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[/] [openrisc/] [trunk/] [orpsocv2/] [sw/] [tests/] [or1200/] [sim/] [or1200-tick.S] - Rev 742
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/*
Tick timer interrupt test
We specify our own reset and initialisation routines as we don't link
in the usual initialisation code.
Based on original or1200 tick timer test
modified by
Julius Baxter, julius@opencores.org
Tadej Markovic, tadej@opencores.org
*/
//////////////////////////////////////////////////////////////////////
//// ////
//// Copyright (C) 2010 Authors and OPENCORES.ORG ////
//// ////
//// This source file may be used and distributed without ////
//// restriction provided that this copyright statement is not ////
//// removed from the file and that any derivative work contains ////
//// the original copyright notice and the associated disclaimer. ////
//// ////
//// This source file is free software; you can redistribute it ////
//// and/or modify it under the terms of the GNU Lesser General ////
//// Public License as published by the Free Software Foundation; ////
//// either version 2.1 of the License, or (at your option) any ////
//// later version. ////
//// ////
//// This source 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 Lesser General Public License for more ////
//// details. ////
//// ////
//// You should have received a copy of the GNU Lesser General ////
//// Public License along with this source; if not, download it ////
//// from http://www.opencores.org/lgpl.shtml ////
//// ////
//////////////////////////////////////////////////////////////////////
#include "spr-defs.h"
#include "board.h"
#define RAM_START 0x0
/* Within the test we'll use following global variables:
r16 interrupt counter
r17 current tick timer comparison counter
r18 sanity counter
r19 loop counter
r20 temp value of SR reg
r21 temp value of TTMR reg.
r23 RAM_START
r25-r31 used by int handler
The test do the following:
We set up the tick timer to trigger once and then we trigger interrupts
incrementally on every cycle in the specified test program; on
interrupt handler we check if data computed so far exactly matches
precalculated values. If interrupt has returned incorreclty, we can
detect this using assertion routine at the end.
*/
/* =================================================== [ exceptions ] === */
.section .vectors, "ax"
/* ---[ 0x100: RESET exception ]----------------------------------------- */
.org 0x100
l.movhi r0, 0
/* Clear status register */
l.ori r1, r0, SPR_SR_SM
l.mtspr r0, r1, SPR_SR
/* Clear timer */
l.mtspr r0, r0, SPR_TTMR
/* Init the stack */
.global _stack
l.movhi r1, hi(_stack)
l.ori r1, r1, lo(_stack)
l.addi r2, r0, -3
l.and r1, r1, r2
/* Jump to program initialisation code */
.global _start
l.movhi r4, hi(_start)
l.ori r4, r4, lo(_start)
l.jr r4
l.nop
/* ================================================== [ tick interrupt ] === */
.org 0x500
.global _tick_handler
_tick_handler:
l.addi r31,r3,0
# get interrupted program pc
l.mfspr r25,r0,SPR_EPCR_BASE
# calculate instruction address
l.movhi r26,hi(_ie_start)
l.ori r26,r26,lo(_ie_start)
l.addi r3,r25,0 #print insn index
l.nop 2
l.sub r25,r25,r26
l.addi r3,r25,0 #print insn index
l.nop 2
l.addi r3,r31,0 # restore r3
l.sfeqi r25, 0x00
l.bf _i00
l.sfeqi r25, 0x04
l.bf _i04
l.sfeqi r25, 0x08
l.bf _i08
l.sfeqi r25, 0x0c
l.bf _i0c
l.sfeqi r25, 0x10
l.bf _i10
l.sfeqi r25, 0x14
l.bf _i14
l.sfeqi r25, 0x18
l.bf _i18
l.sfeqi r25, 0x1c
l.bf _i1c
l.sfeqi r25, 0x20
l.bf _i20
l.sfeqi r25, 0x24
l.bf _i24
l.sfeqi r25, 0x28
l.bf _i28
l.sfeqi r25, 0x2c
l.bf _i2c
l.sfeqi r25, 0x30
l.bf _i30
l.sfeqi r25, 0x34
l.bf _i34
l.sfeqi r25, 0x38
l.bf _i38
l.nop
# value not defined
_die:
l.nop 2 #print r3
l.addi r3,r0,0xeeee
l.nop 2
l.addi r3,r0,1
l.jal exit
l.nop
1:
l.j 1b
l.nop
/* =================================================== [ text section ] === */
.section .text
/* =================================================== [ start ] === */
.global _start
_start:
/* Instruction cache enable */
/* Check if IC present and skip enabling otherwise */
l.mfspr r24,r0,SPR_UPR
l.andi r26,r24,SPR_UPR_ICP
l.sfeq r26,r0
l.bf .L8
l.nop
/* Disable IC */
l.mfspr r6,r0,SPR_SR
l.addi r5,r0,-1
l.xori r5,r5,SPR_SR_ICE
l.and r5,r6,r5
l.mtspr r0,r5,SPR_SR
/* Establish cache block size
If BS=0, 16;
If BS=1, 32;
r14 contain block size
*/
l.mfspr r24,r0,SPR_ICCFGR
l.andi r26,r24,SPR_ICCFGR_CBS
l.srli r28,r26,7
l.ori r30,r0,16
l.sll r14,r30,r28
/* Establish number of cache sets
r16 contains number of cache sets
r28 contains log(# of cache sets)
*/
l.andi r26,r24,SPR_ICCFGR_NCS
l.srli r28,r26,3
l.ori r30,r0,1
l.sll r16,r30,r28
/* Invalidate IC */
l.addi r6,r0,0
l.sll r5,r14,r28
.L7:
l.mtspr r0,r6,SPR_ICBIR
l.sfne r6,r5
l.bf .L7
l.add r6,r6,r14
/* Enable IC */
l.mfspr r6,r0,SPR_SR
l.ori r6,r6,SPR_SR_ICE
l.mtspr r0,r6,SPR_SR
l.nop
l.nop
l.nop
l.nop
l.nop
l.nop
l.nop
l.nop
.L8:
/* Data cache enable */
/* Check if DC present and skip enabling otherwise */
l.mfspr r24,r0,SPR_UPR
l.andi r26,r24,SPR_UPR_DCP
l.sfeq r26,r0
l.bf .L10
l.nop
/* Disable DC */
l.mfspr r6,r0,SPR_SR
l.addi r5,r0,-1
l.xori r5,r5,SPR_SR_DCE
l.and r5,r6,r5
l.mtspr r0,r5,SPR_SR
/* Establish cache block size
If BS=0, 16;
If BS=1, 32;
r14 contain block size
*/
l.mfspr r24,r0,SPR_DCCFGR
l.andi r26,r24,SPR_DCCFGR_CBS
l.srli r28,r26,7
l.ori r30,r0,16
l.sll r14,r30,r28
/* Establish number of cache sets
r16 contains number of cache sets
r28 contains log(# of cache sets)
*/
l.andi r26,r24,SPR_DCCFGR_NCS
l.srli r28,r26,3
l.ori r30,r0,1
l.sll r16,r30,r28
/* Invalidate DC */
l.addi r6,r0,0
l.sll r5,r14,r28
.L9:
l.mtspr r0,r6,SPR_DCBIR
l.sfne r6,r5
l.bf .L9
l.add r6,r6,r14
/* Enable DC */
l.mfspr r6,r0,SPR_SR
l.ori r6,r6,SPR_SR_DCE
l.mtspr r0,r6,SPR_SR
.L10:
// Kick off test
l.jal _main
l.nop
/* ========================================================= [ main ] === */
.global _main
_main:
#
# set tick counter to initial 3 cycles
#
l.addi r16,r0,0
l.addi r17,r0,1
l.addi r18,r0,0
l.addi r19,r0,0
l.addi r22,r0,0
l.movhi r23,hi(RAM_START)
l.ori r23,r23,lo(RAM_START)
#
# unmask all ints
#
l.movhi r5,0xffff
l.ori r5,r5,0xffff
l.mtspr r0,r5,SPR_PICMR # set PICMR
# Set r20 to hold enable exceptions and interrupts
l.mfspr r20,r0,SPR_SR
l.ori r20,r20,SPR_SR_SM|SPR_SR_TEE|SPR_SR_F
# Set r21 to hold value of TTMR
l.movhi r5,hi(SPR_TTMR_SR | SPR_TTMR_IE)
l.add r21,r5,r17
#
# MAIN LOOP
#
_main_loop:
# reinitialize memory and registers
l.addi r3,r0,0xaaaa
l.addi r9,r0,0xbbbb
l.sw 0(r23),r3
l.sw 4(r23),r9
l.sw 8(r23),r3
# Reinitializes tick timer
l.addi r17,r17,1
l.mtspr r0,r0,SPR_TTCR # set TTCR
l.mtspr r0,r21,SPR_TTMR # set TTMR
l.mtspr r0,r0,SPR_TTCR # set TTCR
l.addi r21,r21,1
# Enable exceptions and interrupts
l.mtspr r0,r20,SPR_SR # set SR
##### TEST CODE #####
_ie_start:
l.movhi r3,0x1234 #00
l.sw 0(r23),r3 #04
l.movhi r3,hi(RAM_START) #08
l.lwz r3,0(r3) #0c
l.movhi r3,hi(RAM_START) #10
l.addi r3,r3,4 #14
l.j 1f #18
l.lwz r3,0(r3) #1c
l.addi r3,r3,1 #20
1:
l.sfeqi r3,0xdead #24
l.jal 2f #28
l.addi r3,r0,0x5678 #2c
_return_addr:
2:
l.bf _die #30
l.sw 8(r23),r3 #34
_ie_end:
l.nop #38
##### END OF TEST CODE #####
# do some testing
l.j _main_loop
l.nop
_i00:
l.sfeqi r3,0xaaaa
l.bnf _die
l.nop
l.j _resume
l.nop
_i04:
l.movhi r26,0x1234
l.sfeq r3,r26
l.bnf _die
l.nop
l.lwz r26,0(r23)
l.sfeqi r26,0xaaaa
l.bnf _die
l.nop
l.j _resume
l.nop
_i08:
l.movhi r26,0x1234
l.sfeq r3,r26
l.bnf _die
l.nop
l.lwz r27,0(r23)
l.sfeq r27,r26
l.bnf _die
l.nop
l.j _resume
l.nop
_i0c:
l.sfeq r3,r23
l.bnf _die
l.nop
l.j _resume
l.nop
_i10:
l.movhi r26,0x1234
l.sfeq r26,r3
l.bnf _die
l.nop
l.j _resume
l.nop
_i14:
l.sfeq r3,r23
l.bnf _die
l.nop
l.j _resume
l.nop
_i18:
l.addi r26,r23,4
l.sfeq r3,r26
l.bnf _die
l.nop
l.j _resume
l.nop
_i1c:
l.j _die
l.nop
_i20:
l.j _die
l.nop
_i24:
l.mfspr r26,r0,SPR_ESR_BASE
l.addi r30,r3,0
l.addi r3,r26,0
l.nop 2
l.addi r3,r30,0
l.andi r26,r26,SPR_SR_F
l.sfeq r26,r0
l.bf _die
l.nop
l.sfeqi r3,0xbbbb
l.bnf _die
l.nop
l.j _resume
l.nop
_i28:
l.mfspr r26,r0,SPR_ESR_BASE
l.addi r30,r3,0
l.addi r3,r26,0
l.nop 2
l.addi r3,r30,0
l.andi r26,r26,SPR_SR_F
l.sfeq r26,r0
l.bnf _die
l.nop
l.sfeqi r22,1
l.bf _resume
l.addi r22,r0,1
l.sfeqi r9,0xbbbb
l.bnf _die
l.nop
l.j _resume
l.nop
_i2c:
l.movhi r26,hi(_return_addr)
l.ori r26,r26,lo(_return_addr)
l.sfeq r9,r26
l.bnf _die
l.nop
l.sfeqi r3,0xbbbb
l.bnf _die
l.nop
l.j _resume
l.nop
_i30:
l.sfeqi r3,0x5678
l.bnf _die
l.nop
l.j _resume
l.nop
_i34:
l.sfeqi r3,0x5678
l.bnf _die
l.nop
l.lwz r26,8(r23)
l.sfeqi r26,0xaaaa
l.bnf _die
l.nop
l.j _resume
l.nop
_i38:
l.lwz r26,8(r23)
l.sfeqi r26,0x5678
l.bnf _die
l.nop
#
# mark finished ok
#
l.movhi r3,hi(0xdeaddead)
l.ori r3,r3,lo(0xdeaddead)
l.nop 2
l.movhi r3,hi(0x8000000d)
l.ori r3,r3,lo(0x8000000d)
l.nop 2
l.addi r3,r0,0
l.jal exit
l.nop
_ok:
l.j _ok
l.nop
_resume:
l.mfspr r27,r0,SPR_ESR_BASE
l.addi r26,r0,SPR_SR_TEE
l.addi r28,r0,-1
l.xor r26,r26,r28
l.and r26,r26,r27
l.mtspr r0,r26,SPR_ESR_BASE
l.rfe
l.addi r3,r3,5 # should not be executed
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