#include <mono/utils/mono-linked-list-set.h>
#include <mono/utils/mono-tls.h>
#include <mono/utils/mono-coop-semaphore.h>
+#include <mono/utils/os-event.h>
#include <mono/io-layer/io-layer.h>
typedef HANDLE MonoNativeThreadHandle; /* unused */
typedef DWORD mono_native_thread_return_t;
+typedef DWORD mono_thread_start_return_t;
#define MONO_NATIVE_THREAD_ID_TO_UINT(tid) (tid)
#define MONO_UINT_TO_NATIVE_THREAD_ID(tid) ((MonoNativeThreadId)(tid))
typedef pthread_t MonoNativeThreadId;
typedef void* mono_native_thread_return_t;
+typedef gsize mono_thread_start_return_t;
#define MONO_NATIVE_THREAD_ID_TO_UINT(tid) (gsize)(tid)
#define MONO_UINT_TO_NATIVE_THREAD_ID(tid) (MonoNativeThreadId)(gsize)(tid)
#endif /* #ifdef HOST_WIN32 */
+typedef struct {
+ guint32 ref;
+ MonoOSEvent event;
+} MonoThreadHandle;
+
/*
THREAD_INFO_TYPE is a way to make the mono-threads module parametric - or sort of.
The GC using mono-threads might extend the MonoThreadInfo struct to add its own
/* IO layer handle for this thread */
/* Set when the thread is started, or in _wapi_thread_duplicate () */
- HANDLE handle;
+ MonoThreadHandle *handle;
void *jit_data;
void (*thread_detach)(THREAD_INFO_TYPE *info);
void (*thread_attach)(THREAD_INFO_TYPE *info);
gboolean (*mono_method_is_critical) (void *method);
+ gboolean (*ip_in_critical_region) (MonoDomain *domain, gpointer ip);
gboolean (*mono_thread_in_critical_region) (THREAD_INFO_TYPE *info);
} MonoThreadInfoCallbacks;
void
mono_thread_info_safe_suspend_and_run (MonoNativeThreadId id, gboolean interrupt_kernel, MonoSuspendThreadCallback callback, gpointer user_data);
-//XXX new API, fix the world
-void
-mono_thread_info_begin_self_suspend (void);
-
-void
-mono_thread_info_end_self_suspend (void);
-
-//END of new API
-
void
mono_thread_info_setup_async_call (THREAD_INFO_TYPE *info, void (*target_func)(void*), void *user_data);
mono_thread_info_tls_set (THREAD_INFO_TYPE *info, MonoTlsKey key, gpointer value);
void
-mono_thread_info_exit (void);
-
-void
-mono_thread_info_set_exited (THREAD_INFO_TYPE *info);
+mono_thread_info_exit (gsize exit_code);
void
mono_thread_info_install_interrupt (void (*callback) (gpointer data), gpointer data, gboolean *interrupted);
gboolean
mono_thread_info_is_live (THREAD_INFO_TYPE *info);
-HANDLE
+MonoThreadHandle*
mono_threads_create_thread (MonoThreadStart start, gpointer arg, gsize * const stack_size, MonoNativeThreadId *out_tid);
int
mono_threads_get_max_stack_size (void);
-HANDLE
-mono_threads_open_thread_handle (HANDLE handle, MonoNativeThreadId tid);
+MonoThreadHandle*
+mono_threads_open_thread_handle (MonoThreadHandle *handle);
void
-mono_threads_close_thread_handle (HANDLE handle);
+mono_threads_close_thread_handle (MonoThreadHandle *handle);
MONO_API void
mono_threads_attach_tools_thread (void);
void mono_threads_suspend_init_signals (void);
-void mono_threads_platform_init (void);
-
void mono_threads_coop_init (void);
/*
gint mono_threads_suspend_get_restart_signal (void);
gint mono_threads_suspend_get_abort_signal (void);
-void mono_threads_platform_register (THREAD_INFO_TYPE *info);
-void mono_threads_platform_unregister (THREAD_INFO_TYPE *info);
int mono_threads_platform_create_thread (MonoThreadStart thread_fn, gpointer thread_data, gsize* const stack_size, MonoNativeThreadId *out_tid);
void mono_threads_platform_get_stack_bounds (guint8 **staddr, size_t *stsize);
gboolean mono_threads_platform_yield (void);
-void mono_threads_platform_exit (int exit_code);
-HANDLE mono_threads_platform_open_thread_handle (HANDLE handle, MonoNativeThreadId tid);
-void mono_threads_platform_close_thread_handle (HANDLE handle);
-void mono_threads_platform_set_exited (gpointer handle);
-gpointer mono_threads_platform_duplicate_handle (THREAD_INFO_TYPE *info);
+void mono_threads_platform_exit (gsize exit_code);
void mono_threads_coop_begin_global_suspend (void);
void mono_threads_coop_end_global_suspend (void);
void mono_threads_transition_attach (THREAD_INFO_TYPE* info);
gboolean mono_threads_transition_detach (THREAD_INFO_TYPE *info);
-void mono_threads_transition_request_self_suspension (THREAD_INFO_TYPE *info);
MonoRequestAsyncSuspendResult mono_threads_transition_request_async_suspension (THREAD_INFO_TYPE *info);
MonoSelfSupendResult mono_threads_transition_state_poll (THREAD_INFO_TYPE *info);
MonoResumeResult mono_threads_transition_request_resume (THREAD_INFO_TYPE* info);
gboolean
mono_thread_info_is_current (THREAD_INFO_TYPE *info);
-gpointer
-mono_thread_info_duplicate_handle (THREAD_INFO_TYPE *info);
+typedef enum {
+ MONO_THREAD_INFO_WAIT_RET_SUCCESS_0 = 0,
+ MONO_THREAD_INFO_WAIT_RET_ALERTED = -1,
+ MONO_THREAD_INFO_WAIT_RET_TIMEOUT = -2,
+ MONO_THREAD_INFO_WAIT_RET_FAILED = -3,
+} MonoThreadInfoWaitRet;
+
+MonoThreadInfoWaitRet
+mono_thread_info_wait_one_handle (MonoThreadHandle *handle, guint32 timeout, gboolean alertable);
+
+MonoThreadInfoWaitRet
+mono_thread_info_wait_multiple_handle (MonoThreadHandle **thread_handles, gsize nhandles, MonoOSEvent *background_change_event, gboolean waitall, guint32 timeout, gboolean alertable);
#endif /* __MONO_THREADS_H__ */