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2 Commits

Author SHA1 Message Date
lash
537b5c2bbc
Bump version 2022-04-09 19:02:00 +00:00
lash
fd62ad7075
Avoid double sync of history when caught up 2022-04-09 18:58:47 +00:00
70 changed files with 3573 additions and 2127 deletions

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@ -1,19 +0,0 @@
* 0.3.7
- Remove hard eth dependency in settings rendering
- Add unlock cli tool
* 0.3.6
- Add cli arg processing and settings renderer
* 0.3.5
- Allow memory-only shep if factory set to None in store constructor
* 0.3.4
- Use explicit bool check in filter interrupt check
* 0.3.3
- Include shep persistent state bootstrap sync
- Add chainsyncer extras
* 0.3.2
- Implement rocksdb backend
* 0.3.1
- Upgrade to release shep version
- Move sync state to SYNC after start
* 0.3.0
- Re-implement chainsyncer on shep

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@ -1 +1 @@
include *requirements.txt LICENSE.txt chainsyncer/data/config/* include *requirements.txt LICENSE.txt chainsyncer/db/migrations/default/* chainsyncer/db/migrations/default/versions/* chainsyncer/db/migrations/default/versions/src/*

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# standard imports
import logging
logg = logging.getLogger(__name__)
class Backend:
"""Base class for syncer state backend.
:param flags_reversed: If set, filter flags are interpreted from left to right
:type flags_reversed: bool
"""
def __init__(self, object_id, flags_reversed=False):
self.object_id = object_id
self.filter_count = 0
self.flags_reversed = flags_reversed
self.block_height_offset = 0
self.tx_index_offset = 0
self.block_height_cursor = 0
self.tx_index_cursor = 0
self.block_height_target = 0
self.tx_index_target = 0
def check_filter(self, n, flags):
"""Check whether an individual filter flag is set.
:param n: Bit index
:type n: int
:param flags: Bit field to check against
:type flags: int
:rtype: bool
:returns: True if set
"""
if self.flags_reversed:
try:
v = 1 << flags.bit_length() - 1
return (v >> n) & flags > 0
except ValueError:
pass
return False
return flags & (1 << n) > 0
def chain(self):
"""Returns chain spec for syncer.
:returns: Chain spec
:rtype chain_spec: cic_registry.chain.ChainSpec
"""
return self.chain_spec
def __str__(self):
return "syncerbackend {} chain {} start {} target {}".format(self.object_id, self.chain(), self.start(), self.target())

472
chainsyncer/backend/file.py Normal file
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# standard imports
import os
import uuid
import shutil
import logging
# local imports
from .base import Backend
logg = logging.getLogger().getChild(__name__)
BACKEND_BASE_DIR = '/var/lib'
def chain_dir_for(chain_spec, base_dir=BACKEND_BASE_DIR):
"""Retrieve file backend directory for the given chain spec.
:param chain_spec: Chain spec context of backend
:type chain_spec: chainlib.chain.ChainSpec
:param base_dir: Base directory to use for generation. Default is value of BACKEND_BASE_DIR
:type base_dir: str
:rtype: str
:returns: Absolute path of chain backend directory
"""
base_data_dir = os.path.join(base_dir, 'chainsyncer')
return os.path.join(base_data_dir, str(chain_spec).replace(':', '/'))
def data_dir_for(chain_spec, object_id, base_dir=BACKEND_BASE_DIR):
"""Retrieve file backend directory for the given syncer.
:param chain_spec: Chain spec context of backend
:type chain_spec: chainlib.chain.ChainSpec
:param object_id: Syncer id
:type object_id: str
:param base_dir: Base directory to use for generation. Default is value of BACKEND_BASE_DIR
:type base_dir: str
:rtype: str
:returns: Absolute path of chain backend directory
"""
chain_dir = chain_dir_for(chain_spec, base_dir=base_dir)
return os.path.join(chain_dir, object_id)
class FileBackend(Backend):
"""Filesystem backend implementation for syncer state.
FileBackend uses reverse order of filter flags.
:param chain_spec: Chain spec for the chain that syncer is running for.
:type chain_spec: cic_registry.chain.ChainSpec
:param object_id: Unique id for the syncer session.
:type object_id: str
:param base_dir: Base directory to use for generation. Default is value of BACKEND_BASE_DIR
:type base_dir: str
"""
__warned = False
def __init__(self, chain_spec, object_id, base_dir=BACKEND_BASE_DIR):
if not FileBackend.__warned:
logg.warning('file backend for chainsyncer is experimental and not yet guaranteed to handle interrupted filter execution.')
FileBackend.__warned = True
super(FileBackend, self).__init__(object_id, flags_reversed=True)
self.object_data_dir = data_dir_for(chain_spec, object_id, base_dir=base_dir)
self.object_id = object_id
self.db_object = None
self.db_object_filter = None
self.chain_spec = chain_spec
self.filter = b'\x00'
self.filter_names = []
if self.object_id != None:
self.connect()
self.disconnect()
@staticmethod
def create_object(chain_spec, object_id=None, base_dir=BACKEND_BASE_DIR):
"""Creates a new syncer session at the given backend destination.
:param chain_spec: Chain spec for the chain that syncer is running for.
:type chain_spec: cic_registry.chain.ChainSpec
:param object_id: Unique id for the syncer session.
:type object_id: str
:param base_dir: Base directory to use for generation. Default is value of BACKEND_BASE_DIR
:type base_dir: str
"""
if object_id == None:
object_id = str(uuid.uuid4())
object_data_dir = data_dir_for(chain_spec, object_id, base_dir=base_dir)
if os.path.isdir(object_data_dir):
raise FileExistsError(object_data_dir)
os.makedirs(object_data_dir)
object_id_path = os.path.join(object_data_dir, 'object_id')
f = open(object_id_path, 'wb')
f.write(object_id.encode('utf-8'))
f.close()
init_value = 0
b = init_value.to_bytes(16, byteorder='big')
offset_path = os.path.join(object_data_dir, 'offset')
f = open(offset_path, 'wb')
f.write(b)
f.close()
target_path = os.path.join(object_data_dir, 'target')
f = open(target_path, 'wb')
f.write(b'\x00' * 16)
f.close()
cursor_path = os.path.join(object_data_dir, 'cursor')
f = open(cursor_path, 'wb')
f.write(b'\x00' * 16)
f.close()
cursor_path = os.path.join(object_data_dir, 'filter')
f = open(cursor_path, 'wb')
f.write(b'\x00' * 9)
f.close()
filter_name_path = os.path.join(object_data_dir, 'filter_name')
f = open(filter_name_path, 'wb')
f.write(b'')
f.close()
return object_id
def load(self):
"""Loads the state of the syncer at the given location of the instance.
:raises FileNotFoundError: Invalid data directory
:raises IsADirectoryError: Invalid data directory
"""
offset_path = os.path.join(self.object_data_dir, 'offset')
f = open(offset_path, 'rb')
b = f.read(16)
f.close()
self.block_height_offset = int.from_bytes(b[:8], byteorder='big')
self.tx_index_offset = int.from_bytes(b[8:], byteorder='big')
target_path = os.path.join(self.object_data_dir, 'target')
f = open(target_path, 'rb')
b = f.read(16)
f.close()
self.block_height_target = int.from_bytes(b[:8], byteorder='big')
self.tx_index_target = int.from_bytes(b[8:], byteorder='big')
cursor_path = os.path.join(self.object_data_dir, 'cursor')
f = open(cursor_path, 'rb')
b = f.read(16)
f.close()
self.block_height_cursor = int.from_bytes(b[:8], byteorder='big')
self.tx_index_cursor = int.from_bytes(b[8:], byteorder='big')
filter_path = os.path.join(self.object_data_dir, 'filter')
f = open(filter_path, 'rb')
b = f.read(8)
self.filter_count = int.from_bytes(b, byteorder='big')
filter_count_bytes = int((self.filter_count - 1) / 8 + 1)
if filter_count_bytes > 0:
self.filter = f.read(filter_count_bytes)
f.close()
filter_name_path = filter_path + '_name'
f = open(filter_name_path, 'r')
while True:
s = f.readline().rstrip()
if len(s) == 0:
break
self.filter_names.append(s)
f.close()
def connect(self):
"""Proxy for chainsyncer.backend.file.FileBackend.load that performs a basic sanity check for instance's backend location.
:raises ValueError: Sanity check failed
"""
object_path = os.path.join(self.object_data_dir, 'object_id')
f = open(object_path, 'r')
object_id = f.read()
f.close()
if object_id != self.object_id:
raise ValueError('data corruption in store for id {}'.format(object_id))
self.load()
def disconnect(self):
"""FileBackend applies no actual connection, so this is noop
"""
pass
def purge(self):
"""Remove syncer state from backend.
"""
shutil.rmtree(self.object_data_dir)
def get(self):
"""Get the current state of the syncer cursor.
:rtype: tuple
:returns: Block height / tx index tuple, and filter flags value
"""
logg.debug('filter {}'.format(self.filter.hex()))
return ((self.block_height_cursor, self.tx_index_cursor), self.get_flags())
def get_flags(self):
"""Get canonical representation format of flags.
:rtype: int
:returns: Filter flag bitfield value
"""
return int.from_bytes(self.filter, 'little')
def set(self, block_height, tx_index):
"""Update the state of the syncer cursor.
:param block_height: New block height
:type block_height: int
:param tx_height: New transaction height in block
:type tx_height: int
:returns: Block height / tx index tuple, and filter flags value
:rtype: tuple
"""
self.__set(block_height, tx_index, 'cursor')
# cursor_path = os.path.join(self.object_data_dir, 'filter')
# f = open(cursor_path, 'r+b')
# f.seek(8)
# l = len(self.filter)
# c = 0
# while c < l:
# c += f.write(self.filter[c:])
# f.close()
return ((self.block_height_cursor, self.tx_index_cursor), self.get_flags())
def __set(self, block_height, tx_index, category):
cursor_path = os.path.join(self.object_data_dir, category)
block_height_bytes = block_height.to_bytes(8, byteorder='big')
tx_index_bytes = tx_index.to_bytes(8, byteorder='big')
f = open(cursor_path, 'wb')
b = f.write(block_height_bytes)
b = f.write(tx_index_bytes)
f.close()
setattr(self, 'block_height_' + category, block_height)
setattr(self, 'tx_index_' + category, tx_index)
@staticmethod
def initial(chain_spec, target_block_height, start_block_height=0, base_dir=BACKEND_BASE_DIR):
"""Creates a new syncer session and commit its initial state to backend.
:param chain_spec: Chain spec of chain that syncer is running for.
:type chain_spec: cic_registry.chain.ChainSpec
:param target_block_height: Target block height
:type target_block_height: int
:param start_block_height: Start block height
:type start_block_height: int
:param base_dir: Base directory to use for generation. Default is value of BACKEND_BASE_DIR
:type base_dir: str
:raises ValueError: Invalid start/target specification
:returns: New syncer object
:rtype: cic_eth.db.models.BlockchainSync
"""
if start_block_height >= target_block_height:
raise ValueError('start block height must be lower than target block height')
uu = FileBackend.create_object(chain_spec, base_dir=base_dir)
o = FileBackend(chain_spec, uu, base_dir=base_dir)
o.__set(target_block_height, 0, 'target')
o.__set(start_block_height, 0, 'offset')
o.__set(start_block_height, 0, 'cursor')
return o
@staticmethod
def live(chain_spec, block_height, base_dir=BACKEND_BASE_DIR):
"""Creates a new open-ended syncer session starting at the given block height.
:param chain: Chain spec of chain that syncer is running for.
:type chain: cic_registry.chain.ChainSpec
:param block_height: Start block height
:type block_height: int
:param base_dir: Base directory to use for generation. Default is value of BACKEND_BASE_DIR
:type base_dir: str
:returns: "Live" syncer object
:rtype: cic_eth.db.models.BlockchainSync
"""
uu = FileBackend.create_object(chain_spec, base_dir=base_dir)
o = FileBackend(chain_spec, uu, base_dir=base_dir)
o.__set(block_height, 0, 'offset')
o.__set(block_height, 0, 'cursor')
return o
def target(self):
"""Get the target state (upper bound of sync) of the syncer cursor.
:returns: Block height and filter flags value
:rtype: tuple
"""
return (self.block_height_target, 0,)
def start(self):
"""Get the initial state of the syncer cursor.
:returns: Block height / tx index tuple, and filter flags value
:rtype: tuple
"""
return ((self.block_height_offset, self.tx_index_offset), 0,)
@staticmethod
def __sorted_entries(chain_spec, base_dir=BACKEND_BASE_DIR):
chain_dir = chain_dir_for(chain_spec, base_dir=base_dir)
entries = {}
for v in os.listdir(chain_dir):
d = os.path.realpath(os.path.join(chain_dir, v))
f = open(os.path.join(d, 'object_id'))
object_id = f.read()
f.close()
logg.debug('found syncer entry {} in {}'.format(object_id, d))
o = FileBackend(chain_spec, object_id, base_dir=base_dir)
entries[o.block_height_offset] = o
sorted_entries = []
for k in sorted(entries):
sorted_entries.append(entries[k])
return sorted_entries
@staticmethod
def resume(chain_spec, block_height, base_dir=BACKEND_BASE_DIR):
"""Retrieves and returns all previously unfinished syncer sessions.
If a previous open-ended syncer is found, a new syncer will be generated to sync from where that syncer left off until the block_height given as argument.
:param chain_spec: Chain spec of chain that syncer is running for
:type chain_spec: cic_registry.chain.ChainSpec
:param block_height: Target block height for previous live syncer
:type block_height: int
:param base_dir: Base directory to use for generation. Default is value of BACKEND_BASE_DIR
:type base_dir: str
:raises FileNotFoundError: Invalid backend location
:returns: Syncer objects of unfinished syncs
:rtype: list of cic_eth.db.models.BlockchainSync
"""
try:
return FileBackend.__sorted_entries(chain_spec, base_dir=base_dir)
except FileNotFoundError:
return []
@staticmethod
def first(chain_spec, base_dir=BACKEND_BASE_DIR):
"""Returns the model object of the most recent syncer in backend.
:param chain_spec: Chain spec of chain that syncer is running for.
:type chain_spec: cic_registry.chain.ChainSpec
:param base_dir: Base directory to use for generation. Default is value of BACKEND_BASE_DIR
:type base_dir: str
:returns: Last syncer object
:rtype: cic_eth.db.models.BlockchainSync
"""
entries = []
try:
entries = FileBackend.__sorted_entries(chain_spec, base_dir=base_dir)
except FileNotFoundError:
return entries
return entries[len(entries)-1]
# n is zero-index of bit field
def begin_filter(self, n, base_dir=BACKEND_BASE_DIR):
pass
# n is zero-index of bit field
def complete_filter(self, n, base_dir=BACKEND_BASE_DIR):
"""Sets the filter at the given index as completed.
:param n: Filter index, starting at zero
:type n: int
:raises IndexError: Index is outside filter count range
"""
if self.filter_count <= n:
raise IndexError('index {} out of ranger for filter size {}'.format(n, self.filter_count))
byte_pos = int(n / 8)
bit_pos = n % 8
byts = bytearray(self.filter)
b = (0x80 >> bit_pos)
b |= self.filter[byte_pos]
logg.debug('bbb {}'.format(type(b)))
byts[byte_pos] = b #b.to_bytes(1, byteorder='big')
self.filter = byts
filter_path = os.path.join(self.object_data_dir, 'filter')
f = open(filter_path, 'r+b')
f.seek(8 + byte_pos)
f.write(self.filter)
f.close()
def register_filter(self, name):
"""Add filter to backend.
Overwrites record on disk if manual changed members in struct
:param name: Name of filter
:type name: str
"""
filter_path = os.path.join(self.object_data_dir, 'filter')
if (self.filter_count + 1) % 8 == 0:
self.filter += b'\x00'
f = open(filter_path, 'a+b')
f.write(b'\x00')
f.close()
filter_name_path = filter_path + '_name'
f = open(filter_name_path, 'a')
f.write(name + '\n')
f.close()
self.filter_count += 1
f = open(filter_path, 'r+b')
b = self.filter_count.to_bytes(8, byteorder='big')
f.write(b)
f.close()
def reset_filter(self):
"""Reset all filter states.
"""
self.filter = b'\x00' * len(self.filter)
cursor_path = os.path.join(self.object_data_dir, 'filter')
f = open(cursor_path, 'r+b')
f.seek(8)
l = len(self.filter)
c = 0
while c < l:
c += f.write(self.filter[c:])
f.close()

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# standard imports
import logging
import uuid
# local imports
from .base import Backend
logg = logging.getLogger(__name__)
class MemBackend(Backend):
"""Disposable syncer backend. Keeps syncer state in memory.
Filter bitfield is interpreted right to left.
:param chain_spec: Chain spec context of syncer
:type chain_spec: chainlib.chain.ChainSpec
:param object_id: Unique id for the syncer session.
:type object_id: str
:param target_block: Block height to terminate sync at
:type target_block: int
"""
def __init__(self, chain_spec, object_id):
super(MemBackend, self).__init__(object_id)
self.chain_spec = chain_spec
self.db_session = None
self.block_height_offset = 0
self.block_height_cursor = 0
self.tx_height_offset = 0
self.tx_height_cursor = 0
self.block_height_target = None
self.flags = 0
self.flags_start = 0
self.flags_target = 0
self.filter_names = []
@staticmethod
def custom(chain_spec, target_block, block_offset=0, tx_offset=0, flags=0, flags_count=0, *args, **kwargs):
object_id = kwargs.get('object_id', str(uuid.uuid4()))
backend = MemBackend(chain_spec, object_id)
backend.block_height_offset = block_offset
backend.block_height_cursor = block_offset
backend.tx_height_offset = tx_offset
backend.tx_height_cursor = tx_offset
backend.block_height_target = target_block
backend.flags = flags
backend.flags_count = flags_count
backend.flags_start = flags
flags_target = (2 ** flags_count) - 1
backend.flags_target = flags_target
return backend
def connect(self):
"""NOOP as memory backend implements no connection.
"""
pass
def disconnect(self):
"""NOOP as memory backend implements no connection.
"""
pass
def set(self, block_height, tx_height):
"""Set the syncer state.
:param block_height: New block height
:type block_height: int
:param tx_height: New transaction height in block
:type tx_height: int
"""
logg.debug('memory backend received {} {}'.format(block_height, tx_height))
self.block_height_cursor = block_height
self.tx_height_cursor = tx_height
def get(self):
"""Get the current syncer state
:rtype: tuple
:returns: block height / tx index tuple, and filter flags value
"""
return ((self.block_height_cursor, self.tx_height_cursor), self.flags)
def start(self):
"""Get the initial syncer state
:rtype: tuple
:returns: block height / tx index tuple, and filter flags value
"""
return ((self.block_height_offset, self.tx_height_offset), self.flags_start)
def target(self):
"""Returns the syncer target.
:rtype: tuple
:returns: block height / tx index tuple
"""
return (self.block_height_target, self.flags_target)
def register_filter(self, name):
"""Adds a filter identifier to the syncer.
:param name: Filter name
:type name: str
"""
self.filter_names.append(name)
self.filter_count += 1
def begin_filter(self, n):
"""Set filter at index as completed for the current block / tx state.
:param n: Filter index
:type n: int
"""
v = 1 << n
self.flags |= v
logg.debug('set filter {} {}'.format(self.filter_names[n], v))
def complete_filter(self, n):
pass
def reset_filter(self):
"""Set all filters to unprocessed for the current block / tx state.
"""
logg.debug('reset filters')
self.flags = 0
def __str__(self):
return "syncer membackend {} chain {} cursor {}".format(self.object_id, self.chain(), self.get())

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chainsyncer/backend/sql.py Normal file
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# standard imports
import logging
import uuid
# imports
from chainlib.chain import ChainSpec
# local imports
from chainsyncer.db.models.sync import BlockchainSync
from chainsyncer.db.models.filter import BlockchainSyncFilter
from chainsyncer.db.models.base import SessionBase
from .base import Backend
logg = logging.getLogger(__name__)
class SQLBackend(Backend):
"""Interface to block and transaction sync state.
:param chain_spec: Chain spec for the chain that syncer is running for.
:type chain_spec: cic_registry.chain.ChainSpec
:param object_id: Unique database record id for the syncer session.
:type object_id: int
"""
base = None
def __init__(self, chain_spec, object_id):
super(SQLBackend, self).__init__(int(object_id))
self.db_session = None
self.db_object = None
self.db_object_filter = None
self.chain_spec = chain_spec
self.connect()
self.disconnect()
@classmethod
def setup(cls, dsn, debug=False, pool_size=0, *args, **kwargs):
"""Set up database connection backend.
:param dsn: Database connection string
:type dsn: str
:param debug: Activate debug output in sql engine
:type debug: bool
:param pool_size: Size of transaction pool
:type pool_size: int
"""
if cls.base == None:
cls.base = SessionBase
cls.base.connect(dsn, debug=debug, pool_size=pool_size)
def connect(self):
"""Loads the state of the syncer session by the given database record id.
:raises ValueError: Database syncer object with given id does not exist
:rtype: sqlalchemy.orm.session.Session
:returns: Database session object
"""
if self.db_session == None:
self.db_session = SessionBase.create_session()
q = self.db_session.query(BlockchainSync)
q = q.filter(BlockchainSync.id==self.object_id)
self.db_object = q.first()
if self.db_object != None:
qtwo = self.db_session.query(BlockchainSyncFilter)
qtwo = qtwo.join(BlockchainSync)
qtwo = qtwo.filter(BlockchainSync.id==self.db_object.id)
self.db_object_filter = qtwo.first()
if self.db_object == None:
raise ValueError('sync entry with id {} not found'.format(self.object_id))
return self.db_session
def disconnect(self):
"""Commits state of sync to backend and frees connection resources.
"""
if self.db_session == None:
return
if self.db_object_filter != None:
self.db_session.add(self.db_object_filter)
self.db_session.add(self.db_object)
self.db_session.commit()
self.db_session.close()
self.db_session = None
def get(self):
"""Get the current state of the syncer cursor.
:rtype: tuple
:returns: Block height / tx index tuple, and filter flags value
"""
self.connect()
pair = self.db_object.cursor()
(filter_state, count, digest) = self.db_object_filter.cursor()
self.disconnect()
return (pair, filter_state,)
def set(self, block_height, tx_height):
"""Update the state of the syncer cursor.
:param block_height: New block height
:type block_height: int
:param tx_height: New transaction height in block
:type tx_height: int
:returns: Block height / tx index tuple, and filter flags value
:rtype: tuple
"""
self.connect()
pair = self.db_object.set(block_height, tx_height)
(filter_state, count, digest)= self.db_object_filter.cursor()
self.disconnect()
return (pair, filter_state,)
def start(self):
"""Get the initial state of the syncer cursor.
:returns: Block height / tx index tuple, and filter flags value
:rtype: tuple
"""
self.connect()
pair = self.db_object.start()
(filter_state, count, digest) = self.db_object_filter.start()
self.disconnect()
return (pair, filter_state,)
def target(self):
"""Get the target state (upper bound of sync) of the syncer cursor.
:returns: Block height and filter flags value
:rtype: tuple
"""
self.connect()
target = self.db_object.target()
(filter_target, count, digest) = self.db_object_filter.target()
self.disconnect()
return (target, filter_target,)
@staticmethod
def custom(chain_spec, target_block, block_offset=0, tx_offset=0, flags=0, flag_count=0, *args, **kwargs):
"""
:param flags: flags bit field
:type flags: bytes
:param flag_count: number of flags in bit field
:type flag_count:
"""
session = SessionBase.create_session()
o = BlockchainSync(str(chain_spec), block_offset, tx_offset, target_block)
session.add(o)
session.commit()
object_id = o.id
of = BlockchainSyncFilter(o, flag_count, flags, kwargs.get('flags_digest'))
session.add(of)
session.commit()
session.close()
return SQLBackend(chain_spec, object_id)
@staticmethod
def first(chain_spec):
"""Returns the model object of the most recent syncer in backend.
:param chain_spec: Chain spec of chain that syncer is running for.
:type chain_spec: cic_registry.chain.ChainSpec
:returns: Last syncer object
:rtype: cic_eth.db.models.BlockchainSync
"""
object_id = BlockchainSync.first(str(chain_spec))
if object_id == None:
return None
return SQLBackend(chain_spec, object_id)
@staticmethod
def initial(chain_spec, target_block_height, start_block_height=0):
"""Creates a new syncer session and commit its initial state to backend.
:param chain_spec: Chain spec of chain that syncer is running for
:type chain_spec: cic_registry.chain.ChainSpec
:param target_block_height: Target block height
:type target_block_height: int
:param start_block_height: Start block height
:type start_block_height: int
:raises ValueError: Invalid start/target specification
:returns: New syncer object
:rtype: cic_eth.db.models.BlockchainSync
"""
if start_block_height >= target_block_height:
raise ValueError('start block height must be lower than target block height')
object_id = None
session = SessionBase.create_session()
o = BlockchainSync(str(chain_spec), start_block_height, 0, target_block_height)
session.add(o)
session.commit()
object_id = o.id
of = BlockchainSyncFilter(o)
session.add(of)
session.commit()
session.close()
return SQLBackend(chain_spec, object_id)
@staticmethod
def resume(chain_spec, block_height):
"""Retrieves and returns all previously unfinished syncer sessions.
If a previous open-ended syncer is found, a new syncer will be generated to sync from where that syncer left off until the block_height given as argument.
:param chain_spec: Chain spec of chain that syncer is running for
:type chain_spec: cic_registry.chain.ChainSpec
:param block_height: Target block height for previous live syncer
:type block_height: int
:returns: Syncer objects of unfinished syncs
:rtype: list of cic_eth.db.models.BlockchainSync
"""
syncers = []
session = SessionBase.create_session()
object_id = None
highest_unsynced_block = 0
highest_unsynced_tx = 0
object_id = BlockchainSync.get_last(session=session, live=False)
if object_id != None:
q = session.query(BlockchainSync)
o = q.get(object_id)
(highest_unsynced_block, highest_unsynced_index) = o.cursor()
object_ids = BlockchainSync.get_unsynced(session=session)
session.close()
for object_id in object_ids:
s = SQLBackend(chain_spec, object_id)
logg.debug('resume unfinished {}'.format(s))
syncers.append(s)
session = SessionBase.create_session()
last_live_id = BlockchainSync.get_last(session=session)
if last_live_id != None:
q = session.query(BlockchainSync)
o = q.get(last_live_id)
(block_resume, tx_resume) = o.cursor()
session.flush()
#if block_height != block_resume:
logg.info('last live id {} {} {}'.format(last_live_id, highest_unsynced_block, block_resume))
if highest_unsynced_block <= block_resume:
q = session.query(BlockchainSyncFilter)
q = q.filter(BlockchainSyncFilter.chain_sync_id==last_live_id)
of = q.first()
(flags, count, digest) = of.cursor()
session.flush()
o = BlockchainSync(str(chain_spec), block_resume, tx_resume, block_height)
session.add(o)
session.flush()
object_id = o.id
of = BlockchainSyncFilter(o, count, flags, digest)
session.add(of)
session.commit()
backend = SQLBackend(chain_spec, object_id)
syncers.append(backend)
logg.debug('last live session resume {}'.format(backend))
session.close()
return syncers
@staticmethod
def live(chain_spec, block_height):
"""Creates a new open-ended syncer session starting at the given block height.
:param chain: Chain spec of chain that syncer is running for.
:type chain: cic_registry.chain.ChainSpec
:param block_height: Start block height
:type block_height: int
:returns: "Live" syncer object
:rtype: cic_eth.db.models.BlockchainSync
"""
session = SessionBase.create_session()
o = BlockchainSync(str(chain_spec), block_height, 0, None)
session.add(o)
session.flush()
object_id = o.id
of = BlockchainSyncFilter(o)
session.add(of)
session.commit()
session.close()
return SQLBackend(chain_spec, object_id)
def register_filter(self, name):
"""Add filter to backend.
No check is currently implemented to enforce that filters are the same for existing syncers. Care must be taken by the caller to avoid inconsistencies.
:param name: Name of filter
:type name: str
"""
self.connect()
if self.db_object_filter == None:
self.db_object_filter = BlockchainSyncFilter(self.db_object)
self.db_object_filter.add(name)
self.db_session.add(self.db_object_filter)
self.disconnect()
def begin_filter(self, n):
"""Marks start of execution of the filter indexed by the corresponding bit.
:param n: Filter index
:type n: int
"""
self.connect()
self.db_object_filter.set(n)
self.db_session.add(self.db_object_filter)
self.db_session.commit()
self.disconnect()
def complete_filter(self, n):
self.connect()
self.db_object_filter.release(check_bit=n)
self.db_session.add(self.db_object_filter)
self.db_session.commit()
self.disconnect()
def reset_filter(self):
"""Reset all filter states.
"""
self.connect()
self.db_object_filter.clear()
self.disconnect()

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@ -1,12 +0,0 @@
# standard imports
import os
# local imports
from .base import *
from .arg import process_flags
from .config import process_config
__script_dir = os.path.dirname(os.path.realpath(__file__))
data_dir = os.path.join(os.path.dirname(__script_dir), 'data')
config_dir = os.path.join(data_dir, 'config')

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@ -1,14 +0,0 @@
# local imports
from .base import SyncFlag
def process_flags(argparser, flags):
if flags & SyncFlag.RANGE > 0:
argparser.add_argument('--offset', type=int, help='Block to start sync from. Default is start of history (0).')
argparser.add_argument('--until', type=int, default=-1, help='Block to stop sync on. Default is stop at block height of first run.')
if flags & SyncFlag.HEAD > 0:
argparser.add_argument('--head', action='store_true', help='Start from latest block as offset')
argparser.add_argument('--keep-alive', action='store_true', help='Do not stop syncing when caught up')
argparser.add_argument('--backend', type=str, help='Backend to use for state store')

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# standard imports
import enum
class SyncFlag(enum.IntEnum):
RANGE = 1
HEAD = 2

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@ -1,20 +0,0 @@
# external imports
from chainsyncer.cli import SyncFlag
def process_config(config, args, flags):
args_override = {}
args_override['SYNCER_BACKEND'] = getattr(args, 'backend')
if flags & SyncFlag.RANGE:
args_override['SYNCER_OFFSET'] = getattr(args, 'offset')
args_override['SYNCER_LIMIT'] = getattr(args, 'until')
config.dict_override(args_override, 'local cli args')
if flags & SyncFlag.HEAD:
config.add(getattr(args, 'keep_alive'), '_KEEP_ALIVE')
config.add(getattr(args, 'head'), '_HEAD')
return config

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@ -1,4 +0,0 @@
[syncer]
offset = 0
limit = 0
backend = mem

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# standard imports
import os
import logging
# local imports
from chainsyncer.db.models.base import SessionBase
logg = logging.getLogger()
def dsn_from_config(config):
"""Generate a dsn string from the provided config dict.
The config dict must include all well-known database connection parameters, and must implement the method "get(key)" to retrieve them. Any missing parameters will be be rendered as the literal string "None"
:param config: Configuration object
:type config: Varies
:returns: dsn string
:rtype: str
"""
scheme = config.get('DATABASE_ENGINE')
if config.get('DATABASE_DRIVER') != None:
scheme += '+{}'.format(config.get('DATABASE_DRIVER'))
dsn = ''
dsn_out = ''
if config.get('DATABASE_ENGINE') == 'sqlite':
dsn = '{}:///{}'.format(
scheme,
config.get('DATABASE_NAME'),
)
dsn_out = dsn
else:
dsn = '{}://{}:{}@{}:{}/{}'.format(
scheme,
config.get('DATABASE_USER'),
config.get('DATABASE_PASSWORD'),
config.get('DATABASE_HOST'),
config.get('DATABASE_PORT'),
config.get('DATABASE_NAME'),
)
dsn_out = '{}://{}:{}@{}:{}/{}'.format(
scheme,
config.get('DATABASE_USER'),
'***',
config.get('DATABASE_HOST'),
config.get('DATABASE_PORT'),
config.get('DATABASE_NAME'),
)
logg.debug('parsed dsn from config: {}'.format(dsn_out))
return dsn

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Generic single-database configuration.

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# A generic, single database configuration.
[alembic]
# path to migration scripts
script_location = .
# template used to generate migration files
# file_template = %%(rev)s_%%(slug)s
# timezone to use when rendering the date
# within the migration file as well as the filename.
# string value is passed to dateutil.tz.gettz()
# leave blank for localtime
# timezone =
# max length of characters to apply to the
# "slug" field
# truncate_slug_length = 40
# set to 'true' to run the environment during
# the 'revision' command, regardless of autogenerate
# revision_environment = false
# set to 'true' to allow .pyc and .pyo files without
# a source .py file to be detected as revisions in the
# versions/ directory
# sourceless = false
# version location specification; this defaults
# to ./versions. When using multiple version
# directories, initial revisions must be specified with --version-path
# version_locations = %(here)s/bar %(here)s/bat ./versions
# the output encoding used when revision files
# are written from script.py.mako
# output_encoding = utf-8
sqlalchemy.url = driver://user:pass@localhost/dbname
[post_write_hooks]
# post_write_hooks defines scripts or Python functions that are run
# on newly generated revision scripts. See the documentation for further
# detail and examples
# format using "black" - use the console_scripts runner, against the "black" entrypoint
# hooks=black
# black.type=console_scripts
# black.entrypoint=black
# black.options=-l 79
# Logging configuration
[loggers]
keys = root,sqlalchemy,alembic
[handlers]
keys = console
[formatters]
keys = generic
[logger_root]
#level = WARN
handlers = console
qualname =
[logger_sqlalchemy]
level = WARN
handlers =
qualname = sqlalchemy.engine
[logger_alembic]
level = INFO
handlers =
qualname = alembic
[handler_console]
class = StreamHandler
args = (sys.stderr,)
level = NOTSET
formatter = generic
[formatter_generic]
format = %(levelname)-5.5s [%(name)s] %(message)s
datefmt = %H:%M:%S

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from logging.config import fileConfig
from sqlalchemy import engine_from_config
from sqlalchemy import pool
from alembic import context
# this is the Alembic Config object, which provides
# access to the values within the .ini file in use.
config = context.config
# Interpret the config file for Python logging.
# This line sets up loggers basically.
fileConfig(config.config_file_name)
# add your model's MetaData object here
# for 'autogenerate' support
# from myapp import mymodel
# target_metadata = mymodel.Base.metadata
target_metadata = None
# other values from the config, defined by the needs of env.py,
# can be acquired:
# my_important_option = config.get_main_option("my_important_option")
# ... etc.
def run_migrations_offline():
"""Run migrations in 'offline' mode.
This configures the context with just a URL
and not an Engine, though an Engine is acceptable
here as well. By skipping the Engine creation
we don't even need a DBAPI to be available.
Calls to context.execute() here emit the given string to the
script output.
"""
url = config.get_main_option("sqlalchemy.url")
context.configure(
url=url,
target_metadata=target_metadata,
literal_binds=True,
dialect_opts={"paramstyle": "named"},
)
with context.begin_transaction():
context.run_migrations()
def run_migrations_online():
"""Run migrations in 'online' mode.
In this scenario we need to create an Engine
and associate a connection with the context.
"""
connectable = engine_from_config(
config.get_section(config.config_ini_section),
prefix="sqlalchemy.",
poolclass=pool.NullPool,
)
with connectable.connect() as connection:
context.configure(
connection=connection, target_metadata=target_metadata
)
with context.begin_transaction():
context.run_migrations()
if context.is_offline_mode():
run_migrations_offline()
else:
run_migrations_online()

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from alembic import op
import sqlalchemy as sa
from chainsyncer.db.migrations.default.versions.src.sync import (
upgrade as upgrade_sync,
downgrade as downgrade_sync,
)
from chainsyncer.db.migrations.default.versions.src.sync_tx import (
upgrade as upgrade_sync_tx,
downgrade as downgrade_sync_tx,
)
def chainsyncer_upgrade(major=0, minor=0, patch=3):
r0_0_1_u()
if patch >= 3:
r0_0_3_u()
def chainsyncer_downgrade(major=0, minor=0, patch=3):
if patch >= 3:
r0_0_3_d()
r0_0_1_d()
def r0_0_1_u():
upgrade_sync()
def r0_0_1_d():
downgrade_sync()
# 0.0.3
def r0_0_3_u():
upgrade_sync_tx()
def r0_0_3_d():
downgrade_sync_tx()

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"""${message}
Revision ID: ${up_revision}
Revises: ${down_revision | comma,n}
Create Date: ${create_date}
"""
from alembic import op
import sqlalchemy as sa
${imports if imports else ""}
# revision identifiers, used by Alembic.
revision = ${repr(up_revision)}
down_revision = ${repr(down_revision)}
branch_labels = ${repr(branch_labels)}
depends_on = ${repr(depends_on)}
def upgrade():
${upgrades if upgrades else "pass"}
def downgrade():
${downgrades if downgrades else "pass"}

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"""base setup
Revision ID: 452ecfa81de3
Revises:
Create Date: 2021-07-16 16:29:32.460027
"""
# revision identifiers, used by Alembic.
revision = '452ecfa81de3'
down_revision = None
branch_labels = None
depends_on = None
from chainsyncer.db.migrations.default.versions.src.sync import upgrade, downgrade

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@ -0,0 +1,14 @@
"""sync-tx
Revision ID: a2ce6826c5eb
Revises: 452ecfa81de3
Create Date: 2021-07-16 18:17:53.439721
"""
# revision identifiers, used by Alembic.
revision = 'a2ce6826c5eb'
down_revision = '452ecfa81de3'
branch_labels = None
depends_on = None
from chainsyncer.db.migrations.default.versions.src.sync_tx import upgrade, downgrade

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from alembic import op
import sqlalchemy as sa
def upgrade():
op.create_table(
'chain_sync',
sa.Column('id', sa.Integer, primary_key=True),
sa.Column('blockchain', sa.String, nullable=False),
sa.Column('block_start', sa.Integer, nullable=False, default=0),
sa.Column('tx_start', sa.Integer, nullable=False, default=0),
sa.Column('block_cursor', sa.Integer, nullable=False, default=0),
sa.Column('tx_cursor', sa.Integer, nullable=False, default=0),
sa.Column('block_target', sa.Integer, nullable=True),
sa.Column('date_created', sa.DateTime, nullable=False),
sa.Column('date_updated', sa.DateTime),
)
op.create_table(
'chain_sync_filter',
sa.Column('id', sa.Integer, primary_key=True),
sa.Column('chain_sync_id', sa.Integer, sa.ForeignKey('chain_sync.id'), nullable=True),
sa.Column('flags', sa.LargeBinary, nullable=True),
sa.Column('flags_lock', sa.Integer, nullable=False, default=0),
sa.Column('flags_start', sa.LargeBinary, nullable=True),
sa.Column('count', sa.Integer, nullable=False, default=0),
sa.Column('digest', sa.String(64), nullable=False),
)
def downgrade():
op.drop_table('chain_sync_filter')
op.drop_table('chain_sync')

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from alembic import op
import sqlalchemy as sa
def upgrade():
op.create_table(
'chain_sync_tx',
sa.Column('id', sa.Integer, primary_key=True),
sa.Column('blockchain', sa.String, nullable=False),
sa.Column('chain_sync_id', sa.Integer, sa.ForeignKey('chain_sync.id'), nullable=False),
sa.Column('flags', sa.LargeBinary, nullable=True),
sa.Column('block', sa.Integer, nullable=False),
sa.Column('tx', sa.Integer, nullable=False),
)
def downgrade():
op.drop_table('chain_sync_tx')

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from alembic import op
import sqlalchemy as sa
from chainsyncer.db.migrations.default.versions.tags.sync import
upgrade as upgrade_sync,
downgrade as downgrade_sync,
)
from chainsyncer.db.migrations.default.versions.tags.sync_tx import
upgrade as upgrade_sync_tx,
downgrade as downgrade_sync_tx,
)
def chainsyncer_upgrade(major=0, minor=0, patch=3):
r0_0_1_u()
if patch >= 3:
r0_0_3_u()
def chainsyncer_downgrade(major=0, minor=0, patch=3):
if patch >= 3:
r0_0_3_d()
r0_0_1_d()
def r0_0_1_u():
upgrade_sync()
def r0_0_1_d():
downgrade_sync()
# 0.0.3
def r0_0_3_u():
upgrade_sync_tx()
def r0_0_3_d():
downgrade_sync_tx()

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# stanard imports
import logging
# third-party imports
from sqlalchemy import Column, Integer
from sqlalchemy.ext.declarative import declarative_base
from sqlalchemy import create_engine
from sqlalchemy.orm import sessionmaker
from sqlalchemy.pool import (
StaticPool,
QueuePool,
AssertionPool,
NullPool,
)
logg = logging.getLogger()
Model = declarative_base(name='Model')
CONNECTION_OVERFLOW_FACTOR = 3
CONNECTION_RECYCLE_AFTER = 60
class SessionBase(Model):
"""The base object for all SQLAlchemy enabled models. All other models must extend this.
"""
__abstract__ = True
id = Column(Integer, primary_key=True)
engine = None
"""Database connection engine of the running aplication"""
sessionmaker = None
"""Factory object responsible for creating sessions from the connection pool"""
transactional = True
"""Whether the database backend supports query transactions. Should be explicitly set by initialization code"""
poolable = True
"""Whether the database backend supports connection pools. Should be explicitly set by initialization code"""
procedural = True
"""Whether the database backend supports stored procedures"""
localsessions = {}
"""Contains dictionary of sessions initiated by db model components"""
@staticmethod
def create_session():
"""Creates a new database session.
"""
return SessionBase.sessionmaker()
@staticmethod
def _set_engine(engine):
"""Sets the database engine static property
:param engine: The sqlalchemy engine
:type engine: sqlalchemy.engine.Engine
"""
SessionBase.engine = engine
SessionBase.sessionmaker = sessionmaker(bind=SessionBase.engine)
@staticmethod
def connect(dsn, pool_size=16, debug=False):
"""Create new database connection engine and connect to database backend.
The pool_size argument controls the behavior of the connection pool.
If the pool_size is greater than 1, and the engine has connection pool settings, The connection pool will be set up with the given number of connections. By default, it allows for 3x connection overflow (CONNECTION_OVERFLOW_FACTOR), and connection recycling after 60 seconds of inactivity (CONNECTION_RECYCLE_AFTER).
If the pool_size is 1 and debug mode is off, the StaticPool class (single connection pool) will be used. If debug is on, AssertionPool will be used (which raises assertionerror if more than a single connection is attempted at any one time by the process).
If the underlying engine does not have pooling capabilities, the pool_size parameter toggles the connection class used. If pool_size is set to 0, the NullPool will be used (build a new connection for every session). If pool_size is set to a positive number, the StaticPool will be used, keeping a single connection for all sessions.
:param dsn: DSN string defining connection
:type dsn: str
:param pool_size: Size of connection pool
:type pool_size: int
:param debug: Activate sql debug mode (outputs sql statements)
:type debug: bool
"""
e = None
if SessionBase.poolable:
poolclass = QueuePool
if pool_size > 1:
e = create_engine(
dsn,
max_overflow=pool_size * CONNECTION_OVERFLOW_FACTOR,
pool_pre_ping=True,
pool_size=pool_size,
pool_recycle=CONNECTION_RECYCLE_AFTER,
poolclass=poolclass,
echo=debug,
)
else:
if debug:
poolclass = AssertionPool
else:
poolclass = StaticPool
e = create_engine(
dsn,
poolclass=poolclass,
echo=debug,
)
else:
pool_class = StaticPool
if pool_size < 1:
pool_class = NullPool
e = create_engine(
dsn,
poolclass=pool_class,
echo=debug,
)
SessionBase._set_engine(e)
@staticmethod
def disconnect():
"""Disconnect from database and free resources.
"""
SessionBase.engine.dispose()
SessionBase.engine = None
@staticmethod
def bind_session(session=None):
"""Convenience function to enforce database session responsilibity in call stacks where it is unclear which layer will create a database session.
If the session argument is None, the method will create and return a new database session. A reference to the database session will be statically stored in the SessionBase class, and must be explicitly released with release_session.
When an existing session in passed as the argument, this method simply returns back the same session.
:param session: An sqlalchemy session
:type session: session.orm.Session
:rtype: session.orm.Session
:returns: An sqlalchemy session
"""
localsession = session
if localsession == None:
localsession = SessionBase.create_session()
localsession_key = str(id(localsession))
logg.debug('creating new session {}'.format(localsession_key))
SessionBase.localsessions[localsession_key] = localsession
return localsession
@staticmethod
def release_session(session):
"""Checks if a reference to the given session exists in the SessionBase session store, and if it does commits the transaction and closes the session.
:param session: An sqlalchemy session
:type session: session.orm.Session
"""
session_key = str(id(session))
if SessionBase.localsessions.get(session_key) != None:
logg.debug('commit and destroy session {}'.format(session_key))
session.commit()
session.close()
del SessionBase.localsessions[session_key]

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# standard imports
import logging
import hashlib
# external imports
from sqlalchemy import Column, String, Integer, LargeBinary, ForeignKey
from sqlalchemy.ext.hybrid import hybrid_property, hybrid_method
# local imports
from .base import SessionBase
from .sync import BlockchainSync
from chainsyncer.error import LockError
zero_digest = bytes(32).hex()
logg = logging.getLogger(__name__)
class BlockchainSyncFilter(SessionBase):
"""Sync filter sql backend database interface.
:param chain_sync: BlockchainSync object to use as context for filter
:type chain_sync: chainsyncer.db.models.sync.BlockchainSync
:param count: Number of filters to track
:type count: int
:param flags: Filter flag value to instantiate record with
:type flags: int
:param digest: Filter digest as integrity protection when resuming session, 256 bits, in hex
:type digest: str
"""
__tablename__ = 'chain_sync_filter'
chain_sync_id = Column(Integer, ForeignKey('chain_sync.id'))
flags_start = Column(LargeBinary)
flags = Column(LargeBinary)
flags_lock = Column(Integer)
digest = Column(String(64))
count = Column(Integer)
def __init__(self, chain_sync, count=0, flags=None, digest=None):
if digest == None:
digest = zero_digest
self.digest = digest
self.count = count
if flags == None:
flags = bytearray(0)
else:
bytecount = int((count - 1) / 8 + 1)
flags = flags.to_bytes(bytecount, 'big')
self.flags_start = flags
self.flags = flags
self.flags_lock = 0
self.chain_sync_id = chain_sync.id
@staticmethod
def load(sync_id, session=None):
q = session.query(BlockchainSyncFilter)
q = q.filter(BlockchainSyncFilter.chain_sync_id==sync_id)
o = q.first()
if o.is_locked():
raise LockError('locked state for flag {} of sync id {} must be manually resolved'.format(o.flags_lock))
def add(self, name):
"""Add a new filter to the syncer record.
The name of the filter is hashed with the current aggregated hash sum of previously added filters.
:param name: Filter informal name
:type name: str
"""
h = hashlib.new('sha256')
h.update(bytes.fromhex(self.digest))
h.update(name.encode('utf-8'))
z = h.digest()
old_byte_count = int((self.count - 1) / 8 + 1)
new_byte_count = int((self.count) / 8 + 1)
if old_byte_count != new_byte_count:
self.flags = bytearray(1) + self.flags
self.count += 1
self.digest = z.hex()
def start(self):
"""Retrieve the initial filter state of the syncer.
:rtype: tuple
:returns: Filter flag value, filter count, filter digest
"""
return (int.from_bytes(self.flags_start, 'big'), self.count, self.digest)
def cursor(self):
"""Retrieve the current filter state of the syncer.
:rtype: tuple
:returns: Filter flag value, filter count, filter digest
"""
return (int.from_bytes(self.flags, 'big'), self.count, self.digest)
def target(self):
"""Retrieve the target filter state of the syncer.
The target filter value will be the integer value when all bits are set for the filter count.
:rtype: tuple
:returns: Filter flag value, filter count, filter digest
"""
n = 0
for i in range(self.count):
n |= (1 << self.count) - 1
return (n, self.count, self.digest)
def is_locked(self):
return self.flags_lock > 0
def clear(self):
"""Set current filter flag value to zero.
"""
if self.is_locked():
raise LockError('flag clear attempted when lock set at {}'.format(self.flags_lock))
self.flags = bytearray(len(self.flags))
def set(self, n):
"""Set the filter flag at given index.
:param n: Filter flag index
:type n: int
:raises IndexError: Invalid flag index
:raises AttributeError: Flag at index already set
"""
if self.is_locked():
raise LockError('flag set attempted when lock set at {}'.format(self.flags_lock))
if n > self.count:
raise IndexError('bit flag out of range')
self.flags_lock = n
b = 1 << (n % 8)
i = int(n / 8)
byte_idx = len(self.flags)-1-i
if (self.flags[byte_idx] & b) > 0:
raise AttributeError('Filter bit already set')
flags = bytearray(self.flags)
flags[byte_idx] |= b
self.flags = flags
def release(self, check_bit=0):
if check_bit > 0:
if self.flags_lock > 0 and self.flags_lock != check_bit:
raise LockError('release attemped on explicit bit {}, but bit {} was locked'.format(check_bit, self.flags_lock))
self.flags_lock = 0

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@ -0,0 +1,202 @@
# standard imports
import datetime
# third-party imports
from sqlalchemy import Column, String, Integer, DateTime, Text, Boolean
from sqlalchemy.ext.hybrid import hybrid_property, hybrid_method
# local imports
from .base import SessionBase
class BlockchainSync(SessionBase):
"""Syncer control backend.
:param chain_str: Chain spec string representation
:type chain_str: str
:param block_start: Block number to start sync from
:type block_start: number
:param tx_start: Block transaction number to start sync from
:type tx_start: number
:param block_target: Block number to sync until, inclusive
:type block_target: number
"""
__tablename__ = 'chain_sync'
blockchain = Column(String)
"""Chainspec string specifying the blockchain the syncer is running against."""
block_start = Column(Integer)
"""The block height at the start of syncer."""
tx_start = Column(Integer)
"""The transaction index at the start of syncer."""
block_cursor = Column(Integer)
"""The block height for the current state of the syncer."""
tx_cursor = Column(Integer)
"""The transaction index for the current state of the syncer."""
block_target = Column(Integer)
"""The block height at which the syncer should terminate. Will be None for an open-ended syncer."""
date_created = Column(DateTime, default=datetime.datetime.utcnow)
"""Datetime when syncer was first created."""
date_updated = Column(DateTime)
"""Datetime of the latest update of the syncer state."""
def __init__(self, chain_str, block_start, tx_start, block_target=None):
self.blockchain = chain_str
self.block_start = block_start
self.tx_start = tx_start
self.block_cursor = block_start
self.tx_cursor = tx_start
self.block_target = block_target
self.date_created = datetime.datetime.utcnow()
self.date_updated = datetime.datetime.utcnow()
@staticmethod
def first(chain_str, session=None):
"""Check if a sync session for the specified chain already exists.
:param chain_str: Chain spec string representation
:type chain_str: str
:param session: Session to use. If not specified, a separate session will be created for this method only.
:type session: sqlalchemy.orm.session.Sessoin
:returns: Database primary key id of sync record, or None if insert failed
:rtype: number
"""
session = SessionBase.bind_session(session)
q = session.query(BlockchainSync.id)
q = q.filter(BlockchainSync.blockchain==chain_str)
o = q.first()
if o == None:
SessionBase.release_session(session)
return None
sync_id = o.id
SessionBase.release_session(session)
return sync_id
@staticmethod
def get_last(session=None, live=True):
"""Get the most recent syncer record.
If live is set, only the latest open-ended syncer will be returned.
:param session: Session to use. If not specified, a separate session will be created for this method only.
:type session: SqlAlchemy Session
:param live: Match only open-ended syncers
:type live: bool
:returns: Syncer database id
:rtype: int
"""
session = SessionBase.bind_session(session)
q = session.query(BlockchainSync.id)
if live:
q = q.filter(BlockchainSync.block_target==None)
else:
q = q.filter(BlockchainSync.block_target!=None)
q = q.order_by(BlockchainSync.date_created.desc())
object_id = q.first()
SessionBase.release_session(session)
if object_id == None:
return None
return object_id[0]
@staticmethod
def get_unsynced(session=None):
"""Get previous bounded sync sessions that did not complete.
:param session: Session to use. If not specified, a separate session will be created for this method only.
:type session: SqlAlchemy Session
:returns: Syncer database ids
:rtype: list
"""
unsynced = []
local_session = False
if session == None:
session = SessionBase.create_session()
local_session = True
q = session.query(BlockchainSync.id)
q = q.filter(BlockchainSync.block_target!=None)
q = q.filter(BlockchainSync.block_cursor<BlockchainSync.block_target)
q = q.order_by(BlockchainSync.date_created.asc())
for u in q.all():
unsynced.append(u[0])
if local_session:
session.close()
return unsynced
def set(self, block_height, tx_height):
"""Set the cursor height of the syncer instance.
Only manipulates object, does not transaction or commit to backend.
:param block_height: Block number
:type block_height: number
:param tx_height: Block transaction number
:type tx_height: number
:rtype: tuple
:returns: Stored block height, transaction index
"""
self.block_cursor = block_height
self.tx_cursor = tx_height
self.date_updated = datetime.datetime.utcnow()
return (self.block_cursor, self.tx_cursor,)
def cursor(self):
"""Get current state of cursor from cached instance.
:returns: Block height, transaction index
:rtype: tuple
"""
return (self.block_cursor, self.tx_cursor)
def start(self):
"""Get sync block start position from cached instance.
:returns: Block height, transaction index
:rtype: tuple
"""
return (self.block_start, self.tx_start)
def target(self):
"""Get sync block upper bound from cached instance.
:returns: Block number. Returns None if syncer is open-ended.
:rtype: int
"""
return self.block_target
def chain(self):
"""Get chain string representation for which the cached instance represents.
"""
return self.blockchain
def __str__(self):
return """object_id: {}
start: {}:{}
cursor: {}:{}
target: {}
""".format(
self.id,
self.block_start,
self.tx_start,
self.block_cursor,
self.tx_cursor,
self.block_target,
)

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@ -1 +1 @@
from .base import SyncDriver from .base import Syncer

View File

@ -1,21 +1,48 @@
# standard imports # standard imports
import uuid
import logging import logging
import time import time
import signal import signal
import json
# external imports
from chainlib.error import JSONRPCException
# local imports # local imports
from chainsyncer.filter import SyncFilter
from chainsyncer.error import ( from chainsyncer.error import (
SyncDone, SyncDone,
NoBlockForYou, NoBlockForYou,
) )
from chainsyncer.session import SyncSession
logg = logging.getLogger(__name__) logg = logging.getLogger(__name__)
NS_DIV = 1000000000
class SyncDriver: def noop_callback(block, tx):
"""Logger-only callback for pre- and post processing.
:param block: Block object
:type block: chainlib.block.Block
:param tx: Transaction object
:type tx: chainlib.tx.Tx
"""
logg.debug('noop callback ({},{})'.format(block, tx))
class Syncer:
"""Base class for syncer implementations.
:param backend: Syncer state backend
:type backend: chainsyncer.backend.base.Backend implementation
:param chain_interface: Chain interface implementation
:type chain_interface: chainlib.interface.ChainInterface implementation
:param pre_callback: Function to call before polling. Function will receive no arguments.
:type pre_callback: function
:param block_callback: Function to call before processing txs in a retrieved block. Function should have signature as chainsyncer.driver.base.noop_callback
:type block_callback: function
:param post_callback: Function to call after polling. Function will receive no arguments.
:type post_callback: function
"""
running_global = True running_global = True
"""If set to false syncer will terminate polling loop.""" """If set to false syncer will terminate polling loop."""
@ -28,22 +55,19 @@ class SyncDriver:
name = 'base' name = 'base'
"""Syncer name, to be overriden for each extended implementation.""" """Syncer name, to be overriden for each extended implementation."""
def __init__(self, backend, chain_interface, pre_callback=None, block_callback=None, post_callback=None):
def __init__(self, store, offset=0, target=-1, pre_callback=None, post_callback=None, block_callback=None, idle_callback=None): self.chain_interface = chain_interface
self.store = store self.cursor = None
self.running = True self.running = True
self.backend = backend
self.filter = SyncFilter(backend)
self.block_callback = block_callback
self.pre_callback = pre_callback self.pre_callback = pre_callback
self.post_callback = post_callback self.post_callback = post_callback
self.block_callback = block_callback if not Syncer.signal_set:
self.idle_callback = idle_callback for sig in Syncer.signal_request:
self.last_start = 0
self.clock_id = time.CLOCK_MONOTONIC_RAW
self.store.connect()
self.store.start(offset=offset, target=target)
if not SyncDriver.signal_set:
for sig in SyncDriver.signal_request:
signal.signal(sig, self.__sig_terminate) signal.signal(sig, self.__sig_terminate)
SyncDriver.signal_set = True Syncer.signal_set = True
def __sig_terminate(self, sig, frame): def __sig_terminate(self, sig, frame):
@ -55,90 +79,48 @@ class SyncDriver:
"""Set syncer to terminate as soon as possible. """Set syncer to terminate as soon as possible.
""" """
logg.info('termination requested!') logg.info('termination requested!')
SyncDriver.running_global = False Syncer.running_global = False
self.running = False self.running = False
def run(self, conn, interval=1): def add_filter(self, f):
while self.running_global: """Add filter to be processed for each transaction.
self.session = SyncSession(self.store)
item = self.session.start()
if item == None:
self.running = False
self.running_global = False
break
self.loop(conn, item, interval=interval)
:param f: Filter
def idle(self, interval): :type f: Object instance implementing signature as in chainsyncer.filter.NoopFilter.filter
interval *= NS_DIV """
idle_start = time.clock_gettime_ns(self.clock_id) self.filter.add(f)
delta = idle_start - self.last_start self.backend.register_filter(str(f))
if delta > interval:
interval /= NS_DIV
time.sleep(interval)
return
if self.idle_callback != None:
r = True
while r:
before = time.clock_gettime_ns(self.clock_id)
r = self.idle_callback(interval)
after = time.clock_gettime_ns(self.clock_id)
delta = after - before
if delta < 0:
return
interval -= delta
if interval < 0:
return
interval /= NS_DIV
time.sleep(interval)
def loop(self, conn, item, interval=1):
logg.debug('started loop')
while self.running and SyncDriver.running_global:
self.last_start = time.clock_gettime_ns(self.clock_id)
if self.pre_callback != None:
self.pre_callback()
while True and self.running:
try:
block = self.get(conn, item)
except SyncDone as e:
logg.info('all blocks sumitted for processing: {}'.format(e))
return
except NoBlockForYou as e:
break
if self.block_callback != None:
self.block_callback(block, None)
try:
self.process(conn, item, block)
except IndexError:
item.next(advance_block=True)
time.sleep(self.yield_delay)
if self.store.target > -1 and block.number >= self.store.target:
self.running = False
if self.post_callback != None:
self.post_callback()
self.idle(interval)
def process_single(self, conn, block, tx): def process_single(self, conn, block, tx):
self.session.filter(conn, block, tx) """Set syncer backend cursor to the given transaction index and block height, and apply all registered filters on transaction.
:param conn: RPC connection instance
:type conn: chainlib.connection.RPCConnection
:param block: Block object
:type block: chainlib.block.Block
:param block: Transaction object
:type block: chainlib.tx.Tx
"""
self.backend.set(block.number, tx.index)
self.filter.apply(conn, block, tx)
def process(self, conn, item, block): def loop(self, interval, conn):
raise NotImplementedError()
def process(self, conn, block):
raise NotImplementedError() raise NotImplementedError()
def get(self, conn): def get(self, conn):
raise NotImplementedError() raise NotImplementedError()
def __str__(self):
return 'syncer "{}" {}'.format(
self.name,
self.backend,
)

View File

@ -1,57 +0,0 @@
# external imports
from chainlib.error import RPCException
# local imports
from chainsyncer.error import NoBlockForYou
from chainsyncer.driver import SyncDriver
class ChainInterfaceDriver(SyncDriver):
def __init__(self, store, chain_interface, offset=0, target=-1, pre_callback=None, post_callback=None, block_callback=None, idle_callback=None):
super(ChainInterfaceDriver, self).__init__(store, offset=offset, target=target, pre_callback=pre_callback, post_callback=post_callback, block_callback=block_callback, idle_callback=idle_callback)
self.chain_interface = chain_interface
def get(self, conn, item):
"""Retrieve the block currently defined by the syncer cursor from the RPC provider.
:param conn: RPC connection
:type conn: chainlib.connectin.RPCConnection
:raises NoBlockForYou: Block at the given height does not exist
:rtype: chainlib.block.Block
:returns: Block object
"""
o = self.chain_interface.block_by_number(item.cursor)
try:
r = conn.do(o)
except RPCException:
r = None
if r == None:
raise NoBlockForYou()
b = self.chain_interface.block_from_src(r)
b.txs = b.txs[item.tx_cursor:]
return b
def process(self, conn, item, block):
tx_src = None
i = item.tx_cursor
while True:
# handle block objects regardless of whether the tx data is embedded or not
try:
tx = block.tx(i)
except AttributeError:
tx_hash = block.txs[i]
o = self.chain_interface.tx_by_hash(tx_hash, block=block)
r = conn.do(o)
#tx = self.chain_interface.tx_from_src(tx_src, block=block)
rcpt = conn.do(self.chain_interface.tx_receipt(tx.hash))
if rcpt != None:
tx.apply_receipt(self.chain_interface.src_normalize(rcpt))
self.process_single(conn, block, tx)
i += 1

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@ -0,0 +1,86 @@
# standard imports
import logging
# external imports
from chainlib.eth.tx import (
transaction,
Tx,
)
from chainlib.error import RPCException
# local imports
from chainsyncer.error import NoBlockForYou
from .poll import BlockPollSyncer
logg = logging.getLogger(__name__)
class HeadSyncer(BlockPollSyncer):
"""Extends the block poller, implementing an open-ended syncer.
"""
name = 'head'
def process(self, conn, block):
"""Process a single block using the given RPC connection.
Processing means that all filters are executed on all transactions in the block.
If the block object does not contain the transaction details, the details will be retrieved from the network (incurring the corresponding performance penalty).
:param conn: RPC connection
:type conn: chainlib.connection.RPCConnection
:param block: Block object
:type block: chainlib.block.Block
"""
(pair, fltr) = self.backend.get()
logg.debug('process block {} (backend {}:{})'.format(block, pair, fltr))
i = pair[1] # set tx index from previous
tx_src = None
while True:
# handle block objects regardless of whether the tx data is embedded or not
try:
tx = block.tx(i)
except AttributeError:
o = transaction(block.txs[i])
r = conn.do(o)
tx_src = Tx.src_normalize(r)
tx = self.chain_interface.tx_from_src(tx_src, block=block)
#except IndexError as e:
# logg.debug('index error syncer tx get {}'.format(e))
# break
rcpt = conn.do(self.chain_interface.tx_receipt(tx.hash))
if rcpt != None:
tx.apply_receipt(self.chain_interface.src_normalize(rcpt))
self.process_single(conn, block, tx)
self.backend.reset_filter()
i += 1
def get(self, conn):
"""Retrieve the block currently defined by the syncer cursor from the RPC provider.
:param conn: RPC connection
:type conn: chainlib.connectin.RPCConnection
:raises NoBlockForYou: Block at the given height does not exist
:rtype: chainlib.block.Block
:returns: Block object
"""
(height, flags) = self.backend.get()
block_number = height[0]
block_hash = []
o = self.chain_interface.block_by_number(block_number)
try:
r = conn.do(o)
except RPCException:
r = None
if r == None:
raise NoBlockForYou()
b = self.chain_interface.block_from_src(r)
b.txs = b.txs[height[1]:]
return b

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@ -0,0 +1,56 @@
# standard imports
import logging
# external imports
from chainlib.error import RPCException
# local imports
from .head import HeadSyncer
from chainsyncer.error import SyncDone
from chainlib.error import RPCException
logg = logging.getLogger(__name__)
class HistorySyncer(HeadSyncer):
"""Bounded syncer implementation of the block poller. Reuses the head syncer process method implementation.
"""
name = 'history'
def __init__(self, backend, chain_interface, pre_callback=None, block_callback=None, post_callback=None):
super(HeadSyncer, self).__init__(backend, chain_interface, pre_callback, block_callback, post_callback)
self.block_target = None
(block_number, flags) = self.backend.target()
if block_number == None:
raise AttributeError('backend has no future target. Use HeadSyner instead')
self.block_target = block_number
def get(self, conn):
"""Retrieve the block currently defined by the syncer cursor from the RPC provider.
:param conn: RPC connection
:type conn: chainlib.connectin.RPCConnection
:raises SyncDone: Block target reached (at which point the syncer should terminate).
:rtype: chainlib.block.Block
:returns: Block object
:todo: DRY against HeadSyncer
"""
(height, flags) = self.backend.get()
if self.block_target < height[0]:
raise SyncDone(self.block_target)
block_number = height[0]
block_hash = []
o = self.chain_interface.block_by_number(block_number, include_tx=True)
try:
r = conn.do(o)
# TODO: Disambiguate whether error is temporary or permanent, if permanent, SyncDone should be raised, because a historical sync is attempted into the future
except RPCException:
r = None
if r == None:
raise SyncDone()
b = self.chain_interface.block_from_src(r)
return b

105
chainsyncer/driver/poll.py Normal file
View File

@ -0,0 +1,105 @@
# standard imports
import logging
import time
# local imports
from .base import Syncer
from chainsyncer.error import (
SyncDone,
NoBlockForYou,
)
logg = logging.getLogger(__name__)
NS_DIV = 1000000000
class BlockPollSyncer(Syncer):
"""Syncer driver implementation of chainsyncer.driver.base.Syncer that retrieves new blocks through polling.
"""
name = 'blockpoll'
def __init__(self, backend, chain_interface, pre_callback=None, block_callback=None, post_callback=None, idle_callback=None):
super(BlockPollSyncer, self).__init__(backend, chain_interface, pre_callback=pre_callback, block_callback=block_callback, post_callback=post_callback)
self.idle_callback = idle_callback
self.last_start = 0
self.clock_id = time.CLOCK_MONOTONIC_RAW
def idle(self, interval):
interval *= NS_DIV
idle_start = time.clock_gettime_ns(self.clock_id)
delta = idle_start - self.last_start
if delta > interval:
interval /= NS_DIV
time.sleep(interval)
return
if self.idle_callback != None:
r = True
while r:
before = time.clock_gettime_ns(self.clock_id)
r = self.idle_callback(interval)
after = time.clock_gettime_ns(self.clock_id)
delta = after - before
if delta < 0:
return
interval -= delta
if interval < 0:
return
interval /= NS_DIV
time.sleep(interval)
def loop(self, interval, conn):
"""Indefinite loop polling the given RPC connection for new blocks in the given interval.
:param interval: Seconds to wait for next poll after processing of previous poll has been completed.
:type interval: int
:param conn: RPC connection
:type conn: chainlib.connection.RPCConnection
:rtype: tuple
:returns: See chainsyncer.backend.base.Backend.get
"""
(pair, fltr) = self.backend.get()
(target, fltr_target) = self.backend.target()
if target == pair[0]:
logg.info('syncer was done before it started: {}'.format(self))
raise SyncDone(target)
start_tx = pair[1]
while self.running and Syncer.running_global:
self.last_start = time.clock_gettime_ns(self.clock_id)
if self.pre_callback != None:
self.pre_callback()
while True and self.running:
if start_tx > 0:
start_tx -= 1
continue
try:
block = self.get(conn)
except SyncDone as e:
logg.info('all blocks sumitted for processing: {}'.format(e))
return self.backend.get()
except NoBlockForYou as e:
break
if self.block_callback != None:
self.block_callback(block, None)
last_block = block
try:
self.process(conn, block)
except IndexError:
self.backend.set(block.number + 1, 0)
start_tx = 0
time.sleep(self.yield_delay)
if self.post_callback != None:
self.post_callback()
self.idle(interval)

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@ -0,0 +1,133 @@
# standard imports
import logging
#import threading
import multiprocessing
import queue
# external imports
from chainlib.error import RPCException
# local imports
from .history import HistorySyncer
from chainsyncer.error import SyncDone
logg = logging.getLogger(__name__)
class ThreadedHistorySyncer(HistorySyncer):
def __init__(self, conn_factory, thread_limit, backend, chain_interface, pre_callback=None, block_callback=None, post_callback=None, conn_limit=0):
super(ThreadedHistorySyncer, self).__init__(backend, chain_interface, pre_callback, block_callback, post_callback)
self.workers = []
if conn_limit == 0:
conn_limit = thread_limit
#self.conn_pool = queue.Queue(conn_limit)
#self.queue = queue.Queue(thread_limit)
#self.quit_queue = queue.Queue(1)
self.conn_pool = multiprocessing.Queue(conn_limit)
self.queue = multiprocessing.Queue(thread_limit)
self.quit_queue = multiprocessing.Queue(1)
#self.lock = threading.Lock()
self.lock = multiprocessing.Lock()
for i in range(thread_limit):
#w = threading.Thread(target=self.worker)
w = multiprocessing.Process(target=self.worker)
self.workers.append(w)
for i in range(conn_limit):
self.conn_pool.put(conn_factory())
def terminate(self):
self.quit_queue.put(())
super(ThreadedHistorySyncer, self).terminate()
def worker(self):
while True:
block_number = None
try:
block_number = self.queue.get(timeout=0.01)
except queue.Empty:
if self.quit_queue.qsize() > 0:
#logg.debug('{} received quit'.format(threading.current_thread().getName()))
logg.debug('{} received quit'.format(multiprocessing.current_process().name))
return
continue
conn = self.conn_pool.get()
try:
logg.debug('processing parent {} {}'.format(conn, block_number))
self.process_parent(conn, block_number)
except IndexError:
pass
except RPCException as e:
logg.error('RPC failure for block {}, resubmitting to queue: {}'.format(block, e))
self.queue.put(block_number)
conn = self.conn_pool.put(conn)
def process_parent(self, conn, block_number):
logg.debug('getting block {}'.format(block_number))
o = self.chain_interface.block_by_number(block_number)
r = conn.do(o)
block = self.chain_interface.block_from_src(r)
logg.debug('got block typ {}'.format(type(block)))
super(ThreadedHistorySyncer, self).process(conn, block)
def process_single(self, conn, block, tx):
self.filter.apply(conn, block, tx)
def process(self, conn, block):
pass
#def process(self, conn, block):
def get(self, conn):
if not self.running:
raise SyncDone()
block_number = None
tx_index = None
flags = None
((block_number, tx_index), flags) = self.backend.get()
try:
#logg.debug('putting {}'.format(block.number))
#self.queue.put((conn, block_number,), timeout=0.1)
self.queue.put(block_number, timeout=0.1)
except queue.Full:
#logg.debug('queue full, try again')
return
target, flags = self.backend.target()
next_block = block_number + 1
if next_block > target:
self.quit_queue.put(())
raise SyncDone()
self.backend.set(self.backend.block_height + 1, 0)
# def get(self, conn):
# try:
# r = super(ThreadedHistorySyncer, self).get(conn)
# return r
# except SyncDone as e:
# self.quit_queue.put(())
# raise e
def loop(self, interval, conn):
for w in self.workers:
w.start()
r = super(ThreadedHistorySyncer, self).loop(interval, conn)
for w in self.workers:
w.join()
while True:
try:
self.quit_queue.get_nowait()
except queue.Empty:
break
logg.info('workers done {}'.format(r))

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@ -0,0 +1,170 @@
# standard imports
import logging
#import threading
import multiprocessing
import queue
import time
# external imports
from chainlib.error import RPCException
# local imports
from .history import HistorySyncer
from chainsyncer.error import SyncDone
logg = logging.getLogger(__name__)
def foobarcb(v):
logg.debug('foooz {}'.format(v))
class ThreadPoolTask:
process_func = None
chain_interface = None
def poolworker(self, block_number, conn):
# conn = args[1].get()
try:
logg.debug('processing parent {} {}'.format(conn, block_number))
#self.process_parent(self.conn, block_number)
self.process_parent(conn, block_number)
except IndexError:
pass
except RPCException as e:
logg.error('RPC failure for block {}, resubmitting to queue: {}'.format(block, e))
raise e
#self.queue.put(block_number)
# conn = self.conn_pool.put(conn)
def process_parent(self, conn, block_number):
logg.debug('getting block {}'.format(block_number))
o = self.chain_interface.block_by_number(block_number)
r = conn.do(o)
block = self.chain_interface.block_from_src(r)
logg.debug('got block typ {}'.format(type(block)))
#super(ThreadedHistorySyncer, self).process(conn, block)
self.process_func(conn, block)
class ThreadPoolHistorySyncer(HistorySyncer):
def __init__(self, conn_factory, thread_limit, backend, chain_interface, pre_callback=None, block_callback=None, post_callback=None, conn_limit=0):
super(ThreadPoolHistorySyncer, self).__init__(backend, chain_interface, pre_callback, block_callback, post_callback)
self.workers = []
self.thread_limit = thread_limit
if conn_limit == 0:
self.conn_limit = self.thread_limit
#self.conn_pool = queue.Queue(conn_limit)
#self.queue = queue.Queue(thread_limit)
#self.quit_queue = queue.Queue(1)
#self.conn_pool = multiprocessing.Queue(conn_limit)
#self.queue = multiprocessing.Queue(thread_limit)
#self.quit_queue = multiprocessing.Queue(1)
#self.lock = threading.Lock()
#self.lock = multiprocessing.Lock()
ThreadPoolTask.process_func = super(ThreadPoolHistorySyncer, self).process
ThreadPoolTask.chain_interface = chain_interface
#for i in range(thread_limit):
#w = threading.Thread(target=self.worker)
# w = multiprocessing.Process(target=self.worker)
# self.workers.append(w)
#for i in range(conn_limit):
# self.conn_pool.put(conn_factory())
self.conn_factory = conn_factory
self.worker_pool = None
def terminate(self):
#self.quit_queue.put(())
super(ThreadPoolHistorySyncer, self).terminate()
# def worker(self):
# while True:
# block_number = None
# try:
# block_number = self.queue.get(timeout=0.01)
# except queue.Empty:
# if self.quit_queue.qsize() > 0:
# #logg.debug('{} received quit'.format(threading.current_thread().getName()))
# logg.debug('{} received quit'.format(multiprocessing.current_process().name))
# return
# continue
# conn = self.conn_pool.get()
# try:
# logg.debug('processing parent {} {}'.format(conn, block_number))
# self.process_parent(conn, block_number)
# except IndexError:
# pass
# except RPCException as e:
# logg.error('RPC failure for block {}, resubmitting to queue: {}'.format(block, e))
# self.queue.put(block_number)
# conn = self.conn_pool.put(conn)
#
def process_single(self, conn, block, tx):
self.filter.apply(conn, block, tx)
def process(self, conn, block):
pass
def get(self, conn):
if not self.running:
raise SyncDone()
block_number = None
tx_index = None
flags = None
((block_number, tx_index), flags) = self.backend.get()
#try:
#logg.debug('putting {}'.format(block.number))
#self.queue.put((conn, block_number,), timeout=0.1)
#self.queue.put(block_number, timeout=0.1)
#except queue.Full:
#logg.debug('queue full, try again')
# return
task = ThreadPoolTask()
conn = self.conn_factory()
self.worker_pool.apply_async(task.poolworker, (block_number, conn,), {}, foobarcb)
target, flags = self.backend.target()
next_block = block_number + 1
if next_block > target:
#self.quit_queue.put(())
self.worker_pool.close()
raise SyncDone()
self.backend.set(self.backend.block_height + 1, 0)
# def get(self, conn):
# try:
# r = super(ThreadedHistorySyncer, self).get(conn)
# return r
# except SyncDone as e:
# self.quit_queue.put(())
# raise e
def loop(self, interval, conn):
self.worker_pool = multiprocessing.Pool(self.thread_limit)
#for w in self.workers:
# w.start()
r = super(ThreadPoolHistorySyncer, self).loop(interval, conn)
#for w in self.workers:
# w.join()
#while True:
# try:
# self.quit_queue.get_nowait()
# except queue.Empty:
# break
time.sleep(1)
self.worker_pool.join()
logg.info('workers done {}'.format(r))

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@ -0,0 +1,81 @@
# standard imports
import copy
import logging
import multiprocessing
import os
# external iports
from chainlib.eth.connection import RPCConnection
# local imports
from chainsyncer.driver.history import HistorySyncer
from chainsyncer.driver.base import Syncer
from .threadpool import ThreadPoolTask
logg = logging.getLogger(__name__)
def sync_split(block_offset, block_target, count):
block_count = block_target - block_offset
if block_count < count:
logg.warning('block count is less than thread count, adjusting thread count to {}'.format(block_count))
count = block_count
blocks_per_thread = int(block_count / count)
ranges = []
for i in range(count):
block_target = block_offset + blocks_per_thread
offset = block_offset
target = block_target -1
ranges.append((offset, target,))
block_offset = block_target
return ranges
class ThreadPoolRangeTask:
def __init__(self, backend, sync_range, chain_interface, syncer_factory=HistorySyncer, filters=[]):
backend_start = backend.start()
backend_target = backend.target()
backend_class = backend.__class__
tx_offset = 0
flags = 0
if sync_range[0] == backend_start[0][0]:
tx_offset = backend_start[0][1]
flags = backend_start[1]
self.backend = backend_class.custom(backend.chain_spec, sync_range[1], block_offset=sync_range[0], tx_offset=tx_offset, flags=flags, flags_count=0)
self.syncer = syncer_factory(self.backend, chain_interface)
for fltr in filters:
self.syncer.add_filter(fltr)
def start_loop(self, interval):
conn = RPCConnection.connect(self.backend.chain_spec)
return self.syncer.loop(interval, conn)
class ThreadPoolRangeHistorySyncer:
def __init__(self, thread_count, backend, chain_interface, pre_callback=None, block_callback=None, post_callback=None, runlevel_callback=None):
self.src_backend = backend
self.thread_count = thread_count
self.single_sync_offset = 0
self.runlevel_callback = None
backend_start = backend.start()
backend_target = backend.target()
self.ranges = sync_split(backend_start[0][0], backend_target[0], thread_count)
self.chain_interface = chain_interface
self.filters = []
def add_filter(self, f):
self.filters.append(f)
def loop(self, interval, conn):
self.worker_pool = multiprocessing.Pool(processes=self.thread_count)
for sync_range in self.ranges:
task = ThreadPoolRangeTask(self.src_backend, sync_range, self.chain_interface, filters=self.filters)
t = self.worker_pool.apply_async(task.start_loop, (0.1,))
logg.debug('result of worker {}: {}'.format(t, t.get()))
self.worker_pool.close()
self.worker_pool.join()

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@ -3,7 +3,6 @@ class SyncDone(Exception):
""" """
pass pass
class NoBlockForYou(Exception): class NoBlockForYou(Exception):
"""Exception raised when attempt to retrieve a block from network that does not (yet) exist. """Exception raised when attempt to retrieve a block from network that does not (yet) exist.
""" """
@ -28,20 +27,6 @@ class LockError(Exception):
pass pass
class FilterDone(Exception):
"""Exception raised when all registered filters have been executed
"""
class InterruptError(FilterDone):
"""Exception for interrupting or attempting to use an interrupted sync
"""
class IncompleteFilterError(Exception):
"""Exception raised if filter reset is executed prematurely
"""
#class AbortTx(Exception): #class AbortTx(Exception):
# """ # """
# """ # """

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@ -1,131 +1,96 @@
# standard imports # standard imports
import hashlib
import logging import logging
import re
import os # local imports
from .error import BackendError
logg = logging.getLogger(__name__) logg = logging.getLogger(__name__)
re_processedname = r'^_?[A-Z,\.]*$'
class SyncFilter: class SyncFilter:
"""Manages the collection of filters on behalf of a specific backend.
def sum(self): A filter is a pluggable piece of code to execute for every transaction retrieved by the syncer. Filters are executed in the sequence they were added to the instance.
s = self.common_name()
h = hashlib.sha256() :param backend: Syncer backend to apply filter state changes to
h.update(s.encode('utf-8')) :type backend: chainsyncer.backend.base.Backend implementation
return h.digest() """
def __init__(self, backend):
self.filters = []
self.backend = backend
def filter(self, conn, block, tx): def add(self, fltr):
raise NotImplementedError() """Add a filter instance.
:param fltr: Filter instance.
:type fltr: Object instance implementing signature as in chainsyncer.filter.NoopFilter.filter
:raises ValueError: Object instance is incorrect implementation
"""
if getattr(fltr, 'filter') == None:
raise ValueError('filter object must implement have method filter')
logg.debug('added filter "{}"'.format(str(fltr)))
self.filters.append(fltr)
def common_name(self): def __apply_one(self, fltr, idx, conn, block, tx, session):
s = self.__module__ + '.' + self.__class__.__name__ self.backend.begin_filter(idx)
return s.replace('.', '_') fltr.filter(conn, block, tx, session)
self.backend.complete_filter(idx)
# TODO: properly clarify interface shared with syncfsstore, move to filter module? def apply(self, conn, block, tx):
class FilterState: """Apply all registered filters on the given transaction.
def __init__(self, state_store, scan=None): :param conn: RPC Connection, will be passed to the filter method
self.state_store = state_store :type conn: chainlib.connection.RPCConnection
self.digest = b'\x00' * 32 :param block: Block object
self.summed = False :type block: chainlib.block.Block
self.__syncs = {} :param tx: Transaction object
self.synced = False :type tx: chainlib.tx.Tx
self.connected = False :raises BackendError: Backend connection failed
self.state_store.add('DONE') """
self.state_store.add('LOCK') session = None
self.state_store.add('INTERRUPT') try:
self.state_store.add('RESET') session = self.backend.connect()
except TimeoutError as e:
self.backend.disconnect()
raise BackendError('database connection fail: {}'.format(e))
i = 0
(pair, flags) = self.backend.get()
for f in self.filters:
if not self.backend.check_filter(i, flags):
logg.debug('applying filter {} {}'.format(str(f), flags))
self.__apply_one(f, i, conn, block, tx, session)
else:
logg.debug('skipping previously applied filter {} {}'.format(str(f), flags))
i += 1
self.state = self.state_store.state self.backend.disconnect()
self.elements = self.state_store.elements
self.put = self.state_store.put
self.mask = self.state_store.mask
self.name = self.state_store.name
self.set = self.state_store.set
self.next = self.state_store.next
self.move = self.state_store.move
self.unset = self.state_store.unset
self.peek = self.state_store.peek
self.from_name = self.state_store.from_name
self.list = self.state_store.list
self.state_store.sync()
self.all = self.state_store.all
self.started = False
self.scan = scan
def __verify_sum(self, v): class NoopFilter:
if not isinstance(v, bytes) and not isinstance(v, bytearray): """A noop implemenation of a sync filter.
raise ValueError('argument must be instance of bytes')
if len(v) != 32: Logs the filter inputs at debug log level.
raise ValueError('argument must be 32 bytes') """
def filter(self, conn, block, tx, db_session=None):
"""Filter method implementation:
:param conn: RPC Connection, will be passed to the filter method
:type conn: chainlib.connection.RPCConnection
:param block: Block object
:type block: chainlib.block.Block
:param tx: Transaction object
:type tx: chainlib.tx.Tx
:param db_session: Backend session object
:type db_session: varies
"""
logg.debug('noop filter :received\n{} {} {}'.format(block, tx, id(db_session)))
def register(self, fltr): def __str__(self):
if self.summed: return 'noopfilter'
raise RuntimeError('filter already applied')
z = fltr.sum()
self.__verify_sum(z)
self.digest += z
s = fltr.common_name()
self.state_store.add(s)
n = self.state_store.from_name(s)
logg.debug('add filter {} {} {}'.format(s, n, self))
def sum(self):
h = hashlib.sha256()
h.update(self.digest)
self.digest = h.digest()
self.summed = True
return self.digest
def connect(self):
if not self.synced:
for v in self.state_store.all():
k = self.state_store.from_name(v)
self.state_store.sync(k)
self.__syncs[v] = True
if self.scan != None:
ks = self.scan()
for v in ks: #os.listdir(self.scan_path):
logg.debug('ks {}'.format(v))
k = None
try:
k = self.state_store.from_elements(v)
self.state_store.alias(v, k)
except ValueError:
k = self.state_store.from_name(v)
self.state_store.sync(k)
self.__syncs[v] = True
self.synced = True
self.connected = True
def disconnect(self):
self.connected = False
def start(self, offset=0, target=-1):
self.state_store.start(offset=offset, target=target)
self.started = True
def get(self, k):
return None
def next_item(self):
return None
def filters(self):
return []

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@ -1 +0,0 @@

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@ -1,146 +0,0 @@
# SPDX-License-Identifier: GPL-3.0-or-later
# standard imports
import os
import logging
import sys
import importlib
# external imports
import chainlib.cli
from shep.persist import PersistedState
# local imports
import chainsyncer.cli
from chainsyncer.settings import ChainsyncerSettings
from chainsyncer.store import SyncStore
from chainsyncer.filter import (
FilterState,
SyncFilter,
)
logging.basicConfig(level=logging.WARNING)
logg = logging.getLogger()
valid_fwd = [
'fwd',
'forward',
'next',
'continue',
]
valid_rwd = [
'rwd',
'rewind',
'current',
'back',
'repeat',
'replay',
]
action_is_forward = False
arg_flags = chainlib.cli.argflag_std_base | chainlib.cli.Flag.CHAIN_SPEC
argparser = chainlib.cli.ArgumentParser(arg_flags)
argparser.add_argument('--state-dir', type=str, dest='state_dir', help='State directory')
argparser.add_positional('action', type=str, help='Action to take on lock. Repeat means re-run the locked filter. Continue means resume execution for next filter.')
sync_flags = chainsyncer.cli.SyncFlag.RANGE | chainsyncer.cli.SyncFlag.HEAD
chainsyncer.cli.process_flags(argparser, sync_flags)
args = argparser.parse_args()
if args.action in valid_fwd:
action_is_forward = True
elif args.action not in valid_rwd:
sys.stderr.write('action argument must be one of {} or {}\n'.format(valid_rwd, valid_fwd))
sys.exit(1)
base_config_dir = chainsyncer.cli.config_dir,
config = chainlib.cli.Config.from_args(args, arg_flags, base_config_dir=base_config_dir)
config = chainsyncer.cli.process_config(config, args, sync_flags)
config.add(args.state_dir, '_STATE_DIR', False)
logg.debug('config loaded:\n{}'.format(config))
settings = ChainsyncerSettings()
settings.process_sync_backend(config)
logg.debug('settings:\n{}'.format(str(settings)))
class FilterInNameOnly(SyncFilter):
def __init__(self, k):
self.k = k
def common_name(self):
return self.k
def main():
if settings.get('SYNCER_BACKEND') == 'mem':
raise ValueError('cannot unlock volatile state store')
state_dir = config.get('_STATE_DIR')
if config.get('SYNCER_BACKEND') == 'fs':
syncer_store_module = importlib.import_module('chainsyncer.store.fs')
syncer_store_class = getattr(syncer_store_module, 'SyncFsStore')
elif config.get('SYNCER_BACKEND') == 'rocksdb':
syncer_store_module = importlib.import_module('chainsyncer.store.rocksdb')
syncer_store_class = getattr(syncer_store_module, 'SyncRocksDbStore')
else:
syncer_store_module = importlib.import_module(config.get('SYNCER_BACKEND'))
syncer_store_class = getattr(syncer_store_module, 'SyncStore')
logg.info('using engine {} module {}.{}'.format(config.get('SYNCER_BACKEND'), syncer_store_module.__file__, syncer_store_class.__name__))
store = syncer_store_class(state_dir)
filter_list = store.load_filter_list()
for i, k in enumerate(filter_list):
fltr = FilterInNameOnly(k)
store.register(fltr)
filter_list[i] = k.upper()
store.connect()
store.start(ignore_lock=True)
lock_state = store.filter_state.from_name('LOCK')
locked_item = store.filter_state.list(lock_state)
if len(locked_item) == 0:
sys.stderr.write('Sync filter in {} is not locked\n'.format(state_dir))
sys.exit(1)
elif len(locked_item) > 1:
sys.stderr.write('More than one locked item encountered in {}. That should never happen, so I do not know what to do next.\n'.format(state_dir))
sys.exit(1)
locked_item_key = locked_item[0]
locked_item = store.get(int(locked_item_key))
locked_state = store.filter_state.state(locked_item_key) - lock_state
locked_state_name = store.filter_state.name(locked_state)
logg.info('found item "{}" in locked state {}'.format(locked_item, store.filter_state.name(locked_state)))
if action_is_forward:
k = locked_state_name
filter_index = None
filter_index = filter_list.index(k)
filter_pos = filter_index + 1
filter_count = len(filter_list)
logg.debug('Locked filter {} found at position {} of {}'.format(k, filter_pos, filter_count))
if filter_pos == filter_count:
logg.info('Locked filter {} is the last filter in the list. Executing filter reset'.format(k))
locked_item.reset(check_incomplete=False)
else:
locked_item.advance(ignore_lock=True)
store.filter_state.unset(locked_item_key, lock_state)
else:
filter_mask = 0xf
filter_state = store.filter_state.mask(locked_state, filter_mask)
logg.info('Chosen action is "{}": will continue execution at previous filter {}'.format(args.action, store.filter_state.name(filter_state)))
store.filter_state.unset(locked_item_key, lock_state)
if __name__ == '__main__':
main()

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@ -1,42 +0,0 @@
# standard imports
import uuid
import logging
# local imports
from chainsyncer.error import FilterDone
logg = logging.getLogger(__name__)
class SyncSession:
def __init__(self, session_store):
self.session_store = session_store
self.started = self.session_store.started
self.get = self.session_store.get
self.next = self.session_store.next_item
self.item = None
self.filters = self.session_store.filters
def start(self, offset=0, target=-1):
self.session_store.start(offset=offset, target=target)
self.item = self.session_store.next_item()
return self.item
def stop(self, item):
self.session_store.stop(item)
def filter(self, conn, block, tx):
self.session_store.connect()
for fltr in self.filters:
logg.debug('executing filter {}'.format(fltr))
self.item.advance()
interrupt = fltr.filter(conn, block, tx)
if not self.item.release(interrupt=interrupt):
break
self.item.reset()
self.next()
self.session_store.disconnect()

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@ -1,55 +0,0 @@
# standard imports
import logging
# external imports
from hexathon import (
to_int as hex_to_int,
strip_0x,
)
from chainlib.settings import ChainSettings
logg = logging.getLogger(__name__)
class ChainsyncerSettings(ChainSettings):
def process_sync_backend(self, config):
self.o['SYNCER_BACKEND'] = config.get('SYNCER_BACKEND')
def process_sync_range(self, config):
o = self.o['SYNCER_INTERFACE'].block_latest()
r = self.o['RPC'].do(o)
block_offset = int(strip_0x(r), 16) + 1
logg.info('network block height at startup is {}'.format(block_offset))
keep_alive = False
session_block_offset = 0
block_limit = 0
until = 0
if config.true('_HEAD'):
self.o['SYNCER_OFFSET'] = block_offset
self.o['SYNCER_LIMIT'] = -1
return
session_block_offset = int(config.get('SYNCER_OFFSET'))
until = int(config.get('SYNCER_LIMIT'))
if until > 0:
if until <= session_block_offset:
raise ValueError('sync termination block number must be later than offset ({} >= {})'.format(session_block_offset, until))
block_limit = until
elif until == -1:
keep_alive = True
if session_block_offset == -1:
session_block_offset = block_offset
elif config.true('_KEEP_ALIVE'):
block_limit = -1
else:
if block_limit == 0:
block_limit = block_offset
self.o['SYNCER_OFFSET'] = session_block_offset
self.o['SYNCER_LIMIT'] = block_limit

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@ -1 +0,0 @@
from .base import *

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@ -1,322 +0,0 @@
# standard imports
import os
import logging
# local imports
from shep.persist import PersistedState
from shep import State
from shep.error import StateInvalid
from chainsyncer.filter import FilterState
from chainsyncer.error import (
LockError,
FilterDone,
InterruptError,
IncompleteFilterError,
SyncDone,
)
logg = logging.getLogger(__name__)
def sync_state_serialize(block_height, tx_index, block_target):
b = block_height.to_bytes(4, 'big')
b += tx_index.to_bytes(4, 'big')
b += block_target.to_bytes(4, 'big', signed=True)
return b
def sync_state_deserialize(b):
block_height = int.from_bytes(b[:4], 'big')
tx_index = int.from_bytes(b[4:8], 'big')
block_target = int.from_bytes(b[8:], 'big', signed=True)
return (block_height, tx_index, block_target,)
# NOT thread safe
class SyncItem:
def __init__(self, offset, target, sync_state, filter_state, started=False, ignore_lock=False):
self.offset = offset
self.target = target
self.sync_state = sync_state
self.filter_state = filter_state
self.state_key = str(offset)
logg.debug('get key {}'.format(self.state_key))
v = self.sync_state.get(self.state_key)
(self.cursor, self.tx_cursor, self.target) = sync_state_deserialize(v)
filter_state = self.filter_state.state(self.state_key)
if filter_state & self.filter_state.from_name('LOCK') > 0 and not ignore_lock:
raise LockError(self.state_key)
self.count = len(self.filter_state.all(pure=True)) - 4
self.skip_filter = False
if self.count == 0:
self.skip_filter = True
elif not started:
self.filter_state.move(self.state_key, self.filter_state.from_name('RESET'))
def __check_done(self):
if self.filter_state.state(self.state_key) & self.filter_state.from_name('INTERRUPT') > 0:
raise InterruptError(self.state_key)
if self.filter_state.state(self.state_key) & self.filter_state.from_name('DONE') > 0:
raise FilterDone(self.state_key)
def resume(self):
filter_state = self.filter_state.state(self.state_key)
if filter_state > 0x0f:
filter_state_part = self.filter_state.mask(filter_state, 0x0f)
if len(self.filter_state.elements(filter_state)) == 1:
logg.info('resume execution on state {} ({})'.format(self.filter_state.name(filter_state_part), filter_state_part))
lock_state = self.filter_state.from_name('LOCK')
self.filter_state.set(lock_state)
def reset(self, check_incomplete=True):
if check_incomplete:
if self.filter_state.state(self.state_key) & self.filter_state.from_name('LOCK') > 0:
raise LockError('reset attempt on {} when state locked'.format(self.state_key))
if self.filter_state.state(self.state_key) & self.filter_state.from_name('DONE') == 0:
raise IncompleteFilterError('reset attempt on {} when incomplete'.format(self.state_key))
self.filter_state.move(self.state_key, self.filter_state.from_name('RESET'))
def next(self, advance_block=False):
v = self.sync_state.state(self.state_key)
if v == self.sync_state.DONE:
raise SyncDone(self.target)
elif v == self.sync_state.NEW:
self.sync_state.next(self.state_key)
v = self.sync_state.get(self.state_key)
(block_number, tx_index, target) = sync_state_deserialize(v)
if advance_block:
block_number += 1
tx_index = 0
if self.target >= 0 and block_number > self.target:
self.sync_state.move(self.state_key, self.sync_state.DONE)
raise SyncDone(self.target)
else:
tx_index += 1
self.cursor = block_number
self.tx_cursor = tx_index
b = sync_state_serialize(block_number, tx_index, target)
self.sync_state.replace(self.state_key, b)
def __find_advance(self):
v = self.filter_state.state(self.state_key)
def advance(self, ignore_lock=False):
if self.skip_filter:
raise FilterDone()
self.__check_done()
if self.filter_state.state(self.state_key) & self.filter_state.from_name('LOCK') > 0:
if ignore_lock:
self.filter_state.unset(self.state_key, self.filter_state.from_name('LOCK'))
else:
raise LockError('advance attempt on {} when state locked'.format(self.state_key))
done = False
try:
self.filter_state.next(self.state_key)
except StateInvalid:
done = True
if done:
raise FilterDone()
self.filter_state.set(self.state_key, self.filter_state.from_name('LOCK'))
def release(self, interrupt=False):
if self.skip_filter:
return False
if interrupt == True:
self.filter_state.unset(self.state_key, self.filter_state.from_name('LOCK'))
self.filter_state.set(self.state_key, self.filter_state.from_name('INTERRUPT'))
self.filter_state.set(self.state_key, self.filter_state.from_name('DONE'))
return False
state = self.filter_state.state(self.state_key)
if state & self.filter_state.from_name('LOCK') == 0:
raise LockError('release attempt on {} when state unlocked'.format(self.state_key))
self.filter_state.unset(self.state_key, self.filter_state.from_name('LOCK'))
try:
c = self.filter_state.peek(self.state_key)
logg.debug('peeked {}'.format(c))
except StateInvalid:
self.filter_state.set(self.state_key, self.filter_state.from_name('DONE'))
return False
return True
def __str__(self):
return 'syncitem offset {} target {} cursor {}'.format(self.offset, self.target, self.cursor)
class SyncStore:
def __init__(self, path, session_id=None):
self.session_id = session_id
self.session_path = None
self.is_default = False
self.first = False
self.target = None
self.items = {}
self.item_keys = []
self.started = False
self.thresholds = []
self.session_path = path
def setup_sync_state(self, factory=None, event_callback=None):
if factory == None:
self.state = State(2, event_callback=event_callback)
else:
self.state = PersistedState(factory.add, 2, event_callback=event_callback)
self.state.add('SYNC')
self.state.add('DONE')
def setup_filter_state(self, factory=None, event_callback=None):
if factory == None:
filter_state_backend = State(0, check_alias=False, event_callback=event_callback)
self.filter_state = FilterState(filter_state_backend)
else:
filter_state_backend = PersistedState(factory.add, 0, check_alias=False, event_callback=event_callback)
self.filter_state = FilterState(filter_state_backend, scan=factory.ls)
self.filters = []
def set_target(self, v):
pass
def get_target(self):
return None
def register(self, fltr):
self.filters.append(fltr)
self.filter_state.register(fltr)
def start(self, offset=0, target=-1, ignore_lock=False):
if self.started:
return
self.save_filter_list()
self.load(target, ignore_lock=ignore_lock)
if self.first:
state_bytes = sync_state_serialize(offset, 0, target)
block_number_str = str(offset)
self.state.put(block_number_str, contents=state_bytes)
self.filter_state.put(block_number_str)
o = SyncItem(offset, target, self.state, self.filter_state, ignore_lock=ignore_lock)
o.resume()
self.items[offset] = o
self.item_keys.append(offset)
elif offset > 0:
logg.warning('block number argument {} for start ignored for already initiated sync {}'.format(offset, self.session_id))
self.started = True
self.item_keys.sort()
def stop(self, item):
if item.target == -1:
state_bytes = sync_state_serialize(item.cursor, 0, item.cursor)
self.state.replace(str(item.offset), state_bytes)
self.filter_state.put(str(item.cursor))
SyncItem(item.offset, -1, self.state, self.filter_state)
logg.info('New sync state start at block number {} for next head sync backfill'.format(item.cursor))
self.state.move(item.state_key, self.state.DONE)
state_bytes = sync_state_serialize(item.cursor, 0, -1)
self.state.put(str(item.cursor), contents=state_bytes)
def load(self, target, ignore_lock=False):
self.state.sync(self.state.NEW)
self.state.sync(self.state.SYNC)
thresholds_sync = []
for v in self.state.list(self.state.SYNC):
block_number = int(v)
thresholds_sync.append(block_number)
logg.debug('queue resume {}'.format(block_number))
thresholds_new = []
for v in self.state.list(self.state.NEW):
block_number = int(v)
thresholds_new.append(block_number)
logg.debug('queue new range {}'.format(block_number))
thresholds_sync.sort()
thresholds_new.sort()
thresholds = thresholds_sync + thresholds_new
lim = len(thresholds) - 1
for i in range(len(thresholds)):
item_target = target
if i < lim:
item_target = thresholds[i+1]
o = SyncItem(block_number, item_target, self.state, self.filter_state, started=True, ignore_lock=ignore_lock)
o.resume()
self.items[block_number] = o
self.item_keys.append(block_number)
logg.info('added existing {}'.format(o))
self.get_target()
if len(thresholds) == 0:
if self.target != None:
logg.warning('sync "{}" is already done, nothing to do'.format(self.session_id))
else:
logg.info('syncer first run target {}'.format(target))
self.first = True
self.set_target(target)
def get(self, k):
return self.items[k]
def next_item(self):
try:
k = self.item_keys.pop(0)
except IndexError:
return None
return self.items[k]
def connect(self):
self.filter_state.connect()
def disconnect(self):
self.filter_state.disconnect()
def save_filter_list(self):
raise NotImplementedError()
def load_filter_list(self):
raise NotImplementedError()
def peek_next_filter(self):
pass
def peek_current_filter(self):
pass

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@ -1,98 +0,0 @@
# standard imports
import uuid
import os
import logging
# external imports
from shep.store.file import SimpleFileStoreFactory
# local imports
from chainsyncer.store import SyncStore
logg = logging.getLogger(__name__)
class SyncFsStore(SyncStore):
def __init__(self, base_path, session_id=None, state_event_callback=None, filter_state_event_callback=None):
super(SyncFsStore, self).__init__(base_path, session_id=session_id)
create_path = False
try:
os.stat(self.session_path)
except FileNotFoundError:
create_path = True
if create_path:
self.__create_path(base_path, self.default_path, session_id=session_id)
self.session_id = os.path.basename(self.session_path)
logg.info('session id {} resolved {} path {}'.format(session_id, self.session_id, self.session_path))
base_sync_path = os.path.join(self.session_path, 'sync')
factory = SimpleFileStoreFactory(base_sync_path, binary=True)
self.setup_sync_state(factory, state_event_callback)
self.setup_filter_state(callback=filter_state_event_callback)
def setup_filter_state(self, callback=None):
base_filter_path = os.path.join(self.session_path, 'filter')
factory = SimpleFileStoreFactory(base_filter_path, binary=True)
super(SyncFsStore, self).setup_filter_state(factory, callback)
def __create_path(self, base_path, default_path, session_id=None):
logg.debug('fs store path {} does not exist, creating'.format(self.session_path))
if session_id == None:
session_id = str(uuid.uuid4())
self.session_path = os.path.join(base_path, session_id)
os.makedirs(self.session_path)
if self.is_default:
try:
os.symlink(self.session_path, default_path)
except FileExistsError:
pass
def get_target(self):
fp = os.path.join(self.session_path, 'target')
try:
f = open(fp, 'r')
v = f.read()
f.close()
self.target = int(v)
except FileNotFoundError as e:
logg.debug('cant find target {} {}'.format(fp, e))
pass
def set_target(self, v):
fp = os.path.join(self.session_path, 'target')
f = open(fp, 'w')
f.write(str(v))
f.close()
self.target = v
def load_filter_list(self):
fltr = []
fp = os.path.join(self.session_path, 'filter_list')
f = open(fp, 'r')
while True:
v = f.readline()
if len(v) == 0:
break
v = v.rstrip()
fltr.append(v)
f.close()
return fltr
def save_filter_list(self):
fp = os.path.join(self.session_path, 'filter_list')
f = open(fp, 'w')
for fltr in self.filters:
f.write(fltr.common_name() + '\n')
f.close()

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@ -1,45 +0,0 @@
# standard imports
import logging
import os
# external imports
from shep import State
# local imports
from chainsyncer.store import SyncStore
logg = logging.getLogger(__name__)
class SyncMemStore(SyncStore):
def __init__(self, session_id=None, state_event_callback=None, filter_state_event_callback=None):
super(SyncMemStore, self).__init__(None, session_id=session_id)
factory = None
self.setup_sync_state(factory, state_event_callback)
factory = None
self.setup_filter_state(factory, filter_state_event_callback)
def set_target(self, v):
self.target = int(v)
def get_target(self):
return self.target
def stop(self, item):
if item != None:
super(SyncMemStore, self).stop(item)
logg.info('I am an in-memory only state store. I am shutting down now, so all state will now be discarded.')
def save_filter_list(self):
pass
def load_filter_list(self):
return []

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@ -1,79 +0,0 @@
# standard imports
import uuid
import os
import logging
# external imports
from shep.store.rocksdb import RocksDbStoreFactory
# local imports
from chainsyncer.store import (
SyncItem,
SyncStore,
)
logg = logging.getLogger(__name__)
class RocksDbStoreAdder:
def __init__(self, factory, prefix):
self.factory = factory
self.prefix = prefix
def add(self, k):
path = os.path.join(self.prefix, k)
return self.factory.add(path)
def ls(self):
return self.factory.ls()
class SyncRocksDbStore(SyncStore):
def __init__(self, base_path, session_id=None, state_event_callback=None, filter_state_event_callback=None):
super(SyncRocksDbStore, self).__init__(base_path, session_id=session_id)
self.factory = RocksDbStoreFactory(self.session_path, binary=True)
prefix_factory = RocksDbStoreAdder(self.factory, 'sync')
self.setup_sync_state(prefix_factory, state_event_callback)
prefix_factory = RocksDbStoreAdder(self.factory, 'filter')
self.setup_filter_state(prefix_factory, filter_state_event_callback)
#self.session_id = os.path.basename(self.session_path)
#logg.info('session id {} resolved {} path {}'.format(session_id, self.session_id, self.session_path))
self.target_db = RocksDbStoreAdder(self.factory, '.stat').add('target')
def get_target(self):
v = self.target_db.get('target')
if v != None:
self.target = int(v)
def set_target(self, v):
self.target_db.put('target', str(v))
self.target = v
def stop(self, item):
if item != None:
super(SyncRocksDbStore, self).stop(item)
self.factory.close()
def save_filter_list(self):
fltr = []
for v in self.filters:
fltr.append(v.common_name())
self.target_db.put('filter_list', ','.join(fltr))
def load_filter_list(self):
v = self.target_db.get('filter_list')
v = v.decode('utf-8')
return v.split(',')

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@ -1 +0,0 @@
from .base import *

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@ -1,73 +1,17 @@
# standard imports # standard imports
import os import os
import logging import logging
import hashlib
# external imports # external imports
from hexathon import add_0x from hexathon import add_0x
from shep.state import State
# local imports # local imports
#from chainsyncer.driver.history import HistorySyncer from chainsyncer.driver.history import HistorySyncer
from chainsyncer.error import NoBlockForYou from chainsyncer.error import NoBlockForYou
from chainsyncer.driver import SyncDriver
logging.STATETRACE = 5
logg = logging.getLogger().getChild(__name__) logg = logging.getLogger().getChild(__name__)
def state_event_handler(k, v_old, v_new):
if v_old == None:
logg.log(logging.STATETRACE, 'sync state create key {}: -> {}'.format(k, v_new))
else:
logg.log(logging.STATETRACE, 'sync state change key {}: {} -> {}'.format(k, v_old, v_new))
def filter_state_event_handler(k, v_old, v_new):
if v_old == None:
logg.log(logging.STATETRACE, 'filter state create key {}: -> {}'.format(k, v_new))
else:
logg.log(logging.STATETRACE, 'filter state change key {}: {} -> {}'.format(k, v_old, v_new))
class MockFilterError(Exception):
pass
class MockBlockGenerator:
def __init__(self, offset=0):
self.blocks = {}
self.offset = offset
self.cursor = offset
def generate(self, spec=[], driver=None):
for v in spec:
txs = []
for i in range(v):
tx_hash = os.urandom(32).hex()
tx = MockTx(0, tx_hash)
txs.append(tx)
block = MockBlock(self.cursor, txs)
self.blocks[self.cursor] = block
self.cursor += 1
if driver != None:
self.apply(driver)
def apply(self, driver, offset=0):
block_numbers = list(self.blocks.keys())
for block_number in block_numbers:
if block_number < offset:
continue
block = self.blocks[block_number]
driver.add_block(block)
class MockConn: class MockConn:
"""Noop connection mocker. """Noop connection mocker.
@ -112,7 +56,6 @@ class MockBlock:
""" """
self.number = number self.number = number
self.txs = txs self.txs = txs
self.hash = os.urandom(32).hex()
def tx(self, i): def tx(self, i):
@ -121,158 +64,45 @@ class MockBlock:
:param i: Transaction index :param i: Transaction index
:type i: int :type i: int
""" """
return MockTx(i, self.txs[i].hash) return MockTx(i, self.txs[i])
class MockStore(State): class TestSyncer(HistorySyncer):
"""Unittest extension of history syncer driver.
def __init__(self, bits=0): :param backend: Syncer backend
super(MockStore, self).__init__(bits, check_alias=False) :type backend: chainsyncer.backend.base.Backend implementation
:param chain_interface: Chain interface
:type chain_interface: chainlib.interface.ChainInterface implementation
:param tx_counts: List of integer values defining how many mock transactions to generate per block. Mock blocks will be generated for each element in list.
:type tx_counts: list
"""
def __init__(self, backend, chain_interface, tx_counts=[]):
self.tx_counts = tx_counts
super(TestSyncer, self).__init__(backend, chain_interface)
def start(self, offset=0, target=-1): def get(self, conn):
pass """Implements the block getter of chainsyncer.driver.base.Syncer.
:param conn: RPC connection
:type conn: chainlib.connection.RPCConnection
:raises NoBlockForYou: End of mocked block array reached
:rtype: chainsyncer.unittest.base.MockBlock
:returns: Mock block.
"""
(pair, fltr) = self.backend.get()
(target_block, fltr) = self.backend.target()
block_height = pair[0]
class MockFilter: if block_height == target_block:
self.running = False
def __init__(self, name, brk=None, brk_hard=None, z=None):
self.name = name
if z == None:
h = hashlib.sha256()
h.update(self.name.encode('utf-8'))
z = h.digest()
self.z = z
self.brk = brk
self.brk_hard = brk_hard
self.contents = []
def sum(self):
return self.z
def common_name(self):
return self.name
def filter(self, conn, block, tx):
r = False
if self.brk_hard != None:
r = True
if self.brk_hard > 0:
r = True
self.brk_hard -= 1
if r:
raise MockFilterError()
if self.brk != None:
if self.brk > 0:
r = True
self.brk -= 1
self.contents.append((block.number, tx.index, tx.hash,))
logg.debug('filter {} result {} block {} tx {} {}'.format(self.common_name(), r, block.number, tx.index, tx.hash))
return r
class MockDriver(SyncDriver):
def __init__(self, store, offset=0, target=-1, interrupt_block=None, interrupt_tx=None, interrupt_global=False):
super(MockDriver, self).__init__(store, offset=offset, target=target)
self.blocks = {}
self.interrupt = None
if interrupt_block != None:
interrupt_block = int(interrupt_block)
if interrupt_tx == None:
interrupt_tx = 0
else:
interrupt_tx = int(interrupt_tx)
self.interrupt = (interrupt_block, interrupt_tx,)
self.interrupt_global = interrupt_global
def add_block(self, block):
logg.debug('add block {} {} with {} txs'.format(block.number, block.hash, len(block.txs)))
self.blocks[block.number] = block
def get(self, conn, item):
try:
return self.blocks[item.cursor]
except KeyError:
raise NoBlockForYou() raise NoBlockForYou()
block_txs = []
if block_height < len(self.tx_counts):
for i in range(self.tx_counts[block_height]):
block_txs.append(add_0x(os.urandom(32).hex()))
def process(self, conn, item, block): return MockBlock(block_height, block_txs)
i = item.tx_cursor
while self.running:
if self.interrupt != None:
if self.interrupt[0] == block.number and self.interrupt[1] == i:
logg.info('interrupt triggered at {}'.format(self.interrupt))
if self.interrupt_global:
SyncDriver.running_global = False
self.running = False
break
tx = block.tx(i)
self.process_single(conn, block, tx)
item.next()
i += 1
class MockChainInterface:
def block_by_number(self, number):
return ('block_by_number', number,)
def tx_by_hash(self, hsh):
return ('tx_by_hash', hsh,)
def block_from_src(self, src):
return src
def src_normalize(self, src):
return src
def tx_receipt(self, hsh):
return ('receipt', hsh,)
class MockChainInterfaceConn(MockConn):
def __init__(self, interface):
self.ifc = interface
self.blocks = {}
self.txs = {}
def add_block(self, block):
logg.debug('add block {} {} with {} txs'.format(block.number, block.hash, len(block.txs)))
self.blocks[block.number] = block
for tx in block.txs:
self.txs[tx.hash] = tx
def do(self, o):
m = getattr(self, 'handle_' + o[0])
return m(o[1])
def handle_block_by_number(self, number):
return self.blocks[number]
def handle_receipt(self, hsh):
return {}
class MockItem:
def __init__(self, target, offset, cursor, state_key):
self.target = target
self.offset = offset
self.cursor = cursor
self.state_key = state_key

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@ -0,0 +1,64 @@
# standard imports
import logging
import os
# external imports
import alembic
import alembic.config
# local imports
from chainsyncer.db.models.base import SessionBase
from chainsyncer.db import dsn_from_config
from chainsyncer.db.models.base import SessionBase
logg = logging.getLogger(__name__)
class ChainSyncerDb:
"""SQLITE database setup for unit tests
:param debug: Activate sql level debug (outputs sql statements)
:type debug: bool
"""
base = SessionBase
def __init__(self, debug=False):
config = {
'DATABASE_ENGINE': 'sqlite',
'DATABASE_DRIVER': 'pysqlite',
'DATABASE_NAME': 'chainsyncer.sqlite',
}
logg.debug('config {}'.format(config))
self.dsn = dsn_from_config(config)
self.base.poolable = False
self.base.transactional = False
self.base.procedural = False
self.base.connect(self.dsn, debug=debug) # TODO: evaluates to "true" even if string is 0
rootdir = os.path.join(os.path.dirname(os.path.dirname(__file__)), '..')
dbdir = os.path.join(rootdir, 'chainsyncer', 'db')
#migrationsdir = os.path.join(dbdir, 'migrations', config.get('DATABASE_ENGINE'))
migrationsdir = os.path.join(dbdir, 'migrations', 'default')
logg.info('using migrations directory {}'.format(migrationsdir))
ac = alembic.config.Config(os.path.join(migrationsdir, 'alembic.ini'))
ac.set_main_option('sqlalchemy.url', self.dsn)
ac.set_main_option('script_location', migrationsdir)
alembic.command.downgrade(ac, 'base')
alembic.command.upgrade(ac, 'head')
def bind_session(self, session=None):
"""Create session using underlying session base
"""
return self.base.bind_session(session)
def release_session(self, session=None):
"""Release session using underlying session base
"""
return self.base.release_session(session)

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@ -1,301 +0,0 @@
# standard imports
import os
import stat
import unittest
import shutil
import tempfile
import logging
import uuid
# local imports
from chainsyncer.session import SyncSession
from chainsyncer.error import (
LockError,
FilterDone,
IncompleteFilterError,
SyncDone,
)
from chainsyncer.unittest import (
MockFilter,
MockItem,
)
logging.STATETRACE = 5
logg = logging.getLogger(__name__)
logg.setLevel(logging.STATETRACE)
def state_change_callback(k, old_state, new_state):
logg.log(logging.STATETRACE, 'state change: {} {} -> {}'.format(k, old_state, new_state))
def filter_change_callback(k, old_state, new_state):
logg.log(logging.STATETRACE, 'filter change: {} {} -> {}'.format(k, old_state, new_state))
class TestStoreBase(unittest.TestCase):
def setUp(self):
self.base_path = tempfile.mkdtemp()
self.session_id = str(uuid.uuid4())
self.path = os.path.join(self.base_path, self.session_id)
os.makedirs(self.path)
self.store_factory = None
self.persist = True
@classmethod
def link(cls, target):
for v in [
"default",
"store_start",
"store_resume",
"filter_list",
"sync_process_nofilter",
"sync_process_onefilter",
"sync_process_outoforder",
"sync_process_interrupt",
"sync_process_reset",
"sync_process_done",
"sync_head_future",
"sync_history_interrupted",
"sync_history_complete",
]:
setattr(target, 'test_' + v, getattr(cls, 't_' + v))
def tearDown(self):
shutil.rmtree(self.path)
def t_default(self):
bogus_item = MockItem(0, 0, 0, 0)
store = self.store_factory()
if store.session_path == None:
return
#fp = os.path.join(self.path, store.session_id)
fp = self.path
session_id = store.session_id
st = None
st = os.stat(fp)
if st != None:
self.assertTrue(stat.S_ISDIR(st.st_mode))
#self.assertTrue(store.is_default)
store.stop(bogus_item)
store = self.store_factory()
fpr = os.path.join(self.path, self.session_id)
self.assertEqual(fp, self.path)
def t_store_start(self):
bogus_item = MockItem(0, 0, 0, 0)
store = self.store_factory()
store.start(42)
self.assertTrue(store.first)
store.stop(bogus_item)
if self.persist:
store = self.store_factory()
store.start()
self.assertFalse(store.first)
def t_store_resume(self):
store = self.store_factory()
store.start(13)
self.assertTrue(store.first)
# todo not done
def t_sync_process_nofilter(self):
store = self.store_factory()
session = SyncSession(store)
session.start()
o = session.get(0)
with self.assertRaises(FilterDone):
o.advance()
def t_sync_process_onefilter(self):
store = self.store_factory()
session = SyncSession(store)
fltr_one = MockFilter('foo')
store.register(fltr_one)
session.start()
o = session.get(0)
o.advance()
o.release()
def t_sync_process_outoforder(self):
store = self.store_factory()
session = SyncSession(store)
fltr_one = MockFilter('foo')
store.register(fltr_one)
fltr_two = MockFilter('two')
store.register(fltr_two)
session.start()
o = session.get(0)
o.advance()
with self.assertRaises(LockError):
o.advance()
o.release()
with self.assertRaises(LockError):
o.release()
o.advance()
o.release()
def t_sync_process_interrupt(self):
store = self.store_factory()
session = SyncSession(store)
fltr_one = MockFilter('foo')
store.register(fltr_one)
fltr_two = MockFilter('bar')
store.register(fltr_two)
session.start()
o = session.get(0)
o.advance()
o.release(interrupt=True)
with self.assertRaises(FilterDone):
o.advance()
def t_sync_process_reset(self):
store = self.store_factory()
session = SyncSession(store)
fltr_one = MockFilter('foo')
store.register(fltr_one)
fltr_two = MockFilter('bar')
store.register(fltr_two)
session.start()
o = session.get(0)
o.advance()
with self.assertRaises(LockError):
o.reset()
o.release()
with self.assertRaises(IncompleteFilterError):
o.reset()
o.advance()
o.release()
with self.assertRaises(FilterDone):
o.advance()
o.reset()
def t_sync_process_done(self):
store = self.store_factory()
session = SyncSession(store)
fltr_one = MockFilter('foo')
store.register(fltr_one)
session.start(target=0)
o = session.get(0)
o.advance()
o.release()
with self.assertRaises(FilterDone):
o.advance()
o.reset()
with self.assertRaises(SyncDone):
o.next(advance_block=True)
def t_sync_head_future(self):
store = self.store_factory('foo')
session = SyncSession(store)
session.start()
o = session.get(0)
o.next(advance_block=True)
o.next(advance_block=True)
session.stop(o)
if self.persist:
store = self.store_factory('foo')
store.start()
o = store.get(2)
def t_sync_history_interrupted(self):
if not self.persist:
return
bogus_item = MockItem(0, 0, 0, 0)
store = self.store_factory('foo')
session = SyncSession(store)
session.start(target=13)
o = session.get(0)
o.next(advance_block=True)
o.next(advance_block=True)
session.stop(o)
store.stop(bogus_item)
store = self.store_factory('foo')
store.start()
o = store.get(0)
self.assertEqual(o.cursor, 2)
self.assertEqual(o.target, 13)
o.next(advance_block=True)
o.next(advance_block=True)
store.stop(bogus_item)
store = self.store_factory('foo')
store.start()
self.assertEqual(o.cursor, 4)
self.assertEqual(o.target, 13)
def t_sync_history_complete(self):
store = self.store_factory('foo')
session = SyncSession(store)
session.start(target=3)
o = session.get(0)
o.next(advance_block=True)
o.next(advance_block=True)
o.next(advance_block=True)
with self.assertRaises(SyncDone):
o.next(advance_block=True)
def t_filter_list(self):
bogus_item = MockItem(0, 0, 0, 0)
store = self.store_factory()
if store.session_path == None:
return
fltr_one = MockFilter('foo_bar')
store.register(fltr_one)
fltr_two = MockFilter('bar_baz')
store.register(fltr_two)
store.start()
store.stop(bogus_item)
store = self.store_factory()
r = store.load_filter_list()
self.assertEqual(r[0], 'foo_bar')
self.assertEqual(r[1], 'bar_baz')

View File

@ -1,5 +1,4 @@
confini~=0.6.0 confini~=0.5.1
semver==2.13.0 semver==2.13.0
hexathon~=0.1.5 hexathon~=0.1.0
chainlib~=0.1.1 chainlib~=0.0.10
shep~=0.2.3

View File

@ -8,12 +8,5 @@ for f in `ls tests/*.py`; do
exit exit
fi fi
done done
for f in `ls tests/store/*.py`; do
python $f
if [ $? -gt 0 ]; then
exit
fi
done
set +x set +x
set +e set +e

View File

@ -1,10 +1,10 @@
[metadata] [metadata]
name = chainsyncer name = chainsyncer
version = 0.4.1 version = 0.1.1
description = Generic blockchain syncer driver description = Generic blockchain syncer driver
author = Louis Holbrook author = Louis Holbrook
author_email = dev@holbrook.no author_email = dev@holbrook.no
url = https://gitlab.com/chaintool/chainsyncer url = https://gitlab.com/chaintools/chainsyncer
keywords = keywords =
cryptocurrency cryptocurrency
classifiers = classifiers =
@ -25,17 +25,16 @@ include_package_data = True
python_requires = >= 3.6 python_requires = >= 3.6
packages = packages =
chainsyncer chainsyncer
chainsyncer.db
chainsyncer.db.models
chainsyncer.backend
chainsyncer.driver chainsyncer.driver
chainsyncer.unittest chainsyncer.unittest
chainsyncer.store
chainsyncer.cli
chainsyncer.runnable
#[options.package_data] [options.package_data]
#* = * =
# sql/* sql/*
[options.entry_points] #[options.entry_points]
console_scripts = #console_scripts =
#blocksync-celery = chainsyncer.runnable.tracker:main # blocksync-celery = chainsyncer.runnable.tracker:main
chainsyncer-unlock = chainsyncer.runnable.unlock:main

View File

@ -26,7 +26,5 @@ setup(
install_requires=requirements, install_requires=requirements,
extras_require={ extras_require={
'sql': sql_requirements, 'sql': sql_requirements,
'rocksdb': ['shep[rocksdb]~=0.2.2'],
'redis': ['shep[redis]~=0.2.2'],
} }
) )

69
tests/chainsyncer_base.py Normal file
View File

@ -0,0 +1,69 @@
# standard imports
import logging
import unittest
import tempfile
import os
#import pysqlite
# external imports
from chainlib.chain import ChainSpec
from chainlib.interface import ChainInterface
from chainlib.eth.tx import (
receipt,
Tx,
)
from chainlib.eth.block import (
block_by_number,
Block,
)
from potaahto.symbols import snake_and_camel
# local imports
from chainsyncer.db import dsn_from_config
from chainsyncer.db.models.base import SessionBase
# test imports
from chainsyncer.unittest.db import ChainSyncerDb
script_dir = os.path.realpath(os.path.dirname(__file__))
logging.basicConfig(level=logging.DEBUG)
class EthChainInterface(ChainInterface):
def __init__(self):
self._tx_receipt = receipt
self._block_by_number = block_by_number
self._block_from_src = Block.from_src
self._tx_from_src = Tx.from_src
self._src_normalize = snake_and_camel
class TestBase(unittest.TestCase):
interface = EthChainInterface()
def setUp(self):
self.db = ChainSyncerDb()
#f = open(os.path.join(script_dir, '..', 'sql', 'sqlite', '1.sql'), 'r')
#sql = f.read()
#f.close()
#conn = SessionBase.engine.connect()
#conn.execute(sql)
#f = open(os.path.join(script_dir, '..', 'sql', 'sqlite', '2.sql'), 'r')
#sql = f.read()
#f.close()
#conn = SessionBase.engine.connect()
#conn.execute(sql)
self.session = self.db.bind_session()
self.chain_spec = ChainSpec('evm', 'foo', 42, 'bar')
def tearDown(self):
self.session.commit()
self.db.release_session(self.session)
#os.unlink(self.db_path)

View File

@ -1,33 +0,0 @@
# standard imports
import unittest
import logging
# external imports
from shep import State
# local imports
from chainsyncer.store.mem import SyncMemStore
from chainsyncer.unittest.store import TestStoreBase
logging.basicConfig(level=logging.DEBUG)
logg = logging.getLogger()
class StoreFactory:
def create(self, session_id=None):
return SyncMemStore(session_id=session_id)
class TestMem(TestStoreBase):
def setUp(self):
super(TestMem, self).setUp()
self.store_factory = StoreFactory().create
self.persist = False
if __name__ == '__main__':
TestStoreBase.link(TestMem)
# Remove tests that test persistence of state
unittest.main()

View File

@ -1,32 +0,0 @@
# standard imports
import unittest
import logging
# local imports
from chainsyncer.store.fs import SyncFsStore
from chainsyncer.unittest.store import TestStoreBase
logging.basicConfig(level=logging.DEBUG)
logg = logging.getLogger()
class StoreFactory:
def __init__(self, path):
self.path = path
def create(self, session_id=None):
return SyncFsStore(self.path, session_id=session_id)
class TestFs(TestStoreBase):
def setUp(self):
super(TestFs, self).setUp()
self.store_factory = StoreFactory(self.path).create
if __name__ == '__main__':
TestStoreBase.link(TestFs)
unittest.main()

View File

@ -1,35 +0,0 @@
# standard imports
import unittest
import logging
# local imports
from chainsyncer.store.rocksdb import SyncRocksDbStore
from chainsyncer.unittest.store import (
TestStoreBase,
filter_change_callback,
state_change_callback,
)
logging.basicConfig(level=logging.DEBUG)
logg = logging.getLogger()
class StoreFactory:
def __init__(self, path):
self.path = path
def create(self, session_id=None):
return SyncRocksDbStore(self.path, session_id=session_id, state_event_callback=state_change_callback, filter_state_event_callback=filter_change_callback)
class TestRocksDb(TestStoreBase):
def setUp(self):
super(TestRocksDb, self).setUp()
self.store_factory = StoreFactory(self.path).create
if __name__ == '__main__':
TestStoreBase.link(TestRocksDb)
unittest.main()

View File

@ -1,74 +1,21 @@
# standard imports # standard imports
import unittest import unittest
import tempfile
import shutil # external imports
import logging from chainlib.chain import ChainSpec
# local imports # local imports
from chainsyncer.session import SyncSession from chainsyncer.backend.memory import MemBackend
from chainsyncer.filter import FilterState
from chainsyncer.store.fs import SyncFsStore
from chainsyncer.unittest import (
MockStore,
MockFilter,
)
logging.basicConfig(level=logging.DEBUG) # testutil imports
logg = logging.getLogger() from tests.chainsyncer_base import TestBase
class TestSync(unittest.TestCase): class TestBasic(TestBase):
def setUp(self): def test_hello(self):
self.path = tempfile.mkdtemp() chain_spec = ChainSpec('evm', 'bloxberg', 8996, 'foo')
self.store = SyncFsStore(self.path) backend = MemBackend(chain_spec, 'foo')
def tearDown(self):
shutil.rmtree(self.path)
def test_basic(self):
store = MockStore(6)
state = FilterState(store)
session = SyncSession(state)
def test_sum(self):
store = MockStore(6)
state = FilterState(store)
b = b'\x2a' * 32
fltr = MockFilter('foo', z=b)
state.register(fltr)
b = b'\x0d' * 31
fltr = MockFilter('bar', z=b)
with self.assertRaises(ValueError):
state.register(fltr)
b = b'\x0d' * 32
fltr = MockFilter('bar', z=b)
state.register(fltr)
v = state.sum()
self.assertEqual(v.hex(), 'a24abf9fec112b4e0210ae874b4a371f8657b1ee0d923ad6d974aef90bad8550')
def test_session_start(self):
store = MockStore(6)
state = FilterState(store)
session = SyncSession(state)
session.start()
def test_state_dynamic(self):
store = MockStore()
state = FilterState(store)
b = b'\x0d' * 32
fltr = MockFilter(name='foo', z=b)
state.register(fltr)
if __name__ == '__main__': if __name__ == '__main__':

199
tests/test_database.py Normal file
View File

@ -0,0 +1,199 @@
# standard imports
import unittest
import logging
# external imports
from chainlib.chain import ChainSpec
# local imports
from chainsyncer.db.models.base import SessionBase
from chainsyncer.db.models.filter import BlockchainSyncFilter
from chainsyncer.backend.sql import SQLBackend
from chainsyncer.error import LockError
# testutil imports
from tests.chainsyncer_base import TestBase
logg = logging.getLogger()
class TestDatabase(TestBase):
def test_backend_live(self):
s = SQLBackend.live(self.chain_spec, 42)
self.assertEqual(s.object_id, 1)
backend = SQLBackend.first(self.chain_spec)
#SQLBackend(self.chain_spec, sync_id)
self.assertEqual(backend.object_id, 1)
bogus_chain_spec = ChainSpec('bogus', 'foo', 13, 'baz')
sync_id = SQLBackend.first(bogus_chain_spec)
self.assertIsNone(sync_id)
def test_backend_filter_lock(self):
s = SQLBackend.live(self.chain_spec, 42)
s.connect()
filter_id = s.db_object_filter.id
s.disconnect()
session = SessionBase.create_session()
o = session.query(BlockchainSyncFilter).get(filter_id)
self.assertEqual(len(o.flags), 0)
session.close()
s.register_filter(str(0))
s.register_filter(str(1))
s.connect()
filter_id = s.db_object_filter.id
s.disconnect()
session = SessionBase.create_session()
o = session.query(BlockchainSyncFilter).get(filter_id)
o.set(1)
with self.assertRaises(LockError):
o.set(2)
o.release()
o.set(2)
def test_backend_filter(self):
s = SQLBackend.live(self.chain_spec, 42)
s.connect()
filter_id = s.db_object_filter.id
s.disconnect()
session = SessionBase.create_session()
o = session.query(BlockchainSyncFilter).get(filter_id)
self.assertEqual(len(o.flags), 0)
session.close()
for i in range(9):
s.register_filter(str(i))
s.connect()
filter_id = s.db_object_filter.id
s.disconnect()
session = SessionBase.create_session()
o = session.query(BlockchainSyncFilter).get(filter_id)
self.assertEqual(len(o.flags), 2)
(t, c, d) = o.target()
self.assertEqual(t, (1 << 9) - 1)
for i in range(9):
o.set(i)
o.release()
(f, c, d) = o.cursor()
self.assertEqual(f, t)
self.assertEqual(c, 9)
self.assertEqual(d, o.digest)
session.close()
def test_backend_retrieve(self):
s = SQLBackend.live(self.chain_spec, 42)
s.register_filter('foo')
s.register_filter('bar')
s.register_filter('baz')
s.set(42, 13)
s = SQLBackend.first(self.chain_spec)
self.assertEqual(s.get(), ((42,13), 0))
def test_backend_initial(self):
with self.assertRaises(ValueError):
s = SQLBackend.initial(self.chain_spec, 42, 42)
with self.assertRaises(ValueError):
s = SQLBackend.initial(self.chain_spec, 42, 43)
s = SQLBackend.initial(self.chain_spec, 42, 13)
s.set(43, 13)
s = SQLBackend.first(self.chain_spec)
self.assertEqual(s.get(), ((43,13), 0))
self.assertEqual(s.start(), ((13,0), 0))
def test_backend_resume(self):
s = SQLBackend.resume(self.chain_spec, 666)
self.assertEqual(len(s), 0)
s = SQLBackend.live(self.chain_spec, 42)
original_id = s.object_id
s = SQLBackend.resume(self.chain_spec, 666)
self.assertEqual(len(s), 1)
resumed_id = s[0].object_id
self.assertEqual(resumed_id, original_id + 1)
self.assertEqual(s[0].get(), ((42, 0), 0))
def test_backend_resume_when_completed(self):
s = SQLBackend.live(self.chain_spec, 42)
s = SQLBackend.resume(self.chain_spec, 666)
s[0].set(666, 0)
s = SQLBackend.resume(self.chain_spec, 666)
self.assertEqual(len(s), 0)
def test_backend_resume_several(self):
s = SQLBackend.live(self.chain_spec, 42)
s.set(43, 13)
s = SQLBackend.resume(self.chain_spec, 666)
SQLBackend.live(self.chain_spec, 666)
s[0].set(123, 2)
s = SQLBackend.resume(self.chain_spec, 1024)
SQLBackend.live(self.chain_spec, 1024)
self.assertEqual(len(s), 2)
self.assertEqual(s[0].target(), (666, 0))
self.assertEqual(s[0].get(), ((123, 2), 0))
self.assertEqual(s[1].target(), (1024, 0))
self.assertEqual(s[1].get(), ((666, 0), 0))
def test_backend_resume_filter(self):
s = SQLBackend.live(self.chain_spec, 42)
s.register_filter('foo')
s.register_filter('bar')
s.register_filter('baz')
s.set(43, 13)
s.begin_filter(0)
s.begin_filter(2)
s = SQLBackend.resume(self.chain_spec, 666)
(pair, flags) = s[0].get()
self.assertEqual(flags, 5)
def test_backend_sql_custom(self):
chain_spec = ChainSpec('evm', 'bloxberg', 8996, 'foo')
flags = 5
flags_target = 1023
flag_count = 10
backend = SQLBackend.custom(chain_spec, 666, 42, 2, flags, flag_count)
self.assertEqual(((42, 2), flags), backend.start())
self.assertEqual(((42, 2), flags), backend.get())
self.assertEqual((666, flags_target), backend.target())
if __name__ == '__main__':
unittest.main()

View File

@ -1,61 +0,0 @@
# standard imports
import unittest
import tempfile
import shutil
import logging
import stat
import os
# local imports
from chainsyncer.store.fs import SyncFsStore
from chainsyncer.session import SyncSession
from chainsyncer.error import (
LockError,
FilterDone,
IncompleteFilterError,
SyncDone,
)
from chainsyncer.unittest import (
MockBlockGenerator,
MockFilter,
MockChainInterfaceConn,
MockTx,
MockBlock,
MockChainInterface,
MockFilterError,
)
from chainsyncer.driver.chain_interface import ChainInterfaceDriver
logging.basicConfig(level=logging.DEBUG)
logg = logging.getLogger()
class TestFilter(unittest.TestCase):
def setUp(self):
self.path = tempfile.mkdtemp()
self.store = SyncFsStore(self.path)
self.ifc = MockChainInterface()
self.conn = MockChainInterfaceConn(self.ifc)
def tearDown(self):
shutil.rmtree(self.path)
def test_driver(self):
generator = MockBlockGenerator()
generator.generate([1, 2], driver=self.conn)
drv = ChainInterfaceDriver(self.store, self.ifc, target=1)
fltr_one = MockFilter('foo')
self.store.register(fltr_one)
with self.assertRaises(SyncDone):
drv.run(self.conn)
self.assertEqual(len(fltr_one.contents), 3)
if __name__ == '__main__':
unittest.main()

121
tests/test_file.py Normal file
View File

@ -0,0 +1,121 @@
# standard imports
import logging
import uuid
import os
import unittest
import shutil
# external imports
from chainlib.chain import ChainSpec
# local imports
from chainsyncer.backend.file import FileBackend
logging.basicConfig(level=logging.DEBUG)
logg = logging.getLogger().getChild(__name__)
script_dir = os.path.dirname(__file__)
tmp_test_dir = os.path.join(script_dir, 'testdata', 'tmp')
chainsyncer_test_dir = os.path.join(tmp_test_dir, 'chainsyncer')
os.makedirs(tmp_test_dir, exist_ok=True)
class TestFile(unittest.TestCase):
def setUp(self):
self.chain_spec = ChainSpec('foo', 'bar', 42, 'baz')
self.uu = FileBackend.create_object(self.chain_spec, None, base_dir=tmp_test_dir)
logg.debug('made uu {} for {}'.format(self.uu, self.chain_spec))
self.o = FileBackend(self.chain_spec, self.uu, base_dir=tmp_test_dir)
def tearDown(self):
self.o.purge()
shutil.rmtree(chainsyncer_test_dir)
@unittest.skip('foo')
def test_set(self):
self.o.set(42, 13)
o = FileBackend(self.chain_spec, self.o.object_id, base_dir=tmp_test_dir)
state = o.get()
self.assertEqual(state[0], 42)
self.assertEqual(state[1], 13)
@unittest.skip('foo')
def test_initial(self):
local_uu = FileBackend.initial(self.chain_spec, 1337, start_block_height=666, base_dir=tmp_test_dir)
o = FileBackend(self.chain_spec, local_uu, base_dir=tmp_test_dir)
(pair, filter_stats) = o.target()
self.assertEqual(pair[0], 1337)
self.assertEqual(pair[1], 0)
(pair, filter_stats) = o.start()
self.assertEqual(pair[0], 666)
self.assertEqual(pair[1], 0)
@unittest.skip('foo')
def test_resume(self):
for i in range(1, 10):
local_uu = FileBackend.initial(self.chain_spec, 666, start_block_height=i, base_dir=tmp_test_dir)
entries = FileBackend.resume(self.chain_spec, base_dir=tmp_test_dir)
self.assertEqual(len(entries), 10)
last = -1
for o in entries:
self.assertLess(last, o.block_height_offset)
last = o.block_height_offset
@unittest.skip('foo')
def test_first(self):
for i in range(1, 10):
local_uu = FileBackend.initial(self.chain_spec, 666, start_block_height=i, base_dir=tmp_test_dir)
first_entry = FileBackend.first(self.chain_spec, base_dir=tmp_test_dir)
self.assertEqual(first_entry.block_height_offset, 9)
def test_filter(self):
self.assertEqual(len(self.o.filter), 1)
self.o.register_filter('foo')
self.o.register_filter('bar')
o = FileBackend(self.chain_spec, self.uu, base_dir=tmp_test_dir)
self.assertEqual(o.filter_count, 2)
self.assertEqual(o.filter_names, ['foo', 'bar'])
self.assertEqual(len(o.filter), 1)
self.o.complete_filter(1)
self.assertEqual(self.o.filter, b'\x40')
self.o.complete_filter(0)
self.assertEqual(self.o.filter, b'\xc0')
o = FileBackend(self.chain_spec, self.uu, base_dir=tmp_test_dir)
self.assertEqual(o.filter, b'\xc0')
with self.assertRaises(IndexError):
self.o.complete_filter(2)
self.o.register_filter('baz')
self.o.complete_filter(2)
if __name__ == '__main__':
unittest.main()

View File

@ -1,78 +0,0 @@
# standard imports
import unittest
import tempfile
import shutil
import logging
import stat
import os
# local imports
from chainsyncer.store.fs import SyncFsStore
from chainsyncer.session import SyncSession
from chainsyncer.error import (
LockError,
FilterDone,
IncompleteFilterError,
)
from chainsyncer.unittest import (
MockFilter,
MockConn,
MockTx,
MockBlock,
)
logging.basicConfig(level=logging.DEBUG)
logg = logging.getLogger()
class TestFilter(unittest.TestCase):
def setUp(self):
self.path = tempfile.mkdtemp()
self.store = SyncFsStore(self.path)
self.session = SyncSession(self.store)
self.conn = MockConn()
def tearDown(self):
shutil.rmtree(self.path)
def test_filter_basic(self):
fltr_one = MockFilter('foo')
self.store.register(fltr_one)
fltr_two = MockFilter('bar')
self.store.register(fltr_two)
self.session.start()
tx_hash = os.urandom(32).hex()
tx = MockTx(42, tx_hash)
block = MockBlock(13, [tx_hash])
self.session.filter(self.conn, block, tx)
self.assertEqual(len(fltr_one.contents), 1)
self.assertEqual(len(fltr_two.contents), 1)
def test_filter_interrupt(self):
fltr_one = MockFilter('foo', brk=True)
self.store.register(fltr_one)
fltr_two = MockFilter('bar')
self.store.register(fltr_two)
self.session.start()
tx_hash = os.urandom(32).hex()
tx = MockTx(42, tx_hash)
block = MockBlock(13, [tx_hash])
self.session.filter(self.conn, block, tx)
self.assertEqual(len(fltr_one.contents), 1)
self.assertEqual(len(fltr_two.contents), 0)
if __name__ == '__main__':
unittest.main()

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# standard imports
import unittest
# local imports
from tests.chainsyncer_base import TestBase
class TestHelo(TestBase):
def test_helo(self):
pass
if __name__ == '__main__':
unittest.main()

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tests/test_interrupt.py Normal file
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# standard imports
import logging
import unittest
import os
import tempfile
# external imports
from chainlib.chain import ChainSpec
# local imports
from chainsyncer.backend.memory import MemBackend
from chainsyncer.backend.sql import SQLBackend
from chainsyncer.backend.file import (
FileBackend,
data_dir_for,
)
from chainsyncer.error import LockError
# test imports
from tests.chainsyncer_base import TestBase
from chainsyncer.unittest.base import (
MockBlock,
MockConn,
TestSyncer,
)
logging.basicConfig(level=logging.DEBUG)
logg = logging.getLogger()
class NaughtyCountExceptionFilter:
def __init__(self, name, croak_on):
self.c = 0
self.croak = croak_on
self.name = name
def filter(self, conn, block, tx, db_session=None):
self.c += 1
if self.c == self.croak:
self.croak = -1
raise RuntimeError('foo')
def __str__(self):
return '{} {}'.format(self.__class__.__name__, self.name)
class CountFilter:
def __init__(self, name):
self.c = 0
self.name = name
def filter(self, conn, block, tx, db_session=None):
self.c += 1
def __str__(self):
return '{} {}'.format(self.__class__.__name__, self.name)
class TestInterrupt(TestBase):
def setUp(self):
super(TestInterrupt, self).setUp()
self.backend = None
self.conn = MockConn()
self.vectors = [
[4, 3, 2],
[6, 4, 2],
[6, 5, 2],
[6, 4, 3],
]
self.track_complete = True
def assert_filter_interrupt(self, vector, chain_interface):
logg.debug('running vector {} {}'.format(str(self.backend), vector))
z = 0
for v in vector:
z += v
syncer = TestSyncer(self.backend, chain_interface, vector)
filters = [
CountFilter('foo'),
CountFilter('bar'),
NaughtyCountExceptionFilter('xyzzy', croak_on=3),
CountFilter('baz'),
]
for fltr in filters:
syncer.add_filter(fltr)
try:
syncer.loop(0.1, self.conn)
except RuntimeError:
self.croaked = 2
logg.info('caught croak')
pass
(pair, fltr) = self.backend.get()
self.assertGreater(fltr, 0)
try:
syncer.loop(0.1, self.conn)
except LockError:
self.backend.complete_filter(2)
syncer.loop(0.1, self.conn)
for fltr in filters:
logg.debug('{} {}'.format(str(fltr), fltr.c))
self.assertEqual(fltr.c, z)
def test_filter_interrupt_memory(self):
self.track_complete = True
for vector in self.vectors:
self.backend = MemBackend.custom(self.chain_spec, target_block=len(vector))
self.assert_filter_interrupt(vector, self.interface)
#TODO: implement flag lock in file backend
@unittest.expectedFailure
def test_filter_interrupt_file(self):
#for vector in self.vectors:
vector = self.vectors.pop()
d = tempfile.mkdtemp()
#os.makedirs(data_dir_for(self.chain_spec, 'foo', d))
self.backend = FileBackend.initial(self.chain_spec, len(vector), base_dir=d) #'foo', base_dir=d)
self.assert_filter_interrupt(vector, self.interface)
def test_filter_interrupt_sql(self):
self.track_complete = True
for vector in self.vectors:
self.backend = SQLBackend.initial(self.chain_spec, len(vector))
self.assert_filter_interrupt(vector, self.interface)
if __name__ == '__main__':
unittest.main()

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# standard imports
import unittest
import logging
# external imports
from chainlib.chain import ChainSpec
# local imports
from chainsyncer.backend.memory import MemBackend
# testutil imports
from tests.chainsyncer_base import TestBase
logging.basicConfig(level=logging.DEBUG)
class TestMem(TestBase):
def test_backend_mem_custom(self):
chain_spec = ChainSpec('evm', 'bloxberg', 8996, 'foo')
flags = int(5).to_bytes(2, 'big')
flag_count = 10
flags_target = (2 ** 10) - 1
backend = MemBackend.custom(chain_spec, 666, 42, 2, flags, flag_count, object_id='xyzzy')
self.assertEqual(((42, 2), flags), backend.start())
self.assertEqual(((42, 2), flags), backend.get())
self.assertEqual((666, flags_target), backend.target())
self.assertEqual(backend.object_id, 'xyzzy')
if __name__ == '__main__':
unittest.main()

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# standard imports
import unittest
import tempfile
import shutil
import logging
import stat
import os
# local imports
from chainsyncer.store.fs import SyncFsStore
from chainsyncer.session import SyncSession
from chainsyncer.error import (
LockError,
FilterDone,
IncompleteFilterError,
SyncDone,
)
from chainsyncer.unittest import (
MockBlockGenerator,
MockFilter,
MockConn,
MockTx,
MockBlock,
MockDriver,
MockFilterError,
state_event_handler,
filter_state_event_handler,
)
from chainsyncer.driver import SyncDriver
logging.basicConfig(level=logging.STATETRACE)
logg = logging.getLogger()
class TestFilter(unittest.TestCase):
def setUp(self):
self.path = tempfile.mkdtemp()
self.store = SyncFsStore(self.path, state_event_callback=state_event_handler, filter_state_event_callback=filter_state_event_handler)
self.conn = MockConn()
# def tearDown(self):
# shutil.rmtree(self.path)
def test_filter_basic(self):
session = SyncSession(self.store)
session.start(target=1)
fltr_one = MockFilter('foo')
self.store.register(fltr_one)
tx_hash = os.urandom(32).hex()
tx = MockTx(42, tx_hash)
block = MockBlock(0, [tx_hash])
session.filter(self.conn, block, tx)
tx_hash = os.urandom(32).hex()
tx = MockTx(42, tx_hash)
block = MockBlock(1, [tx_hash])
session.filter(self.conn, block, tx)
self.assertEqual(len(fltr_one.contents), 2)
def test_driver(self):
drv = MockDriver(self.store, target=1)
generator = MockBlockGenerator()
generator.generate([1, 2], driver=drv)
fltr_one = MockFilter('foo')
self.store.register(fltr_one)
with self.assertRaises(SyncDone):
drv.run(self.conn)
self.assertEqual(len(fltr_one.contents), 3)
def test_driver_interrupt_noresume(self):
drv = MockDriver(self.store, target=1)
generator = MockBlockGenerator()
generator.generate([1], driver=drv)
fltr_one = MockFilter('foo')
self.store.register(fltr_one)
fltr_two = MockFilter('bar', brk_hard=1)
self.store.register(fltr_two)
with self.assertRaises(MockFilterError):
drv.run(self.conn)
self.assertEqual(len(fltr_one.contents), 1)
self.assertEqual(len(fltr_two.contents), 0)
store = SyncFsStore(self.path, state_event_callback=state_event_handler, filter_state_event_callback=filter_state_event_handler)
fltr_one = MockFilter('foo') #, brk_hard=1)
store.register(fltr_one)
fltr_two = MockFilter('bar')
store.register(fltr_two)
with self.assertRaises(LockError):
drv = MockDriver(store, target=1)
self.assertEqual(len(fltr_one.contents), 0)
self.assertEqual(len(fltr_two.contents), 0)
def test_driver_interrupt_filter(self):
drv = MockDriver(self.store, target=1)
generator = MockBlockGenerator()
generator.generate([1, 1], driver=drv)
fltr_one = MockFilter('foo')
self.store.register(fltr_one)
fltr_two = MockFilter('bar', brk=1)
self.store.register(fltr_two)
fltr_three = MockFilter('baz')
self.store.register(fltr_three)
store = SyncFsStore(self.path, state_event_callback=state_event_handler, filter_state_event_callback=filter_state_event_handler)
with self.assertRaises(SyncDone):
drv.run(self.conn)
self.assertEqual(len(fltr_one.contents), 2)
self.assertEqual(len(fltr_two.contents), 2)
self.assertEqual(len(fltr_three.contents), 1)
def test_driver_interrupt_sync(self):
drv = MockDriver(self.store, interrupt_block=1, target=2)
generator = MockBlockGenerator()
generator.generate([3, 1, 2], driver=drv)
fltr_one = MockFilter('foo')
self.store.register(fltr_one)
drv.run(self.conn, interval=0.1)
self.assertEqual(len(fltr_one.contents), 3)
store = SyncFsStore(self.path, state_event_callback=state_event_handler, filter_state_event_callback=filter_state_event_handler)
store.register(fltr_one)
drv = MockDriver(store)
generator.apply(drv, offset=1)
with self.assertRaises(SyncDone) as e:
drv.run(self.conn, interval=0.1)
self.assertEqual(e, 2)
self.assertEqual(len(fltr_one.contents), 6)
if __name__ == '__main__':
unittest.main()

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# standard imports
import logging
import unittest
# test imports
from tests.chainsyncer_base import TestBase
class TestThreadRange(TestBase):
def test_hello(self):
ThreadPoolRangeHistorySyncer(None, 3)

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# standard imports
import unittest
import logging
# external imports
from chainlib.chain import ChainSpec
from chainlib.eth.unittest.ethtester import EthTesterCase
from chainlib.eth.nonce import RPCNonceOracle
from chainlib.eth.gas import (
RPCGasOracle,
Gas,
)
from chainlib.eth.unittest.base import TestRPCConnection
# local imports
from chainsyncer.backend.memory import MemBackend
from chainsyncer.driver.threadrange import (
sync_split,
ThreadPoolRangeHistorySyncer,
)
from chainsyncer.unittest.base import MockConn
from chainsyncer.unittest.db import ChainSyncerDb
# testutil imports
from tests.chainsyncer_base import (
EthChainInterface,
)
logging.basicConfig(level=logging.DEBUG)
logg = logging.getLogger()
class SyncerCounter:
def __init__(self):
self.hits = []
def filter(self, conn, block, tx, db_session=None):
logg.debug('fltr {} {}'.format(block, tx))
self.hits.append((block, tx))
class TestBaseEth(EthTesterCase):
interface = EthChainInterface()
def setUp(self):
super(TestBaseEth, self).setUp()
self.db = ChainSyncerDb()
self.session = self.db.bind_session()
def tearDown(self):
self.session.commit()
self.db.release_session(self.session)
#os.unlink(self.db_path)
class TestThreadRange(TestBaseEth):
interface = EthChainInterface()
def test_range_split_even(self):
ranges = sync_split(5, 20, 3)
self.assertEqual(len(ranges), 3)
self.assertEqual(ranges[0], (5, 9))
self.assertEqual(ranges[1], (10, 14))
self.assertEqual(ranges[2], (15, 19))
def test_range_split_underflow(self):
ranges = sync_split(5, 8, 4)
self.assertEqual(len(ranges), 3)
self.assertEqual(ranges[0], (5, 5))
self.assertEqual(ranges[1], (6, 6))
self.assertEqual(ranges[2], (7, 7))
def test_range_syncer_hello(self):
#chain_spec = ChainSpec('evm', 'bloxberg', 8996, 'foo')
chain_spec = ChainSpec('evm', 'foochain', 42)
backend = MemBackend.custom(chain_spec, 20, 5, 3, 5, 10)
#syncer = ThreadPoolRangeHistorySyncer(MockConn, 3, backend, self.interface)
syncer = ThreadPoolRangeHistorySyncer(3, backend, self.interface)
syncer.loop(0.1, None)
def test_range_syncer_content(self):
nonce_oracle = RPCNonceOracle(self.accounts[0], self.rpc)
gas_oracle = RPCGasOracle(self.rpc)
self.backend.mine_blocks(10)
c = Gas(signer=self.signer, nonce_oracle=nonce_oracle, gas_oracle=gas_oracle, chain_spec=self.chain_spec)
(tx_hash, o) = c.create(self.accounts[0], self.accounts[1], 1024)
r = self.rpc.do(o)
self.backend.mine_blocks(3)
c = Gas(signer=self.signer, nonce_oracle=nonce_oracle, gas_oracle=gas_oracle, chain_spec=self.chain_spec)
(tx_hash, o) = c.create(self.accounts[0], self.accounts[1], 2048)
r = self.rpc.do(o)
self.backend.mine_blocks(10)
backend = MemBackend.custom(self.chain_spec, 20, 5, 3, 5, 10)
syncer = ThreadPoolRangeHistorySyncer(3, backend, self.interface)
fltr = SyncerCounter()
syncer.add_filter(fltr)
syncer.loop(0.1, None)
if __name__ == '__main__':
unittest.main()