%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1996-2016. All Rights Reserved.
%%
%% Licensed under the Apache License, Version 2.0 (the "License");
%% you may not use this file except in compliance with the License.
%% You may obtain a copy of the License at
%%
%% http://www.apache.org/licenses/LICENSE-2.0
%%
%% Unless required by applicable law or agreed to in writing, software
%% distributed under the License is distributed on an "AS IS" BASIS,
%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
%% See the License for the specific language governing permissions and
%% limitations under the License.
%%
%% %CopyrightEnd%
%%
-module(dbg).
-export([p/1,p/2,c/3,c/4,i/0,start/0,stop/0,stop_clear/0,tracer/0,
tracer/2, tracer/3, get_tracer/0, get_tracer/1, tp/2, tp/3, tp/4,
tpe/2, ctpe/1,
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, ltp/0, wtp/1, rtp/1,
dtp/0, dtp/1, n/1, cn/1, ln/0, h/0, h/1]).
-export([trace_port/2, flush_trace_port/0, flush_trace_port/1,
trace_port_control/1, trace_port_control/2, trace_client/2,
trace_client/3, stop_trace_client/1]).
-export([transform_flags/1,dhandler/2]).
-export([fun2ms/1]).
%% Local exports
-export([erlang_trace/3,get_info/0,deliver_and_flush/1]).
%% Debug exports
-export([wrap_presort/2, wrap_sort/2, wrap_postsort/1, wrap_sortfix/2,
match_front/2, match_rear/2,
match_0_9/1]).
%%% Shell callable utility
fun2ms(ShellFun) when is_function(ShellFun) ->
% Check that this is really a shell fun...
case erl_eval:fun_data(ShellFun) of
{fun_data,ImportList,Clauses} ->
case ms_transform:transform_from_shell(
?MODULE,Clauses,ImportList) of
{error,[{_,[{_,_,Code}|_]}|_],_} ->
io:format("Error: ~s~n",
[ms_transform:format_error(Code)]),
{error,transform_error};
Else ->
Else
end;
false ->
exit({badarg,{?MODULE,fun2ms,
[function,called,with,real,'fun',
should,be,transformed,with,
parse_transform,'or',called,with,
a,'fun',generated,in,the,
shell]}})
end.
%%% Client functions.
%%
%% n(Node) -> {ok, Node} | {error, Reason}
%% Adds Node to the list of traced nodes.
%%
n(Node) when Node =:= node() ->
{error, cant_add_local_node};
n(Node) ->
case (catch net_adm:ping(Node)) of
{'EXIT',_} ->
{error, {bad_node, Node}};
pang ->
{error, {nodedown, Node}};
pong ->
req({add_node, Node});
Other ->
{error, Other}
end.
%%
%% cn(Node) -> ok
%% Remove Node from the list of traced nodes.
%%
cn(Node) ->
req({remove_node, Node}).
%%
%% ln() -> ok
%% List traced nodes
%%
ln() ->
lists:foreach(fun(X) ->
io:format("~p~n",[X])
end,
req(get_nodes)),
ok.
%%
%% tp/tpl(Module, Pattern) | tp/tpl(Module,Function,Pattern) |
%% tp/tpl(Module,Function,Arity,Pattern) | tp/tpl({M,F,A},Pattern)
%% -> {ok, [{matched,Node,N}]} |
%% {ok, [{matched,Node,N}, {saved,M}]} |
%% {ok, [{saved,M}]} |
%% {error, Reason}
%% Set trace pattern for function or group of functions.
%%
tp(Module, Function, Pattern) ->
do_tp({Module, Function, '_'}, Pattern, []).
tp(Module, Function, Arity, Pattern) ->
do_tp({Module, Function, Arity}, Pattern, []).
tp(Module, Pattern) when is_atom(Module) ->
do_tp({Module, '_', '_'}, Pattern, []);
tp({_Module, _Function, _Arity} = X, Pattern) ->
do_tp(X,Pattern,[]).
tpl(Module, Function, Pattern) ->
do_tp({Module, Function, '_'}, Pattern, [local]).
tpl(Module, Function, Arity, Pattern) ->
do_tp({Module, Function, Arity}, Pattern, [local]).
tpl(Module, Pattern) when is_atom(Module) ->
do_tp({Module, '_', '_'}, Pattern, [local]);
tpl({_Module, _Function, _Arity} = X, Pattern) ->
do_tp(X,Pattern,[local]).
tpe(Event, Pattern) when Event =:= send;
Event =:= 'receive' ->
do_tp(Event, Pattern, []).
do_tp(X, Pattern, Flags)
when is_integer(Pattern);
is_atom(Pattern) ->
case ets:lookup(get_pattern_table(), Pattern) of
[{_,NPattern}] ->
do_tp(X, binary_to_term(NPattern), Flags);
_ ->
{error, unknown_pattern}
end;
do_tp(X, Pattern, Flags) when is_list(Pattern) ->
Nodes = req(get_nodes),
case X of
{M,_,_} when is_atom(M) ->
%% Try to load M on all nodes
lists:foreach(fun(Node) ->
rpc:call(Node, M, module_info, [])
end,
Nodes);
_ -> ok
end,
case lint_tp(Pattern) of
{ok,_} ->
SaveInfo = case save_pattern(Pattern) of
N when is_integer(N), N > 0; is_atom(N) ->
[{saved, N}];
_ ->
[]
end,
{ok, do_tp_on_nodes(Nodes, X, Pattern, Flags) ++ SaveInfo};
Other ->
Other
end.
%% All nodes are handled the same way - also the local node if it is traced
do_tp_on_nodes(Nodes, X, P, Flags) ->
lists:map(fun(Node) ->
case rpc:call(Node,erlang,trace_pattern,[X,P, Flags]) of
N when is_integer(N) ->
{matched, Node, N};
Else ->
{matched, Node, 0, Else}
end
end,
Nodes).
%%
%% ctp/ctpl(Module) | ctp/ctpl(Module,Function) |
%% ctp/ctpl(Module,Function,Arity) | ctp/ctpl({M,F,A}) ->
%% {ok, [{matched, N}]} | {error, Reason}
%% Clears trace pattern for function or group of functions.
%%
ctp() ->
do_ctp({'_','_','_'},[]).
ctp(Module, Function) ->
do_ctp({Module, Function, '_'}, []).
ctp(Module, Function, Arity) ->
do_ctp({Module, Function, Arity}, []).
ctp(Module) when is_atom(Module) ->
do_ctp({Module, '_', '_'}, []);
ctp({_Module, _Function, _Arity} = X) ->
do_ctp(X,[]).
ctpl() ->
do_ctp({'_', '_', '_'}, [local]).
ctpl(Module, Function) ->
do_ctp({Module, Function, '_'}, [local]).
ctpl(Module, Function, Arity) ->
do_ctp({Module, Function, Arity}, [local]).
ctpl(Module) when is_atom(Module) ->
do_ctp({Module, '_', '_'}, [local]);
ctpl({_Module, _Function, _Arity} = X) ->
do_ctp(X,[local]).
ctpg() ->
do_ctp({'_', '_', '_'}, [global]).
ctpg(Module, Function) ->
do_ctp({Module, Function, '_'}, [global]).
ctpg(Module, Function, Arity) ->
do_ctp({Module, Function, Arity}, [global]).
ctpg(Module) when is_atom(Module) ->
do_ctp({Module, '_', '_'}, [global]);
ctpg({_Module, _Function, _Arity} = X) ->
do_ctp(X,[global]).
do_ctp({Module, Function, Arity},[]) ->
do_ctp({Module, Function, Arity},[global]),
do_ctp({Module, Function, Arity},[local]);
do_ctp({_Module, _Function, _Arity}=MFA,Flags) ->
Nodes = req(get_nodes),
{ok,do_tp_on_nodes(Nodes,MFA,false,Flags)}.
ctpe(Event) when Event =:= send;
Event =:= 'receive' ->
Nodes = req(get_nodes),
{ok,do_tp_on_nodes(Nodes,Event,true,[])}.
%%
%% ltp() -> ok
%% List saved and built-in trace patterns.
%%
ltp() ->
pt_doforall(fun({X, El},_Ignore) ->
io:format("~p: ~p~n", [X,El])
end,[]).
%%
%% dtp() | dtp(N) -> ok
%% Delete saved pattern with number N or all saved patterns
%%
%% Do not delete built-in trace patterns.
dtp() ->
pt_doforall(fun ({Key, _}, _) when is_integer(Key) ->
dtp(Key);
({_, _}, _) ->
ok
end,
[]).
dtp(N) when is_integer(N) ->
ets:delete(get_pattern_table(), N),
ok;
dtp(_) ->
ok.
%%
%% wtp(FileName) -> ok | {error, Reason}
%% Writes all current saved trace patterns to a file.
%%
%% Actually write the built-in trace patterns too.
wtp(FileName) ->
case file:open(FileName,[write]) of
{error, Reason} ->
{error, Reason};
{ok, File} ->
pt_doforall(fun ({_, Val}, _) when is_list(Val) ->
io:format(File, "~p.~n", [Val]);
({_, _}, _) ->
ok
end,
[]),
file:close(File),
ok
end.
%%
%% rtp(FileName) -> ok | {error, Reason}
%% Reads in previously saved pattern file and merges the contents
%% with what's there now.
%%
%% So the saved built-in trace patterns will merge with
%% the already existing, which should be the same.
rtp(FileName) ->
T = get_pattern_table(),
case file:consult(FileName) of
{error, Reason1} ->
{error, {read_error, Reason1}};
{ok, Data} ->
case check_list(Data) of
ok ->
lists:foreach(fun(X) ->
save_pattern(X,T)
end, Data),
ok;
{error, Reason2} ->
{error, {file_format_error, Reason2}}
end
end.
tracer() ->
tracer(process, {fun dhandler/2,user}).
tracer(port, Fun) when is_function(Fun) ->
start(Fun);
tracer(port, Port) when is_port(Port) ->
start(fun() -> Port end);
tracer(process, {Handler,HandlerData}) ->
start(fun() -> start_tracer_process(Handler, HandlerData) end);
tracer(module, Fun) when is_function(Fun) ->
start(Fun);
tracer(module, {Module, State}) ->
start(fun() -> {Module, State} end).
remote_tracer(port, Fun) when is_function(Fun) ->
remote_start(Fun);
remote_tracer(port, Port) when is_port(Port) ->
remote_start(fun() -> Port end);
remote_tracer(process, {Handler,HandlerData}) ->
remote_start(fun() -> start_tracer_process(Handler, HandlerData) end);
remote_tracer(module, Fun) when is_function(Fun) ->
remote_start(Fun);
remote_tracer(module, {Module, State}) ->
remote_start(fun() -> {Module, State} end).
remote_start(StartTracer) ->
case (catch StartTracer()) of
{'EXIT', Reason} ->
{error, Reason};
Tracer ->
{ok,Tracer}
end.
%%
%% tracer(Node,Type,Data) -> {ok, Node} | {error, Reason}
%% Add Node to the list of traced nodes and a trace port defined by
%% Type and Data is started on Node.
%%
tracer(Node,Type,Data) when Node =:= node() ->
case tracer(Type,Data) of
{ok,_Dbg} -> {ok,Node};
Error -> Error
end;
tracer(Node,Type,Data) ->
case (catch net_adm:ping(Node)) of
{'EXIT',_} ->
{error, {bad_node, Node}};
pang ->
{error, {nodedown, Node}};
pong ->
req({add_node, Node, Type, Data});
Other ->
{error, Other}
end.
flush_trace_port() ->
trace_port_control(flush).
flush_trace_port(Node) ->
trace_port_control(Node, flush).
trace_port_control(Operation) ->
trace_port_control(node(), Operation).
trace_port_control(Node, flush) ->
case get_tracer(Node) of
{ok, Port} when is_port(Port) ->
case catch rpc:call(Node,?MODULE,deliver_and_flush,[Port]) of
[0] ->
ok;
_ ->
{error, not_supported_by_trace_driver}
end;
_ ->
{error, no_trace_driver}
end;
trace_port_control(Node,get_listen_port) ->
case trace_port_control(Node,$p, "") of
{ok, <<0, IpPort:16>>} ->
{ok, IpPort};
{ok, _Other} ->
{error, not_supported_by_trace_driver};
Other ->
Other
end.
trace_port_control(Node, Command, Arg) ->
case get_tracer(Node) of
{ok, Port} when is_port(Port) ->
{ok, catch rpc:call(Node,erlang,port_control,[Port, Command, Arg])};
_ ->
{error, no_trace_driver}
end.
%% A bit more than just flush - it also makes sure all trace messages
%% are delivered first, before flushing the driver.
deliver_and_flush(Port) ->
Ref = erlang:trace_delivered(all),
receive
{trace_delivered,all,Ref} -> ok
end,
erlang:port_control(Port, $f, "").
trace_port(file, {Filename, wrap, Tail}) ->
trace_port(file, {Filename, wrap, Tail, 128*1024});
trace_port(file, {Filename, wrap, Tail, WrapSize}) ->
trace_port(file, {Filename, wrap, Tail, WrapSize, 8});
trace_port(file, {Filename, wrap, Tail, WrapSize, WrapCnt})
when is_list(Tail),
is_integer(WrapSize), WrapSize >= 0, WrapSize < (1 bsl 32),
is_integer(WrapCnt), WrapCnt >= 1, WrapCnt < (1 bsl 32) ->
trace_port1(file, Filename, {wrap, Tail, WrapSize, WrapCnt, 0});
trace_port(file, {Filename, wrap, Tail, {time, WrapTime}, WrapCnt})
when is_list(Tail),
is_integer(WrapTime), WrapTime >= 1, WrapTime < (1 bsl 32),
is_integer(WrapCnt), WrapCnt >= 1, WrapCnt < (1 bsl 32) ->
trace_port1(file, Filename, {wrap, Tail, 0, WrapCnt, WrapTime});
trace_port(file, Filename) ->
trace_port1(file, Filename, nowrap);
trace_port(ip, Portno) when is_integer(Portno) ->
trace_port(ip,{Portno,50});
trace_port(ip, {Portno, Qsiz}) when is_integer(Portno), is_integer(Qsiz) ->
fun() ->
Driver = "trace_ip_drv",
Dir1 = filename:join(code:priv_dir(runtime_tools), "lib"),
case catch erl_ddll:load_driver(Dir1, Driver) of
ok ->
ok;
_ ->
Dir2 = filename:join(
Dir1,
erlang:system_info(system_architecture)),
catch erl_ddll:load_driver(Dir2, Driver)
end,
L = lists:flatten(
io_lib:format("~s ~p ~p 2",
[Driver, Portno, Qsiz])),
open_port({spawn, L}, [eof])
end.
trace_port1(file, Filename, Options) ->
Driver = "trace_file_drv",
fun() ->
Name = filename:absname(Filename),
%% Absname is needed since the driver uses
%% the supplied name without further investigations.
%% Also, the absname must be found inside the fun,
%% in case the actual node where the port shall be
%% started is on another node (or even another host)
{Wrap, Tail} =
case Options of
{wrap, T, WrapSize, WrapCnt, WrapTime} ->
{lists:flatten(
io_lib:format("w ~p ~p ~p ~p ",
[WrapSize, WrapCnt, WrapTime,
length(Name)])),
T};
nowrap ->
{"", ""}
end,
Command = Driver ++ " " ++ Wrap ++ "n " ++ Name ++ Tail,
Dir1 = filename:join(code:priv_dir(runtime_tools), "lib"),
case catch erl_ddll:load_driver(Dir1, Driver) of
ok ->
ok;
_ ->
Dir2 = filename:join(
Dir1,
erlang:system_info(system_architecture)),
catch erl_ddll:load_driver(Dir2, Driver)
end,
if element(1, Options) == wrap ->
%% Delete all files from any previous wrap log
Files = wrap_postsort(wrap_presort(Name, Tail)),
lists:foreach(
fun(N) -> file:delete(N) end,
Files);
true -> ok
end,
open_port({spawn, Command}, [eof])
end.
trace_client(file, Filename) ->
trace_client(file, Filename, {fun dhandler/2,user});
trace_client(follow_file, Filename) ->
trace_client(follow_file, Filename, {fun dhandler/2,user});
trace_client(ip, Portno) when is_integer(Portno) ->
trace_client1(ip, {"localhost", Portno}, {fun dhandler/2,user});
trace_client(ip, {Host, Portno}) when is_integer(Portno) ->
trace_client1(ip, {Host, Portno}, {fun dhandler/2,user}).
trace_client(file, {Filename, wrap, Tail}, FD) ->
trace_client(file, {Filename, wrap, Tail, 128*1024}, FD);
trace_client(file, {Filename, wrap, Tail, WrapSize}, FD) ->
trace_client(file, {Filename, wrap, Tail, WrapSize, 8}, FD);
trace_client(file,
{_Filename, wrap, Tail, _WrapSize, WrapCnt} = WrapSpec,
{Fun, _Data} = FD)
when is_list(Tail), is_function(Fun), is_integer(WrapCnt), WrapCnt >= 1 ->
trace_client1(file, WrapSpec, FD);
trace_client(file, Filename, {Fun, Data} ) when is_function(Fun) ->
trace_client1(file, Filename, {Fun, Data});
trace_client(follow_file, Filename, {Fun, Data} ) when is_function(Fun) ->
trace_client1(follow_file, Filename, {Fun, Data});
trace_client(ip, Portno, {Fun, Data}) when is_integer(Portno), is_function(Fun) ->
trace_client1(ip, {"localhost", Portno}, {Fun, Data});
trace_client(ip, {Host, Portno}, {Fun, Data}) when is_integer(Portno),
is_function(Fun) ->
trace_client1(ip, {Host, Portno}, {Fun, Data}).
trace_client1(Type, OpenData, {Handler,HData}) ->
case req({link_to,
spawn(
fun() ->
tc_loop(gen_reader(Type, OpenData), Handler, HData)
end)}) of
{ok, Pid} ->
Pid;
Other ->
Other
end.
stop_trace_client(Pid) when is_pid(Pid) ->
process_flag(trap_exit,true),
link(Pid),
exit(to_pidspec(Pid),abnormal),
Res = receive
{'EXIT', Pid, _} ->
ok
after 5000 ->
{error, timeout}
end,
process_flag(trap_exit,false),
Res.
p(Pid) ->
p(Pid, [m]).
p(Pid, Flags) when is_atom(Flags) ->
p(Pid, [Flags]);
p(Pid, Flags) ->
req({p,Pid,Flags}).
i() -> req(i).
c(M, F, A) ->
c(M, F, A, all).
c(M, F, A, Flags) when is_atom(Flags) ->
c(M, F, A, [Flags]);
c(M, F, A, Flags) ->
case transform_flags(Flags) of
{error,Reason} -> {error,Reason};
Flags1 ->
tracer(),
S = self(),
Pid = spawn(fun() -> c(S, M, F, A, [get_tracer_flag() | Flags1]) end),
Mref = erlang:monitor(process, Pid),
receive
{'DOWN', Mref, _, _, Reason} ->
stop_clear(),
{error, Reason};
{Pid, Res} ->
erlang:demonitor(Mref, [flush]),
%% 'sleep' prevents the tracer (recv_all_traces) from
%% receiving garbage {'EXIT',...} when dbg i stopped.
timer:sleep(1),
stop_clear(),
Res
end
end.
c(Parent, M, F, A, Flags) ->
%% The trace BIF is used directly here instead of the existing function
%% p/2. The reason is that p/2 (when stopping trace) sends messages which
%% we don't want to show up in this simple tracing from the shell.
erlang:trace(self(), true, Flags),
Res = apply(M, F, A),
erlang:trace(self(), false, [all]),
Parent ! {self(), Res}.
stop() ->
Mref = erlang:monitor(process, dbg),
catch dbg ! {self(),stop},
receive
{'DOWN',Mref,_,_,_} ->
ok
end.
stop_clear() ->
ctp(),
stop().
%%% Calling the server.
req(R) ->
P = ensure(), % The pid or perhaps the name of the server
Mref = erlang:monitor(process, P),
catch P ! {self(), R}, % May crash if P = atom() and server died
receive
{'DOWN', Mref, _, _, _} -> % If server died
exit(dbg_server_crash);
{dbg, Reply} ->
erlang:demonitor(Mref, [flush]),
Reply
end.
%% Returns the pid of the dbg server, or in worst case the name.
%% Starts a new server if necessary.
ensure() ->
case whereis(dbg) of
undefined ->
case start() of
{ok, P} ->
P;
{error, already_started} ->
dbg
end;
Pid ->
Pid
end.
%%% Server implementation.
start() ->
start(no_tracer).
start(TracerFun) ->
S = self(),
case whereis(dbg) of
undefined ->
Dbg = spawn(fun() -> init(S) end),
receive {Dbg,started} -> ok end,
case TracerFun of
no_tracer ->
{ok, Dbg};
Fun when is_function(Fun) ->
req({tracer,TracerFun})
end;
Pid when is_pid(Pid), is_function(TracerFun) ->
req({tracer,TracerFun})
end.
init(Parent) ->
process_flag(trap_exit, true),
register(dbg, self()),
Parent ! {self(),started},
loop({[],[]},[]).
%
% SurviveLinks = Processes we should take with us while falling,
% but not get killed by if they die (i. e. trace clients
% and relay processes on other nodes)
% SurviveLinks = {TraceClients,Relays}
%
loop({C,T}=SurviveLinks, Table) ->
receive
{From,i} ->
reply(From, display_info(lists:map(fun({N,_}) -> N end,get()))),
loop(SurviveLinks, Table);
{From,{p,Pid,Flags}} ->
reply(From, trace_process(Pid, Flags)),
loop(SurviveLinks, Table);
{From,{tracer,TracerFun}} when is_function(TracerFun) ->
case get(node()) of
undefined ->
case (catch TracerFun()) of
{'EXIT', Reason} ->
reply(From, {error, Reason});
Tracer when is_pid(Tracer); is_port(Tracer) ->
put(node(),{self(),Tracer}),
reply(From, {ok,self()});
{Module, _State} = Tracer when is_atom(Module) ->
put(node(),{self(),Tracer}),
reply(From, {ok,self()})
end;
{_Relay,_Tracer} ->
reply(From, {error, already_started})
end,
loop(SurviveLinks,Table);
{From,{get_tracer,Node}} ->
case get(Node) of
undefined -> reply(From,{error, {no_tracer_on_node,Node}});
{_Relay,Tracer} -> reply(From, {ok,Tracer})
end,
loop(SurviveLinks, Table);
{From, get_table} ->
Tab = case Table of
[] ->
new_pattern_table();
_exists ->
Table
end,
reply(From, {ok, Tab}),
loop(SurviveLinks, Tab);
{_From,stop} ->
%% We want to make sure that all trace messages have been delivered
%% on all nodes that might be traced. Since dbg:cn/1 does not turn off
%% tracing on the node it removes from the list of active trace nodes,
%% we will call erlang:trace_delivered/1 on ALL nodes that we have
%% connections to.
%% If it is a file trace driver, we will also flush the port.
lists:foreach(fun({Node,{_Relay,Port}}) ->
rpc:call(Node,?MODULE,deliver_and_flush,[Port])
end,
get()),
exit(done);
{From, {link_to, Pid}} ->
case (catch link(Pid)) of
{'EXIT', Reason} ->
reply(From, {error, Reason}),
loop(SurviveLinks, Table);
_ ->
reply(From, {ok, Pid}),
loop({[Pid|C],T}, Table)
end;
{From, {add_node, Node}} ->
case get(node()) of
undefined ->
reply(From, {error, no_local_tracer}),
loop(SurviveLinks, Table);
{_LocalRelay,Tracer} when is_port(Tracer) ->
reply(From, {error, cant_trace_remote_pid_to_local_port}),
loop(SurviveLinks, Table);
{_LocalRelay,Tracer} when is_tuple(Tracer) ->
reply(From, {error, cant_trace_remote_pid_to_local_module}),
loop(SurviveLinks, Table);
{_LocalRelay,Tracer} when is_pid(Tracer) ->
case (catch relay(Node, Tracer)) of
{ok,Relay} ->
reply(From, {ok, Node}),
loop({C,[Relay|T]}, Table);
{'EXIT', Something} ->
reply(From, {error, Something}),
loop(SurviveLinks, Table);
Error ->
reply(From, Error),
loop(SurviveLinks, Table)
end
end;
{From, {add_node, Node, Type, Data}} ->
case (catch relay(Node, {Type,Data})) of
{ok,Relay} ->
reply(From, {ok, Node}),
loop({C,[Relay|T]}, Table);
{'EXIT', Something} ->
reply(From, {error, Something}),
loop(SurviveLinks, Table);
Error ->
reply(From, Error),
loop(SurviveLinks, Table)
end;
{From, {remove_node, Node}} ->
erase(Node),
reply(From, ok),
loop(SurviveLinks, Table);
{From, get_nodes} ->
reply(From, lists:map(fun({N,_}) -> N end, get())),
loop(SurviveLinks, Table);
{'EXIT', Pid, Reason} ->
case lists:delete(Pid, C) of
C ->
case lists:delete(Pid,T) of
T ->
io:format(user,"** dbg got EXIT - terminating: ~p~n",
[Reason]),
exit(done);
NewT ->
erase(node(Pid)),
loop({C,NewT}, Table)
end;
NewC ->
loop({NewC,T}, Table)
end;
Other ->
io:format(user,"** dbg got garbage: ~p~n",
[{Other,SurviveLinks,Table}]),
loop(SurviveLinks, Table)
end.
reply(Pid, Reply) ->
Pid ! {dbg,Reply}.
%%% A process-based tracer.
start_tracer_process(Handler, HandlerData) ->
spawn_opt(fun() -> tracer_init(Handler, HandlerData) end,
[link,{priority,max}]).
tracer_init(Handler, HandlerData) ->
process_flag(trap_exit, true),
tracer_loop(Handler, HandlerData).
tracer_loop(Handler, Hdata) ->
{State, Suspended, Traces} = recv_all_traces(),
NewHdata = handle_traces(Suspended, Traces, Handler, Hdata),
case State of
done ->
exit(normal);
loop ->
tracer_loop(Handler, NewHdata)
end.
recv_all_traces() ->
recv_all_traces([], [], infinity).
recv_all_traces(Suspended0, Traces, Timeout) ->
receive
Trace when is_tuple(Trace), element(1, Trace) == trace ->
Suspended = suspend(Trace, Suspended0),
recv_all_traces(Suspended, [Trace|Traces], 0);
Trace when is_tuple(Trace), element(1, Trace) == trace_ts ->
Suspended = suspend(Trace, Suspended0),
recv_all_traces(Suspended, [Trace|Traces], 0);
Trace when is_tuple(Trace), element(1, Trace) == seq_trace ->
Suspended = suspend(Trace, Suspended0),
recv_all_traces(Suspended, [Trace|Traces], 0);
Trace when is_tuple(Trace), element(1, Trace) == drop ->
Suspended = suspend(Trace, Suspended0),
recv_all_traces(Suspended, [Trace|Traces], 0);
{'EXIT', _Pid, _Reason} ->
{done, Suspended0, Traces};
Other ->
%%% Is this really a good idea?
io:format(user,"** tracer received garbage: ~p~n", [Other]),
recv_all_traces(Suspended0, Traces, Timeout)
after Timeout ->
{loop, Suspended0, Traces}
end.
handle_traces(Suspended, Traces, Handler, Hdata) ->
case catch invoke_handler(Traces, Handler, Hdata) of
{'EXIT',Reason} ->
resume(Suspended),
exit({trace_handler_crashed,Reason});
NewHdata ->
resume(Suspended),
NewHdata
end.
invoke_handler([Tr|Traces], Handler, Hdata0) ->
Hdata = invoke_handler(Traces, Handler, Hdata0),
Handler(Tr, Hdata);
invoke_handler([], _Handler, Hdata) ->
Hdata.
suspend({trace,From,call,_Func}, Suspended) when node(From) == node() ->
case (catch erlang:suspend_process(From, [unless_suspending,
asynchronous])) of
true ->
[From | Suspended];
_ ->
Suspended
end;
suspend(_Other, Suspended) -> Suspended.
resume([Pid|Pids]) when node(Pid) == node() ->
(catch erlang:resume_process(Pid)),
resume(Pids);
resume([]) -> ok.
%%% Utilities.
trac(Proc, How, Flags) when is_atom(Proc) ->
%% Proc = all | new | existing | RegisteredName
%% Must go to all nodes
case get() of
[] ->
{error,no_tracers};
Nodes ->
Matched = [trac(Node, NodeInfo, Proc, How, Flags)
|| {Node, NodeInfo} <- Nodes],
{ok,Matched}
end;
trac(Proc, How, Flags) ->
%% Proc = Pid | Integer | {X,Y,Z} | "<X.Y.Z>"
%% One node only
Pid = to_pid(Proc),
case Pid of
{badpid,_} ->
{error,Pid};
_ ->
Node = if is_pid(Pid) -> node(Pid); true -> node() end,
case get(Node) of
undefined ->
{error,{no_tracer_on_node,Node}};
NodeInfo ->
Match = trac(Node, NodeInfo, Pid, How, Flags),
{ok,[Match]}
end
end.
trac(Node, {_Replay, Tracer}, AtomPid, How, Flags) ->
case rpc:call(Node, ?MODULE, erlang_trace,
[AtomPid, How, [get_tracer_flag(Tracer) | Flags]]) of
N when is_integer(N) ->
{matched, Node, N};
{badrpc,Reason} ->
{matched, Node, 0, Reason};
Else ->
{matched, Node, 0, Else}
end.
erlang_trace(AtomPid, How, Flags) ->
case to_pidspec(AtomPid) of
{badpid,_} ->
{no_proc,AtomPid};
P ->
erlang:trace(P, How, Flags)
end.
%% Since we are not allowed to do erlang:trace/3 on a remote
%% process, we create a relay process at the remote node.
relay(Node,To) when Node /= node() ->
case get(Node) of
undefined ->
S = self(),
Pid = spawn_link(Node, fun() -> do_relay(S,To) end),
receive {started,Remote} -> put(Node, {Pid,Remote}) end,
{ok,Pid};
{_Relay,PortOrPid} ->
{error, {already_started, PortOrPid}}
end.
do_relay(Parent,RelP) ->
process_flag(trap_exit, true),
case RelP of
{Type,Data} ->
{ok,Tracer} = remote_tracer(Type,Data),
Parent ! {started,Tracer};
Pid when is_pid(Pid) ->
Parent ! {started,self()}
end,
do_relay_1(RelP).
do_relay_1(RelP) ->
%% In the case of a port tracer, this process exists only so that
%% dbg know that the node is alive... should maybe use monitor instead?
receive
{'EXIT', _P, _} ->
exit(normal);
TraceInfo when is_pid(RelP) -> % Here is the normal case for trace i/o
RelP ! TraceInfo,
do_relay_1(RelP);
Other ->
io:format(user,"** relay got garbage: ~p~n", [Other]),
do_relay_1(RelP)
end.
dhandler(end_of_trace, Out) ->
Out;
dhandler(Trace, Out) when element(1, Trace) == trace, tuple_size(Trace) >= 3 ->
dhandler1(Trace, tuple_size(Trace), Out);
dhandler(Trace, Out) when element(1, Trace) == trace_ts, tuple_size(Trace) >= 4 ->
dhandler1(Trace, tuple_size(Trace)-1, element(tuple_size(Trace),Trace), Out);
dhandler(Trace, Out) when element(1, Trace) == drop, tuple_size(Trace) =:= 2 ->
io:format(Out, "*** Dropped ~p messages.~n", [element(2,Trace)]),
Out;
dhandler(Trace, Out) when element(1, Trace) == seq_trace, tuple_size(Trace) >= 3 ->
SeqTraceInfo = case Trace of
{seq_trace, Lbl, STI, TS} ->
io:format(Out, "SeqTrace ~p [~p]: ",
[TS, Lbl]),
STI;
{seq_trace, Lbl, STI} ->
io:format(Out, "SeqTrace [~p]: ",
[Lbl]),
STI
end,
case SeqTraceInfo of
{send, Ser, Fr, To, Mes} ->
io:format(Out, "(~p) ~p ! ~p [Serial: ~p]~n",
[Fr, To, Mes, Ser]);
{'receive', Ser, Fr, To, Mes} ->
io:format(Out, "(~p) << ~p [Serial: ~p, From: ~p]~n",
[To, Mes, Ser, Fr]);
{print, Ser, Fr, _, Info} ->
io:format(Out, "-> ~p [Serial: ~p, From: ~p]~n",
[Info, Ser, Fr]);
Else ->
io:format(Out, "~p~n", [Else])
end,
Out;
dhandler(_Trace, Out) ->
Out.
dhandler1(Trace, Size, Out) ->
From = element(2, Trace),
case element(3, Trace) of
'receive' ->
case element(4, Trace) of
{dbg,ok} -> ok;
Message ->
io:format(Out, "(~p) << ~p~n", [From,Message])
end;
'send' ->
Message = element(4, Trace),
To = element(5, Trace),
io:format(Out, "(~p) ~p ! ~p~n", [From,To,Message]);
call ->
case element(4, Trace) of
MFA when Size == 5 ->
Message = element(5, Trace),
io:format(Out, "(~p) call ~s (~p)~n", [From,ffunc(MFA),Message]);
MFA ->
io:format(Out, "(~p) call ~s~n", [From,ffunc(MFA)])
end;
return -> %% To be deleted...
case element(4, Trace) of
MFA when Size == 5 ->
Ret = element(5, Trace),
io:format(Out, "(~p) old_ret ~s -> ~p~n", [From,ffunc(MFA),Ret]);
MFA ->
io:format(Out, "(~p) old_ret ~s~n", [From,ffunc(MFA)])
end;
return_from ->
MFA = element(4, Trace),
Ret = element(5, Trace),
io:format(Out, "(~p) returned from ~s -> ~p~n", [From,ffunc(MFA),Ret]);
return_to ->
MFA = element(4, Trace),
io:format(Out, "(~p) returning to ~s~n", [From,ffunc(MFA)]);
spawn when Size == 5 ->
Pid = element(4, Trace),
MFA = element(5, Trace),
io:format(Out, "(~p) spawn ~p as ~s~n", [From,Pid,ffunc(MFA)]);
Op ->
io:format(Out, "(~p) ~p ~s~n", [From,Op,ftup(Trace,4,Size)])
end,
Out.
dhandler1(Trace, Size, TS, Out) ->
From = element(2, Trace),
case element(3, Trace) of
'receive' ->
case element(4, Trace) of
{dbg,ok} -> ok;
Message ->
io:format(Out, "(~p) << ~p (Timestamp: ~p)~n", [From,Message,TS])
end;
'send' ->
Message = element(4, Trace),
To = element(5, Trace),
io:format(Out, "(~p) ~p ! ~p (Timestamp: ~p)~n", [From,To,Message,TS]);
call ->
case element(4, Trace) of
MFA when Size == 5 ->
Message = element(5, Trace),
io:format(Out, "(~p) call ~s (~p) (Timestamp: ~p)~n", [From,ffunc(MFA),Message,TS]);
MFA ->
io:format(Out, "(~p) call ~s (Timestamp: ~p)~n", [From,ffunc(MFA),TS])
end;
return -> %% To be deleted...
case element(4, Trace) of
MFA when Size == 5 ->
Ret = element(5, Trace),
io:format(Out, "(~p) old_ret ~s -> ~p (Timestamp: ~p)~n", [From,ffunc(MFA),Ret,TS]);
MFA ->
io:format(Out, "(~p) old_ret ~s (Timestamp: ~p)~n", [From,ffunc(MFA),TS])
end;
return_from ->
MFA = element(4, Trace),
Ret = element(5, Trace),
io:format(Out, "(~p) returned from ~s -> ~p (Timestamp: ~p)~n", [From,ffunc(MFA),Ret,TS]);
return_to ->
MFA = element(4, Trace),
io:format(Out, "(~p) returning to ~s (Timestamp: ~p)~n", [From,ffunc(MFA),TS]);
spawn when Size == 5 ->
Pid = element(4, Trace),
MFA = element(5, Trace),
io:format(Out, "(~p) spawn ~p as ~s (Timestamp: ~p)~n", [From,Pid,ffunc(MFA),TS]);
Op ->
io:format(Out, "(~p) ~p ~s (Timestamp: ~p)~n", [From,Op,ftup(Trace,4,Size),TS])
end,
Out.
%%% These f* functions returns non-flat strings
%% {M,F,[A1, A2, ..., AN]} -> "M:F(A1, A2, ..., AN)"
%% {M,F,A} -> "M:F/A"
ffunc({M,F,Argl}) when is_list(Argl) ->
io_lib:format("~p:~p(~s)", [M, F, fargs(Argl)]);
ffunc({M,F,Arity}) ->
io_lib:format("~p:~p/~p", [M,F,Arity]);
ffunc(X) -> io_lib:format("~p", [X]).
%% Integer -> "Integer"
%% [A1, A2, ..., AN] -> "A1, A2, ..., AN"
fargs(Arity) when is_integer(Arity) -> integer_to_list(Arity);
fargs([]) -> [];
fargs([A]) -> io_lib:format("~p", [A]); %% last arg
fargs([A|Args]) -> [io_lib:format("~p,", [A]) | fargs(Args)];
fargs(A) -> io_lib:format("~p", [A]). % last or only arg
%% {A_1, A_2, ..., A_N} -> "A_Index A_Index+1 ... A_Size"
ftup(Trace, Index, Index) ->
io_lib:format("~p", [element(Index, Trace)]);
ftup(Trace, Index, Size) ->
[io_lib:format("~p ", [element(Index, Trace)])
| ftup(Trace, Index+1, Size)].
trace_process(Pid, [clear]) ->
trac(Pid, false, all());
trace_process(Pid, Flags0) ->
case transform_flags(Flags0) of
{error,Reason} -> {error,Reason};
Flags -> trac(Pid, true, Flags)
end.
transform_flags(Flags0) ->
transform_flags(Flags0,[]).
transform_flags([],Acc) -> Acc;
transform_flags([m|Tail],Acc) -> transform_flags(Tail,[send,'receive'|Acc]);
transform_flags([s|Tail],Acc) -> transform_flags(Tail,[send|Acc]);
transform_flags([r|Tail],Acc) -> transform_flags(Tail,['receive'|Acc]);
transform_flags([c|Tail],Acc) -> transform_flags(Tail,[call|Acc]);
transform_flags([call|Tail],Acc) -> transform_flags(Tail,[call|Acc]);
transform_flags([p|Tail],Acc) -> transform_flags(Tail,[procs|Acc]);
transform_flags([sos|Tail],Acc) -> transform_flags(Tail,[set_on_spawn|Acc]);
transform_flags([sol|Tail],Acc) -> transform_flags(Tail,[set_on_link|Acc]);
transform_flags([sofs|Tail],Acc) -> transform_flags(Tail,[set_on_first_spawn|Acc]);
transform_flags([sofl|Tail],Acc) -> transform_flags(Tail,[set_on_first_link|Acc]);
transform_flags([all|_],_Acc) -> all()--[silent,running];
transform_flags([F|Tail]=List,Acc) when is_atom(F) ->
case lists:member(F, all()) of
true -> transform_flags(Tail,[F|Acc]);
false -> {error,{bad_flags,List}}
end;
transform_flags(Bad,_Acc) -> {error,{bad_flags,Bad}}.
all() ->
[send,'receive',call,procs,ports,garbage_collection,running,
set_on_spawn,set_on_first_spawn,set_on_link,set_on_first_link,
timestamp,monotonic_timestamp,strict_monotonic_timestamp,
arity,return_to,silent,running_procs,running_ports].
display_info([Node|Nodes]) ->
io:format("~nNode ~w:~n",[Node]),
io:format("~-12s ~-21s Trace ~n", ["Pid", "Initial call"]),
List = rpc:call(Node,?MODULE,get_info,[]),
display_info1(List),
display_info(Nodes);
display_info([]) ->
ok.
display_info1([{Pid,Call,Flags}|T]) ->
io:format("~-12s ~-21s ~s~n",
[io_lib:format("~w",[Pid]),
io_lib:format("~p", [Call]),
format_trace(Flags)]),
display_info1(T);
display_info1([]) ->
ok.
get_info() ->
get_info(processes(),get_info(erlang:ports(),[])).
get_info([Port|T], Acc) when is_port(Port) ->
case pinfo(Port, name) of
undefined ->
get_info(T,Acc);
{name, Name} ->
get_info(T,get_tinfo(Port, Name, Acc))
end;
get_info([Pid|T],Acc) ->
case pinfo(Pid, initial_call) of
undefined ->
get_info(T,Acc);
{initial_call, Call} ->
get_info(T,get_tinfo(Pid, Call, Acc))
end;
get_info([],Acc) -> Acc.
get_tinfo(P, Id, Acc) ->
case tinfo(P, flags) of
undefined ->
Acc;
{flags,[]} ->
Acc;
{flags,Flags} ->
[{P,Id,Flags}|Acc]
end.
format_trace([]) -> [];
format_trace([Item]) -> [ts(Item)];
format_trace([Item|T]) -> [ts(Item) ," | ", format_trace(T)].
ts(send) -> "s";
ts('receive') -> "r";
ts(call) -> "c";
ts(procs) -> "p";
ts(set_on_spawn) -> "sos";
ts(set_on_first_spawn) -> "sofs";
ts(set_on_link) -> "sol";
ts(set_on_first_link) -> "sofl";
ts(Other) -> atom_to_list(Other).
%%
%% Turn (pid or) atom into a PidSpec for erlang:trace,
%% return {badpid,X} on failure
%%
to_pidspec(X) when is_pid(X) ->
case erlang:is_process_alive(X) of
true -> X;
false -> {badpid,X}
end;
to_pidspec(X) when is_port(X) ->
case erlang:port_info(X) of
undefined -> {badport, X};
_ -> X
end;
to_pidspec(Tag)
when Tag =:= all;
Tag =:= ports;
Tag =:= processes;
Tag =:= new;
Tag =:= new_ports;
Tag =:= new_processes;
Tag =:= existing;
Tag =:= existing_ports;
Tag =:= existing_processes ->
Tag;
to_pidspec(X) when is_atom(X) ->
case whereis(X) of
undefined -> {badpid,X};
Pid -> Pid
end;
to_pidspec(X) -> {badpid,X}.
%%
%% Turn (pid or) integer or tuple or list into pid
%%
to_pid(X) when is_pid(X) -> X;
to_pid(X) when is_port(X) -> X;
to_pid(X) when is_integer(X) -> to_pid({0,X,0});
to_pid({X,Y,Z}) ->
to_pid(lists:concat(["<",integer_to_list(X),".",
integer_to_list(Y),".",
integer_to_list(Z),">"]));
to_pid(X) when is_list(X) ->
try list_to_pid(X) of
Pid -> Pid
catch
error:badarg -> {badpid,X}
end;
to_pid(X) -> {badpid,X}.
pinfo(P, X) when node(P) == node(), is_port(P) -> erlang:port_info(P, X);
pinfo(P, X) when node(P) == node() -> erlang:process_info(P, X);
pinfo(P, X) when is_port(P) -> check(rpc:call(node(P), erlang, port_info, [P, X]));
pinfo(P, X) -> check(rpc:call(node(P), erlang, process_info, [P, X])).
tinfo(P, X) when node(P) == node() -> erlang:trace_info(P, X);
tinfo(P, X) -> check(rpc:call(node(P), erlang, trace_info, [P, X])).
check({badrpc, _}) -> undefined;
check(X) -> X.
%% Process loop that processes a trace. Reads the trace with
%% the reader Reader, and feeds the trace terms
%% to handler Handler, keeping a state variable for the
%% handler.
%%
%% Exits 'normal' at end of trace, other exits due to errors.
%%
%% Reader is a lazy list, i.e either a list or a fun/0.
%% If it is a fun, it is evaluated for rest of the lazy list.
%% A list head is considered to be a trace term. End of list
%% is interpreted as end of trace.
tc_loop([Term|Tail], Handler, HData0) ->
HData = Handler(Term, HData0),
tc_loop(Tail, Handler, HData);
tc_loop([], Handler, HData) ->
Handler(end_of_trace, HData),
exit(normal);
tc_loop(Reader, Handler, HData) when is_function(Reader) ->
tc_loop(Reader(), Handler, HData);
tc_loop(Other, _Handler, _HData) ->
io:format("~p:tc_loop ~p~n", [?MODULE, Other]),
exit({unknown_term_from_reader, Other}).
%% Returns a reader (lazy list of trace terms) for tc_loop/2.
gen_reader(ip, {Host, Portno}) ->
case gen_tcp:connect(Host, Portno, [{active, false}, binary]) of
{ok, Sock} ->
mk_reader(fun ip_read/2, Sock);
Error ->
exit(Error)
end;
gen_reader(file, {Filename, wrap, Tail, _, WrapCnt}) ->
mk_reader_wrap(wrap_sort(wrap_presort(Filename, Tail), WrapCnt));
gen_reader(file, Filename) ->
gen_reader_file(fun file_read/2, Filename);
gen_reader(follow_file, Filename) ->
gen_reader_file(fun follow_read/2, Filename).
%% Opens a file and returns a reader (lazy list).
gen_reader_file(ReadFun, Filename) ->
case file:open(Filename, [read, raw, binary, read_ahead]) of
{ok, File} ->
mk_reader(ReadFun, File);
Error ->
exit({client_cannot_open, Error})
end.
-dialyzer({no_improper_lists, mk_reader/2}).
%% Creates and returns a reader (lazy list).
mk_reader(ReadFun, Source) ->
fun() ->
case read_term(ReadFun, Source) of
{ok, Term} ->
[Term | mk_reader(ReadFun, Source)];
eof ->
[] % end_of_trace
end
end.
%% Creates and returns a reader (lazy list) for a wrap log.
%% The argument is a sorted list of sort converted
%% wrap log file names, see wrap_presort/2.
mk_reader_wrap([]) ->
[];
mk_reader_wrap([Hd | _] = WrapFiles) ->
case file:open(wrap_name(Hd), [read, raw, binary, read_ahead]) of
{ok, File} ->
mk_reader_wrap(WrapFiles, File);
Error ->
exit({client_cannot_open, Error})
end.
-dialyzer({no_improper_lists, mk_reader_wrap/2}).
mk_reader_wrap([_Hd | Tail] = WrapFiles, File) ->
fun() ->
case read_term(fun file_read/2, File) of
{ok, Term} ->
[Term | mk_reader_wrap(WrapFiles, File)];
eof ->
file:close(File),
case Tail of
[_|_] ->
mk_reader_wrap(Tail);
[] ->
[] % end_of_trace
end
end
end.
%% Generic read term function.
%% Returns {ok, Term} | 'eof'. Exits on errors.
read_term(ReadFun, Source) ->
case ReadFun(Source, 5) of
Bin when is_binary(Bin) ->
read_term(ReadFun, Source, Bin);
List when is_list(List) ->
read_term(ReadFun, Source, list_to_binary(List));
eof ->
eof
end.
read_term(ReadFun, Source, <<Op, Size:32>> = Tag) ->
case Op of
0 ->
case ReadFun(Source, Size) of
eof ->
exit({'trace term missing',
binary_to_list(Tag)});
Bin when is_binary(Bin) ->
{ok, binary_to_term(Bin)};
List when is_list(List) ->
{ok, binary_to_term(list_to_binary(List))}
end;
1 ->
{ok, {drop, Size}};
Junk ->
exit({'bad trace tag', Junk})
end.
%% Read functions for different source types, for read_term/2.
%%
%% Returns a binary of length N, an I/O-list of
%% effective length N or 'eof'. Exits on errors.
file_read(File, N) ->
case file:read(File, N) of
{ok, Bin} when byte_size(Bin) =:= N ->
Bin;
{ok, Bin} when is_binary(Bin) ->
exit({'truncated file', binary_to_list(Bin)});
eof ->
eof;
{error, Reason} ->
exit({'file read error', Reason})
end.
follow_read(File, N) ->
follow_read(File, N, cur).
follow_read(File, N, Pos) ->
case file:position(File, Pos) of
{ok, Offset} ->
case file:read(File, N) of
{ok, Bin} when byte_size(Bin) =:= N ->
Bin;
{ok, Bin} when is_binary(Bin) ->
follow_read(File, N, Offset);
eof ->
follow_read(File, N, Offset);
{error, Reason} ->
exit({'file read error', Reason})
end;
{error, Reason} ->
exit({'file position error', Reason})
end.
ip_read(Socket, N) ->
case gen_tcp:recv(Socket, N) of
{ok, Bin} when byte_size(Bin) < N ->
[Bin | ip_read(Socket, N-byte_size(Bin))];
{ok, Bin} when byte_size(Bin) == N ->
[Bin];
{ok, Bin} when is_binary(Bin) ->
exit({'socket read too much data', Bin});
{error, closed} ->
eof;
{error, _Reason} = Error ->
exit({'socket read error', Error})
end.
get_tracer() ->
req({get_tracer,node()}).
get_tracer(Node) ->
req({get_tracer,Node}).
get_tracer_flag() ->
{ok, Tracer} = get_tracer(),
get_tracer_flag(Tracer).
get_tracer_flag({Module,State}) ->
{tracer, Module, State};
get_tracer_flag(Port = Pid) when is_port(Port); is_pid(Pid)->
{tracer, Pid = Port}.
save_pattern([]) ->
0;
save_pattern(P) ->
(catch save_pattern(P, get_pattern_table())).
save_pattern(Pattern, PT) ->
Last = last_pattern(ets:last(PT), PT),
BPattern = term_to_binary(Pattern),
case ets:match_object(PT, {'_', BPattern}) of
[] ->
ets:insert(PT, {Last + 1, BPattern}),
Last + 1;
[{N, BPattern}] ->
N
end.
last_pattern('$end_of_table', _PT) ->
0;
last_pattern(I, PT) when is_atom(I) ->
last_pattern(ets:prev(PT, I), PT);
last_pattern(I, _PT) when is_integer(I) ->
I;
last_pattern(_, _) ->
throw({error, badtable}).
get_pattern_table() ->
{ok, Ret} = req(get_table),
Ret.
new_pattern_table() ->
PT = ets:new(dbg_tab, [ordered_set, public]),
ets:insert(PT,
{x,
term_to_binary([{'_',[],[{exception_trace}]}])}),
ets:insert(PT,
{exception_trace,
term_to_binary(x)}),
ets:insert(PT,
{c,
term_to_binary([{'_',[],[{message,{caller}}]}])}),
ets:insert(PT,
{caller_trace,
term_to_binary(c)}),
ets:insert(PT,
{cx,
term_to_binary([{'_',[],[{exception_trace},
{message,{caller}}]}])}),
ets:insert(PT,
{caller_exception_trace,
term_to_binary(cx)}),
PT.
pt_doforall(Fun, Ld) ->
T = get_pattern_table(),
pt_doforall(T, Fun, ets:first(T), Ld).
pt_doforall(_, _, '$end_of_table', _Ld) ->
ok;
pt_doforall(T, Fun, Key, Ld) ->
[{A,B}] = ets:lookup(T,Key),
NLd = Fun({A,binary_to_term(B)},Ld),
pt_doforall(T,Fun,ets:next(T,Key),NLd).
lint_tp([]) ->
{ok,[]};
lint_tp(Pattern) ->
case erlang:match_spec_test([],Pattern,trace) of
{ok,_Res,Warnings,_Flags} ->
{ok, Warnings};
{error, Reasons} ->
{error, Reasons}
end.
check_list(T) ->
case (catch lists:foldl(
fun(Val,_) ->
{ok,_,_,_} =
erlang:match_spec_test([],Val,trace),
ok
end,
ok, T)) of
{'EXIT',_} ->
{error, bad_match_spec};
ok ->
ok;
_Else ->
{error, badfile}
end.
%% Find all possible wrap log files.
%% Returns: a list of sort converted filenames.
%%
%% The sort conversion is done by extracting the wrap sequence counter
%% from the filename, and calling wrap_encode/2.
wrap_presort(Filename, Tail) ->
Name = filename:basename(Filename),
Dirname = filename:dirname(Filename),
case file:list_dir(Dirname) of
{ok, Files} ->
lists:zf(
fun(N) ->
case match_front(N, Name) of
false ->
false;
X ->
case match_rear(X, Tail) of
false ->
false;
C -> % Counter
case match_0_9(C) of
true ->
{true,
wrap_encode(
filename:join(Dirname, N),
C)};
false ->
false
end
end
end
end,
Files);
_ ->
[]
end.
%% Sorts a list of sort converted files
wrap_sort(Files, N) ->
wrap_sortfix(lists:sort(Files), N).
%% Finish the sorting, since the lists:sort order is not the correct order.
%% Cut the list of files at the gap (at least one file is supposed
%% to be 'missing') and create a new list by cons'ing the two parts
%% in the right order.
wrap_sortfix([], N) when N >= 1 ->
[];
wrap_sortfix([], _N) ->
exit(inconsistent_wrap_file_trace_set);
%% file 0, gap 1..N
wrap_sortfix([{0, _}] = Files, N) when N >= 1 ->
Files;
wrap_sortfix([{0, _}], _N) ->
exit(inconsistent_wrap_file_trace_set);
%% files 0, ...
wrap_sortfix([{0, _} | _] = Files, N) when N >= 1->
wrap_sortfix_1(Files, N, [], Files);
%% gap 0, files 1, ...
wrap_sortfix([{1, _} | _] = Files, N) when N >= 1 ->
wrap_sortfix_2(Files, N, [], Files);
wrap_sortfix([{_C, _} | _], _N) ->
exit(inconsistent_wrap_file_trace_set).
%% files 0..C, gap C+1..N
wrap_sortfix_1([{C, _}], N, _R, Files)
when C < N ->
Files;
%% files 0..C1, C1+1==C2, ...
wrap_sortfix_1([{C1, _} = F1 | [{C2, _} | _] = Tail], N, R, Files)
when C1+1 == C2, C2 < N ->
wrap_sortfix_1(Tail, N, [F1 | R], Files);
%% files 0..C1, gap C1+1, files C1+2==C2, ...
wrap_sortfix_1([{C1, _} = F1 | [{C2, _} | _] = Tail], N, R, _Files)
when C1+2 == C2, C2 =< N ->
wrap_sortfix_2(Tail, N, lists:reverse([F1 | R]), Tail);
wrap_sortfix_1([_F1 | [_F2 | _]], _N, _R, _Files) ->
exit(inconsistent_wrap_file_trace_set).
%% M == length(R); files 0..M-1, gap M, files M+1..N
wrap_sortfix_2([{N, _}], N, R, Files) ->
Files ++ R;
wrap_sortfix_2([{_C, _}], _N, _R, _Files) ->
exit(inconsistent_wrap_file_trace_set);
%% M == length(R); files 0..M-1, gap M, files M+1..C1, C1+1==C2, ...
wrap_sortfix_2([{C1, _} | [{C2, _} | _] = Tail], N, R, Files)
when C1+1 == C2, C2 =< N ->
wrap_sortfix_2(Tail, N, R, Files);
wrap_sortfix_2([{_C1, _} | [{_C2, _} | _]], _N, _R, _Files) ->
exit(inconsistent_wrap_file_trace_set).
%% Extract the filenames from a list of sort converted ones.
wrap_postsort(Files) ->
lists:map(fun wrap_name/1, Files).
wrap_encode(N, C) ->
{list_to_integer(C), N}.
wrap_name({_C, N}) ->
N.
%% Returns what is left of ListA when removing all matching
%% elements from ListB, or false if some element did not match,
%% or if ListA runs out of elements before ListB.
match_front(ListA, []) when is_list(ListA) ->
ListA;
match_front([], ListB) when is_list(ListB) ->
false;
match_front([Hd|TlA], [Hd|TlB]) ->
match_front(TlA,TlB);
match_front([_HdA|_], [_HdB|_]) ->
false.
%% Reversed version of match_front/2
match_rear(ListA, ListB) when is_list(ListA), is_list(ListB) ->
case match_front(lists:reverse(ListA), lists:reverse(ListB)) of
false ->
false;
List ->
lists:reverse(List)
end.
%% Returns true if the non-empty list arguments contains all
%% characters $0 .. $9.
match_0_9([]) ->
false;
match_0_9([H]) when is_integer(H), $0 =< H, H =< $9 ->
true;
match_0_9([H|T]) when is_integer(H), $0 =< H, H =< $9 ->
match_0_9(T);
match_0_9(L) when is_list(L) ->
false.
%%%%%%%%%%%%%%%%%%
%% Help...
%%%%%%%%%%%%%%%%%%
help_display([]) ->
io:format("~n",[]),
ok;
help_display([H|T]) ->
io:format("~s~n",[H]),
help_display(T).
h() ->
help_display(
[
"The following help items are available:",
" p, c",
" - Set trace flags for processes",
" tp, tpl, ctp, ctpl, ctpg, ltp, dtp, wtp, rtp",
" - Manipulate trace patterns for functions",
" n, cn, ln",
" - Add/remove traced nodes.",
" tracer, trace_port, trace_client, get_tracer, stop, stop_clear",
" - Manipulate tracer process/port",
" i",
" - Info",
"",
"call dbg:h(Item) for brief help a brief description",
"of one of the items above."]).
h(p) ->
help_display(["p(Item) -> {ok, MatchDesc} | {error, term()}",
" - Traces messages to and from Item.",
"p(Item, Flags) -> {ok, MatchDesc} | {error, term()}",
" - Traces Item according to Flags.",
" Flags can be one of s,r,m,c,p,sos,sol,sofs,",
" sofl,all,clear or any flag accepted by erlang:trace/3"]);
h(c) ->
help_display(["c(Mod, Fun, Args)",
" - Evaluates apply(M,F,Args) with all trace flags set.",
"c(Mod, Fun, Args, Flags)",
" - Evaluates apply(M,F,Args) with Flags trace flags set."]);
h(i) ->
help_display(["i() -> ok",
" - Displays information about all traced processes."]);
h(tp) ->
help_display(
["tp(Module,MatchSpec)",
" - Same as tp({Module, '_', '_'}, MatchSpec)",
"tp(Module,Function,MatchSpec)",
" - Same as tp({Module, Function, '_'}, MatchSpec)",
"tp(Module, Function, Arity, MatchSpec)",
" - Same as tp({Module, Function, Arity}, MatchSpec)",
"tp({Module, Function, Arity}, MatchSpec) -> {ok, MatchDesc} "
"| {error, term()}",
" - Set pattern for traced global function calls."]);
h(tpl) ->
help_display(
["tpl(Module,MatchSpec)",
" - Same as tpl({Module, '_', '_'}, MatchSpec)",
"tpl(Module,Function,MatchSpec)",
" - Same as tpl({Module, Function, '_'}, MatchSpec)",
"tpl(Module, Function, Arity, MatchSpec)",
" - Same as tpl({Module, Function, Arity}, MatchSpec)",
"tpl({Module, Function, Arity}, MatchSpec) -> {ok, MatchDesc} "
"| {error, term()}",
" - Set pattern for traced local (as well as global) function calls."]);
h(ctp) ->
help_display(
["ctp()",
" - Same as ctp({'_', '_', '_'})",
"ctp(Module)",
" - Same as ctp({Module, '_', '_'})",
"ctp(Module, Function)",
" - Same as ctp({Module, Function, '_'})",
"ctp(Module, Function, Arity)",
" - Same as ctp({Module, Function, Arity})",
"ctp({Module, Function, Arity}) -> {ok, MatchDesc} | {error, term()}",
" - Clear call trace pattern for the specified functions"]);
h(ctpl) ->
help_display(
["ctpl()",
" - Same as ctpl({'_', '_', '_'})",
"ctpl(Module)",
" - Same as ctpl({Module, '_', '_'})",
"ctpl(Module, Function)",
" - Same as ctpl({Module, Function, '_'})",
"ctpl(Module, Function, Arity)",
" - Same as ctpl({Module, Function, Arity})",
"ctpl({Module, Function, Arity}) -> {ok, MatchDesc} | {error, term()}",
" - Clear local call trace pattern for the specified functions"]);
h(ctpg) ->
help_display(
["ctpg()",
" - Same as ctpg({'_', '_', '_'})",
"ctpg(Module)",
" - Same as ctpg({Module, '_', '_'})",
"ctpg(Module, Function)",
" - Same as ctpg({Module, Function, '_'})",
"ctpg(Module, Function, Arity)",
" - Same as ctpg({Module, Function, Arity})",
"ctpg({Module, Function, Arity}) -> {ok, MatchDesc} | {error, term()}",
" - Clear global call trace pattern for the specified functions"]);
h(ltp) ->
help_display(["ltp() -> ok",
" - Lists saved and built-in match_spec's on the console."]);
h(dtp) ->
help_display(["dtp() -> ok",
" - Deletes all saved match_spec's.",
"dtp(N) -> ok",
" - Deletes a specific saved match_spec."]);
h(wtp) ->
help_display(["wtp(Name) -> ok | {error, IOError}",
" - Writes all saved match_spec's to a file"]);
h(rtp) ->
help_display(["rtp(Name) -> ok | {error, Error}",
" - Read saved match specifications from file."]);
h(n) ->
help_display(
["n(Nodename) -> {ok, Nodename} | {error, Reason}",
" - Starts a tracer server on the given node.",
"n(Nodename,Type,Data) -> {ok, Nodename} | {error, Reason}",
" - Starts a tracer server with additional args on the given node."]);
h(cn) ->
help_display(["cn(Nodename) -> ok",
" - Clears a node from the list of traced nodes."]);
h(ln) ->
help_display(["ln() -> ok",
" - Shows the list of traced nodes on the console."]);
h(tracer) ->
help_display(["tracer() -> {ok, pid()} | {error, already_started}",
" - Starts a tracer server that handles trace messages.",
"tracer(Type, Data) -> {ok, pid()} | {error, Error}",
" - Starts a tracer server with additional parameters"]);
h(trace_port) ->
help_display(["trace_port(Type, Parameters) -> fun()",
" - Creates and returns a trace port generating fun"]);
h(trace_client) ->
help_display(["trace_client(Type, Parameters) -> pid()",
" - Starts a trace client that reads messages created by "
"a trace port driver",
"trace_client(Type, Parameters, HandlerSpec) -> pid()",
" - Starts a trace client that reads messages created by a",
" trace port driver, with a user defined handler"]);
h(get_tracer) ->
help_display(
["get_tracer() -> {ok, Tracer}",
" - Returns the process or port to which all trace messages are sent.",
"get_tracer(Node) -> {ok, Tracer}",
" - Returns the process or port to which all trace messages are sent."]);
h(stop) ->
help_display(
["stop() -> ok",
" - Stops the dbg server and the tracing of all processes.",
" Does not clear any trace patterns."]);
h(stop_clear) ->
help_display(
["stop_clear() -> ok",
" - Stops the dbg server and the tracing of all processes,",
" and clears all trace patterns."]).