Beispiel #1
0
gboolean
sgen_suspend_thread (SgenThreadInfo *info)
{
	mach_msg_type_number_t num_state;
	thread_state_t state;
	kern_return_t ret;
	ucontext_t ctx;
	mcontext_t mctx;

	gpointer stack_start;

	state = (thread_state_t) alloca (mono_mach_arch_get_thread_state_size ());
	mctx = (mcontext_t) alloca (mono_mach_arch_get_mcontext_size ());

	ret = thread_suspend (info->info.native_handle);
	if (ret != KERN_SUCCESS)
		return FALSE;

	ret = mono_mach_arch_get_thread_state (info->info.native_handle, state, &num_state);
	if (ret != KERN_SUCCESS)
		return FALSE;

	mono_mach_arch_thread_state_to_mcontext (state, mctx);
	ctx.uc_mcontext = mctx;

	info->stopped_domain = mono_thread_info_tls_get (info, TLS_KEY_DOMAIN);
	info->stopped_ip = (gpointer) mono_mach_arch_get_ip (state);
	info->stack_start = NULL;
	stack_start = (char*) mono_mach_arch_get_sp (state) - REDZONE_SIZE;
	/* If stack_start is not within the limits, then don't set it in info and we will be restarted. */
	if (stack_start >= info->stack_start_limit && info->stack_start <= info->stack_end) {
		info->stack_start = stack_start;

#ifdef USE_MONO_CTX
		mono_sigctx_to_monoctx (&ctx, &info->ctx);
#else
		ARCH_COPY_SIGCTX_REGS (&info->regs, &ctx);
#endif
	} else {
		g_assert (!info->stack_start);
	}

	/* Notify the JIT */
	if (mono_gc_get_gc_callbacks ()->thread_suspend_func)
		mono_gc_get_gc_callbacks ()->thread_suspend_func (info->runtime_data, &ctx, NULL);

	SGEN_LOG (2, "thread %p stopped at %p stack_start=%p", (void*)(gsize)info->info.native_handle, info->stopped_ip, info->stack_start);

	binary_protocol_thread_suspend ((gpointer)mono_thread_info_get_tid (info), info->stopped_ip);

	return TRUE;
}
Beispiel #2
0
gboolean
mono_sgen_suspend_thread (SgenThreadInfo *info)
{
	mach_msg_type_number_t num_state;
	thread_state_t state;
	kern_return_t ret;
	ucontext_t ctx;
	mcontext_t mctx;

	gpointer stack_start;

	state = (thread_state_t) alloca (mono_mach_arch_get_thread_state_size ());
	mctx = (mcontext_t) alloca (mono_mach_arch_get_mcontext_size ());

	ret = thread_suspend (info->mach_port);
	if (ret != KERN_SUCCESS)
		return FALSE;

	ret = mono_mach_arch_get_thread_state (info->mach_port, state, &num_state);
	if (ret != KERN_SUCCESS)
		return FALSE;

	mono_mach_arch_thread_state_to_mcontext (state, mctx);
	ctx.uc_mcontext = mctx;

	info->stopped_domain = mono_mach_arch_get_tls_value_from_thread ((pthread_t)info->id, mono_domain_get_tls_offset ());
	info->stopped_ip = (gpointer) mono_mach_arch_get_ip (state);
	stack_start = (char*) mono_mach_arch_get_sp (state) - REDZONE_SIZE;
	/* If stack_start is not within the limits, then don't set it in info and we will be restarted. */
	if (stack_start >= info->stack_start_limit && info->stack_start <= info->stack_end) {
		info->stack_start = stack_start;

#ifdef USE_MONO_CTX
		mono_sigctx_to_monoctx (&ctx, &info->ctx);
		info->monoctx = &info->ctx;
#else
		ARCH_COPY_SIGCTX_REGS (&info->regs, &ctx);
		info->stopped_regs = &info->regs;
#endif
	} else {
		g_assert (!info->stack_start);
	}

	/* Notify the JIT */
	if (mono_gc_get_gc_callbacks ()->thread_suspend_func)
		mono_gc_get_gc_callbacks ()->thread_suspend_func (info->runtime_data, &ctx);
	return TRUE;
}
int
mono_sgen_thread_handshake (int signum)
{
	task_t task = current_task ();
	thread_port_t cur_thread = mach_thread_self ();
	thread_act_array_t thread_list;
	mach_msg_type_number_t num_threads;
	mach_msg_type_number_t num_state;
	thread_state_t state;
	kern_return_t ret;
	ucontext_t ctx;
	mcontext_t mctx;
	pthread_t exception_thread = mono_gc_get_mach_exception_thread ();

	SgenThreadInfo *info;
	gpointer regs [ARCH_NUM_REGS];
	gpointer stack_start;

	int count, i;

	mono_mach_get_threads (&thread_list, &num_threads);

	for (i = 0, count = 0; i < num_threads; i++) {
		thread_port_t t = thread_list [i];
		pthread_t pt = pthread_from_mach_thread_np (t);
		if (t != cur_thread && pt != exception_thread && !mono_sgen_is_worker_thread (pt)) {
			if (signum == suspend_signal_num) {
				ret = thread_suspend (t);
				if (ret != KERN_SUCCESS) {
					mach_port_deallocate (task, t);
					continue;
				}

				state = (thread_state_t) alloca (mono_mach_arch_get_thread_state_size ());
				ret = mono_mach_arch_get_thread_state (t, state, &num_state);
				if (ret != KERN_SUCCESS) {
					mach_port_deallocate (task, t);
					continue;
				}


				info = mono_sgen_thread_info_lookup (pt);

				/* Ensure that the runtime is aware of this thread */
				if (info != NULL) {
					mctx = (mcontext_t) alloca (mono_mach_arch_get_mcontext_size ());
					mono_mach_arch_thread_state_to_mcontext (state, mctx);
					ctx.uc_mcontext = mctx;

					info->stopped_domain = mono_mach_arch_get_tls_value_from_thread (t, mono_pthread_key_for_tls (mono_domain_get_tls_key ()));
					info->stopped_ip = (gpointer) mono_mach_arch_get_ip (state);
					stack_start = (char*) mono_mach_arch_get_sp (state) - REDZONE_SIZE;
					/* If stack_start is not within the limits, then don't set it in info and we will be restarted. */
					if (stack_start >= info->stack_start_limit && info->stack_start <= info->stack_end) {
						info->stack_start = stack_start;

						ARCH_COPY_SIGCTX_REGS (regs, &ctx);
						info->stopped_regs = regs;
					} else {
						g_assert (!info->stack_start);
					}

					/* Notify the JIT */
					if (mono_gc_get_gc_callbacks ()->thread_suspend_func)
						mono_gc_get_gc_callbacks ()->thread_suspend_func (info->runtime_data, &ctx);
				}
			} else {
				ret = thread_resume (t);
				if (ret != KERN_SUCCESS) {
					mach_port_deallocate (task, t);
					continue;
				}
			}
			count ++;

			mach_port_deallocate (task, t);
		}
	}

	mach_port_deallocate (task, cur_thread);

	return count;
}
Beispiel #4
0
int
mono_sgen_thread_handshake (int signum)
{
	SgenThreadInfo *cur_thread = mono_sgen_thread_info_current ();
	mach_msg_type_number_t num_state;
	thread_state_t state;
	kern_return_t ret;
	ucontext_t ctx;
	mcontext_t mctx;

	SgenThreadInfo *info;
	gpointer stack_start;

	int count = 0;

	state = (thread_state_t) alloca (mono_mach_arch_get_thread_state_size ());
	mctx = (mcontext_t) alloca (mono_mach_arch_get_mcontext_size ());

	FOREACH_THREAD (info) {
		if (info == cur_thread || mono_sgen_is_worker_thread (info->id))
			continue;

		if (signum == suspend_signal_num) {
			ret = thread_suspend (info->mach_port);
			if (ret != KERN_SUCCESS)
				continue;

			ret = mono_mach_arch_get_thread_state (info->mach_port, state, &num_state);
			if (ret != KERN_SUCCESS)
				continue;

			mono_mach_arch_thread_state_to_mcontext (state, mctx);
			ctx.uc_mcontext = mctx;

			info->stopped_domain = mono_mach_arch_get_tls_value_from_thread ((pthread_t)info->id, mono_pthread_key_for_tls (mono_domain_get_tls_key ()));
			info->stopped_ip = (gpointer) mono_mach_arch_get_ip (state);
			stack_start = (char*) mono_mach_arch_get_sp (state) - REDZONE_SIZE;
			/* If stack_start is not within the limits, then don't set it in info and we will be restarted. */
			if (stack_start >= info->stack_start_limit && info->stack_start <= info->stack_end) {
				info->stack_start = stack_start;

#ifdef USE_MONO_CTX
				mono_sigctx_to_monoctx (&ctx, &info->ctx);
				info->monoctx = &info->ctx;
#else
				ARCH_COPY_SIGCTX_REGS (&info->regs, &ctx);
				info->stopped_regs = &info->regs;
#endif
			} else {
				g_assert (!info->stack_start);
			}

			/* Notify the JIT */
			if (mono_gc_get_gc_callbacks ()->thread_suspend_func)
				mono_gc_get_gc_callbacks ()->thread_suspend_func (info->runtime_data, &ctx);
		} else {
			ret = thread_resume (info->mach_port);
			if (ret != KERN_SUCCESS)
				continue;
		}
		count ++;
	} END_FOREACH_THREAD
	return count;
}