src/runtime/cgo_sigaction.go - go - Git at Google

 // Copyright 2016 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.

 // Support for memory sanitizer. See runtime/cgo/sigaction.go.

 // +build linux,amd64 freebsd,amd64 linux,arm64

 package runtime

 import "unsafe"

 // _cgo_sigaction is filled in by runtime/cgo when it is linked into the
 // program, so it is only non-nil when using cgo.
 //go:linkname _cgo_sigaction _cgo_sigaction
 var _cgo_sigaction unsafe.Pointer

 //go:nosplit
 //go:nowritebarrierrec
 func sigaction(sig uint32, new, old *sigactiont) {
 	// The runtime package is explicitly blacklisted from sanitizer
 	// instrumentation in racewalk.go, but we might be calling into instrumented C
 	// functions here — so we need the pointer parameters to be properly marked.
 	//
 	// Mark the input as having been written before the call and the output as
 	// read after.
 	if msanenabled && new != nil {
 		msanwrite(unsafe.Pointer(new), unsafe.Sizeof(*new))
 	}

 	if _cgo_sigaction == nil || inForkedChild {
 		sysSigaction(sig, new, old)
 	} else {
 		// We need to call _cgo_sigaction, which means we need a big enough stack
 		// for C.  To complicate matters, we may be in libpreinit (before the
 		// runtime has been initialized) or in an asynchronous signal handler (with
 		// the current thread in transition between goroutines, or with the g0
 		// system stack already in use).

 		var ret int32

 		g := getg()
 		sp := uintptr(unsafe.Pointer(&sig))
 		switch {
 		case g == nil:
 			// No g: we're on a C stack or a signal stack.
 			ret = callCgoSigaction(uintptr(sig), new, old)
 		case sp < g.stack.lo || sp >= g.stack.hi:
 			// We're no longer on g's stack, so we must be handling a signal.  It's
 			// possible that we interrupted the thread during a transition between g
 			// and g0, so we should stay on the current stack to avoid corrupting g0.
 			ret = callCgoSigaction(uintptr(sig), new, old)
 		default:
 			// We're running on g's stack, so either we're not in a signal handler or
 			// the signal handler has set the correct g.  If we're on gsignal or g0,
 			// systemstack will make the call directly; otherwise, it will switch to
 			// g0 to ensure we have enough room to call a libc function.
 			//
 			// The function literal that we pass to systemstack is not nosplit, but
 			// that's ok: we'll be running on a fresh, clean system stack so the stack
 			// check will always succeed anyway.
 			systemstack(func() {
 				ret = callCgoSigaction(uintptr(sig), new, old)
 			})
 		}

 		const EINVAL = 22
 		if ret == EINVAL {
 			// libc reserves certain signals — normally 32-33 — for pthreads, and
 			// returns EINVAL for sigaction calls on those signals.  If we get EINVAL,
 			// fall back to making the syscall directly.
 			sysSigaction(sig, new, old)
 		}
 	}

 	if msanenabled && old != nil {
 		msanread(unsafe.Pointer(old), unsafe.Sizeof(*old))
 	}
 }

 // callCgoSigaction calls the sigaction function in the runtime/cgo package
 // using the GCC calling convention. It is implemented in assembly.
 //go:noescape
 func callCgoSigaction(sig uintptr, new, old *sigactiont) int32
	// Copyright 2016 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.

	// Support for memory sanitizer. See runtime/cgo/sigaction.go.

	// +build linux,amd64 freebsd,amd64 linux,arm64

	package runtime

	import "unsafe"

	// _cgo_sigaction is filled in by runtime/cgo when it is linked into the
	// program, so it is only non-nil when using cgo.
	//go:linkname _cgo_sigaction _cgo_sigaction
	var _cgo_sigaction unsafe.Pointer

	//go:nosplit
	//go:nowritebarrierrec
	func sigaction(sig uint32, new, old *sigactiont) {
	// The runtime package is explicitly blacklisted from sanitizer
	// instrumentation in racewalk.go, but we might be calling into instrumented C
	// functions here — so we need the pointer parameters to be properly marked.
	//
	// Mark the input as having been written before the call and the output as
	// read after.
	if msanenabled && new != nil {
	msanwrite(unsafe.Pointer(new), unsafe.Sizeof(*new))
	}

	if _cgo_sigaction == nil \|\| inForkedChild {
	sysSigaction(sig, new, old)
	} else {
	// We need to call _cgo_sigaction, which means we need a big enough stack
	// for C. To complicate matters, we may be in libpreinit (before the
	// runtime has been initialized) or in an asynchronous signal handler (with
	// the current thread in transition between goroutines, or with the g0
	// system stack already in use).

	var ret int32

	g := getg()
	sp := uintptr(unsafe.Pointer(&sig))
	switch {
	case g == nil:
	// No g: we're on a C stack or a signal stack.
	ret = callCgoSigaction(uintptr(sig), new, old)
	case sp < g.stack.lo \|\| sp >= g.stack.hi:
	// We're no longer on g's stack, so we must be handling a signal. It's
	// possible that we interrupted the thread during a transition between g
	// and g0, so we should stay on the current stack to avoid corrupting g0.
	ret = callCgoSigaction(uintptr(sig), new, old)
	default:
	// We're running on g's stack, so either we're not in a signal handler or
	// the signal handler has set the correct g. If we're on gsignal or g0,
	// systemstack will make the call directly; otherwise, it will switch to
	// g0 to ensure we have enough room to call a libc function.
	//
	// The function literal that we pass to systemstack is not nosplit, but
	// that's ok: we'll be running on a fresh, clean system stack so the stack
	// check will always succeed anyway.
	systemstack(func() {
	ret = callCgoSigaction(uintptr(sig), new, old)
	})
	}

	const EINVAL = 22
	if ret == EINVAL {
	// libc reserves certain signals — normally 32-33 — for pthreads, and
	// returns EINVAL for sigaction calls on those signals. If we get EINVAL,
	// fall back to making the syscall directly.
	sysSigaction(sig, new, old)
	}
	}

	if msanenabled && old != nil {
	msanread(unsafe.Pointer(old), unsafe.Sizeof(*old))
	}
	}

	// callCgoSigaction calls the sigaction function in the runtime/cgo package
	// using the GCC calling convention. It is implemented in assembly.
	//go:noescape
	func callCgoSigaction(sig uintptr, new, old *sigactiont) int32