Total
55 CVE
| CVE | Vendors | Products | Updated | CVSS v2 | CVSS v3 |
|---|---|---|---|---|---|
| CVE-2025-52497 | 1 Arm | 1 Mbed Tls | 2025-07-17 | N/A | 4.8 MEDIUM |
| Mbed TLS before 3.6.4 has a PEM parsing one-byte heap-based buffer underflow, in mbedtls_pem_read_buffer and two mbedtls_pk_parse functions, via untrusted PEM input. | |||||
| CVE-2025-49601 | 1 Arm | 1 Mbed Tls | 2025-07-17 | N/A | 4.8 MEDIUM |
| In MbedTLS 3.3.0 before 3.6.4, mbedtls_lms_import_public_key does not check that the input buffer is at least 4 bytes before reading a 32-bit field, allowing a possible out-of-bounds read on truncated input. Specifically, an out-of-bounds read in mbedtls_lms_import_public_key allows context-dependent attackers to trigger a crash or limited adjacent-memory disclosure by supplying a truncated LMS (Leighton-Micali Signature) public-key buffer under four bytes. An LMS public key starts with a 4-byte type indicator. The function mbedtls_lms_import_public_key reads this type indicator before validating the size of its input. | |||||
| CVE-2025-49600 | 1 Arm | 1 Mbed Tls | 2025-07-17 | N/A | 4.9 MEDIUM |
| In MbedTLS 3.3.0 before 3.6.4, mbedtls_lms_verify may accept invalid signatures if hash computation fails and internal errors go unchecked, enabling LMS (Leighton-Micali Signature) forgery in a fault scenario. Specifically, unchecked return values in mbedtls_lms_verify allow an attacker (who can induce a hardware hash accelerator fault) to bypass LMS signature verification by reusing stale stack data, resulting in acceptance of an invalid signature. In mbedtls_lms_verify, the return values of the internal Merkle tree functions create_merkle_leaf_value and create_merkle_internal_value are not checked. These functions return an integer that indicates whether the call succeeded or not. If a failure occurs, the output buffer (Tc_candidate_root_node) may remain uninitialized, and the result of the signature verification is unpredictable. When the software implementation of SHA-256 is used, these functions will not fail. However, with hardware-accelerated hashing, an attacker could use fault injection against the accelerator to bypass verification. | |||||
| CVE-2025-27809 | 1 Arm | 1 Mbed Tls | 2025-07-17 | N/A | 5.4 MEDIUM |
| Mbed TLS before 2.28.10 and 3.x before 3.6.3, on the client side, accepts servers that have trusted certificates for arbitrary hostnames unless the TLS client application calls mbedtls_ssl_set_hostname. | |||||
| CVE-2024-28836 | 1 Arm | 1 Mbed Tls | 2025-06-27 | N/A | 5.4 MEDIUM |
| An issue was discovered in Mbed TLS 3.5.x before 3.6.0. When negotiating the TLS version on the server side, it can fall back to the TLS 1.2 implementation of the protocol if it is disabled. If the TLS 1.2 implementation was disabled at build time, a TLS 1.2 client could put a TLS 1.3-only server into an infinite loop processing a TLS 1.2 ClientHello, resulting in a denial of service. If the TLS 1.2 implementation was disabled at runtime, a TLS 1.2 client can successfully establish a TLS 1.2 connection with the server. | |||||
| CVE-2024-30166 | 1 Arm | 1 Mbed Tls | 2025-06-27 | N/A | 9.1 CRITICAL |
| In Mbed TLS 3.3.0 through 3.5.2 before 3.6.0, a malicious client can cause information disclosure or a denial of service because of a stack buffer over-read (of less than 256 bytes) in a TLS 1.3 server via a TLS 3.1 ClientHello. | |||||
| CVE-2024-23170 | 1 Arm | 1 Mbed Tls | 2025-06-20 | N/A | 5.5 MEDIUM |
| An issue was discovered in Mbed TLS 2.x before 2.28.7 and 3.x before 3.5.2. There was a timing side channel in RSA private operations. This side channel could be sufficient for a local attacker to recover the plaintext. It requires the attacker to send a large number of messages for decryption, as described in "Everlasting ROBOT: the Marvin Attack" by Hubert Kario. | |||||
| CVE-2024-28755 | 1 Arm | 1 Mbed Tls | 2025-06-10 | N/A | 6.5 MEDIUM |
| An issue was discovered in Mbed TLS 3.5.x before 3.6.0. When an SSL context was reset with the mbedtls_ssl_session_reset() API, the maximum TLS version to be negotiated was not restored to the configured one. An attacker was able to prevent an Mbed TLS server from establishing any TLS 1.3 connection, potentially resulting in a Denial of Service or forced version downgrade from TLS 1.3 to TLS 1.2. | |||||
| CVE-2024-23744 | 1 Arm | 1 Mbed Tls | 2025-06-04 | N/A | 7.5 HIGH |
| An issue was discovered in Mbed TLS 3.5.1. There is persistent handshake denial if a client sends a TLS 1.3 ClientHello without extensions. | |||||
| CVE-2023-52353 | 1 Arm | 1 Mbed Tls | 2025-05-30 | N/A | 7.5 HIGH |
| An issue was discovered in Mbed TLS through 3.5.1. In mbedtls_ssl_session_reset, the maximum negotiable TLS version is mishandled. For example, if the last connection negotiated TLS 1.2, then 1.2 becomes the new maximum. | |||||
| CVE-2024-23775 | 1 Arm | 1 Mbed Tls | 2025-05-29 | N/A | 7.5 HIGH |
| Integer Overflow vulnerability in Mbed TLS 2.x before 2.28.7 and 3.x before 3.5.2, allows attackers to cause a denial of service (DoS) via mbedtls_x509_set_extension(). | |||||
| CVE-2024-28960 | 2 Arm, Fedoraproject | 3 Mbed Crypto, Mbed Tls, Fedora | 2025-05-28 | N/A | 8.2 HIGH |
| An issue was discovered in Mbed TLS 2.18.0 through 2.28.x before 2.28.8 and 3.x before 3.6.0, and Mbed Crypto. The PSA Crypto API mishandles shared memory. | |||||
| CVE-2024-45158 | 1 Arm | 1 Mbed Tls | 2025-05-16 | N/A | 9.8 CRITICAL |
| An issue was discovered in Mbed TLS 3.6 before 3.6.1. A stack buffer overflow in mbedtls_ecdsa_der_to_raw() and mbedtls_ecdsa_raw_to_der() can occur when the bits parameter is larger than the largest supported curve. In some configurations with PSA disabled, all values of bits are affected. (This never happens in internal library calls, but can affect applications that call these functions directly.) | |||||
| CVE-2024-49195 | 1 Arm | 1 Mbed Tls | 2025-05-06 | N/A | 9.8 CRITICAL |
| Mbed TLS 3.5.x through 3.6.x before 3.6.2 has a buffer underrun in pkwrite when writing an opaque key pair | |||||
| CVE-2022-46393 | 2 Arm, Fedoraproject | 2 Mbed Tls, Fedora | 2025-04-21 | N/A | 9.8 CRITICAL |
| An issue was discovered in Mbed TLS before 2.28.2 and 3.x before 3.3.0. There is a potential heap-based buffer overflow and heap-based buffer over-read in DTLS if MBEDTLS_SSL_DTLS_CONNECTION_ID is enabled and MBEDTLS_SSL_CID_IN_LEN_MAX > 2 * MBEDTLS_SSL_CID_OUT_LEN_MAX. | |||||
| CVE-2022-46392 | 2 Arm, Fedoraproject | 2 Mbed Tls, Fedora | 2025-04-21 | N/A | 5.3 MEDIUM |
| An issue was discovered in Mbed TLS before 2.28.2 and 3.x before 3.3.0. An adversary with access to precise enough information about memory accesses (typically, an untrusted operating system attacking a secure enclave) can recover an RSA private key after observing the victim performing a single private-key operation, if the window size (MBEDTLS_MPI_WINDOW_SIZE) used for the exponentiation is 3 or smaller. | |||||
| CVE-2017-2784 | 1 Arm | 1 Mbed Tls | 2025-04-20 | 6.8 MEDIUM | 8.1 HIGH |
| An exploitable free of a stack pointer vulnerability exists in the x509 certificate parsing code of ARM mbed TLS before 1.3.19, 2.x before 2.1.7, and 2.4.x before 2.4.2. A specially crafted x509 certificate, when parsed by mbed TLS library, can cause an invalid free of a stack pointer leading to a potential remote code execution. In order to exploit this vulnerability, an attacker can act as either a client or a server on a network to deliver malicious x509 certificates to vulnerable applications. | |||||
| CVE-2017-14032 | 1 Arm | 1 Mbed Tls | 2025-04-20 | 6.8 MEDIUM | 8.1 HIGH |
| ARM mbed TLS before 1.3.21 and 2.x before 2.1.9, if optional authentication is configured, allows remote attackers to bypass peer authentication via an X.509 certificate chain with many intermediates. NOTE: although mbed TLS was formerly known as PolarSSL, the releases shipped with the PolarSSL name are not affected. | |||||
| CVE-2015-8036 | 5 Arm, Debian, Fedoraproject and 2 more | 5 Mbed Tls, Debian Linux, Fedora and 2 more | 2025-04-12 | 6.8 MEDIUM | N/A |
| Heap-based buffer overflow in ARM mbed TLS (formerly PolarSSL) 1.3.x before 1.3.14 and 2.x before 2.1.2 allows remote SSL servers to cause a denial of service (client crash) and possibly execute arbitrary code via a long session ticket name to the session ticket extension, which is not properly handled when creating a ClientHello message to resume a session. NOTE: this identifier was SPLIT from CVE-2015-5291 per ADT3 due to different affected version ranges. | |||||
| CVE-2015-5291 | 5 Arm, Debian, Fedoraproject and 2 more | 6 Mbed Tls, Debian Linux, Fedora and 3 more | 2025-04-12 | 6.8 MEDIUM | N/A |
| Heap-based buffer overflow in PolarSSL 1.x before 1.2.17 and ARM mbed TLS (formerly PolarSSL) 1.3.x before 1.3.14 and 2.x before 2.1.2 allows remote SSL servers to cause a denial of service (client crash) and possibly execute arbitrary code via a long hostname to the server name indication (SNI) extension, which is not properly handled when creating a ClientHello message. NOTE: this identifier has been SPLIT per ADT3 due to different affected version ranges. See CVE-2015-8036 for the session ticket issue that was introduced in 1.3.0. | |||||