Last updated: 10/15/19
Research by: Matthew Graeber @ SpecterOps
Associated Blog Post: https://medium.com/palantir/assessing-the-effectiveness-of-a-new-security-data-source-windows-defender-exploit-guard-860b69db2ad2
One of the most valuable features of WDEG are the Windows event logs generated when a security feature is triggered. While documentation on configuration (https://docs.microsoft.com/en-us/windows/security/threat-protection/windows-defender-exploit-guard/customize-exploit-protection) and deployment (https://docs.microsoft.com/en-us/windows/security/threat-protection/windows-defender-exploit-guard/import-export-exploit-protection-emet-xml) of WDEG is readily accessible, documentation on what events WDEG supports, and the context around them, does not exist. The Palantir CIRT is of the opinion that the value of an event source is realized only upon documenting each field, applying context around the event, and leveraging these as discrete detection capabilities.
WDEG supplies events from multiple event sources (ETW providers) and destinations (event logs). In the documentation that follows, events are organized by their respective event destination. Additionally, many events use the same event template and are grouped accordingly. Microsoft does not currently document these events and context was acquired by utilizing documented ETW methodology (https://medium.com/palantir/tampering-with-windows-event-tracing-background-offense-and-defense-4be7ac62ac63), reverse engineering, and with support from security researchers (James Forshaw (https://twitter.com/tiraniddo) and Alex Ionescu (https://twitter.com/aionescu)) generously answering questions on Windows internals.
Event ID 1 - Arbitrary Code Guard (ACG) Auditing
Message: "Process '%2' (PID %5) would have been blocked from generating dynamic code."
Level: 0 (Log Always)
Function that generates the event: ntoskrnl!EtwTimLogProhibitDynamicCode
Description: ACG (https://blogs.windows.com/msedgedev/2017/02/23/mitigating-arbitrary-native-code-execution/) prevents/logs attempted permission modification of code pages (making a page writeable, specifically) and prevents unsigned code pages from being created.
Event ID 2 - Arbitrary Code Guard (ACG) Enforcement
Message: "Process '%2' (PID %5) was blocked from generating dynamic code."
Level: 3 (Warning)
Function that generates the event: ntoskrnl!EtwTimLogProhibitDynamicCode
Event ID 7 - Audit: Log Remote Image Loads
Message: "Process '%2' (PID %5) would have been blocking from loading a binary from a remote share."
Level: 0 (Log Always)
Function that generates the event: ntoskrnl!EtwTimLogProhibitRemoteImageMap
Description: Prevents/logs the loading of images from remote UNC/WebDAV shares, a common exploitation/dll hijack primitive used (https://www.rapid7.com/db/modules/exploit/windows/browser/ms10_046_shortcut_icon_dllloader) to load subsequent attacker code from an attacker-controlled location.
Event ID 8 - Enforce: Block Remote Image Loads
Message: "Process '%2' (PID %5) was blocked from loading a binary from a remote share."
Level: 3 (Warning)
Function that generates the event: ntoskrnl!EtwTimLogProhibitRemoteImageMap
Event ID 9 - Audit: Log Win32K System Call Table Use
Message: "Process '%2' (PID %5) would have been blocked from making system calls to Win32k.sys."
Level: 0 (Log Always)
Function that generates the event: ntoskrnl!EtwTimLogProhibitWin32kSystemCalls
Description: A user-mode GUI thread attempted to access the Win32K syscall table. Win32K syscalls are used frequently to trigger elevation of privilege (https://www.slideshare.net/PeterHlavaty/rainbow-over-the-windows-more-colors-than-you-could-expect) and sandbox escape vulnerabilities (https://improsec.com/tech-blog/win32k-system-call-filtering-deep-dive). For processes that do not intend to perform GUI-related tasks, Win32K syscall auditing/enforcement can be valuable.
Event ID 10 - Enforce: Prevent Win32K System Call Table Use
Message: "Process '%2' (PID %5) was blocked from making system call
s to Win32k.sys."
Level: 3 (Warning)
Function that generates the event: ntoskrnl!EtwTimLogProhibitWin32kSystemCalls
Event Properties
ProcessPathLength
The length, in characters, of the string in the ProcessPath field.
ProcessPath
The full path (represented as a device path) of the host process binary that triggered the event.
ProcessCommandLineLength
The length, in characters, of the string in the ProcessCommandLine field.
ProcessCommandLine
The full command line of the process that triggered the event.
CallingProcessId
The process ID of the process that triggered the event.
CallingProcessCreateTime
The creation time of the process that triggered the event.
CallingProcessStartKey
This field represents a locally unique identifier for the process. It was designed as a more robust version of process ID that is resistant to being repeated. Process start key was introduced in Windows 10 1507 and is derived from _KUSER_SHARED_DATA.BootId and EPROCESS.SequenceNumber, both of which increment and are unlikely to overflow. It is an unsigned 64-bit value that is derived using the following logic: (BootId << 30) | SequenceNumber. Kernel drivers can retrieve the process start key for a process by calling the PsGetProcessStartKey export in ntoskrnl.exe. A process start key can also be derived from user-mode (https://gist.github.com/mattifestation/3c2e8f80ca1fe1a7e276ee2607da8d18).
CallingProcessSignatureLevel
The signature level of the process executable. This is the validated signing level for the process when it was started. This field is populated from EPROCESS.SignatureLevel. Signature level can be any of the following values:
- 0x0 - Unchecked
- 0x1 - Unsigned
- 0x2 - Enterprise
- 0x3 - Custom1
- 0x4 - Authenticode
- 0x5 - Custom2
- 0x6 - Store
- 0x7 - Antimalware
- 0x8 - Microsoft
- 0x9 - Custom4
- 0xA - Custom5
- 0xB - DynamicCodegen
- 0xC - Windows
- 0xD - WindowsProtectedProcessLight
- 0xE - WindowsTcb
- 0xF - Custom6
CallingProcessSectionSignatureLevel The section signature level is the default required signature level for any modules that get loaded into the process. The same values as ProcessSignatureLevel are supported. This field is populated from EPROCESS.SectionSignatureLevel. The following are some example process and process section signature levels that you might realistically encounter:
- ProcessSignatureLevel: 8, ProcessSectionSignatureLevel: 6. This indicates that a Microsoft-signed host process will only load images with a Store signature at a minimum. Thanks to Alex Ionescu for pointing out this example scenario.
- ProcessSignatureLevel: 2, ProcessSectionSignatureLevel: 2. This indicates that both process and module loading are dictated by Windows Defender Application Control (WDAC) policy.
- ProcessSignatureLevel: 0, ProcessSectionSignatureLevel: 0. This would indicate that signature level enforcement for process and module loading is not enforced.
CallingProcessProtection
The type of protected process and the protected process signer. This field is populated from EPROCESS.Protection and corresponds to the PS_PROTECTION structure. These values are well documented in Windows Internals: Volume 7.
The first 3 bits contain the type of protected process (refers to the low nibble of the value):
- PsProtectedTypeNone - 0
- PsProtectedTypeProtectedLight - 1
- PsProtectedTypeProtected - 2
The top 4 bits contain the protected process signer (refers to the high nibble of the value):
- PsProtectedSignerNone - 0
- PsProtectedSignerAuthenticode - 1
- PsProtectedSignerCodeGen - 2
- PsProtectedSignerAntimalware - 3
- PsProtectedSignerLsa - 4
- PsProtectedSignerWindows - 5
- PsProtectedSignerWinTcb - 6
- PsProtectedSignerWinSystem - 7
- PsProtectedSignerApp - 8
Here are some example process protection values:
- 0x31 - A PPL, antimalware process
- 0x62 - A protected, WinTCB process
CallingThreadId
The thread ID of the thread responsible for triggering the event. This field is populated from ETHREAD.Cid.UniqueThread.
CallingThreadCreateTime
The creation time of the thread responsible for triggering the event. This field is populated from ETHREAD.CreateTime.
Event ID 3 - Audit: Child Process Creation
Message: “Process '%2' (PID %5) would have been blocked from creating a child process '%14' with command line '%16'."
Level: 0 (Log Always)
Function that generates the event: ntoskrnl!EtwTimLogProhibitChildProcessCreation
Description: log/prevents child process creation
Event ID 4 - Enforce: Prevent Child Process Creation
Message: “Process '%2' (PID %5) was blocked from creating a child process '%14' with command line '%16'."
Level: 3 (Warning)
Function that generates the event: ntoskrnl!EtwTimLogProhibitChildProcessCreation
Event Properties
ProcessPathLength
The length, in characters, of the string in the ProcessPath field.
ProcessPath
The full path (represented as a device path) of the host process binary that triggered the event.
ProcessCommandLineLength
The length, in characters, of the string in the ProcessCommandLine field.
ProcessCommandLine
The full command line of the process that triggered the event.
CallingProcessId
The process ID of the process that triggered the event.
CallingProcessCreateTime
The creation time of the process that triggered the event.
CallingProcessStartKey
See section above.
CallingProcessSignatureLevel
See section above.
CallingProcessSectionSignatureLevel
See section above.
CallingProcessProtection
See section above.
CallingThreadId
The thread ID of the thread responsible for triggering the event. This field is populated from ETHREAD.Cid.UniqueThread.
CallingThreadCreateTime
The creation time of the thread responsible for triggering the event. This field is populated from ETHREAD.CreateTime.
ChildImagePathNameLength
The length, in characters, of the string in the ChildImagePathName field.
ChildImagePathName
The path to the image that is attempting to load.
ChildCommandLineLength
The length, in characters, of the string in the ChildCommandLine field.
ChildCommandLine
The command line of the image that is attempting to load.
Event ID 5 - Audit: low integrity image load
Message: “Process '%2' (PID %5) would have been blocked from loading the low-integrity binary '%14'."
Level: 0 (Log Always)
Function that generates the event: ntoskrnl!EtwTimLogProhibitLowILImageMap
Event ID 6 - Enforce: block low integrity image load
Message: “Process '%2' (PID %5) was blocked from loading the low-integrity binary '%14'."
Level: 3 (Warning)
Function that generates the event: ntoskrnl!EtwTimLogProhibitLowILImageMap
Event Properties
ProcessPathLength
The length, in characters, of the string in the ProcessPath field.
ProcessPath
The full path (represented as a device path) of the host process binary that triggered the event.
ProcessCommandLineLength
The length, in characters, of the string in the ProcessCommandLine field.
ProcessCommandLine
The full command line of the process that triggered the event.
ProcessId
The process ID of the process that triggered the event.
ProcessCreateTime
The creation time of the process that triggered the event.
ProcessStartKey
See section above.
ProcessSignatureLevel
See section above.
ProcessSectionSignatureLevel
See section above.
ProcessProtection
See section above.
TargetThreadId
The thread ID of the thread responsible for triggering the event. This field is populated from ETHREAD.Cid.UniqueThread.
TargetThreadCreateTime
The creation time of the thread responsible for triggering the event. This field is populated from ETHREAD.CreateTime.
ImageNameLength
The length, in characters, of the string in the ImageName field.
ImageName
The name of the image that attempted to load with low integrity.
Event ID 11 - Audit: A non-Microsoft-signed binary would have been loaded.
Message: “Process '%2' (PID %5) would have been blocked from loading the non-Microsoft-signed binary '%16'."
Level: 0 (Log Always)
Function that generates the event: ntoskrnl!EtwTimLogProhibitNonMicrosoftBinaries
Description: This event is logged any time a PE is loaded into a process that is not Microsoft-signed.
Event ID 12 - Enforce: A non-Microsoft-signed binary was prevented from loading.
Message: “Process '%2' (PID %5) was blocked from loading the non-Microsoft-signed binary '%16'."
Level: 3 (Warning)
Function that generates the event: ntoskrnl!EtwTimLogProhibitNonMicrosoftBinaries
Event Properties
ProcessPathLength
The length, in characters, of the string in the ProcessPath field.
ProcessPath
The full path (represented as a device path) of the host process binary into which a non-MSFT binary attempted to load.
ProcessCommandLineLength
The length, in characters, of the string in the ProcessCommandLine field.
ProcessCommandLine
The full command line of the process into which a non-MSFT binary attempted to load.
ProcessId
The process ID of the process into which a non-MSFT binary attempted to load.
ProcessCreateTime
The creation time of the process into which a non-MSFT binary attempted to load.
ProcessStartKey
See section above.
ProcessSignatureLevel
See section above.
ProcessSectionSignatureLevel
See section above.
ProcessProtection
See section above.
TargetThreadId
The thread ID of the thread responsible for attempting to load the non-MSFT binary. This field is populated from ETHREAD.Cid.UniqueThread.
TargetThreadCreateTime
The creation time of the thread responsible for attempting to load the non-MSFT binary. This field is populated from ETHREAD.CreateTime.
RequiredSignatureLevel
The minimum signature level being imposed by WDEG. The same values as ProcessSignatureLevel are supported. This value will either be 8 in the case of Microsoft-signed binaries only or 6 in the case where Store images are permitted.
SignatureLevel
The validated signature level of the image present in the ImageName field. The same values as ProcessSignatureLevel are supported. A value less than RequiredSignatureLevel indicates the reason why EID 11/12 was logged in the first place. When this event is logged, SignatureLevel will always be less than RequiredSignatureLevel.
ImageNameLength
The length, in characters, of the string in the ImageName field.
ImageName
The full path to the image that attempted to load into the host process.
Event ID 13 - EAF mitigation audited
Message: “Process '%2' (PID %3) would have been blocked from accessing the Export Address Table for module '%8'."
Level: 0 (Log Always)
Function that generates the event: PayloadRestrictions!MitLibValidateAccessToProtectedPage
Description: The export address table was accessed by code that is not backed by an image on disk - i.e. injected shellcode is the likely culprit for access the EAT.
Event ID 14 - EAF mitigation enforced
“Process '%2' (PID %3) was blocked from accessing the Export Address Table for module '%8'."
Level: 3 (Warning)
Function that generates the event: PayloadRestrictions!MitLibValidateAccessToProtectedPage
Event ID 15 - EAF+ mitigation audited
Message: “Process '%2' (PID %3) would have been blocked from accessing the Export Address Table for module '%8'."
Level: 0 (Log Always)
Function that generates the event: PayloadRestrictions!MitLibValidateAccessToProtectedPage
Description: The export address table was accessed by code that is not backed by an image on disk and via many other improved heuristics - i.e. injected shellcode is the likely culprit for access the EAT.
Event ID 16 - EAF+ mitigation enforced
Message: “Process '%2' (PID %3) was blocked from accessing the Export Address Table for module '%8'."
Level: 3 (Warning)
Function that generates the event: PayloadRestrictions!MitLibValidateAccessToProtectedPage
Event ID 17 - IAF mitigation audited
Message: “Process '%2' (PID %3) would have been blocked from accessing the Import Address Table for API '%10'."
Level: 0 (Log Always)
Function that generates the event: PayloadRestrictions!MitLibProcessIAFGuardPage
Description: The import address table was accessed by code that is not backed by an image on disk.
Event ID 18 - IAF mitigation enforced
Message: “Process '%2' (PID %3) was blocked from accessing the Import Address Table for API '%10'."
Level: 3 (Warning)
Function that generates the event: PayloadRestrictions!MitLibProcessIAFGuardPage
Event Properties
Subcode
Specifies a value in the range of 1-4 that indicates how how the event was triggered.
- 1 - Indicates that the classic EAF mitigation was triggered. This subcode is used if the instruction pointer address used to access the EAF does not map to a DLL that was loaded from disk (ntdll!RtlPcToFileHeader (https://docs.microsoft.com/en-us/windows/desktop/api/winnt/nf-winnt-rtlpctofileheader) is used to make this determination).
- 2 - Indicates that the stack registers ([R|S]P and [R|E]BP) fall outside the stack extent of the current thread. This is one of the EAF+ mitigations.
- 3 - Indicates that a memory reader gadget was used to access the EAF. PayloadRestrictions.dll statically links a disassembler library that attempts to make this determination. This is one of the EAF+ mitigations.
- 4 - Indicates that the IAF mitigation triggered. This also implies that the APIName property will be populated.
ProcessPath
The full path of the process in which the EAF/IAF mitigation triggered.
ProcessId
The process ID of the process in which the EAF/IAF mitigation triggered.
ModuleFullPath
The full path of the module that caused the mitigation to trigger. This value will be empty if the subcode value is 1.
ModuleBase
The base address of the module that caused the mitigation to trigger. This value will be 0 if the subcode value is 1.
ModuleAddress
The instruction pointer address ([R|E]IP) upon the mitigation triggering. This property is only relevant to the EAF mitigations. It does not apply to the IAF mitigation.
MemAddress
The virtual address that was accessed within a protected module that triggered a guard page exception. This property is only relevant to the EAF mitigations. It does not apply to the IAF mitigation.
MemModuleFullPath
The full path of the protected module that was accessed. This string is obtained from LDR_DATA_TABLE_ENTRY.FullDllName in the PEB. This property is only relevant to the EAF mitigations. It does not apply to the IAF mitigation.
MemModuleBase
The base address of the protected module that was accessed.
APIName
The blacklisted export function name that was accessed. This property is only applicable to the IAF mitigation. The following APIs are included in the blacklist: GetProcAddressForCaller, LdrGetProcedureAddress, LdrGetProcedureAddressEx, CreateProcessAsUserA, CreateProcessAsUserW, GetModuleHandleA, GetModuleHandleW, RtlDecodePointer, DecodePointer.
ProcessStartTime
The creation time of the process specified in ProcessPath/ProcessId. The process time is obtained by calling NtQueryInformationProcess (https://docs.microsoft.com/en-us/windows/desktop/api/winternl/nf-winternl-ntqueryinformationprocess) with ProcessTimes as the ProcessInformationClass argument. The process time is obtained from the CreateTime field of the KERNEL_USER_TIMES structure.
ThreadId
The thread ID of the thread that generated the event.
Event ID 19 - ROP mitigation audited: Stack Pivot
Message: Process '%2' (PID %3) would have been blocked from calling the API '%4' due to return-oriented programming (ROP) exploit indications.
Level: 0 (Log Always)
Function that generates the event: PayloadRestrictions!MitLibNotifyStackPivotViolation
Description: A ROP stack pivot was detection by observing that the stack pointer fell outside the stack extent (stack base and stack limit) for the current thread.
Event ID 20 - ROP mitigation enforced: Stack Pivot
Message: Process '%2' (PID %3) was blocked from calling the API '%4' due to return-oriented programming (ROP) exploit indications.
Level: 3 (Warning)
Function that generates the event: PayloadRestrictions!MitLibNotifyStackPivotViolation
Event ID 21 - ROP mitigation audited: Caller Checks
Message: Process '%2' (PID %3) would have been blocked from calling the API '%4' due to return-oriented programming (ROP) exploit indications.
Level: 0 (Log Always)
Function that generates the event: PayloadRestrictions!MitLibRopCheckCaller
Description: This event is logged if one of the functions listed in the HookedAPI section below was not called with a call instruction - e.g. called with via a RET instruction.
Event ID 22 - ROP mitigation enforced: Caller Checks
Message: Process '%2' (PID %3) was blocked from calling the API '%4' due to return-oriented programming (ROP) exploit indications.
Level: 3 (Warning)
Function that generates the event: PayloadRestrictions!MitLibRopCheckCaller
Event ID 23 - ROP mitigation audited: Simulate Execution Flow
Message: Process '%2' (PID %3) would have been blocked from calling the API '%4' due to return-oriented programming (ROP) exploit indications.
Level: 0 (Log Always)
Function that generates the event: PayloadRestrictions!MitLibRopCheckSimExecFlow
Description: The simulate execution flow mitigation simulates continued execution of any of the functions listed in HookedAPI section and if any of the return logic along the stack resembles ROP behavior, this event is triggered.
Event ID 24 - ROP mitigation enforced: Simulate Execution Flow
Message: Process '%2' (PID %3) was blocked from calling the API '%4' due to return-oriented programming (ROP) exploit indications.
Level: 3 (Warning)
Function that generates the event: PayloadRestrictions!MitLibRopCheckSimExecFlow
Event Properties
Subcode
Specifies a value in the range of 5-7 that indicates how how the event was triggered.
- 5 - Indicates that the stack pivot ROP mitigation was triggered.
- 6 - Indicates that the “caller checks" ROP mitigation was triggered.
- 7 - Indicates that the “simulate execution flow" ROP mitigation was triggered.
ProcessPath
The full path of the process in which the ROP mitigation triggered.
ProcessId
The process ID of the process in which the ROP mitigation triggered.
HookedAPI
The name of the monitored API that triggered the event. The following hooked APIs are monitored: LoadLibraryA, LoadLibraryW, LoadLibraryExA, LoadLibraryExW, LdrLoadDll, VirtualAlloc, VirtualAllocEx, NtAllocateVirtualMemory, VirtualProtect, VirtualProtectEx, NtProtectVirtualMemory, HeapCreate, RtlCreateHeap, CreateProcessA, CreateProcessW, CreateProcessInternalA, CreateProcessInternalW, NtCreateUserProcess, NtCreateProcess, NtCreateProcessEx, CreateRemoteThread, CreateRemoteThreadEx, NtCreateThreadEx, WriteProcessMemory, NtWriteVirtualMemory, WinExec, LdrGetProcedureAddressForCaller, GetProcAddress, GetProcAddressForCaller, LdrGetProcedureAddress, LdrGetProcedureAddressEx, CreateProcessAsUserA, CreateProcessAsUserW, GetModuleHandleA, GetModuleHandleW, RtlDecodePointer, DecodePointer
ReturnAddress
I was unable to spend too much time reversing PayloadRestrictions.dll to how this property is populated but based on fired events and inference, this property indicates the return address for the current stack frame that triggered the ROP event. A return address that pointed to an address in the stack or to an address of another ROP gadget (a small sequence of instructions followed by a return instruction) would be considered suspicious.
CalledAddress
This appears to be the address of the hooked, blacklisted API that was called by the potential ROP chain.
TargetAddress
This value appears to be the target call/jump address of the ROP gadget to which control was to be transferred via non-traditional means. The TargetAddress value is zero when the “simulate execution flow" ROP mitigation was triggered.
StackAddress
The stack address triggering the stack pivot ROP mitigation. This value only populated with the stack pivot ROP mitigation. The StackAddress value is zero when the “simulate execution flow" and “caller checks" ROP mitigations are triggered. When StackAddress is populated, it would indicate that the stack address falls outside the stack extent (NT_TIB StackBase/StackLimit range) for the current thread.
FrameAddress
This value is zeroed out in code so it is unclear what it’s intended purpose is.
ReturnAddressModuleFullPath
The full path of the module that is backed by the ReturnAddress property (via ntdll!RtlPcToFileHeader and ntdll!LdrGetDllFullName). If ReturnAddress is not backed by a disk-backed module, this property will be empty.
ProcessStartTime
The creation time of the process specified in ProcessPath/ProcessId. The process time is obtained by calling NtQueryInformationProcess (https://docs.microsoft.com/en-us/windows/desktop/api/winternl/nf-winternl-ntqueryinformationprocess) with ProcessTimes as the ProcessInformationClass argument. The process time is obtained from the CreateTime field of the KERNEL_USER_TIMES structure.
ThreadId
The thread ID of the thread that generated the event.
Event ID 260 - A GDI-based font not installed in the system fonts directory was prevented from being loaded
Message: “%1 attempted loading a font that is restricted by font loading policy.
FontType: %2
FontPath: %3
Blocked: %4"
Level: 0 (Log Always)
Function that generates the event: win32kbase!EtwFontLoadAttemptEvent
Description: This mitigation is detailed in this blog post (http://blogs.360.cn/post/windows10_font_security_mitigations.html).
Event Properties
SourceProcessName
Specifies the name of the process that attempted to load the font.
SourceType
Refers to an undocumented W32KFontSourceType enum that based on calls to win32kfull!ScrutinizeFontLoad can be any of the following values:
- 0 - “LoadPublicFonts" - Supplied via win32kfull!bCreateSectionFromHandle ()
- 1 - “LoadMemFonts" - Supplied via win32kfull!PUBLIC_PFTOBJ::hLoadMemFonts
- 2 - “LoadRemoteFonts" - Supplied via win32kfull!PUBLIC_PFTOBJ::bLoadRemoteFonts
- 3 - “LoadDeviceFonts" - Supplied via win32kfull!DEVICE_PFTOBJ::bLoadFonts
FontSourcePath
Specifies the path to the font that attempted to load.
Blocked
A value of 1 specifies that the font was blocked from loading. A value of 0 indicates that the font was allowed to load but was logged.
Event ID 5 - Control Flow Guard (CFG) Violation
Event source: Microsoft-Windows-WER-Diag
Message: “CFG violation is detected."
Level: 0 (Log Always)
Function that generates the event: werfault!CTIPlugin::NotifyCFGViolation
Description: A description of the CFG mitigation can be found here (https://docs.microsoft.com/en-us/windows/desktop/SecBP/control-flow-guard). Specific event field documentation could not be completed in a reasonable amount of time.
AppPath
ProcessId
ProcessStartTime
Is64Bit
CallReturnAddress
CallReturnModName
CallReturnModOffset
CallReturnInstructionBytesLength
CallReturnInstructionBytes
CallReturnBaseAddress
CallReturnRegionSize
CallReturnState
CallReturnProtect
CallReturnType
TargetAddress
TargetModName
TargetModOffset
TargetInstructionBytesLength
TargetInstructionBytes
TargetBaseAddress
TargetRegionSize
TargetState
TargetProtect
TargetType