/* * Initialization Manager * * COPYRIGHT (c) 1989, 1990, 1991, 1992, 1993, 1994. * On-Line Applications Research Corporation (OAR). * All rights assigned to U.S. Government, 1994. * * This material may be reproduced by or for the U.S. Government pursuant * to the copyright license under the clause at DFARS 252.227-7013. This * notice must appear in all copies of this file and its derivatives. * * $Id$ */ /* * INIT is defined so all of the data will be included in this * file. */ #define INIT #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /*PAGE * * rtems_initialize_executive * * This directive initializes all the kernels data structures * to the states necessary for the kernel to begin execution. All * include files that contain global variable definitions should be * included in this file. The system threads and initialization threads * are created and started by this routine. This routine then * initiates multithreading. * * Input parameters: * configuration_table - pointer to the user's configuration table * cpu_table - pointer to the user's CPU configuration table * * Output parameters: NONE */ struct months { unsigned32 months[2][13]; }; void rtems_initialize_executive( rtems_configuration_table *configuration_table, rtems_cpu_table *cpu_table ) { rtems_interrupt_level bsp_level; bsp_level = rtems_initialize_executive_early(configuration_table, cpu_table); rtems_initialize_executive_late( bsp_level ); } rtems_interrupt_level rtems_initialize_executive_early( rtems_configuration_table *configuration_table, rtems_cpu_table *cpu_table ) { rtems_interrupt_level bsp_level; rtems_multiprocessing_table *multiprocessing_table; /* * Dispatching and interrupts are disabled until the end of the * initialization sequence. This prevents an inadvertent context * switch before the executive is initialized. */ _ISR_Disable( bsp_level ); _System_state_Set( SYSTEM_STATE_BEFORE_INITIALIZATION ); _CPU_Initialize( cpu_table, _Thread_Dispatch ); /* * Do this as early as possible to insure no debugging output * is even attempted to be printed. */ _Debug_Manager_initialization(); multiprocessing_table = configuration_table->User_multiprocessing_table; if ( multiprocessing_table == NULL ) multiprocessing_table = (void *) &_Configuration_Default_multiprocessing_table; _Configuration_Handler_initialization( configuration_table, multiprocessing_table, multiprocessing_table->User_mpci_table ); _Attributes_Handler_initialization(); _Thread_Dispatch_initialization(); _User_extensions_Handler_initialization( configuration_table->User_extension_table ); _Workspace_Handler_initialization( (void *)configuration_table->work_space_start, configuration_table->work_space_size ); _ISR_Handler_initialization(); _Objects_Handler_initialization( multiprocessing_table->node, multiprocessing_table->maximum_global_objects ); _Priority_Handler_initialization(); _Watchdog_Handler_initialization(); _TOD_Handler_initialization( configuration_table->microseconds_per_tick ); _Thread_Handler_initialization( configuration_table->maximum_tasks, configuration_table->ticks_per_timeslice, multiprocessing_table->maximum_proxies ); _MPCI_Handler_initialization(); /* MANAGERS */ _Interrupt_Manager_initialization(); _Multiprocessing_Manager_initialization(); _Timer_Manager_initialization( configuration_table->maximum_timers ); _Extension_Manager_initialization( configuration_table->maximum_extensions ); _IO_Manager_initialization( configuration_table->Device_driver_table, configuration_table->number_of_device_drivers ); _Event_Manager_initialization(); _Message_queue_Manager_initialization( configuration_table->maximum_message_queues ); _Semaphore_Manager_initialization( configuration_table->maximum_semaphores ); _Partition_Manager_initialization( configuration_table->maximum_partitions ); _Region_Manager_initialization( configuration_table->maximum_regions ); _Dual_ported_memory_Manager_initialization( configuration_table->maximum_ports ); _Rate_monotonic_Manager_initialization( configuration_table->maximum_periods ); _Internal_threads_Initialization(); if ( cpu_table->pretasking_hook ) (*cpu_table->pretasking_hook)(); _System_state_Set( SYSTEM_STATE_BEFORE_MULTITASKING ); return bsp_level; } void rtems_initialize_executive_late( rtems_interrupt_level bsp_level ) { _System_state_Set( SYSTEM_STATE_BEGIN_MULTITASKING ); _Thread_Start_multitasking( _Internal_threads_System_initialization_thread, _Internal_threads_Idle_thread ); /* * Restore the interrupt level to what the BSP had. Technically, * this is unnecessary since the BSP should have all interrupts * disabled when rtems_initialize_executive is invoked. But this keeps * the ISR Disable/Enable calls paired. */ _ISR_Enable( bsp_level ); } /*PAGE * * rtems_shutdown_executive * * This kernel routine shutdowns the executive. It halts multitasking * and returns control to the application execution "thread" which * initialially invoked the rtems_initialize_executive directive. * * Input parameters: NONE * * Output parameters: NONE */ void rtems_shutdown_executive( unsigned32 result ) { _Thread_Stop_multitasking(); }