// Copyright 2017 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. //go:build unix package runtime import "unsafe" var NonblockingPipe = nonblockingPipe var Fcntl = fcntl var Closeonexec = closeonexec func sigismember(mask *sigset, i int) bool { clear := *mask sigdelset(&clear, i) return clear != *mask } func Sigisblocked(i int) bool { var sigmask sigset sigprocmask(_SIG_SETMASK, nil, &sigmask) return sigismember(&sigmask, i) } type M = m var waitForSigusr1 struct { rdpipe int32 wrpipe int32 mID int64 } // WaitForSigusr1 blocks until a SIGUSR1 is received. It calls ready // when it is set up to receive SIGUSR1. The ready function should // cause a SIGUSR1 to be sent. The r and w arguments are a pipe that // the signal handler can use to report when the signal is received. // // Once SIGUSR1 is received, it returns the ID of the current M and // the ID of the M the SIGUSR1 was received on. If the caller writes // a non-zero byte to w, WaitForSigusr1 returns immediately with -1, -1. func WaitForSigusr1(r, w int32, ready func(mp *M)) (int64, int64) { lockOSThread() // Make sure we can receive SIGUSR1. unblocksig(_SIGUSR1) waitForSigusr1.rdpipe = r waitForSigusr1.wrpipe = w mp := getg().m testSigusr1 = waitForSigusr1Callback ready(mp) // Wait for the signal. We use a pipe rather than a note // because write is always async-signal-safe. entersyscallblock() var b byte read(waitForSigusr1.rdpipe, noescape(unsafe.Pointer(&b)), 1) exitsyscall() gotM := waitForSigusr1.mID testSigusr1 = nil unlockOSThread() if b != 0 { // timeout signal from caller return -1, -1 } return mp.id, gotM } // waitForSigusr1Callback is called from the signal handler during // WaitForSigusr1. It must not have write barriers because there may // not be a P. // //go:nowritebarrierrec func waitForSigusr1Callback(gp *g) bool { if gp == nil || gp.m == nil { waitForSigusr1.mID = -1 } else { waitForSigusr1.mID = gp.m.id } b := byte(0) write(uintptr(waitForSigusr1.wrpipe), noescape(unsafe.Pointer(&b)), 1) return true } // SendSigusr1 sends SIGUSR1 to mp. func SendSigusr1(mp *M) { signalM(mp, _SIGUSR1) } const ( O_WRONLY = _O_WRONLY O_CREAT = _O_CREAT O_TRUNC = _O_TRUNC )