%% -*- 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 Trivial utility file to help handle common tasks
-module(rlx_cmd_args).
-export([args2state/2,
format_error/1]).
-include("relx.hrl").
%%============================================================================
%% API
%%============================================================================
-spec args2state([getopt:option()], [string()]) ->
{ok, {rlx_state:t(), [string()]}} |
relx:error().
args2state(Opts, Targets) ->
case run_creates(Opts) of
Error = {error, _} ->
Error;
{ok, CommandLineConfig} ->
RelName = rlx_util:to_atom(proplists:get_value(relname, Opts, undefined)),
RelVsn = proplists:get_value(relvsn, Opts, undefined),
handle_config(Opts, convert_targets(Targets),
[{default_release, {RelName, RelVsn}} | CommandLineConfig])
end.
-spec format_error(Reason::term()) -> iolist().
format_error({invalid_targets, Targets}) ->
io_lib:format("One config must be specified! not ~p~n", [Targets]);
format_error({invalid_option_arg, Arg}) ->
case Arg of
{goals, Goal} ->
io_lib:format("Invalid Goal argument -g ~p~n", [Goal]);
{relname, RelName} ->
io_lib:format("Invalid Release Name argument -n ~p~n", [RelName]);
{relvsn, RelVsn} ->
io_lib:format("Invalid Release Version argument -n ~p~n", [RelVsn]);
{output_dir, Outdir} ->
io_lib:format("Invalid Output Directory argument -n ~p~n", [Outdir]);
{lib_dir, LibDir} ->
io_lib:format("Invalid Library Directory argument -n ~p~n", [LibDir]);
{log_level, LogLevel} ->
io_lib:format("Invalid Log Level argument -n ~p~n", [LogLevel]);
{path, Path} ->
io_lib:format("Invalid code path argument -n ~p~n", [Path])
end;
format_error({invalid_config_file, Config}) ->
io_lib:format("Invalid configuration file specified: ~p", [Config]);
format_error({invalid_caller, Caller}) ->
io_lib:format("Invalid caller specified: ~s", [Caller]);
format_error({failed_to_parse, Spec}) ->
io_lib:format("Unable to parse spec ~s", [Spec]);
format_error({failed_to_parse_override, QA}) ->
io_lib:format("Failed to parse app override ~s", [QA]);
format_error({not_directory, Dir}) ->
io_lib:format("Library directory does not exist: ~s", [Dir]);
format_error({invalid_log_level, LogLevel}) ->
io_lib:format("Invalid log level specified -V ~p, log level must be in the"
" range 0..3", [LogLevel]).
%%%===================================================================
%%% Internal Functions
%%%===================================================================
-spec handle_config(any(), [atom()], proplists:proplist()) ->
{ok, {rlx_state:t(), [string()]}} | relx:error().
handle_config(Opts, Targets, CommandLineConfig) ->
case validate_config(proplists:get_value(config, Opts, [])) of
Error = {error, _} ->
Error;
{ok, Config} ->
case rlx_state:new(Config, CommandLineConfig, Targets) of
{error, Error} ->
{error, Error};
State ->
{ok, State}
end
end.
-spec convert_targets([string()]) -> [rlx_state:action()].
convert_targets([]) ->
[release];
convert_targets(Targets) ->
lists:map(fun list_to_atom/1, Targets).
-spec validate_config(file:filename() | list() | undefined) ->
{ok, file:filename() | list() | undefined} | relx:error().
validate_config(undefined) ->
{ok, undefined};
validate_config("") ->
{ok, undefined};
validate_config(Config) ->
case filelib:is_regular(Config) of
true ->
{ok, filename:absname(Config)};
false ->
case io_lib:printable_list(Config) of
true ->
?RLX_ERROR({invalid_config_file, Config});
false when is_list(Config) ->
{ok, Config};
false ->
?RLX_ERROR({invalid_config_file, Config})
end
end.
run_creates(Opts) ->
try
Conf = lists:flatten(lists:foldl(fun(X, Acc) ->
[create(X, Opts) | Acc]
end, [], proplists:get_keys(Opts))),
{ok, Conf}
catch
throw:E ->
E
end.
create(log_level, Opts) ->
LogLevel = proplists:get_value(log_level, Opts, 0),
if
LogLevel >= 0, LogLevel =< 3 ->
{log, ec_cmd_log:new(LogLevel, command_line,
rerlx_util:intensity())};
true ->
throw(?RLX_ERROR({invalid_log_level, LogLevel}))
end;
create(goal, Opts) ->
Goals = proplists:get_value(goals, Opts, []) ++
proplists:get_all_values(goal, Opts),
case convert_goals(Goals, []) of
Error={error, _} ->
throw(Error);
{ok, Specs} ->
{goals, Specs}
end;
create(goals, Opts) ->
Goals = proplists:get_value(goals, Opts, []) ++
proplists:get_all_values(goal, Opts),
case convert_goals(Goals, []) of
Error={error, _} ->
throw(Error);
{ok, Specs} ->
{goals, Specs}
end;
create(override, Opts) ->
Overrides = proplists:get_value(overrides, Opts, []) ++
proplists:get_all_values(override, Opts),
case convert_overrides(Overrides, []) of
{ok, Overrides2} ->
{overrides, Overrides2};
Error ->
throw(Error)
end;
create(overrides, Opts) ->
Overrides = proplists:get_value(overrides, Opts, []) ++
proplists:get_all_values(override, Opts),
case convert_overrides(Overrides, []) of
{ok, Overrides2} ->
{overrides, Overrides2};
Error ->
throw(Error)
end;
create(output_dir, Opts) ->
OutputDir = proplists:get_value(output_dir, Opts, "./_rel"),
{output_dir, filename:absname(OutputDir)};
create(lib_dir, Opts) ->
Dirs = proplists:get_all_values(lib_dir, Opts) ++
proplists:get_value(lib_dirs, Opts, []),
ExpDirs = rlx_util:wildcard_paths(Dirs),
case check_lib_dirs(ExpDirs) of
Error = {error, _} ->
throw(Error);
ok ->
LibDirs = [rlx_util:to_binary(Dir) || Dir <- ExpDirs],
{lib_dirs, LibDirs}
end;
create(lib_dirs, Opts) ->
Dirs = proplists:get_all_values(lib_dir, Opts) ++
proplists:get_value(lib_dirs, Opts, []),
ExpDirs = rlx_util:wildcard_paths(Dirs),
case check_lib_dirs(ExpDirs) of
Error = {error, _} ->
throw(Error);
ok ->
LibDirs = [rlx_util:to_binary(Dir) || Dir <- ExpDirs],
{lib_dirs, LibDirs}
end;
create(root_dir, Opts) ->
Dir = proplists:get_value(root_dir, Opts, undefined),
case Dir of
undefined ->
{ok, Cwd} = file:get_cwd(),
{root_dir, Cwd};
_ ->
{root_dir, filename:absname(Dir)}
end;
create(default_libs, Opts) ->
Def = proplists:get_value(default_libs, Opts, true),
{default_libs, Def};
create(overlay_vars, Opts)->
OverlayVars = proplists:get_all_values(overlay_vars, Opts),
{overlay_vars, OverlayVars};
create(sys_config, Opts) ->
SysConfig = proplists:get_value(sys_config, Opts, undefined),
{sys_config, SysConfig};
create(vm_args, Opts) ->
VmArgs = proplists:get_value(vm_args, Opts, undefined),
{vm_args, VmArgs};
create(system_libs, Opts) ->
case proplists:get_value(system_libs, Opts, true) of
SystemLibs when SystemLibs =:= true
; SystemLibs =:= "true" ->
{system_libs, true};
SystemLibs when SystemLibs =:= false
; SystemLibs =:= "false" ->
{system_libs, false};
SystemLibsDir when is_list(SystemLibsDir) ->
{system_libs, SystemLibsDir}
end;
create(upfrom, Opts) ->
case proplists:get_value(upfrom, Opts, undefined) of
undefined ->
[];
UpFrom ->
{upfrom, UpFrom}
end;
create(caller, Opts) ->
case proplists:get_value(caller, Opts, api) of
"command_line" ->
{caller, command_line};
"commandline" ->
{caller, command_line};
"api" ->
{caller, api};
api ->
{caller, api};
commandline ->
{caller, command_line};
command_line ->
{caller, command_line};
Caller ->
?RLX_ERROR({invalid_caller, Caller})
end;
create(paths, Opts) ->
Dirs = proplists:get_all_values(path, Opts) ++
proplists:get_value(paths, Opts, []),
case check_lib_dirs(Dirs) of
Error = {error, _} ->
throw(Error);
ok ->
code:add_pathsa([filename:absname(Path) || Path <- Dirs]),
[]
end;
create(dev_mode, Opts) ->
DevMode = proplists:get_value(dev_mode, Opts, false),
{dev_mode, DevMode};
create(include_erts, Opts) ->
case proplists:get_value(include_erts, Opts, true) of
IncludeErts when IncludeErts =:= true
; IncludeErts =:= "true" ->
{include_erts, true};
IncludeErts when IncludeErts =:= false
; IncludeErts =:= "false" ->
{include_erts, false};
Erts when is_list(Erts) ->
{include_erts, Erts}
end;
create(_, _) ->
[].
-spec convert_overrides([{atom(), string() | binary()} |
string() | binary()], [{atom(), string() | binary()}]) ->
{ok, [string() | binary()]} | relx:error().
convert_overrides([], Acc) ->
{ok, Acc};
convert_overrides([QA = {OverrideApp, _} | Rest], Acc)
when erlang:is_atom(OverrideApp) ->
convert_overrides(Rest, [QA | Acc]);
convert_overrides([Override | Rest], Acc)
when erlang:is_list(Override); erlang:is_binary(Override) ->
case re:split(Override, ":") of
[AppName, AppDir] ->
convert_overrides(Rest, [{rlx_util:to_atom(AppName), AppDir} | Acc]);
[AppName, Drive, AppDir] ->
convert_overrides(Rest, [{rlx_util:to_atom(AppName), <<Drive/binary, ":", AppDir/binary>>} | Acc]);
_ ->
?RLX_ERROR({failed_to_parse_override, Override})
end;
convert_overrides([QA | _], _) ->
?RLX_ERROR({failed_to_parse_override, QA}).
-spec convert_goals([string()], [rlx_depsolver:constraint()]) ->
{ok,[rlx_depsolver:constraint()]} |
relx:error().
convert_goals([], Specs) ->
%% Reverse the specs because order matters to rlx_depsolver
{ok, lists:reverse(Specs)};
convert_goals([RawSpec | Rest], Acc) ->
parse_goal(RawSpec, Rest, Acc).
-spec parse_goal(string() | binary() | rlx_depsolver:constraint(),
[string() | binary() | rlx_depsolver:constraint()],
rlx_depsolver:constraints()) ->
{ok, rlx_depsolver:constraints()} | relx:error().
parse_goal(Spec, Rest, Acc)
when erlang:is_atom(Spec) ->
convert_goals(Rest, [Spec | Acc]);
parse_goal(Spec, Rest, Acc)
when erlang:is_tuple(Spec) ->
convert_goals(Rest, [Spec | Acc]);
parse_goal(RawSpec, Rest, Acc) ->
case rlx_goal:parse(RawSpec) of
{ok, Spec} ->
convert_goals(Rest, [Spec | Acc]);
{fail, _} ->
?RLX_ERROR({failed_to_parse, RawSpec})
end.
-spec check_lib_dirs([string()]) -> ok | relx:error().
check_lib_dirs([]) ->
ok;
check_lib_dirs([Dir | Rest]) ->
case filelib:is_dir(Dir) of
false ->
?RLX_ERROR({not_directory, Dir});
true ->
check_lib_dirs(Rest)
end.