################################################################### # Copyright (c) 2016 by TAOS Technologies, Inc. # All rights reserved. # # This file is proprietary and confidential to TAOS Technologies. # No part of this file may be reproduced, stored, transmitted, # disclosed or used in any form or by any means other than as # expressly provided by the written permission from Jianhui Tao # ################################################################### # -*- coding: utf-8 -*- import threading import taos import sys import json import time import random import requests import argparse import datetime import string from requests.auth import HTTPBasicAuth func_list = ['abs', 'acos', 'asin', 'atan', 'ceil', 'cos', 'floor', 'log', 'pow', 'round', 'sin', 'sqrt', 'tan', 'char_length', 'concat', 'concat_ws', 'length', 'lower', 'ltrim', 'rtrim', 'substr', 'upper', 'cast', 'to_iso8601', 'to_json', 'to_unixtimestamp', 'now', 'timediff', 'timetruncate', 'timezone', 'today', 'apercentile', 'avg', 'count', 'elapsed', 'leastsquares', 'spread', 'stddev', 'sum', 'hyperloglog', 'histogram', 'percentile', 'bottom', 'first', 'interp', 'last', 'last_row', 'max', 'min', 'mode', 'sample', 'tail', 'top', 'unique', 'csum', 'derivative', 'diff', 'irate', 'mavg', 'statecount', 'stateduration', 'twa', 'database', 'client_version', 'server_version', 'server_status'] condition_list = [ "where _c0 > now -10d ", 'interval(10s)', 'limit 10', 'group by', 'partition by', 'order by', 'fill(null)' ] where_list = ['_c0>now-10d', ' <50', 'like', ' is null', 'in'] class ConcurrentInquiry: # def __init__(self,ts=1500000001000,host='127.0.0.1',user='root',password='taosdata',dbname='test', # stb_prefix='st',subtb_prefix='t',n_Therads=10,r_Therads=10,probabilities=0.05,loop=5, # stableNum = 2,subtableNum = 1000,insertRows = 100): def __init__(self, ts, host, user, password, dbname, stb_prefix, subtb_prefix, n_Therads, r_Therads, probabilities, loop, stableNum, subtableNum, insertRows, mix_table, replay): self.n_numOfTherads = n_Therads self.r_numOfTherads = r_Therads self.ts = ts self.host = host self.user = user self.password = password self.dbname = dbname self.stb_prefix = stb_prefix self.subtb_prefix = subtb_prefix self.stb_list = [] self.subtb_list = [] self.stb_stru_list = [] self.subtb_stru_list = [] self.stb_tag_list = [] self.subtb_tag_list = [] self.probabilities = [1-probabilities, probabilities] self.ifjoin = [1, 0] self.loop = loop self.stableNum = stableNum self.subtableNum = subtableNum self.insertRows = insertRows self.mix_table = mix_table self.max_ts = datetime.datetime.now() self.min_ts = datetime.datetime.now() - datetime.timedelta(days=5) self.replay = replay def SetThreadsNum(self, num): self.numOfTherads = num def ret_fcol(self, cl, sql): # 返回结果的第一列 cl.execute(sql) fcol_list = [] for data in cl: fcol_list.append(data[0]) return fcol_list def r_stb_list(self, cl): # 返回超级表列表 sql = 'show '+self.dbname+'.stables' self.stb_list = self.ret_fcol(cl, sql) def r_subtb_list(self, cl, stablename): # 每个超级表返回2个子表 sql = 'select tbname from '+self.dbname+'.'+stablename+' limit 2;' self.subtb_list += self.ret_fcol(cl, sql) def cal_struct(self, cl, tbname): # 查看表结构 tb = [] tag = [] sql = 'describe '+self.dbname+'.'+tbname+';' cl.execute(sql) for data in cl: if data[3]: tag.append(data[0]) else: tb.append(data[0]) return tb, tag def r_stb_stru(self, cl): # 获取所有超级表的表结构 for i in self.stb_list: tb, tag = self.cal_struct(cl, i) self.stb_stru_list.append(tb) self.stb_tag_list.append(tag) def r_subtb_stru(self, cl): # 返回所有子表的表结构 for i in self.subtb_list: tb, tag = self.cal_struct(cl, i) self.subtb_stru_list.append(tb) self.subtb_tag_list.append(tag) def get_timespan(self, cl): # 获取时间跨度(仅第一个超级表) sql = 'select first(_c0),last(_c0) from ' + \ self.dbname + '.' + self.stb_list[0] + ';' print(sql) cl.execute(sql) for data in cl: self.max_ts = data[1] self.min_ts = data[0] def get_full(self): # 获取所有的表、表结构 host = self.host user = self.user password = self.password conn = taos.connect( host='%s' % host, user='%s' % user, password='%s' % password, ) cl = conn.cursor() self.r_stb_list(cl) for i in self.stb_list: self.r_subtb_list(cl, i) self.r_stb_stru(cl) self.r_subtb_stru(cl) self.get_timespan(cl) cl.close() conn.close() # query condition def con_where(self, tlist, col_list, tag_list): l = [] for i in range(random.randint(0, len(tlist))): c = random.choice(where_list) if c == '_c0>now-10d': rdate = self.min_ts + \ (self.max_ts - self.min_ts)/10 * random.randint(-11, 11) conlist = ' _c0 ' + \ random.choice(['<', '>', '>=', '<=', '<>'] ) + "'" + str(rdate) + "'" if self.random_pick(): l.append(conlist) else: l.append(c) elif '<50' in c: conlist = ' ' + random.choice(tlist) + random.choice( ['<', '>', '>=', '<=', '<>']) + str(random.randrange(-100, 100)) l.append(conlist) elif 'is null' in c: conlist = ' ' + \ random.choice(tlist) + \ random.choice([' is null', ' is not null']) l.append(conlist) elif 'in' in c: in_list = [] temp = [] for i in range(random.randint(0, 100)): temp.append(random.randint(-10000, 10000)) temp = (str(i) for i in temp) in_list.append(temp) temp1 = [] for i in range(random.randint(0, 100)): temp1.append( "'" + ''.join(random.sample(string.ascii_letters, random.randint(0, 10))) + "'") in_list.append(temp1) in_list.append(['NULL', 'NULL']) conlist = ' ' + \ random.choice(tlist) + ' in (' + \ ','.join(random.choice(in_list)) + ')' l.append(conlist) else: s_all = string.ascii_letters conlist = ' ' + \ random.choice(tlist) + " like \'%" + \ random.choice(s_all) + "%\' " l.append(conlist) return 'where '+random.choice([' and ', ' or ']).join(l) def con_interval(self, tlist, col_list, tag_list): interval = 'interval(' + str(random.randint(0, 20)) + \ random.choice(['a', 's', 'd', 'w', 'n', 'y']) + ')' return interval def con_limit(self, tlist, col_list, tag_list): rand1 = str(random.randint(0, 1000)) rand2 = str(random.randint(0, 1000)) return random.choice(['limit ' + rand1, 'limit ' + rand1 + ' offset '+rand2, ' slimit ' + rand1, ' slimit ' + rand1 + ' offset ' + rand2, 'limit '+rand1 + ' slimit ' + rand2, 'limit ' + rand1 + ' offset' + rand2 + ' slimit ' + rand1 + ' soffset ' + rand2]) def con_fill(self, tlist, col_list, tag_list): return random.choice(['fill(null)', 'fill(prev)', 'fill(none)', 'fill(LINEAR)']) def con_group(self, tlist, col_list, tag_list): rand_tag = random.randint(0, 5) rand_col = random.randint(0, 1) if len(tag_list): return 'group by '+','.join(random.sample(col_list, rand_col) + random.sample(tag_list, rand_tag)) else: return 'group by '+','.join(random.sample(col_list, rand_col)) def con_order(self, tlist, col_list, tag_list): return 'order by '+random.choice(tlist) def con_state_window(self, tlist, col_list, tag_list): return 'state_window(' + random.choice(tlist + tag_list) + ')' def con_session_window(self, tlist, col_list, tag_list): session_window = 'session_window(' + random.choice(tlist + tag_list) + ',' + str( random.randint(0, 20)) + random.choice(['a', 's', 'd', 'w', 'n', 'y']) + ')' return session_window def gen_subquery_sql(self): subsql, col_num = self.gen_query_sql(1) if col_num == 0: return 0 col_list = [] tag_list = [] for i in range(col_num): col_list.append("taosd%d" % i) tlist = col_list+['abc'] # 增加不存在的域'abc',是否会引起新bug con_rand = random.randint(0, len(condition_list)) func_rand = random.randint(0, len(func_list)) col_rand = random.randint(0, len(col_list)) t_rand = random.randint(0, len(tlist)) sql = 'select ' # select random.shuffle(col_list) random.shuffle(func_list) sel_col_list = [] col_rand = random.randint(0, len(col_list)) loop = 0 for i, j in zip(col_list[0:col_rand], func_list): # 决定每个被查询col的函数 alias = ' as ' + 'sub%d ' % loop loop += 1 pick_func = '' if j == 'leastsquares': pick_func = j+'('+i+',1,1)' elif j == 'top' or j == 'bottom' or j == 'percentile' or j == 'apercentile': pick_func = j+'('+i+',1)' else: pick_func = j+'('+i+')' if bool(random.getrandbits(1)): pick_func += alias sel_col_list.append(pick_func) if col_rand == 0: sql = sql + '*' else: sql = sql+','.join(sel_col_list) # select col & func sql = sql + ' from (' + subsql + ') ' con_func = [self.con_where, self.con_interval, self.con_limit, self.con_group, self.con_order, self.con_fill, self.con_state_window, self.con_session_window] sel_con = random.sample(con_func, random.randint(0, len(con_func))) sel_con_list = [] for i in sel_con: sel_con_list.append(i(tlist, col_list, tag_list)) # 获取对应的条件函数 # condition sql += ' '.join(sel_con_list) # print(sql) return sql def gen_query_sql(self, subquery=0): # 生成查询语句 tbi = random.randint(0, len(self.subtb_list) + len(self.stb_list)) # 随机决定查询哪张表 tbname = '' col_list = [] tag_list = [] is_stb = 0 if tbi > len(self.stb_list): tbi = tbi-len(self.stb_list) tbname = self.subtb_list[tbi-1] col_list = self.subtb_stru_list[tbi-1] tag_list = self.subtb_tag_list[tbi-1] else: tbname = self.stb_list[tbi-1] col_list = self.stb_stru_list[tbi-1] tag_list = self.stb_tag_list[tbi-1] is_stb = 1 tlist = col_list+tag_list+['abc'] # 增加不存在的域'abc',是否会引起新bug con_rand = random.randint(0, len(condition_list)) func_rand = random.randint(0, len(func_list)) col_rand = random.randint(0, len(col_list)) tag_rand = random.randint(0, len(tag_list)) t_rand = random.randint(0, len(tlist)) sql = 'select ' # select random.shuffle(col_list) random.shuffle(func_list) sel_col_list = [] col_rand = random.randint(0, len(col_list)) loop = 0 for i, j in zip(col_list[0:col_rand], func_list): # 决定每个被查询col的函数 alias = ' as ' + 'taos%d ' % loop loop += 1 pick_func = '' if j == 'leastsquares': pick_func = j+'('+i+',1,1)' elif j == 'top' or j == 'bottom' or j == 'percentile' or j == 'apercentile': pick_func = j+'('+i+',1)' else: pick_func = j+'('+i+')' if bool(random.getrandbits(1)) | subquery: pick_func += alias sel_col_list.append(pick_func) if col_rand == 0 & subquery: sql = sql + '*' else: sql = sql+','.join(sel_col_list) # select col & func if self.mix_table == 0: sql = sql + ' from ' + \ random.choice(self.stb_list+self.subtb_list)+' ' elif self.mix_table == 1: sql = sql + ' from '+random.choice(self.subtb_list)+' ' else: sql = sql + ' from '+random.choice(self.stb_list)+' ' con_func = [self.con_where, self.con_interval, self.con_limit, self.con_group, self.con_order, self.con_fill, self.con_state_window, self.con_session_window] sel_con = random.sample(con_func, random.randint(0, len(con_func))) sel_con_list = [] for i in sel_con: sel_con_list.append(i(tlist, col_list, tag_list)) # 获取对应的条件函数 # condition sql += ' '.join(sel_con_list) # print(sql) return (sql, loop) def gen_query_join(self): # 生成join查询语句 tbname = [] col_list = [] tag_list = [] col_intersection = [] tag_intersection = [] subtable = None if self.mix_table == 0: if bool(random.getrandbits(1)): subtable = True tbname = random.sample(self.subtb_list, 2) for i in tbname: col_list.append( self.subtb_stru_list[self.subtb_list.index(i)]) tag_list.append( self.subtb_stru_list[self.subtb_list.index(i)]) col_intersection = list( set(col_list[0]).intersection(set(col_list[1]))) tag_intersection = list( set(tag_list[0]).intersection(set(tag_list[1]))) else: tbname = random.sample(self.stb_list, 2) for i in tbname: col_list.append(self.stb_stru_list[self.stb_list.index(i)]) tag_list.append(self.stb_stru_list[self.stb_list.index(i)]) col_intersection = list( set(col_list[0]).intersection(set(col_list[1]))) tag_intersection = list( set(tag_list[0]).intersection(set(tag_list[1]))) elif self.mix_table == 1: subtable = True tbname = random.sample(self.subtb_list, 2) for i in tbname: col_list.append(self.subtb_stru_list[self.subtb_list.index(i)]) tag_list.append(self.subtb_stru_list[self.subtb_list.index(i)]) col_intersection = list( set(col_list[0]).intersection(set(col_list[1]))) tag_intersection = list( set(tag_list[0]).intersection(set(tag_list[1]))) else: tbname = random.sample(self.stb_list, 2) for i in tbname: col_list.append(self.stb_stru_list[self.stb_list.index(i)]) tag_list.append(self.stb_stru_list[self.stb_list.index(i)]) col_intersection = list( set(col_list[0]).intersection(set(col_list[1]))) tag_intersection = list( set(tag_list[0]).intersection(set(tag_list[1]))) con_rand = random.randint(0, len(condition_list)) col_rand = random.randint(0, len(col_list)) tag_rand = random.randint(0, len(tag_list)) sql = 'select ' # select sel_col_tag = [] col_rand = random.randint(0, len(col_list)) if bool(random.getrandbits(1)): sql += '*' else: sel_col_tag.append( 't1.' + str(random.choice(col_list[0] + tag_list[0]))) sel_col_tag.append( 't2.' + str(random.choice(col_list[1] + tag_list[1]))) sel_col_list = [] random.shuffle(func_list) if self.random_pick(): loop = 0 for i, j in zip(sel_col_tag, func_list): # 决定每个被查询col的函数 alias = ' as ' + 'taos%d ' % loop loop += 1 pick_func = '' if j == 'leastsquares': pick_func = j+'('+i+',1,1)' elif j == 'top' or j == 'bottom' or j == 'percentile' or j == 'apercentile': pick_func = j+'('+i+',1)' else: pick_func = j+'('+i+')' if bool(random.getrandbits(1)): pick_func += alias sel_col_list.append(pick_func) sql += ','.join(sel_col_list) else: sql += ','.join(sel_col_tag) sql = sql + ' from ' + \ str(tbname[0]) + ' t1,' + str(tbname[1]) + \ ' t2 ' # select col & func join_section = None temp = None if subtable: temp = random.choices(col_intersection) join_section = temp.pop() sql += 'where t1._c0 = t2._c0 and ' + 't1.' + \ str(join_section) + '=t2.' + str(join_section) else: temp = random.choices(col_intersection+tag_intersection) join_section = temp.pop() sql += 'where t1._c0 = t2._c0 and ' + 't1.' + \ str(join_section) + '=t2.' + str(join_section) return sql def random_pick(self): x = random.uniform(0, 1) cumulative_probability = 0.0 for item, item_probability in zip(self.ifjoin, self.probabilities): cumulative_probability += item_probability if x < cumulative_probability: break return item def gen_data(self): stableNum = self.stableNum subtableNum = self.subtableNum insertRows = self.insertRows t0 = self.ts host = self.host user = self.user password = self.password conn = taos.connect( host='%s' % host, user='%s' % user, password='%s' % password, ) cl = conn.cursor() cl.execute("drop database if exists %s;" % self.dbname) cl.execute("create database if not exists %s;" % self.dbname) cl.execute("use %s" % self.dbname) for k in range(stableNum): sql = "create table %s (ts timestamp, c1 int, c2 float, c3 bigint, c4 smallint, c5 tinyint, c6 double, c7 bool,c8 binary(20),c9 nchar(20),c11 int unsigned,c12 smallint unsigned,c13 tinyint unsigned,c14 bigint unsigned) \ tags(t1 int, t2 float, t3 bigint, t4 smallint, t5 tinyint, t6 double, t7 bool,t8 binary(20),t9 nchar(20), t11 int unsigned , t12 smallint unsigned , t13 tinyint unsigned , t14 bigint unsigned)" % (self.stb_prefix+str(k)) cl.execute(sql) for j in range(subtableNum): if j % 100 == 0: sql = "create table %s using %s tags(NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL)" % \ (self.subtb_prefix+str(k)+'_' + str(j), self.stb_prefix+str(k)) else: sql = "create table %s using %s tags(%d,%d,%d,%d,%d,%d,%d,'%s','%s',%d,%d,%d,%d)" % \ (self.subtb_prefix+str(k)+'_'+str(j), self.stb_prefix+str(k), j, j/2.0, j % 41, j % 51, j % 53, j*1.0, j % 2, 'taos'+str(j), '涛思'+str(j), j % 43, j % 23, j % 17, j % 3167) print(sql) cl.execute(sql) for i in range(insertRows): if i % 100 == 0: ret = cl.execute( "insert into %s values (%d , NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL)" % (self.subtb_prefix+str(k)+'_'+str(j), t0+i)) else: ret = cl.execute( "insert into %s values (%d , %d,%d,%d,%d,%d,%d,%d,'%s','%s',%d,%d,%d,%d)" % (self.subtb_prefix+str(k)+'_'+str(j), t0+i, i % 100, i/2.0, i % 41, i % 51, i % 53, i*1.0, i % 2, 'taos'+str(i), '涛思'+str(i), i % 43, i % 23, i % 17, i % 3167)) cl.close() conn.close() def rest_query(self, sql): # rest 接口 host = self.host user = self.user password = self.password port = 6041 url = "http://{}:{}/rest/sql".format(host, port) try: r = requests.post(url, data='use %s' % self.dbname, auth=HTTPBasicAuth('root', 'taosdata')) r = requests.post(url, data=sql, auth=HTTPBasicAuth('root', 'taosdata')) except: print("REST API Failure (TODO: more info here)") raise rj = r.json() if ('status' not in rj): raise RuntimeError("No status in REST response") if rj['status'] == 'error': # clearly reported error if ('code' not in rj): # error without code raise RuntimeError("REST error return without code") errno = rj['code'] # May need to massage this in the future # print("Raising programming error with REST return: {}".format(rj)) raise taos.error.ProgrammingError( rj['desc'], errno) # todo: check existance of 'desc' if rj['status'] != 'succ': # better be this raise RuntimeError( "Unexpected REST return status: {}".format( rj['status'])) nRows = rj['rows'] if ('rows' in rj) else 0 return nRows def query_thread_n(self, threadID): # 使用原生python接口查询 host = self.host user = self.user password = self.password conn = taos.connect( host='%s' % host, user='%s' % user, password='%s' % password, ) cl = conn.cursor() cl.execute("use %s;" % self.dbname) fo = open('bak_sql_n_%d' % threadID, 'w+') print("Thread %d: starting" % threadID) loop = self.loop while loop: try: if self.random_pick(): if self.random_pick(): sql, temp = self.gen_query_sql() else: sql = self.gen_subquery_sql() else: sql = self.gen_query_join() print("sql is ", sql) fo.write(sql+'\n') start = time.time() cl.execute(sql) cl.fetchall() end = time.time() print("time cost :", end-start) except Exception as e: print('-'*40) print( "Failure thread%d, sql: %s \nexception: %s" % (threadID, str(sql), str(e))) err_uec = 'Unable to establish connection' if err_uec in str(e) and loop > 0: exit(-1) loop -= 1 if loop == 0: break fo.close() cl.close() conn.close() print("Thread %d: finishing" % threadID) def query_thread_nr(self, threadID): # 使用原生python接口进行重放 host = self.host user = self.user password = self.password conn = taos.connect( host='%s' % host, user='%s' % user, password='%s' % password, ) cl = conn.cursor() cl.execute("use %s;" % self.dbname) replay_sql = [] with open('bak_sql_n_%d' % threadID, 'r') as f: replay_sql = f.readlines() print("Replay Thread %d: starting" % threadID) for sql in replay_sql: try: print("sql is ", sql) start = time.time() cl.execute(sql) cl.fetchall() end = time.time() print("time cost :", end-start) except Exception as e: print('-'*40) print( "Failure thread%d, sql: %s \nexception: %s" % (threadID, str(sql), str(e))) err_uec = 'Unable to establish connection' if err_uec in str(e) and loop > 0: exit(-1) cl.close() conn.close() print("Replay Thread %d: finishing" % threadID) def query_thread_r(self, threadID): # 使用rest接口查询 print("Thread %d: starting" % threadID) fo = open('bak_sql_r_%d' % threadID, 'w+') loop = self.loop while loop: try: if self.random_pick(): if self.random_pick(): sql, temp = self.gen_query_sql() else: sql = self.gen_subquery_sql() else: sql = self.gen_query_join() print("sql is ", sql) fo.write(sql+'\n') start = time.time() self.rest_query(sql) end = time.time() print("time cost :", end-start) except Exception as e: print('-'*40) print( "Failure thread%d, sql: %s \nexception: %s" % (threadID, str(sql), str(e))) err_uec = 'Unable to establish connection' if err_uec in str(e) and loop > 0: exit(-1) loop -= 1 if loop == 0: break fo.close() print("Thread %d: finishing" % threadID) def query_thread_rr(self, threadID): # 使用rest接口重放 print("Replay Thread %d: starting" % threadID) replay_sql = [] with open('bak_sql_r_%d' % threadID, 'r') as f: replay_sql = f.readlines() for sql in replay_sql: try: print("sql is ", sql) start = time.time() self.rest_query(sql) end = time.time() print("time cost :", end-start) except Exception as e: print('-'*40) print( "Failure thread%d, sql: %s \nexception: %s" % (threadID, str(sql), str(e))) err_uec = 'Unable to establish connection' if err_uec in str(e) and loop > 0: exit(-1) print("Replay Thread %d: finishing" % threadID) def run(self): print(self.n_numOfTherads, self.r_numOfTherads) threads = [] if self.replay: # whether replay for i in range(self.n_numOfTherads): thread = threading.Thread( target=self.query_thread_nr, args=(i,)) threads.append(thread) thread.start() for i in range(self.r_numOfTherads): thread = threading.Thread( target=self.query_thread_rr, args=(i,)) threads.append(thread) thread.start() else: for i in range(self.n_numOfTherads): thread = threading.Thread( target=self.query_thread_n, args=(i,)) threads.append(thread) thread.start() for i in range(self.r_numOfTherads): thread = threading.Thread( target=self.query_thread_r, args=(i,)) threads.append(thread) thread.start() parser = argparse.ArgumentParser() parser.add_argument( '-H', '--host-name', action='store', default='127.0.0.1', type=str, help='host name to be connected (default: 127.0.0.1)') parser.add_argument( '-S', '--ts', action='store', default=1500000000000, type=int, help='insert data from timestamp (default: 1500000000000)') parser.add_argument( '-d', '--db-name', action='store', default='test', type=str, help='Database name to be created (default: test)') parser.add_argument( '-t', '--number-of-native-threads', action='store', default=10, type=int, help='Number of native threads (default: 10)') parser.add_argument( '-T', '--number-of-rest-threads', action='store', default=10, type=int, help='Number of rest threads (default: 10)') parser.add_argument( '-r', '--number-of-records', action='store', default=100, type=int, help='Number of record to be created for each table (default: 100)') parser.add_argument( '-c', '--create-table', action='store', default='0', type=int, help='whether gen data (default: 0)') parser.add_argument( '-p', '--subtb-name-prefix', action='store', default='t', type=str, help='subtable-name-prefix (default: t)') parser.add_argument( '-P', '--stb-name-prefix', action='store', default='st', type=str, help='stable-name-prefix (default: st)') parser.add_argument( '-b', '--probabilities', action='store', default='0.05', type=float, help='probabilities of join (default: 0.05)') parser.add_argument( '-l', '--loop-per-thread', action='store', default='100', type=int, help='loop per thread (default: 100)') parser.add_argument( '-u', '--user', action='store', default='root', type=str, help='user name') parser.add_argument( '-w', '--password', action='store', default='taosdata', type=str, help='password') parser.add_argument( '-n', '--number-of-tables', action='store', default=1000, type=int, help='Number of subtales per stable (default: 1000)') parser.add_argument( '-N', '--number-of-stables', action='store', default=2, type=int, help='Number of stables (default: 2)') parser.add_argument( '-m', '--mix-stable-subtable', action='store', default=0, type=int, help='0:stable & substable ,1:subtable ,2:stable (default: 0)') parser.add_argument( '-R', '--replay', action='store', default=0, type=int, help='0:not replay ,1:replay (default: 0)') args = parser.parse_args() q = ConcurrentInquiry( args.ts, args.host_name, args.user, args.password, args.db_name, args.stb_name_prefix, args.subtb_name_prefix, args.number_of_native_threads, args.number_of_rest_threads, args.probabilities, args.loop_per_thread, args.number_of_stables, args.number_of_tables, args.number_of_records, args.mix_stable_subtable, args.replay) if args.create_table: q.gen_data() q.get_full() # q.gen_query_sql() q.run()