%% -*- erlang-indent-level: 4; indent-tabs-mode: nil; fill-column: 80 -*-
%%% Copyright 2012 Erlware, LLC. All Rights Reserved.
%%%
%%% This file is provided to you under the Apache License,
%%% Version 2.0 (the "License"); you may not use this file
%%% except in compliance with the License. You may obtain
%%% a copy of the License at
%%%
%%% http://www.apache.org/licenses/LICENSE-2.0
%%%
%%% Unless required by applicable law or agreed to in writing,
%%% software distributed under the License is distributed on an
%%% "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
%%% KIND, either express or implied. See the License for the
%%% specific language governing permissions and limitations
%%% under the License.
%%%---------------------------------------------------------------------------
%%% @author Eric Merritt <[email protected]>
%%% @copyright (C) 2012 Erlware, LLC.
%%% @doc
-module(relx).
-export([main/1,
do/2,
do/7,
do/8,
do/9,
format_error/1,
opt_spec_list/0]).
-export_type([error/0]).
-include_lib("relx/include/relx.hrl").
%%============================================================================
%% types
%%============================================================================
-type error() :: {error, {Module::module(), Reason::term()}}.
-type goal() :: string() | binary() | rlx_depsolver:constraint().
%%============================================================================
%% API
%%============================================================================
-spec main([string()]) -> ok | error() | {ok, rlx_state:t()}.
main(Args) ->
OptSpecList = opt_spec_list(),
Result = case getopt:parse(OptSpecList, Args) of
{ok, {Options, NonOptions}} ->
case lists:member(help, Options) of
true ->
usage();
false ->
do([{caller, command_line} | Options], NonOptions)
end;
{error, Detail} ->
?RLX_ERROR({opt_parse, Detail})
end,
case Result of
{error, _} ->
report_error(rlx_state:caller(rlx_state:new([], undefined),
command_line),
Result);
_ ->
Result
end.
%% @doc provides an API to run the Relx process from erlang applications
%%
%% @param RelName - The release name to build (maybe `undefined`)
%% @param RelVsn - The release version to build (maybe `undefined`)
%% @param Goals - The release goals for the system in depsolver or Relx goal
%% format
%% @param LibDirs - The library dirs that should be used for the system
%% @param OutputDir - The directory where the release should be built to
%% @param Configs - The list of config files for the system
-spec do(atom(), string(), [goal()], [file:name()], rlx_log:log_level(),
[file:name()], file:name() | undefined) ->
ok | error() | {ok, rlx_state:t()}.
do(RelName, RelVsn, Goals, LibDirs, LogLevel, OutputDir, Config) ->
{ok, Cwd} = file:get_cwd(),
do(Cwd, RelName, RelVsn, Goals, LibDirs, LogLevel, OutputDir, [], Config).
%% @doc provides an API to run the Relx process from erlang applications
%%
%% @param RootDir - The root directory for the project
%% @param RelName - The release name to build (maybe `undefined`)
%% @param RelVsn - The release version to build (maybe `undefined`)
%% @param Goals - The release goals for the system in depsolver or Relx goal
%% format
%% @param LibDirs - The library dirs that should be used for the system
%% @param OutputDir - The directory where the release should be built to
%% @param Configs - The list of config files for the system
-spec do(file:name(), atom(), string(), [goal()], [file:name()],
rlx_log:log_level(), [file:name()], file:name() | undefined) ->
ok | error() | {ok, rlx_state:t()}.
do(RootDir, RelName, RelVsn, Goals, LibDirs, LogLevel, OutputDir, Configs) ->
do(RootDir, RelName, RelVsn, Goals, LibDirs, LogLevel, OutputDir, [], Configs).
%% @doc provides an API to run the Relx process from erlang applications
%%
%% @param RootDir - The root directory for the system
%% @param RelName - The release name to build (maybe `undefined`)
%% @param RelVsn - The release version to build (maybe `undefined`)
%% @param Goals - The release goals for the system in depsolver or Relx goal
%% format
%% @param LibDirs - The library dirs that should be used for the system
%% @param OutputDir - The directory where the release should be built to
%% @param Overrides - A list of overrides for the system
%% @param Configs - The list of config files for the system
-spec do(file:name(), atom(), string(), [goal()], [file:name()],
rlx_log:log_level(), [file:name()], [{atom(), file:name()}], file:name() | undefined) ->
ok | error() | {ok, rlx_state:t()}.
do(RootDir, RelName, RelVsn, Goals, LibDirs, LogLevel, OutputDir, Overrides, Config) ->
do([{relname, RelName},
{relvsn, RelVsn},
{goals, Goals},
{overrides, Overrides},
{output_dir, OutputDir},
{lib_dirs, LibDirs},
{root_dir, RootDir},
{log_level, LogLevel},
{config, Config}],
["release"]).
%% @doc provides an API to run the Relx process from erlang applications
%%
%% @param Opts - A proplist of options. There are good defaults for each of
%% these entries, so any or all may be omitted. Individual options may be:
%%
%% <dl>
%% <dt><pre>{relname, RelName}</pre></dt>
%% <dd>The release name to build </dd>
%% <dt><pre>{relvsn, RelVsn}</pre></dt>
%% <dd>The release version to build</dd>
%% <dt><pre>{goals, Goals}</pre></dt>
%% <dd>The release goals for the system in depsolver or Relx goal
%% format (@see goals())</dd>
%% <dt><pre>{lib_dirs, LibDirs}</pre></dt>
%% <dd>A list of library dirs that should be used for the system</dd>
%% <dt><pre>{lib_dir, LibDir}</pre></dt>
%% <dd>A single lib dir that should be used for the system, may appear any
%% number of times and may be used in conjunction with lib_dirs</dd>
%% <dt><pre>{output_dir, OutputDir}</pre></dt>
%% <dd>The directory where the release should be built to</dd>
%% <dt><pre>{root_dir, RootDir}</pre></dt>
%% <dd>The base directory for this run of relx. </dd>
%% <dt><pre>{config, Config}</pre></dt>
%% <dd>The path to a relx config file</dd>
%% <dt><pre>{log_level, LogLevel}</pre></dt>
%% <dd>Defines the verbosity of output. Maybe a number between 0 and 2, with
%% with higher values being more verbose</dd>
%% <dt><pre>{overrides, Overrides}</pre></dt>
%% <dd>A list of app overrides for the system in the form of [{AppName:atom(),
%% Dir:string() | binary()} | string() | binary()] where the string or binary
%% is in the form "AppName:AppDir"</dd>
%% <dt><pre>{override, Override}</pre></dt>
%% <dd>A single of app override for the system in the same form as entries for
%% Overrides</dd>
%% </dl>
-spec do(proplists:proplist(), [string()]) ->
ok | error() | {ok, rlx_state:t()}.
do(Opts, NonOpts) ->
case rlx_cmd_args:args2state(Opts, NonOpts) of
{ok, State} ->
run_relx_process(State);
Error={error, _} ->
Error
end.
-spec opt_spec_list() -> [getopt:option_spec()].
opt_spec_list() ->
[{relname, $n, "relname", string,
"Specify the name for the release that will be generated"},
{relvsn, $v, "relvsn", string, "Specify the version for the release"},
{goal, $g, "goal", string,
"Specify a target constraint on the system. These are usually the OTP"},
{upfrom, $u, "upfrom", string,
"Only valid with relup target, specify the release to upgrade from"},
{output_dir, $o, "output-dir", string,
"The output directory for the release. This is `./` by default."},
{help, $h, "help", undefined,
"Print usage"},
{lib_dir, $l, "lib-dir", string,
"Additional dirs that should be searched for OTP Apps"},
{disable_default_libs, undefined, "disable-default-libs",
{boolean, false},
"Disable the default system added lib dirs (means you must add them all manually"},
{log_level, $V, "verbose", {integer, 1},
"Verbosity level, maybe between 0 and 2"},
{override_app, $a, "override_app", string,
"Provide an app name and a directory to override in the form <appname>:<app directory>"},
{config, $c, "config", {string, ""}, "The path to a config file"},
{root_dir, $r, "root", string, "The project root directory"}].
-spec format_error(Reason::term()) -> string().
format_error({invalid_return_value, Provider, Value}) ->
io_lib:format(lists:flatten([rlx_provider:format(Provider), " returned an invalid value ",
io_lib:format("~p", [Value])]), []);
format_error({opt_parse, {invalid_option, Opt}}) ->
io_lib:format("invalid option ~s~n", [Opt]);
format_error({opt_parse, Arg}) ->
io_lib:format("~p~n", [Arg]);
format_error({error, {relx, Reason}}) ->
format_error(Reason);
format_error({error, {Module, Reason}}) ->
io_lib:format("~s~n", [Module:format_error(Reason)]).
%%============================================================================
%% internal api
%%============================================================================
run_relx_process(State) ->
rlx_log:info(rlx_state:log(State), "Starting relx build process ..."),
rlx_log:debug(rlx_state:log(State),
fun() ->
rlx_state:format(State)
end),
run_providers(State).
%% @doc for now the 'config' provider is special in that it generates the
%% providers used by the rest of the system. We expect the config provider to be
%% the first provider in the system. Once the config provider is run, we get the
%% providers again and run the rest of them (because they could have been
%% updated by the config process).
run_providers(State0) ->
[ConfigProvider | _] = rlx_state:providers(State0),
case run_provider(ConfigProvider, {ok, State0}) of
Err = {error, _} ->
Err;
{ok, State1} ->
RootDir = rlx_state:root_dir(State1),
ok = file:set_cwd(RootDir),
Providers = rlx_state:providers(State1),
Result = run_providers(ConfigProvider, Providers, State1),
handle_output(State1, rlx_state:caller(State1), Result)
end.
handle_output(State, command_line, E={error, _}) ->
report_error(State, E),
init:stop(127);
handle_output(_State, command_line, _) ->
init:stop(0);
handle_output(_State, api, Result) ->
Result.
run_providers(ConfigProvider, Providers, State0) ->
case Providers of
[ConfigProvider | Rest] ->
%% IF the config provider is still the first provider do not run it
%% again just run the rest.
lists:foldl(fun run_provider/2, {ok, State0}, Rest);
_ ->
lists:foldl(fun run_provider/2, {ok, State0}, Providers)
end.
-spec run_provider(rlx_provider:t(), {ok, rlx_state:t()} | error()) ->
{ok, rlx_state:t()} | error().
run_provider(_Provider, Error = {error, _}) ->
Error;
run_provider(Provider, {ok, State0}) ->
rlx_log:debug(rlx_state:log(State0), "Running provider ~p~n",
[rlx_provider:impl(Provider)]),
case rlx_provider:do(Provider, State0) of
{ok, State1} ->
rlx_log:debug(rlx_state:log(State0), "Provider successfully run: ~p~n",
[rlx_provider:impl(Provider)]),
{ok, State1};
E={error, _} ->
rlx_log:debug(rlx_state:log(State0), "Provider (~p) failed with: ~p~n",
[rlx_provider:impl(Provider), E]),
E
end.
-spec usage() -> ok.
usage() ->
getopt:usage(opt_spec_list(), "relx", "[*release-specification-file*]").
-spec report_error(rlx_state:t(), error()) -> none() | error().
report_error(State, Error) ->
case Error of
{error, {relx, {opt_parse, _}}} ->
io:format(standard_error, format_error(Error), []),
usage();
{error, {rlx_cmd_args, _}} ->
io:format(standard_error, format_error(Error), []),
usage();
_ ->
io:format(standard_error, format_error(Error), [])
end,
case rlx_state:caller(State) of
command_line ->
erlang:halt(127);
api ->
Error
end.