| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| A user can tell curl >= 7.20.0 and <= 7.78.0 to require a successful upgrade to TLS when speaking to an IMAP, POP3 or FTP server (`--ssl-reqd` on the command line or`CURLOPT_USE_SSL` set to `CURLUSESSL_CONTROL` or `CURLUSESSL_ALL` withlibcurl). This requirement could be bypassed if the server would return a properly crafted but perfectly legitimate response.This flaw would then make curl silently continue its operations **withoutTLS** contrary to the instructions and expectations, exposing possibly sensitive data in clear text over the network. |
| When curl is instructed to download content using the metalink feature, thecontents is verified against a hash provided in the metalink XML file.The metalink XML file points out to the client how to get the same contentfrom a set of different URLs, potentially hosted by different servers and theclient can then download the file from one or several of them. In a serial orparallel manner.If one of the servers hosting the contents has been breached and the contentsof the specific file on that server is replaced with a modified payload, curlshould detect this when the hash of the file mismatches after a completeddownload. It should remove the contents and instead try getting the contentsfrom another URL. This is not done, and instead such a hash mismatch is onlymentioned in text and the potentially malicious content is kept in the file ondisk. |
| curl 7.21.0 to and including 7.73.0 is vulnerable to uncontrolled recursion due to a stack overflow issue in FTP wildcard match parsing. |
| A malicious server can use the FTP PASV response to trick curl 7.73.0 and earlier into connecting back to a given IP address and port, and this way potentially make curl extract information about services that are otherwise private and not disclosed, for example doing port scanning and service banner extractions. |
| The Raccoon attack exploits a flaw in the TLS specification which can lead to an attacker being able to compute the pre-master secret in connections which have used a Diffie-Hellman (DH) based ciphersuite. In such a case this would result in the attacker being able to eavesdrop on all encrypted communications sent over that TLS connection. The attack can only be exploited if an implementation re-uses a DH secret across multiple TLS connections. Note that this issue only impacts DH ciphersuites and not ECDH ciphersuites. This issue affects OpenSSL 1.0.2 which is out of support and no longer receiving public updates. OpenSSL 1.1.1 is not vulnerable to this issue. Fixed in OpenSSL 1.0.2w (Affected 1.0.2-1.0.2v). |
| Double-free vulnerability in the FTP-kerberos code in cURL 7.52.0 to 7.65.3. |
| curl 7.7 through 7.76.1 suffers from an information disclosure when the `-t` command line option, known as `CURLOPT_TELNETOPTIONS` in libcurl, is used to send variable=content pairs to TELNET servers. Due to a flaw in the option parser for sending NEW_ENV variables, libcurl could be made to pass on uninitialized data from a stack based buffer to the server, resulting in potentially revealing sensitive internal information to the server using a clear-text network protocol. |
| Oracle 9i Application Server (Oracle9iAS) 9.0.2 allows remote attackers to poison the web cache, bypass web application firewall protection, and conduct XSS attacks via an HTTP request with both a "Transfer-Encoding: chunked" header and a Content-Length header, which causes Application Server to incorrectly handle and forward the body of the request in a way that causes the receiving server to process it as a separate HTTP request, aka "HTTP Request Smuggling." |
| Buffer overflow in dbsnmp in Oracle 8.0.6 through 9.0.1 allows local users to execute arbitrary code via a long ORACLE_HOME environment variable. |
| MySQL 4.1.9, and possibly earlier versions, allows remote attackers with certain privileges to cause a denial of service (application crash) via a use command followed by an MS-DOS device name such as (1) LPT1 or (2) PRN. |
| MySQL 4.0.23 and earlier, and 4.1.x up to 4.1.10, allows remote authenticated users with INSERT and DELETE privileges to bypass library path restrictions and execute arbitrary libraries by using INSERT INTO to modify the mysql.func table, which is processed by the udf_init function. |
| MySQL 4.0.23 and earlier, and 4.1.x up to 4.1.10, allows remote authenticated users with INSERT and DELETE privileges to execute arbitrary code by using CREATE FUNCTION to access libc calls, as demonstrated by using strcat, on_exit, and exit. |
| SQL injection vulnerability in Oracle Database 9i and 10g allows remote attackers to execute arbitrary SQL commands and gain privileges. |
| mysql_install_db in MySQL 4.1.x before 4.1.12 and 5.x up to 5.0.4 creates the mysql_install_db.X file with a predictable filename and insecure permissions, which allows local users to execute arbitrary SQL commands by modifying the file's contents. |
| The OHS component 1.0.2 through 10.x, when UseWebcacheIP is disabled, in Oracle Application Server allows remote attackers to bypass HTTP Server mod_access restrictions via a request to the webcache TCP port 7778. |
| SQL injection vulnerability in the SYS.DBMS_CDC_IPUBLISH.CREATE_SCN_CHANGE_SET procedure in Oracle Database Server 10g allows remote attackers to execute arbitrary SQL commands via the CHANGE_SET_NAME parameter. |
| Unknown vulnerability in MySQL 3.23.58 and earlier, when a local user has privileges for a database whose name includes a "_" (underscore), grants privileges to other databases that have similar names, which can allow the user to conduct unauthorized activities. |
| 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. |
| SQL injection vulnerability in the Oracle Diagnostics module 2.2 and earlier allows remote attackers to execute arbitrary SQL commands via unknown attack vectors. |
| Multiple unspecified vulnerabilities in Oracle Database Server 8.1.7.4, 9.0.1.5, 9.2.0.7, 10.1.0.5, and other versions have unknown impact and attack vectors in the (1) Advanced Replication component, as identified by Vuln# DB01, and (2) Oracle Spatial component, as identified by Vuln# DB10. NOTE: details are unavailable from Oracle, but as of 20060421, they have not publicly disputed a claim by a reliable independent researcher that states that DB01 is an unknown issue in the DBMS_REPUTIL package, and DB10 is SQL injection in the INSERT_CATALOG, UPDATE_CATALOG, and DELETE_CATALOG functions of the SDO_CATALOG package. |
