void
privsep_get_switchboard_command(const char* op,
int in_fd,
int err_fd,
MyString& cmd,
ArgList& arg_list)
{
cmd = switchboard_path;
arg_list.Clear();
arg_list.AppendArg(switchboard_file);
arg_list.AppendArg(op);
arg_list.AppendArg(in_fd);
arg_list.AppendArg(err_fd);
}
int
main (int argc, char *argv[])
{
#if !defined(WIN32)
install_sig_handler(SIGPIPE, (SIG_HANDLER)SIG_IGN );
#endif
// initialize to read from config file
myDistro->Init( argc, argv );
myName = argv[0];
config();
dprintf_config_tool_on_error(0);
// The arguments take two passes to process --- the first pass
// figures out the mode, after which we can instantiate the required
// query object. We add implied constraints from the command line in
// the second pass.
firstPass (argc, argv);
// if the mode has not been set, it is STARTD_NORMAL
if (mode == MODE_NOTSET) {
setMode (MODE_STARTD_NORMAL, 0, DEFAULT);
}
// instantiate query object
if (!(query = new CondorQuery (type))) {
dprintf_WriteOnErrorBuffer(stderr, true);
fprintf (stderr, "Error: Out of memory\n");
exit (1);
}
// if a first-pass setMode set a mode_constraint, apply it now to the query object
if (mode_constraint && ! explicit_format) {
query->addANDConstraint(mode_constraint);
}
// set pretty print style implied by the type of entity being queried
// but do it with default priority, so that explicitly requested options
// can override it
switch (type)
{
#ifdef HAVE_EXT_POSTGRESQL
case QUILL_AD:
setPPstyle(PP_QUILL_NORMAL, 0, DEFAULT);
break;
#endif /* HAVE_EXT_POSTGRESQL */
case DEFRAG_AD:
setPPstyle(PP_GENERIC_NORMAL, 0, DEFAULT);
break;
case STARTD_AD:
setPPstyle(PP_STARTD_NORMAL, 0, DEFAULT);
break;
case SCHEDD_AD:
setPPstyle(PP_SCHEDD_NORMAL, 0, DEFAULT);
break;
case MASTER_AD:
setPPstyle(PP_MASTER_NORMAL, 0, DEFAULT);
break;
case CKPT_SRVR_AD:
setPPstyle(PP_CKPT_SRVR_NORMAL, 0, DEFAULT);
break;
case COLLECTOR_AD:
setPPstyle(PP_COLLECTOR_NORMAL, 0, DEFAULT);
break;
case STORAGE_AD:
setPPstyle(PP_STORAGE_NORMAL, 0, DEFAULT);
break;
case NEGOTIATOR_AD:
setPPstyle(PP_NEGOTIATOR_NORMAL, 0, DEFAULT);
break;
case GRID_AD:
setPPstyle(PP_GRID_NORMAL, 0, DEFAULT);
break;
case GENERIC_AD:
setPPstyle(PP_GENERIC, 0, DEFAULT);
break;
case ANY_AD:
setPPstyle(PP_ANY_NORMAL, 0, DEFAULT);
break;
default:
setPPstyle(PP_VERBOSE, 0, DEFAULT);
}
// set the constraints implied by the mode
switch (mode) {
#ifdef HAVE_EXT_POSTGRESQL
case MODE_QUILL_NORMAL:
#endif /* HAVE_EXT_POSTGRESQL */
case MODE_DEFRAG_NORMAL:
case MODE_STARTD_NORMAL:
case MODE_MASTER_NORMAL:
case MODE_CKPT_SRVR_NORMAL:
case MODE_SCHEDD_NORMAL:
case MODE_SCHEDD_SUBMITTORS:
case MODE_COLLECTOR_NORMAL:
case MODE_NEGOTIATOR_NORMAL:
case MODE_STORAGE_NORMAL:
case MODE_GENERIC_NORMAL:
case MODE_ANY_NORMAL:
case MODE_GRID_NORMAL:
case MODE_HAD_NORMAL:
break;
case MODE_OTHER:
// tell the query object what the type we're querying is
query->setGenericQueryType(genericType);
free(genericType);
genericType = NULL;
break;
case MODE_STARTD_AVAIL:
// For now, -avail shows you machines avail to anyone.
sprintf (buffer, "%s == \"%s\"", ATTR_STATE,
state_to_string(unclaimed_state));
if (diagnose) {
printf ("Adding constraint [%s]\n", buffer);
}
query->addORConstraint (buffer);
break;
case MODE_STARTD_RUN:
sprintf (buffer, "%s == \"%s\"", ATTR_STATE,
state_to_string(claimed_state));
if (diagnose) {
printf ("Adding constraint [%s]\n", buffer);
}
query->addORConstraint (buffer);
break;
case MODE_STARTD_COD:
sprintf (buffer, "%s > 0", ATTR_NUM_COD_CLAIMS );
if (diagnose) {
printf ("Adding constraint [%s]\n", buffer);
}
query->addORConstraint (buffer);
break;
default:
break;
}
if(javaMode) {
sprintf( buffer, "%s == TRUE", ATTR_HAS_JAVA );
if (diagnose) {
printf ("Adding constraint [%s]\n", buffer);
}
query->addANDConstraint (buffer);
projList.AppendArg(ATTR_HAS_JAVA);
projList.AppendArg(ATTR_JAVA_MFLOPS);
projList.AppendArg(ATTR_JAVA_VENDOR);
projList.AppendArg(ATTR_JAVA_VERSION);
}
if(offlineMode) {
query->addANDConstraint( "size( OfflineUniverses ) != 0" );
projList.AppendArg( "OfflineUniverses" );
//
// Since we can't add a regex to a projection, explicitly list all
// the attributes we know about.
//
projList.AppendArg( "HasVM" );
projList.AppendArg( "VMOfflineReason" );
projList.AppendArg( "VMOfflineTime" );
}
if(absentMode) {
sprintf( buffer, "%s == TRUE", ATTR_ABSENT );
if (diagnose) {
printf( "Adding constraint %s\n", buffer );
}
query->addANDConstraint( buffer );
projList.AppendArg( ATTR_ABSENT );
projList.AppendArg( ATTR_LAST_HEARD_FROM );
projList.AppendArg( ATTR_CLASSAD_LIFETIME );
}
if(vmMode) {
sprintf( buffer, "%s == TRUE", ATTR_HAS_VM);
if (diagnose) {
printf ("Adding constraint [%s]\n", buffer);
}
query->addANDConstraint (buffer);
projList.AppendArg(ATTR_VM_TYPE);
projList.AppendArg(ATTR_VM_MEMORY);
projList.AppendArg(ATTR_VM_NETWORKING);
projList.AppendArg(ATTR_VM_NETWORKING_TYPES);
projList.AppendArg(ATTR_VM_HARDWARE_VT);
projList.AppendArg(ATTR_VM_AVAIL_NUM);
projList.AppendArg(ATTR_VM_ALL_GUEST_MACS);
projList.AppendArg(ATTR_VM_ALL_GUEST_IPS);
projList.AppendArg(ATTR_VM_GUEST_MAC);
projList.AppendArg(ATTR_VM_GUEST_IP);
}
// second pass: add regular parameters and constraints
if (diagnose) {
printf ("----------\n");
}
secondPass (argc, argv);
// initialize the totals object
if (ppStyle == PP_CUSTOM && using_print_format) {
if (pmHeadFoot & HF_NOSUMMARY) ppTotalStyle = PP_CUSTOM;
} else {
ppTotalStyle = ppStyle;
}
TrackTotals totals(ppTotalStyle);
// fetch the query
QueryResult q;
if ((mode == MODE_STARTD_NORMAL) && (ppStyle == PP_STARTD_NORMAL)) {
projList.AppendArg("Name");
projList.AppendArg("Machine");
projList.AppendArg("Opsys");
projList.AppendArg("Arch");
projList.AppendArg("State");
projList.AppendArg("Activity");
projList.AppendArg("LoadAvg");
projList.AppendArg("Memory");
projList.AppendArg("ActvtyTime");
projList.AppendArg("MyCurrentTime");
projList.AppendArg("EnteredCurrentActivity");
} else if( ppStyle == PP_VERBOSE ) {
// Remove everything from the projection list if we're displaying
// the "long form" of the ads.
projList.Clear();
// but if -attributes was supplied, show only those attributes
if ( ! dashAttributes.isEmpty()) {
const char * s;
dashAttributes.rewind();
while ((s = dashAttributes.next())) {
projList.AppendArg(s);
}
}
}
if( projList.Count() > 0 ) {
char **attr_list = projList.GetStringArray();
query->setDesiredAttrs(attr_list);
deleteStringArray(attr_list);
}
// if diagnose was requested, just print the query ad
if (diagnose) {
ClassAd queryAd;
// print diagnostic information about inferred internal state
setMode ((Mode) 0, 0, NULL);
setType (NULL, 0, NULL);
setPPstyle ((ppOption) 0, 0, DEFAULT);
printf ("----------\n");
q = query->getQueryAd (queryAd);
fPrintAd (stdout, queryAd);
printf ("----------\n");
fprintf (stderr, "Result of making query ad was: %d\n", q);
exit (1);
}
// Address (host:port) is taken from requested pool, if given.
char* addr = (NULL != pool) ? pool->addr() : NULL;
Daemon* requested_daemon = pool;
// If we're in "direct" mode, then we attempt to locate the daemon
// associated with the requested subsystem (here encoded by value of mode)
// In this case the host:port of pool (if given) denotes which
// pool is being consulted
if( direct ) {
Daemon *d = NULL;
switch( mode ) {
case MODE_MASTER_NORMAL:
d = new Daemon( DT_MASTER, direct, addr );
break;
case MODE_STARTD_NORMAL:
case MODE_STARTD_AVAIL:
case MODE_STARTD_RUN:
case MODE_STARTD_COD:
d = new Daemon( DT_STARTD, direct, addr );
break;
#ifdef HAVE_EXT_POSTGRESQL
case MODE_QUILL_NORMAL:
d = new Daemon( DT_QUILL, direct, addr );
break;
#endif /* HAVE_EXT_POSTGRESQL */
case MODE_SCHEDD_NORMAL:
case MODE_SCHEDD_SUBMITTORS:
d = new Daemon( DT_SCHEDD, direct, addr );
break;
case MODE_NEGOTIATOR_NORMAL:
d = new Daemon( DT_NEGOTIATOR, direct, addr );
break;
case MODE_CKPT_SRVR_NORMAL:
case MODE_COLLECTOR_NORMAL:
case MODE_LICENSE_NORMAL:
case MODE_STORAGE_NORMAL:
case MODE_GENERIC_NORMAL:
case MODE_ANY_NORMAL:
case MODE_OTHER:
case MODE_GRID_NORMAL:
case MODE_HAD_NORMAL:
// These have to go to the collector, anyway.
break;
default:
fprintf( stderr, "Error: Illegal mode %d\n", mode );
exit( 1 );
break;
}
// Here is where we actually override 'addr', if we can obtain
// address of the requested daemon/subsys. If it can't be
// located, then fail with error msg.
// 'd' will be null (unset) if mode is one of above that must go to
// collector (MODE_ANY_NORMAL, MODE_COLLECTOR_NORMAL, etc)
if (NULL != d) {
if( d->locate() ) {
addr = d->addr();
requested_daemon = d;
} else {
const char* id = d->idStr();
if (NULL == id) id = d->name();
dprintf_WriteOnErrorBuffer(stderr, true);
if (NULL == id) id = "daemon";
fprintf(stderr, "Error: Failed to locate %s\n", id);
fprintf(stderr, "%s\n", d->error());
exit( 1 );
}
}
}
ClassAdList result;
CondorError errstack;
if (NULL != ads_file) {
MyString req; // query requirements
q = query->getRequirements(req);
const char * constraint = req.empty() ? NULL : req.c_str();
if (read_classad_file(ads_file, result, constraint)) {
q = Q_OK;
}
} else if (NULL != addr) {
// this case executes if pool was provided, or if in "direct" mode with
// subsystem that corresponds to a daemon (above).
// Here 'addr' represents either the host:port of requested pool, or
// alternatively the host:port of daemon associated with requested subsystem (direct mode)
q = query->fetchAds (result, addr, &errstack);
} else {
// otherwise obtain list of collectors and submit query that way
CollectorList * collectors = CollectorList::create();
q = collectors->query (*query, result, &errstack);
delete collectors;
}
// if any error was encountered during the query, report it and exit
if (Q_OK != q) {
dprintf_WriteOnErrorBuffer(stderr, true);
// we can always provide these messages:
fprintf( stderr, "Error: %s\n", getStrQueryResult(q) );
fprintf( stderr, "%s\n", errstack.getFullText(true).c_str() );
if ((NULL != requested_daemon) && ((Q_NO_COLLECTOR_HOST == q) ||
(requested_daemon->type() == DT_COLLECTOR)))
{
// Specific long message if connection to collector failed.
const char* fullhost = requested_daemon->fullHostname();
if (NULL == fullhost) fullhost = "<unknown_host>";
const char* daddr = requested_daemon->addr();
if (NULL == daddr) daddr = "<unknown>";
char info[1000];
sprintf(info, "%s (%s)", fullhost, daddr);
printNoCollectorContact( stderr, info, !expert );
} else if ((NULL != requested_daemon) && (Q_COMMUNICATION_ERROR == q)) {
// more helpful message for failure to connect to some daemon/subsys
const char* id = requested_daemon->idStr();
if (NULL == id) id = requested_daemon->name();
if (NULL == id) id = "daemon";
const char* daddr = requested_daemon->addr();
if (NULL == daddr) daddr = "<unknown>";
fprintf(stderr, "Error: Failed to contact %s at %s\n", id, daddr);
}
// fail
exit (1);
}
if (noSort) {
// do nothing
} else if (sortSpecs.empty()) {
// default classad sorting
result.Sort((SortFunctionType)lessThanFunc);
} else {
// User requested custom sorting expressions:
// insert attributes related to custom sorting
result.Open();
while (ClassAd* ad = result.Next()) {
for (vector<SortSpec>::iterator ss(sortSpecs.begin()); ss != sortSpecs.end(); ++ss) {
ss->expr->SetParentScope(ad);
classad::Value v;
ss->expr->Evaluate(v);
stringstream vs;
// This will properly render all supported value types,
// including undefined and error, although current semantic
// pre-filters classads where sort expressions are undef/err:
vs << ((v.IsStringValue())?"\"":"") << v << ((v.IsStringValue())?"\"":"");
ad->AssignExpr(ss->keyAttr.c_str(), vs.str().c_str());
// Save the full expr in case user wants to examine on output:
ad->AssignExpr(ss->keyExprAttr.c_str(), ss->arg.c_str());
}
}
result.Open();
result.Sort((SortFunctionType)customLessThanFunc);
}
// output result
prettyPrint (result, &totals);
delete query;
return 0;
}