该版本算是比较成熟的啦,欢迎大伙拿来试用!!!
1.新增数据库连接和备份时间配置文件conf
2.新增日志文件,程序运行的一些异常会记录在log文件下
后续的工作:
1.将代码切割为多个文件,分类存放代码
2.加入自动后台运行的支持
3.加入开机自动运行的支持
完成上面3个之后,我的linux c数据库备份程序就暂时靠一段落了。
使用提醒:
编译:gcc -o main main.c
后台启动:./main &
停止程序:./main stop
#include<sys/types.h>
#include<sys/wait.h>
#include<ctype.h>
#include<unistd.h>
#include<string.h>
#include<stdlib.h>
#include<signal.h>
#include<time.h>
#include<stdio.h> //程序运行的pid信息
#define PID_FILE "./pid.db"
//记录待备份的数据库信息文件
#define DB_FILE "./db_list"
//配置文件信息
#define CONF_FILE "./conf"
//日志文件
#define LOG_FILE "./log"
//最大备份的数据库数量
#define NUM 20
//数据库名字长度的限制
#define LEN 128
//程序轮询时间间隔
#define ALARM_TIME 10 //从文件读取到的数据库信息保存至该数组中
char *db_list[NUM];
//当前待备份的数据库数量
int read_num;
//是否用户终止备份
int isbreak = ; //数据库连接信息
typedef struct db_conf {
char *host;
char *user;
char *pass;
}CONF;
//数据库备份时间
typedef struct bat_t {
int hour;
int min;
}BAT_T; //malloc
void malloc_dblist();
//free
void free_dblist();
//读取待备份的数据库信息
int readDbFile();
//读取配置文件信息(数据库连接信息,备份时间等)
CONF readConfFile();
//读取备份的时间信息
BAT_T readBatTFile();
//记录日志信息
void recordLog(char *);
//信号处理函数
void signHandler(int sig);
//记录程序运行的pid信息
int recordPid(int pid);
//获取程序运行时的pid信息
int readPid(void);
//移除程序运行时的pid信息
void delPid(void); int main(int argc, char *argv[])
{
CONF conf;
BAT_T bt;
pid_t pid, old_pid;
int i, prs;
char buf[LEN];
time_t t;
struct tm *tm_ptr; struct sigaction act, oldact;
sigset_t newmask, suspmask, oldmask; if (argc >= ) {
old_pid = (pid_t)readPid();
//停止掉备份程序
if (strcmp(argv[], "stop") == ) {
kill(old_pid, SIGINT);
return ;
}
else if (strcmp(argv[], "restart") == ) {
kill(old_pid, SIGINT);
sleep();
}
}
old_pid = (pid_t)readPid();
//检测程序是否已经在运行
if (old_pid > ) {
fprintf(stderr, "Progress is running.\n");
return -;
} //记录程序运行的pid信息
prs = recordPid((int)getpid());
if (prs == -) {
fprintf(stderr, "Open pid.db file error.\n");
return -;
}
//读取待备份的数据库
int rs = readDbFile();
if (rs) {
delPid();
return rs;
}
//读取数据配置信息
conf = readConfFile();
//读取备份时间
bt = readBatTFile(); //信号接管
act.sa_handler = signHandler;
sigemptyset(&act.sa_mask);
act.sa_flags = ;
sigaction(SIGALRM, &act, );
sigaction(SIGINT, &act, ); while () {
time(&t);
tm_ptr = localtime(&t); //备份时间内进行备份
if (bt.hour == (int)tm_ptr->tm_hour && bt.min == (int)tm_ptr->tm_min) {
for (i = ; i < read_num; i++) {
memset(buf, '\0', LEN);
//密码为空
if (!strlen(conf.pass)) {
sprintf(buf, "mysqldump -h%s -u%s %s > %s_%02d%02d%02d.sql",
conf.host, conf.user, db_list[i], db_list[i],
tm_ptr->tm_year+, tm_ptr->tm_mon+, tm_ptr->tm_mday);
}
else {
sprintf(buf, "mysqldump -h%s -u%s -p%s %s > %s_%02d%02d%02d.sql",
conf.host, conf.user, conf.pass, db_list[i], db_list[i],
tm_ptr->tm_year+, tm_ptr->tm_mon+, tm_ptr->tm_mday);
}
system(buf);
}
} alarm(ALARM_TIME);
pause(); if (isbreak) {
recordLog("User break progress.");
break;
}
} free_dblist(); delPid(); exit(); } void malloc_dblist()
{
int i = ;
//malloc for db_list
for (i = ; i < NUM; i++) {
db_list[i] = malloc(LEN);
memset(db_list[i], '\0', LEN);
}
}
void free_dblist()
{
int i;
//free db_list's memory
for (i = ; i < NUM; i++) {
free(db_list[i]);
}
} int readDbFile()
{
FILE *fp; fp = fopen(DB_FILE, "r");
if (!fp) {
char buf[];
sprintf(buf, "%s not found\n", DB_FILE);
recordLog(buf);
fprintf(stderr, "%s not found\n", DB_FILE);
return ;
}
else {
malloc_dblist(); read_num = ;
while (fscanf(fp, "%127[^\r\n]\n", db_list[read_num]) == ) {
read_num++;
} fclose(fp); return ;
} } CONF readConfFile()
{
FILE *fp;
CONF conf; if (!(fp = fopen(CONF_FILE, "r"))) {
conf.host = "localhost";
conf.user = "root";
conf.pass = "";
return conf;
} char buf[];
while ((fscanf(fp, "%127[^\r\n]\n", buf)) == ) {
char *tmp1 = strtok(buf, "=");
char *tmp2 = strtok(NULL, "="); if (strstr(tmp1, "HOST")) {
if (tmp2) {
conf.host = strdup(tmp2);
}
else {
conf.host = "localhost";
}
}
else if (strstr(tmp1, "USER")) {
if (tmp2) {
conf.user = strdup(tmp2);
}
else {
conf.host = "root";
}
}
else if (strstr(tmp1, "PASS")) {
if (tmp2) {
conf.pass = strdup(tmp2);
}
else {
conf.pass = "";
}
}
} return conf;
} BAT_T readBatTFile()
{
FILE *fp;
BAT_T bat_time; if (!(fp = fopen(CONF_FILE, "r"))) {
bat_time.hour = ;
bat_time.min = ;
return bat_time;
} char buf[];
while ((fscanf(fp, "%127[^\r\n]\n", buf)) == ) {
if (!strstr(buf, "BAT_TIME"))
continue; //获取到备份数据数据
char *tmp1 = strtok(buf, "=");
char *tmp2 = strtok(NULL, "=");
//对备份时间数据进行分割
char *hour = strtok(tmp2, " ");
char *min = strtok(NULL, " "); if (hour) {
bat_time.hour = atoi(hour);
}
else {
bat_time.hour = ;
} if (min) {
bat_time.min = atoi(min);
}
else {
bat_time.min = ;
}
} return bat_time;
} void recordLog(char *msg)
{
FILE *fp;
fp = fopen(LOG_FILE, "a");
if (fp) {
time_t t;
struct tm *tm_ptr;
time(&t);
tm_ptr = localtime(&t); fprintf(fp, "%d-%d-%d %d:%d:%d: %s\n", (tm_ptr->tm_year+), tm_ptr->tm_mon, tm_ptr->tm_mday,
tm_ptr->tm_hour, tm_ptr->tm_min, tm_ptr->tm_sec, msg);
fclose(fp);
}
} void signHandler(int sig)
{
char buf[];
switch (sig) {
case SIGALRM:
//fprintf(stdout, "alarm signal comming:%d.\n", sig);
break;
case SIGINT:
//fprintf(stdout, "sigint signal comming:%d.\n", sig);
isbreak = ;
break;
default:
//fprintf(stdout, "uncatched signal comming:%d.\n", sig);
sprintf(buf, "uncatched signal comming:%d.\n", sig);
recordLog(buf);
}
} int recordPid(int pid)
{
FILE *fp = NULL; if (!(fp = fopen(PID_FILE, "w")))
return -; pid = getpid();
fprintf(fp, "%d", (int)pid);
fclose(fp); return ;
} int readPid(void)
{
FILE *fp = NULL; if (!(fp = fopen(PID_FILE, "r")))
return -; int pid;
if (fscanf(fp, "%d", &pid) != ) {
fclose(fp);
return -;
} fclose(fp); return pid;
} void delPid(void)
{
unlink(PID_FILE);
}
mian.c
conf
#数据库服务器地址
HOST=localhost
#数据库账号
USER=root
#数据库密码
PASS=
#备份时间 :小时 分钟
BAT_TIME=
db_list
mkbl
ck_book