// Copyright 2023 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // Tests a G being created from within a syscall. // // Specifically, it tests a scenario wherein a C // thread is calling into Go, creating a goroutine in // a syscall (in the tracer's model). Because the actual // m can be reused, it's possible for that m to have never // had its P (in _Psyscall) stolen if the runtime doesn't // model the scenario correctly. Make sure we reject such // traces. package main import ( "internal/trace" "internal/trace/event/go122" testgen "internal/trace/internal/testgen/go122" ) func main() { testgen.Main(gen) } func gen(t *testgen.Trace) { t.ExpectFailure(".*expected a proc but didn't have one.*") g := t.Generation(1) // A C thread calls into Go and acquires a P. It returns // back to C, destroying the G. It then comes back to Go // on the same thread and again returns to C. // // Note: on pthread platforms this can't happen on the // same thread because the m is stashed in TLS between // calls into Go, until the thread dies. This is still // possible on other platforms, however. b0 := g.Batch(trace.ThreadID(0), 0) b0.Event("GoCreateSyscall", trace.GoID(4)) b0.Event("ProcStatus", trace.ProcID(0), go122.ProcIdle) b0.Event("ProcStart", trace.ProcID(0), testgen.Seq(1)) b0.Event("GoSyscallEndBlocked") b0.Event("GoStart", trace.GoID(4), testgen.Seq(1)) b0.Event("GoSyscallBegin", testgen.Seq(2), testgen.NoStack) b0.Event("GoDestroySyscall") b0.Event("GoCreateSyscall", trace.GoID(4)) b0.Event("GoSyscallEnd") b0.Event("GoSyscallBegin", testgen.Seq(3), testgen.NoStack) b0.Event("GoDestroySyscall") }