/KDU

Kernel Driver Utility

Primary LanguageCMIT LicenseMIT

Build status

KDU

Kernel Driver Utility

System Requirements

  • x64 Windows 7/8/8.1/10/11;
  • Administrative privilege is required.

Purpose and Features

The purpose of this tool is to give a simple way to explore Windows kernel/components without doing a lot of additional work or setting up local debugger. It features:

  • Protected Processes Hijacking via Process object modification;
  • Driver Signature Enforcement Overrider (similar to DSEFIx);
  • Driver loader for bypassing Driver Signature Enforcement (similar to TDL/Stryker);
  • Support of various vulnerable drivers use as functionality "providers".

Usage

KDU -list
KDU -diag
KDU -prv ProviderID
KDU -ps ProcessID
KDU -pse Commandline
KDU -dmp ProcessID
KDU -dse value
KDU -map filename
  • -list - list currently available providers;
  • -diag - run system diagnostic for troubleshooting;
  • -prv - optional, select vulnerability driver provider;
  • -ps - modify process object of given ProcessID, downgrading any protections;
  • -pse - launch program as ProtectedProcessLight-AntiMalware (PPL);
  • -dmp - dump virtual memory of the given process;
  • -dse - write user defined value to the system DSE state flags;
  • -map - map driver to the kernel and execute it entry point, this command have dependencies listed below;
    • -scv version - optional, select shellcode version, default 1;
    • -drvn name - driver object name (only valid for shellcode version 3);
    • -drvr name - optional, driver registry key name (only valid for shellcode version 3).

Example:

  • kdu -ps 1234
  • kdu -map c:\driverless\mysuperhack.sys
  • kdu -dmp 666
  • kdu -prv 1 -ps 1234
  • kdu -prv 1 -map c:\driverless\mysuperhack.sys
  • kdu -prv 6 -scv 3 -drvn DrvObj -map c:\install\e3600bm.sys
  • kdu -prv 6 -scv 3 -drvn edrv -drvr e3600bl -map c:\install\e3600bl.sys
  • kdu -dse 0
  • kdu -dse 6
  • kdu -pse "C:\Windows\System32\notepad.exe C:\TEMP\words.txt"

Run on Windows 10 20H2*

Compiled and run on Windows 8.1*

Run on Windows 7 SP1 fully patched (precomplied version)*

Run on Windows 10 19H2 (precompiled version, SecureBoot enabled)*

All screenshots are from version 1.0X.

Limitations of -map command

Due to unusual way of loading that is not involving standard kernel loader, but uses overwriting already loaded modules with shellcode, there are some limitations:

  • Loaded drivers MUST BE specially designed to run as "driverless";

That mean you cannot use parameters specified at your DriverEntry as they won't be valid. That also mean you can not load any drivers but only specially designed or you need to alter shellcode responsible for driver mapping.

  • No SEH support for target drivers;

There is no SEH code in x64. Instead of this you have table of try/except/finally regions which must be in the executable image described by pointer in PE header. If there is an exception occurred system handler will first look in which module that happened. Mapped drivers are not inside Windows controlled list of drivers (PsLoadedModulesList - PatchGuard protected), so nothing will be found and system will simple crash.

  • No driver unloading;

Mapped code can't unload itself, however you still can release all resources allocated by your mapped code. DRIVER_OBJECT->DriverUnload should be set to NULL.

  • Only ntoskrnl import resolved, everything else is up to you;

If your project need another module dependency then you have to rewrite this loader part.

  • Several Windows primitives are banned by PatchGuard from usage from the dynamic code.

Because of unsual way of loading mapped driver won't be inside PsLoadedModulesList. That mean any callback registered by such code will have handler located in memory outside this list. PatchGuard has ability to check whatever the registered callbacks point to valid loaded modules or not and BSOD with "Kernel notification callout modification" if such dynamic code detected.

In general if you want to know what you should not do in kernel look at https://github.com/hfiref0x/KDU/tree/master/Source/Examples/BadRkDemo which contain a few examples of forbidden things.

Kernel traces note

This tool does not change (and this won't change in future) internal Windows structures of MmUnloadedDrivers and/or PiDDBCacheTable. That's because:

  • KDU is not designed to circumvent third-party security software or various dubious crapware (e.g. anti-cheats);
  • These data can be a target for PatchGuard protection in the next major Windows 10 update.

You use it at your own risk. Some lazy AV may flag this tool as hacktool/malware.

Supported Providers

Note: Provider with Id 0 assumed as default if no -prv command is specified.

Id Vendor Driver Software package Version MSFT blacklist*
0 Intel IQVM64/Nal Network Adapter Diagnostic Driver 1.03.0.7 Cert
1 MSI RTCore64 MSI Afterburner 4.6.2 build 15658 and below Page hash
2 Gigabyte Gdrv Gigabyte TOOLS Undefined Name
3 ASUSTeK ATSZIO64 ASUSTeK WinFlash utility Undefined Name
4 Patriot MsIo64 Patriot Viper RGB utility 1.0 Page hash
5 ASRock GLCKIO2 ASRock Polychrome RGB 1.0.4 Page hash
6 G.SKILL EneIo64 G.SKILL Trident Z Lighting Control 1.00.08 Cert
7 EVGA WinRing0x64 EVGA Precision X1 1.0.2.0 Name
8 Thermaltake EneTechIo64 Thermaltake TOUGHRAM software 1.0.3 Page hash
9 Huawei PhyMemx64 Huawei MateBook Manager software Undefined Name, Page hash
10 Realtek RtkIo64 Realtek Dash Client Utility Various Name
11 MSI EneTechIo64 MSI Dragon Center Various
12 LG LHA LG Device Manager 1.6.0.2 Name
13 ASUSTeK AsIO2 ASUS GPU Tweak 2.1.7.1 and below
14 PassMark DirectIo64 PassMark Performance Test 10.1 and below Page hash
15 GMER GmerDrv Gmer "Antirootkit" 2.2 and below Name, Page hash, Cert
16 Dell DBUtil_2_3 Dell BIOS Utility 2.3 and below Page hash
17 Benjamin Delpy Mimidrv Mimikatz 2.2 and below Cert
18 Wen Jia Liu KProcessHacker2 Process Hacker 2.38 and below Name
19 Microsoft ProcExp152 Process Explorer 1.5.2 and below Name, Cert
20 Dell DBUtilDrv2 Dell BIOS Utility 2.7 and below
21 DarkByte Dbk64 Cheat Engine 7.4 and below Cert, Name
22 ASUSTeK AsIO3 ASUS GPU TweakII 2.3.0.3
23 Marvin Hw Marvin Hardware Access Driver 4.9 and below Name
24 CODESYS SysDrv3S CODESYS SysDrv3S 3.5.6 and below Cert
25 Zemana amsdk WatchDog/MalwareFox/Zemana AM 3.0.0 and below
26 HiRes Ent. inpoutx64 Various 1.2.0 and below
27 PassMark DirectIo64 PassMark OSForensics Any
28 ASRock AsrDrv106 Phantom Gaming Tuning 1.0.6 and below
29 Arthur Liberman ALSysIO64 Core Temp 2.0.11 and below
30 AMD AMDRyzenMasterDriver Multiple software packages 2.0.0.0 and below
31 Hilscher physmem Physical Memory Viewer for Windows 1.0.0.0 Cert, Name
32 Lenovo LDD Lenovo Diagnostics Driver for Windows 10 and later 1.0.4.0 and below Cert, Name
33 Dell pcdsrvc_x64 Dell PC Doctor 6.2.2.0
34 MSI winio MSI Foundation Service Undefined
35 HP EtdSupport ETDi Support Driver 18.0 and below Cert
36 Pavel Yosifovich KExplore Kernel Explorer Undefined
37 Pavel Yosifovich KObjExp Kernel Object Explorer Undefined
38 Pavel Yosifovich KRegExp Kernel Registry Explorer Undefined
39 Inspect Element LTD EchoDrv Echo AntiCheat (spyware) Undefined Hash
40 NVidia nvoclock NVidia System Utility Driver 7.0.0.32
41 Binalyze IREC Binalyze DFIR 3.11.0
42 DavidXXW PhyDMACC SLIC ToolKit 1.2.0 Page hash
43 Razer rzpnk Razer Synapse 2.20.15.1104
44 AMD PdFwKrnl AMD Radeon™ Software (Adrenalin Edition and PRO Edition) 23.9.1 and below
45 AMD AODDriver AMD OverDrive Driver 2.1.5 and below
46 Wincor Nixdorf wnBios64 WinBios Driver 1.2.0 and below

MSFT blacklist types:

  • Cert - by certificate used to sign the driver which makes it possible to ban huge number of files at one time.
  • Name - by original filename entry stored inside VERSION_INFO file resources, this type of bans are only possible with cross-checking of file version otherwise it will cause false-positives in case if the driver has "fixed/unaffected" version.
  • Hash/Page hash - by authenticode hash/page hash, allows MSFT to ban exact driver file.

KDU provider details, alternatives are available

Id Codebase Assigned CVE's Hashes
0 Original CVE-2015-2291 File(SHA1): D04E5DB5B6C848A29732BFD52029001F23C3DA75
Authenticode(SHA1): 2CBFE4AD0E1231FF3E19C19CA9311D952CE170B7
Page(SHA1): 55B90A6E4323FC1D7B71B23F81FC758F45740E02
Page(SHA256): FB14DC1657C0EDD18FA747005EB7125DBBD83595095D67906BB0B4D57222D4C1
1 Semi-original CVE-2019-16098 File(SHA1): F6F11AD2CD2B0CF95ED42324876BEE1D83E01775
Authenticode(SHA1): 4A68C2D7A4C471E062A32C83A36EEDB45A619683
Page(SHA1): 84152FA241C3808F8C7752964589C957E440403F
Page(SHA256): A807532037A3549AE3E046F183D782BCB78B6193163EA448098140563CF857CB
2 MAPMEM CVE-2018-19320 File(SHA1): FE10018AF723986DB50701C8532DF5ED98B17C39
Authenticode(SHA1): 0F5034FCF5B34BE22A72D2ECC29E348E93B6F00F
Page(SHA1): DC02DA48DF2F9B558453847399A8DE47C5AD56CC
Page(SHA256): 95406C37FDE1B08524FAB782200C8BECAEC98A40B020F41C5BA13032FE9522FA
3 Semi-original CVE-2023-41444 File(SHA1): 490109FA6739F114651F4199196C5121D1C6BDF2
Authenticode(SHA1): B66BF2B1B07F8F2BAB1418131AE66B0A55265F73
Page(SHA1): 04384DE86A18CE8D17DB3BB33CB9DD06868D4C32
Page(SHA256): 1871BE94AD775FD220F9A04C0F6B84C2C34CF898A4096E94359D9E5E269835DC
4 WINIO CVE-2019-18845 File(SHA1): E6305DDDD06490D7F87E3B06D09E9D4C1C643AF0
Authenticode(SHA1): 7E732ACB7CFAD9BA043A9350CDEFF25D742BECB8
Page(SHA1): CDE1A50E1DF7870F8E4AFD8631E45A847C714C0A
Page(SHA256): 05736AB8B48DF84D81CB2CC0FBDC9D3DA34C22DB67A3E71C6F4B6B3923740DD5
5 WINIO CVE-2018-18535, CVE-2018-18536, CVE-2018-18537 File(SHA1): CC51BE79AE56BC97211F6B73CC905C3492DA8F9D
Authenticode(SHA1): D99B80B3269D735CAC43AF5E43483E64CA7961C3
Page(SHA1): 51E0740AAEE5AE76B0095C92908C97B817DB8BEA
Page(SHA256): E7F011E9857C7DB5AACBD424612CD7E3D12C363FDC8F072DDFAF9E2E5C85F5F3
6 WINIO CVE-2020-12446 File(SHA1): B4D014B5EDD6E19CE0E8395A64FAEDF49688ECB5
Authenticode(SHA1): 651B953CB03928E41424AD59F21D4978D6F4952E
Page(SHA1): 3727D824713E733558A20DE9876AABF1059D3158
Page(SHA256): 88C83F618C8F4069DED87C409A8446C5A30E22A303E64AAFF1C5BE6302ADEDB4
7 WINRING0 CVE-2020–14979 File(SHA1): 012DB3A80FAF1F7F727B538CBE5D94064E7159DE
Authenticode(SHA1): 7AED8186977FCF7EE219DA493BAECDB95EC8040D
Page(SHA1): 9AB2257AE97DB4B0617640C90DD45AB7F144FBB9
Page(SHA256): D48209A183CDFEAADBD8A644730BD76BBF89C759844890739F934F242C226305
8 WINIO File(SHA1): 3CD037FBBA8AAE82C1B111C9F8755349C98BCB3C
Authenticode(SHA1): CE280412DD778CAFBE6DBB05B8CAB42E98D3AE56
Page(SHA1): 6CAFC03207391464AB7E69F47228CB82539BEBDE
Page(SHA256): 3F88ABF8908108207DA38DBC9E8690B3D63DB7F856B16E9F0D3A3B389FC72561
9 WINIO File(SHA1): 6ECFC7CCC4843812BFCCFB7E91594C018F0A0FF9
Authenticode(SHA1): 3C9F40AC72B0202CB40627FDEB7298079187193A
Page(SHA1): 6E7D8ABF7F81A2433F27B052B3952EFC4B9CC0B1
Page(SHA256): B7113B9A68E17428E2107B19BA099571AAFFC854B8FB9CBCEB79EF9E3FD1CC62
10 PHYMEM File(SHA1): B21CBA198D721737AABD882ADA6C91295A5975ED
Authenticode(SHA1): 7593D46A73EC00E00AEF3E9D0031C2B21B74ECFB
Page(SHA1): D4B640263D2A6C9906D4032F252CC81D838E2116
Page(SHA256): 77EC9BF2DBB106EF51D4DE49E70801D48001BF06146A370D0669E385B87C0826
11 WINIO File(SHA1): A87D6EAC2D70A3FBC04E59412326B28001C179DE
Authenticode(SHA1): 6B60825564B2DCCFF3A4F904B71541BFE94136C9
Page(SHA1): 8911B97A3140C2523287E1039B08DE8EF4D7F9AB
Page(SHA256): 85859FFD16396D0FE9897BAFBDCE94FF66474DCDEF7754FCDF2C9C7A8CE451DB
12 Semi-original CVE-2019-8372 File(SHA1): 3FD55927D5997D33F5449E9A355EB5C0452E0DE3
Authenticode(SHA1): 87C155D933CA3513E29D235562D96B88D3913CDE
Page(SHA1): B565361205846323911766F55E380D93C6A3AB02
Page(SHA256): 4818AA3F52BCF3554131B56A3A0F0C2D8BBB5F6D18837F68D811EAD7917A2DE3
13 WINIO CVE-2021-28685 File(SHA1): AA2EA973BB248B18973E57339307CFB8D309F687
Authenticode(SHA1): 92FEE95E32A727D135F1F46CA98C201FFFBF6950
Page(SHA1): C5F1D135831851E9D7A06F9636E2A50B1D5C3A04
Page(SHA256): B4DCE5B50224C2461B49F1850C73EF84E65A64D89E2F32DD931A2F3C62D9D6BF
14 Original CVE-2020-15481 File(SHA1): 2DB49BDF8029FDCDA0A2F722219AE744EAE918B0
Authenticode(SHA1): F1BDD3236F43338A119D74ECA730F0D464DED973
Page(SHA1): A14331F63EC907BF3E472F1E0CB8F19DE06EF4E4
Page(SHA256): 7F0A28CCF0AB76964D40E063F9D4B88193B77E4BADF66E8C8F87C97127885987
15 Original File(SHA1): 83506DE48BD0C50EA00C9E889FE980F56E6C6E1B
Authenticode(SHA1): 0BCA6C35159282FD64615ABC4D398399B061847B
Page(SHA1): 0882AB6651CD17F3D7D696E9C48EB4934159AE4C
Page(SHA256): 0F5DE6DE77D764E2370FA69D3CD8B2C0EC4DFC6F6736C7EDE97F3F75567ED47A
16 Original CVE-2021-21551 File(SHA1): C948AE14761095E4D76B55D9DE86412258BE7AFD
Authenticode(SHA1): E3C1DD569AA4758552566B0213EE4D1FE6382C4B
Page(SHA1): E09B5E80805B8FE853EA27D8773E31BFF262E3F7
Page(SHA256): 7E2AD3D6D76F4FCD4583B865FFC12DE6C44FC16CBCBB81D480CB067F2A860422
17 Original File(SHA1): A8DDB7565B61BC021CD2543A137E00627F999DCC
Authenticode(SHA1): 0E732D18A7D880F0505433A0DA0E100DA0E1C3A3
Page(SHA1): A1E322631A67DE6441A08C991352281CF7C83FD8
Page(SHA256): 787AC1DB370421BD26915EAE797F67AD4C6E53775970DC18226ED5225B0B8A3B
18 Original File(SHA1): D8498707F295082F6A95FD9D32C9782951F5A082
Authenticode(SHA1): 61B55BB7C111F93BD3EA9AC71591E1A6B89FEEE1
Page(SHA1): 15FA18C40598FFD05C7F99DB81EEEA1336FC4213
Page(SHA256): B6033C16527F2ADBC9E8E5C7678F649E55009319B8612765686ACB1A1C82FDDA
19 Original File(SHA1): 3296844D22C87DD5EBA3AA378A8242B41D59DB7A
Authenticode(SHA1): EDC10781EB6D1E3BDF9D15CFEBDDBE1A1FB804D9
Page(SHA1): AF2B5A3F4DBCE417295FB2CECD8DF91C5A679D44
Page(SHA256): 2C22F27671EE4C530C16821CEE2A9F48C19F99B873E36D94C4AAA0194D52B8CB
20 Original CVE-2021-36276 File(SHA1): 90A76945FD2FA45FAB2B7BCFDAF6563595F94891
Authenticode(SHA1): 6BC2AB0F03D7A58685A165B519E8FEE6937526A6
Page(SHA1): 66B2E2438725B576428CBEAE3E481148B4B5FD8C
Page(SHA256): C60578FAD95216EF74BCD9661A562C0DDC2C8697D64B546F59A7EF85F71D3814
21 Original File(SHA1): A54AE1793E9D77E61416E0D9FB81269A4BC8F8A2
Authenticode(SHA1): 1BE4BA36BA9CE5B10D90137C08CC21F823379841
Page(SHA1): 2EF1502DDE6A1CB120AC379F8C7155EB96E4BA02
Page(SHA256): F7443FBAC813EAF0AA94C73265C3BE7E723A5BF64BEF1D80E8FF57D7573FC53C
22 WINIO File(SHA1): CFA85A19D9A2F7F687B0DECDC4A5480B6E30CB8C
Authenticode(SHA1): 4BFC51E23494F7EAF27560F92CD6FBCED2FFA4F6
Page(SHA1): 09C0DC0C0440F9362BD29960236CD716B3E21453
Page(SHA256): 209D5B95C83B4923C825DF9F3DE5F5EFCEFA0C2F82FD77D9BB38FE41E81B3D02
23 Original File(SHA1): 4E56E0B1D12664C05615C69697A2F5C5D893058A
Authenticode(SHA1): 6E87CD3B027A07A810164D618E3F2FCE61EB6EC4
Page(SHA1): 45F1309E10159325BA1DFAE4CAE214BD07B355F1
Page(SHA256): EF15F8CE1C905139AC64C15C2E91E808054421D2B95E2F531EFC6FC5D9D2A471
24 MAPMEM CVE-2022-22516 File(SHA1): E1069365CB580E3525090F2FA28EFD4127223588
Authenticode(SHA1): 432B5809D84935D15574DE8D64B22E06682FF715
Page(SHA1): 13EA5846AFE3B9141C712FAFBA9F1B95B26087E5
Page(SHA256): 6E0C60A5AA46C6CCE7EB4EFA8D36D6D343C0D26694D8A9E194F254988603FC26
25 Original CVE-2021-31728, CVE-2022-42045 File(SHA1): 290D6376658CF0F8182DE0FAE40B503098FA09FD
Authenticode(SHA1): 084553447BDBC056BBE49BAD8ACFAF25EB83462A
Page(SHA1): 760DE62D6AF5F8CD46E2B2074CDF7B0805B58484
Page(SHA256): 8BFEE3E7582C0432CD02A8D75D00B8CBA9CD9A2525E3E61E0D0C8AAAC2FCFEEB
26 WINIO File(SHA1): 6AFC6B04CF73DD461E4A4956365F25C1F1162387
Authenticode(SHA1): 8E1F51761F21148F68AC925CC5F9E9C78F3D5EC4
Page(SHA1): 83714FAAF1643DBA7ABF28A4AC287A43FDEBDE81
Page(SHA256): 1D665C5DDA5E49B5C7F5231327D4A41D83201107CF428800EF24FDBB1CC505F7
27 Original File(SHA1): 01B95AE502AA09AABC69A0482FCC8198F7765950
Authenticode(SHA1): 4AEA4FBB9A732D57643F61F1BF3B82CEBB18AB72
Page(SHA1): 981F8CC044C6E21E2A4746B47EBEBAEEF49B9114
Page(SHA256): 50F9C8874653A6C25179C33EAEB19A6EC4C21BCB1EB14429DD0746C338766911
28 RWEverything CVE-2020-15368 File(SHA1): B0032B8D8E6F4BD19A31619CE38D8E010F29A816
Authenticode(SHA1): F621633290173DAAC18BB14CA3F52BC027CD2721
Page(SHA1): 32F6424734185AF58281EA4C66805A8238E61427
Page(SHA256): 281D8225E91591F799F93BF448F78F3F50B9AA7D6F1ADD3E2AC58D6BA0DE1473
29 Original File(SHA1): 256D285347ACD715ED8920E41E5EC928AE9201A8
Authenticode(SHA1): 530DD2863A09DC57801D62551C48EB9E48476FE8
Page(SHA1): 845EE7617D94A6A13016419B94CFC2D15D9BB71A
Page(SHA256): C13FDB8225E21B899A340506DB055B949C941A33D8C2D73C81E46BF5C4DDFF47
30 Original CVE-2020-12928 File(SHA1): CEC887F20AB468CAA1C99FCBE7FBDFAB25FADF39
Authenticode(SHA1): E37C6AA2630FA3CCB3EE7D219A7332CCE95FA11F
Page(SHA1): 70A164E25FD351CEDFEDEB3D89871A1D487D0379
Page(SHA256): E47556832FA7CF286FFD7F7A0646FA8015AF651D5C968F20353F6B7CFF18A1DC
31 Original File(SHA1): 17614FDEE3B89272E99758983B99111CBB1B312C
Authenticode(SHA1): FD0CB3EA1DEB4FDB22536A7C15669EB53315E5C8
Page(SHA1): 0D03AC1B15AE10BB40A7660F25F3A68E1330024E
Page(SHA256): CB27AD883FCF265B8E2C8D393C0B403914C1911A935A5D248B4C37B4D99CD7BE
32 Original CVE-2022-3699 File(SHA1): B89A8EEF5AEAE806AF5BA212A8068845CAFDAB6F
Authenticode(SHA1): 6D9543725ACA0C9C8F403425952692CCC1D2D7F2
Page(SHA1): B40A38E4D3BFB567F313A190A30F3AA9189EC1A0
Page(SHA256): 4273E0BE1A21142DE6BA672EFDAC0AC1FADC7AF0D0DAACA4E4D330D02C8F4CC8
33 Original CVE-2019-12280 File(SHA1): D0A228ED8AF190DEC0C1A812E212F5E68EE3B43E
Authenticode(SHA1): 85D493F5636B46F6C4F8B1028F8E8659F31DC562
Page(SHA1): A48431302A6C5053D178FCEC3390FBC1CACCB893
Page(SHA256): 08AFD2489CB6A093E3F588B1D13D20468AE3E27A2F0AEC9E43C41D20FFB2F6EE
34 WINIO File(SHA1): 9745D77E3C27437BBCCF39E074F7D57A99FE83B1
Authenticode(SHA1): 1419392FC1EC6EF497442FEE3F7553A68B78A03D
Page(SHA1): 863F4AFE82D791D655B2DCE5C893B37422364230
Page(SHA256): F3165AFC15FA99745D7151501E1E2A738AD04DA5A4E76E5CE135B8E247AE0D1D
35 Original File(SHA1): A57EEFA0C653B49BD60B6F46D7C441A78063B682
Authenticode(SHA1): 96FAA975FEB28588372A98A1E77D98AF7FC90E41
Page(SHA1): 197859EEFBCF17BE48A3C49818B35F263701755F
Page(SHA256): 5C8C0FC9B3B7C6C7E6BDD83A8D3ED44E075D9C3B42463E1CC5EE28049517488E
36 Original File(SHA1): 090A4FC285D4F47B1E6A1011353A329C1F4C8E09
Authenticode(SHA1): C77403CFFCD15438EA3DDDF0763AB0A70A9100CB
Page(SHA1): DCCA45C770E93BCF9FC7A9ADFC4653AE744C798C
Page(SHA256): DE88E584BC88C463F479CAA5A6F4C166B8180E2AEAC62A54879875D374704631
37 Original File(SHA1): 3303BA52A334DA58A4992C4F9FBA7272E294B7AF
Authenticode(SHA1): 43239D3355CED44FB56C4127BF96EF2ED1BE2780
Page(SHA1): 6ECDAAECEB20B8D037FD4508A4B1DCE1ADCD2203
Page(SHA256): 6DA94C767419BAFB993B39913CD99146EB80FC13B5A6D5DE96829E084D4CFC83
38 Original File(SHA1): F3383FE0FF00BDEA1AA9E68BCAAD8B83885E306D
Authenticode(SHA1): D889E03CE654903A5113F49F49A1C23F3317E7D0
Page(SHA1): 0773B431922B3208DB0C4A4E02F9CE7297AAE774
Page(SHA256): AE38ADF8B97188675D8F6396F2DC0801C60CBFD546CAEDE915B73E9332DF6C8C
39 Original CVE-2023-38817 File(SHA1): A93197C8C1897A95C4FB0367D7451019AE9F3054
Authenticode(SHA1): 678620A9CC9E7FFE179BC5CDA0A2DD0597E231EE
Page(SHA1): 832832028D40A3CFD08D364554FCE0B4F37317FF
Page(SHA256): 49ED19D5E1E122936035A48EA99FFD68CA4915578107888D5C2B0BB9E30E67C0
40 Original File(SHA1): BDA102AFBC60F3F3C5BCBD5390FFBBBB89170B9C
Authenticode(SHA1): 0FB1D0EF14AB73FCB4C62043859064CC5F9F88C2
Page(SHA1): B754B2C62796004560E2ADF5178099B98F111C25
Page(SHA256): 83D2A9535CDB68A8D6EAE5582DB7A70E01A520151448CEB572D96566A2AECB82
41 Original CVE-2023-41444 File(SHA1): D2FB46277C36498E87D0F47415B7980440D40E3D
Authenticode(SHA1): 719F659300BA463EFEEAB5916F0378C64FC1AD4A
Page(SHA1): F7FEA2BE8FF65DBB89BAF39EF8E0D80DAB81CB8E
Page(SHA256): 5FEB045C2452FD280BA1CAD5FC9B4F0DE7FC95EABDCE19FA2CD1F632891F3B1A
42 WINRING0 File(SHA1): 177B541412A45646177B2352FA2D9E89E0EEFE5A
Authenticode(SHA1): 200ABD07303234FC114360D9DABC38DA1F1F2A22
Page(SHA1): 84B91B1AED8F83DE14323089148BE2577FDC826C
Page(SHA256): B8502DB6B8947E5D852102166D0BEF8252EA3431D582E968EF44C35E56609C91
43 Original CVE-2017-9769 File(SHA1): F999709E5B00A68A0F4FA912619FE6548AD0C42D
Authenticode(SHA1): 1AC31466261A6DA69FBEB8E99D0B7B772071AC7F
Page(SHA1): 4EC299E9A539F6BC194BD3D436B24A565BD32EF4
Page(SHA256): C8CE0EE4FF58779A292B5626D9953888A1A04799E18924CB7A075095C25042E8
44 Original CVE-2023-20598 File(SHA1): A24840E32071E0F64E1DFF8CA540604896811587
Authenticode(SHA1): 661A1A28950CEC3F2C3D0E72AB2A05D4A173CF9A
Page(SHA1): 869BED04EB66492AC532E36C3C6171AB34DA1A00
Page(SHA256): E5DC6305227951B05997CD147C59795991F7EDE52461D069EFE1D568DD25C580
45 Original CVE-2020-12928 File(SHA1): 17D28A90EF4D3DBB083371F99943FF938F3B39F6
Authenticode(SHA1): 9A329362E340FC8363E67FB5F23A8391CB83BF00
Page(SHA1): 0BC84A62ABD3CA20305FB834592928C2317439D6
Page(SHA256): 76C7A12CDE2FDC80A6AF0A58E7698FC1F5EC8746EFB461FB07155B7065480715
46 WINIO File(SHA1): AEC96520E85330594D3165C86CB92EAC34C1E095
Authenticode(SHA1): A7179D7CF5EE58276C3C42A16195A0B733F31B53
Page(SHA1): AF7FED1C68BB2D459F7778EC6D20459618CF3D26
Page(SHA256): 490B1FFC374F9CDEC57BBCE9DAD93251516DE93C7A7F3475D8AC55A6DCBB958E
*At commit time, data maybe inaccurate.

More providers maybe added in the future.

How it work

It uses known to be vulnerable (or wormhole by design) driver from legitimate software to access arbitrary kernel memory with read/write primitives.

Depending on command KDU will either work as TDL/DSEFix or modify kernel mode process objects (EPROCESS).

When in -map mode KDU for most available providers will by default use 3rd party signed driver from SysInternals Process Explorer and hijack it by placing a small loader shellcode inside it IRP_MJ_DEVICE_CONTROL/IRP_MJ_CREATE/IRP_MJ_CLOSE handler. This is done by overwriting physical memory where Process Explorer dispatch handler located and triggering it by calling driver IRP_MJ_CREATE handler (CreateFile call). Next shellcode will map input driver as code buffer to kernel mode and run it with current IRQL be PASSIVE_LEVEL. After that hijacked Process Explorer driver will be unloaded together with vulnerable provider driver. This entire idea comes from malicious software of the middle of 200x known as rootkits.

Shellcode versions

KDU uses shellcode to map input drivers and execute their DriverEntry. There are few shellcode variants embedded into KDU. Shellcode V1, V2 and V3 used together with 3rd party victim driver (Process Explorer, by default). They are implemented as fake driver dispatch entry and their differences are: V1 uses newly created system thread to execute code, V2 uses system work items, V3 manually builds driver object and runs DriverEntry as if this driver was loaded normally. Shellcode V4 is simplified version of previous variants intended to be run not like an driver dispatch entry. While theoretically all "providers" can support all variants this implementation is limited per provider. You can view it by typing -list command and looking for shellcode support mask. Currently all providers except N21 support V1, V2 and V3 variants.

Build and Notes

KDU comes with full source code. In order to build from source you need Microsoft Visual Studio 2019 and later versions. For driver builds you need Microsoft Windows Driver Kit 10 and/or above.

Complete working binaries include: kdu.exe (main executable) and drv64.dll (drivers database). They must reside in the same directory that must have R/W access enabled for kdu.exe. All binaries MUST BE compiled in "Release" configuration. In order to use providers that require Microsoft Symbols usage you need to put dbghelp.dll and symsrv.dll from the Debugging Tools For Windows into KDU directory.

Utils and Notes

GenAsIo2Unlock is a special utility used to generate "unlocking" resource which is required for working with AsIO2 driver. Full source of this utility included in Source\Utils\GenAsIo2Unlock. Compiled version located in Sources\Hamakaze\Utils\GenAsIo2Unlock.exe. Warning this utility is set on execution at post-build-event for both Debug/Release configurations. If you don't want to run precompiled version replace it with newly compiled from sources. If you remove this post-build-event newly compiled KDU will NOT BE ABLE to use AsIO2 driver (provider #13).

Reporting bugs and incompatibilities

If you experienced bug or incompatibility while using KDU with 3rd party software or OS feel free to fill the issue. However if this incompatibility is caused by your own actions such reports will be ignored. Any BSOD reports should include minidump attached or your own dump analysis (windbg !analyze -v), issues without these information will be ignored.

Anticheat, antimalware incompatibilities will be ignored, that's your own fault.

Disclaimer

Using this program might crash your computer with BSOD. Compiled binary and source code provided AS-IS in hope it will be useful BUT WITHOUT WARRANTY OF ANY KIND. Since KDU rely on completely bugged and vulnerable drivers security of computer where it executed maybe put at risk. Make sure you understand what you do.

Third party code usage

References

Wormhole drivers code

They are used in multiple products from hardware vendors mostly in unmodified state. They all break OS security model and additionally bugged. Links are for educational purposes of how not to do your drivers. Note that following github account have nothing to do with these code, these code in unmodified state and provided only for educational purposes.

Authors

(c) 2020 - 2023 KDU Project