| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| Using the AES-128-CCM algorithm for IPSec on certain Palo Alto Networks PAN-OS® firewalls (PA-7500, PA-5400, PA-5400f, PA-3400, PA-1600, PA-1400, and PA-400 Series) leads to unencrypted data transfer to devices that are connected to the PAN-OS firewall through IPSec.
This issue does not affect Cloud NGFWs, Prisma® Access instances, or PAN-OS VM-Series firewalls.
NOTE: The AES-128-CCM encryption algorithm is not recommended for use. |
| TM2 Monitoring v3.04 contains an authentication bypass and plaintext credential disclosure. |
| Kaleris NAVIS N4 ULC (Ultra Light Client) communicates insecurely using zlib-compressed data over HTTP. An attacker capable of observing network traffic between Ultra Light Clients and N4 servers can extract sensitive information, including plaintext credentials. |
| Cleartext Transmission of Sensitive Information vulnerability in Crestron Automate VX allows Sniffing Network Traffic.
The device allows Web UI and API access over non-secure network ports which exposes sensitive information such as user passwords.
This issue affects Automate VX: from 5.6.8161.21536 through 6.4.0.49. |
| A cleartext transmission of sensitive information vulnerability in the affected products allows an unauthorized remote attacker to gain login credentials and access the Web-UI. |
| Due to an unsecure default configuration HTTP is used instead of HTTPS for the web interface. An unauthenticated attacker on the same network could exploit this to learn sensitive data during transmission. |
| Cleartext transmission of sensitive information issue exists in Wi-Fi AP UNIT 'AC-WPS-11ac series'. If exploited, a man-in-the-middle attack may allow a remote unauthenticated attacker to eavesdrop the communication and obtain the authentication information. |
| ispdbservice.cpp in KDE Kmail before 6.2.0 allows man-in-the-middle attackers to trigger use of an attacker-controlled mail server because cleartext HTTP is used for a URL such as http://autoconfig.example.com or http://example.com/.well-known/autoconfig for retrieving the configuration. This is related to kmail-account-wizard. |
| CWE-319: Cleartext Transmission of Sensitive Information vulnerability exists that could result in the exposure
of data when network traffic is being sniffed by an attacker. |
| A Credential Exposure Vulnerability exists in the above-mentioned product and version. The vulnerability is due to using HTTP resulting in credentials being sent in clear text. |
| The MOD3 command traffic between the monitoring application and the
inverter is transmitted in plaintext without encryption or obfuscation.
This vulnerability may allow an attacker with access to a local network
to intercept, manipulate, replay, or forge critical data, including
read/write operations for voltage, current, and power configuration,
operational status, alarms, telemetry, system reset, or inverter control
commands, potentially disrupting power generation or reconfiguring
inverter settings. |
| A flaw was found in Event-Driven Automation (EDA) in Ansible Automation Platform (AAP), which lacks encryption of sensitive information. An attacker with network access could exploit this vulnerability by sniffing the plaintext data transmitted between the EDA and AAP. An attacker with system access could exploit this vulnerability by reading the plaintext data stored in EDA and AAP databases. |
| IPMI credentials may be captured in XCC audit log entries when the account username length is 16 characters. |
| A flaw was found in the ansible automation platform. An insecure WebSocket connection was being used in installation from the Ansible rulebook EDA server. An attacker that has access to any machine in the CIDR block could download all rulebook data from the WebSocket, resulting in loss of confidentiality and integrity of the system. |
| All WorkExaminer Professional traffic between monitoring client, console and server is transmitted as plain text. This allows an attacker with access to the network to read the transmitted sensitive data. An attacker can also freely modify the data on the wire. The monitoring clients transmit their data to the server using the unencrypted FTP. Clients connect to the FTP server on port 12304 and transmit the data unencrypted. In addition, all traffic between the console client and the server at port 12306 is unencrypted. |
| A vulnerability has been found in Coinomi up to 1.7.6. This issue affects some unknown processing. Such manipulation leads to cleartext transmission of sensitive information. The attack can be launched remotely. This attack is characterized by high complexity. The exploitability is assessed as difficult. The exploit has been disclosed to the public and may be used. The vendor replied with: "(...) there isn't any security implication associated with your findings." |
| An issue in YESCAM (com.yescom.YesCam.zwave) 1.0.2 allows a remote attacker to obtain sensitive information via the firmware update process. |
| A privilege escalation vulnerability was discovered that could allow a valid, authenticated LXCA user to escalate their permissions for a connected XCC instance when using LXCA as a Single Sign On (SSO) provider for XCC instances. |
| A privilege escalation vulnerability was discovered when Single Sign On (SSO) is enabled that could allow an attacker to intercept a valid, authenticated LXCA user’s XCC session if they can convince the user to click on a specially crafted URL. |
| The StrongDM Client insufficiently protected a pre-authentication token. Attackers could exploit this to intercept and reuse the token, potentially redeeming valid authentication credentials through a race condition. |