| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| The REST API in oVirt 3.4.0 and earlier stores session IDs in HTML5 local storage, which allows remote attackers to obtain sensitive information via a crafted web page. |
| oVirt Engine before 3.5.0 does not include the HTTPOnly flag in a Set-Cookie header for the session IDs, which makes it easier for remote attackers to obtain potentially sensitive information via script access to this cookie. |
| Red Hat CloudForms 3.0 Management Engine (CFME) before 5.2.4.2 logs the root password when deploying a VM, which allows local users to obtain sensitive information by reading the evm.log file. |
| virt-who uses world-readable permissions for /etc/sysconfig/virt-who, which allows local users to obtain password for hypervisors by reading the file. |
| The setup script in ovirt-engine-dwh, as used in the Red Hat Enterprise Virtualization Manager data warehouse (rhevm-dwh) package before 3.3.3, stores the history database password in cleartext, which allows local users to obtain sensitive information by reading an unspecified file. |
| The processutils.execute function in OpenStack oslo-incubator, Cinder, Nova, and Trove before 2013.2.4 and 2014.1 before 2014.1.3 allows local users to obtain passwords from commands that cause a ProcessExecutionError by reading the log. |
| The strutils.mask_password function in the OpenStack Oslo utility library, Cinder, Nova, and Trove before 2013.2.4 and 2014.1 before 2014.1.3 does not properly mask passwords when logging commands, which allows local users to obtain passwords by reading the log. |
| Thermostat before 2.0.0 uses world-readable permissions for the web.xml configuration file, which allows local users to obtain user credentials by reading the file. |
| The installation process in IBM Security AppScan Enterprise 8.x before 8.6.0.2 iFix 003, 8.7.x before 8.7.0.1 iFix 003, 8.8.x before 8.8.0.1 iFix 002, and 9.0.x before 9.0.0.1 iFix 001 on Linux places a cleartext password in a temporary file, which allows local users to obtain sensitive information by reading this file. |
| The ldns-keygen tool in ldns 1.6.x uses the current umask to set the privileges of the private key, which might allow local users to obtain the private key by reading the file. |
| 389 Directory Server 1.3.1.x, 1.3.2.x before 1.3.2.27, and 1.3.3.x before 1.3.3.9 stores "unhashed" passwords even when the nsslapd-unhashed-pw-switch option is set to off, which allows remote authenticated users to obtain sensitive information by reading the Changelog. |
| The identity service in OpenStack Identity (Keystone) before 2015.1.3 (Kilo) and 8.0.x before 8.0.2 (Liberty) and keystonemiddleware (formerly python-keystoneclient) before 1.5.4 (Kilo) and Liberty before 2.3.3 does not properly invalidate authorization tokens when using the PKI or PKIZ token providers, which allows remote authenticated users to bypass intended access restrictions and gain access to cloud resources by manipulating byte fields within a revoked token. |
| Red Hat CloudForms 3.2 Management Engine (CFME) 5.4.4 and CloudForms 4.0 Management Engine (CFME) 5.5.0 do not properly encrypt data in the backend PostgreSQL database, which might allow local users to obtain sensitive data and consequently gain privileges by leveraging access to (1) database exports or (2) log files. |
| Schneider Electric StruxureWare Building Expert MPM before 2.15 does not use encryption for the client-server data stream, which allows remote attackers to discover credentials by sniffing the network. |
| OpenStack Identity (Keystone) Folsom, Grizzly 2013.1.3 and earlier, and Havana before havana-3 does not properly revoke user tokens when a tenant is disabled, which allows remote authenticated users to retain access via the token. |
| Oracle MySQL and MariaDB 5.5.x before 5.5.29, 5.3.x before 5.3.12, and 5.2.x before 5.2.14 does not modify the salt during multiple executions of the change_user command within the same connection which makes it easier for remote authenticated users to conduct brute force password guessing attacks. |
| Cisco Unified Communications Manager (CUCM) 7.1(x) through 9.1(2) and the IM & Presence Service in Cisco Unified Presence Server through 9.1(2) use the same CTI and database-encryption key across different customers' installations, which makes it easier for context-dependent attackers to defeat cryptographic protection mechanisms by leveraging knowledge of this key, aka Bug IDs CSCsc69187 and CSCui01756. NOTE: the vendor has provided a statement that the "hard-coded static encryption key is considered a hardening issue rather than a vulnerability, and as such, has a CVSS score of 0/0." |
| The default configuration of Tridium Niagara AX Framework through 3.6 uses a cleartext base64 format for transmission of credentials in cookies, which allows remote attackers to obtain sensitive information by sniffing the network. |
| Certain HP Access Controller, Fabric Module, Firewall, Router, Switch, and UTM Appliance products; certain HP 3Com Access Controller, Router, and Switch products; certain HP H3C Access Controller, Firewall, Router, Switch, and Switch and Route Processing Unit products; and certain Huawei Firewall/Gateway, Router, Switch, and Wireless products do not properly implement access control as defined in h3c-user.mib 2.0 and hh3c-user.mib 2.0, which allows remote authenticated users to discover credentials in UserInfoEntry values via an SNMP request with the read-only community. |
| Tridium Niagara AX Framework does not properly store credential data, which allows context-dependent attackers to bypass intended access restrictions by using the stored information for authentication. |
