package integrationtests import "testing" // miscTraceArgs restricts tracing to the syscalls the misc-basic workload // issues, so the captured output is dominated by those calls. // Note: the tracer names the uname tracepoint after the underlying kernel // syscall sys_newuname, i.e. "newuname" (not "uname"). vmsplice and alarm are // issued too, but the must-haves below are the three pure-read calls whose // tracepoints are guaranteed to fire deterministically. (alarm is classified // FamilyTime, not Misc — it shares setitimer's ITIMER_REAL timer — but the // misc-basic scenario still issues alarm(0) as a harmless cancel, and the // -trace-syscalls filter is by syscall name, so it is captured regardless.) var miscTraceArgs = []string{ "-trace-syscalls", "getcpu,newuname,sysinfo,vmsplice,alarm", } // TestMiscBasic verifies the Misc syscall family is traced end-to-end. The // misc-basic workload issues getcpu, uname (sys_newuname), sysinfo, vmsplice // (into a self-drained pipe), and alarm(0) — all unprivileged, non-blocking, // and free of global side effects. Each required syscall must appear as an // enter event attributed to the ioworkload process. func TestMiscBasic(t *testing.T) { h := newTestHarness(t) result, pid, err := h.RunWithIorArgs("misc-basic", defaultDuration, miscTraceArgs) if err != nil { t.Fatalf("run scenario misc-basic: %v", err) } AssertNoUnexpectedPID(t, result, pid) AssertNoUnexpectedComm(t, result, "ioworkload") AssertEventsPresent(t, result, []ExpectedEvent{ {Tracepoint: "enter_getcpu", Comm: "ioworkload", MinCount: 1}, {Tracepoint: "enter_newuname", Comm: "ioworkload", MinCount: 1}, {Tracepoint: "enter_sysinfo", Comm: "ioworkload", MinCount: 1}, // alarm(0) is issued unconditionally by misc-basic; the enter // tracepoint always fires (syscall entry is unconditional, alarm never // fails), so this assertion is deterministic. Covers the alarm enter // path end-to-end even though alarm is now FamilyTime, not Misc. {Tracepoint: "enter_alarm", Comm: "ioworkload", MinCount: 1}, }) }