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run.py
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"""
Copyright 2019 Google LLC
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
Regression script for RISC-V random instruction generator
"""
import argparse
import os
import subprocess
import re
import sys
import logging
from datetime import date
from scripts.lib import *
from scripts.spike_log_to_trace_csv import *
from scripts.ovpsim_log_to_trace_csv import *
from scripts.sail_log_to_trace_csv import *
from scripts.instr_trace_compare import *
LOGGER = logging.getLogger()
def get_generator_cmd(simulator, simulator_yaml, cov):
""" Setup the compile and simulation command for the generator
Args:
simulator : RTL simulator used to run instruction generator
simulator_yaml : RTL simulator configuration file in YAML format
cov : Enable functional coverage
Returns:
compile_cmd : RTL simulator command to compile the instruction generator
sim_cmd : RTL simulator command to run the instruction generator
"""
logging.info("Processing simulator setup file : %s" % simulator_yaml)
yaml_data = read_yaml(simulator_yaml)
# Search for matched simulator
for entry in yaml_data:
if entry['tool'] == simulator:
logging.info("Found matching simulator: %s" % entry['tool'])
compile_spec = entry['compile']
compile_cmd = compile_spec['cmd']
for i in range(len(compile_cmd)):
if ('cov_opts' in compile_spec) and cov:
compile_cmd[i] = re.sub('<cov_opts>', compile_spec['cov_opts'].rstrip(), compile_cmd[i])
else:
compile_cmd[i] = re.sub('<cov_opts>', '', compile_cmd[i])
sim_cmd = entry['sim']['cmd']
if ('cov_opts' in entry['sim']) and cov:
sim_cmd = re.sub('<cov_opts>', entry['sim']['cov_opts'].rstrip(), sim_cmd)
else:
sim_cmd = re.sub('<cov_opts>', '', sim_cmd)
if 'env_var' in entry:
for env_var in entry['env_var'].split(','):
for i in range(len(compile_cmd)):
compile_cmd[i] = re.sub("<"+env_var+">", get_env_var(env_var), compile_cmd[i])
sim_cmd = re.sub("<"+env_var+">", get_env_var(env_var), sim_cmd)
return compile_cmd, sim_cmd
logging.error("Cannot find RTL simulator %0s" % simulator)
sys.exit(1)
def parse_iss_yaml(iss, iss_yaml, isa):
"""Parse ISS YAML to get the simulation command
Args:
iss : target ISS used to look up in ISS YAML
iss_yaml : ISS configuration file in YAML format
isa : ISA variant passed to the ISS
Returns:
cmd : ISS run command
"""
logging.info("Processing ISS setup file : %s" % iss_yaml)
yaml_data = read_yaml(iss_yaml)
# Search for matched ISS
for entry in yaml_data:
if entry['iss'] == iss:
logging.info("Found matching ISS: %s" % entry['iss'])
cmd = entry['cmd'].rstrip()
cmd = re.sub("\<path_var\>", get_env_var(entry['path_var']), cmd)
if iss == "ovpsim":
cmd = re.sub("\<variant\>", isa.upper(), cmd)
else:
cmd = re.sub("\<variant\>", isa, cmd)
return cmd
logging.error("Cannot find ISS %0s" % iss)
sys.exit(1)
def get_iss_cmd(base_cmd, elf, log):
"""Get the ISS simulation command
Args:
base_cmd : Original command template
elf : ELF file to run ISS simualtion
log : ISS simulation log name
Returns:
cmd : Command for ISS simulation
"""
cmd = re.sub("\<elf\>", elf, base_cmd)
cmd += (" &> %s" % log)
return cmd
def gen(test_list, csr_file, end_signature_addr, isa, simulator,
simulator_yaml, output_dir, sim_only, compile_only, lsf_cmd, seed,
cwd, cmp_opts, sim_opts, timeout_s, core_setting_dir, ext_dir, cov,
log_suffix, batch_size, seed_yaml):
"""Run the instruction generator
Args:
test_list : List of assembly programs to be compiled
csr_file : YAML file containing description of all CSRs
end_signature_addr : Address that tests will write pass/fail signature to at end of test
isa : Processor supported ISA subset
simulator : RTL simulator used to run instruction generator
simulator_yaml : RTL simulator configuration file in YAML format
output_dir : Output directory of the ELF files
sim_only : Simulation only
compile_only : Compile the generator only
lsf_cmd : LSF command used to run the instruction generator
seed : Seed to the instruction generator
cmp_opts : Compile options for the generator
sim_opts : Simulation options for the generator
timeout_s : Timeout limit in seconds
core_setting_dir : Path for riscv_core_setting.sv
ext_dir : User extension directory
cov : Enable functional coverage
log_suffix : Simulation log file name suffix
batch_size : Number of tests to generate per run
seed_yaml : Seed specification from a prior regression
"""
# Mutually exclusive options between compile_only and sim_only
if compile_only and sim_only:
logging.error("argument -co is not allowed with argument -so")
# Setup the compile and simulation command for the generator
compile_cmd = []
sim_cmd = ""
compile_cmd, sim_cmd = get_generator_cmd(simulator, simulator_yaml, cov);
if ((compile_only == 0) and (len(test_list) == 0)):
return
# Compile the instruction generator
if not sim_only:
if (not((len(test_list) == 1) and (test_list[0]['test'] == 'riscv_csr_test'))):
logging.info("Building RISC-V instruction generator")
for cmd in compile_cmd:
cmd = re.sub("<out>", os.path.abspath(output_dir), cmd)
if core_setting_dir == "":
cmd = re.sub("<setting>", "<cwd>/setting", cmd)
else:
cmd = re.sub("<setting>", core_setting_dir, cmd)
if ext_dir == "":
cmd = re.sub("<user_extension>", "<cwd>/user_extension", cmd)
else:
cmd = re.sub("<user_extension>", ext_dir, cmd)
cmd = re.sub("<cwd>", cwd, cmd)
cmd = re.sub("<cmp_opts>", cmp_opts, cmd)
logging.debug("Compile command: %s" % cmd)
logging.debug(run_cmd(cmd))
# Run the instruction generator
if not compile_only:
cmd_list = []
sim_cmd = re.sub("<out>", os.path.abspath(output_dir), sim_cmd)
sim_cmd = re.sub("<cwd>", cwd, sim_cmd)
sim_cmd = re.sub("<sim_opts>", sim_opts, sim_cmd)
if seed_yaml:
rerun_seed = read_yaml(seed_yaml)
else:
rerun_seed = {}
logging.info("Running RISC-V instruction generator")
sim_seed = {}
for test in test_list:
iterations = test['iterations']
logging.info("Generating %d %s" % (iterations, test['test']))
if iterations > 0:
"""
If we are running a CSR test, need to call a separate python script
to generate directed CSR test code, located at scripts/gen_csr_test.py.
"""
if test['test'] == 'riscv_csr_test':
cmd = "python3 scripts/gen_csr_test.py" + \
(" --csr_file %s" % csr_file) + \
(" --xlen %s" % re.search(r"(?P<xlen>[0-9]+)", isa).group("xlen")) + \
(" --iterations %i" % iterations) + \
(" --out %s/asm_tests" % output_dir) + \
(" --end_signature_addr %s" % end_signature_addr)
if lsf_cmd:
cmd_list.append(cmd)
else:
run_cmd(cmd, timeout_s)
else:
if batch_size > 0:
batch_cnt = int((iterations + batch_size - 1) / batch_size);
else:
batch_cnt = 1
logging.info("Running %s with %0d batches" % (test['test'], batch_cnt))
for i in range(0, batch_cnt):
test_id = '%0s_%0d' % (test['test'], i)
if test_id in rerun_seed:
rand_seed = rerun_seed[test_id]
else:
rand_seed = get_seed(seed)
if i < batch_cnt - 1:
test_cnt = batch_size
else:
test_cnt = iterations - i * batch_size;
cmd = lsf_cmd + " " + sim_cmd.rstrip() + \
(" +UVM_TESTNAME=%s " % test['gen_test']) + \
(" +num_of_tests=%i " % test_cnt) + \
(" +start_idx=%d " % (i*batch_size)) + \
(" +asm_file_name=%s/asm_tests/%s " % (output_dir, test['test'])) + \
(" -l %s/sim_%s_%d%s.log " % (output_dir, test['test'], i, log_suffix))
cmd = re.sub("<seed>", str(rand_seed), cmd)
sim_seed[test_id] = str(rand_seed)
if "gen_opts" in test:
cmd += test['gen_opts']
if not re.search("c", isa):
cmd += "+disable_compressed_instr=1 ";
if lsf_cmd:
cmd_list.append(cmd)
else:
logging.info("Running %s, batch %0d/%0d, test_cnt:%0d" %
(test['test'], i+1, batch_cnt, test_cnt))
run_cmd(cmd, timeout_s)
if sim_seed:
with open(('%s/seed.yaml' % os.path.abspath(output_dir)) , 'w') as outfile:
yaml.dump(sim_seed, outfile, default_flow_style=False)
if lsf_cmd:
run_parallel_cmd(cmd_list, timeout_s)
def gcc_compile(test_list, output_dir, isa, mabi, opts):
"""Use riscv gcc toolchain to compile the assembly program
Args:
test_list : List of assembly programs to be compiled
output_dir : Output directory of the ELF files
isa : ISA variant passed to GCC
mabi : MABI variant passed to GCC
"""
for test in test_list:
for i in range(0, test['iterations']):
if 'no_gcc' in test and test['no_gcc'] == 1:
continue
prefix = ("%s/asm_tests/%s_%d" % (output_dir, test['test'], i))
asm = prefix + ".S"
elf = prefix + ".o"
binary = prefix + ".bin"
# gcc comilation
cmd = ("%s -static -mcmodel=medany \
-fvisibility=hidden -nostdlib \
-nostartfiles %s \
-I%s/user_extension \
-T%s/scripts/link.ld %s -o %s " % \
(get_env_var("RISCV_GCC"), asm, get_env_var("RISCV_DV_ROOT"),
get_env_var("RISCV_DV_ROOT"), opts, elf))
if 'gcc_opts' in test:
cmd += test['gcc_opts']
# If march/mabi is not defined in the test gcc_opts, use the default
# setting from the command line.
if not re.search('march', cmd):
cmd += (" -march=%s" % isa)
if not re.search('mabi', cmd):
cmd += (" -mabi=%s" % mabi)
logging.info("Compiling %s" % asm)
logging.debug(cmd)
output = subprocess.check_output(cmd.split())
logging.debug(output)
# Convert the ELF to plain binary, used in RTL sim
logging.info("Converting to %s" % binary)
cmd = ("%s -O binary %s %s" % (get_env_var("RISCV_OBJCOPY"), elf, binary))
output = subprocess.check_output(cmd.split())
logging.debug(output)
def run_assembly(asm_test, iss_yaml, isa, mabi, iss):
"""Run a directed assembly test with spike
Args:
asm_tset : Assembly test file
iss_yaml : ISS configuration file in YAML format
isa : ISA variant passed to the ISS
mabi : MABI variant passed to GCC
iss : Instruction set simulators
"""
asm = asm_test
elf = asm_test + ".o"
binary = asm_test + ".bin"
log = asm_test + ".log"
logging.info("Compiling assembly test : %s" % asm)
# gcc comilation
cmd = ("%s -static -mcmodel=medany \
-fvisibility=hidden -nostdlib \
-nostartfiles %s \
-I%s/user_extension \
-T%s/scripts/link.ld -o %s " % \
(get_env_var("RISCV_GCC"), asm, get_env_var("RISCV_DV_ROOT"),
get_env_var("RISCV_DV_ROOT"), elf))
cmd += (" -march=%s" % isa)
cmd += (" -mabi=%s" % mabi)
logging.info("Compiling %s" % asm)
output = subprocess.check_output(cmd.split())
# Convert the ELF to plain binary, used in RTL sim
logging.info("Converting to %s" % binary)
cmd = ("%s -O binary %s %s" % (get_env_var("RISCV_OBJCOPY"), elf, binary))
output = subprocess.check_output(cmd.split())
logging.debug(output)
base_cmd = parse_iss_yaml(iss, iss_yaml, isa)
logging.info("[%0s] Running ISS simulation: %s" % (iss, elf))
cmd = get_iss_cmd(base_cmd, elf, log)
run_cmd(cmd, 20)
logging.info("[%0s] Running ISS simulation: %s ...done" % (iss, elf))
def iss_sim(test_list, output_dir, iss_list, iss_yaml, isa, timeout_s):
"""Run ISS simulation with the generated test program
Args:
test_list : List of assembly programs to be compiled
output_dir : Output directory of the ELF files
iss_list : List of instruction set simulators
iss_yaml : ISS configuration file in YAML format
isa : ISA variant passed to the ISS
timeout_s : Timeout limit in seconds
"""
for iss in iss_list.split(","):
log_dir = ("%s/%s_sim" % (output_dir, iss))
base_cmd = parse_iss_yaml(iss, iss_yaml, isa)
logging.info("%s sim log dir: %s" % (iss, log_dir))
subprocess.run(["mkdir", "-p", log_dir])
for test in test_list:
if 'no_iss' in test and test['no_iss'] == 1:
continue
else:
for i in range(0, test['iterations']):
prefix = ("%s/asm_tests/%s_%d" % (output_dir, test['test'], i))
elf = prefix + ".o"
log = ("%s/%s.%d.log" % (log_dir, test['test'], i))
cmd = get_iss_cmd(base_cmd, elf, log)
logging.info("Running %s sim: %s" % (iss, elf))
run_cmd(cmd, timeout_s)
logging.debug(cmd)
def iss_cmp(test_list, iss, output_dir, isa):
"""Compare ISS simulation reult
Args:
test_list : List of assembly programs to be compiled
iss : List of instruction set simulators
output_dir : Output directory of the ELF files
isa : ISA
"""
iss_list = iss.split(",")
if len(iss_list) != 2:
return
report = ("%s/iss_regr.log" % output_dir).rstrip()
run_cmd("rm -rf %s" % report)
for test in test_list:
for i in range(0, test['iterations']):
elf = ("%s/asm_tests/%s_%d.o" % (output_dir, test['test'], i))
logging.info("Comparing ISS sim result %s/%s : %s" %
(iss_list[0], iss_list[1], elf))
csv_list = []
run_cmd(("echo 'Test binary: %s' >> %s" % (elf, report)))
for iss in iss_list:
log = ("%s/%s_sim/%s.%d.log" % (output_dir, iss, test['test'], i))
csv = ("%s/%s_sim/%s.%d.csv" % (output_dir, iss, test['test'], i))
csv_list.append(csv)
if iss == "spike":
process_spike_sim_log(log, csv)
elif iss == "ovpsim":
process_ovpsim_sim_log(log, csv)
elif iss == "sail":
process_sail_sim_log(log, csv)
else:
logging.error("Unsupported ISS" % iss)
sys.exit(1)
compare_trace_csv(csv_list[0], csv_list[1], iss_list[0], iss_list[1], report)
passed_cnt = run_cmd("grep PASSED %s | wc -l" % report).strip()
failed_cnt = run_cmd("grep FAILED %s | wc -l" % report).strip()
summary = ("%s PASSED, %s FAILED" % (passed_cnt, failed_cnt))
logging.info(summary)
run_cmd(("echo %s >> %s" % (summary, report)))
logging.info("ISS regression report is saved to %s" % report)
def setup_parser():
"""Create a command line parser.
Returns: The created parser.
"""
# Parse input arguments
parser = argparse.ArgumentParser()
parser.add_argument("-o", "--output", type=str,
help="Output directory name", dest="o")
parser.add_argument("-tl", "--testlist", type=str, default="",
help="Regression testlist", dest="testlist")
parser.add_argument("-tn", "--test", type=str, default="all",
help="Test name, 'all' means all tests in the list", dest="test")
parser.add_argument("--seed", type=int, default=-1,
help="Randomization seed, default -1 means random seed")
parser.add_argument("-i", "--iterations", type=int, default=0,
help="Override the iteration count in the test list", dest="iterations")
parser.add_argument("-si", "--simulator", type=str, default="vcs",
help="Simulator used to run the generator, default VCS", dest="simulator")
parser.add_argument("--iss", type=str, default="spike",
help="RISC-V instruction set simulator: spike,ovpsim,sail")
parser.add_argument("-v", "--verbose", dest="verbose", action="store_true",
help="Verbose logging")
parser.add_argument("--co", dest="co", action="store_true",
help="Compile the generator only")
parser.add_argument("--cov", dest="cov", action="store_true",
help="Enable functional coverage")
parser.add_argument("--so", dest="so", action="store_true",
help="Simulate the generator only")
parser.add_argument("--cmp_opts", type=str, default="",
help="Compile options for the generator")
parser.add_argument("--sim_opts", type=str, default="",
help="Simulation options for the generator")
parser.add_argument("--gcc_opts", type=str, default="",
help="GCC compile options")
parser.add_argument("-s", "--steps", type=str, default="all",
help="Run steps: gen,gcc_compile,iss_sim,iss_cmp", dest="steps")
parser.add_argument("--lsf_cmd", type=str, default="",
help="LSF command. Run in local sequentially if lsf \
command is not specified")
parser.add_argument("--isa", type=str, default="rv64gc",
help="RISC-V ISA subset")
parser.add_argument("-m", "--mabi", type=str, default="lp64",
help="mabi used for compilation, lp32 or lp64", dest="mabi")
parser.add_argument("--gen_timeout", type=int, default=360,
help="Generator timeout limit in seconds")
parser.add_argument("--end_signature_addr", type=str, default="0",
help="Address that privileged CSR test writes to at EOT")
parser.add_argument("--iss_timeout", type=int, default=25,
help="ISS sim timeout limit in seconds")
parser.add_argument("--iss_yaml", type=str, default="",
help="ISS setting YAML")
parser.add_argument("--simulator_yaml", type=str, default="",
help="RTL simulator setting YAML")
parser.add_argument("--csr_yaml", type=str, default="",
help="CSR description file")
parser.add_argument("--seed_yaml", type=str, default="",
help="Rerun the generator with the seed specification \
from a prior regression")
parser.add_argument("-cs", "--core_setting_dir", type=str, default="",
help="Path for the riscv_core_setting.sv")
parser.add_argument("-ext", "--user_extension_dir", type=str, default="",
help="Path for the user extension directory")
parser.add_argument("--asm_test", type=str, default="",
help="Directed assembly test")
parser.add_argument("--log_suffix", type=str, default="",
help="Simulation log name suffix")
parser.add_argument("-bz", "--batch_size", type=int, default=0,
help="Number of tests to generate per run. You can split a big"
" job to small batches with this option")
parser.set_defaults(co=False)
parser.set_defaults(so=False)
parser.set_defaults(verbose=False)
parser.set_defaults(cov=False)
return parser
def main():
"""This is the main entry point."""
check_riscv_dv_setting()
parser = setup_parser()
args = parser.parse_args()
cwd = os.path.dirname(os.path.realpath(__file__))
setup_logging(args.verbose)
if not args.csr_yaml:
args.csr_yaml = cwd + "/yaml/csr_template.yaml"
if not args.iss_yaml:
args.iss_yaml = cwd + "/yaml/iss.yaml"
if not args.simulator_yaml:
args.simulator_yaml = cwd + "/yaml/simulator.yaml"
if not args.testlist:
args.testlist = cwd + "/yaml/testlist.yaml"
if args.asm_test != "":
run_assembly(args.asm_test, args.iss_yaml, args.isa, args.mabi, args.iss)
return
# Create output directory
if args.o is None:
output_dir = "out_" + str(date.today())
else:
output_dir = args.o
subprocess.run(["mkdir", "-p", output_dir])
subprocess.run(["mkdir", "-p", ("%s/asm_tests" % output_dir)])
# Process regression test list
matched_list = []
if not args.co:
process_regression_list(args.testlist, args.test, args.iterations, matched_list)
if len(matched_list) == 0:
sys.exit("Cannot find %s in %s" % (args.test, args.testlist))
# Run instruction generator
if args.steps == "all" or re.match(".*gen.*", args.steps):
gen(matched_list, args.csr_yaml, args.end_signature_addr, args.isa,
args.simulator, args.simulator_yaml, output_dir, args.so,
args.co, args.lsf_cmd, args.seed, cwd, args.cmp_opts,
args.sim_opts, args.gen_timeout, args.core_setting_dir,
args.user_extension_dir, args.cov, args.log_suffix, args.batch_size,
args.seed_yaml)
if not args.co:
# Compile the assembly program to ELF, convert to plain binary
if args.steps == "all" or re.match(".*gcc_compile.*", args.steps):
gcc_compile(matched_list, output_dir, args.isa, args.mabi, args.gcc_opts)
# Run ISS simulation
if args.steps == "all" or re.match(".*iss_sim.*", args.steps):
iss_sim(matched_list, output_dir, args.iss, args.iss_yaml,
args.isa, args.iss_timeout)
# Compare ISS simulation result
if args.steps == "all" or re.match(".*iss_cmp.*", args.steps):
iss_cmp(matched_list, args.iss, output_dir, args.isa)
if __name__ == "__main__":
main()