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Riverbed RiOS Insecure Cryptographic Storage

Posted on 30 November -0001

<HTML><HEAD><TITLE>Riverbed RiOS Insecure Cryptographic Storage</TITLE><META http-equiv="Content-Type" content="text/html; charset=utf-8"></HEAD><BODY># Riverbed RiOS insecure cryptographic storage (CVE-2017-5670) ## Description Riverbed Steelhead hardware appliances are used to optimize and accelerate network traffic. There can be implemented as TLS endpoints, so they have a secure vault aimed to store private TLS certificates for servers. The secure vault has FIPS mode support. ## Improper encryption implementation The secure vault used on the Steelhead appliance (and potentially other that we could not test) is not efficient in its default form, because of the lack of boot loader security. **Threat** An adversary can boot an appliance and recover all private keys of the server certificates that are configured on it. It may happen in various situation (subcontractors, hardware decommissioning, etc.). **Expectation** With proper encryption (FDE) and sanitization procedures, certificates should be unrecoverable, as quoted from the documentation: > Since the information is only in memory, when an appliance is rebooted or powered off, the information is no longer available". **CVE ID**: CVE-2017-5670 **Access Vector**: local **Security Risk**: medium **Vulnerability**: CWE-310, CWE-321 **CVSS Base Score**: 7.1 **CVSS Vector**: CVSS:3.0/AV:P/AC:H/PR:N/UI:N/S:C/C:H/I:H/A:L ### Defeating system encryption with anonymous console access We followed the steps below to take over the appliance and recover private keys from the file system, with zero knowledge of the appliance and its configuration : **1/** Connect to the appliance in RS232. **2/** Turn on the appliance and edit the Grub line to boot in `single` mode **3/** Proceed with the boot to get the root shell. But at this stage, vault decryption has not happened yet. **4/** Reset the *admin* password, which can be achieved with the `/sbin/resetpw.sh` script. **5/** Modify the firmware to replace `/opt/tms/bin/cli` with `bash` : ``` # mount / -o remount, rw # cd /opt/tms/bin/ # mv cli cli.bask # cp /bin/bash cli # reboot ``` **5/** Reboot to now get a full admin access with a `bash` shell. **6/** Use the `mount` command to confirm that decryption has happened: ``` # mount encfs on /var/opt/rbt/decrypted type fuse.encfs (rw,nosuid,nodev,relatime,user_id=0) # ls /var/opt/rbt/decrypted available framework notes ssl tmp ``` **7/** Now insert an USB key and retrieve the whole vault. Note that non-exportable certificates can be extracted without any issue (from `./decrypted/server_certs/names/NOExportableCA/`). The exportation is only based on a local file that acts as a flag: ``` # cat /var/opt/rbt/decrypted/server_certs/names/NOExportableCA/exportable false ``` **8/** Note that encryption is made by the `/sbin/secure_vault.sh` script, which makes EncFS encryption based on fixed and hard-coded keys: ``` [...] MAGIC_STRING='This ********* motorcycle' [...] PASSWORD="${MAGIC_STRING}_{SERIAL_NUM} [...] ``` So the passphrase is basically a concatenation of a constant magic string and the appliance serial number, two pieces of information that an attacker can easily retrieve. > With this knowledge, it is trivial to reproduce the decryption on any Linux computer with EncFS. Thus, it is actually not necessary anymore to root the appliance to decrypt data, the disk content could be copied offline. Several weaknesses lead to the certificate exposure: - The boot loading chain is not password protected (starting with Grub) and there is no integrity control, so it is trivial to "root" the appliance. - File-system level encryption is inefficient for protecting local storage, especially when the system lacks of integrity protection : the disk can be accessed and the data can be retrieved while it is decrypted. - A fixed and hard-coded value is used by the system as an encryption key. It even makes offline decryption easy. - Do not claim to encrypt with PBKDF-2 in the documentation. The user password is used with no derivation. ### A look at the user password mode In an improved vault encryption mode, the appliance allows the user to encrypt with its own key. The documentation advertises that the key is based on PBKDF-2, so we expect that the encryption to be a hash. We set this mode and tracked system calls while unlocking a certificate in the Web interface : ``` # strace -e write -o /tmp/out /opt/tms/bin/mgmtd & 1 > /dev/null 2>&1 [...] write(19, "Pass123_EC6R*****0 ", 22) = 22 [...] ``` So we found the password that we set for the vault, appended with the appliance serial number. With this information, we succeeded in decrypting the vault offline, from another Linux box. Riverbed advertises that the use of PBKDF-2 makes the password stronger to prevent brute force attacks (as it is used in EncFS). However, a poorly chosen pass phrase (in the absence of password policy enforcement) and a physically readable salt (the serial number on the appliance) would yet defeat the benefits of EncFS encryption. ## Insecure secure vault deletion Two scripts are used at different times to delete the secure vault: `/sbin/secure_vault_clear.sh` and `/sbin/scrub.sh`. They simply use the `rm` system command to delete the files, as follows: ``` [...] umount /var/opt/rbt/decrypted rm -rf /var/opt/rbt/decrypted rm -rf /var/opt/rbt/encrypted rm -f /var/opt/rbt/ssl [...] ``` A better practice would be to use `shred` or `srm` utilities to wipe files securely. ## Affected versions RiOS versions prior to 9.0.1 regarding the single boot mode. Potentially all version regarding secure vault weak encryption and wiping. ### Solution Sysdream considers that the encryption scheme needs a complete re-factoring in relevance with the secrets it protects. We believe that full disk encryption should be implemented, with better boot loader security features. Default security and clarifications should be mandatory for this kind of appliance. As of now, Riverbed advises: > 1) Ensure physical access is protected > 2) Keep your software up-to-date > 3) Set a bootloader password > 4) Set a BIOS password > 5) Change the default secure-vault password > 6) Take proper steps when decommissioning including erasing hard-disk data We could not verify that all these items can be implemented (for instance, on our model and RiOS version, no setting allowed to set a Grub and BIOS password, and the user guide did not mention anything). So, please refer to your documentation (deployment guide) or support to check how you can implement these security settings. ## Timeline (dd/mm/yyyy) * 7/12/2016 Initial discovery * 11/12/2016 First e-mail contact * 17/12/2016 Sent all details to Riverbed contact * 26/01/2017 After several requests to the support, got contact with the security team. Riverbed position is that customers should put proper physical protections in place in any case. Also, version 9.0.1 removed single mode boot. * 11/02/2017 Disclosure ## Credits * Jean-Christophe Baptiste, aka phocean, Sysdream (jc.baptiste -at- sysdream -dot- com) -- SYSDREAM Labs <labs@sysdream.com> GPG : 47D1 E124 C43E F992 2A2E 1551 8EB4 8CD9 D5B2 59A1 * Website: https://sysdream.com/ * Twitter: @sysdream </BODY></HTML>

 

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