%% -*- 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 Given a complete built release this provider assembles that release
%%% into a release directory.
-module(rlx_prv_overlay).
-behaviour(provider).
-export([init/1,
do/1,
format_error/1]).
-export([generate_overlay_vars/2,
render_string/2]).
-define(DIRECTORY_RE, ".*(\/|\\\\)$").
-include("relx.hrl").
-define(PROVIDER, overlay).
-define(DEPS, [resolve_release]).
%%============================================================================
%% API
%%============================================================================
-spec init(rlx_state:t()) -> {ok, rlx_state:t()}.
init(State) ->
State1 = rlx_state:add_provider(State, providers:create([{name, ?PROVIDER},
{module, ?MODULE},
{deps, ?DEPS}])),
{ok, State1}.
%% @doc recursively dig down into the library directories specified in the state
%% looking for OTP Applications
-spec do(rlx_state:t()) -> {ok, rlx_state:t()} | relx:error().
do(State) ->
{RelName, RelVsn} = rlx_state:default_configured_release(State),
Release = rlx_state:get_realized_release(State, RelName, RelVsn),
case rlx_release:realized(Release) of
true ->
case generate_overlay_vars(State, Release) of
{error, Reason} ->
{error, Reason};
OverlayVars ->
Files = rlx_util:template_files(),
do_overlay(State, Files, OverlayVars)
end;
false ->
?RLX_ERROR({unresolved_release, RelName, RelVsn})
end.
-spec format_error(ErrorDetail::term()) -> iolist().
format_error({unresolved_release, RelName, RelVsn}) ->
io_lib:format("The release has not been resolved ~p-~s", [RelName, RelVsn]);
format_error({ec_file_error, AppDir, TargetDir, E}) ->
io_lib:format("Unable to copy OTP App from ~s to ~s due to ~p",
[AppDir, TargetDir, E]);
format_error({unable_to_read_varsfile, FileName, Reason}) ->
io_lib:format("Unable to read vars file (~s) for overlay due to: ~p",
[FileName, Reason]);
format_error({read_template, FileName, Reason}) ->
io_lib:format("Unable to read template file (~s) for overlay due to: ~s",
[FileName, file:format_error(Reason)]);
format_error({overlay_failed, Errors}) ->
[[format_error(rlx_util:error_reason(Error)), "\n"] || Error <- Errors];
format_error({unable_to_make_symlink, AppDir, TargetDir, Reason}) ->
io_lib:format("Unable to symlink directory ~s to ~s because \n~s~s",
[AppDir, TargetDir, rlx_util:indent(2),
file:format_error(Reason)]);
format_error({copy_failed, FromFile, ToFile, Err}) ->
io_lib:format("Unable to copy from ~s to ~s because of ~p",
[FromFile, ToFile, Err]);
format_error({unable_to_write, ToFile, Reason}) ->
io_lib:format("Unable to write to ~s because ~p",
[ToFile, Reason]);
format_error({unable_to_enclosing_dir, ToFile, Reason}) ->
io_lib:format("Unable to create enclosing directory for ~s because ~p",
[ToFile, Reason]);
format_error({unable_to_render_template, FromFile, Reason}) ->
io_lib:format("Unable to render template ~s because ~p",
[FromFile, Reason]);
format_error({unable_to_compile_template, FromFile, Reason}) ->
io_lib:format("Unable to compile template ~s because \n~s",
[FromFile, [format_errors(F, Es) || {F, Es} <- Reason]]);
format_error({unable_to_make_dir, Absolute, Error}) ->
io_lib:format("Unable to make directory ~s because ~p",
[Absolute, Error]).
%%%===================================================================
%%% Internal Functions
%%%===================================================================
format_errors(File, [{none, Mod, E}|Es]) ->
[io_lib:format("~s~s: ~ts~n",
[rlx_util:indent(2), File,
Mod:format_error(E)])
|format_errors(File, Es)];
format_errors(File, [{{Line, Col}, Mod, E}|Es]) ->
[io_lib:format("~s~s:~w:~w: ~ts~n",
[rlx_util:indent(2), File, Line, Col,
Mod:format_error(E)])
|format_errors(File, Es)];
format_errors(File, [{Line, Mod, E}|Es]) ->
[io_lib:format("~s~s:~w: ~ts~n",
[rlx_util:indent(2), File, Line,
Mod:format_error(E)])
|format_errors(File, Es)];
format_errors(_, []) -> [].
-spec generate_overlay_vars(rlx_state:t(), rlx_release:t()) ->
proplists:proplist() | relx:error().
generate_overlay_vars(State, Release) ->
StateVars = generate_state_vars(State),
ReleaseVars = generate_release_vars(Release),
get_overlay_vars_from_file(State, StateVars ++ ReleaseVars).
-spec get_overlay_vars_from_file(rlx_state:t(), proplists:proplist()) ->
proplists:proplist() | relx:error().
get_overlay_vars_from_file(State, OverlayVars) ->
case rlx_state:get(State, overlay_vars, undefined) of
undefined ->
OverlayVars;
[] ->
OverlayVars;
[H | _]=FileNames when is_list(H) ;
is_tuple(H) ->
read_overlay_vars(State, OverlayVars, FileNames);
FileName when is_list(FileName) ->
read_overlay_vars(State, OverlayVars, [FileName])
end.
-spec read_overlay_vars(rlx_state:t(), proplists:proplist(), [file:name()]) ->
proplists:proplist() | relx:error().
read_overlay_vars(State, OverlayVars, FileNames) ->
Terms = merge_overlay_vars(State, FileNames),
case render_overlay_vars(OverlayVars, Terms, []) of
{ok, NewTerms} ->
OverlayVars ++ NewTerms;
Error ->
Error
end.
-spec check_overlay_inclusion(rlx_state:t(), string(), proplists:proplist()) ->
proplists:proplist().
check_overlay_inclusion(State, RelativeRoot, Terms) ->
check_overlay_inclusion(State, RelativeRoot, Terms, []).
-spec check_overlay_inclusion(rlx_state:t(), string(), proplists:proplist(), proplists:proplist()) ->
proplists:proplist().
check_overlay_inclusion(State, RelativeRoot, [File|T], Terms) when is_list(File) ->
IncludedTerms = merge_overlay_vars(State, [filename:join(RelativeRoot, File)]),
check_overlay_inclusion(State, RelativeRoot, T, Terms ++ IncludedTerms);
check_overlay_inclusion(State, RelativeRoot, [Tuple|T], Terms) ->
check_overlay_inclusion(State, RelativeRoot, T, Terms ++ [Tuple]);
check_overlay_inclusion(_State, _RelativeRoot, [], Terms) ->
Terms.
-spec merge_overlay_vars(rlx_state:t(), [file:name()]) ->
proplists:proplist().
merge_overlay_vars(State, FileNames) ->
RelativeRoot = get_relative_root(State),
lists:foldl(fun(FileName, Acc) when is_list(FileName) ->
RelativePath = filename:join(RelativeRoot, iolist_to_binary(FileName)),
case file:consult(RelativePath) of
{ok, Terms} ->
%% the location of the included overlay files will be relative
%% to the current one being read
OverlayRelativeRoot = filename:dirname(FileName),
NewTerms = check_overlay_inclusion(State, OverlayRelativeRoot, Terms),
lists:foldl(fun(NewTerm, A) ->
lists:keystore(element(1, NewTerm), 1, A, NewTerm)
end, Acc, NewTerms);
{error, Reason} ->
ec_cmd_log:warn(rlx_state:log(State),
format_error({unable_to_read_varsfile, FileName, Reason})),
Acc
end;
(Var, Acc) ->
lists:keystore(element(1, Var), 1, Acc, Var)
end, [], FileNames).
-spec render_overlay_vars(proplists:proplist(), proplists:proplist(),
proplists:proplist()) ->
{ok, proplists:proplist()} | relx:error().
render_overlay_vars(OverlayVars, [{Key, Value} | Rest], Acc)
when erlang:is_list(Value) ->
case io_lib:printable_list(Value) of
true ->
case render_template(Acc ++ OverlayVars, erlang:iolist_to_binary(Value)) of
{ok, Data} ->
%% Adding to the end sucks, but ordering needs to be retained
render_overlay_vars(OverlayVars, Rest, Acc ++ [{Key, Data}]);
Error ->
Error
end;
false ->
case render_overlay_vars(Acc ++ OverlayVars, Value, []) of
{ok, NewValue} ->
render_overlay_vars(OverlayVars, Rest, Acc ++ [{Key, NewValue}]);
Error ->
Error
end
end;
render_overlay_vars(OverlayVars, [{Key, Value} | Rest], Acc)
when erlang:is_binary(Value) ->
case render_template(Acc ++ OverlayVars, erlang:iolist_to_binary(Value)) of
{ok, Data} ->
render_overlay_vars(OverlayVars, Rest, Acc ++ [{Key, erlang:iolist_to_binary(Data)}]);
Error ->
Error
end;
render_overlay_vars(OverlayVars, [KeyValue | Rest], Acc) ->
render_overlay_vars(OverlayVars, Rest, Acc ++ [KeyValue]);
render_overlay_vars(_OverlayVars, [], Acc) ->
{ok, Acc}.
-spec generate_release_vars(rlx_release:t()) -> proplists:proplist().
generate_release_vars(Release) ->
[{erts_vsn, rlx_release:erts(Release)},
{erts_dir, code:root_dir()},
{release_erts_version, rlx_release:erts(Release)},
{release_name, rlx_release:name(Release)},
{rel_vsn, rlx_release:vsn(Release)},
{release_version, rlx_release:vsn(Release)}].
-spec generate_state_vars(rlx_state:t()) -> proplists:proplist().
generate_state_vars(State) ->
[{log, ec_cmd_log:format(rlx_state:log(State))},
{output_dir, rlx_state:output_dir(State)},
{target_dir, rlx_state:output_dir(State)},
{overridden, [AppName || {AppName, _} <- rlx_state:overrides(State)]},
{overrides, rlx_state:overrides(State)},
{goals, [rlx_depsolver:format_constraint(Constraint) ||
Constraint <- rlx_state:goals(State)]},
{lib_dirs, rlx_state:lib_dirs(State)},
{config_file, rlx_state:config_file(State)},
{providers, rlx_state:providers(State)},
{vm_args, rlx_state:vm_args(State)},
{sys_config, rlx_state:sys_config(State)},
{root_dir, rlx_state:root_dir(State)},
{default_release_name, case rlx_state:default_configured_release(State) of
{Name0, _} ->
Name0
end},
{default_release_version, case rlx_state:default_configured_release(State) of
{_, Vsn0} ->
Vsn0
end},
{default_release, case rlx_state:default_configured_release(State) of
{Name1, undefined} ->
erlang:atom_to_list(Name1);
{Name1, Vsn1} ->
erlang:atom_to_list(Name1) ++ "-" ++ Vsn1
end}].
-spec do_overlay(rlx_state:t(), list(), proplists:proplist()) ->
{ok, rlx_state:t()} | relx:error().
do_overlay(State, Files, OverlayVars) ->
case rlx_state:get(State, overlay, undefined) of
undefined ->
{ok, State};
Overlays ->
handle_errors(State,
lists:map(fun(Overlay) ->
do_individual_overlay(State, Files, OverlayVars,
Overlay)
end, Overlays))
end.
-spec handle_errors(rlx_state:t(), [ok | relx:error()]) ->
{ok, rlx_state:t()} | relx:error().
handle_errors(State, Result) ->
case [Error || Error <- Result,
rlx_util:is_error(Error)] of
Errors = [_|_] ->
?RLX_ERROR({overlay_failed, Errors});
[] ->
{ok, State}
end.
-spec do_individual_overlay(rlx_state:t(), list(), proplists:proplist(),
OverlayDirective::term()) ->
{ok, rlx_state:t()} | relx:error().
do_individual_overlay(State, _Files, OverlayVars, {chmod, Mode, Path}) ->
% mode can be specified directly as an integer value, or if it is
% not an integer we assume it's a template, which we render and convert
% blindly to an integer. So this will crash with an exception if for
% some reason something other than an integer is used
NewMode =
case is_integer(Mode) of
true -> Mode;
false -> erlang:binary_to_integer(render_string (OverlayVars, Mode))
end,
file_render_do(OverlayVars, Path,
fun(NewPath) ->
Absolute = absolute_path_to(State, NewPath),
case file:change_mode(Absolute, NewMode) of
{error, Error} ->
?RLX_ERROR({unable_to_chmod, NewMode, NewPath, Error});
ok -> ok
end
end);
do_individual_overlay(State, _Files, OverlayVars, {mkdir, Dir}) ->
file_render_do(OverlayVars, Dir,
fun(Dir0) ->
Absolute = absolute_path_to(State, Dir0),
case rlx_util:mkdir_p(Absolute) of
{error, Error} ->
?RLX_ERROR({unable_to_make_dir, Absolute, Error});
ok ->
ok
end
end);
do_individual_overlay(State, _Files, OverlayVars, {copy, From, To}) ->
file_render_do(OverlayVars, From,
fun(FromFile) ->
file_render_do(OverlayVars, To,
fun(ToFile) ->
copy_to(State, FromFile, ToFile)
end)
end);
do_individual_overlay(State, Files, OverlayVars, {link, From, To}) ->
case rlx_state:dev_mode(State) of
false ->
do_individual_overlay(State, Files, OverlayVars, {copy, From, To});
true ->
file_render_do(OverlayVars, From,
fun(FromFile) ->
file_render_do(OverlayVars, To,
fun(ToFile) ->
link_to(State, FromFile, ToFile)
end)
end)
end;
do_individual_overlay(State, _Files, OverlayVars, {template, From, To}) ->
file_render_do(OverlayVars, From,
fun(FromFile) ->
file_render_do(OverlayVars, To,
fun(ToFile) ->
write_template(OverlayVars,
absolute_path_from(State, FromFile),
absolute_path_to(State, ToFile))
end)
end).
-spec wildcard_copy(rlx_state:t(), file:filename_all(), file:filename_all(),
fun((file:filename_all(), file:filename_all()) -> ok | {error, term()}),
ErrorTag :: atom()) -> ok | relx:error().
wildcard_copy(State, FromFile0, ToFile0, CopyFun, ErrorTag) ->
FromFile1 = absolute_path_from(State, FromFile0),
ToFile1 = absolute_path_to(State, ToFile0),
Res = case is_directory(ToFile0, ToFile1) of
false ->
filelib:ensure_dir(ToFile1),
CopyFun(FromFile1, ToFile1);
true ->
Root = absolute_path_from(State, "."),
FromFiles = if
is_list(FromFile0) -> filelib:wildcard(FromFile0, Root);
true -> [FromFile1]
end,
rlx_util:mkdir_p(ToFile1),
lists:foldl(fun
(_, {error, _} = Error) -> Error;
(FromFile, ok) ->
CopyFun(filename:join(Root, FromFile), filename:join(ToFile1, filename:basename(FromFile)))
end, ok, FromFiles)
end,
case Res of
ok ->
ok;
{error, Err} ->
?RLX_ERROR({ErrorTag,
FromFile1,
ToFile1, Err})
end.
-spec copy_to(rlx_state:t(), file:name(), file:name()) -> ok | relx:error().
copy_to(State, FromFile0, ToFile0) ->
wildcard_copy(State, FromFile0, ToFile0,
fun(FromPath, ToPath) -> ec_file:copy(FromPath, ToPath, [recursive, {file_info, [mode, time]}]) end,
copy_failed).
-spec link_to(rlx_state:t(), file:name(), file:name()) -> ok | relx:error().
link_to(State, FromFile0, ToFile0) ->
wildcard_copy(State, FromFile0, ToFile0,
fun make_link/2,
link_failed).
make_link(FromFile, ToFile) ->
case ec_file:is_symlink(ToFile) of
true -> file:delete(ToFile);
false -> ec_file:remove(ToFile, [recursive])
end,
file:make_symlink(FromFile, ToFile).
get_relative_root(State) ->
case rlx_state:config_file(State) of
[] ->
rlx_state:root_dir(State);
Config ->
case filelib:is_regular(Config) of
true ->
filename:dirname(Config);
false ->
rlx_state:root_dir(State)
end
end.
absolute_path_from(State, Path) ->
absolutize(State, filename:join(get_relative_root(State), Path)).
absolute_path_to(State, Path) ->
absolutize(State, filename:join(rlx_state:output_dir(State), Path)).
-spec is_directory(file:name(), file:name()) -> boolean().
is_directory(ToFile0, ToFile1) ->
case re:run(ToFile0, ?DIRECTORY_RE) of
nomatch ->
filelib:is_dir(ToFile1);
_ ->
true
end.
-spec render_template(proplists:proplist(), binary()) ->
{ok, binary()} | relx:error().
render_template(OverlayVars, Data) ->
case rlx_util:render(Data, OverlayVars) of
{ok, IoData} ->
{ok, IoData};
{error, Reason} ->
?RLX_ERROR({unable_to_render_template, Data, Reason})
end.
-spec write_template(proplists:proplist(), file:name(), file:name()) ->
ok | relx:error().
write_template(OverlayVars, FromFile, ToFile) ->
case file:read_file(FromFile) of
{ok, File} ->
case render_template(OverlayVars, File) of
{ok, IoData} ->
case filelib:ensure_dir(ToFile) of
ok ->
%% we were asked to render a template
%% onto a symlink, this would cause an overwrite
%% of the original file, so we delete the symlink
%% and go ahead with the template render
case ec_file:is_symlink(ToFile) of
true -> ec_file:remove(ToFile);
false -> ok
end,
case file:write_file(ToFile, IoData) of
ok ->
ok = ec_file:copy_file_info(ToFile, FromFile, [mode, time]),
ok;
{error, Reason} ->
?RLX_ERROR({unable_to_write, ToFile, Reason})
end;
{error, Reason} ->
?RLX_ERROR({unable_to_enclosing_dir, ToFile, Reason})
end;
Error ->
Error
end;
{error, Error} ->
?RLX_ERROR({read_template, FromFile, Error})
end.
-spec render_string(proplists:proplist(), iolist()) ->
binary() | relx:error().
render_string(OverlayVars, Data) ->
case rlx_util:render(Data, OverlayVars) of
{ok, Bin} -> Bin;
{error, Error} ->
?RLX_ERROR({render_failed, Data, Error})
end.
-spec file_render_do(proplists:proplist(), iolist(),
fun((string() | binary()) -> {ok, rlx_state:t()} | relx:error())) ->
{ok, rlx_state:t()} | relx:error().
file_render_do(OverlayVars, File, NextAction) ->
case rlx_util:render(File, OverlayVars) of
{ok, Binary} when is_binary(File) ->
NextAction(Binary);
{ok, Binary} when is_list(File) ->
NextAction(binary_to_list(Binary));
{error, Error} ->
?RLX_ERROR({render_failed, File, Error})
end.
absolutize(State, FileName) ->
filename:absname(filename:join(rlx_state:root_dir(State), FileName)).