/** * @file * * @ingroup bsp_bootcard * * @brief Standard system startup. * * This is the C entry point for ALL RTEMS BSPs. It is invoked * from the assembly language initialization file usually called * start.S. It provides the framework for the BSP initialization * sequence. The basic flow of initialization is: * * + start.S: basic CPU setup (stack, zero BSS) * + boot_card * + bspstart.c: bsp_start - more advanced initialization * + obtain information on BSP memory and allocate RTEMS Workspace * + rtems_initialize_data_structures * + allocate memory to C Program Heap * + initialize C Library and C Program Heap * + bsp_pretasking_hook * + rtems_initialize_before_drivers * + bsp_predriver_hook * + rtems_initialize_device_drivers * - all device drivers * + bsp_postdriver_hook * + rtems_initialize_start_multitasking * - 1st task executes C++ global constructors * .... appplication runs ... * - exit * + will not return to here * * This style of initialization ensures that the C++ global * constructors are executed after RTEMS is initialized. * Thanks to Chris Johns for the idea * to move C++ global constructors into the first task. */ /* * COPYRIGHT (c) 1989-2014. * 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.rtems.org/license/LICENSE. */ #include #include /* * At most a single pointer to the cmdline for those target * short on memory and not supporting a command line. */ const char *bsp_boot_cmdline; /* * This is the initialization framework routine that weaves together * calls to RTEMS and the BSP in the proper sequence to initialize * the system while maximizing shared code and keeping BSP code in C * as much as possible. */ void boot_card( const char *cmdline ) { rtems_interrupt_level bsp_isr_level; /* * Make sure interrupts are disabled. */ (void) bsp_isr_level; rtems_interrupt_local_disable( bsp_isr_level ); bsp_boot_cmdline = cmdline; /* * Initialize the RTEMS Workspace and the C Program Heap. */ bsp_work_area_initialize(); /* * Invoke Board Support Package initialization routine written in C. */ bsp_start(); /* * Initialize RTEMS data structures */ rtems_initialize_data_structures(); /* * Initialize the C library for those BSPs using the shared * framework. */ bsp_libc_init(); /* * Let the BSP do any required initialization now that RTEMS * data structures are initialized. In older BSPs or those * which do not use the shared framework, this is the typical * time when the C Library is initialized so malloc() * can be called by device drivers. For BSPs using the shared * framework, this routine can be empty. */ bsp_pretasking_hook(); /* * Let RTEMS perform initialization it requires before drivers * are allowed to be initialized. */ rtems_initialize_before_drivers(); /* * Execute BSP specific pre-driver hook. Drivers haven't gotten * to initialize yet so this is a good chance to initialize * buses, spurious interrupt handlers, etc.. * * NOTE: Many BSPs do not require this handler and use the * shared stub. */ bsp_predriver_hook(); /* * Initialize all device drivers. */ rtems_initialize_device_drivers(); /* * Invoke the postdriver hook. This normally opens /dev/console * for use as stdin, stdout, and stderr. */ bsp_postdriver_hook(); /* * Complete initialization of RTEMS and switch to the first task. * Global C++ constructors will be executed in the context of that task. */ rtems_initialize_start_multitasking(); /*************************************************************** *************************************************************** * APPLICATION RUNS NOW!!! We will not return to here!!! * *************************************************************** ***************************************************************/ }