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CVE-2021-44718: wolfSSL Security Vulnerabilities | wolfSSL Embedded SSL/TLS Library

wolfSSL through 5.0.0 allows an attacker to cause a denial of service and infinite loop in the client component by sending crafted traffic from a Machine-in-the-Middle (MITM) position. The root cause is that the client module accepts TLS messages that normally are only sent to TLS servers.

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#vulnerability#web#mac#cisco#dos#git#perl#amd#buffer_overflow#samsung#auth#ssh#sap#ssl

LINK N/A Low Fault injection attack on RAM via Rowhammer leads to ECDSA key disclosure. Users doing operations with private ECC keys such as server side TLS connections and creating ECC signatures, who also have hardware that could be targeted with a sophisticated Rowhammer attack should update the version of wolfSSL and compile using the macro WOLFSSL_CHECK_SIG_FAULTS. Thanks to Yarkin Doroz, Berk Sunar, Koksal Must, Caner Tol, and Kristi Rahman all affiliated with the Vernam Applied Cryptography and Cybersecurity Lab at Worcester Polytechnic Institute for the report. 5 days 5.5.0 LINK CVE-2022-38153 Low In wolfSSL version 5.3.0 if compiled with --enable-session-ticket and the client has non-empty session cache, with TLS 1.2 there is the possibility of a man in the middle passing a large session ticket to the client and causing a crash due to an invalid free. There is also the potential for a malicious TLS 1.3 server to crash a client in a similar manner except in TLS 1.3 it is not susceptible to a man in the middle attack. Users on the client side with –enable-session-ticket compiled in and using wolfSSL version 5.3.0 should update their version of wolfSSL. Thanks to Max at Trail of Bits for the report and “LORIA, INRIA, France” for research on tlspuffin. 5 days 5.5.0 LINK CVE-2022-38152 Low If using wolfSSL_clear to reset a WOLFSSL object (vs the normal wolfSSL_free/wolfSSL_new) it can result in runtime issues. This exists with builds using the wolfSSL compatibility layer (–enable-opnesslextra) and only when the application is making use of wolfSSL_clear instead of SSL_free/SSL_new. In the case of a TLS 1.3 resumption, after continuing to use the WOLFSSH object after having called wolfSSL_clear, an application could crash. It is suggested that users calling wolfSSL_clear update the version of wolfSSL used. Thanks to Max at Trail of Bits for the report and “LORIA, INRIA, France” for research on tlspuffin. 2 days 5.5.0 LINK N/A Medium Potential DoS attack on DTLS 1.2. In the case of receiving a malicious plaintext handshake message at epoch 0 the connection will enter an error state reporting a duplicate message. This affects both server and client side. Users that have DTLS enabled and in use should update their version of wolfSSL to mitigate the potential for a DoS attack. 0 days 5.5.0 LINK CVE-2022-34293 High Potential for DTLS DoS attack. In wolfSSL versions before 5.4.0 the return-routability check is wrongly skipped in a specific edge case. The check on the return-routability is there for stopping attacks that either consume excessive resources on the server, or try to use the server as an amplifier sending an excessive amount of messages to a victim IP. If using DTLS 1.0/1.2 on the server side users should update to avoid the potential DoS attack. 4 days 5.4.0 LINK N/A Medium Ciphertext side channel attack on ECC and DH operations. Users on systems where rogue agents can monitor memory use should update the version of wolfSSL and change private ECC keys. Thanks to Sen Deng from Southern University of Science and Technology (SUSTech) for the report. 6 days 5.4.0 LINK CVE-2022-25640 High A TLS v1.3 server who requires mutual authentication can be bypassed. If a malicious client does not send the certificate_verify message a client can connect without presenting a certificate even if the server requires one. Thank you to Aina Toky Rasoamanana and Olivier Levillain of Télécom SudParis. 11 days 5.2.0 LINK CVE-2022-25638 High A TLS v1.3 client attempting to authenticate a TLS v1.3 server can have its certificate check bypassed. If the sig_algo in the certificate_verify message is different than the certificate message checking may be bypassed. Thank you to Aina Toky Rasoamanana and Olivier Levillain of Télécom SudParis. 6 days 5.2.0 LINK CVE-2022-23408 High In connections using AES-CBC or DES3 with TLS/DTLS 1.2 or 1.1 the IV being used is not random. Users using wolfSSL version 5.0.0 or 5.1.0 doing TLS/DTLS 1.2 or 1.1 connections, without AEAD only, should update the version of wolfSSL used. 0 days 5.1.1 LINK CVE-2020-12966
CVE-2021-46744 Medium Public disclosure of a side channel vulnerability that has been fixed since wolfSSL version 5.1.0. When running on AMD there is the potential to leak private key information with ECDSA operations due to a ciphertext side channel attack. Users on AMD doing ECDSA operations with wolfSSL versions less than 5.1.0 should update their wolfSSL version used. Thanks to professor Yinqian Zhang from Southern University of Science and Technology (SUSTech), his Ph.D. student Mengyuan Li from The Ohio State University, and his M.S students Sen Deng and Yining Tang from SUStech along with other collaborators; Luca Wilke, Jan Wichelmann and Professor Thomas Eisenbarth from the University of Lubeck, Professor Shuai Wang from Hong Kong University of Science and Technology, Professor Radu Teodorescu from The Ohio State University, Huibo Wang, Kang Li and Yueqiang Cheng from Baidu Security and Shoumeng Yang from Ant Financial Services Group. Fixed 107 days prior to CVE issuance. 5.1.0 LINK CVE-2021-44718 Low Potential for DoS attack on a wolfSSL client due to processing hello packets of the incorrect side. This affects only connections using TLS v1.2 or less that have also been compromised by a man in the middle attack. Thanks to James Henderson, Mathy Vanhoef, Chris M. Stone, Sam L. Thomas, Nicolas Bailleut, and Tom Chothia (University of Birmingham, KU Leuven, ENS Rennes for the report. 0 days 5.1.0 LINK N/A Low Client side session resumption issue once the session resumption cache has been filled up. The hijacking of a session resumption has been demonstrated so far with only non verified peer connections. That is where the client is not verifying the server’s CA that it is connecting to. There is the potential though for other cases involving proxies that are verifying the server to be at risk, if using wolfSSL in a case involving proxies use wolfSSL_get1_session and then wolfSSL_SESSION_free when done where possible. If not adding in the session get/free function calls we recommend that users of wolfSSL that are resuming sessions update to the latest version (wolfSSL version 5.1.0 or later). Thanks to the UK’s National Cyber Security Centre (NCSC) for the report. 6 days 5.1.0 LINK N/A Low Hang with DSA signature creation when a specific q value is used in a maliciously crafted key. If a DSA key with an invalid q value of either 1 or 0 was decoded and used for creating a signature, it would result in a hang in wolfSSL. Users that are creating signatures with DSA and are using keys supplied from an outside source are affected. 3 days 5.0.0 LINK N/A Low Issue with incorrectly validating a certificate that has multiple subject alternative names when given a name constraint. In the case where more than one subject alternative name is used in the certificate, previous versions of wolfSSL could incorrectly validate the certificate. Users verifying certificates with multiple alternative names and name constraints, are recommended to either use the certificate verify callback to check for this case or update the version of wolfSSL used. Thanks to Luiz Angelo Daros de Luca for the report. 2 days 5.0.0 LINK CVE-2021-38597 High OCSP verification issue when response is for a certificate with no relation to the chain in question BUT that response contains the NoCheck extension which effectively disables ALL verification of that one cert. Users who should upgrade to 4.8.1 are TLS client users doing OCSP, TLS server users doing mutual auth with OCSP, and CertManager users doing OCSP independent of TLS. Thanks to Jan Nauber, Marco Smeets, Werner Rueschenbaum and Alissa Kim for the report. 8 days 4.8.1 LINK N/A Low OCSP request/response verification issue. In the case that the serial number in the OCSP request differs from the serial number in the OCSP response the error from the comparison was not resulting in a failed verification. We recommend users that have wolfSSL version 4.6.0 and 4.7.0 with OCSP enabled update their version of wolfSSL. Version 4.5.0 and earlier are not affected by this report. Thanks to Rainer, Roee, Barak, Hila and Shoshi (from Cymotive and CARIAD) for the report. 2 days 4.8.0 LINK CVE-2021-3336 High In earlier versions of wolfSSL there exists a potential man in the middle attack on TLS 1.3 clients. Malicious attackers with a privileged network position can impersonate TLS 1.3 servers and bypass authentication. Users that have applications with client side code and have TLS 1.3 turned on, should update to the latest version of wolfSSL. Users that do not have TLS 1.3 turned on, or that are server side only, are NOT affected by this report. For the code change see https://github.com/wolfSSL/wolfssl/pull/3676. Thanks to Aina Toky Rasoamanana and Olivier Levillain from Télécom SudParis for the report. Fixed 12 days prior to CVE issuance 4.7.0 LINK N/A Low In the case of using custom ECC curves there is the potential for a crafted compressed ECC key that has a custom prime value to cause a hang when imported. This only affects applications that are loading in ECC keys with wolfSSL builds that have compressed ECC keys and custom ECC curves enabled. 1 day 4.7.0 LINK N/A Low With TLS 1.3 authenticated-only ciphers a section of the server hello could contain 16 bytes of uninitialized data when sent to the connected peer. This affects only a specific build of wolfSSL with TLS 1.3 early data enabled and using authenticated-only ciphers with TLS 1.3. 12 days 4.7.0 LINK CVE-2021-24116 Low Side-Channel cache look up vulnerability in base64 PEM decoding for versions of wolfSSL 4.5.0 and earlier. Versions 4.6.0 and up contain a fix and do not need to be updated for this report. If decoding a PEM format private key using version 4.5.0 and older of wolfSSL then we recommend updating the version of wolfSSL used. Thanks to Florian Sieck, Jan Wichelmann, Sebastian Berndt and Thomas Eisenbarth for the report. Fixed 7 months prior to CVE issuance 4.6.0 LINK CVE-2020-24613 High In wolfSSL versions prior to 4.5.0 there exists a potential man in the middle attack on TLS 1.3 clients. Malicious attackers with a privileged network position can impersonate TLS 1.3 servers and bypass authentication. Users that have applications with client side code and have TLS 1.3 turned on, should update to the latest version of wolfSSL. Users that do not have TLS 1.3 turned on, or that are server side only, are NOT affected by this report. Thanks to Gerald Doussot from NCC group for the report. 2 days 4.5.0 LINK CVE-2020-12457 Low In wolfSSL versions prior to 4.5.0, a denial of service attack on TLS 1.3 servers from repetitively sending ChangeCipherSpecs messages is possible. This denial of service results from the
relatively low effort of sending a ChangeCipherSpecs message versus the effort of the server to process that message. Users with TLS 1.3 servers are
recommended to update to the most recent version of wolfSSL which limits the number of TLS 1.3 ChangeCipherSpecs that can be received in order to avoid this DoS attack. CVE-2020-12457 was reserved for the report. Thanks to Lenny Wang of Tencent Security Xuanwu LAB. Fixed 114 days prior to CVE issuance 4.5.0 LINK CVE-2020-15309 Low wolfSSL versions prior to 4.5.0 included a potential cache timing attack on public key operations in builds that are not using SP (single precision). Users that have a system where malicious
agents could execute code on the system, are not using the SP build with wolfSSL, and are doing private key operations on the system (such as signing
with a private key) are recommended to regenerate private keys and update to the most recent version of wolfSSL. CVE-2020-15309 is reserved for this issue. Thanks to Ida Bruhns from Universität zu Lübeck for the report. Fixed 57 days prior to CVE issuance 4.5.0 LINK N/A Low In wolfSSL versions prior to 4.5.0, when using SGX with EC scalar multiplication the possibility of side-channel attacks are present. To mitigate the risk of side channel attacks wolfSSL’s single precision EC operations should be used instead. Release 4.5.0 turns this on be default now with SGX builds and in previous versions of wolfSSL this can be turned on by using the WOLFSSL_SP macros. Thank you to Alejandro Cabrera Aldaya, Cesar Pereida García and Billy Bob Brumley from the Network and Information Security Group (NISEC) at Tampere University for the report. 1 day 4.5.0 LINK N/A High wolfSSL versions prior to 4.5.0 may leak the private key in the case that PEM format private keys are bundled in with PEM certificates into a single file. This is due to the
misclassification of certificate type versus private key type when parsing through the PEM file. To be affected, wolfSSL would need to have been built with OPENSSL_EXTRA (–enable-opensslextra). Some build variants such as --enable-all and --enable-opensslall also turn on this code path, checking wolfssl/options.h for OPENSSL_EXTRA will show if the macro was used with the build. If having built with the opensslextra enable option and having placed PEM certificates with PEM private keys in the same file when loading up the certificate file, then we recommend updating wolfSSL for this use case and also recommend regenerating any private keys in the file. 1 day 4.5.0 LINK N/A Low In wolfSSL versions prior to 4.5.0, during the handshake, clear application_data messages in epoch 0 are processed and returned to the application. Fixed by dropping received application_data messages in epoch 0. Thank you to Paul Fiterau of Uppsala University and Robert Merget of Ruhr-University Bochum for the report. 0 days 4.5.0 LINK CVE-2020-11713 Low wolfSSL versions prior to 4.4.0 have mulmod code in wc_ecc_mulmod_ex in ecc.c that does not properly resist timing side-channel attacks. Version 4.4.0 fixes this to be constant time and cache resistant. Thank you to Pietro Borrello at Sapienza University of Rome. Fixed 4 days prior to CVE issuance 4.4.0 LINK CVE-2020-11735 Low wolfSSL versions prior to 4.4.0 using fast math do not use a constant-time modular inverse when mapping to affine coordinates. Version 4.4.0 uses a constant time modular inverse when mapping to affine when operation involves a private key - keygen, calc shared secret, sign. Thank you to Alejandro Cabrera Aldaya, Cesar Pereida García and Billy Bob Brumley from the Network and Information Security Group (NISEC) at Tampere University for the report. Fixed 36 days prior to CVE issuance 4.4.0 CVE-2019-18840 High In wolfSSL 4.1.0 through 4.2.0c, there are missing sanity checks of memory accesses in parsing ASN.1 certificate data while handshaking. Specifically, there is a one-byte heap-based buffer overflow inside the DecodedCert structure in GetName in wolfcrypt/src/asn.c because the domain name location index is mishandled. Because a pointer is overwritten, there is an invalid free 0 days 4.3.0 LINK N/A Low In wolfSSL versions prior to 4.2.0, there is a potential program hang when ocspstapling2 is enabled. This is a moderate level fix that affects users who have ocspstapling2 enabled(off by default) and are on the server side. In parsing a CSR2 (Certificate Status Request v2 ) on the server side, there was the potential for a malformed extension to cause a program hang. Discovered by Robert Hoerr. 5 days 4.2.0 LINK CVE-2019-16748 High In wolfSSL through 4.1.0, there is a missing sanity check of memory accesses in parsing ASN.1 certificate data while handshaking. Specifically, there is a one-byte heap-based buffer over-read in CheckCertSignature_ex in wolfcrypt/src/asn.c. 1 days 4.2.0 LINK CVE-2019-15651 High wolfSSL 4.1.0 has a one-byte heap-based buffer over-read in DecodeCertExtensions in wolfcrypt/src/asn.c because reading the ASN_BOOLEAN byte is mishandled for a crafted DER certificate in GetLength_ex. 1 days 4.2.0 LINK N/A Low wolfSSL versions before 4.2.0 have potential for an invalid read when TLS 1.3 and pre-shared keys is enabled. Users without TLS 1.3 enabled are unaffected. Users with TLS 1.3 enabled and HAVE_SESSION_TICKET defined or NO_PSK not defined should update wolfSSL versions. Discovered by Robert Hoerr. 0 days 4.2.0 LINK CVE-2019-14317 Low Versions of wolfSSL before 4.2.0 are vulnerable to DSA operations involving an attack on recovering DSA private keys. This affects users that have DSA enabled and are performing DSA operations (off by default). ECDSA is NOT affected by this and TLS code is NOT affected by this issue. Discovered by Ján Jan?ár at Masaryk University. 0 days 4.2.0 LINK CVE-2019-13628 Medium Versions of wolfSSL before 4.1.0 are vulnerable to the potential leak of nonce sizes when performing ECDSA signing operations. The leak is considered to be difficult to exploit but it could potentially be used maliciously to perform a lattice based timing attack against previous wolfSSL versions. Discovered by Ján Jan?ár at Masaryk University. 5 days 4.1.0 LINK CVE-2019-11873 High In wolfSSL version 4.0.0, there is a potential buffer overflow case with the TLSv1.3 PSK extension parsing. This affects users that are enabling TLSv1.3 (–enable-tls13). Discovered by Robert Hoerr. 0 days 4.1.0 LINK CVE-2018-16870 Medium Versions of wolfSSL prior to 3.15.7 are vulnerable to a new variant of the Bleichenbacher attack to perform downgrade attacks against TLS, which may lead to leakage of sensible data. 0 days 3.15.7 LINK CVE-2018-12436 Medium Versions of wolfSSL up to and including 3.15.0 are vulnerable to a Key Extraction Side Channel Attack. A patch (wolfssl-3.15.1.patch) is available for download now on our website and a full release will be available next week containing the patch. 0 days 3.15.3 LINK CVE-2017-13099 Medium Versions of wolfSSL up to 3.12.2 have a weak Bleichenbacher vulnerability with suites that use an RSA-encrypted premaster secret. Discovered by Hanno Böck, Juraj Somorovsky, Craig Young. 9 days 3.13.0 LINK CVE-2017-2800 Critical Versions of wolfSSL before 3.11.0 have a possible out-of-bounds write by one from a crafted certificate being passed to the function wolfSSL_X509_NAME_get_text_by_NID. Discovered by Aleksandar Nikolic of Cisco Talos. Fixed 20 days prior to CVE issuance 3.11.0 LINK CVE-2017-8855 High In versions of wolfSSL before 3.11.0 there are cases where a malformed DH key is not rejected by the function wc_DhAgree. Thanks to Yueh-Hsun Lin and Peng Li at KNOX Security at Samsung Research America. Fixed 5 days prior to CVE issuance 3.11.0 LINK CVE-2017-8854 High Versions of wolfSSL before 3.10.2 have a possible out-of-bounds memory access when loading crafted DH parameters. Thanks to Yueh-Hsun Lin and Peng Li at KNOX Security at Samsung Research America. Fixed 88 days prior to CVE issuance 3.10.2 LINK CVE-2017-6076 Medium In versions of wolfSSL before 3.10.2 the software implementation makes it easier to extract RSA key information for a malicious user who has access to view the cache on a machine. Fixed 13 days prior to CVE issuance 3.10.2 LINK CVE-2016-7440 Medium Software AES table lookups do not properly consider cache-bank access times Fixed 81 days prior to CVE issuance 3.9.10 LINK CVE-2016-7439 Medium Software RSA does not properly consider cache-bank monitoring Fixed 81 days prior to CVE issuance 3.9.10 LINK CVE-2016-7438 Medium Software ECC does not properly consider cache-bank monitoring Fixed 81 days prior to CVE issuance 3.9.10 LINK CVE-2015-6925 High Potential DOS attack when using DTLS on the server side Fixed 127 days prior to CVE issuance 3.6.8 LINK CVE-2015-7744 Medium TLS servers using RSA with ephemeral keys may leak key bits on signature faults Fixed 127 days prior to CVE issuance 3.6.8 LINK CVE-2014-2903 Medium Server certificate not authorized for use in SSL/TLS handshake. CyaSSL does not check the key usage extension in leaf certificates. Fixed 13 days prior to issuance 2.9.4 LINK CVE-2014-2900 Medium Unknown critical certificate extension allowed Fixed 13 days prior to issuance 2.9.4 LINK CVE-2014-2899 Medium NULL pointer dereference on peer cert request after certificate parsing failure Fixed 13 days prior to issuance 2.9.4 LINK CVE-2014-2898 Low Out of bounds read on repeated calls to CyaSSL_read(), memory access error. Fixed 13 days prior to issuance 2.9.4 LINK CVE-2014-2897 High Out of bounds read, SSL 3.0 HMAC doesn’t check padding length for verify failure Fixed 13 days prior to issuance 2.9.4 LINK CVE-2014-2896 N/A Memory corruption, possible out of bounds read on length check in DoAlert() Fixed 13 days prior to issuance 2.9.4

Related news

wolfSSL 5.3.0 Denial Of Service

In wolfSSL version 5.3.0, man-in-the-middle attackers or a malicious server can crash TLS 1.2 clients during a handshake. If an attacker injects a large ticket (above 256 bytes) into a NewSessionTicket message in a TLS 1.2 handshake, and the client has a non-empty session cache, the session cache frees a pointer which points to non-allocated memory, causing the client to crash with a “free(): invalid pointer”. Note: It is likely that this is also exploitable in TLS 1.3 handshakes between a client and a malicious server. With TLS 1.3 it is not possible to exploit this as a man-in-the-middle. This bug was discovered using the novel symbolic-model-guided fuzzer tlspuffin.

wolfSSL Session Resumption Denial Of Service

wolfSSL versions prior to 5.5.0 suffer from a denial of service condition related to session resumption. When a TLS 1.3 client connects to a wolfSSL server and SSL_clear is called on its session, the server crashes with a segmentation fault. The bug occurs after a client performs a handshake against a wolfSSL server and then closes the connection. If the server reuses the previous session structure (struct WOLFSSL) by calling wolfSSL_clear(WOLFSSL* ssl) on it, the next received Client Hello, which resumes the previous session, crashes the server. Note, that this bug only exists in resumed handshakes using TLS session resumption. This bug was discovered using the novel symbolic-model-guided fuzzer tlspuffin.

CVE-2022-38153: GitHub - trailofbits/tlspuffin: A symbolic-model-guided fuzzer for TLS

An issue was discovered in wolfSSL before 5.5.0 (when --enable-session-ticket is used); however, only version 5.3.0 is exploitable. Man-in-the-middle attackers or a malicious server can crash TLS 1.2 clients during a handshake. If an attacker injects a large ticket (more than 256 bytes) into a NewSessionTicket message in a TLS 1.2 handshake, and the client has a non-empty session cache, the session cache frees a pointer that points to unallocated memory, causing the client to crash with a "free(): invalid pointer" message. NOTE: It is likely that this is also exploitable during TLS 1.3 handshakes between a client and a malicious server. With TLS 1.3, it is not possible to exploit this as a man-in-the-middle.

CVE-2022-38152: GitHub - tlspuffin/tlspuffin: A symbolic-model-guided fuzzer for TLS

An issue was discovered in wolfSSL before 5.5.0. When a TLS 1.3 client connects to a wolfSSL server and SSL_clear is called on its session, the server crashes with a segmentation fault. This occurs in the second session, which is created through TLS session resumption and reuses the initial struct WOLFSSL. If the server reuses the previous session structure (struct WOLFSSL) by calling wolfSSL_clear(WOLFSSL* ssl) on it, the next received Client Hello (that resumes the previous session) crashes the server. Note that this bug is only triggered when resuming sessions using TLS session resumption. Only servers that use wolfSSL_clear instead of the recommended SSL_free; SSL_new sequence are affected. Furthermore, wolfSSL_clear is part of wolfSSL's compatibility layer and is not enabled by default. It is not part of wolfSSL's native API.

CVE-2022-34293: Release wolfSSL Release 5.4.0 (July 11, 2022) · wolfSSL/wolfssl

wolfSSL before 5.4.0 allows remote attackers to cause a denial of service via DTLS because a check for return-routability can be skipped.

CVE-2022-34293: Release wolfSSL Release 5.4.0 (July 11, 2022) · wolfSSL/wolfssl

wolfSSL before 5.4.0 allows remote attackers to cause a denial of service via DTLS because a check for return-routability can be skipped.

CVE-2022-34293: Release wolfSSL Release 5.4.0 (July 11, 2022) · wolfSSL/wolfssl

wolfSSL before 5.4.0 allows remote attackers to cause a denial of service via DTLS because a check for return-routability can be skipped.

CVE-2021-46744

An attacker with access to a malicious hypervisor may be able to infer data values used in a SEV guest on AMD CPUs by monitoring ciphertext values over time.

CVE-2021-41003

Multiple unauthenticated command injection vulnerabilities were discovered in the AOS-CX API interface in Aruba CX 6200F Switch Series, Aruba 6300 Switch Series, Aruba 6400 Switch Series, Aruba 8320 Switch Series, Aruba 8325 Switch Series, Aruba 8400 Switch Series, Aruba CX 8360 Switch Series version(s): AOS-CX 10.06.xxxx: 10.06.0170 and below, AOS-CX 10.07.xxxx: 10.07.0050 and below, AOS-CX 10.08.xxxx: 10.08.1030 and below, AOS-CX 10.09.xxxx: 10.09.0002 and below. Aruba has released upgrades for Aruba AOS-CX devices that address these security vulnerabilities.

CVE-2022-24052: Security Vulnerabilities Fixed in MariaDB

MariaDB CONNECT Storage Engine Heap-based Buffer Overflow Privilege Escalation Vulnerability. This vulnerability allows local attackers to escalate privileges on affected installations of MariaDB. Authentication is required to exploit this vulnerability. The specific flaw exists within the processing of SQL queries. The issue results from the lack of proper validation of the length of user-supplied data prior to copying it to a fixed-length heap-based buffer. An attacker can leverage this vulnerability to escalate privileges and execute arbitrary code in the context of the service account. Was ZDI-CAN-16190.

CVE-2022-24052: Security Vulnerabilities Fixed in MariaDB

MariaDB CONNECT Storage Engine Heap-based Buffer Overflow Privilege Escalation Vulnerability. This vulnerability allows local attackers to escalate privileges on affected installations of MariaDB. Authentication is required to exploit this vulnerability. The specific flaw exists within the processing of SQL queries. The issue results from the lack of proper validation of the length of user-supplied data prior to copying it to a fixed-length heap-based buffer. An attacker can leverage this vulnerability to escalate privileges and execute arbitrary code in the context of the service account. Was ZDI-CAN-16190.

CVE-2021-24117: util-lookup/cve-vulnerability-publication.md at main · UzL-ITS/util-lookup

In Apache Teaclave Rust SGX SDK 1.1.3, a side-channel vulnerability in base64 PEM file decoding allows system-level (administrator) attackers to obtain information about secret RSA keys via a controlled-channel and side-channel attack on software running in isolated environments that can be single stepped, especially Intel SGX.

CVE-2020-15309: Release wolfSSL Release 4.5.0 (08/19/2020) · wolfSSL/wolfssl

An issue was discovered in wolfSSL before 4.5.0, when single precision is not employed. Local attackers can conduct a cache-timing attack against public key operations. These attackers may already have obtained sensitive information if the affected system has been used for private key operations (e.g., signing with a private key).

CVE-2017-2800: TALOS-2017-0293 || Cisco Talos Intelligence Group

A specially crafted x509 certificate can cause a single out of bounds byte overwrite in wolfSSL through 3.10.2 resulting in potential certificate validation vulnerabilities, denial of service and possible remote code execution. In order to trigger this vulnerability, the attacker needs to supply a malicious x509 certificate to either a server or a client application using this library.

CVE-2016-7440: Bugtraq

The C software implementation of AES Encryption and Decryption in wolfSSL (formerly CyaSSL) before 3.9.10 makes it easier for local users to discover AES keys by leveraging cache-bank timing differences.

CVE-2016-5612: Oracle Critical Patch Update - October 2016

Unspecified vulnerability in Oracle MySQL 5.5.50 and earlier, 5.6.31 and earlier, and 5.7.13 and earlier allows remote authenticated users to affect availability via vectors related to DML.

CVE-2016-0502: Oracle Critical Patch Update - January 2016

Unspecified vulnerability in Oracle MySQL 5.5.31 and earlier and 5.6.11 and earlier allows remote authenticated users to affect availability via unknown vectors related to Optimizer.

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