e2fsprogs/lib/ss/execute_cmd.c - nest-cam/4320010/e2fsprogs - Git at Google

 /*
  * Copyright 1987, 1988, 1989 by Massachusetts Institute of Technology
  *
  * Permission to use, copy, modify, and distribute this software and
  * its documentation for any purpose is hereby granted, provided that
  * the names of M.I.T. and the M.I.T. S.I.P.B. not be used in
  * advertising or publicity pertaining to distribution of the software
  * without specific, written prior permission.  M.I.T. and the
  * M.I.T. S.I.P.B. make no representations about the suitability of
  * this software for any purpose.  It is provided "as is" without
  * express or implied warranty.
  */

 #ifdef HAS_STDLIB_H
 #include <stdlib.h>
 #endif
 #ifdef HAVE_ERRNO_H
 #include <errno.h>
 #else
 extern int errno;
 #endif
 #include "ss_internal.h"
 #include <stdio.h>

 static int check_request_table PROTOTYPE((ss_request_table *rqtbl, int argc,
 					  char *argv[], int sci_idx));
 static int really_execute_command PROTOTYPE((int sci_idx, int argc,
 					     char **argv[]));

 /*
  * get_request(tbl, idx)
  *
  * Function:
  *      Gets the idx'th request from the request table pointed to
  *      by tbl.
  * Arguments:
  *      tbl (ss_request_table *)
  *              pointer to request table
  *      idx (int)
  *              index into table
  * Returns:
  *      (ss_request_entry *)
  *              pointer to request table entry
  * Notes:
  *      Has been replaced by a macro.
  */

 #ifdef __SABER__
 /* sigh.  saber won't deal with pointer-to-const-struct */
 static struct _ss_request_entry * get_request (tbl, idx)
     ss_request_table * tbl;
     int idx;
 {
     struct _ss_request_table *tbl1 = (struct _ss_request_table *) tbl;
     struct _ss_request_entry *e = (struct _ss_request_entry *) tbl1->requests;
     return e + idx;
 }
 #else
 #define get_request(tbl,idx)    ((tbl) -> requests + (idx))
 #endif

 /*
  * check_request_table(rqtbl, argc, argv, sci_idx)
  *
  * Function:
  *      If the command string in argv[0] is in the request table, execute
  *      the commands and return error code 0.  Otherwise, return error
  *      code ss_et_command_not_found.
  * Arguments:
  *      rqtbl (ss_request_table *)
  *              pointer to request table
  *      argc (int)
  *              number of elements in argv[]
  *      argv (char *[])
  *              argument string array
  *      sci_idx (int)
  *              ss-internal index for subsystem control info structure
  * Returns:
  *      (int)
  *              zero if command found, ss_et_command_not_found otherwise
  * Notes:
  */

 static int check_request_table(register ss_request_table *rqtbl, int argc,
 			       char *argv[], int sci_idx)
 {
 #ifdef __SABER__
     struct _ss_request_entry *request;
 #else
     register ss_request_entry *request;
 #endif
     register ss_data *info;
     register char const * const * name;
     char *string = argv[0];
     int i;

     info = ss_info(sci_idx);
     info->argc = argc;
     info->argv = argv;
     for (i = 0; (request = get_request(rqtbl, i))->command_names; i++) {
 	for (name = request->command_names; *name; name++)
 	    if (!strcmp(*name, string)) {
 		info->current_request = request->command_names[0];
 		(request->function)(argc, (const char *const *) argv,
 				    sci_idx,info->info_ptr);
 		info->current_request = (char *)NULL;
 		return(0);
 	    }
     }
     return(SS_ET_COMMAND_NOT_FOUND);
 }

 /*
  * really_execute_command(sci_idx, argc, argv)
  *
  * Function:
  *      Fills in the argc, argv values in the subsystem entry and
  *      call the appropriate routine.
  * Arguments:
  *      sci_idx (int)
  *              ss-internal index for subsystem control info structure
  *      argc (int)
  *              number of arguments in argument list
  *      argv (char **[])
  *              pointer to parsed argument list (may be reallocated
  *              on abbrev expansion)
  *
  * Returns:
  *      (int)
  *              Zero if successful, ss_et_command_not_found otherwise.
  * Notes:
  */

 static int really_execute_command(int sci_idx, int argc, char **argv[])
 {
     register ss_request_table **rqtbl;
     register ss_data *info;

     info = ss_info(sci_idx);

     for (rqtbl = info->rqt_tables; *rqtbl; rqtbl++) {
         if (check_request_table (*rqtbl, argc, *argv, sci_idx) == 0)
             return(0);
     }
     return(SS_ET_COMMAND_NOT_FOUND);
 }

 /*
  * ss_execute_command(sci_idx, argv)
  *
  * Function:
  *	Executes a parsed command list within the subsystem.
  * Arguments:
  *	sci_idx (int)
  *		ss-internal index for subsystem control info structure
  *	argv (char *[])
  *		parsed argument list
  * Returns:
  *	(int)
  *		Zero if successful, ss_et_command_not_found otherwise.
  * Notes:
  */

 int ss_execute_command(int sci_idx, register char *argv[])
 {
 	register int i, argc;
 	char **argp;

 	argc = 0;
 	for (argp = argv; *argp; argp++)
 		argc++;
 	argp = (char **)malloc((argc+1)*sizeof(char *));
 	for (i = 0; i <= argc; i++)
 		argp[i] = argv[i];
 	i = really_execute_command(sci_idx, argc, &argp);
 	free(argp);
 	return(i);
 }

 /*
  * ss_execute_line(sci_idx, line_ptr)
  *
  * Function:
  *      Parses and executes a command line within a subsystem.
  * Arguments:
  *      sci_idx (int)
  *              ss-internal index for subsystem control info structure
  *      line_ptr (char *)
  *              Pointer to command line to be parsed.
  * Returns:
  *      (int)
  *      	Error code.
  * Notes:
  */

 int ss_execute_line(int sci_idx, char *line_ptr)
 {
     char **argv;
     int argc, ret;

     /* flush leading whitespace */
     while (line_ptr[0] == ' ' || line_ptr[0] == '\t')
         line_ptr++;

     /* check if it should be sent to operating system for execution */
     if (*line_ptr == '!') {
         if (ss_info(sci_idx)->flags.escape_disabled)
             return SS_ET_ESCAPE_DISABLED;
         else {
             line_ptr++;
             return (system(line_ptr) < 0) ? errno : 0;
         }
     }

     /* parse it */
     argv = ss_parse(sci_idx, line_ptr, &argc);
     if (argc == 0) {
 	free(argv);
         return 0;
     }

     /* look it up in the request tables, execute if found */
     ret = really_execute_command (sci_idx, argc, &argv);

     free(argv);

     return(ret);
 }
	/*
	* Copyright 1987, 1988, 1989 by Massachusetts Institute of Technology
	*
	* Permission to use, copy, modify, and distribute this software and
	* its documentation for any purpose is hereby granted, provided that
	* the names of M.I.T. and the M.I.T. S.I.P.B. not be used in
	* advertising or publicity pertaining to distribution of the software
	* without specific, written prior permission. M.I.T. and the
	* M.I.T. S.I.P.B. make no representations about the suitability of
	* this software for any purpose. It is provided "as is" without
	* express or implied warranty.
	*/

	#ifdef HAS_STDLIB_H
	#include <stdlib.h>
	#endif
	#ifdef HAVE_ERRNO_H
	#include <errno.h>
	#else
	extern int errno;
	#endif
	#include "ss_internal.h"
	#include <stdio.h>

	static int check_request_table PROTOTYPE((ss_request_table *rqtbl, int argc,
	char *argv[], int sci_idx));
	static int really_execute_command PROTOTYPE((int sci_idx, int argc,
	char **argv[]));

	/*
	* get_request(tbl, idx)
	*
	* Function:
	* Gets the idx'th request from the request table pointed to
	* by tbl.
	* Arguments:
	* tbl (ss_request_table *)
	* pointer to request table
	* idx (int)
	* index into table
	* Returns:
	* (ss_request_entry *)
	* pointer to request table entry
	* Notes:
	* Has been replaced by a macro.
	*/

	#ifdef __SABER__
	/* sigh. saber won't deal with pointer-to-const-struct */
	static struct _ss_request_entry * get_request (tbl, idx)
	ss_request_table * tbl;
	int idx;
	{
	struct _ss_request_table tbl1 = (struct _ss_request_table ) tbl;
	struct _ss_request_entry e = (struct _ss_request_entry ) tbl1->requests;
	return e + idx;
	}
	#else
	#define get_request(tbl,idx) ((tbl) -> requests + (idx))
	#endif

	/*
	* check_request_table(rqtbl, argc, argv, sci_idx)
	*
	* Function:
	* If the command string in argv[0] is in the request table, execute
	* the commands and return error code 0. Otherwise, return error
	* code ss_et_command_not_found.
	* Arguments:
	* rqtbl (ss_request_table *)
	* pointer to request table
	* argc (int)
	* number of elements in argv[]
	* argv (char *[])
	* argument string array
	* sci_idx (int)
	* ss-internal index for subsystem control info structure
	* Returns:
	* (int)
	* zero if command found, ss_et_command_not_found otherwise
	* Notes:
	*/

	static int check_request_table(register ss_request_table *rqtbl, int argc,
	char *argv[], int sci_idx)
	{
	#ifdef __SABER__
	struct _ss_request_entry *request;
	#else
	register ss_request_entry *request;
	#endif
	register ss_data *info;
	register char const * const * name;
	char *string = argv[0];
	int i;

	info = ss_info(sci_idx);
	info->argc = argc;
	info->argv = argv;
	for (i = 0; (request = get_request(rqtbl, i))->command_names; i++) {
	for (name = request->command_names; *name; name++)
	if (!strcmp(*name, string)) {
	info->current_request = request->command_names[0];
	(request->function)(argc, (const char const ) argv,
	sci_idx,info->info_ptr);
	info->current_request = (char *)NULL;
	return(0);
	}
	}
	return(SS_ET_COMMAND_NOT_FOUND);
	}

	/*
	* really_execute_command(sci_idx, argc, argv)
	*
	* Function:
	* Fills in the argc, argv values in the subsystem entry and
	* call the appropriate routine.
	* Arguments:
	* sci_idx (int)
	* ss-internal index for subsystem control info structure
	* argc (int)
	* number of arguments in argument list
	* argv (char **[])
	* pointer to parsed argument list (may be reallocated
	* on abbrev expansion)
	*
	* Returns:
	* (int)
	* Zero if successful, ss_et_command_not_found otherwise.
	* Notes:
	*/

	static int really_execute_command(int sci_idx, int argc, char **argv[])
	{
	register ss_request_table **rqtbl;
	register ss_data *info;

	info = ss_info(sci_idx);

	for (rqtbl = info->rqt_tables; *rqtbl; rqtbl++) {
	if (check_request_table (rqtbl, argc, argv, sci_idx) == 0)
	return(0);
	}
	return(SS_ET_COMMAND_NOT_FOUND);
	}

	/*
	* ss_execute_command(sci_idx, argv)
	*
	* Function:
	* Executes a parsed command list within the subsystem.
	* Arguments:
	* sci_idx (int)
	* ss-internal index for subsystem control info structure
	* argv (char *[])
	* parsed argument list
	* Returns:
	* (int)
	* Zero if successful, ss_et_command_not_found otherwise.
	* Notes:
	*/

	int ss_execute_command(int sci_idx, register char *argv[])
	{
	register int i, argc;
	char **argp;

	argc = 0;
	for (argp = argv; *argp; argp++)
	argc++;
	argp = (char *)malloc((argc+1)sizeof(char *));
	for (i = 0; i <= argc; i++)
	argp[i] = argv[i];
	i = really_execute_command(sci_idx, argc, &argp);
	free(argp);
	return(i);
	}

	/*
	* ss_execute_line(sci_idx, line_ptr)
	*
	* Function:
	* Parses and executes a command line within a subsystem.
	* Arguments:
	* sci_idx (int)
	* ss-internal index for subsystem control info structure
	* line_ptr (char *)
	* Pointer to command line to be parsed.
	* Returns:
	* (int)
	* Error code.
	* Notes:
	*/

	int ss_execute_line(int sci_idx, char *line_ptr)
	{
	char **argv;
	int argc, ret;

	/* flush leading whitespace */
	while (line_ptr[0] == ' ' \|\| line_ptr[0] == '\t')
	line_ptr++;

	/* check if it should be sent to operating system for execution */
	if (*line_ptr == '!') {
	if (ss_info(sci_idx)->flags.escape_disabled)
	return SS_ET_ESCAPE_DISABLED;
	else {
	line_ptr++;
	return (system(line_ptr) < 0) ? errno : 0;
	}
	}

	/* parse it */
	argv = ss_parse(sci_idx, line_ptr, &argc);
	if (argc == 0) {
	free(argv);
	return 0;
	}

	/* look it up in the request tables, execute if found */
	ret = really_execute_command (sci_idx, argc, &argv);

	free(argv);

	return(ret);
	}