int
main(int argc, char *argv[])
{
int rc;
afs_status_t st = 0;
struct rx_connection *conn;
char *srvrName;
long srvrPort;
void *cellHandle;
afs_CMCellName_t cellName;
ParseArgs(argc, argv, &srvrName, &srvrPort);
rc = afsclient_Init(&st);
if (!rc) {
fprintf(stderr, "afsclient_Init, status %d\n", st);
exit(1);
}
rc = afsclient_NullCellOpen(&cellHandle, &st);
if (!rc) {
fprintf(stderr, "afsclient_NullCellsOpen, status %d\n", st);
exit(1);
}
rc = afsclient_CMStatOpenPort(cellHandle, srvrName, srvrPort, &conn, &st);
if (!rc) {
fprintf(stderr, "afsclient_CMStatOpenPort, status %d\n", st);
exit(1);
}
rc = util_CMLocalCell(conn, cellName, &st);
if (!rc) {
fprintf(stderr, "util_CMLocalCell, status %d\n", st);
exit(1);
}
rc = afsclient_CMStatClose(conn, &st);
if (!rc) {
fprintf(stderr, "afsclient_CMStatClose, status %d\n", st);
exit(1);
}
rc = afsclient_CellClose(cellHandle, &st);
if (!rc) {
fprintf(stderr, "afsclient_CellClose, status %d\n", st);
exit(1);
}
printf("\n");
printf("Client %s (port %ld) is in cell %s\n", srvrName, srvrPort,
cellName);
printf("\n");
exit(0);
}
int
main(int argc, char *argv[])
{
int rc;
afs_status_t st = 0;
rxdebugHandle_p handle;
char *srvrName;
long srvrPort;
afs_uint32 supported;
ParseArgs(argc, argv, &srvrName, &srvrPort);
rc = afsclient_Init(&st);
if (!rc) {
fprintf(stderr, "afsclient_Init, status %d\n", st);
exit(1);
}
rc = afsclient_RXDebugOpenPort(srvrName, srvrPort, &handle, &st);
if (!rc) {
fprintf(stderr, "afsclient_RXDebugOpenPort, status %d\n", st);
exit(1);
}
rc = util_RXDebugSupportedStats(handle, &supported, &st);
if (!rc) {
fprintf(stderr, "util_RXDebugSupportedStats, status %d\n", st);
exit(1);
}
rc = afsclient_RXDebugClose(handle, &st);
if (!rc) {
fprintf(stderr, "afsclient_RXDebugClose, status %d\n", st);
exit(1);
}
printf("\n");
printf("security stats: %s supported\n",
(supported & RX_SERVER_DEBUG_SEC_STATS) ? "" : " not");
printf("all connections:%s supported\n",
(supported & RX_SERVER_DEBUG_ALL_CONN) ? "" : " not");
printf("rx stats: %s supported\n",
(supported & RX_SERVER_DEBUG_RX_STATS) ? "" : " not");
printf("waiter count: %s supported\n",
(supported & RX_SERVER_DEBUG_WAITER_CNT) ? "" : " not");
printf("idle threads: %s supported\n",
(supported & RX_SERVER_DEBUG_IDLE_THREADS) ? "" : " not");
printf("all peers: %s supported\n",
(supported & RX_SERVER_DEBUG_ALL_PEER) ? "" : " not");
printf("\n");
exit(0);
}
int
main(int argc, char *argv[])
{
int rc;
afs_status_t st = 0;
rxdebugHandle_p handle;
char *srvrName;
long srvrPort;
rxdebugVersion_t version;
ParseArgs(argc, argv, &srvrName, &srvrPort);
rc = afsclient_Init(&st);
if (!rc) {
fprintf(stderr, "afsclient_Init, status %d\n", st);
exit(1);
}
rc = afsclient_RXDebugOpenPort(srvrName, srvrPort, &handle, &st);
if (!rc) {
fprintf(stderr, "afsclient_RXDebugOpenPort, status %d\n", st);
exit(1);
}
rc = util_RXDebugVersion(handle, version, &st);
if (!rc) {
fprintf(stderr, "util_RXDebugVersion, status %d\n", st);
exit(1);
}
rc = afsclient_RXDebugClose(handle, &st);
if (!rc) {
fprintf(stderr, "afsclient_RXDebugClose, status %d\n", st);
exit(1);
}
printf("\n");
printf("AFS Version: '%s'\n", version);
printf("\n");
exit(0);
}
int
main(int argc, char **argv)
{
int i;
afs_status_t status;
#ifdef AFS_AIX32_ENV
/*
* The following signal action for AIX is necessary so that in case of a
* crash (i.e. core is generated) we can include the user's data section
* in the core dump. Unfortunately, by default, only a partial core is
* generated which, in many cases, isn't too useful.
*/
struct sigaction nsa;
sigemptyset(&nsa.sa_mask);
nsa.sa_handler = SIG_DFL;
nsa.sa_flags = SA_FULLDUMP;
sigaction(SIGSEGV, &nsa, NULL);
#endif
if (argc < 2) {
fprintf(stderr, "Usage is: %s [<code>]+\n", argv[0]);
exit(1);
}
if (!afsclient_Init(&status)) {
fprintf(stderr, "Unable to initialize error tables\n");
exit(1);
}
for (i = 1; i < argc; i++) {
const char *errText;
afs_status_t errStatus;
status = (afs_status_t) atoi(argv[i]);
util_AdminErrorCodeTranslate(status, 0, &errText, &errStatus);
printf("%d = %s\n", status, errText);
}
return 0;
}
int
main(int argc, char *argv[])
{
int rc;
afs_status_t st = 0;
struct rx_connection *conn;
char *srvrName;
long srvrPort;
char *cellName;
void *tokenHandle;
void *cellHandle;
ParseArgs(argc, argv, &cellName, &srvrName, &srvrPort);
rc = afsclient_Init(&st);
if (!rc) {
fprintf(stderr, "afsclient_Init, status %d\n", st);
exit(1);
}
rc = afsclient_TokenGetExisting(cellName, &tokenHandle, &st);
if (!rc) {
fprintf(stderr, "afsclient_TokenGetExisting, status %d\n", st);
exit(1);
}
rc = afsclient_CellOpen(cellName, tokenHandle, &cellHandle, &st);
if (!rc) {
fprintf(stderr, "afsclient_CellOpen, status %d\n", st);
exit(1);
}
rc = afsclient_RPCStatOpenPort(cellHandle, srvrName, srvrPort, &conn,
&st);
if (!rc) {
fprintf(stderr, "afsclient_RPCStatOpenPort, status %d\n", st);
exit(1);
}
rc = util_RPCStatsStateEnable(conn, RXSTATS_EnablePeerRPCStats, &st);
if (!rc) {
fprintf(stderr, "util_RPCStatsStateEnable, status %d\n", st);
exit(1);
}
rc = afsclient_RPCStatClose(conn, &st);
if (!rc) {
fprintf(stderr, "afsclient_RPCStatClose, status %d\n", st);
exit(1);
}
rc = afsclient_CellClose(cellHandle, &st);
if (!rc) {
fprintf(stderr, "afsclient_CellClose, status %d\n", st);
exit(1);
}
rc = afsclient_TokenClose(tokenHandle, &st);
if (!rc) {
fprintf(stderr, "afsclient_TokenClose, status %d\n", st);
exit(1);
}
exit(0);
}
int
main(int argc, char *argv[])
{
int rc;
afs_status_t st = 0;
struct rx_connection *conn;
char *srvrName;
long srvrPort;
void *cellHandle;
afs_RPCStatsState_t state;
ParseArgs(argc, argv, &srvrName, &srvrPort);
rc = afsclient_Init(&st);
if (!rc) {
fprintf(stderr, "afsclient_Init, status %d\n", st);
exit(1);
}
rc = afsclient_NullCellOpen(&cellHandle, &st);
if (!rc) {
fprintf(stderr, "afsclient_NullCellOpen, status %d\n", st);
exit(1);
}
rc = afsclient_RPCStatOpenPort(cellHandle, srvrName, srvrPort, &conn,
&st);
if (!rc) {
fprintf(stderr, "afsclient_RPCStatOpenPort, status %d\n", st);
exit(1);
}
rc = util_RPCStatsStateGet(conn, RXSTATS_QueryPeerRPCStats, &state, &st);
if (!rc) {
fprintf(stderr, "util_RPCStatsStateGet, status %d\n", st);
exit(1);
}
rc = afsclient_RPCStatClose(conn, &st);
if (!rc) {
fprintf(stderr, "afsclient_RPCStatClose, status %d\n", st);
exit(1);
}
rc = afsclient_CellClose(cellHandle, &st);
if (!rc) {
fprintf(stderr, "afsclient_CellClose, status %d\n", st);
exit(1);
}
printf("\n");
printf("Peer RPC stats are ");
switch (state) {
case AFS_RPC_STATS_DISABLED:
printf("disabled\n");
break;
case AFS_RPC_STATS_ENABLED:
printf("enabled\n");
break;
default:
printf("INVALID\n");
break;
}
printf("\n");
exit(0);
}
int
main(int argc, char *argv[])
{
int rc;
afs_status_t st = 0;
struct rx_connection *conn;
char *srvrName;
long srvrPort;
void *cellHandle;
afs_ClientConfig_t config;
ParseArgs(argc, argv, &srvrName, &srvrPort);
rc = afsclient_Init(&st);
if (!rc) {
fprintf(stderr, "afsclient_Init, status %d\n", st);
exit(1);
}
rc = afsclient_NullCellOpen(&cellHandle, &st);
if (!rc) {
fprintf(stderr, "afsclient_NullCellsOpen, status %d\n", st);
exit(1);
}
rc = afsclient_CMStatOpenPort(cellHandle, srvrName, srvrPort, &conn, &st);
if (!rc) {
fprintf(stderr, "afsclient_CMStatOpenPort, status %d\n", st);
exit(1);
}
rc = util_CMClientConfig(conn, &config, &st);
if (!rc) {
fprintf(stderr, "util_CMClientConfig, status %d\n", st);
exit(1);
}
rc = afsclient_CMStatClose(conn, &st);
if (!rc) {
fprintf(stderr, "afsclient_CMStatClose, status %d\n", st);
exit(1);
}
rc = afsclient_CellClose(cellHandle, &st);
if (!rc) {
fprintf(stderr, "afsclient_CellClose, status %d\n", st);
exit(1);
}
printf("\nClient configuration for %s (port %ld):\n\n", srvrName,
srvrPort);
printf(" clientVersion: %d\n", config.clientVersion);
printf(" serverVersion: %d\n", config.serverVersion);
printf(" nChunkFiles: %d\n", config.c.config_v1.nChunkFiles);
printf(" nStatCaches: %d\n", config.c.config_v1.nStatCaches);
printf(" nDataCaches: %d\n", config.c.config_v1.nDataCaches);
printf(" nVolumeCaches: %d\n", config.c.config_v1.nVolumeCaches);
printf(" firstChunkSize: %d\n", config.c.config_v1.firstChunkSize);
printf(" otherChunkSize: %d\n", config.c.config_v1.otherChunkSize);
printf(" cacheSize: %d\n", config.c.config_v1.cacheSize);
printf(" setTime: %d\n", config.c.config_v1.setTime);
printf(" memCache: %d\n", config.c.config_v1.memCache);
printf("\n");
exit(0);
}
int
main(int argc, char *argv[])
{
int rc;
afs_status_t st = 0;
struct rx_connection *conn;
char *srvrName;
long srvrPort;
void *cellHandle;
afs_CMListCell_t cellInfo;
void *iterator;
afs_uint32 taddr;
int i;
ParseArgs(argc, argv, &srvrName, &srvrPort);
rc = afsclient_Init(&st);
if (!rc) {
fprintf(stderr, "afsclient_Init, status %d\n", st);
exit(1);
}
rc = afsclient_NullCellOpen(&cellHandle, &st);
if (!rc) {
fprintf(stderr, "afsclient_NullCellsOpen, status %d\n", st);
exit(1);
}
rc = afsclient_CMStatOpenPort(cellHandle, srvrName, srvrPort, &conn, &st);
if (!rc) {
fprintf(stderr, "afsclient_CMStatOpenPort, status %d\n", st);
exit(1);
}
rc = util_CMListCellsBegin(conn, &iterator, &st);
if (!rc) {
fprintf(stderr, "util_CMListCellsBegin, status %d\n", st);
exit(1);
}
printf("\n");
while (util_CMListCellsNext(iterator, &cellInfo, &st)) {
printf("Cell %s on hosts", cellInfo.cellname);
for (i = 0; i < UTIL_MAX_CELL_HOSTS && cellInfo.serverAddr[i]; i++) {
taddr = cellInfo.serverAddr[i];
printf(" %d.%d.%d.%d", (taddr >> 24) & 0xff, (taddr >> 16) & 0xff,
(taddr >> 8) & 0xff, taddr & 0xff);
}
printf("\n");
}
if (st != ADMITERATORDONE) {
fprintf(stderr, "util_CMListCellsNext, status %d\n", st);
exit(1);
}
printf("\n");
rc = util_CMListCellsDone(iterator, &st);
if (!rc) {
fprintf(stderr, "util_CMListCellsDone, status %d\n", st);
exit(1);
}
rc = afsclient_CMStatClose(conn, &st);
if (!rc) {
fprintf(stderr, "afsclient_CMStatClose, status %d\n", st);
exit(1);
}
rc = afsclient_CellClose(cellHandle, &st);
if (!rc) {
fprintf(stderr, "afsclient_CellClose, status %d\n", st);
exit(1);
}
exit(0);
}
int
main(int argc, char *argv[])
{
int rc;
afs_status_t st = 0;
rxdebugHandle_p handle;
char *srvrName;
long srvrPort;
void *iterator;
struct rx_debugPeer peer;
afs_uint32 supportedValues;
ParseArgs(argc, argv, &srvrName, &srvrPort);
rc = afsclient_Init(&st);
if (!rc) {
fprintf(stderr, "afsclient_Init, status %d\n", st);
exit(1);
}
rc = afsclient_RXDebugOpenPort(srvrName, srvrPort, &handle, &st);
if (!rc) {
fprintf(stderr, "afsclient_RXDebugOpenPort, status %d\n", st);
exit(1);
}
rc = util_RXDebugPeersBegin(handle, &iterator, &st);
if (!rc) {
fprintf(stderr, "util_RXDebugPeersBegin, status %d\n", st);
exit(1);
}
while (util_RXDebugPeersNext(iterator, &peer, &supportedValues, &st)) {
printf("\n");
printf("host: %u.%u.%u.%u\n", (peer.host >> 24) & 0xff,
(peer.host >> 16) & 0xff, (peer.host >> 8) & 0xff,
peer.host & 0xff);
printf("port: %u\n", peer.port);
printf("ifMTU: %u\n", peer.ifMTU);
printf("idleWhen: %u\n", peer.idleWhen);
printf("refCount: %u\n", peer.refCount);
printf("burstSize: %u\n", peer.burstSize);
printf("burst: %u\n", peer.burst);
printf("burstWait: %u.%06u\n", peer.burstWait.sec,
peer.burstWait.usec);
printf("rtt: %u\n", peer.rtt);
printf("rtt_dev: %u\n", peer.rtt_dev);
printf("timeout: %u.%06u\n", peer.timeout.sec,
peer.timeout.usec);
printf("nSent: %u\n", peer.nSent);
printf("reSends: %u\n", peer.reSends);
printf("inPacketSkew: %u\n", peer.inPacketSkew);
printf("outPacketSkew: %u\n", peer.outPacketSkew);
printf("rateFlag: %u\n", peer.rateFlag);
printf("natMTU: %u\n", peer.natMTU);
printf("maxMTU: %u\n", peer.maxMTU);
printf("maxDgramPackets: %u\n", peer.maxDgramPackets);
printf("ifDgramPackets: %u\n", peer.ifDgramPackets);
printf("MTU: %u\n", peer.MTU);
printf("cwind: %u\n", peer.cwind);
printf("nDgramPackets: %u\n", peer.nDgramPackets);
printf("congestSeq: %u\n", peer.congestSeq);
printf("bytesSent: (%u.%u)\n", hgethi(peer.bytesSent),
hgetlo(peer.bytesSent));
printf("bytesReceived: (%u.%u)\n", hgethi(peer.bytesReceived),
hgetlo(peer.bytesReceived));
}
if (st != ADMITERATORDONE) {
fprintf(stderr, "util_RXDebugPeersNext, status %d\n", st);
exit(1);
}
printf("\n");
rc = util_RXDebugPeersDone(iterator, &st);
if (!rc) {
fprintf(stderr, "util_RXDebugPeersDone, status %d\n", st);
exit(1);
}
rc = afsclient_RXDebugClose(handle, &st);
if (!rc) {
fprintf(stderr, "afsclient_RXDebugClose, status %d\n", st);
exit(1);
}
exit(0);
}
int
main(int argc, char *argv[])
{
int rc;
afs_status_t st = 0;
struct rx_connection *conn;
char *srvrName;
long srvrPort;
void *cellHandle;
afs_CMServerPref_t prefs;
void *iterator;
afs_uint32 taddr;
ParseArgs(argc, argv, &srvrName, &srvrPort);
rc = afsclient_Init(&st);
if (!rc) {
fprintf(stderr, "afsclient_Init, status %d\n", st);
exit(1);
}
rc = afsclient_NullCellOpen(&cellHandle, &st);
if (!rc) {
fprintf(stderr, "afsclient_NullCellOpen, status %d\n", st);
exit(1);
}
rc = afsclient_CMStatOpenPort(cellHandle, srvrName, srvrPort, &conn, &st);
if (!rc) {
fprintf(stderr, "afsclient_CMStatOpenPort, status %d\n", st);
exit(1);
}
rc = util_CMGetServerPrefsBegin(conn, &iterator, &st);
if (!rc) {
fprintf(stderr, "util_CMGetServerPrefsBegin, status %d\n", st);
exit(1);
}
printf("\n");
while (util_CMGetServerPrefsNext(iterator, &prefs, &st)) {
taddr = prefs.ipAddr;
printf("%d.%d.%d.%d\t\t\t%d\n", (taddr >> 24) & 0xff,
(taddr >> 16) & 0xff, (taddr >> 8) & 0xff, taddr & 0xff,
prefs.ipRank);
}
if (st != ADMITERATORDONE) {
fprintf(stderr, "util_CMGetServerPrefsNext, status %d\n", st);
exit(1);
}
printf("\n");
rc = util_CMGetServerPrefsDone(iterator, &st);
if (!rc) {
fprintf(stderr, "util_CMGetServerPrefsDone, status %d\n", st);
exit(1);
}
rc = afsclient_CMStatClose(conn, &st);
if (!rc) {
fprintf(stderr, "afsclient_CMStatClose, status %d\n", st);
exit(1);
}
rc = afsclient_CellClose(cellHandle, &st);
if (!rc) {
fprintf(stderr, "afsclient_CellClose, status %d\n", st);
exit(1);
}
exit(0);
}
int
main(int argc, char *argv[])
{
int rc;
afs_status_t st = 0;
rxdebugHandle_p handle;
char *srvrName;
long srvrPort;
struct rx_statistics stats;
afs_uint32 supportedStats;
char tstr[32];
int i;
ParseArgs(argc, argv, &srvrName, &srvrPort);
rc = afsclient_Init(&st);
if (!rc) {
fprintf(stderr, "afsclient_Init, status %d\n", st);
exit(1);
}
rc = afsclient_RXDebugOpenPort(srvrName, srvrPort, &handle, &st);
if (!rc) {
fprintf(stderr, "afsclient_RXDebugOpenPort, status %d\n", st);
exit(1);
}
rc = util_RXDebugRxStats(handle, &stats, &supportedStats, &st);
if (!rc) {
fprintf(stderr, "util_RXDebugBasicStats, status %d\n", st);
exit(1);
}
rc = afsclient_RXDebugClose(handle, &st);
if (!rc) {
fprintf(stderr, "afsclient_RXDebugClose, status %d\n", st);
exit(1);
}
printf("\n");
printf("RX stats: host %s (port %ld)\n", srvrName, srvrPort);
printf("\n");
printf(" packetRequests: %d\n", stats.packetRequests);
printf(" receivePktAllocFailures: %d\n",
stats.receivePktAllocFailures);
if (supportedStats & RX_SERVER_DEBUG_NEW_PACKETS) {
printf(" receiveCbufPktAllocFailures: %d\n",
stats.receiveCbufPktAllocFailures);
}
printf(" sendPktAllocFailures: %d\n",
stats.sendPktAllocFailures);
if (supportedStats & RX_SERVER_DEBUG_NEW_PACKETS) {
printf(" sendCbufPktAllocFailures: %d\n",
stats.sendCbufPktAllocFailures);
}
printf(" specialPktAllocFailures: %d\n",
stats.specialPktAllocFailures);
printf(" socketGreedy: %d\n", stats.socketGreedy);
printf(" bogusPacketOnRead: %d\n", stats.bogusPacketOnRead);
printf(" bogusHost: %d\n", stats.bogusHost);
printf(" noPacketOnRead: %d\n", stats.noPacketOnRead);
printf(" noPacketBuffersOnRead: %d\n",
stats.noPacketBuffersOnRead);
printf(" selects: %d\n", stats.selects);
printf(" sendSelects: %d\n", stats.sendSelects);
printf(" packetsRead:\n");
for (i = 0; i < RX_N_PACKET_TYPES; i++) {
strcpy(tstr, packetTypes[i]);
printf("\t%-24s %d\n", strcat(tstr, ":"), stats.packetsRead[i]);
}
printf(" dataPacketsRead: %d\n", stats.dataPacketsRead);
printf(" ackPacketsRead: %d\n", stats.ackPacketsRead);
printf(" dupPacketsRead: %d\n", stats.dupPacketsRead);
printf(" spuriousPacketsRead: %d\n",
stats.spuriousPacketsRead);
printf(" ignorePacketDally: %d\n", stats.ignorePacketDally);
printf(" packetsSent:\n");
for (i = 0; i < RX_N_PACKET_TYPES; i++) {
strcpy(tstr, packetTypes[i]);
printf("\t%-24s %d\n", strcat(tstr, ":"), stats.packetsSent[i]);
}
printf(" ackPacketsSent: %d\n", stats.ackPacketsSent);
printf(" dataPacketsSent: %d\n", stats.dataPacketsSent);
printf(" dataPacketsReSent: %d\n", stats.dataPacketsReSent);
printf(" dataPacketsPushed: %d\n", stats.dataPacketsPushed);
printf(" ignoreAckedPacket: %d\n", stats.ignoreAckedPacket);
printf(" netSendFailures: %d\n", stats.netSendFailures);
printf(" fatalErrors: %d\n", stats.fatalErrors);
printf(" nRttSamples: %d\n", stats.nRttSamples);
printf(" totalRtt: %.6f\n",
clock_Float(&stats.totalRtt));
printf(" minRtt: %.6f\n",
clock_Float(&stats.minRtt));
printf(" maxRtt: %.6f\n",
clock_Float(&stats.maxRtt));
printf(" nServerConns: %d\n", stats.nServerConns);
printf(" nClientConns: %d\n", stats.nClientConns);
printf(" nPeerStructs: %d\n", stats.nPeerStructs);
printf(" nCallStructs: %d\n", stats.nCallStructs);
printf(" nFreeCallStructs: %d\n", stats.nFreeCallStructs);
printf("\n");
exit(0);
}
int
main(int argc, char *argv[])
{
int rc;
afs_status_t st = 0;
struct rx_connection *conn;
char *srvrName;
long srvrPort;
void *cellHandle;
void *iterator;
afs_RPCStats_t stats;
char ifName[128];
char role[8];
const char **funcList;
int funcListLen;
int index;
ParseArgs(argc, argv, &srvrName, &srvrPort);
rc = afsclient_Init(&st);
if (!rc) {
fprintf(stderr, "afsclient_Init, status %d\n", st);
exit(1);
}
rc = afsclient_NullCellOpen(&cellHandle, &st);
if (!rc) {
fprintf(stderr, "afsclient_NullCellOpen, status %d\n", st);
exit(1);
}
rc = afsclient_RPCStatOpenPort(cellHandle, srvrName, srvrPort, &conn,
&st);
if (!rc) {
fprintf(stderr, "afsclient_RPCStatOpenPort, status %d\n", st);
exit(1);
}
rc = util_RPCStatsGetBegin(conn, RXSTATS_RetrieveProcessRPCStats,
&iterator, &st);
if (!rc) {
fprintf(stderr, "util_RPCStatsGetBegin, status %d\n", st);
exit(1);
}
while (util_RPCStatsGetNext(iterator, &stats, &st)) {
index = stats.s.stats_v1.func_index;
if (index == 0) {
GetPrintStrings(&stats, ifName, role, &funcList, &funcListLen);
printf("\nProcess RPC stats for %s accessed as a %s\n\n", ifName,
role);
}
if (index >= funcListLen) {
printf(" Function index %d\n", index);
} else {
printf(" %s\n", funcList[index]);
}
if (stats.s.stats_v1.invocations != 0) {
printf("\tinvoc %"AFS_UINT64_FMT
" bytes_sent %"AFS_UINT64_FMT
" bytes_rcvd %"AFS_UINT64_FMT"\n",
stats.s.stats_v1.invocations,
stats.s.stats_v1.bytes_sent,
stats.s.stats_v1.bytes_rcvd);
printf("\tqsum %d.%06d qsqr %d.%06d"
" qmin %d.%06d qmax %d.%06d\n",
stats.s.stats_v1.queue_time_sum.sec,
stats.s.stats_v1.queue_time_sum.usec,
stats.s.stats_v1.queue_time_sum_sqr.sec,
stats.s.stats_v1.queue_time_sum_sqr.usec,
stats.s.stats_v1.queue_time_min.sec,
stats.s.stats_v1.queue_time_min.usec,
stats.s.stats_v1.queue_time_max.sec,
stats.s.stats_v1.queue_time_max.usec);
printf("\txsum %d.%06d xsqr %d.%06d"
" xmin %d.%06d xmax %d.%06d\n",
stats.s.stats_v1.execution_time_sum.sec,
stats.s.stats_v1.execution_time_sum.usec,
stats.s.stats_v1.execution_time_sum_sqr.sec,
stats.s.stats_v1.execution_time_sum_sqr.usec,
stats.s.stats_v1.execution_time_min.sec,
stats.s.stats_v1.execution_time_min.usec,
stats.s.stats_v1.execution_time_max.sec,
stats.s.stats_v1.execution_time_max.usec);
} else {
printf("\tNever invoked\n");
}
}
if (st != ADMITERATORDONE) {
fprintf(stderr, "util_RPCStatsGetNext, status %d\n", st);
exit(1);
}
printf("\n");
rc = util_RPCStatsGetDone(iterator, &st);
if (!rc) {
fprintf(stderr, "util_RPCStatsGetDone, status %d\n", st);
exit(1);
}
rc = afsclient_RPCStatClose(conn, &st);
if (!rc) {
fprintf(stderr, "afsclient_RPCStatClose, status %d\n", st);
exit(1);
}
rc = afsclient_CellClose(cellHandle, &st);
if (!rc) {
fprintf(stderr, "afsclient_CellClose, status %d\n", st);
exit(1);
}
exit(0);
}
