Commit 96c68406 authored by Levin Zimmermann's avatar Levin Zimmermann Committed by Kirill Smelkov

bigfile/zodb: Add ZBlk format option 'auto' (heuristic)

There are two formats to save data with a ZBigFile: ZBlk0 and ZBlk1.
They differ by adjusting the ratio between access-time and growing
disk-space, where ZBlk1 is better regarding to disk space, while ZBlk0
has a better access-time. Wendelin.core users may not always know yet or
care which format fits better for their data. In this case it may be
easier for users to just let the program automatically select the ZBlk
format. With this patch and the new 'auto' (for heuristic) option of the
'ZBlk' argument of ZBigFile, this is now possible. The 'auto' option isn't
really a new ZBlk format in itself, but it just tries to automatically
select the best ZBlk format option according to the characteristics
of the changes that the user applies to the ZBigFile.

In its current implementation, the heuristic tackles the use-case of
large arrays with many small append-only changes. In this case 'auto' is
smaller in space than ZBlk0, but faster to read than ZBlk1. It does so,
by initially using ZBlk1 until a blk is filled up. Once a blk is full,
it switches to ZBlk1, as it was recommended by @kirr in
nexedi/wendelin.core!20 (comment 196084).

With this patch comes a test (bigfile/tests/bench_zblkfmt) that creates
benchmarks for different combinations and zblk formats. The test aims
to check how the 'heuristic' format performs in contrast to 'ZBlk0'
and 'ZBlk1':

    BenchmarkAppendSize/zblk=ZBlk0/change_count=500/change_percentage_set=[0.014]   1       538.1 MB
    BenchmarkAppendRandRead/zblk=ZBlk0/change_count=500/change_percentage_set=[0.014]       6 2.085 ms/blk
    BenchmarkAppendSize/zblk=ZBlk1/change_count=500/change_percentage_set=[0.014]   1       16.8 MB
    BenchmarkAppendRandRead/zblk=ZBlk1/change_count=500/change_percentage_set=[0.014]       6 14.564 ms/blk
    BenchmarkAppendSize/zblk=auto/change_count=500/change_percentage_set=[0.014]    1       29.4 MB
    BenchmarkAppendRandRead/zblk=auto/change_count=500/change_percentage_set=[0.014]        6 2.119 ms/blk
    BenchmarkRandWriteSize/zblk=ZBlk0/arrsize=1000000/change_count=500/change_percentage_set=[0.2]  1       1021.1 MB
    BenchmarkRandWriteRandRead/zblk=ZBlk0/arrsize=1000000/change_count=500/change_percentage_set=[0.2]      3 2.324 ms/blk
    BenchmarkRandWriteSize/zblk=ZBlk1/arrsize=1000000/change_count=500/change_percentage_set=[0.2]  1       216.2 MB
    BenchmarkRandWriteRandRead/zblk=ZBlk1/arrsize=1000000/change_count=500/change_percentage_set=[0.2]      3 15.317 ms/blk
    BenchmarkRandWriteSize/zblk=auto/arrsize=1000000/change_count=500/change_percentage_set=[0.2]   1       219.8 MB
    BenchmarkRandWriteRandRead/zblk=auto/arrsize=1000000/change_count=500/change_percentage_set=[0.2]       3 14.027 ms/blk
    BenchmarkRandWriteSize/zblk=ZBlk0/arrsize=1000000/change_count=500/change_percentage_set=[1]    1       1048.6 MB
    BenchmarkRandWriteRandRead/zblk=ZBlk0/arrsize=1000000/change_count=500/change_percentage_set=[1]        3 2.126 ms/blk
    BenchmarkRandWriteSize/zblk=ZBlk1/arrsize=1000000/change_count=500/change_percentage_set=[1]    1       1070.4 MB
    BenchmarkRandWriteRandRead/zblk=ZBlk1/arrsize=1000000/change_count=500/change_percentage_set=[1]        3 14.284 ms/blk
    BenchmarkRandWriteSize/zblk=auto/arrsize=1000000/change_count=500/change_percentage_set=[1]     1       1070.3 MB
    BenchmarkRandWriteRandRead/zblk=auto/arrsize=1000000/change_count=500/change_percentage_set=[1] 3 14.072 ms/blk
    BenchmarkRandWriteSize/zblk=ZBlk0/arrsize=1000000/change_count=500/change_percentage_set=[0.2,1]        1       1046.4 MB
    BenchmarkRandWriteRandRead/zblk=ZBlk0/arrsize=1000000/change_count=500/change_percentage_set=[0.2,1]    3 2.137 ms/blk
    BenchmarkRandWriteSize/zblk=ZBlk1/arrsize=1000000/change_count=500/change_percentage_set=[0.2,1]        1       638.2 MB
    BenchmarkRandWriteRandRead/zblk=ZBlk1/arrsize=1000000/change_count=500/change_percentage_set=[0.2,1]    3 14.083 ms/blk
    BenchmarkRandWriteSize/zblk=auto/arrsize=1000000/change_count=500/change_percentage_set=[0.2,1] 1       639.5 MB
    BenchmarkRandWriteRandRead/zblk=auto/arrsize=1000000/change_count=500/change_percentage_set=[0.2,1]     3 13.937 ms/blk

and post-processed with benchstat from 3 such runs:

                                                                                            │     x.log     │
                                                                                            │       B       │
    AppendSize/zblk=ZBlk0/change_count=500/change_percentage_set=[0.014]                       513.2Mi ± 0%
    AppendSize/zblk=ZBlk1/change_count=500/change_percentage_set=[0.014]                       16.02Mi ± 0%
    AppendSize/zblk=auto/change_count=500/change_percentage_set=[0.014]                        28.04Mi ± 0%
    RandWriteSize/zblk=ZBlk0/arrsize=1000000/change_count=500/change_percentage_set=[0.2]      973.8Mi ± 0%
    RandWriteSize/zblk=ZBlk1/arrsize=1000000/change_count=500/change_percentage_set=[0.2]      206.2Mi ± 0%
    RandWriteSize/zblk=auto/arrsize=1000000/change_count=500/change_percentage_set=[0.2]       209.6Mi ± 0%
    RandWriteSize/zblk=ZBlk0/arrsize=1000000/change_count=500/change_percentage_set=[1]       1000.0Mi ± 0%
    RandWriteSize/zblk=ZBlk1/arrsize=1000000/change_count=500/change_percentage_set=[1]       1020.8Mi ± 0%
    RandWriteSize/zblk=auto/arrsize=1000000/change_count=500/change_percentage_set=[1]        1020.7Mi ± 0%
    RandWriteSize/zblk=ZBlk0/arrsize=1000000/change_count=500/change_percentage_set=[0.2,1]    997.9Mi ± 0%
    RandWriteSize/zblk=ZBlk1/arrsize=1000000/change_count=500/change_percentage_set=[0.2,1]    608.6Mi ± 0%
    RandWriteSize/zblk=auto/arrsize=1000000/change_count=500/change_percentage_set=[0.2,1]     609.9Mi ± 0%
    geomean                                                                                    353.0Mi

                                                                                                │    x.log    │
                                                                                                │   ms/blk    │
    AppendRandRead/zblk=ZBlk0/change_count=500/change_percentage_set=[0.014]                      2.094 ± 12%
    AppendRandRead/zblk=ZBlk1/change_count=500/change_percentage_set=[0.014]                      14.47 ±  1%
    AppendRandRead/zblk=auto/change_count=500/change_percentage_set=[0.014]                       2.168 ±  2%
    RandWriteRandRead/zblk=ZBlk0/arrsize=1000000/change_count=500/change_percentage_set=[0.2]     2.324 ±  1%
    RandWriteRandRead/zblk=ZBlk1/arrsize=1000000/change_count=500/change_percentage_set=[0.2]     13.73 ± 12%
    RandWriteRandRead/zblk=auto/arrsize=1000000/change_count=500/change_percentage_set=[0.2]      13.60 ±  3%
    RandWriteRandRead/zblk=ZBlk0/arrsize=1000000/change_count=500/change_percentage_set=[1]       2.125 ±  2%
    RandWriteRandRead/zblk=ZBlk1/arrsize=1000000/change_count=500/change_percentage_set=[1]       14.18 ±  3%
    RandWriteRandRead/zblk=auto/arrsize=1000000/change_count=500/change_percentage_set=[1]        14.17 ±  1%
    RandWriteRandRead/zblk=ZBlk0/arrsize=1000000/change_count=500/change_percentage_set=[0.2,1]   2.118 ±  1%
    RandWriteRandRead/zblk=ZBlk1/arrsize=1000000/change_count=500/change_percentage_set=[0.2,1]   13.85 ±  2%
    RandWriteRandRead/zblk=auto/arrsize=1000000/change_count=500/change_percentage_set=[0.2,1]    13.80 ±  1%
    geomean                                                                                       6.423

See nexedi/wendelin.core!20 and
da765ef7...0c6f0850 for the
preliminary history of this patch.
Co-authored-by: Kirill Smelkov's avatarKirill Smelkov <kirr@nexedi.com>
parent 84def52e
...@@ -83,13 +83,18 @@ changes. "Small" here means something like 1-10000 bytes per transaction as ...@@ -83,13 +83,18 @@ changes. "Small" here means something like 1-10000 bytes per transaction as
larger changes become comparable to 2M block size and are handled efficiently larger changes become comparable to 2M block size and are handled efficiently
out of the box. Until the problem is fixed on ZODB server side, wendelin.core out of the box. Until the problem is fixed on ZODB server side, wendelin.core
provides on-client workaround in the form of specialized block format, and provides on-client workaround in the form of specialized block format, and
users have to explicitly indicate via environment variable that their workload users can explicitly indicate via environment variable that their workload is
is "small changes" if they prefer to prioritize database size over access either "big changes", if they prefer to prioritize access speed, or "small
speed:: changes" if they prefer to prioritize database size over access speed. There is
also "auto" mode that tries to heuristically use both ZBlk0 and ZBlk1 depending
on change pattern and works relatively good regarding both access speed and
database size for append-like workloads::
$WENDELIN_CORE_ZBLK_FMT $WENDELIN_CORE_ZBLK_FMT
ZBlk0 fast reads (default) ZBlk0 fast reads
ZBlk1 small changes ZBlk1 small changes
auto (default) heuristically use either ZBlk0 or ZBlk1
depending on change pattern
Description of block formats follow: Description of block formats follow:
...@@ -159,7 +164,7 @@ will be our future approach after we teach NEO about object deduplication. ...@@ -159,7 +164,7 @@ will be our future approach after we teach NEO about object deduplication.
from wendelin.bigfile import WRITEOUT_STORE, WRITEOUT_MARKSTORED from wendelin.bigfile import WRITEOUT_STORE, WRITEOUT_MARKSTORED
from wendelin.bigfile._file_zodb import _ZBigFile from wendelin.bigfile._file_zodb import _ZBigFile
from wendelin.lib.mem import bzero, memcpy from wendelin.lib.mem import bzero, memcpy, memdelta
from wendelin.lib.zodb import LivePersistent, deactivate_btree from wendelin.lib.zodb import LivePersistent, deactivate_btree
from transaction.interfaces import IDataManager, ISynchronizer from transaction.interfaces import IDataManager, ISynchronizer
...@@ -476,10 +481,14 @@ class ZBlk1(ZBlkBase): ...@@ -476,10 +481,14 @@ class ZBlk1(ZBlkBase):
# backward compatibility (early versions wrote ZBlk0 named as ZBlk) # backward compatibility (early versions wrote ZBlk0 named as ZBlk)
ZBlk = ZBlk0 ZBlk = ZBlk0
# _ZBlk_auto indicates to heuristically select ZBlk format
_ZBlk_auto = object()
# format-name -> blk format type # format-name -> blk format type
ZBlk_fmt_registry = { ZBlk_fmt_registry = {
'ZBlk0': ZBlk0, 'ZBlk0': ZBlk0,
'ZBlk1': ZBlk1, 'ZBlk1': ZBlk1,
'auto': _ZBlk_auto,
} }
# format for updated blocks # format for updated blocks
...@@ -547,6 +556,11 @@ class ZBigFile(LivePersistent): ...@@ -547,6 +556,11 @@ class ZBigFile(LivePersistent):
def storeblk(self, blk, buf): def storeblk(self, blk, buf):
zblk = self.blktab.get(blk) zblk = self.blktab.get(blk)
zblk_type_write = ZBlk_fmt_registry[ZBlk_fmt_write] zblk_type_write = ZBlk_fmt_registry[ZBlk_fmt_write]
if zblk_type_write is _ZBlk_auto: # apply heuristic
zblk_type_write = self._zblk_fmt_heuristic(zblk, blk, buf)
self._setzblk(blk, zblk, buf, zblk_type_write)
def _setzblk(self, blk, zblk, buf, zblk_type_write): # helper
# if zblk was absent or of different type - we (re-)create it anew # if zblk was absent or of different type - we (re-)create it anew
if zblk is None or \ if zblk is None or \
type(zblk) is not zblk_type_write: type(zblk) is not zblk_type_write:
...@@ -567,6 +581,72 @@ class ZBigFile(LivePersistent): ...@@ -567,6 +581,72 @@ class ZBigFile(LivePersistent):
zblk.bindzfile(self, blk) zblk.bindzfile(self, blk)
# Heuristically determine zblk format by optimizing
# storage-space/access-speed ratio. Both can't be ideal, see
# module docstring: "Due to weakness of current ZODB storage
# servers, wendelin.core cannot provide at the same time both
# fast reads and small database size growth ..."
def _zblk_fmt_heuristic(self, zblk, blk, buf):
# see if we are doing a "small append" like change
# load previous data and compute the difference along the way
new_data = bytes(buf).rstrip(b'\0')
if zblk is None:
old_data = b''
else:
assert not zblk._p_changed
old_data = bytes(zblk.loadblkdata()).rstrip(b'\0')
ndelta = memdelta(old_data, new_data)
try:
last_blk = self.blktab.maxKey()
except ValueError: # empty tree
last_blk = -1
append_oldblk = ((blk == last_blk) and (new_data[:len(old_data)] == old_data))
append_newblk = ((blk == last_blk+1) and (len(old_data) == 0))
append = (append_oldblk or append_newblk)
small = (ndelta < 0.5*self.blksize)
filled = (len(new_data) == self.blksize) # filled full with non-zeros at the end
# append - migrate previously filled-up block to ZBlk0 for fast reads
# - for current block use ZBlk1 if the append is small and not fully filled, and ZBlk0 otherwise
#
# do the migration of previous block only if it is also changed in
# current transaction. This preserves the invairant that "transaction
# changes ZBlk objects only for modified blocks of the file".
# NOTE: this misses a case when append stops exactly on blocks boundary
# after appending some zeros. For now we ignore such case as improbable.
#
# For the implementation we rely on that zfileh.dirty_writeout()
# invokes storeblk in ascending order of blk, so that when we are here,
# we can be sure that if previous block is also modified, then .blktab
# already has corresponding entry for it and the entry is changed.
if append:
if append_newblk:
zblk_prev = self.blktab.get(blk-1)
if zblk_prev is not None and \
zblk_prev._p_changed and \
type(zblk_prev) is not ZBlk0:
# gather data prepared for previous block
# NOTE: loadblkdata throws away all changes inside zblk_prev
zblk_prev_data = zblk_prev.loadblkdata()
# but we re-save that updated data immediately after
self._setzblk(blk-1, zblk_prev, zblk_prev_data, ZBlk0)
return ZBlk1 if (small and not filled) else ZBlk0
# all other changes - use ZBlk1 if the change is small and ZBlk0 otherwise
else:
if small:
# TODO(kirr): "to support sporadic small changes over initial big fillup [...]
# we could introduce e.g. a ZBlkδ object, which would refer to base
# underlying ZBlk object and add "patch" information on top of that [...]."
# See https://lab.nexedi.com/nexedi/wendelin.core/merge_requests/20#note_196084
return ZBlk1
else:
return ZBlk0
# invalidate data .blktab[blk] invalidated -> invalidate page # invalidate data .blktab[blk] invalidated -> invalidate page
def invalidateblk(self, blk): def invalidateblk(self, blk):
for fileh in self._v_filehset: for fileh in self._v_filehset:
......
#!/usr/bin/env python
# Copyright (C) 2023 Nexedi SA and Contributors.
#
# This program is free software: you can Use, Study, Modify and Redistribute
# it under the terms of the GNU General Public License version 3, or (at your
# option) any later version, as published by the Free Software Foundation.
#
# You can also Link and Combine this program with other software covered by
# the terms of any of the Free Software licenses or any of the Open Source
# Initiative approved licenses and Convey the resulting work. Corresponding
# source of such a combination shall include the source code for all other
# software used.
#
# This program is distributed WITHOUT ANY WARRANTY; without even the implied
# warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
#
# See COPYING file for full licensing terms.
# See https://www.nexedi.com/licensing for rationale and options.
# Test to compare disk-space and access-speed of the different ZBlk format options:
#
# - ZBlk0
# - ZBlk1
# - auto
from __future__ import print_function, absolute_import, division
import os
import random
import tempfile
import timeit
import shutil
import multiprocessing
from time import sleep
ms = 1e-3
from golang import defer, func
import numpy as np
import transaction
import ZODB, ZODB.FileStorage
from wendelin.bigarray.array_zodb import ZBigArray
from wendelin.bigfile import file_zodb
# IWriteWorkLoad represents write workload type:
class IWriteWorkLoad:
# do_write should perform all write operations of the workload on the
# database associated with root object.
def do_write(wrk, root): raise NotImplementedError()
# args should be set to string with arguments used to parameterize this workload.
args = ''
# benchwrk benchmarks database size and read speed under write workload wrk.
#
# the benchmark is run for all supported ZBlk formats.
def benchwrk(wrk):
# run each benchmark in separate process so that there is no chance they
# somehow affect each other.
zblk_fmtv = list(file_zodb.ZBlk_fmt_registry.keys())
zblk_fmtv.sort()
for zblk_fmt in zblk_fmtv:
def _():
file_zodb.ZBlk_fmt_write = zblk_fmt
_benchwrk(wrk)
p = multiprocessing.Process(target=_)
p.start()
p.join()
@func
def _benchwrk(wrk):
tmpd = tempfile.mkdtemp('', 'zblkbench')
def _():
shutil.rmtree(tmpd)
defer(_)
storage_path = '%s/data.fs' % tmpd
# with_db runs f(root) on a freshly-opened connection to test database.
traceload = False
delayload = False
@func
def with_db(f):
storage = ZODB.FileStorage.FileStorage(storage_path)
defer(storage.close)
# simulate loading latency as actually seen on NEO.
# there I was seeing latencies up to _1_ millisecond, but even with
# "modest" 0.2 ms it really shows in the figures.
#
# (activated only during read benchmark to avoid wasting time
# while preparing data)
tloaddelay = 0.2 * ms
stor_load = storage.load
stor_loadBefore = storage.loadBefore
def loadBefore(oid, tid):
if traceload:
print('# loadBefore %r %r' % (oid, tid))
if delayload:
sleep(tloaddelay)
return stor_loadBefore(oid, tid)
def load(oid):
# load is used on plain ZODB4; ZODB5 and ZODB4-wc2 use loadBefore only
if traceload:
print('# load %r' % (oid,))
# see loadBefore above
if delayload:
sleep(tloaddelay)
return stor_load(oid)
storage.loadBefore = loadBefore
storage.load = load
db = ZODB.DB(storage) ; defer(db.close)
connection = db.open() ; defer(connection.close)
root = connection.root
f(root)
# create test database with empty array, then run specified write workload
# and see how big ZODB size is.
@with_db
def _(root):
root.A = ZBigArray(shape=[0], dtype=int)
transaction.commit()
random.seed(10)
wrk.do_write(root)
transaction.commit() # just in case
def emitbench(name, data):
wrkname = wrk.__class__.__name__
benchprefix = "Benchmark%s%s/zblk=%s/%s" % (wrkname, name, file_zodb.ZBlk_fmt_write, wrk.args)
print('%s\t%s' % (benchprefix, data))
emitbench("Size", "1\t%.1f MB" % (os.path.getsize(storage_path) / 1E6))
# now benchmark random reads.
delayload = True
@with_db
def _(root):
A = root.A
blklen = arr_blklen(A)
# make sure we never read the same block twice - else we will start to
# measure time of hot access without any ZODB loading
random.seed(10)
blkv = list(range(len(A) // blklen))
random.shuffle(blkv)
a = A[:]
def _():
blk = blkv.pop()
# force load of ZBlk data via reading ndarray element from inside the block
a[blk*blklen]
niter = min(len(blkv), 10)
assert niter >= 3, niter
taccess = timeit.timeit(_, number=niter) / niter
emitbench("RandRead", "%d %.3f ms/blk" % (niter, taccess/ms))
# Append simulates workload when data are appended in chunks to end of array.
class Append(IWriteWorkLoad):
def __init__(wrk, change_count, change_percentage_set):
wrk.change_count = change_count
wrk.change_percentage_set = change_percentage_set
wrk.args = "change_count=%d/change_percentage_set=%s" % (
change_count, repr(change_percentage_set).replace(' ',''))
def do_write(wrk, root):
A = root.A
for _ in range(wrk.change_count):
change_percentage = random.choice(wrk.change_percentage_set)
size = int(arr_blklen(A) * change_percentage)
A.append(randarr(size))
transaction.commit()
# RandWrite simulates workload when data is written randomly in the array.
class RandWrite(IWriteWorkLoad):
def __init__(wrk, arrsize, change_count, change_percentage_set):
wrk.arrsize = arrsize
wrk.change_count = change_count
wrk.change_percentage_set = change_percentage_set
wrk.args = "arrsize=%d/change_count=%d/change_percentage_set=%s" % (
arrsize, change_count,
repr(change_percentage_set).replace(' ',''))
def do_write(wrk, root):
A = root.A
A.append([0]*wrk.arrsize)
transaction.commit()
for _ in range(wrk.change_count):
change_percentage = random.choice(wrk.change_percentage_set)
setrand(A, change_percentage)
transaction.commit()
# Utility functions
# randarr returns random [size]int array.
def randarr(size):
return np.array([random.randint(1, 1000) for _ in range(size)])
# setrand makes random write access to ZBigArray A.
#
# The amount of changed data is fraction of underlying block size.
# Only one block is changed.
def setrand(A, change_percentage):
blklen = arr_blklen(A)
change_size = int(blklen * change_percentage)
blk_index = random.randrange(0, len(A) // blklen)
blk_offset = blk_index * blklen
# Ensure we don't always only change the beginning of a block
blk_offset = blk_offset + random.randint(0, blklen - change_size)
A[blk_offset:blk_offset+change_size][:] = randarr(change_size)
# arr_blklen returns how many ZBigArray items constitute up a block in underlying ZBigFile.
def arr_blklen(A):
assert isinstance(A, ZBigArray)
assert len(A.shape) == 1
assert A.zfile.blksize % A.itemsize == 0
return A.zfile.blksize // A.itemsize
# ---- benchmarks we want to run ----
def main():
_ = benchwrk
_(Append( 500, [0.014])) # appends of ~ 30K
_(RandWrite(1000000, 500, [0.2])) # small change size, so that heuristic always uses ZBlk1
_(RandWrite(1000000, 500, [1])) # big change size, so that heuristic always uses ZBlk0
_(RandWrite(1000000, 500, [0.2, 1])) # Mix between change size so that heuristic switches
# between ZBlk0 and ZBlk1
if __name__ == '__main__':
main()
# Wendelin.core.bigfile | Tests for ZODB BigFile backend # Wendelin.core.bigfile | Tests for ZODB BigFile backend
# Copyright (C) 2014-2021 Nexedi SA and Contributors. # Copyright (C) 2014-2023 Nexedi SA and Contributors.
# Kirill Smelkov <kirr@nexedi.com> # Kirill Smelkov <kirr@nexedi.com>
# #
# This program is free software: you can Use, Study, Modify and Redistribute # This program is free software: you can Use, Study, Modify and Redistribute
...@@ -17,7 +17,7 @@ ...@@ -17,7 +17,7 @@
# #
# See COPYING file for full licensing terms. # See COPYING file for full licensing terms.
# See https://www.nexedi.com/licensing for rationale and options. # See https://www.nexedi.com/licensing for rationale and options.
from wendelin.bigfile.file_zodb import ZBigFile, ZBlk_fmt_registry from wendelin.bigfile.file_zodb import ZBigFile, ZBlk_fmt_registry, _ZBlk_auto
from wendelin.bigfile import file_zodb, ram_reclaim from wendelin.bigfile import file_zodb, ram_reclaim
from wendelin.bigfile.tests.test_thread import NotifyChannel from wendelin.bigfile.tests.test_thread import NotifyChannel
from wendelin.lib.zodb import LivePersistent, dbclose from wendelin.lib.zodb import LivePersistent, dbclose
...@@ -631,6 +631,8 @@ def test_bigfile_filezodb_fmt_change(): ...@@ -631,6 +631,8 @@ def test_bigfile_filezodb_fmt_change():
for dst_fmt, dst_type in ZBlk_fmt_registry.items(): for dst_fmt, dst_type in ZBlk_fmt_registry.items():
if src_fmt == dst_fmt: if src_fmt == dst_fmt:
continue # skip checking e.g. ZBlk0 -> ZBlk0 continue # skip checking e.g. ZBlk0 -> ZBlk0
if src_type is _ZBlk_auto or dst_type is _ZBlk_auto:
continue # skip checking e.g. * -> auto
file_zodb.ZBlk_fmt_write = src_fmt file_zodb.ZBlk_fmt_write = src_fmt
struct.pack_into('p', vma, 0, b(src_fmt)) struct.pack_into('p', vma, 0, b(src_fmt))
...@@ -690,3 +692,34 @@ def test_bigfile_zblk1_zdata_reuse(): ...@@ -690,3 +692,34 @@ def test_bigfile_zblk1_zdata_reuse():
assert len(zdata_v1) == len(zdata_v2) assert len(zdata_v1) == len(zdata_v2)
for i in range(len(zdata_v1)): for i in range(len(zdata_v1)):
assert zdata_v1[i] is zdata_v2[i] assert zdata_v1[i] is zdata_v2[i]
# Minimal test to ensure normal operations work as expected with zblk format 'auto'.
@func
def test_bigfile_zblk_fmt_auto():
root = dbopen()
defer(lambda: dbclose(root))
# set ZBlk_fmt_write to 'auto' for this test
fmt_write_save = file_zodb.ZBlk_fmt_write
file_zodb.ZBlk_fmt_write = 'auto'
def _():
file_zodb.ZBlk_fmt_write = fmt_write_save
defer(_)
root['zfile8'] = f = ZBigFile(blksize)
transaction.commit()
fh = f.fileh_open()
vma = fh.mmap(0, blen)
b = Blk(vma, 0)
b[:] = 1
transaction.commit()
assert (b == 1).all()
b[0] = 2
transaction.commit()
assert b[0] == 2
...@@ -388,7 +388,8 @@ int fileh_dirty_writeout(BigFileH *fileh, enum WriteoutFlags flags) ...@@ -388,7 +388,8 @@ int fileh_dirty_writeout(BigFileH *fileh, enum WriteoutFlags flags)
BUG_ON(fileh->writeout_inprogress); BUG_ON(fileh->writeout_inprogress);
fileh->writeout_inprogress = 1; fileh->writeout_inprogress = 1;
/* pages are stored (if stored) in sorted order */ /* pages are stored (if stored) in sorted order
* NOTE writeout of ZBlk format 'auto' relies on this */
if (flags & WRITEOUT_STORE) if (flags & WRITEOUT_STORE)
list_sort(&fileh->dirty_pages, hpage_indirty_cmp_bypgoffset, NULL); list_sort(&fileh->dirty_pages, hpage_indirty_cmp_bypgoffset, NULL);
......
# wendelin.core | tox setup # wendelin.core | tox setup
[tox] [tox]
envlist = py27-{ZODB4,ZODB5}-{zblk0,zblk1}-{fs,zeo,neo}-{numpy115,numpy116}-{!wcfs,wcfs,wcfs:1,wcfs:2}, envlist = py27-{ZODB4,ZODB5}-{zblk0,zblk1,auto}-{fs,zeo,neo}-{numpy115,numpy116}-{!wcfs,wcfs,wcfs:1,wcfs:2},
{py36,py37}-{ZODB4,ZODB5}-{zblk0,zblk1}-fs-{numpy115,numpy116}-{!wcfs,wcfs,wcfs:1,wcfs:2}, {py36,py37}-{ZODB4,ZODB5}-{zblk0,zblk1,auto}-fs-{numpy115,numpy116}-{!wcfs,wcfs,wcfs:1,wcfs:2},
py36-{ZODB4,ZODB5}-{zblk0,zblk1}-zeo-{numpy115,numpy116}-{!wcfs,wcfs,wcfs:1,wcfs:2}, py36-{ZODB4,ZODB5}-{zblk0,zblk1,auto}-zeo-{numpy115,numpy116}-{!wcfs,wcfs,wcfs:1,wcfs:2},
py37-ZODB5-{zblk0,zblk1}-zeo-{numpy115,numpy116-{!wcfs,wcfs,wcfs:1,wcfs:2}} py37-ZODB5-{zblk0,zblk1,auto}-zeo-{numpy115,numpy116-{!wcfs,wcfs,wcfs:1,wcfs:2}}
# (NOTE ZEO4 does not work with python3.7) # (NOTE ZEO4 does not work with python3.7)
# (NOTE NEO does not work on python3 at all) # (NOTE NEO does not work on python3 at all)
# (XXX ZODB5-*-neo are currently failing) # (XXX ZODB5-*-neo are currently failing)
...@@ -40,6 +40,7 @@ setenv = ...@@ -40,6 +40,7 @@ setenv =
zblk0: WENDELIN_CORE_ZBLK_FMT=ZBlk0 zblk0: WENDELIN_CORE_ZBLK_FMT=ZBlk0
zblk1: WENDELIN_CORE_ZBLK_FMT=ZBlk1 zblk1: WENDELIN_CORE_ZBLK_FMT=ZBlk1
auto: WENDELIN_CORE_ZBLK_FMT=auto
!wcfs: WENDELIN_CORE_VIRTMEM=rw:uvmm !wcfs: WENDELIN_CORE_VIRTMEM=rw:uvmm
wcfs: WENDELIN_CORE_VIRTMEM=r:wcfs+w:uvmm wcfs: WENDELIN_CORE_VIRTMEM=r:wcfs+w:uvmm
......
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