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[/] [or1k/] [trunk/] [rtems/] [c/] [src/] [exec/] [posix/] [src/] [killinfo.c] - Rev 1765
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/* * kill() support routine * * COPYRIGHT (c) 1989-1999. * On-Line Applications Research Corporation (OAR). * * The license and distribution terms for this file may be * found in the file LICENSE in this distribution or at * http://www.OARcorp.com/rtems/license.html. * * $Id: killinfo.c,v 1.2 2001-09-27 11:59:17 chris Exp $ */ #include <pthread.h> #include <signal.h> #include <errno.h> #include <assert.h> #include <rtems/system.h> #include <rtems/posix/pthread.h> #include <rtems/posix/psignal.h> #include <rtems/posix/seterr.h> #include <rtems/score/isr.h> /*PAGE * * 3.3.2 Send a Signal to a Process, P1003.1b-1993, p. 68 * * NOTE: Behavior of kill() depends on _POSIX_SAVED_IDS. */ #define _POSIX_signals_Is_interested( _api, _mask ) \ ( ~(_api)->signals_blocked & (_mask) ) int killinfo( pid_t pid, int sig, const union sigval *value ) { sigset_t mask; POSIX_API_Control *api; unsigned32 the_class; unsigned32 index; unsigned32 maximum; Objects_Information *the_info; Objects_Control **object_table; Thread_Control *the_thread; Thread_Control *interested_thread; Priority_Control interested_priority; Chain_Control *the_chain; Chain_Node *the_node; siginfo_t siginfo_struct; siginfo_t *siginfo; POSIX_signals_Siginfo_node *psiginfo; /* * Only supported for the "calling process" (i.e. this node). */ if ( pid != getpid() ) set_errno_and_return_minus_one( ESRCH ); /* * Validate the signal passed if not 0. */ if ( sig && !is_valid_signo(sig) ) { set_errno_and_return_minus_one( EINVAL ); } /* * If the signal is being ignored, then we are out of here. */ if ( !sig || _POSIX_signals_Vectors[ sig ].sa_handler == SIG_IGN ) { return 0; } /* * P1003.1c/Draft 10, p. 33 says that certain signals should always * be directed to the executing thread such as those caused by hardware * faults. */ switch ( sig ) { case SIGFPE: case SIGILL: case SIGSEGV: return pthread_kill( pthread_self(), sig ); default: break; } mask = signo_to_mask( sig ); /* * Build up a siginfo structure */ siginfo = &siginfo_struct; siginfo->si_signo = sig; siginfo->si_code = SI_USER; if ( !value ) { siginfo->si_value.sival_int = 0; } else { siginfo->si_value = *value; } _Thread_Disable_dispatch(); /* * Is the currently executing thread interested? If so then it will * get it an execute it as soon as the dispatcher executes. */ the_thread = _Thread_Executing; api = the_thread->API_Extensions[ THREAD_API_POSIX ]; if ( _POSIX_signals_Is_interested( api, mask ) ) { goto process_it; } /* * Is an interested thread waiting for this signal (sigwait())? */ /* XXX violation of visibility -- need to define thread queue support */ for( index=0 ; index < TASK_QUEUE_DATA_NUMBER_OF_PRIORITY_HEADERS ; index++ ) { the_chain = &_POSIX_signals_Wait_queue.Queues.Priority[ index ]; for ( the_node = the_chain->first ; !_Chain_Is_tail( the_chain, the_node ) ; the_node = the_node->next ) { the_thread = (Thread_Control *)the_node; api = the_thread->API_Extensions[ THREAD_API_POSIX ]; if ((the_thread->Wait.option & mask) || (~api->signals_blocked & mask)) { goto process_it; } } } /* * Is any other thread interested? The highest priority interested * thread is selected. In the event of a tie, then the following * additional criteria is used: * * + ready thread over blocked * + blocked on call interruptible by signal (can return EINTR) * + blocked on call not interruptible by signal * * This looks at every thread in the system regardless of the creating API. * * NOTES: * * + rtems internal threads do not receive signals. */ interested_thread = NULL; interested_priority = PRIORITY_MAXIMUM + 1; for ( the_class = OBJECTS_CLASSES_FIRST_THREAD_CLASS; the_class <= OBJECTS_CLASSES_LAST_THREAD_CLASS; the_class++ ) { if ( the_class == OBJECTS_INTERNAL_THREADS ) continue; the_info = _Objects_Information_table[ the_class ]; if ( !the_info ) /* manager not installed */ continue; maximum = the_info->maximum; object_table = the_info->local_table; assert( object_table ); /* always at least 1 entry */ for ( index = 1 ; index <= maximum ; index++ ) { the_thread = (Thread_Control *) object_table[ index ]; if ( !the_thread ) continue; /* * If this thread is of lower priority than the interested thread, * go on to the next thread. */ if ( the_thread->current_priority > interested_priority ) continue; /* * If this thread is not interested, then go on to the next thread. */ api = the_thread->API_Extensions[ THREAD_API_POSIX ]; if ( !api || !_POSIX_signals_Is_interested( api, mask ) ) continue; /* * Now we know the thread under connsideration is interested. * If the thread under consideration is of higher priority, then * it becomes the interested thread. */ if ( the_thread->current_priority < interested_priority ) { interested_thread = the_thread; interested_priority = the_thread->current_priority; continue; } /* * Now the thread and the interested thread have the same priority. * If the interested thread is ready, then we don't need to send it * to a blocked thread. */ if ( _States_Is_ready( interested_thread->current_state ) ) continue; /* * Now the interested thread is blocked. * If the thread we are considering is not, the it becomes the * interested thread. */ if ( _States_Is_ready( the_thread->current_state ) ) { interested_thread = the_thread; interested_priority = the_thread->current_priority; continue; } /* * Now we know both threads are blocked. * If the interested thread is interruptible, then just use it. */ /* XXX need a new states macro */ if ( interested_thread->current_state & STATES_INTERRUPTIBLE_BY_SIGNAL ) continue; /* * Now both threads are blocked and the interested thread is not * interruptible. * If the thread under consideration is interruptible by a signal, * then it becomes the interested thread. */ /* XXX need a new states macro */ if ( the_thread->current_state & STATES_INTERRUPTIBLE_BY_SIGNAL ) { interested_thread = the_thread; interested_priority = the_thread->current_priority; } } } if ( interested_thread ) { the_thread = interested_thread; goto process_it; } /* * OK so no threads were interested right now. It will be left on the * global pending until a thread receives it. The global set of threads * can change interest in this signal in one of the following ways: * * + a thread is created with the signal unblocked, * + pthread_sigmask() unblocks the signal, * + sigprocmask() unblocks the signal, OR * + sigaction() which changes the handler to SIG_IGN. */ the_thread = NULL; goto post_process_signal; /* * We found a thread which was interested, so now we mark that this * thread needs to do the post context switch extension so it can * evaluate the signals pending. */ process_it: the_thread->do_post_task_switch_extension = TRUE; /* * Returns TRUE if the signal was synchronously given to a thread * blocked waiting for the signal. */ if ( _POSIX_signals_Unblock_thread( the_thread, sig, siginfo ) ) { _Thread_Enable_dispatch(); return 0; } post_process_signal: /* * We may have woken up a thread but we definitely need to post the * signal to the process wide information set. */ _POSIX_signals_Set_process_signals( mask ); if ( _POSIX_signals_Vectors[ sig ].sa_flags == SA_SIGINFO ) { psiginfo = (POSIX_signals_Siginfo_node *) _Chain_Get( &_POSIX_signals_Inactive_siginfo ); if ( !psiginfo ) { set_errno_and_return_minus_one( EAGAIN ); } psiginfo->Info = *siginfo; _Chain_Append( &_POSIX_signals_Siginfo[ sig ], &psiginfo->Node ); } _Thread_Enable_dispatch(); return 0; }