db2fw.py - pub/scm/linux/kernel/git/sforshee/wireless-regdb - Git at Google

 #!/usr/bin/env python

 from io import BytesIO, open
 import struct
 import hashlib
 from dbparse import DBParser
 import sys
 from math import log

 MAGIC = 0x52474442
 VERSION = 20

 if len(sys.argv) < 3:
     print('Usage: %s output-file input-file' % sys.argv[0])
     sys.exit(2)

 def create_rules(countries):
     result = {}
     for c in countries.values():
         for rule in c.permissions:
             result[rule] = 1
     return list(result)

 def create_collections(countries):
     result = {}
     for c in countries.values():
         result[(c.permissions, c.dfs_region)] = 1
     return list(result)

 def create_wmms(countries):
     result = {}
     for c in countries.values():
         for rule in c.permissions:
             if rule.wmmrule is not None:
                 result[rule.wmmrule] = 1
     return list(result)

 def be32(output, val):
     output.write(struct.pack('>I', val))
 def be16(output, val):
     output.write(struct.pack('>H', val))

 class PTR(object):
     def __init__(self, output):
         self._output = output
         self._pos = output.tell()
         be16(output, 0)
         self._written = False

     def set(self, val=None):
         if val is None:
             val = self._output.tell()
         assert val & 3 == 0
         self._offset = val
         pos = self._output.tell()
         self._output.seek(self._pos)
         be16(self._output, val >> 2)
         self._output.seek(pos)
         self._written = True

     def get(self):
         return self._offset

     @property
     def written(self):
         return self._written

 p = DBParser()
 countries = p.parse(open(sys.argv[2], 'r', encoding='utf-8'))
 rules = create_rules(countries)
 rules.sort()
 collections = create_collections(countries)
 collections.sort()
 wmms = create_wmms(countries)
 wmms.sort()

 output = BytesIO()

 # struct regdb_file_header
 be32(output, MAGIC)
 be32(output, VERSION)

 country_ptrs = {}
 countrynames = list(countries)
 countrynames.sort()
 for alpha2 in countrynames:
     coll = countries[alpha2]
     output.write(struct.pack('>2s', alpha2))
     country_ptrs[alpha2] = PTR(output)
 output.write(b'\x00' * 4)

 wmmdb = {}
 for w in wmms:
     assert output.tell() & 3 == 0
     wmmdb[w] = output.tell() >> 2
     for r in w._as_tuple():
         ecw = int(log(r[0] + 1, 2)) << 4 | int(log(r[1] + 1, 2))
         ac = (ecw, r[2],r[3])
         output.write(struct.pack('>BBH', *ac))

 reg_rules = {}
 flags = 0
 for reg_rule in rules:
     freq_range, power_rule, wmm_rule = reg_rule.freqband, reg_rule.power, reg_rule.wmmrule
     reg_rules[reg_rule] = output.tell()
     assert power_rule.max_ant_gain == 0
     flags = 0
     # convert to new rule flags
     assert reg_rule.flags & ~0x899 == 0
     if reg_rule.flags & 1<<0:
         flags |= 1<<0
     if reg_rule.flags & 1<<3:
         flags |= 1<<1
     if reg_rule.flags & 1<<4:
         flags |= 1<<2
     if reg_rule.flags & 1<<7:
         flags |= 1<<3
     if reg_rule.flags & 1<<11:
         flags |= 1<<4
     rule_len = 16
     cac_timeout = 0 # TODO
     if not (flags & 1<<2):
         cac_timeout = 0
     if cac_timeout or wmm_rule:
         rule_len += 2
     if wmm_rule is not None:
         rule_len += 2
     output.write(struct.pack('>BBHIII', rule_len, flags, int(power_rule.max_eirp * 100),
                              int(freq_range.start * 1000), int(freq_range.end * 1000), int(freq_range.maxbw * 1000),
                              ))
     if rule_len > 16:
         output.write(struct.pack('>H', cac_timeout))

     if rule_len > 18:
         be16(output, wmmdb[wmm_rule])

     while rule_len % 4:
         output.write('\0')
         rule_len += 1

 for coll in collections:
     for alpha2 in countrynames:
         if (countries[alpha2].permissions, countries[alpha2].dfs_region) == coll:
             assert not country_ptrs[alpha2].written
             country_ptrs[alpha2].set()
     slen = 3
     output.write(struct.pack('>BBBx', slen, len(list(coll[0])), coll[1]))
     coll = list(coll[0])
     for regrule in coll:
         be16(output, reg_rules[regrule] >> 2)
     if len(coll) % 2:
         be16(output, 0)

 for alpha2 in countrynames:
     assert country_ptrs[alpha2].written

 outfile = open(sys.argv[1], 'wb')
 outfile.write(output.getvalue())
	#!/usr/bin/env python

	from io import BytesIO, open
	import struct
	import hashlib
	from dbparse import DBParser
	import sys
	from math import log

	MAGIC = 0x52474442
	VERSION = 20

	if len(sys.argv) < 3:
	print('Usage: %s output-file input-file' % sys.argv[0])
	sys.exit(2)

	def create_rules(countries):
	result = {}
	for c in countries.values():
	for rule in c.permissions:
	result[rule] = 1
	return list(result)

	def create_collections(countries):
	result = {}
	for c in countries.values():
	result[(c.permissions, c.dfs_region)] = 1
	return list(result)

	def create_wmms(countries):
	result = {}
	for c in countries.values():
	for rule in c.permissions:
	if rule.wmmrule is not None:
	result[rule.wmmrule] = 1
	return list(result)

	def be32(output, val):
	output.write(struct.pack('>I', val))
	def be16(output, val):
	output.write(struct.pack('>H', val))

	class PTR(object):
	def __init__(self, output):
	self._output = output
	self._pos = output.tell()
	be16(output, 0)
	self._written = False

	def set(self, val=None):
	if val is None:
	val = self._output.tell()
	assert val & 3 == 0
	self._offset = val
	pos = self._output.tell()
	self._output.seek(self._pos)
	be16(self._output, val >> 2)
	self._output.seek(pos)
	self._written = True

	def get(self):
	return self._offset

	@property
	def written(self):
	return self._written

	p = DBParser()
	countries = p.parse(open(sys.argv[2], 'r', encoding='utf-8'))
	rules = create_rules(countries)
	rules.sort()
	collections = create_collections(countries)
	collections.sort()
	wmms = create_wmms(countries)
	wmms.sort()

	output = BytesIO()

	# struct regdb_file_header
	be32(output, MAGIC)
	be32(output, VERSION)

	country_ptrs = {}
	countrynames = list(countries)
	countrynames.sort()
	for alpha2 in countrynames:
	coll = countries[alpha2]
	output.write(struct.pack('>2s', alpha2))
	country_ptrs[alpha2] = PTR(output)
	output.write(b'\x00' * 4)

	wmmdb = {}
	for w in wmms:
	assert output.tell() & 3 == 0
	wmmdb[w] = output.tell() >> 2
	for r in w._as_tuple():
	ecw = int(log(r[0] + 1, 2)) << 4 \| int(log(r[1] + 1, 2))
	ac = (ecw, r[2],r[3])
	output.write(struct.pack('>BBH', *ac))

	reg_rules = {}
	flags = 0
	for reg_rule in rules:
	freq_range, power_rule, wmm_rule = reg_rule.freqband, reg_rule.power, reg_rule.wmmrule
	reg_rules[reg_rule] = output.tell()
	assert power_rule.max_ant_gain == 0
	flags = 0
	# convert to new rule flags
	assert reg_rule.flags & ~0x899 == 0
	if reg_rule.flags & 1<<0:
	flags \|= 1<<0
	if reg_rule.flags & 1<<3:
	flags \|= 1<<1
	if reg_rule.flags & 1<<4:
	flags \|= 1<<2
	if reg_rule.flags & 1<<7:
	flags \|= 1<<3
	if reg_rule.flags & 1<<11:
	flags \|= 1<<4
	rule_len = 16
	cac_timeout = 0 # TODO
	if not (flags & 1<<2):
	cac_timeout = 0
	if cac_timeout or wmm_rule:
	rule_len += 2
	if wmm_rule is not None:
	rule_len += 2
	output.write(struct.pack('>BBHIII', rule_len, flags, int(power_rule.max_eirp * 100),
	int(freq_range.start * 1000), int(freq_range.end * 1000), int(freq_range.maxbw * 1000),
	))
	if rule_len > 16:
	output.write(struct.pack('>H', cac_timeout))

	if rule_len > 18:
	be16(output, wmmdb[wmm_rule])

	while rule_len % 4:
	output.write('\0')
	rule_len += 1

	for coll in collections:
	for alpha2 in countrynames:
	if (countries[alpha2].permissions, countries[alpha2].dfs_region) == coll:
	assert not country_ptrs[alpha2].written
	country_ptrs[alpha2].set()
	slen = 3
	output.write(struct.pack('>BBBx', slen, len(list(coll[0])), coll[1]))
	coll = list(coll[0])
	for regrule in coll:
	be16(output, reg_rules[regrule] >> 2)
	if len(coll) % 2:
	be16(output, 0)

	for alpha2 in countrynames:
	assert country_ptrs[alpha2].written

	outfile = open(sys.argv[1], 'wb')
	outfile.write(output.getvalue())