Brocade Fabric OS versions before Brocade Fabric OS v7.4.2g could allow an authenticated, remote attacker to view a user password in cleartext. The vulnerability is due to incorrectly logging the user password in log files.
Brocade SANnav before Brocade SANvav v. 2.2.0.2 and Brocade SANanv v.2.1.1.8 logs the Brocade Fabric OS switch password in plain text in asyncjobscheduler-manager.log
Brocade SANnav before SANnav 2.2.0 application uses the Blowfish symmetric encryption algorithm for the storage of passwords. This could allow an authenticated attacker to decrypt stored account passwords.
A vulnerability in update-reports-purge-settings.sh script logging for Brocade SANnav before 2.4.0a could allow the collection of SANnav database password in the system audit logs. The vulnerability could allow a remote authenticated attacker with access to the audit logs to access the Brocade SANnav database password.
A vulnerability in Brocade SANnav before 2.4.0b prints the Password-Based Encryption (PBE) key in plaintext in the system audit log file. The vulnerability could allow a remote authenticated attacker with access to the audit logs to access the pbe key. Note: The vulnerability is only triggered during a migration and not in a new installation. The system audit logs are accessible only to a privileged user on the server. These audit logs are the local server VM’s audit logs and are not controlled by SANnav. These logs are only visible to the server admin of the host server and are not visible to the SANnav admin or any SANnav user.
CA Network Flow Analysis (NFA) 21.2.1 and earlier contain a SQL injection vulnerability in the NFA web application, due to insufficient input validation, that could potentially allow an authenticated user to access sensitive data.
Improper Limitation of a Pathname to a Restricted Directory (Path Traversal) vulnerability in Broadcom DX NetOps Spectrum on Windows, Linux allows Path Traversal.This issue affects DX NetOps Spectrum: 24.3.8 and earlier.
Broadcom RAID Controller web interface is vulnerable client-side control bypass leads to unauthorized data access for low privileged user
Brocade SANnav before v2.3.0 and v2.2.2a stores SNMPv3 Authentication passwords in plaintext. A privileged user could retrieve these credentials with knowledge and access to these log files. SNMP credentials could be seen in SANnav SupportSave if the capture is performed after an SNMP configuration failure causes an SNMP communication log dump.
Brocade SANnav before Brocade SANnav 2.2.2 supports key exchange algorithms, which are considered weak on ports 24, 6514, 18023, 19094, and 19095.
The Web application of Brocade Fabric OS before versions Brocade Fabric OS v9.0.1a and v8.2.3a contains debug statements that expose sensitive information to the program's standard output device. An attacker who has compromised the FOS system may utilize this weakness to capture sensitive information, such as user credentials.
A vulnerability in Brocade Fabric OS versions before Brocade Fabric OS v8.0.1b, v7.4.1d could allow an authenticated attacker within the restricted shell environment (rbash) as either the “user” or “factory” account, to read the contents of any file on the filesystem utilizing one of a few available binaries.
A vulnerability in Brocade SANnav before v2.3.1 and v2.3.0a prints the Brocade SANnav password in clear text in supportsave logs when a user schedules a switch Supportsave from Brocade SANnav.
An information disclosure vulnerability exists in Brocade SANnav before v2.3.1 and v2.3.0a when Brocade SANnav instances are configured in disaster recovery mode. SQL Table names, column names, and SQL queries are collected in DR standby Supportsave. This could allow authenticated users to access the database structure and its contents.
In Brocade SANnav before v2.3.1, and v2.3.0a, it is possible to back up the appliance from the web interface or the command line interface ("SSH"). The resulting backups are world-readable. A local attacker can recover backup files, restore them to a new malicious appliance, and retrieve the passwords of all the switches.
Brocade SANnav versions before v2.3.0a do not correctly set permissions on files, including docker files. An unprivileged attacker who gains access to the server can read sensitive information from these files.
CA API Developer Portal 4.3.1 and earlier contains an access control flaw that allows privileged users to view restricted sensitive information.
Brocade SANnav before version 2.1.1 logs account credentials at the ‘trace’ logging level.
The authentication mechanism, in Brocade SANnav versions before v2.0, logs plaintext account credentials at the ‘trace’ and the 'debug' logging level; which could allow a local authenticated attacker to access sensitive information.
Brocade Fabric OS Versions before v8.2.2a and v8.2.1d could expose the credentials of the remote ESRS server when these credentials are given as a command line option when configuring the ESRS client.
Brocade SANnav versions before v2.0, logs plain text database connection password while triggering support save.
Under certain error conditions at time of SANnav installation or upgrade, the encryption key can be written into and obtained from a Brocade SANnav supportsave. An attacker with privileged access to the Brocade SANnav database could use the encryption key to obtain passwords used by Brocade SANnav.
Brocade ASCG before 3.3.0 logs JSON Web Tokens (JWT) in log files. An attacker with access to the log files can withdraw the unencrypted tokens with security implications, such as unauthorized access, session hijacking, and information disclosure.
Brocade SANnav before Brocade SANnav 2.4.0a could log database passwords in clear text in audit logs when the daily data dump collector invokes docker exec commands. These audit logs are the local server VM’s audit logs and are not controlled by SANnav. These logs are only visible to the server admin of the host server and are not visible to the SANnav admin or any SANnav user.
Brocade Fabric OS Versions before v7.4.2f, v8.2.2a, v8.1.2j and v8.2.1d could expose external passwords, common secrets or authentication keys used between the switch and an external server.
RabbitMQ is a messaging and streaming broker. In versions 3.13.7 and prior, RabbitMQ is logging authorization headers in plaintext encoded in base64. When querying RabbitMQ api with HTTP/s with basic authentication it creates logs with all headers in request, including authorization headers which show base64 encoded username:password. This is easy to decode and afterwards could be used to obtain control to the system depending on credentials. This issue has been patched in version 4.0.8.
Brocade SANnav versions before 2.2.2 log Brocade Fabric OS switch passwords when debugging is enabled.
An information exposure through log file vulnerability exists in Brocade SANnav before Brocade SANnav 2.2.2, where Brocade Fabric OS Switch passwords and authorization IDs are printed in the embedded MLS DB file.
An information exposure through log file vulnerability exists in Brocade SANnav before Brocade SANnav 2.2.2, where configuration secrets are logged in supportsave. Supportsave file is generated by an admin user troubleshooting the switch. The Logged information may include usernames and passwords, and secret keys.
Possible information exposure through log file vulnerability where sensitive fields are recorded in the debug-enabled logs when debugging is turned on in Brocade SANnav before 2.3.0 and 2.2.2a
When Brocade SANnav before v2.3.1 and v2.3.0a servers are configured in Disaster Recovery mode, the encryption key is stored in the DR log files. This could provide attackers with an additional, less-protected path to acquiring the encryption key.
A vulnerability in Brocade SANnav before v2.3.1 and v2.3.0a prints the encryption key in the console when a privileged user executes the script to replace the Brocade SANnav Management Portal standby node. This could provide attackers an additional, less protected path to acquiring the encryption key.
A vulnerability in Brocade SANnav before v2.3.1 and v2.3.0a could allow a privileged user to print the SANnav encrypted key in PostgreSQL startup logs. This could provide attackers with an additional, less-protected path to acquiring the encryption key.
A vulnerability in a password management API in Brocade Fabric OS versions before v9.2.1, v9.2.0b, v9.1.1d, and v8.2.3e prints sensitive information in log files. This could allow an authenticated user to view the server passwords for protocols such as scp and sftp. Detail. When the firmwaredownload command is incorrectly entered or points to an erroneous file, the firmware download log captures the failed command, including any password entered in the command line.
A vulnerability in Brocade SANnav before v2.3.1 and v2.3.0a prints Brocade Fabric OS switch encrypted passwords in the Brocade SANnav Standby node's support save.
Brocade SANnav before v2.2.1 logs usernames and encoded passwords in debug-enabled logs. The vulnerability could allow an attacker with admin privilege to read sensitive information.
On BIG-IP 13.1.0-13.1.1.4, sensitive information is logged into the local log files and/or remote logging targets when restjavad processes an invalid request. Users with access to the log files would be able to view that data.
Improper restriction of environment variables in Elastic Defend can lead to exposure of sensitive information such as API keys and tokens via automatic transmission of unfiltered environment variables to the stack.
In Octopus Deploy 2018.8.0 through 2019.x before 2019.12.2, an authenticated user with could trigger a deployment that leaks the Helm Chart repository password.
On F5 BIG-IP 15.1.x versions prior to 15.1.5.1 and 14.1.x versions prior to 14.1.4.6, when installing Net HSM, the scripts (nethsm-safenet-install.sh and nethsm-thales-install.sh) expose the Net HSM partition password. Note: Software versions which have reached End of Technical Support (EoTS) are not evaluated
In CMDBuild from version 3.0 to 3.3.2 payload requests are saved in a temporary log table, which allows attackers with database access to read the password of the users who login to the application by querying the database table.
The OpenSearch logging provider, when configured with a `host` URL that embeds credentials (for example `https://user:password@server.example.com:9200`), wrote the full host URL — including the embedded credentials — into task logs. Any user with task-log read permission could harvest the backend credentials. Users are advised to upgrade to `apache-airflow-providers-opensearch` 1.9.1 or later and, as a defense-in-depth measure, configure the backend credentials via a secret backend rather than embedding them in the `[opensearch] host` URL.
Azure SDK for .NET Information Disclosure Vulnerability
A vulnerability in the web portal of Cisco Enterprise NFV Infrastructure Software (NFVIS) could allow an authenticated, remote attacker to view a password in clear text. The vulnerability is due to incorrectly logging the admin password when a user is forced to modify the default password when logging in to the web portal for the first time. Subsequent password changes are not logged and other accounts are not affected. An attacker could exploit this vulnerability by viewing the admin clear text password and using it to access the affected system. The attacker would need a valid user account to exploit this vulnerability.
The Elasticsearch logging provider, when configured with a `host` URL that embeds credentials (for example `https://user:password@server.example.com:9200`), wrote the full host URL — including the embedded credentials — into task logs. Any user with task-log read permission could harvest the backend credentials. Users are advised to upgrade to `apache-airflow-providers-elasticsearch` 6.5.3 or later and, as a defense-in-depth measure, configure the backend credentials via a secret backend rather than embedding them in the `[elasticsearch] host` URL.
An information exposure vulnerability in Fortinet FortiWeb 6.2.0 CLI and earlier may allow an authenticated user to view sensitive information being logged via diagnose debug commands.
Ansible, versions 2.9.x before 2.9.1, 2.8.x before 2.8.7 and Ansible versions 2.7.x before 2.7.15, is not respecting the flag no_log set it to True when Sumologic and Splunk callback plugins are used send tasks results events to collectors. This would discloses and collects any sensitive data.
CentOS-WebPanel.com (aka CWP) CentOS Web Panel 0.9.8.856 through 0.9.8.864 allows an attacker to get a victim's session file name from the /tmp directory, and the victim's token value from /usr/local/cwpsrv/logs/access_log, then use them to make a request to extract the victim's password (for the OS and phpMyAdmin) via an attacker account.
CentOS-WebPanel.com (aka CWP) CentOS Web Panel 0.9.8.864 allows an attacker to get a victim's session file name from /home/[USERNAME]/tmp/session/sess_xxxxxx, and the victim's token value from /usr/local/cwpsrv/logs/access_log, then use them to gain access to the victim's password (for the OS and phpMyAdmin) via an attacker account. This is different from CVE-2019-14782.
An issue was discovered in GitLab Community and Enterprise Edition 9.x, 10.x, and 11.x before 11.8.9, 11.9.x before 11.9.10, and 11.10.x before 11.10.2. Gitaly has allows an information disclosure issue where HTTP/GIT credentials are included in logs on connection errors.