Exemplo n.º 1
0
        /// <summary>Gets process infos for each process on the specified machine.</summary>
        /// <param name="processNameFilter">Optional process name to use as an inclusion filter.</param>
        /// <param name="machineName">The target machine.</param>
        /// <returns>An array of process infos, one per found process.</returns>
        public static ProcessInfo[] GetProcessInfos(string?processNameFilter, string machineName)
        {
            if (!IsRemoteMachine(machineName))
            {
                return(NtProcessInfoHelper.GetProcessInfos(processNameFilter: processNameFilter));
            }

            ProcessInfo[] processInfos = NtProcessManager.GetProcessInfos(machineName, isRemoteMachine: true);
            if (string.IsNullOrEmpty(processNameFilter))
            {
                return(processInfos);
            }

            ArrayBuilder <ProcessInfo> results = default;

            foreach (ProcessInfo pi in processInfos)
            {
                if (string.Equals(processNameFilter, pi.ProcessName, StringComparison.OrdinalIgnoreCase))
                {
                    results.Add(pi);
                }
            }

            return(results.ToArray());
        }
Exemplo n.º 2
0
        /// <summary>Gets the process name for the specified process ID on the specified machine.</summary>
        /// <param name="processId">The process ID.</param>
        /// <param name="machineName">The machine name.</param>
        /// <returns>The process name for the process if it could be found; otherwise, null.</returns>
        public static string?GetProcessName(int processId, string machineName)
        {
            if (IsRemoteMachine(machineName))
            {
                // remote case: we take the hit of looping through all results
                ProcessInfo[] processInfos = NtProcessManager.GetProcessInfos(machineName, isRemoteMachine: true);
                foreach (ProcessInfo processInfo in processInfos)
                {
                    if (processInfo.ProcessId == processId)
                    {
                        return(processInfo.ProcessName);
                    }
                }
            }
            else
            {
                // local case: do not use performance counter and also attempt to get the matching (by pid) process only

                string?processName = Interop.Kernel32.GetProcessName((uint)processId);
                if (processName is not null)
                {
                    return(NtProcessInfoHelper.GetProcessShortName(processName));
                }
            }

            return(null);
        }
        /// <summary>Gets the ProcessInfo for the specified process ID on the specified machine.</summary>
        /// <param name="processId">The process ID.</param>
        /// <param name="machineName">The machine name.</param>
        /// <returns>The ProcessInfo for the process if it could be found; otherwise, null.</returns>
        public static ProcessInfo GetProcessInfo(int processId, string machineName)
        {
            if (IsRemoteMachine(machineName))
            {
                // remote case: we take the hit of looping through all results
                ProcessInfo[] processInfos = NtProcessManager.GetProcessInfos(machineName, isRemoteMachine: true);
                foreach (ProcessInfo processInfo in processInfos)
                {
                    if (processInfo.ProcessId == processId)
                    {
                        return(processInfo);
                    }
                }
            }
            else
            {
                // local case: do not use performance counter and also attempt to get the matching (by pid) process only
                ProcessInfo[] processInfos = NtProcessInfoHelper.GetProcessInfos(pid => pid == processId);
                if (processInfos.Length == 1)
                {
                    return(processInfos[0]);
                }
            }

            return(null);
        }
 public static int[] GetProcessIds()
 {
     if (IsNt)
     {
         return(NtProcessManager.GetProcessIds());
     }
     return(WinProcessManager.GetProcessIds());
 }
 public static int GetProcessIdFromHandle(Microsoft.Win32.SafeHandles.SafeProcessHandle processHandle)
 {
     if (!IsNt)
     {
         throw new PlatformNotSupportedException(SR.GetString("WinNTRequired"));
     }
     return(NtProcessManager.GetProcessIdFromHandle(processHandle));
 }
 public static ModuleInfo[] GetModuleInfos(int processId)
 {
     if (IsNt)
     {
         return(NtProcessManager.GetModuleInfos(processId));
     }
     return(WinProcessManager.GetModuleInfos(processId));
 }
Exemplo n.º 7
0
 /// <summary>Gets process infos for each process on the specified machine.</summary>
 /// <param name="machineName">The target machine.</param>
 /// <returns>An array of process infos, one per found process.</returns>
 public static ProcessInfo[] GetProcessInfos(string machineName)
 {
     if (!IsRemoteMachine(machineName))
     {
         throw new PlatformNotSupportedException(SR.GetProcessInfoNotSupported); // NtDll.NtQuerySystemInformation is not available in Uap
     }
     return(NtProcessManager.GetProcessInfos(machineName, isRemoteMachine: true));
 }
 /// <summary>Gets the IDs of all processes on the specified machine.</summary>
 /// <param name="machineName">The machine to examine.</param>
 /// <returns>An array of process IDs from the specified machine.</returns>
 public static int[] GetProcessIds(string machineName)
 {
     // Due to the lack of support for EnumModules() on coresysserver, we rely
     // on PerformanceCounters to get the ProcessIds for both remote desktop
     // and the local machine, unlike Desktop on which we rely on PCs only for
     // remote machines.
     return(IsRemoteMachine(machineName) ?
            NtProcessManager.GetProcessIds(machineName, true) :
            GetProcessIds());
 }
Exemplo n.º 9
0
        public static ProcessInfo[] GetProcessInfos(string machineName)
        {
            bool isRemoteMachine = IsRemoteMachine(machineName);

            // Do not use performance counter for local machine
            if (!isRemoteMachine)
            {
                return(NtProcessInfoHelper.GetProcessInfos());
            }
            return(NtProcessManager.GetProcessInfos(machineName, isRemoteMachine));
        }
Exemplo n.º 10
0
 // Due to the lack of support for EnumModules() on coresysserver.
 // We reply on PerformanceCounters to get the ProcessIds for both remote desktop
 // and the local machine unlike Desktop which reply on PCs only for remote machines.
 public static int[] GetProcessIds(string machineName)
 {
     if (IsRemoteMachine(machineName))
     {
         return(NtProcessManager.GetProcessIds(machineName, true));
     }
     else
     {
         return(GetProcessIds());
     }
 }
 public static int[] GetProcessIds(string machineName)
 {
     if (!IsRemoteMachine(machineName))
     {
         return(GetProcessIds());
     }
     if (!IsNt)
     {
         throw new PlatformNotSupportedException(SR.GetString("WinNTRequiredForRemote"));
     }
     return(NtProcessManager.GetProcessIds(machineName, true));
 }
        public static ProcessInfo[] GetProcessInfos(string machineName)
        {
            bool isRemoteMachine = IsRemoteMachine(machineName);

            if (IsNt)
            {
                if (!isRemoteMachine && (Environment.OSVersion.Version.Major >= 5))
                {
                    return(NtProcessInfoHelper.GetProcessInfos());
                }
                return(NtProcessManager.GetProcessInfos(machineName, isRemoteMachine));
            }
            if (isRemoteMachine)
            {
                throw new PlatformNotSupportedException(SR.GetString("WinNTRequiredForRemote"));
            }
            return(WinProcessManager.GetProcessInfos());
        }
 /// <summary>Gets process infos for each process on the specified machine.</summary>
 /// <param name="machineName">The target machine.</param>
 /// <returns>An array of process infos, one per found process.</returns>
 public static ProcessInfo[] GetProcessInfos(string machineName)
 {
     return(IsRemoteMachine(machineName) ?
            NtProcessManager.GetProcessInfos(machineName, isRemoteMachine: true) :
            NtProcessInfoHelper.GetProcessInfos());
 }
 /// <summary>Gets an array of module infos for the specified process.</summary>
 /// <param name="processId">The ID of the process whose modules should be enumerated.</param>
 /// <returns>The array of modules.</returns>
 public static ProcessModuleCollection GetModules(int processId)
 {
     return(NtProcessManager.GetModules(processId));
 }
 /// <summary>Gets the ID of a process from a handle to the process.</summary>
 /// <param name="processHandle">The handle.</param>
 /// <returns>The process ID.</returns>
 public static int GetProcessIdFromHandle(SafeProcessHandle processHandle)
 {
     return(NtProcessManager.GetProcessIdFromHandle(processHandle));
 }
 /// <summary>Gets the IDs of all processes on the current machine.</summary>
 public static int[] GetProcessIds()
 {
     return(NtProcessManager.GetProcessIds());
 }
Exemplo n.º 17
0
        private static unsafe ProcessInfo[] GetProcessInfos(IntPtr dataPtr)
        {
            // Use a dictionary to avoid duplicate entries if any
            // 60 is a reasonable number for processes on a normal machine.
            Dictionary <int, ProcessInfo> processInfos = new Dictionary <int, ProcessInfo>(60);

            long totalOffset = 0;

            while (true)
            {
                IntPtr currentPtr = (IntPtr)((long)dataPtr + totalOffset);
                ref SystemProcessInformation pi = ref *(SystemProcessInformation *)(currentPtr);

                // get information for a process
                ProcessInfo processInfo = new ProcessInfo();
                // Process ID shouldn't overflow. OS API GetCurrentProcessID returns DWORD.
                processInfo.ProcessId         = pi.UniqueProcessId.ToInt32();
                processInfo.SessionId         = (int)pi.SessionId;
                processInfo.PoolPagedBytes    = (long)pi.QuotaPagedPoolUsage;;
                processInfo.PoolNonPagedBytes = (long)pi.QuotaNonPagedPoolUsage;
                processInfo.VirtualBytes      = (long)pi.VirtualSize;
                processInfo.VirtualBytesPeak  = (long)pi.PeakVirtualSize;
                processInfo.WorkingSetPeak    = (long)pi.PeakWorkingSetSize;
                processInfo.WorkingSet        = (long)pi.WorkingSetSize;
                processInfo.PageFileBytesPeak = (long)pi.PeakPagefileUsage;
                processInfo.PageFileBytes     = (long)pi.PagefileUsage;
                processInfo.PrivateBytes      = (long)pi.PrivatePageCount;
                processInfo.BasePriority      = pi.BasePriority;
                processInfo.HandleCount       = (int)pi.HandleCount;


                if (pi.ImageName.Buffer == IntPtr.Zero)
                {
                    if (processInfo.ProcessId == NtProcessManager.SystemProcessID)
                    {
                        processInfo.ProcessName = "System";
                    }
                    else if (processInfo.ProcessId == NtProcessManager.IdleProcessID)
                    {
                        processInfo.ProcessName = "Idle";
                    }
                    else
                    {
                        // for normal process without name, using the process ID.
                        processInfo.ProcessName = processInfo.ProcessId.ToString(CultureInfo.InvariantCulture);
                    }
                }
                else
                {
                    string processName = GetProcessShortName(Marshal.PtrToStringUni(pi.ImageName.Buffer, pi.ImageName.Length / sizeof(char)));
                    processInfo.ProcessName = processName;
                }

                // get the threads for current process
                processInfos[processInfo.ProcessId] = processInfo;

                currentPtr = (IntPtr)((long)currentPtr + Marshal.SizeOf(pi));
                int i = 0;
                while (i < pi.NumberOfThreads)
                {
                    ref SystemThreadInformation ti = ref *(SystemThreadInformation *)(currentPtr);
                    ThreadInfo threadInfo          = new ThreadInfo();

                    threadInfo._processId        = (int)ti.ClientId.UniqueProcess;
                    threadInfo._threadId         = (ulong)ti.ClientId.UniqueThread;
                    threadInfo._basePriority     = ti.BasePriority;
                    threadInfo._currentPriority  = ti.Priority;
                    threadInfo._startAddress     = ti.StartAddress;
                    threadInfo._threadState      = (ThreadState)ti.ThreadState;
                    threadInfo._threadWaitReason = NtProcessManager.GetThreadWaitReason((int)ti.WaitReason);

                    processInfo._threadInfoList.Add(threadInfo);
                    currentPtr = (IntPtr)((long)currentPtr + Marshal.SizeOf(ti));
                    i++;
                }
Exemplo n.º 18
0
        static ProcessInfo[] GetProcessInfos(IntPtr dataPtr)
        {
            // 60 is a reasonable number for processes on a normal machine.
            Dictionary <int, ProcessInfo> processInfos = new Dictionary <int, ProcessInfo>(60);

            long totalOffset = 0;

            while (true)
            {
                IntPtr currentPtr           = (IntPtr)((long)dataPtr + totalOffset);
                SystemProcessInformation pi = new SystemProcessInformation();

                Marshal.PtrToStructure(currentPtr, pi);

                // get information for a process
                ProcessInfo processInfo = new ProcessInfo();
                // Process ID shouldn't overflow. OS API GetCurrentProcessID returns DWORD.
                processInfo._processId         = pi.UniqueProcessId.ToInt32();
                processInfo._handleCount       = (int)pi.HandleCount;
                processInfo._sessionId         = (int)pi.SessionId;
                processInfo._poolPagedBytes    = (long)pi.QuotaPagedPoolUsage;;
                processInfo._poolNonpagedBytes = (long)pi.QuotaNonPagedPoolUsage;
                processInfo._virtualBytes      = (long)pi.VirtualSize;
                processInfo._virtualBytesPeak  = (long)pi.PeakVirtualSize;
                processInfo._workingSetPeak    = (long)pi.PeakWorkingSetSize;
                processInfo._workingSet        = (long)pi.WorkingSetSize;
                processInfo._pageFileBytesPeak = (long)pi.PeakPagefileUsage;
                processInfo._pageFileBytes     = (long)pi.PagefileUsage;
                processInfo._privateBytes      = (long)pi.PrivatePageCount;
                processInfo._basePriority      = pi.BasePriority;


                if (pi.NamePtr == IntPtr.Zero)
                {
                    if (processInfo._processId == NtProcessManager.SystemProcessID)
                    {
                        processInfo._processName = "System";
                    }
                    else if (processInfo._processId == NtProcessManager.IdleProcessID)
                    {
                        processInfo._processName = "Idle";
                    }
                    else
                    {
                        // for normal process without name, using the process ID.
                        processInfo._processName = processInfo._processId.ToString(CultureInfo.InvariantCulture);
                    }
                }
                else
                {
                    string processName = GetProcessShortName(Marshal.PtrToStringUni(pi.NamePtr, pi.NameLength / sizeof(char)));
                    processInfo._processName = processName;
                }

                // get the threads for current process
                processInfos[processInfo._processId] = processInfo;

                currentPtr = (IntPtr)((long)currentPtr + Marshal.SizeOf(pi));
                int i = 0;
                while (i < pi.NumberOfThreads)
                {
                    SystemThreadInformation ti = new SystemThreadInformation();
                    Marshal.PtrToStructure(currentPtr, ti);
                    ThreadInfo threadInfo = new ThreadInfo();

                    threadInfo._processId        = (int)ti.UniqueProcess;
                    threadInfo._threadId         = (int)ti.UniqueThread;
                    threadInfo._basePriority     = ti.BasePriority;
                    threadInfo._currentPriority  = ti.Priority;
                    threadInfo._startAddress     = ti.StartAddress;
                    threadInfo._threadState      = (ThreadState)ti.ThreadState;
                    threadInfo._threadWaitReason = NtProcessManager.GetThreadWaitReason((int)ti.WaitReason);

                    processInfo._threadInfoList.Add(threadInfo);
                    currentPtr = (IntPtr)((long)currentPtr + Marshal.SizeOf(ti));
                    i++;
                }

                if (pi.NextEntryOffset == 0)
                {
                    break;
                }
                totalOffset += pi.NextEntryOffset;
            }

            ProcessInfo[] temp = new ProcessInfo[processInfos.Values.Count];
            processInfos.Values.CopyTo(temp, 0);
            return(temp);
        }
Exemplo n.º 19
0
 /// <summary>Gets process infos for each process on the specified machine.</summary>
 /// <param name="machineName">The target machine.</param>
 /// <returns>An array of process infos, one per found process.</returns>
 public static ProcessInfo[] GetProcessInfos(string machineName)
 {
     return(IsRemoteMachine(machineName) ?
            NtProcessManager.GetProcessInfos(machineName, true) :
            NtProcessInfoHelper.GetProcessInfos()); // Do not use performance counter for local machine
 }
Exemplo n.º 20
0
        private static ProcessInfo[] GetProcessInfos(IntPtr dataPtr)
        {
            IntPtr    ptr;
            Hashtable hashtable = new Hashtable(60);
            long      num       = 0L;

Label_000B:
            ptr = (IntPtr)(((long)dataPtr) + num);
            SystemProcessInformation structure = new SystemProcessInformation();

            Marshal.PtrToStructure(ptr, structure);
            ProcessInfo info = new ProcessInfo {
                processId         = structure.UniqueProcessId.ToInt32(),
                handleCount       = (int)structure.HandleCount,
                sessionId         = (int)structure.SessionId,
                poolPagedBytes    = (long)((ulong)structure.QuotaPagedPoolUsage),
                poolNonpagedBytes = (long)((ulong)structure.QuotaNonPagedPoolUsage),
                virtualBytes      = (long)((ulong)structure.VirtualSize),
                virtualBytesPeak  = (long)((ulong)structure.PeakVirtualSize),
                workingSetPeak    = (long)((ulong)structure.PeakWorkingSetSize),
                workingSet        = (long)((ulong)structure.WorkingSetSize),
                pageFileBytesPeak = (long)((ulong)structure.PeakPagefileUsage),
                pageFileBytes     = (long)((ulong)structure.PagefileUsage),
                privateBytes      = (long)((ulong)structure.PrivatePageCount),
                basePriority      = structure.BasePriority
            };

            if (structure.NamePtr == IntPtr.Zero)
            {
                if (info.processId == NtProcessManager.SystemProcessID)
                {
                    info.processName = "System";
                }
                else if (info.processId == 0)
                {
                    info.processName = "Idle";
                }
                else
                {
                    info.processName = info.processId.ToString(CultureInfo.InvariantCulture);
                }
            }
            else
            {
                string processShortName = GetProcessShortName(Marshal.PtrToStringUni(structure.NamePtr, structure.NameLength / 2));
                if (ProcessManager.IsOSOlderThanXP && (processShortName.Length == 15))
                {
                    if (processShortName.EndsWith(".", StringComparison.OrdinalIgnoreCase))
                    {
                        processShortName = processShortName.Substring(0, 14);
                    }
                    else if (processShortName.EndsWith(".e", StringComparison.OrdinalIgnoreCase))
                    {
                        processShortName = processShortName.Substring(0, 13);
                    }
                    else if (processShortName.EndsWith(".ex", StringComparison.OrdinalIgnoreCase))
                    {
                        processShortName = processShortName.Substring(0, 12);
                    }
                }
                info.processName = processShortName;
            }
            hashtable[info.processId] = info;
            ptr = (IntPtr)(((long)ptr) + Marshal.SizeOf(structure));
            for (int i = 0; i < structure.NumberOfThreads; i++)
            {
                SystemThreadInformation information2 = new SystemThreadInformation();
                Marshal.PtrToStructure(ptr, information2);
                ThreadInfo info2 = new ThreadInfo {
                    processId        = (int)information2.UniqueProcess,
                    threadId         = (int)information2.UniqueThread,
                    basePriority     = information2.BasePriority,
                    currentPriority  = information2.Priority,
                    startAddress     = information2.StartAddress,
                    threadState      = (ThreadState)information2.ThreadState,
                    threadWaitReason = NtProcessManager.GetThreadWaitReason((int)information2.WaitReason)
                };
                info.threadInfoList.Add(info2);
                ptr = (IntPtr)(((long)ptr) + Marshal.SizeOf(information2));
            }
            if (structure.NextEntryOffset != 0)
            {
                num += structure.NextEntryOffset;
                goto Label_000B;
            }
            ProcessInfo[] array = new ProcessInfo[hashtable.Values.Count];
            hashtable.Values.CopyTo(array, 0);
            return(array);
        }