module T = Opentelemetry module Atomic = Opentelemetry_atomic.Atomic let spf = Printf.sprintf let ( let@ ) f x = f x let sleep_inner = ref 0.1 let sleep_outer = ref 2.0 let n_jobs = ref 1 let num_sleep = Atomic.make 0 let stress_alloc_ = ref true let stop = Atomic.make false let num_tr = Atomic.make 0 let run_job () = let@ () = Fun.protect ~finally:(fun () -> Atomic.set stop true) in let i = ref 0 in while not @@ Atomic.get stop do let@ scope = Atomic.incr num_tr; T.Trace.with_ ~kind:T.Span.Span_kind_producer "loop.outer" ~attrs:[ "i", `Int !i ] in for j = 0 to 4 do let@ scope = Atomic.incr num_tr; T.Trace.with_ ~kind:T.Span.Span_kind_internal ~scope ~attrs:[ "j", `Int j ] "loop.inner" in Unix.sleepf !sleep_outer; Atomic.incr num_sleep; T.Logs.( emit [ make_strf ~trace_id:scope.trace_id ~span_id:scope.span_id ~severity:Severity_number_info "inner at %d" j; ]); incr i; try Atomic.incr num_tr; let@ _ = T.Trace.with_ ~kind:T.Span.Span_kind_internal ~scope "alloc" in (* allocate some stuff *) if !stress_alloc_ then ( let _arr = Sys.opaque_identity @@ Array.make (25 * 25551) 42.0 in ignore _arr ); Unix.sleepf !sleep_inner; Atomic.incr num_sleep; if j = 4 && !i mod 13 = 0 then failwith "oh no"; (* simulate a failure *) T.Trace.add_event scope (fun () -> T.Event.make "done with alloc") with Failure _ -> () done done let run () = Printf.printf "collector is on %S\n%!" (Opentelemetry_client_ocurl.get_url ()); T.GC_metrics.basic_setup (); T.Metrics_callbacks.register (fun () -> T.Metrics. [ sum ~name:"num-sleep" ~is_monotonic:true [ int (Atomic.get num_sleep) ]; ]); let n_jobs = max 1 !n_jobs in Printf.printf "run %d jobs\n%!" n_jobs; let jobs = Array.init n_jobs (fun _ -> let job () = try run_job () with Sys.Break -> () in Thread.create job ()) in Array.iter Thread.join jobs let () = Sys.catch_break true; T.Globals.service_name := "t1"; T.Globals.service_namespace := Some "ocaml-otel.test"; let ts_start = Unix.gettimeofday () in let debug = ref false in let thread = ref true in let n_bg_threads = ref 0 in let batch_traces = ref 400 in let batch_metrics = ref 3 in let opts = [ "--debug", Arg.Bool (( := ) debug), " enable debug output"; "--thread", Arg.Bool (( := ) thread), " use a background thread"; ( "--stress-alloc", Arg.Bool (( := ) stress_alloc_), " perform heavy allocs in inner loop" ); "--batch-traces", Arg.Int (( := ) batch_traces), " size of traces batch"; ( "--batch-metrics", Arg.Int (( := ) batch_metrics), " size of metrics batch" ); "--sleep-inner", Arg.Set_float sleep_inner, " sleep (in s) in inner loop"; "--sleep-outer", Arg.Set_float sleep_outer, " sleep (in s) in outer loop"; "-j", Arg.Set_int n_jobs, " number of parallel jobs"; "--bg-threads", Arg.Set_int n_bg_threads, " number of background threads"; ] |> Arg.align in Arg.parse opts (fun _ -> ()) "emit1 [opt]*"; let some_if_nzero r = if !r > 0 then Some !r else None in let config = Opentelemetry_client_ocurl.Config.make ~debug:!debug ~batch_traces:(some_if_nzero batch_traces) ~batch_metrics:(some_if_nzero batch_metrics) ~thread:!thread ?bg_threads: (let n = !n_bg_threads in if n = 0 then None else Some n) () in Format.printf "@[<2>sleep outer: %.3fs,@ sleep inner: %.3fs,@ config: %a@]@." !sleep_outer !sleep_inner Opentelemetry_client_ocurl.Config.pp config; let@ () = Fun.protect ~finally:(fun () -> let elapsed = Unix.gettimeofday () -. ts_start in let n_per_sec = float (Atomic.get num_tr) /. elapsed in Printf.printf "\ndone. %d spans in %.4fs (%.4f/s)\n%!" (Atomic.get num_tr) elapsed n_per_sec) in Opentelemetry_client_ocurl.with_setup ~stop ~config () run