run.py

"""
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 random
import re
import sys
import logging

from scripts.lib import *
from scripts.spike_log_to_trace_csv import *
from scripts.ovpsim_log_to_trace_csv import *
from scripts.whisper_log_trace_csv import *
from scripts.sail_log_to_trace_csv import *
from scripts.instr_trace_compare import *

from types import SimpleNamespace

LOGGER = logging.getLogger()


class SeedGen:
    """An object that will generate a pseudo-random seed for test iterations"""

    def __init__(self, start_seed, fixed_seed, seed_yaml):
        # These checks are performed with proper error messages at argument
        # parsing time, but it can't hurt to do a belt-and-braces check here too.
        assert fixed_seed is None or start_seed is None

        self.fixed_seed = fixed_seed
        self.start_seed = start_seed
        self.rerun_seed = {} if seed_yaml is None else read_yaml(seed_yaml)

    def get(self, test_id, test_iter):
        """Get the seed to use for the given test and iteration"""

        if test_id in self.rerun_seed:
            # Note that test_id includes the iteration index (well, the batch
            # index, at any rate), so this makes sense even if test_iter > 0.
            return self.rerun_seed[test_id]

        if self.fixed_seed is not None:
            # Checked at argument parsing time
            assert test_iter == 0
            return self.fixed_seed

        if self.start_seed is not None:
            return self.start_seed + test_iter

        # If the user didn't specify seeds in some way, we generate a random
        # seed every time
        return random.getrandbits(31)


def get_generator_cmd(simulator, simulator_yaml, cov, exp, debug_cmd):
    """ Setup the compile and simulation command for the generator

    Args:
      simulator      : RTL/pyflow simulator used to run instruction generator
      simulator_yaml : RTL/pyflow simulator configuration file in YAML format
      cov            : Enable functional coverage
      exp            : Use experimental version
      debug_cmd      : Produce the debug cmd log without running

    Returns:
      compile_cmd    : RTL/pyflow simulator command to compile the instruction
                       generator
      sim_cmd        : RTL/pyflow simulator command to run the instruction
                       generator
    """
    logging.info("Processing simulator setup file : {}".format(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: {}".format(entry['tool']))
            if simulator == "pyflow":
                compile_cmd = ""
            else:
                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])
                    if exp:
                        compile_cmd[i] += " +define+EXPERIMENTAL "
            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, debug_cmd=debug_cmd),
                            compile_cmd[i])
                    sim_cmd = re.sub(
                        "<" + env_var + ">", get_env_var(env_var, debug_cmd=debug_cmd),
                        sim_cmd)
            return compile_cmd, sim_cmd
    logging.error("Cannot find simulator {}".format(simulator))
    sys.exit(RET_FAIL)


def parse_iss_yaml(iss, iss_yaml, isa, setting_dir, debug_cmd):
    """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
      setting_dir : Generator setting directory
      debug_cmd   : Produce the debug cmd log without running

    Returns:
      cmd         : ISS run command
    """
    logging.info("Processing ISS setup file : {}".format(iss_yaml))
    yaml_data = read_yaml(iss_yaml)

    # Path to the "scripts" subdirectory
    my_path = os.path.dirname(os.path.realpath(__file__))
    scripts_dir = os.path.join(my_path, "scripts")   # Search for matched ISS

    # Search for matched ISS
    for entry in yaml_data:
        if entry['iss'] == iss:
            logging.info("Found matching ISS: {}".format(entry['iss']))
            cmd = entry['cmd'].rstrip()
            cmd = re.sub("\<path_var\>",
                         get_env_var(entry['path_var'], debug_cmd=debug_cmd),
                         cmd)
            m = re.search(r"rv(?P<xlen>[0-9]+?)(?P<variant>[a-zA-Z_]+?)$", isa)
            if m:
                cmd = re.sub("\<xlen\>", m.group('xlen'), cmd)
            else:
                logging.error("Illegal ISA {}".format(isa))
            if iss == "ovpsim":
                cmd = re.sub("\<cfg_path\>", setting_dir, cmd)
            elif iss == "whisper":
                if m:
                    # TODO: Support u/s mode
                    variant = re.sub('g', 'imafd', m.group('variant'))
                    cmd = re.sub("\<variant\>", variant, cmd)
            else:
                cmd = re.sub("\<variant\>", isa, cmd)
            cmd = re.sub("\<scripts_path\>", scripts_dir, cmd)
            return cmd
    logging.error("Cannot find ISS {}".format(iss))
    sys.exit(RET_FAIL)


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 += (" &> {}".format(log))
    return cmd


def do_compile(compile_cmd, test_list, core_setting_dir, cwd, ext_dir,
               cmp_opts, output_dir, debug_cmd, lsf_cmd):
    """Compile the instruction generator

    Args:
      compile_cmd         : Compile command for the generator
      test_list           : List of assembly programs to be compiled
      core_setting_dir    : Path for riscv_core_setting.sv
      cwd                 : Filesystem path to RISCV-DV repo
      ext_dir             : User extension directory
      cmp_opts            : Compile options for the generator
      output_dir          : Output directory of the ELF files
      debug_cmd           : Produce the debug cmd log without running
      lsf_cmd             : LSF command used to run the instruction generator
    """
    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)
            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)
            if lsf_cmd:
                cmd = lsf_cmd + " " + cmd
                run_parallel_cmd([cmd], debug_cmd=debug_cmd)
            else:
                logging.debug("Compile command: {}".format(cmd))
                run_cmd(cmd, debug_cmd=debug_cmd)


def run_csr_test(cmd_list, cwd, csr_file, isa, iterations, lsf_cmd,
                 end_signature_addr, timeout_s, output_dir, debug_cmd):
    """Run CSR test
     It calls a separate python script to generate directed CSR test code,
     located at scripts/gen_csr_test.py.
    """
    cmd = "python3 " + cwd + "/scripts/gen_csr_test.py" + \
          (" --csr_file {}".format(csr_file)) + \
          (" --xlen {}".format(
              re.search(r"(?P<xlen>[0-9]+)", isa).group("xlen"))) + \
          (" --iterations {}".format(iterations)) + \
          (" --out {}/asm_test".format(output_dir)) + \
          (" --end_signature_addr {}".format(end_signature_addr))
    if lsf_cmd:
        cmd_list.append(cmd)
    else:
        run_cmd(cmd, timeout_s, debug_cmd=debug_cmd)


def do_simulate(sim_cmd, simulator, test_list, cwd, sim_opts, seed_gen,
                csr_file,
                isa, end_signature_addr, lsf_cmd, timeout_s, log_suffix,
                batch_size, output_dir, verbose, check_return_code, debug_cmd, target):
    """Run  the instruction generator

    Args:
      sim_cmd               : Simulate command for the generator
      simulator             : simulator used to run instruction generator
      test_list             : List of assembly programs to be compiled
      cwd                   : Filesystem path to RISCV-DV repo
      sim_opts              : Simulation options for the generator
      seed_gen              : A SeedGen seed generator
      csr_file              : YAML file containing description of all CSRs
      isa                   : Processor supported ISA subset
      end_signature_addr    : Address that tests will write pass/fail signature to at end of test
      lsf_cmd               : LSF command used to run the instruction generator
      timeout_s             : Timeout limit in seconds
      log_suffix            : Simulation log file name suffix
      batch_size            : Number of tests to generate per run
      output_dir            : Output directory of the ELF files
      verbose               : Verbose logging
      check_return_code     : Check return code of the command
      debug_cmd             : Produce the debug cmd log without running
    """
    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)

    logging.info("Running RISC-V instruction generator")
    sim_seed = {}
    for test in test_list:
        iterations = test['iterations']
        logging.info("Generating {} {}".format(iterations, test['test']))
        if iterations > 0:
            # Running a CSR test
            if test['test'] == 'riscv_csr_test':
                run_csr_test(cmd_list, cwd, csr_file, isa, iterations, lsf_cmd,
                             end_signature_addr, timeout_s, output_dir,
                             debug_cmd)
            else:
                batch_cnt = 1
                if batch_size > 0:
                    batch_cnt = int((iterations + batch_size - 1) / batch_size)
                logging.info(
                    "Running {} with {} batches".format(test['test'],
                                                        batch_cnt))
                for i in range(0, batch_cnt):
                    test_id = '{}_{}'.format(test['test'], i)
                    rand_seed = seed_gen.get(test_id, i * batch_cnt)
                    if i < batch_cnt - 1:
                        test_cnt = batch_size
                    else:
                        test_cnt = iterations - i * batch_size
                    if simulator == "pyflow":
                        sim_cmd = re.sub("<test_name>", test['gen_test'],
                                         sim_cmd)
                        cmd = lsf_cmd + " " + sim_cmd.rstrip() + \
                              (" --num_of_tests={}".format(test_cnt)) + \
                              (" --start_idx={}".format(i * batch_size)) + \
                              (" --asm_file_name={}/asm_test/{}".format(
                                  output_dir, test['test'])) + \
                              (" --log_file_name={}/sim_{}_{}{}.log ".format(
                                  output_dir,
                                  test['test'], i, log_suffix)) + \
                              (" --target=%s " % (target)) + \
                              (" --gen_test=%s " % (test['gen_test'])) + \
                              (" --seed={} ".format(rand_seed))
                    else:
                        cmd = lsf_cmd + " " + sim_cmd.rstrip() + \
                              (" +UVM_TESTNAME={} ".format(test['gen_test'])) + \
                              (" +num_of_tests={} ".format(test_cnt)) + \
                              (" +start_idx={} ".format(i * batch_size)) + \
                              (" +asm_file_name={}/asm_test/{} ".format(
                                  output_dir, test['test'])) + \
                              (" -l {}/sim_{}_{}{}.log ".format(
                                  output_dir, test['test'], i, log_suffix))
                    if verbose and simulator != "pyflow":
                        cmd += "+UVM_VERBOSITY=UVM_HIGH "
                    cmd = re.sub("<seed>", str(rand_seed), cmd)
                    cmd = re.sub("<test_id>", test_id, cmd)
                    sim_seed[test_id] = str(rand_seed)
                    if "gen_opts" in test:
                        if simulator == "pyflow":
                            test['gen_opts'] = re.sub("\+", "--",
                                                      test['gen_opts'])
                            cmd += test['gen_opts']
                        else:
                            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 {}, batch {}/{}, test_cnt:{}".format(
                                test['test'], i + 1, batch_cnt, test_cnt))
                        run_cmd(cmd, timeout_s,
                                check_return_code=check_return_code,
                                debug_cmd=debug_cmd)
    if sim_seed:
        with open(('{}/seed.yaml'.format(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,
                         check_return_code=check_return_code,
                         debug_cmd=debug_cmd)


def gen(test_list, argv, output_dir, cwd):
    """Run the instruction generator

    Args:
      test_list             : List of assembly programs to be compiled
      argv                  : Configuration arguments
      output_dir            : Output directory of the ELF files
      cwd                   : Filesystem path to RISCV-DV repo
    """
    check_return_code = True
    if argv.simulator == "ius":
        # Incisive return non-zero return code even test passes
        check_return_code = False
        logging.debug(
            "Disable return_code checking for {}".format(argv.simulator))
    # Mutually exclusive options between compile_only and sim_only
    if argv.co and argv.so:
        logging.error("argument -co is not allowed with argument -so")
        return
    if argv.co == 0 and len(test_list) == 0:
        return
    # Setup the compile and simulation command for the generator
    compile_cmd, sim_cmd = get_generator_cmd(argv.simulator,
                                             argv.simulator_yaml, argv.cov,
                                             argv.exp, argv.debug)
    # Compile the instruction generator
    # No compilation process in pyflow simulator
    if not argv.so:
        do_compile(compile_cmd, test_list, argv.core_setting_dir, cwd,
                   argv.user_extension_dir,
                   argv.cmp_opts, output_dir, argv.debug, argv.lsf_cmd)
    # Run the instruction generator
    if not argv.co:
        seed_gen = SeedGen(argv.start_seed, argv.seed, argv.seed_yaml)
        if argv.simulator == 'pyflow':
            """Default timeout of Pyflow is 20 minutes, if the user
               doesn't specified their own gen_timeout value from CMD
            """
            if argv.gen_timeout == 360:
                gen_timeout = 1200
            else:
                gen_timeout = argv.gen_timeout
        else:
            gen_timeout = argv.gen_timeout
        do_simulate(sim_cmd, argv.simulator, test_list, cwd, argv.sim_opts,
                    seed_gen,
                    argv.csr_yaml, argv.isa, argv.end_signature_addr,
                    argv.lsf_cmd,
                    gen_timeout, argv.log_suffix, argv.batch_size,
                    output_dir,
                    argv.verbose, check_return_code, argv.debug, argv.target)


def gcc_compile(test_list, output_dir, isa, mabi, opts, debug_cmd):
    """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
      debug_cmd  : Produce the debug cmd log without running
    """
    cwd = os.path.dirname(os.path.realpath(__file__))
    for test in test_list:
        for i in range(0, test['iterations']):
            if 'no_gcc' in test and test['no_gcc'] == 1:
                continue
            prefix = ("{}/asm_test/{}_{}".format(output_dir, test['test'], i))
            asm = prefix + ".S"
            elf = prefix + ".o"
            binary = prefix + ".bin"
            test_isa = isa
            if not os.path.isfile(asm) and not debug_cmd:
                logging.error("Cannot find assembly test: {}\n".format(asm))
                sys.exit(RET_FAIL)
            # gcc compilation
            cmd = ("{} -static -mcmodel=medany \
             -fvisibility=hidden -nostdlib \
             -nostartfiles {} \
             -I{}/user_extension \
             -T{}/scripts/link.ld {} -o {} ".format(
                get_env_var("RISCV_GCC", debug_cmd=debug_cmd), asm, cwd,
                cwd, opts, elf))
            if 'gcc_opts' in test:
                cmd += test['gcc_opts']
            if 'gen_opts' in test:
                # Disable compressed instruction
                if re.search('disable_compressed_instr', test['gen_opts']):
                    test_isa = re.sub("c", "", test_isa)
            # 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={}".format(test_isa))
            if not re.search('mabi', cmd):
                cmd += (" -mabi={}".format(mabi))
            logging.info("Compiling {}".format(asm))
            run_cmd_output(cmd.split(), debug_cmd=debug_cmd)
            # Convert the ELF to plain binary, used in RTL sim
            logging.info("Converting to {}".format(binary))
            cmd = ("{} -O binary {} {}".format(
                get_env_var("RISCV_OBJCOPY", debug_cmd=debug_cmd), elf, binary))
            run_cmd_output(cmd.split(), debug_cmd=debug_cmd)


def run_assembly(asm_test, iss_yaml, isa, mabi, gcc_opts, iss_opts, output_dir,
                 setting_dir, debug_cmd):
    """Run a directed assembly test with ISS

    Args:
      asm_test    : Assembly test file
      iss_yaml    : ISS configuration file in YAML format
      isa         : ISA variant passed to the ISS
      mabi        : MABI variant passed to GCC
      gcc_opts    : User-defined options for GCC compilation
      iss_opts    : Instruction set simulators
      output_dir  : Output directory of compiled test files
      setting_dir : Generator setting directory
      debug_cmd   : Produce the debug cmd log without running
    """
    if not asm_test.endswith(".S"):
        logging.error("{} is not an assembly .S file".format(asm_test))
        return
    cwd = os.path.dirname(os.path.realpath(__file__))
    asm_test = os.path.expanduser(asm_test)
    report = ("{}/iss_regr.log".format(output_dir)).rstrip()
    asm = re.sub(r"^.*\/", "", asm_test)
    asm = re.sub(r"\.S$", "", asm)
    prefix = ("{}/directed_asm_test/{}".format(output_dir, asm))
    elf = prefix + ".o"
    binary = prefix + ".bin"
    iss_list = iss_opts.split(",")
    run_cmd("mkdir -p {}/directed_asm_test".format(output_dir))
    logging.info("Compiling assembly test : {}".format(asm_test))

    # gcc compilation
    cmd = ("{} -static -mcmodel=medany \
         -fvisibility=hidden -nostdlib \
         -nostartfiles {} \
         -I{}/user_extension \
         -T{}/scripts/link.ld {} -o {} ".format(
        get_env_var("RISCV_GCC", debug_cmd=debug_cmd), asm_test, cwd,
        cwd, gcc_opts, elf))
    cmd += (" -march={}".format(isa))
    cmd += (" -mabi={}".format(mabi))
    run_cmd_output(cmd.split(), debug_cmd=debug_cmd)
    # Convert the ELF to plain binary, used in RTL sim
    logging.info("Converting to {}".format(binary))
    cmd = ("{} -O binary {} {}".format(
        get_env_var("RISCV_OBJCOPY", debug_cmd=debug_cmd), elf, binary))
    run_cmd_output(cmd.split(), debug_cmd=debug_cmd)
    log_list = []
    # ISS simulation
    for iss in iss_list:
        run_cmd("mkdir -p {}/{}_sim".format(output_dir, iss))
        log = ("{}/{}_sim/{}.log".format(output_dir, iss, asm))
        log_list.append(log)
        base_cmd = parse_iss_yaml(iss, iss_yaml, isa, setting_dir, debug_cmd)
        logging.info("[{}] Running ISS simulation: {}".format(iss, elf))
        cmd = get_iss_cmd(base_cmd, elf, log)
        run_cmd(cmd, 10, debug_cmd=debug_cmd)
        logging.info("[{}] Running ISS simulation: {} ...done".format(iss, elf))
    if len(iss_list) == 2:
        compare_iss_log(iss_list, log_list, report)


def run_assembly_from_dir(asm_test_dir, iss_yaml, isa, mabi, gcc_opts, iss,
                          output_dir, setting_dir, debug_cmd):
    """Run a directed assembly test from a directory with spike

    Args:
      asm_test_dir    : Assembly test file directory
      iss_yaml        : ISS configuration file in YAML format
      isa             : ISA variant passed to the ISS
      mabi            : MABI variant passed to GCC
      gcc_opts        : User-defined options for GCC compilation
      iss             : Instruction set simulators
      output_dir      : Output directory of compiled test files
      setting_dir     : Generator setting directory
      debug_cmd       : Produce the debug cmd log without running
    """
    result = run_cmd("find {} -name \"*.S\"".format(asm_test_dir))
    if result:
        asm_list = result.splitlines()
        logging.info("Found {} assembly tests under {}".format(
            len(asm_list), asm_test_dir))
        for asm_file in asm_list:
            run_assembly(asm_file, iss_yaml, isa, mabi, gcc_opts, iss,
                         output_dir,
                         setting_dir, debug_cmd)
            if "," in iss:
                report = ("{}/iss_regr.log".format(output_dir)).rstrip()
                save_regr_report(report)
    else:
        logging.error(
            "No assembly test(*.S) found under {}".format(asm_test_dir))


def run_c(c_test, iss_yaml, isa, mabi, gcc_opts, iss_opts, output_dir,
          setting_dir, debug_cmd):
    """Run a directed c test with ISS

    Args:
      c_test      : C test file
      iss_yaml    : ISS configuration file in YAML format
      isa         : ISA variant passed to the ISS
      mabi        : MABI variant passed to GCC
      gcc_opts    : User-defined options for GCC compilation
      iss_opts    : Instruction set simulators
      output_dir  : Output directory of compiled test files
      setting_dir : Generator setting directory
      debug_cmd   : Produce the debug cmd log without running
    """
    if not c_test.endswith(".c"):
        logging.error("{} is not a .c file".format(c_test))
        return
    cwd = os.path.dirname(os.path.realpath(__file__))
    c_test = os.path.expanduser(c_test)
    report = ("{}/iss_regr.log".format(output_dir)).rstrip()
    c = re.sub(r"^.*\/", "", c_test)
    c = re.sub(r"\.c$", "", c)
    prefix = ("{}/directed_c_test/{}".format(output_dir, c))
    elf = prefix + ".o"
    binary = prefix + ".bin"
    iss_list = iss_opts.split(",")
    run_cmd("mkdir -p {}/directed_c_test".format(output_dir))
    logging.info("Compiling c test : {}".format(c_test))

    # gcc compilation
    cmd = ("{} -mcmodel=medany -nostdlib \
         -nostartfiles {} \
         -I{}/user_extension \
         -T{}/scripts/link.ld {} -o {} ".format(
        get_env_var("RISCV_GCC", debug_cmd=debug_cmd), c_test, cwd,
        cwd, gcc_opts, elf))
    cmd += (" -march={}".format(isa))
    cmd += (" -mabi={}".format(mabi))
    run_cmd_output(cmd.split(), debug_cmd=debug_cmd)
    # Convert the ELF to plain binary, used in RTL sim
    logging.info("Converting to {}".format(binary))
    cmd = ("{} -O binary {} {}".format(
        get_env_var("RISCV_OBJCOPY", debug_cmd=debug_cmd), elf, binary))
    run_cmd_output(cmd.split(), debug_cmd=debug_cmd)
    log_list = []
    # ISS simulation
    for iss in iss_list:
        run_cmd("mkdir -p {}/{}_sim".format(output_dir, iss))
        log = ("{}/{}_sim/{}.log".format(output_dir, iss, c))
        log_list.append(log)
        base_cmd = parse_iss_yaml(iss, iss_yaml, isa, setting_dir, debug_cmd)
        logging.info("[{}] Running ISS simulation: {}".format(iss, elf))
        cmd = get_iss_cmd(base_cmd, elf, log)
        run_cmd(cmd, 10, debug_cmd=debug_cmd)
        logging.info("[{}] Running ISS simulation: {} ...done".format(iss, elf))
    if len(iss_list) == 2:
        compare_iss_log(iss_list, log_list, report)


def run_c_from_dir(c_test_dir, iss_yaml, isa, mabi, gcc_opts, iss,
                   output_dir, setting_dir, debug_cmd):
    """Run a directed c test from a directory with spike

    Args:
      c_test_dir      : C test file directory
      iss_yaml        : ISS configuration file in YAML format
      isa             : ISA variant passed to the ISS
      mabi            : MABI variant passed to GCC
      gcc_opts        : User-defined options for GCC compilation
      iss             : Instruction set simulators
      output_dir      : Output directory of compiled test files
      setting_dir     : Generator setting directory
      debug_cmd       : Produce the debug cmd log without running
    """
    result = run_cmd("find {} -name \"*.c\"".format(c_test_dir))
    if result:
        c_list = result.splitlines()
        logging.info("Found {} c tests under {}".format(len(c_list), c_test_dir))
        for c_file in c_list:
            run_c(c_file, iss_yaml, isa, mabi, gcc_opts, iss, output_dir,
                  setting_dir, debug_cmd)
            if "," in iss:
                report = ("{}/iss_regr.log".format(output_dir)).rstrip()
                save_regr_report(report)
    else:
        logging.error("No c test(*.c) found under {}".format(c_test_dir))


def iss_sim(test_list, output_dir, iss_list, iss_yaml, iss_opts,
            isa, setting_dir, timeout_s, debug_cmd):
    """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
      iss_opts    : ISS command line options
      isa         : ISA variant passed to the ISS
      setting_dir : Generator setting directory
      timeout_s   : Timeout limit in seconds
      debug_cmd   : Produce the debug cmd log without running
    """
    for iss in iss_list.split(","):
        log_dir = ("{}/{}_sim".format(output_dir, iss))
        base_cmd = parse_iss_yaml(iss, iss_yaml, isa, setting_dir, debug_cmd)
        logging.info("{} sim log dir: {}".format(iss, log_dir))
        run_cmd_output(["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 = ("{}/asm_test/{}_{}".format(
                        output_dir, test['test'], i))
                    elf = prefix + ".o"
                    log = ("{}/{}_{}.log".format(log_dir, test['test'], i))
                    cmd = get_iss_cmd(base_cmd, elf, log)
                    if 'iss_opts' in test:
                        cmd += ' '
                        cmd += test['iss_opts']
                    logging.info("Running {} sim: {}".format(iss, elf))
                    if iss == "ovpsim":
                        run_cmd(cmd, timeout_s, debug_cmd=debug_cmd)
                    else:
                        run_cmd(cmd, timeout_s, debug_cmd=debug_cmd)
                    logging.debug(cmd)


def iss_cmp(test_list, iss, output_dir, stop_on_first_error, exp, debug_cmd):
    """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
      stop_on_first_error : will end run on first error detected
      exp            : Use experimental version
      debug_cmd      : Produce the debug cmd log without running
    """
    if debug_cmd:
        return
    iss_list = iss.split(",")
    if len(iss_list) != 2:
        return
    report = ("{}/iss_regr.log".format(output_dir)).rstrip()
    run_cmd("rm -rf {}".format(report))
    for test in test_list:
        for i in range(0, test['iterations']):
            elf = ("{}/asm_test/{}_{}.o".format(output_dir, test['test'], i))
            logging.info("Comparing ISS sim result {}/{} : {}".format(
                iss_list[0], iss_list[1], elf))
            log_list = []
            run_cmd(("echo 'Test binary: {}' >> {}".format(elf, report)))
            for iss in iss_list:
                log_list.append(
                    "{}/{}_sim/{}.{}.log".format(output_dir, iss, test['test'], i))
            compare_iss_log(iss_list, log_list, report, stop_on_first_error,
                            exp)
    save_regr_report(report)


def compare_iss_log(iss_list, log_list, report, stop_on_first_error=0,
                    exp=False):
    if len(iss_list) != 2 or len(log_list) != 2:
        logging.error("Only support comparing two ISS logs")
    else:
        csv_list = []
        for i in range(2):
            log = log_list[i]
            csv = log.replace(".log", ".csv")
            iss = iss_list[i]
            csv_list.append(csv)
            if iss == "spike":
                process_spike_sim_log(log, csv)
            elif iss == "ovpsim":
                process_ovpsim_sim_log(log, csv, stop_on_first_error)
            elif iss == "sail":
                process_sail_sim_log(log, csv)
            elif iss == "whisper":
                process_whisper_sim_log(log, csv)
            else:
                logging.error("Unsupported ISS {}".format(iss))
                sys.exit(RET_FAIL)
        result = compare_trace_csv(csv_list[0], csv_list[1], iss_list[0],
                                   iss_list[1], report)
        logging.info(result)


def save_regr_report(report):
    passed_cnt = run_cmd("grep PASSED {} | wc -l".format(report)).strip()
    failed_cnt = run_cmd("grep FAILED {} | wc -l".format(report)).strip()
    summary = ("{} PASSED, {} FAILED".format(passed_cnt, failed_cnt))
    logging.info(summary)
    run_cmd(("echo {} >> {}".format(summary, report)))
    logging.info("ISS regression report is saved to {}".format(report))


def read_seed(arg):
    """Read --seed or --seed_start"""
    try:
        seed = int(arg)
        if seed < 0:
            raise ValueError('bad seed')
        return seed

    except ValueError:
        raise argparse.ArgumentTypeError('Bad seed ({}): '
                                         'must be a non-negative integer.'
                                         .format(arg))


def parse_args(cwd):
    """Create a command line parser.

    Returns: The created parser.
    """
    # Parse input arguments
    parser = argparse.ArgumentParser()

    parser.add_argument("--target", type=str, default="rv32imc",
                        help="Run the generator with pre-defined targets: \
                            rv32imc, rv32i, rv32imafdc, rv64imc, rv64gc, \
                            rv64imafdc")
    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("-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",
                        default=False,
                        help="Verbose logging")
    parser.add_argument("--co", dest="co", action="store_true", default=False,
                        help="Compile the generator only")
    parser.add_argument("--cov", dest="cov", action="store_true", default=False,
                        help="Enable functional coverage")
    parser.add_argument("--so", dest="so", action="store_true", default=False,
                        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="",
                        help="RISC-V ISA subset")
    parser.add_argument("-m", "--mabi", type=str, default="",
                        help="mabi used for compilation", 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_opts", type=str, default="",
                        help="Any ISS command line arguments")
    parser.add_argument("--iss_timeout", type=int, default=10,
                        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/pyflow simulator setting YAML")
    parser.add_argument("--csr_yaml", type=str, default="",
                        help="CSR description file")
    parser.add_argument("-ct", "--custom_target", type=str, default="",
                        help="Directory name of the custom target")
    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 tests")
    parser.add_argument("--c_test", type=str, default="",
                        help="Directed c tests")
    parser.add_argument("--log_suffix", type=str, default="",
                        help="Simulation log name suffix")
    parser.add_argument("--exp", action="store_true", default=False,
                        help="Run generator with experimental features")
    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.add_argument("--stop_on_first_error", dest="stop_on_first_error",
                        action="store_true", default=False,
                        help="Stop on detecting first error")
    parser.add_argument("--noclean", action="store_true", default=True,
                        help="Do not clean the output of the previous runs")
    parser.add_argument("--verilog_style_check", action="store_true",
                        default=False,
                        help="Run verilog style check")
    parser.add_argument("-d", "--debug", type=str, default="",
                        help="Generate debug command log file")

    rsg = parser.add_argument_group('Random seeds',
                                    'To control random seeds, use at most one '
                                    'of the --start_seed, --seed or --seed_yaml '
                                    'arguments. Since the latter two only give '
                                    'a single seed for each test, they imply '
                                    '--iterations=1.')

    rsg.add_argument("--start_seed", type=read_seed,
                     help=("Randomization seed to use for first iteration of "
                           "each test. Subsequent iterations use seeds "
                           "counting up from there. Cannot be used with "
                           "--seed or --seed_yaml."))
    rsg.add_argument("--seed", type=read_seed,
                     help=("Randomization seed to use for each test. "
                           "Implies --iterations=1. Cannot be used with "
                           "--start_seed or --seed_yaml."))
    rsg.add_argument("--seed_yaml", type=str,
                     help=("Rerun the generator with the seed specification "
                           "from a prior regression. Implies --iterations=1. "
                           "Cannot be used with --start_seed or --seed."))

    args = parser.parse_args()

    if args.seed is not None and args.start_seed is not None:
        logging.error('--start_seed and --seed are mutually exclusive.')
        sys.exit(RET_FAIL)

    if args.seed is not None:
        if args.iterations == 0:
            args.iterations = 1
        elif args.iterations > 1:
            logging.error('--seed is incompatible with setting --iterations '
                          'greater than 1.')
            sys.exit(RET_FAIL)

    # We've parsed all the arguments from the command line; default values
    # can be set in the config file. Read that here.
    load_config(args, cwd)

    return args


def load_config(args, cwd):
    """
  Load configuration from the command line and the configuration file.
  Args:
      args:   Parsed command-line configuration
  Returns:
      Loaded configuration dictionary.
  """
    if args.debug:
        args.debug = open(args.debug, "w")
    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"

    # Keep the core_setting_dir option to be backward compatible, suggest to use
    # --custom_target
    if args.core_setting_dir:
        if not args.custom_target:
            args.custom_target = args.core_setting_dir
    else:
        args.core_setting_dir = args.custom_target

    if not args.custom_target:
        if not args.testlist:
            args.testlist = cwd + "/target/" + args.target + "/testlist.yaml"
        if args.simulator == "pyflow":
            args.core_setting_dir = cwd + "/pygen/pygen_src/target/" + args.target
        else:
            args.core_setting_dir = cwd + "/target/" + args.target
        if args.target == "rv32imc":
            args.mabi = "ilp32"
            args.isa = "rv32imc"
        elif args.target == "rv32imafdc":
            args.mabi = "ilp32"
            args.isa = "rv32imafdc"
        elif args.target == "rv32imc_sv32":
            args.mabi = "ilp32"
            args.isa = "rv32imc"
        elif args.target == "multi_harts":
            args.mabi = "ilp32"
            args.isa = "rv32gc"
        elif args.target == "rv32imcb":
            args.mabi = "ilp32"
            args.isa = "rv32imcb"
        elif args.target == "rv32i":
            args.mabi = "ilp32"
            args.isa = "rv32i"
        elif args.target == "rv64imc":
            args.mabi = "lp64"
            args.isa = "rv64imc"
        elif args.target == "rv64imcb":
            args.mabi = "lp64"
            args.isa = "rv64imcb"
        elif args.target == "rv64gc":
            args.mabi = "lp64"
            args.isa = "rv64gc"
        elif args.target == "rv64gcv":
            args.mabi = "lp64"
            args.isa = "rv64gcv"
        elif args.target == "ml":
            args.mabi = "lp64"
            args.isa = "rv64imc"
        elif args.target == "rv64imafdc":
            args.mabi = "lp64"
            args.isa = "rv64imafdc"
        else:
            sys.exit("Unsupported pre-defined target: {}".format(args.target))
    else:
        if re.match(".*gcc_compile.*", args.steps) or re.match(".*iss_sim.*",
                                                               args.steps):
            if (not args.mabi) or (not args.isa):
                sys.exit(
                    "mabi and isa must be specified for custom target {}".format(
                        args.custom_target))
        if not args.testlist:
            args.testlist = args.custom_target + "/testlist.yaml"


def main():
    """This is the main entry point."""
    try:
        cwd = os.path.dirname(os.path.realpath(__file__))
        os.environ["RISCV_DV_ROOT"] = cwd

        args = parse_args(cwd)
        setup_logging(args.verbose)

        # Create output directory
        output_dir = create_output(args.o, args.noclean)

        if args.verilog_style_check:
            logging.debug("Run style check")
            style_err = run_cmd("verilog_style/run.sh")
            if style_err: logging.info(
                "Found style error: \nERROR: " + style_err)

        # Run any handcoded/directed assembly tests specified by args.asm_test
        if args.asm_test != "":
            asm_test = args.asm_test.split(',')
            for path_asm_test in asm_test:
                full_path = os.path.expanduser(path_asm_test)
                # path_asm_test is a directory
                if os.path.isdir(full_path):
                    run_assembly_from_dir(full_path, args.iss_yaml, args.isa,
                                          args.mabi,
                                          args.gcc_opts, args.iss, output_dir,
                                          args.core_setting_dir, args.debug)
                # path_asm_test is an assembly file
                elif os.path.isfile(full_path) or args.debug:
                    run_assembly(full_path, args.iss_yaml, args.isa, args.mabi,
                                 args.gcc_opts,
                                 args.iss, output_dir, args.core_setting_dir,
                                 args.debug)
                else:
                    logging.error('{} does not exist'.format(full_path))
                    sys.exit(RET_FAIL)
            return

        # Run any handcoded/directed c tests specified by args.c_test
        if args.c_test != "":
            c_test = args.c_test.split(',')
            for path_c_test in c_test:
                full_path = os.path.expanduser(path_c_test)
                # path_c_test is a directory
                if os.path.isdir(full_path):
                    run_c_from_dir(full_path, args.iss_yaml, args.isa,
                                   args.mabi,
                                   args.gcc_opts, args.iss, output_dir,
                                   args.core_setting_dir, args.debug)
                # path_c_test is a c file
                elif os.path.isfile(full_path) or args.debug:
                    run_c(full_path, args.iss_yaml, args.isa, args.mabi,
                          args.gcc_opts,
                          args.iss, output_dir, args.core_setting_dir,
                          args.debug)
                else:
                    logging.error('{} does not exist'.format(full_path))
                    sys.exit(RET_FAIL)
            return

        run_cmd_output(["mkdir", "-p", ("{}/asm_test".format(output_dir))])
        # Process regression test list
        matched_list = []
        # Any tests in the YAML test list that specify a directed assembly test
        asm_directed_list = []
        # Any tests in the YAML test list that specify a directed c test
        c_directed_list = []

        if not args.co:
            process_regression_list(args.testlist, args.test, args.iterations,
                                    matched_list, cwd)
            for t in list(matched_list):
                # Check mutual exclusive between gen_test, asm_test, and c_test
                if 'asm_test' in t:
                    if 'gen_test' in t or 'c_test' in t:
                        logging.error(
                            'asm_test must not be defined in the testlist '
                            'together with the gen_test or c_test field')
                        sys.exit(RET_FATAL)
                    asm_directed_list.append(t)
                    matched_list.remove(t)

                if 'c_test' in t:
                    if 'gen_test' in t or 'asm_test' in t:
                        logging.error(
                            'c_test must not be defined in the testlist '
                            'together with the gen_test or asm_test field')
                        sys.exit(RET_FATAL)
                    c_directed_list.append(t)
                    matched_list.remove(t)

            if len(matched_list) == 0 and len(asm_directed_list) == 0 and len(
                    c_directed_list) == 0:
                sys.exit("Cannot find {} in {}".format(args.test, args.testlist))

        # Run instruction generator
        if args.steps == "all" or re.match(".*gen.*", args.steps):
            # Run any handcoded/directed assembly tests specified in YAML format
            if len(asm_directed_list) != 0:
                for test_entry in asm_directed_list:
                    gcc_opts = args.gcc_opts
                    gcc_opts += test_entry.get('gcc_opts', '')
                    path_asm_test = os.path.expanduser(
                        test_entry.get('asm_test'))
                    if path_asm_test:
                        # path_asm_test is a directory
                        if os.path.isdir(path_asm_test):
                            run_assembly_from_dir(path_asm_test, args.iss_yaml,
                                                  args.isa, args.mabi,
                                                  gcc_opts, args.iss,
                                                  output_dir,
                                                  args.core_setting_dir,
                                                  args.debug)
                        # path_asm_test is an assembly file
                        elif os.path.isfile(path_asm_test):
                            run_assembly(path_asm_test, args.iss_yaml, args.isa,
                                         args.mabi, gcc_opts,
                                         args.iss, output_dir,
                                         args.core_setting_dir, args.debug)
                        else:
                            if not args.debug:
                                logging.error(
                                    '{} does not exist'.format(path_asm_test))
                                sys.exit(RET_FAIL)

            # Run any handcoded/directed C tests specified in YAML format
            if len(c_directed_list) != 0:
                for test_entry in c_directed_list:
                    gcc_opts = args.gcc_opts
                    gcc_opts += test_entry.get('gcc_opts', '')
                    path_c_test = os.path.expanduser(test_entry.get('c_test'))
                    if path_c_test:
                        # path_c_test is a directory
                        if os.path.isdir(path_c_test):
                            run_c_from_dir(path_c_test, args.iss_yaml, args.isa,
                                           args.mabi,
                                           gcc_opts, args.iss, output_dir,
                                           args.core_setting_dir, args.debug)
                        # path_c_test is a C file
                        elif os.path.isfile(path_c_test):
                            run_c(path_c_test, args.iss_yaml, args.isa,
                                  args.mabi, gcc_opts,
                                  args.iss, output_dir, args.core_setting_dir,
                                  args.debug)
                        else:
                            if not args.debug:
                                logging.error('{} does not exist'.format(path_c_test))
                                sys.exit(RET_FAIL)

            # Run remaining tests using the instruction generator
            gen(matched_list, args, output_dir, cwd)

        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, args.debug)

            # 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.iss_opts,
                        args.isa, args.core_setting_dir, args.iss_timeout,
                        args.debug)

            # Compare ISS simulation result
            if args.steps == "all" or re.match(".*iss_cmp.*", args.steps):
                iss_cmp(matched_list, args.iss, output_dir,
                        args.stop_on_first_error,
                        args.exp, args.debug)

        sys.exit(RET_SUCCESS)
    except KeyboardInterrupt:
        logging.info("\nExited Ctrl-C from user request.")
        sys.exit(130)


if __name__ == "__main__":
    main()