# Copyright 2012 the V8 project authors. All rights reserved. # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions are # met: # # * Redistributions of source code must retain the above copyright # notice, this list of conditions and the following disclaimer. # * Redistributions in binary form must reproduce the above # copyright notice, this list of conditions and the following # disclaimer in the documentation and/or other materials provided # with the distribution. # * Neither the name of Google Inc. nor the names of its # contributors may be used to endorse or promote products derived # from this software without specific prior written permission. # # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS # "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT # LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR # A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT # OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, # SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT # LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, # DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY # THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT # (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE # OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. import os import re from variants import ALL_VARIANTS from utils import Freeze # These outcomes can occur in a TestCase's outcomes list: SKIP = "SKIP" FAIL = "FAIL" PASS = "PASS" OKAY = "OKAY" TIMEOUT = "TIMEOUT" CRASH = "CRASH" SLOW = "SLOW" FAST_VARIANTS = "FAST_VARIANTS" NO_VARIANTS = "NO_VARIANTS" # These are just for the status files and are mapped below in DEFS: FAIL_OK = "FAIL_OK" PASS_OR_FAIL = "PASS_OR_FAIL" FAIL_SLOPPY = "FAIL_SLOPPY" ALWAYS = "ALWAYS" KEYWORDS = {} for key in [SKIP, FAIL, PASS, OKAY, CRASH, SLOW, FAIL_OK, FAST_VARIANTS, NO_VARIANTS, PASS_OR_FAIL, FAIL_SLOPPY, ALWAYS]: KEYWORDS[key] = key DEFS = {FAIL_OK: [FAIL, OKAY], PASS_OR_FAIL: [PASS, FAIL]} # Support arches, modes to be written as keywords instead of strings. VARIABLES = {ALWAYS: True} for var in ["debug", "release", "big", "little", "android_arm", "android_arm64", "android_ia32", "android_x64", "arm", "arm64", "ia32", "mips", "mipsel", "mips64", "mips64el", "x64", "ppc", "ppc64", "s390", "s390x", "macos", "windows", "linux", "aix"]: VARIABLES[var] = var # Allow using variants as keywords. for var in ALL_VARIANTS: VARIABLES[var] = var def DoSkip(outcomes): return SKIP in outcomes def IsSlow(outcomes): return SLOW in outcomes def OnlyStandardVariant(outcomes): return NO_VARIANTS in outcomes def OnlyFastVariants(outcomes): return FAST_VARIANTS in outcomes def IsPassOrFail(outcomes): return ((PASS in outcomes) and (FAIL in outcomes) and (not CRASH in outcomes) and (not OKAY in outcomes)) def IsFailOk(outcomes): return (FAIL in outcomes) and (OKAY in outcomes) def _AddOutcome(result, new): global DEFS if new in DEFS: mapped = DEFS[new] if type(mapped) == list: for m in mapped: _AddOutcome(result, m) elif type(mapped) == str: _AddOutcome(result, mapped) else: result.add(new) def _JoinsPassAndFail(outcomes1, outcomes2): """Indicates if we join PASS and FAIL from two different outcome sets and the first doesn't already contain both. """ return ( PASS in outcomes1 and not FAIL in outcomes1 and FAIL in outcomes2 ) VARIANT_EXPRESSION = object() def _EvalExpression(exp, variables): try: return eval(exp, variables) except NameError as e: identifier = re.match("name '(.*)' is not defined", e.message).group(1) assert identifier == "variant", "Unknown identifier: %s" % identifier return VARIANT_EXPRESSION def _EvalVariantExpression(section, rules, wildcards, variant, variables): variables_with_variant = {} variables_with_variant.update(variables) variables_with_variant["variant"] = variant result = _EvalExpression(section[0], variables_with_variant) assert result != VARIANT_EXPRESSION if result is True: _ReadSection( section[1], rules[variant], wildcards[variant], variables_with_variant, ) else: assert result is False, "Make sure expressions evaluate to boolean values" def _ParseOutcomeList(rule, outcomes, target_dict, variables): result = set([]) if type(outcomes) == str: outcomes = [outcomes] for item in outcomes: if type(item) == str: _AddOutcome(result, item) elif type(item) == list: exp = _EvalExpression(item[0], variables) assert exp != VARIANT_EXPRESSION, ( "Nested variant expressions are not supported") if exp is False: continue # Ensure nobody uses an identifier by mistake, like "default", # which would evaluate to true here otherwise. assert exp is True, "Make sure expressions evaluate to boolean values" for outcome in item[1:]: assert type(outcome) == str _AddOutcome(result, outcome) else: assert False if len(result) == 0: return if rule in target_dict: # A FAIL without PASS in one rule has always precedence over a single # PASS (without FAIL) in another. Otherwise the default PASS expectation # in a rule with a modifier (e.g. PASS, SLOW) would be joined to a FAIL # from another rule (which intended to mark a test as FAIL and not as # PASS and FAIL). if _JoinsPassAndFail(target_dict[rule], result): target_dict[rule] -= set([PASS]) if _JoinsPassAndFail(result, target_dict[rule]): result -= set([PASS]) target_dict[rule] |= result else: target_dict[rule] = result def ReadContent(content): global KEYWORDS return eval(content, KEYWORDS) def ReadStatusFile(content, variables): # Empty defaults for rules and wildcards. Variant-independent # rules are mapped by "", others by the variant name. rules = {variant: {} for variant in ALL_VARIANTS} rules[""] = {} wildcards = {variant: {} for variant in ALL_VARIANTS} wildcards[""] = {} variables.update(VARIABLES) for section in ReadContent(content): assert type(section) == list assert len(section) == 2 exp = _EvalExpression(section[0], variables) if exp is False: # The expression is variant-independent and evaluates to False. continue elif exp == VARIANT_EXPRESSION: # If the expression contains one or more "variant" keywords, we evaluate # it for all possible variants and create rules for those that apply. for variant in ALL_VARIANTS: _EvalVariantExpression(section, rules, wildcards, variant, variables) else: # The expression is variant-independent and evaluates to True. assert exp is True, "Make sure expressions evaluate to boolean values" _ReadSection( section[1], rules[""], wildcards[""], variables, ) return Freeze(rules), Freeze(wildcards) def _ReadSection(section, rules, wildcards, variables): assert type(section) == dict for rule in section: assert type(rule) == str if rule[-1] == '*': _ParseOutcomeList(rule, section[rule], wildcards, variables) else: _ParseOutcomeList(rule, section[rule], rules, variables) JS_TEST_PATHS = { 'debugger': [[]], 'inspector': [[]], 'intl': [[]], 'message': [[]], 'mjsunit': [[]], 'mozilla': [['data']], 'test262': [['data', 'test'], ['local-tests', 'test']], 'webkit': [[]], } def PresubmitCheck(path): with open(path) as f: contents = ReadContent(f.read()) basename = os.path.basename(os.path.dirname(path)) root_prefix = basename + "/" status = {"success": True} def _assert(check, message): # Like "assert", but doesn't throw. if not check: print("%s: Error: %s" % (path, message)) status["success"] = False try: for section in contents: _assert(type(section) == list, "Section must be a list") _assert(len(section) == 2, "Section list must have exactly 2 entries") section = section[1] _assert(type(section) == dict, "Second entry of section must be a dictionary") for rule in section: _assert(type(rule) == str, "Rule key must be a string") _assert(not rule.startswith(root_prefix), "Suite name prefix must not be used in rule keys") _assert(not rule.endswith('.js'), ".js extension must not be used in rule keys.") if basename in JS_TEST_PATHS and '*' not in rule: _assert(any(os.path.exists(os.path.join(os.path.dirname(path), *(paths + [rule + ".js"]))) for paths in JS_TEST_PATHS[basename]), "missing file for %s test %s" % (basename, rule)) return status["success"] except Exception as e: print e return False