2 research outputs found
A Generic Checkpoint-Restart Mechanism for Virtual Machines
It is common today to deploy complex software inside a virtual machine (VM).
Snapshots provide rapid deployment, migration between hosts, dependability
(fault tolerance), and security (insulating a guest VM from the host). Yet, for
each virtual machine, the code for snapshots is laboriously developed on a
per-VM basis. This work demonstrates a generic checkpoint-restart mechanism for
virtual machines. The mechanism is based on a plugin on top of an unmodified
user-space checkpoint-restart package, DMTCP. Checkpoint-restart is
demonstrated for three virtual machines: Lguest, user-space QEMU, and KVM/QEMU.
The plugins for Lguest and KVM/QEMU require just 200 lines of code. The Lguest
kernel driver API is augmented by 40 lines of code. DMTCP checkpoints
user-space QEMU without any new code. KVM/QEMU, user-space QEMU, and DMTCP need
no modification. The design benefits from other DMTCP features and plugins.
Experiments demonstrate checkpoint and restart in 0.2 seconds using forked
checkpointing, mmap-based fast-restart, and incremental Btrfs-based snapshots