utils/group.py - prjxray - Git at Google

 #!/usr/bin/env python3
 # -*- coding: utf-8 -*-
 #
 # Copyright (C) 2017-2020  The Project X-Ray Authors.
 #
 # Use of this source code is governed by a ISC-style
 # license that can be found in the LICENSE file or at
 # https://opensource.org/licenses/ISC
 #
 # SPDX-License-Identifier: ISC
 """

 This script Reads tag group definition from a file and applies the tag grouping.
 First a set of common bits for each group is found (logical OR among all tags
 belonging to the group). Then in each tag belonging to the group those bits are
 set to 0 but only if they are not already present there.

 The resulting data is written into a segbits file.
 """
 import argparse
 import re
 import itertools

 from prjxray.util import OpenSafeFile

 # =============================================================================


 def load_tag_groups(file_name):
     """
     Loads tag groups from a text file.

     A tag group is defined by specifying a space separated list of tags within
     a single line. Lines that are empty or start with '#' are ignored.
     """
     tag_groups = []

     # Load tag group specifications
     with OpenSafeFile(file_name, "r") as fp:
         for line in fp:
             line = line.strip()

             if len(line) == 0 or line.startswith("#"):
                 continue

             group = set(line.split())
             if len(group):
                 tag_groups.append(group)

     # Check if all tag groups are exclusive
     for tag_group_a, tag_group_b in itertools.combinations(tag_groups, 2):

         tags = tag_group_a & tag_group_b
         if len(tags):
             raise RuntimeError(
                 "Tag(s) {} are present in multiple groups".format(
                     " ".join(tags)))

     return tag_groups


 # =============================================================================


 def parse_bit(bit):
     """
     Decodes string describing a bit. Returns a tuple (frame, bit, value)
     """
     match = re.match("^(!?)([0-9]+)_([0-9]+)$", bit)
     assert match != None, bit

     val = int(match.group(1) != "!")
     frm = int(match.group(2))
     bit = int(match.group(3))

     return frm, bit, val


 def bit_to_str(bit):
     """
     Converts a tuple (frame, bit, value) to its string representation.
     """
     s = "!" if not bit[2] else ""
     return "{}{}_{:02d}".format(s, bit[0], bit[1])


 def load_segbits(file_name):
     """
     Loads a segbits file.
     """

     segbits = {}

     with OpenSafeFile(file_name, "r") as fp:
         for line in fp:
             line = line.strip()
             fields = line.split()

             if len(fields) < 2:
                 raise RuntimeError("Malformed line: '%s'" % line)

             tag = fields[0]

             if "<" in line or ">" in line:
                 segbits[tag] = " ".join(fields[1:])

             else:
                 bits = set([parse_bit(bit) for bit in fields[1:]])
                 segbits[tag] = bits

     return segbits


 def save_segbits(file_name, segbits):
     """
     Save segbits to a .db or .rdb file
     """

     with OpenSafeFile(file_name, "w") as fp:
         for tag, bits in segbits.items():

             if isinstance(bits, str):
                 line = tag + " " + bits

             elif isinstance(bits, set):
                 line = tag + " "
                 line += " ".join(
                     [bit_to_str(bit) for bit in sorted(list(bits))])

             fp.write(line + "\n")


 # =============================================================================


 def mask_out_bits(segbits, mask, tags_to_mask=None):
     """
     Given a set of bits and a list of tags to affect (optional) removes all
     the bits from each tag that are present (and equal) in the masking set.
     """

     if tags_to_mask is None:
         tags_to_mask = segbits.keys()

     # Mask out matching bits
     for tag in tags_to_mask:
         bits = segbits[tag]

         bits = set(bits) - set(mask)
         segbits[tag] = bits

     return segbits


 def find_common_bits_for_tag_groups(segbits, tag_groups):
     """
     For each tag group finds a common set of bits that have value of one.
     """

     bit_groups = []

     for tag_group in tag_groups:
         bit_group = set()

         for tag, bits in segbits.items():
             if tag in tag_group and isinstance(bits, set):
                 ones = set([b for b in bits if b[2]])
                 bit_group |= ones

         bit_groups.append(bit_group)

     return bit_groups


 def group_tags(segbits, tag_groups, bit_groups):
     """
     Implements tag grouping. If a tag belongs to a group then the common bits
     of that group are added to is as zeros.
     """

     for tag_group, bit_group in zip(tag_groups, bit_groups):
         zeros = set([(b[0], b[1], 0) for b in bit_group])
         for tag in tag_group:

             # Insert zero bits
             if tag in segbits.keys():
                 bits = segbits[tag]

                 if not isinstance(bits, set):
                     bits = set()
                     segbits[tag] = bits

                 for z in zeros:
                     if not (z[0], z[1], 1) in bits:
                         bits.add(z)

     return segbits


 # =============================================================================


 def main():

     # Parse arguments
     parser = argparse.ArgumentParser()

     parser.add_argument("-i", required=True, type=str, help="Input .rdb file")
     parser.add_argument(
         "-g", required=True, type=str, help="Input tag group definition file")
     parser.add_argument("-o", required=True, type=str, help="Output .rdb file")

     args = parser.parse_args()

     # Load tag groups
     tag_groups = load_tag_groups(args.g)

     # Load raw database file
     segbits = load_segbits(args.i)

     # Find common bits
     bit_groups = find_common_bits_for_tag_groups(segbits, tag_groups)
     # Apply tag grouping
     segbits = group_tags(segbits, tag_groups, bit_groups)

     # Save fixed database file
     save_segbits(args.o, segbits)


 if __name__ == "__main__":
     main()
	#!/usr/bin/env python3
	# -- coding: utf-8 --
	#
	# Copyright (C) 2017-2020 The Project X-Ray Authors.
	#
	# Use of this source code is governed by a ISC-style
	# license that can be found in the LICENSE file or at
	# https://opensource.org/licenses/ISC
	#
	# SPDX-License-Identifier: ISC
	"""

	This script Reads tag group definition from a file and applies the tag grouping.
	First a set of common bits for each group is found (logical OR among all tags
	belonging to the group). Then in each tag belonging to the group those bits are
	set to 0 but only if they are not already present there.

	The resulting data is written into a segbits file.
	"""
	import argparse
	import re
	import itertools

	from prjxray.util import OpenSafeFile

	# =============================================================================


	def load_tag_groups(file_name):
	"""
	Loads tag groups from a text file.

	A tag group is defined by specifying a space separated list of tags within
	a single line. Lines that are empty or start with '#' are ignored.
	"""
	tag_groups = []

	# Load tag group specifications
	with OpenSafeFile(file_name, "r") as fp:
	for line in fp:
	line = line.strip()

	if len(line) == 0 or line.startswith("#"):
	continue

	group = set(line.split())
	if len(group):
	tag_groups.append(group)

	# Check if all tag groups are exclusive
	for tag_group_a, tag_group_b in itertools.combinations(tag_groups, 2):

	tags = tag_group_a & tag_group_b
	if len(tags):
	raise RuntimeError(
	"Tag(s) {} are present in multiple groups".format(
	" ".join(tags)))

	return tag_groups


	# =============================================================================


	def parse_bit(bit):
	"""
	Decodes string describing a bit. Returns a tuple (frame, bit, value)
	"""
	match = re.match("^(!?)([0-9]+)_([0-9]+)$", bit)
	assert match != None, bit

	val = int(match.group(1) != "!")
	frm = int(match.group(2))
	bit = int(match.group(3))

	return frm, bit, val


	def bit_to_str(bit):
	"""
	Converts a tuple (frame, bit, value) to its string representation.
	"""
	s = "!" if not bit[2] else ""
	return "{}{}_{:02d}".format(s, bit[0], bit[1])


	def load_segbits(file_name):
	"""
	Loads a segbits file.
	"""

	segbits = {}

	with OpenSafeFile(file_name, "r") as fp:
	for line in fp:
	line = line.strip()
	fields = line.split()

	if len(fields) < 2:
	raise RuntimeError("Malformed line: '%s'" % line)

	tag = fields[0]

	if "<" in line or ">" in line:
	segbits[tag] = " ".join(fields[1:])

	else:
	bits = set([parse_bit(bit) for bit in fields[1:]])
	segbits[tag] = bits

	return segbits


	def save_segbits(file_name, segbits):
	"""
	Save segbits to a .db or .rdb file
	"""

	with OpenSafeFile(file_name, "w") as fp:
	for tag, bits in segbits.items():

	if isinstance(bits, str):
	line = tag + " " + bits

	elif isinstance(bits, set):
	line = tag + " "
	line += " ".join(
	[bit_to_str(bit) for bit in sorted(list(bits))])

	fp.write(line + "\n")


	# =============================================================================


	def mask_out_bits(segbits, mask, tags_to_mask=None):
	"""
	Given a set of bits and a list of tags to affect (optional) removes all
	the bits from each tag that are present (and equal) in the masking set.
	"""

	if tags_to_mask is None:
	tags_to_mask = segbits.keys()

	# Mask out matching bits
	for tag in tags_to_mask:
	bits = segbits[tag]

	bits = set(bits) - set(mask)
	segbits[tag] = bits

	return segbits


	def find_common_bits_for_tag_groups(segbits, tag_groups):
	"""
	For each tag group finds a common set of bits that have value of one.
	"""

	bit_groups = []

	for tag_group in tag_groups:
	bit_group = set()

	for tag, bits in segbits.items():
	if tag in tag_group and isinstance(bits, set):
	ones = set([b for b in bits if b[2]])
	bit_group \|= ones

	bit_groups.append(bit_group)

	return bit_groups


	def group_tags(segbits, tag_groups, bit_groups):
	"""
	Implements tag grouping. If a tag belongs to a group then the common bits
	of that group are added to is as zeros.
	"""

	for tag_group, bit_group in zip(tag_groups, bit_groups):
	zeros = set([(b[0], b[1], 0) for b in bit_group])
	for tag in tag_group:

	# Insert zero bits
	if tag in segbits.keys():
	bits = segbits[tag]

	if not isinstance(bits, set):
	bits = set()
	segbits[tag] = bits

	for z in zeros:
	if not (z[0], z[1], 1) in bits:
	bits.add(z)

	return segbits


	# =============================================================================


	def main():

	# Parse arguments
	parser = argparse.ArgumentParser()

	parser.add_argument("-i", required=True, type=str, help="Input .rdb file")
	parser.add_argument(
	"-g", required=True, type=str, help="Input tag group definition file")
	parser.add_argument("-o", required=True, type=str, help="Output .rdb file")

	args = parser.parse_args()

	# Load tag groups
	tag_groups = load_tag_groups(args.g)

	# Load raw database file
	segbits = load_segbits(args.i)

	# Find common bits
	bit_groups = find_common_bits_for_tag_groups(segbits, tag_groups)
	# Apply tag grouping
	segbits = group_tags(segbits, tag_groups, bit_groups)

	# Save fixed database file
	save_segbits(args.o, segbits)


	if __name__ == "__main__":
	main()