| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| Intel Q35, GM45, PM45 Express, Q45, and Q43 Express chipsets in the SINIT Authenticated Code Module (ACM), which allows local users to bypass the Trusted Execution Technology protection mechanism and gain privileges by modifying the MCHBAR register to point to an attacker-controlled region, which prevents the SENTER instruction from properly applying VT-d protection while an MLE is being loaded. |
| Intel Desktop and Intel Mobile Boards with BIOS firmware DQ35JO, DQ35MP, DP35DP, DG33FB, DG33BU, DG33TL, MGM965TW, D945GCPE, and DX38BT allows local administrators with ring 0 privileges to gain additional privileges and modify code that is running in System Management Mode, or access hypervisory memory as demonstrated at Black Hat 2008 by accessing certain remapping registers in Xen 3.3. |
| Intel firmware PE94510M.86A.0050.2007.0710.1559 stores pre-boot authentication passwords in the BIOS Keyboard buffer and does not clear this buffer after use, which allows local users to obtain sensitive information by reading the physical memory locations associated with this buffer. |
| The Intel Core 2 Extreme processor X6800 and Core 2 Duo desktop processor E6000 and E4000 incorrectly set the memory page Access (A) bit for a page in certain circumstances involving proximity of the code segment limit to the end of a code page, which has unknown impact and attack vectors on certain operating systems other than OpenBSD, aka AI90. |
| Stack-based buffer overflow in QuickTimeInternetExtras.qtx in an unspecified third-party Indeo v3.2 (aka IV32) codec for QuickTime, when used with Apple QuickTime before 7.5.5 on Windows, allows remote attackers to execute arbitrary code or cause a denial of service (application crash) via a crafted movie file. |
| The drm/i915 component in the Linux kernel before 2.6.22.2, when used with i965G and later chipsets, allows local users with access to an X11 session and Direct Rendering Manager (DRM) to write to arbitrary memory locations and gain privileges via a crafted batchbuffer. |
| Race condition in W29N51.SYS in the Intel 2200BG wireless driver 9.0.3.9 allows remote attackers to cause memory corruption and execute arbitrary code via a series of crafted beacon frames. NOTE: some details are obtained solely from third party information. |
| Stack-based buffer overflow in Intel PRO 10/100, PRO/1000, and PRO/10GbE PCI, PCI-X, and PCIe network adapter drivers (aka NDIS miniport drivers) before 20061205 allows local users to execute arbitrary code with "kernel-level" privileges via an incorrect function call in certain OID handlers. |
| Intel Enterprise Southbridge 2 Baseboard Management Controller (BMC), Intel Server Boards 5000XAL, S5000PAL, S5000PSL, S5000XVN, S5000VCL, S5000VSA, SC5400RA, and OEM Firmware for Intel Enterprise Southbridge Baseboard Management Controller before 20070119, when Intelligent Platform Management Interface (IPMI) is enabled, allow remote attackers to connect and issue arbitrary IPMI commands, possibly triggering a denial of service. |
| Multiple unspecified vulnerabilities in Intel system software for Trusted Execution Technology (TXT) allow attackers to bypass intended loader integrity protections, as demonstrated by exploitation of tboot. NOTE: as of 20090107, the only disclosure is a vague pre-advisory with no actionable information. However, because it is from a well-known researcher, it is being assigned a CVE identifier for tracking purposes. |
| An unprivileged network attacker could gain system privileges to provisioned Intel manageability SKUs: Intel Active Management Technology (AMT) and Intel Standard Manageability (ISM). An unprivileged local attacker could provision manageability features gaining unprivileged network or local system privileges on Intel manageability SKUs: Intel Active Management Technology (AMT), Intel Standard Manageability (ISM), and Intel Small Business Technology (SBT). |
| (1) IQVW32.sys before 1.3.1.0 and (2) IQVW64.sys before 1.3.1.0 in the Intel Ethernet diagnostics driver for Windows allows local users to cause a denial of service or possibly execute arbitrary code with kernel privileges via a crafted (a) 0x80862013, (b) 0x8086200B, (c) 0x8086200F, or (d) 0x80862007 IOCTL call. |
| Incorrect default permissions for some Intel(R) Graphics Driver software within Ring 2: Privileged Process may allow an escalation of privilege. Unprivileged software adversary with an authenticated user combined with a high complexity attack may enable escalation of privilege. This result may potentially occur via local access when attack requirements are present without special internal knowledge and requires active user interaction. The potential vulnerability may impact the confidentiality (high), integrity (high) and availability (high) of the vulnerable system, resulting in subsequent system confidentiality (none), integrity (none) and availability (none) impacts. |
| Improper conditions check in some firmware for some Intel(R) Graphics Drivers and Intel LTS kernels within Ring 1: Device Drivers may allow a denial of service. Unprivileged software adversary with an authenticated user combined with a high complexity attack may enable denial of service. This result may potentially occur via local access when attack requirements are present with special internal knowledge and requires no user interaction. The potential vulnerability may impact the confidentiality (none), integrity (none) and availability (low) of the vulnerable system, resulting in subsequent system confidentiality (none), integrity (none) and availability (none) impacts. |
| Insecure inherited permissions for some Intel(R) Graphics Software before version 25.30.1702.0 within Ring 3: User Applications may allow an escalation of privilege. Unprivileged software adversary with an authenticated user combined with a high complexity attack may enable escalation of privilege. This result may potentially occur via local access when attack requirements are present without special internal knowledge and requires active user interaction. The potential vulnerability may impact the confidentiality (high), integrity (high) and availability (high) of the vulnerable system, resulting in subsequent system confidentiality (none), integrity (none) and availability (none) impacts. |
| When configured to store configuration information in an LDAP directory, Shiva Access Manager 5.0.0 stores the root DN (Distinguished Name) name and password in cleartext in a file that is world readable, which allows local users to compromise the LDAP server. |
| daynad program in Intel InBusiness E-mail Station does not require authentication, which allows remote attackers to modify its configuration, delete files, or read mail. |
| Intel Express 500 series switches allow a remote attacker to cause a denial of service via a malformed ICMP packet, which causes the CPU to crash. |
| The firmware for Intelligent Platform Management Interface (IPMI) 1.5-based Intel Server Boards and Platforms is shipped with an Authentication Type Enables parameter set to an invalid None parameter, which allows remote attackers to obtain sensitive information when LAN management functionality is enabled. |
| NetStructure 7110 and 7180 have undocumented accounts (servnow, root, and wizard) whose passwords are easily guessable from the NetStructure's MAC address, which could allow remote attackers to gain root access. |