defmodule Appsignal do @moduledoc """ AppSignal for Elixir. Follow the [installation guide](https://docs.appsignal.com/elixir/installation.html) to install AppSignal into your Elixir app. This module contains the main AppSignal OTP application, as well as a few helper functions for sending metrics to AppSignal. """ use Application alias Appsignal.Config require Logger @doc false def start(_type, _args) do import Supervisor.Spec, warn: false initialize() Appsignal.Error.Backend.attach() Appsignal.Ecto.attach() children = [ {Appsignal.Tracer, []}, {Appsignal.Monitor, []}, {Appsignal.Probes, []} ] result = Supervisor.start_link(children, strategy: :one_for_one, name: Appsignal.Supervisor) # Add our default system probes. It's important that this is called after # the Suportvisor has started. Otherwise the GenServer cannot register the # probe. add_default_probes() result end @doc false def stop(_state) do Appsignal.Logger.debug("AppSignal stopping.") end @doc false def config_change(_changed, _new, _removed) do # Spawn a separate process that reloads the configuration. AppSignal can't # reload it in the same process because the GenServer would continue # calling itself once it reached `Application.put_env` in # `Appsignal.Config`. spawn(fn -> :ok = Appsignal.Nif.stop() :ok = initialize() end) end @doc false def initialize do case {Config.initialize(), Config.configured_as_active?()} do {_, false} -> Logger.info("AppSignal disabled.") {:ok, true} -> Appsignal.Logger.debug("AppSignal starting.") Config.write_to_environment() Appsignal.Nif.start() if Appsignal.Nif.loaded?() do Appsignal.Logger.debug("AppSignal started.") else Logger.error( "Failed to start AppSignal. Please run the diagnose task " <> "(https://docs.appsignal.com/elixir/command-line/diagnose.html) " <> "to debug your installation." ) end {{:error, :invalid_config}, true} -> Logger.warn( "Warning: No valid AppSignal configuration found, continuing with " <> "AppSignal metrics disabled." ) end end @doc false def add_default_probes do Appsignal.Probes.register(:erlang, &Appsignal.Probes.ErlangProbe.call/0) end @doc """ Set a gauge for a measurement of a metric. """ @spec set_gauge(String.t(), float | integer, map) :: :ok def set_gauge(key, value, tags \\ %{}) def set_gauge(key, value, tags) when is_integer(value) do set_gauge(key, value + 0.0, tags) end def set_gauge(key, value, %{} = tags) when is_float(value) do encoded_tags = Appsignal.Utils.DataEncoder.encode(tags) :ok = Appsignal.Nif.set_gauge(key, value, encoded_tags) end @doc """ Increment a counter of a metric. """ @spec increment_counter(String.t(), number, map) :: :ok def increment_counter(key, count \\ 1, tags \\ %{}) def increment_counter(key, count, %{} = tags) when is_number(count) do encoded_tags = Appsignal.Utils.DataEncoder.encode(tags) :ok = Appsignal.Nif.increment_counter(key, count + 0.0, encoded_tags) end @doc """ Add a value to a distribution Use this to collect multiple data points that will be merged into a graph. """ @spec add_distribution_value(String.t(), float | integer, map) :: :ok def add_distribution_value(key, value, tags \\ %{}) def add_distribution_value(key, value, tags) when is_integer(value) do add_distribution_value(key, value + 0.0, tags) end def add_distribution_value(key, value, %{} = tags) when is_float(value) do encoded_tags = Appsignal.Utils.DataEncoder.encode(tags) :ok = Appsignal.Nif.add_distribution_value(key, value, encoded_tags) end defdelegate instrument(fun), to: Appsignal.Instrumentation defdelegate instrument(name, fun), to: Appsignal.Instrumentation defdelegate instrument(name, category, fun), to: Appsignal.Instrumentation defdelegate set_error(exception, stacktrace), to: Appsignal.Instrumentation defdelegate set_error(kind, reason, stacktrace), to: Appsignal.Instrumentation defdelegate send_error(exception, stacktrace), to: Appsignal.Instrumentation defdelegate send_error(kind, reason, stacktrace), to: Appsignal.Instrumentation defdelegate send_error(kind, reason, stacktrace, fun), to: Appsignal.Instrumentation end