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import os
import sys
import tempfile
import shutil
import subprocess
import time
import hashlib
import utils
from conf import conf
from conf import sf
import exceptions
import database
def __buildtempcnf__(variable_count, files, strlines):
""" Builds temporally file for cnf formulas
variable_count - number of variables in formulas
files - list of files with formulas
strlines - list of string lines with formulas"""
lines = set()
# Copy strlines
for ln in strlines:
lines.add(ln)
# Files
for file in files:
with open(file, 'r') as f:
for ln in f:
lines.add(ln.rstrip())
first_line = "p cnf " + str(variable_count) + " " + str(len(lines))
wfile = tempfile.NamedTemporaryFile(delete=False)
wfile.write(bytes(first_line + '\n', 'UTF-8'))
for ln in lines:
wfile.write(bytes(ln + ' 0\n', 'UTF-8'))
wfile.close()
return wfile.name
def __exec_sat__(file, args, conf_num):
"""Executes SAT solver and returns configuration."""
picosat_cmd = [sf(conf.picosat), file]
picosat_cmd += conf.picosat_args
stdout = utils.callsubprocess('picosat', picosat_cmd, conf.picosat_output,
True, allow_all_exit_codes = True)
rtn = []
solut = []
for line in stdout:
if line[0] == 's':
try:
solut.remove(0)
rtn.append(solut)
except ValueError:
pass
solut = []
if not line.rstrip() == 's SATISFIABLE':
raise exceptions.NoSolution()
elif line[0] == 'v':
for sl in line[2:].split():
solut.append(int(sl))
try:
solut.remove(0)
rtn.append(solut)
except ValueError:
pass
# Ensure smap existence
utils.build_symbol_map()
# Translate to dict
con = list()
for rt in rtn:
cond = dict()
for r in rt:
if r < 0:
val = False
r *= -1
else:
val = True
if r > int(conf_num):
break;
if 'NONAMEGEN' in utils.smap[r]: # ignore generated names
continue
cond[utils.smap[r]] = val
con.append(cond)
return con
def __txt_config__(con):
txt = ''
for key, val in con.items():
txt += 'CONFIG_' + key + '='
if val:
txt += 'y'
else:
txt += 'n'
txt += '\n'
return txt
def __write_temp_config_file__(con):
wfile = tempfile.NamedTemporaryFile(delete=False)
txt = __txt_config__(con)
wfile.write(bytes(txt, sys.getdefaultencoding()))
wfile.close()
return wfile.name
def __load_config_text__(txt):
rtn = dict()
for ln in txt:
if ln[0] == '#' or not '=' in ln:
continue
indx = ln.index('=')
if (ln[indx + 1] == 'y'):
rtn[ln[7:indx]] = True
else:
rtn[ln[7:indx]] = False
return rtn
def __load_config_file__(file):
f = open(file, 'r')
rtn = __load_config_text__(f)
f.close()
return rtn
def __calchash__(con):
dt = database.database()
csort = dt.get_configsort()
cstr = ""
for c in csort:
try:
if con[c]:
cstr += c
except KeyError:
pass
# Add missing
for key, val in con.items():
try:
csort.index(key)
except ValueError:
indx = len(csort)
csort.append(key)
dt.add_configsort(key)
if val:
cstr += key
hsh = hashlib.md5(bytes(cstr, 'UTF-8'))
return hsh.hexdigest()
def __calchash_file__(file):
"""Calculates hash from configuration file"""
con = __load_config_file__(file)
return __calchash__(con)
def __register_conf__(con, conf_num, generator):
dtb = database.database()
# Solution to configuration
txtconfig = __txt_config__(con)
hsh = __calchash__(con)
cconf = dtb.get_configration(hsh)
for cc in cconf:
print('hash: ' + hsh)
if compare_text(cc, txtconfig):
print("I: Generated existing configuration.")
return False
else:
print("W: Generated configuration with collision hash.")
# TODO this might have to be tweaked
raise Exception()
dtb.add_configuration(hsh, txtconfig, generator)
return True
def __generate_single__(var_num, conf_num):
measure_list = set()
if not os.path.isfile(sf(conf.single_generated_file)):
with open(sf(conf.measure_file), 'r') as fi:
for ln in fi:
measure_list.add(int(ln))
else:
with open(sf(conf.single_generated_file), 'r') as f:
for ln in f:
measure_list.add(int(ln))
if not measure_list:
return False
tfile = __buildtempcnf__(var_num, (sf(conf.rules_file),
sf(conf.fixed_file)), [str(measure_list.pop())])
with open(sf(conf.single_generated_file), 'w') as fo:
for ln in measure_list:
fo.write(str(ln) + '\n')
try:
confs = __exec_sat__(tfile, ['-i', '0'], conf_num)
for con in confs:
__register_conf__(con, conf_num, 'single-sat')
except exceptions.NoSolution:
return __generate_single__(var_num, conf_num)
finally:
os.remove(tfile)
return True
def __generate_random__(var_num, conf_num):
tfile = __buildtempcnf__(var_num, (sf(conf.rules_file), sf(conf.fixed_file)), set())
try:
confs = __exec_sat__(tfile, ['-i', '3'], conf_num)
for con in confs:
if not __register_conf__(con, conf_num, 'random-sat'):
__generate_random__(var_num, conf_num)
finally:
os.remove(tfile)
return True
def generate():
"""Collect boolean equations from files rules and required
And get solution with picosat
"""
# Check if rules_file exist. If it was generated.
if not os.path.isfile(sf(conf.rules_file)):
raise exceptions.MissingFile(conf.rules_file,"Run parse_kconfig.")
if not os.path.isfile(sf(conf.fixed_file)):
raise exceptions.MissingFile(conf.required_file,"Run allconfig and initialization process.")
# Load variable count
with open(sf(conf.variable_count_file)) as f:
var_num = f.readline().rstrip()
conf_num = f.readline().rstrip()
if __generate_single__(var_num, conf_num):
return
elif __generate_random__(var_num, conf_num):
return
raise exceptions.NoNewConfiguration()
def compare(conf1, conf2):
# This is not exactly best comparison method
for key, val in conf1.items():
try:
if conf2[key] != val:
return False
except ValueError:
return False
for key, val in conf2.items():
try:
if conf1[key] != val:
return False
except ValueError:
return False
return True
def compare_text(text1, text2):
conf1 = __load_config_text__(text1)
conf2 = __load_config_text__(text2)
return compare_file(conf1, conf2)
def compare_file(file1, file2):
"""Compared two configuration"""
conf1 = __load_config_file__(file1)
conf2 = __load_config_file__(file2)
return compare_file(conf1, conf2)
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