main()
{
struct rx_securityClass *(securityObjects[N_SECURITY_OBJECTS]);
struct rx_service *service;
signal(SIGINT, InterruptSignal);
/* Initialize Rx, telling it port number this server will use for its single service */
if (rx_Init(BULK_SERVER_PORT) < 0)
Quit("rx_init");
/* Create a single security object, in this case the null security object, for unauthenticated connections, which will be used to control security on connections made to this server */
securityObjects[RX_SECIDX_NULL] = rxnull_NewServerSecurityObject();
if (securityObjects[RX_SECIDX_NULL] == (struct rx_securityClass *)0)
Quit("rxnull_NewServerSecurityObject");
/* Instantiate a single BULK service. The rxgen-generated procedure which is called to decode requests is passed in here (BULK_ExecuteRequest). */
service =
rx_NewService(0, BULK_SERVICE_ID, "BULK", securityObjects,
N_SECURITY_OBJECTS, BULK_ExecuteRequest);
if (service == (struct rx_service *)0)
Quit("rx_NewService");
rx_SetMaxProcs(service, 5);
rx_StartServer(1); /* Donate this process to the server process pool */
Quit("StartServer returned?");
}
/* Main routine of the remote AFS system call server. The calling process will
* never return; this is currently called from afsd (when "-rmtsys" is passed
* as a parameter) */
void
rmtsysd(void)
{
/* void catchsig(int); */
struct rx_securityClass *(securityObjects[N_SECURITY_OBJECTS]);
struct rx_service *service;
/*
* Ignore SIGHUP signal since apparently is sent to the processes that
* start up from /etc/rc for some systems like hpux and aix3.1...
*/
signal(SIGHUP, SIG_IGN);
/* Initialize the rx-based RMTSYS server */
if (rx_Init(htons(AFSCONF_RMTSYSPORT)) < 0)
rmt_Quit("rx_init");
securityObjects[RX_SECIDX_NULL] = rxnull_NewServerSecurityObject();
if (securityObjects[RX_SECIDX_NULL] == (struct rx_securityClass *)0)
rmt_Quit("rxnull_NewServerSecurityObject");
service =
rx_NewService(0, RMTSYS_SERVICEID, AFSCONF_RMTSYSSERVICE,
securityObjects, N_SECURITY_OBJECTS,
RMTSYS_ExecuteRequest);
if (service == NULL)
rmt_Quit("rx_NewService");
/* One may wish to tune some default RX params for better performance
* at some point... */
rx_SetMaxProcs(service, 2);
rx_StartServer(1); /* Donate this process to the server process pool */
}
void
startServer(char *configPath)
{
struct rx_securityClass **classes;
afs_int32 numClasses;
int code;
struct rx_service *service;
globalDir = afsconf_Open(configPath);
if (globalDir == NULL) {
fprintf(stderr, "Server: Unable to open config directory\n");
exit(1);
}
code = rx_Init(htons(TEST_PORT));
if (code != 0) {
fprintf(stderr, "Server: Unable to initialise RX\n");
exit(1);
}
afsconf_BuildServerSecurityObjects(globalDir, &classes, &numClasses);
service = rx_NewService(0, TEST_SERVICE_ID, "test", classes, numClasses,
TEST_ExecuteRequest);
if (service == NULL) {
fprintf(stderr, "Server: Unable to start to test service\n");
exit(1);
}
rx_StartServer(1);
}
int
main(int argc, char **argv)
{
struct rx_securityClass *(securityObjects[N_SECURITY_OBJECTS]);
struct rx_service *service;
/* Initialize Rx, telling it port number this server will use for its single service */
if (rx_Init(SAMPLE_SERVER_PORT) < 0)
Quit("rx_init");
/* Create a single security object, in this case the null security object, for unauthenticated connections, which will be used to control security on connections made to this server */
securityObjects[SAMPLE_NULL] = rxnull_NewServerSecurityObject();
if (securityObjects[SAMPLE_NULL] == (struct rx_securityClass *)0)
Quit("rxnull_NewServerSecurityObject");
/* Instantiate a single sample service. The rxgen-generated procedure which is called to decode requests is passed in here (TEST_ExecuteRequest). */
service =
rx_NewService(0, SAMPLE_SERVICE_ID, "sample", securityObjects,
N_SECURITY_OBJECTS, TEST_ExecuteRequest);
if (service == (struct rx_service *)0)
Quit("rx_NewService");
rx_StartServer(1); /* Donate this process to the server process pool */
Quit("StartServer returned?");
return 0;
}
extern int
start_cb_server(void)
{
struct rx_service *s;
sc = rxnull_NewServerSecurityObject();
s = rx_NewService(0, 1, "afs", &sc, 1, RXAFSCB_ExecuteRequest);
if (!s)
return 1;
rx_StartServer(0);
return 0;
}
static void *
init_callback_service_lwp(void *arg)
{
struct rx_securityClass *sc;
struct rx_service *svc;
afs_int32 code = 0;
rpc_test_request_ctx *ctx = (rpc_test_request_ctx *) arg;
printf("%s: init_callback_service_lwp: listen_addr: %s "
"(%d) cb_port: %d\n",
prog, ctx->cb_listen_addr_s, ctx->cb_listen_addr.addr_in[0],
ctx->cb_port);
sc = (struct rx_securityClass *) rxnull_NewServerSecurityObject();
if (!sc) {
fprintf(stderr,"rxnull_NewServerSecurityObject failed for callback "
"service\n");
exit(1);
}
#if defined(RPC_TEST_GLOBAL_RX_INIT)
svc = rx_NewServiceHost(htonl(INADDR_ANY), htons(ctx->cb_port), 1,
ctx->cb_svc_name, &sc, 1, RXAFSCB_ExecuteRequest);
#else
svc = rx_NewService(0, 1, ctx->cb_svc_name, &sc, 1, RXAFSCB_ExecuteRequest);
#endif
/* stash context */
rx_SetServiceSpecific(svc, ctx_key, ctx);
if (!svc) {
fprintf(stderr,"rx_NewServiceHost failed for callback service\n");
exit(1);
}
/* XXX stash service so we can hijack its rx_socket when inititiating
* RPC calls */
ctx->svc = svc;
/* release pkg mutex before entering rx processing loop */
pthread_mutex_unlock(&rpc_test_params.mtx);
rx_StartServer(1);
printf("%s: init_callback_service_lwp: finished");
return (NULL);
} /* callback_service_lwp */
int
afstest_StartTestRPCService(const char *configPath,
u_short port,
u_short serviceId,
afs_int32 (*proc) (struct rx_call *))
{
struct afsconf_dir *dir;
struct rx_securityClass **classes;
afs_int32 numClasses;
int code;
struct rx_service *service;
dir = afsconf_Open(configPath);
if (dir == NULL) {
fprintf(stderr, "Server: Unable to open config directory\n");
return -1;
}
code = rx_Init(htons(port));
if (code != 0) {
fprintf(stderr, "Server: Unable to initialise RX\n");
return -1;
}
afsconf_BuildServerSecurityObjects(dir, &classes, &numClasses);
service = rx_NewService(0, serviceId, "test", classes, numClasses,
proc);
if (service == NULL) {
fprintf(stderr, "Server: Unable to start to test service\n");
return -1;
}
rx_StartServer(1);
return 0; /* Not reached, we donated ourselves to StartServer */
}
static void
do_server(short port, int nojumbo, int maxmtu, int maxwsize, int minpeertimeout,
int udpbufsz, int nostats, int hotthread,
int minprocs, int maxprocs)
{
struct rx_service *service;
struct rx_securityClass *secureobj;
int secureindex;
int ret;
#ifdef AFS_NT40_ENV
if (afs_winsockInit() < 0) {
printf("Can't initialize winsock.\n");
exit(1);
}
#endif
if (hotthread)
rx_EnableHotThread();
if (nostats)
rx_enable_stats = 0;
rx_SetUdpBufSize(udpbufsz);
ret = rx_Init(htons(port));
if (ret)
errx(1, "rx_Init failed");
if (nojumbo)
rx_SetNoJumbo();
if (maxmtu)
rx_SetMaxMTU(maxmtu);
if (maxwsize) {
rx_SetMaxReceiveWindow(maxwsize);
rx_SetMaxSendWindow(maxwsize);
}
if (minpeertimeout)
rx_SetMinPeerTimeout(minpeertimeout);
get_sec(1, &secureobj, &secureindex);
service =
rx_NewService(0, RX_SERVER_ID, "rxperf", &secureobj, secureindex,
rxperf_ExecuteRequest);
if (service == NULL)
errx(1, "Cant create server");
rx_SetMinProcs(service, minprocs);
rx_SetMaxProcs(service, maxprocs);
rx_SetCheckReach(service, 1);
rx_StartServer(1);
abort();
}
int
main(int argc, char **argv)
{
afs_int32 code, i;
afs_uint32 serverList[MAXSERVERS];
afs_uint32 myHost;
struct rx_service *tservice;
struct rx_securityClass *sc[2];
char dbfileName[128];
if (argc == 1) {
printf("usage: userver -servers <serverlist> {-sleep <sleeptime>}\n");
exit(0);
}
#ifdef AFS_NT40_ENV
/* initialize winsock */
if (afs_winsockInit() < 0)
return -1;
#endif
/* parse our own local arguments */
sleepTime = 0;
for (i = 1; i < argc; i++) {
if (strcmp(argv[i], "-sleep") == 0) {
if (i >= argc - 1) {
printf("missing time in -sleep argument\n");
exit(1);
}
sleepTime = atoi(argv[i + 1]);
i++;
}
}
/* call routine to parse command line -servers switch, filling in
* myHost and serverList arrays appropriately */
code = ubik_ParseServerList(argc, argv, &myHost, serverList);
if (code) {
printf("could not parse server list, code %d\n", code);
exit(1);
}
/* call ServerInit with the values from ParseServerList. Also specify the
* name to use for the database files (/tmp/testdb), and the port (3000)
* for RPC requests. ServerInit returns a pointer to the database (in
* dbase), which is required for creating new transactions */
sprintf(dbfileName, "%s/testdb", gettmpdir());
code =
ubik_ServerInit(myHost, htons(3000), serverList, dbfileName, &dbase);
if (code) {
printf("ubik init failed with code %d\n", code);
exit(1);
}
sc[0] = rxnull_NewServerSecurityObject();
#if 0
sc[1] = rxvab_NewServerSecurityObject("applexx", 0);
#endif
tservice = rx_NewService(0, USER_SERVICE_ID, "Sample", sc, 1 /*2 */ ,
SAMPLE_ExecuteRequest);
if (tservice == (struct rx_service *)0) {
printf("Could not create SAMPLE rx service\n");
exit(3);
}
rx_SetMinProcs(tservice, 2);
rx_SetMaxProcs(tservice, 3);
rx_StartServer(1); /* Why waste this idle process?? */
return 0;
}
int
main(int argc, char **argv)
{
afs_int32 code;
struct rx_securityClass **securityClasses;
afs_int32 numClasses;
struct rx_service *service;
struct ktc_encryptionKey tkey;
int rxpackets = 100;
int rxJumbograms = 0; /* default is to send and receive jumbograms. */
int rxMaxMTU = -1;
int bufSize = 0; /* temp variable to read in udp socket buf size */
afs_uint32 host = ntohl(INADDR_ANY);
char *auditFileName = NULL;
VolumePackageOptions opts;
#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(SIGABRT, &nsa, NULL);
sigaction(SIGSEGV, &nsa, NULL);
#endif
osi_audit_init();
osi_audit(VS_StartEvent, 0, AUD_END);
/* Initialize dirpaths */
if (!(initAFSDirPath() & AFSDIR_SERVER_PATHS_OK)) {
#ifdef AFS_NT40_ENV
ReportErrorEventAlt(AFSEVT_SVR_NO_INSTALL_DIR, 0, argv[0], 0);
#endif
fprintf(stderr, "%s: Unable to obtain AFS server directory.\n",
argv[0]);
exit(2);
}
TTsleep = TTrun = 0;
/* parse cmd line */
for (code = 1; code < argc; code++) {
if (strcmp(argv[code], "-log") == 0) {
/* set extra logging flag */
DoLogging = 1;
} else if (strcmp(argv[code], "-help") == 0) {
goto usage;
} else if (strcmp(argv[code], "-rxbind") == 0) {
rxBind = 1;
} else if (strcmp(argv[code], "-allow-dotted-principals") == 0) {
rxkadDisableDotCheck = 1;
} else if (strcmp(argv[code], "-d") == 0) {
if ((code + 1) >= argc) {
fprintf(stderr, "missing argument for -d\n");
return -1;
}
debuglevel = atoi(argv[++code]);
LogLevel = debuglevel;
} else if (strcmp(argv[code], "-p") == 0) {
lwps = atoi(argv[++code]);
if (lwps > MAXLWP) {
printf("Warning: '-p %d' is too big; using %d instead\n",
lwps, MAXLWP);
lwps = MAXLWP;
}
} else if (strcmp(argv[code], "-auditlog") == 0) {
auditFileName = argv[++code];
} else if (strcmp(argv[code], "-audit-interface") == 0) {
char *interface = argv[++code];
if (osi_audit_interface(interface)) {
printf("Invalid audit interface '%s'\n", interface);
return -1;
}
} else if (strcmp(argv[code], "-nojumbo") == 0) {
rxJumbograms = 0;
} else if (strcmp(argv[code], "-jumbo") == 0) {
rxJumbograms = 1;
} else if (!strcmp(argv[code], "-rxmaxmtu")) {
if ((code + 1) >= argc) {
fprintf(stderr, "missing argument for -rxmaxmtu\n");
exit(1);
}
rxMaxMTU = atoi(argv[++code]);
if ((rxMaxMTU < RX_MIN_PACKET_SIZE) ||
(rxMaxMTU > RX_MAX_PACKET_DATA_SIZE)) {
printf("rxMaxMTU %d invalid; must be between %d-%" AFS_SIZET_FMT "\n",
rxMaxMTU, RX_MIN_PACKET_SIZE,
RX_MAX_PACKET_DATA_SIZE);
exit(1);
}
} else if (strcmp(argv[code], "-sleep") == 0) {
sscanf(argv[++code], "%d/%d", &TTsleep, &TTrun);
if ((TTsleep < 0) || (TTrun <= 0)) {
printf("Warning: '-sleep %d/%d' is incorrect; ignoring\n",
TTsleep, TTrun);
TTsleep = TTrun = 0;
}
} else if (strcmp(argv[code], "-mbpersleep") == 0) {
sscanf(argv[++code], "%d", &MBperSecSleep);
if (MBperSecSleep < 0)
MBperSecSleep = 0;
} else if (strcmp(argv[code], "-udpsize") == 0) {
if ((code + 1) >= argc) {
printf("You have to specify -udpsize <integer value>\n");
exit(1);
}
sscanf(argv[++code], "%d", &bufSize);
if (bufSize < rx_GetMinUdpBufSize())
printf
("Warning:udpsize %d is less than minimum %d; ignoring\n",
bufSize, rx_GetMinUdpBufSize());
else
udpBufSize = bufSize;
} else if (strcmp(argv[code], "-enable_peer_stats") == 0) {
rx_enablePeerRPCStats();
} else if (strcmp(argv[code], "-enable_process_stats") == 0) {
rx_enableProcessRPCStats();
} else if (strcmp(argv[code], "-preserve-vol-stats") == 0) {
DoPreserveVolumeStats = 1;
} else if (strcmp(argv[code], "-sync") == 0) {
if ((code + 1) >= argc) {
printf("You have to specify -sync <sync_behavior>\n");
exit(1);
}
ih_PkgDefaults();
if (ih_SetSyncBehavior(argv[++code])) {
printf("Invalid -sync value %s\n", argv[code]);
exit(1);
}
}
#ifndef AFS_NT40_ENV
else if (strcmp(argv[code], "-syslog") == 0) {
/* set syslog logging flag */
serverLogSyslog = 1;
} else if (strncmp(argv[code], "-syslog=", 8) == 0) {
serverLogSyslog = 1;
serverLogSyslogFacility = atoi(argv[code] + 8);
}
#endif
#ifdef AFS_PTHREAD_ENV
else if (strcmp(argv[code], "-convert") == 0)
convertToOsd = 1;
else if (strcmp(argv[code], "-libafsosd") == 0)
libafsosd = 1;
#endif
else {
printf("volserver: unrecognized flag '%s'\n", argv[code]);
usage:
#ifndef AFS_NT40_ENV
printf("Usage: volserver [-log] [-p <number of processes>] "
"[-auditlog <log path>] [-d <debug level>] "
"[-nojumbo] [-jumbo] [-rxmaxmtu <bytes>] [-rxbind] [-allow-dotted-principals] "
"[-udpsize <size of socket buffer in bytes>] "
"[-syslog[=FACILITY]] -mbpersleep <MB / 1 sec sleep>"
"%s"
"[-enable_peer_stats] [-enable_process_stats] "
"[-sync <always | delayed | onclose | never>] "
#ifdef AFS_PTHREAD_ENV
, libafsosd ? "[-convert] ":"",
#endif
"[-help]\n");
#else
printf("Usage: volserver [-log] [-p <number of processes>] "
"[-auditlog <log path>] [-d <debug level>] "
"[-nojumbo] [-jumbo] [-rxmaxmtu <bytes>] [-rxbind] [-allow-dotted-principals] "
"[-udpsize <size of socket buffer in bytes>] "
"[-enable_peer_stats] [-enable_process_stats] "
"[-sync <always | delayed | onclose | never>] "
"[-help]\n");
#endif
VS_EXIT(1);
}
}
if (auditFileName) {
osi_audit_file(auditFileName);
osi_audit(VS_StartEvent, 0, AUD_END);
}
#ifdef AFS_SGI_VNODE_GLUE
if (afs_init_kernel_config(-1) < 0) {
printf
("Can't determine NUMA configuration, not starting volserver.\n");
exit(1);
}
#endif
InitErrTabs();
#ifdef AFS_PTHREAD_ENV
SetLogThreadNumProgram( threadNum );
#endif
#ifdef AFS_NT40_ENV
if (afs_winsockInit() < 0) {
ReportErrorEventAlt(AFSEVT_SVR_WINSOCK_INIT_FAILED, 0, argv[0], 0);
printf("Volume server unable to start winsock, exiting.\n");
exit(1);
}
#endif
/* Open VolserLog and map stdout, stderr into it; VInitVolumePackage2 can
log, so we need to do this here */
OpenLog(AFSDIR_SERVER_VOLSERLOG_FILEPATH);
VOptDefaults(volumeServer, &opts);
#ifdef AFS_PTHREAD_ENV
if (libafsosd) {
extern struct vol_data_v0 vol_data_v0;
extern struct volser_data_v0 volser_data_v0;
struct init_volser_inputs input = {
&vol_data_v0,
&volser_data_v0
};
struct init_volser_outputs output = {
&osdvol,
&osdvolser
};
code = load_libafsosd("init_volser_afsosd", &input, &output);
if (code) {
ViceLog(0, ("Loading libafsosd.so failed with code %d, aborting\n",
code));
return -1;
}
}
#endif
if (VInitVolumePackage2(volumeServer, &opts)) {
Log("Shutting down: errors encountered initializing volume package\n");
exit(1);
}
/* For nuke() */
Lock_Init(&localLock);
DInit(40);
#ifndef AFS_PTHREAD_ENV
vol_PollProc = IOMGR_Poll; /* tell vol pkg to poll io system periodically */
#endif
#ifndef AFS_NT40_ENV
rxi_syscallp = volser_syscall;
#endif
rx_nPackets = rxpackets; /* set the max number of packets */
if (udpBufSize)
rx_SetUdpBufSize(udpBufSize); /* set the UDP buffer size for receive */
if (rxBind) {
afs_int32 ccode;
if (AFSDIR_SERVER_NETRESTRICT_FILEPATH ||
AFSDIR_SERVER_NETINFO_FILEPATH) {
char reason[1024];
ccode = parseNetFiles(SHostAddrs, NULL, NULL,
ADDRSPERSITE, reason,
AFSDIR_SERVER_NETINFO_FILEPATH,
AFSDIR_SERVER_NETRESTRICT_FILEPATH);
} else
{
ccode = rx_getAllAddr(SHostAddrs, ADDRSPERSITE);
}
if (ccode == 1)
host = SHostAddrs[0];
}
code = rx_InitHost(host, (int)htons(AFSCONF_VOLUMEPORT));
if (code) {
fprintf(stderr, "rx init failed on socket AFSCONF_VOLUMEPORT %u\n",
AFSCONF_VOLUMEPORT);
VS_EXIT(1);
}
if (!rxJumbograms) {
/* Don't allow 3.4 vos clients to send jumbograms and we don't send. */
rx_SetNoJumbo();
}
if (rxMaxMTU != -1) {
rx_SetMaxMTU(rxMaxMTU);
}
rx_GetIFInfo();
#ifndef AFS_PTHREAD_ENV
rx_SetRxDeadTime(420);
#endif
memset(busyFlags, 0, sizeof(busyFlags));
SetupLogSignals();
{
#ifdef AFS_PTHREAD_ENV
pthread_t tid;
pthread_attr_t tattr;
osi_Assert(pthread_attr_init(&tattr) == 0);
osi_Assert(pthread_attr_setdetachstate(&tattr, PTHREAD_CREATE_DETACHED) == 0);
osi_Assert(pthread_create(&tid, &tattr, BKGLoop, NULL) == 0);
#else
PROCESS pid;
LWP_CreateProcess(BKGLoop, 16*1024, 3, 0, "vol bkg daemon", &pid);
LWP_CreateProcess(BKGSleep,16*1024, 3, 0, "vol slp daemon", &pid);
#endif
}
/* Create a single security object, in this case the null security object, for unauthenticated connections, which will be used to control security on connections made to this server */
tdir = afsconf_Open(AFSDIR_SERVER_ETC_DIRPATH);
if (!tdir) {
Abort("volser: could not open conf files in %s\n",
AFSDIR_SERVER_ETC_DIRPATH);
VS_EXIT(1);
}
afsconf_GetKey(tdir, 999, &tkey);
afsconf_BuildServerSecurityObjects(tdir, 0, &securityClasses, &numClasses);
if (securityClasses[0] == NULL)
Abort("rxnull_NewServerSecurityObject");
service =
rx_NewServiceHost(host, 0, VOLSERVICE_ID, "VOLSER", securityClasses,
numClasses, AFSVolExecuteRequest);
if (service == (struct rx_service *)0)
Abort("rx_NewService");
rx_SetBeforeProc(service, MyBeforeProc);
rx_SetAfterProc(service, MyAfterProc);
rx_SetIdleDeadTime(service, 0); /* never timeout */
if (lwps < 4)
lwps = 4;
rx_SetMaxProcs(service, lwps);
#if defined(AFS_XBSD_ENV)
rx_SetStackSize(service, (128 * 1024));
#elif defined(AFS_SGI_ENV)
rx_SetStackSize(service, (48 * 1024));
#else
rx_SetStackSize(service, (32 * 1024));
#endif
if (rxkadDisableDotCheck) {
rx_SetSecurityConfiguration(service, RXS_CONFIG_FLAGS,
(void *)RXS_CONFIG_FLAGS_DISABLE_DOTCHECK);
}
service =
rx_NewService(0, RX_STATS_SERVICE_ID, "rpcstats", securityClasses,
numClasses, RXSTATS_ExecuteRequest);
if (service == (struct rx_service *)0)
Abort("rx_NewService");
rx_SetMinProcs(service, 2);
rx_SetMaxProcs(service, 4);
#ifdef AFS_PTHREAD_ENV
if (libafsosd) {
service =
rx_NewService(0, 7, "afsosd", securityClasses,
numClasses, (osdvolser->op_AFSVOLOSD_ExecuteRequest));
if (!service) {
ViceLog(0, ("Failed to initialize afsosd rpc service.\n"));
exit(-1);
}
rx_SetBeforeProc(service, MyBeforeProc);
rx_SetAfterProc(service, MyAfterProc);
rx_SetIdleDeadTime(service, 0); /* never timeout */
rx_SetMinProcs(service, 2);
if (lwps < 4)
lwps = 4;
rx_SetMaxProcs(service, lwps);
#if defined(AFS_XBSD_ENV)
rx_SetStackSize(service, (128 * 1024));
#elif defined(AFS_SGI_ENV)
rx_SetStackSize(service, (48 * 1024));
#else
rx_SetStackSize(service, (32 * 1024));
#endif
}
#endif /* AFS_PTHREAD_ENV */
LogCommandLine(argc, argv, "Volserver", VolserVersion, "Starting AFS",
Log);
FT_GetTimeOfDay(&statisticStart, 0);
if (afsconf_GetLatestKey(tdir, NULL, NULL) == 0) {
LogDesWarning();
}
if (TTsleep) {
Log("Will sleep %d second%s every %d second%s\n", TTsleep,
(TTsleep > 1) ? "s" : "", TTrun + TTsleep,
(TTrun + TTsleep > 1) ? "s" : "");
}
/* allow super users to manage RX statistics */
/* allow super users to manage RX statistics */
rx_SetRxStatUserOk(vol_rxstat_userok);
rx_StartServer(1); /* Donate this process to the server process pool */
osi_audit(VS_FinishEvent, (-1), AUD_END);
Abort("StartServer returned?");
return 0; /* not reached */
}
int
fsprobe_Init(int a_numServers, struct sockaddr_in *a_socketArray,
int a_ProbeFreqInSecs, int (*a_ProbeHandler)(void),
int a_debug)
{ /*fsprobe_Init */
static char rn[] = "fsprobe_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 fsprobe_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 */
/*
* If we've already been called, snicker at the bozo, gently
* remind him of his doubtful heritage, and return success.
*/
if (fsprobe_initflag) {
fprintf(stderr, "[%s] Called multiple times!\n", rn);
return (0);
} else
fsprobe_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);
arg_errfound = 1;
}
if (a_socketArray == (struct sockaddr_in *)0) {
fprintf(stderr, "[%s] Null server socket array argument\n", rn);
arg_errfound = 1;
}
if (a_ProbeFreqInSecs <= 0) {
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);
arg_errfound = 1;
}
if (arg_errfound)
return (-1);
/*
* Record our passed-in info.
*/
fsprobe_debug = a_debug;
fsprobe_numServers = a_numServers;
fsprobe_Handler = a_ProbeHandler;
fsprobe_ProbeFreqInSecs = a_ProbeFreqInSecs;
/*
* Get ready in case we have to do a cleanup - basically, zero
* everything out.
*/
fsprobe_CleanupInit();
/*
* Allocate the necessary data structures and initialize everything
* else.
*/
fsprobe_ConnInfo = (struct fsprobe_ConnectionInfo *)
malloc(a_numServers * sizeof(struct fsprobe_ConnectionInfo));
if (fsprobe_ConnInfo == (struct fsprobe_ConnectionInfo *)0) {
fprintf(stderr,
"[%s] Can't allocate %d connection info structs (%"AFS_SIZET_FMT" bytes)\n",
rn, a_numServers,
(a_numServers * sizeof(struct fsprobe_ConnectionInfo)));
return (-1); /*No cleanup needs to be done yet */
}
#if 0
else
fprintf(stderr, "[%s] fsprobe_ConnInfo allocated (%d bytes)\n", rn,
a_numServers * sizeof(struct fsprobe_ConnectionInfo));
#endif /* 0 */
fsprobe_statsBytes = a_numServers * sizeof(struct ProbeViceStatistics);
fsprobe_Results.stats = (struct ProbeViceStatistics *)
malloc(fsprobe_statsBytes);
if (fsprobe_Results.stats == NULL) {
fprintf(stderr,
"[%s] Can't allocate %d statistics structs (%d bytes)\n", rn,
a_numServers, fsprobe_statsBytes);
fsprobe_Cleanup(1); /*Delete already-malloc'ed areas */
return (-1);
} else if (fsprobe_debug)
fprintf(stderr, "[%s] fsprobe_Results.stats allocated (%d bytes)\n",
rn, fsprobe_statsBytes);
fsprobe_probeOKBytes = a_numServers * sizeof(int);
fsprobe_Results.probeOK = (int *)malloc(fsprobe_probeOKBytes);
if (fsprobe_Results.probeOK == (int *)0) {
fprintf(stderr,
"[%s] Can't allocate %d probeOK array entries (%d bytes)\n",
rn, a_numServers, fsprobe_probeOKBytes);
fsprobe_Cleanup(1); /*Delete already-malloc'ed areas */
return (-1);
} else if (fsprobe_debug)
fprintf(stderr, "[%s] fsprobe_Results.probeOK allocated (%d bytes)\n",
rn, fsprobe_probeOKBytes);
fsprobe_Results.probeNum = 0;
fsprobe_Results.probeTime = 0;
memset(fsprobe_Results.stats, 0,
(a_numServers * sizeof(struct ProbeViceStatistics)));
/*
* Initialize the Rx subsystem, just in case nobody's done it.
*/
if (fsprobe_debug)
fprintf(stderr, "[%s] Initializing Rx\n", rn);
PortToUse = FSPROBE_CBPORT;
do {
code = rx_Init(htons(PortToUse));
if (code) {
if (code == RX_ADDRINUSE) {
if (fsprobe_debug)
fprintf(stderr,
"[%s] Callback port %d in use, advancing\n", rn,
PortToUse);
PortToUse++;
} else {
fprintf(stderr, "[%s] Fatal error in rx_Init()\n", rn);
return (-1);
}
}
} while (code);
if (fsprobe_debug)
fprintf(stderr, "[%s] Rx initialized on port %d\n", rn, PortToUse);
/*
* Create a null Rx server security object, to be used by the
* Callback listener.
*/
CBsecobj = rxnull_NewServerSecurityObject();
if (CBsecobj == (struct rx_securityClass *)0) {
fprintf(stderr,
"[%s] Can't create null security object for the callback listener.\n",
rn);
fsprobe_Cleanup(1); /*Delete already-malloc'ed areas */
return (-1);
}
if (fsprobe_debug)
fprintf(stderr, "[%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 client security object for probe LWP.\n",
rn);
fsprobe_Cleanup(1); /*Delete already-malloc'ed areas */
return (-1);
}
if (fsprobe_debug)
fprintf(stderr, "[%s] Probe LWP client security object created\n",
rn);
curr_conn = fsprobe_ConnInfo;
conn_err = 0;
for (curr_srv = 0; curr_srv < a_numServers; curr_srv++) {
/*
* Copy in the socket info for the current server, resolve its
* printable name if possible.
*/
if (fsprobe_debug) {
fprintf(stderr, "[%s] Copying in the following socket info:\n",
rn);
fprintf(stderr, "[%s] IP addr 0x%x, 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));
hostNameFound =
hostutil_GetNameByINet(curr_conn->skt.sin_addr.s_addr);
if (hostNameFound == NULL) {
fprintf(stderr,
"[%s] Can't map Internet address %u to a string name\n",
rn, curr_conn->skt.sin_addr.s_addr);
curr_conn->hostName[0] = '\0';
} else {
strcpy(curr_conn->hostName, hostNameFound);
if (fsprobe_debug)
fprintf(stderr, "[%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 (fsprobe_debug)
fprintf(stderr,
"[%s] Connecting to srv idx %d, IP addr 0x%x, 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 num */
secobj, /*Security object */
0); /*Number of above */
if (curr_conn->rxconn == (struct rx_connection *)0) {
fprintf(stderr,
"[%s] Can't create Rx connection to server %s (%u)\n",
rn, curr_conn->hostName, curr_conn->skt.sin_addr.s_addr);
conn_err = 1;
}
if (fsprobe_debug)
fprintf(stderr, "[%s] New connection at %p\n", rn,
curr_conn->rxconn);
/*
* Make an Rx connection to the current volume server.
*/
if (fsprobe_debug)
fprintf(stderr,
"[%s] Connecting to srv idx %d, IP addr 0x%x, port %d, service 1\n",
rn, curr_srv, curr_conn->skt.sin_addr.s_addr,
htons(7005));
curr_conn->rxVolconn = rx_NewConnection(curr_conn->skt.sin_addr.s_addr, /*Server addr */
htons(AFSCONF_VOLUMEPORT), /*Volume Server port */
VOLSERVICE_ID, /*AFS service num */
secobj, /*Security object */
0); /*Number of above */
if (curr_conn->rxVolconn == (struct rx_connection *)0) {
fprintf(stderr,
"[%s] Can't create Rx connection to volume server %s (%u)\n",
rn, curr_conn->hostName, curr_conn->skt.sin_addr.s_addr);
conn_err = 1;
} else {
int i, cnt;
memset(&curr_conn->partList, 0, sizeof(struct partList));
curr_conn->partCnt = 0;
i = XListPartitions(curr_conn->rxVolconn, &curr_conn->partList,
&cnt);
if (!i) {
curr_conn->partCnt = cnt;
}
}
if (fsprobe_debug)
fprintf(stderr, "[%s] New connection at %p\n", rn,
curr_conn->rxVolconn);
/*
* Bump the current fsprobe connection to set up.
*/
curr_conn++;
} /*for curr_srv */
/*
* Create the AFS callback service (listener).
*/
if (fsprobe_debug)
fprintf(stderr, "[%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, /*Number of security objects */
RXAFSCB_ExecuteRequest); /*Dispatcher */
if (rxsrv_afsserver == (struct rx_service *)0) {
fprintf(stderr, "[%s] Can't create callback Rx service/listener\n",
rn);
fsprobe_Cleanup(1); /*Delete already-malloc'ed areas */
return (-1);
}
if (fsprobe_debug)
fprintf(stderr, "[%s] Callback listener created\n", rn);
/*
* Start up the AFS callback service.
*/
if (fsprobe_debug)
fprintf(stderr, "[%s] Starting up callback listener.\n", rn);
rx_StartServer(0 /*Don't donate yourself to LWP pool */ );
/*
* Start up the probe LWP.
*/
if (fsprobe_debug)
fprintf(stderr, "[%s] Creating the probe LWP\n", rn);
code = LWP_CreateProcess(fsprobe_LWP, /*Function to start up */
LWP_STACK_SIZE, /*Stack size in bytes */
1, /*Priority */
(void *)0, /*Parameters */
"fsprobe Worker", /*Name to use */
&probeLWP_ID); /*Returned LWP process ID */
if (code) {
fprintf(stderr, "[%s] Can't create fsprobe LWP! Error is %d\n", rn,
code);
fsprobe_Cleanup(1); /*Delete already-malloc'ed areas */
return (code);
}
if (fsprobe_debug)
fprintf(stderr, "[%s] Probe LWP process structure located at %p\n",
rn, probeLWP_ID);
#if 0
/*
* Do I need to do this?
*/
if (fsprobe_debug)
fprintf(stderr, "[%s] Calling osi_Wakeup()\n", rn);
osi_Wakeup(&rxsrv_afsserver); /*Wake up anyone waiting for it */
#endif /* 0 */
/*
* Return the final results.
*/
if (conn_err)
return (-2);
else
return (0);
} /*fsprobe_Init */
int
xstat_fs_Init(int a_numServers, struct sockaddr_in *a_socketArray,
int a_ProbeFreqInSecs, int (*a_ProbeHandler) (void), int a_flags,
int a_numCollections, afs_int32 * a_collIDP)
{
static char rn[] = "xstat_fs_Init"; /*Routine name */
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 collIDBytes; /*Num bytes in coll ID array */
char hoststr[16];
/*
* If we've already been called, snicker at the bozo, gently
* remind him of his doubtful heritage, and return success.
*/
if (xstat_fs_initflag) {
fprintf(stderr, "[%s] Called multiple times!\n", rn);
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);
arg_errfound = 1;
}
if (a_socketArray == (struct sockaddr_in *)0) {
fprintf(stderr, "[%s] Null server socket array argument\n", rn);
arg_errfound = 1;
}
if (a_ProbeFreqInSecs <= 0) {
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);
arg_errfound = 1;
}
if (a_numCollections <= 0) {
fprintf(stderr, "[%s] Illegal collection count argument: %d\n", rn,
a_numServers);
arg_errfound = 1;
}
if (a_collIDP == NULL) {
fprintf(stderr, "[%s] Null collection ID array argument\n", rn);
arg_errfound = 1;
}
if (arg_errfound)
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_ProbeFreqInSecs = a_ProbeFreqInSecs;
xstat_fs_numCollections = a_numCollections;
collIDBytes = xstat_fs_numCollections * sizeof(afs_int32);
xstat_fs_collIDP = malloc(collIDBytes);
memcpy(xstat_fs_collIDP, a_collIDP, collIDBytes);
if (xstat_fs_debug) {
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("\n");
}
/*
* Get ready in case we have to do a cleanup - basically, zero
* everything out.
*/
code = xstat_fs_CleanupInit();
if (code)
return (code);
/*
* Allocate the necessary data structures and initialize everything
* else.
*/
xstat_fs_ConnInfo = 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 (%" AFS_SIZET_FMT " bytes)\n",
rn, a_numServers,
(a_numServers * sizeof(struct xstat_fs_ConnectionInfo)));
return (-1); /*No cleanup needs to be done yet */
}
/*
* Initialize the Rx subsystem, just in case nobody's done it.
*/
if (xstat_fs_debug)
printf("[%s] Initializing Rx\n", rn);
code = rx_Init(0);
if (code) {
fprintf(stderr, "[%s] Fatal error in rx_Init()\n", rn);
return (-1);
}
if (xstat_fs_debug)
printf("[%s] Rx initialized\n", rn);
/*
* Create a null Rx server security object, to be used by the
* Callback listener.
*/
CBsecobj = (struct rx_securityClass *)
rxnull_NewServerSecurityObject();
if (CBsecobj == (struct rx_securityClass *)0) {
fprintf(stderr,
"[%s] Can't create callback listener's security object.\n",
rn);
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);
}
if (xstat_fs_debug)
printf("[%s] Probe LWP client security object created\n", rn);
curr_conn = xstat_fs_ConnInfo;
conn_err = 0;
for (curr_srv = 0; curr_srv < a_numServers; curr_srv++) {
/*
* Copy in the socket info for the current server, resolve its
* printable name if possible.
*/
if (xstat_fs_debug) {
char hoststr[16];
printf("[%s] Copying in the following socket info:\n", rn);
printf("[%s] IP addr %s, port %d\n", rn,
afs_inet_ntoa_r((a_socketArray + curr_srv)->sin_addr.s_addr,hoststr),
ntohs((a_socketArray + curr_srv)->sin_port));
}
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) {
fprintf(stderr,
"[%s] Can't map Internet address %s to a string name\n",
rn, afs_inet_ntoa_r(curr_conn->skt.sin_addr.s_addr,hoststr));
curr_conn->hostName[0] = '\0';
} 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);
}
/*
* Make an Rx connection to the current server.
*/
if (xstat_fs_debug)
printf
("[%s] Connecting to srv idx %d, IP addr %s, port %d, service 1\n",
rn, curr_srv, afs_inet_ntoa_r(curr_conn->skt.sin_addr.s_addr,hoststr),
ntohs(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' (%s)\n",
rn, curr_conn->hostName, afs_inet_ntoa_r(curr_conn->skt.sin_addr.s_addr,hoststr));
conn_err = 1;
}
if (xstat_fs_debug)
printf("[%s] New connection at %" AFS_PTR_FMT "\n", rn, curr_conn->rxconn);
/*
* Bump the current xstat_fs connection to set up.
*/
curr_conn++;
} /*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 */
if (rxsrv_afsserver == (struct rx_service *)0) {
fprintf(stderr, "[%s] Can't create callback Rx service/listener\n",
rn);
xstat_fs_Cleanup(1); /*Delete already-malloc'ed areas */
return (-1);
}
if (xstat_fs_debug)
printf("[%s] Callback listener created\n", rn);
/*
* Start up the AFS callback service.
*/
if (xstat_fs_debug)
printf("[%s] Starting up callback listener.\n", rn);
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 */
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);
}
if (xstat_fs_debug)
printf("[%s] Probe LWP process structure located at %" AFS_PTR_FMT "\n", rn,
probeLWP_ID);
/*
* Return the final results.
*/
if (conn_err)
return (-2);
else
return (0);
}
void
afspag_Init(afs_int32 nfs_server_addr)
{
struct clientcred ccred;
struct rmtbulk idata, odata;
afs_int32 code, err, addr, obuf;
int i;
afs_uuid_create(&afs_cb_interface.uuid);
AFS_GLOCK();
afs_InitStats();
rx_Init(htons(7001));
AFS_STATCNT(afs_ResourceInit);
AFS_RWLOCK_INIT(&afs_xuser, "afs_xuser");
AFS_RWLOCK_INIT(&afs_xpagcell, "afs_xpagcell");
AFS_RWLOCK_INIT(&afs_xpagsys, "afs_xpagsys");
AFS_RWLOCK_INIT(&afs_icl_lock, "afs_icl_lock");
afs_resourceinit_flag = 1;
afs_nfs_server_addr = nfs_server_addr;
for (i = 0; i < MAXNUMSYSNAMES; i++) {
afs_sysnamelist[i] = afs_osi_Alloc(MAXSYSNAME);
osi_Assert(afs_sysnamelist[i] != NULL);
}
afs_sysname = afs_sysnamelist[0];
strcpy(afs_sysname, SYS_NAME);
afs_sysnamecount = 1;
afs_sysnamegen++;
srv_secobj = rxnull_NewServerSecurityObject();
stats_svc = rx_NewService(0, RX_STATS_SERVICE_ID, "rpcstats", &srv_secobj,
1, RXSTATS_ExecuteRequest);
pagcb_svc = rx_NewService(0, PAGCB_SERVICEID, "pagcb", &srv_secobj,
1, PAGCB_ExecuteRequest);
rx_StartServer(0);
clt_secobj = rxnull_NewClientSecurityObject();
rmtsys_conn = rx_NewConnection(nfs_server_addr, htons(7009),
RMTSYS_SERVICEID, clt_secobj, 0);
#ifdef RXK_LISTENER_ENV
afs_start_thread(rxk_Listener, "Rx Listener");
#endif
afs_start_thread((void *)(void *)rx_ServerProc, "Rx Server Thread");
afs_start_thread(afs_rxevent_daemon, "Rx Event Daemon");
afs_start_thread(afs_Daemon, "AFS PAG Daemon");
afs_icl_InitLogs();
AFS_GUNLOCK();
/* If it's reachable, tell the translator to nuke our creds.
* We should be more agressive about making sure this gets done,
* even if the translator is unreachable when we boot.
*/
addr = obuf = err = 0;
idata.rmtbulk_len = sizeof(addr);
idata.rmtbulk_val = (char *)&addr;
odata.rmtbulk_len = sizeof(obuf);
odata.rmtbulk_val = (char *)&obuf;
memset(&ccred, 0, sizeof(ccred));
code = RMTSYS_Pioctl(rmtsys_conn, &ccred, NIL_PATHP, 0x4F01, 0,
&idata, &odata, &err);
} /*afs_ResourceInit */
int
main(int argc, char **argv)
{
afs_int32 code;
struct rx_securityClass **securityClasses;
afs_int32 numClasses;
struct rx_service *service;
int rxpackets = 100;
char hoststr[16];
afs_uint32 host = ntohl(INADDR_ANY);
VolumePackageOptions opts;
#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(SIGABRT, &nsa, NULL);
sigaction(SIGSEGV, &nsa, NULL);
#endif
osi_audit_init();
osi_audit(VS_StartEvent, 0, AUD_END);
/* Initialize dirpaths */
if (!(initAFSDirPath() & AFSDIR_SERVER_PATHS_OK)) {
#ifdef AFS_NT40_ENV
ReportErrorEventAlt(AFSEVT_SVR_NO_INSTALL_DIR, 0, argv[0], 0);
#endif
fprintf(stderr, "%s: Unable to obtain AFS server directory.\n",
argv[0]);
exit(2);
}
configDir = strdup(AFSDIR_SERVER_ETC_DIRPATH);
if (ParseArgs(argc, argv)) {
exit(1);
}
if (auditFileName) {
osi_audit_file(auditFileName);
osi_audit(VS_StartEvent, 0, AUD_END);
}
#ifdef AFS_SGI_VNODE_GLUE
if (afs_init_kernel_config(-1) < 0) {
printf
("Can't determine NUMA configuration, not starting volserver.\n");
exit(1);
}
#endif
InitErrTabs();
#ifdef AFS_PTHREAD_ENV
SetLogThreadNumProgram( rx_GetThreadNum );
#endif
#ifdef AFS_NT40_ENV
if (afs_winsockInit() < 0) {
ReportErrorEventAlt(AFSEVT_SVR_WINSOCK_INIT_FAILED, 0, argv[0], 0);
printf("Volume server unable to start winsock, exiting.\n");
exit(1);
}
#endif
OpenLog(&logopts);
VOptDefaults(volumeServer, &opts);
if (VInitVolumePackage2(volumeServer, &opts)) {
Log("Shutting down: errors encountered initializing volume package\n");
exit(1);
}
/* For nuke() */
Lock_Init(&localLock);
DInit(40);
#ifndef AFS_PTHREAD_ENV
vol_PollProc = IOMGR_Poll; /* tell vol pkg to poll io system periodically */
#endif
#if !defined( AFS_NT40_ENV ) && !defined(AFS_DARWIN160_ENV)
rxi_syscallp = volser_syscall;
#endif
rx_nPackets = rxpackets; /* set the max number of packets */
if (udpBufSize)
rx_SetUdpBufSize(udpBufSize); /* set the UDP buffer size for receive */
if (rxBind) {
afs_int32 ccode;
if (AFSDIR_SERVER_NETRESTRICT_FILEPATH ||
AFSDIR_SERVER_NETINFO_FILEPATH) {
char reason[1024];
ccode = afsconf_ParseNetFiles(SHostAddrs, NULL, NULL,
ADDRSPERSITE, reason,
AFSDIR_SERVER_NETINFO_FILEPATH,
AFSDIR_SERVER_NETRESTRICT_FILEPATH);
} else
{
ccode = rx_getAllAddr(SHostAddrs, ADDRSPERSITE);
}
if (ccode == 1)
host = SHostAddrs[0];
}
Log("Volserver binding rx to %s:%d\n",
afs_inet_ntoa_r(host, hoststr), AFSCONF_VOLUMEPORT);
code = rx_InitHost(host, (int)htons(AFSCONF_VOLUMEPORT));
if (code) {
fprintf(stderr, "rx init failed on socket AFSCONF_VOLUMEPORT %u\n",
AFSCONF_VOLUMEPORT);
VS_EXIT(1);
}
if (!rxJumbograms) {
/* Don't allow 3.4 vos clients to send jumbograms and we don't send. */
rx_SetNoJumbo();
}
if (rxMaxMTU != -1) {
if (rx_SetMaxMTU(rxMaxMTU) != 0) {
fprintf(stderr, "rxMaxMTU %d is invalid\n", rxMaxMTU);
VS_EXIT(1);
}
}
rx_GetIFInfo();
rx_SetRxDeadTime(420);
memset(busyFlags, 0, sizeof(busyFlags));
#ifdef AFS_PTHREAD_ENV
opr_softsig_Init();
SetupLogSoftSignals();
#else
SetupLogSignals();
#endif
{
#ifdef AFS_PTHREAD_ENV
pthread_t tid;
pthread_attr_t tattr;
opr_Verify(pthread_attr_init(&tattr) == 0);
opr_Verify(pthread_attr_setdetachstate(&tattr,
PTHREAD_CREATE_DETACHED) == 0);
opr_Verify(pthread_create(&tid, &tattr, BKGLoop, NULL) == 0);
#else
PROCESS pid;
LWP_CreateProcess(BKGLoop, 16*1024, 3, 0, "vol bkg daemon", &pid);
#endif
}
/* Create a single security object, in this case the null security object, for unauthenticated connections, which will be used to control security on connections made to this server */
tdir = afsconf_Open(configDir);
if (!tdir) {
Abort("volser: could not open conf files in %s\n",
configDir);
AFS_UNREACHED(VS_EXIT(1));
}
/* initialize audit user check */
osi_audit_set_user_check(tdir, vol_IsLocalRealmMatch);
afsconf_BuildServerSecurityObjects(tdir, &securityClasses, &numClasses);
if (securityClasses[0] == NULL)
Abort("rxnull_NewServerSecurityObject");
service =
rx_NewServiceHost(host, 0, VOLSERVICE_ID, "VOLSER", securityClasses,
numClasses, AFSVolExecuteRequest);
if (service == (struct rx_service *)0)
Abort("rx_NewService");
rx_SetBeforeProc(service, MyBeforeProc);
rx_SetAfterProc(service, MyAfterProc);
rx_SetIdleDeadTime(service, 0); /* never timeout */
if (lwps < 4)
lwps = 4;
rx_SetMaxProcs(service, lwps);
#if defined(AFS_XBSD_ENV)
rx_SetStackSize(service, (128 * 1024));
#elif defined(AFS_SGI_ENV)
rx_SetStackSize(service, (48 * 1024));
#else
rx_SetStackSize(service, (32 * 1024));
#endif
if (rxkadDisableDotCheck) {
code = rx_SetSecurityConfiguration(service, RXS_CONFIG_FLAGS,
(void *)RXS_CONFIG_FLAGS_DISABLE_DOTCHECK);
if (code) {
fprintf(stderr,
"volser: failed to allow dotted principals: code %d\n",
code);
VS_EXIT(1);
}
}
service =
rx_NewService(0, RX_STATS_SERVICE_ID, "rpcstats", securityClasses,
numClasses, RXSTATS_ExecuteRequest);
if (service == (struct rx_service *)0)
Abort("rx_NewService");
rx_SetMinProcs(service, 2);
rx_SetMaxProcs(service, 4);
LogCommandLine(argc, argv, "Volserver", VolserVersion, "Starting AFS",
Log);
if (afsconf_GetLatestKey(tdir, NULL, NULL) == 0) {
LogDesWarning();
}
/* allow super users to manage RX statistics */
rx_SetRxStatUserOk(vol_rxstat_userok);
rx_StartServer(1); /* Donate this process to the server process pool */
osi_audit(VS_FinishEvent, (-1), AUD_END);
Abort("StartServer returned?");
AFS_UNREACHED(return 0);
}
