Exemple #1
0
TEST(table, convert_to_rabbitmq) {
  Table table_in;
  table_in.insert(TableEntry("void_key", TableValue()));
  table_in.insert(TableEntry("bool_key", true));
  table_in.insert(TableEntry("int8_key", int8_t(8)));
  table_in.insert(TableEntry("int16_key", int16_t(16)));
  table_in.insert(TableEntry("int32_key", int32_t(32)));
  table_in.insert(TableEntry("int64_key", int64_t(64)));
  table_in.insert(TableEntry("float_key", float(1.5)));
  table_in.insert(TableEntry("double_key", double(2.25)));
  table_in.insert(TableEntry("string_key", "A string!"));

  std::vector<TableValue> array_in;
  array_in.push_back(TableValue(false));
  array_in.push_back(TableValue(int32_t(10)));
  array_in.push_back(TableValue(std::string("Another string")));

  table_in.insert(TableEntry("array_key", array_in));

  Table table_inner;
  table_inner.insert(TableEntry("inner_string", "An inner table"));
  table_inner.insert(TableEntry("inner array", array_in));

  table_in.insert(TableEntry("table_key", table_inner));

  BasicMessage::ptr_t message = BasicMessage::Create();
  message->HeaderTable(table_in);

  EXPECT_TRUE(message->HeaderTableIsSet());
  Table table_out = message->HeaderTable();
  EXPECT_EQ(table_in.size(), table_out.size());
  EXPECT_TRUE(std::equal(table_in.begin(), table_in.end(), table_out.begin()));
}
std::string SimpleRpcClient::Call(const std::string &message)
{
    BasicMessage::ptr_t outgoing_msg = BasicMessage::Create();
    outgoing_msg->Body(message);

    BasicMessage::ptr_t reply = Call(outgoing_msg);
    return reply->Body();
}
Exemple #3
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TEST(table, convert_to_rabbitmq_empty) {
  Table table_in;

  BasicMessage::ptr_t message = BasicMessage::Create();
  message->HeaderTable(table_in);

  Table table_out = message->HeaderTable();
  EXPECT_EQ(0, table_out.size());
}
Exemple #4
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TEST_F(connected_test, get_ok)
{
  BasicMessage::ptr_t message = BasicMessage::Create("Message Body");
  std::string queue = channel->DeclareQueue("");
  channel->BasicPublish("", queue, message, true);

  Envelope::ptr_t new_message;
  EXPECT_TRUE(channel->BasicGet(new_message, queue));
  EXPECT_EQ(message->Body(), new_message->Message()->Body());
}
set<uint> ServiceClient::receive(const set<uint>& ids, const uint& timeout) {
  using namespace chrono;
  auto end = high_resolution_clock::now() + milliseconds(timeout);

  set<uint> received;
  
  // check if we have not received the reply already
  for (auto& id : ids) {
    auto iterator = replies.find(id);
    if (iterator != replies.end()) {
      received.insert(id);    
    }
  }
  if (received.size() == ids.size()) {
    return received; // all packets arrived, return
  }

  while (1) {  
    Envelope::ptr_t envelope;
    BasicMessage::ptr_t message; 

    do {  
      auto now = high_resolution_clock::now();
      int delta = duration_cast<milliseconds>(end-now).count();
      if (delta <= 0) {
        return received; // we are out of time already, leave!
      }

      bool newmsg = channel->BasicConsumeMessage(envelope, delta);
      if (newmsg == false) {
        return received; // timeout reached and nothing was received
      }

      message = envelope->Message(); 

    } while (message->ContentType() != "application/msgpack" ||
             message->CorrelationIdIsSet() == false);
      
    uint id = stoi(message->CorrelationId());
    replies.emplace(id, message);
    
    auto iterator = ids.find(id);
    if (iterator != ids.end()) { 
      // we were waiting for this message
      received.insert(id);
      if (received.size() == ids.size()) {
        return received; // all packets arrived, return
      }
    }

  }
}
Exemple #6
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TEST(test_get, get_big)
{
  // Smallest frame size allowed by AMQP
  Channel::ptr_t channel = Channel::Create(connected_test::GetBrokerHost(), 5672, "guest", "guest", "/", 4096);
  // Create a message with a body larger than a single frame
  BasicMessage::ptr_t message = BasicMessage::Create(std::string(4099, 'a'));
  std::string queue = channel->DeclareQueue("");

  channel->BasicPublish("", queue, message);
  Envelope::ptr_t new_message;
  EXPECT_TRUE(channel->BasicGet(new_message, queue));
  EXPECT_EQ(message->Body(), new_message->Message()->Body());
}
Exemple #7
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void Channel::BasicPublish(const std::string &exchange_name,
                           const std::string &routing_key,
                           const BasicMessage::ptr_t message, bool mandatory,
                           bool immediate) {
  m_impl->CheckIsConnected();
  amqp_channel_t channel = m_impl->GetChannel();

  m_impl->CheckForError(amqp_basic_publish(
      m_impl->m_connection, channel, amqp_cstring_bytes(exchange_name.c_str()),
      amqp_cstring_bytes(routing_key.c_str()), mandatory, immediate,
      message->getAmqpProperties(), message->getAmqpBody()));

  // If we've done things correctly we can get one of 4 things back from the
  // broker
  // - basic.ack - our channel is in confirm mode, messsage was 'dealt with' by
  // the broker
  // - basic.return then basic.ack - the message wasn't delievered, but was
  // dealt with
  // - channel.close - probably tried to publish to a non-existant exchange, in
  // any case error!
  // - connection.clsoe - something really bad happened
  const boost::array<boost::uint32_t, 2> PUBLISH_ACK = {
      {AMQP_BASIC_ACK_METHOD, AMQP_BASIC_RETURN_METHOD}};
  amqp_frame_t response;
  boost::array<amqp_channel_t, 1> channels = {{channel}};
  m_impl->GetMethodOnChannel(channels, response, PUBLISH_ACK);

  if (AMQP_BASIC_RETURN_METHOD == response.payload.method.id) {
    MessageReturnedException message_returned =
        m_impl->CreateMessageReturnedException(
            *(reinterpret_cast<amqp_basic_return_t *>(
                response.payload.method.decoded)),
            channel);

    const boost::array<boost::uint32_t, 1> BASIC_ACK = {
        {AMQP_BASIC_ACK_METHOD}};
    m_impl->GetMethodOnChannel(channels, response, BASIC_ACK);
    m_impl->ReturnChannel(channel);
    m_impl->MaybeReleaseBuffersOnChannel(channel);
    throw message_returned;
  }

  m_impl->ReturnChannel(channel);
  m_impl->MaybeReleaseBuffersOnChannel(channel);
}
BasicMessage::ptr_t SimpleRpcClient::Call(BasicMessage::ptr_t message)
{
    message->ReplyTo(m_incoming_tag);
    m_channel->BasicPublish("amq.direct", m_outgoing_tag, message);

    BasicMessage::ptr_t incoming_msg = m_channel->BasicConsumeMessage(m_incoming_tag)->Message();

    return incoming_msg;
}
std::string SimpleSubscriber::WaitForMessageString()
{
	BasicMessage::ptr_t incoming = WaitForMessage();
	return incoming->Body();
}