4a4316eb95
* touch readme * whatever * Add docker_push to actually push the images * revert readme * revert pb.go |
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|---|---|---|
| .. | ||
| beacon-chain | ||
| geth | ||
| monitoring | ||
| tools | ||
| api.prylabs.net.yaml | ||
| BUILD.bazel | ||
| letsencrypt-issuer.yaml | ||
| priority.yaml | ||
| prylabs-wildcard-gateway.yaml | ||
| README.md | ||
| x_headers_rule.yaml | ||
Kubernetes Configuration for Ethereum Serenity
Requirements
- Kubernetes v1.11+ (for PriorityClass)
- Minikube (for now)
Starting minikube with v1.11
As of minikube 0.28.2, the default version of kubernetes is 1.10.0. In order to start a local cluster with v1.11.0, run the following:
minikube start --kubernetes-version=v1.11.0 --cpus 4
Istio
Be sure to update the loadBalancerIP and includeIPRanges as needed. Refer to this guide if necessary.
First download the release
curl -L https://git.io/getLatestIstio | sh -
helm install install/kubernetes/helm/istio --name istio --namespace istio-system --set grafana.enabled=true --set tracing.enabled=true --set gateways.istio-ingressgateway.loadBalancerIP=35.224.249.2 --set global.proxy.includeIPRanges="10.52.0.0/14\,10.55.240.0/20" --set kiali.enabled=true --set telemetry-gateway.grafanaEnabled=true
Geth's Genesis file
This file is the default provided by geth-genesis secret.
{
"config": {
"chainId": 1337,
"homesteadBlock": 0,
"eip155Block": 0,
"eip158Block": 0
},
"difficulty": "0x0",
"gasLimit": "0x2100000",
"alloc": {
"717c3a6e4cbd476c2312612155eb233bf498dd5b":
{ "balance": "0x1337000000000000000000" }
}
}
The private key for the allocation above is:
783da8ef5343c3019748506305d400bca8c324a5819f3a7f7fbf0c0a0d799b09
NOTE: Obviously, do not use this wallet key for anything with real money on it!
To update the genesis secret, change value in geth/genesis.secret.yaml to the base64 encoded string for the genesis.json.
Example:
cat /tmp/genesis.json | json-minify | base64
Deploying Geth Mainchain
First, launch the bootnode so that geth nodes can discover each other.
bazel run //k8s/geth:bootnode.deploy.apply
Then launch everything else.
bazel run //k8s:everything.apply
This creates a few nodes and one miner with CPU restrictions. After ~30 minutes, the miner has generated the DAG and begins mining. The miners have a stateful volume for their DAGs so that they do not have to regenerate them on restart.
Note: DAG generation time can be improved by giving the miner more CPU in the deployment yaml.
Bootstrapping the Beacon Chain
TODO: This process is currently manual and needs to be improved!
Using the private key above and the deployContract tool, deploy the validator registration contract.
# get the address the node service
minikube service geth-nodes --url
Example response:
http://192.168.99.100:30051
http://192.168.99.100:31745
Using the first port provided (RPC). Run the deployContract tool
bazel run //contracts/deposit-contract/deployContract --\
--privKey=783da8ef5343c3019748506305d400bca8c324a5819f3a7f7fbf0c0a0d799b09 \
--httpPath=http://192.168.99.100:30051
Example output:
INFO main: New contract deployed address=0x541AfaC5266c534de039B4A1a53519e76ea82846
Set this value for the deposit contract addr flag in k8s/beacon-chain/beacon-chain.deploy.yaml.
Ensure that the beacon-chain and client docker images are up to date.
bazel run //beacon-chain:push_image
bazel run //client:push_image
Start the beacon chain nodes
bazel run //k8s/beacon-chain:everything.apply
Start the clients
bazel run //k8s/client:everything.apply
Accessing Geth Services
Check out the ethstats dashboard by querying minikube for the service URL.
minikube service geth-ethstats --url
Accessing the geth nodes.
minikube service geth-nodes --url
# Example output
http://192.168.99.100:30451
http://192.168.99.100:32164
The first URL will be the rpc endpoint and the second URL will be the websocket endpoint.
So we can use these values locally to connect to our local cluster.
bazel run //beacon-chain -- --web3provider=ws://192.168.99.100:32164