EVOLUTION-MANAGER

Edit File: cpl_spawn.cpp

/********************************************************************** * * Project: CPL - Common Portability Library * Purpose: Implement CPLSystem(). * Author: Even Rouault, <even dot rouault at mines dash paris dot org> * ********************************************************************** * Copyright (c) 2012-2013, Even Rouault <even dot rouault at mines-paris dot org> * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. ****************************************************************************/ #include "cpl_port.h" #include "cpl_spawn.h" #include <cstring> #include "cpl_config.h" #include "cpl_conv.h" #include "cpl_error.h" #include "cpl_multiproc.h" #include "cpl_string.h" #if defined(WIN32) #include <windows.h> #else #include <cerrno> #include <csignal> #include <cstdio> #include <cstdlib> #include <sys/types.h> #include <sys/wait.h> #include <unistd.h> #ifdef HAVE_POSIX_SPAWNP #include <spawn.h> #ifdef __APPLE__ #include <TargetConditionals.h> #endif #if defined(__APPLE__) && (!defined(TARGET_OS_IPHONE) || TARGET_OS_IPHONE==0) #include <crt_externs.h> #define environ (*_NSGetEnviron()) #else extern char** environ; #endif #endif #endif constexpr int PIPE_BUFFER_SIZE = 4096; constexpr int IN_FOR_PARENT = 0; constexpr int OUT_FOR_PARENT = 1; CPL_CVSID("$Id: cpl_spawn.cpp 0f654dda9faabf9d86a44293f0f89903a8e97dd7 2018-04-15 20:18:32 +0200 Even Rouault $") static void FillFileFromPipe(CPL_FILE_HANDLE pipe_fd, VSILFILE* fout); /************************************************************************/ /* FillPipeFromFile() */ /************************************************************************/ static void FillPipeFromFile( VSILFILE* fin, CPL_FILE_HANDLE pipe_fd ) { char buf[PIPE_BUFFER_SIZE] = {}; while( true ) { const int nRead = static_cast<int>( VSIFReadL(buf, 1, PIPE_BUFFER_SIZE, fin) ); if( nRead <= 0 ) break; if( !CPLPipeWrite(pipe_fd, buf, nRead) ) break; } } /************************************************************************/ /* CPLSpawn() */ /************************************************************************/ /** * Runs an executable in another process. * * This function runs an executable, wait for it to finish and returns * its exit code. * * It is implemented as CreateProcess() on Windows platforms, and fork()/exec() * on other platforms. * * @param papszArgv argument list of the executable to run. papszArgv[0] is the * name of the executable * @param fin File handle for input data to feed to the standard input of the * sub-process. May be NULL. * @param fout File handle for output data to extract from the standard output * of the sub-process. May be NULL. * @param bDisplayErr Set to TRUE to emit the content of the standard error * stream of the sub-process with CPLError(). * * @return the exit code of the spawned process, or -1 in case of error. * * @since GDAL 1.10.0 */ int CPLSpawn( const char * const papszArgv[], VSILFILE* fin, VSILFILE* fout, int bDisplayErr ) { CPLSpawnedProcess* sp = CPLSpawnAsync(nullptr, papszArgv, TRUE, TRUE, TRUE, nullptr); if( sp == nullptr ) return -1; CPL_FILE_HANDLE in_child = CPLSpawnAsyncGetOutputFileHandle(sp); if( fin != nullptr ) FillPipeFromFile(fin, in_child); CPLSpawnAsyncCloseOutputFileHandle(sp); CPL_FILE_HANDLE out_child = CPLSpawnAsyncGetInputFileHandle(sp); if( fout != nullptr ) FillFileFromPipe(out_child, fout); CPLSpawnAsyncCloseInputFileHandle(sp); CPL_FILE_HANDLE err_child = CPLSpawnAsyncGetErrorFileHandle(sp); CPLString osName; osName.Printf("/vsimem/child_stderr_" CPL_FRMT_GIB, CPLGetPID()); VSILFILE* ferr = VSIFOpenL(osName.c_str(), "w"); FillFileFromPipe(err_child, ferr); CPLSpawnAsyncCloseErrorFileHandle(sp); CPL_IGNORE_RET_VAL(VSIFCloseL(ferr)); vsi_l_offset nDataLength = 0; GByte* pData = VSIGetMemFileBuffer(osName.c_str(), &nDataLength, TRUE); if( nDataLength > 0 ) pData[nDataLength-1] = '\0'; if( pData && strstr( const_cast<const char *>( reinterpret_cast<char *>( pData ) ), "An error occurred while forking process") != nullptr ) bDisplayErr = TRUE; if( pData && bDisplayErr ) CPLError(CE_Failure, CPLE_AppDefined, "[%s error] %s", papszArgv[0], pData); CPLFree(pData); return CPLSpawnAsyncFinish(sp, TRUE, FALSE); } #if defined(WIN32) /************************************************************************/ /* CPLPipeRead() */ /************************************************************************/ int CPLPipeRead( CPL_FILE_HANDLE fin, void* data, int length ) { GByte* pabyData = static_cast<GByte *>(data); int nRemain = length; while( nRemain > 0 ) { DWORD nRead = 0; if( !ReadFile(fin, pabyData, nRemain, &nRead, nullptr) ) return FALSE; pabyData += nRead; nRemain -= nRead; } return TRUE; } /************************************************************************/ /* CPLPipeWrite() */ /************************************************************************/ int CPLPipeWrite( CPL_FILE_HANDLE fout, const void* data, int length ) { const GByte* pabyData = static_cast<const GByte *>(data); int nRemain = length; while( nRemain > 0 ) { DWORD nWritten = 0; if( !WriteFile(fout, pabyData, nRemain, &nWritten, nullptr) ) return FALSE; pabyData += nWritten; nRemain -= nWritten; } return TRUE; } /************************************************************************/ /* FillFileFromPipe() */ /************************************************************************/ static void FillFileFromPipe(CPL_FILE_HANDLE pipe_fd, VSILFILE* fout) { char buf[PIPE_BUFFER_SIZE] = {}; while( true ) { DWORD nRead = 0; if( !ReadFile( pipe_fd, buf, PIPE_BUFFER_SIZE, &nRead, nullptr) ) break; if( nRead <= 0 ) break; const int nWritten = static_cast<int>(VSIFWriteL(buf, 1, nRead, fout)); if( nWritten < static_cast<int>(nRead) ) break; } } struct _CPLSpawnedProcess { HANDLE hProcess; DWORD nProcessId; HANDLE hThread; CPL_FILE_HANDLE fin; CPL_FILE_HANDLE fout; CPL_FILE_HANDLE ferr; }; /************************************************************************/ /* CPLSpawnAsync() */ /************************************************************************/ CPLSpawnedProcess* CPLSpawnAsync( CPL_UNUSED int (*pfnMain)(CPL_FILE_HANDLE, CPL_FILE_HANDLE), const char * const papszArgv[], int bCreateInputPipe, int bCreateOutputPipe, int bCreateErrorPipe, char** /* papszOptions */) { if( papszArgv == nullptr ) { CPLError(CE_Failure, CPLE_AppDefined, "On Windows, papszArgv argument must not be NULL"); return nullptr; } // TODO(schwehr): Consider initializing saAttr. SECURITY_ATTRIBUTES saAttr; saAttr.nLength = sizeof(SECURITY_ATTRIBUTES); saAttr.bInheritHandle = TRUE; saAttr.lpSecurityDescriptor = nullptr; // TODO(schwehr): Move these to where they are used after gotos are removed. HANDLE pipe_out[2] = { nullptr, nullptr }; HANDLE pipe_err[2] = { nullptr, nullptr }; CPLString osCommandLine; HANDLE pipe_in[2] = { nullptr, nullptr }; if( bCreateInputPipe ) { if( !CreatePipe(&pipe_in[IN_FOR_PARENT], &pipe_in[OUT_FOR_PARENT], &saAttr, 0) ) goto err_pipe; // The child must not inherit from the write side of the pipe_in. if( !SetHandleInformation(pipe_in[OUT_FOR_PARENT], HANDLE_FLAG_INHERIT, 0) ) goto err_pipe; } if( bCreateOutputPipe ) { if( !CreatePipe(&pipe_out[IN_FOR_PARENT], &pipe_out[OUT_FOR_PARENT], &saAttr, 0) ) goto err_pipe; // The child must not inherit from the read side of the pipe_out. if( !SetHandleInformation(pipe_out[IN_FOR_PARENT], HANDLE_FLAG_INHERIT, 0) ) goto err_pipe; } if( bCreateErrorPipe ) { if( !CreatePipe(&pipe_err[IN_FOR_PARENT], &pipe_err[OUT_FOR_PARENT], &saAttr, 0) ) goto err_pipe; // The child must not inherit from the read side of the pipe_err. if( !SetHandleInformation(pipe_err[IN_FOR_PARENT], HANDLE_FLAG_INHERIT, 0) ) goto err_pipe; } // TODO(schwehr): Consider initializing piProcInfo. PROCESS_INFORMATION piProcInfo; memset(&piProcInfo, 0, sizeof(PROCESS_INFORMATION)); STARTUPINFO siStartInfo; memset(&siStartInfo, 0, sizeof(STARTUPINFO)); siStartInfo.cb = sizeof(STARTUPINFO); siStartInfo.hStdInput = bCreateInputPipe ? pipe_in[IN_FOR_PARENT] : GetStdHandle(STD_INPUT_HANDLE); siStartInfo.hStdOutput = bCreateOutputPipe ? pipe_out[OUT_FOR_PARENT] : GetStdHandle(STD_OUTPUT_HANDLE); siStartInfo.hStdError = bCreateErrorPipe ? pipe_err[OUT_FOR_PARENT] : GetStdHandle(STD_ERROR_HANDLE); siStartInfo.dwFlags |= STARTF_USESTDHANDLES; for( int i = 0; papszArgv[i] != nullptr; i++ ) { if( i > 0 ) osCommandLine += " "; // We need to quote arguments with spaces in them (if not already done). if( strchr(papszArgv[i], ' ') != nullptr && papszArgv[i][0] != '"' ) { osCommandLine += "\""; osCommandLine += papszArgv[i]; osCommandLine += "\""; } else { osCommandLine += papszArgv[i]; } } if( !CreateProcess(nullptr, const_cast<CHAR*>(osCommandLine.c_str()), nullptr, // Process security attributes nullptr, // Primary thread security attributes TRUE, // Handles are inherited CREATE_NO_WINDOW|NORMAL_PRIORITY_CLASS, // Creation flags nullptr, // Use parent's environment nullptr, // Use parent's current directory &siStartInfo, &piProcInfo) ) { CPLError(CE_Failure, CPLE_AppDefined, "Could not create process %s", osCommandLine.c_str()); goto err; } // Close unused end of pipe. if( bCreateInputPipe ) CloseHandle(pipe_in[IN_FOR_PARENT]); if( bCreateOutputPipe ) CloseHandle(pipe_out[OUT_FOR_PARENT]); if( bCreateErrorPipe ) CloseHandle(pipe_err[OUT_FOR_PARENT]); { CPLSpawnedProcess* p = static_cast<CPLSpawnedProcess *>( CPLMalloc(sizeof(CPLSpawnedProcess))); p->hProcess = piProcInfo.hProcess; p->nProcessId = piProcInfo.dwProcessId; p->hThread = piProcInfo.hThread; p->fin = pipe_out[IN_FOR_PARENT]; p->fout = pipe_in[OUT_FOR_PARENT]; p->ferr = pipe_err[IN_FOR_PARENT]; return p; } err_pipe: CPLError(CE_Failure, CPLE_AppDefined, "Could not create pipe"); err: for( int i = 0; i < 2; i++ ) { if( pipe_in[i] != nullptr ) CloseHandle(pipe_in[i]); if( pipe_out[i] != nullptr ) CloseHandle(pipe_out[i]); if( pipe_err[i] != nullptr ) CloseHandle(pipe_err[i]); } return nullptr; } /************************************************************************/ /* CPLSpawnAsyncGetChildProcessId() */ /************************************************************************/ CPL_PID CPLSpawnAsyncGetChildProcessId(CPLSpawnedProcess* p) { return p->nProcessId; } /************************************************************************/ /* CPLSpawnAsyncFinish() */ /************************************************************************/ int CPLSpawnAsyncFinish(CPLSpawnedProcess* p, int bWait, int /* bKill */ ) { // Get the exit code. DWORD exitCode = -1; if( bWait ) { WaitForSingleObject( p->hProcess, INFINITE ); GetExitCodeProcess(p->hProcess, &exitCode); } else { exitCode = 0; } CloseHandle(p->hProcess); CloseHandle(p->hThread); CPLSpawnAsyncCloseInputFileHandle(p); CPLSpawnAsyncCloseOutputFileHandle(p); CPLSpawnAsyncCloseErrorFileHandle(p); CPLFree(p); return static_cast<int>(exitCode); } /************************************************************************/ /* CPLSpawnAsyncCloseInputFileHandle() */ /************************************************************************/ void CPLSpawnAsyncCloseInputFileHandle(CPLSpawnedProcess* p) { if( p->fin != nullptr ) CloseHandle(p->fin); p->fin = nullptr; } /************************************************************************/ /* CPLSpawnAsyncCloseOutputFileHandle() */ /************************************************************************/ void CPLSpawnAsyncCloseOutputFileHandle(CPLSpawnedProcess* p) { if( p->fout != nullptr ) CloseHandle(p->fout); p->fout = nullptr; } /************************************************************************/ /* CPLSpawnAsyncCloseErrorFileHandle() */ /************************************************************************/ void CPLSpawnAsyncCloseErrorFileHandle(CPLSpawnedProcess* p) { if( p->ferr != nullptr ) CloseHandle(p->ferr); p->ferr = nullptr; } #else // Not WIN32 /************************************************************************/ /* CPLPipeRead() */ /************************************************************************/ /** * Read data from the standard output of a forked process. * * @param fin handle returned by CPLSpawnAsyncGetInputFileHandle(). * @param data buffer in which to write. * @param length number of bytes to read. * * @return TRUE in case of success. * * @since GDAL 1.10.0 */ int CPLPipeRead( CPL_FILE_HANDLE fin, void* data, int length ) { GByte* pabyData = static_cast<GByte*>( data ); int nRemain = length; while( nRemain > 0 ) { while( true ) { const int n = static_cast<int>(read(fin, pabyData, nRemain)); if( n < 0 ) { if( errno == EINTR ) continue; else return FALSE; } else if( n == 0 ) return FALSE; pabyData += n; nRemain -= n; break; } } return TRUE; } /************************************************************************/ /* CPLPipeWrite() */ /************************************************************************/ /** * Write data to the standard input of a forked process. * * @param fout handle returned by CPLSpawnAsyncGetOutputFileHandle(). * @param data buffer from which to read. * @param length number of bytes to write. * * @return TRUE in case of success. * * @since GDAL 1.10.0 */ int CPLPipeWrite( CPL_FILE_HANDLE fout, const void* data, int length ) { const GByte* pabyData = static_cast<const GByte*>( data ); int nRemain = length; while( nRemain > 0 ) { while( true ) { const int n = static_cast<int>(write(fout, pabyData, nRemain)); if( n < 0 ) { if( errno == EINTR ) continue; else return FALSE; } pabyData += n; nRemain -= n; break; } } return TRUE; } /************************************************************************/ /* FillFileFromPipe() */ /************************************************************************/ static void FillFileFromPipe( CPL_FILE_HANDLE pipe_fd, VSILFILE* fout ) { char buf[PIPE_BUFFER_SIZE] = {}; while( true ) { const int nRead = static_cast<int>(read(pipe_fd, buf, PIPE_BUFFER_SIZE)); if( nRead <= 0 ) break; const int nWritten = static_cast<int>( VSIFWriteL(buf, 1, nRead, fout) ); if( nWritten < nRead ) break; } } /************************************************************************/ /* CPLSpawnAsync() */ /************************************************************************/ struct _CPLSpawnedProcess { pid_t pid; CPL_FILE_HANDLE fin; CPL_FILE_HANDLE fout; CPL_FILE_HANDLE ferr; #ifdef HAVE_POSIX_SPAWNP bool bFreeActions; posix_spawn_file_actions_t actions; #endif }; /** * Runs an executable in another process (or fork the current process) * and return immediately. * * This function launches an executable and returns immediately, while letting * the sub-process to run asynchronously. * * It is implemented as CreateProcess() on Windows platforms, and fork()/exec() * on other platforms. * * On Unix, a pointer of function can be provided to run in the child process, * without exec()'ing a new executable. * * @param pfnMain the function to run in the child process (Unix only). * @param papszArgv argument list of the executable to run. papszArgv[0] is the * name of the executable. * @param bCreateInputPipe set to TRUE to create a pipe for the child * input stream. * @param bCreateOutputPipe set to TRUE to create a pipe for the child * output stream. * @param bCreateErrorPipe set to TRUE to create a pipe for the child * error stream. * * @return a handle, that must be freed with CPLSpawnAsyncFinish() * * @since GDAL 1.10.0 */ CPLSpawnedProcess* CPLSpawnAsync( int (*pfnMain)(CPL_FILE_HANDLE, CPL_FILE_HANDLE), const char * const papszArgv[], int bCreateInputPipe, int bCreateOutputPipe, int bCreateErrorPipe, char** /* papszOptions */ ) { int pipe_in[2] = { -1, -1 }; int pipe_out[2] = { -1, -1 }; int pipe_err[2] = { -1, -1 }; if( (bCreateInputPipe && pipe(pipe_in)) || (bCreateOutputPipe && pipe(pipe_out)) || (bCreateErrorPipe && pipe(pipe_err)) ) { CPLError(CE_Failure, CPLE_AppDefined, "Could not create pipe"); return nullptr; } bool bDup2In = CPL_TO_BOOL(bCreateInputPipe); bool bDup2Out = CPL_TO_BOOL(bCreateOutputPipe); bool bDup2Err = CPL_TO_BOOL(bCreateErrorPipe); char** papszArgvDup = CSLDuplicate( const_cast<char **>( papszArgv ) ); // If we don't do any file actions, posix_spawnp() might be implemented // efficiently as a vfork()/exec() pair (or if it is not available, we // can use vfork()/exec()), so if the child is cooperative // we pass the pipe handles as commandline arguments. if( papszArgv != nullptr ) { for( int i = 0; papszArgvDup[i] != nullptr; i++ ) { if( bCreateInputPipe && strcmp(papszArgvDup[i], "{pipe_in}") == 0 ) { CPLFree(papszArgvDup[i]); papszArgvDup[i] = CPLStrdup(CPLSPrintf("%d,%d", pipe_in[IN_FOR_PARENT], pipe_in[OUT_FOR_PARENT])); bDup2In = false; } else if( bCreateOutputPipe && strcmp(papszArgvDup[i], "{pipe_out}") == 0 ) { CPLFree(papszArgvDup[i]); papszArgvDup[i] = CPLStrdup(CPLSPrintf("%d,%d", pipe_out[OUT_FOR_PARENT], pipe_out[IN_FOR_PARENT])); bDup2Out = false; } else if( bCreateErrorPipe && strcmp(papszArgvDup[i], "{pipe_err}") == 0 ) { CPLFree(papszArgvDup[i]); papszArgvDup[i] = CPLStrdup(CPLSPrintf("%d,%d", pipe_err[OUT_FOR_PARENT], pipe_err[IN_FOR_PARENT])); bDup2Err = false; } } } #ifdef HAVE_POSIX_SPAWNP if( papszArgv != nullptr ) { bool bHasActions = false; posix_spawn_file_actions_t actions; if( bDup2In ) { if( !bHasActions ) posix_spawn_file_actions_init(&actions); posix_spawn_file_actions_adddup2(&actions, pipe_in[IN_FOR_PARENT], fileno(stdin)); posix_spawn_file_actions_addclose(&actions, pipe_in[OUT_FOR_PARENT]); bHasActions = true; } if( bDup2Out ) { if( !bHasActions ) posix_spawn_file_actions_init(&actions); posix_spawn_file_actions_adddup2(&actions, pipe_out[OUT_FOR_PARENT], fileno(stdout)); posix_spawn_file_actions_addclose(&actions, pipe_out[IN_FOR_PARENT]); bHasActions = true; } if( bDup2Err ) { if( !bHasActions ) posix_spawn_file_actions_init(&actions); posix_spawn_file_actions_adddup2(&actions, pipe_err[OUT_FOR_PARENT], fileno(stderr)); posix_spawn_file_actions_addclose(&actions, pipe_err[IN_FOR_PARENT]); bHasActions = true; } pid_t pid = 0; if( posix_spawnp(&pid, papszArgvDup[0], bHasActions ? &actions : nullptr, nullptr, papszArgvDup, environ) != 0 ) { if( bHasActions ) posix_spawn_file_actions_destroy(&actions); CPLError(CE_Failure, CPLE_AppDefined, "posix_spawnp() failed"); CSLDestroy(papszArgvDup); for( int i = 0; i < 2; i++ ) { if( pipe_in[i] >= 0 ) close(pipe_in[i]); if( pipe_out[i] >= 0 ) close(pipe_out[i]); if( pipe_err[i] >= 0 ) close(pipe_err[i]); } return nullptr; } CSLDestroy(papszArgvDup); // Close unused end of pipe. if( bCreateInputPipe ) close(pipe_in[IN_FOR_PARENT]); if( bCreateOutputPipe ) close(pipe_out[OUT_FOR_PARENT]); if( bCreateErrorPipe ) close(pipe_err[OUT_FOR_PARENT]); // Ignore SIGPIPE. #ifdef SIGPIPE std::signal( SIGPIPE, SIG_IGN ); #endif CPLSpawnedProcess *p = static_cast<CPLSpawnedProcess *>( CPLMalloc( sizeof(CPLSpawnedProcess) ) ); if( bHasActions ) memcpy(&p->actions, &actions, sizeof(actions)); p->bFreeActions = bHasActions; p->pid = pid; p->fin = pipe_out[IN_FOR_PARENT]; p->fout = pipe_in[OUT_FOR_PARENT]; p->ferr = pipe_err[IN_FOR_PARENT]; return p; } #endif // #ifdef HAVE_POSIX_SPAWNP pid_t pid = 0; #if defined(HAVE_VFORK) && !defined(HAVE_POSIX_SPAWNP) if( papszArgv != nullptr && !bDup2In && !bDup2Out && !bDup2Err ) { // Workaround clang static analyzer warning about unsafe use of vfork. pid_t (*p_vfork)(void) = vfork; pid = p_vfork(); } else #endif { pid = fork(); } if( pid == 0 ) { // Close unused end of pipe. if( bDup2In ) close(pipe_in[OUT_FOR_PARENT]); if( bDup2Out ) close(pipe_out[IN_FOR_PARENT]); if( bDup2Err ) close(pipe_err[IN_FOR_PARENT]); #ifndef HAVE_POSIX_SPAWNP if( papszArgv != nullptr ) { if( bDup2In ) dup2(pipe_in[IN_FOR_PARENT], fileno(stdin)); if( bDup2Out ) dup2(pipe_out[OUT_FOR_PARENT], fileno(stdout)); if( bDup2Err ) dup2(pipe_err[OUT_FOR_PARENT], fileno(stderr)); execvp(papszArgvDup[0], papszArgvDup); _exit(1); } else #endif // HAVE_POSIX_SPAWNP { if( bCreateErrorPipe ) close(pipe_err[OUT_FOR_PARENT]); int nRet = 0; if( pfnMain != nullptr ) nRet = pfnMain( bCreateInputPipe ? pipe_in[IN_FOR_PARENT] : fileno(stdin), bCreateOutputPipe ? pipe_out[OUT_FOR_PARENT] : fileno(stdout)); _exit(nRet); } } else if( pid > 0 ) { CSLDestroy(papszArgvDup); // Close unused end of pipe. if( bCreateInputPipe ) close(pipe_in[IN_FOR_PARENT]); if( bCreateOutputPipe ) close(pipe_out[OUT_FOR_PARENT]); if( bCreateErrorPipe ) close(pipe_err[OUT_FOR_PARENT]); // Ignore SIGPIPE. #ifdef SIGPIPE std::signal( SIGPIPE, SIG_IGN ); #endif CPLSpawnedProcess* p = static_cast<CPLSpawnedProcess *>( CPLMalloc( sizeof(CPLSpawnedProcess) ) ); #ifdef HAVE_POSIX_SPAWNP p->bFreeActions = false; #endif p->pid = pid; p->fin = pipe_out[IN_FOR_PARENT]; p->fout = pipe_in[OUT_FOR_PARENT]; p->ferr = pipe_err[IN_FOR_PARENT]; return p; } CPLError(CE_Failure, CPLE_AppDefined, "Fork failed"); CSLDestroy(papszArgvDup); for( int i = 0; i < 2; i++ ) { if( pipe_in[i] >= 0 ) close(pipe_in[i]); if( pipe_out[i] >= 0 ) close(pipe_out[i]); if( pipe_err[i] >= 0 ) close(pipe_err[i]); } return nullptr; } /************************************************************************/ /* CPLSpawnAsyncGetChildProcessId() */ /************************************************************************/ CPL_PID CPLSpawnAsyncGetChildProcessId( CPLSpawnedProcess* p ) { return p->pid; } /************************************************************************/ /* CPLSpawnAsyncFinish() */ /************************************************************************/ /** * \fn CPLSpawnAsyncFinish(CPLSpawnedProcess*,int,int) * Wait for the forked process to finish. * * @param p handle returned by CPLSpawnAsync() * @param bWait set to TRUE to wait for the child to terminate. Otherwise the * associated handles are just cleaned. * @param bKill set to TRUE to force child termination (unimplemented right * now). * * @return the return code of the forked process if bWait == TRUE, 0 otherwise * * @since GDAL 1.10.0 */ int CPLSpawnAsyncFinish( CPLSpawnedProcess* p, int bWait, CPL_UNUSED int bKill ) { int status = 0; if( bWait ) { while( true ) { status = -1; const int ret = waitpid (p->pid, &status, 0); if( ret < 0 ) { if( errno != EINTR ) { break; } } else { break; } } } CPLSpawnAsyncCloseInputFileHandle(p); CPLSpawnAsyncCloseOutputFileHandle(p); CPLSpawnAsyncCloseErrorFileHandle(p); #ifdef HAVE_POSIX_SPAWNP if( p->bFreeActions ) posix_spawn_file_actions_destroy(&p->actions); #endif CPLFree(p); return status; } /************************************************************************/ /* CPLSpawnAsyncCloseInputFileHandle() */ /************************************************************************/ void CPLSpawnAsyncCloseInputFileHandle( CPLSpawnedProcess* p ) { if( p->fin >= 0 ) close(p->fin); p->fin = -1; } /************************************************************************/ /* CPLSpawnAsyncCloseOutputFileHandle() */ /************************************************************************/ void CPLSpawnAsyncCloseOutputFileHandle( CPLSpawnedProcess* p ) { if( p->fout >= 0 ) close(p->fout); p->fout = -1; } /************************************************************************/ /* CPLSpawnAsyncCloseErrorFileHandle() */ /************************************************************************/ void CPLSpawnAsyncCloseErrorFileHandle( CPLSpawnedProcess* p ) { if( p->ferr >= 0 ) close(p->ferr); p->ferr = -1; } #endif /************************************************************************/ /* CPLSpawnAsyncGetInputFileHandle() */ /************************************************************************/ /** * Return the file handle of the standard output of the forked process * from which to read. * * @param p handle returned by CPLSpawnAsync(). * * @return the file handle. * * @since GDAL 1.10.0 */ CPL_FILE_HANDLE CPLSpawnAsyncGetInputFileHandle( CPLSpawnedProcess* p ) { return p->fin; } /************************************************************************/ /* CPLSpawnAsyncGetOutputFileHandle() */ /************************************************************************/ /** * Return the file handle of the standard input of the forked process * into which to write * * @param p handle returned by CPLSpawnAsync(). * * @return the file handle. * * @since GDAL 1.10.0 */ CPL_FILE_HANDLE CPLSpawnAsyncGetOutputFileHandle( CPLSpawnedProcess* p ) { return p->fout; } /************************************************************************/ /* CPLSpawnAsyncGetErrorFileHandle() */ /************************************************************************/ /** * Return the file handle of the standard error of the forked process * from which to read. * * @param p handle returned by CPLSpawnAsync(). * * @return the file handle * * @since GDAL 1.10.0 */ CPL_FILE_HANDLE CPLSpawnAsyncGetErrorFileHandle( CPLSpawnedProcess* p ) { return p->ferr; }