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Search Results (45732 CVEs found)
| CVE | Vendors | Products | Updated | CVSS v3.1 |
|---|---|---|---|---|
| CVE-2025-29366 | 2026-04-15 | 9.8 Critical | ||
| In mupen64plus v2.6.0 there is an array overflow vulnerability in the write_rdram_regs and write_rdram_regs functions, which enables executing arbitrary commands on the host machine. | ||||
| CVE-2024-45162 | 1 Blu-castle | 1 Bcum221e | 2026-04-15 | 9.8 Critical |
| A stack-based buffer overflow issue was discovered in the phddns client in Blu-Castle BCUM221E 1.0.0P220507 via the password field. | ||||
| CVE-2024-41882 | 2026-04-15 | N/A | ||
| Team ENVY, a Security Research TEAM has found a flaw that allows for a remote code execution on the NVR. An attacker can cause a stack overflow by entering large data into URL parameters, which will result in a system reboot. The manufacturer has released patch firmware for the flaw, please refer to the manufacturer's report for details and workarounds. | ||||
| CVE-2025-24347 | 2026-04-15 | 6.5 Medium | ||
| A vulnerability in the “Network Interfaces” functionality of the web application of ctrlX OS allows a remote authenticated (low-privileged) attacker to manipulate the network configuration file via a crafted HTTP request. | ||||
| CVE-2025-24346 | 2026-04-15 | 7.5 High | ||
| A vulnerability in the “Proxy” functionality of the web application of ctrlX OS allows a remote authenticated (lowprivileged) attacker to manipulate the “/etc/environment” file via a crafted HTTP request. | ||||
| CVE-2025-24345 | 2026-04-15 | 6.3 Medium | ||
| A vulnerability in the “Hosts” functionality of the web application of ctrlX OS allows a remote authenticated (low-privileged) attacker to manipulate the “hosts” file in an unintended manner via a crafted HTTP request. | ||||
| CVE-2025-23241 | 2 Intel, Linux | 2 Ethernet 800 Series Software, Linux Kernel | 2026-04-15 | 7.3 High |
| Integer overflow or wraparound in the Linux kernel-mode driver for some Intel(R) 800 Series Ethernet before version 1.17.2 may allow an authenticated user to potentially enable denial of service via local access. | ||||
| CVE-2025-22889 | 1 Intel | 3 Processor, Xeon, Xeon Processors | 2026-04-15 | 7.9 High |
| Improper handling of overlap between protected memory ranges for some Intel(R) Xeon(R) 6 processor with Intel(R) TDX may allow a privileged user to potentially enable escalation of privilege via local access. | ||||
| CVE-2025-22840 | 1 Intel | 3 Processors, Xeon, Xeon Processors | 2026-04-15 | 7.4 High |
| Sequence of processor instructions leads to unexpected behavior for some Intel(R) Xeon(R) 6 Scalable processors may allow an authenticated user to potentially enable escalation of privilege via local access | ||||
| CVE-2025-22392 | 1 Intel | 2 Amt, Standard Manageability | 2026-04-15 | 4.4 Medium |
| Out-of-bounds read in firmware for some Intel(R) AMT and Intel(R) Standard Manageability may allow a privileged user to potentially enable information disclosure via network access. | ||||
| CVE-2025-0662 | 1 Freebsd | 1 Freebsd | 2026-04-15 | 4.9 Medium |
| In some cases, the ktrace facility will log the contents of kernel structures to userspace. In one such case, ktrace dumps a variable-sized sockaddr to userspace. There, the full sockaddr is copied, even when it is shorter than the full size. This can result in up to 14 uninitialized bytes of kernel memory being copied out to userspace. It is possible for an unprivileged userspace program to leak 14 bytes of a kernel heap allocation to userspace. | ||||
| CVE-2024-37877 | 1 Ueranism | 1 Ueranism | 2026-04-15 | 5.5 Medium |
| UERANSIM before 3.2.6 allows out-of-bounds read when a RLS packet is sent to gNodeB with malformed PDU length. This occurs in function readOctetString in src/utils/octet_view.cpp and in function DecodeRlsMessage in src/lib/rls/rls_pdu.cpp | ||||
| CVE-2024-31082 | 1 Redhat | 1 Enterprise Linux | 2026-04-15 | 7.3 High |
| A heap-based buffer over-read vulnerability was found in the X.org server's ProcAppleDRICreatePixmap() function. This issue occurs when byte-swapped length values are used in replies, potentially leading to memory leakage and segmentation faults, particularly when triggered by a client with a different endianness. This vulnerability could be exploited by an attacker to cause the X server to read heap memory values and then transmit them back to the client until encountering an unmapped page, resulting in a crash. Despite the attacker's inability to control the specific memory copied into the replies, the small length values typically stored in a 32-bit integer can result in significant attempted out-of-bounds reads. | ||||
| CVE-2024-31081 | 1 Redhat | 6 Enterprise Linux, Rhel Aus, Rhel E4s and 3 more | 2026-04-15 | 7.3 High |
| A heap-based buffer over-read vulnerability was found in the X.org server's ProcXIPassiveGrabDevice() function. This issue occurs when byte-swapped length values are used in replies, potentially leading to memory leakage and segmentation faults, particularly when triggered by a client with a different endianness. This vulnerability could be exploited by an attacker to cause the X server to read heap memory values and then transmit them back to the client until encountering an unmapped page, resulting in a crash. Despite the attacker's inability to control the specific memory copied into the replies, the small length values typically stored in a 32-bit integer can result in significant attempted out-of-bounds reads. | ||||
| CVE-2024-31080 | 1 Redhat | 6 Enterprise Linux, Rhel Aus, Rhel E4s and 3 more | 2026-04-15 | 7.3 High |
| A heap-based buffer over-read vulnerability was found in the X.org server's ProcXIGetSelectedEvents() function. This issue occurs when byte-swapped length values are used in replies, potentially leading to memory leakage and segmentation faults, particularly when triggered by a client with a different endianness. This vulnerability could be exploited by an attacker to cause the X server to read heap memory values and then transmit them back to the client until encountering an unmapped page, resulting in a crash. Despite the attacker's inability to control the specific memory copied into the replies, the small length values typically stored in a 32-bit integer can result in significant attempted out-of-bounds reads. | ||||
| CVE-2024-28038 | 2026-04-15 | 9 Critical | ||
| The web interface of the affected devices processes a cookie value improperly, leading to a stack buffer overflow. More precisely, giving too long character string to MFPSESSIONID parameter results in a stack buffer overflow. As for the details of affected product names, model numbers, and versions, refer to the information provided by the respective vendors listed under [References]. | ||||
| CVE-2025-32899 | 1 Kde | 1 Kdeconnect | 2026-04-15 | 4.3 Medium |
| In KDE Connect before 1.33.0 on Android, a packet can be crafted that causes two paired devices to unpair. Specifically, it is an invalid discovery packet sent over broadcast UDP. | ||||
| CVE-2024-7013 | 1 Panasonic | 1 Control Fpwin Pro | 2026-04-15 | 7.8 High |
| Stack-based buffer overflow in Control FPWIN Pro version 7.7.2.0 and all previous versions may allow attackers to execute arbitrary code via a specially crafted project file. | ||||
| CVE-2025-1073 | 2026-04-15 | 7.5 High | ||
| Panasonic IR Control Hub (IR Blaster) versions 1.17 and earlier may allow an attacker with physical access to load unauthorized firmware onto the device. | ||||
| CVE-2024-7011 | 2026-04-15 | 6.5 Medium | ||
| Sharp NEC Projectors (NP-CB4500UL, NP-CB4500WL, NP-CB4700UL, NP-P525UL, NP-P525UL+, NP-P525ULG, NP-P525ULJL, NP-P525WL, NP-P525WL+, NP-P525WLG, NP-P525WLJL, NP-CG6500UL, NP-CG6500WL, NP-CG6700UL, NP-P605UL, NP-P605UL+, NP-P605ULG, NP-P605ULJL, NP-CA4120X, NP-CA4160W, NP-CA4160X, NP-CA4200U, NP-CA4200W, NP-CA4202W, NP-CA4260X, NP-CA4300X, NP-CA4355X, NP-CD2100U, NP-CD2120X, NP-CD2300X, NP-CR2100X, NP-CR2170W, NP-CR2170X, NP-CR2200U, NP-CR2200W, NP-CR2280X, NP-CR2310X, NP-CR2350X, NP-MC302XG, NP-MC332WG, NP-MC332WJL, NP-MC342XG, NP-MC372X, NP-MC372XG, NP-MC382W, NP-MC382WG, NP-MC422XG, NP-ME342UG, NP-ME372W, NP-ME372WG, NP-ME372WJL, NP-ME382U, NP-ME382UG, NP-ME382UJL, NP-ME402X, NP-ME402XG, NP-ME402XJL, NP-CB4500XL, NP-CG6400UL, NP-CG6400WL, NP-CG6500XL, NP-PE455UL, NP-PE455ULG, NP-PE455WL, NP-PE455WLG, NP-PE505XLG, NP-CB4600U, NP-CF6600U, NP-P474U, NP-P554U, NP-P554U+, NP-P554UG, NP-P554UJL, NP-CG6600UL, NP-P547UL, NP-P547ULG, NP-P547ULJL, NP-P607UL+, NP-P627UL, NP-P627UL+, NP-P627ULG, NP-P627ULJL, NP-PV710UL-B, NP-PV710UL-B1, NP-PV710UL-W, NP-PV710UL-W+, NP-PV710UL-W1, NP-PV730UL-BJL, NP-PV730UL-WJL, NP-PV800UL-B, NP-PV800UL-B+, NP-PV800UL-B1, NP-PV800UL-BJL, NP-PV800UL-W, NP-PV800UL-W+, NP-PV800UL-W1, NP-PV800UL-WJL, NP-CA4200X, NP-CA4265X, NP-CA4300U, NP-CA4300W, NP-CA4305X, NP-CA4400X, NP-CD2125X, NP-CD2200W, NP-CD2300U, NP-CD2310X, NP-CR2105X, NP-CR2200X, NP-CR2205W, NP-CR2300U, NP-CR2300W, NP-CR2315X, NP-CR2400X, NP-MC333XG, NP-MC363XG, NP-MC393WJL, NP-MC423W, NP-MC423WG, NP-MC453X, NP-MC453X, NP-MC453XG, NP-MC453XJL, NP-ME383WG, NP-ME403U, NP-ME403UG, NP-ME403UJL, NP-ME423W, NP-ME423WG, NP-ME423WJL, NP-ME453X, NP-ME453XG, NP-CB4400USL, NP-CB4400WSL, NP-CB4510UL, NP-CB4510WL, NP-CB4510XL, NP-CB4550USL, NP-CB6700UL, NP-CG6510UL, NP-PE456USL, NP-PE456USLG, NP-PE456USLJL, NP-PE456WSLG, NP-PE506UL, NP-PE506ULG, NP-PE506ULJL, NP-PE506WL, NP-PE506WLG, NP-PE506WLJL) allows an attacker to cause a denial-of-service (DoS) condition via SNMP service. | ||||