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-module(dyntrace).
%%% @doc The Dynamic tracing interface module
%%%
%%% This Dynamic tracing interface module, with the corresponding NIFs, should
%%% work on any operating system platform where user-space DTrace/Systemtap
%%% (and in the future LttNG UST) probes are supported.
%%%
%%% Use the `dyntrace:init()' function to load the NIF shared library and
%%% to initialize library's private state.
%%%
%%% It is recommended that you use the `dyntrace:p()' function to add
%%% Dynamic trace probes to your Erlang code. This function can accept up to
%%% four integer arguments and four string arguments; the integer
%%% argument(s) must come before any string argument. For example:
%%% ```
%%% 1> dyntrace:put_utag("GGOOOAAALL!!!!!").
%%% true
%%% 2> dyntrace:init().
%%% ok
%%%
%%% % % % If using dtrace, enable the Dynamic trace probe using the 'dtrace'
%%% % % % command.
%%%
%%% 3> dyntrace:p(7, 8, 9, "one", "four").
%%% true
%%% '''
%%%
%%% Output from the example D script `user-probe.d' looks like:
%%% ```
%%% <0.34.0> GGOOOAAALL!!!!! 7 8 9 0 'one' 'four' '' ''
%%% '''
%%%
%%% If the expected type of variable is not present, e.g. integer when
%%% integer() is expected, or an I/O list when iolist() is expected,
%%% then the driver will ignore the user's input and use a default
%%% value of 0 or NULL, respectively.
-export([available/0,
user_trace_s1/1, % TODO: unify with pid & tag args like user_trace_i4s4
p/0, p/1, p/2, p/3, p/4, p/5, p/6, p/7, p/8]).
-export([put_utag/1, get_utag/0, get_utag_data/0, spread_utag/1, restore_utag/1]).
-export([scaff/0]). % Development only
-export([user_trace_i4s4/9]). % Know what you're doing!
-on_load(on_load/0).
-type probe_arg() :: integer() | iolist().
-type int_p_arg() :: integer() | iolist() | undef.
%% The *_maybe() types use atom() instead of a stricter 'undef'
%% because user_trace_i4s4/9 is exposed to the outside world, and
%% because the driver will allow any atom to be used as a "not
%% present" indication, we'll allow any atom in the types.
-type integer_maybe() :: integer() | atom().
-type iolist_maybe() :: iolist() | atom().
on_load() ->
PrivDir = code:priv_dir(runtime_tools),
LibName = "dyntrace",
Lib = filename:join([PrivDir, "lib", LibName]),
Status = case erlang:load_nif(Lib, 0) of
ok -> ok;
{error, {load_failed, _}}=Error1 ->
ArchLibDir =
filename:join([PrivDir, "lib",
erlang:system_info(system_architecture)]),
Candidate =
filelib:wildcard(filename:join([ArchLibDir,LibName ++ "*" ])),
case Candidate of
[] -> Error1;
_ ->
ArchLib = filename:join([ArchLibDir, LibName]),
erlang:load_nif(ArchLib, 0)
end;
Error1 -> Error1
end,
case Status of
ok -> ok;
{error, {E, Str}} ->
case erlang:system_info(dynamic_trace) of
none ->
ok;
_ ->
error_logger:error_msg("Unable to load dyntrace library. Failed with error:~n
\"~p, ~s\"~n"
"Dynamic tracing is enabled but the driver is not built correctly~n",[
E,Str]),
Status
end
end.
%%%
%%% NIF placeholders
%%%
-spec available() -> true | false.
available() ->
erlang:nif_error(nif_not_loaded).
-spec user_trace_s1(iolist()) -> true | false | error | badarg.
user_trace_s1(_Message) ->
erlang:nif_error(nif_not_loaded).
-spec user_trace_i4s4(iolist(),
integer_maybe(), integer_maybe(),
integer_maybe(), integer_maybe(),
iolist_maybe(), iolist_maybe(),
iolist_maybe(), iolist_maybe()) ->
true | false | error | badarg.
user_trace_i4s4(_, _, _, _, _, _, _, _, _) ->
erlang:nif_error(nif_not_loaded).
%%%
%%% Erlang support functions
%%%
-spec p() -> true | false | error | badarg.
p() ->
user_trace_int(undef, undef, undef, undef, undef, undef, undef, undef).
-spec p(probe_arg()) -> true | false | error | badarg.
p(I1) when is_integer(I1) ->
user_trace_int(I1, undef, undef, undef, undef, undef, undef, undef);
p(S1) ->
user_trace_int(undef, undef, undef, undef, S1, undef, undef, undef).
-spec p(probe_arg(), probe_arg()) -> true | false | error | badarg.
p(I1, I2) when is_integer(I1), is_integer(I2) ->
user_trace_int(I1, I2, undef, undef, undef, undef, undef, undef);
p(I1, S1) when is_integer(I1) ->
user_trace_int(I1, undef, undef, undef, S1, undef, undef, undef);
p(S1, S2) ->
user_trace_int(undef, undef, undef, undef, S1, S2, undef, undef).
-spec p(probe_arg(), probe_arg(), probe_arg()) -> true | false | error | badarg.
p(I1, I2, I3) when is_integer(I1), is_integer(I2), is_integer(I3) ->
user_trace_int(I1, I2, I3, undef, undef, undef, undef, undef);
p(I1, I2, S1) when is_integer(I1), is_integer(I2) ->
user_trace_int(I1, I2, undef, undef, S1, undef, undef, undef);
p(I1, S1, S2) when is_integer(I1) ->
user_trace_int(I1, undef, undef, undef, S1, S2, undef, undef);
p(S1, S2, S3) ->
user_trace_int(undef, undef, undef, undef, S1, S2, S3, undef).
-spec p(probe_arg(), probe_arg(), probe_arg(), probe_arg()) ->
true | false | error | badarg.
p(I1, I2, I3, I4) when is_integer(I1), is_integer(I2), is_integer(I3), is_integer(I4) ->
user_trace_int(I1, I2, I3, I4, undef, undef, undef, undef);
p(I1, I2, I3, S1) when is_integer(I1), is_integer(I2), is_integer(I3) ->
user_trace_int(I1, I2, I3, undef, S1, undef, undef, undef);
p(I1, I2, S1, S2) when is_integer(I1), is_integer(I2) ->
user_trace_int(I1, I2, undef, undef, S1, S2, undef, undef);
p(I1, S1, S2, S3) when is_integer(I1) ->
user_trace_int(I1, undef, undef, undef, S1, S2, S3, undef);
p(S1, S2, S3, S4) ->
user_trace_int(undef, undef, undef, undef, S1, S2, S3, S4).
-spec p(probe_arg(), probe_arg(), probe_arg(), probe_arg(),
probe_arg()) ->
true | false | error | badarg.
p(I1, I2, I3, I4, S1) when is_integer(I1), is_integer(I2), is_integer(I3), is_integer(I4) ->
user_trace_int(I1, I2, I3, I4, S1, undef, undef, undef);
p(I1, I2, I3, S1, S2) when is_integer(I1), is_integer(I2), is_integer(I3) ->
user_trace_int(I1, I2, I3, undef, S1, S2, undef, undef);
p(I1, I2, S1, S2, S3) when is_integer(I1), is_integer(I2) ->
user_trace_int(I1, I2, undef, undef, S1, S2, S3, undef);
p(I1, S1, S2, S3, S4) when is_integer(I1) ->
user_trace_int(I1, undef, undef, undef, S1, S2, S3, S4).
-spec p(probe_arg(), probe_arg(), probe_arg(), probe_arg(),
probe_arg(), probe_arg()) ->
true | false | error | badarg.
p(I1, I2, I3, I4, S1, S2) when is_integer(I1), is_integer(I2), is_integer(I3), is_integer(I4) ->
user_trace_int(I1, I2, I3, I4, S1, S2, undef, undef);
p(I1, I2, I3, S1, S2, S3) when is_integer(I1), is_integer(I2), is_integer(I3) ->
user_trace_int(I1, I2, I3, undef, S1, S2, S3, undef);
p(I1, I2, S1, S2, S3, S4) when is_integer(I1), is_integer(I2) ->
user_trace_int(I1, I2, undef, undef, S1, S2, S3, S4).
-spec p(probe_arg(), probe_arg(), probe_arg(), probe_arg(),
probe_arg(), probe_arg(), probe_arg()) ->
true | false | error | badarg.
p(I1, I2, I3, I4, S1, S2, S3) when is_integer(I1), is_integer(I2), is_integer(I3), is_integer(I4) ->
user_trace_int(I1, I2, I3, I4, S1, S2, S3, undef);
p(I1, I2, I3, S1, S2, S3, S4) when is_integer(I1), is_integer(I2), is_integer(I3) ->
user_trace_int(I1, I2, I3, undef, S1, S2, S3, S4).
-spec p(probe_arg(), probe_arg(), probe_arg(), probe_arg(),
probe_arg(), probe_arg(), probe_arg(), probe_arg()) ->
true | false | error | badarg.
p(I1, I2, I3, I4, S1, S2, S3, S4) when is_integer(I1), is_integer(I2), is_integer(I3), is_integer(I4) ->
user_trace_int(I1, I2, I3, I4, S1, S2, S3, S4).
-spec user_trace_int(int_p_arg(), int_p_arg(), int_p_arg(), int_p_arg(),
int_p_arg(), int_p_arg(), int_p_arg(), int_p_arg()) ->
true | false | error | badarg.
user_trace_int(I1, I2, I3, I4, S1, S2, S3, S4) ->
UTag = get_utag(),
try
user_trace_i4s4(UTag, I1, I2, I3, I4, S1, S2, S3, S4)
catch
error:nif_not_loaded ->
false
end.
-spec put_utag(undefined | iodata()) -> binary() | undefined.
put_utag(Data) ->
erlang:put_utag(unicode:characters_to_binary(Data)).
-spec get_utag() -> binary() | undefined.
get_utag() ->
erlang:get_utag().
-spec get_utag_data() -> binary() | undefined.
%% Gets utag if set, otherwise the spread utag data from last incoming message
get_utag_data() ->
erlang:get_utag_data().
-spec spread_utag(boolean()) -> true | {non_neg_integer(), binary() | []}.
%% Makes the utag behave as a sequential trace token, will spread with messages to be picked up by someone using
%% get_utag_data or get_drv_utag_data.
spread_utag(B) ->
erlang:spread_utag(B).
-spec restore_utag(true | {non_neg_integer(), binary() | []}) -> true.
restore_utag(T) ->
erlang:restore_utag(T).
%% Scaffolding to write tedious code: quick brute force and not 100% correct.
scaff_int_args(N) ->
L = lists:sublist(["I1", "I2", "I3", "I4"], N),
[string:join(L, ", ")].
scaff_int_guards(N) ->
L = lists:sublist(["is_integer(I1)", "is_integer(I2)", "is_integer(I3)",
"is_integer(I4)"], N),
lists:flatten(string:join(L, ", ")).
scaff_char_args(N) ->
L = lists:sublist(["S1", "S2", "S3", "S4"], N),
[string:join(L, ", ")].
scaff_fill(N) ->
[string:join(lists:duplicate(N, "undef"), ", ")].
scaff() ->
L = [begin
IntArgs = scaff_int_args(N_int),
IntGuards = scaff_int_guards(N_int),
IntFill = scaff_fill(4 - N_int),
CharArgs = scaff_char_args(N_char),
CharFill = scaff_fill(4 - N_char),
InArgs = string:join(IntArgs ++ CharArgs, ", "),
OutArgs = string:join(IntArgs ++ IntFill ++ CharArgs ++ CharFill,
", "),
{N_int + N_char,
lists:flatten([io_lib:format("p(~s) when ~s ->\n",
[InArgs, IntGuards]),
io_lib:format(" user_trace_int(~s);\n", [OutArgs])
])}
end || N_int <- [0,1,2,3,4], N_char <- [0,1,2,3,4]],
[io:format("%%~p\n~s", [N, Str]) || {N, Str} <- lists:sort(L)].
|