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CVE-2022-26911: Skype for Business Information Disclosure Vulnerability

**What type of information could be disclosed by this vulnerability?** The type of information that could be disclosed if an attacker successfully exploited this vulnerability is file content.

Microsoft Security Response Center
#vulnerability#Skype for Business#Security Vulnerability
CVE-2022-26910: Skype for Business and Lync Spoofing Vulnerability

**What is the nature of the spoofing?** An attacker could make a specially crafted network call to the target Skype for Business server, which could cause the parsing of an http request made to an arbitrary address. This could disclose IP addresses or port numbers or both to the attacker.

CVE-2022-24493: Microsoft Local Security Authority (LSA) Server Information Disclosure Vulnerability

**What type of information could be disclosed by this vulnerability?** The type of information that could be disclosed if an attacker successfully exploited this vulnerability is the contents of Kernel memory. An attacker could read the contents of Kernel memory from a user mode process.

CVE-2022-26907: Azure SDK for .NET Information Disclosure Vulnerability

**What type of information could be disclosed by this vulnerability?** This vulnerability could disclose sensitive information in exception body, which might include user access tokens.

CVE-2022-24543: Windows Upgrade Assistant Remote Code Execution Vulnerability

**How could an attacker exploit this vulnerability?** The attacker would need to trick or coerce a legitimate user into downloading and executing a specially crafted install file

CVE-2022-23259: Microsoft Dynamics 365 (on-premises) Remote Code Execution Vulnerability

**How could an attacker exploit this vulnerability?** An authenticated user could run a specially crafted trusted solution package to execute arbitrary SQL commands. From there the attacker could escalate and execute commands as db\_owner within their Dynamics 356 database.

CVE-2022-24528: Remote Procedure Call Runtime Remote Code Execution Vulnerability

**How could an attacker exploit the vulnerability?** To exploit this vulnerability, an attacker would need to trick a user into executing a specially crafted script which executes an RPC call to an RPC host. This could result in remote code execution on the server side with the same permissions as the RPC service.

CVE-2022-21983: Win32 Stream Enumeration Remote Code Execution Vulnerability

**According to the CVSS, User Interaction is Required. What interaction would the user have to do?** This vulnerability requires that a user with an affected version of Windows 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.

CVE-2022-24532: HEVC Video Extensions Remote Code Execution Vulnerability

**According to the CVSS score, the attack vector is Local. Why does the CVE title indicate that this is a Remote Code Execution?** The 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. For 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.

CVE-2022-22009: Windows Hyper-V Remote Code Execution Vulnerability

**According to the CVSS score, the attack vector is Local. Why does the CVE title indicate that this is a Remote Code Execution?** The 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. For 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.