[Designer ("System.Diagnostics.Design.ProcessDesigner, " + Consts.AssemblySystem_Design)]
[PermissionSet (SecurityAction.LinkDemand, Unrestricted = true)]
[PermissionSet (SecurityAction.InheritanceDemand, Unrestricted = true)]
-#if NET_2_0
[MonitoringDescription ("Represents a system process")]
-#endif
public class Process : Component
{
[StructLayout(LayoutKind.Sequential)]
void StartExitCallbackIfNeeded ()
{
-#if !NET_2_1
bool start = (!already_waiting && enableRaisingEvents && exited_event != null);
if (start && process_handle != IntPtr.Zero) {
WaitOrTimerCallback cb = new WaitOrTimerCallback (CBOnExit);
ThreadPool.RegisterWaitForSingleObject (h, cb, this, -1, true);
already_waiting = true;
}
-#endif
}
[DefaultValue (false), Browsable (false)]
}
}
+ /* data type is from the MonoProcessData enum in mono-proclib.h in the runtime */
+ [MethodImplAttribute(MethodImplOptions.InternalCall)]
+ private extern static long GetProcessData (int pid, int data_type, out int error);
+
[MonoTODO]
-#if NET_2_0
[Obsolete ("Use NonpagedSystemMemorySize64")]
-#endif
[DesignerSerializationVisibility (DesignerSerializationVisibility.Hidden)]
[MonitoringDescription ("The number of bytes that are not pageable.")]
public int NonpagedSystemMemorySize {
}
[MonoTODO]
-#if NET_2_0
[Obsolete ("Use PagedMemorySize64")]
-#endif
[DesignerSerializationVisibility (DesignerSerializationVisibility.Hidden)]
[MonitoringDescription ("The number of bytes that are paged.")]
public int PagedMemorySize {
}
[MonoTODO]
-#if NET_2_0
[Obsolete ("Use PagedSystemMemorySize64")]
-#endif
[DesignerSerializationVisibility (DesignerSerializationVisibility.Hidden)]
[MonitoringDescription ("The amount of paged system memory in bytes.")]
public int PagedSystemMemorySize {
}
[MonoTODO]
-#if NET_2_0
[Obsolete ("Use PeakPagedMemorySize64")]
-#endif
[DesignerSerializationVisibility (DesignerSerializationVisibility.Hidden)]
[MonitoringDescription ("The maximum amount of paged memory used by this process.")]
public int PeakPagedMemorySize {
}
}
- [MonoTODO]
-#if NET_2_0
[Obsolete ("Use PeakVirtualMemorySize64")]
-#endif
[DesignerSerializationVisibility (DesignerSerializationVisibility.Hidden)]
[MonitoringDescription ("The maximum amount of virtual memory used by this process.")]
public int PeakVirtualMemorySize {
get {
- return(0);
+ int error;
+ return (int)GetProcessData (pid, 8, out error);
}
}
- [MonoTODO]
-#if NET_2_0
[Obsolete ("Use PeakWorkingSet64")]
-#endif
[DesignerSerializationVisibility (DesignerSerializationVisibility.Hidden)]
[MonitoringDescription ("The maximum amount of system memory used by this process.")]
public int PeakWorkingSet {
get {
- return(0);
+ int error;
+ return (int)GetProcessData (pid, 5, out error);
}
}
-#if NET_2_0
[MonoTODO]
[DesignerSerializationVisibility (DesignerSerializationVisibility.Hidden)]
[MonitoringDescription ("The number of bytes that are not pageable.")]
}
}
- [MonoTODO]
[DesignerSerializationVisibility (DesignerSerializationVisibility.Hidden)]
[MonitoringDescription ("The maximum amount of virtual memory used by this process.")]
[ComVisible (false)]
public long PeakVirtualMemorySize64 {
get {
- return(0);
+ int error;
+ return GetProcessData (pid, 8, out error);
}
}
- [MonoTODO]
[DesignerSerializationVisibility (DesignerSerializationVisibility.Hidden)]
[MonitoringDescription ("The maximum amount of system memory used by this process.")]
[ComVisible (false)]
public long PeakWorkingSet64 {
get {
- return(0);
+ int error;
+ return GetProcessData (pid, 5, out error);
}
}
-#endif
[MonoTODO]
[DesignerSerializationVisibility (DesignerSerializationVisibility.Hidden)]
throw new InvalidOperationException ("Process has not been started.");
int error;
- if (!SetPriorityClass (process_handle, (int) value, out error))
+ if (!SetPriorityClass (process_handle, (int) value, out error)) {
+ CheckExited ();
throw new Win32Exception (error);
+ }
}
}
+ void CheckExited () {
+ if (HasExited)
+ throw new InvalidOperationException (String.Format ("Cannot process request because the process ({0}) has exited.", Id));
+ }
+
[MethodImplAttribute(MethodImplOptions.InternalCall)]
static extern int GetPriorityClass (IntPtr handle, out int error);
[MethodImplAttribute(MethodImplOptions.InternalCall)]
static extern bool SetPriorityClass (IntPtr handle, int priority, out int error);
- [MonoTODO]
[DesignerSerializationVisibility (DesignerSerializationVisibility.Hidden)]
[MonitoringDescription ("The amount of memory exclusively used by this process.")]
-#if NET_2_0
[Obsolete ("Use PrivateMemorySize64")]
-#endif
public int PrivateMemorySize {
get {
- return(0);
+ int error;
+ return (int)GetProcessData (pid, 6, out error);
}
}
-#if NET_2_0
[MonoNotSupported ("")]
[DesignerSerializationVisibility (DesignerSerializationVisibility.Hidden)]
[MonitoringDescription ("The session ID for this process.")]
public int SessionId {
get { throw new NotImplementedException (); }
}
-#endif
/* the meaning of type is as follows: 0: user, 1: system, 2: total */
[MethodImplAttribute(MethodImplOptions.InternalCall)]
public string ProcessName {
get {
if(process_name==null) {
+
+ if (process_handle == IntPtr.Zero)
+ throw new InvalidOperationException ("No process is associated with this object.");
+
process_name=ProcessName_internal(process_handle);
/* If process_name is _still_
* null, assume the process
* has exited
*/
if (process_name == null)
- throw new SystemException("The process has exited");
+ throw new InvalidOperationException ("Process has exited, so the requested information is not available.");
/* Strip the suffix (if it
* exists) simplistically
if (error_stream == null)
throw new InvalidOperationException("Standard error has not been redirected");
-#if NET_2_0
if ((async_mode & AsyncModes.AsyncError) != 0)
throw new InvalidOperationException ("Cannot mix asynchronous and synchonous reads.");
async_mode |= AsyncModes.SyncError;
-#endif
return(error_stream);
}
if (output_stream == null)
throw new InvalidOperationException("Standard output has not been redirected");
-#if NET_2_0
if ((async_mode & AsyncModes.AsyncOutput) != 0)
throw new InvalidOperationException ("Cannot mix asynchronous and synchonous reads.");
async_mode |= AsyncModes.SyncOutput;
-#endif
return(output_stream);
}
}
[MonoTODO]
- [DesignerSerializationVisibility (DesignerSerializationVisibility.Hidden), Browsable (false)]
+ [DesignerSerializationVisibility (DesignerSerializationVisibility.Hidden)]
[MonitoringDescription ("The number of threads of this process.")]
public ProcessThreadCollection Threads {
get {
- return ProcessThreadCollection.GetEmpty ();
+ // This'll return a correctly-sized array of empty ProcessThreads for now.
+ int error;
+ return new ProcessThreadCollection(new ProcessThread[GetProcessData (pid, 0, out error)]);
}
}
}
}
- [MonoTODO]
-#if NET_2_0
[Obsolete ("Use VirtualMemorySize64")]
-#endif
[DesignerSerializationVisibility (DesignerSerializationVisibility.Hidden)]
[MonitoringDescription ("The amount of virtual memory currently used for this process.")]
public int VirtualMemorySize {
get {
- return(0);
+ int error;
+ return (int)GetProcessData (pid, 7, out error);
}
}
- [MonoTODO]
-#if NET_2_0
[Obsolete ("Use WorkingSet64")]
-#endif
[DesignerSerializationVisibility (DesignerSerializationVisibility.Hidden)]
[MonitoringDescription ("The amount of physical memory currently used for this process.")]
public int WorkingSet {
get {
- return(0);
+ int error;
+ return (int)GetProcessData (pid, 4, out error);
}
}
-#if NET_2_0
- [MonoTODO]
[DesignerSerializationVisibility (DesignerSerializationVisibility.Hidden)]
[MonitoringDescription ("The amount of memory exclusively used by this process.")]
[ComVisible (false)]
public long PrivateMemorySize64 {
get {
- return(0);
+ int error;
+ return GetProcessData (pid, 6, out error);
}
}
- [MonoTODO]
[DesignerSerializationVisibility (DesignerSerializationVisibility.Hidden)]
[MonitoringDescription ("The amount of virtual memory currently used for this process.")]
[ComVisible (false)]
public long VirtualMemorySize64 {
get {
- return(0);
+ int error;
+ return GetProcessData (pid, 7, out error);
}
}
- [MonoTODO]
[DesignerSerializationVisibility (DesignerSerializationVisibility.Hidden)]
[MonitoringDescription ("The amount of physical memory currently used for this process.")]
[ComVisible (false)]
public long WorkingSet64 {
get {
- return(0);
+ int error;
+ return GetProcessData (pid, 4, out error);
}
}
-#endif
public void Close()
{
public static Process[] GetProcesses()
{
int [] pids = GetProcesses_internal ();
- ArrayList proclist = new ArrayList ();
-
+ if (pids == null)
+ return new Process [0];
+
+ ArrayList proclist = new ArrayList (pids.Length);
for (int i = 0; i < pids.Length; i++) {
try {
proclist.Add (GetProcessById (pids [i]));
public static Process[] GetProcessesByName(string processName)
{
- Process [] procs = GetProcesses();
- ArrayList proclist = new ArrayList();
+ int [] pids = GetProcesses_internal ();
+ if (pids == null)
+ return new Process [0];
- for (int i = 0; i < procs.Length; i++) {
- /* Ignore case */
- if (String.Compare (processName,
- procs [i].ProcessName,
- true) == 0) {
- proclist.Add (procs [i]);
+ ArrayList proclist = new ArrayList (pids.Length);
+ for (int i = 0; i < pids.Length; i++) {
+ try {
+ Process p = GetProcessById (pids [i]);
+ if (String.Compare (processName, p.ProcessName, true) == 0)
+ proclist.Add (p);
+ } catch (SystemException) {
+ /* The process might exit
+ * between
+ * GetProcesses_internal and
+ * GetProcessById
+ */
}
}
- return ((Process[]) proclist.ToArray (typeof(Process)));
+ return ((Process []) proclist.ToArray (typeof (Process)));
}
[MonoTODO]
Process process)
{
ProcInfo proc_info=new ProcInfo();
- IntPtr stdin_rd, stdin_wr;
+ IntPtr stdin_rd = IntPtr.Zero, stdin_wr = IntPtr.Zero;
IntPtr stdout_wr;
IntPtr stderr_wr;
bool ret;
}
if (startInfo.RedirectStandardInput == true) {
- ret = MonoIO.CreatePipe (out stdin_rd,
- out stdin_wr);
+ if (IsWindows) {
+ int DUPLICATE_SAME_ACCESS = 0x00000002;
+ IntPtr stdin_wr_tmp;
+
+ ret = MonoIO.CreatePipe (out stdin_rd,
+ out stdin_wr_tmp);
+ if (ret) {
+ ret = MonoIO.DuplicateHandle (Process.GetCurrentProcess ().Handle, stdin_wr_tmp,
+ Process.GetCurrentProcess ().Handle, out stdin_wr, 0, 0, DUPLICATE_SAME_ACCESS);
+ MonoIO.Close (stdin_wr_tmp, out error);
+ }
+ }
+ else
+ {
+ ret = MonoIO.CreatePipe (out stdin_rd,
+ out stdin_wr);
+ }
if (ret == false) {
throw new IOException ("Error creating standard input pipe");
}
}
if (startInfo.RedirectStandardOutput == true) {
- IntPtr out_rd;
- ret = MonoIO.CreatePipe (out out_rd,
- out stdout_wr);
+ IntPtr out_rd = IntPtr.Zero;
+ if (IsWindows) {
+ IntPtr out_rd_tmp;
+ int DUPLICATE_SAME_ACCESS = 0x00000002;
+
+ ret = MonoIO.CreatePipe (out out_rd_tmp,
+ out stdout_wr);
+ if (ret) {
+ MonoIO.DuplicateHandle (Process.GetCurrentProcess ().Handle, out_rd_tmp,
+ Process.GetCurrentProcess ().Handle, out out_rd, 0, 0, DUPLICATE_SAME_ACCESS);
+ MonoIO.Close (out_rd_tmp, out error);
+ }
+ }
+ else {
+ ret = MonoIO.CreatePipe (out out_rd,
+ out stdout_wr);
+ }
process.stdout_rd = out_rd;
if (ret == false) {
}
if (startInfo.RedirectStandardError == true) {
- IntPtr err_rd;
- ret = MonoIO.CreatePipe (out err_rd,
- out stderr_wr);
+ IntPtr err_rd = IntPtr.Zero;
+ if (IsWindows) {
+ IntPtr err_rd_tmp;
+ int DUPLICATE_SAME_ACCESS = 0x00000002;
+
+ ret = MonoIO.CreatePipe (out err_rd_tmp,
+ out stderr_wr);
+ if (ret) {
+ MonoIO.DuplicateHandle (Process.GetCurrentProcess ().Handle, err_rd_tmp,
+ Process.GetCurrentProcess ().Handle, out err_rd, 0, 0, DUPLICATE_SAME_ACCESS);
+ MonoIO.Close (err_rd_tmp, out error);
+ }
+ }
+ else {
+ ret = MonoIO.CreatePipe (out err_rd,
+ out stderr_wr);
+ }
process.stderr_rd = err_rd;
if (ret == false) {
throw new Win32Exception (-proc_info.pid,
"ApplicationName='" + startInfo.FileName +
"', CommandLine='" + startInfo.Arguments +
- "', CurrentDirectory='" + startInfo.WorkingDirectory + "'");
+ "', CurrentDirectory='" + startInfo.WorkingDirectory +
+ "', Native error= " + Win32Exception.W32ErrorMessage (-proc_info.pid));
}
process.process_handle = proc_info.process_handle;
process.input_stream.AutoFlush = true;
}
-#if NET_2_0
Encoding stdoutEncoding = startInfo.StandardOutputEncoding ?? Console.Out.Encoding;
Encoding stderrEncoding = startInfo.StandardErrorEncoding ?? Console.Out.Encoding;
-#else
- Encoding stdoutEncoding = Console.Out.Encoding;
- Encoding stderrEncoding = stdoutEncoding;
-#endif
if (startInfo.RedirectStandardOutput == true) {
MonoIO.Close (stdout_wr, out error);
// Note that ProcInfo.Password must be freed.
private static void FillUserInfo (ProcessStartInfo startInfo, ref ProcInfo proc_info)
{
-#if NET_2_0
if (startInfo.UserName != null) {
proc_info.UserName = startInfo.UserName;
proc_info.Domain = startInfo.Domain;
proc_info.Password = IntPtr.Zero;
proc_info.LoadUserProfile = startInfo.LoadUserProfile;
}
-#endif
}
private static bool Start_common (ProcessStartInfo startInfo,
if (startInfo.FileName == null || startInfo.FileName.Length == 0)
throw new InvalidOperationException("File name has not been set");
-#if NET_2_0
if (startInfo.StandardErrorEncoding != null && !startInfo.RedirectStandardError)
throw new InvalidOperationException ("StandardErrorEncoding is only supported when standard error is redirected");
if (startInfo.StandardOutputEncoding != null && !startInfo.RedirectStandardOutput)
throw new InvalidOperationException ("StandardOutputEncoding is only supported when standard output is redirected");
-#endif
if (startInfo.UseShellExecute) {
-#if NET_2_0
if (!String.IsNullOrEmpty (startInfo.UserName))
throw new InvalidOperationException ("UserShellExecute must be false if an explicit UserName is specified when starting a process");
-#endif
return (Start_shell (startInfo, process));
} else {
return (Start_noshell (startInfo, process));
return Start (new ProcessStartInfo (fileName, arguments));
}
-#if NET_2_0
public static Process Start(string fileName, string username, SecureString password, string domain) {
return Start(fileName, null, username, password, domain);
}
psi.UseShellExecute = false;
return Start(psi);
}
-#endif
public override string ToString()
{
if (ms == int.MaxValue)
ms = -1;
-#if NET_2_0
DateTime start = DateTime.UtcNow;
if (async_output != null && !async_output.IsCompleted) {
if (false == async_output.WaitHandle.WaitOne (ms, false))
return false;
}
}
-#endif
return WaitForExit_internal (process_handle, ms);
}
+ /* Waits up to ms milliseconds for process 'handle' to
+ * wait for input. ms can be <0 to mean wait forever.
+ */
+ [MethodImplAttribute(MethodImplOptions.InternalCall)]
+ private extern bool WaitForInputIdle_internal(IntPtr handle, int ms);
+
+ // The internal call is only implemented properly on Windows.
[MonoTODO]
public bool WaitForInputIdle() {
- return(false);
+ return WaitForInputIdle (-1);
}
+ // The internal call is only implemented properly on Windows.
[MonoTODO]
public bool WaitForInputIdle(int milliseconds) {
- return(false);
+ return WaitForInputIdle_internal (process_handle, milliseconds);
}
private static bool IsLocalMachine (string machineName)
return (string.Compare (machineName, Environment.MachineName, true) == 0);
}
-#if NET_2_0
[Browsable (true)]
[MonitoringDescription ("Raised when it receives output data")]
public event DataReceivedEventHandler OutputDataReceived;
The following fields match those of SocketAsyncResult.
This is so that changes needed in the runtime to handle
asynchronous reads are trivial
+ Keep this in sync with SocketAsyncResult in
+ ./System.Net.Sockets/Socket.cs and MonoSocketAsyncResult
+ in metadata/socket-io.h.
*/
/* DON'T shuffle fields around. DON'T remove fields */
public object Sock;
public int Size;
public int SockFlags;
+ public object AcceptSocket;
+ public object[] Addresses;
+ public int port;
+ public object Buffers; // Reserve this slot in older profiles
+ public bool ReuseSocket; // Disconnect
public object acc_socket;
public int total;
public bool completed_sync;
internal int error;
public int operation = 8; // MAGIC NUMBER: see Socket.cs:AsyncOperation
public object ares;
-
+ public int EndCalled;
// These fields are not in SocketAsyncResult
Process process;
completed = true;
if (wait_handle != null)
wait_handle.Set ();
- Flush (true);
+ FlushLast ();
return;
}
}
}
+ void FlushLast ()
+ {
+ Flush (true);
+ if (err_out) {
+ process.OnOutputDataReceived (null);
+ } else {
+ process.OnErrorDataReceived (null);
+ }
+ }
+
void Flush (bool last)
{
if (sb.Length == 0 ||
}
}
}
+
+ public void Close () {
+ stream.Close ();
+ }
}
AsyncModes async_mode;
error_canceled = true;
}
-#endif
[Category ("Behavior")]
[MonitoringDescription ("Raised when this process exits.")]
// dispose all managed resources.
if(disposing) {
// Do stuff here
+ lock (this) {
+ /* These have open FileStreams on the pipes we are about to close */
+ if (async_output != null)
+ async_output.Close ();
+ if (async_error != null)
+ async_error.Close ();
+ }
}
// Release unmanaged resources
lock(this) {
if(process_handle!=IntPtr.Zero) {
-
Process_free_internal(process_handle);
process_handle=IntPtr.Zero;
}
static void CBOnExit (object state, bool unused)
{
Process p = (Process) state;
+ p.already_waiting = false;
p.OnExited ();
}
synchronizingObject.BeginInvoke (exited_event, args);
}
- class ProcessWaitHandle : WaitHandle
+ static bool IsWindows
{
- public ProcessWaitHandle (IntPtr handle)
+ get
{
- Handle = handle;
+ PlatformID platform = Environment.OSVersion.Platform;
+ if (platform == PlatformID.Win32S ||
+ platform == PlatformID.Win32Windows ||
+ platform == PlatformID.Win32NT ||
+ platform == PlatformID.WinCE) {
+ return true;
+ }
+ return false;
}
+ }
- protected override void Dispose (bool explicitDisposing)
+ class ProcessWaitHandle : WaitHandle
+ {
+ [MethodImplAttribute (MethodImplOptions.InternalCall)]
+ private extern static IntPtr ProcessHandle_duplicate (IntPtr handle);
+
+ public ProcessWaitHandle (IntPtr handle)
{
- // Do nothing, we don't own the handle and we won't close it.
+ // Need to keep a reference to this handle,
+ // in case the Process object is collected
+ Handle = ProcessHandle_duplicate (handle);
+
+ // When the wait handle is disposed, the duplicated handle will be
+ // closed, so no need to override dispose (bug #464628).
}
}
}