1

I am having an issue with Handle Cast. After the module loads it calls periodic_comm which after every 5 seconds calls the save_data method. In my save_data method the logs are being printed but the statement does nothing.

GenServer.cast(__MODULE__, {:save_load_data, data})

The handle cast method is defined here

 def handle_cast({:save_load_data, data}, state) do
  Logger.error("uin saving data====================================")
  # state = Map.put_new(state, :load_data, data)
  # Logger.debug "updated state : #{inspect state}"
  {:noreply, state}
end

The entire file looks like this

      defmodule Core.Inverter.Manager do
    # core inverter process that handles the inverter communication
    use GenServer
    require Logger

    def start_link(_) do
      Logger.info("putting some string")
      GenServer.start_link(__MODULE__, %{}, name: __MODULE__)
    end

    @impl true
    def init(_) do
      Logger.info("inverter Manager init'ed")
      {:ok, %{configs: nil, inverter_connection: nil, inverter_impl: nil}}
    end

    # public api
    # initialize the inverter and start periodic comm
    def init_inverter(configs) do
      GenServer.cast(__MODULE__, {:init_inverter, configs})
      GenServer.cast(__MODULE__, {:start_periodic_comm, configs})
    end

    def inverter_off() do
      GenServer.call(__MODULE__, :inverter_off)
    end

    @impl true
    def handle_cast({:init_inverter, configs}, state) do
      Logger.debug("initializing the inverter")
      # fetching inverter type/configurations
      inverter_impl = get_inverter_impl(configs)
      # initializing inverter comm channel
      inverter_connection = inverter_impl.init(configs)

      state = %{
        configs: configs,
        inverter_connection: inverter_connection,
        inverter_impl: inverter_impl
      }

      Logger.warn("inverter type #{state.inverter_impl}")
      {:noreply, state}
    end

    def handle_cast({:start_periodic_comm, configs}, state) do
      Logger.warn(
        "Actually Starting inverter periodic COMM with inverter type #{state.inverter_impl}"
      )

      start_periodic_comm(state)
      {:noreply, state}
    end

    @impl true
    def handle_call(
          :inverter_off,
          _from,
          %{inverter_impl: inverter_impl, inverter_connection: inverter_connection} = state
        ) do
      {:ok, inverter_connection} = inverter_impl.inverter_off(inverter_connection)
      {:reply, :ok, %{state | inverter_connection: inverter_connection}}
    end

    def handle_cast({:save_load_data, data}, state) do
      Logger.error("uin saving data====================================")
      # state = Map.put_new(state, :load_data, data)
      # Logger.debug "updated state : #{inspect state}"
      {:noreply, state}
    end

    defp start_periodic_comm(state) do
      periodic_comm(state)
    end

    defp periodic_comm(state) do
      # call functions from the inverter_type module, e.g infit.ex
      receive do
      after
        5000 ->
          {:ok, data} = state.inverter_impl.get_load_data(state)
          save_data(data)
      end

      periodic_comm(state)
    end

    # defp save_data() do end
    def save_data(data) do
      Logger.debug("saving data")
      Logger.debug("in savinf data data is : #{inspect(data)}")
      GenServer.cast(__MODULE__, {:save_load_data, data})
    end

    defp get_inverter_impl(configs) do
      # add case statements here
      Core.Inverter.Infini
    end
  end
4

I'm not so familiar with elixir's syntax, but it seems to me that periodic_comm is looping:

    defp periodic_comm(state) do
      # call functions from the inverter_type module, e.g infit.ex
      receive do
      after
        5000 ->
          {:ok, data} = state.inverter_impl.get_load_data(state)
          save_data(data)
      end

      periodic_comm(state)
    end

regardless of the result of save_data, the thread is endlessly looping over calls to periodic_comm, so it gets no chance to receive and execute the save_load_data message.

In order to fix it, you should refactor the server to have the logic in handle_X without looping, which receive all kind of messages. You can use erlang:start_timer (I don't know the elixir's counterpart) or rely on the Timeout in the gen_server return values to receive timeout messages.

| improve this answer | |
  • 1
    I would use :timer.send_interval (erlang.org/doc/man/timer.html#send_interval-2) to send a repeating message like this. – Paweł Obrok Nov 20 at 10:46
  • 1
    @PawełObrok the timer module scales poorly if the amount of timers is huge (erlang.org/doc/efficiency_guide/commoncaveats.html#timer-module), sometimes this may be an issue. erlang:start_timer handles timers internally in a way more scalable fashion. – José M Nov 20 at 10:54
  • I will check and get back to you on this – Umer Kiani Nov 20 at 10:56
  • 1
    @JoséM That's a good point, but of course depends on your usage. The docs say "if many processes create and cancel timers frequently" - if you're creating a constant number of timers at system startup, that fire every couple minutes or something, that might not be a problem. – Paweł Obrok 2 days ago
  • @PawełObrok this is our use case the timers will be created at startup and fire on a fixed frequency on different modules. – Umer Kiani 2 days ago

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.