Author: Ameeba

CVE-2025-9188: Deserialization Vulnerability in Digilent DASYLab Allowing for Arbitrary Code Execution
Overview

This report analyzes a critical vulnerability, identified as CVE-2025-9188, found in all versions of Digilent DASYLab. This vulnerability stems from deserialization of untrusted data, potentially resulting in arbitrary code execution. The impact of this vulnerability is significant as it could lead to system compromise or data leakage, thus necessitating immediate attention and mitigation.

Vulnerability Summary

CVE ID: CVE-2025-9188
Severity: High (7.8)
Attack Vector: Local
Privileges Required: User level
User Interaction: Required
Impact: System compromise and potential data leakage

Affected Products

Product | Affected Versions

Digilent DASYLab | All versions

How the Exploit Works

The vulnerability is rooted in the deserialization process in DASYLab. An attacker can craft a malicious DSB file containing untrusted data. When a user opens this file in DASYLab, the software deserializes the untrusted data. This activity can lead to an arbitrary code execution within the context of the application. Therefore, an attacker could potentially take control of the system or leak sensitive data.

Conceptual Example Code

A hypothetical example of how an attacker might exploit this vulnerability could look something like this:
```
# Create a malicious DSB file
echo "malicious_payload" > exploit.dsb
# The victim opens the malicious DSB file in DASYLab
DASYLab.exe exploit.dsb
```
In this scenario, “malicious_payload” would be replaced with actual malicious code that exploits the deserialization vulnerability, allowing the attacker to execute arbitrary commands or extract sensitive data.

Mitigation Guidance

Users are advised to apply the official vendor patch to mitigate the vulnerability. If the patch cannot be applied immediately, a Web Application Firewall (WAF) or an Intrusion Detection System (IDS) can be used as a temporary measure to detect and prevent exploitation of this vulnerability. It is also recommended to avoid opening DSB files from untrusted sources.
October 24, 2025
CVE-2025-57778: Out of Bounds Write Vulnerability in Digilent DASYLab
Overview

This report discusses a critical vulnerability, CVE-2025-57778, affecting all versions of Digilent DASYLab. The vulnerability stems from an out of bounds write error during the parsing of DSB files, which can result in arbitrary code execution. This puts systems and data at significant risk, emphasizing the importance of immediate mitigation.

Vulnerability Summary

CVE ID: CVE-2025-57778
Severity: High (7.8 CVSS Score)
Attack Vector: Local file
Privileges Required: Low
User Interaction: Required
Impact: Potential system compromise and data leakage

Affected Products

Product | Affected Versions

Digilent DASYLab | All versions

How the Exploit Works

The exploit takes advantage of an out of bounds write vulnerability in Digilent DASYLab. A threat actor crafts a malicious DSB file and convinces a user to open it. The software fails to properly check the bounds, leading to an invalid source address and enabling the attacker to execute arbitrary code.

Conceptual Example Code

This is a conceptual example of how a malicious DSB file might be delivered. The specific payload would vary based on the attacker’s objectives.
```
POST /sendfile HTTP/1.1
Host: target.example.com
Content-Type: application/dsb
{ "file_data": "base64_encoded_malicious_dsb_file" }
```
Mitigation and Prevention

To mitigate the risk posed by CVE-2025-57778, users should immediately apply the patch provided by the vendor. If the patch cannot be applied immediately, use of a Web Application Firewall (WAF) or an Intrusion Detection System (IDS) can provide temporary mitigation. Users should also be educated on the risks of opening unknown or unexpected DSB files.
October 24, 2025
CVE-2025-57777: Out of Bounds Write Vulnerability in Digilent DASYLab’s displ2.dll
Overview

This report examines CVE-2025-57777, a critical out of bounds write vulnerability in Digilent DASYLab’s displ2.dll, affecting all versions of DASYLab. The vulnerability arises due to improper bounds checking when parsing a DSB file, potentially leading to arbitrary code execution.

Vulnerability Summary

CVE ID: CVE-2025-57777
Severity: High (7.8 CVSS Score)
Attack Vector: Local File
Privileges Required: User
User Interaction: Required
Impact: Potential system compromise and data leakage

Affected Products

Product | Affected Versions

Digilent DASYLab | All versions

How the Exploit Works

The exploit involves a threat actor crafting a malicious DSB file that, when parsed by displ2.dll in DASYLab, allows a write operation outside of the allocated memory bounds. This out-of-bounds write can result in memory corruption, potentially leading to arbitrary code execution. The attacker must convince the user to open this specially crafted DSB file to successfully exploit the vulnerability.

Conceptual Example Code

Here is a conceptual example of how a specially crafted DSB file might contain a payload to exploit this vulnerability:
```
$ echo 'malicious_payload' > exploit.dsb
```
In this example, ‘malicious_payload’ represents the data that causes the out-of-bounds write when the `exploit.dsb` file is opened in DASYLab.

Mitigation Guidance

Users are urged to apply the vendor-supplied patch to mitigate this vulnerability. In the absence of a patch, employing a Web Application Firewall (WAF) or Intrusion Detection System (IDS) can provide temporary mitigation by blocking or alerting on attempts to exploit this vulnerability. Users are also advised to be cautious of unsolicited DSB files and to refrain from opening DSB files from untrusted sources.
October 24, 2025
CVE-2025-57776: Out of Bounds Write Vulnerability in Digilent DASYLab
Overview

This report discusses an out of bounds write vulnerability, denoted as CVE-2025-57776, found in all versions of Digilent DASYLab. This vulnerability could potentially allow an attacker to execute arbitrary code, leading to system compromise or data leakage. As such, it presents a significant threat to users of the affected software.

Vulnerability Summary

CVE ID: CVE-2025-57776
Severity: High (7.8 CVSS Score)
Attack Vector: Local
Privileges Required: Low
User Interaction: Required
Impact: Potential system compromise or data leakage

Affected Products

Product | Affected Versions

Digilent DASYLab | All Versions

How the Exploit Works

The vulnerability is triggered when parsing a specially crafted DSB file with Digilent DASYLab. Due to improper bounds checking, an out of bounds write error may occur, resulting in an invalid address. This can potentially allow an attacker to execute arbitrary code. Successful exploitation requires user interaction, specifically a user to open the malicious DSB file.

Conceptual Example Code

The example below is a conceptual representation of a DSB file which might trigger the vulnerability when opened in DASYLab. This is not a real exploit, but an illustration of how an exploit might work.
```
HEADER
Version: 1
...
BODY
Data: [Special crafted data to cause out of bounds write]
...
FOOTER
```
Mitigation Guidance

To mitigate this vulnerability, users are advised to apply the vendor-supplied patch as soon as it is available. In the interim, users can deploy a Web Application Firewall (WAF) or Intrusion Detection System (IDS) to provide temporary mitigation.
October 24, 2025
CVE-2025-57775: Heap-based Buffer Overflow Vulnerability in Digilent DASYLab
Overview

There is a newly discovered critical heap-based buffer overflow vulnerability affecting Digilent DASYLab. This vulnerability, identified as CVE-2025-57775, could potentially lead to system compromise or data leakage if exploited. It is caused by improper bounds checking when parsing a DSB file and affects all versions of DASYLab. The severity of this vulnerability is high, and immediate action is recommended to mitigate its potential effects.

Vulnerability Summary

CVE ID: CVE-2025-57775
Severity: High (7.8 CVSS score)
Attack Vector: Local File
Privileges Required: None
User Interaction: Required
Impact: Potential system compromise and data leakage

Affected Products

Product | Affected Versions

Digilent DASYLab | All versions

How the Exploit Works

The exploit takes advantage of a heap-based buffer overflow vulnerability in Digilent DASYLab. This is due to improper bounds checking when parsing a DSB file, which can lead to arbitrary code execution. An attacker needs to craft a malicious DSB file and convince a user to open it. Successful exploitation could result in system compromise or data leakage.

Conceptual Example Code

Here is a conceptual code that might cause the buffer overflow:
```
def parse_dsb(file):
buffer = bytearray(1024)  # Buffer set to 1024 bytes
file.readinto(buffer)     # Read file into buffer without checking size
# Attacker uses a specially crafted DSB file larger than 1024 bytes
parse_dsb(open("malicious.dsb", "rb"))
```
This Python code demonstrates the conceptual flaw. The function `parse_dsb` reads an entire file into a 1024-byte buffer without checking the file’s size. If a malicious DSB file larger than 1024 bytes is used, it would cause a buffer overflow, potentially leading to arbitrary code execution.

Recommendations

It is highly recommended to apply the vendor patch as soon as it becomes available. In the meantime, utilizing a Web Application Firewall (WAF) or Intrusion Detection System (IDS) can serve as temporary mitigation. Regularly updating and patching software, as well as educating users on the risks of opening untrusted files, can also minimize the risk of exploitation.
October 24, 2025
CVE-2025-57774: Out of Bounds Write Vulnerability in Digilent DASYLab Resulting in Arbitrary Code Execution
Overview

This report discusses CVE-2025-57774, a high-severity vulnerability affecting all versions of Digilent DASYLab. The vulnerability exposes systems to potential compromise and data leakage through out of bounds write due to improper bounds checking. It primarily affects users of the DASYLab software and is of significant concern due to its potential to allow arbitrary code execution.

Vulnerability Summary

CVE ID: CVE-2025-57774
Severity: High, CVSS Score 7.8
Attack Vector: Opening a specially crafted DSB file
Privileges Required: User-level
User Interaction: Required
Impact: Arbitrary code execution leading to potential system compromise or data leakage

Affected Products

Product | Affected Versions

Digilent DASYLab | All versions

How the Exploit Works

The vulnerability lies in the DASYLab software’s handling of DSB files. An attacker can craft a malicious DSB file that, when opened by a user, exploits an out of bounds write vulnerability due to improper bounds checking. This can result in invalid data being parsed, and potentially, arbitrary code execution. Consequently, an attacker could potentially gain control of the system or exfiltrate sensitive data.

Conceptual Example Code

Here’s a conceptual example of how the vulnerability might be exploited. This is not actual exploit code, but rather an illustration of the concept:
```
# Pseudo code representing a specially crafted DSB file
dsb_file = open("malicious.dsb", "w")
buffer = "A" * 5000  # Excessive data leading to out of bounds write
payload = buffer + "malicious code"  # The arbitrary code to be executed
dsb_file.write(payload)
dsb_file.close()
```
This pseudo code creates a malicious DSB file that contains a string of data exceeding the bounds that DASYLab expects, followed by the attacker’s malicious code. When a user opens this file in DASYLab, the software’s lack of proper bounds checking leads to a buffer overflow, allowing the arbitrary code to be executed.
October 24, 2025
CVE-2025-9815: Critical Vulnerability in alaneuler batteryKid on macOS
Overview

The CVE-2025-9815 is a significant vulnerability discovered in the alaneuler batteryKid application, up to version 2.1, specifically on macOS systems. This vulnerability, located in an unknown function of the file PrivilegeHelper/PrivilegeHelper.swift, allows an attacker to bypass authentication mechanisms, potentially resulting in unauthorized system access or data leakage.

Vulnerability Summary

CVE ID: CVE-2025-9815
Severity: High (CVSS: 7.8)
Attack Vector: Local
Privileges Required: None
User Interaction: None
Impact: Potential system compromise and data leakage

Affected Products

Product | Affected Versions

alaneuler batteryKid | Up to version 2.1

How the Exploit Works

The exploit works by manipulating an unknown function within the PrivilegeHelper/PrivilegeHelper.swift file of the alaneuler batteryKid application. This function, which is related to the NSXPCListener component, lacks proper authentication, allowing attackers to execute commands or access data without valid credentials. The exploitation is possible on the local host, meaning the attacker needs to have access to the host system.

Conceptual Example Code

Given the nature of this vulnerability, a conceptual exploitation might involve a rogue script or application executing on the local host. Here’s a simplified example in pseudocode:
```
import Foundation
let connection = NSXPCConnection(serviceName: "com.alaneuler.batteryKid.PrivilegeHelper")
connection.remoteObjectInterface = NSXPCInterface(with: PrivilegeHelperProtocol.self)
connection.resume()
if let service = connection.remoteObjectProxyWithErrorHandler({ error in print("Received error:", error) }) as? PrivilegeHelperProtocol {
service.executeCommand("malicious_command")
}
```
In this example, a malicious command is sent to the PrivilegeHelper service without any form of authentication, exploiting the vulnerability.

Mitigation

Users of alaneuler batteryKid are strongly advised to apply the latest patch released by the vendor, which addresses this vulnerability. In cases where immediate patching isn’t feasible, the use of intrusion detection systems (IDS) or web application firewalls (WAF) can serve as temporary mitigation measures. Regular monitoring and system audits can also help in detecting any anomalies related to this vulnerability.
October 23, 2025
CVE-2025-58178: Critical Command Injection Vulnerability in SonarQube Server and Cloud
Overview

A significant flaw has been identified in SonarQube Scan GitHub Action versions 4 to 5.3.0. The vulnerability, designated as CVE-2025-58178, is a high-risk security flaw due to the potential for command injection and could affect a broad range of organizations utilizing SonarQube for static analysis and code quality control. This vulnerability poses a severe threat to system security and data integrity.

Vulnerability Summary

CVE ID: CVE-2025-58178
Severity: High (CVSS: 7.8)
Attack Vector: Network
Privileges Required: None
User Interaction: None Required
Impact: Potential for system compromise and data leakage

Affected Products

Product | Affected Versions

SonarQube Server | 4 to 5.3.0
SonarQube Cloud | 4 to 5.3.0

How the Exploit Works

The flaw lies in the SonarQube Scan GitHub Action, which fails to adequately sanitize input arguments, treating them as shell expressions. This lack of proper input validation allows an attacker to inject arbitrary commands, which will then be executed by the system. This could lead to unauthorized system access or data leakage.

Conceptual Example Code

A conceptual example of how this vulnerability might be exploited could involve sending a malicious payload embedded within an argument to the SonarQube Scan GitHub Action. The argument, treated as a shell expression, might then execute an arbitrary command, compromising system security. Below is a hypothetical example:
```
sonarqube-scan --target "example.com; rm -rf /"
```
In this example, the injected command `rm -rf /` would cause the deletion of all files in the system.
October 23, 2025
CVE-2022-38695: Unchecked Command Index Leading to Local Privilege Escalation
Overview

The recently identified vulnerability CVE-2022-38695 is a serious cybersecurity concern as it can lead to local escalation of privilege in BootRom. This flaw can affect any system running the vulnerable version of BootRom, allowing unauthorized users to escalate their privileges without needing additional execution rights. The severity of this vulnerability makes it a significant cybersecurity issue that requires immediate attention.

Vulnerability Summary

CVE ID: CVE-2022-38695
Severity: High (CVSS: 7.8)
Attack Vector: Local
Privileges Required: None
User Interaction: None
Impact: System compromise or data leakage

Affected Products

Product | Affected Versions

BootRom | All versions prior to patch

How the Exploit Works

The vulnerability exists due to an unchecked command index in BootRom. An attacker can exploit this flaw by sending specially crafted commands to the BootRom. Since the command index is not properly validated, the attacker can manipulate it to execute privileged commands. This can result in unauthorized access to sensitive information or even full control over the affected system.

Conceptual Example Code

The following is a conceptual example of how this vulnerability might be exploited:
```
$ bootrom_cmd --index 0xFFFFFFFF --command "get_privileges"
```
In this example, the attacker uses the `bootrom_cmd` tool with an unchecked command index (`0xFFFFFFFF`) to execute the privileged command `get_privileges`. This could potentially grant the attacker escalated privileges on the system.

Mitigation Guidance

To mitigate this vulnerability, it is recommended to apply the vendor-provided patch. In the absence of a patch, the use of a Web Application Firewall (WAF) or Intrusion Detection System (IDS) can provide temporary mitigation by monitoring and blocking suspicious activities. Regularly updating and patching your systems can significantly reduce the risk of such vulnerabilities.
October 23, 2025
CVE-2022-38694: Unchecked Write Address leading to Local Escalation of Privilege
Overview

The CVE-2022-38694 vulnerability affects BootRom. This vulnerability could potentially lead to a local escalation of privilege due to an unchecked write address. It carries a high severity rating due to its potential for system compromise or data leakage. This report provides an in-depth analysis of this cybersecurity flaw.

Vulnerability Summary

CVE ID: CVE-2022-38694
Severity: High, CVSS score of 7.8
Attack Vector: Local
Privileges Required: None
User Interaction: None
Impact: This vulnerability could potentially lead to local escalation of privilege with no additional execution privileges needed, resulting in system compromise or data leakage.

Affected Products

Product | Affected Versions

BootRom | All versions prior to vendor patch

How the Exploit Works

The exploit takes advantage of an unchecked write address within BootRom. An attacker with local access can write to an address without any checks, leading to a modification of sensitive data or code. This may further lead to a local escalation of privilege, giving the attacker unauthorized access and control over the system.

Conceptual Example Code

The following pseudocode illustrates how the vulnerability might be exploited:
```
# Attacker gains local access
access_system(target)
# Attacker writes to unchecked address
write_to_address(target, unchecked_address, malicious_payload)
```
This pseudocode is purely conceptual and represents the steps an attacker might take to exploit this vulnerability. The actual exploit would require a much more complex and specific set of commands that are tailored to the target system.

Mitigation

The best mitigation for the CVE-2022-38694 vulnerability is to apply the vendor patch as soon as it is available. As a temporary measure, a Web Application Firewall (WAF) or Intrusion Detection System (IDS) can be used to monitor for any suspicious activity. Regular monitoring of system logs and network traffic can also help in detecting any exploitation attempts.
October 23, 2025