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[/] [openrisc/] [trunk/] [rtos/] [rtems/] [c/] [src/] [lib/] [libbsp/] [m68k/] [mvme167/] [startup/] [page_table.c] - Rev 773

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/*  page_table.c
 *
 *  The code submitted by Eric Vaitl <vaitl@viasat.com> for the MVME162 appears
 *  to be for a uniprocessor implementation. The function that sets up the
 *  page tables, page_table_init(), is not data driven. For all processors, it
 *  sets up page tables to map virtual addresses from 0x20000 to 0x3FFFFF to
 *  physical addresses 0x20000 to 0x3FFFFF. This presumably maps a subset of
 *  a local 4 MB space, which is probably the amount of RAM on Eric Vailt's
 *  MVME162.
 *
 *  It is possible to set up the various bus bridges in the MVME167s to create
 *  a flat physical address space across multiple boards, i.e., it is possible
 *  for each MVME167 in a multiprocessor system to access a given memory
 *  location using the same physical address, whether that location is in local
 *  or VME space. Addres translation can be set up so that each virtual address
 *  maps to its corresponding physical address, e.g. virtual address 0x12345678
 *  is mapped to physical address 0x12345678. With this mapping, the MMU is
 *  only used to control the caching modes for the various regions of memory.
 *  Mapping the virtual addresses to their corresponding physical address makes
 *  it unnecessary to map addresses under software control during the 
 *  initialization of RTEMS, before address translation is turned on.
 *
 *  With the above approach, address translation may be set up either with the
 *  transparent address translation registers, or with page tables. If page
 *  tables are used, a more efficient use of page table space can be achieved
 *  by sharing the page tables between processors. The entire page table tree
 *  can be shared, or each processor can hold a private copy of the top nodes
 *  which point to leaf nodes stored on individual processors.
 *
 *  In this port, only the transparent address translation registers are used.
 *  We map the entire virtual range from 0x0 to 0x7FFFFFFF to the identical
 *  physical range 0x0 to 0x7FFFFFFF. We rely on the hardware to signal bus
 *  errors if we address non-existent memory within this range. Our two
 *  MVME167s are configured to exist at physical addresses 0x00800000 to
 *  0x00BFFFFF and 0x00C00000 to 0x00FFFFFF respectively. We map the space
 *  from 0x0 to 0x7FFFFFFF as copyback, unless jumper J1-5 is removed, in
 *  which case we map as writethrough. If jumper J1-7 is removed, the data
 *  cache is NOT enabled. If jumper J1-6 is removed, the instruction cache
 *  is not enabled.
 *
 *  Copyright (c) 1998, National Research Council of Canada
 *
 *  $Id: page_table.c,v 1.2 2001-09-27 12:00:20 chris Exp $
 */
 
#include <bsp.h>
#include <page_table.h>                 /* Nothing in here for us */
 
/*
 *  page_table_init
 *  
 *  Map the virtual range 0x00000000--0x7FFFFFFF to the physical range
 *  0x00000000--0x7FFFFFFF. Rely on the hardware to raise exceptions when
 *  addressing non-existent memory. Use only the transparent translation
 *  registers (for now).
 *
 *  On all processors, the local virtual address range 0xFF000000--0xFFFFFFFF 
 *  is mapped to the physical address range 0xFF000000--0xFFFFFFFF as
 *  caching disabled, serialized access.
 *
 *  Input parameters:
 *    config_table - ignored for now
 *
 *  Output parameters: NONE
 *
 *  Return values: NONE
 */
void page_table_init(
  rtems_configuration_table *config_table
)
{
  unsigned char j1;               /* State of J1 jumpers */
  register unsigned long dtt0;    /* Content of dtt0 */
  register unsigned long cacr;    /* Content of cacr */
 
  /*
   *  Logical base addr = 0x00    map starting at 0x00000000
   *  Logical address mask = 0x7F map up to 0x7FFFFFFF
   *  E = 0b1                     enable address translation
   *  S-Field = 0b1X              ignore FC2 when matching
   *  U1, U0 = 0b00               user page attributes not used
   *  CM = 0b01                   cachable, copyback
   *  W = 0b0                     read/write access allowed
   */
  dtt0 = 0x007FC020;
 
  cacr = 0x80008000;              /* Data and instruction cache on */
 
  /* Read the J1 header */
  j1 = (unsigned char)(lcsr->vector_base & 0xFF);
 
  if ( j1 & 0x80 )
    /* Jumper J1-7 if off, disable data caching */
    cacr &= 0x7FFFFFFF;
 
  if ( j1 & 0x40 )
    /* Jumper J1-6 if off, disable instruction caching */
    cacr &= 0xFFFF7FFF;
 
  if ( j1 & 0x20 )
    /* Jumper J1-5 is off, enable writethrough caching */
    dtt0 &= 0xFFFFFF9F;
 
  /* do it ! */
  asm volatile("movec %0, %%tc    /* turn off paged address translation */
                movec %0, %%cacr  /* disable both caches */
                cinva %%bc        /* clear both caches */
                movec %1,%%dtt0   /* block address translation on */
                movec %1,%%itt0
                movec %2,%%dtt1
                movec %2,%%itt1
                movec %3,%%cacr"  /* data cache on */
	  :: "d" (0), "d" (dtt0), "d" (0xFF00C040), "d" (cacr));
}
 
 
/*
 *  page_table_teardown
 *
 *  Turn off paging. Turn off the cache. Flush the cache. Tear down
 *  the transparent translations.
 *
 *  Input parameters: NONE
 *
 *  Output parameters: NONE
 *
 *  Return values: NONE
 */
void page_table_teardown( void )
{
  asm volatile ("movec %0,%%tc
                 movec %0,%%cacr
                 cpusha %%bc
                 movec %0,%%dtt0
                 movec %0,%%itt0
                 movec %0,%%dtt1
                 movec %0,%%itt1"
    :: "d" (0) );
}
 

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