Files
core/Commands.go
Kleissner b2cbe2d066 Support for feature bits: IPv4_LISTEN and IPv6_LISTEN
Share IPv4/IPv6 peer connections only if supported by the remote peer.
2021-04-05 14:58:47 +02:00

196 lines
7.1 KiB
Go

/*
File Name: Commands.go
Copyright: 2021 Peernet s.r.o.
Author: Peter Kleissner
*/
package core
import (
"bytes"
"fmt"
"time"
"github.com/PeernetOfficial/core/dht"
)
// respondClosesContactsCount is the number of closest contact to respond.
// Each peer record will take 55 bytes. Overhead is 73 + 15 payload header + UA length + 6 + 34 = 128 bytes without UA.
// It makes sense to stay below 508 bytes (no fragmentation). Reporting back 5 contacts for FIND_SELF requests should do the magic.
const respondClosesContactsCount = 5
// cmdAnouncement handles an incoming announcement
func (peer *PeerInfo) cmdAnouncement(msg *MessageAnnouncement) {
added := false
if peer == nil {
// The added check is required due to potential race condition; initially the client may receive multiple incoming announcement from the same peer via different connections.
if peer, added = PeerlistAdd(msg.SenderPublicKey, msg.connection); !added {
return
}
fmt.Printf("Incoming initial announcement from %s\n", msg.connection.Address.String())
} else {
fmt.Printf("Incoming secondary announcement from %s\n", msg.connection.Address.String())
}
// Filter function to only share peers that are "connectable" to the remote one. It checks IPv4, IPv6, and local connection.
filterFunc := func(allowLocal, allowIPv4, allowIPv6 bool) dht.NodeFilterFunc {
return func(node *dht.Node) (accept bool) {
return node.Info.(*PeerInfo).IsConnectable(allowLocal, allowIPv4, allowIPv6)
}
}
allowIPv4 := msg.Features&(1<<FeatureIPv4Listen) > 0
allowIPv6 := msg.Features&(1<<FeatureIPv6Listen) > 0
var hash2Peers []Hash2Peer
// FIND_SELF: Requesting peers close to the sender?
if msg.Actions&(1<<ActionFindSelf) > 0 {
// do not respond the caller's own peer (add to ignore list)
for _, node := range nodesDHT.GetClosestContacts(respondClosesContactsCount, peer.NodeID, filterFunc(msg.connection.IsLocal(), allowIPv4, allowIPv6), peer.NodeID) {
if info := node.Info.(*PeerInfo).peer2Info(msg.connection.IsLocal(), allowIPv4, allowIPv6); info != nil {
hash2Peers = append(hash2Peers, Hash2Peer{ID: KeyHash{node.ID}, Closest: []InfoPeer{*info}})
}
}
}
// FIND_PEER: Find a different peer? Note that in this case no IPv4/IPv6 connectivity check is performed.
if msg.Actions&(1<<ActionFindPeer) > 0 {
// TODO
}
// Find a value?
if msg.Actions&(1<<ActionFindValue) > 0 {
// TODO
}
// Information about files stored by the sender?
if msg.Actions&(1<<ActionInfoStore) > 0 {
// TODO
}
// Empty announcement from existing peer means the peer most likely restarted. For regular connection upkeep ping should be used.
peer.sendResponse(added, hash2Peers, nil, nil)
}
func (peer *PeerInfo) peer2Info(allowLocal, allowIPv4, allowIPv6 bool) (result *InfoPeer) {
if connection := peer.GetConnection2Share(allowLocal, allowIPv4, allowIPv6); connection != nil {
return &InfoPeer{
PublicKey: peer.PublicKey,
NodeID: peer.NodeID,
IP: connection.Address.IP,
Port: uint16(connection.Address.Port),
}
}
return nil
}
// cmdResponse handles the response to the announcement
func (peer *PeerInfo) cmdResponse(msg *MessageResponse) {
// Future: We should only accept responses from peers that we contacted first for security reasons. This can be easily identified by Peer ID.
if peer == nil {
peer, _ = PeerlistAdd(msg.SenderPublicKey, msg.connection)
fmt.Printf("Incoming initial response from %s\n", msg.connection.Address.String())
}
// check if incoming response to FIND_SELF
for _, hash2peer := range msg.Hash2Peers {
if !bytes.Equal(hash2peer.ID.Hash, nodeID) {
for _, closePeer := range hash2peer.Closest {
// Initiate contact. Once a response comes back, the peer is actually added to the list.
contactArbitraryPeer(closePeer.PublicKey, closePeer.IP, closePeer.Port)
}
}
}
//fmt.Printf("Incoming response from %s on %s\n", msg.connection.Address.String(), msg.connection.Address.String())
}
// cmdPing handles an incoming ping message
func (peer *PeerInfo) cmdPing(msg *MessageRaw) {
if peer == nil {
// Unexpected incoming ping, reply with announce message
// TODO
return
}
peer.send(&PacketRaw{Command: CommandPong})
//fmt.Printf("Incoming ping from %s on %s\n", msg.connection.Address.String(), msg.connection.Address.String())
}
// cmdPong handles an incoming pong message
func (peer *PeerInfo) cmdPong(msg *MessageRaw) {
//fmt.Printf("Incoming pong from %s on %s\n", msg.connection.Address.String(), msg.connection.Address.String())
}
// cmdChat handles a chat message [debug]
func (peer *PeerInfo) cmdChat(msg *MessageRaw) {
fmt.Printf("Chat from '%s': %s\n", msg.connection.Address.String(), string(msg.PacketRaw.Payload))
}
// pingTime is the time in seconds to send out ping messages
const pingTime = 10
// connectionInvalidate is the threshold in seconds to invalidate formerly active connections that no longer receive incoming packets.
const connectionInvalidate = 22
// connectionRemove is the threshold in seconds to remove inactive connections in case there is at least one active connection known.
const connectionRemove = 2 * 60
// autoPingAll sends out regular ping messages to all connections of all peers. This allows to detect invalid connections and eventually drop them.
func autoPingAll() {
for {
time.Sleep(time.Second)
thresholdInvalidate1 := time.Now().Add(-connectionInvalidate * time.Second)
thresholdInvalidate2 := time.Now().Add(-connectionInvalidate * time.Second * 4)
thresholdPingOut1 := time.Now().Add(-pingTime * time.Second)
thresholdPingOut2 := time.Now().Add(-pingTime * time.Second * 4)
for _, peer := range PeerlistGet() {
// first handle active connections
for _, connection := range peer.GetConnections(true) {
thresholdPing := thresholdPingOut1
thresholdInv := thresholdInvalidate1
if connection.Status == ConnectionRedundant {
thresholdPing = thresholdPingOut2
thresholdInv = thresholdInvalidate2
}
if connection.LastPacketIn.Before(thresholdInv) {
peer.invalidateActiveConnection(connection)
continue
}
if connection.LastPacketIn.Before(thresholdPing) && connection.LastPingOut.Before(thresholdPing) {
peer.pingConnection(connection)
continue
}
}
// handle inactive connections
for _, connection := range peer.GetConnections(false) {
// If the inactive connection is expired, remove it; although only if there is at least one active connection, or two other inactive ones.
if (len(peer.connectionActive) >= 1 || len(peer.connectionInactive) > 2) && connection.Expires.Before(time.Now()) {
peer.removeInactiveConnection(connection)
continue
}
// if no ping was sent recently, send one now
if connection.LastPingOut.Before(thresholdPingOut1) {
peer.pingConnection(connection)
}
}
}
}
}
// SendChatAll sends a text message to all peers
func SendChatAll(text string) {
for _, peer := range PeerlistGet() {
peer.Chat(text)
}
}