mirror of
https://github.com/yggdrasil-network/yggdrasil-go.git
synced 2024-11-27 12:05:23 +00:00
385 lines
12 KiB
Go
385 lines
12 KiB
Go
package yggdrasil
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// This part does most of the work to handle packets to/from yourself
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// It also manages crypto and dht info
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// TODO clean up old/unused code, maybe improve comments on whatever is left
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// Send:
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// Receive a packet from the tun
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// Look up session (if none exists, trigger a search)
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// Hand off to session (which encrypts, etc)
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// Session will pass it back to router.out, which hands it off to the self peer
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// The self peer triggers a lookup to find which peer to send to next
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// And then passes it to that's peer's peer.out function
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// The peer.out function sends it over the wire to the matching peer
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// Recv:
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// A packet comes in off the wire, and goes to a peer.handlePacket
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// The peer does a lookup, sees no better peer than the self
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// Hands it to the self peer.out, which passes it to router.in
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// If it's dht/seach/etc. traffic, the router passes it to that part
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// If it's an encapsulated IPv6 packet, the router looks up the session for it
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// The packet is passed to the session, which decrypts it, router.recvPacket
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// The router then runs some sanity checks before passing it to the tun
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import (
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"time"
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"golang.org/x/net/icmp"
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"golang.org/x/net/ipv6"
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)
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// The router struct has channels to/from the tun/tap device and a self peer (0), which is how messages are passed between this node and the peers/switch layer.
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// The router's mainLoop goroutine is responsible for managing all information related to the dht, searches, and crypto sessions.
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type router struct {
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core *Core
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addr address
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in <-chan []byte // packets we received from the network, link to peer's "out"
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out func([]byte) // packets we're sending to the network, link to peer's "in"
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recv chan<- []byte // place where the tun pulls received packets from
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send <-chan []byte // place where the tun puts outgoing packets
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reset chan struct{} // signal that coords changed (re-init sessions/dht)
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admin chan func() // pass a lambda for the admin socket to query stuff
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}
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// Initializes the router struct, which includes setting up channels to/from the tun/tap.
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func (r *router) init(core *Core) {
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r.core = core
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r.addr = *address_addrForNodeID(&r.core.dht.nodeID)
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in := make(chan []byte, 32) // TODO something better than this...
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p := r.core.peers.newPeer(&r.core.boxPub, &r.core.sigPub, &boxSharedKey{})
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p.out = func(packet []byte) {
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// This is to make very sure it never blocks
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select {
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case in <- packet:
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return
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default:
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util_putBytes(packet)
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}
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}
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r.in = in
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r.out = func(packet []byte) { p.handlePacket(packet) } // The caller is responsible for go-ing if it needs to not block
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recv := make(chan []byte, 32)
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send := make(chan []byte, 32)
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r.recv = recv
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r.send = send
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r.core.tun.recv = recv
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r.core.tun.send = send
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r.reset = make(chan struct{}, 1)
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r.admin = make(chan func())
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// go r.mainLoop()
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}
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// Starts the mainLoop goroutine.
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func (r *router) start() error {
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r.core.log.Println("Starting router")
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go r.mainLoop()
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return nil
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}
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// Takes traffic from the tun/tap and passes it to router.send, or from r.in and handles incoming traffic.
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// Also adds new peer info to the DHT.
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// Also resets the DHT and sesssions in the event of a coord change.
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// Also does periodic maintenance stuff.
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func (r *router) mainLoop() {
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ticker := time.NewTicker(time.Second)
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defer ticker.Stop()
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for {
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select {
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case p := <-r.in:
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r.handleIn(p)
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case p := <-r.send:
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r.sendPacket(p)
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case info := <-r.core.dht.peers:
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r.core.dht.insertIfNew(info, false) // Insert as a normal node
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r.core.dht.insertIfNew(info, true) // Insert as a peer
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case <-r.reset:
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r.core.sessions.resetInits()
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r.core.dht.reset()
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case <-ticker.C:
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{
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// Any periodic maintenance stuff goes here
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r.core.switchTable.doMaintenance()
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r.core.dht.doMaintenance()
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r.core.sessions.cleanup()
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r.core.sigs.cleanup()
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util_getBytes() // To slowly drain things
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}
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case f := <-r.admin:
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f()
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}
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}
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}
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// Checks a packet's to/from address to make sure it's in the allowed range.
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// If a session to the destination exists, gets the session and passes the packet to it.
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// If no session exists, it triggers (or continues) a search.
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// If the session hasn't responded recently, it triggers a ping or search to keep things alive or deal with broken coords *relatively* quickly.
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// It also deals with oversized packets if there are MTU issues by calling into icmpv6.go to spoof PacketTooBig traffic, or DestinationUnreachable if the other side has their tun/tap disabled.
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func (r *router) sendPacket(bs []byte) {
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if len(bs) < 40 {
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panic("Tried to send a packet shorter than a header...")
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}
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var sourceAddr address
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var sourceSubnet subnet
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copy(sourceAddr[:], bs[8:])
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copy(sourceSubnet[:], bs[8:])
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if !sourceAddr.isValid() && !sourceSubnet.isValid() {
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return
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}
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var dest address
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copy(dest[:], bs[24:])
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var snet subnet
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copy(snet[:], bs[24:])
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if !dest.isValid() && !snet.isValid() {
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return
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}
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doSearch := func(packet []byte) {
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var nodeID, mask *NodeID
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if dest.isValid() {
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nodeID, mask = dest.getNodeIDandMask()
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}
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if snet.isValid() {
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nodeID, mask = snet.getNodeIDandMask()
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}
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sinfo, isIn := r.core.searches.searches[*nodeID]
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if !isIn {
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sinfo = r.core.searches.newIterSearch(nodeID, mask)
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}
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if packet != nil {
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sinfo.packet = packet
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}
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r.core.searches.continueSearch(sinfo)
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}
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var sinfo *sessionInfo
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var isIn bool
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if dest.isValid() {
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sinfo, isIn = r.core.sessions.getByTheirAddr(&dest)
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}
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if snet.isValid() {
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sinfo, isIn = r.core.sessions.getByTheirSubnet(&snet)
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}
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switch {
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case !isIn || !sinfo.init:
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// No or unintiialized session, so we need to search first
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doSearch(bs)
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case time.Since(sinfo.time) > 6*time.Second:
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if sinfo.time.Before(sinfo.pingTime) && time.Since(sinfo.pingTime) > 6*time.Second {
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// We haven't heard from the dest in a while
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// We tried pinging but didn't get a response
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// They may have changed coords
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// Try searching to discover new coords
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// Note that search spam is throttled internally
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doSearch(nil)
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} else {
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// We haven't heard about the dest in a while
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now := time.Now()
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if !sinfo.time.Before(sinfo.pingTime) {
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// Update pingTime to start the clock for searches (above)
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sinfo.pingTime = now
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}
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if time.Since(sinfo.pingSend) > time.Second {
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// Send at most 1 ping per second
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sinfo.pingSend = now
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r.core.sessions.sendPingPong(sinfo, false)
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}
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}
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fallthrough // Also send the packet
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default:
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// Drop packets if the session MTU is 0 - this means that one or other
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// side probably has their TUN adapter disabled
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if sinfo.getMTU() == 0 {
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// Get the size of the oversized payload, up to a max of 900 bytes
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window := 900
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if len(bs) < window {
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window = len(bs)
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}
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// Create the Destination Unreachable response
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ptb := &icmp.DstUnreach{
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Data: bs[:window],
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}
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// Create the ICMPv6 response from it
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icmpv6Buf, err := r.core.tun.icmpv6.create_icmpv6_tun(
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bs[8:24], bs[24:40],
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ipv6.ICMPTypeDestinationUnreachable, 1, ptb)
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if err == nil {
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r.recv <- icmpv6Buf
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}
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// Don't continue - drop the packet
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return
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}
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// Generate an ICMPv6 Packet Too Big for packets larger than session MTU
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if len(bs) > int(sinfo.getMTU()) {
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// Get the size of the oversized payload, up to a max of 900 bytes
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window := 900
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if int(sinfo.getMTU()) < window {
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window = int(sinfo.getMTU())
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}
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// Create the Packet Too Big response
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ptb := &icmp.PacketTooBig{
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MTU: int(sinfo.getMTU()),
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Data: bs[:window],
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}
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// Create the ICMPv6 response from it
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icmpv6Buf, err := r.core.tun.icmpv6.create_icmpv6_tun(
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bs[8:24], bs[24:40],
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ipv6.ICMPTypePacketTooBig, 0, ptb)
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if err == nil {
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r.recv <- icmpv6Buf
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}
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// Don't continue - drop the packet
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return
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}
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sinfo.send <- bs
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}
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}
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// Called for incoming traffic by the session worker for that connection.
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// Checks that the IP address is correct (matches the session) and passes the packet to the tun/tap.
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func (r *router) recvPacket(bs []byte, theirAddr *address, theirSubnet *subnet) {
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// Note: called directly by the session worker, not the router goroutine
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if len(bs) < 24 {
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util_putBytes(bs)
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return
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}
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var source address
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copy(source[:], bs[8:])
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var snet subnet
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copy(snet[:], bs[8:])
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switch {
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case source.isValid() && source == *theirAddr:
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case snet.isValid() && snet == *theirSubnet:
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default:
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util_putBytes(bs)
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return
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}
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//go func() { r.recv<-bs }()
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r.recv <- bs
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}
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// Checks incoming traffic type and passes it to the appropriate handler.
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func (r *router) handleIn(packet []byte) {
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pType, pTypeLen := wire_decode_uint64(packet)
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if pTypeLen == 0 {
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return
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}
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switch pType {
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case wire_Traffic:
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r.handleTraffic(packet)
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case wire_ProtocolTraffic:
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r.handleProto(packet)
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default:
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}
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}
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// Handles incoming traffic, i.e. encapuslated ordinary IPv6 packets.
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// Passes them to the crypto session worker to be decrypted and sent to the tun/tap.
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func (r *router) handleTraffic(packet []byte) {
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defer util_putBytes(packet)
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p := wire_trafficPacket{}
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if !p.decode(packet) {
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return
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}
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sinfo, isIn := r.core.sessions.getSessionForHandle(&p.Handle)
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if !isIn {
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return
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}
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sinfo.recv <- &p
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}
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// Handles protocol traffic by decrypting it, checking its type, and passing it to the appropriate handler for that traffic type.
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func (r *router) handleProto(packet []byte) {
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// First parse the packet
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p := wire_protoTrafficPacket{}
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if !p.decode(packet) {
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return
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}
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// Now try to open the payload
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var sharedKey *boxSharedKey
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if p.ToKey == r.core.boxPub {
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// Try to open using our permanent key
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sharedKey = r.core.sessions.getSharedKey(&r.core.boxPriv, &p.FromKey)
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} else {
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return
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}
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bs, isOK := boxOpen(sharedKey, p.Payload, &p.Nonce)
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if !isOK {
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return
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}
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// Now do something with the bytes in bs...
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// send dht messages to dht, sessionRefresh to sessions, data to tun...
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// For data, should check that key and IP match...
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bsType, bsTypeLen := wire_decode_uint64(bs)
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if bsTypeLen == 0 {
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return
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}
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switch bsType {
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case wire_SessionPing:
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r.handlePing(bs, &p.FromKey)
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case wire_SessionPong:
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r.handlePong(bs, &p.FromKey)
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case wire_DHTLookupRequest:
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r.handleDHTReq(bs, &p.FromKey)
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case wire_DHTLookupResponse:
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r.handleDHTRes(bs, &p.FromKey)
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default:
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util_putBytes(packet)
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}
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}
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// Decodes session pings from wire format and passes them to sessions.handlePing where they either create or update a session.
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func (r *router) handlePing(bs []byte, fromKey *boxPubKey) {
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ping := sessionPing{}
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if !ping.decode(bs) {
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return
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}
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ping.SendPermPub = *fromKey
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r.core.sessions.handlePing(&ping)
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}
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// Handles session pongs (which are really pings with an extra flag to prevent acknowledgement).
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func (r *router) handlePong(bs []byte, fromKey *boxPubKey) {
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r.handlePing(bs, fromKey)
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}
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// Decodes dht requests and passes them to dht.handleReq to trigger a lookup/response.
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func (r *router) handleDHTReq(bs []byte, fromKey *boxPubKey) {
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req := dhtReq{}
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if !req.decode(bs) {
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return
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}
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req.Key = *fromKey
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r.core.dht.handleReq(&req)
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}
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// Decodes dht responses and passes them to dht.handleRes to update the DHT table and further pass them to the search code (if applicable).
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func (r *router) handleDHTRes(bs []byte, fromKey *boxPubKey) {
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res := dhtRes{}
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if !res.decode(bs) {
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return
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}
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res.Key = *fromKey
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r.core.dht.handleRes(&res)
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}
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// Passed a function to call.
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// This will send the function to r.admin and block until it finishes.
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// It's used by the admin socket to ask the router mainLoop goroutine about information in the session or dht structs, which cannot be read safely from outside that goroutine.
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func (r *router) doAdmin(f func()) {
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// Pass this a function that needs to be run by the router's main goroutine
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// It will pass the function to the router and wait for the router to finish
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done := make(chan struct{})
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newF := func() {
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f()
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close(done)
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}
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r.admin <- newF
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<-done
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}
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