mirror of
https://github.com/robmcmullen/atrcopy.git
synced 2024-09-27 13:54:55 +00:00
118 lines
4.5 KiB
Python
118 lines
4.5 KiB
Python
import numpy as np
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from . import errors
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from .ataridos import AtariDosDirent, AtariDosDiskImage, XexSegment, get_xex
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from .segments import SegmentData
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class KBootDirent(AtariDosDirent):
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def __init__(self, image):
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AtariDosDirent.__init__(self, image)
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self.in_use = True
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self.starting_sector = 4
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self.basename = image.filename
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if not self.basename:
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self.basename = "KBOOT"
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if self.basename == self.basename.upper():
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self.ext = "XEX"
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else:
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self.ext = "xex"
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start, size = image.header.get_pos(4)
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i = image.header.header_offset + 9
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count = image.bytes[i] + 256 * image.bytes[i+1] + 256 * 256 *image.bytes[i + 2]
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if start + count > image.size or start + count < image.size - 128:
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self.is_sane = False
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else:
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self.exe_size = count
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self.exe_start = start
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self.num_sectors = count // 128 + 1
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def parse_raw_dirent(self, image, bytes):
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pass
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def process_raw_sector(self, image, raw):
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num_bytes = np.alen(raw)
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return raw[0:num_bytes], num_bytes
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class KBootImage(AtariDosDiskImage):
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def __str__(self):
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return "%s KBoot Format: %d byte executable" % (self.header, self.files[0].exe_size)
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def check_sane(self):
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if not self.all_sane:
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raise errors.InvalidDiskImage("Doesn't seem to be KBoot header")
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def get_vtoc(self):
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pass
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def get_directory(self):
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dirent = KBootDirent(self)
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if not dirent.is_sane:
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self.all_sane = False
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self.files = [dirent]
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def get_file_segment(self, dirent):
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start = dirent.exe_start
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end = dirent.exe_start + dirent.exe_size
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raw = self.rawdata[start:end]
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return XexSegment(raw, 0, 0, start, end, name="KBoot Executable")
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def get_boot_segments(self):
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return []
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def get_vtoc_segments(self):
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return []
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def get_directory_segments(self):
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return []
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@classmethod
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def create_boot_image(cls, segments, run_addr=None):
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data_segment, _ = get_xex(segments)
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data_bytes = add_xexboot_header(data_segment.data)
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raw = SegmentData(data_bytes)
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atr = cls(raw, create=True)
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return atr
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xexboot_header = b'\x00\x03\x00\x07\r\x07L\r\x07\x1c[\x00\x00\xa0\x00\x8c\t\x03\x8c\x04\x03\x8cD\x02\x8c\xe2\x02\x8c\xe3\x02\xc8\x84\t\x8c\x01\x03\xce\x06\x03\xa91\x8d\x00\x03\xa9R\x8d\x02\x03\xa9\x80\x8d\x08\x03\xa9\x01\x8d\x05\x03\xa9\xe3\x8d0\x02\x8d\x02\xd4\xa9\x07\x8d1\x02\x8d\x03\xd4\xa9\x00\xaa\x8d\x0b\x03\xa9\x04\x8d\n\x03 \xbc\x07\xca \xa5\x07\x85C \xa5\x07\x85D%C\xc9\xff\xf0\xf0 \xa5\x07\x85E \xa5\x07\x85F \xa5\x07\x91C\xe6C\xd0\x02\xe6D\xa5E\xc5C\xa5F\xe5D\xb0\xeb\xad\xe2\x02\r\xe3\x02\xf0\xc9\x86\x19 \xa2\x07\xa6\x19\xa0\x00\x8c\xe2\x02\x8c\xe3\x02\xf0\xb8l\xe2\x02\xad\t\x07\xd0\x0b\xad\n\x07\xd0\x03l\xe0\x02\xce\n\x07\xce\t\x07\xe0\x80\x90"\xa9@\x8d\x03\x03 Y\xe4\x10\x06\xce\x01\x07\xd0\xf1\x00\xee\n\x03\xd0\x03\xee\x0b\x03\xad\n\x03\x8d\x19\xd0\xa0\x00\xa2\x00\xbd\x00\x01\xe8`pppppF\xf8\x07p\x07ppp\x06p\x06p\x06A\xe3\x07\x00\x00\x00\x00\x00,/!$).\'\x0e\x0e\x0e\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00&2/-'
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def insert_bytes(data, offset, string, color):
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s = np.fromstring(string.upper(), dtype=np.uint8) - 32 # convert to internal
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s = s | color
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count = len(s)
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tx = offset + (20 - count) // 2
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data[tx:tx+count] = s
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def add_xexboot_header(bytes, bootcode=None, title=b"DEMO", author=b"an atari user"):
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sec_size = 128
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xex_size = len(bytes)
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num_sectors = (xex_size + sec_size - 1) // sec_size
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padded_size = num_sectors * sec_size
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if xex_size < padded_size:
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bytes = np.append(bytes, np.zeros([padded_size - xex_size], dtype=np.uint8))
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paragraphs = padded_size // 16
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if bootcode is None:
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bootcode = np.fromstring(xexboot_header, dtype=np.uint8)
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else:
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# don't insert title or author in user supplied bootcode; would have to
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# assume that the user supplied everything desired in their own code!
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title = ""
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author = ""
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bootsize = np.alen(bootcode)
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v = bootcode[9:11].view(dtype="<u2")
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v[0] = xex_size
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bootsectors = np.zeros([384], dtype=np.uint8)
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bootsectors[0:bootsize] = bootcode
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insert_bytes(bootsectors, 268, title, 0b11000000)
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insert_bytes(bootsectors, 308, author, 0b01000000)
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image = np.append(bootsectors, bytes)
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return image
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