upstream/mercurial-mirror Files · contrib/hgclient.py

fuzz: use a more standard approach to allow local builds of fuzzers...

fuzz: use a more standard approach to allow local builds of fuzzers This is taken from the (improved since we started fuzzing) guide on ideal integrations. Rather than have our own wonky targets for building outside the fuzzer universe, we have a driver program we carry along and use when we're not using LibFuzzer. This will let us jettison a fair amount of goo. contrib/fuzz/standalone_fuzz_target_runner.cc is https://github.com/google/oss-fuzz/ file projects/example/my-api-repo/standalone from git revision c4579d9358a73ea5dbcc99cb985de1f2bf76dcf7, reformatted with out clang-format settings and a no-check-code comment added. It allows running a single test input through a fuzzer, rather than performing ongoing fuzzing as libfuzzer would. contrib/fuzz/FuzzedDataProvider.h is https://github.com/llvm/llvm-project/ file /compiler-rt/include/fuzzer/FuzzedDataProvider.h from git revision a44ef027ebca1598892ea9b104d6189aeb3bc2f0, reformatted with our clang-format settings and a no-check-code comment added. We can discard this if we instead want to add an hghave check for a new enough llvm that includes FuzzedDataProvder.h in the fuzzer headers. Differential Revision: https://phab.mercurial-scm.org/D7564

Augie Fackler - - Load All Authors

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      # A minimal client for Mercurial's command server

      from __future__ import absolute_import, print_function

      import io

      import os

      import re

      import signal

      import socket

      import struct

      import subprocess

      import sys

      import time

      if sys.version_info[0] >= 3:

          stdout = sys.stdout.buffer

          stderr = sys.stderr.buffer

          stringio = io.BytesIO

          def bprint(*args):

              # remove b'' as well for ease of test migration

              pargs = [re.sub(br'''\bb(['"])''', br'\1', b'%s' % a) for a in args]

              stdout.write(b' '.join(pargs) + b'\n')

      else:

          import cStringIO

          stdout = sys.stdout

          stderr = sys.stderr

          stringio = cStringIO.StringIO

          bprint = print

      def connectpipe(path=None, extraargs=()):

          cmdline = [b'hg', b'serve', b'--cmdserver', b'pipe']

          if path:

              cmdline += [b'-R', path]

          cmdline.extend(extraargs)

          def tonative(cmdline):

              if os.name != 'nt':

                  return cmdline

              return [arg.decode("utf-8") for arg in cmdline]

          server = subprocess.Popen(

              tonative(cmdline), stdin=subprocess.PIPE, stdout=subprocess.PIPE

          )

          return server

      class unixconnection(object):

          def __init__(self, sockpath):

              self.sock = sock = socket.socket(socket.AF_UNIX)

              sock.connect(sockpath)

              self.stdin = sock.makefile('wb')

              self.stdout = sock.makefile('rb')

          def wait(self):

              self.stdin.close()

              self.stdout.close()

              self.sock.close()

      class unixserver(object):

          def __init__(self, sockpath, logpath=None, repopath=None):

              self.sockpath = sockpath

              cmdline = [b'hg', b'serve', b'--cmdserver', b'unix', b'-a', sockpath]

              if repopath:

                  cmdline += [b'-R', repopath]

              if logpath:

                  stdout = open(logpath, 'a')

                  stderr = subprocess.STDOUT

              else:

                  stdout = stderr = None

              self.server = subprocess.Popen(cmdline, stdout=stdout, stderr=stderr)

              # wait for listen()

              while self.server.poll() is None:

                  if os.path.exists(sockpath):

                      break

                  time.sleep(0.1)

          def connect(self):

              return unixconnection(self.sockpath)

          def shutdown(self):

              os.kill(self.server.pid, signal.SIGTERM)

              self.server.wait()

      def writeblock(server, data):

          server.stdin.write(struct.pack(b'>I', len(data)))

          server.stdin.write(data)

          server.stdin.flush()

      def readchannel(server):

          data = server.stdout.read(5)

          if not data:

              raise EOFError

          channel, length = struct.unpack('>cI', data)

          if channel in b'IL':

              return channel, length

          else:

              return channel, server.stdout.read(length)

      def sep(text):

          return text.replace(b'\\', b'/')

      def runcommand(

          server, args, output=stdout, error=stderr, input=None, outfilter=lambda x: x

      ):

          bprint(b'*** runcommand', b' '.join(args))

          stdout.flush()

          server.stdin.write(b'runcommand\n')

          writeblock(server, b'\0'.join(args))

          if not input:

              input = stringio()

          while True:

              ch, data = readchannel(server)

              if ch == b'o':

                  output.write(outfilter(data))

                  output.flush()

              elif ch == b'e':

                  error.write(data)

                  error.flush()

              elif ch == b'I':

                  writeblock(server, input.read(data))

              elif ch == b'L':

                  writeblock(server, input.readline(data))

              elif ch == b'm':

                  bprint(b"message: %r" % data)

              elif ch == b'r':

                  (ret,) = struct.unpack('>i', data)

                  if ret != 0:

                      bprint(b' [%d]' % ret)

                  return ret

              else:

                  bprint(b"unexpected channel %c: %r" % (ch, data))

                  if ch.isupper():

                      return

      def check(func, connect=connectpipe):

          stdout.flush()

          server = connect()

          try:

              return func(server)

          finally:

              server.stdin.close()

              server.wait()

      def checkwith(connect=connectpipe, **kwargs):

          def wrap(func):

              return check(func, lambda: connect(**kwargs))

          return wrap

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				# A minimal client for Mercurial's command server

				from __future__ import absolute_import, print_function

				import io
				import os
				import re
				import signal
				import socket
				import struct
				import subprocess
				import sys
				import time

				if sys.version_info[0] >= 3:
				stdout = sys.stdout.buffer
				stderr = sys.stderr.buffer
				stringio = io.BytesIO

				def bprint(*args):
				# remove b'' as well for ease of test migration
				pargs = [re.sub(br'''\bb(['"])''', br'\1', b'%s' % a) for a in args]
				stdout.write(b' '.join(pargs) + b'\n')


				else:
				import cStringIO

				stdout = sys.stdout
				stderr = sys.stderr
				stringio = cStringIO.StringIO
				bprint = print


				def connectpipe(path=None, extraargs=()):
				cmdline = [b'hg', b'serve', b'--cmdserver', b'pipe']
				if path:
				cmdline += [b'-R', path]
				cmdline.extend(extraargs)

				def tonative(cmdline):
				if os.name != 'nt':
				return cmdline
				return [arg.decode("utf-8") for arg in cmdline]

				server = subprocess.Popen(
				tonative(cmdline), stdin=subprocess.PIPE, stdout=subprocess.PIPE
				)

				return server


				class unixconnection(object):
				def __init__(self, sockpath):
				self.sock = sock = socket.socket(socket.AF_UNIX)
				sock.connect(sockpath)
				self.stdin = sock.makefile('wb')
				self.stdout = sock.makefile('rb')

				def wait(self):
				self.stdin.close()
				self.stdout.close()
				self.sock.close()


				class unixserver(object):
				def __init__(self, sockpath, logpath=None, repopath=None):
				self.sockpath = sockpath
				cmdline = [b'hg', b'serve', b'--cmdserver', b'unix', b'-a', sockpath]
				if repopath:
				cmdline += [b'-R', repopath]
				if logpath:
				stdout = open(logpath, 'a')
				stderr = subprocess.STDOUT
				else:
				stdout = stderr = None
				self.server = subprocess.Popen(cmdline, stdout=stdout, stderr=stderr)
				# wait for listen()
				while self.server.poll() is None:
				if os.path.exists(sockpath):
				break
				time.sleep(0.1)

				def connect(self):
				return unixconnection(self.sockpath)

				def shutdown(self):
				os.kill(self.server.pid, signal.SIGTERM)
				self.server.wait()


				def writeblock(server, data):
				server.stdin.write(struct.pack(b'>I', len(data)))
				server.stdin.write(data)
				server.stdin.flush()


				def readchannel(server):
				data = server.stdout.read(5)
				if not data:
				raise EOFError
				channel, length = struct.unpack('>cI', data)
				if channel in b'IL':
				return channel, length
				else:
				return channel, server.stdout.read(length)


				def sep(text):
				return text.replace(b'\\', b'/')


				def runcommand(
				server, args, output=stdout, error=stderr, input=None, outfilter=lambda x: x
				):
				bprint(b'*** runcommand', b' '.join(args))
				stdout.flush()
				server.stdin.write(b'runcommand\n')
				writeblock(server, b'\0'.join(args))

				if not input:
				input = stringio()

				while True:
				ch, data = readchannel(server)
				if ch == b'o':
				output.write(outfilter(data))
				output.flush()
				elif ch == b'e':
				error.write(data)
				error.flush()
				elif ch == b'I':
				writeblock(server, input.read(data))
				elif ch == b'L':
				writeblock(server, input.readline(data))
				elif ch == b'm':
				bprint(b"message: %r" % data)
				elif ch == b'r':
				(ret,) = struct.unpack('>i', data)
				if ret != 0:
				bprint(b' [%d]' % ret)
				return ret
				else:
				bprint(b"unexpected channel %c: %r" % (ch, data))
				if ch.isupper():
				return


				def check(func, connect=connectpipe):
				stdout.flush()
				server = connect()
				try:
				return func(server)
				finally:
				server.stdin.close()
				server.wait()


				def checkwith(connect=connectpipe, **kwargs):
				def wrap(func):
				return check(func, lambda: connect(**kwargs))

				return wrap