简单实现linux聊天室程序

这篇文章主要介绍了简单实现linux聊天室程序的详细代码,帮助大家了解聊天室的实现原理,感兴趣的小伙伴们可以参考一下

花了很长时间用来练习掌握linux上socket的一个聊天室程序,可以实现的哦。
具体代码如下

代码一:

#ifndef _I_H
 
#define _I_H
 
#include <math.h>
#include <stdio.h>
#include <sys/socket.h>
#include <arpa/inet.h>
#include <netinet/in.h>
#include <unistd.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <stdlib.h>
#include <errno.h>
#include <string.h>
#include <inttypes.h>
#include <time.h>
#include <sys/ioctl.h> 
#include <net/if.h>
#include <signal.h>
#include <ncurses.h>
#include <math.h>
 
#define SEVR_IP   "127.0.0.1"
#define SEVR_PORT  8081
#define CNTNT_LEN  150
#define MSG_LEN   sizeof(struct msg)
#define ADDR_LEN  sizeof(struct sockaddr)
#define USR_LEN   sizeof(struct user)
#define PRT_LEN   8
#define HSTR_LEN  sizeof(struct chat_history)
 
/* declare Global variables */
int mainfd;/* used as chat histroy file handle*/
int sockfd;/* used as socket local handle */
int count;
struct sockaddr_in server;
 
/* msg is used for communicating message */
struct msg
{
  int flag; /* flag meaning:1,ordinary; 2,log msg; 3,reg msg, other,file*/
  int id_from;
  int id_to;
  char content[CNTNT_LEN];
  char append[10]; 
};
 
/* user is used information list */
struct user
{
  int id;
  char name[10];
  char password[10];
  char *p_chatlog;
  struct sockaddr user_addr; 
};
/* chat_history used for reading chat history */
struct chat_history
{
  char content[CNTNT_LEN];
  char time[25];
  int to;
  int from;
  int count;
};
 
/* i_functions below is funtions needed by both client and sever */
extern int i_saveto_chat(struct msg *pmsg);
 
int i_clean_stdin ()
{
  while ('\n' == getchar())
  {
    continue;
  }
 
  return(0);
}
 
int i_print(char *pmsg, int size)
{
  int i = 1;
 
  for (i; i<= size; i++)
  {
    if (*pmsg != '\n')
    {
      printf("%c", *pmsg);
      pmsg ++;
    }
    else
    {
      return(0);
    }
  }
 
  return(0);
}
int i_input(char *p_input)
{
  char c = '\0';
  int i; 
 
  for (i = 0; i < CNTNT_LEN; i++)
  {
    p_input[i] = getchar();
    if (p_input[i] =='\n')
    {
      return(0);   
    }    
  }
 
  printf("you have input long enough!\n");
  return(0);
}
int i_socket(int domain, int type, int protocol)
{
  int fd; 
 
  if ((fd = socket(domain, type, protocol)) == -1)
  {
    perror("creat socket error:");
    exit(1);
  }
   
  return(fd); 
}
 
int i_bind(int fd, const struct sockaddr *addr, int namelen)
{
  if (-1 == bind(fd, addr, namelen))
  {
    perror("i_bind error:");
    exit(1);
  }
   
  return (0);
}
 
int i_recvfrom(int fd, void *buf, size_t len, int flags, 
    struct sockaddr *addr, int *size)
{  
  if (-1 == recvfrom(fd, buf, len, flags, addr, size))
  {
    perror("i_recvfrom error:");
    exit(1);  
  }
   
  return(0);
}
 
int i_sendto(int fd, void *buf, size_t len, int flags,
    struct sockaddr *addr, int size)
{
  if (-1 == sendto(fd, buf, len, flags, addr, size))
  {
    perror("i_sendto error");
    exit(1);  
  }
   
  return (0);
}
 
int i_open(const char *pathname, int flags)
{
  int fd;
  if ((fd = open(pathname, flags)) == -1)
  {
    perror("open_failed");
    exit(1);
  }
   
  return (fd);
}
int i_read(int fd, void *msg, int len)
{
  if(-1 == read(fd, msg, len))
  {
    perror("i_read error");
    exit(1);
  }
  return(0);
}
int i_write(int fd, void *msg, int len)
{
  if (-1 == write(fd, msg, len))
  {
    perror("i_write error");
    exit(0);
  }
  return(0);
}
 
/* init a socket,file and server addr */
int i_init()
{
  mainfd = i_open("./chat_log", O_RDWR|O_CREAT);
  sockfd = i_socket(AF_INET, SOCK_DGRAM, 0);
 
  /* initialize server address */
  bzero(&server, sizeof(server));
  server.sin_family = AF_INET;
  inet_pton(AF_INET, "127.0.0.1", &server.sin_addr);
  server.sin_port = htons(SEVR_PORT);
 
  perror("init");
   
  return (0);
}
 
char *i_get_time()
{
  time_t time_now;
  time(&time_now);
 
  return(ctime(&time_now));
}
int i_lseek(int fd, off_t size, int position)
{
  if (-1 == lseek(fd, size, position))
  {
    perror("seek error");
    exit(1);
  }
  return(0);
}
int i_saveto_chat(struct msg *pmsg)
{  
  struct chat_history hstr;
 
 
  bzero(&hstr, HSTR_LEN);
  count = count + 1;
  hstr.count =count;
  hstr.from = pmsg->id_from;
  hstr.to = pmsg->id_to;
  strncpy(hstr.content, pmsg->content, CNTNT_LEN);
  strncpy(hstr.time, i_get_time(), 25);
 
  i_lseek(mainfd, 0, SEEK_END);
 
  i_write(mainfd, &hstr, HSTR_LEN);
 
  return(0);
}
 
int i_print_history(int len, int i)
{
  struct chat_history chat_reader;
  int j;
  int position;
   
  bzero(&chat_reader, HSTR_LEN);
  if (i != 0)
  {
    position = len*i*HSTR_LEN;
    i_lseek(mainfd, position, SEEK_END);
  }
  else
  {
    position = len*i*HSTR_LEN;
 
    i_lseek(mainfd, HSTR_LEN, SEEK_SET);
  }
     
  for (j = 1; j <= len; j++)
  {
     
    i_read(mainfd, &chat_reader, HSTR_LEN);
    printf("\n#item%d:id%dto id%d \n", j,
      chat_reader.from, chat_reader.to);
    i_print(chat_reader.content, CNTNT_LEN);
    printf("\n Time:%s\n", chat_reader.time);
  }
 
  return(0);
}
 
#endif

代码二:

#include "i.h"
 
int user_list_fd;
 
/* start:initialization */
int init()
{
  i_init();
 
  user_list_fd = i_open("./user_list", O_RDWR|O_CREAT);
 
  struct user usr;
  /* init the user list file's fist user to 0*/
  memset((struct user*)&usr, '\0', sizeof(struct user));
  i_lseek(user_list_fd, 0, SEEK_SET);
  i_write(user_list_fd, (char*)&usr, USR_LEN);
 
  /* bind the struct sockaddr_in server to the sockfd */
  i_bind(sockfd, (struct sockaddr*)&server, ADDR_LEN);  
 
  struct chat_history apple; 
 
  bzero(&apple, HSTR_LEN);
  i_lseek(mainfd, 0, SEEK_SET);
  i_write(mainfd, &apple, HSTR_LEN);
  i_lseek(mainfd, -HSTR_LEN, SEEK_END);
  i_read(mainfd, &apple, HSTR_LEN);
  count = apple.count;
 
  return(0);
}
/* end:initialization */
 
/* start:message control */
int send_msg(struct msg *msg_recv, struct sockaddr *addr)
{
  int i;
  struct user usr;
 
  /* a common message come */
  printf("a ordinar message come !\n");
   
  i = msg_recv->id_to;
  i_lseek(user_list_fd, i*USR_LEN, SEEK_SET);
  i_read(user_list_fd, &usr, USR_LEN);
  strncpy(msg_recv->append, usr.name, 10);
 
  i_sendto(sockfd, msg_recv, MSG_LEN, 0,
    &(usr.user_addr), ADDR_LEN);
   
  printf("id%d send a message to id%d sucess!\n", msg_recv->id_from, msg_recv->id_to);
 
  return(0);
}
int check_login(struct msg *msg_recv, struct sockaddr *addr)
{
  int i = msg_recv->id_from;;
  struct user usr;
 
  /* a login requet */
  printf("a login request come!\n");
   
  /* get the id's information */
  i_lseek(user_list_fd, i*USR_LEN, SEEK_SET);
  i_read(user_list_fd, &usr, USR_LEN);
 
  int n;
  n = strcmp(usr.password, msg_recv->content);
  /* 如果验证成功,则发送成功信息 */
  if (n == 0)
  {
    /* save user new address */
    i_lseek(user_list_fd, -USR_LEN, SEEK_CUR);
    usr.user_addr = *addr;
    i_write(user_list_fd, &usr, USR_LEN);
    /* tell user pass */
    i_sendto(sockfd, (struct msg*)msg_recv, sizeof(struct msg), 0,
      &(usr.user_addr), ADDR_LEN);
     
  }
  else
  {
    /* 出错的话的respond */
    if (0 != n)
    {
      printf("id %d login error.\n", i);
      bzero(msg_recv->content, CNTNT_LEN);     
      msg_recv->flag = -1;
      i_sendto(sockfd, (struct msg*)msg_recv, sizeof(struct msg), 0,
        &(usr.user_addr), ADDR_LEN);
     
    }
    return(1);
  }
  printf("Id %d login sucess!\n", i); 
   
  return(0);
}
int reg_user(struct msg *msg_recv, struct sockaddr *addr)
{
  struct user usr;
   
  printf("a regit requet come:\n");
 
  /* find the last user and hava the please to add a new user */
  int n;
  i_lseek(user_list_fd, -USR_LEN, SEEK_END);
  i_read(user_list_fd, &usr, USR_LEN);
  /* 把新用户的信息赋值到usr然后填入到user list file中 */
  const char *name;
  const char *password;
 
  name = &(msg_recv->content[0]);
  password = &(msg_recv->content[10]);
  strcpy((usr.name), name);
  strcpy(usr.password, password);
  memcpy(&(usr.user_addr),addr, ADDR_LEN);
 
  usr.id = (usr.id + 1);
  i_lseek(user_list_fd, 0, SEEK_END);
  i_write(user_list_fd, &usr, USR_LEN);
 
  msg_recv->id_from = usr.id;
  /* regist to the user list then tell the user reg success */
  i_sendto(sockfd, (struct msg*)msg_recv, sizeof(struct msg), 0,
    addr, ADDR_LEN); 
 
  printf("Id %d regist sucess!\n", usr.id);
 
  return(0);
   
}
int msg_cntl()
{
  struct msg msg_recv;
  struct sockaddr addr_recv;
 
  printf("begin listen input...\n");
  int size = ADDR_LEN;
 
  for (;;)
  {
    bzero(&msg_recv, MSG_LEN);
    i_recvfrom(sockfd, &msg_recv, sizeof(struct msg), 0,
      &addr_recv, &size);
    printf("message received...\n");
 
    i_saveto_chat(&msg_recv);
 
    switch (msg_recv.flag)
    {
      case 1 :
        send_msg(&msg_recv,(struct sockaddr*)&addr_recv);/* send ordinary chat */
        break;
      case 2 :
        check_login(&msg_recv, (struct sockaddr*)&addr_recv);
        break;     
      case 3 :
        reg_user(&msg_recv, (struct sockaddr*)&addr_recv);
        break;
      default :
        break;
    }
  }
  return(0);
}
/* end:message control*/
/* start:exit_sys()*/
int exit_sys()
{
  close(sockfd);
  close(mainfd);
  close(user_list_fd);
  printf("exit system");
  kill(0, SIGABRT);
 
  exit(0);
}
/* end:exit_sys()*/
 
/* start:chat_history*/
int get_page_size()
{
  struct chat_history page_size_reader;
   
  i_lseek(mainfd, -HSTR_LEN, SEEK_END);
  i_read(mainfd, &page_size_reader, HSTR_LEN);
 
  return(page_size_reader.count);
}
 
int read_chat_history()
{
  printf("****char*history***");
  printf("(n-nextpage; p-prepage; q-quit)\n");
 
  int page_num;/* */
  int remains;
  int berry = get_page_size();
 
 
  page_num = berry / 8;
  remains = berry % 8;
 
  if (remains != 0)
    page_num ++;
  else
    page_num = page_num;
     
  printf("there are %d page total %d items", 
    page_num, berry);
 
  int i = -1;
 
  while (1)
  {  
    char flag; 
 
    if ((berry + i*8) >= 0)
    {
      printf("(%d~%d)\n", (berry + i*8), (berry + (i+1)*8));
 
      i_print_history(PRT_LEN, i);
 
      printf("@@@\n");
      while ('\n' == (flag = getchar()))
      {
      }
 
      switch (flag)
      {
        case 'p' :
          i--;
          break;
        case 'n' :
          i++;
          break;
        case 'q' :
          return(0);
        default :
          break;
      }  
      if (i >= 0)
      {
        printf("have at the end!\n");
        printf("return to menu!\n");
      }    
    }
    else
    {
      printf("(1~%d)\n", remains);      
     
      i_print_history(remains, 0);
       
      printf("#########over##############\n");
 
      return(0);
    }  
  }
     
  return(0);
}
/* end:chat_history*/
/* start:menu*/
int menu()
{
  sleep(1);
 
  printf("----------help----menu---------\n");
  printf("\t r--report to user\n");
  printf("\t c--chat history\n");
  printf("\t h--help menu\n");
  printf("\t e--exit the system\n");
  printf("----------help_menu---------\n");
 
  int command = 0;
 
  printf("input command>");
  command = getchar();
  switch(command)
  {
 
    case 'c':
      read_chat_history();
      break;
    case 'e':
      exit_sys();
      break;
    case 'r':
      //report();
      //break;
    default :
      menu();
      break;
  }
  getchar();
   
  return(0);
}
/* end:menu*/
int main()
{
  init();
  pid_t pid;
  switch (pid = fork())
  {
    case -1 :
      perror("fork error\n");
      exit(1);
      break;
    case 0 :
      msg_cntl();
      break;
    default :
      menu();
      break;
  }
 
  return(0);
}

代码三:

#include "i.h"
 
#define START_PORT 8089
 
struct sockaddr_in my_addr;
int my_id;
 
int my_log();/* declare funtion*/
 
/* */
int i_send_msg()
{    
  int id;
  struct msg the_msg;
  char end = '@';
 
  printf("input recver id:");
  scanf("%d", &id);
  getchar();
  printf("\ninput content:");
  i_input(the_msg.content);  
 
  char flag = 'y';
     
  if (1)
  {
    the_msg.flag = 1;
    the_msg.id_from = my_id;
    the_msg.id_to = id;
     
    i_sendto(sockfd, &the_msg, sizeof(struct msg), 0,
      (struct sockaddr*)&server, sizeof(struct sockaddr));
     
    i_saveto_chat(&the_msg); /* save to history */
 
    printf("send to id:%d success.\n", my_id);
    return(0);
  }
  else
    return(1);
 
  return(0);
}
 
int reply()
{
  return(0);
}
int send_file()
{
  return(0);
}
/**/
/* start:initialize */
int init()
{  
  struct ifreq req;
  struct sockaddr_in *host;
  int port;
 
  i_init();
  /* init user addr */
  bzero(&my_addr, sizeof(struct sockaddr));
  my_addr.sin_family = AF_INET;
  strcpy(req.ifr_name, "lo");
  if ( ioctl(sockfd, SIOCGIFADDR, &req) < 0 ) /* get local ip address */
  {
    perror("get local ip error");
    exit(1);
    } 
 
  host = (struct sockaddr_in*)&(req.ifr_addr);
  printf("ip: %s\n", inet_ntoa(host->sin_addr));
 
  memcpy(&my_addr, (struct sockaddr_in*)&(req.ifr_addr),
     sizeof(struct sockaddr_in));
 
  port = START_PORT;
 
  do
  {
    port++;
    my_addr.sin_port = htons(port);
    bind(sockfd, (struct sockaddr*)&my_addr,
       sizeof(struct sockaddr));   
  } 
  while (errno == EADDRINUSE);
 
  struct chat_history apple; 
   
  memset(&apple, 'b', HSTR_LEN);
  i_lseek(mainfd, 0, SEEK_SET);
  apple.count = 0;
  i_write(mainfd, &apple, HSTR_LEN);
  i_lseek(mainfd, -HSTR_LEN, SEEK_END);
  i_read(mainfd, &apple, HSTR_LEN);
  count = apple.count;
 
  
  printf("port:%d\n", port); 
  printf("init successful!!!\n"); 
 
  return(0);
 
}
/* end:initialize */
/* start:chat_history*/
int get_page_size()
{
  struct chat_history page_size_reader;
   
  i_lseek(mainfd, -HSTR_LEN, SEEK_END);
  i_read(mainfd, &page_size_reader, HSTR_LEN);
 
  return(page_size_reader.count);
}
 
int read_chat_history()
{
  printf("****char*history***");
  printf("(n-nextpage; p-prepage; q-quit)\n");
 
  int page_num;/* */
  int remains;
  int berry = get_page_size();
 
 
  page_num = berry / 8;
  remains = berry % 8;
 
  if (remains != 0)
    page_num ++;
  else
    page_num = page_num;
     
  printf("there are %d page total %d items", 
    page_num, berry);
 
  int i = -1;
 
  while (1)
  {  
    char flag; 
 
    if ((berry + i*8) >= 0)
    {
      printf("(%d~%d)\n", (berry + i*8), (berry + (i+1)*8));
 
      i_print_history(PRT_LEN, i);
 
      printf("@@@\n");
      while ('\n' == (flag = getchar()))
      {
      }
 
      switch (flag)
      {
        case 'p' :
          i--;
          break;
        case 'n' :
          i++;
          break;
        case 'q' :
          return(0);
        default :
          break;
      }  
      if (i >= 0)
      {
        printf("have at the end!\n");
        printf("return to menu!\n");
      }    
    }
    else
    {
      printf("(1~%d)\n", remains);      
     
      i_print_history(remains, 0);
       
      printf("#########over##############\n");
 
      return(0);
    }  
  }
     
  return(0);
}
/* end:chat_history*/
/* start:exit_sys*/
void exit_sys()
{
  close(sockfd);
  close(mainfd);
  kill(0, SIGABRT);
 
  exit(0);
}
/* end:exit_sys*/
 
/* start:menu*/
int print_menu()
{
  printf("\n--------------help--menu----------------\n");
  printf("\t h--help munu\n");
  printf("\t s--send message\n");
  printf("\t r--reply to\n");
  printf("\t c--chat history\n");
  printf("\t f--send files\n");
  printf("\t e--exit the system\n");
  printf("----------------help--menu----------------\n");
}
int get_input(char *command)
{  
  printf(">");
  scanf("%c", command);
 
  return(1);
}
int menu()
{
  /* to avoid the output at mixed with the sub process */
  sleep(1);
 
  print_menu();
   
  char command;
 
  while (1 == get_input(&command))
  {  
    switch(command)
    {
      case 'h':
        print_menu();
        break;   
      case 's':
        i_send_msg();
        break;
      case 'r':
        reply();
        break;
      case 'f':
        send_file();
        break;
      case 'c':
        read_chat_history();
        break;
      case 'e':
        exit_sys();
        break;
      default :
        printf(">");
        break;
    }
  }
  return(0);
}
/* end:menu*/
/* start:message contol :send_msg and recv_msg */
int ordnary_msg_recv(struct msg *pmsg)
{
  char time_info[25];
  char end_symble;
  end_symble = '&';
 
  /* handle the msg */
  printf("Message:from %s(id%d) to U:\n", pmsg->append, pmsg->id_from);
  i_print(pmsg->content, MSG_LEN);
  printf("\n\t%s", i_get_time());
 
  return(0);
}
int file_msg_recv(struct msg *pmsg)
{
}
int handle_msg(struct msg *pmsg)
{  
  if (pmsg->flag == 1)
  {
    ordnary_msg_recv(pmsg);
    return(0);
  }
  else if (pmsg->flag >= 4)
  {
    file_msg_recv(pmsg);
    return(0);
  }  
  return(0);
}
int listen_msg()
{
  struct msg msg_recv;
  struct sockaddr addr_recv;
  int len = ADDR_LEN;
 
  printf("begin listen...\n");
 
  for ( ; ; )
  {  
    i_recvfrom(sockfd, &msg_recv, MSG_LEN, 0, 
       &addr_recv, &len);
 
    i_saveto_chat(&msg_recv); /* save to history */
     
     ordnary_msg_recv(&msg_recv);
  }
}
 
/* end:message contol*/
 
/* start:log process :login and regist */
int login()
{
  /* input id:*/
  printf("*****login>>\n");
  printf("id:");
  scanf("%d", &my_id);
  /* input password*/
  char password[15];
  printf("\npassword(*less 15 char):");
  scanf("%s", password);
  getchar();
   
  /* send login information */
  struct msg log_msg;
 
  bzero(&log_msg, MSG_LEN);
  log_msg.flag = 2;
  log_msg.id_from = my_id;
  log_msg.id_to = 0;
  strncpy(log_msg.content, password, 15);
 
  i_saveto_chat(&log_msg); /* save to history */
   
  i_sendto(sockfd, (struct msg*)&log_msg, MSG_LEN, 0, 
    (struct sockaddr*)&server, sizeof(struct sockaddr));
//printf("log_msg : %d\n", log_msg.id_from);
//printf("password: %s\n", log_msg.content);
  /* after input msg ,wait for server respond*/
  struct sockaddr in_addr;
  int len = ADDR_LEN;
  i_recvfrom(sockfd, (struct msg*)&log_msg, MSG_LEN,0,
    &in_addr, &len);
  if (2 == log_msg.flag)
  {
    printf("login success\n");
    return(0);
  }  
  else
  {
    printf("login error:%s\n", log_msg.content);
    printf("please relog..\n");
    menu();
  }
   
  return (0);
}
int regist()
{
  printf("*****regist>>\n");
  /* input chat name */
  char name[10];
 
  bzero(name, 10);
  printf("input your chat name(less 8 char):");
  scanf("%s", name);
 
  //name[9] = ';';     /* add a ; symbol in the end of name */
  /* input password */
  char password[15];
 
  bzero(password, 15);
  printf("\ninput your password(less 14 char):");
  scanf("%s", password);
 
  /* send regist information*/
  struct msg reg_msg;
 
  bzero(®_msg, MSG_LEN);
  reg_msg.flag = 3;
  reg_msg.id_from = 0;
  reg_msg.id_to = 0;
  bzero(reg_msg.content, CNTNT_LEN);
  strncpy(reg_msg.content, name, 10);
  strncpy(&(reg_msg.content[10]), password, 15);
  reg_msg.content[25] = '\n';
 
  i_saveto_chat(®_msg); /* save to history */
 
  /* send regist informatin to server */
  i_sendto(sockfd, (struct msg*)®_msg, sizeof(struct msg), 0, 
    (struct sockaddr*)&server, ADDR_LEN);
  /* after input msg ,wait for server respond*/
  printf("wating for server reply...\n");
 
  struct sockaddr in_addr;
  struct msg msg_back;
  int len = ADDR_LEN;
   
  bzero(&in_addr, ADDR_LEN);
  bzero(&msg_back, MSG_LEN);
  i_recvfrom(sockfd,(struct msg*)&msg_back, MSG_LEN,0,
    &in_addr, &len);
 
  /* check whether pass */
  if (3 != msg_back.flag)
  {
    printf("error: %s \n", msg_back.content);
    exit(1);
  }
  else
    my_id = msg_back.id_to;
    printf("congratulate! you have regist"
      "id %s(id %d) success\n", msg_back.content, msg_back.id_to);
 
    login();
 
  return(0); 
}
 
int my_log()
{
  /* choose login or regist*/
  char flag;
  printf("are you want login or regist(l/r)\n");
  scanf("%c", &flag);
  getchar();
  switch (flag){
    case 'l' :
      login();
      break;
    case 'r' :
      regist();
      break;
    default :
      printf("error input\n");
      my_log();
      break;
  }
  return (0);
}
/* end:log */
 
int main()
{
  init();
  printf("\n************welcome!************\n");
  my_log();
 
  pid_t pid;
 
  switch (pid = fork())
  {
    case -1 :
      perror("fork error!\n");
      exit(1);
      break;
    case 0 :
      listen_msg();
      break;
    default :
      menu();
      break;
  }
}

希望本文所述对大家实现linux多人聊天室程序。

本站部分内容来源互联网,如果有图片或者内容侵犯您的权益请联系我们删除!

相关文档推荐

查看新增磁盘的设备号 如下图,本例中新增磁盘设备号为 /dev/vdb,大小为10G;磁盘已自动完成分区(/dev/vdb1)和文件系统(ext4)的设置,下面直接挂载即可。 挂载磁盘文件系统 这里介绍两种挂载方式:手动和自动。手动即每次重启启动后,需要再次手工挂载分
1.Ubuntu 查看磁盘空间大小命令 df -h Df命令是linux系统以磁盘分区为单位查看文件系统,可以加上参数查看磁盘剩余空间信息, 命令格式: df -hl 显示格式为: 文件系统 容量 已用 可用 已用% 挂载点 Filesystem Size Used Avail Use% Mounted on /dev/hda2
报错内容如下: [root@localhost win]# java -jar /opt/jodconverter2/lib/jodconverter-cli-2.2.2.jar /tmp/win/3.doc /tmp/win/3.pdf2013-7-31 17:24:01 com.artofsolving.jodconverter.openoffice.connection.AbstractOpenOfficeConnection connect信息: c
1、在网上找到你要的目标字体。 2、上传到CentOS 7系统的 /usr/share/fonts 目录中。 3、执行# sudo mkfontscale(如果命令不存在,请yum安装mkfontscale)。 4、执行# mkfontdir (如果命令不存在,请yum安装mkfontdir )。 5、执行# fc-cache -fv(如果命
一、启动步骤: 1.cd /opt/openoffice4/program (安装路径) 2.运行命令 soffice -headless -accept=socket,host=127.0.0.1,port=8100;urp; -nofirststartwizard 或者1 2合并为以下这一个命令来启动: 启动命令 /opt/openoffice4/program/soffice -headless
linux 宝塔控制面板 安装过程 yum install -y wget wget -O install.sh http://103.224.251.79:5880/install/install.sh sh install.sh 下载完成后 有个确认是否安装面板,输入y确认。 大约3分钟完成。 然后安装LAMP套装,大约16-20分钟。 此时可以同时上传