bboss.org.jgroups.protocols.FRAG Maven / Gradle / Ivy
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package bboss.org.jgroups.protocols;
import java.io.ByteArrayInputStream;
import java.io.DataInputStream;
import java.util.Enumeration;
import java.util.HashMap;
import java.util.Hashtable;
import java.util.Iterator;
import java.util.Map;
import java.util.Vector;
import java.util.Map.Entry;
import java.util.concurrent.atomic.AtomicInteger;
import bboss.org.jgroups.Address;
import bboss.org.jgroups.Event;
import bboss.org.jgroups.Message;
import bboss.org.jgroups.View;
import bboss.org.jgroups.annotations.MBean;
import bboss.org.jgroups.annotations.ManagedAttribute;
import bboss.org.jgroups.annotations.Property;
import bboss.org.jgroups.stack.Protocol;
import bboss.org.jgroups.util.ExposedByteArrayInputStream;
import bboss.org.jgroups.util.ExposedByteArrayOutputStream;
import bboss.org.jgroups.util.ExposedDataOutputStream;
import bboss.org.jgroups.util.Util;
/**
* Fragmentation layer. Fragments messages larger than FRAG_SIZE into smaller
* packets. Reassembles fragmented packets into bigger ones. The fragmentation
* number is added to the messages as a header (and removed at the receiving side).
*
* Contrary to {@link bboss.org.jgroups.protocols.FRAG2}, FRAG marshals the entire message (including the headers) into
* a byte[] buffer and the fragments that buffer. Because {@link bboss.org.jgroups.Message#size()} is called rather than
* {@link bboss.org.jgroups.Message#getLength()}, and because of the overhead of marshalling, this will be slower than
* FRAG2.
*
* Each fragment is identified by (a) the sender (part of the message to which
* the header is appended), (b) the fragmentation ID (which is unique per FRAG
* layer (monotonically increasing) and (c) the fragement ID which ranges from 0
* to number_of_fragments-1.
*
* Requirement: lossless delivery (e.g. NAK, ACK). No requirement on ordering.
* Works for both unicast and multicast messages.
*
* @author Bela Ban
* @author Filip Hanik
* @version $Id: FRAG.java,v 1.51 2010/03/05 09:04:54 belaban Exp $
*/
@MBean(description="Fragments messages larger than fragmentation size into smaller packets")
public class FRAG extends Protocol {
/* ----------------------------------------- Properties -------------------------------------------------- */
@Property(description="The max number of bytes in a message. Larger messages will be fragmented. Default is 8192 bytes")
private int frag_size=8192; // conservative value
@Property(description="The max size in bytes for the byte array output buffer",
deprecatedMessage="not used anymore")
@Deprecated
private int max_retained_buffer=70000;
/* --------------------------------------------- Fields ------------------------------------------------------ */
/** Contains a frag table per sender, this way it becomes easier to clean up if a sender leaves or crashes */
private final FragmentationList fragment_list=new FragmentationList();
private AtomicInteger curr_id=new AtomicInteger(1);
private final Vector
members=new Vector(11);
@ManagedAttribute(description="Number of sent messages")
long num_sent_msgs=0;
@ManagedAttribute(description="Number of sent fragments")
long num_sent_frags=0;
@ManagedAttribute(description="Number of received messages")
long num_received_msgs=0;
@ManagedAttribute(description="Number of received fragments")
long num_received_frags=0;
public int getFragSize() {return frag_size;}
public void setFragSize(int s) {frag_size=s;}
public long getNumberOfSentMessages() {return num_sent_msgs;}
public long getNumberOfSentFragments() {return num_sent_frags;}
public long getNumberOfReceivedMessages() {return num_received_msgs;}
public long getNumberOfReceivedFragments() {return num_received_frags;}
public void init() throws Exception {
super.init();
Map info=new HashMap(1);
info.put("frag_size", frag_size);
up_prot.up(new Event(Event.CONFIG, info));
down_prot.down(new Event(Event.CONFIG, info));
}
public void resetStats() {
super.resetStats();
num_sent_msgs=num_sent_frags=num_received_msgs=num_received_frags=0;
}
/**
* Fragment a packet if larger than frag_size (add a header). Otherwise just pass down. Only
* add a header if framentation is needed !
*/
public Object down(Event evt) {
switch(evt.getType()) {
case Event.MSG:
Message msg=(Message)evt.getArg();
long size=msg.size();
num_sent_msgs++;
if(size > frag_size) {
if(log.isTraceEnabled()) {
StringBuilder sb=new StringBuilder("message size is ");
sb.append(size).append(", will fragment (frag_size=").append(frag_size).append(')');
log.trace(sb.toString());
}
fragment(msg, size); // Fragment and pass down
return null;
}
break;
case Event.VIEW_CHANGE:
handleViewChange((View)evt.getArg());
break;
case Event.CONFIG:
Object ret=down_prot.down(evt);
if(log.isDebugEnabled()) log.debug("received CONFIG event: " + evt.getArg());
handleConfigEvent((Map)evt.getArg());
return ret;
}
return down_prot.down(evt); // Pass on to the layer below us
}
/**
* If event is a message, if it is fragmented, re-assemble fragments into big message and pass up the stack.
*/
public Object up(Event evt) {
switch(evt.getType()) {
case Event.MSG:
Message msg=(Message)evt.getArg();
FragHeader hdr=(FragHeader)msg.getHeader(this.id);
if(hdr != null) { // needs to be defragmented
unfragment(msg, hdr); // Unfragment and possibly pass up
return null;
}
else {
num_received_msgs++;
}
break;
case Event.VIEW_CHANGE:
handleViewChange((View)evt.getArg());
break;
case Event.CONFIG:
Object ret=up_prot.up(evt);
if(log.isDebugEnabled()) log.debug("received CONFIG event: " + evt.getArg());
handleConfigEvent((Map)evt.getArg());
return ret;
}
return up_prot.up(evt); // Pass up to the layer above us by default
}
private void handleViewChange(View view) {
Vector new_mbrs=view.getMembers(), left_mbrs;
left_mbrs=Util.determineLeftMembers(members, new_mbrs);
members.clear();
members.addAll(new_mbrs);
for(Address mbr: left_mbrs){
// the new view doesn't contain the sender, it must have left,
// hence we will clear all of itsfragmentation tables
fragment_list.remove(mbr);
if(log.isTraceEnabled())
log.trace("[VIEW_CHANGE] removed " + mbr + " from fragmentation table");
}
}
/**
* Send all fragments as separate messages (with same ID !).
* Example:
*
* Given the generated ID is 2344, number of fragments=3, message {dst,src,buf}
* would be fragmented into:
*
* [2344,3,0]{dst,src,buf1},
* [2344,3,1]{dst,src,buf2} and
* [2344,3,2]{dst,src,buf3}
*
*/
private void fragment(Message msg, long size) {
Address dest=msg.getDest(), src=msg.getSrc();
long id=curr_id.getAndIncrement(); // used as seqnos
int num_frags;
try {
// write message into a byte buffer and fragment it
ExposedByteArrayOutputStream out_stream=new ExposedByteArrayOutputStream((int)(size + 50));
ExposedDataOutputStream dos=new ExposedDataOutputStream(out_stream);
msg.writeTo(dos);
byte[] buffer=out_stream.getRawBuffer();
byte[][] fragments=Util.fragmentBuffer(buffer, frag_size, dos.size());
num_frags=fragments.length;
num_sent_frags+=num_frags;
if(log.isTraceEnabled()) {
StringBuilder sb=new StringBuilder();
sb.append("fragmenting packet to ").append(dest != null ? dest.toString() : "");
sb.append(" (size=").append(buffer.length).append(") into ").append(num_frags);
sb.append(" fragment(s) [frag_size=").append(frag_size).append(']');
log.trace(sb.toString());
}
for(int i=0; i < num_frags; i++) {
Message frag_msg=new Message(dest, src, fragments[i]);
FragHeader hdr=new FragHeader(id, i, num_frags);
frag_msg.putHeader(this.id, hdr);
Event evt=new Event(Event.MSG, frag_msg);
down_prot.down(evt);
}
}
catch(Exception e) {
log.error("exception occurred trying to fragment message", e);
}
}
/**
* 1. Get all the fragment buffers
* 2. When all are received -> Assemble them into one big buffer
* 3. Read headers and byte buffer from big buffer
* 4. Set headers and buffer in msg
* 5. Pass msg up the stack
*/
private void unfragment(Message msg, FragHeader hdr) {
Address sender=msg.getSrc();
FragmentationTable frag_table=fragment_list.get(sender);
if(frag_table == null) {
frag_table=new FragmentationTable(sender);
try {
fragment_list.add(sender, frag_table);
}
catch(IllegalArgumentException x) { // the entry has already been added, probably in parallel from another thread
frag_table=fragment_list.get(sender);
}
}
num_received_frags++;
byte[] buf=frag_table.add(hdr.id, hdr.frag_id, hdr.num_frags, msg.getBuffer());
if(buf != null) {
DataInputStream in=null;
try {
ByteArrayInputStream bis=new ExposedByteArrayInputStream(buf);
in=new DataInputStream(bis);
Message assembled_msg=new Message(false);
assembled_msg.readFrom(in);
assembled_msg.setSrc(sender); // needed ? YES, because fragments have a null src !!
if(log.isTraceEnabled()) log.trace("assembled_msg is " + assembled_msg);
num_received_msgs++;
up_prot.up(new Event(Event.MSG, assembled_msg));
}
catch(Exception e) {
log.error("failed unfragmenting a message", e);
}
finally {
Util.close(in);
}
}
}
void handleConfigEvent(Map map) {
if(map == null) return;
if(map.containsKey("frag_size")) {
frag_size=((Integer)map.get("frag_size")).intValue();
if(log.isDebugEnabled()) log.debug("setting frag_size=" + frag_size);
}
}
/**
* A fragmentation list keeps a list of fragmentation tables
* sorted by an Address ( the sender ).
* This way, if the sender disappears or leaves the group half way
* sending the content, we can simply remove this members fragmentation
* table and clean up the memory of the receiver.
* We do not have to do the same for the sender, since the sender doesn't keep a fragmentation table
*/
static class FragmentationList {
/* initialize the hashtable to hold all the fragmentation tables
* 11 is the best growth capacity to start with
* HashMap
*/
private final HashMap frag_tables=new HashMap(11);
/**
* Adds a fragmentation table for this particular sender
* If this sender already has a fragmentation table, an IllegalArgumentException
* will be thrown.
* @param sender - the address of the sender, cannot be null
* @param table - the fragmentation table of this sender, cannot be null
* @throws IllegalArgumentException if an entry for this sender already exist
*/
public void add(Address sender, FragmentationTable table) throws IllegalArgumentException {
synchronized(frag_tables) {
FragmentationTable healthCheck=frag_tables.get(sender);
if(healthCheck == null) {
frag_tables.put(sender, table);
}
else {
throw new IllegalArgumentException("Sender <" + sender + "> already exists in the fragementation list");
}
}
}
/**
* returns a fragmentation table for this sender
* returns null if the sender doesn't have a fragmentation table
* @return the fragmentation table for this sender, or null if no table exist
*/
public FragmentationTable get(Address sender) {
synchronized(frag_tables) {
return frag_tables.get(sender);
}
}
/**
* returns true if this sender already holds a
* fragmentation for this sender, false otherwise
* @param sender - the sender, cannot be null
* @return true if this sender already has a fragmentation table
*/
public boolean containsSender(Address sender) {
synchronized(frag_tables) {
return frag_tables.containsKey(sender);
}
}
/**
* removes the fragmentation table from the list.
* after this operation, the fragementation list will no longer
* hold a reference to this sender's fragmentation table
* @param sender - the sender who's fragmentation table you wish to remove, cannot be null
* @return true if the table was removed, false if the sender doesn't have an entry
*/
public boolean remove(Address sender) {
synchronized(frag_tables) {
boolean result=containsSender(sender);
frag_tables.remove(sender);
return result;
}
}
/**
* returns a list of all the senders that have fragmentation tables opened.
* @return an array of all the senders in the fragmentation list
*/
public Address[] getSenders() {
Address[] result;
int index=0;
synchronized(frag_tables) {
result=new Address[frag_tables.size()];
for(Iterator it=frag_tables.keySet().iterator(); it.hasNext();) {
result[index++]=it.next();
}
}
return result;
}
public String toString() {
StringBuilder buf=new StringBuilder("Fragmentation list contains ");
synchronized(frag_tables) {
buf.append(frag_tables.size()).append(" tables\n");
for(Iterator> it=frag_tables.entrySet().iterator(); it.hasNext();) {
Entry entry=it.next();
buf.append(entry.getKey()).append(": " ).append(entry.getValue()).append("\n");
}
}
return buf.toString();
}
}
/**
* Keeps track of the fragments that are received.
* Reassembles fragements into entire messages when all fragments have been received.
* The fragmentation holds a an array of byte arrays for a unique sender
* The first dimension of the array is the order of the fragmentation, in case the arrive out of order
*/
static class FragmentationTable {
private final Address sender;
/* the hashtable that holds the fragmentation entries for this sender*/
private final Hashtable h=new Hashtable(11); // keys: frag_ids, vals: Entrys
FragmentationTable(Address sender) {
this.sender=sender;
}
/**
* inner class represents an entry for a message
* each entry holds an array of byte arrays sorted
* once all the byte buffer entries have been filled
* the fragmentation is considered complete.
*/
static class FragEntry {
//the total number of fragment in this message
int tot_frags=0;
// each fragment is a byte buffer
byte[] fragments[]=null;
//the number of fragments we have received
int number_of_frags_recvd=0;
// the message ID
long msg_id=-1;
/**
* Creates a new entry
*
* @param tot_frags the number of fragments to expect for this message
*/
FragEntry(long msg_id, int tot_frags) {
this.msg_id=msg_id;
this.tot_frags=tot_frags;
fragments=new byte[tot_frags][];
for(int i=0; i < tot_frags; i++) {
fragments[i]=null;
}
}
/**
* adds on fragmentation buffer to the message
*
* @param frag_id the number of the fragment being added 0..(tot_num_of_frags - 1)
* @param frag the byte buffer containing the data for this fragmentation, should not be null
*/
public void set(int frag_id, byte[] frag) {
fragments[frag_id]=frag;
number_of_frags_recvd++;
}
/**
* returns true if this fragmentation is complete
* ie, all fragmentations have been received for this buffer
*/
public boolean isComplete() {
/*first make the simple check*/
if(number_of_frags_recvd < tot_frags) {
return false;
}
/*then double check just in case*/
for(int i=0; i < fragments.length; i++) {
if(fragments[i] == null)
return false;
}
/*all fragmentations have been received*/
return true;
}
/**
* Assembles all the fragmentations into one buffer
* this method does not check if the fragmentation is complete
*
* @return the complete message in one buffer
*/
public byte[] assembleBuffer() {
return Util.defragmentBuffer(fragments);
}
/**
* debug only
*/
public String toString() {
StringBuilder ret=new StringBuilder();
ret.append("[tot_frags=").append(tot_frags).append(", number_of_frags_recvd=").append(number_of_frags_recvd).append(']');
return ret.toString();
}
public int hashCode() {
return super.hashCode();
}
}
/**
* Creates a new entry if not yet present. Adds the fragment.
* If all fragements for a given message have been received,
* an entire message is reassembled and returned.
* Otherwise null is returned.
*
* @param id - the message ID, unique for a sender
* @param frag_id the index of this fragmentation (0..tot_frags-1)
* @param tot_frags the total number of fragmentations expected
* @param fragment - the byte buffer for this fragment
*/
public synchronized byte[] add(long id, int frag_id, int tot_frags, byte[] fragment) {
/*initialize the return value to default not complete */
byte[] retval=null;
FragEntry e=h.get(new Long(id));
if(e == null) { // Create new entry if not yet present
e=new FragEntry(id, tot_frags);
h.put(new Long(id), e);
}
e.set(frag_id, fragment);
if(e.isComplete()) {
retval=e.assembleBuffer();
h.remove(new Long(id));
}
return retval;
}
public void reset() {
}
public String toString() {
StringBuilder buf=new StringBuilder("Fragmentation Table Sender:").append(sender).append("\n\t");
Enumeration e=this.h.elements();
while(e.hasMoreElements()) {
FragEntry entry=e.nextElement();
int count=0;
for(int i=0; i < entry.fragments.length; i++) {
if(entry.fragments[i] != null) {
count++;
}
}
buf.append("Message ID:").append(entry.msg_id).append("\n\t");
buf.append("Total Frags:").append(entry.tot_frags).append("\n\t");
buf.append("Frags Received:").append(count).append("\n\n");
}
return buf.toString();
}
}
}