| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| The KVM subsystem in the client in Cisco Unified Computing System (UCS) does not verify X.509 certificates from SSL servers, which allows man-in-the-middle attackers to spoof servers, and read or modify KVM data, via a crafted certificate, aka Bug ID CSCte90332. |
| Invensys Wonderware InTouch 2012 R2 and earlier and Siemens ProcessSuite use a weak encryption algorithm for data in Ps_security.ini, which makes it easier for local users to discover passwords by reading this file. |
| Moxa EDR-G903 series routers with firmware before 2.11 do not use a sufficient source of entropy for (1) SSH and (2) SSL keys, which makes it easier for man-in-the-middle attackers to spoof a device or modify a client-server data stream by leveraging knowledge of a key from a product installation elsewhere. |
| IBM XIV Storage System Gen3 before 11.2 relies on a default X.509 v3 certificate for authentication, which allows man-in-the-middle attackers to spoof servers by leveraging an inappropriate certificate-trust relationship. |
| WellinTech KingView 6.5.3 and earlier uses a weak password-hashing algorithm, which makes it easier for local users to discover credentials by reading an unspecified file. |
| The TripAdvisor app 6.6 for iOS sends cleartext credentials, which allows remote attackers to obtain sensitive information by sniffing the network. |
| The TLS protocol 1.2 and earlier, as used in Mozilla Firefox, Google Chrome, Qt, and other products, can encrypt compressed data without properly obfuscating the length of the unencrypted data, which allows man-in-the-middle attackers to obtain plaintext HTTP headers by observing length differences during a series of guesses in which a string in an HTTP request potentially matches an unknown string in an HTTP header, aka a "CRIME" attack. |
| The SPDY protocol 3 and earlier, as used in Mozilla Firefox, Google Chrome, and other products, can perform TLS encryption of compressed data without properly obfuscating the length of the unencrypted data, which allows man-in-the-middle attackers to obtain plaintext HTTP headers by observing length differences during a series of guesses in which a string in an HTTP request potentially matches an unknown string in an HTTP header, aka a "CRIME" attack. |
| Agile FleetCommander and FleetCommander Kiosk before 4.08 use an XOR format for password encryption, which makes it easier for context-dependent attackers to obtain sensitive information by reading a key file and the encrypted strings. |
| Agile FleetCommander and FleetCommander Kiosk before 4.08 store database credentials in cleartext, which allows remote attackers to obtain sensitive information via requests to unspecified pages. |
| The Huawei NE5000E, MA5200G, NE40E, NE80E, ATN, NE40, NE80, NE20E-X6, NE20, ME60, CX600, CX200, CX300, ACU, WLAN AC 6605, S9300, S7700, S2300, S3300, S5300, S3300HI, S5300HI, S5306, S6300, S2700, S3700, S5700, S6700, AR G3, H3C AR(OEM IN), AR 19, AR 29, AR 49, Eudemon100E, Eudemon200, Eudemon300, Eudemon500, Eudemon1000, Eudemon1000E-U/USG5300, Eudemon1000E-X/USG5500, Eudemon8080E/USG9300, Eudemon8160E/USG9300, Eudemon8000E-X/USG9500, E200E-C/USG2200, E200E-X3/USG2200, E200E-X5/USG2200, E200E-X7/USG2200, E200E-C/USG5100, E200E-X3/USG5100, E200E-X5/USG5100, E200E-X7/USG5100, E200E-B/USG2100, E200E-X1/USG2100, E200E-X2/USG2100, SVN5300, SVN2000, SVN5000, SVN3000, NIP100, NIP200, NIP1000, NIP2100, NIP2200, and NIP5100 use the DES algorithm for stored passwords, which makes it easier for context-dependent attackers to obtain cleartext passwords via a brute-force attack. |
| Layton Helpbox 4.4.0 allows remote attackers to discover cleartext credentials for the login page by sniffing the network. |
| rhc-chk.rb in Red Hat OpenShift Origin before 1.1, when -d (debug mode) is used, outputs the password and other sensitive information in cleartext, which allows context-dependent attackers to obtain sensitive information, as demonstrated by including log files or Bugzilla reports in support channels. |
| The IBM WebSphere DataPower XC10 Appliance 2.0.0.0 through 2.0.0.3 and 2.1.0.0 through 2.1.0.2, when a collective configuration is enabled, has a single secret key that is shared across different customers' installations, which allows remote attackers to spoof a container server by (1) sniffing the network to locate a cleartext transmission of this key or (2) leveraging knowledge of this key from another installation. |
| The Groupon Redemptions application for Android does not verify that the server hostname matches a domain name in the subject's Common Name (CN) or subjectAltName field of the X.509 certificate, which allows man-in-the-middle attackers to spoof SSL servers via an arbitrary valid certificate. |
| The Breezy application for Android does not verify that the server hostname matches a domain name in the subject's Common Name (CN) or subjectAltName field of the X.509 certificate, which allows man-in-the-middle attackers to spoof SSL servers via an arbitrary valid certificate. |
| The login component in SOAP Gateway in IBM IMS Enterprise Suite 1.1, 2.1, and 2.2 uses cleartext credentials, which allows remote attackers to obtain sensitive information by sniffing the network. |
| The SSL implementation in IBM Security AppScan Enterprise before 8.7.0.1 enables cipher suites with weak encryption algorithms, which makes it easier for remote attackers to obtain sensitive information by sniffing the network. |
| Cisco Jabber on Windows does not verify X.509 certificates from SSL servers, which allows man-in-the-middle attackers to spoof servers and modify the client-server data stream via a crafted certificate, aka Bug ID CSCug30280. |
| The configuration file for the FastCGI PHP support for lighttpd before 1.4.28 on Debian GNU/Linux creates a socket file with a predictable name in /tmp, which allows local users to hijack the PHP control socket and perform unauthorized actions such as forcing the use of a different version of PHP via a symlink attack or a race condition. |
