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littlefs/scripts/dbgrbyd.py
Christopher Haster 7cfcc1af1d scripts: Renamed summary.py -> csv.py 
This seems like a more fitting name now that this script has evolved
into more of a general purpose high-level CSV tool.

Unfortunately this does conflict with the standard csv module in Python,
breaking every script that imports csv (which is most of them).
Fortunately, Python is flexible enough to let us remove the current
directory before imports with a bit of an ugly hack:

  # prevent local imports
  __import__('sys').path.pop(0)

These scripts are intended to be standalone anyways, so this is probably
a good pattern to adopt.
2024-11-09 12:31:16 -06:00

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#!/usr/bin/env python3
# prevent local imports
__import__('sys').path.pop(0)
import bisect
import collections as co
import itertools as it
import math as mt
import os
import struct
COLORS = [
'34', # blue
'31', # red
'32', # green
'35', # purple
'33', # yellow
'36', # cyan
]
TAG_NULL = 0x0000 ## 0x0000 v--- ---- ---- ----
TAG_CONFIG = 0x0000 ## 0x00tt v--- ---- -ttt tttt
TAG_MAGIC = 0x0003 # 0x0003 v--- ---- ---- --11
TAG_VERSION = 0x0004 # 0x0004 v--- ---- ---- -1--
TAG_RCOMPAT = 0x0005 # 0x0005 v--- ---- ---- -1-1
TAG_WCOMPAT = 0x0006 # 0x0006 v--- ---- ---- -11-
TAG_OCOMPAT = 0x0007 # 0x0007 v--- ---- ---- -111
TAG_GEOMETRY = 0x0009 # 0x0008 v--- ---- ---- 1-rr
TAG_NAMELIMIT = 0x000c # 0x000c v--- ---- ---- 11--
TAG_FILELIMIT = 0x000d # 0x000d v--- ---- ---- 11-1
TAG_GDELTA = 0x0100 ## 0x01tt v--- ---1 -ttt tttt
TAG_GRMDELTA = 0x0100 # 0x0100 v--- ---1 ---- ----
TAG_NAME = 0x0200 ## 0x02tt v--- --1- -ttt tttt
TAG_REG = 0x0201 # 0x0201 v--- --1- ---- ---1
TAG_DIR = 0x0202 # 0x0202 v--- --1- ---- --1-
TAG_BOOKMARK = 0x0204 # 0x0204 v--- --1- ---- -1--
TAG_ORPHAN = 0x0205 # 0x0205 v--- --1- ---- -1-1
TAG_STRUCT = 0x0300 ## 0x03tt v--- --11 -ttt tttt
TAG_DATA = 0x0300 # 0x0300 v--- --11 ---- ----
TAG_BLOCK = 0x0304 # 0x0304 v--- --11 ---- -1rr
TAG_BSHRUB = 0x0308 # 0x0308 v--- --11 ---- 1---
TAG_BTREE = 0x030c # 0x030c v--- --11 ---- 11rr
TAG_MROOT = 0x0311 # 0x0310 v--- --11 ---1 --rr
TAG_MDIR = 0x0315 # 0x0314 v--- --11 ---1 -1rr
TAG_MTREE = 0x031c # 0x031c v--- --11 ---1 11rr
TAG_DID = 0x0320 # 0x0320 v--- --11 --1- ----
TAG_BRANCH = 0x032c # 0x032c v--- --11 --1- 11rr
TAG_ATTR = 0x0400 ## 0x04aa v--- -1-a -aaa aaaa
TAG_UATTR = 0x0400 # 0x04aa v--- -1-- -aaa aaaa
TAG_SATTR = 0x0500 # 0x05aa v--- -1-1 -aaa aaaa
TAG_SHRUB = 0x1000 ## 0x1kkk v--1 kkkk -kkk kkkk
TAG_ALT = 0x4000 ## 0x4kkk v1cd kkkk -kkk kkkk
TAG_B = 0x0000
TAG_R = 0x2000
TAG_LE = 0x0000
TAG_GT = 0x1000
TAG_CKSUM = 0x3000 ## 0x3c0p v-11 cccc ---- --qp
TAG_P = 0x0001
TAG_Q = 0x0002
TAG_NOTE = 0x3100 # 0x3100 v-11 ---1 ---- ----
TAG_ECKSUM = 0x3200 # 0x3200 v-11 --1- ---- ----
# some ways of block geometry representations
# 512 -> 512
# 512x16 -> (512, 16)
# 0x200x10 -> (512, 16)
def bdgeom(s):
s = s.strip()
b = 10
if s.startswith('0x') or s.startswith('0X'):
s = s[2:]
b = 16
elif s.startswith('0o') or s.startswith('0O'):
s = s[2:]
b = 8
elif s.startswith('0b') or s.startswith('0B'):
s = s[2:]
b = 2
if 'x' in s:
s, s_ = s.split('x', 1)
return (int(s, b), int(s_, b))
else:
return int(s, b)
# parse some rbyd addr encodings
# 0xa -> (0xa,)
# 0xa.c -> ((0xa, 0xc),)
# 0x{a,b} -> (0xa, 0xb)
# 0x{a,b}.c -> ((0xa, 0xc), (0xb, 0xc))
def rbydaddr(s):
s = s.strip()
b = 10
if s.startswith('0x') or s.startswith('0X'):
s = s[2:]
b = 16
elif s.startswith('0o') or s.startswith('0O'):
s = s[2:]
b = 8
elif s.startswith('0b') or s.startswith('0B'):
s = s[2:]
b = 2
trunk = None
if '.' in s:
s, s_ = s.split('.', 1)
trunk = int(s_, b)
if s.startswith('{') and '}' in s:
ss = s[1:s.find('}')].split(',')
else:
ss = [s]
addr = []
for s in ss:
if trunk is not None:
addr.append((int(s, b), trunk))
else:
addr.append(int(s, b))
return tuple(addr)
def crc32c(data, crc=0):
crc ^= 0xffffffff
for b in data:
crc ^= b
for j in range(8):
crc = (crc >> 1) ^ ((crc & 1) * 0x82f63b78)
return 0xffffffff ^ crc
def popc(x):
return bin(x).count('1')
def parity(x):
return popc(x) & 1
def fromle32(data):
return struct.unpack('<I', data[0:4].ljust(4, b'\0'))[0]
def fromleb128(data):
word = 0
for i, b in enumerate(data):
word |= ((b & 0x7f) << 7*i)
word &= 0xffffffff
if not b & 0x80:
return word, i+1
return word, len(data)
def fromtag(data):
data = data.ljust(4, b'\0')
tag = (data[0] << 8) | data[1]
weight, d = fromleb128(data[2:])
size, d_ = fromleb128(data[2+d:])
return tag>>15, tag&0x7fff, weight, size, 2+d+d_
def xxd(data, width=16):
for i in range(0, len(data), width):
yield '%-*s %-*s' % (
3*width,
' '.join('%02x' % b for b in data[i:i+width]),
width,
''.join(
b if b >= ' ' and b <= '~' else '.'
for b in map(chr, data[i:i+width])))
def tagrepr(tag, w=None, size=None, off=None):
if (tag & 0x6fff) == TAG_NULL:
return '%snull%s%s' % (
'shrub' if tag & TAG_SHRUB else '',
' w%d' % w if w else '',
' %d' % size if size else '')
elif (tag & 0x6f00) == TAG_CONFIG:
return '%s%s%s%s' % (
'shrub' if tag & TAG_SHRUB else '',
'magic' if (tag & 0xfff) == TAG_MAGIC
else 'version' if (tag & 0xfff) == TAG_VERSION
else 'rcompat' if (tag & 0xfff) == TAG_RCOMPAT
else 'wcompat' if (tag & 0xfff) == TAG_WCOMPAT
else 'ocompat' if (tag & 0xfff) == TAG_OCOMPAT
else 'geometry' if (tag & 0xfff) == TAG_GEOMETRY
else 'namelimit' if (tag & 0xfff) == TAG_NAMELIMIT
else 'filelimit' if (tag & 0xfff) == TAG_FILELIMIT
else 'config 0x%02x' % (tag & 0xff),
' w%d' % w if w else '',
' %s' % size if size is not None else '')
elif (tag & 0x6f00) == TAG_GDELTA:
return '%s%s%s%s' % (
'shrub' if tag & TAG_SHRUB else '',
'grmdelta' if (tag & 0xfff) == TAG_GRMDELTA
else 'gdelta 0x%02x' % (tag & 0xff),
' w%d' % w if w else '',
' %s' % size if size is not None else '')
elif (tag & 0x6f00) == TAG_NAME:
return '%s%s%s%s' % (
'shrub' if tag & TAG_SHRUB else '',
'name' if (tag & 0xfff) == TAG_NAME
else 'reg' if (tag & 0xfff) == TAG_REG
else 'dir' if (tag & 0xfff) == TAG_DIR
else 'orphan' if (tag & 0xfff) == TAG_ORPHAN
else 'bookmark' if (tag & 0xfff) == TAG_BOOKMARK
else 'name 0x%02x' % (tag & 0xff),
' w%d' % w if w else '',
' %s' % size if size is not None else '')
elif (tag & 0x6f00) == TAG_STRUCT:
return '%s%s%s%s' % (
'shrub' if tag & TAG_SHRUB else '',
'data' if (tag & 0xfff) == TAG_DATA
else 'block' if (tag & 0xfff) == TAG_BLOCK
else 'bshrub' if (tag & 0xfff) == TAG_BSHRUB
else 'btree' if (tag & 0xfff) == TAG_BTREE
else 'mroot' if (tag & 0xfff) == TAG_MROOT
else 'mdir' if (tag & 0xfff) == TAG_MDIR
else 'mtree' if (tag & 0xfff) == TAG_MTREE
else 'did' if (tag & 0xfff) == TAG_DID
else 'branch' if (tag & 0xfff) == TAG_BRANCH
else 'struct 0x%02x' % (tag & 0xff),
' w%d' % w if w else '',
' %s' % size if size is not None else '')
elif (tag & 0x6e00) == TAG_ATTR:
return '%s%sattr 0x%02x%s%s' % (
'shrub' if tag & TAG_SHRUB else '',
's' if tag & 0x100 else 'u',
((tag & 0x100) >> 1) ^ (tag & 0xff),
' w%d' % w if w else '',
' %s' % size if size is not None else '')
elif tag & TAG_ALT:
return 'alt%s%s%s%s%s' % (
'r' if tag & TAG_R else 'b',
'a' if tag & 0x0fff == 0 and tag & TAG_GT
else 'n' if tag & 0x0fff == 0
else 'gt' if tag & TAG_GT
else 'le',
' 0x%x' % (tag & 0x0fff) if tag & 0x0fff != 0 else '',
' w%d' % w if w is not None else '',
' 0x%x' % (0xffffffff & (off-size))
if size and off is not None
else ' -%d' % size if size
else '')
elif (tag & 0x7f00) == TAG_CKSUM:
return 'cksum%s%s%s%s%s' % (
'q' if not tag & 0xfc and tag & TAG_Q else '',
'p' if not tag & 0xfc and tag & TAG_P else '',
' 0x%02x' % (tag & 0xff) if tag & 0xfc else '',
' w%d' % w if w else '',
' %s' % size if size is not None else '')
elif (tag & 0x7f00) == TAG_NOTE:
return 'note%s%s%s' % (
' 0x%02x' % (tag & 0xff) if tag & 0xff else '',
' w%d' % w if w else '',
' %s' % size if size is not None else '')
elif (tag & 0x7f00) == TAG_ECKSUM:
return 'ecksum%s%s%s' % (
' 0x%02x' % (tag & 0xff) if tag & 0xff else '',
' w%d' % w if w else '',
' %s' % size if size is not None else '')
else:
return '0x%04x%s%s' % (
tag,
' w%d' % w if w is not None else '',
' %d' % size if size is not None else '')
def dbg_log(data, block_size, rev, eoff, weight, *,
color=False,
**args):
# preprocess jumps
if args.get('jumps'):
jumps = []
j_ = 4
while j_ < (block_size if args.get('all') else eoff):
j = j_
v, tag, w, size, d = fromtag(data[j_:])
j_ += d
if not tag & TAG_ALT:
j_ += size
if tag & TAG_ALT and size:
# figure out which alt color
if tag & TAG_R:
_, ntag, _, _, _ = fromtag(data[j_:])
if ntag & TAG_R:
jumps.append((j, j-size, 0, 'y'))
else:
jumps.append((j, j-size, 0, 'r'))
else:
jumps.append((j, j-size, 0, 'b'))
# figure out x-offsets to avoid collisions between jumps
for j in range(len(jumps)):
a, b, _, c = jumps[j]
x = 0
while any(
max(a, b) >= min(a_, b_)
and max(a_, b_) >= min(a, b)
and x == x_
for a_, b_, x_, _ in jumps[:j]):
x += 1
jumps[j] = a, b, x, c
def jumprepr(j):
# render jumps
chars = {}
for a, b, x, c in jumps:
c_start = (
'\x1b[33m' if color and c == 'y'
else '\x1b[31m' if color and c == 'r'
else '\x1b[90m' if color
else '')
c_stop = '\x1b[m' if color else ''
if j == a:
for x_ in range(2*x+1):
chars[x_] = '%s-%s' % (c_start, c_stop)
chars[2*x+1] = '%s\'%s' % (c_start, c_stop)
elif j == b:
for x_ in range(2*x+1):
chars[x_] = '%s-%s' % (c_start, c_stop)
chars[2*x+1] = '%s.%s' % (c_start, c_stop)
chars[0] = '%s<%s' % (c_start, c_stop)
elif j >= min(a, b) and j <= max(a, b):
chars[2*x+1] = '%s|%s' % (c_start, c_stop)
return ''.join(chars.get(x, ' ')
for x in range(max(chars.keys(), default=0)+1))
# preprocess lifetimes
lifetime_width = 0
if args.get('lifetimes'):
class Lifetime:
color_i = 0
def __init__(self, j):
self.origin = j
self.tags = set()
self.color = COLORS[self.__class__.color_i]
self.__class__.color_i = (
self.__class__.color_i + 1) % len(COLORS)
def add(self, j):
self.tags.add(j)
def __bool__(self):
return bool(self.tags)
# first figure out where each rid comes from
weights = []
lifetimes = []
def index(weights, rid):
for i, w in enumerate(weights):
if rid < w:
return i, rid
rid -= w
return len(weights), 0
checkpoint_js = [0]
checkpoints = [([], [], set(), set(), set())]
def checkpoint(j, weights, lifetimes, grows, shrinks, tags):
checkpoint_js.append(j)
checkpoints.append((
weights.copy(), lifetimes.copy(),
grows, shrinks, tags))
lower_, upper_ = 0, 0
weight_ = 0
trunk_ = 0
j_ = 4
while j_ < (block_size if args.get('all') else eoff):
j = j_
v, tag, w, size, d = fromtag(data[j_:])
j_ += d
if not tag & TAG_ALT:
j_ += size
# evaluate trunks
if (tag & 0xf000) != TAG_CKSUM:
if not trunk_:
trunk_ = j_-d
lower_, upper_ = 0, 0
if tag & TAG_ALT and not tag & TAG_GT:
lower_ += w
else:
upper_ += w
if not tag & TAG_ALT:
# derive the current tag's rid from alt weights
delta = (lower_+upper_) - weight_
weight_ = lower_+upper_
rid = lower_ + w-1
trunk_ = 0
if (tag & 0xf000) != TAG_CKSUM and not tag & TAG_ALT:
# note we ignore out-of-bounds here for debugging
if delta > 0:
# grow lifetimes
i, rid_ = index(weights, lower_)
if rid_ > 0:
weights[i:i+1] = [rid_, delta, weights[i]-rid_]
lifetimes[i:i+1] = [
lifetimes[i], Lifetime(j), lifetimes[i]]
else:
weights[i:i] = [delta]
lifetimes[i:i] = [Lifetime(j)]
checkpoint(j, weights, lifetimes, {i}, set(), {i})
elif delta < 0:
# shrink lifetimes
i, rid_ = index(weights, lower_)
delta_ = -delta
weights_ = weights.copy()
lifetimes_ = lifetimes.copy()
shrinks = set()
while delta_ > 0 and i < len(weights_):
if weights_[i] > delta_:
delta__ = min(delta_, weights_[i]-rid_)
delta_ -= delta__
weights_[i] -= delta__
i += 1
rid_ = 0
else:
delta_ -= weights_[i]
weights_[i:i+1] = []
lifetimes_[i:i+1] = []
shrinks.add(i + len(shrinks))
checkpoint(j, weights, lifetimes, set(), shrinks, {i})
weights = weights_
lifetimes = lifetimes_
if rid >= 0:
# attach tag to lifetime
i, rid_ = index(weights, rid)
if i < len(weights):
lifetimes[i].add(j)
if delta == 0:
checkpoint(j, weights, lifetimes, set(), set(), {i})
lifetime_width = 2*max((
sum(1 for lifetime in lifetimes if lifetime)
for _, lifetimes, _, _, _ in checkpoints),
default=0)
def lifetimerepr(j):
x = bisect.bisect(checkpoint_js, j)-1
j_ = checkpoint_js[x]
weights, lifetimes, grows, shrinks, tags = checkpoints[x]
reprs = []
colors = []
was = None
for i, (w, lifetime) in enumerate(zip(weights, lifetimes)):
# skip lifetimes with no tags and shrinks
if not lifetime or (j != j_ and i in shrinks):
if i in grows or i in shrinks or i in tags:
tags = tags.copy()
tags.add(i+1)
continue
if j == j_ and i in grows:
reprs.append('.')
was = 'grow'
elif j == j_ and i in shrinks:
reprs.append('\'')
was = 'shrink'
elif j == j_ and i in tags:
reprs.append('* ')
elif was == 'grow':
reprs.append('\\ ')
elif was == 'shrink':
reprs.append('/ ')
else:
reprs.append('| ')
colors.append(lifetime.color)
return '%s%*s' % (
''.join('%s%s%s' % (
'\x1b[%sm' % c if color else '',
r,
'\x1b[m' if color else '')
for r, c in zip(reprs, colors)),
lifetime_width - sum(len(r) for r in reprs), '')
# dynamically size the id field
#
# we need to do an additional pass to find this since our rbyd weight
# does not include any shrub trees
weight_ = 0
weight__ = 0
trunk_ = 0
j_ = 4
while j_ < (block_size if args.get('all') else eoff):
j = j_
v, tag, w, size, d = fromtag(data[j_:])
j_ += d
if not tag & TAG_ALT:
j_ += size
# evaluate trunks
if (tag & 0xf000) != TAG_CKSUM:
if not trunk_:
trunk_ = j_-d
weight__ = 0
weight__ += w
if not tag & TAG_ALT:
# found new weight?
weight_ = max(weight_, weight__)
trunk_ = 0
w_width = mt.ceil(mt.log10(max(1, weight_)+1))
# print revision count
if args.get('raw'):
print('%8s: %*s%*s %s' % (
'%04x' % 0,
lifetime_width, '',
2*w_width+1, '',
next(xxd(data[0:4]))))
# print tags
cksum = crc32c(data[0:4])
cksum_ = cksum
perturb = False
lower_, upper_ = 0, 0
trunk_ = 0
j_ = 4
while j_ < (block_size if args.get('all') else eoff):
notes = []
# read next tag
j = j_
v, tag, w, size, d = fromtag(data[j_:])
if v != parity(cksum_):
notes.append('v!=%x' % parity(cksum_))
cksum_ ^= 0x00000080 if v else 0
cksum_ = crc32c(data[j_:j_+d], cksum_)
j_ += d
# take care of cksums
if not tag & TAG_ALT:
if (tag & 0xff00) != TAG_CKSUM:
cksum_ = crc32c(data[j_:j_+size], cksum_)
# found a cksum?
else:
# check cksum
cksum__ = fromle32(data[j_:j_+4])
if cksum_ != cksum__:
notes.append('cksum!=%08x' % cksum__)
if perturb != bool(tag & TAG_Q):
notes.append('q!=%x' % perturb)
# update perturb bit
perturb = tag & TAG_P
# revert to data cksum and perturb
cksum_ = cksum ^ (0xfca42daf if perturb else 0)
j_ += size
# evaluate trunks
if (tag & 0xf000) != TAG_CKSUM:
if not trunk_:
trunk_ = j_-d
lower_, upper_ = 0, 0
if tag & TAG_ALT and not tag & TAG_GT:
lower_ += w
else:
upper_ += w
# end of trunk?
if not tag & TAG_ALT:
# derive the current tag's rid from alt weights
rid = lower_ + w-1
trunk_ = 0
# update canonical checksum, xoring out any perturb state
cksum = cksum_ ^ (0xfca42daf if perturb else 0)
# show human-readable tag representation
print('%s%08x:%s %*s%s%*s %-*s%s%s%s' % (
'\x1b[90m' if color and j >= eoff else '',
j,
'\x1b[m' if color and j >= eoff else '',
lifetime_width, lifetimerepr(j)
if args.get('lifetimes')
else '',
'\x1b[90m' if color and j >= eoff else '',
2*w_width+1, '' if (tag & 0xe000) != 0x0000
else '%d-%d' % (rid-(w-1), rid) if w > 1
else rid,
56+w_width, '%-*s %s' % (
21+w_width, tagrepr(tag, w, size, j),
next(xxd(data[j+d:j+d+min(size, 8)], 8), '')
if not args.get('raw')
and not args.get('no_truncate')
and not tag & TAG_ALT
else ''),
' (%s)' % ', '.join(notes) if notes else '',
'\x1b[m' if color and j >= eoff else '',
' %s' % jumprepr(j)
if args.get('jumps') and not notes
else ''))
# show on-disk encoding of tags
if args.get('raw'):
for o, line in enumerate(xxd(data[j:j+d])):
print('%s%8s: %*s%*s %s%s' % (
'\x1b[90m' if color and j >= eoff else '',
'%04x' % (j + o*16),
lifetime_width, '',
2*w_width+1, '',
line,
'\x1b[m' if color and j >= eoff else ''))
if args.get('raw') or args.get('no_truncate'):
if not tag & TAG_ALT:
for o, line in enumerate(xxd(data[j+d:j+d+size])):
print('%s%8s: %*s%*s %s%s' % (
'\x1b[90m' if color and j >= eoff else '',
'%04x' % (j+d + o*16),
lifetime_width, '',
2*w_width+1, '',
line,
'\x1b[m' if color and j >= eoff else ''))
def dbg_tree(data, block_size, rev, trunk, weight, *,
color=False,
**args):
if not trunk:
return
# lookup a tag, returning also the search path for decoration
# purposes
def lookup(rid, tag):
tag = max(tag, 0x1)
lower = 0
upper = weight
path = []
# descend down tree
j = trunk
while True:
_, alt, w, jump, d = fromtag(data[j:])
# found an alt?
if alt & TAG_ALT:
# follow?
if ((rid, tag & 0xfff) > (upper-w-1, alt & 0xfff)
if alt & TAG_GT
else ((rid, tag & 0xfff) <= (lower+w-1, alt & 0xfff))):
lower += upper-lower-w if alt & TAG_GT else 0
upper -= upper-lower-w if not alt & TAG_GT else 0
j = j - jump
# figure out which color
if alt & TAG_R:
_, nalt, _, _, _ = fromtag(data[j+jump+d:])
if nalt & TAG_R:
path.append((j+jump, j, True, 'y'))
else:
path.append((j+jump, j, True, 'r'))
else:
path.append((j+jump, j, True, 'b'))
# stay on path
else:
lower += w if not alt & TAG_GT else 0
upper -= w if alt & TAG_GT else 0
j = j + d
# figure out which color
if alt & TAG_R:
_, nalt, _, _, _ = fromtag(data[j:])
if nalt & TAG_R:
path.append((j-d, j, False, 'y'))
else:
path.append((j-d, j, False, 'r'))
else:
path.append((j-d, j, False, 'b'))
# found tag
else:
rid_ = upper-1
tag_ = alt
w_ = upper-lower
done = not tag_ or (rid_, tag_) < (rid, tag)
return done, rid_, tag_, w_, j, d, jump, path
# precompute tree
t_width = 0
if args.get('tree') or args.get('rbyd'):
trunks = co.defaultdict(lambda: (-1, 0))
alts = co.defaultdict(lambda: {})
rid, tag = -1, 0
while True:
done, rid, tag, w, j, d, size, path = lookup(rid, tag+0x1)
# found end of tree?
if done:
break
# keep track of trunks/alts
trunks[j] = (rid, tag)
for j_, j__, followed, c in path:
if followed:
alts[j_] |= {'f': j__, 'c': c}
else:
alts[j_] |= {'nf': j__, 'c': c}
if args.get('rbyd'):
# treat unreachable alts as converging paths
for j_, alt in alts.items():
if 'f' not in alt:
alt['f'] = alt['nf']
elif 'nf' not in alt:
alt['nf'] = alt['f']
else:
# prune any alts with unreachable edges
pruned = {}
for j_, alt in alts.items():
if 'f' not in alt:
pruned[j_] = alt['nf']
elif 'nf' not in alt:
pruned[j_] = alt['f']
for j_ in pruned.keys():
del alts[j_]
for j_, alt in alts.items():
while alt['f'] in pruned:
alt['f'] = pruned[alt['f']]
while alt['nf'] in pruned:
alt['nf'] = pruned[alt['nf']]
# find the trunk and depth of each alt
def rec_trunk(j_):
if j_ not in alts:
return trunks[j_]
else:
if 'nft' not in alts[j_]:
alts[j_]['nft'] = rec_trunk(alts[j_]['nf'])
return alts[j_]['nft']
for j_ in alts.keys():
rec_trunk(j_)
for j_, alt in alts.items():
if alt['f'] in alts:
alt['ft'] = alts[alt['f']]['nft']
else:
alt['ft'] = trunks[alt['f']]
def rec_height(j_):
if j_ not in alts:
return 0
else:
if 'h' not in alts[j_]:
alts[j_]['h'] = max(
rec_height(alts[j_]['f']),
rec_height(alts[j_]['nf'])) + 1
return alts[j_]['h']
for j_ in alts.keys():
rec_height(j_)
t_depth = max((alt['h']+1 for alt in alts.values()), default=0)
# convert to more general tree representation
TBranch = co.namedtuple('TBranch', 'a, b, d, c')
tree = set()
for j, alt in alts.items():
# note all non-trunk edges should be black
tree.add(TBranch(
a=alt['nft'],
b=alt['nft'],
d=t_depth-1 - alt['h'],
c=alt['c'],
))
if alt['ft'] != alt['nft']:
tree.add(TBranch(
a=alt['nft'],
b=alt['ft'],
d=t_depth-1 - alt['h'],
c='b',
))
# find the max depth from the tree
t_depth = max((branch.d+1 for branch in tree), default=0)
if t_depth > 0:
t_width = 2*t_depth + 2
def treerepr(rid, tag):
if t_depth == 0:
return ''
def branchrepr(x, d, was):
for branch in tree:
if branch.d == d and branch.b == x:
if any(branch.d == d and branch.a == x
for branch in tree):
return '+-', branch.c, branch.c
elif any(branch.d == d
and x > min(branch.a, branch.b)
and x < max(branch.a, branch.b)
for branch in tree):
return '|-', branch.c, branch.c
elif branch.a < branch.b:
return '\'-', branch.c, branch.c
else:
return '.-', branch.c, branch.c
for branch in tree:
if branch.d == d and branch.a == x:
return '+ ', branch.c, None
for branch in tree:
if (branch.d == d
and x > min(branch.a, branch.b)
and x < max(branch.a, branch.b)):
return '| ', branch.c, was
if was:
return '--', was, was
return ' ', None, None
trunk = []
was = None
for d in range(t_depth):
t, c, was = branchrepr((rid, tag), d, was)
trunk.append('%s%s%s%s' % (
'\x1b[33m' if color and c == 'y'
else '\x1b[31m' if color and c == 'r'
else '\x1b[90m' if color and c == 'b'
else '',
t,
('>' if was else ' ') if d == t_depth-1 else '',
'\x1b[m' if color and c else ''))
return '%s ' % ''.join(trunk)
# dynamically size the id field
w_width = mt.ceil(mt.log10(max(1, weight)+1))
rid, tag = -1, 0
for i in it.count():
done, rid, tag, w, j, d, size, path = lookup(rid, tag+0x1)
# found end of tree?
if done:
break
# show human-readable tag representation
print('%08x: %s%*s %-*s %s' % (
j,
treerepr(rid, tag)
if args.get('tree') or args.get('rbyd')
else '',
2*w_width+1, '%d-%d' % (rid-(w-1), rid) if w > 1
else rid if w > 0 or i == 0
else '',
21+w_width, tagrepr(tag, w, size, j),
next(xxd(data[j+d:j+d+min(size, 8)], 8), '')
if not args.get('raw')
and not args.get('no_truncate')
and not tag & TAG_ALT
else ''))
# show on-disk encoding of tags
if args.get('raw'):
for o, line in enumerate(xxd(data[j:j+d])):
print('%8s: %*s%*s %s' % (
'%04x' % (j + o*16),
t_width, '',
2*w_width+1, '',
line))
if args.get('raw') or args.get('no_truncate'):
if not tag & TAG_ALT:
for o, line in enumerate(xxd(data[j+d:j+d+size])):
print('%8s: %*s%*s %s' % (
'%04x' % (j+d + o*16),
t_width, '',
2*w_width+1, '',
line))
def main(disk, blocks=None, *,
block_size=None,
block_count=None,
trunk=None,
color='auto',
**args):
# figure out what color should be
if color == 'auto':
color = sys.stdout.isatty()
elif color == 'always':
color = True
else:
color = False
# is bd geometry specified?
if isinstance(block_size, tuple):
block_size, block_count_ = block_size
if block_count is None:
block_count = block_count_
# flatten blocks, default to block 0
if not blocks:
blocks = [(0,)]
blocks = [block for blocks_ in blocks for block in blocks_]
with open(disk, 'rb') as f:
# if block_size is omitted, assume the block device is one big block
if block_size is None:
f.seek(0, os.SEEK_END)
block_size = f.tell()
# blocks may also encode trunks
blocks, trunks = (
[block[0] if isinstance(block, tuple) else block
for block in blocks],
[trunk if trunk is not None
else block[1] if isinstance(block, tuple)
else None
for block in blocks])
# read each block
datas = []
for block in blocks:
f.seek(block * block_size)
datas.append(f.read(block_size))
# first figure out which block as the most recent revision
def fetch(data, trunk):
rev = fromle32(data[0:4])
cksum = 0
cksum_ = crc32c(data[0:4])
cksum__ = cksum_
perturb = False
eoff = 0
eoff_ = None
j_ = 4
trunk_ = 0
trunk__ = 0
trunk___ = 0
weight = 0
weight_ = 0
weight__ = 0
while j_ < len(data) and (not trunk or eoff <= trunk):
# read next tag
v, tag, w, size, d = fromtag(data[j_:])
if v != parity(cksum__):
break
cksum__ ^= 0x00000080 if v else 0
cksum__ = crc32c(data[j_:j_+d], cksum__)
j_ += d
if not tag & TAG_ALT and j_ + size > len(data):
break
# take care of cksums
if not tag & TAG_ALT:
if (tag & 0xff00) != TAG_CKSUM:
cksum__ = crc32c(data[j_:j_+size], cksum__)
# found a cksum?
else:
# check cksum
cksum___ = fromle32(data[j_:j_+4])
if cksum__ != cksum___:
break
# commit what we have
eoff = eoff_ if eoff_ else j_ + size
cksum = cksum_
trunk_ = trunk__
weight = weight_
# update perturb bit
perturb = tag & TAG_P
# revert to data cksum and perturb
cksum__ = cksum_ ^ (0xfca42daf if perturb else 0)
# evaluate trunks
if (tag & 0xf000) != TAG_CKSUM:
if not (trunk and j_-d > trunk and not trunk___):
# new trunk?
if not trunk___:
trunk___ = j_-d
weight__ = 0
# keep track of weight
weight__ += w
# end of trunk?
if not tag & TAG_ALT:
# update trunk/weight unless we found a shrub or an
# explicit trunk (which may be a shrub) is requested
if not tag & TAG_SHRUB or trunk___ == trunk:
trunk__ = trunk___
weight_ = weight__
# keep track of eoff for best matching trunk
if trunk and j_ + size > trunk:
eoff_ = j_ + size
eoff = eoff_
cksum = cksum__ ^ (
0xfca42daf if perturb else 0)
trunk_ = trunk__
weight = weight_
trunk___ = 0
# update canonical checksum, xoring out any perturb state
cksum_ = cksum__ ^ (0xfca42daf if perturb else 0)
if not tag & TAG_ALT:
j_ += size
return rev, eoff, trunk_, weight, cksum
revs, eoffs, trunks_, weights, cksums = [], [], [], [], []
i = 0
for i_, (data, trunk_) in enumerate(zip(datas, trunks)):
rev, eoff, trunk_, weight, cksum = fetch(data, trunk_)
revs.append(rev)
eoffs.append(eoff)
trunks_.append(trunk_)
weights.append(weight)
cksums.append(cksum)
# compare with sequence arithmetic
if trunk_ and (
not trunks_[i]
or not ((rev - revs[i]) & 0x80000000)
or (rev == revs[i] and trunk_ > trunks_[i])):
i = i_
# print contents of the winning metadata block
block, data, rev, eoff, trunk_, weight, cksum = (
blocks[i],
datas[i],
revs[i],
eoffs[i],
trunks_[i],
weights[i],
cksums[i])
print('rbyd %s w%d, rev %08x, size %d, cksum %08x' % (
'0x%x.%x' % (block, trunk_)
if len(blocks) == 1
else '0x{%x,%s}.%x' % (
block,
','.join('%x' % blocks[(i+1+j) % len(blocks)]
for j in range(len(blocks)-1)),
trunk_),
weight,
rev,
eoff,
cksum))
if args.get('log'):
dbg_log(data, block_size, rev, eoff, weight,
color=color,
**args)
else:
dbg_tree(data, block_size, rev, trunk_, weight,
color=color,
**args)
if args.get('error_on_corrupt') and eoff == 0:
sys.exit(2)
if __name__ == "__main__":
import argparse
import sys
parser = argparse.ArgumentParser(
description="Debug rbyd metadata.",
allow_abbrev=False)
parser.add_argument(
'disk',
help="File containing the block device.")
parser.add_argument(
'blocks',
nargs='*',
type=rbydaddr,
help="Block address of metadata blocks.")
parser.add_argument(
'-b', '--block-size',
type=bdgeom,
help="Block size/geometry in bytes.")
parser.add_argument(
'--block-count',
type=lambda x: int(x, 0),
help="Block count in blocks.")
parser.add_argument(
'--trunk',
type=lambda x: int(x, 0),
help="Use this offset as the trunk of the tree.")
parser.add_argument(
'--color',
choices=['never', 'always', 'auto'],
default='auto',
help="When to use terminal colors. Defaults to 'auto'.")
parser.add_argument(
'-a', '--all',
action='store_true',
help="Don't stop parsing on bad commits.")
parser.add_argument(
'-l', '--log',
action='store_true',
help="Show the raw tags as they appear in the log.")
parser.add_argument(
'-r', '--raw',
action='store_true',
help="Show the raw data including tag encodings.")
parser.add_argument(
'-T', '--no-truncate',
action='store_true',
help="Don't truncate, show the full contents.")
parser.add_argument(
'-t', '--tree',
action='store_true',
help="Show the rbyd tree.")
parser.add_argument(
'-R', '--rbyd',
action='store_true',
help="Show the full rbyd tree.")
parser.add_argument(
'-j', '--jumps',
action='store_true',
help="Show alt pointer jumps in the margin.")
parser.add_argument(
'-g', '--lifetimes',
action='store_true',
help="Show inserts/deletes of ids in the margin.")
parser.add_argument(
'-e', '--error-on-corrupt',
action='store_true',
help="Error if no valid commit is found.")
sys.exit(main(**{k: v
for k, v in vars(parser.parse_intermixed_args()).items()
if v is not None}))
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