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[/] [openrisc/] [trunk/] [rtos/] [rtems/] [c/] [src/] [lib/] [libbsp/] [powerpc/] [helas403/] [flashentry/] [flashentry.S] - Rev 173
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/* flashentry.s
*
* This file contains the entry code for RTEMS programs starting
* directly from Flash.
*
* Author: Thomas Doerfler <td@imd.m.isar.de>
* IMD Ingenieurbuero fuer Microcomputertechnik
*
* COPYRIGHT (c) 1998 by IMD
*
* Changes from IMD are covered by the original distributions terms.
* This file has been derived from the papyrus BSP:
*
* This file contains the entry veneer for RTEMS programs
* stored in Papyrus' flash ROM.
*
* Author: Andrew Bray <andy@i-cubed.co.uk>
*
* COPYRIGHT (c) 1995 by i-cubed ltd.
*
* To anyone who acknowledges that this file is provided "AS IS"
* without any express or implied warranty:
* permission to use, copy, modify, and distribute this file
* for any purpose is hereby granted without fee, provided that
* the above copyright notice and this notice appears in all
* copies, and that the name of i-cubed limited not be used in
* advertising or publicity pertaining to distribution of the
* software without specific, written prior permission.
* i-cubed limited makes no representations about the suitability
* of this software for any purpose.
*
* $Id: flashentry.S,v 1.2 2001-09-27 12:00:36 chris Exp $
*/
#include "asm.h"
#include <rtems/score/ppc.h>
/*----------------------------------------------------------------------------
* Reset_entry.
*---------------------------------------------------------------------------*/
#if PPC_ASM == PPC_ASM_ELF
.section .reset,"ax",@progbits
/* this section MUST be located at absolute address 0xFFFFFFFC
or last word of EPROM */
#else
.csect .text[PR]
#endif
ba flash_entry /* this is the first instruction after reset */
.previous
/*----------------------------------------------------------------------------
* ROM Vector area.
*---------------------------------------------------------------------------*/
#if PPC_ASM == PPC_ASM_ELF
.section .entry,"ax",@progbits
#else
.csect .text[PR]
#endif
PUBLIC_VAR (flash_entry)
SYM (flash_entry):
bl .startup /* call startup, link reg points to base_addr */
base_addr:
/*----------------------------------------------------------------------------
* Parameters from linker
*---------------------------------------------------------------------------*/
toc_pointer:
#if PPC_ASM == PPC_ASM_ELF
.long s.got
#else
.long TOC[tc0]
#endif
text_length:
.long text.size
text_addr:
.long text.start
copy_src:
.long copy.src
copy_length:
.long copy.size
copy_dest:
.long copy.dest
bss_length:
.long bss.size
bss_addr:
.long bss.start
stack_top:
.long stack.end
/*----------------------------------------------------------------------------
* from Reset_entry.
*---------------------------------------------------------------------------*/
.startup:
/* Get start address, r1 points to label base_addr */
mflr r1
/* Set up Bank regs, cache etc. */
/* set up bank register BR0 for Flash-EPROM:
* NOTE: bank size should stay 1MByte, this is standard size
* after RESET
* base addr = Fffxxxxx -> 0b11111111........................
* bank size = 1 MByte -> 0b........000..................... (std)
* bank use = readonly -> 0b...........01...................
* seq. fill = targ frst-> 0b.............0..................
* burst mode= enable -> 0b..............1.................
* bus width = 8 bit -> 0b...............00...............
* ready pin = disable -> 0b.................0..............
* first wait= 2 clocks -> 0b..................0010..........
* burst wait= 2 clocks -> 0b......................10........
* CSon time = 0 clocks -> 0b........................0.......
* OEon time = 0 clocks -> 0b.........................0......
* WBon time = 1 clocks -> 0b..........................1.....
* WBoff time= 0 clocks -> 0b...........................0....
* Hold time = 1 clocks -> 0b............................001.
* ram type = SRAM(ign)-> 0b...............................1
* value 0b11111111000010100000101000100011
* 0x F F 0 A 0 A 2 3
*/
lis r2,0xFF0A
ori r2,r2,0x0A23
mtdcr br0,r2 /* write to DCR BR0 */
/*--------------------------------------------------------------------
* test various RAM configurations (from big to small per bank)
*------------------------------------------------------------------*/
/*--------------------------------------------------------------------
* test RAM config 16 MByte (1x4Mx32Bit)
*------------------------------------------------------------------*/
/* set up bank register BR7 for DRAM:
* base addr = 000xxxxx -> 0b00000000........................
* bank size = 16MByte -> 0b........100.....................
* bank use = readwrite-> 0b...........11...................
* seq. fill = targ.frst-> 0b.............0..................
* early RAS = disabled -> 0b..............0.................
* bus width = 32bit -> 0b...............10...............
* adr mux = internal -> 0b.................0..............
* RAS to CAS= 2 clocks -> 0b..................1.............
* Alt. Rfrsh= normal -> 0b...................0............
* page mode = enabled -> 0b....................1...........
* first wait= 1 clocks -> 0b.....................01.........
* burst wait= 1 clocks -> 0b.......................01.......
* precharge = 1 clocks -> 0b.........................0......
* RAS Rfrsh = 2 clocks -> 0b..........................1.....
* Rfrsh Itvl= 512 clks -> 0b...........................1000.
* ram type = DRAM -> 0b...............................0
* value 0b00000000100110010010101010110000
* 0x 0 0 9 9 2 A B 0
*/
lis r2,0x0099
ori r2,r2,0x2AB0
mtdcr br7,r2 /* write to DCR BR7*/
lis r2,0x0000 /* start address = 0x00000000 */
lis r3,0x0100 /* size 16 MB = 0x01000000 */
bl ramacc /* test memory accessibility */
cmpi 0,0,r4,0 /* memory ok? else test smaller size */
bne ramcfgt18
/*--------------------------------------------------------------------
* test RAM config 32 MByte (2x4Mx32Bit)
*------------------------------------------------------------------*/
/* set up bank register BR7 like above
* set up bank register BR6 for DRAM:
* base addr = 010xxxxx -> 0b00010000........................
* bank size = 16MByte -> 0b........100..................... (for now)
* bank use = readwrite-> 0b...........11...................
* seq. fill = targ.frst-> 0b.............0..................
* early RAS = disabled -> 0b..............0.................
* bus width = 32bit -> 0b...............10...............
* adr mux = internal -> 0b.................0..............
* RAS to CAS= 2 clocks -> 0b..................1.............
* Alt. Rfrsh= normal -> 0b...................0............
* page mode = enabled -> 0b....................1...........
* first wait= 1 clocks -> 0b.....................01.........
* burst wait= 1 clocks -> 0b.......................01.......
* precharge = 1 clocks -> 0b.........................0......
* RAS Rfrsh = 2 clocks -> 0b..........................1.....
* Rfrsh Itvl= 512 clks -> 0b...........................1000.
* ram type = DRAM -> 0b...............................0
* value 0b00010000100110010010101010110000
* 0x 1 0 9 9 2 A B 0
*/
lis r2,0x1099
ori r2,r2,0x2AB0
mtdcr br6,r2 /* write to DCR BR6*/
lis r2,0x0100 /* start address = 0x01000000 */
lis r3,0x0100 /* size 16 MB = 0x01000000 */
bl ramacc /* test memory accessibility */
cmpi 0,0,r4,0 /* memory ok? else test smaller size */
beq ramcfgok /* ok, we found configuration... +/
lis r2,0x0000 /* disable BR6, config not ok */
mtdcr br6,r2 /* write to DCR BR6*/
b ramcfgok /* and finish configuration */
ramcfgt18:
/*--------------------------------------------------------------------
* test RAM config 8 MByte (1x2Mx32Bit)
*------------------------------------------------------------------*/
/* set up bank register BR7 for DRAM:
* base addr = 000xxxxx -> 0b00000000........................
* bank size = 8MByte -> 0b........011.....................
* bank use = readwrite-> 0b...........11...................
* seq. fill = targ.frst-> 0b.............0..................
* early RAS = disabled -> 0b..............0.................
* bus width = 32bit -> 0b...............10...............
* adr mux = internal -> 0b.................0..............
* RAS to CAS= 2 clocks -> 0b..................1.............
* Alt. Rfrsh= normal -> 0b...................0............
* page mode = enabled -> 0b....................1...........
* first wait= 1 clocks -> 0b.....................01.........
* burst wait= 1 clocks -> 0b.......................01.......
* precharge = 1 clocks -> 0b.........................0......
* RAS Rfrsh = 2 clocks -> 0b..........................1.....
* Rfrsh Itvl= 512 clks -> 0b...........................1000.
* ram type = DRAM -> 0b...............................0
* value 0b00000000011110010010101010110000
* 0x 0 0 7 9 2 A B 0
*/
lis r2,0x0079
ori r2,r2,0x2AB0
mtdcr br7,r2 /* write to DCR BR7 */
lis r2,0x0000 /* start address = 0x00000000 */
lis r3,0x0080 /* size 8 MB = 0x00800000 */
bl ramacc /* test memory accessibility */
cmpi 0,0,r4,0 /* memory ok? else test smaller size */
bne ramcfgt14
/*--------------------------------------------------------------------
* test RAM config 16 MByte (2x2Mx32Bit)
*------------------------------------------------------------------*/
/* set up bank register BR7 like above
* set up bank register BR6 for DRAM:
* base addr = 008xxxxx -> 0b00001000........................
* bank size = 08MByte -> 0b........011..................... (for now)
* bank use = readwrite-> 0b...........11...................
* seq. fill = targ.frst-> 0b.............0..................
* early RAS = disabled -> 0b..............0.................
* bus width = 32bit -> 0b...............10...............
* adr mux = internal -> 0b.................0..............
* RAS to CAS= 2 clocks -> 0b..................1.............
* Alt. Rfrsh= normal -> 0b...................0............
* page mode = enabled -> 0b....................1...........
* first wait= 1 clocks -> 0b.....................01.........
* burst wait= 1 clocks -> 0b.......................01.......
* precharge = 1 clocks -> 0b.........................0......
* RAS Rfrsh = 2 clocks -> 0b..........................1.....
* Rfrsh Itvl= 512 clks -> 0b...........................1000.
* ram type = DRAM -> 0b...............................0
* value 0b00001000011110010010101010110000
* 0x 0 8 7 9 2 A B 0
*/
lis r2,0x0879
ori r2,r2,0x2AB0
mtdcr br6,r2 /* write to DCR BR6*/
lis r2,0x0080 /* start address = 0x00800000 */
lis r3,0x0080 /* size 8 MB = 0x00800000 */
bl ramacc /* test memory accessibility */
cmpi 0,0,r4,0 /* memory ok? else test smaller size */
beq ramcfgok /* ok, we found configuration... +/
lis r2,0x0000 /* disable BR6, config not ok */
mtdcr br6,r2 /* write to DCR BR6*/
b ramcfgok /* and finish configuration */
ramcfgt14:
/*--------------------------------------------------------------------
* test RAM config 4 MByte (1x1Mx32Bit)
*------------------------------------------------------------------*/
/* set up bank register BR7 for DRAM:
* base addr = 000xxxxx -> 0b00000000........................
* bank size = 4MByte -> 0b........010.....................
* bank use = readwrite-> 0b...........11...................
* seq. fill = targ.frst-> 0b.............0..................
* early RAS = disabled -> 0b..............0.................
* bus width = 32bit -> 0b...............10...............
* adr mux = internal -> 0b.................0..............
* RAS to CAS= 2 clocks -> 0b..................1.............
* Alt. Rfrsh= normal -> 0b...................0............
* page mode = enabled -> 0b....................1...........
* first wait= 1 clocks -> 0b.....................01.........
* burst wait= 1 clocks -> 0b.......................01.......
* precharge = 1 clocks -> 0b.........................0......
* RAS Rfrsh = 2 clocks -> 0b..........................1.....
* Rfrsh Itvl= 512 clks -> 0b...........................1000.
* ram type = DRAM -> 0b...............................0
* value 0b00000000010110010010101010110000
* 0x 0 0 5 9 2 A B 0
*/
/*
* FIXME: this is the minimum size supported, should test and
* report error, when failed
*/
lis r2,0x0059
ori r2,r2,0x2AB0
mtdcr br7,r2 /* write to DCR BR7*/
/*--------------------------------------------------------------------
* test RAM config 8 MByte (2x1Mx32Bit)
*------------------------------------------------------------------*/
/* set up bank register BR7 like above
* set up bank register BR6 for DRAM:
* base addr = 004xxxxx -> 0b00000100........................
* bank size = 4MByte -> 0b........010..................... (for now)
* bank use = readwrite-> 0b...........11...................
* seq. fill = targ.frst-> 0b.............0..................
* early RAS = disabled -> 0b..............0.................
* bus width = 32bit -> 0b...............10...............
* adr mux = internal -> 0b.................0..............
* RAS to CAS= 2 clocks -> 0b..................1.............
* Alt. Rfrsh= normal -> 0b...................0............
* page mode = enabled -> 0b....................1...........
* first wait= 1 clocks -> 0b.....................01.........
* burst wait= 1 clocks -> 0b.......................01.......
* precharge = 1 clocks -> 0b.........................0......
* RAS Rfrsh = 2 clocks -> 0b..........................1.....
* Rfrsh Itvl= 512 clks -> 0b...........................1000.
* ram type = DRAM -> 0b...............................0
* value 0b00000100010110010010101010110000
* 0x 0 4 5 9 2 A B 0
*/
lis r2,0x0459
ori r2,r2,0x2AB0
mtdcr br6,r2 /* write to DCR BR6*/
lis r2,0x0040 /* start address = 0x00400000 */
lis r3,0x0040 /* size 4 MB = 0x00400000 */
bl ramacc /* test memory accessibility */
cmpi 0,0,r4,0 /* memory ok? else test smaller size */
beq ramcfgok /* ok, we found configuration... +/
lis r2,0x0000 /* disable BR6, config not ok */
mtdcr br6,r2 /* write to DCR BR6*/
b ramcfgok /* and finish configuration */
ramcfgok:
/*--------------------------------------------------------------------
* init the DRAM where STACK+ DATA+ BBS will be placed. If this is OK
* we will return here.
*-------------------------------------------------------------------*/
bl rom2ram
/* clear caches */
addi r2,0,PPC_I_CACHE/PPC_CACHE_ALIGNMENT
mtctr r2 /* count the loops needed... */
xor r2,r2,r2 /* start at adr zero */
icinvlp:
iccci 0,r2
addi r2,r2,PPC_CACHE_ALIGNMENT
bdnz icinvlp
addi r2,r0,PPC_D_CACHE/PPC_CACHE_ALIGNMENT
mtctr r2 /* count the loops needed... */
xor r2,r2,r2 /* start at adr 0 */
dcinvlp:
dccci 0,r2
addi r2,r2,PPC_CACHE_ALIGNMENT
bdnz dcinvlp
/*--------------------------------------------------------------------
* Enable two 128MB cachable regions.
* FEPROM is cachable at 0xFFF00000..0xFFFFFFFF
* DRAM is cachable at 0x00000000..0x00FFFFFF
* FEPROM is noncachable at 0x7FF00000..0x7FFFFFFF
* DRAM is noncachable at 0x80000000..0x80FFFFFF
*-------------------------------------------------------------------*/
addis r2,r0,0x8000
addi r2,r2,0x0001
mtspr iccr, r2 /* ICCR */
mtspr dccr, r2 /* DCCR */
.extern SYM(__vectors)
lis r2,__vectors@h /* set EVPR exc. vector prefix */
mtspr evpr,r2
lis r2,0x0000
ori r2,r2,0x0000
mtmsr r2 /* set default msr */
lis r2,0x0000 /* do not allow critical IRQ */
ori r2,r2,0x0000
mtdcr exier, r2 /* disable all external IRQs */
addi r2,r0,-1 /* r2 = 0xffffffff */
mtdcr exisr, r2 /* clear all pendingdisable IRQs */
/*--------------------------------------------------------------------
* C_setup.
*-------------------------------------------------------------------*/
lwz r2,toc_pointer-base_addr(r1) /* set r2 to toc */
lwz r1,stack_top-base_addr(r1) /* set r1 to stack_top */
addi r1,r1,-56 /* start stack at data_addr - 56 */
addi r3,r0,0x0 /* clear r3 */
stw r3, 0(r1) /* Clear stack chain */
stw r3, 4(r1)
stw r3, 8(r1)
stw r3, 12(r1)
.extern SYM (boot_card)
b SYM (boot_card) /* call the first C routine */
/*----------------------------------------------------------------------------
* Rom2ram.
*---------------------------------------------------------------------------*/
rom2ram:
lwz r2,copy_dest-base_addr(r1) /* start of data set by loader */
lwz r3,copy_length-base_addr(r1) /* data length */
rlwinm r3,r3,30,0x3FFFFFFF /* form length/4 */
mtctr r3 /* set ctr reg */
/*--------------------------------------------------------------------
* Calculate offset of data in image.
*-------------------------------------------------------------------*/
lwz r4,copy_src-base_addr(r1) /* get start of copy area */
move_data:
lswi r6,r4,0x4 /* load r6 */
stswi r6,r2,0x4 /* store r6 */
addi r4,r4,0x4 /* update r4 */
addi r2,r2,0x4 /* update r2 */
bdnz move_data /* decrement counter and loop */
/*--------------------------------------------------------------------
* Data move finished, zero out bss.
*-------------------------------------------------------------------*/
lwz r2,bss_addr-base_addr(r1) /* start of bss set by loader */
lwz r3,bss_length-base_addr(r1) /* bss length */
rlwinm. r3,r3,30,0x3FFFFFFF /* form length/4 */
beqlr /* no bss */
mtctr r3 /* set ctr reg */
xor r6,r6,r6 /* r6 = 0 */
clear_bss:
stswi r6,r2,0x4 /* store r6 */
addi r2,r2,0x4 /* update r2 */
bdnz clear_bss /* decrement counter and loop */
blr /* return */
/*----------------------------------------------------------------------------
* ramacc test accessibility of RAM
* input: r2 = start address, r3 = length (in byte)
* output: r4 = 0 -> ok, !=0 -> fail
*---------------------------------------------------------------------------*/
ramacc:
xor r4,r4,r4 /* r4 = 0 */
stw r4,0(r2) /* init ram at start address */
addi r4,r0,0x04 /* set start shift */
ramaccf1:
cmp 0,0,r4,r3 /* compare with length */
bge ramaccfx /* r4 >= r3? then finished */
add r5,r4,r2 /* get next address to fill */
stw r4,0(r5) /* store new pattern */
add r4,r4,r4 /* r4 = r4*2 */
b ramaccf1 /* and then next loop */
ramaccfx:
lwz r4,0(r2) /* get memory at start adr */
blr
#if PPC_ABI == PPC_ABI_POWEROPEN
DESCRIPTOR (startup)
#endif