- Allow easy creation of programs to test specific load patterns for long-term stability evaluation.
- Generally for testing against a single instance of memcached
- High but not maximum performance. mc-crusher should instead be used for stress testing performance.
- Can be used in combination with fault generating systems (ie; toxiproxy)
cd cmd/basic ; go build
./basic -h
create new load patterns by making new directories under cmd/
Testing for a novel load pattern should be done by copying top level binaries (ie; cmd/basic) into a new directory and adding anything specific into the code. Add or remove command line options as necessary.
Common tricks should filter up into library code.
Under cmd/server
is a load
tester that runs as an HTTP server. It lets you start multiple types of
workloads, update current workloads, and stop workloads.
By default it listens on port 11210 with HTTP
example:
cd cmd/server ; go build
# Print out usage and defaults
./server
# Starts the server, listening on default port
./server start
# start memcached somewhere else
memcached -m 256 -d
# Get a template JSON file for the basic loader
./server show --type basic
# modify the output to your liking, save as "foo.json"
# Set the name to "toast" inside foo.json
# Start a workload
./server set --file ./foo.json
# A persistent workload is now running.
# Edit the .json file slightly, but keep the name the same.
./server set --file ./foo.json
# The existing workload has been updated.
# Note: not all parameters can be updated at runtime.
# File a bug if something doesn't update and is important to you!
# Now, stop the workload.
./server delete --name "toast"
# Workload is now stopped
Once you have a workload tuned, keep a few json files around and write a shell script to execute your workload. This can be used to emulate multiple types of clients running against the same server, peak/antipeak, fluctuations, mass spikes, and so on.