%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1998-2016. 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_server).
%% This file holds the server part of the code_server.
-export([start_link/1,
call/1,
system_code_change/4,
error_msg/2, info_msg/2
]).
-include_lib("kernel/include/file.hrl").
-include_lib("stdlib/include/ms_transform.hrl").
-import(lists, [foreach/2]).
-type on_load_action() ::
fun((term(), state()) -> {'reply',term(),state()} |
{'noreply',state()}).
-type on_load_item() :: {{pid(),reference()},module(),
[{pid(),on_load_action()}]}.
-record(state, {supervisor :: pid(),
root :: file:name_all(),
path :: [file:name_all()],
moddb :: ets:tab(),
namedb :: ets:tab(),
mode = interactive :: 'interactive' | 'embedded',
on_load = [] :: [on_load_item()]}).
-type state() :: #state{}.
-spec start_link([term()]) -> {'ok', pid()}.
start_link(Args) ->
Ref = make_ref(),
Parent = self(),
Init = fun() -> init(Ref, Parent, Args) end,
spawn_link(Init),
receive
{Ref,Res} -> Res
end.
%% -----------------------------------------------------------
%% Init the code_server process.
%% -----------------------------------------------------------
init(Ref, Parent, [Root,Mode]) ->
register(?MODULE, self()),
process_flag(trap_exit, true),
Db = ets:new(code, [private]),
foreach(fun (M) ->
%% Pre-loaded modules are always sticky.
ets:insert(Db, [{M,preloaded},{{sticky,M},true}])
end, erlang:pre_loaded()),
Loaded0 = init:fetch_loaded(),
Loaded = [{M,filename:join([P])} || {M,P} <- Loaded0], %Normalize.
ets:insert(Db, Loaded),
IPath =
case Mode of
interactive ->
LibDir = filename:append(Root, "lib"),
{ok,Dirs} = erl_prim_loader:list_dir(LibDir),
Paths = make_path(LibDir, Dirs),
UserLibPaths = get_user_lib_dirs(),
["."] ++ UserLibPaths ++ Paths;
_ ->
[]
end,
Path = add_loader_path(IPath, Mode),
State = #state{supervisor = Parent,
root = Root,
path = Path,
moddb = Db,
namedb = init_namedb(Path),
mode = Mode},
Parent ! {Ref,{ok,self()}},
loop(State).
get_user_lib_dirs() ->
case os:getenv("ERL_LIBS") of
LibDirs0 when is_list(LibDirs0) ->
Sep =
case os:type() of
{win32, _} -> $;;
_ -> $:
end,
LibDirs = split_paths(LibDirs0, Sep, [], []),
get_user_lib_dirs_1(LibDirs);
false ->
[]
end.
get_user_lib_dirs_1([Dir|DirList]) ->
case erl_prim_loader:list_dir(Dir) of
{ok, Dirs} ->
Paths = make_path(Dir, Dirs),
%% Only add paths trailing with ./ebin.
[P || P <- Paths, filename:basename(P) =:= "ebin"] ++
get_user_lib_dirs_1(DirList);
error ->
get_user_lib_dirs_1(DirList)
end;
get_user_lib_dirs_1([]) -> [].
split_paths([S|T], S, Path, Paths) ->
split_paths(T, S, [], [lists:reverse(Path) | Paths]);
split_paths([C|T], S, Path, Paths) ->
split_paths(T, S, [C|Path], Paths);
split_paths([], _S, Path, Paths) ->
lists:reverse(Paths, [lists:reverse(Path)]).
-spec call(term()) -> term().
call(Req) ->
Ref = erlang:monitor(process, ?MODULE),
?MODULE ! {code_call, self(), Req},
receive
{?MODULE, Reply} ->
erlang:demonitor(Ref,[flush]),
Reply;
{'DOWN',Ref,process,_,_} ->
exit({'DOWN',code_server,Req})
end.
reply(Pid, Res) ->
Pid ! {?MODULE, Res}.
loop(#state{supervisor=Supervisor}=State0) ->
receive
{code_call, Pid, Req} ->
case handle_call(Req, Pid, State0) of
{reply, Res, State} ->
_ = reply(Pid, Res),
loop(State);
{noreply, State} ->
loop(State);
{stop, Why, stopped, State} ->
system_terminate(Why, Supervisor, [], State)
end;
{'EXIT', Supervisor, Reason} ->
system_terminate(Reason, Supervisor, [], State0);
{system, From, Msg} ->
handle_system_msg(running,Msg, From, Supervisor, State0);
{'DOWN',Ref,process,Pid,Res} ->
State = finish_on_load({Pid,Ref}, Res, State0),
loop(State);
_Msg ->
loop(State0)
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% System upgrade
handle_system_msg(SysState, Msg, From, Parent, Misc) ->
case do_sys_cmd(SysState, Msg, Parent, Misc) of
{suspended, Reply, NMisc} ->
gen_reply(From, Reply),
suspend_loop(suspended, Parent, NMisc);
{running, Reply, NMisc} ->
gen_reply(From, Reply),
system_continue(Parent, [], NMisc)
end.
gen_reply({To, Tag}, Reply) ->
catch To ! {Tag, Reply}.
%%-----------------------------------------------------------------
%% When a process is suspended, it can only respond to system
%% messages.
%%-----------------------------------------------------------------
suspend_loop(SysState, Parent, Misc) ->
receive
{system, From, Msg} ->
handle_system_msg(SysState, Msg, From, Parent, Misc);
{'EXIT', Parent, Reason} ->
system_terminate(Reason, Parent, [], Misc)
end.
do_sys_cmd(_, suspend, _Parent, Misc) ->
{suspended, ok, Misc};
do_sys_cmd(_, resume, _Parent, Misc) ->
{running, ok, Misc};
do_sys_cmd(SysState, get_status, Parent, Misc) ->
Status = {status, self(), {module, ?MODULE},
[get(), SysState, Parent, [], Misc]},
{SysState, Status, Misc};
do_sys_cmd(SysState, {debug, _What}, _Parent, Misc) ->
{SysState,ok,Misc};
do_sys_cmd(suspended, {change_code, Module, Vsn, Extra}, _Parent, Misc0) ->
{Res, Misc} =
case catch ?MODULE:system_code_change(Misc0, Module, Vsn, Extra) of
{ok, _} = Ok -> Ok;
Else -> {{error, Else}, Misc0}
end,
{suspended, Res, Misc};
do_sys_cmd(SysState, Other, _Parent, Misc) ->
{SysState, {error, {unknown_system_msg, Other}}, Misc}.
system_continue(_Parent, _Debug, State) ->
loop(State).
system_terminate(_Reason, _Parent, _Debug, _State) ->
%% error_msg("~p terminating: ~p~n ", [?MODULE, Reason]),
exit(shutdown).
-spec system_code_change(state(), module(), term(), term()) -> {'ok', state()}.
system_code_change(State, _Module, _OldVsn, _Extra) ->
{ok, State}.
%%
%% The gen_server call back functions.
%%
handle_call({stick_dir,Dir}, _From, S) ->
{reply,stick_dir(Dir, true, S),S};
handle_call({unstick_dir,Dir}, _From, S) ->
{reply,stick_dir(Dir, false, S),S};
handle_call({stick_mod,Mod}, _From, S) ->
{reply,stick_mod(Mod, true, S),S};
handle_call({unstick_mod,Mod}, _From, S) ->
{reply,stick_mod(Mod, false, S),S};
handle_call({dir,Dir}, _From, S) ->
Root = S#state.root,
Resp = do_dir(Root,Dir,S#state.namedb),
{reply,Resp,S};
handle_call({load_file,Mod}, From, St) when is_atom(Mod) ->
load_file(Mod, From, St);
handle_call({add_path,Where,Dir0}, _From,
#state{namedb=Namedb,path=Path0}=S) ->
{Resp,Path} = add_path(Where, Dir0, Path0, Namedb),
{reply,Resp,S#state{path=Path}};
handle_call({add_paths,Where,Dirs0}, _From,
#state{namedb=Namedb,path=Path0}=S) ->
{Resp,Path} = add_paths(Where, Dirs0, Path0, Namedb),
{reply,Resp,S#state{path=Path}};
handle_call({set_path,PathList}, _From,
#state{path=Path0,namedb=Namedb}=S) ->
{Resp,Path,NewDb} = set_path(PathList, Path0, Namedb),
{reply,Resp,S#state{path=Path,namedb=NewDb}};
handle_call({del_path,Name}, _From,
#state{path=Path0,namedb=Namedb}=S) ->
{Resp,Path} = del_path(Name, Path0, Namedb),
{reply,Resp,S#state{path=Path}};
handle_call({replace_path,Name,Dir}, _From,
#state{path=Path0,namedb=Namedb}=S) ->
{Resp,Path} = replace_path(Name, Dir, Path0, Namedb),
{reply,Resp,S#state{path=Path}};
handle_call(get_path, _From, S) ->
{reply,S#state.path,S};
%% Messages to load, delete and purge modules/files.
handle_call({load_abs,File,Mod}, From, S) when is_atom(Mod) ->
case modp(File) of
false ->
{reply,{error,badarg},S};
true ->
load_abs(File, Mod, From, S)
end;
handle_call({load_binary,Mod,File,Bin}, From, S) when is_atom(Mod) ->
do_load_binary(Mod, File, Bin, From, S);
handle_call({load_native_partial,Mod,Bin}, _From, S) ->
Architecture = erlang:system_info(hipe_architecture),
Result = (catch hipe_unified_loader:load(Mod, Bin, Architecture)),
Status = hipe_result_to_status(Result, S),
{reply,Status,S};
handle_call({load_native_sticky,Mod,Bin,WholeModule}, _From, S) ->
Architecture = erlang:system_info(hipe_architecture),
Result = (catch hipe_unified_loader:load_module(Mod, Bin, WholeModule,
Architecture)),
Status = hipe_result_to_status(Result, S),
{reply,Status,S};
handle_call({ensure_loaded,Mod}, From, St) when is_atom(Mod) ->
case erlang:module_loaded(Mod) of
true ->
{reply,{module,Mod},St};
false when St#state.mode =:= interactive ->
ensure_loaded(Mod, From, St);
false ->
{reply,{error,embedded},St}
end;
handle_call({delete,Mod}, _From, St) when is_atom(Mod) ->
case catch erlang:delete_module(Mod) of
true ->
ets:delete(St#state.moddb, Mod),
{reply,true,St};
_ ->
{reply,false,St}
end;
handle_call({purge,Mod}, _From, St) when is_atom(Mod) ->
{reply,do_purge(Mod),St};
handle_call({soft_purge,Mod}, _From, St) when is_atom(Mod) ->
{reply,do_soft_purge(Mod),St};
handle_call({is_loaded,Mod}, _From, St) when is_atom(Mod) ->
{reply,is_loaded(Mod, St#state.moddb),St};
handle_call(all_loaded, _From, S) ->
Db = S#state.moddb,
{reply,all_loaded(Db),S};
handle_call({get_object_code,Mod}, _From, St) when is_atom(Mod) ->
Path = St#state.path,
case mod_to_bin(Path, Mod) of
{_,Bin,FName} -> {reply,{Mod,Bin,FName},St};
Error -> {reply,Error,St}
end;
handle_call({is_sticky, Mod}, _From, S) ->
Db = S#state.moddb,
{reply, is_sticky(Mod,Db), S};
handle_call(stop,_From, S) ->
{stop,normal,stopped,S};
handle_call({set_primary_archive, File, ArchiveBin, FileInfo, ParserFun},
_From, S=#state{mode=Mode}) ->
case erl_prim_loader:set_primary_archive(File, ArchiveBin, FileInfo,
ParserFun) of
{ok, Files} ->
{reply, {ok, Mode, Files}, S};
{error, _Reason} = Error ->
{reply, Error, S}
end;
handle_call(get_mode, _From, S=#state{mode=Mode}) ->
{reply, Mode, S};
handle_call({finish_loading,Prepared,EnsureLoaded}, _From, S) ->
{reply,finish_loading(Prepared, EnsureLoaded, S),S};
handle_call(Other,_From, S) ->
error_msg(" ** Codeserver*** ignoring ~w~n ",[Other]),
{noreply,S}.
%% --------------------------------------------------------------
%% Path handling functions.
%% --------------------------------------------------------------
%%
%% Create the initial path.
%%
make_path(BundleDir, Bundles0) ->
Bundles = choose_bundles(Bundles0),
make_path(BundleDir, Bundles, []).
choose_bundles(Bundles) ->
ArchiveExt = archive_extension(),
Bs = lists:sort([create_bundle(B, ArchiveExt) || B <- Bundles]),
[FullName || {_Name,_NumVsn,FullName} <-
choose(lists:reverse(Bs), [], ArchiveExt)].
create_bundle(FullName, ArchiveExt) ->
BaseName = filename:basename(FullName, ArchiveExt),
case split_base(BaseName) of
{Name, VsnStr} ->
case vsn_to_num(VsnStr) of
{ok, VsnNum} ->
{Name,VsnNum,FullName};
false ->
{FullName,[0],FullName}
end;
_ ->
{FullName,[0],FullName}
end.
%% Convert "X.Y.Z. ..." to [K, L, M| ...]
vsn_to_num(Vsn) ->
case is_vsn(Vsn) of
true ->
{ok, [list_to_integer(S) || S <- split(Vsn, ".")]};
_ ->
false
end.
is_vsn(Str) when is_list(Str) ->
Vsns = split(Str, "."),
lists:all(fun is_numstr/1, Vsns).
is_numstr(Cs) ->
lists:all(fun (C) when $0 =< C, C =< $9 -> true;
(_) -> false
end, Cs).
split(Cs, S) ->
split1(Cs, S, []).
split1([C|S], Seps, Toks) ->
case lists:member(C, Seps) of
true -> split1(S, Seps, Toks);
false -> split2(S, Seps, Toks, [C])
end;
split1([], _Seps, Toks) ->
lists:reverse(Toks).
split2([C|S], Seps, Toks, Cs) ->
case lists:member(C, Seps) of
true -> split1(S, Seps, [lists:reverse(Cs)|Toks]);
false -> split2(S, Seps, Toks, [C|Cs])
end;
split2([], _Seps, Toks, Cs) ->
lists:reverse([lists:reverse(Cs)|Toks]).
join([H1, H2| T], S) ->
H1 ++ S ++ join([H2| T], S);
join([H], _) ->
H;
join([], _) ->
[].
choose([{Name,NumVsn,NewFullName}=New|Bs], Acc, ArchiveExt) ->
case lists:keyfind(Name, 1, Acc) of
{_, NV, OldFullName} when NV =:= NumVsn ->
case filename:extension(OldFullName) =:= ArchiveExt of
false ->
choose(Bs,Acc, ArchiveExt);
true ->
Acc2 = lists:keystore(Name, 1, Acc, New),
choose(Bs,Acc2, ArchiveExt)
end;
{_, _, _} ->
choose(Bs,Acc, ArchiveExt);
false ->
choose(Bs,[{Name,NumVsn,NewFullName}|Acc], ArchiveExt)
end;
choose([],Acc, _ArchiveExt) ->
Acc.
make_path(_, [], Res) ->
Res;
make_path(BundleDir, [Bundle|Tail], Res) ->
Dir = filename:append(BundleDir, Bundle),
Ebin = filename:append(Dir, "ebin"),
%% First try with /ebin
case is_dir(Ebin) of
true ->
make_path(BundleDir, Tail, [Ebin|Res]);
false ->
%% Second try with archive
Ext = archive_extension(),
Base = filename:basename(Bundle, Ext),
Ebin2 = filename:join([BundleDir, Base ++ Ext, Base, "ebin"]),
Ebins =
case split_base(Base) of
{AppName,_} ->
Ebin3 = filename:join([BundleDir, Base ++ Ext,
AppName, "ebin"]),
[Ebin3, Ebin2, Dir];
_ ->
[Ebin2, Dir]
end,
case try_ebin_dirs(Ebins) of
{ok,FoundEbin} ->
make_path(BundleDir, Tail, [FoundEbin|Res]);
error ->
make_path(BundleDir, Tail, Res)
end
end.
try_ebin_dirs([Ebin|Ebins]) ->
case is_dir(Ebin) of
true -> {ok,Ebin};
false -> try_ebin_dirs(Ebins)
end;
try_ebin_dirs([]) ->
error.
%%
%% Add the erl_prim_loader path.
%%
%%
add_loader_path(IPath0,Mode) ->
{ok,PrimP0} = erl_prim_loader:get_path(),
case Mode of
embedded ->
strip_path(PrimP0, Mode); % i.e. only normalize
_ ->
Pa0 = get_arg(pa),
Pz0 = get_arg(pz),
Pa = patch_path(Pa0),
Pz = patch_path(Pz0),
PrimP = patch_path(PrimP0),
IPath = patch_path(IPath0),
P = exclude_pa_pz(PrimP,Pa,Pz),
Path0 = strip_path(P, Mode),
Path = add(Path0, IPath, []),
add_pa_pz(Path,Pa,Pz)
end.
patch_path(Path) ->
case check_path(Path) of
{ok, NewPath} -> NewPath;
{error, _Reason} -> Path
end.
%% As the erl_prim_loader path includes the -pa and -pz
%% directories they have to be removed first !!
exclude_pa_pz(P0,Pa,Pz) ->
P1 = excl(Pa, P0),
P = excl(Pz, lists:reverse(P1)),
lists:reverse(P).
excl([], P) ->
P;
excl([D|Ds], P) ->
excl(Ds, lists:delete(D, P)).
%%
%% Keep only 'valid' paths in code server.
%% Only if mode is interactive, in an embedded
%% system we can't rely on file.
%%
strip_path([P0|Ps], Mode) ->
P = filename:join([P0]), % Normalize
case check_path([P]) of
{ok, [NewP]} ->
[NewP|strip_path(Ps, Mode)];
_ when Mode =:= embedded ->
[P|strip_path(Ps, Mode)];
_ ->
strip_path(Ps, Mode)
end;
strip_path(_, _) ->
[].
%%
%% Add only non-existing paths.
%% Also delete other versions of directories,
%% e.g. .../test-3.2/ebin should exclude .../test-*/ebin (and .../test/ebin).
%% Put the Path directories first in resulting path.
%%
add(Path,["."|IPath],Acc) ->
RPath = add1(Path,IPath,Acc),
["."|lists:delete(".",RPath)];
add(Path,IPath,Acc) ->
add1(Path,IPath,Acc).
add1([P|Path],IPath,Acc) ->
case lists:member(P,Acc) of
true ->
add1(Path,IPath,Acc); % Already added
false ->
IPath1 = exclude(P,IPath),
add1(Path,IPath1,[P|Acc])
end;
add1(_,IPath,Acc) ->
lists:reverse(Acc) ++ IPath.
add_pa_pz(Path0, Patha, Pathz) ->
{_,Path1} = add_paths(first,Patha,Path0,false),
{_,Path2} = add_paths(first,Pathz,lists:reverse(Path1),false),
lists:reverse(Path2).
get_arg(Arg) ->
case init:get_argument(Arg) of
{ok, Values} ->
lists:append(Values);
_ ->
[]
end.
%%
%% Exclude other versions of Dir or duplicates.
%% Return a new Path.
%%
exclude(Dir,Path) ->
Name = get_name(Dir),
[D || D <- Path,
D =/= Dir,
get_name(D) =/= Name].
%%
%% Get the "Name" of a directory. A directory in the code server path
%% have the following form: .../Name-Vsn or .../Name
%% where Vsn is any sortable term (the newest directory is sorted as
%% the greatest term).
%%
%%
get_name(Dir) ->
get_name_from_splitted(filename:split(Dir)).
get_name_from_splitted([DirName,"ebin"]) ->
discard_after_hyphen(DirName);
get_name_from_splitted([DirName]) ->
discard_after_hyphen(DirName);
get_name_from_splitted([_|T]) ->
get_name_from_splitted(T);
get_name_from_splitted([]) ->
"". %No name.
discard_after_hyphen("-"++_) ->
[];
discard_after_hyphen([H|T]) ->
[H|discard_after_hyphen(T)];
discard_after_hyphen([]) ->
[].
split_base(BaseName) ->
case split(BaseName, "-") of
[_, _|_] = Toks ->
Vsn = lists:last(Toks),
AllButLast = lists:droplast(Toks),
{join(AllButLast, "-"),Vsn};
[_|_] ->
BaseName
end.
check_path(Path) ->
PathChoice = init:code_path_choice(),
ArchiveExt = archive_extension(),
do_check_path(Path, PathChoice, ArchiveExt, []).
do_check_path([], _PathChoice, _ArchiveExt, Acc) ->
{ok, lists:reverse(Acc)};
do_check_path([Dir | Tail], PathChoice, ArchiveExt, Acc) ->
case is_dir(Dir) of
true ->
do_check_path(Tail, PathChoice, ArchiveExt, [Dir | Acc]);
false when PathChoice =:= strict ->
%% Be strict. Only use dir as explicitly stated
{error, bad_directory};
false when PathChoice =:= relaxed ->
%% Be relaxed
case catch lists:reverse(filename:split(Dir)) of
{'EXIT', _} ->
{error, bad_directory};
["ebin", App] ->
Dir2 = filename:join([App ++ ArchiveExt, App, "ebin"]),
case is_dir(Dir2) of
true ->
do_check_path(Tail, PathChoice, ArchiveExt, [Dir2 | Acc]);
false ->
{error, bad_directory}
end;
["ebin", App, OptArchive | RevTop] ->
Ext = filename:extension(OptArchive),
Base = filename:basename(OptArchive, Ext),
Dir2 =
if
Ext =:= ArchiveExt, Base =:= App ->
%% .../app-vsn.ez/app-vsn/ebin
Top = lists:reverse(RevTop),
filename:join(Top ++ [App, "ebin"]);
Ext =:= ArchiveExt ->
%% .../app-vsn.ez/xxx/ebin
{error, bad_directory};
true ->
%% .../app-vsn/ebin
Top = lists:reverse([OptArchive | RevTop]),
filename:join(Top ++ [App ++ ArchiveExt, App, "ebin"])
end,
case is_dir(Dir2) of
true ->
do_check_path(Tail, PathChoice, ArchiveExt, [Dir2 | Acc]);
false ->
{error, bad_directory}
end;
_ ->
{error, bad_directory}
end
end.
%%
%% Add new path(s).
%%
add_path(Where,Dir,Path,NameDb) when is_atom(Dir) ->
add_path(Where,atom_to_list(Dir),Path,NameDb);
add_path(Where,Dir0,Path,NameDb) when is_list(Dir0) ->
case int_list(Dir0) of
true ->
Dir = filename:join([Dir0]), % Normalize
case check_path([Dir]) of
{ok, [NewDir]} ->
{true, do_add(Where,NewDir,Path,NameDb)};
Error ->
{Error, Path}
end;
false ->
{{error, bad_directory}, Path}
end;
add_path(_,_,Path,_) ->
{{error, bad_directory}, Path}.
%%
%% If the new directory is added first or if the directory didn't exist
%% the name-directory table must be updated.
%% If NameDb is false we should NOT update NameDb as it is done later
%% then the table is created :-)
%%
do_add(first,Dir,Path,NameDb) ->
update(Dir, NameDb),
[Dir|lists:delete(Dir,Path)];
do_add(last,Dir,Path,NameDb) ->
case lists:member(Dir,Path) of
true ->
Path;
false ->
maybe_update(Dir, NameDb),
Path ++ [Dir]
end.
%% Do not update if the same name already exists !
maybe_update(Dir, NameDb) ->
(lookup_name(get_name(Dir), NameDb) =:= false) andalso update(Dir, NameDb).
update(_Dir, false) ->
true;
update(Dir, NameDb) ->
replace_name(Dir, NameDb).
%%
%% Set a completely new path.
%%
set_path(NewPath0, OldPath, NameDb) ->
NewPath = normalize(NewPath0),
case check_path(NewPath) of
{ok, NewPath2} ->
ets:delete(NameDb),
NewDb = init_namedb(NewPath2),
{true, NewPath2, NewDb};
Error ->
{Error, OldPath, NameDb}
end.
%%
%% Normalize the given path.
%% The check_path function catches erroneous path,
%% thus it is ignored here.
%%
normalize([P|Path]) when is_atom(P) ->
normalize([atom_to_list(P)|Path]);
normalize([P|Path]) when is_list(P) ->
case int_list(P) of
true -> [filename:join([P])|normalize(Path)];
false -> [P|normalize(Path)]
end;
normalize([P|Path]) ->
[P|normalize(Path)];
normalize([]) ->
[];
normalize(Other) ->
Other.
%% Handle a table of name-directory pairs.
%% The priv_dir/1 and lib_dir/1 functions will have
%% an O(1) lookup.
init_namedb(Path) ->
Db = ets:new(code_names,[private]),
init_namedb(lists:reverse(Path), Db),
Db.
init_namedb([P|Path], Db) ->
insert_dir(P, Db),
init_namedb(Path, Db);
init_namedb([], _) ->
ok.
-ifdef(NOTUSED).
clear_namedb([P|Path], Db) ->
delete_name_dir(P, Db),
clear_namedb(Path, Db);
clear_namedb([], _) ->
ok.
-endif.
%% Dir must be a complete pathname (not only a name).
insert_dir(Dir, Db) ->
Splitted = filename:split(Dir),
case get_name_from_splitted(Splitted) of
Name when Name /= "ebin", Name /= "." ->
Name;
_ ->
SplittedAbsName = filename:split(absname(Dir)),
Name = get_name_from_splitted(SplittedAbsName)
end,
AppDir = filename:join(del_ebin_1(Splitted)),
do_insert_name(Name, AppDir, Db).
insert_name(Name, Dir, Db) ->
AppDir = del_ebin(Dir),
do_insert_name(Name, AppDir, Db).
do_insert_name(Name, AppDir, Db) ->
{Base, SubDirs} = archive_subdirs(AppDir),
ets:insert(Db, {Name, AppDir, Base, SubDirs}),
true.
archive_subdirs(AppDir) ->
Base = filename:basename(AppDir),
Dirs = case split_base(Base) of
{Name, _} -> [Name, Base];
_ -> [Base]
end,
Ext = archive_extension(),
try_archive_subdirs(AppDir ++ Ext, Base, Dirs).
try_archive_subdirs(Archive, Base, [Dir | Dirs]) ->
ArchiveDir = filename:append(Archive, Dir),
case erl_prim_loader:list_dir(ArchiveDir) of
{ok, Files} ->
IsDir = fun(RelFile) ->
File = filename:append(ArchiveDir, RelFile),
is_dir(File)
end,
{Dir, lists:filter(IsDir, Files)};
_ ->
try_archive_subdirs(Archive, Base, Dirs)
end;
try_archive_subdirs(_Archive, Base, []) ->
{Base, []}.
%%
%% Delete a directory from Path.
%% Name can be either the the name in .../Name[-*] or
%% the complete directory name.
%%
del_path(Name0,Path,NameDb) ->
case catch filename:join([to_list(Name0)]) of
{'EXIT',_} ->
{{error,bad_name},Path};
Name ->
case del_path1(Name,Path,NameDb) of
Path -> % Nothing has changed
{false,Path};
NewPath ->
{true,NewPath}
end
end.
del_path1(Name,[P|Path],NameDb) ->
case get_name(P) of
Name ->
delete_name(Name, NameDb),
insert_old_shadowed(Name, Path, NameDb),
Path;
_ when Name =:= P ->
case delete_name_dir(Name, NameDb) of
true -> insert_old_shadowed(get_name(Name), Path, NameDb);
false -> ok
end,
Path;
_ ->
[P|del_path1(Name,Path,NameDb)]
end;
del_path1(_,[],_) ->
[].
insert_old_shadowed(Name, [P|Path], NameDb) ->
case get_name(P) of
Name -> insert_name(Name, P, NameDb);
_ -> insert_old_shadowed(Name, Path, NameDb)
end;
insert_old_shadowed(_, [], _) ->
ok.
%%
%% Replace an old occurrence of an directory with name .../Name[-*].
%% If it does not exist, put the new directory last in Path.
%%
replace_path(Name,Dir,Path,NameDb) ->
case catch check_pars(Name,Dir) of
{ok,N,D} ->
{true,replace_path1(N,D,Path,NameDb)};
{'EXIT',_} ->
{{error,{badarg,[Name,Dir]}},Path};
Error ->
{Error,Path}
end.
replace_path1(Name,Dir,[P|Path],NameDb) ->
case get_name(P) of
Name ->
insert_name(Name, Dir, NameDb),
[Dir|Path];
_ ->
[P|replace_path1(Name,Dir,Path,NameDb)]
end;
replace_path1(Name, Dir, [], NameDb) ->
insert_name(Name, Dir, NameDb),
[Dir].
check_pars(Name,Dir) ->
N = to_list(Name),
D = filename:join([to_list(Dir)]), % Normalize
case get_name(Dir) of
N ->
case check_path([D]) of
{ok, [NewD]} ->
{ok,N,NewD};
Error ->
Error
end;
_ ->
{error,bad_name}
end.
del_ebin(Dir) ->
filename:join(del_ebin_1(filename:split(Dir))).
del_ebin_1([Parent,App,"ebin"]) ->
case filename:basename(Parent) of
[] ->
%% Parent is the root directory
[Parent,App];
_ ->
Ext = archive_extension(),
case filename:basename(Parent, Ext) of
Parent ->
%% Plain directory.
[Parent,App];
Archive ->
%% Archive.
[Archive]
end
end;
del_ebin_1(Path = [_App,"ebin"]) ->
del_ebin_1(filename:split(absname(filename:join(Path))));
del_ebin_1(["ebin"]) ->
del_ebin_1(filename:split(absname("ebin")));
del_ebin_1([H|T]) ->
[H|del_ebin_1(T)];
del_ebin_1([]) ->
[].
replace_name(Dir, Db) ->
case get_name(Dir) of
Dir ->
false;
Name ->
delete_name(Name, Db),
insert_name(Name, Dir, Db)
end.
delete_name(Name, Db) ->
ets:delete(Db, Name).
delete_name_dir(Dir, Db) ->
case get_name(Dir) of
Dir -> false;
Name ->
Dir0 = del_ebin(Dir),
case lookup_name(Name, Db) of
{ok, Dir0, _Base, _SubDirs} ->
ets:delete(Db, Name),
true;
_ -> false
end
end.
lookup_name(Name, Db) ->
case ets:lookup(Db, Name) of
[{Name, Dir, Base, SubDirs}] -> {ok, Dir, Base, SubDirs};
_ -> false
end.
%%
%% Fetch a directory.
%%
do_dir(Root,lib_dir,_) ->
filename:append(Root, "lib");
do_dir(Root,root_dir,_) ->
Root;
do_dir(_Root,compiler_dir,NameDb) ->
case lookup_name("compiler", NameDb) of
{ok, Dir, _Base, _SubDirs} -> Dir;
_ -> ""
end;
do_dir(_Root,{lib_dir,Name},NameDb) ->
case catch lookup_name(to_list(Name), NameDb) of
{ok, Dir, _Base, _SubDirs} -> Dir;
_ -> {error, bad_name}
end;
do_dir(_Root,{lib_dir,Name,SubDir0},NameDb) ->
SubDir = atom_to_list(SubDir0),
case catch lookup_name(to_list(Name), NameDb) of
{ok, Dir, Base, SubDirs} ->
case lists:member(SubDir, SubDirs) of
true ->
%% Subdir is in archive
filename:join([Dir ++ archive_extension(),
Base,
SubDir]);
false ->
%% Subdir is regular directory
filename:join([Dir, SubDir])
end;
_ ->
{error, bad_name}
end;
do_dir(_Root,{priv_dir,Name},NameDb) ->
do_dir(_Root,{lib_dir,Name,priv},NameDb);
do_dir(_, _, _) ->
'bad request to code'.
stick_dir(Dir, Stick, St) ->
case erl_prim_loader:list_dir(Dir) of
{ok,Listing} ->
Mods = get_mods(Listing, objfile_extension()),
Db = St#state.moddb,
case Stick of
true ->
foreach(fun (M) -> ets:insert(Db, {{sticky,M},true}) end, Mods);
false ->
foreach(fun (M) -> ets:delete(Db, {sticky,M}) end, Mods)
end;
Error ->
Error
end.
stick_mod(M, Stick, St) ->
Db = St#state.moddb,
case Stick of
true ->
ets:insert(Db, {{sticky,M},true});
false ->
ets:delete(Db, {sticky,M})
end.
get_mods([File|Tail], Extension) ->
case filename:extension(File) of
Extension ->
[list_to_atom(filename:basename(File, Extension)) |
get_mods(Tail, Extension)];
_ ->
get_mods(Tail, Extension)
end;
get_mods([], _) -> [].
is_sticky(Mod, Db) ->
erlang:module_loaded(Mod) andalso (ets:lookup(Db, {sticky, Mod}) =/= []).
add_paths(Where,[Dir|Tail],Path,NameDb) ->
{_,NPath} = add_path(Where,Dir,Path,NameDb),
add_paths(Where,Tail,NPath,NameDb);
add_paths(_,_,Path,_) ->
{ok,Path}.
do_load_binary(Module, File, Binary, From, St) ->
case modp(File) andalso is_binary(Binary) of
true ->
case erlang:module_loaded(Module) of
true -> do_purge(Module);
false -> ok
end,
try_load_module(File, Module, Binary, From, St);
false ->
{reply,{error,badarg},St}
end.
modp(Atom) when is_atom(Atom) -> true;
modp(List) when is_list(List) -> int_list(List);
modp(_) -> false.
load_abs(File, Mod, From, St) ->
Ext = objfile_extension(),
FileName0 = lists:concat([File, Ext]),
FileName = absname(FileName0),
case erl_prim_loader:get_file(FileName) of
{ok,Bin,_} ->
try_load_module(FileName, Mod, Bin, From, St);
error ->
{reply,{error,nofile},St}
end.
try_load_module(File, Mod, Bin, From, St) ->
Action = fun(_, S) ->
try_load_module_1(File, Mod, Bin, From, S)
end,
handle_pending_on_load(Action, Mod, From, St).
try_load_module_1(File, Mod, Bin, From, #state{moddb=Db}=St) ->
case is_sticky(Mod, Db) of
true -> %% Sticky file reject the load
error_msg("Can't load module '~w' that resides in sticky dir\n",[Mod]),
{reply,{error,sticky_directory},St};
false ->
Architecture = erlang:system_info(hipe_architecture),
try_load_module_2(File, Mod, Bin, From, Architecture, St)
end.
try_load_module_2(File, Mod, Bin, From, undefined, St) ->
try_load_module_3(File, Mod, Bin, From, undefined, St);
try_load_module_2(File, Mod, Bin, From, Architecture,
#state{moddb=Db}=St) ->
case catch hipe_unified_loader:load_native_code(Mod, Bin, Architecture) of
{module,Mod} = Module ->
ets:insert(Db, [{{native,Mod},true},{Mod,File}]),
{reply,Module,St};
no_native ->
try_load_module_3(File, Mod, Bin, From, Architecture, St);
Error ->
error_msg("Native loading of ~ts failed: ~p\n", [File,Error]),
{reply,ok,St}
end.
try_load_module_3(File, Mod, Bin, From, Architecture, St0) ->
Action = fun({module,_}=Module, #state{moddb=Db}=S) ->
ets:insert(Db, {Mod,File}),
post_beam_load([Mod], Architecture, S),
{reply,Module,S};
({error,on_load_failure}=Error, S) ->
{reply,Error,S};
({error,What}=Error, S) ->
error_msg("Loading of ~ts failed: ~p\n", [File, What]),
{reply,Error,S}
end,
Res = erlang:load_module(Mod, Bin),
handle_on_load(Res, Action, Mod, From, St0).
hipe_result_to_status(Result, #state{moddb=Db}) ->
case Result of
{module,Mod} ->
ets:insert(Db, [{{native,Mod},true}]),
Result;
_ ->
{error,Result}
end.
post_beam_load(_, undefined, _) ->
%% HiPE is disabled.
ok;
post_beam_load(Mods0, _Architecture, #state{moddb=Db}) ->
%% post_beam_load/2 can potentially be very expensive because it
%% blocks multi-scheduling. Therefore, we only want to call
%% it with modules that are known to have native code loaded.
Mods = [M || M <- Mods0, ets:member(Db, {native,M})],
hipe_unified_loader:post_beam_load(Mods).
int_list([H|T]) when is_integer(H) -> int_list(T);
int_list([_|_]) -> false;
int_list([]) -> true.
ensure_loaded(Mod, From, St0) ->
Action = fun(_, S) ->
case erlang:module_loaded(Mod) of
true ->
{reply,{module,Mod},S};
false ->
load_file_1(Mod, From, S)
end
end,
handle_pending_on_load(Action, Mod, From, St0).
load_file(Mod, From, St0) ->
Action = fun(_, S) ->
load_file_1(Mod, From, S)
end,
handle_pending_on_load(Action, Mod, From, St0).
load_file_1(Mod, From, #state{path=Path}=St) ->
case mod_to_bin(Path, Mod) of
error ->
{reply,{error,nofile},St};
{Mod,Binary,File} ->
try_load_module_1(File, Mod, Binary, From, St)
end.
mod_to_bin([Dir|Tail], Mod) ->
File = filename:append(Dir, atom_to_list(Mod) ++ objfile_extension()),
case erl_prim_loader:get_file(File) of
error ->
mod_to_bin(Tail, Mod);
{ok,Bin,_} ->
case filename:pathtype(File) of
absolute ->
{Mod,Bin,File};
_ ->
{Mod,Bin,absname(File)}
end
end;
mod_to_bin([], Mod) ->
%% At last, try also erl_prim_loader's own method
File = to_list(Mod) ++ objfile_extension(),
case erl_prim_loader:get_file(File) of
error ->
error; % No more alternatives !
{ok,Bin,FName} ->
{Mod,Bin,absname(FName)}
end.
absname(File) ->
case erl_prim_loader:get_cwd() of
{ok,Cwd} -> absname(File, Cwd);
_Error -> File
end.
absname(Name, AbsBase) ->
case filename:pathtype(Name) of
relative ->
filename:absname_join(AbsBase, Name);
absolute ->
%% We must flatten the filename before passing it into join/1,
%% or we will get slashes inserted into the wrong places.
filename:join([filename:flatten(Name)]);
volumerelative ->
absname_vr(filename:split(Name), filename:split(AbsBase), AbsBase)
end.
%% Handles volumerelative names (on Windows only).
absname_vr(["/"|Rest1], [Volume|_], _AbsBase) ->
%% Absolute path on current drive.
filename:join([Volume|Rest1]);
absname_vr([[X, $:]|Rest1], [[X|_]|_], AbsBase) ->
%% Relative to current directory on current drive.
absname(filename:join(Rest1), AbsBase);
absname_vr([[X, $:]|Name], _, _AbsBase) ->
%% Relative to current directory on another drive.
Dcwd =
case erl_prim_loader:get_cwd([X, $:]) of
{ok, Dir} -> Dir;
error -> [X, $:, $/]
end,
absname(filename:join(Name), Dcwd).
is_loaded(M, Db) ->
case ets:lookup(Db, M) of
[{M,File}] -> {file,File};
[] -> false
end.
do_purge(Mod) ->
{_WasOld, DidKill} = erts_code_purger:purge(Mod),
DidKill.
do_soft_purge(Mod) ->
erts_code_purger:soft_purge(Mod).
is_dir(Path) ->
case erl_prim_loader:read_file_info(Path) of
{ok,#file_info{type=directory}} -> true;
_ -> false
end.
%%%
%%% Loading of multiple modules in parallel.
%%%
finish_loading(Prepared, EnsureLoaded, #state{moddb=Db}=St) ->
Ps = [fun(L) -> finish_loading_ensure(L, EnsureLoaded) end,
fun(L) -> abort_if_pending_on_load(L, St) end,
fun(L) -> abort_if_sticky(L, Db) end,
fun(L) -> do_finish_loading(L, St) end],
run(Ps, Prepared).
finish_loading_ensure(Prepared, true) ->
{ok,[P || {M,_}=P <- Prepared, not erlang:module_loaded(M)]};
finish_loading_ensure(Prepared, false) ->
{ok,Prepared}.
abort_if_pending_on_load(L, #state{on_load=[]}) ->
{ok,L};
abort_if_pending_on_load(L, #state{on_load=OnLoad}) ->
Pending = [{M,pending_on_load} ||
{M,_} <- L,
lists:keymember(M, 2, OnLoad)],
case Pending of
[] -> {ok,L};
[_|_] -> {error,Pending}
end.
abort_if_sticky(L, Db) ->
Sticky = [{M,sticky_directory} || {M,_} <- L, is_sticky(M, Db)],
case Sticky of
[] -> {ok,L};
[_|_] -> {error,Sticky}
end.
do_finish_loading(Prepared, #state{moddb=Db}=St) ->
MagicBins = [B || {_,{B,_}} <- Prepared],
case erlang:finish_loading(MagicBins) of
ok ->
MFs = [{M,F} || {M,{_,F}} <- Prepared],
true = ets:insert(Db, MFs),
Ms = [M || {M,_} <- MFs],
Architecture = erlang:system_info(hipe_architecture),
post_beam_load(Ms, Architecture, St),
ok;
{Reason,Ms} ->
{error,[{M,Reason} || M <- Ms]}
end.
run([F], Data) ->
F(Data);
run([F|Fs], Data0) ->
case F(Data0) of
{ok,Data} ->
run(Fs, Data);
{error,_}=Error ->
Error
end.
%% -------------------------------------------------------
%% The on_load functionality.
%% -------------------------------------------------------
handle_on_load({error,on_load}, Action, Mod, From, St0) ->
#state{on_load=OnLoad0} = St0,
Fun = fun() ->
Res = erlang:call_on_load_function(Mod),
exit(Res)
end,
PidRef = spawn_monitor(Fun),
PidAction = {From,Action},
OnLoad = [{PidRef,Mod,[PidAction]}|OnLoad0],
St = St0#state{on_load=OnLoad},
{noreply,St};
handle_on_load(Res, Action, _, _, St) ->
Action(Res, St).
handle_pending_on_load(Action, Mod, From, #state{on_load=OnLoad0}=St) ->
case lists:keyfind(Mod, 2, OnLoad0) of
false ->
Action(ok, St);
{{From,_Ref},Mod,_Pids} ->
%% The on_load function tried to make an external
%% call to its own module. That would be a deadlock.
%% Fail the call. (The call is probably from error_handler,
%% and it will ignore the actual error reason and cause
%% an undef execption.)
{reply,{error,deadlock},St};
{_,_,_} ->
OnLoad = handle_pending_on_load_1(Mod, {From,Action}, OnLoad0),
{noreply,St#state{on_load=OnLoad}}
end.
handle_pending_on_load_1(Mod, From, [{PidRef,Mod,Pids}|T]) ->
[{PidRef,Mod,[From|Pids]}|T];
handle_pending_on_load_1(Mod, From, [H|T]) ->
[H|handle_pending_on_load_1(Mod, From, T)];
handle_pending_on_load_1(_, _, []) -> [].
finish_on_load(PidRef, OnLoadRes, #state{on_load=OnLoad0}=St0) ->
case lists:keyfind(PidRef, 1, OnLoad0) of
false ->
%% Since this process in general silently ignores messages
%% it doesn't understand, it should also ignore a 'DOWN'
%% message with an unknown reference.
St0;
{PidRef,Mod,Waiting} ->
St = finish_on_load_1(Mod, OnLoadRes, Waiting, St0),
OnLoad = [E || {R,_,_}=E <- OnLoad0, R =/= PidRef],
St#state{on_load=OnLoad}
end.
finish_on_load_1(Mod, OnLoadRes, Waiting, St) ->
Keep = OnLoadRes =:= ok,
erts_code_purger:finish_after_on_load(Mod, Keep),
Res = case Keep of
false ->
_ = finish_on_load_report(Mod, OnLoadRes),
{error,on_load_failure};
true ->
{module,Mod}
end,
finish_on_load_2(Waiting, Res, St).
finish_on_load_2([{Pid,Action}|T], Res, St0) ->
case Action(Res, St0) of
{reply,Rep,St} ->
_ = reply(Pid, Rep),
finish_on_load_2(T, Res, St);
{noreply,St} ->
finish_on_load_2(T, Res, St)
end;
finish_on_load_2([], _, St) ->
St.
finish_on_load_report(_Mod, Atom) when is_atom(Atom) ->
%% No error reports for atoms.
ok;
finish_on_load_report(Mod, Term) ->
%% Play it very safe here. The error_logger module and
%% modules it depend on may not be loaded yet and there
%% would be a dead-lock if we called it directly
%% from the code_server process.
spawn(fun() ->
F = "The on_load function for module "
"~s returned:~n~P\n",
%% Express the call as an apply to simplify
%% the ext_mod_dep/1 test case.
E = error_logger,
E:warning_msg(F, [Mod,Term,10])
end).
%% -------------------------------------------------------
%% Internal functions.
%% -------------------------------------------------------
all_loaded(Db) ->
Ms = ets:fun2ms(fun({M,_}=T) when is_atom(M) -> T end),
ets:select(Db, Ms).
-spec error_msg(io:format(), [term()]) -> 'ok'.
error_msg(Format, Args) ->
Msg = {notify,{error, group_leader(), {self(), Format, Args}}},
error_logger ! Msg,
ok.
-spec info_msg(io:format(), [term()]) -> 'ok'.
info_msg(Format, Args) ->
Msg = {notify,{info_msg, group_leader(), {self(), Format, Args}}},
error_logger ! Msg,
ok.
objfile_extension() ->
init:objfile_extension().
archive_extension() ->
init:archive_extension().
to_list(X) when is_list(X) -> X;
to_list(X) when is_atom(X) -> atom_to_list(X).