I am trying to understand the exact semantics of erlang:trace_delivered/1
in order to determine whether this function can be suitably used to solve a problem I am currently facing. The problem is as follows.
Suppose there is a tracee process X
, a tracer Y
tracing X
, and a third process, Z
. Tracer Y
is initially tracing X
. Process Z
is tasked with the responsibility of stopping Y
from tracing X
by calling erlang:trace(X, false)
. This call is arbitrarily effected by Z
whilst X
is running. Thereafter, Z
is also to issue a special message stopped
to tracer Y
which signals to Y
that Z
has indeed stopped Y
from tracing X
.
I would like to guarantee that the special stopped
message is delivered to Y
's mailbox after all other trace messages have been delivered to Y
. To my knowledge, Erlang does not guarantee the ordering of messages sent by different processes to a single process. Concretely in my case this means that tracer Y
can, for instance, receive the stopped
issued by Z
before the trace event messages due to tracee X
. I read about erlang:trace_delivered/1
, and was planning to address my problem using the following code inside the implementation of Z
:
...
erlang:trace(X, false),
Ref = erlang:trace_delivered(X),
receive
{trace_delivered, X, Ref} ->
Y ! stopped
end.
...
A somewhat similar example is provided in the docs (quoted below):
Example: Process
A
is Tracee, portB
is tracer, and processC
is the port owner ofB
.C
wants to closeB
whenA
exits. To ensure that the trace is not truncated,C
can callerlang:trace_delivered(A)
whenA
exits, and wait for message{trace_delivered, A, Ref}
before closingB
.
My example differs from the one in the docs in these two respects:
- Process
C
knows the exact point of execution ofA
prior to invokingerlang:trace_delivered(A)
; in my case, I do not know the pointX
is in whenerlang:trace_delivered(X)
is invoked byZ
. - By contrast to process
C
, my processZ
switches off tracing onX
before invokingerlang:trace_delivered(X)
.
What are the semantics of erlang:trace_delivered/1
in this case?
- Does it still guarantee that
{trace_delivered, X, Ref}
is received by processZ
after all trace messages have been delivered to tracerY
? - And does
erlang:trace_delivered/1
automatically keep track of the point at which the execution of traceeX
is at to be able to provide the aforementioned guarantee?
Your help is greatly appreciated!