Biblio

Network security isolation technology is an important means to protect the internal information security of enterprises. Generally, isolation is achieved through traditional network devices, such as firewalls and gatekeepers. However, the security rules are relatively rigid and cannot better meet the flexible and changeable business needs. Through the double sandbox structure created for each user, each user in the virtual machine is isolated from each other and security is ensured. By creating a virtual disk in a virtual machine as a user storage sandbox, and encrypting the read and write of the disk, the shortcomings of traditional network isolation methods are discussed, and the application of cloud desktop network isolation technology based on VMwarer technology in universities is expounded.

Hardware-assisted isolation technology provide a Trusted Execution Environment (TEE) for the Trusted Computing Base (TCB) of a system. Since there is no standardization for such systems, many technologies using different approaches have been implemented over time. Before selecting or implementing a TEE, it is essential to understand the security architecture, features and analyze the technologies with respect to the new security vulnerabilities (i.e. Micro-architectural class of vulnerabilities). These technologies can be divided into two main types: 1) Isolation by software virtualization and 2) Isolation by hardware. In this paper, we discuss technology implementation of each type i.e. Intel SGX and ARM TrustZone for type-1; Intel ME and AMD Secure Processor for type-2. We also cover the vulnerability analysis against each technology with respect to the latest discovered attacks. This would enable a user to precisely appreciate the security capabilities of each technology.

The growing computerization of critical infrastructure as well as the pervasiveness of computing in everyday life has led to increased interest in secure application development. We observe a flurry of new security technologies like ARM TrustZone and Intel SGX, but a lack of a corresponding architectural vision. We are convinced that point solutions are not sufficient to address the overall challenge of secure system design. In this paper, we outline our take on a trusted component ecosystem of small individual building blocks with strong isolation. In our view, applications should no longer be designed as massive stacks of vertically layered frameworks, but instead as horizontal aggregates of mutually isolated components that collaborate across machine boundaries to provide a service. Lateral thinking is needed to make secure systems going forward.