clientbot/tools/DecodeDatabase.py
2020-11-27 23:32:51 +01:00

493 lines
18 KiB
Python

#!/usr/bin/python3
# -*- coding: utf-8 -*-
#
# module DecodeDatabase
#
# Copyright (C) 2019 AleaJactaEst
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import logging
from tools import getPowerOf2
from tools import BitStream
LOGGER='DecodeDatabase'
def show_dico(dico, level=1):
try:
for ele in dico:
if isinstance(dico[ele], dict):
logging.getLogger(LOGGER).debug("%s %s %s" % ("." * level, ele , ":"))
if isinstance(dico[ele], dict):
show_dico(dico[ele], level+1)
else:
logging.getLogger(LOGGER).debug("%s %s %s" % ("." * level, ele, ':', dico[ele]))
except:
logging.getLogger(LOGGER).debug("empty")
def child(ele):
ret = {}
ret_branch = {}
ref_other = {}
id_branch = 0
id_other = 0
min_i = -1
max_i = -1
for k in ele.keys():
ret[k] = ele.get(k)
logging.getLogger(LOGGER).debug("%s %s" % (str(k), str(ele.get(k))))
for _child in list(ele):
x = child(_child)
if x['name'] == 'branch':
ret_branch.setdefault(id_branch, x)
id_branch += 1
else:
ref_other.setdefault(id_other, x)
id_other += 1
if ret_branch or ref_other:
ret['child'] = {}
id = 0
for x in ret_branch:
min_i = max_i + 1
max_i = min_i
#show_dico( ret_branch[x])
if 'count' in ret_branch[x]:
max_i = min_i + int(ret_branch[x]['count']) - 1
ret_branch[x]['min'] = min_i
ret_branch[x]['max'] = max_i
ret['child'].setdefault(id, ret_branch[x])
id += 1
for x in ref_other:
min_i = max_i + 1
max_i = min_i
#show_dico( ref_other[x])
if 'count' in ref_other[x]:
max_i = min_i + int(ref_other[x]['count']) - 1
ref_other[x]['min'] = min_i
ref_other[x]['max'] = max_i
ret['child'].setdefault(id, ref_other[x])
id += 1
return ret
def count_elements(head):
#print(head)
if 'child' in head.keys():
list_ele = [x for x in list(head['child'].keys()) if isinstance(x, int)]
else:
list_ele = [x for x in list(head.keys()) if isinstance(x, int)]
logging.getLogger(LOGGER).debug(str(list_ele))
last_key = max(list_ele)
logging.getLogger(LOGGER).debug(str(last_key ))
try:
last_key = max(list_ele)
if 'child' in head.keys():
return head['child'][last_key]['max'] + 1
else:
return head[last_key]['max'] + 1
except TypeError:
return 0
def get_element(head, id):
logging.getLogger(LOGGER).debug("id: %s" % str(id))
for ele in head['child']:
logging.getLogger(LOGGER).debug("ele:%s" % str(ele))
logging.getLogger(LOGGER).debug("head:%s" % str(head))
logging.getLogger(LOGGER).debug("max:%s", str(head['child'][ele]['max']))
logging.getLogger(LOGGER).debug("min:%s", str(head['child'][ele]['min']))
if id <= head['child'][ele]['max'] and id >= head['child'][ele]['min']:
return head['child'][ele]
return None
class LeafDatabase():
def __init__(self):
self.name = ""
self.type = ""
self.count = None
def loadXml(self, xmldata):
self.name = xmldata.get('name')
self.type = xmldata.get('type')
if xmldata.get('count'):
self.count = int(xmldata.get('count'))
def countLeaves(self):
if self.count:
logging.getLogger(LOGGER).debug("countLeaves leaf %s (nb:%s)" % (self.name, str(self.count)))
return self.count
else:
logging.getLogger(LOGGER).debug("countLeaves leaf %s (nb:1)" % (self.name))
return 1
def show(self, level=1):
logging.getLogger(LOGGER).debug("%s %s Leaf %s : %s : %s" % (" " * level, str(level), self.name, str(self.count), str(self.type)))
def execute(self, msgin, name=""):
if name:
tmp = name
else:
tmp = self.name
if self.type[0] == 'I': # Unsigned
logging.getLogger(LOGGER).debug("Read:" + str (self.type))
value = int(self.type[1:])
_ = msgin.readSerialUint64(value, name=tmp, typeName=self.type)
elif self.type[0] == 'S': # Signed
logging.getLogger(LOGGER).debug("Read:" + str (self.type))
value = int(self.type[1:])
# _ = msgin.readNbChar(value, name='DatabaseXML' + tmp)
_ = msgin.readSerialUint64(value, name=tmp)
elif self.type == 'TEXT':
logging.getLogger(LOGGER).debug("type:" + str (self.type))
value = 32
_ = msgin.readSerialSint64(value, name=idname)
else:
logging.getLogger(LOGGER).error("Type inconnu:" + str (self.type))
raise "type not managed"
def execute_atom(self, level, pos, msgin, name=""):
if name:
extraName = name + "/" + self.name
else:
extraName = self.name
if self.count:
step = self.count
else:
step = 1
for step in range(0, step):
if self.count:
idname = extraName + str(step)
else:
idname = extraName
logging.getLogger(LOGGER).debug('step:' + str(step) + ' level:'+ str(level) + ' pos:' + str(pos) + ' idname:' + idname)
if level < pos:
level += 1
continue
if self.type[0] == 'I':
value = int(self.type[1:])
if value > 64:
raise "type not managed"
logging.getLogger(LOGGER).debug('value:' + str(value))
_ = msgin.readSerialUint64(value, name=idname, typeName=self.type)
return level+1
elif self.type[0] == 'S':
logging.getLogger(LOGGER).debug("type:" + str (self.type))
value = int(self.type[1:])
_ = msgin.readSerialSint64(value, name=idname)
elif self.type == 'TEXT':
logging.getLogger(LOGGER).debug("type:" + str (self.type))
value = 32
_ = msgin.readSerialUint64(value, name=idname)
else:
logging.getLogger(LOGGER).debug("Type inconnu:", self.type)
raise "type not managed"
return level
class BranchDatabase():
def __init__(self):
self.name = None
self.branch = []
self.leaf = []
self.min = None
self.max = None
self.atom = False
self.count = None
def loadXml(self, xmldata, filter=None):
# print("xmldata:", xmldata)
# print("keys:", xmldata.keys())
# print("filter:", filter)
#print("bank:", xmldata['bank'])
if filter:
if 'bank' in xmldata:
if filter != xmldata['bank']:
return
else:
return
if xmldata.get('atom'):
self.atom = True
if xmldata.get('count'):
self.count = int(xmldata.get('count'))
self.name = xmldata.get('name')
# print(self.name)
for ele in xmldata:
if ele.tag == 'branch':
newbranch = BranchDatabase()
newbranch.loadXml(ele)
self.branch.append(newbranch)
elif ele.tag == 'leaf':
newleaf = LeafDatabase()
newleaf.loadXml(ele)
self.leaf.append(newleaf)
def loadRootXml(self, xmldata, filter=None):
for ele in xmldata:
if ele.tag == 'branch':
if filter:
if ele.get('bank') == filter:
# print(ele.get('bank'), filter)
newbranch = BranchDatabase()
newbranch.loadXml(ele)
self.branch.append(newbranch)
def getIdBits(self):
count = 0
for ele in self.branch:
if ele.count:
count += ele.count
else:
count += 1
for ele in self.leaf:
if ele.count:
count += ele.count
else:
count += 1
return count
def countLeaves(self):
count = 0
for ele in self.branch:
count += ele.countLeaves()
for ele in self.leaf:
count += ele.countLeaves()
if self.count and self.atom:
# logging.getLogger(LOGGER).debug("countLeaves branch <- %s (nb:%s)" % (self.name, str(self.count)))
count *= self.count
return count
def execute_atom_found(self, level, pos, msgin, name=""):
if self.count:
step = self.count
else:
step=1
if name:
extraName = name + self.name
else:
extraName = self.name
for step in range(0, step):
logging.getLogger(LOGGER).debug('step:' + str(step)+ ' level:' + str(level) + ' pos:' + str(pos) + ' name:' + name)
if self.count:
idname = extraName + str(step)
else:
idname = extraName
for ele in self.branch:
level = ele.execute_atom_found(level, pos, msgin, idname)
logging.getLogger(LOGGER).debug('step:' + str(step)+ ' level:' + str(level) + ' pos:' + str(pos) + ' name:' + name + ' idname:' + str(idname))
if level > pos:
return level
for ele in self.leaf:
level = ele.execute_atom(level, pos, msgin, idname)
logging.getLogger(LOGGER).debug('step:' + str(step)+ ' level:' + str(level) + ' pos:' + str(pos) + ' name:' + name + ' idname:' + str(idname))
if level > pos:
return level
return level
def show(self, level=0, pos=0, filterlevel=None):
logging.getLogger(LOGGER).debug( "%s %s pos:%s Branch:%s : %s : %s - %s" % (" " * level, str(level), str(pos), str(self.name), str(self.count), str(self.atom), str(self.getIdBits())))
if filterlevel is not None:
if filterlevel <= level:
return
i = 0
for ele in self.branch:
ele.show(level + 1, i, filterlevel)
i += 1
for ele in self.leaf:
ele.show(level + 1)
def execute_atom(self, msgin, parent):
nbchild = self.countLeaves()
# nbchild = len(self.leaf) + len(self.branch)
#nbBit = getPowerOf2.getPowerOf2_Bis(nbchild)
logging.getLogger(LOGGER).debug("needRead:" + str(msgin.needRead()) + " nbchild:" + str(nbchild))
logging.getLogger(LOGGER).debug(msgin.showAllData())
if self.name:
idname = parent + self.name +'/'
else:
idname = parent
cBitSet = msgin.readCBitSet(nbchild, idname + ":Param", typeName = 'I' + str(nbchild))
#cBitSet = CBitSet.CBitSet()
#cBitSet.readSerialExtra(msgin, nbchild, self.name + "/Param")
logging.getLogger(LOGGER).debug(msgin.showAllData())
todelete_count_true = 0
for i in range(0, nbchild):
#ii = nbchild - i
logging.getLogger(LOGGER).debug(str(i) + " - " + str(cBitSet.get(i)))
if cBitSet.get(i):
todelete_count_true += 1
_ = self.execute_atom_found(0, i, msgin, parent)
if todelete_count_true > 1:
logging.getLogger(LOGGER).debug(msgin.showAllData())
#raise "A controler"
logging.getLogger(LOGGER).debug(msgin.showAllDataRaw())
logging.getLogger(LOGGER).debug(msgin.showAllData())
#raise "A faire"
#if self.name == "GROUP":
# raise "A controler"
def execute_normal(self, msgin, parent):
nbchild = self.getIdBits()
#nbBit = getPowerOf2.getPowerOf2_Bis(nbchild)
nbBit = getPowerOf2.getPowerOf2_ter(nbchild)
if nbBit > msgin.needRead() :
return
logging.getLogger(LOGGER).debug("needRead:" + str(msgin.needRead()) + " nbBit:" + str(nbBit))
id = msgin.readSerial(nbBit, name=parent, typeName='Number:'+str(nbBit), emulate=True)
i = 0
ii = 0
for ele in self.branch:
#logging.getLogger(LOGGER).debug(str(i) + " id:" + str(id) + " name:" + str(ele.name))
if ele.count:
i += ele.count
else:
i += 1
if i > id:
comment = ""
if ele.count:
pos = id - ii
comment = str(pos)
logging.getLogger(LOGGER).debug(str(i) + " id:" + str(id) + " name:" + str(ele.name))
if self.name:
idnameshort = parent + self.name + '/'
else:
idnameshort = parent
idname = idnameshort + ele.name
_= msgin.readSerial(nbBit, name=idname, typeName='Number:'+str(nbBit), emulate=False, commentValue=ele.name+comment)
logging.getLogger(LOGGER).debug("name:" + ele.name + ", count:" + str(ele.count) + ", atom:" + str(ele.atom))
ele.execute(msgin, idnameshort)
return
ii = i
for ele in self.leaf:
logging.getLogger(LOGGER).debug(str(i) + " id:" + str(id) + " name:" + str(ele.name))
if ele.count:
i += ele.count
else:
i += 1
if i > id:
comment = ""
if ele.count:
pos = id - ii
comment = str(pos)
if self.name:
idnameshort = parent + self.name + '/'
else:
idnameshort = parent
idname = idnameshort + ele.name + comment
logging.getLogger(LOGGER).debug(str(i) + " id:" + str(id) + " name:" + str(ele.name))
_ = msgin.readSerial(nbBit, name= idname, typeName='Number:'+str(nbBit), emulate=False, commentValue=ele.name+comment)
logging.getLogger(LOGGER).debug("name:" + ele.name + ", count:" + str(ele.count))
ele.execute(msgin, name=idnameshort)
return
ii = i
def execute(self, msgin, parent='DatabaseXML/'):
if self.atom:
self.execute_atom(msgin, parent)
else:
self.execute_normal(msgin, parent)
def execute_root(self, msgin):
if self.atom:
nbchild = self.countLeaves()
#nbBit = getPowerOf2.getPowerOf2_Bis(nbchild)
nbBit = getPowerOf2.getPowerOf2(nbchild)
raise "A faire"
else:
nbchild = self.getIdBits()
#nbBit = getPowerOf2.getPowerOf2_Bis(nbchild)
nbBit = getPowerOf2.getPowerOf2(nbchild)
while msgin.needRead() > nbBit:
logging.getLogger(LOGGER).debug("needRead:" + str(msgin.needRead()) + ", nbBit:" + str(nbBit))
self.execute(msgin)
class DecodeDatabase():
def __init__(self):
self.databaseXml = None
self.databasePlr = None
def loadDatabase(self, databaseXml):
self.databasePlr = BranchDatabase()
self.databasePlr.loadRootXml(databaseXml, 'PLR')
def execute(self, msgin, world):
self.databasePlr.execute(msgin)
def loadDatabase2(self, databaseXml):
logging.getLogger(LOGGER).debug("loadDatabase")
base = BranchDatabase()
#base.loadXml(databaseXml, 'PLR')
base.loadRootXml(databaseXml, 'PLR')
base.show(filterlevel=2)
base.show()
tmp = BitStream.BitStream()
tmp.internalSerial(23, 5)
tmp.internalSerial(0,1)
tmp.internalSerial(13237038,32)
base.execute_root(tmp)
logging.getLogger(LOGGER).debug(tmp.showAllData())
tmp = BitStream.BitStream()
tmp.internalSerial(21, 5)
tmp.internalSerial(8,5)
tmp.internalSerial(2,3)
tmp.internalSerial(0,3)
tmp.internalSerial(0,5)
tmp.internalSerial(3,9)
tmp.internalSerial(69,9)
tmp.internalSerial(10,5)
tmp.internalSerial(10,5)
tmp.internalSerial(0,5)
tmp.internalSerial(0,9)
tmp.internalSerial(200,9)
tmp.internalSerial(21,5)
tmp.internalSerial(10,5)
tmp.internalSerial(8,5)
tmp.internalSerial(0,1)
tmp.internalSerial(821933,32)
tmp.internalSerial(0,5)
tmp.internalSerial(0,9)
tmp.internalSerial(100,9)
tmp.internalSerial(14,5)
tmp.internalSerial(16,5)
tmp.internalSerial(4,5)
tmp.internalSerial(0,2)
tmp.internalSerial(15,8)
tmp.internalSerial(64,8)
tmp.internalSerial(0,8)
tmp.internalSerial(1,2)
base.execute_root(tmp)
logging.getLogger(LOGGER).debug(tmp.showAllData())
raise "Stop"
self.databaseXml = databaseXml
id = 0
self.databasePlr = {'name': 'root', 'bank': 'PLR', 'child': {}, 'min':0, 'max':0 , 'atom': False}
for ele in self.databaseXml:
if ele.tag == 'branch':
if ele.get('bank') == "PLR":
if 'atom' in ele:
if int(ele.get('atom')) > 0:
#self.databasePlr
pass
self.databasePlr['child'][id] = child(ele)
self.databasePlr['child'][id]['min'] = id
self.databasePlr['child'][id]['max'] = id
id += 1
#print(dir(ele))
nb = len(self.databasePlr) - 1
self.databasePlr['min'] = 0
self.databasePlr['max'] = nb
show_dico(self.databasePlr)
logging.getLogger(LOGGER).debug("max %d" % str(self.databasePlr['max']))
#raise "Decode"