rebar/src/rebar.erl
2013-06-29 15:10:23 +02:00

480 lines
17 KiB
Erlang

%% -*- 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).
-export([main/1,
run/2,
help/0,
parse_args/1,
version/0,
get_jobs/1]).
-include("rebar.hrl").
-ifndef(BUILD_TIME).
-define(BUILD_TIME, "undefined").
-endif.
-ifndef(VCS_INFO).
-define(VCS_INFO, "undefined").
-endif.
-ifndef(OTP_INFO).
-define(OTP_INFO, "undefined").
-endif.
-define(DEFAULT_JOBS, 3).
%% ====================================================================
%% Public API
%% ====================================================================
%% escript Entry point
main(Args) ->
case catch(run(Args)) of
ok ->
ok;
rebar_abort ->
rebar_utils:delayed_halt(1);
Error ->
%% Nothing should percolate up from rebar_core;
%% Dump this error to console
io:format("Uncaught error in rebar_core: ~p\n", [Error]),
rebar_utils:delayed_halt(1)
end.
%% Erlang-API entry point
run(BaseConfig, Commands) ->
_ = application:load(rebar),
run_aux(BaseConfig, Commands).
%% ====================================================================
%% Internal functions
%% ====================================================================
run(["help"|RawCmds]) when RawCmds =/= [] ->
ok = load_rebar_app(),
Cmds = unabbreviate_command_names(RawCmds),
Args = parse_args(Cmds),
BaseConfig = init_config(Args),
{BaseConfig1, _} = save_options(BaseConfig, Args),
BaseConfig2 = init_config1(BaseConfig1),
rebar_core:help(BaseConfig2, [list_to_atom(C) || C <- Cmds]);
run(["help"]) ->
help();
run(["info"|_]) ->
help();
run(["version"]) ->
ok = load_rebar_app(),
%% Display vsn and build time info
version();
run(RawArgs) ->
ok = load_rebar_app(),
%% Parse out command line arguments -- what's left is a list of commands to
%% run -- and start running commands
Args = parse_args(RawArgs),
BaseConfig = init_config(Args),
{BaseConfig1, Cmds} = save_options(BaseConfig, Args),
case rebar_config:get_xconf(BaseConfig1, enable_profiling, false) of
true ->
io:format("Profiling!\n"),
try
fprof:apply(fun run_aux/2, [BaseConfig1, Cmds])
after
ok = fprof:profile(),
ok = fprof:analyse([{dest, "fprof.analysis"}])
end;
false ->
run_aux(BaseConfig1, Cmds)
end.
load_rebar_app() ->
%% Pre-load the rebar app so that we get default configuration
ok = application:load(rebar).
init_config({Options, _NonOptArgs}) ->
%% If $HOME/.rebar/config exists load and use as global config
GlobalConfigFile = filename:join([os:getenv("HOME"), ".rebar", "config"]),
GlobalConfig = case filelib:is_regular(GlobalConfigFile) of
true ->
?DEBUG("Load global config file ~p~n",
[GlobalConfigFile]),
rebar_config:new(GlobalConfigFile);
false ->
rebar_config:new()
end,
%% Set the rebar config to use
GlobalConfig1 = case proplists:get_value(config, Options) of
undefined ->
GlobalConfig;
Conf ->
rebar_config:set_global(GlobalConfig, config, Conf)
end,
GlobalConfig2 = set_log_level(GlobalConfig1, Options),
%% Initialize logging system
ok = rebar_log:init(GlobalConfig2),
BaseConfig = rebar_config:base_config(GlobalConfig2),
%% Keep track of how many operations we do, so we can detect bad commands
BaseConfig1 = rebar_config:set_xconf(BaseConfig, operations, 0),
%% Initialize vsn cache
rebar_config:set_xconf(BaseConfig1, vsn_cache, dict:new()).
init_config1(BaseConfig) ->
%% Determine the location of the rebar executable; important for pulling
%% resources out of the escript
ScriptName = filename:absname(escript:script_name()),
BaseConfig1 = rebar_config:set_xconf(BaseConfig, escript, ScriptName),
?DEBUG("Rebar location: ~p\n", [ScriptName]),
%% Note the top-level directory for reference
AbsCwd = filename:absname(rebar_utils:get_cwd()),
rebar_config:set_xconf(BaseConfig1, base_dir, AbsCwd).
run_aux(BaseConfig, Commands) ->
%% Make sure crypto is running
case crypto:start() of
ok -> ok;
{error,{already_started,crypto}} -> ok
end,
%% Convert command strings to atoms
CommandAtoms = [list_to_atom(C) || C <- Commands],
BaseConfig1 = init_config1(BaseConfig),
%% Process each command, resetting any state between each one
rebar_core:process_commands(CommandAtoms, BaseConfig1).
%%
%% 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)"}]),
?CONSOLE(
"Type 'rebar help <CMD1> <CMD2>' for help on specific commands."
"~n~n", []),
?CONSOLE(
"Core rebar.config options:~n"
" ~p~n"
" ~p~n"
" ~p~n"
" ~p~n"
" ~p~n"
" ~p~n",
[
{lib_dirs, []},
{sub_dirs, ["dir1", "dir2"]},
{plugins, [plugin1, plugin2]},
{plugin_dir, "some_other_directory"},
{pre_hooks, [{clean, "./prepare_package_files.sh"},
{"linux", compile, "c_src/build_linux.sh"},
{compile, "escript generate_headers"},
{compile, "escript check_headers"}]},
{post_hooks, [{clean, "touch file1.out"},
{"freebsd", compile, "c_src/freebsd_tweaks.sh"},
{eunit, "touch file2.out"},
{compile, "touch postcompile.out"}]}
]).
%%
%% 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(RawArgs) ->
%% Parse getopt options
OptSpecList = option_spec_list(),
case getopt:parse(OptSpecList, RawArgs) of
{ok, Args} ->
Args;
{error, {Reason, Data}} ->
?ERROR("~s ~p~n~n", [Reason, Data]),
help(),
rebar_utils:delayed_halt(1)
end.
save_options(Config, {Options, NonOptArgs}) ->
%% Check options and maybe halt execution
ok = show_info_maybe_halt(Options, NonOptArgs),
GlobalDefines = proplists:get_all_values(defines, Options),
Config1 = rebar_config:set_xconf(Config, defines, GlobalDefines),
%% Setup profiling flag
Config2 = rebar_config:set_xconf(Config1, enable_profiling,
proplists:get_bool(profile, Options)),
%% Setup flag to keep running after a single command fails
Config3 = rebar_config:set_xconf(Config2, keep_going,
proplists:get_bool(keep_going, Options)),
%% Set global variables based on getopt options
Config4 = set_global_flag(Config3, Options, force),
Config5 = case proplists:get_value(jobs, Options, ?DEFAULT_JOBS) of
?DEFAULT_JOBS ->
Config4;
Jobs ->
rebar_config:set_global(Config4, 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.
{Config6, RawCmds} = filter_flags(Config5, NonOptArgs, []),
{Config6, unabbreviate_command_names(RawCmds)}.
%%
%% set log level based on getopt option
%%
set_log_level(Config, Options) ->
LogLevel = case proplists:get_all_values(verbose, Options) of
[] ->
rebar_log:default_level();
Verbosities ->
lists:last(Verbosities)
end,
rebar_config:set_global(Config, verbose, LogLevel).
%%
%% show version information and halt
%%
version() ->
{ok, Vsn} = application:get_key(rebar, vsn),
?CONSOLE("rebar ~s ~s ~s ~s\n",
[Vsn, ?OTP_INFO, ?BUILD_TIME, ?VCS_INFO]).
%%
%% set global flag based on getopt option boolean value
%%
set_global_flag(Config, Options, Flag) ->
Value = case proplists:get_bool(Flag, Options) of
true ->
"1";
false ->
"0"
end,
rebar_config:set_global(Config, Flag, Value).
%%
%% show info and maybe halt execution
%%
show_info_maybe_halt(Opts, NonOptArgs) ->
false = show_info_maybe_halt(help, Opts, fun help/0),
false = show_info_maybe_halt(commands, Opts, fun commands/0),
false = show_info_maybe_halt(version, Opts, fun version/0),
case NonOptArgs of
[] ->
?CONSOLE("No command to run specified!~n",[]),
help(),
rebar_utils:delayed_halt(1);
_ ->
ok
end.
show_info_maybe_halt(O, Opts, F) ->
case proplists:get_bool(O, Opts) of
true ->
F(),
rebar_utils:delayed_halt(0);
false ->
false
end.
%%
%% print known commands
%%
commands() ->
S = <<"
clean Clean
compile Compile sources
escriptize Generate escript archive
create template= [var=foo,...] Create skel based on template and vars
create-app [appid=myapp] Create simple app skel
create-node [nodeid=mynode] Create simple node skel
list-templates List available templates
doc Generate Erlang program documentation
check-deps Display to be fetched dependencies
get-deps Fetch dependencies
update-deps Update fetched dependencies
delete-deps Delete fetched dependencies
list-deps List dependencies
generate [dump_spec=0/1] Build release with reltool
overlay Run reltool overlays only
generate-upgrade previous_release=path Build an upgrade package
generate-appups previous_release=path Generate appup files
eunit [suites=foo] Run eunit tests in foo.erl and
test/foo_tests.erl
[suites=foo] [tests=bar] Run specific eunit tests [first test name
starting with 'bar' in foo.erl and
test/foo_tests.erl]
[tests=bar] For every existing suite, run the first
test whose name starts with bar and, if
no such test exists, run the test whose
name starts with bar in the suite's
_tests module
ct [suites=] [case=] Run common_test suites
qc Test QuickCheck properties
xref Run cross reference analysis
help Show the program options
version Show version information
">>,
io:put_chars(S).
get_jobs(Config) ->
rebar_config:get_global(Config, jobs, ?DEFAULT_JOBS).
%%
%% options accepted via getopt
%%
option_spec_list() ->
Jobs = ?DEFAULT_JOBS,
JobsHelp = io_lib:format(
"Number of concurrent workers a command may use. Default: ~B",
[Jobs]),
VerboseHelp = "Verbosity level (-v, -vv, -vvv, --verbose 3). Default: 0",
[
%% {Name, ShortOpt, LongOpt, ArgSpec, HelpMsg}
{help, $h, "help", undefined, "Show the program options"},
{commands, $c, "commands", undefined, "Show available commands"},
{verbose, $v, "verbose", integer, VerboseHelp},
{version, $V, "version", undefined, "Show version information"},
{force, $f, "force", undefined, "Force"},
{defines, $D, undefined, string, "Define compiler macro"},
{jobs, $j, "jobs", integer, JobsHelp},
{config, $C, "config", string, "Rebar config file to use"},
{profile, $p, "profile", undefined, "Profile this run of rebar"},
{keep_going, $k, "keep-going", undefined,
"Keep running after a command fails"}
].
%%
%% Seperate all commands (single-words) from flags (key=value) and store
%% values into the rebar_config global storage.
%%
filter_flags(Config, [], Commands) ->
{Config, lists:reverse(Commands)};
filter_flags(Config, [Item | Rest], Commands) ->
case string:tokens(Item, "=") of
[Command] ->
filter_flags(Config, Rest, [Command | Commands]);
[KeyStr, RawValue] ->
Key = list_to_atom(KeyStr),
Value = case Key of
verbose ->
list_to_integer(RawValue);
_ ->
RawValue
end,
Config1 = rebar_config:set_global(Config, Key, Value),
filter_flags(Config1, Rest, Commands);
Other ->
?CONSOLE("Ignoring command line argument: ~p\n", [Other]),
filter_flags(Config, Rest, Commands)
end.
command_names() ->
["check-deps", "clean", "compile", "create", "create-app", "create-node",
"ct", "delete-deps", "doc", "eunit", "escriptize", "generate",
"generate-appups", "generate-upgrade", "get-deps", "help", "list-deps",
"list-templates", "qc", "update-deps", "overlay", "shell", "version",
"xref"].
unabbreviate_command_names([]) ->
[];
unabbreviate_command_names([Command | Commands]) ->
case get_command_name_candidates(Command) of
[] ->
%% let the rest of the code detect that the command doesn't exist
%% (this would perhaps be a good place to fail)
[Command | unabbreviate_command_names(Commands)];
[FullCommand] ->
[FullCommand | unabbreviate_command_names(Commands)];
Candidates ->
?ABORT("Found more than one match for abbreviated command name "
" '~s',~nplease be more specific. Possible candidates:~n"
" ~s~n",
[Command, string:join(Candidates, ", ")])
end.
get_command_name_candidates(Command) ->
%% Get the command names which match the given (abbreviated) command name.
%% * "c" matches commands like compile, clean and create-app
%% * "create" matches command create only, since it's unique
%% * "create-" matches commands starting with create-
%% * "c-a" matches create-app
%% * "create-a" matches create-app
%% * "c-app" matches create-app
Candidates = [Candidate || Candidate <- command_names(),
is_command_name_candidate(Command, Candidate)],
%% Is there a complete match? If so return only that, return a
%% list of candidates otherwise
case lists:member(Command, Candidates) of
true -> [Command];
false -> Candidates
end.
is_command_name_candidate(Command, Candidate) ->
lists:prefix(Command, Candidate)
orelse is_command_name_sub_word_candidate(Command, Candidate).
is_command_name_sub_word_candidate(Command, Candidate) ->
%% Allow for parts of commands to be abbreviated, i.e. create-app
%% can be shortened to "create-a", "c-a" or "c-app" (but not
%% "create-" since that would be ambiguous).
ReOpts = [{return, list}],
CommandSubWords = re:split(Command, "-", ReOpts),
CandidateSubWords = re:split(Candidate, "-", ReOpts),
is_command_name_sub_word_candidate_aux(CommandSubWords, CandidateSubWords).
is_command_name_sub_word_candidate_aux([CmdSW | CmdSWs],
[CandSW | CandSWs]) ->
lists:prefix(CmdSW, CandSW) andalso
is_command_name_sub_word_candidate_aux(CmdSWs, CandSWs);
is_command_name_sub_word_candidate_aux([], []) ->
true;
is_command_name_sub_word_candidate_aux(_CmdSWs, _CandSWs) ->
false.