%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1996-2014. 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%
%%
-module(application_controller).
%% External exports
-export([start/1,
load_application/1, unload_application/1,
start_application/2, start_boot_application/2, stop_application/1,
control_application/1,
change_application_data/2, prep_config_change/0, config_change/1,
which_applications/0, which_applications/1,
loaded_applications/0, info/0,
get_pid_env/2, get_env/2, get_pid_all_env/1, get_all_env/1,
get_pid_key/2, get_key/2, get_pid_all_key/1, get_all_key/1,
get_master/1, get_application/1, get_application_module/1,
start_type/1, permit_application/2, do_config_diff/2,
set_env/3, set_env/4, unset_env/2, unset_env/3]).
%% Internal exports
-export([handle_call/3, handle_cast/2, handle_info/2, terminate/2,
code_change/3, init_starter/4, get_loaded/1]).
%% Test exports, only to be used from the test suites
-export([test_change_apps/2]).
-import(lists, [zf/2, map/2, foreach/2, foldl/3,
keyfind/3, keydelete/3, keyreplace/4]).
-include("application_master.hrl").
-define(AC, ?MODULE). % Name of process
%%%-----------------------------------------------------------------
%%% The application_controller controls local applications only. A
%%% local application can be loaded/started/stopped/unloaded and
%%% changed. The control of distributed applications is taken care of
%%% by another process (default is dist_ac).
%%%
%%% When an application has been started (by a call to application:start)
%%% it can be running or not running (on this node). For example,
%%% a distributed application must be started on all nodes, but
%%% may be running on one node at the time.
%%%
%%% The external API to this module is in the module 'application'.
%%%
%%% The process that controls distributed applications (called dist
%%% ac). calls application_controller:control_application(Name) to
%%% take responsibility for an application. The interface between AC
%%% and the dist_ac process is message-based:
%%%
%%% AC DIST AC
%%% == =======
%%% --> {ac_load_application_req, Name}
%%% <-- {ac_load_application_reply, Name, LoadReply}
%%% --> {ac_start_application_req, Name} (*)
%%% <-- {ac_start_application_reply, Name, StartReply}
%%% --> {ac_application_run, Name, Res}
%%% --> {ac_application_not_run, Name, Res}
%%% --> {ac_application_stopped, Name}
%%% --> {ac_application_unloaded, Name}
%%% <-- {ac_change_application_req, Name, Req} (**)
%%%
%%% Where LoadReply =
%%% ok - App is loaded
%%% {error, R} - An error occurred
%%% And StartReply =
%%% start_it - DIST AC decided that AC should start the app
%%% {started, Node} - The app is started distributed at Node
%%% not_started - The app should not be running at this time
%%% {takeover, Node}- The app should takeover from Node
%%% {error, R} - an error occurred
%%% And Req =
%%% start_it - DIST AC wants AC to start the app locally
%%% stop_it - AC should stop the app.
%%% {takeover, Node, RestartType}
%%% - AC should start the app as a takeover
%%% {failover, Node, RestartType}
%%% - AC should start the app as a failover
%%% {started, Node} - The app is started at Node
%%% NOTE: The app must have been started at this node
%%% before this request is sent!
%%% And Res =
%%% ok - Application is started locally
%%% {error, R} - Start of application failed
%%%
%%% (*)
%%% The call to application:start() doesn't return until the
%%% ac_start_application_reply has been received by AC. AC
%%% itself is not blocked however.
%%% (**)
%%% DIST AC gets ACK to its ac_change_application_req, but not as a
%%% separate messgage. Instead the normal messages are used as:
%%% start_it generates an ac_application_run
%%% stop_it generates an ac_application_not_run
%%% takeover generates an ac_application_run
%%% started doesn't generate anything
%%%
%%% There is a distinction between application:stop and stop_it
%%% from a dist ac process. The first one stops the application,
%%% and resets the internal structures as they were before start was
%%% called. stop_it stops the application, but just marks it as
%%% not being running.
%%%
%%% When a dist ac process has taken control of an application, no
%%% other process can take the control.
%%%-----------------------------------------------------------------
%%-----------------------------------------------------------------
%% Naming conventions:
%% App = appl_descr()
%% Appl = #appl
%% AppName = atom()
%% Application = App | AppName
%%-----------------------------------------------------------------
-type appname() :: atom().
-record(state, {loading = [], starting = [], start_p_false = [], running = [],
control = [], started = [], start_req = [], conf_data}).
-type state() :: #state{}.
%%-----------------------------------------------------------------
%% loading = [{AppName, From}] - Load not yet finished
%% starting = [{AppName, RestartType, Type, From}] - Start not
%% yet finished
%% start_p_false = [{AppName, RestartType, Type, From}] - Start not
%% executed because permit == false
%% running = [{AppName, Pid}] - running locally (Pid == application_master)
%% [{AppName, {distributed, Node}}] - running on Node
%% control = [{AppName, Controller}]
%% started = [{AppName, RestartType}] - Names of all apps that
%% have been started (but may not run because
%% permission = false)
%% conf_data = [{AppName, Env}]
%% start_req = [{AppName, From}] - list of all start requests
%% Id = AMPid | undefined | {distributed, Node}
%% Env = [{Key, Value}]
%%-----------------------------------------------------------------
-record(appl, {name, appl_data, descr, id, vsn, restart_type, inc_apps, apps}).
%%-----------------------------------------------------------------
%% Func: start/1
%% Args: KernelApp = appl_descr()
%% appl_descr() = [{application, Name, [appl_opt()]}]
%% appl_opt() = {description, string()} |
%% {vsn, string()} |
%% {id, string()}, |
%% {modules, [Module]} |
%% {registered, [atom()]} |
%% {applications, [atom()]} |
%% {included_applications, [atom()]} |
%% {env, [{atom(), term()}]} |
%% {start_phases, [{atom(), term()}]}|
%% {maxT, integer()|infinity} |
%% {maxP, integer()|infinity} |
%% {mod, {Module, term()}}
%% Module = atom()
%% Purpose: Starts the application_controller. This process starts all
%% application masters for the applications.
%% The kernel application is the only application that is
%% treated specially. The reason for this is that the kernel
%% starts user. This process is special because it should
%% be group_leader for this process.
%% Pre: All modules are loaded, or will be loaded on demand.
%% Returns: {ok, Pid} | ReasonStr
%%-----------------------------------------------------------------
start(KernelApp) ->
%% OTP-5811 Don't start as a gen_server to prevent crash report
%% when (if) the process terminates
Init = self(),
AC = spawn_link(fun() -> init(Init, KernelApp) end),
receive
{ack, AC, ok} ->
{ok, AC};
{ack, AC, {error, Reason}} ->
to_string(Reason); % init doesn't want error tuple, only a reason
{'EXIT', _Pid, Reason} ->
to_string(Reason)
end.
%%-----------------------------------------------------------------
%% Func: load_application/1
%% Args: Application = appl_descr() | atom()
%% Purpose: Loads an application. Currently just inserts the
%% application's env.
%% Returns: ok | {error, Reason}
%%-----------------------------------------------------------------
load_application(Application) ->
gen_server:call(?AC, {load_application, Application}, infinity).
unload_application(AppName) ->
gen_server:call(?AC, {unload_application, AppName}, infinity).
%%-----------------------------------------------------------------
%% Func: start_application/2
%% Args: Application = atom()
%% RestartType = permanent | transient | temporary
%% Purpose: Starts a new application.
%% The RestartType specifies what should happen if the
%% application dies:
%% If it is permanent, all other applications are terminated,
%% and the application_controller dies.
%% If it is transient, and the application dies normally,
%% this is reported and no other applications are terminated.
%% If the application dies abnormally, all other applications
%% are terminated, and the application_controller dies.
%% If it is temporary and the application dies this is reported
%% and no other applications are terminated. In this way,
%% an application can run in test mode, without disturbing
%% the other applications.
%% The caller of this function is suspended until the application
%% is started, either locally or distributed.
%% Returns: ok | {error, Reason}
%%-----------------------------------------------------------------
start_application(AppName, RestartType) ->
gen_server:call(?AC, {start_application, AppName, RestartType}, infinity).
%%-----------------------------------------------------------------
%% Func: start_boot_application/2
%% The same as start_application/2 expect that this function is
%% called from the boot script file. It mustnot be used by the operator.
%% This function will cause a node crash if a permanent application
%% fails to boot start
%%-----------------------------------------------------------------
start_boot_application(Application, RestartType) ->
case {application:load(Application), RestartType} of
{ok, _} ->
AppName = get_appl_name(Application),
gen_server:call(?AC, {start_application, AppName, RestartType}, infinity);
{{error, {already_loaded, AppName}}, _} ->
gen_server:call(?AC, {start_application, AppName, RestartType}, infinity);
{{error,{bad_environment_value,Env}}, permanent} ->
Txt = io_lib:format("Bad environment variable: ~tp Application: ~p",
[Env, Application]),
exit({error, list_to_atom(lists:flatten(Txt))});
{Error, _} ->
Error
end.
stop_application(AppName) ->
gen_server:call(?AC, {stop_application, AppName}, infinity).
%%-----------------------------------------------------------------
%% Returns: [{Name, Descr, Vsn}]
%%-----------------------------------------------------------------
which_applications() ->
gen_server:call(?AC, which_applications).
which_applications(Timeout) ->
gen_server:call(?AC, which_applications, Timeout).
loaded_applications() ->
ets:filter(ac_tab,
fun([{{loaded, AppName}, #appl{descr = Descr, vsn = Vsn}}]) ->
{true, {AppName, Descr, Vsn}};
(_) ->
false
end,
[]).
%% Returns some debug info
info() ->
gen_server:call(?AC, info).
control_application(AppName) ->
gen_server:call(?AC, {control_application, AppName}, infinity).
%%-----------------------------------------------------------------
%% Func: change_application_data/2
%% Args: Applications = [appl_descr()]
%% Config = [{AppName, [{Par,Val}]}]
%% Purpose: Change all applications and their parameters on this node.
%% This function should be used from a release handler, at
%% the same time as the .app or start.boot file is
%% introduced. Note that during some time the ACs may have
%% different view of e.g. the distributed applications.
%% This is solved by syncing the release installation.
%% However, strange things may happen if a node crashes
%% and two other nodes have different opinons about who's
%% gonna start the applications. The release handler must
%% shutdown each involved node in this case.
%% Note that this function is used to change existing apps,
%% adding new/deleting old isn't handled by this function.
%% Changes an application's vsn, descr and env.
%% Returns: ok | {error, Reason}
%% If an error occurred, the situation may be inconsistent,
%% so the release handler must restart the node. E.g. if
%% some applicatation may have got new config data.
%%-----------------------------------------------------------------
change_application_data(Applications, Config) ->
gen_server:call(?AC,
{change_application_data, Applications, Config},
infinity).
prep_config_change() ->
gen_server:call(?AC,
prep_config_change,
infinity).
config_change(EnvPrev) ->
gen_server:call(?AC,
{config_change, EnvPrev},
infinity).
get_pid_env(Master, Key) ->
case ets:match(ac_tab, {{application_master, '$1'}, Master}) of
[[AppName]] -> get_env(AppName, Key);
_ -> undefined
end.
get_env(AppName, Key) ->
case ets:lookup(ac_tab, {env, AppName, Key}) of
[{_, Val}] -> {ok, Val};
_ -> undefined
end.
get_pid_all_env(Master) ->
case ets:match(ac_tab, {{application_master, '$1'}, Master}) of
[[AppName]] -> get_all_env(AppName);
_ -> []
end.
get_all_env(AppName) ->
map(fun([Key, Val]) -> {Key, Val} end,
ets:match(ac_tab, {{env, AppName, '$1'}, '$2'})).
get_pid_key(Master, Key) ->
case ets:match(ac_tab, {{application_master, '$1'}, Master}) of
[[AppName]] -> get_key(AppName, Key);
_ -> undefined
end.
get_key(AppName, Key) ->
case ets:lookup(ac_tab, {loaded, AppName}) of
[{_, Appl}] ->
case Key of
description ->
{ok, Appl#appl.descr};
id ->
{ok, Appl#appl.id};
vsn ->
{ok, Appl#appl.vsn};
modules ->
{ok, (Appl#appl.appl_data)#appl_data.mods};
maxP ->
{ok, (Appl#appl.appl_data)#appl_data.maxP};
maxT ->
{ok, (Appl#appl.appl_data)#appl_data.maxT};
registered ->
{ok, (Appl#appl.appl_data)#appl_data.regs};
included_applications ->
{ok, Appl#appl.inc_apps};
applications ->
{ok, Appl#appl.apps};
env ->
{ok, get_all_env(AppName)};
mod ->
{ok, (Appl#appl.appl_data)#appl_data.mod};
start_phases ->
{ok, (Appl#appl.appl_data)#appl_data.phases};
_ -> undefined
end;
_ ->
undefined
end.
get_pid_all_key(Master) ->
case ets:match(ac_tab, {{application_master, '$1'}, Master}) of
[[AppName]] -> get_all_key(AppName);
_ -> []
end.
get_all_key(AppName) ->
case ets:lookup(ac_tab, {loaded, AppName}) of
[{_, Appl}] ->
{ok, [{description, Appl#appl.descr},
{id, Appl#appl.id},
{vsn, Appl#appl.vsn},
{modules, (Appl#appl.appl_data)#appl_data.mods},
{maxP, (Appl#appl.appl_data)#appl_data.maxP},
{maxT, (Appl#appl.appl_data)#appl_data.maxT},
{registered, (Appl#appl.appl_data)#appl_data.regs},
{included_applications, Appl#appl.inc_apps},
{applications, Appl#appl.apps},
{env, get_all_env(AppName)},
{mod, (Appl#appl.appl_data)#appl_data.mod},
{start_phases, (Appl#appl.appl_data)#appl_data.phases}
]};
_ ->
undefined
end.
start_type(Master) ->
case ets:match(ac_tab, {{application_master, '$1'}, Master}) of
[[AppName]] ->
gen_server:call(?AC, {start_type, AppName}, infinity);
_X ->
undefined
end.
get_master(AppName) ->
case ets:lookup(ac_tab, {application_master, AppName}) of
[{_, Pid}] -> Pid;
_ -> undefined
end.
get_application(Master) ->
case ets:match(ac_tab, {{application_master, '$1'}, Master}) of
[[AppName]] -> {ok, AppName};
_ -> undefined
end.
get_application_module(Module) ->
ApplDataPattern = #appl_data{mods='$2', _='_'},
ApplPattern = #appl{appl_data=ApplDataPattern, _='_'},
AppModules = ets:match(ac_tab, {{loaded, '$1'}, ApplPattern}),
get_application_module(Module, AppModules).
get_application_module(Module, [[AppName, Modules]|AppModules]) ->
case lists:member(Module, Modules) of
true ->
{ok, AppName};
false ->
get_application_module(Module, AppModules)
end;
get_application_module(_Module, []) ->
undefined.
permit_application(ApplName, Flag) ->
gen_server:call(?AC,
{permit_application, ApplName, Flag},
infinity).
set_env(AppName, Key, Val) ->
gen_server:call(?AC, {set_env, AppName, Key, Val, []}).
set_env(AppName, Key, Val, Opts) ->
Timeout = proplists:get_value(timeout, Opts, 5000),
gen_server:call(?AC, {set_env, AppName, Key, Val, Opts}, Timeout).
unset_env(AppName, Key) ->
gen_server:call(?AC, {unset_env, AppName, Key, []}).
unset_env(AppName, Key, Opts) ->
Timeout = proplists:get_value(timeout, Opts, 5000),
gen_server:call(?AC, {unset_env, AppName, Key, Opts}, Timeout).
%%%-----------------------------------------------------------------
%%% call-back functions from gen_server
%%%-----------------------------------------------------------------
init(Init, Kernel) ->
register(?AC, self()),
process_flag(trap_exit, true),
put('$ancestors', [Init]), % OTP-5811, for gen_server compatibility
put('$initial_call', {application_controller, start, 1}),
case catch check_conf() of
{ok, ConfData} ->
%% Actually, we don't need this info in an ets table anymore.
%% This table was introduced because starting applications
%% should be able to get som info from AC (e.g. loaded_apps).
%% The new implementation makes sure the AC process can be
%% called during start-up of any app.
case check_conf_data(ConfData) of
ok ->
_ = ets:new(ac_tab, [set, public, named_table,
{read_concurrency,true}]),
S = #state{conf_data = ConfData},
{ok, KAppl} = make_appl(Kernel),
case catch load(S, KAppl) of
{'EXIT', LoadError} ->
Reason = {'load error', LoadError},
Init ! {ack, self(), {error, to_string(Reason)}};
{error, Error} ->
Init ! {ack, self(), {error, to_string(Error)}};
{ok, NewS} ->
Init ! {ack, self(), ok},
gen_server:enter_loop(?MODULE, [], NewS,
{local, ?AC})
end;
{error, ErrorStr} ->
Str = lists:flatten(io_lib:format("invalid config data: ~ts", [ErrorStr])),
Init ! {ack, self(), {error, to_string(Str)}}
end;
{error, {File, Line, Str}} ->
ReasonStr =
lists:flatten(io_lib:format("error in config file "
"~tp (~w): ~ts",
[File, Line, Str])),
Init ! {ack, self(), {error, to_string(ReasonStr)}}
end.
%% Check the syntax of the .config file
%% [{ApplicationName, [{Parameter, Value}]}].
check_conf_data([]) ->
ok;
check_conf_data(ConfData) when is_list(ConfData) ->
[Application | ConfDataRem] = ConfData,
case Application of
{kernel, List} when is_list(List) ->
case check_para_kernel(List) of
ok ->
check_conf_data(ConfDataRem);
Error1 ->
Error1
end;
{AppName, List} when is_atom(AppName), is_list(List) ->
case check_para(List, atom_to_list(AppName)) of
ok ->
check_conf_data(ConfDataRem);
Error2 ->
Error2
end;
{AppName, List} when is_list(List) ->
ErrMsg = "application: "
++ lists:flatten(io_lib:format("~tp",[AppName]))
++ "; application name must be an atom",
{error, ErrMsg};
{AppName, _List} ->
ErrMsg = "application: "
++ lists:flatten(io_lib:format("~tp",[AppName]))
++ "; parameters must be a list",
{error, ErrMsg};
Else ->
ErrMsg = "invalid application name: " ++
lists:flatten(io_lib:format(" ~tp",[Else])),
{error, ErrMsg}
end;
check_conf_data(_ConfData) ->
{error, 'configuration must be a list ended by <dot><whitespace>'}.
%% Special check of distributed parameter for kernel
check_para_kernel([]) ->
ok;
check_para_kernel([{distributed, Apps} | ParaList]) when is_list(Apps) ->
case check_distributed(Apps) of
{error, _ErrorMsg} = Error ->
Error;
_ ->
check_para_kernel(ParaList)
end;
check_para_kernel([{distributed, _Apps} | _ParaList]) ->
{error, "application: kernel; erroneous parameter: distributed"};
check_para_kernel([{Para, _Val} | ParaList]) when is_atom(Para) ->
check_para_kernel(ParaList);
check_para_kernel([{Para, _Val} | _ParaList]) ->
{error, "application: kernel; invalid parameter: " ++
lists:flatten(io_lib:format("~tp",[Para]))};
check_para_kernel(Else) ->
{error, "application: kernel; invalid parameter list: " ++
lists:flatten(io_lib:format("~tp",[Else]))}.
check_distributed([]) ->
ok;
check_distributed([{App, List} | Apps]) when is_atom(App), is_list(List) ->
check_distributed(Apps);
check_distributed([{App, infinity, List} | Apps]) when is_atom(App), is_list(List) ->
check_distributed(Apps);
check_distributed([{App, Time, List} | Apps]) when is_atom(App), is_integer(Time), is_list(List) ->
check_distributed(Apps);
check_distributed(_Else) ->
{error, "application: kernel; erroneous parameter: distributed"}.
check_para([], _AppName) ->
ok;
check_para([{Para, _Val} | ParaList], AppName) when is_atom(Para) ->
check_para(ParaList, AppName);
check_para([{Para, _Val} | _ParaList], AppName) ->
{error, "application: " ++ AppName ++ "; invalid parameter: " ++
lists:flatten(io_lib:format("~tp",[Para]))};
check_para([Else | _ParaList], AppName) ->
{error, "application: " ++ AppName ++ "; invalid parameter: " ++
lists:flatten(io_lib:format("~tp",[Else]))}.
-type calls() :: 'info' | 'prep_config_change' | 'which_applications'
| {'config_change' | 'control_application' |
'load_application' | 'start_type' | 'stop_application' |
'unload_application', term()}
| {'change_application_data', _, _}
| {'permit_application', atom() | {'application',atom(),_},_}
| {'start_application', _, _}
| {'unset_env', _, _, _}
| {'set_env', _, _, _, _}.
-spec handle_call(calls(), {pid(), term()}, state()) ->
{'noreply', state()} | {'reply', term(), state()}.
handle_call({load_application, Application}, From, S) ->
case catch do_load_application(Application, S) of
{ok, NewS} ->
AppName = get_appl_name(Application),
case cntrl(AppName, S, {ac_load_application_req, AppName}) of
true ->
{noreply, S#state{loading = [{AppName, From} |
S#state.loading]}};
false ->
{reply, ok, NewS}
end;
{error, _} = Error ->
{reply, Error, S};
{'EXIT', R} ->
{reply, {error, R}, S}
end;
handle_call({unload_application, AppName}, _From, S) ->
case lists:keymember(AppName, 1, S#state.running) of
true -> {reply, {error, {running, AppName}}, S};
false ->
case get_loaded(AppName) of
{true, _} ->
NewS = unload(AppName, S),
cntrl(AppName, S, {ac_application_unloaded, AppName}),
{reply, ok, NewS};
false ->
{reply, {error, {not_loaded, AppName}}, S}
end
end;
handle_call({start_application, AppName, RestartType}, From, S) ->
#state{running = Running, starting = Starting, start_p_false = SPF,
started = Started, start_req = Start_req} = S,
%% Check if the commandline environment variables are OK.
%% Incase of erroneous variables do not start the application,
%% if the application is permanent crash the node.
%% Check if the application is already starting.
case lists:keyfind(AppName, 1, Start_req) of
false ->
case catch check_start_cond(AppName, RestartType, Started, Running) of
{ok, Appl} ->
Cntrl = cntrl(AppName, S, {ac_start_application_req, AppName}),
Perm = application:get_env(kernel, permissions),
case {Cntrl, Perm} of
{true, _} ->
{noreply, S#state{starting = [{AppName, RestartType, normal, From} |
Starting],
start_req = [{AppName, From} | Start_req]}};
{false, undefined} ->
spawn_starter(From, Appl, S, normal),
{noreply, S#state{starting = [{AppName, RestartType, normal, From} |
Starting],
start_req = [{AppName, From} | Start_req]}};
{false, {ok, Perms}} ->
case lists:member({AppName, false}, Perms) of
false ->
spawn_starter(From, Appl, S, normal),
{noreply, S#state{starting = [{AppName, RestartType, normal, From} |
Starting],
start_req = [{AppName, From} | Start_req]}};
true ->
SS = S#state{start_p_false = [{AppName, RestartType, normal, From} |
SPF]},
{reply, ok, SS}
end
end;
{error, _R} = Error ->
{reply, Error, S}
end;
{AppName, _FromX} ->
SS = S#state{start_req = [{AppName, From} | Start_req]},
{noreply, SS}
end;
handle_call({permit_application, AppName, Bool}, From, S) ->
Control = S#state.control,
Starting = S#state.starting,
SPF = S#state.start_p_false,
Started = S#state.started,
Running = S#state.running,
Start_req = S#state.start_req,
IsLoaded = get_loaded(AppName),
IsStarting = lists:keysearch(AppName, 1, Starting),
IsSPF = lists:keysearch(AppName, 1, SPF),
IsStarted = lists:keysearch(AppName, 1, Started),
IsRunning = lists:keysearch(AppName, 1, Running),
case lists:keymember(AppName, 1, Control) of
%%========================
%% distributed application
%%========================
true ->
case {IsLoaded, IsStarting, IsStarted} of
%% not loaded
{false, _, _} ->
{reply, {error, {not_loaded, AppName}}, S};
%% only loaded
{{true, _Appl}, false, false} ->
update_permissions(AppName, Bool),
{reply, {distributed_application, only_loaded}, S};
_ ->
update_permissions(AppName, Bool),
{reply, distributed_application, S}
end;
%%========================
%% local application
%%========================
false ->
case {Bool, IsLoaded, IsStarting, IsSPF, IsStarted, IsRunning} of
%%------------------------
%% permit the applicaition
%%------------------------
%% already running
{true, _, _, _, _, {value, _Tuple}} ->
{reply, ok, S};
%% not loaded
{true, false, _, _, _, _} ->
{reply, {error, {not_loaded, AppName}}, S};
%% only loaded
{true, {true, _Appl}, false, false, false, false} ->
update_permissions(AppName, Bool),
{reply, ok, S};
%% starting
{true, {true, _Appl}, {value, _Tuple}, false, false, false} ->
update_permissions(AppName, Bool),
{reply, ok, S}; %% check the permission after then app is started
%% start requested but not started because permit was false
{true, {true, Appl}, false, {value, Tuple}, false, false} ->
update_permissions(AppName, Bool),
{_AppName2, RestartType, normal, _From} = Tuple,
spawn_starter(From, Appl, S, normal),
SS = S#state{starting = [{AppName, RestartType, normal, From} | Starting],
start_p_false = keydelete(AppName, 1, SPF),
start_req = [{AppName, From} | Start_req]},
{noreply, SS};
%% started but not running
{true, {true, Appl}, _, _, {value, {AppName, RestartType}}, false} ->
update_permissions(AppName, Bool),
spawn_starter(From, Appl, S, normal),
SS = S#state{starting = [{AppName, RestartType, normal, From} | Starting],
started = keydelete(AppName, 1, Started),
start_req = [{AppName, From} | Start_req]},
{noreply, SS};
%%==========================
%% unpermit the application
%%==========================
%% running
{false, _, _, _, _, {value, {_AppName, Id}}} ->
{_AppName2, Type} = lists:keyfind(AppName, 1, Started),
stop_appl(AppName, Id, Type),
NRunning = keydelete(AppName, 1, Running),
{reply, ok, S#state{running = NRunning}};
%% not loaded
{false, false, _, _, _, _} ->
{reply, {error, {not_loaded, AppName}}, S};
%% only loaded
{false, {true, _Appl}, false, false, false, false} ->
update_permissions(AppName, Bool),
{reply, ok, S};
%% starting
{false, {true, _Appl}, {value, _Tuple}, false, false, false} ->
update_permissions(AppName, Bool),
{reply, ok, S};
%% start requested but not started because permit was false
{false, {true, _Appl}, false, {value, _Tuple}, false, false} ->
update_permissions(AppName, Bool),
SS = S#state{start_p_false = keydelete(AppName, 1, SPF)},
{reply, ok, SS};
%% started but not running
{false, {true, _Appl}, _, _, {value, _Tuple}, false} ->
update_permissions(AppName, Bool),
{reply, ok, S}
end
end;
handle_call({stop_application, AppName}, _From, S) ->
#state{running = Running, started = Started} = S,
case lists:keyfind(AppName, 1, Running) of
{_AppName, Id} ->
{_AppName2, Type} = lists:keyfind(AppName, 1, Started),
stop_appl(AppName, Id, Type),
NRunning = keydelete(AppName, 1, Running),
NStarted = keydelete(AppName, 1, Started),
cntrl(AppName, S, {ac_application_stopped, AppName}),
{reply, ok, S#state{running = NRunning, started = NStarted}};
false ->
case lists:keymember(AppName, 1, Started) of
true ->
NStarted = keydelete(AppName, 1, Started),
cntrl(AppName, S, {ac_application_stopped, AppName}),
{reply, ok, S#state{started = NStarted}};
false ->
{reply, {error, {not_started, AppName}}, S}
end
end;
handle_call({change_application_data, Applications, Config}, _From, S) ->
OldAppls = ets:filter(ac_tab,
fun([{{loaded, _AppName}, Appl}]) ->
{true, Appl};
(_) ->
false
end,
[]),
case catch do_change_apps(Applications, Config, OldAppls) of
{error, _} = Error ->
{reply, Error, S};
{'EXIT', R} ->
{reply, {error, R}, S};
{NewAppls, NewConfig} ->
lists:foreach(fun(Appl) ->
ets:insert(ac_tab, {{loaded, Appl#appl.name},
Appl})
end, NewAppls),
{reply, ok, S#state{conf_data = NewConfig}}
end;
handle_call(prep_config_change, _From, S) ->
RunningApps = S#state.running,
EnvBefore = lists:reverse(do_prep_config_change(RunningApps)),
{reply, EnvBefore, S};
handle_call({config_change, EnvBefore}, _From, S) ->
RunningApps = S#state.running,
R = do_config_change(RunningApps, EnvBefore),
{reply, R, S};
handle_call(which_applications, _From, S) ->
Reply = zf(fun({Name, Id}) ->
case Id of
{distributed, _Node} ->
false;
_ ->
{true, #appl{descr = Descr, vsn = Vsn}} =
get_loaded(Name),
{true, {Name, Descr, Vsn}}
end
end, S#state.running),
{reply, Reply, S};
handle_call({set_env, AppName, Key, Val, Opts}, _From, S) ->
ets:insert(ac_tab, {{env, AppName, Key}, Val}),
case proplists:get_value(persistent, Opts, false) of
true ->
Fun = fun(Env) -> lists:keystore(Key, 1, Env, {Key, Val}) end,
{reply, ok, S#state{conf_data = change_app_env(S#state.conf_data, AppName, Fun)}};
false ->
{reply, ok, S}
end;
handle_call({unset_env, AppName, Key, Opts}, _From, S) ->
ets:delete(ac_tab, {env, AppName, Key}),
case proplists:get_value(persistent, Opts, false) of
true ->
Fun = fun(Env) -> lists:keydelete(Key, 1, Env) end,
{reply, ok, S#state{conf_data = change_app_env(S#state.conf_data, AppName, Fun)}};
false ->
{reply, ok, S}
end;
handle_call({control_application, AppName}, {Pid, _Tag}, S) ->
Control = S#state.control,
case lists:keymember(AppName, 1, Control) of
false ->
link(Pid),
{reply, true, S#state{control = [{AppName, Pid} | Control]}};
true ->
{reply, false, S}
end;
handle_call({start_type, AppName}, _From, S) ->
Starting = S#state.starting,
StartType = case lists:keyfind(AppName, 1, Starting) of
false ->
local;
{_AppName, _RestartType, Type, _F} ->
Type
end,
{reply, StartType, S};
handle_call(info, _From, S) ->
Reply = [{loaded, loaded_applications()},
{loading, S#state.loading},
{started, S#state.started},
{start_p_false, S#state.start_p_false},
{running, S#state.running},
{starting, S#state.starting}],
{reply, Reply, S}.
-spec handle_cast({'application_started', appname(), _}, state()) ->
{'noreply', state()} | {'stop', string(), state()}.
handle_cast({application_started, AppName, Res}, S) ->
handle_application_started(AppName, Res, S).
handle_application_started(AppName, Res, S) ->
#state{starting = Starting, running = Running, started = Started,
start_req = Start_req} = S,
Start_reqN = reply_to_requester(AppName, Start_req, Res),
{_AppName, RestartType, _Type, _From} = lists:keyfind(AppName, 1, Starting),
case Res of
{ok, Id} ->
case AppName of
kernel -> check_user();
_ -> ok
end,
info_started(AppName, nd(Id)),
notify_cntrl_started(AppName, Id, S, ok),
NRunning = keyreplaceadd(AppName, 1, Running,{AppName,Id}),
NStarted = keyreplaceadd(AppName, 1, Started,{AppName,RestartType}),
NewS = S#state{starting = keydelete(AppName, 1, Starting),
running = NRunning,
started = NStarted,
start_req = Start_reqN},
%% The permission may have been changed during start
Perm = application:get_env(kernel, permissions),
case {Perm, Id} of
{undefined, _} ->
{noreply, NewS};
%% Check only if the application is started on the own node
{{ok, Perms}, {distributed, StartNode}} when StartNode =:= node() ->
case lists:member({AppName, false}, Perms) of
true ->
#state{running = StopRunning, started = StopStarted} = NewS,
case lists:keyfind(AppName, 1, StopRunning) of
{_AppName, Id} ->
{_AppName2, Type} =
lists:keyfind(AppName, 1, StopStarted),
stop_appl(AppName, Id, Type),
NStopRunning = keydelete(AppName, 1, StopRunning),
cntrl(AppName, NewS, {ac_application_stopped, AppName}),
{noreply, NewS#state{running = NStopRunning,
started = StopStarted}};
false ->
{noreply, NewS}
end;
false ->
{noreply, NewS}
end;
_ ->
{noreply, NewS}
end;
{error, R} = Error when RestartType =:= temporary ->
notify_cntrl_started(AppName, undefined, S, Error),
info_exited(AppName, R, RestartType),
{noreply, S#state{starting = keydelete(AppName, 1, Starting),
start_req = Start_reqN}};
{info, R} when RestartType =:= temporary ->
notify_cntrl_started(AppName, undefined, S, {error, R}),
{noreply, S#state{starting = keydelete(AppName, 1, Starting),
start_req = Start_reqN}};
{ErrInf, R} when RestartType =:= transient, ErrInf =:= error;
RestartType =:= transient, ErrInf =:= info ->
notify_cntrl_started(AppName, undefined, S, {error, R}),
case ErrInf of
error ->
info_exited(AppName, R, RestartType);
info ->
ok
end,
case R of
{{'EXIT',normal},_Call} ->
{noreply, S#state{starting = keydelete(AppName, 1, Starting),
start_req = Start_reqN}};
_ ->
Reason = {application_start_failure, AppName, R},
{stop, to_string(Reason), S}
end;
{error, R} = Error -> %% permanent
notify_cntrl_started(AppName, undefined, S, Error),
info_exited(AppName, R, RestartType),
Reason = {application_start_failure, AppName, R},
{stop, to_string(Reason), S};
{info, R} -> %% permanent
notify_cntrl_started(AppName, undefined, S, {error, R}),
Reason = {application_start_failure, AppName, R},
{stop, to_string(Reason), S}
end.
-spec handle_info(term(), state()) ->
{'noreply', state()} | {'stop', string(), state()}.
handle_info({ac_load_application_reply, AppName, Res}, S) ->
case keysearchdelete(AppName, 1, S#state.loading) of
{value, {_AppName, From}, Loading} ->
gen_server:reply(From, Res),
case Res of
ok ->
{noreply, S#state{loading = Loading}};
{error, _R} ->
NewS = unload(AppName, S),
{noreply, NewS#state{loading = Loading}}
end;
false ->
{noreply, S}
end;
handle_info({ac_start_application_reply, AppName, Res}, S) ->
Start_req = S#state.start_req,
case lists:keyfind(AppName, 1, Starting = S#state.starting) of
{_AppName, RestartType, Type, From} ->
case Res of
start_it ->
{true, Appl} = get_loaded(AppName),
spawn_starter(From, Appl, S, Type),
{noreply, S};
{started, Node} ->
handle_application_started(AppName,
{ok, {distributed, Node}},
S);
not_started ->
Started = S#state.started,
Start_reqN =
reply_to_requester(AppName, Start_req, ok),
{noreply,
S#state{starting = keydelete(AppName, 1, Starting),
started = [{AppName, RestartType} | Started],
start_req = Start_reqN}};
{takeover, _Node} = Takeover ->
{true, Appl} = get_loaded(AppName),
spawn_starter(From, Appl, S, Takeover),
NewStarting1 = keydelete(AppName, 1, Starting),
NewStarting = [{AppName, RestartType, Takeover, From} | NewStarting1],
{noreply, S#state{starting = NewStarting}};
{error, Reason} = Error when RestartType =:= permanent ->
Start_reqN = reply_to_requester(AppName, Start_req, Error),
{stop, to_string(Reason), S#state{start_req = Start_reqN}};
{error, _Reason} = Error ->
Start_reqN = reply_to_requester(AppName, Start_req, Error),
{noreply, S#state{starting =
keydelete(AppName, 1, Starting),
start_req = Start_reqN}}
end;
false ->
{noreply, S} % someone called stop before control got that
end;
handle_info({ac_change_application_req, AppName, Msg}, S) ->
Running = S#state.running,
Started = S#state.started,
Starting = S#state.starting,
case {keyfind(AppName, 1, Running), keyfind(AppName, 1, Started)} of
{{AppName, Id}, {_AppName2, Type}} ->
case Msg of
{started, Node} ->
stop_appl(AppName, Id, Type),
NRunning = [{AppName, {distributed, Node}} |
keydelete(AppName, 1, Running)],
{noreply, S#state{running = NRunning}};
{takeover, _Node, _RT} when is_pid(Id) -> % it is running already
notify_cntrl_started(AppName, Id, S, ok),
{noreply, S};
{takeover, Node, RT} ->
NewS = do_start(AppName, RT, {takeover, Node}, undefined, S),
{noreply, NewS};
{failover, _Node, _RT} when is_pid(Id) -> % it is running already
notify_cntrl_started(AppName, Id, S, ok),
{noreply, S};
{failover, Node, RT} ->
case application:get_key(AppName, start_phases) of
{ok, undefined} ->
%% to be backwards compatible the application
%% is not started as failover if start_phases
%% is not defined in the .app file
NewS = do_start(AppName, RT, normal, undefined, S),
{noreply, NewS};
{ok, _StartPhases} ->
NewS = do_start(AppName, RT, {failover, Node}, undefined, S),
{noreply, NewS}
end;
stop_it ->
stop_appl(AppName, Id, Type),
cntrl(AppName, S, {ac_application_not_run, AppName}),
NRunning = keyreplace(AppName, 1, Running,
{AppName, {distributed, []}}),
{noreply, S#state{running = NRunning}};
%% We should not try to start a running application!
start_it when is_pid(Id) ->
notify_cntrl_started(AppName, Id, S, ok),
{noreply, S};
start_it ->
NewS = do_start(AppName, undefined, normal, undefined, S),
{noreply, NewS};
not_running ->
NRunning = keydelete(AppName, 1, Running),
{noreply, S#state{running = NRunning}};
_ ->
{noreply, S}
end;
_ ->
IsLoaded = get_loaded(AppName),
IsStarting = lists:keysearch(AppName, 1, Starting),
IsStarted = lists:keysearch(AppName, 1, Started),
IsRunning = lists:keysearch(AppName, 1, Running),
case Msg of
start_it ->
case {IsLoaded, IsStarting, IsStarted, IsRunning} of
%% already running
{_, _, _, {value, _Tuple}} ->
{noreply, S};
%% not loaded
{false, _, _, _} ->
{noreply, S};
%% only loaded
{{true, _Appl}, false, false, false} ->
{noreply, S};
%% starting
{{true, _Appl}, {value, Tuple}, false, false} ->
{_AppName, _RStype, _Type, From} = Tuple,
NewS = do_start(AppName, undefined, normal, From, S),
{noreply, NewS};
%% started but not running
{{true, _Appl}, _, {value, {AppName, _RestartType}}, false} ->
NewS = do_start(AppName, undefined, normal, undefined, S),
SS = NewS#state{started = keydelete(AppName, 1, Started)},
{noreply, SS}
end;
{started, Node} ->
NRunning = [{AppName, {distributed, Node}} |
keydelete(AppName, 1, Running)],
{noreply, S#state{running = NRunning}};
_ ->
{noreply, S} % someone called stop before control got that
end
end;
%%-----------------------------------------------------------------
%% An application died. Check its restart_type. Maybe terminate
%% all other applications.
%%-----------------------------------------------------------------
handle_info({'EXIT', Pid, Reason}, S) ->
ets:match_delete(ac_tab, {{application_master, '_'}, Pid}),
NRunning = keydelete(Pid, 2, S#state.running),
NewS = S#state{running = NRunning},
case lists:keyfind(Pid, 2, S#state.running) of
{AppName, _AmPid} ->
cntrl(AppName, S, {ac_application_stopped, AppName}),
case lists:keyfind(AppName, 1, S#state.started) of
{_AppName, temporary} ->
info_exited(AppName, Reason, temporary),
{noreply, NewS};
{_AppName, transient} when Reason =:= normal ->
info_exited(AppName, Reason, transient),
{noreply, NewS};
{_AppName, Type} ->
info_exited(AppName, Reason, Type),
{stop, to_string({application_terminated, AppName, Reason}), NewS}
end;
false ->
{noreply, S#state{control = del_cntrl(S#state.control, Pid)}}
end;
handle_info(_, S) ->
{noreply, S}.
-spec terminate(term(), state()) -> 'ok'.
terminate(Reason, S) ->
case application:get_env(kernel, shutdown_func) of
{ok, {M, F}} ->
catch M:F(Reason);
_ ->
ok
end,
ShutdownTimeout =
case application:get_env(kernel, shutdown_timeout) of
undefined -> infinity;
{ok,T} -> T
end,
foreach(fun({_AppName, Id}) when is_pid(Id) ->
Ref = erlang:monitor(process, Id),
unlink(Id),
exit(Id, shutdown),
receive
%% Proc died before link
{'EXIT', Id, _} -> ok
after 0 ->
receive
{'DOWN', Ref, process, Id, _} -> ok
after ShutdownTimeout ->
exit(Id, kill),
receive
{'DOWN', Ref, process, Id, _} -> ok
end
end
end;
(_) -> ok
end,
S#state.running),
true = ets:delete(ac_tab),
ok.
-spec code_change(term(), state(), term()) -> {'ok', state()}.
code_change(_OldVsn, State, _Extra) ->
{ok, State}.
%%%-----------------------------------------------------------------
%%% Internal functions
%%%-----------------------------------------------------------------
cntrl(AppName, #state{control = Control}, Msg) ->
case lists:keyfind(AppName, 1, Control) of
{_AppName, Pid} ->
Pid ! Msg,
true;
false ->
false
end.
notify_cntrl_started(_AppName, {distributed, _Node}, _S, _Res) ->
ok;
notify_cntrl_started(AppName, _Id, S, Res) ->
cntrl(AppName, S, {ac_application_run, AppName, Res}).
del_cntrl([{_, Pid}|T], Pid) ->
del_cntrl(T, Pid);
del_cntrl([H|T], Pid) ->
[H|del_cntrl(T, Pid)];
del_cntrl([], _Pid) ->
[].
get_loaded(App) ->
AppName = get_appl_name(App),
case ets:lookup(ac_tab, {loaded, AppName}) of
[{_Key, Appl}] -> {true, Appl};
_ -> false
end.
do_load_application(Application, S) ->
case get_loaded(Application) of
{true, _} ->
throw({error, {already_loaded, Application}});
false ->
case make_appl(Application) of
{ok, Appl} -> load(S, Appl);
Error -> Error
end
end.
%% Recursively load the application and its included apps.
%load(S, {ApplData, ApplEnv, IncApps, Descr, Vsn, Apps}) ->
load(S, {ApplData, ApplEnv, IncApps, Descr, Id, Vsn, Apps}) ->
Name = ApplData#appl_data.name,
ConfEnv = get_env_i(Name, S),
NewEnv = merge_app_env(ApplEnv, ConfEnv),
CmdLineEnv = get_cmd_env(Name),
NewEnv2 = merge_app_env(NewEnv, CmdLineEnv),
NewEnv3 = keyreplaceadd(included_applications, 1, NewEnv2,
{included_applications, IncApps}),
add_env(Name, NewEnv3),
Appl = #appl{name = Name, descr = Descr, id = Id, vsn = Vsn,
appl_data = ApplData, inc_apps = IncApps, apps = Apps},
ets:insert(ac_tab, {{loaded, Name}, Appl}),
NewS =
foldl(fun(App, S1) ->
case get_loaded(App) of
{true, _} -> S1;
false ->
case do_load_application(App, S1) of
{ok, S2} -> S2;
Error -> throw(Error)
end
end
end, S, IncApps),
{ok, NewS}.
unload(AppName, S) ->
{ok, IncApps} = get_env(AppName, included_applications),
del_env(AppName),
ets:delete(ac_tab, {loaded, AppName}),
foldl(fun(App, S1) ->
case get_loaded(App) of
false -> S1;
{true, _} -> unload(App, S1)
end
end, S, IncApps).
check_start_cond(AppName, RestartType, Started, Running) ->
validRestartType(RestartType),
case get_loaded(AppName) of
{true, Appl} ->
%% Check Running; not Started. An exited app is not running,
%% but started. It must be possible to start an exited app!
case lists:keymember(AppName, 1, Running) of
true ->
{error, {already_started, AppName}};
false ->
foreach(
fun(AppName2) ->
case lists:keymember(AppName2, 1, Started) of
true -> ok;
false ->
throw({error, {not_started, AppName2}})
end
end, Appl#appl.apps),
{ok, Appl}
end;
false ->
{error, {not_loaded, AppName}}
end.
do_start(AppName, RT, Type, From, S) ->
RestartType = case lists:keyfind(AppName, 1, S#state.started) of
{_AppName2, OldRT} ->
get_restart_type(RT, OldRT);
false ->
RT
end,
%% UW 990913: We check start_req instead of starting, because starting
%% has already been checked.
case lists:keymember(AppName, 1, S#state.start_req) of
false ->
{true, Appl} = get_loaded(AppName),
Start_req = S#state.start_req,
spawn_starter(undefined, Appl, S, Type),
Starting = case lists:keymember(AppName, 1, S#state.starting) of
false ->
%% UW: don't know if this is necessary
[{AppName, RestartType, Type, From} |
S#state.starting];
true ->
S#state.starting
end,
S#state{starting = Starting,
start_req = [{AppName, From} | Start_req]};
true -> % otherwise we're already starting the app...
S
end.
spawn_starter(From, Appl, S, Type) ->
spawn_link(?MODULE, init_starter, [From, Appl, S, Type]).
init_starter(_From, Appl, S, Type) ->
process_flag(trap_exit, true),
AppName = Appl#appl.name,
gen_server:cast(?AC, {application_started, AppName,
catch start_appl(Appl, S, Type)}).
reply(undefined, _Reply) ->
ok;
reply(From, Reply) -> gen_server:reply(From, Reply).
start_appl(Appl, S, Type) ->
ApplData = Appl#appl.appl_data,
case ApplData#appl_data.mod of
[] ->
{ok, undefined};
_ ->
%% Name = ApplData#appl_data.name,
Running = S#state.running,
foreach(
fun(AppName) ->
case lists:keymember(AppName, 1, Running) of
true ->
ok;
false ->
throw({info, {not_running, AppName}})
end
end, Appl#appl.apps),
case application_master:start_link(ApplData, Type) of
{ok, _Pid} = Ok ->
Ok;
{error, _Reason} = Error ->
throw(Error)
end
end.
%%-----------------------------------------------------------------
%% Stop application locally.
%%-----------------------------------------------------------------
stop_appl(AppName, Id, Type) when is_pid(Id) ->
unlink(Id),
application_master:stop(Id),
info_exited(AppName, stopped, Type),
ets:delete(ac_tab, {application_master, AppName});
stop_appl(AppName, undefined, Type) ->
%% Code-only application stopped
info_exited(AppName, stopped, Type);
stop_appl(_AppName, _Id, _Type) ->
%% Distributed application stopped
ok.
keysearchdelete(Key, Pos, List) ->
ksd(Key, Pos, List, []).
ksd(Key, Pos, [H | T], Rest) when element(Pos, H) =:= Key ->
{value, H, Rest ++ T};
ksd(Key, Pos, [H | T], Rest) ->
ksd(Key, Pos, T, [H | Rest]);
ksd(_Key, _Pos, [], _Rest) ->
false.
keyreplaceadd(Key, Pos, List, New) ->
%% Maintains the order!
case lists:keymember(Key, Pos, List) of
true -> keyreplace(Key, Pos, List, New);
false -> [New | List]
end.
validRestartType(permanent) -> true;
validRestartType(temporary) -> true;
validRestartType(transient) -> true;
validRestartType(RestartType) ->
throw({error, {invalid_restart_type, RestartType}}).
nd({distributed, Node}) -> Node;
nd(_) -> node().
get_restart_type(undefined, OldRT) ->
OldRT;
get_restart_type(RT, _OldRT) ->
RT.
get_appl_name(Name) when is_atom(Name) -> Name;
get_appl_name({application, Name, _}) when is_atom(Name) -> Name;
get_appl_name(Appl) -> throw({error, {bad_application, Appl}}).
make_appl(Name) when is_atom(Name) ->
FName = atom_to_list(Name) ++ ".app",
case code:where_is_file(FName) of
non_existing ->
{error, {file:format_error(enoent), FName}};
FullName ->
case prim_consult(FullName) of
{ok, [Application]} ->
{ok, make_appl_i(Application)};
{error, Reason} ->
{error, {file:format_error(Reason), FName}};
error ->
{error, "bad encoding"}
end
end;
make_appl(Application) ->
{ok, make_appl_i(Application)}.
prim_consult(FullName) ->
case erl_prim_loader:get_file(FullName) of
{ok, Bin, _} ->
case file_binary_to_list(Bin) of
{ok, String} ->
case erl_scan:string(String) of
{ok, Tokens, _EndLine} ->
prim_parse(Tokens, []);
{error, Reason, _EndLine} ->
{error, Reason}
end;
error ->
error
end;
error ->
{error, enoent}
end.
prim_parse(Tokens, Acc) ->
case lists:splitwith(fun(T) -> element(1,T) =/= dot end, Tokens) of
{[], []} ->
{ok, lists:reverse(Acc)};
{Tokens2, [{dot,_} = Dot | Rest]} ->
case erl_parse:parse_term(Tokens2 ++ [Dot]) of
{ok, Term} ->
prim_parse(Rest, [Term | Acc]);
{error, _R} = Error ->
Error
end;
{Tokens2, []} ->
case erl_parse:parse_term(Tokens2) of
{ok, Term} ->
{ok, lists:reverse([Term | Acc])};
{error, _R} = Error ->
Error
end
end.
make_appl_i({application, Name, Opts}) when is_atom(Name), is_list(Opts) ->
Descr = get_opt(description, Opts, ""),
Id = get_opt(id, Opts, ""),
Vsn = get_opt(vsn, Opts, ""),
Mods = get_opt(modules, Opts, []),
Regs = get_opt(registered, Opts, []),
Apps = get_opt(applications, Opts, []),
Mod =
case get_opt(mod, Opts, []) of
{M,_A}=MA when is_atom(M) -> MA;
[] -> [];
Other -> throw({error, {badstartspec, Other}})
end,
Phases = get_opt(start_phases, Opts, undefined),
Env = get_opt(env, Opts, []),
MaxP = get_opt(maxP, Opts, infinity),
MaxT = get_opt(maxT, Opts, infinity),
IncApps = get_opt(included_applications, Opts, []),
{#appl_data{name = Name, regs = Regs, mod = Mod, phases = Phases,
mods = Mods, inc_apps = IncApps, maxP = MaxP, maxT = MaxT},
Env, IncApps, Descr, Id, Vsn, Apps};
make_appl_i({application, Name, Opts}) when is_list(Opts) ->
throw({error,{invalid_name,Name}});
make_appl_i({application, _Name, Opts}) ->
throw({error,{invalid_options, Opts}});
make_appl_i(Appl) -> throw({error, {bad_application, Appl}}).
%%-----------------------------------------------------------------
%% Merge current applications with changes.
%%-----------------------------------------------------------------
%% do_change_apps(Applications, Config, OldAppls) -> NewAppls
%% Applications = [{application, AppName, [{Key,Value}]}]
%% Config = [{AppName,[{Par,Value}]} | File]
%% OldAppls = NewAppls = [#appl{}]
do_change_apps(Applications, Config, OldAppls) ->
%% OTP-4867
%% Config = contents of sys.config file
%% May now contain names of other .config files as well as
%% configuration parameters.
%% Therefore read and merge contents.
{ok, SysConfig, Errors} = check_conf_sys(Config),
%% Report errors, but do not terminate
%% (backwards compatible behaviour)
lists:foreach(fun({error, {SysFName, Line, Str}}) ->
Str2 = lists:flatten(io_lib:format("~tp: ~w: ~ts~n",
[SysFName, Line, Str])),
error_logger:format(Str2, [])
end,
Errors),
{map(fun(Appl) ->
AppName = Appl#appl.name,
case is_loaded_app(AppName, Applications) of
{true, Application} ->
do_change_appl(make_appl(Application),
Appl, SysConfig);
%% ignored removed apps - handled elsewhere
false ->
Appl
end
end, OldAppls),
SysConfig}.
is_loaded_app(AppName, [{application, AppName, App} | _]) ->
{true, {application, AppName, App}};
is_loaded_app(AppName, [_ | T]) -> is_loaded_app(AppName, T);
is_loaded_app(_AppName, []) -> false.
do_change_appl({ok, {ApplData, Env, IncApps, Descr, Id, Vsn, Apps}},
OldAppl, Config) ->
AppName = OldAppl#appl.name,
%% Merge application env with env from sys.config, if any
ConfEnv = get_opt(AppName, Config, []),
NewEnv1 = merge_app_env(Env, ConfEnv),
%% Merge application env with command line arguments, if any
CmdLineEnv = get_cmd_env(AppName),
NewEnv2 = merge_app_env(NewEnv1, CmdLineEnv),
%% included_apps is made into an env parameter as well
NewEnv3 = keyreplaceadd(included_applications, 1, NewEnv2,
{included_applications, IncApps}),
%% Update ets table with new application env
del_env(AppName),
add_env(AppName, NewEnv3),
OldAppl#appl{appl_data=ApplData,
descr=Descr,
id=Id,
vsn=Vsn,
inc_apps=IncApps,
apps=Apps};
do_change_appl({error, _R} = Error, _Appl, _ConfData) ->
throw(Error).
get_opt(Key, List, Default) ->
case lists:keyfind(Key, 1, List) of
{_Key, Val} -> Val;
_ -> Default
end.
get_cmd_env(Name) ->
case init:get_argument(Name) of
{ok, Args} ->
foldl(fun(List, Res) -> conv(List) ++ Res end, [], Args);
_ -> []
end.
conv([Key, Val | T]) ->
[{make_term(Key), make_term(Val)} | conv(T)];
conv(_) -> [].
make_term(Str) ->
case erl_scan:string(Str) of
{ok, Tokens, _} ->
case erl_parse:parse_term(Tokens ++ [{dot, 1}]) of
{ok, Term} ->
Term;
{error, {_,M,Reason}} ->
handle_make_term_error(M, Reason, Str)
end;
{error, {_,M,Reason}, _} ->
handle_make_term_error(M, Reason, Str)
end.
handle_make_term_error(Mod, Reason, Str) ->
error_logger:format("application_controller: ~ts: ~ts~n",
[Mod:format_error(Reason), Str]),
throw({error, {bad_environment_value, Str}}).
get_env_i(Name, #state{conf_data = ConfData}) when is_list(ConfData) ->
case lists:keyfind(Name, 1, ConfData) of
{_Name, Env} -> Env;
_ -> []
end;
get_env_i(_Name, _) -> [].
%% Merges envs for all apps. Env2 overrides Env1
merge_env(Env1, Env2) ->
merge_env(Env1, Env2, []).
merge_env([{App, AppEnv1} | T], Env2, Res) ->
case get_env_key(App, Env2) of
{value, AppEnv2, RestEnv2} ->
NewAppEnv = merge_app_env(AppEnv1, AppEnv2),
merge_env(T, RestEnv2, [{App, NewAppEnv} | Res]);
_ ->
merge_env(T, Env2, [{App, AppEnv1} | Res])
end;
merge_env([], Env2, Res) ->
Env2 ++ Res.
%% Changes the environment for the given application
%% If there is no application, an empty one is created
change_app_env(Env, App, Fun) ->
case get_env_key(App, Env) of
{value, AppEnv, RestEnv} ->
[{App, Fun(AppEnv)} | RestEnv];
_ ->
[{App, Fun([])} | Env]
end.
%% Merges envs for an application. Env2 overrides Env1
merge_app_env(Env1, Env2) ->
merge_app_env(Env1, Env2, []).
merge_app_env([{Key, Val} | T], Env2, Res) ->
case get_env_key(Key, Env2) of
{value, NewVal, RestEnv} ->
merge_app_env(T, RestEnv, [{Key, NewVal}|Res]);
_ ->
merge_app_env(T, Env2, [{Key, Val} | Res])
end;
merge_app_env([], Env2, Res) ->
Env2 ++ Res.
get_env_key(Key, Env) -> get_env_key(Env, Key, []).
get_env_key([{Key, Val} | T], Key, Res) ->
{value, Val, T ++ Res};
get_env_key([H | T], Key, Res) ->
get_env_key(T, Key, [H | Res]);
get_env_key([], _Key, Res) -> Res.
add_env(Name, Env) ->
foreach(fun({Key, Value}) ->
ets:insert(ac_tab, {{env, Name, Key}, Value})
end,
Env).
del_env(Name) ->
ets:match_delete(ac_tab, {{env, Name, '_'}, '_'}).
check_user() ->
case whereis(user) of
User when is_pid(User) -> group_leader(User, self());
_ -> ok
end.
%%-----------------------------------------------------------------
%% Prepare for a release upgrade by reading all the evironment variables.
%%-----------------------------------------------------------------
do_prep_config_change(Apps) ->
do_prep_config_change(Apps, []).
do_prep_config_change([], EnvBefore) ->
EnvBefore;
do_prep_config_change([{App, _Id} | Apps], EnvBefore) ->
Env = application:get_all_env(App),
do_prep_config_change(Apps, [{App, Env} | EnvBefore]).
%%-----------------------------------------------------------------
%% Inform all running applications about the changed configuration.
%%-----------------------------------------------------------------
do_config_change(Apps, EnvBefore) ->
do_config_change(Apps, EnvBefore, []).
do_config_change([], _EnvBefore, []) ->
ok;
do_config_change([], _EnvBefore, Errors) ->
{error, Errors};
do_config_change([{App, _Id} | Apps], EnvBefore, Errors) ->
AppEnvNow = lists:sort(application:get_all_env(App)),
AppEnvBefore = case lists:keyfind(App, 1, EnvBefore) of
false ->
[];
{App, AppEnvBeforeT} ->
lists:sort(AppEnvBeforeT)
end,
Res =
case AppEnvNow of
AppEnvBefore ->
ok;
_ ->
case do_config_diff(AppEnvNow, AppEnvBefore) of
{[], [], []} ->
ok;
{Changed, New, Removed} ->
case application:get_key(App, mod) of
{ok, {Mod, _Para}} ->
case catch Mod:config_change(Changed, New,
Removed) of
ok ->
ok;
%% It is not considered as an error
%% if the cb-function is not defined
{'EXIT', {undef, _}} ->
ok;
{error, _} = Error ->
Error;
Else ->
{error, Else}
end;
{ok, []} ->
{error, {module_not_defined, App}};
undefined ->
{error, {application_not_found, App}}
end
end
end,
case Res of
ok ->
do_config_change(Apps, EnvBefore, Errors);
{error, NewError} ->
do_config_change(Apps, EnvBefore,[NewError | Errors])
end.
%%-----------------------------------------------------------------
%% Check if the configuration is changed in anyway.
%%-----------------------------------------------------------------
do_config_diff(AppEnvNow, AppEnvBefore) ->
do_config_diff(AppEnvNow, AppEnvBefore, {[], []}).
do_config_diff([], AppEnvBefore, {Changed, New}) ->
Removed = lists:foldl(fun({Env, _Value}, Acc) -> [Env | Acc] end, [], AppEnvBefore),
{Changed, New, Removed};
do_config_diff(AppEnvNow, [], {Changed, New}) ->
{Changed, AppEnvNow++New, []};
do_config_diff([{Env, Value} | AppEnvNow], AppEnvBefore, {Changed, New}) ->
case lists:keyfind(Env, 1, AppEnvBefore) of
{Env, Value} ->
do_config_diff(AppEnvNow, lists:keydelete(Env,1,AppEnvBefore), {Changed, New});
{Env, _OtherValue} ->
do_config_diff(AppEnvNow, lists:keydelete(Env,1,AppEnvBefore),
{[{Env, Value} | Changed], New});
false ->
do_config_diff(AppEnvNow, AppEnvBefore, {Changed, [{Env, Value}|New]})
end.
%%-----------------------------------------------------------------
%% Read the .config files.
%%-----------------------------------------------------------------
check_conf() ->
case init:get_argument(config) of
{ok, Files} ->
{ok, lists:foldl(
fun([File], Env) ->
BFName = filename:basename(File,".config"),
FName = filename:join(filename:dirname(File),
BFName ++ ".config"),
case load_file(FName) of
{ok, NewEnv} ->
%% OTP-4867
%% sys.config may now contain names of
%% other .config files as well as
%% configuration parameters.
%% Therefore read and merge contents.
if
BFName =:= "sys" ->
{ok, SysEnv, Errors} =
check_conf_sys(NewEnv),
%% Report first error, if any, and
%% terminate
%% (backwards compatible behaviour)
case Errors of
[] ->
merge_env(Env, SysEnv);
[{error, {SysFName, Line, Str}}|_] ->
throw({error, {SysFName, Line, Str}})
end;
true ->
merge_env(Env, NewEnv)
end;
{error, {Line, _Mod, Str}} ->
throw({error, {FName, Line, Str}})
end
end, [], Files)};
_ -> {ok, []}
end.
check_conf_sys(Env) ->
check_conf_sys(Env, [], []).
check_conf_sys([File|T], SysEnv, Errors) when is_list(File) ->
BFName = filename:basename(File, ".config"),
FName = filename:join(filename:dirname(File), BFName ++ ".config"),
case load_file(FName) of
{ok, NewEnv} ->
check_conf_sys(T, merge_env(SysEnv, NewEnv), Errors);
{error, {Line, _Mod, Str}} ->
check_conf_sys(T, SysEnv, [{error, {FName, Line, Str}}|Errors])
end;
check_conf_sys([Tuple|T], SysEnv, Errors) ->
check_conf_sys(T, merge_env(SysEnv, [Tuple]), Errors);
check_conf_sys([], SysEnv, Errors) ->
{ok, SysEnv, lists:reverse(Errors)}.
load_file(File) ->
%% We can't use file:consult/1 here. Too bad.
case erl_prim_loader:get_file(File) of
{ok, Bin, _FileName} ->
%% Make sure that there is some whitespace at the end of the string
%% (so that reading a file with no NL following the "." will work).
case file_binary_to_list(Bin) of
{ok, String} ->
scan_file(String ++ " ");
error ->
{error, {none, scan_file, "bad encoding"}}
end;
error ->
{error, {none, open_file, "configuration file not found"}}
end.
scan_file(Str) ->
case erl_scan:tokens([], Str, 1) of
{done, {ok, Tokens, _}, Left} ->
case erl_parse:parse_term(Tokens) of
{ok,L}=Res when is_list(L) ->
case only_ws(Left) of
true ->
Res;
false ->
%% There was trailing garbage found after the list.
config_error()
end;
{ok,_} ->
%% Parsing succeeded but the result is not a list.
config_error();
Error ->
Error
end;
{done, Result, _} ->
{error, {none, parse_file, tuple_to_list(Result)}};
{more, _} ->
{error, {none, load_file, "no ending <dot> found"}}
end.
only_ws([C|Cs]) when C =< $\s -> only_ws(Cs);
only_ws([$%|Cs]) -> only_ws(strip_comment(Cs)); % handle comment
only_ws([_|_]) -> false;
only_ws([]) -> true.
strip_comment([$\n|Cs]) -> Cs;
strip_comment([_|Cs]) -> strip_comment(Cs);
strip_comment([]) -> [].
config_error() ->
{error,
{none, load_file,
"configuration file must contain ONE list ended by <dot>"}}.
%%-----------------------------------------------------------------
%% Info messages sent to error_logger
%%-----------------------------------------------------------------
info_started(Name, Node) ->
Rep = [{application, Name},
{started_at, Node}],
error_logger:info_report(progress, Rep).
info_exited(Name, Reason, Type) ->
Rep = [{application, Name},
{exited, Reason},
{type, Type}],
error_logger:info_report(Rep).
%%-----------------------------------------------------------------
%% Reply to all processes waiting this application to be started.
%%-----------------------------------------------------------------
reply_to_requester(AppName, Start_req, Res) ->
R = case Res of
{ok, _Id} ->
ok;
{info, Reason} ->
{error, Reason};
Error ->
Error
end,
lists:foldl(fun(Sp, AccIn) ->
case Sp of
{AppName, From} ->
reply(From, R),
AccIn;
_ ->
[Sp | AccIn]
end
end,
[],
Start_req).
%%-----------------------------------------------------------------
%% Update the environment variable permission for an application.
%%-----------------------------------------------------------------
update_permissions(AppName, Bool) ->
T = {env, kernel, permissions},
case ets:lookup(ac_tab, T) of
[] ->
ets:insert(ac_tab, {T, [{AppName, Bool}]});
[{_, Perm}] ->
Perm2 = lists:keydelete(AppName, 1, Perm),
ets:insert(ac_tab, {T, [{AppName, Bool}|Perm2]})
end.
%%-----------------------------------------------------------------
%% These functions are only to be used from testsuites.
%%-----------------------------------------------------------------
test_change_apps(Apps, Conf) ->
Res = test_make_apps(Apps, []),
test_do_change_appl(Apps, Conf, Res).
test_do_change_appl([], _, _) ->
ok;
test_do_change_appl([A|Apps], [], [R|Res]) ->
_ = do_change_appl(R, #appl{name = A}, []),
test_do_change_appl(Apps, [], Res);
test_do_change_appl([A|Apps], [C|Conf], [R|Res]) ->
_ = do_change_appl(R, #appl{name = A}, C),
test_do_change_appl(Apps, Conf, Res).
test_make_apps([], Res) ->
lists:reverse(Res);
test_make_apps([A|Apps], Res) ->
test_make_apps(Apps, [make_appl(A) | Res]).
file_binary_to_list(Bin) ->
Enc = case epp:read_encoding_from_binary(Bin) of
none -> epp:default_encoding();
Encoding -> Encoding
end,
case catch unicode:characters_to_list(Bin, Enc) of
String when is_list(String) ->
{ok, String};
_ ->
error
end.
%%-----------------------------------------------------------------
%% String conversion
%% Exit reason needs to be a printable string
%% (and of length <200, but init now does the chopping).
%%-----------------------------------------------------------------
-spec to_string(term()) -> string().
to_string(Term) ->
case io_lib:printable_list(Term) of
true ->
Term;
false ->
lists:flatten(io_lib:format("~134217728p", [Term]))
end.