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author | Sebastian Huber <sebastian.huber@embedded-brains.de> | 2014-03-25 10:54:49 +0100 |
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committer | Sebastian Huber <sebastian.huber@embedded-brains.de> | 2014-03-31 08:29:43 +0200 |
commit | 1b1be254e7a3e3d6fe6d55d62010a81a7ef35411 (patch) | |
tree | c8bacf15b0f092728fd69debcb2387b65db33ed0 /cpukit/score/include/rtems/score/userext.h | |
parent | score: Replace _Thread_Reset() (diff) | |
download | rtems-1b1be254e7a3e3d6fe6d55d62010a81a7ef35411.tar.bz2 |
score: Thread life cycle re-implementation
The thread deletion is now supported on SMP.
This change fixes the following PRs:
PR1814: SMP race condition between stack free and dispatch
PR2035: psxcancel reveals NULL pointer access in _Thread_queue_Extract()
The POSIX cleanup handler are now called in the right context (should be
called in the context of the terminating thread).
http://pubs.opengroup.org/onlinepubs/009695399/functions/xsh_chap02_09.html
Add a user extension the reflects a thread termination event. This is
used to reclaim the Newlib reentrancy structure (may use file
operations), the POSIX cleanup handlers and the POSIX key destructors.
Diffstat (limited to 'cpukit/score/include/rtems/score/userext.h')
-rw-r--r-- | cpukit/score/include/rtems/score/userext.h | 134 |
1 files changed, 83 insertions, 51 deletions
diff --git a/cpukit/score/include/rtems/score/userext.h b/cpukit/score/include/rtems/score/userext.h index 91e7f97bd3..2bd8f8a88b 100644 --- a/cpukit/score/include/rtems/score/userext.h +++ b/cpukit/score/include/rtems/score/userext.h @@ -43,9 +43,7 @@ typedef void User_extensions_routine RTEMS_COMPILER_DEPRECATED_ATTRIBUTE; * @brief Task create extension. * * It corresponds to _Thread_Initialize() (used by the rtems_task_create() - * directive). The first parameter points to the currently executing thread - * which created the new thread. The second parameter points to the created - * thread. + * directive and pthread_create()). * * It is invoked after the new thread has been completely initialized, but * before it is placed on a ready chain. @@ -59,140 +57,173 @@ typedef void User_extensions_routine RTEMS_COMPILER_DEPRECATED_ATTRIBUTE; * * It can be assumed that the executing thread locked the allocator mutex. * The only exception is the creation of the idle thread. In this case the - * allocator mutex is not locked. Since the allocator mutex is non-recursive, - * it is prohibited to call the normal memory allocation routines. It is - * possible to use internal rountines like _Workspace_Allocate() or - * _Heap_Allocate() for heaps which are protected by the allocator mutex. + * allocator mutex is not locked. Since the allocator mutex allows nesting the + * normal memory allocation routines can be used. + * + * @param[in] executing The executing thread. + * @param[in] created The created thread. * - * @retval true The thread create extension was successful. + * @retval true Successful operation. * @retval false A thread create user extension will frequently attempt to * allocate resources. If this allocation fails, then the extension should * return @a false and the entire thread create operation will fail. */ typedef bool ( *User_extensions_thread_create_extension )( - Thread_Control *, - Thread_Control * + Thread_Control *executing, + Thread_Control *created ); /** * @brief Task delete extension. * * It corresponds to _Thread_Close() (used by the rtems_task_delete() - * directive). The first parameter points to the currently executing thread - * which deleted the thread. The second parameter points to the deleted - * thread. + * directive, pthread_exit() and pthread_cancel()). * - * It is invoked before all resources of the thread are deleted. + * It is invoked before all resources of the thread are deleted. The executing + * and deleted arguments are never equal. * * Thread dispatching is enabled. The executing thread locked the allocator * mutex. + * + * @param[in] executing The executing thread. + * @param[in] deleted The deleted thread. */ typedef void( *User_extensions_thread_delete_extension )( - Thread_Control *, - Thread_Control * + Thread_Control *executing, + Thread_Control *deleted ); /** * @brief Task start extension. * * It corresponds to _Thread_Start() (used by the rtems_task_start() - * directive). The first parameter points to the currently executing thread - * which started the thread. The second parameter points to the started - * thread. + * directive). * * It is invoked after the environment of the thread has been loaded and the * thread has been made ready. * * Thread dispatching is disabled. The executing thread is not the holder of * the allocator mutex. + * + * @param[in] executing The executing thread. + * @param[in] started The started thread. */ typedef void( *User_extensions_thread_start_extension )( - Thread_Control *, - Thread_Control * + Thread_Control *executing, + Thread_Control *started ); /** * @brief Task restart extension. * * It corresponds to _Thread_Restart() (used by the rtems_task_restart() - * directive). The first parameter points to the currently executing thread - * which restarted the thread. The second parameter points to the restarted - * thread. + * directive). * * It is invoked in the context of the restarted thread right before the - * execution context is restarted. The executing and restarted arguments are - * equal. The thread stack reflects the previous execution context. + * execution context is reloaded. The executing and restarted arguments are + * always equal. The thread stack reflects the previous execution context. * * Thread dispatching is enabled. The thread is not the holder of the - * allocator mutex. + * allocator mutex. The thread life is protected. Thread restart and delete + * requests issued by restart extensions lead to recursion. + * + * @param[in] executing The executing thread. + * @param[in] restarted The executing thread. Yes, the executing thread. */ typedef void( *User_extensions_thread_restart_extension )( - Thread_Control *, - Thread_Control * + Thread_Control *executing, + Thread_Control *restarted ); /** * @brief Task switch extension. * - * It corresponds to _Thread_Dispatch(). The first parameter points to the - * currently executing thread. The second parameter points to the heir thread. + * It corresponds to _Thread_Dispatch(). * * It is invoked before the context switch from the executing to the heir * thread. * * Thread dispatching is disabled. The state of the allocator mutex is - * arbitrary. + * arbitrary. Interrupts are disabled and the per-CPU lock is acquired on SMP + * configurations. * - * The context switches initiated through _Thread_Start_multitasking() and - * _Thread_Stop_multitasking() are not covered by this extension. The - * executing thread may run with a minimal setup, for example with a freed task - * stack. + * The context switches initiated through _Thread_Start_multitasking() are not + * covered by this extension. + * + * @param[in] executing The executing thread. + * @param[in] heir The heir thread. */ typedef void( *User_extensions_thread_switch_extension )( - Thread_Control *, - Thread_Control * + Thread_Control *executing, + Thread_Control *heir ); /** * @brief Task begin extension. * - * It corresponds to _Thread_Handler(). The first parameter points to the - * currently executing thread which begins now execution. + * It corresponds to _Thread_Handler(). * * Thread dispatching is disabled. The executing thread is not the holder of * the allocator mutex. + * + * @param[in] executing The executing thread. */ typedef void( *User_extensions_thread_begin_extension )( - Thread_Control * + Thread_Control *executing ); /** * @brief Task exitted extension. * - * It corresponds to _Thread_Handler(). The first parameter points to the - * currently executing thread which exitted before. + * It corresponds to _Thread_Handler() after a return of the entry function. * * Thread dispatching is disabled. The state of the allocator mutex is * arbitrary. + * + * @param[in] executing The executing thread. */ typedef void( *User_extensions_thread_exitted_extension )( - Thread_Control * + Thread_Control *executing ); /** * @brief Fatal error extension. * - * It corresponds to _Terminate() (used by the - * rtems_fatal_error_occurred() directive). The first parameter contains the - * error source. The second parameter indicates if it was an internal error. - * The third parameter contains the error code. + * It corresponds to _Terminate() (used by the rtems_fatal() directive). * * This extension should not call any RTEMS directives. + * + * @param[in] source The fatal source indicating the subsystem the fatal + * condition originated in. + * @param[in] is_internal Indicates if the fatal condition was generated + * internally to the executive. + * @param[in] code The fatal error code. This value must be interpreted with + * respect to the source. */ typedef void( *User_extensions_fatal_extension )( - Internal_errors_Source, - bool, - Internal_errors_t + Internal_errors_Source source, + bool is_internal, + Internal_errors_t code +); + +/** + * @brief Task termination extension. + * + * This extension is invoked by _Thread_Life_action_handler() in case a + * termination request is recognized. + * + * It is invoked in the context of the terminated thread right before the + * thread dispatch to the heir thread. The POSIX cleanup and key destructors + * execute in this context. + * + * Thread dispatching is enabled. The thread is not the holder of the + * allocator mutex. The thread life is protected. Thread restart and delete + * requests issued by terminate extensions lead to recursion. + * + * @param[in] terminated The terminated thread. + */ +typedef void( *User_extensions_thread_terminate_extension )( + Thread_Control *terminated ); /** @@ -207,6 +238,7 @@ typedef struct { User_extensions_thread_begin_extension thread_begin; User_extensions_thread_exitted_extension thread_exitted; User_extensions_fatal_extension fatal; + User_extensions_thread_terminate_extension thread_terminate; } User_extensions_Table; /** |