import requests import concurrent.futures import time import sys from graph import generateGraph if len(sys.argv) != 2 or sys.argv[1] == '-h' or sys.argv[1] == '--help': print("Usage: python testes.py ") sys.exit(1) FRAMEWORK_NAME = sys.argv[1] URL_BASE = 'http://localhost:9080' ENDPOINTS = [ '/status/ok', '/image/load-image', ] num_requests = [10, 1000, 5000, 10_000, 50_000, 100_000, 500_000, 1_000_000] def send_request(url): success = False while not success: try: response = requests.get(url) except: continue success = response.status_code == 200 return response.status_code def getFileName(endpoint): endpoint = endpoint.replace('/', '_') return f"{FRAMEWORK_NAME}_{endpoint}.csv" def record(filename, requests, reqpersec): with open(filename, "a") as file: file.write(f"{requests},{reqpersec}\n") def run_tests(endpoint): filename = getFileName(endpoint) for num_request in range(0, 50_000, 1000): if num_request <= 0: continue with concurrent.futures.ThreadPoolExecutor(max_workers=10) as executor: url = f'{URL_BASE}{endpoint}' start_time = time.time() futures = [] #with requests.Session() as session: # futures = [executor.submit(send_request, session, url) for _ in range(num_request)] futures = [executor.submit(send_request, url) for _ in range(num_request)] concurrent.futures.wait(futures) elapsed_time = time.time() - start_time print(f"{num_request}: {elapsed_time:.2f} seconds. {elapsed_time/num_request:.4f} seconds per request. {num_request/elapsed_time:.2f} requests per second.") record(filename, num_request, f"{num_request/elapsed_time:.2f}") generateGraph(filename, FRAMEWORK_NAME, endpoint) time.sleep(3) for endpoint in ENDPOINTS: run_tests(endpoint)