// natWin32Process.cc - Native side of Win32 process code. /* Copyright (C) 2003 Free Software Foundation This file is part of libgcj. This software is copyrighted work licensed under the terms of the Libgcj License. Please consult the file "LIBGCJ_LICENSE" for details. */ #include #include // Conflicts with the definition in "java/lang/reflect/Modifier.h" #undef STRICT #include #include #include #include #include #include #include #include #include #include #include void java::lang::ConcreteProcess::cleanup (void) { // FIXME: // We used to close the input, output and // error streams here, but we can't do that // because the caller also has the right // to close these and FileInputStream and FileOutputStream // scream if you attempt to close() them twice. Presently, // we use _Jv_platform_close_on_exec, which is similar // to the POSIX approach. // // What I wanted to do is have private nested // classes in ConcreteProcess which extend FileInputStream // and FileOutputStream, respectively, but override // close() to permit multiple calls to close(). This // led to class header and platform configury issues // that I didn't feel like dealing with. However, // this approach could conceivably be a good multiplatform // one since delaying the pipe close until process // termination could be wasteful if many child processes // are spawned within the parent process' lifetime. inputStream = NULL; outputStream = NULL; errorStream = NULL; if (procHandle) { CloseHandle((HANDLE) procHandle); procHandle = (jint) INVALID_HANDLE_VALUE; } } void java::lang::ConcreteProcess::destroy (void) { if (! hasExited ()) { // Kill it forcibly and assign an (arbitrary) exit code of 0. TerminateProcess ((HANDLE) procHandle, 0); exitCode = 0; cleanup (); } } jboolean java::lang::ConcreteProcess::hasExited (void) { DWORD exitStatus; if (GetExitCodeProcess ((HANDLE) procHandle, &exitStatus) != 0) { // NOTE: STILL_ACTIVE is defined as "259" by Win32 - if the // child actually exits with this return code, we have a // problem here. See MSDN documentation on GetExitCodeProcess( ). if (exitStatus == STILL_ACTIVE) return false; else { cleanup (); exitCode = exitStatus; return true; } } else return true; } jint java::lang::ConcreteProcess::waitFor (void) { if (! hasExited ()) { DWORD exitStatus = 0UL; // Set up our waitable objects array // - 0: the handle to the process we just launched // - 1: our thread's interrupt event HANDLE arh[2]; arh[0] = (HANDLE) procHandle; arh[1] = _Jv_Win32GetInterruptEvent (); DWORD rval = WaitForMultipleObjects (2, arh, 0, INFINITE); // Use the returned value from WaitForMultipleObjects // instead of our thread's interrupt_flag to test for // thread interruption. See the comment for // _Jv_Win32GetInterruptEvent(). bool bInterrupted = rval == (WAIT_OBJECT_0 + 1); if (bInterrupted) { // Querying this forces a reset our thread's interrupt flag. Thread::interrupted(); cleanup (); throw new InterruptedException (); } GetExitCodeProcess ((HANDLE) procHandle, &exitStatus); exitCode = exitStatus; cleanup (); } return exitCode; } // Helper class for creating and managing the pipes // used for I/O redirection for child processes. class ChildProcessPipe { public: // Indicates from the child process' point of view // whether the pipe is for reading or writing. enum EType {INPUT, OUTPUT}; ChildProcessPipe(EType eType); ~ChildProcessPipe(); // Returns a pipe handle suitable for use by the parent process HANDLE getParentHandle(); // Returns a pipe handle suitable for use by the child process. HANDLE getChildHandle(); private: EType m_eType; HANDLE m_hRead, m_hWrite; }; ChildProcessPipe::ChildProcessPipe(EType eType): m_eType(eType) { SECURITY_ATTRIBUTES sAttrs; // Explicitly allow the handles to the pipes to be inherited. sAttrs.nLength = sizeof (SECURITY_ATTRIBUTES); sAttrs.bInheritHandle = 1; sAttrs.lpSecurityDescriptor = NULL; if (CreatePipe (&m_hRead, &m_hWrite, &sAttrs, 0) == 0) { DWORD dwErrorCode = GetLastError (); throw new java::io::IOException ( _Jv_WinStrError (_T("Error creating pipe"), dwErrorCode)); } // If this is the read end of the child, we need // to make the parent write end non-inheritable. Similarly, // if this is the write end of the child, we need to make // the parent read end non-inheritable. If we didn't // do this, the child would inherit these ends and we wouldn't // be able to close them from our end. For full details, // do a Google search on "Q190351". HANDLE& rhStd = m_eType==INPUT ? m_hWrite : m_hRead; _Jv_platform_close_on_exec (rhStd); } ChildProcessPipe::~ChildProcessPipe() { // Close the parent end of the pipe. This // destructor is called after the child process // has been spawned. CloseHandle(getChildHandle()); } HANDLE ChildProcessPipe::getParentHandle() { return m_eType==INPUT ? m_hWrite : m_hRead; } HANDLE ChildProcessPipe::getChildHandle() { return m_eType==INPUT ? m_hRead : m_hWrite; } void java::lang::ConcreteProcess::startProcess (jstringArray progarray, jstringArray envp, java::io::File *dir) { using namespace java::io; procHandle = (jint) INVALID_HANDLE_VALUE; // Reconstruct the command line. jstring *elts = elements (progarray); int cmdLineLen = 0; for (int i = 0; i < progarray->length; ++i) cmdLineLen += (elts[i]->length() + 1); LPTSTR cmdLine = (LPTSTR) _Jv_Malloc ((cmdLineLen + 1) * sizeof(TCHAR)); LPTSTR cmdLineCurPos = cmdLine; for (int i = 0; i < progarray->length; ++i) { if (i > 0) *cmdLineCurPos++ = _T(' '); jint len = elts[i]->length(); JV_TEMP_STRING_WIN32(thiselt, elts[i]); _tcscpy(cmdLineCurPos, thiselt); cmdLineCurPos += len; } *cmdLineCurPos = _T('\0'); // Get the environment, if any. LPTSTR env = NULL; if (envp) { elts = elements (envp); int envLen = 0; for (int i = 0; i < envp->length; ++i) envLen += (elts[i]->length() + 1); env = (LPTSTR) _Jv_Malloc ((envLen + 1) * sizeof(TCHAR)); int j = 0; for (int i = 0; i < envp->length; ++i) { jint len = elts[i]->length(); JV_TEMP_STRING_WIN32(thiselt, elts[i]); _tcscpy(env + j, thiselt); j += len; // Skip past the null terminator that _tcscpy just inserted. j++; } *(env + j) = _T('\0'); } // Get the working directory path, if specified. JV_TEMP_STRING_WIN32 (wdir, dir ? dir->getPath () : 0); errorStream = NULL; inputStream = NULL; outputStream = NULL; java::lang::Throwable *exc = NULL; try { // We create anonymous pipes to communicate with the child // on each of standard streams. ChildProcessPipe aChildStdIn(ChildProcessPipe::INPUT); ChildProcessPipe aChildStdOut(ChildProcessPipe::OUTPUT); ChildProcessPipe aChildStdErr(ChildProcessPipe::OUTPUT); outputStream = new FileOutputStream (new FileDescriptor ( (jint) aChildStdIn.getParentHandle ())); inputStream = new FileInputStream (new FileDescriptor ( (jint) aChildStdOut.getParentHandle ())); errorStream = new FileInputStream (new FileDescriptor ( (jint) aChildStdErr.getParentHandle ())); // Now create the child process. PROCESS_INFORMATION pi; STARTUPINFO si; ZeroMemory (&pi, sizeof (PROCESS_INFORMATION)); ZeroMemory (&si, sizeof (STARTUPINFO)); si.cb = sizeof (STARTUPINFO); // Explicitly specify the handles to the standard streams. si.dwFlags |= STARTF_USESTDHANDLES; si.hStdInput = aChildStdIn.getChildHandle(); si.hStdOutput = aChildStdOut.getChildHandle(); si.hStdError = aChildStdErr.getChildHandle(); // Spawn the process. CREATE_NO_WINDOW only applies when // starting a console application; it suppresses the // creation of a console window. This flag is ignored on // Win9X. if (CreateProcess (NULL, cmdLine, NULL, NULL, 1, CREATE_NO_WINDOW | CREATE_UNICODE_ENVIRONMENT, env, wdir, &si, &pi) == 0) { DWORD dwErrorCode = GetLastError (); throw new IOException ( _Jv_WinStrError (_T("Error creating child process"), dwErrorCode)); } procHandle = (jint ) pi.hProcess; _Jv_Free (cmdLine); if (env != NULL) _Jv_Free (env); } catch (java::lang::Throwable *thrown) { cleanup (); exc = thrown; } if (exc != NULL) throw exc; }