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- # greaseweazle/image/hfe.py
- #
- # Written & released by Keir Fraser <keir.xen@gmail.com>
- #
- # This is free and unencumbered software released into the public domain.
- # See the file COPYING for more details, or visit <http://unlicense.org>.
- import struct
- from greaseweazle import error
- from greaseweazle.track import MasterTrack, RawTrack
- from bitarray import bitarray
- from .image import Image
- class HFE(Image):
- def __init__(self, start_cyl, nr_sides):
- self.start_cyl = start_cyl
- self.nr_sides = nr_sides
- self.bitrate = 250 # XXX real bitrate?
- # Each track is (bitlen, rawbytes).
- # rawbytes is a bytes() object in little-endian bit order.
- self.track_list = []
- @classmethod
- def from_file(cls, name):
- with open(name, "rb") as f:
- dat = f.read()
- (sig, f_rev, nr_cyls, nr_sides, t_enc, bitrate,
- _, _, _, tlut_base) = struct.unpack("<8s4B2H2BH", dat[:20])
- error.check(sig != b"HXCHFEV3", "HFEv3 is not supported")
- error.check(sig == b"HXCPICFE" and f_rev <= 1, "Not a valid HFE file")
- error.check(0 < nr_cyls, "HFE: Invalid #cyls")
- error.check(0 < nr_sides < 3, "HFE: Invalid #sides")
- error.check(bitrate != 0, "HFE: Invalid bitrate")
-
- hfe = cls(0, nr_sides)
- hfe.bitrate = bitrate
- tlut = dat[tlut_base*512:tlut_base*512+nr_cyls*4]
-
- for cyl in range(nr_cyls):
- for side in range(nr_sides):
- offset, length = struct.unpack("<2H", tlut[cyl*4:(cyl+1)*4])
- todo = length // 2
- tdat = bytes()
- while todo:
- d_off = offset*512 + side*256
- d_nr = 256 if todo > 256 else todo
- tdat += dat[d_off:d_off+d_nr]
- todo -= d_nr
- offset += 1
- hfe.track_list.append((len(tdat)*8, tdat))
- return hfe
- def get_track(self, cyl, side):
- if side >= self.nr_sides or cyl < self.start_cyl:
- return None
- off = cyl * self.nr_sides + side
- if off >= len(self.track_list):
- return None
- bitlen, rawbytes = self.track_list[off]
- tdat = bitarray(endian='little')
- tdat.frombytes(rawbytes)
- track = MasterTrack(
- bits = tdat[:bitlen],
- time_per_rev = bitlen / (2000*self.bitrate))
- return track
- def append_track(self, track):
- raw = RawTrack(clock = 5e-4 / self.bitrate, data = track)
- bits, _ = raw.get_revolution(0)
- bits.bytereverse()
- self.track_list.append((len(bits), bits.tobytes()))
- def get_image(self):
- # Construct the image header.
- n_cyl = self.start_cyl + len(self.track_list) // self.nr_sides
- header = struct.pack("<8s4B2H2BH",
- b"HXCPICFE",
- 0,
- n_cyl,
- self.nr_sides,
- 0xff, # unknown encoding
- self.bitrate,
- 0, # rpm (unused)
- 0xff, # unknown interface
- 1, # rsvd
- 1) # track list offset
- # We dynamically build the Track-LUT and -Data arrays.
- tlut = bytearray()
- tdat = bytearray()
- # Dummy data for unused initial cylinders. Assumes 300RPM.
- for i in range(self.start_cyl):
- nr_bytes = 100 * self.bitrate
- tlut += struct.pack("<2H", len(tdat)//512 + 2, nr_bytes)
- tdat += bytes([0x88] * (nr_bytes+0x1ff & ~0x1ff))
- # Stuff real data into the image.
- for i in range(0, len(self.track_list), self.nr_sides):
- bc = [self.track_list[i],
- self.track_list[i+1] if self.nr_sides > 1 else (0,bytes())]
- nr_bytes = max(len(t[1]) for t in bc)
- nr_blocks = (nr_bytes + 0xff) // 0x100
- tlut += struct.pack("<2H", len(tdat)//512 + 2, 2 * nr_bytes)
- for b in range(nr_blocks):
- for t in bc:
- slice = t[1][b*256:(b+1)*256]
- tdat += slice + bytes([0x88] * (256 - len(slice)))
- # Pad the header and TLUT to 512-byte blocks.
- header += bytes([0xff] * (0x200 - len(header)))
- tlut += bytes([0xff] * (0x200 - len(tlut)))
- return header + tlut + tdat
- # Local variables:
- # python-indent: 4
- # End:
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