| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| In dialer service, there is a possible missing permission check. This could lead to local denial of service with no additional execution privileges. |
| IBM App Connect Enterprise 11.0.0.1 through 11.0.0.25 and 12.0.1.0 through 12.0.12.0 dashboard is vulnerable to a denial of service due to improper restrictions of resource allocation. IBM X-Force ID: 285244. |
| Multiple command injection vulnerabilities exist in the web interface of the 501 Wireless Client Bridge which could lead to authenticated remote command execution. Successful exploitation of these vulnerabilities result in the ability of an attacker to execute arbitrary commands as a privileged user on the underlying operating system. Exploitation requires administrative authentication credentials on the host system. |
| Multiple command injection vulnerabilities exist in the web interface of the 501 Wireless Client Bridge which could lead to authenticated remote command execution. Successful exploitation of these vulnerabilities result in the ability of an attacker to execute arbitrary commands as a privileged user on the underlying operating system. Exploitation requires administrative authentication credentials on the host system. |
| A vulnerability exists on all versions of the Ivanti Secure Access Client below 22.6R1.1, which could allow a locally authenticated attacker to exploit a vulnerable configuration, potentially leading to a denial of service (DoS) condition on the user machine. |
| The `Release PR Merged` workflow in the github repo taosdata/grafanaplugin is subject to a command injection vulnerability which allows for arbitrary code execution within the github action context due to the insecure usage of `${{ github.event.pull_request.title }}` in a bash command within the GitHub workflow. Attackers can inject malicious commands which will be executed by the workflow. This happens because `${{ github.event.pull_request.title }}` is directly passed to bash command on like 25 of the workflow. This may allow an attacker to gain access to secrets which the github action has access to or to otherwise make use of the compute resources. |
| An issue was discovered in Anyka Microelectronics AK3918EV300 MCU v18. A command injection vulnerability in the network configuration script within the MCU's operating system allows attackers to perform arbitrary command execution via a crafted wifi SSID or password. |
| A denial of service issue was discovered in GitLab CE/EE affecting all versions starting from 13.2.4 before 15.10.8, all versions starting from 15.11 before 15.11.7, all versions starting from 16.0 before 16.0.2 which allows an attacker to cause high resource consumption using malicious test report artifacts. |
| In Percona XtraBackup (PXB) through 2.2.24 and 3.x through 8.0.27-19, a crafted filename on the local file system could trigger unexpected command shell execution of arbitrary commands. |
| Aria Operations for Networks contains an information disclosure vulnerability. A malicious actor with network access to VMware Aria Operations for Networks may be able to perform a command injection attack resulting in information disclosure. |
| TOTOLink A7100RU V7.4cu.2313_B20191024 was discovered to contain a command injection vulnerability via the staticGw parameter at /setting/setWanIeCfg. |
| D-Link DIR-842V2 v1.0.3 was discovered to contain a command injection vulnerability via the iperf3 diagnostics function. |
| An improper input insertion vulnerability in AiCloud on certain router models may lead to arbitrary command execution.
Refer to the '01/02/2025 ASUS Router AiCloud vulnerability' section on the ASUS Security Advisory for more information. |
| An unintended entry point vulnerability has been identified in certain router models, which may allow for arbitrary command execution.
Refer to the ' 01/02/2025 ASUS Router AiCloud vulnerability' section on the ASUS Security Advisory for more information. |
| snowflake-connector-nodejs, a NodeJS driver for Snowflake, is vulnerable to command injection via single sign on (SSO) browser URL authentication in versions prior to 1.6.21. In order to exploit the potential for command injection, an attacker would need to be successful in (1) establishing a malicious resource and (2) redirecting users to utilize the resource. The attacker could set up a malicious, publicly accessible server which responds to the SSO URL with an attack payload. If the attacker then tricked a user into visiting the maliciously crafted connection URL, the user’s local machine would render the malicious payload, leading to a remote code execution. This attack scenario can be mitigated through URL whitelisting as well as common anti-phishing resources. Version 1.6.21 contains a patch for this issue. |
| gosnowflake is th Snowflake Golang driver. Prior to version 1.6.19, a command injection vulnerability exists in the Snowflake Golang driver via single sign-on (SSO) browser URL authentication. In order to exploit the potential for command injection, an attacker would need to be successful in (1) establishing a malicious resource and (2) redirecting users to utilize the resource. The attacker could set up a malicious, publicly accessible server which responds to the SSO URL with an attack payload. If the attacker then tricked a user into visiting the maliciously crafted connection URL, the user’s local machine would render the malicious payload, leading to a remote code execution. This attack scenario can be mitigated through URL whitelisting as well as common anti-phishing resources. A patch is available in version 1.6.19. |
| The Snowflake Connector for Python provides an interface for developing Python applications that can connect to Snowflake and perform all standard operations. Versions prior to 3.0.2 are vulnerable to command injection via single sign-on(SSO) browser URL authentication. In order to exploit the potential for command injection, an attacker would need to be successful in (1) establishing a malicious resource and (2) redirecting users to utilize the resource. The attacker could set up a malicious, publicly accessible server which responds to the SSO URL with an attack payload. If the attacker then tricked a user into visiting the maliciously crafted connection URL, the user’s local machine would render the malicious payload, leading to a remote code execution. This attack scenario can be mitigated through URL whitelisting as well as common anti-phishing resources. Version 3.0.2 contains a patch for this issue. |
| snowflake-connector-net, the Snowflake Connector for .NET, is vulnerable to command injection prior to version 2.0.18 via SSO URL authentication. In order to exploit the potential for command injection, an attacker would need to be successful in (1) establishing a malicious resource and (2) redirecting users to utilize the resource. The attacker could set up a malicious, publicly accessible server which responds to the SSO URL with an attack payload. If the attacker then tricked a user into visiting the maliciously crafted connection URL, the user’s local machine would render the malicious payload, leading to a remote code execution. This attack scenario can be mitigated through URL whitelisting as well as common anti-phishing resources. Version 2.0.18 fixes this issue. |
| Atos Unify OpenScape 4000 Assistant V10 R1 before V10 R1.42.0 and V10 R1.34.8, Assistant V10 R0, Manager V10 R1 before V10 R1.42.0 and V10 R1.34.8, and Manager V10 R0 allow command injection by authenticated users, aka OSFOURK-24036. |
| An issue found in CrossX v.1.15.3 for Android allows a local attacker to cause a persistent denial of service via the database files. |
