%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1996-2010. 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%
%%
-module(snmpa_agent).
-include_lib("kernel/include/file.hrl").
-include("snmpa_internal.hrl").
-include("snmp_types.hrl").
-include("snmp_debug.hrl").
-include("snmp_verbosity.hrl").
-include("SNMP-FRAMEWORK-MIB.hrl").
%% External exports
-export([start_link/4, start_link/5, stop/1]).
-export([subagent_set/2,
load_mibs/2, unload_mibs/2, which_mibs/1, whereis_mib/2, info/1,
register_subagent/3, unregister_subagent/2,
send_trap/6, send_trap/7,
register_notification_filter/5,
unregister_notification_filter/2,
which_notification_filter/1,
get_net_if/1]).
-export([
discovery/6,
is_originating_discovery_enabled/0,
is_terminating_discovery_enabled/0,
terminating_discovery_stage2/0,
terminating_trigger_username/0
]).
-export([verbosity/2, dump_mibs/1, dump_mibs/2]).
-export([validate_err/3, make_value_a_correct_value/3,
do_get/3, do_get/4,
get/2, get/3, get_next/2, get_next/3]).
-export([mib_of/1, mib_of/2, me_of/1, me_of/2,
invalidate_mibs_cache/1,
which_mibs_cache_size/1,
enable_mibs_cache/1, disable_mibs_cache/1,
gc_mibs_cache/1, gc_mibs_cache/2, gc_mibs_cache/3,
enable_mibs_cache_autogc/1, disable_mibs_cache_autogc/1,
update_mibs_cache_age/2,
update_mibs_cache_gclimit/2]).
-export([get_agent_mib_storage/0, db/1,
backup/2]).
-export([get_log_type/1, set_log_type/2]).
-export([get_request_limit/1, set_request_limit/2]).
-export([invalidate_ca_cache/0]).
-export([increment_counter/3]).
-export([restart_worker/1, restart_set_worker/1]).
%% Internal exports
-export([init/1, handle_call/3, handle_cast/2, handle_info/2,
terminate/2, code_change/3, tr_var/2, tr_varbind/1,
handle_pdu/8, worker/2, worker_loop/1, do_send_trap/7]).
%% <BACKWARD-COMPAT>
-export([handle_pdu/7]).
%% </BACKWARD-COMPAT>
-ifndef(default_verbosity).
-define(default_verbosity,silence).
-endif.
-define(empty_pdu_size, 21).
-ifdef(snmp_extended_verbosity).
-define(vt(F,A), ?vtrace(F, A)).
-else.
-define(vt(_F, _A), ok).
-endif.
-define(DISCO_TERMINATING_TRIGGER_USERNAME, "").
-ifdef(snmp_debug).
-define(GS_START_LINK3(Prio, Parent, Ref, Opts),
gen_server:start_link(?MODULE, [Prio, Parent, Ref, Opts],
[{debug,[trace]}])).
-define(GS_START_LINK4(Prio, Name, Parent, Ref, Opts),
gen_server:start_link({local, Name}, ?MODULE,
[Prio, Parent, Ref, Opts],
[{debug,[trace]}])).
-else.
-define(GS_START_LINK3(Prio, Parent, Ref, Opts),
gen_server:start_link(?MODULE, [Prio, Parent, Ref, Opts],[])).
-define(GS_START_LINK4(Prio, Name, Parent, Ref, Opts),
gen_server:start_link({local, Name}, ?MODULE,
[Prio, Parent, Ref, Opts],[])).
-endif.
%% Increment this whenever a change is made to the worker interface
-define(WORKER_INTERFACE_VERSION, 1).
%% -- Utility macros for creating worker commands --
-define(mk_pdu_wreq(Vsn, Pdu, PduMS, ACMData, Address, GbMaxVBs, Extra),
#wrequest{cmd = handle_pdu,
info = [{vsn, Vsn},
{pdu, Pdu},
{pdu_ms, PduMS},
{acm_data, ACMData},
{addr, Address},
{gb_max_vbs, GbMaxVBs},
{extra, Extra}]}.
-define(mk_send_trap_wreq(TrapRec, NotifyName, ContextName,
Recv, Vbs, LocalEngineID),
#wrequest{cmd = send_trap,
info = [{trap_rec, TrapRec},
{notify_name, NotifyName},
{context_name, ContextName},
{receiver, Recv},
{varbinds, Vbs},
{local_engine_id, LocalEngineID}]}.
-define(mk_terminate_wreq(), #wrequest{cmd = terminate, info = []}).
-define(mk_verbosity_wreq(V), #wrequest{cmd = verbosity,
info = [{verbosity, V}]}).
-record(notification_filter, {id, mod, data}).
-record(disco,
{from, rec, sender, target, engine_id,
sec_level, ctx, ivbs, stage, handler, extra}).
%% This record is used when sending requests to the worker processes
-record(wrequest,
{
version = ?WORKER_INTERFACE_VERSION,
cmd,
info
}
).
%%-----------------------------------------------------------------
%% The agent is multi-threaded, i.e. each request is handled
%% by a separate process. However, in the normal case, there
%% is just one request handled at the time. In order to improve
%% performance, there is always two worker processes alive. They are
%% created at initialization time. There is always one worker
%% dedicated to SET-handling. When a get*-request is received,
%% it is sent to the worker, and the worker is marked as busy.
%% If a request is received when the worker is busy, a new temporary
%% worker is spawned.
%% Code change
%% ===========
%% Note that the worker(s) execute the same module as the master
%% agent. For code change we have two options - ignore the workers,
%% or send them a code change message.
%%-----------------------------------------------------------------
-record(state, {type,
parent,
worker,
worker_state = ready,
set_worker,
multi_threaded,
ref,
vsns,
nfilters = [],
note_store,
mib_server, %% Currently unused
net_if, %% Currently unused
net_if_mod,
backup,
disco,
mibs_cache_request,
gb_max_vbs}).
%%%-----------------------------------------------------------------
%%% This module implements the agent machinery; both for the master
%%% agent and the subagents.
%%%-----------------------------------------------------------------
%%% Table of contents
%%% =================
%%% 1. Interface
%%% 2. Main loop
%%% 3. GET REQUEST
%%% 4. GET-NEXT REQUEST
%%% 5. GET-BULK REQUEST
%%% 6. SET REQUEST
%%% 7. Misc functions
%%%-----------------------------------------------------------------
%%-----------------------------------------------------------------
%% Parent is a Pid (of master_agent) or none
%% Options is a list of Option, where Option is
%% {mibs, Mibs}
%% {net_if, NetIfModule}
%% {priority, Prio}
%% {verbosity, Verbosity}
%% {multi_threaded, Bool} true means that SETs are serialized,
%% while GETs are concurrent, even with a SET.
%% {set_mechanism, SetModule} % undocumented feature
%%
%% The following options are now removed - they are not needed
%% anymore when VACM is standard for authentication, and works
%% with all versions, and trap sending is standardized too.
%% {authentication_service, AuthModule} % undocumented feature
%% {trap_mechanism, TrapModule} % undocumented feature
%% Note: authentication_service is reintroduced for AXD301 (OTP-3324).
%%-----------------------------------------------------------------
start_link(Prio, Parent, Ref, Options) ->
?d("start_link -> entry with"
"~n Prio: ~p"
"~n Parent: ~p"
"~n Ref: ~p"
"~n Options: ~p", [Prio, Parent, Ref, Options]),
%% gen_server:start_link(?MODULE, [Prio, Parent, Ref, Options], []).
?GS_START_LINK3(Prio, Parent, Ref, Options).
start_link(Prio, Name, Parent, Ref, Options) ->
?d("start_link -> entry with"
"~n Prio: ~p"
"~n Name: ~p"
"~n Parent: ~p"
"~n Ref: ~p"
"~n Options: ~p", [Prio, Name, Parent, Ref, Options]),
% gen_server:start_link({local, Name}, ?MODULE,
% [Prio, Parent, Ref, Options], []).
?GS_START_LINK4(Prio, Name, Parent, Ref, Options).
stop(Agent) -> call(Agent, stop).
restart_worker(Agent) ->
call(Agent, restart_worker).
restart_set_worker(Agent) ->
call(Agent, restart_set_worker).
get_log_type(Agent) ->
call(Agent, get_log_type).
set_log_type(Agent, NewType) ->
call(Agent, {set_log_type, NewType}).
get_request_limit(Agent) ->
call(Agent, get_request_limit).
set_request_limit(Agent, NewLimit) ->
call(Agent, {set_request_limit, NewLimit}).
mib_of(Oid) when is_list(Oid) ->
mib_of(snmp_master_agent, Oid).
mib_of(Agent, Oid) when is_list(Oid) ->
call(Agent, {mib_of, Oid}).
me_of(Oid) when is_list(Oid) ->
me_of(snmp_master_agent, Oid).
me_of(Agent, Oid) when is_list(Oid) ->
call(Agent, {me_of, Oid}).
invalidate_mibs_cache(Agent) ->
call(Agent, {mibs_cache_request, invalidate_cache}).
gc_mibs_cache(Agent) ->
call(Agent, {mibs_cache_request, gc_cache}).
gc_mibs_cache(Agent, Age) ->
call(Agent, {mibs_cache_request, {gc_cache, Age}}).
gc_mibs_cache(Agent, Age, GcLimit) ->
call(Agent, {mibs_cache_request, {gc_cache, Age, GcLimit}}).
enable_mibs_cache(Agent) ->
call(Agent, {mibs_cache_request, enable_cache}).
disable_mibs_cache(Agent) ->
call(Agent, {mibs_cache_request, disable_cache}).
which_mibs_cache_size(Agent) ->
call(Agent, {mibs_cache_request, cache_size}).
enable_mibs_cache_autogc(Agent) ->
call(Agent, {mibs_cache_request, enable_autogc}).
disable_mibs_cache_autogc(Agent) ->
call(Agent, {mibs_cache_request, disable_autogc}).
update_mibs_cache_gclimit(Agent, GcLimit) ->
call(Agent, {mibs_cache_request, {update_gclimit, GcLimit}}).
update_mibs_cache_age(Agent, Age) ->
call(Agent, {mibs_cache_request, {update_age, Age}}).
increment_counter(Counter, Initial, Max) ->
%% This is to make sure no one else increments our counter
Key = {Counter, self()},
%% Counter data
Position = 2,
Increment = 1,
Threshold = Max,
SetValue = Initial,
UpdateOp = {Position, Increment, Threshold, SetValue},
%% And now for the actual increment
Tab = snmp_agent_table,
case (catch ets:update_counter(Tab, Key, UpdateOp)) of
{'EXIT', {badarg, _}} ->
%% Oups, first time
ets:insert(Tab, {Key, Initial}),
Initial;
Next when is_integer(Next) ->
Next
end.
init([Prio, Parent, Ref, Options]) ->
?d("init -> entry with"
"~n Prio: ~p"
"~n Parent: ~p"
"~n Ref: ~p"
"~n Options: ~p", [Prio, Parent, Ref, Options]),
case (catch do_init(Prio, Parent, Ref, Options)) of
{ok, State} ->
?vdebug("started",[]),
{ok, State};
{error, Reason} ->
config_err("failed starting agent: ~n~p", [Reason]),
{stop, Reason}
end.
do_init(Prio, Parent, Ref, Options) ->
process_flag(priority, Prio),
put(sname,short_name(Parent)),
put(verbosity,get_verbosity(Options)),
?vlog("starting with: "
"~n Prio: ~p"
"~n Parent: ~p"
"~n Ref: ~p"
"~n Options: ~p",[Prio, Parent, Ref, Options]),
Mibs = get_mibs(Options),
SetModule = get_set_mechanism(Options),
put(set_module, SetModule),
%% OTP-3324. For AXD301.
AuthModule = get_authentication_service(Options),
put(auth_module, AuthModule),
MultiT = get_multi_threaded(Options),
Vsns = get_versions(Options),
GbMaxVbs = get_gb_max_vbs(Options),
NS = start_note_store(Prio, Ref, Options),
{Type, NetIfPid, NetIfMod} =
start_net_if(Parent, Prio, Ref, Vsns, NS, Options),
MibPid = start_mib_server(Prio, Ref, Mibs, Options),
put(net_if, NetIfPid),
put(mibserver, MibPid),
process_flag(trap_exit, true),
{Worker, SetWorker} = workers_start(MultiT),
{ok, #state{type = Type,
parent = Parent,
worker = Worker,
set_worker = SetWorker,
multi_threaded = MultiT,
ref = Ref,
vsns = Vsns,
note_store = NS,
net_if_mod = NetIfMod,
gb_max_vbs = GbMaxVbs}}.
start_note_store(Prio, Ref, Options) ->
?vdebug("start_note_store -> with Prio: ~p", [Prio]),
NsOpts = get_note_store_opt(Options),
?vtrace("start_note_store -> NsOpts: ~p", [NsOpts]),
case (catch snmpa_misc_sup:start_note_store(Prio, Ref, NsOpts)) of
{ok, Pid} ->
?vdebug("start_note_store -> Pid: ~p", [Pid]),
Pid;
{error, Reason} ->
?vinfo("error starting note store: ~n~p",[Reason]),
throw({error, {note_store_error, Reason}});
{'EXIT', Reason} ->
?vinfo("exit starting note store: ~n~p",[Reason]),
throw({error, {note_store_exit, Reason}});
Error ->
?vinfo("failed starting note store: ~n~p",[Error]),
throw({error, {note_store_failed, Error}})
end.
start_net_if(none, Prio, Ref, Vsns, NoteStore, Options) ->
?vdebug("start_net_if(none) -> with Prio: ~p", [Prio]),
NetIfOpts = get_net_if_opt(Options),
Verbosity = get_net_if_verbosity(NetIfOpts),
Mod = get_net_if_module(NetIfOpts),
NiOptions = get_net_if_options(NetIfOpts),
NiOpts = [{versions, Vsns},
{verbosity, Verbosity} | NiOptions],
?vtrace("start_net_if -> "
"~n Mod: ~p"
"~n NiOpts: ~p",[Mod, NiOpts]),
case (catch snmpa_misc_sup:start_net_if(Prio, NoteStore, Ref, self(),
Mod, NiOpts)) of
{ok, Pid} ->
?vdebug("start_net_if -> Pid: ~p", [Pid]),
{master_agent, Pid, Mod};
{error, Reason} ->
?vinfo("error starting net if: ~n~p",[Reason]),
throw({error, {net_if_error, Reason}});
{'EXIT', Reason} ->
?vinfo("exit starting net if: ~n~p",[Reason]),
throw({error, {net_if_exit, Reason}});
Error ->
?vinfo("failed starting net if: ~n~p",[Error]),
throw({error, {net_if_failed, Error}})
end;
start_net_if(Parent, _Prio, _Ref, _Vsns, _NoteStore, _Options)
when is_pid(Parent) ->
?vdebug("start_net_if(~p) -> subagent => ignore", [Parent]),
{subagent, undefined, undefined}.
start_mib_server(Prio, Ref, Mibs, Options) ->
?vdebug("start_mib_server -> with Prio: ~p", [Prio]),
MibStorage = get_mib_storage(Options),
MibsOpts = [{mib_storage, MibStorage} |
get_option(mib_server, Options, [])],
?vtrace("start_mib_server -> "
"~n Mibs: ~p"
"~n MibsOpts: ~p", [Mibs, MibsOpts]),
case (catch snmpa_misc_sup:start_mib_server(Prio, Ref, Mibs, MibsOpts)) of
{ok, Pid} ->
?vdebug("start_mib_server -> Pid: ~p", [Pid]),
Pid;
{error, Reason} ->
?vinfo("error starting mib server: ~n~p",[Reason]),
throw({error, {mib_server_error, Reason}});
{'EXIT', Reason} ->
?vinfo("exit starting mib server: ~n~p",[Reason]),
throw({error, {mib_server_exit, Reason}});
Error ->
?vinfo("failed starting mib server: ~n~p",[Error]),
throw({error, {mib_server_failed, Error}})
end.
%%-----------------------------------------------------------------
%% Purpose: We must calculate the length of an empty Pdu. This
%% length is used to calculate the max pdu size allowed
%% for each get-bulk-request. This size is
%% dependent on the varbinds. It is calculated
%% as EmptySize + 8. 8 comes from the fact that the
%% maximum pdu size needs 31 bits which needs 5 * 7 bits to be
%% expressed. One 7bit octet is already present in the
%% empty pdu, leaving 4 more 7bit octets. The length is
%% repeated twice, once for the varbinds, and once for the
%% entire pdu; 2 * 4 = 8.
%% Actually, this function is not used, we use a constant instead.
%%-----------------------------------------------------------------
%% Ret: 21
%% empty_pdu() ->
%% Pdu = #pdu{type = 'get-response',
%% request_id = 1,
%% error_status = noError,
%% error_index = 0,
%% varbinds = []},
%% length(snmp_pdus:enc_pdu(Pdu)) + 8.
%%%--------------------------------------------------
%%% 1. Interface
%%%--------------------------------------------------
%% Called by administrator (not subagent; deadlock could occur)
register_subagent(Agent, SubTreeOid, SubagentPid) ->
call(Agent, {register_subagent, SubTreeOid, SubagentPid}).
%% Called by administrator (not subagent; deadlock could occur)
unregister_subagent(Agent, SubagentOidOrPid) ->
call(Agent, {unregister_subagent, SubagentOidOrPid}).
%%-----------------------------------------------------------------
%% These subagent_ functions either return a value, or exits
%% with {nodedown, Node} | Reason.
%%-----------------------------------------------------------------
subagent_get(SubAgent, Varbinds, IsNotification) ->
PduData = get_pdu_data(),
call(SubAgent, {subagent_get, Varbinds, PduData, IsNotification}).
subagent_get_next(SubAgent, MibView, Varbinds) ->
PduData = get_pdu_data(),
call(SubAgent, {subagent_get_next, MibView, Varbinds, PduData}).
subagent_set(SubAgent, Arguments) ->
PduData = get_pdu_data(),
call(SubAgent, {subagent_set, Arguments, PduData}).
%% Called by administrator (not agent; deadlock would occur)
load_mibs(Agent, Mibs) ->
call(Agent, {load_mibs, Mibs}).
%% Called by administrator (not agent; deadlock would occur)
unload_mibs(Agent, Mibs) ->
call(Agent, {unload_mibs, Mibs}).
which_mibs(Agent) ->
call(Agent, which_mibs).
whereis_mib(Agent, Mib) ->
call(Agent, {whereis_mib, Mib}).
info(Agent) ->
call(Agent, info).
get_net_if(Agent) ->
call(Agent, get_net_if).
register_notification_filter(Agent, Id, Mod, Args, Where)
when (Where =:= first) orelse (Where =:= last) ->
case (catch verify_notification_filter_behaviour(Mod)) of
ok ->
call(Agent, {register_notification_filter, Id, Mod, Args, Where});
Error ->
Error
end;
register_notification_filter(Agent, Id, Mod, Args, {Loc, _Id} = Where)
when (Loc =:= insert_before) orelse (Loc =:= insert_after) ->
case (catch verify_notification_filter_behaviour(Mod)) of
ok ->
call(Agent, {register_notification_filter, Id, Mod, Args, Where});
Error ->
Error
end.
verify_notification_filter_behaviour(Mod) ->
snmp_misc:verify_behaviour(snmpa_notification_filter, Mod).
unregister_notification_filter(Agent, Id) ->
call(Agent, {unregister_notification_filter, Id}).
which_notification_filter(Agent) ->
call(Agent, which_notification_filter).
send_trap(Agent, Trap, NotifyName, CtxName, Recv, Varbinds) ->
?d("send_trap -> entry with"
"~n self(): ~p"
"~n Agent: ~p [~p]"
"~n Trap: ~p"
"~n NotifyName: ~p"
"~n CtxName: ~p"
"~n Recv: ~p"
"~n Varbinds: ~p",
[self(), Agent, wis(Agent),
Trap, NotifyName, CtxName, Recv, Varbinds]),
Msg = {send_trap, Trap, NotifyName, CtxName, Recv, Varbinds},
case (wis(Agent) =:= self()) of
false ->
call(Agent, Msg);
true ->
Agent ! Msg
end.
send_trap(Agent, Trap, NotifyName, CtxName, Recv, Varbinds, LocalEngineID) ->
?d("send_trap -> entry with"
"~n self(): ~p"
"~n Agent: ~p [~p]"
"~n Trap: ~p"
"~n NotifyName: ~p"
"~n CtxName: ~p"
"~n Recv: ~p"
"~n Varbinds: ~p"
"~n LocalEngineID: ~p",
[self(), Agent, wis(Agent),
Trap, NotifyName, CtxName, Recv, Varbinds, LocalEngineID]),
Msg =
{send_trap, Trap, NotifyName, CtxName, Recv, Varbinds, LocalEngineID},
case (wis(Agent) =:= self()) of
false ->
call(Agent, Msg);
true ->
Agent ! Msg
end.
%% -- Discovery functions --
disco_opts() ->
case ets:lookup(snmp_agent_table, discovery) of
[] ->
[];
[{discovery, DiscoOptions}] ->
DiscoOptions
end.
originating_disco_opts() ->
DiscoOpts = disco_opts(),
case lists:keysearch(originating, 1, DiscoOpts) of
{value, {originating, OrigDisco}} ->
OrigDisco;
_ ->
[]
end.
is_originating_discovery_enabled() ->
OrigDisco = originating_disco_opts(),
case lists:keysearch(enable, 1, OrigDisco) of
{value, {enable, false}} ->
false;
_ ->
true
end.
terminating_disco_opts() ->
DiscoOpts = disco_opts(),
case lists:keysearch(terminating, 1, DiscoOpts) of
{value, {terminating, TermDisco}} ->
TermDisco;
_ ->
[]
end.
is_terminating_discovery_enabled() ->
TermDisco = terminating_disco_opts(),
case lists:keysearch(enable, 1, TermDisco) of
{value, {enable, false}} ->
false;
_ ->
true
end.
terminating_discovery_stage2() ->
Default = discovery,
TermDisco = terminating_disco_opts(),
case lists:keysearch(stage2, 1, TermDisco) of
{value, {stage2, Stage2}} when ((Stage2 =:= discovery) orelse (Stage2 =:= plain)) ->
Stage2;
_ ->
Default
end.
terminating_trigger_username() ->
Default = ?DISCO_TERMINATING_TRIGGER_USERNAME,
TermDisco = terminating_disco_opts(),
case lists:keysearch(trigger_username, 1, TermDisco) of
{value, {trigger_username, Trigger}} when is_list(Trigger) ->
Trigger;
_ ->
Default
end.
discovery(TargetName, Notification, ContextName, Varbinds,
DiscoHandler, ExtraInfo) ->
case is_originating_discovery_enabled() of
true ->
Agent = snmp_master_agent,
call(Agent,
{discovery,
TargetName, Notification, ContextName, Varbinds,
DiscoHandler, ExtraInfo});
false ->
{error, not_enabled}
end.
wis(Pid) when is_pid(Pid) ->
Pid;
wis(Atom) when is_atom(Atom) ->
whereis(Atom).
forward_trap(Agent, TrapRecord, NotifyName, CtxName, Recv, Varbinds) ->
Agent ! {forward_trap, TrapRecord, NotifyName, CtxName, Recv, Varbinds}.
%%-----------------------------------------------------------------
%% Args: Vars = [Oid]
%% Returns: [Value]
%% Called from a program to get variables. Don't call this from
%% an instrumentation function; deadlock can occur!
%%-----------------------------------------------------------------
get(Agent, Vars) ->
call(Agent, {get, Vars, ""}).
get(Agent, Vars, Context) ->
call(Agent, {get, Vars, Context}).
get_next(Agent, Vars) ->
call(Agent, {get_next, Vars, ""}).
get_next(Agent, Vars, Context) ->
call(Agent, {get_next, Vars, Context}).
%%-----------------------------------------------------------------
backup(Agent, BackupDir) when is_list(BackupDir) ->
call(Agent, {backup, BackupDir}).
%%-----------------------------------------------------------------
%% Runtime debug support.
%%-----------------------------------------------------------------
dump_mibs(Agent) ->
call(Agent, dump_mibs).
dump_mibs(Agent, File) when is_list(File) ->
call(Agent, {dump_mibs, File}).
%%-----------------------------------------------------------------
%% Runtime debug (verbosity) support.
%%-----------------------------------------------------------------
verbosity(net_if,Verbosity) ->
cast(snmp_master_agent,{net_if_verbosity,Verbosity});
verbosity(mib_server,Verbosity) ->
cast(snmp_master_agent,{mib_server_verbosity,Verbosity});
verbosity(note_store,Verbosity) ->
cast(snmp_master_agent,{note_store_verbosity,Verbosity});
verbosity(sub_agents,Verbosity) ->
cast(snmp_master_agent,{sub_agents_verbosity,Verbosity});
verbosity(master_agent,Verbosity) ->
cast(snmp_master_agent,{verbosity,Verbosity});
verbosity(Agent,{sub_agents,Verbosity}) ->
cast(Agent,{sub_agents_verbosity,Verbosity});
verbosity(Agent,Verbosity) ->
cast(Agent,{verbosity,Verbosity}).
%%%--------------------------------------------------
get_agent_mib_storage() ->
ets:lookup_element(snmp_agent_table, agent_mib_storage, 2).
db(Tab) ->
{Tab, get_agent_mib_storage()}.
%%%--------------------------------------------------
%%% 2. Main loop
%%%--------------------------------------------------
%% gen_server:reply(From, Reply)
handle_info({discovery_response, Response}, S) ->
?vdebug("handle_info(discovery_response) -> entry with"
"~n Response: ~p", [Response]),
NewS = handle_discovery_response(S, Response),
{noreply, NewS};
handle_info({snmp_pdu, Vsn, Pdu, PduMS, ACMData, Address, Extra}, S) ->
?vdebug("handle_info(snmp_pdu) -> entry with"
"~n Vsn: ~p"
"~n Pdu: ~p"
"~n Address: ~p"
"~n Extra: ~p", [Vsn, Pdu, Address, Extra]),
NewS = handle_snmp_pdu(is_valid_pdu_type(Pdu#pdu.type),
Vsn, Pdu, PduMS, ACMData, Address, Extra, S),
{noreply, NewS};
handle_info(worker_available, S) ->
?vdebug("worker available",[]),
{noreply, S#state{worker_state = ready}};
handle_info({send_trap, Trap, NotifyName, ContextName, Recv, Varbinds}, S) ->
?vlog("[handle_info] send trap request:"
"~n Trap: ~p"
"~n NotifyName: ~p"
"~n ContextName: ~p"
"~n Recv: ~p"
"~n Varbinds: ~p",
[Trap, NotifyName, ContextName, Recv, Varbinds]),
LocalEngineID = ?DEFAULT_LOCAL_ENGINE_ID,
case catch handle_send_trap(S, Trap, NotifyName, ContextName,
Recv, Varbinds, LocalEngineID) of
{ok, NewS} ->
{noreply, NewS};
{'EXIT', R} ->
?vinfo("Trap not sent:~n ~p", [R]),
{noreply, S};
_ ->
{noreply, S}
end;
handle_info({send_trap, Trap, NotifyName, ContextName, Recv, Varbinds,
LocalEngineID}, S) ->
?vlog("[handle_info] send trap request:"
"~n Trap: ~p"
"~n NotifyName: ~p"
"~n ContextName: ~p"
"~n Recv: ~p"
"~n Varbinds: ~p"
"~n LocalEngineID: ~p",
[Trap, NotifyName, ContextName, Recv, Varbinds, LocalEngineID]),
case catch handle_send_trap(S, Trap, NotifyName, ContextName,
Recv, Varbinds, LocalEngineID) of
{ok, NewS} ->
{noreply, NewS};
{'EXIT', R} ->
?vinfo("Trap not sent:~n ~p", [R]),
{noreply, S};
_ ->
{noreply, S}
end;
handle_info({forward_trap, TrapRecord, NotifyName, ContextName,
Recv, Varbinds}, S) ->
?vlog("[handle_info] forward trap request:"
"~n TrapRecord: ~p"
"~n NotifyName: ~p"
"~n ContextName: ~p"
"~n Recv: ~p"
"~n Varbinds: ~p",
[TrapRecord, NotifyName, ContextName, Recv, Varbinds]),
LocalEngineID = ?DEFAULT_LOCAL_ENGINE_ID,
case (catch maybe_send_trap(S, TrapRecord, NotifyName, ContextName,
Recv, Varbinds, LocalEngineID)) of
{ok, NewS} ->
{noreply, NewS};
{'EXIT', R} ->
?vinfo("Trap not sent:~n ~p", [R]),
{noreply, S};
_ ->
{noreply, S}
end;
handle_info({backup_done, Reply}, #state{backup = {_, From}} = S) ->
?vlog("[handle_info] backup done:"
"~n Reply: ~p", [Reply]),
gen_server:reply(From, Reply),
{noreply, S#state{backup = undefined}};
handle_info(invalidate_ca_cache, S) ->
invalidate_ca_cache(),
{noreply, S};
%%-----------------------------------------------------------------
%% If a process crashes, we first check to see if it was the mib,
%% net-if or note-store.
%% Otherwise, we check to see if it was a subagent. In this case
%% we unregister the sa, and unlink us from the sa.
%%-----------------------------------------------------------------
handle_info({'EXIT', Pid, Reason}, #state{note_store = Pid} = S) ->
?vlog("note store (~p) exited for reason ~n~p", [Pid, Reason]),
error_msg("note-store exited: ~n~p", [Reason]),
{stop, {note_store_exit, Reason}, S#state{note_store = undefined}};
handle_info({'EXIT', Pid, Reason}, #state{worker = Pid} = S) ->
?vlog("worker (~p) exited -> create new ~n ~p", [Pid, Reason]),
NewWorker = worker_start(),
{noreply, S#state{worker = NewWorker}};
handle_info({'EXIT', Pid, Reason}, #state{set_worker = Pid} = S) ->
?vlog("set-worker (~p) exited -> create new ~n ~p", [Pid,Reason]),
NewWorker = set_worker_start(),
{noreply, S#state{set_worker = NewWorker}};
handle_info({'EXIT', Pid, Reason}, #state{parent = Pid} = S) ->
?vlog("parent (~p) exited for reason ~n~p", [Pid,Reason]),
{stop, {parent_died, Reason}, S};
handle_info({'EXIT', Pid, Reason}, #state{backup = {Pid, From}} = S) ->
?vlog("backup server (~p) exited for reason ~n~p", [Pid, Reason]),
case Reason of
normal ->
{noreply, S};
_ ->
gen_server:reply(From, {error, Reason}),
{noreply, S#state{backup = undefined}}
end;
handle_info({'EXIT', Pid, Reason}, S) ->
?vlog("~p exited for reason ~p", [Pid, Reason]),
Mib = get(mibserver),
NetIf = get(net_if),
case Pid of
Mib ->
error_msg("mib-server exited: ~n~p", [Reason]),
{stop, {mib_server_exit, Reason}, S};
NetIf ->
error_msg("net-if exited: ~n~p", [Reason]),
{stop, {net_if_exit, Reason}, S};
_ ->
%% Could be a sub-agent
SAs = snmpa_mib:info(Mib, subagents),
case lists:keysearch(Pid, 1, SAs) of
{value, _} ->
?vlog("subagent exit", []),
snmpa_mib:unregister_subagent(Mib, Pid),
unlink(Pid);
_ ->
%% Otherwise it was probably a worker thread - ignore
ok
end,
{noreply, S}
end;
handle_info({'DOWN', Ref, process, Pid, {mibs_cache_reply, Reply}},
#state{mibs_cache_request = {Pid, Ref, From}} = S) ->
?vlog("reply from the mibs cache request handler (~p): ~n~p",
[Pid, Reply]),
gen_server:reply(From, Reply),
{noreply, S#state{mibs_cache_request = undefined}};
handle_info(Info, S) ->
warning_msg("received unexpected info: ~n~p", [Info]),
{noreply, S}.
handle_call(restart_worker, _From, #state{worker = Pid} = S) ->
if
is_pid(Pid) ->
?vlog("[handle_call] restart worker ~p", [Pid]),
exit(Pid, kill);
true ->
?vlog("[handle_call] not multi-threaded => "
"ignoring restart request", []),
ok
end,
{reply, ok, S};
handle_call(restart_set_worker, _From, #state{set_worker = Pid} = S) ->
if
is_pid(Pid) ->
?vlog("[handle_call] restart set worker: ~p", [Pid]),
exit(Pid, kill);
true ->
?vlog("[handle_call] not multi-threaded => "
"ignoring restart request", []),
ok
end,
{reply, ok, S};
handle_call({send_trap, Trap, NotifyName, ContextName, Recv, Varbinds},
_From, S) ->
?vlog("[handle_call] send trap request:"
"~n Trap: ~p"
"~n NotifyName: ~p"
"~n ContextName: ~p"
"~n Recv: ~p"
"~n Varbinds: ~p",
[Trap, NotifyName, ContextName, Recv, Varbinds]),
LocalEngineID =
case S#state.type of
master_agent ->
?DEFAULT_LOCAL_ENGINE_ID;
_ ->
%% subagent -
%% we don't need this, eventually the trap sent request
%% will reach the master-agent and then it will look up
%% the proper engine id.
ignore
end,
case (catch handle_send_trap(S, Trap, NotifyName, ContextName,
Recv, Varbinds, LocalEngineID)) of
{ok, NewS} ->
{reply, ok, NewS};
{'EXIT', Reason} ->
?vinfo("Trap not sent:~n ~p", [Reason]),
{reply, {error, {send_failed, Reason}}, S};
_ ->
?vinfo("Trap not sent", []),
{reply, {error, send_failed}, S}
end;
handle_call({send_trap, Trap, NotifyName,
ContextName, Recv, Varbinds, LocalEngineID},
_From, S) ->
?vlog("[handle_call] send trap request:"
"~n Trap: ~p"
"~n NotifyName: ~p"
"~n ContextName: ~p"
"~n Recv: ~p"
"~n Varbinds: ~p"
"~n LocalEngineID: ~p",
[Trap, NotifyName, ContextName, Recv, Varbinds, LocalEngineID]),
case (catch handle_send_trap(S, Trap, NotifyName, ContextName,
Recv, Varbinds, LocalEngineID)) of
{ok, NewS} ->
{reply, ok, NewS};
{'EXIT', Reason} ->
?vinfo("Trap not sent:~n ~p", [Reason]),
{reply, {error, {send_failed, Reason}}, S};
_ ->
?vinfo("Trap not sent", []),
{reply, {error, send_failed}, S}
end;
handle_call({discovery,
TargetName, Notification, ContextName, Vbs, DiscoHandler,
ExtraInfo},
From,
#state{disco = undefined} = S) ->
?vlog("[handle_call] initiate discovery process:"
"~n TargetName: ~p"
"~n Notification: ~p"
"~n ContextName: ~p"
"~n Vbs: ~p"
"~n DiscoHandler: ~p"
"~n ExtraInfo: ~p",
[TargetName, Notification, ContextName, Vbs,
DiscoHandler, ExtraInfo]),
case handle_discovery(S, From, TargetName,
Notification, ContextName, Vbs, DiscoHandler,
ExtraInfo) of
{ok, NewS} ->
?vtrace("[handle_call] first stage of discovery process initiated",
[]),
{noreply, NewS};
{error, _} = Error ->
{reply, Error, S}
end;
handle_call({discovery, _TargetName, _Notification, _ContextName, _Vbs, _DiscoHandler, _ExtraInfo}, _From,
#state{disco = DiscoData} = S) ->
Reply = {error, {discovery_in_progress, DiscoData}},
{reply, Reply, S};
handle_call({subagent_get, Varbinds, PduData, IsNotification}, _From, S) ->
?vlog("[handle_call] subagent get:"
"~n Varbinds: ~p"
"~n PduData: ~p",
[Varbinds,PduData]),
put_pdu_data(PduData),
{reply, do_get(Varbinds, IsNotification), S};
handle_call({subagent_get_next, MibView, Varbinds, PduData}, _From, S) ->
?vlog("[handle_call] subagent get-next:"
"~n MibView: ~p"
"~n Varbinds: ~p"
"~n PduData: ~p",
[MibView,Varbinds,PduData]),
put_pdu_data(PduData),
{reply, do_get_next(MibView, Varbinds, infinity), S};
handle_call({subagent_set, Arguments, PduData}, _From, S) ->
?vlog("[handle_call] subagent set:"
"~n Arguments: ~p"
"~n PduData: ~p",
[Arguments,PduData]),
put_pdu_data(PduData),
{reply, do_subagent_set(Arguments), S};
handle_call({get, Vars, Context}, _From, S) ->
?vlog("[handle_call] get:"
"~n Vars: ~p"
"~n Context: ~p", [Vars, Context]),
put_pdu_data({undefined, undefined, undefined, undefined, Context}),
case catch mapfoldl({?MODULE, tr_var}, [], 1, Vars) of
{error, Reason} -> {reply, {error, Reason}, S};
{_, Varbinds} ->
?vdebug("Varbinds: ~p",[Varbinds]),
Reply =
case do_get(Varbinds, false) of
{noError, 0, NewVarbinds} ->
Vbs = lists:keysort(#varbind.org_index, NewVarbinds),
[Value || #varbind{value = Value} <- Vbs];
{ErrorStatus, ErrIndex, _} ->
N = lists:nth(ErrIndex, Vars),
{error, {ErrorStatus, N}}
end,
{reply, Reply, S}
end;
handle_call({get_next, Vars, Context}, _From, S) ->
?vlog("[handle_call] get_next:"
"~n Vars: ~p"
"~n Context: ~p",[Vars, Context]),
put_pdu_data({undefined, undefined, undefined, undefined, Context}),
case catch mapfoldl({?MODULE, tr_var}, [], 1, Vars) of
{error, Reason} -> {reply, {error, Reason}, S};
{_, Varbinds} ->
?vdebug("Varbinds: ~p",[Varbinds]),
MibView = snmpa_acm:get_root_mib_view(),
Reply =
case do_get_next(MibView, Varbinds, infinity) of
{noError, 0, NewVarbinds} ->
Vbs = lists:keysort(#varbind.org_index, NewVarbinds),
[{Oid,Val} || #varbind{oid = Oid, value = Val} <- Vbs];
{ErrorStatus, ErrIndex, _} ->
N = lists:nth(ErrIndex, Vars),
{error, {ErrorStatus, N}}
end,
{reply, Reply, S}
end;
handle_call({do_get, MibView, UnsortedVarbinds, IsNotification, PduData},
_From, S) ->
?vlog("[handle_call] do_get:"
"~n MibView: ~p"
"~n UnsortedVarbinds: ~p"
"~n IsNotification: ~p"
"~n PduData: ~p",
[MibView, UnsortedVarbinds, IsNotification, PduData]),
put_pdu_data(PduData),
Reply = do_get(MibView, UnsortedVarbinds, IsNotification),
{reply, Reply, S};
handle_call({register_subagent, SubTreeOid, SubagentPid}, _From, S) ->
Reply =
case snmpa_mib:register_subagent(get(mibserver),
SubTreeOid, SubagentPid) of
ok -> link(SubagentPid), ok;
Error -> Error
end,
{reply, Reply, S};
handle_call({unregister_subagent, SubagentPid}, _From, S)
when is_pid(SubagentPid) ->
?vlog("[handle_call] unregister subagent ~p", [SubagentPid]),
Reply = snmpa_mib:unregister_subagent(get(mibserver), SubagentPid),
unlink(SubagentPid),
{reply, Reply, S};
handle_call({unregister_subagent, SubTreeOid}, _From, S) ->
?vlog("[handle_call] unregister subagent ~p", [SubTreeOid]),
Reply =
case snmpa_mib:unregister_subagent(get(mibserver), SubTreeOid) of
{ok, DeletedSubagentPid} ->
SAs = snmpa_mib:info(get(mibserver), subagents),
case lists:keysearch(DeletedSubagentPid, 1, SAs) of
{value, _} -> ok;
_ -> unlink(DeletedSubagentPid)
end,
ok;
Error ->
Error
end,
{reply, Reply, S};
handle_call({load_mibs, Mibs}, _From, S) ->
?vlog("load mibs ~p", [Mibs]),
{reply, snmpa_mib:load_mibs(get(mibserver), Mibs), S};
handle_call({unload_mibs, Mibs}, _From, S) ->
?vlog("unload mibs ~p", [Mibs]),
{reply, snmpa_mib:unload_mibs(get(mibserver), Mibs), S};
handle_call(which_mibs, _From, S) ->
?vlog("which mibs", []),
{reply, snmpa_mib:which_mibs(get(mibserver)), S};
handle_call({whereis_mib, Mib}, _From, S) ->
?vlog("whereis mib ~p", [Mib]),
{reply, snmpa_mib:whereis_mib(get(mibserver), Mib), S};
handle_call({mibs_cache_request, MibsCacheReq}, From, S) ->
?vlog("mibs_cache_request: ~p", [MibsCacheReq]),
{MibsCacheWorker, Ref} =
handle_mibs_cache_request(get(mibserver), MibsCacheReq),
NewS = S#state{mibs_cache_request = {MibsCacheWorker, Ref, From}},
{noreply, NewS};
handle_call(info, _From, S) ->
?vlog("info", []),
Vsns = S#state.vsns,
Stats = get_stats_counters(),
AI = agent_info(S),
NI = net_if_info(S),
NS = note_store_info(S),
SS = symbolic_store_info(),
LD = local_db_info(),
MS = mib_server_info(),
Info = [{vsns, Vsns},
{stats_counters, Stats},
{agent, AI},
{net_if, NI},
{note_store, NS},
{symbolic_store, SS},
{local_db, LD},
{mib_server, MS}],
{reply, Info, S};
handle_call(get_net_if, _From, S) ->
{reply, get(net_if), S};
handle_call({backup, BackupDir}, From, S) ->
?vlog("backup: ~p", [BackupDir]),
Pid = self(),
V = get(verbosity),
MS = get(mibserver),
BackupServer =
erlang:spawn_link(
fun() ->
put(sname, abs),
put(verbosity, V),
Dir = filename:join([BackupDir]),
Reply = handle_backup(Dir, MS),
Pid ! {backup_done, Reply},
unlink(Pid)
end),
?vtrace("backup server: ~p", [BackupServer]),
{noreply, S#state{backup = {BackupServer, From}}};
handle_call(dump_mibs, _From, S) ->
Reply = snmpa_mib:dump(get(mibserver)),
{reply, Reply, S};
handle_call({dump_mibs,File}, _From, S) ->
Reply = snmpa_mib:dump(get(mibserver),File),
{reply, Reply, S};
handle_call({register_notification_filter, Id, Mod, Data, Where}, _From,
#state{nfilters = NFs} = S) ->
?vlog("register_notification_filter -> "
"~n Id: ~p"
"~n Mod: ~p"
"~n Where: ~p", [Id, Mod, Where]),
case lists:keymember(Id, 2, NFs) of
true ->
{reply, {error, {already_registered, Id}}, S};
false ->
NF = #notification_filter{id = Id, mod = Mod, data = Data},
{Reply, NewNFs} = add_notification_filter(Where, NF, NFs),
{reply, Reply, S#state{nfilters = NewNFs}}
end;
handle_call({unregister_notification_filter, Id}, _From,
#state{nfilters = NFs} = S) ->
?vlog("unregister_notification_filter -> "
"~n Id: ~p", [Id]),
case lists:keydelete(Id, 2, NFs) of
NFs ->
{reply, {error, {not_found, Id}}, S};
NFs2 ->
{reply, ok, S#state{nfilters = NFs2}}
end;
handle_call(which_notification_filter, _From,
#state{nfilters = NFs} = S) ->
?vlog("which_notification_filter", []),
{reply, [Id || #notification_filter{id = Id} <- NFs], S};
handle_call({mib_of, Oid}, _From, S) ->
Reply = handle_mib_of(get(mibserver), Oid),
{reply, Reply, S};
handle_call({me_of, Oid}, _From, S) ->
Reply = handle_me_of(get(mibserver), Oid),
{reply, Reply, S};
handle_call(get_log_type, _From, S) ->
?vlog("get_log_type", []),
Reply = handle_get_log_type(S),
{reply, Reply, S};
handle_call({set_log_type, NewType}, _From, S) ->
?vlog("set_log_type -> "
"~n NewType: ~p", [NewType]),
Reply = handle_set_log_type(S, NewType),
{reply, Reply, S};
handle_call(get_request_limit, _From, S) ->
?vlog("get_request_limit", []),
Reply = handle_get_request_limit(S),
{reply, Reply, S};
handle_call({set_request_limit, NewLimit}, _From, S) ->
?vlog("set_request_limit -> "
"~n NewLimit: ~p", [NewLimit]),
Reply = handle_set_request_limit(S, NewLimit),
{reply, Reply, S};
handle_call(stop, _From, S) ->
{stop, normal, ok, S};
handle_call(Req, _From, S) ->
warning_msg("received unknown request: ~n~p", [Req]),
Reply = {error, {unknown, Req}},
{reply, Reply, S}.
handle_cast({verbosity, Verbosity}, S) ->
?vlog("verbosity: ~p -> ~p",[get(verbosity), Verbosity]),
put(verbosity,snmp_verbosity:validate(Verbosity)),
case S#state.worker of
Pid when is_pid(Pid) -> Pid ! ?mk_verbosity_wreq(Verbosity);
_ -> ok
end,
case S#state.set_worker of
Pid2 when is_pid(Pid2) -> Pid2 ! ?mk_verbosity_wreq(Verbosity);
_ -> ok
end,
{noreply, S};
handle_cast({sub_agents_verbosity,Verbosity}, S) ->
?vlog("sub_agents verbosity: ~p",[Verbosity]),
subagents_verbosity(Verbosity),
{noreply, S};
%% This should only happen if we are a master_agent
handle_cast({net_if_verbosity, Verbosity}, S) ->
net_if_verbosity(get(net_if), Verbosity),
{noreply, S};
handle_cast({mib_server_verbosity, Verbosity}, S) ->
mib_server_verbosity(get(mibserver),Verbosity),
{noreply, S};
handle_cast({note_store_verbosity, Verbosity}, #state{note_store = Pid} = S) ->
note_store_verbosity(Pid,Verbosity),
{noreply, S};
handle_cast(Msg, S) ->
warning_msg("received unknown message: ~n~p", [Msg]),
{noreply, S}.
terminate(shutdown, #state{worker = Worker,
set_worker = SetWorker,
backup = Backup,
ref = Ref}) ->
%% Ordered shutdown - stop misc-workers, net_if, mib-server and note-store.
backup_server_stop(Backup),
worker_stop(Worker, 100),
worker_stop(SetWorker, 100),
snmpa_misc_sup:stop_net_if(Ref),
snmpa_misc_sup:stop_mib_server(Ref);
terminate(_Reason, _S) ->
%% We crashed! We will reuse net_if and mib if we get restarted.
ok.
handle_mibs_cache_request(MibServer, Req) ->
{MibsCacheWorker, MibsCacheRef} =
spawn_monitor(
fun() ->
Reply =
case Req of
invalidate_cache ->
snmpa_mib:invalidate_cache(MibServer);
gc_cache ->
snmpa_mib:gc_cache(MibServer);
{gc_cache, Age} ->
snmpa_mib:gc_cache(MibServer, Age);
{gc_cache, Age, GcLimit} ->
snmpa_mib:gc_cache(MibServer, Age, GcLimit);
cache_size ->
snmpa_mib:which_cache_size(MibServer);
enable_cache ->
snmpa_mib:enable_cache(MibServer);
disable_cache ->
snmpa_mib:disable_cache(MibServer);
enable_autogc ->
snmpa_mib:enable_cache_autogc(MibServer);
disable_autogc ->
snmpa_mib:disable_cache_autogc(MibServer);
{update_gclimit, GcLimit} ->
snmpa_mib:update_cache_gclimit(MibServer,
GcLimit);
{update_age, Age} ->
snmpa_mib:update_cache_age(MibServer, Age);
_ ->
{error, {unknown_mibs_cache_request, Req}}
end,
exit({mibs_cache_reply, Reply})
end),
{MibsCacheWorker, MibsCacheRef}.
%%-----------------------------------------------------------------
%% Code replacement
%%
%%-----------------------------------------------------------------
%% Downgrade
%%
code_change({down, _Vsn}, S1, downgrade_to_pre_4_17_3) ->
#state{type = Type,
parent = Parent,
worker = Worker,
worker_state = WorkerState,
set_worker = SetWorker,
multi_threaded = MT,
ref = Ref,
vsns = Vsns,
nfilters = NF,
note_store = NoteStore,
mib_server = MS,
net_if = NetIf,
net_if_mod = NetIfMod,
backup = Backup,
disco = Disco,
mibs_cache_request = MCR} = S1,
S2 = {state,
type = Type,
parent = Parent,
worker = Worker,
worker_state = WorkerState,
set_worker = SetWorker,
multi_threaded = MT,
ref = Ref,
vsns = Vsns,
nfilters = NF,
note_store = NoteStore,
mib_server = MS,
net_if = NetIf,
net_if_mod = NetIfMod,
backup = Backup,
disco = Disco,
mibs_cache_request = MCR},
{ok, S2};
%% Upgrade
%%
code_change(_Vsn, S1, upgrade_from_pre_4_17_3) ->
{state,
type = Type,
parent = Parent,
worker = Worker,
worker_state = WorkerState,
set_worker = SetWorker,
multi_threaded = MT,
ref = Ref,
vsns = Vsns,
nfilters = NF,
note_store = NoteStore,
mib_server = MS,
net_if = NetIf,
net_if_mod = NetIfMod,
backup = Backup,
disco = Disco,
mibs_cache_request = MCR} = S1,
S2 = #state{type = Type,
parent = Parent,
worker = Worker,
worker_state = WorkerState,
set_worker = SetWorker,
multi_threaded = MT,
ref = Ref,
vsns = Vsns,
nfilters = NF,
note_store = NoteStore,
mib_server = MS,
net_if = NetIf,
net_if_mod = NetIfMod,
backup = Backup,
disco = Disco,
mibs_cache_request = MCR,
gb_max_vbs = ?DEFAULT_GB_MAX_VBS},
{ok, S2};
code_change(_Vsn, S, _Extra) ->
{ok, S}.
%% workers_restart(#state{worker = W, set_worker = SW} = S) ->
%% Worker = worker_restart(W),
%% SetWorker = set_worker_restart(SW),
%% S#state{worker = Worker,
%% set_worker = SetWorker}.
%%-----------------------------------------------------------------
backup_server_stop({Pid, _}) when is_pid(Pid) ->
exit(Pid, kill);
backup_server_stop(_) ->
ok.
workers_start(true) ->
?vdebug("start worker and set-worker",[]),
{worker_start(), set_worker_start()};
workers_start(_) ->
{undefined, undefined}.
worker_start() ->
worker_start(get()).
set_worker_start() ->
worker_start([{master, self()} | get()]).
worker_start(Dict) ->
proc_lib:spawn_link(?MODULE, worker, [self(), Dict]).
%% worker_stop(Pid) ->
%% worker_stop(Pid, infinity).
worker_stop(Pid, Timeout) when is_pid(Pid) ->
Pid ! ?mk_terminate_wreq(),
receive
{'EXIT', Pid, normal} ->
ok
after Timeout ->
(catch exit(Pid, kill)),
ok
end;
worker_stop(_, _) ->
ok.
%% set_worker_restart(Pid) ->
%% worker_restart(Pid, [{master, self()} | get()]).
%% worker_restart(Pid) ->
%% worker_restart(Pid, get()).
%% worker_restart(Pid, Dict) when is_pid(Pid) ->
%% worker_stop(Pid),
%% worker_start(Dict);
%% worker_restart(Any, _Dict) ->
%% Any.
%%-----------------------------------------------------------------
handle_backup(BackupDir, MibServer) ->
?vlog("handle_backup -> entry with"
"~n BackupDir: ~p", [BackupDir]),
case ets:lookup(snmp_agent_table, db_dir) of
[{db_dir, BackupDir}] ->
?vinfo("handle_backup -> backup dir and db dir the same", []),
{error, db_dir};
_ ->
case file:read_file_info(BackupDir) of
{ok, #file_info{type = directory}} ->
?vdebug("handle_backup -> backup dir ok", []),
VacmRes = (catch snmpa_vacm:backup(BackupDir)),
?vtrace("handle_backup -> "
"~n VacmRes: ~p", [VacmRes]),
LdbRes = (catch snmpa_local_db:backup(BackupDir)),
?vtrace("handle_backup -> "
"~n LdbRes: ~p", [LdbRes]),
MsRes = (catch snmpa_mib:backup(MibServer, BackupDir)),
?vtrace("handle_backup -> "
"~n MsRes: ~p", [MsRes]),
SsRes = (catch snmpa_symbolic_store:backup(BackupDir)),
?vtrace("handle_backup -> "
"~n SsRes: ~p", [SsRes]),
handle_backup_res([{vacm, VacmRes},
{local_db, LdbRes},
{mib_server, MsRes},
{symbolic_store, SsRes}]);
{ok, _} ->
?vinfo("handle_backup -> backup dir not a dir", []),
{error, not_a_directory};
Error ->
?vinfo("handle_backup -> Error: ~p", [Error]),
Error
end
end.
handle_backup_res(Results) ->
handle_backup_res(Results, []).
handle_backup_res([], []) ->
ok;
handle_backup_res([], Acc) ->
{error, lists:reverse(Acc)};
handle_backup_res([{_, ok}|Results], Acc) ->
handle_backup_res(Results, Acc);
handle_backup_res([{Who, {error, Reason}}|Results], Acc) ->
handle_backup_res(Results, [{Who, Reason}|Acc]);
handle_backup_res([{Who, Crap}|Results], Acc) ->
handle_backup_res(Results, [{Who, Crap}|Acc]).
%%-----------------------------------------------------------------
%% We must cheat to get the community string out of the ACM data,
%% because we (for some reason) support the function
%% snmpa:current_community().
%%-----------------------------------------------------------------
cheat({community, _SecModel, Community, _IpUdp}, Address, ContextName) ->
{Community, Address, ContextName};
cheat(_, Address, ContextName) ->
{"", Address, ContextName}.
%% This function will either be in the context of the:
%% 1) master-agent
%% 2) set-worker
%% 3) user code
%% ( calling e.g. snmp_community_mib:snmpCommunityTable(set, ...) )
invalidate_ca_cache() ->
case get(master) of
undefined -> % 1 or 3
case get(auth_module) of
undefined -> % 3
%% Ouch, we are not running in the context of the
%% master agent either. Check if we are on the
%% master-agent node. If so, sent it there,
case whereis(snmp_master_agent) of
MasterAgent when is_pid(MasterAgent) ->
case node(MasterAgent) =:= node() of
true ->
%% Ok, we are on the node running the
%% master_agent process, so sent it there
MasterAgent ! invalidate_ca_cache;
false ->
%% This is running on a sub-agent node,
%% so sent skip it
ok
end;
_ -> % Not on this node
ok
end;
AuthMod -> % 1
AuthMod:invalidate_ca_cache()
end;
Pid -> % 2
Pid ! invalidate_ca_cache
end.
%%-----------------------------------------------------------------
%% Threads and workers
%%
%%-----------------------------------------------------------------
%% This functions spawns a temporary worker process,
%% that evaluates one request and then silently exits.
spawn_thread(Vsn, Pdu, PduMS, ACMData, Address, GbMaxVBs, Extra) ->
Dict = get(),
Args = [Vsn, Pdu, PduMS, ACMData, Address, GbMaxVBs, Extra, Dict],
proc_lib:spawn_link(?MODULE, handle_pdu, Args).
spawn_trap_thread(TrapRec, NotifyName, ContextName, Recv, Vbs,
LocalEngineID) ->
Dict = get(),
proc_lib:spawn_link(?MODULE, do_send_trap,
[TrapRec, NotifyName, ContextName,
Recv, Vbs, LocalEngineID, Dict]).
do_send_trap(TrapRec, NotifyName, ContextName, Recv, Vbs,
LocalEngineID, Dict) ->
lists:foreach(fun({Key, Val}) -> put(Key, Val) end, Dict),
put(sname, trap_sender_short_name(get(sname))),
?vlog("starting",[]),
snmpa_trap:send_trap(TrapRec, NotifyName, ContextName, Recv, Vbs,
LocalEngineID, get(net_if)).
worker(Master, Dict) ->
lists:foreach(fun({Key, Val}) -> put(Key, Val) end, Dict),
put(sname, worker_short_name(get(sname))),
?vlog("starting",[]),
worker_loop(Master).
worker_loop(Master) ->
Res =
receive
#wrequest{cmd = handle_pdu,
info = Info} = Req ->
?vtrace("worker_loop -> received handle_pdu request with"
"~n Info: ~p", [Info]),
Vsn = proplists:get_value(vsn, Info),
Pdu = proplists:get_value(pdu, Info),
PduMS = proplists:get_value(pdu_ms, Info),
ACMData = proplists:get_value(acm_data, Info),
Address = proplists:get_value(addr, Info),
GbMaxVBs = proplists:get_value(gb_max_vbs, Info),
Extra = proplists:get_value(extra, Info),
HandlePduRes =
try
begin
handle_pdu2(Vsn, Pdu, PduMS, ACMData, Address,
GbMaxVBs, Extra)
end
catch
T:E ->
exit({worker_crash, Req, T, E,
erlang:get_stacktrace()})
end,
Master ! worker_available,
HandlePduRes; % For debugging...
#wrequest{cmd = send_trap,
info = Info} = Req ->
?vtrace("worker_loop -> received send_trap request with"
"~n Info: ~p", [Info]),
TrapRec = proplists:get_value(trap_rec, Info),
NotifyName = proplists:get_value(notify_name, Info),
ContextName = proplists:get_value(context_name, Info),
Recv = proplists:get_value(receiver, Info),
Vbs = proplists:get_value(varbinds, Info),
LocalEngineID = proplists:get_value(local_engine_id, Info),
SendTrapRes =
try
begin
snmpa_trap:send_trap(TrapRec, NotifyName,
ContextName, Recv, Vbs,
LocalEngineID,
get(net_if))
end
catch
T:E ->
exit({worker_crash, Req, T, E,
erlang:get_stacktrace()})
end,
Master ! worker_available,
SendTrapRes; % For debugging...
#wrequest{cmd = verbosity,
info = Info} ->
Verbosity = proplists:get_value(verbosity, Info),
put(verbosity, snmp_verbosity:validate(Verbosity));
#wrequest{cmd = terminate} ->
?vtrace("worker_loop -> received terminate request", []),
exit(normal);
%% *************************************************************
%%
%% Kept for backward compatibillity reasons
%%
%% *************************************************************
{Vsn, Pdu, PduMS, ACMData, Address, Extra} ->
?vtrace("worker_loop -> received request", []),
handle_pdu2(Vsn, Pdu, PduMS, ACMData, Address,
?DEFAULT_GB_MAX_VBS, Extra),
Master ! worker_available;
%% We don't trap exits!
{TrapRec, NotifyName, ContextName, Recv, Vbs} ->
?vtrace("worker_loop -> send trap:"
"~n ~p", [TrapRec]),
snmpa_trap:send_trap(TrapRec, NotifyName,
ContextName, Recv, Vbs, get(net_if)),
Master ! worker_available;
%% We don't trap exits!
{send_trap,
TrapRec, NotifyName, ContextName, Recv, Vbs, LocalEngineID} ->
?vtrace("worker_loop -> send trap:"
"~n ~p", [TrapRec]),
snmpa_trap:send_trap(TrapRec, NotifyName,
ContextName, Recv, Vbs, LocalEngineID,
get(net_if)),
Master ! worker_available;
{verbosity, Verbosity} ->
put(verbosity, snmp_verbosity:validate(Verbosity));
terminate ->
exit(normal);
_X ->
%% ignore
ignore_unknown
after 30000 ->
%% This is to assure that the worker process leaves a
%% possibly old version of this module.
ok
end,
?vtrace("worker_loop -> wrap with"
"~n ~p", [Res]),
?MODULE:worker_loop(Master).
%%-----------------------------------------------------------------
%%-----------------------------------------------------------------
handle_snmp_pdu(true, Vsn, Pdu, PduMS, ACMData, Address, Extra,
#state{multi_threaded = false,
gb_max_vbs = GbMaxVBs} = S) ->
?vtrace("handle_snmp_pdu -> single-thread agent",[]),
handle_pdu2(Vsn, Pdu, PduMS, ACMData, Address, GbMaxVBs, Extra),
S;
handle_snmp_pdu(true, Vsn, #pdu{type = 'set-request'} = Pdu, PduMS,
ACMData, Address, Extra,
#state{set_worker = Worker} = S) ->
?vtrace("handle_snmp_pdu -> multi-thread agent: "
"send set-request to main worker",[]),
WRequest = ?mk_pdu_wreq(Vsn, Pdu, PduMS, ACMData, Address, infinity, Extra),
Worker ! WRequest,
S#state{worker_state = busy};
handle_snmp_pdu(true, Vsn, Pdu, PduMS,
ACMData, Address, Extra,
#state{worker_state = busy,
gb_max_vbs = GbMaxVBs} = S) ->
?vtrace("handle_snmp_pdu -> multi-thread agent: "
"main worker busy - create new worker",[]),
spawn_thread(Vsn, Pdu, PduMS, ACMData, Address, GbMaxVBs, Extra),
S;
handle_snmp_pdu(true, Vsn, Pdu, PduMS, ACMData, Address, Extra,
#state{worker = Worker,
gb_max_vbs = GbMaxVBs} = S) ->
?vtrace("handle_snmp_pdu -> multi-thread agent: "
"send to main worker",[]),
WRequest = ?mk_pdu_wreq(Vsn, Pdu, PduMS, ACMData, Address, GbMaxVBs, Extra),
Worker ! WRequest,
S#state{worker_state = busy};
handle_snmp_pdu(_, _Vsn, _Pdu, _PduMS, _ACMData, _Address, _Extra, S) ->
S.
%% Called via the spawn_thread function
%% <BACKWARD-COMPAT>
handle_pdu(Vsn, Pdu, PduMS, ACMData, Address, Extra, Dict) ->
handle_pdu(Vsn, Pdu, PduMS, ACMData, Address, ?DEFAULT_GB_MAX_VBS, Extra,
Dict).
%% </BACKWARD-COMPAT>
handle_pdu(Vsn, Pdu, PduMS, ACMData, Address, GbMaxVBs, Extra, Dict) ->
lists:foreach(fun({Key, Val}) -> put(Key, Val) end, Dict),
put(sname, pdu_handler_short_name(get(sname))),
?vlog("new worker starting",[]),
handle_pdu2(Vsn, Pdu, PduMS, ACMData, Address, GbMaxVBs, Extra).
handle_pdu2(Vsn, Pdu, PduMS, ACMData, Address, GbMaxVBs, Extra) ->
%% OTP-3324
AuthMod = get(auth_module),
case AuthMod:init_check_access(Pdu, ACMData) of
{ok, MibView, ContextName} ->
?vlog("handle_pdu -> ok:"
"~n MibView: ~p"
"~n ContextName: ~p", [MibView, ContextName]),
AgentData = cheat(ACMData, Address, ContextName),
do_handle_pdu(MibView, Vsn, Pdu, PduMS, ACMData, AgentData,
GbMaxVBs, Extra);
{error, Reason} ->
?vlog("handle_pdu -> error:"
"~n Reason: ~p", [Reason]),
handle_acm_error(Vsn, Reason, Pdu, ACMData, Address, Extra);
{discarded, Variable, Reason} ->
?vlog("handle_pdu -> discarded:"
"~n Variable: ~p"
"~n Reason: ~p", [Variable, Reason]),
get(net_if) ! {discarded_pdu, Vsn, Pdu#pdu.request_id,
ACMData, Variable, Extra}
end.
do_handle_pdu(MibView, Vsn, Pdu, PduMS,
ACMData, {Community, Address, ContextName},
GbMaxVBs, Extra) ->
put(net_if_data, Extra),
RePdu = process_msg(MibView, Vsn, Pdu, PduMS, Community,
Address, ContextName, GbMaxVBs),
?vtrace("do_handle_pdu -> processed:"
"~n RePdu: ~p", [RePdu]),
NetIf = get(net_if),
NetIf ! {snmp_response, Vsn, RePdu,
RePdu#pdu.type, ACMData, Address, Extra}.
handle_acm_error(Vsn, Reason, Pdu, ACMData, Address, Extra) ->
#pdu{type = Type, request_id = ReqId, varbinds = Vbs} = Pdu,
RawErrStatus = snmpa_acm:error2status(Reason),
case is_valid_pdu_type(Type) of
true ->
%% RawErrStatus can be authorizationError or genErr. If it is
%% authorizationError, we'll have to do different things,
%% depending on which SNMP version is used.
%% v1 - noSuchName error
%% v2 - GET: all variables 'noSuchObject'
%% NEXT/BULK: all variables 'endOfMibView'
%% SET: noAccess error
%% v3 - authorizationError error
%%
%% NOTE: this procedure is not yet defined in the coex document!
?vdebug("~n Raw error status: ~w",[RawErrStatus]),
Idx = case Vbs of
[] -> 0;
_ -> 1
end,
RePdu =
if
Vsn =:= 'version-1' ->
ErrStatus = v2err_to_v1err(RawErrStatus),
make_response_pdu(ReqId, ErrStatus, Idx, Vbs, Vbs);
Vsn =:= 'version-3' ->
make_response_pdu(ReqId, RawErrStatus, Idx, Vbs, Vbs);
Type =:= 'get-request' -> % this is v2
ReVbs = lists:map(
fun(Vb) ->
Vb#varbind{value=noSuchObject}
end,
Vbs),
make_response_pdu(ReqId, noError, 0, Vbs, ReVbs);
Type =:= 'set-request' ->
make_response_pdu(ReqId, noAccess, Idx, Vbs, Vbs);
true -> % next or bulk
ReVbs = lists:map(
fun(Vb) ->
Vb#varbind{value=endOfMibView}
end,
Vbs),
make_response_pdu(ReqId, noError, 0, Vbs, ReVbs)
end,
get(net_if) ! {snmp_response, Vsn, RePdu,
'get-response', ACMData, Address, Extra};
false ->
?vdebug("~n Raw error status: ~w"
"~n invalid pdu type: ~w",
[RawErrStatus,Type]),
ok
end.
handle_send_trap(S, TrapName, NotifyName, ContextName, Recv, Varbinds,
LocalEngineID) ->
?vtrace("handle_send_trap -> entry with"
"~n S#state.type: ~p"
"~n TrapName: ~p"
"~n NotifyName: ~p"
"~n ContextName: ~p"
"~n LocalEngineID: ~p",
[S#state.type, TrapName, NotifyName, ContextName, LocalEngineID]),
case snmpa_trap:construct_trap(TrapName, Varbinds) of
{ok, TrapRecord, VarList} ->
?vtrace("handle_send_trap -> construction complete: "
"~n TrapRecord: ~p"
"~n VarList: ~p",
[TrapRecord, VarList]),
case S#state.type of
subagent ->
?vtrace("handle_send_trap -> [sub] forward trap",[]),
maybe_forward_trap(S, TrapRecord, NotifyName,
ContextName, Recv, VarList),
{ok, S};
master_agent ->
?vtrace("handle_send_trap -> "
"[master] handle send trap",[]),
maybe_send_trap(S, TrapRecord, NotifyName,
ContextName, Recv, VarList,
LocalEngineID)
end;
error ->
error
end.
maybe_forward_trap(#state{parent = Parent, nfilters = NFs} = S,
TrapRec, NotifyName, ContextName, Recv, V) ->
?vtrace("maybe_forward_trap -> entry with"
"~n NFs: ~p", [NFs]),
case filter_notification(NFs, [], TrapRec) of
{dont_send, [], Id} ->
?vdebug("trap not forwarded [filter ~p]", [Id]),
{ok, S};
{dont_send, Removed, Id} ->
?vdebug("trap not forwarded [filter ~p]", [Id]),
NFs2 = del_notification_filter(Removed, NFs),
{ok, S#state{nfilters = NFs2}};
{send, [], TrapRec2} ->
?vtrace("maybe_forward_trap -> forward trap:"
"~n ~p", [TrapRec2]),
forward_trap(Parent, TrapRec2, NotifyName, ContextName, Recv, V),
{ok, S};
{send, Removed, TrapRec2} ->
?vtrace("maybe_forward_trap -> forward trap:"
"~n ~p", [TrapRec2]),
forward_trap(Parent, TrapRec2, NotifyName, ContextName, Recv, V),
NFs2 = del_notification_filter(Removed, NFs),
{ok, S#state{nfilters = NFs2}}
end.
maybe_send_trap(#state{nfilters = NFs} = S,
TrapRec, NotifyName, ContextName, Recv, Varbinds,
LocalEngineID) ->
?vtrace("maybe_send_trap -> entry with"
"~n NFs: ~p", [NFs]),
case filter_notification(NFs, [], TrapRec) of
{dont_send, [], Id} ->
?vdebug("trap not sent [filter ~p]",[Id]),
{ok, S};
{dont_send, Removed, Id} ->
?vdebug("trap not sent [filter ~p]",[Id]),
NFs2 = del_notification_filter(Removed, NFs),
{ok, S#state{nfilters = NFs2}};
{send, [], TrapRec2} ->
?vtrace("maybe_send_trap -> send trap:"
"~n ~p", [TrapRec2]),
do_handle_send_trap(S, TrapRec2,
NotifyName, ContextName, Recv, Varbinds,
LocalEngineID);
{send, Removed, TrapRec2} ->
?vtrace("maybe_send_trap -> send trap:"
"~n ~p", [TrapRec2]),
NFs2 = del_notification_filter(Removed, NFs),
do_handle_send_trap(S#state{nfilters = NFs2}, TrapRec2,
NotifyName, ContextName, Recv, Varbinds,
LocalEngineID)
end.
do_handle_send_trap(S, TrapRec, NotifyName, ContextName, Recv, Varbinds,
LocalEngineID) ->
Vbs = snmpa_trap:try_initialise_vars(get(mibserver), Varbinds),
case S#state.type of
subagent ->
forward_trap(S#state.parent, TrapRec, NotifyName, ContextName,
Recv, Vbs),
{ok, S};
master_agent when S#state.multi_threaded =:= false ->
?vtrace("do_handle_send_trap -> send trap:"
"~n ~p", [TrapRec]),
snmpa_trap:send_trap(TrapRec, NotifyName, ContextName,
Recv, Vbs, LocalEngineID, get(net_if)),
{ok, S};
master_agent when S#state.worker_state =:= busy ->
%% Main worker busy => create new worker
?vtrace("do_handle_send_trap -> main worker busy: "
"spawn a trap sender", []),
spawn_trap_thread(TrapRec, NotifyName, ContextName, Recv, Vbs,
LocalEngineID),
{ok, S};
master_agent ->
%% Send to main worker
?vtrace("do_handle_send_trap -> send to main worker",[]),
S#state.worker ! ?mk_send_trap_wreq(TrapRec, NotifyName,
ContextName, Recv, Vbs,
LocalEngineID),
{ok, S#state{worker_state = busy}}
end.
filter_notification([], RemoveNFs, Notif) ->
?vtrace("filter_notification -> done when"
"~n RemoveNFs: ~p"
"~n Notif: ~p", [RemoveNFs, Notif]),
{send, RemoveNFs, Notif};
filter_notification([NF|NFs], RemoveNFs, Notif0) ->
?vtrace("filter_notification -> entry with"
"~n NF: ~p"
"~n RemoveNFs: ~p"
"~n Notif0: ~p", [NF, RemoveNFs, Notif0]),
case do_filter_notification(NF, Notif0) of
{dont_send, Id} ->
{dont_send, RemoveNFs, Id};
{send, Notif} ->
filter_notification(NFs, RemoveNFs, Notif);
{error, Id} ->
filter_notification(NFs, [Id|RemoveNFs], Notif0)
end.
do_filter_notification(#notification_filter{id = Id, mod = Mod, data = Data},
Notif) ->
case (catch Mod:handle_notification(Notif, Data)) of
dont_send ->
{dont_send, Id};
send ->
{send, Notif};
{send, NewNotif} ->
{send, NewNotif};
Else ->
user_err("notification filter ~p removed: ~n~p", [Id, Else]),
{error, Id}
end.
add_notification_filter(first, NewNF, NFs) ->
{ok, [NewNF | NFs]};
add_notification_filter(last, NewNF, NFs) ->
{ok, lists:append(NFs, [NewNF])};
add_notification_filter(Where, NewNF, NFs) ->
case add_nf(Where, NewNF, NFs, []) of
{ok, NFs2} ->
{ok, NFs2};
Error ->
{Error, NFs}
end.
add_nf({_Loc, Id}, _NewNF, [], _Acc) ->
{error, {not_found, Id}};
add_nf({insert_before, Id}, NewNF, [NF|NFs], Acc)
when Id =:= NF#notification_filter.id ->
{ok, lists:reverse(Acc) ++ [NewNF,NF|NFs]};
add_nf({insert_after, Id}, NewNF, [NF|NFs], Acc)
when Id =:= NF#notification_filter.id ->
{ok, lists:reverse(Acc) ++ [NF,NewNF|NFs]};
add_nf(Where, NewNF, [NF|NFs], Acc) ->
add_nf(Where, NewNF, NFs, [NF|Acc]).
del_notification_filter(IDs, NFs) ->
Fun = fun(Id, NFilters) -> lists:keydelete(Id, 2, NFilters) end,
lists:foldl(Fun, NFs, IDs).
handle_discovery(#state{type = master_agent} = S, From,
TargetName, Notification, ContextName, Varbinds,
DiscoHandler, ExtraInfo) ->
?vtrace("handle_discovery -> entry with"
"~n TargetName: ~p"
"~n Notification: ~p"
"~n ContextName: ~p"
"~n Varbinds: ~p",
[TargetName, Notification, ContextName, Varbinds]),
case snmpa_trap:construct_trap(Notification, Varbinds) of
{ok, Record, InitVars} ->
?vtrace("handle_discovery -> trap construction complete: "
"~n Record: ~p"
"~n InitVars: ~p", [Record, InitVars]),
send_discovery(S, From, TargetName,
Record, ContextName, InitVars,
DiscoHandler, ExtraInfo);
error ->
{error, failed_constructing_notification}
end;
handle_discovery(_S, _From,
_TargetName, _Notification, _ContextName, _Varbinds,
_DiscoHandler, _ExtraInfo) ->
{error, only_master_discovery}.
%% We ignore if the master agent is multi-threaded or not.
%%
send_discovery(S, From,
TargetName, Record, ContextName, InitVars,
DiscoHandler, ExtraInfo) ->
case snmpa_trap:send_discovery(TargetName, Record, ContextName,
InitVars, get(net_if)) of
{ok, Sender, SecLevel} ->
Disco = #disco{from = From,
rec = Record,
sender = Sender,
target = TargetName,
sec_level = SecLevel,
ctx = ContextName,
ivbs = InitVars,
stage = 1,
handler = DiscoHandler,
extra = ExtraInfo},
{ok, S#state{disco = Disco}};
Error ->
?vlog("send_discovery -> failed sending discovery: "
"~n Error: ~p", [Error]),
Error
end.
handle_discovery_response(#state{disco = #disco{from = From}} = S,
{error, _} = Error) ->
?vlog("handle_discovery_response -> entry with"
"~n From: ~p"
"~n Error: ~p", [From, Error]),
gen_server:reply(From, Error),
S#state{disco = undefined};
handle_discovery_response(#state{disco = #disco{target = TargetName,
stage = 1,
extra = ExtraInfo} = Disco} = S,
{ok, _Pdu, ManagerEngineId})
when is_record(Disco, disco) ->
?vlog("handle_discovery_response(1) -> entry with"
"~n TargetName: ~p"
"~n ManagerEngineId: ~p", [TargetName, ManagerEngineId]),
%% This is end of stage 1.
%% So, first we need to update the database with the EngineId of the
%% manager and then deside if we should continue with stage 2. E.g.
%% establish authenticated communication.
case snmp_target_mib:set_target_engine_id(TargetName, ManagerEngineId) of
true when Disco#disco.sec_level =:= ?'SnmpSecurityLevel_noAuthNoPriv' ->
%% Ok, we are done
From = Disco#disco.from,
Handler = Disco#disco.handler,
Reply =
case handle_discovery_stage1_finish(Handler,
TargetName,
ManagerEngineId,
ExtraInfo) of
{ok, _} ->
{ok, ManagerEngineId};
Error ->
Error
end,
gen_server:reply(From, Reply),
S#state{disco = undefined};
true when Disco#disco.sec_level =/= ?'SnmpSecurityLevel_noAuthNoPriv' ->
%% Ok, time for stage 2
%% Send the same inform again,
%% this time we have the proper EngineId
From = Disco#disco.from,
Handler = Disco#disco.handler,
case handle_discovery_stage1_finish(Handler,
TargetName,
ManagerEngineId,
ExtraInfo) of
{ok, NewExtraInfo} ->
?vdebug("handle_discovery_response(1) -> "
"we are done with stage 1 - "
"continue with stage 2", []),
#disco{rec = Record,
ctx = ContextName,
ivbs = InitVars} = Disco,
case snmpa_trap:send_discovery(TargetName, Record,
ContextName,
InitVars, get(net_if)) of
{ok, Sender, _SecLevel} ->
?vdebug("handle_discovery_response(1) -> "
"stage 2 trap sent", []),
Disco2 = Disco#disco{sender = Sender,
engine_id = ManagerEngineId,
stage = 2,
extra = NewExtraInfo},
S#state{disco = Disco2};
Error ->
?vlog("handle_discovery_response(1) -> "
"failed sending stage 2 trap: "
"~n ~p", [Error]),
error_msg("failed sending second "
"discovery message: "
"~n ~p", [Error]),
Reply = {error, {second_send_failed, Error}},
gen_server:reply(From, Reply),
S#state{disco = undefined}
end;
{error, Reason} = Error ->
?vlog("handle_discovery_response(1) -> "
"stage 1 finish failed: "
"~n ~p", [Reason]),
gen_server:reply(From, Error),
S#state{disco = undefined}
end;
false ->
?vinfo("handle_discovery_response(1) -> "
"failed setting doscovered engine-id - "
"inform the user", []),
From = Disco#disco.from,
Reason = {failed_setting_engine_id, TargetName, ManagerEngineId},
gen_server:reply(From, {error, Reason}),
S#state{disco = undefined}
end;
handle_discovery_response(#state{disco = #disco{from = From,
engine_id = EngineID,
stage = 2}} = S,
{ok, _Pdu}) ->
?vlog("handle_discovery_response(2) -> entry with"
"~n From: ~p", [From]),
gen_server:reply(From, {ok, EngineID}),
S#state{disco = undefined};
handle_discovery_response(#state{disco = #disco{from = From}} = S, Crap) ->
Reason = {invalid_response, Crap},
gen_server:reply(From, {error, Reason}),
S#state{disco = undefined};
handle_discovery_response(S, Crap) ->
warning_msg("Received unexpected discovery response: ~p", [Crap]),
S.
handle_discovery_stage1_finish(Handler, TargetName, ManagerEngineID,
ExtraInfo) ->
case (catch Handler:stage1_finish(TargetName, ManagerEngineID,
ExtraInfo)) of
ignore ->
?vtrace("handle_discovery_stage1_finish -> "
"we are done - [ignore] inform the user", []),
{ok, ExtraInfo};
{ok, UsmEntry} when is_tuple(UsmEntry) ->
?vtrace("handle_discovery_stage1_finish -> "
"received usm entry - attempt to add it", []),
case add_usm_users([UsmEntry]) of
ok ->
{ok, ExtraInfo};
Error ->
Error
end;
{ok, UsmEntry, NewExtraInfo} when is_tuple(UsmEntry) ->
?vtrace("handle_discovery_stage1_finish -> "
"received usm entry - attempt to add it", []),
case add_usm_users([UsmEntry]) of
ok ->
{ok, NewExtraInfo};
Error ->
Error
end;
{ok, UsmEntries} when is_list(UsmEntries) ->
?vtrace("handle_discovery_stage1_finish -> "
"received usm entries - attempt to add them", []),
case add_usm_users(UsmEntries) of
ok ->
{ok, ExtraInfo};
Error ->
Error
end;
{ok, UsmEntries, NewExtraInfo} when is_list(UsmEntries) ->
?vtrace("handle_discovery_stage1_finish -> "
"received usm entries - attempt to add them", []),
case add_usm_users(UsmEntries) of
ok ->
{ok, NewExtraInfo};
Error ->
Error
end;
{'EXIT', Reason} ->
?vlog("handle_discovery_stage1_finish -> stage 1 function exited: "
"~n ~p", [Reason]),
{error, {finish_exit, Reason, ManagerEngineID}};
{error, Reason} ->
?vlog("handle_discovery_stage1_finish -> stage 1 function error: "
"~n ~p", [Reason]),
{error, {finish_error, Reason, ManagerEngineID}};
Unknown ->
?vlog("handle_discovery_stage1_finish -> stage 1 function unknown: "
"~n ~p", [Unknown]),
{error, {finish_failed, Unknown, ManagerEngineID}}
end.
add_usm_users([]) ->
ok;
add_usm_users([UsmEntry|UsmEntries]) when is_tuple(UsmEntry) ->
?vtrace("add_usm_users -> attempt to add entry (~w)",
[element(1, UsmEntry)]),
case snmp_user_based_sm_mib:add_user(UsmEntry) of
{ok, _} ->
add_usm_users(UsmEntries);
{error, Reason} ->
?vlog("add_usm_users -> failed adding usm entry: "
"~n ~p", [Reason]),
{error, {failed_adding_entry, Reason, UsmEntry}}
end.
handle_me_of(MibServer, Oid) ->
case snmpa_mib:lookup(MibServer, Oid) of
{variable, ME} ->
{ok, ME};
{table_column, ME, _TableEntryOid} ->
{ok, ME};
{subagent, SubAgentPid, _SANextOid} ->
{error, {subagent, SubAgentPid}};
{false, Reason} ->
{error, Reason};
Else ->
{error, Else}
end.
handle_mib_of(MibServer, Oid) ->
snmpa_mib:which_mib(MibServer, Oid).
%%-----------------------------------------------------------------
%% Func: process_msg/7
%% Returns: RePdu
%%-----------------------------------------------------------------
process_msg(MibView, Vsn, Pdu, PduMS, Community, {Ip, Udp}, ContextName,
GbMaxVBs) ->
#pdu{request_id = ReqId} = Pdu,
put(snmp_address, {tuple_to_list(Ip), Udp}),
put(snmp_request_id, ReqId),
put(snmp_community, Community),
put(snmp_context, ContextName),
?vtrace("process ~p",[Pdu#pdu.type]),
process_pdu(Pdu, PduMS, Vsn, MibView, GbMaxVBs).
process_pdu(#pdu{type='get-request', request_id = ReqId, varbinds=Vbs},
_PduMS, Vsn, MibView, _GbMaxVBs) ->
?vtrace("get ~p",[ReqId]),
Res = get_err(do_get(MibView, Vbs, false)),
?vtrace("get result: "
"~n ~p",[Res]),
{ErrStatus, ErrIndex, ResVarbinds} =
if
Vsn =:= 'version-1' -> validate_get_v1(Res);
true -> Res
end,
?vtrace("get final result: "
"~n Error status: ~p"
"~n Error index: ~p"
"~n Varbinds: ~p",
[ErrStatus,ErrIndex,ResVarbinds]),
ResponseVarbinds = lists:keysort(#varbind.org_index, ResVarbinds),
?vtrace("response varbinds: "
"~n ~p",[ResponseVarbinds]),
make_response_pdu(ReqId, ErrStatus, ErrIndex, Vbs, ResponseVarbinds);
process_pdu(#pdu{type = 'get-next-request', request_id = ReqId, varbinds = Vbs},
_PduMS, Vsn, MibView, _GbMaxVBs) ->
?vtrace("process get-next-request -> entry with"
"~n ReqId: ~p"
"~n Vbs: ~p"
"~n MibView: ~p",[ReqId, Vbs, MibView]),
Res = get_err(do_get_next(MibView, Vbs, infinity)),
?vtrace("get-next result: "
"~n ~p",[Res]),
{ErrStatus, ErrIndex, ResVarbinds} =
if
Vsn =:= 'version-1' -> validate_next_v1(Res, MibView);
true -> Res
end,
?vtrace("get-next final result -> validation result:"
"~n Error status: ~p"
"~n Error index: ~p"
"~n Varbinds: ~p",[ErrStatus,ErrIndex,ResVarbinds]),
ResponseVarbinds = lists:keysort(#varbind.org_index, ResVarbinds),
?vtrace("get-next final result -> response varbinds: "
"~n ~p",[ResponseVarbinds]),
make_response_pdu(ReqId, ErrStatus, ErrIndex, Vbs, ResponseVarbinds);
process_pdu(#pdu{type = 'get-bulk-request',
request_id = ReqId,
varbinds = Vbs,
error_status = NonRepeaters,
error_index = MaxRepetitions},
PduMS, _Vsn, MibView, GbMaxVBs) ->
{ErrStatus, ErrIndex, ResponseVarbinds} =
get_err(do_get_bulk(MibView, NonRepeaters, MaxRepetitions, PduMS, Vbs,
GbMaxVBs)),
?vtrace("get-bulk final result: "
"~n Error status: ~p"
"~n Error index: ~p"
"~n Respons varbinds: ~p",
[ErrStatus,ErrIndex,ResponseVarbinds]),
make_response_pdu(ReqId, ErrStatus, ErrIndex, Vbs, ResponseVarbinds);
process_pdu(#pdu{type = 'set-request', request_id = ReqId, varbinds = Vbs},
_PduMS, Vsn, MibView, _GbMaxVbs)->
Res = do_set(MibView, Vbs),
?vtrace("set result: "
"~n ~p",[Res]),
{ErrStatus, ErrIndex} =
if
Vsn =:= 'version-1' -> validate_err(v2_to_v1, Res);
true -> Res
end,
?vtrace("set final result: "
"~n Error status: ~p"
"~n Error index: ~p",[ErrStatus,ErrIndex]),
make_response_pdu(ReqId, ErrStatus, ErrIndex, Vbs, Vbs).
%%-----------------------------------------------------------------
%% Transform a value == noSuchInstance | noSuchObject or a
%% Counter64 type to a noSuchName error for the whole pdu.
%% Args: {Error, Index, Vbs}
%% Returns: {NewError, NewIndex, NewVbs}
%%-----------------------------------------------------------------
validate_get_v1({noError, _, ResponseVarbinds}) ->
case validate_get_v1_2(ResponseVarbinds) of
true -> {noError, 0, ResponseVarbinds};
{Error, Index} -> {Error, Index, []} % dummy vbs
end;
validate_get_v1({ErrStatus, ErrIndex, ResponseVarbinds}) ->
{v2err_to_v1err(ErrStatus), ErrIndex, ResponseVarbinds}.
validate_get_v1_2([Vb | Vbs])
when ((Vb#varbind.value =/= noSuchInstance) andalso
(Vb#varbind.value =/= noSuchObject) andalso
(Vb#varbind.variabletype =/= 'Counter64')) ->
validate_get_v1_2(Vbs);
validate_get_v1_2([Vb | _Vbs]) ->
{noSuchName, Vb#varbind.org_index};
validate_get_v1_2([]) ->
true.
%%-----------------------------------------------------------------
%% Transform a value == endOfMibView to a noSuchName for the
%% whole pdu, and do another get-next for any Counter64 value.
%% Args: {Error, Index, Vbs}
%% Returns: {NewError, NewIndex, NewVbs}
%%-----------------------------------------------------------------
validate_next_v1({noError, _, ResponseVarbinds}, MibView) ->
case validate_next_v1_2(ResponseVarbinds, MibView, []) of
{true, NVbs} -> {noError, 0, NVbs};
{Error, Index} -> {Error, Index, []} % dummy vbs
end;
validate_next_v1({ErrStatus, ErrIndex, ResponseVarbinds}, _MibView) ->
{v2err_to_v1err(ErrStatus), ErrIndex, ResponseVarbinds}.
validate_next_v1_2([Vb | _Vbs], _MibView, _Res)
when Vb#varbind.value =:= endOfMibView ->
{noSuchName, Vb#varbind.org_index};
validate_next_v1_2([Vb | Vbs], MibView, Res)
when Vb#varbind.variabletype =:= 'Counter64' ->
case validate_next_v1(
do_get_next(MibView, [mk_next_oid(Vb)], infinity), MibView) of
{noError, 0, [NVb]} ->
validate_next_v1_2(Vbs, MibView, [NVb | Res]);
{Error, Index, _OrgVb} ->
{Error, Index}
end;
validate_next_v1_2([Vb | Vbs], MibView, Res) ->
validate_next_v1_2(Vbs, MibView, [Vb | Res]);
validate_next_v1_2([], _MibView, Res) ->
{true, Res}.
%%-----------------------------------------------------------------
%% Optimization. When we get to a Counter64 object that is a table
%% column, we'll try to find the next instance. This will be the
%% next row in the table, which is a Counter64 value as well. This
%% means that we will loop through the entire table, until we find
%% a column that isn't a Counter64 column. We can optimze this by
%% adding 1 to the column-no in the oid of this instance.
%% If the table is implemented by a subagent this does not help,
%% we'll call that subagent many times. But it shouldn't be any
%% problems.
%%-----------------------------------------------------------------
mk_next_oid(Vb) ->
case snmpa_mib:lookup(get(mibserver), Oid = Vb#varbind.oid) of
{table_column, _MibEntry, TableEntryOid} ->
[Col | _] = Oid -- TableEntryOid,
Vb#varbind{oid = TableEntryOid ++ [Col+1]};
_ ->
Vb
end.
%%%-----------------------------------------------------------------
%%% 3. GET REQUEST
%%% --------------
%%% According to RFC1157, section 4.1.2 and RFC1905, section 4.2.1.
%%% In rfc1157:4.1.2 it isn't specified if noSuchName should be
%%% returned even if some other varbind generates a genErr.
%%% In rfc1905:4.2.1 this is not a problem since exceptions are
%%% used, and thus a genErr will be returned anyway.
%%%-----------------------------------------------------------------
%%-----------------------------------------------------------------
%% Func: do_get/3
%% Purpose: do_get handles "getRequests".
%% Pre: incoming varbinds have type == 'NULL', value == unSpecified
%% Returns: {noError, 0, ListOfNewVarbinds} |
%% {ErrorStatus, ErrorIndex, []}
%%-----------------------------------------------------------------
%% If this function is called from a worker-process, we *may*
%% need to tunnel into the master-agent and let it do the
%% work
do_get(MibView, UnsortedVarbinds, IsNotification) ->
do_get(MibView, UnsortedVarbinds, IsNotification, false).
do_get(MibView, UnsortedVarbinds, IsNotification, ForceMaster) ->
?vtrace("do_get -> entry with"
"~n MibView: ~p"
"~n UnsortedVarbinds: ~p"
"~n IsNotification: ~p",
[MibView, UnsortedVarbinds, IsNotification]),
case (whereis(snmp_master_agent) =:= self()) of
false when (ForceMaster =:= true) ->
%% I am a lowly worker process, handoff to the master agent
PduData = get_pdu_data(),
call(snmp_master_agent,
{do_get, MibView, UnsortedVarbinds, IsNotification, PduData});
_ ->
%% This is me, the master, so go ahead
{OutSideView, InSideView} =
split_vbs_view(UnsortedVarbinds, MibView),
{Error, Index, NewVbs} =
do_get(InSideView, IsNotification),
{Error, Index, NewVbs ++ OutSideView}
end.
split_vbs_view(Vbs, MibView) ->
?vtrace("split the varbinds view", []),
split_vbs_view(Vbs, MibView, [], []).
split_vbs_view([Vb | Vbs], MibView, Out, In) ->
case snmpa_acm:validate_mib_view(Vb#varbind.oid, MibView) of
true -> split_vbs_view(Vbs, MibView, Out, [Vb | In]);
false -> split_vbs_view(Vbs, MibView,
[Vb#varbind{value = noSuchObject} | Out], In)
end;
split_vbs_view([], _MibView, Out, In) ->
{Out, In}.
do_get(UnsortedVarbinds, IsNotification) ->
{MyVarbinds, SubagentVarbinds} = sort_varbindlist(UnsortedVarbinds),
case do_get_local(MyVarbinds, [], IsNotification) of
{noError, 0, NewMyVarbinds} ->
case do_get_subagents(SubagentVarbinds, IsNotification) of
{noError, 0, NewSubagentVarbinds} ->
{noError, 0, NewMyVarbinds ++ NewSubagentVarbinds};
{ErrorStatus, ErrorIndex, _} ->
{ErrorStatus, ErrorIndex, []}
end;
{ErrorStatus, ErrorIndex, _} ->
{ErrorStatus, ErrorIndex, []}
end.
%%-----------------------------------------------------------------
%% Func: do_get_local/3
%% Purpose: Loop the variablebindings list. We know that each varbind
%% in that list belongs to us.
%% Returns: {noError, 0, ListOfNewVarbinds} |
%% {ErrorStatus, ErrorIndex, []}
%%-----------------------------------------------------------------
do_get_local([Vb | Vbs], Res, IsNotification) ->
case try_get(Vb, IsNotification) of
NewVb when is_record(NewVb, varbind) ->
do_get_local(Vbs, [NewVb | Res], IsNotification);
ListOfNewVb when is_list(ListOfNewVb) ->
do_get_local(Vbs, lists:append(ListOfNewVb, Res), IsNotification);
{error, Error, OrgIndex} ->
{Error, OrgIndex, []}
end;
do_get_local([], Res, _IsNotification) ->
{noError, 0, Res}.
%%-----------------------------------------------------------------
%% Func: do_get_subagents/2
%% Purpose: Loop the list of varbinds for different subagents.
%% For each of them, call sub_agent_get to retreive
%% the values for them.
%% Returns: {noError, 0, ListOfNewVarbinds} |
%% {ErrorStatus, ErrorIndex, []}
%%-----------------------------------------------------------------
do_get_subagents(SubagentVarbinds, IsNotification) ->
do_get_subagents(SubagentVarbinds, [], IsNotification).
do_get_subagents([{SubAgentPid, SAVbs} | Tail], Res, IsNotification) ->
{_SAOids, Vbs} = sa_split(SAVbs),
case catch subagent_get(SubAgentPid, Vbs, IsNotification) of
{noError, 0, NewVbs} ->
do_get_subagents(Tail, lists:append(NewVbs, Res), IsNotification);
{ErrorStatus, ErrorIndex, _} ->
{ErrorStatus, ErrorIndex, []};
{'EXIT', Reason} ->
user_err("Lost contact with subagent (get) ~w. Using genErr",
[Reason]),
{genErr, 0, []}
end;
do_get_subagents([], Res, _IsNotification) ->
{noError, 0, Res}.
%%-----------------------------------------------------------------
%% Func: try_get/2
%% Returns: {error, ErrorStatus, OrgIndex} |
%% #varbind |
%% List of #varbind
%%-----------------------------------------------------------------
try_get(IVb, IsNotification) when is_record(IVb, ivarbind) ->
?vtrace("try_get(ivarbind) -> entry with"
"~n IVb: ~p", [IVb]),
get_var_value_from_ivb(IVb, IsNotification);
try_get({TableOid, TableVbs}, IsNotification) ->
?vtrace("try_get(table) -> entry with"
"~n TableOid: ~p"
"~n TableVbs: ~p", [TableOid, TableVbs]),
[#ivarbind{mibentry = MibEntry}|_] = TableVbs,
{NoAccessVbs, AccessVbs} =
check_all_table_vbs(TableVbs, IsNotification, [], []),
case get_tab_value_from_mib(MibEntry, TableOid, AccessVbs) of
{error, ErrorStatus, OrgIndex} ->
{error, ErrorStatus, OrgIndex};
NVbs ->
NVbs ++ NoAccessVbs
end.
%%-----------------------------------------------------------------
%% Make sure all requested columns are accessible.
%%-----------------------------------------------------------------
check_all_table_vbs([IVb| IVbs], IsNotification, NoA, A) ->
#ivarbind{mibentry = Me, varbind = Vb} = IVb,
case Me#me.access of
'not-accessible' ->
NNoA = [Vb#varbind{value = noSuchInstance} | NoA],
check_all_table_vbs(IVbs, IsNotification, NNoA, A);
'accessible-for-notify' when IsNotification =:= false ->
NNoA = [Vb#varbind{value = noSuchInstance} | NoA],
check_all_table_vbs(IVbs, IsNotification, NNoA, A);
'write-only' ->
NNoA = [Vb#varbind{value = noSuchInstance} | NoA],
check_all_table_vbs(IVbs, IsNotification, NNoA, A);
_ ->
check_all_table_vbs(IVbs, IsNotification, NoA, [IVb | A])
end;
check_all_table_vbs([], _IsNotification, NoA, A) -> {NoA, A}.
%%-----------------------------------------------------------------
%% Returns: {error, ErrorStatus, OrgIndex} |
%% #varbind
%%-----------------------------------------------------------------
get_var_value_from_ivb(IVb, IsNotification)
when IVb#ivarbind.status =:= noError ->
?vtrace("get_var_value_from_ivb(noError) -> entry", []),
#ivarbind{mibentry = Me, varbind = Vb} = IVb,
#varbind{org_index = OrgIndex, oid = Oid} = Vb,
case Me#me.access of
'not-accessible' ->
Vb#varbind{value = noSuchInstance};
'accessible-for-notify' when IsNotification =:= false ->
Vb#varbind{value = noSuchInstance};
'write-only' ->
Vb#varbind{value = noSuchInstance};
_ ->
case get_var_value_from_mib(Me, Oid) of
{value, Type, Value} ->
Vb#varbind{variabletype = Type, value = Value};
{error, ErrorStatus} ->
{error, ErrorStatus, OrgIndex}
end
end;
get_var_value_from_ivb(#ivarbind{status = Status, varbind = Vb}, _) ->
?vtrace("get_var_value_from_ivb(~p) -> entry", [Status]),
Vb#varbind{value = Status}.
%%-----------------------------------------------------------------
%% Func: get_var_value_from_mib/1
%% Purpose:
%% Returns: {error, ErrorStatus} |
%% {value, Type, Value}
%%-----------------------------------------------------------------
%% Pre: Oid is a correct instance Oid (lookup checked that).
%% Returns: A correct return value (see make_value_a_correct_value)
get_var_value_from_mib(#me{entrytype = variable,
asn1_type = ASN1Type,
mfa = {Mod, Func, Args}},
_Oid) ->
?vtrace("get_var_value_from_mib(variable) -> entry when"
"~n Mod: ~p"
"~n Func: ~p"
"~n Args: ~p", [Mod, Func, Args]),
Result = (catch dbg_apply(Mod, Func, [get | Args])),
% mib shall return {value, <a-nice-value-within-range>} |
% {noValue, noSuchName} (v1) |
% {noValue, noSuchObject | noSuchInstance} (v2, v1)
% everything else (including 'genErr') will generate 'genErr'.
make_value_a_correct_value(Result, ASN1Type, {Mod, Func, Args});
get_var_value_from_mib(#me{entrytype = table_column,
oid = MeOid,
asn1_type = ASN1Type,
mfa = {Mod, Func, Args}},
Oid) ->
?vtrace("get_var_value_from_mib(table_column) -> entry when"
"~n MeOid: ~p"
"~n Mod: ~p"
"~n Func: ~p"
"~n Args: ~p"
"~n Oid: ~p", [MeOid, Mod, Func, Args, Oid]),
Col = lists:last(MeOid),
Indexes = snmp_misc:diff(Oid, MeOid),
[Result] = (catch dbg_apply(Mod, Func, [get, Indexes, [Col] | Args])),
make_value_a_correct_value(Result, ASN1Type,
{Mod, Func, Args, Indexes, Col}).
%% For table operations we need to pass RestOid down to the table-function.
%% Its up to the table-function to check for noSuchInstance (ex: a
%% non-existing row).
%% Returns: {error, ErrorStatus, OrgIndex} |
%% {value, Type, Value}
get_tab_value_from_mib(#me{mfa = {Mod, Func, Args}}, TableOid, TableVbs) ->
?vtrace("get_tab_value_from_mib -> entry when"
"~n Mod: ~p"
"~n Func: ~p"
"~n Args: ~p", [Mod, Func, Args]),
TableOpsWithShortOids = deletePrefixes(TableOid, TableVbs),
SortedVBsRows = snmpa_svbl:sort_varbinds_rows(TableOpsWithShortOids),
case get_value_all_rows(SortedVBsRows, Mod, Func, Args, []) of
{Error, Index} ->
#ivarbind{varbind = Vb} = lists:nth(Index, TableVbs),
{error, Error, Vb#varbind.org_index};
ListOfValues ->
merge_varbinds_and_value(TableVbs, ListOfValues)
end.
%%-----------------------------------------------------------------
%% Values is a scrambled list of {CorrectValue, Index}, where Index
%% is index into the #ivarbind list. So for each Value, we must
%% find the corresponding #ivarbind, and merge them into a new
%% #varbind.
%% The Values list comes from validate_tab_res.
%%-----------------------------------------------------------------
merge_varbinds_and_value(IVbs, [{{value, Type, Value}, Index} | Values]) ->
#ivarbind{varbind = Vb} = lists:nth(Index, IVbs),
[Vb#varbind{variabletype = Type, value = Value} |
merge_varbinds_and_value(IVbs, Values)];
merge_varbinds_and_value(_, []) -> [].
get_value_all_rows([{[], OrgCols} | Rows], Mod, Func, Args, Res) ->
?vtrace("get_value_all_rows -> entry when"
"~n OrgCols: ~p", [OrgCols]),
Cols = [{{value, noValue, noSuchInstance}, Index} ||
{_Col, _ASN1Type, Index} <- OrgCols],
NewRes = lists:append(Cols, Res),
get_value_all_rows(Rows, Mod, Func, Args, NewRes);
get_value_all_rows([{RowIndex, OrgCols} | Rows], Mod, Func, Args, Res) ->
?vtrace("get_value_all_rows -> entry when"
"~n RowIndex: ~p"
"~n OrgCols: ~p", [RowIndex, OrgCols]),
{DOrgCols, Dup} = remove_duplicates(OrgCols),
Cols = delete_index(DOrgCols),
Result = (catch dbg_apply(Mod, Func, [get, RowIndex, Cols | Args])),
case validate_tab_res(Result, DOrgCols, {Mod, Func, Args}) of
Values when is_list(Values) ->
NVals = restore_duplicates(Dup, Values),
NewRes = lists:append(NVals, Res),
get_value_all_rows(Rows, Mod, Func, Args, NewRes);
{error, ErrorStatus, Index} ->
validate_err(row_set, {ErrorStatus, Index}, {Mod, Func, Args})
end;
get_value_all_rows([], _Mod, _Func, _Args, Res) ->
?vtrace("get_value_all_rows -> entry when done"
"~n Res: ~p", [Res]),
Res.
%%-----------------------------------------------------------------
%% Returns: list of {ShortOid, ASN1TYpe}
%%-----------------------------------------------------------------
deletePrefixes(Prefix, [#ivarbind{varbind = Varbind, mibentry = ME} | Vbs]) ->
#varbind{oid = Oid} = Varbind,
[{snmp_misc:diff(Oid, Prefix), ME#me.asn1_type} |
deletePrefixes(Prefix, Vbs)];
deletePrefixes(_Prefix, []) -> [].
%%-----------------------------------------------------------------
%% Args: {RowIndex, list of {ShortOid, ASN1Type}}
%% Returns: list of Col
%%-----------------------------------------------------------------
delete_index([{Col, _Val, _OrgIndex} | T]) ->
[Col | delete_index(T)];
delete_index([]) -> [].
%%-----------------------------------------------------------------
%% This function is called before 'get' on a table, and removes
%% any duplicate columns. It returns {Cols, DupInfo}. The Cols
%% are the unique columns. The instrumentation function is
%% called to get the values. These values, together with the
%% DupInfo, is later passed to restore_duplicates, which uses
%% the retrieved values to reconstruct the original column list,
%% but with the retrieved value for each column.
%%-----------------------------------------------------------------
remove_duplicates(Cols) ->
remove_duplicates(Cols, [], []).
remove_duplicates([{Col, V1, OrgIdx1}, {Col, V2, OrgIdx2} | T], NCols, Dup) ->
remove_duplicates([{Col, V1, OrgIdx1} | T], NCols,
[{Col, V2, OrgIdx2} | Dup]);
remove_duplicates([Col | T], NCols, Dup) ->
remove_duplicates(T, [Col | NCols], Dup);
remove_duplicates([], NCols, Dup) ->
{lists:reverse(NCols), lists:reverse(Dup)}.
restore_duplicates([], Cols) ->
[{Val, OrgIndex} || {_Col, Val, OrgIndex} <- Cols];
restore_duplicates([{Col, _Val2, OrgIndex2} | Dup],
[{Col, NVal, OrgIndex1} | Cols]) ->
[{NVal, OrgIndex2} |
restore_duplicates(Dup, [{Col, NVal, OrgIndex1} | Cols])];
restore_duplicates(Dup, [{_Col, Val, OrgIndex} | T]) ->
[{Val, OrgIndex} | restore_duplicates(Dup, T)].
%% Maps the column number to Index.
% col_to_index(0, _) -> 0;
% col_to_index(Col, [{Col, _, Index}|_]) ->
% Index;
% col_to_index(Col, [_|Cols]) ->
% col_to_index(Col, Cols).
%%-----------------------------------------------------------------
%% Three cases:
%% 1) All values ok
%% 2) table_func returned {Error, ...}
%% 3) Some value in Values list is erroneous.
%% Args: Value is a list of values from table_func(get..)
%% OrgCols is a list with {Col, ASN1Type, OrgIndex}
%% each element in Values and OrgCols correspond to each
%% other.
%%-----------------------------------------------------------------
validate_tab_res(Values, OrgCols, Mfa) when is_list(Values) ->
{_Col, _ASN1Type, OneIdx} = hd(OrgCols),
validate_tab_res(Values, OrgCols, Mfa, [], OneIdx);
validate_tab_res({noValue, Error}, OrgCols, Mfa) ->
Values = lists:duplicate(length(OrgCols), {noValue, Error}),
validate_tab_res(Values, OrgCols, Mfa);
validate_tab_res({genErr, Col}, OrgCols, Mfa) ->
case lists:keysearch(Col, 1, OrgCols) of
{value, {_Col, _ASN1Type, Index}} ->
{error, genErr, Index};
_ ->
user_err("Invalid column in {genErr, ~w} from ~w (get)",
[Col, Mfa]),
[{_Col, _ASN1Type, Index} | _] = OrgCols,
{error, genErr, Index}
end;
validate_tab_res(genErr, [{_Col, __ASN1Type, Index} | _OrgCols], _Mfa) ->
{error, genErr, Index};
validate_tab_res(Error, [{_Col, _ASN1Type, Index} | _OrgCols], Mfa) ->
user_err("Invalid return value ~w from ~w (get)",[Error, Mfa]),
{error, genErr, Index}.
validate_tab_res([Value | Values],
[{Col, ASN1Type, Index} | OrgCols],
Mfa, Res, I) ->
%% This one makes it possible to return a list of genErr, which
%% is not allowed according to the manual. But that's ok, as
%% everything else will generate a genErr! (the only problem is
%% that it won't generate a user_error).
case make_value_a_correct_value(Value, ASN1Type, Mfa) of
{error, ErrorStatus} ->
{error, ErrorStatus, Index};
CorrectValue ->
NewRes = [{Col, CorrectValue, Index} | Res],
validate_tab_res(Values, OrgCols, Mfa, NewRes, I)
end;
validate_tab_res([], [], _Mfa, Res, _I) ->
lists:reverse(Res);
validate_tab_res([], [{_Col, _ASN1Type, Index}|_], Mfa, _Res, _I) ->
user_err("Too few values returned from ~w (get)", [Mfa]),
{error, genErr, Index};
validate_tab_res(_TooMany, [], Mfa, _Res, I) ->
user_err("Too many values returned from ~w (get)", [Mfa]),
{error, genErr, I}.
%%%-----------------------------------------------------------------
%%% 4. GET-NEXT REQUEST
%%% --------------
%%% According to RFC1157, section 4.1.3 and RFC1905, section 4.2.2.
%%%-----------------------------------------------------------------
%%-----------------------------------------------------------------
%% Func: do_get_next/2
%% Purpose: do_get_next handles "getNextRequests".
%% Note: Even if it is SNMPv1, a varbind's value can be
%% endOfMibView. This is converted to noSuchName in process_pdu.
%% Returns: {noError, 0, ListOfNewVarbinds} |
%% {ErrorStatus, ErrorIndex, []}
%% Note2: ListOfNewVarbinds is not sorted in any order!!!
%% Alg: First, the variables are sorted in OID order.
%%
%% Second, next in the MIB is performed for each OID, and
%% the result is collected as: if next oid is a variable,
%% perform a get to retrieve its value; if next oid is in a
%% table, save this value and continue until we get an oid
%% outside this table. Then perform get_next on the table,
%% and continue with all endOfTables and the oid outside the
%% table; if next oid is an subagent, save this value and
%% continue as in the table case.
%%
%% Third, each response is checked for endOfMibView, or (for
%% subagents) that the Oid returned has the correct prefix.
%% (This is necessary since an SA can be registered under many
%% separated subtrees, and if the last variable in the first
%% subtree is requested in a next, the SA will return the first
%% variable in the second subtree. This might be working, since
%% there may be a variable in between these subtrees.) For each
%% of these, a new get-next is performed, one at a time.
%% This alg. might be optimised in several ways. The most
%% striking one is that the same SA might be called several
%% times, when one time should be enough. But it isn't clear
%% that this really matters, since many nexts across the same
%% subagent must be considered to be very rare.
%%-----------------------------------------------------------------
%% It may be a bit agressive to check this already,
%% but since it is a security measure, it makes sense.
do_get_next(_MibView, UnsortedVarbinds, GbMaxVBs)
when (is_integer(GbMaxVBs) andalso (length(UnsortedVarbinds) > GbMaxVBs)) ->
{tooBig, 0, []}; % What is the correct index in this case?
do_get_next(MibView, UnsortedVBs, GbMaxVBs) ->
?vt("do_get_next -> entry when"
"~n MibView: ~p"
"~n UnsortedVBs: ~p", [MibView, UnsortedVBs]),
SortedVBs = oid_sort_vbs(UnsortedVBs),
?vt("do_get_next -> "
"~n SortedVBs: ~p", [SortedVBs]),
next_loop_varbinds([], SortedVBs, MibView, [], [], GbMaxVBs).
oid_sort_vbs(Vbs) ->
lists:keysort(#varbind.oid, Vbs).
next_loop_varbinds(_, Vbs, _MibView, Res, _LAVb, GbMaxVBs)
when (is_integer(GbMaxVBs) andalso
((length(Vbs) + length(Res)) > GbMaxVBs)) ->
{tooBig, 0, []}; % What is the correct index in this case?
%% LAVb is Last Accessible Vb
next_loop_varbinds([], [Vb | Vbs], MibView, Res, LAVb, GbMaxVBs) ->
?vt("next_loop_varbinds -> entry when"
"~n Vb: ~p"
"~n MibView: ~p", [Vb, MibView]),
case varbind_next(Vb, MibView) of
endOfMibView ->
?vt("next_loop_varbind -> endOfMibView", []),
RVb = if LAVb =:= [] -> Vb;
true -> LAVb
end,
NewVb = RVb#varbind{variabletype = 'NULL', value = endOfMibView},
next_loop_varbinds([], Vbs, MibView, [NewVb | Res], [], GbMaxVBs);
{variable, ME, VarOid} when ((ME#me.access =/= 'not-accessible') andalso
(ME#me.access =/= 'write-only') andalso
(ME#me.access =/= 'accessible-for-notify')) ->
?vt("next_loop_varbind -> variable: "
"~n ME: ~p"
"~n VarOid: ~p", [ME, VarOid]),
case try_get_instance(Vb, ME) of
{value, noValue, _NoSuchSomething} ->
?vt("next_loop_varbind -> noValue", []),
%% Try next one
NewVb = Vb#varbind{oid = VarOid,
value = 'NULL'},
next_loop_varbinds([], [NewVb | Vbs], MibView, Res, [],
GbMaxVBs);
{value, Type, Value} ->
?vt("next_loop_varbind -> value"
"~n Type: ~p"
"~n Value: ~p", [Type, Value]),
NewVb = Vb#varbind{oid = VarOid,
variabletype = Type,
value = Value},
next_loop_varbinds([], Vbs, MibView, [NewVb | Res], [],
GbMaxVBs);
{error, ErrorStatus} ->
?vdebug("next loop varbinds:"
"~n ErrorStatus: ~p",[ErrorStatus]),
{ErrorStatus, Vb#varbind.org_index, []}
end;
{variable, _ME, VarOid} ->
?vt("next_loop_varbind -> variable: "
"~n VarOid: ~p", [VarOid]),
RVb = if LAVb =:= [] -> Vb;
true -> LAVb
end,
NewVb = Vb#varbind{oid = VarOid, value = 'NULL'},
next_loop_varbinds([], [NewVb | Vbs], MibView, Res, RVb, GbMaxVBs);
{table, TableOid, TableRestOid, ME} ->
?vt("next_loop_varbind -> table: "
"~n TableOid: ~p"
"~n TableRestOid: ~p"
"~n ME: ~p", [TableOid, TableRestOid, ME]),
next_loop_varbinds({table, TableOid, ME,
[{tab_oid(TableRestOid), Vb}]},
Vbs, MibView, Res, [], GbMaxVBs);
{subagent, SubAgentPid, SAOid} ->
?vt("next_loop_varbind -> subagent: "
"~n SubAgentPid: ~p"
"~n SAOid: ~p", [SubAgentPid, SAOid]),
NewVb = Vb#varbind{variabletype = 'NULL', value = 'NULL'},
next_loop_varbinds({subagent, SubAgentPid, SAOid, [NewVb]},
Vbs, MibView, Res, [], GbMaxVBs)
end;
next_loop_varbinds({table, TableOid, ME, TabOids},
[Vb | Vbs], MibView, Res, _LAVb, GbMaxVBs) ->
?vt("next_loop_varbinds(table) -> entry with"
"~n TableOid: ~p"
"~n Vb: ~p", [TableOid, Vb]),
case varbind_next(Vb, MibView) of
{table, TableOid, TableRestOid, _ME} ->
next_loop_varbinds({table, TableOid, ME,
[{tab_oid(TableRestOid), Vb} | TabOids]},
Vbs, MibView, Res, [], GbMaxVBs);
_ ->
case get_next_table(ME, TableOid, TabOids, MibView) of
{ok, TabRes, TabEndOfTabVbs} ->
NewVbs = lists:append(TabEndOfTabVbs, [Vb | Vbs]),
NewRes = lists:append(TabRes, Res),
next_loop_varbinds([], NewVbs, MibView, NewRes, [],
GbMaxVBs);
{ErrorStatus, OrgIndex} ->
?vdebug("next loop varbinds: next varbind"
"~n ErrorStatus: ~p"
"~n OrgIndex: ~p",
[ErrorStatus,OrgIndex]),
{ErrorStatus, OrgIndex, []}
end
end;
next_loop_varbinds({table, TableOid, ME, TabOids},
[], MibView, Res, _LAVb, GbMaxVBs) ->
?vt("next_loop_varbinds(table) -> entry with"
"~n TableOid: ~p", [TableOid]),
case get_next_table(ME, TableOid, TabOids, MibView) of
{ok, TabRes, TabEndOfTabVbs} ->
?vt("next_loop_varbinds(table) -> get_next_table result:"
"~n TabRes: ~p"
"~n TabEndOfTabVbs: ~p", [TabRes, TabEndOfTabVbs]),
NewRes = lists:append(TabRes, Res),
next_loop_varbinds([], TabEndOfTabVbs, MibView, NewRes, [],
GbMaxVBs);
{ErrorStatus, OrgIndex} ->
?vdebug("next loop varbinds: next table"
"~n ErrorStatus: ~p"
"~n OrgIndex: ~p",
[ErrorStatus,OrgIndex]),
{ErrorStatus, OrgIndex, []}
end;
next_loop_varbinds({subagent, SAPid, SAOid, SAVbs},
[Vb | Vbs], MibView, Res, _LAVb, GbMaxVBs) ->
?vt("next_loop_varbinds(subagent) -> entry with"
"~n SAPid: ~p"
"~n SAOid: ~p"
"~n Vb: ~p", [SAPid, SAOid, Vb]),
case varbind_next(Vb, MibView) of
{subagent, _SubAgentPid, SAOid} ->
next_loop_varbinds({subagent, SAPid, SAOid,
[Vb | SAVbs]},
Vbs, MibView, Res, [], GbMaxVBs);
_ ->
case get_next_sa(SAPid, SAOid, SAVbs, MibView) of
{ok, SARes, SAEndOfMibViewVbs} ->
NewVbs = lists:append(SAEndOfMibViewVbs, [Vb | Vbs]),
NewRes = lists:append(SARes, Res),
next_loop_varbinds([], NewVbs, MibView, NewRes, [],
GbMaxVBs);
{noSuchName, OrgIndex} ->
%% v1 reply, treat this Vb as endOfMibView, and try again
%% for the others.
case lists:keysearch(OrgIndex, #varbind.org_index, SAVbs) of
{value, EVb} ->
NextOid = next_oid(SAOid),
EndOfVb =
EVb#varbind{oid = NextOid,
value = {endOfMibView, NextOid}},
case lists:delete(EVb, SAVbs) of
[] ->
next_loop_varbinds([], [EndOfVb, Vb | Vbs],
MibView, Res, [],
GbMaxVBs);
TryAgainVbs ->
next_loop_varbinds({subagent, SAPid, SAOid,
TryAgainVbs},
[EndOfVb, Vb | Vbs],
MibView, Res, [],
GbMaxVBs)
end;
false ->
%% bad index from subagent
{genErr, (hd(SAVbs))#varbind.org_index, []}
end;
{ErrorStatus, OrgIndex} ->
?vdebug("next loop varbinds: next subagent"
"~n Vb: ~p"
"~n ErrorStatus: ~p"
"~n OrgIndex: ~p",
[Vb,ErrorStatus,OrgIndex]),
{ErrorStatus, OrgIndex, []}
end
end;
next_loop_varbinds({subagent, SAPid, SAOid, SAVbs},
[], MibView, Res, _LAVb, GbMaxVBs) ->
?vt("next_loop_varbinds(subagent) -> entry with"
"~n SAPid: ~p"
"~n SAOid: ~p", [SAPid, SAOid]),
case get_next_sa(SAPid, SAOid, SAVbs, MibView) of
{ok, SARes, SAEndOfMibViewVbs} ->
NewRes = lists:append(SARes, Res),
next_loop_varbinds([], SAEndOfMibViewVbs, MibView, NewRes, [],
GbMaxVBs);
{noSuchName, OrgIndex} ->
%% v1 reply, treat this Vb as endOfMibView, and try again for
%% the others.
case lists:keysearch(OrgIndex, #varbind.org_index, SAVbs) of
{value, EVb} ->
NextOid = next_oid(SAOid),
EndOfVb = EVb#varbind{oid = NextOid,
value = {endOfMibView, NextOid}},
case lists:delete(EVb, SAVbs) of
[] ->
next_loop_varbinds([], [EndOfVb], MibView, Res, [],
GbMaxVBs);
TryAgainVbs ->
next_loop_varbinds({subagent, SAPid, SAOid,
TryAgainVbs},
[EndOfVb], MibView, Res, [],
GbMaxVBs)
end;
false ->
%% bad index from subagent
{genErr, (hd(SAVbs))#varbind.org_index, []}
end;
{ErrorStatus, OrgIndex} ->
?vdebug("next loop varbinds: next subagent"
"~n ErrorStatus: ~p"
"~n OrgIndex: ~p",
[ErrorStatus,OrgIndex]),
{ErrorStatus, OrgIndex, []}
end;
next_loop_varbinds([], [], _MibView, Res, _LAVb, _GbMaxVBs) ->
?vt("next_loop_varbinds -> entry when done", []),
{noError, 0, Res}.
try_get_instance(_Vb, #me{mfa = {M, F, A}, asn1_type = ASN1Type}) ->
?vtrace("try_get_instance -> entry with"
"~n M: ~p"
"~n F: ~p"
"~n A: ~p", [M,F,A]),
Result = (catch dbg_apply(M, F, [get | A])),
% mib shall return {value, <a-nice-value-within-range>} |
% {noValue, noSuchName} (v1) |
% {noValue, noSuchObject | noSuchInstance} (v2, v1)
% everything else (including 'genErr') will generate 'genErr'.
make_value_a_correct_value(Result, ASN1Type, {M, F, A}).
tab_oid([]) -> [0];
tab_oid(X) -> X.
%%-----------------------------------------------------------------
%% Perform a next, using the varbinds Oid if value is simple
%% value. If value is {endOf<something>, NextOid}, use NextOid.
%% This case happens when a table has returned endOfTable, or
%% a subagent has returned endOfMibView.
%%-----------------------------------------------------------------
varbind_next(#varbind{value = Value, oid = Oid}, MibView) ->
?vt("varbind_next -> entry with"
"~n Value: ~p"
"~n Oid: ~p"
"~n MibView: ~p", [Value, Oid, MibView]),
case Value of
{endOfTable, NextOid} ->
snmpa_mib:next(get(mibserver), NextOid, MibView);
{endOfMibView, NextOid} ->
snmpa_mib:next(get(mibserver), NextOid, MibView);
_ ->
snmpa_mib:next(get(mibserver), Oid, MibView)
end.
get_next_table(#me{mfa = {M, F, A}}, TableOid, TableOids, MibView) ->
% We know that all TableOids have at least a column number as oid
?vt("get_next_table -> entry with"
"~n M: ~p"
"~n F: ~p"
"~n A: ~p"
"~n TableOid: ~p"
"~n TableOids: ~p"
"~n MibView: ~p", [M, F, A, TableOid, TableOids, MibView]),
Sorted = snmpa_svbl:sort_varbinds_rows(TableOids),
case get_next_values_all_rows(Sorted, M,F,A, [], TableOid) of
NewVbs when is_list(NewVbs) ->
?vt("get_next_table -> "
"~n NewVbs: ~p", [NewVbs]),
% We must now check each Vb for endOfTable and that it is
% in the MibView. If not, it becomes a endOfTable. We
% collect all of these together.
transform_tab_next_result(NewVbs, {[], []}, MibView);
{ErrorStatus, OrgIndex} ->
{ErrorStatus, OrgIndex}
end.
get_next_values_all_rows([Row | Rows], M, F, A, Res, TabOid) ->
{RowIndex, TableOids} = Row,
Cols = delete_index(TableOids),
?vt("get_next_values_all_rows -> "
"~n Cols: ~p", [Cols]),
Result = (catch dbg_apply(M, F, [get_next, RowIndex, Cols | A])),
?vt("get_next_values_all_rows -> "
"~n Result: ~p", [Result]),
case validate_tab_next_res(Result, TableOids, {M, F, A}, TabOid) of
Values when is_list(Values) ->
?vt("get_next_values_all_rows -> "
"~n Values: ~p", [Values]),
NewRes = lists:append(Values, Res),
get_next_values_all_rows(Rows, M, F, A, NewRes, TabOid);
{ErrorStatus, OrgIndex} ->
{ErrorStatus, OrgIndex}
end;
get_next_values_all_rows([], _M, _F, _A, Res, _TabOid) ->
Res.
transform_tab_next_result([Vb | Vbs], {Res, EndOfs}, MibView) ->
case Vb#varbind.value of
{endOfTable, _} ->
%% ?vtrace("transform_tab_next_result -> endOfTable: "
%% "split varbinds",[]),
%% R = split_varbinds(Vbs, Res, [Vb | EndOfs]),
%% ?vtrace("transform_tab_next_result -> "
%% "~n R: ~p", [R]),
%% R;
split_varbinds(Vbs, Res, [Vb | EndOfs]);
_ ->
case snmpa_acm:validate_mib_view(Vb#varbind.oid, MibView) of
true ->
transform_tab_next_result(Vbs, {[Vb|Res], EndOfs},MibView);
_ ->
Oid = Vb#varbind.oid,
NewEndOf = Vb#varbind{value = {endOfTable, Oid}},
transform_tab_next_result(Vbs, {Res, [NewEndOf | EndOfs]},
MibView)
end
end;
transform_tab_next_result([], {Res, EndOfs}, _MibView) ->
?vt("transform_tab_next_result -> entry with: "
"~n Res: ~p"
"~n EndIfs: ~p",[Res, EndOfs]),
{ok, Res, EndOfs}.
%%-----------------------------------------------------------------
%% Three cases:
%% 1) All values ok
%% 2) table_func returned {Error, ...}
%% 3) Some value in Values list is erroneous.
%% Args: Value is a list of values from table_func(get_next, ...)
%% TableOids is a list of {TabRestOid, OrgVb}
%% each element in Values and TableOids correspond to each
%% other.
%% Returns: List of NewVarbinds |
%% {ErrorStatus, OrgIndex}
%% (In the NewVarbinds list, the value may be endOfTable)
%%-----------------------------------------------------------------
validate_tab_next_res(Values, TableOids, Mfa, TabOid) ->
?vt("validate_tab_next_res -> entry with: "
"~n Values: ~p"
"~n TableOids: ~p"
"~n Mfa: ~p"
"~n TabOid: ~p", [Values, TableOids, Mfa, TabOid]),
{_Col, _ASN1Type, OneIdx} = hd(TableOids),
validate_tab_next_res(Values, TableOids, Mfa, [], TabOid,
next_oid(TabOid), OneIdx).
validate_tab_next_res([{NextOid, Value} | Values],
[{_ColNo, OrgVb, _Index} | TableOids],
Mfa, Res, TabOid, TabNextOid, I) ->
?vt("validate_tab_next_res -> entry with: "
"~n NextOid: ~p"
"~n Value: ~p"
"~n Values: ~p"
"~n TableOids: ~p"
"~n Mfa: ~p"
"~n TabOid: ~p",
[NextOid, Value, Values, TableOids, Mfa, TabOid]),
#varbind{org_index = OrgIndex} = OrgVb,
?vt("validate_tab_next_res -> OrgIndex: ~p", [OrgIndex]),
NextCompleteOid = lists:append(TabOid, NextOid),
case snmpa_mib:lookup(get(mibserver), NextCompleteOid) of
{table_column, #me{asn1_type = ASN1Type}, _TableEntryOid} ->
?vt("validate_tab_next_res -> ASN1Type: ~p", [ASN1Type]),
case make_value_a_correct_value({value, Value}, ASN1Type, Mfa) of
{error, ErrorStatus} ->
?vt("validate_tab_next_res -> "
"~n ErrorStatus: ~p", [ErrorStatus]),
{ErrorStatus, OrgIndex};
{value, Type, NValue} ->
?vt("validate_tab_next_res -> "
"~n Type: ~p"
"~n NValue: ~p", [Type, NValue]),
NewVb = OrgVb#varbind{oid = NextCompleteOid,
variabletype = Type, value = NValue},
validate_tab_next_res(Values, TableOids, Mfa,
[NewVb | Res], TabOid, TabNextOid, I)
end;
Error ->
user_err("Invalid oid ~w from ~w (get_next). Using genErr => ~p",
[NextOid, Mfa, Error]),
{genErr, OrgIndex}
end;
validate_tab_next_res([endOfTable | Values],
[{_ColNo, OrgVb, _Index} | TableOids],
Mfa, Res, TabOid, TabNextOid, I) ->
?vt("validate_tab_next_res(endOfTable) -> entry with: "
"~n Values: ~p"
"~n OrgVb: ~p"
"~n TableOids: ~p"
"~n Mfa: ~p"
"~n Res: ~p"
"~n TabOid: ~p"
"~n TabNextOid: ~p"
"~n I: ~p",
[Values, OrgVb, TableOids, Mfa, Res, TabOid, TabNextOid, I]),
NewVb = OrgVb#varbind{value = {endOfTable, TabNextOid}},
validate_tab_next_res(Values, TableOids, Mfa, [NewVb | Res],
TabOid, TabNextOid, I);
validate_tab_next_res([], [], _Mfa, Res, _TabOid, _TabNextOid, _I) ->
Res;
validate_tab_next_res([], [{_Col, _OrgVb, Index}|_], Mfa, _Res, _, _, _I) ->
user_err("Too few values returned from ~w (get_next)", [Mfa]),
{genErr, Index};
validate_tab_next_res({genErr, ColNumber}, OrgCols,
Mfa, _Res, _TabOid, _TabNextOid, _I) ->
OrgIndex = snmpa_svbl:col_to_orgindex(ColNumber, OrgCols),
validate_err(table_next, {genErr, OrgIndex}, Mfa);
validate_tab_next_res({error, Reason}, [{_ColNo, OrgVb, _Index} | _TableOids],
Mfa, _Res, _TabOid, _TabNextOid, _I) ->
#varbind{org_index = OrgIndex} = OrgVb,
user_err("Erroneous return value ~w from ~w (get_next)",
[Reason, Mfa]),
{genErr, OrgIndex};
validate_tab_next_res(Error, [{_ColNo, OrgVb, _Index} | _TableOids],
Mfa, _Res, _TabOid, _TabNextOid, _I) ->
#varbind{org_index = OrgIndex} = OrgVb,
user_err("Invalid return value ~w from ~w (get_next)",
[Error, Mfa]),
{genErr, OrgIndex};
validate_tab_next_res(TooMany, [], Mfa, _Res, _, _, I) ->
user_err("Too many values ~w returned from ~w (get_next)",
[TooMany, Mfa]),
{genErr, I}.
%%-----------------------------------------------------------------
%% Func: get_next_sa/4
%% Purpose: Loop the list of varbinds for the subagent.
%% Call subagent_get_next to retreive
%% the next varbinds.
%% Returns: {ok, ListOfNewVbs, ListOfEndOfMibViewsVbs} |
%% {ErrorStatus, ErrorIndex}
%%-----------------------------------------------------------------
get_next_sa(SAPid, SAOid, SAVbs, MibView) ->
case catch subagent_get_next(SAPid, MibView, SAVbs) of
{noError, 0, NewVbs} ->
NewerVbs = transform_sa_next_result(NewVbs,SAOid,next_oid(SAOid)),
split_varbinds(NewerVbs, [], []);
{ErrorStatus, ErrorIndex, _} ->
{ErrorStatus, ErrorIndex};
{'EXIT', Reason} ->
user_err("Lost contact with subagent (next) ~w. Using genErr",
[Reason]),
{genErr, 0}
end.
%%-----------------------------------------------------------------
%% Check for wrong prefix returned or endOfMibView, and convert
%% into {endOfMibView, SANextOid}.
%%-----------------------------------------------------------------
transform_sa_next_result([Vb | Vbs], SAOid, SANextOid)
when Vb#varbind.value =:= endOfMibView ->
[Vb#varbind{value = {endOfMibView, SANextOid}} |
transform_sa_next_result(Vbs, SAOid, SANextOid)];
transform_sa_next_result([Vb | Vbs], SAOid, SANextOid) ->
case lists:prefix(SAOid, Vb#varbind.oid) of
true ->
[Vb | transform_sa_next_result(Vbs, SAOid, SANextOid)];
_ ->
[Vb#varbind{oid = SANextOid, value = {endOfMibView, SANextOid}} |
transform_sa_next_result(Vbs, SAOid, SANextOid)]
end;
transform_sa_next_result([], _SAOid, _SANextOid) ->
[].
split_varbinds([Vb | Vbs], Res, EndOfs) ->
case Vb#varbind.value of
{endOfMibView, _} -> split_varbinds(Vbs, Res, [Vb | EndOfs]);
{endOfTable, _} -> split_varbinds(Vbs, Res, [Vb | EndOfs]);
_ -> split_varbinds(Vbs, [Vb | Res], EndOfs)
end;
split_varbinds([], Res, EndOfs) -> {ok, Res, EndOfs}.
next_oid(Oid) ->
case lists:reverse(Oid) of
[H | T] -> lists:reverse([H+1 | T]);
[] -> []
end.
%%%-----------------------------------------------------------------
%%% 5. GET-BULK REQUEST
%%%
%%% In order to prevent excesses in reply sizes there are two
%%% preventive methods in place. One is to check that the encode
%%% size does not exceed Max PDU size (this is mentioned in the
%%% standard). The other is a simple VBs limit. That is, the
%%% resulting response cannot contain more then this number of VBs.
%%%-----------------------------------------------------------------
do_get_bulk(MibView, NonRepeaters, MaxRepetitions, PduMS, Varbinds, GbMaxVBs) ->
?vtrace("do_get_bulk -> entry with"
"~n MibView: ~p"
"~n NonRepeaters: ~p"
"~n MaxRepetitions: ~p"
"~n PduMS: ~p"
"~n Varbinds: ~p"
"~n GbMaxVBs: ~p",
[MibView, NonRepeaters, MaxRepetitions, PduMS, Varbinds, GbMaxVBs]),
{NonRepVbs, RestVbs} = split_vbs(NonRepeaters, Varbinds, []),
?vt("do_get_bulk -> split: "
"~n NonRepVbs: ~p"
"~n RestVbs: ~p", [NonRepVbs, RestVbs]),
case do_get_next(MibView, NonRepVbs, GbMaxVBs) of
{noError, 0, UResNonRepVbs} ->
?vt("do_get_bulk -> next noError: "
"~n UResNonRepVbs: ~p", [UResNonRepVbs]),
ResNonRepVbs = lists:keysort(#varbind.org_index, UResNonRepVbs),
%% Decode the first varbinds, produce a reversed list of
%% listOfBytes.
case (catch enc_vbs(PduMS - ?empty_pdu_size, ResNonRepVbs)) of
{error, Idx, Reason} ->
user_err("failed encoding varbind ~w:~n~p", [Idx, Reason]),
{genErr, Idx, []};
{SizeLeft, Res} when is_integer(SizeLeft) and is_list(Res) ->
?vtrace("do_get_bulk -> encoded: "
"~n SizeLeft: ~p"
"~n Res: ~w", [SizeLeft, Res]),
case (catch do_get_rep(SizeLeft, MibView, MaxRepetitions,
RestVbs, Res,
length(UResNonRepVbs), GbMaxVBs)) of
{error, Idx, Reason} ->
user_err("failed encoding varbind ~w:~n~p",
[Idx, Reason]),
{genErr, Idx, []};
Res when is_list(Res) ->
?vtrace("do get bulk -> Res: "
"~n ~w", [Res]),
{noError, 0, conv_res(Res)};
{noError, 0, Data} = OK ->
?vtrace("do get bulk -> OK: "
"~n length(Data): ~w", [length(Data)]),
OK;
Else ->
?vtrace("do get bulk -> Else: "
"~n ~w", [Else]),
Else
end;
Res when is_list(Res) ->
{noError, 0, conv_res(Res)}
end;
{ErrorStatus, Index, _} ->
?vdebug("do get bulk: "
"~n ErrorStatus: ~p"
"~n Index: ~p",[ErrorStatus, Index]),
{ErrorStatus, Index, []}
end.
% sz(L) when list(L) -> length(L);
% sz(B) when binary(B) -> size(B);
% sz(_) -> unknown.
split_vbs(N, Varbinds, Res) when N =< 0 -> {Res, Varbinds};
split_vbs(N, [H | T], Res) -> split_vbs(N-1, T, [H | Res]);
split_vbs(_N, [], Res) -> {Res, []}.
enc_vbs(SizeLeft, Vbs) ->
?vt("enc_vbs -> entry with"
"~n SizeLeft: ~w", [SizeLeft]),
Fun = fun(Vb, {Sz, Res}) when Sz > 0 ->
?vt("enc_vbs -> (fun) entry with"
"~n Vb: ~p"
"~n Sz: ~p"
"~n Res: ~w", [Vb, Sz, Res]),
case (catch snmp_pdus:enc_varbind(Vb)) of
{'EXIT', Reason} ->
?vtrace("enc_vbs -> encode failed: "
"~n Reason: ~p", [Reason]),
throw({error, Vb#varbind.org_index, Reason});
X ->
?vt("enc_vbs -> X: ~w", [X]),
Lx = length(X),
?vt("enc_vbs -> Lx: ~w", [Lx]),
if
Lx < Sz ->
{Sz - length(X), [X | Res]};
true ->
throw(Res)
end
end;
(_Vb, {_Sz, [_H | T]}) ->
?vt("enc_vbs -> (fun) entry with"
"~n T: ~p", [T]),
throw(T);
(_Vb, {_Sz, []}) ->
?vt("enc_vbs -> (fun) entry", []),
throw([])
end,
lists:foldl(Fun, {SizeLeft, []}, Vbs).
do_get_rep(Sz, MibView, MaxRepetitions, Varbinds, Res, GbNumVBs, GbMaxVBs)
when MaxRepetitions >= 0 ->
do_get_rep(Sz, MibView, 0, MaxRepetitions, Varbinds, Res,
GbNumVBs, GbMaxVBs);
do_get_rep(Sz, MibView, _MaxRepetitions, Varbinds, Res, GbNumVBs, GbMaxVBs) ->
do_get_rep(Sz, MibView, 0, 0, Varbinds, Res, GbNumVBs, GbMaxVBs).
conv_res(ResVarbinds) ->
conv_res(ResVarbinds, []).
conv_res([VbListOfBytes | T], Bytes) ->
conv_res(T, VbListOfBytes ++ Bytes);
conv_res([], Bytes) ->
Bytes.
%% The only only other value, then a positive integer, is infinity.
do_get_rep(_Sz, _MibView, Count, Max, _, _Res, GbNumVBs, GbMaxVBs)
when (is_integer(GbMaxVBs) andalso (GbNumVBs > GbMaxVBs)) ->
?vinfo("Max Get-BULK VBs limit (~w) exceeded (~w) when:"
"~n Count: ~p"
"~n Max: ~p", [GbMaxVBs, GbNumVBs, Count, Max]),
{tooBig, 0, []};
do_get_rep(_Sz, _MibView, Max, Max, _, Res, _GbNumVBs, _GbMaxVBs) ->
?vt("do_get_rep -> done when: "
"~n Res: ~p", [Res]),
{noError, 0, conv_res(Res)};
do_get_rep(Sz, MibView, Count, Max, Varbinds, Res, GbNumVBs, GbMaxVBs) ->
?vt("do_get_rep -> entry when: "
"~n Sz: ~p"
"~n Count: ~p"
"~n Res: ~w", [Sz, Count, Res]),
case try_get_bulk(Sz, MibView, Varbinds, GbMaxVBs) of
{noError, NextVarbinds, SizeLeft, Res2} ->
?vt("do_get_rep -> noError: "
"~n SizeLeft: ~p"
"~n Res2: ~p", [SizeLeft, Res2]),
do_get_rep(SizeLeft, MibView, Count+1, Max, NextVarbinds,
Res2 ++ Res,
GbNumVBs + length(Varbinds), GbMaxVBs);
{endOfMibView, _NextVarbinds, _SizeLeft, Res2} ->
?vt("do_get_rep -> endOfMibView: "
"~n Res2: ~p", [Res2]),
{noError, 0, conv_res(Res2 ++ Res)};
{ErrorStatus, Index} ->
?vtrace("do_get_rep -> done when error: "
"~n ErrorStatus: ~p"
"~n Index: ~p", [ErrorStatus, Index]),
{ErrorStatus, Index, []}
end.
org_index_sort_vbs(Vbs) ->
lists:keysort(#varbind.org_index, Vbs).
try_get_bulk(Sz, MibView, Varbinds, GbMaxVBs) ->
?vt("try_get_bulk -> entry with"
"~n Sz: ~w"
"~n MibView: ~w"
"~n Varbinds: ~w", [Sz, MibView, Varbinds]),
case do_get_next(MibView, Varbinds, GbMaxVBs) of
{noError, 0, UNextVarbinds} ->
?vt("try_get_bulk -> noError: "
"~n UNextVarbinds: ~p", [UNextVarbinds]),
NextVarbinds = org_index_sort_vbs(UNextVarbinds),
case (catch enc_vbs(Sz, NextVarbinds)) of
{error, Idx, Reason} ->
user_err("failed encoding varbind ~w:~n~p", [Idx, Reason]),
?vtrace("try_get_bulk -> encode error: "
"~n Idx: ~p"
"~n Reason: ~p", [Idx, Reason]),
{genErr, Idx};
{SizeLeft, Res} when is_integer(SizeLeft) andalso
is_list(Res) ->
?vt("try get bulk -> encode ok: "
"~n SizeLeft: ~w"
"~n Res: ~w", [SizeLeft, Res]),
{check_end_of_mibview(NextVarbinds),
NextVarbinds, SizeLeft, Res};
Res when is_list(Res) ->
?vt("try get bulk -> Res: "
"~n ~w", [Res]),
{endOfMibView, [], 0, Res}
end;
{ErrorStatus, Index, _} ->
?vt("try_get_bulk -> error: "
"~n ErrorStatus: ~p"
"~n Index: ~p", [ErrorStatus, Index]),
{ErrorStatus, Index}
end.
%% If all variables in this pass are endOfMibView,
%% there is no reason to continue.
check_end_of_mibview([#varbind{value = endOfMibView} | T]) ->
check_end_of_mibview(T);
check_end_of_mibview([]) -> endOfMibView;
check_end_of_mibview(_) -> noError.
%%%--------------------------------------------------
%%% 6. SET REQUEST
%%%--------------------------------------------------
%% return: {ErrStatus, ErrIndex}
%% where ErrIndex is an index in Varbinds list (not org_index (user-functions
%% doesn't see org_index)).
do_set(MibView, UnsortedVarbinds) ->
SetModule = get(set_module),
?vtrace("set module: ~p",[SetModule]),
apply(SetModule, do_set, [MibView, UnsortedVarbinds]).
do_subagent_set(Arguments) ->
SetModule = get(set_module),
apply(SetModule, do_subagent_set, [Arguments]).
%%%-----------------------------------------------------------------
%%% 7. Misc functions
%%%-----------------------------------------------------------------
sort_varbindlist(Varbinds) ->
snmpa_svbl:sort_varbindlist(get(mibserver), Varbinds).
sa_split(SubagentVarbinds) ->
snmpa_svbl:sa_split(SubagentVarbinds).
make_response_pdu(ReqId, ErrStatus, ErrIndex, OrgVarbinds, _ResponseVarbinds)
when ErrIndex =/= 0 ->
#pdu{type = 'get-response', request_id = ReqId, error_status = ErrStatus,
error_index = ErrIndex, varbinds = OrgVarbinds};
make_response_pdu(ReqId, ErrStatus, ErrIndex, _OrgVarbinds, ResponseVarbinds) ->
#pdu{type = 'get-response', request_id = ReqId, error_status = ErrStatus,
error_index = ErrIndex, varbinds = ResponseVarbinds}.
%% Valid errormsgs for different operations.
validate_err(consistency_check, {'EXIT', _Reason}, _) ->
{genErr, 0};
validate_err(consistency_check, X, _) ->
X;
validate_err(is_set_ok, noError, _) -> noError;
validate_err(is_set_ok, noCreation, _) -> noCreation;
validate_err(is_set_ok, inconsistentValue, _) -> inconsistentValue;
validate_err(is_set_ok, resourceUnavailable, _) -> resourceUnavailable;
validate_err(is_set_ok, inconsistentName, _) -> inconsistentName;
validate_err(is_set_ok, badValue, _) -> badValue;
validate_err(is_set_ok, wrongValue, _) -> wrongValue;
validate_err(is_set_ok, noSuchName, _) -> noSuchName;
validate_err(is_set_ok, noAccess, _) -> noAccess;
validate_err(is_set_ok, notWritable, _) -> notWritable;
validate_err(is_set_ok, genErr, _) -> genErr;
validate_err(is_set_ok, X, Mfa) ->
user_err("~w with is_set_ok, returned: ~w. Using genErr.",
[Mfa, X]),
genErr;
validate_err(set, commitFailed, _) -> commitFailed;
validate_err(set, undoFailed, _) -> undoFailed;
validate_err(set, noError, _) -> noError;
validate_err(set, genErr, _) -> genErr;
validate_err(set, X, Mfa) ->
user_err("~w with set, returned: ~w. Using genErr.",
[Mfa, X]),
genErr;
validate_err(undo, undoFailed, _) -> undoFailed;
validate_err(undo, noError, _) -> noError;
validate_err(undo, genErr, _) -> genErr;
validate_err(undo, X, Mfa) ->
user_err("~w with undo, returned: ~w. Using genErr.",
[Mfa, X]),
genErr;
validate_err(table_is_set_ok, {Err, Idx}, Mfa) when is_integer(Idx) ->
{validate_err(is_set_ok, Err, Mfa), Idx};
validate_err(table_is_set_ok, X, Mfa) ->
user_err("~w with is_set_ok (table), returned: ~w. Using genErr.",
[Mfa, X]),
{genErr, 0};
validate_err(row_is_set_ok, {Err, Idx}, _) when is_integer(Idx) ->
{Err, Idx};
validate_err(row_is_set_ok, {_Err, {false, BadCol}}, Mfa) ->
user_err("~w with is_set_ok (table), returned bad column: "
"~w. Using genErr.", [Mfa, BadCol]),
{genErr, 0};
validate_err(table_undo, {Err, Idx}, Mfa) when is_integer(Idx) ->
{validate_err(undo, Err, Mfa), Idx};
validate_err(table_undo, X, Mfa) ->
user_err("~w with undo (table), returned: ~w. Using genErr.",
[Mfa, X]),
{genErr, 0};
validate_err(row_undo, {Err, Idx}, _) when is_integer(Idx) ->
{Err, Idx};
validate_err(row_undo, {_Err, {false, BadCol}}, Mfa) ->
user_err("~w with undo (table), returned bad column: "
"~w. Using genErr.", [Mfa, BadCol]),
{genErr, 0};
validate_err(table_set, {Err, Idx}, Mfa) when is_integer(Idx) ->
{validate_err(set, Err, Mfa), Idx};
validate_err(table_set, X, Mfa) ->
user_err("~w with set (table), returned: ~w. Using genErr.",
[Mfa, X]),
{genErr, 0};
validate_err(row_set, {Err, Idx}, _) when is_integer(Idx) ->
{Err, Idx};
validate_err(row_set, {_Err, {false, BadCol}}, Mfa) ->
user_err("~w with set (table), returned bad column: "
"~w. Using genErr.", [Mfa, BadCol]),
{genErr, 0};
validate_err(table_next, {Err, Idx}, _Mfa) when is_integer(Idx) ->
{Err, Idx};
validate_err(table_next, {_Err, {false, BadCol}}, Mfa) ->
user_err("~w with get_next, returned bad column: "
"~w. Using genErr.", [Mfa, BadCol]),
{genErr, 0}.
validate_err(v2_to_v1, {V2Err, Index}) ->
{v2err_to_v1err(V2Err), Index};
validate_err(v2_to_v1, _) ->
{genErr, 0}.
get_err({ErrC, ErrI, Vbs}) ->
{get_err_i(ErrC), ErrI, Vbs}.
get_err_i(noError) -> noError;
get_err_i(tooBig) -> tooBig; % OTP-9700
get_err_i(ES) -> ?vtrace("convert ErrorStatus '~p' to 'genErr'", [ES]), genErr.
v2err_to_v1err(noError) -> noError;
v2err_to_v1err(noAccess) -> noSuchName;
v2err_to_v1err(noCreation) -> noSuchName;
v2err_to_v1err(notWritable) -> noSuchName;
v2err_to_v1err(wrongLength) -> badValue;
v2err_to_v1err(wrongEncoding) -> badValue;
v2err_to_v1err(wrongType) -> badValue;
v2err_to_v1err(wrongValue) -> badValue;
v2err_to_v1err(inconsistentValue) -> badValue;
v2err_to_v1err(inconsistentName) -> noSuchName;
v2err_to_v1err(noSuchName) -> noSuchName;
v2err_to_v1err(badValue) -> badValue;
v2err_to_v1err(authorizationError) -> noSuchName;
%% genErr | resourceUnavailable | undoFailed | commitFailed -> genErr
v2err_to_v1err(_Error) -> genErr.
%%-----------------------------------------------------------------
%% transforms a (hopefully correct) return value ((perhaps) from a
%% mib-function) to a typed and guaranteed correct return value.
%% An incorrect return value is transformed to {error, genErr}.
%% A correct return value is on the form:
%% {error, <error-msg>} | {value, <variable-type>, <value>}
%%-----------------------------------------------------------------
make_value_a_correct_value({value, Val}, Asn1, Mfa)
when Asn1#asn1_type.bertype =:= 'INTEGER' ->
check_integer(Val, Asn1, Mfa);
make_value_a_correct_value({value, Val}, Asn1, Mfa)
when Asn1#asn1_type.bertype =:= 'Counter32' ->
check_integer(Val, Asn1, Mfa);
make_value_a_correct_value({value, Val}, Asn1, Mfa)
when Asn1#asn1_type.bertype =:= 'Unsigned32' ->
check_integer(Val, Asn1, Mfa);
make_value_a_correct_value({value, Val}, Asn1, Mfa)
when Asn1#asn1_type.bertype =:= 'TimeTicks' ->
check_integer(Val, Asn1, Mfa);
make_value_a_correct_value({value, Val}, Asn1, Mfa)
when Asn1#asn1_type.bertype =:= 'Counter64' ->
check_integer(Val, Asn1, Mfa);
make_value_a_correct_value({value, Val}, Asn1, Mfa)
when (Asn1#asn1_type.bertype =:= 'BITS') andalso is_list(Val) ->
{value,Kibbles} = snmp_misc:assq(kibbles,Asn1#asn1_type.assocList),
case snmp_misc:bits_to_int(Val,Kibbles) of
error ->
wrongValue(Val, Mfa);
Int ->
make_value_a_correct_value({value,Int},Asn1,Mfa)
end;
make_value_a_correct_value({value, Val}, Asn1, Mfa)
when (Asn1#asn1_type.bertype =:= 'BITS') andalso is_integer(Val) ->
{value,Kibbles} = snmp_misc:assq(kibbles,Asn1#asn1_type.assocList),
{_Kibble,BitNo} = lists:last(Kibbles),
case (1 bsl (BitNo+1)) of
X when Val < X ->
{value,'BITS',Val};
_Big ->
wrongValue(Val, Mfa)
end;
make_value_a_correct_value({value, String},
#asn1_type{bertype = 'OCTET STRING',
hi = Hi, lo = Lo}, Mfa) ->
check_octet_string(String, Hi, Lo, Mfa, 'OCTET STRING');
make_value_a_correct_value({value, String},
#asn1_type{bertype = 'IpAddress',
hi = Hi, lo = Lo}, Mfa) ->
check_octet_string(String, Hi, Lo, Mfa, 'IpAddress');
make_value_a_correct_value({value, Oid},
#asn1_type{bertype = 'OBJECT IDENTIFIER'},
_Mfa) ->
case snmp_misc:is_oid(Oid) of
true -> {value, 'OBJECT IDENTIFIER', Oid};
_Else -> {error, wrongType}
end;
make_value_a_correct_value({value, Val}, Asn1, _Mfa)
when Asn1#asn1_type.bertype =:= 'Opaque' ->
if is_list(Val) -> {value, 'Opaque', Val};
true -> {error, wrongType}
end;
make_value_a_correct_value({noValue, noSuchObject}, _ASN1Type, _Mfa) ->
{value, noValue, noSuchObject};
make_value_a_correct_value({noValue, noSuchInstance}, _ASN1Type, _Mfa) ->
{value, noValue, noSuchInstance};
make_value_a_correct_value({noValue, noSuchName}, _ASN1Type, _Mfa) ->
%% Transform this into a v2 value. It is converted to noSuchName
%% later if it was v1. If it was v2, we use noSuchInstance.
{value, noValue, noSuchInstance};
%% For backwards compatibility only - we really shouldn't allow this;
%% it makes no sense to return unSpecified for a variable! But we did
%% allow it previously. -- We transform unSpecified to noSuchInstance
%% (OTP-3303).
make_value_a_correct_value({noValue, unSpecified}, _ASN1Type, _Mfa) ->
{value, noValue, noSuchInstance};
make_value_a_correct_value(genErr, _ASN1Type, _MFA) ->
{error, genErr};
make_value_a_correct_value(_WrongVal, _ASN1Type, undef) ->
{error, genErr};
make_value_a_correct_value(WrongVal, ASN1Type, Mfa) ->
user_err("Got ~w from ~w. (~w) Using genErr",
[WrongVal, Mfa, ASN1Type]),
{error, genErr}.
check_integer(Val, Asn1, Mfa) ->
case Asn1#asn1_type.assocList of
undefined -> check_size(Val, Asn1, Mfa);
Alist ->
case snmp_misc:assq(enums, Alist) of
{value, Enums} -> check_enums(Val, Asn1, Enums, Mfa);
false -> check_size(Val, Asn1, Mfa)
end
end.
check_octet_string(String, Hi, Lo, Mfa, Type) ->
Len = (catch length(String)), % it might not be a list
case snmp_misc:is_string(String) of
true when Lo =:= undefined -> {value, Type, String};
true when Len =< Hi, Len >= Lo ->
{value, Type, String};
true ->
wrongLength(String, Mfa);
_Else ->
wrongType(String, Mfa)
end.
check_size(Val, #asn1_type{lo = Lo, hi = Hi, bertype = Type}, Mfa)
when is_integer(Val) ->
?vtrace("check size of integer: "
"~n Value: ~p"
"~n Upper limit: ~p"
"~n Lower limit: ~p"
"~n BER-type: ~p",
[Val,Hi,Lo,Type]),
if
(Lo =:= undefined) andalso (Hi =:= undefined) -> {value, Type, Val};
(Lo =:= undefined) andalso is_integer(Hi) andalso (Val =< Hi) ->
{value, Type, Val};
is_integer(Lo) andalso (Val >= Lo) andalso (Hi =:= undefined) ->
{value, Type, Val};
is_integer(Lo) andalso is_integer(Hi) andalso (Val >= Lo) andalso (Val =< Hi) ->
{value, Type, Val};
true ->
wrongValue(Val, Mfa)
end;
check_size(Val, _, Mfa) ->
wrongType(Val, Mfa).
check_enums(Val, Asn1, Enums, Mfa) ->
Association =
if
is_integer(Val) -> lists:keysearch(Val, 2, Enums);
is_atom(Val) -> lists:keysearch(Val, 1, Enums);
true -> {error, wrongType}
end,
case Association of
{value, {_AliasIntName, Val2}} ->
{value, Asn1#asn1_type.bertype, Val2};
false ->
wrongValue(Val, Mfa);
{error, wrongType} ->
wrongType(Val, Mfa)
end.
wrongLength(Val, Mfa) ->
report_err(Val, Mfa, wrongLength).
wrongValue(Val, Mfa) ->
report_err(Val, Mfa, wrongValue).
wrongType(Val, Mfa) ->
report_err(Val, Mfa, wrongType).
report_err(_Val, undef, Err) ->
{error, Err};
report_err(Val, Mfa, Err) ->
user_err("Got ~p from ~w. Using ~w", [Val, Mfa, Err]),
{error, Err}.
is_valid_pdu_type('get-request') -> true;
is_valid_pdu_type('get-next-request') -> true;
is_valid_pdu_type('get-bulk-request') -> true;
is_valid_pdu_type('set-request') -> true;
is_valid_pdu_type(_) -> false.
get_pdu_data() ->
{get(net_if_data),
get(snmp_request_id),
get(snmp_address),
get(snmp_community),
get(snmp_context)}.
put_pdu_data({Extra, ReqId, Address, Community, ContextName}) ->
{put(net_if_data, Extra),
put(snmp_address, Address),
put(snmp_request_id, ReqId),
put(snmp_community, Community),
put(snmp_context, ContextName)}.
tr_var(Oid, Idx) ->
case snmp_misc:is_oid(Oid) of
true ->
{#varbind{oid = Oid, value = unSpecified, org_index = Idx},
Idx+1};
false -> throw({error, {bad_oid, Oid}})
end.
tr_varbind(#varbind{value = Value}) -> Value.
mapfoldl(F, Eas, Accu0, [Hd|Tail]) ->
{R,Accu1} = apply(F, [Hd,Accu0|Eas]),
{Accu2,Rs} = mapfoldl(F, Eas, Accu1, Tail),
{Accu2,[R|Rs]};
mapfoldl(_F, _Eas, Accu, []) -> {Accu,[]}.
%%-----------------------------------------------------------------
%% Runtime debugging of the agent.
%%-----------------------------------------------------------------
dbg_apply(M,F,A) ->
case get(verbosity) of
silence ->
apply(M,F,A);
_ ->
?vlog("~n apply: ~w,~w,~p~n", [M,F,A]),
Res = (catch apply(M,F,A)),
case Res of
{'EXIT', Reason} ->
?vinfo("Call to: "
"~n Module: ~p"
"~n Function: ~p"
"~n Args: ~p"
"~n"
"~nresulted in an exit"
"~n"
"~n ~p", [M, F, A, Reason]);
_ ->
?vlog("~n returned: ~p", [Res])
end,
Res
end.
short_name(none) -> ma;
short_name(_Pid) -> sa.
worker_short_name(ma) -> maw;
worker_short_name(_) -> saw.
trap_sender_short_name(ma) -> mats;
trap_sender_short_name(_) -> sats.
pdu_handler_short_name(ma) -> maph;
pdu_handler_short_name(_) -> saph.
mib_server_verbosity(Pid,Verbosity) when is_pid(Pid) ->
snmpa_mib:verbosity(Pid,Verbosity);
mib_server_verbosity(_Pid,_Verbosity) ->
ok.
note_store_verbosity(Pid,Verbosity) when is_pid(Pid) ->
snmp_note_store:verbosity(Pid,Verbosity);
note_store_verbosity(_Pid,_Verbosity) ->
ok.
subagents_verbosity(V) ->
subagents_verbosity(catch snmpa_mib:info(get(mibserver),subagents),V).
subagents_verbosity([],_V) ->
ok;
subagents_verbosity([{Pid,_Oid}|T],V) ->
catch verbosity(Pid,V), %% On the agent
catch verbosity(Pid,{subagents,V}), %% and it's subagents
subagents_verbosity(T,V);
subagents_verbosity(_,_V) ->
ok.
%% ---------------------------------------------------------------------
handle_get_log_type(#state{net_if_mod = Mod})
when Mod =/= undefined ->
case (catch Mod:get_log_type(get(net_if))) of
{'EXIT', _} ->
{error, not_supported};
Else ->
Else
end;
handle_get_log_type(_) ->
{error, not_supported}.
handle_set_log_type(#state{net_if_mod = Mod}, NewType)
when Mod =/= undefined ->
case (catch Mod:set_log_type(get(net_if), NewType)) of
{'EXIT', _} ->
{error, not_supported};
Else ->
Else
end;
handle_set_log_type(_, _) ->
{error, not_supported}.
handle_get_request_limit(#state{net_if_mod = Mod})
when Mod =/= undefined ->
case (catch Mod:get_request_limit(get(net_if))) of
{'EXIT', _} ->
{error, not_supported};
Else ->
Else
end;
handle_get_request_limit(_) ->
{error, not_supported}.
handle_set_request_limit(#state{net_if_mod = Mod}, NewLimit)
when Mod =/= undefined ->
case (catch Mod:set_request_limit(get(net_if), NewLimit)) of
{'EXIT', _} ->
{error, not_supported};
Else ->
Else
end;
handle_set_request_limit(_, _) ->
{error, not_supported}.
agent_info(#state{worker = W, set_worker = SW}) ->
case (catch get_agent_info(W, SW)) of
Info when is_list(Info) ->
Info;
E ->
[{error, E}]
end.
get_agent_info(W, SW) ->
MASz = proc_mem(self()),
WSz = proc_mem(W),
SWSz = proc_mem(SW),
ATSz = tab_mem(snmp_agent_table),
CCSz = tab_mem(snmp_community_cache),
VacmSz = tab_mem(snmpa_vacm),
[{process_memory, [{master_agent, MASz},
{worker, WSz},
{set_worker, SWSz}]},
{db_memory, [{agent, ATSz},
{community_cache, CCSz},
{vacm, VacmSz}]}].
proc_mem(P) when is_pid(P) ->
case (catch erlang:process_info(P, memory)) of
{memory, Sz} when is_integer(Sz) ->
Sz;
_ ->
undefined
end;
proc_mem(_) ->
undefined.
tab_mem(T) ->
case (catch ets:info(T, memory)) of
Sz when is_integer(Sz) ->
Sz;
_ ->
undefined
end.
net_if_info(#state{net_if_mod = Mod}) when Mod =/= undefined ->
case (catch Mod:info(get(net_if))) of
Info when is_list(Info) ->
Info;
E ->
[{error, E}]
end;
net_if_info(_) ->
%% This could be a result of a code upgrade
%% Make best effert
[{process_memory, proc_mem(get(net_if))}].
note_store_info(#state{note_store = NS}) ->
case (catch snmp_note_store:info(NS)) of
Info when is_list(Info) ->
Info;
E ->
[{error, E}]
end.
symbolic_store_info() ->
case (catch snmpa_symbolic_store:info()) of
Info when is_list(Info) ->
Info;
E ->
[{error, E}]
end.
local_db_info() ->
case (catch snmpa_local_db:info()) of
Info when is_list(Info) ->
Info;
E ->
[{error, E}]
end.
mib_server_info() ->
case (catch snmpa_mib:info(get(mibserver))) of
Info when is_list(Info) ->
Info;
E ->
[{error, E}]
end.
get_stats_counters() ->
Counters = snmpa_mpd:counters(),
get_stats_counters(Counters, []).
get_stats_counters([], Acc) ->
lists:reverse(Acc);
get_stats_counters([Counter|Counters], Acc) ->
case ets:lookup(snmp_agent_table, Counter) of
[CounterVal] ->
get_stats_counters(Counters, [CounterVal|Acc]);
_ ->
get_stats_counters(Counters, Acc)
end.
%% ---------------------------------------------------------------------
%% info_msg(F, A) ->
%% ?snmpa_info(F, A).
warning_msg(F, A) ->
?snmpa_warning(F, A).
error_msg(F, A) ->
?snmpa_error(F, A).
%% ---
config_err(F, A) ->
snmpa_error:config_err(F, A).
user_err(F, A) ->
snmpa_error:user_err(F, A).
%% ---------------------------------------------------------------------
call(Server, Req) ->
gen_server:call(Server, Req, infinity).
cast(Server, Msg) ->
gen_server:cast(Server, Msg).
%% ---------------------------------------------------------------------
get_verbosity(Opts) ->
get_option(verbosity, Opts, ?default_verbosity).
get_mibs(Opts) ->
get_option(mibs, Opts, []).
get_mib_storage(Opts) ->
get_option(mib_storage, Opts, ets).
get_set_mechanism(Opts) ->
get_option(set_mechanism, Opts, snmpa_set).
get_authentication_service(Opts) ->
get_option(authentication_service, Opts, snmpa_acm).
get_multi_threaded(Opts) ->
get_option(multi_threaded, Opts, false).
get_versions(Opts) ->
get_option(versions, Opts, [v1,v2,v3]).
get_gb_max_vbs(Opts) ->
get_option(gb_max_vbs, Opts, infinity).
get_note_store_opt(Opts) ->
get_option(note_store, Opts, []).
get_net_if_opt(Opts) ->
get_option(net_if, Opts, []).
get_net_if_verbosity(Opts) ->
get_option(verbosity, Opts, silence).
get_net_if_module(Opts) ->
get_option(module, Opts, snmpa_net_if).
get_net_if_options(Opts) ->
get_option(options, Opts, []).
net_if_verbosity(Pid,Verbosity) when is_pid(Pid) ->
Pid ! {verbosity,Verbosity};
net_if_verbosity(_Pid,_Verbosity) ->
ok.
get_option(Key, Opts, Default) ->
snmp_misc:get_option(Key, Opts, Default).
%% ---------------------------------------------------------------------
%% i(F) ->
%% i(F, []).
%% i(F, A) ->
%% io:format("~p: " ++ F ++ "~n", [?MODULE|A]).