upstream/mercurial-mirror Files · tests/test-pathencode.py

tests: finally fix up test-fuzz-targets.t...

tests: finally fix up test-fuzz-targets.t It's been failing on my workstation for a while, since I have a new enough LLVM that I had the fuzzer goo, but not so new that I actually had FuzzedDataProvider. This is a better solution all around in my opinion. I _believe_ this should let us run these tests on most systems, even those using GCC instead of clang. That said, my one attempt to test this on my macOS laptop failed miserably, and I don't feel like doing more work on this right now. Differential Revision: https://phab.mercurial-scm.org/D7566

Gregory Szorc - - Load All Authors

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      # This is a randomized test that generates different pathnames every

      # time it is invoked, and tests the encoding of those pathnames.

      #

      # It uses a simple probabilistic model to generate valid pathnames

      # that have proven likely to expose bugs and divergent behavior in

      # different encoding implementations.

      from __future__ import absolute_import, print_function

      import binascii

      import collections

      import itertools

      import math

      import os

      import random

      import sys

      import time

      from mercurial import (

          pycompat,

          store,

      )

      try:

          xrange

      except NameError:

          xrange = range

      validchars = set(map(pycompat.bytechr, range(0, 256)))

      alphanum = range(ord('A'), ord('Z'))

      for c in (b'\0', b'/'):

          validchars.remove(c)

      winreserved = (

          b'aux con prn nul'.split()

          + [b'com%d' % i for i in xrange(1, 10)]

          + [b'lpt%d' % i for i in xrange(1, 10)]

      )

      def casecombinations(names):

          '''Build all case-diddled combinations of names.'''

          combos = set()

          for r in names:

              for i in xrange(len(r) + 1):

                  for c in itertools.combinations(xrange(len(r)), i):

                      d = r

                      for j in c:

                          d = b''.join((d[:j], d[j : j + 1].upper(), d[j + 1 :]))

                      combos.add(d)

          return sorted(combos)

      def buildprobtable(fp, cmd='hg manifest tip'):

          '''Construct and print a table of probabilities for path name

          components.  The numbers are percentages.'''

          counts = collections.defaultdict(lambda: 0)

          for line in os.popen(cmd).read().splitlines():

              if line[-2:] in ('.i', '.d'):

                  line = line[:-2]

              if line.startswith('data/'):

                  line = line[5:]

              for c in line:

                  counts[c] += 1

          for c in '\r/\n':

              counts.pop(c, None)

          t = sum(pycompat.itervalues(counts)) / 100.0

          fp.write('probtable = (')

          for i, (k, v) in enumerate(

              sorted(counts.items(), key=lambda x: x[1], reverse=True)

          ):

              if (i % 5) == 0:

                  fp.write('\n    ')

              vt = v / t

              if vt < 0.0005:

                  break

              fp.write('(%r, %.03f), ' % (k, vt))

          fp.write('\n    )\n')

      # A table of character frequencies (as percentages), gleaned by

      # looking at filelog names from a real-world, very large repo.

      probtable = (

          (b't', 9.828),

          (b'e', 9.042),

          (b's', 8.011),

          (b'a', 6.801),

          (b'i', 6.618),

          (b'g', 5.053),

          (b'r', 5.030),

          (b'o', 4.887),

          (b'p', 4.363),

          (b'n', 4.258),

          (b'l', 3.830),

          (b'h', 3.693),

          (b'_', 3.659),

          (b'.', 3.377),

          (b'm', 3.194),

          (b'u', 2.364),

          (b'd', 2.296),

          (b'c', 2.163),

          (b'b', 1.739),

          (b'f', 1.625),

          (b'6', 0.666),

          (b'j', 0.610),

          (b'y', 0.554),

          (b'x', 0.487),

          (b'w', 0.477),

          (b'k', 0.476),

          (b'v', 0.473),

          (b'3', 0.336),

          (b'1', 0.335),

          (b'2', 0.326),

          (b'4', 0.310),

          (b'5', 0.305),

          (b'9', 0.302),

          (b'8', 0.300),

          (b'7', 0.299),

          (b'q', 0.298),

          (b'0', 0.250),

          (b'z', 0.223),

          (b'-', 0.118),

          (b'C', 0.095),

          (b'T', 0.087),

          (b'F', 0.085),

          (b'B', 0.077),

          (b'S', 0.076),

          (b'P', 0.076),

          (b'L', 0.059),

          (b'A', 0.058),

          (b'N', 0.051),

          (b'D', 0.049),

          (b'M', 0.046),

          (b'E', 0.039),

          (b'I', 0.035),

          (b'R', 0.035),

          (b'G', 0.028),

          (b'U', 0.026),

          (b'W', 0.025),

          (b'O', 0.017),

          (b'V', 0.015),

          (b'H', 0.013),

          (b'Q', 0.011),

          (b'J', 0.007),

          (b'K', 0.005),

          (b'+', 0.004),

          (b'X', 0.003),

          (b'Y', 0.001),

      )

      for c, _ in probtable:

          validchars.remove(c)

      validchars = list(validchars)

      def pickfrom(rng, table):

          c = 0

          r = rng.random() * sum(i[1] for i in table)

          for i, p in table:

              c += p

              if c >= r:

                  return i

      reservedcombos = casecombinations(winreserved)

      # The first component of a name following a slash.

      firsttable = (

          (lambda rng: pickfrom(rng, probtable), 90),

          (lambda rng: rng.choice(validchars), 5),

          (lambda rng: rng.choice(reservedcombos), 5),

      )

      # Components of a name following the first.

      resttable = firsttable[:-1]

      # Special suffixes.

      internalsuffixcombos = casecombinations(b'.hg .i .d'.split())

      # The last component of a path, before a slash or at the end of a name.

      lasttable = resttable + (

          (lambda rng: b'', 95),

          (lambda rng: rng.choice(internalsuffixcombos), 5),

      )

      def makepart(rng, k):

          '''Construct a part of a pathname, without slashes.'''

          p = pickfrom(rng, firsttable)(rng)

          l = len(p)

          ps = [p]

          maxl = rng.randint(1, k)

          while l < maxl:

              p = pickfrom(rng, resttable)(rng)

              l += len(p)

              ps.append(p)

          ps.append(pickfrom(rng, lasttable)(rng))

          return b''.join(ps)

      def makepath(rng, j, k):

          '''Construct a complete pathname.'''

          return (

              b'data/'

              + b'/'.join(makepart(rng, k) for _ in xrange(j))

              + rng.choice([b'.d', b'.i'])

          )

      def genpath(rng, count):

          '''Generate random pathnames with gradually increasing lengths.'''

          mink, maxk = 1, 4096

          def steps():

              for i in xrange(count):

                  yield mink + int(round(math.sqrt((maxk - mink) * float(i) / count)))

          for k in steps():

              x = rng.randint(1, k)

              y = rng.randint(1, k)

              yield makepath(rng, x, y)

      def runtests(rng, seed, count):

          nerrs = 0

          for p in genpath(rng, count):

              h = store._pathencode(p)  # uses C implementation, if available

              r = store._hybridencode(p, True)  # reference implementation in Python

              if h != r:

                  if nerrs == 0:

                      print('seed:', hex(seed)[:-1], file=sys.stderr)

                  print("\np: '%s'" % p.encode("string_escape"), file=sys.stderr)

                  print("h: '%s'" % h.encode("string_escape"), file=sys.stderr)

                  print("r: '%s'" % r.encode("string_escape"), file=sys.stderr)

                  nerrs += 1

          return nerrs

      def main():

          import getopt

          # Empirically observed to take about a second to run

          count = 100

          seed = None

          opts, args = getopt.getopt(

              sys.argv[1:], 'c:s:', ['build', 'count=', 'seed=']

          )

          for o, a in opts:

              if o in ('-c', '--count'):

                  count = int(a)

              elif o in ('-s', '--seed'):

                  seed = int(a, base=0)  # accepts base 10 or 16 strings

              elif o == '--build':

                  buildprobtable(

                      sys.stdout,

                      'find .hg/store/data -type f && '

                      'cat .hg/store/fncache 2>/dev/null',

                  )

                  sys.exit(0)

          if seed is None:

              try:

                  seed = int(binascii.hexlify(os.urandom(16)), 16)

              except AttributeError:

                  seed = int(time.time() * 1000)

          rng = random.Random(seed)

          if runtests(rng, seed, count):

              sys.exit(1)

      if __name__ == '__main__':

          main()

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				# This is a randomized test that generates different pathnames every
				# time it is invoked, and tests the encoding of those pathnames.
				#
				# It uses a simple probabilistic model to generate valid pathnames
				# that have proven likely to expose bugs and divergent behavior in
				# different encoding implementations.

				from __future__ import absolute_import, print_function

				import binascii
				import collections
				import itertools
				import math
				import os
				import random
				import sys
				import time
				from mercurial import (
				pycompat,
				store,
				)

				try:
				xrange
				except NameError:
				xrange = range

				validchars = set(map(pycompat.bytechr, range(0, 256)))
				alphanum = range(ord('A'), ord('Z'))

				for c in (b'\0', b'/'):
				validchars.remove(c)

				winreserved = (
				b'aux con prn nul'.split()
				+ [b'com%d' % i for i in xrange(1, 10)]
				+ [b'lpt%d' % i for i in xrange(1, 10)]
				)


				def casecombinations(names):
				'''Build all case-diddled combinations of names.'''

				combos = set()

				for r in names:
				for i in xrange(len(r) + 1):
				for c in itertools.combinations(xrange(len(r)), i):
				d = r
				for j in c:
				d = b''.join((d[:j], d[j : j + 1].upper(), d[j + 1 :]))
				combos.add(d)
				return sorted(combos)


				def buildprobtable(fp, cmd='hg manifest tip'):
				'''Construct and print a table of probabilities for path name
				components. The numbers are percentages.'''

				counts = collections.defaultdict(lambda: 0)
				for line in os.popen(cmd).read().splitlines():
				if line[-2:] in ('.i', '.d'):
				line = line[:-2]
				if line.startswith('data/'):
				line = line[5:]
				for c in line:
				counts[c] += 1
				for c in '\r/\n':
				counts.pop(c, None)
				t = sum(pycompat.itervalues(counts)) / 100.0
				fp.write('probtable = (')
				for i, (k, v) in enumerate(
				sorted(counts.items(), key=lambda x: x[1], reverse=True)
				):
				if (i % 5) == 0:
				fp.write('\n ')
				vt = v / t
				if vt < 0.0005:
				break
				fp.write('(%r, %.03f), ' % (k, vt))
				fp.write('\n )\n')


				# A table of character frequencies (as percentages), gleaned by
				# looking at filelog names from a real-world, very large repo.

				probtable = (
				(b't', 9.828),
				(b'e', 9.042),
				(b's', 8.011),
				(b'a', 6.801),
				(b'i', 6.618),
				(b'g', 5.053),
				(b'r', 5.030),
				(b'o', 4.887),
				(b'p', 4.363),
				(b'n', 4.258),
				(b'l', 3.830),
				(b'h', 3.693),
				(b'_', 3.659),
				(b'.', 3.377),
				(b'm', 3.194),
				(b'u', 2.364),
				(b'd', 2.296),
				(b'c', 2.163),
				(b'b', 1.739),
				(b'f', 1.625),
				(b'6', 0.666),
				(b'j', 0.610),
				(b'y', 0.554),
				(b'x', 0.487),
				(b'w', 0.477),
				(b'k', 0.476),
				(b'v', 0.473),
				(b'3', 0.336),
				(b'1', 0.335),
				(b'2', 0.326),
				(b'4', 0.310),
				(b'5', 0.305),
				(b'9', 0.302),
				(b'8', 0.300),
				(b'7', 0.299),
				(b'q', 0.298),
				(b'0', 0.250),
				(b'z', 0.223),
				(b'-', 0.118),
				(b'C', 0.095),
				(b'T', 0.087),
				(b'F', 0.085),
				(b'B', 0.077),
				(b'S', 0.076),
				(b'P', 0.076),
				(b'L', 0.059),
				(b'A', 0.058),
				(b'N', 0.051),
				(b'D', 0.049),
				(b'M', 0.046),
				(b'E', 0.039),
				(b'I', 0.035),
				(b'R', 0.035),
				(b'G', 0.028),
				(b'U', 0.026),
				(b'W', 0.025),
				(b'O', 0.017),
				(b'V', 0.015),
				(b'H', 0.013),
				(b'Q', 0.011),
				(b'J', 0.007),
				(b'K', 0.005),
				(b'+', 0.004),
				(b'X', 0.003),
				(b'Y', 0.001),
				)

				for c, _ in probtable:
				validchars.remove(c)
				validchars = list(validchars)


				def pickfrom(rng, table):
				c = 0
				r = rng.random() * sum(i[1] for i in table)
				for i, p in table:
				c += p
				if c >= r:
				return i


				reservedcombos = casecombinations(winreserved)

				# The first component of a name following a slash.

				firsttable = (
				(lambda rng: pickfrom(rng, probtable), 90),
				(lambda rng: rng.choice(validchars), 5),
				(lambda rng: rng.choice(reservedcombos), 5),
				)

				# Components of a name following the first.

				resttable = firsttable[:-1]

				# Special suffixes.

				internalsuffixcombos = casecombinations(b'.hg .i .d'.split())

				# The last component of a path, before a slash or at the end of a name.

				lasttable = resttable + (
				(lambda rng: b'', 95),
				(lambda rng: rng.choice(internalsuffixcombos), 5),
				)


				def makepart(rng, k):
				'''Construct a part of a pathname, without slashes.'''

				p = pickfrom(rng, firsttable)(rng)
				l = len(p)
				ps = [p]
				maxl = rng.randint(1, k)
				while l < maxl:
				p = pickfrom(rng, resttable)(rng)
				l += len(p)
				ps.append(p)
				ps.append(pickfrom(rng, lasttable)(rng))
				return b''.join(ps)


				def makepath(rng, j, k):
				'''Construct a complete pathname.'''

				return (
				b'data/'
				+ b'/'.join(makepart(rng, k) for _ in xrange(j))
				+ rng.choice([b'.d', b'.i'])
				)


				def genpath(rng, count):
				'''Generate random pathnames with gradually increasing lengths.'''

				mink, maxk = 1, 4096

				def steps():
				for i in xrange(count):
				yield mink + int(round(math.sqrt((maxk - mink) * float(i) / count)))

				for k in steps():
				x = rng.randint(1, k)
				y = rng.randint(1, k)
				yield makepath(rng, x, y)


				def runtests(rng, seed, count):
				nerrs = 0
				for p in genpath(rng, count):
				h = store._pathencode(p) # uses C implementation, if available
				r = store._hybridencode(p, True) # reference implementation in Python
				if h != r:
				if nerrs == 0:
				print('seed:', hex(seed)[:-1], file=sys.stderr)
				print("\np: '%s'" % p.encode("string_escape"), file=sys.stderr)
				print("h: '%s'" % h.encode("string_escape"), file=sys.stderr)
				print("r: '%s'" % r.encode("string_escape"), file=sys.stderr)
				nerrs += 1
				return nerrs


				def main():
				import getopt

				# Empirically observed to take about a second to run
				count = 100
				seed = None
				opts, args = getopt.getopt(
				sys.argv[1:], 'c:s:', ['build', 'count=', 'seed=']
				)
				for o, a in opts:
				if o in ('-c', '--count'):
				count = int(a)
				elif o in ('-s', '--seed'):
				seed = int(a, base=0) # accepts base 10 or 16 strings
				elif o == '--build':
				buildprobtable(
				sys.stdout,
				'find .hg/store/data -type f && '
				'cat .hg/store/fncache 2>/dev/null',
				)
				sys.exit(0)

				if seed is None:
				try:
				seed = int(binascii.hexlify(os.urandom(16)), 16)
				except AttributeError:
				seed = int(time.time() * 1000)

				rng = random.Random(seed)
				if runtests(rng, seed, count):
				sys.exit(1)


				if __name__ == '__main__':
				main()