SAP Cloud Connector 2.16.1 Missing Validation
2024-5-15 22:14:48 Author: packetstormsecurity.com(查看原文) 阅读量:3 收藏

SEC Consult Vulnerability Lab Security Advisory < 20240513-0 >
=======================================================================
title: Tolerating Self-Signed Certificates
product: SAP® Cloud Connector
vulnerable version: 2.15.0 - 2.16.1 (Portable and Installer)
fixed version: 2.16.2 (Portable and Installer)
CVE number: CVE-2024-25642
impact: high
homepage: https://www.sap.com/about.html
found: 2023-11-13
by: Mingshuo Li (Office Munich)
Fabian Hagg
SEC Consult Vulnerability Lab

An integrated part of SEC Consult, an Eviden business
Europe | Asia

https://www.sec-consult.com

=======================================================================

Vendor description:
-------------------
"The Cloud Connector is an optional on-premise component that is needed to
integrate on-demand applications with customer backend services and is the
counterpart of SAP Connectivity service."

Source: https://tools.hana.ondemand.com/#cloud

Business recommendation:
------------------------
SEC Consult recommends to implement the security note 3424610, where the
documented issue is fixed in version 2.16.2 according to the vendor. We
advise installing the correction as a matter of priority to keep
business-critical data secured.

Source: https://support.sap.com/en/my-support/knowledge-base/security-notes-news/february-2024.html

Vulnerability overview/description:
-----------------------------------
1) Tolerating Self-Signed Certificates (CVE-2024-25642)
As per vendor documentation, the authentication between SCC and SAP BTP is guaranteed
mutually:

"The tunnel itself is using TLS with strong encryption of the communication,
and mutual authentication of both communication sides, the client side
(Cloud Connector) and the server side (SAP BTP)."

Source: https://help.sap.com/docs/connectivity/sap-btp-connectivity-cf/inbound-connectivity#tls-tunnel

It was however discovered that the SCC trusts self-signed X.509 server certificates
for transport security to establish outbound connections with cloud-related
endpoints. Thus, an attacker can impersonate the genuine servers to interact
with the SCC, hence breaking the mutual authentication promise. Our analysis shows
furthermore that the product does not implement Certificate Pinning for the
trusted endpoints.

The security impact of this vulnerability is rated high due to the trust put
into self-signed certificates, SCC is unable to distinguish between genuine and
malicious SAP BTP endpoints, rendering trivial adversary-in-the-middle attacks
possible.

Proof of concept:
-----------------
1) Tolerating Self-Signed Certificates (CVE-2024-25642)
A "tunnel" established between a subaccount of SAP BTP and SCC represents a
long-lived bi-directional WebSocket over TLS customized by the vendor.
Such a tunnel is initiated by the SCC, known as reverse invoke approach,
to give the administrator full control of the tunnel.

Two tunnels established by SCC are protected by TLS with respect to encrypted
communication. However, SCC does not verify the authenticity of the
certification authority, hence allowing an attacker to impersonate the target
server, using self-signed certificates.

In particular, the attack is targeted at the following two endpoints, but not
limited to the region host us10.

- connectivitynotification.cf.us10.hana.ondemand.com
- connectivity.us10.trial.applicationstudio.cloud.sap

Note that the following endpoint, which is used for the initial certificate
signing request by SCC and to receive the BTP subaccount credentials, is
not susceptible to this issue.

- connectivitycertsigning.cf.us10.hana.ondemand.com

Nonetheless, it suffices to silently eavesdrop and manipulate network traffic
between SCC and SAP BTP by impersonating the two vulnerable endpoints above.

Without loss of generality, the first endpoint is taken as example to
demonstrate the issue by the following steps:

1. Add an entry in /etc/hosts of the SCC host as below to resolve the host name
to an attacker-controlled IP address:

192.168.1.100 connectivitynotification.cf.us10.hana.ondemand.com

2. Generate a self-signed certificate with the spoofed hostname as common name

```
$ openssl req -x509 -newkey rsa:4096 -keyout conn-noti-key.pem -out conn-noti-cert.pem -sha256 -days 3650 -nodes -subj "/C=DE/ST=Baden-Wuerttemberg/L=Walldorf/O=SAP
SE/OU=ITSecurity/CN=connectivitynotification.cf.us10.hana.ondemand.com"
```

3. Start an HTTPS server on the attacker machine to receive the connection from
SCC, using the self-signed certificate created in step 2

The following Python script can be used to start the HTTPS server:
```
$ cat https-dummy-server.py
import http.server
import ssl

server_address = ("192.168.1.100", 443)
httpd = http.server.HTTPServer(server_address, http.server.SimpleHTTPRequestHandler)
httpd.socket = ssl.wrap_socket(httpd.socket,
server_side=True,
certfile="self-signed-cert/conn-noti-cert.pem",
keyfile="self-signed-cert/conn-noti-key.pem",
ssl_version=ssl.PROTOCOL_TLS)
httpd.serve_forever()
```

4. Connect to a subaccount of BTP, for example US East AWS, in the SCC
Administration UI

As soon as the connection is launched, the dummy web server will receive the
request as shown below:

```
$ python3 https-dummy-server.py
192.168.1.200 - - [10/Nov/2023 12:00:00] "GET /connectivity HTTP/1.1" 200 -
```

This observation confirms that the TLS connection between SCC and the spoofed
BTP endpoint operated on the attacker's machine has been successfully established
although the server presented a self-signed certificate. No security warning
message is being displayed in the Administration UI, making the attack
surreptitious.

Vulnerable / tested versions:
-----------------------------
The following versions have been tested which were the latest versions available
at the time of the test:

* SAP Cloud Connector Linux x86_64 Version 2.16.0
* SAP Cloud Connector Linux (Portable) x86_64 Version 2.16.0

According to the vendor, the vulnerability is a regression and affects the
versions 2.15.0 - 2.16.1.

Vendor contact timeline:
------------------------
2023-11-14: Contacting vendor through vulnerability submission web form
2023-11-17: Vendor confirms receipt and assign SAP security incident numbers to
the four submitted findings: 2370150975, 2370150977, 2370150994, 2370151022
2023-11-20: Vendor informs the reported issues be assigned the appropriate
development teams for analysis
2023-12-05: Requesting status update
2023-12-05: Vendor informs that 2370151022 be rejected
2023-12-05: Issuing rebuttal for 2370151022
2023-12-06: Vendor contemplates further analysis
2023-12-14: Vendor decides not to take any action on 2370151022 and rejects
2370150977 and 2370150975 as well.
2023-12-15: Vendor accepts 2370150994
2024-01-05: Asked vendor to comment on the three rejected issues
2024-01-10: Vendor gives detailed rationale for the rejection of 2370150975
2024-01-12: Issuing rebuttal for 2370150975
2024-01-15: Vendor insists on rejection of 2370150975 and closes the ticket.
Removing three rejected potential security issues from advisory.
2024-02-13: Release of SAP Security Patch Day, security note #3424610
2024-02-26: Asking for the disclosure guideline to publish finding 2370150994
2024-02-26: Vendor confirms the three-month embargo
2024-05-13: Coordinated release of SEC Consult advisory.

Solution:
---------
The vendor provides a patched version 2.16.2 which can be downloaded from their
website:
https://tools.hana.ondemand.com/#cloud

Also see the vendor's security note #3424610 for further details:
https://me.sap.com/notes/3424610

Workaround:
-----------
None

Advisory URL:
-------------
https://sec-consult.com/vulnerability-lab/

~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

SEC Consult Vulnerability Lab
An integrated part of SEC Consult, an Eviden business
Europe | Asia

About SEC Consult Vulnerability Lab
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Eviden business. It ensures the continued knowledge gain of SEC Consult in the
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and valid recommendation about the risk profile of new technologies.

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EOF M. Li, F. Hagg / @2024


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