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milvus/tests/python_client/check/func_check.py
qixuan 3b2ed5815f
test:add test cases for add field (#42472) 
issue: #42126

---------

Signed-off-by: qixuan <673771573@qq.com>
2025-06-11 17:06:39 +08:00

813 lines
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Python
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import pandas.core.frame
from pymilvus.client.types import CompactionPlans
from pymilvus import Role
from utils.util_log import test_log as log
from common import common_type as ct
from common import common_func as cf
from common.common_type import CheckTasks, Connect_Object_Name
# from common.code_mapping import ErrorCode, ErrorMessage
from pymilvus import Collection, Partition, ResourceGroupInfo, DataType
import check.param_check as pc
import numpy as np
from ml_dtypes import bfloat16
class Error:
def __init__(self, error):
self.code = getattr(error, 'code', -1)
self.message = getattr(error, 'message', str(error))
def __str__(self):
return f"Error(code={self.code}, message={self.message})"
def __repr__(self):
return f"Error(code={self.code}, message={self.message})"
class ResponseChecker:
def __init__(self, response, func_name, check_task, check_items, is_succ=True, **kwargs):
self.response = response # response of api request
self.func_name = func_name # api function name
self.check_task = check_task # task to check response of the api request
self.check_items = check_items # check items and expectations that to be checked in check task
self.succ = is_succ # api responses successful or not
self.kwargs_dict = {} # not used for now, just for extension
for key, value in kwargs.items():
self.kwargs_dict[key] = value
self.keys = self.kwargs_dict.keys()
def run(self):
"""
Method: start response checking for milvus API call
"""
result = True
if self.check_task is None:
# Interface normal return check
result = self.assert_succ(self.succ, True)
elif self.check_task == CheckTasks.err_res:
# Interface return error code and error message check
result = self.assert_exception(self.response, self.succ, self.check_items)
elif self.check_task == CheckTasks.check_nothing:
return self.succ
elif self.check_task == CheckTasks.ccr:
# Connection interface response check
result = self.check_value_equal(self.response, self.func_name, self.check_items)
elif self.check_task == CheckTasks.check_collection_property:
# Collection interface response check
result = self.check_collection_property(self.response, self.func_name, self.check_items)
elif self.check_task == CheckTasks.check_partition_property:
# Partition interface response check
result = self.check_partition_property(self.response, self.func_name, self.check_items)
elif self.check_task == CheckTasks.check_search_results:
# Search interface of collection and partition that response check
result = self.check_search_results(self.response, self.func_name, self.check_items)
elif self.check_task == CheckTasks.check_search_iterator:
# Search iterator interface of collection and partition that response check
result = self.check_search_iterator(self.response, self.func_name, self.check_items)
elif self.check_task == CheckTasks.check_query_results:
# Query interface of collection and partition that response check
result = self.check_query_results(self.response, self.func_name, self.check_items)
elif self.check_task == CheckTasks.check_query_iterator:
# query iterator interface of collection and partition that response check
result = self.check_query_iterator(self.response, self.func_name, self.check_items)
elif self.check_task == CheckTasks.check_query_empty:
result = self.check_query_empty(self.response, self.func_name)
elif self.check_task == CheckTasks.check_query_empty:
result = self.check_query_not_empty(self.response, self.func_name)
elif self.check_task == CheckTasks.check_distance:
# Calculate distance interface that response check
result = self.check_distance(self.response, self.func_name, self.check_items)
elif self.check_task == CheckTasks.check_delete_compact:
result = self.check_delete_compact_plan(self.response, self.func_name, self.check_items)
elif self.check_task == CheckTasks.check_merge_compact:
result = self.check_merge_compact_plan(self.response, self.func_name, self.check_items)
elif self.check_task == CheckTasks.check_role_property:
# Collection interface response check
result = self.check_role_property(self.response, self.func_name, self.check_items)
elif self.check_task == CheckTasks.check_permission_deny:
# Collection interface response check
result = self.check_permission_deny(self.response, self.succ)
elif self.check_task == CheckTasks.check_auth_failure:
# connection interface response check
result = self.check_auth_failure(self.response, self.succ)
elif self.check_task == CheckTasks.check_rg_property:
# describe resource group interface response check
result = self.check_rg_property(self.response, self.func_name, self.check_items)
elif self.check_task == CheckTasks.check_describe_collection_property:
# describe collection interface(high level api) response check
result = self.check_describe_collection_property(self.response, self.func_name, self.check_items)
elif self.check_task == CheckTasks.check_collection_fields_properties:
# check field properties in describe collection response
result = self.check_collection_fields_properties(self.response, self.func_name, self.check_items)
elif self.check_task == CheckTasks.check_describe_database_property:
# describe database interface(high level api) response check
result = self.check_describe_database_property(self.response, self.func_name, self.check_items)
elif self.check_task == CheckTasks.check_insert_result:
# check `insert` interface response
result = self.check_insert_response(check_items=self.check_items)
elif self.check_task == CheckTasks.check_describe_index_property:
# describe collection interface(high level api) response check
result = self.check_describe_index_property(self.response, self.func_name, self.check_items)
# Add check_items here if something new need verify
return result
def assert_succ(self, actual, expect):
assert actual is expect, f"Response of API {self.func_name} expect {expect}, but got {actual}"
return True
def assert_exception(self, res, actual=True, error_dict=None):
assert actual is False, f"Response of API {self.func_name} expect get error, but success"
assert len(error_dict) > 0
if isinstance(res, Error):
error_code = error_dict[ct.err_code]
# assert res.code == error_code or error_dict[ct.err_msg] in res.message, (
# f"Response of API {self.func_name} "
# f"expect get error code {error_dict[ct.err_code]} or error message {error_dict[ct.err_code]}, "
# f"but got {res.code} {res.message}")
assert error_dict[ct.err_msg] in res.message, (
f"Response of API {self.func_name} "
f"expect get error message {error_dict[ct.err_code]}, "
f"but got {res.code} {res.message}")
else:
log.error("[CheckFunc] Response of API is not an error: %s" % str(res))
assert False, (f"Response of API expect get error code {error_dict[ct.err_code]} or "
f"error message {error_dict[ct.err_code]}"
f"but success")
return True
@staticmethod
def check_value_equal(res, func_name, params):
""" check response of connection interface that result is normal """
if func_name == "list_connections":
if not isinstance(res, list):
log.error("[CheckFunc] Response of list_connections is not a list: %s" % str(res))
assert False
list_content = params.get(ct.list_content, None)
if not isinstance(list_content, list):
log.error("[CheckFunc] Check param of list_content is not a list: %s" % str(list_content))
assert False
new_res = pc.get_connect_object_name(res)
assert pc.list_equal_check(new_res, list_content)
if func_name == "get_connection_addr":
dict_content = params.get(ct.dict_content, None)
assert pc.dict_equal_check(res, dict_content)
if func_name == "connect":
type_name = type(res).__name__
assert not type_name.lower().__contains__("error")
if func_name == "has_connection":
value_content = params.get(ct.value_content, False)
res_obj = res if res is not None else False
assert res_obj == value_content
return True
@staticmethod
def check_collection_property(res, func_name, check_items):
"""
According to the check_items to check collection properties of res, which return from func_name
:param res: actual response of init collection
:type res: Collection
:param func_name: init collection API
:type func_name: str
:param check_items: which items expected to be checked, including name, schema, num_entities, primary
:type check_items: dict, {check_key: expected_value}
"""
exp_func_name = "init_collection"
exp_func_name_2 = "construct_from_dataframe"
if func_name != exp_func_name and func_name != exp_func_name_2:
log.warning("The function name is {} rather than {}".format(func_name, exp_func_name))
if isinstance(res, Collection):
collection = res
elif isinstance(res, tuple):
collection = res[0]
else:
raise Exception("The result to check isn't collection type object")
if len(check_items) == 0:
raise Exception("No expect values found in the check task")
if check_items.get("name", None):
assert collection.name == check_items.get("name")
if check_items.get("schema", None):
assert collection.schema == check_items.get("schema")
if check_items.get("num_entities", None):
if check_items.get("num_entities") == 0:
assert collection.is_empty
assert collection.num_entities == check_items.get("num_entities")
if check_items.get("primary", None):
assert collection.primary_field.name == check_items.get("primary")
return True
@staticmethod
def check_describe_collection_property(res, func_name, check_items):
"""
According to the check_items to check collection properties of res, which return from func_name
:param res: actual response of init collection
:type res: Collection
:param func_name: init collection API
:type func_name: str
:param check_items: which items expected to be checked, including name, schema, num_entities, primary
:type check_items: dict, {check_key: expected_value}
"""
exp_func_name = "describe_collection"
if func_name != exp_func_name:
log.warning("The function name is {} rather than {}".format(func_name, exp_func_name))
if len(check_items) == 0:
raise Exception("No expect values found in the check task")
if check_items.get("collection_name", None) is not None:
assert res["collection_name"] == check_items.get("collection_name")
if check_items.get("auto_id", False):
assert res["auto_id"] == check_items.get("auto_id")
if check_items.get("num_shards", 1):
assert res["num_shards"] == check_items.get("num_shards", 1)
if check_items.get("consistency_level", 2):
assert res["consistency_level"] == check_items.get("consistency_level", 2)
if check_items.get("enable_dynamic_field", True):
assert res["enable_dynamic_field"] == check_items.get("enable_dynamic_field", True)
if check_items.get("num_partitions", 1):
assert res["num_partitions"] == check_items.get("num_partitions", 1)
if check_items.get("id_name", "id"):
assert res["fields"][0]["name"] == check_items.get("id_name", "id")
if check_items.get("vector_name", "vector"):
vector_name_list = []
vector_name_list_expected = check_items.get("vector_name", "vector")
for field in res["fields"]:
if field["type"] in [101, 102, 103, 105]:
vector_name_list.append(field["name"])
if isinstance(vector_name_list_expected, str):
assert vector_name_list[0] == check_items.get("vector_name", "vector")
else:
assert vector_name_list == vector_name_list_expected
if check_items.get("dim", None) is not None:
dim_list = []
# here dim support int for only one vector field and list for multiple vector fields, and the order
# should be the same of the order adding schema
dim_list_expected = check_items.get("dim")
for field in res["fields"]:
if field["type"] in [101, 102, 103, 105]:
dim_list.append(field["params"]["dim"])
if isinstance(dim_list_expected, int):
assert dim_list[0] == dim_list_expected
else:
assert dim_list == dim_list_expected
if check_items.get("nullable_fields", None) is not None:
nullable_fields = check_items.get("nullable_fields")
if not isinstance(nullable_fields, list):
log.error("nullable_fields should be a list including all the nullable fields name")
assert False
for field in res["fields"]:
if field["name"] in nullable_fields:
assert field["nullable"] is True
if check_items.get("add_fields", None) is not None:
add_fields = check_items.get("add_fields")
if not isinstance(add_fields, list):
log.error("add_fields should be a list including all the added fields name")
assert False
for field in res["fields"]:
if field["name"] in add_fields:
assert field["nullable"] is True
assert res["fields"][0]["is_primary"] is True
assert res["fields"][0]["field_id"] == 100 and (res["fields"][0]["type"] == 5 or 21)
assert res["fields"][1]["field_id"] == 101 and (res["fields"][1]["type"] == 101 or 105)
return True
@staticmethod
def check_collection_fields_properties(res, func_name, check_items):
"""
According to the check_items to check collection field properties of res, which return from func_name
:param res: actual response of client.describe_collection()
:type res: Collection
:param func_name: describe_collection
:type func_name: str
:param check_items: which field properties expected to be checked, like max_length etc.
:type check_items: dict, {field_name: {field_properties}, ...}
"""
exp_func_name = "describe_collection"
if func_name != exp_func_name:
log.warning("The function name is {} rather than {}".format(func_name, exp_func_name))
if len(check_items) == 0:
raise Exception("No expect values found in the check task")
if check_items.get("collection_name", None) is not None:
assert res["collection_name"] == check_items.get("collection_name")
for key in check_items.keys():
for field in res["fields"]:
if field["name"] == key:
assert field['params'].items() >= check_items[key].items()
return True
@staticmethod
def check_describe_database_property(res, func_name, check_items):
"""
According to the check_items to check database properties of res, which return from func_name
:param res: actual response of init database
:type res: Database
:param func_name: init database API
:type func_name: str
:param check_items: which items expected to be checked
:type check_items: dict, {check_key: expected_value}
"""
exp_func_name = "describe_database"
if func_name != exp_func_name:
log.warning("The function name is {} rather than {}".format(func_name, exp_func_name))
if len(check_items) == 0:
raise Exception("No expect values found in the check task")
if check_items.get("db_name", None) is not None:
assert res["name"] == check_items.get("db_name")
if check_items.get("database.force.deny.writing", None) is not None:
if check_items.get("database.force.deny.writing") == "Missing":
assert "database.force.deny.writing" not in res
else:
assert res["database.force.deny.writing"] == check_items.get("database.force.deny.writing")
if check_items.get("database.force.deny.reading", None) is not None:
if check_items.get("database.force.deny.reading") == "Missing":
assert "database.force.deny.reading" not in res
else:
assert res["database.force.deny.reading"] == check_items.get("database.force.deny.reading")
if check_items.get("database.replica.number", None) is not None:
if check_items.get("database.replica.number") == "Missing":
assert "database.replica.number" not in res
else:
assert res["database.replica.number"] == check_items.get("database.replica.number")
if check_items.get("properties_length", None) is not None:
assert len(res) == check_items.get("properties_length")
return True
@staticmethod
def check_partition_property(partition, func_name, check_items):
exp_func_name = "init_partition"
if func_name != exp_func_name:
log.warning("The function name is {} rather than {}".format(func_name, exp_func_name))
if not isinstance(partition, Partition):
raise Exception("The result to check isn't partition type object")
if len(check_items) == 0:
raise Exception("No expect values found in the check task")
if check_items.get("name", None):
assert partition.name == check_items["name"]
if check_items.get("description", None):
assert partition.description == check_items["description"]
if check_items.get("is_empty", None):
assert partition.is_empty == check_items["is_empty"]
if check_items.get("num_entities", None):
assert partition.num_entities == check_items["num_entities"]
return True
@staticmethod
def check_rg_property(rg, func_name, check_items):
exp_func_name = "describe_resource_group"
if func_name != exp_func_name:
log.warning("The function name is {} rather than {}".format(func_name, exp_func_name))
if not isinstance(rg, ResourceGroupInfo):
raise Exception("The result to check isn't ResourceGroupInfo type object")
if len(check_items) == 0:
raise Exception("No expect values found in the check task")
if check_items.get("name", None):
assert rg.name == check_items["name"]
if check_items.get("capacity", None):
assert rg.capacity == check_items["capacity"]
if check_items.get("num_available_node", None):
assert rg.num_available_node == check_items["num_available_node"]
if check_items.get("num_loaded_replica", None):
assert dict(rg.num_loaded_replica).items() >= check_items["num_loaded_replica"].items()
if check_items.get("num_outgoing_node", None):
assert dict(rg.num_outgoing_node).items() >= check_items["num_outgoing_node"].items()
if check_items.get("num_incoming_node", None):
assert dict(rg.num_incoming_node).items() >= check_items["num_incoming_node"].items()
return True
@staticmethod
def check_search_results(search_res, func_name, check_items):
"""
target: check the search results
method: 1. check the query number
2. check the limit(topK) and ids
3. check the distance
expected: check the search is ok
"""
log.info("search_results_check: checking the searching results")
enable_milvus_client_api = check_items.get("enable_milvus_client_api", False)
pk_name = check_items.get("pk_name", ct.default_primary_field_name)
if func_name != 'search' and func_name != 'hybrid_search':
log.warning("The function name is {} rather than {} or {}".format(func_name, "search", "hybrid_search"))
if len(check_items) == 0:
raise Exception("No expect values found in the check task")
if check_items.get("_async", None):
if check_items["_async"]:
search_res.done()
search_res = search_res.result()
if check_items.get("output_fields", None):
assert set(search_res[0][0].entity.fields.keys()) == set(check_items["output_fields"])
original_entities = check_items.get("original_entities", None)
if original_entities is not None:
if not isinstance(original_entities, pandas.core.frame.DataFrame):
original_entities = pandas.DataFrame(original_entities)
pc.output_field_value_check(search_res, original_entities, pk_name=pk_name)
if len(search_res) != check_items["nq"]:
log.error("search_results_check: Numbers of query searched (%d) "
"is not equal with expected (%d)"
% (len(search_res), check_items["nq"]))
assert len(search_res) == check_items["nq"]
else:
log.info("search_results_check: Numbers of query searched is correct")
# log.debug(search_res)
nq_i = 0
for hits in search_res:
ids = []
distances = []
if enable_milvus_client_api:
for hit in hits:
ids.append(hit[pk_name])
distances.append(hit['distance'])
else:
ids = list(hits.ids)
distances = list(hits.distances)
if (len(hits) != check_items["limit"]) \
or (len(ids) != check_items["limit"]):
log.error("search_results_check: limit(topK) searched (%d) "
"is not equal with expected (%d)"
% (len(hits), check_items["limit"]))
assert len(hits) == check_items["limit"]
assert len(ids) == check_items["limit"]
else:
if check_items.get("ids", None) is not None:
ids_match = pc.list_contain_check(ids, list(check_items["ids"]))
if not ids_match:
log.error("search_results_check: ids searched not match")
assert ids_match
elif check_items.get("metric", None) is not None:
# verify the distances are already sorted
if check_items.get("metric").upper() in ["IP", "COSINE", "BM25"]:
assert distances == sorted(distances, reverse=True)
else:
assert distances == sorted(distances, reverse=False)
if check_items.get("vector_nq") is None or check_items.get("original_vectors") is None:
log.debug("skip distance check for knowhere does not return the precise distances")
else:
pass
else:
pass # just check nq and topk, not specific ids need check
nq_i += 1
log.info("search_results_check: limit (topK) and "
"ids searched for %d queries are correct" % len(search_res))
return True
@staticmethod
def check_search_iterator(search_res, func_name, check_items):
"""
target: check the search iterator results
method: 1. check the iterator number
2. check the limit(topK) and ids
3. check the distance
expected: check the search is ok
"""
log.info("search_iterator_results_check: checking the searching results")
if func_name != 'search_iterator':
log.warning("The function name is {} rather than {}".format(func_name, "search_iterator"))
search_iterator = search_res
expected_batch_size = check_items.get("batch_size", None)
expected_iterate_times = check_items.get("iterate_times", None)
pk_list = []
iterate_times = 0
while True:
try:
res = search_iterator.next()
iterate_times += 1
if not res:
log.info("search iteration finished, close")
search_iterator.close()
break
if expected_batch_size is not None:
assert len(res) <= expected_batch_size
if check_items.get("radius", None):
for distance in res.distances():
if check_items["metric_type"] == "L2":
assert distance < check_items["radius"]
else:
assert distance > check_items["radius"]
if check_items.get("range_filter", None):
for distance in res.distances():
if check_items["metric_type"] == "L2":
assert distance >= check_items["range_filter"]
else:
assert distance <= check_items["range_filter"]
pk_list.extend(res.ids())
except Exception as e:
assert check_items["err_msg"] in str(e)
return False
if expected_iterate_times is not None:
assert iterate_times <= expected_iterate_times
if expected_iterate_times == 1:
assert len(pk_list) == 0 # expected batch size =0 if external filter all
assert iterate_times == 1
return True
log.debug(f"check: total {len(pk_list)} results, set len: {len(set(pk_list))}, iterate_times: {iterate_times}")
assert len(pk_list) == len(set(pk_list)) != 0
return True
@staticmethod
def check_query_results(query_res, func_name, check_items):
"""
According to the check_items to check actual query result, which return from func_name.
:param: query_res: A list that contains all results
:type: list
:param func_name: Query API name
:type func_name: str
:param check_items: The items expected to be checked, including exp_res, with_vec
The type of exp_res value is as same as query_res
The type of with_vec value is bool, True value means check vector field, False otherwise
:type check_items: dict
"""
if func_name != 'query':
log.warning("The function name is {} rather than {}".format(func_name, "query"))
if not isinstance(query_res, list):
raise Exception("The query result to check isn't list type object")
if len(check_items) == 0:
raise Exception("No expect values found in the check task")
exp_res = check_items.get("exp_res", None)
with_vec = check_items.get("with_vec", False)
pk_name = check_items.get("pk_name", ct.default_primary_field_name)
vector_type = check_items.get("vector_type", "FLOAT_VECTOR")
if vector_type == DataType.FLOAT16_VECTOR:
for single_exp_res in exp_res:
single_exp_res['vector'] = single_exp_res['vector'] .tolist()
for single_query_result in query_res:
single_query_result['vector'] = np.frombuffer(single_query_result['vector'][0], dtype=np.float16).tolist()
if vector_type == DataType.BFLOAT16_VECTOR:
for single_exp_res in exp_res:
single_exp_res['vector'] = single_exp_res['vector'] .tolist()
for single_query_result in query_res:
single_query_result['vector'] = np.frombuffer(single_query_result['vector'][0], dtype=bfloat16).tolist()
if vector_type == DataType.INT8_VECTOR:
for single_exp_res in exp_res:
single_exp_res['vector'] = single_exp_res['vector'] .tolist()
for single_query_result in query_res:
single_query_result['vector'] = np.frombuffer(single_query_result['vector'][0], dtype=np.int8).tolist()
if exp_res is not None:
if isinstance(query_res, list):
assert pc.equal_entities_list(exp=exp_res, actual=query_res, primary_field=pk_name,
with_vec=with_vec)
return True
else:
log.error(f"Query result {query_res} is not list")
return False
log.warning(f'Expected query result is {exp_res}')
@staticmethod
def check_query_iterator(query_res, func_name, check_items):
"""
target: check the query results
method: 1. check the query number
2. check the limit(topK) and ids
3. check the distance
expected: check the search is ok
"""
log.info("query_iterator_results_check: checking the query results")
if func_name != 'query_iterator':
log.warning("The function name is {} rather than {}".format(func_name, "query_iterator"))
query_iterator = query_res
pk_list = []
while True:
res = query_iterator.next()
if len(res) == 0:
log.info("search iteration finished, close")
query_iterator.close()
break
pk_name = check_items.get("pk_name", ct.default_primary_field_name)
for i in range(len(res)):
pk_list.append(res[i][pk_name])
if check_items.get("limit", None):
assert len(res) <= check_items["limit"]
assert len(pk_list) == len(set(pk_list))
if check_items.get("count", None):
log.info(len(pk_list))
assert len(pk_list) == check_items["count"]
if check_items.get("exp_ids", None):
assert pk_list == check_items["exp_ids"]
log.info("check: total %d results" % len(pk_list))
return True
@staticmethod
def check_query_empty(query_res, func_name):
"""
Verify that the query result is empty
:param: query_res: A list that contains all results
:type: list
:param func_name: Query API name
:type func_name: str
"""
if func_name != 'query':
log.warning("The function name is {} rather than {}".format(func_name, "query"))
if not isinstance(query_res, list):
raise Exception("The query result to check isn't list type object")
assert len(query_res) == 0, "Query result is not empty"
@staticmethod
def check_query_not_empty(query_res, func_name):
"""
Verify that the query result is not empty
:param: query_res: A list that contains all results
:type: list
:param func_name: Query API name
:type func_name: str
"""
if func_name != 'query':
log.warning("The function name is {} rather than {}".format(func_name, "query"))
if not isinstance(query_res, list):
raise Exception("The query result to check isn't list type object")
assert len(query_res) > 0
@staticmethod
def check_distance(distance_res, func_name, check_items):
if func_name != 'calc_distance':
log.warning("The function name is {} rather than {}".format(func_name, "calc_distance"))
if not isinstance(distance_res, list):
raise Exception("The distance result to check isn't list type object")
if len(check_items) == 0:
raise Exception("No expect values found in the check task")
vectors_l = check_items["vectors_l"]
vectors_r = check_items["vectors_r"]
metric = check_items.get("metric", "L2")
sqrt = check_items.get("sqrt", False)
cf.compare_distance_2d_vector(vectors_l, vectors_r,
distance_res,
metric, sqrt)
return True
@staticmethod
def check_delete_compact_plan(compaction_plans, func_name, check_items):
"""
Verify that the delete type compaction plan
:param: compaction_plans: A compaction plan
:type: CompactionPlans
:param func_name: get_compaction_plans API name
:type func_name: str
:param check_items: which items you wish to check
plans_num represent the delete compact plans number
:type: dict
"""
to_check_func = 'get_compaction_plans'
if func_name != to_check_func:
log.warning("The function name is {} rather than {}".format(func_name, to_check_func))
if not isinstance(compaction_plans, CompactionPlans):
raise Exception("The compaction_plans result to check isn't CompactionPlans type object")
plans_num = check_items.get("plans_num", 1)
assert len(compaction_plans.plans) == plans_num
for plan in compaction_plans.plans:
assert len(plan.sources) == 1
assert plan.sources[0] != plan.target
@staticmethod
def check_merge_compact_plan(compaction_plans, func_name, check_items):
"""
Verify that the merge type compaction plan
:param: compaction_plans: A compaction plan
:type: CompactionPlans
:param func_name: get_compaction_plans API name
:type func_name: str
:param check_items: which items you wish to check
segment_num represent how many segments are expected to be merged, default is 2
:type: dict
"""
to_check_func = 'get_compaction_plans'
if func_name != to_check_func:
log.warning("The function name is {} rather than {}".format(func_name, to_check_func))
if not isinstance(compaction_plans, CompactionPlans):
raise Exception("The compaction_plans result to check isn't CompactionPlans type object")
segment_num = check_items.get("segment_num", 2)
assert len(compaction_plans.plans) == 1
assert len(compaction_plans.plans[0].sources) == segment_num
assert compaction_plans.plans[0].target not in compaction_plans.plans[0].sources
@staticmethod
def check_role_property(role, func_name, check_items):
exp_func_name = "create_role"
if func_name != exp_func_name:
log.warning("The function name is {} rather than {}".format(func_name, exp_func_name))
if not isinstance(role, Role):
raise Exception("The result to check isn't role type object")
if check_items is None:
raise Exception("No expect values found in the check task")
if check_items.get("name", None):
assert role.name == check_items["name"]
return True
@staticmethod
def check_permission_deny(res, actual=True):
assert actual is False
if isinstance(res, Error):
assert "permission deny" in res.message
else:
log.error("[CheckFunc] Response of API is not an error: %s" % str(res))
assert False
return True
@staticmethod
def check_auth_failure(res, actual=True):
assert actual is False
if isinstance(res, Error):
assert "auth check failure" in res.message
else:
log.error("[CheckFunc] Response of API is not an error: %s" % str(res))
assert False
return True
def check_insert_response(self, check_items):
# check request successful
self.assert_succ(self.succ, True)
# get insert count
real = check_items.get("insert_count", None) if isinstance(check_items, dict) else None
if real is None:
real = len(self.kwargs_dict.get("data", [[]])[0])
# check insert count
error_message = "[CheckFunc] Insert count does not meet expectations, response:{0} != expected:{1}"
assert self.response.insert_count == real, error_message.format(self.response.insert_count, real)
return True
@staticmethod
def check_describe_index_property(res, func_name, check_items):
"""
According to the check_items to check collection properties of res, which return from func_name
:param res: actual response of init collection
:type res: Collection
:param func_name: init collection API
:type func_name: str
:param check_items: which items expected to be checked, including name, schema, num_entities, primary
:type check_items: dict, {check_key: expected_value}
"""
exp_func_name = "describe_index"
if func_name != exp_func_name:
log.warning("The function name is {} rather than {}".format(func_name, exp_func_name))
if len(check_items) == 0:
raise Exception("No expect values found in the check task")
if check_items.get("json_cast_type", None) is not None:
assert res["json_cast_type"] == check_items.get("json_cast_type")
if check_items.get("index_type", None) is not None:
assert res["index_type"] == check_items.get("index_type")
if check_items.get("json_path", None) is not None:
assert res["json_path"] == check_items.get("json_path")
if check_items.get("field_name", None) is not None:
assert res["field_name"] == check_items.get("field_name")
if check_items.get("index_name", None) is not None:
assert res["index_name"] == check_items.get("index_name")
return True
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