Exemplo n.º 1
0
/*{
** Name: CXcluster_nodes	- Retrun information about configured nodes.
**
** Description:
**
**	Function will return information about the nodes configured
**	in this installation.
**
** Inputs:
**	
**	pnodecnt	- Pointer to u_i4 to hold node count, or NULL.
**
**	hconfig		- Address of pointer to be filled with pointer
**			  to an initialized CX_CONFIGURATION, or NULL.
**			  DO NOT alter the contents of the cached
**			  CX_CONFIGURATION through the returned address!
**
** Outputs:
**
**	*pnodecnt	- Filled in with # nodes.
**
**	*hconfig	- Holds pointer to cached CX_CONFIGURATION.
**
**	Returns:
**		OK		- Normal successful completion.
**		FAIL		- Problem with configuration found.
**		
**	Exceptions:
**	    none
**
** Side Effects:
**	    none.
**
** History:
**	18-apr-2001 (devjo01)
**	    Created. (Much of code lifted from DMFCSP)
**	15-Apr-2005 (fanch01)
**	    Modified cx_nodes array references to be valid from element zero.
*/
STATUS
CXcluster_nodes( u_i4 *pnodecnt, CX_CONFIGURATION **hconfig )
{
    static		 i4			 config_valid = 0;
    static		 CX_CONFIGURATION	 config = { 0 };

    STATUS		 status = OK;
    u_i4		 nodecnt;
    PM_SCAN_REC 	 scanrec;
    char		*resname;
    char		*resvalue;
    char		*nodename;
    i4			 nodename_l;
    i4			 clusterid;
    CX_NODE_INFO	*pni;
    i4			 i, rad;
    char		 param[80];

    if ( !config_valid )
    {
	status = PMinit();
	if ( OK == status )
	{
	    status = PMload( (LOCATION *)NULL, (PM_ERR_FUNC *)0);
	}
	else if ( PM_DUP_INIT == status )
	{
	    status = OK;
	}
	if ( status == OK )
	{
	    nodecnt = 0;

	    /*
	    ** Start the scan
	    */
	    status = PMscan( "^II\\.[^.]*\\.CONFIG\\.CLUSTER\\.ID$",
			     &scanrec, (char *) NULL,
			     &resname, &resvalue );

	    while ( status == OK )
	    {
		/*
		** Extract out node name and convert value to integer
		*/
		nodename = PMgetElem( 1, resname );
		nodename_l = STlength(nodename);

		CVal( resvalue, &clusterid );

		/* Ignore entries with zero cluster id. */
		if ( 0 != clusterid )
		{
		    /*
		    ** Check id is withing range
		    */
		    if ( (clusterid > CX_MAX_NODES) ||
			 (clusterid < 0) )
		    {
			TRdisplay( ERx( \
"%@ CSP node config: Node %s has an invalid id: %d, valid range (0 - %d)\n"),
			     nodename, clusterid, CX_MAX_NODES );
			status = FAIL;
			break;
		    }

		    /*
		    ** Adjust clusterid so array references are zero based.
		    */
		    clusterid--;

		    /*
		    ** Check that specified id is not already used.
		    */
		    if ( config.cx_nodes[clusterid].cx_node_name_l != 0 )
		    {
			/*
			** Location is already being used issue a message 
			** accordingly
			*/
			if (STxcompare( nodename, nodename_l, 
			    config.cx_nodes[clusterid].cx_node_name,
			    config.cx_nodes[clusterid].cx_node_name_l,
			    TRUE, FALSE) == 0)
			{
			    TRdisplay(
ERx("%@ Cluster configuration: Node %~t already exists in correct location.\n"),
			     nodename_l, nodename );
			}
			else
			{
			    TRdisplay(
ERx("%@ Cluster configuration: Node %~t has same id as Node %~t.\n"),
			     nodename_l, nodename,
			     config.cx_nodes[clusterid].cx_node_name_l,
			     config.cx_nodes[clusterid].cx_node_name );
			}
			status = FAIL;
			break;
		    }

		    /*
		    ** Make sure nodename is unique
		    */
		    for (i = 1; i <= nodecnt; i++)
		    {
			if (STxcompare(
			     config.cx_nodes[config.cx_xref[i]].cx_node_name,
			     config.cx_nodes[config.cx_xref[i]].cx_node_name_l,
			     nodename, nodename_l, TRUE, FALSE) == 0)
			{
			    TRdisplay( 
		 ERx("%@ Cluster configuration: Node %s already exists.\n"),
			     nodename );
			    status = FAIL;
			    break;
			}
		    }

		    /*
		    ** Add to configuration
		    */
		    nodecnt++;
		    config.cx_xref[nodecnt] = clusterid;
		    pni = &config.cx_nodes[clusterid];
		    STmove( nodename, '\0', CX_MAX_NODE_NAME_LEN,
		     pni->cx_node_name );
		    pni->cx_node_name_l = 
		     STnlength(CX_MAX_NODE_NAME_LEN,
		     pni->cx_node_name );
		    pni->cx_node_number = clusterid + 1;
		    pni->cx_host_name_l = pni->cx_rad_id = 0;

		    STprintf(param,"ii.%s.gcn.local_vnode", nodename);
		    if ( OK == PMget(param, &resvalue) )
		    {
			STmove( resvalue, '\0', CX_MAX_HOST_NAME_LEN,
				 pni->cx_host_name );
			pni->cx_host_name_l = STnlength( CX_MAX_HOST_NAME_LEN,
			 pni->cx_host_name );
		    }

		    STprintf(param,"ii.%s.config.numa.rad", nodename);
		    if ( OK == PMget(param, &resvalue) &&
			 OK == CVan(resvalue, &rad) && rad > 0 )
		    {
			pni->cx_rad_id = rad;
		    }

		    /*
		    ** Find next element
		    */
		    status = PMscan( (char *) NULL, &scanrec, (char *) NULL,
			     &resname, &resvalue );
		}
	    }

	    /*
	    ** End condition 
	    */
	    if ( status == PM_NOT_FOUND )
		status = OK;
	}

	if (status != OK )    
	{
	    TRdisplay( ERx("%@ Cluster configuration Error\n") );
	    return (FAIL);
	}
	config.cx_node_cnt = nodecnt;
	config_valid = 1;

    }
    if ( pnodecnt )
	*pnodecnt = config.cx_node_cnt;
    if ( hconfig )
	*hconfig = &config;
    
    return OK;
} /*CXcluster_nodes*/
Exemplo n.º 2
0
/*
** Name: GClanman_init
** Description:
**	LANMAN inititialization function.  This routine is called from
**	GCpinit() -- the routine GCC calls to initialize protocol drivers.
**
**	This function does initialization specific to the protocol:
**	    Creates Events and Mutex's for the protocol
**	    Finds and saves a pointer to it's input event Q.
**	    Fires up the thread which will do asynch I/O
** History:
**	11-Nov-93 (edg)
**	    created.
**      15-jul-95 (emmag)
**          Use a NULL Discretionary Access Control List (DACL) for
**          security, to give implicit access to everyone.
**	23-Feb-1998 (thaal01)
**	    Make space for port_id, stops gcc crashing on startup, sometimes.
**	13-may-2004 (somsa01)
**	    Updated config.dat string used to retrieve port information such
**	    that we do not rely specifically on the GCC port.
**	06-Aug-2009 (Bruce Lunsford)  Sir 122426
**	    Change arglist pointer in _beginthreadex for async_thread from
**	    uninitialized "dummy" to NULL to eliminate compiler warning
**	    and possible startup problem.
*/
STATUS
GClanman_init(GCC_PCE * pptr)
{

	char            *ptr, *host, *server_id, *port_id;
	char		config_string[256];
	char            buffer[MAX_COMPUTERNAME_LENGTH + 1];
	int 		real_name_size = MAX_COMPUTERNAME_LENGTH + 1;
	i4		i;
	int		tid;
	HANDLE		hThread;
	int		status;
	SECURITY_ATTRIBUTES sa;
	char		port_id_buf[8];

	port_id = port_id_buf;

	iimksec (&sa);

	/*
	** Look for trace variable.
	*/
	NMgtAt( "II_LANMAN_TRACE", &ptr );
	if ( !(ptr && *ptr) && PMget("!.lanman_trace_level", &ptr) != OK )
	{
	    GCLANMAN_trace = 0;
	}
	else
	{
	    GCLANMAN_trace = atoi( ptr );
	}

	/*
	** Create MUTEX and EVENT for the input queue of this protocol
	** driver.
	*/
	if ( ( hMutexThreadInQ = CreateMutex(&sa, FALSE, NULL) ) == NULL )
	{
	    return FAIL;
	}

	GCTRACE(3)( "GClanman_init: MutexInQ Handle = %d\n", hMutexThreadInQ );

	if ( ( hEventThreadInQ = CreateEvent(&sa, FALSE, FALSE, NULL)) == NULL )
	{
	    CloseHandle( hMutexThreadInQ );
	    return FAIL;
	}

	GCTRACE(3)( "GClanman_init: EventInQ Handle = %d\n", hEventThreadInQ );
	

	GCTRACE(4)( "Start GClanman_init\n" );

        /*
        ** Get set up for the PMget call.
        */
        PMinit();
        if( PMload( NULL, (PM_ERR_FUNC *)NULL ) != OK )
                PCexit( FAIL );

	/*
	** Construct the network port identifier. 
	*/

        host = PMhost();
	server_id = PMgetDefault(3);
 	if (!server_id)
 		server_id = "*" ;
        STprintf( config_string, ERx("!.lanman.port"),
                  SystemCfgPrefix, host, server_id);

	/*
	** Search config.dat for a match on the string we just built.
	** If we don't find it, then use the value for II_INSTALLATION 
	** failing that, default to II.
	*/
        PMget( config_string, &port_id );
	if (port_id == NULL )
	{
		NMgtAt("II_INSTALLATION", &ptr);
		if (ptr != NULL && *ptr != '\0')
		{
			STcopy(ptr, port_id);
		}
		else 
		{ 
			STcopy(SystemVarPrefix, port_id);
		}
	}

	NMgtAt( "II_NETBIOS_NODE", &ptr );
	if ( !ptr || !*ptr  )
	{
	    /*
	    ** Get Computer Name into buffer.
	    */
	    *buffer = (char)NULL;
	    GetComputerName( buffer, &real_name_size );
	    if ( !*buffer )
	        STcopy( "NONAME", buffer );
	    ptr = buffer;
	}
	/*
	** MyName holds ID for outgoing connections.
	*/
	STpolycat( 2, ptr, "_", MyName );
	/*
	** Create listen port ID.
	*/
	STpolycat( 3, ptr, "_", port_id, GCc_listen_port );
	CVupper( MyName );
	CVupper( GCc_listen_port );
	STcopy( GCc_listen_port, pptr->pce_port );

	GCTRACE(2)("GClanman_init: port = %s\n", pptr->pce_port );

	/*
	** Go thru the the protocol threads event list and find the index
	** of the lanman thread.  Set the Global Tptr for easy reference
	** to the event q's for this protocols thread.
	*/
	for ( i = 0; i < IIGCc_proto_threads.no_threads; i++ )
	{
	     THREAD_EVENTS *p = &IIGCc_proto_threads.thread[i];

	     if ( !STcompare( LANMAN_ID, p->thread_name ) )
	     {
	         Tptr = p;
	         break;
	     }
	}
	if ( Tptr == NULL )
	{
	    CloseHandle( hEventThreadInQ );
	    CloseHandle( hMutexThreadInQ );
	    return FAIL;
	}

	/*
	** Finally we start the asynchronous I/O thread
	*/

	hThread = (HANDLE)_beginthreadex(&sa,
		       GC_STACK_SIZE,
		       (LPTHREAD_START_ROUTINE) GClanman_async_thread,
		       NULL,
		       (unsigned long)NULL,
		       &tid);
	if (hThread) 
	{
		CloseHandle(hThread);
	}
	else
	{
	    status = errno;
	    GCTRACE(1)("GClanman_init: Couldn't create thread errno = %d '%s'\n",
	    		status, strerror(status) );
	    return FAIL;
	}

	return OK;
}
Exemplo n.º 3
0
main(int argc, char **argv)
{
	char 			*value = NULL; 
	char			*host, *server_type, *command_line; 
	char 			*server_location, *env, *arguments;
	u_i4 			command_line_length;
	char 			config_string[256];
	char 			iidbms[256];
	STARTUPINFO 		si;
	PROCESS_INFORMATION 	ProcessInfo;
	BOOL 			Status;
	SECURITY_ATTRIBUTES     sa;
	HANDLE			hRead, hWrite;
	HANDLE			hStdout;
	char			buffer[512];
	DWORD			bufferl = sizeof(buffer);
	DWORD			pipe_size = 0;	/* Use default buffer size */
	DWORD			datal = 0;
	bool			havequote, failed = FALSE;


	MEadvise( ME_INGRES_ALLOC );

	switch (argc)
	{

	case 1:
		server_type = ERx("dbms");
		server_location = ERx("*");
		break;

	case 2:
		server_type = argv[1];
		server_location = ERx("*");
		break;

	default:
		server_type = argv[1];
    		if (STcompare(server_type, "recovery") == 0)
			server_location = ERx("*");
		else
			server_location = argv[2];
		break;

	}
	
	get_sys_dependencies();

	/*
	**	Get the host name, formally used iipmhost.
	*/
	host = PMhost();

	/*
	**	Build the string we will search for in the config.dat file.
	*/
	STprintf( config_string,
		  ERx("%s.%s.%s.%s.image_name"),
		  SystemCfgPrefix, host, server_type, server_location );

	/*
	**	Get set up for the PMget call.
	*/
	PMinit();
	if( PMload( NULL, (PM_ERR_FUNC *)NULL ) != OK )
		PCexit( FAIL );

	/*
	**	Go search config.dat for a match on the string we just built.
	*/
	PMget( config_string, &value );

	if ( value == NULL )
	{
		NMgtAt( SystemLocationVariable, &env );
		if (STcompare(server_type, "recovery") == 0)
		{
		    STprintf(iidbms, ERx("%s\\%s\\bin\\%sdbms"),
			     env, SystemLocationSubdirectory, SystemCfgPrefix);
		}
		else
		{
		    STprintf(iidbms, ERx("%s\\%s\\bin\\%s%s"),
			     env, SystemLocationSubdirectory, SystemCfgPrefix,
			     server_type);
		}
	}
	else if ( *value == '/' || 
		  *value == '\\' ||
		  (*(value+1) == ':' && *(value+2) == '\\') )
	{
		/* Must be a qualified path name */
		STcopy( value, iidbms );
	}
	else 
	{
		NMgtAt( SystemLocationVariable, &env );
		STprintf( iidbms, ERx("%s\\%s\\bin\\%s"),
			  env, SystemLocationSubdirectory, value );
	}
	
	/*
 	** 	Initialize the startinfo structure.	
	*/
	ZeroMemory(&si, sizeof(si));
	si.cb = sizeof(si);

	/*
	**	Get the original command line.
	*/
	arguments = GetCommandLine();
        havequote = FALSE;
        while (*arguments != '\0' && *arguments != '\n')
        {
            if ( *arguments == '"' )
                havequote = (havequote) ? FALSE : TRUE;
            if ( CMwhite(arguments) && havequote == FALSE )
                break;
            arguments++;
        }
	/*
	** 	Put together a command line to create a process with.
	**      - 4 blank separators, quotes, null termination 
	*/
	command_line_length = STlength(arguments) + STlength(iidbms) + 
				STlength(iirun) + 6 + 1; 
	if((command_line = (char *)
		MEreqmem(0, command_line_length, TRUE, NULL)) == NULL)
	{
		error(ERx("Request for memory failed"),NULL);
	}

	STprintf( command_line, "%s \"%s\" %s", iirun, iidbms, arguments );

	/*
	**	Save standard out's handle, to be restored later.
	*/
	hStdout = GetStdHandle(STD_OUTPUT_HANDLE);

 	/*
	**      Initialize the security attributes structure that will
	**      be used to make the pipe handles inheritable.
	*/
	sa.nLength = sizeof(sa);
	sa.lpSecurityDescriptor = NULL;
	sa.bInheritHandle = TRUE;       /* Make object inheritable */

	/*
	**	Define a anonymous pipe to catch the server's startup message.
	*/
	if((Status = CreatePipe(&hRead,&hWrite,&sa,pipe_size)) != TRUE)
	{
		error(ERx("CreatePipe failed"),ERx("error code = "));
	}

	SetStdHandle(STD_OUTPUT_HANDLE,hWrite);

 	/*
	**      Initialize the security attributes structure that will
	**      be used to make the pipe handles inheritable.
	*/
	sa.nLength = sizeof(sa);
	sa.lpSecurityDescriptor = NULL;
	sa.bInheritHandle = TRUE;       /* Make object inheritable */

	/*
	**	Initialize the startup information structure.
	*/
	ZeroMemory(&si, sizeof(si));
	si.cb = sizeof(si);
	/* 
	**	Start it up.
	*/
	/*
	**	Start iirun which will start the server.
	*/
	if ((Status = CreateProcess(NULL,command_line,&sa,NULL,TRUE,
		HIGH_PRIORITY_CLASS, NULL,
	     NULL,&si,&ProcessInfo)) != TRUE)
	{
		DWORD dwError = GetLastError();
		switch(dwError)
		{
		     case ERROR_ACCESS_DENIED:
			error(ERROR_REQ_PRIVILEGE, ERx(""));
			break;
		     case ERROR_ELEVATION_REQUIRED:
			error(ERROR_DENIED_PRIVILEGE, ERROR_REQ_ELEVATION);
			break;
		     default:				
			error(ERx("CreateProcess failed"),ERx("error code = "));
			break;
		}
	}

	SetStdHandle(STD_OUTPUT_HANDLE,hStdout);

	for (;;)
	{
	    char	*tmpptr;

	    if((Status = ReadFile(hRead,&buffer,bufferl,&datal,NULL)) != TRUE)
	    {
		error(ERx("ReadFile failed"),ERx("error code = "));
	    }

	    buffer[datal] = '\0';	 		
	    if ((tmpptr = STstrindex(buffer, "PASS\n", 0, FALSE)))
	    {
		*tmpptr = '\0';
		if (STlength(buffer))
		    SIfprintf(stdout, "%s", buffer);

		break;
	    }

	    SIfprintf(stdout, "%s", buffer);

	    if ((tmpptr = STstrindex(buffer, bad_msg, 0, FALSE)))
	    {
		*tmpptr = '\0';
		if (STlength(buffer))
		    SIfprintf(stdout, "%s", buffer);

		failed = TRUE;
		break;
	    }
	}

	/*
	**	Close handles since we don't need them anymore.
	*/
	CloseHandle(ProcessInfo.hThread);
	CloseHandle(ProcessInfo.hProcess);
	CloseHandle(hRead);
	CloseHandle(hWrite);

	if (failed &&
	    STscompare(server_type, STlength(server_type), "gcb", 3) != 0 &&
	    STscompare(server_type, STlength(server_type), "gcc", 3) != 0 &&
	    STscompare(server_type, STlength(server_type), "jdbc", 4) != 0)
	{
		SIfprintf( stderr,"\n%s: server would not start.\n",
			   iirundbms );

		SIfprintf(stderr,
		" %s must be set in your environment.\n", 
		    SystemLocationVariable );

		SIfprintf(stderr,
		" Has the csinstall program been run?\n");

		SIfprintf(stderr,
		" %s_DATABASE, %s_CHECKPOINT, %s_JOURNAL and %s_DUMP\n",
		    SystemVarPrefix,
		    SystemVarPrefix,
		    SystemVarPrefix,
		    SystemVarPrefix );

		SIfprintf(stderr,
		" must also be set. See %s_CONFIG\\symbol.tbl.\n",
		    SystemVarPrefix );

		SIfprintf(stderr,
		" Check the file '%%%s%%\\%s\\files\\errlog.log'\n",
		    SystemLocationVariable, SystemLocationSubdirectory );

		SIfprintf(stderr,
		" for more details concerning internal errors.\n");

		SIfprintf(stderr,
		" See your Installation and Operation Guide for more\n");

		SIfprintf(stderr,
		" information concerning server startup.\n");

		PCexit(FAIL);
	}
	else
	{
		PCexit(OK);
	}
}
Exemplo n.º 4
0
/*
** Name: sxapo_init_cnf - Initialize SXAPO configuration from the PM file.
**
** Description:
**	This routine initializes the SXAPO configuration from the
**	PM configuration file.
**
** Inputs:
**	None.
**
** Outputs:
**	err_code		Error code returned to caller.
**
** Returns:
**	DB_STATUS
**
** History:
**	6-jan-94 (stephenb)
**	    Initial creation.
*/
static DB_STATUS
sxapo_init_cnf(
	i4		*err_code)
{
    DB_STATUS		status = E_DB_OK;
    STATUS		clstat;
    i4		local_err;
    char		*pmfile;
    char		*pmvalue;

    *err_code = E_SX0000_OK;
    for (;;)
    {
    	/*
    	** Allow private override on PM file
    	*/
	NMgtAt("II_SXF_PMFILE", &pmfile);
	if (pmfile && *pmfile)
	{
		LOCATION	pmloc;
		TRdisplay("Loading SXF-PM file '%s'\n",pmfile);
		LOfroms(PATH & FILENAME, pmfile, &pmloc);
		if(PMload(&pmloc,NULL)!=OK)
		TRdisplay("Error loading PMfile '%s'\n",pmfile);
	}
	/*
	** Get auditing status
	*/
	if (PMget(SX_C2_MODE,&pmvalue) == OK)
	{
		if (!STbcompare(pmvalue, 0, SX_C2_MODE_ON, 0, TRUE))
		{
		    /*
		    ** Auditing on
		    */
		    Sxapo_cb->sxapo_status=SXAPO_ACTIVE;
		}
		else if ((STbcompare(pmvalue, 0, SX_C2_MODE_OFF, 0, TRUE)!=0))
		{
		    /*
		    ** Niether ON nor OFF, Invalid mode
		    */
		    *err_code=E_SX1061_SXAP_BAD_MODE;
		    break;
		}
	}
	else
	{
		/*
		** No value, this is an error
		*/
		*err_code=E_SX1061_SXAP_BAD_MODE;
		break;
	}
	/*
	** Get action on error
	*/
	if ((PMget("II.*.C2.ON_ERROR",&pmvalue) == OK))
	{
		if (!STcasecmp(pmvalue, "STOPAUDIT" ))
		{
		    Sxf_svcb->sxf_act_on_err=SXF_ERR_STOPAUDIT;
		}
		else if (!STcasecmp(pmvalue, "SHUTDOWN" ))
		{
		    Sxf_svcb->sxf_act_on_err=SXF_ERR_SHUTDOWN;
		}
		else
		{
		/*
		** Invalid value
		*/
		*err_code=E_SX1060_SXAP_BAD_ONERROR;
		break;
		}
	}
	else
	{
		/*
		** No value, this is an error
		*/
		*err_code=E_SX1060_SXAP_BAD_ONERROR;
		break;
	}
	break;
    }
    /* handle errors */
    if (*err_code != E_SX0000_OK)
    {
	_VOID_ ule_format(*err_code, NULL, ULE_LOG, NULL, NULL,
		0L, NULL, &local_err, 0);
	*err_code = E_SX1020_SXAP_INIT_CNF;
	status = E_DB_ERROR;
    }
    return (status);
}
Exemplo n.º 5
0
/*
** Name: GCwintcp_init
** Description:
**	WINTCP inititialization function.  This routine is called from
**	GCwinsock_init() -- the routine GCC calls to initialize protocol 
**	drivers.
**
**	This function does initialization specific to the protocol:
**	   Reads any protocol-specific env vars.
**	   Sets up the winsock protocol-specific control info.
** History:
**	05-Nov-93 (edg)
**	    created.
**	23-Feb-1998 (thaal01)
**	    Allow space for port_id, stops GCC crashing on startup sometimes.
**	07-Jul-1998 (macbr01)
**	    Bug 91972 - jasgcc not receiving incoming communications. This is 
**	    due to incorrect usage of PMget() in function GCwintcp_init(). 
**	    Changed to test return code of PMget() instead of testing passed 
**	    in parameter for not equal to NULL.
**	15-jul-1998 (canor01)
**	    Move assignment of port_id to port_id_buf to prevent possible
**	    access violation. Clean up comments.
**	09-feb-2004 (somsa01)
**	    When working with instance identifiers as port IDs, make sure
**	    we initialize sbprt with the trailing number, if set.
**	13-may-2004 (somsa01)
**	    Updated config.dat string used to retrieve port information such
**	    that we do not rely specifically on the GCC port. Also, corrected
**	    function used to convert subport into a number.
**      26-Jan-2006 (loera01) Bug 115671
**          Added GCWINTCP_log_rem_host to allow of gethostbyaddr() to be
**          disabled.
**      06-Feb-2007 (Ralph Loen) SIR 117590
**          Removed GCWINTCP_log_rem_host, since gethostbyaddr() is no
**          longer invoked for network listens.
**      22-Feb-2008 (rajus01) Bug 119987, SD issue 125582
**          Bridge server configuration requires listening on a specified
**          three character listen address. During protocol initialization
**          the bridge server fails to start when three character listen
**          address is specified. For example,
**          the following configuration entries in config.dat
**               ii.<host>.gcb.*.wintcp.port: <xxn>,
**               ii.<host>.gcb.*.wintcp.status:<prot_stat>
**          are for command line configuration. When these entries are
**          present in addition to the CBF VNODE configuration (shown below )
**                ii.rajus01.gcb.*.wintcp.port.v1:<xxn>
**                ii.rajus01.gcb.*.wintcp.status.v1:<prot_stat>
**          the bridge server fails even though the port is available for use.
**          It has been found that the global 'sbprt' variable gets set
**          by the bridge server during protocol initialization to 'n' in the
**          three charater listen address 'xxn'. Later, while resolving the
**          three character portname into port number by GCwintcp_port routine
**          it assumes that this port is already in use even though it is not
**          the case.
**	    Added server_type to determine the GCF server type.
**          The error messages from errlog.log are the following:
**          rajus01 ::[R3\BRIDGE\12c4    , 4804      , ffffffff]: Tue Feb 19
**          19:49:27 2008 E_GC2808_NTWK_OPEN_FAIL  Network open failed for
**          protocol TCP_IP, port R3; status follows.
**          rajus01 ::[R3\BRIDGE\12c4    , 4804      , ffffffff]: Tue Feb 19
**          19:49:27 2008 E_CL2787_GC_OPEN_FAIL    An attempted network open
**          failed.
**	    Change description:
**		The code that clears the third character in the listen address
**		specified in the config.dat has been removed. This
**		appears to be a wrong assumption in the protocol driver based
**	        on the documentation in "Appendix A:TCP/IP protocol, Listen
**		Address Format seciton of Connectivity Guide". With these
**		changes the protocol driver will behave the way UNIX does.
**
**		WARNING: This DOES introduce the behavioural changes in the
**		following cases when starting one or more servers by increa-
**		sing the startup count in config.dat.
**		
**		Case 1: 
**		   Both tcp_ip and win_tcp status are set to ON with Listen
**		   Addresses II5 and II5 for example.
**		   New behaviour: The GCF server will come up and listen on 
**	           one protocol using port II5, but will fail on the other 
**		   protocol. 
**		   Original behaviour:
**		   The GCF server will listen on port II5 on the first
**		   protocol and the second one will listen on II6.
**		   This seems to be a bug in the driver as this is not the 
**		   behaviour documented in the connectivity guide. 
**		Case 2:
**		   Both tcp_ip and win_tcp status are set to ON with Listen
**		   Addresses (win_tcp=II, tcp_ip = II1).
**		   Original behaviour:
**		   First GCF server will come up OK (II0, II1). The second
**		   GCF server will come up fine too ( II2, II3 ).
**		   New Behaviour:
**		   First GCF server will come up fine. The second GCF server
**		   will fail for tcp_ip protocol, but will come up on win_tcp
**		   protocol. This doesn't seem to be much of an issue because
**		   the second GCF server will still come up using win_tcp. 
**	13-Apr-2010 (Bruce Lunsford)  SIR 122679
**	    Set wsd->pce_driver from GCC PCT rather than from ex-global
**	    WS_wintcp.
*/
STATUS
GCwintcp_init(GCC_PCE * pptr, GCC_WINSOCK_DRIVER *wsd)
{

	char           *ptr = NULL;
	char            real_name_size[] = "100";
	char           *host, *server_id, *port_id;
	char            config_string[256];
	char            install[32]; //II_INSTALLATION code

        /*
        ** Get set up for the PMget call.
        */
        PMinit();
        if( PMload( NULL, (PM_ERR_FUNC *)NULL ) != OK )
                PCexit( FAIL );

        /*
        ** Construct the network port identifier.
        */

        host = PMhost();
        server_id = PMgetDefault(3);
        if (!server_id)
                server_id = "*" ;
        STprintf( config_string, ERx("!.wintcp.port"),
                  SystemCfgPrefix, host, server_id);

        /*
        ** Search config.dat for a match on the string we just built.
        ** If we don't find it, then use the value for II_INSTALLATION
        ** failing that, default to II.
        */
        if ((PMget( config_string, &port_id ) != OK) ||
            (port_id == NULL ))
        {
                NMgtAt("II_INSTALLATION", &ptr);
		port_id = install; 
                if (ptr != NULL && *ptr != '\0')
                {
                        STcopy(ptr, port_id);
                }
                else
                {
                        STcopy(SystemVarPrefix, port_id);
                }
        }

	STcopy(port_id, pptr->pce_port);
	GCTRACE(1)("GCwintcp_init: port = %s\n", pptr->pce_port );


	/*
	** Fill in protocol-specific info
	*/
	wsd->addr_len = sizeof( struct sockaddr_in );
	wsd->sock_fam = AF_INET;
	wsd->sock_type = SOCK_STREAM;
	wsd->sock_proto = 0;
	wsd->block_mode = FALSE;
	wsd->pce_driver = pptr->pce_driver;

	/*
	** Get trace variable
	*/
        ptr = NULL;
	NMgtAt( "II_WINTCP_TRACE", &ptr );
	if ( !(ptr && *ptr) && PMget("!.wintcp_trace_level", &ptr) != OK )
	{
	    GCWINTCP_trace = 0;
	}
	else
	{
	    GCWINTCP_trace = atoi( ptr );
	}

	return OK;
}
Exemplo n.º 6
0
static STATUS
initialize( i4 argc, char **argv )
{
    CL_ERR_DESC	cl_err;
    char	*instance = ERx("*");
    char	*env;
    char	name[ 16 ];
    i4		i;

    GCD_global.language = 1;
    MHsrand( TMsecs() );

    for( i = 1; i < argc; i++ )
	if ( ! STbcompare( argv[i], 0, ERx("-instance"), 9, TRUE ) )
	{
	    if ( argv[i][9] == ERx('=')  &&  argv[i][10] != EOS )
		instance = &argv[i][10];
	    else  if ( argv[i][9] == EOS  &&  (i + 1) < argc )
		instance = argv[++i];
	    break;
	}

    NMgtAt( ERx("II_INSTALLATION"), &env );
    STprintf( name, ERx("II_CHARSET%s"), (env  &&  *env) ? env : "" );
    NMgtAt( name, &env );

    if ( ! env  ||  ! *env || STlength(env) > CM_MAXATTRNAME)
    {
	switch( CMgetDefCS() )
	{
#if ( !defined(UNIX) && !defined(VMS) )
	case CM_IBM :	    env = "IBMPC850";	break;
#endif
	case CM_DECMULTI :  env = "DECMULTI";	break;
	default :	    env = "ISO88591";	break;
	}
    }

    GCD_global.charset = STalloc( env );
    CVupper( GCD_global.charset );
    gcu_read_cset( gcd_cset_id );

    if ( CMset_attr( GCD_global.charset, &cl_err) != OK )
    {
	gcu_erlog( 0, GCD_global.language, 
		    E_GC0105_GCN_CHAR_INIT, NULL, 0, NULL );
	return( E_GC0105_GCN_CHAR_INIT );
    }

    PMinit();

    switch( PMload( (LOCATION *)NULL, (PM_ERR_FUNC *)NULL ) )
    {
	case OK: break;

	case PM_FILE_BAD:
	    gcu_erlog( 0, GCD_global.language, 
			E_GC003D_BAD_PMFILE, NULL, 0, NULL );
	    return( E_GC003D_BAD_PMFILE );
	    break;

	default:
	    gcu_erlog( 0, GCD_global.language, 
			E_GC003E_PMLOAD_ERR, NULL, 0, NULL );
	    return( E_GC003E_PMLOAD_ERR );
	    break;
    }

    PMsetDefault( 0, SystemCfgPrefix );
    PMsetDefault( 1, PMhost() );
    PMsetDefault( 2, ERx("gcd") );
    PMsetDefault( 3, instance );

    gcd_tl_services[0] = &gcd_dmtl_service;
    gcd_tl_services[1] = &gcd_jctl_service;
    GCD_global.tl_services = gcd_tl_services;
    GCD_global.tl_srvc_cnt = ARR_SIZE( gcd_tl_services );

    QUinit( &GCD_global.pib_q );
    QUinit( &GCD_global.rcb_q );
    QUinit( &GCD_global.ccb_q );
    QUinit( &GCD_global.ccb_free );
    for( i = 0; i < ARR_SIZE( GCD_global.cib_free ); i++ )  
	QUinit( &GCD_global.cib_free[ i ] );

    env = NULL;
    gcu_get_tracesym( NULL, ERx("!.client_max"), &env );
    if ( env  &&  *env )
    {
	i4 count;

	if ( CVal( env, &count ) == OK  &&  count > 0 )
	    GCD_global.client_max = count;
    }

    env = NULL;
    gcu_get_tracesym( NULL, ERx("!.client_timeout"), &env );
    if ( env  &&  *env )  
    {
	i4 timeout;

	if ( CVal( env, &timeout ) == OK  &&  timeout > 0 )
	    GCD_global.client_idle_limit = timeout * 60; /* Cnvt to seconds */
    }

    env = NULL;
    gcu_get_tracesym( NULL, ERx("!.connect_pool_status"), &env );
    if ( env  &&  *env )
    {
	if ( ! STbcompare( env, 0, "optional", 0, TRUE ) )
	    GCD_global.client_pooling = TRUE;

	if ( GCD_global.client_pooling  ||
	     ! STbcompare( env, 0, "on", 0, TRUE ) )
	{
	    env = NULL;
	    gcu_get_tracesym( NULL, ERx("!.connect_pool_size"), &env );
	    if ( env  &&  *env )  CVal( env, &GCD_global.pool_max );

	    env = NULL;
	    gcu_get_tracesym( NULL, ERx("!.connect_pool_expire"), &env );
	    if ( env  &&  *env )  
	    {
		i4 limit;

		if ( CVal( env, &limit ) == OK  &&  limit > 0 )
		    GCD_global.pool_idle_limit = limit * 60; /* Seconds */
	    }
	}
    }

    env = NULL;
    gcu_get_tracesym( "II_GCD_TRACE", ERx("!.gcd_trace_level"), &env );
    if ( env  &&  *env )  CVal( env, &GCD_global.gcd_trace_level );

    env = NULL;
    gcu_get_tracesym( "II_GCD_LOG", ERx("!.gcd_trace_log"), &env );
    if ( env  &&  *env ) 
	TRset_file( TR_F_OPEN, env, (i4)STlength( env ), &cl_err );

    return( OK );
}
Exemplo n.º 7
0
main(int argc, char **argv)
{
    STATUS status = OK;
    VMS_STATUS vStatus;
    char srcbuf[NAME_FILE_SIZE];
    char dstbuf[NAME_FILE_SIZE];
    char delFile[NAME_FILE_SIZE];
    struct dsc$descriptor_s filename_d = 
        { sizeof (delFile) - 1,
            DSC$K_DTYPE_T,
            DSC$K_CLASS_S,
            delFile
        };
    FILE *srcFile = NULL;
    FILE *dstFile = NULL;
    FILE *nameFile = NULL;
    LOCATION loc;
    bool clusterArg = FALSE;
    bool unclusterArg = FALSE;
    bool writeOutput = FALSE;
    bool validSyntax;
    bool clustered = FALSE;
    bool v1DecryptErr = FALSE;
    bool rewrite = FALSE;
    bool isLogin = FALSE;
    i4   total_recs = 0;
    char local_host[MAX_LOC+CM_MAXATTRNAME];
    char config_host[MAX_LOC+CM_MAXATTRNAME];
    i2 i,j;
    i4 active_rec;
    i4 offset;
    char *onOff = NULL;
    bool srcOpened=FALSE;
    bool dstOpened=FALSE;
    bool printable = TRUE;
    GCN_QUEUE *gcn_q;
    GCN_QUEUE *merge_q;
    i4 rec_len = 0;
    QUEUE *q;
    u_i1  local_mask[ 8 ];        /* Must be 8 bytes */
    char name[MAX_LOC+CM_MAXATTRNAME];
    i4 count;
    char *p = NULL;
    i4 dcryptFail = 0;
    i2 pc;
    char *pv[ 3 ];
    GCN_DB_REC0 tmp_rec;
    SYSTIME timestamp;

    MEadvise(ME_INGRES_ALLOC);
    SIeqinit();
    GChostname( local_host, sizeof(local_host));
    STcopy (PMhost(), config_host);
    if (argc == 1)
       validSyntax = TRUE;
    /*
    ** Parse input arguments.
    */    
    for (i = 1; i < argc; i++)
    {
        validSyntax = FALSE;
        for (j = 0; j < argLen; j++)
        {
            if (!STncasecmp(arg[j],argv[i], STlength(argv[i])))
            {
                switch(j)
                {
                    case HELP1:
                    case HELP2:
                    case HELP3:
                    case HELP4:
                       usage();
                       break;

                    case VERBOSE:
                       validSyntax = TRUE;
                       verboseArg = TRUE;
                       break;

                    case CLUSTER:
                       validSyntax = TRUE;
                       clusterArg = TRUE;
                       writeOutput = TRUE;
                       break;

                    case UNCLUSTER:
                       validSyntax = TRUE;
                       unclusterArg = TRUE;
                       writeOutput = TRUE;
                       break;
                }
            } /* if (!STncasecmp(arg[j],argv[i], STlength(argv[i]))) */
            if (validSyntax)
                break;
        } /* for (j = 0; j < argLen; j++) */
        if (!validSyntax)
            break;
    } /* for (i = 1; i < argc; i++) */

    if (!validSyntax)
    {
        usage();
        PCexit(1);
    }

    if (clusterArg && unclusterArg)
    {
        SIprintf("Cannot specify both -c and -u\n\n");
            usage();
        PCexit(1);
    }

    if (verboseArg)
        SIprintf("Local host is %s\n", local_host);

    /*
    ** Generate key seeds for encoding and decoding.
    */
    STpolycat( 2, GCN_LOGIN_PREFIX, local_host, name );
    gcn_init_mask( name, sizeof( local_mask ), local_mask );

    QUinit(&gcn_qhead);
    QUinit(&merge_qhead);
    PMinit();

    /*
    ** See if this is a clustered installation.  If it is, 
    ** the node, login, and attribute files have no file extension.
    */
    if ( PMload( (LOCATION *)NULL, (PM_ERR_FUNC *)NULL ) != OK )
    {
        SIprintf("Error reading config.dat, exiting\n");
        goto cvt_exit;      
    }

    PMsetDefault( 0, SystemCfgPrefix );
    PMsetDefault( 1, config_host );
    PMsetDefault( 2, ERx("gcn") );

    status = PMget( ERx("!.cluster_mode"), &onOff);
    if (onOff && *onOff)
        ;
    else
        onOff = "OFF";

    if (verboseArg)
        SIprintf("Cluster mode is %s\n", onOff);

    if (!clusterArg && !unclusterArg)
        clustered = !STncasecmp(onOff, "ON", STlength(onOff));

    /*
    ** Rewrite the named GCN files.  For clustered installations, the
    ** node, login and attribute files have no hostname extension.
    */
    for ( i = 0; i < NBR_NAMED_FILES; i++ )
    {  
        /*
        ** Ticket files are simply deleted.
        */
        if (i == IILTICKET || i == IIRTICKET)
        {
            STprintf(delFile, "II_SYSTEM:[INGRES.FILES.NAME]II%s*;*", 
                named_file[i].file);
            if (verboseArg)
                SIprintf("Deleting %s\n", delFile);
            filename_d.dsc$w_length = STlength(delFile);
            vStatus = lib$delete_file(&filename_d,0,0,0,0,0,0,0,0,0);
            if (!vStatus & STS$M_SUCCESS)
                SIprintf("delete of %s failed, status is 0x%d\n", delFile,
                    vStatus);
            continue;
        }    
 
        rewrite = FALSE;
        if (!clusterArg && !unclusterArg)
            writeOutput = FALSE;
        if ( ( status = NMloc( FILES, PATH & FILENAME, 
            (char *)NULL, &loc ) ) != OK )
        {
            SIprintf("iicvtgcn: Could not find II_SYSTEM:[ingres.files]\n");
            goto cvt_exit;
        }
     
        LOfaddpath( &loc, "name", &loc );

        if (clustered || unclusterArg)
        {
            if (named_file[i].add_cluster_node)
                STprintf( srcbuf, "II%s_%s", named_file[i].file,config_host);
            else
                STprintf(srcbuf, "II%s", named_file[i].file);
        }
        else 
            STprintf( srcbuf, "II%s_%s", named_file[i].file,config_host);

        if (verboseArg)
            SIprintf("Opening %s for input\n", srcbuf);

        LOfstfile( srcbuf, &loc );

        /*
        ** Ignore non-existent files.
        */
        if ( LOexist( &loc ) != OK )
        {
            if (verboseArg)
                SIprintf("%s does not exist\n", srcbuf);
            continue;
        }
        /*
        ** Open the existing file as "regular" RACC.
        */
        status = SIfopen( &loc, "r", (i4)SI_RACC, sizeof( GCN_DB_REC0 ), 
            &srcFile );
        /*
        ** If the file exists but can't be opened, it's already optimized.
        */
        if (status == E_CL1904_SI_CANT_OPEN && ( LOexist( &loc ) == OK ) )
        {
            /*
            ** Open the existing file as "optimized" RACC.
            */
            status = SIfopen( &loc, "r", (i4)GCN_RACC_FILE, 
                sizeof( GCN_DB_REC0 ), &srcFile );
            if (status != OK)
            {
                SIprintf( "iicvtgcn: Error opening %s, status is %x\n",
                    srcbuf, status );
                continue;
            }
            if (verboseArg)
                SIprintf("%s is already optimized\n", srcbuf);
        }
        else if (status != OK)
        {
            SIprintf( "iicvtgcn: Error opening %s, status is %x\n",
                srcbuf, status );
            continue;
        }

        /*
        ** A successful open as SI_RACC means the file is not optimized.
        ** This file needs a rewrite.
        */
        else
        {
            if (verboseArg)
                SIprintf("Rewriting %s as optimized\n", srcbuf);
            writeOutput = TRUE;    
        }

        srcOpened = TRUE;

        while ( status == OK )
        {
            /*
            ** Read the source data and store in a queue for analysis.
            */
            status = SIread( srcFile, sizeof( GCN_DB_REC0 ),
                &count, (PTR)&tmp_rec );
            if ( status == ENDFILE )
                break;

            if ( status != OK )
            {
                SIprintf("iicvtgcn: Error reading %s, status is %x\n",
                    srcbuf, status);
                goto cvt_exit;
            }
            else if (tmp_rec.gcn_invalid && tmp_rec.gcn_tup_id != -1)
                continue;
            else
            {
                gcn_q = (GCN_QUEUE *)MEreqmem(0, sizeof(GCN_QUEUE),0,NULL);
                if (!gcn_q)
                {
                    SIprintf("iicvtgcn: Cannot allocate memory, exiting\n");
                    goto cvt_exit;
                }
                MEcopy((PTR)&tmp_rec, sizeof(GCN_DB_REC0), (PTR)&gcn_q->buf);
                QUinsert(&gcn_q->q, &gcn_qhead);
                /*
                ** EOF record found.
                */
                if (gcn_q->buf.gcn_tup_id == -1)
                {
                    gcn_q->buf.gcn_l_uid = 0;
                    gcn_q->buf.gcn_uid[0] = '\0';
                    gcn_q->buf.gcn_l_obj = 0;
                    gcn_q->buf.gcn_obj[0] = '\0';
                    gcn_q->buf.gcn_l_val = 0;
                    gcn_q->buf.gcn_val[0] = '\0';
                    gcn_q->buf.gcn_invalid = TRUE;
                    break;
                }
            }
        } /* while ( status == OK ) */

        /*
        ** Decrypt passwords for IILOGIN files.  If any V1 records are found, 
        ** the IILOGIN file will need to be rewritten.
        */
        isLogin = FALSE;
        for (q = gcn_qhead.q_prev; q != &gcn_qhead; q = q->q_prev)
        {
            gcn_q = (GCN_QUEUE *)q;

            /*
            ** EOF record found.
            */
            if (gcn_q->buf.gcn_tup_id == -1)
            {
                gcn_q->buf.gcn_invalid = TRUE;
                break;
            }

            if (i == IILOGIN)
            {
                isLogin = TRUE;
                MEcopy((PTR)&gcn_q->buf, sizeof(GCN_DB_REC0), (PTR)&tmp_rec);
                if (verboseArg)
                     SIprintf("\tEncoding vnode %s\n", gcn_q->buf.gcn_obj);

                if (unclusterArg)
                    status = gcn_recrypt( FALSE, local_mask, 
                        gcn_q->buf.gcn_val, &v1DecryptErr, &writeOutput);
                else if (clusterArg)
                    status = gcn_recrypt( TRUE, local_mask, 
                    gcn_q->buf.gcn_val, &v1DecryptErr, &writeOutput);
                else
                    status = gcn_recrypt( clustered, local_mask, 
                    gcn_q->buf.gcn_val, &v1DecryptErr, &writeOutput);

                if (status != OK)
                {
                    if (verboseArg)
                        SIprintf("Cannot decrypt password from " \
                            "vnode %s status %x\n", gcn_q->buf.gcn_obj,
                            status);
                    dcryptFail++;
                    MEcopy((PTR)&tmp_rec, sizeof(GCN_DB_REC0), 
                        (PTR)&gcn_q->buf);
                    continue;                
                }
                if (v1DecryptErr)
                {
                    if (verboseArg)
                        SIprintf("Cannot decrypt password from " \
                            "vnode %s\n", gcn_q->buf.gcn_obj);
                    dcryptFail++;
                    MEcopy((PTR)&tmp_rec, sizeof(GCN_DB_REC0), 
                        (PTR)&gcn_q->buf);
                    continue;
                }
            }  /* if (LOGIN) */

        } /* for (q = gcn_qhead.q_prev; q != &gcn_qhead; q = q->q_prev) */
        
        if (dcryptFail && verboseArg && isLogin)
        {
            if (clustered || unclusterArg )
                SIprintf("\n%d vnode(s) could not be decrypted.\n" \
                    "Probably some login entries were created on " \
                    "another node.\nTry executing iicvtgcn on another " \
                    "node to merge the other node's entries.\n\n", dcryptFail);
            else
                SIprintf("\n%d vnode(s) could not be decrypted.\n" \
                    "Probably the login file was created on " \
                    "another host.\nTry executing iicvtgcn on " \
                    "a different host.\n\n", dcryptFail);
        }

        if (!writeOutput)
        {
            if (srcOpened)
                SIclose(srcFile);
            srcOpened = FALSE;
            cleanup_queues();
            continue;
        }
   
        /*
        ** Open the destination file with special GCN_RACC_FILE flag, for 
        ** optimized writes.
        */
        if (clustered || clusterArg) 
        {
            if (named_file[i].add_cluster_node)
                STprintf( dstbuf, "II%s_%s", named_file[i].file, local_host);
            else
                STprintf(dstbuf, "II%s", named_file[i].file);
        }
        else
            STprintf( dstbuf, "II%s_%s", named_file[i].file, local_host);

        if (clusterArg && !named_file[i].add_cluster_node)
            rewrite = TRUE;

        LOfstfile( dstbuf, &loc );

        if (rewrite)
        {
            status = SIfopen( &loc, "rw", (i4)GCN_RACC_FILE, 
                sizeof( GCN_DB_REC0 ), &dstFile );
            if ( status != OK )
            {
                status = SIfopen( &loc, "w", (i4)GCN_RACC_FILE, 
                    sizeof( GCN_DB_REC0 ), &dstFile );
                if (status == OK)
                {
                    SIclose( dstFile);
                    status = SIfopen( &loc, "rw", (i4)GCN_RACC_FILE, 
                        sizeof( GCN_DB_REC0 ), &dstFile );
                }
            }
        }
        else
            status = SIfopen( &loc, "w", (i4)GCN_RACC_FILE, 
                sizeof( GCN_DB_REC0 ), &dstFile );

        if ( status != OK )
        {
            SIprintf( "iicvtgcn: Error opening %s, status is %x\n",dstbuf,
                status );
            goto cvt_exit;
        }

        dstOpened = TRUE;

        if (verboseArg)
            SIprintf("%s %s\n", rewrite ? "Rewriting " : "Writing ", dstbuf);

        /*
        ** If this is a merge operation (-c), login, attribute or
        ** node files may change the location of EOF, since the
        ** file to be merged may have different records than
        ** the destination file. 
        ** Before merging, the output file is read and fed into a queue.
        ** Then each merge record is compared to each output record.
        ** If the entire records match, nothing is done. 
        ** If a global login record matches only the vnode name
        ** global or private records will be added if not present;
        ** otherwise, nothing is done.
        ** Node or attribute records may be added if only one field
        ** fails to match.
        */
        status = SIfseek(dstFile, (i4)0, SI_P_START);
        if (rewrite)
        {
            while ( status == OK )
            {
                /*
                ** Read the source data and store in a queue for analysis.
                */
                status = SIread( dstFile, sizeof( GCN_DB_REC0 ),
                    &count, (PTR)&tmp_rec );
                if ( status == ENDFILE )
                    break;

                if ( status != OK )
                {
                    SIprintf("iicvtgcn: Error reading %s, status is %x\n",
                        dstbuf, status);
                    goto cvt_exit;
                }
                else if (tmp_rec.gcn_invalid && tmp_rec.gcn_tup_id != -1)
                    continue;
                else
                {
                    merge_q = (GCN_QUEUE *)MEreqmem(0, sizeof(GCN_QUEUE),0,NULL);
                    if (!merge_q)
                    {
                        SIprintf("iicvtgcn: Cannot allocate memory, exiting\n");
                        goto cvt_exit;
                    }
                    MEcopy((PTR)&tmp_rec, sizeof(GCN_DB_REC0), 
                        (PTR)&merge_q->buf);
                    QUinsert(&merge_q->q, &merge_qhead);
    
                    /*
                    ** EOF record found.
                    */
                    if (merge_q->buf.gcn_tup_id == -1)
                        break;
                }
                if ( status == ENDFILE )
                    break;

            } /* while ( status == OK ) */

            /*
            ** Go through the input queue.  Compare each record with
            ** the output (merge) queue.  If the record is invalid
            ** or doesn't match, it's ignored.
            */
            dcryptFail = 0;
            total_recs = 0;
            for (q = gcn_qhead.q_prev; q != &gcn_qhead; q = q->q_prev)
            {
                SYSTIME     timestamp;

                gcn_q = (GCN_QUEUE *)q;
                if (gcn_q->buf.gcn_tup_id == -1)
                    break;
                if ( !gcn_merge_rec( gcn_q, isLogin ) )
                    continue;
                if (isLogin)
                {
                    /*
                    ** Login passwords get encrypted as V0 in a cluster
                    ** environment.
                    */
                    MEcopy((PTR)&gcn_q->buf, sizeof(GCN_DB_REC0), 
                        (PTR)&tmp_rec);
                    status = gcn_recrypt( TRUE, local_mask, 
                        gcn_q->buf.gcn_val, &v1DecryptErr, &writeOutput);

                    if (status != OK)
                    {
                        if (verboseArg)
                            SIprintf("Cannot decrypt password from " \
                                "vnode %s status %x\n", gcn_q->buf.gcn_obj,
                                status);
                        dcryptFail++;
                        MEcopy((PTR)&tmp_rec, sizeof(GCN_DB_REC0), 
                            (PTR)&gcn_q->buf);
                        continue;                
                    }
                    if (v1DecryptErr)
                    {
                        if (verboseArg)
                            SIprintf("Cannot decrypt password from " \
                                "vnode %s\n", gcn_q->buf.gcn_obj);
                        dcryptFail++;
                        MEcopy((PTR)&tmp_rec, sizeof(GCN_DB_REC0), 
                            (PTR)&gcn_q->buf);
                        continue;
                    }
                }
                merge_q = (GCN_QUEUE *)MEreqmem(0, sizeof(GCN_QUEUE),0,NULL);
                if (!merge_q)
                {
                    SIprintf("iicvtgcn: Cannot allocate memory, exiting\n");
                    goto cvt_exit;
                }

                MEcopy((PTR)&gcn_q->buf, sizeof(GCN_DB_REC0), 
                    (PTR)&merge_q->buf);
                total_recs++;
              
                QUinsert(&merge_q->q, &merge_qhead);
            }

            if (dcryptFail && verboseArg && isLogin)
            {
                if (clustered || unclusterArg )
                    SIprintf("\n%d vnode(s) could not be decrypted.\n" \
                        "Probably some login entries were created on " \
                        "another node.\nTry executing iicvtgcn on another " \
                        "node to merge the other node's entries.\n\n", 
                        dcryptFail);
                    else
                        SIprintf("\n%d vnode(s) could not be decrypted.\n" \
                            "Probably the login file was created on " \
                            "another host.\nTry executing iicvtgcn on " \
                            "a different host.\n\n", dcryptFail);
            }
            if (verboseArg)
                SIprintf("Total records merged: %d\n", total_recs);

            /*
            ** If no records to merge, clean up and continue.
            */
            if (!total_recs)
            {
                cleanup_queues();
                continue;
            }

            status = SIfseek(dstFile, (i4)0, SI_P_START);
            active_rec = 0;
            for (q = merge_qhead.q_prev; q != &merge_qhead; q = q->q_prev)
            {
                merge_q = (GCN_QUEUE *)q;
                if (verboseArg)
                   SIprintf("Rewriting %s record vnode %s val %s\n", 
                       !STcasecmp("*", merge_q->buf.gcn_uid) ? "global" : 
                       "private", merge_q->buf.gcn_obj, merge_q->buf.gcn_val);
                if (merge_q->buf.gcn_tup_id == -1)
                    continue;
                status = SIwrite(sizeof( GCN_DB_REC0 ), 
                    (char *)&merge_q->buf, &count, dstFile );
                if ( status != OK)
                {
                    SIprintf( "iicvtgcn: Failed to write file %s, " \
                        "status is %x\n", srcbuf, status );
                    goto cvt_exit;
                }
                active_rec++;
            }
            /*
            ** Write new EOF record.
            */
            tmp_rec.gcn_tup_id = -1;
            tmp_rec.gcn_l_uid = 0;
            tmp_rec.gcn_uid[0] = '\0';
            tmp_rec.gcn_l_obj = 0;
            tmp_rec.gcn_obj[0] = '\0';
            tmp_rec.gcn_l_val = 0;
            tmp_rec.gcn_val[0] = '\0';
            tmp_rec.gcn_invalid = TRUE;
            offset = active_rec * sizeof(GCN_DB_REC0);
            status = SIfseek(dstFile, (i4)offset, SI_P_START);
            status = SIwrite(sizeof( GCN_DB_REC0 ), (PTR)&tmp_rec, 
                &count, dstFile );
        }
        else
        {
            for (q = gcn_qhead.q_prev; q != &gcn_qhead; q = q->q_prev)
            {
                gcn_q = (GCN_QUEUE *)q;
                gcn_q->buf.gcn_l_val = STlength(gcn_q->buf.gcn_val);
                if (verboseArg)
                   SIprintf("Writing %s record vnode %s val %s\n", 
                       !STcasecmp("*", gcn_q->buf.gcn_uid) ? "global" : 
                       "private", gcn_q->buf.gcn_obj, gcn_q->buf.gcn_val);
                status = SIwrite(sizeof( GCN_DB_REC0 ), (char *)&gcn_q->buf, 
                    &count, dstFile );
                if ( status != OK)
                {
                    SIprintf( "iicvtgcn: Failed to write file %s, " \
                        "status is %x\n", srcbuf, status );
                    goto cvt_exit;
                }
            }
        }  /* if (rewrite) */


        cleanup_queues();

        SIclose( srcFile );
        srcOpened = FALSE;
        SIclose( dstFile );
        dstOpened = FALSE;

    } /* for (i = 0; i < NBR_NAMED_FILES; i++ ) */

cvt_exit:

    cleanup_queues();

    if (srcOpened)
        SIclose(srcFile);
    if (dstOpened)
        SIclose(dstFile);
    PCexit( OK );
}
Exemplo n.º 8
0
static VOID
gcn_nq_filename( char *type, char *host, char *filename )
{
    i4		len, plen, slen;
    char        *onOff = NULL;
    bool        clustered = FALSE;
    STATUS      status;

    /*
    ** Filename template: II<type>[_<host>]
    */
    plen = 2;
    len = STlength( type );
    slen = (host && *host) ? STlength( host ) + 1 : 0;

    /*
    ** Adjust filename for platform limitations:
    **   drop prefix if type and suffix OK;
    **   drop suffix if prefix and type OK;
    **   otherwise, drop both prefix and suffix.
    */
    if ( plen + len + slen > LO_NM_LEN )
        if ( len + slen <= LO_NM_LEN )
            plen = 0;
        else  if ( plen + len <= LO_NM_LEN )
            slen = 0;
        else
            plen = slen = 0;

    /*
    ** See if this is a clustered installation.  If it is,
    ** the node, login, and attribute files have no file extension.
    */
    if ( PMload( (LOCATION *)NULL, (PM_ERR_FUNC *)NULL ) != OK )
    {
        SIprintf("Error reading config.dat\n");
        return;
    }

    PMsetDefault( 0, "ii" );
    PMsetDefault( 1, host );
    PMsetDefault( 2, ERx("gcn") );

    status = PMget( ERx("!.cluster_mode"), &onOff);

    if (onOff && *onOff)
        clustered = !STncasecmp(onOff, "ON", STlength(onOff));

    if (clustered && (!STncasecmp("LOGIN", type, STlength(type)) ||
                      !STncasecmp("NODE", type, STlength(type)) ||
                      !STncasecmp("ATTR", type, STlength(type))))
        slen = 0;

    CVupper(type);

    STprintf( filename, "%s%s%s%s",
              plen ? "II" : "", type, slen ? "_" : "", slen ? host : "" );

    /*
    ** Finally, truncate the filename if it is too long
    ** (hopefully this will never happen).
    */
    if ( STlength( filename ) > LO_NM_LEN )
        filename[ LO_NM_LEN ] = '\0';

    return;
}
Exemplo n.º 9
0
i4
main(
i4	argc,
char *	argv[])
{
    char      c='\0';
    char      *tz_file=NULL;
    char      *tz_name=NULL;
    char      *tz_def;
    char      tzname[TM_MAX_TZNAME+1];
    char      tzfile[MAX_LOC+1];
    char      ioptarg[MAX_LOC + 1];
    char      tz_pmvalue[MAX_LOC + 1];
    char      tz_pmname[MAX_LOC + 1];
    char      *p, *ip, *pm_value;
    char      *tm_tztype;
    char      chr='/';
    char      *out_file;
    i4        ioptind=1, i;
    char      *tm_tztime;
    i4        timecnt, tempi, temptype, temptz;
    char      buf[sizeof(TM_TZ_CB)+TM_MAX_TIMECNT*(sizeof(i4)+1)];
    FILE      *fid;
    LOCATION  loc_root, tmp_loc;
    STATUS    status=OK;
    TM_TZ_CB  *tm_tz_cb;
    struct timevect time_v;

    appname = argv[0];

    if( TMtz_getopt(argc, argv, "n:name:f:file", &ioptind, ioptarg, &c) == OK)
    {
	switch (c) 
	{
	  case 'f':
	    tz_file = ioptarg;
	    break;
	  case 'n':
	    tz_name = ioptarg;
	    break;
	  default:
	    break;
	}
    }
    else
    {
	TMtz_usage();
	PCexit(FAIL);
    }

    if( tz_file == NULL)
    {
	if( tz_name == NULL)
	{
	    /* Get II_TIMEZONE_NAME value */
	    NMgtAt(ERx("II_TIMEZONE_NAME"), &tz_def);
	    if (!tz_def || !(*tz_def))
	    {
		SIprintf("%s: %s_TIMEZONE_NAME is not set\n", 
				appname, SystemVarPrefix);
		PCexit(FAIL);
	    }
	    STncpy(tzname, tz_def, TM_MAX_TZNAME);
	    tzname[ TM_MAX_TZNAME ] = EOS;
	}
	else
	{
	    STncpy(tzname, tz_name, TM_MAX_TZNAME);
	    tzname[ TM_MAX_TZNAME ] = EOS;
	}
	PMinit();	
	if( PMload( NULL, (PM_ERR_FUNC *)NULL) != OK)
	{
	    SIprintf("%s: Error loading PM %s_CONFIG/config.dat file\n", 
			appname, SystemVarPrefix);
	    PCexit(FAIL);	    
	}
	/* Get timezone file name */
	STprintf( tz_pmname, ERx("%s.*.tz.%s"), SystemCfgPrefix, tzname);
	if( PMget( tz_pmname, &pm_value) != OK)
	{
	    SIprintf("%s: Error locating %s in PM config.dat file\n",
		     appname, tz_pmname);
    	    PCexit(FAIL);	    
	}
	do
	{
	    if((status = NMloc(FILES, PATH, ERx("zoneinfo"), &loc_root)) != OK)
		break;
#if defined(conf_BUILD_ARCH_32_64) && defined(BUILD_ARCH64)
	    if((status = LOfaddpath(&loc_root, ERx("lp64"), &loc_root)) != OK)
	        break;
#endif
#if defined(conf_BUILD_ARCH_64_32) && defined(BUILD_ARCH32)
	    {
	        /*
	        ** Reverse hybrid support must be available in ALL
	        ** 32bit binaries
	        */
	        char    *rhbsup;
	        NMgtAt("II_LP32_ENABLED", &rhbsup);
	        if ( (rhbsup && *rhbsup) &&
	       ( !(STbcompare(rhbsup, 0, "ON", 0, TRUE)) ||
	         !(STbcompare(rhbsup, 0, "TRUE", 0, TRUE))))
	            status = LOfaddpath(&loc_root, "lp32", &loc_root);
	    }
#endif /* reverse hybrid */

	    STcopy( pm_value, tz_pmvalue);

	    /*
	     ** Compose the directory path 
	     */
	    for( p = tz_pmvalue, ip = tz_pmvalue; 
		(p = STchr(ip, chr)) != NULL;)
	    {
		*p = EOS;
		if((status = LOfaddpath(&loc_root, ip, &loc_root)) != OK)
		    break;
		ip = CMnext(p);
	    }
	   
	    /* 
	    ** Add file name to the directory path
	    */
	    if((status = LOfroms(FILENAME, ip, &tmp_loc)) != OK)
		break;
	    status = LOstfile( &tmp_loc, &loc_root);
	} while( FALSE);

	if( status != OK)
	{
	    SIprintf("%s: Error composing timezone file name for %s\n",
		     appname, tz_pmvalue);
	    PCexit(FAIL);
	}
    }
    else
    {
	STcopy("<unknown>", tzname);
	STncpy( tzfile, tz_file, MAX_LOC);
	tzfile[ MAX_LOC ] = EOS;
	if( LOfroms(FILENAME&PATH, tzfile, &loc_root) != OK)
	{
	    SIprintf("%s: Error composing timezone file name for %s\n",
		     appname, tz_pmvalue);
	    PCexit(FAIL);
	}
    }

    /*
    ** Now open the timezone information file
    */
    do
    {
	if((status = SIfopen( &loc_root, ERx("r"), SI_VAR, sizeof buf, &fid)) 
	             != OK)
	    break;
	status = SIread(fid, sizeof buf, &i, buf);
	status = SIclose(fid);
    } while(FALSE);

    if( status != OK)
    {
	LOtos( &loc_root, &out_file);
	SIprintf("%s: Error opening %s for timezone %s\n", 
		 appname, out_file, tzname);
	PCexit(FAIL);
    }

    tm_tz_cb = (TM_TZ_CB *)&buf;
    I4ASSIGN_MACRO( tm_tz_cb->timecnt, timecnt);

    /* Make sure the input file has correct file size */
    if( timecnt > TM_MAX_TIMECNT || timecnt < 0
        || i != sizeof(TM_TZ_CB) + timecnt*(sizeof(i4)+1))
    {
	LOtos( &loc_root, &out_file);
	SIprintf(
	  "%s: Invalid file format for timezone file %s for timezone %s\n",
          appname, out_file, tzname);
	SIprintf(
	  "         File size: %d, Expected file size: %d, time periods: %d\n",
	  i, sizeof(TM_TZ_CB) + timecnt*(sizeof(i4)+1), 
	  timecnt);
	PCexit(FAIL);
    }

    /* Now we are all set to display the content of timezone information file */
    LOtos( &loc_root, &out_file);    
    SIprintf("\n\n");
    SIprintf("timezone name:     %s\n", tzname);
    SIprintf("timezone file:     %s\n", out_file);    
    SIprintf("-------------------------------------");
    SIprintf("-------------------------------------\n");

    if(timecnt == 0)
    {
	I4ASSIGN_MACRO( tm_tz_cb->tzinfo[0].gmtoff, tempi);
	SIprintf("     Fixed GMT offset (secs): %d\n", tempi);      
    }
    else
    {
	SIprintf("\tPeriod Begin");
	SIprintf("\t\tGMT offset\n");
	SIprintf("\t(YYYY_MM_DD HH:MM)");
	SIprintf("\t(Minute)\n\n");
	tm_tztype = buf + sizeof(TM_TZ_CB);
	tm_tztime = tm_tztype + timecnt;
	i=0;
	while( i < timecnt)
	{
	    I4ASSIGN_MACRO( *tm_tztime, tempi);
	    /* Adjust for timezone */
	    if( i == 0)
		temptype = (i4)tm_tztype[i+1];
	    else
		temptype = (i4)tm_tztype[i-1];

	    I4ASSIGN_MACRO( tm_tz_cb->tzinfo[temptype].gmtoff, temptz);
	    /* Get real timezone */
	    tempi += temptz;
	    temptype = (i4)tm_tztype[i];
	    I4ASSIGN_MACRO( tm_tz_cb->tzinfo[temptype].gmtoff, temptz);
	    TMtz_cvtime( tempi, &time_v);
	    SIprintf("\t%04d_%02d_%02d %02d:%02d\t%d\t%s\n", 
		     time_v.tm_year+1900,
		     time_v.tm_mon+1, 
		     time_v.tm_mday,
		     time_v.tm_hour,
		     time_v.tm_min,
		     temptz/60,
		     tm_tz_cb->tzlabel + tm_tz_cb->tzinfo[temptype].abbrind);  
	    tm_tztime += sizeof(i4);
	    i++;
	}
    }
    PCexit(OK);
}
Exemplo n.º 10
0
/*
** Name: main			-main routine.
**
** Description:
**	This routine is the main control routine for iirundbms. Starting an
**	iidbms server consists of:
**	    1) Opening and reading the PM data
**	    2) Validating server arguments, converting to VMS internal format.
**	    3) Creating mailbox for communication with server.
**	    4) creating server processing.
**	    5) Sending server process its commands.
**	    6) Checking whether server startup succeeded or not.
**
**	iirundbms command line format is:
**	    iirundbms <server type> <server flavor>
**	where server type is something like "dbms", "recovery", "star", and
**	server flavor is something like "public", "nonames", "benchmark".
**
** Inputs:
**	argc			- number of arguments (should be 1, 2 or 3)
**	argv			- argument array.
**
** Outputs:
**	None
**
** Returns:
**	a VMS status code is returned.
**
** History:
**	31-jan-1994 (bryanp)
**	    Added comment header.
**      21-Jan-1998 (horda03) Bug 68559
**          For GCC servers where a server flavour has been specified,
**          command line to start the server must specify the server
**          flavour in the form; "-instance=<server_flavor>" in order
**          for the GCC to pickup the correct configuration details.
**      22-feb-1998 (chash01)
**          RMCMD (Visual DBA backend server) startup takes two VMS CREPRC
**          calls, one ihere, one in rmcmd.exe.  When RMCMD server starts
**          the PID returned by CREPRC in this module is no longer valid.
**          WE have to first decode pid in the t_user_data field returned by
**          RMCMD server in termination  mailbox before print PID and 
**          server name to terminal.
**      31-Aug-2007 (ashco01) Bug #113490 & Bug #119021.
**          Corrected detection of 'instance name' for GCB & GCD.
**      05-Dec-2007 (ashco01) Bug #119561.
**          Ensure that all Ingres back-end detached processes define the 
**          SYS$SCRATCH logical as this is referenced via II_TEMPORARY
**          when placing temporary DCL files.
**      10-Dec-2007 (ashco01) Bug #119561
**          Define SYS$SCRATCH within all detached processes.
*/
main( int argc, char **argv )
{
    static $DESCALLOC( prcnam );
    unsigned int pqlcnt = 0;
    $DESCALLOC( uicdsc );
    char *param;
    char prcbuf[16];
    ACCDEF2 accmsg;
    unsigned int pid;
    unsigned short chan;
    unsigned short term;
    unsigned int mbxunt;
    int dviitem;
    char buf[128], tmp[128];
    II_VMS_MASK_LONGWORD  efc_state;
    char	*log_start_commands;
    IOSB	iosb;
    ER_ARGUMENT dummy_arg;
    i4		i;
    STATUS status;
    i4          gcc = 0;
    i4          gcc_instance = 0;
    i4          gcb = 0;
    i4          gcb_instance = 0;
    i4          gcd = 0;
    i4          gcd_instance = 0;

	/*
	** setup the type and server_flavor parameters
	*/
    if ( argc >= 2 )
    {
	server_type = argv[1];

        /* Are we starting a GCB, GCC or GCD ? */

        if (STbcompare( server_type, 3, "gcc", 3, TRUE ) == 0) gcc++;
        if (STbcompare( server_type, 3, "gcb", 3, TRUE ) == 0) gcb++;
        if (STbcompare( server_type, 3, "gcd", 3, TRUE ) == 0) gcd++;
    }

    if ( argc >= 3 )
    {
	server_flavor = argv[2];

        /* Need to precede server_flavor with "-instance="
        ** if we're starting a GCB, GCC or GCD.
        */
        gcc_instance = gcc;
        gcb_instance = gcb;
        gcd_instance = gcd;
    }

	/*
	** initialize PM routines and setup the default
	** search parameters for config.dat
	*/
    status = PMinit( );
    if (status)
    {
	pmerr_func(status, 0, &dummy_arg);
	return (status);
    }

    switch( status = PMload((LOCATION *)NULL, pmerr_func) )
    {
	case OK:
	    /* Loaded sucessfully */
	    break;

	case PM_FILE_BAD:
	    /* syntax error */
	    if (status != FAIL)	/* As of Nov 1993, PM.H defines PM_FILE_BAD 1 */
		pmerr_func(status, (i4)0, &dummy_arg);
	    return (status);

	default: 
	    /* unable to open file */
	    if (status != FAIL)	/* FAIL is a useless status to report... */
		pmerr_func(status, (i4)0, &dummy_arg);
	    return (status);
    }

#ifdef EDBC
    PMsetDefault( 0, ERx( "ed" ) );
#else
    PMsetDefault( 0, ERx( "ii" ) );
#endif
    PMsetDefault( 1, PMhost( ) );
    PMsetDefault( 2, server_type );
    PMsetDefault( 3, server_flavor );

	/* read and process pm parameters
	 */
    for ( i = 0; pm_option[i].PM_name != NULL; i++ )
    {
	status = PMget( pm_option[i].PM_name, &param );
	if ( status != OK )
	    continue;

	switch ( pm_option[i].type )
	{
	    unsigned int *target;

	    case TYPE_CLRFLG:
		if ( STbcompare(param, 0, "off", 0, TRUE) != 0 &&
		     STbcompare(param, 0, "on", 0, TRUE)  != 0 )
		{
		    SIprintf("IIRUNDBMS: %s value must be ON or OFF\n",
				pm_option[i].PM_name);
		    SIflush(stdout);
		    log_errmsg( "Must be ON or OFF", SS$_BADPARAM, 1 );
		    return (SS$_BADPARAM);
		}

		target = (unsigned int *)pm_option[i].target;

		if ( STbcompare(param, 0, pm_option[i].keyword, 0, TRUE) == 0)
		     *target &= ~(int)pm_option[i].parameter;

		if ( msg_echo && (STscompare( pm_option[i].PM_name, 0, echo, 0 ) == 0) )
		     ERoptlog( pm_option[i].PM_name, param );

		break;

	    case TYPE_SETFLG:
		if ( STbcompare(param, 0, "off", 0, TRUE) != 0 &&
		     STbcompare(param, 0, "on", 0, TRUE)  != 0 )
		{
		    SIprintf("IIRUNDBMS: %s value must be ON or OFF\n",
				pm_option[i].PM_name);
		    SIflush(stdout);
		    log_errmsg( "Must be ON or OFF", SS$_BADPARAM, 1 );
		    return (SS$_BADPARAM);
		}

		target = (unsigned int *)pm_option[i].target;

		if ( STbcompare(param, 0, pm_option[i].keyword, 0, TRUE) == 0)
		     *target |= (int)pm_option[i].parameter;

		if ( msg_echo )
		     ERoptlog( pm_option[i].PM_name, param );

		break;

	    case TYPE_INT:
		target = (unsigned int *)pm_option[i].target;

		status = CVal( param, target );
		if (status)
		{
		    SIprintf("IIRUNDBMS: %s value must be an integer\n",
				pm_option[i].PM_name);
		    SIflush(stdout);
		    pmerr_func(status, 0, &dummy_arg);
		    return (SS$_BADPARAM);
		}

		if ( msg_echo )
		{
		    STprintf( buf, "%d", *target );
		    ERoptlog( pm_option[i].PM_name, buf );
		}

		break;

	    case TYPE_UIC:
	    {
		$DESCINIT( uicdsc, param );

		status = iics_cvtuic( &uicdsc, (char *)pm_option[i].target );

		if ( !(status & 1) )
		{
		    log_errmsg( "vms_uic invalid", status, 1 );
		    return (status);				/* B56811 */
		}

		if ( msg_echo )
		{
		    if ( *(unsigned int *)(pm_option[i].target) != 0 )
		    {
			STprintf( buf, "%s [%o,%o]", param,
				  ((uic >> 16) & 0xffff), (uic & 0xffff) );
			ERoptlog( pm_option[i].PM_name, buf );
		    }
		}

		break;
            }

	    case TYPE_STR:
		 if (STlength(param) > MAX_STRING_OPTION_LENGTH)
		 {
		    SIprintf("IIRUNDBMS: Max length for %s is %d\n",
				pm_option[i].PM_name, MAX_STRING_OPTION_LENGTH);
		    SIflush(stdout);
		    return (SS$_BADPARAM);
		 }

		 STcopy( param, (char *)pm_option[i].target );

		 if ( msg_echo )
		    ERoptlog( pm_option[i].PM_name, param );

	         break;

	    case TYPE_PQL:
		    /*
		    ** build VMS process quota block
		    */
		quota[pqlcnt].name = (char)pm_option[i].parameter;

		status = CVal( param, &quota[pqlcnt].value );
		if (status)
		{
		    SIprintf("IIRUNDBMS: %s value must be an integer\n",
				pm_option[i].PM_name);
		    SIflush(stdout);
		    pmerr_func(status, 0, &dummy_arg);
		    return (SS$_BADPARAM);
		}

		pqlcnt++;

		if ( msg_echo )
		    ERoptlog( pm_option[i].PM_name, param );

		break;

	    case TYPE_PRIV:
	    {
		char prvbuf[512];
		char *p, *q;
		i4 j;

		    /*
		    ** Remove white space then
		    ** convert the string to upper case, then 
		    ** remove leading and trailing parens
		    */
		if (STlength(param) >= sizeof(prvbuf))
		{
		    SIprintf("IIRUNDBMS: vms_privileges are too long\n");
		    SIprintf("    Actual length (%d) exceeds maximum (%d)\n",
				STlength(param), sizeof(prvbuf));
		    SIflush(stdout);
		    return (SS$_BADPARAM);
		}

		STcopy( param, prvbuf);
		STtrmwhite( prvbuf );
		CVupper( prvbuf );

		    /*
		    ** Scan the comma seperated privilege list and set the
		    ** privileges for each privileges keywork in the list.
		    */
		for ( p = prvbuf; p != 0 && *p != 0; p = q )
		{
		    if ( (q = STindex( p, ERx( "," ), 0 )) != NULL )
			*q++ = '\0';
		    else if ( (q = STindex( p, ERx( ")" ), 0 )) != NULL )
			*q++ = '\0';

		    if ( *p == '(' )
			p++;

		    for ( j = 0; prv_table[j].prv_name != NULL; j++ )
		    {
			if ( STscompare( p, 4, prv_table[j].prv_name, 4 ) == 0 )
			{
			    prvadr[0] |= prv_table[j].prv_code_low;
			    prvadr[1] |= prv_table[j].prv_code_hi;
			    if ( msg_echo )
				ERoptlog( pm_option[i].PM_name, prv_table[j].prv_name );
			    break;
			}
		    }
		    if (prv_table[j].prv_name == NULL)
		    {
			/*
			** We failed to find privilege "p" in our table
			*/
			SIprintf("IIRUNDBMS: Syntax error in privilege list\n");
			SIprintf("    Error near byte %d of string %s",
				    p - prvbuf, param);
			SIflush(stdout);
			ERoptlog("Unrecognized privilege:", p);
			return (SS$_BADPARAM);
		    }
		}

		break;
	    }

	    default:
		break;
	}
    }