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Search Results (16018 CVEs found)

CVE Vendors Products Updated CVSS v3.1
CVE-2017-4941 2 Apple, Vmware 4 Mac Os X, Esxi, Fusion and 1 more 2025-04-20 8.8 High
VMware ESXi (6.0 before ESXi600-201711101-SG, 5.5 ESXi550-201709101-SG), Workstation (12.x before 12.5.8), and Fusion (8.x before 8.5.9) contain a vulnerability that could allow an authenticated VNC session to cause a stack overflow via a specific set of VNC packets. Successful exploitation of this issue could result in remote code execution in a virtual machine via the authenticated VNC session. Note: In order for exploitation to be possible in ESXi, VNC must be manually enabled in a virtual machine's .vmx configuration file. In addition, ESXi must be configured to allow VNC traffic through the built-in firewall.
CVE-2017-4971 1 Pivotal 1 Spring Web Flow 2025-04-20 N/A
An issue was discovered in Pivotal Spring Web Flow through 2.4.4. Applications that do not change the value of the MvcViewFactoryCreator useSpringBinding property which is disabled by default (i.e., set to 'false') can be vulnerable to malicious EL expressions in view states that process form submissions but do not have a sub-element to declare explicit data binding property mappings.
CVE-2017-5009 2 Google, Redhat 2 Chrome, Rhel Extras 2025-04-20 N/A
WebRTC in Google Chrome prior to 56.0.2924.76 for Linux, Windows and Mac, and 56.0.2924.87 for Android, failed to perform proper bounds checking, which allowed a remote attacker to potentially exploit heap corruption via a crafted HTML page.
CVE-2017-5012 2 Google, Redhat 2 Chrome, Rhel Extras 2025-04-20 N/A
A heap buffer overflow in V8 in Google Chrome prior to 56.0.2924.76 for Linux, Windows and Mac, and 56.0.2924.87 for Android, allowed a remote attacker to potentially exploit heap corruption via a crafted HTML page.
CVE-2017-5014 2 Google, Redhat 2 Chrome, Rhel Extras 2025-04-20 N/A
Heap buffer overflow during image processing in Skia in Google Chrome prior to 56.0.2924.76 for Linux, Windows and Mac, and 56.0.2924.87 for Android, allowed a remote attacker to perform an out of bounds memory read via a crafted HTML page.
CVE-2017-5024 2 Google, Redhat 2 Chrome, Rhel Extras 2025-04-20 N/A
FFmpeg in Google Chrome prior to 56.0.2924.76 for Linux, Windows and Mac, failed to perform proper bounds checking, which allowed a remote attacker to potentially exploit heap corruption via a crafted video file.
CVE-2017-5025 2 Google, Redhat 2 Chrome, Rhel Extras 2025-04-20 N/A
FFmpeg in Google Chrome prior to 56.0.2924.76 for Linux, Windows and Mac, failed to perform proper bounds checking, which allowed a remote attacker to potentially exploit heap corruption via a crafted video file.
CVE-2017-5052 5 Apple, Google, Linux and 2 more 9 Macos, Android, Chrome and 6 more 2025-04-20 8.8 High
An incorrect assumption about block structure in Blink in Google Chrome prior to 57.0.2987.133 for Mac, Windows, and Linux, and 57.0.2987.132 for Android, allowed a remote attacker to potentially exploit memory corruption via a crafted HTML page that triggers improper casting.
CVE-2017-5064 3 Google, Microsoft, Redhat 3 Chrome, Windows, Rhel Extras 2025-04-20 N/A
Incorrect handling of DOM changes in Blink in Google Chrome prior to 58.0.3029.81 for Windows allowed a remote attacker to potentially exploit heap corruption via a crafted HTML page.
CVE-2017-9219 1 Audiocoding 1 Freeware Advanced Audio Decoder 2 2025-04-20 N/A
The mp4ff_read_stsc function in common/mp4ff/mp4atom.c in Freeware Advanced Audio Decoder 2 (FAAD2) 2.7 allows remote attackers to cause a denial of service (memory allocation error and application crash) via a crafted mp4 file.
CVE-2017-8674 1 Microsoft 2 Edge, Windows 10 2025-04-20 N/A
Microsoft Edge in Microsoft Windows 10 1703 allows an attacker to execute arbitrary code in the context of the current user due to the way that Microsoft browser JavaScript engines render content when handling objects in memory, aka "Scripting Engine Memory Corruption Vulnerability". This CVE ID is unique from CVE-2017-8634, CVE-2017-8635, CVE-2017-8636, CVE-2017-8638, CVE-2017-8639, CVE-2017-8640, CVE-2017-8641, CVE-2017-8645, CVE-2017-8646, CVE-2017-8647, CVE-2017-8655, CVE-2017-8656, CVE-2017-8657, CVE-2017-8670, CVE-2017-8671, and CVE-2017-8672.
CVE-2017-8672 1 Microsoft 3 Edge, Windows 10, Windows Server 2016 2025-04-20 N/A
Microsoft Edge in Microsoft Windows 10 1511, 1607, 1703, and Windows Server 2016 allows an attacker to execute arbitrary code in the context of the current user due to the way that Microsoft browser JavaScript engines render content when handling objects in memory, aka "Scripting Engine Memory Corruption Vulnerability". This CVE ID is unique from CVE-2017-8634, CVE-2017-8635, CVE-2017-8636, CVE-2017-8638, CVE-2017-8639, CVE-2017-8640, CVE-2017-8641, CVE-2017-8645, CVE-2017-8646, CVE-2017-8647, CVE-2017-8655, CVE-2017-8656, CVE-2017-8657, CVE-2017-8670, CVE-2017-8671, and CVE-2017-8674.
CVE-2017-8671 1 Microsoft 3 Edge, Windows 10, Windows Server 2016 2025-04-20 N/A
Microsoft Edge in Microsoft Windows 10 1511, 1607, 1703, and Windows Server 2016 allows an attacker to execute arbitrary code in the context of the current user due to the way that Microsoft browser JavaScript engines render content when handling objects in memory, aka "Scripting Engine Memory Corruption Vulnerability". This CVE ID is unique from CVE-2017-8634, CVE-2017-8635, CVE-2017-8636, CVE-2017-8638, CVE-2017-8639, CVE-2017-8640, CVE-2017-8641, CVE-2017-8645, CVE-2017-8646, CVE-2017-8647, CVE-2017-8655, CVE-2017-8656, CVE-2017-8657, CVE-2017-8670, CVE-2017-8672, and CVE-2017-8674.
CVE-2017-8670 1 Microsoft 3 Edge, Windows 10, Windows Server 2016 2025-04-20 N/A
Microsoft Edge in Microsoft Windows 10 1607, 1703, and Windows Server 2016 allows an attacker to execute arbitrary code in the context of the current user due to the way that Microsoft browser JavaScript engines render content when handling objects in memory, aka "Scripting Engine Memory Corruption Vulnerability". This CVE ID is unique from CVE-2017-8634, CVE-2017-8635, CVE-2017-8636, CVE-2017-8638, CVE-2017-8639, CVE-2017-8640, CVE-2017-8641, CVE-2017-8645, CVE-2017-8646, CVE-2017-8647, CVE-2017-8655, CVE-2017-8656, CVE-2017-8657, CVE-2017-8671, CVE-2017-8672, and CVE-2017-8674.
CVE-2017-5482 2 Redhat, Tcpdump 2 Enterprise Linux, Tcpdump 2025-04-20 N/A
The Q.933 parser in tcpdump before 4.9.0 has a buffer overflow in print-fr.c:q933_print(), a different vulnerability than CVE-2016-8575.
CVE-2017-8669 1 Microsoft 7 Edge, Internet Explorer, Windows 10 and 4 more 2025-04-20 N/A
Microsoft browsers in Microsoft Windows 7 SP1, Windows Server 2008 R2 SP1, Windows 8.1 and Windows RT 8.1, Windows Server 2012 R2, Windows 10 Gold, 1511, 1607, 1703, and Windows Server 2016 allow an attacker to execute arbitrary code in the context of the current user due to Microsoft browsers improperly handling objects in memory while rendering content, aka "Microsoft Browser Memory Corruption Vulnerability". This CVE ID is unique from CVE-2017-8653.
CVE-2017-5484 2 Redhat, Tcpdump 2 Enterprise Linux, Tcpdump 2025-04-20 N/A
The ATM parser in tcpdump before 4.9.0 has a buffer overflow in print-atm.c:sig_print().
CVE-2017-5485 2 Redhat, Tcpdump 2 Enterprise Linux, Tcpdump 2025-04-20 N/A
The ISO CLNS parser in tcpdump before 4.9.0 has a buffer overflow in addrtoname.c:lookup_nsap().
CVE-2017-5486 2 Redhat, Tcpdump 2 Enterprise Linux, Tcpdump 2025-04-20 N/A
The ISO CLNS parser in tcpdump before 4.9.0 has a buffer overflow in print-isoclns.c:clnp_print().
CVE-2017-5495 2 Quagga, Redhat 2 Quagga, Enterprise Linux 2025-04-20 N/A
All versions of Quagga, 0.93 through 1.1.0, are vulnerable to an unbounded memory allocation in the telnet 'vty' CLI, leading to a Denial-of-Service of Quagga daemons, or even the entire host. When Quagga daemons are configured with their telnet CLI enabled, anyone who can connect to the TCP ports can trigger this vulnerability, prior to authentication. Most distributions restrict the Quagga telnet interface to local access only by default. The Quagga telnet interface 'vty' input buffer grows automatically, without bound, so long as a newline is not entered. This allows an attacker to cause the Quagga daemon to allocate unbounded memory by sending very long strings without a newline. Eventually the daemon is terminated by the system, or the system itself runs out of memory. This is fixed in Quagga 1.1.1 and Free Range Routing (FRR) Protocol Suite 2017-01-10.