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Difference between revisions of "DN BOFinder"

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DN_BOFinder v0.2 - Feb 2007  
 
DN_BOFinder v0.2 - Feb 2007  
  
The DN_BOFinder (DotNet Buffer Overflow Finder) is a semi-inteligent tool designed to find Buffer Overflows type vulnerabilities in COM objects used by .NET Assemblies (and mistakes in unsafe .Net code blocks).
+
The DN_BOFinder (DotNet Buffer Overflow Finder) is a semi-intelligent tool designed to find Buffer Overflows type vulnerabilities in COM objects used by .NET Assemblies (and mistakes in unsafe .Net code blocks).
  
 
This project was created by Dinis Cruz.
 
This project was created by Dinis Cruz.
  
== Downnload ==
+
== Download ==
  
 
The latest version (0.2) can be downloaded from SourceForge: [http://sourceforge.net/project/showfiles.php?group_id=64424&package_id=105632&release_id=519695]
 
The latest version (0.2) can be downloaded from SourceForge: [http://sourceforge.net/project/showfiles.php?group_id=64424&package_id=105632&release_id=519695]
Line 22: Line 22:
 
* use of an 'ExcludeList'to list the classes/methods that should be further analyzed
 
* use of an 'ExcludeList'to list the classes/methods that should be further analyzed
 
* auto detection of methods that consume large amounts of memory (currently set to 20M) and auto-detection of methods that 'hang' (some callbacks or windows pop-ups have this behaviour).The methods identified are automatically added to the 'ExcludeList'
 
* auto detection of methods that consume large amounts of memory (currently set to 20M) and auto-detection of methods that 'hang' (some callbacks or windows pop-ups have this behaviour).The methods identified are automatically added to the 'ExcludeList'
* The results are current quite conservative (i.e. only the realy bad exeptions are shown). this means that there might be several exploitable vulnerabilies that are currenly reported as 'Normal CLR exception'
+
* The results are current quite conservative (i.e. only the really bad exceptions are shown). this means that there might be several exploitable vulnerabilities that are currently reported as 'Normal CLR exception'
 
* A big blind spot at the moment is that the current version does not fuzz certain static methods (which can be invoked without need of a constructor (i.e. a live instance))
 
* A big blind spot at the moment is that the current version does not fuzz certain static methods (which can be invoked without need of a constructor (i.e. a live instance))
 
* When it finds an interface it tries to find who implements that interface and tries to create an instance of them (supports caching of objects for performance reasons). The problem here is that the class created is not documented, and ideally we should be fuzzing each of those implementations (especially in the cases where that Interface is used as a parameter)
 
* When it finds an interface it tries to find who implements that interface and tries to create an instance of them (supports caching of objects for performance reasons). The problem here is that the class created is not documented, and ideally we should be fuzzing each of those implementations (especially in the cases where that Interface is used as a parameter)
Line 48: Line 48:
 
* the fact that we don't fuzz the same method twice creates some blind spots (since some errors occur by state changes in previous methods)
 
* the fact that we don't fuzz the same method twice creates some blind spots (since some errors occur by state changes in previous methods)
 
* the payloads are still quite basic, in a future version the fuzzing of live objects (i.e. variation of it) will be implemented
 
* the payloads are still quite basic, in a future version the fuzzing of live objects (i.e. variation of it) will be implemented
* the creation of live instances is still not very cleaver and has problem with more complex types (like the ones that require a file to be loaded before some of its methods make sense). The plan is to implement a new fuzzing mode where we are able to use real objects created during an execution of an real application (for exemple an win32 gui app or an ASP.NET website) and fuzz them.
+
* the creation of live instances is still not very cleaver and has problem with more complex types (like the ones that require a file to be loaded before some of its methods make sense). The plan is to implement a new fuzzing mode where we are able to use real objects created during an execution of an real application (for example an win32 gui app or an ASP.NET website) and fuzz them.
  
 
====Bugs and to-do-list====
 
====Bugs and to-do-list====
Line 121: Line 121:
 
  0:000>
 
  0:000>
  
Which is an error that occured inside the mscorwks.dll and was the reason the .NET assembly crashed.  
+
Which is an error that occurred inside the mscorwks.dll and was the reason the .NET assembly crashed.  
 
The exeption  mscorwks!IEE+0x13277 is actually quite common, and I think it is a false positive since it looks like part of a method that checks for bad points (which is weird method to check it, but it seems to be quite common on the CLR). I need to load the symbols in my dev laptop (which is always offline btw :) ) to see where mscorwks!IEE+0x13277 resolves to.
 
The exeption  mscorwks!IEE+0x13277 is actually quite common, and I think it is a false positive since it looks like part of a method that checks for bad points (which is weird method to check it, but it seems to be quite common on the CLR). I need to load the symbols in my dev laptop (which is always offline btw :) ) to see where mscorwks!IEE+0x13277 resolves to.
  
Line 158: Line 158:
 
  Normal CLR Exception in System.CodeDom.CodeMemberMethod.remove_PopulateStatements(System.EventHandler) [0]
 
  Normal CLR Exception in System.CodeDom.CodeMemberMethod.remove_PopulateStatements(System.EventHandler) [0]
  
so what is happening here is, you get an [INFO] everytime a fuzzing session starts (i.e. new process) and we have a bunch of 'Normal CLR Exception' entries (which crash the CLR but I think are false positives (I would actually put money that some of these might be exploitable (most are null pointers)). Note for example that the case I shown above (System.Text.RegularExpressions.MatchEvaluator) is here shown as a 'Normal CLR Exception'
+
so what is happening here is, you get an [INFO] every time a fuzzing session starts (i.e. new process) and we have a bunch of 'Normal CLR Exception' entries (which crash the CLR but I think are false positives (I would actually put money that some of these might be exploitable (most are null pointers)). Note for example that the case I shown above (System.Text.RegularExpressions.MatchEvaluator) is here shown as a 'Normal CLR Exception'
  
 
Every time a 'CLR Exception' occurs, its signature is added to the MethodsFuzzed list and the process restarts (only in the cases where the error doesn't match one of my hard-coded signatures the methods are added to the ExcludeList and its data added to the ExceptionData.
 
Every time a 'CLR Exception' occurs, its signature is added to the MethodsFuzzed list and the process restarts (only in the cases where the error doesn't match one of my hard-coded signatures the methods are added to the ExcludeList and its data added to the ExceptionData.
Line 164: Line 164:
 
...
 
...
  
Eventually you start to get some more interresting issues like for example:
+
Eventually you start to get some more interesting issues like for example:
  
 
  [INFO]: Fuzzing system.dll (12676 methods, 889 types): 167 type processed
 
  [INFO]: Fuzzing system.dll (12676 methods, 889 types): 167 type processed

Latest revision as of 15:55, 7 February 2014

DN_BOFinder v0.2 - Feb 2007

The DN_BOFinder (DotNet Buffer Overflow Finder) is a semi-intelligent tool designed to find Buffer Overflows type vulnerabilities in COM objects used by .NET Assemblies (and mistakes in unsafe .Net code blocks).

This project was created by Dinis Cruz.

Download

The latest version (0.2) can be downloaded from SourceForge: [1]


Features

Here are some of its features:

  • Supports fuzzing of individual methods, *.dll files and entire directories
  • Works by using Reflection to create 'live instances' of classes and then fuzzing each of the exposed methods
  • there are currently 16 different payloads for basic types (int, unint, char) and strings
  • Fully automated use of cdb to find issues (i.e. you can start the fuzzer and go for lunch)
  • use of an 'FuzzedMethods' list for each fuzzed dll to avoid re-fuzzing the same methods
  • stored of exception information in an 'ExceptionData' file (per dll)
  • use of an 'ExcludeList'to list the classes/methods that should be further analyzed
  • auto detection of methods that consume large amounts of memory (currently set to 20M) and auto-detection of methods that 'hang' (some callbacks or windows pop-ups have this behaviour).The methods identified are automatically added to the 'ExcludeList'
  • The results are current quite conservative (i.e. only the really bad exceptions are shown). this means that there might be several exploitable vulnerabilities that are currently reported as 'Normal CLR exception'
  • A big blind spot at the moment is that the current version does not fuzz certain static methods (which can be invoked without need of a constructor (i.e. a live instance))
  • When it finds an interface it tries to find who implements that interface and tries to create an instance of them (supports caching of objects for performance reasons). The problem here is that the class created is not documented, and ideally we should be fuzzing each of those implementations (especially in the cases where that Interface is used as a parameter)
  • When in auto mode, it auto-restarts fuzzing session after a predefined number of seconds (this also helps in long fuzzing sessions since the process is refreshed regularly, which of course might also introduce some blind spots)
  • Files:
    • The binary (DN_BOFinder.exe) can be found on the DN_BOFinder_V0.2\binary folder
    • The results will inside the DN_BOFinder_V0.2\binary\_fuzz_results folder (created on first run)
    • The source code is in DN_BOFinder_V0.2\Source Code


fuzzing modes

There are 5 operational fuzzing modes:

  • File ::: to Fuzz a file (in this mode a CLR crash will also crash the fuzzer)
  • File Auto ::: to Fuzz a file automatically (in this mode new processes of DN_BOFinder are started in the 'File' Mode under cdb (Microsoft's Command Line Debugger). The cdb output is analyzed for unhandled exception data which when discovered is appended to the 'ExepctionData'
  • Dir ::: to fuzz directories (basically invoking 'File Auto' for each *.dll in the target directory
  • Method ::: to fuzz a method directly
  • Method Auto ::: to fuzz a method automatically (this will invoke the method using the number of payloads specified)


Current limitations

  • when one of the create parameters value is null, the method is not invoked (since it was throwing a lot of errors). This is a legacy from the first version of this fuzzer (before cdb automation) so it should be possible to remove this now
  • Need to add support for call stack information (and sequence of methods invoked) since sometimes the exception is not thrown by the method we fuzzed (and we need those details to replicate the state of that issue)
  • the fact that we don't fuzz the same method twice creates some blind spots (since some errors occur by state changes in previous methods)
  • the payloads are still quite basic, in a future version the fuzzing of live objects (i.e. variation of it) will be implemented
  • the creation of live instances is still not very cleaver and has problem with more complex types (like the ones that require a file to be loaded before some of its methods make sense). The plan is to implement a new fuzzing mode where we are able to use real objects created during an execution of an real application (for example an win32 gui app or an ASP.NET website) and fuzz them.

Bugs and to-do-list

  • we should delete the 'ExcludeList'and 'ExceptionData' when nothing is found
  • list the methods/classes that we couldn't fuzz
  • Add a Gui
  • Add code coverage
  • export results in XML format
  • add directory recursive capabilities to the 'Dir' fuzzing mode



HOW-TO use instructions

'Fuzzing MsCorLib'

> binary\DN_BOFinder.exe file mscorlib.dll

by default if no path is included, DN_BOFinder will try to find the file in the current directory or in the main .Net 2.0 directory

If all goes well you will see a large number of entries that look like these:

[INFO]: Fuzzing mscorlib.dll (18372 methods, 1264 types): 0 type processed
...
>>> Fuzzing System.Object [0]<<<:
...
***************************************************
*********
*********   System.Object[] - FuzzIndex: 0
*********
***************************************************
...
[6:03 AM] > Executing System.Int32.System.IConvertible.ToBoolean(System.IFormatProvider) [0]:
[6:03 AM] > Executing System.Int32.System.IConvertible.ToChar(System.IFormatProvider) [0]:
[6:03 AM] > Executing System.Int32.System.IConvertible.ToSByte(System.IFormatProvider) [0]:


while this is running, open the \DN_BOFinder_V0.2\binary\_fuzz_results folder and you will see three files in there:

* mscorlib.dll_ExceptionData.txt     - Will contain details about exeptions discovered (only in auto or dir modes)
* mscorlib.dll_ExcludeList.txt       - Will contain a list of methods to exclude (only in auto or dir modes)
* mscorlib.dll_FuzzedMethods.txt     - will contain a list of methods and classes that have been fuzzed

now try

> DN_BOFinder file system.dll

and you should get a crash (of the CLR) in the method:

>>> Fuzzing System.Text.RegularExpressions.MatchEvaluator [0]<<<:

run it under a debugger:

> cdb DN_BOFinder file system.dll 
(press g)

and you should get this exception data:

(d64.bb0): CLR exception - code e0434f4d (first chance)
(d64.bb0): CLR exception - code e0434f4d (first chance)
(d64.bb0): Access violation - code c0000005 (first chance)
First chance exceptions are reported before any exception handling.
This exception may be expected and handled.
eax=00000000 ebx=00000000 ecx=00000000 edx=00000001 esi=0014d3d0 edi=00000000
eip=79eea7c3 esp=0012e944 ebp=0012e9b4 iopl=0         nv up ei pl nz na po nc
cs=001b  ss=0023  ds=0023  es=0023  fs=003b  gs=0000             efl=00010202
*** ERROR: Symbol file could not be found.  Defaulted to export symbols for   C:\WINDOWS\Microsoft.NET\Framework\v2.0.50727\mscorwks.dll -
mscorwks!IEE+0x13277:
79eea7c3 0fb708          movzx   ecx,word ptr [eax]       ds:0023:00000000=????
0:000>

Which is an error that occurred inside the mscorwks.dll and was the reason the .NET assembly crashed. The exeption mscorwks!IEE+0x13277 is actually quite common, and I think it is a false positive since it looks like part of a method that checks for bad points (which is weird method to check it, but it seems to be quite common on the CLR). I need to load the symbols in my dev laptop (which is always offline btw :) ) to see where mscorwks!IEE+0x13277 resolves to.


Now that we have an issue you have two choices:

1) add manually the signature of the offending class System.Text.RegularExpressions.MatchEvaluator to the _fuzz_results\system.dll_ExcludeList.txt file or

2) run

> DN_BOFinder file auto system.dll

which will do that for you :)

the output of "DN_BOFinder file auto system.dll" should be something like:


*********************************************
*******
*******    DotNet BOFinder v0.2 (12 Mar 2007)
*******
*********************************************
....
Populating ByPassList
[INFO]: Fuzzing system.dll (12676 methods, 889 types): 3 type processed
Normal CLR Exception in System.Text.RegularExpressions.MatchEvaluator [0]
[INFO]: Fuzzing system.dll (12676 methods, 889 types): 4 type processed
System.Collections.CollectionBase.set_Capacity(Int32) Forced Exception - iPageMemorySize64 Grew by 1048MB
[INFO]: Fuzzing system.dll (12676 methods, 889 types): 23 type processed
Normal CLR Exception in System.CodeDom.CodeMemberMethod.add_PopulateParameters(System.EventHandler) [0]
[INFO]: Fuzzing system.dll (12676 methods, 889 types): 41 type processed
Normal CLR Exception in System.CodeDom.CodeMemberMethod.remove_PopulateParameters(System.EventHandler) [0]
[INFO]: Fuzzing system.dll (12676 methods, 889 types): 42 type processed
Normal CLR Exception in System.CodeDom.CodeMemberMethod.add_PopulateStatements(System.EventHandler) [0]
[INFO]: Fuzzing system.dll (12676 methods, 889 types): 43 type processed
Normal CLR Exception in System.CodeDom.CodeMemberMethod.remove_PopulateStatements(System.EventHandler) [0]

so what is happening here is, you get an [INFO] every time a fuzzing session starts (i.e. new process) and we have a bunch of 'Normal CLR Exception' entries (which crash the CLR but I think are false positives (I would actually put money that some of these might be exploitable (most are null pointers)). Note for example that the case I shown above (System.Text.RegularExpressions.MatchEvaluator) is here shown as a 'Normal CLR Exception'

Every time a 'CLR Exception' occurs, its signature is added to the MethodsFuzzed list and the process restarts (only in the cases where the error doesn't match one of my hard-coded signatures the methods are added to the ExcludeList and its data added to the ExceptionData.

...

Eventually you start to get some more interesting issues like for example:

[INFO]: Fuzzing system.dll (12676 methods, 889 types): 167 type processed
System.Resources.ResourceManager.GetStream(System.String) [0]  - via CDB
       eax=00000000 ebx=0126853c ecx=00000000 edx=0126853c esi=0127ef20 edi=00000000
       eip=039827df esp=0012ec74 ebp=0012ecc0 iopl=0         nv up ei pl zr na pe nc
       cs=001b  ss=0023  ds=0023  es=0023  fs=003b  gs=0000             efl=00010246
       039827df 8b01            mov     eax,dword ptr [ecx]  ds:0023:00000000=????????
       0:000

which you can go to reflector and see its code:

class: System.Resources.ResourceManager
method: public UnmanagedMemoryStream GetStream(string name)


At this stage (after a bit of fuzzing) the system.dll_ExcludeList.txt should look like this:

System.Collections.CollectionBase.set_Capacity(Int32) Forced Exception - iPageMemorySize64 Grew by 1048MB
System.ComponentModel.ComponentResourceManager.ApplyResources(System.Object, System.String) [0]  - via CDB
System.Resources.ResourceManager.ReleaseAllResources() [0]  - via CDB
System.Resources.ResourceManager.GetString(System.String) [0]  - via CDB
System.Resources.ResourceManager.GetObject(System.String) [0]  - via CDB
System.Resources.ResourceManager.GetStream(System.String) [0]  - via CDB
System.ComponentModel.TypeConverter.ConvertFromInvariantString(System.String) [0]  - via CDB

Note: For non .NET Framework Assemblies (that are not placed on the v2 folder), you will need to pass the full path to the dll to fuzz.

Here for example is fuzzing a dll that is part of the .NET 2.0 SDK

> dn_boFinder file "c:\Program Files\Microsoft Visual Studio 8\SDK\v2.0\Bin\RequiredPermissions.dll"

This actually an interresting case since if you run it normally, you will not see a lot of exceptions, but if you run it under the cdb

> cdb dn_boFinder file "c:\Program Files\Microsoft Visual Studio 8\SDK\v2.0\Bin\RequiredPermissions.dll"

you will see a lot exceptions that look like these

[8:11 PM] > Executing ManagedMD.Utils.SafePointer.op_Implicit(ManagedMD.Utils.SafePointer) [0]: (1ac.634): Access violation 
- code c0000005 (first chance)
First chance exceptions are reported before any exception handling.
This exception may be expected and handled.
eax=00000000 ebx=0012ed2c ecx=0012ed00 edx=00000000 esi=00181028 edi=00000000
eip=03684f95 esp=0012ecf4 ebp=0012ed10 iopl=0         nv up ei pl nz ac pe nc
cs=001b  ss=0023  ds=0023  es=0023  fs=003b  gs=0000             efl=00010216
03684f95 3b4204          cmp     eax,dword ptr [edx+4] ds:0023:00000004=????????

so run it in auto mode to document them

> dn_boFinder file auto "c:\Program Files\Microsoft Visual Studio 8\SDK\v2.0\Bin\RequiredPermissions.dll"

(these type of cmp are another type of exceptions that I think are false positives)

fuzzing methods

lets go back to the system.dll System.ComponentModel.ComponentResourceManager.ApplyResources(System.Object,System.String) discovered before

the final piece of the puzzle is to see if this method is exploitable (i.e. can we contol the CPU Registers from a variable that we control). So to do that, the easier way is to run just that method with all fuzzed combinations.

And that is what we can do with the method option. (you can also write a simple c# code to do that)

the format is

DN_BOFinder {full Path to Dll}!{full method signature (with no spaces)}!0 {number of fuzzed items to try (optional)}

so execute:

> DN_BOFinder.exe method auto c:\WINDOWS\Microsoft.NET\Framework\v2.0.50727\system.dll!System.ComponentModel.ComponentResourceManager.ApplyResources(System.Object,System.String)!0

which should give you something like:

*********************************************
*******
*******    DotNet BOFinder v0.2 (12 Mar 2007)
******* 
*********************************************
...
strDllToLoad: c:\WINDOWS\Microsoft.NET\Framework\v2.0.50727\system.dll
strTypeToCreate: System.ComponentModel.ComponentResourceManager
strMethodToFuzz_FullName: System.ComponentModel.ComponentResourceManager.ApplyResources
strMethodToFuzz_Name: ApplyResources
strMethodToFuzz_Params: (System.Object,System.String)
 Populating ByPassList
System.ComponentModel.ComponentResourceManager.ApplyResources [0]  - via CDB
       eax=00000000 ebx=012696b8 ecx=00000000 edx=012696b8 esi=01275460 edi=012696b8
       eip=032d009f esp=0012eb74 ebp=0012ebc0 iopl=0         nv up ei pl zr na pe nc
       cs=001b  ss=0023  ds=0023  es=0023  fs=003b  gs=0000             efl=00010246
       032d009f 8b01            mov     eax,dword ptr [ecx]  ds:0023:00000000=????????
       0:000
...
System.ComponentModel.ComponentResourceManager.ApplyResources [1]  - via CDB
       eax=00000000 ebx=012696b8 ecx=00000000 edx=012696b8 esi=01275460 edi=012696b8
       eip=032d009f esp=0012eb74 ebp=0012ebc0 iopl=0         nv up ei pl zr na pe nc
       cs=001b  ss=0023  ds=0023  es=0023  fs=003b  gs=0000             efl=00010246
       032d009f 8b01            mov     eax,dword ptr [ecx]  ds:0023:00000000=????????
       0:000 
...
(other results omited)

so here one can see that the value of the CPU registers don't really change, which might mean that this is a false positive

interop.MediaPlayer

To see a better example of this, create a wrapper for the MediaPlayer control in a default xp sp2 installation in Visual Studio (i.e. the file Interop.MediaPlayer.dll) and fuzz it.

After a while you will get these two exceptions:

MediaPlayer.RadioPlayerClass.BindRadioMemory() [0]  - via CDB
       eax=7ffdf000 ebx=1d3063a8 ecx=1d363167 edx=00000000 esi=0039b6e4 edi=00000000
       eip=1d363175 esp=0012ed4c ebp=0012ed74 iopl=0         nv up ei pl nz na po nc
       cs=001b  ss=0023  ds=0023  es=0023  fs=003b  gs=0000             efl=        
       *** ERROR: Symbol file could not be found.  Defaulted to export symbols for C:\WINDOWS\System32\msdxm.ocx - 
       msdxm!RunDll+0x2f6e5:
       1d363175 66c7076c00      mov     word ptr [edi],6Ch       ds:0023:00000000=????
       0:000
...
MediaPlayer.RadioServerClass.Unregister(Int32) [0]  - via CDB
       eax=00000000 ebx=1d308fc0 ecx=03a40004 edx=001eeaca esi=003978f0 edi=f0000001
       eip=1d3639f6 esp=0012ece0 ebp=0012ed04 iopl=0         nv up ei pl zr ac pe nc
       cs=001b  ss=0023  ds=0023  es=0023  fs=003b  gs=0000             efl=00010256
       *** ERROR: Symbol file could not be found.  Defaulted to export symbols for C:\WINDOWS\System32\msdxm.ocx - 
       msdxm!RunDll+0x2ff66:
       1d3639f6 8b07            mov     eax,dword ptr [edi]  ds:0023:f0000001=????????
       0:000

the first one, MediaPlayer.RadioPlayerClass.BindRadioMemory(), seems to be one that is caused by some change of state on a previous fuzzed method, but the 2nd one looks much more interresting: MediaPlayer.RadioServerClass.Unregister(Int32)


Let's fuzz it using the auto method system:

DN_BOFinder.exe method auto d:\...\...\...\...\Interop.MediaPlayer.dll!MediaPlayer.RadioServerClass.Unregister(Int32)!0 15


*********************************************
*******
*******    DotNet BOFinder v0.2 (12 Mar 2007)
*******
*********************************************
... 
strDllToLoad: d:\...\...\...\...\Interop.MediaPlayer.dll
strTypeToCreate: MediaPlayer.RadioServerClass
strMethodToFuzz_FullName: MediaPlayer.RadioServerClass.Unregister
strMethodToFuzz_Name: Unregister
strMethodToFuzz_Params: (Int32)
Populating ByPassList
Fuzzing 15 objects
MediaPlayer.RadioServerClass.Unregister [0]  - via CDB
       eax=00000000 ebx=1d308fc0 ecx=034a0004 edx=001c7d3a esi=00397030 edi=f0000001
       eip=1d3639f6 esp=0012ed40 ebp=0012ed64 iopl=0         nv up ei pl zr ac pe nc
       cs=001b  ss=0023  ds=0023  es=0023  fs=003b  gs=0000             efl=00010256
       *** ERROR: Symbol file could not be found.  Defaulted to export symbols for C:\WINDOWS\System32\msdxm.ocx -
       msdxm!RunDll+0x2ff66:
       1d3639f6 8b07            mov     eax,dword ptr [edi]  ds:0023:f0000001=????????
       0:000
....
MediaPlayer.RadioServerClass.Unregister [1]  - via CDB
       eax=00000000 ebx=1d308fc0 ecx=034a0004 edx=001a4c32 esi=00397030 edi=fff00001
       eip=1d3639f6 esp=0012ed40 ebp=0012ed64 iopl=0         nv up ei pl zr ac pe nc
       cs=001b  ss=0023  ds=0023  es=0023  fs=003b  gs=0000             efl=00010256
       *** ERROR: Symbol file could not be found.  Defaulted to export symbols for C:\WINDOWS\System32\msdxm.ocx -
       msdxm!RunDll+0x2ff66:
       1d3639f6 8b07            mov     eax,dword ptr [edi]  ds:0023:fff00001=????????
       0:000
....
MediaPlayer.RadioServerClass.Unregister [6]  - via CDB
       eax=00000000 ebx=1d308fc0 ecx=034a0004 edx=001a4bca esi=00397030 edi=0fffffff
       eip=1d3639f6 esp=0012ed40 ebp=0012ed64 iopl=0         nv up ei pl zr ac pe nc
       cs=001b  ss=0023  ds=0023  es=0023  fs=003b  gs=0000             efl=00010256
       *** ERROR: Symbol file could not be found.  Defaulted to export symbols for C:\WINDOWS\System32\msdxm.ocx -
       msdxm!RunDll+0x2ff66:
       1d3639f6 8b07            mov     eax,dword ptr [edi]  ds:0023:0fffffff=????????
       0:000
...
MediaPlayer.RadioServerClass.Unregister [7]  - via CDB
       eax=72006300 ebx=1d308fc0 ecx=034a0004 edx=001c7d3a esi=00397030 edi=00ffffff
       eip=1d3639f8 esp=0012ed40 ebp=0012ed64 iopl=0         nv up ei pl zr ac pe nc
       cs=001b  ss=0023  ds=0023  es=0023  fs=003b  gs=0000             efl=00010256
       *** ERROR: Symbol file could not be found.  Defaulted to export symbols for C:\WINDOWS\System32\msdxm.ocx -
       msdxm!RunDll+0x2ff68:
       1d3639f8 8b5808          mov     ebx,dword ptr [eax+8] ds:0023:72006308=????????
       0:000
...
MediaPlayer.RadioServerClass.Unregister [9]  - via CDB
       eax=00000000 ebx=1d308fc0 ecx=034a0004 edx=001c2392 esi=00397030 edi=0000ffff
       eip=1d3639f6 esp=0012ed40 ebp=0012ed64 iopl=0         nv up ei pl zr ac pe nc
       cs=001b  ss=0023  ds=0023  es=0023  fs=003b  gs=0000             efl=00010256
       *** ERROR: Symbol file could not be found.  Defaulted to export symbols for C:\WINDOWS\System32\msdxm.ocx -
       msdxm!RunDll+0x2ff66:
       1d3639f6 8b07            mov     eax,dword ptr [edi]  ds:0023:0000ffff=????????
       0:000


and notice that we have direct control of EAX.

Now since you can only invoke this Interop.MediaPlayer.dll from Full Trust, this is not technically a vulnerability :)

Development notes

1) to create and invoke private methods change in the utils/reflection.cs file

public static BindingFlags bfPublicNonPublicFlag = BindingFlags.Public;

with

public static BindingFlags bfBindingFlags_InsSta = bfPublicNonPublicFlag | BindingFlags.Instance | BindingFlags.Static;

{add more}