Advisory: Alcatel-Lucent OmniSwitch Web Interface Weak Session ID
During a penetration test, RedTeam Pentesting discovered a vulnerability in the management web interface of an Alcatel-Lucent OmniSwitch 6450. This interface uses easily guessable session IDs, which allows attackers to authenticate as a currently logged-in user and perform administrative tasks.
Details
=======
Product: Alcatel-Lucent OmniSwitch 6450, 6250, 6850E, 9000E, 6400, 6855
Affected Versions:
AOS 6.4.5.R02
AOS 6.4.6.R01
AOS 6.6.4.R01
AOS 6.6.5.R02
Fixed Versions:
AOS 6.6.5.80.R02
AOS 6.6.4.309.R01
Vulnerability Type: Session Management - low identifier entropy
Security Risk: high
Vendor URL: http://enterprise.alcatel-lucent.com/?product=OmniSwitch6450&page=overview
Vendor Status: fixed version released
Advisory URL: https://www.redteam-pentesting.de/advisories/rt-sa-2015-003
Advisory Status: published
CVE: CVE-2015-2804
CVE URL: https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2015-2804
Introduction
============
"The Alcatel-Lucent OmniSwitch 6450 Gigabit and Fast Ethernet Stackable LAN Switches are the latest value stackable switches in the OmniSwitch family of products. The OmniSwitch 6450 was specifically built for versatility offering optional upgrade paths for 10 Gigabit stacking, 10 Gigabit Ethernet uplinks, from Fast to Gigabit user ports (L models) and Metro Ethernet services."
(from the vendor's homepage)
More Details
============
The management web interface of the OmniSwitch 6450 can be accessed using a web browser via HTTP. A switch with the example IP 192.0.2.1 is accessible via the following URL:
http://192.0.2.1/
A client is then redirected to the following URL:
http://192.0.2.1/web/content/index.html
For unauthenticated users the URL displays a login form and sets a session cookie with a session ID. A request to the URL with the command line HTTP
client cURL shows the Set-Cookie header:
$ curl -I http://192.0.2.1/web/content/index.html
HTTP/1.1 200 OK
Date: Tue, 17 Mar 2015 08:25:42 GMT
Server: Agranat-EmWeb/R5_2_4
[...]
Set-Cookie: session=sess_11012;PATH=/
The session cookie has the name "session" and its value begins with the
string "sess_". By repeatedly requesting the URL with cURL it became obvious
that the suffix is always a number between 1 and 32,000. This suggests that
there are only about 32,000 possible session IDs, resulting in only 15 bits
of entropy. Our tests showed that it was possible to get a throughput of about
50 HTTP requests per second, this means that in order to try every possible
session ID an attacker will need at most 11 minutes. On average, the time it
takes to find a valid session ID for an active user is even lower.
Proof of Concept
================
For an attacker it is very easy to distinguish between a valid and an invalid session ID by looking at the HTTP response size. During our tests, requesting an invalid session ID always returned the login form, which was 3027 bytes in length. With a valid session ID, the management web interface is returned by the webserver and the response is larger.
A number of requests in the range of the possible session cookies can be easily executed using wfuzz [0]:
------------------------------------------------------------------------
./wfuzz.py -z range,1-32000 --hl 3027 -H "Cookie: session=sess_FUZZ" http://192.0.2.1/web/content/index.html
------------------------------------------------------------------------
Workaround
==========
Administrators should avoid using the management web interface and use the serial console or administrate the switch over SSH instead. The web interface can be disabled by executing the following commands:
no ip service http
no ip service secure-http
If the web interface is needed, it must be ensured that only authorised persons
are able to even connect to the web server. In addition, the HTTP session
timeout can be lowered to one minute with the following command:
session timeout http 1
Fix
===
Upgrade the firmware to a fixed version.
Security Risk
=============
The vulnerability poses a high risk. An attacker can easily authenticate to a switch with the privileges of another user who is currently logged in. The attack is simple and fast. The only precondition is that a user is already using the switch during the attack. Attackers might actively trick administrators into logging in by social engineering.
Timeline
========
2015-03-16 Vulnerability identified
2015-03-25 Customer approves disclosure to vendor
2015-03-26 CVE number requested
2015-03-31 CVE number assigned
2015-04-01 Vendor notified
2015-04-02 Vendor acknowledged receipt of advisories
2015-04-08 Requested status update from vendor, vendor is investigating
2015-04-29 Requested status update from vendor, vendor is still investigating
2015-05-22 Requested status update from vendor
2015-05-27 Vendor is working on the issue
2015-06-05 Vendor notified customers
2015-06-08 Vendor provided details about affected versions
2015-06-10 Advisory released
References
==========
[0] https://github.com/xmendez/wfuzz
RedTeam Pentesting GmbH
=======================
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