find-delta: move most of the debug-find-delta code in the debug module
Lets us that module more. It will help us to keep revlog implementation details
close to each other.
import struct
import zlib
from mercurial.node import (
hex,
sha1nodeconstants,
)
from mercurial.i18n import _
from mercurial import (
util,
)
from . import (
basepack,
constants,
shallowutil,
)
NODELENGTH = 20
# The indicator value in the index for a fulltext entry.
FULLTEXTINDEXMARK = -1
NOBASEINDEXMARK = -2
INDEXSUFFIX = b'.dataidx'
PACKSUFFIX = b'.datapack'
class datapackstore(basepack.basepackstore):
INDEXSUFFIX = INDEXSUFFIX
PACKSUFFIX = PACKSUFFIX
def __init__(self, ui, path):
super(datapackstore, self).__init__(ui, path)
def getpack(self, path):
return datapack(path)
def get(self, name, node):
raise RuntimeError(b"must use getdeltachain with datapackstore")
def getmeta(self, name, node):
for pack in self.packs:
try:
return pack.getmeta(name, node)
except KeyError:
pass
for pack in self.refresh():
try:
return pack.getmeta(name, node)
except KeyError:
pass
raise KeyError((name, hex(node)))
def getdelta(self, name, node):
for pack in self.packs:
try:
return pack.getdelta(name, node)
except KeyError:
pass
for pack in self.refresh():
try:
return pack.getdelta(name, node)
except KeyError:
pass
raise KeyError((name, hex(node)))
def getdeltachain(self, name, node):
for pack in self.packs:
try:
return pack.getdeltachain(name, node)
except KeyError:
pass
for pack in self.refresh():
try:
return pack.getdeltachain(name, node)
except KeyError:
pass
raise KeyError((name, hex(node)))
def add(self, name, node, data):
raise RuntimeError(b"cannot add to datapackstore")
class datapack(basepack.basepack):
INDEXSUFFIX = INDEXSUFFIX
PACKSUFFIX = PACKSUFFIX
# Format is <node><delta offset><pack data offset><pack data size>
# See the mutabledatapack doccomment for more details.
INDEXFORMAT = b'!20siQQ'
INDEXENTRYLENGTH = 40
SUPPORTED_VERSIONS = [2]
def getmissing(self, keys):
missing = []
for name, node in keys:
value = self._find(node)
if not value:
missing.append((name, node))
return missing
def get(self, name, node):
raise RuntimeError(
b"must use getdeltachain with datapack (%s:%s)" % (name, hex(node))
)
def getmeta(self, name, node):
value = self._find(node)
if value is None:
raise KeyError((name, hex(node)))
node, deltabaseoffset, offset, size = value
rawentry = self._data[offset : offset + size]
# see docstring of mutabledatapack for the format
offset = 0
offset += struct.unpack_from(b'!H', rawentry, offset)[0] + 2 # filename
offset += 40 # node, deltabase node
offset += struct.unpack_from(b'!Q', rawentry, offset)[0] + 8 # delta
metalen = struct.unpack_from(b'!I', rawentry, offset)[0]
offset += 4
meta = shallowutil.parsepackmeta(rawentry[offset : offset + metalen])
return meta
def getdelta(self, name, node):
value = self._find(node)
if value is None:
raise KeyError((name, hex(node)))
node, deltabaseoffset, offset, size = value
entry = self._readentry(offset, size, getmeta=True)
filename, node, deltabasenode, delta, meta = entry
# If we've read a lot of data from the mmap, free some memory.
self.freememory()
return delta, filename, deltabasenode, meta
def getdeltachain(self, name, node):
value = self._find(node)
if value is None:
raise KeyError((name, hex(node)))
params = self.params
# Precompute chains
chain = [value]
deltabaseoffset = value[1]
entrylen = self.INDEXENTRYLENGTH
while (
deltabaseoffset != FULLTEXTINDEXMARK
and deltabaseoffset != NOBASEINDEXMARK
):
loc = params.indexstart + deltabaseoffset
value = struct.unpack(
self.INDEXFORMAT, self._index[loc : loc + entrylen]
)
deltabaseoffset = value[1]
chain.append(value)
# Read chain data
deltachain = []
for node, deltabaseoffset, offset, size in chain:
filename, node, deltabasenode, delta = self._readentry(offset, size)
deltachain.append((filename, node, filename, deltabasenode, delta))
# If we've read a lot of data from the mmap, free some memory.
self.freememory()
return deltachain
def _readentry(self, offset, size, getmeta=False):
rawentry = self._data[offset : offset + size]
self._pagedin += len(rawentry)
# <2 byte len> + <filename>
lengthsize = 2
filenamelen = struct.unpack(b'!H', rawentry[:2])[0]
filename = rawentry[lengthsize : lengthsize + filenamelen]
# <20 byte node> + <20 byte deltabase>
nodestart = lengthsize + filenamelen
deltabasestart = nodestart + NODELENGTH
node = rawentry[nodestart:deltabasestart]
deltabasenode = rawentry[deltabasestart : deltabasestart + NODELENGTH]
# <8 byte len> + <delta>
deltastart = deltabasestart + NODELENGTH
rawdeltalen = rawentry[deltastart : deltastart + 8]
deltalen = struct.unpack(b'!Q', rawdeltalen)[0]
delta = rawentry[deltastart + 8 : deltastart + 8 + deltalen]
delta = self._decompress(delta)
if getmeta:
metastart = deltastart + 8 + deltalen
metalen = struct.unpack_from(b'!I', rawentry, metastart)[0]
rawmeta = rawentry[metastart + 4 : metastart + 4 + metalen]
meta = shallowutil.parsepackmeta(rawmeta)
return filename, node, deltabasenode, delta, meta
else:
return filename, node, deltabasenode, delta
def _decompress(self, data):
return zlib.decompress(data)
def add(self, name, node, data):
raise RuntimeError(b"cannot add to datapack (%s:%s)" % (name, node))
def _find(self, node):
params = self.params
fanoutkey = struct.unpack(
params.fanoutstruct, node[: params.fanoutprefix]
)[0]
fanout = self._fanouttable
start = fanout[fanoutkey] + params.indexstart
indexend = self._indexend
# Scan forward to find the first non-same entry, which is the upper
# bound.
for i in range(fanoutkey + 1, params.fanoutcount):
end = fanout[i] + params.indexstart
if end != start:
break
else:
end = indexend
# Bisect between start and end to find node
index = self._index
startnode = index[start : start + NODELENGTH]
endnode = index[end : end + NODELENGTH]
entrylen = self.INDEXENTRYLENGTH
if startnode == node:
entry = index[start : start + entrylen]
elif endnode == node:
entry = index[end : end + entrylen]
else:
while start < end - entrylen:
mid = start + (end - start) // 2
mid = mid - ((mid - params.indexstart) % entrylen)
midnode = index[mid : mid + NODELENGTH]
if midnode == node:
entry = index[mid : mid + entrylen]
break
if node > midnode:
start = mid
elif node < midnode:
end = mid
else:
return None
return struct.unpack(self.INDEXFORMAT, entry)
def markledger(self, ledger, options=None):
for filename, node in self:
ledger.markdataentry(self, filename, node)
def cleanup(self, ledger):
entries = ledger.sources.get(self, [])
allkeys = set(self)
repackedkeys = {
(e.filename, e.node) for e in entries if e.datarepacked or e.gced
}
if len(allkeys - repackedkeys) == 0:
if self.path not in ledger.created:
util.unlinkpath(self.indexpath, ignoremissing=True)
util.unlinkpath(self.packpath, ignoremissing=True)
def __iter__(self):
for f, n, deltabase, deltalen in self.iterentries():
yield f, n
def iterentries(self):
# Start at 1 to skip the header
offset = 1
data = self._data
while offset < self.datasize:
oldoffset = offset
# <2 byte len> + <filename>
filenamelen = struct.unpack(b'!H', data[offset : offset + 2])[0]
offset += 2
filename = data[offset : offset + filenamelen]
offset += filenamelen
# <20 byte node>
node = data[offset : offset + constants.NODESIZE]
offset += constants.NODESIZE
# <20 byte deltabase>
deltabase = data[offset : offset + constants.NODESIZE]
offset += constants.NODESIZE
# <8 byte len> + <delta>
rawdeltalen = data[offset : offset + 8]
deltalen = struct.unpack(b'!Q', rawdeltalen)[0]
offset += 8
# TODO(augie): we should store a header that is the
# uncompressed size.
uncompressedlen = len(
self._decompress(data[offset : offset + deltalen])
)
offset += deltalen
# <4 byte len> + <metadata-list>
metalen = struct.unpack_from(b'!I', data, offset)[0]
offset += 4 + metalen
yield (filename, node, deltabase, uncompressedlen)
# If we've read a lot of data from the mmap, free some memory.
self._pagedin += offset - oldoffset
if self.freememory():
data = self._data
class mutabledatapack(basepack.mutablebasepack):
"""A class for constructing and serializing a datapack file and index.
A datapack is a pair of files that contain the revision contents for various
file revisions in Mercurial. It contains only revision contents (like file
contents), not any history information.
It consists of two files, with the following format. All bytes are in
network byte order (big endian).
.datapack
The pack itself is a series of revision deltas with some basic header
information on each. A revision delta may be a fulltext, represented by
a deltabasenode equal to the nullid.
datapack = <version: 1 byte>
[<revision>,...]
revision = <filename len: 2 byte unsigned int>
<filename>
<node: 20 byte>
<deltabasenode: 20 byte>
<delta len: 8 byte unsigned int>
<delta>
<metadata-list len: 4 byte unsigned int> [1]
<metadata-list> [1]
metadata-list = [<metadata-item>, ...]
metadata-item = <metadata-key: 1 byte>
<metadata-value len: 2 byte unsigned>
<metadata-value>
metadata-key could be METAKEYFLAG or METAKEYSIZE or other single byte
value in the future.
.dataidx
The index file consists of two parts, the fanout and the index.
The index is a list of index entries, sorted by node (one per revision
in the pack). Each entry has:
- node (The 20 byte node of the entry; i.e. the commit hash, file node
hash, etc)
- deltabase index offset (The location in the index of the deltabase for
this entry. The deltabase is the next delta in
the chain, with the chain eventually
terminating in a full-text, represented by a
deltabase offset of -1. This lets us compute
delta chains from the index, then do
sequential reads from the pack if the revision
are nearby on disk.)
- pack entry offset (The location of this entry in the datapack)
- pack content size (The on-disk length of this entry's pack data)
The fanout is a quick lookup table to reduce the number of steps for
bisecting the index. It is a series of 4 byte pointers to positions
within the index. It has 2^16 entries, which corresponds to hash
prefixes [0000, 0001,..., FFFE, FFFF]. Example: the pointer in slot
4F0A points to the index position of the first revision whose node
starts with 4F0A. This saves log(2^16)=16 bisect steps.
dataidx = <fanouttable>
<index>
fanouttable = [<index offset: 4 byte unsigned int>,...] (2^16 entries)
index = [<index entry>,...]
indexentry = <node: 20 byte>
<deltabase location: 4 byte signed int>
<pack entry offset: 8 byte unsigned int>
<pack entry size: 8 byte unsigned int>
[1]: new in version 1.
"""
INDEXSUFFIX = INDEXSUFFIX
PACKSUFFIX = PACKSUFFIX
# v[01] index format: <node><delta offset><pack data offset><pack data size>
INDEXFORMAT = datapack.INDEXFORMAT
INDEXENTRYLENGTH = datapack.INDEXENTRYLENGTH
# v1 has metadata support
SUPPORTED_VERSIONS = [2]
def _compress(self, data):
return zlib.compress(data)
def add(self, name, node, deltabasenode, delta, metadata=None):
# metadata is a dict, ex. {METAKEYFLAG: flag}
if len(name) > 2 ** 16:
raise RuntimeError(_(b"name too long %s") % name)
if len(node) != 20:
raise RuntimeError(_(b"node should be 20 bytes %s") % node)
if node in self.entries:
# The revision has already been added
return
# TODO: allow configurable compression
delta = self._compress(delta)
rawdata = b''.join(
(
struct.pack(b'!H', len(name)), # unsigned 2 byte int
name,
node,
deltabasenode,
struct.pack(b'!Q', len(delta)), # unsigned 8 byte int
delta,
)
)
# v1 support metadata
rawmeta = shallowutil.buildpackmeta(metadata)
rawdata += struct.pack(b'!I', len(rawmeta)) # unsigned 4 byte
rawdata += rawmeta
offset = self.packfp.tell()
size = len(rawdata)
self.entries[node] = (deltabasenode, offset, size)
self.writeraw(rawdata)
def createindex(self, nodelocations, indexoffset):
entries = sorted(
(n, db, o, s) for n, (db, o, s) in self.entries.items()
)
rawindex = b''
fmt = self.INDEXFORMAT
for node, deltabase, offset, size in entries:
if deltabase == sha1nodeconstants.nullid:
deltabaselocation = FULLTEXTINDEXMARK
else:
# Instead of storing the deltabase node in the index, let's
# store a pointer directly to the index entry for the deltabase.
deltabaselocation = nodelocations.get(
deltabase, NOBASEINDEXMARK
)
entry = struct.pack(fmt, node, deltabaselocation, offset, size)
rawindex += entry
return rawindex