Callum Waters 8b84c7c168 | 3 years ago | |
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.. | ||
app | 4 years ago | |
docker | 4 years ago | |
generator | 3 years ago | |
networks | 4 years ago | |
pkg | 4 years ago | |
runner | 3 years ago | |
tests | 3 years ago | |
Makefile | 4 years ago | |
README.md | 4 years ago | |
run-multiple.sh | 4 years ago |
Spins up and tests Tendermint networks in Docker Compose based on a testnet manifest. To run the CI testnet:
make
./build/runner -f networks/ci.toml
This creates and runs a testnet named ci
under networks/ci/
(determined by the manifest filename).
Testnets are specified as TOML manifests. For an example see networks/ci.toml
, and for documentation see pkg/manifest.go
.
Random (but deterministic) combinations of testnets can be generated with generator
:
./build/generator -d networks/generated/
# Split networks into 8 groups (by filename)
./build/generator -g 8 -d networks/generated/
Multiple testnets can be run with the run-multiple.sh
script:
./run-multiple.sh networks/generated/gen-group3-*.toml
The test runner has the following stages, which can also be executed explicitly by running ./build/runner -f <manifest> <stage>
:
setup
: generates configuration files.
start
: starts Docker containers.
load
: generates a transaction load against the testnet nodes.
perturb
: runs any requested perturbations (e.g. node restarts or network disconnects).
wait
: waits for a few blocks to be produced, and for all nodes to catch up to it.
test
: runs test cases in tests/
against all nodes in a running testnet.
stop
: stops Docker containers.
cleanup
: removes configuration files and Docker containers/networks.
Auxiliary commands:
logs
: outputs all node logs.
tail
: tails (follows) node logs until cancelled.
Test cases are written as normal Go tests in tests/
. They use a testNode()
helper which executes each test as a parallel subtest for each node in the network.
To run tests manually, set the E2E_MANIFEST
environment variable to the path of the testnet manifest (e.g. networks/ci.toml
) and run them as normal, e.g.:
./build/runner -f networks/ci.toml start
E2E_MANIFEST=networks/ci.toml go test -v ./tests/...
Optionally, E2E_NODE
specifies the name of a single testnet node to test.
These environment variables can also be specified in tests/e2e_test.go
to run tests from an editor or IDE:
func init() {
// This can be used to manually specify a testnet manifest and/or node to
// run tests against. The testnet must have been started by the runner first.
os.Setenv("E2E_MANIFEST", "networks/ci.toml")
os.Setenv("E2E_NODE", "validator01")
}
If a command or test fails, the runner simply exits with an error message and
non-zero status code. The testnet is left running with data in the testnet
directory, and can be inspected with e.g. docker ps
, docker logs
, or
./build/runner -f <manifest> logs
or tail
. To shut down and remove the
testnet, run ./build/runner -f <manifest> cleanup
.
If the standard log_level
is not detailed enough (e.g. you want "debug" level
logging for certain modules), you can change it in the manifest file.
Each node exposes a pprof server. To
find out the local port, run docker port <NODENAME> 6060 | awk -F: '{print $2}'
. Then you may perform any queries supported by the pprof tool. Julia
Evans has a great
post on this
subject.
export PORT=$(docker port full01 6060 | awk -F: '{print $2}')
go tool pprof http://localhost:$PORT/debug/pprof/goroutine
go tool pprof http://localhost:$PORT/debug/pprof/heap
go tool pprof http://localhost:$PORT/debug/pprof/threadcreate
go tool pprof http://localhost:$PORT/debug/pprof/block
go tool pprof http://localhost:$PORT/debug/pprof/mutex
Docker does not enable IPv6 by default. To do so, enter the following in
daemon.json
(or in the Docker for Mac UI under Preferences → Docker Engine):
{
"ipv6": true,
"fixed-cidr-v6": "2001:db8:1::/64"
}
It is also possible to run a simple benchmark on a testnet. This is done through the benchmark
command. This manages the entire process: setting up the environment, starting the test net, waiting for a considerable amount of blocks to be used (currently 100), and then returning the following metrics from the sample of the blockchain: