static void start(Message m, PeerNode source, Node n, double target) {
long uid = m.getLong(DMT.UID);
double nearestLoc = m.getDouble(DMT.NEAREST_LOCATION);
double best = m.getDouble(DMT.BEST_LOCATION);
short htl = m.getShort(DMT.HTL);
ProbeRequestSender sender =
new ProbeRequestSender(target, htl, uid, n, nearestLoc, source, best);
ProbeRequestHandler handler = new ProbeRequestHandler(source, uid, sender);
sender.addListener(handler);
PeerNode[] peers = n.peers.connectedPeers;
Message accepted = DMT.createFNPAccepted(uid);
Message trace =
DMT.createFNPRHProbeTrace(
uid,
sender.getNearestLoc(),
sender.getBest(),
htl,
(short) 1,
(short) 1,
n.getLocation(),
n.swapIdentifier,
LocationManager.extractLocs(peers, true),
LocationManager.extractUIDs(peers),
(short) 0,
(short) 1,
"",
source.swapIdentifier);
try {
source.sendAsync(accepted, null, sender);
source.sendAsync(trace, null, sender);
} catch (NotConnectedException e) {
// We completed(id), rather than locking it, so we don't need to unlock.
return; // So all we need to do is not start the sender.
}
sender.start();
}
/**
* Handle a routed-to-a-specific-node message.
*
* @param m
* @return False if we want the message put back on the queue.
*/
boolean handleRouted(Message m, PeerNode source) {
if (logMINOR) Logger.minor(this, "handleRouted(" + m + ')');
long id = m.getLong(DMT.UID);
Long lid = Long.valueOf(id);
short htl = m.getShort(DMT.HTL);
byte[] identity = ((ShortBuffer) m.getObject(DMT.NODE_IDENTITY)).getData();
if (source != null) htl = source.decrementHTL(htl);
RoutedContext ctx;
ctx = routedContexts.get(lid);
if (ctx != null) {
try {
source.sendAsync(DMT.createFNPRoutedRejected(id, htl), null, nodeStats.routedMessageCtr);
} catch (NotConnectedException e) {
if (logMINOR) Logger.minor(this, "Lost connection rejecting " + m);
}
return true;
}
ctx = new RoutedContext(m, source, identity);
synchronized (routedContexts) {
routedContexts.put(lid, ctx);
}
// source == null => originated locally, keep full htl
double target = m.getDouble(DMT.TARGET_LOCATION);
if (logMINOR)
Logger.minor(this, "id " + id + " from " + source + " htl " + htl + " target " + target);
if (Math.abs(node.lm.getLocation() - target) <= Double.MIN_VALUE) {
if (logMINOR)
Logger.minor(this, "Dispatching " + m.getSpec() + " on " + node.getDarknetPortNumber());
// Handle locally
// Message type specific processing
dispatchRoutedMessage(m, source, id);
return true;
} else if (htl == 0) {
Message reject = DMT.createFNPRoutedRejected(id, (short) 0);
if (source != null)
try {
source.sendAsync(reject, null, nodeStats.routedMessageCtr);
} catch (NotConnectedException e) {
if (logMINOR) Logger.minor(this, "Lost connection rejecting " + m);
}
return true;
} else {
return forward(m, id, source, htl, target, ctx, identity);
}
}
private boolean handleProbeRequest(Message m, PeerNode source) {
long id = m.getLong(DMT.UID);
if (node.recentlyCompleted(id)) {
Message rejected = DMT.createFNPRejectedLoop(id);
try {
source.sendAsync(rejected, null, node.nodeStats.probeRequestCtr);
} catch (NotConnectedException e) {
Logger.normal(this, "Rejecting probe request from " + source.getPeer() + ": " + e);
}
return true;
}
// Lets not bother with full lockUID, just add it to the recently completed list.
node.completed(id);
// SSKs don't fix bwlimitDelayTime so shouldn't be accepted when overloaded.
if (source.shouldRejectProbeRequest()) {
Logger.normal(this, "Rejecting probe request from " + source.getPeer());
Message rejected = DMT.createFNPRejectedOverload(id, true);
try {
source.sendAsync(rejected, null, node.nodeStats.probeRequestCtr);
} catch (NotConnectedException e) {
Logger.normal(
this, "Rejecting (overload) insert request from " + source.getPeer() + ": " + e);
}
return true;
}
double target = m.getDouble(DMT.TARGET_LOCATION);
if (target > 1.0 || target < 0.0) {
Logger.normal(
this, "Rejecting invalid (target=" + target + ") probe request from " + source.getPeer());
Message rejected = DMT.createFNPRejectedOverload(id, true);
try {
source.sendAsync(rejected, null, node.nodeStats.probeRequestCtr);
} catch (NotConnectedException e) {
Logger.normal(
this, "Rejecting (invalid) insert request from " + source.getPeer() + ": " + e);
}
return true;
}
ProbeRequestHandler.start(m, source, node, target);
return true;
}
public boolean handleMessage(Message m) {
PeerNode source = (PeerNode) m.getSource();
if (source == null) {
// Node has been disconnected and garbage collected already! Ouch.
return true;
}
if (logMINOR) Logger.minor(this, "Dispatching " + m + " from " + source);
if (callback != null) {
try {
callback.snoop(m, node);
} catch (Throwable t) {
Logger.error(this, "Callback threw " + t, t);
}
}
MessageType spec = m.getSpec();
if (spec == DMT.FNPPing) {
// Send an FNPPong
Message reply = DMT.createFNPPong(m.getInt(DMT.PING_SEQNO));
try {
source.sendAsync(reply, null, pingCounter); // nothing we can do if can't contact source
} catch (NotConnectedException e) {
if (logMINOR) Logger.minor(this, "Lost connection replying to " + m);
}
return true;
} else if (spec == DMT.FNPStoreSecret) {
return node.netid.handleStoreSecret(m);
} else if (spec == DMT.FNPSecretPing) {
return node.netid.handleSecretPing(m);
} else if (spec == DMT.FNPDetectedIPAddress) {
Peer p = (Peer) m.getObject(DMT.EXTERNAL_ADDRESS);
source.setRemoteDetectedPeer(p);
node.ipDetector.redetectAddress();
return true;
} else if (spec == DMT.FNPTime) {
return handleTime(m, source);
} else if (spec == DMT.FNPUptime) {
return handleUptime(m, source);
} else if (spec == DMT.FNPSentPackets) {
source.handleSentPackets(m);
return true;
} else if (spec == DMT.FNPVoid) {
return true;
} else if (spec == DMT.FNPDisconnect) {
handleDisconnect(m, source);
return true;
} else if (spec == DMT.nodeToNodeMessage) {
node.receivedNodeToNodeMessage(m, source);
return true;
} else if (spec == DMT.UOMAnnounce && source.isRealConnection()) {
return node.nodeUpdater.uom.handleAnnounce(m, source);
} else if (spec == DMT.UOMRequestRevocation && source.isRealConnection()) {
return node.nodeUpdater.uom.handleRequestRevocation(m, source);
} else if (spec == DMT.UOMSendingRevocation && source.isRealConnection()) {
return node.nodeUpdater.uom.handleSendingRevocation(m, source);
} else if (spec == DMT.UOMRequestMain && source.isRealConnection()) {
return node.nodeUpdater.uom.handleRequestJar(m, source, false);
} else if (spec == DMT.UOMRequestExtra && source.isRealConnection()) {
return node.nodeUpdater.uom.handleRequestJar(m, source, true);
} else if (spec == DMT.UOMSendingMain && source.isRealConnection()) {
return node.nodeUpdater.uom.handleSendingMain(m, source);
} else if (spec == DMT.UOMSendingExtra && source.isRealConnection()) {
return node.nodeUpdater.uom.handleSendingExt(m, source);
} else if (spec == DMT.FNPOpennetAnnounceRequest) {
return handleAnnounceRequest(m, source);
} else if (spec == DMT.FNPRoutingStatus) {
if (source instanceof DarknetPeerNode) {
boolean value = m.getBoolean(DMT.ROUTING_ENABLED);
if (logMINOR)
Logger.minor(this, "The peer (" + source + ") asked us to set routing=" + value);
((DarknetPeerNode) source).setRoutingStatus(value, false);
}
// We claim it in any case
return true;
} else if (source.isRealConnection() && spec == DMT.FNPLocChangeNotificationNew) {
double newLoc = m.getDouble(DMT.LOCATION);
ShortBuffer buffer = ((ShortBuffer) m.getObject(DMT.PEER_LOCATIONS));
double[] locs = Fields.bytesToDoubles(buffer.getData());
/**
* Do *NOT* remove the sanity check below!
*
* @see http://archives.freenetproject.org/message/20080718.144240.359e16d3.en.html
*/
if ((OpennetManager.MAX_PEERS_FOR_SCALING < locs.length) && (source.isOpennet())) {
if (locs.length > OpennetManager.PANIC_MAX_PEERS) {
// This can't happen by accident
Logger.error(
this,
"We received "
+ locs.length
+ " locations from "
+ source.toString()
+ "! That should *NOT* happen! Possible attack!");
source.forceDisconnect(true);
return true;
} else {
// A few extra can happen by accident. Just use the first 20.
Logger.normal(
this,
"Too many locations from "
+ source.toString()
+ " : "
+ locs.length
+ " could be an accident, using the first "
+ OpennetManager.MAX_PEERS_FOR_SCALING);
double[] firstLocs = new double[OpennetManager.MAX_PEERS_FOR_SCALING];
System.arraycopy(locs, 0, firstLocs, 0, OpennetManager.MAX_PEERS_FOR_SCALING);
locs = firstLocs;
}
}
// We are on darknet and we trust our peers OR we are on opennet
// and the amount of locations sent to us seems reasonable
source.updateLocation(newLoc, locs);
return true;
}
if (!source.isRoutable()) return false;
if (logDEBUG) Logger.debug(this, "Not routable");
if (spec == DMT.FNPNetworkID) {
source.handleFNPNetworkID(m);
return true;
} else if (spec == DMT.FNPSwapRequest) {
return node.lm.handleSwapRequest(m, source);
} else if (spec == DMT.FNPSwapReply) {
return node.lm.handleSwapReply(m, source);
} else if (spec == DMT.FNPSwapRejected) {
return node.lm.handleSwapRejected(m, source);
} else if (spec == DMT.FNPSwapCommit) {
return node.lm.handleSwapCommit(m, source);
} else if (spec == DMT.FNPSwapComplete) {
return node.lm.handleSwapComplete(m, source);
} else if (spec == DMT.FNPCHKDataRequest) {
return handleDataRequest(m, source, false);
} else if (spec == DMT.FNPSSKDataRequest) {
return handleDataRequest(m, source, true);
} else if (spec == DMT.FNPInsertRequest) {
return handleInsertRequest(m, source, false);
} else if (spec == DMT.FNPSSKInsertRequest) {
return handleInsertRequest(m, source, true);
} else if (spec == DMT.FNPSSKInsertRequestNew) {
return handleInsertRequest(m, source, true);
} else if (spec == DMT.FNPRHProbeRequest) {
return handleProbeRequest(m, source);
} else if (spec == DMT.FNPRoutedPing) {
return handleRouted(m, source);
} else if (spec == DMT.FNPRoutedPong) {
return handleRoutedReply(m);
} else if (spec == DMT.FNPRoutedRejected) {
return handleRoutedRejected(m);
// FIXME implement threaded probe requests of various kinds.
// Old probe request code was a major pain, never really worked.
// We should have threaded probe requests (for simple code),
// and one for each routing strategy.
// } else if(spec == DMT.FNPProbeRequest) {
// return handleProbeRequest(m, source);
// } else if(spec == DMT.FNPProbeReply) {
// return handleProbeReply(m, source);
// } else if(spec == DMT.FNPProbeRejected) {
// return handleProbeRejected(m, source);
// } else if(spec == DMT.FNPProbeTrace) {
// return handleProbeTrace(m, source);
} else if (spec == DMT.FNPOfferKey) {
return handleOfferKey(m, source);
} else if (spec == DMT.FNPGetOfferedKey) {
return handleGetOfferedKey(m, source);
}
return false;
}