fish-shell/build_tools/littlecheck.py
David Adam 5911fc94b8 littlecheck: pass close_fds to subprocess.Popen
Closes #6435.

close_fds=True is actually the default in Python 2.7 and 3.2, but not in
ancient (but still in production in Red Hat Enterprise Linux 6) Python
2.6. Enable it there as well.
2019-12-15 21:48:55 +08:00

431 lines
14 KiB
Python
Executable file

#!/usr/bin/env python
""" Command line test driver. """
from __future__ import unicode_literals
import argparse
import io
import re
import shlex
import subprocess
import sys
# A regex showing how to run the file.
RUN_RE = re.compile(r"\s*#\s*RUN:\s+(.*)\n")
# A regex capturing lines that should be checked against stdout.
CHECK_STDOUT_RE = re.compile(r"\s*#\s*CHECK:\s+(.*)\n")
# A regex capturing lines that should be checked against stderr.
CHECK_STDERR_RE = re.compile(r"\s*#\s*CHECKERR:\s+(.*)\n")
class Config(object):
def __init__(self):
# Whether to have verbose output.
self.verbose = False
# Whether output gets ANSI colorization.
self.colorize = False
def colors(self):
""" Return a dictionary mapping color names to ANSI escapes """
def ansic(n):
return "\033[%dm" % n if self.colorize else ""
return {
"RESET": ansic(0),
"BOLD": ansic(1),
"NORMAL": ansic(39),
"BLACK": ansic(30),
"RED": ansic(31),
"GREEN": ansic(32),
"YELLOW": ansic(33),
"BLUE": ansic(34),
"MAGENTA": ansic(35),
"CYAN": ansic(36),
"LIGHTGRAY": ansic(37),
"DARKGRAY": ansic(90),
"LIGHTRED": ansic(91),
"LIGHTGREEN": ansic(92),
"LIGHTYELLOW": ansic(93),
"LIGHTBLUE": ansic(94),
"LIGHTMAGENTA": ansic(95),
"LIGHTCYAN": ansic(96),
"WHITE": ansic(97),
}
def output(*args):
print("".join(args) + "\n")
class CheckerError(Exception):
"""Exception subclass for check line parsing.
Attributes:
line: the Line object on which the exception occurred.
"""
def __init__(self, message, line=None):
super(CheckerError, self).__init__(message)
self.line = line
class Line(object):
""" A line that remembers where it came from. """
def __init__(self, text, number, file):
self.text = text
self.number = number
self.file = file
def subline(self, text):
""" Return a substring of our line with the given text, preserving number and file. """
return Line(text, self.number, self.file)
@staticmethod
def readfile(file, name):
return [Line(text, idx + 1, name) for idx, text in enumerate(file)]
def is_empty_space(self):
return not self.text or self.text.isspace()
class RunCmd(object):
""" A command to run on a given Checker.
Attributes:
args: Unexpanded shell command as a string.
"""
def __init__(self, args, line):
self.args = args
self.line = line
@staticmethod
def parse(line):
if not shlex.split(line.text):
raise CheckerError("Invalid RUN command", line)
return RunCmd(line.text, line)
class TestFailure(object):
def __init__(self, line, check, testrun):
self.line = line
self.check = check
self.testrun = testrun
self.error_annotation_line = None
def message(self):
fields = self.testrun.config.colors()
fields["name"] = self.testrun.name
fields["subbed_command"] = self.testrun.subbed_command
if self.line:
fields.update(
{
"output_file": self.line.file,
"output_lineno": self.line.number,
"output_line": self.line.text.rstrip("\n"),
}
)
if self.check:
fields.update(
{
"input_file": self.check.line.file,
"input_lineno": self.check.line.number,
"input_line": self.check.line.text,
"check_type": self.check.type,
}
)
fmtstrs = ["{RED}Failure{RESET} in {name}:", ""]
if self.line and self.check:
fmtstrs += [
" The {check_type} on line {input_lineno} wants:",
" {BOLD}{input_line}{RESET}",
"",
" which failed to match line {output_file}:{output_lineno}:",
" {BOLD}{output_line}{RESET}",
"",
]
elif self.check:
fmtstrs += [
" The {check_type} on line {input_lineno} wants:",
" {BOLD}{input_line}{RESET}",
"",
" but there was no remaining output to match.",
"",
]
else:
fmtstrs += [
" There were no remaining checks left to match {output_file}:{output_lineno}:",
" {BOLD}{output_line}{RESET}",
"",
]
if self.error_annotation_line:
fields["error_annotation"] = self.error_annotation_line.text
fields["error_annotation_lineno"] = self.error_annotation_line.number
fmtstrs += [
" additional output on stderr:{error_annotation_lineno}:",
" {BOLD}{error_annotation}{RESET}",
]
fmtstrs += [" when running command:", " {subbed_command}"]
return "\n".join(fmtstrs).format(**fields)
def print_message(self):
""" Print our message to stdout. """
print(self.message())
def perform_substitution(input_str, subs):
""" Perform the substitutions described by subs to str
Return the substituted string.
"""
# Sort our substitutions into a list of tuples (key, value), descending by length.
# It needs to be descending because we need to try longer substitutions first.
subs_ordered = sorted(subs.items(), key=lambda s: len(s[0]), reverse=True)
def subber(m):
# We get the entire sequence of characters.
# Replace just the prefix and return it.
text = m.group(1)
for key, replacement in subs_ordered:
if text.startswith(key):
return replacement + text[len(key) :]
raise CheckerError("Unknown substitution: " + m.group(0))
return re.sub(r"%(%|[a-zA-Z0-9_-]+)", subber, input_str)
class TestRun(object):
def __init__(self, name, runcmd, checker, subs, config):
self.name = name
self.runcmd = runcmd
self.subbed_command = perform_substitution(runcmd.args, subs)
self.checker = checker
self.subs = subs
self.config = config
def check(self, lines, checks):
# Reverse our lines and checks so we can pop off the end.
lineq = lines[::-1]
checkq = checks[::-1]
while lineq and checkq:
line = lineq[-1]
check = checkq[-1]
if check.regex.match(line.text):
# This line matched this checker, continue on.
lineq.pop()
checkq.pop()
elif line.is_empty_space():
# Skip all whitespace input lines.
lineq.pop()
else:
# Failed to match.
return TestFailure(line, check, self)
# Drain empties.
while lineq and lineq[-1].is_empty_space():
lineq.pop()
# If there's still lines or checkers, we have a failure.
# Otherwise it's success.
if lineq:
return TestFailure(lineq[-1], None, self)
elif checkq:
return TestFailure(None, checkq[-1], self)
else:
return None
def run(self):
""" Run the command. Return a TestFailure, or None. """
def split_by_newlines(s):
""" Decode a string and split it by newlines only,
retaining the newlines.
"""
return [s + "\n" for s in s.decode("utf-8").split("\n")]
PIPE = subprocess.PIPE
if self.config.verbose:
print(self.subbed_command)
proc = subprocess.Popen(
self.subbed_command,
stdin=PIPE,
stdout=PIPE,
stderr=PIPE,
shell=True,
close_fds=True, # For Python 2.6 as shipped on RHEL 6
)
stdout, stderr = proc.communicate()
outlines = [
Line(text, idx + 1, "stdout")
for idx, text in enumerate(split_by_newlines(stdout))
]
errlines = [
Line(text, idx + 1, "stderr")
for idx, text in enumerate(split_by_newlines(stderr))
]
outfail = self.check(outlines, self.checker.outchecks)
errfail = self.check(errlines, self.checker.errchecks)
# It's possible that something going wrong on stdout resulted in new
# text being printed on stderr. If we have an outfailure, and either
# non-matching or unmatched stderr text, then annotate the outfail
# with it.
if outfail and errfail and errfail.line:
outfail.error_annotation_line = errfail.line
return outfail if outfail else errfail
class CheckCmd(object):
def __init__(self, line, checktype, regex):
self.line = line
self.type = checktype
self.regex = regex
@staticmethod
def parse(line, checktype):
# type: (Line) -> CheckCmd
# Everything inside {{}} is a regular expression.
# Everything outside of it is a literal string.
# Split around {{...}}. Then every odd index will be a regex, and
# evens will be literals.
# Note that if {{...}} appears first we will get an empty string in
# the split array, so the {{...}} matches are always at odd indexes.
bracket_re = re.compile(
r"""
\{\{ # Two open brackets
(.*?) # Nongreedy capture
\}\} # Two close brackets
""",
re.VERBOSE,
)
pieces = bracket_re.split(line.text)
even = True
re_strings = []
for piece in pieces:
if even:
# piece is a literal string.
re_strings.append(re.escape(piece))
else:
# piece is a regex (found inside {{...}}).
# Verify the regex can be compiled.
try:
re.compile(piece)
except re.error:
raise CheckerError("Invalid regular expression: '%s'" % piece, line)
re_strings.append(piece)
even = not even
# Enclose each piece in a non-capturing group.
# This ensures that lower-precedence operators don't trip up catenation.
# For example: {{b|c}}d would result in /b|cd/ which is different.
# Backreferences are assumed to match across the entire string.
re_strings = ["(?:%s)" % s for s in re_strings]
# Anchor at beginning and end (allowing arbitrary whitespace), and maybe
# a terminating newline.
# We need the anchors because Python's match() matches an arbitrary prefix,
# not the entire string.
re_strings = [r"^\s*"] + re_strings + [r"\s*\n?$"]
full_re = re.compile("".join(re_strings))
return CheckCmd(line, checktype, full_re)
class Checker(object):
def __init__(self, name, lines):
self.name = name
# Helper to yield subline containing group1 from all matching lines.
def group1s(regex):
for line in lines:
m = regex.match(line.text)
if m:
yield line.subline(m.group(1))
# Find run commands.
self.runcmds = [RunCmd.parse(sl) for sl in group1s(RUN_RE)]
if not self.runcmds:
raise CheckerError("No runlines ('# RUN') found")
# Find check cmds.
self.outchecks = [
CheckCmd.parse(sl, "CHECK") for sl in group1s(CHECK_STDOUT_RE)
]
self.errchecks = [
CheckCmd.parse(sl, "CHECKERR") for sl in group1s(CHECK_STDERR_RE)
]
def check_file(input_file, name, subs, config, failure_handler):
""" Check a single file. Return a True on success, False on error. """
success = True
lines = Line.readfile(input_file, name)
checker = Checker(name, lines)
for runcmd in checker.runcmds:
failure = TestRun(name, runcmd, checker, subs, config).run()
if failure:
failure_handler(failure)
success = False
return success
def check_path(path, subs, config, failure_handler):
with io.open(path, encoding="utf-8") as fd:
return check_file(fd, path, subs, config, failure_handler)
def parse_subs(subs):
""" Given a list of input substitutions like 'foo=bar',
return a dictionary like {foo:bar}, or exit if invalid.
"""
result = {}
for sub in subs:
try:
key, val = sub.split("=", 1)
if not key:
print("Invalid substitution %s: empty key" % sub)
sys.exit(1)
if not val:
print("Invalid substitution %s: empty value" % sub)
sys.exit(1)
result[key] = val
except ValueError:
print("Invalid substitution %s: equal sign not found" % sub)
sys.exit(1)
return result
def get_argparse():
""" Return a littlecheck argument parser. """
parser = argparse.ArgumentParser(
description="littlecheck: command line tool tester."
)
parser.add_argument(
"-s",
"--substitute",
type=str,
help="Add a new substitution for RUN lines. Example: bash=/bin/bash",
action="append",
default=[],
)
parser.add_argument("file", nargs="+", help="File to check")
return parser
def main():
args = get_argparse().parse_args()
# Default substitution is %% -> %
def_subs = {"%": "%"}
def_subs.update(parse_subs(args.substitute))
success = True
config = Config()
config.colorize = sys.stdout.isatty()
for path in args.file:
subs = def_subs.copy()
subs["s"] = path
if not check_path(path, subs, config, TestFailure.print_message):
success = False
sys.exit(0 if success else 1)
if __name__ == "__main__":
main()