%% %% %CopyrightBegin% %% %% Copyright Ericsson AB 1997-2013. 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(snmp_log). -export([ create/4, create/5, create/6, open/1, open/2, change_size/2, close/1, sync/1, info/1, log/4, log_to_txt/6, log_to_txt/7, log_to_txt/8, log_to_io/5, log_to_io/6, log_to_io/7 ]). -export([ upgrade/1, upgrade/2, downgrade/1 ]). -export([ validate/1, validate/2 ]). %% -export([ log_to_txt/5, log_to_io/4 ]). %% -export_type([ log/0, log_time/0 ]). -define(SNMP_USE_V3, true). -include("snmp_types.hrl"). -define(VMODULE,"LOG"). -include("snmp_verbosity.hrl"). -define(LOG_FORMAT, internal). -define(LOG_TYPE, wrap). -record(snmp_log, {id, seqno}). %%----------------------------------------------------------------- %% Types %%----------------------------------------------------------------- -opaque log() :: #snmp_log{}. -type log_time() :: null | calendar:datetime() | {local_time, calendar:datetime()} | {universal_time, calendar:datetime()}. %% -------------------------------------------------------------------- %% Exported functions %% -------------------------------------------------------------------- upgrade(Log) when is_record(Log, snmp_log) -> Log; upgrade(Log) -> upgrade(Log, disabled). upgrade(Log, _SeqNoGen) when is_record(Log, snmp_log) -> Log; upgrade(Log, {M, F, A} = SeqNoGen) when (is_atom(M) andalso is_atom(F) andalso is_list(A)) -> #snmp_log{id = Log, seqno = SeqNoGen}; upgrade(Log, SeqNoGen) when is_function(SeqNoGen, 0) -> #snmp_log{id = Log, seqno = SeqNoGen}; upgrade(Log, disabled = SeqNoGen) -> #snmp_log{id = Log, seqno = SeqNoGen}. downgrade(#snmp_log{id = Log}) -> Log; downgrade(Log) -> Log. %% -- create --- create(Name, File, Size, Repair) -> create(Name, File, disabled, Size, Repair, false). create(Name, File, Size, Repair, Notify) when (((Repair =:= true) orelse (Repair =:= false) orelse (Repair =:= truncate) orelse (Repair =:= snmp_repair)) andalso ((Notify =:= true) orelse (Notify =:= false))) -> create(Name, File, disabled, Size, Repair, Notify); create(Name, File, SeqNoGen, Size, Repair) -> create(Name, File, SeqNoGen, Size, Repair, false). create(Name, File, SeqNoGen, Size, Repair, Notify) when (((Repair =:= true) orelse (Repair =:= false) orelse (Repair =:= truncate) orelse (Repair =:= snmp_repair)) andalso ((Notify =:= true) orelse (Notify =:= false))) -> ?vtrace("create -> entry with" "~n Name: ~p" "~n File: ~p" "~n SeqNoGen: ~p" "~n Size: ~p" "~n Repair: ~p" "~n Notify: ~p", [Name, File, SeqNoGen, Size, Repair, Notify]), log_open(Name, File, SeqNoGen, Size, Repair, Notify); create(Name, File, SeqNoGen, Size, Repair, Notify) -> {error, {bad_args, Name, File, SeqNoGen, Size, Repair, Notify}}. %% -- open --- %% Open an already existing ( = open ) log open(Name) -> open(Name, #snmp_log{seqno = disabled}). open(Name, #snmp_log{seqno = SeqNoGen} = _OldLog) -> %% We include mode in the opts just to be on the safe side case disk_log:open([{name, Name}, {mode, read_write}]) of {ok, Log} -> %% SeqNo must be proprly initiated also {ok, #snmp_log{id = Log, seqno = SeqNoGen}}; {repaired, Log, _RecBytes, _BadBytes} -> {ok, #snmp_log{id = Log, seqno = SeqNoGen}}; ERROR -> ERROR end. %% -- close --- close(#snmp_log{id = Log}) -> ?vtrace("close -> entry with" "~n Log: ~p", [Log]), do_close(Log); close(Log) -> do_close(Log). do_close(Log) -> disk_log:close(Log). %% -- close --- sync(#snmp_log{id = Log}) -> do_sync(Log); sync(Log) -> do_sync(Log). do_sync(Log) -> ?vtrace("sync -> entry with" "~n Log: ~p", [Log]), disk_log:sync(Log). %% -- info --- info(#snmp_log{id = Log}) -> do_info(Log); info(Log) -> do_info(Log). do_info(Log) -> case disk_log:info(Log) of Info when is_list(Info) -> Items = [no_current_bytes, no_current_items, current_file, no_overflows], info_filter(Items, Info, []); Else -> Else end. info_filter([], _Info, Acc) -> {ok, Acc}; info_filter([Item|Items], Info, Acc) -> case lists:keysearch(Item, 1, Info) of {value, New} -> info_filter(Items, Info, [New|Acc]); false -> info_filter(Items, Info, Acc) end. %% -- validate -- %% This function is used to "validate" a log. %% At present this means making sure all entries %% are in the proper order, and if sequence numbering %% is used that no entries are missing. %% It is intended to be used for testing. validate(Log) -> validate(Log, false). validate(#snmp_log{id = Log}, SeqNoReq) -> validate(Log, SeqNoReq); validate(Log, SeqNoReq) when ((SeqNoReq =:= true) orelse (SeqNoReq =:= false)) -> Validator = fun({Timestamp, SeqNo, _Packet, _Addr, _Port}, {PrevTS, PrevSN}) -> ?vtrace("validating log entry when" "~n Timestamp: ~p" "~n SeqNo: ~p" "~n PrevTS: ~p" "~n PrevSN: ~p", [Timestamp, SeqNo, PrevTS, PrevSN]), validate_timestamp(PrevTS, Timestamp), validate_seqno(PrevSN, SeqNo), {Timestamp, SeqNo}; ({Timestamp, _Packet, _Addr, _Port}, {PrevTS, _PrevSN}) when SeqNoReq =:= true -> ?vtrace("validating log entry when" "~n Timestamp: ~p" "~n PrevTS: ~p", [Timestamp, PrevTS]), throw({error, {missing_seqno, Timestamp}}); ({Timestamp, _Packet, _Addr, _Port}, {PrevTS, PrevSN}) -> ?vtrace("validating log entry when" "~n Timestamp: ~p" "~n PrevTS: ~p", [Timestamp, PrevTS]), validate_timestamp(PrevTS, Timestamp), {Timestamp, PrevSN}; (E, Acc) -> ?vtrace("validating bad log entry when" "~n E: ~p" "~n Acc: ~p", [E, Acc]), throw({error, {bad_entry, E, Acc}}) end, try begin validate_loop(disk_log:chunk(Log, start), Log, Validator, first, first) end catch throw:Error -> Error end. %% We shall check that TS2 >= TS1 validate_timestamp(first, _TS2) -> ok; validate_timestamp({LT1, UT1} = TS1, {LT2, UT2} = TS2) -> LT1_Secs = calendar:datetime_to_gregorian_seconds(LT1), UT1_Secs = calendar:datetime_to_gregorian_seconds(UT1), LT2_Secs = calendar:datetime_to_gregorian_seconds(LT2), UT2_Secs = calendar:datetime_to_gregorian_seconds(UT2), case ((LT2_Secs >= LT1_Secs) andalso (UT2_Secs >= UT1_Secs)) of true -> ok; false -> throw({error, {invalid_timestamp, TS1, TS2}}) end; validate_timestamp(TS1, TS2) -> throw({error, {bad_timestamp, TS1, TS2}}). %% The usual case when SN2 = SN1 + 1 validate_seqno(first, SN2) when is_integer(SN2) >= 1 -> ok; %% The usual case when SN2 = SN1 + 1 validate_seqno(SN1, SN2) when is_integer(SN1) andalso is_integer(SN2) andalso (SN2 =:= (SN1 + 1)) andalso (SN1 >= 1) -> ok; %% The case when we have a wrap validate_seqno(SN1, SN2) when is_integer(SN1) andalso is_integer(SN2) andalso (SN2 < SN1) andalso (SN2 >= 1) -> ok; %% And everything else must be an error... validate_seqno(SN1, SN2) -> throw({error, {bad_seqno, SN1, SN2}}). validate_loop(eof, _Log, _Validatior, _PrevTS, _PrevSN) -> ok; validate_loop({error, _} = Error, _Log, _Validator, _PrevTS, _PrevSN) -> Error; validate_loop({Cont, Terms}, Log, Validator, PrevTS, PrevSN) -> ?vtrace("validate_loop -> entry with" "~n Terms: ~p" "~n PrevTS: ~p" "~n PrevSN: ~p", [Terms, PrevTS, PrevSN]), {NextTS, NextSN} = lists:foldl(Validator, {PrevTS, PrevSN}, Terms), ?vtrace("validate_loop -> " "~n NextTS: ~p" "~n NextSN: ~p", [NextTS, NextSN]), validate_loop(disk_log:chunk(Log, Cont), Log, Validator, NextTS, NextSN); validate_loop({Cont, Terms, BadBytes}, Log, Validator, PrevTS, PrevSN) -> ?vtrace("validate_loop -> entry with" "~n Terms: ~p" "~n BadBytes: ~p" "~n PrevTS: ~p" "~n PrevSN: ~p", [Terms, BadBytes, PrevTS, PrevSN]), error_logger:error_msg("Skipping ~w bytes while validating ~p~n~n", [BadBytes, Log]), {NextTS, NextSN} = lists:foldl(Validator, {PrevTS, PrevSN}, Terms), ?vtrace("validate_loop -> " "~n NextTS: ~p" "~n NextSN: ~p", [NextTS, NextSN]), validate_loop(disk_log:chunk(Log, Cont), Log, Validator, NextTS, NextSN); validate_loop(Error, _Log, _Write, _PrevTS, _PrevSN) -> Error. %% -- log --- %%----------------------------------------------------------------- %% For efficiency reasons, we want to log the packet as a binary. %% This is only possible for messages that are not encrypted. %% Therefore, Packet can be either a binary (encoded message), or %% a tuple {V3Hdr, ScopedPduBytes} %% %% log(Log, Packet, Addr, Port) %%----------------------------------------------------------------- -spec log(Log :: log(), Packet :: binary() | {v3_header(), ScopedPDU :: list()}, Addr :: inet:ip_address(), Port :: inet:port_number()) -> ok | {error, Reason :: term()}. log(#snmp_log{id = Log, seqno = SeqNo}, Packet, Addr, Port) -> ?vtrace("log -> entry with" "~n Log: ~p" "~n Addr: ~p" "~n Port: ~p", [Log, Addr, Port]), Entry = make_entry(SeqNo, Packet, Addr, Port), %% io:format("log -> " %% "~n Entry: ~p" %% "~n Info: ~p" %% "~n", [Entry, disk_log:info(Log)]), Res = disk_log:alog(Log, Entry), %% io:format("log -> " %% "~n Res: ~p" %% "~n Info: ~p" %% "~n", [Res, disk_log:info(Log)]), %% disk_log:sync(Log), Res. make_entry(SeqNoGen, Packet, Addr, Port) -> try next_seqno(SeqNoGen) of disabled -> {timestamp(), Packet, Addr, Port}; {ok, NextSeqNo} -> {timestamp(), NextSeqNo, Packet, Addr, Port} catch _:_ -> {timestamp(), Packet, Addr, Port} end. next_seqno({M, F, A}) -> {ok, apply(M, F, A)}; next_seqno(F) when is_function(F) -> {ok, F()}; next_seqno(_) -> disabled. %% -- change_size --- change_size(#snmp_log{id = Log}, NewSize) -> do_change_size(Log, NewSize); change_size(Log, NewSize) -> do_change_size(Log, NewSize). do_change_size(Log, NewSize) -> ?vtrace("change_size -> entry with" "~n Log: ~p" "~n NewSize: ~p", [Log, NewSize]), disk_log:change_size(Log, NewSize). %% -- log_to_txt --- %% log_to_txt(Log, FileName, Dir, Mibs, TextFile) -> log_to_txt(Log, false, FileName, Dir, Mibs, TextFile). %% log_to_txt(Log, Block, FileName, Dir, Mibs, TextFile) when ((Block =:= true) orelse (Block =:= false)) -> log_to_txt(Log, Block, FileName, Dir, Mibs, TextFile, null, null); %% log_to_txt(Log, FileName, Dir, Mibs, TextFile, Start) -> log_to_txt(Log, false, FileName, Dir, Mibs, TextFile, Start, null). %% log_to_txt(Log, Block, FileName, Dir, Mibs, TextFile, Start) when ((Block =:= true) orelse (Block =:= false)) -> log_to_txt(Log, Block, FileName, Dir, Mibs, TextFile, Start, null); %% log_to_txt(Log, FileName, Dir, Mibs, TextFile, Start, Stop) -> log_to_txt(Log, false, FileName, Dir, Mibs, TextFile, Start, Stop). %% log_to_txt(Log, Block, FileName, Dir, Mibs, TextFile, Start, Stop) when (((Block =:= true) orelse (Block =:= false)) andalso is_list(Mibs) andalso is_list(TextFile)) -> ?vtrace("log_to_txt -> entry with" "~n Log: ~p" "~n Block: ~p" "~n FileName: ~p" "~n Dir: ~p" "~n Mibs: ~p" "~n TextFile: ~p" "~n Start: ~p" "~n Stop: ~p", [Log, Block, FileName, Dir, Mibs, TextFile, Start, Stop]), File = filename:join(Dir, FileName), Converter = fun(L) -> do_log_to_file(L, TextFile, Mibs, Start, Stop) end, log_convert(Log, Block, File, Converter). %% -- log_to_io --- %% log_to_io(Log, FileName, Dir, Mibs) -> log_to_io(Log, false, FileName, Dir, Mibs, null, null). %% log_to_io(Log, Block, FileName, Dir, Mibs) when ((Block =:= true) orelse (Block =:= false)) -> log_to_io(Log, Block, FileName, Dir, Mibs, null, null); %% log_to_io(Log, FileName, Dir, Mibs, Start) -> log_to_io(Log, false, FileName, Dir, Mibs, Start, null). %% log_to_io(Log, Block, FileName, Dir, Mibs, Start) when ((Block =:= true) orelse (Block =:= false)) -> log_to_io(Log, Block, FileName, Dir, Mibs, Start, null); %% log_to_io(Log, FileName, Dir, Mibs, Start, Stop) -> log_to_io(Log, false, FileName, Dir, Mibs, Start, Stop). %% log_to_io(Log, Block, FileName, Dir, Mibs, Start, Stop) when is_list(Mibs) -> ?vtrace("log_to_io -> entry with" "~n Log: ~p" "~n Block: ~p" "~n FileName: ~p" "~n Dir: ~p" "~n Mibs: ~p" "~n Start: ~p" "~n Stop: ~p", [Log, Block, FileName, Dir, Mibs, Start, Stop]), File = filename:join(Dir, FileName), Converter = fun(L) -> do_log_to_io(L, Mibs, Start, Stop) end, log_convert(Log, Block, File, Converter). %% -------------------------------------------------------------------- %% Internal functions %% -------------------------------------------------------------------- %% -- log_convert --- log_convert(#snmp_log{id = Log}, Block, File, Converter) -> do_log_convert(Log, Block, File, Converter); log_convert(Log, Block, File, Converter) -> do_log_convert(Log, Block, File, Converter). do_log_convert(Log, Block, File, Converter) -> %% ?vtrace("do_log_converter -> entry with" %% "~n Log: ~p" %% "~n Block: ~p" %% "~n File: ~p" %% "~n disk_log:info(Log): ~p", %% [Log, Block, File, disk_log:info(Log)]), Verbosity = get(verbosity), {Pid, Ref} = erlang:spawn_monitor( fun() -> put(sname, lc), put(verbosity, Verbosity), Result = do_log_convert2(Log, Block, File, Converter), exit(Result) end), receive {'DOWN', Ref, process, Pid, Result} -> %% ?vtrace("do_log_converter -> received result" %% "~n Result: ~p" %% "~n disk_log:info(Log): ~p", %% [Result, disk_log:info(Log)]), Result end. do_log_convert2(Log, Block, File, Converter) -> %% ?vtrace("do_log_converter2 -> entry with" %% "~n Log: ~p" %% "~n Block: ~p" %% "~n File: ~p" %% "~n disk_log:info(Log): ~p", %% [Log, Block, File, disk_log:info(Log)]), %% First check if the caller process has already opened the %% log, because if we close an already open log we will cause %% a runtime error. case is_owner(Log) of true -> ?vtrace("do_log_converter2 -> convert an already owned log", []), maybe_block(Log, Block), Res = Converter(Log), maybe_unblock(Log, Block), Res; false -> %% Not yet member of the ruling party, apply for membership... ?vtrace("do_log_converter2 -> convert log", []), case log_open(Log, File) of {ok, _} -> ?vtrace("do_log_converter2 -> " "convert (the now opened) log", []), maybe_block(Log, Block), Res = Converter(Log), maybe_unblock(Log, Block), disk_log:close(Log), Res; {error, {name_already_open, _}} -> ?vtrace("do_log_converter2 -> " "convert (an already opened) log", []), maybe_block(Log, Block), Res = Converter(Log), maybe_unblock(Log, Block), Res; {error, Reason} -> ?vinfo("do_log_converter2 -> " "failed converting log - open failed: " "~n Reason: ~p", [Reason]), {error, {Log, Reason}} end end. maybe_block(_Log, false = _Block) -> %% ?vtrace("maybe_block(false) -> entry", []), ok; maybe_block(Log, true = _Block) -> %% ?vtrace("maybe_block(true) -> entry when" %% "~n Log Status: ~p", [log_status(Log)]), Res = disk_log:block(Log, true), %% ?vtrace("maybe_block(true) -> " %% "~n Log Status: ~p" %% "~n Res: ~p", [log_status(Log), Res]), Res. maybe_unblock(_Log, false = _Block) -> %% ?vtrace("maybe_unblock(false) -> entry", []), ok; maybe_unblock(Log, true = _Block) -> %% ?vtrace("maybe_unblock(true) -> entry when" %% "~n Log Status: ~p", [log_status(Log)]), Res = disk_log:unblock(Log), %% ?vtrace("maybe_unblock(true) -> " %% "~n Log Status: ~p" %% "~n Res: ~p", [log_status(Log), Res]), Res. log_status(Log) -> Info = disk_log:info(Log), case lists:keysearch(status, 1, Info) of {value, {status, Status}} -> Status; false -> undefined end. %% -- do_log_to_text --- do_log_to_file(Log, TextFile, Mibs, Start, Stop) -> case file:open(TextFile, [write]) of {ok, Fd} -> MiniMib = snmp_mini_mib:create(Mibs), Write = fun(X) -> case format_msg(X, MiniMib, Start, Stop) of {ok, S} -> io:format(Fd, "~s", [S]); _ -> ok end end, Res = (catch loop(disk_log:chunk(Log, start), Log, Write)), snmp_mini_mib:delete(MiniMib), file:close(Fd), Res; {error, Reason} -> {error, {TextFile, Reason}} end. do_log_to_io(Log, Mibs, Start, Stop) -> MiniMib = snmp_mini_mib:create(Mibs), Write = fun(X) -> case format_msg(X, MiniMib, Start, Stop) of {ok, S} -> io:format("~s", [S]); _ -> ok end end, (catch loop(disk_log:chunk(Log, start), Log, Write)), snmp_mini_mib:delete(MiniMib), ok. loop(eof, _Log, _Write) -> ok; loop({error, _} = Error, _Log, _Write) -> Error; loop({Cont, Terms}, Log, Write) -> case (catch lists:foreach(Write, Terms)) of {'EXIT', Reason} -> {error, Reason}; _ -> loop(disk_log:chunk(Log, Cont), Log, Write) end; loop({Cont, Terms, BadBytes}, Log, Write) -> error_logger:error_msg("Skipping ~w bytes while converting ~p~n~n", [BadBytes, Log]), case (catch lists:foreach(Write, Terms)) of {'EXIT', Reason} -> {error, Reason}; _ -> loop(disk_log:chunk(Log, Cont), Log, Write) end; loop(Error, _Log, _Write) -> Error. format_msg(Entry, Mib, Start, Stop) -> TimeStamp = element(1, Entry), case timestamp_filter(TimeStamp, Start, Stop) of true -> do_format_msg(Entry, Mib); false -> ignore end. %% This is an old-style entry, that never had the sequence-number do_format_msg({Timestamp, Packet, {Addr, Port}}, Mib) -> do_format_msg(Timestamp, Packet, Addr, Port, Mib); %% This is the format without sequence-number do_format_msg({Timestamp, Packet, Addr, Port}, Mib) -> do_format_msg(Timestamp, Packet, Addr, Port, Mib); %% This is the format with sequence-number do_format_msg({Timestamp, SeqNo, Packet, Addr, Port}, Mib) -> do_format_msg(Timestamp, SeqNo, Packet, Addr, Port, Mib); %% This is crap... do_format_msg(_, _) -> format_tab("** unknown entry in log file\n\n", []). do_format_msg(TimeStamp, {V3Hdr, ScopedPdu}, Addr, Port, Mib) -> case (catch snmp_pdus:dec_scoped_pdu(ScopedPdu)) of ScopedPDU when is_record(ScopedPDU, scopedPdu) -> Msg = #message{version = 'version-3', vsn_hdr = V3Hdr, data = ScopedPDU}, f(ts2str(TimeStamp), "", Msg, Addr, Port, Mib); {'EXIT', Reason} -> format_tab("** error in log file at ~s from ~p:~w ~p\n\n", [ts2str(TimeStamp), ip(Addr), Port, Reason]) end; do_format_msg(TimeStamp, Packet, Addr, Port, Mib) -> case (catch snmp_pdus:dec_message(binary_to_list(Packet))) of Msg when is_record(Msg, message) -> f(ts2str(TimeStamp), "", Msg, Addr, Port, Mib); {'EXIT', Reason} -> format_tab("** error in log file ~p\n\n", [Reason]) end. do_format_msg(TimeStamp, SeqNo, {V3Hdr, ScopedPdu}, Addr, Port, Mib) -> case (catch snmp_pdus:dec_scoped_pdu(ScopedPdu)) of ScopedPDU when is_record(ScopedPDU, scopedPdu) -> Msg = #message{version = 'version-3', vsn_hdr = V3Hdr, data = ScopedPDU}, f(ts2str(TimeStamp), sn2str(SeqNo), Msg, Addr, Port, Mib); {'EXIT', Reason} -> format_tab("** error in log file at ~s from ~p:~w ~p\n\n", [ts2str(TimeStamp), sn2str(SeqNo), ip(Addr), Port, Reason]) end; do_format_msg(TimeStamp, SeqNo, Packet, Addr, Port, Mib) -> case (catch snmp_pdus:dec_message(binary_to_list(Packet))) of Msg when is_record(Msg, message) -> f(ts2str(TimeStamp), sn2str(SeqNo), Msg, Addr, Port, Mib); {'EXIT', Reason} -> format_tab("** error in log file ~s from ~p:~w ~p\n\n", [ts2str(TimeStamp), sn2str(SeqNo), ip(Addr), Port, Reason]) end. %% format_msg({TimeStamp, {V3Hdr, ScopedPdu}, {Addr, Port}}, %% Mib, Start, Stop) -> %% format_msg({TimeStamp, {V3Hdr, ScopedPdu}, Addr, Port}, %% Mib, Start, Stop); %% format_msg({TimeStamp, {V3Hdr, ScopedPdu}, Addr, Port}, %% Mib, Start, Stop) -> %% case timestamp_filter(TimeStamp, Start, Stop) of %% true -> %% case (catch snmp_pdus:dec_scoped_pdu(ScopedPdu)) of %% ScopedPDU when record(ScopedPDU, scopedPdu) -> %% Msg = #message{version = 'version-3', %% vsn_hdr = V3Hdr, %% data = ScopedPDU}, %% f(ts2str(TimeStamp), Msg, Addr, Port, Mib); %% {'EXIT', Reason} -> %% format_tab("** error in log file at ~s from ~p:~w ~p\n\n", %% [ts2str(TimeStamp), ip(Addr), Port, Reason]) %% end; %% false -> %% ignore %% end; %% format_msg({TimeStamp, Packet, {Addr, Port}}, Mib, Start, Stop) -> %% format_msg({TimeStamp, Packet, Addr, Port}, Mib, Start, Stop); %% format_msg({TimeStamp, Packet, Addr, Port}, Mib, Start, Stop) -> %% case timestamp_filter(TimeStamp, Start, Stop) of %% true -> %% case (catch snmp_pdus:dec_message(binary_to_list(Packet))) of %% Msg when record(Msg, message) -> %% f(ts2str(TimeStamp), Msg, Addr, Port, Mib); %% {'EXIT', Reason} -> %% format_tab("** error in log file ~p\n\n", [Reason]) %% end; %% false -> %% ignore %% end; %% format_msg(_, _Mib, _Start, _Stop) -> %% format_tab("** unknown entry in log file\n\n", []). f(TimeStamp, SeqNo, #message{version = Vsn, vsn_hdr = VsnHdr, data = Data}, Addr, Port, Mib) -> Str = format_pdu(Data, Mib), HdrStr = format_header(Vsn, VsnHdr), case get_type(Data) of trappdu -> f_trap(TimeStamp, SeqNo, Vsn, HdrStr, Str, Addr, Port); 'snmpv2-trap' -> f_trap(TimeStamp, SeqNo, Vsn, HdrStr, Str, Addr, Port); 'inform-request' -> f_inform(TimeStamp, SeqNo, Vsn, HdrStr, Str, Addr, Port); 'get-response' -> f_response(TimeStamp, SeqNo, Vsn, HdrStr, Str, Addr, Port); report -> f_report(TimeStamp, SeqNo, Vsn, HdrStr, Str, Addr, Port); _ -> f_request(TimeStamp, SeqNo, Vsn, HdrStr, Str, Addr, Port) end. f_request(TimeStamp, SeqNo, Vsn, HdrStr, Str, Addr, Port) -> format_tab("request ~s:~w - ~s [~s]~s ~w\n~s", [ip(Addr), Port, HdrStr, TimeStamp, SeqNo, Vsn, Str]). f_response(TimeStamp, SeqNo, Vsn, HdrStr, Str, Addr, Port) -> format_tab("response ~s:~w - ~s [~s]~s ~w\n~s", [ip(Addr), Port, HdrStr, TimeStamp, SeqNo, Vsn, Str]). f_report(TimeStamp, SeqNo, Vsn, HdrStr, Str, Addr, Port) -> format_tab("report ~s:~w - ~s [~s]~s ~w\n~s", [ip(Addr), Port, HdrStr, TimeStamp, SeqNo, Vsn, Str]). f_trap(TimeStamp, SeqNo, Vsn, HdrStr, Str, Addr, Port) -> format_tab("trap ~s:~w - ~s [~s]~s ~w\n~s", [ip(Addr), Port, HdrStr, TimeStamp, SeqNo, Vsn, Str]). f_inform(TimeStamp, SeqNo, Vsn, HdrStr, Str, Addr, Port) -> format_tab("inform ~s:~w - ~s [~s]~s ~w\n~s", [ip(Addr), Port, HdrStr, TimeStamp, SeqNo, Vsn, Str]). %% Convert a timestamp 2-tupple to a printable string %% ts2str({Local,Universal}) -> dat2str(Local) ++ " , " ++ dat2str(Universal); ts2str(_) -> "". %% Convert a sequence number integer to a printable string %% sn2str(SeqNo) when is_integer(SeqNo) -> " [" ++ integer_to_list(SeqNo) ++ "]"; sn2str(_) -> "". %% Convert a datetime 2-tupple to a printable string %% dat2str({{Y,M,D},{H,Min,S}}) -> io_lib:format("~w-~w-~w,~w:~w:~w",[Y,M,D,H,Min,S]). timestamp_filter({Local,Universal},Start,Stop) -> tsf_ge(Local,Universal,Start) and tsf_le(Local,Universal,Stop); timestamp_filter(_,_Start,_Stop) -> true. tsf_ge(_Local,_Universal,null) -> true; tsf_ge(Local,_Universal,{local_time,DateTime}) -> tsf_ge(Local,DateTime); tsf_ge(_Local,Universal,{universal_time,DateTime}) -> tsf_ge(Universal,DateTime); tsf_ge(Local,_Universal,DateTime) -> tsf_ge(Local,DateTime). tsf_ge(TimeStamp, DateTime) -> T1 = calendar:datetime_to_gregorian_seconds(TimeStamp), T2 = calendar:datetime_to_gregorian_seconds(DateTime), T1 >= T2. tsf_le(_Local, _Universal, null) -> true; tsf_le(Local, _Universal, {local_time, DateTime}) -> tsf_le(Local, DateTime); tsf_le(_Local, Universal, {universal_time, DateTime}) -> tsf_le(Universal, DateTime); tsf_le(Local, _Universal, DateTime) -> tsf_le(Local,DateTime). tsf_le(TimeStamp, DateTime) -> T1 = calendar:datetime_to_gregorian_seconds(TimeStamp), T2 = calendar:datetime_to_gregorian_seconds(DateTime), T1 =< T2. %% In the output replace TAB by ESC TAB, and add a single trailing TAB. %% format_tab(Format, Args) -> Str = lists:flatten(io_lib:format(Format, Args)), DStr = lists:map(fun($\t) -> "\e\t"; (C) -> C end, Str), {ok, io_lib:format("~s\t", [DStr])}. format_header('version-1', CommunityStr) -> CommunityStr; format_header('version-2', CommunityStr) -> CommunityStr; format_header('version-3', #v3_hdr{msgFlags = MsgFlags, msgSecurityModel = SecModel, msgSecurityParameters = SecParams}) -> SecLevel = snmp_misc:get_sec_level(MsgFlags), case SecModel of ?SEC_USM -> case catch snmp_pdus:dec_usm_security_parameters(SecParams) of #usmSecurityParameters{msgAuthoritativeEngineID = AuthEngineID, msgUserName = UserName} -> io_lib:format("~w:\"~s\":\"~s\"", [SecLevel, AuthEngineID, UserName]); _ -> "-" end; _ -> "\"unknown security model\"" end. format_pdu(#scopedPdu{contextName = Context, data = Pdu}, Mib) -> io_lib:format("Context: \"~s\"\n~s", [Context, snmp_misc:format_pdu(Pdu, Mib)]); format_pdu(Pdu, Mib) -> snmp_misc:format_pdu(Pdu, Mib). get_type(#scopedPdu{data = Pdu}) -> get_type(Pdu); get_type(Pdu) when is_record(Pdu, trappdu) -> trappdu; get_type(#pdu{type = Type}) -> Type. ip({A,B,C,D}) -> io_lib:format("~w.~w.~w.~w", [A,B,C,D]). %% ------------------------------------------------------------------- %% Various utility functions %% ------------------------------------------------------------------- log_open(Name, File, {M, F, A} = SeqNoGen, Size, Repair, Notify) when (is_atom(M) andalso is_atom(F) andalso is_list(A)) -> log_open2(Name, File, SeqNoGen, Size, Repair, Notify); log_open(Name, File, SeqNoGen, Size, Repair, Notify) when is_function(SeqNoGen, 0) -> log_open2(Name, File, SeqNoGen, Size, Repair, Notify); log_open(Name, File, disabled = SeqNoGen, Size, Repair, Notify) -> log_open2(Name, File, SeqNoGen, Size, Repair, Notify); log_open(_, _File, BadSeqNoGen, _Size, _Repair, _Notify) -> {error, {bad_seqno, BadSeqNoGen}}. log_open2(Name, File, SeqNoGen, Size, Repair, Notify) -> case do_log_open(Name, File, Size, Repair, Notify) of {ok, Log} -> {ok, #snmp_log{id = Log, seqno = SeqNoGen}}; {repaired, Log, Rec, Bad} -> ?vlog("log_open -> repaired: " "~n Rec: ~p" "~n Bad: ~p", [Rec, Bad]), {ok, #snmp_log{id = Log, seqno = SeqNoGen}}; Error -> Error end. %% We need to make sure we do not end up in an infinit loop %% Take the number of files of the wrap log and add 2 (for %% the index and size files). do_log_open(Name, File, {_, N} = Size, snmp_repair = _Repair, Notify) -> do_snmp_log_open(Name, File, Size, N+2, Notify); do_log_open(Name, File, Size, snmp_repair = _Repair, Notify) -> do_snmp_log_open(Name, File, Size, 1, Notify); do_log_open(Name, File, Size, Repair, Notify) -> do_std_log_open(Name, File, Size, Repair, Notify). do_snmp_log_open(Name, File, Size, N, Notify) when N =< 0 -> do_std_log_open(Name, File, Size, true, Notify); do_snmp_log_open(Name, File, Size, N, Notify) -> case do_std_log_open(Name, File, Size, true, Notify) of {error, {not_a_log_file, XFile}} -> case file:rename(XFile, lists:append([XFile, ".MOVED"])) of ok -> ?vinfo("Failed open log file (even with repair) - " "not a logfile:" "~n Attempting to move file aside (.MOVED)" "~n ~s", [XFile]), do_snmp_log_open(Name, File, Size, N-1, Notify); Error -> {error, {rename_failed, Error}} end; {error, Reason} -> ?vinfo("Failed open log file (even with repair) - " "~n Attempting to move old log file aside (.MOVED)" "~n~p", [Reason]), move_log(File), do_std_log_open(Name, File, Size, true, Notify); Else -> Else end. %% First try to open the log without the size-spec. This will %% succeed if the log has already been created. In that case, %% we'll use whatever size the log had at the time it was closed. do_std_log_open(Name, File, Size, Repair, Notify) -> Opts = [{name, Name}, {file, File}, {type, ?LOG_TYPE}, {format, ?LOG_FORMAT}, {mode, read_write}, {notify, Notify}, {repair, Repair}], case disk_log:open(Opts) of {error, {badarg, size}} -> %% The log didn't exist, try with the size-spec disk_log:open([{size, Size} | Opts]); Else -> Else end. log_open(Name, File) -> Opts = [{name, Name}, {file, File}], case disk_log:open(Opts) of {error, {badarg, size}} -> {error, no_such_log}; Else -> Else end. move_log(File) -> Dir = filename:dirname(File), FileName = filename:basename(File), case file:list_dir(Dir) of {ok, Files0} -> Files = [F || F <- Files0, lists:prefix(FileName, F)], F = fun(XFile) -> file:rename(XFile, lists:append([XFile, ".MOVED"])) end, lists:foreach(F, Files); _ -> ok end. is_owner(Log) -> lists:member(self(), log_owners(Log)). log_owners(Log) -> Info = log_info(Log), case lists:keysearch(owners, 1, Info) of {value, {_, Pids}} -> [P || {P, _} <- Pids]; _ -> [] end. log_info(Log) -> case disk_log:info(Log) of Info when is_list(Info) -> Info; _ -> [] end. timestamp() -> {calendar:local_time(), calendar:universal_time()}.