src/runtime/cgo/handle.go - go - Git at Google

 // Copyright 2021 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.

 package cgo

 import (
 	"sync"
 	"sync/atomic"
 )

 // Handle provides a way to pass values that contain Go pointers
 // (pointers to memory allocated by Go) between Go and C without
 // breaking the cgo pointer passing rules. A Handle is an integer
 // value that can represent any Go value. A Handle can be passed
 // through C and back to Go, and Go code can use the Handle to
 // retrieve the original Go value.
 //
 // The underlying type of Handle is guaranteed to fit in an integer type
 // that is large enough to hold the bit pattern of any pointer. The zero
 // value of a Handle is not valid, and thus is safe to use as a sentinel
 // in C APIs.
 //
 // For instance, on the Go side:
 //
 //	package main
 //
 //	/*
 //	#include <stdint.h> // for uintptr_t
 //
 //	extern void MyGoPrint(uintptr_t handle);
 //	void myprint(uintptr_t handle);
 //	*/
 //	import "C"
 //	import "runtime/cgo"
 //
 //	//export MyGoPrint
 //	func MyGoPrint(handle C.uintptr_t) {
 //		h := cgo.Handle(handle)
 //		val := h.Value().(string)
 //		println(val)
 //		h.Delete()
 //	}
 //
 //	func main() {
 //		val := "hello Go"
 //		C.myprint(C.uintptr_t(cgo.NewHandle(val)))
 //		// Output: hello Go
 //	}
 //
 // and on the C side:
 //
 //	#include <stdint.h> // for uintptr_t
 //
 //	// A Go function
 //	extern void MyGoPrint(uintptr_t handle);
 //
 //	// A C function
 //	void myprint(uintptr_t handle) {
 //	    MyGoPrint(handle);
 //	}
 //
 // Some C functions accept a void* argument that points to an arbitrary
 // data value supplied by the caller. It is not safe to coerce a cgo.Handle
 // (an integer) to a Go unsafe.Pointer, but instead we can pass the address
 // of the cgo.Handle to the void* parameter, as in this variant of the
 // previous example:
 //
 //	package main
 //
 //	/*
 //	extern void MyGoPrint(void *context);
 //	static inline void myprint(void *context) {
 //	    MyGoPrint(context);
 //	}
 //	*/
 //	import "C"
 //	import (
 //		"runtime/cgo"
 //		"unsafe"
 //	)
 //
 //	//export MyGoPrint
 //	func MyGoPrint(context unsafe.Pointer) {
 //		h := *(*cgo.Handle)(context)
 //		val := h.Value().(string)
 //		println(val)
 //		h.Delete()
 //	}
 //
 //	func main() {
 //		val := "hello Go"
 //		h := cgo.NewHandle(val)
 //		C.myprint(unsafe.Pointer(&h))
 //		// Output: hello Go
 //	}
 type Handle uintptr

 // NewHandle returns a handle for a given value.
 //
 // The handle is valid until the program calls Delete on it. The handle
 // uses resources, and this package assumes that C code may hold on to
 // the handle, so a program must explicitly call Delete when the handle
 // is no longer needed.
 //
 // The intended use is to pass the returned handle to C code, which
 // passes it back to Go, which calls Value.
 func NewHandle(v any) Handle {
 	h := atomic.AddUintptr(&handleIdx, 1)
 	if h == 0 {
 		panic("runtime/cgo: ran out of handle space")
 	}

 	handles.Store(h, v)
 	return Handle(h)
 }

 // Value returns the associated Go value for a valid handle.
 //
 // The method panics if the handle is invalid.
 func (h Handle) Value() any {
 	v, ok := handles.Load(uintptr(h))
 	if !ok {
 		panic("runtime/cgo: misuse of an invalid Handle")
 	}
 	return v
 }

 // Delete invalidates a handle. This method should only be called once
 // the program no longer needs to pass the handle to C and the C code
 // no longer has a copy of the handle value.
 //
 // The method panics if the handle is invalid.
 func (h Handle) Delete() {
 	_, ok := handles.LoadAndDelete(uintptr(h))
 	if !ok {
 		panic("runtime/cgo: misuse of an invalid Handle")
 	}
 }

 var (
 	handles   = sync.Map{} // map[Handle]interface{}
 	handleIdx uintptr      // atomic
 )
	// Copyright 2021 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.

	package cgo

	import (
	"sync"
	"sync/atomic"
	)

	// Handle provides a way to pass values that contain Go pointers
	// (pointers to memory allocated by Go) between Go and C without
	// breaking the cgo pointer passing rules. A Handle is an integer
	// value that can represent any Go value. A Handle can be passed
	// through C and back to Go, and Go code can use the Handle to
	// retrieve the original Go value.
	//
	// The underlying type of Handle is guaranteed to fit in an integer type
	// that is large enough to hold the bit pattern of any pointer. The zero
	// value of a Handle is not valid, and thus is safe to use as a sentinel
	// in C APIs.
	//
	// For instance, on the Go side:
	//
	// package main
	//
	// /*
	// #include <stdint.h> // for uintptr_t
	//
	// extern void MyGoPrint(uintptr_t handle);
	// void myprint(uintptr_t handle);
	// */
	// import "C"
	// import "runtime/cgo"
	//
	// //export MyGoPrint
	// func MyGoPrint(handle C.uintptr_t) {
	// h := cgo.Handle(handle)
	// val := h.Value().(string)
	// println(val)
	// h.Delete()
	// }
	//
	// func main() {
	// val := "hello Go"
	// C.myprint(C.uintptr_t(cgo.NewHandle(val)))
	// // Output: hello Go
	// }
	//
	// and on the C side:
	//
	// #include <stdint.h> // for uintptr_t
	//
	// // A Go function
	// extern void MyGoPrint(uintptr_t handle);
	//
	// // A C function
	// void myprint(uintptr_t handle) {
	// MyGoPrint(handle);
	// }
	//
	// Some C functions accept a void* argument that points to an arbitrary
	// data value supplied by the caller. It is not safe to coerce a cgo.Handle
	// (an integer) to a Go unsafe.Pointer, but instead we can pass the address
	// of the cgo.Handle to the void* parameter, as in this variant of the
	// previous example:
	//
	// package main
	//
	// /*
	// extern void MyGoPrint(void *context);
	// static inline void myprint(void *context) {
	// MyGoPrint(context);
	// }
	// */
	// import "C"
	// import (
	// "runtime/cgo"
	// "unsafe"
	// )
	//
	// //export MyGoPrint
	// func MyGoPrint(context unsafe.Pointer) {
	// h := (cgo.Handle)(context)
	// val := h.Value().(string)
	// println(val)
	// h.Delete()
	// }
	//
	// func main() {
	// val := "hello Go"
	// h := cgo.NewHandle(val)
	// C.myprint(unsafe.Pointer(&h))
	// // Output: hello Go
	// }
	type Handle uintptr

	// NewHandle returns a handle for a given value.
	//
	// The handle is valid until the program calls Delete on it. The handle
	// uses resources, and this package assumes that C code may hold on to
	// the handle, so a program must explicitly call Delete when the handle
	// is no longer needed.
	//
	// The intended use is to pass the returned handle to C code, which
	// passes it back to Go, which calls Value.
	func NewHandle(v any) Handle {
	h := atomic.AddUintptr(&handleIdx, 1)
	if h == 0 {
	panic("runtime/cgo: ran out of handle space")
	}

	handles.Store(h, v)
	return Handle(h)
	}

	// Value returns the associated Go value for a valid handle.
	//
	// The method panics if the handle is invalid.
	func (h Handle) Value() any {
	v, ok := handles.Load(uintptr(h))
	if !ok {
	panic("runtime/cgo: misuse of an invalid Handle")
	}
	return v
	}

	// Delete invalidates a handle. This method should only be called once
	// the program no longer needs to pass the handle to C and the C code
	// no longer has a copy of the handle value.
	//
	// The method panics if the handle is invalid.
	func (h Handle) Delete() {
	_, ok := handles.LoadAndDelete(uintptr(h))
	if !ok {
	panic("runtime/cgo: misuse of an invalid Handle")
	}
	}

	var (
	handles = sync.Map{} // map[Handle]interface{}
	handleIdx uintptr // atomic
	)