%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2002-2009. 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(ttb).
-author('[email protected]').
%% API
-export([tracer/0,tracer/1,tracer/2,p/2,stop/0,stop/1,start_trace/4]).
-export([tp/2, tp/3, tp/4, ctp/0, ctp/1, ctp/2, ctp/3, tpl/2, tpl/3, tpl/4,
ctpl/0, ctpl/1, ctpl/2, ctpl/3, ctpg/0, ctpg/1, ctpg/2, ctpg/3]).
-export([seq_trigger_ms/0,seq_trigger_ms/1]).
-export([write_trace_info/2]).
-export([write_config/2,write_config/3,run_config/1,run_config/2,list_config/1]).
-export([list_history/0,run_history/1]).
-export([format/1,format/2]).
%% For debugging
-export([dump_ti/1]).
-include_lib("kernel/include/file.hrl").
-define(meta_time,5000).
-define(history_table,ttb_history_table).
-define(seq_trace_flags,[send,'receive',print,timestamp]).
-define(upload_dir,"ttb_upload").
-define(last_config, "ttb_last_config").
-ifdef(debug).
-define(get_status,;get_status -> erlang:display(dict:to_list(NodeInfo),loop(NodeInfo, TraceInfo)).
-else.
-define(get_status,).
-endif.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%% Shortcut
start_trace(Nodes, Patterns, {Procs, Flags}, Options) ->
{ok, _} = tracer(Nodes, Options),
{ok, _} = p(Procs, Flags),
[{ok, _} = apply(?MODULE, tpl, tuple_to_list(Args)) || Args <- Patterns].
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%% Open a trace port on all given nodes and create the meta data file
tracer() -> tracer(node()).
tracer(Nodes) -> tracer(Nodes,[]).
tracer(Nodes,Opt) ->
{PI,Client,Traci} = opt(Opt),
%%We use initial Traci as SessionInfo for loop/2
Pid = start(Traci),
store(tracer,[Nodes,Opt]),
do_tracer(Nodes,PI,Client,[{ttb_control, Pid}|Traci]).
do_tracer(Nodes0,PI,Client,Traci) ->
Nodes = nods(Nodes0),
Clients = clients(Nodes,Client),
do_tracer(Clients,PI,Traci).
do_tracer(Clients,PI,Traci) ->
{ClientSucc,Succ} =
lists:foldl(
fun({N,{local,File},TF},{CS,S}) ->
[_Sname,Host] = string:tokens(atom_to_list(N),"@"),
case catch dbg:tracer(N,port,dbg:trace_port(ip,0)) of
{ok,N} ->
{ok,Port} = dbg:trace_port_control(N,get_listen_port),
{ok,T} = dbg:get_tracer(N),
rpc:call(N,seq_trace,set_system_tracer,[T]),
dbg:trace_client(ip,{Host,Port},
{fun ip_to_file/2,{file,File}}),
{[{N,{local,File,Port},TF}|CS], [N|S]};
Other ->
display_warning(N,{cannot_open_ip_trace_port,
Host,
Other}),
{CS, S}
end;
({N,C,_}=Client,{CS,S}) ->
case catch dbg:tracer(N,port,dbg:trace_port(file,C)) of
{ok,N} ->
{ok,T} = dbg:get_tracer(N),
rpc:call(N,seq_trace,set_system_tracer,[T]),
{[Client|CS], [N|S]};
Other ->
display_warning(N,Other),
{CS,S}
end
end,
{[],[]},
Clients),
case Succ of
[] ->
{ok,Succ};
_list ->
write_info(ClientSucc,PI,Traci),
{ok,Succ}
end.
opt(Opt) when is_list(Opt) ->
opt(Opt,{true,?MODULE,[]});
opt(Opt) ->
opt([Opt]).
opt([{process_info,PI}|O],{_,Client,Traci}) ->
opt(O,{PI,Client,Traci});
opt([{file,Client}|O],{PI,_,Traci}) ->
opt(O,{PI,Client,Traci});
opt([{handler,Handler}|O],{PI,Client,Traci}) ->
opt(O,{PI,Client,[{handler,Handler}|Traci]});
opt([{timer, {MSec, StopOpts}}|O],{PI,Client,Traci}) ->
opt(O,{PI,Client,[{timer,{MSec, StopOpts}}|Traci]});
opt([{timer, MSec}|O],{PI,Client,Traci}) ->
opt(O,{PI,Client,[{timer,{MSec, []}}|Traci]});
opt([{overload_check, {MSec,M,F}}|O],{PI,Client,Traci}) ->
opt(O,{PI,Client,[{overload_check,{MSec,M,F}}|Traci]});
opt([],Opt) ->
Opt.
nods(all) ->
Nodes1 = remove_active([node()|nodes()]),
remove_faulty_runtime_tools_vsn(Nodes1);
nods(Node) when is_atom(Node) ->
nods([Node]);
nods(Nodes) when is_list(Nodes) ->
Nodes1 = remove_active(Nodes),
Nodes2 = remove_noexist(Nodes1),
remove_faulty_runtime_tools_vsn(Nodes2).
remove_active(Nodes) ->
Active = get_nodes(),
lists:filter(
fun(N) -> case lists:member(N,Active) of
false -> true;
true -> display_warning(N,already_started), false
end
end, Nodes).
remove_noexist(Nodes) ->
lists:filter(
fun(N) when N=:=node() ->
true;
(N) ->
case net_adm:ping(N) of
pong -> true;
pang -> display_warning(N,no_connection), false
end
end, Nodes).
remove_faulty_runtime_tools_vsn(Nodes) ->
lists:filter(
fun(N) ->
case rpc:call(N,observer_backend,vsn,[]) of
{ok,Vsn} -> check_vsn(N,Vsn);
_Error -> display_warning(N,faulty_vsn_of_runtime_tools), false
end
end,Nodes).
check_vsn(_Node,_Vsn) -> true.
%check_vsn(Node,_Vsn) ->
% display_warning(Node,faulty_vsn_of_runtime_tools),
% false.
clients(Nodes, {wrap,Name}) ->
F = fun(Node) ->
TraceFile = name(Node,Name),
{Node,{TraceFile++".",wrap,".wrp"},TraceFile}
end,
lists:map(F,Nodes);
clients(Nodes, {wrap,Name,Size,Count}) ->
F = fun(Node) ->
TraceFile = name(Node,Name),
{Node,{TraceFile++".",wrap,".wrp",Size,Count},TraceFile}
end,
lists:map(F,Nodes);
clients(Nodes, {local,RealClient}) ->
WrapClients = clients(Nodes,RealClient),
F = fun({Node,Client,TraceFile}) ->
{Node,{local,Client},TraceFile}
end,
lists:map(F,WrapClients);
clients(Nodes, Name) ->
F = fun(Node) ->
TraceFile = name(Node,Name),
{Node,TraceFile,TraceFile}
end,
lists:map(F,Nodes).
name(Node,Filename) ->
Dir = filename:dirname(Filename),
File = filename:basename(Filename),
filename:join(Dir,atom_to_list(Node) ++ "-" ++ File).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%% Handling of config file
store(Func,Args) ->
Last = case ets:last(?history_table) of
'$end_of_table' -> 0;
Int when is_integer(Int) -> Int
end,
ets:insert(?history_table,{Last+1,{?MODULE,Func,Args}}).
list_history() ->
%% the check is only to see if the tool is started.
case ets:info(?history_table) of
undefined -> {error, not_running};
_info -> ets:tab2list(?history_table)
end.
run_history([H|T]) ->
case run_history(H) of
ok -> run_history(T);
{error,not_found} -> {error,{not_found,H}}
end;
run_history([]) ->
ok;
run_history(N) ->
case catch ets:lookup(?history_table,N) of
[{N,{M,F,A}}] ->
print_func(M,F,A),
R = apply(M,F,A),
print_result(R);
_ ->
{error, not_found}
end.
write_config(ConfigFile,all) ->
write_config(ConfigFile,['_']);
write_config(ConfigFile,Config) ->
write_config(ConfigFile,Config,[]).
write_config(ConfigFile,all,Opt) ->
write_config(ConfigFile,['_'],Opt);
write_config(ConfigFile,Nums,Opt) when is_list(Nums), is_integer(hd(Nums));
Nums=:=['_'] ->
F = fun(N) -> ets:select(?history_table,
[{{N,'$1'},[],['$1']}])
end,
Config = lists:append(lists:map(F,Nums)),
do_write_config(ConfigFile,Config,Opt);
write_config(ConfigFile,Config,Opt) when is_list(Config) ->
case check_config(Config,[]) of
{ok,Config1} -> do_write_config(ConfigFile,Config1,Opt);
Error -> Error
end.
do_write_config(ConfigFile,Config,Opt) ->
case Opt of
[append] -> ok;
[] -> file:delete(ConfigFile)
end,
write_binary(ConfigFile,Config).
check_config([{?MODULE=Mod,Func,Args}|Rest],Acc) ->
%% Check only in this module, since other modules might not
%% be loaded at the time of creating the config file.
case erlang:function_exported(Mod,Func,length(Args)) of
true -> check_config(Rest,[{Mod,Func,Args}|Acc]);
false -> {error, {not_exported,{Mod,Func,Args}}}
end;
check_config([{Mod,Func,Args}|Rest],Acc) ->
check_config(Rest,[{Mod,Func,Args}|Acc]);
check_config([],Acc) ->
{ok,lists:reverse(Acc)};
check_config([Other|_Rest],_Acc) ->
{error,{illegal_config,Other}}.
list_config(ConfigFile) ->
case file:read_file(ConfigFile) of
{ok,B} -> read_config(B,[],1);
Error -> Error
end.
read_config(<<>>,Acc,_N) ->
lists:reverse(Acc);
read_config(B,Acc,N) ->
{{M,F,A},Rest} = get_term(B),
read_config(Rest,[{N,{M,F,A}}|Acc],N+1).
run_config(ConfigFile) ->
case list_config(ConfigFile) of
Config when is_list(Config) ->
lists:foreach(fun({_,{M,F,A}}) -> print_func(M,F,A),
R = apply(M,F,A),
print_result(R)
end,
Config);
Error -> Error
end.
run_config(ConfigFile,N) ->
case list_config(ConfigFile) of
Config when is_list(Config) ->
case lists:keysearch(N,1,Config) of
{value,{N,{M,F,A}}} ->
print_func(M,F,A),
apply(M,F,A);
false ->
{error, not_found}
end;
Error -> Error
end.
print_func(M,F,A) ->
Args = arg_list(A,[]),
io:format("~w:~w(~s) ->~n",[M,F,Args]).
print_result(R) ->
io:format("~p~n~n",[R]).
arg_list([],[]) ->
"";
arg_list([A1],Acc) ->
Acc++io_lib:format("~w",[A1]);
arg_list([A1|A],Acc) ->
arg_list(A,Acc++io_lib:format("~w,",[A1])).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%% Set trace flags on processes
p(Procs0,Flags0) ->
ensure_no_overloaded_nodes(),
store(p,[Procs0,Flags0]),
no_store_p(Procs0,Flags0).
no_store_p(Procs0,Flags0) ->
case transform_flags(to_list(Flags0)) of
{error,Reason} ->
{error,Reason};
Flags ->
Procs = procs(Procs0),
case lists:foldl(fun(P,{PMatched,Ps}) -> case dbg:p(P,Flags) of
{ok,Matched} ->
{[{P,Matched}|PMatched],[P|Ps]};
{error,Reason} ->
display_warning(P,Reason),
{PMatched,Ps}
end
end,{[],[]},Procs) of
{[],[]} -> {error, no_match};
{SuccMatched,Succ} ->
no_store_write_trace_info(flags,{Succ,Flags}),
?MODULE ! trace_started,
{ok,SuccMatched}
end
end.
transform_flags([clear]) ->
[clear];
transform_flags(Flags) ->
dbg:transform_flags(Flags).
procs(Procs) when is_list(Procs) ->
lists:foldl(fun(P,Acc) -> proc(P)++Acc end,[],Procs);
procs(Proc) ->
proc(Proc).
proc(Procs) when Procs=:=all; Procs=:=existing; Procs=:=new ->
[Procs];
proc(Name) when is_atom(Name) ->
[Name]; % can be registered on this node or other node
proc(Pid) when is_pid(Pid) ->
[Pid];
proc({global,Name}) ->
case global:whereis_name(Name) of
Pid when is_pid(Pid) ->
[Pid];
undefined ->
[]
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%% Trace pattern
tp(A,B) ->
ensure_no_overloaded_nodes(),
store(tp,[A,ms(B)]),
dbg:tp(A,ms(B)).
tp(A,B,C) ->
ensure_no_overloaded_nodes(),
store(tp,[A,B,ms(C)]),
dbg:tp(A,B,ms(C)).
tp(A,B,C,D) ->
ensure_no_overloaded_nodes(),
store(tp,[A,B,C,ms(D)]),
dbg:tp(A,B,C,ms(D)).
tpl(A,B) ->
ensure_no_overloaded_nodes(),
store(tpl,[A,ms(B)]),
dbg:tpl(A,ms(B)).
tpl(A,B,C) ->
ensure_no_overloaded_nodes(),
store(tpl,[A,B,ms(C)]),
dbg:tpl(A,B,ms(C)).
tpl(A,B,C,D) ->
ensure_no_overloaded_nodes(),
store(tpl,[A,B,C,ms(D)]),
dbg:tpl(A,B,C,ms(D)).
ctp() ->
store(ctp,[]),
dbg:ctp().
ctp(A) ->
store(ctp,[A]),
dbg:ctp(A).
ctp(A,B) ->
store(ctp,[A,B]),
dbg:ctp(A,B).
ctp(A,B,C) ->
store(ctp,[A,B,C]),
dbg:ctp(A,B,C).
ctpl() ->
store(ctpl,[]),
dbg:ctpl().
ctpl(A) ->
store(ctpl,[A]),
dbg:ctpl(A).
ctpl(A,B) ->
store(ctpl,[A,B]),
dbg:ctpl(A,B).
ctpl(A,B,C) ->
store(ctpl,[A,B,C]),
dbg:ctpl(A,B,C).
ctpg() ->
store(ctpg,[]),
dbg:ctpg().
ctpg(A) ->
store(ctpg,[A]),
dbg:ctpg(A).
ctpg(A,B) ->
store(ctpg,[A,B]),
dbg:ctpg(A,B).
ctpg(A,B,C) ->
store(ctpg,[A,B,C]),
dbg:ctpg(A,B,C).
ms(return) ->
[{'_',[],[{return_trace}]}];
ms(caller) ->
[{'_',[],[{message,{caller}}]}];
ms({codestr, FunStr}) ->
{ok, MS} = string2ms(FunStr),
MS;
ms(Other) ->
Other.
ensure_no_overloaded_nodes() ->
ttb ! {get_overloaded, self()},
Overloaded = receive O -> O after 300 -> [] end,
case Overloaded of
[] -> ok;
Overloaded -> exit({error, overload_protection_active, Overloaded})
end.
-spec string2ms(string()) -> {ok, list()} | {error, fun_format}.
string2ms(FunStr) ->
case erl_scan:string(fix_dot(FunStr)) of
{ok, Tokens, _} ->
case erl_parse:parse_exprs(Tokens) of
{ok, [Expression]} ->
case Expression of
{_, _, {clauses, Clauses}} ->
{ok, ms_transform:transform_from_shell(dbg, Clauses, [])};
_ ->
{error, fun_format}
end;
_ ->
{error, fun_format}
end;
_ ->{error, fun_format}
end.
-spec fix_dot(string()) -> string().
fix_dot(FunStr) ->
[H | Rest] = lists:reverse(FunStr),
case H of
$. ->
FunStr;
H ->
lists:reverse([$., H | Rest])
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%% Support for sequential trace
seq_trigger_ms() -> seq_trigger_ms(all).
seq_trigger_ms(all) -> seq_trigger_ms(?seq_trace_flags);
seq_trigger_ms(Flag) when is_atom(Flag) -> seq_trigger_ms([Flag],[]);
seq_trigger_ms(Flags) -> seq_trigger_ms(Flags,[]).
seq_trigger_ms([Flag|Flags],Body) ->
case lists:member(Flag,?seq_trace_flags) of
true -> seq_trigger_ms(Flags,[{set_seq_token,Flag,true}|Body]);
false -> {error,{illegal_flag,Flag}}
end;
seq_trigger_ms([],Body) ->
[{'_',[],Body}].
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%% Write information to the .ti file
write_trace_info(Key,What) ->
store(write_trace_info,[Key,What]),
no_store_write_trace_info(Key,What).
no_store_write_trace_info(Key,What) ->
case whereis(?MODULE) of
undefined -> ok;
Pid when is_pid(Pid) -> ?MODULE ! {write_trace_info,Key,What}
end,
ok.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%% Stop tracing on all nodes
stop() ->
stop([]).
stop(Opts) when is_list(Opts) ->
Fetch = stop_opts(Opts),
Result =
case whereis(?MODULE) of
undefined -> ok;
Pid when is_pid(Pid) ->
?MODULE ! {stop,Fetch,self()},
receive {?MODULE,R} -> R end
end,
stop_return(Result,Opts);
stop(Opts) ->
stop([Opts]).
stop_opts(Opts) ->
FetchDir = proplists:get_value(fetch_dir, Opts),
ensure_fetch_dir(FetchDir),
case {lists:member(format,Opts), lists:member(return, Opts)} of
{true, _} ->
{format, FetchDir}; % format implies fetch
{_, true} ->
{fetch, FetchDir}; % if we specify return, the data should be fetched
_ ->
case lists:member(fetch,Opts) of
true -> {fetch, FetchDir};
false -> nofetch
end
end.
ensure_fetch_dir(undefined) -> ok;
ensure_fetch_dir(Dir) ->
case filelib:is_file(Dir) of
true ->
throw({error, exists, Dir});
false ->
ok
end.
stop_return(R,Opts) ->
case {lists:member(return,Opts),R} of
{true,_} ->
R;
{false,{stopped,_}} ->
stopped;
{false,_} ->
%% Anything other than 'stopped' would not be bw compatible...
stopped
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%% Process implementation
start(SessionInfo) ->
case whereis(?MODULE) of
undefined ->
Parent = self(),
Pid = spawn(fun() -> init(Parent, SessionInfo) end),
receive {started,Pid} -> ok end,
Pid;
Pid when is_pid(Pid) ->
Pid
end.
init(Parent, SessionInfo) ->
register(?MODULE,self()),
ets:new(?history_table,[ordered_set,named_table,public]),
Parent ! {started,self()},
loop(dict:new(), SessionInfo).
loop(NodeInfo, SessionInfo) ->
receive
{init_node,Node,MetaFile,PI,Traci} ->
erlang:monitor_node(Node,true),
MetaPid =
case rpc:call(Node,
observer_backend,
ttb_init_node,
[MetaFile,PI,Traci]) of
{ok,MP} ->
MP;
{badrpc,nodedown} ->
%% We will get a nodedown message
undefined
end,
loop(dict:store(Node,{MetaFile,MetaPid},NodeInfo), SessionInfo);
{get_nodes,Sender} ->
Sender ! {?MODULE,dict:fetch_keys(NodeInfo)},
loop(NodeInfo, SessionInfo);
{write_trace_info,Key,What} ->
dict:fold(fun(Node,{_MetaFile,MetaPid},_) ->
rpc:call(Node,observer_backend,
ttb_write_trace_info,[MetaPid,Key,What])
end,
ok,
NodeInfo),
loop(NodeInfo, SessionInfo);
{nodedown,Node} ->
loop(dict:erase(Node,NodeInfo), SessionInfo);
{timeout, StopOpts} ->
spawn(?MODULE, stop, [StopOpts]),
loop(NodeInfo, SessionInfo);
{node_overloaded, Node} ->
io:format("Overload check activated on node: ~p.~n", [Node]),
{Overloaded, SI} = {proplists:get_value(overloaded, SessionInfo, []),
lists:keydelete(overloaded, 1, SessionInfo)},
loop(NodeInfo, [{overloaded, [Node|Overloaded]} | SI]);
{get_overloaded, Pid} ->
Pid ! proplists:get_value(overloaded, SessionInfo, []),
loop(NodeInfo, SessionInfo);
trace_started ->
case proplists:get_value(timer, SessionInfo) of
undefined -> ok;
{MSec, StopOpts} -> erlang:send_after(MSec, self(), {timeout, StopOpts})
end,
loop(NodeInfo, SessionInfo);
{stop,nofetch,Sender} ->
write_config(?last_config, all),
dict:fold(
fun(Node,{_,MetaPid},_) ->
rpc:call(Node,observer_backend,ttb_stop,[MetaPid])
end,
ok,
NodeInfo),
dbg:stop_clear(),
ets:delete(?history_table),
Sender ! {?MODULE,stopped};
{stop,{FetchOrFormat, UserDir} ,Sender} ->
write_config(?last_config, all),
Localhost = host(node()),
Dir = get_fetch_dir(UserDir),
file:make_dir(Dir),
%% The nodes are traversed twice here because
%% the meta tracing in observer_backend must be
%% stopped before dbg is stopped, and dbg must
%% be stopped before the trace logs are moved orelse
%% windows complains.
AllNodesAndMeta =
dict:fold(
fun(Node,{MetaFile,MetaPid},Nodes) ->
rpc:call(Node,observer_backend,ttb_stop,[MetaPid]),
[{Node,MetaFile}|Nodes]
end,
[],
NodeInfo),
dbg:stop_clear(),
AllNodes =
lists:map(
fun({Node,MetaFile}) ->
spawn(fun() -> fetch(Localhost,Dir,Node,MetaFile) end),
Node
end,
AllNodesAndMeta),
ets:delete(?history_table),
wait_for_fetch(AllNodes),
Absname = filename:absname(Dir),
io:format("Stored logs in ~s~n",[Absname]),
case FetchOrFormat of
format -> format(Dir);
fetch -> ok
end,
Sender ! {?MODULE,{stopped,Absname}}
?get_status
end.
get_fetch_dir(undefined) -> ?upload_dir ++ ts();
get_fetch_dir(Dir) -> Dir.
get_nodes() ->
?MODULE ! {get_nodes,self()},
receive {?MODULE,Nodes} -> Nodes end.
ts() ->
{{Y,M,D},{H,Min,S}} = calendar:now_to_local_time(now()),
io_lib:format("-~4.4.0w~2.2.0w~2.2.0w-~2.2.0w~2.2.0w~2.2.0w",
[Y,M,D,H,Min,S]).
fetch(Localhost,Dir,Node,MetaFile) ->
case (host(Node) == Localhost) orelse is_local(MetaFile) of
true -> % same host, just move the files
Files = get_filenames(Node,MetaFile),
lists:foreach(
fun(File0) ->
case MetaFile of
{local, _, _} ->
File = filename:join(Dir,filename:basename(File0)),
file:rename(File0, File);
_ ->
%%Other nodes may still have different CWD
{ok, Cwd} = rpc:call(Node, file, get_cwd, []),
File1 = filename:join(Cwd, File0),
File = filename:join(Dir,filename:basename(File1)),
file:rename(File1,File)
end
end,
Files);
false ->
{ok, LSock} = gen_tcp:listen(0, [binary,{packet,2},{active,false}]),
{ok,Port} = inet:port(LSock),
rpc:cast(Node,observer_backend,ttb_fetch,
[MetaFile,{Port,Localhost}]),
{ok, Sock} = gen_tcp:accept(LSock),
receive_files(Dir,Sock,undefined),
ok = gen_tcp:close(LSock),
ok = gen_tcp:close(Sock)
end,
?MODULE ! {fetch_complete,Node}.
is_local({local, _, _}) ->
true;
is_local(_) ->
false.
get_filenames(_N, {local,F,_}) ->
observer_backend:ttb_get_filenames(F);
get_filenames(N, F) ->
rpc:call(N, observer_backend,ttb_get_filenames,[F]).
receive_files(Dir,Sock,Fd) ->
case gen_tcp:recv(Sock, 0) of
{ok, <<0,Bin/binary>>} ->
file:write(Fd,Bin),
receive_files(Dir,Sock,Fd);
{ok, <<1,Bin/binary>>} ->
File0 = binary_to_list(Bin),
File = filename:join(Dir,File0),
{ok,Fd1} = file:open(File,[raw,write]),
receive_files(Dir,Sock,Fd1);
{error, closed} ->
ok = file:close(Fd)
end.
host(Node) ->
[_name,Host] = string:tokens(atom_to_list(Node),"@"),
Host.
wait_for_fetch([]) ->
ok;
wait_for_fetch(Nodes) ->
receive
{fetch_complete,Node} ->
wait_for_fetch(lists:delete(Node,Nodes))
end.
%%% - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
%%% TRACE INFORMATION FILE
%%% ======================
%%% The trace information file has the same name as the trace log,
%%% but with the extension ".ti". It contains process information,
%%% trace information and any data the user writes with the
%%% function write_trace_info/2.
%%%
%%% The file is read during formatting of trace logs, and all data
%%% except process information is included in the handler function.
%%% - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
write_info(Nodes,PI,Traci) ->
lists:foreach(fun({N,{local,C,_},F}) ->
MetaFile = F ++ ".ti",
file:delete(MetaFile),
Traci1 = [{node,N},{file,C}|Traci],
{ok,Port} = dbg:get_tracer(N),
?MODULE !
{init_node, N, {local,MetaFile,Port}, PI, Traci1};
({N,C,F}) ->
MetaFile = F ++ ".ti",
Traci1 = [{node,N},{file,C}|Traci],
?MODULE ! {init_node, N, MetaFile, PI, Traci1}
end,
Nodes).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%% Format binary trace logs
format(Files) ->
format(Files,[]).
format(Files,Opt) ->
{Out,Handler} = format_opt(Opt),
ets:new(?MODULE,[named_table]),
format(Files,Out,Handler).
format(File,Out,Handler) when is_list(File), is_integer(hd(File)) ->
Files =
case filelib:is_dir(File) of
true -> % will merge all files in the directory
MetaFiles = filelib:wildcard(filename:join(File,"*.ti")),
lists:map(fun(M) ->
Sub = string:left(M,length(M)-3),
case filelib:is_file(Sub) of
true -> Sub;
false -> Sub++".*.wrp"
end
end,
MetaFiles);
false -> % format one file
[File]
end,
format(Files,Out,Handler);
format(Files,Out,Handler) when is_list(Files), is_list(hd(Files)) ->
StopDbg = case whereis(dbg) of
undefined -> true;
_ -> false
end,
Details = lists:foldl(fun(File,Acc) -> [prepare(File,Handler)|Acc] end,
[],Files),
Fd = get_fd(Out),
R = do_format(Fd,Details),
file:close(Fd),
ets:delete(?MODULE),
case StopDbg of
true -> dbg:stop_clear();
false -> ok
end,
R.
prepare(File,Handler) ->
{Traci,Proci} = read_traci(File),
Node = get_node(Traci),
lists:foreach(fun({Pid,PI}) ->
%% The last definition for a Pid will overwrite
%% any previous definitions. That should be what
%% we want (we will get the registered name for
%% the process, rather than the initial call if
%% both are present in the list).
ets:insert(?MODULE,{Pid,PI,Node})
end,Proci),
FileOrWrap = get_file(File,Traci),
Handler1 = get_handler(Handler,Traci),
{FileOrWrap,Traci,Handler1}.
format_opt(Opt) when is_list(Opt) ->
Out = case lists:keysearch(out,1,Opt) of
{value,{out,O}} -> O;
_ -> standard_io
end,
Handler = case lists:keysearch(handler,1,Opt) of
{value,{handler,H}} -> H;
_ -> undefined
end,
{Out,Handler};
format_opt(Opt) ->
format_opt([Opt]).
read_traci(File) ->
MetaFile = get_metafile(File),
case file:read_file(MetaFile) of
{ok,B} ->
interpret_binary(B,dict:new(),[]);
_ ->
io:format("Warning: no meta data file: ~s~n",[MetaFile]),
{dict:new(),[]}
end.
get_metafile(File) ->
case filename:rootname(File,".wrp") of
File -> File++".ti";
Wrap -> filename:rootname(Wrap)++".ti"
end.
interpret_binary(<<>>,Dict,P) ->
{Dict,lists:reverse(P)};
interpret_binary(B,Dict,P) ->
{Term,Rest} = get_term(B),
{Dict1,P1} =
case Term of
{pid,PI} ->
{Dict,[PI|P]};
{Key,Val} ->
{dict:update(Key,fun(Val0) -> [Val|Val0] end, [Val], Dict),P}
end,
interpret_binary(Rest,Dict1,P1).
get_fd(Out) ->
case Out of
standard_io ->
Out;
_file ->
file:delete(Out),
case file:open(Out,[append]) of
{ok,Fd} -> Fd;
Error -> exit(Error)
end
end.
get_node(Traci) ->
case dict:find(node,Traci) of
{ok,[Node]} -> Node;
error -> unknown
end.
get_file(File,Traci) ->
case dict:find(file,Traci) of
{ok,[Client]} ->
check_client(Client,File);
error ->
check_exists(File)
end.
check_client(Client,File) when is_list(Client) ->
check_exists(File);
check_client(Client,File) when is_tuple(Client),element(2,Client)==wrap ->
Root = filename:rootname(File,".wrp"),
case filename:extension(Root) of
".*" ->
Part1 = filename:rootname(Root,"*"),
setelement(1,Client,Part1);
_ ->
check_exists(File)
end.
check_exists(File) ->
case file:read_file_info(File) of
{ok,#file_info{type=regular}} -> File;
_ ->
exit({error,no_file})
end.
get_handler(Handler,Traci) ->
case Handler of
undefined ->
case dict:find(handler,Traci) of
{ok,[H]} -> H;
error -> undefined
end;
_ ->
Handler
end.
do_format(Fd,Details) ->
Clients = lists:foldl(fun({FileOrWrap,Traci,Handler},Acc) ->
[start_client(FileOrWrap,Traci,Handler)
|Acc]
end,[],Details),
init_collector(Fd,Clients).
start_client(FileOrWrap,Traci,et) ->
dbg:trace_client(file, FileOrWrap,
{fun handler/2,
{dict:to_list(Traci),{{ttb_et,handler},initial}}});
start_client(FileOrWrap,Traci,undefined) ->
dbg:trace_client(file, FileOrWrap,
{fun handler/2,
{dict:to_list(Traci),{fun defaulthandler/4,initial}}});
start_client(FileOrWrap,Traci,Handler) ->
dbg:trace_client(file, FileOrWrap,
{fun handler/2, {dict:to_list(Traci),Handler}}).
handler(Trace,State) ->
%% State here is only used for the initial state. The accumulated
%% State is maintained by collector!!!
receive
{get,Collector} -> Collector ! {self(),{Trace,State}};
done -> ok
end,
State.
handler1(Trace,{Fd,{Traci,{Fun,State}}}) when is_function(Fun) ->
{Traci,{Fun,Fun(Fd,Trace,Traci,State)}};
handler1(Trace,{Fd,{Traci,{{M,F},State}}}) when is_atom(M), is_atom(F) ->
{Traci,{{M,F},M:F(Fd,Trace,Traci,State)}}.
defaulthandler(Fd,Trace,_Traci,initial) ->
dbg:dhandler(Trace,Fd);
defaulthandler(_Fd,Trace,_Traci,State) ->
dbg:dhandler(Trace,State).
init_collector(Fd,Clients) ->
Collected = get_first(Clients),
collector(Fd,sort(Collected)).
collector(Fd,[{_,{Client,{Trace,State}}} |Rest]) ->
Trace1 = update_procinfo(Trace),
State1 = handler1(Trace1,{Fd,State}),
case get_next(Client,State1) of
end_of_trace ->
handler1(end_of_trace,{Fd,State1}),
collector(Fd,Rest);
Next -> collector(Fd,sort([Next|Rest]))
end;
collector(_Fd,[]) ->
ok.
update_procinfo({drop,_N}=Trace) ->
Trace;
update_procinfo(Trace) when element(1,Trace)==seq_trace ->
Info = element(3,Trace),
Info1 =
case Info of
{send, Serial, From, To, Msg} ->
{send, Serial, get_procinfo(From), get_procinfo(To), Msg};
{'receive', Serial, From, To, Msg} ->
{'receive', Serial, get_procinfo(From), get_procinfo(To), Msg};
{print, Serial, From, Void, UserInfo} ->
{print, Serial, get_procinfo(From), Void, UserInfo};
Other ->
Other
end,
setelement(3,Trace,Info1);
update_procinfo(Trace) when element(3,Trace)==send ->
PI = get_procinfo(element(5,Trace)),
setelement(5,Trace,PI);
update_procinfo(Trace) ->
Pid = element(2,Trace),
ProcInfo = get_procinfo(Pid),
setelement(2,Trace,ProcInfo).
get_procinfo(Pid) when is_pid(Pid); is_port(Pid) ->
case ets:lookup(?MODULE,Pid) of
[PI] -> PI;
[] -> Pid
end;
get_procinfo(Name) when is_atom(Name) ->
case ets:match_object(?MODULE,{'_',Name,node()}) of
[PI] -> PI;
[] -> Name
end;
get_procinfo({Name,Node}) when is_atom(Name) ->
case ets:match_object(?MODULE,{'_',Name,Node}) of
[PI] -> PI;
[] -> {Name,Node}
end.
get_first([Client|Clients]) ->
Client ! {get,self()},
receive
{Client,{end_of_trace,_}} ->
get_first(Clients);
{Client,{Trace,_State}}=Next ->
[{timestamp(Trace),Next}|get_first(Clients)]
end;
get_first([]) -> [].
get_next(Client,State) when is_pid(Client) ->
Client ! {get,self()},
receive
{Client,{end_of_trace,_}} ->
end_of_trace;
{Client,{Trace,_OldState}} ->
{timestamp(Trace),{Client,{Trace,State}}} % inserting new state!!
end.
sort(List) ->
lists:keysort(1,List).
timestamp(Trace) when element(1,Trace) =:= trace_ts;
element(1,Trace) =:= seq_trace, tuple_size(Trace) =:= 4 ->
element(tuple_size(Trace),Trace);
timestamp(_Trace) ->
0.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%% common internal functions
to_list(Atom) when is_atom(Atom) -> [Atom];
to_list(List) when is_list(List) -> List.
write_binary(File,TermList) ->
{ok,Fd} = file:open(File,[raw,append]),
%% Using the function implemented in observer_backend, only because
%% is exists - so I don't have to write the same code twice.
observer_backend:ttb_write_binary(Fd,TermList),
file:close(Fd).
get_term(B) ->
<<S:8, B2/binary>> = B,
<<T:S/binary, Rest/binary>> = B2,
case binary_to_term(T) of
{'$size',Sz} ->
%% size of the actual term was bigger than 8 bits
<<T1:Sz/binary, Rest1/binary>> = Rest,
{binary_to_term(T1),Rest1};
Term ->
{Term,Rest}
end.
display_warning(Item,Warning) ->
io:format("Warning: {~w,~w}~n",[Warning,Item]).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%% Trace client which reads an IP port and puts data directly to a file.
%%% This is used when tracing remote nodes with no file system.
ip_to_file(Trace,{file,File}) ->
Fun = dbg:trace_port(file,File), %File can be a filename or a wrap spec
Port = Fun(),
ip_to_file(Trace,Port);
ip_to_file({metadata,MetaFile,MetaData},Port) ->
{ok,MetaFd} = file:open(MetaFile,[write,raw,append]),
file:write(MetaFd,MetaData),
file:close(MetaFd),
Port;
ip_to_file(Trace,Port) ->
B = term_to_binary(Trace),
erlang:port_command(Port,B),
Port.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%% For debugging
dump_ti(File) ->
{ok,B} = file:read_file(File),
dump_ti(B,[]).
dump_ti(<<>>,Acc) ->
lists:reverse(Acc);
dump_ti(B,Acc) ->
{Term,Rest} = get_term(B),
dump_ti(Rest,[Term|Acc]).