mirror of
https://github.com/cwinfo/yggdrasil-go.git
synced 2024-11-25 18:21:37 +00:00
yet more debugging
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parent
f0bd40ff68
commit
5e3959f1d0
@ -437,7 +437,7 @@ func main() {
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pingNodes(kstore)
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//pingBench(kstore) // Only after disabling debug output
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//stressTest(kstore)
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//time.Sleep(120*time.Second)
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time.Sleep(120 * time.Second)
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dumpDHTSize(kstore) // note that this uses racey functions to read things...
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if false {
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// This connects the sim to the local network
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@ -11,7 +11,7 @@ import (
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"time"
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)
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const dht_lookup_size = 16
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const dht_lookup_size = 4
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// dhtInfo represents everything we know about a node in the DHT.
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// This includes its key, a cache of it's NodeID, coords, and timing/ping related info for deciding who/when to ping nodes for maintenance.
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@ -57,18 +57,6 @@ type dht struct {
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table map[NodeID]*dhtInfo
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peers chan *dhtInfo // other goroutines put incoming dht updates here
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reqs map[boxPubKey]map[NodeID]time.Time
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targets [NodeIDLen*8 + 1]NodeID
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}
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func (nodeID NodeID) add(toAdd *NodeID) NodeID {
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var accumulator uint16
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for idx := len(nodeID) - 1; idx >= 0; idx-- {
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accumulator += uint16(nodeID[idx])
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accumulator += uint16(toAdd[idx])
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nodeID[idx] = byte(accumulator)
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accumulator >>= 8
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}
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return nodeID
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}
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// Initializes the DHT
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@ -76,19 +64,6 @@ func (t *dht) init(c *Core) {
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t.core = c
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t.nodeID = *t.core.GetNodeID()
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t.peers = make(chan *dhtInfo, 1024)
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getDist := func(bit int) *NodeID {
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nBits := NodeIDLen * 8
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theByte := (nBits - bit) / 8
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theBitmask := uint8(0x80) >> uint8(nBits-bit)
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var nid NodeID
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//fmt.Println("DEBUG: bit", bit, "theByte", theByte)
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nid[theByte] = theBitmask
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return &nid
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}
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for idx := range t.targets {
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t.targets[idx] = t.nodeID.add(getDist(idx + 1))
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}
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t.targets[len(t.targets)-1] = t.nodeID // Last one wraps around to self
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t.reset()
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}
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@ -103,11 +78,15 @@ func (t *dht) reset() {
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// If allowWorse = true, begins with best know predecessor for ID and works backwards, even if these nodes are worse predecessors than we are, to be used when intializing searches
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// If allowWorse = false, begins with the best known successor for ID and works backwards (next is predecessor, etc, inclusive of the ID if it's a known node)
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func (t *dht) lookup(nodeID *NodeID, everything bool) []*dhtInfo {
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var results []*dhtInfo
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for infoID, info := range t.table {
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if everything || t.isImportant(&infoID) {
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results := make([]*dhtInfo, 0, len(t.table))
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for _, info := range t.table {
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results = append(results, info)
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}
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sort.SliceStable(results, func(i, j int) bool {
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return dht_ordered(results[j].getNodeID(), results[i].getNodeID(), nodeID)
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})
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if len(results) > dht_lookup_size {
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//results = results[:dht_lookup_size] //FIXME debug
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}
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return results
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}
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@ -277,6 +256,7 @@ func (t *dht) handleRes(res *dhtRes) {
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if len(res.Infos) > dht_lookup_size {
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//res.Infos = res.Infos[:dht_lookup_size] //FIXME debug
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}
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imp := t.getImportant()
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for _, info := range res.Infos {
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if *info.getNodeID() == t.nodeID {
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continue
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@ -285,7 +265,7 @@ func (t *dht) handleRes(res *dhtRes) {
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// TODO? don't skip if coords are different?
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continue
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}
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if t.isImportant(info.getNodeID()) {
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if t.isImportant(info, imp) {
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t.ping(info, nil)
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}
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}
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@ -336,30 +316,18 @@ func (t *dht) ping(info *dhtInfo, target *NodeID) {
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func (t *dht) doMaintenance() {
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toPing := make(map[NodeID]*dhtInfo)
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now := time.Now()
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imp := t.getImportant()
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good := make(map[NodeID]*dhtInfo)
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for _, info := range imp {
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good[*info.getNodeID()] = info
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}
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for infoID, info := range t.table {
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if now.Sub(info.recv) > time.Minute || info.pings > 3 {
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delete(t.table, infoID)
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} else if t.isImportant(info.getNodeID()) {
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} else if t.isImportant(info, imp) {
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toPing[infoID] = info
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}
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}
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//////////////////////////////////////////////////////////////////////////////
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t.core.switchTable.mutex.RLock()
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parentPort := t.core.switchTable.parent
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parentInfo := t.core.switchTable.data.peers[parentPort]
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t.core.switchTable.mutex.RUnlock()
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ports := t.core.peers.getPorts()
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if parent, isIn := ports[parentPort]; isIn {
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loc := parentInfo.locator.clone()
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end := len(loc.coords)
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if end > 0 {
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end -= 1
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}
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loc.coords = loc.coords[:end]
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pinfo := dhtInfo{key: parent.box, coords: loc.getCoords()}
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t.insert(&pinfo)
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}
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//////////////////////////////////////////////////////////////////////////////
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for _, info := range toPing {
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if now.Sub(info.recv) > info.throttle {
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t.ping(info, info.getNodeID())
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@ -368,28 +336,52 @@ func (t *dht) doMaintenance() {
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if info.throttle > 30*time.Second {
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info.throttle = 30 * time.Second
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}
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//continue
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continue
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fmt.Println("DEBUG self:", t.nodeID[:8], "throttle:", info.throttle, "nodeID:", info.getNodeID()[:8], "coords:", info.coords)
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}
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}
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}
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func (t *dht) isImportant(nodeID *NodeID) bool {
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// TODO persistently store stuff about best nodes, so we don't need to keep doing this
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// Ideally switch to a better data structure... linked list?
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for _, target := range t.targets {
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// Get the best known node for this target
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var best *dhtInfo
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func (t *dht) getImportant() []*dhtInfo {
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// Get a list of all known nodes
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infos := make([]*dhtInfo, 0, len(t.table))
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for _, info := range t.table {
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if best == nil || dht_ordered(best.getNodeID(), info.getNodeID(), &target) {
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best = info
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infos = append(infos, info)
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}
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// Sort them by increasing order in distance along the ring
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sort.SliceStable(infos, func(i, j int) bool {
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// Sort in order of successors
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return dht_ordered(&t.nodeID, infos[i].getNodeID(), infos[j].getNodeID())
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})
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// Keep the ones that are no further than the closest seen so far
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minDist := ^uint64(0)
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loc := t.core.switchTable.getLocator()
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important := infos[:0]
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for _, info := range infos {
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dist := uint64(loc.dist(info.coords))
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if dist < minDist {
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minDist = dist
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important = append(important, info)
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}
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}
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if best != nil && dht_ordered(best.getNodeID(), nodeID, &target) {
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// This is an equal or better finger table entry than what we currently have
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return important
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}
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func (t *dht) isImportant(ninfo *dhtInfo, important []*dhtInfo) bool {
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// Check if ninfo is of equal or greater importance to what we already know
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loc := t.core.switchTable.getLocator()
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ndist := uint64(loc.dist(ninfo.coords))
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minDist := ^uint64(0)
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for _, info := range important {
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dist := uint64(loc.dist(info.coords))
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if dist < minDist {
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minDist = dist
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}
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if dht_ordered(&t.nodeID, ninfo.getNodeID(), info.getNodeID()) && ndist <= minDist {
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// This node is at least as close in both key space and tree space
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return true
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}
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}
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// We didn't find anything where this is better, so it must be worse
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// We didn't find any important node that ninfo is better than
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return false
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}
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@ -183,7 +183,7 @@ func (p *peer) linkLoop() {
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}
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p.sendSwitchMsg()
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case _ = <-tick.C:
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break // FIXME disabled the below completely to test something
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//break // FIXME disabled the below completely to test something
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pdinfo := p.dinfo // FIXME this is a bad workarond NPE on the next line
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if pdinfo != nil {
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dinfo := *pdinfo
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@ -12,6 +12,7 @@ package yggdrasil
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// A new search packet is sent periodically, once per second, in case a packet was dropped (this slowly causes the search to become parallel if the search doesn't timeout but also doesn't finish within 1 second for whatever reason)
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import (
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"fmt"
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"sort"
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"time"
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)
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@ -73,6 +74,9 @@ func (s *searches) handleDHTRes(res *dhtRes) {
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sinfo, isIn := s.searches[res.Dest]
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if !isIn || s.checkDHTRes(sinfo, res) {
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// Either we don't recognize this search, or we just finished it
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if isIn {
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fmt.Println("DEBUG: search finished, length:", len(sinfo.visited))
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}
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return
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} else {
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// Add to the search and continue
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@ -92,7 +96,7 @@ func (s *searches) addToSearch(sinfo *searchInfo, res *dhtRes) {
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if *info.getNodeID() == s.core.dht.nodeID || sinfo.visited[*info.getNodeID()] {
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continue
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}
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if dht_ordered(from.getNodeID(), info.getNodeID(), &res.Dest) {
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if true || dht_ordered(from.getNodeID(), info.getNodeID(), &res.Dest) {
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sinfo.toVisit = append(sinfo.toVisit, info)
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}
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}
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@ -107,11 +111,13 @@ func (s *searches) addToSearch(sinfo *searchInfo, res *dhtRes) {
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}
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// Sort
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sort.SliceStable(sinfo.toVisit, func(i, j int) bool {
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// Should return true if i is closer to the destination than j
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// FIXME for some reason it works better backwards, why?!
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return dht_ordered(sinfo.toVisit[j].getNodeID(), sinfo.toVisit[i].getNodeID(), &res.Dest)
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})
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// Truncate to some maximum size
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if len(sinfo.toVisit) > search_MAX_SEARCH_SIZE {
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sinfo.toVisit = sinfo.toVisit[:search_MAX_SEARCH_SIZE]
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//sinfo.toVisit = sinfo.toVisit[:search_MAX_SEARCH_SIZE]
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}
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}
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@ -121,6 +127,7 @@ func (s *searches) doSearchStep(sinfo *searchInfo) {
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if len(sinfo.toVisit) == 0 {
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// Dead end, do cleanup
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delete(s.searches, sinfo.dest)
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fmt.Println("DEBUG: search abandoned, length:", len(sinfo.visited))
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return
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} else {
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// Send to the next search target
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