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/*
* This file contains the entry point for the application.
* The name of this entry point is compiler dependent.
* It jumps to the BSP which is responsible for performing
* all initialization.
*
* COPYRIGHT (c) 1989-1999.
* On-Line Applications Research Corporation (OAR).
*
* The license and distribution terms for this file may in
* the file LICENSE in this distribution or at
* http://www.OARcorp.com/rtems/license.html.
*
* Based on the `gen68360' board support package, and covered by the
* original distribution terms.
*
* Geoffroy Montel
* France Telecom - CNET/DSM/TAM/CAT
* 4, rue du Clos Courtel
* 35512 CESSON-SEVIGNE
* FRANCE
*
* e-mail: g_montel@yahoo.com
*
* $Id: start.S,v 1.2 2001-09-27 12:00:07 chris Exp $
*/
#include "asm.h"
#include <m68349.inc>
#define _OLD_ASTECC 1 /* old addresses for AST68340 only, undefine for AST68349 */
BEGIN_CODE
/*
* Step 1: Decide on Reset Stack Pointer and Initial Program Counter
*/
Entry:
.long SYM(m340)+1024 | 0: Initial SSP
.long start | 1: Initial PC
.long SYM(_uhoh) | 2: Bus error
.long SYM(_uhoh) | 3: Address error
.long SYM(_uhoh) | 4: Illegal instruction
.long SYM(_uhoh) | 5: Zero division
.long SYM(_uhoh) | 6: CHK, CHK2 instruction
.long SYM(_uhoh) | 7: TRAPcc, TRAPV instructions
.long SYM(_uhoh) | 8: Privilege violation
.long SYM(_uhoh) | 9: Trace
.long SYM(_uhoh) | 10: Line 1010 emulator
.long SYM(_uhoh) | 11: Line 1111 emulator
.long SYM(_uhoh) | 12: Hardware breakpoint
.long SYM(_uhoh) | 13: Reserved for coprocessor violation
.long SYM(_uhoh) | 14: Format error
.long SYM(_uhoh) | 15: Uninitialized interrupt
.long SYM(_uhoh) | 16: Unassigned, reserved
.long SYM(_uhoh) | 17:
.long SYM(_uhoh) | 18:
.long SYM(_uhoh) | 19:
.long SYM(_uhoh) | 20:
.long SYM(_uhoh) | 21:
.long SYM(_uhoh) | 22:
.long SYM(_uhoh) | 23:
.long SYM(_spuriousInterrupt) | 24: Spurious interrupt
.long SYM(_uhoh) | 25: Level 1 interrupt autovector
.long SYM(_uhoh) | 26: Level 2 interrupt autovector
.long SYM(_uhoh) | 27: Level 3 interrupt autovector
.long SYM(_uhoh) | 28: Level 4 interrupt autovector
.long SYM(_uhoh) | 29: Level 5 interrupt autovector
.long SYM(_uhoh) | 30: Level 6 interrupt autovector
.long SYM(_uhoh) | 31: Level 7 interrupt autovector
.long SYM(_uhoh) | 32: Trap instruction (0-15)
.long SYM(_uhoh) | 33:
.long SYM(_uhoh) | 34:
.long SYM(_uhoh) | 35:
.long SYM(_uhoh) | 36:
.long SYM(_uhoh) | 37:
.long SYM(_uhoh) | 38:
.long SYM(_uhoh) | 39:
.long SYM(_uhoh) | 40:
.long SYM(_uhoh) | 41:
.long SYM(_uhoh) | 42:
.long SYM(_uhoh) | 43:
.long SYM(_uhoh) | 44:
.long SYM(_uhoh) | 45:
.long SYM(_uhoh) | 46:
.long SYM(_uhoh) | 47:
.long SYM(_uhoh) | 48: Reserved for coprocessor
.long SYM(_uhoh) | 49:
.long SYM(_uhoh) | 50:
.long SYM(_uhoh) | 51:
.long SYM(_uhoh) | 52:
.long SYM(_uhoh) | 53:
.long SYM(_uhoh) | 54:
.long SYM(_uhoh) | 55:
.long SYM(_uhoh) | 56:
.long SYM(_uhoh) | 57:
.long SYM(_uhoh) | 58:
.long SYM(_uhoh) | 59: Unassigned, reserved
.long SYM(_uhoh) | 60:
.long SYM(_uhoh) | 61:
.long SYM(_uhoh) | 62:
.long SYM(_uhoh) | 63:
.long SYM(_uhoh) | 64: User defined vectors (192)
.long SYM(_uhoh) | 65:
.long SYM(_uhoh) | 66:
.long SYM(_uhoh) | 67:
.long SYM(_uhoh) | 68:
.long SYM(_uhoh) | 69:
.long SYM(_uhoh) | 70:
.long SYM(_uhoh) | 71:
.long SYM(_uhoh) | 72:
.long SYM(_uhoh) | 73:
.long SYM(_uhoh) | 74:
.long SYM(_uhoh) | 75:
.long SYM(_uhoh) | 76:
.long SYM(_uhoh) | 77:
.long SYM(_uhoh) | 78:
.long SYM(_uhoh) | 79:
.long SYM(_uhoh) | 80:
.long SYM(_uhoh) | 81:
.long SYM(_uhoh) | 82:
.long SYM(_uhoh) | 83:
.long SYM(_uhoh) | 84:
.long SYM(_uhoh) | 85:
.long SYM(_uhoh) | 86:
.long SYM(_uhoh) | 87:
.long SYM(_uhoh) | 88:
.long SYM(_uhoh) | 89:
.long SYM(_uhoh) | 90:
.long SYM(_uhoh) | 91:
.long SYM(_uhoh) | 92:
.long SYM(_uhoh) | 93:
.long SYM(_uhoh) | 94:
.long SYM(_uhoh) | 95:
.long SYM(_uhoh) | 96:
.long SYM(_uhoh) | 97:
.long SYM(_uhoh) | 98:
.long SYM(_uhoh) | 99:
.long SYM(_uhoh) | 100:
.long SYM(_uhoh) | 101:
.long SYM(_uhoh) | 102:
.long SYM(_uhoh) | 103:
.long SYM(_uhoh) | 104:
.long SYM(_uhoh) | 105:
.long SYM(_uhoh) | 106:
.long SYM(_uhoh) | 107:
.long SYM(_uhoh) | 108:
.long SYM(_uhoh) | 109:
.long SYM(_uhoh) | 110:
.long SYM(_uhoh) | 111:
.long SYM(_uhoh) | 112:
.long SYM(_uhoh) | 113:
.long SYM(_uhoh) | 114:
.long SYM(_uhoh) | 115:
.long SYM(_uhoh) | 116:
.long SYM(_uhoh) | 117:
.long SYM(_uhoh) | 118:
.long SYM(_uhoh) | 119:
.long SYM(_uhoh) | 120:
.long SYM(_uhoh) | 121:
.long SYM(_uhoh) | 122:
.long SYM(_uhoh) | 123:
.long SYM(_uhoh) | 124:
.long SYM(_uhoh) | 125:
.long SYM(_uhoh) | 126:
.long SYM(_uhoh) | 127:
.long SYM(_uhoh) | 128:
.long SYM(_uhoh) | 129:
.long SYM(_uhoh) | 130:
.long SYM(_uhoh) | 131:
.long SYM(_uhoh) | 132:
.long SYM(_uhoh) | 133:
.long SYM(_uhoh) | 134:
.long SYM(_uhoh) | 135:
.long SYM(_uhoh) | 136:
.long SYM(_uhoh) | 137:
.long SYM(_uhoh) | 138:
.long SYM(_uhoh) | 139:
.long SYM(_uhoh) | 140:
.long SYM(_uhoh) | 141:
.long SYM(_uhoh) | 142:
.long SYM(_uhoh) | 143:
.long SYM(_uhoh) | 144:
.long SYM(_uhoh) | 145:
.long SYM(_uhoh) | 146:
.long SYM(_uhoh) | 147:
.long SYM(_uhoh) | 148:
.long SYM(_uhoh) | 149:
.long SYM(_uhoh) | 150:
.long SYM(_uhoh) | 151:
.long SYM(_uhoh) | 152:
.long SYM(_uhoh) | 153:
.long SYM(_uhoh) | 154:
.long SYM(_uhoh) | 155:
.long SYM(_uhoh) | 156:
.long SYM(_uhoh) | 157:
.long SYM(_uhoh) | 158:
.long SYM(_uhoh) | 159:
.long SYM(_uhoh) | 160:
.long SYM(_uhoh) | 161:
.long SYM(_uhoh) | 162:
.long SYM(_uhoh) | 163:
.long SYM(_uhoh) | 164:
.long SYM(_uhoh) | 165:
.long SYM(_uhoh) | 166:
.long SYM(_uhoh) | 167:
.long SYM(_uhoh) | 168:
.long SYM(_uhoh) | 169:
.long SYM(_uhoh) | 170:
.long SYM(_uhoh) | 171:
.long SYM(_uhoh) | 172:
.long SYM(_uhoh) | 173:
.long SYM(_uhoh) | 174:
.long SYM(_uhoh) | 175:
.long SYM(_uhoh) | 176:
.long SYM(_uhoh) | 177:
.long SYM(_uhoh) | 178:
.long SYM(_uhoh) | 179:
.long SYM(_uhoh) | 180:
.long SYM(_uhoh) | 181:
.long SYM(_uhoh) | 182:
.long SYM(_uhoh) | 183:
.long SYM(_uhoh) | 184:
.long SYM(_uhoh) | 185:
.long SYM(_uhoh) | 186:
.long SYM(_uhoh) | 187:
.long SYM(_uhoh) | 188:
.long SYM(_uhoh) | 189:
.long SYM(_uhoh) | 190:
.long SYM(_uhoh) | 191:
.long SYM(_uhoh) | 192:
.long SYM(_uhoh) | 193:
.long SYM(_uhoh) | 194:
.long SYM(_uhoh) | 195:
.long SYM(_uhoh) | 196:
.long SYM(_uhoh) | 197:
.long SYM(_uhoh) | 198:
.long SYM(_uhoh) | 199:
.long SYM(_uhoh) | 200:
.long SYM(_uhoh) | 201:
.long SYM(_uhoh) | 202:
.long SYM(_uhoh) | 203:
.long SYM(_uhoh) | 204:
.long SYM(_uhoh) | 205:
.long SYM(_uhoh) | 206:
.long SYM(_uhoh) | 207:
.long SYM(_uhoh) | 208:
.long SYM(_uhoh) | 209:
.long SYM(_uhoh) | 210:
.long SYM(_uhoh) | 211:
.long SYM(_uhoh) | 212:
.long SYM(_uhoh) | 213:
.long SYM(_uhoh) | 214:
.long SYM(_uhoh) | 215:
.long SYM(_uhoh) | 216:
.long SYM(_uhoh) | 217:
.long SYM(_uhoh) | 218:
.long SYM(_uhoh) | 219:
.long SYM(_uhoh) | 220:
.long SYM(_uhoh) | 221:
.long SYM(_uhoh) | 222:
.long SYM(_uhoh) | 223:
.long SYM(_uhoh) | 224:
.long SYM(_uhoh) | 225:
.long SYM(_uhoh) | 226:
.long SYM(_uhoh) | 227:
.long SYM(_uhoh) | 228:
.long SYM(_uhoh) | 229:
.long SYM(_uhoh) | 230:
.long SYM(_uhoh) | 231:
.long SYM(_uhoh) | 232:
.long SYM(_uhoh) | 233:
.long SYM(_uhoh) | 234:
.long SYM(_uhoh) | 235:
.long SYM(_uhoh) | 236:
.long SYM(_uhoh) | 237:
.long SYM(_uhoh) | 238:
.long SYM(_uhoh) | 239:
.long SYM(_uhoh) | 240:
.long SYM(_uhoh) | 241:
.long SYM(_uhoh) | 242:
.long SYM(_uhoh) | 243:
.long SYM(_uhoh) | 244:
.long SYM(_uhoh) | 245:
.long SYM(_uhoh) | 246:
.long SYM(_uhoh) | 247:
.long SYM(_uhoh) | 248:
.long SYM(_uhoh) | 249:
.long SYM(_uhoh) | 250:
.long SYM(_uhoh) | 251:
.long SYM(_uhoh) | 252:
.long SYM(_uhoh) | 253:
.long SYM(_uhoh) | 254:
.long SYM(_uhoh) | 255:
/*
* Default trap handler
* With an oscilloscope you can see AS* stop
*/
PUBLIC (_uhoh)
SYM(_uhoh): nop | Leave spot for breakpoint
/* stop #0x2700 | Stop with interrupts disabled */
move.w #0x2700,sr
move.w (a7),_boot_panic_registers+4 | SR
move.l 2(a7),_boot_panic_registers | PC
move.w 6(a7),_boot_panic_registers+6 | format & vector
movem.l d0-d7/a0-a7, _boot_panic_registers+8
movec sfc, d0
movem.l d0, _boot_panic_registers+72
movec dfc, d0
movem.l d0, _boot_panic_registers+76
movec vbr, d0
movem.l d0, _boot_panic_registers+80
jmp SYM(_dbug_dumpanic)
bra.s _crt0_cold_start
/*
* Log, but otherwise ignore, spurious interrupts
*/
PUBLIC (_spuriousInterrupt)
SYM(_spuriousInterrupt):
addql #1,SYM(_M68kSpuriousInterruptCount)
rte
/*
* Place the low-order 3 octets of the board's ethernet address at
* a `well-known' fixed location relative to the startup location.
*/
.align 2
.word 0 | Padding
ethernet_address_buffer:
.word 0x08F3 | Default address
.word 0xDEAD
.word 0xCAFE
BEGIN_DATA
/* equates */
.equ _CPU340, 0x0
.equ _CPU349, 0x31
#ifdef _OLD_ASTECC /* old addresses for AST68340 only */
.equ _EPLD_CS_BASE, 0x1
.equ _PROM_Start, 0x01000000 /* CS0 */
.equ _FLEX_Start, 0x08000000 /* CS2 */
.equ _I2C_Start, 0x0c000000 /* CS3 */
.equ _BCCram_Start, 0x00000000 /* CS1 64 Kbytes */
.equ _BCCram_Size, 0x00010000 /* CS1 64 Kbytes */
.equ _ExtRam_Start, 0x10000000 /* SRAM */
.equ _ExtRam_Size, 0x00400000 /* 4 Mbytes */
.equ _FastRam_Start, 0x00000000 /* overlap /CS1 for the first 4 Kbytes */
.equ _FastRam_Size, 0x00001000 /* 4 Kbytes */
#else /* new addresses for AST68349 and 68340 */
.equ _EPLD_CS_BASE, 0x5
.equ _PROM_Start, 0x50000000 /* CS0 */
.equ _FLEX_Start, 0x08000000 /* CS2 */
.equ _I2C_Start, 0x0c000000 /* CS3 */
.equ _BCCram_Start, 0x00000000 /* CS1 64 Kbytes */
.equ _BCCram_Size, 0x00010000 /* CS1 64 Kbytes */
.equ _ExtRam_Start, 0x80000000 /* DRAM */
.equ _ExtRam_Size, 0x00400000 /* 4 Mbytes */
.equ _FastRam_Start, 0x00000000 /* overlap /CS1 for the first 4 Kbytes */
.equ _FastRam_Size, 0x00001000 /* 4 Kbytes */
#endif
.equ _SPEED349, 0xD680 /* 24 Mhz */
.equ _SPEED340, 0xD700 /* 25 Mhz */
/* .equ _SPEED340, 0xCE00 16 Mhz */
#define crt0_boot_type d0 /* cold/warm start (must be D0) */
#define crt0_temp d1
#define crt0_cpu_type d2
#define crt0_csswitch d3
#define crt0_buswidth d4
#define crt0_pdcs d5
#define crt0_spare6 d6
#define crt0_spare7 d7
#define crt0_sim_base a0
#define crt0_glue a1
#define crt0_dram a2
#define crt0_ptr3 a3
#define crt0_ptr4 a4
#define crt0_ptr5 a5
#define crt0_ptr6 a6
/* -- PDCS buffer equates -- */
.equ pdcs_mask, 0x1F /* DRAM configuration */
.equ pdcs_sw12, 7 /* switch 12 */
.equ pdcs_sw11, 6 /* switch 11 */
.equ pdcs_sw14, 5 /* switch 14 */
.equ bit_cache, pdcs_sw12 /* enable cache if on */
.equ bit_meminit, pdcs_sw11 /* init memory if on */
/* -- Initialization stack and vars -- */
_AsteccBusWidth: ds.b 1
_AsteccCsSwitch: ds.b 1
_AsteccCpuName: ds.l 1
.align 4
_crt0_init_stack:
ds.l 500
_crt0_init_stktop:
/* -- Initialization code -- */
BEGIN_CODE
.align 4
dc.l _crt0_init_stktop /* reset SP */
dc.l _crt0_cold_start /* reset PC */
dc.l _crt0_warm_start
.ascii "BOOT XHM68K/Spectra for ASTECC 68349 and 68340 boards"
dc.w 0
.align 4
.globl start
start:
_crt0_cold_start:
moveq.l #0,crt0_boot_type | signal cold reset
bra.s _crt0_common_start
_crt0_warm_start:
moveq.l #1,crt0_boot_type | signal warm reset
_crt0_common_start:
move.w #0x2700,sr | disable interrupts and switch to interrupt mode
movea.l #_crt0_init_stktop,sp | set up initialization stack
move.l #Entry,crt0_temp | VBR initialization
movec.l crt0_temp,vbr |
moveq.l #0x07,crt0_temp
movec.l crt0_temp,dfc | prepare access in CPU space
move.l #(BASE_SIM+0x111),crt0_temp | mask CPU, RESERVED USER SPACES
moves.l crt0_temp,BASE_REG | base initialization (must be MOVES, PCC-130795)
movea.l #BASE_SIM,crt0_sim_base
/* -- disable Bus Monitor -- */
move.b #0,SIM_SYPCR(crt0_sim_base) | system protection control register
/* -- enable A31-A24 -- */
clr.b SIM_PPRA1(crt0_sim_base)
/* -- show cycles, user acces to SIM, 4 /CS & 4 /IT -- */
move.w #0x427F,SIM_MCR(crt0_sim_base)
/* -- enable /IRQ3, 5, 6, 7 -- */
move.b #0xE8,SIM_PPRB(crt0_sim_base)
/* -- enable autovector on /IRQ7 -- */
move.b #0x80,SIM_AVR(crt0_sim_base)
/* -- test CPU type -- */
cmp.b #_CPU349,SIM_IDR(crt0_sim_base)
bne cpu_is_68340
/*-------------------------------------------------------------------------------------------*/
cpu_is_68349:
/* -- set cpu clock -- */
move.w #_SPEED349,SIM_SYNCR(crt0_sim_base) | clock
sync_wait349:
btst.b #3,(SIM_SYNCR+1)(crt0_sim_base)
beq sync_wait349
/* to allow access to the EPLD internal registers, it is necessary
to disable the global chip-select /CS0 (which decodes every external
cycles). To do that, we initialize the 68349 internal RAM,
copy a part of the initialization code in it, and jump there.
from that moment, /CS0 is not used, therefore it can be initialized
with its default value. Its width may be incorrect, but it will be
adjusted later. The goal is to avoid any conflict with
the accesses to the EPLD registers.
When this is done, we read the RESET parameters (boot prom width
and chip-select switch) and proceed with the initialization
when all is done, we jump back to the boot prom now
decoded with a properly configured /CS0 */
/*-------------------------------------*/
/* -- configure internal SRAM banks -- */
move.l #0x00000000,QDMM_MCR(crt0_sim_base)
move.l #_FastRam_Start+0x0005,QDMM_QBAR0(crt0_sim_base)
move.l #_FastRam_Start+0x0405,QDMM_QBAR1(crt0_sim_base)
move.l #_FastRam_Start+0x0805,QDMM_QBAR2(crt0_sim_base)
move.l #_FastRam_Start+0x0c05,QDMM_QBAR3(crt0_sim_base)
/*--------------------------------------------------------*/
/* -- copy to address of the 68349 initialization code -- */
lea.l _copy_start_code(%pc),crt0_ptr3
lea.l _copy_end_code(%pc),crt0_ptr4
move.l crt0_ptr4,crt0_temp
sub.l crt0_ptr3,crt0_temp
add.l #3,crt0_temp | adjust to next long word
lsr.l #2,crt0_temp
move.l #_FastRam_Start,crt0_ptr4
_copy_loop:
move.l (crt0_ptr3)+,(crt0_ptr4)+
subq.l #1,crt0_temp
bne.s _copy_loop
bra.l _FastRam_Start | jump to code in internal RAM
/*------------------------------------*/
/* -- start of initialization code -- */
_copy_start_code:
bra.l _begin_68349_init
/*----------------------------------------------------------*/
/* Astecc 68349 board : chip-select initialization values */
_table_csepld:
dc.b (_EPLD_CS_BASE&0x0F)+0x80 | 16 bits, 0ws
dc.b 0x80 | 16 bits, 0 ws
dc.b 0x90 | 16 bits, ext /dsack
dc.b 0x90 | 16 bits, ext /dsack
_table_cs349:
dc.l 0x003FFFF4 | Mask CS0 (4Mbytes PROM, 32bits, 1WS)
dc.l (_PROM_Start&0xFFFFFF00)+0x00000003 | Base CS0
dc.l 0x003FFFF1 | MASK CS1 (4Mbytes RAM, 16bits, 0WS)
dc.l (_BCCram_Start&0xFFFFFF00)+0x00000003 | Base CS1
dc.l 0x000000FF | MASK CS2 (FLEX, ext DTACK, 256 bytes)
dc.l (_FLEX_Start&0xFFFFFF00)+0x00000003 | Base CS2
dc.l 0x000000FF | Mask CS3 (I2C, ext DTACK, 256 bytes)
dc.l (_I2C_Start&0xFFFFFF00)+0x00000003 | Base CS3
/*-------------------------------------------------*/
_begin_68349_init:
/*-------------------------------------------------*/
/* 68349 chip select initialization
at this stage, the width of /CS0 may be incorrect
it will be corrected later
*/
_cs68349_init:
lea.l SIM_MASKH0(crt0_sim_base),crt0_ptr4
lea.l _table_cs349(%pc),crt0_ptr3
moveq.l #0x07,crt0_temp
_cs349_init2:
move.l (crt0_ptr3)+,(crt0_ptr4)+
dbra crt0_temp,_cs349_init2
/*-----------------------------------------------*/
/* -- prepare access to the internal registers --*/
moveq.l #EPLD_SPACE,crt0_temp
movec.l crt0_temp,dfc
movec.l crt0_temp,sfc
move.l #GLUE_EPLD,crt0_glue
move.l #DRAM_EPLD,crt0_dram
/*-------------------------------------------*/
/* EPLD generated /CS[3..0] must be disabled */
_csepld_clear:
move.l crt0_glue,crt0_ptr4
move.w #3,crt0_spare6
clr.b crt0_temp
_csepld_clear1:
moves.b crt0_temp,(crt0_ptr4)+
dbra crt0_spare6,_csepld_clear1
/*---------------------------------------------------------*/
/* -- get width of boot PROM, and active chip-select set --*/
moves.b REG_BUSWIDTH(crt0_dram),crt0_csswitch
move.b crt0_csswitch,crt0_buswidth
/* state of CS_SWITCH : sel == 0 => CPU chip_selects (/CS[3..0])
: sel == 1 => EPLD chip_selects (/CS[3..0]) */
and.b #1,crt0_csswitch
/* bus width of /CS0 during reset bw[1..0] : 0 1 2 3
bus width : 32 16 8 ext./dsackx */
rol.b #2,crt0_buswidth
and.b #3,crt0_buswidth
/*----------------------------------------------------*/
/* -- configure chip select 0 with boot prom width -- */
lea.l SIM_MASKH0(crt0_sim_base),crt0_ptr4
lea.l _table_cs349(%pc),crt0_ptr3
move.l (crt0_ptr3)+,crt0_temp
and.b #0xFC,crt0_temp | clear PS0 & PS1
or.b crt0_buswidth,crt0_temp | set boot PROM bus width
move.l crt0_temp,(crt0_ptr4)+
/*------------------------*/
/* -- read PDCS buffer -- */
moves.b REG_PDCS(crt0_glue),crt0_pdcs
/* move.b #0x3F,crt0_pdcs pour test */
/*---------------------------------------*/
/* -- EPLD chip-select initialization -- */
/*---------------------------------------*/
btst.b #0,crt0_csswitch
beq _cs_init_end
/*--------------------------------------------*/
/* 68349 generated /CS[3..0] must be disabled */
lea.l SIM_MASKH0(crt0_sim_base),crt0_ptr4
lea.l _table_cs349(%pc),crt0_ptr3
moveq.l #0x03,crt0_temp
_cs349_clear:
move.l (crt0_ptr3)+,(crt0_ptr4)+
move.l (crt0_ptr3)+,crt0_spare6
and.b #0xFE,crt0_spare6 | disable chip-select
move.l crt0_spare6,(crt0_ptr4)+
dbra crt0_temp,_cs349_clear
/*---------------------------------------------*/
/* EPLD generated /CS[3..0] must be configured */
_csepld_init:
move.l crt0_glue,crt0_ptr4
lea.l _table_csepld(%pc),crt0_ptr3
move.b (crt0_ptr3)+,crt0_temp
or.b #0x20,crt0_temp | default width is 32 bits
tst.b crt0_buswidth | is boot PROM bus width 32 bits ?
beq _csepld1 | if not
and.b #0xDF,crt0_temp | set width to 16 bits
_csepld1:
moves.b crt0_temp,(crt0_ptr4)+
moveq.l #0x02,crt0_spare6
_csepld2:
move.b (crt0_ptr3)+,crt0_temp
moves.b crt0_temp,(crt0_ptr4)+
dbra crt0_spare6,_csepld2
_cs_init_end:
/*--------------------------------------*/
/* -- DRAM controller initialization -- */
_dram_init:
move.w #15,crt0_temp
move.l #_ExtRam_Start,crt0_ptr3
_dram_init1:
clr.l (crt0_ptr3)+ | must access DRAM
dbra crt0_temp,_dram_init1 | prior to init refresh
_dram_init2:
move.b #3,crt0_temp
moves.b crt0_temp,REG_WS(crt0_dram) | set 3 wait-states
move.b #0x81,crt0_temp
move.b #0,crt0_temp
moves.b crt0_temp,REG_CONFIG(crt0_dram) | default size = 4Mbytes
/*-----------------------*/
/* -- configure cache -- */
_init_cache:
move.l #0x000001E0,CACHE_MCR(crt0_sim_base)
btst.b #bit_cache,crt0_pdcs
bne _init_cache_end
or.l #0x00000001,CACHE_MCR(crt0_sim_base)
_init_cache_end:
/*-----------------------------*/
/* -- timers initialization -- */
clr.b crt0_temp
moves.b crt0_temp,REG_TIMER1(crt0_glue) | disable timer 1
moves.b crt0_temp,REG_TIMER2(crt0_glue) | disable timer 2
/*--------------------------*/
/* -- I2C initialization -- */
move.b #3,crt0_temp
moves.b crt0_temp,REG_I2C(crt0_glue) | tri-states I2C ports
/*-----------------------------------------*/
/* -- baudrate generator initialization -- */
move.b #2,crt0_temp
moves.b crt0_temp,REG_BAUDRATE(crt0_glue) | baudrate = 38400
/*-------------------------------*/
/* -- IO port initialization -- */
clr.b crt0_temp
moves.b crt0_temp,REG_IO(crt0_glue) | set port as input
/* -- */
move.l #68349,crt0_cpu_type
/* -- jump back to PROM -- */
jmp.l (_fill_test) | must be absolute long
_copy_end_code:
/*-------------------------------------------------
initialization code for the 68340 board
-------------------------------------------------*/
/* Astecc 68340 board : chip-select initialization values */
_table_cs340:
dc.l 0x003FFFF0 /* Mask CS0 (4Mbytes PROM, 32bits, 0WS) */
dc.l ((_PROM_Start&0xFFFFFF00)+0x00000003) /* Base CS0 */
dc.l 0x0000FFFD /* MASK CS1 (RAMBCC340, 0WS, FTE) */
dc.l ((_BCCram_Start&0xFFFFFF00)+0x00000003) /* Base CS1 */
dc.l 0x000000FF /* MASK CS2 (FLEX, ext DTACK, 256 bytes) */
dc.l ((_FLEX_Start&0xFFFFFF00)+0x00000003) /* Base CS2 */
dc.l 0x000000FF /* Mask CS3 (I2C, ext DTACK, 256 bytes) */
dc.l ((_I2C_Start&0xFFFFFF00)+0x00000003) /* Base CS3 */
cpu_is_68340:
/* -- set cpu clock -- */
move.w #_SPEED340,SIM_SYNCR(crt0_sim_base) | clock
sync_wait340:
btst.b #3,(SIM_SYNCR+1)(crt0_sim_base)
beq sync_wait340
/* -- chip select initialization -- */
lea.l SIM_MASKH0(crt0_sim_base),crt0_ptr4
lea.l _table_cs340(%pc),crt0_ptr3
moveq.l #0x07,crt0_temp
_b_cs340:
move.l (crt0_ptr3)+,crt0_ptr5
move.l crt0_ptr5,(crt0_ptr4)+ | pour test
dbra crt0_temp,_b_cs340
move.l #68340,crt0_cpu_type
move.b #0,crt0_csswitch | CPU
move.b #1,crt0_buswidth | 16 bits
/*-------------------------------------------------
fill RAM if COLDSTART
-------------------------------------------------*/
_fill_test:
tst.l crt0_boot_type
bne _dont_fill
cmp.b #_CPU349,SIM_IDR(crt0_sim_base)
bne _fill
btst.b #bit_meminit,crt0_pdcs
bne _dont_fill
/* fill main memory */
_fill:
move.l #_crt0_init_stack,crt0_ptr3 | skip Astecc vars
move.l #_ExtRam_Start,crt0_temp
sub.l #_crt0_init_stack,crt0_temp
add.l #_ExtRam_Size,crt0_temp | get size
lsr.l #2,crt0_temp | ajust for long word
_fill_loop:
clr.l (crt0_ptr3)+
subq.l #1,crt0_temp
bne _fill_loop
cmp.b #_CPU349,SIM_IDR(crt0_sim_base)
bne _fill_bccram
/* fill QDMM memory */
movea.l #_FastRam_Start,crt0_ptr3 | get start
move.l #_FastRam_Size,crt0_temp | get size
lsr.l #2,crt0_temp | ajust for long word
_QDMMfill_loop:
clr.l (crt0_ptr3)+
subq.l #1,crt0_temp
bne _QDMMfill_loop
bra _dont_fill
/* fill BCC memory */
_fill_bccram:
movea.l #_BCCram_Start,crt0_ptr3 | get start
move.l #_BCCram_Size,crt0_temp | get size
lsr.l #2,crt0_temp | ajust for long word
_BCCfill_loop:
clr.l (crt0_ptr3)+
subq.l #1,crt0_temp
bne _BCCfill_loop
*-------------------------------------------------*/
_dont_fill:
move.b crt0_csswitch,_AsteccCsSwitch
move.b crt0_buswidth,_AsteccBusWidth
move.l crt0_cpu_type,_AsteccCpuName
jmp SYM(_Init68340) | Start C code (which never returns)
/*
* Copy DATA segment, clear BSS segment, set up real stack,
* initialize heap, start C program.
* Assume that DATA and BSS sizes are multiples of 4.
*/
PUBLIC (_CopyDataClearBSSAndStart)
SYM(_CopyDataClearBSSAndStart):
lea SYM(_copy_start),a0 | Get start of DATA in RAM
lea SYM(_etext),a2 | Get start of DATA in ROM
cmpl a0,a2 | Are they the same?
beq.s NOCOPY | Yes, no copy necessary
lea SYM(_copy_end),a1 | Get end of DATA in RAM
bra.s COPYLOOPTEST | Branch into copy loop
COPYLOOP:
movel a2@+,a0@+ | Copy word from ROM to RAM
COPYLOOPTEST:
cmpl a1,a0 | Done?
bcs.s COPYLOOP | No, skip
NOCOPY:
lea _clear_start,a0 | Get start of BSS
lea _clear_end,a1 | Get end of BSS
clrl d0 | Value to set
bra.s ZEROLOOPTEST | Branch into clear loop
ZEROLOOP:
movel d0,a0@+ | Clear a word
ZEROLOOPTEST:
cmpl a1,a0 | Done?
bcs.s ZEROLOOP | No, skip
movel #_stack_init,a7 | set master stack pointer
movel d0,a7@- | environp
movel d0,a7@- | argv
movel d0,a7@- | argc
jsr SYM(boot_card) | Call C main
PUBLIC (_mainDone)
SYM(_mainDone):
nop | Leave spot for breakpoint
movew #1,a7 | Force a double bus error
movel d0,a7@- | This should cause a RESET
/* stop #0x2700 | Stop with interrupts disabled */
move.w #0x2700,sr
bra.l SYM(_mainDone) | Stuck forever
.align 2
BEGIN_DATA_DCL
.align 2
PUBLIC (environ)
SYM (environ):
.long 0
PUBLIC (_M68kSpuriousInterruptCount)
SYM (_M68kSpuriousInterruptCount):
.long 0
END_DATA_DCL
END
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