| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| @backstage/plugin-scaffolder-backend is the backend for the default Backstage software templates. Prior to version 2.1.1, duplicate logging of the input values in the fetch:template action in the Scaffolder meant that some of the secrets were not properly redacted. If ${{ secrets.x }} is not passed through to fetch:template there is no impact. This issue has been resolved in 2.1.1 of the scaffolder-backend plugin. A workaround for this issue involves Template Authors removing the use of ${{ secrets }} being used as an argument to fetch:template. |
| Valtimo is an open source business process and case management platform. When opening a form in Valtimo, the access token (JWT) of the user is exposed to `api.form.io` via the the `x-jwt-token` header. An attacker can retrieve personal information from this token, or use it to execute requests to the Valtimo REST API on behalf of the logged-in user. This issue is caused by a misconfiguration of the Form.io component.
The following conditions have to be met in order to perform this attack: An attacker needs to have access to the network traffic on the `api.form.io` domain; the content of the `x-jwt-token` header is logged or otherwise available to the attacker; an attacker needs to have network access to the Valtimo API; and an attacker needs to act within the time-to-live of the access token. The default TTL in Keycloak is 5 minutes.
Versions 10.8.4, 11.1.6 and 11.2.2 have been patched. |
| Disclosure
of sensitive information in a Milestone XProtect Device Pack driver’s log file for third-party cameras, allows an attacker to read camera
credentials stored in the Recording Server under specific conditions. |
| In some circumstances, debug artifacts uploaded by the CodeQL Action after a failed code scanning workflow run may contain the environment variables from the workflow run, including any secrets that were exposed as environment variables to the workflow. Users with read access to the repository would be able to access this artifact, containing any secrets from the environment. This vulnerability is patched in CodeQL Action version 3.28.3 or later, or CodeQL CLI version 2.20.3 or later.
For some affected workflow runs, the exposed environment variables in the debug artifacts included a valid `GITHUB_TOKEN` for the workflow run, which has access to the repository in which the workflow ran, and all the permissions specified in the workflow or job. The `GITHUB_TOKEN` is valid until the job completes or 24 hours has elapsed, whichever comes first.
Environment variables are exposed only from workflow runs that satisfy all of the following conditions:
- Code scanning workflow configured to scan the Java/Kotlin languages.
- Running in a repository containing Kotlin source code.
- Running with debug artifacts enabled.
- Using CodeQL Action versions <= 3.28.2, and CodeQL CLI versions >= 2.9.2 (May 2022) and <= 2.20.2.
- The workflow run fails before the CodeQL database is finalized within the `github/codeql-action/analyze` step.
- Running in any GitHub environment: GitHub.com, GitHub Enterprise Cloud, and GitHub Enterprise Server. Note: artifacts are only accessible to users within the same GitHub environment with access to the scanned repo.
The `GITHUB_TOKEN` exposed in this way would only have been valid for workflow runs that satisfy all of the following conditions, in addition to the conditions above:
- Using CodeQL Action versions >= 3.26.11 (October 2024) and <= 3.28.2, or >= 2.26.11 and < 3.
- Running in GitHub.com or GitHub Enterprise Cloud only (not valid on GitHub Enterprise Server).
In rare cases during advanced setup, logging of environment variables may also occur during database creation of Java, Swift, and C/C++. Please read the corresponding CodeQL CLI advisory GHSA-gqh3-9prg-j95m for more details.
In CodeQL CLI versions >= 2.9.2 and <= 2.20.2, the CodeQL Kotlin extractor logs all environment variables by default into an intermediate file during the process of creating a CodeQL database for Kotlin code. This is a part of the CodeQL CLI and is invoked by the CodeQL Action for analyzing Kotlin repositories.
On Actions, the environment variables logged include GITHUB_TOKEN, which grants permissions to the repository being scanned.
The intermediate file containing environment variables is deleted when finalizing the database, so it is not included in a successfully created database. It is, however, included in the debug artifact that is uploaded on a failed analysis run if the CodeQL Action was invoked in debug mode.
Therefore, under these specific circumstances (incomplete database creation using the CodeQL Action in debug mode) an attacker with access to the debug artifact would gain unauthorized access to repository secrets from the environment, including both the `GITHUB_TOKEN` and any user-configured secrets made available via environment variables.
The impact of the `GITHUB_TOKEN` leaked in this environment is limited:
- For workflows on GitHub.com and GitHub Enterprise Cloud using CodeQL Action versions >= 3.26.11 and <= 3.28.2, or >= 2.26.11 and < 3, which in turn use the `actions/artifacts v4` library, the debug artifact is uploaded before the workflow job completes. During this time the `GITHUB_TOKEN` is still valid, providing an opportunity for attackers to gain access to the repository.
- For all other workflows, the debug artifact is uploaded after the workflow job completes, at which point the leaked `GITHUB_TOKEN` has been revoked and cannot be used to access the repository. |
| apko is an apk-based OCI image builder. apko exposures HTTP basic auth credentials from repository and keyring URLs in log output. This vulnerability is fixed in v0.14.5. |
| The Woo Manage Fraud Orders plugin for WordPress is vulnerable to Sensitive Information Exposure in all versions up to, and including, 2.6.1 through publicly exposed log files. This makes it possible for unauthenticated attackers to view potentially sensitive information about users contained in the exposed log files. |
| "SwitchBot" App for iOS/Android contains an insertion of sensitive information into log file vulnerability in versions V6.24 through V9.12. If this vulnerability is exploited, sensitive user information may be exposed to an attacker who has access to the application logs. |
| AnyDesk through 8.1.0 on Windows, when Allow Direct Connections is enabled, inadvertently exposes a public IP address within network traffic. The attacker must know the victim's AnyDesk ID. |
| Insertion of Sensitive Information into Log File vulnerability in Hitachi Cosminexus Component Container allows local users to gain sensitive information.This issue affects Cosminexus Component Container: from 11-30 before 11-30-05, from 11-20 before 11-20-07, from 11-10 before 11-10-10, from 11-00 before 11-00-12, All versions of V8 and V9.
|
| An information disclosure vulnerability exists in the backup configuration process where the SAS token is not masked in the configuration response. This oversight results in sensitive information leakage within the yb_backup log files, exposing the SAS token in plaintext. The leakage occurs during the backup procedure, leading to potential unauthorized access to resources associated with the SAS token. This issue affects YugabyteDB Anywhere: from 2.20.0.0 before 2.20.7.0, from 2.23.0.0 before 2.23.1.0, from 2024.1.0.0 before 2024.1.3.0. |
| A low-privileged attacker in bluetooth range may be able to access the password of a higher-privilege user (Maintenance) by viewing the device’s event log. This vulnerability could allow the Operator to authenticate as the Maintenance user, thereby gaining unauthorized access to sensitive configuration settings and the ability to modify device parameters. |
| CWE-532: Insertion of Sensitive Information into Log Files vulnerability exists that could cause the disclosure
of FTP server credentials when the FTP server is deployed, and the device is placed in debug mode by an
administrative user and the debug files are exported from the device. |
| In affected versions of the Octopus Kubernetes worker or agent, sensitive variables could be written to the Kubernetes script pod log in clear-text. This was identified in Version 2 however it was determined that this could also be achieved in Version 1 and the fix was applied to both versions accordingly. |
| An information disclosure vulnerability in Phloc Webscopes 7.0.0 allows local attackers with access to the log files to view logged HTTP requests that contain user passwords or other sensitive information. |
| A vulnerability has been identified in Rancher Manager, where sensitive
information, including secret data, cluster import URLs, and
registration tokens, is exposed to any entity with access to Rancher
audit logs. |
| Passwords are stored in clear-text logs. An attacker can retrieve passwords. As for the affected products/models/versions, see the reference URL. |
| The session cookies, used for authentication, are stored in clear-text logs. An attacker can retrieve authentication sessions. A remote attacker can retrieve the credentials and bypass the authentication mechanism. As for the affected products/models/versions, see the reference URL. |
| The sessions are stored in clear-text logs. An attacker can retrieve authentication sessions. A remote attacker can retrieve the credentials and bypass the authentication mechanism. As for the affected products/models/versions, see the reference URL. |
| VMware Cloud Director Object Storage Extension contains an Insertion of Sensitive Information vulnerability.
A malicious actor with adjacent access to
web/proxy server logging may be able to obtain sensitive information
from URLs that are logged. |
| The source-controller is a Kubernetes operator, specialised in artifacts acquisition from external sources such as Git, OCI, Helm repositories and S3-compatible buckets. The source-controller implements the source.toolkit.fluxcd.io API and is a core component of the GitOps toolkit. Prior to version 1.2.5, when source-controller was configured to use an Azure SAS token when connecting to Azure Blob Storage, the token was logged along with the Azure URL when the controller encountered a connection error. An attacker with access to the source-controller logs could use the token to gain access to the Azure Blob Storage until the token expires. This vulnerability was fixed in source-controller v1.2.5. There is no workaround for this vulnerability except for using a different auth mechanism such as Azure Workload Identity. |
