u-boot/board/eltec/bab7xx/asm_init.S

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2002-11-03 00:24:07 +00:00
/*
* (C) Copyright 2001 ELTEC Elektronik AG
* Frank Gottschling <fgottschling@eltec.de>
*
* ELTEC BAB PPC RAM initialization
*
* See file CREDITS for list of people who contributed to this
* project.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of
* the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston,
* MA 02111-1307 USA
*/
#include <config.h>
#include <asm/processor.h>
#include <74xx_7xx.h>
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#include <mpc106.h>
#include <version.h>
#include <ppc_asm.tmpl>
#include <ppc_defs.h>
/*
* This following contains the entry code for the initialization code
* for the MPC 106, a PCI Bridge/Memory Controller.
* Register usage:
* r0 = ramtest scratch register, toggleError loop counter
* r1 = 0xfec0 0cf8 CONFIG_ADDRESS
* r2 = 0xfee0 0cfc CONFIG_DATA
* r3 = scratch register, subroutine argument and return value, ramtest size
* r4 = scratch register, spdRead clock mask, OutHex loop count
* r5 = ramtest scratch register
* r6 = toggleError 1st value, spdRead port mask
* r7 = toggleError 2nd value, ramtest scratch register,
* spdRead scratch register (0x00)
* r8 = ramtest scratch register, spdRead scratch register (0x80)
* r9 = ramtest scratch register, toggleError loop end, OutHex digit
* r10 = ramtest scratch register, spdWriteByte parameter,
* spdReadByte return value, printf pointer to COM1
* r11 = startType
* r12 = ramtest scratch register, spdRead data mask
* r13 = pointer to message block
* r14 = pointer to GOT
* r15 = scratch register, SPD save
* r16 = bank0 size, total memory size
* r17 = bank1 size
* r18 = bank2 size
* r19 = bank3 size
* r20 = MCCR1, MSAR1
* r21 = MCCR3, MEAR1
* r22 = MCCR4, MBER
* r23 = EMSAR1
* r24 = EMEAR1
* r25 = save link register 1st level
* r26 = save link register 2nd level
* r27 = save link register 3rd level
* r30 = pointer to GPIO for spdRead
*/
.globl board_asm_init
board_asm_init:
/*
* setup pointer to message block
*/
mflr r25 /* save away link register */
bl get_lnk_reg /* r3=addr of next instruction */
subi r4, r3, 8 /* r4=board_asm_init addr */
addi r13, r4, (MessageBlock-board_asm_init)
/*
* dcache_disable
*/
mfspr r3, HID0
li r4, HID0_DCE
andc r3, r3, r4
mr r2, r3
ori r3, r3, HID0_DCI
sync
mtspr HID0, r3
mtspr HID0, r2
isync
sync
/*
* icache_disable
*/
mfspr r3, HID0
li r4, 0
ori r4, r4, HID0_ICE
andc r3, r3, r4
sync
mtspr HID0, r3
/*
* invalidate caches
*/
ori r3, r3, (HID0_ICE | HID0_ICFI | HID0_DCI | HID0_DCE)
or r4, r4, r3
isync
mtspr HID0, r4
andc r4, r4, r3
isync
mtspr HID0, r4
isync
/*
* icache_enable
*/
mfspr r3, HID0
ori r3, r3, (HID0_ICE | HID0_ICFI)
sync
mtspr HID0, r3
lis r1, 0xfec0
ori r1, r1, 0x0cf8
lis r2, 0xfee0
ori r2, r2, 0xcfc
#ifdef CFG_ADDRESS_MAP_A
/*
* Switch to address map A if necessary.
*/
lis r3, MPC106_REG@h
ori r3, r3, PCI_PICR1
stwbrx r3, 0, r1
sync
lwbrx r4, 0, r2
sync
lis r0, PICR1_XIO_MODE@h
ori r0, r0, PICR1_XIO_MODE@l
andc r4, r4, r0
lis r0, PICR1_ADDRESS_MAP@h
ori r0, r0, PICR1_ADDRESS_MAP@l
or r4, r4, r0
stwbrx r4, 0, r2
sync
#endif
/*
* Do the init for the SIO.
*/
bl .sioInit
addi r3, r13, (MinitLogo-MessageBlock)
bl Printf
addi r3, r13, (Mspd01-MessageBlock)
bl Printf
/*
* Memory cofiguration using SPD information stored on the SODIMMs
*/
li r17, 0
li r18, 0
li r19, 0
li r3, 0x0002 /* get RAM type from spd for bank0/1 */
bl spdRead
cmpi 0, 0, r3, -1 /* error ? */
bne noSpdError
addi r3, r13, (Mfail-MessageBlock)
bl Printf
li r6, 0xe0 /* error codes in r6 and r7 */
li r7, 0x00
b toggleError /* fail - loop forever */
noSpdError:
mr r15, r3 /* save r3 */
addi r3, r13, (Mok-MessageBlock)
bl Printf
cmpli 0, 0, r15, 0x0001 /* FPM ? */
beq configFPM
cmpli 0, 0, r15, 0x0002 /* EDO ? */
beq configEDO
cmpli 0, 0, r15, 0x0004 /* SDRAM ? */
beq configSDRAM
li r6, 0xe0 /* error codes in r6 and r7 */
li r7, 0x01
b toggleError /* fail - loop forever */
configSDRAM:
addi r3, r13, (MsdRam-MessageBlock)
bl Printf
/*
* set the Memory Configuration Reg. 1
*/
li r3, 0x001f /* get bank size from spd bank0/1 */
bl spdRead
andi. r3, r3, 0x0038
beq SD16MB2B
li r3, 0x0011 /* get number of internal banks */
/* from spd for bank0/1 */
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bl spdRead
cmpli 0, 0, r3, 0x02
beq SD64MB2B
cmpli 0, 0, r3, 0x04
beq SD64MB4B
li r6, 0xe0 /* error codes in r6 and r7 */
li r7, 0x02
b toggleError /* fail - loop forever */
SD64MB2B:
li r20, 0x0005 /* 64-Mbit SDRAM 2 banks */
b SDRow2nd
SD64MB4B:
li r20, 0x0000 /* 64-Mbit SDRAM 4 banks */
b SDRow2nd
SD16MB2B:
li r20, 0x000f /* 16-Mbit SDRAM 2 banks */
SDRow2nd:
li r3, 0x0102 /* get RAM type spd for bank2/3 */
bl spdRead
cmpli 0, 0, r3, 0x0004
bne S2D64MB4B /* bank2/3 isn't present or no SDRAM */
li r3, 0x011f /* get bank size from spd bank2/3 */
bl spdRead
andi. r3, r3, 0x0038
beq S2D16MB2B
/*
* set the Memory Configuration Reg. 2
*/
li r3, 0x0111 /* get number of internal banks */
/* from spd for bank2/3 */
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bl spdRead
cmpli 0, 0, r3, 0x02
beq S2D64MB2B
cmpli 0, 0, r3, 0x04
beq S2D64MB4B
li r6, 0xe0 /* error codes in r6 and r7 */
li r7, 0x03
b toggleError /* fail - loop forever */
S2D64MB2B:
ori r20, r20, 0x0050 /* 64-Mbit SDRAM 2 banks */
b S2D64MB4B
S2D16MB2B:
ori r20, r20, 0x00f0 /* 16-Mbit SDRAM 2 banks */
/*
* set the Memory Configuration Reg. 3
*/
S2D64MB4B:
lis r21, 0x8630 /* BSTOPRE = 0x80, REFREC = 6, */
/* RDLAT = 3 */
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/*
* set the Memory Configuration Reg. 4
*/
lis r22, 0x2430 /* PRETOACT = 2, ACTOPRE = 4, */
/* WCBUF = 1, RCBUF = 1 */
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ori r22, r22, 0x2220 /* SDMODE = 0x022, ACTORW = 2 */
/*
* get the size of bank 0-3
*/
li r3, 0x001f /* get bank size from spd bank0/1 */
bl spdRead
rlwinm r16, r3, 2, 24, 29 /* calculate size in MByte */
/* (128 MB max.) */
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li r3, 0x0005 /* get number of banks from spd */
/* for bank0/1 */
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bl spdRead
cmpi 0, 0, r3, 2 /* 2 banks ? */
bne SDRAMnobank1
mr r17, r16
SDRAMnobank1:
addi r3, r13, (Mspd23-MessageBlock)
bl Printf
li r3, 0x0102 /* get RAM type spd for bank2/3 */
bl spdRead
cmpli 0, 0, r3, 0x0001 /* FPM ? */
bne noFPM23 /* handle as EDO */
addi r3, r13, (Mok-MessageBlock)
bl Printf
addi r3, r13, (MfpmRam-MessageBlock)
bl Printf
b configRAMcommon
noFPM23:
cmpli 0, 0, r3, 0x0002 /* EDO ? */
bne noEDO23
addi r3, r13, (Mok-MessageBlock)
bl Printf
addi r3, r13, (MedoRam-MessageBlock)
bl Printf
b configRAMcommon
noEDO23:
cmpli 0, 0, r3, 0x0004 /* SDRAM ? */
bne noSDRAM23
addi r3, r13, (Mok-MessageBlock)
bl Printf
addi r3, r13, (MsdRam-MessageBlock)
bl Printf
b configSDRAM23
noSDRAM23:
addi r3, r13, (Mna-MessageBlock)
bl Printf
b configRAMcommon /* bank2/3 isn't present or no SDRAM */
configSDRAM23:
li r3, 0x011f /* get bank size from spd bank2/3 */
bl spdRead
rlwinm r18, r3, 2, 24, 29 /* calculate size in MByte */
/* (128 MB max.) */
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li r3, 0x0105 /* get number of banks from */
/* spd bank0/1 */
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bl spdRead
cmpi 0, 0, r3, 2 /* 2 banks ? */
bne SDRAMnobank3
mr r19, r18
SDRAMnobank3:
b configRAMcommon
configFPM:
addi r3, r13, (MfpmRam-MessageBlock)
bl Printf
b configEDO0
/*
* set the Memory Configuration Reg. 1
*/
configEDO:
addi r3, r13, (MedoRam-MessageBlock)
bl Printf
configEDO0:
lis r20, MCCR1_TYPE_EDO@h
getSpdRowBank01:
li r3, 0x0003 /* get number of row bits from */
/* spd from bank0/1 */
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bl spdRead
ori r20, r20, (MCCR1_BK0_9BITS | MCCR1_BK1_9BITS)
cmpli 0, 0, r3, 0x0009 /* bank0 - 9 row bits */
beq getSpdRowBank23
ori r20, r20, (MCCR1_BK0_10BITS | MCCR1_BK1_10BITS)
cmpli 0, 0, r3, 0x000a /* bank0 - 10 row bits */
beq getSpdRowBank23
ori r20, r20, (MCCR1_BK0_11BITS | MCCR1_BK1_11BITS)
cmpli 0, 0, r3, 0x000b /* bank0 - 11 row bits */
beq getSpdRowBank23
ori r20, r20, (MCCR1_BK0_12BITS | MCCR1_BK1_12BITS)
cmpli 0, 0, r3, 0x000c /* bank0 - 12 row bits */
beq getSpdRowBank23
cmpli 0, 0, r3, 0x000d /* bank0 - 13 row bits */
beq getSpdRowBank23
li r6, 0xe0 /* error codes in r6 and r7 */
li r7, 0x10
b toggleError /* fail - loop forever */
getSpdRowBank23:
li r3, 0x0103 /* get number of row bits from */
/* spd for bank2/3 */
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bl spdRead
ori r20, r20, (MCCR1_BK2_9BITS | MCCR1_BK3_9BITS)
cmpli 0, 0, r3, 0x0009 /* bank0 - 9 row bits */
beq writeRowBits
ori r20, r20, (MCCR1_BK2_10BITS | MCCR1_BK3_10BITS)
cmpli 0, 0, r3, 0x000a /* bank0 - 10 row bits */
beq writeRowBits
ori r20, r20, (MCCR1_BK2_11BITS | MCCR1_BK3_11BITS)
cmpli 0, 0, r3, 0x000b /* bank0 - 11 row bits */
beq writeRowBits
ori r20, r20, (MCCR1_BK2_12BITS | MCCR1_BK3_12BITS)
/*
* set the Memory Configuration Reg. 3
*/
writeRowBits:
lis r21, 0x000a /* CPX = 1, RAS6P = 4 */
ori r21, r21, 0x2293 /* CAS5 = 2, CP4 = 1, */
/* CAS3 = 2, RCD2 = 2, RP = 3 */
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/*
* set the Memory Configuration Reg. 4
*/
lis r22, 0x0010 /* all SDRAM parameter 0, */
/* WCBUF flow through, */
/* RCBUF registered */
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/*
* get the size of bank 0-3
*/
li r3, 0x0003 /* get row bits from spd bank0/1 */
bl spdRead
li r16, 0 /* bank size is: */
/* (8*2^row*2^column)/0x100000 MB */
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ori r16, r16, 0x8000
rlwnm r16, r16, r3, 0, 31
li r3, 0x0004 /* get column bits from spd bank0/1 */
bl spdRead
rlwnm r16, r16, r3, 0, 31
li r3, 0x0005 /* get number of banks from */
/* spd for bank0/1 */
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bl spdRead
cmpi 0, 0, r3, 2 /* 2 banks ? */
bne EDOnobank1
mr r17, r16
EDOnobank1:
addi r3, r13, (Mspd23-MessageBlock)
bl Printf
li r3, 0x0102 /* get RAM type spd for bank2/3 */
bl spdRead
cmpli 0, 0, r3, 0x0001 /* FPM ? */
bne noFPM231 /* handle as EDO */
addi r3, r13, (Mok-MessageBlock)
bl Printf
addi r3, r13, (MfpmRam-MessageBlock)
bl Printf
b EDObank2
noFPM231:
cmpli 0, 0, r3, 0x0002 /* EDO ? */
bne noEDO231
addi r3, r13, (Mok-MessageBlock)
bl Printf
addi r3, r13, (MedoRam-MessageBlock)
bl Printf
b EDObank2
noEDO231:
cmpli 0, 0, r3, 0x0004 /* SDRAM ? */
bne noSDRAM231
addi r3, r13, (Mok-MessageBlock)
bl Printf
addi r3, r13, (MsdRam-MessageBlock)
bl Printf
b configRAMcommon
noSDRAM231:
addi r3, r13, (Mfail-MessageBlock)
bl Printf
b configRAMcommon /* bank2/3 isn't present or no SDRAM */
EDObank2:
li r3, 0x0103 /* get row bits from spd for bank2/3 */
bl spdRead
li r18, 0 /* bank size is: */
/* (8*2^row*2^column)/0x100000 MB */
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ori r18, r18, 0x8000
rlwnm r18, r18, r3, 0, 31
li r3, 0x0104 /* get column bits from spd bank2/3 */
bl spdRead
rlwnm r18, r18, r3, 0, 31
li r3, 0x0105 /* get number of banks from */
/* spd for bank2/3 */
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bl spdRead
cmpi 0, 0, r3, 2 /* 2 banks ? */
bne configRAMcommon
mr r19, r18
configRAMcommon:
lis r1, MPC106_REG_ADDR@h
ori r1, r1, MPC106_REG_ADDR@l
lis r2, MPC106_REG_DATA@h
ori r2, r2, MPC106_REG_DATA@l
li r0, 0
/*
* If we are already running in RAM (debug mode), we should
* NOT reset the MEMGO flag. Otherwise we will stop all memory
* accesses.
*/
#ifdef IN_RAM
lis r4, MCCR1_MEMGO@h
ori r4, r4, MCCR1_MEMGO@l
or r20, r20, r4
#endif
/*
* set the Memory Configuration Reg. 1
*/
lis r3, MPC106_REG@h /* start building new reg number */
ori r3, r3, MPC106_MCCR1 /* register number 0xf0 */
stwbrx r3, r0, r1 /* write this value to CONFIG_ADDR */
eieio /* make sure mem. access is complete */
stwbrx r20, r0, r2 /* write data to CONFIG_DATA */
/*
* set the Memory Configuration Reg. 3
*/
lis r3, MPC106_REG@h /* start building new reg number */
ori r3, r3, MPC106_MCCR3 /* register number 0xf8 */
stwbrx r3, r0, r1 /* write this value to CONFIG_ADDR */
eieio /* make sure mem. access is complete */
stwbrx r21, r0, r2 /* write data to CONFIG_DATA */
/*
* set the Memory Configuration Reg. 4
*/
lis r3, MPC106_REG@h /* start building new reg number */
ori r3, r3, MPC106_MCCR4 /* register number 0xfc */
stwbrx r3, r0, r1 /* write this value to CONFIG_ADDR */
eieio /* make sure mem. access is complete */
stwbrx r22, r0, r2 /* write data to CONFIG_DATA */
/*
* set the memory boundary registers for bank 0-3
*/
li r20, 0
li r23, 0
li r24, 0
subi r21, r16, 1 /* calculate end address bank0 */
li r22, (MBER_BANK0)
cmpi 0, 0, r17, 0 /* bank1 present ? */
beq nobank1
rlwinm r3, r16, 8, 16, 23 /* calculate start address of bank1 */
or r20, r20, r3
add r16, r16, r17 /* add to total memory size */
subi r3, r16, 1 /* calculate end address of bank1 */
rlwinm r3, r3, 8, 16, 23
or r21, r21, r3
ori r22, r22, (MBER_BANK1) /* enable bank1 */
b bank2
nobank1:
ori r23, r23, 0x0300 /* set bank1 start to unused area */
ori r24, r24, 0x0300 /* set bank1 end to unused area */
bank2:
cmpi 0, 0, r18, 0 /* bank2 present ? */
beq nobank2
andi. r3, r16, 0x00ff /* calculate start address of bank2 */
andi. r4, r16, 0x0300
rlwinm r3, r3, 16, 8, 15
or r20, r20, r3
rlwinm r3, r4, 8, 8, 15
or r23, r23, r3
add r16, r16, r18 /* add to total memory size */
subi r3, r16, 1 /* calculate end address of bank2 */
andi. r4, r3, 0x0300
andi. r3, r3, 0x00ff
rlwinm r3, r3, 16, 8, 15
or r21, r21, r3
rlwinm r3, r4, 8, 8, 15
or r24, r24, r3
ori r22, r22, (MBER_BANK2) /* enable bank2 */
b bank3
nobank2:
lis r3, 0x0003
or r23, r23, r3 /* set bank2 start to unused area */
or r24, r24, r3 /* set bank2 end to unused area */
bank3:
cmpi 0, 0, r19, 0 /* bank3 present ? */
beq nobank3
andi. r3, r16, 0x00ff /* calculate start address of bank3 */
andi. r4, r16, 0x0300
rlwinm r3, r3, 24, 0, 7
or r20, r20, r3
rlwinm r3, r4, 16, 0, 7
or r23, r23, r3
add r16, r16, r19 /* add to total memory size */
subi r3, r16, 1 /* calculate end address of bank3 */
andi. r4, r3, 0x0300
andi. r3, r3, 0x00ff
rlwinm r3, r3, 24, 0, 7
or r21, r21, r3
rlwinm r3, r4, 16, 0, 7
or r24, r24, r3
ori r22, r22, (MBER_BANK3) /* enable bank3 */
b writebound
nobank3:
lis r3, 0x0300
or r23, r23, r3 /* set bank3 start to unused area */
or r24, r24, r3 /* set bank3 end to unused area */
writebound:
lis r3, MPC106_REG@h /* start building new reg number */
ori r3, r3, MPC106_MSAR1 /* register number 0x80 */
stwbrx r3, r0, r1 /* write this value to CONFIG_ADDR */
eieio /* make sure mem. access is complete */
stwbrx r20, r0, r2 /* write data to CONFIG_DATA */
lis r3, MPC106_REG@h /* start building new reg number */
ori r3, r3, MPC106_MEAR1 /* register number 0x90 */
stwbrx r3, r0, r1 /* write this value to CONFIG_ADDR */
eieio /* make sure mem. access is complete */
stwbrx r21, r0, r2 /* write data to CONFIG_DATA */
lis r3, MPC106_REG@h /* start building new reg number */
ori r3, r3, MPC106_EMSAR1 /* register number 0x88 */
stwbrx r3, r0, r1 /* write this value to CONFIG_ADDR */
eieio /* make sure mem. access is complete */
stwbrx r23, r0, r2 /* write data to CONFIG_DATA */
lis r3, MPC106_REG@h /* start building new reg number */
ori r3, r3, MPC106_EMEAR1 /* register number 0x98 */
stwbrx r3, r0, r1 /* write this value to CONFIG_ADDR */
eieio /* make sure mem. access is complete */
stwbrx r24, r0, r2 /* write data to CONFIG_DATA */
/*
* set boundaries of unused banks to unused address space
*/
lis r4, 0x0303
ori r4, r4, 0x0303 /* bank 4-7 start and end adresses */
lis r3, MPC106_REG@h /* start building new reg number */
ori r3, r3, MPC106_EMSAR2 /* register number 0x8C */
stwbrx r3, r0, r1 /* write this value to CONFIG_ADDR */
eieio /* make sure mem. access is complete */
stwbrx r4, r0, r2 /* write data to CONFIG_DATA */
lis r3, MPC106_REG@h /* start building new reg number */
ori r3, r3, MPC106_EMEAR2 /* register number 0x9C */
stwbrx r3, r0, r1 /* write this value to CONFIG_ADDR */
eieio /* make sure mem. access is complete */
stwbrx r4, r0, r2 /* write data to CONFIG_DATA */
/*
* set the Memory Configuration Reg. 2
*/
lis r3, MPC106_REG@h /* start building new reg number */
ori r3, r3, MPC106_MCCR2 /* register number 0xf4 */
stwbrx r3, r0, r1 /* write this value to CONFIG_ADDR */
eieio /* make sure mem. access is complete */
li r3, 0x000c /* get refresh from spd for bank0/1 */
bl spdRead
cmpi 0, 0, r3, -1 /* error ? */
bne common1
li r6, 0xe0 /* error codes in r6 and r7 */
li r7, 0x20
b toggleError /* fail - loop forever */
common1:
andi. r15, r3, 0x007f /* mask selfrefresh bit */
li r3, 0x010c /* get refresh from spd for bank2/3 */
bl spdRead
cmpi 0, 0, r3, -1 /* error ? */
beq common2
andi. r3, r3, 0x007f /* mask selfrefresh bit */
cmp 0, 0, r3, r15 /* find the lower */
blt common3
common2:
mr r3, r15
common3:
li r4, 0x1010 /* refesh cycle 1028 clocks */
/* left shifted 2 */
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cmpli 0, 0, r3, 0x0000 /* 15.6 us ? */
beq writeRefresh
li r4, 0x0808 /* refesh cycle 514 clocks */
/* left shifted 2 */
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cmpli 0, 0, r3, 0x0002 /* 7.8 us ? */
beq writeRefresh
li r4, 0x2020 /* refesh cycle 2056 clocks */
/* left shifted 2 */
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cmpli 0, 0, r3, 0x0003 /* 31.3 us ? */
beq writeRefresh
li r4, 0x4040 /* refesh cycle 4112 clocks */
/* left shifted 2 */
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cmpli 0, 0, r3, 0x0004 /* 62.5 us ? */
beq writeRefresh
li r4, 0
ori r4, r4, 0x8080 /* refesh cycle 8224 clocks */
/* left shifted 2 */
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cmpli 0, 0, r3, 0x0005 /* 125 us ? */
beq writeRefresh
li r6, 0xe0 /* error codes in r6 and r7 */
li r7, 0x21
b toggleError /* fail - loop forever */
writeRefresh:
stwbrx r4, r0, r2 /* write data to CONFIG_DATA */
/*
* DRAM BANKS SHOULD BE ENABLED
*/
addi r3, r13, (Mactivate-MessageBlock)
bl Printf
mr r3, r16
bl OutDec
addi r3, r13, (Mmbyte-MessageBlock)
bl Printf
lis r3, MPC106_REG@h /* start building new reg number */
ori r3, r3, MPC106_MBER /* register number 0xa0 */
stwbrx r3, r0, r1 /* write this value to CONFIG_ADDR */
eieio /* make sure mem. access is complete */
stb r22, 0(r2) /* write data to CONFIG_DATA */
li r8, 0x63 /* PGMAX = 99 */
stb r8, 3(r2) /* write data to CONFIG_DATA */
/*
* DRAM SHOULD NOW BE CONFIGURED AND ENABLED
* MUST WAIT 200us BEFORE ACCESSING
*/
li r0, 0x7800
mtctr r0
wait200us:
bdnz wait200us
lis r3, MPC106_REG@h /* start building new reg number */
ori r3, r3, MPC106_MCCR1 /* register number 0xf0 */
stwbrx r3, r0, r1 /* write this value to CONFIG_ADDR */
eieio /* make sure mem. access is complete */
lwbrx r4, r0, r2 /* load r4 from CONFIG_DATA */
lis r0, MCCR1_MEMGO@h /* MEMGO=1 */
ori r0, r0, MCCR1_MEMGO@l
or r4, r4, r0 /* set the MEMGO bit */
stwbrx r4, r0, r2 /* write mdfd data to CONFIG_DATA */
li r0, 0x7000
mtctr r0
wait8ref:
bdnz wait8ref
addi r3, r13, (Mok-MessageBlock)
bl Printf
mtlr r25
blr
/*
* Infinite loop called in case of an error during RAM initialisation.
* error codes in r6 and r7.
*/
toggleError:
li r0, 0
lis r9, 127
ori r9, r9, 65535
toggleError1:
addic r0, r0, 1
cmpw cr1, r0, r9
ble cr1, toggleError1
li r0, 0
lis r9, 127
ori r9, r9, 65535
toggleError2:
addic r0, r0, 1
cmpw cr1, r0, r9
ble cr1, toggleError2
b toggleError
/******************************************************************************
* This function performs a basic initialisation of the superio chip
* to enable basic console output and SPD access during RAM initialisation.
*
* Upon completion, SIO resource registers are mapped as follows:
* Resource Enabled Address
* UART1 Yes 3F8-3FF COM1
* UART2 Yes 2F8-2FF COM2
* GPIO Yes 220-227
*/
.set SIO_LUNINDEX, 0x07 /* SIO LUN index register */
.set SIO_CNFG1, 0x21 /* SIO configuration #1 register */
.set SIO_PCSCI, 0x23 /* SIO PCS configuration index reg */
.set SIO_PCSCD, 0x24 /* SIO PCS configuration data reg */
.set SIO_ACTIVATE, 0x30 /* SIO activate register */
.set SIO_IOBASEHI, 0x60 /* SIO I/O port base address, 15:8 */
.set SIO_IOBASELO, 0x61 /* SIO I/O port base address, 7:0 */
.set SIO_LUNENABLE, 0x01 /* SIO LUN enable */
.sioInit:
mfspr r7, 8 /* save link register */
.sioInit_87308:
/*
* Get base addr of ISA I/O space
*/
lis r6, CFG_ISA_IO@h
ori r6, r6, CFG_ISA_IO@l
/*
* Set offset to base address for config registers.
*/
#if defined(CFG_NS87308_BADDR_0x)
addi r4, r0, 0x0279
#elif defined(CFG_NS87308_BADDR_10)
addi r4, r0, 0x015C
#elif defined(CFG_NS87308_BADDR_11)
addi r4, r0, 0x002E
#endif
add r6, r6, r4 /* add offset to base */
or r3, r6, r6 /* make a copy */
/*
* PMC (LUN 8)
*/
addi r4, r0, SIO_LUNINDEX /* select PMC LUN */
addi r5, r0, 0x8
bl .sio_bw
addi r4, r0, SIO_IOBASEHI /* initialize PMC address to 0x460 */
addi r5, r0, 0x04
bl .sio_bw
addi r4, r0, SIO_IOBASELO
addi r5, r0, 0x60
bl .sio_bw
addi r4, r0, SIO_ACTIVATE /* enable PMC */
addi r5, r0, SIO_LUNENABLE
bl .sio_bw
lis r8, CFG_ISA_IO@h
ori r8, r8, 0x0460
li r9, 0x03
stb r9, 0(r8) /* select PMC2 register */
eieio
li r9, 0x00
stb r9, 1(r8) /* SuperI/O clock src: 24MHz via X1 */
eieio
/*
* map UART1 (LUN 6) or UART2 (LUN 5) to COM1 (0x3F8)
*/
addi r4, r0, SIO_LUNINDEX /* select COM1 LUN */
addi r5, r0, 0x6
bl .sio_bw
addi r4, r0, SIO_IOBASEHI /* initialize COM1 address to 0x3F8 */
addi r5, r0, 0x03
bl .sio_bw
addi r4, r0, SIO_IOBASELO
addi r5, r0, 0xF8
bl .sio_bw
addi r4, r0, SIO_ACTIVATE /* enable COM1 */
addi r5, r0, SIO_LUNENABLE
bl .sio_bw
/*
* Init COM1 for polled output
*/
lis r8, CFG_ISA_IO@h
ori r8, r8, 0x03f8
li r9, 0x00
stb r9, 1(r8) /* int disabled */
eieio
li r9, 0x00
stb r9, 4(r8) /* modem ctrl */
eieio
li r9, 0x80
stb r9, 3(r8) /* link ctrl, bank select */
eieio
li r9, 115200/CONFIG_BAUDRATE
stb r9, 0(r8) /* baud rate (LSB)*/
eieio
rotrwi r9, r9, 8
stb r9, 1(r8) /* baud rate (MSB) */
eieio
li r9, 0x03
stb r9, 3(r8) /* 8 data bits, 1 stop bit, */
/* no parity */
2002-11-03 00:24:07 +00:00
eieio
li r9, 0x0b
stb r9, 4(r8) /* enable the receiver and transmitter */
eieio
waitEmpty:
lbz r9, 5(r8) /* transmit empty */
andi. r9, r9, 0x40
beq waitEmpty
li r9, 0x47
stb r9, 3(r8) /* send break, 8 data bits, */
/* 2 stop bits, no parity */
2002-11-03 00:24:07 +00:00
eieio
lis r0, 0x0001
mtctr r0
waitCOM1:
lwz r0, 5(r8) /* load from port for delay */
bdnz waitCOM1
waitEmpty1:
lbz r9, 5(r8) /* transmit empty */
andi. r9, r9, 0x40
beq waitEmpty1
li r9, 0x07
stb r9, 3(r8) /* 8 data bits, 2 stop bits, */
/* no parity */
2002-11-03 00:24:07 +00:00
eieio
/*
* GPIO (LUN 7)
*/
addi r4, r0, SIO_LUNINDEX /* select GPIO LUN */
addi r5, r0, 0x7
bl .sio_bw
addi r4, r0, SIO_IOBASEHI /* initialize GPIO address to 0x220 */
addi r5, r0, 0x02
bl .sio_bw
addi r4, r0, SIO_IOBASELO
addi r5, r0, 0x20
bl .sio_bw
addi r4, r0, SIO_ACTIVATE /* enable GPIO */
addi r5, r0, SIO_LUNENABLE
bl .sio_bw
.sioInit_done:
/*
* Get base addr of ISA I/O space
*/
lis r3, CFG_ISA_IO@h
ori r3, r3, CFG_ISA_IO@l
addi r3, r3, 0x015C /* adjust to superI/O 87308 base */
or r6, r3, r3 /* make a copy */
/*
* CS0
*/
addi r4, r0, SIO_PCSCI /* select PCSCIR */
addi r5, r0, 0x00
bl .sio_bw
addi r4, r0, SIO_PCSCD /* select PCSCDR */
addi r5, r0, 0x00
bl .sio_bw
addi r4, r0, SIO_PCSCI /* select PCSCIR */
addi r5, r0, 0x01
bl .sio_bw
addi r4, r0, SIO_PCSCD /* select PCSCDR */
addi r5, r0, 0x76
bl .sio_bw
addi r4, r0, SIO_PCSCI /* select PCSCIR */
addi r5, r0, 0x02
bl .sio_bw
addi r4, r0, SIO_PCSCD /* select PCSCDR */
addi r5, r0, 0x40
bl .sio_bw
/*
* CS1
*/
addi r4, r0, SIO_PCSCI /* select PCSCIR */
addi r5, r0, 0x05
bl .sio_bw
addi r4, r0, SIO_PCSCD /* select PCSCDR */
addi r5, r0, 0x00
bl .sio_bw
addi r4, r0, SIO_PCSCI /* select PCSCIR */
addi r5, r0, 0x05
bl .sio_bw
addi r4, r0, SIO_PCSCD /* select PCSCDR */
addi r5, r0, 0x70
bl .sio_bw
addi r4, r0, SIO_PCSCI /* select PCSCIR */
addi r5, r0, 0x06
bl .sio_bw
addi r4, r0, SIO_PCSCD /* select PCSCDR */
addi r5, r0, 0x1C
bl .sio_bw
/*
* CS2
*/
addi r4, r0, SIO_PCSCI /* select PCSCIR */
addi r5, r0, 0x08
bl .sio_bw
addi r4, r0, SIO_PCSCD /* select PCSCDR */
addi r5, r0, 0x00
bl .sio_bw
addi r4, r0, SIO_PCSCI /* select PCSCIR */
addi r5, r0, 0x09
bl .sio_bw
addi r4, r0, SIO_PCSCD /* select PCSCDR */
addi r5, r0, 0x71
bl .sio_bw
addi r4, r0, SIO_PCSCI /* select PCSCIR */
addi r5, r0, 0x0A
bl .sio_bw
addi r4, r0, SIO_PCSCD /* select PCSCDR */
addi r5, r0, 0x1C
bl .sio_bw
mtspr 8, r7 /* restore link register */
bclr 20, 0 /* return to caller */
/*
* this function writes a register to the SIO chip
*/
.sio_bw:
stb r4, 0(r3) /* write index register with register offset */
eieio
sync
stb r5, 1(r3) /* 1st write */
eieio
sync
stb r5, 1(r3) /* 2nd write */
eieio
sync
bclr 20, 0 /* return to caller */
/*
* this function reads a register from the SIO chip
*/
.sio_br:
stb r4, 0(r3) /* write index register with register offset */
eieio
sync
lbz r3, 1(r3) /* retrieve specified reg offset contents */
eieio
sync
bclr 20, 0 /* return to caller */
/*
* Print a message to COM1 in polling mode
* r10=COM1 port, r3=(char*)string
*/
.globl Printf
Printf:
lis r10, CFG_ISA_IO@h /* COM1 port */
ori r10, r10, 0x03f8
WaitChr:
lbz r0, 5(r10) /* read link status */
eieio
andi. r0, r0, 0x40 /* mask transmitter empty bit */
beq cr0, WaitChr /* wait till empty */
lbzx r0, r0, r3 /* get char */
stb r0, 0(r10) /* write to transmit reg */
eieio
addi r3, r3, 1 /* next char */
lbzx r0, r0, r3 /* get char */
cmpwi cr1, r0, 0 /* end of string ? */
bne cr1, WaitChr
blr
/*
* Print 8/4/2 digits hex value to COM1 in polling mode
* r10=COM1 port, r3=val
*/
OutHex2:
li r9, 4 /* shift reg for 2 digits */
b OHstart
OutHex4:
li r9, 12 /* shift reg for 4 digits */
b OHstart
.globl OutHex
OutHex:
li r9, 28 /* shift reg for 8 digits */
OHstart:
lis r10, CFG_ISA_IO@h /* COM1 port */
ori r10, r10, 0x03f8
OutDig:
lbz r0, 5(r10) /* read link status */
eieio
andi. r0, r0, 0x40 /* mask transmitter empty bit */
beq cr0, OutDig
sraw r0, r3, r9
clrlwi r0, r0, 28
cmpwi cr1, r0, 9
ble cr1, digIsNum
addic r0, r0, 55
b nextDig
digIsNum:
addic r0, r0, 48
nextDig:
stb r0, 0(r10) /* write to transmit reg */
eieio
addic. r9, r9, -4
bge OutDig
blr
/*
* Print 3 digits hdec value to COM1 in polling mode
* r10=COM1 port, r3=val, r7=x00, r8=x0, r9=x, r0, r6=scratch
*/
.globl OutDec
OutDec:
li r6, 10
divwu r0, r3, r6 /* r0 = r3 / 10, r9 = r3 mod 10 */
mullw r10, r0, r6
subf r9, r10, r3
mr r3, r0
divwu r0, r3, r6 /* r0 = r3 / 10, r8 = r3 mod 10 */
mullw r10, r0, r6
subf r8, r10, r3
mr r3, r0
divwu r0, r3, r6 /* r0 = r3 / 10, r7 = r3 mod 10 */
mullw r10, r0, r6
subf r7, r10, r3
lis r10, CFG_ISA_IO@h /* COM1 port */
ori r10, r10, 0x03f8
or. r7, r7, r7
bne noblank1
li r3, 0x20
b OutDec4
noblank1:
addi r3, r7, 48 /* convert to ASCII */
OutDec4:
lbz r0, 0(r13) /* slow down dummy read */
lbz r0, 5(r10) /* read link status */
eieio
andi. r0, r0, 0x40 /* mask transmitter empty bit */
beq cr0, OutDec4
stb r3, 0(r10) /* x00 to transmit */
eieio
or. r7, r7, r8
beq OutDec5
addi r3, r8, 48 /* convert to ASCII */
OutDec5:
lbz r0, 0(r13) /* slow down dummy read */
lbz r0, 5(r10) /* read link status */
eieio
andi. r0, r0, 0x40 /* mask transmitter empty bit */
beq cr0, OutDec5
stb r3, 0(r10) /* x0 to transmit */
eieio
addi r3, r9, 48 /* convert to ASCII */
OutDec6:
lbz r0, 0(r13) /* slow down dummy read */
lbz r0, 5(r10) /* read link status */
eieio
andi. r0, r0, 0x40 /* mask transmitter empty bit */
beq cr0, OutDec6
stb r3, 0(r10) /* x to transmit */
eieio
blr
/*
* Print a char to COM1 in polling mode
* r10=COM1 port, r3=char
*/
.globl OutChr
OutChr:
lis r10, CFG_ISA_IO@h /* COM1 port */
ori r10, r10, 0x03f8
OutChr1:
lbz r0, 5(r10) /* read link status */
eieio
andi. r0, r0, 0x40 /* mask transmitter empty bit */
beq cr0, OutChr1 /* wait till empty */
stb r3, 0(r10) /* write to transmit reg */
eieio
blr
/*
* Input: r3 adr to read
* Output: r3 val or -1 for error
*/
spdRead:
mfspr r26, 8 /* save link register */
lis r30, CFG_ISA_IO@h
ori r30, r30, 0x220 /* GPIO Port 1 */
li r7, 0x00
li r8, 0x100
and. r5, r3, r8
beq spdbank0
li r12, 0x08
li r4, 0x10
li r6, 0x18
b spdRead1
spdbank0:
li r12, 0x20 /* set I2C data */
li r4, 0x40 /* set I2C clock */
li r6, 0x60 /* set I2C clock and data */
spdRead1:
li r8, 0x80
bl spdStart /* access I2C bus as master */
li r10, 0xa0 /* write to SPD */
bl spdWriteByte
bl spdReadAck /* ACK returns in r10 */
cmpw cr0, r10, r7
bne AckErr /* r10 must be 0, if ACK received */
mr r10, r3 /* adr to read */
bl spdWriteByte
bl spdReadAck
cmpw cr0, r10, r7
bne AckErr
bl spdStart
li r10, 0xa1 /* read from SPD */
bl spdWriteByte
bl spdReadAck
cmpw cr0, r10, r7
bne AckErr
bl spdReadByte /* return val in r10 */
bl spdWriteAck
bl spdStop /* release I2C bus */
mr r3, r10
mtspr 8, r26 /* restore link register */
blr
/*
* ACK error occurred
*/
AckErr:
bl spdStop
orc r3, r0, r0 /* return -1 */
mtspr 8, r26 /* restore link register */
blr
/*
* Routines to read from RAM spd.
* r30 - GPIO Port1 address in all cases.
* r4 - clock mask for SPD
* r6 - port mask for SPD
* r12 - data mask for SPD
*/
waitSpd:
li r0, 0x1000
mtctr r0
wSpd:
bdnz wSpd
bclr 20, 0 /* return to caller */
/*
* establish START condition on I2C bus
*/
spdStart:
mfspr r27, 8 /* save link register */
stb r6, 0(r30) /* set SDA and SCL */
eieio
stb r6, 1(r30) /* switch GPIO to output */
eieio
bl waitSpd
stb r4, 0(r30) /* reset SDA */
eieio
bl waitSpd
stb r7, 0(r30) /* reset SCL */
eieio
bl waitSpd
mtspr 8, r27
bclr 20, 0 /* return to caller */
/*
* establish STOP condition on I2C bus
*/
spdStop:
mfspr r27, 8 /* save link register */
stb r7, 0(r30) /* reset SCL and SDA */
eieio
stb r6, 1(r30) /* switch GPIO to output */
eieio
bl waitSpd
stb r4, 0(r30) /* set SCL */
eieio
bl waitSpd
stb r6, 0(r30) /* set SDA and SCL */
eieio
bl waitSpd
stb r7, 1(r30) /* switch GPIO to input */
eieio
mtspr 8, r27
bclr 20, 0 /* return to caller */
spdReadByte:
mfspr r27, 8
stb r4, 1(r30) /* set GPIO for SCL output */
eieio
li r9, 0x08
li r10, 0x00
loopRB:
stb r7, 0(r30) /* reset SDA and SCL */
eieio
bl waitSpd
stb r4, 0(r30) /* set SCL */
eieio
bl waitSpd
lbz r5, 0(r30) /* read from GPIO Port1 */
rlwinm r10, r10, 1, 0, 31
and. r5, r5, r12
beq clearBit
ori r10, r10, 0x01 /* append _1_ */
clearBit:
stb r7, 0(r30) /* reset SCL */
eieio
bl waitSpd
addic. r9, r9, -1
bne loopRB
mtspr 8, r27
bclr 20, 0 /* return (r10) to caller */
/*
* spdWriteByte writes bits 24 - 31 of r10 to I2C.
* r8 contains bit mask 0x80
*/
spdWriteByte:
mfspr r27, 8 /* save link register */
li r9, 0x08 /* write octet */
and. r5, r10, r8
bne sWB1
stb r7, 0(r30) /* set SDA to _0_ */
eieio
b sWB2
sWB1:
stb r12, 0(r30) /* set SDA to _1_ */
eieio
sWB2:
stb r6, 1(r30) /* set GPIO to output */
eieio
loopWB:
and. r5, r10, r8
bne sWB3
stb r7, 0(r30) /* set SDA to _0_ */
eieio
b sWB4
sWB3:
stb r12, 0(r30) /* set SDA to _1_ */
eieio
sWB4:
bl waitSpd
and. r5, r10, r8
bne sWB5
stb r4, 0(r30) /* set SDA to _0_ and SCL */
eieio
b sWB6
sWB5:
stb r6, 0(r30) /* set SDA to _1_ and SCL */
eieio
sWB6:
bl waitSpd
and. r5, r10, r8
bne sWB7
stb r7, 0(r30) /* set SDA to _0_ and reset SCL */
eieio
b sWB8
sWB7:
stb r12, 0(r30) /* set SDA to _1_ and reset SCL */
eieio
sWB8:
bl waitSpd
rlwinm r10, r10, 1, 0, 31 /* next bit */
addic. r9, r9, -1
bne loopWB
mtspr 8, r27
bclr 20, 0 /* return to caller */
/*
* Read ACK from SPD, return value in r10
*/
spdReadAck:
mfspr r27, 8 /* save link register */
stb r4, 1(r30) /* set GPIO to output */
eieio
stb r7, 0(r30) /* reset SDA and SCL */
eieio
bl waitSpd
stb r4, 0(r30) /* set SCL */
eieio
bl waitSpd
lbz r10, 0(r30) /* read GPIO Port 1 and mask SDA */
and r10, r10, r12
bl waitSpd
stb r7, 0(r30) /* reset SDA and SCL */
eieio
bl waitSpd
mtspr 8, r27
bclr 20, 0 /* return (r10) to caller */
spdWriteAck:
mfspr r27, 8
stb r12, 0(r30) /* set SCL */
eieio
stb r6, 1(r30) /* set GPIO to output */
eieio
bl waitSpd
stb r6, 0(r30) /* SDA and SCL */
eieio
bl waitSpd
stb r12, 0(r30) /* reset SCL */
eieio
bl waitSpd
mtspr 8, r27
bclr 20, 0 /* return to caller */
get_lnk_reg:
mflr r3 /* return link reg */
blr
/*
* Messages for console output
*/
.globl MessageBlock
MessageBlock:
Mok:
.ascii "OK\015\012\000"
Mfail:
.ascii "FAILED\015\012\000"
Mna:
.ascii "NA\015\012\000"
MinitLogo:
.ascii "\015\012*** ELTEC Elektronik, Mainz ***\015\012"
.ascii "\015\012Initialising RAM\015\012\000"
Mspd01:
.ascii " Reading SPD of bank0/1 ..... \000"
Mspd23:
.ascii " Reading SPD of bank2/3 ..... \000"
MfpmRam:
.ascii " RAM-Type: FPM \015\012\000"
MedoRam:
.ascii " RAM-Type: EDO \015\012\000"
MsdRam:
.ascii " RAM-Type: SDRAM \015\012\000"
Mactivate:
.ascii " Activating \000"
Mmbyte:
.ascii " MB .......... \000"
.align 4