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Search Results (363308 CVEs found)
| CVE | Vendors | Products | Updated | CVSS v3.1 |
|---|---|---|---|---|
| CVE-2025-13913 | 1 Inductiveautomation | 1 Ignition | 2026-06-05 | 6.3 Medium |
| A privileged Ignition user, intentionally or otherwise, imports an external file with a specially crafted payload, which executes embedded malicious code. | ||||
| CVE-2026-34875 | 2 Mbed-tls, Trustedfirmware | 4 Mbedtls, Tf-psa-crypto, Mbed Tls and 1 more | 2026-06-05 | 9.8 Critical |
| An issue was discovered in Mbed TLS through 3.6.5 and TF-PSA-Crypto 1.0.0. A buffer overflow can occur in public key export for FFDH keys. | ||||
| CVE-2026-34871 | 3 Arm, Mbed-tls, Trustedfirmware | 4 Mbed Tls, Mbedtls, Tf-psa-crypto and 1 more | 2026-06-05 | 6.7 Medium |
| An issue was discovered in Mbed TLS before 3.6.6 and 4.x before 4.1.0 and TF-PSA-Crypto before 1.1.0. There is a Predictable Seed in a Pseudo-Random Number Generator (PRNG). | ||||
| CVE-2026-25835 | 3 Arm, Mbed-tls, Trustedfirmware | 5 Mbed Tls, Mbedtls, Tf-psa-crypto and 2 more | 2026-06-05 | 7.7 High |
| Mbed TLS before 3.6.6 and TF-PSA-Crypto before 1.1.0 misuse seeds in a Pseudo-Random Number Generator (PRNG). | ||||
| CVE-2026-3611 | 1 Honeywell | 12 Iq3, Iq412, Iq412 Firmware and 9 more | 2026-06-05 | 10 Critical |
| The Honeywell IQ4x building management controller, exposes its full web-based HMI without authentication in its factory-default configuration. With no user module configured, security is disabled by design and the system operates under a System Guest (level 100) context, granting read/write privileges to any party able to reach the HTTP interface. Authentication controls are only enforced after a web user is created via U.htm, which dynamically enables the user module. Because this function is accessible prior to authentication, a remote user can create a new account with administrative read/write permissions enabling the user module and imposing authentication under attacker-controlled credentials. This action can effectively lock legitimate operators out of local and web-based configuration and administration. | ||||
| CVE-2026-34877 | 3 Arm, Mbed, Trustedfirmware | 3 Mbed Tls, Mbedtls, Mbed Tls | 2026-06-05 | 9.8 Critical |
| An issue was discovered in Mbed TLS versions from 2.19.0 up to 3.6.5, Mbed TLS 4.0.0. Insufficient protection of serialized SSL context or session structures allows an attacker who can modify the serialized structures to induce memory corruption, leading to arbitrary code execution. This is caused by Incorrect Use of Privileged APIs. | ||||
| CVE-2026-34876 | 2 Mbed-tls, Trustedfirmware | 2 Mbedtls, Mbed Tls | 2026-06-05 | 7.5 High |
| An issue was discovered in Mbed TLS 3.x before 3.6.6. An out-of-bounds read vulnerability in mbedtls_ccm_finish() in library/ccm.c allows attackers to obtain adjacent CCM context data via invocation of the multipart CCM API with an oversized tag_len parameter. This is caused by missing validation of the tag_len parameter against the size of the internal 16-byte authentication buffer. The issue affects the public multipart CCM API in Mbed TLS 3.x, where mbedtls_ccm_finish() can be invoked directly by applications. In Mbed TLS 4.x versions prior to the fix, the same missing validation exists in the internal implementation; however, the function is not exposed as part of the public API. Exploitation requires application-level invocation of the multipart CCM API. | ||||
| CVE-2026-34874 | 2 Mbed-tls, Trustedfirmware | 2 Mbedtls, Mbed Tls | 2026-06-05 | 7.5 High |
| An issue was discovered in Mbed TLS through 3.6.5 and 4.x through 4.0.0. There is a NULL pointer dereference in distinguished name parsing that allows an attacker to write to address 0. | ||||
| CVE-2026-34873 | 2 Mbed-tls, Trustedfirmware | 2 Mbedtls, Mbed Tls | 2026-06-05 | 9.1 Critical |
| An issue was discovered in Mbed TLS 3.5.0 through 4.0.0. Client impersonation can occur while resuming a TLS 1.3 session. | ||||
| CVE-2026-25834 | 2 Mbed-tls, Trustedfirmware | 2 Mbedtls, Mbed Tls | 2026-06-05 | 6.5 Medium |
| Mbed TLS v3.3.0 up to 3.6.5 and 4.0.0 allows Algorithm Downgrade. | ||||
| CVE-2026-25833 | 2 Mbed-tls, Trustedfirmware | 2 Mbedtls, Mbed Tls | 2026-06-05 | 7.5 High |
| Mbed TLS 3.5.0 to 3.6.5 fixed in 3.6.6 and 4.1.0 has a buffer overflow in the x509_inet_pton_ipv6() function | ||||
| CVE-2015-5291 | 5 Debian, Fedoraproject, Opensuse and 2 more | 6 Debian Linux, Fedora, Leap and 3 more | 2026-06-05 | 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. | ||||
| CVE-2015-8036 | 5 Debian, Fedoraproject, Opensuse and 2 more | 5 Debian Linux, Fedora, Opensuse and 2 more | 2026-06-05 | 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-2017-14032 | 2 Arm, Trustedfirmware | 2 Mbed Tls, Mbed Tls | 2026-06-05 | N/A |
| 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-2017-2784 | 1 Trustedfirmware | 1 Mbed Tls | 2026-06-05 | N/A |
| 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-2018-19608 | 2 Arm, Trustedfirmware | 2 Mbed Tls, Mbed Tls | 2026-06-05 | N/A |
| Arm Mbed TLS before 2.14.1, before 2.7.8, and before 2.1.17 allows a local unprivileged attacker to recover the plaintext of RSA decryption, which is used in RSA-without-(EC)DH(E) cipher suites. | ||||
| CVE-2018-9988 | 3 Arm, Debian, Trustedfirmware | 3 Mbed Tls, Debian Linux, Mbed Tls | 2026-06-05 | 7.5 High |
| ARM mbed TLS before 2.1.11, before 2.7.2, and before 2.8.0 has a buffer over-read in ssl_parse_server_key_exchange() that could cause a crash on invalid input. | ||||
| CVE-2018-9989 | 3 Arm, Debian, Trustedfirmware | 3 Mbed Tls, Debian Linux, Mbed Tls | 2026-06-05 | 7.5 High |
| ARM mbed TLS before 2.1.11, before 2.7.2, and before 2.8.0 has a buffer over-read in ssl_parse_server_psk_hint() that could cause a crash on invalid input. | ||||
| CVE-2019-16910 | 4 Arm, Debian, Fedoraproject and 1 more | 5 Mbed Crypto, Mbed Tls, Debian Linux and 2 more | 2026-06-05 | 5.3 Medium |
| Arm Mbed TLS before 2.19.0 and Arm Mbed Crypto before 2.0.0, when deterministic ECDSA is enabled, use an RNG with insufficient entropy for blinding, which might allow an attacker to recover a private key via side-channel attacks if a victim signs the same message many times. (For Mbed TLS, the fix is also available in versions 2.7.12 and 2.16.3.) | ||||
| CVE-2020-10932 | 4 Arm, Debian, Fedoraproject and 1 more | 4 Mbed Tls, Debian Linux, Fedora and 1 more | 2026-06-05 | 4.7 Medium |
| An issue was discovered in Arm Mbed TLS before 2.16.6 and 2.7.x before 2.7.15. An attacker that can get precise enough side-channel measurements can recover the long-term ECDSA private key by (1) reconstructing the projective coordinate of the result of scalar multiplication by exploiting side channels in the conversion to affine coordinates; (2) using an attack described by Naccache, Smart, and Stern in 2003 to recover a few bits of the ephemeral scalar from those projective coordinates via several measurements; and (3) using a lattice attack to get from there to the long-term ECDSA private key used for the signatures. Typically an attacker would have sufficient access when attacking an SGX enclave and controlling the untrusted OS. | ||||