SOS.dll (SOS Debugging Extension)
The SOS Debugging Extension (SOS.dll) helps you debug managed programs in Visual Studio and in the Windows debugger (WinDbg.exe) by providing information about the internal common language runtime (CLR) environment. This tool requires your project to have unmanaged debugging enabled. SOS.dll is automatically installed with the .NET Framework. To use SOS.dll in Visual Studio, install the Windows Driver Kit (WDK).
If you are using Visual Studio 2013, SOS.dll is supported in the Windows Debugger within Visual Studio, but not in the Immediate window of the Visual Studio debugger.
Displays the information for the last OOM that occurred on an allocation request to the garbage collection heap. (In server garbage collection, it displays OOM, if any, on each garbage collection heap.)
BPMD [-nofuturemodule] [<module name> <method name>] [-md <MethodDesc>] -list -clear <pending breakpoint number> -clearall
Creates a breakpoint at the specified method in the specified module.
If the specified module and method have not been loaded, this command waits for a notification that the module was loaded and just-in-time (JIT) compiled before creating a breakpoint.
You can manage the list of pending breakpoints by using the -list, -clear, and -clearall options:
CLRStack [-a] [-l] [-p] [-n]
Provides a stack trace of managed code only.
The SOS Debugging Extension does not display transition frames on x64 and IA-64-based platforms.
Lists the COM apartment model for each thread and a Context pointer, if available.
DumpArray [-start <startIndex>] [-length <length>] [-details] [-nofields] <array object address>
DA [-start <startIndex>] [-length <length>] [-detail] [-nofields] array object address>
Examines elements of an array object.
DumpAssembly <assembly address>
Displays information about an assembly.
The DumpAssembly command lists multiple modules, if they exist.
You can get an assembly address by using the DumpDomain command.
DumpClass <EEClass address>
Displays information about the EEClass structure associated with a type.
The DumpClass command displays static field values but does not display nonstatic field values.
Use the DumpMT, DumpObj, Name2EE, or Token2EE command to get an EEClass structure address.
DumpDomain [<domain address>]
DumpHeap [-stat] [-strings] [-short] [-min <size>] [-max <size>] [-thinlock] [-startAtLowerBound] [-mt <MethodTable address>] [-type <partial type name>][start [end]]
Displays information about the garbage-collected heap and collection statistics about objects.
The DumpHeap command displays a warning if it detects excessive fragmentation in the garbage collector heap.
DumpIL <Managed DynamicMethod object> | <DynamicMethodDesc pointer> | <MethodDesc pointer>
Displays the Microsoft intermediate language (MSIL) that is associated with a managed method.
Note that dynamic MSIL is emitted differently than MSIL that is loaded from an assembly. Dynamic MSIL refers to objects in a managed object array rather than to metadata tokens.
DumpLog [-addr <addressOfStressLog>] [<Filename>]
Writes the contents of an in-memory stress log to the specified file. If you do not specify a name, this command creates a file called StressLog.txt in the current directory.
The in-memory stress log helps you diagnose stress failures without using locks or I/O. To enable the stress log, set the following registry keys under HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\.NETFramework:
(DWORD) StressLog = 1
(DWORD) LogFacility = 0xffffffff
(DWORD) StressLogSize = 65536
The optional -addr option lets you specify a stress log other than the default log.
DumpMD <MethodDesc address>
Displays information about a MethodDesc structure at the specified address.
You can use the IP2MD command to get the MethodDesc structure address from a managed function.
DumpMT [-MD] <MethodTable address>
Displays information about a method table at the specified address. Specifying the -MD option displays a list of all methods defined with the object.
Each managed object contains a method table pointer.
DumpMethodSig <sigaddr> <moduleaddr>
Displays information about a MethodSig structure at the specified address.
DumpModule [-mt] <Module address>
Displays information about a module at the specified address. The -mt option displays the types defined in a module and the types referenced by the module
You can use the DumpDomain or DumpAssembly command to retrieve a module's address.
DumpObj [-nofields] <object address>
DO <object address>
Displays information about an object at the specified address. The DumpObj command displays the fields, the EEClass structure information, the method table, and the size of the object.
You can use the DumpStackObjects command to retrieve an object's address.
Note that you can run the DumpObj command on fields of type CLASS because they are also objects.
The -nofields option prevents fields of the object being displayed, it is useful for objects like String.
Displays the runtime type objects in the garbage collector heap and lists their associated type names and method tables.
DumpStack [-EE] [-n] [top stack [bottom stack]]
Displays a stack trace.
On x86 and x64 platforms, the DumpStack command creates a verbose stack trace.
On IA-64-based platforms, the DumpStack command mimics the debugger's K command. The top and bottom parameters are ignored on IA-64-based platforms.
DumpSig <sigaddr> <moduleaddr>
Displays information about a Sig structure at the specified address.
DumpSigElem <sigaddr> <moduleaddr>
Displays a single element of a signature object. In most cases, you should use DumpSig to look at individual signature objects. However, if a signature has been corrupted in some way, you can use DumpSigElem to read the valid portions of it.
DumpStackObjects [-verify] [top stack [bottom stack]]
DSO [-verify] [top stack [bottom stack]]
Displays all managed objects found within the bounds of the current stack.
The -verify option validates each non-static CLASS field of an object field.
Use the DumpStackObject command with stack tracing commands such as the K command and the CLRStack command to determine the values of local variables and parameters.
DumpVC <MethodTable address> <Address>
Displays information about the fields of a value class at the specified address.
The MethodTable parameter allows the DumpVC command to correctly interpret fields. Value classes do not have a method table as their first field.
EEHeap [-gc] [-loader]
Displays information about process memory consumed by internal common language runtime data structures.
The -gc and -loader options limit the output of this command to garbage collector or loader data structures.
The information for the garbage collector lists the ranges of each segment in the managed heap. If the pointer falls within a segment range given by -gc, the pointer is an object pointer.
EEStack [-short] [-EE]
Runs the DumpStack command on all threads in the process.
The -EE option is passed directly to the DumpStack command. The -short parameter limits the output to the following kinds of threads:
Displays the common language runtime version.
EHInfo [<MethodDesc address>] [<Code address>]
Displays the exception handling blocks in a specified method. This command displays the code addresses and offsets for the clause block (the try block) and the handler block (the catch block).
Displays frequently asked questions.
FinalizeQueue [-detail] | [-allReady] [-short]
Displays all objects registered for finalization.
FindAppDomain <Object address>
Determines the application domain of an object at the specified address.
FindRoots -gen <N> | -gen any | <object address>
Causes the debugger to break in the debuggee on the next collection of the specified generation. The effect is reset as soon as the break occurs. To break on the next collection, you have to reissue the command. The <object address> form of this command is used after the break caused by the -gen or -gen any has occurred. At that time, the debuggee is in the right state for FindRoots to identify roots for objects from the current condemned generations.
Displays statistics about garbage collector handles in the process.
The -perdomain option arranges the statistics by application domain.
Use the GCHandles command to find memory leaks caused by garbage collector handle leaks. For example, a memory leak occurs when code retains a large array because a strong garbage collector handle still points to it, and the handle is discarded without freeing it.
Searches memory for any references to strong and pinned garbage collector handles in the process and displays the results. If a handle is found, the GCHandleLeaks command displays the address of the reference. If a handle is not found in memory, this command displays a notification.
GCInfo <MethodDesc address> <Code address>
Displays data that indicates when registers or stack locations contain managed objects. If a garbage collection occurs, the collector must know the locations of references to objects so it can update them with new object pointer values.
GCRoot [-nostacks] <Object address>
Displays information about references (or roots) to an object at the specified address.
The GCRoot command examines the entire managed heap and the handle table for handles within other objects and handles on the stack. Each stack is then searched for pointers to objects, and the finalizer queue is also searched.
This command does not determine whether a stack root is valid or is discarded. Use the CLRStack and U commands to disassemble the frame that the local or argument value belongs to in order to determine if the stack root is still in use.
The -nostacks option restricts the search to garbage collector handles and freachable objects.
GCWhere <object address>
Displays the location and size in the garbage collection heap of the argument passed in. When the argument lies in the managed heap but is not a valid object address, the size is displayed as 0 (zero).
help [<command>] [faq]
Displays all available commands when no parameter is specified, or displays detailed help information about the specified command.
The faq parameter displays answers to frequently asked questions.
HeapStat [-inclUnrooted | -iu]
Displays the generation sizes for each heap and the total free space in each generation on each heap. If the -inclUnrooted option is specified, the report includes information about the managed objects from the garbage collection heap that is no longer rooted.
Releases any resources used by the family of Hist commands.
Generally, you do not have to explicitly call HistClear, because each HistInit cleans up the previous resources.
Initializes the SOS structures from the stress log saved in the debuggee.
Examines all stress log relocation records and displays the chain of garbage collection relocations that may have led to the address passed in as an argument.
Displays all the log entries that reference an object at the specified address.
Displays information related to both promotions and relocations of the specified root.
The root value can be used to track the movement of an object through the garbage collections.
IP2MD <Code address>
Displays the MethodDesc structure at the specified address in code that has been JIT-compiled.
ListNearObj (lno) <obj_address>
Displays the objects preceding and following the specified address. The command looks for the address in the garbage collection heap that looks like a valid beginning of a managed object (based on a valid method table) and the object following the argument address.
MinidumpMode  
Prevents running unsafe commands when using a minidump.
Pass 0 to disable this feature or 1 to enable this feature. By default, the MinidumpMode value is set to 0.
Minidumps created with the .dump /m command or .dump command have limited CLR-specific data and allow you to run only a subset of SOS commands correctly. Some commands may fail with unexpected errors because required areas of memory are not mapped or are only partially mapped. This option protects you from running unsafe commands against minidumps.
Name2EE <module name> <type or method name>
Name2EE <module name>!<type or method name>
Displays the MethodTable structure and EEClass structure for the specified type or method in the specified module.
The specified module must be loaded in the process.
To get the proper type name, browse the module by using the Ildasm.exe (IL Disassembler). You can also pass * as the module name parameter to search all loaded managed modules. The module name parameter can also be the debugger's name for a module, such as mscorlib or image00400000.
This command supports the Windows debugger syntax of <module>!<type>. The type must be fully qualified.
ObjSize [<Object address>] | [-aggregate] [-stat]
Displays the size of the specified object. If you do not specify any parameters, the ObjSize command displays the size of all objects found on managed threads, displays all garbage collector handles in the process, and totals the size of any objects pointed to by those handles. The ObjSize command includes the size of all child objects in addition to the parent.
The -aggregate option can be used in conjunction with the -stat argument to get a detailed view of the types that are still rooted. By using !dumpheap -stat and !objsize -aggregate -stat, you can determine which objects are no longer rooted and diagnose various memory issues.
PrintException [-nested] [-lines] [<Exception object address>]
PE [-nested] [<Exception object address>]
Displays and formats fields of any object derived from the Exception class at the specified address. If you do not specify an address, the PrintException command displays the last exception thrown on the current thread.
You can use this command to format and view the _stackTrace field, which is a binary array.
ProcInfo [-env] [-time] [-mem]
Displays environment variables for the process, kernel CPU time, and memory usage statistics.
RCWCleanupList <RCWCleanupList address>
Displays the list of runtime callable wrappers at the specified address that are awaiting cleanup.
SaveModule <Base address> <Filename>
Writes an image, which is loaded in memory at the specified address, to the specified file.
Flushes an internal SOS cache.
StopOnException [-derived] [-create | -create2] <Exception> <Pseudo-register number>
Causes the debugger to stop when the specified exception is thrown, but to continue running when other exceptions are thrown.
The -derived option catches the specified exception and every exception that derives from the specified exception.
SyncBlk [-all | <syncblk number>]
Displays the specified SyncBlock structure or all SyncBlock structures. If you do not pass any arguments, the SyncBlk command displays the SyncBlock structure corresponding to objects that are owned by a thread.
A SyncBlock structure is a container for extra information that does not need to be created for every object. It can hold COM interop data, hash codes, and locking information for thread-safe operations.
Displays information about the managed thread pool, including the number of work requests in the queue, the number of completion port threads, and the number of timers.
Token2EE <module name> <token>
Turns the specified metadata token in the specified module into a MethodTable structure or MethodDesc structure.
You can pass * for the module name parameter to find what that token maps to in every loaded managed module. You can also pass the debugger's name for a module, such as mscorlib or image00400000.
Threads [-live] [-special]
Displays all managed threads in the process.
The Threads command displays the debugger shorthand ID, the common language runtime thread ID, and the operating system thread ID. Additionally, the Threads command displays a Domain column that indicates the application domain in which a thread is executing, an APT column that displays the COM apartment mode, and an Exception column that displays the last exception thrown in the thread.
ThreadState <State value field>
Displays the state of the thread. The value parameter is the value of the State field in the Threads report output.
0:003> !Threads ThreadCount: 2 UnstartedThread: 0 BackgroundThread: 1 PendingThread: 0 DeadThread: 0 Hosted Runtime: no PreEmptive GC Alloc Lock ID OSID ThreadOBJ State GC Context Domain Count APT Exception 0 1 250 0019b068 a020 Disabled 02349668:02349fe8 0015def0 0 MTA 2 2 944 001a6020 b220 Enabled 00000000:00000000 0015def0 0 MTA (Finalizer) 0:003> !ThreadState b220 Legal to Join Background CLR Owns CoInitialized In Multi Threaded Apartment
TraverseHeap [-xml] <filename>
Writes heap information to the specified file in a format understood by the CLR profiler. The -xml option causes the TraverseHeap command to format the file as XML.
You can download the CLR Profiler from the Microsoft Download Center.
U [-gcinfo] [-ehinfo] [-n] <MethodDesc address> | <Code address>
Displays an annotated disassembly of a managed method specified either by a MethodDesc structure pointer for the method or by a code address within the method body. The U command displays the entire method from start to finish, with annotations that convert metadata tokens to names.
Checks the garbage collector heap for signs of corruption and displays any errors found.
Heap corruptions can be caused by platform invoke calls that are constructed incorrectly.
VerifyObj <object address>
Checks the object that is passed as an argument for signs of corruption.
Traverses the virtual address space and displays the type of protection applied to each region.
Provides a summary view of the virtual address space, ordered by each type of protection applied to that memory (free, reserved, committed, private, mapped, image). The TOTAL column displays the result of the AVERAGE column multiplied by the BLK COUNT column.
The SOS Debugging Extension lets you view information about code that is running inside the common language runtime. For example, you can use the SOS Debugging Extension to display information about the managed heap, look for heap corruptions, display internal data types used by the runtime, and view information about all managed code running inside the runtime.
To use the SOS Debugging Extension in Visual Studio, install the Windows Driver Kit (WDK). For information about the integrated debugging environment in Visual Studio, see Debugging Environments in the Windows Dev Center.
You can also use the SOS Debugging Extension by loading it into the WinDbg.exe debugger, which is available from the WDK and Developer Tools Web site, and executing commands within WinDbg.exe.
To load the SOS Debugging Extension into the WinDbg.exe debugger, run the following command in the tool:
.loadby sos clr
WinDbg.exe and Visual Studio use a version of SOS.dll that corresponds to the version of Mscorwks.dll currently in use. In versions 1.1 and 2.0 of the .NET Framework, SOS.dll is installed in the same directory as Mscorwks.dll. By default, you should use the version of SOS.dll that matches the current version of Mscorwks.dll.
To use a dump file created on another computer, make sure that the Mscorwks.dll file that came with that installation is in your symbol path, and load the corresponding version of SOS.dll.
To load a specific version of SOS.dll, type the following command into the Windows Debugger:
.load <full path to sos.dll>
The following command displays the contents of an array at the address 00ad28d0. The display starts from the second element and continues for five elements.
!dumparray -start 2 -length 5 -detail 00ad28d0
The following command displays the contents of an assembly at the address 1ca248.
The following command displays information about the garbage collector heap.
The following command writes the contents of the in-memory stress log to a (default) file called StressLog.txt in the current directory.
The following command displays the MethodDesc structure at the address 902f40.
The following command displays information about a module at the address 1caa50.
The following command displays information about an object at the address a79d40.
The following command displays the fields of a value class at the address 00a79d9c using the method table at the address 0090320c.
!DumpVC 0090320c 00a79d9c
The following command displays the process memory used by the garbage collector.
The following command displays all objects scheduled for finalization.
The following command determines the application domain of an object at the address 00a79d98.
The following command displays all garbage collector handles in the current process.
The following command displays the MethodTable and EEClass structures for the Main method in the class MainClass in the module unittest.exe.
!name2ee unittest.exe MainClass.Main
The following command displays information about the metadata token at the address 02000003 in the module unittest.exe.
!token2ee unittest.exe 02000003