![]() ![]() By using a hypervisor to host the relevant elements of the Linux OS and Docker platform, Windows development tools have access to the contents of the hosted containers. As I noted in a previous article on WSL2, much of how it works is based on a collaboration between Microsoft and Docker engineers: LCOW ( Linux Containers On Windows), which was intended to simplify running Linux containers directly on Windows. Microsoft’s WSL 2 previews are currently rolling out with Windows Insider 20H1 builds. That led to a redesign of the WSL platform and the resulting launch of WSL2 with a full Linux kernel earlier in 2019. Combined with ensuring WSL’s emulation layer could support Linux applications and services, it was clear that an emulation-based approach couldn’t meet the needs of most developers. It wasn’t easy to run Linux containers natively on Windows. ![]() ![]() However, there were issues with the original WSL platform. Microsoft needed a way to offer container development, with an eye on Azure-hosted distributed applications running on its Azure Kubernetes Service. When Microsoft launched its Windows Subsystem for Linux (WSL) back in 2018, it was very clear why: It wanted to provide tools for developers building modern cloud applications. ![]()
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