private void evalOp(final Context context) throws OpProcessorException {
if (logger.isDebugEnabled()) {
final RequestMessage msg = context.getRequestMessage();
logger.debug(
"Sessionless request {} for eval in thread {}",
msg.getRequestId(),
Thread.currentThread().getName());
}
evalOpInternal(context, context::getGremlinExecutor, bindingMaker.apply(context));
}
/**
* Examines the {@link RequestMessage} and extracts the session token. The session is then either
* found or a new one is created.
*/
protected static Session getSession(final Context context, final RequestMessage msg) {
final String sessionId = (String) msg.getArgs().get(Tokens.ARGS_SESSION);
logger.debug(
"In-session request {} for eval for session {} in thread {}",
msg.getRequestId(),
sessionId,
Thread.currentThread().getName());
final Session session =
sessions.computeIfAbsent(sessionId, k -> new Session(k, context, sessions));
session.touch();
return session;
}
@Override
public RequestMessage deserializeRequest(final ByteBuf msg) throws SerializationException {
try {
final Kryo kryo = kryoThreadLocal.get();
final byte[] payload = new byte[msg.readableBytes()];
msg.readBytes(payload);
try (final Input input = new Input(payload)) {
// by the time the message gets here, the mime length/type have been already read, so this
// part just
// needs to process the payload.
final UUID id = kryo.readObject(input, UUID.class);
final String processor = input.readString();
final String op = input.readString();
final RequestMessage.Builder builder =
RequestMessage.build(op).overrideRequestId(id).processor(processor);
final Map<String, Object> args = kryo.readObject(input, HashMap.class);
args.forEach(builder::addArg);
return builder.create();
}
} catch (Exception ex) {
logger.warn(
"Request [{}] could not be deserialized by {}.",
msg,
GryoMessageSerializerV1d0.class.getName());
throw new SerializationException(ex);
}
}
/**
* Session based requests accept a "close" operator in addition to "eval". A close will trigger
* the session to be killed and any uncommitted transaction to be rolled-back.
*/
@Override
public Optional<ThrowingConsumer<Context>> selectOther(final RequestMessage requestMessage)
throws OpProcessorException {
if (requestMessage.getOp().equals(Tokens.OPS_CLOSE)) {
// this must be an in-session request
if (!requestMessage.optionalArgs(Tokens.ARGS_SESSION).isPresent()) {
final String msg =
String.format(
"A message with an [%s] op code requires a [%s] argument",
Tokens.OPS_CLOSE, Tokens.ARGS_SESSION);
throw new OpProcessorException(
msg,
ResponseMessage.build(requestMessage)
.code(ResponseStatusCode.REQUEST_ERROR_INVALID_REQUEST_ARGUMENTS)
.result(msg)
.create());
}
return Optional.of(
ctx -> {
// validate the session is present and then remove it if it is.
final Session sessionToClose =
sessions.get(requestMessage.getArgs().get(Tokens.ARGS_SESSION).toString());
if (null == sessionToClose) {
final String msg =
String.format(
"There was no session named %s to close",
requestMessage.getArgs().get(Tokens.ARGS_SESSION).toString());
throw new OpProcessorException(
msg,
ResponseMessage.build(requestMessage)
.code(ResponseStatusCode.REQUEST_ERROR_INVALID_REQUEST_ARGUMENTS)
.result(msg)
.create());
}
sessionToClose.kill();
});
} else {
return Optional.empty();
}
}
@Override
public ByteBuf serializeRequestAsBinary(
final RequestMessage requestMessage, final ByteBufAllocator allocator)
throws SerializationException {
ByteBuf encodedMessage = null;
try {
final Kryo kryo = kryoThreadLocal.get();
try (final OutputStream baos = new ByteArrayOutputStream()) {
final Output output = new Output(baos);
final String mimeType = serializeToString ? MIME_TYPE_STRINGD : MIME_TYPE;
output.writeByte(mimeType.length());
output.write(mimeType.getBytes(UTF8));
kryo.writeObject(output, requestMessage.getRequestId());
output.writeString(requestMessage.getProcessor());
output.writeString(requestMessage.getOp());
kryo.writeObject(output, requestMessage.getArgs());
final long size = output.total();
if (size > Integer.MAX_VALUE)
throw new SerializationException(
String.format("Message size of %s exceeds allocatable space", size));
encodedMessage = allocator.buffer((int) size);
encodedMessage.writeBytes(output.toBytes());
}
return encodedMessage;
} catch (Exception ex) {
if (encodedMessage != null) ReferenceCountUtil.release(encodedMessage);
logger.warn(
"Request [{}] could not be serialized by {}.",
requestMessage.toString(),
GryoMessageSerializerV1d0.class.getName());
throw new SerializationException(ex);
}
}
protected void evalOp(final Context context) throws OpProcessorException {
final RequestMessage msg = context.getRequestMessage();
final Session session = getSession(context, msg);
// place the session on the channel context so that it can be used during serialization. in
// this way
// the serialization can occur on the same thread used to execute the gremlin within the
// session. this
// is important given the threadlocal nature of Graph implementation transactions.
context.getChannelHandlerContext().channel().attr(StateKey.SESSION).set(session);
evalOpInternal(
context,
session::getGremlinExecutor,
() -> {
final Bindings bindings = session.getBindings();
// parameter bindings override session bindings if present
Optional.ofNullable((Map<String, Object>) msg.getArgs().get(Tokens.ARGS_BINDINGS))
.ifPresent(bindings::putAll);
return bindings;
});
}
@Override
protected Optional<ThrowingConsumer<Context>> validateEvalMessage(final RequestMessage message)
throws OpProcessorException {
super.validateEvalMessage(message);
if (!message.optionalArgs(Tokens.ARGS_SESSION).isPresent()) {
final String msg =
String.format(
"A message with an [%s] op code requires a [%s] argument",
Tokens.OPS_EVAL, Tokens.ARGS_SESSION);
throw new OpProcessorException(
msg,
ResponseMessage.build(message)
.code(ResponseStatusCode.REQUEST_ERROR_INVALID_REQUEST_ARGUMENTS)
.result(msg)
.create());
}
return Optional.empty();
}
/**
* A useful method for those extending this class, where the means for binding construction can be
* supplied to this class. This function is used in {@link #evalOp(Context)} to create the final
* argument to {@link super#evalOpInternal(Context, Supplier, BindingSupplier)}. In this way an
* extending class can use the default {@link BindingSupplier} which carries a lot of re-usable
* functionality or provide a new one to override the existing approach.
*/
protected Function<Context, BindingSupplier> getBindingMaker() {
return context ->
() -> {
final RequestMessage msg = context.getRequestMessage();
final Bindings bindings = new SimpleBindings();
// don't allow both rebindings and aliases parameters as they are the same thing. aliases
// were introduced
// as of 3.1.0 as a replacement for rebindings. this check can be removed when rebindings
// are completely
// removed from the protocol
final boolean hasRebindings = msg.getArgs().containsKey(Tokens.ARGS_REBINDINGS);
final boolean hasAliases = msg.getArgs().containsKey(Tokens.ARGS_ALIASES);
if (hasRebindings && hasAliases) {
final String error =
"Prefer use of the 'aliases' parameter over 'rebindings' and do not use both";
throw new OpProcessorException(
error,
ResponseMessage.build(msg)
.code(ResponseStatusCode.REQUEST_ERROR_INVALID_REQUEST_ARGUMENTS)
.result(error)
.create());
}
final String rebindingOrAliasParameter =
hasRebindings ? Tokens.ARGS_REBINDINGS : Tokens.ARGS_ALIASES;
// alias any global bindings to a different variable.
if (msg.getArgs().containsKey(rebindingOrAliasParameter)) {
final Map<String, String> rebinds =
(Map<String, String>) msg.getArgs().get(rebindingOrAliasParameter);
for (Map.Entry<String, String> kv : rebinds.entrySet()) {
boolean found = false;
final Map<String, Graph> graphs = context.getGraphManager().getGraphs();
if (graphs.containsKey(kv.getValue())) {
bindings.put(kv.getKey(), graphs.get(kv.getValue()));
found = true;
}
if (!found) {
final Map<String, TraversalSource> traversalSources =
context.getGraphManager().getTraversalSources();
if (traversalSources.containsKey(kv.getValue())) {
bindings.put(kv.getKey(), traversalSources.get(kv.getValue()));
found = true;
}
}
if (!found) {
final String error =
String.format(
"Could not alias [%s] to [%s] as [%s] not in the Graph or TraversalSource global bindings",
kv.getKey(), kv.getValue(), kv.getValue());
throw new OpProcessorException(
error,
ResponseMessage.build(msg)
.code(ResponseStatusCode.REQUEST_ERROR_INVALID_REQUEST_ARGUMENTS)
.result(error)
.create());
}
}
}
// add any bindings to override any other supplied
Optional.ofNullable((Map<String, Object>) msg.getArgs().get(Tokens.ARGS_BINDINGS))
.ifPresent(bindings::putAll);
return bindings;
};
}