Exemplo n.º 1
0
/*
**++
**  ROUTINE:	main
**
**  FUNCTIONAL DESCRIPTION:
**
**  	Main program.  Fetches the command from the command line,
**  uses CLI$ routines to parse it, then starts the build process.
**
**  RETURNS:	cond_value, longword (unsigned), write only, by value
**
**  PROTOTYPE:
**
**  	main
**
**  IMPLICIT INPUTS:	See global definitions at module head.
**
**  IMPLICIT OUTPUTS:	See global definitions at module head.
**
**  COMPLETION CODES:
**
**  	SS$_NORMAL, MMK__ALLOK : normal successful completion.
**
**  SIDE EFFECTS:   	None.
**
**--
*/
unsigned int main (void) {

    DESCRIP cmdstr;
    char Output_File[256], tmp[256];
    $DESCRIPTOR(cmdname, "MMKC ");
    unsigned int status;
    int i;

/*
** Initialize the globals
*/
    temporary_symbols = 0;
    for (i = 0; i < MMK_K_SYMTABLE_SIZE; i++) {
    	INIT_QUEUE(global_symbols.symlist[i]);
    	INIT_QUEUE(local_symbols.symlist[i]);
    	INIT_QUEUE(cmdline_symbols.symlist[i]);
    	INIT_QUEUE(builtin_symbols.symlist[i]);
    }
    INIT_QUEUE(rules);
    INIT_QUEUE(dependencies);
    INIT_QUEUE(dep_internal);
    INIT_QUEUE(dep_deferred);
    INIT_QUEUE(suffixes);
    INIT_QUEUE(do_first);
    INIT_QUEUE(do_last);
    exit_status = SS$_NORMAL;
    ignore = override_silent = override_ignore = symbol_override = 0;
    skip_intermediates = 0;

/*
** Fetch and parse command string
*/
    INIT_DYNDESC(cmdstr);
    status = lib$get_foreign(&cmdstr);
    str$prefix(&cmdstr, &cmdname);
    status = cli$dcl_parse(&cmdstr, MMK_COMPILE_RULES_CLD,
    	    	lib$get_input, lib$get_input);
    if (!OK(status)) return (status | STS$M_INHIB_MSG);

/*
** Get the command parameters and qualifiers
*/
    Output_File[0] = '\0';
    if (cli_present("OUTPUT") == CLI$_PRESENT) {
    	cli_get_value("OUTPUT", Output_File, sizeof(Output_File));
    }

    status = cli_get_value("RULES_FILE", tmp, sizeof(tmp));
    if (!OK(status)) return status | STS$M_INHIB_MSG;

    Read_Description(tmp, "SYS$DISK:[].MMS", 1);
    if (OK(exit_status)) Generate_Structures(tmp, Output_File);

    return exit_status | STS$M_INHIB_MSG;

}
Exemplo n.º 2
0
main()
{
    int retlen=0;
    $DESCRIPTOR(p, "p1");
    char c[80];
    struct dsc$descriptor o;
    o.dsc$a_pointer=c;
    o.dsc$w_length=80;
    memset (c, 0, 80);
    int sts = cli$present(&p);
    if (sts&1)
    {
        sts = lib$get_foreign(&o, 0, &retlen, 0);
        o.dsc$w_length=retlen;
        char * ostr = strchr(o.dsc$a_pointer, ' ');
        int olen = ostr - (char *)o.dsc$a_pointer;
        if (0==strncasecmp(o.dsc$a_pointer, "install", olen))
        {
            memset(o.dsc$a_pointer, 32, olen);
        }
        o.dsc$a_pointer+=olen+1;
        o.dsc$w_length-=olen+1;
        printf("o is %s\n",o.dsc$a_pointer);
        fflush(stdout);
        int sts = cli$dcl_parse(&o, &sysman_parse, 0, 0, 0);
        if (sts&1)
            cli$dispatch(0);
        return 1;
    }

    while(!do_ret)
    {
        printf("SYSMAN> ");
        fflush(stdout);

        char command_str[256];
        int len = read (0, command_str, 255);

        struct dsc$descriptor command_line;
        command_line.dsc$a_pointer = command_str;
        command_line.dsc$w_length = len;

        extern int hexmode;
        hexmode = 1; // temp workaround
        int sts = cli$dcl_parse(&command_line, sysman_parse, 0, 0, 0);
        hexmode = 0;
        if (sts&1)
            cli$dispatch(0);
    }
}
Exemplo n.º 3
0
license_adm()
{
        int 	cli$dispatch() ;
	int4 	stat0 ;
	int4 	stat1 ;
	int4	fl= 0 ;
	char	*ln[2]= { LADB,LAFILE } ;
        char 	buf[256] ;
        unsigned short len ;
	bool	rep;
        $DESCRIPTOR (prompt,"LMA> ") ;
        $DESCRIPTOR (dbuf,buf) ;

	stat0= lib$get_foreign(&dbuf,0,&len,&fl);
	rep = (len==0);
	do {
		stat1= cli$dcl_parse(&dbuf,&la_cmnd,&lib$get_input,&lib$get_input,&prompt);
	        if (stat1==CLI$_NORMAL)
			stat0= cli$dispatch(ln);
		if (stat0!=RMS$_EOF && rep)
			stat0= lib$get_foreign(&dbuf,&prompt,&len,&fl);
	} while (stat0!=RMS$_EOF && rep);
	return SS$_NORMAL;
}
Exemplo n.º 4
0
void list_cmd(void)
{
	unsigned short cmd_len;
	unsigned char cmd_line[256];
	static readonly unsigned char command_line[] =		"COMMAND LINE";
	static readonly unsigned char command_line_under[] =	"-----------------";
	$DESCRIPTOR(d_cmd,cmd_line);

	if (lib$get_foreign(&d_cmd, 0, &cmd_len) == SS$_NORMAL)
	{
		list_line(command_line);
		list_line(command_line_under);
		cmd_line[cmd_len]='\0';
		list_line(cmd_line);
	}
}
Exemplo n.º 5
0
void lke(void)
{
	char		buff[MAX_LINE];
	$DESCRIPTOR	(command, buff);
	uint4		status;
	short		len;
	bool		dcl;
	DCL_THREADGBL_ACCESS;

	GTM_THREADGBL_INIT;
	gtm_imagetype_init(LKE_IMAGE);
	gtm_env_init();	/* read in all environment variables */
	util_out_open(0);
	SET_EXIT_HANDLER(exi_blk, generic_exit_handler, exi_condition);	/* Establish exit handler */
	ESTABLISH(util_base_ch);
	status =lp_id(&lkid);
	if (SS$_NORMAL != status)
		rts_error(VARLSTCNT(1) status);
	get_page_size();
	stp_init(STP_INITSIZE);
	rts_stringpool = stringpool;
	getjobname();
	INVOKE_INIT_SECSHR_ADDRS;
	ast_init();
	initialize_pattern_table();
	gvinit();
	region_init(TRUE);
	getjobnum();
	status = lib$get_foreign(&command, 0, &len, 0);
	if ((status & 1) && len > 0)
	{
		command.dsc$w_length = len;
		status = CLI$DCL_PARSE(&command, &lke_cmd, &lib$get_input, 0, 0);
		if (CLI$_NORMAL == status)
		{
			util_out_open(&output_qualifier);
			CLI$DISPATCH();
			util_out_close();
		}
		lke_exit();
	}
	for (;;)
		lke_process();
}
Exemplo n.º 6
0
cce()
{
    $DESCRIPTOR(prompt,"CCE> ");
    int status;
    char buff[512];
    $DESCRIPTOR(command,buff);
    unsigned short outlen;
    mstr	lnm$group = {9, "LNM$GROUP"};
    int CCE_CMD(), CLI$DCL_PARSE(), CLI$DISPATCH();
    DCL_THREADGBL_ACCESS;

    GTM_THREADGBL_INIT;			/* This is the first C routine in the cce so do init here */
    gtm_env_init();	/* read in all environment variables before any function call (particularly malloc) */
    getjobnum();
    get_page_size();
    dfntmpmbx (lnm$group.len, lnm$group.addr);
    status = lib$get_foreign(&command,0,&outlen,0);
    if ((status & 1) && outlen > 0)
    {   command.dsc$w_length = outlen;
        status = CLI$DCL_PARSE(&command ,&CCE_CMD, &lib$get_input, 0, 0);
        if (status == CLI$_NORMAL)
            CLI$DISPATCH();
    } else
    {   while (!cce_done)
        {
            status = CLI$DCL_PARSE(0 ,&CCE_CMD, &lib$get_input
                                   , &lib$get_input, &prompt);
            if (status == RMS$_EOF)
                cce_done = TRUE;
            else if (status == CLI$_NORMAL)
            {
                ret_status = 1;
                CLI$DISPATCH();
            }
        }
    }
    return ret_status;
}
Exemplo n.º 7
0
/*
** Re-read the command line and convert it from VMS style to unix style.
** Replaces argv and argc with Unix-correct versions.  This is
** a poor solution to parsing VMS command lines because some information
** is lost and some elements of the syntax are not checked.  Users also
** can't abbreviate qualifiers as is customary under VMS.
*/
void ConvertVMSCommandLine(int *argc, char **argv[])
{
    int i;
    short cmdLineLen;
    char *c, cmdLine[MAX_CMD_LENGTH], *oldArg0;
    struct dsc$descriptor_s *cmdLineDesc;

    /* get the command line (don't use the old argv and argc because VMS
       has removed the quotes and altered the line somewhat */
    cmdLineDesc = NulStrWrtDesc(cmdLine, MAX_CMD_LENGTH);
    lib$get_foreign(cmdLineDesc, 0, &cmdLineLen, 0);
    FreeStrDesc(cmdLineDesc);
    
    /* begin a new argv and argc, but preserve the original argv[0]
       which is not returned by lib$get_foreign */
    oldArg0 = (*argv)[0];
    *argv = (char **)malloc(sizeof(char *) * MAX_ARGS);
    (*argv)[0] = oldArg0;
    *argc = 1;

    /* scan all of the text on the command line, reconstructing the arg list */
    for (i=0, c=cmdLine; i<cmdLineLen; c++, i++) {
	if (*c == '\t') {
	    addArgChar(argc, *argv, ' ');
	} else if (*c == '/') {
	    addArgChar(argc, *argv, ' ');
	    addArgChar(argc, *argv, '-');
	} else if (*c == '=') {
	    addArgChar(argc, *argv, ' ');
	} else if (*c == ',') {
	    addArgChar(argc, *argv, ' ');
	} else {
	    addArgChar(argc, *argv, *c);
	}
    }
    addArgChar(argc, *argv, ' ');
}
Exemplo n.º 8
0
unsigned long
vms_zip_cmdline (int *argc_p, char ***argv_p)
{
/*
**  Routine:    vms_zip_cmdline
**
**  Function:
**
**      Parse the DCL command line and create a fake argv array to be
**      handed off to Zip.
**
**      NOTE: the argv[] is built as we go, so all the parameters are
**      checked in the appropriate order!!
**
**  Formal parameters:
**
**      argc_p          - Address of int to receive the new argc
**      argv_p          - Address of char ** to receive the argv address
**
**  Calling sequence:
**
**      status = vms_zip_cmdline (&argc, &argv);
**
**  Returns:
**
**      SS$_NORMAL      - Success.
**      SS$_INSFMEM     - A malloc() or realloc() failed
**      SS$_ABORT       - Bad time value
**
*/
    register unsigned long status;
    char options[48];
    char *the_cmd_line;                 /* buffer for argv strings */
    unsigned long cmdl_size;            /* allocated size of buffer */
    unsigned long cmdl_len;             /* used size of buffer */
    char *ptr;
    int  x, len;

    int new_argc;
    char **new_argv;

    struct dsc$descriptor_d work_str;
    struct dsc$descriptor_d foreign_cmdline;

    init_dyndesc(work_str);
    init_dyndesc(foreign_cmdline);

    /*
    **  See if the program was invoked by the CLI (SET COMMAND) or by
    **  a foreign command definition.  Check for /YYZ_ZIP, which is a
    **  valid default qualifier solely for this test.
    */
    show_VMSCLI_help = TRUE;
    status = check_cli(&cli_yyz);
    if (!(status & 1)) {
        lib$get_foreign(&foreign_cmdline);
        /*
        **  If nothing was returned or the first character is a "-", then
        **  assume it's a UNIX-style command and return.
        */
        if (foreign_cmdline.dsc$w_length == 0)
            return (SS$_NORMAL);
        if ((*(foreign_cmdline.dsc$a_pointer) == '-') ||
            ((foreign_cmdline.dsc$w_length > 1) &&
             (*(foreign_cmdline.dsc$a_pointer) == '"') &&
             (*(foreign_cmdline.dsc$a_pointer + 1) == '-'))) {
            show_VMSCLI_help = FALSE;
            return (SS$_NORMAL);
        }

        str$concat(&work_str, &zip_command, &foreign_cmdline);
        status = cli$dcl_parse(&work_str, &zip_clitable, lib$get_input,
                        lib$get_input, 0);
        if (!(status & 1)) return (status);
    }

    /*
    **  There's always going to be a new_argv[] because of the image name.
    */
    if ((the_cmd_line = (char *) malloc(cmdl_size = ARGBSIZE_UNIT)) == NULL)
        return (SS$_INSFMEM);

    strcpy(the_cmd_line, "zip");
    cmdl_len = sizeof("zip");

    /*
    **  First, check to see if any of the regular options were specified.
    */

    options[0] = '-';
    ptr = &options[1];          /* Point to temporary buffer */

    /*
    **  Delete the specified files from the zip file?
    */
    status = cli$present(&cli_delete);
    if (status & 1)
        *ptr++ = 'd';

    /*
    **  Freshen (only changed files).
    */
    status = cli$present(&cli_freshen);
    if (status & 1)
        *ptr++ = 'f';

    /*
    **  Delete the files once they've been added to the zip file.
    */
    status = cli$present(&cli_move);
    if (status & 1)
        *ptr++ = 'm';

    /*
    **  Add changed and new files.
    */
    status = cli$present(&cli_update);
    if (status & 1)
        *ptr++ = 'u';

    /*
    **  Check for the compression level (-0 through -9).
    */
    status = cli$present(&cli_level);
    if (status & 1) {

        unsigned long binval;

        status = cli$get_value(&cli_level, &work_str);
        status = ots$cvt_tu_l(&work_str, &binval);
        if (!(status & 1) || (binval > 9)) {
           return (SS$_ABORT);
        }
        *ptr++ = binval + '0';
    }

    /*
    **  Adjust offsets of zip archive entries.
    */
    status = cli$present(&cli_adjust);
    if (status & 1)
        *ptr++ = 'A';

    /*
    **  Add comments?
    */
    status = cli$present(&cli_comments);
    if (status & 1) {
/*        while ((status = cli$get_value(&cli_comments, &work_str)) & 1) {
            if (strncmp(work_str.dsc$a_pointer,"ZIP",3) == 0)
                *ptr++ = 'z';
            if (strncmp(work_str.dsc$a_pointer,"FIL",3) == 0)
                *ptr++ = 'c';
        } */
        if ((status = cli$present(&cli_comment_zipfile)) & 1)
            *ptr++ = 'z';
        if ((status = cli$present(&cli_comment_files)) & 1)
            *ptr++ = 'c';
    }

    /*
    **  Do not add/modify directory entries.
    */
    status = cli$present(&cli_dirnames);
    if (!(status & 1))
        *ptr++ = 'D';

    /*
    **  Encrypt?
    */
    status = cli$present(&cli_encrypt);
    if (status & 1)
        if ((status = cli$get_value(&cli_encrypt, &work_str)) & 1) {
            x = cmdl_len;
            cmdl_len += work_str.dsc$w_length + 4;
            CHECK_BUFFER_ALLOCATION(the_cmd_line, cmdl_size, cmdl_len)
            strcpy(&the_cmd_line[x], "-P");
            strncpy(&the_cmd_line[x+3], work_str.dsc$a_pointer,
                    work_str.dsc$w_length);
            the_cmd_line[cmdl_len-1] = '\0';
        } else {
            *ptr++ = 'e';
        }

    /*
    **  Fix the zip archive structure.
    */
    status = cli$present(&cli_fix_archive);
    if (status & 1) {
        *ptr++ = 'F';
        if ((status = cli$present(&cli_fix_full)) & 1) {
            *ptr++ = 'F';
        }
    }

    /*
    **  Append (allow growing of existing zip file).
    */
    status = cli$present(&cli_append);
    if (status & 1)
        *ptr++ = 'g';

    /*
    **  Show the help.
    */
    status = cli$present(&cli_help);
    if (status & 1)
        *ptr++ = 'h';

    /*
    **  Junk path names (directory specs).
    */
    status = cli$present(&cli_junk);
    if (status & 1)
        *ptr++ = 'j';

    /*
    **  Simulate zip file made by PKZIP.
    */
    status = cli$present(&cli_pkzip);
    if (status & 1)
        *ptr++ = 'k';

    /*
    **  Translate end-of-line.
    */
    status = cli$present(&cli_translate_eol);
    if (status & 1) {
        *ptr++ = 'l';
        if ((status = cli$present(&cli_transl_eol_crlf)) & 1) {
            *ptr++ = 'l';
        }
    }

    /*
    **  Show the software license.
    */
    status = cli$present(&cli_license);
    if (status & 1)
        *ptr++ = 'L';

    /*
    **  Set zip file time to time of latest file in it.
    */
    status = cli$present(&cli_latest);
    if (status & 1)
        *ptr++ = 'o';

    /*
    **  Store full path (default).
    */
    status = cli$present(&cli_full_path);
    if (status == CLI$_PRESENT)
        *ptr++ = 'p';
    else if (status == CLI$_NEGATED)
        *ptr++ = 'j';

    /*
    **  Junk Zipfile prefix (SFX stub etc.).
    */
    status = cli$present(&cli_unsfx);
    if (status & 1)
        *ptr++ = 'J';

    /*
    **  Recurse through subdirectories.
    */
    status = cli$present(&cli_recurse);
    if (status & 1) {
        if ((status = cli$present(&cli_recurse_fnames)) & 1)
            *ptr++ = 'R';
        else
            *ptr++ = 'r';
    }

    /*
    **  Be verbose.
    */
    status = cli$present(&cli_verbose);
    if (status & 1) {
        int i;
        int verbo = 0;

        /* /VERBOSE */
        if ((status = cli$present(&cli_verbose_command)) & 1)
        {
            /* /VERBOSE = COMMAND */
            verbose_command = 1;
        }

        /* Note that any or all of the following options may be
           specified, and the maximum one is used.
        */
        if ((status = cli$present(&cli_verbose_normal)) & 1)
            /* /VERBOSE [ = NORMAL ] */
            verbo = 1;
        if ((status = cli$present(&cli_verbose_more)) & 1)
            /* /VERBOSE = MORE */
            verbo = 2;
        if ((status = cli$present(&cli_verbose_debug)) & 1) {
            /* /VERBOSE = DEBUG */
            verbo = 3;
        }
        for (i = 0; i < verbo; i++)
            *ptr++ = 'v';
    }

    /*
    **  Quiet mode.
    **  (Quiet mode is processed after verbose, because a "-v" modifier
    **  resets "noisy" to 1.)
    */
    status = cli$present(&cli_quiet);
    if (status & 1)
        *ptr++ = 'q';

    /*
    **  Suppress creation of any extra field.
    */
    status = cli$present(&cli_extra_fields);
    if (!(status & 1))
        *ptr++ = 'X';

    /*
    **  Save the VMS file attributes (and all allocated blocks?).
    */
    status = cli$present(&cli_vms);
    if (status & 1) {
        /* /VMS */
        *ptr++ = 'V';
        if ((status = cli$present(&cli_vms_all)) & 1) {
            /* /VMS = ALL */
            *ptr++ = 'V';
        }
    }

    /*
    **  Keep the VMS version number as part of the file name when stored.
    */
    status = cli$present(&cli_keep_version);
    if (status & 1)
        *ptr++ = 'w';

    /*
    **  `Batch' processing: read filenames to archive from stdin
    **  or the specified file.
    */
    status = cli$present(&cli_batch);
    if (status & 1) {
        status = cli$get_value(&cli_batch, &work_str);
        if (status & 1) {
            work_str.dsc$a_pointer[work_str.dsc$w_length] = '\0';
            if ((stdin = freopen(work_str.dsc$a_pointer, "r", stdin)) == NULL)
            {
                sprintf(errbuf, "could not open list file: %s",
                        work_str.dsc$a_pointer);
                ziperr(ZE_PARMS, errbuf);
            }
        }
        *ptr++ = '@';
    }

    /*
    **  Now copy the final options string to the_cmd_line.
    */
    len = ptr - &options[0];
    if (len > 1) {
        options[len] = '\0';
        x = cmdl_len;
        cmdl_len += len + 1;
        CHECK_BUFFER_ALLOCATION(the_cmd_line, cmdl_size, cmdl_len)
        strcpy(&the_cmd_line[x], options);
    }

    /*
    **
    **  OK.  We've done all the regular options, so check for -b (temporary
    **  file path), -t (exclude before time), -n (special suffixes), zipfile,
    **  files to zip, and exclude list.
    **
    */
    status = cli$present(&cli_temp_path);
    if (status & 1) {
        status = cli$get_value(&cli_temp_path, &work_str);
        x = cmdl_len;
        cmdl_len += work_str.dsc$w_length + 4;
        CHECK_BUFFER_ALLOCATION(the_cmd_line, cmdl_size, cmdl_len)
        strcpy(&the_cmd_line[x], "-b");
        strncpy(&the_cmd_line[x+3], work_str.dsc$a_pointer,
                work_str.dsc$w_length);
        the_cmd_line[cmdl_len-1] = '\0';
    }

    /*
    **  Demand that all input files exist (and wildcards match something).
    */
#define OPT_MM  "-MM"           /* Input file specs must exist. */
    status = cli$present(&cli_must_match);
    if (status & 1) {
        x = cmdl_len;
        cmdl_len += strlen( OPT_MM)+ 1;
        CHECK_BUFFER_ALLOCATION(the_cmd_line, cmdl_size, cmdl_len)
        strcpy( &the_cmd_line[ x], OPT_MM);
    }

    /*
    **  Handle "-t mmddyyyy".
    */
    status = cli$present(&cli_since);
    if (status & 1) {
        char since_time[9];

        status = get_time(&cli_since, &since_time[0]);
        if (!(status & 1)) return (status);

        /*
        **  Now let's add the option "-t mmddyyyy" to the new command line.
        */
        x = cmdl_len;
        cmdl_len += (3 + 9);
        CHECK_BUFFER_ALLOCATION(the_cmd_line, cmdl_size, cmdl_len)
        strcpy(&the_cmd_line[x], "-t");
        strcpy(&the_cmd_line[x+3], since_time);
    }

    /*
    **  Handle "-tt mmddyyyy".
    */
    status = cli$present(&cli_before);
    if (status & 1) {
        char before_time[9];

        status = get_time(&cli_before, &before_time[0]);
        if (!(status & 1)) return (status);

        /*
        **  Now let's add the option "-tt mmddyyyy" to the new command line.
        */
        x = cmdl_len;
        cmdl_len += (4 + 9);
        CHECK_BUFFER_ALLOCATION(the_cmd_line, cmdl_size, cmdl_len)
        strcpy(&the_cmd_line[x], "-tt");
        strcpy(&the_cmd_line[x+4], before_time);
    }

    /*
    **  Handle "-n suffix:suffix:...".  (File types to store only.)
    */
    status = cli$present(&cli_store_types);
    if (status & 1) {
        x = cmdl_len;
        cmdl_len += 3;
        CHECK_BUFFER_ALLOCATION(the_cmd_line, cmdl_size, cmdl_len)
        strcpy(&the_cmd_line[x], "-n");

        status = get_list(&cli_store_types, &foreign_cmdline, ':',
                          &the_cmd_line, &cmdl_size, &cmdl_len);
        if (!(status & 1)) return (status);
    }

    /*
    **  Now get the specified zip file name.
    */
    status = cli$present(&cli_zipfile);
    if (status & 1) {
        status = cli$get_value(&cli_zipfile, &work_str);

        x = cmdl_len;
        cmdl_len += work_str.dsc$w_length + 1;
        CHECK_BUFFER_ALLOCATION(the_cmd_line, cmdl_size, cmdl_len)
        strncpy(&the_cmd_line[x], work_str.dsc$a_pointer,
                work_str.dsc$w_length);
        the_cmd_line[cmdl_len-1] = '\0';

    }

    /*
    **  Run through the list of input files.
    */
    status = cli$present(&cli_infile);
    if (status & 1) {
        status = get_list(&cli_infile, &foreign_cmdline, '\0',
                          &the_cmd_line, &cmdl_size, &cmdl_len);
        if (!(status & 1)) return (status);
    }

    /*
    **  List file containing exclude patterns present? ("*****@*****.**")
    */
    status = cli$present(&cli_exlist);
    if (status & 1) {
        status = cli$get_value(&cli_exlist, &work_str);
        x = cmdl_len;
        cmdl_len += work_str.dsc$w_length + 4;
        CHECK_BUFFER_ALLOCATION(the_cmd_line, cmdl_size, cmdl_len)
        strncpy(&the_cmd_line[x], "-x@", 3);
        strncpy(&the_cmd_line[x+3], work_str.dsc$a_pointer,
                work_str.dsc$w_length);
        the_cmd_line[cmdl_len-1] = '\0';
    }

    /*
    **  Any files to exclude? ("-x file file")
    */
    status = cli$present(&cli_exclude);
    if (status & 1) {
        x = cmdl_len;
        cmdl_len += 3;
        CHECK_BUFFER_ALLOCATION(the_cmd_line, cmdl_size, cmdl_len)
        strcpy(&the_cmd_line[x], "-x");

        status = get_list(&cli_exclude, &foreign_cmdline, '\0',
                          &the_cmd_line, &cmdl_size, &cmdl_len);
        if (!(status & 1)) return (status);
    }

    /*
    **  List file containing include patterns present? ("*****@*****.**")
    */
    status = cli$present(&cli_inlist);
    if (status & 1) {
        status = cli$get_value(&cli_inlist, &work_str);
        x = cmdl_len;
        cmdl_len += work_str.dsc$w_length + 4;
        CHECK_BUFFER_ALLOCATION(the_cmd_line, cmdl_size, cmdl_len)
        strncpy(&the_cmd_line[x], "-i@", 3);
        strncpy(&the_cmd_line[x+3], work_str.dsc$a_pointer,
                work_str.dsc$w_length);
        the_cmd_line[cmdl_len-1] = '\0';
    }

    /*
    **  Any files to include? ("-i file file")
    */
    status = cli$present(&cli_include);
    if (status & 1) {
        x = cmdl_len;
        cmdl_len += 3;
        CHECK_BUFFER_ALLOCATION(the_cmd_line, cmdl_size, cmdl_len)
        strcpy(&the_cmd_line[x], "-i");

        status = get_list(&cli_exclude, &foreign_cmdline, '\0',
                          &the_cmd_line, &cmdl_size, &cmdl_len);
        if (!(status & 1)) return (status);
    }


    /*
    **  We have finished collecting the strings for the argv vector,
    **  release unused space.
    */
    if ((the_cmd_line = (char *) realloc(the_cmd_line, cmdl_len)) == NULL)
        return (SS$_INSFMEM);

    /*
    **  Now that we've built our new UNIX-like command line, count the
    **  number of args and build an argv array.
    */
    for (new_argc = 0, x = 0; x < cmdl_len; x++)
        if (the_cmd_line[x] == '\0')
            new_argc++;

    /*
    **  Allocate memory for the new argv[].  The last element of argv[]
    **  is supposed to be NULL, so allocate enough for new_argc+1.
    */
    if ((new_argv = (char **) calloc(new_argc+1, sizeof(char *))) == NULL)
        return (SS$_INSFMEM);

    /*
    **  For each option, store the address in new_argv[] and convert the
    **  separating blanks to nulls so each argv[] string is terminated.
    */
    for (ptr = the_cmd_line, x = 0; x < new_argc; x++) {
        new_argv[x] = ptr;
        ptr += strlen(ptr) + 1;
    }
    new_argv[new_argc] = NULL;

#if defined(TEST) || defined(DEBUG)
    printf("new_argc    = %d\n", new_argc);
    for (x = 0; x < new_argc; x++)
        printf("new_argv[%d] = %s\n", x, new_argv[x]);
#endif /* TEST || DEBUG */

    /* Show the complete UNIX command line, if requested. */
    if (verbose_command != 0)
    {
        printf( "   UNIX command line args (argc = %d):\n", new_argc);
        for (x = 0; x < new_argc; x++)
            printf( "%s\n", new_argv[ x]);
        printf( "\n");
    }

    /*
    **  All finished.  Return the new argc and argv[] addresses to Zip.
    */
    *argc_p = new_argc;
    *argv_p = new_argv;

    return (SS$_NORMAL);
}
Exemplo n.º 9
0
Arquivo: dfu.c Projeto: rroart/freevms
main(int argc, char *argv[])

/*	MAIN

	Purpose : 1 Get privilege mask
		  2 Setup SMG environment unless no VT or DFU$NOSMG is set
		  3 Get and Parse command (syntax only)
		  4 Dispatch to correct subroutine

	Inputs  : Command line (if specified through foreign command)

	Outputs : returns last status code to DCL in  case
		  of single command processing. In interactive mode
		  always returns SS$_NORMAL.
*/
{
    const rms_eof=98938,smg$_eof=1213442;
    struct
    {
        short status, count;
        int extra ;
    } iosb;
    static char command_line[255], *e;
    unsigned int out_len,ret_len,prvmask;
    void reset_ctrl(), clean_ctrlc(),
         prev_screen(), next_screen(), dump_screen(), toggle_width() ;
    int smg_flag, x, y, i, ttype;
    int cursor_on = SMG$M_CURSOR_ON;
    $DESCRIPTOR(input_line , command_line);
    $DESCRIPTOR(prompt,"DFU> ");
    $DESCRIPTOR(terminal,"SYS$COMMAND");
    $DESCRIPTOR(top_txt,"< DFU V2.2 (Freeware) >");
    $DESCRIPTOR(status_txt,"Statistics");
    $DESCRIPTOR(do_key,"DO");
    $DESCRIPTOR(pf2,"PF2");
    $DESCRIPTOR(pf4,"PF4");
    $DESCRIPTOR(prev,"PREV_SCREEN");
    $DESCRIPTOR(next,"NEXT_SCREEN");
    $DESCRIPTOR(select,"SELECT");
    $DESCRIPTOR(help,"HELP");

    /* First find out how we got called ( by RUN, or a foreign command */
    ret_len = 0;
#if 0
    status = lib$get_foreign(&input_line,0,&ret_len,0);
#else
    status = 1;
#if 0
    strcpy(command_line,argv[1]);
#endif
#endif
    out_len = ret_len;

    smg$enable = TRUE;
    key_tab = 0;
    disp2_id = 0;
    cip = 0;

    setvbuf(stdout, NULL, _IONBF, 0);      // need this to see i/o at all
#if 0
    smg$enable = FALSE;
    vms_mm = check_vms_mm();
#else
    /* Now create the SMG environment */

    colls=80;
    rows=24;
    SMG$CREATE_PASTEBOARD(&paste_id, 0, &rows,
                          &colls,&SMG$M_KEEP_CONTENTS,&ttype,0);
    if ((e = (char *) getenv("DFU$NOSMG")) && *e) smg$enable = FALSE;
    else
    {
        if (ttype != SMG$K_VTTERMTABLE) smg$enable = FALSE;
        if (ttype != SMG$K_VTTERMTABLE) SMG$DELETE_PASTEBOARD(&paste_id,&i0);
    }

    SMG$CREATE_VIRTUAL_KEYBOARD(&keyb_id,0,0,0,0);
    if (smg$enable)
        /* Setup key table */
    {
        SMG$ERASE_PASTEBOARD(&paste_id, 0, 0, 0, 0, 0, 0);
        SMG$CREATE_KEY_TABLE(&key_tab);
        colls -=2;
        orig_colls = colls;
        smg_flag = SMG$M_KEY_NOECHO + SMG$M_KEY_TERMINATE;
        SMG$ADD_KEY_DEF(&key_tab,&do_key,0, &smg_flag, &do_key,0);
        SMG$ADD_KEY_DEF(&key_tab,&pf4,0, &smg_flag,&pf4,0);
        SMG$ADD_KEY_DEF(&key_tab,&prev,0, &smg_flag, &prev,0);
        SMG$ADD_KEY_DEF(&key_tab,&next,0, &smg_flag, &next,0);
        SMG$ADD_KEY_DEF(&key_tab,&pf2,0, &smg_flag, &help,0);
        SMG$ADD_KEY_DEF(&key_tab,&help,0, &smg_flag, &help,0);
        SMG$ADD_KEY_DEF(&key_tab,&select,0, &smg_flag, &select,0);
        SMG$CREATE_VIRTUAL_DISPLAY(&i500, &colls , &disp1_id, &SMG$M_BORDER,
                                   0, 0);
        x = 508 - rows;
        y = rows - 7;
        SMG$CREATE_VIEWPORT(&disp1_id,&x,&i1,&y,&colls);
        SMG$CREATE_VIRTUAL_DISPLAY(&i2, &colls, &status_id, 0 , 0, 0);
        SMG$CREATE_VIRTUAL_DISPLAY(&i2, &colls, &disp2_id, 0 , 0, 0);
        SMG$SET_BROADCAST_TRAPPING(&paste_id,brdcst_ast,0);
        SMG$LABEL_BORDER(&disp1_id, &top_txt, 0, 0,&SMG$M_BOLD, 0, 0);
        SMG$LABEL_BORDER(&status_id, &status_txt, 0, 0,&SMG$M_BOLD, 0, 0);
        SMG$PASTE_VIRTUAL_DISPLAY(&disp1_id, &paste_id, &i2,&i2,0);
        x = rows - 4;
        SMG$PASTE_VIRTUAL_DISPLAY(&status_id, &paste_id, &x,&i2,0);
        x = rows - 1;
        SMG$PASTE_VIRTUAL_DISPLAY(&disp2_id, &paste_id, &x,&i2,0);
        x = 508 - rows;
        SMG$SET_CURSOR_ABS(&disp1_id,&x,&i1);
        SMG$SET_CURSOR_ABS(&disp2_id,&i1,&i1);
        SMG$BEGIN_PASTEBOARD_UPDATE(&paste_id);
    }
#endif

    sprintf(outbuf,"\n     Disk and File Utilities for OpenVMS DFU V2.2");
    put_disp();
    sprintf(outbuf,"     Freeware version");
    put_disp();
    sprintf(outbuf,"     Copyright © 1995 Digital Equipment Corporation\n");
    put_disp();

    if (smg$enable)
    {
        /* Enter additional info */
        sprintf(outbuf,"     DFU functions are : \n");
        put_disp();
        sprintf(outbuf,"     DEFRAGMENT : Defragment files");
        put_disp();
        sprintf(outbuf,"     DELETE     : Delete files by File-ID; delete directory (trees)");
        put_disp();
        sprintf(outbuf,"     DIRECTORY  : Manipulate directories");
        put_disp();
        sprintf(outbuf,"     REPORT     : Generate a complete disk report");
        put_disp();
        sprintf(outbuf,"     SEARCH     : Fast file search");
        put_disp();
        sprintf(outbuf,"     SET        : Modify file attributes");
        put_disp();
        sprintf(outbuf,"     UNDELETE   : Recover deleted files");
        put_disp();
        sprintf(outbuf,"     VERIFY     : Check and repair disk structure");
        put_disp();
        SMG$END_PASTEBOARD_UPDATE(&paste_id);
    }

    prvmask = 0;
    status = dfu_check_access(&prvmask);  /*Get the privilege mask */

    /* Setup terminal channel for control purposes; get the terminal chars */
    status = SYS$ASSIGN(&terminal, &tchan, 0,0);
    status = SYS$QIOW(0,tchan, IO$_SENSEMODE,0,0,0,&orgttchar,12,0,0,0,0);
    for (i = 0; i < 3; i++) ttchar[i] = orgttchar[i];
    ttchar[2] &= ~TT2$M_EDITING; /* Clear line edit bit */
    clean_ctrlc(); /* Enable CTRL/W if needed */

    if (ret_len==0)
    {
        if (smg$enable)
            status = SMG$READ_COMPOSED_LINE(&keyb_id,&key_tab,&input_line,&prompt,
                                            &out_len,&disp2_id,0,0,0,0,0);
        else
            status = SMG$READ_COMPOSED_LINE(&keyb_id,0,&input_line,&prompt,
                                            &out_len,0,0,0,0,0,0);
    }

    memcpy (command_line, input_line.dsc$a_pointer, input_line.dsc$w_length);
    cip = 1;

    /* Main loop starts here. Get a command and pasre it*/
    for (;;)
    {
        /* loop forever until EXIT is entered */
        if(status==smg$_eof) status = exit_command(prvmask);
        if ((status&1) != 1) goto endfor;
        if (out_len == 0) goto endfor;

        /* First catch special screen commands */
        if (smg$enable)
        {
            status = strncmp(command_line, "PREV_SCREEN", 11);
            if (status == 0)
            {
                prev_screen();
                goto endfor;
            }
            status = strncmp(command_line, "DO",2);
            if (status == 0)
            {
                status = spawn_command(prvmask);
                goto endfor;
            }
            status = strncmp(command_line, "PF4",3);
            if (status == 0)
            {
                dump_screen();
                goto endfor;
            }
            status = strncmp(command_line, "NEXT_SCREEN", 11);
            if (status == 0)
            {
                next_screen();
                goto endfor;
            }
            status = strncmp(command_line, "SELECT", 6);
            if (status == 0)
            {
                toggle_width();
                goto endfor;
            }

            SMG$ERASE_DISPLAY(&disp1_id, 0, 0, 0, 0);
            SMG$ERASE_DISPLAY(&status_id, 0, 0, 0, 0);
            SMG$CHANGE_VIEWPORT(&disp1_id,&x,&i1,&y,&colls);
            SMG$SET_CURSOR_ABS(&disp1_id,&x,&i1);
        }

        /* Catch the CLI errors do avoid disrupting the SMG screen... */
#if 0
        VAXC$ESTABLISH(prim_hand);
#endif
        status = CLI$DCL_PARSE(&input_line,&dfu_tables,0 /* not yet lib$get_input*/,0,&prompt); // check added & before dfu_tables
#if 0
        VAXC$ESTABLISH(NULL);
#endif
        if (status == CLI$_NOCOMD) singlemsg(0,status);
        if ((status & 1 ) != 1) goto endfor;
        else
            /* Now dispatch if no errors */
        {
            reset_ctrl();
            CLI$DISPATCH(prvmask);
            clean_ctrlc();
            cip = 0;
            status = brdcst_ast();
            if (smg$enable) SMG$SET_CURSOR_MODE(&paste_id, &cursor_on);
        }
endfor:
        if (ret_len !=0)
        {
            /* Single command processing , so exit here */
            status += 0x10000000; /* Do not echo the error on DCL level */
            if (smg$enable)
            {
                if (colls != orig_colls) toggle_width();
                SMG$SET_CURSOR_ABS(&disp2_id,&i2,&i1);
            }
            exit(status);
        }
        /* Get next line */
        cip = 0;
#if 1
        if (smg$enable)
        {
            SMG$ERASE_LINE(&disp2_id, &i1, &i1);
            SMG$SET_CURSOR_ABS(&disp2_id,&i1,&i1);
            status = SMG$READ_COMPOSED_LINE(&keyb_id,&key_tab,&input_line,
                                            &prompt,&out_len,&disp2_id,0,0,0,0,0); /*Get next command */
            cip = 1;
        }
        else
            status = SMG$READ_COMPOSED_LINE(&keyb_id,0,&input_line,
                                            &prompt,&out_len,0,0,0,0,0,0); /*Get next command */
#else
        printf("%s",prompt.dsc$a_pointer);
        out_len = read(0,command_line,254);
        out_len--;
        command_line[out_len]=0;
        if (strncmp(command_line,"exit",4)==0)
            return 0;
#endif
    }
}  /* END of MAIN */
Exemplo n.º 10
0
gtcm_server()
{
	static readonly int4	reptim[2] = {-100000, -1};	/* 10ms */
       	static readonly int4	wait[2] =  {-1000000, -1};	/* 100ms */
	void		gtcm_ch(), gtcm_exi_handler(), gtcm_init_ast(), gtcm_int_unpack(), gtcm_mbxread_ast(),
			gtcm_neterr(), gtcm_read_ast(), gtcm_remove_from_action_queue(), gtcm_shutdown_ast(), gtcm_write_ast(),
			la_freedb();
	bool		gtcm_link_accept();
	bool		alid;
	char		buff[512];
	char		*h = NULL;
	char		*la_getdb();
	char		nbuff[256];
	char		*pak = NULL;
	char		reply;
	unsigned short	outlen;
	int4		closewait[2] = {0, -1};
	int4		inid = 0, mdl = 0, nid = 0, days = 0;
	int4		lic_status;
	int4		lic_x;
	int4		lm_mdl_nid();
	uint4		status;
	int		i, receive(), value;
	mstr		name1, name2;
	struct NTD	*cmu_ntdroot();
	connection_struct *prev_curr_entry;
	struct	dsc$descriptor_s	dprd;
	struct	dsc$descriptor_s	dver;
	$DESCRIPTOR(node_name, nbuff);
	$DESCRIPTOR(proc_name, "GTCM_SERVER");
	$DESCRIPTOR(timout, buff);
	DCL_THREADGBL_ACCESS;

	GTM_THREADGBL_INIT;
        assert(0 == EMPTY_QUEUE);       /* check so dont need gdsfhead everywhere */
	common_startup_init(GTCM_GNP_SERVER_IMAGE); /* Side-effect: Sets skip_dbtriggers to TRUE for non-trigger platforms */
	gtm_env_init();	/* read in all environment variables */
	name1.addr = "GTCMSVRNAM";
	name1.len = SIZEOF("GTCMSVRNAM") - 1;
	status = trans_log_name(&name1, &name2, nbuff);
	if (SS$_NORMAL == status)
	{
		proc_name.dsc$a_pointer = nbuff;
		proc_name.dsc$w_length = node_name.dsc$w_length = name2.len;
	} else if (SS$_NOLOGNAM == status)
	{
		MEMCPY_LIT(nbuff, "GTCMSVR");
		node_name.dsc$w_length = SIZEOF("GTCMSVR") - 1;
	} else
		rts_error_csa(CSA_ARG(NULL) VARLSTCNT(1) status);
	sys$setprn(&proc_name);
	status = lib$get_foreign(&timout, 0, &outlen, 0);
	if ((status & 1) && (6 > outlen))
	{
		for (i = 0;  i < outlen;  i++)
		{
			value = value * 10;
			if (buff[i] <= '9' && buff[i] >= '0')
				value += buff[i] - 48;
			else
				break;
		}
		if (outlen && (i == outlen))
		{
			cm_timeout = TRUE;
			closewait[0] = value * -10000000;
		}
	}
	dprd.dsc$w_length = cm_prd_len;
	dprd.dsc$b_dtype  = DSC$K_DTYPE_T;
	dprd.dsc$b_class  = DSC$K_CLASS_S;
	dprd.dsc$a_pointer= cm_prd_name;
	dver.dsc$w_length = cm_ver_len;
	dver.dsc$b_dtype  = DSC$K_DTYPE_T;
	dver.dsc$b_class  = DSC$K_CLASS_S;
	dver.dsc$a_pointer= cm_ver_name;
	ast_init();
	licensed = TRUE;
	lkid = 2;
#	ifdef NOLICENSE
	lid = 1;
#	else
	/* this code used to be scattered to discourage reverse engineering, but since it now disabled, that seems pointless */
	lic_status = ((NULL == (h = la_getdb(LMDB))) ? LP_NOCNFDB : SS$_NORMAL);
	lic_status = ((1 == (lic_status & 1)) ? lm_mdl_nid(&mdl, &nid, &inid) : lic_status);
	lic_status = ((1 == (lic_status & 1)) ? lp_licensed(h, &dprd, &dver, mdl, nid, &lid, &lic_x, &days, pak) : lic_status);
	if (LP_NOCNFDB != lic_status)
		la_freedb(h);
	if (1 == (lic_status & 1))
	{
		licensed = TRUE;
		if (days < 14)
			rts_error_csa(CSA_ARG(NULL) VARLSTCNT(1) ERR_WILLEXPIRE);
	} else
	{
		licensed = FALSE;
		sys$exit(lic_status);
	}
#	endif
	gtcm_ast_avail = astq_dyn_avail - GTCM_AST_OVRHD;
	stp_init(STP_INITSIZE);
	rts_stringpool = stringpool;
	cache_init();
	procnum = 0;
	get_proc_info(0, TADR(login_time), &image_count);
        memset(proc_to_clb, 0, SIZEOF(proc_to_clb));
	status = cmi_init(&node_name, 0, 0, gtcm_init_ast, gtcm_link_accept);
	if (!(status & 1))
	{
		rts_error_csa(CSA_ARG(NULL) VARLSTCNT(1) ((status ^ 3) | 4));
		sys$exit(status);
	}
	ntd_root = cmu_ntdroot();
	ntd_root->mbx_ast =  gtcm_mbxread_ast;
	ntd_root->err = gtcm_neterr;
	gtcm_connection = FALSE;
	lib$establish(gtcm_ch);
	gtcm_exi_blk.exit_hand = &gtcm_exi_handler;
	gtcm_exi_blk.arg_cnt = 1;
	gtcm_exi_blk.cond_val = &gtcm_exi_condition;
	sys$dclexh(&gtcm_exi_blk);
	INVOKE_INIT_SECSHR_ADDRS;
	initialize_pattern_table();
	assert(run_time); /* Should have been set by common_startup_init */
	while (!cm_shutdown)
	{
		if (blkdlist)
			gtcml_chkreg();

		assert(!lib$ast_in_prog());
		status = sys$dclast(&gtcm_remove_from_action_queue, 0, 0);
		if (SS$_NORMAL != status)
			rts_error_csa(CSA_ARG(NULL) VARLSTCNT(4) CMERR_CMSYSSRV, 0, status, 0);
		if (INTERLOCK_FAIL == curr_entry)
			rts_error_csa(CSA_ARG(NULL) VARLSTCNT(1) CMERR_CMINTQUE);
		if (EMPTY_QUEUE != curr_entry)
		{
			switch (*curr_entry->clb_ptr->mbf)
			{
				case CMMS_L_LKCANALL:
					reply = gtcmtr_lkcanall();
					break;
				case CMMS_L_LKCANCEL:
					reply = gtcmtr_lkcancel();
					break;
				case CMMS_L_LKREQIMMED:
					reply = gtcmtr_lkreqimmed();
					break;
				case CMMS_L_LKREQNODE:
					reply = gtcmtr_lkreqnode();
					break;
				case CMMS_L_LKREQUEST:
					reply = gtcmtr_lkrequest();
					break;
				case CMMS_L_LKRESUME:
					reply = gtcmtr_lkresume();
					break;
				case CMMS_L_LKACQUIRE:
					reply = gtcmtr_lkacquire();
					break;
				case CMMS_L_LKSUSPEND:
					reply = gtcmtr_lksuspend();
					break;
				case CMMS_L_LKDELETE:
					reply = gtcmtr_lkdelete();
					break;
				case CMMS_Q_DATA:
					reply = gtcmtr_data();
					break;
				case CMMS_Q_GET:
					reply = gtcmtr_get();
					break;
				case CMMS_Q_KILL:
					reply = gtcmtr_kill();
					break;
				case CMMS_Q_ORDER:
					reply = gtcmtr_order();
					break;
				case CMMS_Q_PREV:
					reply = gtcmtr_zprevious();
					break;
				case CMMS_Q_PUT:
					reply = gtcmtr_put();
					break;
				case CMMS_Q_QUERY:
					reply = gtcmtr_query();
					break;
				case CMMS_Q_ZWITHDRAW:
					reply = gtcmtr_zwithdraw();
					break;
				case CMMS_S_INITPROC:
					reply = gtcmtr_initproc();
					break;
				case CMMS_S_INITREG:
					reply = gtcmtr_initreg();
					break;
				case CMMS_S_TERMINATE:
					reply = gtcmtr_terminate(TRUE);
					break;
				case CMMS_E_TERMINATE:
					reply = gtcmtr_terminate(FALSE);
					break;
				case CMMS_U_LKEDELETE:
					reply = gtcmtr_lke_clearrep(curr_entry->clb_ptr, curr_entry->clb_ptr->mbf);
					break;
				case CMMS_U_LKESHOW:
					reply = gtcmtr_lke_showrep(curr_entry->clb_ptr, curr_entry->clb_ptr->mbf);
					break;
				case CMMS_B_BUFRESIZE:
					reply = CM_WRITE;
					value = *(unsigned short *)(curr_entry->clb_ptr->mbf + 1);
					if (value > curr_entry->clb_ptr->mbl)
					{
						free(curr_entry->clb_ptr->mbf);
						curr_entry->clb_ptr->mbf = malloc(value);
					}
					*curr_entry->clb_ptr->mbf = CMMS_C_BUFRESIZE;
					curr_entry->clb_ptr->mbl = value;
					curr_entry->clb_ptr->cbl = 1;
					break;
				case CMMS_B_BUFFLUSH:
					reply = gtcmtr_bufflush();
					break;
				case CMMS_Q_INCREMENT:
					reply = gtcmtr_increment();
					break;
				default:
					reply = FALSE;
					if (SS$_NORMAL == status)
                                                rts_error_csa(CSA_ARG(NULL)
							VARLSTCNT(3) ERR_BADGTMNETMSG, 1, (int)*curr_entry->clb_ptr->mbf);
					break;
			}
			if (curr_entry)		/* curr_entry can be NULL if went through gtcmtr_terminate */
			{
				status = sys$gettim(&curr_entry->lastact[0]);
				if (SS$_NORMAL != status)
					rts_error_csa(CSA_ARG(NULL) VARLSTCNT(1) status);
				/* curr_entry is used by gtcm_mbxread_ast to determine if it needs to defer the interrupt message */
				prev_curr_entry = curr_entry;
				if (CM_WRITE == reply)
				{	/* if ast == gtcm_write_ast, let it worry */
					curr_entry->clb_ptr->ast = gtcm_write_ast;
					curr_entry = EMPTY_QUEUE;
					cmi_write(prev_curr_entry->clb_ptr);
				} else
				{
					curr_entry = EMPTY_QUEUE;
					if (1 == (prev_curr_entry->int_cancel.laflag & 1))
					{  /* valid interrupt cancel msg, handle in gtcm_mbxread_ast */
						status = sys$dclast(gtcm_int_unpack, prev_curr_entry, 0);
						if (SS$_NORMAL != status)
							rts_error_csa(CSA_ARG(NULL) VARLSTCNT(1) status);
					} else  if (CM_READ == reply)
					{
						prev_curr_entry->clb_ptr->ast = gtcm_read_ast;
						cmi_read(prev_curr_entry->clb_ptr);
					}
				}
			}
		} else  if (1 < astq_dyn_avail)
		{
#			ifdef GTCM_REPTIM
			/* if reptim is not needed - and smw doesn't know why it would be - remove this	*/
			status = sys$schdwk(0, 0, &wait[0], &reptim[0]);
#			else
			status = sys$schdwk(0, 0, &wait[0], 0);
#			endif
			sys$hiber();
			sys$canwak(0, 0);
		}
		if (cm_timeout && (0 == gtcm_users))
                        sys$setimr(efn_ignore, closewait, gtcm_shutdown_ast, &cm_shutdown, 0);
	}
}
Exemplo n.º 11
0
parse_vms_args(int *argc, char **argv[])
{
        static char command[S_LENGTH], value_template[S_LENGTH];
        static char qual_template[S_LENGTH];
        char verb[] = "VARG ";
        char *vms_arg[MAX_ARGS];
        char *unix_arg[MAX_ARGS];
        char *unix_narg[MAX_ARGS];
        char *vms_key[MAX_ARGS];
        char *unix_key[MAX_ARGS];
        char *separator[MAX_ARGS];
        char *pattern[MAX_ARGS];
        char *outverb, *arg_symbol, *image_name;
        char foreign_image[S_LENGTH];
        int flags[MAX_ARGS], action_flags;
        int  nvargs, u_length, l_element, index;
        char arg_string[S_LENGTH], arg_element[S_LENGTH];
        static char value[S_LENGTH];
        char *special_chars;
        char default_special[] = "!@#^&()=+\'\"/?,";
        $DESCRIPTOR(command_desc, command);
        $DESCRIPTOR(qual_desc, "");
        $DESCRIPTOR(value_desc, value);
        int i, length, status, i_length, arg_count, q_length;
        static char command_args[S_LENGTH];
        $DESCRIPTOR(command_arg_desc, command_args);
        extern VARG_CLD;
        static	char *newargv[MAX_ARGS];
        int affirm_flag, negative_flag, keywords_flag, separator_flag;
        int date_flag, append_flag, present, more_flag, multivalue, help_flag;
        int vmsarg_mapping();

        /*	Get the VMS -> Unix mapping definitions from the routine generated
        	by the GEN_MAPPING utility.
        */

        vmsarg_mapping(&nvargs, vms_arg, unix_arg, unix_narg, vms_key, unix_key,
                       separator, flags, pattern, &outverb, &action_flags,
                       &arg_symbol, &image_name );

        /*	Get the original command line from the foreign command utility.
        */

        length = 0;					/* RTL only writes word */
        lib$get_foreign(&command_arg_desc, 0, &length);
        command_args[length] = 0;			/* add NULL terminator */

        /*	Check to see if any of the exising arguments start with a "-"
        	character.  if so, assume he's already using Unix style arguments so
        	we don't have to do anything.  Only do this if the Unix_Arg bit is
        	set in the action flags.
        */

        if ((action_flags & VARGACT_M_UNIXARG)) {
                for (i = 1; i <= *argc - 1; i++)
                        if ((*argv) [i][0] == '-') {
                                /* He's using Unix style args. */
                                if ((action_flags & VARGACT_M_RETURN)) {
                                        return 1;		/* back out quietly	*/
                                } else {
                                        status = varg_do_exit(action_flags, arg_symbol, command_args,
                                                          image_name, outverb);
                                        sys$exit(status);	/* exit with DCL stuff done  */
                                }
                        }
        }

        /*	Catenate verb and arguments into the command string for DCL
        	to parse.
        */

        strcpy(command, verb);
        strcat(command, command_args);
        command_desc.dsc$w_length = strlen(verb) + strlen(command_args);

        /*	Pass it to the DCL parser for its approval.
        */

        status = cli$dcl_parse(&command_desc, &VARG_CLD);
        if ((status & 1) != 1) sys$exit (status);

        /*	Now that DCL is happy, we go through all the defined VMS qualifiers
        	and parameters to check if they are present or defaulted.
        */

        arg_count = 0;		/* so far so good */

        for (i = 1; i <= nvargs; i++) {

                /*	Set The various flags for this qualifier.
                */

                affirm_flag = (VARG_M_AFFIRM & flags[i]) != 0;
                negative_flag = (VARG_M_NEGATIVE & flags[i]) != 0;
                keywords_flag = (VARG_M_KEYWORDS & flags[i]) != 0;
                separator_flag = (VARG_M_SEPARATOR & flags[i]) != 0;
                date_flag = (VARG_M_DATE & flags[i]) != 0;
                append_flag = (VARG_M_APPEND & flags[i]) != 0;
                help_flag = (VARG_M_HELP & flags[i]) != 0;

                /*	Check if the qualifier or parameter is present
                */

                qual_desc.dsc$w_length = strlen(vms_arg[i]);
                qual_desc.dsc$a_pointer = vms_arg[i];
                present = cli$present(&qual_desc) & 1;

                /*	if the qualifier is present, and there is a positive translation,
                	then replace the VMS qualifier by its Unix equivalent.  Note that
                	if the Unix equivalent starts with a '$', then it is a parameter and
                	we omit the qualifier name, only putting in the value.
                */

                qual_template[0] = 0;			/* zero string initially */

                if (present && affirm_flag) {
                        if (unix_arg[i][0] != '$') strcpy(qual_template, unix_arg[i]);
                }

                if (!(present & 1) && negative_flag)		/* NOT present AND
						   negative_flag */
                {
                        strcpy(qual_template, unix_narg[i]);
                }

                /*	Get the first value (if any).  We may have to catenate this with the
                	qualifier keyword, or build up multiple values in a single argv
                	element.
                */

                if (present) {
                        value_desc.dsc$w_length = QUAL_LENGTH;
                        status = cli$get_value(&qual_desc, &value_desc, &length);
                        if ((status & 1) != 1) length = 0;
                        value[length] = 0;			/* NULL terminator */
                        more_flag = status == CLI$_COMMA;
                } else {
                        length = 0;
                }

                /*	if the /APPEND qualifier was used, then the qualifier and its value
                	are in the same argv element.
                */

                if (append_flag) {
                        strcpy(value_template, qual_template);
                } else {
                        /*	Allocate a fresh argv element and load the Unix keyword into it.
                        */
                        q_length = strlen(qual_template);

                        if (q_length != 0) {
                                Increment(arg_count);
                                newargv[arg_count] = malloc(q_length + 1);
                                if (newargv[arg_count] == NULL) sys$exit(LIB$_INSVIRMEM);
                                strcpy(newargv[arg_count], qual_template);
                        }
                }

                multivalue = more_flag;

                /*	Get all the various values and either append them with appropriate
                	separators to the current template, or load them in successive argv
                	elements.
                */

                while (affirm_flag && (length != 0)) {

                        /*	if a keyword list is involved, get the corresponding field from the
                        	Unix equivalent.
                        */

                        if (keywords_flag) {
                                index = varg_get_index(value, vms_key[i]);
                                varg_set_index(value, unix_key[i], index);
                        }

                        /*	if the /DATE qualifier was present, we interpret the value as a
                        	VMS date/time specification, and convert it to the equivalent Unix
                        	type string.
                        */

                        if (date_flag) varg_convert_date(value, pattern[i]);

                        /*	Add the current value to the template so far.  Add a separator
                        	character if we need one.
                        */

                        strcat(value_template, value);

                        if (separator_flag) {
                                if (more_flag)
                                        strcat(value_template, separator[i]);
                        } else {

                                /*	Each value should have its own argv element.
                                */

                                Increment(arg_count);
                                newargv[arg_count] = malloc(strlen(value_template) + 1);
                                if (newargv[arg_count] == NULL) sys$exit(LIB$_INSVIRMEM);
                                strcpy(newargv[arg_count], value_template);
                                value_template[0] = 0;
                        }

                        /*	Get the next value from the DCL parser.
                        */

                        value_desc.dsc$w_length = QUAL_LENGTH;		/* reset string */
                        status = cli$get_value(&qual_desc, &value_desc, &length);
                        if ((status & 1) != 1) length = 0;
                        value[length] = 0;
                        more_flag = status == CLI$_COMMA;
                }

                /*	All the values are in for this qualifier - if there were being stacked
                	up then load them all into an argv element.
                */

                if (separator_flag & multivalue) {
                        Increment(arg_count);
                        newargv[arg_count] = malloc(strlen(value_template) + 1);
                        if (newargv[arg_count] == NULL) sys$exit(LIB$_INSVIRMEM);
                        strcpy(newargv[arg_count], value_template);
                        value_template[0] = 0;
                }

                /*	Check to see if this is a HELP directive.  if so, then the help
                	library name is stored in pattern[i] and the initial help string
                	in unix_arg[i]
                */

                if ((present &1) && help_flag) {
                        varg_do_help(pattern[i], unix_arg[i]);
                }

                /*	And around for the next qualifier.
                */

        }

        /*	We've built the argument vector.  Now lets find out what we're
        	supposed to do with it.
        */

        if ((action_flags & VARGACT_M_RETURN)) {

                /*	We should return the result to the caller. Set the corresponding argc
                	& argv variables in the caller to point at these.  Make sure the new
                	argv contains the same [0] element as the old one (program name).
                */

                *argc = arg_count + 1;
                newargv[0] = (*argv)[0];
                *argv = newargv;
                return 1;
        }

        /*	We must convert the argv elements into an arg string.
        */

        arg_string[0] = 0;
        special_chars = default_special;

        for (i = 1; i <= arg_count; i++) {
                varg_protect_string(newargv[i], arg_element, action_flags,
                                special_chars);
                strcat(arg_string, arg_element);
                if (i != arg_count) strcat(arg_string, " ");
        }

        status = varg_do_exit(action_flags, arg_symbol, arg_string, image_name, outverb);

        /*	if we got this far then exit to DCL.
        */

        sys$exit(status);
}