阅读目录
进程管理控制
这里实现的是一个自定义timer用于统计子进程运行的时间。使用方式主要是
timer [-t seconds] command arguments
例如要统计ls
的运行时间可以直接输入timer ls
,其后的arguments
是指所要运行的程序的参数。如:timer ls -al
。如果要指定程序运行多少时间,如5秒钟,可以输入timer -t 5 ls -al
。需要注意的是,该程序对输入没有做异常检测,所以要确保程序输入正确。
Linux
程序思路
获取时间
时间获取函数使用
gettimeofday
,精度可以达到微秒struct timeval{ long tv_sec;*//秒* long tv_usec;*//微秒* }
子进程创建
fork()
函数#include <sys/types.h> #include <unistd.h> pid_t fork(void);
fork
调用失败则返回-1,调用成功则:fork函数会有两种返回值,一是为0,一是为正整数。若为0,则说明当前进程为子进程;若为正整数,则该进程为父进程且该值为子进程pid。关于进程控制的详细说明请参考:进程控制
exec
函数用fork创建子进程后执行的是和父进程相同的程序(但有可能执行不同的代码分支),子进程往往要调用一种exec函数以执行另一个程序。当进程调用一种exec函数时,该进程的用户空间代码和数据完全被新程序替换,从新程序的启动例程开始执行。调用exec并不创建新进程,所以调用exec前后该进程的id并未改变。
其实有六种以exec开头的函数,统称exec函数:#include <unistd.h> int execl(const char *path, const char *arg, ...); int execlp(const char *file, const char *arg, ...); int execle(const char *path, const char *arg, ..., char *const envp[]); int execv(const char *path, char *const argv[]); int execvp(const char *file, char *const argv[]); int execve(const char *path, char *const argv[], char *const envp[]);
这些函数如果调用成功则加载新的程序从启动代码开始执行,不再返回,如果调用出错则返回-1,所以exec函数只有出错的返回值而没有成功的返回值。
wait
与waitpid
一个进程在终止时会关闭所有文件描述符,释放在用户空间分配的内存,但它的PCB还保留着,内核在其中保存了一些信息:如果是正常终止则保存着退出状态,如果是异常终止则保存着导致该进程终止的信号是哪个。这个进程的父进程可以调用wait或waitpid获取这些信息,然后彻底清除掉这个进程。我们知道一个进程的退出状态可以在Shell中用特殊变量$?查看,因为Shell是它的父进程,当它终止时Shell调用wait或waitpid得到它的退出状态同时彻底清除掉这个进程。
如果一个进程已经终止,但是它的父进程尚未调用wait或waitpid对它进行清理,这时的进程状态称为僵尸(Zombie)进程。任何进程在刚终止时都是僵尸进程,正常情况下,僵尸进程都立刻被父进程清理了。
僵尸进程是不能用kill命令清除掉的,因为kill命令只是用来终止进程的,而僵尸进程已经终止了。
#include <sys/types.h> #include <sys/wait.h> pid_t wait(int *status); pid_t waitpid(pid_t pid, int *status, int options);
若调用成功则返回清理掉的子进程id,若调用出错则返回-1。父进程调用wait或waitpid时可能会:
阻塞(如果它的所有子进程都还在运行
- 带子进程的终止信息立即返回(如果一个子进程已终止,正等待父进程读取其终止信息)
出错立即返回(如果它没有任何子进程)
这两个函数的区别是:
- 如果父进程的所有子进程都还在运行,调用wait将使父进程阻塞,而调用waitpid时如果在options参数中指定WNOHANG可以使父进程不阻塞而立即返回0
- wait等待第一个终止的子进程,而waitpid可以通过pid参数指定等待哪一个子进程
源代码
timer源代码
#include <math.h>
#include <stdio.h>
#include <stdlib.h>
#include <sys/time.h>
#include <unistd.h>
#include <wait.h>
#include <ctime>
#include <iostream>
#include <cstring>
//程序假定输入完全正确,没有做异常处理
//mytime [-t number] 程序
using namespace std;
//调用系统时间
struct timeval time_start;
struct timeval time_end;
void printTime();
void newProcess(const char *child_process, char *argv[], double duration);
int main(int argc, char const *argv[])
{
double duration = 0;
char **arg;
int step = 2;
if (argc > 3 && (strcmp((char *)"-t", argv[1]) == 0)) //如果指定了运行时间
{
step = 4;
duration = atof(argv[2]); //没有做异常处理
}
arg = <span class="hljs-keyword">new</span> <span class="hljs-keyword">char</span> *[argc - step + <span class="hljs-number">1</span>];
<span class="hljs-keyword">for</span> (<span class="hljs-keyword">int</span> i = <span class="hljs-number">0</span>; i < argc - step; i++)
{
arg[i] = <span class="hljs-keyword">new</span> <span class="hljs-keyword">char</span>[<span class="hljs-number">100</span>];
<span class="hljs-built_in">strcpy</span>(arg[i], argv[i + step]);
}
arg[argc - step] = <span class="hljs-literal">NULL</span>;
newProcess(argv[step - <span class="hljs-number">1</span>], arg, duration);
<span class="hljs-keyword">return</span> <span class="hljs-number">0</span>;
}
void printTime()
{
//用以记录进程运行的时间
int time_use = 0; // us
int time_left = 0; // us
int time_hour = 0, time_min = 0, time_sec = 0, time_ms = 0, time_us = 0;
gettimeofday(&time_end, NULL);
time_use = (time_end.tv_sec - time_start.tv_sec) * <span class="hljs-number">1000000</span> + (time_end.tv_usec - time_start.tv_usec);
time_hour = time_use / (<span class="hljs-number">60</span> * <span class="hljs-number">60</span> * (<span class="hljs-keyword">int</span>)<span class="hljs-built_in">pow</span>(<span class="hljs-number">10</span>, <span class="hljs-number">6</span>));
time_left = time_use % (<span class="hljs-number">60</span> * <span class="hljs-number">60</span> * (<span class="hljs-keyword">int</span>)<span class="hljs-built_in">pow</span>(<span class="hljs-number">10</span>, <span class="hljs-number">6</span>));
time_min = time_left / (<span class="hljs-number">60</span> * (<span class="hljs-keyword">int</span>)<span class="hljs-built_in">pow</span>(<span class="hljs-number">10</span>, <span class="hljs-number">6</span>));
time_left %= (<span class="hljs-number">60</span> * (<span class="hljs-keyword">int</span>)<span class="hljs-built_in">pow</span>(<span class="hljs-number">10</span>, <span class="hljs-number">6</span>));
time_sec = time_left / ((<span class="hljs-keyword">int</span>)<span class="hljs-built_in">pow</span>(<span class="hljs-number">10</span>, <span class="hljs-number">6</span>));
time_left %= ((<span class="hljs-keyword">int</span>)<span class="hljs-built_in">pow</span>(<span class="hljs-number">10</span>, <span class="hljs-number">6</span>));
time_ms = time_left / <span class="hljs-number">1000</span>;
time_left %= <span class="hljs-number">1000</span>;
time_us = time_left;
<span class="hljs-built_in">printf</span>(<span class="hljs-string">"此程序运行的时间为:%d 小时, %d 分钟, %d 秒, %d 毫秒, %d 微秒\\n"</span>, time_hour, time_min, time_sec, time_ms, time_us);
}
void newProcess(const char* child_process, char **argv, double duration)
{
pid_t pid = fork();
if (pid < 0) //出错
{
printf("创建子进程失败!");
exit(1);
}
if (pid == 0) //子进程
{
execvp(child_process, argv);
}
else
{
if (abs(duration - 0) < 1e-6)
{
gettimeofday(&time_start, NULL);
wait(NULL); //等待子进程结束
printTime();
}
else
{
gettimeofday(&time_start, NULL);
// printf("sleep: %lf\\n", duration);
waitpid(pid, NULL, WNOHANG);
usleep(duration * 1000000); // sec to usec
int kill_ret_val = kill(pid, SIGKILL);
if (kill_ret_val == -1) // return -1, fail
{
printf("kill failed.\\n");
perror("kill");
}
else if (kill_ret_val == 0) // return 0, success
{
printf("process %d has been killed\\n", pid);
}
printTime();
}
}
}
测试源代码
#include <iostream>
#include <ctime>
#include <unistd.h>
using namespace std;
int main(int argc, char const *argv[])
{
for(int n = 0; n < argc; n++)
{
printf("arg[%d]:%s\\n",n, argv[n]);
}
sleep(5);
return 0;
}
测试
自行编写程序测试
系统程序测试
将timer加入环境变量
这里仅进行了临时变量修改。
Windows
在Windows下进行父子进程的创建和管理在api调用上相较Linux有一定难度,但实际上在使用管理上比Linux容易的多。
CreateProcess
#include <Windows.h>
BOOL CreateProcessA(
LPCSTR lpApplicationName,
LPSTR lpCommandLine,
LPSECURITY_ATTRIBUTES lpProcessAttributes,
LPSECURITY_ATTRIBUTES lpThreadAttributes,
BOOL bInheritHandles,
DWORD dwCreationFlags,
LPVOID lpEnvironment,
LPCSTR lpCurrentDirectory,
LPSTARTUPINFOA lpStartupInfo,
LPPROCESS_INFORMATION lpProcessInformation
);
源代码实现
timer程序
// 进程管理.cpp : 此文件包含 "main" 函数。程序执行将在此处开始并结束。
//
#include <iostream>
#include <wchar.h>
#include <Windows.h>
#include <tchar.h>
using namespace std;
void printTime(SYSTEMTIME* start, SYSTEMTIME* end);
void newProcess(TCHAR* cWinDir, double duration);
int _tmain(int argc, TCHAR argv[])
{
TCHAR cWinDir = new TCHAR[MAX_PATH];
memset(cWinDir, sizeof(TCHAR) * MAX_PATH, 0);
<span class="hljs-built_in">printf</span>(<span class="hljs-string">"argc: %d\\n"</span>, argc);
<span class="hljs-keyword">int</span> step = <span class="hljs-number">1</span>;
<span class="hljs-keyword">double</span> duration = <span class="hljs-number">0</span>;
<span class="hljs-keyword">if</span> (argc > <span class="hljs-number">1</span>)
{
<span class="hljs-keyword">if</span> (argv[<span class="hljs-number">1</span>][<span class="hljs-number">0</span>] == TCHAR(<span class="hljs-string">\'-\'</span>) && argv[<span class="hljs-number">1</span>][<span class="hljs-number">1</span>] == TCHAR(<span class="hljs-string">\'t\'</span>) && argv[<span class="hljs-number">1</span>][<span class="hljs-number">2</span>] == TCHAR(<span class="hljs-string">\'\\0\'</span>))
{
step = <span class="hljs-number">3</span>;
duration = atof((<span class="hljs-keyword">char</span>*)argv[<span class="hljs-number">2</span>]);
}
}
<span class="hljs-comment">//printf("printf content start: %ls\\n", argv[1]);</span>
<span class="hljs-keyword">int</span> j = <span class="hljs-number">0</span>;
<span class="hljs-keyword">for</span> (<span class="hljs-keyword">int</span> i = <span class="hljs-number">0</span>, h = <span class="hljs-number">0</span>; i < argc - step; i++)
{
wcscpy_s(cWinDir + j, MAX_PATH - j, argv[i + step]);
<span class="hljs-keyword">for</span> (h = <span class="hljs-number">0</span>; argv[i + step][h] != TCHAR(<span class="hljs-string">\'\\0\'</span>); h++);
j += h;
cWinDir[j++] = <span class="hljs-string">\' \'</span>;
<span class="hljs-comment">//printf("%d : %d\\n", i, j);</span>
<span class="hljs-comment">//printf("printf content start: %ls\\n", cWinDir);</span>
}
cWinDir[j - <span class="hljs-number">2</span>] = TCHAR(<span class="hljs-string">\'\\0\'</span>);
<span class="hljs-comment">//printf("printf content start: %ls\\n", cWinDir);</span>
newProcess(cWinDir,duration);
<span class="hljs-keyword">return</span> <span class="hljs-number">0</span>;
}
void printTime(SYSTEMTIME* start, SYSTEMTIME* end)
{
int hours = end->wHour - start->wHour;
int minutes = end->wMinute - start->wMinute;
int seconds = end->wSecond - start->wSecond;
int ms = end->wMilliseconds - start->wMilliseconds;
if (ms < 0)
{
ms += 1000;
seconds -= 1;
}
if (seconds < 0)
{
seconds += 60;
minutes -= 1;
}
if (minutes < 0)
{
minutes += 60;
hours -= 1;
}
//由于仅考虑在一天之内,不考虑小时会变成负数的情况
printf("runtime: %02dhours %02dminutes %02dseconds %02dmilliseconds\\n", hours, minutes, seconds, ms);
}
void newProcess(TCHAR* cWinDir, double duration)
{
PROCESS_INFORMATION pi;
STARTUPINFO si;
ZeroMemory(&si, sizeof(si));
si.cb = sizeof(si);
ZeroMemory(&pi, sizeof(pi));
SYSTEMTIME start_time, end_time;
<span class="hljs-built_in">memset</span>(&start_time, <span class="hljs-keyword">sizeof</span>(SYSTEMTIME), <span class="hljs-number">0</span>);
<span class="hljs-built_in">memset</span>(&end_time, <span class="hljs-keyword">sizeof</span>(SYSTEMTIME), <span class="hljs-number">0</span>);
GetSystemTime(&start_time);
<span class="hljs-keyword">if</span> (CreateProcess(
<span class="hljs-literal">NULL</span>, <span class="hljs-comment">//lpApplicationName.若为空,则lpCommandLine必须指定可执行程序</span>
<span class="hljs-comment">//若路径中存在空格,必须使用引号框定</span>
cWinDir, <span class="hljs-comment">//lpCommandLine</span>
<span class="hljs-comment">//若lpApplicationName为空,lpCommandLine长度不超过MAX_PATH</span>
<span class="hljs-literal">NULL</span>, <span class="hljs-comment">//指向一个SECURITY_ATTRIBUTES结构体,这个结构体决定是否返回的句柄可以被子进程继承,进程安全性</span>
<span class="hljs-literal">NULL</span>, <span class="hljs-comment">// 如果lpProcessAttributes参数为空(NULL),那么句柄不能被继承。<同上>,线程安全性</span>
<span class="hljs-literal">false</span>, <span class="hljs-comment">// 指示新进程是否从调用进程处继承了句柄。句柄可继承性</span>
<span class="hljs-number">0</span>, <span class="hljs-comment">// 指定附加的、用来控制优先类和进程的创建的标识符(优先级)</span>
<span class="hljs-comment">// CREATE_NEW_CONSOLE 新控制台打开子进程</span>
<span class="hljs-comment">// CREATE_SUSPENDED 子进程创建后挂起,直到调用ResumeThread函数</span>
<span class="hljs-literal">NULL</span>, <span class="hljs-comment">// 指向一个新进程的环境块。如果此参数为空,新进程使用调用进程的环境。指向环境字符串</span>
<span class="hljs-literal">NULL</span>, <span class="hljs-comment">// 指定子进程的工作路径</span>
&si, <span class="hljs-comment">// 决定新进程的主窗体如何显示的STARTUPINFO结构体</span>
&pi <span class="hljs-comment">// 接收新进程的识别信息的PROCESS_INFORMATION结构体。进程线程以及句柄</span>
))
{
}
<span class="hljs-keyword">else</span>
{
<span class="hljs-built_in">printf</span>(<span class="hljs-string">"CreateProcess failed (%d).\\n"</span>, GetLastError());
<span class="hljs-keyword">return</span>;
}
<span class="hljs-comment">//wait untill the child process exits</span>
<span class="hljs-keyword">if</span> (<span class="hljs-built_in">abs</span>(duration - <span class="hljs-number">0</span>) < <span class="hljs-number">1e-6</span>)
WaitForSingleObject(pi.hProcess, INFINITE);<span class="hljs-comment">//这里指定运行时间,单位毫秒</span>
<span class="hljs-keyword">else</span>
WaitForSingleObject(pi.hProcess, duration * <span class="hljs-number">1000</span>);
GetSystemTime(&end_time);
printTime(&start_time, &end_time);
CloseHandle(pi.hProcess);
CloseHandle(pi.hThread);
}
测试程序
#include <iostream>
#include <Windows.h>
using namespace std;
int main(int argc, char* argv[])
{
for (int n = 0; n < argc; n++)
{
printf("arg[%d]:%s\\n", n, argv[n]);
}
Sleep(5*1000);
return 0;
}
测试
自行编写程序测试
系统程序测试
添加至环境变量