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yggdrasil-go/cmd/yggdrasil/main.go

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package main
import (
"bytes"
"encoding/json"
"flag"
"fmt"
"io/ioutil"
"log"
"os"
"os/signal"
"regexp"
"strings"
"syscall"
"time"
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"golang.org/x/text/encoding/unicode"
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"github.com/hjson/hjson-go"
"github.com/kardianos/minwinsvc"
"github.com/mitchellh/mapstructure"
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"github.com/yggdrasil-network/yggdrasil-go/src/config"
"github.com/yggdrasil-network/yggdrasil-go/src/yggdrasil"
)
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type nodeConfig = config.NodeConfig
type Core = yggdrasil.Core
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type node struct {
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core Core
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}
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// Generates a new configuration and returns it in HJSON format. This is used
// with -genconf.
func doGenconf(isjson bool) string {
cfg := config.GenerateConfig(false)
var bs []byte
var err error
if isjson {
bs, err = json.MarshalIndent(cfg, "", " ")
} else {
bs, err = hjson.Marshal(cfg)
}
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if err != nil {
panic(err)
}
return string(bs)
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}
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// The main function is responsible for configuring and starting Yggdrasil.
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func main() {
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// Configure the command line parameters.
genconf := flag.Bool("genconf", false, "print a new config to stdout")
useconf := flag.Bool("useconf", false, "read HJSON/JSON config from stdin")
useconffile := flag.String("useconffile", "", "read HJSON/JSON config from specified file path")
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normaliseconf := flag.Bool("normaliseconf", false, "use in combination with either -useconf or -useconffile, outputs your configuration normalised")
confjson := flag.Bool("json", false, "print configuration from -genconf or -normaliseconf as JSON instead of HJSON")
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autoconf := flag.Bool("autoconf", false, "automatic mode (dynamic IP, peer with IPv6 neighbors)")
version := flag.Bool("version", false, "prints the version of this build")
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flag.Parse()
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var cfg *nodeConfig
switch {
case *version:
fmt.Println("Build name:", yggdrasil.GetBuildName())
fmt.Println("Build version:", yggdrasil.GetBuildVersion())
os.Exit(0)
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case *autoconf:
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// Use an autoconf-generated config, this will give us random keys and
// port numbers, and will use an automatically selected TUN/TAP interface.
cfg = config.GenerateConfig(true)
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case *useconffile != "" || *useconf:
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// Use a configuration file. If -useconf, the configuration will be read
// from stdin. If -useconffile, the configuration will be read from the
// filesystem.
var configjson []byte
var err error
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if *useconffile != "" {
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// Read the file from the filesystem
configjson, err = ioutil.ReadFile(*useconffile)
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} else {
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// Read the file from stdin.
configjson, err = ioutil.ReadAll(os.Stdin)
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}
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if err != nil {
panic(err)
}
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// If there's a byte order mark - which Windows 10 is now incredibly fond of
// throwing everywhere when it's converting things into UTF-16 for the hell
// of it - remove it and decode back down into UTF-8. This is necessary
// because hjson doesn't know what to do with UTF-16 and will panic
if bytes.Compare(configjson[0:2], []byte{0xFF, 0xFE}) == 0 ||
bytes.Compare(configjson[0:2], []byte{0xFE, 0xFF}) == 0 {
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utf := unicode.UTF16(unicode.BigEndian, unicode.UseBOM)
decoder := utf.NewDecoder()
configjson, err = decoder.Bytes(configjson)
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if err != nil {
panic(err)
}
}
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// Generate a new configuration - this gives us a set of sane defaults -
// then parse the configuration we loaded above on top of it. The effect
// of this is that any configuration item that is missing from the provided
// configuration will use a sane default.
cfg = config.GenerateConfig(false)
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var dat map[string]interface{}
if err := hjson.Unmarshal(configjson, &dat); err != nil {
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panic(err)
}
confJson, err := json.Marshal(dat)
if err != nil {
panic(err)
}
json.Unmarshal(confJson, &cfg)
// For now we will do a little bit to help the user adjust their
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// configuration to match the new configuration format, as some of the key
// names have changed recently.
changes := map[string]string{
"Multicast": "",
"LinkLocal": "MulticastInterfaces",
"BoxPub": "EncryptionPublicKey",
"BoxPriv": "EncryptionPrivateKey",
"SigPub": "SigningPublicKey",
"SigPriv": "SigningPrivateKey",
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"AllowedBoxPubs": "AllowedEncryptionPublicKeys",
}
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// Loop over the mappings aove and see if we have anything to fix.
for from, to := range changes {
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if _, ok := dat[from]; ok {
if to == "" {
if !*normaliseconf {
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log.Println("Warning: Deprecated config option", from, "- please remove")
}
} else {
if !*normaliseconf {
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log.Println("Warning: Deprecated config option", from, "- please rename to", to)
}
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// If the configuration file doesn't already contain a line with the
// new name then set it to the old value. This makes sure that we
// don't overwrite something that was put there intentionally.
if _, ok := dat[to]; !ok {
dat[to] = dat[from]
}
}
}
}
// Check to see if the peers are in a parsable format, if not then default
// them to the TCP scheme
if peers, ok := dat["Peers"].([]interface{}); ok {
for index, peer := range peers {
uri := peer.(string)
if strings.HasPrefix(uri, "tcp://") || strings.HasPrefix(uri, "socks://") {
continue
}
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if strings.HasPrefix(uri, "tcp:") {
uri = uri[4:]
}
(dat["Peers"].([]interface{}))[index] = "tcp://" + uri
}
}
// Now do the same with the interface peers
if interfacepeers, ok := dat["InterfacePeers"].(map[string]interface{}); ok {
for intf, peers := range interfacepeers {
for index, peer := range peers.([]interface{}) {
uri := peer.(string)
if strings.HasPrefix(uri, "tcp://") || strings.HasPrefix(uri, "socks://") {
continue
}
if strings.HasPrefix(uri, "tcp:") {
uri = uri[4:]
}
((dat["InterfacePeers"].(map[string]interface{}))[intf]).([]interface{})[index] = "tcp://" + uri
}
}
}
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// Overlay our newly mapped configuration onto the autoconf node config that
// we generated above.
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if err = mapstructure.Decode(dat, &cfg); err != nil {
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panic(err)
}
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// If the -normaliseconf option was specified then remarshal the above
// configuration and print it back to stdout. This lets the user update
// their configuration file with newly mapped names (like above) or to
// convert from plain JSON to commented HJSON.
if *normaliseconf {
var bs []byte
if *confjson {
bs, err = json.MarshalIndent(cfg, "", " ")
} else {
bs, err = hjson.Marshal(cfg)
}
if err != nil {
panic(err)
}
fmt.Println(string(bs))
return
}
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case *genconf:
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// Generate a new configuration and print it to stdout.
fmt.Println(doGenconf(*confjson))
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default:
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// No flags were provided, therefore print the list of flags to stdout.
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flag.PrintDefaults()
}
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// Have we got a working configuration? If we don't then it probably means
// that neither -autoconf, -useconf or -useconffile were set above. Stop
// if we don't.
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if cfg == nil {
return
}
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// Create a new logger that logs output to stdout.
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logger := log.New(os.Stdout, "", log.Flags())
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// Setup the Yggdrasil node itself. The node{} type includes a Core, so we
// don't need to create this manually.
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n := node{}
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// Check to see if any multicast interface expressions were provided in the
// config. If they were then set them now.
for _, ll := range cfg.MulticastInterfaces {
ifceExpr, err := regexp.Compile(ll)
if err != nil {
panic(err)
}
n.core.AddMulticastInterfaceExpr(ifceExpr)
}
// Now that we have a working configuration, we can now actually start
// Yggdrasil. This will start the router, switch, DHT node, TCP and UDP
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// sockets, TUN/TAP adapter and multicast discovery port.
if err := n.core.Start(cfg, logger); err != nil {
logger.Println("An error occurred during startup")
panic(err)
}
// Check to see if any allowed encryption keys were provided in the config.
// If they were then set them now.
for _, pBoxStr := range cfg.AllowedEncryptionPublicKeys {
n.core.AddAllowedEncryptionPublicKey(pBoxStr)
}
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// If any static peers were provided in the configuration above then we should
// configure them. The loop ensures that disconnected peers will eventually
// be reconnected with.
go func() {
if len(cfg.Peers) == 0 && len(cfg.InterfacePeers) == 0 {
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return
}
for {
for _, peer := range cfg.Peers {
n.core.AddPeer(peer, "")
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time.Sleep(time.Second)
}
for intf, intfpeers := range cfg.InterfacePeers {
for _, peer := range intfpeers {
n.core.AddPeer(peer, intf)
time.Sleep(time.Second)
}
}
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time.Sleep(time.Minute)
}
}()
// The Stop function ensures that the TUN/TAP adapter is correctly shut down
// before the program exits.
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defer func() {
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n.core.Stop()
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}()
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// Make some nice output that tells us what our IPv6 address and subnet are.
// This is just logged to stdout for the user.
address := n.core.GetAddress()
subnet := n.core.GetSubnet()
logger.Printf("Your IPv6 address is %s", address.String())
logger.Printf("Your IPv6 subnet is %s", subnet.String())
// Catch interrupts from the operating system to exit gracefully.
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c := make(chan os.Signal, 1)
signal.Notify(c, os.Interrupt, syscall.SIGTERM)
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// Create a function to capture the service being stopped on Windows.
winTerminate := func() {
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c <- os.Interrupt
}
minwinsvc.SetOnExit(winTerminate)
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// Wait for the terminate/interrupt signal. Once a signal is received, the
// deferred Stop function above will run which will shut down TUN/TAP.
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<-c
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}