| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| Multiple TCP implementations with Protection Against Wrapped Sequence Numbers (PAWS) with the timestamps option enabled allow remote attackers to cause a denial of service (connection loss) via a spoofed packet with a large timer value, which causes the host to discard later packets because they appear to be too old. |
| Internet Key Exchange (IKE) version 1 protocol, as implemented on Cisco IOS, VPN 3000 Concentrators, and PIX firewalls, allows remote attackers to cause a denial of service (resource exhaustion) via a flood of IKE Phase-1 packets that exceed the session expiration rate. NOTE: it has been argued that this is due to a design weakness of the IKE version 1 protocol, in which case other vendors and implementations would also be affected. |
| Buffer overflow in the JPEG (JPG) parsing engine in the Microsoft Graphic Device Interface Plus (GDI+) component, GDIPlus.dll, allows remote attackers to execute arbitrary code via a JPEG image with a small JPEG COM field length that is normalized to a large integer length before a memory copy operation. |
| The original design of TCP does not check that the TCP sequence number in an ICMP error message is within the range of sequence numbers for data that has been sent but not acknowledged (aka "TCP sequence number checking"), which makes it easier for attackers to forge ICMP error messages for specific TCP connections and cause a denial of service, as demonstrated using (1) blind connection-reset attacks with forged "Destination Unreachable" messages, (2) blind throughput-reduction attacks with forged "Source Quench" messages, or (3) blind throughput-reduction attacks with forged ICMP messages that cause the Path MTU to be reduced. NOTE: CVE-2004-0790, CVE-2004-0791, and CVE-2004-1060 have been SPLIT based on different attacks; CVE-2005-0065, CVE-2005-0066, CVE-2005-0067, and CVE-2005-0068 are related identifiers that are SPLIT based on the underlying vulnerability. While CVE normally SPLITs based on vulnerability, the attack-based identifiers exist due to the variety and number of affected implementations and solutions that address the attacks instead of the underlying vulnerabilities. |
| Microsoft Internet Explorer 5.01, 5.5, and 6 allows remote attackers to cause a denial of service (application crash) and possibly execute arbitrary code via a web page with embedded CLSIDs that reference certain COM objects that are not intended for use within Internet Explorer, as originally demonstrated using the (1) DDS Library Shape Control (Msdds.dll) COM object, and other objects including (2) Blnmgrps.dll, (3) Ciodm.dll, (4) Comsvcs.dll, (5) Danim.dll, (6) Htmlmarq.ocx, (7) Mdt2dd.dll (as demonstrated using a heap corruption attack with uninitialized memory), (8) Mdt2qd.dll, (9) Mpg4ds32.ax, (10) Msadds32.ax, (11) Msb1esen.dll, (12) Msb1fren.dll, (13) Msb1geen.dll, (14) Msdtctm.dll, (15) Mshtml.dll, (16) Msoeacct.dll, (17) Msosvfbr.dll, (18) Mswcrun.dll, (19) Netshell.dll, (20) Ole2disp.dll, (21) Outllib.dll, (22) Psisdecd.dll, (23) Qdvd.dll, (24) Repodbc.dll, (25) Shdocvw.dll, (26) Shell32.dll, (27) Soa.dll, (28) Srchui.dll, (29) Stobject.dll, (30) Vdt70.dll, (31) Vmhelper.dll, and (32) Wbemads.dll, aka a variant of the "COM Object Instantiation Memory Corruption vulnerability." |
| Unknown vulnerability in Computer Associates (CA) Message Queuing (CAM / CAFT) 1.05, 1.07 before Build 220_13, and 1.11 before Build 29_13 allows attackers to cause a denial of service via unknown vectors, aka the "CAM TCP port vulnerability." |
| The firmware for Intelligent Platform Management Interface (IPMI) 1.5-based Intel Server Boards and Platforms is shipped with an Authentication Type Enables parameter set to an invalid None parameter, which allows remote attackers to obtain sensitive information when LAN management functionality is enabled. |
| Recourse ManTrap 1.6 modifies the kernel so that ".." does not appear in the /proc listing, which allows attackers to determine that they are in a honeypot system. |
| RHDaemon in RobinHood 1.1 web server in BeOS r5 pro and earlier allows remote attackers to cause a denial of service via long HTTP request. |
| NAI Sniffer Agent uses base64 encoding for authentication, which allows attackers to sniff the network and easily decrypt usernames and passwords. |
| NAI Sniffer Agent allows remote attackers to gain privileges on the agent by sniffing the initial UDP authentication packets and spoofing commands. |
| NAI Sniffer Agent allows remote attackers to cause a denial of service (crash) by sending a large number of login requests. |
| Recourse ManTrap 1.6 generates an error when an attacker cd's to /proc/self/cwd and executes the pwd command, which allows attackers to determine that they are in a honeypot system. |
| StarOffice 5.2 follows symlinks and sets world-readable permissions for the /tmp/soffice.tmp directory, which allows a local user to read files of the user who is using StarOffice. |
| The installation of AdCycle banner management system leaves the build.cgi program in a web-accessible directory, which allows remote attackers to execute the program and view passwords or delete databases. |
| Recourse ManTrap 1.6 hides the first 4 processes that run on a Solaris system, which allows attackers to determine that they are in a honeypot system. |
| Buffer overflow in NAI Sniffer Agent allows remote attackers to execute arbitrary commands via a long SNMP community name. |
| Balabit syslog-ng allows remote attackers to cause a denial of service (application crash) via a malformed log message that does not have a closing > in the priority specifier. |
| xfsmd for IRIX 6.5 through 6.5.16 uses weak authentication, which allows remote attackers to call dangerous RPC functions, including those that can mount or unmount xfs file systems, to gain root privileges. |
| Recourse ManTrap 1.6 allows attackers who have gained root access to use utilities such as crash or fsdb to read /dev/mem and raw disk devices to identify ManTrap processes or modify arbitrary data files. |
