#!/usr/bin/python3 ################################## # # regression-wally # David_Harris@Hmc.edu 25 January 2021 # Modified by Jarred Allen # # Run a regression with multiple configurations in parallel and exit with # non-zero status code if an error happened, as well as printing human-readable # output. # ################################## import sys,os,shutil import argparse import multiprocessing from collections import namedtuple from multiprocessing import Pool, TimeoutError ################################## # Define lists of configurations and tests to run on each configuration ################################## # The tests are a list with one element for each configuration # The element consists of the configuration name, a list of test suites to run, # optionally a string to pass to the simulator, and optionally a nonstandard grep string to check for success tests = [ ["rv32e", ["arch32e"]], ["rv32i", ["arch32i"]], ["rv32imc", ["arch32i", "arch32c", "arch32m", "wally32periph"]], ["rv32gc", ["arch32f", "arch32d", "arch32f_fma", "arch32d_fma", "arch32f_divsqrt", "arch32d_divsqrt", "arch32i", "arch32priv", "arch32c", "arch32m", "arch32a_amo", "arch32zifencei", "arch32zicond", "arch32zba", "arch32zbb", "arch32zbc", "arch32zbs", "arch32zfh", "arch32zfh_fma", "arch32zfh_divsqrt", "arch32zfaf", "arch32zfad", "wally32a_lrsc", "wally32priv", "wally32periph", "arch32zcb", "arch32zbkb", "arch32zbkc", "arch32zbkx", "arch32zknd", "arch32zkne", "arch32zknh"]], ["rv64i", ["arch64i"]] ] # Separate test for short buildroot run through OpenSBI UART output tests_buildrootshort = [ ["buildroot", ["buildroot"], [f"+INSTR_LIMIT=1400000"], # Instruction limit gets to first OpenSBI UART output "OpenSBI v", "buildroot_uart.out"] ] # Separate test for full buildroot run tests_buildrootboot = [ ["buildroot", ["buildroot"], [f"+INSTR_LIMIT=600000000"], # boot entire buildroot Linux to login prompt "WallyHostname login: ", "buildroot_uart.out"] ] tests_buildrootbootlockstep = [ ["buildroot", ["buildroot"], [f"+INSTR_LIMIT=600000000 --lockstep"], # boot entire buildroot Linux to login prompt "WallyHostname login: ", "buildroot_uart.out"] ] # Separate out floating-point tests for RV64 to speed up coverage tests64gc_nofp = [ ["rv64gc", ["coverage64gc", "arch64i", "arch64priv", "arch64c", "arch64m", "arch64zcb", "arch64zifencei", "arch64zicond", "arch64a_amo", "wally64a_lrsc", "wally64periph", "wally64priv", "arch64zbkb", "arch64zbkc", "arch64zbkx", "arch64zknd", "arch64zkne", "arch64zknh", "arch64zba", "arch64zbb", "arch64zbc", "arch64zbs"]] # add when working: "arch64zicboz" ] tests64gc_fp = [ ["rv64gc", ["arch64f", "arch64d", "arch64zfh", "arch64f_fma", "arch64d_fma", "arch64zfh_fma", "arch64f_divsqrt", "arch64d_divsqrt", "arch64zfh_divsqrt", "arch64zfaf", "arch64zfad"]] ] derivconfigtests = [ # memory system ["tlb2_rv32gc", ["wally32priv"]], ["tlb16_rv32gc", ["wally32priv"]], ["tlb2_rv64gc", ["wally64priv"]], ["tlb16_rv64gc", ["wally64priv"]], ["way_1_4096_512_rv32gc", ["arch32i"]], ["way_2_4096_512_rv32gc", ["arch32i"]], ["way_8_4096_512_rv32gc", ["arch32i"]], ["way_4_2048_512_rv32gc", ["arch32i"]], ["way_4_4096_256_rv32gc", ["arch32i"]], ["way_1_4096_512_rv64gc", ["arch64i"]], ["way_2_4096_512_rv64gc", ["arch64i"]], ["way_8_4096_512_rv64gc", ["arch64i"]], ["way_4_2048_512_rv64gc", ["arch64i"]], ["way_4_4096_256_rv64gc", ["arch64i"]], ["way_4_4096_1024_rv64gc", ["arch64i"]], ["ram_0_0_rv64gc", ["ahb64"]], ["ram_1_0_rv64gc", ["ahb64"]], ["ram_1_1_rv64gc", ["ahb64"]], ["ram_2_0_rv64gc", ["ahb64"]], ["ram_2_1_rv64gc", ["ahb64"]], # RV32 cacheless designs will not work unless DTIM supports FLEN > XLEN. This support is not planned. # ["nodcache_rv32gc", ["ahb32"]], # ["nocache_rv32gc", ["ahb32"]], ["noicache_rv32gc", ["ahb32"]], ["noicache_rv64gc", ["ahb64"]], ["nodcache_rv64gc", ["ahb64"]], ["nocache_rv64gc", ["ahb64"]], # Atomic variants ["zaamo_rv64gc", ["arch64i", "arch64a_amo"]], ["zalrsc_rv64gc", ["arch64i", "wally64a_lrsc"]], ["zaamo_rv32gc", ["arch32i", "arch32a_amo"]], ["zalrsc_rv32gc", ["arch32i", "wally32a_lrsc"]], # Bit manipulation and crypto variants ["zba_rv32gc", ["arch32i", "arch32zba"]], ["zbb_rv32gc", ["arch32i", "arch32zbb"]], ["zbc_rv32gc", ["arch32i", "arch32zbc"]], ["zbs_rv32gc", ["arch32i", "arch32zbs"]], ["zbkb_rv32gc", ["arch32i", "arch32zbkb"]], ["zbkc_rv32gc", ["arch32i", "arch32zbkc"]], ["zbkx_rv32gc", ["arch32i", "arch32zbkx"]], ["zkne_rv32gc", ["arch32i", "arch32zkne"]], ["zknd_rv32gc", ["arch32i", "arch32zknd"]], ["zknh_rv32gc", ["arch32i", "arch32zknh"]], ["zba_rv64gc", ["arch64i", "arch64zba"]], ["zbb_rv64gc", ["arch64i", "arch64zbb"]], ["zbc_rv64gc", ["arch64i", "arch64zbc"]], ["zbs_rv64gc", ["arch64i", "arch64zbs"]], ["zbkb_rv64gc", ["arch64i", "arch64zbkb"]], ["zbkc_rv64gc", ["arch64i", "arch64zbkc"]], ["zbkx_rv64gc", ["arch64i", "arch64zbkx"]], ["zkne_rv64gc", ["arch64i", "arch64zkne"]], ["zknd_rv64gc", ["arch64i", "arch64zknd"]], ["zknh_rv64gc", ["arch64i", "arch64zknh"]], # No privilege modes variants ["noS_rv32gc", ["arch32i", "arch32f", "arch32priv", "arch32c", "arch32m", "arch32a_amo", "arch32zifencei", "arch32zicond", "arch32zba", "arch32zfaf", "arch32zfad", "wally32a_lrsc", "arch32zcb", "arch32zbkx", "arch32zknd"]], ["noS_rv64gc", ["arch64i", "arch64f", "arch64priv", "arch64c", "arch64m", "arch64a_amo", "arch64zifencei", "arch64zicond", "arch64zba", "arch64zfaf", "arch64zfad", "wally64a_lrsc", "arch64zcb", "arch64zbkx", "arch64zknd"]], ["noU_rv32gc", ["arch32i", "arch32f", "arch32priv", "arch32c", "arch32m", "arch32a_amo", "arch32zifencei", "arch32zicond", "arch32zba", "arch32zfaf", "arch32zfad", "wally32a_lrsc", "arch32zcb", "arch32zbkx", "arch32zknd"]], ["noU_rv64gc", ["arch64i", "arch64f", "arch64priv", "arch64c", "arch64m", "arch64a_amo", "arch64zifencei", "arch64zicond", "arch64zba", "arch64zfaf", "arch64zfad", "wally64a_lrsc", "arch64zcb", "arch64zbkx", "arch64zknd"]], ### add misaligned tests # fp/int divider permutations ["div_2_1_rv32gc", ["arch32f_divsqrt", "arch32d_divsqrt", "arch32m"]], ["div_2_1i_rv32gc", ["arch32f_divsqrt", "arch32d_divsqrt", "arch32m"]], ["div_2_2_rv32gc", ["arch32f_divsqrt", "arch32d_divsqrt", "arch32m"]], ["div_2_2i_rv32gc", ["arch32f_divsqrt", "arch32d_divsqrt", "arch32m"]], ["div_2_4_rv32gc", ["arch32f_divsqrt", "arch32d_divsqrt", "arch32m"]], ["div_2_4i_rv32gc", ["arch32f_divsqrt", "arch32d_divsqrt", "arch32m"]], ["div_4_1_rv32gc", ["arch32f_divsqrt", "arch32d_divsqrt", "arch32m"]], ["div_4_1i_rv32gc", ["arch32f_divsqrt", "arch32d_divsqrt", "arch32m"]], ["div_4_2_rv32gc", ["arch32f_divsqrt", "arch32d_divsqrt", "arch32m"]], ["div_4_2i_rv32gc", ["arch32f_divsqrt", "arch32d_divsqrt", "arch32m"]], ["div_4_4_rv32gc", ["arch32f_divsqrt", "arch32d_divsqrt", "arch32m"]], ["div_4_4i_rv32gc", ["arch32f_divsqrt", "arch32d_divsqrt", "arch32m"]], ["div_2_1_rv64gc", ["arch64f_divsqrt", "arch64d_divsqrt", "arch64m"]], ["div_2_1i_rv64gc", ["arch64f_divsqrt", "arch64d_divsqrt", "arch64m"]], ["div_2_2_rv64gc", ["arch64f_divsqrt", "arch64d_divsqrt", "arch64m"]], ["div_2_2i_rv64gc", ["arch64f_divsqrt", "arch64d_divsqrt", "arch64m"]], ["div_2_4_rv64gc", ["arch64f_divsqrt", "arch64d_divsqrt", "arch64m"]], ["div_2_4i_rv64gc", ["arch64f_divsqrt", "arch64d_divsqrt", "arch64m"]], ["div_4_1_rv64gc", ["arch64f_divsqrt", "arch64d_divsqrt", "arch64m"]], ["div_4_1i_rv64gc", ["arch64f_divsqrt", "arch64d_divsqrt", "arch64m"]], ["div_4_2_rv64gc", ["arch64f_divsqrt", "arch64d_divsqrt", "arch64m"]], ["div_4_2i_rv64gc", ["arch64f_divsqrt", "arch64d_divsqrt", "arch64m"]], ["div_4_4_rv64gc", ["arch64f_divsqrt", "arch64d_divsqrt", "arch64m"]], ["div_4_4i_rv64gc", ["arch64f_divsqrt", "arch64d_divsqrt", "arch64m"]], # fpu permutations ["f_rv32gc", ["arch32f", "arch32f_divsqrt", "arch32f_fma", "arch32zfaf"]], ["fh_rv32gc", ["arch32f", "arch32f_divsqrt", "arch32f_fma", "arch32zfh", "arch32zfh_divsqrt", "arch32zfaf"]], ["fdh_rv32gc", ["arch32f", "arch32f_divsqrt", "arch32f_fma", "arch32d", "arch32d_divsqrt", "arch32d_fma", "arch32zfh", "arch32zfh_divsqrt", "arch32zfaf", "arch32zfad"]], ["fdq_rv32gc", ["arch32f", "arch32f_divsqrt", "arch32f_fma", "arch32d", "arch32d_divsqrt", "arch32d_fma", "arch32i", "arch32zfaf", "arch32zfad"]], ["fdqh_rv32gc", ["arch32f", "arch32f_divsqrt", "arch32f_fma", "arch32d", "arch32d_divsqrt", "arch32d_fma", "arch32zfh", "arch32zfh_divsqrt", "arch32i", "arch32zfaf", "arch32zfad"]], ["f_rv64gc", ["arch64f", "arch64f_divsqrt", "arch64f_fma", "arch64zfaf"]], ["fh_rv64gc", ["arch64f", "arch64f_divsqrt", "arch64f_fma", "arch64zfh", "arch64zfh_divsqrt", "arch64zfaf"]], ["fdh_rv64gc", ["arch64f", "arch64f_divsqrt", "arch64f_fma", "arch64d", "arch64d_divsqrt", "arch64d_fma", "arch64zfh", "arch64zfh_divsqrt", "arch64zfaf", "arch64zfad"]], ["fdq_rv64gc", ["arch64f", "arch64f_divsqrt", "arch64f_fma", "arch64d", "arch64d_divsqrt", "arch64d_fma", "arch64i", "arch64zfaf", "arch64zfad"]], ["fdqh_rv64gc", ["arch64f", "arch64f_divsqrt", "arch64f_fma", "arch64d", "arch64d_divsqrt", "arch64d_fma", "arch64zfh", "arch64zfh_divsqrt", "arch64i", "arch64zfaf", "arch64zfad"]], # "wally64q" when Q is supported again in riscof config file ] bpredtests = [ ["nobpred_rv32gc", ["rv32i"]], ["bpred_TWOBIT_6_16_10_0_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_TWOBIT_8_16_10_0_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_TWOBIT_10_16_10_0_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_TWOBIT_12_16_10_0_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_TWOBIT_14_16_10_0_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_TWOBIT_16_16_10_0_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_TWOBIT_6_16_10_1_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_TWOBIT_8_16_10_1_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_TWOBIT_10_16_10_1_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_TWOBIT_12_16_10_1_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_TWOBIT_14_16_10_1_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_TWOBIT_16_16_10_1_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_6_16_10_0_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_6_16_10_1_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_8_16_10_0_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_8_16_10_1_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_10_16_10_0_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_10_16_10_1_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_12_16_10_0_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_12_16_10_1_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_14_16_10_0_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_14_16_10_1_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_16_16_10_0_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_16_16_10_1_rv32gc", ["embench"], "-GPrintHPMCounters=1"], # btb ["bpred_GSHARE_10_16_6_0_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_10_16_6_1_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_10_16_8_0_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_10_16_8_1_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_10_16_12_0_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_10_16_12_1_rv32gc", ["embench"], "-GPrintHPMCounters=1"], # ras ["bpred_GSHARE_10_2_10_0_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_10_2_10_1_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_10_3_10_0_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_10_3_10_1_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_10_4_10_0_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_10_4_10_1_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_10_6_10_0_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_10_6_10_1_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_10_10_10_0_rv32gc", ["embench"], "-GPrintHPMCounters=1"], ["bpred_GSHARE_10_10_10_1_rv32gc", ["embench"], "-GPrintHPMCounters=1"] ] ################################## # Data Types & Functions ################################## TestCase = namedtuple("TestCase", ['name', 'variant', 'cmd', 'grepstr', 'grepfile']) # name: the name of this test configuration (used in printing human-readable # output and picking logfile names) # cmd: the command to run to test (should include the logfile as '{}', and # the command needs to write to that file) # grepstr: the string to grep through the log file for. The test succeeds iff # grep finds that string in the logfile (is used by grep, so it may # be any pattern grep accepts, see `man 1 grep` for more info). # grepfile: a string containing the location of the file to be searched for output class bcolors: HEADER = '\033[95m' OKBLUE = '\033[94m' OKCYAN = '\033[96m' OKGREEN = '\033[92m' WARNING = '\033[93m' FAIL = '\033[91m' ENDC = '\033[0m' BOLD = '\033[1m' UNDERLINE = '\033[4m' def addTests(tests, sim): sim_logdir = WALLY+ "/sim/" + sim + "/logs/" for test in tests: config = test[0]; suites = test[1]; if (len(test) >= 3): args = " --args " + " ".join(test[2]) else: args = "" if (len(test) >= 4): gs = test[3] else: gs = "All tests ran without failures" cmdPrefix="wsim --sim " + sim + " " + coverStr + " " + config for t in suites: sim_log = sim_logdir + config + "_" + t + ".log" if (len(test) >= 5): grepfile = sim_logdir + test[4] else: grepfile = sim_log tc = TestCase( name=t, variant=config, cmd=cmdPrefix + " " + t + args + " > " + sim_log, grepstr=gs, grepfile = grepfile) configs.append(tc) def addLockstepTestsByDir(dir, config, sim): sim_logdir = WALLY+ "/sim/" + sim + "/logs/" cmdPrefix="wsim --sim " + sim + " " + coverStr + " " + config for file in os.listdir(dir): if file.endswith(".elf"): fullfile = os.path.join(dir, file) sim_log = sim_logdir + config + "_" + file grepstring = "" tc = TestCase( name=file, variant=config, cmd=cmdPrefix + " " + fullfile + " > " + sim_log, grepstr="Mismatches : 0", grepfile = sim_log) configs.append(tc) def search_log_for_text(text, grepfile): """Search through the given log file for text, returning True if it is found or False if it is not""" grepwarn = "grep -H Warning: " + grepfile os.system(grepwarn) greperr = "grep -H Error: " + grepfile os.system(greperr) grepcmd = "grep -a -e '%s' '%s' > /dev/null" % (text, grepfile) # print(" search_log_for_text invoking %s" % grepcmd) return os.system(grepcmd) == 0 def run_test_case(config): """Run the given test case, and return 0 if the test suceeds and 1 if it fails""" grepfile = config.grepfile cmd = config.cmd os.chdir(regressionDir) # print(" run_test_case invoking %s" % cmd) os.system(cmd) if search_log_for_text(config.grepstr, grepfile): # print(f"{bcolors.OKGREEN}%s_%s: Success{bcolors.ENDC}" % (config.variant, config.name)) print(f"{bcolors.OKGREEN}%s: Success{bcolors.ENDC}" % (config.cmd)) return 0 else: print(f"{bcolors.FAIL}%s: Failures detected in output{bcolors.ENDC}" % (config.cmd)) print(" Check %s" % grepfile) return 1 ################################## # Main body ################################## WALLY = os.environ.get('WALLY') regressionDir = WALLY + '/sim' os.chdir(regressionDir) coveragesim = "questa" # Questa is required for code/functional coverage #defaultsim = "questa" # Default simulator for all other tests; change to Verilator when flow is ready defaultsim = "verilator" # Default simulator for all other tests parser = argparse.ArgumentParser() parser.add_argument("--ccov", help="Code Coverage", action="store_true") parser.add_argument("--fcov", help="Functional Coverage", action="store_true") parser.add_argument("--nightly", help="Run large nightly regression", action="store_true") parser.add_argument("--buildroot", help="Include Buildroot Linux boot test (takes many hours, done along with --nightly)", action="store_true") parser.add_argument("--testfloat", help="Include Testfloat floating-point unit tests", action="store_true") parser.add_argument("--fp", help="Include floating-point tests in coverage (slower runtime)", action="store_true") args = parser.parse_args() if (args.nightly): nightMode = "--nightly"; sims = ["questa", "verilator", "vcs"] # exercise all simulators; can omit a sim if no license is available else: nightMode = "" sims = [defaultsim] if (args.ccov): # only run RV64GC tests in coverage mode coverStr = '--ccov' elif (args.fcov): # only run RV64GC tests in lockstep in coverage mode coverStr = '--fcov' else: coverStr = '' # Run Lint configs = [ TestCase( name="lints", variant="all", cmd="lint-wally " + nightMode + " | tee " + WALLY + "/sim/verilator/logs/all_lints.log", grepstr="lints run with no errors or warnings", grepfile = WALLY + "/sim/verilator/logs/all_lints.log") ] # run full buildroot boot simulation (slow) if buildroot flag is set. Start it early to overlap with other tests if (args.buildroot): # addTests(tests_buildrootboot, defaultsim) # non-lockstep with Verilator runs in about 2 hours addTests(tests_buildrootbootlockstep, "questa") # lockstep with Questa and ImperasDV runs overnight if (args.ccov): # only run RV64GC tests on Questa in code coverage mode addTests(tests64gc_nofp, coveragesim) if (args.fp): addTests(tests64gc_fp, coveragesim) elif (args.fcov): # only run RV64GC tests on Questa in lockstep in functional coverage mode addLockstepTestsByDir(WALLY+"/tests/functcov/rv64/I", "rv64gc", coveragesim) #sim_log = WALLY + "/sim/questa/logs/fcov.log" #tc = TestCase( # name="lockstep_functcov", # variant="rv64gc", # cmd="iterelf " + WALLY + "/tests/functcov/rv64/I > " + sim_log, # grepstr="SUCCESS! All tests ran without failures", # grepfile = sim_log) #configs.append(tc) else: for sim in sims: if (not (args.buildroot and sim == defaultsim)): # skip short buildroot sim if running long one addTests(tests_buildrootshort, sim) addTests(tests, sim) addTests(tests64gc_nofp, sim) addTests(tests64gc_fp, sim) # run derivative configurations and lockstep tests in nightly regression if (args.nightly): sim_log = WALLY + "/sim/questa/logs/lockstep_coverage.log" tc = TestCase( name="lockstep_coverage", variant="rv64gc", cmd="iterelf " + WALLY + "/tests/coverage > " + sim_log, grepstr="SUCCESS! All tests ran without failures", grepfile = sim_log) configs.append(tc) sim_log = WALLY + "/sim/questa/logs/lockstep_wally-riscv-arch-test.log" tc = TestCase( name="lockstep_wally-riscv-arch-test", variant="rv64gc", cmd="iterelf " + WALLY + "/tests/riscof/work/wally-riscv-arch-test/rv64i_m > " + sim_log, grepstr="SUCCESS! All tests ran without failures", grepfile = sim_log) configs.append(tc) addTests(derivconfigtests, defaultsim) # testfloat tests if (args.testfloat): # for testfloat alone, just run testfloat tests configs = [] if (args.testfloat or args.nightly): # for nightly, run testfloat along with others testfloatsim = "questa" # change to Verilator when Issue #707 about testfloat not running Verilator is resolved testfloatconfigs = ["fdqh_ieee_rv64gc", "fdq_ieee_rv64gc", "fdh_ieee_rv64gc", "fd_ieee_rv64gc", "fh_ieee_rv64gc", "f_ieee_rv64gc", "fdqh_ieee_rv32gc", "f_ieee_rv32gc"] for config in testfloatconfigs: tests = ["div", "sqrt", "add", "sub", "mul", "cvtint", "cvtfp", "fma", "cmp"] if ("f_" in config): tests.remove("cvtfp") for test in tests: sim_log = WALLY + "/sim/" + testfloatsim + "/logs/"+config+"_"+test+".log" tc = TestCase( name=test, variant=config, cmd="wsim --tb testbench_fp --sim " + testfloatsim + " " + config + " " + test + " > " + sim_log, grepstr="All Tests completed with 0 errors", grepfile = sim_log) configs.append(tc) testfloatdivconfigs = [ "fdh_ieee_div_2_1_rv32gc", "fdh_ieee_div_2_1_rv64gc", "fdh_ieee_div_2_2_rv32gc", "fdh_ieee_div_2_2_rv64gc", "fdh_ieee_div_2_4_rv32gc", "fdh_ieee_div_2_4_rv64gc", "fdh_ieee_div_4_1_rv32gc", "fdh_ieee_div_4_1_rv64gc", "fdh_ieee_div_4_2_rv32gc", "fdh_ieee_div_4_2_rv64gc", "fdh_ieee_div_4_4_rv32gc", "fdh_ieee_div_4_4_rv64gc", "fd_ieee_div_2_1_rv32gc", "fd_ieee_div_2_1_rv64gc", "fd_ieee_div_2_2_rv32gc", "fd_ieee_div_2_2_rv64gc", "fd_ieee_div_2_4_rv32gc", "fd_ieee_div_2_4_rv64gc", "fd_ieee_div_4_1_rv32gc", "fd_ieee_div_4_1_rv64gc", "fd_ieee_div_4_2_rv32gc", "fd_ieee_div_4_2_rv64gc", "fd_ieee_div_4_4_rv32gc", "fd_ieee_div_4_4_rv64gc", "fdqh_ieee_div_2_1_rv32gc", "fdqh_ieee_div_2_1_rv64gc", "fdqh_ieee_div_2_2_rv32gc", "fdqh_ieee_div_2_2_rv64gc", "fdqh_ieee_div_2_4_rv32gc", "fdqh_ieee_div_2_4_rv64gc", "fdqh_ieee_div_4_1_rv32gc", "fdqh_ieee_div_4_1_rv64gc", "fdqh_ieee_div_4_2_rv32gc", "fdqh_ieee_div_4_2_rv64gc", "fdqh_ieee_div_4_4_rv32gc", "fdqh_ieee_div_4_4_rv64gc", "fdq_ieee_div_2_1_rv32gc", "fdq_ieee_div_2_1_rv64gc", "fdq_ieee_div_2_2_rv32gc", "fdq_ieee_div_2_2_rv64gc", "fdq_ieee_div_2_4_rv32gc", "fdq_ieee_div_2_4_rv64gc", "fdq_ieee_div_4_1_rv32gc", "fdq_ieee_div_4_1_rv64gc", "fdq_ieee_div_4_2_rv32gc", "fdq_ieee_div_4_2_rv64gc", "fdq_ieee_div_4_4_rv32gc", "fdq_ieee_div_4_4_rv64gc", "fh_ieee_div_2_1_rv32gc", "fh_ieee_div_2_1_rv64gc", "fh_ieee_div_2_2_rv32gc", "fh_ieee_div_2_2_rv64gc", "fh_ieee_div_2_4_rv32gc", "fh_ieee_div_2_4_rv64gc", "fh_ieee_div_4_1_rv32gc", "fh_ieee_div_4_1_rv64gc", "fh_ieee_div_4_2_rv32gc", "fh_ieee_div_4_2_rv64gc", "fh_ieee_div_4_4_rv32gc", "fh_ieee_div_4_4_rv64gc", "f_ieee_div_2_1_rv32gc", "f_ieee_div_2_1_rv64gc", "f_ieee_div_2_2_rv32gc", "f_ieee_div_2_2_rv64gc", "f_ieee_div_2_4_rv32gc", "f_ieee_div_2_4_rv64gc", "f_ieee_div_4_1_rv32gc", "f_ieee_div_4_1_rv64gc", "f_ieee_div_4_2_rv32gc", "f_ieee_div_4_2_rv64gc", "f_ieee_div_4_4_rv32gc", "f_ieee_div_4_4_rv64gc" ] for config in testfloatdivconfigs: # div test case tests = ["div", "sqrt"] if ("ieee" in config): tests.append("cvtint") tests.append("cvtfp") if ("f_" in config): tests.remove("cvtfp") for test in tests: sim_log = WALLY + "/sim/questa/logs/"+config+"_"+test+".log" tc = TestCase( name=test, variant=config, cmd="wsim --tb testbench_fp " + config + " " + test + " > " + sim_log, grepstr="All Tests completed with 0 errors", grepfile = WALLY + "/sim/questa/logs/"+config+"_"+test+".log") configs.append(tc) def main(): """Run the tests and count the failures""" global configs, args os.chdir(regressionDir) dirs = ["questa/logs", "questa/wkdir", "verilator/logs", "verilator/wkdir", "vcs/logs", "vcs/wkdir"] for d in dirs: try: os.system('rm -rf %s' % d) os.mkdir(d) except: pass if args.ccov: TIMEOUT_DUR = 20*60 # seconds os.system('rm -f questa/cov/*.ucdb') elif args.fcov: TIMEOUT_DUR = 1*60 os.system('rm -f questa/fcov_ucdb/* questa/fcov_logs/* questa/fcov/*') elif args.nightly: TIMEOUT_DUR = 60*1440 # 1 day elif args.testfloat: TIMEOUT_DUR = 30*60 # seconds else: TIMEOUT_DUR = 10*60 # seconds # Scale the number of concurrent processes to the number of test cases, but # max out at a limited number of concurrent processes to not overwhelm the system # right now fcov, ccov, nightly all use Imperas if (args.ccov or args.fcov or args.nightly): ImperasDVLicenseCount = 8 # limit number of concurrent processes to avoid overloading ImperasDV licenses else: ImperasDVLicenseCount = 10000 # effectively no license limit for non-lockstep tests with Pool(processes=min(len(configs),multiprocessing.cpu_count(), ImperasDVLicenseCount)) as pool: num_fail = 0 results = {} for config in configs: results[config] = pool.apply_async(run_test_case,(config,)) for (config,result) in results.items(): try: num_fail+=result.get(timeout=TIMEOUT_DUR) except TimeoutError: num_fail+=1 print(f"{bcolors.FAIL}%s_%s: Timeout - runtime exceeded %d seconds{bcolors.ENDC}" % (config.variant, config.name, TIMEOUT_DUR)) # Coverage report if args.ccov: os.system('make QuestaCodeCoverage') if args.fcov: os.system('make QuestaFunctCoverage') # Count the number of failures if num_fail: print(f"{bcolors.FAIL}Regression failed with %s failed configurations{bcolors.ENDC}" % num_fail) else: print(f"{bcolors.OKGREEN}SUCCESS! All tests ran without failures{bcolors.ENDC}") return num_fail if __name__ == '__main__': exit(main())