src/runtime/cgo/gcc_libinit.c - go.git - Git at Google

 // Copyright 2015 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

 // When cross-compiling with clang to linux/armv5, atomics are emulated
 // and cause a compiler warning. This results in a build failure since
 // cgo uses -Werror. See #65290.
 #pragma GCC diagnostic ignored "-Wpragmas"
 #pragma GCC diagnostic ignored "-Wunknown-warning-option"
 #pragma GCC diagnostic ignored "-Watomic-alignment"

 #include <pthread.h>
 #include <errno.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h> // strerror
 #include <time.h>
 #include "libcgo.h"
 #include "libcgo_unix.h"

 static pthread_cond_t runtime_init_cond = PTHREAD_COND_INITIALIZER;
 static pthread_mutex_t runtime_init_mu = PTHREAD_MUTEX_INITIALIZER;
 static int runtime_init_done;

 // pthread_g is a pthread specific key, for storing the g that binded to the C thread.
 // The registered pthread_key_destructor will dropm, when the pthread-specified value g is not NULL,
 // while a C thread is exiting.
 static pthread_key_t pthread_g;
 static void pthread_key_destructor(void* g);
 uintptr_t x_cgo_pthread_key_created;
 void (*x_crosscall2_ptr)(void (*fn)(void *), void *, int, size_t);

 // The traceback function, used when tracing C calls.
 static void (*cgo_traceback_function)(struct cgoTracebackArg*);

 // The context function, used when tracing back C calls into Go.
 static void (*cgo_context_function)(struct cgoContextArg*);

 // The symbolizer function, used when symbolizing C frames.
 static void (*cgo_symbolizer_function)(struct cgoSymbolizerArg*);

 void
 x_cgo_sys_thread_create(void* (*func)(void*), void* arg) {
 	pthread_attr_t attr;
 	pthread_t p;
 	int err;

 	pthread_attr_init(&attr);
 	pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED);
 	err = _cgo_try_pthread_create(&p, &attr, func, arg);
 	if (err != 0) {
 		fprintf(stderr, "pthread_create failed: %s", strerror(err));
 		abort();
 	}
 }

 uintptr_t
 _cgo_wait_runtime_init_done(void) {
 	void (*pfn)(struct cgoContextArg*);
 	int done;

 	pfn = __atomic_load_n(&cgo_context_function, __ATOMIC_CONSUME);

 	done = 2;
 	if (__atomic_load_n(&runtime_init_done, __ATOMIC_CONSUME) != done) {
 		pthread_mutex_lock(&runtime_init_mu);
 		while (__atomic_load_n(&runtime_init_done, __ATOMIC_CONSUME) == 0) {
 			pthread_cond_wait(&runtime_init_cond, &runtime_init_mu);
 		}

 		// The key and x_cgo_pthread_key_created are for the whole program,
 		// whereas the specific and destructor is per thread.
 		if (x_cgo_pthread_key_created == 0 && pthread_key_create(&pthread_g, pthread_key_destructor) == 0) {
 			x_cgo_pthread_key_created = 1;
 		}

 		// TODO(iant): For the case of a new C thread calling into Go, such
 		// as when using -buildmode=c-archive, we know that Go runtime
 		// initialization is complete but we do not know that all Go init
 		// functions have been run. We should not fetch cgo_context_function
 		// until they have been, because that is where a call to
 		// SetCgoTraceback is likely to occur. We are going to wait for Go
 		// initialization to be complete anyhow, later, by waiting for
 		// main_init_done to be closed in cgocallbackg1. We should wait here
 		// instead. See also issue #15943.
 		pfn = __atomic_load_n(&cgo_context_function, __ATOMIC_CONSUME);

 		__atomic_store_n(&runtime_init_done, done, __ATOMIC_RELEASE);
 		pthread_mutex_unlock(&runtime_init_mu);
 	}

 	if (pfn != nil) {
 		struct cgoContextArg arg;

 		arg.Context = 0;
 		(*pfn)(&arg);
 		return arg.Context;
 	}
 	return 0;
 }

 // _cgo_set_stacklo sets g->stacklo based on the stack size.
 // This is common code called from x_cgo_init, which is itself
 // called by rt0_go in the runtime package.
 void _cgo_set_stacklo(G *g, uintptr *pbounds)
 {
 	uintptr bounds[2];

 	// pbounds can be passed in by the caller; see gcc_linux_amd64.c.
 	if (pbounds == NULL) {
 		pbounds = &bounds[0];
 	}

 	x_cgo_getstackbound(pbounds);

 	g->stacklo = *pbounds;

 	// Sanity check the results now, rather than getting a
 	// morestack on g0 crash.
 	if (g->stacklo >= g->stackhi) {
 		fprintf(stderr, "runtime/cgo: bad stack bounds: lo=%p hi=%p\n", (void*)(g->stacklo), (void*)(g->stackhi));
 		abort();
 	}
 }

 // Store the g into a thread-specific value associated with the pthread key pthread_g.
 // And pthread_key_destructor will dropm when the thread is exiting.
 void x_cgo_bindm(void* g) {
 	// We assume this will always succeed, otherwise, there might be extra M leaking,
 	// when a C thread exits after a cgo call.
 	// We only invoke this function once per thread in runtime.needAndBindM,
 	// and the next calls just reuse the bound m.
 	pthread_setspecific(pthread_g, g);
 }

 void
 x_cgo_notify_runtime_init_done(void* dummy __attribute__ ((unused))) {
 	pthread_mutex_lock(&runtime_init_mu);
 	__atomic_store_n(&runtime_init_done, 1, __ATOMIC_RELEASE);
 	pthread_cond_broadcast(&runtime_init_cond);
 	pthread_mutex_unlock(&runtime_init_mu);
 }

 // Sets the traceback, context, and symbolizer functions. Called from
 // runtime.SetCgoTraceback.
 void x_cgo_set_traceback_functions(struct cgoSetTracebackFunctionsArg* arg) {
 	__atomic_store_n(&cgo_traceback_function, arg->Traceback, __ATOMIC_RELEASE);
 	__atomic_store_n(&cgo_context_function, arg->Context, __ATOMIC_RELEASE);
 	__atomic_store_n(&cgo_symbolizer_function, arg->Symbolizer, __ATOMIC_RELEASE);
 }

 // Gets the traceback function to call to trace C calls.
 void (*(_cgo_get_traceback_function(void)))(struct cgoTracebackArg*) {
 	return __atomic_load_n(&cgo_traceback_function, __ATOMIC_CONSUME);
 }

 // Call the traceback function registered with x_cgo_set_traceback_functions.
 //
 // The traceback function is an arbitrary user C function which may be built
 // with TSAN, and thus must be wrapped with TSAN acquire/release calls. For
 // normal cgo calls, cmd/cgo automatically inserts TSAN acquire/release calls.
 // Since the traceback, context, and symbolizer functions are registered at
 // startup and called via the runtime, they do not get automatic TSAN
 // acquire/release calls.
 //
 // The only purpose of this wrapper is to perform TSAN acquire/release.
 // Alternatively, if the runtime arranged to safely call TSAN acquire/release,
 // it could perform the call directly.
 void x_cgo_call_traceback_function(struct cgoTracebackArg* arg) {
 	void (*pfn)(struct cgoTracebackArg*);

 	pfn = _cgo_get_traceback_function();
 	if (pfn == nil) {
 		return;
 	}

 	_cgo_tsan_acquire();
 	(*pfn)(arg);
 	_cgo_tsan_release();
 }

 // Gets the context function to call to record the traceback context
 // when calling a Go function from C code.
 void (*(_cgo_get_context_function(void)))(struct cgoContextArg*) {
 	return __atomic_load_n(&cgo_context_function, __ATOMIC_CONSUME);
 }

 // Gets the symbolizer function to call to symbolize C frames.
 void (*(_cgo_get_symbolizer_function(void)))(struct cgoSymbolizerArg*) {
 	return __atomic_load_n(&cgo_symbolizer_function, __ATOMIC_CONSUME);
 }

 // Call the symbolizer function registered with x_cgo_set_traceback_functions.
 //
 // See comment on x_cgo_call_traceback_function.
 void x_cgo_call_symbolizer_function(struct cgoSymbolizerArg* arg) {
 	void (*pfn)(struct cgoSymbolizerArg*);

 	pfn = _cgo_get_symbolizer_function();
 	if (pfn == nil) {
 		return;
 	}

 	_cgo_tsan_acquire();
 	(*pfn)(arg);
 	_cgo_tsan_release();
 }

 // _cgo_try_pthread_create retries pthread_create if it fails with
 // EAGAIN.
 int
 _cgo_try_pthread_create(pthread_t* thread, const pthread_attr_t* attr, void* (*pfn)(void*), void* arg) {
 	int tries;
 	int err;
 	struct timespec ts;

 	for (tries = 0; tries < 20; tries++) {
 		err = pthread_create(thread, attr, pfn, arg);
 		if (err == 0) {
 			return 0;
 		}
 		if (err != EAGAIN) {
 			return err;
 		}
 		ts.tv_sec = 0;
 		ts.tv_nsec = (tries + 1) * 1000 * 1000; // Milliseconds.
 		nanosleep(&ts, nil);
 	}
 	return EAGAIN;
 }

 static void
 pthread_key_destructor(void* g) {
 	if (x_crosscall2_ptr != NULL) {
 		// fn == NULL means dropm.
 		// We restore g by using the stored g, before dropm in runtime.cgocallback,
 		// since the g stored in the TLS by Go might be cleared in some platforms,
 		// before this destructor invoked.
 		x_crosscall2_ptr(NULL, g, 0, 0);
 	}
 }
	// Copyright 2015 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

	// When cross-compiling with clang to linux/armv5, atomics are emulated
	// and cause a compiler warning. This results in a build failure since
	// cgo uses -Werror. See #65290.
	#pragma GCC diagnostic ignored "-Wpragmas"
	#pragma GCC diagnostic ignored "-Wunknown-warning-option"
	#pragma GCC diagnostic ignored "-Watomic-alignment"

	#include <pthread.h>
	#include <errno.h>
	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h> // strerror
	#include <time.h>
	#include "libcgo.h"
	#include "libcgo_unix.h"

	static pthread_cond_t runtime_init_cond = PTHREAD_COND_INITIALIZER;
	static pthread_mutex_t runtime_init_mu = PTHREAD_MUTEX_INITIALIZER;
	static int runtime_init_done;

	// pthread_g is a pthread specific key, for storing the g that binded to the C thread.
	// The registered pthread_key_destructor will dropm, when the pthread-specified value g is not NULL,
	// while a C thread is exiting.
	static pthread_key_t pthread_g;
	static void pthread_key_destructor(void* g);
	uintptr_t x_cgo_pthread_key_created;
	void (x_crosscall2_ptr)(void (fn)(void ), void , int, size_t);

	// The traceback function, used when tracing C calls.
	static void (cgo_traceback_function)(struct cgoTracebackArg);

	// The context function, used when tracing back C calls into Go.
	static void (cgo_context_function)(struct cgoContextArg);

	// The symbolizer function, used when symbolizing C frames.
	static void (cgo_symbolizer_function)(struct cgoSymbolizerArg);

	void
	x_cgo_sys_thread_create(void* (func)(void), void* arg) {
	pthread_attr_t attr;
	pthread_t p;
	int err;

	pthread_attr_init(&attr);
	pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED);
	err = _cgo_try_pthread_create(&p, &attr, func, arg);
	if (err != 0) {
	fprintf(stderr, "pthread_create failed: %s", strerror(err));
	abort();
	}
	}

	uintptr_t
	_cgo_wait_runtime_init_done(void) {
	void (pfn)(struct cgoContextArg);
	int done;

	pfn = __atomic_load_n(&cgo_context_function, __ATOMIC_CONSUME);

	done = 2;
	if (__atomic_load_n(&runtime_init_done, __ATOMIC_CONSUME) != done) {
	pthread_mutex_lock(&runtime_init_mu);
	while (__atomic_load_n(&runtime_init_done, __ATOMIC_CONSUME) == 0) {
	pthread_cond_wait(&runtime_init_cond, &runtime_init_mu);
	}

	// The key and x_cgo_pthread_key_created are for the whole program,
	// whereas the specific and destructor is per thread.
	if (x_cgo_pthread_key_created == 0 && pthread_key_create(&pthread_g, pthread_key_destructor) == 0) {
	x_cgo_pthread_key_created = 1;
	}

	// TODO(iant): For the case of a new C thread calling into Go, such
	// as when using -buildmode=c-archive, we know that Go runtime
	// initialization is complete but we do not know that all Go init
	// functions have been run. We should not fetch cgo_context_function
	// until they have been, because that is where a call to
	// SetCgoTraceback is likely to occur. We are going to wait for Go
	// initialization to be complete anyhow, later, by waiting for
	// main_init_done to be closed in cgocallbackg1. We should wait here
	// instead. See also issue #15943.
	pfn = __atomic_load_n(&cgo_context_function, __ATOMIC_CONSUME);

	__atomic_store_n(&runtime_init_done, done, __ATOMIC_RELEASE);
	pthread_mutex_unlock(&runtime_init_mu);
	}

	if (pfn != nil) {
	struct cgoContextArg arg;

	arg.Context = 0;
	(*pfn)(&arg);
	return arg.Context;
	}
	return 0;
	}

	// _cgo_set_stacklo sets g->stacklo based on the stack size.
	// This is common code called from x_cgo_init, which is itself
	// called by rt0_go in the runtime package.
	void _cgo_set_stacklo(G g, uintptr pbounds)
	{
	uintptr bounds[2];

	// pbounds can be passed in by the caller; see gcc_linux_amd64.c.
	if (pbounds == NULL) {
	pbounds = &bounds[0];
	}

	x_cgo_getstackbound(pbounds);

	g->stacklo = *pbounds;

	// Sanity check the results now, rather than getting a
	// morestack on g0 crash.
	if (g->stacklo >= g->stackhi) {
	fprintf(stderr, "runtime/cgo: bad stack bounds: lo=%p hi=%p\n", (void)(g->stacklo), (void)(g->stackhi));
	abort();
	}
	}

	// Store the g into a thread-specific value associated with the pthread key pthread_g.
	// And pthread_key_destructor will dropm when the thread is exiting.
	void x_cgo_bindm(void* g) {
	// We assume this will always succeed, otherwise, there might be extra M leaking,
	// when a C thread exits after a cgo call.
	// We only invoke this function once per thread in runtime.needAndBindM,
	// and the next calls just reuse the bound m.
	pthread_setspecific(pthread_g, g);
	}

	void
	x_cgo_notify_runtime_init_done(void* dummy __attribute__ ((unused))) {
	pthread_mutex_lock(&runtime_init_mu);
	__atomic_store_n(&runtime_init_done, 1, __ATOMIC_RELEASE);
	pthread_cond_broadcast(&runtime_init_cond);
	pthread_mutex_unlock(&runtime_init_mu);
	}

	// Sets the traceback, context, and symbolizer functions. Called from
	// runtime.SetCgoTraceback.
	void x_cgo_set_traceback_functions(struct cgoSetTracebackFunctionsArg* arg) {
	__atomic_store_n(&cgo_traceback_function, arg->Traceback, __ATOMIC_RELEASE);
	__atomic_store_n(&cgo_context_function, arg->Context, __ATOMIC_RELEASE);
	__atomic_store_n(&cgo_symbolizer_function, arg->Symbolizer, __ATOMIC_RELEASE);
	}

	// Gets the traceback function to call to trace C calls.
	void ((_cgo_get_traceback_function(void)))(struct cgoTracebackArg) {
	return __atomic_load_n(&cgo_traceback_function, __ATOMIC_CONSUME);
	}

	// Call the traceback function registered with x_cgo_set_traceback_functions.
	//
	// The traceback function is an arbitrary user C function which may be built
	// with TSAN, and thus must be wrapped with TSAN acquire/release calls. For
	// normal cgo calls, cmd/cgo automatically inserts TSAN acquire/release calls.
	// Since the traceback, context, and symbolizer functions are registered at
	// startup and called via the runtime, they do not get automatic TSAN
	// acquire/release calls.
	//
	// The only purpose of this wrapper is to perform TSAN acquire/release.
	// Alternatively, if the runtime arranged to safely call TSAN acquire/release,
	// it could perform the call directly.
	void x_cgo_call_traceback_function(struct cgoTracebackArg* arg) {
	void (pfn)(struct cgoTracebackArg);

	pfn = _cgo_get_traceback_function();
	if (pfn == nil) {
	return;
	}

	_cgo_tsan_acquire();
	(*pfn)(arg);
	_cgo_tsan_release();
	}

	// Gets the context function to call to record the traceback context
	// when calling a Go function from C code.
	void ((_cgo_get_context_function(void)))(struct cgoContextArg) {
	return __atomic_load_n(&cgo_context_function, __ATOMIC_CONSUME);
	}

	// Gets the symbolizer function to call to symbolize C frames.
	void ((_cgo_get_symbolizer_function(void)))(struct cgoSymbolizerArg) {
	return __atomic_load_n(&cgo_symbolizer_function, __ATOMIC_CONSUME);
	}

	// Call the symbolizer function registered with x_cgo_set_traceback_functions.
	//
	// See comment on x_cgo_call_traceback_function.
	void x_cgo_call_symbolizer_function(struct cgoSymbolizerArg* arg) {
	void (pfn)(struct cgoSymbolizerArg);

	pfn = _cgo_get_symbolizer_function();
	if (pfn == nil) {
	return;
	}

	_cgo_tsan_acquire();
	(*pfn)(arg);
	_cgo_tsan_release();
	}

	// _cgo_try_pthread_create retries pthread_create if it fails with
	// EAGAIN.
	int
	_cgo_try_pthread_create(pthread_t* thread, const pthread_attr_t* attr, void* (pfn)(void), void* arg) {
	int tries;
	int err;
	struct timespec ts;

	for (tries = 0; tries < 20; tries++) {
	err = pthread_create(thread, attr, pfn, arg);
	if (err == 0) {
	return 0;
	}
	if (err != EAGAIN) {
	return err;
	}
	ts.tv_sec = 0;
	ts.tv_nsec = (tries + 1) * 1000 * 1000; // Milliseconds.
	nanosleep(&ts, nil);
	}
	return EAGAIN;
	}

	static void
	pthread_key_destructor(void* g) {
	if (x_crosscall2_ptr != NULL) {
	// fn == NULL means dropm.
	// We restore g by using the stored g, before dropm in runtime.cgocallback,
	// since the g stored in the TLS by Go might be cleared in some platforms,
	// before this destructor invoked.
	x_crosscall2_ptr(NULL, g, 0, 0);
	}
	}