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Kirill Smelkov
neo
Commits
693aaf79
Commit
693aaf79
authored
Nov 08, 2018
by
Julien Muchembled
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client: prepare merge of ConnectionPool inside Application
parent
305dda86
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2
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77 additions
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1033 deletions
+77
-1033
neo/client/app.py
neo/client/app.py
+77
-934
neo/client/pool.py
neo/client/pool.py
+0
-99
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neo/client/app.py
View file @
693aaf79
...
...
@@ -14,943 +14,86 @@
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import
heapq
import
time
try
:
from
ZODB._compat
import
dumps
,
loads
,
_protocol
except
ImportError
:
from
cPickle
import
dumps
,
loads
_protocol
=
1
from
ZODB.POSException
import
UndoError
,
ConflictError
,
ReadConflictError
from
.
import
OLD_ZODB
if
OLD_ZODB
:
from
ZODB.ConflictResolution
import
ResolvedSerial
from
persistent.TimeStamp
import
TimeStamp
import
random
,
time
from
neo.lib
import
logging
from
neo.lib.compress
import
decompress_list
,
getCompress
from
neo.lib.protocol
import
NodeTypes
,
Packets
,
\
INVALID_PARTITION
,
MAX_TID
,
ZERO_HASH
,
ZERO_TID
from
neo.lib.util
import
makeChecksum
,
dump
from
neo.lib.locking
import
Empty
,
Lock
from
neo.lib.locking
import
Lock
from
neo.lib.protocol
import
NodeTypes
,
Packets
from
neo.lib.connection
import
MTClientConnection
,
ConnectionClosed
from
.exception
import
(
NEOStorageError
,
NEOStorageCreationUndoneError
,
NEOStorageReadRetry
,
NEOStorageNotFoundError
,
NEOPrimaryMasterLost
)
from
.handlers
import
storage
,
master
from
neo.lib.threaded_app
import
ThreadedApplication
from
.cache
import
ClientCache
from
.pool
import
ConnectionPool
from
.transactions
import
TransactionContainer
from
neo.lib.util
import
p64
,
u64
,
parseMasterList
CHECKED_SERIAL
=
object
()
try
:
from
Signals.Signals
import
SignalHandler
except
ImportError
:
SignalHandler
=
None
if
SignalHandler
:
import
signal
SignalHandler
.
registerHandler
(
signal
.
SIGUSR2
,
logging
.
reopen
)
class
Application
(
ThreadedApplication
):
"""The client node application."""
# For tests only. Do not touch. We want tpc_finish to always recover when
# the transaction is really committed, no matter for how long the master
# is unreachable.
max_reconnection_to_master
=
float
(
'inf'
)
def
__init__
(
self
,
master_nodes
,
name
,
compress
=
True
,
cache_size
=
None
,
**
kw
):
super
(
Application
,
self
).
__init__
(
parseMasterList
(
master_nodes
),
name
,
**
kw
)
# Internal Attributes common to all thread
self
.
_db
=
None
self
.
cp
=
ConnectionPool
(
self
)
self
.
primary_master_node
=
None
self
.
trying_master_node
=
None
# no self-assigned UUID, primary master will supply us one
self
.
_cache
=
ClientCache
()
if
cache_size
is
None
else
\
ClientCache
(
max_size
=
cache_size
)
self
.
_loading_oid
=
None
self
.
new_oid_list
=
()
self
.
last_oid
=
'
\
0
'
*
8
self
.
storage_event_handler
=
storage
.
StorageEventHandler
(
self
)
self
.
storage_bootstrap_handler
=
storage
.
StorageBootstrapHandler
(
self
)
self
.
storage_handler
=
storage
.
StorageAnswersHandler
(
self
)
self
.
primary_handler
=
master
.
PrimaryAnswersHandler
(
self
)
self
.
primary_bootstrap_handler
=
master
.
PrimaryBootstrapHandler
(
self
)
self
.
notifications_handler
=
master
.
PrimaryNotificationsHandler
(
self
)
self
.
_txn_container
=
TransactionContainer
()
# Lock definition :
# _load_lock is used to make loading and storing atomic
lock
=
Lock
()
self
.
_load_lock_acquire
=
lock
.
acquire
self
.
_load_lock_release
=
lock
.
release
# _oid_lock is used in order to not call multiple oid
# generation at the same time
lock
=
Lock
()
self
.
_oid_lock_acquire
=
lock
.
acquire
self
.
_oid_lock_release
=
lock
.
release
lock
=
Lock
()
# _cache_lock is used for the client cache
self
.
_cache_lock_acquire
=
lock
.
acquire
self
.
_cache_lock_release
=
lock
.
release
# _connecting_to_master_node is used to prevent simultaneous master
# node connection attempts
self
.
_connecting_to_master_node
=
Lock
()
self
.
compress
=
getCompress
(
compress
)
def
__getattr__
(
self
,
attr
):
if
attr
in
(
'last_tid'
,
'pt'
):
self
.
_getMasterConnection
()
# XXX: There's still a risk that we get disconnected from the
# master at this precise moment and for 'pt', we'd raise
# AttributeError. Should we catch it and loop until it
# succeeds?
return
self
.
__getattribute__
(
attr
)
def
log
(
self
):
super
(
Application
,
self
).
log
()
logging
.
info
(
"%r"
,
self
.
_cache
)
@
property
def
txn_contexts
(
self
):
# do not iter lazily to avoid race condition
return
self
.
_txn_container
.
values
def
_waitAnyMessage
(
self
,
queue
,
block
=
True
):
"""
Handle all pending packets.
block
If True (default), will block until at least one packet was
received.
"""
pending
=
self
.
dispatcher
.
pending
get
=
queue
.
get
_handlePacket
=
self
.
_handlePacket
while
pending
(
queue
):
try
:
conn
,
packet
,
kw
=
get
(
block
)
except
Empty
:
break
block
=
False
try
:
_handlePacket
(
conn
,
packet
,
kw
)
except
(
ConnectionClosed
,
NEOStorageReadRetry
):
# We also catch NEOStorageReadRetry for ObjectUndoSerial.
pass
def
_waitAnyTransactionMessage
(
self
,
txn_context
,
block
=
True
):
"""
Just like _waitAnyMessage, but for per-transaction exchanges, rather
than per-thread.
"""
queue
=
txn_context
.
queue
self
.
setHandlerData
(
txn_context
)
try
:
self
.
_waitAnyMessage
(
queue
,
block
=
block
)
finally
:
# Don't leave access to thread context, even if a raise happens.
self
.
setHandlerData
(
None
)
if
txn_context
.
conflict_dict
:
self
.
_handleConflicts
(
txn_context
)
def
_askStorage
(
self
,
conn
,
packet
,
**
kw
):
""" Send a request to a storage node and process its answer """
return
self
.
_ask
(
conn
,
packet
,
handler
=
self
.
storage_handler
,
**
kw
)
def
_askPrimary
(
self
,
packet
,
**
kw
):
""" Send a request to the primary master and process its answer """
return
self
.
_ask
(
self
.
_getMasterConnection
(),
packet
,
handler
=
self
.
primary_handler
,
**
kw
)
def
_getMasterConnection
(
self
):
""" Connect to the primary master node on demand """
# For performance reasons, get 'master_conn' without locking.
result
=
self
.
master_conn
if
result
is
None
:
# If not connected, 'master_conn' must be tested again while we have
# the lock, to avoid concurrent threads reconnecting.
with
self
.
_connecting_to_master_node
:
result
=
self
.
master_conn
if
result
is
None
:
self
.
new_oid_list
=
()
result
=
self
.
master_conn
=
self
.
_connectToPrimaryNode
()
return
result
def
_connectToPrimaryNode
(
self
):
"""
Lookup for the current primary master node
"""
logging
.
debug
(
'connecting to primary master...'
)
self
.
start
()
index
=
-
1
fail_count
=
0
ask
=
self
.
_ask
handler
=
self
.
primary_bootstrap_handler
while
1
:
self
.
ignore_invalidations
=
True
# Get network connection to primary master
while
fail_count
<
self
.
max_reconnection_to_master
:
self
.
nm
.
reset
()
if
self
.
primary_master_node
is
not
None
:
# If I know a primary master node, pinpoint it.
node
=
self
.
primary_master_node
self
.
primary_master_node
=
None
else
:
# Otherwise, check one by one.
master_list
=
self
.
nm
.
getMasterList
()
if
not
master_list
:
# XXX: On shutdown, it already happened that this list
# is empty, leading to ZeroDivisionError. This
# looks a minor issue so let's wait to have more
# information.
logging
.
error
(
'%r'
,
self
.
__dict__
)
index
=
(
index
+
1
)
%
len
(
master_list
)
node
=
master_list
[
index
]
# Connect to master
conn
=
MTClientConnection
(
self
,
self
.
notifications_handler
,
node
=
node
,
dispatcher
=
self
.
dispatcher
)
p
=
Packets
.
RequestIdentification
(
NodeTypes
.
CLIENT
,
self
.
uuid
,
None
,
self
.
name
,
(),
None
)
try
:
ask
(
conn
,
p
,
handler
=
handler
)
except
ConnectionClosed
:
fail_count
+=
1
else
:
self
.
primary_master_node
=
node
break
else
:
raise
NEOPrimaryMasterLost
(
"Too many connection failures to the primary master"
)
logging
.
info
(
'Connected to %s'
,
self
.
primary_master_node
)
try
:
# Request identification and required informations to be
# operational. Might raise ConnectionClosed so that the new
# primary can be looked-up again.
logging
.
info
(
'Initializing from master'
)
ask
(
conn
,
Packets
.
AskPartitionTable
(),
handler
=
handler
)
ask
(
conn
,
Packets
.
AskLastTransaction
(),
handler
=
handler
)
if
self
.
pt
.
operational
():
break
except
ConnectionClosed
:
logging
.
error
(
'Connection to %s lost'
,
self
.
trying_master_node
)
self
.
primary_master_node
=
None
fail_count
+=
1
logging
.
info
(
"Connected and ready"
)
return
conn
def
registerDB
(
self
,
db
,
limit
):
self
.
_db
=
db
def
getDB
(
self
):
return
self
.
_db
def
new_oid
(
self
):
"""Get a new OID."""
self
.
_oid_lock_acquire
()
try
:
if
not
self
.
new_oid_list
:
# Get new oid list from master node
# we manage a list of oid here to prevent
# from asking too many time new oid one by one
# from master node
self
.
_askPrimary
(
Packets
.
AskNewOIDs
(
100
))
if
not
self
.
new_oid_list
:
raise
NEOStorageError
(
'new_oid failed'
)
self
.
last_oid
=
oid
=
self
.
new_oid_list
.
pop
()
return
oid
finally
:
self
.
_oid_lock_release
()
def
getObjectCount
(
self
):
# return the last OID used, this is inaccurate
return
int
(
u64
(
self
.
last_oid
))
def
_askStorageForRead
(
self
,
object_id
,
packet
,
askStorage
=
None
):
cp
=
self
.
cp
pt
=
self
.
pt
# BBB: On Py2, it can be a subclass of bytes (binary from zodbpickle).
if
isinstance
(
object_id
,
bytes
):
object_id
=
pt
.
getPartition
(
object_id
)
if
askStorage
is
None
:
askStorage
=
self
.
_askStorage
# Failure condition with minimal overhead: most of the time, only the
# following line is executed. In case of storage errors, we retry each
# node at least once, without looping forever.
failed
=
0
while
1
:
cell_list
=
pt
.
getCellList
(
object_id
,
True
)
cell_list
.
sort
(
key
=
cp
.
getCellSortKey
)
for
cell
in
cell_list
:
node
=
cell
.
getNode
()
conn
=
cp
.
getConnForNode
(
node
)
if
conn
is
not
None
:
try
:
return
askStorage
(
conn
,
packet
)
except
ConnectionClosed
:
pass
except
NEOStorageReadRetry
,
e
:
if
e
.
args
[
0
]:
continue
failed
+=
1
if
not
pt
.
filled
():
from
neo.lib.exception
import
NodeNotReady
from
.exception
import
NEOPrimaryMasterLost
# How long before we might retry a connection to a node to which connection
# failed in the past.
MAX_FAILURE_AGE
=
600
class
ConnectionPool
(
object
):
"""This class manages a pool of connections to storage nodes."""
# XXX: This is not a pool anymore.
def
__init__
(
self
,
app
):
self
.
app
=
app
# Define a lock in order to create one connection to
# a storage node at a time to avoid multiple connections
# to the same node.
self
.
_lock
=
Lock
()
self
.
node_failure_dict
=
{}
def
_initNodeConnection
(
self
,
node
):
"""Init a connection to a given storage node."""
app
=
self
.
app
if
app
.
master_conn
is
None
:
raise
NEOPrimaryMasterLost
if
len
(
cell_list
)
<
failed
:
# too many failures
raise
NEOStorageError
(
'no storage available'
)
# Do not retry too quickly, for example
# when there's an incoming PT update.
self
.
sync
()
def
load
(
self
,
oid
,
tid
=
None
,
before_tid
=
None
):
"""
Internal method which manage load, loadSerial and loadBefore.
OID and TID (serial) parameters are expected packed.
oid
OID of object to get.
tid
If given, the exact serial at which OID is desired.
before_tid should be None.
before_tid
If given, the excluded upper bound serial at which OID is desired.
serial should be None.
Return value: (3-tuple)
- Object data (None if object creation was undone).
- Serial of given data.
- Next serial at which object exists, or None. Only set when tid
parameter is not None.
Exceptions:
NEOStorageError
technical problem
NEOStorageNotFoundError
object exists but no data satisfies given parameters
NEOStorageDoesNotExistError
object doesn't exist
NEOStorageCreationUndoneError
object existed, but its creation was undone
Note that loadSerial is used during conflict resolution to load
object's current version, which is not visible to us normally (it was
committed after our snapshot was taken).
"""
# TODO:
# - rename parameters (here? and in handlers & packet definitions)
acquire
=
self
.
_cache_lock_acquire
release
=
self
.
_cache_lock_release
# XXX: Consider using a more fine-grained lock.
self
.
_load_lock_acquire
()
try
:
acquire
()
try
:
result
=
self
.
_loadFromCache
(
oid
,
tid
,
before_tid
)
if
result
:
return
result
self
.
_loading_oid
=
oid
finally
:
release
()
# When not bound to a ZODB Connection, load() may be the
# first method called and last_tid may still be None.
# This happens, for example, when opening the DB.
if
not
(
tid
or
before_tid
)
and
self
.
last_tid
:
# Do not get something more recent than the last invalidation
# we got from master.
before_tid
=
p64
(
u64
(
self
.
last_tid
)
+
1
)
data
,
tid
,
next_tid
,
_
=
self
.
_loadFromStorage
(
oid
,
tid
,
before_tid
)
acquire
()
try
:
if
self
.
_loading_oid
:
# Common case (no race condition).
self
.
_cache
.
store
(
oid
,
data
,
tid
,
next_tid
)
elif
self
.
_loading_invalidated
:
# oid has just been invalidated.
if
not
next_tid
:
next_tid
=
self
.
_loading_invalidated
self
.
_cache
.
store
(
oid
,
data
,
tid
,
next_tid
)
# Else, we just reconnected to the master.
finally
:
release
()
finally
:
self
.
_load_lock_release
()
return
data
,
tid
,
next_tid
def
_loadFromStorage
(
self
,
oid
,
at_tid
,
before_tid
):
def
askStorage
(
conn
,
packet
):
tid
,
next_tid
,
compression
,
checksum
,
data
,
data_tid
\
=
self
.
_askStorage
(
conn
,
packet
)
if
data
or
checksum
!=
ZERO_HASH
:
if
checksum
!=
makeChecksum
(
data
):
logging
.
error
(
'wrong checksum from %s for oid %s'
,
conn
,
dump
(
oid
))
raise
NEOStorageReadRetry
(
False
)
return
(
decompress_list
[
compression
](
data
),
tid
,
next_tid
,
data_tid
)
raise
NEOStorageCreationUndoneError
(
dump
(
oid
))
return
self
.
_askStorageForRead
(
oid
,
Packets
.
AskObject
(
oid
,
at_tid
,
before_tid
),
askStorage
)
def
_loadFromCache
(
self
,
oid
,
at_tid
=
None
,
before_tid
=
None
):
"""
Load from local cache, return None if not found.
"""
if
at_tid
:
result
=
self
.
_cache
.
load
(
oid
,
at_tid
+
'*'
)
assert
not
result
or
result
[
1
]
==
at_tid
return
result
return
self
.
_cache
.
load
(
oid
,
before_tid
)
def
tpc_begin
(
self
,
storage
,
transaction
,
tid
=
None
,
status
=
' '
):
"""Begin a new transaction."""
# First get a transaction, only one is allowed at a time
txn_context
=
self
.
_txn_container
.
new
(
transaction
)
# use the given TID or request a new one to the master
answer_ttid
=
self
.
_askPrimary
(
Packets
.
AskBeginTransaction
(
tid
))
if
answer_ttid
is
None
:
raise
NEOStorageError
(
'tpc_begin failed'
)
assert
tid
in
(
None
,
answer_ttid
),
(
tid
,
answer_ttid
)
txn_context
.
Storage
=
storage
txn_context
.
ttid
=
answer_ttid
def
store
(
self
,
oid
,
serial
,
data
,
version
,
transaction
):
"""Store object."""
logging
.
debug
(
'storing oid %s serial %s'
,
dump
(
oid
),
dump
(
serial
))
if
not
serial
:
# BBB
serial
=
ZERO_TID
self
.
_store
(
self
.
_txn_container
.
get
(
transaction
),
oid
,
serial
,
data
)
def
_store
(
self
,
txn_context
,
oid
,
serial
,
data
,
data_serial
=
None
):
ttid
=
txn_context
.
ttid
if
data
is
None
:
# This is some undo: either a no-data object (undoing object
# creation) or a back-pointer to an earlier revision (going back to
# an older object revision).
compressed_data
=
''
compression
=
0
checksum
=
ZERO_HASH
else
:
assert
data_serial
is
None
size
,
compression
,
compressed_data
=
self
.
compress
(
data
)
checksum
=
makeChecksum
(
compressed_data
)
txn_context
.
data_size
+=
size
# Store object in tmp cache
packet
=
Packets
.
AskStoreObject
(
oid
,
serial
,
compression
,
checksum
,
compressed_data
,
data_serial
,
ttid
)
txn_context
.
data_dict
[
oid
]
=
data
,
serial
,
txn_context
.
write
(
self
,
packet
,
oid
,
oid
=
oid
,
serial
=
serial
)
while
txn_context
.
data_size
>=
self
.
_cache
.
max_size
:
self
.
_waitAnyTransactionMessage
(
txn_context
)
self
.
_waitAnyTransactionMessage
(
txn_context
,
False
)
def
_handleConflicts
(
self
,
txn_context
):
data_dict
=
txn_context
.
data_dict
pop_conflict
=
txn_context
.
conflict_dict
.
popitem
resolved_dict
=
txn_context
.
resolved_dict
tryToResolveConflict
=
txn_context
.
Storage
.
tryToResolveConflict
while
1
:
# We iterate over conflict_dict, and clear it,
# because new items may be added by calls to _store.
# This is also done atomically, to avoid race conditions
# with PrimaryNotificationsHandler.notifyDeadlock
try
:
oid
,
serial
=
pop_conflict
()
except
KeyError
:
return
try
:
data
,
old_serial
,
_
=
data_dict
.
pop
(
oid
)
except
KeyError
:
assert
oid
is
None
,
(
oid
,
serial
)
# Storage refused us from taking object lock, to avoid a
# possible deadlock. TID is actually used for some kind of
# "locking priority": when a higher value has the lock,
# this means we stored objects "too late", and we would
# otherwise cause a deadlock.
# To recover, we must ask storages to release locks we
# hold (to let possibly-competing transactions acquire
# them), and requeue our already-sent store requests.
ttid
=
txn_context
.
ttid
logging
.
info
(
'Deadlock avoidance triggered for TXN %s'
' with new locking TID %s'
,
dump
(
ttid
),
dump
(
serial
))
txn_context
.
locking_tid
=
serial
packet
=
Packets
.
AskRebaseTransaction
(
ttid
,
serial
)
for
uuid
in
txn_context
.
conn_dict
:
self
.
_askStorageForWrite
(
txn_context
,
uuid
,
packet
)
else
:
if
data
is
CHECKED_SERIAL
:
raise
ReadConflictError
(
oid
=
oid
,
serials
=
(
serial
,
old_serial
))
# TODO: data can be None if a conflict happens during undo
if
data
:
txn_context
.
data_size
-=
len
(
data
)
if
self
.
last_tid
<
serial
:
self
.
sync
()
# possible late invalidation (very rare)
try
:
data
=
tryToResolveConflict
(
oid
,
serial
,
old_serial
,
data
)
except
ConflictError
:
logging
.
info
(
'Conflict resolution failed for %s@%s with %s'
,
dump
(
oid
),
dump
(
old_serial
),
dump
(
serial
))
# With recent ZODB, get_pickle_metadata (from ZODB.utils)
# does not support empty values, so do not pass 'data'
# in this case.
raise
ConflictError
(
oid
=
oid
,
serials
=
(
serial
,
old_serial
),
data
=
data
or
None
)
else
:
logging
.
info
(
'Conflict resolution succeeded for %s@%s with %s'
,
dump
(
oid
),
dump
(
old_serial
),
dump
(
serial
))
# Mark this conflict as resolved
resolved_dict
[
oid
]
=
serial
# Try to store again
self
.
_store
(
txn_context
,
oid
,
serial
,
data
)
def
_askStorageForWrite
(
self
,
txn_context
,
uuid
,
packet
):
conn
=
txn_context
.
conn_dict
[
uuid
]
try
:
return
conn
.
ask
(
packet
,
queue
=
txn_context
.
queue
)
except
AttributeError
:
if
conn
is
not
None
:
raise
except
ConnectionClosed
:
txn_context
.
conn_dict
[
uuid
]
=
None
def
waitResponses
(
self
,
queue
):
"""Wait for all requests to be answered (or their connection to be
detected as closed)"""
pending
=
self
.
dispatcher
.
pending
_waitAnyMessage
=
self
.
_waitAnyMessage
while
pending
(
queue
):
_waitAnyMessage
(
queue
)
def
waitStoreResponses
(
self
,
txn_context
):
queue
=
txn_context
.
queue
pending
=
self
.
dispatcher
.
pending
_waitAnyTransactionMessage
=
self
.
_waitAnyTransactionMessage
while
pending
(
queue
):
_waitAnyTransactionMessage
(
txn_context
)
if
txn_context
.
data_dict
:
raise
NEOStorageError
(
'could not store/check all oids'
)
def
tpc_vote
(
self
,
transaction
):
"""Store current transaction."""
txn_context
=
self
.
_txn_container
.
get
(
transaction
)
self
.
waitStoreResponses
(
txn_context
)
ttid
=
txn_context
.
ttid
ext
=
transaction
.
_extension
ext
=
dumps
(
ext
,
_protocol
)
if
ext
else
''
# user and description are cast to str in case they're unicode.
# BBB: This is not required anymore with recent ZODB.
packet
=
Packets
.
AskStoreTransaction
(
ttid
,
str
(
transaction
.
user
),
str
(
transaction
.
description
),
ext
,
txn_context
.
cache_dict
)
queue
=
txn_context
.
queue
conn_dict
=
txn_context
.
conn_dict
# Ask in parallel all involved storage nodes to commit object metadata.
# Nodes that store the transaction metadata get a special packet.
trans_nodes
=
txn_context
.
write
(
self
,
packet
,
ttid
)
packet
=
Packets
.
AskVoteTransaction
(
ttid
)
for
uuid
in
conn_dict
:
if
uuid
not
in
trans_nodes
:
self
.
_askStorageForWrite
(
txn_context
,
uuid
,
packet
)
self
.
waitStoreResponses
(
txn_context
)
if
None
in
conn_dict
.
itervalues
():
# unlikely
# If some writes failed, we must first check whether
# all oids have been locked by at least one node.
failed
=
{
node
.
getUUID
():
node
.
isRunning
()
for
node
in
self
.
nm
.
getStorageList
()
if
conn_dict
.
get
(
node
.
getUUID
(),
0
)
is
None
}
if
txn_context
.
lockless_dict
:
getCellList
=
self
.
pt
.
getCellList
for
offset
,
uuid_set
in
txn_context
.
lockless_dict
.
iteritems
():
for
cell
in
getCellList
(
offset
):
uuid
=
cell
.
getUUID
()
if
not
(
uuid
in
failed
or
uuid
in
uuid_set
):
break
else
:
# Very unlikely. Instead of raising, we could recover
# the transaction by doing something similar to
# deadlock avoidance; that would be done before voting.
# But it's not worth the complexity.
raise
NEOStorageError
(
'partition %s not fully write-locked'
%
offset
)
failed
=
[
uuid
for
uuid
,
running
in
failed
.
iteritems
()
if
running
]
# If there are running nodes for which some writes failed, ask the
# master whether they can be disconnected while keeping the cluster
# operational. If possible, this will happen during tpc_finish.
if
failed
:
conn
=
MTClientConnection
(
app
,
app
.
storage_event_handler
,
node
,
dispatcher
=
app
.
dispatcher
)
p
=
Packets
.
RequestIdentification
(
NodeTypes
.
CLIENT
,
app
.
uuid
,
None
,
app
.
name
,
(),
app
.
id_timestamp
)
try
:
self
.
_askPrimary
(
Packets
.
FailedVote
(
ttid
,
failed
)
)
app
.
_ask
(
conn
,
p
,
handler
=
app
.
storage_bootstrap_handler
)
except
ConnectionClosed
:
pass
txn_context
.
voted
=
True
# We must not go further if connection to master was lost since
# tpc_begin, to lower the probability of failing during tpc_finish.
# IDEA: We can improve in 2 opposite directions:
# - In the case of big transactions, it would be useful to
# also detect failures earlier.
# - If possible, recover from master failure.
if
txn_context
.
error
:
raise
NEOStorageError
(
txn_context
.
error
)
if
OLD_ZODB
:
return
[(
oid
,
ResolvedSerial
)
for
oid
in
txn_context
.
resolved_dict
]
return
txn_context
.
resolved_dict
def
tpc_abort
(
self
,
transaction
):
"""Abort current transaction."""
txn_context
=
self
.
_txn_container
.
pop
(
transaction
)
if
txn_context
is
None
:
return
# We want that the involved nodes abort a transaction after any
# other packet sent by the client for this transaction. IOW, if we
# already have a connection with a storage node, potentially with
# a pending write, aborting only via the master may lead to a race
# condition. The consequence would be that storage nodes lock oids
# forever.
p
=
Packets
.
AbortTransaction
(
txn_context
.
ttid
,
())
for
conn
in
txn_context
.
conn_dict
.
itervalues
():
if
conn
is
not
None
:
try
:
conn
.
send
(
p
)
except
ConnectionClosed
:
pass
# Because we want to be sure that the involved nodes are notified,
# we still have to send the full list to the master. Most of the
# time, the storage nodes get 2 AbortTransaction packets, and the
# second one is rarely useful. Another option would be that the
# storage nodes keep a list of aborted transactions, but the
# difficult part would be to avoid a memory leak.
try
:
notify
=
self
.
master_conn
.
send
except
AttributeError
:
pass
else
:
try
:
notify
(
Packets
.
AbortTransaction
(
txn_context
.
ttid
,
txn_context
.
conn_dict
))
except
ConnectionClosed
:
pass
# We don't need to flush queue, as it won't be reused by future
# transactions (deleted on next line & indexed by transaction object
# instance).
self
.
dispatcher
.
forget_queue
(
txn_context
.
queue
,
flush_queue
=
False
)
def
tpc_finish
(
self
,
transaction
,
f
=
None
):
"""Finish current transaction
To avoid inconsistencies between several databases involved in the
same transaction, an IStorage implementation must do its best not to
fail in tpc_finish. In particular, making a transaction permanent
should ideally be as simple as switching a bit permanently.
In NEO, all the data (with the exception of the tid, simply because
it is not known yet) is already flushed on disk at the end on the vote.
During tpc_finish, all nodes storing the transaction metadata are asked
to commit by saving the new tid and flushing again: for SQL backends,
it's just an UPDATE of 1 cell. At last, the metadata is moved to
a final place so that the new transaction is readable, but this is
something that can always be replayed (during the verification phase)
if any failure happens.
"""
txn_container
=
self
.
_txn_container
if
not
txn_container
.
get
(
transaction
).
voted
:
self
.
tpc_vote
(
transaction
)
checked_list
=
[]
self
.
_load_lock_acquire
()
try
:
# Call finish on master
txn_context
=
txn_container
.
pop
(
transaction
)
cache_dict
=
txn_context
.
cache_dict
checked_list
=
[
oid
for
oid
,
data
in
cache_dict
.
iteritems
()
if
data
is
CHECKED_SERIAL
]
for
oid
in
checked_list
:
del
cache_dict
[
oid
]
ttid
=
txn_context
.
ttid
p
=
Packets
.
AskFinishTransaction
(
ttid
,
cache_dict
,
checked_list
)
try
:
tid
=
self
.
_askPrimary
(
p
,
cache_dict
=
cache_dict
,
callback
=
f
)
assert
tid
except
ConnectionClosed
:
tid
=
self
.
_getFinalTID
(
ttid
)
if
not
tid
:
raise
return
tid
finally
:
self
.
_load_lock_release
()
def
_getFinalTID
(
self
,
ttid
):
try
:
p
=
Packets
.
AskFinalTID
(
ttid
)
while
1
:
try
:
tid
=
self
.
_askPrimary
(
p
)
break
except
ConnectionClosed
:
pass
if
tid
==
MAX_TID
:
while
1
:
try
:
return
self
.
_askStorageForRead
(
ttid
,
p
)
except
NEOPrimaryMasterLost
:
pass
elif
tid
:
return
tid
except
Exception
:
logging
.
exception
(
"Failed to get final tid for TXN %s"
,
dump
(
ttid
))
def
undo
(
self
,
undone_tid
,
txn
):
txn_context
=
self
.
_txn_container
.
get
(
txn
)
txn_info
,
txn_ext
=
self
.
_getTransactionInformation
(
undone_tid
)
txn_oid_list
=
txn_info
[
'oids'
]
# Regroup objects per partition, to ask a minimum set of storage.
partition_oid_dict
=
{}
for
oid
in
txn_oid_list
:
partition
=
self
.
pt
.
getPartition
(
oid
)
try
:
oid_list
=
partition_oid_dict
[
partition
]
except
KeyError
:
oid_list
=
partition_oid_dict
[
partition
]
=
[]
oid_list
.
append
(
oid
)
# Ask storage the undo serial (serial at which object's previous data
# is)
getCellList
=
self
.
pt
.
getCellList
getCellSortKey
=
self
.
cp
.
getCellSortKey
getConnForNode
=
self
.
cp
.
getConnForNode
queue
=
self
.
_thread_container
.
queue
ttid
=
txn_context
.
ttid
undo_object_tid_dict
=
{}
snapshot_tid
=
p64
(
u64
(
self
.
last_tid
)
+
1
)
kw
=
{
'queue'
:
queue
,
'partition_oid_dict'
:
partition_oid_dict
,
'undo_object_tid_dict'
:
undo_object_tid_dict
,
}
while
partition_oid_dict
:
for
partition
,
oid_list
in
partition_oid_dict
.
iteritems
():
cell_list
=
[
cell
for
cell
in
getCellList
(
partition
,
readable
=
True
)
# Exclude nodes that may have missed previous resolved
# conflicts. For example, if a network failure happened
# only between the client and the storage, the latter would
# still be readable until we commit.
if
txn_context
.
conn_dict
.
get
(
cell
.
getUUID
(),
0
)
is
not
None
]
storage_conn
=
getConnForNode
(
min
(
cell_list
,
key
=
getCellSortKey
).
getNode
())
storage_conn
.
ask
(
Packets
.
AskObjectUndoSerial
(
ttid
,
snapshot_tid
,
undone_tid
,
oid_list
),
partition
=
partition
,
**
kw
)
# Wait for all AnswerObjectUndoSerial. We might get
# OidNotFoundError, meaning that objects in transaction's oid_list
# do not exist any longer. This is the symptom of a pack, so forbid
# undoing transaction when it happens.
try
:
self
.
waitResponses
(
queue
)
except
NEOStorageNotFoundError
:
self
.
dispatcher
.
forget_queue
(
queue
)
raise
UndoError
(
'non-undoable transaction'
)
# Send undo data to all storage nodes.
for
oid
in
txn_oid_list
:
current_serial
,
undo_serial
,
is_current
=
undo_object_tid_dict
[
oid
]
if
is_current
:
data
=
None
else
:
# Serial being undone is not the latest version for this
# object. This is an undo conflict, try to resolve it.
try
:
# Load the latest version we are supposed to see
if
current_serial
==
ttid
:
# XXX: see TODO below
data
=
txn_context
.
cache_dict
[
oid
]
logging
.
error
(
'Connection to %r failed'
,
node
)
except
NodeNotReady
:
logging
.
info
(
'%r not ready'
,
node
)
else
:
data
=
self
.
load
(
oid
,
current_serial
)[
0
]
# Load the version we were undoing to
undo_data
=
self
.
load
(
oid
,
undo_serial
)[
0
]
except
NEOStorageNotFoundError
:
raise
UndoError
(
'Object not found while resolving undo '
'conflict'
)
# Resolve conflict
try
:
data
=
txn_context
.
Storage
.
tryToResolveConflict
(
oid
,
current_serial
,
undone_tid
,
undo_data
,
data
)
except
ConflictError
:
raise
UndoError
(
'Some data were modified by a later '
\
'transaction'
,
oid
)
undo_serial
=
None
# TODO: The situation is similar to deadlock avoidance.
# Reenable the cache size limit to avoid OOM when there's
# a huge amount conflicting data, and get the data back
# from the storage when it's not in cache_dict anymore.
txn_context
.
cache_size
=
-
float
(
'inf'
)
self
.
_store
(
txn_context
,
oid
,
current_serial
,
data
,
undo_serial
)
self
.
waitStoreResponses
(
txn_context
)
return
None
,
txn_oid_list
def
_getTransactionInformation
(
self
,
tid
):
return
self
.
_askStorageForRead
(
tid
,
Packets
.
AskTransactionInformation
(
tid
))
def
undoLog
(
self
,
first
,
last
,
filter
=
None
,
block
=
0
):
# XXX: undoLog is broken
if
last
<
0
:
# See FileStorage.py for explanation
last
=
first
-
last
# First get a list of transactions from all storage nodes.
# Each storage node will return TIDs only for UP_TO_DATE state and
# FEEDING state cells
queue
=
self
.
_thread_container
.
queue
packet
=
Packets
.
AskTIDs
(
first
,
last
,
INVALID_PARTITION
)
tid_set
=
set
()
for
storage_node
in
self
.
pt
.
getNodeSet
(
True
):
conn
=
self
.
cp
.
getConnForNode
(
storage_node
)
logging
.
info
(
'Connected %r'
,
node
)
# Make sure this node will be considered for the next reads
# even if there was a previous recent failure.
self
.
node_failure_dict
.
pop
(
node
.
getUUID
(),
None
)
return
conn
self
.
node_failure_dict
[
node
.
getUUID
()]
=
time
.
time
()
+
MAX_FAILURE_AGE
def
getCellSortKey
(
self
,
cell
,
random
=
random
.
random
):
# Prefer a node that didn't fail recently.
failure
=
self
.
node_failure_dict
.
get
(
cell
.
getUUID
())
if
failure
:
if
time
.
time
()
<
failure
:
# Or order by date of connection failure.
return
failure
# Do not use 'del' statement: we didn't lock, so another
# thread might have removed uuid from node_failure_dict.
self
.
node_failure_dict
.
pop
(
cell
.
getUUID
(),
None
)
# A random one, connected or not, is a trivial and quite efficient way
# to distribute the load evenly. On write accesses, a client connects
# to all nodes of touched cells, but before that, or if a client is
# specialized to only do read-only accesses, it should not limit
# itself to only use the first connected nodes.
return
random
()
def
getConnForNode
(
self
,
node
):
"""Return a locked connection object to a given node
If no connection exists, create a new one"""
conn
=
node
.
_connection
# XXX
if
node
.
isRunning
()
if
conn
is
None
else
not
node
.
_identified
:
with
self
.
_lock
:
conn
=
node
.
_connection
# XXX
if
conn
is
None
:
continue
conn
.
ask
(
packet
,
queue
=
queue
,
tid_set
=
tid_set
)
# Wait for answers from all storages.
# TODO: Results are incomplete when readable cells move concurrently
# from one storage to another. We detect when this happens and
# retry.
self
.
waitResponses
(
queue
)
# Reorder tids
ordered_tids
=
sorted
(
tid_set
,
reverse
=
True
)
logging
.
debug
(
"UndoLog tids %s"
,
map
(
dump
,
ordered_tids
))
# For each transaction, get info
undo_info
=
[]
append
=
undo_info
.
append
for
tid
in
ordered_tids
:
(
txn_info
,
txn_ext
)
=
self
.
_getTransactionInformation
(
tid
)
if
filter
is
None
or
filter
(
txn_info
):
txn_info
.
pop
(
'packed'
)
txn_info
.
pop
(
"oids"
)
if
txn_ext
:
txn_info
.
update
(
loads
(
txn_ext
))
append
(
txn_info
)
if
len
(
undo_info
)
>=
last
-
first
:
break
# Check we return at least one element, otherwise call
# again but extend offset
if
len
(
undo_info
)
==
0
and
not
block
:
undo_info
=
self
.
undoLog
(
first
=
first
,
last
=
last
*
5
,
filter
=
filter
,
block
=
1
)
return
undo_info
def
transactionLog
(
self
,
start
,
stop
,
limit
):
tid_list
=
[]
# request a tid list for each partition
for
offset
in
xrange
(
self
.
pt
.
getPartitions
()):
r
=
self
.
_askStorageForRead
(
offset
,
Packets
.
AskTIDsFrom
(
start
,
stop
,
limit
,
offset
))
if
r
:
tid_list
=
list
(
heapq
.
merge
(
tid_list
,
r
))
if
len
(
tid_list
)
>=
limit
:
del
tid_list
[
limit
:]
stop
=
tid_list
[
-
1
]
# request transactions informations
txn_list
=
[]
append
=
txn_list
.
append
tid
=
None
for
tid
in
tid_list
:
(
txn_info
,
txn_ext
)
=
self
.
_getTransactionInformation
(
tid
)
txn_info
[
'ext'
]
=
loads
(
txn_ext
)
if
txn_ext
else
{}
append
(
txn_info
)
return
(
tid
,
txn_list
)
def
history
(
self
,
oid
,
size
=
1
,
filter
=
None
):
packet
=
Packets
.
AskObjectHistory
(
oid
,
0
,
size
)
result
=
[]
# history_list is already sorted descending (by the storage)
for
serial
,
size
in
self
.
_askStorageForRead
(
oid
,
packet
):
txn_info
,
txn_ext
=
self
.
_getTransactionInformation
(
serial
)
# create history dict
txn_info
.
pop
(
'id'
)
txn_info
.
pop
(
'oids'
)
txn_info
.
pop
(
'packed'
)
txn_info
[
'tid'
]
=
serial
txn_info
[
'version'
]
=
''
txn_info
[
'size'
]
=
size
if
filter
is
None
or
filter
(
txn_info
):
result
.
append
(
txn_info
)
if
txn_ext
:
txn_info
.
update
(
loads
(
txn_ext
))
return
result
def
importFrom
(
self
,
storage
,
source
):
# TODO: The main difference with BaseStorage implementation is that
# preindex can't be filled with the result 'store' (tid only
# known after 'tpc_finish'. This method could be dropped if we
# implemented IStorageRestoreable (a wrapper around source would
# still be required for partial import).
preindex
=
{}
for
transaction
in
source
.
iterator
():
tid
=
transaction
.
tid
self
.
tpc_begin
(
storage
,
transaction
,
tid
,
transaction
.
status
)
for
r
in
transaction
:
oid
=
r
.
oid
try
:
pre
=
preindex
[
oid
]
except
KeyError
:
try
:
pre
=
self
.
load
(
oid
)[
1
]
except
NEOStorageNotFoundError
:
pre
=
ZERO_TID
self
.
store
(
oid
,
pre
,
r
.
data
,
r
.
version
,
transaction
)
preindex
[
oid
]
=
tid
conflicted
=
self
.
tpc_vote
(
transaction
)
assert
not
conflicted
,
conflicted
real_tid
=
self
.
tpc_finish
(
transaction
)
assert
real_tid
==
tid
,
(
real_tid
,
tid
)
from
.iterator
import
iterator
def
sync
(
self
):
self
.
_askPrimary
(
Packets
.
Ping
())
def
pack
(
self
,
t
):
tid
=
TimeStamp
(
*
time
.
gmtime
(
t
)[:
5
]
+
(
t
%
60
,
)).
raw
()
if
tid
==
ZERO_TID
:
raise
NEOStorageError
(
'Invalid pack time'
)
self
.
_askPrimary
(
Packets
.
AskPack
(
tid
))
# XXX: this is only needed to make ZODB unit tests pass.
# It should not be otherwise required (clients should be free to load
# old data as long as it is available in cache, event if it was pruned
# by a pack), so don't bother invalidating on other clients.
self
.
_cache_lock_acquire
()
try
:
self
.
_cache
.
clear
()
finally
:
self
.
_cache_lock_release
()
def
getLastTID
(
self
,
oid
):
return
self
.
load
(
oid
)[
1
]
def
checkCurrentSerialInTransaction
(
self
,
oid
,
serial
,
transaction
):
self
.
_checkCurrentSerialInTransaction
(
self
.
_txn_container
.
get
(
transaction
),
oid
,
serial
)
def
_checkCurrentSerialInTransaction
(
self
,
txn_context
,
oid
,
serial
):
ttid
=
txn_context
.
ttid
# ZODB.Connection performs calls 'checkCurrentSerialInTransaction'
# after stores, and skips oids that have been successfully stored.
assert
oid
not
in
txn_context
.
cache_dict
,
oid
assert
oid
not
in
txn_context
.
data_dict
,
oid
packet
=
Packets
.
AskCheckCurrentSerial
(
ttid
,
oid
,
serial
)
txn_context
.
data_dict
[
oid
]
=
CHECKED_SERIAL
,
serial
,
txn_context
.
write
(
self
,
packet
,
oid
,
oid
=
oid
,
serial
=
serial
)
self
.
_waitAnyTransactionMessage
(
txn_context
,
False
)
return
self
.
_initNodeConnection
(
node
)
return
conn
def
closeAll
(
self
):
with
self
.
_lock
:
for
node
in
self
.
app
.
nm
.
getStorageList
():
conn
=
node
.
_connection
# XXX
if
conn
is
not
None
:
conn
.
setReconnectionNoDelay
()
conn
.
close
()
neo/client/pool.py
deleted
100644 → 0
View file @
305dda86
#
# Copyright (C) 2006-2017 Nexedi SA
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 2
# of the License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import
random
,
time
from
neo.lib
import
logging
from
neo.lib.locking
import
Lock
from
neo.lib.protocol
import
NodeTypes
,
Packets
from
neo.lib.connection
import
MTClientConnection
,
ConnectionClosed
from
neo.lib.exception
import
NodeNotReady
from
.exception
import
NEOPrimaryMasterLost
# How long before we might retry a connection to a node to which connection
# failed in the past.
MAX_FAILURE_AGE
=
600
class
ConnectionPool
(
object
):
"""This class manages a pool of connections to storage nodes."""
# XXX: This is not a pool anymore.
def
__init__
(
self
,
app
):
self
.
app
=
app
# Define a lock in order to create one connection to
# a storage node at a time to avoid multiple connections
# to the same node.
self
.
_lock
=
Lock
()
self
.
node_failure_dict
=
{}
def
_initNodeConnection
(
self
,
node
):
"""Init a connection to a given storage node."""
app
=
self
.
app
if
app
.
master_conn
is
None
:
raise
NEOPrimaryMasterLost
conn
=
MTClientConnection
(
app
,
app
.
storage_event_handler
,
node
,
dispatcher
=
app
.
dispatcher
)
p
=
Packets
.
RequestIdentification
(
NodeTypes
.
CLIENT
,
app
.
uuid
,
None
,
app
.
name
,
(),
app
.
id_timestamp
)
try
:
app
.
_ask
(
conn
,
p
,
handler
=
app
.
storage_bootstrap_handler
)
except
ConnectionClosed
:
logging
.
error
(
'Connection to %r failed'
,
node
)
except
NodeNotReady
:
logging
.
info
(
'%r not ready'
,
node
)
else
:
logging
.
info
(
'Connected %r'
,
node
)
# Make sure this node will be considered for the next reads
# even if there was a previous recent failure.
self
.
node_failure_dict
.
pop
(
node
.
getUUID
(),
None
)
return
conn
self
.
node_failure_dict
[
node
.
getUUID
()]
=
time
.
time
()
+
MAX_FAILURE_AGE
def
getCellSortKey
(
self
,
cell
,
random
=
random
.
random
):
# Prefer a node that didn't fail recently.
failure
=
self
.
node_failure_dict
.
get
(
cell
.
getUUID
())
if
failure
:
if
time
.
time
()
<
failure
:
# Or order by date of connection failure.
return
failure
# Do not use 'del' statement: we didn't lock, so another
# thread might have removed uuid from node_failure_dict.
self
.
node_failure_dict
.
pop
(
cell
.
getUUID
(),
None
)
# A random one, connected or not, is a trivial and quite efficient way
# to distribute the load evenly. On write accesses, a client connects
# to all nodes of touched cells, but before that, or if a client is
# specialized to only do read-only accesses, it should not limit
# itself to only use the first connected nodes.
return
random
()
def
getConnForNode
(
self
,
node
):
"""Return a locked connection object to a given node
If no connection exists, create a new one"""
conn
=
node
.
_connection
# XXX
if
node
.
isRunning
()
if
conn
is
None
else
not
node
.
_identified
:
with
self
.
_lock
:
conn
=
node
.
_connection
# XXX
if
conn
is
None
:
return
self
.
_initNodeConnection
(
node
)
return
conn
def
closeAll
(
self
):
with
self
.
_lock
:
for
node
in
self
.
app
.
nm
.
getStorageList
():
conn
=
node
.
_connection
# XXX
if
conn
is
not
None
:
conn
.
setReconnectionNoDelay
()
conn
.
close
()
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