#!/usr/bin/env python # Copyright (C) 2013 Red Hat, Inc. # # Cockpit is free software; you can redistribute it and/or modify it # under the terms of the GNU Lesser General Public License as published by # the Free Software Foundation; either version 2.1 of the License, or # (at your option) any later version. # # Cockpit 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 # Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public License # along with Cockpit; If not, see . # # This is a TAP driver for automake # # In particular it leaves stderr untouched, and is cleaner than the # one implemented in shell that is making the rounds. # # This implements the automake "Custom Test Driver" protocol: # https://www.gnu.org/software/automake/manual/html_node/Custom-Test-Drivers.html # # This consumes the Test Anything Protocol (ie: TAP) # https://metacpan.org/pod/release/PETDANCE/Test-Harness-2.64/lib/Test/Harness/TAP.pod # import argparse import os import select import subprocess import sys class Driver: def __init__(self, args): self.argv = args.command self.test_name = args.test_name self.log = open(args.log_file, "w") self.log.write("# %s\n" % " ".join(sys.argv)) self.trs = open(args.trs_file, "w") self.color_tests = args.color_tests self.expect_failure = args.expect_failure def report(self, code, *args): CODES = { "XPASS": '\x1b[0;31m', # red "FAIL": '\x1b[0;31m', # red "PASS": '\x1b[0;32m', # grn "XFAIL": '\x1b[1;32m', # lgn "SKIP": '\x1b[1;34m', # blu "ERROR": '\x1b[0;35m', # mgn } # Print out to console if self.color_tests: if code in CODES: sys.stdout.write(CODES[code]) sys.stdout.write(code) if self.color_tests: sys.stdout.write('\x1b[m') sys.stdout.write(": ") sys.stdout.write(self.test_name) sys.stdout.write(" ") for arg in args: sys.stdout.write(str(arg)) sys.stdout.write("\n") sys.stdout.flush() # Book keeping if code in CODES: self.trs.write(":test-result: %s\n" % code) def result_pass(self, *args): if self.expect_failure: self.report("XPASS", *args) else: self.report("PASS", *args) def result_fail(self, *args): if self.expect_failure: self.report("XFAIL", *args) else: self.report("FAIL", *args) def result_skip(self, *args): if self.expect_failure: self.report("XFAIL", *args) else: self.report("SKIP", *args) def report_error(self, description=""): self.report("ERROR", "", description) def process(self, output): pass def execute(self): try: proc = subprocess.Popen(self.argv, close_fds=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE) except OSError, ex: self.report_error("Couldn't run %s: %s" % (self.argv[0], str(ex))) return outf = proc.stdout.fileno() errf = proc.stderr.fileno() rset = [outf, errf] while len(rset) > 0: ret = select.select(rset, [], [], 10) if outf in ret[0]: data = os.read(outf, 1024) if data == "": rset.remove(outf) self.log.write(data) self.process(data) if errf in ret[0]: data = os.read(errf, 1024) if data == "": rset.remove(errf) self.log.write(data) sys.stderr.write(data) proc.wait() return proc.returncode class TapDriver(Driver): def __init__(self, args): Driver.__init__(self, args) self.output = "" self.reported = { } self.test_plan = None self.late_plan = False self.errored = False self.bail_out = False def report(self, code, num, *args): if num: Driver.report(self, code, num, " ", *args) self.reported[num] = code else: Driver.report(self, code, *args) if code == "ERROR": self.errored = True def consume_test_line(self, ok, data): # It's an error if the caller sends a test plan in the middle of tests if self.late_plan: self.report_error("Got tests after late TAP test plan") self.late_plan = False # Parse out a number and then description (num, unused, description) = data.partition(" ") try: num = int(num) except ValueError: self.report_error("Invalid test number: %s" % data) return description = description.lstrip() # Parse out a directive from description, if any (description, unused, directive) = description.partition("#") # Special case if directive starts with this, then skip if directive.lstrip().lower().startswith("skip"): self.result_skip(num, description) elif ok: self.result_pass(num, description) else: self.result_fail(num, description) def consume_test_plan(self, first, last): # Only one test plan is supported if self.test_plan: self.report_error("Get a second TAP test plan") return try: first = int(first) last = int(last) except ValueError: self.report_error("Invalid test plan: %s..%s" % (first, last)) return self.test_plan = (first, last) self.late_plan = self.reported and True or False def consume_bail_out(self, line): self.bail_out = True self.report("SKIP", 0, line) def process(self, output): if output: self.output += output elif self.output: self.output += "\n" (ready, unused, self.output) = self.output.rpartition("\n") for line in ready.split("\n"): if line.startswith("ok "): self.consume_test_line(True, line[3:]) elif line.startswith("not ok "): self.consume_test_line(False, line[7:]) elif line and line[0].isdigit() and ".." in line: (first, unused, last) = line.partition("..") self.consume_test_plan(first, last) elif line.lower().startswith("bail out!"): self.consume_bail_out(line) def run(self): returncode = self.execute() failed = False skipped = True # Basic collation of results for (num, code) in self.reported.items(): if code == "ERROR": self.errored = True elif code == "FAIL" or code == "XPASS": failed = True if code != "SKIP": skipped = False if not self.errored: if returncode == 77: skipped = True elif returncode: self.report_error("process failed: %d" % returncode) self.errored = True # Check the plan if not self.errored: if not self.test_plan: if not self.bail_out: self.report_error("Didn't receive a TAP test plan") else: for i in range(self.test_plan[0], self.test_plan[1] + 1): if i not in self.reported: if self.bail_out: self.report("SKIP", i, "- bailed out") else: self.report("ERROR", i, "- missing test") skipped = False self.errored = True if self.errored: self.trs.write(":global-test-result: ERROR\n") self.trs.write(":test-global-result: ERROR\n") self.trs.write(":recheck: yes\n") elif failed: self.trs.write(":global-test-result: FAIL\n") self.trs.write(":test-global-result: FAIL\n") self.trs.write(":recheck: yes\n") elif skipped: self.trs.write(":global-test-result: SKIP\n") self.trs.write(":test-global-result: SKIP\n") self.trs.write(":recheck: no\n") else: self.trs.write(":global-test-result: PASS\n") self.trs.write(":test-global-result: PASS\n") self.trs.write(":recheck: no\n") if self.errored or failed: self.trs.write(":copy-in-global-log: yes\n") # Process result code return 0 class SimpleDriver(Driver): def __init__(self, args): Driver.__init__(self, args) def run(self): returncode = self.execute() if returncode == 0: self.result_pass() self.trs.write(":global-test-result: PASS\n") self.trs.write(":test-global-result: PASS\n") self.trs.write(":recheck: no\n") elif returncode == 77: self.result_skip() self.trs.write(":global-test-result: SKIP\n") self.trs.write(":test-global-result: SKIP\n") self.trs.write(":recheck: no\n") elif returncode == 99: self.report_error() self.trs.write(":global-test-result: ERROR\n") self.trs.write(":test-global-result: ERROR\n") self.trs.write(":copy-in-global-log: yes\n") self.trs.write(":recheck: yes\n") else: self.result_fail() self.trs.write(":global-test-result: FAIL\n") self.trs.write(":test-global-result: FAIL\n") self.trs.write(":copy-in-global-log: yes\n") self.trs.write(":recheck: yes\n") # Process result code return 0 class MissingDriver(Driver): def __init__(self, args): Driver.__init__(self, args) self.missing = args.missing def run(self): self.result_skip("skipping due to: ", self.missing) self.trs.write(":global-test-result: SKIP\n") self.trs.write(":test-global-result: SKIP\n") self.trs.write(":recheck: no\n") return 0 class YesNoAction(argparse.Action): def __init__(self, option_strings, dest, **kwargs): argparse.Action.__init__(self, option_strings, dest, **kwargs) self.metavar = "[yes|no]" def __call__(self, parser, namespace, values, option_string=None): if not values or "yes" in values: setattr(namespace, self.dest, True) else: setattr(namespace, self.dest, False) def main(argv): parser = argparse.ArgumentParser(description='Automake TAP driver') parser.add_argument('--format', metavar='FORMAT', choices=[ "simple", "tap" ], default="simple", help='The type of test to drive') parser.add_argument('--missing', metavar="TOOL", nargs='?', help="Force the test to skip due to missing tool") parser.add_argument('--test-name', metavar='NAME', help='The name of the test') parser.add_argument('--log-file', metavar='PATH.log', required=True, help='The .log file the driver creates') parser.add_argument('--trs-file', metavar='PATH.trs', required=True, help='The .trs file the driver creates') parser.add_argument('--color-tests', default=True, action=YesNoAction, help='Whether the console output should be colorized or not') parser.add_argument('--expect-failure', default=False, action=YesNoAction, help="Whether the tested program is expected to fail") parser.add_argument('--enable-hard-errors', default=False, action=YesNoAction, help="Whether hard errors in the tested program are treated differently") parser.add_argument('command', nargs='+', help="A test command line to run") args = parser.parse_args(argv[1:]) if not args.test_name: args.test_name = os.path.basename(args.command[0]) if args.missing: driver = MissingDriver(args) elif args.format == "simple": driver = SimpleDriver(args) elif args.format == "tap": driver = TapDriver(args) return driver.run() if __name__ == "__main__": sys.exit(main(sys.argv))