| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| Azure Service Connector Security Feature Bypass Vulnerability |
| Zope AccessControl provides a general security framework for use in Zope. In affected versions anonymous users can delete the user data maintained by an `AccessControl.userfolder.UserFolder` which may prevent any privileged access. This problem has been fixed in version 7.2. Users are advised to upgrade. Users unable to upgrade may address the issue by adding `data__roles__ = ()` to `AccessControl.userfolder.UserFolder`. |
| A vulnerability classified as critical was found in code-projects Online Shoe Store 1.0. Affected by this vulnerability is an unknown functionality of the file /admin/index.php. The manipulation leads to improper access controls. The attack can be launched remotely. The exploit has been disclosed to the public and may be used. |
| If an attacked was given access to an instance with the admin or manager role there is no backend authentication that would prevent the attacked from creating a new user with an `admin` role and then be able to use this new account to have elevated privileges on the instance |
| Various Issues Due To Exposed SMI Handler in AmdPspP2CmboxV2. The first issue can be leveraged to bypass the protections that have been put in place by previous UEFI phases to prevent direct access to the SPI flash. The second issue can be used to both leak and corrupt SMM memory thus potentially leading code execution in SMM |
| Various Issues Due To Exposed SMI Handler in AmdPspP2CmboxV2. The first issue can be leveraged to bypass the protections that have been put in place by previous UEFI phases to prevent direct access to the SPI flash. The second issue can be used to both leak and corrupt SMM memory, thus potentially leading code execution in SMM |
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InHand Networks InRouter 302, prior to version IR302 V3.5.56, and InRouter 615, prior to version InRouter6XX-S-V2.3.0.r5542, contain vulnerability CWE-284: Improper Access Control. They allow unauthenticated devices to subscribe to MQTT topics on the same network as the device manager. An unauthorized user who knows of an existing topic name could send and receive messages to and from that topic. This includes the ability to send GET/SET configuration commands, reboot commands, and push firmware updates.
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An unauthorized user could be able to read any file on the system, potentially exposing sensitive information.
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An unauthorized user could possibly delete any file on the system.
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| Econolite EOS versions prior to 3.2.23 lack a password
requirement for gaining “READONLY” access to log files and certain database and
configuration files. One such file contains tables with MD5 hashes and
usernames for all defined users in the control software, including
administrators and technicians.
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| LS ELECTRIC XBC-DN32U with operating system version 01.80 has improper access control to its read prohibition feature. This could allow a remote attacker to remotely set the feature to lock users out of reading data from the device.
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| LS ELECTRIC XBC-DN32U with operating system version 01.80 does not properly control access to the PLC over its internal XGT protocol. An attacker could control and tamper with the PLC by sending the packets to the PLC over its XGT protocol.
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Omron CJ1M unit v4.0 and prior has improper access controls on the memory region where the UM password is stored. If an adversary issues a PROGRAM AREA WRITE command to a specific memory region, they could overwrite the password. This may lead to disabling UM protections or setting a non-ASCII password (non-keyboard characters) and preventing an engineer from viewing or modifying the user program.
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| The cookie session ID is of insufficient length and can be exploited by
brute force, which may allow a remote attacker to obtain a valid
session, bypass authentication, and manipulate the transmitter.
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The application suffers from improper access control when editing users.
A user with read permissions can manipulate users, passwords, and
permissions by sending a single HTTP POST request with modified
parameters.
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Sielco PolyEco1000 is vulnerable to an attacker escalating their privileges by modifying passwords in POST requests.
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Sielco PolyEco1000 is vulnerable to an information disclosure vulnerability due to improper access control enforcement. An unauthenticated remote attacker can exploit this via a specially crafted request to gain access to sensitive information.
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Sielco PolyEco1000 is vulnerable to an attacker bypassing authorization and accessing resources behind protected pages. The application interface allows users to perform certain actions via HTTP requests without performing any validity checks to verify the requests.
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Sielco PolyEco1000 is vulnerable to an improper access control vulnerability when the application provides direct access to objects based on user-supplied input. As a result of this vulnerability attackers can bypass authorization and access resources behind protected pages.
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Sielco PolyEco1000 is vulnerable to an authentication bypass vulnerability due to an attacker modifying passwords in a POST request and gain unauthorized access to the affected device with administrative privileges.
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