| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| IBM AppScan Source could reveal some sensitive information through the browsing of testlinks on the server. |
| IBM Cognos TM1 10.1 and 10.2 provides a service to return the victim's password with a valid session key. An authenticated attacker with user interaction could obtain this sensitive information. IBM X-Force ID: 114613. |
| IBM Security Access Manager for Web could allow a remote attacker to obtain sensitive information, caused by the failure to properly enable HTTP Strict Transport Security. An attacker could exploit this vulnerability to obtain sensitive information using man in the middle techniques. |
| IBM Security Access Manager for Web stores sensitive information in URL parameters. This may lead to information disclosure if unauthorized parties have access to the URLs via server logs, referer header or browser history. |
| Under non-standard configurations, IBM WebSphere MQ might send password data in clear text over the network. This data could be intercepted using man in the middle techniques. |
| The spice-gtk widget allows remote authenticated users to obtain information from the host clipboard. |
| The YARN NodeManager in Apache Hadoop 2.6.x before 2.6.5 and 2.7.x before 2.7.3 can leak the password for credential store provider used by the NodeManager to YARN Applications. |
| pulp.spec in the installation process for Pulp 2.8.3 generates the RSA key pairs used to validate messages between the pulp server and pulp consumers in a directory that is world-readable before later modifying the permissions, which might allow local users to read the generated RSA keys via reading the key files while the installation process is running. |
| The sanitycheck module in SimpleSAMLphp before 1.14.1 allows remote attackers to learn the PHP version on the system via unspecified vectors. |
| An information disclosure vulnerability in the logging implementation of BlackBerry Good Control Server versions earlier than 2.3.53.62 allows remote attackers to gain and use logged encryption keys to access certain resources within a customer's Good deployment by gaining access to certain diagnostic log files through either a valid logon or an unrelated compromise of the server. |
| An information disclosure vulnerability in the Core and Management Console in BlackBerry Enterprise Server (BES) 12 through 12.5.2 allows remote attackers to obtain local or domain credentials of an administrator or user account by sniffing traffic between the two elements during a login attempt. |
| Barco ClickShare CSC-1 devices with firmware before 01.09.03 allow remote attackers to obtain the root password by downloading and extracting the firmware image. |
| The pulp-qpid-ssl-cfg script in Pulp before 2.8.5 allows local users to obtain the CA key. |
| Moodle 3.0 through 3.0.3, 2.9 through 2.9.5, and 2.8 through 2.8.11 allows remote attackers to obtain the names of hidden forums and forum discussions. |
| The capability check to access other badges in Moodle 3.0 through 3.0.3, 2.9 through 2.9.5, 2.8 through 2.8.11, 2.7 through 2.7.13, and earlier allows remote authenticated users to read the badges of other users. |
| Cybozu Mailwise before 5.4.0 allows remote attackers to obtain information on when an email is read. |
| Multiple information leaks exist in various IOCTL handlers of the Kaspersky Internet Security KLDISK driver. Specially crafted IOCTL requests can cause the driver to return out-of-bounds kernel memory, potentially leaking sensitive information such as privileged tokens or kernel memory addresses that may be useful in bypassing kernel mitigations. An unprivileged user can run a program from user-mode to trigger this vulnerability. |
| NetApp Clustered Data ONTAP before 8.3.2P7 allows remote attackers to obtain SMB share information via unspecified vectors. |
| The rack-mini-profiler gem before 0.10.1 for Ruby allows remote attackers to obtain sensitive information about allocated strings and objects by leveraging incorrect ordering of security checks. |
| The high level operating systems (HLOS) was not providing sufficient memory address information to ensure that secure applications inside Qualcomm Secure Execution Environment (QSEE) only write to legitimate memory ranges related to the QSEE secure application's HLOS client. When secure applications inside Qualcomm Secure Execution Environment (QSEE) receive memory addresses from a high level operating system (HLOS) such as Linux Android, those address have previously been verified as belonging to HLOS memory space rather than QSEE memory space, but they were not verified to be from HLOS user space rather than kernel space. This lack of verification could lead to privilege escalation within the HLOS. |
