static bool test_sprintf_cat_MyString() {
emit_test("Test sprintf_cat overloading for MyString");
MyString s = "foo";
int r = sprintf_cat(s, "%s", "bar");
if (s != "foobar") {
FAIL;
}
if (r != 3) {
FAIL;
}
PASS;
}
void CondorResource::RegisterJob( CondorJob *job, const char *submitter_id )
{
BaseResource::RegisterJob( job );
if ( submitter_ids.contains( submitter_id ) == false ) {
submitter_ids.append( submitter_id );
if ( submitter_constraint.empty() ) {
sprintf( submitter_constraint, "(%s=?=\"%s\")",
ATTR_SUBMITTER_ID,
submitter_id );
} else {
sprintf_cat( submitter_constraint, "||(%s=?=\"%s\")",
ATTR_SUBMITTER_ID,
submitter_id );
}
}
}
void
doContactSchedd()
{
if (command_queue.IsEmpty()) {
daemonCore->Reset_Timer( contactScheddTid, contact_schedd_interval ); // Come back in a min
return;
}
dprintf(D_FULLDEBUG,"in doContactSchedd\n");
SchedDRequest * current_command = NULL;
int error=FALSE;
std::string error_msg;
CondorError errstack;
bool do_reschedule = false;
int failure_line_num = 0;
int failure_errno = 0;
// Try connecting to schedd
DCSchedd dc_schedd ( ScheddAddr, ScheddPool );
if (dc_schedd.error() || !dc_schedd.locate()) {
sprintf( error_msg, "Error locating schedd %s", ScheddAddr );
dprintf( D_ALWAYS, "%s\n", error_msg.c_str() );
// If you can't connect return "Failure" on every job request
command_queue.Rewind();
while (command_queue.Next(current_command)) {
if (current_command->status != SchedDRequest::SDCS_NEW)
continue;
if (current_command->command == SchedDRequest::SDC_STATUS_CONSTRAINED) {
const char * result[] = {
GAHP_RESULT_FAILURE,
error_msg.c_str(),
"0"};
enqueue_result (current_command->request_id, result, 3);
} else if (current_command->command == SchedDRequest::SDC_SUBMIT_JOB) {
const char * result[] = {
GAHP_RESULT_FAILURE,
NULL,
error_msg.c_str() };
enqueue_result (current_command->request_id, result, 3);
} else if (current_command->command == SchedDRequest::SDC_UPDATE_LEASE) {
const char * result[] = {
GAHP_RESULT_FAILURE,
error_msg.c_str(),
NULL };
enqueue_result (current_command->request_id, result, 3);
} else {
const char * result[] = {
GAHP_RESULT_FAILURE,
error_msg.c_str() };
enqueue_result (current_command->request_id, result, 2);
}
current_command->status = SchedDRequest::SDCS_COMPLETED;
}
}
SchedDRequest::schedd_command_type commands [] = {
SchedDRequest::SDC_REMOVE_JOB,
SchedDRequest::SDC_HOLD_JOB,
SchedDRequest::SDC_RELEASE_JOB };
const char * command_titles [] = {
"REMOVE_JOB", "HOLD_JOB", "RELEASE_JOB" };
// REMOVE
// HOLD
// RELEASE
int i=0;
while (i<3) {
StringList id_list;
SimpleList <SchedDRequest*> this_batch;
SchedDRequest::schedd_command_type this_command = commands[i];
const char * this_action = command_titles[i];
const char * this_reason = NULL;
dprintf (D_FULLDEBUG, "Processing %s requests\n", this_action);
error = FALSE;
// Create a batch of commands with the same command type AND the same reason
command_queue.Rewind();
while (command_queue.Next(current_command)) {
if (current_command->status != SchedDRequest::SDCS_NEW)
continue;
if (current_command->command != this_command)
continue;
if ((this_reason != NULL) && (strcmp (current_command->reason, this_reason) != 0))
continue;
if (this_reason == NULL)
this_reason = current_command->reason;
char job_id_buff[30];
sprintf (job_id_buff, "%d.%d",
current_command->cluster_id,
current_command->proc_id);
id_list.append (job_id_buff);
this_batch.Append (current_command);
}
// If we haven't found any....
if (id_list.isEmpty()) {
i++;
continue; // ... then try the next command
}
// Perform the appropriate command on the current batch
ClassAd * result_ad= NULL;
if (this_command == SchedDRequest::SDC_REMOVE_JOB) {
errstack.clear();
result_ad=
dc_schedd.removeJobs (
&id_list,
this_reason,
&errstack);
} else if (this_command == SchedDRequest::SDC_HOLD_JOB) {
errstack.clear();
result_ad=
dc_schedd.holdJobs (
&id_list,
this_reason,
NULL,
&errstack);
} else if (this_command == SchedDRequest::SDC_RELEASE_JOB) {
errstack.clear();
result_ad=
dc_schedd.releaseJobs (
&id_list,
this_reason,
&errstack);
} else {
EXCEPT( "Unexpected command type %d in doContactSchedd",
this_command );
}
// Analyze the result ad
if (!result_ad) {
error = TRUE;
sprintf( error_msg, "Error connecting to schedd %s %s: %s",
ScheddAddr, dc_schedd.addr(), errstack.getFullText() );
}
else {
result_ad->dPrint (D_FULLDEBUG);
if ( this_command == SchedDRequest::SDC_RELEASE_JOB ) {
do_reschedule = true;
}
}
// Go through the batch again, and create responses for each request
this_batch.Rewind();
while (this_batch.Next(current_command)) {
// Check the result
char job_id_buff[30];
if (result_ad && (error == FALSE)) {
sprintf (job_id_buff, "job_%d_%d",
current_command->cluster_id,
current_command->proc_id);
int remove_result;
if (result_ad->LookupInteger (job_id_buff, remove_result)) {
switch (remove_result) {
case AR_ERROR:
error = TRUE;
error_msg = "General Error";
break;
case AR_SUCCESS:
error = FALSE;
break;
case AR_NOT_FOUND:
error = TRUE;
error_msg = "Job not found";
break;
case AR_BAD_STATUS:
error = TRUE;
error_msg = "Bad job status";
break;
case AR_ALREADY_DONE:
error = TRUE;
error_msg = "Already done";
break;
case AR_PERMISSION_DENIED:
error = TRUE;
error_msg = "Permission denied";
break;
default:
error = TRUE;
error_msg = "Unknown Result";
} // hctiws
} else {
error_msg = "Unable to get result";
} // fi lookup result for job
} // fi error == FALSE
if (error) {
dprintf (D_ALWAYS, "Error (operation: %s) %d.%d: %s\n",
this_action,
current_command->cluster_id,
current_command->proc_id,
error_msg.c_str());
const char * result[2];
result[0] = GAHP_RESULT_FAILURE;
result[1] = error_msg.c_str();
enqueue_result (current_command->request_id, result, 2);
} else {
dprintf (D_ALWAYS, "Succeess (operation: %s) %d.%d\n",
this_action,
current_command->cluster_id,
current_command->proc_id);
const char * result[2];
result[0] = GAHP_RESULT_SUCCESS;
result[1] = NULL;
enqueue_result (current_command->request_id, result, 2);
} // fi error
// Mark the status
current_command->status = SchedDRequest::SDCS_COMPLETED;
} // elihw this_batch
if ( result_ad ) {
delete result_ad;
}
}
dprintf (D_FULLDEBUG, "Processing JOB_STAGE_IN requests\n");
// JOB_STAGE_IN
int MAX_BATCH_SIZE=1; // This should be a config param
SimpleList <SchedDRequest*> stage_in_batch;
do {
stage_in_batch.Clear();
command_queue.Rewind();
while (command_queue.Next(current_command)) {
if (current_command->status != SchedDRequest::SDCS_NEW)
continue;
if (current_command->command != SchedDRequest::SDC_JOB_STAGE_IN)
continue;
dprintf (D_ALWAYS, "Adding %d.%d to STAGE_IN batch\n",
current_command->cluster_id,
current_command->proc_id);
stage_in_batch.Append (current_command);
if (stage_in_batch.Number() >= MAX_BATCH_SIZE)
break;
}
if (stage_in_batch.Number() > 0) {
ClassAd ** array = new ClassAd*[stage_in_batch.Number()];
i=0;
stage_in_batch.Rewind();
while (stage_in_batch.Next(current_command)) {
array[i++] = current_command->classad;
}
error = FALSE;
errstack.clear();
if (!dc_schedd.spoolJobFiles( stage_in_batch.Number(),
array,
&errstack )) {
error = TRUE;
sprintf( error_msg, "Error sending files to schedd %s: %s", ScheddAddr, errstack.getFullText() );
dprintf( D_ALWAYS, "%s\n", error_msg.c_str() );
}
delete [] array;
stage_in_batch.Rewind();
while (stage_in_batch.Next(current_command)) {
current_command->status = SchedDRequest::SDCS_COMPLETED;
if (error) {
const char * result[] = {
GAHP_RESULT_FAILURE,
error_msg.c_str() };
enqueue_result (current_command->request_id, result, 2);
} else {
const char * result[] = {
GAHP_RESULT_SUCCESS,
NULL };
enqueue_result (current_command->request_id, result, 2);
}
} // elihw (command_queue)
} // fi has STAGE_IN requests
} while (stage_in_batch.Number() > 0);
dprintf (D_FULLDEBUG, "Processing JOB_STAGE_OUT requests\n");
// JOB_STAGE_OUT
SimpleList <SchedDRequest*> stage_out_batch;
command_queue.Rewind();
while (command_queue.Next(current_command)) {
if (current_command->status != SchedDRequest::SDCS_NEW)
continue;
if (current_command->command != SchedDRequest::SDC_JOB_STAGE_OUT)
continue;
stage_out_batch.Append (current_command);
}
if (stage_out_batch.Number() > 0) {
std::string constraint = "";
stage_out_batch.Rewind();
int jobsexpected = stage_out_batch.Number();
while (stage_out_batch.Next(current_command)) {
sprintf_cat( constraint, "(ClusterId==%d&&ProcId==%d)||",
current_command->cluster_id,
current_command->proc_id );
}
constraint += "False";
error = FALSE;
errstack.clear();
int jobssent;
if (!dc_schedd.receiveJobSandbox( constraint.c_str(),
&errstack, &jobssent )) {
error = TRUE;
sprintf( error_msg, "Error receiving files from schedd %s: %s",
ScheddAddr, errstack.getFullText() );
dprintf( D_ALWAYS, "%s\n", error_msg.c_str() );
}
if(error == FALSE && jobssent != jobsexpected) {
error = TRUE;
sprintf( error_msg, "Schedd %s didn't send expected files",
ScheddAddr );
dprintf (D_ALWAYS, "Transfered files for %d jobs but got files for %d jobs. (Schedd %s with contraint %s\n", jobsexpected, jobssent, ScheddAddr, constraint.c_str());
}
stage_out_batch.Rewind();
while (stage_out_batch.Next(current_command)) {
current_command->status = SchedDRequest::SDCS_COMPLETED;
if (error) {
const char * result[] = {
GAHP_RESULT_FAILURE,
error_msg.c_str() };
enqueue_result (current_command->request_id, result, 2);
} else {
const char * result[] = {
GAHP_RESULT_SUCCESS,
NULL };
enqueue_result (current_command->request_id, result, 2);
}
} // elihw (command_queue)
} // fi has STAGE_OUT requests
dprintf (D_FULLDEBUG, "Processing JOB_REFRESH_PROXY requests\n");
CondorVersionInfo ver_info(dc_schedd.version());
bool delegate_credential;
if ( ver_info.built_since_version(6,7,19) &&
param_boolean( "DELEGATE_JOB_GSI_CREDENTIALS", true ) ) {
delegate_credential = true;
} else {
delegate_credential = false;
}
// JOB_REFRESH_PROXY
command_queue.Rewind();
while (command_queue.Next(current_command)) {
if (current_command->status != SchedDRequest::SDCS_NEW)
continue;
if (current_command->command != SchedDRequest::SDC_JOB_REFRESH_PROXY)
continue;
time_t expiration_time = GetDesiredDelegatedJobCredentialExpiration(current_command->classad);
time_t result_expiration_time = 0;
bool result;
errstack.clear();
if ( delegate_credential ) {
result = dc_schedd.delegateGSIcredential(
current_command->cluster_id,
current_command->proc_id,
current_command->proxy_file,
expiration_time,
&result_expiration_time,
&errstack );
// Currently, we do not propagate the actual resulting
// expiration time back to the gridmanager. We
// probably should.
} else {
result = dc_schedd.updateGSIcredential(
current_command->cluster_id,
current_command->proc_id,
current_command->proxy_file,
&errstack );
}
current_command->status = SchedDRequest::SDCS_COMPLETED;
if (result == false) {
sprintf( error_msg, "Error refreshing proxy to schedd %s: %s",
ScheddAddr, errstack.getFullText() );
dprintf( D_ALWAYS, "%s\n", error_msg.c_str() );
const char * result_to_queue[] = {
GAHP_RESULT_FAILURE,
error_msg.c_str() };
enqueue_result (current_command->request_id, result_to_queue, 2);
} else {
const char * result_to_queue[] = {
GAHP_RESULT_SUCCESS,
NULL };
enqueue_result (current_command->request_id, result_to_queue, 2);
}
}
// Now do all the QMGMT transactions
error = FALSE;
// Try connecting to the queue
Qmgr_connection * qmgr_connection;
if ((qmgr_connection = ConnectQ(dc_schedd.addr(), QMGMT_TIMEOUT, false, NULL, NULL, dc_schedd.version() )) == NULL) {
error = TRUE;
sprintf( error_msg, "Error connecting to schedd %s", ScheddAddr );
dprintf( D_ALWAYS, "%s\n", error_msg.c_str() );
} else {
errno = 0;
AbortTransaction(); // Just so we can call BeginTransaction() in the loop
if ( errno == ETIMEDOUT ) {
failure_line_num = __LINE__;
failure_errno = errno;
goto contact_schedd_disconnect;
}
}
dprintf (D_FULLDEBUG, "Processing UPDATE_CONSTRAINED/UDATE_JOB requests\n");
// UPDATE_CONSTRAINED
// UDATE_JOB
command_queue.Rewind();
while (command_queue.Next(current_command)) {
if (current_command->status != SchedDRequest::SDCS_NEW)
continue;
if ((current_command->command != SchedDRequest::SDC_UPDATE_CONSTRAINED) &&
(current_command->command != SchedDRequest::SDC_UPDATE_JOB))
continue;
if (qmgr_connection == NULL)
goto update_report_result;
error = FALSE;
errno = 0;
BeginTransaction();
if ( errno == ETIMEDOUT ) {
failure_line_num = __LINE__;
failure_errno = errno;
goto contact_schedd_disconnect;
}
current_command->classad->ResetExpr();
ExprTree *tree;
const char *lhstr, *rhstr;
while( current_command->classad->NextExpr(lhstr, tree) ) {
rhstr = ExprTreeToString( tree );
if( !lhstr || !rhstr) {
sprintf( error_msg, "ERROR: ClassAd problem in Updating by constraint %s",
current_command->constraint );
dprintf( D_ALWAYS, "%s\n", error_msg.c_str() );
error = TRUE;
} else {
if (current_command->command == SchedDRequest::SDC_UPDATE_CONSTRAINED) {
if( SetAttributeByConstraint(current_command->constraint,
lhstr,
rhstr) == -1 ) {
if ( errno == ETIMEDOUT ) {
failure_line_num = __LINE__;
failure_errno = errno;
goto contact_schedd_disconnect;
}
sprintf( error_msg, "ERROR: Failed (errno=%d) to SetAttributeByConstraint %s=%s for constraint %s",
errno, lhstr, rhstr, current_command->constraint );
dprintf( D_ALWAYS, "%s\n", error_msg.c_str() );
error = TRUE;
}
} else if (current_command->command == SchedDRequest::SDC_UPDATE_JOB) {
if( SetAttribute(current_command->cluster_id,
current_command->proc_id,
lhstr,
rhstr) == -1 ) {
if ( errno == ETIMEDOUT ) {
failure_line_num = __LINE__;
failure_errno = errno;
goto contact_schedd_disconnect;
}
sprintf( error_msg, "ERROR: Failed to SetAttribute() %s=%s for job %d.%d",
lhstr, rhstr, current_command->cluster_id, current_command->proc_id);
dprintf( D_ALWAYS, "%s\n", error_msg.c_str() );
error = TRUE;
}
}
}
if (error)
break;
} // elihw classad
update_report_result:
if (error) {
const char * result[] = {
GAHP_RESULT_FAILURE,
error_msg.c_str() };
//RemoteCommitTransaction();
enqueue_result (current_command->request_id, result, 2);
current_command->status = SchedDRequest::SDCS_COMPLETED;
if ( qmgr_connection != NULL ) {
errno = 0;
AbortTransaction();
if ( errno == ETIMEDOUT ) {
failure_line_num = __LINE__;
failure_errno = errno;
goto contact_schedd_disconnect;
}
}
} else {
if ( RemoteCommitTransaction() < 0 ) {
failure_line_num = __LINE__;
failure_errno = errno;
goto contact_schedd_disconnect;
}
const char * result[] = {
GAHP_RESULT_SUCCESS,
NULL };
enqueue_result (current_command->request_id, result, 2);
current_command->status = SchedDRequest::SDCS_COMPLETED;
} // fi
} // elihw
dprintf (D_FULLDEBUG, "Processing UPDATE_LEASE requests\n");
// UPDATE_LEASE
command_queue.Rewind();
while (command_queue.Next(current_command)) {
error = FALSE;
if (current_command->status != SchedDRequest::SDCS_NEW)
continue;
if (current_command->command != SchedDRequest::SDC_UPDATE_LEASE)
continue;
std::string success_job_ids="";
if (qmgr_connection == NULL) {
sprintf( error_msg, "Error connecting to schedd %s", ScheddAddr );
error = TRUE;
} else {
error = FALSE;
errno = 0;
BeginTransaction();
if ( errno == ETIMEDOUT ) {
failure_line_num = __LINE__;
failure_errno = errno;
goto contact_schedd_disconnect;
}
for (i=0; i<current_command->num_jobs; i++) {
time_t time_now = time(NULL);
int duration =
current_command->expirations[i].expiration - time_now;
dprintf (D_FULLDEBUG,
"Job %d.%d SetTimerAttribute=%d\n",
current_command->expirations[i].cluster,
current_command->expirations[i].proc,
duration);
if (SetTimerAttribute (current_command->expirations[i].cluster,
current_command->expirations[i].proc,
ATTR_TIMER_REMOVE_CHECK,
duration) < 0) {
if ( errno == ETIMEDOUT ) {
failure_line_num = __LINE__;
failure_errno = errno;
goto contact_schedd_disconnect;
}
dprintf (D_ALWAYS,
"Unable to SetTimerAttribute(%d, %d), errno=%d\n",
current_command->expirations[i].cluster,
current_command->expirations[i].proc,
errno);
} else {
// Append job id to the result line
if (success_job_ids.length() > 0)
success_job_ids += ",";
sprintf_cat( success_job_ids,
"%d.%d",
current_command->expirations[i].cluster,
current_command->expirations[i].proc);
}
} //rof jobs for request
} // fi error
if (error) {
const char * result[] = {
GAHP_RESULT_FAILURE,
error_msg.c_str(),
NULL
};
//RemoteCommitTransaction();
enqueue_result (current_command->request_id, result, 3);
current_command->status = SchedDRequest::SDCS_COMPLETED;
if ( qmgr_connection != NULL ) {
errno = 0;
AbortTransaction();
if ( errno == ETIMEDOUT ) {
failure_line_num = __LINE__;
failure_errno = errno;
goto contact_schedd_disconnect;
}
}
} else {
if ( RemoteCommitTransaction() < 0 ) {
failure_line_num = __LINE__;
failure_errno = errno;
goto contact_schedd_disconnect;
}
const char * result[] = {
GAHP_RESULT_SUCCESS,
NULL,
success_job_ids.length()?success_job_ids.c_str():NULL
};
enqueue_result (current_command->request_id, result, 3);
current_command->status = SchedDRequest::SDCS_COMPLETED;
} // fi
} // elihw UPDATE_LEASE requests
dprintf (D_FULLDEBUG, "Processing SUBMIT_JOB requests\n");
// SUBMIT_JOB
command_queue.Rewind();
while (command_queue.Next(current_command)) {
if (current_command->status != SchedDRequest::SDCS_NEW)
continue;
if (current_command->command != SchedDRequest::SDC_SUBMIT_JOB)
continue;
int ClusterId = -1;
int ProcId = -1;
if (qmgr_connection == NULL) {
error = TRUE;
goto submit_report_result;
}
errno = 0;
BeginTransaction();
if ( errno == ETIMEDOUT ) {
failure_line_num = __LINE__;
failure_errno = errno;
goto contact_schedd_disconnect;
}
error = FALSE;
if ((ClusterId = NewCluster()) >= 0) {
ProcId = NewProc (ClusterId);
}
if ( errno == ETIMEDOUT ) {
failure_line_num = __LINE__;
failure_errno = errno;
goto contact_schedd_disconnect;
}
if ( ClusterId < 0 ) {
error = TRUE;
error_msg = "Unable to create a new job cluster";
dprintf( D_ALWAYS, "%s\n", error_msg.c_str() );
} else if ( ProcId < 0 ) {
error = TRUE;
error_msg = "Unable to create a new job proc";
dprintf( D_ALWAYS, "%s\n", error_msg.c_str() );
}
if ( ClusterId == -2 || ProcId == -2 ) {
error = TRUE;
error_msg =
"Number of submitted jobs would exceed MAX_JOBS_SUBMITTED\n";
dprintf( D_ALWAYS, "%s\n", error_msg.c_str() );
}
// Adjust the argument/environment syntax based on the version
// of the schedd we are talking to.
if( error == FALSE) {
CondorVersionInfo version_info(dc_schedd.version());
ArgList arglist;
MyString arg_error_msg;
Env env_obj;
MyString env_error_msg;
if(!arglist.AppendArgsFromClassAd(current_command->classad,&arg_error_msg) ||
! arglist.InsertArgsIntoClassAd(current_command->classad,&version_info,&arg_error_msg))
{
sprintf( error_msg,
"ERROR: ClassAd problem in converting arguments to syntax "
"for schedd (version=%s): %s\n",
dc_schedd.version() ? dc_schedd.version() : "NULL",
arg_error_msg.Value());
dprintf( D_ALWAYS,"%s\n", error_msg.c_str() );
error = TRUE;
}
if(!env_obj.MergeFrom(current_command->classad,&env_error_msg) ||
!env_obj.InsertEnvIntoClassAd(current_command->classad,&env_error_msg,NULL,&version_info))
{
sprintf( error_msg,
"ERROR: Failed to convert environment to target syntax"
" for schedd (version %s): %s\n",
dc_schedd.version() ? dc_schedd.version() : "NULL",
env_error_msg.Value());
dprintf( D_ALWAYS, "%s\n", error_msg.c_str() );
error = TRUE;
}
}
if( error == FALSE ) {
// See the comment in the function body of ExpandInputFileList
// for an explanation of what is going on here.
MyString transfer_input_error_msg;
if( !FileTransfer::ExpandInputFileList( current_command->classad, transfer_input_error_msg ) ) {
dprintf( D_ALWAYS, "%s\n", transfer_input_error_msg.Value() );
error = TRUE;
}
}
if ( error == FALSE ) {
current_command->classad->Assign(ATTR_CLUSTER_ID, ClusterId);
current_command->classad->Assign(ATTR_PROC_ID, ProcId);
// Special case for the job lease
int expire_time;
if ( current_command->classad->LookupInteger( ATTR_TIMER_REMOVE_CHECK, expire_time ) ) {
if ( SetTimerAttribute( ClusterId, ProcId,
ATTR_TIMER_REMOVE_CHECK,
expire_time - time(NULL) ) == -1 ) {
if ( errno == ETIMEDOUT ) {
failure_line_num = __LINE__;
failure_errno = errno;
goto contact_schedd_disconnect;
}
sprintf( error_msg, "ERROR: Failed to SetTimerAttribute %s=%ld for job %d.%d",
ATTR_TIMER_REMOVE_CHECK, expire_time - time(NULL), ClusterId, ProcId );
dprintf( D_ALWAYS, "%s\n", error_msg.c_str() );
error = TRUE;
goto submit_report_result;
}
current_command->classad->Delete( ATTR_TIMER_REMOVE_CHECK );
}
// Set all the classad attribute on the remote classad
current_command->classad->ResetExpr();
ExprTree *tree;
const char *lhstr, *rhstr;
while( current_command->classad->NextExpr(lhstr, tree) ) {
rhstr = ExprTreeToString( tree );
if( !lhstr || !rhstr) {
sprintf( error_msg, "ERROR: ClassAd problem in Updating by constraint %s",
current_command->constraint );
dprintf( D_ALWAYS, "%s\n", error_msg.c_str() );
error = TRUE;
} else if( SetAttribute (ClusterId, ProcId,
lhstr,
rhstr) == -1 ) {
if ( errno == ETIMEDOUT ) {
failure_line_num = __LINE__;
failure_errno = errno;
goto contact_schedd_disconnect;
}
sprintf( error_msg, "ERROR: Failed to SetAttribute %s=%s for job %d.%d",
lhstr, rhstr, ClusterId, ProcId );
dprintf( D_ALWAYS, "%s\n", error_msg.c_str() );
error = TRUE;
}
if (error) break;
} // elihw classad
} // fi error==FALSE
submit_report_result:
char job_id_buff[30];
sprintf (job_id_buff, "%d.%d", ClusterId, ProcId);
if (error) {
const char * result[] = {
GAHP_RESULT_FAILURE,
job_id_buff,
error_msg.c_str() };
enqueue_result (current_command->request_id, result, 3);
if ( qmgr_connection != NULL ) {
errno = 0;
AbortTransaction();
if ( errno == ETIMEDOUT ) {
failure_line_num = __LINE__;
failure_errno = errno;
goto contact_schedd_disconnect;
}
}
current_command->status = SchedDRequest::SDCS_COMPLETED;
} else {
if ( RemoteCommitTransaction() < 0 ) {
failure_line_num = __LINE__;
failure_errno = errno;
goto contact_schedd_disconnect;
}
const char * result[] = {
GAHP_RESULT_SUCCESS,
job_id_buff,
NULL };
enqueue_result (current_command->request_id, result, 3);
current_command->status = SchedDRequest::SDCS_COMPLETED;
}
} // elihw
dprintf (D_FULLDEBUG, "Processing STATUS_CONSTRAINED requests\n");
// STATUS_CONSTRAINED
command_queue.Rewind();
while (command_queue.Next(current_command)) {
if (current_command->status != SchedDRequest::SDCS_NEW)
continue;
if (current_command->command != SchedDRequest::SDC_STATUS_CONSTRAINED)
continue;
if (qmgr_connection != NULL) {
SimpleList <MyString *> matching_ads;
error = FALSE;
ClassAd *next_ad;
ClassAdList adlist;
// Only use GetAllJobsByConstraint if remote schedd is
// 6.9.5 or newer. Previous versions either did not
// support this call, or they closed the Qmgmt connection
// as a side-effect of this call.
if( ver_info.built_since_version(6,9,5) ) {
dprintf( D_FULLDEBUG, "Calling GetAllJobsByConstraint(%s)\n",
current_command->constraint );
// NOTE: this could be made more efficient if we knew
// the list of attributes to query. For lack of that,
// we just get all attributes.
GetAllJobsByConstraint( current_command->constraint, "", adlist);
}
else {
// This is the old latency-prone method.
dprintf( D_FULLDEBUG, "Calling GetNextJobByConstraint(%s)\n",
current_command->constraint );
next_ad = GetNextJobByConstraint( current_command->constraint, 1 );
while( next_ad != NULL ) {
adlist.Insert( next_ad );
next_ad = GetNextJobByConstraint( current_command->constraint, 0 );
}
}
// NOTE: ClassAdList will deallocate the ClassAds in it
adlist.Rewind();
while( (next_ad=adlist.Next()) ) {
MyString * da_buffer = new MyString(); // Use a ptr to avoid excessive copying
if ( useXMLClassads ) {
ClassAdXMLUnparser unparser;
unparser.SetUseCompactSpacing(true);
unparser.Unparse (next_ad, *da_buffer);
} else {
NewClassAdUnparser unparser;
unparser.SetUseCompactSpacing(true);
unparser.Unparse (next_ad, *da_buffer);
}
matching_ads.Append (da_buffer);
}
if ( errno == ETIMEDOUT ) {
failure_line_num = __LINE__;
failure_errno = errno;
goto contact_schedd_disconnect;
}
// now output this list of classads into a result
const char ** result = new const char* [matching_ads.Length() + 3];
std::string _ad_count;
sprintf( _ad_count, "%d", matching_ads.Length() );
int count=0;
result[count++] = GAHP_RESULT_SUCCESS;
result[count++] = NULL;
result[count++] = _ad_count.c_str();
MyString *next_string;
matching_ads.Rewind();
while (matching_ads.Next(next_string)) {
result[count++] = next_string->Value();
}
enqueue_result (current_command->request_id, result, count);
current_command->status = SchedDRequest::SDCS_COMPLETED;
// Cleanup
matching_ads.Rewind();
while (matching_ads.Next(next_string)) {
delete next_string;
}
//CommitTransaction();
delete [] result;
}
else {
const char * result[] = {
GAHP_RESULT_FAILURE,
error_msg.c_str(),
"0" };
//RemoteCommitTransaction();
enqueue_result (current_command->request_id, result, 3);
current_command->status = SchedDRequest::SDCS_COMPLETED;
}
} //elihw
contact_schedd_disconnect:
if ( qmgr_connection != NULL ) {
DisconnectQ (qmgr_connection, FALSE);
}
if ( failure_line_num ) {
// We had an error talking to the schedd. Take all of our
// incomplete commands and mark them as failed.
// TODO Consider retrying these commands, rather than
// immediately marking them as failed.
if ( failure_errno == ETIMEDOUT ) {
dprintf( D_ALWAYS, "Timed out talking to schedd at line %d in "
"doContactSchedd()\n", failure_line_num );
sprintf( error_msg, "Timed out talking to schedd" );
} else {
dprintf( D_ALWAYS, "Error talking to schedd at line %d in "
"doContactSchedd(), errno=%d (%s)\n", failure_line_num,
failure_errno, strerror(failure_errno) );
sprintf( error_msg, "Error talking to schedd" );
}
command_queue.Rewind();
while (command_queue.Next(current_command)) {
if ( current_command->status != SchedDRequest::SDCS_NEW ) {
continue;
}
switch( current_command->command ) {
case SchedDRequest::SDC_UPDATE_JOB:
case SchedDRequest::SDC_UPDATE_CONSTRAINED:
{
const char *result[2] = { GAHP_RESULT_FAILURE, error_msg.c_str() };
enqueue_result (current_command->request_id, result, 2);
current_command->status = SchedDRequest::SDCS_COMPLETED;
}
break;
case SchedDRequest::SDC_UPDATE_LEASE:
{
const char *result[3] = { GAHP_RESULT_FAILURE, error_msg.c_str(), NULL };
enqueue_result (current_command->request_id, result, 3);
current_command->status = SchedDRequest::SDCS_COMPLETED;
}
break;
case SchedDRequest::SDC_SUBMIT_JOB:
{
const char *result[3] = { GAHP_RESULT_FAILURE, "-1.-1", error_msg.c_str() };
enqueue_result (current_command->request_id, result, 3);
current_command->status = SchedDRequest::SDCS_COMPLETED;
}
break;
case SchedDRequest::SDC_STATUS_CONSTRAINED:
{
const char *result[3] = { GAHP_RESULT_FAILURE, error_msg.c_str(), "0" };
enqueue_result (current_command->request_id, result, 3);
current_command->status = SchedDRequest::SDCS_COMPLETED;
}
break;
default:
// Do nothing
;
}
}
}
if ( do_reschedule ) {
dc_schedd.reschedule();
}
// Write all of our results to our parent.
flush_results();
dprintf (D_FULLDEBUG, "Finishing doContactSchedd()\n");
// Clean up the list
command_queue.Rewind();
while (command_queue.Next(current_command)) {
if (current_command->status == SchedDRequest::SDCS_COMPLETED) {
command_queue.DeleteCurrent();
delete current_command;
}
}
// Come back soon..
// QUESTION: Should this always be a fixed time period?
daemonCore->Reset_Timer( contactScheddTid, contact_schedd_interval );
}