EPROCESS 进程/线程优先级 句柄表 GDT LDT 页表 《寒江独钓》内

!process <span>0</span> <span>0</span>    <span>//</span><span>查看当前进程 </span>
<span>....
PROCESS 823e5490  SessionId: </span><span>0</span><span>  Cid: 0af0    Peb: 7ffd5000  ParentCid: 02b8
    DirBase: 0f200340  ObjectTable: e283dc30  HandleCount: </span><span>106</span><span>.
    Image: alg.exe

PROCESS 824a7020  SessionId: </span><span>0</span>  Cid: 00a0    Peb: 7ffda000  ParentCid: <span>0668</span><span>
    DirBase: 0f2001a0  ObjectTable: e292f898  HandleCount:  </span><span>44</span><span>.
    Image: notepad.exe
...</span>

dt _eprocess 824a7020    <span>//</span><span>查看notepad.exe的_EPROCESS </span>
kd><span> dt _eprocess 824a7020 
ntdll</span>!<span>_EPROCESS
   </span>+<span>0x000</span><span> Pcb              : _KPROCESS
   </span>+<span>0x06c</span><span> ProcessLock      : _EX_PUSH_LOCK
   </span>+<span>0x070</span> CreateTime       : _LARGE_INTEGER <span>0x1ceee34</span><span>`5d8ce8a2
   </span>+<span>0x078</span> ExitTime         : _LARGE_INTEGER <span>0x0</span>
   +<span>0x080</span><span> RundownProtect   : _EX_RUNDOWN_REF
   </span>+<span>0x084</span> UniqueProcessId  : <span>0x000000a0</span> 
   +<span>0x088</span> ActiveProcessLinks : _LIST_ENTRY [ <span>0x8055b158</span> - <span>0x823e5518</span><span> ]
   </span>+<span>0x090</span> QuotaUsage       : [<span>3</span>] <span>0xa50</span>
   +<span>0x09c</span> QuotaPeak        : [<span>3</span>] <span>0xc48</span>
   +<span>0x0a8</span> CommitCharge     : <span>0x184</span>
   +<span>0x0ac</span> PeakVirtualSize  : <span>0x244d000</span>
   +<span>0x0b0</span> VirtualSize      : <span>0x1f87000</span>
   +<span>0x0b4</span> SessionProcessLinks : _LIST_ENTRY [ <span>0xf8b6a014</span> - <span>0x823e5544</span><span> ]
   </span>+<span>0x0bc</span> DebugPort        : (<span>null</span><span>) 
   </span>+<span>0x0c0</span> ExceptionPort    : <span>0xe1982848</span> 
   +<span>0x0c4</span> ObjectTable      : <span>0xe292f898</span><span> _HANDLE_TABLE
   </span>+<span>0x0c8</span><span> Token            : _EX_FAST_REF
   </span>+<span>0x0cc</span><span> WorkingSetLock   : _FAST_MUTEX
   </span>+<span>0x0ec</span> WorkingSetPage   : <span>0xc6af</span>
   +<span>0x0f0</span><span> AddressCreationLock : _FAST_MUTEX
   </span>+<span>0x110</span> HyperSpaceLock   : <span>0</span>
   +<span>0x114</span> ForkInProgress   : (<span>null</span><span>) 
   </span>+<span>0x118</span> HardwareTrigger  : <span>0</span>
   +<span>0x11c</span> VadRoot          : <span>0x82401480</span> 
   +<span>0x120</span> VadHint          : <span>0x8256a530</span> 
   +<span>0x124</span> CloneRoot        : (<span>null</span><span>) 
   </span>+<span>0x128</span> NumberOfPrivatePages : <span>0xc0</span>
   +<span>0x12c</span> NumberOfLockedPages : <span>0</span>
   +<span>0x130</span> Win32Process     : <span>0xe109b210</span> 
   +<span>0x134</span> Job              : (<span>null</span><span>) 
   </span>+<span>0x138</span> divObject    : <span>0xe19d2c18</span> 
   +<span>0x13c</span> divBaseAddress : <span>0x01000000</span> 
   +<span>0x140</span> QuotaBlock       : <span>0x82cf5db8</span><span> _EPROCESS_QUOTA_BLOCK
   </span>+<span>0x144</span> WorkingSetWatch  : (<span>null</span><span>) 
   </span>+<span>0x148</span> Win32WindowStation : <span>0x0000003c</span> 
   +<span>0x14c</span> InheritedFromUniqueProcessId : <span>0x00000668</span> 
   +<span>0x150</span> LdtInformation   : (<span>null</span><span>) 
   </span>+<span>0x154</span> VadFreeHint      : (<span>null</span><span>) 
   </span>+<span>0x158</span> VdmObjects       : (<span>null</span><span>) 
   </span>+<span>0x15c</span> DeviceMap        : <span>0xe21f5258</span> 
   +<span>0x160</span> PhysicalVadList  : _LIST_ENTRY [ <span>0x824a7180</span> - <span>0x824a7180</span><span> ]
   </span>+<span>0x168</span><span> PageDirectoryPte : _HARDWARE_PTE_X86
   </span>+<span>0x168</span> Filler           : <span>0</span>
   +<span>0x170</span> Session          : <span>0xf8b6a000</span> 
   +<span>0x174</span> ImageFileName    : [<span>16</span>]  <span>"</span><span>notepad.exe</span><span>"</span>
   +<span>0x184</span> JobLinks         : _LIST_ENTRY [ <span>0x0</span> - <span>0x0</span><span> ]
   </span>+<span>0x18c</span> LockedPagesList  : (<span>null</span><span>) 
   </span>+<span>0x190</span> ThreadListHead   : _LIST_ENTRY [ <span>0x823c224c</span> - <span>0x823c224c</span><span> ]
   </span>+<span>0x198</span> SecurityPort     : (<span>null</span><span>) 
   </span>+<span>0x19c</span> PaeTop           : <span>0xf8cba1a0</span> 
   +<span>0x1a0</span> ActiveThreads    : <span>1</span>
   +<span>0x1a4</span> GrantedAccess    : <span>0x1f0fff</span>
   +<span>0x1a8</span> DefaultHardErrorProcessing : <span>1</span>
   +<span>0x1ac</span> LastThreadExitStatus : <span>0</span>
   +<span>0x1b0</span> Peb              : <span>0x7ffda000</span><span> _PEB
   </span>+<span>0x1b4</span><span> PrefetchTrace    : _EX_FAST_REF
   </span>+<span>0x1b8</span> ReadOperationCount : _LARGE_INTEGER <span>0x1</span>
   +<span>0x1c0</span> WriteOperationCount : _LARGE_INTEGER <span>0x0</span>
   +<span>0x1c8</span> OtherOperationCount : _LARGE_INTEGER <span>0x248</span>
   +<span>0x1d0</span> ReadTransferCount : _LARGE_INTEGER <span>0x57ce</span>
   +<span>0x1d8</span> WriteTransferCount : _LARGE_INTEGER <span>0x0</span>
   +<span>0x1e0</span> OtherTransferCount : _LARGE_INTEGER <span>0x18846</span>
   +<span>0x1e8</span> CommitChargeLimit : <span>0</span>
   +<span>0x1ec</span> CommitChargePeak : <span>0x184</span>
   +<span>0x1f0</span> AweInfo          : (<span>null</span><span>) 
   </span>+<span>0x1f4</span><span> SeAuditProcessCreationInfo : _SE_AUDIT_PROCESS_CREATION_INFO
   </span>+<span>0x1f8</span><span> Vm               : _MMSUPPORT
   </span>+<span>0x238</span> LastFaultCount   : <span>0</span>
   +<span>0x23c</span> ModifiedPageCount : <span>7</span>
   +<span>0x240</span> NumberOfVads     : <span>0x42</span>
   +<span>0x244</span> JobStatus        : <span>0</span>
   +<span>0x248</span> Flags            : <span>0xd0800</span>
   +<span>0x248</span><span> CreateReported   : 0y0
   </span>+<span>0x248</span><span> NoDebugInherit   : 0y0
   </span>+<span>0x248</span><span> ProcessExiting   : 0y0
   </span>+<span>0x248</span><span> ProcessDelete    : 0y0
   </span>+<span>0x248</span><span> Wow64SplitPages  : 0y0
   </span>+<span>0x248</span><span> VmDeleted        : 0y0
   </span>+<span>0x248</span><span> OutswapEnabled   : 0y0
   </span>+<span>0x248</span><span> Outswapped       : 0y0
   </span>+<span>0x248</span><span> ForkFailed       : 0y0
   </span>+<span>0x248</span><span> HasPhysicalVad   : 0y0
   </span>+<span>0x248</span><span> AddressSpaceInitialized : 0y10
   </span>+<span>0x248</span><span> SetTimerResolution : 0y0
   </span>+<span>0x248</span><span> BreakOnTermination : 0y0
   </span>+<span>0x248</span><span> SessionCreationUnderway : 0y0
   </span>+<span>0x248</span><span> WriteWatch       : 0y0
   </span>+<span>0x248</span><span> ProcessInSession : 0y1
   </span>+<span>0x248</span><span> OverrideAddressSpace : 0y0
   </span>+<span>0x248</span><span> HasAddressSpace  : 0y1
   </span>+<span>0x248</span><span> LaunchPrefetched : 0y1
   </span>+<span>0x248</span><span> InjectInpageErrors : 0y0
   </span>+<span>0x248</span><span> VmTopDown        : 0y0
   </span>+<span>0x248</span><span> Unused3          : 0y0
   </span>+<span>0x248</span><span> Unused4          : 0y0
   </span>+<span>0x248</span><span> VdmAllowed       : 0y0
   </span>+<span>0x248</span> Unused           : 0y00000 (<span>0</span><span>)
   </span>+<span>0x248</span><span> Unused1          : 0y0
   </span>+<span>0x248</span><span> Unused2          : 0y0
   </span>+<span>0x24c</span> ExitStatus       : <span>259</span>
   +<span>0x250</span> NextPageColor    : <span>0x8d96</span>
   +<span>0x252</span> SubSystemMinorVersion : <span>0</span> <span>''</span>
   +<span>0x253</span> SubSystemMajorVersion : <span>0x4</span> <span>''</span>
   +<span>0x252</span> SubSystemVersion : <span>0x400</span>
   +<span>0x254</span> PriorityClass    : <span>0x2</span> <span>''</span>
   +<span>0x255</span> WorkingSetAcquiredUnsafe : <span>0</span> <span>''</span>
   +<span>0x258</span> Cookie           : <span>0x5c77be6c</span>

typedef <span>struct</span><span> _EPROCESS 
{
    KPROCESS Pcb; 

    EX_PUSH_LOCK ProcessLock;

    LARGE_INTEGER CreateTime;
    LARGE_INTEGER ExitTime; 

    EX_RUNDOWN_REF RundownProtect;

    HANDLE UniqueProcessId; 

    LIST_ENTRY ActiveProcessLinks; 

    SIZE_T QuotaUsage[PsQuotaTypes];
    SIZE_T QuotaPeak[PsQuotaTypes];
    SIZE_T CommitCharge; 

    SIZE_T PeakVirtualSize;
    SIZE_T VirtualSize;

    LIST_ENTRY SessionProcessLinks;

    PVOID DebugPort;
    PVOID ExceptionPort;
    PHANDLE_TABLE ObjectTable; 

    EX_FAST_REF Token;

    PFN_NUMBER WorkingSetPage;
    KGUARDED_MUTEX AddressCreationLock;
    KSPIN_LOCK HyperSpaceLock;

    </span><span>struct</span> _ETHREAD *<span>ForkInProgress;
    ULONG_PTR HardwareTrigger;

    PMM_AVL_TABLE PhysicalVadRoot;
    PVOID CloneRoot;
    PFN_NUMBER NumberOfPrivatePages;
    PFN_NUMBER NumberOfLockedPages;
    PVOID Win32Process;
    </span><span>struct</span> _EJOB *<span>Job;
    PVOID divObject;

    PVOID divBaseAddress;

    PEPROCESS_QUOTA_BLOCK QuotaBlock;

    PPAGEFAULT_HISTORY WorkingSetWatch;
    HANDLE Win32WindowStation;
    HANDLE InheritedFromUniqueProcessId;

    PVOID LdtInformation;
    PVOID VadFreeHint;
    PVOID VdmObjects;
    PVOID DeviceMap;

    PVOID Spare0[</span><span>3</span><span>];
    union 
    {
        HARDWARE_PTE PageDirectoryPte;
        ULONGLONG Filler;
    };
    PVOID Session;
    UCHAR ImageFileName[ </span><span>16</span><span> ];

    LIST_ENTRY JobLinks;
    PVOID LockedPagesList;

    LIST_ENTRY ThreadListHead; 

    PVOID SecurityPort; </span><span>
    PVOID PaeTop; </span><span>

    ULONG ActiveThreads;

    ACCESS_MASK GrantedAccess;

    ULONG DefaultHardErrorProcessing;

    NTSTATUS LastThreadExitStatus; 

    PPEB Peb; 

    EX_FAST_REF PrefetchTrace;

    LARGE_INTEGER ReadOperationCount;
    LARGE_INTEGER WriteOperationCount;
    LARGE_INTEGER OtherOperationCount;
    LARGE_INTEGER ReadTransferCount;
    LARGE_INTEGER WriteTransferCount;
    LARGE_INTEGER OtherTransferCount;

    SIZE_T CommitChargeLimit;
    SIZE_T CommitChargePeak;

    PVOID AweInfo; 

    SE_AUDIT_PROCESS_CREATION_INFO SeAuditProcessCreationInfo;

    MMSUPPORT Vm;
 </span><span>
    LIST_ENTRY MmProcessLinks; </span><span>

    ULONG ModifiedPageCount; </span><span>

    ULONG JobStatus; 
 </span><span>
    union 
    { 
        ULONG Flags; 

        </span><span>struct</span><span> {
            ULONG CreateReported            : </span><span>1</span><span>;
            ULONG NoDebugInherit            : </span><span>1</span><span>;
            ULONG ProcessExiting            : </span><span>1</span><span>;
            ULONG ProcessDelete             : </span><span>1</span><span>;
            ULONG Wow64SplitPages           : </span><span>1</span><span>;
            ULONG VmDeleted                 : </span><span>1</span><span>;
            ULONG OutswapEnabled            : </span><span>1</span><span>;
            ULONG Outswapped                : </span><span>1</span><span>;
            ULONG ForkFailed                : </span><span>1</span><span>;
            ULONG Wow64VaSpace4Gb           : </span><span>1</span><span>;
            ULONG AddressSpaceInitialized   : </span><span>2</span><span>;
            ULONG SetTimerResolution        : </span><span>1</span><span>;
            ULONG BreakOnTermination        : </span><span>1</span><span>;
            ULONG SessionCreationUnderway   : </span><span>1</span><span>;
            ULONG WriteWatch                : </span><span>1</span><span>;
            ULONG ProcessInSession          : </span><span>1</span><span>;
            ULONG OverrideAddressSpace      : </span><span>1</span><span>;
            ULONG HasAddressSpace           : </span><span>1</span><span>;
            ULONG LaunchPrefetched          : </span><span>1</span><span>;
            ULONG InjectInpageErrors        : </span><span>1</span><span>;
            ULONG VmTopDown                 : </span><span>1</span><span>;
            ULONG ImageNotifyDone           : </span><span>1</span><span>;
            ULONG PdeUpdateNeeded           : </span><span>1</span>;    <span>//</span><span> NT32 only</span>
            ULONG VdmAllowed                : <span>1</span><span>;
            ULONG SmapAllowed               : </span><span>1</span><span>;
            ULONG CreateFailed              : </span><span>1</span><span>;
            ULONG DefaultIoPriority         : </span><span>3</span><span>;
            ULONG Spare1                    : </span><span>1</span><span>;
            ULONG Spare2                    : </span><span>1</span><span>;
        };
    };

    NTSTATUS ExitStatus;

    USHORT NextPageColor;
    union 
    {
        </span><span>struct</span><span> 
    {
            UCHAR SubSystemMinorVersion;
            UCHAR SubSystemMajorVersion;
        };
        USHORT SubSystemVersion;
    };
    UCHAR PriorityClass;

    MM_AVL_TABLE VadRoot;

    ULONG Cookie;

} EPROCESS, </span>*PEPROCESS; 

<span>1</span><span>) KPROCESS位于比EPROCESS更底层的内核层中

</span><span>2</span>) KPROCESS被内核用来进行线程调度使用

typedef <span>struct</span><span> _EX_PUSH_LOCK
{
     union
     {
          ULONG Locked: </span><span>1</span><span>;
          ULONG Waiting: </span><span>1</span><span>;
          ULONG Waking: </span><span>1</span><span>;
          ULONG MultipleShared: </span><span>1</span><span>;
          ULONG Shared: </span><span>28</span><span>;
          ULONG Value;
          PVOID Ptr;
     };
} EX_PUSH_LOCK, </span>*PEX_PUSH_LOCK;

<span>typedef union _LARGE_INTEGER 
{
  </span><span>struct</span><span> 
  {
    DWORD LowPart;
    LONG  HighPart;
  };
  </span><span>struct</span><span> 
  {
    DWORD LowPart;
    LONG  HighPart;
  } u;
  LONGLONG QuadPart;
} LARGE_INTEGER, </span>*PLARGE_INTEGER;

+<span>0x070</span> CreateTime       : _LARGE_INTEGER <span>0x1ceee34</span>`5d8ce8a2

<span>struct</span> EX_RUNDOWN_REF typedef <span>struct</span><span> _EX_RUNDOWN_REF
{
     union
     {
          ULONG Count;
          PVOID Ptr;
     };
} EX_RUNDOWN_REF, </span>*PEX_RUNDOWN_REF;

+<span>0x084</span> UniqueProcessId  : <span>0x000000a0</span>

<span>表头是全局变量PsActiveProcessHead。内部变量PsActiveProcessHead是一个LIST_ENTRY结构，它是一个双链表的表头，在windows的进程双链表中指定了系统进
程列表的第一个成员(回想数据结构中双链表需要一个和链表项相同的表头结构来当作入口点)。
这里注意一下:
PID</span>=<span>4的System的ActiveProcessLinks其实也就是PsActiveProcessHead。即系
统进程System的LIST_ENTRY结构充当这个进程双链表的表头。</span>

typedef <span>struct</span><span> _LIST_ENTRY 
{
  </span><span>struct</span> _LIST_ENTRY  *<span>Flink;
  </span><span>struct</span> _LIST_ENTRY  *<span>Blink;
} LIST_ENTRY, </span>*PLIST_ENTRY;

+<span>0x088</span> ActiveProcessLinks : _LIST_ENTRY [ <span>0x8055b158</span> - <span>0x823e5518</span> ]

ULONG QuotaUsage[<span>3</span><span>]
ULONG QuotaPeak[</span><span>3</span><span>]
</span>

QuotaUsage和<span>QuotaPeak</span>域是指一个进程的内存使用量和尖峰使用量(作用我们之前说过，即为了实时地报告出当前进程运行的性能数据)。这两个域是数组，其中的元素:<br>[0]: 非换页内存池<br>[1]: 换页内存池<br>[2]: 交换文件中的内存使用情况。

QuotaUsage[3]和<span>QuotaPeak</span>[3]这两个数组是在PspChargeQuota函数中计算的。在WRK中 \base\ntos\ps\psquota.c 有具体的函数实现。

<span>NTSTATUS FORCEINLINE PspChargeQuota (
    IN PEPROCESS_QUOTA_BLOCK QuotaBlock,
    IN PEPROCESS Process,
    IN PS_QUOTA_TYPE QuotaType,
    IN SIZE_T Amount)
{
..
}</span>

+<span>0x090</span> QuotaUsage       : [<span>3</span>] <span>0xa50</span>
+<span>0x09c</span> QuotaPeak        : [<span>3</span>] <span>0xc48</span>

<span>ULONG CommitCharge
ULONG PeakVirtualSize
ULONG VirtualSize</span>

<span>CommitCharge</span>域中存储了一个进程的虚拟内存已提交的"页面数量"。<span>PeakVirtualSize</span>域是指虚拟内存大小的尖峰值。<span>VirtualSize</span>域是指一个进程的虚拟内存大小。

+<span>0x0a8</span> CommitCharge     : <span>0x184</span>
+<span>0x0ac</span> PeakVirtualSize  : <span>0x244d000</span>
+<span>0x0b0</span> VirtualSize      : <span>0x1f87000</span>

+<span>0x0b4</span> SessionProcessLinks : _LIST_ENTRY [ <span>0xf8b6a014</span> - <span>0x823e5544</span> ]

<span>PVOID DebugPort;
PVOID ExceptionPort; </span>

<span>DebugPort和<span>ExceptionPort</span>域是两个句柄(指针)，分别指向当前进程对应的调试端口和异常端口。当该进程的线程发生用户模式的异常时(软件中断)时，内核的异常处理例程在处理异常过程中，将向<br>该进程的"异常端口"或"调试端口"发送消息，从而使这些端口的接收方(调试器或windows子系统)能够处理该异常。这涉及到windows的异常分发过程。请参考《windows内核原理与实现》 <br>5.2.7节: 异常分发。这里总结一下windows异常发生时的处理顺序。<br></span>

<span>发生异常时系统的处理顺序:  

</span><span>1</span><span>.系统首先判断异常是否应发送给目标程序的异常处理例程,如果决定应该发送,并且目标程序正在被调试,则系统 
挂起程序并向调试器发送EXCEPTION_DEBUG_EVENT消息.注意,这也是用来探测调试器的存在的技术之一</span> 

<span>2</span><span>.如果你的程序没有被调试或者调试器未能处理异常,系统就会继续查找你是否安装了线程相关的异常处理例程,如果 
你安装了线程相关的异常处理例程,系统就把异常发送给你的程序seh处理例程,交由其处理. 

</span><span>3</span><span>.每个线程相关的异常处理例程可以处理或者不处理这个异常,如果他不处理并且安装了多个线程相关的异常处理例程, 
可交由链起来的其他例程处理. 

</span><span>4</span><span>.如果这些例程均选择不处理异常,如果程序处于被调试状态,操作系统仍会再次挂起程序通知debugger. 

</span><span>5</span><span>.如果程序未处于被调试状态或者debugger没有能够处理,并且你调用SetUnhandledExceptionFilter安装了最后异 
常处理例程的话,系统转向对它的调用. 

</span><span>6</span><span>.如果你没有安装最后异常处理例程或者他没有处理这个异常,系统会调用默认的系统处理程序,通常显示一个对话框, 
你可以选择关闭或者最后将其附加到调试器上的调试按钮.如果没有调试器能被附加于其上或者调试器也处理不了,系统 
就调用ExitProcess终结程序. 

</span><span>7</span>.不过在终结之前,系统仍然对发生异常的线程异常处理句柄来一次展开,这是线程异常处理例程最后清理的机会.

+<span>0x0bc</span> DebugPort        : (<span>null</span><span>) 
</span>+<span>0x0c0</span> ExceptionPort    : <span>0xe1982848</span> 

<span><br><br>11. PHANDLE_TABLE ObjectTable<br></span>

<span>ObjectTable</span>域是当前进程的句柄表。句柄是一个抽象概念，代表了进程已打开的一个对象。句柄表包含了所有已经被该进程打开的那些"对象"的引用(这里对象的概念很大了，所有的内核对象都算对象)。<br>windows进程的句柄表是一个层次结构。<br>windows执行体实现了一套对象机制来管理各种资源或实体。每种对象都有一个"类型对象"，类型对象定义了该类对象的一些特性和方法。对象管理器中的对象是执行体对象(在内核空间中)，<br>它们位于系统空间中，在进程空间不能通过地址来引用它们。windows使用句柄(handle)来管理进程中的对象引用(类似我们进行文件操作时返回的文件对象句柄)。<br><br>当一个进程利用名称来创建或打开一个对象时，将获得一个句柄(这个句柄本质上一个指针，保存在当前进程的EPROCESS的句柄表中)。<br>该句柄指向所创建或打开的对象(同时，被创建或打开的内核对象的引用计数+1)。以后，该进程无须再次使用名称来引用该对象，使用此句柄访问即可。windows这样做可以显著提高引用对象的效率。<br><br>在windows中，句柄是进程范围内的对象引用，换句话说，句柄仅在一个进程范围内有效。一个进程中的句柄传递给另一个进程后(例如父进程创建了子进程时会自动复制父进程拥有的句柄表)，<br>但是句柄值已经不一样了，不同进程空间中可能引用的是同一个对象，但是它们的句柄值不同(联想进程的空间独立性)。<br>实际上，windows支持的句柄是一个"索引"，指向该句柄所在进程的句柄表(handle table)中的一个表项。<br><br>base\ntos\inc\ex.h

typedef <span>struct</span><span> _HANDLE_TABLE
{
    </span><span>//</span><span>指向句柄表的结构</span>
<span>    ULONG TableCode; 
    </span><span>//</span><span>句柄表的内存资源记录在此进程中</span>
<span>    PEPROCESS QuotaProcess; 
    </span><span>//</span><span>创建进程的ID，用于回调函数</span>
<span>    PVOID UniqueProcessId;
    </span><span>//</span><span>句柄表锁，仅在句柄表扩展时使用</span>
<span>    EX_PUSH_LOCK HandleLock;
    </span><span>//</span><span>所有的句柄表形成一个链表(这个成员域用来指向下一个句柄表节点的)，链表头为全局变量HandleTableListHead</span>
<span>    LIST_ENTRY HandleTableList;
    </span><span>//</span><span>若在访问句柄时发生竞争，则在此推锁上阻塞等待</span>
<span>    EX_PUSH_LOCK HandleContentionEvent;
    </span><span>//</span><span>调试信息，仅当调试句柄时才有意义</span>
<span>    PHANDLE_TRACE_DEBUG_INFO DebugInfo;
    </span><span>//</span><span>审计信息所占用的页面数量</span>
<span>    LONG ExtraInfoPages; 
    </span><span>//</span><span>空闲链表表头的句柄索引</span>
<span>    LONG FirstFreeHandle;
    </span><span>//</span><span>最近被释放的句柄索引，用于FIFO类型空闲链表</span>
<span>    PHANDLE_TABLE_ENTRY LastFreeHandleEntry;
    </span><span>//</span><span>下一次句柄表扩展的起始句柄索引</span>
<span>    ULONG NextHandleNeedingPool;
    </span><span>//</span><span>正在使用的句柄表项的数量</span>
<span>    LONG HandleCount;
    union
    {
        </span><span>//</span><span>标志域</span>
<span>        ULONG Flags;
        </span><span>//</span><span>是否使用FIFO风格的重用，即先释放还是先重用</span>
        BOOLEAN StrictFIFO : <span>1</span><span>;
    }
} HANDLE_TABLE, </span>*PHANDLE_TABLE;

<span>1</span>) 如果TableCode的最低2位为0(..<span>00</span><span>)。说明句柄表只有一层(从0开始计数)，这种情况下该进程最多只能容纳512个句柄(宏定义LOWLEVEL_THRESHOLD)。

</span><span>2</span>) 如果TableCode的最低2位为1(..<span>01</span>)。说明句柄表有两层，这种情况下该进程可容纳的句柄数是512*<span>1024</span><span>(宏定义MIDLEVEL_THRSHOLD)。

</span><span>3</span>)  如果TableCode的最低2位为2(..<span>10</span>)。说明句柄表有三层，这种情况下该进程可容纳的句柄数是512*<span>1024</span>*<span>1024</span>(宏定义HIGHLEVEL_THRSHOLD)。

typedef <span>struct</span><span> _HANDLE_TABLE_ENTRY 
{ 
    union 
    { 
        PVOID Object; 
        ULONG ObAttributes; 
        PHANDLE_TABLE_ENTRY_INFO InfoTable; 
        ULONG_PTR Value;
    }; 
    union 
    { 
        union 
    { 
            ACCESS_MASK GrantedAccess; 
            </span><span>struct</span><span> 
        { 
                USHORT GrantedAccessIndex;
                USHORT CreatorBackTraceIndex;
            };
        }; 
        LONG NextFreeTableEntry;
    }; 
} HANDLE_TABLE_ENTRY, </span>*PHANDLE_TABLE_ENTRY;

<span>总结一下:EPROCESS中的PHANDLE_TABLE ObjectTable 成员域指向的是一个HENDLE_TABLE数据结构，这个域的第一个成员的低2位很重要，它决定了这个进程中总
共有多少个这样的PHANDLE_TABLE ObjectTable结构，例如(..</span><span>10</span><span>)，那就有3个PHANDLE_TABLE ObjectTable结构，它们依靠PHANDLE_TABLE ObjectTable中
的HandleTableList来形成一个双链表，依次形成层次关系，而PHANDLE_TABLE ObjectTable中的TableCode指向的才是指向真实的句柄数组，每个句柄以
HANDLE_TABLE_ENTRY节诶狗来标识，大小为4byte。所有的HANDLE_TABLE_ENTRY形成一个句柄数组组成一层这样的</span><span>"</span><span>句柄数据组</span><span>"</span><span>，总共有3排
(因为TableCode的低2位为..</span><span>10</span><span>)。

这样，windows中一个进程的句柄表就被表现出来了。</span>

+<span>0x0c4</span> ObjectTable      : <span>0xe292f898</span><span> _HANDLE_TABLE
</span>+<span>0x000</span> TableCode        : <span>0xe10fd000</span>
+<span>0x004</span> QuotaProcess     : <span>0x824a7020</span><span> _EPROCESS
</span>+<span>0x008</span> UniqueProcessId  : <span>0x000000a0</span> 
+<span>0x00c</span> HandleTableLock  : [<span>4</span><span>] _EX_PUSH_LOCK
</span>+<span>0x01c</span> HandleTableList  : _LIST_ENTRY [ <span>0xe1090f64</span> - <span>0xe283dc4c</span><span> ]
</span>+<span>0x024</span><span> HandleContentionEvent : _EX_PUSH_LOCK
</span>+<span>0x028</span> DebugInfo        : (<span>null</span><span>) 
</span>+<span>0x02c</span> ExtraInfoPages   : <span>0</span>
+<span>0x030</span> FirstFree        : <span>0xac</span>
+<span>0x034</span> LastFree         : <span>0</span>
+<span>0x038</span> NextHandleNeedingPool : <span>0x800</span>
+<span>0x03c</span> HandleCount      : <span>48</span>
+<span>0x040</span> Flags            : <span>0</span>
+<span>0x040</span> StrictFIFO       : 0y0

<span>BOOL WINAPI OpenProcessToken(
  _In_   HANDLE ProcessHandle,
  _In_   DWORD DesiredAccess,
  _Out_  PHANDLE TokenHandle
);</span>

+<span>0x0c8</span><span> Token            : _EX_FAST_REF
</span>+<span>0x000</span> Object           : <span>0xe10ea4bb</span> 
+<span>0x000</span><span> RefCnt           : 0y011
</span>+<span>0x000</span> Value            : <span>0xe10ea4bb</span>

<span>工作集是指一个进程当前正在使用的物理页面的集合。在windows中，有3种工作工作集。

</span><span>1</span><span>) 进程工作集

</span><span>2</span><span>) 系统工作集
系统工作集是指System进程(由全局变量PsInitialSystemProcess表示)的工作集，其中包括系统模块的映像区(比如ntoskrnl.exe和设备驱动程序)、换页内存池和系统缓存(cache)

</span><span>3</span><span>) 会话工作集
会话工作集是指一个会话所属的代码和数据区，包括windows子系统用到的与会话有关的数据结构、会话换页内存池、会话的映射视图，以及会话空间中的设备驱动程序。</span>

typedef <span>struct</span><span> _MMWSL 
{
    WSLE_NUMBER FirstFree;
    WSLE_NUMBER FirstDynamic;
    WSLE_NUMBER LastEntry;
    WSLE_NUMBER NextSlot;               </span><span>//</span><span> The next slot to trim</span>
<span>    PMMWSLE Wsle;
    WSLE_NUMBER LastInitializedWsle;
    WSLE_NUMBER NonDirectCount;
    PMMWSLE_HASH HashTable;
    ULONG HashTableSize;
    ULONG NumberOfCommittedPageTables;
    PVOID HashTableStart;
    PVOID HighestPermittedHashAddress;
    ULONG NumberOfImageWaiters;
    ULONG VadBitMapHint; 
    USHORT UsedPageTableEntries[MM_USER_PAGE_TABLE_PAGES];
    ULONG CommittedPageTables[MM_USER_PAGE_TABLE_PAGES</span>/(<span>sizeof</span>(ULONG)*<span>8</span><span>)]; 
} MMWSL, </span>*PMMWSL;

<span>#define</span> LOCK_ADDRESS_SPACE(PROCESS) KeAcquireGuardedMutex (&((PROCESS)->AddressCreationLock));
<span>#define</span> UNLOCK_ADDRESS_SPACE(PROCESS) KeReleaseGuardedMutex (&((PROCESS)->AddressCreationLock));

typedef <span>struct</span><span>
{
    </span><span>volatile</span> unsigned <span>int</span> <span>lock</span><span>;
}
spinlock_t;</span>

<span>NTSTATUS
MiCloneProcessAddressSpace (
    IN PEPROCESS ProcessToClone,
    IN PEPROCESS ProcessToInitialize
    )</span>

+<span>0x11c</span> VadRoot          : <span>0x82401480</span> 
+<span>0x120</span> VadHint          : <span>0x824392c8</span> 
+<span>0x124</span> CloneRoot        : (<span>null</span><span>) 
</span>+<span>0x128</span> NumberOfPrivatePages : <span>0xd9</span>
+<span>0x12c</span> NumberOfLockedPages : <span>0</span>

+<span>0x130</span> Win32Process     : <span>0xe109b210</span>
+<span>0x134</span> Job              : (<span>null</span>) 

+<span>0x138</span> divObject    : <span>0xe19d2c18</span> 
+<span>0x13c</span> divBaseAddress : <span>0x01000000</span> 

typedef <span>struct</span><span> _EPROCESS_QUOTA_BLOCK           
{
    </span><span>struct</span> _EPROCESS_QUOTA_ENTRY QuotaEntry[<span>3</span><span>];
    </span><span>struct</span><span> _LIST_ENTRY QuotaList; 
    ULONG32 ReferenceCount;
    ULONG32 ProcessCount;
}EPROCESS_QUOTA_BLOCK, </span>*PEPROCESS_QUOTA_BLOCK;

这里要注意的是，所有配额块构成的双链表的表头为PspQuotaBlockList。系统的默认配额块为PspDefaultQuotaBlock。

+<span>0x140</span> QuotaBlock       : <span>0x82cf5db8</span><span> _EPROCESS_QUOTA_BLOCK
</span>+<span>0x000</span> QuotaEntry       : [<span>3</span><span>] _EPROCESS_QUOTA_ENTRY
</span>+<span>0x030</span> QuotaList        : _LIST_ENTRY [ <span>0x82c4dea0</span> - <span>0x82ca7700</span><span> ]
</span>+<span>0x038</span> ReferenceCount   : <span>0x751</span>
+<span>0x03c</span> ProcessCount     : <span>7</span>

typedef <span>struct</span><span> _PAGEFAULT_HISTORY
{
    ULONG CurrentIndex;
    ULONG MapIndex;
    KSPIN_LOCK SpinLock;
    PVOID Reserved;
    PROCESS_WS_WATCH_INFORMATION WatchInfo[</span><span>1</span><span>];
} PAGEFAULT_HISTORY, </span>*PPAGEFAULT_HISTORY;

G: 当G位为0时，此长度单位为byte。当G为1时，此长度单位为4096byte。所以，段长度可达2^<span>20</span> * <span>4096</span> =<span> 4GB，即整个32位线性地址空间。

DPL(描述符特权级 Descriptor Privilege Level)是允许访问此段的最低特权级(结合下面学习的</span><span>"</span><span>段选择子</span><span>"</span><span>中有一个字段(RPL)是标识这个段选择子也即这个内存访问请求的
特权级)，这样是不是就把对应关系建立起来了，比如DPL为0的段只有当RPL</span>=<span>0时才能访问，而DPL为3的段，可由任何RPL的代码访问。这样就解释了为什么ring3的内存空间
ring0的内核代码可以任意访问，而ring0的内存空间ring3不能访问了。

TYPE(类型域): 指定了段的类型，包括代码段、数据段、TSS段、LDT段。</span>

<span>例如给出逻辑地址：21h:12345678h转换为线性地址
a. 选择子SEL</span>=21h=<span>0000000000100</span> <span>0</span> 01b 他代表的意思是：选择子的index=4即100b选择GDT中的第4个描述符；TI=0代表选择子是在GDT选择；左后的01b代表特权级RPL=<span>1</span><span>
b. OFFSET</span>=12345678h若此时GDT第四个描述符中描述的段基址（Base）为11111111h，则线性地址=11111111h+12345678h=23456789h

<span>1</span><span>. 首先，要把一些概念和名词弄清楚，有很多书和网上的文章中给了很多名词，我们要能理解它们。段选择符和段选择子是一个概念，它们就相当于8080下实模式中的CS。

</span><span>2</span>. 我们给出的逻辑地址由段选择子和偏移量组成: SEL +<span> OFFSET.

</span><span>3</span><span>. GDTR中保存着GDT的基地址，通过GDTR我们可以寻址到GDT(你可以理解为寻址一个数组的基地址)

</span><span>4</span>. GDT这个<span>"</span><span>数组</span><span>"</span><span>中保存着很多LDT，它们每个都代表着一个段，我们需要通过SEL(段选择子)来索引具体的LDT

</span><span>5</span><span>. LDTR中保存的是当前的LDT地址，也即一个段选择子。

</span><span>6</span>. 每个LDT中保存了这个段的一些关键的信息，包括段基址，段的特权，段的大小等等。

<span>union
{
        HARDWARE_PTE PageDirectoryPte;
        ULONGLONG Filler;
};</span>

<span>PageDirectoryPte域是顶级页目录页面的页表项。这涉及到windows中的页式内存管理的知识，我们拓展出去。<br>让进程使用虚拟地址，而虚拟地址和物理地址之间通过一个映射表来完成转译。页式内存和我们之前学习的段式内存管理方式都是基于这样一种思路的具体实现。<br><br>在页式内存管理中，虚拟地址空间是按页(pag</span>