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milvus-io--milvus/tests/python_client/cdc/testcases/test_partition.py
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chore: import upstream snapshot with attribution
2026-07-13 12:31:17 +08:00

514 lines
19 KiB
Python

"""
CDC sync tests for partition operations.
"""
import time
import pytest
from common.common_type import CaseLabel
from .base import TestCDCSyncBase
@pytest.mark.tags(CaseLabel.CDC)
class TestCDCSyncPartition(TestCDCSyncBase):
"""Test CDC sync for partition operations."""
def setup_method(self):
"""Setup for each test method."""
self.resources_to_cleanup = []
def teardown_method(self):
"""Cleanup after each test method - only cleanup upstream, downstream will sync."""
upstream_client = getattr(self, "_upstream_client", None)
if upstream_client:
for resource_type, resource_name in self.resources_to_cleanup:
if resource_type == "collection":
self.cleanup_collection(upstream_client, resource_name)
time.sleep(1) # Allow cleanup to sync to downstream
def test_create_partition(self, upstream_client, downstream_client, sync_timeout):
"""Test CREATE_PARTITION operation sync."""
# Store upstream client for teardown
self._upstream_client = upstream_client
collection_name = self.gen_unique_name("test_col_part_create")
partition_name = self.gen_unique_name("test_part_create")
self.resources_to_cleanup.append(("collection", collection_name))
# Initial cleanup
self.cleanup_collection(upstream_client, collection_name)
# Create collection
upstream_client.create_collection(
collection_name=collection_name,
schema=self.create_default_schema(upstream_client),
)
# Wait for creation to sync
def check_create():
return downstream_client.has_collection(collection_name)
assert self.wait_for_sync(
check_create, sync_timeout, f"create collection {collection_name}"
)
# Create partition
upstream_client.create_partition(collection_name, partition_name)
# Verify partition exists in upstream
upstream_partitions = upstream_client.list_partitions(collection_name)
assert partition_name in upstream_partitions
# Wait for partition sync to downstream
def check_partition():
try:
downstream_partitions = downstream_client.list_partitions(
collection_name
)
return partition_name in downstream_partitions
except:
return False
assert self.wait_for_sync(
check_partition, sync_timeout, f"create partition {partition_name}"
)
def test_drop_partition(self, upstream_client, downstream_client, sync_timeout):
"""Test DROP_PARTITION operation sync."""
# Store upstream client for teardown
self._upstream_client = upstream_client
collection_name = self.gen_unique_name("test_col_part_drop")
partition_name = self.gen_unique_name("test_part_drop")
self.resources_to_cleanup.append(("collection", collection_name))
# Initial cleanup
self.cleanup_collection(upstream_client, collection_name)
# Create collection and partition
upstream_client.create_collection(
collection_name=collection_name,
schema=self.create_default_schema(upstream_client),
)
upstream_client.create_partition(collection_name, partition_name)
# Wait for setup to sync
def check_setup():
try:
return downstream_client.has_collection(
collection_name
) and partition_name in downstream_client.list_partitions(
collection_name
)
except:
return False
assert self.wait_for_sync(
check_setup,
sync_timeout,
f"setup collection and partition {collection_name}",
)
# Drop partition
upstream_client.drop_partition(collection_name, partition_name)
# Verify partition is dropped in upstream
upstream_partitions = upstream_client.list_partitions(collection_name)
assert partition_name not in upstream_partitions
# Wait for drop to sync to downstream
def check_drop():
try:
downstream_partitions = downstream_client.list_partitions(
collection_name
)
return partition_name not in downstream_partitions
except:
return True # If error, assume partition is dropped
assert self.wait_for_sync(
check_drop, sync_timeout, f"drop partition {partition_name}"
)
def test_load_partition(self, upstream_client, downstream_client, sync_timeout):
"""Test LOAD_PARTITION operation sync."""
# Store upstream client for teardown
self._upstream_client = upstream_client
collection_name = self.gen_unique_name("test_col_part_load")
partition_name = self.gen_unique_name("test_part_load")
self.resources_to_cleanup.append(("collection", collection_name))
# Initial cleanup
self.cleanup_collection(upstream_client, collection_name)
# Create collection, partition, and index
upstream_client.create_collection(
collection_name=collection_name,
schema=self.create_default_schema(upstream_client),
)
upstream_client.create_partition(collection_name, partition_name)
# Create index and load collection (required for querying/searching)
index_params = upstream_client.prepare_index_params()
index_params.add_index(
field_name="vector", index_type="AUTOINDEX", metric_type="L2"
)
upstream_client.create_index(collection_name, index_params)
# Wait for setup to sync
def check_setup():
try:
return downstream_client.has_collection(
collection_name
) and partition_name in downstream_client.list_partitions(
collection_name
)
except:
return False
assert self.wait_for_sync(
check_setup,
sync_timeout,
f"setup collection and partition {collection_name}",
)
# Load partition
upstream_client.load_partitions(collection_name, [partition_name])
# check partition load state in upstream
upstream_load_state = upstream_client.get_load_state(
collection_name, partition_name
)
load_state = str(upstream_load_state["state"])
print(f"DEBUG: partition load state in upstream: {load_state}")
# Wait for load to sync
def check_load():
try:
# Check partition load state
load_state = downstream_client.get_load_state(
collection_name=collection_name, partition_name=partition_name
)
print(
f"DEBUG: partition load state in check_load: {load_state['state']}"
)
return "Loaded" == str(load_state["state"])
except Exception as e:
print(f"DEBUG: get_load_state exception in check_load: {e}")
return False
assert self.wait_for_sync(
check_load, sync_timeout, f"load partition {partition_name}"
)
def test_release_partition(self, upstream_client, downstream_client, sync_timeout):
"""Test RELEASE_PARTITION operation sync."""
# Store upstream client for teardown
self._upstream_client = upstream_client
collection_name = self.gen_unique_name("test_col_part_release")
partition_name = self.gen_unique_name("test_part_release")
self.resources_to_cleanup.append(("collection", collection_name))
# Initial cleanup
self.cleanup_collection(upstream_client, collection_name)
# Create collection, partition, index, and load
upstream_client.create_collection(
collection_name=collection_name,
schema=self.create_default_schema(upstream_client),
)
upstream_client.create_partition(collection_name, partition_name)
# Create index and load collection (required for querying/searching)
index_params = upstream_client.prepare_index_params()
index_params.add_index(
field_name="vector", index_type="AUTOINDEX", metric_type="L2"
)
upstream_client.create_index(collection_name, index_params)
upstream_client.load_collection(collection_name)
upstream_client.load_partitions(collection_name, [partition_name])
for p_name in [partition_name, None]:
data = [{"vector": [0.1] * 128, "id": i} for i in range(100)]
upstream_client.insert(collection_name, data, partition_name=p_name)
# Wait for setup to sync
def check_setup():
try:
query_vector = [[0.1] * 128]
downstream_client.search(
collection_name=collection_name,
data=query_vector,
limit=1,
partition_names=[partition_name],
output_fields=[],
)
return True
except:
return False
assert self.wait_for_sync(
check_setup, sync_timeout, f"setup and load partition {partition_name}"
)
# Release partition
upstream_client.release_partitions(collection_name, [partition_name])
# check partition load state in upstream
upstream_load_state = upstream_client.get_load_state(
collection_name, partition_name
)
load_state = str(upstream_load_state["state"])
print(f"DEBUG: partition load state in upstream: {load_state}")
# check partition load state in upstream
def check_release():
try:
query_vector = [[0.1] * 128]
res = upstream_client.search(
collection_name=collection_name,
data=query_vector,
limit=1,
partition_names=[partition_name],
output_fields=[],
)
print(
f"DEBUG: released partition {partition_name} can still be searched: {res}"
)
print(
f"DEBUG: released partition {partition_name} can still be searched"
)
return False
except:
print(f"DEBUG: released partition {partition_name} cannot be searched")
return True
assert self.wait_for_sync(
check_release, sync_timeout, f"release partition {partition_name}"
)
# check partition load state in downstream
def check_release():
try:
query_vector = [[0.1] * 128]
downstream_client.search(
collection_name=collection_name,
data=query_vector,
limit=1,
partition_names=[partition_name],
output_fields=[],
)
print(
f"DEBUG: released partition {partition_name} can still be searched"
)
return False
except:
print(f"DEBUG: released partition {partition_name} cannot be searched")
return True
assert self.wait_for_sync(
check_release, sync_timeout, f"release partition {partition_name}"
)
def test_partition_insert(self, upstream_client, downstream_client, sync_timeout):
"""Test INSERT operation to partition sync."""
# Store upstream client for teardown
self._upstream_client = upstream_client
collection_name = self.gen_unique_name("test_col_part_insert")
partition_name = self.gen_unique_name("test_part_insert")
self.resources_to_cleanup.append(("collection", collection_name))
# Initial cleanup
self.cleanup_collection(upstream_client, collection_name)
# Create collection and partition
upstream_client.create_collection(
collection_name=collection_name,
schema=self.create_default_schema(upstream_client),
)
upstream_client.create_partition(collection_name, partition_name)
# Create index and load collection (required for querying/searching)
index_params = upstream_client.prepare_index_params()
index_params.add_index(
field_name="vector", index_type="AUTOINDEX", metric_type="L2"
)
upstream_client.create_index(collection_name, index_params)
upstream_client.load_collection(collection_name)
# Wait for setup to sync
def check_setup():
try:
return downstream_client.has_collection(
collection_name
) and partition_name in downstream_client.list_partitions(
collection_name
)
except:
return False
assert self.wait_for_sync(
check_setup,
sync_timeout,
f"setup collection and partition {collection_name}",
)
# Insert data to specific partition
test_data = self.generate_test_data(100)
result = upstream_client.insert(
collection_name, test_data, partition_name=partition_name
)
inserted_count = result.get("insert_count", len(test_data))
# Flush to ensure data is persisted
upstream_client.flush(collection_name)
# Wait for data sync to downstream partition by querying
def check_data():
try:
# Query data in specific partition
result = downstream_client.query(
collection_name=collection_name,
filter="",
output_fields=["count(*)"],
partition_names=[partition_name],
)
count = result[0]["count(*)"] if result else 0
return count >= inserted_count
except:
return False
assert self.wait_for_sync(
check_data, sync_timeout, f"insert data to partition {partition_name}"
)
def test_partition_delete(self, upstream_client, downstream_client, sync_timeout):
"""Test DELETE operation from partition sync."""
# Store upstream client for teardown
self._upstream_client = upstream_client
collection_name = self.gen_unique_name("test_col_part_delete")
partition_name = self.gen_unique_name("test_part_delete")
self.resources_to_cleanup.append(("collection", collection_name))
# Initial cleanup
self.cleanup_collection(upstream_client, collection_name)
# Create collection and partition
upstream_client.create_collection(
collection_name=collection_name,
schema=self.create_default_schema(upstream_client),
consistency_level="Strong",
)
upstream_client.create_partition(collection_name, partition_name)
# Create index and load collection (required for querying/searching)
index_params = upstream_client.prepare_index_params()
index_params.add_index(
field_name="vector", index_type="AUTOINDEX", metric_type="L2"
)
upstream_client.create_index(collection_name, index_params)
upstream_client.load_collection(collection_name)
# Wait for setup to sync
def check_setup():
try:
return downstream_client.has_collection(
collection_name
) and partition_name in downstream_client.list_partitions(
collection_name
)
except:
return False
assert self.wait_for_sync(
check_setup,
sync_timeout,
f"setup collection and partition {collection_name}",
)
# Insert data to partition
test_data = self.generate_test_data(100)
upstream_client.insert(
collection_name, test_data, partition_name=partition_name
)
upstream_client.flush(collection_name)
# Wait for initial data sync by querying partition
def check_data():
try:
result = downstream_client.query(
collection_name=collection_name,
filter="",
output_fields=["count(*)"],
partition_names=[partition_name],
)
count = result[0]["count(*)"] if result else 0
return count >= 100
except:
return False
assert self.wait_for_sync(
check_data, sync_timeout, f"initial data sync to partition {partition_name}"
)
# Delete some data from partition
delete_ids = list(range(20)) # Delete first 20 records
upstream_client.delete(
collection_name, filter=f"id in {delete_ids}", partition_name=partition_name
)
upstream_client.flush(collection_name)
deleted_result = upstream_client.query(
collection_name=collection_name,
filter=f"id in {delete_ids}",
output_fields=["id"],
partition_names=[partition_name],
)
total_count = upstream_client.query(
collection_name=collection_name,
filter="",
output_fields=["count(*)"],
partition_names=[partition_name],
)
total_count = total_count[0]["count(*)"] if total_count else 0
print(f"DEBUG: deleted_result in upstream: {deleted_result}")
print(f"DEBUG: total_count in upstream: {total_count}")
# Wait for delete to sync by querying partition
def check_delete():
try:
# Query for the deleted records in partition - should return empty
deleted_result = downstream_client.query(
collection_name=collection_name,
filter=f"id in {delete_ids}",
output_fields=["id"],
partition_names=[partition_name],
)
# Query total count in partition
count_result = downstream_client.query(
collection_name=collection_name,
filter="",
output_fields=["count(*)"],
partition_names=[partition_name],
)
deleted_count = len(deleted_result) if deleted_result else 0
total_count = count_result[0]["count(*)"] if count_result else 0
print(f"DEBUG: deleted_result in check_delete: {deleted_result}")
print(f"DEBUG: count_result in check_delete: {count_result}")
print(
f"DEBUG: deleted_count: {deleted_count}, total_count: {total_count}"
)
# Verify deleted records are gone and total count is correct in partition
return deleted_count == 0 and total_count == 80
except Exception as e:
print(f"DEBUG: query exception in check_delete: {e}")
return False
assert self.wait_for_sync(
check_delete, sync_timeout, f"delete data from partition {partition_name}"
)