Wait-Free Code Patching of Multi-Threaded Processes

In the operation and maintenance phase of a deployed software component, security and bug-fix updates are regular events. However, for many high-availability services, costly restarts are no acceptable option as the induced downtimes lead to a degradation of the service quality. One solution to this problem are live updates, where we inject the desired software patches directly into the volatile memory of a currently running process. However, before the actual patch gets applied, most live-update methods use a stop-the-world approach to bring the process into a safe state; an operation that is highly disruptive for the execution of multi-threaded programs. In this paper, we present a wait-free approach to inject code changes into a running multi-threaded process. We avoid the disruption of a global barrier synchronization over all threads by first preparing a patched clone of the process's address space. Into the updated address space, we gradually migrate individual threads at predefined quiescence points while all other threads make uninterrupted progress. In a first case study with a simple network service, we could completely eliminate the impact of applying a live update on the request latency.