| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| The Quickcreator – AI Blog Writer plugin for WordPress is vulnerable to Sensitive Information Exposure in versions 0.0.9 to 0.1.17 through the /wp-content/plugins/quickcreator/dupasrala.txt file. This makes it possible for unauthenticated attackers to view the plugin's API key and subsequently use that to perform actions on the site like creating new posts and injecting XSS payloads. |
| Himmelblau is an interoperability suite for Microsoft Azure Entra ID and Intune. When debugging is enabled for Himmelblau in version 1.0.0, the himmelblaud_tasks service leaks an Intune service access token to the system journal. This short-lived token can be used to detect the host's Intune compliance status, and may permit additional administrative operations for the Intune host device (though the API for these operations is undocumented). This is fixed in version 1.1.0. To workaround this issue, ensure that Himmelblau debugging is disabled. |
| "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. |
| wire-ios is an iOS client for the Wire secure messaging application. From Wire iOS 3.111.1 to before 3.124.1, messages that were visible in the view port have been logged to the iOS system logs in clear text. Wire application logs created and managed by the application itself were not affected, especially not the logs users can export and send to Wire support. The iOS logs can only be accessed if someone had (physical) access to the underlying unlocked device. The issue manifested itself by calling canOpenUrl() and passing an invalid URL object. When iOS then performs the check and fails, it logs the contents to the system log. This is not documented behaviour. Wire released an emergency fix with version 3.124.1. As a workaround, users can reset their iOS device to remove the offending logs. Since Wire cannot access or modify iOS system logs, there's no other workaround other than a reset. |
| Sentry is a developer-first error tracking and performance monitoring platform. Sentry's Slack integration incorrectly records the incoming request body in logs. This request data can contain sensitive information, including the deprecated Slack verification token. With this verification token, it is possible under specific configurations, an attacker can forge requests and act as the Slack integration. The request body is leaked in log entries matching `event == "slack.*" && name == "sentry.integrations.slack" && request_data == *`. The deprecated slack verification token, will be found in the `request_data.token` key. **SaaS users** do not need to take any action. **Self-hosted users** should upgrade to version 24.5.0 or higher, rotate their Slack verification token, and use the Slack Signing Secret instead of the verification token. For users only using the `slack.signing-secret` in their self-hosted configuration, the legacy verification token is not used to verify the webhook payload. It is ignored. Users unable to upgrade should either set the `slack.signing-secret` instead of `slack.verification-token`. The signing secret is Slack's recommended way of authenticating webhooks. By having `slack.singing-secret` set, Sentry self-hosted will no longer use the verification token for authentication of the webhooks, regardless of whether `slack.verification-token` is set or not. Alternatively if the self-hosted instance is unable to be upgraded or re-configured to use the `slack.signing-secret`, the logging configuration can be adjusted to not generate logs from the integration. The default logging configuration can be found in `src/sentry/conf/server.py`. **Services should be restarted once the configuration change is saved.**
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| 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. |
| canonical/get-workflow-version-action is a GitHub composite action to get commit SHA that GitHub Actions reusable workflow was called with. Prior to 1.0.1, if the get-workflow-version-action step fails, the exception output may include the GITHUB_TOKEN. If the full token is included in the exception output, GitHub will automatically redact the secret from the GitHub Actions logs. However, the token may be truncated—causing part of the GITHUB_TOKEN to be displayed in plaintext in the GitHub Actions logs. Anyone with read access to the GitHub repository can view GitHub Actions logs. For public repositories, anyone can view the GitHub Actions logs. The opportunity to exploit this vulnerability is limited—the GITHUB_TOKEN is automatically revoked when the job completes. However, there is an opportunity for an attack in the time between the GITHUB_TOKEN being displayed in the logs and the completion of the job. Users using the github-token input are impacted. This vulnerability is fixed in 1.0.1. |
| 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. |
| Rucio is a software framework that provides functionality to organize, manage, and access large volumes of scientific data using customizable policies. The common Rucio helm-charts for the `rucio-server`, `rucio-ui`, and `rucio-webui` define the log format for the apache access log of these components. The `X-Rucio-Auth-Token`, which is part of each request header sent to Rucio, is part of this log format. Thus, each access log line potentially exposes the credentials (Internal Rucio token, or JWT in case of OIDC authentication) of the user. Due to the length of the token (Especially for a JWT) the tokens are often truncated, and thus not usable as credential; nevertheless, the (partial) credential should not be part of the logfile. The impact of this issue is amplified if the access logs are made available to a larger group of people than the instance administrators themselves. An updated release has been supplied for the `rucio-server`, `rucio-ui` and `rucio-webui` helm-chart. The change was also retrofitted for the currently supported Rucio LTS releases. The patched versions are rucio-server 37.0.2, 35.0.1, and 32.0.1; rucio-ui 37.0.4, 35.0.1, and 32.0.2; and rucio-webui 37.0.2, 35.1.1, and 32.0.1. As a workaround, one may update the `logFormat` variable and remove the `X-Rucio-Auth-Token`. |
| NVIDIA Cumulus Linux and NVOS products contain a vulnerability, where hashed user passwords are not properly suppressed in log files, potentially disclosing information to unauthorized users. |
| Insertion of sensitive information into log file for some Intel(R) Local Manageability Service software before version 2316.5.1.2 may allow an authenticated user to potentially enable information disclosure via local access. |
| User credentials (login & password) are inserted into log files when a user tries to authenticate using a version of a Web client that is not compatible with that of the PcVue Web back end.
By exploiting this vulnerability, an attacker could retrieve the credentials of a user by accessing the Log File. Successful exploitation of this vulnerability could lead to unauthorized access to the application. |
| 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.
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| In Snowflake ODBC Driver before 3.7.0, in certain code paths, the Driver logged the whole SQL query at the INFO level, aka Insertion of Sensitive Information into a Log File. |
| Using API in the 2N OS device, authorized user can enable logging, which discloses valid authentication tokens in system log.
2N has released an updated version 2.46 of 2N OS, where this vulnerability is mitigated. It is recommended that all customers update their devices to the latest 2N OS. |
| 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. |
| Hitachi Ops Center Common Services within Hitachi Ops Center OVA contains an information exposure vulnerability.
This issue affects Hitachi Ops Center Common Services: from 11.0.3-00 before 11.0.4-00. |
| 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. |
| 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. |
| An information disclosure vulnerability exists in Yugabyte Anywhere, where the LDAP bind password is logged in plaintext within application logs. This flaw results in the unintentional exposure of sensitive information in Yugabyte Anywhere logs, potentially allowing unauthorized users with access to these logs to view the LDAP bind password. An attacker with log access could exploit this vulnerability to gain unauthorized access to the LDAP server, leading to potential exposure or compromise of LDAP-managed resources
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. |
