## This Source Code Form is subject to the terms of the Mozilla Public ## License, v. 2.0. If a copy of the MPL was not distributed with this ## file, You can obtain one at https://mozilla.org/MPL/2.0/. ## ## Copyright (c) 2007-2023 VMware, Inc. or its affiliates. All rights reserved. defmodule RabbitMQCtl do alias RabbitMQ.CLI.Core.{ CommandModules, Config, Distribution, ExitCodes, Helpers, Output, Parser } alias RabbitMQ.CLI.{CommandBehaviour, FormatterBehaviour} alias RabbitMQ.CLI.Ctl.Commands.HelpCommand # Enable unit tests for private functions @compile if Mix.env() == :test, do: :export_all @type options() :: map() @type command_result() :: {:error, ExitCodes.exit_code(), term()} | term() @spec main(list()) :: no_return() def main(["--auto-complete" | []]) do handle_shutdown(:ok) end def main(unparsed_command) do exec_command(unparsed_command, &process_output/3) |> handle_shutdown end def exec_command([] = unparsed_command, _) do {_args, parsed_options, _} = Parser.parse_global(unparsed_command) # this invocation is considered to be invalid. curl and grep do the # same thing. {:error, ExitCodes.exit_usage(), Enum.join(HelpCommand.all_usage(parsed_options), "")} end def exec_command(["--help"] = unparsed_command, _) do {_args, parsed_options, _} = Parser.parse_global(unparsed_command) # the user asked for --help and we are displaying it to her, # reporting a success {:ok, ExitCodes.exit_ok(), Enum.join(HelpCommand.all_usage(parsed_options), "")} end def exec_command(["--version"] = _unparsed_command, output_fun) do # rewrite `--version` as `version` exec_command(["version"], output_fun) end def exec_command(["--auto-complete" | args], output_fun) do # rewrite `--auto-complete` as `autocomplete` exec_command(["autocomplete" | args], output_fun) end def exec_command(unparsed_command, output_fun) do {command, command_name, arguments, parsed_options, invalid} = Parser.parse(unparsed_command) case {command, invalid} do {:no_command, _} -> command_not_found_string = case command_name do "" -> "" _ -> "\nCommand '#{command_name}' not found. \n" end usage_string = command_not_found_string <> Enum.join(HelpCommand.all_usage(parsed_options), "") {:error, ExitCodes.exit_usage(), usage_string} {{:suggest, suggested}, _} -> suggest_message = "\nCommand '#{command_name}' not found. \n" <> "Did you mean '#{suggested}'? \n" {:error, ExitCodes.exit_usage(), suggest_message} {_, [_ | _]} -> argument_validation_error_output( {:bad_option, invalid}, command, unparsed_command, parsed_options ) _ -> options = parsed_options |> merge_all_defaults |> normalise_options try do do_exec_parsed_command(unparsed_command, output_fun, arguments, command, options) catch error_type, error -> maybe_print_stacktrace(error_type, error, __STACKTRACE__, options) format_error(error, options, command) end end end def do_exec_parsed_command(unparsed_command, output_fun, arguments, command, options) do case options[:help] do true -> {:ok, ExitCodes.exit_ok(), HelpCommand.command_usage(command, options)} _ -> {arguments, options} = command.merge_defaults(arguments, options) maybe_with_distribution(command, options, fn -> # rabbitmq/rabbitmq-cli#278 case Helpers.normalise_node_option(options) do {:error, _} = err -> format_error(err, options, command) {:ok, options} -> # The code below implements a tiny decision tree that has # to do with CLI argument and environment state validation. case command.validate(arguments, options) do :ok -> # then optionally validate execution environment case CommandBehaviour.validate_execution_environment( command, arguments, options ) do :ok -> result = proceed_to_execution(command, arguments, options) handle_command_output(result, command, options, output_fun) {:validation_failure, err} -> environment_validation_error_output(err, command, unparsed_command, options) {:error, _} = err -> format_error(err, options, command) end {:validation_failure, err} -> argument_validation_error_output(err, command, unparsed_command, options) {:error, _} = err -> format_error(err, options, command) end end end) end end defp proceed_to_execution(command, arguments, options) do _ = maybe_print_banner(command, arguments, options) maybe_run_command(command, arguments, options) end defp maybe_run_command(_, _, %{dry_run: true}) do :ok end defp maybe_run_command(command, arguments, options) do try do command.run(arguments, options) |> command.output(options) catch error_type, error -> maybe_print_stacktrace(error_type, error, __STACKTRACE__, options) format_error(error, options, command) end end def maybe_print_stacktrace(error_type, :undef = error, stacktrace, _opts) do do_print_stacktrace(error_type, error, stacktrace) end def maybe_print_stacktrace(error_type, :function_clause = error, stacktrace, _opts) do do_print_stacktrace(error_type, error, stacktrace) end def maybe_print_stacktrace(error_type, :badarg = error, stacktrace, _opts) do do_print_stacktrace(error_type, error, stacktrace) end def maybe_print_stacktrace(error_type, {:case_clause, _val} = error, stacktrace, _opts) do do_print_stacktrace(error_type, error, stacktrace) end def maybe_print_stacktrace(error_type, error, stacktrace, %{print_stacktrace: true}) do do_print_stacktrace(error_type, error, stacktrace) end def maybe_print_stacktrace(_error_type, _error, _stacktrace, %{print_stacktrace: false}) do nil end def maybe_print_stacktrace(_error_type, _error, _stacktrace, _opts) do nil end defp do_print_stacktrace(error_type, error, stacktrace) do IO.puts("Stack trace: \n") IO.puts(Exception.format(error_type, error, stacktrace)) end def handle_command_output(output, command, options, output_fun) do case output do {:error, _, _} = err -> format_error(err, options, command) {:error, _} = err -> format_error(err, options, command) _ -> output_fun.(output, command, options) end end defp process_output(output, command, options) do formatter = Config.get_formatter(command, options) printer = Config.get_printer(command, options) output |> Output.format_output(formatter, options) |> Output.print_output(printer, options) |> case do {:error, _} = err -> format_error(err, options, command) other -> other end end defp output_device(exit_code) do case exit_code == ExitCodes.exit_ok() do true -> :stdio false -> :stderr end end @spec handle_shutdown({:error, integer(), nil} | atom()) :: no_return() defp handle_shutdown({:error, exit_code, nil}) do exit_program(exit_code) end defp handle_shutdown({_, exit_code, output}) do device = output_device(exit_code) Enum.each(List.flatten([output]), fn line -> IO.puts(device, Helpers.string_or_inspect(line)) end) exit_program(exit_code) end defp handle_shutdown(_) do exit_program(ExitCodes.exit_ok()) end def merge_all_defaults(%{} = options) do options |> merge_defaults_node |> merge_defaults_timeout |> merge_defaults_longnames end defp merge_defaults_node(%{} = opts) do longnames_opt = Config.get_option(:longnames, opts) try do default_rabbit_nodename = Helpers.get_rabbit_hostname(longnames_opt) Map.merge(%{node: default_rabbit_nodename}, opts) catch _error_type, _err -> opts end end defp merge_defaults_timeout(%{} = opts), do: Map.merge(%{timeout: :infinity}, opts) defp merge_defaults_longnames(%{} = opts), do: Map.merge(%{longnames: false}, opts) defp normalise_options(opts) do opts |> normalise_timeout end defp normalise_timeout(%{timeout: timeout} = opts) when is_integer(timeout) do Map.put(opts, :timeout, timeout * 1000) end defp normalise_timeout(opts) do opts end # Suppress banner if --quiet option is provided defp maybe_print_banner(_, _, %{quiet: true}) do nil end # Suppress banner if --silent option is provided defp maybe_print_banner(_, _, %{silent: true}) do nil end defp maybe_print_banner(command, args, opts) do # Suppress banner if a machine-readable formatter is used formatter = Map.get(opts, :formatter) case FormatterBehaviour.machine_readable?(formatter) do true -> nil false -> case command.banner(args, opts) do nil -> nil banner -> case banner do list when is_list(list) -> for line <- list, do: IO.puts(line) binary when is_binary(binary) -> IO.puts(binary) end end end end def argument_validation_error_output(err_detail, command, unparsed_command, options) do err = format_validation_error(err_detail) base_error = "Error (argument validation): #{err}\nArguments given:\n\t#{unparsed_command |> Enum.join(" ")}" validation_error_output(err_detail, base_error, command, options) end def environment_validation_error_output(err_detail, command, unparsed_command, options) do err = format_validation_error(err_detail) base_error = "Error: #{err}\nArguments given:\n\t#{unparsed_command |> Enum.join(" ")}" validation_error_output(err_detail, base_error, command, options) end defp validation_error_output(err_detail, base_error, command, options) do usage = HelpCommand.base_usage(command, options) message = base_error <> "\n" <> usage {:error, ExitCodes.exit_code_for({:validation_failure, err_detail}), message} end defp format_validation_error(:not_enough_args), do: "not enough arguments." defp format_validation_error({:not_enough_args, detail}), do: "not enough arguments: #{detail}" defp format_validation_error(:too_many_args), do: "too many arguments." defp format_validation_error({:too_many_args, detail}), do: "too many arguments: #{detail}" defp format_validation_error(:bad_argument), do: "Bad argument." defp format_validation_error({:bad_argument, detail}), do: "Bad argument: #{detail}" defp format_validation_error({:unsupported_target, details}) do details end defp format_validation_error({:bad_option, opts}) do header = "Invalid options for this command:" Enum.join( [ header | for {key, val} <- opts do "#{key} : #{val}" end ], "\n" ) end defp format_validation_error({:bad_info_key, keys}), do: "Info key(s) #{Enum.join(keys, ",")} are not supported" defp format_validation_error(:rabbit_app_is_stopped), do: "this command requires the 'rabbit' app to be running on the target node. Start it with 'rabbitmqctl start_app'." defp format_validation_error(:rabbit_app_is_running), do: "this command requires the 'rabbit' app to be stopped on the target node. Stop it with 'rabbitmqctl stop_app'." defp format_validation_error(:node_running), do: "this command requires the target node to be stopped." defp format_validation_error(:node_not_running), do: "this command requires the target node to be running." defp format_validation_error(:unsupported_formatter), do: "the requested formatter is not supported by this command" defp format_validation_error({:not_a_cluster_member, potential_member}), do: "node #{potential_member} is not a member of the cluster" defp format_validation_error(err), do: inspect(err) @spec exit_program(integer()) :: no_return() defp exit_program(code) do _ = :net_kernel.stop() exit({:shutdown, code}) end defp format_error({:error, {:node_name, :hostname_not_allowed}}, _, _) do {:error, ExitCodes.exit_dataerr(), "Unsupported node name: hostname is invalid (possibly contains unsupported characters).\nIf using FQDN node names, use the -l / --longnames argument."} end defp format_error({:error, {:node_name, :invalid_node_name_head}}, _, _) do {:error, ExitCodes.exit_dataerr(), "Unsupported node name: node name head (the part before the @) is invalid. Only alphanumerics, _ and - characters are allowed.\nIf using FQDN node names, use the -l / --longnames argument"} end defp format_error({:error, {:node_name, err_reason} = result}, opts, module) do op = CommandModules.module_to_command(module) node = opts[:node] || "(failed to parse or compute default value)" {:error, ExitCodes.exit_code_for(result), "Error: operation #{op} failed due to invalid node name (node: #{node}, reason: #{err_reason}).\nIf using FQDN node names, use the -l / --longnames argument"} end defp format_error({:error, {:badrpc_multi, :nodedown, [node | _]} = result}, opts, _) do diagnostics = get_node_diagnostics(node) {:error, ExitCodes.exit_code_for(result), badrpc_error_message_header(node, opts) <> diagnostics} end defp format_error({:error, {:badrpc_multi, :timeout, [node | _]} = result}, opts, module) do op = CommandModules.module_to_command(module) {:error, ExitCodes.exit_code_for(result), "Error: operation #{op} on node #{node} timed out. Timeout value used: #{opts[:timeout]}"} end defp format_error({:error, {:badrpc, :nodedown} = result}, opts, _) do diagnostics = get_node_diagnostics(opts[:node]) {:error, ExitCodes.exit_code_for(result), badrpc_error_message_header(opts[:node], opts) <> diagnostics} end defp format_error({:error, {:badrpc, :timeout} = result}, opts, module) do op = CommandModules.module_to_command(module) {:error, ExitCodes.exit_code_for(result), "Error: operation #{op} on node #{opts[:node]} timed out. Timeout value used: #{opts[:timeout]}"} end defp format_error({:error, {:badrpc, {:timeout, to}} = result}, opts, module) do op = CommandModules.module_to_command(module) {:error, ExitCodes.exit_code_for(result), "Error: operation #{op} on node #{opts[:node]} timed out. Timeout value used: #{to}"} end defp format_error({:error, {:badrpc, {:timeout, to, warning}}}, opts, module) do op = CommandModules.module_to_command(module) {:error, ExitCodes.exit_code_for({:timeout, to}), "Error: operation #{op} on node #{opts[:node]} timed out. Timeout value used: #{to}. #{warning}"} end defp format_error({:error, {:no_such_vhost, vhost} = result}, _opts, _) do {:error, ExitCodes.exit_code_for(result), "Virtual host '#{vhost}' does not exist"} end defp format_error({:error, {:not_found, vhost, name} = result}, _opts, _) do {:error, ExitCodes.exit_code_for(result), "Object (queue, stream, exchange, etc) '#{name}' was not found in virtual host '#{vhost}'"} end defp format_error({:error, {:not_found, object_type, vhost, name} = result}, _opts, _) do {:error, ExitCodes.exit_code_for(result), "#{object_type} '#{name}' was not found in virtual host '#{vhost}'"} end defp format_error({:error, :not_found = result}, _opts, _) do {:error, ExitCodes.exit_code_for(result), "Object (queue, stream, exchange, etc) was not found"} end defp format_error( {:error, {:incompatible_version, local_version, remote_version} = result}, _opts, _ ) do {:error, ExitCodes.exit_code_for(result), "Detected potential version incompatibility. CLI tool version: #{local_version}, server: #{remote_version}"} end defp format_error({:error, {:timeout, to} = result}, opts, module) do op = CommandModules.module_to_command(module) {:error, ExitCodes.exit_code_for(result), "Error: operation #{op} on node #{opts[:node]} timed out. Timeout value used: #{to}"} end defp format_error({:error, :timeout = result}, opts, module) do op = CommandModules.module_to_command(module) {:error, ExitCodes.exit_code_for(result), "Error: operation #{op} on node #{opts[:node]} timed out. Timeout value used: #{opts[:timeout]}"} end defp format_error({:error, :timeout, msg}, opts, module) do op = CommandModules.module_to_command(module) {:error, ExitCodes.exit_code_for(:timeout), "Error: operation #{op} on node #{opts[:node]} timed out: #{msg}. Timeout value used: #{opts[:timeout]}"} end # Plugins defp format_error({:error, {:enabled_plugins_mismatch, cli_path, node_path}}, opts, _module) do {:error, ExitCodes.exit_dataerr(), "Could not update enabled plugins file at #{cli_path}: target node #{opts[:node]} uses a different path (#{node_path})"} end defp format_error({:error, {:cannot_read_enabled_plugins_file, path, :eacces}}, _opts, _module) do {:error, ExitCodes.exit_dataerr(), "Could not read enabled plugins file at #{path}: the file does not exist or permission was denied (EACCES)"} end defp format_error({:error, {:cannot_read_enabled_plugins_file, path, :enoent}}, _opts, _module) do {:error, ExitCodes.exit_dataerr(), "Could not read enabled plugins file at #{path}: the file does not exist (ENOENT)"} end defp format_error({:error, {:cannot_write_enabled_plugins_file, path, :eacces}}, _opts, _module) do {:error, ExitCodes.exit_dataerr(), "Could not update enabled plugins file at #{path}: the file does not exist or permission was denied (EACCES)"} end defp format_error({:error, {:cannot_write_enabled_plugins_file, path, :enoent}}, _opts, _module) do {:error, ExitCodes.exit_dataerr(), "Could not update enabled plugins file at #{path}: the file does not exist (ENOENT)"} end # Special case health checks. This makes it easier to change # output of all health checks at once. defp format_error({:error, :check_failed}, %{formatter: "json"}, _) do {:error, ExitCodes.exit_unavailable(), nil} end defp format_error({:error, :check_failed}, _, _) do {:error, ExitCodes.exit_unavailable(), nil} end defp format_error({:error, :check_failed, err}, %{formatter: "json"}, _) when is_map(err) do {:ok, res} = JSON.encode(err) {:error, ExitCodes.exit_unavailable(), res} end defp format_error({:error, :check_failed, err}, %{formatter: "json"}, _) do {:error, ExitCodes.exit_unavailable(), err} end defp format_error({:error, :check_failed, err}, _, _) do {:error, ExitCodes.exit_unavailable(), err} end defp format_error({:error, nil}, _, _) do # the command intends to produce no output, e.g. a return code # is sufficient {:error, ExitCodes.exit_unavailable(), nil} end # Catch all clauses defp format_error({:error, err}, %{formatter: "json"}, _) when is_map(err) do {:ok, res} = JSON.encode(err) {:error, ExitCodes.exit_unavailable(), res} end defp format_error({:error, exit_code, err}, %{formatter: "json"}, _) when is_map(err) do {:ok, res} = JSON.encode(err) {:error, exit_code, res} end defp format_error({:error, exit_code, err}, _, _) do string_err = Helpers.string_or_inspect(err) {:error, exit_code, "Error:\n#{string_err}"} end defp format_error({:error, err} = result, _, _) do string_err = Helpers.string_or_inspect(err) {:error, ExitCodes.exit_code_for(result), "Error:\n#{string_err}"} end defp format_error(error, _opts, _module) do {:error, ExitCodes.exit_software(), "#{inspect(error)}\n"} end defp get_node_diagnostics(nil) do "Target node is not defined" end defp get_node_diagnostics(node_name) do to_string(:rabbit_nodes_common.diagnostics([node_name])) end defp badrpc_error_message_header(node, _opts) do """ Error: unable to perform an operation on node '#{node}'. Please see diagnostics information and suggestions below. Most common reasons for this are: * Target node is unreachable (e.g. due to hostname resolution, TCP connection or firewall issues) * CLI tool fails to authenticate with the server (e.g. due to CLI tool's Erlang cookie not matching that of the server) * Target node is not running In addition to the diagnostics info below: * See the CLI, clustering and networking guides on https://rabbitmq.com/documentation.html to learn more * Consult server logs on node #{node} * If target node is configured to use long node names, don't forget to use --longnames with CLI tools """ end ## Tries to enable erlang distribution, which can be configured ## via distribution callback in the command as :cli, :none or {:custom, fun()}. ## :cli - default rabbitmqctl node name ## :none - do not start a distribution (e.g. offline command) ## {:fun, fun} - run a custom function to enable distribution. ## custom mode is usefult for commands which should have specific node name. ## Runs code if distribution is successful, or not needed. @spec maybe_with_distribution(module(), options(), (() -> command_result())) :: command_result() defp maybe_with_distribution(command, options, code) do try do maybe_with_distribution_without_catch(command, options, code) catch error_type, error -> maybe_print_stacktrace(error_type, error, __STACKTRACE__, options) format_error(error, options, command) end end defp maybe_with_distribution_without_catch(command, options, code) do distribution_type = CommandBehaviour.distribution(command, options) case distribution_type do :none -> code.() :cli -> case Distribution.start(options) do :ok -> code.() {:ok, _} -> code.() {:error, reason} -> {:error, ExitCodes.exit_config(), "Distribution failed: #{inspect(reason)}"} end {:fun, fun} -> case fun.(options) do :ok -> code.() {:error, reason} -> {:error, ExitCodes.exit_config(), "Distribution failed: #{inspect(reason)}"} end end end end