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package main
import (
"bytes"
"context"
"encoding/hex"
"fmt"
"github.com/charmbracelet/log"
"github.com/meshnet-gophers/meshtastic-go"
pb "github.com/meshnet-gophers/meshtastic-go/meshtastic"
"google.golang.org/protobuf/proto"
)
func (n *Node) RxLoop(ctx context.Context) error {
for {
if err := ctx.Err(); err != nil {
return err
}
p, ts, err := n.mesh.ReadMeshPacket()
if err != nil {
n.logger.Error("Read mesh packet failed", "err", err)
return err
}
if err := n.rxMessage(ts, p); err != nil {
n.logger.Error("Processing Radio Message", "error", err)
}
}
}
func (n *Node) rxMessage(ts uint64, p *pb.MeshPacket) error {
pt := PacketTruncated{To: p.To, From: p.From, ID: p.Id}
info := fmt.Sprintf("ts:%d rssi:%-4d snr:%-5.1f", p.RxTime, p.RxRssi, p.RxSnr)
header := fmt.Sprintf("from:%08x to:%08x id:%08x ch:%02x next:%02x last:%02x hs:%d hl:%d mq:%d wack:%d", p.From, p.To, p.Id, uint8(p.Channel), p.NextHop, p.RelayNode, p.HopStart, p.HopLimit, bool2Int(p.ViaMqtt), bool2Int(p.WantAck))
payloadstr := fmt.Sprintf("%x", p.GetEncrypted())
var dupe bool
if _, dupe = n.pktLru.Get(pt); dupe {
n.logger.Debug(") MeshPacket", "info", info, "header", header, "payload", payloadstr)
} else {
n.logger.Debug(")) MeshPacket", "info", info, "header", header, "payload", payloadstr)
n.pktLru.Add(pt, struct{}{})
}
if dupe { // XXX: it would need to be changed for the traceroute
return nil // skip duplicates
}
if p.From == n.nodeID {
return nil // ourself
}
if len(p.GetEncrypted()) == 0 {
n.logger.Warn(":: Skipping unencrypted or empty packet")
return nil // we skip unencrypted packets
}
var plaintext []byte
var pubKey []byte
var channel *pb.ChannelSettings
if p.To == n.nodeID && p.Channel == 0x00 {
var err error
if plaintext, pubKey, err = n.tryDecryptPKC(p); err != nil {
log.Printf("failed to decrypt PKC message: %s", err)
}
}
if plaintext != nil {
channel = pkcChan
p.Channel = 0
} else {
plaintext, channel = n.tryDecryptPSK(p)
if plaintext == nil {
return nil // failed decrypt
}
p.Channel = channel.ChannelNum
}
data := &pb.Data{}
if err := proto.Unmarshal(plaintext, data); err != nil {
n.logger.Debug(")) MeshPacket.Data", "channel", channel.Name, "mqtt", p.ViaMqtt, "raw", hex.EncodeToString(plaintext))
return fmt.Errorf("unmarshalling decrypted data: %w", err)
}
p.PublicKey = pubKey
p.PkiEncrypted = channel == pkcChan
p.PayloadVariant = &pb.MeshPacket_Decoded{Decoded: data}
msgFromRadio := &pb.FromRadio{PayloadVariant: &pb.FromRadio_Packet{Packet: p}}
source := data.Source
if source == 0 {
source = p.From
}
dest := data.Dest
if dest == 0 {
dest = p.To
}
toUs := dest == n.nodeID
if dest == broadcastID || toUs {
n.dispatchMessageToAdmin(msgFromRadio)
}
n.db.StoreFromRadio(int64(ts), msgFromRadio)
n.logger.Debug(")) MeshPacket.Data", "channel", channel.Name, "mqtt", p.ViaMqtt, "raw", hex.EncodeToString(plaintext), "data", data)
src := n.NodeInfo(source, func(ni *pb.NodeInfo) bool {
if ni.Num == n.nodeID {
return false // it's us
}
if p.HopLimit > p.HopStart {
return false // weird hoplimit value
}
hopsAway := uint32(p.HopStart - p.HopLimit)
if ni.HopsAway != nil && *ni.HopsAway <= hopsAway {
return false // skip update if these hops away are longer
}
ni.HopsAway = &hopsAway
return true
})
dst := n.NodeInfo(dest, nil)
var payload any
var reply proto.Message
replyPortNum := data.Portnum
switch data.Portnum {
case pb.PortNum_ADMIN_APP:
admin := &pb.AdminMessage{}
if err := proto.Unmarshal(data.Payload, admin); err != nil {
return fmt.Errorf("unmarshalling admin message: %w", err)
}
payload = admin
switch adminPayload := admin.PayloadVariant.(type) {
case *pb.AdminMessage_GetDeviceMetadataRequest:
if data.WantResponse && toUs {
reply = &pb.AdminMessage{
PayloadVariant: &pb.AdminMessage_GetDeviceMetadataResponse{
GetDeviceMetadataResponse: n.getDeviceMetadata(),
},
}
}
default:
n.logger.Warnf("unhandled admin message type: %T", adminPayload)
}
case pb.PortNum_NODEINFO_APP:
user := &pb.User{}
if err := proto.Unmarshal(data.Payload, user); err != nil {
return fmt.Errorf("unmarshalling user: %w", err)
}
payload = user
n.logger.Info(")) NodeInfo", "user", user)
n.NodeInfo(source, func(nodeInfo *pb.NodeInfo) bool {
if nodeInfo.User != nil {
if len(nodeInfo.User.PublicKey) > 0 && !bytes.Equal(nodeInfo.User.PublicKey, user.PublicKey) {
n.logger.Error("NodeInfo w/ different key", "nodeInfo", nodeInfo, "new", user)
return false // do not update
}
}
nodeInfo.User = user
return true
})
if data.WantResponse && toUs {
reply = n.user
}
case pb.PortNum_TEXT_MESSAGE_APP:
n.logger.Info(")) TextMessage", "channel", channel.Name, "source", meshtastic.NodeID(source).String(), "text", string(data.Payload))
case pb.PortNum_ROUTING_APP:
routing := &pb.Routing{}
if err := proto.Unmarshal(data.Payload, routing); err != nil {
return fmt.Errorf("unmarshalling routingPayload: %w", err)
}
payload = routing
n.logger.Info(")) Routing", "routing", routing)
case pb.PortNum_TRACEROUTE_APP:
routeDiscovery := &pb.RouteDiscovery{}
if err := proto.Unmarshal(data.Payload, routeDiscovery); err != nil {
return fmt.Errorf("unmarshalling traceroute payload: %w", err)
}
payload = routeDiscovery
n.logger.Info(")) RouteDiscovery", "channel", channel.Name, "source", meshtastic.NodeID(source).String(), "payload", routeDiscovery)
if !toUs {
break
}
towardsDestination := data.ReplyId == 0
var route *[]uint32
var snr *[]int32
if towardsDestination {
route = &routeDiscovery.Route
snr = &routeDiscovery.SnrTowards
} else {
route = &routeDiscovery.RouteBack
snr = &routeDiscovery.SnrBack
}
// Only insert unknown hops if hop_start is valid
if p.HopStart != 0 && p.HopLimit <= p.HopStart {
var hopsTaken uint8 = uint8(p.HopStart - p.HopLimit)
diff := int(hopsTaken) - len(*route)
for i := 0; i < diff; i++ {
if len(*route) < ROUTE_MAX_SIZE {
*route = append(*route, broadcastID)
}
}
// Add unknown SNR values if necessary
diff = len(*route) - len(*snr)
for i := 0; i < diff; i++ {
if len(*snr) < ROUTE_MAX_SIZE {
*snr = append(*snr, 0xFF)
}
}
}
if len(*snr) < ROUTE_MAX_SIZE {
*snr = append(*snr, int32(p.RxSnr*4))
}
// We don't need to add route, if we are the dest
// // Length of route array can normally not be exceeded due to the max. hop_limit of 7
// if *route_count < ROUTE_SIZE {
// route[*route_count] = myNodeInfo.my_node_num
// *route_count += 1
// } else {
// LOG_WARN("Route exceeded maximum hop limit!") // Are you bridging networks?
// }
reply = routeDiscovery
case pb.PortNum_POSITION_APP:
position := &pb.Position{}
if err := proto.Unmarshal(data.Payload, position); err != nil {
return fmt.Errorf("unmarshalling positionPayload: %w", err)
}
payload = position
n.logger.Info(")) Position", "position", position)
if data.WantResponse && toUs {
reply = n.getPosition()
} else {
n.NodeInfo(source, func(nodeInfo *pb.NodeInfo) bool {
nodeInfo.Position = position
return true
})
}
case pb.PortNum_TELEMETRY_APP:
telemetry := &pb.Telemetry{}
if err := proto.Unmarshal(data.Payload, telemetry); err != nil {
return fmt.Errorf("unmarshalling telemetryPayload: %w", err)
}
payload = telemetry
n.logger.Info(")) Telemetry deviceMetrics", "telemetry", telemetry)
if data.WantResponse && toUs {
metrics, err := n.getDeviceMetrics()
if err != nil {
break
}
reply = metrics
} else {
deviceMetrics := telemetry.GetDeviceMetrics()
if deviceMetrics == nil {
break
}
n.NodeInfo(source, func(nodeInfo *pb.NodeInfo) bool {
nodeInfo.DeviceMetrics = deviceMetrics
return true
})
}
default:
n.logger.Debug(")) !Unhandled app payload", "data", data)
}
n.dl.LogPacket(p, channel, src, dst, data, payload)
if toUs && p.WantAck {
err := n.txPacket(buildRoutingReply(&pb.MeshPacket{
From: p.From,
To: p.To,
HopStart: uint32(p.HopStart),
Channel: channel.ChannelNum,
Id: p.Id,
PkiEncrypted: msgFromRadio.GetPacket().PkiEncrypted,
PublicKey: msgFromRadio.GetPacket().PublicKey,
}, pb.Routing_NONE))
if err != nil {
n.logger.Warn("failed to send text ack", "err", err)
}
}
if reply != nil {
err := n.txPortnumMessage(channel.ChannelNum, source, replyPortNum, reply)
if err != nil {
n.logger.Error("Failed to reply", "err", err, "reply", reply)
} else {
n.dl.LogPacket(p, channel, dst, src, &pb.Data{Portnum: replyPortNum}, payload)
}
}
return nil
}
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