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|
/* *********************************************************************
* Broadcom Common Firmware Environment (CFE)
*
* Verification Test APIs File: vapi.S
*
* This module contains special low-level routines for use
* by verification programs.
*
* Author: Mitch Lichtenberg (mpl@broadcom.com)
*
*********************************************************************
*
* Copyright 2000,2001,2002,2003
* Broadcom Corporation. All rights reserved.
*
* This software is furnished under license and may be used and
* copied only in accordance with the following terms and
* conditions. Subject to these conditions, you may download,
* copy, install, use, modify and distribute modified or unmodified
* copies of this software in source and/or binary form. No title
* or ownership is transferred hereby.
*
* 1) Any source code used, modified or distributed must reproduce
* and retain this copyright notice and list of conditions
* as they appear in the source file.
*
* 2) No right is granted to use any trade name, trademark, or
* logo of Broadcom Corporation. The "Broadcom Corporation"
* name may not be used to endorse or promote products derived
* from this software without the prior written permission of
* Broadcom Corporation.
*
* 3) THIS SOFTWARE IS PROVIDED "AS-IS" AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING BUT NOT LIMITED TO, ANY IMPLIED
* WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR
* PURPOSE, OR NON-INFRINGEMENT ARE DISCLAIMED. IN NO EVENT
* SHALL BROADCOM BE LIABLE FOR ANY DAMAGES WHATSOEVER, AND IN
* PARTICULAR, BROADCOM SHALL NOT BE LIABLE FOR DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE
* GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR
* TORT (INCLUDING NEGLIGENCE OR OTHERWISE), EVEN IF ADVISED OF
* THE POSSIBILITY OF SUCH DAMAGE.
********************************************************************* */
#include "sbmips.h"
#include "bsp_config.h"
#include "mipsmacros.h"
#if CFG_VAPI
#if (CFG_EMBEDDED_PIC)
#error "CFG_VAPI is not compatible with relocatable code"
#endif
#include "cfe_devfuncs.h"
#include "sb1250_defs.h"
#include "sb1250_regs.h"
#include "sb1250_scd.h"
#include "vapi.h"
/* *********************************************************************
* Constants
********************************************************************* */
#define CALLKSEG1(x) \
la t0,x ; \
or t0,K1BASE ; \
jal t0
#ifndef CFG_STACK_SIZE
#define STACK_SIZE 8192
#else
#define STACK_SIZE ((CFG_STACK_SIZE+1023) & ~1023)
#endif
#define REGIDX(x) ((x)*8)
#define SAVE_RA REGIDX(0)
#define SAVE_GP REGIDX(1)
#define SAVE_AT REGIDX(2)
#define SAVE_T0 REGIDX(3)
#define SAVE_T1 REGIDX(4)
#define SAVE_T2 REGIDX(5)
#define SAVE_T3 REGIDX(6)
#define SAVE_A0 REGIDX(7)
#define SAVE_A1 REGIDX(8)
#define SAVE_A2 REGIDX(9)
#define SAVE_SIZE REGIDX(10)
#define SAVETEMPS(x) \
.set noat ; \
la k0,x ; \
sd ra,SAVE_RA(k0) ; \
sd gp,SAVE_GP(k0) ; \
sd AT,SAVE_AT(k0) ; \
sd t0,SAVE_T0(k0) ; \
sd t1,SAVE_T1(k0) ; \
sd t2,SAVE_T2(k0) ; \
sd t3,SAVE_T3(k0) ; \
sd a0,SAVE_A0(k0) ; \
sd a1,SAVE_A1(k0) ; \
sd a2,SAVE_A2(k0) ; \
.set at ; \
la gp,_gp
#define RESTORETEMPS(x) \
.set noat ; \
la k0,x ; \
ld ra,SAVE_RA(k0) ; \
ld gp,SAVE_GP(k0) ; \
ld AT,SAVE_AT(k0) ; \
ld t0,SAVE_T0(k0) ; \
ld t1,SAVE_T1(k0) ; \
ld t2,SAVE_T2(k0) ; \
ld t3,SAVE_T3(k0) ; \
ld a0,SAVE_A0(k0) ; \
ld a1,SAVE_A1(k0) ; \
ld a2,SAVE_A2(k0) ; \
.set at
#define RECPTR t3
#define CHECKPTR(label) \
ld RECPTR,vapi_logptr ; \
ld t0,vapi_logend ; \
beq RECPTR,zero,label ; \
bge RECPTR,t0,label
#define SETRECTYPE(x,id) \
ld RECPTR,vapi_logptr ; \
li t2,(VAPI_CFESEAL | (x)) ; \
mfc0 t0,C0_PRID ; \
srl t0,t0,25 ; \
and t0,t0,7 ; \
sll t0,t0,VAPI_PRNUM_SHIFT ; \
or t2,t2,t0 ; \
dsll t2,t2,32 ; \
or t2,id ; \
sd t2,VAPI_REC_SIGNATURE(RECPTR) ; \
mfc0 t2,C0_COUNT ; \
dsll t2,t2,32 ; \
sd t2,VAPI_REC_SIZE(RECPTR) ; \
sd ra,VAPI_REC_RA(RECPTR)
#define SETRECLEN_CONST(len) \
ld t2,VAPI_REC_SIZE(RECPTR) ; \
or t2,len ; \
sd t2,VAPI_REC_SIZE(RECPTR)
#define SETRECLEN_REG(r) \
ld t2,VAPI_REC_SIZE(RECPTR) ; \
or t2,r ; \
sd t2,VAPI_REC_SIZE(RECPTR)
/* *********************************************************************
* Data
********************************************************************* */
.sdata
.globl vapi_logstart
.globl vapi_logend
.globl vapi_logptr
.globl vapi_status
.globl vapi_logover
vapi_logstart: .dword 0
vapi_logend: .dword 0
vapi_logptr: .dword 0
vapi_status: .dword -1
vapi_logover: .dword 0
.extern mem_heapstart
.bss
.comm vapi_regsave,REGIDX(64)
.text
.globl vapi_socregs
vapi_socregs:
#ifdef _P5064_
.word 0, 0
#else
#include "sb1250_socregs.inc"
#endif
.text
.extern cfe_warmstart
.set reorder
/* *********************************************************************
* VAPI_KSEG0_SWITCH
*
* Hack the return address so we will come back in KSEG0
*
* Input parameters:
* nothing
*
* Return value:
* nothing
********************************************************************* */
LEAF(vapi_kseg0_switch)
and ra,(K0SIZE-1)
or ra,K0BASE
jr ra
END(vapi_kseg0_switch)
/* *********************************************************************
* VAPI_EXIT(status)
*
* Return from diagnostic to firmware
*
* Input parameters:
* a0 - exit status (0=ok, else error)
*
* Return value:
* does not return
********************************************************************* */
LEAF(vapi_exit)
move k1,a0
/*
* Reinitialize the CPU and the caches
*/
bal vapi_kseg1_switch
CALLKSEG1(sb1_cpu_init)
/*
* Don't initialize the caches again. Some diags
* leave data in the caches and if we invalidate it
* now we won't be able to see what happened.
*/
/* CALLKSEG1(sb1250_l1cache_init) */
/* CALLKSEG1(sb1250_l2cache_init) */
#ifdef __long64
/*
* Set back to 64-bit mode. Don't worry about the hazard
* here, it'll be eons before we need to use the KX space.
*/
mfc0 t0,C0_SR
or t0,t0,M_SR_KX
mtc0 t0,C0_SR
#endif
bal vapi_kseg0_switch
li a0,0x42424242 # 'BBBB'
jal board_setleds
move a0,k1
la gp,_gp
sd a0,vapi_status
LR sp,mem_heapstart
ADD sp,((CFG_HEAP_SIZE*1024)+STACK_SIZE - 8)
/*
* Create a log record for the EXIT status.
*/
ld t0,vapi_logptr
beq t0,zero,nolog
SETRECTYPE(VAPI_FMT_EXIT,0)
SETRECLEN_CONST(1)
sd a0,VAPI_REC_DATA(RECPTR)
add RECPTR,32
sd RECPTR,vapi_logptr
nolog:
li a0,0x45454545 # 'EEEE'
jal board_setleds
#if CFG_MULTI_CPUS
/*
* Restart the other CPU if it was left in RESET.
*/
la t2,PHYS_TO_K1(A_SCD_SYSTEM_CFG)
ld t0,0(t2)
dli t1,M_SYS_CPU_RESET_1 # Reset mask
and t0,t1 # Test if CPU is in reset
beq t0,zero,1f # skip if not in reset
li a0,1 # Whack the CPU
jal altcpu_cmd_stop # and put it back in idle
1:
#endif
ld a0,vapi_status
j cfe_warmstart
END(vapi_exit)
/* *********************************************************************
* VAPI_DUMPGPRS()
*
* Dump the GPRs to the console
*
* Input parameters:
* nothing
*
* Return value:
* nothing
*
* Registers used:
* k0 - scratch register for CFE
********************************************************************* */
LEAF(vapi_dumpgprs)
.set noat
la k0,vapi_regsave
sd $0,REGIDX(0)(k0)
sd $1,REGIDX(1)(k0)
sd $2,REGIDX(2)(k0)
sd $3,REGIDX(3)(k0)
sd $4,REGIDX(4)(k0)
sd $5,REGIDX(5)(k0)
sd $6,REGIDX(6)(k0)
sd $7,REGIDX(7)(k0)
sd $8,REGIDX(8)(k0)
sd $9,REGIDX(9)(k0)
sd $10,REGIDX(10)(k0)
sd $11,REGIDX(11)(k0)
sd $12,REGIDX(12)(k0)
sd $13,REGIDX(13)(k0)
sd $14,REGIDX(14)(k0)
sd $15,REGIDX(15)(k0)
sd $16,REGIDX(16)(k0)
sd $17,REGIDX(17)(k0)
sd $18,REGIDX(18)(k0)
sd $19,REGIDX(19)(k0)
sd $20,REGIDX(20)(k0)
sd $21,REGIDX(21)(k0)
sd $22,REGIDX(22)(k0)
sd $23,REGIDX(23)(k0)
sd $24,REGIDX(24)(k0)
sd $25,REGIDX(25)(k0)
sd $26,REGIDX(26)(k0) /* k0 */
sd $27,REGIDX(27)(k0)
sd $28,REGIDX(28)(k0)
sd $29,REGIDX(29)(k0)
sd $30,REGIDX(30)(k0)
sd $31,REGIDX(31)(k0)
.set at
# Save some CP0 registers here.
#define LSAVECP0(cp0,idx) \
dmfc0 t0,cp0 ; \
sd t0,REGIDX(idx)(k0)
LSAVECP0(C0_INX,32)
LSAVECP0(C0_RAND,33)
LSAVECP0(C0_TLBLO0,34)
LSAVECP0(C0_TLBLO1,35)
LSAVECP0(C0_CTEXT,36)
LSAVECP0(C0_PGMASK,37)
LSAVECP0(C0_WIRED,38)
LSAVECP0(C0_BADVADDR,39)
LSAVECP0(C0_COUNT,40)
LSAVECP0(C0_TLBHI,41)
LSAVECP0(C0_COMPARE,42)
LSAVECP0(C0_SR,43)
LSAVECP0(C0_CAUSE,44)
LSAVECP0(C0_EPC,45)
LSAVECP0(C0_PRID,46)
LSAVECP0(C0_CONFIG,47)
LSAVECP0(C0_LLADDR,48)
LSAVECP0(C0_WATCHLO,49)
LSAVECP0(C0_WATCHHI,50)
LSAVECP0(C0_XCTEXT,51)
LSAVECP0(C0_ECC,52)
LSAVECP0(C0_CACHEERR,53)
LSAVECP0(C0_TAGLO,54)
LSAVECP0(C0_TAGHI,55)
LSAVECP0(C0_ERREPC,56)
move a0,k0 /* pass addr of regs */
la gp,_gp
LR sp,mem_heapstart
ADD sp,((CFG_HEAP_SIZE*1024)+STACK_SIZE - 8)
jal vapi_dodumpregs /* dump registers in 'C' */
.set noat
la k0,vapi_regsave
ld $1,REGIDX(1)(k0)
ld $2,REGIDX(2)(k0)
ld $3,REGIDX(3)(k0)
ld $4,REGIDX(4)(k0)
ld $5,REGIDX(5)(k0)
ld $6,REGIDX(6)(k0)
ld $7,REGIDX(7)(k0)
ld $8,REGIDX(8)(k0)
ld $9,REGIDX(9)(k0)
ld $10,REGIDX(10)(k0)
ld $11,REGIDX(11)(k0)
ld $12,REGIDX(12)(k0)
ld $13,REGIDX(13)(k0)
ld $14,REGIDX(14)(k0)
ld $15,REGIDX(15)(k0)
ld $16,REGIDX(16)(k0)
ld $17,REGIDX(17)(k0)
ld $18,REGIDX(18)(k0)
ld $19,REGIDX(19)(k0)
ld $20,REGIDX(20)(k0)
ld $21,REGIDX(21)(k0)
ld $22,REGIDX(22)(k0)
ld $23,REGIDX(23)(k0)
ld $24,REGIDX(24)(k0)
ld $25,REGIDX(25)(k0)
/*ld $26,REGIDX(26)(k0) don't restore k0 */
ld $27,REGIDX(27)(k0)
ld $28,REGIDX(28)(k0)
ld $29,REGIDX(29)(k0)
ld $30,REGIDX(30)(k0)
ld $31,REGIDX(31)(k0)
.set at
j ra
END(vapi_dumpgprs)
/* *********************************************************************
* VAPI_SETLOG(start,end)
*
* Set the address of the log buffer. This call is required
* before any data will be stored in the log.
*
* Input parameters:
* a0 - start of log buffer, 64-bit aligned
* a1 - end of log buffer, 64-bit aligned
*
* Return value:
* nothing
*
* Registers used:
* k0 - scratch register for CFE
********************************************************************* */
LEAF(vapi_setlog)
SAVETEMPS(vapi_regsave)
sd a0,vapi_logstart
sd a0,vapi_logptr
sd a1,vapi_logend
sd zero,vapi_logover
RESTORETEMPS(vapi_regsave)
j ra
END(vapi_setlog)
/* *********************************************************************
* VAPI_LOGTRACE(id)
*
* Store a the contents of the trace buffer to the log
*
* Input parameters:
* a0 - low 32 bits are the ID code to store with the entry
* in the log.
*
* Return value:
* nothing
*
* Registers used:
* k0 - scratch register for CFE
********************************************************************* */
LEAF(vapi_logtrace)
j ra
END(vapi_logtrace)
/* *********************************************************************
* VAPI_LOGSINGLE(id,value)
*
* Store a single value in the log.
*
* Input parameters:
* a0 - low 32 bits are the ID code to store with the entry
* in the log.
* a1 - value to store in the log
*
* Return value:
* nothing
*
* Registers used:
* k0 - scratch register for CFE
********************************************************************* */
LEAF(vapi_logsingle)
SAVETEMPS(vapi_regsave)
CHECKPTR(99f)
SETRECTYPE(VAPI_FMT_DATA,a0)
SETRECLEN_CONST(1)
sd a1,VAPI_REC_DATA(RECPTR)
add RECPTR,32 # one record
sd RECPTR,vapi_logptr
99: RESTORETEMPS(vapi_regsave)
j ra
END(vapi_logsingle)
/* *********************************************************************
* VAPI_LOGDATA(id,addr,cnt)
*
* Store multiple values in the log
*
* Input parameters:
* a0 - low 32 bits are the ID code to store with the entry
* in the log.
* a1 - Address of values to store in the log
* a2 - number of 64-bit values to store in the log
*
* Return value:
* nothing
*
* Registers used:
* k0 - scratch register for CFE
********************************************************************* */
LEAF(vapi_logdata)
SAVETEMPS(vapi_regsave)
CHECKPTR(99f)
SETRECTYPE(VAPI_FMT_BUFFER,a0)
add t1,RECPTR,VAPI_REC_DATA # a1 = ptr to data ara
sd a1,0(t1)
add t1,8
move k0,a2 # counter for words
1: beq k0,zero,2f
ld t0,0(a1)
sd t0,0(t1)
add a1,8
add t1,8
sub k0,1
b 1b
2: add k0,a2,1 # total number of words
SETRECLEN_REG(k0)
sll k0,k0,3 # number of words we wrote
add k0,24 # size of header
add RECPTR,k0
sd RECPTR,vapi_logptr
99: RESTORETEMPS(vapi_regsave)
j ra
END(vapi_logdata)
/* *********************************************************************
* VAPI_SAVESOC(id)
*
* Save the SOC registers in the log
*
* Input parameters:
* a0 - low 32 bits are the ID code to store with the entry
* in the log
* a1 - bitmask of SOC agents to save
*
* Return value:
* nothing
*
* Registers used:
* k0 - scratch register for CFE
********************************************************************* */
LEAF(vapi_savesoc)
SAVETEMPS(vapi_regsave)
CHECKPTR(99f)
li t0,VAPI_CFESEAL | VAPI_FMT_SOC
dsll t0,t0,32
or t0,a0
mfc0 t1,C0_PRID
srl t1,t1,25
and t1,t1,7
sll t1,t1,VAPI_PRNUM_SHIFT
or t0,t0,t1
ld t1,vapi_logptr
sd t0,VAPI_REC_SIGNATURE(t1)
mfc0 t0,C0_COUNT
dsll t0,t0,32
sd t0,VAPI_REC_SIZE(t1)
sd ra,VAPI_REC_RA(t1)
move a2,zero # Counts how many we write
la t2,vapi_socregs
1: lw t0,0(t2) # get flags
beq t0,zero,2f
and t0,t0,a1 # test flags
beq t0,zero,3f # skip if no flags set
lw t0,4(t2) # get address of register
sd t0,VAPI_REC_DATA(t1) # store address of register
add t1,8 # next destination addr
add a2,1 # count the words written
or t0,K1BASE # Make K1seg
ld t0,0(t0) # Read SOC register
sd t0,VAPI_REC_DATA(t1) # Store in log
add t1,8 # next destination addr
add a2,1 # count the words written
3: add t2,8 # next reg from table
b 1b
2: ld t0,vapi_logptr # get original pointer
ld a1,VAPI_REC_SIZE(t0) # Get C0_COUNT value
or a1,a2 # OR in the record size
sd a1,VAPI_REC_SIZE(t0) # put the record size back
add t1,24 # Account for extra fields in record
sd t1,vapi_logptr # Update the pointer
99: RESTORETEMPS(vapi_regsave)
j ra
END(vapi_savesoc)
/* *********************************************************************
* VAPI_LOGGPRS(id)
*
* Save the general purpose registers and certain CP0 values
* in the log.
*
* Input parameters:
* a0 - low 32 bits are the ID code to store with the entry
* in the log
*
* Return value:
* nothing
*
* Registers used:
* k0 - scratch register for CFE
********************************************************************* */
#define REGLOG(x) (VAPI_REC_DATA+REGIDX(x))
#define MAXREGS 57
#define REGLOGMAX REGLOG(MAXREGS)
LEAF(vapi_loggprs)
SAVETEMPS(vapi_regsave)
CHECKPTR(99f)
.set noat
ld k0,vapi_logptr
sd $0,REGLOG(0)(k0)
sd $1,REGLOG(1)(k0)
sd $2,REGLOG(2)(k0)
sd $3,REGLOG(3)(k0)
sd $4,REGLOG(4)(k0)
sd $5,REGLOG(5)(k0)
sd $6,REGLOG(6)(k0)
sd $7,REGLOG(7)(k0)
sd $8,REGLOG(8)(k0)
sd $9,REGLOG(9)(k0)
sd $10,REGLOG(10)(k0)
sd $11,REGLOG(11)(k0)
sd $12,REGLOG(12)(k0)
sd $13,REGLOG(13)(k0)
sd $14,REGLOG(14)(k0)
sd $15,REGLOG(15)(k0)
sd $16,REGLOG(16)(k0)
sd $17,REGLOG(17)(k0)
sd $18,REGLOG(18)(k0)
sd $19,REGLOG(19)(k0)
sd $20,REGLOG(20)(k0)
sd $21,REGLOG(21)(k0)
sd $22,REGLOG(22)(k0)
sd $23,REGLOG(23)(k0)
sd $24,REGLOG(24)(k0)
sd $25,REGLOG(25)(k0)
sd $26,REGLOG(26)(k0)
sd $27,REGLOG(27)(k0)
sd $28,REGLOG(28)(k0)
sd $29,REGLOG(29)(k0)
sd $30,REGLOG(30)(k0)
sd $31,REGLOG(31)(k0)
.set at
# Save some CP0 registers here.
#define SAVECP0(cp0,idx) \
dmfc0 t0,cp0 ; \
sd t0,REGLOG(idx)(k0)
SAVECP0(C0_INX,32)
SAVECP0(C0_RAND,33)
SAVECP0(C0_TLBLO0,34)
SAVECP0(C0_TLBLO1,35)
SAVECP0(C0_CTEXT,36)
SAVECP0(C0_PGMASK,37)
SAVECP0(C0_WIRED,38)
SAVECP0(C0_BADVADDR,39)
SAVECP0(C0_COUNT,40)
SAVECP0(C0_TLBHI,41)
SAVECP0(C0_COMPARE,42)
SAVECP0(C0_SR,43)
SAVECP0(C0_CAUSE,44)
SAVECP0(C0_EPC,45)
SAVECP0(C0_PRID,46)
SAVECP0(C0_CONFIG,47)
SAVECP0(C0_LLADDR,48)
SAVECP0(C0_WATCHLO,49)
SAVECP0(C0_WATCHHI,50)
SAVECP0(C0_XCTEXT,51)
SAVECP0(C0_ECC,52)
SAVECP0(C0_CACHEERR,53)
SAVECP0(C0_TAGLO,54)
SAVECP0(C0_TAGHI,55)
SAVECP0(C0_ERREPC,56)
SETRECTYPE(VAPI_FMT_GPRS,a0)
SETRECLEN_CONST(MAXREGS)
add RECPTR,REGLOGMAX
sd RECPTR,vapi_logptr
99: RESTORETEMPS(vapi_regsave)
j ra # go home
END(vapi_loggprs)
/* *********************************************************************
* VAPI_LOGFPRS(id)
*
* Save the floating point unit's registers
* in the log.
*
* Input parameters:
* a0 - low 32 bits are the ID code to store with the entry
* in the log
*
* Return value:
* nothing
*
* Registers used:
* k0 - scratch register for CFE
********************************************************************* */
#define SAVEFPR(cp1,idx) \
dmfc1 t0,cp1 ; \
sd t0,FPREGLOG(idx)(k0)
#define SAVECP1(cp1,idx) \
cfc1 t0,cp1 ; \
sd t0,FPREGLOG(idx)(k0)
#define FPREGLOG(x) (VAPI_REC_DATA+REGIDX(x))
#define FPMAXREGS 37
#define FPREGLOGMAX FPREGLOG(FPMAXREGS)
LEAF(vapi_logfprs)
SAVETEMPS(vapi_regsave)
CHECKPTR(99f)
ld k0,vapi_logptr
SAVEFPR($0,0)
SAVEFPR($1,1)
SAVEFPR($2,2)
SAVEFPR($3,3)
SAVEFPR($4,4)
SAVEFPR($5,5)
SAVEFPR($6,6)
SAVEFPR($7,7)
SAVEFPR($8,8)
SAVEFPR($9,9)
SAVEFPR($10,10)
SAVEFPR($11,11)
SAVEFPR($12,12)
SAVEFPR($13,13)
SAVEFPR($14,14)
SAVEFPR($15,15)
SAVEFPR($16,16)
SAVEFPR($17,17)
SAVEFPR($18,18)
SAVEFPR($19,19)
SAVEFPR($20,20)
SAVEFPR($21,21)
SAVEFPR($22,22)
SAVEFPR($23,23)
SAVEFPR($24,24)
SAVEFPR($25,25)
SAVEFPR($26,26)
SAVEFPR($27,27)
SAVEFPR($28,28)
SAVEFPR($29,29)
SAVEFPR($30,30)
SAVEFPR($31,31)
SAVECP1($0,32) /* FIR */
SAVECP1($31,33) /* Status */
SAVECP1($25,34) /* condition codes */
SAVECP1($26,35) /* Exceptions */
SAVECP1($28,36) /* enables */
SETRECTYPE(VAPI_FMT_FPRS,a0)
SETRECLEN_CONST(FPMAXREGS)
add RECPTR,FPREGLOGMAX
sd RECPTR,vapi_logptr
99: RESTORETEMPS(vapi_regsave)
j ra # go home
END(vapi_logfprs)
/* *********************************************************************
* VAPI_PUTS(string)
*
* Display a string on the console
*
* Input parameters:
* a0 - pointer to null-terminated string
*
* Return value:
* nothing
*
* Registers used:
* k0 - scratch register for CFE
********************************************************************* */
LEAF(vapi_puts)
.set noat
la k0,vapi_regsave
sd $0,REGIDX(0)(k0)
sd $1,REGIDX(1)(k0)
sd $2,REGIDX(2)(k0)
sd $3,REGIDX(3)(k0)
sd $4,REGIDX(4)(k0)
sd $5,REGIDX(5)(k0)
sd $6,REGIDX(6)(k0)
sd $7,REGIDX(7)(k0)
sd $8,REGIDX(8)(k0)
sd $9,REGIDX(9)(k0)
sd $10,REGIDX(10)(k0)
sd $11,REGIDX(11)(k0)
sd $12,REGIDX(12)(k0)
sd $13,REGIDX(13)(k0)
sd $14,REGIDX(14)(k0)
sd $15,REGIDX(15)(k0)
sd $16,REGIDX(16)(k0)
sd $17,REGIDX(17)(k0)
sd $18,REGIDX(18)(k0)
sd $19,REGIDX(19)(k0)
sd $20,REGIDX(20)(k0)
sd $21,REGIDX(21)(k0)
sd $22,REGIDX(22)(k0)
sd $23,REGIDX(23)(k0)
sd $24,REGIDX(24)(k0)
sd $25,REGIDX(25)(k0)
sd $26,REGIDX(26)(k0) /* k0 */
sd $27,REGIDX(27)(k0)
sd $28,REGIDX(28)(k0)
sd $29,REGIDX(29)(k0)
sd $30,REGIDX(30)(k0)
sd $31,REGIDX(31)(k0)
.set at
la gp,_gp
LR sp,mem_heapstart
ADD sp,((CFG_HEAP_SIZE*1024)+STACK_SIZE - 8)
jal vapi_doputs /* dump registers in 'C' */
.set noat
la k0,vapi_regsave
ld $1,REGIDX(1)(k0)
ld $2,REGIDX(2)(k0)
ld $3,REGIDX(3)(k0)
ld $4,REGIDX(4)(k0)
ld $5,REGIDX(5)(k0)
ld $6,REGIDX(6)(k0)
ld $7,REGIDX(7)(k0)
ld $8,REGIDX(8)(k0)
ld $9,REGIDX(9)(k0)
ld $10,REGIDX(10)(k0)
ld $11,REGIDX(11)(k0)
ld $12,REGIDX(12)(k0)
ld $13,REGIDX(13)(k0)
ld $14,REGIDX(14)(k0)
ld $15,REGIDX(15)(k0)
ld $16,REGIDX(16)(k0)
ld $17,REGIDX(17)(k0)
ld $18,REGIDX(18)(k0)
ld $19,REGIDX(19)(k0)
ld $20,REGIDX(20)(k0)
ld $21,REGIDX(21)(k0)
ld $22,REGIDX(22)(k0)
ld $23,REGIDX(23)(k0)
ld $24,REGIDX(24)(k0)
ld $25,REGIDX(25)(k0)
/*ld $26,REGIDX(26)(k0) don't restore k0 */
ld $27,REGIDX(27)(k0)
ld $28,REGIDX(28)(k0)
ld $29,REGIDX(29)(k0)
ld $30,REGIDX(30)(k0)
ld $31,REGIDX(31)(k0)
.set at
j ra
END(vapi_puts)
/* *********************************************************************
* VAPI_SETLEDS(leds)
*
* Set the onboard LEDS on the swarm board.
*
* Input parameters:
* a0 - LED value, "ABCD" is 0x41424344
*
* Return value:
* nothing
*
* Registers used:
* k0 - scratch register for CFE
********************************************************************* */
LEAF(vapi_setleds)
SAVETEMPS(vapi_regsave)
jal board_setleds
RESTORETEMPS(vapi_regsave)
j ra
END(vapi_setleds)
/* *********************************************************************
* VAPI_KSEG1_SWITCH
*
* Hack the return address so we will come back in KSEG1 (uncached)
*
* Input parameters:
* nothing
*
* Return value:
* nothing
********************************************************************* */
LEAF(vapi_kseg1_switch)
and ra,(K0SIZE-1)
or ra,K1BASE
jr ra
END(vapi_kseg1_switch)
/* *********************************************************************
* VAPI_RUN()
*
* Jump to the diagnostic program, which must be loaded at the
* special address (typically 8002_0000). First we flush the
* cache, then set magic #'s in the mailbox. Finally, the core
* is reset. On restart, we do minimal initialization and jump
* directly to the diagnostic.
*
* Input parameters:
* a0 - nonzero to restart uncached.
*
* Return value:
* nothing
********************************************************************* */
LEAF(vapi_run)
/*
* Run uncached
*/
bal vapi_kseg1_switch # now running in KSEG1
/*
* Flush the caches
*/
move s0,a0 # L2 flush trashes A0
CALLKSEG1(sb1250_l1cache_flush_d)
CALLKSEG1(sb1250_l1cache_inval_i)
CALLKSEG1(sb1250_l2cache_flush)
move a0,s0
#ifdef _P5064_
/* In the case of the P5064, just jump directly to the entry point */
li t0,VAPI_DIAG_ENTRY
j t0
#else
/*
* Set the magic code in the mailbox.
*/
li t0,-1
la t1,PHYS_TO_K1(A_IMR_REGISTER(0,R_IMR_MAILBOX_CLR_CPU))
sd t0,0(t1)
dli t0,VAPI_MAGIC_NUMBER
beq a0,0,1f
dli t0,VAPI_MAGIC_NUMBER_UNC
beq a0,1,1f
dli t0,VAPI_MAGIC_NUMBER_MC
1: la t1,PHYS_TO_K1(A_IMR_REGISTER(0,R_IMR_MAILBOX_SET_CPU))
sd t0,0(t1)
/*
* Whack the reset line.
*/
#if defined(_PTSWARM_)
li k0,PHYS_TO_K1(0x1B0A0000+32+8*3)
#else
li k0,PHYS_TO_K1(0x100A0000+32+8*3)
#endif
li k1,'!'
li t1,PHYS_TO_K1(A_SCD_SYSTEM_CFG)
ld t2,0(t1)
dli t0,M_SYS_CPU_RESET_0 | M_SYS_CPU_RESET_1
or t2,t2,t0
bal vapi_kseg0_switch
.align 5
#if defined(_CSWARM_) || defined(_SWARM_) || defined(_PTSWARM_)
sb k1,0(k0)
#else
nop
#endif
sync /* flush the write buffer */
sd t2,0(t1)
1: b 1b
/*
* And he never returned, no he never returned... and his fate
* is still unknown, he will ride forever 'neath the cycles of
* the SB1, he's the core that never returned!
*/
#endif
END(vapi_run)
LEAF(vapi_flushtest)
move s1,ra
/*
* Run uncached
*/
bal vapi_kseg1_switch # now running in KSEG1
/*
* Flush the caches
*/
move s0,a0 # L2 flush trashes A0
CALLKSEG1(sb1250_l1cache_flush_d)
CALLKSEG1(sb1250_l1cache_inval_i)
CALLKSEG1(sb1250_l2cache_flush)
move a0,s0
/*
* Back to cached
*/
bal vapi_kseg0_switch # now running in KSEG1
move ra,s1
j ra
END(vapi_flushtest)
#endif /* CFG_VAPI */
/* *********************************************************************
* End
********************************************************************* */
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