A flaw was found in libtpms in versions before 0.8.0. The TPM 2 implementation returns 2048 bit keys with ~1984 bit strength due to a bug in the TCG specification. The bug is in the key creation algorithm in RsaAdjustPrimeCandidate(), which is called before the prime number check. The highest threat from this vulnerability is to data confidentiality.

A flaw was found in libtpms in versions before 0.8.2. The commonly used integration of libtpms with OpenSSL contained a vulnerability related to the returned IV (initialization vector) when certain symmetric ciphers were used. Instead of returning the last IV it returned the initial IV to the caller, thus weakening the subsequent encryption and decryption steps. The highest threat from this vulnerability is to data confidentiality.

IBM Storage Defender - Resiliency Service 2.0.0 through 2.0.9 could allow a privileged user to obtain highly sensitive user credentials from secret keys that are stored in clear text.

IBM Security SiteProtector System 3.0 before 3.0.0.7, 3.1 before 3.1.0.4, and 3.1.1 before 3.1.1.2 allows local users to obtain sensitive information by reading cached data.

Red Hat Enterprise Virtualization (RHEV) Manager before 3.5.1 uses weak permissions on the directories shared by the ovirt-engine-dwhd service and a plugin during service startup, which allows local users to obtain sensitive information by reading files in the directory.

IBM Spectrum Scale 4.1.1 and 4.2.0 - 4.2.3 could allow a local unprivileged user access to information located in dump files. User data could be sent to IBM during service engagements. IBM X-Force ID: 133378.

A sensitive information exposure vulnerability was found in foreman. Contents of tomcat's server.xml file, which contain passwords to candlepin's keystore and truststore, were found to be world readable.

An Improper Output Neutralization for Logs flaw was found in Ansible when using the uri module, where sensitive data is exposed to content and json output. This flaw allows an attacker to access the logs or outputs of performed tasks to read keys used in playbooks from other users within the uri module. The highest threat from this vulnerability is to data confidentiality.

IBM i2 iBase 8.9.13 and 9.0.0 could allow a local attacker to obtain sensitive information due to insufficient session expiration. IBM X-Force ID: 206213.

Red Hat OpenStack Essex and Folsom creates the /var/log/puppet directory with world-readable permissions, which allows local users to obtain sensitive information such as Puppet log files.

IBM Content Collector for Email 3.0 before 3.0.0.6-IBM-ICC-Server-IF001 and 4.0 before 4.0.0.3-IBM-ICC-Server-IF001 does not properly handle an unspecified query operator during searches of IBM FileNet P8 systems with IBM Content Search Services, which allows local users to bypass intended document-access restrictions and obtain sensitive information via a crafted search query.

selinux-policy as packaged in Red Hat OpenShift 2 allows attackers to obtain process listing information via a privilege escalation attack.

IBM AIX 7.1, 7.2, and VIOS 3.1 could allow a non-privileged local user to exploit a vulnerability in EFS to expose sensitive information. IBM X-Force ID: 206085.

A flaw was found in the GNOME Control Center in Red Hat Enterprise Linux 8 versions prior to 8.2, where it improperly uses Red Hat Customer Portal credentials when a user registers a system through the GNOME Settings User Interface. This flaw allows a local attacker to discover the Red Hat Customer Portal password. The highest threat from this vulnerability is to confidentiality.

powervc-iso-import in IBM PowerVC 1.2.0.x before 1.2.0.4 and 1.2.1.x before 1.2.2 places an access token on the command line during IVM and PowerKVM management, which allows local users to obtain sensitive information by listing the process.

IBM WebSphere Commerce 6.x through 6.0.0.11 and 7.x before 7.0.0.8 IF2 allows local users to obtain sensitive database information via unspecified vectors.

IBM Cognos Server 10.1.1 and 10.2 stores highly sensitive information in log files that could be read by a local user. IBM Reference #: 1999671.

IBM WebSphere Message Broker stores user credentials in plain in clear text which can be read by a local user. IBM X-Force ID: 123777.

A flaw was found in several ansible modules, where parameters containing credentials, such as secrets, were being logged in plain-text on managed nodes, as well as being made visible on the controller node when run in verbose mode. These parameters were not protected by the no_log feature. An attacker can take advantage of this information to steal those credentials, provided when they have access to the log files containing them. The highest threat from this vulnerability is to data confidentiality. This flaw affects Red Hat Ansible Automation Platform in versions before 1.2.2 and Ansible Tower in versions before 3.8.2.

A flaw was found in the AMQ Broker that discloses JDBC encrypted usernames and passwords when provided in the AMQ Broker application logfile when using the jdbc persistence functionality. Versions shipped in Red Hat AMQ 7 are vulnerable.

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.

A vulnerability was found in Ansible engine 2.x up to 2.8 and Ansible tower 3.x up to 3.5. When a module has an argument_spec with sub parameters marked as no_log, passing an invalid parameter name to the module will cause the task to fail before the no_log options in the sub parameters are processed. As a result, data in the sub parameter fields will not be masked and will be displayed if Ansible is run with increased verbosity and present in the module invocation arguments for the task.

IBM Tivoli Storage Manager 5.5, 6.1-6.4, and 7.1 stores password information in a log file that could be read by a local user when a set password command is issued. IBM X-Force ID: 118472.

rhscon-ceph in Red Hat Storage Console 2 x86_64 and Red Hat Storage Console Node 2 x86_64 allows local users to obtain the password as cleartext.

oVirt Engine discloses the ENGINE_HTTPS_PKI_TRUST_STORE_PASSWORD in /var/log/ovirt-engine/engine.log file in RHEV before 4.0.

The kernel in Red Hat Enterprise Linux 7 and MRG-2 does not clear garbage data for SG_IO buffer, which may leaking sensitive information to userspace.

IBM Kenexa LMS on Cloud allows web pages to be stored locally which can be read by another user on the system.

An information-disclosure flaw was found in Grafana through 6.7.3. The database directory /var/lib/grafana and database file /var/lib/grafana/grafana.db are world readable. This can result in exposure of sensitive information (e.g., cleartext or encrypted datasource passwords).

IBM Tivoli Identity Manager 5.1.x before 5.1.0.15-ISS-TIM-IF0057 and Security Identity Manager 6.0.x before 6.0.0.4-ISS-SIM-IF0001 and 7.0.x before 7.0.0.0-ISS-SIM-IF0003 store encrypted user credentials and the keystore password in cleartext in configuration files, which allows local users to decrypt SIM credentials via unspecified vectors. IBM X-Force ID: 96180.

The command-line scripts in IBM WebSphere Commerce 6.0 through 6.0.0.11, 7.0 through 7.0.0.9, and 7.0 Feature Pack 2 through 8, when debugging is configured, do not properly restrict the logging of personal data, which allows local users to obtain sensitive information by reading a log file.

Red Hat Enterprise Virtualization (RHEV) Manager 3.6 allows local users to obtain encryption keys, certificates, and other sensitive information by reading the engine-setup log file.

IBM Flex System Manager (FSM) 1.1.x.x, 1.2.0.x, 1.2.1.x, 1.3.0.0, 1.3.1.0, and 1.3.2.0 allows local users to obtain sensitive information, and consequently gain privileges or conduct impersonation attacks, via unspecified vectors.

IBM ServerGuide before 9.63, UpdateXpress System Packs Installer (UXSPI) before 9.63, and ToolsCenter Suite before 9.63 place credentials in logs, which allows local users to obtain sensitive information by reading a file.

dsmtca in the client in IBM Tivoli Storage Manager (TSM) 5.4.x, 5.5.x, 6.x before 6.4.3, and 7.1.x before 7.1.2 allows local users to discover the backup/restore encryption-key password via unspecified vectors.

IBM DB2 10.5 before FP4 on Linux and AIX creates temporary files during CDE table LOAD operations, which allows local users to obtain sensitive information by reading a file while a LOAD is occurring.

The Outlook Extension in IBM Content Collector 4.0.0.x before 4.0.0.0-ICC-OE-IF004 allows local users to bypass the intended Reviewer privilege requirement and read e-mail messages from an arbitrary mailbox by invoking the Search function.

IBM License Metric Tool 9 before 9.1.0.2 does not have an off autocomplete attribute for authentication fields, which makes it easier for remote attackers to obtain access by leveraging an unattended workstation.

ppc64-diag 2.6.1 uses 0775 permissions for /tmp/diagSEsnap and does not properly restrict permissions for /tmp/diagSEsnap/snapH.tar.gz, which allows local users to obtain sensitive information by reading files in this archive, as demonstrated by /var/log/messages and /etc/yaboot.conf.

Ansible before 1.5.5 sets 0644 permissions for sources.list, which might allow local users to obtain sensitive credential information in opportunistic circumstances by reading a file that uses the "deb http://user:pass@server:port/" format.

HAproxy in Red Hat OpenShift Enterprise 3.2 and OpenShift Origin allows local users to obtain the internal IP address of a pod by reading the "OPENSHIFT_[namespace]_SERVERID" cookie.

Red Hat OpenShift Enterprise before 2.2 allows local users to obtain IP address and port number information for remote systems by reading /proc/net/tcp.

CFME (CloudForms Management Engine) 5: RHN account information is logged to top_output.log during registration

IBM Scale Out Network Attached Storage (SONAS) 1.3.x and 1.4.x before 1.4.3.3 places an administrative password in the shell history upon use of the -p option to chuser, which allows local users to obtain sensitive information by leveraging root access.

The default configuration for the Command Line Interface in Red Hat Enterprise Application Platform before 6.4.0 and WildFly (formerly JBoss Application Server) uses weak permissions for .jboss-cli-history, which allows local users to obtain sensitive information via unspecified vectors.

The do_hidp_sock_ioctl function in net/bluetooth/hidp/sock.c in the Linux kernel before 5.0.15 allows a local user to obtain potentially sensitive information from kernel stack memory via a HIDPCONNADD command, because a name field may not end with a '\0' character.

The VGA emulator in QEMU allows local guest users to read host memory by setting the display to a high resolution.

Red Hat OpenShift Enterprise 3.1 uses world-readable permissions on the /etc/origin/master/master-config.yaml configuration file, which allows local users to obtain Active Directory credentials by reading the file.

An information disclosure vulnerability exists when certain central processing units (CPU) speculatively access memory. An attacker who successfully exploited the vulnerability could read privileged data across trust boundaries. To exploit this vulnerability, an attacker would have to log on to an affected system and run a specially crafted application. The vulnerability would not allow an attacker to elevate user rights directly, but it could be used to obtain information that could be used to try to compromise the affected system further. On January 3, 2018, Microsoft released an advisory and security updates related to a newly-discovered class of hardware vulnerabilities (known as Spectre) involving speculative execution side channels that affect AMD, ARM, and Intel CPUs to varying degrees. This vulnerability, released on August 6, 2019, is a variant of the Spectre Variant 1 speculative execution side channel vulnerability and has been assigned CVE-2019-1125. Microsoft released a security update on July 9, 2019 that addresses the vulnerability through a software change that mitigates how the CPU speculatively accesses memory. Note that this vulnerability does not require a microcode update from your device OEM.

Shared memory sections and events in IBM DB2 8.1 have default permissions of read and write for the Everyone group, which allows local users to gain unauthorized access, gain sensitive information, such as cleartext passwords, and cause a denial of service.

The rhevm-log-collector package in Red Hat Enterprise Virtualization 3.4 uses the PostgreSQL database password on the command line when calling sosreport, which allows local users to obtain sensitive information by listing the processes.