#include <afsconfig.h>
#include <afs/param.h>
-RCSID("$Header$");
+RCSID
+ ("$Header$");
-#include "xstat_fs.h" /*Interface for this module*/
-#include <lwp.h> /*Lightweight process package*/
+#include "xstat_fs.h" /*Interface for this module */
+#include <lwp.h> /*Lightweight process package */
#ifdef HAVE_STRING_H
#include <string.h>
/*
* Routines we need that don't have explicit include file definitions.
*/
-extern int RXAFSCB_ExecuteRequest(); /*AFS callback dispatcher*/
-extern char *hostutil_GetNameByINet(); /*Host parsing utility*/
+extern int RXAFSCB_ExecuteRequest(); /*AFS callback dispatcher */
+extern char *hostutil_GetNameByINet(); /*Host parsing utility */
/*
* Help out the linker by explicitly importing the callback routines
/*
* Exported variables.
*/
-int xstat_fs_numServers; /*Num connected servers*/
+int xstat_fs_numServers; /*Num connected servers */
struct xstat_fs_ConnectionInfo
- *xstat_fs_ConnInfo; /*Ptr to connection array*/
-int numCollections; /*Number of data collections*/
-struct xstat_fs_ProbeResults xstat_fs_Results; /*Latest probe results*/
-char terminationEvent; /*One-shot termination event*/
+ *xstat_fs_ConnInfo; /*Ptr to connection array */
+int numCollections; /*Number of data collections */
+struct xstat_fs_ProbeResults xstat_fs_Results; /*Latest probe results */
+char terminationEvent; /*One-shot termination event */
-afs_int32 xstat_fsData[AFS_MAX_XSTAT_LONGS]; /*Buffer for collected data*/
+afs_int32 xstat_fsData[AFS_MAX_XSTAT_LONGS]; /*Buffer for collected data */
/*
* Private globals.
*/
-static int xstat_fs_ProbeFreqInSecs; /*Probe freq. in seconds*/
-static int xstat_fs_initflag = 0; /*Was init routine called?*/
-static int xstat_fs_debug = 0; /*Debugging output enabled?*/
-static int xstat_fs_oneShot = 0; /*One-shot operation?*/
-static int (*xstat_fs_Handler)(); /*Probe handler routine*/
-static PROCESS probeLWP_ID; /*Probe LWP process ID*/
-static int xstat_fs_numCollections; /*Number of desired collections*/
-static afs_int32 *xstat_fs_collIDP; /*Ptr to collection IDs desired*/
+static int xstat_fs_ProbeFreqInSecs; /*Probe freq. in seconds */
+static int xstat_fs_initflag = 0; /*Was init routine called? */
+static int xstat_fs_debug = 0; /*Debugging output enabled? */
+static int xstat_fs_oneShot = 0; /*One-shot operation? */
+static int (*xstat_fs_Handler) (); /*Probe handler routine */
+static PROCESS probeLWP_ID; /*Probe LWP process ID */
+static int xstat_fs_numCollections; /*Number of desired collections */
+static afs_int32 *xstat_fs_collIDP; /*Ptr to collection IDs desired */
/*
* We have to pass a port to Rx to start up our callback listener
* Zeros out basic data structures.
*------------------------------------------------------------------------*/
-static int xstat_fs_CleanupInit()
+static int
+xstat_fs_CleanupInit()
{
- afs_int32 code; /*Return code from callback stubs*/
- struct rx_call *rxcall; /*Bogus param*/
- AFSCBFids *Fids_Array; /*Bogus param*/
- AFSCBs *CallBack_Array; /*Bogus param*/
+ afs_int32 code; /*Return code from callback stubs */
+ struct rx_call *rxcall; /*Bogus param */
+ AFSCBFids *Fids_Array; /*Bogus param */
+ AFSCBs *CallBack_Array; /*Bogus param */
xstat_fs_ConnInfo = (struct xstat_fs_ConnectionInfo *)0;
xstat_fs_Results.probeNum = 0;
xstat_fs_Results.connP = (struct xstat_fs_ConnectionInfo *)0;
xstat_fs_Results.collectionNumber = 0;
xstat_fs_Results.data.AFS_CollData_len = AFS_MAX_XSTAT_LONGS;
- xstat_fs_Results.data.AFS_CollData_val = (afs_int32 *)xstat_fsData;
+ xstat_fs_Results.data.AFS_CollData_val = (afs_int32 *) xstat_fsData;
xstat_fs_Results.probeOK = 0;
- rxcall = (struct rx_call *)0;
- Fids_Array = (AFSCBFids *)0;
- CallBack_Array = (AFSCBs *)0;
+ rxcall = (struct rx_call *)0;
+ Fids_Array = (AFSCBFids *) 0;
+ CallBack_Array = (AFSCBs *) 0;
/*
* Call each of the callback routines our module provides (in
*/
code = SRXAFSCB_CallBack(rxcall, Fids_Array, CallBack_Array);
if (code)
- return(code);
+ return (code);
code = SRXAFSCB_InitCallBackState3(rxcall, (afsUUID *) 0);
if (code)
- return(code);
+ return (code);
code = SRXAFSCB_Probe(rxcall);
- return(code);
+ return (code);
}
* (if so directed).
*------------------------------------------------------------------------*/
-int xstat_fs_Cleanup(int a_releaseMem)
+int
+xstat_fs_Cleanup(int a_releaseMem)
{
- static char rn[] = "xstat_fs_Cleanup"; /*Routine name*/
- int code; /*Return code*/
- int conn_idx; /*Current connection index*/
- struct xstat_fs_ConnectionInfo *curr_conn; /*Ptr to xstat_fs connection*/
+ static char rn[] = "xstat_fs_Cleanup"; /*Routine name */
+ int code; /*Return code */
+ int conn_idx; /*Current connection index */
+ struct xstat_fs_ConnectionInfo *curr_conn; /*Ptr to xstat_fs connection */
/*
* Assume the best, but check the worst.
*/
if (!xstat_fs_initflag) {
fprintf(stderr, "[%s] Refused; module not initialized\n", rn);
- return(-1);
- }
- else
+ return (-1);
+ } else
code = 0;
/*
"[%s] Illegal number of servers (xstat_fs_numServers = %d)\n",
rn, xstat_fs_numServers);
code = -1;
- }
- else {
+ } else {
if (xstat_fs_ConnInfo != (struct xstat_fs_ConnectionInfo *)0) {
/*
* The xstat_fs connection structure array exists. Go through
curr_conn->rxconn = (struct rx_connection *)0;
}
curr_conn++;
- } /*for each xstat_fs connection*/
- } /*xstat_fs connection structure exists*/
- } /*Legal number of servers*/
+ } /*for each xstat_fs connection */
+ } /*xstat_fs connection structure exists */
+ } /*Legal number of servers */
/*
* If asked to, release the space we've allocated.
/*
* Return the news, whatever it is.
*/
- return(code);
+ return (code);
}
* Nothing interesting.
*------------------------------------------------------------------------*/
-static void xstat_fs_LWP()
+static void
+xstat_fs_LWP()
{
- static char rn[] = "xstat_fs_LWP"; /*Routine name*/
- register afs_int32 code; /*Results of calls*/
- int oneShotCode; /*Result of one-shot signal*/
- struct timeval tv; /*Time structure*/
- int conn_idx; /*Connection index*/
- struct xstat_fs_ConnectionInfo *curr_conn; /*Current connection*/
- afs_int32 srvVersionNumber; /*Xstat version #*/
- afs_int32 clientVersionNumber; /*Client xstat version*/
- afs_int32 numColls; /*Number of collections to get*/
- afs_int32 *currCollIDP; /*Curr collection ID desired*/
-
- static afs_int32 xstat_VersionNumber; /*Version # of server*/
+ static char rn[] = "xstat_fs_LWP"; /*Routine name */
+ register afs_int32 code; /*Results of calls */
+ int oneShotCode; /*Result of one-shot signal */
+ struct timeval tv; /*Time structure */
+ int conn_idx; /*Connection index */
+ struct xstat_fs_ConnectionInfo *curr_conn; /*Current connection */
+ afs_int32 srvVersionNumber; /*Xstat version # */
+ afs_int32 clientVersionNumber; /*Client xstat version */
+ afs_int32 numColls; /*Number of collections to get */
+ afs_int32 *currCollIDP; /*Curr collection ID desired */
+
+ static afs_int32 xstat_VersionNumber; /*Version # of server */
/*
* Set up some numbers we'll need.
*/
clientVersionNumber = AFS_XSTAT_VERSION;
- while (1) { /*Service loop*/
+ while (1) { /*Service loop */
/*
* Iterate through the server connections, gathering data.
* Don't forget to bump the probe count and zero the statistics
* areas before calling the servers.
*/
if (xstat_fs_debug)
- printf("[%s] Waking up, getting data from %d server(s)\n",
- rn, xstat_fs_numServers);
+ printf("[%s] Waking up, getting data from %d server(s)\n", rn,
+ xstat_fs_numServers);
curr_conn = xstat_fs_ConnInfo;
xstat_fs_Results.probeNum++;
* connection is valid.
*/
if (xstat_fs_debug)
- printf("[%s] Getting collections from File Server '%s'\n",
- rn, curr_conn->hostName);
+ printf("[%s] Getting collections from File Server '%s'\n", rn,
+ curr_conn->hostName);
if (curr_conn->rxconn != (struct rx_connection *)0) {
if (xstat_fs_debug)
printf("[%s] Connection OK, calling RXAFS_GetXStats\n",
rn);
currCollIDP = xstat_fs_collIDP;
- for (numColls = 0;
- numColls < xstat_fs_numCollections;
+ for (numColls = 0; numColls < xstat_fs_numCollections;
numColls++, currCollIDP++) {
/*
* Initialize the per-probe values.
*/
if (xstat_fs_debug)
- printf("[%s] Asking for data collection %d\n",
- rn, *currCollIDP);
+ printf("[%s] Asking for data collection %d\n", rn,
+ *currCollIDP);
xstat_fs_Results.collectionNumber = *currCollIDP;
- xstat_fs_Results.data.AFS_CollData_len = AFS_MAX_XSTAT_LONGS;
- memset(xstat_fs_Results.data.AFS_CollData_val, 0, AFS_MAX_XSTAT_LONGS * 4);
-
+ xstat_fs_Results.data.AFS_CollData_len =
+ AFS_MAX_XSTAT_LONGS;
+ memset(xstat_fs_Results.data.AFS_CollData_val, 0,
+ AFS_MAX_XSTAT_LONGS * 4);
+
xstat_fs_Results.connP = curr_conn;
-
+
if (xstat_fs_debug) {
- printf("%s: Calling RXAFS_GetXStats, conn=0x%x, clientVersionNumber=%d, collectionNumber=%d, srvVersionNumberP=0x%x, timeP=0x%x, dataP=0x%x\n",
- rn, curr_conn->rxconn,
- clientVersionNumber,
- *currCollIDP,
- &srvVersionNumber,
- &(xstat_fs_Results.probeTime),
- &(xstat_fs_Results.data));
- printf("%s: [bufflen=%d, buffer at 0x%x]\n",
- rn,
+ printf
+ ("%s: Calling RXAFS_GetXStats, conn=0x%x, clientVersionNumber=%d, collectionNumber=%d, srvVersionNumberP=0x%x, timeP=0x%x, dataP=0x%x\n",
+ rn, curr_conn->rxconn, clientVersionNumber,
+ *currCollIDP, &srvVersionNumber,
+ &(xstat_fs_Results.probeTime),
+ &(xstat_fs_Results.data));
+ printf("%s: [bufflen=%d, buffer at 0x%x]\n", rn,
xstat_fs_Results.data.AFS_CollData_len,
xstat_fs_Results.data.AFS_CollData_val);
}
xstat_fs_Results.probeOK =
RXAFS_GetXStats(curr_conn->rxconn,
- clientVersionNumber,
- *currCollIDP,
+ clientVersionNumber, *currCollIDP,
&srvVersionNumber,
&(xstat_fs_Results.probeTime),
&(xstat_fs_Results.data));
-
+
/*
* Now that we (may) have the data for this connection,
* call the associated handler function. The handler does
code = xstat_fs_Handler();
if (code)
fprintf(stderr,
- "[%s] Handler returned error code %d\n",
- rn, code);
-
- } /*For each collection*/
- } /*Valid Rx connection*/
-
+ "[%s] Handler returned error code %d\n", rn,
+ code);
+
+ } /*For each collection */
+ }
+
+ /*Valid Rx connection */
/*
* Advance the xstat_fs connection pointer.
*/
curr_conn++;
- } /*For each xstat_fs connection*/
+ } /*For each xstat_fs connection */
/*
* All (valid) connections have been probed. Fall asleep for the
* that case, we need to signal our caller that we're done.
*/
if (xstat_fs_debug)
- printf("[%s] Polling complete for probe round %d.\n",
- rn, xstat_fs_Results.probeNum);
+ printf("[%s] Polling complete for probe round %d.\n", rn,
+ xstat_fs_Results.probeNum);
if (xstat_fs_oneShot) {
/*
* that we've finished our collection round.
*/
if (xstat_fs_debug)
- printf("[%s] Signalling main process at 0x%x\n",
- rn, &terminationEvent);
+ printf("[%s] Signalling main process at 0x%x\n", rn,
+ &terminationEvent);
oneShotCode = LWP_SignalProcess(&terminationEvent);
if (oneShotCode)
- fprintf(stderr,
- "[%s] Error %d from LWP_SignalProcess()",
- rn, oneShotCode);
- break; /*from the perpetual while loop*/
- } /*One-shot execution*/
+ fprintf(stderr, "[%s] Error %d from LWP_SignalProcess()", rn,
+ oneShotCode);
+ break; /*from the perpetual while loop */
+ } /*One-shot execution */
else {
/*
* Continuous execution desired. Sleep for the required
* number of seconds.
*/
- tv.tv_sec = xstat_fs_ProbeFreqInSecs;
+ tv.tv_sec = xstat_fs_ProbeFreqInSecs;
tv.tv_usec = 0;
if (xstat_fs_debug)
- printf("[%s] Falling asleep for %d seconds\n",
- rn, xstat_fs_ProbeFreqInSecs);
- code = IOMGR_Select(0, /*Num fids*/
- 0, /*Descs ready for reading*/
- 0, /*Descs ready for writing*/
- 0, /*Descs w/exceptional conditions*/
- &tv); /*Ptr to timeout structure*/
+ printf("[%s] Falling asleep for %d seconds\n", rn,
+ xstat_fs_ProbeFreqInSecs);
+ code = IOMGR_Select(0, /*Num fids */
+ 0, /*Descs ready for reading */
+ 0, /*Descs ready for writing */
+ 0, /*Descs w/exceptional conditions */
+ &tv); /*Ptr to timeout structure */
if (code)
- fprintf(stderr,
- "[%s] IOMGR_Select returned code %d\n",
- rn, code);
- } /*Continuous execution*/
- } /*Service loop*/
+ fprintf(stderr, "[%s] IOMGR_Select returned code %d\n", rn,
+ code);
+ } /*Continuous execution */
+ } /*Service loop */
}
/*------------------------------------------------------------------------
* Sets up just about everything.
*------------------------------------------------------------------------*/
-int xstat_fs_Init(int a_numServers, struct sockaddr_in *a_socketArray,
- int a_ProbeFreqInSecs, int (*a_ProbeHandler)(), int a_flags,
- int a_numCollections, afs_int32 *a_collIDP)
+int
+xstat_fs_Init(int a_numServers, struct sockaddr_in *a_socketArray,
+ int a_ProbeFreqInSecs, int (*a_ProbeHandler) (), int a_flags,
+ int a_numCollections, afs_int32 * a_collIDP)
{
- static char rn[] = "xstat_fs_Init"; /*Routine name*/
- register afs_int32 code; /*Return value*/
- static struct rx_securityClass *CBsecobj; /*Callback security object*/
- struct rx_securityClass *secobj; /*Client security object*/
- struct rx_service *rxsrv_afsserver; /*Server for AFS*/
- int arg_errfound; /*Argument error found?*/
- int curr_srv; /*Current server idx*/
- struct xstat_fs_ConnectionInfo *curr_conn; /*Ptr to current conn*/
- char *hostNameFound; /*Ptr to returned host name*/
- int conn_err; /*Connection error?*/
- int PortToUse; /*Callback port to use*/
- int collIDBytes; /*Num bytes in coll ID array*/
+ static char rn[] = "xstat_fs_Init"; /*Routine name */
+ register afs_int32 code; /*Return value */
+ static struct rx_securityClass *CBsecobj; /*Callback security object */
+ struct rx_securityClass *secobj; /*Client security object */
+ struct rx_service *rxsrv_afsserver; /*Server for AFS */
+ int arg_errfound; /*Argument error found? */
+ int curr_srv; /*Current server idx */
+ struct xstat_fs_ConnectionInfo *curr_conn; /*Ptr to current conn */
+ char *hostNameFound; /*Ptr to returned host name */
+ int conn_err; /*Connection error? */
+ int PortToUse; /*Callback port to use */
+ int collIDBytes; /*Num bytes in coll ID array */
/*
* If we've already been called, snicker at the bozo, gently
*/
if (xstat_fs_initflag) {
fprintf(stderr, "[%s] Called multiple times!\n", rn);
- return(0);
- }
- else
- xstat_fs_initflag = 1;
+ return (0);
+ } else
+ xstat_fs_initflag = 1;
/*
* Check the parameters for bogosities.
*/
arg_errfound = 0;
if (a_numServers <= 0) {
- fprintf(stderr, "[%s] Illegal number of servers: %d\n",
- rn, a_numServers);
+ fprintf(stderr, "[%s] Illegal number of servers: %d\n", rn,
+ a_numServers);
arg_errfound = 1;
}
if (a_socketArray == (struct sockaddr_in *)0) {
arg_errfound = 1;
}
if (a_ProbeFreqInSecs <= 0) {
- fprintf(stderr, "[%s] Illegal probe frequency: %d\n",
- rn, a_ProbeFreqInSecs);
+ fprintf(stderr, "[%s] Illegal probe frequency: %d\n", rn,
+ a_ProbeFreqInSecs);
arg_errfound = 1;
}
if (a_ProbeHandler == (int (*)())0) {
- fprintf(stderr, "[%s] Null probe handler function argument\n",
- rn);
+ fprintf(stderr, "[%s] Null probe handler function argument\n", rn);
arg_errfound = 1;
}
if (a_numCollections <= 0) {
- fprintf(stderr, "[%s] Illegal collection count argument: %d\n",
- rn, a_numServers);
+ fprintf(stderr, "[%s] Illegal collection count argument: %d\n", rn,
+ a_numServers);
arg_errfound = 1;
}
if (a_collIDP == NULL) {
arg_errfound = 1;
}
if (arg_errfound)
- return(-1);
+ return (-1);
/*
* Record our passed-in info.
*/
- xstat_fs_debug = (a_flags & XSTAT_FS_INITFLAG_DEBUGGING);
- xstat_fs_oneShot = (a_flags & XSTAT_FS_INITFLAG_ONE_SHOT);
- xstat_fs_numServers = a_numServers;
- xstat_fs_Handler = a_ProbeHandler;
+ xstat_fs_debug = (a_flags & XSTAT_FS_INITFLAG_DEBUGGING);
+ xstat_fs_oneShot = (a_flags & XSTAT_FS_INITFLAG_ONE_SHOT);
+ xstat_fs_numServers = a_numServers;
+ xstat_fs_Handler = a_ProbeHandler;
xstat_fs_ProbeFreqInSecs = a_ProbeFreqInSecs;
- xstat_fs_numCollections = a_numCollections;
+ xstat_fs_numCollections = a_numCollections;
collIDBytes = xstat_fs_numCollections * sizeof(afs_int32);
- xstat_fs_collIDP = (afs_int32 *)(malloc(collIDBytes));
+ xstat_fs_collIDP = (afs_int32 *) (malloc(collIDBytes));
memcpy(xstat_fs_collIDP, a_collIDP, collIDBytes);
if (xstat_fs_debug) {
- printf("[%s] Asking for %d collection(s): ", rn, xstat_fs_numCollections);
+ printf("[%s] Asking for %d collection(s): ", rn,
+ xstat_fs_numCollections);
for (curr_srv = 0; curr_srv < xstat_fs_numCollections; curr_srv++)
- printf("%d ", *(xstat_fs_collIDP+curr_srv));
+ printf("%d ", *(xstat_fs_collIDP + curr_srv));
printf("\n");
}
*/
code = xstat_fs_CleanupInit();
if (code)
- return(code);
+ return (code);
/*
* Allocate the necessary data structures and initialize everything
* else.
*/
- xstat_fs_ConnInfo =
- (struct xstat_fs_ConnectionInfo *)
- malloc(a_numServers * sizeof(struct xstat_fs_ConnectionInfo));
+ xstat_fs_ConnInfo = (struct xstat_fs_ConnectionInfo *)
+ malloc(a_numServers * sizeof(struct xstat_fs_ConnectionInfo));
if (xstat_fs_ConnInfo == (struct xstat_fs_ConnectionInfo *)0) {
fprintf(stderr,
"[%s] Can't allocate %d connection info structs (%d bytes)\n",
rn, a_numServers,
(a_numServers * sizeof(struct xstat_fs_ConnectionInfo)));
- return(-1); /*No cleanup needs to be done yet*/
+ return (-1); /*No cleanup needs to be done yet */
}
/*
if (code == RX_ADDRINUSE) {
if (xstat_fs_debug)
fprintf(stderr,
- "[%s] Callback port %d in use, advancing\n",
- rn, PortToUse);
+ "[%s] Callback port %d in use, advancing\n", rn,
+ PortToUse);
PortToUse++;
- }
- else {
+ } else {
fprintf(stderr, "[%s] Fatal error in rx_Init()\n", rn);
- return(-1);
+ return (-1);
}
}
} while (code);
fprintf(stderr,
"[%s] Can't create callback listener's security object.\n",
rn);
- xstat_fs_Cleanup(1); /*Delete already-malloc'ed areas*/
- return(-1);
+ xstat_fs_Cleanup(1); /*Delete already-malloc'ed areas */
+ return (-1);
}
if (xstat_fs_debug)
printf("[%s] Callback server security object created\n", rn);
-
+
/*
* Create a null Rx client security object, to be used by the
* probe LWP.
secobj = rxnull_NewClientSecurityObject();
if (secobj == (struct rx_securityClass *)0) {
fprintf(stderr,
- "[%s] Can't create probe LWP client security object.\n",
- rn);
- xstat_fs_Cleanup(1); /*Delete already-malloc'ed areas*/
- return(-1);
+ "[%s] Can't create probe LWP client security object.\n", rn);
+ xstat_fs_Cleanup(1); /*Delete already-malloc'ed areas */
+ return (-1);
}
if (xstat_fs_debug)
printf("[%s] Probe LWP client security object created\n", rn);
* printable name if possible.
*/
if (xstat_fs_debug) {
- printf("[%s] Copying in the following socket info:\n",
- rn);
+ printf("[%s] Copying in the following socket info:\n", rn);
printf("[%s] IP addr 0x%lx, port %d\n", rn,
(a_socketArray + curr_srv)->sin_addr.s_addr,
(a_socketArray + curr_srv)->sin_port);
}
- memcpy(&(curr_conn->skt), a_socketArray + curr_srv, sizeof(struct sockaddr_in));
-
+ memcpy(&(curr_conn->skt), a_socketArray + curr_srv,
+ sizeof(struct sockaddr_in));
+
hostNameFound =
hostutil_GetNameByINet(curr_conn->skt.sin_addr.s_addr);
if (hostNameFound == NULL) {
"[%s] Can't map Internet address %lu to a string name\n",
rn, curr_conn->skt.sin_addr.s_addr);
curr_conn->hostName[0] = '\0';
- }
- else {
+ } else {
strcpy(curr_conn->hostName, hostNameFound);
if (xstat_fs_debug)
- printf("[%s] Host name for server index %d is %s\n",
- rn, curr_srv, curr_conn->hostName);
+ printf("[%s] Host name for server index %d is %s\n", rn,
+ curr_srv, curr_conn->hostName);
}
-
+
/*
* Make an Rx connection to the current server.
*/
if (xstat_fs_debug)
- printf("[%s] Connecting to srv idx %d, IP addr 0x%lx, port %d, service 1\n",
- rn, curr_srv, curr_conn->skt.sin_addr.s_addr,
- curr_conn->skt.sin_port);
-
- curr_conn->rxconn =
- rx_NewConnection(curr_conn->skt.sin_addr.s_addr, /*Server addr*/
- curr_conn->skt.sin_port, /*Server port*/
- 1, /*AFS service #*/
- secobj, /*Security obj*/
- 0); /*# of above*/
+ printf
+ ("[%s] Connecting to srv idx %d, IP addr 0x%lx, port %d, service 1\n",
+ rn, curr_srv, curr_conn->skt.sin_addr.s_addr,
+ curr_conn->skt.sin_port);
+
+ curr_conn->rxconn = rx_NewConnection(curr_conn->skt.sin_addr.s_addr, /*Server addr */
+ curr_conn->skt.sin_port, /*Server port */
+ 1, /*AFS service # */
+ secobj, /*Security obj */
+ 0); /*# of above */
if (curr_conn->rxconn == (struct rx_connection *)0) {
fprintf(stderr,
"[%s] Can't create Rx connection to server '%s' (%lu)\n",
conn_err = 1;
}
if (xstat_fs_debug)
- printf("[%s] New connection at 0x%lx\n",
- rn, curr_conn->rxconn);
+ printf("[%s] New connection at 0x%lx\n", rn, curr_conn->rxconn);
/*
* Bump the current xstat_fs connection to set up.
*/
curr_conn++;
- } /*for curr_srv*/
+ } /*for curr_srv */
/*
* Create the AFS callback service (listener).
*/
if (xstat_fs_debug)
printf("[%s] Creating AFS callback listener\n", rn);
- rxsrv_afsserver =
- rx_NewService(0, /*Use default port*/
- 1, /*Service ID*/
- "afs", /*Service name*/
- &CBsecobj, /*Ptr to security object(s)*/
- 1, /*# of security objects*/
- RXAFSCB_ExecuteRequest); /*Dispatcher*/
+ rxsrv_afsserver = rx_NewService(0, /*Use default port */
+ 1, /*Service ID */
+ "afs", /*Service name */
+ &CBsecobj, /*Ptr to security object(s) */
+ 1, /*# of security objects */
+ RXAFSCB_ExecuteRequest); /*Dispatcher */
if (rxsrv_afsserver == (struct rx_service *)0) {
- fprintf(stderr,
- "[%s] Can't create callback Rx service/listener\n",
+ fprintf(stderr, "[%s] Can't create callback Rx service/listener\n",
rn);
- xstat_fs_Cleanup(1); /*Delete already-malloc'ed areas*/
- return(-1);
+ xstat_fs_Cleanup(1); /*Delete already-malloc'ed areas */
+ return (-1);
}
if (xstat_fs_debug)
printf("[%s] Callback listener created\n", rn);
*/
if (xstat_fs_debug)
printf("[%s] Starting up callback listener.\n", rn);
- rx_StartServer(0); /*Don't donate yourself to LWP pool*/
+ rx_StartServer(0); /*Don't donate yourself to LWP pool */
/*
* Start up the probe LWP.
*/
if (xstat_fs_debug)
printf("[%s] Creating the probe LWP\n", rn);
- code =
- LWP_CreateProcess(xstat_fs_LWP, /*Function to start up*/
- LWP_STACK_SIZE, /*Stack size in bytes*/
- 1, /*Priority*/
- (void *) 0, /*Parameters*/
- "xstat_fs Worker", /*Name to use*/
- &probeLWP_ID); /*Returned LWP process ID*/
+ code = LWP_CreateProcess(xstat_fs_LWP, /*Function to start up */
+ LWP_STACK_SIZE, /*Stack size in bytes */
+ 1, /*Priority */
+ (void *)0, /*Parameters */
+ "xstat_fs Worker", /*Name to use */
+ &probeLWP_ID); /*Returned LWP process ID */
if (code) {
- fprintf(stderr,
- "[%s] Can't create xstat_fs LWP! Error is %d\n",
- rn, code);
- xstat_fs_Cleanup(1); /*Delete already-malloc'ed areas*/
- return(code);
+ fprintf(stderr, "[%s] Can't create xstat_fs LWP! Error is %d\n", rn,
+ code);
+ xstat_fs_Cleanup(1); /*Delete already-malloc'ed areas */
+ return (code);
}
if (xstat_fs_debug)
- printf("[%s] Probe LWP process structure located at 0x%x\n",
- rn, probeLWP_ID);
+ printf("[%s] Probe LWP process structure located at 0x%x\n", rn,
+ probeLWP_ID);
/*
* Return the final results.
*/
if (conn_err)
- return(-2);
+ return (-2);
else
- return(0);
+ return (0);
}
* As advertised.
*------------------------------------------------------------------------*/
-int xstat_fs_ForceProbeNow()
+int
+xstat_fs_ForceProbeNow()
{
- static char rn[] = "xstat_fs_ForceProbeNow"; /*Routine name*/
+ static char rn[] = "xstat_fs_ForceProbeNow"; /*Routine name */
/*
* There isn't a prayer unless we've been initialized.
*/
if (!xstat_fs_initflag) {
fprintf(stderr, "[%s] Must call xstat_fs_Init first!\n", rn);
- return(-1);
+ return (-1);
}
/*
/*
* We did it, so report the happy news.
*/
- return(0);
+ return (0);
}