2018-2019-1 实验三 并发程序
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实验三 并发程序
任务一
学习使用Linux命令wc(1)
基于Linux Socket程序设计实现wc(1)服务器(端口号是你学号的后6位)和客户端
客户端传一个文本文件给服务器
服务器返加文本文件中的单词数
server:
include <netinet/in.h>
include <sys/types.h>
include <sys/socket.h>
include <stdio.h>
include <stdlib.h>
include <string.h>
include <unistd.h>
define HELLO_WORLD_SERVER_PORT 5213
define LENGTH_OF_LISTEN_QUEUE 20
define BUFFER_SIZE 1024
define FILE_NAME_MAX_SIZE 512
define FILE_WORDS_NUMBER 32
int wc_func(char *file_name);
int main(int argc, char **argv)
{
struct sockaddr_in server_addr;
bzero(&server_addr,sizeof(server_addr));
server_addr.sin_family = AF_INET;
server_addr.sin_addr.s_addr = htons(INADDR_ANY);
server_addr.sin_port = htons(HELLO_WORLD_SERVER_PORT);
int server_socket = socket(PF_INET,SOCK_STREAM,0);
if( server_socket < 0)
{
printf("Create Socket Failed!");
exit(1);
}
if( bind(server_socket,(struct sockaddr*)&server_addr,sizeof(server_addr)))
{
printf("Server Bind Port : %d Failed!", HELLO_WORLD_SERVER_PORT);
exit(1);
}
if ( listen(server_socket, LENGTH_OF_LISTEN_QUEUE) )
{
printf("Server Listen Failed!");
exit(1);
}
while (1)
{
struct sockaddr_in client_addr;
socklen_t length = sizeof(client_addr);
int new_server_socket = accept(server_socket,(struct sockaddr*)&client_addr,&length);
if ( new_server_socket < 0)
{
printf("Server Accept Failed!
");
break;
}
char file_name[FILE_NAME_MAX_SIZE+1];
bzero(file_name, FILE_NAME_MAX_SIZE+1);
char buffer[BUFFER_SIZE];
bzero(buffer,BUFFER_SIZE);
recv(new_server_socket,file_name,BUFFER_SIZE,0);
FILE * fp = fopen(file_name,"w");
if(NULL == fp )
{
printf("File: %s Can Not Open To Write
", file_name);
exit(1);
}
bzero(buffer,BUFFER_SIZE);
int len = 0;
while( len = recv(new_server_socket,buffer,BUFFER_SIZE,0))
{
if(len < 0)
{
printf("Recieve Data From Client %s Failed!
", argv[1]);
break;
}
int write_length = fwrite(buffer,sizeof(char),len,fp);
if (write_length<len)
{
printf("File: %s Write Failed
", file_name);
break;
}
bzero(buffer,BUFFER_SIZE);
}
printf("File: %s Transfer Finished!
",file_name);
fclose(fp);
close(new_server_socket);
}
close(server_socket);
return 0;}
client:
include <netinet/in.h>
include <sys/types.h>
include <sys/socket.h>
include <stdio.h>
include <stdlib.h>
include <string.h>
include <unistd.h>
define HELLO_WORLD_SERVER_PORT 5213
define BUFFER_SIZE 1024
define FILE_NAME_MAX_SIZE 512
define FILE_WORDS_NUMBER 32
int main(int argc, char **argv)
{
if (argc != 2)
{
printf("Usage: ./%s ServerIPAddress
",argv[0]);
exit(1);
}
struct sockaddr_in client_addr;
bzero(&client_addr,sizeof(client_addr));
client_addr.sin_family = AF_INET;
client_addr.sin_addr.s_addr = htons(INADDR_ANY);//INADDR_ANY表示自动获取本机地址
client_addr.sin_port = htons(0);
int client_socket = socket(AF_INET,SOCK_STREAM,0);
if( client_socket < 0)
{
printf("Create Socket Failed!
");
exit(1);
}
if( bind(client_socket,(struct sockaddr*)&client_addr,sizeof(client_addr)))
{
printf("Client Bind Port Failed!
");
exit(1);
}
struct sockaddr_in server_addr;
bzero(&server_addr,sizeof(server_addr));
server_addr.sin_family = AF_INET;
if(inet_aton(argv[1],&server_addr.sin_addr) == 0)
{
printf("Server IP Address Error!
");
exit(1);
}
server_addr.sin_port = htons(HELLO_WORLD_SERVER_PORT);
socklen_t server_addr_length = sizeof(server_addr);
if(connect(client_socket,(struct sockaddr*)&server_addr, server_addr_length) < 0)
{
printf("Can Not Connect To %s!
",argv[1]);
exit(1);
}
char file_name[FILE_NAME_MAX_SIZE+1];
bzero(file_name, FILE_NAME_MAX_SIZE+1);
printf("Please Input File Name On Server: ");
scanf("%s", file_name);
char buffer[BUFFER_SIZE];
bzero(buffer,BUFFER_SIZE);
strncpy(buffer, file_name, strlen(file_name)>BUFFER_SIZE?BUFFER_SIZE:strlen(file_name));
send(client_socket,buffer,BUFFER_SIZE,0);
FILE * fp = fopen(file_name,"r");
if(NULL == fp )
{
printf("File: %s Not Found
", file_name);
exit(1);
}
else
{
bzero(buffer, BUFFER_SIZE);
int file_block_length = 0;
while( (file_block_length = fread(buffer,sizeof(char),BUFFER_SIZE, fp))>0)
{
if(send(client_socket,buffer,file_block_length,0)<0)
{
printf("Send File: %s Failed
", file_name);
break;
}
bzero(buffer, BUFFER_SIZE);
}
}
printf("Send File: %s To Server[%s] Finished
",file_name, argv[1]);
printf("The File has %d words.
", wc_func(file_name));
fclose(fp);
close(client_socket);
return 0;}
int wc_func(char file_name)
{
int t;
int w = 0;
int state = 0;
FILE in;
if((in = fopen(file_name,"r"))==NULL)
{
printf("wc %s:no this file or dir
",file_name);
return;
}
while((t=fgetc(in))!=EOF)
{
if(t==‘
‘||t==‘ ‘||t==‘
‘) {
state = 0;
continue;
} else {
if(state == 0) {
state = 1;
w++;
}
continue;
}
任务二
使用多线程实现wc服务器并使用同步互斥机制保证计数正确
上方提交代码
下方提交测试
对比单线程版本的性能,并分析原因
原因:所有数据结构的生存期,以及对这些数据结构的access,都用这一根逻辑线程。
不需要考虑数据结构的race。
把任何耗时的操作都给其他线程(IO线程、定时器线程,DB线程等)做,做完之后向事件队列(多线程安全的队列,其他线程是生产者,逻辑线程是消费者)丢事件。
多线程逻辑设计的思路:
所有数据结构的生存期,以及对这些数据结构的access,不一定在一根线程。
需要考虑数据结构的race。
网络事件、定时器事件唤醒工作线程(一般通过iocp或者epoll来唤醒)执行所有工作,一般不需要交换到其他线程。
很显然,单线程逻辑多了一层事件队列交换,会增加延迟,以及所有的逻辑都在一根线程上跑,逻辑被阻塞也会带来延迟。
其实吞吐量对于rpc来说,是个宏观的概念,尽可能快地消费网络消息就会提升吞吐量。
对于高并发的程序,是无法忍受单线程逻辑
server:
include <stdio.h>
include <fcntl.h>
include <pthread.h>
include <sys/stat.h>
include <sys/types.h>
include <sys/socket.h>
include <arpa/inet.h>
define PORT 8887
define BUFF_SIZE 1024
define LISTEN_SIZE 20
typedef struct{
char type;
char data[BUFF_SIZE];
}m_package;
void* process_client();
int main(){
int ss = create_tcp_server(PORT);
if(-1 == ss)
exit(-1);
while(1){
//接受客户端连接
socklen_t addrlen = sizeof(struct sockaddr);
struct sockaddr_in client_addr; //客户端地址结构
int client_sock = accept(ss, (struct sockaddr*)&client_addr, &addrlen);
if(client_sock < 0){
printf("accept error
");
}
printf("accept success
");
pthread_t pid;
if(pthread_create(&pid, NULL, process_client, &client_sock) < 0){
printf("pthread_create error
");
}
}}
//处理客户端程序
void process_client(void arg){
int size = 0, fd, count = 0, sockid = (int)arg;
m_package pac;
long total = 0, cur = 0;
//循环接收文件
while(1) {
memset(&pac, 0, sizeof(pac));
size = read(sockid, &pac, sizeof(pac));
if(size > 0){
if (pac.type == 1){
fd = open(pac.data, O_CREAT|O_WRONLY, 0777);
if(-1 == fd){
printf("open file error!
");
continue;
}
count = total = cur = 0;
}
else if (pac.type == 2){
cur += write(fd, pac.data, strlen(pac.data));
if(count++ % 5000 == 0){
printf("recv from client < %d > : %.01lf%
", sockid, cur * 100.0 / total);
count = 0;
}
}
else if (pac.type == 3){
printf("recv from client < %d > : 100.0%
", sockid);
printf("recv success
");
close(fd);
}
else if(pac.type == 4){//文件长度
total = strtol(pac.data, NULL, 10);
printf("%ld
", total);
}
}else{
printf("client disconnected
");
close(sockid);
break;
}
}
return 0;
}
int start_server(int port, int type){
//建立服务器套接字
int ss = socket(AF_INET, type, 0);
if(ss < 0){
printf("create socket error
");
return -1;
}
//设置服务器地址
struct sockaddr_in server_addr; //服务器地址结构
bzero(&server_addr, sizeof(struct sockaddr_in)); //清零
server_addr.sin_family = AF_INET; //协议族
server_addr.sin_addr.s_addr = htonl(INADDR_ANY); //ip地址
server_addr.sin_port = htons(port); //端口
//绑定地址结构到套接字描述符
if(bind(ss, (struct sockaddr*)&server_addr, sizeof(server_addr)) < 0){
printf("bind error
");
return -1;
}
//TCP
if(SOCK_STREAM == type){
//设置侦听
if(listen(ss, LISTEN_SIZE) < 0){
printf("listen error
");
return -1;
}
printf("tcp server start
");
}
else
printf("udp server start
");
return ss;}
int create_tcp_server(int port){
start_server(port, SOCK_STREAM);
}
int create_udp_server(int port){
start_server(port, SOCK_DGRAM);
}
client:#include <stdio.h>
include <fcntl.h>
include <pthread.h>
include <sys/stat.h>
include <sys/types.h>
include <sys/socket.h>
include <arpa/inet.h>
define PORT 8887
define BUFF_SIZE 1024
define LISTEN_SIZE 20
typedef struct{
char type;
char data[BUFF_SIZE];
}m_package;
int main(){
//创建连接
int sock_fd = connect_tcp("127.0.0.1", PORT);
if(-1 == sock_fd)
return -1;
m_package pac;
int fd, cur = 0, count = 0;
long filesize = 0;
while(1){
//打开文件
memset(&pac, 0, sizeof(pac));
pac.type = 1;
// strcpy(pac.data, "/home/SKZH/a.txt");
scanf("%s", pac.data);
//获取文件信息
struct stat sfile;
stat(pac.data, &sfile );
filesize = sfile.st_size;
time_t t;
long begin = time(&t);
cur = count = 0;
fd = open(pac.data, O_RDONLY);
if(-1 == fd){
printf("file open error
");
continue;
}
//读取文件并发送
//发送文件名
strcpy(pac.data, strrchr(pac.data, ‘/‘) + 1);
write(sock_fd, &pac, sizeof(pac));
memset(&pac, 0, sizeof(pac));
//发送文件长度
pac.type = 4;
sprintf(pac.data,"%ld",filesize);
write(sock_fd, &pac, sizeof(pac));
memset(&pac, 0, sizeof(pac));
int read_len = 0;
while((read_len = read(fd, pac.data, BUFF_SIZE)) > 0){
pac.type = 2;
write(sock_fd, &pac, sizeof(pac));
memset(&pac, 0, sizeof(pac));
cur += read_len;
if(count++ % 5000 == 0){
count = 0;
printf("send to server : %.1lf\\%
", cur * 100.0 / filesize);
}
}
//发送结束标记
memset(&pac, 3, sizeof(pac));
write(sock_fd, &pac, BUFF_SIZE + 1);
close(fd);
printf("send to server : 100.0\\%
");
printf("file size : %d B
", filesize);
printf("time : %ld ms
", time(&t) - begin);
printf("send file success
");
printf("------------------------
");
}
close(sock_fd);}
int connectsock(char* server_ip, int server_port, int type){
int sock_fd = socket(AF_INET, type, 0);
if(-1 == sock_fd){
printf("create socket error
");
return -1;
}
struct sockaddr_in server_addr;
//设置服务器地址
bzero(&server_addr, sizeof(server_addr));
server_addr.sin_family = AF_INET;
server_addr.sin_addr.s_addr = htonl(INADDR_ANY);
server_addr.sin_port = htons(server_port);
inet_pton(AF_INET, server_ip, &server_addr.sin_addr);
//连接服务器
if(-1 == connect(sock_fd, (struct sockaddr*)&server_addr, sizeof(struct sockaddr_in))){
printf("connect server error
");
return -1;
}
printf("connect server success
");
return sock_fd;}
int connect_tcp(char* server_ip, int server_port){
return connectsock(server_ip, server_port, SOCK_STREAM);
}
int connect_udp(char* server_ip, int server_port){
return connectsock(server_ip, server_port, SOCK_DGRAM);
}
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