@Override
 public CompletionStage<Boolean> test(
     final Http.Context context, final DeadboltHandler handler, final Executor executor) {
   return constraintLogic.restrict(
       context,
       handler,
       content,
       () -> roleGroups,
       ctx -> CompletableFuture.completedFuture(Boolean.TRUE),
       (ctx, dh, cnt) -> CompletableFuture.completedFuture(Boolean.FALSE));
 }
Exemple #2
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 public CompletableFuture<HttpResponseImpl> responseAsync(Void v) {
   CompletableFuture<HttpResponseImpl> cf;
   if (++attempts > max_attempts) {
     cf = CompletableFuture.failedFuture(new IOException("Too many retries"));
   } else {
     if (currentreq.timeval() != 0) {
       // set timer
       td = new TimedEvent(currentreq.timeval());
       client.registerTimer(td);
     }
     Exchange exch = getExchange();
     cf =
         requestFiltersAsync(currentreq)
             .thenCompose(exch::responseAsync)
             .thenCompose(this::responseFiltersAsync)
             .thenCompose(
                 (Pair<HttpResponse, HttpRequestImpl> pair) -> {
                   HttpResponseImpl resp = (HttpResponseImpl) pair.first;
                   if (resp != null) {
                     if (attempts > 1) {
                       Log.logError("Succeeded on attempt: " + attempts);
                     }
                     return CompletableFuture.completedFuture(resp);
                   } else {
                     currentreq = pair.second;
                     Exchange previous = exch;
                     setExchange(new Exchange(currentreq, currentreq.getAccessControlContext()));
                     // reads body off previous, and then waits for next response
                     return previous
                         .responseBodyAsync(HttpResponse.ignoreBody())
                         .thenCompose(this::responseAsync);
                   }
                 })
             .handle(
                 (BiFunction<HttpResponse, Throwable, Pair<HttpResponse, Throwable>>) Pair::new)
             .thenCompose(
                 (Pair<HttpResponse, Throwable> obj) -> {
                   HttpResponseImpl response = (HttpResponseImpl) obj.first;
                   if (response != null) {
                     return CompletableFuture.completedFuture(response);
                   }
                   // all exceptions thrown are handled here
                   CompletableFuture<HttpResponseImpl> error = getExceptionalCF(obj.second);
                   if (error == null) {
                     cancelTimer();
                     return responseAsync(null);
                   } else {
                     return error;
                   }
                 });
   }
   return cf;
 }
Exemple #3
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    public void patternExamples() {
      String urlOne = "http://localhost:3333/one";
      // #ws-composition
      final CompletionStage<WSResponse> responseThreePromise =
          ws.url(urlOne)
              .get()
              .thenCompose(responseOne -> ws.url(responseOne.getBody()).get())
              .thenCompose(responseTwo -> ws.url(responseTwo.getBody()).get());
      // #ws-composition

      // #ws-recover
      CompletionStage<WSResponse> responsePromise = ws.url("http://example.com").get();
      CompletionStage<WSResponse> recoverPromise =
          responsePromise
              .handle(
                  (result, error) -> {
                    if (error != null) {
                      return ws.url("http://backup.example.com").get();
                    } else {
                      return CompletableFuture.completedFuture(result);
                    }
                  })
              .thenCompose(Function.identity());
      // #ws-recover
    }
  @Ignore("hangs when run with other tests")
  @Test
  public void testJoinChannel() throws Exception {
    CountDownLatch connectedLatch = new CountDownLatch(1);
    String channelToJoin = "#anotherChannel";
    doAnswer(
            invocation -> {
              connectedLatch.countDown();
              return null;
            })
        .when(outputIrc)
        .joinChannel(DEFAULT_CHANNEL_NAME);

    when(taskService.submitTask(any())).thenReturn(CompletableFuture.completedFuture(null));

    instance.connect();
    instance.connectionStateProperty().set(ConnectionState.CONNECTED);

    assertTrue(connectedLatch.await(TIMEOUT, TIMEOUT_UNIT));

    instance.joinChannel(channelToJoin);

    verify(outputIrc).joinChannel(DEFAULT_CHANNEL_NAME);
    verify(outputIrc).joinChannel(channelToJoin);
  }
  /**
   * Handles a publish request.
   *
   * @param request The publish request to handle.
   * @return A completable future to be completed with the publish response.
   */
  @SuppressWarnings("unchecked")
  private CompletableFuture<PublishResponse> handlePublish(PublishRequest request) {
    if (request.session() != id)
      return Futures.exceptionalFuture(new UnknownSessionException("incorrect session ID"));

    if (request.previousVersion() != eventVersion) {
      return CompletableFuture.completedFuture(
          PublishResponse.builder()
              .withStatus(Response.Status.ERROR)
              .withError(RaftError.Type.INTERNAL_ERROR)
              .withVersion(eventVersion)
              .build());
    }

    eventVersion = request.eventVersion();

    List<CompletableFuture<Void>> futures = new ArrayList<>(request.events().size());
    for (Event<?> event : request.events()) {
      Listeners<Object> listeners = eventListeners.get(event.name());
      if (listeners != null) {
        futures.add(listeners.accept(event.message()));
      }
    }

    return CompletableFuture.allOf(futures.toArray(new CompletableFuture<?>[futures.size()]))
        .handleAsync(
            (result, error) -> {
              completeVersion = Math.max(completeVersion, request.eventVersion());
              return PublishResponse.builder()
                  .withStatus(Response.Status.OK)
                  .withVersion(eventVersion)
                  .build();
            },
            context.executor());
  }
 @ApiOperation(
     value = "To test enum parameters",
     notes = "",
     response = Void.class,
     tags = {
       "fake",
     })
 @ApiResponses(
     value = {
       @ApiResponse(code = 400, message = "Invalid request", response = Void.class),
       @ApiResponse(code = 404, message = "Not found", response = Void.class)
     })
 @RequestMapping(
     value = "/fake",
     produces = {"application/json"},
     consumes = {"application/json"},
     method = RequestMethod.GET)
 default CompletableFuture<ResponseEntity<Void>> testEnumParameters(
     @ApiParam(
             value = "Form parameter enum test (string array)",
             allowableValues = "GREATER_THAN, DOLLAR")
         @RequestPart(value = "enumFormStringArray", required = false)
         List<String> enumFormStringArray,
     @ApiParam(
             value = "Form parameter enum test (string)",
             allowableValues = "_ABC, _EFG, _XYZ_",
             defaultValue = "-efg")
         @RequestPart(value = "enumFormString", required = false)
         String enumFormString,
     @ApiParam(
             value = "Header parameter enum test (string array)",
             allowableValues = "GREATER_THAN, DOLLAR")
         @RequestHeader(value = "enum_header_string_array", required = false)
         List<String> enumHeaderStringArray,
     @ApiParam(
             value = "Header parameter enum test (string)",
             allowableValues = "_ABC, _EFG, _XYZ_",
             defaultValue = "-efg")
         @RequestHeader(value = "enum_header_string", required = false)
         String enumHeaderString,
     @ApiParam(
             value = "Query parameter enum test (string array)",
             allowableValues = "GREATER_THAN, DOLLAR")
         @RequestParam(value = "enumQueryStringArray", required = false)
         List<String> enumQueryStringArray,
     @ApiParam(
             value = "Query parameter enum test (string)",
             allowableValues = "_ABC, _EFG, _XYZ_",
             defaultValue = "-efg")
         @RequestParam(value = "enumQueryString", required = false, defaultValue = "-efg")
         String enumQueryString,
     @ApiParam(value = "Query parameter enum test (double)")
         @RequestParam(value = "enumQueryInteger", required = false)
         BigDecimal enumQueryInteger,
     @ApiParam(value = "Query parameter enum test (double)")
         @RequestPart(value = "enumQueryDouble", required = false)
         Double enumQueryDouble) {
   // do some magic!
   return CompletableFuture.completedFuture(new ResponseEntity<Void>(HttpStatus.OK));
 }
Exemple #7
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  @Override
  public CompletionStage<com.zeroc.Ice.Object.Ice_invokeResult> ice_invokeAsync(
      byte[] inEncaps, Current current) {
    boolean twoway = current.requestId > 0;
    ObjectPrx obj = current.con.createProxy(current.id);
    if (!twoway) {
      if (_startBatch) {
        _startBatch = false;
        _batchProxy = obj.ice_batchOneway();
      }
      if (_batchProxy != null) {
        obj = _batchProxy;
      }

      if (!current.facet.isEmpty()) {
        obj = obj.ice_facet(current.facet);
      }

      final com.zeroc.Ice.Object.Ice_invokeResult success =
          new com.zeroc.Ice.Object.Ice_invokeResult(true, new byte[0]);

      if (_batchProxy != null) {
        obj.ice_invoke(current.operation, current.mode, inEncaps, current.ctx);
        return CompletableFuture.completedFuture(success);
      } else {
        final CompletableFuture<com.zeroc.Ice.Object.Ice_invokeResult> future =
            new CompletableFuture<com.zeroc.Ice.Object.Ice_invokeResult>();
        CompletableFuture<com.zeroc.Ice.Object.Ice_invokeResult> r =
            obj.ice_oneway()
                .ice_invokeAsync(current.operation, current.mode, inEncaps, current.ctx);
        com.zeroc.Ice.Util.getInvocationFuture(r)
            .whenSent(
                (sentSynchronously, ex) -> {
                  if (ex != null) {
                    future.completeExceptionally(ex);
                  } else {
                    future.complete(success);
                  }
                });
        return future;
      }
    } else {
      if (!current.facet.isEmpty()) {
        obj = obj.ice_facet(current.facet);
      }

      final CompletableFuture<com.zeroc.Ice.Object.Ice_invokeResult> future =
          new CompletableFuture<com.zeroc.Ice.Object.Ice_invokeResult>();
      obj.ice_invokeAsync(current.operation, current.mode, inEncaps, current.ctx)
          .whenComplete(
              (result, ex) -> {
                if (ex != null) {
                  future.completeExceptionally(ex);
                } else {
                  future.complete(result);
                }
              });
      return future;
    }
  }
 @Override
 public CompletableFuture<Void> withdraw(String path) {
   elections.remove(path);
   for (LeadershipEventListener listener : listeners) {
     listener.event(
         new LeadershipEvent(
             Type.LEADER_BOOTED, new Leadership(path, clusterService.getLocalNode().id(), 0, 0)));
   }
   return CompletableFuture.completedFuture(null);
 }
 public static CompletableFuture<Boolean> doesChunkExist(
     WorldServer world, IChunkLoader chunkLoader, Vector3i chunkCoords) {
   int x = chunkCoords.getX();
   int z = chunkCoords.getZ();
   if (!(chunkLoader instanceof IMixinAnvilChunkLoader)
       || !SpongeChunkLayout.instance.isValidChunk(x, chunkCoords.getY(), z)) {
     return CompletableFuture.completedFuture(false);
   }
   return SpongeScheduler.getInstance()
       .submitAsyncTask(() -> ((IMixinAnvilChunkLoader) chunkLoader).chunkExists(world, x, z));
 }
Exemple #10
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 @Test
 public void mustBeAbleToUseMapFuture() throws Exception {
   final JavaTestKit probe = new JavaTestKit(system);
   final Iterable<String> input = Arrays.asList("a", "b", "c");
   Source.from(input)
       .mapAsync(4, elem -> CompletableFuture.completedFuture(elem.toUpperCase()))
       .runForeach(elem -> probe.getRef().tell(elem, ActorRef.noSender()), materializer);
   probe.expectMsgEquals("A");
   probe.expectMsgEquals("B");
   probe.expectMsgEquals("C");
 }
 @Override
 public CompletableFuture<Leadership> runForLeadership(String path) {
   elections.put(path, true);
   for (LeadershipEventListener listener : listeners) {
     listener.event(
         new LeadershipEvent(
             Type.LEADER_ELECTED, new Leadership(path, clusterService.getLocalNode().id(), 0, 0)));
   }
   return CompletableFuture.completedFuture(
       new Leadership(path, clusterService.getLocalNode().id(), 0, 0));
 }
 @Inject
 public JPAApiProvider(JPAConfig jpaConfig, DBApi dbApi, ApplicationLifecycle lifecycle) {
   // dependency on db api ensures that the databases are initialised
   jpaApi = new DefaultJPAApi(jpaConfig);
   lifecycle.addStopHook(
       () -> {
         jpaApi.shutdown();
         return CompletableFuture.completedFuture(null);
       });
   jpaApi.start();
 }
 @Override
 public Future<Void> exposeTags(@ClientId Object clientDescriptor, String... tags) {
   Utils.getClientIdentifier(consumer, clientDescriptor)
       .ifPresent(
           clientIdentifier ->
               producer.addNode(
                   array("management", "clients", clientIdentifier.getClientId()),
                   "tags",
                   tags == null ? new String[0] : tags));
   return CompletableFuture.completedFuture(null);
 }
Exemple #14
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 default <R> CompletableFuture<R> applyAsync8(
     Function<
             T1,
             Function<
                 T2,
                 Function<
                     T3, Function<T4, Function<T5, Function<T6, Function<T7, Function<T8, R>>>>>>>>
         fn) {
   return CompletableFuture.completedFuture(v8())
       .thenApplyAsync(
           fn.apply(v1()).apply(v2()).apply(v3()).apply(v4()).apply(v5()).apply(v6()).apply(v7()));
 }
 @Override
 public CompletableFuture<Void> removeListener(AtomicValueEventListener<V> listener) {
   checkNotNull(listener, "listener must not be null");
   final MeteringAgent.Context newTimer = monitor.startTimer(REMOVE_LISTENER);
   MapEventListener<String, byte[]> mapListener = listeners.remove(listener);
   if (mapListener != null) {
     return backingMap.removeListener(mapListener).whenComplete((r, e) -> newTimer.stop(e));
   } else {
     newTimer.stop(null);
     return CompletableFuture.completedFuture(null);
   }
 }
 @Inject
 public EbeanDynamicEvolutions(
     EbeanConfig config, Environment environment, ApplicationLifecycle lifecycle) {
   this.config = config;
   this.environment = environment;
   start();
   lifecycle.addStopHook(
       () -> {
         servers.forEach((database, server) -> server.shutdown(false, false));
         return CompletableFuture.completedFuture(null);
       });
 }
  @Test
  public void shouldUnwrapUserFutureAndReturnIt() throws Exception {
    // given
    final RetryExecutor executor = new AsyncRetryExecutor(schedulerMock);
    given(serviceMock.safeAsync()).willReturn(CompletableFuture.completedFuture("42"));

    // when
    final CompletableFuture<String> future =
        executor.getFutureWithRetry(ctx -> serviceMock.safeAsync());

    // then
    assertThat(future.get()).isEqualTo("42");
  }
  @SuppressWarnings("unchecked")
  private void mockTaskService() {
    doAnswer(
            (InvocationOnMock invocation) -> {
              PrioritizedTask<Boolean> prioritizedTask =
                  invocation.getArgumentAt(0, PrioritizedTask.class);
              prioritizedTask.run();

              Future<Boolean> result = WaitForAsyncUtils.asyncFx(prioritizedTask::getValue);
              return CompletableFuture.completedFuture(result.get(1, TimeUnit.SECONDS));
            })
        .when(instance.taskService)
        .submitTask(any());
  }
Exemple #19
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 @Override
 public CompletionStage<Result> newBundle() {
   /*
   Form<NewEnvironment> form = NewEnvironment.form();
   final models.Environment parent = models.Environment.getByName(parentEnv);
   if (parent != null) {
       final NewEnvironment env = new NewEnvironment();
       env.parent = parent.getId();
       form = form.fill(env);
   }
   final List<Owner> owners = UserMembership.getOrgsForUser(request().username());
   return ok(views.html.newEnvironment.render(form, owners));
   */
   return CompletableFuture.completedFuture(ok());
 }
 @Override
 public CompletableFuture<CommitResponse> prepareAndCommit(Transaction transaction) {
   Map<Database, Transaction> subTransactions = createSubTransactions(transaction);
   if (subTransactions.isEmpty()) {
     return CompletableFuture.completedFuture(CommitResponse.success(ImmutableList.of()));
   } else if (subTransactions.size() == 1) {
     Entry<Database, Transaction> entry = subTransactions.entrySet().iterator().next();
     return entry.getKey().prepareAndCommit(entry.getValue());
   } else {
     if (transactionManager == null) {
       throw new IllegalStateException("TransactionManager is not initialized");
     }
     return transactionManager.execute(transaction);
   }
 }
Exemple #21
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  @Override
  public CompletableFuture<Void> listen(Address address, Consumer<Connection> listener) {
    Assert.notNull(address, "address");
    Assert.notNull(listener, "listener");
    if (listening) return CompletableFuture.completedFuture(null);

    ThreadContext context = ThreadContext.currentContextOrThrow();
    synchronized (this) {
      if (listenFuture == null) {
        listenFuture = new CompletableFuture<>();
        listen(address, listener, context);
      }
    }
    return listenFuture;
  }
  @Override
  public CompletableFuture<Void> destroy() {
    destroyed = true;

    executor.shutdown();
    backgroundExecutor.shutdown();
    communicationExecutor.shutdown();

    listeners.clear();

    clusterCommunicator.removeSubscriber(updateMessageSubject);
    clusterCommunicator.removeSubscriber(updateRequestSubject);
    clusterCommunicator.removeSubscriber(antiEntropyAdvertisementSubject);
    return CompletableFuture.completedFuture(null);
  }
Exemple #23
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 public CompletableFuture<Object> melange(
     int pi1,
     short ps1,
     byte pb1,
     double pd1,
     char pc1,
     boolean pz1,
     long lg1,
     Object po1,
     float pf1,
     CompletableFuture<String> blocker,
     long var) {
   // blocks with a lot of primitives in the stack
   this.setFields(pi1, ps1, pb1, pd1, pc1, pz1, lg1, po1, pf1, await(blocker) != null ? 0 : 1);
   return CompletableFuture.completedFuture(":");
 }
Exemple #24
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 public CompletableFuture<Object> melange(
     int pi1,
     short ps1,
     byte pb1,
     double pd1,
     char pc1,
     boolean pz1,
     long lg1,
     Object po1,
     float pf1,
     CompletableFuture<String> blocker,
     long var) {
   await(blocker);
   setFields(pi1, ps1, pb1, pd1, pc1, pz1, lg1, po1, pf1, 0);
   return CompletableFuture.completedFuture(":");
 }
Exemple #25
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 static <T> CompletableFuture<T> withFuture(
     Param<FutureMode> futureParam, ExecutorService asyncExec, Supplier<T> s) {
   switch (futureParam.get()) {
     case COMPLETED:
       // If completed, complete the future directly with the result.
       // No separate thread or executor is instantiated.
       return CompletableFuture.completedFuture(s.get());
     case ASYNC:
       // If async, execute the supply function asynchronously,
       // and return a future that's completed when the supply
       // function returns.
       return CompletableFuture.supplyAsync(s, asyncExec);
     default:
       throw new IllegalStateException();
   }
 }
  @Test
  public void testSendActionInBackground() throws Exception {
    instance.connect();

    String action = "test action";

    when(taskService.submitTask(any())).thenReturn(CompletableFuture.completedFuture(action));
    mockTaskService();

    CompletableFuture<String> future =
        instance.sendActionInBackground(DEFAULT_CHANNEL_NAME, action);

    verify(pircBotX).sendIRC();
    verify(outputIrc).action(DEFAULT_CHANNEL_NAME, action);
    assertThat(future.get(TIMEOUT, TIMEOUT_UNIT), is(action));
  }
 public static CompletableFuture<Optional<DataContainer>> getChunkData(
     WorldServer world, IChunkLoader chunkLoader, Vector3i chunkCoords) {
   int x = chunkCoords.getX();
   int y = chunkCoords.getY();
   int z = chunkCoords.getZ();
   if (!(chunkLoader instanceof IMixinAnvilChunkLoader)
       || !SpongeChunkLayout.instance.isValidChunk(x, y, z)) {
     return CompletableFuture.completedFuture(Optional.empty());
   }
   File worldDir = ((IMixinAnvilChunkLoader) chunkLoader).getWorldDir().toFile();
   return SpongeScheduler.getInstance()
       .submitAsyncTask(
           () -> {
             DataInputStream stream = RegionFileCache.getChunkInputStream(worldDir, x, z);
             return Optional.ofNullable(readDataFromRegion(stream));
           });
 }
  @Test
  public void shouldSucceedAfterFewAsynchronousRetries() throws Exception {
    // given
    final RetryExecutor executor = new AsyncRetryExecutor(schedulerMock);
    given(serviceMock.safeAsync())
        .willReturn(
            failedAsync(new SocketException("First")),
            failedAsync(new IOException("Second")),
            CompletableFuture.completedFuture("42"));

    // when
    final CompletableFuture<String> future =
        executor.getFutureWithRetry(ctx -> serviceMock.safeAsync());

    // then
    assertThat(future.get()).isEqualTo("42");
  }
  /**
   * Registers a cache entry listener based on the supplied configuration.
   *
   * @param configuration the listener's configuration.
   */
  public void register(CacheEntryListenerConfiguration<K, V> configuration) {
    if (configuration.getCacheEntryListenerFactory() == null) {
      return;
    }
    EventTypeAwareListener<K, V> listener =
        new EventTypeAwareListener<>(configuration.getCacheEntryListenerFactory().create());

    CacheEntryEventFilter<K, V> filter = event -> true;
    if (configuration.getCacheEntryEventFilterFactory() != null) {
      filter =
          new EventTypeFilter<K, V>(
              listener, configuration.getCacheEntryEventFilterFactory().create());
    }

    Registration<K, V> registration = new Registration<>(configuration, filter, listener);
    dispatchQueues.putIfAbsent(registration, CompletableFuture.completedFuture(null));
  }
Exemple #30
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  public static void main(String... args) {

    CompletableFuture<String> a =
        CompletableFuture.supplyAsync(
            () -> {
              try {
                Thread.sleep(5000);
                return "a1";
              } catch (InterruptedException e) {
                throw new RuntimeException(e);
              }
            });

    a.thenCombineAsync(CompletableFuture.completedFuture("b2"), (x, y) -> x + " : " + y)
        .thenAcceptAsync(System.out::println)
        .join();
  }