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Jérome Perrin
neoppod
Commits
f62f9bc9
Commit
f62f9bc9
authored
Jan 31, 2018
by
Julien Muchembled
Browse files
Options
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Plain Diff
Bump protocol version
parents
fa9664ee
52db5607
Changes
12
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Side-by-side
Showing
12 changed files
with
427 additions
and
250 deletions
+427
-250
neo/lib/protocol.py
neo/lib/protocol.py
+19
-23
neo/storage/database/importer.py
neo/storage/database/importer.py
+7
-7
neo/storage/database/manager.py
neo/storage/database/manager.py
+123
-50
neo/storage/database/mysqldb.py
neo/storage/database/mysqldb.py
+35
-40
neo/storage/database/sqlite.py
neo/storage/database/sqlite.py
+31
-44
neo/storage/handlers/initialization.py
neo/storage/handlers/initialization.py
+3
-11
neo/storage/handlers/master.py
neo/storage/handlers/master.py
+1
-4
neo/storage/handlers/storage.py
neo/storage/handlers/storage.py
+2
-4
neo/storage/replicator.py
neo/storage/replicator.py
+41
-32
neo/tests/storage/testStorageDBTests.py
neo/tests/storage/testStorageDBTests.py
+11
-7
neo/tests/threaded/test.py
neo/tests/threaded/test.py
+5
-4
neo/tests/threaded/testReplication.py
neo/tests/threaded/testReplication.py
+149
-24
No files found.
neo/lib/protocol.py
View file @
f62f9bc9
...
...
@@ -22,7 +22,7 @@ from struct import Struct
# The protocol version must be increased whenever upgrading a node may require
# to upgrade other nodes. It is encoded as a 4-bytes big-endian integer and
# the high order byte 0 is different from TLS Handshake (0x16).
PROTOCOL_VERSION
=
2
PROTOCOL_VERSION
=
3
ENCODED_VERSION
=
Struct
(
'!L'
).
pack
(
PROTOCOL_VERSION
)
# Avoid memory errors on corrupted data.
...
...
@@ -122,22 +122,22 @@ def NodeStates():
@
Enum
def
CellStates
():
# Normal state: cell is writable/readable, and it isn't planned to drop it.
UP_TO_DATE
# Write-only cell. Last transactions are missing because storage is/was down
# for a while, or because it is new for the partition. It usually becomes
# UP_TO_DATE when replication is done.
OUT_OF_DATE
# Normal state: cell is writable/readable, and it isn't planned to drop it.
UP_TO_DATE
# Same as UP_TO_DATE, except that it will be discarded as soon as another
# node finishes to replicate it. It means a partition is moved from 1 node
# to another. It is also discarded immediately if out-of-date.
FEEDING
# Not really a state: only used in network packets to tell storages to drop
# partitions.
DISCARDED
# A check revealed that data differs from other replicas. Cell is neither
# readable nor writable.
CORRUPTED
# Not really a state: only used in network packets to tell storages to drop
# partitions.
DISCARDED
# used for logging
node_state_prefix_dict
=
{
...
...
@@ -462,7 +462,7 @@ class PEnum(PStructItem):
"""
Encapsulate an enumeration value
"""
_fmt
=
'
!l
'
_fmt
=
'
b
'
def
__init__
(
self
,
name
,
enum
):
PStructItem
.
__init__
(
self
,
name
)
...
...
@@ -1535,16 +1535,16 @@ class Truncate(Packet):
_answer
=
Error
StaticRegistry
=
{}
_next_code
=
0
def
register
(
request
,
ignore_when_closed
=
None
):
""" Register a packet in the packet registry """
code
=
len
(
StaticRegistry
)
global
_next_code
code
=
_next_code
assert
code
<
RESPONSE_MASK
_next_code
=
code
+
1
if
request
is
Error
:
code
|=
RESPONSE_MASK
# register the request
StaticRegistry
[
code
]
=
request
if
request
is
None
:
return
# None registered only to skip a code number (for compatibility)
request
.
_code
=
code
answer
=
request
.
_answer
if
ignore_when_closed
is
None
:
...
...
@@ -1557,32 +1557,28 @@ def register(request, ignore_when_closed=None):
if
answer
in
(
Error
,
None
):
return
request
# build a class for the answer
answer
=
type
(
'Answer
%s'
%
(
request
.
__name__
,
)
,
(
Packet
,
),
{})
answer
=
type
(
'Answer
'
+
request
.
__name__
,
(
Packet
,
),
{})
answer
.
_fmt
=
request
.
_answer
answer
.
poll_thread
=
request
.
poll_thread
# compute the answer code
code
=
code
|
RESPONSE_MASK
answer
.
_request
=
request
assert
answer
.
_code
is
None
,
"Answer of %s is already used"
%
(
request
,
)
answer
.
_code
=
code
answer
.
_code
=
code
|
RESPONSE_MASK
request
.
_answer
=
answer
# and register the answer packet
assert
code
not
in
StaticRegistry
,
"Duplicate response packet code"
StaticRegistry
[
code
]
=
answer
return
(
request
,
answer
)
return
request
,
answer
class
Packets
(
dict
):
"""
Packet registry that checks packet code uniqueness and provides an index
"""
def
__metaclass__
(
name
,
base
,
d
):
# this builds a "singleton"
cls
=
type
(
'PacketRegistry'
,
base
,
d
)()
for
k
,
v
in
d
.
iteritems
():
if
isinstance
(
v
,
type
)
and
issubclass
(
v
,
Packet
):
v
.
handler_method_name
=
k
[
0
].
lower
()
+
k
[
1
:]
# this builds a "singleton"
return
type
(
'PacketRegistry'
,
base
,
d
)(
StaticRegistry
)
cls
[
v
.
_code
]
=
v
return
cls
# notifications
Error
=
register
(
Error
)
RequestIdentification
,
AcceptIdentification
=
register
(
...
...
neo/storage/database/importer.py
View file @
f62f9bc9
...
...
@@ -348,7 +348,7 @@ class ImporterDatabaseManager(DatabaseManager):
def
__init__
(
self
,
*
args
,
**
kw
):
super
(
ImporterDatabaseManager
,
self
).
__init__
(
*
args
,
**
kw
)
implements
(
self
,
"""_getNextTID checkSerialRange checkTIDRange
deleteObject deleteTransaction dropPartitions getLastTID
deleteObject deleteTransaction dropPartitions
_
getLastTID
getReplicationObjectList _getTIDList nonempty"""
.
split
())
_getPartition
=
property
(
lambda
self
:
self
.
db
.
_getPartition
)
...
...
@@ -379,9 +379,9 @@ class ImporterDatabaseManager(DatabaseManager):
db
=
self
.
db
=
buildDatabaseManager
(
conf
[
'adapter'
],
(
conf
[
'database'
],
conf
.
get
(
'engine'
),
conf
[
'wait'
]))
for
x
in
"""getConfiguration _setConfiguration setNumPartitions
query erase getPartitionTable
getUnfinishedTIDDict dropUnfinishedData abortTransaction
storeTransaction lockTransaction
query erase getPartitionTable
_iterAssignedCells
updateCellTID getUnfinishedTIDDict dropUnfinishedData
abortTransaction
storeTransaction lockTransaction
loadData storeData getOrphanList _pruneData deferCommit
dropPartitionsTemporary
"""
.
split
():
...
...
@@ -552,8 +552,8 @@ class ImporterDatabaseManager(DatabaseManager):
return
zodb
,
oid
-
zodb
.
shift_oid
def
getLastIDs
(
self
):
tid
,
_
,
_
,
oid
=
self
.
db
.
getLastIDs
()
return
(
max
(
tid
,
util
.
p64
(
self
.
zodb_ltid
)),
None
,
None
,
tid
,
oid
=
self
.
db
.
getLastIDs
()
return
(
max
(
tid
,
util
.
p64
(
self
.
zodb_ltid
)),
max
(
oid
,
util
.
p64
(
self
.
zodb_loid
)))
def
getObject
(
self
,
oid
,
tid
=
None
,
before_tid
=
None
):
...
...
@@ -623,7 +623,7 @@ class ImporterDatabaseManager(DatabaseManager):
def
_deleteRange
(
self
,
partition
,
min_tid
=
None
,
max_tid
=
None
):
# Even if everything is imported, we can't truncate below
# because it would import again if we restart with this backend.
if
u64
(
min_tid
)
<
self
.
zodb_ltid
:
if
min_tid
<
self
.
zodb_ltid
:
raise
NotImplementedError
self
.
db
.
_deleteRange
(
partition
,
min_tid
,
max_tid
)
...
...
neo/storage/database/manager.py
View file @
f62f9bc9
...
...
@@ -21,9 +21,11 @@ from copy import copy
from
functools
import
wraps
from
neo.lib
import
logging
,
util
from
neo.lib.interfaces
import
abstract
,
requires
from
neo.lib.protocol
import
CellStates
,
NonReadableCell
,
ZERO_TID
from
neo.lib.protocol
import
CellStates
,
NonReadableCell
,
MAX_TID
,
ZERO_TID
from
.
import
DatabaseFailure
READABLE
=
CellStates
.
UP_TO_DATE
,
CellStates
.
FEEDING
def
lazymethod
(
func
):
def
getter
(
self
):
cls
=
self
.
__class__
...
...
@@ -348,61 +350,47 @@ class DatabaseManager(object):
except
TypeError
:
return
-
1
@
abstract
def
getPartitionTable
(
self
,
*
nid
):
"""Return a whole partition table as a sequence of rows. Each row
is again a tuple of an offset (row ID), the NID of a storage
node, and a cell state."""
def
_getAssignedPartitionList
(
self
,
*
states
):
nid
=
self
.
getUUID
()
if
nid
is
None
:
return
()
if
states
:
return
[
nid
for
nid
,
state
in
self
.
getPartitionTable
(
nid
)
if
state
in
states
]
return
[
x
[
0
]
for
x
in
self
.
getPartitionTable
(
nid
)]
# XXX: Consider splitting getLastIDs/_getLastIDs because
# sometimes the last oid is not wanted.
@
abstract
def
getLastTID
(
self
,
max_tid
):
"""Return greatest tid in trans table that is <= given 'max_tid'
def
_getLastTID
(
self
,
partition
,
max_tid
=
None
):
"""Return tid of last transaction <= 'max_tid' in given 'partition'
Required only to import a DB using Importer backend
.
max_tid must be in unpacked format.
tids are in unpacked format
.
"""
Data from unassigned partitions must be ignored.
This is important because there may remain data from cells that have
been discarded, either due to --disable-drop-partitions option,
or in the future when dropping partitions is done in background
(because this is an expensive operation).
@
requires
(
_getLastTID
)
def
getLastTID
(
self
,
max_tid
=
None
):
"""Return tid of last transaction <= 'max_tid'
XXX: Given the TODO comment in getLastIDs, getting ids
from readable partitions should be enough.
tids are in unpacked format.
"""
if
self
.
getNumPartitions
():
return
max
(
map
(
self
.
_getLastTID
,
self
.
_readable_set
))
def
_getLastIDs
(
self
):
"""Return (trans, obj, max(oid)) where
both 'trans' and 'obj' are {partition: max(tid)}
def
_getLastIDs
(
self
,
partition
):
"""Return max(tid) & max(oid) for objects of given partition
Same as in getLastTID: data from unassigned partitions must be ignored.
Results are in unpacked format
"""
@
requires
(
_getLastIDs
)
def
getLastIDs
(
self
):
trans
,
obj
,
oid
=
self
.
_getLastIDs
()
if
trans
:
tid
=
max
(
trans
.
itervalues
())
if
obj
:
tid
=
max
(
tid
,
max
(
obj
.
itervalues
()))
else
:
tid
=
max
(
obj
.
itervalues
())
if
obj
else
None
# TODO: Replication can't be resumed from the tids in 'trans' and 'obj'
# because outdated cells are writable and may contain recently
# committed data. We must save somewhere where replication was
# interrupted and return this information. For the moment, we
# tell the replicator to resume from the beginning.
trans
=
obj
=
{}
return
tid
,
trans
,
obj
,
oid
"""Return max(tid) & max(oid) for readable data
It is important to ignore unassigned partitions because there may
remain data from cells that have been discarded, either due to
--disable-drop-partitions option, or in the future when dropping
partitions is done in background (as it is an expensive operation).
"""
x
=
self
.
_readable_set
if
x
:
tid
,
oid
=
zip
(
*
map
(
self
.
_getLastIDs
,
x
))
tid
=
max
(
self
.
getLastTID
(
None
),
max
(
tid
))
oid
=
max
(
oid
)
return
(
None
if
tid
is
None
else
util
.
p64
(
tid
),
None
if
oid
is
None
else
util
.
p64
(
oid
))
return
None
,
None
def
_getUnfinishedTIDDict
(
self
):
""""""
...
...
@@ -514,6 +502,22 @@ class DatabaseManager(object):
return
(
util
.
p64
(
serial
),
compression
,
checksum
,
data
,
None
if
data_serial
is
None
else
util
.
p64
(
data_serial
))
def
_getPartitionTable
(
self
):
"""Return a whole partition table as a sequence of rows. Each row
is again a tuple of an offset (row ID), the NID of a storage
node, and a cell state."""
@
requires
(
_getPartitionTable
)
def
_iterAssignedCells
(
self
):
my_nid
=
self
.
getUUID
()
return
((
offset
,
tid
)
for
offset
,
nid
,
tid
in
self
.
_getPartitionTable
()
if
my_nid
==
nid
)
@
requires
(
_getPartitionTable
)
def
getPartitionTable
(
self
):
return
[(
offset
,
nid
,
max
(
0
,
-
state
))
for
offset
,
nid
,
state
in
self
.
_getPartitionTable
()]
@
contextmanager
def
replicated
(
self
,
offset
):
readable_set
=
self
.
_readable_set
...
...
@@ -557,16 +561,78 @@ class DatabaseManager(object):
d
.
append
(
p
<<
48
if
i
is
None
else
i
+
1
)
else
:
readable_set
.
clear
()
readable_set
.
update
(
self
.
_getAssignedPartitionList
(
CellStates
.
UP_TO_DATE
,
CellStates
.
FEEDING
)
)
readable_set
.
update
(
x
[
0
]
for
x
in
self
.
_iterAssignedCells
()
if
-
x
[
1
]
in
READABLE
)
@
requires
(
_changePartitionTable
)
@
requires
(
_changePartitionTable
,
_getLastIDs
,
_getLastTID
)
def
changePartitionTable
(
self
,
ptid
,
cell_list
,
reset
=
False
):
my_nid
=
self
.
getUUID
()
pt
=
dict
(
self
.
_iterAssignedCells
())
# In backup mode, the last transactions of a readable cell may be
# incomplete.
backup_tid
=
self
.
getBackupTID
()
if
backup_tid
:
backup_tid
=
util
.
u64
(
backup_tid
)
def
outofdate_tid
(
offset
):
tid
=
pt
.
get
(
offset
,
0
)
if
tid
>=
0
:
return
tid
return
-
tid
in
READABLE
and
(
backup_tid
or
max
(
self
.
_getLastIDs
(
offset
)[
0
],
self
.
_getLastTID
(
offset
)))
or
0
cell_list
=
[(
offset
,
nid
,
(
None
if
state
==
CellStates
.
DISCARDED
else
-
state
if
nid
!=
my_nid
or
state
!=
CellStates
.
OUT_OF_DATE
else
outofdate_tid
(
offset
)))
for
offset
,
nid
,
state
in
cell_list
]
self
.
_changePartitionTable
(
cell_list
,
reset
)
self
.
_updateReadable
()
assert
isinstance
(
ptid
,
(
int
,
long
)),
ptid
self
.
_setConfiguration
(
'ptid'
,
str
(
ptid
))
@
requires
(
_changePartitionTable
)
def
updateCellTID
(
self
,
partition
,
tid
):
t
,
=
(
t
for
p
,
t
in
self
.
_iterAssignedCells
()
if
p
==
partition
)
if
t
<
0
:
return
tid
=
util
.
u64
(
tid
)
# Replicator doesn't optimize when there's no new data
# since the node went down.
if
t
==
tid
:
return
# In a backup cluster, when a storage node gets down just after
# being the first to replicate fully new transactions from upstream,
# we may end up in a special situation where an OUT_OF_DATE cell
# is actually more up-to-date than an UP_TO_DATE one.
assert
t
<
tid
or
self
.
getBackupTID
()
self
.
_changePartitionTable
([(
partition
,
self
.
getUUID
(),
tid
)])
def
iterCellNextTIDs
(
self
):
p64
=
util
.
p64
backup_tid
=
self
.
getBackupTID
()
if
backup_tid
:
next_tid
=
util
.
u64
(
backup_tid
)
if
next_tid
:
next_tid
+=
1
for
offset
,
tid
in
self
.
_iterAssignedCells
():
if
tid
>=
0
:
# OUT_OF_DATE
yield
offset
,
p64
(
tid
and
tid
+
1
)
elif
-
tid
in
READABLE
:
if
backup_tid
:
# An UP_TO_DATE cell does not have holes so it's fine to
# resume from the last found records.
tid
=
self
.
_getLastTID
(
offset
)
yield
offset
,
(
# For trans, a transaction can't be partially
# replicated, so replication can resume from the next
# possible tid.
p64
(
max
(
next_tid
,
tid
+
1
)
if
tid
else
next_tid
),
# For obj, the last transaction may be partially
# replicated so it must be checked again (i.e. no +1).
p64
(
max
(
next_tid
,
self
.
_getLastIDs
(
offset
)[
0
])))
else
:
yield
offset
,
None
@
abstract
def
dropPartitions
(
self
,
offset_list
):
"""Delete all data for specified partitions"""
...
...
@@ -786,9 +852,16 @@ class DatabaseManager(object):
def
truncate
(
self
):
tid
=
self
.
getTruncateTID
()
if
tid
:
assert
tid
!=
ZERO_TID
,
tid
for
partition
in
xrange
(
self
.
getNumPartitions
()):
tid
=
util
.
u64
(
tid
)
assert
tid
,
tid
cell_list
=
[]
my_nid
=
self
.
getUUID
()
for
partition
,
state
in
self
.
_iterAssignedCells
():
if
state
>
tid
:
cell_list
.
append
((
partition
,
my_nid
,
tid
))
self
.
_deleteRange
(
partition
,
tid
)
if
cell_list
:
self
.
_changePartitionTable
(
cell_list
)
self
.
_setTruncateTID
(
None
)
self
.
commit
()
...
...
neo/storage/database/mysqldb.py
View file @
f62f9bc9
...
...
@@ -38,7 +38,7 @@ from . import LOG_QUERIES, DatabaseFailure
from
.manager
import
DatabaseManager
,
splitOIDField
from
neo.lib
import
logging
,
util
from
neo.lib.interfaces
import
implements
from
neo.lib.protocol
import
CellStates
,
ZERO_OID
,
ZERO_TID
,
ZERO_HASH
from
neo.lib.protocol
import
ZERO_OID
,
ZERO_TID
,
ZERO_HASH
class
MysqlError
(
DatabaseFailure
):
...
...
@@ -90,7 +90,7 @@ def auto_reconnect(wrapped):
class
MySQLDatabaseManager
(
DatabaseManager
):
"""This class manages a database on MySQL."""
VERSION
=
2
VERSION
=
3
ENGINES
=
"InnoDB"
,
"RocksDB"
,
"TokuDB"
_engine
=
ENGINES
[
0
]
# default engine
...
...
@@ -257,6 +257,14 @@ class MySQLDatabaseManager(DatabaseManager):
def
_migrate2
(
self
,
schema_dict
):
self
.
_alterTable
(
schema_dict
,
'obj'
)
def
_migrate3
(
self
,
schema_dict
):
self
.
_alterTable
(
schema_dict
,
'pt'
,
"rid as `partition`, nid,"
" CASE state"
" WHEN 0 THEN -1"
# UP_TO_DATE
" WHEN 2 THEN -2"
# FEEDING
" ELSE 1-state"
" END as tid"
)
def
_setup
(
self
,
dedup
=
False
):
self
.
_config
.
clear
()
q
=
self
.
query
...
...
@@ -272,10 +280,10 @@ class MySQLDatabaseManager(DatabaseManager):
# The table "pt" stores a partition table.
schema_dict
[
'pt'
]
=
"""CREATE TABLE %s (
rid
INT UNSIGNED NOT NULL,
`partition` SMALL
INT UNSIGNED NOT NULL,
nid INT NOT NULL,
state TINYINT UNSIGNED
NOT NULL,
PRIMARY KEY (
rid
, nid)
tid BIGINT
NOT NULL,
PRIMARY KEY (
`partition`
, nid)
) ENGINE="""
+
engine
if
self
.
_use_partition
:
...
...
@@ -394,36 +402,23 @@ class MySQLDatabaseManager(DatabaseManager):
q
(
"ALTER TABLE config MODIFY value VARBINARY(%s) NULL"
%
len
(
value
))
q
(
sql
)
def
getPartitionTable
(
self
,
*
nid
):
if
nid
:
return
self
.
query
(
"SELECT rid, state FROM pt WHERE nid=%u"
%
nid
)
def
_getPartitionTable
(
self
):
return
self
.
query
(
"SELECT * FROM pt"
)
def
_sqlmax
(
self
,
sql
,
arg_list
):
q
=
self
.
query
x
=
[
x
for
x
in
arg_list
for
x
,
in
q
(
sql
%
x
)
if
x
is
not
None
]
if
x
:
return
max
(
x
)
def
getLastTID
(
self
,
max_tid
):
return
self
.
_sqlmax
(
"SELECT MAX(tid) as t FROM trans FORCE INDEX (PRIMARY)"
" WHERE tid<=%s and `partition`=%%s"
%
max_tid
,
self
.
_getAssignedPartitionList
())
def
_getLastTID
(
self
,
partition
,
max_tid
=
None
):
x
=
"WHERE `partition`=%s"
%
partition
if
max_tid
:
x
+=
" AND tid<=%s"
%
max_tid
(
tid
,),
=
self
.
query
(
"SELECT MAX(tid) as t FROM trans FORCE INDEX (PRIMARY)"
+
x
)
return
tid
def
_getLastIDs
(
self
):
offset_list
=
self
.
_getAssignedPartitionList
()
p64
=
util
.
p64
def
_getLastIDs
(
self
,
partition
):
q
=
self
.
query
sql
=
"SELECT MAX(tid) FROM %s WHERE `partition`=%s"
trans
,
obj
=
({
partition
:
p64
(
tid
)
for
partition
in
offset_list
for
tid
,
in
q
(
sql
%
(
t
,
partition
))
if
tid
is
not
None
}
for
t
in
(
'trans FORCE INDEX (PRIMARY)'
,
'obj FORCE INDEX (tid)'
))
oid
=
self
.
_sqlmax
(
"SELECT MAX(oid) FROM obj FORCE INDEX (PRIMARY)"
" WHERE `partition`=%s"
,
offset_list
)
return
trans
,
obj
,
None
if
oid
is
None
else
p64
(
oid
)
x
=
"WHERE `partition`=%s"
%
partition
(
oid
,),
=
q
(
"SELECT MAX(oid) FROM obj FORCE INDEX (PRIMARY)"
+
x
)
(
tid
,),
=
q
(
"SELECT MAX(tid) FROM obj FORCE INDEX (tid)"
+
x
)
return
tid
,
oid
def
_getDataLastId
(
self
,
partition
):
return
self
.
query
(
"SELECT MAX(id) FROM data WHERE %s <= id AND id < %s"
...
...
@@ -489,17 +484,17 @@ class MySQLDatabaseManager(DatabaseManager):
q
=
self
.
query
if
reset
:
q
(
"DELETE FROM pt"
)
for
offset
,
nid
,
state
in
cell_list
:
for
offset
,
nid
,
tid
in
cell_list
:
# TODO: this logic should move out of database manager
# add 'dropCells(cell_list)' to API and use one query
if
state
==
CellStates
.
DISCARDED
:
q
(
"DELETE FROM pt WHERE
rid
= %d AND nid = %d"
if
tid
is
None
:
q
(
"DELETE FROM pt WHERE
`partition`
= %d AND nid = %d"
%
(
offset
,
nid
))
else
:
offset_list
.
append
(
offset
)
q
(
"INSERT INTO pt VALUES (%d, %d, %d)"
" ON DUPLICATE KEY UPDATE
state
= %d"
%
(
offset
,
nid
,
state
,
state
))
" ON DUPLICATE KEY UPDATE
tid
= %d"
%
(
offset
,
nid
,
tid
,
tid
))
if
self
.
_use_partition
:
for
offset
in
offset_list
:
add
=
"""ALTER TABLE %%s ADD PARTITION (
...
...
@@ -750,10 +745,10 @@ class MySQLDatabaseManager(DatabaseManager):
def
_deleteRange
(
self
,
partition
,
min_tid
=
None
,
max_tid
=
None
):
sql
=
" WHERE `partition`=%d"
%
partition
if
min_tid
:
sql
+=
" AND %d < tid"
%
util
.
u64
(
min_tid
)
if
max_tid
:
sql
+=
" AND tid <= %d"
%
util
.
u64
(
max_tid
)
if
min_tid
is
not
None
:
sql
+=
" AND %d < tid"
%
min_tid
if
max_tid
is
not
None
:
sql
+=
" AND tid <= %d"
%
max_tid
q
=
self
.
query
q
(
"DELETE FROM trans"
+
sql
)
sql
=
" FROM obj"
+
sql
...
...
neo/storage/database/sqlite.py
View file @
f62f9bc9
...
...
@@ -25,7 +25,7 @@ from . import LOG_QUERIES
from
.manager
import
DatabaseManager
,
splitOIDField
from
neo.lib
import
logging
,
util
from
neo.lib.interfaces
import
implements
from
neo.lib.protocol
import
CellStates
,
ZERO_OID
,
ZERO_TID
,
ZERO_HASH
from
neo.lib.protocol
import
ZERO_OID
,
ZERO_TID
,
ZERO_HASH
def
unique_constraint_message
(
table
,
*
columns
):
c
=
sqlite3
.
connect
(
":memory:"
)
...
...
@@ -68,7 +68,7 @@ class SQLiteDatabaseManager(DatabaseManager):
never be used for small requests.
"""
VERSION
=
2
VERSION
=
3
def
_parse
(
self
,
database
):
self
.
db
=
os
.
path
.
expanduser
(
database
)
...
...
@@ -135,6 +135,12 @@ class SQLiteDatabaseManager(DatabaseManager):
def
_migrate2
(
self
,
schema_dict
,
index_dict
):
self
.
_alterTable
(
schema_dict
,
'obj'
)
def
_migrate3
(
self
,
schema_dict
,
index_dict
):
self
.
_alterTable
(
schema_dict
,
'pt'
,
"rid, nid, CASE state"
" WHEN 0 THEN -1"
# UP_TO_DATE
" WHEN 2 THEN -2"
# FEEDING
" ELSE 1-state END"
)
def
_setup
(
self
,
dedup
=
False
):
# BBB: SQLite has transactional DDL but before Python 3.6,
# the binding automatically commits between such statements.
...
...
@@ -154,10 +160,10 @@ class SQLiteDatabaseManager(DatabaseManager):
# The table "pt" stores a partition table.
schema_dict
[
'pt'
]
=
"""CREATE TABLE %s (
rid
INTEGER NOT NULL,
partition
INTEGER NOT NULL,
nid INTEGER NOT NULL,
state
INTEGER NOT NULL,
PRIMARY KEY (
rid
, nid))
tid
INTEGER NOT NULL,
PRIMARY KEY (
partition
, nid))
"""
# The table "trans" stores information on committed transactions.
...
...
@@ -254,42 +260,23 @@ class SQLiteDatabaseManager(DatabaseManager):
else
:
q
(
"REPLACE INTO config VALUES (?,?)"
,
(
key
,
str
(
value
)))
def
getPartitionTable
(
self
,
*
nid
):
if
nid
:
return
self
.
query
(
"SELECT rid, state FROM pt WHERE nid=?"
,
nid
)
def
_getPartitionTable
(
self
):
return
self
.
query
(
"SELECT * FROM pt"
)
# A test with a table of 20 million lines and SQLite 3.8.7.1 shows that
# it's not worth changing getLastTID:
# - It already returns the result in less than 2 seconds, without reading
# the whole table (this is 4-7 times faster than MySQL).
# - Strangely, a "GROUP BY partition" clause makes SQLite almost twice
# slower.
# - Getting MAX(tid) is immediate with a "AND partition=?" condition so one
# way to speed up the following 2 methods is to repeat the queries for
# each partition (and finish in Python with max() for getLastTID).
def
getLastTID
(
self
,
max_tid
):
return
self
.
query
(
"SELECT MAX(tid) FROM pt, trans"
" WHERE nid=? AND rid=partition AND tid<=?"
,
(
self
.
getUUID
(),
max_tid
,)).
next
()[
0
]
def
_getLastIDs
(
self
):
p64
=
util
.
p64
def
_getLastTID
(
self
,
partition
,
max_tid
=
None
):
x
=
self
.
query
if
max_tid
is
None
:
x
=
x
(
"SELECT MAX(tid) FROM trans WHERE partition=?"
,
(
partition
,))
else
:
x
=
x
(
"SELECT MAX(tid) FROM trans WHERE partition=? AND tid<=?"
,
(
partition
,
max_tid
))
return
x
.
next
()[
0
]
def
_getLastIDs
(
self
,
*
args
):
q
=
self
.
query
args
=
self
.
getUUID
(),
trans
=
{
partition
:
p64
(
tid
)
for
partition
,
tid
in
q
(
"SELECT partition, MAX(tid) FROM pt, trans"
" WHERE nid=? AND rid=partition GROUP BY partition"
,
args
)}
obj
=
{
partition
:
p64
(
tid
)
for
partition
,
tid
in
q
(
"SELECT partition, MAX(tid) FROM pt, obj"
" WHERE nid=? AND rid=partition GROUP BY partition"
,
args
)}
oid
=
q
(
"SELECT MAX(oid) oid FROM pt, obj"
" WHERE nid=? AND rid=partition"
,
args
).
next
()[
0
]
return
trans
,
obj
,
None
if
oid
is
None
else
p64
(
oid
)
(
oid
,),
=
q
(
"SELECT MAX(oid) FROM obj WHERE `partition`=?"
,
args
)
(
tid
,),
=
q
(
"SELECT MAX(tid) FROM obj WHERE `partition`=?"
,
args
)
return
tid
,
oid
def
_getDataLastId
(
self
,
partition
):
return
self
.
query
(
"SELECT MAX(id) FROM data WHERE %s <= id AND id < %s"
...
...
@@ -357,8 +344,8 @@ class SQLiteDatabaseManager(DatabaseManager):
# whereas we try to replace only 1 value ?
# We don't want to remove the 'NOT NULL' constraint
# so we must simulate a "REPLACE OR FAIL".
q
(
"DELETE FROM pt WHERE
rid
=? AND nid=?"
,
(
offset
,
nid
))
if
state
!=
CellStates
.
DISCARDED
:
q
(
"DELETE FROM pt WHERE
partition
=? AND nid=?"
,
(
offset
,
nid
))
if
state
is
not
None
:
q
(
"INSERT OR FAIL INTO pt VALUES (?,?,?)"
,
(
offset
,
nid
,
int
(
state
)))
...
...
@@ -525,12 +512,12 @@ class SQLiteDatabaseManager(DatabaseManager):
def
_deleteRange
(
self
,
partition
,
min_tid
=
None
,
max_tid
=
None
):
sql
=
" WHERE partition=?"
args
=
[
partition
]
if
min_tid
:
if
min_tid
is
not
None
:
sql
+=
" AND ? < tid"
args
.
append
(
util
.
u64
(
min_tid
)
)
if
max_tid
:
args
.
append
(
min_tid
)
if
max_tid
is
not
None
:
sql
+=
" AND tid <= ?"
args
.
append
(
util
.
u64
(
max_tid
)
)
args
.
append
(
max_tid
)
q
=
self
.
query
q
(
"DELETE FROM trans"
+
sql
,
args
)
sql
=
" FROM obj"
+
sql
...
...
neo/storage/handlers/initialization.py
View file @
f62f9bc9
...
...
@@ -63,7 +63,7 @@ class InitializationHandler(BaseMasterHandler):
def
askLastIDs
(
self
,
conn
):
dm
=
self
.
app
.
dm
dm
.
truncate
()
ltid
,
_
,
_
,
loid
=
dm
.
getLastIDs
()
ltid
,
loid
=
dm
.
getLastIDs
()
conn
.
answer
(
Packets
.
AnswerLastIDs
(
loid
,
ltid
))
def
askPartitionTable
(
self
,
conn
):
...
...
@@ -81,14 +81,6 @@ class InitializationHandler(BaseMasterHandler):
dm
.
commit
()
def
startOperation
(
self
,
conn
,
backup
):
self
.
app
.
operational
=
True
# XXX: see comment in protocol
dm
=
self
.
app
.
dm
if
backup
:
if
dm
.
getBackupTID
():
return
tid
=
dm
.
getLastIDs
()[
0
]
or
ZERO_TID
else
:
tid
=
None
dm
.
_setBackupTID
(
tid
)
dm
.
commit
()
self
.
app
.
operational
=
True
self
.
app
.
replicator
.
startOperation
(
backup
)
neo/storage/handlers/master.py
View file @
f62f9bc9
...
...
@@ -26,10 +26,7 @@ class MasterOperationHandler(BaseMasterHandler):
def
startOperation
(
self
,
conn
,
backup
):
# XXX: see comment in protocol
assert
self
.
app
.
operational
and
backup
dm
=
self
.
app
.
dm
if
not
dm
.
getBackupTID
():
dm
.
_setBackupTID
(
dm
.
getLastIDs
()[
0
]
or
ZERO_TID
)
dm
.
commit
()
self
.
app
.
replicator
.
startOperation
(
backup
)
def
askLockInformation
(
self
,
conn
,
ttid
,
tid
):
self
.
app
.
tm
.
lock
(
ttid
,
tid
)
...
...
neo/storage/handlers/storage.py
View file @
f62f9bc9
...
...
@@ -97,15 +97,13 @@ class StorageOperationHandler(EventHandler):
for
serial
,
oid_list
in
object_dict
.
iteritems
():
for
oid
in
oid_list
:
deleteObject
(
oid
,
serial
)
# XXX: It should be possible not to commit here if it was the last
# chunk, because we'll either commit again when updating
# 'backup_tid' or the partition table.
self
.
app
.
dm
.
commit
()
assert
not
pack_tid
,
"TODO"
if
next_tid
:
self
.
app
.
dm
.
commit
()
# like in answerFetchTransactions
# TODO also provide feedback to master about current replication state (tid)
self
.
app
.
replicator
.
fetchObjects
(
next_tid
,
next_oid
)
else
:
# This will also commit.
self
.
app
.
replicator
.
finish
()
@
checkConnectionIsReplicatorConnection
...
...
neo/storage/replicator.py
View file @
f62f9bc9
...
...
@@ -93,7 +93,7 @@ from neo.lib import logging
from
neo.lib.protocol
import
CellStates
,
NodeTypes
,
NodeStates
,
\
Packets
,
INVALID_TID
,
ZERO_TID
,
ZERO_OID
from
neo.lib.connection
import
ClientConnection
,
ConnectionClosed
from
neo.lib.util
import
add64
,
dump
from
neo.lib.util
import
add64
,
dump
,
p64
from
.handlers.storage
import
StorageOperationHandler
FETCH_COUNT
=
1000
...
...
@@ -190,41 +190,50 @@ class Replicator(object):
return
add64
(
tid
,
-
1
)
return
ZERO_TID
def
updateBackupTID
(
self
):
def
updateBackupTID
(
self
,
commit
=
False
):
dm
=
self
.
app
.
dm
tid
=
dm
.
getBackupTID
()
if
tid
:
new_tid
=
self
.
getBackupTID
()
if
tid
!=
new_tid
:
dm
.
_setBackupTID
(
new_tid
)
if
commit
:
dm
.
commit
()
def
startOperation
(
self
,
backup
):
dm
=
self
.
app
.
dm
if
backup
:
if
dm
.
getBackupTID
():
assert
not
hasattr
(
self
,
'partition_dict'
),
self
.
partition_dict
return
tid
=
dm
.
getLastIDs
()[
0
]
or
ZERO_TID
else
:
tid
=
None
dm
.
_setBackupTID
(
tid
)
dm
.
commit
()
try
:
partition_dict
=
self
.
partition_dict
except
AttributeError
:
return
for
offset
,
next_tid
in
dm
.
iterCellNextTIDs
():
if
type
(
next_tid
)
is
not
bytes
:
# readable
p
=
partition_dict
[
offset
]
p
.
next_trans
,
p
.
next_obj
=
next_tid
def
populate
(
self
):
app
=
self
.
app
pt
=
app
.
pt
uuid
=
app
.
uuid
self
.
partition_dict
=
{}
self
.
replicate_dict
=
{}
self
.
source_dict
=
{}
self
.
ttid_set
=
set
()
last_tid
,
last_trans_dict
,
last_obj_dict
,
_
=
app
.
dm
.
getLastIDs
()
next_tid
=
app
.
dm
.
getBackupTID
()
or
last_tid
next_tid
=
add64
(
next_tid
,
1
)
if
next_tid
else
ZERO_TID
outdated_list
=
[]
for
offset
in
xrange
(
pt
.
getPartitions
()):
for
cell
in
pt
.
getCellList
(
offset
):
if
cell
.
getUUID
()
==
uuid
and
not
cell
.
isCorrupted
():
for
offset
,
next_tid
in
self
.
app
.
dm
.
iterCellNextTIDs
():
self
.
partition_dict
[
offset
]
=
p
=
Partition
()
if
cell
.
isOutOfDate
():
if
type
(
next_tid
)
is
bytes
:
# OUT_OF_DATE
outdated_list
.
append
(
offset
)
try
:
p
.
next_trans
=
add64
(
last_trans_dict
[
offset
],
1
)
except
KeyError
:
p
.
next_trans
=
ZERO_TID
p
.
next_obj
=
last_obj_dict
.
get
(
offset
,
ZERO_TID
)
p
.
max_ttid
=
INVALID_TID
else
:
p
.
next_trans
=
p
.
next_obj
=
next_tid
p
.
max_ttid
=
INVALID_TID
else
:
# readable
p
.
next_trans
,
p
.
next_obj
=
next_tid
or
(
None
,
None
)
p
.
max_ttid
=
None
if
outdated_list
:
self
.
app
.
tm
.
replicating
(
outdated_list
)
...
...
@@ -236,7 +245,6 @@ class Replicator(object):
discarded_list
=
[]
readable_list
=
[]
app
=
self
.
app
last_tid
,
last_trans_dict
,
last_obj_dict
,
_
=
app
.
dm
.
getLastIDs
()
for
offset
,
uuid
,
state
in
cell_list
:
if
uuid
==
app
.
uuid
:
if
state
in
(
CellStates
.
DISCARDED
,
CellStates
.
CORRUPTED
):
...
...
@@ -251,11 +259,9 @@ class Replicator(object):
elif
state
==
CellStates
.
OUT_OF_DATE
:
assert
offset
not
in
self
.
partition_dict
self
.
partition_dict
[
offset
]
=
p
=
Partition
()
try
:
p
.
next_trans
=
add64
(
last_trans_dict
[
offset
],
1
)
except
KeyError
:
p
.
next_trans
=
ZERO_TID
p
.
next_obj
=
last_obj_dict
.
get
(
offset
,
ZERO_TID
)
# New cell. 0 is also what should be stored by the backend.
# Nothing to optimize.
p
.
next_trans
=
p
.
next_obj
=
ZERO_TID
p
.
max_ttid
=
INVALID_TID
added_list
.
append
(
offset
)
else
:
...
...
@@ -289,7 +295,7 @@ class Replicator(object):
next_tid
=
add64
(
tid
,
1
)
p
.
next_trans
=
p
.
next_obj
=
next_tid
if
next_tid
:
self
.
updateBackupTID
()
self
.
updateBackupTID
(
True
)
self
.
_nextPartition
()
def
_nextPartitionSortKey
(
self
,
offset
):
...
...
@@ -406,11 +412,14 @@ class Replicator(object):
p
=
self
.
partition_dict
[
offset
]
p
.
next_obj
=
add64
(
tid
,
1
)
self
.
updateBackupTID
()
app
=
self
.
app
app
.
dm
.
updateCellTID
(
offset
,
tid
)
app
.
dm
.
commit
()
if
p
.
max_ttid
or
offset
in
self
.
replicate_dict
and
\
offset
not
in
self
.
source_dict
:
logging
.
debug
(
"unfinished transactions: %r"
,
self
.
ttid_set
)
else
:
self
.
app
.
tm
.
replicated
(
offset
,
tid
)
app
.
tm
.
replicated
(
offset
,
tid
)
logging
.
debug
(
"partition %u replicated up to %s from %r"
,
offset
,
dump
(
tid
),
self
.
current_node
)
self
.
getCurrentConnection
().
setReconnectionNoDelay
()
...
...
neo/tests/storage/testStorageDBTests.py
View file @
f62f9bc9
...
...
@@ -254,7 +254,7 @@ class StorageDBTests(NeoUnitTestBase):
txn1
,
objs1
=
self
.
getTransaction
([
oid1
])
txn2
,
objs2
=
self
.
getTransaction
([
oid2
])
# nothing in database
self
.
assertEqual
(
self
.
db
.
getLastIDs
(),
(
None
,
{},
{},
None
))
self
.
assertEqual
(
self
.
db
.
getLastIDs
(),
(
None
,
None
))
self
.
assertEqual
(
self
.
db
.
getUnfinishedTIDDict
(),
{})
self
.
assertEqual
(
self
.
db
.
getObject
(
oid1
),
None
)
self
.
assertEqual
(
self
.
db
.
getObject
(
oid2
),
None
)
...
...
@@ -320,13 +320,17 @@ class StorageDBTests(NeoUnitTestBase):
expected
=
[(
t
,
oid_list
[
offset
+
i
])
for
t
in
tids
for
i
in
(
0
,
np
)]
self
.
assertEqual
(
self
.
db
.
getReplicationObjectList
(
ZERO_TID
,
MAX_TID
,
len
(
expected
)
+
1
,
offset
,
ZERO_OID
),
expected
)
self
.
db
.
_deleteRange
(
0
,
MAX_TID
)
self
.
db
.
_deleteRange
(
0
,
max_tid
=
ZERO_TID
)
def
deleteRange
(
partition
,
min_tid
=
None
,
max_tid
=
None
):
self
.
db
.
_deleteRange
(
partition
,
None
if
min_tid
is
None
else
u64
(
min_tid
),
None
if
max_tid
is
None
else
u64
(
max_tid
))
deleteRange
(
0
,
MAX_TID
)
deleteRange
(
0
,
max_tid
=
ZERO_TID
)
check
(
0
,
[],
t1
,
t2
,
t3
)
self
.
db
.
_
deleteRange
(
0
);
check
(
0
,
[])
self
.
db
.
_
deleteRange
(
1
,
t2
);
check
(
1
,
[
t1
],
t1
,
t2
)
self
.
db
.
_
deleteRange
(
2
,
max_tid
=
t2
);
check
(
2
,
[],
t3
)
self
.
db
.
_
deleteRange
(
3
,
t1
,
t2
);
check
(
3
,
[
t3
],
t1
,
t3
)
deleteRange
(
0
);
check
(
0
,
[])
deleteRange
(
1
,
t2
);
check
(
1
,
[
t1
],
t1
,
t2
)
deleteRange
(
2
,
max_tid
=
t2
);
check
(
2
,
[],
t3
)
deleteRange
(
3
,
t1
,
t2
);
check
(
3
,
[
t3
],
t1
,
t3
)
def
test_getTransaction
(
self
):
oid1
,
oid2
=
self
.
getOIDs
(
2
)
...
...
neo/tests/threaded/test.py
View file @
f62f9bc9
...
...
@@ -718,8 +718,9 @@ class Test(NEOThreadedTest):
@
with_cluster
()
def
testStorageUpgrade1
(
self
,
cluster
):
if
1
:
storage
=
cluster
.
storage
# Disable migration steps that aren't idempotent.
with
Patch
(
storage
.
dm
.
__class__
,
_migrate3
=
lambda
*
_
:
None
):
t
,
c
=
cluster
.
getTransaction
()
storage
.
dm
.
setConfiguration
(
"version"
,
None
)
c
.
root
().
_p_changed
=
1
...
...
@@ -1289,7 +1290,7 @@ class Test(NEOThreadedTest):
s1
.
resetNode
()
with
Patch
(
s1
.
dm
,
truncate
=
dieFirst
(
1
)):
s1
.
start
()
self
.
assert
Equal
(
s0
.
dm
.
getLastIDs
()[
0
],
truncate_tid
)
self
.
assert
False
(
s0
.
dm
.
getLastIDs
()[
0
]
)
self
.
assertEqual
(
s1
.
dm
.
getLastIDs
()[
0
],
r
.
_p_serial
)
self
.
tic
()
self
.
assertEqual
(
calls
,
[
1
,
2
])
...
...
@@ -2351,7 +2352,7 @@ class Test(NEOThreadedTest):
oid
,
tid
=
big_id_list
[
i
]
for
j
,
expected
in
(
(
1
-
i
,
(
dm
.
getLastTID
(
u64
(
MAX_TID
)),
dm
.
getLastIDs
())),
(
i
,
(
u64
(
tid
),
(
tid
,
{},
{},
oid
)))):
(
i
,
(
u64
(
tid
),
(
tid
,
oid
)))):
oid
,
tid
=
big_id_list
[
j
]
# Somehow we abuse 'storeTransaction' because we ask it to
# write data for unassigned partitions. This is not checked
...
...
neo/tests/threaded/testReplication.py
View file @
f62f9bc9
...
...
@@ -24,12 +24,12 @@ from neo.lib import logging
from
neo.client.exception
import
NEOStorageError
from
neo.master.handlers.backup
import
BackupHandler
from
neo.storage.checker
import
CHECK_COUNT
from
neo.storage
.replicator
import
R
eplicator
from
neo.storage
import
r
eplicator
from
neo.lib.connector
import
SocketConnector
from
neo.lib.connection
import
ClientConnection
from
neo.lib.protocol
import
CellStates
,
ClusterStates
,
Packets
,
\
ZERO_OID
,
ZERO_TID
,
MAX_TID
,
uuid_str
from
neo.lib.util
import
p64
,
u64
from
neo.lib.util
import
add64
,
p64
,
u64
from
..
import
expectedFailure
,
Patch
,
TransactionalResource
from
.
import
ConnectionFilter
,
NEOCluster
,
NEOThreadedTest
,
\
predictable_random
,
with_cluster
...
...
@@ -39,9 +39,9 @@ from .test import PCounter, PCounterWithResolution # XXX
def
backup_test
(
partitions
=
1
,
upstream_kw
=
{},
backup_kw
=
{}):
def
decorator
(
wrapped
):
def
wrapper
(
self
):
with
NEOCluster
(
partitions
,
**
upstream_kw
)
as
upstream
:
with
NEOCluster
(
partitions
=
partitions
,
**
upstream_kw
)
as
upstream
:
upstream
.
start
()
with
NEOCluster
(
partitions
,
upstream
=
upstream
,
with
NEOCluster
(
partitions
=
partitions
,
upstream
=
upstream
,
**
backup_kw
)
as
backup
:
backup
.
start
()
backup
.
neoctl
.
setClusterState
(
ClusterStates
.
STARTING_BACKUP
)
...
...
@@ -659,33 +659,158 @@ class ReplicationTests(NEOThreadedTest):
self
.
assertEqual
(
2
,
s0
.
sqlCount
(
'obj'
))
expectedFailure
(
self
.
assertEqual
)(
2
,
count
)
@
with_cluster
(
start_cluster
=
0
,
replicas
=
1
)
@
with_cluster
(
replicas
=
1
)
def
testResumingReplication
(
self
,
cluster
):
if
1
:
"""
Check from where replication resumes for an OUT_OF_DATE cell that has
a hole, which is possible because OUT_OF_DATE cells are writable.
"""
ask
=
[]
def
logReplication
(
conn
,
packet
):
if
isinstance
(
packet
,
(
Packets
.
AskFetchTransactions
,
Packets
.
AskFetchObjects
)):
ask
.
append
(
packet
.
decode
()[
2
:])
def
getTIDList
():
return
[
t
.
tid
for
t
in
c
.
db
().
storage
.
iterator
()]
s0
,
s1
=
cluster
.
storage_list
cluster
.
start
(
storage_list
=
(
s0
,))
t
,
c
=
cluster
.
getTransaction
()
r
=
c
.
root
()
# s1 is UP_TO_DATE and it has the initial transaction.
# Let's outdate it: replication will have to resume just after this
# transaction, regardless of future written transactions.
# To make sure, we get a hole in the cell, we block replication.
s1
.
stop
()
cluster
.
join
((
s1
,))
r
.
_p_changed
=
1
t
.
commit
()
s1
.
resetNode
()
with
Patch
(
replicator
.
Replicator
,
connected
=
lambda
*
_
:
None
):
s1
.
start
()
self
.
tic
()
with
Patch
(
Replicator
,
connected
=
lambda
*
_
:
None
):
cluster
.
enableStorageList
((
s1
,))
cluster
.
neoctl
.
tweakPartitionTable
()
r
.
_p_changed
=
1
t
.
commit
()
self
.
tic
()
s1
.
stop
()
cluster
.
join
((
s1
,))
t0
,
t1
,
t2
=
c
.
db
().
storage
.
iterator
()
tids
=
getTIDList
()
s1
.
resetNode
()
# Initialization done. Now we check that replication is correct
# and efficient.
with
ConnectionFilter
()
as
f
:
f
.
add
(
logReplication
)
s1
.
start
()
self
.
tic
()
self
.
assertEqual
([],
cluster
.
getOutdatedCells
())
s0
.
stop
()
cluster
.
join
((
s0
,))
t0
,
t1
,
t2
=
c
.
db
().
storage
.
iterator
()
self
.
assertEqual
(
tids
,
getTIDList
())
t0_next
=
add64
(
tids
[
0
],
1
)
self
.
assertEqual
(
ask
,
[
(
t0_next
,
tids
[
2
],
tids
[
2
:]),
(
t0_next
,
tids
[
2
],
ZERO_OID
,
{
tids
[
2
]:
[
ZERO_OID
]}),
])
@
backup_test
(
2
,
backup_kw
=
dict
(
replicas
=
1
))
def
testResumingBackupReplication
(
self
,
backup
):
upstream
=
backup
.
upstream
t
,
c
=
upstream
.
getTransaction
()
r
=
c
.
root
()
r
[
1
]
=
PCounter
()
t
.
commit
()
r
[
2
]
=
ob
=
PCounter
()
tids
=
[]
def
newTransaction
():
r
.
_p_changed
=
ob
.
_p_changed
=
1
with
upstream
.
moduloTID
(
0
):
t
.
commit
()
self
.
tic
()
tids
.
append
(
r
.
_p_serial
)
def
getTIDList
(
storage
):
return
storage
.
dm
.
getReplicationTIDList
(
tids
[
0
],
MAX_TID
,
9
,
0
)
newTransaction
()
self
.
assertEqual
(
u64
(
ob
.
_p_oid
),
2
)
getBackupTid
=
backup
.
master
.
pt
.
getBackupTid
# Check when an OUT_OF_DATE cell has more data than an UP_TO_DATE one.
primary
=
backup
.
master
.
backup_app
.
primary_partition_dict
[
0
].
_uuid
slave
,
primary
=
sorted
(
backup
.
storage_list
,
key
=
lambda
x
:
x
.
uuid
==
primary
)
with
ConnectionFilter
()
as
f
:
@
f
.
delayAnswerFetchTransactions
def
delay
(
conn
,
x
=
{
None
:
0
,
primary
.
uuid
:
0
}):
return
x
.
pop
(
conn
.
getUUID
(),
1
)
newTransaction
()
self
.
assertEqual
(
getBackupTid
(),
tids
[
1
])
primary
.
stop
()
backup
.
join
((
primary
,))
primary
.
resetNode
()
primary
.
start
()
self
.
tic
()
primary
,
slave
=
slave
,
primary
self
.
assertEqual
(
tids
,
getTIDList
(
slave
))
self
.
assertEqual
(
tids
[:
1
],
getTIDList
(
primary
))
self
.
assertEqual
(
getBackupTid
(),
add64
(
tids
[
1
],
-
1
))
self
.
assertEqual
(
f
.
filtered_count
,
3
)
self
.
tic
()
self
.
assertEqual
(
4
,
self
.
checkBackup
(
backup
))
self
.
assertEqual
(
getBackupTid
(
min
),
tids
[
1
])
# Check that replication resumes from the maximum possible tid
# (for UP_TO_DATE cells of a backup cluster). More precisely:
# - cells are handled independently (done here by blocking replication
# of partition 1 to keep the backup TID low)
# - trans and obj are also handled independently (with FETCH_COUNT=1,
# we interrupt replication of obj in the middle of a transaction)
slave
.
stop
()
backup
.
join
((
slave
,))
ask
=
[]
def
delayReplicate
(
conn
,
packet
):
if
isinstance
(
packet
,
Packets
.
AskFetchObjects
):
if
len
(
ask
)
==
6
:
return
True
elif
not
isinstance
(
packet
,
Packets
.
AskFetchTransactions
):
return
ask
.
append
(
packet
.
decode
())
conn
,
=
upstream
.
master
.
getConnectionList
(
backup
.
master
)
with
ConnectionFilter
()
as
f
,
Patch
(
replicator
.
Replicator
,
_nextPartitionSortKey
=
lambda
orig
,
self
,
offset
:
offset
):
f
.
add
(
delayReplicate
)
delayReconnect
=
f
.
delayAskLastTransaction
()
conn
.
close
()
newTransaction
()
newTransaction
()
newTransaction
()
self
.
assertFalse
(
ask
)
self
.
assertEqual
(
f
.
filtered_count
,
1
)
with
Patch
(
replicator
,
FETCH_COUNT
=
1
):
f
.
remove
(
delayReconnect
)
self
.
tic
()
t1_next
=
add64
(
tids
[
1
],
1
)
self
.
assertEqual
(
ask
,
[
# trans
(
0
,
1
,
t1_next
,
tids
[
4
],
[]),
(
0
,
1
,
tids
[
3
],
tids
[
4
],
[]),
(
0
,
1
,
tids
[
4
],
tids
[
4
],
[]),
# obj
(
0
,
1
,
t1_next
,
tids
[
4
],
ZERO_OID
,
{}),
(
0
,
1
,
tids
[
2
],
tids
[
4
],
p64
(
2
),
{}),
(
0
,
1
,
tids
[
3
],
tids
[
4
],
ZERO_OID
,
{}),
])
del
ask
[:]
max_ask
=
None
backup
.
stop
()
newTransaction
()
backup
.
start
((
primary
,))
n
=
replicator
.
FETCH_COUNT
t4_next
=
add64
(
tids
[
4
],
1
)
self
.
assertEqual
(
ask
,
[
(
0
,
n
,
t4_next
,
tids
[
5
],
[]),
(
0
,
n
,
tids
[
3
],
tids
[
5
],
ZERO_OID
,
{
tids
[
3
]:
[
ZERO_OID
]}),
(
1
,
n
,
t1_next
,
tids
[
5
],
[]),
(
1
,
n
,
t1_next
,
tids
[
5
],
ZERO_OID
,
{}),
])
self
.
tic
()
self
.
assertEqual
(
2
,
self
.
checkBackup
(
backup
))
@
with_cluster
(
start_cluster
=
0
,
replicas
=
1
,
partitions
=
2
)
def
testReplicationBlockedByUnfinished1
(
self
,
cluster
,
...
...
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