import pytest import pymilvus from common import common_func as cf from common import common_type as ct from common.common_type import CaseLabel, CheckTasks from common.milvus_sys import MilvusSys from utils.util_pymilvus import * from deploy.base import TestDeployBase from deploy.common import gen_index_param, gen_search_param from utils.util_log import test_log as log pymilvus_version = pymilvus.__version__ default_nb = ct.default_nb default_nq = ct.default_nq default_dim = ct.default_dim default_limit = ct.default_limit default_search_field = ct.default_float_vec_field_name default_search_params = ct.default_search_params default_int64_field_name = ct.default_int64_field_name default_float_field_name = ct.default_float_field_name default_bool_field_name = ct.default_bool_field_name default_string_field_name = ct.default_string_field_name binary_field_name = ct.default_binary_vec_field_name default_search_exp = "int64 >= 0" default_term_expr = f'{ct.default_int64_field_name} in [0, 1]' prefix = "deploy_test" TIMEOUT = 120 class TestActionFirstDeployment(TestDeployBase): """ Test case of action before reinstall """ def teardown_method(self, method): log.info(("*" * 35) + " teardown " + ("*" * 35)) log.info("[teardown_method] Start teardown test case %s..." % method.__name__) log.info("skip drop collection") @pytest.mark.tags(CaseLabel.L3) @pytest.mark.parametrize("replica_number", [0]) @pytest.mark.parametrize("index_type", ["HNSW", "BIN_IVF_FLAT"]) def test_task_all_empty(self, index_type, replica_number): """ before reinstall: create collection """ name = "" for k, v in locals().items(): if k in ["self", "name"]: continue name += f"_{k}_{v}" name = prefix + name + "_" + "empty" is_binary = False if "BIN" in name: is_binary = True collection_w = self.init_collection_general(insert_data=False, is_binary=is_binary, name=name)[0] if collection_w.has_index(): index_names = [index.index_name for index in collection_w.indexes] for index_name in index_names: collection_w.drop_index(index_name=index_name) @pytest.mark.tags(CaseLabel.L3) @pytest.mark.parametrize("replica_number", [0, 1, 2]) @pytest.mark.parametrize("is_compacted", ["is_compacted", "not_compacted"]) @pytest.mark.parametrize("is_deleted", ["is_deleted"]) @pytest.mark.parametrize("is_string_indexed", ["is_string_indexed", "not_string_indexed"]) @pytest.mark.parametrize("segment_status", ["only_growing", "all"]) @pytest.mark.parametrize("index_type", ["HNSW", "BIN_IVF_FLAT"]) #"IVF_FLAT", "HNSW", "BIN_IVF_FLAT" def test_task_all(self, index_type, is_compacted, segment_status, is_string_indexed, replica_number, is_deleted, data_size): """ before reinstall: create collection and insert data, load and search """ name = "" for k,v in locals().items(): if k in ["self", "name"]: continue name += f"_{k}_{v}" name = prefix + name log.info(f"collection name: {name}") self._connect() ms = MilvusSys() if len(ms.query_nodes) < replica_number: # this step is to make sure this testcase can run on standalone mode # or cluster mode which has only one querynode pytest.skip("skip test, not enough nodes") log.info(f"collection name: {name}, replica_number: {replica_number}, is_compacted: {is_compacted}," f"is_deleted: {is_deleted}, is_string_indexed: {is_string_indexed}," f"segment_status: {segment_status}, index_type: {index_type}") is_binary = True if "BIN" in index_type else False # params for search and query if is_binary: _, vectors_to_search = cf.gen_binary_vectors( default_nb, default_dim) default_search_field = ct.default_binary_vec_field_name else: vectors_to_search = cf.gen_vectors(default_nb, default_dim) default_search_field = ct.default_float_vec_field_name search_params = gen_search_param(index_type)[0] # init collection and insert with small size data without flush to get growing segment collection_w = self.init_collection_general(insert_data=True, is_binary=is_binary, nb=3000, is_flush=False, is_index=False, name=name)[0] # params for creating index if is_binary: default_index_field = ct.default_binary_vec_field_name else: default_index_field = ct.default_float_vec_field_name # create index for vector default_index_param = gen_index_param(index_type) collection_w.create_index(default_index_field, default_index_param) # create index for string if is_string_indexed == "is_string_indexed": default_string_index_params = {} default_string_index_name = "_default_string_idx" collection_w.create_index( default_string_field_name, default_string_index_params, index_name=default_string_index_name) # load for growing segment if replica_number >= 1: try: collection_w.release() except Exception as e: log.error( f"release collection failed: {e} maybe the collection is not loaded") collection_w.load(replica_number=replica_number, timeout=TIMEOUT) self.utility_wrap.wait_for_loading_complete(name) # delete data for growing segment delete_expr = f"{ct.default_int64_field_name} in {[i for i in range(0,10)]}" if is_deleted == "is_deleted": collection_w.delete(expr=delete_expr) # search and query for growing segment if replica_number >= 1: collection_w.search(vectors_to_search[:default_nq], default_search_field, search_params, default_limit, default_search_exp, check_task=CheckTasks.check_search_results, check_items={"nq": default_nq, "limit": default_limit}) output_fields = [ct.default_int64_field_name] collection_w.query(default_term_expr, output_fields=output_fields, check_task=CheckTasks.check_query_not_empty) # skip subsequent operations when segment_status is set to only_growing if segment_status == "only_growing": pytest.skip( "already get growing segment, skip subsequent operations") # insert with flush multiple times to generate multiple sealed segment for i in range(5): self.init_collection_general(insert_data=True, is_binary=is_binary, nb=data_size, is_flush=False, is_index=False, name=name) # at this step, all segment are sealed if pymilvus_version >= "2.2.0": collection_w.flush() else: collection_w.collection.num_entities # delete data for sealed segment and before index delete_expr = f"{ct.default_int64_field_name} in {[i for i in range(10,20)]}" if is_deleted == "is_deleted": collection_w.delete(expr=delete_expr) # delete data for sealed segment and after index delete_expr = f"{ct.default_int64_field_name} in {[i for i in range(20,30)]}" if is_deleted == "is_deleted": collection_w.delete(expr=delete_expr) if is_compacted == "is_compacted": collection_w.compact() # get growing segment before reload if segment_status == "all": self.init_collection_general(insert_data=True, is_binary=is_binary, nb=3000, is_flush=False, is_index=False, name=name) # reload after flush and creating index if replica_number > 0: collection_w.release() collection_w.load(replica_number=replica_number, timeout=TIMEOUT) self.utility_wrap.wait_for_loading_complete(name) # insert data to get growing segment after reload if segment_status == "all": self.init_collection_general(insert_data=True, is_binary=is_binary, nb=3000, is_flush=False, is_index=False, name=name) # search and query for sealed and growing segment if replica_number > 0: collection_w.search(vectors_to_search[:default_nq], default_search_field, search_params, default_limit, default_search_exp, check_task=CheckTasks.check_search_results, check_items={"nq": default_nq, "limit": default_limit}) output_fields = [ct.default_int64_field_name] collection_w.query(default_term_expr, output_fields=output_fields, check_task=CheckTasks.check_query_not_empty)