%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1996-2016. All Rights Reserved.
%%
%% Licensed under the Apache License, Version 2.0 (the "License");
%% you may not use this file except in compliance with the License.
%% You may obtain a copy of the License at
%%
%% http://www.apache.org/licenses/LICENSE-2.0
%%
%% Unless required by applicable law or agreed to in writing, software
%% distributed under the License is distributed on an "AS IS" BASIS,
%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
%% See the License for the specific language governing permissions and
%% limitations under the License.
%%
%% %CopyrightEnd%
%%
-module(code).
%% This is the interface module to the code server. It also contains
%% some implementation details. See also related modules: code_*.erl
%% in this directory.
-export([objfile_extension/0,
set_path/1,
get_path/0,
load_file/1,
ensure_loaded/1,
ensure_modules_loaded/1,
load_abs/1,
load_abs/2,
load_binary/3,
load_native_partial/2,
load_native_sticky/3,
atomic_load/1,
prepare_loading/1,
finish_loading/1,
delete/1,
purge/1,
soft_purge/1,
is_loaded/1,
all_loaded/0,
stop/0,
root_dir/0,
lib_dir/0,
lib_dir/1,
lib_dir/2,
compiler_dir/0,
priv_dir/1,
stick_dir/1,
unstick_dir/1,
stick_mod/1,
unstick_mod/1,
is_sticky/1,
get_object_code/1,
add_path/1,
add_pathsz/1,
add_paths/1,
add_pathsa/1,
add_patha/1,
add_pathz/1,
del_path/1,
replace_path/2,
rehash/0,
start_link/0,
which/1,
where_is_file/1,
where_is_file/2,
set_primary_archive/4,
clash/0,
get_mode/0]).
-deprecated({rehash,0,next_major_release}).
-export_type([load_error_rsn/0, load_ret/0]).
-export_type([prepared_code/0]).
-include_lib("kernel/include/file.hrl").
%%----------------------------------------------------------------------------
%% Some types for basic exported functions of this module
%%----------------------------------------------------------------------------
-type load_error_rsn() :: 'badfile'
| 'nofile'
| 'not_purged'
| 'on_load_failure'
| 'sticky_directory'.
-type load_ret() :: {'error', What :: load_error_rsn()}
| {'module', Module :: module()}.
-type loaded_ret_atoms() :: 'cover_compiled' | 'preloaded'.
-type loaded_filename() :: (Filename :: file:filename()) | loaded_ret_atoms().
-define(PREPARED, '$prepared$').
-opaque prepared_code() ::
{?PREPARED,[{module(),{binary(),string(),_}}]}.
%%% BIFs
-export([get_chunk/2, is_module_native/1, make_stub_module/3, module_md5/1]).
-spec get_chunk(Bin, Chunk) ->
binary() | undefined when
Bin :: binary(),
Chunk :: string().
get_chunk(_, _) ->
erlang:nif_error(undef).
-spec is_module_native(Module) -> true | false | undefined when
Module :: module().
is_module_native(_) ->
erlang:nif_error(undef).
-spec make_stub_module(Module, Beam, Info) -> Module when
Module :: module(),
Beam :: binary(),
Info :: {list(), list(), binary()}.
make_stub_module(_, _, _) ->
erlang:nif_error(undef).
-spec module_md5(binary()) -> binary() | undefined.
module_md5(_) ->
erlang:nif_error(undef).
%%% End of BIFs
%%----------------------------------------------------------------------------
%% User interface
%%----------------------------------------------------------------------------
-spec objfile_extension() -> nonempty_string().
objfile_extension() ->
init:objfile_extension().
-spec load_file(Module) -> load_ret() when
Module :: module().
load_file(Mod) when is_atom(Mod) ->
call({load_file,Mod}).
-spec ensure_loaded(Module) -> {module, Module} | {error, What} when
Module :: module(),
What :: embedded | badfile | nofile | on_load_failure.
ensure_loaded(Mod) when is_atom(Mod) ->
call({ensure_loaded,Mod}).
%% XXX File as an atom is allowed only for backwards compatibility.
-spec load_abs(Filename) -> load_ret() when
Filename :: file:filename().
load_abs(File) when is_list(File); is_atom(File) ->
Mod = list_to_atom(filename:basename(File)),
call({load_abs,File,Mod}).
%% XXX Filename is also an atom(), e.g. 'cover_compiled'
-spec load_abs(Filename :: loaded_filename(), Module :: module()) -> load_ret().
load_abs(File, M) when (is_list(File) orelse is_atom(File)), is_atom(M) ->
call({load_abs,File,M}).
%% XXX Filename is also an atom(), e.g. 'cover_compiled'
-spec load_binary(Module, Filename, Binary) ->
{module, Module} | {error, What} when
Module :: module(),
Filename :: loaded_filename(),
Binary :: binary(),
What :: badarg | load_error_rsn().
load_binary(Mod, File, Bin)
when is_atom(Mod), (is_list(File) orelse is_atom(File)), is_binary(Bin) ->
call({load_binary,Mod,File,Bin}).
-spec load_native_partial(Module :: module(), Binary :: binary()) -> load_ret().
load_native_partial(Mod, Bin) when is_atom(Mod), is_binary(Bin) ->
call({load_native_partial,Mod,Bin}).
-spec load_native_sticky(Module :: module(), Binary :: binary(), WholeModule :: 'false' | binary()) -> load_ret().
load_native_sticky(Mod, Bin, WholeModule)
when is_atom(Mod), is_binary(Bin),
(is_binary(WholeModule) orelse WholeModule =:= false) ->
call({load_native_sticky,Mod,Bin,WholeModule}).
-spec delete(Module) -> boolean() when
Module :: module().
delete(Mod) when is_atom(Mod) -> call({delete,Mod}).
-spec purge(Module) -> boolean() when
Module :: module().
purge(Mod) when is_atom(Mod) -> call({purge,Mod}).
-spec soft_purge(Module) -> boolean() when
Module :: module().
soft_purge(Mod) when is_atom(Mod) -> call({soft_purge,Mod}).
-spec is_loaded(Module) -> {'file', Loaded} | false when
Module :: module(),
Loaded :: loaded_filename().
is_loaded(Mod) when is_atom(Mod) -> call({is_loaded,Mod}).
-spec get_object_code(Module) -> {Module, Binary, Filename} | error when
Module :: module(),
Binary :: binary(),
Filename :: file:filename().
get_object_code(Mod) when is_atom(Mod) -> call({get_object_code, Mod}).
-spec all_loaded() -> [{Module, Loaded}] when
Module :: module(),
Loaded :: loaded_filename().
all_loaded() -> call(all_loaded).
-spec stop() -> no_return().
stop() -> call(stop).
-spec root_dir() -> file:filename().
root_dir() -> call({dir,root_dir}).
-spec lib_dir() -> file:filename().
lib_dir() -> call({dir,lib_dir}).
%% XXX is_list() is for backwards compatibility -- take out in future version
-spec lib_dir(Name) -> file:filename() | {'error', 'bad_name'} when
Name :: atom().
lib_dir(App) when is_atom(App) ; is_list(App) -> call({dir,{lib_dir,App}}).
-spec lib_dir(Name, SubDir) -> file:filename() | {'error', 'bad_name'} when
Name :: atom(),
SubDir :: atom().
lib_dir(App, SubDir) when is_atom(App), is_atom(SubDir) -> call({dir,{lib_dir,App,SubDir}}).
-spec compiler_dir() -> file:filename().
compiler_dir() -> call({dir,compiler_dir}).
%% XXX is_list() is for backwards compatibility -- take out in future version
-spec priv_dir(Name) -> file:filename() | {'error', 'bad_name'} when
Name :: atom().
priv_dir(App) when is_atom(App) ; is_list(App) -> call({dir,{priv_dir,App}}).
-spec stick_dir(Dir) -> 'ok' | 'error' when
Dir :: file:filename().
stick_dir(Dir) when is_list(Dir) -> call({stick_dir,Dir}).
-spec unstick_dir(Dir) -> 'ok' | 'error' when
Dir :: file:filename().
unstick_dir(Dir) when is_list(Dir) -> call({unstick_dir,Dir}).
-spec stick_mod(Module :: module()) -> 'true'.
stick_mod(Mod) when is_atom(Mod) -> call({stick_mod,Mod}).
-spec unstick_mod(Module :: module()) -> 'true'.
unstick_mod(Mod) when is_atom(Mod) -> call({unstick_mod,Mod}).
-spec is_sticky(Module) -> boolean() when
Module :: module().
is_sticky(Mod) when is_atom(Mod) -> call({is_sticky,Mod}).
-spec set_path(Path) -> 'true' | {'error', What} when
Path :: [Dir :: file:filename()],
What :: 'bad_directory' | 'bad_path'.
set_path(PathList) when is_list(PathList) -> call({set_path,PathList}).
-spec get_path() -> Path when
Path :: [Dir :: file:filename()].
get_path() -> call(get_path).
-type add_path_ret() :: 'true' | {'error', 'bad_directory'}.
-spec add_path(Dir) -> add_path_ret() when
Dir :: file:filename().
add_path(Dir) when is_list(Dir) -> call({add_path,last,Dir}).
-spec add_pathz(Dir) -> add_path_ret() when
Dir :: file:filename().
add_pathz(Dir) when is_list(Dir) -> call({add_path,last,Dir}).
-spec add_patha(Dir) -> add_path_ret() when
Dir :: file:filename().
add_patha(Dir) when is_list(Dir) -> call({add_path,first,Dir}).
-spec add_paths(Dirs) -> 'ok' when
Dirs :: [Dir :: file:filename()].
add_paths(Dirs) when is_list(Dirs) -> call({add_paths,last,Dirs}).
-spec add_pathsz(Dirs) -> 'ok' when
Dirs :: [Dir :: file:filename()].
add_pathsz(Dirs) when is_list(Dirs) -> call({add_paths,last,Dirs}).
-spec add_pathsa(Dirs) -> 'ok' when
Dirs :: [Dir :: file:filename()].
add_pathsa(Dirs) when is_list(Dirs) -> call({add_paths,first,Dirs}).
-spec del_path(NameOrDir) -> boolean() | {'error', What} when
NameOrDir :: Name | Dir,
Name :: atom(),
Dir :: file:filename(),
What :: 'bad_name'.
del_path(Name) when is_list(Name) ; is_atom(Name) -> call({del_path,Name}).
-spec replace_path(Name, Dir) -> 'true' | {'error', What} when
Name:: atom(),
Dir :: file:filename(),
What :: 'bad_directory' | 'bad_name' | {'badarg',_}.
replace_path(Name, Dir) when (is_atom(Name) orelse is_list(Name)),
(is_atom(Dir) orelse is_list(Dir)) ->
call({replace_path,Name,Dir}).
-spec rehash() -> 'ok'.
rehash() ->
cache_warning(),
ok.
-spec get_mode() -> 'embedded' | 'interactive'.
get_mode() -> call(get_mode).
%%%
%%% Loading of several modules in parallel.
%%%
-spec ensure_modules_loaded([Module]) ->
'ok' | {'error',[{Module,What}]} when
Module :: module(),
What :: badfile | nofile | on_load_failure.
ensure_modules_loaded(Modules) when is_list(Modules) ->
case prepare_ensure(Modules, []) of
Ms when is_list(Ms) ->
ensure_modules_loaded_1(Ms);
error ->
error(function_clause, [Modules])
end.
ensure_modules_loaded_1(Ms0) ->
Ms = lists:usort(Ms0),
{Prep,Error0} = load_mods(Ms),
{OnLoad,Normal} = partition_on_load(Prep),
Error1 = case finish_loading(Normal, true) of
ok -> Error0;
{error,Err} -> Err ++ Error0
end,
ensure_modules_loaded_2(OnLoad, Error1).
ensure_modules_loaded_2([{M,_}|Ms], Errors) ->
case ensure_loaded(M) of
{module,M} ->
ensure_modules_loaded_2(Ms, Errors);
{error,Err} ->
ensure_modules_loaded_2(Ms, [{M,Err}|Errors])
end;
ensure_modules_loaded_2([], []) ->
ok;
ensure_modules_loaded_2([], [_|_]=Errors) ->
{error,Errors}.
prepare_ensure([M|Ms], Acc) when is_atom(M) ->
case erlang:module_loaded(M) of
true ->
prepare_ensure(Ms, Acc);
false ->
prepare_ensure(Ms, [M|Acc])
end;
prepare_ensure([], Acc) ->
Acc;
prepare_ensure(_, _) ->
error.
-spec atomic_load(Modules) -> 'ok' | {'error',[{Module,What}]} when
Modules :: [Module | {Module, Filename, Binary}],
Module :: module(),
Filename :: file:filename(),
Binary :: binary(),
What :: 'badfile' | 'nofile' | 'on_load_not_allowed' | 'duplicated' |
'not_purged' | 'sticky_directory' | 'pending_on_load'.
atomic_load(Modules) ->
case do_prepare_loading(Modules) of
{ok,Prep} ->
finish_loading(Prep, false);
{error,_}=Error ->
Error;
badarg ->
error(function_clause, [Modules])
end.
-spec prepare_loading(Modules) ->
{'ok',Prepared} | {'error',[{Module,What}]} when
Modules :: [Module | {Module, Filename, Binary}],
Module :: module(),
Filename :: file:filename(),
Binary :: binary(),
Prepared :: prepared_code(),
What :: 'badfile' | 'nofile' | 'on_load_not_allowed' | 'duplicated'.
prepare_loading(Modules) ->
case do_prepare_loading(Modules) of
{ok,Prep} ->
{ok,{?PREPARED,Prep}};
{error,_}=Error ->
Error;
badarg ->
error(function_clause, [Modules])
end.
-spec finish_loading(Prepared) -> 'ok' | {'error',[{Module,What}]} when
Prepared :: prepared_code(),
Module :: module(),
What :: 'not_purged' | 'sticky_directory' | 'pending_on_load'.
finish_loading({?PREPARED,Prepared}=Arg) when is_list(Prepared) ->
case verify_prepared(Prepared) of
ok ->
finish_loading(Prepared, false);
error ->
error(function_clause, [Arg])
end.
partition_load([Item|T], Bs, Ms) ->
case Item of
{M,File,Bin} when is_atom(M) andalso
is_list(File) andalso
is_binary(Bin) ->
partition_load(T, [Item|Bs], Ms);
M when is_atom(M) ->
partition_load(T, Bs, [Item|Ms]);
_ ->
error
end;
partition_load([], Bs, Ms) ->
{Bs,Ms}.
do_prepare_loading(Modules) ->
case partition_load(Modules, [], []) of
{ModBins,Ms} ->
case prepare_loading_1(ModBins, Ms) of
{error,_}=Error ->
Error;
Prep when is_list(Prep) ->
{ok,Prep}
end;
error ->
badarg
end.
prepare_loading_1(ModBins, Ms) ->
%% erlang:finish_loading/1 *will* detect duplicates.
%% However, we want to detect all errors that can be detected
%% by only examining the input data before call the LastAction
%% fun.
case prepare_check_uniq(ModBins, Ms) of
ok ->
prepare_loading_2(ModBins, Ms);
Error ->
Error
end.
prepare_loading_2(ModBins, Ms) ->
{Prep0,Error0} = load_bins(ModBins),
{Prep1,Error1} = load_mods(Ms),
case Error0 ++ Error1 of
[] ->
prepare_loading_3(Prep0 ++ Prep1);
[_|_]=Error ->
{error,Error}
end.
prepare_loading_3(Prep) ->
case partition_on_load(Prep) of
{[_|_]=OnLoad,_} ->
Error = [{M,on_load_not_allowed} || {M,_} <- OnLoad],
{error,Error};
{[],_} ->
Prep
end.
prepare_check_uniq([{M,_,_}|T], Ms) ->
prepare_check_uniq(T, [M|Ms]);
prepare_check_uniq([], Ms) ->
prepare_check_uniq_1(lists:sort(Ms), []).
prepare_check_uniq_1([M|[M|_]=Ms], Acc) ->
prepare_check_uniq_1(Ms, [{M,duplicated}|Acc]);
prepare_check_uniq_1([_|Ms], Acc) ->
prepare_check_uniq_1(Ms, Acc);
prepare_check_uniq_1([], []) ->
ok;
prepare_check_uniq_1([], [_|_]=Errors) ->
{error,Errors}.
partition_on_load(Prep) ->
P = fun({_,{Bin,_,_}}) ->
erlang:has_prepared_code_on_load(Bin)
end,
lists:partition(P, Prep).
verify_prepared([{M,{Prep,Name,_Native}}|T])
when is_atom(M), is_binary(Prep), is_list(Name) ->
try erlang:has_prepared_code_on_load(Prep) of
false ->
verify_prepared(T);
_ ->
error
catch
error:_ ->
error
end;
verify_prepared([]) ->
ok;
verify_prepared(_) ->
error.
finish_loading(Prepared0, EnsureLoaded) ->
Prepared = [{M,{Bin,File}} || {M,{Bin,File,_}} <- Prepared0],
Native0 = [{M,Code} || {M,{_,_,Code}} <- Prepared0,
Code =/= undefined],
case call({finish_loading,Prepared,EnsureLoaded}) of
ok ->
finish_loading_native(Native0);
{error,Errors}=E when EnsureLoaded ->
S0 = sofs:relation(Errors),
S1 = sofs:domain(S0),
R0 = sofs:relation(Native0),
R1 = sofs:drestriction(R0, S1),
Native = sofs:to_external(R1),
finish_loading_native(Native),
E;
{error,_}=E ->
E
end.
finish_loading_native([{Mod,Code}|Ms]) ->
_ = load_native_partial(Mod, Code),
finish_loading_native(Ms);
finish_loading_native([]) ->
ok.
load_mods([]) ->
{[],[]};
load_mods(Mods) ->
Path = get_path(),
F = prepare_loading_fun(),
{ok,{Succ,Error0}} = erl_prim_loader:get_modules(Mods, F, Path),
Error = [case E of
badfile -> {M,E};
_ -> {M,nofile}
end || {M,E} <- Error0],
{Succ,Error}.
load_bins([]) ->
{[],[]};
load_bins(BinItems) ->
F = prepare_loading_fun(),
do_par(F, BinItems).
-type prep_fun_type() :: fun((module(), file:filename(), binary()) ->
{ok,_} | {error,_}).
-spec prepare_loading_fun() -> prep_fun_type().
prepare_loading_fun() ->
GetNative = get_native_fun(),
fun(Mod, FullName, Beam) ->
case erlang:prepare_loading(Mod, Beam) of
Prepared when is_binary(Prepared) ->
{ok,{Prepared,FullName,GetNative(Beam)}};
{error,_}=Error ->
Error
end
end.
get_native_fun() ->
Architecture = erlang:system_info(hipe_architecture),
try hipe_unified_loader:chunk_name(Architecture) of
ChunkTag ->
fun(Beam) -> code:get_chunk(Beam, ChunkTag) end
catch _:_ ->
fun(_) -> undefined end
end.
do_par(Fun, L) ->
{_,Ref} = spawn_monitor(do_par_fun(Fun, L)),
receive
{'DOWN',Ref,process,_,Res} ->
Res
end.
-spec do_par_fun(prep_fun_type(), list()) -> fun(() -> no_return()).
do_par_fun(Fun, L) ->
fun() ->
_ = [spawn_monitor(do_par_fun_2(Fun, Item)) ||
Item <- L],
exit(do_par_recv(length(L), [], []))
end.
-spec do_par_fun_2(prep_fun_type(),
{module(),file:filename(),binary()}) ->
fun(() -> no_return()).
do_par_fun_2(Fun, Item) ->
fun() ->
{Mod,Filename,Bin} = Item,
try Fun(Mod, Filename, Bin) of
{ok,Res} ->
exit({good,{Mod,Res}});
{error,Error} ->
exit({bad,{Mod,Error}})
catch
_:Error ->
exit({bad,{Mod,Error}})
end
end.
do_par_recv(0, Good, Bad) ->
{Good,Bad};
do_par_recv(N, Good, Bad) ->
receive
{'DOWN',_,process,_,{good,Res}} ->
do_par_recv(N-1, [Res|Good], Bad);
{'DOWN',_,process,_,{bad,Res}} ->
do_par_recv(N-1, Good, [Res|Bad])
end.
%%-----------------------------------------------------------------
call(Req) ->
code_server:call(Req).
-spec start_link() -> {'ok', pid()} | {'error', 'crash'}.
start_link() ->
do_start().
%%-----------------------------------------------------------------
%% In the init phase, code must not use any modules not yet loaded,
%% either pre_loaded (e.g. init) or first in the script (e.g.
%% erlang). Therefore, keep the modules used in init phase to a
%% minimum, and make sure they are loaded before init is called.
%% Try to call these modules from do_start instead.
%% file is used in init - this is ok; file has been started before
%% us, so the module is loaded.
%%-----------------------------------------------------------------
do_start() ->
maybe_warn_for_cache(),
load_code_server_prerequisites(),
{ok,[[Root0]]} = init:get_argument(root),
Mode = start_get_mode(),
Root = filename:join([Root0]), % Normalize.
Res = code_server:start_link([Root,Mode]),
maybe_stick_dirs(Mode),
%% Quietly load native code for all modules loaded so far.
Architecture = erlang:system_info(hipe_architecture),
load_native_code_for_all_loaded(Architecture),
Res.
%% Make sure that all modules that the code_server process calls
%% (directly or indirectly) are loaded. Otherwise the code_server
%% process will deadlock.
load_code_server_prerequisites() ->
%% Please keep the alphabetical order.
Needed = [binary,
ets,
filename,
gb_sets,
gb_trees,
hipe_unified_loader,
lists,
os,
unicode],
_ = [M = M:module_info(module) || M <- Needed],
ok.
maybe_stick_dirs(interactive) ->
case init:get_argument(nostick) of
{ok,[[]]} ->
ok;
_ ->
do_stick_dirs()
end;
maybe_stick_dirs(_) ->
ok.
do_stick_dirs() ->
do_s(compiler),
do_s(stdlib),
do_s(kernel).
do_s(Lib) ->
case lib_dir(Lib) of
{error, _} ->
ok;
Dir ->
%% The return value is intentionally ignored. Missing
%% directories is not a fatal error. (In embedded systems,
%% there is usually no compiler directory.)
_ = stick_dir(filename:append(Dir, "ebin")),
ok
end.
start_get_mode() ->
case init:get_argument(mode) of
{ok,[["embedded"]]} ->
embedded;
_ ->
interactive
end.
%% Find out which version of a particular module we would
%% load if we tried to load it, unless it's already loaded.
%% In that case return the name of the file which contains
%% the loaded object code
-spec which(Module) -> Which when
Module :: module(),
Which :: file:filename() | loaded_ret_atoms() | non_existing.
which(Module) when is_atom(Module) ->
case is_loaded(Module) of
false ->
which2(Module);
{file, File} ->
File
end.
which2(Module) ->
Base = atom_to_list(Module),
File = filename:basename(Base) ++ objfile_extension(),
Path = get_path(),
which(File, filename:dirname(Base), Path).
-spec which(file:filename(), file:filename(), [file:filename()]) ->
'non_existing' | file:filename().
which(_, _, []) ->
non_existing;
which(File, Base, [Directory|Tail]) ->
Path = if
Base =:= "." -> Directory;
true -> filename:join(Directory, Base)
end,
case erl_prim_loader:list_dir(Path) of
{ok,Files} ->
case lists:member(File,Files) of
true ->
filename:append(Path, File);
false ->
which(File, Base, Tail)
end;
_Error ->
which(File, Base, Tail)
end.
%% Search the code path for a specific file. Try to locate
%% it in the code path cache if possible.
-spec where_is_file(Filename) -> non_existing | Absname when
Filename :: file:filename(),
Absname :: file:filename().
where_is_file(File) when is_list(File) ->
Path = get_path(),
which(File, ".", Path).
-spec where_is_file(Path :: file:filename(), Filename :: file:filename()) ->
file:filename() | 'non_existing'.
where_is_file(Path, File) when is_list(Path), is_list(File) ->
which(File, ".", Path).
-spec set_primary_archive(ArchiveFile :: file:filename(),
ArchiveBin :: binary(),
FileInfo :: file:file_info(),
ParserFun :: fun())
-> 'ok' | {'error', atom()}.
set_primary_archive(ArchiveFile0, ArchiveBin, #file_info{} = FileInfo,
ParserFun)
when is_list(ArchiveFile0), is_binary(ArchiveBin) ->
ArchiveFile = filename:absname(ArchiveFile0),
case call({set_primary_archive, ArchiveFile, ArchiveBin, FileInfo,
ParserFun}) of
{ok, []} ->
ok;
{ok, _Mode, Ebins} ->
%% Prepend the code path with the ebins found in the archive
Ebins2 = [filename:join([ArchiveFile, E]) || E <- Ebins],
add_pathsa(Ebins2); % Returns ok
{error, _Reason} = Error ->
Error
end.
%% Search the entire path system looking for name clashes
-spec clash() -> 'ok'.
clash() ->
Path = get_path(),
Struct = lists:flatten(build(Path)),
Len = length(search(Struct)),
io:format("** Found ~w name clashes in code paths ~n", [Len]).
%% Internal for clash/0
search([]) -> [];
search([{Dir, File} | Tail]) ->
case lists:keyfind(File, 2, Tail) of
false ->
search(Tail);
{Dir2, File} ->
io:format("** ~ts hides ~ts~n",
[filename:join(Dir, File),
filename:join(Dir2, File)]),
[clash | search(Tail)]
end.
build([]) -> [];
build([Dir|Tail]) ->
Files = filter(objfile_extension(), Dir,
erl_prim_loader:list_dir(Dir)),
[decorate(Files, Dir) | build(Tail)].
decorate([], _) -> [];
decorate([File|Tail], Dir) ->
[{Dir, File} | decorate(Tail, Dir)].
filter(_Ext, Dir, error) ->
io:format("** Bad path can't read ~ts~n", [Dir]), [];
filter(Ext, _, {ok,Files}) ->
filter2(Ext, length(Ext), Files).
filter2(_Ext, _Extlen, []) -> [];
filter2(Ext, Extlen, [File|Tail]) ->
case has_ext(Ext, Extlen, File) of
true -> [File | filter2(Ext, Extlen, Tail)];
false -> filter2(Ext, Extlen, Tail)
end.
has_ext(Ext, Extlen, File) ->
L = length(File),
case catch lists:nthtail(L - Extlen, File) of
Ext -> true;
_ -> false
end.
%%%
%%% Warning for deprecated code path cache.
%%%
maybe_warn_for_cache() ->
case init:get_argument(code_path_cache) of
{ok, _} ->
cache_warning();
error ->
ok
end.
cache_warning() ->
W = "The code path cache functionality has been removed",
error_logger:warning_report(W).
%%%
%%% Silently load native code for all modules loaded so far.
%%%
load_native_code_for_all_loaded(undefined) ->
ok;
load_native_code_for_all_loaded(Architecture) ->
try hipe_unified_loader:chunk_name(Architecture) of
ChunkTag ->
Loaded = all_loaded(),
_ = spawn(fun() -> load_all_native(Loaded, ChunkTag) end),
ok
catch
_:_ ->
ok
end.
load_all_native(Loaded, ChunkTag) ->
catch load_all_native_1(Loaded, ChunkTag).
load_all_native_1([{_,preloaded}|T], ChunkTag) ->
load_all_native_1(T, ChunkTag);
load_all_native_1([{Mod,BeamFilename}|T], ChunkTag) ->
case code:is_module_native(Mod) of
false ->
%% prim_file is faster than file and the file server may
%% not be started yet.
{ok,Beam} = prim_file:read_file(BeamFilename),
case code:get_chunk(Beam, ChunkTag) of
undefined ->
ok;
NativeCode when is_binary(NativeCode) ->
_ = load_native_partial(Mod, NativeCode),
ok
end;
true -> ok
end,
load_all_native_1(T, ChunkTag);
load_all_native_1([], _) ->
ok.