/** Callback invoked by the protocol stack to deliver a message batch */
public void up(MessageBatch batch) {
if (stats) {
received_msgs += batch.size();
received_bytes += batch.length();
}
// discard local messages (sent by myself to me)
if (discard_own_messages
&& local_addr != null
&& batch.sender() != null
&& local_addr.equals(batch.sender())) return;
for (Message msg : batch) {
if (up_handler != null) {
try {
up_handler.up(new Event(Event.MSG, msg));
} catch (Throwable t) {
log.error(Util.getMessage("UpHandlerFailure"), t);
}
} else if (receiver != null) {
try {
receiver.receive(msg);
} catch (Throwable t) {
log.error(Util.getMessage("ReceiverFailure"), t);
}
}
}
}
@ManagedOperation(description = "Disconnects the channel if connected")
public synchronized void disconnect() {
switch (state) {
case OPEN:
case CLOSED:
return;
case CONNECTING:
case CONNECTED:
if (cluster_name != null) {
// Send down a DISCONNECT event, which travels down to the GMS, where a response is
// returned
try {
down(new Event(Event.DISCONNECT, local_addr)); // DISCONNECT is handled by each layer
} catch (Throwable t) {
log.error(Util.getMessage("DisconnectFailure"), local_addr, t);
}
}
state = State.OPEN;
stopStack(true, false);
notifyChannelDisconnected(this);
init(); // sets local_addr=null; changed March 18 2003 (bela) -- prevented successful
// rejoining
break;
default:
throw new IllegalStateException("state " + state + " unknown");
}
}
public Map<String, String> handleProbe(String... keys) {
Map<String, String> map = new HashMap<>(3);
for (String key : keys) {
if (key.startsWith("jmx")) {
handleJmx(map, key);
continue;
}
if (key.startsWith("reset-stats")) {
resetAllStats();
continue;
}
if (key.startsWith("invoke") || key.startsWith("op")) {
int index = key.indexOf("=");
if (index != -1) {
try {
handleOperation(map, key.substring(index + 1));
} catch (Throwable throwable) {
log.error(
Util.getMessage("OperationInvocationFailure"),
key.substring(index + 1),
throwable);
}
}
}
}
return map;
}
/**
* Invokes an operation and puts the return value into map
*
* @param map
* @param operation Protocol.OperationName[args], e.g. STABLE.foo[arg1 arg2 arg3]
*/
protected void handleOperation(Map<String, String> map, String operation) throws Exception {
int index = operation.indexOf(".");
if (index == -1)
throw new IllegalArgumentException(
"operation " + operation + " is missing the protocol name");
String prot_name = operation.substring(0, index);
Protocol prot = prot_stack.findProtocol(prot_name);
if (prot == null) return; // less drastic than throwing an exception...
int args_index = operation.indexOf("[");
String method_name;
if (args_index != -1) method_name = operation.substring(index + 1, args_index).trim();
else method_name = operation.substring(index + 1).trim();
String[] args = null;
if (args_index != -1) {
int end_index = operation.indexOf("]");
if (end_index == -1) throw new IllegalArgumentException("] not found");
List<String> str_args =
Util.parseCommaDelimitedStrings(operation.substring(args_index + 1, end_index));
Object[] strings = str_args.toArray();
args = new String[strings.length];
for (int i = 0; i < strings.length; i++) args[i] = (String) strings[i];
}
Method method = MethodCall.findMethod(prot.getClass(), method_name, args);
if (method == null) {
log.warn(
Util.getMessage("MethodNotFound"),
local_addr,
prot.getClass().getSimpleName(),
method_name);
return;
}
MethodCall call = new MethodCall(method);
Object[] converted_args = null;
if (args != null) {
converted_args = new Object[args.length];
Class<?>[] types = method.getParameterTypes();
for (int i = 0; i < args.length; i++)
converted_args[i] = MethodCall.convert(args[i], types[i]);
}
Object retval = call.invoke(prot, converted_args);
if (retval != null) map.put(prot_name + "." + method_name, retval.toString());
}
public void writeTo(DataOutput out) throws Exception {
out.writeByte(type);
switch (type) {
case DATA:
Util.writeLong(seqno, out);
out.writeShort(conn_id);
out.writeBoolean(first);
break;
case XMIT_REQ:
break;
case STABLE:
Util.writeLongSequence(seqno, high_seqno, out);
out.writeShort(conn_id);
break;
case SEND_FIRST_SEQNO:
Util.writeLong(seqno, out);
break;
}
}
public final int size() {
int retval = Global.BYTE_SIZE; // type
switch (type) {
case DATA:
retval +=
Util.size(seqno) // seqno
+ Global.SHORT_SIZE // conn_id
+ Global.BYTE_SIZE; // first
break;
case XMIT_REQ:
break;
case STABLE:
retval += Util.size(seqno, high_seqno) + Global.SHORT_SIZE; // conn_id
break;
case SEND_FIRST_SEQNO:
retval += Util.size(seqno);
break;
}
return retval;
}
public void readFrom(DataInput in) throws Exception {
type = in.readByte();
switch (type) {
case DATA:
seqno = Util.readLong(in);
conn_id = in.readShort();
first = in.readBoolean();
break;
case XMIT_REQ:
break;
case STABLE:
long[] seqnos = Util.readLongSequence(in);
seqno = seqnos[0];
high_seqno = seqnos[1];
conn_id = in.readShort();
break;
case SEND_FIRST_SEQNO:
seqno = Util.readLong(in);
break;
}
}
/**
* Generates new UUID and sets local address. Sends down a REMOVE_ADDRESS (if existing address was
* present) and a SET_LOCAL_ADDRESS
*/
protected void setAddress() {
Address old_addr = local_addr;
local_addr = generateAddress();
if (old_addr != null) down(new Event(Event.REMOVE_ADDRESS, old_addr));
if (name == null || name.isEmpty()) // generate a logical name if not set
name = Util.generateLocalName();
if (name != null && !name.isEmpty()) UUID.add(local_addr, name);
Event evt = new Event(Event.SET_LOCAL_ADDRESS, local_addr);
down(evt);
if (up_handler != null) up_handler.up(evt);
}
protected void stopStack(boolean stop, boolean destroy) {
if (prot_stack != null) {
try {
if (stop) prot_stack.stopStack(cluster_name);
if (destroy) prot_stack.destroy();
} catch (Exception e) {
log.error(Util.getMessage("StackDestroyFailure"), e);
}
TP transport = prot_stack.getTransport();
if (transport != null) transport.unregisterProbeHandler(probe_handler);
}
}
void closeMulticastSocket() {
if (mcast_sock != null) {
try {
if (mcast_addr != null) {
// by sending a dummy packet the thread will be awakened
sendDummyPacket(mcast_addr.getIpAddress(), mcast_addr.getPort());
Util.sleep(300);
mcast_sock.leaveGroup(mcast_addr.getIpAddress());
}
mcast_sock.close(); // this will cause the mcast receiver thread to break out of its loop
mcast_sock = null;
if (Trace.trace) {
Trace.info("UDP.closeMulticastSocket()", "multicast socket closed");
}
} catch (IOException ex) {
}
mcast_addr = null;
}
}
public void run() {
Message msg;
while (outgoing_queue != null && outgoing_packet_handler != null) {
try {
msg = (Message) outgoing_queue.remove();
handleMessage(msg);
} catch (QueueClosedException closed_ex) {
if (Trace.trace) {
Trace.info("UDP.OutgoingPacketHandler.run()", "packet_handler thread terminating");
}
break;
} catch (Throwable t) {
Trace.error(
"UDP.OutgoingPacketHandler.run()",
"exception sending packet: " + Util.printStackTrace(t));
}
msg = null; // let's give the poor garbage collector a hand...
}
}
/**
* Caller by the layer above this layer. Usually we just put this Message into the send queue and
* let one or more worker threads handle it. A worker thread then removes the Message from the
* send queue, performs a conversion and adds the modified Message to the send queue of the layer
* below it, by calling Down).
*/
public void down(Event evt) {
Message msg;
Object dest_addr;
if (evt.getType() != Event.MSG) { // unless it is a message handle it and respond
handleDownEvent(evt);
return;
}
// ****************** profiling ******************
/*if(num_msgs == 0) {
start=System.currentTimeMillis();
num_msgs++;
}
else if(num_msgs >= 1000) {
stop=System.currentTimeMillis();
long total_time=stop-start;
double msgs_per_msec=num_msgs / (double)total_time;
if(Trace.trace)
Trace.info("UDP.down.profile()",
"total_time=" + total_time + ", msgs/ms=" + msgs_per_msec);
num_msgs=0;
}
else {
num_msgs++;
}*/
// ****************** profiling ******************
msg = (Message) evt.getArg();
if (udp_hdr != null && udp_hdr.group_addr != null) {
// added patch by Roland Kurmann (March 20 2003)
msg.putHeader(name, udp_hdr);
}
dest_addr = msg.getDest();
// Because we don't call Protocol.passDown(), we notify the observer directly (e.g.
// PerfObserver).
// This way, we still have performance numbers for UDP
if (observer != null) {
observer.passDown(evt);
}
if (dest_addr == null) { // 'null' means send to all group members
if (ip_mcast) {
if (mcast_addr == null) {
Trace.error(
"UDP.down()",
"dest address of message is null, and "
+ "sending to default address fails as mcast_addr is null, too !"
+ " Discarding message "
+ Util.printEvent(evt));
return;
}
// if we want to use IP multicast, then set the destination of the message
msg.setDest(mcast_addr);
} else {
// sends a separate UDP message to each address
sendMultipleUdpMessages(msg, members);
return;
}
}
try {
sendUdpMessage(msg);
} catch (Exception e) {
Trace.error("UDP.down()", "exception=" + e + ", msg=" + msg + ", mcast_addr=" + mcast_addr);
}
}
public void run() {
DatagramPacket packet;
byte receive_buf[] = new byte[65535];
int len;
byte[] tmp, data;
// moved out of loop to avoid excessive object creations (bela March 8 2001)
packet = new DatagramPacket(receive_buf, receive_buf.length);
while (mcast_receiver != null && mcast_sock != null) {
try {
packet.setData(receive_buf, 0, receive_buf.length);
mcast_sock.receive(packet);
len = packet.getLength();
data = packet.getData();
if (len == 1 && data[0] == 0) {
if (Trace.debug) {
Trace.info("UDP.run()", "received dummy packet");
}
continue;
}
if (len == 4) { // received a diagnostics probe
if (data[0] == 'd' && data[1] == 'i' && data[2] == 'a' && data[3] == 'g') {
handleDiagnosticProbe(packet.getAddress(), packet.getPort());
continue;
}
}
if (Trace.debug) {
Trace.info(
"UDP.receive()",
"received (mcast) "
+ packet.getLength()
+ " bytes from "
+ packet.getAddress()
+ ":"
+ packet.getPort()
+ " (size="
+ len
+ " bytes)");
}
if (len > receive_buf.length) {
Trace.error(
"UDP.run()",
"size of the received packet ("
+ len
+ ") is bigger than "
+ "allocated buffer ("
+ receive_buf.length
+ "): will not be able to handle packet. "
+ "Use the FRAG protocol and make its frag_size lower than "
+ receive_buf.length);
}
if (Version.compareTo(data) == false) {
Trace.warn(
"UDP.run()",
"packet from "
+ packet.getAddress()
+ ":"
+ packet.getPort()
+ " has different version ("
+ Version.printVersionId(data, Version.version_id.length)
+ ") from ours ("
+ Version.printVersionId(Version.version_id)
+ "). This may cause problems");
}
if (use_incoming_packet_handler) {
tmp = new byte[len];
System.arraycopy(data, 0, tmp, 0, len);
incoming_queue.add(tmp);
} else {
handleIncomingUdpPacket(data);
}
} catch (SocketException sock_ex) {
if (Trace.trace) {
Trace.info("UDP.run()", "multicast socket is closed, exception=" + sock_ex);
}
break;
} catch (InterruptedIOException io_ex) { // thread was interrupted
; // go back to top of loop, where we will terminate loop
} catch (Throwable ex) {
Trace.error("UDP.run()", "exception=" + ex + ", stack trace=" + Util.printStackTrace(ex));
Util.sleep(300); // so we don't get into 100% cpu spinning (should NEVER happen !)
}
}
if (Trace.trace) {
Trace.info("UDP.run()", "multicast thread terminated");
}
}
public Object down(Event evt) {
switch (evt.getType()) {
case Event.MSG: // Add UnicastHeader, add to AckSenderWindow and pass down
Message msg = (Message) evt.getArg();
Address dst = msg.getDest();
/* only handle unicast messages */
if (dst == null || msg.isFlagSet(Message.NO_RELIABILITY)) break;
if (!running) {
if (log.isTraceEnabled())
log.trace("discarded message as start() has not yet been called, message: " + msg);
return null;
}
SenderEntry entry = send_table.get(dst);
if (entry == null) {
entry = new SenderEntry(getNewConnectionId());
SenderEntry existing = send_table.putIfAbsent(dst, entry);
if (existing != null) entry = existing;
else {
if (log.isTraceEnabled())
log.trace(
local_addr
+ ": created connection to "
+ dst
+ " (conn_id="
+ entry.send_conn_id
+ ")");
if (cache != null && !members.contains(dst)) cache.add(dst);
}
}
short send_conn_id = entry.send_conn_id;
long seqno = entry.sent_msgs_seqno.getAndIncrement();
long sleep = 10;
while (running) {
try {
msg.putHeader(
this.id,
Unicast2Header.createDataHeader(seqno, send_conn_id, seqno == DEFAULT_FIRST_SEQNO));
entry.sent_msgs.add(seqno, msg); // add *including* UnicastHeader, adds to retransmitter
if (conn_expiry_timeout > 0) entry.update();
break;
} catch (Throwable t) {
if (!running) break;
if (log.isWarnEnabled()) log.warn("failed sending message", t);
Util.sleep(sleep);
sleep = Math.min(5000, sleep * 2);
}
}
if (log.isTraceEnabled()) {
StringBuilder sb = new StringBuilder();
sb.append(local_addr)
.append(" --> DATA(")
.append(dst)
.append(": #")
.append(seqno)
.append(", conn_id=")
.append(send_conn_id);
if (seqno == DEFAULT_FIRST_SEQNO) sb.append(", first");
sb.append(')');
log.trace(sb);
}
try {
down_prot.down(evt);
num_msgs_sent++;
} catch (Throwable t) {
log.warn("failed sending the message", t);
}
return null; // we already passed the msg down
case Event.VIEW_CHANGE: // remove connections to peers that are not members anymore !
View view = (View) evt.getArg();
List<Address> new_members = view.getMembers();
Set<Address> non_members = new HashSet<Address>(send_table.keySet());
non_members.addAll(recv_table.keySet());
members = new_members;
non_members.removeAll(new_members);
if (cache != null) cache.removeAll(new_members);
if (!non_members.isEmpty()) {
if (log.isTraceEnabled()) log.trace("removing non members " + non_members);
for (Address non_mbr : non_members) removeConnection(non_mbr);
}
break;
case Event.SET_LOCAL_ADDRESS:
local_addr = (Address) evt.getArg();
break;
}
return down_prot.down(evt); // Pass on to the layer below us
}
/**
* Reliable unicast layer. Implemented with negative acks. Every sender keeps its messages in an
* AckSenderWindow. A receiver stores incoming messages in a NakReceiverWindow, and asks the sender
* for retransmission if a gap is detected. Every now and then (stable_interval), a timer task sends
* a STABLE message to all senders, including the highest received and delivered seqnos. A sender
* purges messages lower than highest delivered and asks the STABLE sender for messages it might
* have missed (smaller than highest received). A STABLE message can also be sent when a receiver
* has received more than max_bytes from a given sender.
*
* <p>The advantage of this protocol over {@link org.jgroups.protocols.UNICAST} is that it doesn't
* send acks for every message. Instead, it sends 'acks' after receiving max_bytes and/ or
* periodically (stable_interval).
*
* @author Bela Ban
*/
@MBean(description = "Reliable unicast layer")
public class UNICAST2 extends Protocol implements AgeOutCache.Handler<Address> {
public static final long DEFAULT_FIRST_SEQNO = Global.DEFAULT_FIRST_UNICAST_SEQNO;
/* ------------------------------------------ Properties ------------------------------------------ */
@Deprecated
protected int[] timeout = {
400, 800, 1600, 3200
}; // for NakSenderWindow: max time to wait for missing acks
/**
* The first value (in milliseconds) to use in the exponential backoff retransmission mechanism.
* Only enabled if the value is > 0
*/
@Deprecated
@Property(
description =
"The first value (in milliseconds) to use in the exponential backoff. Enabled if greater than 0",
deprecatedMessage = "Not used anymore")
protected int exponential_backoff = 300;
@Property(
description =
"Max number of messages to be removed from a NakReceiverWindow. This property might "
+ "get removed anytime, so don't use it !")
protected int max_msg_batch_size = 500;
@Property(description = "Max number of bytes before a stability message is sent to the sender")
protected long max_bytes = 10000000;
@Property(
description =
"Max number of milliseconds before a stability message is sent to the sender(s)")
protected long stable_interval = 60000L;
@Property(
description =
"Max number of STABLE messages sent for the same highest_received seqno. A value < 1 is invalid")
protected int max_stable_msgs = 5;
@Property(
description = "Number of rows of the matrix in the retransmission table (only for experts)",
writable = false)
protected int xmit_table_num_rows = 100;
@Property(
description =
"Number of elements of a row of the matrix in the retransmission table (only for experts). "
+ "The capacity of the matrix is xmit_table_num_rows * xmit_table_msgs_per_row",
writable = false)
protected int xmit_table_msgs_per_row = 2000;
@Property(
description = "Resize factor of the matrix in the retransmission table (only for experts)",
writable = false)
protected double xmit_table_resize_factor = 1.2;
@Property(
description =
"Number of milliseconds after which the matrix in the retransmission table "
+ "is compacted (only for experts)",
writable = false)
protected long xmit_table_max_compaction_time = 10 * 60 * 1000;
@Deprecated
@Property(
description =
"If enabled, the removal of a message from the retransmission table causes an "
+ "automatic purge (only for experts)",
writable = false,
deprecatedMessage = "not used anymore")
protected boolean xmit_table_automatic_purging = true;
@Property(
description =
"Whether to use the old retransmitter which retransmits individual messages or the new one "
+ "which uses ranges of retransmitted messages. Default is true. Note that this property will be removed in 3.0; "
+ "it is only used to switch back to the old (and proven) retransmitter mechanism if issues occur")
protected boolean use_range_based_retransmitter = true;
@Property(
description =
"Time (in milliseconds) after which an idle incoming or outgoing connection is closed. The "
+ "connection will get re-established when used again. 0 disables connection reaping")
protected long conn_expiry_timeout = 60000;
@Property(
description =
"Interval (in milliseconds) at which missing messages (from all retransmit buffers) "
+ "are retransmitted")
protected long xmit_interval = 1000;
/* --------------------------------------------- JMX ---------------------------------------------- */
protected long num_msgs_sent = 0, num_msgs_received = 0;
/* --------------------------------------------- Fields ------------------------------------------------ */
protected final ConcurrentMap<Address, SenderEntry> send_table = Util.createConcurrentMap();
protected final ConcurrentMap<Address, ReceiverEntry> recv_table = Util.createConcurrentMap();
/** RetransmitTask running every xmit_interval ms */
protected Future<?> xmit_task;
protected final ReentrantLock recv_table_lock = new ReentrantLock();
protected volatile List<Address> members = new ArrayList<Address>(11);
protected Address local_addr = null;
protected TimeScheduler timer = null; // used for retransmissions (passed to AckSenderWindow)
protected volatile boolean running = false;
protected short last_conn_id = 0;
protected long max_retransmit_time = 60 * 1000L;
protected AgeOutCache<Address> cache = null;
protected Future<?> stable_task_future =
null; // bcasts periodic STABLE message (added to timer below)
protected Future<?> connection_reaper; // closes idle connections
public int[] getTimeout() {
return timeout;
}
@Deprecated
@Property(
name = "timeout",
converter = PropertyConverters.IntegerArray.class,
description = "list of timeouts",
deprecatedMessage = "not used anymore")
public void setTimeout(int[] val) {
if (val != null) timeout = val;
}
public void setMaxMessageBatchSize(int size) {
if (size >= 1) max_msg_batch_size = size;
}
@ManagedAttribute
public String getLocalAddress() {
return local_addr != null ? local_addr.toString() : "null";
}
@ManagedAttribute
public String getMembers() {
return members.toString();
}
@ManagedAttribute(description = "Returns the number of outgoing (send) connections")
public int getNumSendConnections() {
return send_table.size();
}
@ManagedAttribute(description = "Returns the number of incoming (receive) connections")
public int getNumReceiveConnections() {
return recv_table.size();
}
@ManagedAttribute(
description =
"Returns the total number of outgoing (send) and incoming (receive) connections")
public int getNumConnections() {
return getNumReceiveConnections() + getNumSendConnections();
}
@ManagedOperation
public String printConnections() {
StringBuilder sb = new StringBuilder();
if (!send_table.isEmpty()) {
sb.append("send connections:\n");
for (Map.Entry<Address, SenderEntry> entry : send_table.entrySet()) {
sb.append(entry.getKey()).append(": ").append(entry.getValue()).append("\n");
}
}
if (!recv_table.isEmpty()) {
sb.append("\nreceive connections:\n");
for (Map.Entry<Address, ReceiverEntry> entry : recv_table.entrySet()) {
sb.append(entry.getKey()).append(": ").append(entry.getValue()).append("\n");
}
}
return sb.toString();
}
@ManagedAttribute(description = "Whether the ConnectionReaper task is running")
public boolean isConnectionReaperRunning() {
return connection_reaper != null && !connection_reaper.isDone();
}
@ManagedAttribute
public long getNumMessagesSent() {
return num_msgs_sent;
}
@ManagedAttribute
public long getNumMessagesReceived() {
return num_msgs_received;
}
@ManagedAttribute(description = "Total number of undelivered messages in all receive windows")
public long getXmitTableUndeliveredMessages() {
long retval = 0;
for (ReceiverEntry entry : recv_table.values()) {
if (entry.received_msgs != null) retval += entry.received_msgs.size();
}
return retval;
}
@ManagedAttribute(description = "Total number of missing messages in all receive windows")
public long getXmitTableMissingMessages() {
long retval = 0;
for (ReceiverEntry entry : recv_table.values()) {
if (entry.received_msgs != null) retval += entry.received_msgs.getNumMissing();
}
return retval;
}
@ManagedAttribute(description = "Number of compactions in all (receive and send) windows")
public int getXmitTableNumCompactions() {
int retval = 0;
for (ReceiverEntry entry : recv_table.values()) {
if (entry.received_msgs != null) retval += entry.received_msgs.getNumCompactions();
}
for (SenderEntry entry : send_table.values()) {
if (entry.sent_msgs != null) retval += entry.sent_msgs.getNumCompactions();
}
return retval;
}
@ManagedAttribute(description = "Number of moves in all (receive and send) windows")
public int getXmitTableNumMoves() {
int retval = 0;
for (ReceiverEntry entry : recv_table.values()) {
if (entry.received_msgs != null) retval += entry.received_msgs.getNumMoves();
}
for (SenderEntry entry : send_table.values()) {
if (entry.sent_msgs != null) retval += entry.sent_msgs.getNumMoves();
}
return retval;
}
@ManagedAttribute(description = "Number of resizes in all (receive and send) windows")
public int getXmitTableNumResizes() {
int retval = 0;
for (ReceiverEntry entry : recv_table.values()) {
if (entry.received_msgs != null) retval += entry.received_msgs.getNumResizes();
}
for (SenderEntry entry : send_table.values()) {
if (entry.sent_msgs != null) retval += entry.sent_msgs.getNumResizes();
}
return retval;
}
@ManagedAttribute(description = "Number of purges in all (receive and send) windows")
public int getXmitTableNumPurges() {
int retval = 0;
for (ReceiverEntry entry : recv_table.values()) {
if (entry.received_msgs != null) retval += entry.received_msgs.getNumPurges();
}
for (SenderEntry entry : send_table.values()) {
if (entry.sent_msgs != null) retval += entry.sent_msgs.getNumPurges();
}
return retval;
}
@ManagedOperation(description = "Prints the contents of the receive windows for all members")
public String printReceiveWindowMessages() {
StringBuilder ret = new StringBuilder(local_addr + ":\n");
for (Map.Entry<Address, ReceiverEntry> entry : recv_table.entrySet()) {
Address addr = entry.getKey();
Table<Message> buf = entry.getValue().received_msgs;
ret.append(addr).append(": ").append(buf.toString()).append('\n');
}
return ret.toString();
}
@ManagedOperation(description = "Prints the contents of the send windows for all members")
public String printSendWindowMessages() {
StringBuilder ret = new StringBuilder(local_addr + ":\n");
for (Map.Entry<Address, SenderEntry> entry : send_table.entrySet()) {
Address addr = entry.getKey();
Table<Message> buf = entry.getValue().sent_msgs;
ret.append(addr).append(": ").append(buf.toString()).append('\n');
}
return ret.toString();
}
@ManagedAttribute(description = "Number of retransmit requests received")
protected final AtomicLong xmit_reqs_received = new AtomicLong(0);
@ManagedAttribute(description = "Number of retransmit requests sent")
protected final AtomicLong xmit_reqs_sent = new AtomicLong(0);
@ManagedAttribute(description = "Number of retransmit responses sent")
protected final AtomicLong xmit_rsps_sent = new AtomicLong(0);
@ManagedAttribute(description = "Is the retransmit task running")
public boolean isXmitTaskRunning() {
return xmit_task != null && !xmit_task.isDone();
}
public long getMaxRetransmitTime() {
return max_retransmit_time;
}
@Property(
description =
"Max number of milliseconds we try to retransmit a message to any given member. After that, "
+ "the connection is removed. Any new connection to that member will start with seqno #1 again. 0 disables this")
public void setMaxRetransmitTime(long max_retransmit_time) {
this.max_retransmit_time = max_retransmit_time;
if (cache != null && max_retransmit_time > 0) cache.setTimeout(max_retransmit_time);
}
@ManagedAttribute
public int getAgeOutCacheSize() {
return cache != null ? cache.size() : 0;
}
@ManagedOperation
public String printAgeOutCache() {
return cache != null ? cache.toString() : "n/a";
}
public AgeOutCache<Address> getAgeOutCache() {
return cache;
}
public void resetStats() {
num_msgs_sent = num_msgs_received = 0;
xmit_reqs_received.set(0);
xmit_reqs_sent.set(0);
xmit_rsps_sent.set(0);
}
public TimeScheduler getTimer() {
return timer;
}
/**
* Only used for unit tests, don't use !
*
* @param timer
*/
public void setTimer(TimeScheduler timer) {
this.timer = timer;
}
public void init() throws Exception {
super.init();
if (max_stable_msgs < 1)
throw new IllegalArgumentException("max_stable_msgs ( " + max_stable_msgs + ") must be > 0");
if (max_bytes <= 0) throw new IllegalArgumentException("max_bytes has to be > 0");
}
public void start() throws Exception {
timer = getTransport().getTimer();
if (timer == null) throw new Exception("timer is null");
if (max_retransmit_time > 0) cache = new AgeOutCache<Address>(timer, max_retransmit_time, this);
running = true;
if (stable_interval > 0) startStableTask();
if (conn_expiry_timeout > 0) startConnectionReaper();
startRetransmitTask();
}
public void stop() {
running = false;
stopStableTask();
stopConnectionReaper();
stopRetransmitTask();
removeAllConnections();
}
public Object up(Event evt) {
Message msg;
Address dst, src;
Unicast2Header hdr;
switch (evt.getType()) {
case Event.MSG:
msg = (Message) evt.getArg();
dst = msg.getDest();
if (dst == null || msg.isFlagSet(Message.NO_RELIABILITY)) // only handle unicast messages
break; // pass up
// changed from removeHeader(): we cannot remove the header because if we do loopback=true
// at the
// transport level, we will not have the header on retransmit ! (bela Aug 22 2006)
hdr = (Unicast2Header) msg.getHeader(this.id);
if (hdr == null) break;
src = msg.getSrc();
switch (hdr.type) {
case Unicast2Header.DATA: // received regular message
handleDataReceived(src, hdr.seqno, hdr.conn_id, hdr.first, msg, evt);
return null; // we pass the deliverable message up in handleDataReceived()
case Unicast2Header.XMIT_REQ: // received ACK for previously sent message
handleXmitRequest(src, (SeqnoList) msg.getObject());
break;
case Unicast2Header.SEND_FIRST_SEQNO:
handleResendingOfFirstMessage(src, hdr.seqno);
break;
case Unicast2Header.STABLE:
stable(msg.getSrc(), hdr.conn_id, hdr.seqno, hdr.high_seqno);
break;
default:
log.error("UnicastHeader type " + hdr.type + " not known !");
break;
}
return null;
}
return up_prot.up(evt); // Pass up to the layer above us
}
public Object down(Event evt) {
switch (evt.getType()) {
case Event.MSG: // Add UnicastHeader, add to AckSenderWindow and pass down
Message msg = (Message) evt.getArg();
Address dst = msg.getDest();
/* only handle unicast messages */
if (dst == null || msg.isFlagSet(Message.NO_RELIABILITY)) break;
if (!running) {
if (log.isTraceEnabled())
log.trace("discarded message as start() has not yet been called, message: " + msg);
return null;
}
SenderEntry entry = send_table.get(dst);
if (entry == null) {
entry = new SenderEntry(getNewConnectionId());
SenderEntry existing = send_table.putIfAbsent(dst, entry);
if (existing != null) entry = existing;
else {
if (log.isTraceEnabled())
log.trace(
local_addr
+ ": created connection to "
+ dst
+ " (conn_id="
+ entry.send_conn_id
+ ")");
if (cache != null && !members.contains(dst)) cache.add(dst);
}
}
short send_conn_id = entry.send_conn_id;
long seqno = entry.sent_msgs_seqno.getAndIncrement();
long sleep = 10;
while (running) {
try {
msg.putHeader(
this.id,
Unicast2Header.createDataHeader(seqno, send_conn_id, seqno == DEFAULT_FIRST_SEQNO));
entry.sent_msgs.add(seqno, msg); // add *including* UnicastHeader, adds to retransmitter
if (conn_expiry_timeout > 0) entry.update();
break;
} catch (Throwable t) {
if (!running) break;
if (log.isWarnEnabled()) log.warn("failed sending message", t);
Util.sleep(sleep);
sleep = Math.min(5000, sleep * 2);
}
}
if (log.isTraceEnabled()) {
StringBuilder sb = new StringBuilder();
sb.append(local_addr)
.append(" --> DATA(")
.append(dst)
.append(": #")
.append(seqno)
.append(", conn_id=")
.append(send_conn_id);
if (seqno == DEFAULT_FIRST_SEQNO) sb.append(", first");
sb.append(')');
log.trace(sb);
}
try {
down_prot.down(evt);
num_msgs_sent++;
} catch (Throwable t) {
log.warn("failed sending the message", t);
}
return null; // we already passed the msg down
case Event.VIEW_CHANGE: // remove connections to peers that are not members anymore !
View view = (View) evt.getArg();
List<Address> new_members = view.getMembers();
Set<Address> non_members = new HashSet<Address>(send_table.keySet());
non_members.addAll(recv_table.keySet());
members = new_members;
non_members.removeAll(new_members);
if (cache != null) cache.removeAll(new_members);
if (!non_members.isEmpty()) {
if (log.isTraceEnabled()) log.trace("removing non members " + non_members);
for (Address non_mbr : non_members) removeConnection(non_mbr);
}
break;
case Event.SET_LOCAL_ADDRESS:
local_addr = (Address) evt.getArg();
break;
}
return down_prot.down(evt); // Pass on to the layer below us
}
/**
* Purge all messages in window for local_addr, which are <= low. Check if the window's highest
* received message is > high: if true, retransmit all messages from high - win.high to sender
*
* @param sender
* @param hd Highest delivered seqno
* @param hr Highest received seqno
*/
protected void stable(Address sender, short conn_id, long hd, long hr) {
SenderEntry entry = send_table.get(sender);
Table<Message> win = entry != null ? entry.sent_msgs : null;
if (win == null) return;
if (log.isTraceEnabled())
log.trace(
new StringBuilder()
.append(local_addr)
.append(" <-- STABLE(")
.append(sender)
.append(": ")
.append(hd)
.append("-")
.append(hr)
.append(", conn_id=" + conn_id)
+ ")");
if (entry.send_conn_id != conn_id) {
log.warn(
local_addr
+ ": my conn_id ("
+ entry.send_conn_id
+ ") != received conn_id ("
+ conn_id
+ "); discarding STABLE message !");
return;
}
win.purge(hd, true);
long win_hr = win.getHighestReceived();
if (win_hr > hr) {
for (long seqno = hr; seqno <= win_hr; seqno++) {
Message msg =
win.get(
seqno); // destination is still the same (the member which sent the STABLE message)
if (msg != null) down_prot.down(new Event(Event.MSG, msg));
}
}
}
@ManagedOperation(
description =
"Sends a STABLE message to all senders. This causes message purging and potential"
+ " retransmissions from senders")
public void sendStableMessages() {
for (Map.Entry<Address, ReceiverEntry> entry : recv_table.entrySet()) {
Address dest = entry.getKey();
ReceiverEntry val = entry.getValue();
Table<Message> win = val != null ? val.received_msgs : null;
if (win != null) {
long[] tmp = win.getDigest();
long low = tmp[0], high = tmp[1];
if (val.last_highest == high) {
if (val.num_stable_msgs >= max_stable_msgs) {
continue;
} else val.num_stable_msgs++;
} else {
val.last_highest = high;
val.num_stable_msgs = 1;
}
sendStableMessage(dest, val.recv_conn_id, low, high);
}
}
}
protected void sendStableMessage(Address dest, short conn_id, long hd, long hr) {
Message stable_msg = new Message(dest, null, null);
Unicast2Header hdr = Unicast2Header.createStableHeader(conn_id, hd, hr);
stable_msg.putHeader(this.id, hdr);
stable_msg.setFlag(Message.OOB);
if (log.isTraceEnabled()) {
StringBuilder sb = new StringBuilder();
sb.append(local_addr)
.append(" --> STABLE(")
.append(dest)
.append(": ")
.append(hd)
.append("-")
.append(hr)
.append(", conn_id=")
.append(conn_id)
.append(")");
log.trace(sb.toString());
}
down_prot.down(new Event(Event.MSG, stable_msg));
}
protected void startStableTask() {
if (stable_task_future == null || stable_task_future.isDone()) {
final Runnable stable_task =
new Runnable() {
public void run() {
try {
sendStableMessages();
} catch (Throwable t) {
log.error("sending of STABLE messages failed", t);
}
}
};
stable_task_future =
timer.scheduleWithFixedDelay(
stable_task, stable_interval, stable_interval, TimeUnit.MILLISECONDS);
if (log.isTraceEnabled()) log.trace("stable task started");
}
}
protected void stopStableTask() {
if (stable_task_future != null) {
stable_task_future.cancel(false);
stable_task_future = null;
}
}
protected synchronized void startConnectionReaper() {
if (connection_reaper == null || connection_reaper.isDone())
connection_reaper =
timer.scheduleWithFixedDelay(
new ConnectionReaper(),
conn_expiry_timeout,
conn_expiry_timeout,
TimeUnit.MILLISECONDS);
}
protected synchronized void stopConnectionReaper() {
if (connection_reaper != null) connection_reaper.cancel(false);
}
/**
* Removes and resets from connection table (which is already locked). Returns true if member was
* found, otherwise false. This method is public only so it can be invoked by unit testing, but
* should not otherwise be used !
*/
public void removeConnection(Address mbr) {
removeSendConnection(mbr);
removeReceiveConnection(mbr);
}
public void removeSendConnection(Address mbr) {
send_table.remove(mbr);
}
public void removeReceiveConnection(Address mbr) {
ReceiverEntry entry2 = recv_table.remove(mbr);
if (entry2 != null) {
Table<Message> win = entry2.received_msgs;
if (win != null)
sendStableMessage(
mbr, entry2.recv_conn_id, win.getHighestDelivered(), win.getHighestReceived());
entry2.reset();
}
}
/**
* This method is public only so it can be invoked by unit testing, but should not otherwise be
* used !
*/
@ManagedOperation(
description = "Trashes all connections to other nodes. This is only used for testing")
public void removeAllConnections() {
send_table.clear();
sendStableMessages();
for (ReceiverEntry entry2 : recv_table.values()) entry2.reset();
recv_table.clear();
}
public void retransmit(SeqnoList missing, Address sender) {
Unicast2Header hdr = Unicast2Header.createXmitReqHeader();
Message retransmit_msg = new Message(sender, null, missing);
retransmit_msg.setFlag(Message.OOB);
if (log.isTraceEnabled())
log.trace(local_addr + ": sending XMIT_REQ (" + missing + ") to " + sender);
retransmit_msg.putHeader(this.id, hdr);
down_prot.down(new Event(Event.MSG, retransmit_msg));
xmit_reqs_sent.addAndGet(missing.size());
}
/**
* Called by AgeOutCache, to removed expired connections
*
* @param key
*/
public void expired(Address key) {
if (key != null) {
if (log.isDebugEnabled()) log.debug("removing connection to " + key + " because it expired");
removeConnection(key);
}
}
/**
* Check whether the hashmap contains an entry e for <code>sender</code> (create if not). If
* e.received_msgs is null and <code>first</code> is true: create a new AckReceiverWindow(seqno)
* and add message. Set e.received_msgs to the new window. Else just add the message.
*/
protected void handleDataReceived(
Address sender, long seqno, short conn_id, boolean first, Message msg, Event evt) {
if (log.isTraceEnabled()) {
StringBuilder sb = new StringBuilder();
sb.append(local_addr).append(" <-- DATA(").append(sender).append(": #").append(seqno);
if (conn_id != 0) sb.append(", conn_id=").append(conn_id);
if (first) sb.append(", first");
sb.append(')');
log.trace(sb);
}
ReceiverEntry entry = getReceiverEntry(sender, seqno, first, conn_id);
if (entry == null) return;
if (conn_expiry_timeout > 0) entry.update();
Table<Message> win = entry.received_msgs;
boolean added = win.add(seqno, msg); // win is guaranteed to be non-null if we get here
num_msgs_received++;
if (added) {
int len = msg.getLength();
if (len > 0 && entry.incrementStable(len))
sendStableMessage(
sender, entry.recv_conn_id, win.getHighestDelivered(), win.getHighestReceived());
}
// An OOB message is passed up immediately. Later, when remove() is called, we discard it. This
// affects ordering !
// http://jira.jboss.com/jira/browse/JGRP-377
if (msg.isFlagSet(Message.OOB) && added) {
try {
up_prot.up(evt);
} catch (Throwable t) {
log.error("couldn't deliver OOB message " + msg, t);
}
}
final AtomicBoolean processing = win.getProcessing();
if (!processing.compareAndSet(false, true)) {
return;
}
// Try to remove as many messages as possible and pass them up.
// Prevents concurrent passing up of messages by different threads
// (http://jira.jboss.com/jira/browse/JGRP-198);
// this is all the more important once we have a concurrent stack
// (http://jira.jboss.com/jira/browse/JGRP-181),
// where lots of threads can come up to this point concurrently, but only 1 is allowed to pass
// at a time
// We *can* deliver messages from *different* senders concurrently, e.g. reception of P1, Q1,
// P2, Q2 can result in
// delivery of P1, Q1, Q2, P2: FIFO (implemented by UNICAST) says messages need to be delivered
// only in the
// order in which they were sent by their senders
boolean released_processing = false;
try {
while (true) {
List<Message> msgs =
win.removeMany(processing, true, max_msg_batch_size); // remove my own messages
if (msgs == null || msgs.isEmpty()) {
released_processing = true;
return;
}
for (Message m : msgs) {
// discard OOB msg: it has already been delivered
// (http://jira.jboss.com/jira/browse/JGRP-377)
if (m.isFlagSet(Message.OOB)) continue;
try {
up_prot.up(new Event(Event.MSG, m));
} catch (Throwable t) {
log.error("couldn't deliver message " + m, t);
}
}
}
} finally {
// processing is always set in win.remove(processing) above and never here ! This code is just
// a
// 2nd line of defense should there be an exception before win.remove(processing) sets
// processing
if (!released_processing) processing.set(false);
}
}
protected ReceiverEntry getReceiverEntry(
Address sender, long seqno, boolean first, short conn_id) {
ReceiverEntry entry = recv_table.get(sender);
if (entry != null && entry.recv_conn_id == conn_id) return entry;
recv_table_lock.lock();
try {
entry = recv_table.get(sender);
if (first) {
if (entry == null) {
entry = getOrCreateReceiverEntry(sender, seqno, conn_id);
} else { // entry != null && win != null
if (conn_id != entry.recv_conn_id) {
if (log.isTraceEnabled())
log.trace(
local_addr
+ ": conn_id="
+ conn_id
+ " != "
+ entry.recv_conn_id
+ "; resetting receiver window");
recv_table.remove(sender);
entry = getOrCreateReceiverEntry(sender, seqno, conn_id);
} else {;
}
}
} else { // entry == null && win == null OR entry != null && win == null OR entry != null &&
// win != null
if (entry == null || entry.recv_conn_id != conn_id) {
recv_table_lock.unlock();
sendRequestForFirstSeqno(sender, seqno); // drops the message and returns (see below)
return null;
}
}
return entry;
} finally {
if (recv_table_lock.isHeldByCurrentThread()) recv_table_lock.unlock();
}
}
protected ReceiverEntry getOrCreateReceiverEntry(Address sender, long seqno, short conn_id) {
Table<Message> table =
new Table<Message>(
xmit_table_num_rows,
xmit_table_msgs_per_row,
seqno - 1,
xmit_table_resize_factor,
xmit_table_max_compaction_time);
ReceiverEntry entry = new ReceiverEntry(table, conn_id);
ReceiverEntry entry2 = recv_table.putIfAbsent(sender, entry);
if (entry2 != null) return entry2;
if (log.isTraceEnabled())
log.trace(
local_addr
+ ": created receiver window for "
+ sender
+ " at seqno=#"
+ seqno
+ " for conn-id="
+ conn_id);
return entry;
}
protected void handleXmitRequest(Address sender, SeqnoList missing) {
if (log.isTraceEnabled())
log.trace(
new StringBuilder()
.append(local_addr)
.append(" <-- XMIT(")
.append(sender)
.append(": #")
.append(missing)
.append(')'));
SenderEntry entry = send_table.get(sender);
xmit_reqs_received.addAndGet(missing.size());
Table<Message> win = entry != null ? entry.sent_msgs : null;
if (win != null) {
for (long seqno : missing) {
Message msg = win.get(seqno);
if (msg == null) {
if (log.isWarnEnabled() && !local_addr.equals(sender)) {
StringBuilder sb = new StringBuilder();
sb.append("(requester=").append(sender).append(", local_addr=").append(this.local_addr);
sb.append(") message ").append(sender).append("::").append(seqno);
sb.append(" not found in retransmission table of ")
.append(sender)
.append(":\n")
.append(win);
log.warn(sb.toString());
}
continue;
}
down_prot.down(new Event(Event.MSG, msg));
xmit_rsps_sent.incrementAndGet();
}
}
}
/**
* We need to resend our first message with our conn_id
*
* @param sender
* @param seqno Resend the non null messages in the range [lowest .. seqno]
*/
protected void handleResendingOfFirstMessage(Address sender, long seqno) {
if (log.isTraceEnabled())
log.trace(local_addr + " <-- SEND_FIRST_SEQNO(" + sender + "," + seqno + ")");
SenderEntry entry = send_table.get(sender);
Table<Message> win = entry != null ? entry.sent_msgs : null;
if (win == null) {
if (log.isErrorEnabled())
log.error(local_addr + ": sender window for " + sender + " not found");
return;
}
boolean first_sent = false;
for (long i = win.getLow() + 1; i <= seqno; i++) {
Message rsp = win.get(i);
if (rsp == null) continue;
if (first_sent) {
down_prot.down(new Event(Event.MSG, rsp));
} else {
first_sent = true;
// We need to copy the UnicastHeader and put it back into the message because Message.copy()
// doesn't copy
// the headers and therefore we'd modify the original message in the sender retransmission
// window
// (https://jira.jboss.org/jira/browse/JGRP-965)
Message copy = rsp.copy();
Unicast2Header hdr = (Unicast2Header) copy.getHeader(this.id);
Unicast2Header newhdr = hdr.copy();
newhdr.first = true;
copy.putHeader(this.id, newhdr);
down_prot.down(new Event(Event.MSG, copy));
}
}
}
protected void startRetransmitTask() {
if (xmit_task == null || xmit_task.isDone())
xmit_task =
timer.scheduleWithFixedDelay(
new RetransmitTask(), 0, xmit_interval, TimeUnit.MILLISECONDS);
}
protected void stopRetransmitTask() {
if (xmit_task != null) {
xmit_task.cancel(true);
xmit_task = null;
}
}
protected synchronized short getNewConnectionId() {
short retval = last_conn_id;
if (last_conn_id >= Short.MAX_VALUE || last_conn_id < 0) last_conn_id = 0;
else last_conn_id++;
return retval;
}
protected void sendRequestForFirstSeqno(Address dest, long seqno_received) {
Message msg = new Message(dest);
msg.setFlag(Message.OOB);
Unicast2Header hdr = Unicast2Header.createSendFirstSeqnoHeader(seqno_received);
msg.putHeader(this.id, hdr);
if (log.isTraceEnabled())
log.trace(local_addr + " --> SEND_FIRST_SEQNO(" + dest + "," + seqno_received + ")");
down_prot.down(new Event(Event.MSG, msg));
}
@ManagedOperation(
description = "Closes connections that have been idle for more than conn_expiry_timeout ms")
public void reapIdleConnections() {
if (conn_expiry_timeout <= 0) return;
// remove expired connections from send_table
for (Map.Entry<Address, SenderEntry> entry : send_table.entrySet()) {
SenderEntry val = entry.getValue();
long age = val.age();
if (age >= conn_expiry_timeout) {
removeSendConnection(entry.getKey());
if (log.isDebugEnabled())
log.debug(
local_addr
+ ": removed expired connection for "
+ entry.getKey()
+ " ("
+ age
+ " ms old) from send_table");
}
}
// remove expired connections from recv_table
for (Map.Entry<Address, ReceiverEntry> entry : recv_table.entrySet()) {
ReceiverEntry val = entry.getValue();
long age = val.age();
if (age >= conn_expiry_timeout) {
removeReceiveConnection(entry.getKey());
if (log.isDebugEnabled())
log.debug(
local_addr
+ ": removed expired connection for "
+ entry.getKey()
+ " ("
+ age
+ " ms old) from recv_table");
}
}
}
/**
* The following types and fields are serialized:
*
* <pre>
* | DATA | seqno | conn_id | first |
* | ACK | seqno |
* | SEND_FIRST_SEQNO | seqno |
* </pre>
*/
public static class Unicast2Header extends Header {
public static final byte DATA = 0;
public static final byte XMIT_REQ = 1;
public static final byte SEND_FIRST_SEQNO = 2;
public static final byte STABLE = 3;
byte type;
long seqno; // DATA and STABLE
long high_seqno; // STABLE
short conn_id; // DATA, STABLE
boolean first; // DATA
public Unicast2Header() {} // used for externalization
public static Unicast2Header createDataHeader(long seqno, short conn_id, boolean first) {
return new Unicast2Header(DATA, seqno, 0L, conn_id, first);
}
public static Unicast2Header createXmitReqHeader() {
return new Unicast2Header(XMIT_REQ);
}
public static Unicast2Header createStableHeader(short conn_id, long low, long high) {
if (low > high)
throw new IllegalArgumentException("low (" + low + ") needs to be <= high (" + high + ")");
Unicast2Header retval = new Unicast2Header(STABLE, low);
retval.high_seqno = high;
retval.conn_id = conn_id;
return retval;
}
public static Unicast2Header createSendFirstSeqnoHeader(long seqno_received) {
return new Unicast2Header(SEND_FIRST_SEQNO, seqno_received);
}
protected Unicast2Header(byte type) {
this.type = type;
}
protected Unicast2Header(byte type, long seqno) {
this.type = type;
this.seqno = seqno;
}
protected Unicast2Header(byte type, long seqno, long high, short conn_id, boolean first) {
this.type = type;
this.seqno = seqno;
this.high_seqno = high;
this.conn_id = conn_id;
this.first = first;
}
public byte getType() {
return type;
}
public long getSeqno() {
return seqno;
}
public long getHighSeqno() {
return high_seqno;
}
public short getConnId() {
return conn_id;
}
public boolean isFirst() {
return first;
}
public String toString() {
StringBuilder sb = new StringBuilder();
sb.append(type2Str(type)).append(", seqno=").append(seqno);
if (conn_id != 0) sb.append(", conn_id=").append(conn_id);
if (first) sb.append(", first");
return sb.toString();
}
public static String type2Str(byte t) {
switch (t) {
case DATA:
return "DATA";
case XMIT_REQ:
return "XMIT_REQ";
case SEND_FIRST_SEQNO:
return "SEND_FIRST_SEQNO";
case STABLE:
return "STABLE";
default:
return "<unknown>";
}
}
public final int size() {
int retval = Global.BYTE_SIZE; // type
switch (type) {
case DATA:
retval +=
Util.size(seqno) // seqno
+ Global.SHORT_SIZE // conn_id
+ Global.BYTE_SIZE; // first
break;
case XMIT_REQ:
break;
case STABLE:
retval += Util.size(seqno, high_seqno) + Global.SHORT_SIZE; // conn_id
break;
case SEND_FIRST_SEQNO:
retval += Util.size(seqno);
break;
}
return retval;
}
public Unicast2Header copy() {
return new Unicast2Header(type, seqno, high_seqno, conn_id, first);
}
public void writeTo(DataOutput out) throws Exception {
out.writeByte(type);
switch (type) {
case DATA:
Util.writeLong(seqno, out);
out.writeShort(conn_id);
out.writeBoolean(first);
break;
case XMIT_REQ:
break;
case STABLE:
Util.writeLongSequence(seqno, high_seqno, out);
out.writeShort(conn_id);
break;
case SEND_FIRST_SEQNO:
Util.writeLong(seqno, out);
break;
}
}
public void readFrom(DataInput in) throws Exception {
type = in.readByte();
switch (type) {
case DATA:
seqno = Util.readLong(in);
conn_id = in.readShort();
first = in.readBoolean();
break;
case XMIT_REQ:
break;
case STABLE:
long[] seqnos = Util.readLongSequence(in);
seqno = seqnos[0];
high_seqno = seqnos[1];
conn_id = in.readShort();
break;
case SEND_FIRST_SEQNO:
seqno = Util.readLong(in);
break;
}
}
}
protected final class SenderEntry {
// stores (and retransmits) msgs sent by us to a given peer
final Table<Message> sent_msgs;
final AtomicLong sent_msgs_seqno =
new AtomicLong(DEFAULT_FIRST_SEQNO); // seqno for msgs sent by us
final short send_conn_id;
protected final AtomicLong timestamp = new AtomicLong(0);
public SenderEntry(short send_conn_id) {
this.send_conn_id = send_conn_id;
this.sent_msgs =
new Table<Message>(
xmit_table_num_rows,
xmit_table_msgs_per_row,
0,
xmit_table_resize_factor,
xmit_table_max_compaction_time);
update();
}
void update() {
timestamp.set(System.currentTimeMillis());
}
long age() {
return System.currentTimeMillis() - timestamp.longValue();
}
public String toString() {
StringBuilder sb = new StringBuilder();
if (sent_msgs != null) sb.append(sent_msgs).append(", ");
sb.append("send_conn_id=" + send_conn_id).append(" (" + age() + " ms old)");
return sb.toString();
}
}
protected final class ReceiverEntry {
protected final Table<Message>
received_msgs; // stores all msgs rcvd by a certain peer in seqno-order
protected final short recv_conn_id;
protected int received_bytes = 0;
protected final AtomicLong timestamp = new AtomicLong(0);
protected final Lock lock = new ReentrantLock();
protected long last_highest = -1;
protected int num_stable_msgs = 0;
public ReceiverEntry(Table<Message> received_msgs, short recv_conn_id) {
this.received_msgs = received_msgs;
this.recv_conn_id = recv_conn_id;
update();
}
/**
* Adds len bytes, if max_bytes is exceeded, the value is reset and true returned, else false
*/
boolean incrementStable(int len) {
lock.lock();
try {
if (received_bytes + len >= max_bytes) {
received_bytes = 0;
return true;
}
received_bytes += len;
return false;
} finally {
lock.unlock();
}
}
void reset() {
received_bytes = 0;
last_highest = -1;
num_stable_msgs = 0;
}
void update() {
timestamp.set(System.currentTimeMillis());
}
long age() {
return System.currentTimeMillis() - timestamp.longValue();
}
public String toString() {
StringBuilder sb = new StringBuilder();
if (received_msgs != null) sb.append(received_msgs).append(", ");
sb.append("recv_conn_id=" + recv_conn_id);
sb.append(" (" + age() + " ms old)");
return sb.toString();
}
}
protected class ConnectionReaper implements Runnable {
public void run() {
reapIdleConnections();
}
}
/**
* Retransmitter task which periodically (every xmit_interval ms) looks at all the retransmit
* tables and sends retransmit request to all members from which we have missing messages
*/
protected class RetransmitTask implements Runnable {
public void run() {
for (Map.Entry<Address, ReceiverEntry> entry : recv_table.entrySet()) {
Address target = entry.getKey(); // target to send retransmit requests to
ReceiverEntry val = entry.getValue();
Table<Message> buf = val != null ? val.received_msgs : null;
if (buf != null && buf.getNumMissing() > 0) {
SeqnoList missing = buf.getMissing();
if (missing != null) retransmit(missing, target);
}
}
}
}
}
/**
* JChannel is a default implementation of a Channel abstraction.
*
* <p>JChannel is instantiated using an appropriate form of a protocol stack description. Protocol
* stack can be described using a file, URL or a stream containing XML stack description.
*
* @author Bela Ban
* @since 2.0
*/
@MBean(description = "JGroups channel")
public class JChannel extends Channel {
/** The default protocol stack used by the default constructor */
public static final String DEFAULT_PROTOCOL_STACK = "udp.xml";
/*the address of this JChannel instance*/
protected Address local_addr;
protected List<AddressGenerator> address_generators;
protected String name;
/* the channel (also know as group) name */
protected String cluster_name;
/* the latest view of the group membership */
protected View my_view;
/*the protocol stack, used to send and receive messages from the protocol stack*/
protected ProtocolStack prot_stack;
protected final Promise<StateTransferResult> state_promise = new Promise<>();
/**
* True if a state transfer protocol is available, false otherwise (set by CONFIG event from
* STATE_TRANSFER protocol)
*/
protected boolean state_transfer_supported = false;
/**
* True if a flush protocol is available, false otherwise (set by CONFIG event from FLUSH
* protocol)
*/
protected volatile boolean flush_supported = false;
protected final ConcurrentMap<String, Object> config = Util.createConcurrentMap(16);
/** Collect statistics */
@ManagedAttribute(description = "Collect channel statistics", writable = true)
protected boolean stats = true;
protected long sent_msgs = 0, received_msgs = 0, sent_bytes = 0, received_bytes = 0;
protected final DiagnosticsHandler.ProbeHandler probe_handler = new MyProbeHandler();
/**
* Creates a JChannel without a protocol stack; used for programmatic creation of channel and
* protocol stack
*
* @param create_protocol_stack If true, the default configuration will be used. If false, no
* protocol stack will be created
*/
public JChannel(boolean create_protocol_stack) {
if (create_protocol_stack) {
try {
init(ConfiguratorFactory.getStackConfigurator(DEFAULT_PROTOCOL_STACK));
} catch (Exception e) {
throw new RuntimeException(e);
}
}
}
/**
* Constructs a {@code JChannel} instance with the protocol stack specified by the {@code
* DEFAULT_PROTOCOL_STACK} member.
*
* @throws Exception If problems occur during the initialization of the protocol stack.
*/
public JChannel() throws Exception {
this(DEFAULT_PROTOCOL_STACK);
}
/**
* Constructs a JChannel instance with the protocol stack configuration contained by the specified
* file.
*
* @param properties A file containing a JGroups XML protocol stack configuration.
* @throws Exception If problems occur during the configuration or initialization of the protocol
* stack.
*/
public JChannel(File properties) throws Exception {
this(ConfiguratorFactory.getStackConfigurator(properties));
}
/**
* Constructs a JChannel instance with the protocol stack configuration contained by the specified
* XML element.
*
* @param properties An XML element containing a JGroups XML protocol stack configuration.
* @throws Exception If problems occur during the configuration or initialization of the protocol
* stack.
*/
public JChannel(Element properties) throws Exception {
this(ConfiguratorFactory.getStackConfigurator(properties));
}
/**
* Constructs a JChannel instance with the protocol stack configuration indicated by the specified
* URL.
*
* @param properties A URL pointing to a JGroups XML protocol stack configuration.
* @throws Exception If problems occur during the configuration or initialization of the protocol
* stack.
*/
public JChannel(URL properties) throws Exception {
this(ConfiguratorFactory.getStackConfigurator(properties));
}
/**
* Constructs a JChannel instance with the protocol stack configuration based upon the specified
* properties parameter.
*
* @param props A file containing a JGroups XML configuration, a URL pointing to an XML
* configuration, or an old style plain configuration string.
* @throws Exception If problems occur during the configuration or initialization of the protocol
* stack.
*/
public JChannel(String props) throws Exception {
this(ConfiguratorFactory.getStackConfigurator(props));
}
/**
* Creates a channel with a configuration based on an input stream.
*
* @param input An input stream, pointing to a streamed configuration
* @throws Exception
*/
public JChannel(InputStream input) throws Exception {
this(ConfiguratorFactory.getStackConfigurator(input));
}
/**
* Constructs a JChannel with the protocol stack configuration contained by the protocol stack
* configurator parameter.
*
* <p>All of the public constructors of this class eventually delegate to this method.
*
* @param configurator A protocol stack configurator containing a JGroups protocol stack
* configuration.
* @throws Exception If problems occur during the initialization of the protocol stack.
*/
public JChannel(ProtocolStackConfigurator configurator) throws Exception {
init(configurator);
}
/**
* Creates a channel from an array of protocols. Note that after a {@link
* org.jgroups.JChannel#close()}, the protocol list <em>should not</em> be reused, ie. new
* JChannel(protocols) would reuse the same protocol list, and this might lead to problems !
*
* @param protocols The list of protocols, from bottom to top, ie. the first protocol in the list
* is the transport, the last the top protocol
* @throws Exception
*/
public JChannel(Protocol... protocols) throws Exception {
this(Arrays.asList(protocols));
}
/**
* Creates a channel from an array of protocols. Note that after a {@link
* org.jgroups.JChannel#close()}, the protocol list <em>should not</em> be reused, ie. new
* JChannel(protocols) would reuse the same protocol list, and this might lead to problems !
*
* @param protocols The list of protocols, from bottom to top, ie. the first protocol in the list
* is the transport, the last the top protocol
* @throws Exception
*/
public JChannel(Collection<Protocol> protocols) throws Exception {
prot_stack = new ProtocolStack();
setProtocolStack(prot_stack);
for (Protocol prot : protocols) {
prot_stack.addProtocol(prot);
prot.setProtocolStack(prot_stack);
}
prot_stack.init();
// Substitute vars with defined system props (if any)
List<Protocol> prots = prot_stack.getProtocols();
Map<String, String> map = new HashMap<>();
for (Protocol prot : prots) Configurator.resolveAndAssignFields(prot, map);
}
/**
* Creates a channel with the same configuration as the channel passed to this constructor. This
* is used by testing code, and should not be used by clients !
*
* @param ch
* @throws Exception
*/
public JChannel(JChannel ch) throws Exception {
init(ch);
discard_own_messages = ch.discard_own_messages;
}
/** Returns the protocol stack */
public ProtocolStack getProtocolStack() {
return prot_stack;
}
public void setProtocolStack(ProtocolStack stack) {
this.prot_stack = stack;
if (prot_stack != null) prot_stack.setChannel(this);
}
/**
* Returns the protocol stack configuration in string format. An example of this property is<br>
* "UDP:PING:FD:STABLE:NAKACK:UNICAST:FRAG:FLUSH:GMS:VIEW_ENFORCER:STATE_TRANSFER:QUEUE"
*/
public String getProperties() {
return prot_stack != null ? prot_stack.printProtocolSpec(true) : null;
}
public boolean statsEnabled() {
return stats;
}
public void enableStats(boolean stats) {
this.stats = stats;
}
@ManagedOperation
public void resetStats() {
sent_msgs = received_msgs = sent_bytes = received_bytes = 0;
}
@ManagedAttribute
public long getSentMessages() {
return sent_msgs;
}
@ManagedAttribute
public long getSentBytes() {
return sent_bytes;
}
@ManagedAttribute
public long getReceivedMessages() {
return received_msgs;
}
@ManagedAttribute
public long getReceivedBytes() {
return received_bytes;
}
@ManagedAttribute
public int getNumberOfTasksInTimer() {
TimeScheduler timer = getTimer();
return timer != null ? timer.size() : -1;
}
@ManagedAttribute
public int getTimerThreads() {
TimeScheduler timer = getTimer();
return timer != null ? timer.getMinThreads() : -1;
}
@ManagedOperation
public String dumpTimerQueue() {
TimeScheduler timer = getTimer();
return timer != null ? timer.dumpTimerTasks() : "<n/a";
}
/**
* Returns a pretty-printed form of all the protocols. If include_properties is set, the
* properties for each protocol will also be printed.
*/
@ManagedOperation
public String printProtocolSpec(boolean include_properties) {
ProtocolStack ps = getProtocolStack();
return ps != null ? ps.printProtocolSpec(include_properties) : null;
}
@ManagedOperation(description = "Connects the channel to a group")
public synchronized void connect(String cluster_name) throws Exception {
connect(cluster_name, true);
}
/**
* Connects the channel to a group.
*
* @see JChannel#connect(String)
*/
@ManagedOperation(description = "Connects the channel to a group")
protected synchronized void connect(String cluster_name, boolean useFlushIfPresent)
throws Exception {
if (!_preConnect(cluster_name)) return;
if (cluster_name != null) { // only connect if we are not a unicast channel
Event connect_event =
useFlushIfPresent
? new Event(Event.CONNECT_USE_FLUSH, cluster_name)
: new Event(Event.CONNECT, cluster_name);
_connect(connect_event);
}
state = State.CONNECTED;
notifyChannelConnected(this);
}
public synchronized void connect(String cluster_name, Address target, long timeout)
throws Exception {
connect(cluster_name, target, timeout, true);
}
/**
* Connects this channel to a group and gets a state from a specified state provider.
*
* <p>This method invokes {@code connect()} and then {@code getState}.
*
* <p>If the FLUSH protocol is in the channel's stack definition, only one flush round is executed
* for both connecting and fetching the state rather than two flushes if we invoke {@code connect}
* and {@code getState} in succession.
*
* <p>If the channel is already connected, an error message will be printed to the error log. If
* the channel is closed a ChannelClosed exception will be thrown.
*
* @param cluster_name The cluster name to connect to. Cannot be null.
* @param target The state provider. If null, the state will be fetched from the coordinator,
* unless this channel is the coordinator.
* @param timeout The timeout for the state transfer.
* @exception Exception The protocol stack cannot be started, or the JOIN failed
* @exception IllegalStateException The channel is closed or disconnected
* @exception StateTransferException State transfer was not successful
*/
public synchronized void connect(
String cluster_name, Address target, long timeout, boolean useFlushIfPresent)
throws Exception {
if (!_preConnect(cluster_name)) return;
if (cluster_name == null) { // only connect if we are not a unicast channel
state = State.CONNECTED;
return;
}
boolean canFetchState = false;
try {
Event connect_event =
useFlushIfPresent
? new Event(Event.CONNECT_WITH_STATE_TRANSFER_USE_FLUSH, cluster_name)
: new Event(Event.CONNECT_WITH_STATE_TRANSFER, cluster_name);
_connect(connect_event);
state = State.CONNECTED;
notifyChannelConnected(this);
canFetchState = getView() != null && getView().size() > 1;
// if I am not the only member in cluster then
if (canFetchState) getState(target, timeout, false); // fetch state from target
} finally {
// stopFlush if we fetched the state or failed to connect...
if ((flushSupported() && useFlushIfPresent) && (canFetchState || state != State.CONNECTED))
stopFlush();
}
}
@ManagedOperation(description = "Disconnects the channel if connected")
public synchronized void disconnect() {
switch (state) {
case OPEN:
case CLOSED:
return;
case CONNECTING:
case CONNECTED:
if (cluster_name != null) {
// Send down a DISCONNECT event, which travels down to the GMS, where a response is
// returned
try {
down(new Event(Event.DISCONNECT, local_addr)); // DISCONNECT is handled by each layer
} catch (Throwable t) {
log.error(Util.getMessage("DisconnectFailure"), local_addr, t);
}
}
state = State.OPEN;
stopStack(true, false);
notifyChannelDisconnected(this);
init(); // sets local_addr=null; changed March 18 2003 (bela) -- prevented successful
// rejoining
break;
default:
throw new IllegalStateException("state " + state + " unknown");
}
}
@ManagedOperation(description = "Disconnects and destroys the channel")
public synchronized void close() {
_close(true); // by default disconnect before closing channel and close mq
}
@ManagedOperation
public Map<String, Object> dumpStats() {
Map<String, Object> retval = prot_stack.dumpStats();
if (retval != null) {
Map<String, Long> tmp = dumpChannelStats();
if (tmp != null) retval.put("channel", tmp);
}
return retval;
}
public Map<String, Object> dumpStats(String protocol_name, List<String> attrs) {
return prot_stack.dumpStats(protocol_name, attrs);
}
@ManagedOperation
public Map<String, Object> dumpStats(String protocol_name) {
return prot_stack.dumpStats(protocol_name, null);
}
protected Map<String, Long> dumpChannelStats() {
Map<String, Long> retval = new HashMap<>();
retval.put("sent_msgs", sent_msgs);
retval.put("sent_bytes", sent_bytes);
retval.put("received_msgs", received_msgs);
retval.put("received_bytes", received_bytes);
return retval;
}
public void send(Message msg) throws Exception {
checkClosedOrNotConnected();
if (msg == null) throw new NullPointerException("msg is null");
down(new Event(Event.MSG, msg));
}
public void send(Address dst, Object obj) throws Exception {
send(new Message(dst, obj));
}
public void send(Address dst, byte[] buf) throws Exception {
send(new Message(dst, buf));
}
public void send(Address dst, byte[] buf, int offset, int length) throws Exception {
send(new Message(dst, buf, offset, length));
}
public View getView() {
return state == State.CONNECTED ? my_view : null;
}
@ManagedAttribute(name = "view")
public String getViewAsString() {
View v = getView();
return v != null ? v.toString() : "n/a";
}
@ManagedAttribute
public static String getVersion() {
return Version.printDescription();
}
public Address getAddress() {
return state == State.CLOSED ? null : local_addr;
}
@ManagedAttribute(name = "address")
public String getAddressAsString() {
return local_addr != null ? local_addr.toString() : "n/a";
}
@ManagedAttribute(name = "address_uuid")
public String getAddressAsUUID() {
return local_addr instanceof UUID ? ((UUID) local_addr).toStringLong() : null;
}
public String getName() {
return name;
}
public String getName(Address member) {
return member != null ? UUID.get(member) : null;
}
@ManagedAttribute(
writable = true,
description =
"The logical name of this channel. Stays with the channel until "
+ "the channel is closed")
public void setName(String name) {
if (name != null) {
if (isConnected())
throw new IllegalStateException(
"name cannot be set if channel is connected (should be done before)");
this.name = name;
if (local_addr != null) UUID.add(local_addr, this.name);
}
}
public JChannel name(String name) {
setName(name);
return this;
}
public JChannel receiver(Receiver r) {
setReceiver(r);
return this;
}
@ManagedAttribute(description = "Returns cluster name this channel is connected to")
public String getClusterName() {
return state == State.CONNECTED ? cluster_name : null;
}
/**
* Sets the new {@link AddressGenerator}. New addresses will be generated using the new generator.
* This should <em>not</em> be done while a channel is connected, but before connecting.
*
* @param address_generator
* @since 2.12
*/
public void addAddressGenerator(AddressGenerator address_generator) {
if (address_generator == null) return;
if (address_generators == null) address_generators = new ArrayList<>(3);
address_generators.add(address_generator);
}
public boolean removeAddressGenerator(AddressGenerator address_generator) {
return address_generator != null
&& address_generators != null
&& address_generators.remove(address_generator);
}
public void getState(Address target, long timeout) throws Exception {
getState(target, timeout, true);
}
/** Retrieves state from the target member. See {@link #getState(Address,long)} for details. */
public void getState(Address target, long timeout, boolean useFlushIfPresent) throws Exception {
Callable<Boolean> flusher = () -> Util.startFlush(JChannel.this);
getState(target, timeout, useFlushIfPresent ? flusher : null);
}
protected boolean _preConnect(String cluster_name) throws Exception {
if (state == State.CONNECTED) {
if (log.isTraceEnabled()) log.trace("already connected to " + this.cluster_name);
return false;
}
checkClosed();
setAddress();
State old_state = state;
state = State.CONNECTING;
try {
startStack(cluster_name);
} catch (Exception ex) {
state = old_state;
throw ex;
}
return true;
}
protected void _connect(Event connect_event) throws Exception {
try {
down(connect_event);
} catch (Throwable t) {
stopStack(true, false);
state = State.OPEN;
init();
throw new Exception("connecting to channel \"" + connect_event.getArg() + "\" failed", t);
}
}
protected void getState(Address target, long timeout, Callable<Boolean> flushInvoker)
throws Exception {
checkClosedOrNotConnected();
if (!state_transfer_supported)
throw new IllegalStateException(
"fetching state will fail as state transfer is not supported. "
+ "Add one of the state transfer protocols to your configuration");
if (target == null) target = determineCoordinator();
if (target != null && local_addr != null && target.equals(local_addr)) {
log.trace(
local_addr
+ ": cannot get state from myself ("
+ target
+ "): probably the first member");
return;
}
boolean initiateFlush = flushSupported() && flushInvoker != null;
if (initiateFlush) {
boolean successfulFlush = false;
try {
successfulFlush = flushInvoker.call();
} catch (Throwable e) {
successfulFlush = false; // http://jira.jboss.com/jira/browse/JGRP-759
}
if (!successfulFlush)
throw new IllegalStateException(
"Node " + local_addr + " could not flush the cluster for state retrieval");
}
state_promise.reset();
StateTransferInfo state_info = new StateTransferInfo(target, timeout);
long start = System.currentTimeMillis();
down(new Event(Event.GET_STATE, state_info));
StateTransferResult result = state_promise.getResult(state_info.timeout);
if (initiateFlush) stopFlush();
if (result == null)
throw new StateTransferException(
"timeout during state transfer (" + (System.currentTimeMillis() - start) + "ms)");
if (result.hasException())
throw new StateTransferException("state transfer failed", result.getException());
}
/**
* Callback method <br>
* Called by the ProtocolStack when a message is received.
*
* @param evt the event carrying the message from the protocol stack
*/
public Object up(Event evt) {
switch (evt.getType()) {
case Event.MSG:
Message msg = (Message) evt.getArg();
if (stats) {
received_msgs++;
received_bytes += msg.getLength();
}
// discard local messages (sent by myself to me)
if (discard_own_messages
&& local_addr != null
&& msg.getSrc() != null
&& local_addr.equals(msg.getSrc())) return null;
break;
case Event.VIEW_CHANGE:
View tmp = (View) evt.getArg();
if (tmp instanceof MergeView) my_view = new View(tmp.getViewId(), tmp.getMembers());
else my_view = tmp;
// Bela&Vladimir Oct 27th,2006 (JGroups 2.4): we need to set connected=true because a client
// can
// call channel.getView() in viewAccepted() callback invoked on this thread (see
// Event.VIEW_CHANGE handling below)
// not good: we are only connected when we returned from connect() - bela June 22 2007
// Changed: when a channel gets a view of which it is a member then it should be
// connected even if connect() hasn't returned yet ! (bela Noc 2010)
if (state != State.CONNECTED) state = State.CONNECTED;
break;
case Event.CONFIG:
Map<String, Object> cfg = (Map<String, Object>) evt.getArg();
if (cfg != null) {
if (cfg.containsKey("state_transfer")) {
state_transfer_supported = (Boolean) cfg.get("state_transfer");
}
if (cfg.containsKey("flush_supported")) {
flush_supported = (Boolean) cfg.get("flush_supported");
}
}
break;
case Event.GET_STATE_OK:
StateTransferResult result = (StateTransferResult) evt.getArg();
if (up_handler != null) {
try {
Object retval = up_handler.up(evt);
state_promise.setResult(new StateTransferResult());
return retval;
} catch (Throwable t) {
state_promise.setResult(new StateTransferResult(t));
}
}
if (receiver != null) {
try {
if (result.hasBuffer()) {
byte[] tmp_state = result.getBuffer();
ByteArrayInputStream input = new ByteArrayInputStream(tmp_state);
receiver.setState(input);
}
state_promise.setResult(result);
} catch (Throwable t) {
state_promise.setResult(new StateTransferResult(t));
}
}
break;
case Event.STATE_TRANSFER_INPUTSTREAM_CLOSED:
state_promise.setResult((StateTransferResult) evt.getArg());
break;
case Event.STATE_TRANSFER_INPUTSTREAM:
// Oct 13,2006 moved to down() when Event.STATE_TRANSFER_INPUTSTREAM_CLOSED is received
// state_promise.setResult(is != null? Boolean.TRUE : Boolean.FALSE);
if (up_handler != null) return up_handler.up(evt);
InputStream is = (InputStream) evt.getArg();
if (is != null && receiver != null) {
try {
receiver.setState(is);
} catch (Throwable t) {
throw new RuntimeException("failed calling setState() in state requester", t);
}
}
break;
case Event.STATE_TRANSFER_OUTPUTSTREAM:
if (receiver != null && evt.getArg() != null) {
try {
receiver.getState((OutputStream) evt.getArg());
} catch (Exception e) {
throw new RuntimeException("failed calling getState() in state provider", e);
}
}
break;
case Event.GET_LOCAL_ADDRESS:
return local_addr;
default:
break;
}
// If UpHandler is installed, pass all events to it and return (UpHandler is e.g. a building
// block)
if (up_handler != null) return up_handler.up(evt);
if (receiver != null) return invokeCallback(evt.getType(), evt.getArg());
return null;
}
/** Callback invoked by the protocol stack to deliver a message batch */
public void up(MessageBatch batch) {
if (stats) {
received_msgs += batch.size();
received_bytes += batch.length();
}
// discard local messages (sent by myself to me)
if (discard_own_messages
&& local_addr != null
&& batch.sender() != null
&& local_addr.equals(batch.sender())) return;
for (Message msg : batch) {
if (up_handler != null) {
try {
up_handler.up(new Event(Event.MSG, msg));
} catch (Throwable t) {
log.error(Util.getMessage("UpHandlerFailure"), t);
}
} else if (receiver != null) {
try {
receiver.receive(msg);
} catch (Throwable t) {
log.error(Util.getMessage("ReceiverFailure"), t);
}
}
}
}
/**
* Sends an event down the protocol stack. Note that - contrary to {@link #send(Message)}, if the
* event is a message, no checks are performed whether the channel is closed or disconnected.
*
* @param evt the message to send down, encapsulated in an event
*/
public Object down(Event evt) {
if (evt == null) return null;
if (stats && evt.getType() == Event.MSG) {
sent_msgs++;
sent_bytes += ((Message) evt.getArg()).getLength();
}
return prot_stack.down(evt);
}
@ManagedOperation
public String toString(boolean details) {
StringBuilder sb = new StringBuilder();
sb.append("local_addr=")
.append(local_addr)
.append('\n')
.append("cluster_name=")
.append(cluster_name)
.append('\n')
.append("my_view=")
.append(my_view)
.append('\n')
.append("state=")
.append(state)
.append('\n');
if (details) {
sb.append("discard_own_messages=").append(discard_own_messages).append('\n');
sb.append("state_transfer_supported=").append(state_transfer_supported).append('\n');
sb.append("props=").append(getProperties()).append('\n');
}
return sb.toString();
}
/* ----------------------------------- Private Methods ------------------------------------- */
protected Object invokeCallback(int type, Object arg) {
switch (type) {
case Event.MSG:
receiver.receive((Message) arg);
break;
case Event.VIEW_CHANGE:
receiver.viewAccepted((View) arg);
break;
case Event.SUSPECT:
receiver.suspect((Address) arg);
break;
case Event.GET_APPLSTATE:
byte[] tmp_state = null;
if (receiver != null) {
ByteArrayOutputStream output = new ByteArrayOutputStream(1024);
try {
receiver.getState(output);
tmp_state = output.toByteArray();
} catch (Exception e) {
throw new RuntimeException(local_addr + ": failed getting state from application", e);
}
}
return new StateTransferInfo(null, 0L, tmp_state);
case Event.BLOCK:
receiver.block();
return true;
case Event.UNBLOCK:
receiver.unblock();
}
return null;
}
protected final void init(ProtocolStackConfigurator configurator) throws Exception {
List<ProtocolConfiguration> configs = configurator.getProtocolStack();
// replace vars with system props
configs.forEach(ProtocolConfiguration::substituteVariables);
prot_stack = new ProtocolStack(this);
prot_stack.setup(configs); // Setup protocol stack (creates protocol, calls init() on them)
}
protected final void init(JChannel ch) throws Exception {
if (ch == null) throw new IllegalArgumentException("channel is null");
prot_stack = new ProtocolStack(this);
prot_stack.setup(
ch.getProtocolStack()); // Setup protocol stack (creates protocol, calls init() on them)
}
/**
* Initializes all variables. Used after <tt>close()</tt> or <tt>disconnect()</tt>, to be ready
* for new <tt>connect()</tt>
*/
protected void init() {
if (local_addr != null) down(new Event(Event.REMOVE_ADDRESS, local_addr));
local_addr = null;
cluster_name = null;
my_view = null;
}
protected void startStack(String cluster_name) throws Exception {
/*make sure the channel is not closed*/
checkClosed();
/*make sure we have a valid channel name*/
if (cluster_name == null) log.debug("cluster_name is null, assuming unicast channel");
else this.cluster_name = cluster_name;
if (socket_factory != null) prot_stack.getTopProtocol().setSocketFactory(socket_factory);
prot_stack.startStack(
cluster_name, local_addr); // calls start() in all protocols, from top to bottom
/*create a temporary view, assume this channel is the only member and is the coordinator*/
List<Address> t = new ArrayList<>(1);
t.add(local_addr);
my_view = new View(local_addr, 0, t); // create a dummy view
TP transport = prot_stack.getTransport();
transport.registerProbeHandler(probe_handler);
}
/**
* Generates new UUID and sets local address. Sends down a REMOVE_ADDRESS (if existing address was
* present) and a SET_LOCAL_ADDRESS
*/
protected void setAddress() {
Address old_addr = local_addr;
local_addr = generateAddress();
if (old_addr != null) down(new Event(Event.REMOVE_ADDRESS, old_addr));
if (name == null || name.isEmpty()) // generate a logical name if not set
name = Util.generateLocalName();
if (name != null && !name.isEmpty()) UUID.add(local_addr, name);
Event evt = new Event(Event.SET_LOCAL_ADDRESS, local_addr);
down(evt);
if (up_handler != null) up_handler.up(evt);
}
protected Address generateAddress() {
if (address_generators == null || address_generators.isEmpty()) return UUID.randomUUID();
if (address_generators.size() == 1) return address_generators.get(0).generateAddress();
// at this point we have multiple AddressGenerators installed
Address[] addrs = new Address[address_generators.size()];
for (int i = 0; i < addrs.length; i++) addrs[i] = address_generators.get(i).generateAddress();
for (int i = 0; i < addrs.length; i++) {
if (!(addrs[i] instanceof ExtendedUUID)) {
log.error(
"address generator %s does not subclass %s which is required if multiple address generators "
+ "are installed, removing it",
addrs[i].getClass().getSimpleName(), ExtendedUUID.class.getSimpleName());
addrs[i] = null;
}
}
ExtendedUUID uuid = null;
for (int i = 0; i < addrs.length; i++) { // we only have ExtendedUUIDs in addrs
if (addrs[i] != null) {
if (uuid == null) uuid = (ExtendedUUID) addrs[i];
else uuid.addContents((ExtendedUUID) addrs[i]);
}
}
return uuid != null ? uuid : UUID.randomUUID();
}
/**
* health check<br>
* throws a ChannelClosed exception if the channel is closed
*/
protected void checkClosed() {
if (state == State.CLOSED) throw new IllegalStateException("channel is closed");
}
protected void checkClosedOrNotConnected() {
if (state == State.CLOSED) throw new IllegalStateException("channel is closed");
if (!(state == State.CONNECTING || state == State.CONNECTED))
throw new IllegalStateException("channel is disconnected");
}
/**
* Disconnects and closes the channel. This method does the following things
*
* <ol>
* <li>Calls {@code this.disconnect} if the disconnect parameter is true
* <li>Calls {@code ProtocolStack.stop} on the protocol stack
* <li>Calls {@code ProtocolStack.destroy} on the protocol stack
* <li>Sets the channel closed and channel connected flags to true and false
* <li>Notifies any channel listener of the channel close operation
* </ol>
*/
protected void _close(boolean disconnect) {
Address old_addr = local_addr;
if (state == State.CLOSED) return;
if (disconnect) disconnect(); // leave group if connected
stopStack(true, true);
state = State.CLOSED;
notifyChannelClosed(this);
init(); // sets local_addr=null; changed March 18 2003 (bela) -- prevented successful rejoining
if (old_addr != null) UUID.remove(old_addr);
}
protected void stopStack(boolean stop, boolean destroy) {
if (prot_stack != null) {
try {
if (stop) prot_stack.stopStack(cluster_name);
if (destroy) prot_stack.destroy();
} catch (Exception e) {
log.error(Util.getMessage("StackDestroyFailure"), e);
}
TP transport = prot_stack.getTransport();
if (transport != null) transport.unregisterProbeHandler(probe_handler);
}
}
public boolean flushSupported() {
return flush_supported;
}
public void startFlush(boolean automatic_resume) throws Exception {
if (!flushSupported())
throw new IllegalStateException(
"Flush is not supported, add pbcast.FLUSH protocol to your configuration");
try {
down(new Event(Event.SUSPEND));
} catch (Exception e) {
throw new Exception("Flush failed", e.getCause());
} finally {
if (automatic_resume) stopFlush();
}
}
public void startFlush(List<Address> flushParticipants, boolean automatic_resume)
throws Exception {
if (!flushSupported())
throw new IllegalStateException(
"Flush is not supported, add pbcast.FLUSH protocol to your configuration");
View v = getView();
boolean validParticipants = v != null && v.getMembers().containsAll(flushParticipants);
if (!validParticipants)
throw new IllegalArgumentException(
"Current view " + v + " does not contain all flush participants " + flushParticipants);
try {
down(new Event(Event.SUSPEND, flushParticipants));
} catch (Exception e) {
throw new Exception("Flush failed", e.getCause());
} finally {
if (automatic_resume) stopFlush(flushParticipants);
}
}
public void stopFlush() {
if (!flushSupported())
throw new IllegalStateException(
"Flush is not supported, add pbcast.FLUSH protocol to your configuration");
down(new Event(Event.RESUME));
}
public void stopFlush(List<Address> flushParticipants) {
if (!flushSupported())
throw new IllegalStateException(
"Flush is not supported, add pbcast.FLUSH protocol to your configuration");
down(new Event(Event.RESUME, flushParticipants));
}
Address determineCoordinator() {
List<Address> mbrs = my_view != null ? my_view.getMembers() : null;
if (mbrs == null) return null;
if (!mbrs.isEmpty()) return mbrs.iterator().next();
return null;
}
protected TimeScheduler getTimer() {
if (prot_stack != null) {
TP transport = prot_stack.getTransport();
if (transport != null) return transport.getTimer();
}
return null;
}
/* ------------------------------- End of Private Methods ---------------------------------- */
class MyProbeHandler implements DiagnosticsHandler.ProbeHandler {
public Map<String, String> handleProbe(String... keys) {
Map<String, String> map = new HashMap<>(3);
for (String key : keys) {
if (key.startsWith("jmx")) {
handleJmx(map, key);
continue;
}
if (key.startsWith("reset-stats")) {
resetAllStats();
continue;
}
if (key.startsWith("invoke") || key.startsWith("op")) {
int index = key.indexOf("=");
if (index != -1) {
try {
handleOperation(map, key.substring(index + 1));
} catch (Throwable throwable) {
log.error(
Util.getMessage("OperationInvocationFailure"),
key.substring(index + 1),
throwable);
}
}
}
}
return map;
}
public String[] supportedKeys() {
return new String[] {"reset-stats", "jmx", "op=<operation>[<args>]"};
}
protected void resetAllStats() {
List<Protocol> prots = getProtocolStack().getProtocols();
prots.forEach(Protocol::resetStatistics);
resetStats();
}
protected void handleJmx(Map<String, String> map, String input) {
Map<String, Object> tmp_stats;
int index = input.indexOf("=");
if (index > -1) {
List<String> list = null;
String protocol_name = input.substring(index + 1);
index = protocol_name.indexOf(".");
if (index > -1) {
String rest = protocol_name;
protocol_name = protocol_name.substring(0, index);
String attrs = rest.substring(index + 1); // e.g. "num_sent,msgs,num_received_msgs"
list = Util.parseStringList(attrs, ",");
// check if there are any attribute-sets in the list
for (Iterator<String> it = list.iterator(); it.hasNext(); ) {
String tmp = it.next();
index = tmp.indexOf("=");
if (index != -1) {
String attrname = tmp.substring(0, index);
String attrvalue = tmp.substring(index + 1);
Protocol prot = prot_stack.findProtocol(protocol_name);
Field field = prot != null ? Util.getField(prot.getClass(), attrname) : null;
if (field != null) {
Object value = MethodCall.convert(attrvalue, field.getType());
if (value != null) prot.setValue(attrname, value);
} else {
// try to find a setter for X, e.g. x(type-of-x) or setX(type-of-x)
ResourceDMBean.Accessor setter =
ResourceDMBean.findSetter(
prot, attrname); // Util.getSetter(prot.getClass(), attrname);
if (setter != null) {
try {
Class<?> type =
setter instanceof ResourceDMBean.FieldAccessor
? ((ResourceDMBean.FieldAccessor) setter).getField().getType()
: setter instanceof ResourceDMBean.MethodAccessor
? ((ResourceDMBean.MethodAccessor) setter)
.getMethod()
.getParameterTypes()[0]
.getClass()
: null;
Object converted_value = MethodCall.convert(attrvalue, type);
setter.invoke(converted_value);
} catch (Exception e) {
log.error("unable to invoke %s() on %s: %s", setter, protocol_name, e);
}
} else log.warn(Util.getMessage("FieldNotFound"), attrname, protocol_name);
}
it.remove();
}
}
}
tmp_stats = dumpStats(protocol_name, list);
if (tmp_stats != null) {
for (Map.Entry<String, Object> entry : tmp_stats.entrySet()) {
Map<String, Object> tmp_map = (Map<String, Object>) entry.getValue();
String key = entry.getKey();
map.put(key, tmp_map != null ? tmp_map.toString() : null);
}
}
} else {
tmp_stats = dumpStats();
if (tmp_stats != null) {
for (Map.Entry<String, Object> entry : tmp_stats.entrySet()) {
Map<String, Object> tmp_map = (Map<String, Object>) entry.getValue();
String key = entry.getKey();
map.put(key, tmp_map != null ? tmp_map.toString() : null);
}
}
}
}
/**
* Invokes an operation and puts the return value into map
*
* @param map
* @param operation Protocol.OperationName[args], e.g. STABLE.foo[arg1 arg2 arg3]
*/
protected void handleOperation(Map<String, String> map, String operation) throws Exception {
int index = operation.indexOf(".");
if (index == -1)
throw new IllegalArgumentException(
"operation " + operation + " is missing the protocol name");
String prot_name = operation.substring(0, index);
Protocol prot = prot_stack.findProtocol(prot_name);
if (prot == null) return; // less drastic than throwing an exception...
int args_index = operation.indexOf("[");
String method_name;
if (args_index != -1) method_name = operation.substring(index + 1, args_index).trim();
else method_name = operation.substring(index + 1).trim();
String[] args = null;
if (args_index != -1) {
int end_index = operation.indexOf("]");
if (end_index == -1) throw new IllegalArgumentException("] not found");
List<String> str_args =
Util.parseCommaDelimitedStrings(operation.substring(args_index + 1, end_index));
Object[] strings = str_args.toArray();
args = new String[strings.length];
for (int i = 0; i < strings.length; i++) args[i] = (String) strings[i];
}
Method method = MethodCall.findMethod(prot.getClass(), method_name, args);
if (method == null) {
log.warn(
Util.getMessage("MethodNotFound"),
local_addr,
prot.getClass().getSimpleName(),
method_name);
return;
}
MethodCall call = new MethodCall(method);
Object[] converted_args = null;
if (args != null) {
converted_args = new Object[args.length];
Class<?>[] types = method.getParameterTypes();
for (int i = 0; i < args.length; i++)
converted_args[i] = MethodCall.convert(args[i], types[i]);
}
Object retval = call.invoke(prot, converted_args);
if (retval != null) map.put(prot_name + "." + method_name, retval.toString());
}
}
}
protected void handleJmx(Map<String, String> map, String input) {
Map<String, Object> tmp_stats;
int index = input.indexOf("=");
if (index > -1) {
List<String> list = null;
String protocol_name = input.substring(index + 1);
index = protocol_name.indexOf(".");
if (index > -1) {
String rest = protocol_name;
protocol_name = protocol_name.substring(0, index);
String attrs = rest.substring(index + 1); // e.g. "num_sent,msgs,num_received_msgs"
list = Util.parseStringList(attrs, ",");
// check if there are any attribute-sets in the list
for (Iterator<String> it = list.iterator(); it.hasNext(); ) {
String tmp = it.next();
index = tmp.indexOf("=");
if (index != -1) {
String attrname = tmp.substring(0, index);
String attrvalue = tmp.substring(index + 1);
Protocol prot = prot_stack.findProtocol(protocol_name);
Field field = prot != null ? Util.getField(prot.getClass(), attrname) : null;
if (field != null) {
Object value = MethodCall.convert(attrvalue, field.getType());
if (value != null) prot.setValue(attrname, value);
} else {
// try to find a setter for X, e.g. x(type-of-x) or setX(type-of-x)
ResourceDMBean.Accessor setter =
ResourceDMBean.findSetter(
prot, attrname); // Util.getSetter(prot.getClass(), attrname);
if (setter != null) {
try {
Class<?> type =
setter instanceof ResourceDMBean.FieldAccessor
? ((ResourceDMBean.FieldAccessor) setter).getField().getType()
: setter instanceof ResourceDMBean.MethodAccessor
? ((ResourceDMBean.MethodAccessor) setter)
.getMethod()
.getParameterTypes()[0]
.getClass()
: null;
Object converted_value = MethodCall.convert(attrvalue, type);
setter.invoke(converted_value);
} catch (Exception e) {
log.error("unable to invoke %s() on %s: %s", setter, protocol_name, e);
}
} else log.warn(Util.getMessage("FieldNotFound"), attrname, protocol_name);
}
it.remove();
}
}
}
tmp_stats = dumpStats(protocol_name, list);
if (tmp_stats != null) {
for (Map.Entry<String, Object> entry : tmp_stats.entrySet()) {
Map<String, Object> tmp_map = (Map<String, Object>) entry.getValue();
String key = entry.getKey();
map.put(key, tmp_map != null ? tmp_map.toString() : null);
}
}
} else {
tmp_stats = dumpStats();
if (tmp_stats != null) {
for (Map.Entry<String, Object> entry : tmp_stats.entrySet()) {
Map<String, Object> tmp_map = (Map<String, Object>) entry.getValue();
String key = entry.getKey();
map.put(key, tmp_map != null ? tmp_map.toString() : null);
}
}
}
}
/** Retrieves state from the target member. See {@link #getState(Address,long)} for details. */
public void getState(Address target, long timeout, boolean useFlushIfPresent) throws Exception {
Callable<Boolean> flusher = () -> Util.startFlush(JChannel.this);
getState(target, timeout, useFlushIfPresent ? flusher : null);
}
