#!/usr/bin/env python3 ## ## This file is part of the sigrok-test project. ## ## Copyright (C) 2013 Bert Vermeulen ## ## This program is free software: you can redistribute it and/or modify ## it under the terms of the GNU General Public License as published by ## the Free Software Foundation, either version 3 of the License, or ## (at your option) any later version. ## ## This program is distributed in the hope that it will be useful, ## but WITHOUT ANY WARRANTY; without even the implied warranty of ## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ## GNU General Public License for more details. ## ## You should have received a copy of the GNU General Public License ## along with this program. If not, see . ## import os import sys import re from getopt import getopt from tempfile import mkstemp from subprocess import Popen, PIPE from difflib import Differ from hashlib import md5 from shutil import copy DEBUG = 0 VERBOSE = False class E_syntax(Exception): pass class E_badline(Exception): pass def INFO(msg, end='\n'): if VERBOSE: print(msg, end=end) sys.stdout.flush() def DBG(msg): if DEBUG: print(msg) def ERR(msg): print(msg, file=sys.stderr) def usage(msg=None): if msg: print(msg.strip() + '\n') print("""Usage: testpd [-dvarslR] [test, ...] -d Turn on debugging -v Verbose -a All tests -l List all tests -s Show test(s) -r Run test(s) -f Fix failed test(s) -c Report decoder code coverage -R Save test reports to Protocol decoder name ("i2c") and optionally test name ("i2c/icc")""") sys.exit() def check_tclist(tc): if 'pdlist' not in tc or not tc['pdlist']: return("No protocol decoders") if 'input' not in tc or not tc['input']: return("No input") if 'output' not in tc or not tc['output']: return("No output") for op in tc['output']: if 'match' not in op: return("No match in output") return None def parse_testfile(path, pd, tc, op_type, op_class): DBG("Opening '%s'" % path) tclist = [] for line in open(path).read().split('\n'): try: line = line.strip() if len(line) == 0 or line[0] == "#": continue f = line.split() if not tclist and f[0] != "test": # That can't be good. raise E_badline key = f.pop(0) if key == 'test': if len(f) != 1: raise E_syntax # new testcase tclist.append({ 'pd': pd, 'name': f[0], 'pdlist': [], 'output': [], }) elif key == 'protocol-decoder': if len(f) < 1: raise E_syntax pd_spec = { 'name': f.pop(0), 'channels': [], 'options': [], } while len(f): if len(f) == 1: # Always needs raise E_syntax a, b = f[:2] f = f[2:] if '=' not in b: raise E_syntax opt, val = b.split('=') if a == 'channel': try: val = int(val) except: raise E_syntax pd_spec['channels'].append([opt, val]) elif a == 'option': pd_spec['options'].append([opt, val]) else: raise E_syntax tclist[-1]['pdlist'].append(pd_spec) elif key == 'stack': if len(f) < 2: raise E_syntax tclist[-1]['stack'] = f elif key == 'input': if len(f) != 1: raise E_syntax tclist[-1]['input'] = f[0] elif key == 'output': op_spec = { 'pd': f.pop(0), 'type': f.pop(0), } while len(f): if len(f) == 1: # Always needs raise E_syntax a, b = f[:2] f = f[2:] if a == 'class': op_spec['class'] = b elif a == 'match': op_spec['match'] = b else: raise E_syntax tclist[-1]['output'].append(op_spec) else: raise E_badline except E_badline as e: ERR("Invalid syntax in %s: line '%s'" % (path, line)) return [] except E_syntax as e: ERR("Unable to parse %s: unknown line '%s'" % (path, line)) return [] # If a specific testcase was requested, keep only that one. if tc is not None: target_tc = None for t in tclist: if t['name'] == tc: target_tc = t break # ...and a specific output type if op_type is not None: target_oplist = [] for op in target_tc['output']: if op['type'] == op_type: # ...and a specific output class if op_class is None or ('class' in op and op['class'] == op_class): target_oplist.append(op) DBG("match on [%s]" % str(op)) target_tc['output'] = target_oplist if target_tc is None: tclist = [] else: tclist = [target_tc] for t in tclist: error = check_tclist(t) if error: ERR("Error in %s: %s" % (path, error)) return [] return tclist def get_tests(testnames): tests = {} for testspec in testnames: # Optional testspec in the form pd/testcase/type/class tc = op_type = op_class = None ts = testspec.strip("/").split("/") pd = ts.pop(0) tests[pd] = [] if ts: tc = ts.pop(0) if ts: op_type = ts.pop(0) if ts: op_class = ts.pop(0) path = os.path.join(tests_dir, pd) if not os.path.isdir(path): # User specified non-existent PD raise Exception("%s not found." % path) path = os.path.join(tests_dir, pd, "test.conf") if not os.path.exists(path): # PD doesn't have any tests yet continue tests[pd].append(parse_testfile(path, pd, tc, op_type, op_class)) return tests def diff_text(f1, f2): t1 = open(f1).readlines() t2 = open(f2).readlines() diff = [] d = Differ() for line in d.compare(t1, t2): if line[:2] in ('- ', '+ '): diff.append(line.strip()) return diff def compare_binary(f1, f2): h1 = md5() h1.update(open(f1, 'rb').read()) h2 = md5() h2.update(open(f2, 'rb').read()) if h1.digest() == h2.digest(): result = None else: result = ["Binary output does not match."] return result # runtc's stdout can have lines like: # coverage: lines=161 missed=2 coverage=99% def parse_stats(text): stats = {} for line in text.strip().split('\n'): fields = line.split() key = fields.pop(0).strip(':') if key not in stats: stats[key] = [] stats[key].append({}) for f in fields: k, v = f.split('=') stats[key][-1][k] = v return stats # take result set of all tests in a PD, and summarize which lines # were not covered by any of the tests. def coverage_sum(cvglist): lines = 0 missed = 0 missed_lines = {} for record in cvglist: lines = int(record['lines']) missed += int(record['missed']) if 'missed_lines' not in record: continue for linespec in record['missed_lines'].split(','): if linespec not in missed_lines: missed_lines[linespec] = 1 else: missed_lines[linespec] += 1 # keep only those lines that didn't show up in every non-summary record final_missed = [] for linespec in missed_lines: if missed_lines[linespec] != len(cvglist): continue final_missed.append(linespec) return lines, final_missed def run_tests(tests, fix=False): errors = 0 results = [] cmd = [os.path.join(runtc_dir, 'runtc')] if opt_coverage: fd, coverage = mkstemp() os.close(fd) cmd.extend(['-c', coverage]) else: coverage = None for pd in sorted(tests.keys()): pd_cvg = [] for tclist in tests[pd]: for tc in tclist: args = cmd[:] if DEBUG > 1: args.append('-d') # Set up PD stack for this test. for spd in tc['pdlist']: args.extend(['-P', spd['name']]) for label, channel in spd['channels']: args.extend(['-p', "%s=%d" % (label, channel)]) for option, value in spd['options']: args.extend(['-o', "%s=%s" % (option, value)]) args.extend(['-i', os.path.join(dumps_dir, tc['input'])]) for op in tc['output']: name = "%s/%s/%s" % (pd, tc['name'], op['type']) opargs = ['-O', "%s:%s" % (op['pd'], op['type'])] if 'class' in op: opargs[-1] += ":%s" % op['class'] name += "/%s" % op['class'] if VERBOSE: dots = '.' * (77 - len(name) - 2) INFO("%s %s " % (name, dots), end='') results.append({ 'testcase': name, }) try: fd, outfile = mkstemp() os.close(fd) opargs.extend(['-f', outfile]) DBG("Running %s" % (' '.join(args + opargs))) p = Popen(args + opargs, stdout=PIPE, stderr=PIPE) stdout, stderr = p.communicate() if stdout: # statistics and coverage data on stdout results[-1].update(parse_stats(stdout.decode('utf-8'))) if stderr: results[-1]['error'] = stderr.decode('utf-8').strip() errors += 1 elif p.returncode != 0: # runtc indicated an error, but didn't output a # message on stderr about it results[-1]['error'] = "Unknown error: runtc %d" % p.returncode if 'error' not in results[-1]: matchfile = os.path.join(tests_dir, op['pd'], op['match']) DBG("Comparing with %s" % matchfile) try: diff = diff_error = None if op['type'] in ('annotation', 'python'): diff = diff_text(matchfile, outfile) elif op['type'] == 'binary': diff = compare_binary(matchfile, outfile) else: diff = ["Unsupported output type '%s'." % op['type']] except Exception as e: diff_error = e if fix: if diff or diff_error: copy(outfile, matchfile) DBG("Wrote %s" % matchfile) else: if diff: results[-1]['diff'] = diff elif diff_error is not None: raise diff_error except Exception as e: results[-1]['error'] = str(e) finally: if coverage: results[-1]['coverage_report'] = coverage os.unlink(outfile) if op['type'] == 'exception' and 'error' in results[-1]: # filter out the exception we were looking for reg = "^Error: srd: %s:" % op['match'] if re.match(reg, results[-1]['error']): # found it, not an error results[-1].pop('error') errors -= 1 if VERBOSE: if 'diff' in results[-1]: INFO("Output mismatch") elif 'error' in results[-1]: error = results[-1]['error'] if len(error) > 20: error = error[:17] + '...' INFO(error) elif 'coverage' in results[-1]: # report coverage of this PD for record in results[-1]['coverage']: # but not others used in the stack # as part of the test. if record['scope'] == pd: INFO(record['coverage']) break else: INFO("OK") gen_report(results[-1]) if coverage: os.unlink(coverage) # only keep track of coverage records for this PD, # not others in the stack just used for testing. for cvg in results[-1]['coverage']: if cvg['scope'] == pd: pd_cvg.append(cvg) if opt_coverage and len(pd_cvg) > 1: # report total coverage of this PD, across all the tests # that were done on it. total_lines, missed_lines = coverage_sum(pd_cvg) pd_coverage = 100 - (float(len(missed_lines)) / total_lines * 100) if VERBOSE: dots = '.' * (54 - len(pd) - 2) INFO("%s total %s %d%%" % (pd, dots, pd_coverage)) if report_dir: # generate a missing lines list across all the files in # the PD files = {} for entry in missed_lines: filename, line = entry.split(':') if filename not in files: files[filename] = [] files[filename].append(line) text = '' for filename in sorted(files.keys()): line_list = ','.join(sorted(files[filename], key=int)) text += "%s: %s\n" % (filename, line_list) open(os.path.join(report_dir, pd + "_total"), 'w').write(text) return results, errors def gen_report(result): out = [] if 'error' in result: out.append("Error:") out.append(result['error']) out.append('') if 'diff' in result: out.append("Test output mismatch:") out.extend(result['diff']) out.append('') if 'coverage_report' in result: out.append(open(result['coverage_report'], 'r').read()) out.append('') if out: text = "Testcase: %s\n" % result['testcase'] text += '\n'.join(out) else: return if report_dir: filename = result['testcase'].replace('/', '_') open(os.path.join(report_dir, filename), 'w').write(text) else: print(text) def show_tests(tests): for pd in sorted(tests.keys()): for tclist in tests[pd]: for tc in tclist: print("Testcase: %s/%s" % (tc['pd'], tc['name'])) for pd in tc['pdlist']: print(" Protocol decoder: %s" % pd['name']) for label, channel in pd['channels']: print(" Channel %s=%d" % (label, channel)) for option, value in pd['options']: print(" Option %s=%d" % (option, value)) if 'stack' in tc: print(" Stack: %s" % ' '.join(tc['stack'])) print(" Input: %s" % tc['input']) for op in tc['output']: print(" Output:\n Protocol decoder: %s" % op['pd']) print(" Type: %s" % op['type']) if 'class' in op: print(" Class: %s" % op['class']) print(" Match: %s" % op['match']) print() def list_tests(tests): for pd in sorted(tests.keys()): for tclist in tests[pd]: for tc in tclist: for op in tc['output']: line = "%s/%s/%s" % (tc['pd'], tc['name'], op['type']) if 'class' in op: line += "/%s" % op['class'] print(line) # # main # # project root runtc_dir = os.path.abspath(os.path.dirname(sys.argv[0])) base_dir = os.path.abspath(os.path.join(os.curdir, runtc_dir, os.path.pardir)) dumps_dir = os.path.abspath(os.path.join(base_dir, os.path.pardir, 'sigrok-dumps')) tests_dir = os.path.abspath(os.path.join(runtc_dir, 'test')) if len(sys.argv) == 1: usage() opt_all = opt_run = opt_show = opt_list = opt_fix = opt_coverage = False report_dir = None try: opts, args = getopt(sys.argv[1:], "dvarslfcR:S:") except Exception as e: usage('error while parsing command line arguments: {}'.format(e)) for opt, arg in opts: if opt == '-d': DEBUG += 1 if opt == '-v': VERBOSE = True elif opt == '-a': opt_all = True elif opt == '-r': opt_run = True elif opt == '-s': opt_show = True elif opt == '-l': opt_list = True elif opt == '-f': opt_fix = True elif opt == '-c': opt_coverage = True elif opt == '-R': report_dir = arg elif opt == '-S': dumps_dir = arg if opt_run and opt_show: usage("Use either -s or -r, not both.") if args and opt_all: usage("Specify either -a or tests, not both.") if report_dir is not None and not os.path.isdir(report_dir): usage("%s is not a directory" % report_dir) ret = 0 try: if args: testlist = get_tests(args) elif opt_all: testlist = get_tests(os.listdir(tests_dir)) else: usage("Specify either -a or tests.") if opt_run: if not os.path.isdir(dumps_dir): ERR("Could not find sigrok-dumps repository at %s" % dumps_dir) sys.exit(1) results, errors = run_tests(testlist, fix=opt_fix) ret = errors elif opt_show: show_tests(testlist) elif opt_list: list_tests(testlist) elif opt_fix: run_tests(testlist, fix=True) else: usage() except Exception as e: print("Error: %s" % str(e)) if DEBUG: raise sys.exit(ret)