int
Afs_syscall(struct afsargs *uap, rval_t * rvp)
{
int error;
long retval;
AFS_STATCNT(afs_syscall);
switch (uap->syscall) {
case AFSCALL_ICL:
retval = 0;
AFS_GLOCK();
error =
Afscall_icl(uap->parm1, uap->parm2, uap->parm3, uap->parm4,
uap->parm5, &retval);
AFS_GUNLOCK();
rvp->r_val1 = retval;
break;
#ifdef AFS_SGI_XFS_IOPS_ENV
case AFSCALL_IDEC64:
error =
afs_syscall_idec64(uap->parm1, uap->parm2, uap->parm3, uap->parm4,
uap->parm5);
break;
case AFSCALL_IINC64:
error =
afs_syscall_iinc64(uap->parm1, uap->parm2, uap->parm3, uap->parm4,
uap->parm5);
break;
case AFSCALL_ILISTINODE64:
error =
afs_syscall_ilistinode64(uap->parm1, uap->parm2, uap->parm3,
uap->parm4, uap->parm5);
break;
case AFSCALL_ICREATENAME64:
error =
afs_syscall_icreatename64(uap->parm1, uap->parm2, uap->parm3,
uap->parm4, uap->parm5);
break;
#endif
#ifdef AFS_SGI_VNODE_GLUE
case AFSCALL_INIT_KERNEL_CONFIG:
error = afs_init_kernel_config(uap->parm1);
break;
#endif
default:
error =
afs_syscall_call(uap->syscall, uap->parm1, uap->parm2, uap->parm3,
uap->parm4, uap->parm5);
}
return error;
}
static int
handleit(struct cmd_syndesc *as, void *arock)
{
struct CmdLine *cmdline = (struct CmdLine*)arock;
struct cmd_item *ti;
char pname[100], *temp;
afs_int32 seenpart = 0, seenvol = 0;
VolumeId vid = 0;
ProgramType pt;
#ifdef FAST_RESTART
afs_int32 seenany = 0;
#endif
char *filename = NULL;
struct logOptions logopts;
VolumePackageOptions opts;
struct DiskPartition64 *partP;
memset(&logopts, 0, sizeof(logopts));
#ifdef AFS_SGI_VNODE_GLUE
if (afs_init_kernel_config(-1) < 0) {
printf
("Can't determine NUMA configuration, not starting salvager.\n");
exit(1);
}
#endif
#ifdef FAST_RESTART
{
afs_int32 i;
for (i = 0; i < CMD_MAXPARMS; i++) {
if (as->parms[i].items) {
seenany = 1;
break;
}
}
}
if (!seenany) {
printf
("Exiting immediately without salvage. "
"Look into the FileLog to find volumes which really need to be salvaged!\n");
Exit(0);
}
#endif /* FAST_RESTART */
if ((ti = as->parms[0].items)) { /* -partition */
seenpart = 1;
strncpy(pname, ti->data, 100);
}
if ((ti = as->parms[1].items)) { /* -volumeid */
char *end;
unsigned long vid_l;
if (!seenpart) {
printf
("You must also specify '-partition' option with the '-volumeid' option\n");
exit(-1);
}
seenvol = 1;
vid_l = strtoul(ti->data, &end, 10);
if (vid_l >= MAX_AFS_UINT32 || vid_l == ULONG_MAX || *end != '\0') {
Log("salvage: invalid volume id specified; salvage aborted\n");
Exit(1);
}
vid = (VolumeId)vid_l;
}
if (as->parms[2].items) /* -debug */
debug = 1;
if (as->parms[3].items) /* -nowrite */
Testing = 1;
if (as->parms[4].items) /* -inodes */
ListInodeOption = 1;
if (as->parms[5].items || as->parms[21].items) /* -force, -f */
ForceSalvage = 1;
if (as->parms[6].items) /* -oktozap */
OKToZap = 1;
if (as->parms[7].items) /* -rootinodes */
ShowRootFiles = 1;
if (as->parms[8].items) /* -RebuildDirs */
RebuildDirs = 1;
if (as->parms[9].items) /* -ForceReads */
forceR = 1;
if ((ti = as->parms[10].items)) { /* -Parallel # */
temp = ti->data;
if (strncmp(temp, "all", 3) == 0) {
PartsPerDisk = 1;
temp += 3;
}
if (strlen(temp) != 0) {
Parallel = atoi(temp);
if (Parallel < 1)
Parallel = 1;
if (Parallel > MAXPARALLEL) {
printf("Setting parallel salvages to maximum of %d \n",
MAXPARALLEL);
Parallel = MAXPARALLEL;
}
}
}
if ((ti = as->parms[11].items)) { /* -tmpdir */
DIR *dirp;
tmpdir = ti->data;
dirp = opendir(tmpdir);
if (!dirp) {
printf
("Can't open temporary placeholder dir %s; using current partition \n",
tmpdir);
tmpdir = NULL;
} else
closedir(dirp);
}
if ((ti = as->parms[12].items)) /* -showlog */
ShowLog = 1;
if ((ti = as->parms[13].items)) { /* -showsuid */
Testing = 1;
ShowSuid = 1;
Showmode = 1;
}
if ((ti = as->parms[14].items)) { /* -showmounts */
Testing = 1;
Showmode = 1;
ShowMounts = 1;
}
if ((ti = as->parms[15].items)) { /* -orphans */
if (Testing)
orphans = ORPH_IGNORE;
else if (strcmp(ti->data, "remove") == 0
|| strcmp(ti->data, "r") == 0)
orphans = ORPH_REMOVE;
else if (strcmp(ti->data, "attach") == 0
|| strcmp(ti->data, "a") == 0)
orphans = ORPH_ATTACH;
}
if ((ti = as->parms[16].items)) { /* -syslog */
if (ShowLog) {
fprintf(stderr, "Invalid options: -syslog and -showlog are exclusive.\n");
Exit(1);
}
if ((ti = as->parms[18].items)) { /* -datelogs */
fprintf(stderr, "Invalid option: -syslog and -datelogs are exclusive.\n");
Exit(1);
}
#ifndef HAVE_SYSLOG
/* Do not silently ignore. */
fprintf(stderr, "Invalid option: -syslog is not available on this platform.\n");
Exit(1);
#else
logopts.lopt_dest = logDest_syslog;
logopts.lopt_tag = "salvager";
if ((ti = as->parms[17].items)) /* -syslogfacility */
logopts.lopt_facility = atoi(ti->data);
else
logopts.lopt_facility = LOG_DAEMON; /* default value */
#endif
} else {
logopts.lopt_dest = logDest_file;
if ((ti = as->parms[18].items)) { /* -datelogs */
int code = TimeStampLogFile(&filename);
if (code != 0) {
fprintf(stderr, "Failed to format log file name for -datelogs; code=%d\n", code);
Exit(code);
}
logopts.lopt_filename = filename;
} else {
logopts.lopt_filename = AFSDIR_SERVER_SLVGLOG_FILEPATH;
}
}
OpenLog(&logopts);
SetupLogSignals();
free(filename); /* Free string created by -datelogs, if one. */
Log("%s\n", cml_version_number);
LogCommandLine(cmdline->argc, cmdline->argv, "SALVAGER", SalvageVersion, "STARTING AFS", Log);
#ifdef FAST_RESTART
if (ti = as->parms[19].items) { /* -DontSalvage */
char *msg =
"Exiting immediately without salvage. Look into the FileLog to find volumes which really need to be salvaged!";
Log("%s\n", msg);
printf("%s\n", msg);
Exit(0);
}
#endif
/* Note: if seenvol we initialize this as a standard volume utility: this has the
* implication that the file server may be running; negotations have to be made with
* the file server in this case to take the read write volume and associated read-only
* volumes off line before salvaging */
#ifdef AFS_NT40_ENV
if (seenvol) {
if (afs_winsockInit() < 0) {
ReportErrorEventAlt(AFSEVT_SVR_WINSOCK_INIT_FAILED, 0,
AFSDIR_SALVAGER_FILE, 0);
Log("Failed to initailize winsock, exiting.\n");
Exit(1);
}
}
#endif
if (seenvol) {
pt = volumeSalvager;
} else {
pt = salvager;
}
VOptDefaults(pt, &opts);
if (VInitVolumePackage2(pt, &opts)) {
Log("errors encountered initializing volume package; salvage aborted\n");
Exit(1);
}
/* defer lock until we init volume package */
if (get_salvage_lock) {
if (seenvol && AskDAFS()) /* support forceDAFS */
ObtainSharedSalvageLock();
else
ObtainSalvageLock();
}
/*
* Ok to defer this as Exit will clean up and no real work is done
* init'ing volume package
*/
if (seenvol) {
char *msg = NULL;
#ifdef AFS_DEMAND_ATTACH_FS
if (!AskDAFS()) {
msg =
"The DAFS dasalvager cannot be run with a non-DAFS fileserver. Please use 'salvager'.";
}
if (!msg && !as->parms[20].items) {
msg =
"The standalone salvager cannot be run concurrently with a Demand Attach Fileserver. Please use 'salvageserver -client <partition> <volume id>' to manually schedule volume salvages with the salvageserver (new versions of 'bos salvage' automatically do this for you). Or, if you insist on using the standalone salvager, add the -forceDAFS flag to your salvager command line.";
}
#else
if (AskDAFS()) {
msg =
"The non-DAFS salvager cannot be run with a Demand Attach Fileserver. Please use 'salvageserver -client <partition> <volume id>' to manually schedule volume salvages with the salvageserver (new versions of 'bos salvage' automatically do this for you). Or, if you insist on using the standalone salvager, run dasalvager with the -forceDAFS flag.";
}
#endif
if (msg) {
Log("%s\n", msg);
printf("%s\n", msg);
Exit(1);
}
}
DInit(10);
#ifdef AFS_NT40_ENV
if (myjob.cj_number != NOT_CHILD) {
if (!seenpart) {
seenpart = 1;
(void)strcpy(pname, myjob.cj_part);
}
}
#endif
if (seenpart == 0) {
for (partP = DiskPartitionList; partP; partP = partP->next) {
SalvageFileSysParallel(partP);
}
SalvageFileSysParallel(0);
} else {
partP = VGetPartition(pname, 0);
if (!partP) {
Log("salvage: Unknown or unmounted partition %s; salvage aborted\n", pname);
Exit(1);
}
if (!seenvol)
SalvageFileSys(partP, 0);
else {
/* Salvage individual volume */
SalvageFileSys(partP, vid);
}
}
return (0);
}
static int
handleit(struct cmd_syndesc *as, void *arock)
{
register struct cmd_item *ti;
char pname[100], *temp;
afs_int32 seenpart = 0, seenvol = 0, vid = 0;
#ifdef AFS_SGI_VNODE_GLUE
if (afs_init_kernel_config(-1) < 0) {
printf
("Can't determine NUMA configuration, not starting salvager.\n");
exit(1);
}
#endif
if (as->parms[2].items) /* -debug */
debug = 1;
if (as->parms[3].items) /* -nowrite */
Testing = 1;
if (as->parms[4].items) /* -inodes */
ListInodeOption = 1;
if (as->parms[5].items) /* -oktozap */
OKToZap = 1;
if (as->parms[6].items) /* -rootinodes */
ShowRootFiles = 1;
if (as->parms[8].items) /* -ForceReads */
forceR = 1;
if ((ti = as->parms[9].items)) { /* -Parallel # */
temp = ti->data;
if (strncmp(temp, "all", 3) == 0) {
PartsPerDisk = 1;
temp += 3;
}
if (strlen(temp) != 0) {
Parallel = atoi(temp);
if (Parallel < 1)
Parallel = 1;
if (Parallel > MAXPARALLEL) {
printf("Setting parallel salvages to maximum of %d \n",
MAXPARALLEL);
Parallel = MAXPARALLEL;
}
}
} else {
Parallel = MIN(DEFAULT_PARALLELISM, MAXPARALLEL);
}
if ((ti = as->parms[10].items)) { /* -tmpdir */
DIR *dirp;
tmpdir = ti->data;
dirp = opendir(tmpdir);
if (!dirp) {
printf
("Can't open temporary placeholder dir %s; using current partition \n",
tmpdir);
tmpdir = NULL;
} else
closedir(dirp);
}
if ((ti = as->parms[11].items)) /* -showlog */
ShowLog = 1;
if ((ti = as->parms[12].items)) { /* -orphans */
if (Testing)
orphans = ORPH_IGNORE;
else if (strcmp(ti->data, "remove") == 0
|| strcmp(ti->data, "r") == 0)
orphans = ORPH_REMOVE;
else if (strcmp(ti->data, "attach") == 0
|| strcmp(ti->data, "a") == 0)
orphans = ORPH_ATTACH;
}
#ifndef AFS_NT40_ENV /* ignore options on NT */
if ((ti = as->parms[13].items)) { /* -syslog */
useSyslog = 1;
ShowLog = 0;
}
if ((ti = as->parms[14].items)) { /* -syslogfacility */
useSyslogFacility = atoi(ti->data);
}
if ((ti = as->parms[15].items)) { /* -datelogs */
TimeStampLogFile((char *)AFSDIR_SERVER_SALSRVLOG_FILEPATH);
}
#endif
if ((ti = as->parms[16].items)) { /* -client */
if ((ti = as->parms[0].items)) { /* -partition */
seenpart = 1;
strlcpy(pname, ti->data, sizeof(pname));
}
if ((ti = as->parms[1].items)) { /* -volumeid */
seenvol = 1;
vid = atoi(ti->data);
}
if (ShowLog) {
printf("-showlog does not work with -client\n");
exit(-1);
}
if (!seenpart || !seenvol) {
printf("You must specify '-partition' and '-volumeid' with the '-client' option\n");
exit(-1);
}
SalvageClient(vid, pname);
} else { /* salvageserver mode */
SalvageServer();
}
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
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);
}
