#!/usr/bin/env escript %% -*- mode: erlang;erlang-indent-level: 4;indent-tabs-mode: nil -*- %% ex: ft=erlang ts=4 sw=4 et main(_Args) -> %% Fetch and build deps required to build rebar3 BaseDeps = [{providers, []} ,{getopt, []} ,{erlware_commons, ["ec_dictionary.erl", "ec_vsn.erl"]}], Deps = get_deps(), [fetch_and_compile(Dep, Deps) || Dep <- BaseDeps], %% Build rebar3 modules with compile:file bootstrap_rebar3(), %% Build rebar.app from rebar.app.src {ok, App} = rebar_app_info:new(rebar, "3.0.0", filename:absname("_build/default/lib/rebar/")), rebar_otp_app:compile(rebar_state:new(), App), %% Because we are compiling files that are loaded already we want to silence %% not_purged errors in rebar_erlc_compiler:opts_changed/1 error_logger:tty(false), setup_env(), os:putenv("REBAR_PROFILE", "bootstrap"), {ok, State} = rebar3:run(["compile"]), reset_env(), os:putenv("REBAR_PROFILE", ""), DepsPaths = rebar_state:code_paths(State, all_deps), code:add_pathsa(DepsPaths), rebar3:run(["clean", "-a"]), rebar3:run(["escriptize"]), %% Done with compile, can turn back on error logger error_logger:tty(true), %% Finally, update executable perms for our script on *nix, %% or write out script files on win32. ec_file:copy("_build/default/bin/rebar3", "./rebar3"), case os:type() of {unix,_} -> [] = os:cmd("chmod u+x rebar3"), ok; {win32,_} -> write_windows_scripts(), ok; _ -> ok end. fetch_and_compile({Name, ErlFirstFiles}, Deps) -> {Name, _, Repo} = lists:keyfind(Name, 1, Deps), ok = fetch(Repo, Name), compile(Name, ErlFirstFiles). fetch({git, Url, Source}, App) -> Dir = filename:join([filename:absname("_build/default/lib/"), App]), case filelib:is_dir(Dir) of true -> true = code:add_path(filename:join(Dir, "ebin")), ok; false -> fetch_source(Dir, Url, Source), ok end. fetch_source(Dir, Url, {ref, Ref}) -> ok = filelib:ensure_dir(Dir), os:cmd(io_lib:format("git clone ~s ~s", [Url, Dir])), {ok, Cwd} = file:get_cwd(), file:set_cwd(Dir), os:cmd(io_lib:format("git checkout -q ~s", [Ref])), file:set_cwd(Cwd); fetch_source(Dir, Url, {_, Branch}) -> ok = filelib:ensure_dir(Dir), os:cmd(io_lib:format("git clone ~s ~s -b ~s --single-branch", [Url, Dir, Branch])). compile(App, FirstFiles) -> Dir = filename:join(filename:absname("_build/default/lib/"), App), filelib:ensure_dir(filename:join([Dir, "ebin", "dummy.beam"])), code:add_path(filename:join(Dir, "ebin")), FirstFilesPaths = [filename:join([Dir, "src", Module]) || Module <- FirstFiles], Sources = FirstFilesPaths ++ filelib:wildcard(filename:join([Dir, "src", "*.erl"])), [compile_file(X, [{i, filename:join(Dir, "include")} ,{outdir, filename:join(Dir, "ebin")} ,return | additional_defines()]) || X <- Sources]. compile_file(File, Opts) -> case compile:file(File, Opts) of {ok, _Mod} -> ok; {ok, _Mod, []} -> ok; {ok, _Mod, Ws} -> io:format("~s~n", [format_warnings(File, Ws)]), halt(1); {error, Es, Ws} -> io:format("~s ~s~n", [format_errors(File, Es), format_warnings(File, Ws)]), halt(1) end. bootstrap_rebar3() -> filelib:ensure_dir("_build/default/lib/rebar/ebin/dummy.beam"), code:add_path("_build/default/lib/rebar/ebin/"), ok = symlink_or_copy(filename:absname("src"), filename:absname("_build/default/lib/rebar/src")), Sources = ["src/rebar_resource.erl" | filelib:wildcard("src/*.erl")], [compile_file(X, [{outdir, "_build/default/lib/rebar/ebin/"} ,return | additional_defines()]) || X <- Sources], code:add_patha(filename:absname("_build/default/lib/rebar/ebin")). %%rebar.hrl -define(FMT(Str, Args), lists:flatten(io_lib:format(Str, Args))). %%/rebar.hrl %%rebar_file_utils symlink_or_copy(Source, Target) -> Link = case os:type() of {win32, _} -> Source; _ -> make_relative_path(Source, Target) end, case file:make_symlink(Link, Target) of ok -> ok; {error, eexist} -> ok; {error, _} -> cp_r([Source], Target) end. make_relative_path(Source, Target) -> do_make_relative_path(filename:split(Source), filename:split(Target)). do_make_relative_path([H|T1], [H|T2]) -> do_make_relative_path(T1, T2); do_make_relative_path(Source, Target) -> Base = lists:duplicate(max(length(Target) - 1, 0), ".."), filename:join(Base ++ Source). cp_r([], _Dest) -> ok; cp_r(Sources, Dest) -> case os:type() of {unix, _} -> EscSources = [escape_path(Src) || Src <- Sources], SourceStr = string:join(EscSources, " "), os:cmd(?FMT("cp -R ~s \"~s\"", [SourceStr, Dest])), ok; {win32, _} -> lists:foreach(fun(Src) -> ok = cp_r_win32(Src,Dest) end, Sources), ok end. xcopy_win32(Source,Dest)-> R = os:cmd(?FMT("xcopy \"~s\" \"~s\" /q /y /e 2> nul", [filename:nativename(Source), filename:nativename(Dest)])), case length(R) > 0 of %% when xcopy fails, stdout is empty and and error message is printed %% to stderr (which is redirected to nul) true -> ok; false -> {error, lists:flatten( io_lib:format("Failed to xcopy from ~s to ~s~n", [Source, Dest]))} end. cp_r_win32({true, SourceDir}, {true, DestDir}) -> %% from directory to directory SourceBase = filename:basename(SourceDir), ok = case file:make_dir(filename:join(DestDir, SourceBase)) of {error, eexist} -> ok; Other -> Other end, ok = xcopy_win32(SourceDir, filename:join(DestDir, SourceBase)); cp_r_win32({false, Source} = S,{true, DestDir}) -> %% from file to directory cp_r_win32(S, {false, filename:join(DestDir, filename:basename(Source))}); cp_r_win32({false, Source},{false, Dest}) -> %% from file to file {ok,_} = file:copy(Source, Dest), ok; cp_r_win32({true, SourceDir}, {false, DestDir}) -> case filelib:is_regular(DestDir) of true -> %% From directory to file? This shouldn't happen {error, lists:flatten( io_lib:format("Cannot copy dir (~p) to file (~p)\n", [SourceDir, DestDir]))}; false -> %% Specifying a target directory that doesn't currently exist. %% So let's attempt to create this directory case filelib:ensure_dir(filename:join(DestDir, "dummy")) of ok -> ok = xcopy_win32(SourceDir, DestDir); {error, Reason} -> {error, lists:flatten( io_lib:format("Unable to create dir ~p: ~p\n", [DestDir, Reason]))} end end; cp_r_win32(Source,Dest) -> Dst = {filelib:is_dir(Dest), Dest}, lists:foreach(fun(Src) -> ok = cp_r_win32({filelib:is_dir(Src), Src}, Dst) end, filelib:wildcard(Source)), ok. escape_path(Str) -> re:replace(Str, "([ ()?])", "\\\\&", [global, {return, list}]). %%/rebar_file_utils setup_env() -> %% We don't need or want relx providers loaded yet application:load(rebar), {ok, Providers} = application:get_env(rebar, providers), Providers1 = Providers -- [rebar_prv_release, rebar_prv_tar], application:set_env(rebar, providers, Providers1). reset_env() -> %% Reset the env so we get all providers application:unset_env(rebar, providers), application:unload(rebar), application:load(rebar). write_windows_scripts() -> CmdScript= "@echo off\r\n" "setlocal\r\n" "set rebarscript=%~f0\r\n" "escript.exe \"%rebarscript:.cmd=%\" %*\r\n", ok = file:write_file("rebar3.cmd", CmdScript). get_deps() -> case file:consult("rebar.lock") of {ok, [Deps]} -> [{binary_to_atom(Name, utf8), "", Source} || {Name, Source, _Level} <- Deps]; _ -> {ok, Config} = file:consult("rebar.config"), proplists:get_value(deps, Config) end. format_errors(Source, Errors) -> format_errors(Source, "", Errors). format_warnings(Source, Warnings) -> format_warnings(Source, Warnings, []). format_warnings(Source, Warnings, Opts) -> Prefix = case lists:member(warnings_as_errors, Opts) of true -> ""; false -> "Warning: " end, format_errors(Source, Prefix, Warnings). format_errors(_MainSource, Extra, Errors) -> [begin [format_error(Source, Extra, Desc) || Desc <- Descs] end || {Source, Descs} <- Errors]. format_error(AbsSource, Extra, {{Line, Column}, Mod, Desc}) -> ErrorDesc = Mod:format_error(Desc), io_lib:format("~s:~w:~w: ~s~s~n", [AbsSource, Line, Column, Extra, ErrorDesc]); format_error(AbsSource, Extra, {Line, Mod, Desc}) -> ErrorDesc = Mod:format_error(Desc), io_lib:format("~s:~w: ~s~s~n", [AbsSource, Line, Extra, ErrorDesc]); format_error(AbsSource, Extra, {Mod, Desc}) -> ErrorDesc = Mod:format_error(Desc), io_lib:format("~s: ~s~s~n", [AbsSource, Extra, ErrorDesc]). additional_defines() -> [{d, D} || {Re, D} <- [{"^[0-9]+", namespaced_types}, {"^R1[4|5]", deprecated_crypto}], is_otp_release(Re)]. is_otp_release(ArchRegex) -> case re:run(otp_release(), ArchRegex, [{capture, none}]) of match -> true; nomatch -> false end. otp_release() -> otp_release1(erlang:system_info(otp_release)). %% If OTP <= R16, otp_release is already what we want. otp_release1([$R,N|_]=Rel) when is_integer(N) -> Rel; %% If OTP >= 17.x, erlang:system_info(otp_release) returns just the %% major version number, we have to read the full version from %% a file. See http://www.erlang.org/doc/system_principles/versions.html %% Read vsn string from the 'OTP_VERSION' file and return as list without %% the "\n". otp_release1(Rel) -> File = filename:join([code:root_dir(), "releases", Rel, "OTP_VERSION"]), case file:read_file(File) of {error, _} -> Rel; {ok, Vsn} -> %% It's fine to rely on the binary module here because we can %% be sure that it's available when the otp_release string does %% not begin with $R. Size = byte_size(Vsn), %% The shortest vsn string consists of at least two digits %% followed by "\n". Therefore, it's safe to assume Size >= 3. case binary:part(Vsn, {Size, -3}) of <<"**\n">> -> %% The OTP documentation mentions that a system patched %% using the otp_patch_apply tool available to licensed %% customers will leave a '**' suffix in the version as a %% flag saying the system consists of application versions %% from multiple OTP versions. We ignore this flag and %% drop the suffix, given for all intents and purposes, we %% cannot obtain relevant information from it as far as %% tooling is concerned. binary:bin_to_list(Vsn, {0, Size - 3}); _ -> binary:bin_to_list(Vsn, {0, Size - 1}) end end.