libc/kernel/tools/clean_header.py - third_party/android.googlesource.com/platform/bionic - Git at Google

 #!/usr/bin/env python3

 #------------------------------------------------------------------------------
 # Description of the header clean process
 #------------------------------------------------------------------------------
 # Here is the list of actions performed by this script to clean the original
 # kernel headers.
 #
 # 1. Optimize well-known macros (e.g. __KERNEL__, __KERNEL_STRICT_NAMES)
 #
 #     This pass gets rid of everything that is guarded by a well-known macro
 #     definition. This means that a block like:
 #
 #        #ifdef __KERNEL__
 #        ....
 #        #endif
 #
 #     Will be totally omitted from the output. The optimizer is smart enough to
 #     handle all complex C-preprocessor conditional expression appropriately.
 #     This means that, for example:
 #
 #        #if defined(__KERNEL__) || defined(FOO)
 #        ...
 #        #endif
 #
 #     Will be transformed into:
 #
 #        #ifdef FOO
 #        ...
 #        #endif
 #
 #     See tools/defaults.py for the list of well-known macros used in this pass,
 #     in case you need to update it in the future.
 #
 #     Note that this also removes any reference to a kernel-specific
 #     configuration macro like CONFIG_FOO from the clean headers.
 #
 #
 # 2. Remove variable and function declarations:
 #
 #   This pass scans non-directive text and only keeps things that look like a
 #   typedef/struct/union/enum declaration. This allows us to get rid of any
 #   variables or function declarations that should only be used within the
 #   kernel anyway (and which normally *should* be guarded by an #ifdef
 #   __KERNEL__ ...  #endif block, if the kernel writers were not so messy).
 #
 #   There are, however, a few exceptions: it is seldom useful to keep the
 #   definition of some static inline functions performing very simple
 #   operations. A good example is the optimized 32-bit byte-swap function
 #   found in:
 #
 #     arch-arm/asm/byteorder.h
 #
 #   The list of exceptions is in tools/defaults.py in case you need to update
 #   it in the future.
 #
 #   Note that we do *not* remove macro definitions, including these macro that
 #   perform a call to one of these kernel-header functions, or even define other
 #   functions. We consider it safe since userland applications have no business
 #   using them anyway.
 #
 #
 # 3. Add a standard disclaimer:
 #
 #   The message:
 #
 #   /* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */
 #
 #   Is prepended to each generated header.
 #------------------------------------------------------------------------------

 import sys, cpp, kernel, glob, os, re, getopt
 from defaults import *
 from utils import *

 def print_error(no_update, msg):
     if no_update:
         panic(msg)
     sys.stderr.write("warning: " + msg)


 def cleanupFile(dst_file, src_file, rel_path, no_update = True):
     """reads an original header and perform the cleanup operation on it
        this functions returns the destination path and the clean header
        as a single string"""
     # Check the header path
     if not os.path.exists(src_file):
         print_error(no_update, "'%s' does not exist\n" % src_file)
         return None

     if not os.path.isfile(src_file):
         print_error(no_update, "'%s' is not a file\n" % src_file)
         return None

     # Extract the architecture if found.
     arch = None
     m = re.search(r"(^|/)asm-([\w\d_\+\.\-]+)/.*", rel_path)
     if m and m.group(2) != 'generic':
         arch = m.group(2)

     # Now, let's parse the file.
     parser = cpp.BlockParser()
     blocks = parser.parseFile(src_file)
     if not parser.parsed:
         print_error(no_update, "Can't parse '%s'" % src_file)
         return None

     macros = kernel_known_macros.copy()
     if arch and arch in kernel_default_arch_macros:
         macros.update(kernel_default_arch_macros[arch])

     if arch and arch in kernel_arch_token_replacements:
         blocks.replaceTokens(kernel_arch_token_replacements[arch])

     blocks.removeStructs(kernel_structs_to_remove)
     blocks.optimizeMacros(macros)
     blocks.optimizeIf01()
     blocks.removeVarsAndFuncs(kernel_known_generic_statics)
     blocks.replaceTokens(kernel_token_replacements)

     out = StringOutput()
     out.write(kernel_disclaimer)
     blocks.write(out)
     return out.get()


 if __name__ == "__main__":

     def usage():
         print("""\
     usage:  %s [options] <header_path>

         options:
             -v    enable verbose mode

             -u    enabled update mode
                 this will try to update the corresponding 'clean header'
                 if the content has changed. with this, you can pass more
                 than one file on the command-line

             -k<path>  specify path of original kernel headers
             -d<path>  specify path of cleaned kernel headers

         <header_path> must be in a subdirectory of 'original'
     """ % os.path.basename(sys.argv[0]))
         sys.exit(1)

     try:
         optlist, args = getopt.getopt(sys.argv[1:], 'uvk:d:')
     except:
         # unrecognized option
         sys.stderr.write("error: unrecognized option\n")
         usage()

     no_update = True
     dst_dir = None
     src_dir = None
     for opt, arg in optlist:
         if opt == '-u':
             no_update = False
         elif opt == '-v':
             logging.basicConfig(level=logging.DEBUG)
         elif opt == '-k':
             src_dir = arg
         elif opt == '-d':
             dst_dir = arg
     # get_kernel_dir() and get_kernel_headers_original_dir() require the current
     # working directory to be a direct or indirect subdirectory of
     # ANDROID_BUILD_TOP.  Otherwise, these functions print an error message and
     # exit.  Let's allow the user to run this program from an unrelated
     # directory, if they specify src_dir and dst_dir on the command line.
     if dst_dir is None:
       dst_dir = get_kernel_dir()
     if src_dir is None:
       src_dir = get_kernel_headers_original_dir()

     if len(args) == 0:
         usage()

     if no_update:
         for path in args:
             dst_file = os.path.join(dst_dir, path)
             src_file = os.path.join(src_dir, path)
             new_data = cleanupFile(dst_file, src_file, path)
             # Use sys.stdout.write instead of a simple print statement to avoid
             # sending an extra new line character to stdout.  Running this
             # program in non-update mode and redirecting stdout to a file should
             # yield the same result as using update mode, where new_data is
             # written directly to a file.
             sys.stdout.write(new_data)

         sys.exit(0)

     # Now let's update our files.

     b = BatchFileUpdater()

     for path in args:
         dst_file = os.path.join(dst_dir, path)
         src_file = os.path.join(src_dir, path)
         new_data = cleanupFile(dst_file, src_file, path, no_update)
         if not new_data:
             continue

         b.readFile(dst_file)
         r = b.editFile(dst_file, new_data)
         if r == 0:
             r = "unchanged"
         elif r == 1:
             r = "edited"
         else:
             r = "added"

         print("cleaning: %-*s -> %-*s (%s)" % (35, path, 35, path, r))

     b.updateFiles()

     sys.exit(0)
	#!/usr/bin/env python3

	#------------------------------------------------------------------------------
	# Description of the header clean process
	#------------------------------------------------------------------------------
	# Here is the list of actions performed by this script to clean the original
	# kernel headers.
	#
	# 1. Optimize well-known macros (e.g. __KERNEL__, __KERNEL_STRICT_NAMES)
	#
	# This pass gets rid of everything that is guarded by a well-known macro
	# definition. This means that a block like:
	#
	# #ifdef __KERNEL__
	# ....
	# #endif
	#
	# Will be totally omitted from the output. The optimizer is smart enough to
	# handle all complex C-preprocessor conditional expression appropriately.
	# This means that, for example:
	#
	# #if defined(__KERNEL__) \|\| defined(FOO)
	# ...
	# #endif
	#
	# Will be transformed into:
	#
	# #ifdef FOO
	# ...
	# #endif
	#
	# See tools/defaults.py for the list of well-known macros used in this pass,
	# in case you need to update it in the future.
	#
	# Note that this also removes any reference to a kernel-specific
	# configuration macro like CONFIG_FOO from the clean headers.
	#
	#
	# 2. Remove variable and function declarations:
	#
	# This pass scans non-directive text and only keeps things that look like a
	# typedef/struct/union/enum declaration. This allows us to get rid of any
	# variables or function declarations that should only be used within the
	# kernel anyway (and which normally should be guarded by an #ifdef
	# __KERNEL__ ... #endif block, if the kernel writers were not so messy).
	#
	# There are, however, a few exceptions: it is seldom useful to keep the
	# definition of some static inline functions performing very simple
	# operations. A good example is the optimized 32-bit byte-swap function
	# found in:
	#
	# arch-arm/asm/byteorder.h
	#
	# The list of exceptions is in tools/defaults.py in case you need to update
	# it in the future.
	#
	# Note that we do not remove macro definitions, including these macro that
	# perform a call to one of these kernel-header functions, or even define other
	# functions. We consider it safe since userland applications have no business
	# using them anyway.
	#
	#
	# 3. Add a standard disclaimer:
	#
	# The message:
	#
	# /* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */
	#
	# Is prepended to each generated header.
	#------------------------------------------------------------------------------

	import sys, cpp, kernel, glob, os, re, getopt
	from defaults import *
	from utils import *

	def print_error(no_update, msg):
	if no_update:
	panic(msg)
	sys.stderr.write("warning: " + msg)


	def cleanupFile(dst_file, src_file, rel_path, no_update = True):
	"""reads an original header and perform the cleanup operation on it
	this functions returns the destination path and the clean header
	as a single string"""
	# Check the header path
	if not os.path.exists(src_file):
	print_error(no_update, "'%s' does not exist\n" % src_file)
	return None

	if not os.path.isfile(src_file):
	print_error(no_update, "'%s' is not a file\n" % src_file)
	return None

	# Extract the architecture if found.
	arch = None
	m = re.search(r"(^\|/)asm-([\w\d_\+\.\-]+)/.*", rel_path)
	if m and m.group(2) != 'generic':
	arch = m.group(2)

	# Now, let's parse the file.
	parser = cpp.BlockParser()
	blocks = parser.parseFile(src_file)
	if not parser.parsed:
	print_error(no_update, "Can't parse '%s'" % src_file)
	return None

	macros = kernel_known_macros.copy()
	if arch and arch in kernel_default_arch_macros:
	macros.update(kernel_default_arch_macros[arch])

	if arch and arch in kernel_arch_token_replacements:
	blocks.replaceTokens(kernel_arch_token_replacements[arch])

	blocks.removeStructs(kernel_structs_to_remove)
	blocks.optimizeMacros(macros)
	blocks.optimizeIf01()
	blocks.removeVarsAndFuncs(kernel_known_generic_statics)
	blocks.replaceTokens(kernel_token_replacements)

	out = StringOutput()
	out.write(kernel_disclaimer)
	blocks.write(out)
	return out.get()


	if __name__ == "__main__":

	def usage():
	print("""\
	usage: %s [options] <header_path>

	options:
	-v enable verbose mode

	-u enabled update mode
	this will try to update the corresponding 'clean header'
	if the content has changed. with this, you can pass more
	than one file on the command-line

	-k<path> specify path of original kernel headers
	-d<path> specify path of cleaned kernel headers

	<header_path> must be in a subdirectory of 'original'
	""" % os.path.basename(sys.argv[0]))
	sys.exit(1)

	try:
	optlist, args = getopt.getopt(sys.argv[1:], 'uvk:d:')
	except:
	# unrecognized option
	sys.stderr.write("error: unrecognized option\n")
	usage()

	no_update = True
	dst_dir = None
	src_dir = None
	for opt, arg in optlist:
	if opt == '-u':
	no_update = False
	elif opt == '-v':
	logging.basicConfig(level=logging.DEBUG)
	elif opt == '-k':
	src_dir = arg
	elif opt == '-d':
	dst_dir = arg
	# get_kernel_dir() and get_kernel_headers_original_dir() require the current
	# working directory to be a direct or indirect subdirectory of
	# ANDROID_BUILD_TOP. Otherwise, these functions print an error message and
	# exit. Let's allow the user to run this program from an unrelated
	# directory, if they specify src_dir and dst_dir on the command line.
	if dst_dir is None:
	dst_dir = get_kernel_dir()
	if src_dir is None:
	src_dir = get_kernel_headers_original_dir()

	if len(args) == 0:
	usage()

	if no_update:
	for path in args:
	dst_file = os.path.join(dst_dir, path)
	src_file = os.path.join(src_dir, path)
	new_data = cleanupFile(dst_file, src_file, path)
	# Use sys.stdout.write instead of a simple print statement to avoid
	# sending an extra new line character to stdout. Running this
	# program in non-update mode and redirecting stdout to a file should
	# yield the same result as using update mode, where new_data is
	# written directly to a file.
	sys.stdout.write(new_data)

	sys.exit(0)

	# Now let's update our files.

	b = BatchFileUpdater()

	for path in args:
	dst_file = os.path.join(dst_dir, path)
	src_file = os.path.join(src_dir, path)
	new_data = cleanupFile(dst_file, src_file, path, no_update)
	if not new_data:
	continue

	b.readFile(dst_file)
	r = b.editFile(dst_file, new_data)
	if r == 0:
	r = "unchanged"
	elif r == 1:
	r = "edited"
	else:
	r = "added"

	print("cleaning: %-s -> %-s (%s)" % (35, path, 35, path, r))

	b.updateFiles()

	sys.exit(0)