Microsoft Patch Tuesday, July 2022 Edition

2022-07-13T01:02:49

Description

**Microsoft** today released updates to fix at least 86 security vulnerabilities in its **Windows** operating systems and other software, including a weakness in all supported versions of Windows that Microsoft warns is actively being exploited. The software giant also has made a controversial decision to put the brakes on a plan to block **macros** in **Office** documents downloaded from the Internet. ![](https://krebsonsecurity.com/wp-content/uploads/2022/07/winupdatedate.png) In February, security experts hailed Microsoft's decision to block VBA macros in all documents downloaded from the Internet. The company said it would roll out the changes in stages between April and June 2022. Macros have long been a trusted way for cybercrooks to trick people into running malicious code. Microsoft Office by default warns users that enabling macros in untrusted documents is a security risk, but those warnings can be easily disabled with the click of button. Under Microsoft's plan, the new warnings provided no such way to enable the macros. As _Ars Technica_ veteran reporter **Dan Goodin** [put it](<https://arstechnica.com/information-technology/2022/07/microsoft-makes-major-course-reversal-allows-office-to-run-untrusted-macros/>), "security professionals—some who have spent the past two decades watching clients and employees get infected with ransomware, wipers, and espionage with frustrating regularity—cheered the change." But last week, Microsoft abruptly changed course. As [first reported](<https://www.bleepingcomputer.com/news/microsoft/microsoft-rolls-back-decision-to-block-office-macros-by-default/>) by _BleepingComputer_, Redmond said it would roll back the changes based on feedback from users. "While Microsoft has not shared the negative feedback that led to the rollback of this change, users have reported that they are unable to find the Unblock button to remove the Mark-of-the-Web from downloaded files, making it impossible to enable macros," Bleeping's **Sergiu Gatlan** wrote. Microsoft later said the decision to roll back turning off macros by default was temporary, although it has not indicated when this important change might be made for good. The zero-day Windows vulnerability already seeing active attacks is [CVE-2022-22047](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>), which is an elevation of privilege vulnerability in all supported versions of Windows. Trend Micro's **Zero Day Initiative** notes that while this bug is listed as being under active attack, there’s no information from Microsoft on where or how widely it is being exploited. "The vulnerability allows an attacker to execute code as SYSTEM, provided they can execute other code on the target," ZDI's Dustin Childs [wrote](<https://www.zerodayinitiative.com/blog/2022/7/12/the-july-2022-security-update-review>). "Bugs of this type are typically paired with a code execution bug, usually a specially crafted Office or Adobe document, to take over a system. These attacks often rely on macros, which is why so many were disheartened to hear Microsoft’s delay in blocking all Office macros by default." **Kevin Breen**, director of cyber threat research at **Immersive Labs**, said CVE-2022-22047 is the kind of vulnerability that is typically seen abused after a target has already been compromised. "Crucially, it allows the attacker to escalate their permissions from that of a normal user to the same permissions as the SYSTEM," he said. "With this level of access, the attackers are able to disable local services such as Endpoint Detection and Security tools. With SYSTEM access they can also deploy tools like Mimikatz which can be used to recover even more admin and domain level accounts, spreading the threat quickly." After a brief reprieve from patching serious security problems in the **Windows Print Spooler** service, we are back to business as usual. July's patch batch contains fixes for four separate elevation of privilege vulnerabilities in Windows Print Spooler, identified as [CVE-2022-22022](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22022>), [CVE-2022-22041](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22041>), [CVE-2022-30206](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30206>), and [CVE-2022-30226](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30226>). Experts at security firm **Tenable** note that these four flaws provide attackers with the ability to delete files or gain SYSTEM level privileges on a vulnerable system. Roughly a third of the patches issued today involve weaknesses in Microsoft's Azure Site Recovery offering. Other components seeing updates this month include **Microsoft Defender for Endpoint**; **Microsoft Edge** (Chromium-based); **Office**; **Windows BitLocker**; **Windows Hyper-V**; **Skype for Business** and **Microsoft Lync**; and **Xbox**. Four of the flaws fixed this month address vulnerabilities Microsoft rates "critical," meaning they could be used by malware or malcontents to assume remote control over unpatched Windows systems, usually without any help from users. [CVE-2022-22029](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22029>) and [CVE-2022-22039](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22039>) affect Network File System (NFS) servers, and [CVE-2022-22038](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22038>) affects the Remote Procedure Call (RPC) runtime. "Although all three of these will be relatively tricky for attackers to exploit due to the amount of sustained data that needs to be transmitted, administrators should patch sooner rather than later," said **Greg Wiseman**, product manager at **Rapid7**. "[CVE-2022-30221](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30221>) supposedly affects the Windows Graphics Component, though Microsoft’s FAQ indicates that exploitation requires users to access a malicious RDP server." Separately, Adobe today [issued patches](<https://helpx.adobe.com/security.html>) to address at least 27 vulnerabilities across multiple products, including **Acrobat** and **Reader**, **Photoshop**, **RoboHelp**, and **Adobe Character Animator**. For a closer look at the patches released by Microsoft today and indexed by severity and other metrics, check out the [always-useful Patch Tuesday roundup](<https://isc.sans.edu/forums/diary/Microsoft%20July%202022%20Patch%20Tuesday/28838/>) from the **SANS Internet Storm Center**. And it’s not a bad idea to hold off updating for a few days until Microsoft works out any kinks in the updates: [AskWoody.com](<https://www.askwoody.com/>) usually has the lowdown on any patches that may be causing problems for Windows users. As always, please consider backing up your system or at least your important documents and data before applying system updates. And if you run into any problems with these updates, please drop a note about it here in the comments.

{"id": "KREBS:4D5B2D5FA1A6E077B46D7F3051319E72", "vendorId": null, "type": "krebs", "bulletinFamily": "blog", "title": "Microsoft Patch Tuesday, July 2022 Edition", "description": "**Microsoft** today released updates to fix at least 86 security vulnerabilities in its **Windows** operating systems and other software, including a weakness in all supported versions of Windows that Microsoft warns is actively being exploited. The software giant also has made a controversial decision to put the brakes on a plan to block **macros** in **Office** documents downloaded from the Internet.\n\n![](https://krebsonsecurity.com/wp-content/uploads/2022/07/winupdatedate.png)\n\nIn February, security experts hailed Microsoft's decision to block VBA macros in all documents downloaded from the Internet. The company said it would roll out the changes in stages between April and June 2022.\n\nMacros have long been a trusted way for cybercrooks to trick people into running malicious code. Microsoft Office by default warns users that enabling macros in untrusted documents is a security risk, but those warnings can be easily disabled with the click of button. Under Microsoft's plan, the new warnings provided no such way to enable the macros.\n\nAs _Ars Technica_ veteran reporter **Dan Goodin** [put it](<https://arstechnica.com/information-technology/2022/07/microsoft-makes-major-course-reversal-allows-office-to-run-untrusted-macros/>), "security professionals\u2014some who have spent the past two decades watching clients and employees get infected with ransomware, wipers, and espionage with frustrating regularity\u2014cheered the change."\n\nBut last week, Microsoft abruptly changed course. As [first reported](<https://www.bleepingcomputer.com/news/microsoft/microsoft-rolls-back-decision-to-block-office-macros-by-default/>) by _BleepingComputer_, Redmond said it would roll back the changes based on feedback from users.\n\n"While Microsoft has not shared the negative feedback that led to the rollback of this change, users have reported that they are unable to find the Unblock button to remove the Mark-of-the-Web from downloaded files, making it impossible to enable macros," Bleeping's **Sergiu Gatlan** wrote.\n\nMicrosoft later said the decision to roll back turning off macros by default was temporary, although it has not indicated when this important change might be made for good.\n\nThe zero-day Windows vulnerability already seeing active attacks is [CVE-2022-22047](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>), which is an elevation of privilege vulnerability in all supported versions of Windows. Trend Micro's **Zero Day Initiative** notes that while this bug is listed as being under active attack, there\u2019s no information from Microsoft on where or how widely it is being exploited.\n\n"The vulnerability allows an attacker to execute code as SYSTEM, provided they can execute other code on the target," ZDI's Dustin Childs [wrote](<https://www.zerodayinitiative.com/blog/2022/7/12/the-july-2022-security-update-review>). "Bugs of this type are typically paired with a code execution bug, usually a specially crafted Office or Adobe document, to take over a system. These attacks often rely on macros, which is why so many were disheartened to hear Microsoft\u2019s delay in blocking all Office macros by default."\n\n**Kevin Breen**, director of cyber threat research at **Immersive Labs**, said CVE-2022-22047 is the kind of vulnerability that is typically seen abused after a target has already been compromised.\n\n"Crucially, it allows the attacker to escalate their permissions from that of a normal user to the same permissions as the SYSTEM," he said. "With this level of access, the attackers are able to disable local services such as Endpoint Detection and Security tools. With SYSTEM access they can also deploy tools like Mimikatz which can be used to recover even more admin and domain level accounts, spreading the threat quickly."\n\nAfter a brief reprieve from patching serious security problems in the **Windows Print Spooler** service, we are back to business as usual. July's patch batch contains fixes for four separate elevation of privilege vulnerabilities in Windows Print Spooler, identified as [CVE-2022-22022](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22022>), [CVE-2022-22041](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22041>), [CVE-2022-30206](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30206>), and [CVE-2022-30226](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30226>). Experts at security firm **Tenable** note that these four flaws provide attackers with the ability to delete files or gain SYSTEM level privileges on a vulnerable system.\n\nRoughly a third of the patches issued today involve weaknesses in Microsoft's Azure Site Recovery offering. Other components seeing updates this month include **Microsoft Defender for Endpoint**; **Microsoft Edge** (Chromium-based); **Office**; **Windows BitLocker**; **Windows Hyper-V**; **Skype for Business** and **Microsoft Lync**; and **Xbox**.\n\nFour of the flaws fixed this month address vulnerabilities Microsoft rates "critical," meaning they could be used by malware or malcontents to assume remote control over unpatched Windows systems, usually without any help from users. [CVE-2022-22029](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22029>) and [CVE-2022-22039](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22039>) affect Network File System (NFS) servers, and [CVE-2022-22038](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22038>) affects the Remote Procedure Call (RPC) runtime.\n\n"Although all three of these will be relatively tricky for attackers to exploit due to the amount of sustained data that needs to be transmitted, administrators should patch sooner rather than later," said **Greg Wiseman**, product manager at **Rapid7**. "[CVE-2022-30221](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30221>) supposedly affects the Windows Graphics Component, though Microsoft\u2019s FAQ indicates that exploitation requires users to access a malicious RDP server."\n\nSeparately, Adobe today [issued patches](<https://helpx.adobe.com/security.html>) to address at least 27 vulnerabilities across multiple products, including **Acrobat** and **Reader**, **Photoshop**, **RoboHelp**, and **Adobe Character Animator**.\n\nFor a closer look at the patches released by Microsoft today and indexed by severity and other metrics, check out the [always-useful Patch Tuesday roundup](<https://isc.sans.edu/forums/diary/Microsoft%20July%202022%20Patch%20Tuesday/28838/>) from the **SANS Internet Storm Center**. And it\u2019s not a bad idea to hold off updating for a few days until Microsoft works out any kinks in the updates: [AskWoody.com](<https://www.askwoody.com/>) usually has the lowdown on any patches that may be causing problems for Windows users.\n\nAs always, please consider backing up your system or at least your important documents and data before applying system updates. And if you run into any problems with these updates, please drop a note about it here in the comments.", "published": "2022-07-13T01:02:49", "modified": "2022-07-13T01:02:49", "cvss": {"score": 9.0, "vector": "AV:N/AC:L/Au:S/C:C/I:C/A:C"}, "cvss2": {"cvssV2": {"version": "2.0", "vectorString": "AV:N/AC:L/Au:S/C:C/I:C/A:C", "accessVector": "NETWORK", "accessComplexity": "LOW", "authentication": "SINGLE", "confidentialityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "baseScore": 9.0}, "severity": "HIGH", "exploitabilityScore": 8.0, "impactScore": 10.0, "acInsufInfo": false, "obtainAllPrivilege": false, "obtainUserPrivilege": false, "obtainOtherPrivilege": false, "userInteractionRequired": false}, "cvss3": {"cvssV3": {"version": "3.1", "vectorString": "CVSS:3.1/AV:N/AC:L/PR:N/UI:R/S:U/C:H/I:H/A:H", "attackVector": "NETWORK", "attackComplexity": "LOW", "privilegesRequired": "NONE", "userInteraction": "REQUIRED", "scope": "UNCHANGED", "confidentialityImpact": "HIGH", "integrityImpact": "HIGH", "availabilityImpact": "HIGH", "baseScore": 8.8, "baseSeverity": "HIGH"}, "exploitabilityScore": 2.8, "impactScore": 5.9}, "href": "https://krebsonsecurity.com/2022/07/microsoft-patch-tuesday-july-2022-edition/", "reporter": "BrianKrebs", "references": [], "cvelist": ["CVE-2022-22022", "CVE-2022-22029", "CVE-2022-22038", "CVE-2022-22039", "CVE-2022-22041", "CVE-2022-22047", "CVE-2022-30206", "CVE-2022-30221", "CVE-2022-30226"], "immutableFields": [], "lastseen": "2022-07-16T21:59:04", "viewCount": 25, "enchantments": {"score": {"value": 0.1, "vector": "NONE"}, "dependencies": {"references": [{"type": "attackerkb", "idList": ["AKB:0B6E13D5-84E0-4D3E-BD21-781032FA30ED"]}, {"type": "avleonov", "idList": ["AVLEONOV:B87691B304EF70215B926F66B871260A"]}, {"type": "checkpoint_advisories", "idList": ["CPAI-2022-0362"]}, {"type": "cve", "idList": ["CVE-2022-22022", "CVE-2022-22026", "CVE-2022-22029", "CVE-2022-22038", "CVE-2022-22039", "CVE-2022-22041", "CVE-2022-22047", "CVE-2022-22049", "CVE-2022-30206", "CVE-2022-30221", "CVE-2022-30226"]}, {"type": "kaspersky", "idList": ["KLA12580", "KLA12581"]}, {"type": "malwarebytes", "idList": ["MALWAREBYTES:90BD6A9BB937B6617FDC4FE73A86B38A"]}, {"type": "mmpc", "idList": ["MMPC:85647D37E79AFEF2BFF74B4682648C5E"]}, {"type": "mscve", "idList": ["MS:CVE-2022-22022", "MS:CVE-2022-22026", "MS:CVE-2022-22029", "MS:CVE-2022-22038", "MS:CVE-2022-22039", "MS:CVE-2022-22041", "MS:CVE-2022-22047", "MS:CVE-2022-22049", "MS:CVE-2022-30206", "MS:CVE-2022-30221", "MS:CVE-2022-30226"]}, {"type": "mskb", "idList": ["KB5015874", "KB5015877"]}, {"type": "mssecure", "idList": ["MSSECURE:85647D37E79AFEF2BFF74B4682648C5E"]}, {"type": "nessus", "idList": ["SMB_NT_MS22_JUL_5015807.NASL", "SMB_NT_MS22_JUL_5015808.NASL", "SMB_NT_MS22_JUL_5015811.NASL", "SMB_NT_MS22_JUL_5015814.NASL", "SMB_NT_MS22_JUL_5015827.NASL", "SMB_NT_MS22_JUL_5015832.NASL", "SMB_NT_MS22_JUL_5015862.NASL", "SMB_NT_MS22_JUL_5015870.NASL", "SMB_NT_MS22_JUL_5015875.NASL", "SMB_NT_MS22_JUL_5015877.NASL", "SMB_NT_MS22_JUL_RDC.NASL"]}, {"type": "qualysblog", "idList": ["QUALYSBLOG:65C282BB0F312A3AD8A043024FD3D866"]}, {"type": "rapid7blog", "idList": ["RAPID7BLOG:B54637535A9D368B19D4D9881C6C34B3"]}, {"type": "talosblog", "idList": ["TALOSBLOG:F032D3BBC6D695272384D4A3821130BF"]}, {"type": "thn", "idList": ["THN:8C2FBC83F6EC62900F1887F00903447F", "THN:DFA2CC41C78DFA4BED87B1410C21CE2A"]}, {"type": "threatpost", "idList": ["THREATPOST:781705ADC10B0D40FC4B8D835FA5EA6D"]}]}, "epss": [{"cve": "CVE-2022-22022", "epss": "0.000440000", "percentile": "0.083420000", "modified": "2023-03-19"}, {"cve": "CVE-2022-22029", "epss": "0.009940000", "percentile": "0.812600000", "modified": "2023-03-19"}, {"cve": "CVE-2022-22038", "epss": "0.004140000", "percentile": "0.699910000", "modified": "2023-03-19"}, {"cve": "CVE-2022-22039", "epss": "0.002750000", "percentile": "0.631310000", "modified": "2023-03-19"}, {"cve": "CVE-2022-22041", "epss": "0.000850000", "percentile": "0.345070000", "modified": "2023-03-19"}, {"cve": "CVE-2022-22047", "epss": "0.000560000", "percentile": "0.214740000", "modified": "2023-03-19"}, {"cve": "CVE-2022-30206", "epss": "0.010300000", "percentile": "0.815740000", "modified": "2023-03-19"}, {"cve": "CVE-2022-30221", "epss": "0.049760000", "percentile": "0.915780000", "modified": "2023-03-19"}, {"cve": "CVE-2022-30226", "epss": "0.000430000", "percentile": "0.078800000", "modified": "2023-03-19"}], "vulnersScore": 0.1}, "_state": {"score": 1684014595, "dependencies": 1659988328, "epss": 1679300891}, "_internal": {"score_hash": "ed767124ac6fea9bed7b11f161f6667a"}}

{"malwarebytes": [{"lastseen": "2022-07-16T16:17:19", "description": "It\u2019s time to triage a lot of [patching](<https://www.malwarebytes.com/business/vulnerability-patch-management>) again. Microsoft\u2019s July Patch Tuesday includes an actively exploited local privilege escalation vulnerability in the Windows Client/Server Runtime Subsystem (CSRSS). This vulnerability immediately made it to the Cybersecurity & Infrastructure Security Agency (CISA) list of [known to be exploited in the wild list](<https://blog.malwarebytes.com/reports/2021/11/cisa-sets-two-week-window-for-patching-serious-vulnerabilities/>) that are due for patching by August 2, 2022.\n\n## Microsoft\n\nIn total the Microsoft updates include fixes for 84 vulnerabilities. Four of these vulnerabilities are labelled as \u201cCritical\u201d since they are remote code execution (RCE) vulnerabilities.\n\nPublicly disclosed computer security flaws are listed in the Common Vulnerabilities and Exposures (CVE) database. Its goal is to make it easier to share data across separate vulnerability capabilities (tools, databases, and services). These are the CVEs that ware assigned to the four Critical vulnerabilities:\n\n[CVE-2022-22029](<https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2022-22029>): Windows Network File System (NFS) RCE vulnerability. This vulnerability is not exploitable in NFSV4.1. Prior to updating your version of Windows that protects against this vulnerability, you can mitigate an attack by disabling NFSV3, but this may adversely affect your ecosystem and should only be used as a temporary mitigation.\n\n[CVE-2022-22039](<https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2022-22039>): Another Windows Network File System (NFS) RCE vulnerability. It's possible to exploit this vulnerability over the network by making an unauthenticated, specially crafted call to a Network File System (NFS) service to trigger an RCE.\n\n[CVE-2022-22038](<https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2022-22038>): Remote Procedure Call Runtime RCE vulnerability. Successful exploitation of this vulnerability requires an attacker to invest time in repeated exploitation attempts through sending constant or intermittent data.\n\n[CVE-2022-30221](<https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2022-30221>): Windows Graphics Component RCE vulnerability. An attacker would have to convince a targeted user to connect to a malicious RDP server. On connecting, the malicious server could execute code on the victim's system in the context of the targeted user.\n\n## Azure Site Recovery\n\nA huge part of the patches consist of 32 vulnerabilities in the Azure Site Recovery suite that could have allowed attackers to gain elevated privileges or perform remote code execution. [Azure Site Recovery](<https://docs.microsoft.com/en-us/azure/site-recovery/>) is an integrated disaster recovery service for Azure that helps ensure business continuity by keeping business apps and workloads running during outages.\n\nAccording to Microsoft, [SQL injection](<https://www.malwarebytes.com/glossary/sql-injection>) vulnerabilities caused most of the privilege escalation bugs in Azure Site Recovery.\n\n## CVE-2022-22047\n\nThe vulnerability that is known to be exploited in the wild is an elevation of privilege (EoP) vulnerability. An attacker who successfully exploited this vulnerability could gain SYSTEM privileges.\n\nThis type of vulnerability usually comes into play once an attacker has gained an initial foothold. They can then use this vulnerability to gain more permissions and expand their access to the compromised system.\n\nThe vulnerability is described as a Windows CSRSS Elevation of Privilege vulnerability. CSRSS is the Windows component that provides the user mode side of the Win32 subsystem. CSRSS is critical for a system\u2019s operation and is mainly responsible for Win32 console handling and GUI shutdown.\n\nThis type of vulnerability are often chained together with others in macros, which makes the decision to [roll back Office Macro blocking](<https://blog.malwarebytes.com/business/2022/07/microsoft-appears-to-be-rolling-back-office-macro-blocking/>) incomprehensible, even if it is only temporary.\n\n## Other vendors\n\nOther vendors have synchronized their periodic updates with Microsoft. Here are few major ones that you may find in your environment.\n\nAdobe released [security updates](<https://helpx.adobe.com/security.html>) for Acrobat, Character Animator, Photoshop, Reader, and RoboHelp.\n\nCisco released critical updates for Cisco Expressway Series, Cisco TelePresence Video Communication Server, Cisco Email Security Appliance, Cisco Secure Email and Web Manager, Cisco Small Business RV110W, RV130, RV130W, and RV215W routers, and [several other security updates](<https://tools.cisco.com/security/center/publicationListing.x>).\n\nCitrix released [hotfixes](<https://support.citrix.com/article/CTX461397/citrix-hypervisor-security-bulletin-for-cve202223816-and-cve202223825>) to address a problem that may affect Citrix Hypervisor and Citrix XenServer under some circumstances.\n\nGoogle released [Android's July security updates](<https://source.android.com/security/bulletin/2022-07-01>) including 3 labelled as \u201cCritical\u201d.\n\nSAP released its [July 2022 Patch Day bulletin](<https://dam.sap.com/mac/app/e/pdf/preview/embed/ucQrx6G?ltr=a&rc=10>) with 20 new Security Notes.\n\nVMWare released [security updates](<https://www.vmware.com/security/advisories.html>).\n\nStay safe, everyone!\n\nThe post [Update now\u2014July Patch Tuesday patches include fix for exploited zero-day](<https://blog.malwarebytes.com/exploits-and-vulnerabilities/2022/07/update-now-july-patch-tuesday-patches-include-fix-for-exploited-zero-day/>) appeared first on [Malwarebytes Labs](<https://blog.malwarebytes.com>).", "cvss3": {"exploitabilityScore": 2.8, "cvssV3": {"baseSeverity": "HIGH", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "UNCHANGED", "attackVector": "NETWORK", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "NONE", "baseScore": 8.8, "vectorString": "CVSS:3.1/AV:N/AC:L/PR:N/UI:R/S:U/C:H/I:H/A:H", "version": "3.1", "userInteraction": "REQUIRED"}, "impactScore": 5.9}, "published": "2022-07-13T12:21:53", "type": "malwarebytes", "title": "Update now\u2014July Patch Tuesday patches include fix for exploited zero-day", "bulletinFamily": "blog", "cvss2": {"severity": "HIGH", "exploitabilityScore": 3.9, "obtainAllPrivilege": false, "userInteractionRequired": false, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "LOW", "confidentialityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "baseScore": 7.2, "vectorString": "AV:L/AC:L/Au:N/C:C/I:C/A:C", "version": "2.0", "accessVector": "LOCAL", "authentication": "NONE"}, "impactScore": 10.0, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2022-22029", "CVE-2022-22038", "CVE-2022-22039", "CVE-2022-22047", "CVE-2022-30221"], "modified": "2022-07-13T12:21:53", "id": "MALWAREBYTES:90BD6A9BB937B6617FDC4FE73A86B38A", "href": "https://blog.malwarebytes.com/exploits-and-vulnerabilities/2022/07/update-now-july-patch-tuesday-patches-include-fix-for-exploited-zero-day/", "cvss": {"score": 7.2, "vector": "AV:L/AC:L/Au:N/C:C/I:C/A:C"}}], "qualysblog": [{"lastseen": "2022-07-15T23:58:32", "description": "# **Microsoft Patch Tuesday Summary**\n\nMicrosoft has fixed 84 vulnerabilities (aka flaws) in the July 2022 update, including four (4) vulnerabilities classified as **_Critical_** as they allow Remote Code Execution (RCE). This month's Patch Tuesday cumulative Windows update includes the fix for one (1) actively exploited zero-day vulnerability ([CVE-2022-22047](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>)). Earlier this month, July 6, 2022, Microsoft also released two (2) Microsoft Edge (Chromium-Based) security updates as well.\n\nMicrosoft has fixed several flaws in its software, including Denial of Service (DoS), Elevation of Privilege, Information Disclosure, Microsoft Edge (Chromium-based), Remote Code Execution (RCE), Security Feature Bypass, and Tampering.\n\nMany of the vulnerabilities patched this month relate to remote code execution, but there are no reports of active exploitation (in the wild) except for [](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30190>)[CVE-2022-22047](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>), a Windows CSRSS Elevation of Privilege Vulnerability.\n\n## The July 2022 Microsoft vulnerabilities are classified as follows: \n\n![](https://blog.qualys.com/wp-content/uploads/2022/07/2022-07-JULY-IMPACT-1.png)\n\n![](https://blog.qualys.com/wp-content/uploads/2022/06/image-4.png) [Related Threat Protection Post](<https://threatprotect.qualys.com/2022/07/13/microsoft-patches-84-vulnerabilities-including-one-zero-day-and-four-critical-in-the-july-2022-patch-tuesday/>)\n\n* * *\n\n# **Notable Microsoft Vulnerabilities Patched**\n\n### [](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>)[CVE-2022-22047](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>) | Windows CSRSS Elevation of Privilege Vulnerability\n\nThis vulnerability has a CVSSv3.1 score of 7.8/10.\n\nElevation of Privilege - Important - An attacker who successfully exploited this vulnerability could gain SYSTEM privileges. (Article [5015874](<https://support.microsoft.com/help/5015874>))\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation Detected_**\n\n* * *\n\n# **Microsoft Critical Vulnerability Highlights**\n\nThis month\u2019s [advisory](<https://msrc.microsoft.com/update-guide/releaseNote/2022-Jul>) covers multiple Microsoft product families, including Azure, Browser, ESU, Microsoft Dynamics, Microsoft Office, System Center, and Windows.\n\nA total of 63 unique Microsoft products/versions are affected.\n\nDownloads include Monthly Rollup, Security Only, and Security Updates.\n\n* * *\n\n### [CVE-2022-30221](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30221>) | Windows Graphics Component Remote Code Execution Vulnerability\n\nThis vulnerability has a CVSSv3.1 score of 8.8/10.\n\nAn attacker would have to convince a targeted user to connect to a malicious RDP server. Upon connecting, the malicious server could execute code on the victim's system in the context of the targeted user.\n\nWindows 7 Service Pack 1 or Windows Server 2008 R2 Service Pack 1 are only affected by this vulnerability if either RDP 8.0 or RDP 8.1 is installed. If you do not have either of these versions of RDP installed on Windows 7 SP1 or Window Server 2008 R2 SP1, then you are not affected by this vulnerability.\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation Less Likely_**\n\n* * *\n\n### [CVE-2022-22029](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22029>) | Windows Network File System Remote Code Execution Vulnerability\n\nThis vulnerability has a CVSSv3.1 score of 8.1/10.\n\nThis vulnerability could be exploited over the network by making an unauthenticated, specially crafted call to a Network File System (NFS) service to trigger a Remote Code Execution (RCE).\n\nSuccessful exploitation of this vulnerability requires an attacker to invest time in repeated exploitation attempts through sending constant or intermittent data.\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation Less Likely_**\n\n* * *\n\n### [CVE-2022-22038](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22038>) | Remote Procedure Call Runtime Remote Code Execution Vulnerability\n\nThis vulnerability has a CVSSv3.1 score of 8.1/10.\n\nSuccessful exploitation of this vulnerability requires an attacker to invest time in repeated exploitation attempts through sending constant or intermittent data.\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation Less Likely_**\n\n* * *\n\n### [CVE-2022-22039](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22039>) | Windows Network File System Remote Code Execution Vulnerability\n\nThis vulnerability has a CVSSv3.1 score of 7.5/10.\n\nSuccessful exploitation of this vulnerability requires an attacker to win a race condition.\n\nThis vulnerability could be exploited over the network by making an unauthenticated, specially crafted call to a Network File System (NFS) service to trigger a Remote Code Execution (RCE).\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation Less Likely_**\n\n* * *\n\n# **Microsoft Last But Not Least**\n\nEarlier in July, Microsoft released Microsoft Edge (Chromium-based) vulnerabilities [CVE-2022-2294](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-2294>) and [CVE-2022-2295](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-2295>). The vulnerability assigned to each of these CVEs is in the Chromium Open Source Software (OSS) which is consumed by Microsoft Edge. It is being documented in the Security Update Guide to announce that the latest version of Microsoft Edge (Chromium-based) is no longer vulnerable. Please see [Security Update Guide Supports CVEs Assigned by Industry Partners](<https://msrc-blog.microsoft.com/2021/01/13/security-update-guide-supports-cves-assigned-by-industry-partners/>) for more information.\n\n* * *\n\n# **Adobe Security Bulletins and Advisories**\n\nAdobe released four (4) [advisories](<https://helpx.adobe.com/security/security-bulletin.html>) with updates to fix 27 vulnerabilities affecting Adobe Acrobat, Character Animator, Photoshop, Reader, and RoboHelp applications. Of these 27 vulnerabilities, 18 are rated as **_[Critical](<https://helpx.adobe.com/security/severity-ratings.html>)_**; ranging in severity from a CVSS score of 6.5/10 to 7.8/10, as summarized below.\n\n![](https://blog.qualys.com/wp-content/uploads/2022/07/2022-07-JULY-ADOBE.png)\n\n* * *\n\n### [APSB22-10](<https://helpx.adobe.com/security/products/robohelp/apsb22-10.html>) | Security update available for RoboHelp\n\nThis update resolves one (1) [**_Important_** ](<https://helpx.adobe.com/security/severity-ratings.html>)vulnerability.\n\n_[Adobe Priority](<https://helpx.adobe.com/security/severity-ratings.html>): 3_\n\nAdobe has released a security update for RoboHelp. This update resolves a vulnerability rated [important](<https://helpx.adobe.com/security/severity-ratings.html>). Successful exploitation could lead to arbitrary code execution in the context of current user. \n\n* * *\n\n### [APSB22-32](<https://helpx.adobe.com/security/products/acrobat/apsb22-32.html>) | Security update available for Adobe Acrobat and Reader\n\nThis update resolves 22 vulnerabilities; 15 **_[Critical](<https://helpx.adobe.com/security/severity-ratings.html>)_**, and seven (7) **_[Important](<https://helpx.adobe.com/security/severity-ratings.html>)_**.\n\n_**[Adobe Priority](<https://helpx.adobe.com/security/severity-ratings.html>): 2**_\n\nAdobe has released security updates for Adobe Acrobat and Reader for Windows and macOS. These updates address multiple [critical](<https://helpx.adobe.com/security/severity-ratings.html>), and [important](<https://helpx.adobe.com/security/severity-ratings.html>) vulnerabilities. Successful exploitation could lead to arbitrary code execution and memory leak. \n\n* * *\n\n### [APSB22-34](<https://helpx.adobe.com/security/products/character_animator/apsb22-34.html>) | Security Updates Available for Adobe Character Animator\n\nThis update resolves two (2) **_[Critical](<https://helpx.adobe.com/security/severity-ratings.html>) _**vulnerabilities.\n\n_[Adobe Priority](<https://helpx.adobe.com/security/severity-ratings.html>): 3_\n\nAdobe has released an update for Adobe Character Animator for Windows and macOS. This update resolves [critical](<https://helpx.adobe.com/security/severity-ratings.html>) vulnerabilities. Successful exploitation could lead to arbitrary code execution.\n\n* * *\n\n### [APSB22-35](<https://helpx.adobe.com/security/products/photoshop/apsb22-35.html>) | Security update available for Adobe Photoshop\n\nThis update resolves two (2) vulnerabilities; one (1) **_[Critical](<https://helpx.adobe.com/security/severity-ratings.html>)_**, and one (1) **_[Important](<https://helpx.adobe.com/security/severity-ratings.html>)_**.\n\n_[Adobe Priority](<https://helpx.adobe.com/security/severity-ratings.html>): 3_\n\nAdobe has released an update for Photoshop for Windows and macOS. This update resolves a [critical](<https://helpx.adobe.com/security/severity-ratings.html>) vulnerability and an [important](<https://helpx.adobe.com/security/severity-ratings.html>) vulnerability. Successful exploitation could lead to arbitrary code execution and memory leak. \n\n* * *\n\n* * *\n\n# Discover and Prioritize Vulnerabilities in [Vulnerability Management Detection Response (VMDR)](<https://www.qualys.com/apps/vulnerability-management-detection-response/>) \n\nQualys VMDR automatically detects new Patch Tuesday vulnerabilities using continuous updates to its KnowledgeBase (KB). \n\nYou can see all your impacted hosts by these vulnerabilities using the following QQL query:\n \n \n vulnerabilities.vulnerability:( qid:`91921` OR qid:`91922` OR qid:`91923` OR qid:`91924` OR qid:`91927` OR qid:`110411` OR qid:`110412` OR qid:`376725` ) \n\n![](https://blog.qualys.com/wp-content/uploads/2022/07/2022-07-VMDR-1-1070x451.png)\n\n* * *\n\n# Rapid Response with [Patch Management (PM)](<https://www.qualys.com/apps/patch-management/>)\n\nVMDR rapidly remediates Windows hosts by deploying the most relevant and applicable per-technology version patches. You can simply select respective QIDs in the Patch Catalog and filter on the \u201cMissing\u201d patches to identify and deploy the applicable, available patches in one go.\n\nThe following QQL will return the missing patches for this Patch Tuesday:\n \n \n ( qid:`91921` OR qid:`91922` OR qid:`91923` OR qid:`91924` OR qid:`91927` OR qid:`110411` OR qid:`110412` OR qid:`376725` ) \n\n![](https://blog.qualys.com/wp-content/uploads/2022/07/2022-07-Patch-1070x451.png)\n\n![](https://blog.qualys.com/wp-content/uploads/2022/06/image-4.png) [Risk-based Remediation Powered by Patch Management in Qualys VMDR 2.0](<https://blog.qualys.com/product-tech/2022/06/22/risk-based-remediation-powered-by-patch-management-in-qualys-vmdr-2-0>)\n\n* * *\n\n# Qualys Monthly Webinar Series \n\n![This image has an empty alt attribute; its file name is image-1070x560.jpeg](https://blog.qualys.com/wp-content/uploads/2022/03/image-1070x560.jpeg)\n\nThe Qualys Research team hosts a monthly webinar series to help our existing customers leverage the seamless integration between Qualys[ Vulnerability Management Detection Response (VMDR)](<https://www.qualys.com/apps/vulnerability-management-detection-response/>) and Qualys [Patch Management](<https://www.qualys.com/apps/patch-management/>). Combining these two solutions can reduce the median time to remediate critical vulnerabilities. \n\nDuring the webcast, we will discuss this month\u2019s high-impact vulnerabilities, including those that are part of this month's Patch Tuesday alert. We will walk you through the necessary steps to address the key vulnerabilities using Qualys VMDR and Qualys Patch Management. \n\n* * *\n\n### **Join the webinar**\n\n## **This Month in Vulnerabilities & Patches**\n\n[Register Now](<https://gateway.on24.com/wcc/eh/3347108/category/97049/patch-tuesday>)", "cvss3": {"exploitabilityScore": 2.8, "cvssV3": {"baseSeverity": "HIGH", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "UNCHANGED", "attackVector": "NETWORK", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "NONE", "baseScore": 8.8, "vectorString": "CVSS:3.1/AV:N/AC:L/PR:N/UI:R/S:U/C:H/I:H/A:H", "version": "3.1", "userInteraction": "REQUIRED"}, "impactScore": 5.9}, "published": "2022-07-12T20:09:23", "type": "qualysblog", "title": "July 2022 Patch Tuesday | Microsoft Releases 84 Vulnerabilities with 4 Critical, plus 2 Microsoft Edge (Chromium-Based); Adobe Releases 4 Advisories, 27 Vulnerabilities with 18 Critical.", "bulletinFamily": "blog", "cvss2": {"severity": "HIGH", "exploitabilityScore": 8.6, "obtainAllPrivilege": false, "userInteractionRequired": true, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "MEDIUM", "confidentialityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "baseScore": 9.3, "vectorString": "AV:N/AC:M/Au:N/C:C/I:C/A:C", "version": "2.0", "accessVector": "NETWORK", "authentication": "NONE"}, "impactScore": 10.0, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2022-22029", "CVE-2022-22038", "CVE-2022-22039", "CVE-2022-22047", "CVE-2022-2294", "CVE-2022-2295", "CVE-2022-30190", "CVE-2022-30221"], "modified": "2022-07-12T20:09:23", "id": "QUALYSBLOG:65C282BB0F312A3AD8A043024FD3D866", "href": "https://blog.qualys.com/category/vulnerabilities-threat-research", "cvss": {"score": 9.3, "vector": "AV:N/AC:M/Au:N/C:C/I:C/A:C"}}, {"lastseen": "2022-09-13T00:03:22", "description": "Welcome to the first edition of the Qualys Research Team\u2019s \u201cThreat Research Thursday\u201d where we collect and curate notable new tools, techniques, procedures, threat intelligence, cybersecurity news, malware attacks, and more. We will endeavor to issue these update reports regularly, as often as every other week, or as our threat intelligence output warrants. \n\n![](https://blog.qualys.com/wp-content/uploads/2022/09/ThreatThursday_WebinarBanners_990x350_v1.png)\n\n## Threat Intelligence from the Qualys Blog\n\nHere is a roundup of the most interesting blogs from the Qualys Research Team from the past couple of weeks: \n\n * New Qualys Research Report: [Evolution of Quasar RAT](<https://blog.qualys.com/vulnerabilities-threat-research/2022/07/29/new-qualys-research-report-evolution-of-quasar-rat>) \u2013 This free downloadable report gives a sneak peek of the detailed webinar topic that Qualys Threat Research team\u2019s Linux EDR expert Viren Chaudari will be presenting on our upcoming [Threat Thursdays webinar](<https://event.on24.com/wcc/r/3925198/52A4000CBD17D2B16AFD5F56B3C9D15A>). \n * Here\u2019s a [Simple Script to Detect the Stealthy Nation-State BPFDoor](<https://blog.qualys.com/vulnerabilities-threat-research/2022/08/01/heres-a-simple-script-to-detect-the-stealthy-nation-state-bpfdoor>) \u2013 In this blog we explain how a simple script can detect a BPFDoor. \n * Introducing [Qualys CyberSecurity Asset Management 2.0](<https://www.qualys.com/apps/cybersecurity-asset-management/>) with natively integrated [External Attack Surface Management](<https://blog.qualys.com/qualys-insights/2022/07/28/attack-surface-management-a-critical-pillar-of-cybersecurity-asset-management>) \u2013 This is big news! We offer one of only a few solutions on the market that empower cybersecurity teams to manage internal and external assets at the same time! For our existing customers, [Qualys CSAM API Best Practices](<https://blog.qualys.com/product-tech/2022/08/05/qualys-api-best-practices-cybersecurity-asset-management-api>) should be a good starting point for playing with our extensive list of APIs. \n * [August 2022 Patch Tuesday](<https://blog.qualys.com/vulnerabilities-threat-research/2022/08/09/august-2022-patch-tuesday>) \u2013 Microsoft and the second Tuesday of the month are inseparable (except that one time in 2017 just before the Equation Group leak!) This is our regular monthly coverage of the vulnerabilities that Microsoft and Adobe fixed this month. \n\n## New Threat Hunting Tools & Techniques\n\n**Sysmon v14.0, AccessEnum v1.34, and Coreinfo v3.53**: This is a major update to Sysmon that adds a new `event ID 27 - FileBlockExecutable` that prevents processes from creating executable files in specified locations. What this means is if you want to block certain files from executing in a certain directory, you can do so. [Get these tools & updates](<https://docs.microsoft.com/en-us/sysinternals/downloads/>). \n\n**Bomber: **All of us know how important software bills of materials (SBOMs) are, and the vulnerabilities that affect them even more so. This open-source repository tool that we\u2019ve evaluated will help you scan JSON formatted SBOM files to point out any vulnerabilities they may have. [Check out Bomber](<https://github.com/devops-kung-fu/bomber>). \n\n**Alan C2 Framework:** Until recently, this command & control (C2) framework \u2013 even though it was hosted on GitHub \u2013 was closed source. You could download it and test it for free, but not inspect its source code unless you decompiled it. Now the source code has been made available. For example, you can now look at the [certificate information](<https://github.com/enkomio/AlanFramework/blob/8134494037435c5e6478409447efe41f563e0688/src/client/mbedtls/tests/data_files/dir-maxpath/c20.pem>) and add it to your detection pipeline if you have not already done so. [Access the Alan C2 Framework source code](<https://github.com/enkomio/AlanFramework>). \n\n**FISSURE**: This interesting Radio Frequency (RF) framework was released as open source at the recently concluded DEFCONference. With this reverse engineering RF framework, you can detect, classify signals, execute attacks, discover protocols, and analyze vulnerabilities. A lot can be done with this tool! [Check out FISSURE](<https://github.com/ainfosec/FISSURE>). \n\n**Sub7 Legacy**: The source code to your favorite trojan from the not-so-recent past is now available. Well, not really. This is a complete remake of the trojan from the early 2000\u2019s. The look & feel is still the same \u2013 minus the malicious features, but it does make one nostalgic. Here\u2019s hoping that threat actor groups don\u2019t use this Delphi source code for new and nefarious use cases! [Check out the new Sub7 Legacy](<https://github.com/DarkCoderSc/SubSeven>). \n\n**Hashview**: What do you do when you dump a hash via Mimikatz and want to crack it? In a team engagement, a tool like Hashview can help. It allows you to automate hashcat, retroactively crack hashes, and get notifications on a particular event. [Check out the Hashview source code](<https://github.com/hashview/hashview>). \n\n**Center for Internet Security: **CIS published their August update for the [End-of-Support Software Report List](<https://www.cisecurity.org/insights/blog/end-of-support-software-report-list>). Use it coupled with Qualys CSAM to stay updated on software that\u2019s no longer vendor supported. \n\n## New Vulnerabilities \n\n[**CVE-2022-34301**](<https://nvd.nist.gov/vuln/detail/CVE-2022-34301>)/[**CVE-2022-34302**](<https://nvd.nist.gov/vuln/detail/CVE-2022-34302>)/[**CVE-2022-34303**](<https://nvd.nist.gov/vuln/detail/CVE-2022-34303>) \u2013 Not much was known about these bootloader vulnerabilities when they were first disclosed as part of Microsoft Patch Tuesday. New research about these vulnerabilities was [presented at DEFCON](<https://eclypsium.com/2022/08/11/vulnerable-bootloaders-2022/>) pointing towards weaknesses in third-party code signed by Microsoft. Special care must be given to fixing these vulnerabilities, as manual intervention is required for complete remediation. \n\n[**CVE-2022-30209**](<https://nvd.nist.gov/vuln/detail/CVE-2022-30209>) \u2013 Fresh off of its disclosure at Black Hat USA 2022, this _IIS authentication bypass vulnerability_ discovered by Devcore, is [introduced](<https://twitter.com/orange_8361/status/1557504677050478594?s=20&t=KnnUPgzWitsV-dCEdSeCjA>) because of a logic error as a result of improper copy/pasting of variable names. Qualys VMDR customers can find unpatched devices in their networks by looking for QID 91922 in their results. \n\n[**CVE-2022-22047**](<https://nvd.nist.gov/vuln/detail/CVE-2022-22047>) - This Windows client/server runtime subsystem (CSRSS) _elevation of privilege vulnerability_ affects almost all Windows versions, including v7, 8.1, 10, 11, and Windows Server 2008, 2012, 2016, 2019, and 2022! QIDs 91922 and 91927 should be of interest to current Qualys VMDR customers. \n\n[**CVE-2022-26138**](<https://nvd.nist.gov/vuln/detail/CVE-2022-26138>) \u2013 The Confluence Questions app, when installed will create a `disabledsystemuser `user with a known and now _publicized hardcoded password_. Post exploitation, bad actors can read the pages accessible by the confluence-users group. \n\n[**CVE-2022-26501**](<https://nvd.nist.gov/vuln/detail/CVE-2022-26501>) \u2013 Proof-of-concept code for this _unauthenticated remote code execution_ vulnerability affecting Veeam Distribution Service (VDS) has been available for more than four months now. When last checked on Shodan, there were more than 18,000 publicly facing devices that host Veeam Backup Services. \n\n## Introducing the Monthly Threat Thursdays Webinar \n\nPlease join us for the first [Threat Thursdays monthly webinar](<https://event.on24.com/wcc/r/3925198/52A4000CBD17D2B16AFD5F56B3C9D15A>) where the Qualys Threat Research Team will present the latest threat intelligence\u2026 each and every month! \n\n[REGISTER NOW](<https://event.on24.com/wcc/r/3925198/52A4000CBD17D2B16AFD5F56B3C9D15A>)", "cvss3": {"exploitabilityScore": 3.9, "cvssV3": {"baseSeverity": "CRITICAL", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "UNCHANGED", "attackVector": "NETWORK", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "NONE", "baseScore": 9.8, "vectorString": "CVSS:3.1/AV:N/AC:L/PR:N/UI:N/S:U/C:H/I:H/A:H", "version": "3.1", "userInteraction": "NONE"}, "impactScore": 5.9}, "published": "2022-09-01T21:00:00", "type": "qualysblog", "title": "Introducing Qualys Threat Research Thursdays", "bulletinFamily": "blog", "cvss2": {"severity": "HIGH", "exploitabilityScore": 10.0, "obtainAllPrivilege": false, "userInteractionRequired": false, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "LOW", "confidentialityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "baseScore": 10.0, "vectorString": "AV:N/AC:L/Au:N/C:C/I:C/A:C", "version": "2.0", "accessVector": "NETWORK", "authentication": "NONE"}, "impactScore": 10.0, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2022-22047", "CVE-2022-26138", "CVE-2022-26501", "CVE-2022-30209", "CVE-2022-34301", "CVE-2022-34302", "CVE-2022-34303"], "modified": "2022-09-01T21:00:00", "id": "QUALYSBLOG:AE4AA7402829D66599C8A25E83DD0FD2", "href": "https://blog.qualys.com/category/vulnerabilities-threat-research", "cvss": {"score": 10.0, "vector": "AV:N/AC:L/Au:N/C:C/I:C/A:C"}}, {"lastseen": "2022-10-03T20:04:30", "description": "# **Microsoft Patch Tuesday Summary**\n\nMicrosoft has fixed 63 vulnerabilities (aka flaws) in the September 2022 update, including five (5) vulnerabilities classified as **_Critical_** as they allow Remote Code Execution (RCE). This month's Patch Tuesday fixes two (2) zero-day vulnerabilities, with one (1) actively exploited***** in attacks (**[CVE-2022-37969](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-37969>)***,[ ](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30134>)**[CVE-2022-23960](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-23960>)**). Earlier this month, on September 1-2, 2022, Microsoft also released a total of 16 Microsoft Edge (Chromium-Based) updates, one (1) addressing a Remote Code Execution (RCE) ([CVE-2022-38012](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-38012>)) ranked _**Low**_.\n\nMicrosoft has fixed several flaws in its software, including Denial of Service, Elevation of Privilege, Information Disclosure, Microsoft Edge (Chromium-based), Remote Code Execution, and Security Feature Bypass.\n\n## **The September 2022 Microsoft Vulnerabilities are Classified as follows:**\n\n![](https://blog.qualys.com/wp-content/uploads/2022/09/2022-09_SEP-iMPACT-SEVERITY.png)\n\n# **Notable Microsoft Vulnerabilities Patched**\n\n### [](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>)[CVE-2022-34718](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-34718>) | Windows TCP/IP Remote Code Execution (RCE) Vulnerability\n\nThis vulnerability has a CVSSv3.1 score of 9.8/10.\n\nAn unauthenticated attacker could send a specially crafted IPv6 packet to a Windows node where IPSec is enabled, which could enable a remote code execution exploitation on that machine.\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation More Likely_**\n\n* * *\n\n### [](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>)[CVE-2022-34721](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-34721>), [CVE-2022-34722](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-34722>) | Windows Internet Key Exchange (IKE) Protocol Extensions Remote Code Execution (RCE) Vulnerability\n\nThis vulnerability has a CVSSv3.1 score of 9.8/10.\n\nAn unauthenticated attacker could send a specially crafted IP packet to a target machine that is running Windows and has IPSec enabled, which could enable a remote code execution exploitation. NOTE: This vulnerability_ only impacts IKEv1_. IKEv2 is not impacted. However, all Windows Servers are affected because they accept both V1 and V2 packets.\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation Less Likely_**\n\n* * *\n\n# **Zero-Day Vulnerabilities Addressed**\n\nA vulnerability is classified as a zero-day if it is publicly disclosed or actively exploited with no official fix available.\n\n### [CVE-2022-37969](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-37969>) | Windows Common Log File System Driver Elevation of Privilege (EoP) Vulnerability\n\nThis vulnerability has a CVSSv3.1 score of 7.8/10.\n\nAn attacker must already have access and the ability to run code on the target system. This technique does not allow for remote code execution in cases where the attacker does not already have that ability on the target system.\n\nAn attacker who successfully exploited this vulnerability could gain SYSTEM privileges.\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation More Likely_**\n\n* * *\n\n### [CVE-2022-23960](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-23960>) | Windows Common Log File System Driver Elevation of Privilege (EoP) Vulnerability\n\nThis vulnerability has a CVSSv3.1 score of [5.6](<https://nvd.nist.gov/vuln/detail/CVE-2022-23960>)/10.\n\n[CVE-2022-23960](<https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2022-23960>) is regarding a vulnerability known as Spectre-BHB. MITRE created this CVE on behalf of Arm Limited.\n\nPlease see [Spectre-BHB on arm Developer](<https://developer.arm.com/Arm%20Security%20Center/Spectre-BHB>) for more information.\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): _**Exploitation Less Likely**_\n\n* * *\n\n# **Microsoft Important Vulnerability Highlights**\n\nThis month\u2019s [advisory](<https://msrc.microsoft.com/update-guide/releaseNote/2022-Sep>) covers multiple Microsoft product families, including Azure, Browser, Developer Tools, [Extended Security Updates (ESU)](<https://docs.microsoft.com/en-us/lifecycle/faq/extended-security-updates>), Microsoft Dynamics, Microsoft Office, System Center, and Windows.\n\nA total of 92 unique Microsoft products/versions are affected, including but not limited to .NET, Azure Arc, Microsoft Dynamics, Microsoft Edge (Chromium-based), Microsoft Office, Microsoft Office SharePoint, SPNEGO Extended Negotiation, Visual Studio Code, Windows Common Log File System Driver, Windows Credential Roaming Service, Windows Defender, Windows Distributed File System (DFS), Windows DPAPI (Data Protection Application Programming Interface), Windows Enterprise App Management, Windows Event Tracing, Windows Group Policy, Windows IKE Extension, Windows Kerberos, Windows Kernel, Windows LDAP - Lightweight Directory Access Protocol, Windows ODBC Driver, Windows OLE, Windows Print Spooler Components, Windows Remote Access Connection Manager, Windows TCP/IP, and Windows Transport Security Layer (TLS).\n\nDownloads include Cumulative Update, Monthly Rollup, Security Hotpatch Update, Security Only, and Security Updates.\n\n* * *\n\n### [CVE-2022-38009](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-38009>) | Microsoft SharePoint Server Remote Code Execution (RCE) Vulnerability\n\nThis vulnerability has a CVSSv3.1 score of 8.8/10.\n\nIn a network-based attack, an authenticated attacker with Manage List permissions could execute code remotely on the SharePoint Server.\n\nThe attacker must be authenticated to the target site, with the permission to use Manage Lists within SharePoint.\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation Less Likely_**\n\n* * *\n\n### [](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>)[CVE-2022-26929](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-26929>) | .NET Framework Remote Code Execution (RCE) Vulnerability\n\nThis vulnerability has a CVSSv3.1 score of 7.8/10.\n\nThe word **Remote** in the title refers to the location of the attacker. This type of exploit is sometimes referred to as Arbitrary Code Execution (ACE). The attack itself is carried out locally.\n\nFor example, when the score indicates that the **Attack Vector** is **Local** and **User Interaction** is **Required**, this could describe an exploit in which an attacker, through social engineering, convinces a victim to download and open a specially crafted file from a website which leads to a local attack on their computer.\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation Less Likely_**\n\n* * *\n\n### [](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>)[CVE-2022-38007](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-38007>) | Azure Guest Configuration and Azure Arc-enabled Servers Elevation of Privilege (EoP) Vulnerability\n\nThis vulnerability has a CVSSv3.1 score of 7.8/10.\n\nAn attacker who successfully exploited the vulnerability could replace Microsoft-shipped code with their own code, which would then be run as root in the context of a Guest Configuration daemon. On an Azure VM with the Guest Configuration Linux Extension installed, this would run in the context of the GC Policy Agent daemon. On an Azure Arc-enabled server, it could run in the context of the GC Arc Service or Extension Service daemons.\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation Less Likely_**\n\n* * *\n\n## **Microsoft Edge | Last But Not Least**\n\nEarlier in September 2022, Microsoft released Microsoft Edge (Chromium-based) vulnerabilities including [CVE-2022-38012](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-38012>). The vulnerability assigned to the CVE is in the Chromium Open Source Software (OSS) which is consumed by Microsoft Edge. It is being documented in the Security Update Guide to announce that the latest version of Microsoft Edge (Chromium-based) is no longer vulnerable. For more information, please see [Security Update Guide Supports CVEs Assigned by Industry Partners](<https://msrc-blog.microsoft.com/2021/01/13/security-update-guide-supports-cves-assigned-by-industry-partners/>).\n\n### [](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-38012>)[CVE-2022-38012](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-38012>) | Microsoft Edge (Chromium-based) Remote Code Execution (RCE) Vulnerability\n\nThis vulnerability has a CVSSv3.1 score of 7.7/10.\n\nThe word **Remote** in the title refers to the location of the attacker. This type of exploit is sometimes referred to as Arbitrary Code Execution (ACE). The attack itself is carried out locally.\n\nFor example, when the score indicates that the **Attack Vector** is **Local** and **User Interaction** is **Required**, this could describe an exploit in which an attacker, through social engineering, convinces a victim to download and open a specially crafted file from a website which leads to a local attack on their computer.\n\nThis vulnerability could lead to a browser sandbox escape.\n\nSuccessful exploitation of this vulnerability requires an attacker to take additional actions prior to exploitation to prepare the target environment.\n\nNOTE: [Per Microsoft's severity guidelines](<https://www.microsoft.com/en-us/msrc/bounty-new-edge>), the amount of user interaction or preconditions required to allow this sort of exploitation downgraded the severity. The CVSS scoring system doesn't allow for this type of nuance which explains why this CVE is rated as Low, but the CVSSv3.1 score is 7.7\n\n* * *\n\n# **Adobe Security Bulletins and Advisories**\n\nAdobe released seven (7) [security bulletins and advisories](<https://helpx.adobe.com/security/security-bulletin.html>) with updates to fix 63 vulnerabilities affecting Adobe Animate, Bridge, Illustrator, InCopy, InDesign, Photoshop, and Experience Manager applications. Of these 63 vulnerabilities, 35 are rated as **_[Critical](<https://helpx.adobe.com/security/severity-ratings.html>)_** and 28 rated as _****_[Important](<https://helpx.adobe.com/security/severity-ratings.html>)_****_; ranging in severity from a CVSS score of 5.3/10 to 7.8/10, as summarized below.\n\n![](https://blog.qualys.com/wp-content/uploads/2022/09/2022-09_SEP-APSB-IMPACT-SEVERITY.png)\n\n* * *\n\n### [APSB22-40](<https://helpx.adobe.com/security/products/experience-manager/apsb22-40.html>) | Security Update Available for Adobe Experience Manager\n\nThis update resolves 11 [_****__****_](<https://helpx.adobe.com/security/severity-ratings.html>)_****_[Important](<https://helpx.adobe.com/security/severity-ratings.html>)_****_ vulnerabilities.\n\n_[Adobe Priority](<https://helpx.adobe.com/security/severity-ratings.html>): 3_\n\nAdobe has released updates for Adobe Experience Manager (AEM). These updates resolve vulnerabilities rated [Important](<https://helpx.adobe.com/security/severity-ratings.html>). Successful exploitation of these vulnerabilities could result in arbitrary code execution and security feature bypass.\n\n* * *\n\n### [APSB22-49](<https://helpx.adobe.com/security/products/bridge/apsb22-49.html>) | Security Update Available for Adobe Bridge\n\nThis update resolves 12 vulnerabilities:\n\n * Ten (10) [_**Critical**_](<https://helpx.adobe.com/security/severity-ratings.html>)\n * Two (2) **_[Important](<https://helpx.adobe.com/security/severity-ratings.html>)_**\n\n_[Adobe Priority](<https://helpx.adobe.com/security/severity-ratings.html>): _3\n\nAdobe has released a security update for Adobe Bridge. This update addresses [critical](<https://helpx.adobe.com/security/severity-ratings.html>) and [important](<https://helpx.adobe.com/security/severity-ratings.html>) vulnerabilities that could lead to arbitrary code execution and memory leak.\n\n* * *\n\n### [APSB22-50](<https://helpx.adobe.com/security/products/indesign/apsb22-50.html>) | Security Update Available for Adobe InDesign\n\nThis update resolves 18 vulnerabilities:\n\n * Eight (8) [_**Critical**_](<https://helpx.adobe.com/security/severity-ratings.html>)\n * Ten (10) **_[Important](<https://helpx.adobe.com/security/severity-ratings.html>)_**\n\n_[Adobe Priority](<https://helpx.adobe.com/security/severity-ratings.html>): _3\n\nAdobe has released a security update for Adobe InDesign. This update addresses multiple [critical ](<https://helpx.adobe.com/security/severity-ratings.html>)and [important](<https://helpx.adobe.com/security/severity-ratings.html>) vulnerabilities. Successful exploitation could lead to arbitrary code execution, arbitrary file system read, and memory leak.\n\n* * *\n\n### [APSB22-52](<https://helpx.adobe.com/security/products/photoshop/apsb22-52.html>) | Security Update Available for Adobe Photoshop\n\nThis update resolves ten (10) vulnerabilities:\n\n * Nine (9) [_**Critical**_](<https://helpx.adobe.com/security/severity-ratings.html>)\n * One (1) **_[Important](<https://helpx.adobe.com/security/severity-ratings.html>)_**\n\n_[Adobe Priority](<https://helpx.adobe.com/security/severity-ratings.html>): 3_\n\nAdobe has released an update for Photoshop for Windows and macOS. This update resolves [critical](<https://helpx.adobe.com/security/severity-ratings.html>) and [important](<https://helpx.adobe.com/security/severity-ratings.html>) vulnerabilities. Successful exploitation could lead to arbitrary code execution and memory leak.\n\n* * *\n\n### [APSB22-53](<https://helpx.adobe.com/security/products/incopy/apsb22-53.html>) | Security Update Available for Adobe InCopy\n\nThis update resolves seven (7) vulnerabilities:\n\n * Five (5) [_**Critical**_](<https://helpx.adobe.com/security/severity-ratings.html>)\n * Two (2) **_[Important](<https://helpx.adobe.com/security/severity-ratings.html>)_**\n\n_[Adobe Priority](<https://helpx.adobe.com/security/severity-ratings.html>): 3_\n\nAdobe has released a security update for Adobe InCopy. This update addresses multiple [critical](<https://helpx.adobe.com/security/severity-ratings.html>) and [important](<https://helpx.adobe.com/security/severity-ratings.html>) vulnerabilities. Successful exploitation could lead to arbitrary code execution and memory leak. \n\n* * *\n\n### [APSB22-54](<https://helpx.adobe.com/security/products/animate/apsb22-54.html>) | Security Update Available for Adobe Animate\n\nThis update resolves two (2) [](<https://helpx.adobe.com/security/severity-ratings.html>)[_**Critical**_](<https://helpx.adobe.com/security/severity-ratings.html>) vulnerabilities.\n\n_[Adobe Priority](<https://helpx.adobe.com/security/severity-ratings.html>): 3_\n\nAdobe has released an update for Adobe Animate. This update resolves [critical](<https://helpx.adobe.com/security/severity-ratings.html>) vulnerabilities. Successful exploitation could lead to arbitrary code execution in the context of the current user. \n\n* * *\n\n### [APSB22-55](<https://helpx.adobe.com/security/products/illustrator/apsb22-55.html>) | Security Update Available for Adobe Illustrator\n\nThis update resolves three (3) vulnerabilities:\n\n * One (1) [_**Critical**_](<https://helpx.adobe.com/security/severity-ratings.html>)\n * Two (2) **_[Important](<https://helpx.adobe.com/security/severity-ratings.html>)_**\n\n_[Adobe Priority](<https://helpx.adobe.com/security/severity-ratings.html>): 3_\n\nAdobe has released an update for Adobe Illustrator 2022. This update resolves [critical ](<https://helpx.adobe.com/security/severity-ratings.html>)and [important ](<https://helpx.adobe.com/security/severity-ratings.html>)vulnerabilities that could lead to arbitrary code execution and memory leak.\n\n* * *\n\n# **About Qualys Patch Tuesday**\n\nQualys Patch Tuesday QIDs are published as [Security Alerts](<https://www.qualys.com/research/security-alerts/>) typically late in the evening on the day of [Patch Tuesday](<https://blog.qualys.com/tag/patch-tuesday>), followed later by the publication of the monthly queries for the [Unified Dashboard: 2022 Patch Tuesday (QID Based) Dashboard](<https://success.qualys.com/discussions/s/article/000006821>) by Noon on Wednesday.\n\n* * *\n\n## Qualys [Threat Protection](<https://www.qualys.com/apps/threat-protection/>) High-Rated Advisories from August to September 2022 Patch Tuesday Advisory\n\n_Sorted in Descending Order_\n\n * [Microsoft Patches Vulnerabilities 79 including 16 Microsoft Edge (Chromium-Based); with 2 Zero-days and 5 Critical in Patch Tuesday September 2022 Edition](<https://threatprotect.qualys.com/2022/09/14/microsoft-patches-vulnerabilities-79-including-16-microsoft-edge-chromium-based-with-2-zero-days-and-5-critical-in-patch-tuesday-september-2022-edition/>)\n * [Google Chrome Releases Fix for the Zero-day Vulnerability (CVE-2022-3075)](<https://threatprotect.qualys.com/2022/08/10/microsoft-patches-121-vulnerabilities-with-two-zero-days-and-17-critical-plus-20-microsoft-edge-chromium-based-in-august-2022-patch-tuesday/>)\n * [Atlassian Bitbucket Server and Data Center Command Injection Vulnerability (CVE-2022-36804)](<https://threatprotect.qualys.com/2022/08/29/atlassian-bitbucket-server-and-data-center-command-injection-vulnerability-cve-2022-36804/>)\n * [GitLab Patches Critical Remote Command Execution Vulnerability (CVE-2022-2884)](<https://threatprotect.qualys.com/2022/08/25/gitlab-patches-critical-remote-command-execution-vulnerability-cve-2022-2884/>)\n * [Apple Releases Security Updates to patch two Zero-Day Vulnerabilities (CVE-2022-32893 and CVE-2022-32894)](<https://threatprotect.qualys.com/2022/08/18/apple-releases-security-updates-to-patch-two-zero-day-vulnerabilities-cve-2022-32893-and-cve-2022-32894/>)\n * [Google Chrome Zero-Day Insufficient Input Validation Vulnerability (CVE-2022-2856)](<https://threatprotect.qualys.com/2022/08/18/google-chrome-zero-day-insufficient-input-validation-vulnerability-cve-2022-2856/>)\n * [Palo Alto Networks (PAN-OS) Reflected Amplification Denial-of-Service (DoS) Vulnerability (CVE-2022-0028)](<https://threatprotect.qualys.com/2022/08/16/palo-alto-networks-pan-os-reflected-amplification-denial-of-service-dos-vulnerability-cve-2022-0028/>)\n * [Microsoft Patches 121 Vulnerabilities with Two Zero-days and 17 Critical; Plus 20 Microsoft Edge (Chromium-Based) in August 2022 Patch Tuesday](<https://threatprotect.qualys.com/2022/08/10/microsoft-patches-121-vulnerabilities-with-two-zero-days-and-17-critical-plus-20-microsoft-edge-chromium-based-in-august-2022-patch-tuesday/>)\n * [VMware vRealize Operations Multiple Vulnerabilities Patched in the Latest Security update (CVE-2022-31672, CVE-2022-31673, CVE-2022-31674, & CVE-2022-31675)](<https://threatprotect.qualys.com/2022/08/10/vmware-vrealize-operations-multiple-vulnerabilities-patched-in-the-latest-security-update-cve-2022-31672-cve-2022-31673-cve-2022-31674-cve-2022-31675/>)\n\n* * *\n\n## Discover and Prioritize Vulnerabilities in [Vulnerability Management Detection Response (VMDR)](<https://www.qualys.com/apps/vulnerability-management-detection-response/>) \n\nQualys VMDR automatically detects new Patch Tuesday vulnerabilities using continuous updates to its KnowledgeBase (KB). \n\nYou can see all your impacted hosts by these vulnerabilities using the following QQL query:\n \n \n vulnerabilities.vulnerability:( qid:`91937` OR qid:`91938` OR qid:`91939` OR qid:`91940` OR qid:`91941` OR qid:`91942` OR qid:`91943` OR qid:`91944` OR qid:`91945` OR qid:`91946` OR qid:`91947` OR qid:`110415` OR qid:`110416` OR qid:`377590` ) \n\n![](https://blog.qualys.com/wp-content/uploads/2022/09/VMDR-September2022-1070x488.png)\n\n![](https://blog.qualys.com/wp-content/uploads/2022/06/image-4.png) [Qualys VMDR Recognized as Best VM Solution by SC Awards 2022 & Leader by GigaOm](<https://blog.qualys.com/product-tech/2022/08/22/qualys-vmdr-recognized-as-best-vm-solution-by-sc-awards-2022-leader-by-gigaom>) **_New_**\n\n![](https://blog.qualys.com/wp-content/uploads/2022/06/image-4.png) [A Deep Dive into VMDR 2.0 with Qualys TruRisk\u2122](<https://blog.qualys.com/product-tech/2022/08/08/a-deep-dive-into-vmdr-2-0-with-qualys-trurisk>)\n\n* * *\n\n## Rapid Response with [Patch Management (PM)](<https://www.qualys.com/apps/patch-management/>)\n\nVMDR rapidly remediates Windows hosts by deploying the most relevant and applicable per-technology version patches. You can simply select respective QIDs in the Patch Catalog and filter on the \u201cMissing\u201d patches to identify and deploy the applicable, available patches with one click.\n\nThe following QQL will return the missing patches for this Patch Tuesday:\n \n \n ( qid:`91937` OR qid:`91938` OR qid:`91939` OR qid:`91940` OR qid:`91941` OR qid:`91942` OR qid:`91943` OR qid:`91944` OR qid:`91945` OR qid:`91946` OR qid:`91947` OR qid:`110415` OR qid:`110416` OR qid:`377590` ) \n\n![](https://blog.qualys.com/wp-content/uploads/2022/09/PATCH-September2022-1070x488.png)\n\n![](https://blog.qualys.com/wp-content/uploads/2022/06/image-4.png) [Let Smart Automation Reduce the Risk of Zero-Day Attacks on Third-Party Applications](<https://blog.qualys.com/qualys-insights/2022/09/08/let-smart-automation-reduce-the-risk-of-zero-day-attacks-on-third-party-applications-2>) **_New_**\n\n![](https://blog.qualys.com/wp-content/uploads/2022/06/image-4.png) [Risk-based Remediation Powered by Patch Management in Qualys VMDR 2.0](<https://blog.qualys.com/product-tech/2022/06/22/risk-based-remediation-powered-by-patch-management-in-qualys-vmdr-2-0>)\n\n* * *\n\n## Evaluate Vendor-Suggested Workarounds with [Policy Compliance](<https://www.qualys.com/forms/policy-compliance/>)\n\nQualys\u2019 [Policy Compliance Control Library](<https://vimeo.com/700790353>) makes it easy to evaluate your technology infrastructure when the current situation requires the implementation of a vendor-suggested workaround. A workaround is a method, sometimes used temporarily, for achieving a task or goal when the usual or planned method isn't working. Information technology often uses a workaround to overcome hardware, programming, or communication problems. Once a problem is fixed, a workaround is usually abandoned. _ [Source](<https://www.techtarget.com/whatis/definition/workaround>)_\n\nThe following Qualys [Policy Compliance Control IDs (CIDs), and System Defined Controls (SDC) ](<https://qualysguard.qg2.apps.qualys.com/qwebhelp/fo_portal/module_pc/controls/controls_lp.htm>)have been updated to support Microsoft recommended workaround for this Patch Tuesday:\n\n#### [CVE-2022-38007](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-38007>)** | Azure Guest Configuration and Azure Arc-enabled Servers Elevation of Privilege (EoP) Vulnerability**\n\nThis vulnerability has a CVSSv3.1 score of 7.8/10.\n\nPolicy Compliance Control IDs (CIDs) for Checking Azure Arc-Enabled Servers on Linux:\n\n * **14112**: Status of the services installed on the Linux/UNIX host (stopped, running, failed, dead, \u2026) \n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation Less Likely_**\n\n* * *\n\n#### [CVE-2022-34718](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-34718>)**** | ****Windows TCP/IP Remote Code Execution (RCE) Vulnerability\n\nThis vulnerability has a CVSSv3.1 score of 9.8/10.\n\nPolicy Compliance Control IDs (CIDs):\n\n * **3720**: Status of the 'IPSEC Services' service\n * **14916**: Status of Windows Services \n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation More Likely_**\n\n* * *\n\n#### [CVE-2022-35838](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-35838>)****** | **HTTP V3 Denial of Service (DoS) Vulnerability****\n\nThis vulnerability has a CVSSv3.1 score of 7.5/10.\n\nPolicy Compliance Control IDs (CIDs):\n\n * **24717**: Status of the 'HTTP/3' service\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation Less Likely_**\n\n* * *\n\n#### [CVE-2022-33679 ](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-33679>), [CVE-2022-33647](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-33647>)**** | **Windows Kerberos Elevation of Privilege (EoP) Vulnerability**\n\nThese vulnerabilities have a CVSSv3.1 score of 8.1/10.\n\nPolicy Compliance Control IDs (CIDs):\n\n * **17108**: Status of the 'KDC support for claims, compound authentication and Kerberos armoring' setting (Enabled / Disabled)\n * **17109**: Status of the 'Kerberos client support for claims, compound authentication and Kerberos armoring' setting\n * **17197**: Status of the 'KDC support for claims, compound authentication, and Kerberos armoring' setting\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation Less Likely_**\n\n* * *\n\n#### [CVE-2022-38004](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-38004>) **| Windows Network File System Remote Code Execution (RCE) Vulnerability** \n\nThis vulnerability has a CVSSv3.1 score of 7.8/10.\n\nPolicy Compliance Control IDs (CIDs):\n\n * **1161**: Status of the 'Fax' service\n * **14916**: Status of Windows Services\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation Less Likely_**\n\n* * *\n\nThe following QQL will return a posture assessment for the CIDs for this Patch Tuesday:\n \n \n control:( id:`1161` OR id:`3720` OR id:`14112` OR id:`14916` OR id:`14916` OR id:`17108` OR id:`17108` OR id:`17109` OR id:`17109` OR id:`17197` OR id:`17197` OR id:`24717` ) \n\n![](https://blog.qualys.com/wp-content/uploads/2022/09/PC-September2022-1070x488.png)\n\n![](https://blog.qualys.com/wp-content/uploads/2022/08/qualys-shield.jpg) [Mitigating the Risk of Zero-Day Vulnerabilities by using Compensating Controls](<https://blog.qualys.com/vulnerabilities-threat-research/2022/08/23/mitigating-the-risk-of-zero-day-vulnerabilities-by-using-compensating-controls>) **_New_**\n\n![](https://blog.qualys.com/wp-content/uploads/2022/08/qualys-shield.jpg) [Policy Compliance (PC) | Policy Library Update Blogs](<https://notifications.qualys.com/tag/policy-library>)\n\n* * *\n\n**Patch Tuesday is Complete.**\n\n* * *\n\n# Qualys [This Month in Vulnerabilities and Patches](<https://gateway.on24.com/wcc/eh/3347108/category/97049/patch-tuesday>) Webinar Series \n\n![This image has an empty alt attribute; its file name is image-1070x560.jpeg](https://blog.qualys.com/wp-content/uploads/2022/03/image-1070x560.jpeg)\n\nThe Qualys Research team hosts a monthly webinar series to help our existing customers leverage the seamless integration between Qualys[ Vulnerability Management Detection Response (VMDR)](<https://www.qualys.com/apps/vulnerability-management-detection-response/>) and Qualys [Patch Management](<https://www.qualys.com/apps/patch-management/>). Combining these two solutions can reduce the median time to remediate critical vulnerabilities. \n\nDuring the webcast, we will discuss this month\u2019s high-impact vulnerabilities, including those that are part of this month's Patch Tuesday alert. We will walk you through the necessary steps to address the key vulnerabilities using Qualys VMDR and Qualys Patch Management. \n\n* * *\n\n### **Join the webinar**\n\n## **This Month in Vulnerabilities & Patches**\n\n[Register Now](<https://gateway.on24.com/wcc/eh/3347108/category/97049/patch-tuesday>)\n\n* * *\n\n## NEW & NOTEWORTHY UPCOMING EVENTS\n\nThe content within this section will spotlight Vulnerability Management, Patch Management, Threat Protections, and Policy Compliance adjacent events available to our new and existing customers.\n\n* * *\n\n[WEBINARS](<https://gateway.on24.com/wcc/eh/3347108/category/91385/upcoming-webinars>)\n\n## [Introducing Qualys Threat Thursdays](<https://blog.qualys.com/vulnerabilities-threat-research/2022/09/01/introducing-qualys-threat-research-thursdays>)\n\n![](https://blog.qualys.com/wp-content/uploads/2022/10/ThreatThursday.png)\n\nThe **Qualys Research Team** announces the first in a series of regular monthly webinars covering the latest threat intelligence analysis and insight. Join us each month for Threat Thursdays, where we will zero in on a specific malware or other exploit observed in the wild\u2026 and how to defend against it.\n\nPlease join us for the first [Threat Thursdays](<https://event.on24.com/wcc/r/3925198/52A4000CBD17D2B16AFD5F56B3C9D15A>) monthly webinar where the Qualys Threat Research Team will present the latest threat intelligence\u2026 each and every month! \n\nTo quickly navigate to Threat Thursday blog posts, please use <https://blog.qualys.com/tag/threat-thursday>\n\n* * *\n\n[CONFERENCES](<https://www.qualys.com/qsc/locations/>)\n\n[![](https://blog.qualys.com/wp-content/uploads/2022/10/QSC2022LV.png)](<https://www.qualys.com/qsc/2022/las-vegas/?utm_source=qualys-homepage&utm_medium=event&utm_campaign=homepage-banner-qsc-2022&utm_term=qsc-q4-2022&utm_content=qualys-homepage-qsc&leadsource=344572821>)[Register Now](<https://www.qualys.com/qsc/2022/las-vegas/?utm_source=qualys-homepage&utm_medium=event&utm_campaign=homepage-banner-qsc-2022&utm_term=qsc-q4-2022&utm_content=qualys-homepage-qsc&leadsource=344572821>)\n\n## [Qualys Annual Security Conference](<https://www.qualys.com/qsc/get-notified/#las-vegas/>) #QSC22\n\nNovember 7-10, 2022 \n\nThe Venetian Resort Las Vegas, 3355 Las Vegas Blvd. South, Las Vegas, NV 89109, US\n\n[Book your hotel here](<https://book.passkey.com/gt/218594637?gtid=9914abda1b2fe722d872e0ac3e0bdc09>) & take advantage of the discounted QSC rate of $229+ per night\n\nOr find a conference [near you](<https://www.qualys.com/qsc/locations/>).", "cvss3": {"exploitabilityScore": 3.9, "cvssV3": {"baseSeverity": "CRITICAL", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "UNCHANGED", "attackVector": "NETWORK", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "NONE", "baseScore": 9.8, "vectorString": "CVSS:3.1/AV:N/AC:L/PR:N/UI:N/S:U/C:H/I:H/A:H", "version": "3.1", "userInteraction": "NONE"}, "impactScore": 5.9}, "published": "2022-09-13T20:00:00", "type": "qualysblog", "title": "September 2022 Patch Tuesday | Microsoft Releases 63 Vulnerabilities with 5 Critical, plus 16 Microsoft Edge (Chromium-Based); Adobe Releases 7 Advisories, 63 Vulnerabilities with 35 Critical.", "bulletinFamily": "blog", "cvss2": {"severity": "HIGH", "exploitabilityScore": 3.9, "obtainAllPrivilege": false, "userInteractionRequired": false, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "LOW", "confidentialityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "baseScore": 7.2, "vectorString": "AV:L/AC:L/Au:N/C:C/I:C/A:C", "version": "2.0", "accessVector": "LOCAL", "authentication": "NONE"}, "impactScore": 10.0, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2022-0028", "CVE-2022-22047", "CVE-2022-23960", "CVE-2022-26929", "CVE-2022-2856", "CVE-2022-2884", "CVE-2022-30134", "CVE-2022-3075", "CVE-2022-31672", "CVE-2022-31673", "CVE-2022-31674", "CVE-2022-31675", "CVE-2022-32893", "CVE-2022-32894", "CVE-2022-33647", "CVE-2022-33679", "CVE-2022-34718", "CVE-2022-34721", "CVE-2022-34722", "CVE-2022-35838", "CVE-2022-36804", "CVE-2022-37969", "CVE-2022-38004", "CVE-2022-38007", "CVE-2022-38009", "CVE-2022-38012"], "modified": "2022-09-13T20:00:00", "id": "QUALYSBLOG:DE2E40D3BB574E53C7448F3A304849C9", "href": "https://blog.qualys.com/category/vulnerabilities-threat-research", "cvss": {"score": 7.2, "vector": "AV:L/AC:L/Au:N/C:C/I:C/A:C"}}, {"lastseen": "2022-09-14T00:03:27", "description": "# **Microsoft Patch Tuesday Summary**\n\nMicrosoft has fixed 121 vulnerabilities (aka flaws) in the August 2022 update, including 17 vulnerabilities classified as **_Critical_** as they allow Elevation of Privilege (EoP) and Remote Code Execution (RCE). This month's Patch Tuesday fixes two (2) zero-day vulnerabilities, with one (1) actively exploited***** in attacks ([CVE-2022-34713](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-34713>)*****,[ CVE-2022-30134](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30134>)). Earlier this month, August 5, 2022, Microsoft also released 20 Microsoft Edge (Chromium-Based) updates addressing Elevation of Privilege (EoP), Remote Code Execution (RCE), and Security Feature Bypass with severities of Low, Moderate, and Important respectively.\n\nMicrosoft has fixed several flaws in its software, including Denial of Service (DoS), Elevation of Privilege (EoP), Information Disclosure, Microsoft Edge (Chromium-based), Remote Code Execution (RCE), Security Feature Bypass, and Spoofing.\n\n## **The August 2022 Microsoft vulnerabilities are classified as follows:**\n\n![](https://blog.qualys.com/wp-content/uploads/2022/08/August2022-ImpactSeverityRoundUp-1.png)\n\n![](https://blog.qualys.com/wp-content/uploads/2022/06/image-4.png) [Related Threat Protection Post](<https://threatprotect.qualys.com/2022/08/10/microsoft-patches-121-vulnerabilities-with-two-zero-days-and-17-critical-plus-20-microsoft-edge-chromium-based-in-august-2022-patch-tuesday/>)\n\n# **Notable Microsoft Vulnerabilities Patched**\n\nA vulnerability is classified as a zero-day if it is publicly disclosed or actively exploited with no official fix available.\n\n### [](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>)[CVE-2022-34713](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-34713>) | Microsoft Windows Support Diagnostic Tool (MSDT) Remote Code Execution (RCE) Vulnerability\n\nThis vulnerability has a CVSSv3.1 score of 7.8/10.\n\nIn May, Microsoft released a [blog](<https://msrc-blog.microsoft.com/2022/05/30/guidance-for-cve-2022-30190-microsoft-support-diagnostic-tool-vulnerability/>) giving guidance for a vulnerability in MSDT and released updates to address it shortly thereafter. Public discussion of a vulnerability can encourage further scrutiny on the component, both by Microsoft security personnel as well as their research partners. _This CVE is a variant of the vulnerability publicly known as Dogwalk._\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation Detected_**\n\n> ![](https://blog.qualys.com/wp-content/uploads/2022/06/image-4.png) Qualys director of vulnerability and threat research, [Bharat Jogi](<https://blog.qualys.com/author/bharat_jogi>), said DogWalk had actually been reported back in 2019 but at the time was not thought to be dangerous as it required \u201csignificant user interaction to exploit,\u201d and there were other mitigations in place.\n> \n> - _Excerpt from [Surge in CVEs as Microsoft Fixes Exploited Zero Day Bug](<https://www.infosecurity-magazine.com/news/surge-cves-microsoft-fixes/>)_\n\n* * *\n\n### [](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>)[CVE-2022-30134](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30134>) | Microsoft Exchange Information Disclosure Vulnerability\n\nThis vulnerability has a CVSSv3.1 score of 7.6/10.\n\nThis vulnerability requires that a user with an affected version of Exchange Server access a malicious server. An attacker would have to host a specially crafted server share or website. An attacker would have no way to force users to visit this specially crafted server share or website, but would have to convince them to visit the server share or website, typically by way of an enticement in an email or chat message. For more information, see [Exchange Server Sup](<https://aka.ms/ExchangeEPDoc>)[port for Windows Extended Protection](<https://microsoft.github.io/CSS-Exchange/Security/Extended-Protection/>) and/or [The Exchange Blog](<https://techcommunity.microsoft.com/t5/exchange-team-blog/released-august-2022-exchange-server-security-updates/ba-p/3593862>).\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation Unlikely_**\n\n* * *\n\n## **Security Feature Bypass Vulnerabilities Addressed**\n\nThese are **standalone security updates**. These packages must be installed in addition to the normal security updates to be protected from this vulnerability.\n\nThese security updates have a Servicing Stack Update prerequisite for specific KB numbers. The packages have a built-in pre-requisite logic to ensure the ordering.\n\nMicrosoft customers should ensure they have installed the latest Servicing Stack Update before installing these standalone security updates. See [ADV990001 | Latest Servicing Stack Updates](<https://msrc.microsoft.com/update-guide/security-guidance/advisory/ADV990001>) for more information.\n\nAn attacker who successfully exploited either of these three (3) vulnerabilities could bypass Secure Boot.\n\n### CERT/CC: [CVE-2022-34301](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-34301>) Eurosoft Boot Loader Bypass\n\n### CERT/CC: [CVE-2022-34302](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-34302>) New Horizon Data Systems Inc Boot Loader Bypass\n\n### CERT/CC: [CVE-2022-34303](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-34303>) Crypto Pro Boot Loader Bypass\n\nAt the time of publication, a CVSSv3.1 score has not been assigned.\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation More Like_**ly\n\n* * *\n\n## **Microsoft Critical and Important Vulnerability Highlights**\n\nThis month\u2019s [advisory](<https://msrc.microsoft.com/update-guide/releaseNote/2022-Aug>) covers multiple Microsoft product families, including Azure, Browser, Developer Tools, [Extended Security Updates (ESU)](<https://docs.microsoft.com/en-us/lifecycle/faq/extended-security-updates>), Exchange Server, Microsoft Office, System Center,, and Windows.\n\nA total of 86 unique Microsoft products/versions are affected, including .NET, Azure, Edge (Chromium-based), Excel, Exchange Server (Cumulative Update), Microsoft 365 Apps for Enterprise, Office, Open Management Infrastructure, Outlook, and System Center Operations Manager (SCOM), Visual Studio, Windows Desktop, and Windows Server.\n\nDownloads include IE Cumulative, Monthly Rollup, Security Only, and Security Updates.\n\n* * *\n\n### [](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>)[CVE-2022-35766](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-35766>), [CVE-2022-35794](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-35794>) | Windows Secure Socket Tunneling Protocol (SSTP) Remote Code Execution (RCE) Vulnerability\n\nThis vulnerability has a CVSSv3.1 score of 8.1/10.\n\nSuccessful exploitation of this vulnerability requires an attacker to win a race condition.\n\nAn unauthenticated attacker could send a specially crafted connection request to a RAS server, which could lead to remote code execution (RCE) on the RAS server machine.\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation Less Likely_**\n\n* * *\n\n### [](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>)[CVE-2022-30133](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30133>), [CVE-2022-35744](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-35744>) | Windows Point-to-Point Protocol (PPP) Remote Code Execution (RCE) Vulnerability\n\nThis vulnerability has a CVSSv3.1 score of 9.8/10.\n\nThis vulnerability can only be exploited by communicating via Port 1723. As a temporary workaround prior to installing the updates that address this vulnerability, you can block traffic through that port thus rendering the vulnerability unexploitable. **Warning**: Disabling Port 1723 could affect communications over your network.\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation Less Likely_**\n\n* * *\n\n### [](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>)[CVE-2022-34691](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-34691>) | Active Directory Domain Services Elevation of Privilege (EoP) Vulnerability\n\nThis vulnerability has a CVSSv3.1 score of 8.8/10.\n\nThis vulnerability can only be exploited by communicating via Port 1723. As a temporary workaround An authenticated user could manipulate attributes on computer accounts they own or manage, and acquire a certificate from Active Directory Certificate Services that would allow elevation of privilege to System.\n\nPlease see [Certificate-based authentication changes on Windows domain controllers](<https://support.microsoft.com/en-us/topic/kb5014754-certificate-based-authentication-changes-on-windows-domain-controllers-ad2c23b0-15d8-4340-a468-4d4f3b188f16>) for more information and ways to protect your domain.\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation Less Likely_**\n\n* * *\n\n### [](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>)[CVE-2022-33646](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-33646>) | Azure Batch Node Agent Elevation of Privilege (EoP) Vulnerability\n\nThis vulnerability has a CVSSv3.1 score of 7.0/10.\n\nSuccessful exploitation of this vulnerability requires an attacker to prepare the target environment to improve exploit reliability.\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation More Likely_**\n\n* * *\n\n## **Microsoft Edge | Last But Not Least**\n\nEarlier in August, Microsoft released Microsoft Edge (Chromium-based) vulnerabilities [CVE-2022-33636](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-33636>), [](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-2294>)[CVE-2022-33649](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-33649>), and [CVE-2022-35796](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-35796>). The vulnerability assigned to each of these CVEs is in the Chromium Open Source Software (OSS) which is consumed by Microsoft Edge. It is being documented in the Security Update Guide to announce that the latest version of Microsoft Edge (Chromium-based) is no longer vulnerable. For more information, please see [Security Update Guide Supports CVEs Assigned by Industry Partners](<https://msrc-blog.microsoft.com/2021/01/13/security-update-guide-supports-cves-assigned-by-industry-partners/>).\n\n### [CVE-2022-33649](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-33649>) | Microsoft Edge (Chromium-based) Security Feature Bypass Vulnerability\n\nThis vulnerability has a CVSSv3.1 score of 9.6/10.\n\nAn attacker could host a specially crafted website designed to exploit the vulnerability through Microsoft Edge and then convince a user to view the website. However, in all cases an attacker would have no way to force a user to view the attacker-controlled content. Instead, an attacker would have to convince a user to take action, typically by an enticement in an email or instant message, or by getting the user to open an attachment sent through email. \n\nThe user would have to click on a specially crafted URL to be compromised by the attacker.\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation Less Likely_**\n\n* * *\n\n### [](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-33649>)[CVE-2022-33636](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-33636>), [](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-33636>)[CVE-2022-35796](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-35796>) | Microsoft Edge (Chromium-based) Remote Code Execution (RCE) Vulnerability\n\nThis vulnerability has a CVSSv3.1 score of 8.3/10. _[Per Microsoft's severity guidelines](<https://www.microsoft.com/en-us/msrc/bounty-new-edge>), the amount of user interaction or preconditions required to allow this sort of exploitation downgraded the severity. The CVSS scoring system doesn't allow for this type of nuance._\n\nAn attacker could host a specially crafted website designed to exploit the vulnerability through Microsoft Edge and then convince a user to view the website. However, in all cases, an attacker would have no way to force a user to view the attacker-controlled content. Instead, an attacker would have to convince a user to take action, typically by an enticement in an email or instant message, or by getting the user to open an attachment sent through email.\n\nSuccessful exploitation of this vulnerability requires an attacker to win a race condition.\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): **_Exploitation Less Likely_**\n\n* * *\n\n# **Adobe Security Bulletins and Advisories**\n\nAdobe released five (5) [advisories](<https://helpx.adobe.com/security/security-bulletin.html>) with updates to fix 25 vulnerabilities affecting Adobe Acrobat and Reader, Commerce, FrameMaker, Illustrator, and Premiere Elements applications. Of these 25 vulnerabilities, 15 are rated as **_[Critical](<https://helpx.adobe.com/security/severity-ratings.html>)_**; ranging in severity from a CVSS score of 7.8/10 to 9.1/10, as summarized below.\n\n![](https://blog.qualys.com/wp-content/uploads/2022/08/AdobeAugust2022-ImpactSeverityRoundUp-1.png)\n\n* * *\n\n### [APSB22-38](<https://helpx.adobe.com/security/products/magento/apsb22-38.html>) | Security update available for Adobe Commerce\n\nThis update resolves seven (7) vulnerabilities:\n\n * Four (4) **_[_**Critical**_](<https://helpx.adobe.com/security/severity-ratings.html>)_**\n * Two (2) **_[Important](<https://helpx.adobe.com/security/severity-ratings.html>)_**\n * One (1) **_[Moderate](<https://helpx.adobe.com/security/severity-ratings.html>)_**\n\n_[Adobe Priority](<https://helpx.adobe.com/security/severity-ratings.html>): 3_\n\nAdobe has released a security update for Adobe Commerce and Magento Open Source. This update resolves [critical](<https://helpx.adobe.com/security/severity-ratings.html>), [important](<https://helpx.adobe.com/security/severity-ratings.html>), and [moderate](<https://helpx.adobe.com/security/severity-ratings.html>) vulnerabilities. Successful exploitation could lead to arbitrary code execution, privilege escalation, and security feature bypass.\n\n* * *\n\n### [APSB22-39](<https://helpx.adobe.com/security/products/acrobat/apsb22-39.html>) | Security update available for Adobe Acrobat and Reader\n\nThis update resolves seven (7) vulnerabilities:\n\n * Three (3) [_**Critical**_](<https://helpx.adobe.com/security/severity-ratings.html>)\n * Four (4) **_[Important](<https://helpx.adobe.com/security/severity-ratings.html>)_**\n\n_[Adobe Priority](<https://helpx.adobe.com/security/severity-ratings.html>): 2_\n\nAdobe has released security updates for Adobe Acrobat and Reader for Windows and macOS. These updates address multiple [critical](<https://helpx.adobe.com/security/severity-ratings.html>) and [important](<https://helpx.adobe.com/security/severity-ratings.html>) vulnerabilities. Successful exploitation could lead to arbitrary code execution and memory leak.\n\n* * *\n\n### [APSB22-41](<https://helpx.adobe.com/security/products/illustrator/apsb22-41.html>) | Security Updates Available for Adobe Illustrator\n\nThis update resolves four (4) vulnerabilities:\n\n * Two (2) [_**Critical**_](<https://helpx.adobe.com/security/severity-ratings.html>)\n * Two (2) **_[Important](<https://helpx.adobe.com/security/severity-ratings.html>)_**\n\n_[Adobe Priority](<https://helpx.adobe.com/security/severity-ratings.html>): 3_\n\nAdobe has released an update for Adobe Illustrator 2022. This update resolves [critical](<https://helpx.adobe.com/security/severity-ratings.html>) and [important](<https://helpx.adobe.com/security/severity-ratings.html>) vulnerabilities that could lead to arbitrary code execution and memory leak.\n\n* * *\n\n### [APSB22-42](<https://helpx.adobe.com/security/products/framemaker/apsb22-42.html>) | Security update available for Adobe FrameMaker\n\nThis update resolves six (6) vulnerabilities:\n\n * Five (5) [_**Critical**_](<https://helpx.adobe.com/security/severity-ratings.html>)\n * One (1) **_[Important](<https://helpx.adobe.com/security/severity-ratings.html>)_**\n\n_[Adobe Priority](<https://helpx.adobe.com/security/severity-ratings.html>): 3_\n\nAdobe has released a security update for Adobe FrameMaker. This update addresses multiple [critical](<https://helpx.adobe.com/security/severity-ratings.html>) and [important](<https://helpx.adobe.com/security/severity-ratings.html>) vulnerabilities. Successful exploitation could lead to arbitrary code execution \nand memory leak. \n\n* * *\n\n### [APSB22-43](<https://helpx.adobe.com/security/products/premiere_elements/apsb22-43.html>) | Security update available for Adobe Premiere Elements\n\nThis update resolves one (1) [_**Critical**_](<https://helpx.adobe.com/security/severity-ratings.html>) vulnerability.\n\n_[Adobe Priority](<https://helpx.adobe.com/security/severity-ratings.html>): 3_\n\nAdobe has released a security update for Adobe FrameMaker. This update addresses multiple [critical](<https://helpx.adobe.com/security/severity-ratings.html>) and [important](<https://helpx.adobe.com/security/severity-ratings.html>) vulnerabilities. Successful exploitation could lead to arbitrary code execution \nand memory leak. \n\n* * *\n\n# **About Qualys Patch Tuesday**\n\nQualys Patch Tuesday QIDs are published as [Security Alerts](<https://www.qualys.com/research/security-alerts/>) typically late in the evening on the day of [Patch Tuesday](<https://blog.qualys.com/tag/patch-tuesday>), followed later by the publication of the monthly queries for the [Unified Dashboard: 2022 Patch Tuesday (QID Based) Dashboard](<https://success.qualys.com/discussions/s/article/000006821>) by Noon on Wednesday.\n\n## Qualys [Threat Protection](<https://www.qualys.com/apps/threat-protection/>) High-Rated Advisories for August 1-9, 2022 _New Content_\n\n * [Microsoft Patches 121 Vulnerabilities with Two Zero-days and 17 Critical; Plus 20 Microsoft Edge (Chromium-Based) in August 2022 Patch Tuesday](<https://threatprotect.qualys.com/2022/08/10/microsoft-patches-121-vulnerabilities-with-two-zero-days-and-17-critical-plus-20-microsoft-edge-chromium-based-in-august-2022-patch-tuesday/>)\n * [VMware vRealize Operations Multiple Vulnerabilities Patched in the Latest Security update (CVE-2022-31672, CVE-2022-31673, CVE-2022-31674, & CVE-2022-31675)](<https://threatprotect.qualys.com/2022/08/10/vmware-vrealize-operations-multiple-vulnerabilities-patched-in-the-latest-security-update-cve-2022-31672-cve-2022-31673-cve-2022-31674-cve-2022-31675/>)\n * [Cisco Patched Small Business RV Series Routers Multiple Vulnerabilities (CVE-2022-20827, CVE-2022-20841, and CVE-2022-20842)](<https://threatprotect.qualys.com/2022/08/04/cisco-patched-small-business-rv-series-routers-multiple-vulnerabilities-cve-2022-20827-cve-2022-20841-and-cve-2022-20842/>)\n * [VMware Patched Multiple Vulnerabilities in VMware Products including Identity Manager (vIDM) and Workspace ONE Access](<https://threatprotect.qualys.com/2022/08/03/vmware-patched-multiple-vulnerabilities-in-vmware-products-including-identity-manager-vidm-and-workspace-one-access/>)\n * [Atlassian Confluence Server and Confluence Data Center \u2013 Questions for Confluence App \u2013 Hardcoded Password Vulnerability (CVE-2022-26138)](<https://threatprotect.qualys.com/2022/08/01/atlassian-confluence-server-and-confluence-data-center-questions-for-confluence-app-hardcoded-password-vulnerability-cve-2022-26138/>)\n\n* * *\n\n## Discover and Prioritize Vulnerabilities in [Vulnerability Management Detection Response (VMDR)](<https://www.qualys.com/apps/vulnerability-management-detection-response/>) \n\nQualys VMDR automatically detects new Patch Tuesday vulnerabilities using continuous updates to its KnowledgeBase (KB). \n\nYou can see all your impacted hosts by these vulnerabilities using the following QQL query:\n \n \n vulnerabilities.vulnerability:( qid:`50121` OR qid:`91929` OR qid:`91931` OR qid:`91932` OR qid:`91933` OR qid:`91934` OR qid:`91935` OR qid:`91936` OR qid:`110413` OR qid:`110414` OR qid:`376813` ) \n\n![](https://blog.qualys.com/wp-content/uploads/2022/08/VMDR_2022AUG-1070x488.png)\n\n![](https://blog.qualys.com/wp-content/uploads/2022/06/image-4.png) [A Deep Dive into VMDR 2.0 with Qualys TruRisk\u2122](<https://blog.qualys.com/product-tech/2022/08/08/a-deep-dive-into-vmdr-2-0-with-qualys-trurisk>) _The old way of ranking vulnerabilities doesn\u2019t work anymore. Instead, enterprise security teams need to rate the true risks to their business. In this blog, we examine each of the risk scores delivered by Qualys TruRisk, the criteria used to compute them, and how they can be used to prioritize remediation._\n\n* * *\n\n## Rapid Response with [Patch Management (PM)](<https://www.qualys.com/apps/patch-management/>)\n\nVMDR rapidly remediates Windows hosts by deploying the most relevant and applicable per-technology version patches. You can simply select respective QIDs in the Patch Catalog and filter on the \u201cMissing\u201d patches to identify and deploy the applicable, available patches in one go.\n\nThe following QQL will return the missing patches for this Patch Tuesday:\n \n \n ( qid:`50121` OR qid:`91929` OR qid:`91931` OR qid:`91932` OR qid:`91933` OR qid:`91934` OR qid:`91935` OR qid:`91936` OR qid:`110413` OR qid:`110414` OR qid:`376813` ) \n\n![](https://blog.qualys.com/wp-content/uploads/2022/08/PATCH_2022AUG-1070x488.png)\n\n![](https://blog.qualys.com/wp-content/uploads/2022/06/image-4.png) [Risk-based Remediation Powered by Patch Management in Qualys VMDR 2.0](<https://blog.qualys.com/product-tech/2022/06/22/risk-based-remediation-powered-by-patch-management-in-qualys-vmdr-2-0>)\n\n* * *\n\n## Evaluate Vendor-Suggested Workarounds with [Policy Compliance](<https://www.qualys.com/forms/policy-compliance/>) _New Content_\n\nQualys\u2019 [Policy Compliance Control Library](<https://vimeo.com/700790353>) makes it easy to evaluate your technology infrastructure when the current situation requires the implementation of a vendor-suggested workaround. A workaround is a method, sometimes used temporarily, for achieving a task or goal when the usual or planned method isn't working. Information technology often uses a workaround to overcome hardware, programming, or communication problems. Once a problem is fixed, a workaround is usually abandoned. _ [Source](<https://www.techtarget.com/whatis/definition/workaround>)_\n\nThe following Qualys [Policy Compliance Control IDs (CIDs), and System Defined Controls (SDC) ](<https://qualysguard.qg2.apps.qualys.com/qwebhelp/fo_portal/module_pc/controls/controls_lp.htm>)have been updated to support Microsoft recommended workaround for this Patch Tuesday:\n\n#### **[CVE-2022-35793](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-35793>) | Windows Print Spooler Elevation of Privilege (EoP) Vulnerability**\n\nThis vulnerability has a CVSSv3.1 score of 7.3/10.\n\nPolicy Compliance Control IDs (CIDs):\n\n * 1368: Status of the \u2018Print Spooler\u2019 service\n * 21711: Status of the \u2018Allow Print Spooler to accept client connections\u2019 group policy setting \n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): Exploitation More Likely\n\n* * *\n\n#### **[CVE-2022-35804](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-35804>)** | **SMB Client and Server Remote Code Execution (RCE) Vulnerability**\n\nThis vulnerability has a CVSSv3.1 score of 8.8/10.\n\nPolicy Compliance Control IDs (CIDs):\n\n * 24476: Status of the SMBv3 Client compressions setting\n * 20233: Status of the SMBv3 Server compressions setting \n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): Exploitation More Likely\n\n* * *\n\n#### ****[CVE-2022-35755](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-35755>)** | **Windows Print Spooler Elevation of Privilege (EoP) Vulnerability****\n\nThis vulnerability has a CVSSv3.1 score of 7.3/10.\n\nPolicy Compliance Control IDs (CIDs):\n\n * 1368: Status of the \u2018Print Spooler\u2019 service\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): Exploitation More Likely\n\n* * *\n\n#### **[CVE-2022-30133](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30133>)**, **[CVE-2022-35744](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-35744>)** | **Windows Point-to-Point Protocol (PPP) Remote Code Execution (RCE) Vulnerability** \n\nThis vulnerability has a CVSSv3.1 score of 9.8/10.\n\nPolicy Compliance Control IDs (CIDs):\n\n * 11220: List of \u2018Inbound Rules\u2019 configured in Windows Firewall with Advanced Security via GPO\n * 14028: List of \u2018Outbound Rules\u2019 configured in Windows Firewall with Advanced Security via GPO\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): Exploitation Less Likely\n\n* * *\n\n#### **[CVE-2022-34715](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-34715>): Windows Network File System Remote Code Execution (RCE) Vulnerability** \n\nThis vulnerability has a CVSSv3.1 score of 9.8/10.\n\nPolicy Compliance Control IDs (CIDs):\n\n * 24139: Status of the Windows Network File System (NFSV4) service\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): Exploitation Less Likely\n\n* * *\n\n#### ****[CVE-2022-34691](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-34691>): Active Directory Domain Services Elevation of Privilege (EoP) Vulnerability****\n\nThis vulnerability has a CVSSv3.1 score of 8.8/10.\n\nPolicy Compliance Control IDs (CIDs):\n\n * 4079: Status of the \u2018Active Directory Certificate Service\u2019\n\n[Exploitability Assessment](<https://www.microsoft.com/en-us/msrc/exploitability-index?rtc=1>): Exploitation Less Likely\n\n* * *\n\nThe following QQL will return a posture assessment for the CIDs for this Patch Tuesday:\n \n \n control:( id:`1368` OR id:`4079` OR id:`11220` OR id:`14028` OR id:`20233` OR id:`21711` OR id:`24139` OR id:`24476` ) \n\n![](https://blog.qualys.com/wp-content/uploads/2022/08/PC_2022AUG-1070x488.png)\n\n![](https://blog.qualys.com/wp-content/uploads/2022/08/qualys-shield.jpg) [Mitigating the Risk of Zero-Day Vulnerabilities by using Compensating Controls](<https://blog.qualys.com/vulnerabilities-threat-research/2022/08/23/mitigating-the-risk-of-zero-day-vulnerabilities-by-using-compensating-controls>)\n\n![](https://blog.qualys.com/wp-content/uploads/2022/08/qualys-shield.jpg) [Policy Compliance (PC) | Policy Library Update Blogs](<https://notifications.qualys.com/tag/policy-library>)\n\n* * *\n\n##### Patch Tuesday is Complete.\n\n* * *\n\n# Qualys Monthly Webinar Series \n\n![This image has an empty alt attribute; its file name is image-1070x560.jpeg](https://blog.qualys.com/wp-content/uploads/2022/03/image-1070x560.jpeg)\n\nThe Qualys Research team hosts a monthly webinar series to help our existing customers leverage the seamless integration between Qualys[ Vulnerability Management Detection Response (VMDR)](<https://www.qualys.com/apps/vulnerability-management-detection-response/>) and Qualys [Patch Management](<https://www.qualys.com/apps/patch-management/>). Combining these two solutions can reduce the median time to remediate critical vulnerabilities. \n\nDuring the webcast, we will discuss this month\u2019s high-impact vulnerabilities, including those that are part of this month's Patch Tuesday alert. We will walk you through the necessary steps to address the key vulnerabilities using Qualys VMDR and Qualys Patch Management. \n\n* * *\n\n### **Join the webinar**\n\n## **This Month in Vulnerabilities & Patches**\n\n[Register Now](<https://gateway.on24.com/wcc/eh/3347108/category/97049/patch-tuesday>)", "cvss3": {"exploitabilityScore": 3.9, "cvssV3": {"baseSeverity": "CRITICAL", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "CHANGED", "attackVector": "NETWORK", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "NONE", "baseScore": 10.0, "vectorString": "CVSS:3.1/AV:N/AC:L/PR:N/UI:N/S:C/C:H/I:H/A:H", "version": "3.1", "userInteraction": "NONE"}, "impactScore": 6.0}, "published": "2022-08-09T20:00:00", "type": "qualysblog", "title": "August 2022 Patch Tuesday | Microsoft Releases 121 Vulnerabilities with 17 Critical, plus 20 Microsoft Edge (Chromium-Based); Adobe Releases 5 Advisories, 25 Vulnerabilities with 15 Critical.", "bulletinFamily": "blog", "cvss2": {"severity": "HIGH", "exploitabilityScore": 8.6, "obtainAllPrivilege": false, "userInteractionRequired": true, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "MEDIUM", "confidentialityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "baseScore": 9.3, "vectorString": "AV:N/AC:M/Au:N/C:C/I:C/A:C", "version": "2.0", "accessVector": "NETWORK", "authentication": "NONE"}, "impactScore": 10.0, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2022-20827", "CVE-2022-20841", "CVE-2022-20842", "CVE-2022-22047", "CVE-2022-2294", "CVE-2022-26138", "CVE-2022-30133", "CVE-2022-30134", "CVE-2022-30190", "CVE-2022-31672", "CVE-2022-31673", "CVE-2022-31674", "CVE-2022-31675", "CVE-2022-33636", "CVE-2022-33646", "CVE-2022-33649", "CVE-2022-34301", "CVE-2022-34302", "CVE-2022-34303", "CVE-2022-34691", "CVE-2022-34713", "CVE-2022-34715", "CVE-2022-35744", "CVE-2022-35755", "CVE-2022-35766", "CVE-2022-35793", "CVE-2022-35794", "CVE-2022-35796", "CVE-2022-35804"], "modified": "2022-08-09T20:00:00", "id": "QUALYSBLOG:AC756D2C7DB65BB8BC9FBD558B7F3AD3", "href": "https://blog.qualys.com/category/vulnerabilities-threat-research", "cvss": {"score": 9.3, "vector": "AV:N/AC:M/Au:N/C:C/I:C/A:C"}}], "thn": [{"lastseen": "2022-07-13T05:57:21", "description": "[![Microsoft](https://thehackernews.com/new-images/img/b/R29vZ2xl/AVvXsEhMMVV60incjQemAA8K9lAWSescsqjqG2a3UdVc4GiCMmXBd6175xW7cZiTJONSGUB1N9s-MMZARqaZP7h-OdKy4jUdvvT_H-aPCCLF9TKLu1S1Xcj8NZh673Hir7VOwNMNdOLjEU6LSXewzYkJXyX0Y0dpIn7L1WK7IuD61f1iG8uajyHoBwST8KVh/s728-e1000/windows-update.jpg)](<https://thehackernews.com/new-images/img/b/R29vZ2xl/AVvXsEhMMVV60incjQemAA8K9lAWSescsqjqG2a3UdVc4GiCMmXBd6175xW7cZiTJONSGUB1N9s-MMZARqaZP7h-OdKy4jUdvvT_H-aPCCLF9TKLu1S1Xcj8NZh673Hir7VOwNMNdOLjEU6LSXewzYkJXyX0Y0dpIn7L1WK7IuD61f1iG8uajyHoBwST8KVh/s728-e100/windows-update.jpg>)\n\nMicrosoft released its monthly round of Patch Tuesday updates to address [84 new security flaws](<https://msrc.microsoft.com/update-guide/releaseNote/2022-Jul>) spanning multiple product categories, counting a zero-day vulnerability that's under active attack in the wild.\n\nOf the 84 shortcomings, four are rated Critical, and 80 are rated Important in severity. Also separately resolved by the tech giant are [two other bugs](<https://docs.microsoft.com/en-us/deployedge/microsoft-edge-relnotes-security>) in the Chromium-based Edge browser, one of which plugs another [zero-day flaw](<https://thehackernews.com/2022/07/update-google-chrome-browser-to-patch.html>) that Google disclosed as being actively exploited in real-world attacks.\n\nTop of the list of this month's updates is [CVE-2022-22047](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>) (CVSS score: 7.8), a case of privilege escalation in the Windows Client Server Runtime Subsystem ([CSRSS](<https://en.wikipedia.org/wiki/Client/Server_Runtime_Subsystem>)) that could be abused by an attacker to gain SYSTEM permissions.\n\n\"With this level of access, the attackers are able to disable local services such as Endpoint Detection and Security tools,\" Kev Breen, director of cyber threat research at Immersive Labs, told The Hacker News. \"With SYSTEM access they can also deploy tools like Mimikatz which can be used to recover even more admin and domain level accounts, spreading the threat quickly.\"\n\nVery little is known about the nature and scale of the attacks other than an \"Exploitation Detected\" assessment from Microsoft. The company's Threat Intelligence Center (MSTIC) and Security Response Center (MSRC) have been credited with reporting the flaw.\n\nBesides CVE-2022-22047, two more elevation of privilege flaws have been fixed in the same component \u2014 [CVE-2022-22026](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22026>) (CVSS score: 8.8) and [CVE-2022-22049](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22049>) (CVSS score: 7.8) \u2014 that were reported by Google Project Zero researcher Sergei Glazunov.\n\n\"A locally authenticated attacker could send specially crafted data to the local CSRSS service to elevate their privileges from [AppContainer](<https://docs.microsoft.com/windows/win32/secauthz/appcontainer-isolation>) to SYSTEM,\" Microsoft said in an advisory for CVE-2022-22026.\n\n\"Because the AppContainer environment is considered a defensible security boundary, any process that is able to bypass the boundary is considered a change in Scope. The attacker could then execute code or access resources at a higher integrity level than that of the AppContainer execution environment.\"\n\nAlso remediated by Microsoft include a number of remote code execution bugs in Windows Network File System ([CVE-2022-22029](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22029>) and [CVE-2022-22039](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22039>)), Windows Graphics ([CVE-2022-30221](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30221>)), Remote Procedure Call Runtime ([CVE-2022-22038](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22038>)), and Windows Shell ([CVE-2022-30222](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30222>)).\n\nThe update further stands out for patching as many as 32 issues in the [Azure Site Recovery](<https://docs.microsoft.com/en-us/azure/site-recovery/site-recovery-overview>) business continuity service. Two of these flaws are related to remote code execution and the remaining 30 concern privilege escalation.\n\n\"Successful exploitation [...] requires an attacker to compromise admin credentials to one of the VMs associated with the configuration server,\" the company said, adding the flaws do not \"allow disclosure of any confidential information, but could allow an attacker to modify data that could result in the service being unavailable.\"\n\nOn top of that, Microsoft's July update also contains fixes for four privilege escalation vulnerabilities in the Windows Print Spooler module ([CVE-2022-22022](<https://msrc.microsoft.com/update-guide/en-US/vulnerability/CVE-2022-22022>), [CVE-2022-22041](<https://msrc.microsoft.com/update-guide/en-US/vulnerability/CVE-2022-22041>), [CVE-2022-30206](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30206>), and [CVE-2022-30226](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30226>)) after a [brief respite in June 2022](<https://thehackernews.com/2022/06/patch-tuesday-microsoft-issues-fix-for.html>), underscoring what appears to be a never-ending stream of flaws plaguing the technology.\n\nRounding off the Patch Tuesday updates are two notable fixes for tampering vulnerabilities in the Windows Server Service ([CVE-2022-30216](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30216>)) and Microsoft Defender for Endpoint ([CVE-2022-33637](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-33637>)) and three denial-of-service (DoS) flaws in Internet Information Services ([CVE-2022-22025](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22025>) and [CVE-2022-22040](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22040>)) and Security Account Manager ([CVE-2022-30208](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30208>)).\n\n### Software Patches from Other Vendors\n\nIn addition to Microsoft, security updates have also been released by other vendors since the start of the month to rectify several vulnerabilities, including \u2014\n\n * [Adobe](<https://helpx.adobe.com/security/security-bulletin.html>)\n * [AMD](<https://www.amd.com/en/corporate/product-security>)\n * [Android](<https://source.android.com/security/bulletin/2022-07-01>)\n * [Apache Projects](<https://blogs.apache.org/foundation/date/20220712>)\n * [Cisco](<https://thehackernews.com/2022/07/cisco-and-fortinet-release-security.html>)\n * [Citrix](<https://support.citrix.com/search/#/All%20Products?ct=Software%20Updates,Security%20Bulletins&searchText=&sortBy=Modified%20date&pageIndex=1>)\n * [Dell](<https://www.dell.com/support/security/>)\n * [Fortinet](<https://thehackernews.com/2022/07/cisco-and-fortinet-release-security.html>)\n * [GitLab](<https://about.gitlab.com/releases/2022/07/04/gitlab-15-1-2-released/>)\n * [Google Chrome](<https://thehackernews.com/2022/07/update-google-chrome-browser-to-patch.html>)\n * [HP](<https://support.hp.com/us-en/security-bulletins>)\n * [Intel](<https://www.intel.com/content/www/us/en/security-center/default.html>)\n * [Lenovo](<https://support.lenovo.com/us/en/product_security/ps500001-lenovo-product-security-advisories>)\n * Linux distributions [Debian](<https://www.debian.org/security/2022/>), [Oracle Linux](<https://linux.oracle.com/ords/f?p=105:21::::RP::>), [Red Hat](<https://access.redhat.com/security/security-updates/#/security-advisories?q=&p=1&sort=portal_publication_date%20desc&rows=10&portal_advisory_type=Security%20Advisory&documentKind=PortalProduct>), [SUSE](<https://www.suse.com/support/update/>), and [Ubuntu](<https://ubuntu.com/security/notices>)\n * [MediaTek](<https://corp.mediatek.com/product-security-bulletin/July-2022>)\n * [Qualcomm](<https://docs.qualcomm.com/product/publicresources/securitybulletin/july-2022-bulletin.html>)\n * [SAP](<https://dam.sap.com/mac/app/e/pdf/preview/embed/ucQrx6G?ltr=a&rc=10>)\n * [Schneider Electric](<https://www.se.com/ww/en/work/support/cybersecurity/security-notifications.jsp>)\n * [Siemens](<https://new.siemens.com/global/en/products/services/cert.html#SecurityPublications>), and\n * [VMware](<https://www.vmware.com/security/advisories.html>)\n \n\n\nFound this article interesting? Follow THN on [Facebook](<https://www.facebook.com/thehackernews>), [Twitter _\uf099_](<https://twitter.com/thehackersnews>) and [LinkedIn](<https://www.linkedin.com/company/thehackernews/>) to read more exclusive content we post.\n", "cvss3": {"exploitabilityScore": 2.0, "cvssV3": {"baseSeverity": "HIGH", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "CHANGED", "attackVector": "LOCAL", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "LOW", "baseScore": 8.8, "vectorString": "CVSS:3.1/AV:L/AC:L/PR:L/UI:N/S:C/C:H/I:H/A:H", "version": "3.1", "userInteraction": "NONE"}, "impactScore": 6.0}, "published": "2022-07-13T04:15:00", "type": "thn", "title": "Microsoft Releases Fix for Zero-Day Flaw in July 2022 Security Patch Rollout", "bulletinFamily": "info", "cvss2": {}, "cvelist": ["CVE-2022-22022", "CVE-2022-22025", "CVE-2022-22026", "CVE-2022-22029", "CVE-2022-22038", "CVE-2022-22039", "CVE-2022-22040", "CVE-2022-22041", "CVE-2022-22047", "CVE-2022-22049", "CVE-2022-30206", "CVE-2022-30208", "CVE-2022-30216", "CVE-2022-30221", "CVE-2022-30222", "CVE-2022-30226", "CVE-2022-33637"], "modified": "2022-07-13T05:36:49", "id": "THN:8C2FBC83F6EC62900F1887F00903447F", "href": "https://thehackernews.com/2022/07/microsoft-releases-fix-for-zero-day.html", "cvss": {"score": 0.0, "vector": "NONE"}}, {"lastseen": "2022-07-29T03:59:29", "description": "[![Windows and Adobe Zero-Days](https://thehackernews.com/new-images/img/b/R29vZ2xl/AVvXsEjRrnxKtJzXQbaLrPRY2GEIij8so07HImMs9wbPTTP-j92ED6wxTFv-NdQyw_Z0JBlqIYh-H3g2WKAcIkt70zKcB5AxP9KcQgCqChBwNsYPu9CQ_Xp6uBmkhxyoNZpHZIIQrV5TkreAFNBg-kFpOzjxBYxhl5bZqKZH6j9zgyd3itncGVyM5L09fy-c/s728-e1000/windows-hacker.jpg)](<https://thehackernews.com/new-images/img/b/R29vZ2xl/AVvXsEjRrnxKtJzXQbaLrPRY2GEIij8so07HImMs9wbPTTP-j92ED6wxTFv-NdQyw_Z0JBlqIYh-H3g2WKAcIkt70zKcB5AxP9KcQgCqChBwNsYPu9CQ_Xp6uBmkhxyoNZpHZIIQrV5TkreAFNBg-kFpOzjxBYxhl5bZqKZH6j9zgyd3itncGVyM5L09fy-c/s728-e100/windows-hacker.jpg>)\n\nA cyber mercenary that \"ostensibly sells general security and information analysis services to commercial customers\" used several Windows and Adobe zero-day exploits in limited and highly-targeted attacks against European and Central American entities.\n\nThe company, which Microsoft describes as a private-sector offensive actor (PSOA), is an Austria-based outfit called [DSIRF](<https://web.archive.org/web/20220713203741/https:/dsirf.eu/about/>) that's linked to the development and attempted sale of a piece of cyberweapon referred to as **Subzero**, which can be used to hack targets' phones, computers, and internet-connected devices.\n\n\"Observed victims to date include law firms, banks, and strategic consultancies in countries such as Austria, the United Kingdom, and Panama,\" the tech giant's cybersecurity teams [said](<https://www.microsoft.com/security/blog/2022/07/27/untangling-knotweed-european-private-sector-offensive-actor-using-0-day-exploits/>) in a Wednesday report.\n\nMicrosoft is [tracking](<https://blogs.microsoft.com/on-the-issues/2022/07/27/private-sector-cyberweapons-psoas-knotweed/>) the actor under the moniker KNOTWEED, continuing its trend of terming PSOAs using names given to trees and shrubs. The company previously designated the name [SOURGUM](<https://thehackernews.com/2021/07/israeli-firm-helped-governments-target.html>) to Israeli spyware vendor Candiru.\n\nKNOTWEED is known to dabble in both access-as-a-service and [hack-for-hire](<https://thehackernews.com/2022/06/google-blocks-dozens-of-malicious.html>) operations, offering its toolset to third parties as well as directly associating itself in certain attacks.\n\nWhile the former entails the sales of end-to-end hacking tools that can be used by the purchaser in their own operations without the involvement of the offensive actor, hack-for-hire groups run the targeted operations on behalf of their clients.\n\nThe deployment of Subzero is said to have transpired through the exploitation of numerous issues, including an attack chain that abused an unknown Adobe Reader remote code execution (RCE) flaw and a zero-day privilege escalation bug ([CVE-2022-22047](<https://thehackernews.com/2022/07/microsoft-releases-fix-for-zero-day.html>)), the latter of which was addressed by Microsoft as part of its July Patch Tuesday updates.\n\n\"The exploits were packaged into a PDF document that was sent to the victim via email,\" Microsoft explained. \"CVE-2022-22047 was used in KNOTWEED related attacks for privilege escalation. The vulnerability also provided the ability to escape sandboxes and achieve system-level code execution.\"\n\nSimilar attack chains observed in 2021 leveraged a combination of two Windows privilege escalation exploits (CVE-2021-31199 and CVE-2021-31201) in conjunction with an Adobe reader flaw (CVE-2021-28550). The three vulnerabilities were [resolved](<https://thehackernews.com/2021/06/update-your-windows-computers-to-patch.html>) in June 2021.\n\nThe deployment of Subzero subsequently occurred through a fourth exploit, this time taking advantage of a privilege escalation vulnerability in the Windows Update Medic Service ([CVE-2021-36948](<https://thehackernews.com/2021/08/microsoft-releases-windows-updates-to.html>)), which was closed by Microsoft in August 2021.\n\nBeyond these exploit chains, Excel files masquerading as real estate documents have been used as a conduit to deliver the malware, with the files containing [Excel 4.0 macros](<https://thehackernews.com/2022/01/emotet-now-using-unconventional-ip.html>) designed to kick-start the infection process.\n\nRegardless of the method employed, the intrusions culminate in the execution of shellcode, which is used to retrieve a second-stage payload called Corelump from a remote server in the form of a JPEG image that also embeds a loader named Jumplump that, in turn, loads Corelump into memory.\n\nThe evasive implant comes with a wide range of capabilities, including keylogging, capturing screenshots, exfiltrating files, running a remote shell, and running arbitrary plugins downloaded from the remote server.\n\nAlso deployed during the attacks were bespoke utilities like Mex, a command-line tool to run open source security software like Chisel, and PassLib, a tool to dump credentials from web browsers, email clients, and the Windows credential manager.\n\nMicrosoft said it uncovered KNOTWEED actively serving malware since February 2020 through infrastructure hosted on DigitalOcean and Choopa, alongside identifying subdomains that are used for malware development, debugging Mex, and staging the Subzero payload.\n\nMultiple links have also been unearthed between DSIRF and the malicious tools used in KNOTWEED's attacks.\n\n\"These include command-and-control infrastructure used by the malware directly linking to DSIRF, a DSIRF-associated GitHub account being used in one attack, a code signing certificate issued to DSIRF being used to sign an exploit, and other open-source news reports attributing Subzero to DSIRF,\" Redmond noted.\n\nSubzero is no different from off-the-shelf malware such as [Pegasus](<https://thehackernews.com/2022/07/pegasus-spyware-used-to-hack-devices-of.html>), [Predator](<https://thehackernews.com/2022/05/cytroxs-predator-spyware-target-android.html>), [Hermit](<https://thehackernews.com/2022/06/google-says-isps-helped-attackers.html>), and [DevilsTongue](<https://thehackernews.com/2022/07/candiru-spyware-caught-exploiting.html>), which are capable of infiltrating phones and Windows machines to remotely control the devices and siphon off data, sometimes without requiring the user to click on a malicious link.\n\nIf anything, the latest findings highlight a burgeoning international market for such sophisticated surveillance technologies to carry out targeted attacks aimed at members of civil society.\n\nAlthough companies that sell commercial spyware advertise their wares as a means to tackle serious crimes, evidence gathered so far has found [several instances](<https://thehackernews.com/2022/06/nso-confirms-pegasus-spyware-used-by-at.html>) of these tools being misused by authoritarian governments and private organizations to snoop on human rights advocates, journalists, dissidents, and politicians.\n\nGoogle's Threat Analysis Group (TAG), which is tracking over 30 vendors that hawk exploits or surveillance capabilities to state-sponsored actors, said the booming ecosystem underscores \"the extent to which commercial surveillance vendors have proliferated capabilities historically only used by governments.\"\n\n\"These vendors operate with deep technical expertise to develop and operationalize exploits,\" TAG's Shane Huntley [said](<https://blog.google/threat-analysis-group/googles-efforts-to-identify-and-counter-spyware/>) in a testimony to the U.S. House Intelligence Committee on Wednesday, adding, \"its use is growing, fueled by demand from governments.\"\n\n \n\n\nFound this article interesting? Follow THN on [Facebook](<https://www.facebook.com/thehackernews>), [Twitter _\uf099_](<https://twitter.com/thehackersnews>) and [LinkedIn](<https://www.linkedin.com/company/thehackernews/>) to read more exclusive content we post.\n", "cvss3": {"exploitabilityScore": 2.8, "cvssV3": {"baseSeverity": "HIGH", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "UNCHANGED", "attackVector": "NETWORK", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "NONE", "baseScore": 8.8, "vectorString": "CVSS:3.1/AV:N/AC:L/PR:N/UI:R/S:U/C:H/I:H/A:H", "version": "3.1", "userInteraction": "REQUIRED"}, "impactScore": 5.9}, "published": "2022-07-28T11:18:00", "type": "thn", "title": "Microsoft Uncovers Austrian Company Exploiting Windows and Adobe Zero-Day Exploits", "bulletinFamily": "info", "cvss2": {"severity": "HIGH", "exploitabilityScore": 3.9, "obtainAllPrivilege": false, "userInteractionRequired": false, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "LOW", "confidentialityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "baseScore": 7.2, "vectorString": "AV:L/AC:L/Au:N/C:C/I:C/A:C", "version": "2.0", "accessVector": "LOCAL", "authentication": "NONE"}, "impactScore": 10.0, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2021-28550", "CVE-2021-31199", "CVE-2021-31201", "CVE-2021-36948", "CVE-2022-22047"], "modified": "2022-07-29T02:58:07", "id": "THN:DFA2CC41C78DFA4BED87B1410C21CE2A", "href": "https://thehackernews.com/2022/07/microsoft-uncover-austrian-company.html", "cvss": {"score": 7.2, "vector": "AV:L/AC:L/Au:N/C:C/I:C/A:C"}}], "nessus": [{"lastseen": "2023-08-24T18:50:41", "description": "The remote Windows host is missing security update 5015870 or cumulative update 5015866. It is, therefore, affected by multiple vulnerabilities:\n\n - A remote code execution vulnerability. An attacker can exploit this to bypass authentication and execute unauthorized arbitrary commands. (CVE-2022-22024, CVE-2022-22027, CVE-2022-22029, CVE-2022-22038, CVE-2022-22039, CVE-2022-30211, CVE-2022-30221)\n\n - A security feature bypass vulnerability exists. An attacker can exploit this and bypass the security feature and perform unauthorized actions compromising the integrity of the system/application.\n (CVE-2022-22023, CVE-2022-22048, CVE-2022-30203)\n\n - An elevation of privilege vulnerability. 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"CVE-2022-22029", "bulletinFamily": "NVD", "cvss2": {"severity": "MEDIUM", "exploitabilityScore": 8.6, "obtainAllPrivilege": false, "userInteractionRequired": false, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "MEDIUM", "confidentialityImpact": "PARTIAL", "availabilityImpact": "PARTIAL", "integrityImpact": "PARTIAL", "baseScore": 6.8, "vectorString": "AV:N/AC:M/Au:N/C:P/I:P/A:P", "version": "2.0", "accessVector": "NETWORK", "authentication": "NONE"}, "impactScore": 6.4, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2022-22029"], "modified": "2023-08-08T14:22:00", "id": "PRION:CVE-2022-22029", "href": "https://kb.prio-n.com/vulnerability/CVE-2022-22029", "cvss": {"score": 6.8, "vector": "AV:N/AC:M/Au:N/C:P/I:P/A:P"}}, {"lastseen": "2023-08-15T16:55:46", "description": "Windows Print Spooler Elevation of Privilege Vulnerability", "cvss3": {"exploitabilityScore": 1.8, "cvssV3": {"baseSeverity": "HIGH", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "UNCHANGED", "attackVector": "LOCAL", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "LOW", "baseScore": 7.8, "vectorString": "CVSS:3.1/AV:L/AC:L/PR:L/UI:N/S:U/C:H/I:H/A:H", "version": "3.1", "userInteraction": "NONE"}, "impactScore": 5.9}, "published": "2022-07-12T23:15:00", "type": "prion", "title": "CVE-2022-30206", "bulletinFamily": "NVD", "cvss2": {"severity": "HIGH", "exploitabilityScore": 3.9, "obtainAllPrivilege": false, "userInteractionRequired": false, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "LOW", "confidentialityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "baseScore": 7.2, "vectorString": "AV:L/AC:L/Au:N/C:C/I:C/A:C", "version": "2.0", "accessVector": "LOCAL", "authentication": "NONE"}, "impactScore": 10.0, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2022-30206"], "modified": "2023-05-17T17:15:00", "id": "PRION:CVE-2022-30206", "href": "https://kb.prio-n.com/vulnerability/CVE-2022-30206", "cvss": {"score": 7.2, "vector": "AV:L/AC:L/Au:N/C:C/I:C/A:C"}}, {"lastseen": "2023-08-15T15:44:06", "description": "Windows Network File System Remote Code Execution Vulnerability", "cvss3": {"exploitabilityScore": 1.6, "cvssV3": {"baseSeverity": "HIGH", "confidentialityImpact": "HIGH", "attackComplexity": "HIGH", "scope": "UNCHANGED", "attackVector": "NETWORK", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "LOW", "baseScore": 7.5, "vectorString": "CVSS:3.1/AV:N/AC:H/PR:L/UI:N/S:U/C:H/I:H/A:H", "version": "3.1", "userInteraction": "NONE"}, "impactScore": 5.9}, "published": "2022-07-12T23:15:00", "type": "prion", "title": "CVE-2022-22039", "bulletinFamily": "NVD", "cvss2": {"severity": "MEDIUM", "exploitabilityScore": 6.8, "obtainAllPrivilege": false, "userInteractionRequired": false, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "MEDIUM", "confidentialityImpact": "PARTIAL", "availabilityImpact": "PARTIAL", "integrityImpact": "PARTIAL", "baseScore": 6.0, "vectorString": "AV:N/AC:M/Au:S/C:P/I:P/A:P", "version": "2.0", "accessVector": "NETWORK", "authentication": "SINGLE"}, "impactScore": 6.4, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2022-22039"], "modified": "2023-08-08T14:22:00", "id": "PRION:CVE-2022-22039", "href": "https://kb.prio-n.com/vulnerability/CVE-2022-22039", "cvss": {"score": 6.0, "vector": "AV:N/AC:M/Au:S/C:P/I:P/A:P"}}, {"lastseen": "2023-08-15T15:44:08", "description": "Windows Client Server Run-time Subsystem (CSRSS) Elevation of Privilege Vulnerability", "cvss3": {"exploitabilityScore": 1.8, "cvssV3": {"baseSeverity": "HIGH", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "UNCHANGED", "attackVector": "LOCAL", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "LOW", "baseScore": 7.8, "vectorString": "CVSS:3.1/AV:L/AC:L/PR:L/UI:N/S:U/C:H/I:H/A:H", "version": "3.1", "userInteraction": "NONE"}, "impactScore": 5.9}, "published": "2022-07-12T23:15:00", "type": "prion", "title": "CVE-2022-22047", "bulletinFamily": "NVD", "cvss2": {"severity": "HIGH", "exploitabilityScore": 3.9, "obtainAllPrivilege": false, "userInteractionRequired": false, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "LOW", "confidentialityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "baseScore": 7.2, "vectorString": "AV:L/AC:L/Au:N/C:C/I:C/A:C", "version": "2.0", "accessVector": "LOCAL", "authentication": "NONE"}, "impactScore": 10.0, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2022-22047"], "modified": "2023-08-08T14:21:00", "id": "PRION:CVE-2022-22047", "href": "https://kb.prio-n.com/vulnerability/CVE-2022-22047", "cvss": {"score": 7.2, "vector": "AV:L/AC:L/Au:N/C:C/I:C/A:C"}}, {"lastseen": "2023-08-15T15:44:06", "description": "Remote Procedure Call Runtime Remote Code Execution Vulnerability", "cvss3": {"exploitabilityScore": 2.2, "cvssV3": {"baseSeverity": "HIGH", "confidentialityImpact": "HIGH", "attackComplexity": "HIGH", "scope": "UNCHANGED", "attackVector": "NETWORK", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "NONE", "baseScore": 8.1, "vectorString": "CVSS:3.1/AV:N/AC:H/PR:N/UI:N/S:U/C:H/I:H/A:H", "version": "3.1", "userInteraction": "NONE"}, "impactScore": 5.9}, "published": "2022-07-12T23:15:00", "type": "prion", "title": "CVE-2022-22038", "bulletinFamily": "NVD", "cvss2": {"severity": "MEDIUM", "exploitabilityScore": 8.6, "obtainAllPrivilege": false, "userInteractionRequired": false, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "MEDIUM", "confidentialityImpact": "PARTIAL", "availabilityImpact": "PARTIAL", "integrityImpact": "PARTIAL", "baseScore": 6.8, "vectorString": "AV:N/AC:M/Au:N/C:P/I:P/A:P", "version": "2.0", "accessVector": "NETWORK", "authentication": "NONE"}, "impactScore": 6.4, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2022-22038"], "modified": "2023-08-08T14:22:00", "id": "PRION:CVE-2022-22038", "href": "https://kb.prio-n.com/vulnerability/CVE-2022-22038", "cvss": {"score": 6.8, "vector": "AV:N/AC:M/Au:N/C:P/I:P/A:P"}}, {"lastseen": "2023-08-15T15:44:07", "description": "Windows Print Spooler Elevation of Privilege Vulnerability", "cvss3": {"exploitabilityScore": 0.9, "cvssV3": {"baseSeverity": "MEDIUM", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "UNCHANGED", "attackVector": "NETWORK", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "HIGH", "baseScore": 6.8, "vectorString": "CVSS:3.1/AV:N/AC:L/PR:H/UI:R/S:U/C:H/I:H/A:H", "version": "3.1", "userInteraction": "REQUIRED"}, "impactScore": 5.9}, "published": "2022-07-12T23:15:00", "type": "prion", "title": "CVE-2022-22041", "bulletinFamily": "NVD", "cvss2": {"severity": "HIGH", "exploitabilityScore": 6.8, "obtainAllPrivilege": false, "userInteractionRequired": true, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "MEDIUM", "confidentialityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "baseScore": 8.5, "vectorString": "AV:N/AC:M/Au:S/C:C/I:C/A:C", "version": "2.0", "accessVector": "NETWORK", "authentication": "SINGLE"}, "impactScore": 10.0, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2022-22041"], "modified": "2023-08-08T14:21:00", "id": "PRION:CVE-2022-22041", "href": "https://kb.prio-n.com/vulnerability/CVE-2022-22041", "cvss": {"score": 8.5, "vector": "AV:N/AC:M/Au:S/C:C/I:C/A:C"}}], "talosblog": [{"lastseen": "2022-07-21T20:00:40", "description": "[![](https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjLGV0qm1JxU91RjdxVIuHS5qpDp6eR5oqC3GXE4GKh74vcE6eErdX-odGGmldK4seEV08PmWVUMwC9eHiY-MNvEWPJqq7kEe3k9gjAfn0ai-JRQnZ3GdRiAki_wed_Ctz2-MbeTD591fAVRErXhYumK3_GFcUGqEBUmnA_aeVfgK2rZKQ7AW0eYUiY/s16000/threat-source-newsletter.jpg)](<https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjLGV0qm1JxU91RjdxVIuHS5qpDp6eR5oqC3GXE4GKh74vcE6eErdX-odGGmldK4seEV08PmWVUMwC9eHiY-MNvEWPJqq7kEe3k9gjAfn0ai-JRQnZ3GdRiAki_wed_Ctz2-MbeTD591fAVRErXhYumK3_GFcUGqEBUmnA_aeVfgK2rZKQ7AW0eYUiY/s2000/threat-source-newsletter.jpg>)\n\n_By Jon Munshaw. _\n\n[![](https://blogger.googleusercontent.com/img/a/AVvXsEj-mJ-nkfcUqAs6gZvX8xS2acg2Gomq1k9sbhaev8z9XCZnVEc3hnBv_CAEBr5YFPKbzeHm615Hm1J6VmtXbPW-VDGf1Y6GkVCjPTnH973CDJSSnSoxB93Nru0Ohx-w8atdDxbRuYdx1wk5h-eUvHihWfJ9aTwOLINT1HzhDqTPflICljFmGplz6bX9=w114-h42)](<https://engage2demand.cisco.com/SubscribeTalosThreatSource>)\n\nWelcome to this week\u2019s edition of the Threat Source newsletter. \n\n \n\n\nI could spend time in this newsletter every week talking about fake news. There are always so many ridiculous memes, headlines, misleading stories, viral Facebook posts and manipulated media that I see come across my Instagram feed or via my wife when she shows me TikToks she favorited. \n\n \n\n\nOne recent event, though, was so crushing to me that I had to call it out specifically. [Former Japanese Prime Minister Shinzo Abe was assassinated](<https://www.nytimes.com/live/2022/07/08/world/japan-shinzo-abe-shooting>) earlier this month while making a campaign speech in public. This was a horrible tragedy marking the death of a powerful politician in one of the world\u2019s most influential countries. It was the top story in the world for several days and was even more shocking given Japan\u2019s strict gun laws and the relative infrequency of any global leaders being the target of violence. \n\n \n\n\nIt took no time for the internet at large to take this tragedy and immediately try to spin it to their whims to spread false narratives, disinformation and downright harmful fake stories that mar Abe\u2019s death and make a mockery of the 24/7 news cycle and the need for everyone to immediately have their own \u201ctake\u201d on social media. \n\n \n\n\nShortly after Abe\u2019s murder, a far-right French politician took a false claim from the infamous online forum 4chan that video game developer Hideo Kojima was the suspect who killed Abe and [shared it on Twitter.](<https://www.bbc.com/news/newsbeat-62121650>) The politician, Damien Rieu, even went as far to connect Kojima to the \u201cfar left,\u201d linking to pictures of the \u201cMetal Gear Solid\u201d creator wearing a shirt depicting the Joker and a bag with Che Guevara\u2019s face on it. Rieu\u2019s tweet was [taken as fact by a Greek television news station](<https://kotaku.com/shinzo-abe-assassin-killer-kojima-greek-news-confusion-1849157839>), which also [aired a report](<https://youtu.be/MfQPJggD1Us>) that Kojima was the assassin. \n\n \n\n\nThankfully, this claim was quickly debunked and the [politician issued an apology](<https://twitter.com/DamienRieu/status/1545460974592970752>), but Kojima and his company have [threatened legal action](<https://www.videogameschronicle.com/news/legal-action-threatened-as-hideo-kojima-falsely-linked-to-shinzo-abe-assassination/>) over the ordeal (as they should). This is an appalling scenario in which social media was quick to assign blame for Abe\u2019s assassination, then picked up by an influential person and even making it to a reputable international news station. This goes beyond the realm of the typical \u201cRussian bot\u201d fake news we think of this was a failure to run any simple fact checks before reporting a damning claim about someone. Imagine if it was just anyone who was blamed for Abe\u2019s assassination, and not someone like Kojima who has a very public platform and the funds to fight these claims. \n\n \n\n\n[![](https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhptqreL2kFkNoBxL-NGrBPSwlnAY8sv3eiiN0bwTAACJXRiQB69a8jp752bncymBYSD_SC9JV3jCHn73HzQMV3s950OgaXzIbQM_4Kpd4_f2245CG2E1IXo8f7zW0qGxNO2hQ6F9fA3G4J1piu7ue3esWeL2eWi-0dXgDfUl3U4YH4QKkwPiCnZxfo/w210-h400/Screenshot_20220720-135745.png)](<https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhptqreL2kFkNoBxL-NGrBPSwlnAY8sv3eiiN0bwTAACJXRiQB69a8jp752bncymBYSD_SC9JV3jCHn73HzQMV3s950OgaXzIbQM_4Kpd4_f2245CG2E1IXo8f7zW0qGxNO2hQ6F9fA3G4J1piu7ue3esWeL2eWi-0dXgDfUl3U4YH4QKkwPiCnZxfo/s2053/Screenshot_20220720-135745.png>)\n\nPeople also took the opportunity within the first few hours of Abe\u2019s death to try and craft their own narrative using fake news and misleading information. A viral claim that he was killed over his COVID-19-related policies made the rounds, though these claims were later proven [verifiably false](<https://www.statesman.com/story/news/politics/politifact/2022/07/13/fact-check-was-shinzo-abe-assassinated-over-covid-19-response/65372187007/>). Another completely fake and manipulated screenshot claimed to show that Abe had tweeted shortly before his death that he had incriminating news about [U.S. politician Hillary Clinton](<https://apnews.com/article/Fact-Check-Fake-Shinzo-Abe-Tweet-499806264509>). \n\n \n\n\nI went on Instagram and [found a still-active post](<https://www.instagram.com/p/Cf2CODKutKG/?igshid=YmMyMTA2M2Y=>) from an account with more than 54,000 followers that indicates that Abe was assassinated because he had less-than-strict COVID policies that did not align with the \u201cglobal agenda.\u201d Instagram flagged the post as \u201cmissing context,\u201d but does not flag it as downright false and the content is still accessible as of Wednesday afternoon. \n\n \n\n\nWhat disturbs me the most about this whole event is that nothing is off limits for social media users to bend to their whim. I suppose I can't say I\u2019m surprised \u2014 ESPN even recently fell for something as silly as a fake TikTok video alleging to show a [UPS driver dunking a basketball](<https://www.snopes.com/fact-check/ups-driver-dunk-car/>) while jumping over a car. But it is a stark reminder that when breaking news occurs, no matter how serious or dangerous it is, there\u2019s always going to be people online who will be spreading fake news, disinformation and/or misinformation. This makes me miss the days when the biggest fake news story out there was [Balloon Boy](<https://www.latimes.com/entertainment/la-et-media-balloon-boy-pictures-photogallery.html>). \n\n \n\n\n \n\n## The one big thing \n\n> \n\n\nThe U.S. Cybersecurity and Infrastructure Security Agency is asking all federal agencies to [patch for an actively exploited Microsoft vulnerability](<https://threatpost.com/cisa-urges-patch-11-bug/180235/>) disclosed last week. By adding CVE-2022-22047, an elevation of privilege vulnerability affecting the Windows Client Server Runtime Subsystem (CSRSS), to its [list of known exploited vulnerabilities](<https://www.cisa.gov/known-exploited-vulnerabilities-catalog>), agencies are compelled to patch for the issue by Aug. 2. Microsoft and CISA both say attackers are actively exploiting the issue in the wild. \n\n\n> ### Why do I care? \n> \n> This vulnerability is the only one disclosed as part of [last week\u2019s Patch Tuesday](<https://blog.talosintelligence.com/2022/07/microsoft-patch-tuesday-for-july-2022.html>) that\u2019s been exploited in the wild. An attacker could exploit this vulnerability to execute code on the targeted machine as SYSTEM. However, they would need physical access to a machine to exploit the issue. That being said, if CISA is warning users that it\u2019s being actively exploited in the wild, it\u2019s good of a time as any to remember to patch. \n\n> \n> ### So now what? \n> \n> [Our Patch Tuesday blog post](<https://blog.talosintelligence.com/2022/07/microsoft-patch-tuesday-for-july-2022.html>) contains links to Microsoft\u2019s updates for Patch Tuesday and a rundown of other vulnerabilities you should know about. Additionally, we have [multiple Snort rules](<https://snort.org/advisories/talos-rules-2022-07-12>) that can detect attempts to exploit CVE-2022-22047. \n\n> \n> \n\n## Other news of note\n\n \n\n\nThe U.S. Department of Homeland Security declared the Log4shell vulnerability is \u201cendemic\u201d and will present a risk to organizations for at least the next decade. A new report into the major vulnerability in Log4j declared that the open-source community does not have enough resources to properly secure its code and needs the public and private sector to assist with the implementation of patches. They also warned that there are still many instances of vulnerable software that attackers could take advantage of. The DHS report also says the original vulnerable code could have been detected in 2013 had the reviewers had the time had the appropriate cybersecurity knowledge to spot the flaw. That being said, the investigating panel said there were no major cyber attacks against U.S. critical infrastructure leveraging Log4shell. ([Dark Reading](<https://www.darkreading.com/application-security/dhs-review-board-deems-log4j-an-endemic-cyber-threat>), [Associated Press](<https://apnews.com/article/biden-technology-software-hacking-4361f6e9b386259609b05b389db4d7bf>), [ZDNet](<https://www.zdnet.com/article/log4j-flaw-why-it-will-still-be-causing-problems-a-decade-from-now/>)) \n\nThe European Union is warning that increased cyber attacks from Russian state-sponsored actors run the risk of unnecessary escalation and spillover effects to all of Europe. A formal EU declaration says that member nations \u201cstrongly condemn this unacceptable behaviour in cyberspace and express solidarity with all countries that have fallen victim.\u201d A Lithuanian energy firm was the recent target of a distributed denial-of-service attack that the country said was the largest cyber attack in a decade. Belgian leaders also say their country was recently targeted by several Chinese state-sponsored groups. ([Bleeping Computer](<https://www.bleepingcomputer.com/news/security/eu-warns-of-russian-cyberattack-spillover-escalation-risks/>), [Council of the European Union](<https://www.consilium.europa.eu/en/press/press-releases/2022/07/19/declaration-by-the-high-representative-on-behalf-of-the-european-union-on-malicious-cyber-activities-conducted-by-hackers-and-hacker-groups-in-the-context-of-russia-s-aggression-against-ukraine/>), [Infosecurity Magazine](<https://www.infosecurity-magazine.com/news/lithuanian-energy-ddos-attack/>)) \n\nA relatively small botnet is suspected to be behind more than 3,000 recent distributed denial-of-service attacks. The Mantis botnet, which is suspected to be an evolution of Meris, has already targeted users in Germany, Taiwan, South Korea, Japan, the U.S. and the U.K. Most recently, it launched a malware campaign against Android users in France, using malicious SMS messages to lure victims into downloading malware that adds devices to the botnet\u2019s growing system. Security researchers say users have already downloaded the malware about 90,000 times. ([Bleeping Computer](<https://www.bleepingcomputer.com/news/security/roaming-mantis-hits-android-and-ios-users-in-malware-phishing-attacks/>), [ZDNet](<https://www.zdnet.com/article/this-tiny-botnet-is-launching-the-most-powerful-ddos-attacks-yet/>)) \n\n \n\n\n## Can\u2019t get enough Talos? \n\n * _[Vulnerability Spotlight: Issue in Accusoft ImageGear could lead to memory corruption, code execution](<https://blog.talosintelligence.com/2022/07/accusoft-vuln-spotlight-.html>)_\n * _[EMEAR Monthly Talos Update: Training the next generation of cybersecurity researchers](<https://blog.talosintelligence.com/2022/07/emear-monthly-talos-update-training.html>)_\n * _[Beers with Talos Ep. #123: Hunting for ransomware actors on *whispers* the dark web](<https://talosintelligence.com/podcasts/shows/beers_with_talos/episodes/123>)_\n * _[Talos Takes Ep. #104: The psychology of multi-factor authentication](<https://talosintelligence.com/podcasts/shows/talos_takes/episodes/104>)_\n * _[Pakistani Hackers Targeting Indian Students in Latest Malware Campaign](<https://thehackernews.com/2022/07/pakistani-hackers-targeting-indian.html>)_\n \n\n\n \n\n\n## Upcoming events where you can find Talos \n\n#### \n\n\n**[A New HOPE](<https://www.hope.net/index.html>) **(July 22 - 24, 2022) \nNew York City \n\n \n\n\n**[CTIR On Air](<https://www.linkedin.com/video/event/urn:li:ugcPost:6954879507132481537/>) **(July 28, 2022) \nTalos Twitter, LinkedIn and YouTube pages\n\n[ \n](<https://www.ciscolive.com/global.html>)[**BlackHat**](<https://www.blackhat.com/us-22/>) **U.S. **(Aug. 6 - 11, 2022) \nLas Vegas, Nevada \n\n \n\n\n**[DEF CON U.S.](<https://defcon.org/>) **(Aug. 11 - 14, 2022) \nLas Vegas, Nevada \n\n \n\n\n \n\n\n## Most prevalent malware files from Talos telemetry over the past week \n\n** \n**\n\n**SHA 256: **[9f1f11a708d393e0a4109ae189bc64f1f3e312653dcf317a2bd406f18ffcc507](<https://www.virustotal.com/gui/file/9f1f11a708d393e0a4109ae189bc64f1f3e312653dcf317a2bd406f18ffcc507/details>) \n\n**MD5: **2915b3f8b703eb744fc54c81f4a9c67f \n\n**Typical Filename: **VID001.exe ** **\n\n**Claimed Product:** N/A** **\n\n**Detection Name: **Win.Worm.Coinminer::1201 \n\n** \n**\n\n**SHA 256: **[e4973db44081591e9bff5117946defbef6041397e56164f485cf8ec57b1d8934](<https://www.virustotal.com/gui/file/e4973db44081591e9bff5117946defbef6041397e56164f485cf8ec57b1d8934/details>)** \n****MD5: **93fefc3e88ffb78abb36365fa5cf857c ** \n****Typical Filename: **Wextract \n**Claimed Product: **Internet Explorer \n**Detection Name: **PUA.Win.Trojan.Generic::85.lp.ret.sbx.tg \n\n \n\n\n**SHA 256: **[e12b6641d7e7e4da97a0ff8e1a0d4840c882569d47b8fab8fb187ac2b475636c](<https://www.virustotal.com/gui/file/e12b6641d7e7e4da97a0ff8e1a0d4840c882569d47b8fab8fb187ac2b475636c/details>) ** **\n\n**MD5:** a087b2e6ec57b08c0d0750c60f96a74c \n\n**Typical Filename: **AAct.exe ** **\n\n**Claimed Product:** N/A ** **\n\n**Detection Name: **PUA.Win.Tool.Kmsauto::1201** **\n\n** \n**\n\n**SHA 256: **[ea500d77aabc3c9d440480002c3f1d2f2977a7f860f35260edda8a26406ca1c3](<https://www.virustotal.com/gui/file/ea500d77aabc3c9d440480002c3f1d2f2977a7f860f35260edda8a26406ca1c3/details>)** **\n\n**MD5: **5741eadfc89a1352c61f1ff0a5c01c06** **\n\n**Typical Filename: **3.exe \n\n**Claimed Product: **N/A\n\n**Detection Name: **W32.DFC.MalParent \n\n \n\n\n**SHA 256: **[125e12c8045689bb2a5dcad6fa2644847156dec8b533ee8a3653b432f8fd5645](<https://www.virustotal.com/gui/file/125e12c8045689bb2a5dcad6fa2644847156dec8b533ee8a3653b432f8fd5645/details>) ** **\n\n**MD5: **2c8ea737a232fd03ab80db672d50a17a \n\n**Typical Filename:** LwssPlayer.scr \n\n**Claimed Product: **\u68a6\u60f3\u4e4b\u5dc5\u5e7b\u706f\u64ad\u653e\u5668 \n\n**Detection Name: **Auto.125E12.241442.in02", "cvss3": {"exploitabilityScore": 1.8, "cvssV3": {"baseSeverity": "HIGH", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "UNCHANGED", "attackVector": "LOCAL", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "LOW", "baseScore": 7.8, "vectorString": "CVSS:3.1/AV:L/AC:L/PR:L/UI:N/S:U/C:H/I:H/A:H", "version": "3.1", "userInteraction": "NONE"}, "impactScore": 5.9}, "published": "2022-07-21T18:00:00", "type": "talosblog", "title": "Threat Source newsletter (July 21, 2022) \u2014 No topic is safe from being targeted by fake news and disinformation", "bulletinFamily": "blog", "cvss2": {"severity": "HIGH", "exploitabilityScore": 3.9, "obtainAllPrivilege": false, "userInteractionRequired": false, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "LOW", "confidentialityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "baseScore": 7.2, "vectorString": "AV:L/AC:L/Au:N/C:C/I:C/A:C", "version": "2.0", "accessVector": "LOCAL", "authentication": "NONE"}, "impactScore": 10.0, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2022-22047"], "modified": "2022-07-21T18:00:00", "id": "TALOSBLOG:F032D3BBC6D695272384D4A3821130BF", "href": "http://blog.talosintelligence.com/2022/07/threat-source-newsletter-july-21-2022.html", "cvss": {"score": 7.2, "vector": "AV:L/AC:L/Au:N/C:C/I:C/A:C"}}], "mskb": [{"lastseen": "2023-06-23T19:41:35", "description": "None\n## **Summary**\n\nLearn more about this cumulative security update, including improvements, any known issues, and how to get the update. \n\n**REMINDER**[Windows 8.1](<https://docs.microsoft.com/lifecycle/products/windows-81>) will reach end of support on January 10, 2023 for all editions, at which point technical assistance and software updates will no longer be provided. If you have devices running Windows 8.1, we recommend upgrading them to a more current, in-service, and supported Windows release. If devices do not meet the technical requirements to run a more current release of Windows, we recommend that you replace the device with one that supports Windows 11.Microsoft will not be offering an Extended Security Update (ESU) program for Windows 8.1. Continuing to use Windows 8.1 after January 10, 2023 may increase an organization\u2019s exposure to security risks or impact its ability to meet compliance obligations.For more information, see [Windows 8.1 support will end on January 10, 2023](<https://support.microsoft.com/windows/windows-8-1-support-will-end-on-january-10-2023-3cfd4cde-f611-496a-8057-923fba401e93>).[Windows Server 2012 R2](<https://docs.microsoft.com/lifecycle/products/windows-server-2012-r2>) will reach end of support on October 10, 2023 for Datacenter, Essentials, Embedded Systems, Foundation, and Standard.\n\n**Note** For information about the various types of Windows updates, such as critical, security, driver, service packs, and so on, please see the following [article](<https://support.microsoft.com/help/824684>). To view other notes and messages, see the Windows 8.1 and Windows Server 2012 R2 update history [home page](<https://support.microsoft.com/help/4009470>).\n\n## **Improvements**\n\nThis cumulative security update includes improvements that are part of update [KB5014738](<https://support.microsoft.com/help/5014738>) (released June 14, 2022) and includes new improvements for the following issues:\n\n * Starting with this release, we are displaying a dialog box to remind users about the End of Support (EOS) for Windows 8.1 in January 2023. If you click **Remind me later**, the dialog box will appear once every 35 days. If you click **Remind me after the end of support date**, the dialog box will not appear again until after the EOS date. This reminder does not appear on the following:\n * Managed Pro and Enterprise devices.\n * Windows Embedded 8.1 Industry Enterprise and Windows Embedded 8.1 Industry Pro devices.\n * When you use [Encrypting File System (EFS)](<https://docs.microsoft.com/windows/win32/fileio/file-encryption>) files over a remote [Web Distributed Authoring and Versioning (WebDAV) protocol](<https://docs.microsoft.com/openspecs/windows_protocols/ms-wdv/bfde1057-4214-4ca5-a431-fab36ff625bc>) connection, the connection might be unsuccessful.\n * [NTLM authentication](<https://docs.microsoft.com/troubleshoot/windows-server/windows-security/ntlm-user-authentication>) through an external trust is unsuccessful when serviced by a domain controller that has the January 11, 2022 or later Windows update installed. This issue occurs if the DC is in a non-root domain and does not hold the [global catalog](<https://docs.microsoft.com/windows/win32/ad/global-catalog>) (GC) role. Impacted operations may log the following errors:\n * The security database has not been started.\n * The domain was in the wrong state to perform the security operation.\n * 0xc00000dd (STATUS_INVALID_DOMAIN_STATE)\n * Applications might not run after an AppLocker publisher rule is deployed.\n * Addresses a known issue that might prevent you from using the Wi-Fi hotspot feature. When attempting to use the hotspot feature, the host device might lose the connection to the Internet after a client device connects.\n * Addresses a known issue in which Windows Servers that use the Routing and Remote Access Service (RRAS) might be unable to correctly direct Internet traffic. Devices which connect to the server might not connect to the Internet, and servers can lose connection to the Internet after a client device connects.\nFor more information about the resolved security vulnerabilities, please refer to the [Security Update Guide](<https://msrc.microsoft.com/update-guide>) website and the [July 2022 Security Updates](<https://msrc.microsoft.com/update-guide/releaseNote/2022-Jul>).\n\n## **Known issues in this update**\n\n**Symptom**| **Next step** \n---|--- \nCertain operations, such as **rename**, that you perform on files or folders that are on a Cluster Shared Volume (CSV) may fail with the error, \u201cSTATUS_BAD_IMPERSONATION_LEVEL (0xC00000A5)\u201d. This occurs when you perform the operation on a CSV owner node from a process that doesn\u2019t have administrator privilege.| Do one of the following:\n\n * Perform the operation from a process that has administrator privilege.\n * Perform the operation from a node that doesn\u2019t have CSV ownership.\nWe are working on a resolution and will provide an update in an upcoming release. \n \n## **How to get this update**\n\n**Before installing this update**We strongly recommend that you install the latest servicing stack update (SSU) for your operating system before you install the latest Rollup. SSUs improve the reliability of the update process to mitigate potential issues while installing the Rollup and applying Microsoft security fixes. For general information about SSUs, see [Servicing stack updates](<https://docs.microsoft.com/windows/deployment/update/servicing-stack-updates>) and [Servicing Stack Updates (SSU): Frequently Asked Questions](<https://support.microsoft.com/help/4535697>).If you use Windows Update, the latest SSU ([KB5016264](<https://support.microsoft.com/help/5016264>)) will be offered to you automatically. To get the standalone package for the latest SSU, search for it in the [Microsoft Update Catalog](<http://www.catalog.update.microsoft.com/home.aspx>). **Install this update****Release Channel**| **Available**| **Next Step** \n---|---|--- \nWindows Update and Microsoft Update| Yes| None. This update will be downloaded and installed automatically from Windows Update. \nMicrosoft Update Catalog| Yes| To get the standalone package for this update, go to the [Microsoft Update Catalog](<https://www.catalog.update.microsoft.com/Search.aspx?q=KB5015874>) website. \nWindows Server Update Services (WSUS)| Yes| This update will automatically sync with WSUS if you configure **Products and Classifications** as follows:**Product**: Windows 8.1, Windows Server 2012 R2, Windows Embedded 8.1 Industry Enterprise, Windows Embedded 8.1 Industry Pro**Classification**: Security Updates \n \n## **File information**\n\nFor a list of the files that are provided in this update, download the [file information for update 5015874](<https://download.microsoft.com/download/8/6/e/86eb07bd-caad-4045-ab27-08b4eb12d28a/5015874.csv>). \n\n## **References**\n\nFor information about the security updates released on July 12, 2022, see [Deployments - Security Update Guide](<https://msrc.microsoft.com/update-guide/deployments>).Learn about the [standard terminology](<https://docs.microsoft.com/troubleshoot/windows-client/deployment/standard-terminology-software-updates>) that is used to describe Microsoft software updates.\n", "cvss3": {"exploitabilityScore": 1.8, "cvssV3": {"baseSeverity": "HIGH", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "UNCHANGED", "attackVector": "LOCAL", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "LOW", "baseScore": 7.8, "vectorString": "CVSS:3.1/AV:L/AC:L/PR:L/UI:N/S:U/C:H/I:H/A:H", "version": "3.1", "userInteraction": "NONE"}, "impactScore": 5.9}, "published": "2022-07-12T07:00:00", "type": "mskb", "title": "July 12, 2022\u2014KB5015874 (Monthly Rollup)", "bulletinFamily": "microsoft", "cvss2": {"severity": "HIGH", "exploitabilityScore": 3.9, "obtainAllPrivilege": false, "userInteractionRequired": false, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "LOW", "confidentialityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "baseScore": 7.2, "vectorString": "AV:L/AC:L/Au:N/C:C/I:C/A:C", "version": "2.0", "accessVector": "LOCAL", "authentication": "NONE"}, "impactScore": 10.0, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2022-22047"], "modified": "2022-07-12T07:00:00", "id": "KB5015874", "href": "https://support.microsoft.com/en-us/help/5015874", "cvss": {"score": 7.2, "vector": "AV:L/AC:L/Au:N/C:C/I:C/A:C"}}, {"lastseen": "2023-06-23T19:41:35", "description": "None\n## **Summary**\n\nLearn more about this security-only update, including improvements, any known issues, and how to get the update. \n\n**REMINDER** [Windows 8.1](<https://docs.microsoft.com/lifecycle/products/windows-81>) will reach end of support on January 10, 2023, at which point technical assistance and software updates will no longer be provided. If you have devices running Windows 8.1, we recommend upgrading them to a more current, in-service, and supported Windows release. If devices do not meet the technical requirements to run a more current release of Windows, we recommend that you replace the device with one that supports Windows 11.Microsoft will not be offering an Extended Security Update (ESU) program for Windows 8.1. Continuing to use Windows 8.1 after January 10, 2023 may increase an organization\u2019s exposure to security risks or impact its ability to meet compliance obligations.For more information, see [Windows 8.1 support will end on January 10, 2023](<https://support.microsoft.com/windows/windows-8-1-support-will-end-on-january-10-2023-3cfd4cde-f611-496a-8057-923fba401e93>).[Windows Server 2012 R2](<https://docs.microsoft.com/lifecycle/products/windows-server-2012-r2>) will reach end of support on October 10, 2023 for Datacenter, Essentials, Embedded Systems, Foundation, and Standard.\n\n**Note** For information about the various types of Windows updates, such as critical, security, driver, service packs, and so on, please see the following [article](<https://support.microsoft.com/help/824684>). To view other notes and messages, see the Windows 8.1 and Windows Server 2012 R2 update history [home page](<https://support.microsoft.com/help/4009470>).\n\n## **Improvements**\n\nThis security-only update includes new improvements for the following issues:\n\n * Starting with this release, we are displaying a dialog box to remind users about the End of Support (EOS) for Windows 8.1 in January 2023. If you click **Remind me later**, the dialog box will appear once every 35 days. If you click **Remind me after the end of support date**, the dialog box will not appear again until after the EOS date. This reminder does not appear on the following:\n * Managed Pro and Enterprise devices.\n * Windows Embedded 8.1 Industry Enterprise and Windows Embedded 8.1 Industry Pro devices.\n * When you use [Encrypting File System (EFS)](<https://docs.microsoft.com/windows/win32/fileio/file-encryption>) files over a remote [Web Distributed Authoring and Versioning (WebDAV) protocol](<https://docs.microsoft.com/openspecs/windows_protocols/ms-wdv/bfde1057-4214-4ca5-a431-fab36ff625bc>) connection, the connection might be unsuccessful.\n * Applications might not run after an AppLocker publisher rule is deployed.\n * Addresses a known issue that might prevent you from using the Wi-Fi hotspot feature. When attempting to use the hotspot feature, the host device might lose the connection to the Internet after a client device connects.\n * Addresses a known issue in which Windows Servers that use the Routing and Remote Access Service (RRAS) might be unable to correctly direct Internet traffic. Devices which connect to the server might not connect to the Internet, and servers can lose connection to the Internet after a client device connects.\nFor more information about the resolved security vulnerabilities, please refer to the new [Security Update Guide](<https://msrc.microsoft.com/update-guide>) website and the [July 2022 Security Updates](<https://msrc.microsoft.com/update-guide/releaseNote/2022-Jul>).\n\n## **Known issues in this update**\n\n**Symptom**| **Next step** \n---|--- \nCertain operations, such as **rename**, that you perform on files or folders that are on a Cluster Shared Volume (CSV) may fail with the error, \u201cSTATUS_BAD_IMPERSONATION_LEVEL (0xC00000A5)\u201d. This occurs when you perform the operation on a CSV owner node from a process that doesn\u2019t have administrator privilege.| Do one of the following:\n\n * Perform the operation from a process that has administrator privilege.\n * Perform the operation from a node that doesn\u2019t have CSV ownership.\nWe are working on a resolution and will provide an update in an upcoming release. \n \n## **How to get this update**\n\n**Before installing this update**We strongly recommend that you install the latest servicing stack update (SSU) for your operating system before you install the latest Rollup. SSUs improve the reliability of the update process to mitigate potential issues while installing the Rollup and applying Microsoft security fixes. For general information about SSUs, see [Servicing stack updates](<https://docs.microsoft.com/windows/deployment/update/servicing-stack-updates>) and [Servicing Stack Updates (SSU): Frequently Asked Questions](<https://support.microsoft.com/help/4535697>).If you use Windows Update, the latest SSU ([KB5016264](<https://support.microsoft.com/help/5016264>)) will be offered to you automatically. To get the standalone package for the latest SSU, search for it in the [Microsoft Update Catalog](<http://www.catalog.update.microsoft.com/home.aspx>). **REMINDER** If you are using Security-only updates, you will also need to install all previous Security-only updates and the latest cumulative update for Internet Explorer ([KB5015805](<https://support.microsoft.com/help/5015805>)).**Install this update****Release Channel**| **Available**| **Next Step** \n---|---|--- \nWindows Update and Microsoft Update| No| See the other options below. \nMicrosoft Update Catalog| Yes| To get the standalone package for this update, go to the [Microsoft Update Catalog](<https://www.catalog.update.microsoft.com/Search.aspx?q=KB5015877>) website. \nWindows Server Update Services (WSUS)| Yes| This update will automatically sync with WSUS if you configure **Products and Classifications** as follows:**Product**: Windows 8.1, Windows Server 2012 R2, Windows Embedded 8.1 Industry Enterprise, Windows Embedded 8.1 Industry Pro**Classification**: Security Update \n \n## **File information**\n\nFor a list of the files that are provided in this update, download the [file information for update KB5015877](<https://download.microsoft.com/download/7/6/8/768153e1-b292-43b4-9d3a-400fe6813b63/5015877.csv>). \n\n## **References**\n\nFor information about the security updates released on July 14, 2022, see [Deployments - Security Update Guide](<https://msrc.microsoft.com/update-guide/deployments>).Learn about the [standard terminology](<https://docs.microsoft.com/troubleshoot/windows-client/deployment/standard-terminology-software-updates>) that is used to describe Microsoft software updates.\n", "cvss3": {"exploitabilityScore": 1.8, "cvssV3": {"baseSeverity": "HIGH", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "UNCHANGED", "attackVector": "LOCAL", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "LOW", "baseScore": 7.8, "vectorString": "CVSS:3.1/AV:L/AC:L/PR:L/UI:N/S:U/C:H/I:H/A:H", "version": "3.1", "userInteraction": "NONE"}, "impactScore": 5.9}, "published": "2022-07-12T07:00:00", "type": "mskb", "title": "July 12, 2022\u2014KB5015877 (Security-only update)", "bulletinFamily": "microsoft", "cvss2": {"severity": "HIGH", "exploitabilityScore": 3.9, "obtainAllPrivilege": false, "userInteractionRequired": false, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "LOW", "confidentialityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "baseScore": 7.2, "vectorString": "AV:L/AC:L/Au:N/C:C/I:C/A:C", "version": "2.0", "accessVector": "LOCAL", "authentication": "NONE"}, "impactScore": 10.0, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2022-22047"], "modified": "2022-07-12T07:00:00", "id": "KB5015877", "href": "https://support.microsoft.com/en-us/help/5015877", "cvss": {"score": 7.2, "vector": "AV:L/AC:L/Au:N/C:C/I:C/A:C"}}], "attackerkb": [{"lastseen": "2023-08-11T23:27:16", "description": "Windows Client Server Run-time Subsystem (CSRSS) Elevation of Privilege Vulnerability\n\n \n**Recent assessments:** \n \nAssessed Attacker Value: 0 \nAssessed Attacker Value: 0Assessed Attacker Value: 0\n", "cvss3": {"exploitabilityScore": 1.8, "cvssV3": {"baseSeverity": "HIGH", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "UNCHANGED", "attackVector": "LOCAL", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "LOW", "baseScore": 7.8, "vectorString": "CVSS:3.1/AV:L/AC:L/PR:L/UI:N/S:U/C:H/I:H/A:H", "version": "3.1", "userInteraction": "NONE"}, "impactScore": 5.9}, "published": "2023-05-17T00:00:00", "type": "attackerkb", "title": "CVE-2022-22047", "bulletinFamily": "info", "cvss2": {"severity": "HIGH", "exploitabilityScore": 3.9, "obtainAllPrivilege": false, "userInteractionRequired": false, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "LOW", "confidentialityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "baseScore": 7.2, "vectorString": "AV:L/AC:L/Au:N/C:C/I:C/A:C", "version": "2.0", "accessVector": "LOCAL", "authentication": "NONE"}, "impactScore": 10.0, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2022-22047"], "modified": "2023-05-17T00:00:00", "id": "AKB:0B6E13D5-84E0-4D3E-BD21-781032FA30ED", "href": "https://attackerkb.com/topics/SzYymWZIy5/cve-2022-22047", "cvss": {"score": 7.2, "vector": "AV:L/AC:L/Au:N/C:C/I:C/A:C"}}], "cisa_kev": [{"lastseen": "2023-08-11T23:25:24", "description": "Microsoft Windows CSRSS contains an unspecified vulnerability which allows for privilege escalation to SYSTEM privileges.", "cvss3": {"exploitabilityScore": 1.8, "cvssV3": {"baseSeverity": "HIGH", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "UNCHANGED", "attackVector": "LOCAL", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "LOW", "baseScore": 7.8, "vectorString": "CVSS:3.1/AV:L/AC:L/PR:L/UI:N/S:U/C:H/I:H/A:H", "version": "3.1", "userInteraction": "NONE"}, "impactScore": 5.9}, "published": "2022-07-12T00:00:00", "type": "cisa_kev", "title": "Microsoft Windows Client Server Runtime Subsystem (CSRSS) Privilege Escalation Vulnerability", "bulletinFamily": "info", "cvss2": {"severity": "HIGH", "exploitabilityScore": 3.9, "obtainAllPrivilege": false, "userInteractionRequired": false, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "LOW", "confidentialityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "baseScore": 7.2, "vectorString": "AV:L/AC:L/Au:N/C:C/I:C/A:C", "version": "2.0", "accessVector": "LOCAL", "authentication": "NONE"}, "impactScore": 10.0, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2022-22047"], "modified": "2022-07-12T00:00:00", "id": "CISA-KEV-CVE-2022-22047", "href": "https://www.cisa.gov/known-exploited-vulnerabilities-catalog", "cvss": {"score": 7.2, "vector": "AV:L/AC:L/Au:N/C:C/I:C/A:C"}}], "threatpost": [{"lastseen": "2022-07-18T12:20:51", "description": "A Windows 11 vulnerability, part of Microsoft\u2019s Patch Tuesday roundup of fixes, is being exploited in the wild, prompting the U.S. Cybersecurity and Infrastructure Security Agency (CISA) to advise patching of the elevation of privileges flaw by August 2.\n\nThe recommendation is directed at federal agencies and concerns [CVE-2022-22047](<https://msrc.microsoft.com/update-guide/en-US/vulnerability/CVE-2022-22047>), a vulnerability that carries a CVSS score of high (7.8) and exposes Windows Client Server Runtime Subsystem (CSRSS) used in Windows 11 (and earlier versions dating back to 7) and also Windows Server 2022 (and earlier versions 2008, 2012, 2016 and 2019) to attack.\n\n_[[**FREE On-demand Event**](<https://threatpost.com/webinars/securely-access-your-machines-from-anywhere-presented-by-keeper-security/>): **Join Keeper Security\u2019s Zane Bond in a Threatpost roundtable and learn how to securely access your machines from anywhere and share sensitive documents from your home office.** **[WATCH HERE](<https://threatpost.com/webinars/securely-access-your-machines-from-anywhere-presented-by-keeper-security/>)**.]_\n\nThe CSRSS bug is an elevation of privileges vulnerability that allows adversaries with a pre-established foothold on a targeted system to execute code as an unprivileged user. When the bug was first reported by Microsoft\u2019s own security team earlier this month it was classified as a zero-day, or a known bug with no patch. That patch was made available on [Tuesday July 5](<https://msrc.microsoft.com/update-guide/en-US/vulnerability/CVE-2022-22047>).\n\nResearchers at FortiGuard Labs, a division of Fortinet, said the threat the bug poses to business is \u201cmedium\u201d. [In a bulletin, researchers explain](<https://www.fortiguard.com/threat-signal-report/4671/known-active-exploitation-of-windows-csrss-elevation-of-privilege-vulnerability-cve-2022-22047>) the downgraded rating because an adversary needs advanced \u201clocal\u201d or physical access to the targeted system to exploit the bug and a patch is available.\n\nThat said, an attacker who has previously gained remote access to a computer system (via malware infection) could exploit the vulnerability remotely.\n\n\u201cAlthough there is no further information on exploitation released by Microsoft, it can be surmised that an unknown remote code execution allowed for an attacker to perform lateral movement and escalate privileges on machines vulnerable to CVE-2022-22047, ultimately allowing for SYSTEM privileges,\u201d FortiGuard Labs wrote.\n\n## Office and Adobe Documents Entry Points\n\nWhile the vulnerability is being actively exploited, there are no known public proof of concept exploits in the wild that can be used to help mitigate or sometimes fuel attacks, according to a [report by The Record](<https://therecord.media/cisa-adds-windows-bug-to-exploited-list-urges-agencies-to-patch-by-august-2/>).\n\n\u201cThe vulnerability allows an attacker to execute code as SYSTEM, provided they can execute other code on the target,\u201d wrote Trend Micro\u2019s [Zero Day Initiative (ZDI) in its Patch Tuesday](<https://www.zerodayinitiative.com/blog/2022/7/12/the-july-2022-security-update-review>) roundup last week.\n\n\u201cBugs of this type are typically paired with a code execution bug, usually a specially crafted Office or Adobe document, to take over a system. These attacks often rely on macros, which is why so many were disheartened to hear Microsoft\u2019s delay in blocking all Office macros by default,\u201d wrote ZDI author Dustin Childs.\n\nMicrosoft recently said it would block the use of Visual Basic for Applications (VBA) macros by default in some of its Office apps, however set no timeline enforce the policy.\n\nCISA [added the Microsoft bug to its running list](<https://www.cisa.gov/known-exploited-vulnerabilities-catalog>) of known exploited vulnerabilities on July 7 (search \u201cCVE-2022-22047\u201d to find the entry) and recommends simply, \u201capply updates per vendor instructions\u201d.\n\n_[[**FREE On-demand Event**](<https://threatpost.com/webinars/securely-access-your-machines-from-anywhere-presented-by-keeper-security/>): **Join Keeper Security\u2019s Zane Bond in a Threatpost roundtable and learn how to securely access your machines from anywhere and share sensitive documents from your home office.** **[WATCH HERE](<https://threatpost.com/webinars/securely-access-your-machines-from-anywhere-presented-by-keeper-security/>)**.]_\n\nImage: Courtesy of Microsoft\n", "cvss3": {"exploitabilityScore": 1.8, "cvssV3": {"baseSeverity": "HIGH", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "UNCHANGED", "attackVector": "LOCAL", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "LOW", "baseScore": 7.8, "vectorString": "CVSS:3.1/AV:L/AC:L/PR:L/UI:N/S:U/C:H/I:H/A:H", "version": "3.1", "userInteraction": "NONE"}, "impactScore": 5.9}, "published": "2022-07-18T12:19:26", "type": "threatpost", "title": "CISA Urges Patch of Exploited Windows 11 Bug by Aug. 2", "bulletinFamily": "info", "cvss2": {"severity": "HIGH", "exploitabilityScore": 3.9, "obtainAllPrivilege": false, "userInteractionRequired": false, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "LOW", "confidentialityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "baseScore": 7.2, "vectorString": "AV:L/AC:L/Au:N/C:C/I:C/A:C", "version": "2.0", "accessVector": "LOCAL", "authentication": "NONE"}, "impactScore": 10.0, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2022-22047"], "modified": "2022-07-18T12:19:26", "id": "THREATPOST:781705ADC10B0D40FC4B8D835FA5EA6D", "href": "https://threatpost.com/cisa-urges-patch-11-bug/180235/", "cvss": {"score": 7.2, "vector": "AV:L/AC:L/Au:N/C:C/I:C/A:C"}}], "checkpoint_advisories": [{"lastseen": "2022-07-16T17:58:18", "description": "An elevation of privilege vulnerability exists in Microsoft Windows. Successful exploitation of this vulnerability could allow a remote attacker to execute arbitrary code on the affected system.", "cvss3": {"exploitabilityScore": 1.8, "cvssV3": {"baseSeverity": "HIGH", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "UNCHANGED", "attackVector": "LOCAL", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "LOW", "baseScore": 7.8, "vectorString": "CVSS:3.1/AV:L/AC:L/PR:L/UI:N/S:U/C:H/I:H/A:H", "version": "3.1", "userInteraction": "NONE"}, "impactScore": 5.9}, "published": "2022-07-12T00:00:00", "type": "checkpoint_advisories", "title": "Microsoft Windows Client/Server Runtime Subsystem Elevation of Privilege (CVE-2022-22047)", "bulletinFamily": "info", "cvss2": {"severity": "HIGH", "exploitabilityScore": 3.9, "obtainAllPrivilege": false, "userInteractionRequired": false, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "LOW", "confidentialityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "baseScore": 7.2, "vectorString": "AV:L/AC:L/Au:N/C:C/I:C/A:C", "version": "2.0", "accessVector": "LOCAL", "authentication": "NONE"}, "impactScore": 10.0, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2022-22047"], "modified": "2022-07-12T00:00:00", "id": "CPAI-2022-0362", "href": "", "cvss": {"score": 7.2, "vector": "AV:L/AC:L/Au:N/C:C/I:C/A:C"}}], "avleonov": [{"lastseen": "2022-08-14T11:59:47", "description": "Hello everyone! Microsoft has been acting weird lately. I mean the recent [publication of a propaganda report](<https://t.me/avleonovcom/1021>) about evil Russians and how Microsoft is involved in the conflict between countries. It wouldn't be unusual for a US government agency, NSA or CIA to publish such a report. But when a global IT vendor, which, in theory, should be more or less neutral, does this\u2026 This is a clear signal. It's not about business anymore. \n\nAlternative video link (for Russia): <https://vk.com/video-149273431_456239096>\n\nI'll take a closer look at this report in the next episode of the Vulnerability Management news, but for now let's take a look at Microsoft July Patch Tuesday. Yes, the vendor is behaving strangely, but Microsoft products need to be patched. Right? At least for now. And tracking vulnerabilities is always a good thing. ![\ud83d\ude42](https://s.w.org/images/core/emoji/14.0.0/72x72/1f642.png)\n\nOn July Patch Tuesday, July 12, 84 vulnerabilities were released. Between June and July Patch Tuesdays, 15 vulnerabilities were released. This gives us 99 vulnerabilities in the report. \n \n \n $ cat comments_links.txt \n Qualys|July 2022 Patch Tuesday. Microsoft Releases 84 Vulnerabilities with 4 Critical, plus 2 Microsoft Edge (Chromium-Based); Adobe Releases 4 Advisories, 27 Vulnerabilities with 18 Critical.|https://blog.qualys.com/vulnerabilities-threat-research/2022/07/12/july-2022-patch-tuesday\n ZDI|The July 2022 Security Update Review|https://www.zerodayinitiative.com/blog/2022/7/12/the-july-2022-security-update-review\n \n $ python3.8 vulristics.py --report-type \"ms_patch_tuesday_extended\" --mspt-year 2022 --mspt-month \"July\" --mspt-comments-links-path \"comments_links.txt\" --rewrite-flag \"True\"\n ...\n Creating Patch Tuesday profile...\n MS PT Year: 2022\n MS PT Month: July\n MS PT Date: 2022-07-12\n MS PT CVEs found: 84\n Ext MS PT Date from: 2022-06-15\n Ext MS PT Date to: 2022-07-11\n Ext MS PT CVEs found: 15\n ALL MS PT CVEs: 99\n ...\n\n * Urgent: 0\n * Critical: 1\n * High: 19\n * Medium: 78\n * Low: 1\n\nInterestingly, in this Patch Tuesday, more than half of all vulnerabilities are EoP.\n\n## CSRSS EoP\n\nWhat can I say, prioritization in [Vulristics](<https://github.com/leonov-av/vulristics>) works correctly. At the top of the July Patch Tuesday list is one critical and actively exploited **Elevation of Privilege** in Windows CSRSS (CVE-2022-22047). This vulnerability has been widely reported in the media.\n\nClient Server Runtime Subsystem, or csrss.exe, is a component of the Windows NT family of operating systems that provides the user mode side of the Win32 subsystem and is included in Windows NT 3.1 and later. Because most of the Win32 subsystem operations have been moved to kernel mode drivers in Windows NT 4 and later, CSRSS is mainly responsible for Win32 console handling and GUI shutdown.\n\nCSRSS runs as a user-mode system service. When a user-mode process calls a function involving console windows, process/thread creation, or side-by-side support, instead of issuing a system call, the Win32 libraries (kernel32.dll, user32.dll, gdi32.dll) send an inter-process call to the CSRSS process which does most of the actual work without compromising the kernel.\n\nThis Elevation of Privilege vulnerability in CSRSS allows an attacker to execute code as SYSTEM, provided they can execute other code on the target. Bugs of this type are typically paired with a code execution bug, usually a specially crafted Office or Adobe document, to take over a system. These attacks often rely on macros, which is why so many were disheartened to hear Microsoft\u2019s delay in blocking all Office macros by default.\n\nMicrosoft says this vulnerability has been exploited in the wild, though no further details have been shared. There is no public exploit yet. Two similar vulnerabilities in CSRSS (CVE-2022-22049 and CVE-2022-22026) were also fixed, likely as a result of Microsoft\u2019s investigation into the in-the-wild exploitation of CVE-2022-22047.\n\n## RPC RCE\n\n**Remote Code Execution** in Remote Procedure Call Runtime (CVE-2022-22038). Here Microsoft has a POC exploit. This July Patch Tuesday bug could allow a remote, unauthenticated attacker to exploit code on an affected system. While not specified in the bulletin, the presumption is that the code execution would occur at elevated privileges. Combine these attributes and you end up with a potentially wormable bug. Microsoft states the attack complexity is high. Additional actions by an attacker are required in order to prepare a target for successful exploitation and an attacker would need to make \u201crepeated exploitation attempts\u201d to take advantage of this bug, but unless you are actively blocking RPC activity, you may not see these attempts.\n\n## Microsoft Edge Memory Corruption\n\nBetween June and July Patch Tuesday, **Memory Corruption** in Microsoft Edge (CVE-2022-2294) was released. Heap buffer overflow in WebRTC, to be precise. WebRTC (Web Real-Time Communication) is a free and open-source project providing web browsers and mobile applications with real-time communication (RTC) via application programming interfaces (APIs). It allows audio and video communication to work inside web pages by allowing direct peer-to-peer communication, eliminating the need to install plugins or download native apps. So, the vulnerability is in the Chromium Open Source Software (OSS) which is consumed by Microsoft Edge. Google is aware that an exploit for this vulnerability exists in the wild. If you\u2019re using Microsoft Edge (Chromium-based), make sure it gets updated as soon as possible.\n\n## Azure Site Recovery RCEs and EOPs\n\nThere are also a lot of vulnerabilities in Azure Site Recovery in July Patch Tuesday. Both EoPs and RCEs, and quite a few with non-public exploits of the POC maturity level. According to the description "Site Recovery is a native disaster recovery as a service (DRaaS)", it would seem that this should be patched by Microsoft themselves. But in fact, there is a Microsoft Azure Site Recovery suite installed on the hosts, and at least some of the vulnerabilities were found in it. \n\nLet's see, for example, **Elevation of Privilege** in Azure Site Recovery (CVE-2022-33675). The vulnerability was discovered and [reported to Microsoft by Tenable researcher Jimi Sebree](<https://www.tenable.com/security/research/tra-2022-26>). The Microsoft Azure Site Recovery suite contains a DLL hijacking flaw that allows for privilege escalation from any low privileged user to SYSTEM. \n\nIncorrect permissions on the service\u2019s executable directory (E:\\Program Files (x86)\\Microsoft Azure Site Recovery\\home\\svsystems\\transport\\\\) allow new files to be created by any user. The service launched from this directory runs automatically and with SYSTEM privileges and attempts to load several DLLs from this directory. This allows for a DLL hijacking/planting attack via several libraries that are attempted to be loaded from this location when the service is launched. Existing deployments should ensure that the Microsoft-supplied patches have been appropriately applied.\n\nThe full Vulristics report is available here: [ms_patch_tuesday_july2022_report](<https://avleonov.com/vulristics_reports/ms_patch_tuesday_july2022_report_with_comments_ext_img.html>)", "cvss3": {"exploitabilityScore": 2.0, "cvssV3": {"baseSeverity": "HIGH", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "CHANGED", "attackVector": "LOCAL", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "LOW", "baseScore": 8.8, "vectorString": "CVSS:3.1/AV:L/AC:L/PR:L/UI:N/S:C/C:H/I:H/A:H", "version": "3.1", "userInteraction": "NONE"}, "impactScore": 6.0}, "published": "2022-07-23T08:34:29", "type": "avleonov", "title": "Microsoft Patch Tuesday July 2022: propaganda report, CSRSS EoP, RPC RCE, Edge, Azure Site Recovery", "bulletinFamily": "blog", "cvss2": {"severity": "HIGH", "exploitabilityScore": 3.9, "obtainAllPrivilege": false, "userInteractionRequired": false, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "LOW", "confidentialityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "baseScore": 7.2, "vectorString": "AV:L/AC:L/Au:N/C:C/I:C/A:C", "version": "2.0", "accessVector": "LOCAL", "authentication": "NONE"}, "impactScore": 10.0, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2022-22026", "CVE-2022-22038", "CVE-2022-22047", "CVE-2022-22049", "CVE-2022-2294", "CVE-2022-33675"], "modified": "2022-07-23T08:34:29", "id": "AVLEONOV:B87691B304EF70215B926F66B871260A", "href": "https://avleonov.com/2022/07/23/microsoft-patch-tuesday-july-2022-propaganda-report-csrss-eop-rpc-rce-edge-azure-site-recovery/", "cvss": {"score": 7.2, "vector": "AV:L/AC:L/Au:N/C:C/I:C/A:C"}}], "kaspersky": [{"lastseen": "2023-08-11T23:42:05", "description": "### *Detect date*:\n07/12/2022\n\n### *Severity*:\nCritical\n\n### *Description*:\nMultiple vulnerabilities were found in Microsoft Products (Extended Security Update). Malicious users can exploit these vulnerabilities to gain privileges, bypass security restrictions, execute arbitrary code, obtain sensitive information, cause denial of service.\n\n### *Exploitation*:\nMalware exists for this vulnerability. Usually such malware is classified as Exploit. [More details](<https://threats.kaspersky.com/en/class/Exploit/>).\n\n### *Affected products*:\nWindows Server 2008 for 32-bit Systems Service Pack 2 (Server Core installation) \nWindows Server 2008 for 32-bit Systems Service Pack 2 \nWindows Server 2008 for x64-based Systems Service Pack 2 (Server Core installation) \nWindows Server 2008 R2 for x64-based Systems Service Pack 1 \nWindows Server 2008 for x64-based Systems Service Pack 2 \nWindows 7 for 32-bit Systems Service Pack 1 \nWindows Server 2008 R2 for x64-based Systems Service Pack 1 (Server Core installation) \nWindows 7 for x64-based Systems Service Pack 1\n\n### *Solution*:\nInstall necessary updates from the KB section, that are listed in your Windows Update (Windows Update usually can be accessed from the Control Panel)\n\n### *Original advisories*:\n[CVE-2022-30206](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30206>) \n[CVE-2022-30203](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30203>) \n[CVE-2022-22023](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22023>) \n[CVE-2022-30221](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30221>) \n[CVE-2022-30211](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30211>) \n[CVE-2022-30202](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30202>) \n[CVE-2022-22037](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22037>) \n[CVE-2022-22048](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22048>) \n[CVE-2022-22036](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22036>) \n[CVE-2022-22028](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22028>) \n[CVE-2022-30205](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30205>) \n[CVE-2022-22047](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>) \n[CVE-2022-30225](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30225>) \n[CVE-2022-21845](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-21845>) \n[CVE-2022-22042](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22042>) \n[CVE-2022-30220](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30220>) \n[CVE-2022-22039](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22039>) \n[CVE-2022-22049](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22049>) \n[CVE-2022-30223](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30223>) \n[CVE-2022-22026](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22026>) \n[CVE-2022-30209](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30209>) \n[CVE-2022-22040](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22040>) \n[CVE-2022-22050](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22050>) \n[CVE-2022-22025](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22025>) \n[CVE-2022-22043](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22043>) \n[CVE-2022-30224](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30224>) \n[CVE-2022-22024](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22024>) \n[CVE-2022-22034](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22034>) \n[CVE-2022-30226](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30226>) \n[CVE-2022-22022](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22022>) \n[CVE-2022-30208](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30208>) \n[CVE-2022-30213](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30213>) \n[CVE-2022-22027](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22027>) \n[CVE-2022-22029](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22029>) \n[CVE-2022-29900](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-29900>) \n[CVE-2022-23825](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-23825>) \n\n\n### *Impacts*:\nACE \n\n### *Related products*:\n[Microsoft Windows](<https://threats.kaspersky.com/en/product/Microsoft-Windows/>)\n\n### *CVE-IDS*:\n[CVE-2022-30206](<https://vulners.com/cve/CVE-2022-30206>)7.2High \n[CVE-2022-30203](<https://vulners.com/cve/CVE-2022-30203>)4.6Warning \n[CVE-2022-23825](<https://vulners.com/cve/CVE-2022-23825>)2.1Warning \n[CVE-2022-22023](<https://vulners.com/cve/CVE-2022-22023>)6.9High \n[CVE-2022-30221](<https://vulners.com/cve/CVE-2022-30221>)5.1High \n[CVE-2022-30211](<https://vulners.com/cve/CVE-2022-30211>)6.0High \n[CVE-2022-30202](<https://vulners.com/cve/CVE-2022-30202>)6.9High \n[CVE-2022-22037](<https://vulners.com/cve/CVE-2022-22037>)8.5Critical \n[CVE-2022-22048](<https://vulners.com/cve/CVE-2022-22048>)6.6High \n[CVE-2022-22036](<https://vulners.com/cve/CVE-2022-22036>)4.4Warning \n[CVE-2022-22028](<https://vulners.com/cve/CVE-2022-22028>)4.3Warning \n[CVE-2022-30205](<https://vulners.com/cve/CVE-2022-30205>)6.0High \n[CVE-2022-22047](<https://vulners.com/cve/CVE-2022-22047>)7.2High \n[CVE-2022-30225](<https://vulners.com/cve/CVE-2022-30225>)3.6Warning \n[CVE-2022-21845](<https://vulners.com/cve/CVE-2022-21845>)4.7Warning \n[CVE-2022-22042](<https://vulners.com/cve/CVE-2022-22042>)4.0Warning \n[CVE-2022-30220](<https://vulners.com/cve/CVE-2022-30220>)7.2High \n[CVE-2022-22039](<https://vulners.com/cve/CVE-2022-22039>)6.0High \n[CVE-2022-22049](<https://vulners.com/cve/CVE-2022-22049>)7.2High \n[CVE-2022-30223](<https://vulners.com/cve/CVE-2022-30223>)2.7Warning \n[CVE-2022-22026](<https://vulners.com/cve/CVE-2022-22026>)7.2High \n[CVE-2022-30209](<https://vulners.com/cve/CVE-2022-30209>)5.8High \n[CVE-2022-22040](<https://vulners.com/cve/CVE-2022-22040>)7.5Critical \n[CVE-2022-22050](<https://vulners.com/cve/CVE-2022-22050>)7.2High \n[CVE-2022-22025](<https://vulners.com/cve/CVE-2022-22025>)5.0Critical \n[CVE-2022-22043](<https://vulners.com/cve/CVE-2022-22043>)7.2High \n[CVE-2022-30224](<https://vulners.com/cve/CVE-2022-30224>)6.9High \n[CVE-2022-22024](<https://vulners.com/cve/CVE-2022-22024>)5.1High \n[CVE-2022-22034](<https://vulners.com/cve/CVE-2022-22034>)7.2High \n[CVE-2022-30226](<https://vulners.com/cve/CVE-2022-30226>)3.6Warning \n[CVE-2022-22022](<https://vulners.com/cve/CVE-2022-22022>)3.6Warning \n[CVE-2022-30208](<https://vulners.com/cve/CVE-2022-30208>)4.0Warning \n[CVE-2022-30213](<https://vulners.com/cve/CVE-2022-30213>)2.1Warning \n[CVE-2022-22027](<https://vulners.com/cve/CVE-2022-22027>)6.8High \n[CVE-2022-22029](<https://vulners.com/cve/CVE-2022-22029>)6.8High \n[CVE-2022-29900](<https://vulners.com/cve/CVE-2022-29900>)2.1Warning\n\n### *KB list*:\n[5015866](<http://support.microsoft.com/kb/5015866>) \n[5015862](<http://support.microsoft.com/kb/5015862>) \n[5015870](<http://support.microsoft.com/kb/5015870>) \n[5015861](<http://support.microsoft.com/kb/5015861>) \n[5023755](<http://support.microsoft.com/kb/5023755>) \n[5023754](<http://support.microsoft.com/kb/5023754>) \n[5023759](<http://support.microsoft.com/kb/5023759>) \n[5023769](<http://support.microsoft.com/kb/5023769>)\n\n### *Microsoft official advisories*:", "cvss3": {"exploitabilityScore": 2.0, "cvssV3": {"baseSeverity": "HIGH", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "CHANGED", "attackVector": "LOCAL", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "LOW", "baseScore": 8.8, "vectorString": "CVSS:3.1/AV:L/AC:L/PR:L/UI:N/S:C/C:H/I:H/A:H", "version": "3.1", "userInteraction": "NONE"}, "impactScore": 6.0}, "published": "2022-07-12T00:00:00", "type": "kaspersky", "title": "KLA12581 Multiple vulnerabilities in Microsoft Products (ESU)", "bulletinFamily": "info", "cvss2": {"severity": "HIGH", "exploitabilityScore": 6.8, "obtainAllPrivilege": false, "userInteractionRequired": false, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "MEDIUM", "confidentialityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "baseScore": 8.5, "vectorString": "AV:N/AC:M/Au:S/C:C/I:C/A:C", "version": "2.0", "accessVector": "NETWORK", "authentication": "SINGLE"}, "impactScore": 10.0, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2022-21845", "CVE-2022-22022", "CVE-2022-22023", "CVE-2022-22024", "CVE-2022-22025", "CVE-2022-22026", "CVE-2022-22027", "CVE-2022-22028", "CVE-2022-22029", "CVE-2022-22034", "CVE-2022-22036", "CVE-2022-22037", "CVE-2022-22039", "CVE-2022-22040", "CVE-2022-22042", "CVE-2022-22043", "CVE-2022-22047", "CVE-2022-22048", "CVE-2022-22049", "CVE-2022-22050", "CVE-2022-23825", "CVE-2022-29900", "CVE-2022-30202", "CVE-2022-30203", "CVE-2022-30205", "CVE-2022-30206", "CVE-2022-30208", "CVE-2022-30209", "CVE-2022-30211", "CVE-2022-30213", "CVE-2022-30220", "CVE-2022-30221", "CVE-2022-30223", "CVE-2022-30224", "CVE-2022-30225", "CVE-2022-30226"], "modified": "2023-05-19T00:00:00", "id": "KLA12581", "href": "https://threats.kaspersky.com/en/vulnerability/KLA12581/", "cvss": {"score": 8.5, "vector": "AV:N/AC:M/Au:S/C:C/I:C/A:C"}}, {"lastseen": "2023-09-07T17:22:47", "description": "### *Detect date*:\n07/12/2022\n\n### *Severity*:\nCritical\n\n### *Description*:\nMultiple vulnerabilities were found in Microsoft Windows. Malicious users can exploit these vulnerabilities to gain privileges, execute arbitrary code, bypass security restrictions, obtain sensitive information, cause denial of service, spoof user interface.\n\n### *Exploitation*:\nMalware exists for this vulnerability. Usually such malware is classified as Exploit. [More details](<https://threats.kaspersky.com/en/class/Exploit/>).\n\n### *Affected products*:\nWindows 10 Version 21H1 for 32-bit Systems \nWindows 10 for x64-based Systems \nWindows 8.1 for 32-bit systems \nRemote Desktop client for Windows Desktop \nWindows 10 Version 21H1 for x64-based Systems \nWindows 10 for 32-bit Systems \nWindows Server 2016 \nWindows 10 Version 1607 for x64-based Systems \nWindows Server, version 20H2 (Server Core Installation) \nWindows RT 8.1 \nWindows Server 2019 \nWindows Server 2012 \nWindows 10 Version 21H1 for ARM64-based Systems \nWindows Server 2022 \nWindows 8.1 for x64-based systems \nWindows Server 2012 R2 (Server Core installation) \nWindows 10 Version 1607 for 32-bit Systems \nWindows 10 Version 21H2 for x64-based Systems \nWindows 10 Version 20H2 for 32-bit Systems \nWindows 10 Version 21H2 for 32-bit Systems \nWindows 10 Version 1809 for 32-bit Systems \nWindows 10 Version 21H2 for ARM64-based Systems \nWindows 10 Version 20H2 for x64-based Systems \nWindows Server 2012 (Server Core installation) \nWindows Server 2012 R2 \nWindows 10 Version 20H2 for ARM64-based Systems \nWindows Server 2022 (Server Core installation) \nWindows 10 Version 1809 for ARM64-based Systems \nWindows 10 Version 1809 for x64-based Systems \nWindows Server 2016 (Server Core installation) \nWindows 11 version 21H2 for ARM64-based Systems \nWindows 11 version 21H2 for x64-based Systems \nWindows Server 2019 (Server Core installation)\n\n### *Solution*:\nInstall necessary updates from the KB section, that are listed in your Windows Update (Windows Update usually can be accessed from the Control Panel)\n\n### *Original advisories*:\n[CVE-2022-30206](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30206>) \n[CVE-2022-30222](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30222>) \n[CVE-2022-30203](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30203>) \n[CVE-2022-22023](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22023>) \n[CVE-2022-30221](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30221>) \n[CVE-2022-30211](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30211>) \n[CVE-2022-30214](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30214>) \n[CVE-2022-30212](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30212>) \n[CVE-2022-30202](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30202>) \n[CVE-2022-22037](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22037>) \n[CVE-2022-22031](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22031>) \n[CVE-2022-33644](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-33644>) \n[CVE-2022-22048](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22048>) \n[CVE-2022-22036](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22036>) \n[CVE-2022-22028](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22028>) \n[CVE-2022-30205](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30205>) \n[CVE-2022-22047](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>) \n[CVE-2022-30225](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30225>) \n[CVE-2022-30216](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30216>) \n[CVE-2022-21845](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-21845>) \n[CVE-2022-22042](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22042>) \n[CVE-2022-30220](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30220>) \n[CVE-2022-22039](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22039>) \n[CVE-2022-22038](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22038>) \n[CVE-2022-22049](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22049>) \n[CVE-2022-30223](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30223>) \n[CVE-2022-22026](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22026>) \n[CVE-2022-30209](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30209>) \n[CVE-2022-22711](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22711>) \n[CVE-2022-22040](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22040>) \n[CVE-2022-22050](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22050>) \n[CVE-2022-22025](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22025>) \n[CVE-2022-22043](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22043>) \n[CVE-2022-30224](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30224>) \n[CVE-2022-22024](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22024>) \n[CVE-2022-22034](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22034>) \n[CVE-2022-30226](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30226>) \n[CVE-2022-22041](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22041>) \n[CVE-2022-22022](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22022>) \n[CVE-2022-30208](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30208>) \n[CVE-2022-30215](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30215>) \n[CVE-2022-22045](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22045>) \n[CVE-2022-30213](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30213>) \n[CVE-2022-22027](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22027>) \n[CVE-2022-22029](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22029>) \n[CVE-2022-29900](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-29900>) \n[CVE-2022-23825](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-23825>) \n[CVE-2022-27776](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-27776>) \n\n\n### *Impacts*:\nACE \n\n### *Related products*:\n[Microsoft Windows](<https://threats.kaspersky.com/en/product/Microsoft-Windows/>)\n\n### *CVE-IDS*:\n[CVE-2022-30206](<https://vulners.com/cve/CVE-2022-30206>)7.2High \n[CVE-2022-30222](<https://vulners.com/cve/CVE-2022-30222>)4.6Warning \n[CVE-2022-30203](<https://vulners.com/cve/CVE-2022-30203>)4.6Warning \n[CVE-2022-23825](<https://vulners.com/cve/CVE-2022-23825>)2.1Warning \n[CVE-2022-22023](<https://vulners.com/cve/CVE-2022-22023>)6.9High \n[CVE-2022-30221](<https://vulners.com/cve/CVE-2022-30221>)5.1High \n[CVE-2022-30211](<https://vulners.com/cve/CVE-2022-30211>)6.0High \n[CVE-2022-30214](<https://vulners.com/cve/CVE-2022-30214>)6.0High \n[CVE-2022-30212](<https://vulners.com/cve/CVE-2022-30212>)4.7Warning \n[CVE-2022-30202](<https://vulners.com/cve/CVE-2022-30202>)6.9High \n[CVE-2022-22037](<https://vulners.com/cve/CVE-2022-22037>)8.5Critical \n[CVE-2022-27776](<https://vulners.com/cve/CVE-2022-27776>)4.3Warning \n[CVE-2022-22031](<https://vulners.com/cve/CVE-2022-22031>)7.2High \n[CVE-2022-33644](<https://vulners.com/cve/CVE-2022-33644>)4.4Warning \n[CVE-2022-22048](<https://vulners.com/cve/CVE-2022-22048>)6.6High \n[CVE-2022-22036](<https://vulners.com/cve/CVE-2022-22036>)4.4Warning \n[CVE-2022-22028](<https://vulners.com/cve/CVE-2022-22028>)4.3Warning \n[CVE-2022-30205](<https://vulners.com/cve/CVE-2022-30205>)6.0High \n[CVE-2022-22047](<https://vulners.com/cve/CVE-2022-22047>)7.2High \n[CVE-2022-30225](<https://vulners.com/cve/CVE-2022-30225>)3.6Warning \n[CVE-2022-30216](<https://vulners.com/cve/CVE-2022-30216>)6.5High \n[CVE-2022-21845](<https://vulners.com/cve/CVE-2022-21845>)4.7Warning \n[CVE-2022-22042](<https://vulners.com/cve/CVE-2022-22042>)4.0Warning \n[CVE-2022-30220](<https://vulners.com/cve/CVE-2022-30220>)7.2High \n[CVE-2022-22039](<https://vulners.com/cve/CVE-2022-22039>)6.0High \n[CVE-2022-22038](<https://vulners.com/cve/CVE-2022-22038>)6.8High \n[CVE-2022-22049](<https://vulners.com/cve/CVE-2022-22049>)7.2High \n[CVE-2022-30223](<https://vulners.com/cve/CVE-2022-30223>)2.7Warning \n[CVE-2022-22026](<https://vulners.com/cve/CVE-2022-22026>)7.2High \n[CVE-2022-30209](<https://vulners.com/cve/CVE-2022-30209>)5.8High \n[CVE-2022-22711](<https://vulners.com/cve/CVE-2022-22711>)3.3Warning \n[CVE-2022-22040](<https://vulners.com/cve/CVE-2022-22040>)7.5Critical \n[CVE-2022-22050](<https://vulners.com/cve/CVE-2022-22050>)7.2High \n[CVE-2022-22025](<https://vulners.com/cve/CVE-2022-22025>)5.0Critical \n[CVE-2022-22043](<https://vulners.com/cve/CVE-2022-22043>)7.2High \n[CVE-2022-30224](<https://vulners.com/cve/CVE-2022-30224>)6.9High \n[CVE-2022-22024](<https://vulners.com/cve/CVE-2022-22024>)5.1High \n[CVE-2022-22034](<https://vulners.com/cve/CVE-2022-22034>)7.2High \n[CVE-2022-30226](<https://vulners.com/cve/CVE-2022-30226>)3.6Warning \n[CVE-2022-22041](<https://vulners.com/cve/CVE-2022-22041>)8.5Critical \n[CVE-2022-22022](<https://vulners.com/cve/CVE-2022-22022>)3.6Warning \n[CVE-2022-30208](<https://vulners.com/cve/CVE-2022-30208>)4.0Warning \n[CVE-2022-30215](<https://vulners.com/cve/CVE-2022-30215>)8.5Critical \n[CVE-2022-22045](<https://vulners.com/cve/CVE-2022-22045>)6.9High \n[CVE-2022-30213](<https://vulners.com/cve/CVE-2022-30213>)2.1Warning \n[CVE-2022-22027](<https://vulners.com/cve/CVE-2022-22027>)6.8High \n[CVE-2022-22029](<https://vulners.com/cve/CVE-2022-22029>)6.8High \n[CVE-2022-29900](<https://vulners.com/cve/CVE-2022-29900>)2.1Warning\n\n### *KB list*:\n[5015808](<http://support.microsoft.com/kb/5015808>) \n[5015875](<http://support.microsoft.com/kb/5015875>) \n[5015811](<http://support.microsoft.com/kb/5015811>) \n[5015863](<http://support.microsoft.com/kb/5015863>) \n[5015877](<http://support.microsoft.com/kb/5015877>) \n[5015807](<http://support.microsoft.com/kb/5015807>) \n[5015832](<http://support.microsoft.com/kb/5015832>) \n[5015874](<http://support.microsoft.com/kb/5015874>) \n[5015814](<http://support.microsoft.com/kb/5015814>) \n[5015827](<http://support.microsoft.com/kb/5015827>) \n[5023752](<http://support.microsoft.com/kb/5023752>) \n[5023764](<http://support.microsoft.com/kb/5023764>) \n[5023756](<http://support.microsoft.com/kb/5023756>) \n[5023713](<http://support.microsoft.com/kb/5023713>) \n[5023765](<http://support.microsoft.com/kb/5023765>) \n[5023698](<http://support.microsoft.com/kb/5023698>) \n[5023702](<http://support.microsoft.com/kb/5023702>) \n[5023696](<http://support.microsoft.com/kb/5023696>) \n[5023697](<http://support.microsoft.com/kb/5023697>) \n[5026456](<http://support.microsoft.com/kb/5026456>) \n[5026370](<http://support.microsoft.com/kb/5026370>) \n[5026368](<http://support.microsoft.com/kb/5026368>) \n[5026361](<http://support.microsoft.com/kb/5026361>)\n\n### *Microsoft official advisories*:", "cvss3": {"exploitabilityScore": 2.0, "cvssV3": {"baseSeverity": "HIGH", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "CHANGED", "attackVector": "LOCAL", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "LOW", "baseScore": 8.8, "vectorString": "CVSS:3.1/AV:L/AC:L/PR:L/UI:N/S:C/C:H/I:H/A:H", "version": "3.1", "userInteraction": "NONE"}, "impactScore": 6.0}, "published": "2022-07-12T00:00:00", "type": "kaspersky", "title": "KLA12580 Multiple vulnerabilities in Microsoft Windows", "bulletinFamily": "info", "cvss2": {"severity": "HIGH", "exploitabilityScore": 6.8, "obtainAllPrivilege": false, "userInteractionRequired": false, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "MEDIUM", "confidentialityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "baseScore": 8.5, "vectorString": "AV:N/AC:M/Au:S/C:C/I:C/A:C", "version": "2.0", "accessVector": "NETWORK", "authentication": "SINGLE"}, "impactScore": 10.0, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2022-21845", "CVE-2022-22022", "CVE-2022-22023", "CVE-2022-22024", "CVE-2022-22025", "CVE-2022-22026", "CVE-2022-22027", "CVE-2022-22028", "CVE-2022-22029", "CVE-2022-22031", "CVE-2022-22034", "CVE-2022-22036", "CVE-2022-22037", "CVE-2022-22038", "CVE-2022-22039", "CVE-2022-22040", "CVE-2022-22041", "CVE-2022-22042", "CVE-2022-22043", "CVE-2022-22045", "CVE-2022-22047", "CVE-2022-22048", "CVE-2022-22049", "CVE-2022-22050", "CVE-2022-22711", "CVE-2022-23825", "CVE-2022-27776", "CVE-2022-29900", "CVE-2022-30202", "CVE-2022-30203", "CVE-2022-30205", "CVE-2022-30206", "CVE-2022-30208", "CVE-2022-30209", "CVE-2022-30211", "CVE-2022-30212", "CVE-2022-30213", "CVE-2022-30214", "CVE-2022-30215", "CVE-2022-30216", "CVE-2022-30220", "CVE-2022-30221", "CVE-2022-30222", "CVE-2022-30223", "CVE-2022-30224", "CVE-2022-30225", "CVE-2022-30226", "CVE-2022-33644"], "modified": "2023-09-07T00:00:00", "id": "KLA12580", "href": "https://threats.kaspersky.com/en/vulnerability/KLA12580/", "cvss": {"score": 8.5, "vector": "AV:N/AC:M/Au:S/C:C/I:C/A:C"}}], "securelist": [{"lastseen": "2022-11-30T12:08:22", "description": "![](https://media.kasperskycontenthub.com/wp-content/uploads/sites/43/2022/11/17134132/abstract_binary_brain_report-990x400.jpg)\n\n * [IT threat evolution in Q3 2022](<https://securelist.com/it-threat-evolution-q3-2022/107957/>)\n * **IT threat evolution in Q3 2022. Non-mobile statistics**\n * [IT threat evolution in Q3 2022. Mobile statistics](<https://securelist.com/it-threat-evolution-in-q3-2022-mobile-statistics/107978/>)\n\n_These statistics are based on detection verdicts of Kaspersky products and services received from users who consented to providing statistical data._\n\n## Quarterly figures\n\nAccording to Kaspersky Security Network, in Q3 2022:\n\n * Kaspersky solutions blocked 956,074,958 attacks from online resources across the globe.\n * Web Anti-Virus recognized 251,288,987 unique URLs as malicious.\n * Attempts to run malware for stealing money from online bank accounts were stopped on the computers of 99,989 unique users.\n * Ransomware attacks were defeated on the computers of 72,941 unique users.\n * Our File Anti-Virus detected 49,275,253 unique malicious and potentially unwanted objects.\n\n## Financial threats\n\n### Number of users attacked by banking malware\n\nIn Q3 2022, Kaspersky solutions blocked the launch of at least one piece of banking malware on the computers of 99,989 unique users.\n\n_Number of unique users attacked by financial malware, Q3 2022 ([download](<https://media.kasperskycontenthub.com/wp-content/uploads/sites/43/2022/11/15154318/01-en-malware-report-q3-2022-pc-stat.png>))_\n\n### TOP 10 banking malware families\n\n| **Name** | **Verdicts** | **%*** \n---|---|---|--- \n1 | Ramnit/Nimnul | Trojan-Banker.Win32.Ramnit | 33.2 \n2 | Zbot/Zeus | Trojan-Banker.Win32.Zbot | 15.2 \n3 | IcedID | Trojan-Banker.Win32.IcedID | 10.0 \n4 | CliptoShuffler | Trojan-Banker.Win32.CliptoShuffler | 5.8 \n5 | Trickster/Trickbot | Trojan-Banker.Win32.Trickster | 5.8 \n6 | SpyEye | Trojan-Spy.Win32.SpyEye | 2.1 \n7 | RTM | Trojan-Banker.Win32.RTM | 1.9 \n8 | Danabot | Trojan-Banker.Win32.Danabot | 1.4 \n9 | Tinba/TinyBanker | Trojan-Banker.Win32.Tinba | 1.4 \n10 | Gozi | Trojan-Banker.Win32.Gozi | 1.1 \n \n_* Unique users who encountered this malware family as a percentage of all users attacked by financial malware._\n\n### Geography of financial malware attacks\n\n**TOP 10 countries and territories by share of attacked users**\n\n| **Country or territory*** | **%**** \n---|---|--- \n1 | Turkmenistan | 4.7 \n2 | Afghanistan | 4.6 \n3 | Paraguay | 2.8 \n4 | Tajikistan | 2.8 \n5 | Yemen | 2.3 \n6 | Sudan | 2.3 \n7 | China | 2.0 \n8 | Switzerland | 2.0 \n9 | Egypt | 1.9 \n10 | Venezuela | 1.8 \n \n_* Excluded are countries and territories with relatively few Kaspersky users (under 10,000). \n** Unique users whose computers were targeted by financial malware as a percentage of all unique users of Kaspersky products in the country._\n\n## Ransomware programs\n\n### Quarterly trends and highlights\n\nThe third quarter of 2022 saw the builder for LockBit, a well-known ransomware, [leaked online](<https://www.bleepingcomputer.com/news/security/lockbit-ransomware-builder-leaked-online-by-angry-developer-/>). LockBit themselves attributed the leakage to one of their developers' personal initiative, not the group's getting hacked. One way or another, the LockBit 3.0 build kit is now accessible to the broader cybercriminal community. Similarly to other ransomware families in the past, such as Babuk and Conti, Trojan builds generated with the leaked builder began to serve other groups unrelated to LockBit. One example was Bloody/Bl00dy [spotted back in May](<https://www.bleepingcomputer.com/news/security/leaked-lockbit-30-builder-used-by-bl00dy-ransomware-gang-in-attacks/>). A borrower rather than a creator, this group added the freshly available LockBit to its arsenal in September 2022.\n\nMass attacks on NAS (network attached storage) devices continue. QNAP issued warnings about Checkmate and Deadbolt infections in Q3 2022. The [former](<https://www.qnap.com/en/security-advisory/QSA-22-21>) threatened files accessible from the internet over SMB protocol and protected by a weak account password. The latter [attacked](<https://www.qnap.com/en/security-news/2022/take-immediate-action-to-update-photo-station-to-the-latest-available-version>) devices that had a vulnerable version of the Photo Station software installed. Threats that target NAS remain prominent, so we recommend keeping these devices inaccessible from the internet to ensure maximum safety of your data.\n\nThe United States Department of Justice [announced](<https://www.justice.gov/opa/pr/justice-department-seizes-and-forfeits-approximately-500000-north-korean-ransomware-actors>) that it had teamed up with the FBI to seize about $500,000 paid as ransom after a Maui ransomware attack. The Trojan was likely [used](<https://securelist.com/andariel-deploys-dtrack-and-maui-ransomware/107063/>) by the North Korean operators Andariel. The DOJ said victims had started getting their money back.\n\nThe creators of the little-known AstraLocker and Yashma ransomware [published](<https://www.bleepingcomputer.com/news/security/astralocker-ransomware-shuts-down-and-releases-decryptors/>) decryptors and stopped spreading both of them. The hackers provided no explanation for the move, but it appeared to be related to an increase in media coverage.\n\n### Number of new modifications\n\nIn Q3 2022, we detected 17 new ransomware families and 14,626 new modifications of this malware type. More than 11,000 of those were assigned the verdict of Trojan-Ransom.Win32.Crypmod, which hit the sixth place in our rankings of the most widespread ransomware Trojans.\n\n_Number of new ransomware modifications, Q3 2021 \u2014 Q3 2022 ([download](<https://media.kasperskycontenthub.com/wp-content/uploads/sites/43/2022/11/15154421/03-en-ru-es-malware-report-q3-2022-pc-stat.png>))_\n\n### Number of users attacked by ransomware Trojans\n\nIn Q3 2022, Kaspersky products and technologies protected 72,941 users from ransomware attacks.\n\n_Number of unique users attacked by ransomware Trojans, Q3 2022 ([download](<https://media.kasperskycontenthub.com/wp-content/uploads/sites/43/2022/11/15154500/04-en-malware-report-q3-2022-pc-stat.png>))_\n\n**TOP 10 most common families of ransomware Trojans**\n\n| **Name** | **Verdicts** | **%*** \n---|---|---|--- \n1 | (generic verdict) | Trojan-Ransom.Win32.Encoder | 14.76 \n2 | WannaCry | Trojan-Ransom.Win32.Wanna | 12.12 \n3 | (generic verdict) | Trojan-Ransom.Win32.Gen | 11.68 \n4 | Stop/Djvu | Trojan-Ransom.Win32.Stop | 6.59 \n5 | (generic verdict) | Trojan-Ransom.Win32.Phny | 6.53 \n6 | (generic verdict) | Trojan-Ransom.Win32.Crypmod \n7 | Magniber | Trojan-Ransom.Win64.Magni | 4.93 \n8 | PolyRansom/VirLock | Trojan-Ransom.Win32.PolyRansom / Virus.Win32.PolyRansom | 4.84 \n9 | (generic verdict) | Trojan-Ransom.Win32.Instructions | 4.35 \n10 | Hive | Trojan-Ransom.Win32.Hive | 3.87 \n \n_* Unique users who encountered this malware family as a percentage of all users attacked by financial malware._\n\n### Geography of attacked users\n\n**TOP 10 countries and territories attacked by ransomware Trojans**\n\n| **Country or territory*** | **%**** \n---|---|--- \n1 | Bangladesh | 1.66 \n2 | Yemen | 1.30 \n3 | South Korea | 0.98 \n4 | Taiwan | 0.77 \n5 | Mozambique | 0.64 \n6 | China | 0.52 \n7 | Colombia | 0.43 \n8 | Nigeria | 0.40 \n9 | Pakistan | 0.39 \n10 | Venezuela | 0.32 \n \n_* Excluded are countries with relatively few Kaspersky users (under 50,000). \n** Unique users whose computers were attacked by ransomware Trojans as a percentage of all unique users of Kaspersky products in the country._\n\n### TOP 10 most common families of ransomware Trojans\n\n| **Name** | **Verdicts*** | **Percentage of attacked users**** \n---|---|---|--- \n1 | (generic verdict) | Trojan-Ransom.Win32.Encoder | 14.76 \n2 | WannaCry | Trojan-Ransom.Win32.Wanna | 12.12 \n3 | (generic verdict) | Trojan-Ransom.Win32.Gen | 11.68 \n4 | Stop/Djvu | Trojan-Ransom.Win32.Stop | 6.59 \n5 | (generic verdict) | Trojan-Ransom.Win32.Phny | 6.53 \n6 | (generic verdict) | Trojan-Ransom.Win32.Crypmod | 5.46 \n7 | Magniber | Trojan-Ransom.Win64.Magni | 4.93 \n8 | PolyRansom/VirLock | Trojan-Ransom.Win32.PolyRansom / Virus.Win32.PolyRansom | 4.84 \n9 | (generic verdict) | Trojan-Ransom.Win32.Instructions | 4.35 \n10 | Hive | Trojan-Ransom.Win32.Hive | 3.87 \n \n_* Statistics are based on detection verdicts of Kaspersky products. The information was provided by Kaspersky product users who consented to providing statistical data. \n** Unique Kaspersky users attacked by specific ransomware Trojan families as a percentage of all unique users attacked by ransomware Trojans._\n\n## Miners\n\n### Number of new miner modifications\n\nIn Q3 2022, Kaspersky systems detected 153,773 new miner mods. More than 140,000 of these were found in July and August; combined with June's figure of more than 35,000, this suggests that miner creators kept themselves abnormally busy this past summer.\n\n_Number of new miner modifications, Q3 2022 ([download](<https://media.kasperskycontenthub.com/wp-content/uploads/sites/43/2022/11/15154533/06-en-malware-report-q3-2022-pc-stat.png>))_\n\n### Number of users attacked by miners\n\nIn Q3, we detected attacks that used miners on the computers of 432,363 unique users of Kaspersky products worldwide. A quieter period from late spring through the early fall was followed by another increase in activity.\n\n_Number of unique users attacked by miners, Q3 2022 ([download](<https://media.kasperskycontenthub.com/wp-content/uploads/sites/43/2022/11/15154601/07-en-malware-report-q3-2022-pc-stat.png>))_\n\n### Geography of miner attacks\n\n**TOP 10 countries and territories attacked by miners**\n\n| **Country or territory*** | **%**** \n---|---|--- \n1 | Ethiopia | 2.38 \n2 | Kazakhstan | 2.13 \n3 | Uzbekistan | 2.01 \n4 | Rwanda | 1.93 \n5 | Tajikistan | 1.83 \n6 | Venezuela | 1.78 \n7 | Kyrgyzstan | 1.73 \n8 | Mozambique | 1.57 \n9 | Tanzania | 1.56 \n10 | Ukraine | 1.54 \n \n_* Excluded are countries and territories with relatively few users of Kaspersky products (under 50,000). \n** Unique users attacked by miners as a percentage of all unique users of Kaspersky products in the country._\n\n## Vulnerable applications used by criminals during cyberattacks\n\n### Quarterly highlights\n\nQ3 2022 was remembered for a series of vulnerabilities discovered in various software products. Let's begin with Microsoft Windows and some of its components. Researchers found new vulnerabilities that affected the CLFS driver: [CVE-2022-30220](<https://nvd.nist.gov/vuln/detail/CVE-2022-30220>), along with [CVE-2022-35803](<https://nvd.nist.gov/vuln/detail/CVE-2022-35803>) and [CVE-2022-37969](<https://nvd.nist.gov/vuln/detail/CVE-2022-37969>), both encountered in the wild. By manipulating Common Log File System data in a specific way, an attacker can make the kernel write their own data to arbitrary memory addresses, allowing cybercriminals to hijack kernel control and elevate their privileges in the system. Several vulnerabilities were discovered in the Print Spooler service: [CVE-2022-22022](<https://nvd.nist.gov/vuln/detail/CVE-2022-22022>), [CVE-2022-30206](<https://nvd.nist.gov/vuln/detail/CVE-2022-30206>), and [CVE-2022-30226](<https://nvd.nist.gov/vuln/detail/CVE-2022-30226>). These allow elevating the system privileges through a series of manipulations while installing a printer. Serious vulnerabilities were also discovered in the Client/Server Runtime Subsystem (CSRSS), an essential Windows component. Some of these can be exploited for privilege escalation ([CVE-2022-22047](<https://nvd.nist.gov/vuln/detail/CVE-2022-22047>), [CVE-2022-22049](<https://nvd.nist.gov/vuln/detail/CVE-2022-22049>), and [CVE-2022-22026](<https://nvd.nist.gov/vuln/detail/CVE-2022-22026>)), while [CVE-2022-22038](<https://nvd.nist.gov/vuln/detail/CVE-2022-22038>) affects remote procedure call (RPC) protocol, allowing an attacker to execute arbitrary code remotely. A series of critical vulnerabilities were discovered in the graphics subsystem, including [CVE-2022-22034](<https://nvd.nist.gov/vuln/detail/CVE-2022-22034>) and [CVE-2022-35750](<https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2022-35750>), which can also be exploited for privilege escalation. Note that most of the above vulnerabilities require that exploits entrench in the system before an attacker can run their malware. The Microsoft Support Diagnostic Tool (MSDT) was found to contain a further two vulnerabilities, [CVE-2022-34713](<https://nvd.nist.gov/vuln/detail/CVE-2022-34713>) and [CVE-2022-35743](<https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2022-35743>), which can be exploited to take advantage of security flaws in the link handler to remotely run commands in the system.\n\nMost of the network threats detected in Q3 2022 were again attacks associated with [brute-forcing](<https://encyclopedia.kaspersky.com/glossary/brute-force/?utm_source=securelist&utm_medium=blog&utm_campaign=termin-explanation>) passwords for Microsoft SQL Server, RDP, and other services. Network attacks on vulnerable versions of Windows via EternalBlue, EternalRomance, and other exploits were still common. The attempts at exploiting network services and other software via vulnerabilities in the Log4j library ([CVE-2021-44228](<https://nvd.nist.gov/vuln/detail/CVE-2021-44228>), [CVE-2021-44832](<https://nvd.nist.gov/vuln/detail/CVE-2021-44832>), [CVE-2021-45046](<https://nvd.nist.gov/vuln/detail/CVE-2021-45046>), and [CVE-2021-45105](<https://nvd.nist.gov/vuln/detail/cve-2021-45105>)) also continued. Several vulnerabilities were found in the Microsoft Windows Network File System (NFS) driver. These are [CVE-2022-22028](<https://nvd.nist.gov/vuln/detail/CVE-2022-22028>), which can lead to leakage of confidential information, as well as [CVE-2022-22029](<https://nvd.nist.gov/vuln/detail/CVE-2022-22029>), [CVE-2022-22039](<https://nvd.nist.gov/vuln/detail/CVE-2022-22039>) and [CVE-2022-34715](<https://nvd.nist.gov/vuln/detail/CVE-2022-34715>), which a cybercriminal can use to remotely execute arbitrary code in the system \u2014 in kernel context \u2014 by using a specially crafted network packet. The TCP/IP stack was found to contain the critical vulnerability [CVE-2022-34718](<https://nvd.nist.gov/vuln/detail/CVE-2022-34718>), which allows in theory to remotely exploit a target system by taking advantage of errors in the IPv6 protocol handler. Finally, it is worth mentioning the [CVE-2022-34724](<https://nvd.nist.gov/vuln/detail/CVE-2022-34724>) vulnerability, which affects Windows DNS Server and can lead to denial of service if exploited.\n\nTwo vulnerabilities in Microsoft Exchange Server, [CVE-2022-41040](<https://nvd.nist.gov/vuln/detail/CVE-2022-41040>) and [CVE-2022-41082](<https://nvd.nist.gov/vuln/detail/CVE-2022-41082>), received considerable media coverage. They were collectively dubbed "ProxyNotShell" in reference to the ProxyShell vulnerabilities with similar exploitation technique (they were closed earlier). Researchers discovered the ProxyNotShell exploits while investigating an APT attack: an authenticated user can use the loopholes to elevate their privileges and run arbitrary code on an MS Exchange server. As a result, the attacker can steal confidential data, encrypt critical files on the server to to extort money from the victim, etc.\n\n### Vulnerability statistics\n\nIn Q3 2022, malicious Microsoft Office documents again accounted for the greatest number of detections \u2014 80% of the exploits we discovered, although the number decreased slightly compared to Q2. Most of these detections were triggered by exploits that targeted the following vulnerabilities:\n\n * [CVE-2018-0802](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2018-0802>) and [CVE-2017-11882](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2017-11882>), in the Equation Editor component, which allow corrupting the application memory when processing formulas, and subsequently running arbitrary code in the system;\n * [CVE-2017-0199](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2017-0199>), which allows downloading and running malicious script files;\n * [CVE-2022-30190](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-30190>), also known as "Follina", which exploits a flaw in the Microsoft Windows Support Diagnostic Tool (MSDT) for running arbitrary programs in a vulnerable system even in Protected Mode or when macros are disabled;\n * [CVE-2021-40444](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2021-40444>), which allows an attacker to deploy malicious code using a special ActiveX template due to inadequate input validation.\n\n_Distribution of exploits used by cybercriminals, by type of attacked application, Q3 2022 ([download](<https://media.kasperskycontenthub.com/wp-content/uploads/sites/43/2022/11/15154631/09-en-malware-report-q3-2022-pc-stat.png>))_\n\nThese were followed by exploits that target browsers. Their share amounted to 6%, or 1% higher than in Q2. We will list the most serious vulnerabilities, all of them targeting Google Chrome:\n\n * [CVE-2022-2294](<https://nvd.nist.gov/vuln/detail/CVE-2022-2294>), in the WebRTC component, which leads to buffer overflow;\n * [CVE-2022-2624](<https://nvd.nist.gov/vuln/detail/CVE-2022-2624>), which exploits a memory overflow error in the PDF viewing component;\n * [CVE-2022-2295](<https://nvd.nist.gov/vuln/detail/CVE-2022-2295>), a Type Confusion error that allows an attacker to corrupt the browser process memory remotely and run arbitrary code in a sandbox;\n * [CVE-2022-3075](<https://nvd.nist.gov/vuln/detail/CVE-2022-3075>), an error linked to inadequate input validation in the Mojo interprocess communication component in Google Chromium-based browsers that allows escaping the sandbox and running arbitrary commands in the system.\n\nSince many modern browsers are based on Google Chromium, attackers can often take advantage of the shared vulnerabilities to attack the other browsers as long as they run on one engine.\n\nA series of vulnerabilities were identified in Microsoft Edge. Worth noting is [CVE-2022-33649](<https://nvd.nist.gov/vuln/detail/CVE-2022-33649>), which allows running an application in the system by circumventing the browser protections; [CVE-2022-33636](<https://nvd.nist.gov/vuln/detail/CVE-2022-33636>) and [CVE-2022-35796](<https://nvd.nist.gov/vuln/detail/CVE-2022-35796>), Race Condition vulnerabilities that ultimately allow a sandbox escape; and [CVE-2022-38012](<https://nvd.nist.gov/vuln/detail/CVE-2022-38012>), which exploits an application memory corruption error, with similar results.\n\nThe Mozilla Firefox browser was found to contain vulnerabilities associated with memory corruption, which allow running arbitrary code in the system: [CVE-2022-38476](<https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2022-38476>), a Race Condition vulnerability that leads to a subsequent Use-After-Free scenario, and the similar vulnerabilities [CVE-2022-38477](<https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2022-38477>) and [CVE-2022-38478](<https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2022-38478>), which exploit memory corruption. As you can see from our reports, browsers are an attractive target for cybercriminals, as these are widely used and allow attackers to infiltrate the system remotely and virtually unbeknownst to the user. That said, browser vulnerabilities are not simple to exploit, as attackers often have to use a chain of vulnerabilities to work around the protections of modern browsers.\n\nThe remaining positions in our rankings were distributed among Android (5%) and Java (4%) exploits. The fifth-highest number of exploits (3%) targeted Adobe Flash, a technology that is obsolete but remains in use. Rounding out the rankings with 2% were exploits spread through PDF documents.\n\n## Attacks on macOS\n\nThe third quarter of 2022 brought with it a significant number of interesting macOS malware discoveries. In particular, researchers found [Operation In(ter)ception](<https://www.sentinelone.com/blog/lazarus-operation-interception-targets-macos-users-dreaming-of-jobs-in-crypto/>), a campaign operated by North Korean Lazarus group, which targets macOS users looking for cryptocurrency jobs. The malware was disguised as documents containing summaries of positions at Coinbase and Crypto.com.\n\n[CloudMensis](<https://www.welivesecurity.com/2022/07/19/i-see-what-you-did-there-look-cloudmensis-macos-spyware/>), a spy program written in Objective-C, used cloud storage services as C&C servers and [shared several characteristics](<https://twitter.com/ESETresearch/status/1575103839115804672>) with the RokRAT Windows malware operated by ScarCruft.\n\nThe creators of XCSSET [adapted](<https://www.sentinelone.com/blog/xcsset-malware-update-macos-threat-actors-prepare-for-life-without-python/>) their toolset to macOS Monterey and migrated from Python 2 to Python 3.\n\nIn Q3, cybercrooks also began to make use of open-source tools in their attacks. July saw the discovery of two campaigns that used a fake [VPN application](<https://www.sentinelone.com/blog/from-the-front-lines-new-macos-covid-malware-masquerades-as-apple-wears-face-of-apt/>) and fake [Salesforce updates](<https://twitter.com/ESETresearch/status/1547943014860894210>), both built on the Sliver framework.\n\nIn addition to this, researchers announced a new multi-platform [find](<https://blog.sekoia.io/luckymouse-uses-a-backdoored-electron-app-to-target-macos/>): the LuckyMouse group (APT27 / Iron Tiger / Emissary Panda) attacked Windows, Linux, and macOS users with a malicious mod of the Chinese MiMi instant messaging application.\n\n### TOP 20 threats for macOS\n\n| **Verdict** | **%*** \n---|---|--- \n1 | AdWare.OSX.Amc.e | 14.77 \n2 | AdWare.OSX.Pirrit.ac | 10.45 \n3 | AdWare.OSX.Agent.ai | 9.40 \n4 | Monitor.OSX.HistGrabber.b | 7.15 \n5 | AdWare.OSX.Pirrit.j | 7.10 \n6 | AdWare.OSX.Bnodlero.at | 6.09 \n7 | AdWare.OSX.Bnodlero.ax | 5.95 \n8 | Trojan-Downloader.OSX.Shlayer.a | 5.71 \n9 | AdWare.OSX.Pirrit.ae | 5.27 \n10 | Trojan-Downloader.OSX.Agent.h | 3.87 \n11 | AdWare.OSX.Bnodlero.bg | 3.46 \n12 | AdWare.OSX.Pirrit.o | 3.32 \n13 | AdWare.OSX.Agent.u | 3.13 \n14 | AdWare.OSX.Agent.gen | 2.90 \n15 | AdWare.OSX.Pirrit.aa | 2.85 \n16 | Backdoor.OSX.Twenbc.e | 2.85 \n17 | AdWare.OSX.Ketin.h | 2.82 \n18 | AdWare.OSX.Pirrit.gen | 2.69 \n19 | Trojan-Downloader.OSX.Lador.a | 2.52 \n20 | Downloader.OSX.InstallCore.ak | 2.28 \n \n_* Unique users who encountered this malware as a percentage of all users of Kaspersky security solutions for macOS who were attacked._\n\nAs usual, our TOP 20 ranking for biggest threats encountered by users of Kaspersky security solutions for macOS were dominated by adware. AdWare.OSX.Amc.e, touted as "Advanced Mac Cleaner," had taken the top place for a second quarter in a row. This application displays fake system issue messages, offering to buy the full version to fix those. Second and third places went to members of the AdWare.OSX.Pirrit and AdWare.OSX.Agent families.\n\n### Geography of threats for macOS\n\n**TOP 10 countries and territories by share of attacked users**\n\n| **Country or territory*** | **%**** \n---|---|--- \n1 | France | 1.71 \n2 | Canada | 1.70 \n3 | Russia | 1.57 \n4 | India | 1.53 \n5 | United States | 1.52 \n6 | Spain | 1.48 \n7 | Australia | 1.36 \n8 | Italy | 1.35 \n9 | Mexico | 1.27 \n10 | United Kingdom | 1.24 \n \n_* Excluded from the rankings are countries with relatively few users of Kaspersky security solutions for macOS (under 10,000). \n** Unique users attacked as a percentage of all users of Kaspersky security solutions for macOS in the country._\n\nFrance, with 1.71%, was again the most attacked country by number of users. Canada, with 1.70%, and Russia, with 1.57%, followed close behind. The most frequently encountered family in France and Canada was AdWare.OSX.Amc.e, and in Russia, it was AdWare.OSX.Pirrit.ac.\n\n## IoT attacks\n\n### IoT threat statistics\n\nIn Q3 2022, three-fourths of the devices that attacked Kaspersky honeypots used the Telnet protocol.\n\nTelnet | 75.92% \n---|--- \nSSH | 24.08% \n \n_Distribution of attacked services by number of unique IP addresses of attacking devices, Q3 2022_\n\nA majority of the attacks on Kaspersky honeypots in terms of sessions were controlled via Telnet as well.\n\nTelnet | 97.53% \n---|--- \nSSH | 2.47% \n \n_Distribution of cybercriminal working sessions with Kaspersky traps, Q3 2022_\n\n**TOP 10 threats delivered to IoT devices via Telnet**\n\n| **Verdict** | **%*** \n---|---|--- \n1 | Backdoor.Linux.Mirai.b | 28.67 \n2 | Trojan-Downloader.Linux.NyaDrop.b | 18.63 \n3 | Backdoor.Linux.Mirai.ba | 11.63 \n4 | Backdoor.Linux.Mirai.cw | 10.94 \n5 | Backdoor.Linux.Gafgyt.a | 3.69 \n6 | Backdoor.Linux.Mirai.ew | 3.49 \n7 | Trojan-Downloader.Shell.Agent.p | 2.56 \n8 | Backdoor.Linux.Gafgyt.bj | 1.63 \n9 | Backdoor.Linux.Mirai.et | 1.17 \n10 | Backdoor.Linux.Mirai.ek | 1.08 \n \n_* Share of each threat delivered to infected devices as a result of a successful Telnet attack out of the total number of delivered threats._\n\nDetailed IoT-threat statistics are published in the DDoS report for Q3 2022.\n\n## Attacks via web resources\n\n_The statistics in this section are based on Web Anti-Virus, which protects users when malicious objects are downloaded from malicious/infected web pages. Cybercriminals create these sites on purpose; they can infect hacked legitimate resources as well as web resources with user-created content, such as forums._\n\n### Countries and territories that serve as sources of web-based attacks: TOP 10\n\n_The following statistics show the distribution by country or territory of the sources of internet attacks blocked by Kaspersky products on user computers (web pages with redirects to exploits, sites hosting malicious programs, botnet C&C centers, etc.). Any unique host could be the source of one or more web-based attacks._\n\n_To determine the geographic source of web attacks, the GeoIP technique was used to match the domain name to the real IP address at which the domain is hosted._\n\nIn Q3 2022, Kaspersky solutions blocked 956,074,958 attacks launched from online resources across the globe. A total of 251,288,987 unique URLs were recognized as malicious by Web Anti-Virus components.\n\n_Distribution of web-attack sources country and territory, Q3 2022 ([download](<https://media.kasperskycontenthub.com/wp-content/uploads/sites/43/2022/11/15154703/11-en-malware-report-q3-2022-pc-stat.png>))_\n\n### Countries and territories where users faced the greatest risk of online infection\n\nTo assess the risk of online infection faced by users in different countries and territories, for each country or territory we calculated the percentage of Kaspersky users on whose computers Web Anti-Virus was triggered during the quarter. The resulting data provides an indication of the aggressiveness of the environment in which computers operate in different countries and territories.\n\nNote that these rankings only include attacks by malicious objects that fall under the **_Malware_**_ class_; they do not include Web Anti-Virus detections of potentially dangerous or unwanted programs, such as RiskTool or adware.\n\n| **Country or territory*** | **%**** \n---|---|--- \n1 | Taiwan | 19.65 \n2 | Belarus | 17.01 \n3 | Serbia | 15.05 \n4 | Russia | 14.12 \n5 | Algeria | 14.01 \n6 | Turkey | 13.82 \n7 | Tunisia | 13.31 \n8 | Bangladesh | 13.30 \n9 | Moldova | 13.22 \n10 | Palestine | 12.61 \n11 | Yemen | 12.58 \n12 | Ukraine | 12.25 \n13 | Libya | 12.23 \n14 | Sri Lanka | 11.97 \n15 | Kyrgyzstan | 11.69 \n16 | Estonia | 11.65 \n17 | Hong Kong | 11.52 \n18 | Nepal | 11.52 \n19 | Syria | 11.39 \n20 | Lithuania | 11.33 \n \n_* Excluded are countries and territories with relatively few Kaspersky users (under 10,000)._ \n_** Unique users targeted by **Malware**-class attacks as a percentage of all unique users of Kaspersky products in the country._\n\nOn average during the quarter, 9.08% of internet users' computers worldwide were subjected to at least one **Malware**-class web attack.\n\n## Local threats\n\n_In this section, we analyze statistical data obtained from the OAS and ODS modules of Kaspersky products. It takes into account malicious programs that were found directly on users' computers or removable media connected to them (flash drives, camera memory cards, phones, external hard drives), or which initially made their way onto the computer in non-open form (for example, programs in complex installers, encrypted files, etc.)._\n\nIn Q3 2022, our File Anti-Virus detected **49,275,253** malicious and potentially unwanted objects.\n\n### Countries and territories where users faced the highest risk of local infection\n\nFor each country, we calculated the percentage of Kaspersky product users on whose computers File Anti-Virus was triggered during the reporting period. These statistics reflect the level of personal computer infection in different countries.\n\nThese rankings only include attacks by malicious programs that fall under the **Malware** class; they do not include File Anti-Virus triggerings in response to potentially dangerous or unwanted programs, such as RiskTool or adware.\n\n| **Country or territory*** | **%**** \n---|---|--- \n1 | Turkmenistan | 46.48 \n2 | Yemen | 45.12 \n3 | Afghanistan | 44.18 \n4 | Cuba | 40.48 \n5 | Tajikistan | 39.17 \n6 | Bangladesh | 37.06 \n7 | Uzbekistan | 37.00 \n8 | Ethiopia | 36.96 \n9 | South Sudan | 36.89 \n10 | Myanmar | 36.64 \n11 | Syria | 34.82 \n12 | Benin | 34.56 \n13 | Burundi | 33.91 \n14 | Tanzania | 33.05 \n15 | Rwanda | 33.03 \n16 | Chad | 33.01 \n17 | Venezuela | 32.79 \n18 | Cameroon | 32.30 \n19 | Sudan | 31.93 \n20 | Malawi | 31.88 \n \n_* Excluded are countries with relatively few Kaspersky users (under 10,000)._ \n_** Unique users on whose computers **Malware**-class local threats were blocked, as a percentage of all unique users of Kaspersky products in the country._\n\nOn average worldwide, Malware-class local threats were registered on 14.74% of users' computers at least once during Q3. Russia scored 16.60% in this ranking.", "cvss3": {"exploitabilityScore": 3.9, "cvssV3": {"baseSeverity": "CRITICAL", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "CHANGED", "attackVector": "NETWORK", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "NONE", "baseScore": 10.0, "vectorString": "CVSS:3.1/AV:N/AC:L/PR:N/UI:N/S:C/C:H/I:H/A:H", "version": "3.1", "userInteraction": "NONE"}, "impactScore": 6.0}, "published": "2022-11-18T08:10:34", "type": "securelist", "title": "IT threat evolution in Q3 2022. Non-mobile statistics", "bulletinFamily": "blog", "cvss2": {"severity": "HIGH", "exploitabilityScore": 8.6, "obtainAllPrivilege": false, "userInteractionRequired": true, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "MEDIUM", "confidentialityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "baseScore": 9.3, "vectorString": "AV:N/AC:M/Au:N/C:C/I:C/A:C", "version": "2.0", "accessVector": "NETWORK", "authentication": "NONE"}, "impactScore": 10.0, "obtainUserPrivilege": false}, "cvelist": ["CVE-2017-0199", "CVE-2017-11882", "CVE-2018-0802", "CVE-2021-40444", "CVE-2021-44228", "CVE-2021-44832", "CVE-2021-45046", "CVE-2021-45105", "CVE-2022-22022", "CVE-2022-22026", "CVE-2022-22028", "CVE-2022-22029", "CVE-2022-22034", "CVE-2022-22038", "CVE-2022-22039", "CVE-2022-22047", "CVE-2022-22049", "CVE-2022-2294", "CVE-2022-2295", "CVE-2022-2624", "CVE-2022-30190", "CVE-2022-30206", "CVE-2022-30220", "CVE-2022-30226", "CVE-2022-3075", "CVE-2022-33636", "CVE-2022-33649", "CVE-2022-34713", "CVE-2022-34715", "CVE-2022-34718", "CVE-2022-34724", "CVE-2022-35743", "CVE-2022-35750", "CVE-2022-35796", "CVE-2022-35803", "CVE-2022-37969", "CVE-2022-38012", "CVE-2022-38476", "CVE-2022-38477", "CVE-2022-38478", "CVE-2022-41040", "CVE-2022-41082"], "modified": "2022-11-18T08:10:34", "id": "SECURELIST:C1F2E1B6711C8D84F3E78D203B3CE837", "href": "https://securelist.com/it-threat-evolution-in-q3-2022-non-mobile-statistics/107963/", "cvss": {"score": 9.3, "vector": "AV:N/AC:M/Au:N/C:C/I:C/A:C"}}], "mmpc": [{"lastseen": "2022-07-27T17:42:56", "description": "The Microsoft Threat Intelligence Center (MSTIC) and the Microsoft Security Response Center (MSRC) found a private-sector offensive actor (PSOA) using multiple Windows and Adobe 0-day exploits, including one for the recently patched [CVE-2022-22047](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>), in limited and targeted attacks against European and Central American customers. The PSOA, which MSTIC tracks as KNOTWEED, developed malware called Subzero which was used in these attacks.\n\nThis blog details Microsoft\u2019s analysis of the observed KNOTWEED activity and related malware used in targeted attacks against our customers. This information is shared with our customers and industry partners to improve detection of these attacks. Customers are encouraged to expedite deployment of the July 2022 Microsoft security updates to protect their systems against exploits using CVE-2022-22047. Microsoft Defender Antivirus and Microsoft Defender for Endpoint have also implemented detections against KNOTWEED\u2019s malware and tools.\n\nPSOAs, which [Microsoft also refers to as cyber mercenaries](<https://blogs.microsoft.com/on-the-issues/2022/07/27/private-sector-cyberweapons-psoas-knotweed/>), sell hacking tools or services through a variety of business models. Two common models for this type of actor are access-as-a-service and hack-for-hire. In access-as-a-service, the actor sells full end-to-end hacking tools that can be used by the purchaser in operations, with the PSOA not involved in any targeting or running of the operation. In hack-for-hire, detailed information is provided by the purchaser to the actor, who then runs the targeted operations. Based on observed attacks and news reports, MSTIC believes that KNOTWEED may blend these models: they sell the Subzero malware to third parties but have also been observed using KNOTWEED-associated infrastructure in some attacks, suggesting more direct involvement.\n\n## Who is KNOTWEED?\n\nKNOTWEED is an Austria-based PSOA named DSIRF. The [DSIRF website](<https://web.archive.org/web/20220713203741/https:/dsirf.eu/about/>) [web archive link] says they provide services_ \u201cto multinational corporations in the technology, retail, energy and financial sectors_\u201d and that they have \u201c_a set of highly sophisticated techniques in gathering and analyzing information._\u201d They publicly offer several services including \u201c_an enhanced due diligence and risk analysis process through providing a deep understanding of individuals and entities\u201d _and _\u201chighly sophisticated Red Teams to challenge your company's most critical assets.\u201d_ \n \nHowever, [multiple](<https://www.intelligenceonline.com/surveillance--interception/2022/04/06/after-finfisher-s-demise-berlin-explores-cyber-tool-options,109766000-art>) [news](<https://www.focus.de/politik/vorab-aus-dem-focus-volle-kontrolle-ueber-zielcomputer-das-raetsel-um-die-spionage-app-fuehrt-ueber-wirecard-zu-putin_id_24442733.html>) [reports](<https://netzpolitik.org/2021/dsirf-wir-enthuellen-den-staatstrojaner-subzero-aus-oesterreich>) have linked DSIRF to the development and attempted sale of a malware toolset called Subzero. MSTIC found the Subzero malware being deployed through a variety of methods, including 0-day exploits in Windows and Adobe Reader, in 2021 and 2022. As part of our investigation into the utility of this malware, Microsoft\u2019s communications with a Subzero victim revealed that they had not commissioned any red teaming or penetration testing, and confirmed that it was unauthorized, malicious activity. Observed victims to date include law firms, banks, and strategic consultancies in countries such as Austria, the United Kingdom, and Panama. It\u2019s important to note that the identification of targets in a country doesn\u2019t necessarily mean that a DSIRF customer resides in the same country, as international targeting is common.\n\nMSTIC has found multiple links between DSIRF and the exploits and malware used in these attacks. These include command-and-control infrastructure used by the malware directly linking to DSIRF, a DSIRF-associated GitHub account being used in one attack, a code signing certificate issued to DSIRF being used to sign an exploit, and other open-source news reports attributing Subzero to DSIRF.\n\n## Observed actor activity\n\n### KNOTWEED initial access\n\nMSTIC found KNOTWEED\u2019s Subzero malware deployed in a variety of ways. In the succeeding sections, the different stages of Subzero are referred to by their Microsoft Defender detection names: _Jumplump _for the persistent loader and _Corelump _for the main malware.\n\n#### KNOTWEED exploits in 2022\n\nIn May 2022, MSTIC found an Adobe Reader remote code execution (RCE) and a 0-day Windows privilege escalation exploit chain being used in an attack that led to the deployment of Subzero. The exploits were packaged into a PDF document that was sent to the victim via email. Microsoft was not able to acquire the PDF or Adobe Reader RCE portion of the exploit chain, but the victim\u2019s Adobe Reader version was released in January 2022, meaning that the exploit used was either a 1-day exploit developed between January and May, or a 0-day exploit. Based on KNOTWEED\u2019s extensive use of other 0-days, we assess with medium confidence that the Adobe Reader RCE is a 0-day exploit. The Windows exploit was analyzed by MSRC, found to be a 0-day exploit, and then patched in July 2022 as CVE-2022-22047. Interestingly, there were indications in the Windows exploit code that it was also designed to be used from Chromium-based browsers, although we\u2019ve seen no evidence of browser-based attacks.\n\nThe CVE-2022-22047 vulnerability is related to an issue with [activation context](<https://docs.microsoft.com/windows/win32/sbscs/activation-contexts>) caching in the Client Server Run-Time Subsystem (CSRSS) on Windows. At a high level, the vulnerability could enable an attacker to provide a crafted assembly manifest, which would create a malicious activation context in the activation context cache, for an arbitrary process. This cached context is used the next time the process spawned.\n\nCVE-2022-22047 was used in KNOTWEED related attacks for privilege escalation. The vulnerability also provided the ability to escape sandboxes (with some caveats, as discussed below) and achieve system-level code execution. The exploit chain starts with writing a malicious DLL to disk from the sandboxed Adobe Reader renderer process. The CVE-2022-22047 exploit was then used to target a system process by providing an application manifest with an undocumented attribute that specified the path of the malicious DLL. Then, when the system process next spawned, the attribute in the malicious activation context was used, the malicious DLL was loaded from the given path, and system-level code execution was achieved.\n\nIt's important to note that exploiting CVE-2022-22047 requires attackers to be able to write a DLL to disk. However, in the threat model of sandboxes, such as that of Adobe Reader and Chromium, the ability to write out files where the attacker _cannot_ control the path isn\u2019t considered dangerous. Hence, these sandboxes aren\u2019t a barrier to the exploitation of CVE-2022-22047.\n\n#### KNOTWEED exploits in 2021\n\nIn 2021, MSRC received a report of two Windows privilege escalation exploits ([CVE-2021-31199](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2021-31199>) and [CVE-2021-31201](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2021-31201>)) being used in conjunction with an Adobe Reader exploit ([CVE-2021-28550](<https://helpx.adobe.com/security/products/acrobat/apsb21-29.html>)), all of which were patched in June 2021. MSTIC was able to confirm the use of these in an exploit chain used to deploy Subzero.\n\nWe were later able to link the deployment of Subzero to a fourth exploit, one related to a Windows privilege escalation vulnerability in the Windows Update Medic Service ([CVE-2021-36948](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2021-36948>)), which allowed an attacker to force the service to load an arbitrary signed DLL. The malicious DLL used in the attacks was signed by \u2018DSIRF GmbH\u2019.\n\n![A screenshot of the digital signature details tab from the file properties page. The tab states that the digital signature for the file is OK. The name indicated under the signer information portion is DSIRF GmbH.](https://www.microsoft.com/security/blog/uploads/securityprod/2022/07/Fig1-Valid-digital-signature-from-DSIRF.png)Figure 1. Valid digital signature from DSIRF on Medic Service exploit DLL\n\n#### Malicious Excel documents\n\nIn addition to the exploit chains, another method of access that led to the deployment of Subzero was an Excel file masquerading as a real estate document. The file contained a malicious macro that was obfuscated with large chunks of benign comments from the Kama Sutra, string obfuscation, and use of Excel 4.0 macros.\n\n![](https://www.microsoft.com/security/blog/uploads/securityprod/2022/07/Fig2a-Examples-of-KNOTWEED-macro-obfuscation.png) ![Two screenshots of macro code snippet, presenting different examples of how the macro is obfuscated to evade detection. In the first code snippet, text from the Kama Sutra is inserted among the macro code. The second code snippet presents the code of a function where the attacker uses Excel 4 macro for obfuscation.](https://www.microsoft.com/security/blog/uploads/securityprod/2022/07/Fig2b-Examples-of-KNOTWEED-macro-obfuscation.png)Figure 2: Two examples of KNOTWEED Excel macro obfuscation\n\nAfter de-obfuscating strings at runtime, the VBA macro uses the _ExecuteExcel4Macro_ function to call native Win32 functions to load shellcode into memory allocated using _VirtualAlloc_. Each opcode is individually copied into a newly allocated buffer using _memset_ before _CreateThread_ is called to execute the shellcode.\n\n![A screenshot of a code snippet where the malware copies opcode to a newly allocated buffer.](https://www.microsoft.com/security/blog/uploads/securityprod/2022/07/Fig3-copying-opcodes.png)Figure 3: Copying opcodes ![A screenshot of a code snippet where the malware calls the CreateThread function to execute the shellcode.](https://www.microsoft.com/security/blog/uploads/securityprod/2022/07/Fig4-Calling-CreateThread.png)Figure 4: Calling CreateThread on shellcode\n\nThe following section describes the shellcode executed by the macro.\n\n### KNOTWEED malware and tactics, techniques, and procedures (TTPs)\n\n#### Corelump downloader and loader shellcode\n\nThe downloader shellcode is the initial shellcode executed from either the exploit chains or malicious Excel documents. The shellcode's purpose is to retrieve the _Corelump_ second-stage malware from the actor\u2019s command-and-control (C2) server. The downloader shellcode downloads a JPEG image that contains extra encrypted data appended to the end of the file (past the _0xFF 0xD9_ marker that signifies the end of a JPEG file). The JPEG is then written to the user\u2019s _%TEMP%_ directory.\n\n![](https://www.microsoft.com/security/blog/uploads/securityprod/2022/07/Fig5-Image-embedded-with-the-KNOTWEED-loader-shellcode-and-Corelump.png)Figure 5: One of the images embedded with the loader shellcode and Corelump\n\nThe downloader shellcode searches for a 16-byte marker immediately following the end of JPEG. After finding the marker, the downloader shellcode RC4 decrypts the loader shellcode using the next 16 bytes as the RC4 key. Finally, the loader shellcode RC4 decrypts the _Corelump_ malware using a second RC4 key and manually loads it into memory.\n\n#### Corelump malware\n\n_Corelump _is the main payload and resides exclusively in memory to evade detection. It contains a variety of capabilities including keylogging, capturing screenshots, exfiltrating files, running a remote shell, and running arbitrary plugins downloaded from KNOTWEED\u2019s C2 server.\n\nAs part of installation, _Corelump_ makes copies of legitimate Windows DLLs and overwrites sections of them with malicious code. As part of this process, _Corelump_ also modifies the fields in the PE header to accommodate the nefarious changes, such as adding new exported functions, disabling [Control Flow Guard](<https://docs.microsoft.com/en-us/windows/win32/secbp/control-flow-guard>), and modifying the image file checksum with a computed value from _CheckSumMappedFile._ These trojanized binaries (_Jumplump_) are dropped to disk in _C:\\Windows\\System32\\spool\\drivers\\color\\_, and COM registry keys are modified for persistence (see the Behaviors section for more information on COM hijacking).\n\n#### Jumplump loader\n\n_Jumplump _is responsible for loading _Corelump _into memory from the JPEG file in the %TEMP% directory. If _Corelump_ is not present, _Jumplump_ attempts to download it again from the C2 server. Both_ Jumplump _and the downloader shellcode are heavily obfuscated to make analysis difficult, with most instructions being followed by a jmp to another instruction/jmp combination, giving a convoluted control flow throughout the program.\n\n![A screenshot of assembly code presenting the jmp/instruction obfuscation used in Jumplump malware. ](https://www.microsoft.com/security/blog/uploads/securityprod/2022/07/Fig6-Disassembly-showing-jmp-instructions.png)Figure 6: Disassembly showing the jmp/instruction obfuscation used in Jumplump\n\n#### Mex and PassLib\n\nKNOTWEED was also observed using the bespoke utility tools Mex and PassLib. These tools are developed by KNOTWEED and bear capabilities that are derived from publicly available sources. Mex, for example, is a command-line tool containing several red teaming or security plugins copied from GitHub (listed below):\n\n[Chisel](<https://github.com/jpillora/chisel>)| [mimikatz](<https://github.com/ParrotSec/mimikatz>)| [SharpHound3](<https://github.com/BloodHoundAD/SharpHound3>) \n---|---|--- \n[Curl](<https://github.com/curl/curl>)| [Ping Castle](<https://github.com/vletoux/pingcastle>)| [SharpOxidResolver](<https://github.com/S3cur3Th1sSh1t/SharpOxidResolver>) \n[Grouper2](<https://github.com/l0ss/Grouper2>)| [Rubeus](<https://github.com/GhostPack/Rubeus>)| [PharpPrinter](<https://github.com/rvrsh3ll/SharpPrinter>) \n[Internal Monologue](<https://github.com/eladshamir/Internal-Monologue>)| [SCShell](<https://github.com/Mr-Un1k0d3r/SCShell>)| [SpoolSample](<https://github.com/leechristensen/SpoolSample>) \n[Inveigh](<https://github.com/Kevin-Robertson/Inveigh>)| [Seatbelt](<https://github.com/GhostPack/Seatbelt>)| [StandIn](<https://github.com/FuzzySecurity/StandIn>) \n[Lockless](<https://github.com/GhostPack/Lockless>)| [SharpExec](<https://github.com/anthemtotheego/SharpExec>)| \n \nPassLib is a custom password stealer tool capable of dumping credentials from a variety of sources including web browsers, email clients, LSASS, LSA secrets, and the Windows credential manager.\n\n#### Post-compromise actions\n\nIn victims where KNOTWEED malware had been used, a variety of post-compromise actions were observed:\n\n * Setting of _UseLogonCredential _to \u201c1\u201d to enable plaintext credentials:\n * _reg add HKLM\\SYSTEM\\CurrentControlSet\\Control\\SecurityProviders\\WDigest /v UseLogonCredential /t REG_DWORD /d 1 /f_\n * Credential dumping via _comsvcs.dll_:\n * _rundll32.exe C:\\Windows\\System32\\comsvcs.dll, MiniDump_\n * Attempt to access emails with dumped credentials from a KNOTWEED IP address\n * Using Curl to download KNOTWEED tooling from public file shares such as _vultrobjects[.]com_\n * Running PowerShell scripts directly from a GitHub gist created by an account associated with DSIRF\n\n### KNOTWEED infrastructure connections to DSIRF\n\nPivoting off a known command-and-control domain identified by MSTIC, _acrobatrelay[.]com_, RiskIQ expanded the view of KNOTWEED's attack infrastructure. Leveraging unique patterns in the use of SSL certificates and other network fingerprints specific to the group and associated with that domain, RiskIQ identified a host of additional IP addresses under the control of KNOTWEED. This infrastructure, largely hosted by Digital Ocean and Choopa, has been actively serving malware since at least February of 2020 and continues through the time of this writing.\n\nRiskIQ next utilized passive DNS data to determine which domains those IPs resolved to at the time they were malicious. This process yielded several domains with direct links to DSIRF, including _demo3[.]dsirf[.]eu_ (the company's own website), and several subdomains that appear to have been used for malware development, including _debugmex[.]dsirflabs[.]eu_ (likely a server used for debugging malware with the bespoke utility tool Mex) and _szstaging[.]dsirflabs[.]eu_ (likely a server used to stage Subzero malware).\n\n## Detection and prevention\n\nMicrosoft will continue to monitor KNOTWEED activity and implement protections for our customers. The current detections and IOCs detailed below are in place and protecting Microsoft customers across our security products. Additional advanced hunting queries are also provided below to help organizations extend their protections and investigations of these attacks.\n\n### Behaviors\n\n_Corelump _drops the_ Jumplump_ loader DLLs to _C:\\Windows\\System32\\spool\\drivers\\color\\\\. _This is a common directory used by malware as well as some legitimate programs, so writes of PE files to the folder should be monitored.\n\n_Jumplump_ uses COM hijacking for persistence, modifying COM registry keys to point to the _Jumplump_ DLL in _C:\\Windows\\System32\\spool\\drivers\\color\\_. Modifications of default system CLSID values should be monitored to detect this technique (e.g., _HKLM\\SOFTWARE\\Classes\\CLSID\\\\{GUID}\\InProcServer32 Default_ value). The five CLSIDs used by _Jumplump_ are listed below with their original clean values on Windows 11:\n\n * {ddc05a5a-351a-4e06-8eaf-54ec1bc2dcea} = "_%SystemRoot%\\System32\\ApplicationFrame.dll_"\n * {1f486a52-3cb1-48fd-8f50-b8dc300d9f9d} = "_%SystemRoot%\\system32\\propsys.dll_"\n * {4590f811-1d3a-11d0-891f-00aa004b2e24} = "_%SystemRoot%\\system32\\wbem\\wbemprox.dll_"\n * {4de225bf-cf59-4cfc-85f7-68b90f185355} = "_%SystemRoot%\\system32\\wbem\\wmiprvsd.dll_"\n * {F56F6FDD-AA9D-4618-A949-C1B91AF43B1A} = "_%SystemRoot%\\System32\\Actioncenter.dll_"\n\nMany of the post-compromise actions can be detected based on their command lines. Customers should monitor for possible malicious activity such as PowerShell executing scripts from internet locations, modification of commonly abused registry keys such as _HKLM\\SYSTEM\\CurrentControlSet\\Control\\SecurityProviders\\WDigest, _and LSASS credential dumping via minidumps.\n\n## Recommended customer actions\n\nThe techniques used by the actor and described in the Observed actor activity section can be mitigated by adopting the security considerations provided below:\n\n * All customers should prioritize patching of [CVE-2022-22047](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>).\n * Confirm that Microsoft Defender Antivirus is updated to security intelligence update **1.371.503.0** or later to detect the related indicators.\n * Use the included indicators of compromise to investigate whether they exist in your environment and assess for potential intrusion.\n * [Change Excel macro security settings](<https://support.microsoft.com/office/change-macro-security-settings-in-excel-a97c09d2-c082-46b8-b19f-e8621e8fe373>) to control which macros run and under what circumstances when you open a workbook. Customers can also [stop malicious XLM or VBA macros](<https://www.microsoft.com/security/blog/2021/03/03/xlm-amsi-new-runtime-defense-against-excel-4-0-macro-malware/>) by ensuring runtime macro scanning by Antimalware Scan Interface ([AMSI](<https://docs.microsoft.com/windows/win32/amsi/antimalware-scan-interface-portal>)) is on. This feature\u2014enabled by default\u2014is on if the Group Policy setting for Macro Run Time Scan Scope is set to \u201cEnable for All Files\u201d or \u201cEnable for Low Trust Files\u201d.\n * Enable multifactor authentication (MFA) to mitigate potentially compromised credentials and ensure that MFA is enforced for all remote connectivity. _Note:_ Microsoft strongly encourages all customers download and use password-less solutions like [Microsoft Authenticator](<https://www.microsoft.com/account/authenticator/>) to secure accounts.\n * Review all authentication activity for remote access infrastructure, with a particular focus on accounts configured with single factor authentication, to confirm authenticity and investigate any anomalous activity.\n\n## Indicators of compromise (IOCs)\n\nThe following list provides IOCs observed during our investigation. We encourage our customers to investigate these indicators in their environments and implement detections and protections to identify past related activity and prevent future attacks against their systems. All sample hashes are available in VirusTotal.\n\nIndicator| Type| Description \n---|---|--- \n78c255a98003a101fa5ba3f49c50c6922b52ede601edac5db036ab72efc57629| SHA-256| Malicious Excel document and VBA \n0588f61dc7e4b24554cffe4ea56d043d8f6139d2569bc180d4a77cf75b68792f| SHA-256| Malicious Excel document and VBA \n441a3810b9e89bae12eea285a63f92e98181e9fb9efd6c57ef6d265435484964| SHA-256| Jumplump malware \ncbae79f66f724e0fe1705d6b5db3cc8a4e89f6bdf4c37004aa1d45eeab26e84b| SHA-256| Jumplump malware \nfd6515a71530b8329e2c0104d0866c5c6f87546d4b44cc17bbb03e64663b11fc| SHA-256| Jumplump malware \n5d169e083faa73f2920c8593fb95f599dad93d34a6aa2b0f794be978e44c8206| SHA-256| Jumplump malware \n7f29b69eb1af1cc6c1998bad980640bfe779525fd5bb775bc36a0ce3789a8bfc| SHA-256| Jumplump malware \n02a59fe2c94151a08d75a692b550e66a8738eb47f0001234c600b562bf8c227d| SHA-256| Jumplump malware \n7f84bf6a016ca15e654fb5ebc36fd7407cb32c69a0335a32bfc36cb91e36184d| SHA-256| Jumplump malware \nafab2e77dc14831f1719e746042063a8ec107de0e9730249d5681d07f598e5ec| SHA-256| Jumplump malware \n894138dfeee756e366c65a197b4dbef8816406bc32697fac6621601debe17d53| SHA-256| Jumplump malware \n4611340fdade4e36f074f75294194b64dcf2ec0db00f3d958956b4b0d6586431| SHA-256| Jumplump malware \nc96ae21b4cf2e28eec222cfe6ca903c4767a068630a73eca58424f9a975c6b7d| SHA-256| Corelump malware \nfa30be45c5c5a8f679b42ae85410f6099f66fe2b38eb7aa460bcc022babb41ca| SHA-256| Mex tool \ne64bea4032cf2694e85ede1745811e7585d3580821a00ae1b9123bb3d2d442d6| SHA-256| Passlib tool \nacrobatrelay[.]com__| Domain| C2 \nfinconsult[.]cc| Domain| C2 \nrealmetaldns[.]com| Domain| C2 \n \n**NOTE:** These indicators should not be considered exhaustive for this observed activity.\n\n## Detections\n\n### Microsoft Defender Antivirus\n\nMicrosoft Defender Antivirus detects the malware tools and implants used by KNOTWEED starting with signature build **1.371.503.0** as the following family names:\n\n * _Backdoor:O97M/JumplumpDropper_\n * _Trojan:Win32/Jumplump_\n * _Trojan:Win32/Corelump_\n * _HackTool:Win32/Mexlib_\n * _Trojan:Win32/Medcerc_\n * _Behavior:Win32/SuspModuleLoad_\n\n### Microsoft Defender for Endpoint\n\nMicrosoft Defender for Endpoint customers may see the following alerts as an indication of a possible attack. These alerts are not necessarily an indication of KNOTWEED compromise:\n\n * _COM Hijacking _- Detects multiple behaviors, including _JumpLump_ malware persistence techniques.\n * _Possible privilege escalation using CTF module _- Detects a possible privilege escalation behavior associated with CVE-2022-2204; also detects an attempt to perform local privilege escalation by launching an elevated process and loading an untrusted module to perform malicious activities\n * _KNOTWEED actor activity detected _- Detects KNOTWEED actor activities\n * _WDigest configuration change _- Detects potential retrieval of clear text password from changes to _UseLogonCredential_ registry key\n * _Sensitive credential memory read _- Detects LSASS credential dumping via minidumps\n * _Suspicious Curl behavior _- Detects the use of Curl to download KNOTWEED tooling from public file shares\n * _Suspicious screen capture activity_ - Detects _Corelump_ behavior of capturing screenshots of the compromised system\n\n## Hunting queries\n\n### Microsoft Sentinel\n\nThe following resources are available to Microsoft Sentinel customers to identify the activity outlined in the blog post.\n\n**Microsoft Defender Antivirus detections related to KNOTWEED**\n\nThis query identifies occurrences of Microsoft Defender Antivirus detections listed in this blog post:\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Detections/MultipleDataSources/KNOTWEEDAVDetection.yaml>\n\n**File hash IOCs related to KNOTWEED**\n\nThis query identifies matches based on file hash IOCs related to KNOTWEED across a range of common Microsoft Sentinel data sets:\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Detections/MultipleDataSources/KNOTWEEDFileHashesJuly2022.yaml>\n\n**Domain IOCs related to KNOTWEED**\n\nThis query identifies matches based on domain IOCs related to KNOTWEED across a range of common Microsoft Sentinel data sets:\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Detections/MultipleDataSources/KNOTWEEDC2DomainsJuly2022.yaml>\n\n**COM registry key modified to point to Color Profile folder**\n\nThis query identifies modifications to COM registry keys to point to executable files in _C:\\Windows\\System32\\spool\\drivers\\color\\_:\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Detections/MultipleDataSources/COMRegistryKeyModifiedtoPointtoFileinColorDrivers.yaml>\n\n**PE file dropped in Color Profile folder**\n\nThis query looks for PE files being created in the _C:\\Windows\\System32\\spool\\drivers\\color\\_ folder:\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Detections/DeviceFileEvents/PEfiledroppedinColorDriversFolder.yaml>\n\n**Abnormally large JPEG downloaded from new source**\n\nThis query looks for downloads of JPEG files from remote sources, where the file size is abnormally large, and not from a common source:\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Hunting%20Queries/CommonSecurityLog/AbnormallyLargeJPEGFiledDownloadedfromNewSource.yaml>\n\n**Downloading new file using Curl**\n\nThis query looks for new files being downloaded using Curl.\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Hunting%20Queries/MultipleDataSources/DownloadofNewFileUsingCurl.yaml>\n\n**Suspected ****credential dumping**\n\nThis query looks for attackers using comsvcs.dll to dump credentials from memory\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Hunting%20Queries/SecurityEvent/SuspectedLSASSDump.yaml>\n\n**Downgrade to ****plaintext credentials**\n\nThis query looks for registry key being set to enabled plain text credentials\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Detections/SecurityEvent/WDigestDowngradeAttack.yaml>\n\n### Microsoft 365 Defender advanced hunting\n\nMicrosoft 365 Defender customers can run the following advanced hunting queries to locate IOCs and related malicious activity in their environments.\n\n**Microsoft Defender Antivirus detections related to KNOTWEED**\n\nThis query identifies detection of related malware and tools by Microsoft Defender Antivirus:\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Hunting%20Queries/Microsoft%20365%20Defender/Campaigns/KNOTWEED/KNOTWEED-AVDetections.yaml>\n\n**File hash IOCs related to KNOTWEED**\n\nThis query surfaces KNOTWEED file hash IOCs across Microsoft Defender for Endpoint tables:\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Hunting%20Queries/Microsoft%20365%20Defender/Campaigns/KNOTWEED/KNOTWEED-FileHashIOCsJuly2022.yaml>\n\n**Domain IOCs related to KNOTWEED**\n\nThis query identifies matches based on domain IOCs related to KNOTWEED against Microsoft Defender for Endpoint device network connections:\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Hunting%20Queries/Microsoft%20365%20Defender/Campaigns/KNOTWEED/KNOTWEED-DomainIOCsJuly2022.yaml>\n\n**COM registry key modified to point to Color Profile folder**\n\nThis query identifies modifications to COM registry keys to point to executable files in _C:\\Windows\\System32\\spool\\drivers\\color\\_:\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Hunting%20Queries/Microsoft%20365%20Defender/Campaigns/KNOTWEED/KNOTWEED-COMRegistryKeyModifiedtoPointtoColorProfileFolder.yaml>\n\n**PE file dropped in Color Profile folder**\n\nThis query looks for PE files being created in the _C:\\Windows\\System32\\spool\\drivers\\color\\ folder_:\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Hunting%20Queries/Microsoft%20365%20Defender/Campaigns/KNOTWEED/KNOTWEED-PEFileDroppedinColorProfileFolder.yaml>\n\n**Downloading new file using Curl**\n\nThis query looks for new files being downloaded using Curl.\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Hunting%20Queries/Microsoft%20365%20Defender/Campaigns/KNOTWEED/KNOTWEED-DownloadingnewfileusingCurl.yaml>\n\nThe post [Untangling KNOTWEED: European private-sector offensive actor using 0-day exploits](<https://www.microsoft.com/security/blog/2022/07/27/untangling-knotweed-european-private-sector-offensive-actor-using-0-day-exploits/>) appeared first on [Microsoft Security Blog](<https://www.microsoft.com/security/blog>).", "cvss3": {"exploitabilityScore": 2.8, "cvssV3": {"baseSeverity": "HIGH", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "UNCHANGED", "attackVector": "NETWORK", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "NONE", "baseScore": 8.8, "vectorString": "CVSS:3.1/AV:N/AC:L/PR:N/UI:R/S:U/C:H/I:H/A:H", "version": "3.1", "userInteraction": "REQUIRED"}, "impactScore": 5.9}, "published": "2022-07-27T14:00:00", "type": "mmpc", "title": "Untangling KNOTWEED: European private-sector offensive actor using 0-day exploits", "bulletinFamily": "blog", "cvss2": {"severity": "HIGH", "exploitabilityScore": 3.9, "obtainAllPrivilege": false, "userInteractionRequired": false, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "LOW", "confidentialityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "baseScore": 7.2, "vectorString": "AV:L/AC:L/Au:N/C:C/I:C/A:C", "version": "2.0", "accessVector": "LOCAL", "authentication": "NONE"}, "impactScore": 10.0, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2021-28550", "CVE-2021-31199", "CVE-2021-31201", "CVE-2021-36948", "CVE-2022-2204", "CVE-2022-22047"], "modified": "2022-07-27T14:00:00", "id": "MMPC:85647D37E79AFEF2BFF74B4682648C5E", "href": "https://www.microsoft.com/security/blog/2022/07/27/untangling-knotweed-european-private-sector-offensive-actor-using-0-day-exploits/", "cvss": {"score": 7.2, "vector": "AV:L/AC:L/Au:N/C:C/I:C/A:C"}}], "mssecure": [{"lastseen": "2022-07-27T17:46:22", "description": "The Microsoft Threat Intelligence Center (MSTIC) and the Microsoft Security Response Center (MSRC) found a private-sector offensive actor (PSOA) using multiple Windows and Adobe 0-day exploits, including one for the recently patched [CVE-2022-22047](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>), in limited and targeted attacks against European and Central American customers. The PSOA, which MSTIC tracks as KNOTWEED, developed malware called Subzero which was used in these attacks.\n\nThis blog details Microsoft\u2019s analysis of the observed KNOTWEED activity and related malware used in targeted attacks against our customers. This information is shared with our customers and industry partners to improve detection of these attacks. Customers are encouraged to expedite deployment of the July 2022 Microsoft security updates to protect their systems against exploits using CVE-2022-22047. Microsoft Defender Antivirus and Microsoft Defender for Endpoint have also implemented detections against KNOTWEED\u2019s malware and tools.\n\nPSOAs, which [Microsoft also refers to as cyber mercenaries](<https://blogs.microsoft.com/on-the-issues/2022/07/27/private-sector-cyberweapons-psoas-knotweed/>), sell hacking tools or services through a variety of business models. Two common models for this type of actor are access-as-a-service and hack-for-hire. In access-as-a-service, the actor sells full end-to-end hacking tools that can be used by the purchaser in operations, with the PSOA not involved in any targeting or running of the operation. In hack-for-hire, detailed information is provided by the purchaser to the actor, who then runs the targeted operations. Based on observed attacks and news reports, MSTIC believes that KNOTWEED may blend these models: they sell the Subzero malware to third parties but have also been observed using KNOTWEED-associated infrastructure in some attacks, suggesting more direct involvement.\n\n## Who is KNOTWEED?\n\nKNOTWEED is an Austria-based PSOA named DSIRF. The [DSIRF website](<https://web.archive.org/web/20220713203741/https:/dsirf.eu/about/>) [web archive link] says they provide services_ \u201cto multinational corporations in the technology, retail, energy and financial sectors_\u201d and that they have \u201c_a set of highly sophisticated techniques in gathering and analyzing information._\u201d They publicly offer several services including \u201c_an enhanced due diligence and risk analysis process through providing a deep understanding of individuals and entities\u201d _and _\u201chighly sophisticated Red Teams to challenge your company's most critical assets.\u201d_ \n \nHowever, [multiple](<https://www.intelligenceonline.com/surveillance--interception/2022/04/06/after-finfisher-s-demise-berlin-explores-cyber-tool-options,109766000-art>) [news](<https://www.focus.de/politik/vorab-aus-dem-focus-volle-kontrolle-ueber-zielcomputer-das-raetsel-um-die-spionage-app-fuehrt-ueber-wirecard-zu-putin_id_24442733.html>) [reports](<https://netzpolitik.org/2021/dsirf-wir-enthuellen-den-staatstrojaner-subzero-aus-oesterreich>) have linked DSIRF to the development and attempted sale of a malware toolset called Subzero. MSTIC found the Subzero malware being deployed through a variety of methods, including 0-day exploits in Windows and Adobe Reader, in 2021 and 2022. As part of our investigation into the utility of this malware, Microsoft\u2019s communications with a Subzero victim revealed that they had not commissioned any red teaming or penetration testing, and confirmed that it was unauthorized, malicious activity. Observed victims to date include law firms, banks, and strategic consultancies in countries such as Austria, the United Kingdom, and Panama. It\u2019s important to note that the identification of targets in a country doesn\u2019t necessarily mean that a DSIRF customer resides in the same country, as international targeting is common.\n\nMSTIC has found multiple links between DSIRF and the exploits and malware used in these attacks. These include command-and-control infrastructure used by the malware directly linking to DSIRF, a DSIRF-associated GitHub account being used in one attack, a code signing certificate issued to DSIRF being used to sign an exploit, and other open-source news reports attributing Subzero to DSIRF.\n\n## Observed actor activity\n\n### KNOTWEED initial access\n\nMSTIC found KNOTWEED\u2019s Subzero malware deployed in a variety of ways. In the succeeding sections, the different stages of Subzero are referred to by their Microsoft Defender detection names: _Jumplump _for the persistent loader and _Corelump _for the main malware.\n\n#### KNOTWEED exploits in 2022\n\nIn May 2022, MSTIC found an Adobe Reader remote code execution (RCE) and a 0-day Windows privilege escalation exploit chain being used in an attack that led to the deployment of Subzero. The exploits were packaged into a PDF document that was sent to the victim via email. Microsoft was not able to acquire the PDF or Adobe Reader RCE portion of the exploit chain, but the victim\u2019s Adobe Reader version was released in January 2022, meaning that the exploit used was either a 1-day exploit developed between January and May, or a 0-day exploit. Based on KNOTWEED\u2019s extensive use of other 0-days, we assess with medium confidence that the Adobe Reader RCE is a 0-day exploit. The Windows exploit was analyzed by MSRC, found to be a 0-day exploit, and then patched in July 2022 as CVE-2022-22047. Interestingly, there were indications in the Windows exploit code that it was also designed to be used from Chromium-based browsers, although we\u2019ve seen no evidence of browser-based attacks.\n\nThe CVE-2022-22047 vulnerability is related to an issue with [activation context](<https://docs.microsoft.com/windows/win32/sbscs/activation-contexts>) caching in the Client Server Run-Time Subsystem (CSRSS) on Windows. At a high level, the vulnerability could enable an attacker to provide a crafted assembly manifest, which would create a malicious activation context in the activation context cache, for an arbitrary process. This cached context is used the next time the process spawned.\n\nCVE-2022-22047 was used in KNOTWEED related attacks for privilege escalation. The vulnerability also provided the ability to escape sandboxes (with some caveats, as discussed below) and achieve system-level code execution. The exploit chain starts with writing a malicious DLL to disk from the sandboxed Adobe Reader renderer process. The CVE-2022-22047 exploit was then used to target a system process by providing an application manifest with an undocumented attribute that specified the path of the malicious DLL. Then, when the system process next spawned, the attribute in the malicious activation context was used, the malicious DLL was loaded from the given path, and system-level code execution was achieved.\n\nIt's important to note that exploiting CVE-2022-22047 requires attackers to be able to write a DLL to disk. However, in the threat model of sandboxes, such as that of Adobe Reader and Chromium, the ability to write out files where the attacker _cannot_ control the path isn\u2019t considered dangerous. Hence, these sandboxes aren\u2019t a barrier to the exploitation of CVE-2022-22047.\n\n#### KNOTWEED exploits in 2021\n\nIn 2021, MSRC received a report of two Windows privilege escalation exploits ([CVE-2021-31199](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2021-31199>) and [CVE-2021-31201](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2021-31201>)) being used in conjunction with an Adobe Reader exploit ([CVE-2021-28550](<https://helpx.adobe.com/security/products/acrobat/apsb21-29.html>)), all of which were patched in June 2021. MSTIC was able to confirm the use of these in an exploit chain used to deploy Subzero.\n\nWe were later able to link the deployment of Subzero to a fourth exploit, one related to a Windows privilege escalation vulnerability in the Windows Update Medic Service ([CVE-2021-36948](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2021-36948>)), which allowed an attacker to force the service to load an arbitrary signed DLL. The malicious DLL used in the attacks was signed by \u2018DSIRF GmbH\u2019.\n\n![A screenshot of the digital signature details tab from the file properties page. The tab states that the digital signature for the file is OK. The name indicated under the signer information portion is DSIRF GmbH.](https://www.microsoft.com/security/blog/uploads/securityprod/2022/07/Fig1-Valid-digital-signature-from-DSIRF.png)Figure 1. Valid digital signature from DSIRF on Medic Service exploit DLL\n\n#### Malicious Excel documents\n\nIn addition to the exploit chains, another method of access that led to the deployment of Subzero was an Excel file masquerading as a real estate document. The file contained a malicious macro that was obfuscated with large chunks of benign comments from the Kama Sutra, string obfuscation, and use of Excel 4.0 macros.\n\n![](https://www.microsoft.com/security/blog/uploads/securityprod/2022/07/Fig2a-Examples-of-KNOTWEED-macro-obfuscation.png) ![Two screenshots of macro code snippet, presenting different examples of how the macro is obfuscated to evade detection. In the first code snippet, text from the Kama Sutra is inserted among the macro code. The second code snippet presents the code of a function where the attacker uses Excel 4 macro for obfuscation.](https://www.microsoft.com/security/blog/uploads/securityprod/2022/07/Fig2b-Examples-of-KNOTWEED-macro-obfuscation.png)Figure 2: Two examples of KNOTWEED Excel macro obfuscation\n\nAfter de-obfuscating strings at runtime, the VBA macro uses the _ExecuteExcel4Macro_ function to call native Win32 functions to load shellcode into memory allocated using _VirtualAlloc_. Each opcode is individually copied into a newly allocated buffer using _memset_ before _CreateThread_ is called to execute the shellcode.\n\n![A screenshot of a code snippet where the malware copies opcode to a newly allocated buffer.](https://www.microsoft.com/security/blog/uploads/securityprod/2022/07/Fig3-copying-opcodes.png)Figure 3: Copying opcodes ![A screenshot of a code snippet where the malware calls the CreateThread function to execute the shellcode.](https://www.microsoft.com/security/blog/uploads/securityprod/2022/07/Fig4-Calling-CreateThread.png)Figure 4: Calling CreateThread on shellcode\n\nThe following section describes the shellcode executed by the macro.\n\n### KNOTWEED malware and tactics, techniques, and procedures (TTPs)\n\n#### Corelump downloader and loader shellcode\n\nThe downloader shellcode is the initial shellcode executed from either the exploit chains or malicious Excel documents. The shellcode's purpose is to retrieve the _Corelump_ second-stage malware from the actor\u2019s command-and-control (C2) server. The downloader shellcode downloads a JPEG image that contains extra encrypted data appended to the end of the file (past the _0xFF 0xD9_ marker that signifies the end of a JPEG file). The JPEG is then written to the user\u2019s _%TEMP%_ directory.\n\n![](https://www.microsoft.com/security/blog/uploads/securityprod/2022/07/Fig5-Image-embedded-with-the-KNOTWEED-loader-shellcode-and-Corelump.png)Figure 5: One of the images embedded with the loader shellcode and Corelump\n\nThe downloader shellcode searches for a 16-byte marker immediately following the end of JPEG. After finding the marker, the downloader shellcode RC4 decrypts the loader shellcode using the next 16 bytes as the RC4 key. Finally, the loader shellcode RC4 decrypts the _Corelump_ malware using a second RC4 key and manually loads it into memory.\n\n#### Corelump malware\n\n_Corelump _is the main payload and resides exclusively in memory to evade detection. It contains a variety of capabilities including keylogging, capturing screenshots, exfiltrating files, running a remote shell, and running arbitrary plugins downloaded from KNOTWEED\u2019s C2 server.\n\nAs part of installation, _Corelump_ makes copies of legitimate Windows DLLs and overwrites sections of them with malicious code. As part of this process, _Corelump_ also modifies the fields in the PE header to accommodate the nefarious changes, such as adding new exported functions, disabling [Control Flow Guard](<https://docs.microsoft.com/en-us/windows/win32/secbp/control-flow-guard>), and modifying the image file checksum with a computed value from _CheckSumMappedFile._ These trojanized binaries (_Jumplump_) are dropped to disk in _C:\\Windows\\System32\\spool\\drivers\\color\\_, and COM registry keys are modified for persistence (see the Behaviors section for more information on COM hijacking).\n\n#### Jumplump loader\n\n_Jumplump _is responsible for loading _Corelump _into memory from the JPEG file in the %TEMP% directory. If _Corelump_ is not present, _Jumplump_ attempts to download it again from the C2 server. Both_ Jumplump _and the downloader shellcode are heavily obfuscated to make analysis difficult, with most instructions being followed by a jmp to another instruction/jmp combination, giving a convoluted control flow throughout the program.\n\n![A screenshot of assembly code presenting the jmp/instruction obfuscation used in Jumplump malware. ](https://www.microsoft.com/security/blog/uploads/securityprod/2022/07/Fig6-Disassembly-showing-jmp-instructions.png)Figure 6: Disassembly showing the jmp/instruction obfuscation used in Jumplump\n\n#### Mex and PassLib\n\nKNOTWEED was also observed using the bespoke utility tools Mex and PassLib. These tools are developed by KNOTWEED and bear capabilities that are derived from publicly available sources. Mex, for example, is a command-line tool containing several red teaming or security plugins copied from GitHub (listed below):\n\n[Chisel](<https://github.com/jpillora/chisel>)| [mimikatz](<https://github.com/ParrotSec/mimikatz>)| [SharpHound3](<https://github.com/BloodHoundAD/SharpHound3>) \n---|---|--- \n[Curl](<https://github.com/curl/curl>)| [Ping Castle](<https://github.com/vletoux/pingcastle>)| [SharpOxidResolver](<https://github.com/S3cur3Th1sSh1t/SharpOxidResolver>) \n[Grouper2](<https://github.com/l0ss/Grouper2>)| [Rubeus](<https://github.com/GhostPack/Rubeus>)| [PharpPrinter](<https://github.com/rvrsh3ll/SharpPrinter>) \n[Internal Monologue](<https://github.com/eladshamir/Internal-Monologue>)| [SCShell](<https://github.com/Mr-Un1k0d3r/SCShell>)| [SpoolSample](<https://github.com/leechristensen/SpoolSample>) \n[Inveigh](<https://github.com/Kevin-Robertson/Inveigh>)| [Seatbelt](<https://github.com/GhostPack/Seatbelt>)| [StandIn](<https://github.com/FuzzySecurity/StandIn>) \n[Lockless](<https://github.com/GhostPack/Lockless>)| [SharpExec](<https://github.com/anthemtotheego/SharpExec>)| \n \nPassLib is a custom password stealer tool capable of dumping credentials from a variety of sources including web browsers, email clients, LSASS, LSA secrets, and the Windows credential manager.\n\n#### Post-compromise actions\n\nIn victims where KNOTWEED malware had been used, a variety of post-compromise actions were observed:\n\n * Setting of _UseLogonCredential _to \u201c1\u201d to enable plaintext credentials:\n * _reg add HKLM\\SYSTEM\\CurrentControlSet\\Control\\SecurityProviders\\WDigest /v UseLogonCredential /t REG_DWORD /d 1 /f_\n * Credential dumping via _comsvcs.dll_:\n * _rundll32.exe C:\\Windows\\System32\\comsvcs.dll, MiniDump_\n * Attempt to access emails with dumped credentials from a KNOTWEED IP address\n * Using Curl to download KNOTWEED tooling from public file shares such as _vultrobjects[.]com_\n * Running PowerShell scripts directly from a GitHub gist created by an account associated with DSIRF\n\n### KNOTWEED infrastructure connections to DSIRF\n\nPivoting off a known command-and-control domain identified by MSTIC, _acrobatrelay[.]com_, RiskIQ expanded the view of KNOTWEED's attack infrastructure. Leveraging unique patterns in the use of SSL certificates and other network fingerprints specific to the group and associated with that domain, RiskIQ identified a host of additional IP addresses under the control of KNOTWEED. This infrastructure, largely hosted by Digital Ocean and Choopa, has been actively serving malware since at least February of 2020 and continues through the time of this writing.\n\nRiskIQ next utilized passive DNS data to determine which domains those IPs resolved to at the time they were malicious. This process yielded several domains with direct links to DSIRF, including _demo3[.]dsirf[.]eu_ (the company's own website), and several subdomains that appear to have been used for malware development, including _debugmex[.]dsirflabs[.]eu_ (likely a server used for debugging malware with the bespoke utility tool Mex) and _szstaging[.]dsirflabs[.]eu_ (likely a server used to stage Subzero malware).\n\n## Detection and prevention\n\nMicrosoft will continue to monitor KNOTWEED activity and implement protections for our customers. The current detections and IOCs detailed below are in place and protecting Microsoft customers across our security products. Additional advanced hunting queries are also provided below to help organizations extend their protections and investigations of these attacks.\n\n### Behaviors\n\n_Corelump _drops the_ Jumplump_ loader DLLs to _C:\\Windows\\System32\\spool\\drivers\\color\\\\. _This is a common directory used by malware as well as some legitimate programs, so writes of PE files to the folder should be monitored.\n\n_Jumplump_ uses COM hijacking for persistence, modifying COM registry keys to point to the _Jumplump_ DLL in _C:\\Windows\\System32\\spool\\drivers\\color\\_. Modifications of default system CLSID values should be monitored to detect this technique (e.g., _HKLM\\SOFTWARE\\Classes\\CLSID\\\\{GUID}\\InProcServer32 Default_ value). The five CLSIDs used by _Jumplump_ are listed below with their original clean values on Windows 11:\n\n * {ddc05a5a-351a-4e06-8eaf-54ec1bc2dcea} = "_%SystemRoot%\\System32\\ApplicationFrame.dll_"\n * {1f486a52-3cb1-48fd-8f50-b8dc300d9f9d} = "_%SystemRoot%\\system32\\propsys.dll_"\n * {4590f811-1d3a-11d0-891f-00aa004b2e24} = "_%SystemRoot%\\system32\\wbem\\wbemprox.dll_"\n * {4de225bf-cf59-4cfc-85f7-68b90f185355} = "_%SystemRoot%\\system32\\wbem\\wmiprvsd.dll_"\n * {F56F6FDD-AA9D-4618-A949-C1B91AF43B1A} = "_%SystemRoot%\\System32\\Actioncenter.dll_"\n\nMany of the post-compromise actions can be detected based on their command lines. Customers should monitor for possible malicious activity such as PowerShell executing scripts from internet locations, modification of commonly abused registry keys such as _HKLM\\SYSTEM\\CurrentControlSet\\Control\\SecurityProviders\\WDigest, _and LSASS credential dumping via minidumps.\n\n## Recommended customer actions\n\nThe techniques used by the actor and described in the Observed actor activity section can be mitigated by adopting the security considerations provided below:\n\n * All customers should prioritize patching of [CVE-2022-22047](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>).\n * Confirm that Microsoft Defender Antivirus is updated to security intelligence update **1.371.503.0** or later to detect the related indicators.\n * Use the included indicators of compromise to investigate whether they exist in your environment and assess for potential intrusion.\n * [Change Excel macro security settings](<https://support.microsoft.com/office/change-macro-security-settings-in-excel-a97c09d2-c082-46b8-b19f-e8621e8fe373>) to control which macros run and under what circumstances when you open a workbook. Customers can also [stop malicious XLM or VBA macros](<https://www.microsoft.com/security/blog/2021/03/03/xlm-amsi-new-runtime-defense-against-excel-4-0-macro-malware/>) by ensuring runtime macro scanning by Antimalware Scan Interface ([AMSI](<https://docs.microsoft.com/windows/win32/amsi/antimalware-scan-interface-portal>)) is on. This feature\u2014enabled by default\u2014is on if the Group Policy setting for Macro Run Time Scan Scope is set to \u201cEnable for All Files\u201d or \u201cEnable for Low Trust Files\u201d.\n * Enable multifactor authentication (MFA) to mitigate potentially compromised credentials and ensure that MFA is enforced for all remote connectivity. _Note:_ Microsoft strongly encourages all customers download and use password-less solutions like [Microsoft Authenticator](<https://www.microsoft.com/account/authenticator/>) to secure accounts.\n * Review all authentication activity for remote access infrastructure, with a particular focus on accounts configured with single factor authentication, to confirm authenticity and investigate any anomalous activity.\n\n## Indicators of compromise (IOCs)\n\nThe following list provides IOCs observed during our investigation. We encourage our customers to investigate these indicators in their environments and implement detections and protections to identify past related activity and prevent future attacks against their systems. All sample hashes are available in VirusTotal.\n\nIndicator| Type| Description \n---|---|--- \n78c255a98003a101fa5ba3f49c50c6922b52ede601edac5db036ab72efc57629| SHA-256| Malicious Excel document and VBA \n0588f61dc7e4b24554cffe4ea56d043d8f6139d2569bc180d4a77cf75b68792f| SHA-256| Malicious Excel document and VBA \n441a3810b9e89bae12eea285a63f92e98181e9fb9efd6c57ef6d265435484964| SHA-256| Jumplump malware \ncbae79f66f724e0fe1705d6b5db3cc8a4e89f6bdf4c37004aa1d45eeab26e84b| SHA-256| Jumplump malware \nfd6515a71530b8329e2c0104d0866c5c6f87546d4b44cc17bbb03e64663b11fc| SHA-256| Jumplump malware \n5d169e083faa73f2920c8593fb95f599dad93d34a6aa2b0f794be978e44c8206| SHA-256| Jumplump malware \n7f29b69eb1af1cc6c1998bad980640bfe779525fd5bb775bc36a0ce3789a8bfc| SHA-256| Jumplump malware \n02a59fe2c94151a08d75a692b550e66a8738eb47f0001234c600b562bf8c227d| SHA-256| Jumplump malware \n7f84bf6a016ca15e654fb5ebc36fd7407cb32c69a0335a32bfc36cb91e36184d| SHA-256| Jumplump malware \nafab2e77dc14831f1719e746042063a8ec107de0e9730249d5681d07f598e5ec| SHA-256| Jumplump malware \n894138dfeee756e366c65a197b4dbef8816406bc32697fac6621601debe17d53| SHA-256| Jumplump malware \n4611340fdade4e36f074f75294194b64dcf2ec0db00f3d958956b4b0d6586431| SHA-256| Jumplump malware \nc96ae21b4cf2e28eec222cfe6ca903c4767a068630a73eca58424f9a975c6b7d| SHA-256| Corelump malware \nfa30be45c5c5a8f679b42ae85410f6099f66fe2b38eb7aa460bcc022babb41ca| SHA-256| Mex tool \ne64bea4032cf2694e85ede1745811e7585d3580821a00ae1b9123bb3d2d442d6| SHA-256| Passlib tool \nacrobatrelay[.]com__| Domain| C2 \nfinconsult[.]cc| Domain| C2 \nrealmetaldns[.]com| Domain| C2 \n \n**NOTE:** These indicators should not be considered exhaustive for this observed activity.\n\n## Detections\n\n### Microsoft Defender Antivirus\n\nMicrosoft Defender Antivirus detects the malware tools and implants used by KNOTWEED starting with signature build **1.371.503.0** as the following family names:\n\n * _Backdoor:O97M/JumplumpDropper_\n * _Trojan:Win32/Jumplump_\n * _Trojan:Win32/Corelump_\n * _HackTool:Win32/Mexlib_\n * _Trojan:Win32/Medcerc_\n * _Behavior:Win32/SuspModuleLoad_\n\n### Microsoft Defender for Endpoint\n\nMicrosoft Defender for Endpoint customers may see the following alerts as an indication of a possible attack. These alerts are not necessarily an indication of KNOTWEED compromise:\n\n * _COM Hijacking _- Detects multiple behaviors, including _JumpLump_ malware persistence techniques.\n * _Possible privilege escalation using CTF module _- Detects a possible privilege escalation behavior associated with CVE-2022-2204; also detects an attempt to perform local privilege escalation by launching an elevated process and loading an untrusted module to perform malicious activities\n * _KNOTWEED actor activity detected _- Detects KNOTWEED actor activities\n * _WDigest configuration change _- Detects potential retrieval of clear text password from changes to _UseLogonCredential_ registry key\n * _Sensitive credential memory read _- Detects LSASS credential dumping via minidumps\n * _Suspicious Curl behavior _- Detects the use of Curl to download KNOTWEED tooling from public file shares\n * _Suspicious screen capture activity_ - Detects _Corelump_ behavior of capturing screenshots of the compromised system\n\n## Hunting queries\n\n### Microsoft Sentinel\n\nThe following resources are available to Microsoft Sentinel customers to identify the activity outlined in the blog post.\n\n**Microsoft Defender Antivirus detections related to KNOTWEED**\n\nThis query identifies occurrences of Microsoft Defender Antivirus detections listed in this blog post:\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Detections/MultipleDataSources/KNOTWEEDAVDetection.yaml>\n\n**File hash IOCs related to KNOTWEED**\n\nThis query identifies matches based on file hash IOCs related to KNOTWEED across a range of common Microsoft Sentinel data sets:\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Detections/MultipleDataSources/KNOTWEEDFileHashesJuly2022.yaml>\n\n**Domain IOCs related to KNOTWEED**\n\nThis query identifies matches based on domain IOCs related to KNOTWEED across a range of common Microsoft Sentinel data sets:\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Detections/MultipleDataSources/KNOTWEEDC2DomainsJuly2022.yaml>\n\n**COM registry key modified to point to Color Profile folder**\n\nThis query identifies modifications to COM registry keys to point to executable files in _C:\\Windows\\System32\\spool\\drivers\\color\\_:\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Detections/MultipleDataSources/COMRegistryKeyModifiedtoPointtoFileinColorDrivers.yaml>\n\n**PE file dropped in Color Profile folder**\n\nThis query looks for PE files being created in the _C:\\Windows\\System32\\spool\\drivers\\color\\_ folder:\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Detections/DeviceFileEvents/PEfiledroppedinColorDriversFolder.yaml>\n\n**Abnormally large JPEG downloaded from new source**\n\nThis query looks for downloads of JPEG files from remote sources, where the file size is abnormally large, and not from a common source:\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Hunting%20Queries/CommonSecurityLog/AbnormallyLargeJPEGFiledDownloadedfromNewSource.yaml>\n\n**Downloading new file using Curl**\n\nThis query looks for new files being downloaded using Curl.\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Hunting%20Queries/MultipleDataSources/DownloadofNewFileUsingCurl.yaml>\n\n**Suspected ****credential dumping**\n\nThis query looks for attackers using comsvcs.dll to dump credentials from memory\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Hunting%20Queries/SecurityEvent/SuspectedLSASSDump.yaml>\n\n**Downgrade to ****plaintext credentials**\n\nThis query looks for registry key being set to enabled plain text credentials\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Detections/SecurityEvent/WDigestDowngradeAttack.yaml>\n\n### Microsoft 365 Defender advanced hunting\n\nMicrosoft 365 Defender customers can run the following advanced hunting queries to locate IOCs and related malicious activity in their environments.\n\n**Microsoft Defender Antivirus detections related to KNOTWEED**\n\nThis query identifies detection of related malware and tools by Microsoft Defender Antivirus:\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Hunting%20Queries/Microsoft%20365%20Defender/Campaigns/KNOTWEED/KNOTWEED-AVDetections.yaml>\n\n**File hash IOCs related to KNOTWEED**\n\nThis query surfaces KNOTWEED file hash IOCs across Microsoft Defender for Endpoint tables:\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Hunting%20Queries/Microsoft%20365%20Defender/Campaigns/KNOTWEED/KNOTWEED-FileHashIOCsJuly2022.yaml>\n\n**Domain IOCs related to KNOTWEED**\n\nThis query identifies matches based on domain IOCs related to KNOTWEED against Microsoft Defender for Endpoint device network connections:\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Hunting%20Queries/Microsoft%20365%20Defender/Campaigns/KNOTWEED/KNOTWEED-DomainIOCsJuly2022.yaml>\n\n**COM registry key modified to point to Color Profile folder**\n\nThis query identifies modifications to COM registry keys to point to executable files in _C:\\Windows\\System32\\spool\\drivers\\color\\_:\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Hunting%20Queries/Microsoft%20365%20Defender/Campaigns/KNOTWEED/KNOTWEED-COMRegistryKeyModifiedtoPointtoColorProfileFolder.yaml>\n\n**PE file dropped in Color Profile folder**\n\nThis query looks for PE files being created in the _C:\\Windows\\System32\\spool\\drivers\\color\\ folder_:\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Hunting%20Queries/Microsoft%20365%20Defender/Campaigns/KNOTWEED/KNOTWEED-PEFileDroppedinColorProfileFolder.yaml>\n\n**Downloading new file using Curl**\n\nThis query looks for new files being downloaded using Curl.\n\n<https://github.com/Azure/Azure-Sentinel/blob/master/Hunting%20Queries/Microsoft%20365%20Defender/Campaigns/KNOTWEED/KNOTWEED-DownloadingnewfileusingCurl.yaml>\n\nThe post [Untangling KNOTWEED: European private-sector offensive actor using 0-day exploits](<https://www.microsoft.com/security/blog/2022/07/27/untangling-knotweed-european-private-sector-offensive-actor-using-0-day-exploits/>) appeared first on [Microsoft Security Blog](<https://www.microsoft.com/security/blog>).", "cvss3": {"exploitabilityScore": 2.8, "cvssV3": {"baseSeverity": "HIGH", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "UNCHANGED", "attackVector": "NETWORK", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "NONE", "baseScore": 8.8, "vectorString": "CVSS:3.1/AV:N/AC:L/PR:N/UI:R/S:U/C:H/I:H/A:H", "version": "3.1", "userInteraction": "REQUIRED"}, "impactScore": 5.9}, "published": "2022-07-27T14:00:00", "type": "mssecure", "title": "Untangling KNOTWEED: European private-sector offensive actor using 0-day exploits", "bulletinFamily": "blog", "cvss2": {"severity": "HIGH", "exploitabilityScore": 3.9, "obtainAllPrivilege": false, "userInteractionRequired": false, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "LOW", "confidentialityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "baseScore": 7.2, "vectorString": "AV:L/AC:L/Au:N/C:C/I:C/A:C", "version": "2.0", "accessVector": "LOCAL", "authentication": "NONE"}, "impactScore": 10.0, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2021-28550", "CVE-2021-31199", "CVE-2021-31201", "CVE-2021-36948", "CVE-2022-2204", "CVE-2022-22047"], "modified": "2022-07-27T14:00:00", "id": "MSSECURE:85647D37E79AFEF2BFF74B4682648C5E", "href": "https://www.microsoft.com/security/blog/2022/07/27/untangling-knotweed-european-private-sector-offensive-actor-using-0-day-exploits/", "cvss": {"score": 7.2, "vector": "AV:L/AC:L/Au:N/C:C/I:C/A:C"}}], "rapid7blog": [{"lastseen": "2022-07-16T21:58:42", "description": "![Patch Tuesday - July 2022](https://blog.rapid7.com/content/images/2022/07/patches-2.jpg)\n\nMicrosoft\u2019s updates for [July's Patch Tuesday](<https://msrc.microsoft.com/update-guide/releaseNote/2022-Jul>) fix 86 CVEs, including two vulnerabilities in their Chromium-based Edge browser that were patched earlier in the month.\n\nOne 0-day vulnerability has been patched: [CVE-2022-22047](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>) affects all currently supported versions of Microsoft\u2019s pervasive operating system. This is an elevation-of-privilege vulnerability in the Windows Client Server Runtime Subsystem (CSRSS), a critical service that is often impersonated by malware. An attacker with an already-existing foothold can exploit this vulnerability to gain SYSTEM-level privileges. Two similar vulnerabilities in CSRSS ([CVE-2022-22049](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22049>) and [CVE-2022-22026](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22026>)) were also fixed, likely as a result of Microsoft\u2019s investigation into the in-the-wild exploitation of [CVE-2022-22047](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047>).\n\nFour critical remote code execution (RCE) vulnerabilities were fixed today. [CVE-2022-22029](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22029>) and [CVE-2022-22039](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22039>) affect network file system (NFS) servers, and [CVE-2022-22038](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22038>) affects the remote procedure call (RPC) runtime. Although all three of these will be relatively tricky for attackers to exploit due to the amount of sustained data that needs to be transmitted, administrators should patch sooner rather than later. [CVE-2022-30221](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-30221>) supposedly affects the Windows Graphics Component, though Microsoft\u2019s FAQ indicates that exploitation requires users to access a malicious RDP server.\n\nOver a third of today\u2019s vulnerabilities (a whopping 32 CVEs) affect their Azure Site Recovery offering. Anyone making use of this VMWare-to-Azure backup solution should be sure to upgrade to version 9.49 of the Microsoft Azure Site Recovery Unified Setup, available in [Update rollup 62](<https://support.microsoft.com/en-us/topic/update-rollup-62-for-azure-site-recovery-e7aff36f-b6ad-4705-901c-f662c00c402b>).\n\n## Summary charts\n\n![Patch Tuesday - July 2022](https://blog.rapid7.com/content/images/2022/07/2022-07-vuln_count_severity.png)![Patch Tuesday - July 2022](https://blog.rapid7.com/content/images/2022/07/2022-07-vuln_count_impact.png)![Patch Tuesday - July 2022](https://blog.rapid7.com/content/images/2022/07/2022-07-cvssv3_hist.png)![Patch Tuesday - July 2022](https://blog.rapid7.com/content/images/2022/07/2022-07-vuln_count_component.png)\n\n## Summary tables\n\n### Azure vulnerabilities\n\nCVE | Title | Exploited? | Publicly disclosed? | CVSSv3 base score | Has FAQ? \n---|---|---|---|---|--- \n[CVE-2022-33676](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33676>) | Azure Site Recovery Remote Code Execution Vulnerability | No | No | 7.2 | Yes \n[CVE-2022-33678](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33678>) | Azure Site Recovery Remote Code Execution Vulnerability | No | No | 7.2 | Yes \n[CVE-2022-33674](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33674>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 8.3 | Yes \n[CVE-2022-33675](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33675>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 7.8 | Yes \n[CVE-2022-33677](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33677>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 7.2 | Yes \n[CVE-2022-30181](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-30181>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 6.5 | Yes \n[CVE-2022-33641](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33641>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 6.5 | Yes \n[CVE-2022-33643](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33643>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 6.5 | Yes \n[CVE-2022-33655](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33655>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 6.5 | Yes \n[CVE-2022-33656](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33656>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 6.5 | Yes \n[CVE-2022-33657](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33657>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 6.5 | Yes \n[CVE-2022-33661](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33661>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 6.5 | Yes \n[CVE-2022-33662](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33662>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 6.5 | Yes \n[CVE-2022-33663](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33663>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 6.5 | Yes \n[CVE-2022-33665](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33665>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 6.5 | Yes \n[CVE-2022-33666](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33666>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 6.5 | Yes \n[CVE-2022-33667](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33667>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 6.5 | Yes \n[CVE-2022-33672](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33672>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 6.5 | Yes \n[CVE-2022-33673](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33673>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 6.5 | Yes \n[CVE-2022-33642](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33642>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 4.9 | Yes \n[CVE-2022-33650](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33650>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 4.9 | Yes \n[CVE-2022-33651](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33651>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 4.9 | Yes \n[CVE-2022-33653](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33653>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 4.9 | Yes \n[CVE-2022-33654](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33654>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 4.9 | Yes \n[CVE-2022-33659](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33659>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 4.9 | Yes \n[CVE-2022-33660](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33660>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 4.9 | Yes \n[CVE-2022-33664](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33664>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 4.9 | Yes \n[CVE-2022-33668](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33668>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 4.9 | Yes \n[CVE-2022-33669](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33669>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 4.9 | Yes \n[CVE-2022-33671](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33671>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 4.9 | Yes \n[CVE-2022-33652](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33652>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 4.4 | Yes \n[CVE-2022-33658](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33658>) | Azure Site Recovery Elevation of Privilege Vulnerability | No | No | 4.4 | Yes \n \n### Azure Microsoft Dynamics vulnerabilities\n\nCVE | Title | Exploited? | Publicly disclosed? | CVSSv3 base score | Has FAQ? \n---|---|---|---|---|--- \n[CVE-2022-30187](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-30187>) | Azure Storage Library Information Disclosure Vulnerability | No | No | 4.7 | Yes \n \n### Browser vulnerabilities\n\nCVE | Title | Exploited? | Publicly disclosed? | CVSSv3 base score | Has FAQ? \n---|---|---|---|---|--- \n[CVE-2022-2295](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-2295>) | Chromium: CVE-2022-2295 Type Confusion in V8 | No | No | N/A | Yes \n[CVE-2022-2294](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-2294>) | Chromium: CVE-2022-2294 Heap buffer overflow in WebRTC | No | No | N/A | Yes \n \n### Microsoft Office vulnerabilities\n\nCVE | Title | Exploited? | Publicly disclosed? | CVSSv3 base score | Has FAQ? \n---|---|---|---|---|--- \n[CVE-2022-33633](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33633>) | Skype for Business and Lync Remote Code Execution Vulnerability | No | No | 7.2 | Yes \n[CVE-2022-33632](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33632>) | Microsoft Office Security Feature Bypass Vulnerability | No | No | 4.7 | Yes \n \n### System Center vulnerabilities\n\nCVE | Title | Exploited? | Publicly disclosed? | CVSSv3 base score | Has FAQ? \n---|---|---|---|---|--- \n[CVE-2022-33637](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33637>) | Microsoft Defender for Endpoint Tampering Vulnerability | No | No | 6.5 | Yes \n \n### Windows vulnerabilities\n\nCVE | Title | Exploited? | Publicly disclosed? | CVSSv3 base score | Has FAQ? \n---|---|---|---|---|--- \n[CVE-2022-33644](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-33644>) | Xbox Live Save Service Elevation of Privilege Vulnerability | No | No | 7 | Yes \n[CVE-2022-22045](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-22045>) | Windows.Devices.Picker.dll Elevation of Privilege Vulnerability | No | No | 7.8 | Yes \n[CVE-2022-30222](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-30222>) | Windows Shell Remote Code Execution Vulnerability | No | No | 8.4 | Yes \n[CVE-2022-30216](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-30216>) | Windows Server Service Tampering Vulnerability | No | No | 8.8 | Yes \n[CVE-2022-22041](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-22041>) | Windows Print Spooler Elevation of Privilege Vulnerability | No | No | 6.8 | Yes \n[CVE-2022-30214](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-30214>) | Windows DNS Server Remote Code Execution Vulnerability | No | No | 6.6 | Yes \n[CVE-2022-22031](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-22031>) | Windows Credential Guard Domain-joined Public Key Elevation of Privilege Vulnerability | No | No | 7.8 | Yes \n[CVE-2022-30212](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-30212>) | Windows Connected Devices Platform Service Information Disclosure Vulnerability | No | No | 4.7 | Yes \n[CVE-2022-22711](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-22711>) | Windows BitLocker Information Disclosure Vulnerability | No | No | 6.7 | Yes \n[CVE-2022-22038](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-22038>) | Remote Procedure Call Runtime Remote Code Execution Vulnerability | No | No | 8.1 | Yes \n[CVE-2022-27776](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-27776>) | HackerOne: CVE-2022-27776 Insufficiently protected credentials vulnerability might leak authentication or cookie header data | No | No | N/A | Yes \n[CVE-2022-30215](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-30215>) | Active Directory Federation Services Elevation of Privilege Vulnerability | No | No | 7.5 | Yes \n \n### Windows ESU vulnerabilities\n\nCVE | Title | Exploited? | Publicly disclosed? | CVSSv3 base score | Has FAQ? \n---|---|---|---|---|--- \n[CVE-2022-30208](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-30208>) | Windows Security Account Manager (SAM) Denial of Service Vulnerability | No | No | 6.5 | No \n[CVE-2022-30206](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-30206>) | Windows Print Spooler Elevation of Privilege Vulnerability | No | No | 7.8 | Yes \n[CVE-2022-30226](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-30226>) | Windows Print Spooler Elevation of Privilege Vulnerability | No | No | 7.1 | Yes \n[CVE-2022-22022](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-22022>) | Windows Print Spooler Elevation of Privilege Vulnerability | No | No | 7.1 | Yes \n[CVE-2022-22023](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-22023>) | Windows Portable Device Enumerator Service Security Feature Bypass Vulnerability | No | No | 6.6 | Yes \n[CVE-2022-22029](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-22029>) | Windows Network File System Remote Code Execution Vulnerability | No | No | 8.1 | Yes \n[CVE-2022-22039](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-22039>) | Windows Network File System Remote Code Execution Vulnerability | No | No | 7.5 | Yes \n[CVE-2022-22028](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-22028>) | Windows Network File System Information Disclosure Vulnerability | No | No | 5.9 | Yes \n[CVE-2022-30225](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-30225>) | Windows Media Player Network Sharing Service Elevation of Privilege Vulnerability | No | No | 7.1 | Yes \n[CVE-2022-30211](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-30211>) | Windows Layer 2 Tunneling Protocol (L2TP) Remote Code Execution Vulnerability | No | No | 7.5 | Yes \n[CVE-2022-21845](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-21845>) | Windows Kernel Information Disclosure Vulnerability | No | No | 4.7 | Yes \n[CVE-2022-22025](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-22025>) | Windows Internet Information Services Cachuri Module Denial of Service Vulnerability | No | No | 7.5 | No \n[CVE-2022-30209](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-30209>) | Windows IIS Server Elevation of Privilege Vulnerability | No | No | 7.4 | Yes \n[CVE-2022-22042](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-22042>) | Windows Hyper-V Information Disclosure Vulnerability | No | No | 6.5 | Yes \n[CVE-2022-30223](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-30223>) | Windows Hyper-V Information Disclosure Vulnerability | No | No | 5.7 | Yes \n[CVE-2022-30205](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-30205>) | Windows Group Policy Elevation of Privilege Vulnerability | No | No | 6.6 | Yes \n[CVE-2022-30221](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-30221>) | Windows Graphics Component Remote Code Execution Vulnerability | No | No | 8.8 | Yes \n[CVE-2022-22034](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-22034>) | Windows Graphics Component Elevation of Privilege Vulnerability | No | No | 7.8 | Yes \n[CVE-2022-30213](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-30213>) | Windows GDI+ Information Disclosure Vulnerability | No | No | 5.5 | Yes \n[CVE-2022-22024](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-22024>) | Windows Fax Service Remote Code Execution Vulnerability | No | No | 7.8 | Yes \n[CVE-2022-22027](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-22027>) | Windows Fax Service Remote Code Execution Vulnerability | No | No | 7.8 | Yes \n[CVE-2022-22050](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-22050>) | Windows Fax Service Elevation of Privilege Vulnerability | No | No | 7.8 | Yes \n[CVE-2022-22043](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-22043>) | Windows Fast FAT File System Driver Elevation of Privilege Vulnerability | No | No | 7.8 | Yes \n[CVE-2022-30220](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-30220>) | Windows Common Log File System Driver Elevation of Privilege Vulnerability | No | No | 7.8 | Yes \n[CVE-2022-22026](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-22026>) | Windows CSRSS Elevation of Privilege Vulnerability | No | No | 8.8 | Yes \n[CVE-2022-22047](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-22047>) | Windows CSRSS Elevation of Privilege Vulnerability | Yes | No | 7.8 | Yes \n[CVE-2022-22049](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-22049>) | Windows CSRSS Elevation of Privilege Vulnerability | No | No | 7.8 | Yes \n[CVE-2022-30203](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-30203>) | Windows Boot Manager Security Feature Bypass Vulnerability | No | No | 7.4 | Yes \n[CVE-2022-22037](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-22037>) | Windows Advanced Local Procedure Call Elevation of Privilege Vulnerability | No | No | 7.5 | Yes \n[CVE-2022-30202](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-30202>) | Windows Advanced Local Procedure Call Elevation of Privilege Vulnerability | No | No | 7 | Yes \n[CVE-2022-30224](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-30224>) | Windows Advanced Local Procedure Call Elevation of Privilege Vulnerability | No | No | 7 | Yes \n[CVE-2022-22036](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-22036>) | Performance Counters for Windows Elevation of Privilege Vulnerability | No | No | 7 | Yes \n[CVE-2022-22040](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-22040>) | Internet Information Services Dynamic Compression Module Denial of Service Vulnerability | No | No | 7.3 | Yes \n[CVE-2022-22048](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-22048>) | BitLocker Security Feature Bypass Vulnerability | No | No | 6.1 | Yes \n[CVE-2022-23825](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-23825>) | AMD: CVE-2022-23825 AMD CPU Branch Type Confusion | No | No | N/A | Yes \n[CVE-2022-23816](<https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2022-23816>) | AMD: CVE-2022-23816 AMD CPU Branch Type Confusion | No | No | N/A | Yes \n \n#### NEVER MISS A BLOG\n\nGet the latest stories, expertise, and news about security today.\n\nSubscribe", "cvss3": {"exploitabilityScore": 2.0, "cvssV3": {"baseSeverity": "HIGH", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "CHANGED", "attackVector": "LOCAL", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "LOW", "baseScore": 8.8, "vectorString": "CVSS:3.1/AV:L/AC:L/PR:L/UI:N/S:C/C:H/I:H/A:H", "version": "3.1", "userInteraction": "NONE"}, "impactScore": 6.0}, "published": "2022-07-12T19:40:15", "type": "rapid7blog", "title": "Patch Tuesday - July 2022", "bulletinFamily": "info", "cvss2": {"severity": "HIGH", "exploitabilityScore": 8.0, "obtainAllPrivilege": false, "userInteractionRequired": false, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "LOW", "confidentialityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "baseScore": 9.0, "vectorString": "AV:N/AC:L/Au:S/C:C/I:C/A:C", "version": "2.0", "accessVector": "NETWORK", "authentication": "SINGLE"}, "impactScore": 10.0, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2022-21845", "CVE-2022-22022", "CVE-2022-22023", "CVE-2022-22024", "CVE-2022-22025", "CVE-2022-22026", "CVE-2022-22027", "CVE-2022-22028", "CVE-2022-22029", "CVE-2022-22031", "CVE-2022-22034", "CVE-2022-22036", "CVE-2022-22037", "CVE-2022-22038", "CVE-2022-22039", "CVE-2022-22040", "CVE-2022-22041", "CVE-2022-22042", "CVE-2022-22043", "CVE-2022-22045", "CVE-2022-22047", "CVE-2022-22048", "CVE-2022-22049", "CVE-2022-22050", "CVE-2022-22711", "CVE-2022-2294", "CVE-2022-2295", "CVE-2022-23816", "CVE-2022-23825", "CVE-2022-27776", "CVE-2022-30181", "CVE-2022-30187", "CVE-2022-30202", "CVE-2022-30203", "CVE-2022-30205", "CVE-2022-30206", "CVE-2022-30208", "CVE-2022-30209", "CVE-2022-30211", "CVE-2022-30212", "CVE-2022-30213", "CVE-2022-30214", "CVE-2022-30215", "CVE-2022-30216", "CVE-2022-30220", "CVE-2022-30221", "CVE-2022-30222", "CVE-2022-30223", "CVE-2022-30224", "CVE-2022-30225", "CVE-2022-30226", "CVE-2022-33632", "CVE-2022-33633", "CVE-2022-33637", "CVE-2022-33641", "CVE-2022-33642", "CVE-2022-33643", "CVE-2022-33644", "CVE-2022-33650", "CVE-2022-33651", "CVE-2022-33652", "CVE-2022-33653", "CVE-2022-33654", "CVE-2022-33655", "CVE-2022-33656", "CVE-2022-33657", "CVE-2022-33658", "CVE-2022-33659", "CVE-2022-33660", "CVE-2022-33661", "CVE-2022-33662", "CVE-2022-33663", "CVE-2022-33664", "CVE-2022-33665", "CVE-2022-33666", "CVE-2022-33667", "CVE-2022-33668", "CVE-2022-33669", "CVE-2022-33671", "CVE-2022-33672", "CVE-2022-33673", "CVE-2022-33674", "CVE-2022-33675", "CVE-2022-33676", "CVE-2022-33677", "CVE-2022-33678"], "modified": "2022-07-12T19:40:15", "id": "RAPID7BLOG:B54637535A9D368B19D4D9881C6C34B3", "href": "https://blog.rapid7.com/2022/07/12/patch-tuesday-july-2022/", "cvss": {"score": 9.0, "vector": "AV:N/AC:L/Au:S/C:C/I:C/A:C"}}], "ics": [{"lastseen": "2023-09-22T16:44:17", "description": "### **SUMMARY**\n\nThe following cybersecurity agencies coauthored this joint Cybersecurity Advisory (CSA):\n\n * United States: The Cybersecurity and Infrastructure Security Agency (CISA), National Security Agency (NSA), and Federal Bureau of Investigation (FBI)\n * Australia: Australian Signals Directorate\u2019s Australian Cyber Security Centre (ACSC)\n * Canada: Canadian Centre for Cyber Security (CCCS)\n * New Zealand: New Zealand National Cyber Security Centre (NCSC-NZ) and Computer Emergency Response Team New Zealand (CERT NZ)\n * United Kingdom: National Cyber Security Centre (NCSC-UK)\n\nThis advisory provides details on the Common Vulnerabilities and Exposures (CVEs) routinely and frequently exploited by malicious cyber actors in 2022 and the associated Common Weakness Enumeration(s) (CWE). In 2022, malicious cyber actors exploited older software vulnerabilities more frequently than recently disclosed vulnerabilities and targeted unpatched, internet-facing systems.\n\nThe authoring agencies strongly encourage vendors, designers, developers, and end-user organizations to implement the recommendations found within the Mitigations section of this advisory\u2014including the following\u2014to reduce the risk of compromise by malicious cyber actors.\n\n * **Vendors, designers, and developers**: Implement [secure-by-design and -default principles and tactics](<https://www.cisa.gov/resources-tools/resources/secure-by-design-and-default> \"Security-by-Design and -Default\" ) to reduce the prevalence of vulnerabilities in your software. \n * **Follow the Secure Software Development Framework (SSDF)**, also known as [SP 800-218](<https://csrc.nist.gov/publications/detail/sp/800-218/final> \"NIST SP 800-218\" ), and implement secure design practices into each stage of the software development life cycle (SDLC). As part of this, establish a coordinated vulnerability disclosure program that includes processes to determine root causes of discovered vulnerabilities.\n * **Prioritize secure-by-default configurations**, such as eliminating default passwords, or requiring addition configuration changes to enhance product security.\n * **Ensure that published CVEs include the proper CWE field** identifying the root cause of the vulnerability.\n * **End-user organizations**: \n * **Apply timely patches to systems**. **Note**: First check for signs of compromise if CVEs identified in this CSA have not been patched.\n * Implement a centralized patch management system.\n * **Use security tools, such as endpoint detection and response (EDR), web application firewalls, and network protocol analyzers**.\n * **Ask your software providers to discuss their secure by design program** and to provide links to information about how they are working to remove classes of vulnerabilities and to set secure default settings.\n\nDownload the PDF version of this report:\n\nAA23-215A PDF (PDF, 980.90 KB )\n\n### **TECHNICAL DETAILS**\n\n#### **Key Findings**\n\nIn 2022, malicious cyber actors exploited older software vulnerabilities more frequently than recently disclosed vulnerabilities and targeted unpatched, internet-facing systems. Proof of concept (PoC) code was publicly available for many of the software vulnerabilities or vulnerability chains, likely facilitating exploitation by a broader range of malicious cyber actors.\n\nMalicious cyber actors generally have the most success exploiting known vulnerabilities within the first two years of public disclosure\u2014the value of such vulnerabilities gradually decreases as software is patched or upgraded. Timely patching reduces the effectiveness of known, exploitable vulnerabilities, possibly decreasing the pace of malicious cyber actor operations and forcing pursuit of more costly and time-consuming methods (such as developing zero-day exploits or conducting software supply chain operations).\n\nMalicious cyber actors likely prioritize developing exploits for severe and globally prevalent CVEs. While sophisticated actors also develop tools to exploit other vulnerabilities, developing exploits for critical, wide-spread, and publicly known vulnerabilities gives actors low-cost, high-impact tools they can use for several years. Additionally, cyber actors likely give higher priority to vulnerabilities that are more prevalent in their specific targets\u2019 networks. Multiple CVE or CVE chains require the actor to send a malicious web request to the vulnerable device, which often includes unique signatures that can be detected through deep packet inspection.\n\n#### **Top Routinely Exploited Vulnerabilities**\n\nTable 1 shows the top 12 vulnerabilities the co-authors observed malicious cyber actors routinely exploiting in 2022:\n\n * [**CVE-2018-13379**](<https://nvd.nist.gov/vuln/detail/CVE-2018-13379> \"CVE-2018-13379\" )**. **This vulnerability, affecting Fortinet SSL VPNs, was also [routinely exploited in 2020](<https://www.cisa.gov/news-events/cybersecurity-advisories/aa21-209a> \"Top Routinely Exploited Vulnerabilities\" ) and [2021](<https://www.cisa.gov/news-events/cybersecurity-advisories/aa22-117a> \"2021 Top Routinely Exploited Vulnerabilities\" ). The continued exploitation indicates that many organizations failed to patch software in a timely manner and remain vulnerable to malicious cyber actors.\n * [**CVE-2021-34473**](<https://nvd.nist.gov/vuln/detail/CVE-2021-34473> \"CVE-2021-34473\" )**, **[**CVE-2021-31207**](<https://nvd.nist.gov/vuln/detail/CVE-2021-31207> \"CVE-2021-31207\" )**, **[**CVE-2021-34523**](<https://nvd.nist.gov/vuln/detail/CVE-2021-34523> \"CVE-2021-34523\" )**.** These vulnerabilities, known as ProxyShell, affect Microsoft Exchange email servers. In combination, successful exploitation enables a remote actor to execute arbitrary code. These vulnerabilities reside within the Microsoft Client Access Service (CAS), which typically runs on port 443 in Microsoft Internet Information Services (IIS) (e.g., Microsoft\u2019s web server). CAS is commonly exposed to the internet to enable users to access their email via mobile devices and web browsers.\n * [**CVE-2021-40539**](<https://nvd.nist.gov/vuln/detail/CVE-2021-40539> \"CVE-2021-40539\" )**.** This vulnerability enables unauthenticated remote code execution (RCE) in Zoho ManageEngine ADSelfService Plus and was linked to the usage of an outdated third-party dependency. Initial exploitation of this vulnerability [began in late 2021](<https://www.cisa.gov/news-events/cybersecurity-advisories/aa21-259a> \"APT Actors Exploiting Newly Identified Vulnerability in ManageEngine ADSelfService Plus\" ) and [continued throughout 2022](<https://media.defense.gov/2022/Oct/06/2003092365/-1/-1/0/Joint_CSA_Top_CVEs_Exploited_by_PRC_cyber_actors_.PDF> \"Top CVEs Actively Exploited By People\u2019s Republic of China State-Sponsored Cyber Actors\" ).\n * [**CVE-2021-26084**](<https://nvd.nist.gov/vuln/detail/CVE-2021-26084> \"CVE-2021-26084\" )**.** This vulnerability, affecting Atlassian Confluence Server and Data Center (a web-based collaboration tool used by governments and private companies) could enable an unauthenticated cyber actor to execute arbitrary code on vulnerable systems. This vulnerability quickly became one of the most routinely exploited vulnerabilities after a PoC was released within a week of its disclosure. Attempted mass exploitation of this vulnerability was observed in September 2021.\n * [**CVE-2021- 44228**](<https://nvd.nist.gov/vuln/detail/CVE-2021-44228> \"CVE-2021-44228\" )**.** This vulnerability, known as Log4Shell, affects Apache\u2019s Log4j library, an open-source logging framework incorporated into thousands of products worldwide. An actor can exploit this vulnerability by submitting a specially crafted request to a vulnerable system, causing the execution of arbitrary code. The request allows a cyber actor to take full control of a system. The actor can then steal information, launch ransomware, or conduct other malicious activity.[[1](<https://www.cisa.gov/news-events/news/apache-log4j-vulnerability-guidance>)] Malicious cyber actors began exploiting the vulnerability after it was publicly disclosed in December 2021, and continued to show high interest in CVE-2021- 44228 through the first half of 2022.\n * [**CVE-2022-22954**](<https://nvd.nist.gov/vuln/detail/CVE-2022-22954> \"CVE-2022-22954\" ), [**CVE-2022-22960**](<https://nvd.nist.gov/vuln/detail/CVE-2022-22960> \"CVE-2022-22960\" )**.** These vulnerabilities allow RCE, privilege escalation, and authentication bypass in VMware Workspace ONE Access, Identity Manager, and other VMware products. A malicious cyber actor with network access could trigger a server-side template injection that may result in remote code execution**. **Exploitation of CVE-2022-22954 and CVE-2022-22960 [began in early 2022](<https://www.cisa.gov/news-events/cybersecurity-advisories/aa22-138b> \"Threat Actors Chaining Unpatched VMware Vulnerabilities for Full System Control\" ) and attempts continued throughout the remainder of the year.\n * [**CVE-2022-1388**](<https://nvd.nist.gov/vuln/detail/CVE-2022-1388> \"CVE-2022-1388\" )**.** This vulnerability allows unauthenticated malicious cyber actors to bypass iControl REST authentication** **on F5 BIG-IP application delivery and security software**.**\n * [**CVE-2022-30190**](<https://nvd.nist.gov/vuln/detail/CVE-2022-30190> \"CVE-2022-30190\" )**.** This vulnerability impacts the Microsoft Support Diagnostic Tool (MSDT) in Windows. A remote, unauthenticated cyber actor could exploit this vulnerability to take control of an affected system.\n * [**CVE-2022-26134**](<https://nvd.nist.gov/vuln/detail/CVE-2022-26134> \"CVE-2022-26134\" ). This critical RCE vulnerability affects Atlassian Confluence and Data Center. The vulnerability, which was likely initially exploited as a zero-day before public disclosure in June 2022, is related to an older Confluence vulnerability ([CVE-2021-26084](<https://nvd.nist.gov/vuln/detail/CVE-2021-26084> \"CVE-2021-26084\" )), which cyber actors also exploited in 2022.\n_Table 1: Top 12 Routinely Exploited Vulnerabilities in 2022_\n\n**CVE**\n\n| \n\n**Vendor**\n\n| \n\n**Product**\n\n| \n\n**Type**\n\n| \n\n**CWE** \n \n---|---|---|---|--- \n \n[CVE-2018-13379](<https://nvd.nist.gov/vuln/detail/CVE-2018-13379> \"CVE-2018-13379\" )\n\n| \n\nFortinet\n\n| \n\nFortiOS and FortiProxy\n\n| \n\nSSL VPN credential exposure\n\n| \n\n[CWE-22 Improper Limitation of a Pathname to a Restricted Directory ('Path Traversal')](<https://cwe.mitre.org/data/definitions/22.html> \"CWE-22: Improper Limitation of a Pathname to a Restricted Directory \$'Path Traversal'\$\" ) \n \n[CVE-2021-34473](<https://nvd.nist.gov/vuln/detail/CVE-2021-34473> \"CVE-2021-34473\" )\n\n(Proxy Shell)\n\n| \n\nMicrosoft\n\n| \n\nExchange Server\n\n| \n\nRCE\n\n| \n\n[CWE-918 Server-Side Request Forgery (SSRF)](<https://cwe.mitre.org/data/definitions/918.html> \"CWE-918: Server-Side Request Forgery \$SSRF\$\" ) \n \n[CVE-2021-31207](<https://nvd.nist.gov/vuln/detail/CVE-2021-31207> \"CVE-2021-31207\" )\n\n(Proxy Shell)\n\n| \n\nMicrosoft\n\n| \n\nExchange Server\n\n| \n\nSecurity Feature Bypass\n\n| \n\n[CWE-22 Improper Limitation of a Pathname to a Restricted Directory ('Path Traversal')](<https://cwe.mitre.org/data/definitions/22.html> \"CWE-22: Improper Limitation of a Pathname to a Restricted Directory \$'Path Traversal'\$\" ) \n \n[CVE-2021-34523](<https://nvd.nist.gov/vuln/detail/CVE-2021-34523> \"CVE-2021-34523\" )\n\n(Proxy Shell)\n\n| \n\nMicrosoft\n\n| \n\nExchange Server\n\n| \n\nElevation of Privilege\n\n| \n\n[CWE-287 Improper Authentication](<https://cwe.mitre.org/data/definitions/287.html> \"CWE-287: Improper Authentication\" ) \n \n[CVE-2021-40539](<https://nvd.nist.gov/vuln/detail/CVE-2021-40539> \"CVE-2021-40539\" )\n\n| \n\nZoho ManageEngine\n\n| \n\nADSelfService Plus\n\n| \n\nRCE/\n\nAuthentication Bypass\n\n| \n\n[CWE-287 Improper Authentication](<https://cwe.mitre.org/data/definitions/287.html> \"CWE-287: Improper Authentication\" ) \n \n[CVE-2021-26084](<https://nvd.nist.gov/vuln/detail/CVE-2021-26084> \"CVE-2021-26084\" )\n\n| \n\nAtlassian\n\n| \n\nConfluence Server and Data Center\n\n| \n\nArbitrary code execution\n\n| \n\n[CWE-74 Improper Neutralization of Special Elements in Output Used by a Downstream Component ('Injection')](<https://cwe.mitre.org/data/definitions/74.html> \"CWE-74: Improper Neutralization of Special Elements in Output Used by a Downstream Component \$'Injection'\$\" ) \n \n[CVE-2021- 44228](<https://nvd.nist.gov/vuln/detail/CVE-2021-44228> \"CVE-2021-44228\" )\n\n(Log4Shell)\n\n| \n\nApache\n\n| \n\nLog4j2\n\n| \n\nRCE\n\n| \n\n[CWE-917 Improper Neutralization of Special Elements used in an Expression Language Statement ('Expression Language Injection')](<https://cwe.mitre.org/data/definitions/917.html> \"CWE-917: Improper Neutralization of Special Elements used in an Expression Language Statement \$'Expression Language Injection'\$\" )\n\n[CWE-20 Improper Input Validation](<https://cwe.mitre.org/data/definitions/20.html> \"CWE-20: Improper Input Validation\" )\n\n[CWE-400 Uncontrolled Resource Consumption](<https://cwe.mitre.org/data/definitions/400.html> \"CWE-400: Uncontrolled Resource Consumption\" )\n\n[CWE-502 Deserialization of Untrusted Data](<https://cwe.mitre.org/data/definitions/502.html> \"CWE-502: Deserialization of Untrusted Data\" ) \n \n[CVE-2022-22954](<https://nvd.nist.gov/vuln/detail/CVE-2022-22954> \"CVE-2022-22954\" )\n\n| \n\nVMware\n\n| \n\nWorkspace ONE Access and Identity Manager\n\n| \n\nRCE\n\n| \n\n[CWE-94 Improper Control of Generation of Code ('Code Injection')](<https://cwe.mitre.org/data/definitions/94.html> \"CWE-94: Improper Control of Generation of Code \$'Code Injection'\$\" ) \n \n[CVE-2022-22960](<https://nvd.nist.gov/vuln/detail/CVE-2022-22960> \"CVE-2022-22960\" )\n\n| \n\nVMware\n\n| \n\nWorkspace ONE Access, Identity Manager, and vRealize Automation\n\n| \n\nImproper Privilege Management\n\n| \n\n[CWE-269 Improper Privilege Management](<https://cwe.mitre.org/data/definitions/269.html> \"CWE-269: Improper Privilege Management\" ) \n \n[CVE-2022-1388](<https://nvd.nist.gov/vuln/detail/CVE-2022-1388> \"CVE-2022-1388\" )\n\n| \n\nF5 Networks\n\n| \n\nBIG-IP\n\n| \n\nMissing Authentication Vulnerability\n\n| \n\n[CWE-306 Missing Authentication for Critical Function](<https://cwe.mitre.org/data/definitions/306.html> \"CWE-306: Missing Authentication for Critical Function\" ) \n \n[CVE-2022-30190](<https://nvd.nist.gov/vuln/detail/CVE-2022-30190> \"CVE-2022-30190\" )\n\n| \n\nMicrosoft\n\n| \n\nMultiple Products\n\n| \n\nRCE\n\n| \n\nNone Listed \n \n[CVE-2022-26134](<https://nvd.nist.gov/vuln/detail/CVE-2022-26134> \"CVE-2022-26134\" )\n\n| \n\nAtlassian\n\n| \n\nConfluence Server and Data Center\n\n| \n\nRCE\n\n| \n\n[CWE-74 Improper Neutralization of Special Elements in Output Used by a Downstream Component ('Injection')](<https://cwe.mitre.org/data/definitions/74.html> \"CWE-74: Improper Neutralization of Special Elements in Output Used by a Downstream Component \$'Injection'\$\" ) \n \n#### **Additional Routinely Exploited Vulnerabilities**\n\nIn addition to the 12 vulnerabilities listed in Table 1, the authoring agencies identified vulnerabilities\u2014listed in Table 2\u2014that were also routinely exploited by malicious cyber actors in 2022.\n\n_Table 2: Additional Routinely Exploited Vulnerabilities in 2022_\n\n**CVE**\n\n| \n\n**Vendor**\n\n| \n\n**Product**\n\n| \n\n**Type**\n\n| \n\n**CWE** \n \n---|---|---|---|--- \n \n[CVE-2017-0199](<https://nvd.nist.gov/vuln/detail/CVE-2017-0199> \"CVE-2017-0199\" )\n\n| \n\nMicrosoft\n\n| \n\nMultiple Products\n\n| \n\nArbitrary Code Execution\n\n| \n\nNone Listed \n \n[CVE-2017-11882](<https://nvd.nist.gov/vuln/detail/CVE-2017-11882> \"CVE-2017-11882\" )\n\n| \n\nMicrosoft\n\n| \n\nExchange Server\n\n| \n\nArbitrary Code Execution\n\n| \n\n[CWE-119: Improper Restriction of Operations within the Bounds of a Memory Buffer](<https://cwe.mitre.org/data/definitions/119.html> \"CWE-119: Improper Restriction of Operations within the Bounds of a Memory Buffer\" ) \n \n[CVE-2019-11510](<https://nvd.nist.gov/vuln/detail/CVE-2019-11510> \"CVE-2019-11510\" )\n\n| \n\nIvanti\n\n| \n\nPulse Secure Pulse Connect Secure\n\n| \n\nArbitrary File Reading\n\n| \n\n[CWE-22: Improper Limitation of a Pathname to a Restricted Directory ('Path Traversal')](<https://cwe.mitre.org/data/definitions/22.html> \"CWE-22: Improper Limitation of a Pathname to a Restricted Directory \$'Path Traversal'\$\" ) \n \n[CVE-2019-0708](<https://nvd.nist.gov/vuln/detail/CVE-2019-0708> \"CVE-2019-0708\" )\n\n| \n\nMicrosoft\n\n| \n\nRemote Desktop Services\n\n| \n\nRCE\n\n| \n\n[CWE-416: Use After Free](<https://cwe.mitre.org/data/definitions/416.html> \"CWE-416: Use After Free\" ) \n \n[CVE-2019-19781](<https://nvd.nist.gov/vuln/detail/CVE-2019-19781> \"CVE-2019-19781\" )\n\n| \n\nCitrix\n\n| \n\nApplication Delivery Controller and Gateway\n\n| \n\nArbitrary Code Execution\n\n| \n\n[CWE-22: Improper Limitation of a Pathname to a Restricted Directory ('Path Traversal')](<https://cwe.mitre.org/data/definitions/22.html> \"CWE-22: Improper Limitation of a Pathname to a Restricted Directory \$'Path Traversal'\$\" ) \n \n[CVE-2020-5902](<https://nvd.nist.gov/vuln/detail/CVE-2020-5902> \"CVE-2020-5902\" )\n\n| \n\nF5 Networks\n\n| \n\nBIG-IP\n\n| \n\nRCE\n\n| \n\n[CWE-22: Improper Limitation of a Pathname to a Restricted Directory ('Path Traversal')](<https://cwe.mitre.org/data/definitions/22.html> \"CWE-22: Improper Limitation of a Pathname to a Restricted Directory \$'Path Traversal'\$\" ) \n \n[CVE-2020-1472](<https://nvd.nist.gov/vuln/detail/CVE-2020-1472> \"CVE-2020-1472\" )\n\n| \n\nMicrosoft\n\n| \n\nMultiple Products\n\n| \n\nPrivilege Escalation\n\n| \n\n[CWE-330: Use of Insufficiently Random Values](<https://cwe.mitre.org/data/definitions/330.html> \"CWE-330: Use of Insufficiently Random Values\" ) \n \n[CVE-2020-14882](<https://nvd.nist.gov/vuln/detail/CVE-2020-14882> \"CVE-2020-14882\" )\n\n| \n\nOracle\n\n| \n\nWebLogic Server\n\n| \n\nRCE\n\n| \n\nNone Listed \n \n[CVE-2020-14883](<https://nvd.nist.gov/vuln/detail/CVE-2020-14883> \"CVE-2020-14883\" )\n\n| \n\nOracle\n\n| \n\nWebLogic Server\n\n| \n\nRCE\n\n| \n\nNone Listed \n \n[CVE-2021-20016](<https://nvd.nist.gov/vuln/detail/CVE-2021-20016> \"CVE-2021-20016\" )\n\n| \n\nSonicWALL\n\n| \n\nSSLVPN SMA100\n\n| \n\nSQL Injection\n\n| \n\n[CWE-89: Improper Neutralization of Special Elements used in an SQL Command ('SQL Injection')](<https://cwe.mitre.org/data/definitions/89.html> \"CWE-89: Improper Neutralization of Special Elements used in an SQL Command \$'SQL Injection'\$\" ) \n \n[CVE-2021-26855](<https://nvd.nist.gov/vuln/detail/CVE-2021-26855> \"CVE-2021-26855\" )\n\n(ProxyLogon)\n\n| \n\nMicrosoft\n\n| \n\nExchange Server\n\n| \n\nRCE\n\n| \n\n[CWE-918: Server-Side Request Forgery (SSRF)](<https://cwe.mitre.org/data/definitions/918.html> \"CWE-918: Server-Side Request Forgery \$SSRF\$\" ) \n \n[CVE-2021-27065](<https://nvd.nist.gov/vuln/detail/CVE-2021-27065> \"CVE-2021-27065\" )\n\n(ProxyLogon)\n\n| \n\nMicrosoft\n\n| \n\nExchange Server\n\n| \n\nRCE\n\n| \n\n[CWE-22: Improper Limitation of a Pathname to a Restricted Directory ('Path Traversal')](<https://cwe.mitre.org/data/definitions/22.html> \"CWE-22: Improper Limitation of a Pathname to a Restricted Directory \$'Path Traversal'\$\" ) \n \n[CVE-2021-26858](<https://nvd.nist.gov/vuln/detail/CVE-2021-26858> \"CVE-2021-26858\" )\n\n(ProxyLogon)\n\n| \n\nMicrosoft\n\n| \n\nExchange Server\n\n| \n\nRCE\n\n| \n\nNone Listed \n \n[CVE-2021-26857](<https://nvd.nist.gov/vuln/detail/CVE-2021-26857> \"CVE-2021-26857\" )\n\n(ProxyLogon)\n\n| \n\nMicrosoft\n\n| \n\nExchange Server\n\n| \n\nRCE\n\n| \n\n[CWE-502: Deserialization of Untrusted Data](<https://cwe.mitre.org/data/definitions/502.html> \"CWE-502: Deserialization of Untrusted Data\" ) \n \n[CVE-2021-20021](<https://nvd.nist.gov/vuln/detail/CVE-2021-20021> \"CVE-2021-20021\" )\n\n| \n\nSonicWALL\n\n| \n\nEmail Security\n\n| \n\nPrivilege Escalation Exploit Chain\n\n| \n\n[CWE-269: Improper Privilege Management](<https://cwe.mitre.org/data/definitions/269.html> \"CWE-269: Improper Privilege Management\" ) \n \n[CVE-2021-40438](<https://nvd.nist.gov/vuln/detail/CVE-2021-40438> \"CVE-2021-40438\" )\n\n| \n\nApache\n\n| \n\nHTTP Server\n\n| \n\nServer-Side Request Forgery\n\n| \n\n[CWE-918: Server-Side Request Forgery (SSRF)](<https://cwe.mitre.org/data/definitions/918.html> \"CWE-918: Server-Side Request Forgery \$SSRF\$\" ) \n \n[CVE-2021-41773](<https://nvd.nist.gov/vuln/detail/CVE-2021-41773> \"CVE-2021-41773\" )\n\n| \n\nApache\n\n| \n\nHTTP Server\n\n| \n\nServer Path Traversal\n\n| \n\n[CWE-22: Improper Limitation of a Pathname to a Restricted Directory ('Path Traversal')](<https://cwe.mitre.org/data/definitions/22.html> \"\u00a0CWE-22: Improper Limitation of a Pathname to a Restricted Directory \$'Path Traversal'\$\" ) \n \n[CVE-2021-42013](<https://nvd.nist.gov/vuln/detail/CVE-2021-42013> \"CVE-2021-42013\" )\n\n| \n\nApache\n\n| \n\nHTTP Server\n\n| \n\nServer Path Traversal\n\n| \n\n[CWE-22: Improper Limitation of a Pathname to a Restricted Directory ('Path Traversal')](<https://cwe.mitre.org/data/definitions/22.html> \"CWE-22: Improper Limitation of a Pathname to a Restricted Directory \$'Path Traversal'\$\" ) \n \n[CVE-2021-20038](<https://nvd.nist.gov/vuln/detail/CVE-2021-20038> \"CVE-2021-20038\" )\n\n| \n\nSonicWall\n\n| \n\nSMA 100 Series Appliances\n\n| \n\nStack-based Buffer Overflow\n\n| \n\n[CWE-787: Out-of-bounds Write](<https://cwe.mitre.org/data/definitions/787.html> \"CWE-787: Out-of-bounds Write\" )\n\n[CWE-121: Stack-based Buffer Overflow](<http://cwe.mitre.org/data/definitions/121.html> \"CWE-121: Stack-based Buffer Overflow\" ) \n \n[CVE-2021-45046](<https://nvd.nist.gov/vuln/detail/CVE-2021-45046> \"CVE-2021-45046\" )\n\n| \n\nApache\n\n| \n\nLog4j\n\n| \n\nRCE\n\n| \n\n[CWE-917: Improper Neutralization of Special Elements used in an Expression Language Statement ('Expression Language Injection')](<https://cwe.mitre.org/data/definitions/917.html> \"CWE-917: Improper Neutralization of Special Elements used in an Expression Language Statement \$'Expression Language Injection'\$\" ) \n \n[CVE-2022-42475](<https://nvd.nist.gov/vuln/detail/CVE-2022-42475> \"CVE-2022-42475\" )\n\n| \n\nFortinet\n\n| \n\nFortiOS\n\n| \n\nHeap-based Buffer Overflow\n\n| \n\n[CWE-787: Out-of-bounds Write](<https://cwe.mitre.org/data/definitions/787.html> \"CWE-787: Out-of-bounds Write\" ) \n \n[CVE-2022-24682](<https://nvd.nist.gov/vuln/detail/CVE-2022-24682> \"CVE-2022-24682\" )\n\n| \n\nZimbra\n\n| \n\nCollaboration Suite\n\n| \n\n\u2018Cross-site Scripting\u2019\n\n| \n\n[CWE-79: Improper Neutralization of Input During Web Page Generation ('Cross-site Scripting')](<https://cwe.mitre.org/data/definitions/79.html> \"CWE-79: Improper Neutralization of Input During Web Page Generation \$'Cross-site Scripting'\$\" ) \n \n[CVE-2022-22536](<https://nvd.nist.gov/vuln/detail/CVE-2022-22536> \"CVE-2022-22536\" )\n\n| \n\nSAP\n\n| \n\nInternet Communication Manager (ICM)\n\n| \n\nHTTP Request Smuggling\n\n| \n\n[CWE-444: Inconsistent Interpretation of HTTP Requests ('HTTP Request/Response Smuggling')](<https://cwe.mitre.org/data/definitions/444.html> \"CWE-444: Inconsistent Interpretation of HTTP Requests \$'HTTP Request/Response Smuggling'\$\" ) \n \n[CVE-2022-22963](<https://nvd.nist.gov/vuln/detail/CVE-2022-22963> \"CVE-2022-22963\" )\n\n| \n\nVMware Tanzu\n\n| \n\nSpring Cloud\n\n| \n\nRCE\n\n| \n\n[CWE-94: Improper Control of Generation of Code ('Code Injection')](<https://cwe.mitre.org/data/definitions/94.html> \"CWE-94: Improper Control of Generation of Code \$'Code Injection'\$\" )\n\n[CWE-917: Improper Neutralization of Special Elements used in an Expression Language Statement ('Expression Language Injection')](<https://cwe.mitre.org/data/definitions/917.html> \"CWE-917: Improper Neutralization of Special Elements used in an Expression Language Statement \$'Expression Language Injection'\$\" ) \n \n[CVE-2022-29464](<https://nvd.nist.gov/vuln/detail/CVE-2022-29464> \"CVE-2022-29464\" )\n\n| \n\nWSO2\n\n| \n\nMultiple Products\n\n| \n\nRCE\n\n| \n\n[CWE-434: Unrestricted Upload of File with Dangerous Type](<https://cwe.mitre.org/data/definitions/434.html> \"CWE-434: Unrestricted Upload of File with Dangerous Type\" ) \n \n[CVE-2022-27924](<https://nvd.nist.gov/vuln/detail/CVE-2022-27924> \"CVE-2022-27924\" )\n\n| \n\nZimbra\n\n| \n\nZimbra Collaboration Suite\n\n| \n\nCommand Injection\n\n| \n\n[CWE-74: Improper Neutralization of Special Elements in Output Used by a Downstream Component ('Injection')](<https://cwe.mitre.org/data/definitions/74.html> \"CWE-74: Improper Neutralization of Special Elements in Output Used by a Downstream Component \$'Injection'\$\" ) \n \n[CVE-2022-22047](<https://nvd.nist.gov/vuln/detail/CVE-2022-22047> \"CVE-2022-22047\" )\n\n| \n\nMicrosoft\n\n| \n\nWindows CSRSS\n\n| \n\nElevation of Privilege\n\n| \n\n[CWE-269: Improper Privilege Management](<https://cwe.mitre.org/data/definitions/269.html> \"CWE-269: Improper Privilege Management\" ) \n \n[CVE-2022-27593](<https://nvd.nist.gov/vuln/detail/CVE-2022-27593> \"CVE-2022-27593\" )\n\n| \n\nQNAP\n\n| \n\nQNAP NAS\n\n| \n\nExternally Controlled Reference\n\n| \n\n[CWE-610: Externally Controlled Reference to a Resource in Another Sphere](<https://cwe.mitre.org/data/definitions/610.html> \"CWE-610: Externally Controlled Reference to a Resource in Another Sphere\" ) \n \n[CVE-2022-41082](<https://nvd.nist.gov/vuln/detail/CVE-2022-41082> \"CVE-2022-41082\" )\n\n| \n\nMicrosoft\n\n| \n\nExchange Server\n\n| \n\nPrivilege Escalation\n\n| \n\nNone Listed \n \n[CVE-2022-40684](<https://nvd.nist.gov/vuln/detail/CVE-2022-40684> \"CVE-2022-40684\" )\n\n| \n\nFortinet\n\n| \n\nFortiOS, FortiProxy, FortiSwitchManager\n\n| \n\nAuthentication Bypass\n\n| \n\n[CWE-306: Missing Authentication for Critical Function](<https://cwe.mitre.org/data/definitions/306.html> \"CWE-306: Missing Authentication for Critical Function\" ) \n \n### **MITIGATIONS**\n\n#### **Vendors and Developers**\n\nThe authoring agencies recommend vendors and developers take the following steps to ensure their products are secure by design and default:\n\n * **Identify repeatedly exploited classes of vulnerability. **Perform an analysis of both CVEs and known exploited vulnerabilities to understand which classes of vulnerability are identified more than others. Implement appropriate mitigations to eliminate those classes of vulnerability. For example, if a product has several instances of SQL injection vulnerabilities, ensure all database queries in the product use parameterized queries, and prohibit other forms of queries.\n * **Ensure business leaders are responsible for security. **Business leaders should ensure that proactive steps to eliminate entire classes of security vulnerabilities, rather than only making one-off patches when new vulnerabilities are discovered.\n * **Follow the SSDF** ([SP 800-218](<https://csrc.nist.gov/publications/detail/sp/800-218/final> \"NIST SP 800-218\" )_)_ and implement secure design practices into each stage of the SDLC. Pay attention to: \n * Prioritizing the use of memory safe languages wherever possible [[SSDF PW 6.1](<https://nvlpubs.nist.gov/nistpubs/SpecialPublications/NIST.SP.800-218.pdf> \"NIST Special Publication 800-218\" )].\n * Exercising due diligence when selecting software components (e.g., software libraries, modules, middleware, frameworks) to ensure robust security in consumer software products [[SSDF PW 4.1](<https://nvlpubs.nist.gov/nistpubs/SpecialPublications/NIST.SP.800-218.pdf> \"NIST Special Publication 800-218\" )].\n * Setting up secure development team practices; this includes conducting peer code reviews, working to a common organization secure coding standard, and maintaining awareness of language specific security concerns [[SSDF PW.5.1, PW.7.1, PW.7.2](<https://nvlpubs.nist.gov/nistpubs/SpecialPublications/NIST.SP.800-218.pdf> \"NIST Special Publication 800-218\" )].\n * Establishing a [vulnerability disclosure program](<https://www.cyber.gov.au/resources-business-and-government/governance-and-user-education/governance/vulnerability-disclosure-programs-explained> \"Vulnerability Disclosure Programs Explained\" ) to verify and resolve security vulnerabilities disclosed by people who may be internal or external to the organization [[SSDF RV.1.3](<https://nvlpubs.nist.gov/nistpubs/SpecialPublications/NIST.SP.800-218.pdf> \"NIST Special Publication 800-218\" )]. As part of this, establish processes to determine root causes of discovered vulnerabilities.\n * Using static and dynamic application security testing (SAST/DAST) tools to analyze product source code and application behavior to detect error-prone practices [[SSDF PW.7.2, PW.8.2](<https://nvlpubs.nist.gov/nistpubs/SpecialPublications/NIST.SP.800-218.pdf> \"NIST Special Publication 800-218\" )].\n * Configuring production-ready products to have to most secure settings as default and providing guidance on the risks of changing each setting [[SSDF PW.9.1, PW9.2](<https://nvlpubs.nist.gov/nistpubs/SpecialPublications/NIST.SP.800-218.pdf> \"NIST Special Publication 800-218\" )]\n * **Prioritize secure-by-default configurations** such as eliminating default passwords, implementing single sign on (SSO) technology via modern open standards, and providing high-quality audit logs to customers with no additional configuration and at no extra charge.\n * **Ensure published CVEs include the proper CWE field identifying the root cause of the vulnerability **to enable industry-wide analysis of software security and design flaws.\n\nFor more information on designing secure-by-design and -default products, including additional recommended secure-by-default configurations, see joint guide [Shifting the Balance of Cybersecurity Risk: Principles and Approaches for Security-by-Design and -Default](<https://www.cisa.gov/resources-tools/resources/secure-by-design-and-default> \"Security-by-Design and -Default\" ).\n\n#### **End-User Organizations**\n\nThe authoring agencies recommend end-user organizations implement the mitigations below to improve cybersecurity posture on the basis of the threat actors\u2019 activity. These mitigations align with the cross-sector Cybersecurity Performance Goals (CPGs) developed by CISA and the National Institute of Standards and Technology (NIST). The CPGs provide a minimum set of practices and protections that CISA and NIST recommend all organizations implement. CISA and NIST based the CPGs on existing cybersecurity frameworks and guidance to protect against the most common and impactful threats, tactics, techniques, and procedures. Visit CISA\u2019s [Cross-Sector Cybersecurity Performance Goals](<https://www.cisa.gov/cross-sector-cybersecurity-performance-goals> \"Cross-Sector Cybersecurity Performance Goals\" ) for more information on CPGs, including additional recommended baseline protections.\n\n#### **_Vulnerability and Configuration Management_**\n\n * **Update software, operating systems, applications, and firmware on IT network assets in a timely manner** [CPG 1.E]. Prioritize patching [known exploited vulnerabilities](<https://www.cisa.gov/known-exploited-vulnerabilities-catalog> \"Known Exploited Vulnerabilities Catalog\" ), especially those CVEs identified in this CSA, then critical and high vulnerabilities that allow for remote code execution or denial-of-service on internet-facing equipment. For patch information on CVEs identified in this CSA, refer to the appendix. \n * If a patch for a known exploited or critical vulnerability cannot be quickly applied, implement vendor-approved workarounds.\n * Replace end-of-life software (i.e., software no longer supported by the vendor).\n * **Routinely perform automated asset discovery** across the entire estate to identify and catalogue all the systems, services, hardware and software.\n * **Implement a robust patch management process **and centralized patch management system that establishes prioritization of patch applications [CPG 1.A]. \n * Organizations that are unable to perform rapid scanning and patching of internet-facing systems should consider moving these services to mature, reputable cloud service providers (CSPs) or other managed service providers (MSPs). Reputable MSPs can patch applications\u2014such as webmail, file storage, file sharing, and chat and other employee collaboration tools\u2014for their customers. However, MSPs and CSPs can expand their customer\u2019s attack surface and may introduce unanticipated risks, so organizations should proactively collaborate with their MSPs and CSPs to jointly reduce risk [CPG 1.F]. For more information and guidance, see the following resources. \n * CISA Insights Risk Considerations for Managed Service Provider Customers\n * CISA Insights Mitigations and Hardening Guidance for MSPs and Small- and Mid-sized Businesses\n * ACSC advice on [How to Manage Your Security When Engaging a Managed Service Provider](<https://www.cyber.gov.au/resources-business-and-government/maintaining-devices-and-systems/outsourcing-and-procurement/managed-services/how-manage-your-security-when-engaging-managed-service-provider> \"How to Manage Your Security When Engaging a Managed Service Provider\" )\n * **Document secure baseline configurations for all IT/OT components**, including cloud infrastructure. Monitor, examine, and document any deviations from the initial secure baseline [CPG 2.O].\n * **Perform regular secure system backups** and create known good copies of all device configurations for repairs and/or restoration. Store copies off-network in physically secure locations and test regularly [CPG 2.R].\n * **Maintain an updated cybersecurity incident response plan** that is tested at least annually and updated within a risk informed time frame to ensure its effectiveness [CPG 2.S].\n\n#### **_Identity and Access Management_**\n\n * **Enforce phishing-resistant multifactor authentication (MFA) for all users**, without exception. [CPG 2.H].\n * **Enforce MFA on all VPN connections**. If MFA is unavailable, require employees engaging in remote work to use strong passwords [CPG 2.A, 2.B, 2.C, 2.D, 2.G].\n * **Regularly review, validate, or remove privileged accounts** (annually at a minimum) [CPG 2.D, 2.E].\n * **Configure access control under the principle of least privilege** [CPG 2.Q]. \n * Ensure software service accounts only provide necessary permissions (least privilege) to perform intended functions (using non-administrative privileges where feasible). \n**Note:** See CISA\u2019s Capacity Enhancement Guide \u2013 Implementing Strong Authentication and ACSC\u2019s guidance on [Implementing Multi-Factor Authentication](<https://www.cyber.gov.au/resources-business-and-government/maintaining-devices-and-systems/system-hardening-and-administration/system-hardening/implementing-multi-factor-authentication> \"Implementing Multi-Factor Authentication\" ) for more information on authentication system hardening.\n\n#### **_Protective Controls and Architecture_**\n\n * **Properly configure and secure internet-facing network devices**, disable unused or unnecessary network ports and protocols, encrypt network traffic, and disable unused network services and devices [CPG 2.V, 2.W, 2X]. \n * Harden commonly exploited enterprise network services, including Link-Local Multicast Name Resolution (LLMNR) protocol, Remote Desktop Protocol (RDP), Common Internet File System (CIFS), Active Directory, and OpenLDAP.\n * Manage Windows Key Distribution Center (KDC) accounts (e.g., KRBTGT) to minimize Golden Ticket attacks and Kerberoasting.\n * Strictly control the use of native scripting applications, such as command-line, PowerShell, WinRM, Windows Management Instrumentation (WMI), and Distributed Component Object Model (DCOM).\n * **Implement Zero Trust Network Architecture (ZTNA)** to limit or block lateral movement by controlling access to applications, devices, and databases. Use private virtual local area networks [CPG 2.F, 2.X]. **Note:** See the Department of Defense\u2019s [Zero Trust Reference Architecture](<https://dodcio.defense.gov/Portals/0/Documents/Library/\$U\$ZT_RA_v2.0\$U\$_Sep22.pdf> \"Department of Defense \$DoD\$ Zero Trust Reference Architecture\" ) for additional information on Zero Trust.\n * **Continuously monitor the attack surface** and investigate abnormal activity that may indicate cyber actor or malware lateral movement [CPG 2.T]. \n * Use security tools, such as endpoint detection and response (EDR) and security information and event management (SIEM) tools. Consider using an information technology asset management (ITAM) solution to ensure EDR, SIEM, vulnerability scanner, and other similar tools are reporting the same number of assets [CPG 2.T, 2.V].\n * Use web application firewalls to monitor and filter web traffic. These tools are commercially available via hardware, software, and cloud-based solutions, and may detect and mitigate exploitation attempts where a cyber actor sends a malicious web request to an unpatched device [CPG 2.B, 2.F].\n * Implement an administrative policy and/or automated process configured to monitor unwanted hardware, software, or programs against an allowlist with specified approved versions [CPG 2.Q].\n * Use a network protocol analyzer to examine captured data, including packet-level data.\n\n#### **_Supply Chain Security_**\n\n * **Reduce third-party applications and unique system/application builds**\u2014provide exceptions only if required to support business critical functions [CPG 2.Q].\n * Ensure contracts require vendors and/or third-party service providers to: \n * Provide notification of security incidents and vulnerabilities within a risk informed time frame [CPG 1.G, 1.H, 1.I].\n * Supply a Software Bill of Materials (SBOM) with all products to enhance vulnerability monitoring and to help reduce time to respond to identified vulnerabilities [CPG 4.B].\n * **Ask your software providers to discuss their secure by design program** and to provide links to information about how they are working to remove classes of vulnerabilities, and to set secure default settings.\n\n### **RESOURCES**\n\n * For information on the top vulnerabilities routinely exploited in 2016 through 2019, 2020, and 2021, see: \n * Joint CSA [Top 10 Routinely Exploited Vulnerabilities](<https://www.cisa.gov/news-events/cybersecurity-advisories/aa20-133a> \"Top 10 Routinely Exploited Vulnerabilities\" )\n * Joint CSA [Top Routinely Exploited Vulnerabilities](<https://www.cisa.gov/uscert/ncas/alerts/aa21-209a> \"Top Routinely Exploited Vulnerabilities\" )\n * Joint CSA [2021 Top Routinely Exploited Vulnerabilities](<https://www.cisa.gov/news-events/cybersecurity-advisories/aa22-117a> \"2021 Top Routinely Exploited Vulnerabilities\" )\n * See the appendix for additional partner resources on the vulnerabilities mentioned in this CSA.\n * See ACSC\u2019s [Essential Eight mitigation strategies](<https://www.cyber.gov.au/resources-business-and-government/essential-cyber-security/essential-eight/essential-eight-maturity-model> \"Essential Eight Maturity Model\" ) for additional mitigations.\n * See ACSC\u2019s [Cyber Supply Chain Risk Management](<https://www.cyber.gov.au/resources-business-and-government/maintaining-devices-and-systems/outsourcing-and-procurement/cyber-supply-chains/cyber-supply-chain-risk-management> \"Cyber Supply Chain Risk Management\" ) for additional considerations and advice.\n\n### DISCLAIMER\n\nThe information in this report is being provided \u201cas is\u201d for informational purposes only. CISA, FBI, NSA, ACSC, CCCS, NCSC-NZ, CERT NZ, and NCSC-UK do not endorse any commercial product or service, including any subjects of analysis. Any reference to specific commercial products, processes, or services by service mark, trademark, manufacturer, or otherwise, does not constitute or imply endorsement, recommendation, or favoring.\n\n### **PURPOSE**\n\nThis document was developed by CISA, NSA, FBI, ACSC, CCCS, NCSC-NZ, CERT NZ, and NCSC-UK in furtherance of their respective cybersecurity missions, including their responsibilities to develop and issue cybersecurity specifications and mitigations.\n\n### **REFERENCES**\n\n[1] [Apache Log4j Vulnerability Guidance](<https://www.cisa.gov/news-events/news/apache-log4j-vulnerability-guidance> \"Apache Log4j Vulnerability Guidance\" )\n\n### **VERSION HISTORY**\n\nAugust 3, 2023: Initial version.\n\n### **APPENDIX: PATCH INFORMATION AND ADDITIONAL RESOURCES FOR TOP EXPLOITED VULNERABILITIES**\n\n**CVE**\n\n| \n\n**Vendor**\n\n| \n\n**Affected Products and Versions**\n\n| \n\n**Patch Information**\n\n| \n\n**Resources** \n \n---|---|---|---|--- \n \n[CVE-2017-0199](<https://nvd.nist.gov/vuln/detail/CVE-2017-0199> \"CVE-2017-0199\" )\n\n| \n\nMicrosoft\n\n| \n\nMultiple Products\n\n| \n\n[Microsoft Office/WordPad Remote Code Execution Vulnerability w/Windows](<https://msrc.microsoft.com/update-guide/en-US/vulnerability/CVE-2017-0199> \"Microsoft Office/WordPad Remote Code Execution Vulnerability w/Windows\" )\n\n| \n \n[CVE-2017-11882](<https://nvd.nist.gov/vuln/detail/CVE-2017-11882> \"CVE-2017-11882\" )\n\n| \n\nMicrosoft\n\n| \n\nOffice, Multiple Versions\n\n| \n\n[Microsoft Office Memory Corruption Vulnerability, CVE-2017-11882](<https://msrc.microsoft.com/update-guide/en-US/vulnerability/CVE-2017-11882> \"Microsoft Office Memory Corruption Vulnerability\" )\n\n| \n \n[CVE-2018-13379](<https://nvd.nist.gov/vuln/detail/CVE-2018-13379> \"CVE-2018-13379\" )\n\n| \n\nFortinet\n\n| \n\nFortiOS and FortiProxy 2.0.2, 2.0.1, 2.0.0, 1.2.8, 1.2.7, 1.2.6, 1.2.5, 1.2.4, 1.2.3, 1.2.2, 1.2.1, 1.2.0, 1.1.6\n\n| \n\n[FortiProxy - system file leak through SSL VPN special crafted HTTP resource requests](<https://www.fortiguard.com/psirt/FG-IR-20-233> \"FortiProxy - system file leak through SSL VPN special crafted HTTP resource requests\" )\n\n| \n\nJoint CSAs:\n\n[Iranian Government-Sponsored APT Cyber Actors Exploiting Microsoft Exchange and Fortinet Vulnerabilities in Furtherance of Malicious Activities](<https://www.cisa.gov/news-events/cybersecurity-advisories/aa21-321a> \"Iranian Government-Sponsored APT Cyber Actors Exploiting Microsoft Exchange and Fortinet Vulnerabilities in Furtherance of Malicious Activities\" )\n\n[Russian State-Sponsored Cyber Actors Target Cleared Defense Contractor Networks to Obtain Sensitive U.S. Defense Information and Technology](<https://www.cisa.gov/news-events/cybersecurity-advisories/aa22-047a> \"Russian State-Sponsored Cyber Actors Target Cleared Defense Contractor Networks to Obtain Sensitive U.S. Defense Information and Technology\" )\n\n[APT Actors Chaining Vulnerabilities Against SLTT, Critical Infrastructure, and Elections Organizations](<https://www.cisa.gov/news-events/cybersecurity-advisories/aa20-283a> \"APT Actors Chaining Vulnerabilities Against SLTT, Critical Infrastructure, and Elections Organizations\" ) \n \n[CVE-2019-11510](<https://nvd.nist.gov/vuln/detail/CVE-2019-11510> \"CVE-2019-11510\" )\n\n| \n\nIvanti\n\n| \n\nPulse Secure Pulse Connect Secure versions, 9.0R1 to 9.0R3.3, 8.3R1 to 8.3R7, and 8.2R1 to 8.2R12\n\n| \n\n[SA44101 - 2019-04: Out-of-Cycle Advisory: Multiple vulnerabilities resolved in Pulse Connect Secure / Pulse Policy Secure 9.0RX](<https://forums.ivanti.com/s/article/SA44101?language=en_US> \"SA44101 - 2019-04: Out-of-Cycle Advisory: Multiple vulnerabilities resolved in Pulse Connect Secure / Pulse Policy Secure 9.0RX\" )\n\n| \n\nCISA Alerts:\n\n[Continued Exploitation of Pulse Secure VPN Vulnerability](<https://www.cisa.gov/news-events/cybersecurity-advisories/aa20-010a> \"Continued Exploitation of Pulse Secure VPN Vulnerability\" )\n\n[Chinese Ministry of State Security-Affiliated Cyber Threat Actor Activity](<https://www.cisa.gov/news-events/cybersecurity-advisories/aa20-258a> \"Chinese Ministry of State Security-Affiliated Cyber Threat Actor Activity\" )\n\nACSC Advisory:\n\n[2019-129: Recommendations to mitigate vulnerability in Pulse Connect Secure VPN Software](<https://www.cyber.gov.au/about-us/advisories/2019-129-recommendations-mitigate-vulnerability-pulse-connect-secure-vpn-software> \"2019-129: Recommendations to mitigate vulnerability in Pulse Connect Secure VPN Software\" )\n\nJoint CSA:\n\n[APT Actors Chaining Vulnerabilities Against SLTT, Critical Infrastructure, and Elections Organizations](<https://www.cisa.gov/news-events/cybersecurity-advisories/aa20-283a> \"APT Actors Chaining Vulnerabilities Against SLTT, Critical Infrastructure, and Elections Organizations\" )\n\n_CCCS Alert:_\n\n[APT Actors Target U.S. and Allied Networks - Update 1](<https://www.cyber.gc.ca/en/alerts/apt-actors-target-us-and-allied-networks-nsacisafbi> \"Alert - APT Actors Target U.S. and Allied Networks - update 1\" ) \n \n[CVE-2019-0708](<https://nvd.nist.gov/vuln/detail/CVE-2019-0708> \"CVE-2019-0708\" )\n\n| \n\nMicrosoft\n\n| \n\nRemote Desktop Services\n\n| \n\n[Remote Desktop Services Remote Code Execution Vulnerability](<https://msrc.microsoft.com/update-guide/en-US/vulnerability/CVE-2019-0708> \"Remote Desktop Services Remote Code Execution Vulnerability\" )\n\n| \n \n[CVE-2019-19781](<https://nvd.nist.gov/vuln/detail/CVE-2019-19781> \"CVE-2019-19781\" )\n\n| \n\nCitrix\n\n| \n\nADC and Gateway version 13.0 all supported builds before 13.0.47.24\n\nNetScaler ADC and NetScaler Gateway, version 12.1 all supported builds before 12.1.55.18; version 12.0 all supported builds before 12.0.63.13; version 11.1 all supported builds before 11.1.63.15; version 10.5 all supported builds before 10.5.70.12\n\nSD-WAN WANOP appliance models 4000-WO, 4100-WO, 5000-WO, and 5100-WO all supported software release builds before 10.2.6b and 11.0.3b\n\n| \n\n[CVE-2019-19781 - Vulnerability in Citrix Application Delivery Controller, Citrix Gateway, and Citrix SD-WAN WANOP appliance](<https://support.citrix.com/article/CTX267027/cve201919781-vulnerability-in-citrix-application-delivery-controller-citrix-gateway-and-citrix-sdwan-wanop-appliance> \"CVE-2019-19781 - Vulnerability in Citrix Application Delivery Controller, Citrix Gateway, and Citrix SD-WAN WANOP appliance\" )\n\n| \n\nJoint CSAs:\n\n[APT Actors Chaining Vulnerabilities Against SLTT, Critical Infrastructure, and Elections Organizations](<https://www.cisa.gov/news-events/cybersecurity-advisories/aa20-283a> \"APT Actors Chaining Vulnerabilities Against SLTT, Critical Infrastructure, and Elections Organizations\" )\n\n[Chinese Ministry of State Security-Affiliated Cyber Threat Actor Activity](<https://www.cisa.gov/news-events/cybersecurity-advisories/aa20-258a> \"Chinese Ministry of State Security-Affiliated Cyber Threat Actor Activity\" )\n\n_CCCS Alert:_\n\n[Detecting Compromises relating to Citrix CVE-2019-19781](<https://www.cyber.gc.ca/en/alerts/detecting-compromises-relating-citrix-cve-2019-19781-0> \"Alert - Detecting Compromises relating to Citrix CVE-2019-19781\" ) \n \n[CVE-2020-5902](<https://nvd.nist.gov/vuln/detail/CVE-2020-5902> \"CVE-2020-5902\" )\n\n| \n\nF5\n\n| \n\nBIG IP versions 15.1.0, 15.0.0 to 15.0.1, 14.1.0 to 14.1.2, 13.1.0 to 13.1.3, 12.1.0 to 12.1.5, and 11.6.1 to 11.6.5\n\n| \n\n[K52145254: TMUI RCE vulnerability CVE-2020-5902](<https://my.f5.com/manage/s/article/K52145254> \"K52145254: TMUI RCE vulnerability CVE-2020-5902\" )\n\n| \n\nCISA Alert:\n\n[Threat Actor Exploitation of F5 BIG-IP CVE-2020-5902](<https://www.cisa.gov/news-events/cybersecurity-advisories/aa20-206a> \"Threat Actor Exploitation of F5 BIG-IP CVE-2020-5902\" ) \n \n[CVE-2020-1472](<https://nvd.nist.gov/vuln/detail/CVE-2020-1472> \"CVE-2020-1472\" )\n\n| \n\nMicrosoft\n\n| \n\nWindows Server, Multiple Versions\n\n| \n\n[Microsoft Security Update Guide: Netlogon Elevation of Privilege Vulnerability, CVE-2020-1472](<https://msrc.microsoft.com/update-guide/en-US/vulnerability/CVE-2020-1472> \"Netlogon Elevation of Privilege Vulnerability\" )\n\n| \n\nACSC Advisory:\n\n[2020-016: Netlogon Elevation of Privilege Vulnerability (CVE-2020-1472)](<https://www.cyber.gov.au/about-us/advisories/advisory-2020-016-zerologon-netlogon-elevation-privilege-vulnerability-cve-2020-1472> \"Advisory 2020-016: \"Zerologon\" - Netlogon Elevation of Privilege Vulnerability \$CVE-2020-1472\$\" )\n\nJoint CSA:\n\n[APT Actors Chaining Vulnerabilities Against SLTT, Critical Infrastructure, and Elections Organizations](<https://www.cisa.gov/news-events/cybersecurity-advisories/aa20-283a> \"APT Actors Chaining Vulnerabilities Against SLTT, Critical Infrastructure, and Elections Organizations\" )\n\n_CCCS Alert:_\n\n[Microsoft Netlogon Elevation of Privilege Vulnerability - CVE-2020-1472 - Update 1](<https://www.cyber.gc.ca/en/alerts/microsoft-netlogon-elevation-privilege-vulnerability-cve-2020-1472> \"Alert - Microsoft Netlogon Elevation of Privilege Vulnerability - CVE-2020-1472 - update 1\" ) \n \n[CVE-2020-14882](<https://nvd.nist.gov/vuln/detail/CVE-2020-14882> \"CVE-2020-14882\" )\n\n| \n\nOracle\n\n| \n\nWebLogic Server, versions 10.3.6.0.0, 12.1.3.0.0, 12.2.1.3.0, 12.2.1.4.0, 14.1.1.0.0\n\n| \n\n[Oracle Critical Patch Update Advisory - October 2020](<https://www.oracle.com/security-alerts/cpuoct2020traditional.html> \"Oracle Critical Patch Update Advisory - October 2020\" )\n\n| \n \n[CVE-2020-14883](<https://nvd.nist.gov/vuln/detail/CVE-2020-14883> \"CVE-2020-14883\" )\n\n| \n\nOracle\n\n| \n\nWebLogic Server, versions 10.3.6.0.0, 12.1.3.0.0, 12.2.1.3.0, 12.2.1.4.0, 14.1.1.0.0\n\n| \n\n[Oracle Critical Patch Update Advisory - October 2020](<https://www.oracle.com/security-alerts/cpuoct2020traditional.html> \"Oracle Critical Patch Update Advisory - October 2020\" )\n\n| \n \n[CVE-2021-20016](<https://nvd.nist.gov/vuln/detail/CVE-2021-20016> \"CVE-2021-20016\" )\n\n| \n\nSonicWALL\n\n| \n\nSSLVPN SMA100, Build Version 10.x\n\n| \n\n[Confirmed Zero-day vulnerability in the SonicWall SMA100 build version 10.x](<https://psirt.global.sonicwall.com/vuln-detail/SNWLID-2021-0001> \"CONFIRMED ZERO-DAY VULNERABILITY IN THE SONICWALL SMA100 BUILD VERSION 10.X\" )\n\n| \n \n[CVE-2021-26855](<https://nvd.nist.gov/vuln/detail/CVE-2021-26855> \"CVE-2021-26855\" )\n\n| \n\nMicrosoft\n\n| \n\nExchange Server, Multiple Versions\n\n| \n\n[Microsoft Exchange Server Remote Code Execution Vulnerability, CVE-2021-26855](<https://msrc.microsoft.com/update-guide/en-US/vulnerability/CVE-2021-26855> \"Microsoft Exchange Server Remote Code Execution Vulnerability\" )\n\n| \n\nCISA Alert:\n\n[Mitigate Microsoft Exchange Server Vulnerabilities](<https://www.cisa.gov/news-events/cybersecurity-advisories/aa21-062a> \"Mitigate Microsoft Exchange Server Vulnerabilities\" ) \n \n[CVE-2021-26857](<https://nvd.nist.gov/vuln/detail/CVE-2021-26857>) | Microsoft | Exchange Server, Multiple Versions | [Microsoft Exchange Server Remote Code Execution Vulnerability, CVE-2021-26857](<https://msrc.microsoft.com/update-guide/en-US/vulnerability/CVE-2021-26857>) | \n\nCISA Alert:\n\n[Mitigate Microsoft Exchange Server Vulnerabilities](<https://www.cisa.gov/news-events/cybersecurity-advisories/aa21-062a>) \n \n[CVE-2021-26858](<https://nvd.nist.gov/vuln/detail/CVE-2021-26858> \"CVE-2021-26858\" )\n\n| \n\nMicrosoft\n\n| \n\nExchange Server, Multiple Versions\n\n| \n\n[Microsoft Exchange Server Remote Code Execution Vulnerability, CVE-2021-26858](<https://msrc.microsoft.com/update-guide/en-US/vulnerability/CVE-2021-26858> \"Microsoft Exchange Server Remote Code Execution Vulnerability\" )\n\n| \n\nCISA Alert:\n\n[Mitigate Microsoft Exchange Server Vulnerabilities](<https://www.cisa.gov/news-events/cybersecurity-advisories/aa21-062a> \"Mitigate Microsoft Exchange Server Vulnerabilities\" ) \n \n[CVE-2021-27065](<https://nvd.nist.gov/vuln/detail/CVE-2021-27065> \"CVE-2021-27065\" )\n\n| \n\nMicrosoft\n\n| \n\nMultiple Products\n\n| \n\n[Microsoft Exchange Server Remote Code Execution Vulnerability, CVE-2021-27065](<https://msrc.microsoft.com/update-guide/en-US/vulnerability/CVE-2021-27065> \"Microsoft Exchange Server Remote Code Execution Vulnerability\" )\n\n| \n\nCISA Alert:\n\n[Mitigate Microsoft Exchange Server Vulnerabilities](<https://www.cisa.gov/news-events/cybersecurity-advisories/aa21-062a> \"Mitigate Microsoft Exchange Server Vulnerabilities\" ) \n \n[CVE-2021-20021](<https://nvd.nist.gov/vuln/detail/CVE-2021-20021> \"CVE-2021-20021\" )\n\n| \n\nSonicWALL\n\n| \n\nEmail Security version 10.0.9.x Email Security\n\n| \n\n[SonicWall Email Security pre-authentication administrative account creation vulnerability](<https://psirt.global.sonicwall.com/vuln-detail/SNWLID-2021-0007> \"SONICWALL EMAIL SECURITY PRE-AUTHENTICATION ADMINISTRATIVE ACCOUNT CREATION VULNERABILITY\" )\n\n| \n \n[CVE-2021-31207](<https://nvd.nist.gov/vuln/detail/CVE-2021-31207> \"CVE-2021-31207\" )\n\n| \n\nMicrosoft\n\n| \n\nExchange Server, Multiple Versions\n\n| \n\n[Microsoft Exchange Server Security Feature Bypass Vulnerability, CVE-2021-31207](<https://msrc.microsoft.com/update-guide/en-US/vulnerability/CVE-2021-31207> \"Microsoft Exchange Server Security Feature Bypass Vulnerability\" )\n\n| \n\nCISA Alert:\n\n[Urgent: Protect Against Active Exploitation of ProxyShell Vulnerabilities](<https://www.cisa.gov/news-events/alerts/2021/08/21/urgent-protect-against-active-exploitation-proxyshell-vulnerabilities> \"Urgent: Protect Against Active Exploitation of ProxyShell Vulnerabilities\" )\n\nACSC Alert:\n\n[Microsoft Exchange ProxyShell Targeting in Australia](<https://www.cyber.gov.au/about-us/alerts/microsoft-exchange-proxyshell-targeting-australia> \"Microsoft Exchange ProxyShell Targeting in Australia\" ) \n \n[CVE-2022-26134](<https://nvd.nist.gov/vuln/detail/CVE-2022-26134> \"CVE-2022-26134\" )\n\n| \n\nAtlassian\n\n| \n\nConfluence Server and Data Center, versions: 7.4.17, 7.13.7, 7.14.3, 7.15.2, 7.16.4, 7.17.4, 7.18.1\n\n| \n\n[Confluence Security Advisory 2022-06-02](<https://confluence.atlassian.com/doc/confluence-security-advisory-2022-06-02-1130377146.html> \"Confluence Security Advisory 2022-06-02\" )\n\n| \n\nCISA Alert:\n\n[CISA Adds One Known Exploited Vulnerability (CVE-2022-26134) to Catalog](<https://www.cisa.gov/news-events/alerts/2022/06/02/cisa-adds-one-known-exploited-vulnerability-cve-2022-26134-catalog> \"CISA Adds One Known Exploited Vulnerability \$CVE-2022-26134\$ to Catalog\u202f\u202f\" )\n\nACSC Alert:\n\n[Remote code execution vulnerability present in Atlassian Confluence Server and Data Center](<https://www.cyber.gov.au/about-us/alerts/remote-code-execution-vulnerability-present-certain-versions-atlassian-confluence> \"Remote code execution vulnerability present in Atlassian Confluence Server and Data Center\" ) \n \n[CVE-2021-34473](<https://nvd.nist.gov/vuln/detail/CVE-2021-34473> \"CVE-2021-34473\" )\n\n| \n\nMicrosoft\n\n| \n\nExchange Server, Multiple Version\n\n| \n\n[Microsoft Exchange Server Remote Code Execution Vulnerability, CVE-2021-34473](<https://msrc.microsoft.com/update-guide/en-US/vulnerability/CVE-2021-34473> \"Microsoft Exchange Server Remote Code Execution Vulnerability\" )\n\n| \n\nJoint CSA:\n\n[Iranian Government-Sponsored APT Cyber Actors Exploiting Microsoft Exchange and Fortinet Vulnerabilities in Furtherance of Malicious Activities](<https://www.cisa.gov/news-events/cybersecurity-advisories/aa21-321a> \"Iranian Government-Sponsored APT Cyber Actors Exploiting Microsoft Exchange and Fortinet Vulnerabilities in Furtherance of Malicious Activities\" ) \n \n[CVE-2021-34523](<https://nvd.nist.gov/vuln/detail/CVE-2021-34523> \"CVE-2021-34523\" )\n\n| \n\nMicrosoft\n\n| \n\nMicrosoft Exchange Server 2013 Cumulative Update 23\n\nMicrosoft Exchange Server 2016 Cumulative Updates 19 and 20\n\nMicrosoft Exchange Server 2019 Cumulative Updates 8 and 9\n\n| \n\n[Microsoft Exchange Server Elevation of Privilege Vulnerability, CVE-2021-34523](<https://msrc.microsoft.com/update-guide/en-US/vulnerability/CVE-2021-34523> \"Microsoft Exchange Server Elevation of Privilege Vulnerability\" )\n\n| \n\nCISA Alert:\n\n[Urgent: Protect Against Active Exploitation of ProxyShell Vulnerabilities](<https://www.cisa.gov/news-events/alerts/2021/08/21/urgent-protect-against-active-exploitation-proxyshell-vulnerabilities> \"Urgent: Protect Against Active Exploitation of ProxyShell Vulnerabilities\" ) \n \n[CVE-2021-26084](<https://nvd.nist.gov/vuln/detail/CVE-2021-26084> \"CVE-2021-26084\" )\n\n| \n\nJira Atlassian\n\n| \n\nConfluence Server and Data Center, versions 6.13.23, from version 6.14.0 before 7.4.11, from version 7.5.0 before 7.11.6, and from version 7.12.0 before 7.12.5.\n\n| \n\n[Jira Atlassian: Confluence Server Webwork OGNL injection - CVE-2021-26084](<https://jira.atlassian.com/browse/CONFSERVER-67940> \"Confluence Server Webwork OGNL injection - CVE-2021-26084\" )\n\n| \n\nCISA Alert:\n\n[Atlassian Releases Security Updates for Confluence Server and Data Center](<https://www.cisa.gov/news-events/alerts/2021/09/03/atlassian-releases-security-updates-confluence-server-and-data-center> \"Atlassian Releases Security Updates for Confluence Server and Data Center\" ) \n \n[CVE-2021-40539](<https://nvd.nist.gov/vuln/detail/CVE-2021-40539> \"CVE-2021-40539\" )\n\n| \n\nZoho ManageEngineCorp.\n\n| \n\nManageEngine ADSelfService Plus builds up to 6113\n\n| \n\n[Security advisory - ADSelfService Plus authentication bypass vulnerability](<https://www.manageengine.com/products/self-service-password/advisory/CVE-2021-40539.html> \"Security advisory - ADSelfService Plus authentication bypass vulnerability\" )\n\n| \n\nACSC Alert:\n\n[Critical vulnerability in ManageEngine ADSelfService Plus exploited by cyber actors](<https://www.cyber.gov.au/about-us/alerts/critical-vulnerability-manageengine-adselfservice-plus-exploited-cyber-actors> \"Critical vulnerability in ManageEngine ADSelfService Plus exploited by cyber actors\" ) \n \n[CVE-2021-40438](<https://nvd.nist.gov/vuln/detail/CVE-2021-40438> \"CVE-2021-40438\" )\n\n| \n\nApache\n\n| \n\nHTTP Server 2.4.48\n\n| | \n \n[CVE-2021-41773](<https://nvd.nist.gov/vuln/detail/CVE-2021-41773> \"CVE-2021-41773\" )\n\n| \n\nApache\n\n| \n\nApache HTTP Server 2.4.49\n\n| \n\n[Apache HTTP Server 2.4 vulnerabilities](<https://httpd.apache.org/security/vulnerabilities_24.html> \"Apache HTTP Server 2.4 vulnerabilities\" )\n\n| \n \n[CVE-2021-42013](<https://nvd.nist.gov/vuln/detail/CVE-2021-42013> \"CVE-2021-42013\" )\n\n| \n\nApache\n\n| \n\nApache HTTP Server 2.4.50\n\n| \n\n[Apache HTTP Server 2.4 vulnerabilities](<https://httpd.apache.org/security/vulnerabilities_24.html> \"Apache HTTP Server 2.4 vulnerabilities\" )\n\n| \n \n[CVE-2021-20038](<https://nvd.nist.gov/vuln/detail/CVE-2021-20038> \"CVE-2021-20038\" )\n\n| \n\nSonicWall\n\n| \n\nSMA 100 Series (SMA 200, 210, 400, 410, 500v), versions 10.2.0.8-37sv, 10.2.1.1-19sv, 10.2.1.2-24svSMA 100 series appliances\n\n| \n\n[SonicWall patches multiple SMA100 affected vulnerabilities](<https://psirt.global.sonicwall.com/vuln-detail/SNWLID-2021-0026> \"SONICWALL PATCHES MULTIPLE SMA100 AFFECTED VULNERABILITIES\" )\n\n| \n\nACSC Alert:\n\n[Remote code execution vulnerability present in SonicWall SMA 100 series appliances](<https://www.cyber.gov.au/about-us/alerts/remote-code-execution-vulnerability-present-sonicwall-sma-100-series-appliances>)\n\n_CCCS Alert:_\n\n[SonicWall Security Advisory](<https://www.cyber.gc.ca/en/alerts/sonicwall-security-advisory-4> \"SonicWall security advisory\" ) \n \n[CVE-2021- 44228](<https://nvd.nist.gov/vuln/detail/CVE-2021-44228> \"CVE-2021-44228\" )\n\n| \n\nApache\n\n| \n\nLog4j, all versions from 2.0-beta9 to 2.14.1\n\n[For other affected vendors and products, see CISA's GitHub repository.](<https://github.com/cisagov/log4j-affected-db>)\n\n| \n\n[Apache Log4j Security Vulnerabilities](<https://logging.apache.org/log4j/2.x/security.html> \"Apache Log4j Security Vulnerabilities\" )\n\nFor additional information, see joint CSA: [Mitigating Log4Shell and Other Log4j-Related Vulnerabilities](<https://www.cisa.gov/news-events/cybersecurity-advisories/aa21-356a> \"Mitigating Log4Shell and Other Log4j-Related Vulnerabilities\" )\n\n| \n\nCISA webpage:\n\n[Apache Log4j Vulnerability Guidance](<https://www.cisa.gov/news-events/news/apache-log4j-vulnerability-guidance> \"Apache Log4j Vulnerability Guidance\" )\n\n_CCCS Alert:_\n\n[Active exploitation of Apache Log4j vulnerability - Update 7](<https://www.cyber.gc.ca/en/alerts/active-exploitation-apache-log4j-vulnerability> \"Alert - Active exploitation of Apache Log4j vulnerability - update 7\" )\n\nACSC Advisory:\n\n[2021-007: Log4j vulnerability \u2013 advice and mitigations](<https://www.cyber.gov.au/about-us/advisories/2021-007-log4j-vulnerability-advice-and-mitigations> \"2021-007: Log4j vulnerability \u2013 advice and mitigations\" )\n\nACSC Publication:\n\n[Log4j: What Boards and Directors Need to Know](<https://www.cyber.gov.au/resources-business-and-government/governance-and-user-education/governance/log4j-what-boards-and-directors-need-know> \"Log4j: What Boards and Directors Need to Know\" ) \n \n[CVE-2021-45046](<https://nvd.nist.gov/vuln/detail/CVE-2021-45046> \"CVE-2021-45046\" )\n\n| \n\nApache\n\n| \n\nLog4j 2.15.0Log4j\n\n| \n\n[Apache Log4j Security Vulnerabilities](<https://logging.apache.org/log4j/2.x/security.html> \"Apache Log4j Security Vulnerabilities\" )\n\n| \n \n[CVE-2022-42475](<https://nvd.nist.gov/vuln/detail/CVE-2022-42475> \"CVE-2022-42475\" )\n\n| \n\nFortinet\n\n| \n\nFortiOS SSL-VPN 7.2.0 through 7.2.2, 7.0.0 through 7.0.8, 6.4.0 through 6.4.10, 6.2.0 through 6.2.11, 6.0.15 and earlier and\n\nFortiProxy SSL-VPN 7.2.0 through 7.2.1, 7.0.7 and earlier\n\n| \n\n[FortiOS - heap-based buffer overflow in sslvpnd](<https://www.fortiguard.com/psirt/FG-IR-22-398> \"FortiOS - heap-based buffer overflow in sslvpnd\" )\n\n| \n \n[CVE-2022-24682](<https://nvd.nist.gov/vuln/detail/CVE-2022-24682> \"CVE-2022-24682\" )\n\n| \n\nZimbra\n\n| \n\nZimbra Collaboration Suite 8.8.x before 8.8.15 patch 30 (update 1) Collaboration Suite\n\n| \n\n[Zimbra Collaboration Joule 8.8.15 Patch 30 GA Release](<https://wiki.zimbra.com/wiki/Zimbra_Releases/8.8.15/P30> \"Zimbra Collaboration Joule 8.8.15 Patch 30 GA Release\" )\n\n| \n \n[CVE-2022-22536 ](<https://nvd.nist.gov/vuln/detail/CVE-2022-22536> \"CVE-2022-22536\" )\n\n| \n\nSAP\n\n| \n\nNetWeaver Application Server ABAP, SAP NetWeaver Application Server Java, ABAP Platform, SAP Content Server 7.53, and SAP Web Dispatcher Internet Communication Manager (ICM)\n\n| \n\n[Remediation of CVE-2022-22536 Request smuggling and request concatenation in SAP NetWeaver, SAP Content Server and SAP Web Dispatcher](<https://blogs.sap.com/2022/02/11/remediation-of-cve-2022-22536-request-smuggling-and-request-concatenation-in-sap-netweaver-sap-content-server-and-sap-web-dispatcher/> \"Remediation of CVE-2022-22536 Request smuggling and request concatenation in SAP NetWeaver, SAP Content Server and SAP Web Dispatcher\" )\n\n| \n\nCISA Alert:\n\n[Critical Vulnerabilities Affecting SAP Applications Employing Internet Communication Manager (ICM)](<https://www.cisa.gov/news-events/alerts/2022/02/08/critical-vulnerabilities-affecting-sap-applications-employing> \"Critical Vulnerabilities Affecting SAP Applications Employing Internet Communication Manager \$ICM\$\" ) \n \n[CVE-2022-22963](<https://nvd.nist.gov/vuln/detail/CVE-2022-22963> \"CVE-2022-22963\" )\n\n| \n\nVMware Tanzumware Tanzu\n\n| \n\nSpring Cloud Function versions 3.1.6, 3.2.2, and older unsupported versions\n\n| \n\n[CVE-2022-22963: Remote code execution in Spring Cloud Function by malicious Spring Expression](<https://spring.io/security/cve-2022-22963> \"CVE-2022-22963: Remote code execution in Spring Cloud Function by malicious Spring Expression\" )\n\n| \n \n[CVE-2022-22954](<https://nvd.nist.gov/vuln/detail/CVE-2022-22954> \"CVE-2022-22954\" )\n\n| \n\nVMware\n\n| \n\nWorkspace ONE Access, versions 21.08.0.1, 21.08.0.0, 20.10.0.1, 20.10.0.0\n\nIdentity Manager (vIDM) 3.3.6, 3.3.5, 3.3.4, 3.3.3\n\nvRealize Automation (vIDM), 8.x, 7.6\n\nVMware Cloud Foundation (vIDM), 4.x\n\nvRealize Suite Lifecycle Manager (vIDM), 8.xWorkspace\n\nONE Access and Identity Manager\n\n| \n\n[VMware Advisory VMSA-2022-0011](<https://www.vmware.com/security/advisories/VMSA-2022-0011.html> \"VMSA-2022-0011\" )\n\n| \n \n[CVE-2022-22960](<https://nvd.nist.gov/vuln/detail/CVE-2022-22960> \"CVE-2022-22960\" )\n\n| \n\nVMware\n\n| \n\nWorkspace ONE Access, versions 21.08.0.1, 21.08.0.0, 20.10.0.1, 20.10.0.0\n\nIdentity Manager (vIDM) and vRealize Automation3.3.6, 3.3.5, 3.3.4, 3.3.3\n\nvRealize Automation (vIDM), 8.x, 7.6\n\nVMware Cloud Foundation (vIDM), 4.x\n\nVMware Cloud Foundation (vRA), 3.x\n\nvRealize Suite Lifecycle Manager (vIDM), 8.x\n\n| \n\n[VMSA-2022-0011](<https://www.vmware.com/security/advisories/VMSA-2022-0011.html> \"VMSA-2022-0011\" )\n\n| \n \n[CVE-2022-29464](<https://nvd.nist.gov/vuln/detail/CVE-2022-29464> \"CVE-2022-29464\" )\n\n| \n\nAtlassianWSO2\n\n| \n\nWSO2 API Manager 2.2.0 and above through 4.0.0\n\nWSO2 Identity Server 5.2.0 and above through 5.11.0 \n\nWSO2 Identity Server Analytics 5.4.0, 5.4.1, 5.5.0, and 5.6.0\n\nWSO2 Identity Server as Key Manager 5.3.0 and above through 5.10.0\n\nWSO2 Enterprise Integrator 6.2.0 and above through 6.6.0\n\n| \n\n[WSO2 Documentation - Spaces](<https://wso2docs.atlassian.net/wiki/spaces> \"Spaces\" )\n\n| \n \n[CVE-2022-27924](<https://nvd.nist.gov/vuln/detail/CVE-2022-27924> \"CVE-2022-27924\" )\n\n| \n\nZimbra\n\n| \n\nZimbra Collaboration Suite, 8.8.15 and 9.0\n\n| \n\n[Zimbra Collaboration Kepler 9.0.0 Patch 24.1 GA Release](<https://wiki.zimbra.com/wiki/Zimbra_Releases/9.0.0/P24.1#Security_Fixes> \"Zimbra Collaboration Kepler 9.0.0 Patch 24.1 GA Release\" )\n\n| \n \n[CVE-2022-1388](<https://nvd.nist.gov/vuln/detail/CVE-2022-1388> \"CVE-2022-1388\" )\n\n| \n\nF5 Networks\n\n| \n\nF5 BIG-IP 16.1.x versions prior to 16.1.2.2, 15.1.x versions prior to 15.1.5.1, 14.1.x versions prior to 14.1.4.6, 13.1.x versions prior to 13.1.5, and All 12.1.x and 11.6.x versions\n\n| \n\n[K23605346: BIG-IP iControl REST vulnerability CVE-2022-1388](<https://my.f5.com/manage/s/article/K23605346> \"K23605346: BIG-IP iControl REST vulnerability CVE-2022-1388\" )\n\n| \n\nJoint CSA:\n\n[Threat Actors Exploiting F5 BIG-IP CVE-2022-1388](<https://www.cisa.gov/news-events/cybersecurity-advisories/aa22-138a> \"Threat Actors Exploiting F5 BIG-IP CVE-2022-1388\" ) \n \n[CVE-2022-30190](<https://nvd.nist.gov/vuln/detail/CVE-2022-30190> \"CVE-2022-30190\" )\n\n| \n\nMicrosoft\n\n| \n\nExchange Server, Multiple Versions\n\n| | \n\nCISA Alert:\n\n[Microsoft Releases Workaround Guidance for MSDT \"Follina\" Vulnerability](<https://www.cisa.gov/news-events/alerts/2022/05/31/microsoft-releases-workaround-guidance-msdt-follina-vulnerability> \"Microsoft Releases Workaround Guidance for MSDT \"Follina\" Vulnerability\" ) \n \n[CVE-2022-22047](<https://nvd.nist.gov/vuln/detail/CVE-2022-22047> \"CVE-2022-22047\" )\n\n| \n\nMicrosoft\n\n| \n\nMultiple Products\n\n| \n\n[Windows Client Server Run-time Subsystem (CSRSS) Elevation of Privilege Vulnerability, CVE-2022-22047](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-22047> \"Windows Client Server Run-time Subsystem \$CSRSS\$ Elevation of Privilege Vulnerability\" )\n\n| \n \n[CVE-2022-27593](<https://nvd.nist.gov/vuln/detail/CVE-2022-27593> \"CVE-2022-27593\" )\n\n| \n\nQNAP\n\n| \n\nCertain QNAP NAS running Photo Station with internet exposure Ausustor Network Attached Storage\n\n| \n\n[DeadBolt Ransomware](<https://www.qnap.com/en/security-advisory/qsa-22-24> \"DeadBolt Ransomware\" )\n\n| \n \n[CVE-2022-41082](<https://nvd.nist.gov/vuln/detail/CVE-2022-41082> \"CVE-2022-41082\" )\n\n| \n\nMicrosoft\n\n| \n\nExchange Server 2016 Cumulative Update 23, 2019 Cumulative Update 12, 2019 Cumulative Update 11, 2016 Cumulative Update 22, and 2013 Cumulative Update 23\n\n| \n\n[Microsoft Exchange Server Remote Code Execution Vulnerability, CVE-2022-41082](<https://msrc.microsoft.com/update-guide/vulnerability/CVE-2022-41082> \"Microsoft Exchange Server Remote Code Execution Vulnerability\" )\n\n| \n\nACSC Alert:\n\n[Vulnerability Alert \u2013 2 new Vulnerabilities associated with Microsoft Exchange.](<https://www.cyber.gov.au/about-us/alerts/vulnerability-alert-2-new-vulnerabilities-associated-microsoft-exchange> \"Vulnerability Alert \u2013 2 new Vulnerabilities associated with Microsoft Exchange.\" ) \n \n[CVE-2022-40684](<https://nvd.nist.gov/vuln/detail/CVE-2022-40684> \"CVE-2022-40684\" )\n\n| \n\nFortinet\n\n| \n\nFortiOS version 7.2.0 through 7.2.1 and 7.0.0 through 7.0.6, FortiProxy version 7.2.0 and version 7.0.0 through 7.0.6 and FortiSwitchManager version 7.2.0 and 7.0.0\n\n| \n\n[FortiOS / FortiProxy / FortiSwitchManager - Authentication bypass on administrative interface](<https://www.fortiguard.com/psirt/FG-IR-22-377> \"FortiOS / FortiProxy / FortiSwitchManager - Authentication bypass on administrative interface\" )\n\n| \n", "cvss3": {"exploitabilityScore": 3.9, "cvssV3": {"baseSeverity": "CRITICAL", "confidentialityImpact": "HIGH", "attackComplexity": "LOW", "scope": "CHANGED", "attackVector": "NETWORK", "availabilityImpact": "HIGH", "integrityImpact": "HIGH", "privilegesRequired": "NONE", "baseScore": 10.0, "vectorString": "CVSS:3.1/AV:N/AC:L/PR:N/UI:N/S:C/C:H/I:H/A:H", "version": "3.1", "userInteraction": "NONE"}, "impactScore": 6.0}, "published": "2023-08-03T12:00:00", "type": "ics", "title": "2022 Top Routinely Exploited Vulnerabilities", "bulletinFamily": "info", "cvss2": {"severity": "HIGH", "exploitabilityScore": 10.0, "obtainAllPrivilege": false, "userInteractionRequired": false, "obtainOtherPrivilege": false, "cvssV2": {"accessComplexity": "LOW", "confidentialityImpact": "COMPLETE", "availabilityImpact": "COMPLETE", "integrityImpact": "COMPLETE", "baseScore": 10.0, "vectorString": "AV:N/AC:L/Au:N/C:C/I:C/A:C", "version": "2.0", "accessVector": "NETWORK", "authentication": "NONE"}, "impactScore": 10.0, "acInsufInfo": false, "obtainUserPrivilege": false}, "cvelist": ["CVE-2017-0199", "CVE-2017-11882", "CVE-2018-13379", "CVE-2019-0708", "CVE-2019-11510", "CVE-2019-19781", "CVE-2020-1472", "CVE-2020-14882", "CVE-2020-14883", "CVE-2020-5902", "CVE-2021-20016", "CVE-2021-20021", "CVE-2021-20038", "CVE-2021-26084", "CVE-2021-26855", "CVE-2021-26857", "CVE-2021-26858", "CVE-2021-27065", "CVE-2021-31207", "CVE-2021-34473", "CVE-2021-34523", "CVE-2021-40438", "CVE-2021-40539", "CVE-2021-41773", "CVE-2021-42013", "CVE-2021-44228", "CVE-2021-45046", "CVE-2022-1388", "CVE-2022-22047", "CVE-2022-22536", "CVE-2022-22954", "CVE-2022-22960", "CVE-2022-22963", "CVE-2022-24682", "CVE-2022-26134", "CVE-2022-27593", "CVE-2022-27924", "CVE-2022-29464", "CVE-2022-30190", "CVE-2022-40684", "CVE-2022-41082", "CVE-2022-42475", "CVE-2022-47966"], "modified": "2023-08-03T12:00:00", "id": "AA23-215A", "href": "https://www.cisa.gov/news-events/cybersecurity-advisories/aa23-215a", "cvss": {"score": 10.0, "vector": "AV:N/AC:L/Au:N/C:C/I:C/A:C"}}]}