
extern PHANDLE_TABLE PspCidTable;
extern HANDLE PspInitialSystemProcessHandle;
extern PACCESS_TOKEN PspBootAccessToken;
extern KSPIN_LOCK PspEventPairLock;
extern SYSTEM_DLL PspSystemDll;
extern FAST_MUTEX PspActiveProcessMutex;
extern PETHREAD PspShutdownThread;
extern ULONG PspDefaultPagedLimit;
extern ULONG PspDefaultNonPagedLimit;
extern ULONG PspDefaultPagefileLimit;
extern ULONG PsMinimumWorkingSet;
extern EPROCESS_QUOTA_BLOCK PspDefaultQuotaBlock;
extern BOOLEAN PspDoingGiveBacks;
extern PKWIN32_PROCESS_CALLOUT PspW32ProcessCallout;
extern PKWIN32_THREAD_CALLOUT PspW32ThreadCallout;
extern PKWIN32_JOB_CALLOUT PspW32JobCallout;
extern ULONG PspW32ProcessSize;
extern ULONG PspW32ThreadSize;
extern SCHAR PspForegroundQuantum[3];
#define PSP_NUMBER_OF_SCHEDULING_CLASSES 10
#define PSP_DEFAULT_SCHEDULING_CLASSES 5
extern const SCHAR PspJobSchedulingClasses[PSP_NUMBER_OF_SCHEDULING_CLASSES];
extern BOOLEAN PspUseJobSchedulingClasses;
extern FAST_MUTEX PspJobListLock;
extern LIST_ENTRY PspJobList;
extern KDPC PspJobLimeLimitsDpc;
extern KTIMER PspJobTimeLimitsTimer;
extern WORK_QUEUE_ITEM PspJobTimeLimitsWorkItem;
extern KSPIN_LOCK PspQuotaLock;
#endif // _PSP_