Note:
This project will be discontinued after December 13, 2021. [more]
Product:
Fedora
(Fedoraproject)Date | Id | Summary | Products | Score | Patch | Annotated |
---|---|---|---|---|---|---|
2008-08-29 | CVE-2008-3282 | Integer overflow in the rtl_allocateMemory function in sal/rtl/source/alloc_global.c in the memory allocator in OpenOffice.org (OOo) 2.4.1, on 64-bit platforms, allows remote attackers to cause a denial of service (application crash) or possibly execute arbitrary code via a crafted document, related to a "numeric truncation error," a different vulnerability than CVE-2008-2152. | Openoffice, Fedora | 7.8 | ||
2018-01-09 | CVE-2017-15129 | A use-after-free vulnerability was found in network namespaces code affecting the Linux kernel before 4.14.11. The function get_net_ns_by_id() in net/core/net_namespace.c does not check for the net::count value after it has found a peer network in netns_ids idr, which could lead to double free and memory corruption. This vulnerability could allow an unprivileged local user to induce kernel memory corruption on the system, leading to a crash. Due to the nature of the flaw, privilege... | Ubuntu_linux, Fedora, Linux_kernel, Enterprise_linux, Enterprise_linux_compute_node_eus, Enterprise_linux_desktop, Enterprise_linux_eus, Enterprise_linux_for_ibm_z_systems, Enterprise_linux_for_ibm_z_systems_eus, Enterprise_linux_for_power_big_endian, Enterprise_linux_for_power_big_endian_eus, Enterprise_linux_for_power_little_endian_eus, Enterprise_linux_for_real_time, Enterprise_linux_for_real_time_for_nfv, Enterprise_linux_for_scientific_computing, Enterprise_linux_server, Enterprise_linux_server_aus, Enterprise_linux_server_tus, Enterprise_linux_server_update_services_for_sap_solutions, Enterprise_linux_workstation | 4.7 | ||
2022-01-10 | CVE-2022-21668 | pipenv is a Python development workflow tool. Starting with version 2018.10.9 and prior to version 2022.1.8, a flaw in pipenv's parsing of requirements files allows an attacker to insert a specially crafted string inside a comment anywhere within a requirements.txt file, which will cause victims who use pipenv to install the requirements file to download dependencies from a package index server controlled by the attacker. By embedding malicious code in packages served from their malicious... | Fedora, Pipenv | 8.6 | ||
2023-11-21 | CVE-2023-6238 | A buffer overflow vulnerability was found in the NVM Express (NVMe) driver in the Linux kernel. Only privileged user could specify a small meta buffer and let the device perform larger Direct Memory Access (DMA) into the same buffer, overwriting unrelated kernel memory, causing random kernel crashes and memory corruption. | Fedora, Linux_kernel | 6.7 | ||
2024-01-30 | CVE-2024-1059 | Use after free in Peer Connection in Google Chrome prior to 121.0.6167.139 allowed a remote attacker to potentially exploit stack corruption via a crafted HTML page. (Chromium security severity: High) | Fedora, Chrome | 8.8 | ||
2024-01-30 | CVE-2024-1060 | Use after free in Canvas in Google Chrome prior to 121.0.6167.139 allowed a remote attacker to potentially exploit heap corruption via a crafted HTML page. (Chromium security severity: High) | Fedora, Chrome | 8.8 | ||
2022-07-12 | CVE-2022-29900 | Mis-trained branch predictions for return instructions may allow arbitrary speculative code execution under certain microarchitecture-dependent conditions. | A10\-9600p_firmware, A10\-9630p_firmware, A12\-9700p_firmware, A12\-9730p_firmware, A4\-9120_firmware, A6\-9210_firmware, A6\-9220_firmware, A6\-9220c_firmware, A9\-9410_firmware, A9\-9420_firmware, Athlon_gold_3150u_firmware, Athlon_silver_3050u_firmware, Athlon_x4_750_firmware, Athlon_x4_760k_firmware, Athlon_x4_830_firmware, Athlon_x4_835_firmware, Athlon_x4_840_firmware, Athlon_x4_845_firmware, Athlon_x4_860k_firmware, Athlon_x4_870k_firmware, Athlon_x4_880k_firmware, Athlon_x4_940_firmware, Athlon_x4_950_firmware, Athlon_x4_970_firmware, Epyc_7001_firmware, Epyc_7002_firmware, Epyc_7251_firmware, Epyc_7252_firmware, Epyc_7261_firmware, Epyc_7262_firmware, Epyc_7272_firmware, Epyc_7281_firmware, Epyc_7282_firmware, Epyc_7301_firmware, Epyc_7302_firmware, Epyc_7302p_firmware, Epyc_7351_firmware, Epyc_7351p_firmware, Epyc_7352_firmware, Epyc_7371_firmware, Epyc_7401_firmware, Epyc_7401p_firmware, Epyc_7402_firmware, Epyc_7402p_firmware, Epyc_7451_firmware, Epyc_7452_firmware, Epyc_7501_firmware, Epyc_7502_firmware, Epyc_7502p_firmware, Epyc_7532_firmware, Epyc_7542_firmware, Epyc_7551_firmware, Epyc_7551p_firmware, Epyc_7552_firmware, Epyc_7601_firmware, Epyc_7642_firmware, Epyc_7662_firmware, Epyc_7702_firmware, Epyc_7742_firmware, Epyc_7f32_firmware, Epyc_7f52_firmware, Epyc_7f72_firmware, Epyc_7h12_firmware, Ryzen_3_2200u_firmware, Ryzen_3_2300u_firmware, Ryzen_3_3100_firmware, Ryzen_3_3200u_firmware, Ryzen_3_3250u_firmware, Ryzen_3_3300g_firmware, Ryzen_3_3300u_firmware, Ryzen_3_3300x_firmware, Ryzen_3_4300g_firmware, Ryzen_3_4300ge_firmware, Ryzen_3_4300u_firmware, Ryzen_5_2500u_firmware, Ryzen_5_2600_firmware, Ryzen_5_2600h_firmware, Ryzen_5_2600x_firmware, Ryzen_5_2700_firmware, Ryzen_5_2700x_firmware, Ryzen_5_3400g_firmware, Ryzen_5_3450g_firmware, Ryzen_5_3500u_firmware, Ryzen_5_3550h_firmware, Ryzen_5_3600_firmware, Ryzen_5_3600x_firmware, Ryzen_5_3600xt_firmware, Ryzen_5_4500u_firmware, Ryzen_5_4600g_firmware, Ryzen_5_4600ge_firmware, Ryzen_5_4600h_firmware, Ryzen_5_4600u_firmware, Ryzen_7_2700_firmware, Ryzen_7_2700u_firmware, Ryzen_7_2700x_firmware, Ryzen_7_2800h_firmware, Ryzen_7_3700u_firmware, Ryzen_7_3700x_firmware, Ryzen_7_3750h_firmware, Ryzen_7_3800x_firmware, Ryzen_7_3800xt_firmware, Ryzen_7_4700g_firmware, Ryzen_7_4700ge_firmware, Ryzen_7_4700u_firmware, Ryzen_7_4800h_firmware, Ryzen_7_4800u_firmware, Ryzen_9_4900h_firmware, Ryzen_threadripper_2920x_firmware, Ryzen_threadripper_2950x_firmware, Ryzen_threadripper_2970wx_firmware, Ryzen_threadripper_2990wx_firmware, Ryzen_threadripper_3960x_firmware, Ryzen_threadripper_3970x_firmware, Ryzen_threadripper_3990x_firmware, Ryzen_threadripper_pro_3795wx_firmware, Ryzen_threadripper_pro_3945wx_firmware, Ryzen_threadripper_pro_3955wx_firmware, Ryzen_threadripper_pro_3995wx_firmware, Ryzen_threadripper_pro_5945wx_firmware, Ryzen_threadripper_pro_5955wx_firmware, Ryzen_threadripper_pro_5965wx_firmware, Ryzen_threadripper_pro_5975wx_firmware, Ryzen_threadripper_pro_5995wx_firmware, Debian_linux, Fedora, Xen | 6.5 | ||
2021-11-24 | CVE-2021-28704 | PoD operations on misaligned GFNs T[his CNA information record relates to multiple CVEs; the text explains which aspects/vulnerabilities correspond to which CVE.] x86 HVM and PVH guests may be started in populate-on-demand (PoD) mode, to provide a way for them to later easily have more memory assigned. Guests are permitted to control certain P2M aspects of individual pages via hypercalls. These hypercalls may act on ranges of pages specified via page orders (resulting in a power-of-2 number... | Debian_linux, Fedora, Xen | 8.8 | ||
2021-11-24 | CVE-2021-28706 | guests may exceed their designated memory limit When a guest is permitted to have close to 16TiB of memory, it may be able to issue hypercalls to increase its memory allocation beyond the administrator established limit. This is a result of a calculation done with 32-bit precision, which may overflow. It would then only be the overflowed (and hence small) number which gets compared against the established upper bound. | Debian_linux, Fedora, Xen | 8.6 | ||
2021-11-24 | CVE-2021-28707 | PoD operations on misaligned GFNs T[his CNA information record relates to multiple CVEs; the text explains which aspects/vulnerabilities correspond to which CVE.] x86 HVM and PVH guests may be started in populate-on-demand (PoD) mode, to provide a way for them to later easily have more memory assigned. Guests are permitted to control certain P2M aspects of individual pages via hypercalls. These hypercalls may act on ranges of pages specified via page orders (resulting in a power-of-2 number... | Debian_linux, Fedora, Xen | 8.8 |