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|
%% -*- tab-width: 4;erlang-indent-level: 4;indent-tabs-mode: nil -*-
%% ex: ts=4 sw=4 et
%% -------------------------------------------------------------------
%%
%% rebar: Erlang Build Tools
%%
%% Copyright (c) 2009 Dave Smith (dizzyd@dizzyd.com)
%%
%% Permission is hereby granted, free of charge, to any person obtaining a copy
%% of this software and associated documentation files (the "Software"), to deal
%% in the Software without restriction, including without limitation the rights
%% to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
%% copies of the Software, and to permit persons to whom the Software is
%% furnished to do so, subject to the following conditions:
%%
%% The above copyright notice and this permission notice shall be included in
%% all copies or substantial portions of the Software.
%%
%% THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
%% IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
%% FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
%% AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
%% LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
%% OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
%% THE SOFTWARE.
%% -------------------------------------------------------------------
-module(rebar_core).
-export([run/1]).
-export([app_dir/1, rel_dir/1]). % Ugh
-include("rebar.hrl").
-ifndef(BUILD_TIME).
-define(BUILD_TIME, "undefined").
-endif.
%% ===================================================================
%% Public API
%% ===================================================================
run(["version"]) ->
%% Load application spec and display vsn and build time info
ok = application:load(rebar),
{ok, Vsn} = application:get_key(rebar, vsn),
?CONSOLE("Version ~s built ~s\n", [Vsn, ?BUILD_TIME]),
ok;
run(RawArgs) ->
%% Pre-load the rebar app so that we get default configuration
ok = application:load(rebar),
%% Parse out command line arguments -- what's left is a list of commands to
%% run
Commands = parse_args(RawArgs),
%% Make sure crypto is running
crypto:start(),
%% Initialize logging system
rebar_log:init(),
%% Convert command strings to atoms
CommandAtoms = [list_to_atom(C) || C <- Commands],
%% Load rebar.config, if it exists
process_dir(rebar_utils:get_cwd(), rebar_config:new(), CommandAtoms).
%% ===================================================================
%% Internal functions
%% ===================================================================
%%
%% Parse command line arguments using getopt and also filtering out any
%% key=value pairs. What's left is the list of commands to run
%%
parse_args(Args) ->
%% Parse getopt options
OptSpecList = option_spec_list(),
case getopt:parse(OptSpecList, Args) of
{ok, {_Options, []}} ->
%% no command to run specified
help(),
halt(1);
{ok, {Options, NonOptArgs}} ->
case proplists:get_bool(help, Options) of
true ->
%% display help
help(),
halt(0);
false ->
%% Set global variables based on getopt options
set_global_flag(Options, verbose),
set_global_flag(Options, force),
DefJobs = rebar_config:get_jobs(),
case proplists:get_value(jobs, Options, DefJobs) of
DefJobs ->
ok;
Jobs ->
rebar_config:set_global(jobs, Jobs)
end,
%% Filter all the flags (i.e. strings of form key=value) from the
%% command line arguments. What's left will be the commands to run.
filter_flags(NonOptArgs, [])
end;
{error, {Reason, Data}} ->
?ERROR("Error: ~s ~p~n~n", [Reason, Data]),
help(),
halt(1)
end.
%%
%% set global flag based on getopt option boolean value
%%
set_global_flag(Options, Flag) ->
Value = case proplists:get_bool(Flag, Options) of
true ->
"1";
false ->
"0"
end,
rebar_config:set_global(Flag, Value).
%%
%% print help/usage string
%%
help() ->
OptSpecList = option_spec_list(),
getopt:usage(OptSpecList, "rebar",
"[var=value,...] <command,...>",
[{"var=value", "rebar global variables (e.g. force=1)"},
{"command", "Command to run (e.g. compile)"}]).
%%
%% options accepted via getopt
%%
option_spec_list() ->
Jobs = rebar_config:get_jobs(),
JobsHelp = io_lib:format(
"Number of concurrent workers a command may use. Default: ~B",
[Jobs]),
[
%% {Name, ShortOpt, LongOpt, ArgSpec, HelpMsg}
{help, $h, "help", undefined, "Show the program options"},
{verbose, $v, "verbose", undefined, "Be verbose about what gets done"},
{force, $f, "force", undefined, "Force"},
{jobs, $j, "jobs", integer, JobsHelp}
].
%%
%% Seperate all commands (single-words) from flags (key=value) and store
%% values into the rebar_config global storage.
%%
filter_flags([], Commands) ->
lists:reverse(Commands);
filter_flags([Item | Rest], Commands) ->
case string:tokens(Item, "=") of
[Command] ->
filter_flags(Rest, [Command | Commands]);
[KeyStr, Value] ->
Key = list_to_atom(KeyStr),
rebar_config:set_global(Key, Value),
filter_flags(Rest, Commands);
Other ->
?CONSOLE("Ignoring command line argument: ~p\n", [Other]),
filter_flags(Rest, Commands)
end.
process_dir(Dir, ParentConfig, Commands) ->
ok = file:set_cwd(Dir),
Config = rebar_config:new(ParentConfig),
%% Save the current code path and then update it with
%% lib_dirs. Children inherit parents code path, but we
%% also want to ensure that we restore everything to pristine
%% condition after processing this child
CurrentCodePath = update_code_path(Config),
%% Get the list of processing modules and check each one against
%% CWD to see if it's a fit -- if it is, use that set of modules
%% to process this dir.
{ok, AvailModuleSets} = application:get_env(rebar, modules),
{DirModules, ModuleSetFile} = choose_module_set(AvailModuleSets, Dir),
%% Get the list of modules for "any dir". This is a catch-all list of modules
%% that are processed in addion to modules associated with this directory
%% type. These any_dir modules are processed FIRST.
{ok, AnyDirModules} = application:get_env(rebar, any_dir_modules),
Modules = AnyDirModules ++ DirModules,
%% Give the modules a chance to tweak config and indicate if there
%% are any other dirs that might need processing first.
{UpdatedConfig, Dirs} = acc_modules(select_modules(Modules, preprocess, []),
preprocess, Config, ModuleSetFile, []),
?DEBUG("~s subdirs: ~p\n", [Dir, Dirs]),
[process_dir(D, UpdatedConfig, Commands) || D <- Dirs],
%% Make sure the CWD is reset properly; processing subdirs may have caused it
%% to change
ok = file:set_cwd(Dir),
%% Finally, process the current working directory
apply_commands(Commands, Modules, UpdatedConfig, ModuleSetFile),
%% Once we're all done processing, reset the code path to whatever
%% the parent initialized it to
restore_code_path(CurrentCodePath),
ok.
%%
%% Given a list of module sets from rebar.app and a directory, find
%% the appropriate subset of modules for this directory
%%
choose_module_set([], _Dir) ->
{[], undefined};
choose_module_set([{Fn, Modules} | Rest], Dir) ->
case ?MODULE:Fn(Dir) of
{true, File} ->
{Modules, File};
false ->
choose_module_set(Rest, Dir)
end.
%%
%% Return .app file if the current directory is an OTP app
%%
app_dir(Dir) ->
rebar_app_utils:is_app_dir(Dir).
%%
%% Return the reltool.config file if the current directory is release directory
%%
rel_dir(Dir) ->
rebar_rel_utils:is_rel_dir(Dir).
apply_commands([], _Modules, _Config, _ModuleFile) ->
ok;
apply_commands([Command | Rest], Modules, Config, ModuleFile) ->
case select_modules(Modules, Command, []) of
[] ->
apply_commands(Rest, Modules, Config, ModuleFile);
TargetModules ->
%% Provide some info on where we are
Dir = rebar_utils:get_cwd(),
?CONSOLE("==> ~s (~s)\n", [filename:basename(Dir), Command]),
%% Run the available modules
case catch(run_modules(TargetModules, Command, Config, ModuleFile)) of
ok ->
apply_commands(Rest, Modules, Config, ModuleFile);
{error, failed} ->
?FAIL;
Other ->
?ABORT("~p failed while processing ~s: ~s",
[Command, Dir, io_lib:print(Other, 1,80,-1)])
end
end.
update_code_path(Config) ->
case rebar_config:get(Config, lib_dirs, []) of
[] ->
no_change;
Paths ->
OldPath = code:get_path(),
LibPaths = expand_lib_dirs(Paths, rebar_utils:get_cwd(), []),
ok = code:add_pathsa(LibPaths),
{old, OldPath}
end.
restore_code_path(no_change) ->
ok;
restore_code_path({old, Path}) ->
%% Verify that all of the paths still exist -- some dynamically add paths
%% can get blown away during clean.
true = code:set_path(lists:filter(fun filelib:is_file/1, Path)),
ok.
expand_lib_dirs([], _Root, Acc) ->
Acc;
expand_lib_dirs([Dir | Rest], Root, Acc) ->
Apps = filelib:wildcard(filename:join([Dir, '*', ebin])),
FqApps = [filename:join([Root, A]) || A <- Apps],
expand_lib_dirs(Rest, Root, Acc ++ FqApps).
select_modules([], _Command, Acc) ->
lists:reverse(Acc);
select_modules([Module | Rest], Command, Acc) ->
Exports = Module:module_info(exports),
case lists:member({Command, 2}, Exports) of
true ->
select_modules(Rest, Command, [Module | Acc]);
false ->
select_modules(Rest, Command, Acc)
end.
run_modules([], _Command, _Config, _File) ->
ok;
run_modules([Module | Rest], Command, Config, File) ->
case Module:Command(Config, File) of
ok ->
run_modules(Rest, Command, Config, File);
{error, Reason} ->
{error, Reason}
end.
acc_modules([], _Command, Config, _File, Acc) ->
{Config, Acc};
acc_modules([Module | Rest], Command, Config, File, Acc) ->
case Module:Command(Config, File) of
{ok, NewConfig, Result} when is_list(Result) ->
List = Result;
{ok, NewConfig, Result} ->
List = [Result]
end,
acc_modules(Rest, Command, NewConfig, File, List ++ Acc).
|