#!/usr/bin/env python3 from debian.deb822 import Deb822, Release import email.utils import os import sys import shutil import subprocess import argparse import time from datetime import timedelta from collections import defaultdict from itertools import product have_qemu = os.getenv("HAVE_QEMU", "yes") == "yes" have_binfmt = os.getenv("HAVE_BINFMT", "yes") == "yes" run_ma_same_tests = os.getenv("RUN_MA_SAME_TESTS", "yes") == "yes" cmd = os.getenv("CMD", "./mmdebstrap") default_dist = os.getenv("DEFAULT_DIST", "unstable") all_dists = ["oldstable", "stable", "testing", "unstable"] default_mode = "auto" all_modes = ["auto", "root", "unshare", "fakechroot", "chrootless"] default_variant = "apt" all_variants = [ "extract", "custom", "essential", "apt", "minbase", "buildd", "-", "standard", ] default_format = "auto" all_formats = ["auto", "directory", "tar", "squashfs", "ext2", "null"] mirror = os.getenv("mirror", "http://127.0.0.1/debian") hostarch = subprocess.check_output(["dpkg", "--print-architecture"]).decode().strip() release_path = f"./shared/cache/debian/dists/{default_dist}/Release" if not os.path.exists(release_path): print("path doesn't exist:", release_path, file=sys.stderr) print("run ./make_mirror.sh first", file=sys.stderr) exit(1) if os.getenv("SOURCE_DATE_EPOCH") is not None: s_d_e = os.getenv("SOURCE_DATE_EPOCH") else: with open(release_path) as f: rel = Release(f) s_d_e = str(email.utils.mktime_tz(email.utils.parsedate_tz(rel["Date"]))) separator = ( "------------------------------------------------------------------------------" ) def skip(condition, dist, mode, variant, fmt): if not condition: return "" for line in condition.splitlines(): if not line: continue if eval(line): return line.strip() return "" def parse_config(confname): config_dict = defaultdict(dict) config_order = list() all_vals = { "Dists": all_dists, "Modes": all_modes, "Variants": all_variants, "Formats": all_formats, } with open(confname) as f: for test in Deb822.iter_paragraphs(f): if "Test" not in test.keys(): print("Test without name", file=sys.stderr) exit(1) name = test["Test"] config_order.append(name) for k in test.keys(): v = test[k] if k not in [ "Test", "Dists", "Modes", "Variants", "Formats", "Skip-If", "Needs-QEMU", "Needs-Root", ]: print(f"Unknown field name {k} in test {name}") exit(1) if k in all_vals.keys(): if v == "default": print( f"Setting {k} to default in Test {name} is redundant", file=sys.stderr, ) exit(1) if v == "any": v = all_vals[k] else: # else, split the value by whitespace v = v.split() for i in v: if i not in all_vals[k]: print( f"{i} is not a valid value for {k}", file=sys.stderr ) exit(1) config_dict[name][k] = v return config_order, config_dict def format_test(num, total, name, dist, mode, variant, fmt, config_dict): ret = f"({num}/{total}) {name}" if len(config_dict[name].get("Dists", [])) > 1: ret += f" --dist={dist}" if len(config_dict[name].get("Modes", [])) > 1: ret += f" --mode={mode}" if len(config_dict[name].get("Variants", [])) > 1: ret += f" --variant={variant}" if len(config_dict[name].get("Formats", [])) > 1: ret += f" --format={fmt}" return ret def print_time_per_test(time_per_test, name="test"): print( f"average time per {name}:", sum(time_per_test.values(), start=timedelta()) / len(time_per_test), file=sys.stderr, ) print( f"median time per {name}:", sorted(time_per_test.values())[len(time_per_test) // 2], file=sys.stderr, ) head_tail_num = 10 print(f"{head_tail_num} fastests {name}s:", file=sys.stderr) for k, v in sorted(time_per_test.items(), key=lambda i: i[1])[ : min(head_tail_num, len(time_per_test)) ]: print(f" {k}: {v}", file=sys.stderr) print(f"{head_tail_num} slowest {name}s:", file=sys.stderr) for k, v in sorted(time_per_test.items(), key=lambda i: i[1], reverse=True)[ : min(head_tail_num, len(time_per_test)) ]: print(f" {k}: {v}", file=sys.stderr) def main(): parser = argparse.ArgumentParser() parser.add_argument("test", nargs="*", help="only run these tests") parser.add_argument( "-x", "--exitfirst", action="store_const", dest="maxfail", const=1, help="exit instantly on first error or failed test.", ) parser.add_argument( "--maxfail", metavar="num", action="store", type=int, dest="maxfail", default=0, help="exit after first num failures or errors.", ) parser.add_argument( "--mode", metavar="mode", help=f"only run tests with this mode (Default = {default_mode})", ) parser.add_argument( "--dist", metavar="dist", help=f"only run tests with this dist (Default = {default_dist})", ) parser.add_argument( "--variant", metavar="variant", help=f"only run tests with this variant (Default = {default_variant})", ) parser.add_argument( "--format", metavar="format", help=f"only run tests with this format (Default = {default_format})", ) parser.add_argument( "--skip", metavar="test", action="append", help="skip this test" ) args = parser.parse_args() # copy over files from git or as distributed for (git, dist, target) in [ ("./mmdebstrap", "/usr/bin/mmdebstrap", "mmdebstrap"), ("./tarfilter", "/usr/bin/mmtarfilter", "tarfilter"), ( "./proxysolver", "/usr/lib/apt/solvers/mmdebstrap-dump-solution", "proxysolver", ), ( "./ldconfig.fakechroot", "/usr/libexec/mmdebstrap/ldconfig.fakechroot", "ldconfig.fakechroot", ), ]: if os.path.exists(git): shutil.copy(git, f"shared/{target}") else: shutil.copy(dist, f"shared/{target}") # copy over hooks from git or as distributed if os.path.exists("hooks"): shutil.copytree("hooks", "shared/hooks", dirs_exist_ok=True) else: shutil.copytree( "/usr/share/mmdebstrap/hooks", "shared/hooks", dirs_exist_ok=True ) # parse coverage.txt config_order, config_dict = parse_config("coverage.txt") indirbutnotcovered = set( [d for d in os.listdir("tests") if not d.startswith(".")] ) - set(config_order) if indirbutnotcovered: print( "test(s) missing from coverage.txt: %s" % (", ".join(sorted(indirbutnotcovered))), file=sys.stderr, ) exit(1) coveredbutnotindir = set(config_order) - set( [d for d in os.listdir("tests") if not d.startswith(".")] ) if coveredbutnotindir: print( "test(s) missing from ./tests: %s" % (", ".join(sorted(coveredbutnotindir))), file=sys.stderr, ) exit(1) # produce the list of tests using the cartesian product of all allowed # dists, modes, variants and formats of a given test tests = [] for name in config_order: test = config_dict[name] for dist, mode, variant, fmt in product( test.get("Dists", [default_dist]), test.get("Modes", [default_mode]), test.get("Variants", [default_variant]), test.get("Formats", [default_format]), ): skipreason = skip(test.get("Skip-If"), dist, mode, variant, fmt) if skipreason: tt = ("skip", skipreason) elif have_qemu: tt = "qemu" elif test.get("Needs-QEMU", "false") == "true": tt = ("skip", "test needs QEMU") elif test.get("Needs-Root", "false") == "true": tt = "sudo" elif mode == "root": tt = "sudo" else: tt = "null" tests.append((tt, name, dist, mode, variant, fmt)) torun = [] num_tests = len(tests) if args.test: # check if all given tests are either a valid name or a valid number for test in args.test: if test in [name for (_, name, _, _, _, _) in tests]: continue if not test.isdigit(): print(f"cannot find test named {test}", file=sys.stderr) exit(1) if int(test) >= len(tests) or int(test) <= 0 or str(int(test)) != test: print(f"test number {test} doesn't exist", file=sys.stderr) exit(1) for i, (_, name, _, _, _, _) in enumerate(tests): # if either the number or test name matches, then we use this test, # otherwise we skip it if name in args.test: torun.append(i) if str(i + 1) in args.test: torun.append(i) num_tests = len(torun) starttime = time.time() skipped = defaultdict(list) failed = [] num_success = 0 num_finished = 0 time_per_test = {} acc_time_per_test = defaultdict(list) for i, (test, name, dist, mode, variant, fmt) in enumerate(tests): if torun and i not in torun: continue print(separator, file=sys.stderr) print("(%d/%d) %s" % (i + 1, len(tests), name), file=sys.stderr) print("dist: %s" % dist, file=sys.stderr) print("mode: %s" % mode, file=sys.stderr) print("variant: %s" % variant, file=sys.stderr) print("format: %s" % fmt, file=sys.stderr) if num_finished > 0: currenttime = time.time() timeleft = timedelta( seconds=int( (num_tests - num_finished) * (currenttime - starttime) / num_finished ) ) print("time left: %s" % timeleft, file=sys.stderr) if failed: print("failed: %d" % len(failed), file=sys.stderr) num_finished += 1 with open("tests/" + name) as fin, open("shared/test.sh", "w") as fout: for line in fin: line = line.replace("{{ CMD }}", cmd) line = line.replace("{{ SOURCE_DATE_EPOCH }}", s_d_e) line = line.replace("{{ DIST }}", dist) line = line.replace("{{ MIRROR }}", mirror) line = line.replace("{{ MODE }}", mode) line = line.replace("{{ VARIANT }}", variant) line = line.replace("{{ FORMAT }}", fmt) line = line.replace("{{ HOSTARCH }}", hostarch) fout.write(line) # ignore: # SC2016 Expressions don't expand in single quotes, use double quotes for that. # SC2050 This expression is constant. Did you forget the $ on a variable? # SC2194 This word is constant. Did you forget the $ on a variable? shellcheck = subprocess.run( [ "shellcheck", "--exclude=SC2050,SC2194,SC2016", "-f", "gcc", "shared/test.sh", ], check=False, stdout=subprocess.PIPE, ).stdout.decode() argv = None match test: case "qemu": argv = ["./run_qemu.sh"] case "sudo": argv = ["./run_null.sh", "SUDO"] case "null": argv = ["./run_null.sh"] case ("skip", reason): skipped[reason].append( format_test( i + 1, len(tests), name, dist, mode, variant, fmt, config_dict ) ) print(f"skipped because of {reason}", file=sys.stderr) continue print(separator, file=sys.stderr) if args.skip and name in args.skip: print(f"skipping because of --skip={name}", file=sys.stderr) continue if args.dist and args.dist != dist: print(f"skipping because of --dist={args.dist}", file=sys.stderr) continue if args.mode and args.mode != mode: print(f"skipping because of --mode={args.mode}", file=sys.stderr) continue if args.variant and args.variant != variant: print(f"skipping because of --variant={args.variant}", file=sys.stderr) continue if args.format and args.format != fmt: print(f"skipping because of --format={args.format}", file=sys.stderr) continue before = time.time() proc = subprocess.Popen(argv) try: proc.wait() except KeyboardInterrupt: proc.terminate() proc.wait() break after = time.time() walltime = timedelta(seconds=int(after - before)) formated_test_name = format_test( i + 1, len(tests), name, dist, mode, variant, fmt, config_dict ) time_per_test[formated_test_name] = walltime acc_time_per_test[name].append(walltime) print(separator, file=sys.stderr) print(f"duration: {walltime}", file=sys.stderr) if proc.returncode != 0 or shellcheck != "": if shellcheck != "": print(shellcheck) failed.append(formated_test_name) print("result: FAILURE", file=sys.stderr) else: print("result: SUCCESS", file=sys.stderr) num_success += 1 if args.maxfail and len(failed) >= args.maxfail: break print(separator, file=sys.stderr) print( "successfully ran %d tests" % num_success, file=sys.stderr, ) if skipped: print("skipped %d:" % sum([len(v) for v in skipped.values()]), file=sys.stderr) for reason, l in skipped.items(): print(f"skipped because of {reason}:", file=sys.stderr) for t in l: print(f" {t}", file=sys.stderr) if failed: print("failed %d:" % len(failed), file=sys.stderr) for f in failed: print(f, file=sys.stderr) exit(1) if len(time_per_test) > 1: print_time_per_test(time_per_test) if len(acc_time_per_test) > 1: print_time_per_test( { f"{len(v)}x {k}": sum(v, start=timedelta()) for k, v in acc_time_per_test.items() }, "accumulated test", ) if __name__ == "__main__": main()