| # Copyright 2016 The LUCI Authors. All rights reserved. |
| # Use of this source code is governed under the Apache License, Version 2.0 |
| # that can be found in the LICENSE file. |
| |
| """Implements a Checker object which can be used in place of `assert` to check |
| conditions inside tests, but with much more debugging information, including |
| a smart selection of local variables mentioned inside of the call to check.""" |
| |
| import ast |
| import copy |
| import inspect |
| import re |
| import itertools |
| |
| from collections import OrderedDict, deque, defaultdict, namedtuple |
| |
| import astunparse |
| |
| from PB.recipe_engine.test_result import TestResult |
| |
| from ...types import FrozenDict |
| |
| |
| class CheckFrame(namedtuple('CheckFrame', 'fname line function code varmap')): |
| def format(self, indent): |
| lines = [ |
| '%s%s:%s - %s()' % ((' '*indent), self.fname, self.line, self.function) |
| ] |
| indent += 2 |
| lines.append('%s`%s`' % ((' '*indent), self.code)) |
| indent += 2 |
| if self.varmap: |
| lines.extend('%s%s: %s' % ((' '*indent), k, v) |
| for k, v in self.varmap.iteritems()) |
| return '\n'.join(lines) |
| |
| |
| class Check(namedtuple('Check', ( |
| 'name ctx_filename ctx_lineno ctx_func ctx_args ctx_kwargs ' |
| 'frames passed'))): |
| # filename -> {lineno -> [statements]} |
| _PARSED_FILE_CACHE = defaultdict(lambda: defaultdict(list)) |
| _LAMBDA_CACHE = defaultdict(lambda: defaultdict(list)) |
| |
| @classmethod |
| def create(cls, name, hook_context, frames, passed, ignore_set): |
| try: |
| keep_frames = [cls._process_frame(f, ignore_set, with_vars=False) |
| for f in frames[:-1]] |
| keep_frames.append(cls._process_frame( |
| frames[-1], ignore_set, with_vars=True)) |
| finally: |
| # avoid reference cycle as suggested by inspect docs. |
| del frames |
| |
| return cls( |
| name, |
| hook_context.filename, |
| hook_context.lineno, |
| cls._get_name_of_callable(hook_context.func), |
| map(repr, hook_context.args), |
| {k: repr(v) for k, v in hook_context.kwargs.iteritems()}, |
| keep_frames, |
| passed, |
| ) |
| |
| @classmethod |
| def _get_name_of_callable(cls, c): |
| if inspect.ismethod(c): |
| return c.im_class.__name__+'.'+c.__name__ |
| if inspect.isfunction(c): |
| if c.__name__ == (lambda: None).__name__: |
| filename = c.func_code.co_filename |
| cls._ensure_file_in_cache(filename, c) |
| definitions = cls._LAMBDA_CACHE[filename][c.func_code.co_firstlineno] |
| assert definitions |
| # If there's multiple definitions at the same line, there's not enough |
| # information to distinguish which lambda c refers to, so just let |
| # python's generic lambda name be used |
| if len(definitions) == 1: |
| return astunparse.unparse(definitions[0]).strip() |
| return c.__name__ |
| if hasattr(c, '__call__'): |
| return c.__class__.__name__+'.__call__' |
| return repr(c) |
| |
| @classmethod |
| def _get_statements_for_frame(cls, frame): |
| raw_frame, filename, lineno, _, _, _ = frame |
| cls._ensure_file_in_cache(filename, raw_frame) |
| return cls._PARSED_FILE_CACHE[filename][lineno] |
| |
| @classmethod |
| def _ensure_file_in_cache(cls, filename, obj_with_code): |
| """This parses the file containing frame, and then extracts all simple |
| statements (i.e. those which do not contain other statements). It then |
| returns the list of all statements (as AST nodes) which occur on the line |
| number indicated by the frame. |
| |
| The parse and statement extraction is cached in the _PARSED_FILE_CACHE class |
| variable, so multiple assertions in the same file only pay the parsing cost |
| once. |
| """ |
| if filename not in cls._PARSED_FILE_CACHE: |
| # multi-statement nodes like Module, FunctionDef, etc. have attributes on |
| # them like 'body' which house the list of statements they contain. The |
| # `to_push` list here is the set of all such attributes across all ast |
| # nodes. The goal is to add the CONTENTS of all multi-statement statements |
| # to the queue, and anything else is considered a 'single statement' for |
| # the purposes of this code. |
| to_push = ['test', 'body', 'orelse', 'finalbody', 'excepthandler'] |
| lines, _ = inspect.findsource(obj_with_code) |
| # Start with the entire parsed document (probably ast.Module). |
| queue = deque([ast.parse(''.join(lines), filename)]) |
| while queue: |
| node = queue.pop() |
| had_statements = False |
| # Try to find any nested statements and push them into queue if they |
| # exist. |
| for key in to_push: |
| val = getattr(node, key, MISSING) |
| if val is not MISSING: |
| had_statements = True |
| if isinstance(val, list): |
| # Because we're popping things off the start of the queue, and we |
| # want to append nodes to _PARSED_FILE_CACHE, we reverse the |
| # statements when we extend the queue with them. |
| queue.extend(val[::-1]) |
| else: |
| # In the case of 'test', it's just a single expression, not a list |
| # of statements |
| queue.append(val) |
| if had_statements: |
| continue |
| # node is a 'simple' statement (doesn't contain any nested statements), |
| # so find it's maxiumum line-number (e.g. the line number that would |
| # show up in a stack trace), and add it to _PARSED_FILE_CACHE. Note that |
| # even though this is a simple statement, it could still span multiple |
| # lines. |
| def get_max_lineno(node): |
| return max(getattr(n, 'lineno', 0) for n in ast.walk(node)) |
| max_line = get_max_lineno(node) |
| cls._PARSED_FILE_CACHE[filename][max_line].append(node) |
| |
| # If the expression contains any nested lambda definitions, then its |
| # possible we may encounter frames that are executing the lambda. In |
| # that case, any lambdas that do not appear on the last line of the |
| # expression will have frames with line numbers different from frames |
| # that are executing the containing expression, so look for any nested |
| # lambdas and add them to the cache with the appropriate line number. |
| for n in ast.walk(node): |
| if not isinstance(n, ast.Lambda): |
| continue |
| # For the lambda cache we'll have a function with the first line |
| # number rather than a frame with the current point of execution so we |
| # want n.lineno rather than the maximum line number for the expression |
| cls._LAMBDA_CACHE[filename][n.lineno].append(n) |
| |
| # Adding the lambda to the nodes when its on the last line results |
| # in both the containing expression and the lambda itself appearing |
| # in the failure output, so don't add the lambda to the nodes |
| lambda_max_line = get_max_lineno(n) |
| if lambda_max_line != max_line: |
| cls._PARSED_FILE_CACHE[filename][lambda_max_line].append(n) |
| |
| @classmethod |
| def _process_frame(cls, frame, ignore_set, with_vars): |
| """This processes a stack frame into an expect_tests.CheckFrame, which |
| includes file name, line number, function name (of the function containing |
| the frame), the parsed statement at that line, and the relevant local |
| variables/subexpressions (if with_vars is True). |
| |
| In addition to transforming the expression with _checkTransformer, this |
| will: |
| * omit subexpressions which resolve to callable()'s |
| * omit the overall step ordered dictionary |
| * transform all subexpression values using render_user_value(). |
| """ |
| nodes = cls._get_statements_for_frame(frame) |
| raw_frame, filename, lineno, func_name, _, _ = frame |
| |
| varmap = None |
| if with_vars: |
| varmap = {} |
| |
| xfrmr = _checkTransformer(raw_frame.f_locals, raw_frame.f_globals) |
| xfrmd = xfrmr.visit(ast.Module(copy.deepcopy(nodes))) |
| |
| for n in itertools.chain(ast.walk(xfrmd), xfrmr.extras): |
| if isinstance(n, _resolved): |
| val = n.value |
| if isinstance(val, ast.AST): |
| continue |
| if n.representation in ('True', 'False', 'None'): |
| continue |
| if callable(val) or id(val) in ignore_set: |
| continue |
| if n.representation not in varmap: |
| varmap[n.representation] = render_user_value(val) |
| |
| return CheckFrame( |
| filename, |
| lineno, |
| func_name, |
| '; '.join(astunparse.unparse(n).strip() for n in nodes), |
| varmap |
| ) |
| |
| def format(self, indent): |
| '''Example: |
| CHECK "something was run" (FAIL): |
| added /.../recipes-py/recipes/engine_tests/whitelist_steps.py:28 |
| MustRun('fakiestep') |
| /.../recipes-py/recipe_engine/post_process.py:160 - MustRun() |
| `check("something was run", (step_name in step_odict))` |
| step_odict.keys(): ['something important', 'fakestep', '$result'] |
| step_name: 'fakiestep' |
| ''' |
| |
| ret = (' '*indent)+'CHECK%(name)s(%(passed)s):\n' % { |
| 'name': ' %r ' % self.name if self.name else '', |
| 'passed': 'PASS' if self.passed else 'FAIL', |
| } |
| indent += 2 |
| ret += '\n'.join(map(lambda f: f.format(indent), self.frames)) + '\n' |
| |
| ret += (' '*indent)+'added %s:%d\n' % (self.ctx_filename, self.ctx_lineno) |
| func = '%s(' % self.ctx_func |
| if self.ctx_args: |
| func += ', '.join(self.ctx_args) |
| if self.ctx_kwargs: |
| func += ', '.join(['%s=%s' % i for i in self.ctx_kwargs.iteritems()]) |
| func += ')' |
| ret += (' '*indent)+' '+func |
| return ret |
| |
| def as_proto(self): |
| proto = TestResult.TestFailure() |
| if self.name: |
| proto.check_failure.name = self.name |
| proto.check_failure.func = self.ctx_func |
| proto.check_failure.args.extend([str(a) for a in self.ctx_args]) |
| for k, v in self.ctx_kwargs.iteritems(): |
| proto.check_failure.kwargs[k] = v |
| proto.check_failure.filename = self.ctx_filename |
| proto.check_failure.lineno = self.ctx_lineno |
| return proto |
| |
| |
| class _resolved(ast.AST): |
| """_resolved is a fake AST node which represents a resolved sub-expression. |
| It's used by _checkTransformer to replace portions of its AST with their |
| resolved equivalents.""" |
| def __init__(self, representation, value): |
| super(_resolved, self).__init__() |
| self.representation = representation |
| self.value = value |
| |
| |
| class _checkTransformer(ast.NodeTransformer): |
| """_checkTransformer is an ast NodeTransformer which extracts the helpful |
| subexpressions from a python expression (specificially, from an invocation of |
| the Checker). These subexpressions will be printed along with the check's |
| source code statement to provide context for the failed check. |
| |
| It knows the following transformations: |
| * all python identifiers will be resolved to their local variable meaning. |
| * `___ in <instance of dict>` will cause dict.keys() to be printed in lieu |
| of the entire dictionary. |
| * `a[b][c]` will cause `a[b]` and `a[b][c]` to be printed (for an arbitrary |
| level of recursion) |
| |
| The transformed ast is NOT a valid python AST... In particular, every reduced |
| subexpression will be a _resolved() where the `representation` is the code for |
| the subexpression (It could be any valid expression like `foo.bar()`), |
| and the `value` will be the eval'd value for that element. |
| |
| In addition to this, there will be a list of _resolved nodes in the |
| transformer's `extra` attribute for additional expressions which should be |
| printed for debugging usefulness, but didn't fit into the ast tree anywhere. |
| """ |
| |
| def __init__(self, lvars, gvars): |
| self.lvars = lvars |
| self.gvars = gvars |
| self.extras = [] |
| |
| def visit_Compare(self, node): |
| """Compare nodes occur for all sequences of comparison (`in`, gt, lt, etc.) |
| operators. We only want to match `___ in instanceof(dict)` here, so we |
| restrict this to Compare ops with a single operator which is `In` or |
| `NotIn`. |
| """ |
| node = self.generic_visit(node) |
| |
| if len(node.ops) == 1 and isinstance(node.ops[0], (ast.In, ast.NotIn)): |
| cmps = node.comparators |
| if len(cmps) == 1 and isinstance(cmps[0], _resolved): |
| rslvd = cmps[0] |
| if isinstance(rslvd.value, dict): |
| node = ast.Compare( |
| node.left, |
| node.ops, |
| [_resolved(rslvd.representation+".keys()", |
| sorted(rslvd.value.keys()))]) |
| |
| return node |
| |
| def visit_Subscript(self, node): |
| """Subscript nodes are anything which is __[__]. We only want to match __[x] |
| here so where the [x] is a regular Index expression (not an elipsis or |
| slice). We only handle cases where x is a constant, or a resolvable variable |
| lookup (so a variable lookup, index, etc.).""" |
| node = self.generic_visit(node) |
| |
| if (isinstance(node.slice, ast.Index) and |
| isinstance(node.value, _resolved)): |
| sliceVal = MISSING |
| sliceRepr = '' |
| if isinstance(node.slice.value, _resolved): |
| # (a[b])[c] |
| # will include `a[b]` in the extras. |
| self.extras.append(node.slice.value) |
| sliceVal = node.slice.value.value |
| sliceRepr = node.slice.value.representation |
| elif isinstance(node.slice.value, ast.Num): |
| sliceVal = node.slice.value.n |
| sliceRepr = repr(sliceVal) |
| elif isinstance(node.slice.value, ast.Str): |
| sliceVal = node.slice.value.s |
| sliceRepr = repr(sliceVal) |
| if sliceVal is not MISSING: |
| node = _resolved( |
| '%s[%s]' % (node.value.representation, sliceRepr), |
| node.value.value[sliceVal]) |
| |
| return node |
| |
| def visit_Name(self, node): |
| """Matches a single, simple identifier (e.g. variable). |
| |
| This will lookup the variable value from python constants (e.g. True), |
| followed by the frame's local variables, and finally by the frame's global |
| variables. |
| """ |
| consts = {'True': True, 'False': False, 'None': None} |
| val = consts.get( |
| node.id, self.lvars.get( |
| node.id, self.gvars.get( |
| node.id, MISSING))) |
| if val is not MISSING: |
| return _resolved(node.id, val) |
| return node |
| |
| |
| def render_user_value(val): |
| """Takes a subexpression user value, and attempts to render it in the most |
| useful way possible. |
| |
| Currently this will use render_re for compiled regular expressions, and will |
| fall back to repr() for everything else. |
| |
| It should be the goal of this function to return an `eval`able string that |
| would yield the equivalent value in a python interpreter. |
| """ |
| if isinstance(val, re._pattern_type): |
| return render_re(val) |
| return repr(val) |
| |
| |
| def render_re(regex): |
| """Renders a repr()-style value for a compiled regular expression.""" |
| actual_flags = [] |
| if regex.flags: |
| flags = [ |
| (re.IGNORECASE, 'IGNORECASE'), |
| (re.LOCALE, 'LOCALE'), |
| (re.UNICODE, 'UNICODE'), |
| (re.MULTILINE, 'MULTILINE'), |
| (re.DOTALL, 'DOTALL'), |
| (re.VERBOSE, 'VERBOSE'), |
| ] |
| for val, name in flags: |
| if regex.flags & val: |
| actual_flags.append(name) |
| if actual_flags: |
| return 're.compile(%r, %s)' % (regex.pattern, '|'.join(actual_flags)) |
| else: |
| return 're.compile(%r)' % regex.pattern |
| |
| |
| class Checker(object): |
| def __init__(self, hook_context): |
| self.failed_checks = [] |
| |
| # _ignore_set is the set of objects that we should never print as local |
| # variables. We start this set off by including the actual Checker object, |
| # since there's no value to printing that. |
| self._ignore_set = {id(self)} |
| |
| self._hook_context = hook_context |
| |
| def _ignore(self, *ignores): |
| self._ignore_set.update(id(i) for i in ignores) |
| |
| def _call_impl(self, hint, exp): |
| """This implements the bulk of what happens when you run `check(exp)`. It |
| will crawl back up the stack and extract information about all of the frames |
| which are relevent to the check, including file:lineno and the code |
| statement which occurs at that location for all the frames. |
| |
| On the last frame (the one that actually contains the check call), it will |
| also try to obtain relevant local values in the check so they can be printed |
| with the check to aid in debugging and diagnosis. It uses the parsed |
| statement found at that line to find all referenced local variables in that |
| frame. |
| """ |
| |
| if exp: |
| # TODO(iannucci): collect this in verbose mode. |
| # this check passed |
| return |
| |
| # Grab all frames between (non-inclusive) the creation of the checker and |
| # self.__call__ |
| try: |
| # Skip over the __call__ and _call_impl frames and order it so that |
| # innermost frame is at the bottom |
| frames = inspect.stack()[2:][::-1] |
| |
| try: |
| for i, f in enumerate(frames): |
| # The first frame that has self in the local variables is the one |
| # where the checker is created |
| if self in f[0].f_locals.itervalues(): |
| break |
| frames = frames[i+1:] |
| |
| finally: |
| del f |
| |
| self.failed_checks.append(Check.create( |
| hint, |
| self._hook_context, |
| frames, |
| False, |
| self._ignore_set, |
| )) |
| finally: |
| # avoid reference cycle as suggested by inspect docs. |
| del frames |
| |
| def __call__(self, arg1, arg2=None): |
| if arg2 is not None: |
| hint = arg1 |
| exp = arg2 |
| else: |
| hint = None |
| exp = arg1 |
| self._call_impl(hint, exp) |
| return bool(exp) |
| |
| |
| class CheckException(Exception): |
| """An exception that can be raised to signal an implicit check failure. |
| |
| This exception type is used to implement implicit checks such as the one |
| performed by StepsDict. In the case of an implict check failure, it's not |
| generally feasible to continue execution of the post process function. This |
| exception allows for halting execution of the post process function in a way |
| that the engine can recognize as safe to continue with further checks. |
| """ |
| pass |
| |
| |
| class StepsDict(OrderedDict): |
| """The dictionary of steps to be used in post_process functions. |
| |
| StepsDict acts just like an OrderedDict, mapping the step name to the step |
| details for the step, with the exception that indexing with a missing key does |
| not raise a KeyError. Instead StepsDict does an implicit check to make sure |
| that the step is in the dictionary. If the check fails, the execution of the |
| post process function is halted, a check failure will be recorded and the |
| engine will continue execution as though the post process function returned |
| None. |
| """ |
| def __init__(self, checker, *args, **kwargs): |
| super(StepsDict, self).__init__(*args, **kwargs) |
| assert isinstance(checker, Checker) |
| checker._ignore(self) |
| self._checker = checker |
| |
| def __getitem__(self, step): |
| # Store this to a local variable so that the variable expansion in the check |
| # failure backtrace includes only the important details |
| check = self._checker |
| steps_dict = self |
| # Store the result into a variable rather than directly using if check(...) |
| # because compound statements (if) don't get nicely displayed in the check |
| # failure backtrace |
| step_present = check(step in steps_dict) |
| if not step_present: |
| raise CheckException() |
| return super(StepsDict, self).__getitem__(step) |
| |
| |
| MISSING = object() |
| |
| |
| def VerifySubset(a, b): |
| """Verify subset verifies that `a` is a subset of `b` where a and b are both |
| JSON-ish types. They are also permitted to be OrderedDicts instead of |
| dictionaries. |
| |
| This verifies that a introduces no extra dictionary keys, list elements, etc. |
| and also ensures that the order of entries in an ordered type (such as a list |
| or an OrderedDict) remain the same from a to b. This also verifies that types |
| are consistent between a and b. |
| |
| As a special case, empty and single-element dictionaries are considered |
| subsets of an OrderedDict, even though their types don't precisely match. |
| |
| If a is a valid subset of b, this returns None. Otherwise this returns |
| a descriptive message of what went wrong. |
| |
| Example: |
| print 'object'+VerifySubset({'a': 'thing'}, {'b': 'other', 'a': 'prime'}) |
| |
| OUTPUT: |
| object['a']: 'thing' != 'prime' |
| """ |
| if a is b: |
| return |
| |
| if isinstance(b, OrderedDict) and isinstance(a, dict): |
| # 0 and 1-element dicts can stand in for OrderedDicts. |
| if len(a) == 0: |
| return |
| elif len(a) == 1: |
| a = OrderedDict([next(a.iteritems())]) |
| |
| # One or both may be a StepsDict, which is just OrderedDict with custom |
| # __getitem__, so don't require an exact type match |
| if isinstance(a, OrderedDict) and isinstance(b, OrderedDict): |
| pass |
| elif type(a) != type(b): |
| return ': type mismatch: %r v %r' % (type(a).__name__, type(b).__name__) |
| |
| if isinstance(a, OrderedDict): |
| last_idx = 0 |
| b_reverse_index = {k: (i, v) for i, (k, v) in enumerate(b.iteritems())} |
| for k, v in a.iteritems(): |
| j, b_val = b_reverse_index.get(k, (MISSING, MISSING)) |
| if j is MISSING: |
| return ': added key %r' % k |
| |
| if j < last_idx: |
| return ': key %r is out of order' % k |
| # j == last_idx is not possible, these are OrderedDicts |
| last_idx = j |
| |
| msg = VerifySubset(v, b_val) |
| if msg: |
| return '[%r]%s' % (k, msg) |
| |
| elif isinstance(a, (dict, FrozenDict)): |
| for k, v in a.iteritems(): |
| b_val = b.get(k, MISSING) |
| if b_val is MISSING: |
| return ': added key %r' % k |
| |
| msg = VerifySubset(v, b_val) |
| if msg: |
| return '[%r]%s' % (k, msg) |
| |
| elif isinstance(a, list): |
| if len(a) > len(b): |
| return ': too long: %d v %d' % (len(a), len(b)) |
| |
| if not (a or b): |
| return |
| |
| bi = ai = 0 |
| while bi < len(b) - 1 and ai < len(a) - 1: |
| msg = VerifySubset(a[ai], b[bi]) |
| if msg is None: |
| ai += 1 |
| bi += 1 |
| if ai != len(a) - 1: |
| return ': added %d elements' % (len(a)-1-ai) |
| |
| elif isinstance(a, (basestring, int, bool, type(None))): |
| if a != b: |
| return ': %r != %r' % (a, b) |
| |
| else: |
| return ': unknown type: %r' % (type(a).__name__) |
| |
| |
| class PostProcessError(ValueError): |
| """Exception raised when any of the post-process hooks fails.""" |
| pass |
| |
| |
| def post_process(raw_expectations, test_data): |
| """Run post processing hooks against the expectations generated by a test. |
| |
| Args: |
| raw_expectations - A dictionary mapping the name of a step to a dictionary |
| containing the details of that step. |
| test_data - The TestData object for the current test, containing the post |
| process hooks to run. |
| |
| Returns: |
| A tuple containing 2 items: the resultant raw expectations and a list of |
| check failures. The raw expectations will be in the same format as the |
| raw_expectations argument or None if expectations should not be written out. |
| The failures will be a list of Check objects describing the check failures |
| encountered by the post processing hooks. |
| """ |
| failed_checks = [] |
| for hook, args, kwargs, context in test_data.post_process_hooks: |
| # The checker MUST be saved to a local variable in order for it to be able |
| # to correctly detect the frames to keep when creating a failure backtrace |
| check = Checker(context) |
| steps = StepsDict(check, copy.deepcopy(raw_expectations)) |
| try: |
| rslt = hook(check, steps, *args, **kwargs) |
| except CheckException: |
| rslt = None |
| |
| failed_checks += check.failed_checks |
| if rslt is not None: |
| msg = VerifySubset(rslt, raw_expectations) |
| if msg: |
| raise PostProcessError('post process: steps' + msg) |
| # restore 'name' if it was removed |
| for k, v in rslt.iteritems(): |
| v['name'] = k |
| # Convert to a bare OrderedDict to avoid copy issues |
| if isinstance(rslt, StepsDict): |
| rslt = OrderedDict(rslt) |
| raw_expectations = rslt |
| |
| # Empty means drop expectations |
| result_data = raw_expectations.values() if raw_expectations else None |
| return result_data, failed_checks |