Preface: As far as I know, VMware announced CVE-2019-5541 on April 2019. But the security update just released two days ago. Perhaps this products not in profitable area. But the flaw awaken quite a lot of people to concerning the weakness in virtual machine design.

Background: VMware Workstation is for Windows/Linux while Fusion is for Intel Based Apple Computers only running Mac OS X 10.4.9 and later.

Type 1 hypervisors are commonly considered bare metal hypervisors, in that the hypervisor code itself runs directly on top of your hardware.
VMware Workstation is an example of a type 2 hypervisor. You can install it on top of an existing instance of Windows (and a number of Linux distributions).

Vulnerability details: VMware workstation and Fusion versions identified as victims to out-of-bounds write vulnerability in the e1000 virtual network adapter. The affected guest may allow to execute a malicious code on the hypervisor.

Supplement: The idea of heap buffer overflow is generally to achieve out-of-bounds write. According to the data of write, there are more specific subdivisions. For more details, please refer to attached diagram.

Official announcement – https://www.vmware.com/security/advisories/VMSA-2019-0021.html

Preface: Virtualization in the virtualization platform. It is definitely a microsystem architecture.

Technical background: Windows Sandbox requires a Type 1 hypervisor. Therefore, to run Sandbox on a virtual machine, nested virtualization must be enabled. Nested virtualization allows running Hyper-V on a virtual machine. In addition, it allows Windows Sandbox to run on a virtual machine.

The Hyper-V vSwitch is a software-defined, layer-2, Ethernet network-traffic switch. It allows administrators to connect VMs to either physical or virtual networks. The adapter for the Hyper-V virtual switch is completely unbound from anything that the Windows Firewall has access to. Packets will pass through it without ever being inspected by the management operating system’s firewall.

Vulnerability details: An attacker could run malicious code on a guest operating system, which could cause the Windows Hyper-V host to execute arbitrary code. For the successful of the attack, hacker will run malicious code on a guest operating system. The attacker can do a escape of the VM sandbox once successful. Meanwhile the victim guest VM could cause the Windows Hyper-V host to execute arbitrary code.

Reference: Official announcement –https://portal.msrc.microsoft.com/en-US/security-guidance/advisory/CVE-2019-1398

Preface: XNU is an operating system kernel developed by Apple Computer for the macOS operating system. It is part of the Darwin operating system. XNU is a hybrid kernel combining the Mach kernel .

Background: IOKit – Gain user-space access to hardware devices and drivers. The IOKit object representing a hub device on the USB bus. It is a subclass of IOUSBDevice. A vulnerable implementation of IOInterruptEventSource on a workloop exists in IOUSBDeviceFamily.

Impact: Attacker can sending an USB control message to a target device exploit the vulnerability which lets the application to execute arbitrary code with kernel privileges.

Current Status:
– Entry added October 29, 2019
– Proof of concept release on 11th Nov 2019

Preface: Apache Solr is an application based on J2EE and uses Lucene libraries internally to provide user-friendly search as well as to generate the indexes.

Background: Apache Solr powers the search and navigation features of many of the world’s largest internet sites.

Vulnerability details: When an attacker can directly access the Solr console, he can make changes to the node’s configuration file by sending a POST request like /nodename/config.

Apache Solr integrates the “VelocityResponseWriter” plugin by default. The “params.resource.loader.enabled” option in the plugin’s initialization parameters is used to control whether the parameter resource loader is allowed to specify template in the Solr request parameter. This option default setting is false. When “params.resource.loader.enabled” is set to true, the user will be allowed to specify the loading of related resources by setting the parameters in the request, which means that the attacker can construct a threatening attack request on the server. A remote code execution will be occurred.

Current status: waiting for CVE reference number

Preface: Microsoft will be ending support for Windows 7 and Server 2008 on January 14, 2020. This means no more security patching and no more support from Microsoft.

Vulnerability details: Found design flaw on 2015. Microsoft Windows Group Policy could allow a remote attacker to take complete control of the system, caused by improper application of policy data. By social engineering attacks to convinces a privileges user with domain-configured system to connect to an attacker-controlled network, an attacker could exploit this vulnerability to execute arbitrary code and take complete control of the system.

Current status: Microsoft Windows Server 2012 suffers from a Group Policy remote code execution vulnerability.

Proof of concept release on 29th October 2019. The exploit code targets vulnerable systems in order to modify registry keys to disable SMB signing, achieve SYSTEM level remote code execution (AppInit_DLL) and a user level remote code execution (Run Keys).

Perhaps this vulnerability without any significant impact to MS product in the moment. But information security expert should be take care of this issue.