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// Copyright 2017 The go-ethereum Authors
// This file is part of go-ethereum.
//
// go-ethereum is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// go-ethereum is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with go-ethereum. If not, see <http://www.gnu.org/licenses/>.
package main
import (
"bytes"
"encoding/json"
"fmt"
"math/rand"
"path/filepath"
"strconv"
"strings"
"text/template"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/log"
)
// nodeDockerfile is the Dockerfile required to run an Ethereum node.
var nodeDockerfile = `
FROM ethereum/client-go:latest
ADD genesis.json /genesis.json
{{if .Unlock}}
ADD signer.json /signer.json
ADD signer.pass /signer.pass
{{end}}
RUN \
echo 'geth --cache 512 init /genesis.json' > geth.sh && \{{if .Unlock}}
echo 'mkdir -p /root/.ethereum/keystore/ && cp /signer.json /root/.ethereum/keystore/' >> geth.sh && \{{end}}
echo $'exec geth --networkid {{.NetworkID}} --cache 512 --port {{.Port}} --maxpeers {{.Peers}} {{.LightFlag}} --ethstats \'{{.Ethstats}}\' {{if .Bootnodes}}--bootnodes {{.Bootnodes}}{{end}} {{if .Etherbase}}--miner.etherbase {{.Etherbase}} --mine --miner.threads 1{{end}} {{if .Unlock}}--unlock 0 --password /signer.pass --mine{{end}} --miner.gastarget {{.GasTarget}} --miner.gaslimit {{.GasLimit}} --miner.gasprice {{.GasPrice}}' >> geth.sh
ENTRYPOINT ["/bin/sh", "geth.sh"]
`
// nodeComposefile is the docker-compose.yml file required to deploy and maintain
// an Ethereum node (bootnode or miner for now).
var nodeComposefile = `
version: '2'
services:
{{.Type}}:
build: .
image: {{.Network}}/{{.Type}}
ports:
- "{{.Port}}:{{.Port}}"
- "{{.Port}}:{{.Port}}/udp"
volumes:
- {{.Datadir}}:/root/.ethereum{{if .Ethashdir}}
- {{.Ethashdir}}:/root/.ethash{{end}}
environment:
- PORT={{.Port}}/tcp
- TOTAL_PEERS={{.TotalPeers}}
- LIGHT_PEERS={{.LightPeers}}
- STATS_NAME={{.Ethstats}}
- MINER_NAME={{.Etherbase}}
- GAS_TARGET={{.GasTarget}}
- GAS_LIMIT={{.GasLimit}}
- GAS_PRICE={{.GasPrice}}
logging:
driver: "json-file"
options:
max-size: "1m"
max-file: "10"
restart: always
`
// deployNode deploys a new Ethereum node container to a remote machine via SSH,
// docker and docker-compose. If an instance with the specified network name
// already exists there, it will be overwritten!
func deployNode(client *sshClient, network string, bootnodes []string, config *nodeInfos, nocache bool) ([]byte, error) {
kind := "sealnode"
if config.keyJSON == "" && config.etherbase == "" {
kind = "bootnode"
bootnodes = make([]string, 0)
}
// Generate the content to upload to the server
workdir := fmt.Sprintf("%d", rand.Int63())
files := make(map[string][]byte)
lightFlag := ""
if config.peersLight > 0 {
lightFlag = fmt.Sprintf("--lightpeers=%d --lightserv=50", config.peersLight)
}
dockerfile := new(bytes.Buffer)
template.Must(template.New("").Parse(nodeDockerfile)).Execute(dockerfile, map[string]interface{}{
"NetworkID": config.network,
"Port": config.port,
"Peers": config.peersTotal,
"LightFlag": lightFlag,
"Bootnodes": strings.Join(bootnodes, ","),
"Ethstats": config.ethstats,
"Etherbase": config.etherbase,
"GasTarget": uint64(1000000 * config.gasTarget),
"GasLimit": uint64(1000000 * config.gasLimit),
"GasPrice": uint64(1000000000 * config.gasPrice),
"Unlock": config.keyJSON != "",
})
files[filepath.Join(workdir, "Dockerfile")] = dockerfile.Bytes()
composefile := new(bytes.Buffer)
template.Must(template.New("").Parse(nodeComposefile)).Execute(composefile, map[string]interface{}{
"Type": kind,
"Datadir": config.datadir,
"Ethashdir": config.ethashdir,
"Network": network,
"Port": config.port,
"TotalPeers": config.peersTotal,
"Light": config.peersLight > 0,
"LightPeers": config.peersLight,
"Ethstats": config.ethstats[:strings.Index(config.ethstats, ":")],
"Etherbase": config.etherbase,
"GasTarget": config.gasTarget,
"GasLimit": config.gasLimit,
"GasPrice": config.gasPrice,
})
files[filepath.Join(workdir, "docker-compose.yaml")] = composefile.Bytes()
files[filepath.Join(workdir, "genesis.json")] = config.genesis
if config.keyJSON != "" {
files[filepath.Join(workdir, "signer.json")] = []byte(config.keyJSON)
files[filepath.Join(workdir, "signer.pass")] = []byte(config.keyPass)
}
// Upload the deployment files to the remote server (and clean up afterwards)
if out, err := client.Upload(files); err != nil {
return out, err
}
defer client.Run("rm -rf " + workdir)
// Build and deploy the boot or seal node service
if nocache {
return nil, client.Stream(fmt.Sprintf("cd %s && docker-compose -p %s build --pull --no-cache && docker-compose -p %s up -d --force-recreate --timeout 60", workdir, network, network))
}
return nil, client.Stream(fmt.Sprintf("cd %s && docker-compose -p %s up -d --build --force-recreate --timeout 60", workdir, network))
}
// nodeInfos is returned from a boot or seal node status check to allow reporting
// various configuration parameters.
type nodeInfos struct {
genesis []byte
network int64
datadir string
ethashdir string
ethstats string
port int
enode string
peersTotal int
peersLight int
etherbase string
keyJSON string
keyPass string
gasTarget float64
gasLimit float64
gasPrice float64
}
// Report converts the typed struct into a plain string->string map, containing
// most - but not all - fields for reporting to the user.
func (info *nodeInfos) Report() map[string]string {
report := map[string]string{
"Data directory": info.datadir,
"Listener port": strconv.Itoa(info.port),
"Peer count (all total)": strconv.Itoa(info.peersTotal),
"Peer count (light nodes)": strconv.Itoa(info.peersLight),
"Ethstats username": info.ethstats,
}
if info.gasTarget > 0 {
// Miner or signer node
report["Gas price (minimum accepted)"] = fmt.Sprintf("%0.3f GWei", info.gasPrice)
report["Gas floor (baseline target)"] = fmt.Sprintf("%0.3f MGas", info.gasTarget)
report["Gas ceil (target maximum)"] = fmt.Sprintf("%0.3f MGas", info.gasLimit)
if info.etherbase != "" {
// Ethash proof-of-work miner
report["Ethash directory"] = info.ethashdir
report["Miner account"] = info.etherbase
}
if info.keyJSON != "" {
// Clique proof-of-authority signer
var key struct {
Address string `json:"address"`
}
if err := json.Unmarshal([]byte(info.keyJSON), &key); err == nil {
report["Signer account"] = common.HexToAddress(key.Address).Hex()
} else {
log.Error("Failed to retrieve signer address", "err", err)
}
}
}
return report
}
// checkNode does a health-check against a boot or seal node server to verify
// whether it's running, and if yes, whether it's responsive.
func checkNode(client *sshClient, network string, boot bool) (*nodeInfos, error) {
kind := "bootnode"
if !boot {
kind = "sealnode"
}
// Inspect a possible bootnode container on the host
infos, err := inspectContainer(client, fmt.Sprintf("%s_%s_1", network, kind))
if err != nil {
return nil, err
}
if !infos.running {
return nil, ErrServiceOffline
}
// Resolve a few types from the environmental variables
totalPeers, _ := strconv.Atoi(infos.envvars["TOTAL_PEERS"])
lightPeers, _ := strconv.Atoi(infos.envvars["LIGHT_PEERS"])
gasTarget, _ := strconv.ParseFloat(infos.envvars["GAS_TARGET"], 64)
gasLimit, _ := strconv.ParseFloat(infos.envvars["GAS_LIMIT"], 64)
gasPrice, _ := strconv.ParseFloat(infos.envvars["GAS_PRICE"], 64)
// Container available, retrieve its node ID and its genesis json
var out []byte
if out, err = client.Run(fmt.Sprintf("docker exec %s_%s_1 geth --exec admin.nodeInfo.id --cache=16 attach", network, kind)); err != nil {
return nil, ErrServiceUnreachable
}
id := bytes.Trim(bytes.TrimSpace(out), "\"")
if out, err = client.Run(fmt.Sprintf("docker exec %s_%s_1 cat /genesis.json", network, kind)); err != nil {
return nil, ErrServiceUnreachable
}
genesis := bytes.TrimSpace(out)
keyJSON, keyPass := "", ""
if out, err = client.Run(fmt.Sprintf("docker exec %s_%s_1 cat /signer.json", network, kind)); err == nil {
keyJSON = string(bytes.TrimSpace(out))
}
if out, err = client.Run(fmt.Sprintf("docker exec %s_%s_1 cat /signer.pass", network, kind)); err == nil {
keyPass = string(bytes.TrimSpace(out))
}
// Run a sanity check to see if the devp2p is reachable
port := infos.portmap[infos.envvars["PORT"]]
if err = checkPort(client.server, port); err != nil {
log.Warn(fmt.Sprintf("%s devp2p port seems unreachable", strings.Title(kind)), "server", client.server, "port", port, "err", err)
}
// Assemble and return the useful infos
stats := &nodeInfos{
genesis: genesis,
datadir: infos.volumes["/root/.ethereum"],
ethashdir: infos.volumes["/root/.ethash"],
port: port,
peersTotal: totalPeers,
peersLight: lightPeers,
ethstats: infos.envvars["STATS_NAME"],
etherbase: infos.envvars["MINER_NAME"],
keyJSON: keyJSON,
keyPass: keyPass,
gasTarget: gasTarget,
gasLimit: gasLimit,
gasPrice: gasPrice,
}
stats.enode = fmt.Sprintf("enode://%s@%s:%d", id, client.address, stats.port)
return stats, nil
}
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