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yggdrasil-go/src/yggdrasil/admin.go

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package yggdrasil
import "net"
import "os"
import "encoding/hex"
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import "encoding/json"
import "errors"
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import "fmt"
import "net/url"
import "sort"
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import "strings"
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import "strconv"
import "sync/atomic"
import "time"
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// TODO: Add authentication
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type admin struct {
core *Core
listenaddr string
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handlers []admin_handlerInfo
}
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type admin_info map[string]interface{}
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type admin_handlerInfo struct {
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name string // Checked against the first word of the api call
args []string // List of human-readable argument names
handler func(admin_info) (admin_info, error) // First is input map, second is output
}
// Maps things like "IP", "port", "bucket", or "coords" onto strings
type admin_pair struct {
key string
val interface{}
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}
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type admin_nodeInfo []admin_pair
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func (a *admin) addHandler(name string, args []string, handler func(admin_info) (admin_info, error)) {
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a.handlers = append(a.handlers, admin_handlerInfo{name, args, handler})
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}
func (a *admin) init(c *Core, listenaddr string) {
a.core = c
a.listenaddr = listenaddr
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a.addHandler("help", nil, func(in admin_info) (admin_info, error) {
handlers := make(map[string]interface{})
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for _, handler := range a.handlers {
handlers[handler.name] = admin_info{ "fields": handler.args }
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}
return admin_info{"help": handlers}, nil
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})
a.addHandler("dot", []string{}, func(in admin_info) (admin_info, error) {
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return admin_info{"dot": string(a.getResponse_dot())}, nil
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})
a.addHandler("getSelf", []string{}, func(in admin_info) (admin_info, error) {
self := a.getData_getSelf().asMap()
ip := fmt.Sprint(self["ip"])
delete(self, "ip")
return admin_info{"self": admin_info{ ip: self }}, nil
})
a.addHandler("getPeers", []string{}, func(in admin_info) (admin_info, error) {
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sort := "ip"
peers := make(admin_info)
for _, peerdata := range a.getData_getPeers() {
p := peerdata.asMap()
so := fmt.Sprint(p[sort])
peers[so] = p
delete(peers[so].(map[string]interface{}), sort)
}
return admin_info{"peers": peers}, nil
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})
a.addHandler("getSwitchPeers", []string{}, func(in admin_info) (admin_info, error) {
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sort := "port"
switchpeers := make(admin_info)
for _, s := range a.getData_getSwitchPeers() {
p := s.asMap()
so := fmt.Sprint(p[sort])
switchpeers[so] = p
delete(switchpeers[so].(map[string]interface{}), sort)
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}
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return admin_info{"switchpeers": switchpeers}, nil
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})
a.addHandler("getDHT", []string{}, func(in admin_info) (admin_info, error) {
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sort := "ip"
dht := make(admin_info)
for _, d := range a.getData_getDHT() {
p := d.asMap()
so := fmt.Sprint(p[sort])
dht[so] = p
delete(dht[so].(map[string]interface{}), sort)
}
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return admin_info{"dht": dht}, nil
})
a.addHandler("getSessions", []string{}, func(in admin_info) (admin_info, error) {
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sort := "ip"
sessions := make(admin_info)
for _, s := range a.getData_getSessions() {
p := s.asMap()
so := fmt.Sprint(p[sort])
sessions[so] = p
delete(sessions[so].(map[string]interface{}), sort)
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}
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return admin_info{"sessions": sessions}, nil
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})
a.addHandler("addPeer", []string{"uri"}, func(in admin_info) (admin_info, error) {
if a.addPeer(in["uri"].(string)) == nil {
return admin_info{
"added": []string{
in["uri"].(string),
},
}, nil
} else {
return admin_info{
"not_added": []string{
in["uri"].(string),
},
}, errors.New("Failed to add peer")
}
})
a.addHandler("removePeer", []string{"port"}, func(in admin_info) (admin_info, error) {
if a.removePeer(fmt.Sprint(in["port"])) == nil {
return admin_info{
"removed": []string{
fmt.Sprint(in["port"]),
},
}, nil
} else {
return admin_info{
"not_removed": []string{
fmt.Sprint(in["port"]),
},
}, errors.New("Failed to remove peer")
}
})
a.addHandler("getTunTap", []string{}, func(in admin_info) (r admin_info, e error) {
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defer func() {
recover()
r = admin_info{ "tuntap": admin_info{ "none": admin_info{ } } }
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e = nil
}()
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return admin_info{
a.core.tun.iface.Name(): admin_info{
"tap_mode": a.core.tun.iface.IsTAP(),
"mtu": a.core.tun.mtu,
},
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}, nil
})
a.addHandler("setTunTap", []string{"name", "[tap_mode]", "[mtu]"}, func(in admin_info) (admin_info, error) {
// Set sane defaults
iftapmode := getDefaults().defaultIfTAPMode
ifmtu := getDefaults().defaultIfMTU
// Has TAP mode been specified?
if tap, ok := in["tap_mode"]; ok {
iftapmode = tap.(bool)
}
// Check we have enough params for MTU
if mtu, ok := in["mtu"]; ok {
if mtu.(float64) >= 1280 && ifmtu <= getDefaults().maximumIfMTU {
ifmtu = int(in["mtu"].(float64))
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}
}
// Start the TUN adapter
if err := a.startTunWithMTU(in["name"].(string), iftapmode, ifmtu); err != nil {
return admin_info{}, errors.New("Failed to configure adapter")
} else {
return admin_info{
a.core.tun.iface.Name(): admin_info{
"tap_mode": a.core.tun.iface.IsTAP(),
"mtu": ifmtu,
},
}, nil
}
})
a.addHandler("getAllowedBoxPubs", []string{}, func(in admin_info) (admin_info, error) {
return admin_info{"allowed_box_pubs": a.getAllowedBoxPubs()}, nil
})
a.addHandler("addAllowedBoxPub", []string{"box_pub_key"}, func(in admin_info) (admin_info, error) {
if a.addAllowedBoxPub(in["box_pub_key"].(string)) == nil {
return admin_info{
"added": []string{
in["box_pub_key"].(string),
},
}, nil
} else {
return admin_info{
"not_added": []string{
in["box_pub_key"].(string),
},
}, errors.New("Failed to add allowed box pub key")
}
})
a.addHandler("removeAllowedBoxPub", []string{"box_pub_key"}, func(in admin_info) (admin_info, error) {
if a.removeAllowedBoxPub(in["box_pub_key"].(string)) == nil {
return admin_info{
"removed": []string{
in["box_pub_key"].(string),
},
}, nil
} else {
return admin_info{
"not_removed": []string{
in["box_pub_key"].(string),
},
}, errors.New("Failed to remove allowed box pub key")
}
})
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go a.listen()
}
func (a *admin) listen() {
l, err := net.Listen("tcp", a.listenaddr)
if err != nil {
a.core.log.Printf("Admin socket failed to listen: %v", err)
os.Exit(1)
}
defer l.Close()
a.core.log.Printf("Admin socket listening on %s", l.Addr().String())
for {
conn, err := l.Accept()
if err == nil {
a.handleRequest(conn)
}
}
}
func (a *admin) handleRequest(conn net.Conn) {
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decoder := json.NewDecoder(conn)
encoder := json.NewEncoder(conn)
encoder.SetIndent("", " ")
recv := make(admin_info)
send := make(admin_info)
defer func() {
r := recover()
if r != nil {
send = admin_info{
"status": "error",
"error": "Unrecoverable error, possibly as a result of invalid input types or malformed syntax",
}
fmt.Println("Admin socket error:", r)
if err := encoder.Encode(&send); err != nil {
fmt.Println("Admin socket JSON encode error:", err)
}
conn.Close()
}
}()
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for {
// Start with a clean slate on each request
recv = admin_info{}
send = admin_info{}
// Decode the input
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if err := decoder.Decode(&recv); err != nil {
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// fmt.Println("Admin socket JSON decode error:", err)
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return
}
// Send the request back with the response, and default to "error"
// unless the status is changed below by one of the handlers
send["request"] = recv
send["status"] = "error"
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handlers:
for _, handler := range a.handlers {
// We've found the handler that matches the request
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if recv["request"] == handler.name {
// Check that we have all the required arguments
for _, arg := range handler.args {
// An argument in [square brackets] is optional and not required,
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// so we can safely ignore those
if strings.HasPrefix(arg, "[") && strings.HasSuffix(arg, "]") {
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continue
}
// Check if the field is missing
if _, ok := recv[arg]; !ok {
send = admin_info{
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"status": "error",
"error": "Expected field missing",
"expecting": arg,
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}
break handlers
}
}
// By this point we should have all the fields we need, so call
// the handler
response, err := handler.handler(recv)
if err != nil {
send["error"] = err.Error()
if response != nil {
send["response"] = response
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}
} else {
send["status"] = "success"
if response != nil {
send["response"] = response
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}
}
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break
}
}
// Send the response back
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if err := encoder.Encode(&send); err != nil {
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// fmt.Println("Admin socket JSON encode error:", err)
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return
}
// If "keepalive" isn't true then close the connection
if keepalive, ok := recv["keepalive"]; !ok || !keepalive.(bool) {
conn.Close()
}
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}
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}
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func (n *admin_nodeInfo) asMap() map[string]interface{} {
m := make(map[string]interface{}, len(*n))
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for _, p := range *n {
m[p.key] = p.val
}
return m
}
func (n *admin_nodeInfo) toString() string {
// TODO return something nicer looking than this
var out []string
for _, p := range *n {
out = append(out, fmt.Sprintf("%v: %v", p.key, p.val))
}
return strings.Join(out, ", ")
return fmt.Sprint(*n)
}
func (a *admin) printInfos(infos []admin_nodeInfo) string {
var out []string
for _, info := range infos {
out = append(out, info.toString())
}
out = append(out, "") // To add a trailing "\n" in the join
return strings.Join(out, "\n")
}
func (a *admin) addPeer(addr string) error {
u, err := url.Parse(addr)
if err == nil {
switch strings.ToLower(u.Scheme) {
case "tcp":
a.core.DEBUG_addTCPConn(u.Host)
case "udp":
a.core.DEBUG_maybeSendUDPKeys(u.Host)
case "socks":
a.core.DEBUG_addSOCKSConn(u.Host, u.Path[1:])
default:
return errors.New("invalid peer: " + addr)
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}
} else {
// no url scheme provided
addr = strings.ToLower(addr)
if strings.HasPrefix(addr, "udp:") {
a.core.DEBUG_maybeSendUDPKeys(addr[4:])
return nil
} else {
if strings.HasPrefix(addr, "tcp:") {
addr = addr[4:]
}
a.core.DEBUG_addTCPConn(addr)
return nil
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}
return errors.New("invalid peer: " + addr)
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}
return nil
}
func (a *admin) removePeer(p string) error {
iport, err := strconv.Atoi(p)
if err != nil {
return err
}
a.core.peers.removePeer(switchPort(iport))
return nil
}
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func (a *admin) startTunWithMTU(ifname string, iftapmode bool, ifmtu int) error {
// Close the TUN first if open
_ = a.core.tun.close()
// Then reconfigure and start it
addr := a.core.router.addr
straddr := fmt.Sprintf("%s/%v", net.IP(addr[:]).String(), 8*len(address_prefix))
if ifname != "none" {
err := a.core.tun.setup(ifname, iftapmode, straddr, ifmtu)
if err != nil {
return err
}
// If we have open sessions then we need to notify them
// that our MTU has now changed
for _, sinfo := range a.core.sessions.sinfos {
if ifname == "none" {
sinfo.myMTU = 0
} else {
sinfo.myMTU = uint16(ifmtu)
}
a.core.sessions.sendPingPong(sinfo, false)
}
// Aaaaand... go!
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go a.core.tun.read()
}
go a.core.tun.write()
return nil
}
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func (a *admin) getData_getSelf() *admin_nodeInfo {
table := a.core.switchTable.table.Load().(lookupTable)
addr := a.core.router.addr
coords := table.self.getCoords()
self := admin_nodeInfo{
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{"ip", net.IP(addr[:]).String()},
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{"coords", fmt.Sprint(coords)},
}
return &self
}
func (a *admin) getData_getPeers() []admin_nodeInfo {
ports := a.core.peers.ports.Load().(map[switchPort]*peer)
var peerInfos []admin_nodeInfo
var ps []switchPort
for port := range ports {
ps = append(ps, port)
}
sort.Slice(ps, func(i, j int) bool { return ps[i] < ps[j] })
for _, port := range ps {
p := ports[port]
addr := *address_addrForNodeID(getNodeID(&p.box))
info := admin_nodeInfo{
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{"ip", net.IP(addr[:]).String()},
{"port", port},
{"uptime", fmt.Sprint(time.Since(p.firstSeen))},
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{"bytes_sent", atomic.LoadUint64(&p.bytesSent)},
{"bytes_recvd", atomic.LoadUint64(&p.bytesRecvd)},
}
peerInfos = append(peerInfos, info)
}
return peerInfos
}
func (a *admin) getData_getSwitchPeers() []admin_nodeInfo {
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var peerInfos []admin_nodeInfo
table := a.core.switchTable.table.Load().(lookupTable)
peers := a.core.peers.ports.Load().(map[switchPort]*peer)
for _, elem := range table.elems {
peer, isIn := peers[elem.port]
if !isIn {
continue
}
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addr := *address_addrForNodeID(getNodeID(&peer.box))
coords := elem.locator.getCoords()
info := admin_nodeInfo{
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{"ip", net.IP(addr[:]).String()},
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{"coords", fmt.Sprint(coords)},
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{"port", elem.port},
}
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peerInfos = append(peerInfos, info)
}
return peerInfos
}
func (a *admin) getData_getDHT() []admin_nodeInfo {
var infos []admin_nodeInfo
now := time.Now()
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getDHT := func() {
for i := 0; i < a.core.dht.nBuckets(); i++ {
b := a.core.dht.getBucket(i)
getInfo := func(vs []*dhtInfo, isPeer bool) {
for _, v := range vs {
addr := *address_addrForNodeID(v.getNodeID())
info := admin_nodeInfo{
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{"ip", net.IP(addr[:]).String()},
{"coords", fmt.Sprint(v.coords)},
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{"bucket", i},
{"peer_only", isPeer},
{"last_seen", fmt.Sprint(now.Sub(v.recv))},
}
infos = append(infos, info)
}
}
getInfo(b.other, false)
getInfo(b.peers, true)
}
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}
a.core.router.doAdmin(getDHT)
return infos
}
func (a *admin) getData_getSessions() []admin_nodeInfo {
var infos []admin_nodeInfo
getSessions := func() {
for _, sinfo := range a.core.sessions.sinfos {
// TODO? skipped known but timed out sessions?
info := admin_nodeInfo{
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{"ip", net.IP(sinfo.theirAddr[:]).String()},
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{"coords", fmt.Sprint(sinfo.coords)},
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{"mtu", sinfo.getMTU()},
{"was_mtu_fixed", sinfo.wasMTUFixed},
{"bytes_sent", sinfo.bytesSent},
{"bytes_recvd", sinfo.bytesRecvd},
}
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infos = append(infos, info)
}
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}
a.core.router.doAdmin(getSessions)
return infos
}
func (a *admin) getAllowedBoxPubs() []string {
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pubs := a.core.peers.getAllowedBoxPubs()
var out []string
for _, pub := range pubs {
out = append(out, hex.EncodeToString(pub[:]))
}
return out
}
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func (a *admin) addAllowedBoxPub(bstr string) (err error) {
boxBytes, err := hex.DecodeString(bstr)
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if err == nil {
var box boxPubKey
copy(box[:], boxBytes)
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a.core.peers.addAllowedBoxPub(&box)
}
return
}
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func (a *admin) removeAllowedBoxPub(bstr string) (err error) {
boxBytes, err := hex.DecodeString(bstr)
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if err == nil {
var box boxPubKey
copy(box[:], boxBytes)
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a.core.peers.removeAllowedBoxPub(&box)
}
return
}
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func (a *admin) getResponse_dot() []byte {
self := a.getData_getSelf().asMap()
myAddr := self["IP"]
peers := a.getData_getSwitchPeers()
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dht := a.getData_getDHT()
sessions := a.getData_getSessions()
// Map of coords onto IP
m := make(map[string]string)
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m[self["coords"].(string)] = self["ip"].(string)
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for _, peer := range peers {
p := peer.asMap()
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m[p["coords"].(string)] = p["ip"].(string)
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}
for _, node := range dht {
n := node.asMap()
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m[n["coords"].(string)] = n["ip"].(string)
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}
for _, node := range sessions {
n := node.asMap()
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m[n["coords"].(string)] = n["ip"].(string)
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}
// Start building a tree from all known nodes
type nodeInfo struct {
name string
key string
parent string
}
infos := make(map[string]nodeInfo)
// First fill the tree with all known nodes, no parents
for k, n := range m {
infos[k] = nodeInfo{
name: n,
key: k,
}
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}
// Get coords as a slice of strings, FIXME? this looks very fragile
coordSlice := func(coords string) []string {
tmp := strings.Replace(coords, "[", "", -1)
tmp = strings.Replace(tmp, "]", "", -1)
return strings.Split(tmp, " ")
}
// Now go through and create placeholders for any missing nodes
for _, info := range infos {
// This is ugly string manipulation
coordsSplit := coordSlice(info.key)
for idx := range coordsSplit {
key := fmt.Sprintf("[%v]", strings.Join(coordsSplit[:idx], " "))
newInfo, isIn := infos[key]
if isIn {
continue
}
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newInfo.name = "?"
newInfo.key = key
infos[key] = newInfo
}
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}
// Now go through and attach parents
for _, info := range infos {
pSplit := coordSlice(info.key)
if len(pSplit) > 0 {
pSplit = pSplit[:len(pSplit)-1]
}
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info.parent = fmt.Sprintf("[%v]", strings.Join(pSplit, " "))
infos[info.key] = info
}
// Finally, get a sorted list of keys, which we use to organize the output
var keys []string
for _, info := range infos {
keys = append(keys, info.key)
}
// TODO sort
less := func(i, j int) bool {
return keys[i] < keys[j]
}
sort.Slice(keys, less)
// Now print it all out
var out []byte
put := func(s string) {
out = append(out, []byte(s)...)
}
put("digraph {\n")
// First set the labels
for _, key := range keys {
info := infos[key]
if info.name == myAddr {
put(fmt.Sprintf("\"%v\" [ style = \"filled\", label = \"%v\" ];\n", info.key, info.name))
} else {
put(fmt.Sprintf("\"%v\" [ label = \"%v\" ];\n", info.key, info.name))
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}
}
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// Then print the tree structure
for _, key := range keys {
info := infos[key]
if info.key == info.parent {
continue
} // happens for the root, skip it
coordsSplit := coordSlice(key)
if len(coordsSplit) == 0 {
continue
}
port := coordsSplit[len(coordsSplit)-1]
put(fmt.Sprintf(" \"%+v\" -> \"%+v\" [ label = \"%v\" ];\n", info.parent, info.key, port))
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}
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put("}\n")
return out
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}