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##=============================================================================
##
## viper.S
##
## VIPER board hardware setup
##
##=============================================================================
#####ECOSGPLCOPYRIGHTBEGIN####
## -------------------------------------------
## This file is part of eCos, the Embedded Configurable Operating System.
## Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc.
## Copyright (C) 2002 Gary Thomas
##
## eCos 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 or (at your option) any later version.
##
## eCos 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 eCos; if not, write to the Free Software Foundation, Inc.,
## 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.
##
## As a special exception, if other files instantiate templates or use macros
## or inline functions from this file, or you compile this file and link it
## with other works to produce a work based on this file, this file does not
## by itself cause the resulting work to be covered by the GNU General Public
## License. However the source code for this file must still be made available
## in accordance with section (3) of the GNU General Public License.
##
## This exception does not invalidate any other reasons why a work based on
## this file might be covered by the GNU General Public License.
##
## Alternative licenses for eCos may be arranged by contacting Red Hat, Inc.
## at http://sources.redhat.com/ecos/ecos-license/
## -------------------------------------------
#####ECOSGPLCOPYRIGHTEND####
##=============================================================================
#######DESCRIPTIONBEGIN####
##
## Author(s): hmt
## Contributors:hmt, gthomas
## Date: 1999-06-08
## Purpose: VIPER board hardware setup
## Description: This file contains any code needed to initialize the
## hardware on a VIPER PPC860 board.
##
######DESCRIPTIONEND####
##
##=============================================================================
#include <pkgconf/hal.h>
#include <cyg/hal/arch.inc> /* register symbols et al */
#include <cyg/hal/ppc_regs.h> /* on-chip resource layout, special */
/* registers, IMM layout... */
#include <cyg/hal/quicc/ppc8xx.h> /* more of the same */
#------------------------------------------------------------------------------
# this is controlled with one define for tidiness:
# (and it is undefined by default)
//#define CYGPRI_RAM_START_PROGRAMS_UPMS
#if defined(CYG_HAL_STARTUP_ROM) \
|| defined(CYG_HAL_STARTUP_ROMRAM) \
|| defined(CYGPRI_RAM_START_PROGRAMS_UPMS)
# define CYGPRI_DO_PROGRAM_UPMS
#endif
/* The intention is that we only set up the UPMs in ROM start, be it actual
* ROM application start or Stub ROMs that we built from the same sources.
*
* The alternative approach - in which we have reliability doubts - is to
* program the UPMs with *old* timing data in StubROM start, then
* *reprogram* them with *new* timing data in RAM start - and of course
* program with *new* timing data in plain ROM application start.
* (Re-programming from new to new timing data fails - hence the suspicion
* of reprogramming _at_all_, hence this private configuration)
*
* With CYGPRI_RAM_START_PROGRAMS_UPMS left undefined, the former behaviour
* - programming the UPMs exactly once - is obtained. Define it to get the
* latter, untrusted behaviour.
*/
#------------------------------------------------------------------------------
// LED macro uses r23, r25: r4 left alone
#define LED( x ) \
lwi r25,0xFA100018; \
lwi r23,(x); \
stb r23,0(r25)
#------------------------------------------------------------------------------
FUNC_START( hal_hardware_init )
# Throughout this routine, r4 is the base address of the control
# registers. r3 and r5 are scratch in general.
lwi r4,CYGARC_REG_IMM_BASE # base address of control registers
mtspr CYGARC_REG_IMMR,r4
LED( 0 ) # turn all LEDs off
#define CACHE_UNLOCKALL 0x0a00
#define CACHE_DISABLE 0x0400
#define CACHE_INVALIDATEALL 0x0c00
#define CACHE_ENABLE 0x0200
#define CACHE_ENABLEBIT 0x8000
#define CACHE_FORCEWRITETHROUGH 0x0100
#define CACHE_NOWRITETHROUGH 0x0300
#define CACHE_CLEAR_LE_SWAP 0x0700
# DATA CACHE
mfspr r3,CYGARC_REG_DC_CST /* clear error bits */
lis r3,CACHE_UNLOCKALL
sync
mtspr CYGARC_REG_DC_CST,r3 /* unlock all lines */
lis r3,CACHE_INVALIDATEALL
sync
mtspr CYGARC_REG_DC_CST,r3 /* invalidate all lines */
lis r3,CACHE_DISABLE
sync
mtspr CYGARC_REG_DC_CST,r3 /* disable */
lis r3,CACHE_FORCEWRITETHROUGH
sync
mtspr CYGARC_REG_DC_CST,r3 /* set force-writethrough mode */
lis r3,CACHE_CLEAR_LE_SWAP
sync
mtspr CYGARC_REG_DC_CST,r3 /* clear little-endian swap mode */
/* (dunno what this is, but it sounds like a bad thing) */
# INSTRUCTION CACHE (no writeback modes)
mfspr r3,CYGARC_REG_IC_CST /* clear error bits */
lis r3,CACHE_UNLOCKALL
mtspr CYGARC_REG_IC_CST,r3 /* unlock all lines */
isync
lis r3,CACHE_INVALIDATEALL
mtspr CYGARC_REG_IC_CST,r3 /* invalidate all lines */
isync
lis r3,CACHE_DISABLE
mtspr CYGARC_REG_IC_CST,r3 /* disable */
isync
sync
LED( 0x01 )
/*
* SIU Initialization.
*/
lwi r3,0x00610400
stw r3,SIUMCR(r4)
#ifdef CYG_HAL_STARTUP_ROMRAM
// Need to set the PC into the FLASH (ROM) before the address map changes
lwi r3,10f
lwi r5,0xFE000000
or r3,r3,r5
mtctr r3
bctr
10:
#endif
/*
* Enable bus monitor. Disable Watchdog timer.
*/
lwi r3,0xffffff88
stw r3,SYPCR(r4)
/*
* Clear REFA & REFB. Enable but freeze timebase.
*/
lwi r3,0x0000 // FIXME: should this be 0x0000 or 0x00C2
sth r3,TBSCR(r4)
/*
* Unlock some RTC registers (see section 5.11.2)
*/
lwi r3,0x55ccaa33
stw r3,RTCSCK(r4)
stw r3,RTCK(r4)
stw r3,RTSECK(r4)
stw r3,RTCALK(r4)
/*
* Clear SERC & ALR. RTC runs on freeze. Enable RTC.
*/
li r3,0x0000 // FIXME: should this be 0x0000 or 0x00C3
sth r3,RTCSC(r4)
/*
* Clear periodic timer interrupt status.
* Enable periodic timer and stop it on freeze.
*/
li r3,0x0001 // FIXME: should this be 0x0001 or 0x0083
sth r3,PISCR(r4)
LED( 0x02 )
#ifdef CYGPRI_DO_PROGRAM_UPMS
/*
* Perform UPM programming by writing to its 64 RAM locations.
* Note that UPM initialization must be done before the Bank Register
* initialization. Otherwise, system may hang when writing to Bank
* Registers in certain cases.
*/
lis r5,__upmtbl_start@h
ori r5,r5,__upmtbl_start@l
lis r6,__upmtbl_end@h
ori r6,r6,__upmtbl_end@l
sub r7,r6,r5 /* size of table */
srawi r7,r7,2 /* in words */
li r6,0x00000000 /* Command - OP=Write, UPMA, MAD=0 */
1:
lwz r3,0(r5) /* get data from table */
stw r3,MDR(r4) /* store the data to MD register */
stw r6,MCR(r4) /* issue command to MCR register */
addi r5,r5,4 /* next entry in the table */
addi r6,r6,1 /* next MAD address */
cmpw r6,r7 /* done yet ? */
blt 1b
#endif // CYGPRI_DO_PROGRAM_UPMS
LED( 0x12 )
/*
* Set refresh timer prescaler to divide by 8.
*/
li r3,PTP_DIV32
sth r3,MPTPR(r4)
/*
* See Table 15-16 MPC860 User's Manual.
*
// Set the value of Machine A Mode Register (MAMR) to $5E802114.
// Field PTA (bits 0-7) = 94
// Field PTAE (bit 8) = 1
// Field AMA (bits 9-11) = 0
// Field Reserved (bit 12) = 0
// Field DSA (bits 13-14) = 0
// Field Reserved (bit 15) = 0
// Field G0CLA (bits 16-18) = 1
// Field GPL_A4DIS (bit 19) = 0
// Field RLFA (bits 20-23) = 1
// Field WLFA (bits 24-27) = 1
// Field TLFA (bits 28-31) = 4
*/
//
// PTA field is (System Clock in MHz * Refresh rate in us) / Prescale
// e.g. ((14*3.6864)*62.5)/32 => 100.8 => 101
//
#if (CYGHWR_HAL_POWERPC_BOARD_SPEED == 47)
#define PLPRCR_PTX 0x00C // (47MHz/3.6864MHz)-1
#define MAMR_PTA 94
#endif
#if (CYGHWR_HAL_POWERPC_BOARD_SPEED == 51)
#define PLPRCR_PTX 0x00D // (51.6MHz/3.6864MHz)-1
#define MAMR_PTA 101
#endif
#if (CYGHWR_HAL_POWERPC_BOARD_SPEED == 55)
#define PLPRCR_PTX 0x00E // (55.3MHz/3.6864MHz)-1
#define MAMR_PTA 108
#endif
#if (CYGHWR_HAL_POWERPC_BOARD_SPEED == 59)
#define PLPRCR_PTX 0x00F // (58.9MHz/3.6864MHz)-1
#define MAMR_PTA 116
#endif
#if (CYGHWR_HAL_POWERPC_BOARD_SPEED == 63)
#define PLPRCR_PTX 0x010 // (62.7MHz/3.6864MHz)-1
#define MAMR_PTA 123
#endif
//#define MAMR_PTA (((((((PLPRCR_PTX+1)*3686400)*625)/10000000)+31)/32)&0xFF)
lwi r3,0x00802114|(MAMR_PTA<<24)
stw r3,MAMR(r4)
stw r3,MBMR(r4)
/*
* Base Register initialization.
*/
/* BOOT ROM */
lwi r3,0xFE000401 # 8-bit, GPCM
lwi r5,0xFF800774 # 7 wait states, up to 8MB
stw r3,BR0(r4)
stw r5,OR0(r4)
/* Misc I/O, 16 bit port */
lwi r3,0xFA100801
lwi r5,0xFFFF8730
stw r3,BR2(r4)
stw r5,OR2(r4)
/* ONBOARD DRAM */
lwi r3,0x00000081 # 32-bit, UPMA
lwi r5,0xFF800E00
stw r3,BR1(r4)
stw r5,OR1(r4)
/* DRAM DIMM BANK1 */
lwi r3,0x00000080 # 32-bit, UPMA, INVALID
lwi r5,0xFFFF87FC
stw r3,BR3(r4)
stw r5,OR3(r4)
#if 0
/* NVRAM */
lwi r3,0xfa000401 # 8-bit, GPCM
lwi r5,0xffe00930
stw r3,BR4(r4)
stw r5,OR4(r4)
/* PCI BRIDGE MEM/IO */
lwi r3,0x80000001 # 32-bit, GPCM
lwi r5,0xa0000108
stw r3,BR5(r4)
stw r5,OR5(r4)
/* PCI BRIDGE REGISTERS */
lwi r3,0xfa210001 # 32-bit, GPCM
lwi r5,0xffff0108
stw r3,BR6(r4)
stw r5,OR6(r4)
/* FLASH */
lwi r3,0xfc000001 # 32-bit, GPCM
lwi r5,0xff800940
stw r3,BR7(r4)
stw r5,OR7(r4)
#endif
/*
* SYSTEM CLOCK CONTROL REGISTER
// Set the value of System Clock and Reset Control Register (SCCR) to $00400000.
// Field Reserved (bit 0) = 0
// Field COM (bits 1-2) = 0
// Field Reserved (bits 3-5) = 0
// Field TBS (bit 6) = 0
// Field RTDIV (bit 7) = 0
// Field RTSEL (bit 8) = 0
// Field CRQEN (bit 9) = 1
// Field PRQEN (bit 10) = 0
// Field Reserved (bits 11-12) = 0
// Field EBDF (bits 13-14) = 0
// Field Reserved (bits 15-16) = 0
// Field DFSYNC (bits 17-18) = 0
// Field DFBRG (bits 19-20) = 0
// Field DFNL (bits 21-23) = 0
// Field DFNH (bits 24-26) = 0
// Field Reserved (bits 27-31) = 0
*/
lwi r3,0x00400000
stw r3,SCCR(r4)
LED( 0x03 )
/*
* PLL, LOW POWER, AND RESET CONTROL REGISTER
// Set the value of PLL, Low Power and Reset Control Register (PLPRCR) to $00C04000.
// Field MF (bits 0-11) = 12
// Field Reserved (bits 12-15) = 0
// Field SPLSS (bit 16) = 0
// Field TEXPS (bit 17) = 1
// Field Reserved (bit 18) = 0
// Field TMIST (bit 19) = 0
// Field Reserved (bit 20) = 0
// Field CSRC (bit 21) = 0
// Field LPM (bits 22-23) = 0
// Field CSR (bit 24) = 0
// Field LOLRE (bit 25) = 0
// Field FIOPD (bit 26) = 0
// Field Reserved (bits 27-31) = 0
*/
lwi r3,0x04000|(PLPRCR_PTX<<20)
stw r3,PLPRCR(r4)
LED(0xE0)
lwi r3,0x40000
mtctr r3
10: nop
bdnz 10b
LED(0xE1)
/* SDRAM Initialization Sequence, UPMA, CS1 */
li r3,0
stw r3,MAR(r4)
lwi r3,0x80002115; /* run precharge from loc 21 (0x15) */
stw r3,MCR(r4)
lwi r3,0x80002830; /* run refresh 8 times */
stw r3,MCR(r4)
lwi r3,0x88; /* MR 88 for high range */
stw r3,MAR(r4)
lwi r3,0x80002116; /* run MRS pattern from loc 22 (0x16) */
stw r3,MCR(r4)
# mask interrupt sources in the SIU
lis r2,0
lwi r3,CYGARC_REG_IMM_SIMASK
stw r2,0(r3)
# set the decrementer to maxint
lwi r2,0
not r2,r2
mtdec r2
# and enable the timebase and decrementer to make sure
li r2,1 # TBEnable and not TBFreeze
lwi r3,CYGARC_REG_IMM_TBSCR
sth r2,0(r3)
LED( 8 )
#ifdef CYG_HAL_STARTUP_ROM
# move return address to where the ROM is
mflr r3
lwi r4,0x00FFFFFF // CAUTION!! Assumes only low 16M for ROM
and r3,r3,r4
oris r3,r3,CYGMEM_REGION_rom>>16
mtlr r3
#endif
#ifdef CYG_HAL_STARTUP_ROMRAM
// Copy image from ROM to RAM
LED(0x10)
mflr r3
lwi r4,0xFE000000
lwi r5,0x01FFFFFF // ROM/FLASH base
and r3,r3,r5 // segment relative
lwi r6,_hal_hardware_init_done
mtlr r6
sub r6,r3,r6 // Absolute address
add r6,r6,r4 // FLASH address
lwi r7,0 // where to copy to
lwi r8,__ram_data_end
10: lwz r5,0(r6)
stw r5,0(r7)
addi r6,r6,4
addi r7,r7,4
cmplw r7,r8
bne 10b
LED(0x20)
#endif
blr
FUNC_END( hal_hardware_init )
#ifdef CYGPRI_DO_PROGRAM_UPMS
# -------------------------------------------------------------------------
# this table initializes the User Programmable Machine (UPM) nastiness
# in the QUICC to control DRAM timing.
__upmtbl_start:
// single read (offset 0x00 in upm ram)
.long 0x1f07fc24, 0xe0aefc04, 0x10adfc04, 0xe0bbbc00
.long 0x10f77c44, 0xf3fffc07, 0xfffffc04, 0xfffffc04
// burst read (offset 0x08 in upm ram)
.long 0x1f07fc24, 0xe0aefc04, 0x10adfc04, 0xf0affc00
.long 0xf0affc00, 0xf0affc00, 0xf0affc00, 0x10a77c44
.long 0xf7bffc47, 0xfffffc35, 0xfffffc34, 0xfffffc35
.long 0xfffffc35, 0x1ff77c35, 0xfffffc34, 0x1fb57c35
// single write (offset 0x18 in upm ram)
.long 0x1f27fc24, 0xe0aebc04, 0x00b93c00, 0x13f77c47
.long 0xfffdfc04, 0xfffffc04, 0xfffffc04, 0xfffffc04
// burst write (offset 0x20 in upm ram)
.long 0x1f07fc24, 0xeeaebc00, 0x10ad7c00, 0xf0affc00
.long 0xf0affc00, 0xe0abbc00, 0x1fb77c47, 0xfffffc04
.long 0xfffffc04, 0xfffffc04, 0xfffffc04, 0xfffffc04
.long 0xfffffc04, 0xfffffc04, 0xfffffc04, 0xfffffc04
// refresh (offset 0x30 in upm ram)
.long 0x1ff5fca4, 0xfffffc04, 0xfffffc04, 0xfffffc04
.long 0xfffffc84, 0xfffffc07, 0xfffffc04, 0xfffffc04
.long 0xfffffc04, 0xfffffc04, 0xfffffc04, 0xfffffc04
// exception (offset 0x3C in upm ram)
.long 0xfffffc27, 0xfffffc04, 0xfffffc04, 0xfffffc04
__upmtbl_end:
#endif // CYGPRI_DO_PROGRAM_UPMS
FUNC_START(hal_viper_set_led)
lwi r4,0xFA100018
stb r3,0(r4)
lwi r5,_hold_led
stw r3,0(r5)
blr
FUNC_END(hal_viper_set_led)
.data
_hold_led:
.long 0
.text
FUNC_START(hal_viper_get_led)
lwi r5,_hold_led
lwz r3,0(r5)
blr
FUNC_END(hal_viper_get_led)
FUNC_START(hal_viper_flash_led)
lwi r4,0xFA100018
1:
li r5,10
stb r5,0(r4)
lis r5,10
mtctr r5
2:
bdnz 2b
li r5,12
stb r5,0(r4)
lis r5,10
mtctr r5
3:
bdnz 3b
subi r3,r3,1
cmpwi r3,0
bge 1b
li r5,6
stb r5,0(r4)
lis r5,20
mtctr r5
4:
bdnz 4b
blr
FUNC_END(hal_viper_flash_led)
#------------------------------------------------------------------------------
# end of viper.S
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