public static void testParseSemicolonDelimitedString2() {
String input = " myID1::subID1 ; myID2::mySubID2; myID3 ;myID4::blaSubID4";
List list = Util.parseStringList(input, ";");
System.out.println("list: " + list);
Assert.assertEquals(4, list.size());
Assert.assertEquals("myID1::subID1", list.get(0));
Assert.assertEquals("myID4::blaSubID4", list.get(list.size() - 1));
}
public static void testParseSemicolonDelimitedString() {
String input = "one;two ; three; four ; five;six";
List list = Util.parseStringList(input, ";");
System.out.println("list: " + list);
Assert.assertEquals(6, list.size());
Assert.assertEquals("one", list.get(0));
Assert.assertEquals("six", list.get(list.size() - 1));
}
public static void testParseCommaDelimitedString() {
String input = "1,2,3,4,5,6,7,8,9,10 , 11, 12 ,13";
List list = Util.parseCommaDelimitedStrings(input);
System.out.println("list: " + list);
Assert.assertEquals(13, list.size());
Assert.assertEquals("1", list.get(0));
Assert.assertEquals("13", list.get(list.size() - 1));
}
protected String printMessageList(List<Message> list) {
StringBuilder sb = new StringBuilder();
int size = list.size();
Message first = size > 0 ? list.get(0) : null, second = size > 1 ? list.get(size - 1) : first;
UnicastHeader hdr;
if (first != null) {
hdr = (UnicastHeader) first.getHeader(id);
if (hdr != null) sb.append("#" + hdr.seqno);
}
if (second != null) {
hdr = (UnicastHeader) second.getHeader(id);
if (hdr != null) sb.append(" - #" + hdr.seqno);
}
return sb.toString();
}
protected void handleViewChange(View v) {
Address old_coord;
List<Address> new_members = v.getMembers();
boolean send_up_exception = false;
this.view = v;
synchronized (members) {
old_coord = (!members.isEmpty() ? members.get(0) : null);
members.clear();
members.addAll(new_members);
// this handles the case where a coord dies during a state transfer; prevents clients from
// hanging forever
// Note this only takes a coordinator crash into account, a getState(target, timeout), where
// target is not
// null is not handled ! (Usually we get the state from the coordinator)
// http://jira.jboss.com/jira/browse/JGRP-148
if (waiting_for_state_response && old_coord != null && !members.contains(old_coord))
send_up_exception = true;
}
if (send_up_exception) {
log.warn("%s: discovered that the state provider (%s) left", local_addr, old_coord);
waiting_for_state_response = false;
Exception ex = new EOFException("state provider " + old_coord + " left");
up_prot.up(new Event(Event.GET_STATE_OK, new StateTransferResult(ex)));
openBarrierAndResumeStable();
}
// remove non members from list of members requesting state
state_requesters.retainAll(new_members);
}
/**
* An event is to be sent down the stack. The layer may want to examine its type and perform some
* action on it, depending on the event's type. If the event is a message MSG, then the layer may
* need to add a header to it (or do nothing at all) before sending it down the stack using <code>
* PassDown</code>. In case of a GET_ADDRESS event (which tries to retrieve the stack's address
* from one of the bottom layers), the layer may need to send a new response event back up the
* stack using <code>up_prot.up()</code>. The PING protocol is interested in several different
* down events, Event.FIND_INITIAL_MBRS - sent by the GMS layer and expecting a GET_MBRS_OK
* Event.TMP_VIEW and Event.VIEW_CHANGE - a view change event Event.BECOME_SERVER - called after
* client has joined and is fully working group member Event.CONNECT, Event.DISCONNECT.
*/
@SuppressWarnings("unchecked")
public Object down(Event evt) {
switch (evt.getType()) {
case Event.FIND_INITIAL_MBRS: // sent by GMS layer
case Event.FIND_ALL_VIEWS:
// sends the GET_MBRS_REQ to all members, waits 'timeout' ms or until 'num_initial_members'
// have been retrieved
long start = System.currentTimeMillis();
boolean find_all_views = evt.getType() == Event.FIND_ALL_VIEWS;
Promise<JoinRsp> promise = (Promise<JoinRsp>) evt.getArg();
List<PingData> rsps = find_all_views ? findAllViews(promise) : findInitialMembers(promise);
long diff = System.currentTimeMillis() - start;
if (log.isTraceEnabled())
log.trace("discovery took " + diff + " ms: responses: " + Util.printPingData(rsps));
return rsps;
case Event.TMP_VIEW:
case Event.VIEW_CHANGE:
List<Address> tmp;
view = (View) evt.getArg();
if ((tmp = view.getMembers()) != null) {
synchronized (members) {
members.clear();
members.addAll(tmp);
}
}
current_coord = !members.isEmpty() ? members.get(0) : null;
is_coord = current_coord != null && local_addr != null && current_coord.equals(local_addr);
return down_prot.down(evt);
case Event.BECOME_SERVER: // called after client has joined and is fully working group member
down_prot.down(evt);
is_server = true;
return null;
case Event.SET_LOCAL_ADDRESS:
local_addr = (Address) evt.getArg();
return down_prot.down(evt);
case Event.CONNECT:
case Event.CONNECT_WITH_STATE_TRANSFER:
case Event.CONNECT_USE_FLUSH:
case Event.CONNECT_WITH_STATE_TRANSFER_USE_FLUSH:
is_leaving = false;
group_addr = (String) evt.getArg();
Object ret = down_prot.down(evt);
handleConnect();
return ret;
case Event.DISCONNECT:
is_leaving = true;
handleDisconnect();
return down_prot.down(evt);
default:
return down_prot.down(evt); // Pass on to the layer below us
}
}
/**
* Merge all MergeData. All MergeData elements should be disjunct (both views and digests).
* However, this method is prepared to resolve duplicate entries (for the same member).
* Resolution strategy for views is to merge only 1 of the duplicate members. Resolution
* strategy for digests is to take the higher seqnos for duplicate digests.
*
* <p>After merging all members into a Membership and subsequent sorting, the first member of
* the sorted membership will be the new coordinator. This method has a lock on merge_rsps.
*
* @param merge_rsps A list of MergeData items. Elements with merge_rejected=true were removed
* before. Is guaranteed not to be null and to contain at least 1 member.
*/
private MergeData consolidateMergeData(List<MergeData> merge_rsps) {
long logical_time = 0; // for new_vid
List<View> subgroups =
new ArrayList<View>(11); // contains a list of Views, each View is a subgroup
Collection<Collection<Address>> sub_mbrships = new ArrayList<Collection<Address>>();
for (MergeData tmp_data : merge_rsps) {
View tmp_view = tmp_data.getView();
if (tmp_view != null) {
ViewId tmp_vid = tmp_view.getVid();
if (tmp_vid != null) {
// compute the new view id (max of all vids +1)
logical_time = Math.max(logical_time, tmp_vid.getId());
}
// merge all membership lists into one (prevent duplicates)
sub_mbrships.add(new ArrayList<Address>(tmp_view.getMembers()));
subgroups.add(tmp_view.copy());
}
}
// determine the new digest
Digest new_digest = consolidateDigests(merge_rsps, merge_rsps.size());
if (new_digest == null) return null;
// remove all members from the new member list that are not in the digest
Collection<Address> digest_mbrs = new_digest.getMembers();
for (Collection<Address> coll : sub_mbrships) coll.retainAll(digest_mbrs);
List<Address> merged_mbrs = gms.computeNewMembership(sub_mbrships);
// the new coordinator is the first member of the consolidated & sorted membership list
Address new_coord = merged_mbrs.isEmpty() ? null : merged_mbrs.get(0);
if (new_coord == null) return null;
// should be the highest view ID seen up to now plus 1
ViewId new_vid = new ViewId(new_coord, logical_time + 1);
// determine the new view
MergeView new_view = new MergeView(new_vid, merged_mbrs, subgroups);
if (log.isTraceEnabled())
log.trace(
gms.local_addr
+ ": consolidated view="
+ new_view
+ "\nconsolidated digest="
+ new_digest);
return new MergeData(gms.local_addr, new_view, new_digest);
}
/**
* Creates a list of randomly generated partitions, each having a max size of max_partition_size
*/
protected List<View> createPartitions(int max_partition_size, JChannel... channels) {
long view_id = 1;
for (JChannel ch : channels) view_id = Math.max(view_id, ch.getView().getViewId().getId());
List<View> partitions = new ArrayList<>();
List<Address> tmp = new ArrayList<>();
for (JChannel ch : channels) tmp.add(ch.getAddress());
while (!tmp.isEmpty()) {
int num_to_remove = (int) Util.random(max_partition_size);
List<Address> part = new ArrayList<>(max_partition_size);
for (int x = 0; x < num_to_remove && !tmp.isEmpty(); x++) part.add(tmp.remove(0));
partitions.add(new View(part.get(0), view_id + 1, part));
}
return partitions;
}
private void process(List<Request> requests) {
if (requests.isEmpty()) return;
Request firstReq = requests.get(0);
switch (firstReq.type) {
case Request.JOIN:
case Request.JOIN_WITH_STATE_TRANSFER:
case Request.LEAVE:
case Request.SUSPECT:
impl.handleMembershipChange(requests);
break;
case Request.MERGE:
impl.merge(firstReq.views);
break;
default:
log.error("request " + firstReq.type + " is unknown; discarded");
}
}
private synchronized void handleViewChange(View view, boolean makeServer) {
if (makeServer) initializeNewSymmetricKey(view instanceof MergeView);
// if view is a bit broken set me as keyserver
List<Address> members = view.getMembers();
if (members == null || members.isEmpty() || members.get(0) == null) {
becomeKeyServer(local_addr, false);
return;
}
// otherwise get keyserver from view controller
Address tmpKeyServer = view.getMembers().get(0);
// I am keyserver - either first member of group or old key server is no more and
// I have been voted new controller
if (makeServer || (tmpKeyServer.equals(local_addr))) becomeKeyServer(tmpKeyServer, makeServer);
else handleNewKeyServer(tmpKeyServer, view instanceof MergeView);
}
/**
* Computes the next view. Returns a copy that has <code>old_mbrs</code> and <code>suspected_mbrs
* </code> removed and <code>new_mbrs</code> added.
*/
public View getNextView(
Collection<Address> new_mbrs,
Collection<Address> old_mbrs,
Collection<Address> suspected_mbrs) {
synchronized (members) {
ViewId view_id = view != null ? view.getViewId() : null;
if (view_id == null) {
log.error("view_id is null");
return null; // this should *never* happen !
}
long vid = Math.max(view_id.getId(), ltime) + 1;
ltime = vid;
Membership tmp_mbrs = tmp_members.copy(); // always operate on the temporary membership
tmp_mbrs.remove(suspected_mbrs);
tmp_mbrs.remove(old_mbrs);
tmp_mbrs.add(new_mbrs);
List<Address> mbrs = tmp_mbrs.getMembers();
Address new_coord = local_addr;
if (!mbrs.isEmpty()) new_coord = mbrs.get(0);
View v = new View(new_coord, vid, mbrs);
// Update membership (see DESIGN for explanation):
tmp_members.set(mbrs);
// Update joining list (see DESIGN for explanation)
if (new_mbrs != null) {
for (Address tmp_mbr : new_mbrs) {
if (!joining.contains(tmp_mbr)) joining.add(tmp_mbr);
}
}
// Update leaving list (see DESIGN for explanations)
if (old_mbrs != null) {
for (Address addr : old_mbrs) {
if (!leaving.contains(addr)) leaving.add(addr);
}
}
if (suspected_mbrs != null) {
for (Address addr : suspected_mbrs) {
if (!leaving.contains(addr)) leaving.add(addr);
}
}
return v;
}
}
/**
* Multicasts a GET_DIGEST_REQ to all current members and waits for all responses (GET_DIGEST_RSP)
* or N ms.
*
* @return
*/
private Digest fetchDigestsFromAllMembersInSubPartition(
List<Address> current_mbrs, MergeId merge_id) {
// Optimization: if we're the only member, we don't need to multicast the get-digest message
if (current_mbrs == null
|| current_mbrs.size() == 1 && current_mbrs.get(0).equals(gms.local_addr))
return (Digest) gms.getDownProtocol().down(new Event(Event.GET_DIGEST, gms.local_addr));
GMS.GmsHeader hdr = new GMS.GmsHeader(GMS.GmsHeader.GET_DIGEST_REQ);
hdr.merge_id = merge_id;
Message get_digest_req =
new Message().setFlag(Message.Flag.OOB, Message.Flag.INTERNAL).putHeader(gms.getId(), hdr);
long max_wait_time =
gms.merge_timeout / 2; // gms.merge_timeout is guaranteed to be > 0, verified in init()
digest_collector.reset(current_mbrs);
gms.getDownProtocol().down(new Event(Event.MSG, get_digest_req));
// add my own digest first - the get_digest_req needs to be sent first *before* getting our own
// digest, so
// we have that message in our digest !
Digest digest =
(Digest) gms.getDownProtocol().down(new Event(Event.GET_DIGEST, gms.local_addr));
digest_collector.add(gms.local_addr, digest);
digest_collector.waitForAllResponses(max_wait_time);
if (log.isTraceEnabled()) {
if (digest_collector.hasAllResponses())
log.trace(gms.local_addr + ": fetched all digests for " + current_mbrs);
else
log.trace(
gms.local_addr
+ ": fetched incomplete digests (after timeout of "
+ max_wait_time
+ ") ms for "
+ current_mbrs);
}
Map<Address, Digest> responses = new HashMap<Address, Digest>(digest_collector.getResults());
MutableDigest retval = new MutableDigest(responses.size());
for (Digest dig : responses.values()) {
if (dig != null) retval.add(dig);
}
return retval;
}
public void addResponse(PingData rsp, boolean overwrite) {
if (rsp == null) return;
promise.getLock().lock();
try {
if (overwrite) ping_rsps.remove(rsp);
// https://jira.jboss.org/jira/browse/JGRP-1179
int index = ping_rsps.indexOf(rsp);
if (index == -1) {
ping_rsps.add(rsp);
promise.getCond().signalAll();
} else if (rsp.isCoord()) {
PingData pr = ping_rsps.get(index);
// Check if the already existing element is not server
if (!pr.isCoord()) {
ping_rsps.set(index, rsp);
promise.getCond().signalAll();
}
}
} finally {
promise.getLock().unlock();
}
}
@SuppressWarnings("unchecked")
public Object down(Event evt) {
switch (evt.getType()) {
case Event.FIND_INITIAL_MBRS: // sent by GMS layer
return findMembers(null, true, false); // triggered by JOIN process (ClientGmsImpl)
case Event.FIND_MBRS:
return findMembers(
(List<Address>) evt.getArg(), false, false); // triggered by MERGE2/MERGE3
// case Event.TMP_VIEW:
case Event.VIEW_CHANGE:
List<Address> tmp;
View old_view = view;
view = (View) evt.getArg();
if ((tmp = view.getMembers()) != null) {
synchronized (members) {
members.clear();
members.addAll(tmp);
}
}
current_coord = !members.isEmpty() ? members.get(0) : null;
is_coord = current_coord != null && local_addr != null && current_coord.equals(local_addr);
Object retval = down_prot.down(evt);
if (send_cache_on_join && !isDynamic() && is_coord) {
List<Address> curr_mbrs, left_mbrs, new_mbrs;
synchronized (members) {
curr_mbrs = new ArrayList<>(members);
left_mbrs = old_view != null ? Util.leftMembers(old_view.getMembers(), members) : null;
new_mbrs = old_view != null ? Util.newMembers(old_view.getMembers(), members) : null;
}
startCacheDissemination(curr_mbrs, left_mbrs, new_mbrs); // separate task
}
return retval;
case Event.BECOME_SERVER: // called after client has joined and is fully working group member
down_prot.down(evt);
is_server = true;
return null;
case Event.SET_LOCAL_ADDRESS:
local_addr = (Address) evt.getArg();
return down_prot.down(evt);
case Event.CONNECT:
case Event.CONNECT_WITH_STATE_TRANSFER:
case Event.CONNECT_USE_FLUSH:
case Event.CONNECT_WITH_STATE_TRANSFER_USE_FLUSH:
is_leaving = false;
cluster_name = (String) evt.getArg();
Object ret = down_prot.down(evt);
handleConnect();
return ret;
case Event.DISCONNECT:
is_leaving = true;
handleDisconnect();
return down_prot.down(evt);
default:
return down_prot.down(evt); // Pass on to the layer below us
}
}
/**
* Broadcasts the new view and digest, and waits for acks from all members in the list given as
* argument. If the list is null, we take the members who are part of new_view
*/
public void castViewChange(
View new_view, Digest digest, JoinRsp jr, Collection<Address> newMembers) {
if (log.isTraceEnabled())
log.trace(local_addr + ": mcasting view " + new_view + " (" + new_view.size() + " mbrs)\n");
// Send down a local TMP_VIEW event. This is needed by certain layers (e.g. NAKACK) to compute
// correct digest
// in case client's next request (e.g. getState()) reaches us *before* our own view change
// multicast.
// Check NAKACK's TMP_VIEW handling for details
down_prot.up(new Event(Event.TMP_VIEW, new_view));
down_prot.down(new Event(Event.TMP_VIEW, new_view));
List<Address> ackMembers = new ArrayList<Address>(new_view.getMembers());
if (newMembers != null && !newMembers.isEmpty()) ackMembers.removeAll(newMembers);
Message view_change_msg = new Message(); // bcast to all members
GmsHeader hdr = new GmsHeader(GmsHeader.VIEW, new_view);
hdr.my_digest = digest;
view_change_msg.putHeader(this.id, hdr);
// If we're the only member the VIEW is broadcast to, let's simply install the view directly,
// without
// sending the VIEW multicast ! Or else N-1 members drop the multicast anyway...
if (local_addr != null && ackMembers.size() == 1 && ackMembers.get(0).equals(local_addr)) {
// we need to add the message to the retransmit window (e.g. in NAKACK), so (1) it can be
// retransmitted and
// (2) we increment the seqno (otherwise, we'd return an incorrect digest)
down_prot.down(new Event(Event.ADD_TO_XMIT_TABLE, view_change_msg));
impl.handleViewChange(new_view, digest);
} else {
if (!ackMembers.isEmpty()) ack_collector.reset(ackMembers);
down_prot.down(new Event(Event.MSG, view_change_msg));
try {
if (!ackMembers.isEmpty()) {
ack_collector.waitForAllAcks(view_ack_collection_timeout);
if (log.isTraceEnabled())
log.trace(
local_addr
+ ": received all "
+ ack_collector.expectedAcks()
+ " ACKs from members for view "
+ new_view.getVid());
}
} catch (TimeoutException e) {
if (log_collect_msgs && log.isWarnEnabled()) {
log.warn(
local_addr
+ ": failed to collect all ACKs (expected="
+ ack_collector.expectedAcks()
+ ") for view "
+ new_view.getViewId()
+ " after "
+ view_ack_collection_timeout
+ "ms, missing ACKs from "
+ ack_collector.printMissing());
}
}
}
if (jr != null && (newMembers != null && !newMembers.isEmpty())) {
ack_collector.reset(new ArrayList<Address>(newMembers));
for (Address joiner : newMembers) {
sendJoinResponse(jr, joiner);
}
try {
ack_collector.waitForAllAcks(view_ack_collection_timeout);
if (log.isTraceEnabled())
log.trace(
local_addr
+ ": received all ACKs ("
+ ack_collector.expectedAcks()
+ ") from joiners for view "
+ new_view.getVid());
} catch (TimeoutException e) {
if (log_collect_msgs && log.isWarnEnabled()) {
log.warn(
local_addr
+ ": failed to collect all ACKs (expected="
+ ack_collector.expectedAcks()
+ ") for unicast view "
+ new_view
+ " after "
+ view_ack_collection_timeout
+ "ms, missing ACKs from "
+ ack_collector.printMissing());
}
}
}
}
