Vendor Rockwell Automation

Timeline

The analysis of the timeline helps to identify the required approach and handling of single vulnerabilities and vulnerability collections. This overview makes it possible to see less important slices and more severe hotspots at a glance. Initiating immediate vulnerability response and prioritizing of issues is possible.

Type »

The moderation team is working with the threat intelligence team to categorize software that is affected by security vulnerabilities. This helps to illustrate the assignment of these categories to determine the most affected software types.

Product »

Grouping vulnerabilities by products helps to get an overview. This makes it possible to determine an homogeneous landscape or the most important hotspots in heterogeneous landscapes.

Remediation »

Vendors and researchers are eager to find countermeasures to mitigate security vulnerabilities. These can be distinguished between multiple forms and levels of remediation which influence risks differently.

Exploitability »

Researcher and attacker which are looking for security vulnerabilities try to exploit them for academic purposes or personal gain. The level and quality of exploitability can be distinguished to determine simplicity and strength of attacks.

Access Vector »

The approach a vulnerability it becomes important to use the expected access vector. This is typically via the network, local, or physically even.

Authentication »

To exploit a vulnerability a certail level of authentication might be required. Vulnerabilities without such a requirement are much more popular.

User Interaction »

Some attack scenarios require some user interaction by a victim. This is typical for phishing, social engineering and cross site scripting attacks.

C3BM Index »

Our unique C3BM Index (CVSSv3 Base Meta Index) cumulates the CVSSv3 Meta Base Scores of all entries over time. Comparing this index to the amount of disclosed vulnerabilities helps to pinpoint the most important events.

CVSSv3 Base »

The Common Vulnerability Scoring System (CVSS) is an industry standard to define the characteristics and impacts of security vulnerabilities. The base score represents the intrinsic aspects that are constant over time and across user environments. Our unique meta score merges all available scores from different sources to aggregate to the most reliable result.

CVSSv3 Temp »

The Common Vulnerability Scoring System (CVSS) uses temp scores to reflect the characteristics of a vulnerability that may change over time but not across user environments. This includes reporting confidence, exploitability and remediation levels. We do also provide our unique meta score for temp scores, even though other sources rarely publish them.

VulDB »

The moderation team is always defining the base vector and base score for an entry. These and all other available scores are used to generate the meta score.

NVD »

The National Vulnerability Database (NVD) is also defining CVSS vectors and scores. These are usually not complete and might differ from VulDB scores.

Vendor »

Some vendors are willing to publish their own CVSS vectors and scores for vulnerabilities in their products. The coverage varies from vendor to vendor.

Research »

There are sometimes also security researcher which provide their own CVSS vectors and scores for vulnerabilities they have found and published.

Exploit 0-day »

The moderation team is working with the threat intelligence team to determine prices for exploits. Our unique algorithm is used to identify the 0-day prices for an exploit, before it got distributed or became public. Calculated prices are aligned to prices disclosed by vulnerability broker and compared to prices we see on exploit markets.

Exploit Today »

The 0-day prices do not consider time-relevant factors. The today price does reflect price impacts like disclosure of vulnerability details, alternative exploits, availability of countermeasures. These dynamic aspects might decrease the exploit prices over time. Under certain circumstances this happens very fast.

Exploit Market Volume »

Our unique calculation of exploit prices makes it possible to forecast the expected exploit market volume. The calculated prices for all possible 0-day expoits are cumulated for this task. Comparing the volume to the amount of disclosed vulnerabilities helps to pinpoint the most important events.

🔴 CTI Activities »

Our unique Cyber Threat Intelligence aims to determine the ongoing research of actors to anticipiate their acitivities. Observing exploit markets on the Darknet, discussions of vulnerabilities on mailinglists, and exchanges on social media makes it possible to identify planned attacks. Monitored actors and activities are classified whether they are offensive or defensive. They are also weighted as some actors are well-known for certain products and technologies. And some of their disclosures might contain more or less details about technical aspects and personal context. The world map highlights active actors in real-time.

Affected Products (46): 0x (1), 1747-L5x (1), 5000 Logix Designer (4), A Ethernet (3), Allen-Bradley CompactLogix 1769-L (1), Arena Simulation Software (4), Arena Simulation Software Cat. 9502-Ax (1), CompactLogix 1768-EWEB (1), CompactLogix 5370 L1 (2), CompactLogix 5370 L2 (1), CompactLogix 5370 L3 (1), CompactLogix GuardLogix (1), Connected Components Workbench (4), ControlFLASH (4), ControlFLASH Plus (4), Controllogix 1756-ENBT (3), DriveTools SP (1), Drives AOP (1), EtherNet-IP Web Server Module 1756-EWEB (1), FactoryTalk Asset Centre (4), FactoryTalk Diagnostics Viewer (1), FactoryTalk Linx (8), FactoryTalk Linx CommDTM (4), FactoryTalk Services Platform (4), FactoryTalk View SE (3), FactoryTalk View SEA (1), Flex IO (1), IP Bridge (3), Logix5000 (1), Logix Designer Studio 5000 (1), MicroLogix (2), MicroLogix 1100 (6), MicroLogix 1400 (7), PLC5 (1), PanelView 5510 (1), PowerFlex 525 AC Drives (1), PowerMonitor 1000 (2), RSLinx Classic (7), RSLinx Enterprise (2), RSLinx Enterprise Software (1), RSLogix 500 (4), RSLogix 1785-Lx (1), RSLogix 5000 (1), SLC5 (1), Studio 5000 Launcher (4), Studio 5000 Logix Designer (1)

PublishedBaseTempVulnerabilityProdExpRemCTICVE
03/26/20216.96.6Rockwell Automation MicroLogix 1400 ModBus Packet buffer overflowAutomation SoftwareNot DefinedOfficial Fix0.05CVE-2021-22659
03/19/20217.87.5Rockwell Automation DriveTools SP/Drives AOP uncontrolled search pathAutomation SoftwareNot DefinedOfficial Fix0.06CVE-2021-22665
03/19/20216.36.3Rockwell Automation FactoryTalk Services Platform unknown vulnerabilityAutomation SoftwareNot DefinedNot Defined0.04CVE-2020-14516
03/04/20218.08.0Rockwell Automation Studio 5000 Logix Designer/RSLogix 5000 insufficiently protected credentialsAutomation SoftwareNot DefinedNot Defined0.05CVE-2021-22681
02/04/20213.53.5Rockwell Automation Flex IO ENIP Request Path Network Segment denial of serviceAutomation SoftwareNot DefinedNot Defined0.09CVE-2020-6088
01/08/20213.53.5Rockwell Automation RSLinx Classic Ethernet IP denial of serviceAutomation SoftwareNot DefinedNot Defined0.05CVE-2020-13573
12/30/20207.37.3Rockwell Automation FactoryTalk Diagnostics Viewer Service Port 5241 RsvcHost.exe wcscpy_s memory corruptionAutomation SoftwareNot DefinedNot Defined0.06CVE-2020-5807
12/30/20205.55.5Rockwell Automation FactoryTalk Linx Service Port 7153 messaging.dll HandleBrowseLoadIconStreamRequest memory corruptionAutomation SoftwareNot DefinedNot Defined0.06CVE-2020-5806
12/30/20205.55.5Rockwell Automation FactoryTalk Linx Service Port 4241 RSLinxNG.exe memory corruptionAutomation SoftwareNot DefinedNot Defined0.04CVE-2020-5802
12/30/20203.53.5Rockwell Automation FactoryTalk Linx Service Port 4241 RnaDaSvr.dll HandleRequest denial of serviceAutomation SoftwareNot DefinedNot Defined0.07CVE-2020-5801

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