Author: Ameeba

  • CVE-2025-47710: Authentication Bypass Vulnerability in Drupal Enterprise MFA – TFA Module

    Overview

    This report provides a comprehensive analysis of the CVE-2025-47710 vulnerability, a significant security flaw detected in the multi-factor authentication (MFA) module, known as Two-Factor Authentication (TFA), for Drupal. The vulnerability presents a risk to any system utilizing versions of the Drupal Enterprise MFA – TFA module from 0.0.0 before 4.7.0, from 5.0.0 before 5.2.0. The flaw, if exploited, can lead to unauthorized access to systems and potential data leakage, significantly impacting businesses and users.

    Vulnerability Summary

    CVE ID: CVE-2025-47710
    Severity: High – 7.4 (CVSS score)
    Attack Vector: Network
    Privileges Required: None
    User Interaction: None
    Impact: Unauthorized system access, potential system compromise or data leakage

    Affected Products

    Product | Affected Versions

    Enterprise MFA – TFA for Drupal | 0.0.0 before 4.7.0
    Enterprise MFA – TFA for Drupal | 5.0.0 before 5.2.0

    How the Exploit Works

    The CVE-2025-47710 vulnerability arises from an alternate authentication path or channel within the Drupal Enterprise MFA – TFA module. This flaw allows an attacker to bypass the multi-factor authentication process, gaining unauthorized access to the system. The vulnerability is network exploitable, which implies that an attacker can exploit it remotely over a network without requiring user interaction or any user privileges.

    Conceptual Example Code

    The following pseudocode illustrates how an attacker might exploit this vulnerability:

    POST /tfa/endpoint HTTP/1.1
    Host: target.example.com
    Content-Type: application/json
    { "alternate_auth_payload": "..." }

    In this example, the attacker sends a malicious JSON payload to the vulnerable endpoint of the TFA module, exploiting the alternate authentication path to bypass the MFA process and gain unauthorized access.

    Mitigation Guidance

    To mitigate the risk associated with this vulnerability, it is recommended to update to the latest version of the Drupal Enterprise MFA – TFA module. For those who cannot immediately upgrade, using a Web Application Firewall (WAF) or an Intrusion Detection System (IDS) can serve as a temporary mitigation mechanism until the patch can be applied.

  • CVE-2025-20006: Intel PROSet/Wireless WiFi Software Denial of Service Vulnerability

    Overview

    The vulnerability CVE-2025-20006 is a significant cybersecurity threat originating from the Intel PROSet/Wireless WiFi Software for Windows. This vulnerability affects all users running versions before 23.100 and can potentially enable an unauthenticated user to launch a denial of service attack. It is of significant concern due to its potential for compromising systems and leaking data.

    Vulnerability Summary

    CVE ID: CVE-2025-20006
    Severity: High (7.4 CVSS score)
    Attack Vector: Adjacent network
    Privileges Required: None
    User Interaction: None
    Impact: Potential system compromise and data leakage

    Affected Products

    Product | Affected Versions

    Intel PROSet/Wireless WiFi Software for Windows | Before 23.100

    How the Exploit Works

    The CVE-2025-20006 vulnerability exploits a “use after free” issue, an error that happens when a program continues to use a pointer after it has been freed. This vulnerability can be exploited by an unauthenticated user via adjacent network access, meaning they need to be on the same local network as the victim. Once exploited, it can potentially enable a denial of service attack, which could disrupt the system operations and potentially lead to data leakage.

    Conceptual Example Code

    A conceptual example might involve a malicious actor sending crafted packets to the vulnerable endpoint in the software. Here’s a conceptual example of a malicious HTTP request:

    POST /vulnerable/endpoint HTTP/1.1
    Host: target.example.com
    Content-Type: application/json
    { "malicious_payload": "freed_pointer_exploit_code" }

    In this example, `”freed_pointer_exploit_code”` would be replaced with the actual code used to exploit the “use after free” vulnerability. As this is a low-level vulnerability, exploiting it would likely involve more complex techniques and tools than an HTTP request, but this provides a high-level conceptual view of the attack.

  • CVE-2025-30384: Code Execution Vulnerability in Microsoft Office SharePoint

    Overview

    This report details a significant cybersecurity vulnerability, identified as CVE-2025-30384, which affects Microsoft Office SharePoint. This vulnerability arises from the deserialization of untrusted data, allowing unauthorized attackers to execute code locally. Given SharePoint’s widespread use in organizations for collaboration and document management, this vulnerability could potentially have serious implications, including system compromise or data leakage.

    Vulnerability Summary

    CVE ID: CVE-2025-30384
    Severity: High (CVSS: 7.4)
    Attack Vector: Network
    Privileges Required: None
    User Interaction: Required
    Impact: Unauthorized code execution leading to potential system compromise or data leakage

    Affected Products

    Product | Affected Versions

    Microsoft Office SharePoint | All versions prior to security update

    How the Exploit Works

    An attacker exploiting this vulnerability would manipulate SharePoint’s data deserialization process. By injecting malicious code into serialized objects, an attacker can cause SharePoint to deserialize untrusted data, leading to the execution of arbitrary code within the security context of the SharePoint server. Such an exploit does not require any special privileges but does necessitate user interaction, such as opening a crafted document or visiting a malicious webpage.

    Conceptual Example Code

    Below is a simplified, conceptual example of a malicious HTTP request exploiting this vulnerability:

    POST /SharePoint-endpoint HTTP/1.1
    Host: target.example.com
    Content-Type: application/json
    {
    "serialized_object": "eyJjbGFzc25hbWUiOiJjb20uZXhhbXBsZS5FeGFtcGxlQ2xhc3MiLCJ2YWx1ZSI6InNvbWUgdmFsdWUifQ==",
    "malicious_code": "base64_encoded_malicious_code_here"
    }

    In this example, the attacker sends a serialized object embedded with malicious code. The SharePoint server, upon deserializing the object, inadvertently executes the code, thus exploiting the vulnerability.

    Mitigation Guidance

    Users are advised to apply the latest security patch provided by Microsoft for Office SharePoint, which addresses this vulnerability. In the absence of a patch, deploying a Web Application Firewall (WAF) or Intrusion Detection System (IDS) can offer temporary mitigation by blocking or alerting on suspicious behavior related to deserialization.

  • CVE-2025-29838: Critical Privilege Escalation Vulnerability in Windows Drivers

    Overview

    This report analyzes the critical vulnerability CVE-2025-29838, a null pointer dereference in Windows Drivers that allows unauthorized attackers to escalate their privileges locally. This vulnerability has a far-reaching impact, affecting numerous Windows users globally and poses a serious threat to organizations due to its high severity score and potential for system compromise or data leakage.

    Vulnerability Summary

    CVE ID: CVE-2025-29838
    Severity: High – CVSS Score: 7.4
    Attack Vector: Local
    Privileges Required: None
    User Interaction: None
    Impact: Unauthorized privilege escalation leading to potential system compromise or data leakage

    Affected Products

    Product | Affected Versions

    Windows Operating System | All current versions

    How the Exploit Works

    The exploit works by taking advantage of a null pointer dereference in certain Windows drivers. In a successful attack scenario, an unauthorized attacker could trigger the null pointer dereference, causing the system to crash or, more critically, allowing the attacker to execute arbitrary code with elevated permissions on the system. This privilege escalation could lead to full system compromise, including data leakage and unauthorized control of the affected system.

    Conceptual Example Code

    The following is a conceptual example of how the vulnerability might be exploited:

    using System;
    using System.Diagnostics;
    namespace CVE_2025_29838
    {
    class Program
    {
    static void Main(string[] args)
    {
    // Obtain a handle to the vulnerable driver
    IntPtr hDevice = CreateFile("\\\\.\\VulnerableDriver", GENERIC_READ | GENERIC_WRITE, 0, IntPtr.Zero, OPEN_EXISTING, 0, IntPtr.Zero);
    // Malicious buffer causes null pointer dereference
    byte[] inputBuffer = new byte[1];
    inputBuffer[0] = 0x00; // Null byte
    uint bytesReturned;
    DeviceIoControl(hDevice, 0x222003, inputBuffer, (uint)inputBuffer.Length, IntPtr.Zero, 0, out bytesReturned, IntPtr.Zero);
    }
    }
    }

    Note that this is a conceptual example and the actual exploitation may vary based on the specific vulnerable driver and system configuration. The above example is intended to illustrate the general principle of the exploit rather than provide a working exploit.

    Mitigation Guidance

    Users are recommended to apply the vendor patch as soon as it is available. Until the patch is deployed, the use of a Web Application Firewall (WAF) or Intrusion Detection System (IDS) may serve as a temporary mitigation measure, but it may not fully protect against all possible exploit scenarios.

  • CVE-2025-46737: Improper CORS Configuration in SEL-5037 Grid Configurator Leads to Potential System Compromise

    Overview

    CVE-2025-46737 is a severe vulnerability found in the SEL-5037 Grid Configurator, a widely used application in power system infrastructure. The issue originates from the application’s overly permissive Cross-Origin Resource Sharing (CORS) configuration for its data gateway service API. This flaw exposes the system to potential unauthorized access and data leakage.

    Vulnerability Summary

    CVE ID: CVE-2025-46737
    Severity: High (CVSS: 7.4)
    Attack Vector: Network
    Privileges Required: None
    User Interaction: None
    Impact: System compromise or data leakage

    Affected Products

    Product | Affected Versions

    SEL-5037 Grid Configurator | All versions up to current

    How the Exploit Works

    The exploit leverages the overly permissive CORS configuration in the data gateway service of the SEL-5037 Grid Configurator. The API within the gateway service is not properly set up to reject requests from unexpected sources. This allows an attacker to make unauthorized API calls from a different domain, potentially leading to system compromise or data leakage.

    Conceptual Example Code

    A conceptual exploit may look something like this:

    GET /api/vulnerable_endpoint HTTP/1.1
    Host: target.com
    Origin: attacker.com
    Access-Control-Request-Method: GET

    In this example, the attacker is initiating a cross-origin request from `attacker.com` to `target.com`. Due to the improper CORS configuration, the server at `target.com` may respond with sensitive data that the attacker should not have access to.

    Mitigation

    Users are advised to apply the vendor patch as soon as it becomes available. In the meantime, a Web Application Firewall (WAF) or Intrusion Detection System (IDS) can be used as a temporary mitigation measure. These systems can be configured to block or alert on potential attacks exploiting this vulnerability.

  • CVE-2025-27720: Unencrypted Credential Transmission in Pixmeo Osirix MD Web Portal

    Overview

    The cybersecurity vulnerability identified as CVE-2025-27720 is an issue within the Pixmeo Osirix MD Web Portal where credential information is sent without encryption. This vulnerability leaves users’ sensitive data exposed to potential cyber attackers who could intercept these credentials and misuse them. Given the scale and sensitivity of data handled by Pixmeo Osirix MD Web Portal, this vulnerability is of significant concern and requires timely remediation.

    Vulnerability Summary

    CVE ID: CVE-2025-27720
    Severity: High (7.4 CVSS Score)
    Attack Vector: Network
    Privileges Required: None
    User Interaction: None
    Impact: Potential system compromise and data leakage

    Affected Products

    Product | Affected Versions

    Pixmeo Osirix MD Web Portal | All versions prior to the patched release

    How the Exploit Works

    The Pixmeo Osirix MD Web Portal sends credential information in plain text over the network. An attacker could exploit this vulnerability by intercepting the network traffic between the user and the web portal. This could be achieved by launching a man-in-the-middle (MITM) attack or by sniffing network traffic on public WiFi networks. Once the attacker captures the unencrypted credentials, they can use them to gain unauthorized access to the system or leak the user’s sensitive data.

    Conceptual Example Code

    Below is a conceptual example of a network packet capture which contains the unencrypted credentials. An attacker could use a tool like Wireshark to intercept such network traffic:

    GET /login HTTP/1.1
    Host: target.example.com
    Authorization: Basic dXNlcm5hbWU6cGFzc3dvcmQ=
    HTTP/1.1 200 OK
    Content-Type: application/json
    { "token": "..." }

    In the example above, “dXNlcm5hbWU6cGFzc3dvcmQ=” is a Base64 encoding of “username:password”. Since the credentials are transmitted in plain text, they could be easily decoded by an attacker.

    Mitigation

    Pixmeo has released a patch to address this vulnerability. Users are strongly advised to apply the patch immediately. As a temporary mitigation, users can also use a Web Application Firewall (WAF) or Intrusion Detection System (IDS) to monitor and filter network traffic. However, these measures only offer partial protection and cannot fully prevent the exploitation of this vulnerability.

  • CVE-2025-20202: Denial of Service Vulnerability in Cisco IOS XE Wireless Controller Software

    Overview

    This report discusses CVE-2025-20202, a severe vulnerability found in Cisco IOS XE Wireless Controller Software. It impacts the network infrastructure of organizations utilizing the affected software, posing a significant threat to their operations and data integrity. This vulnerability, if exploited, could allow an attacker to cause a denial of service (DoS) condition, disrupting network services and potentially leading to system compromise or data leakage.

    Vulnerability Summary

    CVE ID: CVE-2025-20202
    Severity: High (7.4 CVSS Score)
    Attack Vector: Network
    Privileges Required: None
    User Interaction: None
    Impact: A successful exploit of this vulnerability could allow an attacker to cause a denial of service condition, potentially leading to system compromise or data leakage.

    Affected Products

    Product | Affected Versions

    Cisco IOS XE Wireless Controller Software | All versions prior to the latest patch

    How the Exploit Works

    This vulnerability is due to inadequate input validation of access point (AP) Cisco Discovery Protocol (CDP) neighbor reports when processed by the wireless controller. An attacker can exploit this vulnerability by sending a maliciously crafted CDP packet to an AP. If successful, the attacker could cause an unexpected reload of the wireless controller managing the AP, resulting in a denial of service condition that disrupts the wireless network.

    Conceptual Example Code

    The following is a conceptual representation of the maliciously crafted CDP packet sent to the access point:

    cdp send interface eth0
    Destination MAC: 01:00:0C:CC:CC:CC
    CDP Version: 2
    TTL: 180
    Checksum: 0x0000 (incorrect)
    Device ID: Malicious_Device
    Software Version: Cisco IOS Software, C2960 Software (C2960-LANBASEK9-M), Version 12.2(25)SEE2, RELEASE SOFTWARE (fc1)
    Platform: cisco WS-C2960-8TC-L
    Addresses: 1 address
    1. IP: 192.0.2.1
    Port ID: Gig 0/1
    Capabilities: Router, L2 Switch, IGMP filtering
    VTP Management Domain:
    Native VLAN: 1
    Duplex: full
    Power available: 0 mW, Power request id: 0, Power management id: 0

    Please note that the above pseudocode is a conceptual representation of how an exploit may occur. The actual exploit would be specific to the vulnerabilities in the code of the affected software.

    Mitigation Guidance

    To mitigate this vulnerability, it is recommended to apply the latest patch provided by the vendor. In case the patch cannot be applied immediately, the use of Web Application Firewalls (WAF) or Intrusion Detection Systems (IDS) could serve as a temporary mitigation measure. These tools can help identify and block the crafted CDP packets that could exploit the vulnerability.

  • CVE-2025-20191: Denial of Service Vulnerability in Cisco Security Features

    Overview

    The vulnerability, identified as CVE-2025-20191, affects the Switch Integrated Security Features (SISF) of multiple Cisco software products. This vulnerability is crucial as it allows an unauthenticated attacker to potentially cause a denial of service (DoS) condition on the affected device, compromising system stability and potentially leading to data leakage.

    Vulnerability Summary

    CVE ID: CVE-2025-20191
    Severity: High (7.4)
    Attack Vector: Network
    Privileges Required: None
    User Interaction: None
    Impact: Denial of Service, potential system compromise and data leakage

    Affected Products

    Product | Affected Versions

    Cisco IOS Software | All vulnerable versions
    Cisco IOS XE Software | All vulnerable versions
    Cisco NX-OS Software | All vulnerable versions
    Cisco WLC AireOS Software | All vulnerable versions

    How the Exploit Works

    The vulnerability stems from the incorrect handling of DHCPv6 packets. An attacker can exploit this by sending a crafted DHCPv6 packet to the affected device. If successfully exploited, the device reloads, resulting in a Denial of Service condition.

    Conceptual Example Code

    Below is a conceptual example of how an attacker might craft a malicious DHCPv6 packet to exploit this vulnerability. Note that this is a simplified representation and real-world attacks would require more complex code:

    import scapy.all as scapy
    # Create a malicious DHCPv6 packet
    packet = scapy.IPv6()/scapy.UDP(dport=547)/scapy.DHCP6_Reply()
    # Add malicious data to the packet
    packet[scapy.DHCP6_Reply].options.append(scapy.DHCP6OptUnknown(optcode=666, optlen=666, optdata="...malicious data..."))
    # Send the packet to the target device
    scapy.send(packet, iface="eth0")

    Please note that the actual malicious data would need to be specifically crafted to exploit the vulnerability in the target device, which is not covered in this simplification.

  • CVE-2025-20189: Denial of Service Vulnerability in Cisco IOS XE Software

    Overview

    The CVE-2025-20189 vulnerability is a significant flaw in the Cisco Express Forwarding functionality of the Cisco IOS XE Software for Cisco ASR 903 Aggregation Services Routers with Route Switch Processor 3 (RSP3C). This vulnerability can be exploited by an unauthenticated, adjacent attacker to trigger a denial of service (DoS) condition, potentially compromising the system or leading to data leakage.

    Vulnerability Summary

    CVE ID: CVE-2025-20189
    Severity: High (7.4 CVSS Score)
    Attack Vector: Network
    Privileges Required: None
    User Interaction: None
    Impact: Successful exploitation could allow the attacker to exhaust system resources, causing a reload of the active route switch processor (RSP). In the absence of a redundant RSP, the router reloads, potentially leading to system compromise or data leakage.

    Affected Products

    Product | Affected Versions

    Cisco IOS XE Software for Cisco ASR 903 Aggregation Services Routers with Route Switch Processor 3 (RSP3C) | All versions prior to patch

    How the Exploit Works

    The exploit works by sending crafted ARP messages at a high rate over a period of time to an affected device. This triggers a vulnerability in the Cisco Express Forwarding functionality of the Cisco IOS XE Software due to improper memory management. This in turn allows an attacker to exhaust system resources, leading to a reload of the active route switch processor (RSP). If a redundant RSP is not present, the router reloads, leading to a DoS condition.

    Conceptual Example Code

    While the exact code used to exploit this vulnerability is not available, an attacker might use a tool to send a large number of ARP messages to the target device. This could be conceptually represented by the pseudocode below:

    for i in range(1, 1000000):
    send_arp("target_ip_address", crafted_arp_message)

    In this example, `send_arp` is a hypothetical function that sends an ARP message to a target IP address, and `crafted_arp_message` is a malicious ARP message crafted to exploit the vulnerability.

  • CVE-2025-20140: Cisco IOS XE Software Wireless Network Control Daemon Vulnerability

    Overview

    The following report provides a detailed analysis of a notable cybersecurity vulnerability identified as CVE-2025-20140. This vulnerability resides in the Wireless Network Control daemon (wncd) of Cisco IOS XE Software for Wireless LAN Controllers. If exploited, it could lead to severe consequences such as a denial of service (DoS) condition, potential system compromise, or data leakage, affecting various businesses and organizations relying on Cisco’s wireless networking solutions.

    Vulnerability Summary

    CVE ID: CVE-2025-20140
    Severity: High (7.4)
    Attack Vector: Network
    Privileges Required: Low
    User Interaction: None
    Impact: Denial of Service (DoS), potential system compromise, or data leakage

    Affected Products

    Product | Affected Versions

    Cisco IOS XE Software | All versions prior to the patch

    How the Exploit Works

    The vulnerability arises from improper memory management within the Wireless Network Control daemon (wncd) of Cisco IOS XE Software. An attacker can exploit this vulnerability by sending a series of IPv6 network requests from an associated wireless IPv6 client to an affected device. If successful, this exploit could cause the wncd process to consume all available memory, leading to the device stopping its response and hence resulting in a denial of service (DoS) condition.

    Conceptual Example Code

    Below is a conceptual example of how the vulnerability might be exploited. The attacker would send a series of IPv6 network requests, each potentially causing increased memory consumption on the targeted device.

    # Attacker's device (IPv6 client)
    for i in {1..100000}
    do
    # Send network request to the targeted device
    curl -6 http://[target_device_ipv6_address]/request_endpoint
    done

    Please note that this is a conceptual representation and does not represent an actual exploit code.

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