| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| Unspecified vulnerability in the Net Foundation Layer component of Oracle Database server 8.1.7.4, 9.0.1.5, 9.0.1.5 FIPS, 9.2.0.6, and 10.1.0.4 has unspecified impact and attack vectors, as identified by Oracle Vuln# DB08. |
| Unspecified vulnerability in the Query Optimizer component of Oracle Database server 9.0.1.5, 9.2.0.7, and 10.1.0.5 has unspecified impact and attack vectors, as identified by Oracle Vuln# DB19. |
| Multiple unspecified vulnerabilities in Oracle Application Server 6.0.8.26(PS17) and E-Business Suite and Applications 11.5.10 have unspecified impact and attack vectors, as identified by Oracle Vuln# (1) REP05 and (2) REP06 in the Oracle Reports Developer component. NOTE: Oracle has not disputed reliable researcher claims that REP05 is the same as CVE-2005-2378 and REP06 is the same as CVE-2005-2371, both of which involve directory traversal. |
| The default configuration of the PL/SQL Gateway web administration interface in Oracle 9i Application Server 1.0.2.x uses null authentication, which allows remote attackers to gain privileges and modify DAD settings. |
| Unspecified vulnerability in PeopleSoft Enterprise Portal for Oracle PeopleSoft Enterprise Portal 8.8 with Enforcer Portal Pack Bundle #10 and 8.9 Bundle #3 has unknown impact and attack vectors, aka Oracle Vuln# PSE02. |
| Unspecified vulnerability in PeopleSoft Enterprise Portal for Oracle PeopleSoft Enterprise Portal 8.4 Bundle #16, 8.8 Bundle #10, and 8.9 Bundle #3 has unknown impact and attack vectors, aka Oracle Vuln# PSE01. |
| MySQL 3.20 through 4.1.0 uses a weak algorithm for hashed passwords, which makes it easier for attackers to decrypt the password via brute force methods. |
| Buffer overflow in Oracle 8.1.5 applications such as names, namesctl, onrsd, osslogin, tnslsnr, tnsping, trcasst, and trcroute possibly allow local users to gain privileges via a long ORACLE_HOME environmental variable. |
| Unspecified vulnerability in OC4J for Oracle Application Server 10.1.2.0.2 and 10.1.2.1 has unknown impact and attack vectors, aka Oracle Vuln# AS10. |
| dbsnmp in Oracle 8.1.6 and 8.1.7 uses the ORACLE_HOME environment variable to find and execute the dbsnmp program, which allows local users to execute arbitrary programs by pointing the ORACLE_HOME to an alternate directory that contains a malicious version of dbsnmp. |
| Unspecified vulnerability in OC4J for Oracle Application Server 9.0.2.3 has unknown impact and attack vectors, aka Oracle Vuln# AS01. |
| Heap buffer overflow in the TFTP protocol handler in cURL 7.19.4 to 7.65.3. |
| A heap buffer overflow in the TFTP receiving code allows for DoS or arbitrary code execution in libcurl versions 7.19.4 through 7.64.1. |
| curl version curl 7.20.0 to and including curl 7.59.0 contains a CWE-126: Buffer Over-read vulnerability in denial of service that can result in curl can be tricked into reading data beyond the end of a heap based buffer used to store downloaded RTSP content.. This vulnerability appears to have been fixed in curl < 7.20.0 and curl >= 7.60.0. |
| libcurl versions from 7.36.0 to before 7.64.0 is vulnerable to a heap buffer out-of-bounds read. The function handling incoming NTLM type-2 messages (`lib/vauth/ntlm.c:ntlm_decode_type2_target`) does not validate incoming data correctly and is subject to an integer overflow vulnerability. Using that overflow, a malicious or broken NTLM server could trick libcurl to accept a bad length + offset combination that would lead to a buffer read out-of-bounds. |
| libcurl versions from 7.36.0 to before 7.64.0 are vulnerable to a stack-based buffer overflow. The function creating an outgoing NTLM type-3 header (`lib/vauth/ntlm.c:Curl_auth_create_ntlm_type3_message()`), generates the request HTTP header contents based on previously received data. The check that exists to prevent the local buffer from getting overflowed is implemented wrongly (using unsigned math) and as such it does not prevent the overflow from happening. This output data can grow larger than the local buffer if very large 'nt response' data is extracted from a previous NTLMv2 header provided by the malicious or broken HTTP server. Such a 'large value' needs to be around 1000 bytes or more. The actual payload data copied to the target buffer comes from the NTLMv2 type-2 response header. |
| libcurl versions from 7.34.0 to before 7.64.0 are vulnerable to a heap out-of-bounds read in the code handling the end-of-response for SMTP. If the buffer passed to `smtp_endofresp()` isn't NUL terminated and contains no character ending the parsed number, and `len` is set to 5, then the `strtol()` call reads beyond the allocated buffer. The read contents will not be returned to the caller. |
| The Restaurant Menu – Food Ordering System – Table Reservation plugin for WordPress is vulnerable to Stored Cross-Site Scripting via the plugin's shortcode(s) in all versions up to, and including, 2.4.0 due to insufficient input sanitization and output escaping on user supplied attributes. This makes it possible for authenticated attackers with contributor-level and above permissions to inject arbitrary web scripts in pages that will execute whenever a user accesses an injected page. |
| Openindiana, kernel SunOS 5.11 has a denial of service vulnerability. For the processing of TCP packets with RST or SYN flag set, Openindiana has a wide acceptable range of sequence numbers. It does not require the sequence number to exactly match the next expected sequence value, just to be within the current receive window, which violates RFC5961. This flaw allows attackers to send multiple random TCP RST/SYN packets to hit the acceptable range of sequence numbers, thereby interrupting normal connections and causing a denial of service attack. |
| ETERNUS SF provided by Fsas Technologies Inc. contains an incorrect default permissions vulnerability. A low-privileged user with access to the management server may obtain database credentials, potentially allowing execution of OS commands with administrator privileges. |
