/*** *popen.c - initiate a pipe and a child command * * Copyright (c) Microsoft Corporation. All rights reserved. * *Purpose: * Defines _popen() and _pclose(). * *******************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* size for pipe buffer */ #define PSIZE 1024 #define STDIN 0 #define STDOUT 1 #define SLASH _T("\\") #define SLASHCHAR _T('\\') #define XSLASHCHAR _T('/') #define DELIMITER _T(";") /* definitions for table of stream pointer - process handle pairs. the table * is created, maintained and accessed by the idtab function. _popen and * _pclose gain access to table entries only by calling idtab. Note that the * table is expanded as necessary (by idtab) and free table entries are reused * (an entry is free if its stream field is NULL), but the table is never * contracted. */ typedef struct { FILE *stream; intptr_t prochnd; } IDpair; /* number of entries in idpairs table */ #ifndef _UNICODE unsigned __idtabsiz = 0; #else /* _UNICODE */ extern unsigned __idtabsiz; #endif /* _UNICODE */ /* pointer to first table entry */ #ifndef _UNICODE IDpair *__idpairs = NULL; #else /* _UNICODE */ extern IDpair *__idpairs; #endif /* _UNICODE */ /* function to find specified table entries. also, creates and maintains * the table. */ static IDpair * __cdecl idtab(FILE *); /*** *FILE *_popen(cmdstring,type) - initiate a pipe and a child command * *Purpose: * Creates a pipe and asynchronously executes a child copy of the command * processor with cmdstring (see system()). If the type string contains * an 'r', the calling process can read child command's standard output * via the returned stream. If the type string contains a 'w', the calling * process can write to the child command's standard input via the * returned stream. * *Entry: * _TSCHAR *cmdstring - command to be executed * _TSCHAR *type - string of the form "r|w[b|t]", determines the mode * of the returned stream (i.e., read-only vs write-only, * binary vs text mode) * *Exit: * If successful, returns a stream associated with one end of the created * pipe (the other end of the pipe is associated with either the child * command's standard input or standard output). * * If an error occurs, NULL is returned. * *Exceptions: * *******************************************************************************/ FILE * __cdecl _tpopen ( const _TSCHAR *cmdstring, const _TSCHAR *type ) { int phdls[2]; /* I/O handles for pipe */ int ph_open[2]; /* flags, set if correspond phdls is open */ int i1; /* index into phdls[] */ int i2; /* index into phdls[] */ int tm = 0; /* flag indicating text or binary mode */ int stdhdl; /* either STDIN or STDOUT */ HANDLE newhnd; /* ...in calls to DuplicateHandle API */ FILE *pstream = NULL; /* stream to be associated with pipe */ HANDLE prochnd; /* handle for current process */ _TSCHAR *cmdexe; /* pathname for the command processor */ _TSCHAR *envbuf = NULL; /* buffer for the env variable */ intptr_t childhnd; /* handle for child process (cmd.exe) */ IDpair *locidpair; /* pointer to IDpair table entry */ _TSCHAR *buf = NULL, *pfin, *env; _TSCHAR *CommandLine; size_t CommandLineSize = 0; _TSCHAR _type[3] = {0, 0, 0}; /* Info for spawning the child. */ STARTUPINFO StartupInfo; /* Info for spawning a child */ BOOL childstatus = 0; PROCESS_INFORMATION ProcessInfo; /* child process information */ errno_t save_errno; int fh_lock_held = 0; int popen_lock_held = 0; /* first check for errors in the arguments */ _VALIDATE_RETURN((cmdstring != NULL), EINVAL,NULL); _VALIDATE_RETURN((type != NULL), EINVAL,NULL); while (*type == _T(' ')) { type++; } _VALIDATE_RETURN(((*type == _T('w')) || (*type == _T('r'))), EINVAL,NULL); _type[0] = *type; ++type; while (*type == _T(' ')) { ++type; } _VALIDATE_RETURN(((*type == 0) || (*type == _T('t')) || (*type == _T('b'))), EINVAL, NULL); _type[1] = *type; /* do the _pipe(). note that neither of the resulting handles will * be inheritable. */ if ( _type[1] == _T('t') ) tm = _O_TEXT; else if ( _type[1] == _T('b') ) tm = _O_BINARY; tm |= _O_NOINHERIT; if ( _pipe( phdls, PSIZE, tm ) == -1 ) goto error1; /* test _type[0] and set stdhdl, i1 and i2 accordingly. */ if ( _type[0] == _T('w') ) { stdhdl = STDIN; i1 = 0; i2 = 1; } else { stdhdl = STDOUT; i1 = 1; i2 = 0; } /* ASSERT LOCK FOR IDPAIRS HERE!!!! */ if ( !_mtinitlocknum( _POPEN_LOCK )) { _close( phdls[0] ); _close( phdls[1] ); return NULL; } _mlock( _POPEN_LOCK ); __try { /* set flags to indicate pipe handles are open. note, these are only * used for error recovery. */ ph_open[ 0 ] = ph_open[ 1 ] = 1; /* get the process handle, it will be needed in some API calls */ prochnd = GetCurrentProcess(); if ( !DuplicateHandle( prochnd, (HANDLE)_osfhnd( phdls[i1] ), prochnd, &newhnd, 0L, TRUE, /* inheritable */ DUPLICATE_SAME_ACCESS ) ) { goto error2; } (void)_close( phdls[i1] ); ph_open[ i1 ] = 0; /* associate a stream with phdls[i2]. note that if there are no * errors, pstream is the return value to the caller. */ if ( (pstream = _tfdopen( phdls[i2], _type )) == NULL ) goto error2; /* next, set locidpair to a free entry in the idpairs table. */ if ( (locidpair = idtab( NULL )) == NULL ) goto error3; /* Find what to use. command.com or cmd.exe */ if ( (_ERRCHECK_EINVAL(_tdupenv_s_crt(&envbuf, NULL, _T("COMSPEC"))) != 0) || (envbuf == NULL) ) { unsigned int osver = 0; _get_osver(&osver); cmdexe = ( osver & 0x8000 ) ? _T("command.com") : _T("cmd.exe"); } else { cmdexe = envbuf; } /* * Initialise the variable for passing to CreateProcess */ memset(&StartupInfo, 0, sizeof(StartupInfo)); StartupInfo.cb = sizeof(StartupInfo); /* Used by os for duplicating the Handles. */ StartupInfo.dwFlags = STARTF_USESTDHANDLES; StartupInfo.hStdInput = stdhdl == STDIN ? (HANDLE) newhnd : (HANDLE) _osfhnd(0); StartupInfo.hStdOutput = stdhdl == STDOUT ? (HANDLE) newhnd : (HANDLE) _osfhnd(1); StartupInfo.hStdError = (HANDLE) _osfhnd(2); CommandLineSize = _tcslen(cmdexe) + _tcslen(_T(" /c ")) + (_tcslen(cmdstring)) +1; if ((CommandLine = _calloc_crt( CommandLineSize, sizeof(_TSCHAR))) == NULL) goto error3; _ERRCHECK(_tcscpy_s(CommandLine, CommandLineSize, cmdexe)); _ERRCHECK(_tcscat_s(CommandLine, CommandLineSize, _T(" /c "))); _ERRCHECK(_tcscat_s(CommandLine, CommandLineSize, cmdstring)); /* Check if cmdexe can be accessed. If yes CreateProcess else try * searching path. */ save_errno = errno; if (_taccess_s(cmdexe, 0) == 0) { childstatus = CreateProcess( (LPTSTR) cmdexe, (LPTSTR) CommandLine, NULL, NULL, TRUE, 0, NULL, NULL, &StartupInfo, &ProcessInfo ); } else { TCHAR* envPath = NULL; size_t envPathSize = 0; if ((buf = _calloc_crt(_MAX_PATH, sizeof(_TSCHAR))) == NULL) { _free_crt(buf); _free_crt(CommandLine); _free_crt(envbuf); cmdexe = NULL; errno = save_errno; goto error3; } if (_ERRCHECK_EINVAL(_tdupenv_s_crt(&envPath, NULL, _T("PATH"))) != 0) { _free_crt(envPath); _free_crt(buf); _free_crt(CommandLine); _free_crt(envbuf); cmdexe = NULL; errno = save_errno; goto error3; } env = envPath; #ifdef WPRFLAG while ( (env = _wgetpath(env, buf, _MAX_PATH -1)) && (*buf) ) { #else /* WPRFLAG */ while ( (env = _getpath(env, buf, _MAX_PATH -1)) && (*buf) ) { #endif /* WPRFLAG */ pfin = buf + _tcslen(buf) -1; #ifdef _MBCS if (*pfin == SLASHCHAR) { if (pfin != _mbsrchr(buf, SLASHCHAR)) _ERRCHECK(strcat_s(buf, _MAX_PATH, SLASH)); } else if (*pfin != XSLASHCHAR) _ERRCHECK(strcat_s(buf, _MAX_PATH, SLASH)); #else /* _MBCS */ if (*pfin != SLASHCHAR && *pfin != XSLASHCHAR) _ERRCHECK(_tcscat_s(buf, _MAX_PATH, SLASH)); #endif /* _MBCS */ /* check that the final path will be of legal size. if so, * build it. otherwise, return to the caller (return value * and errno rename set from initial call to _spawnve()). */ if ( (_tcslen(buf) + _tcslen(cmdexe)) < _MAX_PATH ) _ERRCHECK(_tcscat_s(buf, _MAX_PATH, cmdexe)); else break; /* Check if buf can be accessed. If yes CreateProcess else try * again. */ if (_taccess_s(buf, 0) == 0) { childstatus = CreateProcess( (LPTSTR) buf, CommandLine, NULL, NULL, TRUE, 0, NULL, NULL, &StartupInfo, &ProcessInfo ); break; } } _free_crt(envPath); _free_crt(buf); } _free_crt(CommandLine); _free_crt(envbuf); cmdexe = NULL; CloseHandle((HANDLE)newhnd); CloseHandle((HANDLE)ProcessInfo.hThread); errno = save_errno; /* check if the CreateProcess was sucessful. */ if ( childstatus) childhnd = (intptr_t)ProcessInfo.hProcess; else goto error4; locidpair->prochnd = childhnd; locidpair->stream = pstream; /* success, return the stream to the caller */ goto done; /** * error handling code. all detected errors end up here, entering * via a goto one of the labels. note that the logic is currently * a straight fall-thru scheme (e.g., if entered at error4, the * code for error4, error3,...,error1 is all executed). **********************************************************************/ error4: /* make sure locidpair is reusable */ locidpair->stream = NULL; error3: /* close pstream (also, clear ph_open[i2] since the stream * close will also close the pipe handle) */ (void)fclose( pstream ); ph_open[ i2 ] = 0; pstream = NULL; error2: /* close handles on pipe (if they are still open) */ if ( ph_open[i1] ) _close( phdls[i1] ); if ( ph_open[i2] ) _close( phdls[i2] ); done: ;} __finally { _munlock(_POPEN_LOCK); } error1: return pstream; } #ifndef _UNICODE /*** *int _pclose(pstream) - wait on a child command and close the stream on the * associated pipe * *Purpose: * Closes pstream then waits on the associated child command. The * argument, pstream, must be the return value from a previous call to * _popen. _pclose first looks up the process handle of child command * started by that _popen and does a cwait on it. Then, it closes pstream * and returns the exit status of the child command to the caller. * *Entry: * FILE *pstream - file stream returned by a previous call to _popen * *Exit: * If successful, _pclose returns the exit status of the child command. * The format of the return value is that same as for cwait, except that * the low order and high order bytes are swapped. * * If an error occurs, -1 is returned. * *Exceptions: * *******************************************************************************/ int __cdecl _pclose ( FILE *pstream ) { IDpair *locidpair; /* pointer to entry in idpairs table */ int termstat; /* termination status word */ int retval = -1; /* return value (to caller) */ errno_t save_errno; _VALIDATE_RETURN((pstream != NULL), EINVAL, -1); if (!_mtinitlocknum(_POPEN_LOCK)) return -1; _mlock(_POPEN_LOCK); __try { if ((locidpair = idtab(pstream)) == NULL) { /* invalid pstream, exit with retval == -1 */ errno = EBADF; goto done; } /* close pstream */ (void)fclose(pstream); /* wait on the child (copy of the command processor) and all of its * children. */ save_errno = errno; errno = 0; if ( (_cwait(&termstat, locidpair->prochnd, _WAIT_GRANDCHILD) != -1) || (errno == EINTR) ) retval = termstat; errno = save_errno; /* Mark the IDpairtable entry as free (note: prochnd was closed by the * preceding call to _cwait). */ locidpair->stream = NULL; locidpair->prochnd = 0; /* only return path! */ done: ; } __finally { _munlock(_POPEN_LOCK); } return(retval); } #endif /* _UNICODE */ /*** * static IDpair * idtab(FILE *pstream) - find an idpairs table entry * *Purpose: * Find an entry in the idpairs table. This function finds the entry the * idpairs table entry corresponding to pstream. In the case where pstream * is NULL, the entry being searched for is any free entry. In this case, * idtab will create the idpairs table if it doesn't exist, or expand it (by * exactly one entry) if there are no free entries. * * [MTHREAD NOTE: This routine assumes that the caller has acquired the * idpairs table lock.] * *Entry: * FILE *pstream - stream corresponding to table entry to be found (if NULL * then find any free table entry) * *Exit: * if successful, returns a pointer to the idpairs table entry. otherwise, * returns NULL. * *Exceptions: * *******************************************************************************/ static IDpair * __cdecl idtab ( FILE *pstream ) { IDpair * pairptr; /* ptr to entry */ IDpair * newptr; /* ptr to newly malloc'd memory */ /* search the table. if table is empty, appropriate action should * fall out automatically. */ for ( pairptr = __idpairs ; pairptr < (__idpairs+__idtabsiz) ; pairptr++ ) if ( pairptr->stream == pstream ) break; /* if we found an entry, return it. */ if ( pairptr < (__idpairs + __idtabsiz) ) return(pairptr); /* did not find an entry in the table. if pstream was NULL, then try * creating/expanding the table. otherwise, return NULL. note that * when the table is created or expanded, exactly one new entry is * produced. this must not be changed unless code is added to mark * the extra entries as being free (i.e., set their stream fields to * to NULL). */ if ( (pstream != NULL) || ((__idtabsiz + 1) < __idtabsiz) || ((__idtabsiz + 1) >= (SIZE_MAX / sizeof(IDpair))) || ((newptr = (IDpair *)_recalloc_crt((void *)__idpairs, (__idtabsiz + 1),sizeof(IDpair))) == NULL)) /* either pstream was non-NULL or the attempt to create/expand * the table failed. in either case, return a NULL to indicate * failure. */ return( NULL ); __idpairs = newptr; /* new table ptr */ pairptr = newptr + __idtabsiz; /* first new entry */ __idtabsiz++; /* new table size */ return( pairptr ); }