Filtered by vendor Redhat
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Total
23536 CVE
| CVE | Vendors | Products | Updated | CVSS v3.1 |
|---|---|---|---|---|
| CVE-2024-8445 | 1 Redhat | 3 Directory Server, Enterprise Linux, Rhel Els | 2026-04-15 | 5.7 Medium |
| The fix for CVE-2024-2199 in 389-ds-base was insufficient to cover all scenarios. In certain product versions, an authenticated user may cause a server crash while modifying `userPassword` using malformed input. | ||||
| CVE-2024-9902 | 1 Redhat | 6 Ansible Automation Platform, Ansible Automation Platform Developer, Ansible Automation Platform Inside and 3 more | 2026-04-15 | 6.3 Medium |
| A flaw was found in Ansible. The ansible-core `user` module can allow an unprivileged user to silently create or replace the contents of any file on any system path and take ownership of it when a privileged user executes the `user` module against the unprivileged user's home directory. If the unprivileged user has traversal permissions on the directory containing the exploited target file, they retain full control over the contents of the file as its owner. | ||||
| CVE-2025-24898 | 1 Redhat | 1 Enterprise Linux | 2026-04-15 | 4.8 Medium |
| rust-openssl is a set of OpenSSL bindings for the Rust programming language. In affected versions `ssl::select_next_proto` can return a slice pointing into the `server` argument's buffer but with a lifetime bound to the `client` argument. In situations where the `sever` buffer's lifetime is shorter than the `client` buffer's, this can cause a use after free. This could cause the server to crash or to return arbitrary memory contents to the client. The crate`openssl` version 0.10.70 fixes the signature of `ssl::select_next_proto` to properly constrain the output buffer's lifetime to that of both input buffers. Users are advised to upgrade. In standard usage of `ssl::select_next_proto` in the callback passed to `SslContextBuilder::set_alpn_select_callback`, code is only affected if the `server` buffer is constructed *within* the callback. | ||||
| CVE-2024-12254 | 2 Python Software Foundation, Redhat | 3 Cpython, Enterprise Linux, Rhel Eus | 2026-04-15 | 7.5 High |
| Starting in Python 3.12.0, the asyncio._SelectorSocketTransport.writelines() method would not "pause" writing and signal to the Protocol to drain the buffer to the wire once the write buffer reached the "high-water mark". Because of this, Protocols would not periodically drain the write buffer potentially leading to memory exhaustion. This vulnerability likely impacts a small number of users, you must be using Python 3.12.0 or later, on macOS or Linux, using the asyncio module with protocols, and using .writelines() method which had new zero-copy-on-write behavior in Python 3.12.0 and later. If not all of these factors are true then your usage of Python is unaffected. | ||||
| CVE-2026-26127 | 4 Apple, Linux, Microsoft and 1 more | 8 Macos, Linux Kernel, .net and 5 more | 2026-04-14 | 7.5 High |
| Out-of-bounds read in .NET allows an unauthorized attacker to deny service over a network. | ||||
| CVE-2022-3786 | 4 Fedoraproject, Nodejs, Openssl and 1 more | 4 Fedora, Node.js, Openssl and 1 more | 2026-04-14 | 7.5 High |
| A buffer overrun can be triggered in X.509 certificate verification, specifically in name constraint checking. Note that this occurs after certificate chain signature verification and requires either a CA to have signed a malicious certificate or for an application to continue certificate verification despite failure to construct a path to a trusted issuer. An attacker can craft a malicious email address in a certificate to overflow an arbitrary number of bytes containing the `.' character (decimal 46) on the stack. This buffer overflow could result in a crash (causing a denial of service). In a TLS client, this can be triggered by connecting to a malicious server. In a TLS server, this can be triggered if the server requests client authentication and a malicious client connects. | ||||
| CVE-2022-3602 | 5 Fedoraproject, Netapp, Nodejs and 2 more | 5 Fedora, Clustered Data Ontap, Node.js and 2 more | 2026-04-14 | 7.5 High |
| A buffer overrun can be triggered in X.509 certificate verification, specifically in name constraint checking. Note that this occurs after certificate chain signature verification and requires either a CA to have signed the malicious certificate or for the application to continue certificate verification despite failure to construct a path to a trusted issuer. An attacker can craft a malicious email address to overflow four attacker-controlled bytes on the stack. This buffer overflow could result in a crash (causing a denial of service) or potentially remote code execution. Many platforms implement stack overflow protections which would mitigate against the risk of remote code execution. The risk may be further mitigated based on stack layout for any given platform/compiler. Pre-announcements of CVE-2022-3602 described this issue as CRITICAL. Further analysis based on some of the mitigating factors described above have led this to be downgraded to HIGH. Users are still encouraged to upgrade to a new version as soon as possible. In a TLS client, this can be triggered by connecting to a malicious server. In a TLS server, this can be triggered if the server requests client authentication and a malicious client connects. Fixed in OpenSSL 3.0.7 (Affected 3.0.0,3.0.1,3.0.2,3.0.3,3.0.4,3.0.5,3.0.6). | ||||
| CVE-2020-26147 | 5 Arista, Debian, Linux and 2 more | 15 C-65, C-65 Firmware, C-75 and 12 more | 2026-04-14 | 5.4 Medium |
| An issue was discovered in the Linux kernel 5.8.9. The WEP, WPA, WPA2, and WPA3 implementations reassemble fragments even though some of them were sent in plaintext. This vulnerability can be abused to inject packets and/or exfiltrate selected fragments when another device sends fragmented frames and the WEP, CCMP, or GCMP data-confidentiality protocol is used. | ||||
| CVE-2020-26145 | 3 Redhat, Samsung, Siemens | 27 Enterprise Linux, Galaxy I9305, Galaxy I9305 Firmware and 24 more | 2026-04-14 | 6.5 Medium |
| An issue was discovered on Samsung Galaxy S3 i9305 4.4.4 devices. The WEP, WPA, WPA2, and WPA3 implementations accept second (or subsequent) broadcast fragments even when sent in plaintext and process them as full unfragmented frames. An adversary can abuse this to inject arbitrary network packets independent of the network configuration. | ||||
| CVE-2020-26144 | 4 Arista, Redhat, Samsung and 1 more | 37 C-100, C-100 Firmware, C-110 and 34 more | 2026-04-14 | 6.5 Medium |
| An issue was discovered on Samsung Galaxy S3 i9305 4.4.4 devices. The WEP, WPA, WPA2, and WPA3 implementations accept plaintext A-MSDU frames as long as the first 8 bytes correspond to a valid RFC1042 (i.e., LLC/SNAP) header for EAPOL. An adversary can abuse this to inject arbitrary network packets independent of the network configuration. | ||||
| CVE-2020-26143 | 4 Alfa, Arista, Redhat and 1 more | 13 Awus036h, Awus036h Firmware, C-65 and 10 more | 2026-04-14 | 6.5 Medium |
| An issue was discovered in the ALFA Windows 10 driver 1030.36.604 for AWUS036ACH. The WEP, WPA, WPA2, and WPA3 implementations accept fragmented plaintext frames in a protected Wi-Fi network. An adversary can abuse this to inject arbitrary data frames independent of the network configuration. | ||||
| CVE-2020-26141 | 4 Alfa, Cisco, Redhat and 1 more | 191 Awus036h, Awus036h Firmware, Ip Conference Phone 8832 and 188 more | 2026-04-14 | 6.5 Medium |
| An issue was discovered in the ALFA Windows 10 driver 6.1316.1209 for AWUS036H. The Wi-Fi implementation does not verify the Message Integrity Check (authenticity) of fragmented TKIP frames. An adversary can abuse this to inject and possibly decrypt packets in WPA or WPA2 networks that support the TKIP data-confidentiality protocol. | ||||
| CVE-2020-26140 | 6 Alfa, Arista, Cisco and 3 more | 389 Awus036h, Awus036h Firmware, C-100 and 386 more | 2026-04-14 | 6.5 Medium |
| An issue was discovered in the ALFA Windows 10 driver 6.1316.1209 for AWUS036H. The WEP, WPA, WPA2, and WPA3 implementations accept plaintext frames in a protected Wi-Fi network. An adversary can abuse this to inject arbitrary data frames independent of the network configuration. | ||||
| CVE-2020-26139 | 6 Arista, Cisco, Debian and 3 more | 331 C-100, C-100 Firmware, C-110 and 328 more | 2026-04-14 | 5.3 Medium |
| An issue was discovered in the kernel in NetBSD 7.1. An Access Point (AP) forwards EAPOL frames to other clients even though the sender has not yet successfully authenticated to the AP. This might be abused in projected Wi-Fi networks to launch denial-of-service attacks against connected clients and makes it easier to exploit other vulnerabilities in connected clients. | ||||
| CVE-2020-24588 | 9 Arista, Cisco, Debian and 6 more | 351 C-100, C-100 Firmware, C-110 and 348 more | 2026-04-14 | 3.5 Low |
| The 802.11 standard that underpins Wi-Fi Protected Access (WPA, WPA2, and WPA3) and Wired Equivalent Privacy (WEP) doesn't require that the A-MSDU flag in the plaintext QoS header field is authenticated. Against devices that support receiving non-SSP A-MSDU frames (which is mandatory as part of 802.11n), an adversary can abuse this to inject arbitrary network packets. | ||||
| CVE-2022-27672 | 2 Amd, Redhat | 331 A10-9600p, A10-9600p Firmware, A10-9630p and 328 more | 2026-04-13 | 4.7 Medium |
| When SMT is enabled, certain AMD processors may speculatively execute instructions using a target from the sibling thread after an SMT mode switch potentially resulting in information disclosure. | ||||
| CVE-2020-11022 | 9 Debian, Drupal, Fedoraproject and 6 more | 88 Debian Linux, Drupal, Fedora and 85 more | 2026-04-13 | 6.9 Medium |
| In jQuery starting with 1.12.0 and before 3.5.0, passing HTML from untrusted sources - even after sanitizing it - to one of jQuery's DOM manipulation methods (i.e. .html(), .append(), and others) may execute untrusted code. This problem is patched in jQuery 3.5.0. | ||||
| CVE-2024-27022 | 2 Linux, Redhat | 2 Linux Kernel, Enterprise Linux | 2026-04-11 | 7.8 High |
| In the Linux kernel, the following vulnerability has been resolved: fork: defer linking file vma until vma is fully initialized Thorvald reported a WARNING [1]. And the root cause is below race: CPU 1 CPU 2 fork hugetlbfs_fallocate dup_mmap hugetlbfs_punch_hole i_mmap_lock_write(mapping); vma_interval_tree_insert_after -- Child vma is visible through i_mmap tree. i_mmap_unlock_write(mapping); hugetlb_dup_vma_private -- Clear vma_lock outside i_mmap_rwsem! i_mmap_lock_write(mapping); hugetlb_vmdelete_list vma_interval_tree_foreach hugetlb_vma_trylock_write -- Vma_lock is cleared. tmp->vm_ops->open -- Alloc new vma_lock outside i_mmap_rwsem! hugetlb_vma_unlock_write -- Vma_lock is assigned!!! i_mmap_unlock_write(mapping); hugetlb_dup_vma_private() and hugetlb_vm_op_open() are called outside i_mmap_rwsem lock while vma lock can be used in the same time. Fix this by deferring linking file vma until vma is fully initialized. Those vmas should be initialized first before they can be used. | ||||
| CVE-2012-5562 | 1 Redhat | 2 Network Proxy, Satellite | 2026-04-09 | 8.6 High |
| A flaw was found in rhn-proxy. This vulnerability may allow the rhn-proxy to transmit user credentials in clear-text when it accesses RHN Satellite. This could lead to information disclosure, where sensitive authentication details are exposed to unauthorized parties. | ||||
| CVE-2026-35093 | 3 Fedoraproject, Freedesktop, Redhat | 3 Fedora, Libinput, Enterprise Linux | 2026-04-08 | 8.8 High |
| A flaw was found in libinput. A local attacker who can place a specially crafted Lua bytecode file in certain system or user configuration directories can bypass security restrictions. This allows the attacker to run unauthorized code with the same permissions as the program using libinput, such as a graphical compositor. This could lead to the attacker monitoring keyboard input and sending that information to an external location. | ||||