table of contents
globus_thread(3) | globus_common | globus_thread(3) |
NAME¶
globus_thread - Threading
- Portable Thread Abstraction.
SYNOPSIS¶
Modules¶
Mutual Exclusion
Mutual Exclusion. Condition Variables
Condition Variables. Thread-Specific Storage
Thread-Specific Storage. One-time execution
One-time execution.
Data Structures¶
union globus_thread_t
Thread ID. union globus_threadattr_t
Thread attributes. union globus_thread_key_t
Thread-specific data key.
Macros¶
#define GLOBUS_THREAD_CANCEL_DISABLE 0
Disable thread cancellation value. #define GLOBUS_THREAD_CANCEL_ENABLE
1
Enable thread cancellation value. #define GLOBUS_THREAD_MODULE
(&globus_i_thread_module)
Thread Module.
Typedefs¶
typedef void(* globus_thread_key_destructor_func_t) (void
*value)
Thread-specific data destructor.
Functions¶
int globus_thread_set_model (const char *model)
Select threading model for an application. int globus_thread_create
(globus_thread_t *thread, globus_threadattr_t *attr,
globus_thread_func_t func, void *user_arg)
Create a new thread. void globus_thread_yield (void)
Yield execution to another thread. void globus_thread_exit (void
*value)
Terminate the current thread. int globus_thread_sigmask (int how, const
sigset_t *new_mask, sigset_t *old_mask)
Modify the current thread's signal mask. int globus_thread_kill
(globus_thread_t thread, int sig)
Send a signal to a thread. globus_thread_t globus_thread_self
(void)
Determine the current thread's ID. globus_bool_t
globus_thread_equal (globus_thread_t thread1,
globus_thread_t thread2)
Check whether thread identifiers match. globus_bool_t
globus_thread_preemptive_threads (void)
Indicate whether the active thread model supports preemption.
globus_bool_t globus_i_am_only_thread (void)
Determine if threads are supported. void *
globus_thread_cancellable_func (void *(*func)(void *), void *arg,
void(*cleanup_func)(void *), void *cleanup_arg, globus_bool_t
execute_cleanup)
Execute a function with thread cleanup in case of cancellation. int
globus_thread_cancel (globus_thread_t thr)
Cancel a thread. void globus_thread_testcancel (void)
Thread cancellation point. int globus_thread_setcancelstate (int state,
int *oldstate)
Set the thread's cancellable state.
Detailed Description¶
Portable Thread Abstraction.
The Globus runtime includes support for portably creating threads on POSIX and Windows systems. It also provides a callback-driven system for applications that may use threads but don't require them. The Globus Thread API is modeled closely after the POSIX threads API.
Applications can choose whether to run as threaded or non-threaded at runtime by either setting the GLOBUS_THREAD_MODEL environment variable or calling the globus_thread_set_model() function prior to activating any Globus modules.
The Globus thread system provides primitives for mutual exclusion (globus_mutex_t, globus_rmutex_t, globus_rw_mutex_t), event synchronization (globus_cond_t), one-time execution (globus_once_t), and threading (globus_thread_t).
In non-threaded operation, globus_cond_wait() and its variants will poll the callback queue and I/O system to allow event-driven programs to run in the absence of threads. The globus_thread_create() function will fail in that model. Other primitive operations will return success but not provide any thread exclusion as there is only one thread.
Macro Definition Documentation¶
#define GLOBUS_THREAD_CANCEL_DISABLE 0¶
Disable thread cancellation value.
See also
#define GLOBUS_THREAD_CANCEL_ENABLE 1¶
Enable thread cancellation value.
See also
Function Documentation¶
globus_bool_t globus_i_am_only_thread (void)¶
Determine if threads are supported. The globus_i_am_only_thread() function determines whether multiple threads may be running in this process.
Returns
int globus_thread_cancel (globus_thread_t thr)¶
Cancel a thread. The globus_thread_cancel() function cancels the thread with the identifier thr if it is still executing. If it is running with a cancellation cleanup stack, the functions in that stack are executed. The target thread's cancel state determines when the cancellation is delivered.
Parameters
Returns
void* globus_thread_cancellable_func (void *(*)(void *) func, void * arg, void(*)(void *) cleanup_func, void * cleanup_arg, globus_bool_t execute_cleanup)¶
Execute a function with thread cleanup in case of cancellation. The globus_thread_cancellable_func() function provides an interface to POSIX thread cancellation points that does not rely on preprocessor macros. It is roughly equivalent to
pthread_cleanup_push(cleanup_func, cleanup_arg); (*func)(arg); pthread_cleanup_pop(execute_cleanup)
Parameters
arg Parameter to the func function.
cleanup_func Pointer to a function to execute if thread cancellation occurs during func.
cleanup_arg Parameter to the cleanup_func function.
execute_cleanup Flag indicating whether the function pointed to by cleanup_func should be executed after func completes even if it is not cancelled.
Returns
int globus_thread_create (globus_thread_t * thread, globus_threadattr_t * attr, globus_thread_func_t func, void * user_arg)¶
Create a new thread. The globus_thread_create() function creates a new thread of execution in the current process to run the function pointed to by the func parameter passed the user_arg value as its only parameter. This new thread will be detached, so that storage associated with the thread will be automatically reclaimed by the operating system. A thread identifier will be copied to the value pointed by the thread parameter if it is non-NULL. The caller may use this thread identifier to signal or cancel this thread. The attr parameter is ignored by this function. If the 'none' threading model is used by an application, then this function will always fail. One alternative that will work both with and without threads is to use the functions in the Globus Callback API .
Parameters
attr Ignored
func Pointer to a function to start in the new thread.
user_arg Argument to the new thread's function.
Returns
globus_bool_t globus_thread_equal (globus_thread_t thread1, globus_thread_t thread2)¶
Check whether thread identifiers match. The globus_thread_equal() function checks whether the thread identifiers passed as the thread1 and thread2 parameters refer to the same thread. If so, globus_thread_equal() returns GLOBUS_TRUE; otherwise GLOBUS_FALSE.
Parameters
thread2 Thread identifier to compare.
Return values
GLOBUS_FALSE thread1 and thread2 do not refer to the same thread.
void globus_thread_exit (void * value)¶
Terminate the current thread. The globus_thread_exit() terminates the current thread with the value passed to it. This function does not return.
int globus_thread_kill (globus_thread_t thread, int sig)¶
Send a signal to a thread. The globus_thread_kill() function sends the signal specified by the sig number to the thread whose ID matches the thread parameter. Depending on the signal mask of that thread, this may result in a signal being delivered or not, and depending on the process's signal actions, a signal handler, termination, or no operation will occur in that thread.
Parameters
sig The signal to send to the thread.
Returns
globus_bool_t globus_thread_preemptive_threads (void)¶
Indicate whether the active thread model supports preemption.
Returns
globus_thread_t globus_thread_self (void)¶
Determine the current thread's ID. The globus_thread_self() function returns the thread identifier of the current thread. This value is unique among all threads which are running at any given time.
Returns
int globus_thread_set_model (const char * model)¶
Select threading model for an application. The globus_thread_set_model() function selects which runtime model the current application will use. By default, the Globus runtime uses a non-threaded model. Additional models may be available based on system support: pthread, or windows. This function must be called prior to activating any globus module, as it changes how certain functions (like globus_mutex_lock() and globus_cond_wait()) behave. This function overrides the value set by the GLOBUS_THREAD_MODEL environment variable.
The globus_thread_set_model() function will fail if a Globus module has been activated already.
Parameters
Returns
int globus_thread_setcancelstate (int state, int * oldstate)¶
Set the thread's cancellable state. The globus_thread_setcancelstate() function sets the current cancellation state to either GLOBUS_THREAD_CANCEL_DISABLE or GLOBUS_THREAD_CANCEL_ENABLE, do control whether globus_thread_cancel() is able to cancel this thread.
Parameters
oldstate A pointer to a value which will be set to the value of the thread's cancellation state when this function call began. This may be NULL if the caller is not interested in the previous value.
Returns
int globus_thread_sigmask (int how, const sigset_t * new_mask, sigset_t * old_mask)¶
Modify the current thread's signal mask. The globus_thread_sigmask() function modifies the current thread's signal mask and returns the old value of the signal mask in the value pointed to by the old_mask parameter. The how parameter can be one of SIG_BLOCK, SIG_UNBLOCK, or SIG_SETMASK to control how the signal mask is modified.
Parameters
new_mask Set of signals to block or unblock, based on the how parameter.
old_mask A pointer to be set to the old signal mask associated with the current thread.
Returns
void globus_thread_testcancel (void)¶
Thread cancellation point. The globus_thread_testcancel() function acts as a cancellation point for the current thread. If a thread has called globus_thread_cancel() and cancellation is enabled, this will cause the thread to be cancelled and any functions on the thread's cleanup stack to be executed. This function will not return if the thread is cancelled.
void globus_thread_yield (void)¶
Yield execution to another thread. The globus_thread_yield() function yields execution to other threads which are ready for execution. The current thread may continue to execute if there are no other threads in the system's ready queue.
Author¶
Generated automatically by Doxygen for globus_common from the source code.
Tue Jul 5 2022 | Version 18.13 |