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

 // Copyright 2011 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 "unsafe"

 // These utility functions are available to be called from code
 // compiled with gcc via crosscall2.

 // The declaration of crosscall2 is:
 //   void crosscall2(void (*fn)(void *), void *, int);
 //
 // We need to export the symbol crosscall2 in order to support
 // callbacks from shared libraries. This applies regardless of
 // linking mode.
 //
 // Compatibility note: SWIG uses crosscall2 in exactly one situation:
 // to call _cgo_panic using the pattern shown below. We need to keep
 // that pattern working. In particular, crosscall2 actually takes four
 // arguments, but it works to call it with three arguments when
 // calling _cgo_panic.
 //
 //go:cgo_export_static crosscall2
 //go:cgo_export_dynamic crosscall2

 // Panic. The argument is converted into a Go string.

 // Call like this in code compiled with gcc:
 //   struct { const char *p; } a;
 //   a.p = /* string to pass to panic */;
 //   crosscall2(_cgo_panic, &a, sizeof a);
 //   /* The function call will not return.  */

 // TODO: We should export a regular C function to panic, change SWIG
 // to use that instead of the above pattern, and then we can drop
 // backwards-compatibility from crosscall2 and stop exporting it.

 //go:linkname _runtime_cgo_panic_internal runtime._cgo_panic_internal
 func _runtime_cgo_panic_internal(p *byte)

 //go:linkname _cgo_panic _cgo_panic
 //go:cgo_export_static _cgo_panic
 //go:cgo_export_dynamic _cgo_panic
 func _cgo_panic(a *struct{ cstr *byte }) {
 	_runtime_cgo_panic_internal(a.cstr)
 }

 //go:cgo_import_static x_cgo_init
 //go:linkname x_cgo_init x_cgo_init
 //go:linkname _cgo_init _cgo_init
 var x_cgo_init byte
 var _cgo_init = &x_cgo_init

 //go:cgo_import_static x_cgo_thread_start
 //go:linkname x_cgo_thread_start x_cgo_thread_start
 //go:linkname _cgo_thread_start _cgo_thread_start
 var x_cgo_thread_start byte
 var _cgo_thread_start = &x_cgo_thread_start

 // Creates a new system thread without updating any Go state.
 //
 // This method is invoked during shared library loading to create a new OS
 // thread to perform the runtime initialization. This method is similar to
 // _cgo_sys_thread_start except that it doesn't update any Go state.

 //go:cgo_import_static x_cgo_sys_thread_create
 //go:linkname x_cgo_sys_thread_create x_cgo_sys_thread_create
 //go:linkname _cgo_sys_thread_create _cgo_sys_thread_create
 var x_cgo_sys_thread_create byte
 var _cgo_sys_thread_create = &x_cgo_sys_thread_create

 // Indicates whether a dummy thread key has been created or not.
 //
 // When calling go exported function from C, we register a destructor
 // callback, for a dummy thread key, by using pthread_key_create.

 //go:cgo_import_static x_cgo_pthread_key_created
 //go:linkname x_cgo_pthread_key_created x_cgo_pthread_key_created
 //go:linkname _cgo_pthread_key_created _cgo_pthread_key_created
 var x_cgo_pthread_key_created byte
 var _cgo_pthread_key_created = &x_cgo_pthread_key_created

 // Export crosscall2 to a c function pointer variable.
 // Used to dropm in pthread key destructor, while C thread is exiting.

 //go:cgo_import_static x_crosscall2_ptr
 //go:linkname x_crosscall2_ptr x_crosscall2_ptr
 //go:linkname _crosscall2_ptr _crosscall2_ptr
 var x_crosscall2_ptr byte
 var _crosscall2_ptr = &x_crosscall2_ptr

 // Set the x_crosscall2_ptr C function pointer variable point to crosscall2.
 // It's for the runtime package to call at init time.
 func set_crosscall2()

 //go:linkname _set_crosscall2 runtime.set_crosscall2
 var _set_crosscall2 = set_crosscall2

 // Store the g into the thread-specific value.
 // So that pthread_key_destructor will dropm when the thread is exiting.

 //go:cgo_import_static x_cgo_bindm
 //go:linkname x_cgo_bindm x_cgo_bindm
 //go:linkname _cgo_bindm _cgo_bindm
 var x_cgo_bindm byte
 var _cgo_bindm = &x_cgo_bindm

 // Notifies that the runtime has been initialized.
 //
 // We currently block at every CGO entry point (via _cgo_wait_runtime_init_done)
 // to ensure that the runtime has been initialized before the CGO call is
 // executed. This is necessary for shared libraries where we kickoff runtime
 // initialization in a separate thread and return without waiting for this
 // thread to complete the init.

 //go:cgo_import_static x_cgo_notify_runtime_init_done
 //go:linkname x_cgo_notify_runtime_init_done x_cgo_notify_runtime_init_done
 //go:linkname _cgo_notify_runtime_init_done _cgo_notify_runtime_init_done
 var x_cgo_notify_runtime_init_done byte
 var _cgo_notify_runtime_init_done = &x_cgo_notify_runtime_init_done

 // Sets the traceback context function. See runtime.SetCgoTraceback.

 //go:cgo_import_static x_cgo_set_context_function
 //go:linkname x_cgo_set_context_function x_cgo_set_context_function
 //go:linkname _cgo_set_context_function _cgo_set_context_function
 var x_cgo_set_context_function byte
 var _cgo_set_context_function = &x_cgo_set_context_function

 // Calls a libc function to execute background work injected via libc
 // interceptors, such as processing pending signals under the thread
 // sanitizer.
 //
 // Left as a nil pointer if no libc interceptors are expected.

 //go:cgo_import_static _cgo_yield
 //go:linkname _cgo_yield _cgo_yield
 var _cgo_yield unsafe.Pointer

 //go:cgo_export_static _cgo_topofstack
 //go:cgo_export_dynamic _cgo_topofstack

 // x_cgo_getstackbound gets the thread's C stack size and
 // set the G's stack bound based on the stack size.

 //go:cgo_import_static x_cgo_getstackbound
 //go:linkname x_cgo_getstackbound x_cgo_getstackbound
 //go:linkname _cgo_getstackbound _cgo_getstackbound
 var x_cgo_getstackbound byte
 var _cgo_getstackbound = &x_cgo_getstackbound
	// Copyright 2011 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 "unsafe"

	// These utility functions are available to be called from code
	// compiled with gcc via crosscall2.

	// The declaration of crosscall2 is:
	// void crosscall2(void (fn)(void ), void *, int);
	//
	// We need to export the symbol crosscall2 in order to support
	// callbacks from shared libraries. This applies regardless of
	// linking mode.
	//
	// Compatibility note: SWIG uses crosscall2 in exactly one situation:
	// to call _cgo_panic using the pattern shown below. We need to keep
	// that pattern working. In particular, crosscall2 actually takes four
	// arguments, but it works to call it with three arguments when
	// calling _cgo_panic.
	//
	//go:cgo_export_static crosscall2
	//go:cgo_export_dynamic crosscall2

	// Panic. The argument is converted into a Go string.

	// Call like this in code compiled with gcc:
	// struct { const char *p; } a;
	// a.p = /* string to pass to panic */;
	// crosscall2(_cgo_panic, &a, sizeof a);
	// /* The function call will not return. */

	// TODO: We should export a regular C function to panic, change SWIG
	// to use that instead of the above pattern, and then we can drop
	// backwards-compatibility from crosscall2 and stop exporting it.

	//go:linkname _runtime_cgo_panic_internal runtime._cgo_panic_internal
	func _runtime_cgo_panic_internal(p *byte)

	//go:linkname _cgo_panic _cgo_panic
	//go:cgo_export_static _cgo_panic
	//go:cgo_export_dynamic _cgo_panic
	func _cgo_panic(a struct{ cstr byte }) {
	_runtime_cgo_panic_internal(a.cstr)
	}

	//go:cgo_import_static x_cgo_init
	//go:linkname x_cgo_init x_cgo_init
	//go:linkname _cgo_init _cgo_init
	var x_cgo_init byte
	var _cgo_init = &x_cgo_init

	//go:cgo_import_static x_cgo_thread_start
	//go:linkname x_cgo_thread_start x_cgo_thread_start
	//go:linkname _cgo_thread_start _cgo_thread_start
	var x_cgo_thread_start byte
	var _cgo_thread_start = &x_cgo_thread_start

	// Creates a new system thread without updating any Go state.
	//
	// This method is invoked during shared library loading to create a new OS
	// thread to perform the runtime initialization. This method is similar to
	// _cgo_sys_thread_start except that it doesn't update any Go state.

	//go:cgo_import_static x_cgo_sys_thread_create
	//go:linkname x_cgo_sys_thread_create x_cgo_sys_thread_create
	//go:linkname _cgo_sys_thread_create _cgo_sys_thread_create
	var x_cgo_sys_thread_create byte
	var _cgo_sys_thread_create = &x_cgo_sys_thread_create

	// Indicates whether a dummy thread key has been created or not.
	//
	// When calling go exported function from C, we register a destructor
	// callback, for a dummy thread key, by using pthread_key_create.

	//go:cgo_import_static x_cgo_pthread_key_created
	//go:linkname x_cgo_pthread_key_created x_cgo_pthread_key_created
	//go:linkname _cgo_pthread_key_created _cgo_pthread_key_created
	var x_cgo_pthread_key_created byte
	var _cgo_pthread_key_created = &x_cgo_pthread_key_created

	// Export crosscall2 to a c function pointer variable.
	// Used to dropm in pthread key destructor, while C thread is exiting.

	//go:cgo_import_static x_crosscall2_ptr
	//go:linkname x_crosscall2_ptr x_crosscall2_ptr
	//go:linkname _crosscall2_ptr _crosscall2_ptr
	var x_crosscall2_ptr byte
	var _crosscall2_ptr = &x_crosscall2_ptr

	// Set the x_crosscall2_ptr C function pointer variable point to crosscall2.
	// It's for the runtime package to call at init time.
	func set_crosscall2()

	//go:linkname _set_crosscall2 runtime.set_crosscall2
	var _set_crosscall2 = set_crosscall2

	// Store the g into the thread-specific value.
	// So that pthread_key_destructor will dropm when the thread is exiting.

	//go:cgo_import_static x_cgo_bindm
	//go:linkname x_cgo_bindm x_cgo_bindm
	//go:linkname _cgo_bindm _cgo_bindm
	var x_cgo_bindm byte
	var _cgo_bindm = &x_cgo_bindm

	// Notifies that the runtime has been initialized.
	//
	// We currently block at every CGO entry point (via _cgo_wait_runtime_init_done)
	// to ensure that the runtime has been initialized before the CGO call is
	// executed. This is necessary for shared libraries where we kickoff runtime
	// initialization in a separate thread and return without waiting for this
	// thread to complete the init.

	//go:cgo_import_static x_cgo_notify_runtime_init_done
	//go:linkname x_cgo_notify_runtime_init_done x_cgo_notify_runtime_init_done
	//go:linkname _cgo_notify_runtime_init_done _cgo_notify_runtime_init_done
	var x_cgo_notify_runtime_init_done byte
	var _cgo_notify_runtime_init_done = &x_cgo_notify_runtime_init_done

	// Sets the traceback context function. See runtime.SetCgoTraceback.

	//go:cgo_import_static x_cgo_set_context_function
	//go:linkname x_cgo_set_context_function x_cgo_set_context_function
	//go:linkname _cgo_set_context_function _cgo_set_context_function
	var x_cgo_set_context_function byte
	var _cgo_set_context_function = &x_cgo_set_context_function

	// Calls a libc function to execute background work injected via libc
	// interceptors, such as processing pending signals under the thread
	// sanitizer.
	//
	// Left as a nil pointer if no libc interceptors are expected.

	//go:cgo_import_static _cgo_yield
	//go:linkname _cgo_yield _cgo_yield
	var _cgo_yield unsafe.Pointer

	//go:cgo_export_static _cgo_topofstack
	//go:cgo_export_dynamic _cgo_topofstack

	// x_cgo_getstackbound gets the thread's C stack size and
	// set the G's stack bound based on the stack size.

	//go:cgo_import_static x_cgo_getstackbound
	//go:linkname x_cgo_getstackbound x_cgo_getstackbound
	//go:linkname _cgo_getstackbound _cgo_getstackbound
	var x_cgo_getstackbound byte
	var _cgo_getstackbound = &x_cgo_getstackbound