%% -*- erlang-indent-level: 4;indent-tabs-mode: nil -*- %% ex: ts=4 sw=4 et -module(rebar_prv_dialyzer). -behaviour(provider). -export([init/1, do/1, format_error/1]). -include("rebar.hrl"). -include_lib("providers/include/providers.hrl"). -define(PROVIDER, dialyzer). -define(DEPS, [compile]). -define(PLT_PREFIX, "rebar3"). %% =================================================================== %% Public API %% =================================================================== -spec init(rebar_state:t()) -> {ok, rebar_state:t()}. init(State) -> Opts = [{update_plt, $u, "update-plt", boolean, "Enable updating the PLT. Default: true"}, {succ_typings, $s, "succ-typings", boolean, "Enable success typing analysis. Default: true"}], State1 = rebar_state:add_provider(State, providers:create([{name, ?PROVIDER}, {module, ?MODULE}, {bare, true}, {deps, ?DEPS}, {example, "rebar3 dialyzer"}, {short_desc, short_desc()}, {desc, desc()}, {opts, Opts}])), {ok, State1}. desc() -> short_desc() ++ "\n" "\n" "This command will build, and keep up-to-date, a suitable PLT and will use " "it to carry out success typing analysis on the current project.\n" "\n" "The following (optional) configurations can be added to a `proplist` of " "options `dialyzer` in rebar.config:\n" "`warnings` - a list of dialyzer warnings\n" "`get_warnings` - display warnings when altering a PLT file (boolean)\n" "`plt_apps` - the strategy for determining the applications which included " "in the PLT file, `top_level_deps` to include just the direct dependencies " "or `all_deps` to include all nested dependencies*\n" "`plt_extra_apps` - a list of applications to include in the PLT file**\n" "`plt_location` - the location of the PLT file, `local` to store in the " "profile's base directory (default) or a custom directory.\n" "`plt_prefix` - the prefix to the PLT file, defaults to \"rebar3\"***\n" "`base_plt_apps` - a list of applications to include in the base " "PLT file****\n" "`base_plt_location` - the location of base PLT file, `global` to store in " "$HOME/.cache/rebar3 (default) or a custom directory****\n" "`base_plt_prefix` - the prefix to the base PLT file, defaults to " "\"rebar3\"*** ****\n" "\n" "For example, to warn on unmatched returns: \n" "{dialyzer, [{warnings, [unmatched_returns]}]}.\n" "\n" "*The direct dependent applications are listed in `applications` and " "`included_applications` of their .app files.\n" "**The applications in `base_plt_apps` will be added to the " "list. \n" "***PLT files are named \"__plt\".\n" "****The base PLT is a PLT containing the core applications often required " "for a project's PLT. One base PLT is created per OTP version and " "stored in `base_plt_location`. A base PLT is used to build project PLTs." "\n". short_desc() -> "Run the Dialyzer analyzer on the project.". -spec do(rebar_state:t()) -> {ok, rebar_state:t()} | {error, string()}. do(State) -> maybe_fix_env(), ?INFO("Dialyzer starting, this may take a while...", []), code:add_pathsa(rebar_state:code_paths(State, all_deps)), Plt = get_plt(State), try do(State, Plt) catch throw:{dialyzer_error, Error} -> ?PRV_ERROR({error_processing_apps, Error}); throw:{dialyzer_warnings, Warnings} -> ?PRV_ERROR({dialyzer_warnings, Warnings}); throw:{unknown_application, _} = Error -> ?PRV_ERROR(Error); throw:{output_file_error, _, _} = Error -> ?PRV_ERROR(Error) after rebar_utils:cleanup_code_path(rebar_state:code_paths(State, default)) end. %% This is used to workaround dialyzer quirk discussed here %% https://github.com/rebar/rebar3/pull/489#issuecomment-107953541 %% Dialyzer gets default plt location wrong way by peeking HOME environment %% variable which usually is not defined on Windows. maybe_fix_env() -> os:putenv("DIALYZER_PLT", filename:join(rebar_dir:home_dir(), ".dialyzer_plt")). -spec format_error(any()) -> iolist(). format_error({error_processing_apps, Error}) -> io_lib:format("Error in dialyzing apps: ~s", [Error]); format_error({dialyzer_warnings, Warnings}) -> io_lib:format("Warnings occured running dialyzer: ~b", [Warnings]); format_error({unknown_application, App}) -> io_lib:format("Could not find application: ~s", [App]); format_error({output_file_error, File, Error}) -> Error1 = file:format_error(Error), io_lib:format("Failed to write to ~s: ~s", [File, Error1]); format_error(Reason) -> io_lib:format("~p", [Reason]). %% Internal functions get_plt(State) -> Prefix = get_config(State, plt_prefix, ?PLT_PREFIX), Name = plt_name(Prefix), case get_config(State, plt_location, local) of local -> BaseDir = rebar_dir:base_dir(State), filename:join(BaseDir, Name); Dir -> filename:join(Dir, Name) end. plt_name(Prefix) -> Prefix ++ "_" ++ rebar_utils:otp_release() ++ "_plt". do(State, Plt) -> Output = get_output_file(State), {PltWarnings, State1} = update_proj_plt(State, Plt, Output), {Warnings, State2} = succ_typings(State1, Plt, Output), case PltWarnings + Warnings of 0 -> {ok, State2}; TotalWarnings -> ?INFO("Warnings written to ~s", [Output]), throw({dialyzer_warnings, TotalWarnings}) end. get_output_file(State) -> BaseDir = rebar_dir:base_dir(State), Output = filename:join(BaseDir, default_output_file()), case file:open(Output, [write]) of {ok, File} -> ok = file:close(File), Output; {error, Reason} -> throw({output_file_error, Output, Reason}) end. default_output_file() -> rebar_utils:otp_release() ++ ".dialyzer_warnings". update_proj_plt(State, Plt, Output) -> {Args, _} = rebar_state:command_parsed_args(State), case proplists:get_value(update_plt, Args) of false -> {0, State}; _ -> do_update_proj_plt(State, Plt, Output) end. do_update_proj_plt(State, Plt, Output) -> ?INFO("Updating plt...", []), Files = proj_plt_files(State), case read_plt(State, Plt) of {ok, OldFiles} -> check_plt(State, Plt, Output, OldFiles, Files); error -> build_proj_plt(State, Plt, Output, Files) end. proj_plt_files(State) -> BasePltApps = get_config(State, base_plt_apps, default_plt_apps()), PltApps = get_config(State, plt_extra_apps, []), Apps = rebar_state:project_apps(State), DepApps = lists:flatmap(fun rebar_app_info:applications/1, Apps), DepApps1 = case get_config(State, plt_apps, top_level_deps) of top_level_deps -> DepApps; all_deps -> collect_nested_dependent_apps(DepApps) end, get_plt_files(BasePltApps ++ PltApps ++ DepApps1, Apps). default_plt_apps() -> [erts, crypto, kernel, stdlib]. get_plt_files(DepApps, Apps) -> ?INFO("Resolving files...", []), get_plt_files(DepApps, Apps, [], []). get_plt_files([], _, _, Files) -> Files; get_plt_files([AppName | DepApps], Apps, PltApps, Files) -> case lists:member(AppName, PltApps) orelse app_member(AppName, Apps) of true -> get_plt_files(DepApps, Apps, PltApps, Files); false -> Files2 = app_files(AppName), ?DEBUG("~s files: ~p", [AppName, Files2]), get_plt_files(DepApps, Apps, [AppName | PltApps], Files2 ++ Files) end. app_member(AppName, Apps) -> case rebar_app_utils:find(ec_cnv:to_binary(AppName), Apps) of {ok, _App} -> true; error -> false end. app_files(AppName) -> case app_ebin(AppName) of {ok, EbinDir} -> ebin_files(EbinDir); {error, bad_name} -> throw({unknown_application, AppName}) end. app_ebin(AppName) -> case code:lib_dir(AppName, ebin) of {error, bad_name} = Error -> Error; EbinDir -> check_ebin(EbinDir) end. check_ebin(EbinDir) -> case filelib:is_dir(EbinDir) of true -> {ok, EbinDir}; false -> {error, bad_name} end. ebin_files(EbinDir) -> Wildcard = "*" ++ code:objfile_extension(), [filename:join(EbinDir, File) || File <- filelib:wildcard(Wildcard, EbinDir)]. read_plt(_State, Plt) -> case dialyzer:plt_info(Plt) of {ok, Info} -> Files = proplists:get_value(files, Info, []), read_plt_files(Plt, Files); {error, no_such_file} -> error; {error, read_error} -> Error = io_lib:format("Could not read the PLT file ~p", [Plt]), throw({dialyzer_error, Error}) end. %% If any file no longer exists dialyzer will fail when updating the PLT. read_plt_files(Plt, Files) -> case [File || File <- Files, not filelib:is_file(File)] of [] -> {ok, Files}; Missing -> ?INFO("Could not find ~p files in ~p...", [length(Missing), Plt]), ?DEBUG("Could not find files: ~p", [Missing]), error end. check_plt(State, Plt, Output, OldList, FilesList) -> Old = sets:from_list(OldList), Files = sets:from_list(FilesList), Remove = sets:to_list(sets:subtract(Old, Files)), {RemWarnings, State1} = remove_plt(State, Plt, Output, Remove), Check = sets:to_list(sets:intersection(Files, Old)), {CheckWarnings, State2} = check_plt(State1, Plt, Output, Check), Add = sets:to_list(sets:subtract(Files, Old)), {AddWarnings, State3} = add_plt(State2, Plt, Output, Add), {RemWarnings + CheckWarnings + AddWarnings, State3}. remove_plt(State, _Plt, _Output, []) -> {0, State}; remove_plt(State, Plt, Output, Files) -> ?INFO("Removing ~b files from ~p...", [length(Files), Plt]), run_plt(State, Plt, Output, plt_remove, Files). check_plt(State, _Plt, _Output, []) -> {0, State}; check_plt(State, Plt, Output, Files) -> ?INFO("Checking ~b files in ~p...", [length(Files), Plt]), run_plt(State, Plt, Output, plt_check, Files). add_plt(State, _Plt, _Output, []) -> {0, State}; add_plt(State, Plt, Output, Files) -> ?INFO("Adding ~b files to ~p...", [length(Files), Plt]), run_plt(State, Plt, Output, plt_add, Files). run_plt(State, Plt, Output, Analysis, Files) -> GetWarnings = get_config(State, get_warnings, false), Opts = [{analysis_type, Analysis}, {get_warnings, GetWarnings}, {init_plt, Plt}, {output_plt, Plt}, {from, byte_code}, {files, Files}], run_dialyzer(State, Opts, Output). build_proj_plt(State, Plt, Output, Files) -> BasePlt = get_base_plt(State), ?INFO("Updating base plt...", []), BaseFiles = base_plt_files(State), {BaseWarnings, State1} = update_base_plt(State, BasePlt, Output, BaseFiles), ?INFO("Copying ~p to ~p...", [BasePlt, Plt]), _ = filelib:ensure_dir(Plt), case file:copy(BasePlt, Plt) of {ok, _} -> {CheckWarnings, State2} = check_plt(State1, Plt, Output, BaseFiles, Files), {BaseWarnings + CheckWarnings, State2}; {error, Reason} -> Error = io_lib:format("Could not copy PLT from ~p to ~p: ~p", [BasePlt, Plt, file:format_error(Reason)]), throw({dialyzer_error, Error}) end. get_base_plt(State) -> Prefix = get_config(State, base_plt_prefix, ?PLT_PREFIX), Name = plt_name(Prefix), case get_config(State, base_plt_location, global) of global -> GlobalCacheDir = rebar_dir:global_cache_dir(rebar_state:opts(State)), filename:join(GlobalCacheDir, Name); Dir -> filename:join(Dir, Name) end. base_plt_files(State) -> BasePltApps = get_config(State, base_plt_apps, default_plt_apps()), Apps = rebar_state:project_apps(State), get_plt_files(BasePltApps, Apps). update_base_plt(State, BasePlt, Output, BaseFiles) -> case read_plt(State, BasePlt) of {ok, OldBaseFiles} -> check_plt(State, BasePlt, Output, OldBaseFiles, BaseFiles); error -> _ = filelib:ensure_dir(BasePlt), build_plt(State, BasePlt, Output, BaseFiles) end. build_plt(State, Plt, Output, Files) -> ?INFO("Adding ~b files to ~p...", [length(Files), Plt]), GetWarnings = get_config(State, get_warnings, false), Opts = [{analysis_type, plt_build}, {get_warnings, GetWarnings}, {output_plt, Plt}, {files, Files}], run_dialyzer(State, Opts, Output). succ_typings(State, Plt, Output) -> {Args, _} = rebar_state:command_parsed_args(State), case proplists:get_value(succ_typings, Args) of false -> {0, State}; _ -> Apps = rebar_state:project_apps(State), succ_typings(State, Plt, Output, Apps) end. succ_typings(State, Plt, Output, Apps) -> ?INFO("Doing success typing analysis...", []), Files = apps_to_files(Apps), ?INFO("Analyzing ~b files with ~p...", [length(Files), Plt]), Opts = [{analysis_type, succ_typings}, {get_warnings, true}, {from, byte_code}, {files, Files}, {init_plt, Plt}], run_dialyzer(State, Opts, Output). apps_to_files(Apps) -> ?INFO("Resolving files...", []), [File || App <- Apps, File <- app_to_files(App)]. app_to_files(App) -> AppName = ec_cnv:to_atom(rebar_app_info:name(App)), app_files(AppName). run_dialyzer(State, Opts, Output) -> %% dialyzer may return callgraph warnings when get_warnings is false case proplists:get_bool(get_warnings, Opts) of true -> WarningsList = get_config(State, warnings, []), Opts2 = [{warnings, legacy_warnings(WarningsList)}, {check_plt, false} | Opts], ?DEBUG("Running dialyzer with options: ~p~n", [Opts2]), Warnings = format_warnings(Output, dialyzer:run(Opts2)), {Warnings, State}; false -> Opts2 = [{warnings, no_warnings()}, {check_plt, false} | Opts], ?DEBUG("Running dialyzer with options: ~p~n", [Opts2]), dialyzer:run(Opts2), {0, State} end. legacy_warnings(Warnings) -> case dialyzer_version() of TupleVsn when TupleVsn < {2, 8, 0} -> [Warning || Warning <- Warnings, Warning =/= unknown]; _ -> Warnings end. format_warnings(Output, Warnings) -> Warnings1 = rebar_dialyzer_format:format_warnings(Warnings), console_warnings(Warnings1), file_warnings(Output, Warnings), length(Warnings). console_warnings(Warnings) -> _ = [?CONSOLE("~s", [Warning]) || Warning <- Warnings], ok. file_warnings(_, []) -> ok; file_warnings(Output, Warnings) -> Warnings1 = [[dialyzer:format_warning(Warning, fullpath), $\n] || Warning <- Warnings], case file:write_file(Output, Warnings1, [append]) of ok -> ok; {error, Reason} -> throw({output_file_error, Output, Reason}) end. no_warnings() -> [no_return, no_unused, no_improper_lists, no_fun_app, no_match, no_opaque, no_fail_call, no_contracts, no_behaviours, no_undefined_callbacks]. get_config(State, Key, Default) -> Config = rebar_state:get(State, dialyzer, []), proplists:get_value(Key, Config, Default). -spec collect_nested_dependent_apps([atom()]) -> [atom()]. collect_nested_dependent_apps(RootApps) -> Deps = lists:foldl(fun collect_nested_dependent_apps/2, sets:new(), RootApps), sets:to_list(Deps). -spec collect_nested_dependent_apps(atom(), rebar_set()) -> rebar_set(). collect_nested_dependent_apps(App, Seen) -> case sets:is_element(App, Seen) of true -> Seen; false -> Seen1 = sets:add_element(App, Seen), case code:lib_dir(App) of {error, _} -> throw({unknown_application, App}); AppDir -> case rebar_app_discover:find_app(AppDir, all) of false -> throw({unknown_application, App}); {true, AppInfo} -> lists:foldl(fun collect_nested_dependent_apps/2, Seen1, rebar_app_info:applications(AppInfo)) end end end. dialyzer_version() -> _ = application:load(dialyzer), {ok, Vsn} = application:get_key(dialyzer, vsn), case string:tokens(Vsn, ".") of [Major, Minor] -> version_tuple(Major, Minor, "0"); [Major, Minor, Patch | _] -> version_tuple(Major, Minor, Patch) end. version_tuple(Major, Minor, Patch) -> {list_to_integer(Major), list_to_integer(Minor), list_to_integer(Patch)}.