#!/usr/bin/python3
##################################
# testgen-IE.py
#
# ushakya@hmc.edu 31 March 2021
# Modified: 4 April 2021
#
# Generate directed and random test vectors for RISC-V Design Validation.
##################################
##################################
# libraries
##################################
from datetime import datetime
from random import randint
from random import seed
from random import getrandbits
##################################
# functions
##################################
def writeTrapHandlers(storecmd, mode):
global testnum
[reg1, reg2, reg3] = [30, 29, 28]
[reg4, reg5] = [27, 26]
if mode == "M":
lines = "\n# Trap Handler: Machine Timer Interupt\n"
lines += "_timerM_trap_handler:\n"
lines += "li x" + str(reg1) + ", MASK_XLEN(0xFFFF)\n"
lines += "la x" + str(reg2) + ", 0x2004000\n"
lines += str(storecmd) + " x" + str(reg1) + ", 0(x" + str(reg2) + ")\n"
lines += "csrrc x" + str(reg3) + ", mepc, x0\n"
lines += "addi x"+ str(reg3) + ", x" + str(reg3) + ", MASK_XLEN(0x4)\n"
lines += "csrrw x0, mepc, x" + str(reg3) + "\n"
# clear machine timer interupt enable bit in mie
lines += "li x" + str(reg4) + ", MASK_XLEN(" + str(0x80) + ")\n"
lines += "csrrc x0, mie, x" + str(reg4) + "\n"
lines += "mret\n"
elif mode == "S":
lines = "\n# Trap Handler: Supervisor Timer Interupt\n"
lines += "_timerS_trap_handler:\n"
lines += "li x" + str(reg4) + ", MASK_XLEN(0x20)\n"
lines += "csrrc x0, mip, x" + str(reg4) + "\n"
lines += "csrrw x" + str(reg5) + ", mepc, x0\n"
lines += "addi x"+ str(reg5) + ", x" + str(reg5) + ", MASK_XLEN(0x4)\n"
lines += "mret\n"
#lines += "\n# Trap Handler: User Timer Interupt\n"
#lines += "_timerU_trap_handler:\n"
#lines += "li x" + str(reg4) + ", MASK_XLEN(0x10)\n"
#lines += "csrrc x0, mip, x" + str(reg4) + "\n"
#lines += "csrrw x" + str(reg5) + ", mepc, x0\n"
#lines += "addi x"+ str(reg5) + ", x" + str(reg5) + ", MASK_XLEN(0x4)\n"
#lines += "mret\n"
#lines += "\n# Trap Handler: Machine Software Interupt\n"
#lines += "_softwareM_trap_handler:\n"
#lines += "li x" + str(reg1) + ", MASK_XLEN(0x0)\n" # clear MSIP bit in CLINT
#lines += "la x" + str(reg2) + ", 0x2000000\n"
#lines += str(storecmd) + " x" + str(reg1) + ", 0(x" + str(reg2) + ")\n"
##lines += "csrrs x" + str(reg3) + ", mepc, x0\n"
#lines += "addi x"+ str(reg3) + ", x" + str(reg3) + ", MASK_XLEN(0x4)\n"
#lines += "csrrw x0, mepc, x" + str(reg3) + "\n"
#lines += "mret\n"
"""lines += "\n# Trap Handler: Supervisor Software Interupt\n"
lines += "_softwareS_trap_handler:\n"
lines += "li x" + str(reg4) + ", MASK_XLEN(0x2)\n"
lines += "csrrc x0, mip, x" + str(reg4) + "\n"
lines += "csrrs x" + str(reg5) + ", mepc, x0\n"
lines += "addi x"+ str(reg5) + ", x" + str(reg5) + ", MASK_XLEN(0x4)\n"
lines += "csrrw x0, mepc, x" + str(reg5) + "\n"
lines += "mret\n"
"""
#lines += "\n# Trap Handler: User Software Interupt\n"
#lines += "_softwareU_trap_handler:\n"
#lines += "li x" + str(reg4) + ", MASK_XLEN(0x1)\n"
#lines += "csrrc x0, mip, x" + str(reg4) + "\n"
#lines += "csrrw x" + str(reg5) + ", mepc, x0\n"
#lines += "addi x"+ str(reg5) + ", x" + str(reg5) + ", MASK_XLEN(0x4)\n"
#lines += "mret\n"
#lines += "\n# Trap Handler: Machine External Interupt\n"
#lines += "_externalM_trap_handler:\n"
#lines += "li x" + str(reg1) + ", MASK_XLEN(0x0)\n" # clear MSIP bit in CLINT
#lines += "la x" + str(reg2) + ", 0x2000000\n"
#lines += str(storecmd) + " x" + str(reg1) + ", 0(x" + str(reg2) + ")\n"
#lines += "csrrw x" + str(reg3) + ", mepc, x0\n"
#lines += "addi x"+ str(reg3) + ", x" + str(reg3) + ", MASK_XLEN(0x4)\n"
#lines += "mret\n"
#lines += "\n# Trap Handler: Supervisor External Interupt\n"
#lines += "_externalS_trap_handler:\n"
#lines += "li x" + str(reg4) + ", MASK_XLEN(0x200)\n"
#lines += "csrrc x0, mip, x" + str(reg4) + "\n"
#lines += "csrrw x" + str(reg5) + ", mepc, x0\n"
#lines += "addi x"+ str(reg5) + ", x" + str(reg5) + ", MASK_XLEN(0x4)\n"
#lines += "mret\n"
#lines += "\n# Trap Handler: User External Interupt\n"
#lines += "_externalU_trap_handler:\n"
#lines += "li x" + str(reg4) + ", MASK_XLEN(0x100)\n"
#lines += "csrrc x0, mip, x" + str(reg4) + "\n"
#lines += "csrrw x" + str(reg5) + ", mepc, x0\n"
#lines += "addi x"+ str(reg5) + ", x" + str(reg5) + ", MASK_XLEN(0x4)\n"
#lines += "mret\n"
f.write(lines)
def getInteruptEnableValues():
if test == "timerM":
mstatusE = 0x8
mieE = 0x80
elif test == "timerS":
mstatusE = 0x2
mieE = 0x20
elif test == "timerU":
mstatusE = 0x1
mieE = 0x10
elif test == "softwareM":
mstatusE = 0x8
mieE = 0x8
elif test == "softwareS":
mstatusE = 0x2
mieE = 0x2
elif test == "softwareU":
mstatusE = 0x1
mieE = 0x1
elif test == "externalM":
mstatusE = 0x8
mieE = 0x800
elif test == "externalS":
mstatusE = 0x2
mieE = 0x200
elif test == "externalU":
mstatusE = 0x1
mieE = 0x100
return [mstatusE, mieE]
def getMcause():
b = 1 << (xlen-1)
if test == "timerM":
b = b + 0x7
elif test == "timerS":
b = b + 0x5
elif test == "timerU":
b = b + 0x4
elif test == "softwareM":
b = b + 0x3
elif test == "softwareS":
b = b + 0x1
elif test == "softwareU":
b = b
elif test == "externalM":
b = b + 0xB
elif test == "externalS":
b = b + 0x9
elif test == "externalU":
b = b + 0x8
return b
def writeVectors(a, xlen, storecmd):
global testnum
# Registers used:
# x13 ---> read mcause value
# x12 ---> save old value of mtvec
# x8 ---> holds mieE
# x5 ---> holds value of trap handler
# x3 ---> holds mstatusE
# remaining registers (not used by mode management) are free to be used by tests
[reg2, reg3] = [2, 3]
[reg5, reg8] = [5, 8]
[reg10, reg11, reg12] = [10, 11, 12]
[reg13, reg14, reg15] = [13, 14, 15]
lines = f"\n# Testcase {testnum}: {test} Interupt\n"
# mcause code
expected = getMcause()
[mstatusE, mieE] = getInteruptEnableValues()
# ensure interupt enable bit in mie is low
lines += "li x" + str(reg8) + ", MASK_XLEN(" + formatstr.format(mieE) + ")\n"
lines += "csrrc x0, mie, x" + str(reg8) + "\n"
# set interupt enable bit in mstatus
lines += "li x" + str(reg3) + ", MASK_XLEN(" + formatstr.format(mstatusE) + ")\n"
lines += "csrrs x0, mstatus, x" + str(reg3) + "\n"
# Save and set trap handler address for interrupt
lines += "la x" + str(reg5) + ", _" + test + "_trap_handler\n"
# save orignal mtvec address
lines += "csrrw x" + str(reg12) + ", mtvec, x" + str(reg5) + "\n"
# cause timer interupt
if test == "timerM":
# load MTIMECMP register address
lines += "la x" + str(reg2) + ", 0x2004000\n"
# to be stored in MTIMECMP
lines += "li x" + str(reg10) + ", MASK_XLEN(0)\n"
# save old value of mtimecmp and then set mtimecmp to zero
if xlens == 64:
lines += "lw x" + str(reg11) + ", 0(x" + str(reg2) + ")\n"
lines += str(storecmd) + " x" + str(reg10) + ", 0(x" + str(reg2) + ")\n"
elif xlen == 32:
lines += "lw x" + str(reg11) + ", 0(x" + str(reg2) + ")\n"
lines += str(storecmd) + " x" + str(reg10) + ", 0(x" + str(reg2) + ")\n"
lines += str(storecmd) + " x" + str(reg10) + ", 4(x" + str(reg2) + ")\n"
elif test == "timerS":
lines += "li x" + str(reg3) + ", MASK_XLEN(0x20)\n"
lines += "csrrs x0, mip, x" + str(reg3) + "\n"
# cause software interupt
if test == "softwareM":
lines += "la x" + str(reg8) + ", 0x2000000\n" # Write to the MSIP bit in CLINT
lines += "li x" + str(reg11) + ", MASK_XLEN(0x1)\n"
lines += str(storecmd) + " x" + str(reg11) + ", 0(x" + str(reg8) + ")\n"
elif test == "softwareS":
lines += "li x" + str(reg3) + ", MASK_XLEN(0x2)\n"
lines += "csrrs x0, mip, x" + str(reg3) + "\n"
# set timer interupt enable bit in mie
lines += "csrrs x0, mie, x" + str(reg8) + "\n"
# wait for interupt to be taken
lines += "nop\nnop\n"
lines += "csrrs " + " x" + str(reg13) + ", mcause, x0\n"
# reset mtvec
lines += "csrrw x0, mtvec, x" + str(reg12) + "\n"
lines += storecmd + " x" + str(reg13) + ", " + str(wordsize*testnum) + "(x6)\n"
lines += "RVTEST_IO_ASSERT_GPR_EQ(x7, x" + str(reg13) +", "+formatstr.format(expected)+")\n"
f.write(lines)
if (xlen == 32):
line = formatrefstr.format(expected)+"\n"
else:
line = formatrefstr.format(expected % 2**32)+"\n" + formatrefstr.format(expected >> 32) + "\n"
r.write(line)
testnum = testnum+1
##################################
# main body
##################################
# change these to suite your tests
tests = ["timerM"] #, "timerM", "timerS", "softwareM", "softwareS"]
author = "ushakya@hmc.edu"
xlens = [64] #, 32]
modes = ["M"]#, "S"]
numrand = 100;
# setup
seed(0) # make tests reproducible
# generate files for each test
for xlen in xlens:
formatstrlen = str(int(xlen/4))
formatstr = "0x{:0" + formatstrlen + "x}" # format as xlen-bit hexadecimal number
formatrefstr = "{:08x}" # format as xlen-bit hexadecimal number with no leading 0x
if (xlen == 32):
storecmd = "sw"
wordsize = 4
else:
storecmd = "sd"
wordsize = 8
for mode in modes:
imperaspath = "../../../imperas-riscv-tests/riscv-test-suite/rv" + str(xlen) + "p/"
basename = "WALLY-" + mode + "IE"
fname = imperaspath + "src/" + basename + ".S"
refname = imperaspath + "references/" + basename + ".reference_output"
testnum = 0
# print custom header part
f = open(fname, "w")
r = open(refname, "w")
line = "///////////////////////////////////////////\n"
f.write(line)
lines="// "+fname+ "\n// " + author + "\n"
f.write(lines)
line ="// Created " + str(datetime.now())
f.write(line)
# insert generic header
h = open("../testgen_header.S", "r")
for line in h:
f.write(line)
line = "\n"
# Registers used for dropping down to supervisor mode:
# x30 ---> set to 1 if we should return to & stay in machine mode after trap, 0 otherwise
# x20 ---> hold address of _j_all_end_{returningInstruction}
# x19 ---> save old value of mtvec
# x18 ---> save old value of medeleg
# x16 ---> save old value of mideleg
# x9 ---> bit mask for mideleg and medeleg
# x1 ---> used to go down to supervisor mode
# We need to leave at least one bit in medeleg unset so that we have a way to get
# back to machine mode when the tests are complete (otherwise we'll only ever be able
# to get up to supervisor mode).
#
# So, we define a returning instruction which will be used to cause the exception that
# brings us into machine mode. The bit for this returning instruction is NOT set in
# medeleg. However, this also means that we can't test that instruction. So, we have
# two different returning instructions.
#
# Current code is written to only support ebreak and ecall.
#
# For testgen-IE, we don't need to test ebreak, so we can use that as the sole
# returning instruction.
returningInstruction = "ebreak"
if mode == "S":
# need to move down to supervisor mode (based on code in testgen-TVAL)
lines += f"""
# Reset x30 to 0 so we can run the tests. We'll set this to 1 when tests are completed so we stay in machine mode
li x30, 0
"""
# We don't want to delegate our returning instruction. Otherwise, we'll have no way of getting
# back to machine mode at the end! (and we need to be in machine mode to complete the tests)
medelegMask = "0b1111111111110111" if returningInstruction == "ebreak" else "0b1111000011111111"
# Set medeleg and mideleg
lines += f"""
csrr x18, medeleg
li x9, {medelegMask if testMode == "s" or testMode == "u" else "0"}
csrw medeleg, x9
csrr x16, mideleg
li x9, {"0xffffffff" if testMode == "s" or testMode == "u" else "0"}
csrw mideleg, x9
"""
# bring down to supervisor mode
lines += f"""
li x1, 0b110000000000
csrrc x28, mstatus, x1
li x1, 0b0100000000000
csrrs x28, mstatus, x1
auipc x1, 0
addi x1, x1, 16 # x1 is now right after the mret instruction
csrw mepc, x1
mret
# We're now in supervisor mode...
"""
for test in tests:
# print directed and random test vectors
for i in range(0,numrand):
a = getrandbits(xlen)
writeVectors(a, xlen, storecmd)
if mode == "S":
# Bring us back up to machine mode!
# Creates a new trap handler that just jumps to _j_all_end_{returningInstruction}
#
# Get into the trap handler by running returningInstruction (in this case its ebreak)
f.write(f"""
li x30, 1 #may not need this
csrr x19, mtvec # save old value of mtvec
la x20 _j_all_end_{returningInstruction}
csrw mtvec, x20
{returningInstruction}
_returnMachineMode_handler:
j _j_all_end_{returningInstruction}
mret
_j_all_end_{returningInstruction}:
# Reset trap handling csrs to old values
csrw mtvec, x19
csrw medeleg, x18
csrw mideleg, x16
""")
f.write(lines)
# print footer
h = open("../testgen_footer.S", "r")
for line in h:
f.write(line)
# Finish
lines = ".fill " + str(testnum) + ", " + str(wordsize) + ", -1\n"
lines = lines + "\nRV_COMPLIANCE_DATA_END\n"
f.write(lines)
writeTrapHandlers(storecmd, mode)
f.close()
r.close()