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watcher - Updates the LocatorCache so it is self handled

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With the current approach the cache deals with deletion and provides getters and setters so consumers do not directly access the internals
This commit is contained in:
Sergi Delgado Segura
2020-06-10 12:30:11 +02:00
parent 2facd61f6c
commit df326465a7
2 changed files with 166 additions and 68 deletions
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71
teos/watcher.py
View File

@@ -77,9 +77,50 @@ class LocatorCache:
self.blocks = OrderedDict(reversed((list(self.blocks.items())))) self.blocks = OrderedDict(reversed((list(self.blocks.items()))))
def fix_cache(self, last_known_block, block_processor): def get_txid(self, locator):
""" """
Fixes an existing cache after a reorg has been detected by feeding the most recent ``cache_size`` blocks to it. Gets a txid from the locator cache.
Args:
locator (:obj:`str`): the locator to lookup in the cache.
Returns:
:obj:`str` or :obj:`None`: The txid linked to the given locator if found. None otherwise.
"""
return self.cache.get(locator)
def update(self, block_hash, locator_txid_map):
"""
Updates the cache with data from a new block. Removes the oldest block if the cache is full after the addition.
Args:
block_hash (:obj:`str`): the hash of the new block.
locator_txid_map (:obj:`dict`): the dictionary of locators (locator:txid) derived from a list of transaction
ids.
"""
self.cache.update(locator_txid_map)
self.blocks[block_hash] = list(locator_txid_map.keys())
logger.debug("Block added to cache", block_hash=block_hash)
if self.is_full():
self.remove_oldest_block()
def is_full(self):
""" Returns whether the cache is full or not """
return len(self.blocks) > self.cache_size
def remove_oldest_block(self):
""" Removes the oldest block from the cache """
block_hash, locators = self.blocks.popitem(last=False)
for locator in locators:
del self.cache[locator]
logger.debug("Block removed from cache", block_hash=block_hash)
def fix(self, last_known_block, block_processor):
"""
Fixes the cache after a reorg has been detected by feeding the most recent ``cache_size`` blocks to it.
Args: Args:
last_known_block (:obj:`str`): the last known block hash after the reorg. last_known_block (:obj:`str`): the last known block hash after the reorg.
@@ -104,18 +145,6 @@ class LocatorCache:
self.blocks = OrderedDict(reversed((list(tmp_cache.blocks.items())))) self.blocks = OrderedDict(reversed((list(tmp_cache.blocks.items()))))
self.cache = tmp_cache.cache self.cache = tmp_cache.cache
def is_full(self):
""" Returns whether the cache is full or not """
return len(self.blocks) > self.cache_size
def remove_older_block(self):
""" Removes the older block from the cache """
block_hash, locators = self.blocks.popitem(last=False)
for locator in locators:
del self.cache[locator]
logger.debug("Block removed from cache", block_hash=block_hash)
class Watcher: class Watcher:
""" """
@@ -242,9 +271,9 @@ class Watcher:
available_slots = self.gatekeeper.add_update_appointment(user_id, uuid, appointment) available_slots = self.gatekeeper.add_update_appointment(user_id, uuid, appointment)
# Appointments that were triggered in blocks held in the cache # Appointments that were triggered in blocks held in the cache
if appointment.locator in self.locator_cache.cache: dispute_txid = self.locator_cache.get_txid(appointment.locator)
if dispute_txid:
try: try:
dispute_txid = self.locator_cache.cache[appointment.locator]
penalty_txid, penalty_rawtx = self.check_breach(uuid, appointment, dispute_txid) penalty_txid, penalty_rawtx = self.check_breach(uuid, appointment, dispute_txid)
receipt = self.responder.handle_breach( receipt = self.responder.handle_breach(
uuid, appointment.locator, dispute_txid, penalty_txid, penalty_rawtx, user_id, self.last_known_block uuid, appointment.locator, dispute_txid, penalty_txid, penalty_rawtx, user_id, self.last_known_block
@@ -319,14 +348,12 @@ class Watcher:
# If a reorg is detected, the cache is fixed to cover the last `cache_size` blocks of the new chain # If a reorg is detected, the cache is fixed to cover the last `cache_size` blocks of the new chain
if self.last_known_block != block.get("previousblockhash"): if self.last_known_block != block.get("previousblockhash"):
self.locator_cache.fix_cache(block_hash, self.block_processor) self.locator_cache.fix(block_hash, self.block_processor)
txids = block.get("tx") txids = block.get("tx")
# Compute the locator for every transaction in the block and add them to the cache # Compute the locator for every transaction in the block and add them to the cache
locator_txid_map = {compute_locator(txid): txid for txid in txids} locator_txid_map = {compute_locator(txid): txid for txid in txids}
self.locator_cache.cache.update(locator_txid_map) self.locator_cache.update(block_hash, locator_txid_map)
self.locator_cache.blocks[block_hash] = list(locator_txid_map.keys())
logger.debug("Block added to cache", block_hash=block_hash)
if len(self.appointments) > 0 and locator_txid_map: if len(self.appointments) > 0 and locator_txid_map:
expired_appointments = self.gatekeeper.get_expired_appointments(block["height"]) expired_appointments = self.gatekeeper.get_expired_appointments(block["height"])
@@ -392,10 +419,6 @@ class Watcher:
if len(self.appointments) != 0: if len(self.appointments) != 0:
logger.info("No more pending appointments") logger.info("No more pending appointments")
# Remove a block from the cache if the cache has reached its maximum size
if self.locator_cache.is_full():
self.locator_cache.remove_older_block()
# Register the last processed block for the Watcher # Register the last processed block for the Watcher
self.db_manager.store_last_block_hash_watcher(block_hash) self.db_manager.store_last_block_hash_watcher(block_hash)
self.last_known_block = block.get("hash") self.last_known_block = block.get("hash")

163
test/teos/unit/test_watcher.py
View File

@@ -137,6 +137,122 @@ def test_locator_cache_init(block_processor):
assert block_processor.get_block(k) assert block_processor.get_block(k)
def test_get_txid():
# Not much to test here, this is shadowing dict.get
locator = get_random_value_hex(16)
txid = get_random_value_hex(32)
locator_cache = LocatorCache(config.get("LOCATOR_CACHE_SIZE"))
locator_cache.cache[locator] = txid
assert locator_cache.get_txid(locator) == txid
# A random locator should fail
assert locator_cache.get_txid(get_random_value_hex(16)) is None
def test_update_cache():
# Update should add data about a new block in the cache. If the cache is full, the oldest block is dropped.
locator_cache = LocatorCache(config.get("LOCATOR_CACHE_SIZE"))
block_hash = get_random_value_hex(32)
txs = [get_random_value_hex(32) for _ in range(10)]
locator_txid_map = {compute_locator(txid): txid for txid in txs}
# Cache is empty
assert block_hash not in locator_cache.blocks
for locator in locator_txid_map.keys():
assert locator not in locator_cache.cache
# The data has been added to the cache
locator_cache.update(block_hash, locator_txid_map)
assert block_hash in locator_cache.blocks
for locator in locator_txid_map.keys():
assert locator in locator_cache.cache
def test_update_cache_full():
locator_cache = LocatorCache(config.get("LOCATOR_CACHE_SIZE"))
block_hashes = []
big_map = {}
for i in range(locator_cache.cache_size):
block_hash = get_random_value_hex(32)
txs = [get_random_value_hex(32) for _ in range(10)]
locator_txid_map = {compute_locator(txid): txid for txid in txs}
locator_cache.update(block_hash, locator_txid_map)
if i == 0:
first_block_hash = block_hash
first_locator_txid_map = locator_txid_map
else:
block_hashes.append(block_hash)
big_map.update(locator_txid_map)
# The cache is now full.
assert first_block_hash in locator_cache.blocks
for locator in first_locator_txid_map.keys():
assert locator in locator_cache.cache
# Add one more
block_hash = get_random_value_hex(32)
txs = [get_random_value_hex(32) for _ in range(10)]
locator_txid_map = {compute_locator(txid): txid for txid in txs}
locator_cache.update(block_hash, locator_txid_map)
# The first block is not there anymore, but the rest are there
assert first_block_hash not in locator_cache.blocks
for locator in first_locator_txid_map.keys():
assert locator not in locator_cache.cache
for block_hash in block_hashes:
assert block_hash in locator_cache.blocks
for locator in big_map.keys():
assert locator in locator_cache.cache
def test_locator_cache_is_full(block_processor):
# Empty cache
locator_cache = LocatorCache(config.get("LOCATOR_CACHE_SIZE"))
for _ in range(locator_cache.cache_size):
locator_cache.blocks[uuid4().hex] = 0
assert not locator_cache.is_full()
locator_cache.blocks[uuid4().hex] = 0
assert locator_cache.is_full()
def test_locator_remove_oldest_block(block_processor):
# Empty cache
locator_cache = LocatorCache(config.get("LOCATOR_CACHE_SIZE"))
# Add some blocks to the cache
for _ in range(locator_cache.cache_size):
txid = get_random_value_hex(32)
locator = txid[:16]
locator_cache.blocks[get_random_value_hex(32)] = {locator: txid}
locator_cache.cache[locator] = txid
blocks_in_cache = locator_cache.blocks
oldest_block_hash = list(blocks_in_cache.keys())[0]
oldest_block_data = blocks_in_cache.get(oldest_block_hash)
rest_of_blocks = list(blocks_in_cache.keys())[1:]
locator_cache.remove_oldest_block()
# Oldest block data is not in the cache
assert oldest_block_hash not in locator_cache.blocks
for locator in oldest_block_data:
assert locator not in locator_cache.cache
# The rest of data is in the cache
assert set(rest_of_blocks).issubset(locator_cache.blocks)
for block_hash in rest_of_blocks:
for locator in locator_cache.blocks[block_hash]:
assert locator in locator_cache.cache
def test_fix_cache(block_processor): def test_fix_cache(block_processor):
# This tests how a reorg will create a new version of the cache # This tests how a reorg will create a new version of the cache
# Let's start setting a full cache. We'll mine ``cache_size`` bocks to be sure it's full # Let's start setting a full cache. We'll mine ``cache_size`` bocks to be sure it's full
@@ -152,7 +268,7 @@ def test_fix_cache(block_processor):
current_tip_parent = block_processor.get_block(current_tip).get("previousblockhash") current_tip_parent = block_processor.get_block(current_tip).get("previousblockhash")
current_tip_parent_locators = locator_cache.blocks[current_tip_parent] current_tip_parent_locators = locator_cache.blocks[current_tip_parent]
fake_tip = block_processor.get_block(current_tip_parent).get("previousblockhash") fake_tip = block_processor.get_block(current_tip_parent).get("previousblockhash")
locator_cache.fix_cache(fake_tip, block_processor) locator_cache.fix(fake_tip, block_processor)
# The last two blocks are not in the cache nor are the any of its locators # The last two blocks are not in the cache nor are the any of its locators
assert current_tip not in locator_cache.blocks and current_tip_parent not in locator_cache.blocks assert current_tip not in locator_cache.blocks and current_tip_parent not in locator_cache.blocks
@@ -168,7 +284,7 @@ def test_fix_cache(block_processor):
new_cache = deepcopy(locator_cache) new_cache = deepcopy(locator_cache)
generate_blocks_w_delay((config.get("LOCATOR_CACHE_SIZE") * 2)) generate_blocks_w_delay((config.get("LOCATOR_CACHE_SIZE") * 2))
new_cache.fix_cache(block_processor.get_best_block_hash(), block_processor) new_cache.fix(block_processor.get_best_block_hash(), block_processor)
# None of the data from the old cache is in the new cache # None of the data from the old cache is in the new cache
for block_hash, locators in locator_cache.blocks.items(): for block_hash, locators in locator_cache.blocks.items():
@@ -185,47 +301,6 @@ def test_fix_cache(block_processor):
assert locator in new_cache.cache assert locator in new_cache.cache
def test_locator_cache_is_full(block_processor):
# Empty cache
locator_cache = LocatorCache(config.get("LOCATOR_CACHE_SIZE"))
for _ in range(locator_cache.cache_size):
locator_cache.blocks[uuid4().hex] = 0
assert not locator_cache.is_full()
locator_cache.blocks[uuid4().hex] = 0
assert locator_cache.is_full()
def test_locator_remove_older_block(block_processor):
# Empty cache
locator_cache = LocatorCache(config.get("LOCATOR_CACHE_SIZE"))
# Add some blocks to the cache
for _ in range(locator_cache.cache_size):
txid = get_random_value_hex(32)
locator = txid[:16]
locator_cache.blocks[get_random_value_hex(32)] = {locator: txid}
locator_cache.cache[locator] = txid
blocks_in_cache = locator_cache.blocks
oldest_block_hash = list(blocks_in_cache.keys())[0]
oldest_block_data = blocks_in_cache.get(oldest_block_hash)
rest_of_blocks = list(blocks_in_cache.keys())[1:]
locator_cache.remove_older_block()
# Oldest block data is not in the cache
assert oldest_block_hash not in locator_cache.blocks
for locator in oldest_block_data:
assert locator not in locator_cache.cache
# The rest of data is in the cache
assert set(rest_of_blocks).issubset(locator_cache.blocks)
for block_hash in rest_of_blocks:
for locator in locator_cache.blocks[block_hash]:
assert locator in locator_cache.cache
def test_watcher_init(watcher): def test_watcher_init(watcher):
assert isinstance(watcher.appointments, dict) and len(watcher.appointments) == 0 assert isinstance(watcher.appointments, dict) and len(watcher.appointments) == 0
assert isinstance(watcher.locator_uuid_map, dict) and len(watcher.locator_uuid_map) == 0 assert isinstance(watcher.locator_uuid_map, dict) and len(watcher.locator_uuid_map) == 0
@@ -494,7 +569,7 @@ def test_do_watch_cache_update(watcher):
assert oldest_block_hash not in watcher.locator_cache.blocks assert oldest_block_hash not in watcher.locator_cache.blocks
assert set(rest_of_blocks).issubset(watcher.locator_cache.blocks.keys()) assert set(rest_of_blocks).issubset(watcher.locator_cache.blocks.keys())
# The locators of the older block are gone but the rest remain # The locators of the oldest block are gone but the rest remain
for locator in oldest_block_data: for locator in oldest_block_data:
assert locator not in watcher.locator_cache.cache assert locator not in watcher.locator_cache.cache
for block_hash in rest_of_blocks: for block_hash in rest_of_blocks: