#include <mono/utils/mach-support.h>
#include <mono/utils/mono-compiler.h>
-#include <mono/utils/mono-semaphore.h>
#include <mono/utils/mono-threads.h>
#include <mono/utils/hazard-pointer.h>
mono_threads_init_dead_letter ();
}
-void
-mono_threads_core_interrupt (MonoThreadInfo *info)
+#if defined(HOST_WATCHOS) || defined(HOST_TVOS)
+
+gboolean
+mono_threads_core_begin_async_suspend (MonoThreadInfo *info, gboolean interrupt_kernel)
{
- thread_abort (info->native_handle);
+ g_assert_not_reached ();
}
-void
-mono_threads_core_abort_syscall (MonoThreadInfo *info)
+gboolean
+mono_threads_core_check_suspend_result (MonoThreadInfo *info)
{
- kern_return_t ret;
-
- ret = thread_suspend (info->native_handle);
- if (ret != KERN_SUCCESS)
- return;
-
- ret = thread_abort_safely (info->native_handle);
-
- /*
- * We are doing thread_abort when thread_abort_safely returns KERN_SUCCESS because
- * for some reason accept is not interrupted by thread_abort_safely.
- * The risk of aborting non-atomic operations while calling thread_abort should not
- * exist because by the time thread_abort_safely returns KERN_SUCCESS the target
- * thread should have return from the kernel and should be waiting for thread_resume
- * to resume the user code.
- */
- if (ret == KERN_SUCCESS)
- ret = thread_abort (info->native_handle);
-
- g_assert (thread_resume (info->native_handle) == KERN_SUCCESS);
+ g_assert_not_reached ();
}
gboolean
-mono_threads_core_needs_abort_syscall (void)
+mono_threads_core_begin_async_resume (MonoThreadInfo *info)
{
- return TRUE;
+ g_assert_not_reached ();
}
+#else /* defined(HOST_WATCHOS) || defined(HOST_TVOS) */
+
gboolean
mono_threads_core_begin_async_suspend (MonoThreadInfo *info, gboolean interrupt_kernel)
{
mcontext_t mctx;
mono_threads_get_runtime_callbacks ()->setup_async_callback (&tmp, info->async_target, info->user_data);
- info->async_target = info->user_data = NULL;
+ info->user_data = NULL;
+ info->async_target = (void (*)(void *)) info->user_data;
state = (thread_state_t) alloca (mono_mach_arch_get_thread_state_size ());
mctx = (mcontext_t) alloca (mono_mach_arch_get_mcontext_size ());
return FALSE;
mono_mach_arch_thread_state_to_mcontext (state, mctx);
-#ifdef TARGET_ARM64
- g_assert_not_reached ();
-#else
uctx.uc_mcontext = mctx;
-#endif
mono_monoctx_to_sigctx (&tmp, &uctx);
mono_mach_arch_mcontext_to_thread_state (mctx, state);
return ret == KERN_SUCCESS;
}
+#endif /* defined(HOST_WATCHOS) || defined(HOST_TVOS) */
+
void
mono_threads_platform_register (MonoThreadInfo *info)
{
+ char thread_name [64];
+
info->native_handle = mach_thread_self ();
+
+ snprintf (thread_name, sizeof (thread_name), "tid_%x", (int) info->native_handle);
+ pthread_setname_np (thread_name);
+
mono_threads_install_dead_letter ();
}
mach_port_deallocate (current_task (), info->native_handle);
}
-MonoNativeThreadId
-mono_native_thread_id_get (void)
-{
- return pthread_self ();
-}
-
-gboolean
-mono_native_thread_id_equals (MonoNativeThreadId id1, MonoNativeThreadId id2)
-{
- return pthread_equal (id1, id2);
-}
-
-/*
- * mono_native_thread_create:
- *
- * Low level thread creation function without any GC wrappers.
- */
-gboolean
-mono_native_thread_create (MonoNativeThreadId *tid, gpointer func, gpointer arg)
-{
- return pthread_create (tid, NULL, func, arg) == 0;
-}
-
-void
-mono_threads_core_set_name (MonoNativeThreadId tid, const char *name)
-{
- /* pthread_setnmae_np() on Mac is not documented and doesn't receive thread id. */
-}
#endif /* USE_MACH_BACKEND */
#ifdef __MACH__