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[/] [or1k/] [trunk/] [rtems/] [c/] [src/] [exec/] [rtems/] [src/] [taskcreate.c] - Rev 1765
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/* * RTEMS Task Manager * * * 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: taskcreate.c,v 1.2 2001-09-27 11:59:19 chris Exp $ */ #include <rtems/system.h> #include <rtems/rtems/status.h> #include <rtems/rtems/support.h> #include <rtems/rtems/modes.h> #include <rtems/score/object.h> #include <rtems/score/stack.h> #include <rtems/score/states.h> #include <rtems/rtems/tasks.h> #include <rtems/score/thread.h> #include <rtems/score/threadq.h> #include <rtems/score/tod.h> #include <rtems/score/userext.h> #include <rtems/score/wkspace.h> #include <rtems/score/apiext.h> #include <rtems/score/sysstate.h> /*PAGE * * rtems_task_create * * This directive creates a thread by allocating and initializing a * thread control block and a stack. The newly created thread is * placed in the dormant state. * * Input parameters: * name - user defined thread name * initial_priority - thread priority * stack_size - stack size in bytes * initial_modes - initial thread mode * attribute_set - thread attributes * id - pointer to thread id * * Output parameters: * id - thread id * RTEMS_SUCCESSFUL - if successful * error code - if unsuccessful */ rtems_status_code rtems_task_create( rtems_name name, rtems_task_priority initial_priority, unsigned32 stack_size, rtems_mode initial_modes, rtems_attribute attribute_set, Objects_Id *id ) { register Thread_Control *the_thread; boolean is_fp; #if defined(RTEMS_MULTIPROCESSING) Objects_MP_Control *the_global_object = NULL; boolean is_global; #endif boolean status; rtems_attribute the_attribute_set; Priority_Control core_priority; RTEMS_API_Control *api; ASR_Information *asr; if ( !rtems_is_name_valid( name ) ) return RTEMS_INVALID_NAME; /* * Core Thread Initialize insures we get the minimum amount of * stack space. */ #if 0 if ( !_Stack_Is_enough( stack_size ) ) return RTEMS_INVALID_SIZE; #endif /* * Fix the attribute set to match the attributes which * this processor (1) requires and (2) is able to support. * First add in the required flags for attribute_set * Typically this might include FP if the platform * or application required all tasks to be fp aware. * Then turn off the requested bits which are not supported. */ the_attribute_set = _Attributes_Set( attribute_set, ATTRIBUTES_REQUIRED ); the_attribute_set = _Attributes_Clear( the_attribute_set, ATTRIBUTES_NOT_SUPPORTED ); if ( _Attributes_Is_floating_point( the_attribute_set ) ) is_fp = TRUE; else is_fp = FALSE; /* * Validate the RTEMS API priority and convert it to the core priority range. */ if ( !_Attributes_Is_system_task( the_attribute_set ) ) { if ( !_RTEMS_tasks_Priority_is_valid( initial_priority ) ) return RTEMS_INVALID_PRIORITY; } core_priority = _RTEMS_tasks_Priority_to_Core( initial_priority ); #if defined(RTEMS_MULTIPROCESSING) if ( _Attributes_Is_global( the_attribute_set ) ) { is_global = TRUE; if ( !_System_state_Is_multiprocessing ) return RTEMS_MP_NOT_CONFIGURED; } else is_global = FALSE; #endif /* * Make sure system is MP if this task is global */ /* * Disable dispatch for protection */ _Thread_Disable_dispatch(); /* * Allocate the thread control block and -- if the task is global -- * allocate a global object control block. * * NOTE: This routine does not use the combined allocate and open * global object routine because this results in a lack of * control over when memory is allocated and can be freed in * the event of an error. */ the_thread = _RTEMS_tasks_Allocate(); if ( !the_thread ) { _Thread_Enable_dispatch(); return RTEMS_TOO_MANY; } #if defined(RTEMS_MULTIPROCESSING) if ( is_global ) { the_global_object = _Objects_MP_Allocate_global_object(); if ( _Objects_MP_Is_null_global_object( the_global_object ) ) { _RTEMS_tasks_Free( the_thread ); _Thread_Enable_dispatch(); return RTEMS_TOO_MANY; } } #endif /* * Initialize the core thread for this task. */ status = _Thread_Initialize( &_RTEMS_tasks_Information, the_thread, NULL, stack_size, is_fp, core_priority, _Modes_Is_preempt(initial_modes) ? TRUE : FALSE, _Modes_Is_timeslice(initial_modes) ? THREAD_CPU_BUDGET_ALGORITHM_RESET_TIMESLICE : THREAD_CPU_BUDGET_ALGORITHM_NONE, NULL, /* no budget algorithm callout */ _Modes_Get_interrupt_level(initial_modes), &name ); if ( !status ) { #if defined(RTEMS_MULTIPROCESSING) if ( is_global ) _Objects_MP_Free_global_object( the_global_object ); #endif _RTEMS_tasks_Free( the_thread ); _Thread_Enable_dispatch(); return RTEMS_UNSATISFIED; } api = the_thread->API_Extensions[ THREAD_API_RTEMS ]; asr = &api->Signal; asr->is_enabled = _Modes_Is_asr_disabled(initial_modes) ? FALSE : TRUE; *id = the_thread->Object.id; #if defined(RTEMS_MULTIPROCESSING) if ( is_global ) { the_thread->is_global = TRUE; _Objects_MP_Open( &_RTEMS_tasks_Information, the_global_object, name, the_thread->Object.id ); _RTEMS_tasks_MP_Send_process_packet( RTEMS_TASKS_MP_ANNOUNCE_CREATE, the_thread->Object.id, name ); } #endif _Thread_Enable_dispatch(); return RTEMS_SUCCESSFUL; }