%% -*- erlang-indent-level: 4;indent-tabs-mode: nil -*- %% ex: ts=4 sw=4 et -module(rebar_prv_xref). -behaviour(provider). -export([init/1, do/1, format_error/1, filter_xref_results/3]). -include("rebar.hrl"). -include_lib("providers/include/providers.hrl"). -define(PROVIDER, xref). -define(DEPS, [compile]). -define(SUPPORTED_XREFS, [undefined_function_calls, undefined_functions, locals_not_used, exports_not_used, deprecated_function_calls, deprecated_functions]). %% =================================================================== %% Public API %% =================================================================== -spec init(rebar_state:t()) -> {ok, rebar_state:t()}. init(State) -> Provider = providers:create([{name, ?PROVIDER}, {module, ?MODULE}, {deps, ?DEPS}, {bare, true}, {example, "rebar3 xref"}, {short_desc, short_desc()}, {desc, desc()}]), State1 = rebar_state:add_provider(State, Provider), {ok, State1}. -spec do(rebar_state:t()) -> {ok, rebar_state:t()} | {error, string()}. do(State) -> rebar_paths:set_paths([runtime], State), XrefChecks = prepare(State), XrefIgnores = rebar_state:get(State, xref_ignores, []), %% Run xref checks ?INFO("Running cross reference analysis...", []), XrefResults = xref_checks(XrefChecks, XrefIgnores), %% Run custom queries QueryChecks = rebar_state:get(State, xref_queries, []), QueryResults = lists:foldl(fun check_query/2, [], QueryChecks), stopped = xref:stop(xref), case XrefResults =:= [] andalso QueryResults =:= [] of true -> {ok, State}; false -> ?PRV_ERROR({xref_issues, XrefResults, QueryResults}) end. -spec format_error(any()) -> iolist(). format_error({xref_issues, XrefResults, QueryResults}) -> lists:flatten(display_results(XrefResults, QueryResults)); format_error(Reason) -> io_lib:format("~p", [Reason]). %% =================================================================== %% Internal functions %% =================================================================== short_desc() -> "Run cross reference analysis.". desc() -> io_lib:format( "~ts~n" "~n" "Valid rebar.config options:~n" " ~p~n" " ~p~n" " ~p~n" " ~p~n", [short_desc(), {xref_warnings, false}, {xref_extra_paths,[]}, {xref_checks, [undefined_function_calls, undefined_functions, locals_not_used, exports_not_used, deprecated_function_calls, deprecated_functions]}, {xref_queries, [{"(xc - uc) || (xu - x - b" " - (\"mod\":\".*foo\"/\"4\"))",[]}]} ]). -spec prepare(rebar_state:t()) -> [atom()]. prepare(State) -> {ok, _} = xref:start(xref), ok = xref:set_library_path(xref, code_path(State)), xref:set_default(xref, [{warnings, rebar_state:get(State, xref_warnings, false)}, {verbose, rebar_log:is_verbose(State)}]), [{ok, _} = xref:add_directory(xref, Dir) || App <- rebar_state:project_apps(State), %% the directory may not exist in rare cases of a compile %% hook of a dep running xref prior to the full job being done Dir <- [rebar_app_info:ebin_dir(App)], filelib:is_dir(Dir)], %% Get list of xref checks we want to run ConfXrefChecks = rebar_state:get(State, xref_checks, [exports_not_used, undefined_function_calls]), XrefChecks = sets:to_list(sets:intersection( sets:from_list(?SUPPORTED_XREFS), sets:from_list(ConfXrefChecks))), XrefChecks. xref_checks(XrefChecks, XrefIgnores) -> run_xref_checks(XrefChecks, XrefIgnores, []). run_xref_checks([], _XrefIgnores, Acc) -> Acc; run_xref_checks([XrefCheck | T], XrefIgnores, Acc) -> {ok, Results} = xref:analyze(xref, XrefCheck), case filter_xref_results(XrefCheck, XrefIgnores, Results) of [] -> run_xref_checks(T, XrefIgnores, Acc); FilterResult -> run_xref_checks(T, XrefIgnores, [{XrefCheck, FilterResult} | Acc]) end. check_query({Query, Value}, Acc) -> {ok, Answer} = xref:q(xref, Query), case Answer =:= Value of false -> [{Query, Value, Answer} | Acc]; _ -> Acc end. code_path(State) -> [P || P <- code:get_path() ++ rebar_state:get(State, xref_extra_paths, []), filelib:is_dir(P)]. %% Ignore behaviour functions, and explicitly marked functions %% %% Functions can be ignored by using %% -ignore_xref([{F, A}, {M, F, A}...]). get_xref_ignorelist(Mod, XrefCheck) -> %% Get ignore_xref attribute and combine them in one list Attributes = try Mod:module_info(attributes) catch _Class:_Error -> [] end, IgnoreXref = keyall(ignore_xref, Attributes), BehaviourCallbacks = get_behaviour_callbacks(XrefCheck, Attributes), %% And create a flat {M,F,A} list lists:foldl( fun({F, A}, Acc) -> [{Mod,F,A} | Acc]; ({M, F, A}, Acc) -> [{M,F,A} | Acc]; (M, Acc) when is_atom(M) -> [M | Acc] end, [], lists:flatten([IgnoreXref, BehaviourCallbacks])). keyall(Key, List) -> lists:flatmap(fun({K, L}) when Key =:= K -> L; (_) -> [] end, List). get_behaviour_callbacks(exports_not_used, Attributes) -> lists:map(fun(Mod) -> try Mod:behaviour_info(callbacks) catch error:undef -> ?WARN("Behaviour ~p is used but cannot be found.", [Mod]), [] end end, keyall(behaviour, Attributes) ++ keyall(behavior, Attributes)); get_behaviour_callbacks(_XrefCheck, _Attributes) -> []. filter_xref_results(XrefCheck, XrefIgnores, XrefResults) -> SearchModules = lists:usort( lists:map( fun({Mt,_Ft,_At}) -> Mt; ({{Ms,_Fs,_As},{_Mt,_Ft,_At}}) -> Ms; (_) -> undefined end, XrefResults)), Ignores = XrefIgnores ++ lists:flatmap(fun(Module) -> get_xref_ignorelist(Module, XrefCheck) end, SearchModules), lists:filter( fun(Result) -> pred_xref_result(Result, Ignores) end, XrefResults). pred_xref_result({Src, Dest}, Ignores) -> pred_xref_result1(Src, Ignores) andalso pred_xref_result1(Dest, Ignores); pred_xref_result(Vertex, Ignores) -> pred_xref_result1(Vertex, Ignores). pred_xref_result1(Vertex, Ignores) -> Mod = case Vertex of {Module, _Func, _Arity} -> Module; _ -> Vertex end, not lists:member(Vertex, Ignores) andalso not lists:member(Mod, Ignores). display_results(XrefResults, QueryResults) -> [lists:map(fun display_xref_results_for_type/1, XrefResults), lists:map(fun display_query_result/1, QueryResults)]. display_query_result({Query, Answer, Value}) -> io_lib:format("Query ~ts~n answer ~p~n did not match ~p~n", [Query, Answer, Value]). display_xref_results_for_type({Type, XrefResults}) -> lists:map(display_xref_result_fun(Type), XrefResults). display_xref_result_fun(Type) -> fun(XrefResult) -> {Source, SMFA, TMFA} = case XrefResult of {MFASource, MFATarget} -> {format_mfa_source(MFASource), format_mfa(MFASource), format_mfa(MFATarget)}; MFATarget -> {format_mfa_source(MFATarget), format_mfa(MFATarget), undefined} end, case Type of undefined_function_calls -> io_lib:format("~tsWarning: ~ts calls undefined function ~ts (Xref)\n", [Source, SMFA, TMFA]); undefined_functions -> io_lib:format("~tsWarning: ~ts is undefined function (Xref)\n", [Source, SMFA]); locals_not_used -> io_lib:format("~tsWarning: ~ts is unused local function (Xref)\n", [Source, SMFA]); exports_not_used -> io_lib:format("~tsWarning: ~ts is unused export (Xref)\n", [Source, SMFA]); deprecated_function_calls -> io_lib:format("~tsWarning: ~ts calls deprecated function ~ts (Xref)\n", [Source, SMFA, TMFA]); deprecated_functions -> io_lib:format("~tsWarning: ~ts is deprecated function (Xref)\n", [Source, SMFA]); Other -> io_lib:format("~tsWarning: ~ts - ~ts xref check: ~ts (Xref)\n", [Source, SMFA, TMFA, Other]) end end. format_mfa({M, F, A}) -> ?FMT("~ts:~ts/~w", [M, F, A]). format_mfa_source(MFA) -> case find_mfa_source(MFA) of {module_not_found, function_not_found} -> ""; {Source, function_not_found} -> ?FMT("~ts: ", [Source]); {Source, Line} -> ?FMT("~ts:~w: ", [Source, Line]) end. %% %% Extract an element from a tuple, or undefined if N > tuple size %% safe_element(N, Tuple) -> try element(N, Tuple) catch error:badarg -> undefined end. %% %% Given a MFA, find the file and LOC where it's defined. Note that %% xref doesn't work if there is no abstract_code, so we can avoid %% being too paranoid here. %% find_mfa_source({M, F, A}) -> case code:get_object_code(M) of error -> {module_not_found, function_not_found}; {M, Bin, _} -> find_function_source(M,F,A,Bin) end. find_function_source(M, F, A, Bin) -> ChunksLookup = beam_lib:chunks(Bin, [abstract_code]), {ok, {M, [{abstract_code, AbstractCodeLookup}]}} = ChunksLookup, case AbstractCodeLookup of no_abstract_code -> % There isn't much else we can do at this point {module_not_found, function_not_found}; {raw_abstract_v1, AbstractCode} -> find_function_source_in_abstract_code(F, A, AbstractCode) end. find_function_source_in_abstract_code(F, A, AbstractCode) -> %% Extract the original source filename from the abstract code [{attribute, _, file, {Source0, _}} | _] = [Attr || Attr = {attribute, _, file, _} <- AbstractCode], Source = rebar_dir:make_relative_path(Source0, rebar_dir:get_cwd()), %% Extract the line number for a given function def Fn = [E || E <- AbstractCode, safe_element(1, E) == function, safe_element(3, E) == F, safe_element(4, E) == A], case Fn of [{function, Anno, F, _, _}] -> {Source, erl_anno:line(Anno)}; %% do not crash if functions are exported, even though they %% are not in the source. %% parameterized modules add new/1 and instance/1 for example. [] -> {Source, function_not_found} end.