[{"data":1,"prerenderedAt":-1},["ShallowReactive",2],{"repo-stars":3,"vuln-USN-3007-1":6},{"stargazers_count":4,"fetched_at":5},7,"2026-06-04T08:53:30.047Z",{"id":7,"descriptions":8,"cisa":9,"weaknesses":10,"exploits":11,"aliases":12,"duplicate_of":9,"upstream":13,"downstream":54,"duplicates":55,"related":56,"reserved_at":9,"published_at":67,"modified_at":68,"state":9,"summary":69,"references_raw":71,"kevs":119,"epss":9,"epss_history":120,"metrics":121,"affected":122},"USN-3007-1","linux-raspi2 vulnerabilities\n\nJustin Yackoski discovered that the Atheros L2 Ethernet Driver in the Linux\nkernel incorrectly enables scatter/gather I/O. A remote attacker could use\nthis to obtain potentially sensitive information from kernel memory.\n(CVE-2016-2117)\n\nJann Horn discovered that eCryptfs improperly attempted to use the mmap()\nhandler of a lower filesystem that did not implement one, causing a\nrecursive page fault to occur. A local unprivileged attacker could use to\ncause a denial of service (system crash) or possibly execute arbitrary code\nwith administrative privileges. (CVE-2016-1583)\n\nMultiple race conditions where discovered in the Linux kernel's ext4 file\nsystem. A local user could exploit this flaw to cause a denial of service\n(disk corruption) by writing to a page that is associated with a different\nusers file after unsynchronized hole punching and page-fault handling.\n(CVE-2015-8839)\n\nRalf Spenneberg discovered that the Linux kernel's GTCO digitizer USB\ndevice driver did not properly validate endpoint descriptors. An attacker\nwith physical access could use this to cause a denial of service (system\ncrash). (CVE-2016-2187)\n\nVitaly Kuznetsov discovered that the Linux kernel did not properly suppress\nhugetlbfs support in X86 paravirtualized guests. An attacker in the guest\nOS could cause a denial of service (guest system crash). (CVE-2016-3961)\n\nKangjie Lu discovered an information leak in the ANSI/IEEE 802.2 LLC type 2\nSupport implementations in the Linux kernel. A local attacker could use\nthis to obtain potentially sensitive information from kernel memory.\n(CVE-2016-4485)\n\nKangjie Lu discovered an information leak in the routing netlink socket\ninterface (rtnetlink) implementation in the Linux kernel. A local attacker\ncould use this to obtain potentially sensitive information from kernel\nmemory. (CVE-2016-4486)\n\nJann Horn discovered that the extended Berkeley Packet Filter (eBPF)\nimplementation in the Linux kernel could overflow reference counters on\nsystems with more than 32GB of physical ram and with RLIMIT_MEMLOCK set to\ninfinite. A local unprivileged attacker could use to create a use-after-\nfree situation, causing a denial of service (system crash) or possibly gain\nadministrative privileges. (CVE-2016-4558)\n\nJann Horn discovered that the InfiniBand interfaces within the Linux kernel\ncould be coerced into overwriting kernel memory. A local unprivileged\nattacker could use this to possibly gain administrative privileges on\nsystems where InifiniBand related kernel modules are loaded.\n(CVE-2016-4565)\n\nIt was discovered that in some situations the Linux kernel did not handle\npropagated mounts correctly. A local unprivileged attacker could use this\nto cause a denial of service (system crash). (CVE-2016-4581)\n",null,[],[],[],[14,16,18,20,22,24,26,28,30,32,34,36,38,40,42,44,46,48,50,52],{"_key":15},"CVE-2015-8839",{"_key":17},"CVE-2016-1583",{"_key":19},"CVE-2016-2117",{"_key":21},"CVE-2016-2187",{"_key":23},"CVE-2016-3961",{"_key":25},"CVE-2016-4485",{"_key":27},"CVE-2016-4486",{"_key":29},"CVE-2016-4558",{"_key":31},"CVE-2016-4565",{"_key":33},"CVE-2016-4581",{"_key":35},"UBUNTU-CVE-2015-8839",{"_key":37},"UBUNTU-CVE-2016-1583",{"_key":39},"UBUNTU-CVE-2016-2117",{"_key":41},"UBUNTU-CVE-2016-2187",{"_key":43},"UBUNTU-CVE-2016-3961",{"_key":45},"UBUNTU-CVE-2016-4485",{"_key":47},"UBUNTU-CVE-2016-4486",{"_key":49},"UBUNTU-CVE-2016-4558",{"_key":51},"UBUNTU-CVE-2016-4565",{"_key":53},"UBUNTU-CVE-2016-4581",[],[],[57,58,59,60,61,62,63,64,65,66],{"_key":37},{"_key":39},{"_key":49},{"_key":53},{"_key":35},{"_key":41},{"_key":43},{"_key":45},{"_key":47},{"_key":51},"2016-06-10T06:58:42.675264Z","2026-02-04T02:42:54.479752Z",{"cisa_kev":70,"cisa_ransomware":70,"cisa_vendor":9,"epss_severity":9,"epss_score":9,"severity":9,"severity_score":9,"severity_version":9,"severity_source":9,"severity_vector":9,"severity_status":9},false,[72,78,83,87,91,95,99,103,107,111,115],{"url":73,"sources":74,"tags":76},"https://ubuntu.com/security/notices/USN-3007-1",[75],"osv_ubuntu",[77],"Advisory",{"url":79,"sources":80,"tags":81},"https://ubuntu.com/security/CVE-2015-8839",[75],[82],"REPORT",{"url":84,"sources":85,"tags":86},"https://ubuntu.com/security/CVE-2016-1583",[75],[82],{"url":88,"sources":89,"tags":90},"https://ubuntu.com/security/CVE-2016-2117",[75],[82],{"url":92,"sources":93,"tags":94},"https://ubuntu.com/security/CVE-2016-2187",[75],[82],{"url":96,"sources":97,"tags":98},"https://ubuntu.com/security/CVE-2016-3961",[75],[82],{"url":100,"sources":101,"tags":102},"https://ubuntu.com/security/CVE-2016-4485",[75],[82],{"url":104,"sources":105,"tags":106},"https://ubuntu.com/security/CVE-2016-4486",[75],[82],{"url":108,"sources":109,"tags":110},"https://ubuntu.com/security/CVE-2016-4558",[75],[82],{"url":112,"sources":113,"tags":114},"https://ubuntu.com/security/CVE-2016-4565",[75],[82],{"url":116,"sources":117,"tags":118},"https://ubuntu.com/security/CVE-2016-4581",[75],[82],[],[],[],[123],{"ecosystem":124,"name":125,"vendor":126,"product":125,"cpe_part":9,"purl_type":127,"purl_namespace":126,"purl_name":125,"source":9,"versions":128},"Ubuntu","linux-raspi2","ubuntu","deb",[129],{"version":130,"is_range":131,"range_type":132,"version_start":9,"version_start_type":9,"version_end":133,"version_end_type":134,"fixed_in":9},"lt4_4_0_1012_16",true,"ecosystem","4.4.0-1012.16","excluding"]