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# Licensed under the Apache License: http://www.apache.org/licenses/LICENSE-2.0 # For details: https://github.com/nedbat/coveragepy/blob/master/NOTICE.txt """Control of and utilities for debugging.""" from __future__ import annotations import contextlib import functools import inspect import io import itertools import os import pprint import re import reprlib import sys import types import _thread from typing import ( cast, Any, Callable, IO, Iterable, Iterator, Mapping, Optional, List, Tuple, ) from coverage.misc import human_sorted_items, isolate_module from coverage.types import TWritable os = isolate_module(os) # When debugging, it can be helpful to force some options, especially when # debugging the configuration mechanisms you usually use to control debugging! # This is a list of forced debugging options. FORCED_DEBUG: List[str] = [] FORCED_DEBUG_FILE = None class DebugControl: """Control and output for debugging.""" show_repr_attr = False # For AutoReprMixin def __init__( self, options: Iterable[str], output: Optional[IO[str]], file_name: Optional[str] = None, ) -> None: """Configure the options and output file for debugging.""" self.options = list(options) + FORCED_DEBUG self.suppress_callers = False filters = [] if self.should("pid"): filters.append(add_pid_and_tid) self.output = DebugOutputFile.get_one( output, file_name=file_name, show_process=self.should("process"), filters=filters, ) self.raw_output = self.output.outfile def __repr__(self) -> str: return f"<DebugControl options={self.options!r} raw_output={self.raw_output!r}>" def should(self, option: str) -> bool: """Decide whether to output debug information in category `option`.""" if option == "callers" and self.suppress_callers: return False return (option in self.options) @contextlib.contextmanager def without_callers(self) -> Iterator[None]: """A context manager to prevent call stacks from being logged.""" old = self.suppress_callers self.suppress_callers = True try: yield finally: self.suppress_callers = old def write(self, msg: str) -> None: """Write a line of debug output. `msg` is the line to write. A newline will be appended. """ self.output.write(msg+"\n") if self.should("self"): caller_self = inspect.stack()[1][0].f_locals.get("self") if caller_self is not None: self.output.write(f"self: {caller_self!r}\n") if self.should("callers"): dump_stack_frames(out=self.output, skip=1) self.output.flush() class DebugControlString(DebugControl): """A `DebugControl` that writes to a StringIO, for testing.""" def __init__(self, options: Iterable[str]) -> None: super().__init__(options, io.StringIO()) def get_output(self) -> str: """Get the output text from the `DebugControl`.""" return cast(str, self.raw_output.getvalue()) # type: ignore class NoDebugging(DebugControl): """A replacement for DebugControl that will never try to do anything.""" def __init__(self) -> None: # pylint: disable=super-init-not-called ... def should(self, option: str) -> bool: """Should we write debug messages? Never.""" return False def write(self, msg: str) -> None: """This will never be called.""" raise AssertionError("NoDebugging.write should never be called.") def info_header(label: str) -> str: """Make a nice header string.""" return "--{:-<60s}".format(" "+label+" ") def info_formatter(info: Iterable[Tuple[str, Any]]) -> Iterator[str]: """Produce a sequence of formatted lines from info. `info` is a sequence of pairs (label, data). The produced lines are nicely formatted, ready to print. """ info = list(info) if not info: return label_len = 30 assert all(len(l) < label_len for l, _ in info) for label, data in info: if data == []: data = "-none-" if isinstance(data, tuple) and len(repr(tuple(data))) < 30: # Convert to tuple to scrub namedtuples. yield "%*s: %r" % (label_len, label, tuple(data)) elif isinstance(data, (list, set, tuple)): prefix = "%*s:" % (label_len, label) for e in data: yield "%*s %s" % (label_len+1, prefix, e) prefix = "" else: yield "%*s: %s" % (label_len, label, data) def write_formatted_info( write: Callable[[str], None], header: str, info: Iterable[Tuple[str, Any]], ) -> None: """Write a sequence of (label,data) pairs nicely. `write` is a function write(str) that accepts each line of output. `header` is a string to start the section. `info` is a sequence of (label, data) pairs, where label is a str, and data can be a single value, or a list/set/tuple. """ write(info_header(header)) for line in info_formatter(info): write(f" {line}") def short_stack(limit: Optional[int] = None, skip: int = 0) -> str: """Return a string summarizing the call stack. The string is multi-line, with one line per stack frame. Each line shows the function name, the file name, and the line number: ... start_import_stop : /Users/ned/coverage/trunk/tests/coveragetest.py @95 import_local_file : /Users/ned/coverage/trunk/tests/coveragetest.py @81 import_local_file : /Users/ned/coverage/trunk/coverage/backward.py @159 ... `limit` is the number of frames to include, defaulting to all of them. `skip` is the number of frames to skip, so that debugging functions can call this and not be included in the result. """ stack = inspect.stack()[limit:skip:-1] return "\n".join("%30s : %s:%d" % (t[3], t[1], t[2]) for t in stack) def dump_stack_frames( limit: Optional[int] = None, out: Optional[TWritable] = None, skip: int = 0 ) -> None: """Print a summary of the stack to stdout, or someplace else.""" fout = out or sys.stdout fout.write(short_stack(limit=limit, skip=skip+1)) fout.write("\n") def clipped_repr(text: str, numchars: int = 50) -> str: """`repr(text)`, but limited to `numchars`.""" r = reprlib.Repr() r.maxstring = numchars return r.repr(text) def short_id(id64: int) -> int: """Given a 64-bit id, make a shorter 16-bit one.""" id16 = 0 for offset in range(0, 64, 16): id16 ^= id64 >> offset return id16 & 0xFFFF def add_pid_and_tid(text: str) -> str: """A filter to add pid and tid to debug messages.""" # Thread ids are useful, but too long. Make a shorter one. tid = f"{short_id(_thread.get_ident()):04x}" text = f"{os.getpid():5d}.{tid}: {text}" return text class AutoReprMixin: """A mixin implementing an automatic __repr__ for debugging.""" auto_repr_ignore = ["auto_repr_ignore", "$coverage.object_id"] def __repr__(self) -> str: show_attrs = ( (k, v) for k, v in self.__dict__.items() if getattr(v, "show_repr_attr", True) and not callable(v) and k not in self.auto_repr_ignore ) return "<{klass} @0x{id:x} {attrs}>".format( klass=self.__class__.__name__, id=id(self), attrs=" ".join(f"{k}={v!r}" for k, v in show_attrs), ) def simplify(v: Any) -> Any: # pragma: debugging """Turn things which are nearly dict/list/etc into dict/list/etc.""" if isinstance(v, dict): return {k:simplify(vv) for k, vv in v.items()} elif isinstance(v, (list, tuple)): return type(v)(simplify(vv) for vv in v) elif hasattr(v, "__dict__"): return simplify({"."+k: v for k, v in v.__dict__.items()}) else: return v def pp(v: Any) -> None: # pragma: debugging """Debug helper to pretty-print data, including SimpleNamespace objects.""" # Might not be needed in 3.9+ pprint.pprint(simplify(v)) def filter_text(text: str, filters: Iterable[Callable[[str], str]]) -> str: """Run `text` through a series of filters. `filters` is a list of functions. Each takes a string and returns a string. Each is run in turn. Returns: the final string that results after all of the filters have run. """ clean_text = text.rstrip() ending = text[len(clean_text):] text = clean_text for fn in filters: lines = [] for line in text.splitlines(): lines.extend(fn(line).splitlines()) text = "\n".join(lines) return text + ending class CwdTracker: """A class to add cwd info to debug messages.""" def __init__(self) -> None: self.cwd: Optional[str] = None def filter(self, text: str) -> str: """Add a cwd message for each new cwd.""" cwd = os.getcwd() if cwd != self.cwd: text = f"cwd is now {cwd!r}\n" + text self.cwd = cwd return text class DebugOutputFile: """A file-like object that includes pid and cwd information.""" def __init__( self, outfile: Optional[IO[str]], show_process: bool, filters: Iterable[Callable[[str], str]], ): self.outfile = outfile self.show_process = show_process self.filters = list(filters) if self.show_process: self.filters.insert(0, CwdTracker().filter) self.write(f"New process: executable: {sys.executable!r}\n") self.write("New process: cmd: {!r}\n".format(getattr(sys, "argv", None))) if hasattr(os, "getppid"): self.write(f"New process: pid: {os.getpid()!r}, parent pid: {os.getppid()!r}\n") @classmethod def get_one( cls, fileobj: Optional[IO[str]] = None, file_name: Optional[str] = None, show_process: bool = True, filters: Iterable[Callable[[str], str]] = (), interim: bool = False, ) -> DebugOutputFile: """Get a DebugOutputFile. If `fileobj` is provided, then a new DebugOutputFile is made with it. If `fileobj` isn't provided, then a file is chosen (`file_name` if provided, or COVERAGE_DEBUG_FILE, or stderr), and a process-wide singleton DebugOutputFile is made. `show_process` controls whether the debug file adds process-level information, and filters is a list of other message filters to apply. `filters` are the text filters to apply to the stream to annotate with pids, etc. If `interim` is true, then a future `get_one` can replace this one. """ if fileobj is not None: # Make DebugOutputFile around the fileobj passed. return cls(fileobj, show_process, filters) the_one, is_interim = cls._get_singleton_data() if the_one is None or is_interim: if file_name is not None: fileobj = open(file_name, "a", encoding="utf-8") else: file_name = os.environ.get("COVERAGE_DEBUG_FILE", FORCED_DEBUG_FILE) if file_name in ("stdout", "stderr"): fileobj = getattr(sys, file_name) elif file_name: fileobj = open(file_name, "a", encoding="utf-8") else: fileobj = sys.stderr the_one = cls(fileobj, show_process, filters) cls._set_singleton_data(the_one, interim) return the_one # Because of the way igor.py deletes and re-imports modules, # this class can be defined more than once. But we really want # a process-wide singleton. So stash it in sys.modules instead of # on a class attribute. Yes, this is aggressively gross. SYS_MOD_NAME = "$coverage.debug.DebugOutputFile.the_one" SINGLETON_ATTR = "the_one_and_is_interim" @classmethod def _set_singleton_data(cls, the_one: DebugOutputFile, interim: bool) -> None: """Set the one DebugOutputFile to rule them all.""" singleton_module = types.ModuleType(cls.SYS_MOD_NAME) setattr(singleton_module, cls.SINGLETON_ATTR, (the_one, interim)) sys.modules[cls.SYS_MOD_NAME] = singleton_module @classmethod def _get_singleton_data(cls) -> Tuple[Optional[DebugOutputFile], bool]: """Get the one DebugOutputFile.""" singleton_module = sys.modules.get(cls.SYS_MOD_NAME) return getattr(singleton_module, cls.SINGLETON_ATTR, (None, True)) @classmethod def _del_singleton_data(cls) -> None: """Delete the one DebugOutputFile, just for tests to use.""" if cls.SYS_MOD_NAME in sys.modules: del sys.modules[cls.SYS_MOD_NAME] def write(self, text: str) -> None: """Just like file.write, but filter through all our filters.""" assert self.outfile is not None self.outfile.write(filter_text(text, self.filters)) self.outfile.flush() def flush(self) -> None: """Flush our file.""" assert self.outfile is not None self.outfile.flush() def log(msg: str, stack: bool = False) -> None: # pragma: debugging """Write a log message as forcefully as possible.""" out = DebugOutputFile.get_one(interim=True) out.write(msg+"\n") if stack: dump_stack_frames(out=out, skip=1) def decorate_methods( decorator: Callable[..., Any], butnot: Iterable[str] = (), private: bool = False, ) -> Callable[..., Any]: # pragma: debugging """A class decorator to apply a decorator to methods.""" def _decorator(cls): # type: ignore for name, meth in inspect.getmembers(cls, inspect.isroutine): if name not in cls.__dict__: continue if name != "__init__": if not private and name.startswith("_"): continue if name in butnot: continue setattr(cls, name, decorator(meth)) return cls return _decorator def break_in_pudb(func: Callable[..., Any]) -> Callable[..., Any]: # pragma: debugging """A function decorator to stop in the debugger for each call.""" @functools.wraps(func) def _wrapper(*args: Any, **kwargs: Any) -> Any: import pudb sys.stdout = sys.__stdout__ pudb.set_trace() return func(*args, **kwargs) return _wrapper OBJ_IDS = itertools.count() CALLS = itertools.count() OBJ_ID_ATTR = "$coverage.object_id" def show_calls( show_args: bool = True, show_stack: bool = False, show_return: bool = False, ) -> Callable[..., Any]: # pragma: debugging """A method decorator to debug-log each call to the function.""" def _decorator(func: Callable[..., Any]) -> Callable[..., Any]: @functools.wraps(func) def _wrapper(self: Any, *args: Any, **kwargs: Any) -> Any: oid = getattr(self, OBJ_ID_ATTR, None) if oid is None: oid = f"{os.getpid():08d} {next(OBJ_IDS):04d}" setattr(self, OBJ_ID_ATTR, oid) extra = "" if show_args: eargs = ", ".join(map(repr, args)) ekwargs = ", ".join("{}={!r}".format(*item) for item in kwargs.items()) extra += "(" extra += eargs if eargs and ekwargs: extra += ", " extra += ekwargs extra += ")" if show_stack: extra += " @ " extra += "; ".join(_clean_stack_line(l) for l in short_stack().splitlines()) callid = next(CALLS) msg = f"{oid} {callid:04d} {func.__name__}{extra}\n" DebugOutputFile.get_one(interim=True).write(msg) ret = func(self, *args, **kwargs) if show_return: msg = f"{oid} {callid:04d} {func.__name__} return {ret!r}\n" DebugOutputFile.get_one(interim=True).write(msg) return ret return _wrapper return _decorator def _clean_stack_line(s: str) -> str: # pragma: debugging """Simplify some paths in a stack trace, for compactness.""" s = s.strip() s = s.replace(os.path.dirname(__file__) + "/", "") s = s.replace(os.path.dirname(os.__file__) + "/", "") s = s.replace(sys.prefix + "/", "") return s def relevant_environment_display(env: Mapping[str, str]) -> List[Tuple[str, str]]: """Filter environment variables for a debug display. Select variables to display (with COV or PY in the name, or HOME, TEMP, or TMP), and also cloak sensitive values with asterisks. Arguments: env: a dict of environment variable names and values. Returns: A list of pairs (name, value) to show. """ slugs = {"COV", "PY"} include = {"HOME", "TEMP", "TMP"} cloak = {"API", "TOKEN", "KEY", "SECRET", "PASS", "SIGNATURE"} to_show = [] for name, val in env.items(): keep = False if name in include: keep = True elif any(slug in name for slug in slugs): keep = True if keep: if any(slug in name for slug in cloak): val = re.sub(r"\w", "*", val) to_show.append((name, val)) return human_sorted_items(to_show)