多进程TCP服务器

概述

实现了一个TCP服务器，该服务器可以使用预分叉工作者模型同时处理多个客户端。服务器提供对象识别功能，即客户端将向服务器发送图像，服务器将尝试识别图片内部的内容并将答案发送回客户端。

服务器体系结构：
这里写图片描述

代码如下：

server.py

import os
import sys
import socket
import random
import shutil
import logging
import numpy as np
import urllib.request
import multiprocessing
from multiprocessing import Process
from concurrent.futures import ThreadPoolExecutor
from keras_squeezenet import SqueezeNet
from keras.preprocessing import image
from keras.applications.imagenet_utils import preprocess_input
from keras.applications.imagenet_utils import decode_predictions

os.environ["TF_CPP_MIN_LOG_LEVEL"]="3"

#portNum = int(sys.argv[1])
portNum = 50002
#processNum = int(sys.argv[2])
processNum = 4

#create a logger with the program name and the level = DEBUG
logger = logging.getLogger(__name__)
#logger.setLevel(logging.DEBUG)

# set up logging to file
logging.basicConfig(
    format='[%(asctime)s] [%(levelname)s] [%(processName)s] [%(threadName)s] : %(message)s',
    level=logging.INFO)

#create a handler that will write log to stderr
file_handler = logging.FileHandler("server_log.txt")
file_handler.setLevel(logging.INFO)

logger.addHandler(file_handler)

server_socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
server_socket.bind(("localhost", portNum))
logger.info(("Start listening for connections on port {0!s}").format(portNum))
server_socket.listen(10)

socket_queue = multiprocessing.Queue()

def ThreadFunction(socket_queue,locker):
    executor = ThreadPoolExecutor(max_workers=4)
    while True:
        locker.acquire()
        # In the new process, recover the socket from the queue
        client_info = socket_queue.get()
        locker.release()
        # Submit a target function 'serve_client' with arguments to
        # the executor (note we cannot use the subclass defined above)
        executor.submit(ObejectRecognition,client_info)

def ObejectRecognition(client_info):
    client_socket = client_info[0]
    address = client_info[1]
    whole_url = ""
    while True:
        # Read data from client
        url = client_socket.recv(2048)
        logger.info(("Received Client {0!s}.").format(address))

        url = url.decode("utf-8")
        # if receive something,continue
        if (url != ""):
            # if receive [END],break
            if ("[END]" in url):
                whole_url = whole_url + url
                break
            else:
                whole_url = whole_url + url
        else:
            logger.info("Connection failed.")

    fileName = "images" + str(random.randint(1, 10000001)) + ".jpg"

    if(len(whole_url)!=0):
        whole_url = whole_url.rstrip("[END]")
        logger.info(("Client submitted URL {0!s}").format(whole_url))
        urllib.request.urlretrieve(whole_url, fileName)
        oldPath = os.getcwd() + "/" + fileName
        newPath = os.getcwd() + "/images/" + fileName
        shutil.move(oldPath, newPath)
        logger.info(("Image saved to images/{0!s}").format(fileName))

        model = SqueezeNet()
        img = image.load_img(newPath, target_size=(227, 227))
        x = image.img_to_array(img)
        x = np.expand_dims(x, axis=0)
        x = preprocess_input(x)
        preds = model.predict(x)
        result = decode_predictions(preds)
        most_probable = result[0][0]
        predict_data = (most_probable[1], most_probable[2])
        logger.info(("SqueezeNet result: {0!s}").format(predict_data))

        if(len(predict_data)!=0):
            send_data = predict_data[0] + "," +str(predict_data[1])
            send_data = send_data.encode("utf-8")
            client_socket.sendall(send_data)
        else:
            logger.info("Empty result data!")

    # Close the socket
    logger.info("Client connection closed.")
    client_socket.shutdown()
    client_socket.close()



if __name__ == '__main__':
    processes = []
    locker = multiprocessing.Lock()
    # create the specific number of child processes
    for i in range(processNum):
        child_process = Process(target=ThreadFunction, args=(socket_queue,locker,))
        logger.info(("Created process {0!s}").format(child_process.name))
        child_process.start()
        processes.append(child_process)
    while True:
        # accept connections from outside
        (client_socket, address) = server_socket.accept()
        logger.info(("Client {0!s} connected.").format(address))
        # handle = multiprocessing.reduction.reduce_socket(client_socket)
        submitObj = []
        submitObj.append(client_socket)
        submitObj.append(address)
        socket_queue.put(submitObj)

client.py

import socket
import sys
import logging

#ipAddress = sys.argv[1]
#portNum = int(sys.argv[2])
#url = sys.argv[3]
ipAddress = "localhost"
portNum = 50002
#url = "https://media1.britannica.com/eb-media/57/93557-004-13E80176.jpg"
#url = "https://www.natgeokids.com/wp-content/uploads/2014/04/panda-facts-5.jpg"
url = "data:image/jpeg;base64,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"

#create a logger with the program name and the level = DEBUG
logger = logging.getLogger(__name__)

# set up logging to file
logging.basicConfig(
    format='[%(asctime)s] [%(levelname)s] [%(processName)s] [%(threadName)s] : %(message)s',
    level=logging.INFO)

#create a handler that will write log to stderr
file_handler = logging.FileHandler("client_log.txt")
file_handler.setLevel(logging.INFO)
logger.addHandler(file_handler)

# create an INET TCP socket
soc = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
# connect to the server (change localhost to an IP address if necessary)
try:
    soc.connect((ipAddress, portNum))
    logger.info(("Connected to server at ({0!s}, {1!s})").format(ipAddress, portNum))
    # Send url to the server
    url = url + "[END]"
    url = url.encode("utf-8")
    soc.send(url)
    logger.info("URL sent to the server")

except:
    logger.info(("Cannot connect to server at {0!s},{1!s}").format(ipAddress, portNum))

while True:
    receive_data = soc.recv(2048)
    receive_data = receive_data.decode("utf-8")
    if (receive_data == ""):
        break
    else:
        tup = receive_data.split(",")
        logger.info("Server response:" + str(tup))

# Always close the socket after use
soc.close()

概述

server.py

client.py

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