def __init__(self,
opcodes,
imageFileName,
symbols,
indirectAddresses,
directAddresses=()):
self.opcodes = opcodes
self.memory = ReadWriteMemory(file(imageFileName, "rb"))
self.memoryExplorer = MemoryExplorer(size=len(self.memory),
offset=0x0000)
self.getByte = self.memory.createGetter(1, self.memory.BIG_ENDIAN)
self.getWord = self.memory.createGetter(2, self.memory.BIG_ENDIAN)
self.symbols = symbols
Operation.symbols = self.symbols
self.pc = 0x0000
self.callTargets = set(
tuple([self.getWord(e)
for e in indirectAddresses])).union(set(directAddresses))
self.jumpTargets = set()
self.processed = set()
def __init__(self, opcodes, imageFileName, symbols, indirectAddresses, directAddresses = ()):
self.opcodes = opcodes
self.memory = ReadWriteMemory(file(imageFileName, "rb"))
self.memoryExplorer = MemoryExplorer(size = len(self.memory), offset = 0x0000)
self.getByte = self.memory.createGetter(1, self.memory.BIG_ENDIAN)
self.getWord = self.memory.createGetter(2, self.memory.BIG_ENDIAN)
self.symbols = symbols
Operation.symbols = self.symbols
self.pc = 0x0000
self.callTargets = set(tuple([self.getWord(e) for e in indirectAddresses])).union(set(directAddresses))
self.jumpTargets = set()
self.processed = set()
class Disassembler(object):
def __init__(self, opcodes, imageFileName, symbols, indirectAddresses, directAddresses = ()):
self.opcodes = opcodes
self.memory = ReadWriteMemory(file(imageFileName, "rb"))
self.memoryExplorer = MemoryExplorer(size = len(self.memory), offset = 0x0000)
self.getByte = self.memory.createGetter(1, self.memory.BIG_ENDIAN)
self.getWord = self.memory.createGetter(2, self.memory.BIG_ENDIAN)
self.symbols = symbols
Operation.symbols = self.symbols
self.pc = 0x0000
self.callTargets = set(tuple([self.getWord(e) for e in indirectAddresses])).union(set(directAddresses))
self.jumpTargets = set()
self.processed = set()
#print "Call-Targets: ", [hex(x) for x in self.callTargets]
#print sorted([hex(x) for x in self.jumpTargets])
def disassemble(self):
lines = set()
while self.callTargets:
target = self.callTargets.pop()
result = self.disassembleTillReturn(target)
#lines.extend(result)
lines = lines.union(result)
#return sorted(set(lines), key = lambda o: o.address)
return dict((e.address, e) for e in lines)
def disassembleTillReturn(self, address):
lines = set()
origAddress = address
if address == 0xaf4:
print ""
while True:
try:
line = self.disassembleLine(address)
except IndexError as e:
print "Index-Error while disassembling line: %s" % e
break
except IllegalOpcode as e:
print "Illegal Opcode while disassembling line: %s" % e
break
address += line.size
#if not self.memoryExplorer.isExplored(origAddress): # and line not in lines:
if origAddress not in self.processed:
lines.add(line) #lines.append(line)
if line.opcode in RETURNS:
break
self.processed.add(origAddress)
while self.jumpTargets:
target = self.jumpTargets.pop()
if not self.memoryExplorer.isExplored(target):
lines = lines.union(self.disassembleTillReturn(target))#lines.extend(self.disassembleTillReturn(target))
return lines
def disassembleLine(self, address):
op = self.getByte(address)
opcode = self.opcodes[op]
opcodeName = opcode.name
addressingMode = opcode.addressingMode
opcodeSize = opcode.size
operandData = self.getWord(address + 1) if opcodeSize == 3 else self.getByte(address + 1) if opcodeSize == 2 else None
operand = ""
if op in ILLEGAL_OPCODES:
raise IllegalOpcode("0x%02x [Address: 0x%04x]" % (op, address, ))
else:
if address in Operation.symbols:
#print "0x%04x ==> %s" % (address, Operation.symbols[address])
label = Operation.symbols[address]
else:
label = ''
operation = Operation(address, opcodeSize, label, op, opcodeName, operand, operandData, addressingMode, '')
#print "$%04x %02x %s" % (address, op, operation.formatOperandData()),
#print opcodeName,
displayString, destination = operation.processes()
#print displayString
self.memoryExplorer.setExplored(address, opcodeSize)
newAddress = address + opcodeSize
##
## Code above is almost identical with simulator.
##
## START SPECIAL.
## END SPECIAL.
##
## Code below is almost identical with simulator.
##
if op in JUMPS:
if destination and not self.memoryExplorer.isExplored(destination): # in self.processed:
self.jumpTargets.add(destination)
elif op in CALLS:
if destination and not self.memoryExplorer.isExplored(destination): #destination in self.processed:
if destination < len(self.memory): ### CHECK!!!
self.callTargets.add(destination)
else:
print "Uups!?"
return operation
class Disassembler(object):
def __init__(self,
opcodes,
imageFileName,
symbols,
indirectAddresses,
directAddresses=()):
self.opcodes = opcodes
self.memory = ReadWriteMemory(file(imageFileName, "rb"))
self.memoryExplorer = MemoryExplorer(size=len(self.memory),
offset=0x0000)
self.getByte = self.memory.createGetter(1, self.memory.BIG_ENDIAN)
self.getWord = self.memory.createGetter(2, self.memory.BIG_ENDIAN)
self.symbols = symbols
Operation.symbols = self.symbols
self.pc = 0x0000
self.callTargets = set(
tuple([self.getWord(e)
for e in indirectAddresses])).union(set(directAddresses))
self.jumpTargets = set()
self.processed = set()
#print "Call-Targets: ", [hex(x) for x in self.callTargets]
#print sorted([hex(x) for x in self.jumpTargets])
def disassemble(self):
lines = set()
while self.callTargets:
target = self.callTargets.pop()
result = self.disassembleTillReturn(target)
#lines.extend(result)
lines = lines.union(result)
#return sorted(set(lines), key = lambda o: o.address)
return dict((e.address, e) for e in lines)
def disassembleTillReturn(self, address):
lines = set()
origAddress = address
if address == 0xaf4:
print ""
while True:
try:
line = self.disassembleLine(address)
except IndexError as e:
print "Index-Error while disassembling line: {0!s}".format(e)
break
except IllegalOpcode as e:
print "Illegal Opcode while disassembling line: {0!s}".format(
e)
break
address += line.size
#if not self.memoryExplorer.isExplored(origAddress): # and line not in lines:
if origAddress not in self.processed:
lines.add(line) #lines.append(line)
if line.opcode in RETURNS:
break
self.processed.add(origAddress)
while self.jumpTargets:
target = self.jumpTargets.pop()
if not self.memoryExplorer.isExplored(target):
lines = lines.union(self.disassembleTillReturn(
target)) #lines.extend(self.disassembleTillReturn(target))
return lines
def disassembleLine(self, address):
op = self.getByte(address)
opcode = self.opcodes[op]
opcodeName = opcode.name
addressingMode = opcode.addressingMode
opcodeSize = opcode.size
operandData = self.getWord(address +
1) if opcodeSize == 3 else self.getByte(
address +
1) if opcodeSize == 2 else None
operand = ""
if op in ILLEGAL_OPCODES:
raise IllegalOpcode("0x{0:02x} [Address: 0x{1:04x}]".format(
op, address))
else:
if address in Operation.symbols:
#print "0x%04x ==> %s" % (address, Operation.symbols[address])
label = Operation.symbols[address]
else:
label = ''
operation = Operation(address, opcodeSize, label, op, opcodeName,
operand, operandData, addressingMode, '')
#print "$%04x %02x %s" % (address, op, operation.formatOperandData()),
#print opcodeName,
displayString, destination = operation.processes()
#print displayString
self.memoryExplorer.setExplored(address, opcodeSize)
newAddress = address + opcodeSize
##
## Code above is almost identical with simulator.
##
## START SPECIAL.
## END SPECIAL.
##
## Code below is almost identical with simulator.
##
if op in JUMPS:
if destination and not self.memoryExplorer.isExplored(
destination): # in self.processed:
self.jumpTargets.add(destination)
elif op in CALLS:
if destination and not self.memoryExplorer.isExplored(
destination): #destination in self.processed:
if destination < len(self.memory): ### CHECK!!!
self.callTargets.add(destination)
else:
print "Uups!?"
return operation
