%% -*- 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 Provides state management services for the relx tool. Generally,
%%% those things that are fixed have a direct api. Those things that are mutable
%%% have a more mutable api.
-module(rlx_state).
-export([new/2,
log/1,
actions/1,
output_dir/1,
lib_dirs/1,
add_lib_dirs/2,
overrides/1,
overrides/2,
skip_apps/1,
skip_apps/2,
goals/1,
config_file/1,
config_file/2,
providers/1,
providers/2,
vm_args/1,
vm_args/2,
sys_config/1,
sys_config/2,
root_dir/1,
root_dir/2,
add_configured_release/2,
get_configured_release/3,
configured_releases/1,
realized_releases/1,
realized_releases/2,
add_realized_release/2,
get_realized_release/3,
update_realized_release/2,
default_configured_release/1,
default_configured_release/3,
available_apps/1,
available_apps/2,
get/2,
get/3,
put/3,
caller/1,
caller/2,
upfrom/1,
format/1,
format/2]).
-export_type([t/0,
releases/0,
cmd_args/0,
action/0]).
-record(state_t, {log :: rlx_log:t(),
root_dir :: file:name(),
caller :: caller(),
actions=[] :: [action()],
output_dir :: file:name(),
lib_dirs=[] :: [file:name()],
config_file=[] :: file:filename() | undefined,
goals=[] :: [rlx_depsolver:constraint()],
providers=[] :: [rlx_provider:t()],
available_apps=[] :: [rlx_app_info:t()],
default_configured_release :: {rlx_release:name(), rlx_release:vsn()},
vm_args :: file:filename() | undefined,
sys_config :: file:filename() | undefined,
overrides :: [{AppName::atom(), Directory::file:filename()}],
skip_apps=[] :: [AppName::atom()],
configured_releases :: releases(),
realized_releases :: releases(),
upfrom :: string() | binary() | undefined,
config_values :: ec_dictionary:dictionary(Key::atom(),
Value::term())}).
%%============================================================================
%% types
%%============================================================================
-type releases() :: ec_dictionary:dictionary({rlx_release:name(),
rlx_release:vsn()},
rlx_release:t()).
-type cmd_args() :: proplists:proplist().
-type caller() :: command_line | api.
-type action() :: release | relup | tar.
-opaque t() :: record(state_t).
%%============================================================================
%% API
%%============================================================================
%% @doc Create a new 'log level' for the system
-spec new(proplists:proplist(), undefined | [atom()]) -> t().
new(PropList, undefined) ->
new(PropList, [release]);
new(PropList, Targets)
when erlang:is_list(PropList),
erlang:is_list(Targets) ->
{ok, Root} = file:get_cwd(),
Caller = proplists:get_value(caller, PropList, api),
State0 =
#state_t{log = proplists:get_value(log, PropList, rlx_log:new(error, Caller)),
output_dir=proplists:get_value(output_dir, PropList, ""),
lib_dirs=[to_binary(Dir) || Dir <- proplists:get_value(lib_dirs, PropList, [])],
config_file=proplists:get_value(config, PropList, undefined),
actions = Targets,
caller = Caller,
goals=proplists:get_value(goals, PropList, []),
providers = [],
configured_releases=ec_dictionary:new(ec_dict),
realized_releases=ec_dictionary:new(ec_dict),
config_values=ec_dictionary:new(ec_dict),
overrides = proplists:get_value(overrides, PropList, []),
root_dir = proplists:get_value(root_dir, PropList, Root),
upfrom = proplists:get_value(upfrom, PropList, undefined),
default_configured_release={proplists:get_value(relname, PropList, undefined),
proplists:get_value(relvsn, PropList, undefined)}},
rlx_state:put(create_logic_providers(State0),
disable_default_libs,
proplists:get_value(disable_default_libs, PropList, false)).
%% @doc the actions targeted for this system
-spec actions(t()) -> [action()].
actions(#state_t{actions=Actions}) ->
Actions.
%% @doc the application overrides for the system
-spec overrides(t()) -> [{AppName::atom(), Directory::file:filename()}].
overrides(#state_t{overrides=Overrides}) ->
Overrides.
%% @doc the application overrides for the system
-spec overrides(t(), [{AppName::atom(), Directory::file:filename()}]) -> t().
overrides(State, Overrides) ->
State#state_t{overrides=Overrides}.
-spec skip_apps(t()) -> [AppName::atom()].
skip_apps(#state_t{skip_apps=Apps}) ->
Apps.
%% @doc the application overrides for the system
-spec skip_apps(t(), [AppName::atom()]) -> t().
skip_apps(State, SkipApps) ->
State#state_t{skip_apps=SkipApps}.
%% @doc get the current log state for the system
-spec log(t()) -> rlx_log:t().
log(#state_t{log=LogState}) ->
LogState.
-spec output_dir(t()) -> file:name().
output_dir(#state_t{output_dir=OutDir}) ->
OutDir.
-spec lib_dirs(t()) -> [file:name()].
lib_dirs(#state_t{lib_dirs=LibDir}) ->
LibDir.
-spec add_lib_dirs(t(), [file:name()]) -> t().
add_lib_dirs(State=#state_t{lib_dirs=LibDir}, Dirs) ->
State#state_t{lib_dirs=lists:umerge(lists:sort(LibDir), lists:sort(Dirs))}.
-spec goals(t()) -> [rlx_depsolver:constraint()].
goals(#state_t{goals=TS}) ->
TS.
-spec config_file(t()) -> file:filename() | undefined.
config_file(#state_t{config_file=ConfigFiles}) ->
ConfigFiles.
-spec config_file(t(), file:filename() | undefined) -> t().
config_file(State, ConfigFiles) ->
State#state_t{config_file=ConfigFiles}.
-spec providers(t()) -> [rlx_provider:t()].
providers(#state_t{providers=Providers}) ->
Providers.
-spec vm_args(t()) -> file:filename() | undefined.
vm_args(#state_t{vm_args=VmArgs}) ->
VmArgs.
-spec vm_args(t(), file:filename()) -> t().
vm_args(State, VmArgs) ->
State#state_t{vm_args=VmArgs}.
-spec sys_config(t()) -> file:filename() | undefined.
sys_config(#state_t{sys_config=SysConfig}) ->
SysConfig.
-spec sys_config(t(), file:filename()) -> t().
sys_config(State, SysConfig) ->
State#state_t{sys_config=SysConfig}.
-spec root_dir(t()) -> file:filename() | undefined.
root_dir(#state_t{root_dir=RootDir}) ->
RootDir.
-spec root_dir(t(), file:filename()) -> t().
root_dir(State, RootDir) ->
State#state_t{root_dir=RootDir}.
-spec providers(t(), [rlx_provider:t()]) -> t().
providers(M, NewProviders) ->
M#state_t{providers=NewProviders}.
-spec add_configured_release(t(), rlx_release:t()) -> t().
add_configured_release(M=#state_t{configured_releases=Releases}, Release) ->
M#state_t{configured_releases=ec_dictionary:add({rlx_release:name(Release),
rlx_release:vsn(Release)},
Release,
Releases)}.
-spec get_configured_release(t(), rlx_release:name(), rlx_release:vsn()) -> rlx_release:t().
get_configured_release(#state_t{configured_releases=Releases}, Name, Vsn) ->
ec_dictionary:get({Name, Vsn}, Releases).
-spec configured_releases(t()) -> releases().
configured_releases(#state_t{configured_releases=Releases}) ->
Releases.
-spec realized_releases(t()) -> releases().
realized_releases(#state_t{realized_releases=Releases}) ->
Releases.
-spec realized_releases(t(), releases()) -> t().
realized_releases(State, Releases) ->
State#state_t{realized_releases=Releases}.
-spec add_realized_release(t(), rlx_release:t()) -> t().
add_realized_release(State = #state_t{realized_releases=Releases}, Release) ->
NewReleases = ec_dictionary:add({rlx_release:name(Release), rlx_release:vsn(Release)},
Release, Releases),
State#state_t{realized_releases=NewReleases}.
-spec get_realized_release(t(), rlx_release:name(), rlx_release:vsn()) -> rlx_release:t().
get_realized_release(#state_t{realized_releases=Releases}, Name, Vsn) ->
ec_dictionary:get({Name, Vsn}, Releases).
-spec update_realized_release(t(), rlx_release:t()) ->
t().
update_realized_release(M=#state_t{realized_releases=Releases}, Release) ->
M#state_t{realized_releases=ec_dictionary:add({rlx_release:name(Release),
rlx_release:vsn(Release)},
Release,
Releases)}.
-spec default_configured_release(t()) ->
{rlx_release:name() | undefined, rlx_release:vsn() | undefined}.
default_configured_release(#state_t{default_configured_release=Def}) ->
Def.
-spec default_configured_release(t(), rlx_release:name(), rlx_release:vsn()) -> t().
default_configured_release(M, Name, Vsn) ->
M#state_t{default_configured_release={Name, Vsn}}.
-spec available_apps(t()) -> [rlx_app_info:t()].
available_apps(#state_t{available_apps=Apps}) ->
Apps.
-spec available_apps(t(), [rlx_app_info:t()]) -> t().
available_apps(M, NewApps) ->
M#state_t{available_apps=NewApps}.
-spec get(t(), atom()) -> term().
get(#state_t{config_values=Config}, Key)
when erlang:is_atom(Key) ->
ec_dictionary:get(Key, Config).
-spec get(t(), atom(), DefaultValue::term()) -> term().
get(#state_t{config_values=Config}, Key, DefaultValue)
when erlang:is_atom(Key) ->
try
ec_dictionary:get(Key, Config)
catch
throw:not_found ->
DefaultValue
end.
-spec put(t(), atom(), term()) ->t().
put(M=#state_t{config_values=Config}, Key, Value)
when erlang:is_atom(Key) ->
M#state_t{config_values=ec_dictionary:add(Key, Value, Config)}.
-spec caller(t()) -> caller().
caller(#state_t{caller=Caller}) ->
Caller.
-spec caller(t(), caller()) -> t().
caller(S, Caller) ->
S#state_t{caller=Caller}.
-spec upfrom(t()) -> string() | binary() | undefined.
upfrom(#state_t{upfrom=UpFrom}) ->
UpFrom.
-spec format(t()) -> iolist().
format(Mod) ->
format(Mod, 0).
-spec format(t(), non_neg_integer()) -> iolist().
format(#state_t{log=LogState, output_dir=OutDir, lib_dirs=LibDirs,
caller=Caller, config_values=Values0,
goals=Goals, config_file=ConfigFile,
providers=Providers},
Indent) ->
Values1 = ec_dictionary:to_list(Values0),
[rlx_util:indent(Indent),
<<"state(">>, erlang:atom_to_list(Caller), <<"):\n">>,
rlx_util:indent(Indent + 2), <<"log: ">>, rlx_log:format(LogState), <<",\n">>,
rlx_util:indent(Indent + 2), "config file: ", rlx_util:optional_to_string(ConfigFile), "\n",
rlx_util:indent(Indent + 2), "goals: \n",
[[rlx_util:indent(Indent + 3), rlx_depsolver:format_constraint(Goal), ",\n"] || Goal <- Goals],
rlx_util:indent(Indent + 2), "output_dir: ", OutDir, "\n",
rlx_util:indent(Indent + 2), "lib_dirs: \n",
[[rlx_util:indent(Indent + 3), LibDir, ",\n"] || LibDir <- LibDirs],
rlx_util:indent(Indent + 2), "providers: \n",
[[rlx_util:indent(Indent + 3), rlx_provider:format(Provider), ",\n"] || Provider <- Providers],
rlx_util:indent(Indent + 2), "provider config values: \n",
[[rlx_util:indent(Indent + 3), io_lib:format("~p", [Value]), ",\n"] || Value <- Values1]].
%%%===================================================================
%%% Internal Functions
%%%===================================================================
-spec create_logic_providers(t()) -> t().
create_logic_providers(State0) ->
{ConfigProvider, {ok, State1}} = rlx_provider:new(rlx_prv_config, State0),
{DiscoveryProvider, {ok, State2}} = rlx_provider:new(rlx_prv_discover, State1),
{ReleaseProvider, {ok, State3}} = rlx_provider:new(rlx_prv_release, State2),
{OverlayProvider, {ok, State4}} = rlx_provider:new(rlx_prv_overlay, State3),
{AssemblerProvider, {ok, State5}} = rlx_provider:new(rlx_prv_assembler, State4),
State5#state_t{providers=[ConfigProvider, DiscoveryProvider,
ReleaseProvider, OverlayProvider, AssemblerProvider]}.
to_binary(Dir)
when erlang:is_list(Dir) ->
erlang:list_to_binary(Dir);
to_binary(Dir)
when erlang:is_binary(Dir) ->
Dir.
%%%===================================================================
%%% Test Functions
%%%===================================================================
-ifndef(NOTEST).
-include_lib("eunit/include/eunit.hrl").
new_test() ->
LogState = rlx_log:new(error),
RCLState = new([{log, LogState}], [release]),
?assertMatch(LogState, log(RCLState)).
-endif.