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[/] [openrisc/] [trunk/] [rtos/] [rtems/] [c/] [src/] [lib/] [libbsp/] [powerpc/] [shared/] [startup/] [bspstart.c] - Rev 173

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/*
 *  This routine starts the application.  It includes application,
 *  board, and monitor specific initialization and configuration.
 *  The generic CPU dependent initialization has been performed
 *  before this routine is invoked.
 *
 *  COPYRIGHT (c) 1989-1998.
 *  On-Line Applications Research Corporation (OAR).
 *  Copyright assigned to U.S. Government, 1994.
 *
 *  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.
 *
 *  Modified to support the MCP750.
 *  Modifications Copyright (C) 1999 Eric Valette. valette@crf.canon.fr
 *
 *  $Id: bspstart.c,v 1.2 2001-09-27 12:01:07 chris Exp $
 */
 
#include <bsp.h>
#include <rtems/libio.h>
#include <libcsupport.h>
#include <string.h>
#include <bsp/consoleIo.h>
#include <libcpu/spr.h>
#include <bsp/residual.h>
#include <bsp/pci.h>
#include <bsp/openpic.h>
#include <bsp/irq.h>
#include <bsp.h>
#include <libcpu/bat.h>
#include <bsp/vectors.h>
#include <bsp/motorola.h>
 
extern void _return_to_ppcbug();
extern unsigned long __rtems_end;
extern unsigned long _end;
extern unsigned long __bss_start;
extern void L1_caches_enables();
extern unsigned get_L2CR();
extern void set_L2CR(unsigned);
extern void bsp_cleanup(void);
/*
 * Copy of residuals passed by firmware
 */
RESIDUAL residualCopy; 
/*
 * Copy Additional boot param passed by boot loader
 */
#define MAX_LOADER_ADD_PARM 80
char loaderParam[MAX_LOADER_ADD_PARM];
/*
 * Vital Board data Start using DATA RESIDUAL
 */
/*
 * Total memory using RESIDUAL DATA
 */
unsigned int BSP_mem_size;
/*
 * PCI Bus Frequency
 */
unsigned int BSP_bus_frequency;
/*
 * processor clock frequency
 */
unsigned int BSP_processor_frequency;
/*
 * Time base divisior (how many tick for 1 second).
 */
unsigned int BSP_time_base_divisor;
/*
 * system init stack and soft ir stack size
 */
#define INIT_STACK_SIZE 0x1000
#define INTR_STACK_SIZE CONFIGURE_INTERRUPT_STACK_MEMORY
 
void BSP_panic(char *s)
{
  printk("%s PANIC %s\n",_RTEMS_version, s);
  __asm__ __volatile ("sc"); 
}
 
void _BSP_Fatal_error(unsigned int v)
{
  printk("%s PANIC ERROR %x\n",_RTEMS_version, v);
  __asm__ __volatile ("sc"); 
}
 
/*
 *  The original table from the application and our copy of it with
 *  some changes.
 */
 
extern rtems_configuration_table Configuration;
 
rtems_configuration_table  BSP_Configuration;
 
rtems_cpu_table Cpu_table;
 
char *rtems_progname;
 
/*
 *  Use the shared implementations of the following routines
 */
 
void bsp_postdriver_hook(void);
void bsp_libc_init( void *, unsigned32, int );
 
/*
 *  Function:   bsp_pretasking_hook
 *  Created:    95/03/10
 *
 *  Description:
 *      BSP pretasking hook.  Called just before drivers are initialized.
 *      Used to setup libc and install any BSP extensions.
 *
 *  NOTES:
 *      Must not use libc (to do io) from here, since drivers are
 *      not yet initialized.
 *
 */
 
void bsp_pretasking_hook(void)
{
    rtems_unsigned32        heap_start;    
    rtems_unsigned32        heap_size;
 
    heap_start = ((rtems_unsigned32) &__rtems_end) +INIT_STACK_SIZE + INTR_STACK_SIZE;
    if (heap_start & (CPU_ALIGNMENT-1))
        heap_start = (heap_start + CPU_ALIGNMENT) & ~(CPU_ALIGNMENT-1);
 
    heap_size = (BSP_mem_size - heap_start) - BSP_Configuration.work_space_size;
 
#ifdef SHOW_MORE_INIT_SETTINGS
    printk(" HEAP start %x  size %x\n", heap_start, heap_size);
#endif    
    bsp_libc_init((void *) heap_start, heap_size, 0);
 
#ifdef RTEMS_DEBUG
    rtems_debug_enable( RTEMS_DEBUG_ALL_MASK );
#endif
}
 
void zero_bss()
{
  memset(&__bss_start, 0, ((unsigned) (&__rtems_end)) - ((unsigned) &__bss_start));
}
 
void save_boot_params(RESIDUAL* r3, void *r4, void* r5, char *additional_boot_options)
{
 
  residualCopy = *r3;
  strncpy(loaderParam, additional_boot_options, MAX_LOADER_ADD_PARM);
  loaderParam[MAX_LOADER_ADD_PARM - 1] ='\0';
}
 
/*
 *  bsp_start
 *
 *  This routine does the bulk of the system initialization.
 */
 
void bsp_start( void )
{
  int err;
  unsigned char *stack;
  unsigned l2cr;
  register unsigned char* intrStack;
  register unsigned int intrNestingLevel = 0;
  unsigned char *work_space_start;
  ppc_cpu_id_t myCpu;
  ppc_cpu_revision_t myCpuRevision;
  prep_t boardManufacturer;
  motorolaBoard myBoard;
  /*
   * Get CPU identification dynamically. Note that the get_ppc_cpu_type() function
   * store the result in global variables so that it can be used latter...
   */
  myCpu 	= get_ppc_cpu_type();
  myCpuRevision = get_ppc_cpu_revision();
  /*
   * enables L1 Cache. Note that the L1_caches_enables() codes checks for
   * relevant CPU type so that the reason why there is no use of myCpu...
   */
  L1_caches_enables();
  /*
   * Enable L2 Cache. Note that the set_L2CR(L2CR) codes checks for
   * relevant CPU type (mpc750)...
   */
  l2cr = get_L2CR();
#ifdef SHOW_LCR2_REGISTER
  printk("Initial L2CR value = %x\n", l2cr);
#endif  
  if ( (! (l2cr & 0x80000000)) && ((int) l2cr == -1))
    set_L2CR(0xb9A14000);
  /*
   * the initial stack  has aready been set to this value in start.S
   * so there is no need to set it in r1 again... It is just for info
   * so that It can be printed without accessing R1.
   */
  stack = ((unsigned char*) &__rtems_end) + INIT_STACK_SIZE - CPU_MINIMUM_STACK_FRAME_SIZE;
  /*
   * Initialize the interrupt related settings
   * SPRG0 = interrupt nesting level count
   * SPRG1 = software managed IRQ stack
   *
   * This could be done latter (e.g in IRQ_INIT) but it helps to understand
   * some settings below...
   */
  intrStack = ((unsigned char*) &__rtems_end) + INIT_STACK_SIZE + INTR_STACK_SIZE - CPU_MINIMUM_STACK_FRAME_SIZE;
  asm volatile ("mtspr	273, %0" : "=r" (intrStack) : "0" (intrStack));
  asm volatile ("mtspr	272, %0" : "=r" (intrNestingLevel) : "0" (intrNestingLevel));
  /*
   * Initialize default raw exception hanlders. See vectors/vectors_init.c
   */
  initialize_exceptions();
  /*
   * Init MMU block address translation to enable hardware
   * access
   */
  /*
   * PC legacy IO space used for inb/outb and all PC
   * compatible hardware
   */
  setdbat(1, 0x80000000, 0x80000000, 0x10000000, IO_PAGE);
  /*
   * PCI devices memory area. Needed to access OPENPIC features
   * provided by the RAVEN
   */
  setdbat(2, 0xc0000000, 0xc0000000, 0x08000000, IO_PAGE);
  /*
   * Must have acces to open pic PCI ACK registers 
   * provided by the RAVEN
   */
  setdbat(3, 0xf0000000, 0xf0000000, 0x10000000, IO_PAGE);
  select_console(CONSOLE_LOG);
 
  /* We check that the keyboard is present and immediately 
   * select the serial console if not.
   */
  err = kbdreset();
  if (err) select_console(CONSOLE_SERIAL);
 
  boardManufacturer   =  checkPrepBoardType(&residualCopy);
  if (boardManufacturer != PREP_Motorola) {
    printk("Unsupported hardware vendor\n");
    while (1);
  }
  myBoard = getMotorolaBoard();
 
  printk("-----------------------------------------\n");
  printk("Welcome to %s on %s\n", _RTEMS_version, motorolaBoardToString(myBoard));
  printk("-----------------------------------------\n");
#ifdef SHOW_MORE_INIT_SETTINGS  
  printk("Residuals are located at %x\n", (unsigned) &residualCopy);
  printk("Additionnal boot options are %s\n", loaderParam);
  printk("Initial system stack at %x\n",stack);
  printk("Software IRQ stack at %x\n",intrStack);
  printk("-----------------------------------------\n");
#endif
 
#ifdef TEST_RETURN_TO_PPCBUG  
  printk("Hit <Enter> to return to PPCBUG monitor\n");
  printk("When Finished hit GO. It should print <Back from monitor>\n");
  debug_getc();
  _return_to_ppcbug();
  printk("Back from monitor\n");
  _return_to_ppcbug();
#endif /* TEST_RETURN_TO_PPCBUG  */
 
#ifdef SHOW_MORE_INIT_SETTINGS
  printk("Going to start PCI buses scanning and initialization\n");
#endif  
  InitializePCI();
#ifdef SHOW_MORE_INIT_SETTINGS
  printk("Number of PCI buses found is : %d\n", BusCountPCI());
#endif
#ifdef TEST_RAW_EXCEPTION_CODE  
  printk("Testing exception handling Part 1\n");
  /*
   * Cause a software exception
   */
  __asm__ __volatile ("sc");
  /*
   * Check we can still catch exceptions and returned coorectly.
   */
  printk("Testing exception handling Part 2\n");
  __asm__ __volatile ("sc");
#endif  
 
 
  BSP_mem_size 				= residualCopy.TotalMemory;
  BSP_bus_frequency			= residualCopy.VitalProductData.ProcessorBusHz;
  BSP_processor_frequency		= residualCopy.VitalProductData.ProcessorHz;
  BSP_time_base_divisor			= (residualCopy.VitalProductData.TimeBaseDivisor?
					   residualCopy.VitalProductData.TimeBaseDivisor : 4000);
 
  /*
   * Set up our hooks
   * Make sure libc_init is done before drivers initialized so that
   * they can use atexit()
   */
 
  Cpu_table.pretasking_hook 	 = bsp_pretasking_hook;    /* init libc, etc. */
  Cpu_table.postdriver_hook 	 = bsp_postdriver_hook;
  Cpu_table.do_zero_of_workspace = TRUE;
  Cpu_table.interrupt_stack_size = CONFIGURE_INTERRUPT_STACK_MEMORY;
  Cpu_table.clicks_per_usec 	 = BSP_processor_frequency/(BSP_time_base_divisor * 1000);
  Cpu_table.exceptions_in_RAM 	 = TRUE;
 
#ifdef SHOW_MORE_INIT_SETTINGS
  printk("BSP_Configuration.work_space_size = %x\n", BSP_Configuration.work_space_size);
#endif  
  work_space_start = 
    (unsigned char *)BSP_mem_size - BSP_Configuration.work_space_size;
 
  if ( work_space_start <= ((unsigned char *)&__rtems_end) + INIT_STACK_SIZE + INTR_STACK_SIZE) {
    printk( "bspstart: Not enough RAM!!!\n" );
    bsp_cleanup();
  }
 
  BSP_Configuration.work_space_start = work_space_start;
 
  /*
   * Initalize RTEMS IRQ system
   */
  BSP_rtems_irq_mng_init(0);
#ifdef SHOW_MORE_INIT_SETTINGS
  printk("Exit from bspstart\n");
#endif  
}
 

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