/**
* Delivery bundle process forward the bundle to BundleDaemon
*
* @param bundle Bundle to process.
*/
@Override
public void deliver_bundle(Bundle bundle) {
int payload_len = bundle.payload().length();
Logger.getInstance()
.debug(TAG, String.format("%d byte ping from %s", payload_len, bundle.source().str()));
Bundle reply = new Bundle(location_t.MEMORY);
reply.source().assign(endpoint_);
reply.dest().assign(bundle.source());
reply.replyto().assign(EndpointID.NULL_EID());
reply.custodian().assign(EndpointID.NULL_EID());
reply.set_expiration(bundle.expiration());
reply.payload().set_length(payload_len);
reply.payload().write_data(bundle.payload(), 0, payload_len, 0);
BundleDaemon.getInstance().post_at_head(new BundleDeliveredEvent(bundle, this));
BundleDaemon.getInstance()
.post_at_head(new BundleReceivedEvent(reply, event_source_t.EVENTSRC_ADMIN));
}
/** Main loop in Discovery */
public void run() {
Logger.getInstance().debug(TAG, "discovery thread running");
IByteBuffer buf = new SerializableByteBuffer(1024);
while (true) {
if (shutdown_) break;
/* Send section */
try {
int min_diff = INT_MAX;
Iterator<Announce> i = list_.iterator();
while (i.hasNext()) {
IPAnnounce announce = (IPAnnounce) i.next();
int remaining = announce.interval_remaining();
if (remaining == 0) {
try {
// Logger.getInstance().debug(TAG,
// "announce ready for sending");
hdr = announce.format_advertisement(buf, 1024);
buf.put(hdr.cl_type());
buf.put(hdr.interval());
buf.putShort(hdr.length());
byte[] ip_address = new byte[] {0, 0, 0, 0};
buf.put(ip_address);
buf.putShort(hdr.inet_port());
buf.putShort(hdr.name_len());
byte[] name = hdr.sender_name().getBytes();
buf.put(name);
int l = hdr.length();
data = new byte[l];
int z;
for (z = 0; z < l; z++) {
data[z] = buf.get(z);
}
DatagramPacket pack =
new DatagramPacket(
data, data.length, InetAddress.getByName("255.255.255.255"), port_);
socket_.send(pack);
min_diff = announce.interval();
} catch (Exception e) {
Logger.getInstance().error(TAG, "error sending the packet " + e.getMessage());
}
} else {
// Logger.getInstance().debug(TAG,
// "Could not send discovery request");
if (remaining < min_diff) {
min_diff = announce.interval_remaining();
}
}
}
} catch (Exception e) {
e.printStackTrace();
}
/* receive section */
try {
buf.rewind();
byte[] Rdata = new byte[1024];
DatagramPacket packet = new DatagramPacket(Rdata, Rdata.length);
socket_.receive(packet);
Logger.getInstance().debug("B4", "Received beacon: " + packet.getAddress());
// String s = new String(packet.getData(), 0,
// packet.getLength());
// Logger.getInstance().debug(TAG, "Received response " + s);
EndpointID remote_eid = new EndpointID();
String nexthop = ""; // For now
byte[] b = packet.getData();
ByteBuffer bb = ByteBuffer.wrap(b);
hdr = new DiscoveryHeader();
hdr = new DiscoveryHeader();
hdr.set_cl_type(bb.get());
hdr.set_interval(bb.get());
hdr.set_length(bb.getShort());
byte[] addr = new byte[4];
bb.get(addr);
hdr.set_inet_addr(InetAddress.getByAddress(addr));
hdr.set_inet_port(bb.getShort());
short name_len = bb.getShort();
hdr.set_name_len(name_len);
byte[] name = new byte[name_len];
bb.get(name);
String sender_name = new String(name);
hdr.set_sender_name(sender_name);
remote_eid = new EndpointID(hdr.sender_name());
// if(hdr.inet_addr().toString().equals("0.0.0.0"))
nexthop = packet.getAddress().toString() + ":" + hdr.inet_port();
// else
// nexthop = hdr.inet_addr().toString()+":"+hdr.inet_port();
String Type = IPDiscovery.type_to_str(cl_type_t.get(hdr.cl_type()));
BundleDaemon BD = BundleDaemon.getInstance();
if (remote_eid.equals(BD.local_eid())) {
// Logger.getInstance().debug(TAG,
// "ignoring beacon from self" + remote_eid);
} else {
// distribute to all beacons registered for this CL type
handle_neighbor_discovered(Type, nexthop, remote_eid);
}
Logger.getInstance().debug("B4", "beacon: " + remote_eid);
} catch (Exception e) {
Logger.getInstance().info(TAG, "Fail receiving the UDP datagram " + e.getMessage());
}
}
}
/** "Constructor-like function to create a new custody signal bundle." [DTN2] */
public static Bundle create_custody_signal(
final Bundle orig_bundle,
final EndpointID source_eid,
boolean succeeded,
BundleProtocol.custody_signal_reason_t reason) {
Bundle bundle = new Bundle(location_t.MEMORY);
bundle.source().assign(source_eid);
if (orig_bundle.custodian().equals(EndpointID.NULL_EID())) {
Logger.getInstance()
.error(
TAG,
String.format(
"create_custody_signal(for bundle id %d): "
+ "custody signal cannot be generated due to custodian is null eid",
orig_bundle.bundleid()));
}
bundle.dest().assign(orig_bundle.custodian());
bundle.replyto().assign(EndpointID.NULL_EID());
bundle.custodian().assign(EndpointID.NULL_EID());
bundle.set_is_admin(true);
bundle.set_expiration(orig_bundle.expiration());
int sdnv_encoding_len = 0;
int signal_len = 0;
// "format of custody signals:
//
// 1 byte admin payload type and flags
// 1 byte status code
// SDNV [Fragment Offset (if present)]
// SDNV [Fragment Length (if present)]
// SDNVx2 Time of custody signal
// SDNVx2 Copy of bundle X's Creation Timestamp
// SDNV Length of X's source endpoint ID
// vari Source endpoint ID of bundle X
//
// first calculate the length
//
// the non-optional, fixed-length fields above:" [DTN2]
signal_len = 1 + 1;
// "the 2 SDNV fragment fields:" [DTN2]
if (orig_bundle.is_fragment()) {
signal_len += SDNV.encoding_len(orig_bundle.frag_offset());
signal_len += SDNV.encoding_len(orig_bundle.orig_length());
}
// "Time field, set to the current time:" [DTN2]
DTNTime now = new DTNTime();
signal_len += DTNTime.SDNV_encoding_len(now);
// "The bundle's creation timestamp:" [DTN2]
signal_len += BundleTimestamp.SDNV_encoding_len(orig_bundle.creation_ts());
// the Source Endpoint ID length and value
signal_len += SDNV.encoding_len(orig_bundle.source().length()) + orig_bundle.source().length();
//
// "We got all the data ready, now format the buffer" [DTN2]
//
IByteBuffer bp = new SerializableByteBuffer(signal_len);
int len = signal_len;
bp.rewind();
// "Admin Payload Type and flags" [DTN2]
byte type_and_flags_byte =
(byte) (BundleProtocol.admin_record_type_t.ADMIN_CUSTODY_SIGNAL.getCode() << 4);
if (orig_bundle.is_fragment()) {
type_and_flags_byte |= BundleProtocol.admin_record_flags_t.ADMIN_IS_FRAGMENT.getCode();
}
bp.put(type_and_flags_byte);
len--;
// Status_Flag_Byte consists of Success flag and reason code
byte status_flag_byte = (byte) ((succeeded ? 1 : 0) << 7 | (reason.getCode() & 0x7f));
bp.put(status_flag_byte);
len--;
// "The 2 Fragment Fields" [DTN2]
if (orig_bundle.is_fragment()) {
sdnv_encoding_len = SDNV.encode(orig_bundle.frag_offset(), bp, len);
assert (sdnv_encoding_len > 0);
len -= sdnv_encoding_len;
sdnv_encoding_len = SDNV.encode(orig_bundle.orig_length(), bp, len);
assert (sdnv_encoding_len > 0);
len -= sdnv_encoding_len;
}
// DTNTime which is a time of signal field
sdnv_encoding_len = DTNTime.SDNV_encoding_len(now);
assert (sdnv_encoding_len > 0);
DTNTime.encodeSDNV(now, bp);
len -= sdnv_encoding_len;
// "Copy of bundle X's Creation Timestamp" [DTN2]
sdnv_encoding_len = BundleTimestamp.SDNV_encoding_len(orig_bundle.creation_ts());
assert (sdnv_encoding_len > 0);
BundleTimestamp.encodeSDNV(orig_bundle.creation_ts(), bp);
len -= sdnv_encoding_len;
// "The Endpoint ID length and data" [DTN2]
sdnv_encoding_len = SDNV.encode(orig_bundle.source().length(), bp, len);
assert (sdnv_encoding_len > 0);
len -= sdnv_encoding_len;
assert (len == orig_bundle.source().length());
bp.put(orig_bundle.source().byte_array());
//
// "Finished generating the payload" [DTN2]
//
bp.rewind();
bundle.payload().set_data(bp, signal_len);
return bundle;
}