upstream/mercurial-mirror Files · contrib/python-zstandard/make_cffi.py

narrow: only send the narrowspecs back if ACL in play...

narrow: only send the narrowspecs back if ACL in play I am unable to think why we need to send narrowspecs back from the server. The current state adds a 'narrow:spec' part to each changegroup which is generated when narrow extension is enabled. So we are sending narrowspecs on pull also. There is a problem with sending the narrowspecs the way we are doing it right now. We add include and exclude as parameter of the 'narrow:spec' bundle2 part. The the len of include or exclude string increase 255 which is obvious while working on large repos, bundle2 generation code breaks. For more on that refer issue5952 on bugzilla. I was thinking why we need to send the narrowspecs back, and deleted the 'narrow:spec' bundle2 part generation code and found that only narrow-acl test has some failure. With this patch, we will only send the 'narrow:spec' bundle2 part if ACL is enabled because the original narrowspecs in those cases can be a subset of narrowspecs user requested. There are phase related output change in couple of tests. The output change shows that we are now dealing in public phases completely. So maybe sending the narrow:spec bundle2 part was preventing phases being exchanged or phase bundle2 data being applied. Differential Revision: https://phab.mercurial-scm.org/D4931

Gregory Szorc - - Load All Authors

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      # Copyright (c) 2016-present, Gregory Szorc

      # All rights reserved.

      #

      # This software may be modified and distributed under the terms

      # of the BSD license. See the LICENSE file for details.

      from __future__ import absolute_import

      import cffi

      import distutils.ccompiler

      import os

      import re

      import subprocess

      import tempfile

      HERE = os.path.abspath(os.path.dirname(__file__))

      SOURCES = ['zstd/%s' % p for p in (

          'common/debug.c',

          'common/entropy_common.c',

          'common/error_private.c',

          'common/fse_decompress.c',

          'common/pool.c',

          'common/threading.c',

          'common/xxhash.c',

          'common/zstd_common.c',

          'compress/fse_compress.c',

          'compress/hist.c',

          'compress/huf_compress.c',

          'compress/zstd_compress.c',

          'compress/zstd_double_fast.c',

          'compress/zstd_fast.c',

          'compress/zstd_lazy.c',

          'compress/zstd_ldm.c',

          'compress/zstd_opt.c',

          'compress/zstdmt_compress.c',

          'decompress/huf_decompress.c',

          'decompress/zstd_decompress.c',

          'dictBuilder/cover.c',

          'dictBuilder/fastcover.c',

          'dictBuilder/divsufsort.c',

          'dictBuilder/zdict.c',

      )]

      # Headers whose preprocessed output will be fed into cdef().

      HEADERS = [os.path.join(HERE, 'zstd', *p) for p in (

          ('zstd.h',),

          ('dictBuilder', 'zdict.h'),

      )]

      INCLUDE_DIRS = [os.path.join(HERE, d) for d in (

          'zstd',

          'zstd/common',

          'zstd/compress',

          'zstd/decompress',

          'zstd/dictBuilder',

      )]

      # cffi can't parse some of the primitives in zstd.h. So we invoke the

      # preprocessor and feed its output into cffi.

      compiler = distutils.ccompiler.new_compiler()

      # Needed for MSVC.

      if hasattr(compiler, 'initialize'):

          compiler.initialize()

      # Distutils doesn't set compiler.preprocessor, so invoke the preprocessor

      # manually.

      if compiler.compiler_type == 'unix':

          args = list(compiler.executables['compiler'])

          args.extend([

              '-E',

              '-DZSTD_STATIC_LINKING_ONLY',

              '-DZDICT_STATIC_LINKING_ONLY',

          ])

      elif compiler.compiler_type == 'msvc':

          args = [compiler.cc]

          args.extend([

              '/EP',

              '/DZSTD_STATIC_LINKING_ONLY',

              '/DZDICT_STATIC_LINKING_ONLY',

          ])

      else:

          raise Exception('unsupported compiler type: %s' % compiler.compiler_type)

      def preprocess(path):

          with open(path, 'rb') as fh:

              lines = []

              it = iter(fh)

              for l in it:

                  # zstd.h includes <stddef.h>, which is also included by cffi's

                  # boilerplate. This can lead to duplicate declarations. So we strip

                  # this include from the preprocessor invocation.

                  #

                  # The same things happens for including zstd.h, so give it the same

                  # treatment.

                  #

                  # We define ZSTD_STATIC_LINKING_ONLY, which is redundant with the inline

                  # #define in zstdmt_compress.h and results in a compiler warning. So drop

                  # the inline #define.

                  if l.startswith((b'#include <stddef.h>',

                                   b'#include "zstd.h"',

                                   b'#define ZSTD_STATIC_LINKING_ONLY')):

                      continue

                  # ZSTDLIB_API may not be defined if we dropped zstd.h. It isn't

                  # important so just filter it out.

                  if l.startswith(b'ZSTDLIB_API'):

                      l = l[len(b'ZSTDLIB_API '):]

                  lines.append(l)

          fd, input_file = tempfile.mkstemp(suffix='.h')

          os.write(fd, b''.join(lines))

          os.close(fd)

          try:

              process = subprocess.Popen(args + [input_file], stdout=subprocess.PIPE)

              output = process.communicate()[0]

              ret = process.poll()

              if ret:

                  raise Exception('preprocessor exited with error')

              return output

          finally:

              os.unlink(input_file)

      def normalize_output(output):

          lines = []

          for line in output.splitlines():

              # CFFI's parser doesn't like __attribute__ on UNIX compilers.

              if line.startswith(b'__attribute__ ((visibility ("default"))) '):

                  line = line[len(b'__attribute__ ((visibility ("default"))) '):]

              if line.startswith(b'__attribute__((deprecated('):

                  continue

              elif b'__declspec(deprecated(' in line:

                  continue

              lines.append(line)

          return b'\n'.join(lines)

      ffi = cffi.FFI()

      # zstd.h uses a possible undefined MIN(). Define it until

      # https://github.com/facebook/zstd/issues/976 is fixed.

      # *_DISABLE_DEPRECATE_WARNINGS prevents the compiler from emitting a warning

      # when cffi uses the function. Since we statically link against zstd, even

      # if we use the deprecated functions it shouldn't be a huge problem.

      ffi.set_source('_zstd_cffi', '''

      #define MIN(a,b) ((a)<(b) ? (a) : (b))

      #define ZSTD_STATIC_LINKING_ONLY

      #include <zstd.h>

      #define ZDICT_STATIC_LINKING_ONLY

      #define ZDICT_DISABLE_DEPRECATE_WARNINGS

      #include <zdict.h>

      ''', sources=SOURCES,

           include_dirs=INCLUDE_DIRS,

           extra_compile_args=['-DZSTD_MULTITHREAD'])

      DEFINE = re.compile(b'^\\#define ([a-zA-Z0-9_]+) ')

      sources = []

      # Feed normalized preprocessor output for headers into the cdef parser.

      for header in HEADERS:

          preprocessed = preprocess(header)

          sources.append(normalize_output(preprocessed))

          # #define's are effectively erased as part of going through preprocessor.

          # So perform a manual pass to re-add those to the cdef source.

          with open(header, 'rb') as fh:

              for line in fh:

                  line = line.strip()

                  m = DEFINE.match(line)

                  if not m:

                      continue

                  if m.group(1) == b'ZSTD_STATIC_LINKING_ONLY':

                      continue

                  # The parser doesn't like some constants with complex values.

                  if m.group(1) in (b'ZSTD_LIB_VERSION', b'ZSTD_VERSION_STRING'):

                      continue

                  # The ... is magic syntax by the cdef parser to resolve the

                  # value at compile time.

                  sources.append(m.group(0) + b' ...')

      cdeflines = b'\n'.join(sources).splitlines()

      cdeflines = [l for l in cdeflines if l.strip()]

      ffi.cdef(b'\n'.join(cdeflines).decode('latin1'))

      if __name__ == '__main__':

          ffi.compile()

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				# Copyright (c) 2016-present, Gregory Szorc
				# All rights reserved.
				#
				# This software may be modified and distributed under the terms
				# of the BSD license. See the LICENSE file for details.

				from __future__ import absolute_import

				import cffi
				import distutils.ccompiler
				import os
				import re
				import subprocess
				import tempfile


				HERE = os.path.abspath(os.path.dirname(__file__))

				SOURCES = ['zstd/%s' % p for p in (
				'common/debug.c',
				'common/entropy_common.c',
				'common/error_private.c',
				'common/fse_decompress.c',
				'common/pool.c',
				'common/threading.c',
				'common/xxhash.c',
				'common/zstd_common.c',
				'compress/fse_compress.c',
				'compress/hist.c',
				'compress/huf_compress.c',
				'compress/zstd_compress.c',
				'compress/zstd_double_fast.c',
				'compress/zstd_fast.c',
				'compress/zstd_lazy.c',
				'compress/zstd_ldm.c',
				'compress/zstd_opt.c',
				'compress/zstdmt_compress.c',
				'decompress/huf_decompress.c',
				'decompress/zstd_decompress.c',
				'dictBuilder/cover.c',
				'dictBuilder/fastcover.c',
				'dictBuilder/divsufsort.c',
				'dictBuilder/zdict.c',
				)]

				# Headers whose preprocessed output will be fed into cdef().
				HEADERS = [os.path.join(HERE, 'zstd', *p) for p in (
				('zstd.h',),
				('dictBuilder', 'zdict.h'),
				)]

				INCLUDE_DIRS = [os.path.join(HERE, d) for d in (
				'zstd',
				'zstd/common',
				'zstd/compress',
				'zstd/decompress',
				'zstd/dictBuilder',
				)]

				# cffi can't parse some of the primitives in zstd.h. So we invoke the
				# preprocessor and feed its output into cffi.
				compiler = distutils.ccompiler.new_compiler()

				# Needed for MSVC.
				if hasattr(compiler, 'initialize'):
				compiler.initialize()

				# Distutils doesn't set compiler.preprocessor, so invoke the preprocessor
				# manually.
				if compiler.compiler_type == 'unix':
				args = list(compiler.executables['compiler'])
				args.extend([
				'-E',
				'-DZSTD_STATIC_LINKING_ONLY',
				'-DZDICT_STATIC_LINKING_ONLY',
				])
				elif compiler.compiler_type == 'msvc':
				args = [compiler.cc]
				args.extend([
				'/EP',
				'/DZSTD_STATIC_LINKING_ONLY',
				'/DZDICT_STATIC_LINKING_ONLY',
				])
				else:
				raise Exception('unsupported compiler type: %s' % compiler.compiler_type)

				def preprocess(path):
				with open(path, 'rb') as fh:
				lines = []
				it = iter(fh)

				for l in it:
				# zstd.h includes <stddef.h>, which is also included by cffi's
				# boilerplate. This can lead to duplicate declarations. So we strip
				# this include from the preprocessor invocation.
				#
				# The same things happens for including zstd.h, so give it the same
				# treatment.
				#
				# We define ZSTD_STATIC_LINKING_ONLY, which is redundant with the inline
				# #define in zstdmt_compress.h and results in a compiler warning. So drop
				# the inline #define.
				if l.startswith((b'#include <stddef.h>',
				b'#include "zstd.h"',
				b'#define ZSTD_STATIC_LINKING_ONLY')):
				continue

				# ZSTDLIB_API may not be defined if we dropped zstd.h. It isn't
				# important so just filter it out.
				if l.startswith(b'ZSTDLIB_API'):
				l = l[len(b'ZSTDLIB_API '):]

				lines.append(l)

				fd, input_file = tempfile.mkstemp(suffix='.h')
				os.write(fd, b''.join(lines))
				os.close(fd)

				try:
				process = subprocess.Popen(args + [input_file], stdout=subprocess.PIPE)
				output = process.communicate()[0]
				ret = process.poll()
				if ret:
				raise Exception('preprocessor exited with error')

				return output
				finally:
				os.unlink(input_file)


				def normalize_output(output):
				lines = []
				for line in output.splitlines():
				# CFFI's parser doesn't like __attribute__ on UNIX compilers.
				if line.startswith(b'__attribute__ ((visibility ("default"))) '):
				line = line[len(b'__attribute__ ((visibility ("default"))) '):]

				if line.startswith(b'__attribute__((deprecated('):
				continue
				elif b'__declspec(deprecated(' in line:
				continue

				lines.append(line)

				return b'\n'.join(lines)


				ffi = cffi.FFI()
				# zstd.h uses a possible undefined MIN(). Define it until
				# https://github.com/facebook/zstd/issues/976 is fixed.
				# *_DISABLE_DEPRECATE_WARNINGS prevents the compiler from emitting a warning
				# when cffi uses the function. Since we statically link against zstd, even
				# if we use the deprecated functions it shouldn't be a huge problem.
				ffi.set_source('_zstd_cffi', '''
				#define MIN(a,b) ((a)<(b) ? (a) : (b))
				#define ZSTD_STATIC_LINKING_ONLY
				#include <zstd.h>
				#define ZDICT_STATIC_LINKING_ONLY
				#define ZDICT_DISABLE_DEPRECATE_WARNINGS
				#include <zdict.h>
				''', sources=SOURCES,
				include_dirs=INCLUDE_DIRS,
				extra_compile_args=['-DZSTD_MULTITHREAD'])

				DEFINE = re.compile(b'^\\#define ([a-zA-Z0-9_]+) ')

				sources = []

				# Feed normalized preprocessor output for headers into the cdef parser.
				for header in HEADERS:
				preprocessed = preprocess(header)
				sources.append(normalize_output(preprocessed))

				# #define's are effectively erased as part of going through preprocessor.
				# So perform a manual pass to re-add those to the cdef source.
				with open(header, 'rb') as fh:
				for line in fh:
				line = line.strip()
				m = DEFINE.match(line)
				if not m:
				continue

				if m.group(1) == b'ZSTD_STATIC_LINKING_ONLY':
				continue

				# The parser doesn't like some constants with complex values.
				if m.group(1) in (b'ZSTD_LIB_VERSION', b'ZSTD_VERSION_STRING'):
				continue

				# The ... is magic syntax by the cdef parser to resolve the
				# value at compile time.
				sources.append(m.group(0) + b' ...')

				cdeflines = b'\n'.join(sources).splitlines()
				cdeflines = [l for l in cdeflines if l.strip()]
				ffi.cdef(b'\n'.join(cdeflines).decode('latin1'))

				if __name__ == '__main__':
				ffi.compile()