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Search Results (324770 CVEs found)
| CVE | Vendors | Products | Updated | CVSS v3.1 |
|---|---|---|---|---|
| CVE-2023-37516 | 1 Hcltech | 1 Hcl Leap | 2025-11-17 | 3.2 Low |
| Missing "no cache" headers in HCL Leap permits user directory information to be cached. | ||||
| CVE-2022-44760 | 1 Hcltech | 1 Hcl Leap | 2025-11-17 | 4.6 Medium |
| Unsafe default file type filter policy in HCL Leap allows execution of unsafe JavaScript in deployed applications. | ||||
| CVE-2024-30147 | 1 Hcltech | 1 Hcl Leap | 2025-11-17 | 6.5 Medium |
| Multiple vectors in HCL Leap allow client-side script injection in the authoring environment and deployed applications. | ||||
| CVE-2024-30114 | 1 Hcltech | 1 Hcl Leap | 2025-11-17 | 3.7 Low |
| Insufficient sanitization in HCL Leap allows client-side script injection in the authoring environment. | ||||
| CVE-2024-30113 | 1 Hcltech | 1 Hcl Leap | 2025-11-17 | 6.3 Medium |
| Insufficient sanitization policy in HCL Leap allows client-side script injection in the deployed application through the HTML widget. | ||||
| CVE-2023-45720 | 1 Hcltech | 1 Hcl Leap | 2025-11-17 | 5.3 Medium |
| Insufficient default configuration in HCL Leap allows anonymous access to directory information. | ||||
| CVE-2023-37534 | 1 Hcltech | 1 Hcl Leap | 2025-11-17 | 7.1 High |
| Insufficient URI protocol whitelist in HCL Leap allows script injection through query parameters. | ||||
| CVE-2024-30148 | 1 Hcltech | 1 Hcl Leap | 2025-11-17 | 4.1 Medium |
| Improper access control of endpoint in HCL Leap allows certain admin users to import applications from the server's filesystem. | ||||
| CVE-2012-0754 | 7 Adobe, Apple, Google and 4 more | 7 Flash Player, Mac Os X, Android and 4 more | 2025-11-17 | 7.8 High |
| Adobe Flash Player before 10.3.183.15 and 11.x before 11.1.102.62 on Windows, Mac OS X, Linux, and Solaris; before 11.1.111.6 on Android 2.x and 3.x; and before 11.1.115.6 on Android 4.x allows attackers to execute arbitrary code or cause a denial of service (memory corruption) via unspecified vectors. | ||||
| CVE-2016-4117 | 4 Adobe, Opensuse, Redhat and 1 more | 10 Flash Player, Evergreen, Opensuse and 7 more | 2025-11-17 | 7.8 High |
| Adobe Flash Player 21.0.0.226 and earlier allows remote attackers to execute arbitrary code via unspecified vectors, as exploited in the wild in May 2016. | ||||
| CVE-2015-3043 | 7 Adobe, Apple, Linux and 4 more | 15 Flash Player, Mac Os X, Linux Kernel and 12 more | 2025-11-17 | 7.8 High |
| Adobe Flash Player before 13.0.0.281 and 14.x through 17.x before 17.0.0.169 on Windows and OS X and before 11.2.202.457 on Linux allows attackers to execute arbitrary code or cause a denial of service (memory corruption) via unspecified vectors, as exploited in the wild in April 2015, a different vulnerability than CVE-2015-0347, CVE-2015-0350, CVE-2015-0352, CVE-2015-0353, CVE-2015-0354, CVE-2015-0355, CVE-2015-0360, CVE-2015-3038, CVE-2015-3041, and CVE-2015-3042. | ||||
| CVE-2015-0313 | 6 Adobe, Apple, Linux and 3 more | 16 Flash Player, Mac Os X, Linux Kernel and 13 more | 2025-11-17 | 7.8 High |
| Use-after-free vulnerability in Adobe Flash Player before 13.0.0.269 and 14.x through 16.x before 16.0.0.305 on Windows and OS X and before 11.2.202.442 on Linux allows remote attackers to execute arbitrary code via unspecified vectors, as exploited in the wild in February 2015, a different vulnerability than CVE-2015-0315, CVE-2015-0320, and CVE-2015-0322. | ||||
| CVE-2022-50166 | 1 Linux | 1 Linux Kernel | 2025-11-17 | 5.5 Medium |
| In the Linux kernel, the following vulnerability has been resolved: Bluetooth: When HCI work queue is drained, only queue chained work The HCI command, event, and data packet processing workqueue is drained to avoid deadlock in commit 76727c02c1e1 ("Bluetooth: Call drain_workqueue() before resetting state"). There is another delayed work, which will queue command to this drained workqueue. Which results in the following error report: Bluetooth: hci2: command 0x040f tx timeout WARNING: CPU: 1 PID: 18374 at kernel/workqueue.c:1438 __queue_work+0xdad/0x1140 Workqueue: events hci_cmd_timeout RIP: 0010:__queue_work+0xdad/0x1140 RSP: 0000:ffffc90002cffc60 EFLAGS: 00010093 RAX: 0000000000000000 RBX: ffff8880b9d3ec00 RCX: 0000000000000000 RDX: ffff888024ba0000 RSI: ffffffff814e048d RDI: ffff8880b9d3ec08 RBP: 0000000000000008 R08: 0000000000000000 R09: 00000000b9d39700 R10: ffffffff814f73c6 R11: 0000000000000000 R12: ffff88807cce4c60 R13: 0000000000000000 R14: ffff8880796d8800 R15: ffff8880796d8800 FS: 0000000000000000(0000) GS:ffff8880b9d00000(0000) knlGS:0000000000000000 CS: 0010 DS: 0000 ES: 0000 CR0: 0000000080050033 CR2: 000000c0174b4000 CR3: 000000007cae9000 CR4: 00000000003506e0 DR0: 0000000000000000 DR1: 0000000000000000 DR2: 0000000000000000 DR3: 0000000000000000 DR6: 00000000fffe0ff0 DR7: 0000000000000400 Call Trace: <TASK> ? queue_work_on+0xcb/0x110 ? lockdep_hardirqs_off+0x90/0xd0 queue_work_on+0xee/0x110 process_one_work+0x996/0x1610 ? pwq_dec_nr_in_flight+0x2a0/0x2a0 ? rwlock_bug.part.0+0x90/0x90 ? _raw_spin_lock_irq+0x41/0x50 worker_thread+0x665/0x1080 ? process_one_work+0x1610/0x1610 kthread+0x2e9/0x3a0 ? kthread_complete_and_exit+0x40/0x40 ret_from_fork+0x1f/0x30 </TASK> To fix this, we can add a new HCI_DRAIN_WQ flag, and don't queue the timeout workqueue while command workqueue is draining. | ||||
| CVE-2022-50110 | 1 Linux | 1 Linux Kernel | 2025-11-17 | 5.5 Medium |
| In the Linux kernel, the following vulnerability has been resolved: watchdog: sp5100_tco: Fix a memory leak of EFCH MMIO resource Unlike release_mem_region(), a call to release_resource() does not free the resource, so it has to be freed explicitly to avoid a memory leak. | ||||
| CVE-2022-50078 | 1 Linux | 1 Linux Kernel | 2025-11-17 | 5.5 Medium |
| In the Linux kernel, the following vulnerability has been resolved: tracing/eprobes: Do not allow eprobes to use $stack, or % for regs While playing with event probes (eprobes), I tried to see what would happen if I attempted to retrieve the instruction pointer (%rip) knowing that event probes do not use pt_regs. The result was: BUG: kernel NULL pointer dereference, address: 0000000000000024 #PF: supervisor read access in kernel mode #PF: error_code(0x0000) - not-present page PGD 0 P4D 0 Oops: 0000 [#1] PREEMPT SMP PTI CPU: 1 PID: 1847 Comm: trace-cmd Not tainted 5.19.0-rc5-test+ #309 Hardware name: Hewlett-Packard HP Compaq Pro 6300 SFF/339A, BIOS K01 v03.03 07/14/2016 RIP: 0010:get_event_field.isra.0+0x0/0x50 Code: ff 48 c7 c7 c0 8f 74 a1 e8 3d 8b f5 ff e8 88 09 f6 ff 4c 89 e7 e8 50 6a 13 00 48 89 ef 5b 5d 41 5c 41 5d e9 42 6a 13 00 66 90 <48> 63 47 24 8b 57 2c 48 01 c6 8b 47 28 83 f8 02 74 0e 83 f8 04 74 RSP: 0018:ffff916c394bbaf0 EFLAGS: 00010086 RAX: ffff916c854041d8 RBX: ffff916c8d9fbf50 RCX: ffff916c255d2000 RDX: 0000000000000000 RSI: ffff916c255d2008 RDI: 0000000000000000 RBP: 0000000000000000 R08: ffff916c3a2a0c08 R09: ffff916c394bbda8 R10: 0000000000000000 R11: 0000000000000000 R12: ffff916c854041d8 R13: ffff916c854041b0 R14: 0000000000000000 R15: 0000000000000000 FS: 0000000000000000(0000) GS:ffff916c9ea40000(0000) knlGS:0000000000000000 CS: 0010 DS: 0000 ES: 0000 CR0: 0000000080050033 CR2: 0000000000000024 CR3: 000000011b60a002 CR4: 00000000001706e0 Call Trace: <TASK> get_eprobe_size+0xb4/0x640 ? __mod_node_page_state+0x72/0xc0 __eprobe_trace_func+0x59/0x1a0 ? __mod_lruvec_page_state+0xaa/0x1b0 ? page_remove_file_rmap+0x14/0x230 ? page_remove_rmap+0xda/0x170 event_triggers_call+0x52/0xe0 trace_event_buffer_commit+0x18f/0x240 trace_event_raw_event_sched_wakeup_template+0x7a/0xb0 try_to_wake_up+0x260/0x4c0 __wake_up_common+0x80/0x180 __wake_up_common_lock+0x7c/0xc0 do_notify_parent+0x1c9/0x2a0 exit_notify+0x1a9/0x220 do_exit+0x2ba/0x450 do_group_exit+0x2d/0x90 __x64_sys_exit_group+0x14/0x20 do_syscall_64+0x3b/0x90 entry_SYSCALL_64_after_hwframe+0x46/0xb0 Obviously this is not the desired result. Move the testing for TPARG_FL_TPOINT which is only used for event probes to the top of the "$" variable check, as all the other variables are not used for event probes. Also add a check in the register parsing "%" to fail if an event probe is used. | ||||
| CVE-2025-37891 | 1 Linux | 1 Linux Kernel | 2025-11-17 | 7.8 High |
| In the Linux kernel, the following vulnerability has been resolved: ALSA: ump: Fix buffer overflow at UMP SysEx message conversion The conversion function from MIDI 1.0 to UMP packet contains an internal buffer to keep the incoming MIDI bytes, and its size is 4, as it was supposed to be the max size for a MIDI1 UMP packet data. However, the implementation overlooked that SysEx is handled in a different format, and it can be up to 6 bytes, as found in do_convert_to_ump(). It leads eventually to a buffer overflow, and may corrupt the memory when a longer SysEx message is received. The fix is simply to extend the buffer size to 6 to fit with the SysEx UMP message. | ||||
| CVE-2025-57685 | 1 B-link | 7 Bl-ac1900, Bl-ac2100 Az3, Bl-wr9000 and 4 more | 2025-11-17 | 8.8 High |
| The LB-Link routers, including the BL-AC2100_AZ3 V1.0.4, BL-WR4000 v2.5.0, BL-WR9000_AE4 v2.4.9, BL-AC1900_AZ2 v1.0.2, BL-X26_AC8 v1.2.8, and BL-LTE300_DA4 V1.2.3 models, are vulnerable to unauthorized command injection. Attackers can exploit this vulnerability by accessing the /goform/set_serial_cfg interface to gain the highest level of device privileges without authorization, enabling them to remotely execute malicious commands. | ||||
| CVE-2025-55886 | 1 Ard | 1 Ard | 2025-11-17 | 6.5 Medium |
| An Insecure Direct Object Reference (IDOR) vulnerability was discovered in ARD. The flaw exists in the `fe_uid` parameter of the payment history API endpoint. An authenticated attacker can manipulate this parameter to access the payment history of other users without authorization. | ||||
| CVE-2025-0583 | 1 Aenrich | 1 A\+hrd | 2025-11-17 | 6.1 Medium |
| The a+HRD from aEnrich Technology has a Reflected Cross-site Scripting vulnerability, allowing unauthenticated remote attackers to execute arbitrary JavaScript codes in user's browser through phishing attacks. | ||||
| CVE-2025-0584 | 1 Aenrich | 1 A\+hrd | 2025-11-17 | 5.3 Medium |
| The a+HRD from aEnrich Technology has a Server-side Request Forgery, allowing unauthenticated remote attackers to exploit this vulnerability to probe internal network. | ||||