%% -*- 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 2011 Erlware, LLC.
%%% @doc
%%% A module that provides config parsing and support to the system
%%% @end
%%%-------------------------------------------------------------------
-module(rlx_prv_config).
-behaviour(rlx_provider).
%% API
-export([init/1,
do/1,
format_error/1]).
-include("relx.hrl").
%%%===================================================================
%%% API
%%%===================================================================
%% @doc Required by the system, but not used in this provider
-spec init(rlx_state:t()) -> {ok, rlx_state:t()} | relx:error().
init(State) ->
{ok, State}.
%% @doc parse all the configs currently specified in the state,
%% populating the state as a result.
-spec do(rlx_state:t()) ->{ok, rlx_state:t()} | relx:error().
do(State) ->
case rlx_state:config_file(State) of
[] ->
search_for_dominating_config(State);
undefined ->
search_for_dominating_config(State);
ConfigFile when erlang:is_list(ConfigFile) ->
load_config(ConfigFile, State)
end.
-spec format_error(Reason::term()) -> iolist().
format_error({consult, ConfigFile, Reason}) ->
io_lib:format("Unable to read file ~s: ~s", [ConfigFile,
file:format_error(Reason)]);
format_error({invalid_term, Term}) ->
io_lib:format("Invalid term in config file: ~p", [Term]).
%%%===================================================================
%%% Internal Functions
%%%===================================================================
search_for_dominating_config({ok, Cwd}) ->
ConfigFile = filename:join(Cwd, "relx.config"),
case ec_file:exists(ConfigFile) of
true ->
{ok, ConfigFile};
false ->
search_for_dominating_config(parent_dir(Cwd))
end;
search_for_dominating_config({error, _}) ->
no_config;
search_for_dominating_config(State0) ->
{ok, Cwd} = file:get_cwd(),
case search_for_dominating_config({ok, Cwd}) of
{ok, Config} ->
%% we need to set the root dir on state as well
{ok, RootDir} = parent_dir(Config),
State1 = rlx_state:root_dir(State0, RootDir),
load_config(Config, rlx_state:config_file(State1, Config));
no_config ->
{ok, State0}
end.
%% @doc Given a directory returns the name of the parent directory.
-spec parent_dir(Filename::string()) ->
{ok, DirName::string()} | {error, no_parent_dir}.
parent_dir(Filename) ->
parent_dir(filename:split(Filename), []).
%% @doc Given list of directories, splits the list and returns all dirs but the
%% last as a path.
-spec parent_dir([string()], [string()]) ->
{ok, DirName::string()} | {error, no_parent_dir}.
parent_dir([_H], []) ->
{error, no_parent_dir};
parent_dir([], []) ->
{error, no_parent_dir};
parent_dir([_H], Acc) ->
{ok, filename:join(lists:reverse(Acc))};
parent_dir([H | T], Acc) ->
parent_dir(T, [H | Acc]).
-spec load_config(file:filename(), rlx_state:t()) ->
{ok, rlx_state:t()} | relx:error().
load_config(ConfigFile, State) ->
{ok, CurrentCwd} = file:get_cwd(),
ok = file:set_cwd(filename:dirname(ConfigFile)),
Result = case file:consult(ConfigFile) of
{error, Reason} ->
?RLX_ERROR({consult, ConfigFile, Reason});
{ok, Terms} ->
CliTerms = rlx_state:cli_args(State),
lists:foldl(fun load_terms/2, {ok, State}, merge_configs(CliTerms, Terms))
end,
ok = file:set_cwd(CurrentCwd),
Result.
-spec load_terms(term(), {ok, rlx_state:t()} | relx:error()) ->
{ok, rlx_state:t()} | relx:error().
load_terms({default_release, {RelName, RelVsn}}, {ok, State}) ->
NewVsn = parse_vsn(RelVsn),
{ok, rlx_state:default_configured_release(State, RelName, NewVsn)};
load_terms({paths, Paths}, {ok, State}) ->
code:add_pathsa([filename:absname(Path) || Path <- Paths]),
{ok, State};
load_terms({default_libs, DefaultLibs}, {ok, State}) ->
State2 = rlx_state:put(State,
default_libs,
DefaultLibs),
{ok, State2};
load_terms({system_libs, SystemLibs}, {ok, State}) ->
State2 = rlx_state:put(State,
system_libs,
SystemLibs),
{ok, State2};
load_terms({lib_dirs, Dirs}, {ok, State}) ->
State2 =
rlx_state:add_lib_dirs(State,
[list_to_binary(Dir) || Dir <- rlx_util:wildcard_paths(Dirs)]),
{ok, State2};
load_terms({providers, Providers0}, {ok, State0}) ->
Providers1 = gen_providers(Providers0, State0),
case Providers1 of
{_, E={error, _}} ->
E;
{Providers3, {ok, State3}} ->
{ok, rlx_state:providers(State3, Providers3)}
end;
load_terms({add_providers, Providers0}, {ok, State0}) ->
Providers1 = gen_providers(Providers0, State0),
case Providers1 of
{_, E={error, _}} ->
E;
{Providers3, {ok, State1}} ->
ExistingProviders = rlx_state:providers(State1),
{ok, rlx_state:providers(State1, ExistingProviders ++ Providers3)}
end;
load_terms({skip_apps, SkipApps0}, {ok, State0}) ->
{ok, rlx_state:skip_apps(State0, SkipApps0)};
load_terms({overrides, Overrides0}, {ok, State0}) ->
{ok, rlx_state:overrides(State0, Overrides0)};
load_terms({dev_mode, DevMode}, {ok, State0}) ->
{ok, rlx_state:dev_mode(State0, DevMode)};
load_terms({goals, Goals}, {ok, State0}) ->
{ok, rlx_state:goals(State0, Goals)};
load_terms({upfrom, UpFrom}, {ok, State0}) ->
{ok, rlx_state:upfrom(State0, UpFrom)};
load_terms({include_src, IncludeSrc}, {ok, State0}) ->
{ok, rlx_state:include_src(State0, IncludeSrc)};
load_terms({release, {RelName, Vsn, {extend, RelName2}}, Applications}, {ok, State0}) ->
NewVsn = parse_vsn(Vsn),
Release0 = rlx_release:new(RelName, NewVsn),
ExtendRelease = rlx_state:get_configured_release(State0, RelName2, NewVsn),
Applications1 = rlx_release:goals(ExtendRelease),
case rlx_release:goals(Release0,
lists:umerge(lists:usort(Applications),
lists:usort(Applications1))) of
E={error, _} ->
E;
{ok, Release1} ->
{ok, rlx_state:add_configured_release(State0, Release1)}
end;
load_terms({release, {RelName, Vsn}, Applications}, {ok, State0}) ->
NewVsn = parse_vsn(Vsn),
Release0 = rlx_release:new(RelName, NewVsn),
case rlx_release:goals(Release0, Applications) of
E={error, _} ->
E;
{ok, Release1} ->
{ok, rlx_state:add_configured_release(State0, Release1)}
end;
load_terms({release, {RelName, Vsn}, {erts, ErtsVsn},
Applications}, {ok, State}) ->
NewVsn = parse_vsn(Vsn),
Release0 = rlx_release:erts(rlx_release:new(RelName, NewVsn), ErtsVsn),
case rlx_release:goals(Release0, Applications) of
E={error, _} ->
E;
{ok, Release1} ->
{ok, rlx_state:add_configured_release(State, Release1)}
end;
load_terms({vm_args, VmArgs}, {ok, State}) ->
{ok, rlx_state:vm_args(State, filename:absname(VmArgs))};
load_terms({sys_config, SysConfig}, {ok, State}) ->
case rlx_state:sys_config(State) of
undefined ->
{ok, rlx_state:sys_config(State, filename:absname(SysConfig))};
_ ->
{ok, State}
end;
load_terms({root_dir, Root}, {ok, State}) ->
{ok, rlx_state:root_dir(State, filename:absname(Root))};
load_terms({output_dir, OutputDir}, {ok, State}) ->
{ok, rlx_state:base_output_dir(State, filename:absname(OutputDir))};
load_terms({overlay_vars, OverlayVars}, {ok, State}) ->
CurrentOverlayVars = rlx_state:get(State, overlay_vars),
NewOverlayVars0 = list_of_overlay_vars_files(OverlayVars),
NewOverlayVars1 = lists:umerge(lists:usort(NewOverlayVars0), lists:usort(CurrentOverlayVars)),
{ok, rlx_state:put(State, overlay_vars, NewOverlayVars1)};
load_terms({Name, Value}, {ok, State})
when erlang:is_atom(Name) ->
{ok, rlx_state:put(State, Name, Value)};
load_terms(_, Error={error, _}) ->
Error;
load_terms(InvalidTerm, _) ->
?RLX_ERROR({invalid_term, InvalidTerm}).
-spec gen_providers([module()], rlx_state:t()) ->
{[rlx_provider:t()], {ok, rlx_state:t()} | relx:error()}.
gen_providers(Providers, State) ->
lists:foldl(fun(ProviderName, {Providers1, {ok, State1}}) ->
{Provider, State2} = rlx_provider:new(ProviderName, State1),
{[Provider | Providers1], State2};
(_, E={_, {error, _}}) ->
E
end, {[], {ok, State}}, Providers).
list_of_overlay_vars_files(undefined) ->
[];
list_of_overlay_vars_files([]) ->
[];
list_of_overlay_vars_files([H | _]=FileNames) when erlang:is_list(H) ->
FileNames;
list_of_overlay_vars_files(FileName) when is_list(FileName) ->
[FileName].
merge_configs([], ConfigTerms) ->
ConfigTerms;
merge_configs([{_Key, undefined} | CliTerms], ConfigTerms) ->
merge_configs(CliTerms, ConfigTerms);
merge_configs([{_Key, []} | CliTerms], ConfigTerms) ->
merge_configs(CliTerms, ConfigTerms);
merge_configs([{Key, Value} | CliTerms], ConfigTerms) ->
case Key of
X when X =:= lib_dirs
; X =:= goals
; X =:= overlay_vars
; X =:= overrides ->
case lists:keyfind(Key, 1, ConfigTerms) of
{Key, Value2} ->
MergedValue = lists:umerge([Value, Value2]),
merge_configs(CliTerms, lists:keyreplace(Key, 1, ConfigTerms, {Key, MergedValue}));
false ->
merge_configs(CliTerms, [{Key, Value} | ConfigTerms])
end;
_ ->
merge_configs(CliTerms, lists:keystore(Key, 1, ConfigTerms, {Key, Value}))
end.
parse_vsn(Vsn) when Vsn =:= semver ; Vsn =:= "semver" ->
binary_to_list(ec_git_vsn:vsn([]));
parse_vsn(Vsn) ->
Vsn.
