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mongodb/buildscripts/errorcodes.py

269 lines
7.9 KiB
Python
Executable File

#!/usr/bin/env python
"""Produces a report of all assertions in the MongoDB server codebase.
Parses .cpp files for assertions and verifies assertion codes are distinct.
Optionally replaces zero codes in source code with new distinct values.
"""
import bisect
import os
import re
import sys
import utils
from collections import defaultdict, namedtuple
from optparse import OptionParser
ASSERT_NAMES = [ "uassert" , "massert", "fassert", "fassertFailed" ]
MINIMUM_CODE = 10000
codes = []
# Each AssertLocation identifies the C++ source location of an assertion
AssertLocation = namedtuple( "AssertLocation", ['sourceFile', 'lineNum', 'lines', 'code'] )
# Of historical interest only
def assignErrorCodes():
cur = MINIMUM_CODE
for root in ASSERT_NAMES:
for x in utils.getAllSourceFiles():
print( x )
didAnything = False
fixed = ""
for line in open( x ):
s = line.partition( root + "(" )
if s[1] == "" or line.startswith( "#define " + root):
fixed += line
continue
fixed += s[0] + root + "( " + str( cur ) + " , " + s[2]
cur = cur + 1
didAnything = True
if didAnything:
out = open( x , 'w' )
out.write( fixed )
out.close()
def parseSourceFiles( callback ):
"""Walks MongoDB sourcefiles and invokes callback for each AssertLocation found."""
quick = [ "assert" , "Exception"]
patterns = [
re.compile( r"(?:u|m(?:sg)?)asser(?:t|ted)(?:NoTrace)?\s*\(\s*(\d+)", re.MULTILINE ) ,
re.compile( r"(?:User|Msg|MsgAssertion)Exception\s*\(\s*(\d+)", re.MULTILINE ),
re.compile( r"fassert(?:Failed)?(?:WithStatus)?(?:NoTrace)?(?:StatusOK)?\s*\(\s*(\d+)",
re.MULTILINE ),
]
bad = [ re.compile( r"^\s*assert *\(" ) ]
for sourceFile in utils.getAllSourceFiles():
if not sourceFile.find( "src/mongo/" ) >= 0:
# Skip generated sources
continue
with open(sourceFile) as f:
text = f.read()
if not any([zz in text for zz in quick]):
continue
# TODO: move check for bad assert type to the linter.
for b in bad:
if b.search(text):
msg = "Bare assert prohibited. Replace with [umwdf]assert"
print( "%s: %s" % (sourceFile, msg) )
raise Exception(msg)
splitlines = text.splitlines(True)
line_offsets = [0]
for line in splitlines:
line_offsets.append(line_offsets[-1] + len(line))
matchiters = [p.finditer(text) for p in patterns]
for matchiter in matchiters:
for match in matchiter:
code = match.group(1)
span = match.span()
thisLoc = AssertLocation(sourceFile,
getLineForPosition(line_offsets, span[1]),
text[span[0]:span[1]],
code)
callback( thisLoc )
# Converts an absolute position in a file into a line number.
def getLineForPosition(line_offsets, position):
return bisect.bisect(line_offsets, position)
def isTerminated( lines ):
"""Given .cpp/.h source lines as text, determine if assert is terminated."""
x = " ".join(lines)
return ';' in x \
or x.count('(') - x.count(')') <= 0
def getNextCode():
"""Finds next unused assertion code.
Called by: SConstruct and main()
Since SConstruct calls us, codes[] must be global OR WE REPARSE EVERYTHING
"""
if not len(codes) > 0:
readErrorCodes()
highest = reduce( lambda x, y: max(int(x), int(y)),
(loc.code for loc in codes) )
return highest + 1
def checkErrorCodes():
"""SConstruct expects a boolean response from this function.
"""
(codes, errors) = readErrorCodes()
return len( errors ) == 0
def readErrorCodes():
"""Defines callback, calls parseSourceFiles() with callback,
and saves matches to global codes list.
"""
seen = {}
errors = []
dups = defaultdict(list)
# define callback
def checkDups( assertLoc ):
codes.append( assertLoc )
code = assertLoc.code
if not code in seen:
seen[code] = assertLoc
else:
if not code in dups:
# on first duplicate, add original to dups, errors
dups[code].append( seen[code] )
errors.append( seen[code] )
dups[code].append( assertLoc )
errors.append( assertLoc )
parseSourceFiles( checkDups )
if seen.has_key("0"):
code = "0"
bad = seen[code]
errors.append( bad )
print( "ZERO_CODE:" )
print( " %s:%d:%s" % (bad.sourceFile, bad.lineNum, bad.lines) )
for code, locations in dups.items():
print( "DUPLICATE IDS: %s" % code )
for loc in locations:
print( " %s:%d:%s" % (loc.sourceFile, loc.lineNum, loc.lines) )
return (codes, errors)
def replaceBadCodes( errors, nextCode ):
"""Modifies C++ source files to replace invalid assertion codes.
For now, we only modify zero codes.
Args:
errors: list of AssertLocation
nextCode: int, next non-conflicting assertion code
"""
zero_errors = [e for e in errors if int(e.code) == 0]
skip_errors = [e for e in errors if int(e.code) != 0]
for loc in skip_errors:
print "SKIPPING NONZERO code=%s: %s:%s" % (loc.code, loc.sourceFile, loc.lineNum)
for assertLoc in zero_errors:
(sourceFile, lineNum, lines, code) = assertLoc
print "UPDATING_FILE: %s:%s" % (sourceFile, lineNum)
ln = lineNum - 1
with open(sourceFile, 'r+') as f:
fileLines = f.readlines()
line = fileLines[ln]
print "LINE_%d_BEFORE:%s" % (lineNum, line.rstrip())
line = re.sub(r'(\( *)(\d+)',
r'\g<1>' + str(nextCode),
line)
print "LINE_%d_AFTER :%s" % (lineNum, line.rstrip())
fileLines[ln] = line
f.seek(0)
f.writelines(fileLines)
nextCode += 1
def getBestMessage( lines , codeStr ):
"""Extracts message from one AssertionLocation.lines entry
Args:
lines: list of contiguous C++ source lines
codeStr: assertion code found in first line
"""
line = lines if isinstance(lines, str) else " ".join(lines)
err = line.partition( codeStr )[2]
if not err:
return ""
# Trim to outer quotes
m = re.search(r'"(.*)"', err)
if not m:
return ""
err = m.group(1)
# Trim inner quote pairs
err = re.sub(r'" +"', '', err)
err = re.sub(r'" *<< *"', '', err)
err = re.sub(r'" *<<[^<]+<< *"', '<X>', err)
err = re.sub(r'" *\+[^+]+\+ *"', '<X>', err)
# Trim escaped quotes
err = re.sub(r'\\"', '', err)
# Iff doublequote still present, trim that and any trailing text
err = re.sub(r'".*$', '', err)
return err.strip()
def main():
parser = OptionParser(description=__doc__.strip())
parser.add_option("--fix", dest="replace",
action="store_true", default=False,
help="Fix zero codes in source files [default: %default]")
(options, args) = parser.parse_args()
(codes, errors) = readErrorCodes()
ok = len(errors) == 0
next = getNextCode()
print("ok: %s" % ok)
print("next: %s" % next)
if ok:
sys.exit(0)
elif options.replace:
replaceBadCodes(errors, next)
else:
print ERROR_HELP
sys.exit(1)
ERROR_HELP = """
ERRORS DETECTED. To correct, run "buildscripts/errorcodes.py --fix" to replace zero codes.
Other errors require manual correction.
"""
if __name__ == "__main__":
main()