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Search Results (16414 CVEs found)
| CVE | Vendors | Products | Updated | CVSS v3.1 |
|---|---|---|---|---|
| CVE-2017-0577 | 1 Linux | 1 Linux Kernel | 2025-04-20 | N/A |
| An elevation of privilege vulnerability in the HTC touchscreen driver could enable a local malicious application to execute arbitrary code within the context of the kernel. This issue is rated as High because it first requires compromising a privileged process. Product: Android. Versions: Kernel-3.18. Android ID: A-33842951. | ||||
| CVE-2017-0579 | 1 Linux | 1 Linux Kernel | 2025-04-20 | N/A |
| An elevation of privilege vulnerability in the Qualcomm video driver could enable a local malicious application to execute arbitrary code within the context of the kernel. This issue is rated as High because it first requires compromising a privileged process. Product: Android. Versions: Kernel-3.10, Kernel-3.18. Android ID: A-34125463. References: QC-CR#1115406. | ||||
| CVE-2017-0582 | 1 Linux | 1 Linux Kernel | 2025-04-20 | N/A |
| An elevation of privilege vulnerability in the HTC OEM fastboot command could enable a local malicious application to execute arbitrary code within the context of the sensor hub. This issue is rated as Moderate because it first requires exploitation of separate vulnerabilities. Product: Android. Versions: Kernel-3.10. Android ID: A-33178836. | ||||
| CVE-2017-0583 | 1 Linux | 1 Linux Kernel | 2025-04-20 | N/A |
| An elevation of privilege vulnerability in the Qualcomm CP access driver could enable a local malicious application to execute arbitrary code within the context of the kernel. This issue is rated as Moderate because it first requires compromising a privileged process and because of vulnerability specific details which limit the impact of the issue. Product: Android. Versions: Kernel-3.10, Kernel-3.18. Android ID: A-32068683. References: QC-CR#1103788. | ||||
| CVE-2017-0585 | 1 Linux | 1 Linux Kernel | 2025-04-20 | N/A |
| An information disclosure vulnerability in the Broadcom Wi-Fi driver could enable a local malicious application to access data outside of its permission levels. This issue is rated as Moderate because it first requires compromising a privileged process. Product: Android. Versions: Kernel-3.10, Kernel-3.18. Android ID: A-32475556. References: B-RB#112953. | ||||
| CVE-2017-0607 | 1 Linux | 1 Linux Kernel | 2025-04-20 | N/A |
| An elevation of privilege vulnerability in the Qualcomm sound driver could enable a local malicious application to execute arbitrary code within the context of the kernel. This issue is rated as High because it first requires compromising a privileged process. Product: Android. Versions: Kernel-3.18. Android ID: A-35400551. References: QC-CR#1085928. | ||||
| CVE-2017-0609 | 1 Linux | 1 Linux Kernel | 2025-04-20 | N/A |
| An elevation of privilege vulnerability in the Qualcomm sound driver could enable a local malicious application to execute arbitrary code within the context of the kernel. This issue is rated as High because it first requires compromising a privileged process. Product: Android. Versions: Kernel-3.10, Kernel-3.18. Android ID: A-35399801. References: QC-CR#1090482. | ||||
| CVE-2017-1000410 | 3 Debian, Linux, Redhat | 13 Debian Linux, Linux Kernel, Enterprise Linux and 10 more | 2025-04-20 | N/A |
| The Linux kernel version 3.3-rc1 and later is affected by a vulnerability lies in the processing of incoming L2CAP commands - ConfigRequest, and ConfigResponse messages. This info leak is a result of uninitialized stack variables that may be returned to an attacker in their uninitialized state. By manipulating the code flows that precede the handling of these configuration messages, an attacker can also gain some control over which data will be held in the uninitialized stack variables. This can allow him to bypass KASLR, and stack canaries protection - as both pointers and stack canaries may be leaked in this manner. Combining this vulnerability (for example) with the previously disclosed RCE vulnerability in L2CAP configuration parsing (CVE-2017-1000251) may allow an attacker to exploit the RCE against kernels which were built with the above mitigations. These are the specifics of this vulnerability: In the function l2cap_parse_conf_rsp and in the function l2cap_parse_conf_req the following variable is declared without initialization: struct l2cap_conf_efs efs; In addition, when parsing input configuration parameters in both of these functions, the switch case for handling EFS elements may skip the memcpy call that will write to the efs variable: ... case L2CAP_CONF_EFS: if (olen == sizeof(efs)) memcpy(&efs, (void *)val, olen); ... The olen in the above if is attacker controlled, and regardless of that if, in both of these functions the efs variable would eventually be added to the outgoing configuration request that is being built: l2cap_add_conf_opt(&ptr, L2CAP_CONF_EFS, sizeof(efs), (unsigned long) &efs); So by sending a configuration request, or response, that contains an L2CAP_CONF_EFS element, but with an element length that is not sizeof(efs) - the memcpy to the uninitialized efs variable can be avoided, and the uninitialized variable would be returned to the attacker (16 bytes). | ||||
| CVE-2017-0612 | 1 Linux | 1 Linux Kernel | 2025-04-20 | N/A |
| An elevation of privilege vulnerability in the Qualcomm Secure Execution Environment Communicator driver could enable a local malicious application to execute arbitrary code within the context of the kernel. This issue is rated as High because it first requires compromising a privileged process. Product: Android. Versions: Kernel-3.18. Android ID: A-34389303. References: QC-CR#1061845. | ||||
| CVE-2017-0613 | 1 Linux | 1 Linux Kernel | 2025-04-20 | N/A |
| An elevation of privilege vulnerability in the Qualcomm Secure Execution Environment Communicator driver could enable a local malicious application to execute arbitrary code within the context of the kernel. This issue is rated as High because it first requires compromising a privileged process. Product: Android. Versions: Kernel-3.10, Kernel-3.18. Android ID: A-35400457. References: QC-CR#1086140. | ||||
| CVE-2017-0619 | 2 Google, Linux | 2 Android, Linux Kernel | 2025-04-20 | N/A |
| An elevation of privilege vulnerability in the Qualcomm pin controller driver could enable a local malicious application to execute arbitrary code within the context of the kernel. This issue is rated as High because it first requires compromising a privileged process. Product: Android. Versions: Kernel-3.10. Android ID: A-35401152. References: QC-CR#826566. | ||||
| CVE-2017-0620 | 2 Google, Linux | 2 Android, Linux Kernel | 2025-04-20 | N/A |
| An elevation of privilege vulnerability in the Qualcomm Secure Channel Manager driver could enable a local malicious application to execute arbitrary code within the context of the kernel. This issue is rated as High because it first requires compromising a privileged process. Product: Android. Versions: Kernel-3.10, Kernel-3.18. Android ID: A-35401052. References: QC-CR#1081711. | ||||
| CVE-2017-0622 | 1 Linux | 1 Linux Kernel | 2025-04-20 | N/A |
| An elevation of privilege vulnerability in the Goodix touchscreen driver could enable a local malicious application to execute arbitrary code within the context of the kernel. This issue is rated as High because it first requires compromising a privileged process. Product: Android. Versions: Kernel-3.10. Android ID: A-32749036. References: QC-CR#1098602. | ||||
| CVE-2017-0626 | 1 Linux | 1 Linux Kernel | 2025-04-20 | N/A |
| An information disclosure vulnerability in the Qualcomm crypto engine driver could enable a local malicious application to access data outside of its permission levels. This issue is rated as High because it could be used to access sensitive data without explicit user permission. Product: Android. Versions: Kernel-3.10, Kernel-3.18. Android ID: A-35393124. References: QC-CR#1088050. | ||||
| CVE-2017-0627 | 1 Linux | 1 Linux Kernel | 2025-04-20 | N/A |
| An information disclosure vulnerability in the kernel UVC driver could enable a local malicious application to access data outside of its permission levels. This issue is rated as Moderate because it first requires compromising a privileged process. Product: Android. Versions: Kernel-3.10, Kernel-3.18. Android ID: A-33300353. | ||||
| CVE-2017-0629 | 1 Linux | 1 Linux Kernel | 2025-04-20 | N/A |
| An information disclosure vulnerability in the Qualcomm camera driver could enable a local malicious application to access data outside of its permission levels. This issue is rated as Moderate because it first requires compromising a privileged process. Product: Android. Versions: Kernel-3.10, Kernel-3.18. Android ID: A-35214296. References: QC-CR#1086833. | ||||
| CVE-2017-0634 | 1 Linux | 1 Linux Kernel | 2025-04-20 | N/A |
| An information disclosure vulnerability in the Synaptics touchscreen driver could enable a local malicious application to access data outside of its permission levels. This issue is rated as Moderate because it first requires compromising a privileged process. Product: Android. Versions: Kernel-3.18. Android ID: A-32511682. | ||||
| CVE-2017-0648 | 1 Linux | 1 Linux Kernel | 2025-04-20 | N/A |
| An elevation of privilege vulnerability in the kernel FIQ debugger could enable a local malicious application to execute arbitrary code within the context of the kernel. This issue is rated as High due to the possibility of a local permanent device compromise, which may require reflashing the operating system to repair the device. Product: Android. Versions: Kernel-3.10. Android ID: A-36101220. | ||||
| CVE-2017-1000377 | 1 Linux | 1 Linux Kernel | 2025-04-20 | N/A |
| An issue was discovered in the size of the default stack guard page on PAX Linux (originally from GRSecurity but shipped by other Linux vendors), specifically the default stack guard page is not sufficiently large and can be "jumped" over (the stack guard page is bypassed), this affects PAX Linux Kernel versions as of June 19, 2017 (specific version information is not available at this time). | ||||
| CVE-2017-1000255 | 3 Ibm, Linux, Redhat | 4 Powerpc Power8, Powerpc Power9, Linux Kernel and 1 more | 2025-04-20 | N/A |
| On Linux running on PowerPC hardware (Power8 or later) a user process can craft a signal frame and then do a sigreturn so that the kernel will take an exception (interrupt), and use the r1 value *from the signal frame* as the kernel stack pointer. As part of the exception entry the content of the signal frame is written to the kernel stack, allowing an attacker to overwrite arbitrary locations with arbitrary values. The exception handling does produce an oops, and a panic if panic_on_oops=1, but only after kernel memory has been over written. This flaw was introduced in commit: "5d176f751ee3 (powerpc: tm: Enable transactional memory (TM) lazily for userspace)" which was merged upstream into v4.9-rc1. Please note that kernels built with CONFIG_PPC_TRANSACTIONAL_MEM=n are not vulnerable. | ||||