2017-09-04 02:51:09 +03:00
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package discovery
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import (
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"bytes"
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"crypto/rand"
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"crypto/sha256"
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"fmt"
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"net"
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"strings"
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"github.com/davecgh/go-spew/spew"
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"github.com/lightningnetwork/lnd/autopilot"
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"github.com/lightningnetwork/lnd/lnwire"
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"github.com/roasbeef/btcd/btcec"
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"github.com/roasbeef/btcutil/bech32"
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)
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// NetworkPeerBootstrapper is an interface that represents an initial peer
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// boostrap mechanism. This interface is to be used to bootstrap a new peer to
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// the connection by providing it with the pubkey+address of a set of existing
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// peers on the network. Several bootstrap mechanisms can be implemented such
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// as DNS, in channel graph, DHT's, etc.
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type NetworkPeerBootstrapper interface {
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// SampleNodeAddrs uniformly samples a set of specified address from
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// the network peer bootstrapper source. The num addrs field passed in
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// denotes how many valid peer addresses to return. The passed set of
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// node nodes allows the caller to ignore a set of nodes perhaps
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// because they already have connections established.
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SampleNodeAddrs(numAddrs uint32,
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ignore map[autopilot.NodeID]struct{}) ([]*lnwire.NetAddress, error)
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// Name returns a human readable string which names the concrete
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// implementation of the NetworkPeerBootstrapper.
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Name() string
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}
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// MultiSourceBootstrap attempts to utilize a set of NetworkPeerBootstrapper
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// passed in to return the target (numAddrs) number of peer addresses that can
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// be used to bootstrap a peer just joining the Lightning Network. Each
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// bootstrapper will be queried successively until the target amount is met. If
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// the ignore map is populated, then the bootstrappers will be instructed to
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// skip those nodes.
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func MultiSourceBootstrap(ignore map[autopilot.NodeID]struct{}, numAddrs uint32,
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bootStrappers ...NetworkPeerBootstrapper) ([]*lnwire.NetAddress, error) {
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var addrs []*lnwire.NetAddress
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for _, bootStrapper := range bootStrappers {
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// If we already have enough addresses, then we can exit early
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// w/o querying the additional boostrappers.
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if uint32(len(addrs)) >= numAddrs {
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break
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}
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log.Infof("Attempting to bootstrap with: %v", bootStrapper.Name())
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// If we still need additional addresses, then we'll compute
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// the number of address remaining that we need to fetch.
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numAddrsLeft := numAddrs - uint32(len(addrs))
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log.Tracef("Querying for %v addresses", numAddrsLeft)
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netAddrs, err := bootStrapper.SampleNodeAddrs(numAddrsLeft, ignore)
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if err != nil {
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// If we encounter an error with a bootstrapper, then
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// we'll continue on to the next available
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// bootstrapper.
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log.Errorf("Unable to query bootstrapper %v: %v",
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bootStrapper.Name(), err)
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continue
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}
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addrs = append(addrs, netAddrs...)
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}
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log.Infof("Obtained %v addrs to bootstrap network with", len(addrs))
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return addrs, nil
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}
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// ChannelGraphBootstrapper is an implementation of the NetworkPeerBootstrapper
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// which attempts to retrieve advertised peers directly from the active channel
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// graph. This instance requires a backing autopilot.ChannelGraph instance in
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// order to operate properly.
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type ChannelGraphBootstrapper struct {
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chanGraph autopilot.ChannelGraph
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// hashAccumulator is a set of 32 random bytes that are read upon the
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// creation of the channel graph boostrapper. We use this value to
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// randomly select nodes within the known graph to connect to. After
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// each selection, we rotate the accumulator by hashing it with itself.
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hashAccumulator [32]byte
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tried map[autopilot.NodeID]struct{}
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}
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// A compile time assertion to ensure that ChannelGraphBootstrapper meets the
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// NetworkPeerBootstrapper interface.
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var _ NetworkPeerBootstrapper = (*ChannelGraphBootstrapper)(nil)
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// NewGraphBootstrapper returns a new instance of a ChannelGraphBootstrapper
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// backed by an active autopilot.ChannelGraph instance. This type of network
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// peer bootstrapper will use the authenticated nodes within the known channel
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// graph to bootstrap connections.
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func NewGraphBootstrapper(cg autopilot.ChannelGraph) (NetworkPeerBootstrapper, error) {
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c := &ChannelGraphBootstrapper{
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chanGraph: cg,
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tried: make(map[autopilot.NodeID]struct{}),
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}
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if _, err := rand.Read(c.hashAccumulator[:]); err != nil {
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return nil, err
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}
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return c, nil
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}
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// SampleNodeAddrs uniformly samples a set of specified address from the
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// network peer bootstrapper source. The num addrs field passed in denotes how
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// many valid peer addresses to return.
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//
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// NOTE: Part of the NetworkPeerBootstrapper interface.
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func (c *ChannelGraphBootstrapper) SampleNodeAddrs(numAddrs uint32,
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ignore map[autopilot.NodeID]struct{}) ([]*lnwire.NetAddress, error) {
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// We'll merge the ignore map with our currently selected map in order
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// to ensure we don't return any duplicate nodes.
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for n := range ignore {
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c.tried[n] = struct{}{}
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}
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// In order to bootstrap, we'll iterate all the nodes in the channel
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// graph, accumulating nodes until either we go through all active
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// nodes, or we reach our limit. We ensure that we meet the randomly
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// sample constraint as we maintain an xor accumulator to ensure we
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// randomly sample nodes independent of the iteration of the channel
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// graph.
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sampleAddrs := func() ([]*lnwire.NetAddress, error) {
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var (
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a []*lnwire.NetAddress
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// We'll create a special error so we can return early
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// and abort the transaction once we find a match.
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errFound = fmt.Errorf("found node")
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)
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err := c.chanGraph.ForEachNode(func(node autopilot.Node) error {
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nID := autopilot.NewNodeID(node.PubKey())
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if _, ok := c.tried[nID]; ok {
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return nil
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}
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// We'll select the first node we come across who's
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// public key is less than our current accumulator
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// value. When comparing, we skip the first byte as
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// it's 50/50. If it isn't less, than then we'll
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// continue forward.
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nodePub := node.PubKey().SerializeCompressed()[1:]
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if bytes.Compare(c.hashAccumulator[:], nodePub) > 0 {
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return nil
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}
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for _, nodeAddr := range node.Addrs() {
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// If we haven't yet reached our limit, then
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// we'll copy over the details of this node
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// into the set of addresses to be returned.
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tcpAddr, ok := nodeAddr.(*net.TCPAddr)
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if !ok {
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// If this isn't a valid TCP address,
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// then we'll ignore it as currently
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// we'll only attempt to connect out to
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// TCP peers.
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return nil
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}
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// At this point, we've found an eligible node,
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// so we'll return early with our shibboleth
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// error.
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a = append(a, &lnwire.NetAddress{
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IdentityKey: node.PubKey(),
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Address: tcpAddr,
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})
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}
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c.tried[nID] = struct{}{}
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return errFound
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})
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if err != nil && err != errFound {
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return nil, err
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}
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return a, nil
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}
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// We'll loop and sample new addresses from the graph source until
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// we've reached our target number of outbound connections or we hit 50
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// attempts, which ever comes first.
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var (
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addrs []*lnwire.NetAddress
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tries uint32
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)
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for tries < 30 && uint32(len(addrs)) < numAddrs {
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sampleAddrs, err := sampleAddrs()
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if err != nil {
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return nil, err
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}
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2017-09-04 03:04:53 +03:00
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tries++
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2017-09-04 02:51:09 +03:00
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// We'll now rotate our hash accumulator one value forwards.
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c.hashAccumulator = sha256.Sum256(c.hashAccumulator[:])
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// If this attempt didn't yield any addresses, then we'll exit
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// early.
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if len(sampleAddrs) == 0 {
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continue
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}
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addrs = append(addrs, sampleAddrs...)
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}
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log.Tracef("Ending hash accumulator state: %x", c.hashAccumulator)
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return addrs, nil
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}
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// Name returns a human readable string which names the concrete implementation
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// of the NetworkPeerBootstrapper.
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//
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// NOTE: Part of the NetworkPeerBootstrapper interface.
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func (c *ChannelGraphBootstrapper) Name() string {
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return "Authenticated Channel Graph"
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}
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// DNSSeedBootstrapper as an implementation of the NetworkPeerBootstrapper
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// interface which implements peer bootstrapping via a spcial DNS seed as
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// defined in BOLT-0010. For further details concerning Lightning's current DNS
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// boot strapping protocol, see this link:
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// * https://github.com/lightningnetwork/lightning-rfc/blob/master/10-dns-bootstrap.md
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type DNSSeedBootstrapper struct {
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dnsSeeds []string
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}
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// A compile time assertion to ensure that DNSSeedBootstrapper meets the
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// NetworkPeerjBootstrapper interface.
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var _ NetworkPeerBootstrapper = (*ChannelGraphBootstrapper)(nil)
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// NewDNSSeedBootstrapper returns a new instance of the DNSSeedBootstrapper.
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// The set of passed seeds should point to DNS servers that properly implement
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// Lighting's DNS peer bootstrapping protocol as defined in BOLT-0010.
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//
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//
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// TODO(roasbeef): add a lookUpFunc param to pass in, so can divert queries
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// over Tor in future
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func NewDNSSeedBootstrapper(seeds []string) (NetworkPeerBootstrapper, error) {
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return &DNSSeedBootstrapper{
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dnsSeeds: seeds,
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}, nil
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}
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// SampleNodeAddrs uniformly samples a set of specified address from the
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// network peer bootstrapper source. The num addrs field passed in denotes how
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// many valid peer addresses to return. The set of DNS seeds are used
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// successively to retrieve eligible target nodes.
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func (d *DNSSeedBootstrapper) SampleNodeAddrs(numAddrs uint32,
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ignore map[autopilot.NodeID]struct{}) ([]*lnwire.NetAddress, error) {
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var netAddrs []*lnwire.NetAddress
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// We'll continue this loop until we reach our target address limit.
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// Each SRV query to the seed will return 25 random nodes, so we can
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// continue to query until we reach our target.
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search:
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for uint32(len(netAddrs)) < numAddrs {
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for _, dnsSeed := range d.dnsSeeds {
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// We'll first query the seed with an SRV record so we
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// can obtain a random sample of the encoded public
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// keys of nodes.
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_, addrs, err := net.LookupSRV("nodes", "tcp", dnsSeed)
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if err != nil {
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return nil, err
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}
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log.Tracef("Retrieved SRV records from dns seed: %v",
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spew.Sdump(addrs))
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// Next, we'll need to issue an A record request for
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// each of the nodes, skipping it if nothing comes
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// back.
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for _, nodeSrv := range addrs {
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if uint32(len(netAddrs)) >= numAddrs {
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break search
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}
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// With the SRV target obtained, we'll now
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// perform another query to obtain the IP
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// address for the matching bech32 encoded node
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// key.
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bechNodeHost := nodeSrv.Target
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addrs, err := net.LookupHost(bechNodeHost)
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if err != nil {
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return nil, err
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}
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if len(addrs) == 0 {
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log.Tracef("No addresses for %v, skipping",
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bechNodeHost)
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continue
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}
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log.Tracef("Attempting to convert: %v", bechNodeHost)
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// If we have a set of valid addresses, then
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// we'll need to parse the public key from the
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// original bech32 encoded string.
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bechNode := strings.Split(bechNodeHost, ".")
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_, nodeBytes5Bits, err := bech32.Decode(bechNode[0])
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if err != nil {
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return nil, err
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}
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// Once we have the bech32 decoded pubkey,
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// we'll need to convert the 5-bit word
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// grouping into our regular 8-bit word
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// grouping so we can convert it into a public
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// key.
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nodeBytes, err := bech32.ConvertBits(
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nodeBytes5Bits, 5, 8, false,
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)
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if err != nil {
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return nil, err
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}
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nodeKey, err := btcec.ParsePubKey(
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nodeBytes, btcec.S256(),
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)
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if err != nil {
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return nil, err
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}
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// If we have an ignore list, and this node is
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// in the ignore list, then we'll go to the
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// next candidate.
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if ignore != nil {
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nID := autopilot.NewNodeID(nodeKey)
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if _, ok := ignore[nID]; ok {
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continue
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}
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}
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// Finally we'll convert the host:port peer to
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// a proper TCP address to use within the
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// lnwire.NetAddress.
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addr := fmt.Sprintf("%v:%v", addrs[0],
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nodeSrv.Port)
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tcpAddr, err := net.ResolveTCPAddr("tcp", addr)
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if err != nil {
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return nil, err
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}
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// Finally, with all the information parsed,
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// we'll return this fully valid address as a
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// connection attempt.
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lnAddr := &lnwire.NetAddress{
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IdentityKey: nodeKey,
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Address: tcpAddr,
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}
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log.Tracef("Obtained %v as valid reachable "+
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"node", lnAddr)
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netAddrs = append(netAddrs, lnAddr)
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}
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}
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}
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return netAddrs, nil
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}
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// Name returns a human readable string which names the concrete
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// implementation of the NetworkPeerBootstrapper.
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|
|
func (d *DNSSeedBootstrapper) Name() string {
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|
|
|
return fmt.Sprintf("BOLT-0010 DNS Seed: %v", d.dnsSeeds)
|
|
|
|
}
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