Runtime detection of semantic errors in MPI applications supports efficient and correct large-scale application development. However, current approaches scale to at most one thousand processes and design limitations prevent increased scalability. The need for global knowledge for analyses such as type matching, and deadlock detection presents a major challenge. We present a scalable tool infrastructure - the Generic Tool Infrastructure (GTI) - that we will use to implement MPI runtime error detection tools and that applies to other use cases. GTI supports simple offloading of tool processing onto extra processes or threads and provides a tree based overlay network (TBON) for creating scalable tools that analyze global knowledge. We present its abstractions and code generation facilities that ease many hurdles in tool development, including wrapper generation, tool communication, trace reductions, and filters. GTI ultimately allows tool developers to focus on implementing tool functionality instead of the surrounding infrastructure. Further, we demonstrate that GTI supports scalable tool development through a lost message detector and a phase profiler. The former provides a more scalable implementation of important base functionality for MPI correctness checking, while the latter tool demonstrates that GTI can serve as the basis of further types of tools. Experiments with up to 2048 cores show that GTI's scalability features apply to both tools.