// Got a response UDP packet, or completed a large TCP answer-receive. // Install it as The Answer packet and wake up anybody waiting on an answer. protected void response(AutoBuffer ab) { assert _tasknum == ab.getTask(); if (_done) { ab.close(); return; } // Ignore duplicate response packet int flag = ab.getFlag(); // Must read flag also, to advance ab if (flag == SERVER_TCP_SEND) { ab.close(); return; } // Ignore UDP packet for a TCP reply assert flag == SERVER_UDP_SEND; synchronized (this) { // Install the answer under lock if (_done) { ab.close(); return; } // Ignore duplicate response packet _dt.read(ab); // Read the answer (under lock?) ab.close(); // Also finish the read (under lock?) _dt.onAck(); // One time only execute (before sending ACKACK) _done = true; UDPTimeOutThread.PENDING.remove(this); TASKS.remove(_tasknum); // Flag as task-completed, even if the result is null notifyAll(); // And notify in any case } }
// Handle TCP traffic, from a client to this server asking for work to be // done. This is called on the TCP reader thread, not a Fork/Join worker // thread. We want to do the bulk TCP read in the TCP reader thread. static void tcp_exec(final AutoBuffer ab) { final int ctrl = ab.getCtrl(); final int task = ab.getTask(); final int flag = ab.getFlag(); assert flag == CLIENT_UDP_SEND; // Client sent a request to be executed? // Act "as if" called from the UDP packet code, by recording the task just // like the packet we will be receiving (eventually). The presence of this // packet is used to stop dup-actions on dup-sends. Racily inserted, keep // only the last one. DTask dt1 = ab._h2o.record_task(task); assert dt1 == null || dt1 instanceof NOPTask : "#" + task + " " + dt1.getClass(); // For TCP, no repeats, so 1st send is only send (except for UDP // timeout retries) // Make a remote instance of this dude from the stream, but only if the // racing UDP packet did not already make one. Start the bulk TCP read. final DTask dt = ab.get(DTask.class); // Here I want to execute on this, but not block for completion in the // TCP reader thread. Jam the task on some F/J thread. UDP.udp .UDPS[ctrl] .pool() .execute( new CountedCompleter() { public void compute() { remexec(dt, ab._h2o, task, ab).close(); tryComplete(); } public boolean onExceptionalCompletion(Throwable ex, CountedCompleter caller) { ex.printStackTrace(); return true; } }); // All done for the TCP thread! Work continues in the FJ thread... }
// Pretty-print bytes 1-15; byte 0 is the udp_type enum public String print16(AutoBuffer ab) { int flag = ab.getFlag(); String clazz = ""; if (flag == CLIENT_UDP_SEND) clazz = new String(ab.getA1(Math.min(ab.get2(), ab.remaining()))); String fs = ""; switch (flag) { case SERVER_UDP_SEND: fs = "SERVER_UDP_SEND"; break; case SERVER_TCP_SEND: fs = "SERVER_TCP_SEND"; break; case CLIENT_UDP_SEND: fs = "CLIENT_UDP_SEND"; break; case CLIENT_TCP_SEND: fs = "CLIENT_TCP_SEND"; break; } return "task# " + ab.getTask() + " " + fs + " " + clazz; }
protected AutoBuffer response(AutoBuffer ab) { assert _tasknum == ab.getTask(); if (_done) { if (!ab.hasTCP()) return ackack(ab, _tasknum); // Ignore duplicate response packet ab.drainClose(); } else { int flag = ab.getFlag(); // Must read flag also, to advance ab if (flag == SERVER_TCP_SEND) return ackack(ab, _tasknum); // Ignore UDP packet for a TCP reply assert flag == SERVER_UDP_SEND : "flag = " + flag; synchronized (this) { // Install the answer under lock if (_done) { if (!ab.hasTCP()) return ackack(ab, _tasknum); // Ignore duplicate response packet ab.drainClose(); } else { // UDPTimeOutThread.PENDING.remove(_tasknum); _dt.read(ab); // Read the answer (under lock?) _size_rez = ab.size(); // Record received size ab .close(); // Also finish the read (under lock? even if canceled, since need to drain // TCP) if (!isCancelled()) // Can be canceled already (locally by MRTask while recieving remote // answer) _dt.onAck(); // One time only execute (before sending ACKACK) _done = true; // Only read one (of many) response packets ab._h2o.taskRemove(_tasknum); // Flag as task-completed, even if the result is null notifyAll(); // And notify in any case } if (!isCancelled()) // Can be canceled already doAllCompletions(); // Send all tasks needing completion to the work queues } } // AckAck back on a fresh AutoBuffer, since actually closed() the incoming one return new AutoBuffer(ab._h2o, H2O.ACK_ACK_PRIORITY) .putTask(UDP.udp.ackack.ordinal(), _tasknum); }
AutoBuffer call(AutoBuffer ab) { return ab.getFlag() == CLIENT_UDP_SEND // UDP vs TCP send? ? remexec(ab.get(DTask.class), ab._h2o, ab.getTask(), ab) : ab; // Else all the work is being done in the TCP thread. }
// Handle traffic, from a client to this server asking for work to be done. // Called from either a F/J thread (generally with a UDP packet) or from the // TCPReceiver thread. static void remote_exec(AutoBuffer ab) { long lo = ab.get8(0), hi = ab._size >= 16 ? ab.get8(8) : 0; final int task = ab.getTask(); final int flag = ab.getFlag(); assert flag == CLIENT_UDP_SEND || flag == CLIENT_TCP_SEND; // Client-side send // Atomically record an instance of this task, one-time-only replacing a // null with an RPCCall, a placeholder while we work on a proper response - // and it serves to let us discard dup UDP requests. RPCCall old = ab._h2o.has_task(task); // This is a UDP packet requesting an answer back for a request sent via // TCP but the UDP packet has arrived ahead of the TCP. Just drop the UDP // and wait for the TCP to appear. if (old == null && flag == CLIENT_TCP_SEND) { Log.warn( "got tcp with existing task #, FROM " + ab._h2o.toString() + " AB: " /* + UDP.printx16(lo,hi)*/); assert !ab.hasTCP() : "ERROR: got tcp with existing task #, FROM " + ab._h2o.toString() + " AB: " /* + UDP.printx16(lo,hi)*/; // All the resends should be UDP only // DROP PACKET } else if (old == null) { // New task? RPCCall rpc; try { // Read the DTask Right Now. If we are the TCPReceiver thread, then we // are reading in that thread... and thus TCP reads are single-threaded. rpc = new RPCCall(ab.get(water.DTask.class), ab._h2o, task); } catch (AutoBuffer.AutoBufferException e) { // Here we assume it's a TCP fail on read - and ignore the remote_exec // request. The caller will send it again. NOTE: this case is // indistinguishable from a broken short-writer/long-reader bug, except // that we'll re-send endlessly and fail endlessly. Log.info( "Network congestion OR short-writer/long-reader: TCP " + e._ioe.getMessage() + ", AB=" + ab + ", ignoring partial send"); ab.drainClose(); return; } RPCCall rpc2 = ab._h2o.record_task(rpc); if (rpc2 == null) { // Atomically insert (to avoid double-work) if (rpc._dt instanceof MRTask && rpc._dt.logVerbose()) Log.debug("Start remote task#" + task + " " + rpc._dt.getClass() + " from " + ab._h2o); H2O.submitTask(rpc); // And execute! } else { // Else lost the task-insertion race if (ab.hasTCP()) ab.drainClose(); // DROP PACKET } } else if (!old._computedAndReplied) { // This packet has not been fully computed. Hence it's still a work-in- // progress locally. We have no answer to reply but we do not want to // re-offer the packet for repeated work. Send back a NACK, letting the // client know we're Working On It assert !ab.hasTCP() : "got tcp with existing task #, FROM " + ab._h2o.toString() + " AB: " + UDP.printx16(lo, hi) + ", position = " + ab._bb.position(); ab.clearForWriting(udp.nack._prior).putTask(UDP.udp.nack.ordinal(), task); // DROP PACKET } else { // This is an old re-send of the same thing we've answered to before. // Send back the same old answer ACK. If we sent via TCP before, then // we know the answer got there so just send a control-ACK back. If we // sent via UDP, resend the whole answer. if (ab.hasTCP()) { Log.warn( "got tcp with existing task #, FROM " + ab._h2o.toString() + " AB: " + UDP.printx16(lo, hi)); // All the resends should be UDP only ab.drainClose(); } if (old._dt != null) { // already ackacked ++old._ackResendCnt; if (old._ackResendCnt % 10 == 0) Log.err( "Possibly broken network, can not send ack through, got " + old._ackResendCnt + " for task # " + old._tsknum + ", dt == null?" + (old._dt == null)); old.resend_ack(); } } ab.close(); }
// Pretty-print bytes 1-15; byte 0 is the udp_type enum @Override String print16(AutoBuffer ab) { int flag = ab.getFlag(); String clazz = (flag == CLIENT_UDP_SEND) ? TypeMap.className(ab.getInt()) : ""; return "task# " + ab.getTask() + " " + clazz + " " + COOKIES[flag - SERVER_UDP_SEND]; }