NVD List
| Id | Name | Description | Reject | CVSS Version | CVSS Score | Severity | Pub Date | Modified Date | Actions |
|---|---|---|---|---|---|---|---|---|---|
| 78913 | CVE-2001-1479 | smcboot in Sun SMC (Sun Management Center) 2.0 in Solaris 8 allows local users to delete arbitrary files via a symlink attack on /tmp/smc$SMC_PORT. | 2 | 2.1 | Low | 2017-07-18 | 2017-07-10 | View | |
| 80705 | CVE-2002-1754 | Buffer overflow in Novell NetWare Client 4.80 through 4.83 allows local users to cause a denial of service (crash) by using ping, traceroute, or a similar utility to force the client to resolve a large hostname. | 2 | 2.1 | Low | 2017-07-18 | 2017-07-10 | View | |
| 81473 | CVE-2017-3313 | Vulnerability in the MySQL Server component of Oracle MySQL (subcomponent: Server: MyISAM). Supported versions that are affected are 5.5.53 and earlier, 5.6.34 and earlier and 5.7.16 and earlier. Difficult to exploit vulnerability allows low privileged attacker with logon to the infrastructure where MySQL Server executes to compromise MySQL Server. Successful attacks of this vulnerability can result in unauthorized access to critical data or complete access to all MySQL Server accessible data. CVSS v3.0 Base Score 4.7 (Confidentiality impacts). | 2 | 1.5 | Low | 2017-07-18 | 2017-06-30 | View | |
| 17473 | CVE-2016-10142 | An issue was discovered in the IPv6 protocol specification, related to ICMP Packet Too Big (PTB) messages. (The scope of this CVE is all affected IPv6 implementations from all vendors.) The security implications of IP fragmentation have been discussed at length in [RFC6274] and [RFC7739]. An attacker can leverage the generation of IPv6 atomic fragments to trigger the use of fragmentation in an arbitrary IPv6 flow (in scenarios in which actual fragmentation of packets is not needed) and can subsequently perform any type of fragmentation-based attack against legacy IPv6 nodes that do not implement [RFC6946]. That is, employing fragmentation where not actually needed allows for fragmentation-based attack vectors to be employed, unnecessarily. We note that, unfortunately, even nodes that already implement [RFC6946] can be subject to DoS attacks as a result of the generation of IPv6 atomic fragments. Let us assume that Host A is communicating with Host B and that, as a result of the widespread dropping of IPv6 packets that contain extension headers (including fragmentation) [RFC7872], some intermediate node filters fragments between Host B and Host A. If an attacker sends a forged ICMPv6 PTB error message to Host B, reporting an MTU smaller than 1280, this will trigger the generation of IPv6 atomic fragments from that moment on (as required by [RFC2460]). When Host B starts sending IPv6 atomic fragments (in response to the received ICMPv6 PTB error message), these packets will be dropped, since we previously noted that IPv6 packets with extension headers were being dropped between Host B and Host A. Thus, this situation will result in a DoS scenario. Another possible scenario is that in which two BGP peers are employing IPv6 transport and they implement Access Control Lists (ACLs) to drop IPv6 fragments (to avoid control-plane attacks). If the aforementioned BGP peers drop IPv6 fragments but still honor received ICMPv6 PTB error messages, an attacker could easily attack the corresponding peering session by simply sending an ICMPv6 PTB message with a reported MTU smaller than 1280 bytes. Once the attack packet has been sent, the aforementioned routers will themselves be the ones dropping their own traffic. | 2 | 5 | Medium | 2017-07-18 | 2017-07-10 | View | |
| 83009 | CVE-2017-0102 | Microsoft Windows Vista SP2; Windows Server 2008 SP2 and R2; Windows 7 SP1; Windows 8.1, Windows Server 2012 Gold and R2, Windows RT 8.1; Windows 10 Gold, 1511, and 1607; and Windows Server 2016 let attackers with access to targets systems gain privileges when Windows fails to properly validate buffer lengths, aka Windows Elevation of Privilege Vulnerability. | 2 | 4.6 | Medium | 2017-07-18 | 2017-07-11 | View |
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