Awesome
<h1 align="center"> 🌊🌊 flood 🌊🌊 </h1>
flood
is a load testing tool for benchmarking EVM nodes over RPC
For each RPC method, flood
measures how load affects metrics such as:
- throughput
- latency (mean, P50, P90, P95, P99, max)
- error rate
flood
makes it easy to compare the performance of:
- different node clients (e.g. geth vs erigon vs reth)
- different hardware/software configurations (e.g. local vs cloud vs low memory vs RAID-0)
- different RPC providers (e.g. Alchemy vs Quicknode vs Infura)
flood
can generate tables, figures, and reports for easy sharing of results (example report here)
Contents
Installation
Prerequisites
Install vegeta
:
- on mac:
brew update && brew install vegeta
- on linux:
go install github.com/tsenart/vegeta/v12@v12.8.4
After installation, make sure vegeta
is on your $PATH
. Running vegeta -h
should output a path. If it does not, you probably have not set up go
to install items to your $PATH
. You may need to add something like export PATH=$PATH:~/go/bin/
to your terminal config file (e.g. ~/.profile
).
flood
also requires python >= 3.7
Installing flood
pip install paradigm-flood
Typing flood help
in your terminal should show help output. If it does not, you probably have not set up pip
to install items to your $PATH
. You may need to add something like export PATH=$PATH:~/.local/bin
to your terminal config file (e.g. ~/.profile
). Alternatively, you can avoid setting up your $PATH
and just type python3 -m flood
instead of flood
.
Docker
Alternatively, flood can be used as a Docker image.
Usage guide
flood
works by bombarding an RPC endpoint with different patterns of RPC calls. Measurements of the RPC endpoint's performance under different controlled loads are then used to paint a detailed view of the node's performance.
Every time flood runs, it saves its parameters and test results to an output directory. You can specify this output directory with the --output
parameter, otherwise a temporary directory will be created. Running a test will populate the folder with the following files:
figures/
: directory containing PNG's summarizing node performanceresults.json
: results of the test including performance metricssummary.txt
: printed summary of test that was output to the consoletest.json
: metadata and parameters used to create and run the test
Basic load tests
Here is an example of a basic test with flood
. It will benchmark block retrieval from two different nodes. It will test at 3 different rates (10, 100, and 1000 requests per second) and it will test them for 30 seconds each.
flood eth_getBlockByNumber NODE1_NAME=NODE1_URL NODE2_NAME=NODE2_URL --rates 10 100 1000 --duration 30
To see all of the parameters available for controlling flood
tests use flood --help
Remote load tests
Instead of broadcasting RPC calls from whatever machine running the flood
CLI command, flood
can broadcast the calls from a remote process on a remote machine. In particular, flood
can broadcast the calls from the same machine that is running the EVM node in order to eliminate any noise or bottlenecks associated with networking.
This can be accomplished by installing flood on the remote machine and then providing flood
with login credentials and routing details using the following syntax:
flood <test> [node_name=][username@]hostname:[test_url] ...
For example, the following command will test a reth node and an erigon node remotely:
flood eth_call reth=ubuntu@92.92.92.92:localhost:8545 erigon=ubuntu@91.91.91.91:localhost:8545
If there are multiple remote tests, these tests will be run in parallel. After the tests are complete, flood
will retrieve the results and summarize using the same methodology as a local test.
Printing test results
By default flood
produces verbose output of each test as it runs. This can be disabled with the --quiet
parameter. To re-print the results of an old test, use flood print <TEST_DIR>
. To print a summary of multiple tests, use flood print <test_1_dir> <test_2_dir>
.
Report generation
After running tests, you can generate an HTML + Jupyter report similar to this one. This is done by running flood report <TEST_DIR>
. Multiple tests can be combined into one report with flood repos <TEST_DIR_1> <TEST_DIR_2> ...
.
Differential tests
Instead of testing the raw performance of an RPC node, flood
can be used to test the correctness of a node's responses using a differential testing approach. This works by using two nodes and making sure that their responses match under a variety of RPC calls. This is done using the --equality
parameter. For example:
flood all reth=91.91.91.91 erigon=92.92.92.92 --equality
From python
All of flood
's functionality can be used from python instead of the CLI. Some functions:
description | python |
---|---|
Import flood | import flood |
Run tests | flood.run(...) |
Load the parameters of a test | flood.load_single_run_results_payload(output_dir) |
Load the results of a test | flood.load_single_run_results_payload(output_dir) |
Run a live version of a results notebook | jupyter notebook <TEST_DIR> |
Performing deep checks
Under normal operation flood
relies on vegeta to compute performance summaries of each test. This works well, but sometimes it is desirable to implement custom introspection not available in vegeta
.
In particular, vegeta
counts any status-200 response as a success, even if the contents of the response is an RPC error. Running with the --deep-check
command will check every response to make sure that it returns well-formed JSON with no RPC errors. With --deep-check
, flood
also computes separate performance statistics successful vs failed calls.
If you want to save the timing information and raw contents of every single response from the test to the results.json
output, use the --save-raw-output
argument. This allows for performing own custom analyses on the raw data.
Contributing
Contributions are welcome in the form of issues, PR's, and commentary. Check out the contributor guide in CONTRIBUTING.md.