Filtered by vendor Samsung
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Total
1175 CVE
| CVE | Vendors | Products | Updated | CVSS v2 | CVSS v3 |
|---|---|---|---|---|---|
| CVE-2018-10501 | 1 Samsung | 1 Notes | 2024-11-21 | 4.4 MEDIUM | 7.0 HIGH |
| This vulnerability allows local attackers to escalate privileges on vulnerable installations of Samsung Notes Fixed in version 2.0.02.31. An attacker must first obtain the ability to execute low-privileged code on the target system in order to exploit this vulnerability. The specific flaw exists within the handling of ZIP files. The issue results from the lack of proper validation of a user-supplied path prior to using it in file operations. An attacker can leverage this vulnerability to escalate privileges to resources normally protected from the application. Was ZDI-CAN-5358. | |||||
| CVE-2018-10500 | 1 Samsung | 1 Galaxy Apps | 2024-11-21 | 4.4 MEDIUM | 7.0 HIGH |
| This vulnerability allows local attackers to escalate privileges on vulnerable installations of Samsung Galaxy Apps Fixed in version 6.4.0.15. An attacker must first obtain the ability to execute low-privileged code on the target system in order to exploit this vulnerability. The specific flaw exists within the handling of push messages. The issue lies in the ability to start an activity with controlled arguments. An attacker can leverage this vulnerability to escalate privileges to resources normally protected from the application. Was ZDI-CAN-5331. | |||||
| CVE-2018-10499 | 1 Samsung | 1 Galaxy Apps | 2024-11-21 | 4.4 MEDIUM | 7.0 HIGH |
| This vulnerability allows local attackers to execute arbitrary code on vulnerable installations of Samsung Galaxy Apps Fixed in version 6.4.0.15. An attacker must first obtain the ability to execute low-privileged code on the target system in order to exploit this vulnerability. The specific flaw exists within the handling of URLs. The issue lies in the lack of proper validation of user-supplied data, which can allow arbitrary JavaScript to execute. An attacker can leverage this vulnerability to install applications under the context of the current user. Was ZDI-CAN-5330. | |||||
| CVE-2018-10498 | 1 Samsung | 1 Samsung Email | 2024-11-21 | 2.1 LOW | 5.5 MEDIUM |
| This vulnerability allows local attackers to disclose sensitive information on vulnerable installations of Samsung Email Fixed in version 5.0.02.16. An attacker must first obtain the ability to execute low-privileged code on the target system in order to exploit this vulnerability. The specific flaw exists within the handling of file:/// URIs. The issue lies in the lack of proper validation of user-supplied data, which can allow for reading arbitrary files. An attacker can leverage this in conjunction with other vulnerabilities to escalate privileges. Was ZDI-CAN-5329. | |||||
| CVE-2018-10497 | 1 Samsung | 1 Samsung Email | 2024-11-21 | 4.6 MEDIUM | 7.8 HIGH |
| This vulnerability allows local attackers to escalate privileges on vulnerable installations of Samsung Email Fixed in version 5.0.02.16. An attacker must first obtain the ability to execute low-privileged code on the target system in order to exploit this vulnerability. The specific flaw exists within the handling of EML files. The issue results from the lack of proper validation of user-supplied data, which can allow arbitrary JavaScript to execute. An attacker can leverage this vulnerability to escalate privileges to resources normally protected from the application. Was ZDI-CAN-5328. | |||||
| CVE-2018-10496 | 1 Samsung | 1 Samsung Internet Browser | 2024-11-21 | 6.8 MEDIUM | 8.8 HIGH |
| This vulnerability allows remote attackers to execute arbitrary code on vulnerable installations of Samsung Internet Browser Fixed in version 6.4.0.15. User interaction is required to exploit this vulnerability in that the target must visit a malicious page or open a malicious file. The specific flaw exists within the handling of TypedArray objects. The issue results from the lack of validating the existence of an object prior to performing operations on the object. An attacker can leverage this vulnerability to execute code under the context of the current process. Was ZDI-CAN-5326. | |||||
| CVE-2017-18696 | 3 Google, Qualcomm, Samsung | 4 Android, Msm8996, Exynos 7420 and 1 more | 2024-11-21 | 7.5 HIGH | 9.8 CRITICAL |
| An issue was discovered on Samsung mobile devices with M(6.0) and N(7.0) (Exynos7420, Exynos8890, or MSM8996 chipsets) software. RKP allows memory corruption. The Samsung ID is SVE-2016-7897 (January 2017). | |||||
| CVE-2017-18694 | 2 Google, Samsung | 8 Android, Exynos 5250, Exynos 5260 and 5 more | 2024-11-21 | 5.0 MEDIUM | 5.3 MEDIUM |
| An issue was discovered on Samsung mobile devices with software through 2016-10-25 (Exynos5 chipsets). Attackers can read kernel addresses in the log because an incorrect format specifier is used. The Samsung ID is SVE-2016-7551 (January 2017). | |||||
| CVE-2017-18692 | 3 Google, Qualcomm, Samsung | 7 Android, Msm8939, Msm8996 and 4 more | 2024-11-21 | 6.8 MEDIUM | 8.1 HIGH |
| An issue was discovered on Samsung mobile devices with M(6.0) and N(7.0) (MSM8939, MSM8996, MSM8998, Exynos7580, Exynos8890, or Exynos8895 chipsets) software. There is a race condition, with a resultant buffer overflow, in the sec_ts touchscreen sysfs interface. The Samsung ID is SVE-2016-7501 (January 2017). | |||||
| CVE-2017-18691 | 2 Google, Samsung | 2 Android, Exynos 8890 | 2024-11-21 | 7.5 HIGH | 9.8 CRITICAL |
| An issue was discovered on Samsung mobile devices with M(6.0) and N(7.0) (Exynos8890 chipsets) software. There are multiple Buffer Overflows in TSP sysfs cmd_store. The Samsung ID is SVE-2016-7500 (January 2017). | |||||
| CVE-2017-18690 | 2 Google, Samsung | 9 Android, Exynos 5410, Exynos 5420 and 6 more | 2024-11-21 | 7.5 HIGH | 9.8 CRITICAL |
| An issue was discovered on Samsung mobile devices with KK(4.4), L(5.0/5.1), M(6.0), and N(7.0) (Exynos54xx, Exynos7420, Exynos8890, or Exynos8895 chipsets) software. There is a buffer overflow in the sensor hub. The Samsung ID is SVE-2016-7484 (January 2017). | |||||
| CVE-2017-18689 | 2 Google, Samsung | 4 Android, Exynos 5433, Exynos 7420 and 1 more | 2024-11-21 | 4.3 MEDIUM | 7.5 HIGH |
| An issue was discovered on Samsung mobile devices with M(6.0) and N(7.0) (Exynos5433, Exynos7420, or Exynos7870 chipsets) software. An attacker can bypass a ko (aka Kernel Module) signature by modifying the count of kernel modules. The Samsung ID is SVE-2016-7466 (January 2017). | |||||
| CVE-2017-18681 | 1 Samsung | 2 Galaxy S5, Galaxy S5 Firmware | 2024-11-21 | 10.0 HIGH | 9.8 CRITICAL |
| An issue was discovered on Samsung Galaxy S5 mobile devices with software through 2016-12-20 (Qualcomm AP chipsets). There are multiple buffer overflows in the bootloader. The Samsung ID is SVE-2016-7930 (March 2017). | |||||
| CVE-2017-18675 | 2 Google, Samsung | 3 Android, Exynos 7420, Exynox 8890 | 2024-11-21 | 5.0 MEDIUM | 7.5 HIGH |
| An issue was discovered on Samsung mobile devices with M(6.0) and N(7.x) (Exynos7420 or Exynox8890 chipsets) software. The Camera application can leak uninitialized memory via ion. The Samsung ID is SVE-2016-6989 (April 2017). | |||||
| CVE-2017-18020 | 1 Samsung | 1 Samsung Mobile | 2024-11-21 | 7.2 HIGH | 8.4 HIGH |
| On Samsung mobile devices with L(5.x), M(6.x), and N(7.x) software and Exynos chipsets, attackers can execute arbitrary code in the bootloader because S Boot omits a size check during a copy of ramfs data to memory. The Samsung ID is SVE-2017-10598. | |||||
| CVE-2017-17860 | 2 Google, Samsung | 3 Android, Gear S2, Gear S3 | 2024-11-21 | 5.7 MEDIUM | 5.7 MEDIUM |
| In Samsung Gear products, Bluetooth link key is updated to the different key which is same with attacker's link key. It can be attacked without user's intention only if attacker can reveal the Bluetooth address of target device and paired user's smartphone | |||||
| CVE-2017-10963 | 1 Samsung | 2 Knox Enterprise Mobility Management, Knox Identity Access Management | 2024-11-21 | 4.3 MEDIUM | 5.9 MEDIUM |
| In Knox SDS IAM (Identity Access Management) and EMM (Enterprise Mobility Management) 16.11 on Samsung mobile devices, a man-in-the-middle attacker can install any application into the Knox container (without the user's knowledge) by inspecting network traffic from a Samsung server and injecting content at a certain point in the update sequence. This installed application can further leak information stored inside the Knox container to the outside world. | |||||
| CVE-2016-11050 | 1 Samsung | 10 Note2, Note2 Firmware, Note3 and 7 more | 2024-11-21 | 2.1 LOW | 4.3 MEDIUM |
| An issue was discovered on Samsung mobile devices with S3(KK), Note2(KK), S4(L), Note3(L), and S5(L) software. An attacker can rewrite the IMEI by flashing crafted firmware. The Samsung ID is SVE-2016-5562 (March 2016). | |||||
| CVE-2016-11038 | 2 Google, Samsung | 7 Android, Galaxy Note 3, Galaxy Note 4 and 4 more | 2024-11-21 | 7.5 HIGH | 9.8 CRITICAL |
| An issue was discovered on Samsung mobile devices with software through 2016-04-05 (incorporating the Samsung Professional Audio SDK). The Jack audio service doesn't implement access control for shared memory, leading to arbitrary code execution or privilege escalation. The Samsung ID is SVE-2016-5953 (July 2016). | |||||
| CVE-2016-11028 | 2 Google, Samsung | 2 Android, Exynos | 2024-11-21 | 7.5 HIGH | 9.8 CRITICAL |
| An issue was discovered on Samsung mobile devices with software through 2016-09-13 (Exynos AP chipsets). There is a stack-based buffer overflow in the OTP TrustZone trustlet. The Samsung IDs are SVE-2016-7173 and SVE-2016-7174 (December 2016). | |||||