linear CVE Vulnerabilities & Metrics

Focus on linear vulnerabilities and metrics.

Last updated: 08 Mar 2025, 23:25 UTC

About linear Security Exposure

This page consolidates all known Common Vulnerabilities and Exposures (CVEs) associated with linear. We track both calendar-based metrics (using fixed periods) and rolling metrics (using gliding windows) to give you a comprehensive view of security trends and risk evolution. Use these insights to assess risk and plan your patching strategy.

For a broader perspective on cybersecurity threats, explore the comprehensive list of CVEs by vendor and product. Stay updated on critical vulnerabilities affecting major software and hardware providers.

Global CVE Overview

Total linear CVEs: 3
Earliest CVE date: 10 Jan 2022, 14:10 UTC
Latest CVE date: 18 Nov 2024, 16:15 UTC

Latest CVE reference: CVE-2024-52426

Rolling Stats

30-day Count (Rolling): 0
365-day Count (Rolling): 1

Calendar-based Variation

Calendar-based Variation compares a fixed calendar period (e.g., this month versus the same month last year), while Rolling Growth Rate uses a continuous window (e.g., last 30 days versus the previous 30 days) to capture trends independent of calendar boundaries.

Variations & Growth

Month Variation (Calendar): 0%
Year Variation (Calendar): 0%

Month Growth Rate (30-day Rolling): 0.0%
Year Growth Rate (365-day Rolling): 0.0%

Monthly CVE Trends (current vs previous Year)

Annual CVE Trends (Last 20 Years)

Critical linear CVEs (CVSS ≥ 9) Over 20 Years

CVSS Stats

Average CVSS: 4.37

Max CVSS: 8.3

Critical CVEs (≥9): 0

CVSS Range vs. Count

Range	Count
0.0-3.9	1
4.0-6.9	1
7.0-8.9	1
9.0-10.0	0

CVSS Distribution Chart

Top 5 Highest CVSS linear CVEs

These are the five CVEs with the highest CVSS scores for linear, sorted by severity first and recency.

CVE-2020-9057 linear Published on 10 Jan 2022, 14:10 UTC (CVSS: 8.3)
Z-Wave devices based on Silicon Labs 100, 200, and 300 series chipsets do not support encryption, allowing an attacker within radio range to take control of or cause a denial of service to a vulnerable device. An attacker can also capture and replay Z-Wave traffic. Firmware upgrades cannot directly address this vulnerability as it is an issue with the Z-Wave specification for these legacy chips...
CVE-2020-9058 linear Published on 10 Jan 2022, 14:10 UTC (CVSS: 4.8)
Z-Wave devices based on Silicon Labs 500 series chipsets using CRC-16 encapsulation, including but likely not limited to the Linear LB60Z-1 version 3.5, Dome DM501 version 4.26, and Jasco ZW4201 version 4.05, do not implement encryption or replay protection.
CVE-2024-52426 linear Published on 18 Nov 2024, 16:15 UTC (CVSS: 0)
Improper Neutralization of Input During Web Page Generation (XSS or 'Cross-site Scripting') vulnerability in Linear Oy Linear linear allows DOM-Based XSS.This issue affects Linear: from n/a through 2.7.11.

All CVEs for linear

CVE-2024-52426 linear vulnerability CVSS: 0 18 Nov 2024, 16:15 UTC

Improper Neutralization of Input During Web Page Generation (XSS or 'Cross-site Scripting') vulnerability in Linear Oy Linear linear allows DOM-Based XSS.This issue affects Linear: from n/a through 2.7.11.

CVE-2020-9058 linear vulnerability CVSS: 4.8 10 Jan 2022, 14:10 UTC

Z-Wave devices based on Silicon Labs 500 series chipsets using CRC-16 encapsulation, including but likely not limited to the Linear LB60Z-1 version 3.5, Dome DM501 version 4.26, and Jasco ZW4201 version 4.05, do not implement encryption or replay protection.

CVE-2020-9057 linear vulnerability CVSS: 8.3 10 Jan 2022, 14:10 UTC

Z-Wave devices based on Silicon Labs 100, 200, and 300 series chipsets do not support encryption, allowing an attacker within radio range to take control of or cause a denial of service to a vulnerable device. An attacker can also capture and replay Z-Wave traffic. Firmware upgrades cannot directly address this vulnerability as it is an issue with the Z-Wave specification for these legacy chipsets. One way to protect against this vulnerability is to use 500 or 700 series chipsets that support Security 2 (S2) encryption. As examples, the Linear WADWAZ-1 version 3.43 and WAPIRZ-1 version 3.43 (with 300 series chipsets) are vulnerable.