forked from Imagelibrary/littlefs
007ac97bec
This matches the style used in C, which is good for consistency:
a_really_long_function_name(
double_indent_after_first_newline(
single_indent_nested_newlines))
We were already doing this for multiline control-flow statements, simply
because I'm not sure how else you could indent this without making
things really confusing:
if a_really_long_function_name(
double_indent_after_first_newline(
single_indent_nested_newlines)):
do_the_thing()
This was the only real difference style-wise between the Python code and
C code, so now both should be following roughly the same style (80 cols,
double-indent multiline exprs, prefix multiline binary ops, etc).
185 lines
5.1 KiB
Python
Executable File
185 lines
5.1 KiB
Python
Executable File
#!/usr/bin/env python3
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import os
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# some ways of block geometry representations
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# 512 -> 512
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# 512x16 -> (512, 16)
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# 0x200x10 -> (512, 16)
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def bdgeom(s):
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s = s.strip()
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b = 10
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if s.startswith('0x') or s.startswith('0X'):
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s = s[2:]
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b = 16
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elif s.startswith('0o') or s.startswith('0O'):
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s = s[2:]
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b = 8
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elif s.startswith('0b') or s.startswith('0B'):
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s = s[2:]
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b = 2
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if 'x' in s:
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s, s_ = s.split('x', 1)
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return (int(s, b), int(s_, b))
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else:
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return int(s, b)
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# parse some rbyd addr encodings
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# 0xa -> [0xa]
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# 0xa.c -> [(0xa, 0xc)]
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# 0x{a,b} -> [0xa, 0xb]
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# 0x{a,b}.c -> [(0xa, 0xc), (0xb, 0xc)]
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def rbydaddr(s):
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s = s.strip()
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b = 10
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if s.startswith('0x') or s.startswith('0X'):
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s = s[2:]
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b = 16
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elif s.startswith('0o') or s.startswith('0O'):
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s = s[2:]
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b = 8
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elif s.startswith('0b') or s.startswith('0B'):
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s = s[2:]
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b = 2
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trunk = None
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if '.' in s:
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s, s_ = s.split('.', 1)
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trunk = int(s_, b)
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if s.startswith('{') and '}' in s:
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ss = s[1:s.find('}')].split(',')
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else:
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ss = [s]
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addr = []
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for s in ss:
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if trunk is not None:
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addr.append((int(s, b), trunk))
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else:
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addr.append(int(s, b))
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return addr
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def xxd(data, width=16):
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for i in range(0, len(data), width):
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yield '%-*s %-*s' % (
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3*width,
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' '.join('%02x' % b for b in data[i:i+width]),
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width,
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''.join(
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b if b >= ' ' and b <= '~' else '.'
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for b in map(chr, data[i:i+width])))
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def crc32c(data, crc=0):
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crc ^= 0xffffffff
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for b in data:
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crc ^= b
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for j in range(8):
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crc = (crc >> 1) ^ ((crc & 1) * 0x82f63b78)
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return 0xffffffff ^ crc
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def main(disk, block=None, *,
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block_size=None,
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block_count=None,
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off=None,
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size=None,
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cksum=False):
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# is bd geometry specified?
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if isinstance(block_size, tuple):
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block_size, block_count_ = block_size
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if block_count is None:
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block_count = block_count_
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# flatten block, default to block 0
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if not block:
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block = [0]
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if len(block) > 1:
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print("error: more than one block address?",
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file=sys.stderr)
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sys.exit(-1)
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block = block[0]
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with open(disk, 'rb') as f:
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# if block_size is omitted, assume the block device is one big block
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if block_size is None:
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f.seek(0, os.SEEK_END)
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block_size = f.tell()
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# block may also encode an offset
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block, off, size = (
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block[0] if isinstance(block, tuple) else block,
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off[0] if isinstance(off, tuple)
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else off if off is not None
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else size[0] if isinstance(size, tuple) and len(size) > 1
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else block[1] if isinstance(block, tuple)
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else None,
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size[1] - size[0] if isinstance(size, tuple) and len(size) > 1
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else size[0] if isinstance(size, tuple)
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else size if size is not None
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else off[1] - off[0]
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if isinstance(off, tuple) and len(off) > 1
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else block_size)
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# read the block
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f.seek((block * block_size) + (off or 0))
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data = f.read(size)
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# calculate checksum
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cksum = crc32c(data)
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# print the header
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print('block %s, size %d, cksum %08x' % (
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'0x%x.%x' % (block, off)
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if off is not None
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else '0x%x' % block,
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size,
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cksum))
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# render the hex view
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for o, line in enumerate(xxd(data)):
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print('%08x: %s' % ((off or 0) + 16*o, line))
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if __name__ == "__main__":
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import argparse
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import sys
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parser = argparse.ArgumentParser(
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description="Debug block devices.",
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allow_abbrev=False)
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parser.add_argument(
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'disk',
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help="File containing the block device.")
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parser.add_argument(
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'block',
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nargs='?',
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type=rbydaddr,
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help="Block address.")
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parser.add_argument(
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'-b', '--block-size',
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type=bdgeom,
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help="Block size/geometry in bytes.")
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parser.add_argument(
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'--block-count',
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type=lambda x: int(x, 0),
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help="Block count in blocks.")
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parser.add_argument(
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'--off',
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type=lambda x: tuple(
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int(x, 0) if x.strip() else None
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for x in x.split(',')),
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help="Show a specific offset, may be a range.")
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parser.add_argument(
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'-n', '--size',
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type=lambda x: tuple(
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int(x, 0) if x.strip() else None
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for x in x.split(',')),
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help="Show this many bytes, may be a range.")
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sys.exit(main(**{k: v
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for k, v in vars(parser.parse_intermixed_args()).items()
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if v is not None}))
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