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path: root/lib/megaco/test/megaco_appup_test.erl
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%%
%% %CopyrightBegin%
%% 
%% Copyright Ericsson AB 2002-2010. All Rights Reserved.
%% 
%% The contents of this file are subject to the Erlang Public License,
%% Version 1.1, (the "License"); you may not use this file except in
%% compliance with the License. You should have received a copy of the
%% Erlang Public License along with this software. If not, it can be
%% retrieved online at http://www.erlang.org/.
%% 
%% Software distributed under the License is distributed on an "AS IS"
%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
%% the License for the specific language governing rights and limitations
%% under the License.
%% 
%% %CopyrightEnd%
%%

%%
%%----------------------------------------------------------------------
%% Purpose: Verify the application specifics of the Megaco application
%%----------------------------------------------------------------------
-module(megaco_appup_test).

-compile(export_all).

-include("megaco_test_lib.hrl").

-define(APPLICATION, megaco).

t()     -> megaco_test_lib:t(?MODULE).
t(Case) -> megaco_test_lib:t({?MODULE, Case}).


%% Test server callbacks
init_per_testcase(Case, Config) ->
    megaco_test_lib:init_per_testcase(Case, Config).

end_per_testcase(Case, Config) ->
    megaco_test_lib:end_per_testcase(Case, Config).


%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

all(suite) ->
    Cases = 
	[
	 appup
	],
    {req, [], {conf, appup_init, Cases, appup_fin}}.


%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

appup_init(suite) -> [];
appup_init(doc) -> [];
appup_init(Config) when is_list(Config) ->
    AppFile   = file_name(?APPLICATION, ".app"),
    AppupFile = file_name(?APPLICATION, ".appup"),
    [{app_file, AppFile}, {appup_file, AppupFile}|Config].
    

file_name(App, Ext) ->
    LibDir = code:lib_dir(App),
    filename:join([LibDir, "ebin", atom_to_list(App) ++ Ext]).


appup_fin(suite) -> [];
appup_fin(doc) -> [];
appup_fin(Config) when is_list(Config) ->
    Config.


%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

appup(suite) ->
    [];
appup(doc) ->
    "perform a simple check of the appup file";
appup(Config) when is_list(Config) ->
    AppupFile = key1search(appup_file, Config),
    AppFile   = key1search(app_file, Config),
    Modules   = modules(AppFile),
    check_appup(AppupFile, Modules).

modules(File) ->
    case file:consult(File) of
        {ok, [{application,megaco,Info}]} ->
            case lists:keysearch(modules,1,Info) of
                {value, {modules, Modules}} ->
                    Modules;
                false ->
                    fail({bad_appinfo, Info})
            end;
        Error ->
            fail({bad_appfile, Error})
    end.

    
check_appup(AppupFile, Modules) ->
    case file:consult(AppupFile) of
	{ok, [{V, UpFrom, DownTo}]} ->
	    check_appup(V, UpFrom, DownTo, Modules);
	Else ->
	    fail({bad_appupfile, Else})
    end.


check_appup(V, UpFrom, DownTo, Modules) ->
    check_version(V),
    check_depends(up,   UpFrom, Modules),
    check_depends(down, DownTo, Modules),
    check_module_subset(UpFrom),
    check_module_subset(DownTo),
    ok.


check_depends(_, [], _) ->
    ok;
check_depends(UpDown, [Dep|Deps], Modules) ->
    check_depend(UpDown, Dep, Modules),
    check_depends(UpDown, Deps, Modules).


check_depend(up = UpDown, {add_application, ?APPLICATION} = Instr, Modules) ->
     d("check_instructions(~w) -> entry with"
       "~n   Instruction: ~p"
       "~n   Modules:     ~p", [UpDown, Instr, Modules]),
     ok;
check_depend(down = UpDown, {remove_application, ?APPLICATION} = Instr, 
	     Modules) ->
     d("check_instructions(~w) -> entry with"
       "~n   Instruction: ~p"
       "~n   Modules:     ~p", [UpDown, Instr, Modules]),
     ok;
check_depend(UpDown, {V, Instructions}, Modules) ->
    d("check_instructions(~w) -> entry with"
      "~n   V:       ~p"
      "~n   Modules: ~p", [UpDown, V, Modules]),
    check_version(V),
    case check_instructions(UpDown, 
			    Instructions, Instructions, [], [], Modules) of
	{_Good, []} ->
	    ok;
	{_, Bad} ->
	    fail({bad_instructions, Bad, UpDown})
    end.


check_instructions(_, [], _, Good, Bad, _) ->
    {lists:reverse(Good), lists:reverse(Bad)};
check_instructions(UpDown, [Instr|Instrs], AllInstr, Good, Bad, Modules) ->
    d("check_instructions(~w) -> entry with"
      "~n   Instr: ~p", [UpDown,Instr]),
    case (catch check_instruction(UpDown, Instr, AllInstr, Modules)) of
        ok ->
            check_instructions(UpDown, Instrs, AllInstr, 
			       [Instr|Good], Bad, Modules);
        {error, Reason} ->
	    d("check_instructions(~w) -> bad instruction: "
	      "~n   Reason: ~p", [UpDown,Reason]),
            check_instructions(UpDown, Instrs, AllInstr, Good, 
                               [{Instr, Reason}|Bad], Modules)
    end.

%% A new module is added
check_instruction(up, {add_module, Module}, _, Modules) 
  when is_atom(Module) ->
    d("check_instruction -> entry when up-add_module instruction with"
      "~n   Module: ~p", [Module]),
    check_module(Module, Modules);

%% An old module is re-added
check_instruction(down, {add_module, Module}, _, Modules) 
  when is_atom(Module) ->
    d("check_instruction -> entry when down-add_module instruction with"
      "~n   Module: ~p", [Module]),
    case (catch check_module(Module, Modules)) of
	{error, {unknown_module, Module, Modules}} ->
	    ok;
	ok ->
	    error({existing_readded_module, Module})
    end;

%% Removing a module on upgrade: 
%% - the module has been removed from the app-file.
%% - check that no module depends on this (removed) module
check_instruction(up, {remove, {Module, Pre, Post}}, _, Modules) 
  when is_atom(Module) andalso is_atom(Pre) andalso is_atom(Post) ->
    d("check_instruction -> entry when up-remove instruction with"
      "~n   Module: ~p"
      "~n   Pre:    ~p"
      "~n   Post:   ~p", [Module, Pre, Post]),
    case (catch check_module(Module, Modules)) of
	{error, {unknown_module, Module, Modules}} ->
	    check_purge(Pre),
	    check_purge(Post);
	ok ->
	    error({existing_removed_module, Module})
    end;

%% Removing a module on downgrade: the module exist
%% in the app-file.
check_instruction(down, {remove, {Module, Pre, Post}}, AllInstr, Modules) 
  when is_atom(Module) andalso is_atom(Pre) andalso is_atom(Post) ->
    d("check_instruction -> entry when down-remove instruction with"
      "~n   Module: ~p"
      "~n   Pre:    ~p"
      "~n   Post:   ~p", [Module, Pre, Post]),
    case (catch check_module(Module, Modules)) of
	ok ->
	    check_purge(Pre),
	    check_purge(Post),
	    check_no_remove_depends(Module, AllInstr);
	{error, {unknown_module, Module, Modules}} ->
	    error({nonexisting_removed_module, Module})
    end;

check_instruction(_, {load_module, Module, Pre, Post, Depend}, 
		  AllInstr, Modules) 
  when is_atom(Module) andalso is_atom(Pre) andalso is_atom(Post) andalso is_list(Depend) ->
    d("check_instruction -> entry when load_module instruction with"
      "~n   Module: ~p"
      "~n   Pre:    ~p"
      "~n   Post:   ~p"
      "~n   Depend: ~p", [Module, Pre, Post, Depend]),
    check_module(Module, Modules),
    check_module_depend(Module, Depend, Modules),
    check_module_depend(Module, Depend, updated_modules(AllInstr, [])),
    check_purge(Pre),
    check_purge(Post);

check_instruction(_, {update, Module, Change, Pre, Post, Depend}, 
		  AllInstr, Modules) 
  when is_atom(Module) andalso is_atom(Pre) andalso is_atom(Post) andalso is_list(Depend) ->
    d("check_instruction -> entry when update instruction with"
      "~n   Module: ~p"
      "~n   Change: ~p"
      "~n   Pre:    ~p"
      "~n   Post:   ~p"
      "~n   Depend: ~p", [Module, Change, Pre, Post, Depend]),
    check_module(Module, Modules),
    check_module_depend(Module, Depend, Modules),
    check_module_depend(Module, Depend, updated_modules(AllInstr, [])),
    check_change(Change),
    check_purge(Pre),
    check_purge(Post);

check_instruction(_, {update, Module, supervisor}, _, Modules) 
  when is_atom(Module) ->
    check_module(Module, Modules);

check_instruction(_, {apply, {Module, Function, Args}}, _, Modules)
   when is_atom(Module) andalso is_atom(Function) andalso is_list(Args) ->
     d("check_instruction -> entry when down-apply instruction with"
       "~n   Module:   ~p"
       "~n   Function: ~p"
       "~n   Args:     ~p", [Module, Function, Args]),
     check_module(Module, Modules),
     check_apply(Module, Function, Args);

check_instruction(_, {restart_application, ?APPLICATION}, _AllInstr, _Modules) ->
    ok;

check_instruction(_, Instr, _AllInstr, _Modules) ->
    d("check_instruction -> entry when unknown instruction with"
      "~n   Instr: ~p", [Instr]),
    error({error, {unknown_instruction, Instr}}).


%% If Module X depends on Module Y, then module Y must have an update
%% instruction of some sort (otherwise the depend is faulty).
updated_modules([], Modules) ->
    d("update_modules -> entry when done with"
      "~n   Modules: ~p", [Modules]),
    Modules;
updated_modules([Instr|Instrs], Modules) ->
    d("update_modules -> entry with"
      "~n   Instr:   ~p"
      "~n   Modules: ~p", [Instr,Modules]),
    Module = instruction_module(Instr),
    d("update_modules -> Module: ~p", [Module]),
    updated_modules(Instrs, [Module|Modules]).
    
instruction_module({add_module, Module}) ->
    Module;
instruction_module({remove, {Module, _, _}}) ->
    Module;
instruction_module({load_module, Module, _, _, _}) ->
    Module;
instruction_module({update, Module, _, _, _, _}) ->
    Module;
instruction_module({apply, {Module, _, _}}) ->
     Module;
instruction_module(Instr) ->
    d("instruction_module -> entry when unknown instruction with"
      "~n   Instr: ~p", [Instr]),
    error({error, {unknown_instruction, Instr}}).

    
%% Check that the modules handled in an instruction set for version X
%% is a subset of the instruction set for version X-1.
check_module_subset(Instructions) ->
    do_check_module_subset(modules_of(Instructions)).
 
do_check_module_subset([]) ->
    ok;
do_check_module_subset([_]) ->
    ok;
do_check_module_subset([{_V1, Mods1}|T]) ->
    {V2, Mods2} = hd(T),
    %% Check that the modules in V1 is a subset of V2
    case do_check_module_subset2(Mods1, Mods2) of
        ok ->
            do_check_module_subset(T);
        {error, Modules} ->
            fail({subset_missing_instructions, V2, Modules})
    end.
 
do_check_module_subset2(Mods1, Mods2) ->
    do_check_module_subset2(Mods1, Mods2, []).
 
do_check_module_subset2([], _, []) ->
    ok;
do_check_module_subset2([], _, Acc) ->
    {error, lists:reverse(Acc)};
do_check_module_subset2([Mod|Mods], Mods2, Acc) ->
    case lists:member(Mod, Mods2) of
        true ->
            do_check_module_subset2(Mods, Mods2, Acc);
        false ->
            do_check_module_subset2(Mods, Mods2, [Mod|Acc])
    end.
     
 
modules_of(Instructions) ->
    modules_of(Instructions, []).
 
modules_of([], Acc) ->
    lists:reverse(Acc);
modules_of([{V,Instructions}|T], Acc) ->
    Mods = modules_of2(Instructions, []),
    modules_of(T, [{V, Mods}|Acc]).
 
modules_of2([], Acc) ->
    lists:reverse(Acc);
modules_of2([Instr|Instructions], Acc) ->
    case module_of(Instr) of
        {value, Mod} ->
            modules_of2(Instructions, [Mod|Acc]);
        false ->
            modules_of2(Instructions, Acc)
    end.
 
module_of({add_module, Module}) ->
    {value, Module};
module_of({remove, {Module, _Pre, _Post}}) ->
    {value, Module};
module_of({load_module, Module, _Pre, _Post, _Depend}) ->
    {value, Module};
module_of({update, Module, _Change, _Pre, _Post, _Depend}) ->
    {value, Module};
module_of(_) ->
    false.
 

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

%% The version is a string consting of numbers separated by dots: "."
%% Example: "3.3.3"
%% 
check_version(V) when is_list(V) ->
    case do_check_version(string:tokens(V, [$.])) of
	ok ->
	    ok;
	{error, BadVersionPart} ->
	    throw({error, {bad_version, V, BadVersionPart}})
    end;
check_version(V) ->
    error({bad_version, V}).

do_check_version([]) ->
    ok;
do_check_version([H|T]) ->
    case (catch list_to_integer(H)) of
	I when is_integer(I) ->
	    do_check_version(T);
	_ ->
	    {error, H}
    end.
	    
check_module(M, Modules) when is_atom(M) ->
    case lists:member(M,Modules) of
        true ->
            ok;
        false ->
            error({unknown_module, M, Modules})
    end;
check_module(M, _) ->
    error({bad_module, M}).


check_module_depend(M, [], _) when is_atom(M) ->
    d("check_module_depend -> entry with"
      "~n   M: ~p", [M]),    
    ok;
check_module_depend(M, Deps, Modules) when is_atom(M) andalso is_list(Deps) ->
    d("check_module_depend -> entry with"
      "~n   M: ~p"
      "~n   Deps: ~p"
      "~n   Modules: ~p", [M, Deps, Modules]),    
    case [Dep || Dep <- Deps, lists:member(Dep, Modules) == false] of
        [] ->
            ok;
        Unknown ->
            error({unknown_depend_modules, Unknown})
    end;
check_module_depend(_M, D, _Modules) ->
    d("check_module_depend -> entry when bad depend with"
      "~n   D: ~p", [D]),    
    error({bad_depend, D}).


check_no_remove_depends(_Module, []) ->
    ok;
check_no_remove_depends(Module, [Instr|Instrs]) ->
    check_no_remove_depend(Module, Instr),
    check_no_remove_depends(Module, Instrs).

check_no_remove_depend(Module, {load_module, Mod, _Pre, _Post, Depend}) ->
    case lists:member(Module, Depend) of
	true ->
	    error({removed_module_in_depend, load_module, Mod, Module});
	false ->
	    ok
    end;
check_no_remove_depend(Module, {update, Mod, _Change, _Pre, _Post, Depend}) ->
    case lists:member(Module, Depend) of
	true ->
	    error({removed_module_in_depend, update, Mod, Module});
	false ->
	    ok
    end;
check_no_remove_depend(_, _) ->
    ok.
    

check_change(soft) ->
    ok;
check_change({advanced, _Something}) ->
    ok;
check_change(Change) ->
    error({bad_change, Change}).


check_purge(soft_purge) ->
    ok;
check_purge(brutal_purge) ->
    ok;
check_purge(Purge) ->
    error({bad_purge, Purge}).


check_apply(Module, Function, Args) ->
     case (catch Module:module_info()) of
	Info when is_list(Info) ->
	    check_exported(Function, Args, Info);
	{'EXIT', {undef, _}} ->
	    error({not_existing_module, Module})
     end.

check_exported(Function, Args, Info) ->
     case lists:keysearch(exports, 1, Info) of
	{value, {exports, FuncList}} ->
	     Arity   = length(Args), 
	     Arities = [A || {F, A} <- FuncList, F == Function],
	     case lists:member(Arity, Arities) of
		 true ->
		     ok;
		 false ->
		     error({not_exported_function, Function, Arity})
	     end;
	 _ ->
	     error({bad_export, Info})
     end.


%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

error(Reason) ->
    throw({error, Reason}).

fail(Reason) ->
    exit({suite_failed, Reason}).

key1search(Key, L) ->
    case lists:keysearch(Key, 1, L) of
	undefined ->
	    fail({not_found, Key, L});
	{value, {Key, Value}} ->
	    Value
    end.


%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

d(F, A) ->
    d(false, F, A).

d(true, F, A) ->
    io:format(F ++ "~n", A);
d(_, _, _) ->
    ok.