2)可以中止进程,创建新进程
3)可以配置目标进程,配置刷新速度
最终效果图:
(以下给出部分代码,其余像进程的创建、中止等,使用process类将很容易实现)
1)使用wmi获取父进程id,进程创建者
(注意,使用wmi获得的内容,不宜循环刷新,这样代价比较大)
添加命名空间:
using System.Management;
/// <summary>
/// 使用Wmi获取指定进程的创建者等信息 /// </summary>
/// <param name="pID">进程ID</param> private void FillDetailUseWmi(int pID) { ManagementObjectSearcher searcher = new ManagementObjectSearcher("Select * From Win32_Process Where ProcessID="+ pID);
ManagementObjectCollection moc = searcher.Get(); ManagementOperationObserver observer = new ManagementOperationObserver(); HandleObjectReady hor = new HandleObjectReady(); //监测异步方法是否已成功返回 observer.ObjectReady += new ObjectReadyEventHandler(hor.Done); foreach (ManagementObject mo in moc)
{ //异步调用该对象的GetOwner方法,获取进程创建者 mo.InvokeMethod(observer, "GetOwner", null); //等待异步调用返回 while (!hor.Complete) { System.Threading.Thread.Sleep(500);
} string user = ""; //判断获取用户名的操作是否成功 if (hor.Obj["returnValue"].ToString() == "0") { user = hor.Obj.Properties["User"].Value.ToString(); } //判断字典中是否已移除该项 if (!this.mDict.ContainsKey(pID)) { return; } if (mo["ParentProcessID"] != null && this.mDict.ContainsKey(Convert.ToInt32(mo["ParentProcessID"]))) { //根据父进程ID获取父进程名称 this.mDict[pID].ParentProce = this.mDict[Convert.ToInt32(mo["ParentProcessID"])].ProceName; } this.mDict[pID].Creator = user; //触发刷新进程详细信息事件 if (this.HandleDetailList != null) { this.HandleDetailList(this.mDict[pID]); } } //释放资源 searcher.Dispose(); searcher = null; moc.Dispose(); moc = null; observer = null; hor = null; } /// <summary> /// 该类用于监测Wmi异步调用方法是否已经返回 /// </summary> public class HandleObjectReady { private bool complete = false; private ManagementBaseObject obj; public void Done(object sender, ObjectReadyEventArgs e) { complete = true; obj = e.NewObject; } public bool Complete { get { return complete; } } public ManagementBaseObject Obj { get { return obj; } } }2)使用性能计数器计算cpu利用率
2.1)计算过程
//通过计数器获取idle空闲进程cpu占用率r1;
//通过process类的TotalProcessorTime属性获取各进程的cpu时间,求和,得各进程(除空闲进程idle,该进程无法通过process类获得cpu时间)cpu时间和t1;
//通过t1/(100-r1)得到总cpu时间t;
//对各进程,通过TotalProcessorTime获得进程cpu时间tnew,计算:
(Tnew-told)/t,即得该进程的cpu占用率,其中told是程序中记录的该进程上一次的TotalProcessorTime。
2.2)关于性能计数器
系统会为每个进程分配一个计数器,通过
new PerformanceCounter("Process", "% Processor Time", "进程名称")实例化该计数器,使用计数器对象的NextValue方法可以得到进程占用cpu的百分比(第一次调用NextValue获取的值都为0,之后就没问题了,这个要注意)。
2.3)Idle进程的含义
Idle意为懒散的、无所事事。事实上,idle不能算着一个进程,它用于表示cpu空闲资源,它所占的比率越高,表示你的机器越空闲。
2.4)多核CPU或使用超线程技术的CPU
对于多核或使用超线程技术的cpu,根据计数器求得的idle进程cpu占用比率将超过100%,此时应将idle的cpu利用率/总的cpu利用率,所得作为真正的idle的cpu利用率。
添加命名空间:
using System.Diagnostics;
/// <summary> /// 性能计数器,用于获取CPU空闲百分比 /// </summary> private static PerformanceCounter mIdle = new PerformanceCounter("Process", "% Processor Time", "Idle"); /// <summary> /// 性能计数器,用于获取CPU总利用率 /// </summary> private static PerformanceCounter mTotal = new PerformanceCounter("Process", "% Processor Time", "_Total"); private void FillNeedRefreshInfo(params Process[] pCurrentAll) { ………… //以下计算CPU利用率 this.mCurrentTotalCpuTime = this.CalCurrentTotalCpuTime(); for (int i = 0; i < pCurrentAll.Length; i++) { //空闲进程idle if (pCurrentAll.Id == 0) { this.mDict[pCurrentAll.Id].CpuPercent = this.mIdleCpuPercent; } else { try { //无法保证进程不会中途退出,此时无法获取其Cpu时间 long ms = (long)pCurrentAll.TotalProcessorTime.TotalMilliseconds; double d = (ms - this.mDict[pCurrentAll.Id].OldCpuTime) * 1.0 / this.mCurrentTotalCpuTime; this.mDict[pCurrentAll.Id].CpuPercent = d; this.mDict[pCurrentAll.Id].OldCpuTime = ms; } catch { } } //调用刷新事件 if (this.HandleProceRefresh != null) { this.HandleProceRefresh(this.mDict[pCurrentAll.Id], 100 - this.mIdleCpuPercent); } } } private double CalCurrentTotalCpuTime() { double d = 0; //获取性能计数器值 double idlePercent = mIdle.NextValue(); double totalPercent = mTotal.NextValue(); //避免除0异常 if (totalPercent == 0) { this.mIdleCpuPercent = 0; } else { //可能遇到多核或超线程CPU,CPU空闲进程比率不能直接使用计数器的值 this.mIdleCpuPercent = idlePercent * 100 / totalPercent; } //以下获取上一次计算至当前总的非空闲CPU时间 foreach (Process p in this.mCurrentAll) { //对空闲进程及中途退出的进程不做处理 if (p.Id == 0 || p.HasExited) { continue; } if (this.mDict ==null || !this.mDict.ContainsKey(p.Id)) { d += p.TotalProcessorTime.TotalMilliseconds; } else { d += p.TotalProcessorTime.TotalMilliseconds - this.mDict[p.Id].OldCpuTime; } } //当前非空闲CPU时间/当前非空闲时间所占比率=当前总CPU时间 //return d / (totalPercent - idlePercent); return d / (100 - mIdleCpuPercent); }