# MIPS simulator testsuite utility functions. # Copyright (C) 2004-2024 Free Software Foundation, Inc. # Contributed by Chris Demetriou of Broadcom Corporation. # # This file is part of the GNU simulators. # # 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 3 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, see . */ # $1, $4, $5, %6, are used as temps by the macros defined here. .macro writemsg msg la $5, 901f li $6, 902f - 901f .data 901: .ascii "\msg\n" 902: .previous .set push .set noreorder jal _dowrite li $4, 0 .set pop .endm # The MIPS simulator uses "break 0x3ff" as the code to exit, # with the return value in $4 (a0). .macro exit rc li $4, \rc break 0x3ff .endm .macro setup .global _start .global __start .ent _start _start: __start: .set push .set noreorder j DIAG nop .set pop .end _start .global _fail .ent _fail _fail: writemsg "fail" exit 1 .end _fail .global _pass .ent _pass _pass: writemsg "pass" exit 0 .end _pass # The MIPS simulator can use multiple different monitor types, # so we hard-code the simulator "write" reserved instruction opcode, # rather than jumping to a vector that invokes it. The operation # expects RA to point to the location at which to continue # after writing. .global _dowrite .ent _dowrite _dowrite: # Write opcode (reserved instruction). See sim_monitor and its # callers in sim/mips/interp.c. .word 0x00000039 | ((8 << 1) << 6) .end _dowrite .endm # setup .macro pass .set push .set noreorder j _pass nop .set pop .endm .macro fail .set push .set noreorder j _fail nop .set pop .endm .macro load32 reg, val li \reg, \val .endm .macro load64 reg, val dli \reg, \val .endm .macro loadaddr reg, addr la \reg, \addr .endm .macro checkreg reg, expreg .set push .set noat .set noreorder beq \expreg, \reg, 901f nop fail 901: .set pop .endm .macro check32 reg, val .set push .set noat load32 $1, \val checkreg \reg, $1 .set pop .endm .macro check64 reg, val .set push .set noat load64 $1, \val checkreg \reg, $1 .set pop .endm # Check hi-lo register pair against data stored at base+o1 and base+o2 # Clobbers $1 - $5 .macro checkpair lo, hi, base, w, o1, o2 move $2, \lo move $3, \hi .set noat la $1, \base l\w $4, \o1($1) l\w $5, \o2($1) .set at checkreg $2, $4 checkreg $3, $5 .endm .macro checkpair_le_d lo, hi, base checkpair \lo, \hi, \base, w, 0, 4 .endm .macro checkpair_be_d lo, hi, base checkpair \lo, \hi, \base, w, 4, 0 .endm .macro checkpair_le_q lo, hi, base checkpair \lo, \hi, \base, d, 0, 8 .endm .macro checkpair_be_q lo, hi, base checkpair \lo, \hi, \base, d, 8, 0 .endm # Endian-ness for comparison is determined by reading a word at ec .macro checkpair_xendian lo, hi, base, ec, w .set noat lw $1, \ec andi $1, $1, 0x1 # check endianess beqz $1, 2f .set at 1: # big endian checkpair_be_\w \lo, \hi, \base b 3f 2: # little endian checkpair_le_\w \lo, \hi, \base 3: .endm .macro checkpair_qword lo, hi, base, oe checkpair_xendian \lo, \hi, \base, \oe, q .endm .macro checkpair_dword lo, hi, base, oe checkpair_xendian \lo, \hi, \base, \oe, d .endm