| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| Multiple buffer overflows in QEMU before 1.7.2 and 2.x before 2.0.0, allow local users to cause a denial of service (crash) or possibly execute arbitrary code via a large (1) L1 table in the qcow2_snapshot_load_tmp in the QCOW 2 block driver (block/qcow2-snapshot.c) or (2) uncompressed chunk, (3) chunk length, or (4) number of sectors in the DMG block driver (block/dmg.c). |
| Stack-based buffer overflow in the ipv6_addr_from_str function in sys/net/network_layer/ipv6/addr/ipv6_addr_from_str.c in RIOT prior to 2017-04-25 allows local attackers, and potentially remote attackers, to cause a denial of service or possibly have unspecified other impact via a malformed IPv6 address. |
| Buffer overflow in PrivateTunnel 2.7 and 2.8 allows local attackers to cause a denial of service (SEH overwrite) or possibly have unspecified other impact via a long password. |
| In all Qualcomm products with Android releases from CAF using the Linux kernel, validation of a buffer length was missing in a PlayReady DRM routine. |
| In all Qualcomm products with Android releases from CAF using the Linux kernel, validation of buffer lengths was missing in Keymaster. |
| In all Qualcomm products with Android releases from CAF using the Linux kernel, a buffer overflow vulnerability exists in 1x call processing. |
| In all Qualcomm products with Android releases from CAF using the Linux kernel, a buffer overflow vulnerability exists in PlayReady DRM. |
| In all Qualcomm products with Android releases from CAF using the Linux kernel, a buffer overflow vulnerability exists in a QTEE service. |
| In all Qualcomm products with Android releases from CAF using the Linux kernel, a variable is uninitialized in a TrustZone system call potentially leading to the compromise of secure memory. |
| In all Qualcomm products with Android releases from CAF using the Linux kernel, a Sample App failed to check a length potentially leading to unauthorized access to secure memory. |
| In all Qualcomm products with Android releases from CAF using the Linux kernel, an overflow check in the USB interface was insufficient during boot. |
| nscd in the GNU C Library (aka glibc or libc6) before version 2.20 does not correctly compute the size of an internal buffer when processing netgroup requests, possibly leading to an nscd daemon crash or code execution as the user running nscd. |
| Stack-based buffer overflow in IBM V5R4, and IBM i Access for Windows 6.1 and 7.1. |
| In all Qualcomm products with Android releases from CAF using the Linux kernel, a buffer overflow vulnerability exists in HSDPA. |
| Cisco Cloud Web Security before 3.0.1.7 allows remote attackers to bypass intended filtering protection mechanisms by leveraging improper handling of HTTP methods, aka Bug ID CSCut69743. |
| Heap-based buffer overflow in Google Chrome before M40 allows remote attackers to cause a denial of service (unpaged memory write and process crash) via a crafted MP4 file. |
| The OAuth implementation in librest before 0.7.93 incorrectly truncates the pointer returned by the rest_proxy_call_get_url function, which allows remote attackers to cause a denial of service (application crash) via running the EnsureCredentials method from the org.gnome.OnlineAccounts.Account interface on an object representing a Flickr account. |
| An exploitable remote code execution vulnerability exists in the Trane ComfortLink II firmware version 2.0.2 in DSS service. An attacker who can connect to the DSS service on the Trane ComfortLink II device can send an overly long REG request that can overflow a fixed size stack buffer, resulting in arbitrary code execution. |
| Heap-based buffer overflow in libaxl 0.6.9 allows attackers to cause a denial of service (memory corruption) or execute arbitrary code via a crafted XML document. |
| ChakraCore and Internet Explorer in Microsoft Windows 7 SP1, Windows Server 2008 R2 SP1, Windows 8.1 and Windows RT 8.1, Windows Server 2012 R2, and Microsoft Edge and Internet Explorer in Windows 10 Gold, 1511, 1607, 1703, 1709, Windows Server 2016 and Windows Server, version 1709 allows an attacker to gain the same user rights as the current user, due to how the scripting engine handles objects in memory, aka "Scripting Engine Memory Corruption Vulnerability". This CVE ID is unique from CVE-2017-11836, CVE-2017-11838, CVE-2017-11839, CVE-2017-11840, CVE-2017-11841, CVE-2017-11843, CVE-2017-11846, CVE-2017-11858, CVE-2017-11859, CVE-2017-11861, CVE-2017-11862, CVE-2017-11866, CVE-2017-11869, CVE-2017-11870, CVE-2017-11871, and CVE-2017-11873. |