188 lines
5.8 KiB
Python
Executable File
188 lines
5.8 KiB
Python
Executable File
#!/usr/bin/env python3
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from RuneRunner import RuneRunner
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from RuneText import Rune, RuneText
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import lib as LIB
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#########################################
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# RuneSolver : Generic parent class handles interrupts and text highlight
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#########################################
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class RuneSolver(RuneRunner):
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def __init__(self):
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super().__init__()
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self.reset()
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def reset(self):
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self.INTERRUPT = 'ᚠ'
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self.INTERRUPT_POS = [] # '1' for first occurrence of INTERRUPT
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def highlight_interrupt(self):
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return self.highlight_rune(self.INTERRUPT, self.INTERRUPT_POS)
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def run(self, data=None):
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if data:
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self.input.load(data=data)
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self.interrupt_counter = 0
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self.start(self.cipher_callback)
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def cipher_callback(self, encrypted_data, index):
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obj = encrypted_data[index]
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is_interrupt = obj.rune == self.INTERRUPT
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if is_interrupt:
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self.interrupt_counter += 1
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skip = is_interrupt and self.interrupt_counter in self.INTERRUPT_POS
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mark_this = self.mark_char_at(index)
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if not skip:
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obj = self.cipher(obj, (index, encrypted_data))
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mark_next = self.mark_char_at(index)
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return obj, mark_this, mark_next
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def cipher(self, rune, context):
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raise NotImplementedError # must subclass
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def mark_char_at(self, position):
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return False
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def __str__(self):
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txt = f'DATA: {len(self.input.data) if self.input.data else 0} bytes'
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if self.input.loaded_file:
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txt += f' (file: {self.input.loaded_file})'
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else:
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txt += f' (manual input)'
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return txt + f'\ninterrupt jumps: {self.INTERRUPT_POS}'
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#########################################
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# SequenceSolver : Decrypt runes with sequential function
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#########################################
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class SequenceSolver(RuneSolver):
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def __init__(self):
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super().__init__()
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self.seq_index = 0
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self.reset()
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def reset(self):
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super().reset()
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self.FN = None
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def run(self, data=None):
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self.seq_index = 0
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assert(self.FN)
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super().run(data=data)
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def cipher(self, rune, context):
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x = self.FN(self.seq_index, rune)
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self.seq_index += 1
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return x
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def __str__(self):
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return super().__str__() + f'\nf(x): {self.FN}'
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#########################################
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# RunningKeySolver : Decrypt runes with key; handles shift, rotation, etc.
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#########################################
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class RunningKeySolver(RuneSolver):
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def __init__(self):
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super().__init__()
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self.reset()
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def reset(self):
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super().reset()
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self.KEY_DATA = [] # the key material
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self.KEY_INVERT = False # ABCD -> ZYXW
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self.KEY_SHIFT = 0 # ABCD -> DABC
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self.KEY_ROTATE = 0 # ABCD -> ZABC
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self.KEY_OFFSET = 0 # ABCD -> __ABCD
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self.KEY_POST_PAD = 0 # ABCD -> ABCD__
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def run(self, data=None):
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self.k_current_pos = 0
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self.k_len = len(self.KEY_DATA)
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self.k_full_len = self.KEY_OFFSET + self.k_len + self.KEY_POST_PAD
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super().run(data=data)
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def mark_char_at(self, position):
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return self.active_key_pos() != -1
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def active_key_pos(self):
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i = self.k_current_pos - self.KEY_OFFSET
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if i >= 0 and i < self.k_len:
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if self.KEY_DATA[i] != 29: # placeholder for unknown
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return i
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return -1
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def cipher(self, rune, context):
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r_idx = rune.index
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if self.KEY_INVERT:
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r_idx = 28 - r_idx
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pos = self.active_key_pos()
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if pos != -1:
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i = (pos + self.KEY_SHIFT) % self.k_len
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r_idx = (self.decrypt(r_idx, i) - self.KEY_ROTATE) % 29
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# rotate_key
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if self.k_full_len > 0: # e.g., for key invert without a key
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self.k_current_pos = (self.k_current_pos + 1) % self.k_full_len
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return Rune(i=r_idx)
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def decrypt(self, rune_index, key_index):
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raise NotImplementedError # must subclass
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def key__str__(self):
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return self.KEY_DATA # you should override this
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def key__str__basic_runes(self):
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return RuneText(self.KEY_DATA).description(indexWhitespace=True)
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def __str__(self):
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txt = super().__str__()
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txt += f'\nkey: {self.key__str__()}'
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txt += f'\nkey invert: {self.KEY_INVERT}'
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txt += f'\nkey offset: {self.KEY_OFFSET} runes'
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txt += f'\nkey post pad: {self.KEY_POST_PAD} runes'
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txt += f'\nkey shift: {self.KEY_SHIFT} indices'
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txt += f'\nkey rotate: {self.KEY_ROTATE} indices'
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return txt
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#########################################
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# VigenereSolver : Decrypt runes with an array of indices
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#########################################
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class VigenereSolver(RunningKeySolver):
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def decrypt(self, rune_index, key_index):
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return rune_index - self.KEY_DATA[key_index]
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def key__str__(self):
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return self.key__str__basic_runes()
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#########################################
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# AffineSolver : Decrypt runes with an array of (s, t) affine keys
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#########################################
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class AffineSolver(RunningKeySolver):
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def decrypt(self, rune_index, key_index):
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return LIB.affine_decrypt(rune_index, self.KEY_DATA[key_index])
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#########################################
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# AutokeySolver : Decrypts runes by using previously decrypted ones as input
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#########################################
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class AutokeySolver(RunningKeySolver):
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def run(self, data=None):
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self.running_key = self.KEY_DATA[:]
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super().run(data=data)
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def decrypt(self, rune_index, key_index):
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rune_index = (rune_index - self.running_key.pop(0)) % 29
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self.running_key.append(rune_index)
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return rune_index
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def key__str__(self):
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return self.key__str__basic_runes()
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