/**
* Initialization of data structures for running under a debugger
* using the MPICH/TotalView parallel debugger interface. Before the
* spawn we need to check if we are being run under a TotalView-like
* debugger; if so then inform applications via an MCA parameter.
*/
void orte_debugger_init_before_spawn(orte_job_t *jdata)
{
char *env_name;
orte_app_context_t **apps, *app;
orte_std_cntr_t i;
int32_t ljob;
if (!MPIR_being_debugged && !orte_in_parallel_debugger) {
/* not being debugged - check if we want to enable
* later attachment by debugger
*/
if (orte_enable_debug_cospawn_while_running) {
/* setup a timer to wake us up periodically
* to check for debugger attach
*/
ORTE_TIMER_EVENT(orte_debugger_check_rate, 0, check_debugger);
}
return;
}
if (orte_debug_flag) {
opal_output(0, "Info: Spawned by a debugger");
}
/* tell the procs they are being debugged */
apps = (orte_app_context_t**)jdata->apps->addr;
env_name = mca_base_param_environ_variable("orte",
"in_parallel_debugger", NULL);
for (i=0; i < jdata->num_apps; i++) {
opal_setenv(env_name, "1", true, &apps[i]->env);
}
free(env_name);
/* check if we need to co-spawn the debugger daemons */
if ('\0' != MPIR_executable_path[0]) {
/* add debugger info to launch message */
orte_debugger_daemon = OBJ_NEW(orte_job_t);
/* create a jobid for these daemons - this is done solely
* to avoid confusing the rest of the system's bookkeeping
*/
orte_plm_base_create_jobid(orte_debugger_daemon);
/* flag the job as being debugger daemons */
orte_debugger_daemon->controls |= ORTE_JOB_CONTROL_DEBUGGER_DAEMON;
/* unless directed, we do not forward output */
if (!MPIR_forward_output) {
orte_debugger_daemon->controls &= ~ORTE_JOB_CONTROL_FORWARD_OUTPUT;
}
/* add it to the global job pool */
ljob = ORTE_LOCAL_JOBID(orte_debugger_daemon->jobid);
opal_pointer_array_set_item(orte_job_data, ljob, orte_debugger_daemon);
/* create an app_context for the debugger daemon */
app = OBJ_NEW(orte_app_context_t);
app->app = strdup((char*)MPIR_executable_path);
opal_argv_append_nosize(&app->argv, app->app);
build_debugger_args(app);
opal_pointer_array_add(orte_debugger_daemon->apps, &app->super);
orte_debugger_daemon->num_apps = 1;
}
}
void orte_plm_base_start_heart(void)
{
/* if the heartbeat rate > 0, then start the heart */
if (0 < orte_heartbeat_rate) {
ORTE_TIMER_EVENT(HEARTBEAT_CK*orte_heartbeat_rate, 0, check_heartbeat);
}
}
static void vm_term(int status,
orte_process_name_t *sender,
orcm_pnp_tag_t tag,
struct iovec *msg, int count,
opal_buffer_t *buf,
void *cbdata)
{
int rc, n;
uint16_t jfam;
opal_buffer_t response;
orcm_tool_cmd_t flag=ORCM_TOOL_STOP_CMD;
OPAL_OUTPUT_VERBOSE((1, orte_ess_base_output,
"%s GOT TERM COMMAND FROM %s",
ORTE_NAME_PRINT(ORTE_PROC_MY_NAME),
ORTE_NAME_PRINT(sender)));
/* if this isn't intended for me, ignore it */
n=1;
if (ORTE_SUCCESS != (rc = opal_dss.unpack(buf, &jfam, &n, OPAL_UINT16))) {
ORTE_ERROR_LOG(rc);
return;
}
if (jfam != ORTE_JOB_FAMILY(ORTE_PROC_MY_NAME->jobid)) {
OPAL_OUTPUT_VERBOSE((1, orte_ess_base_output,
"%s GOT TERM COMMAND FOR DVM %d - NOT FOR ME!",
ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), jfam));
return;
}
ORTE_TIMER_EVENT(0, 0, orcm_just_quit);
}
static void signal_trap(int fd, short flags, void *arg)
{
if (!opal_atomic_trylock(&orte_abort_inprogress_lock)) { /* returns 1 if already locked */
if (forcibly_die) {
opal_output(0, "%s forcibly exiting upon signal %s",
ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), strsignal(fd));
/* exit with a non-zero status */
exit(ORTE_ERROR_DEFAULT_EXIT_CODE);
}
opal_output(0, "orcm: abort is already in progress...hit ctrl-c again to forcibly terminate\n\n");
forcibly_die = true;
return;
}
/* set the global abnormal exit flag so we know not to
* use the standard xcast for terminating orteds
*/
orte_abnormal_term_ordered = true;
/* ensure that the forwarding of stdin stops */
orte_job_term_ordered = true;
/* if we are the scheduler and user directed, order any associated orcm daemons to die */
if (ORCM_PROC_IS_SCHEDULER && orcm_sched_kill_dvm &&
NULL != orte_plm.terminate_orteds) {
orte_plm.terminate_orteds();
}
ORTE_TIMER_EVENT(0, 0, orcm_just_quit);
}
int main(int argc, char* argv[])
{
struct timespec tp;
int rc, delay;
target.jobid = ORTE_JOBID_INVALID;
target.vpid = ORTE_VPID_INVALID;
/* init the ORCM library - this includes registering
* a multicast recv so we hear announcements and
* their responses from other apps
*/
if (ORCM_SUCCESS != (rc = orcm_init(ORCM_APP))) {
fprintf(stderr, "Failed to init: error %d\n", rc);
exit(1);
}
opal_event_signal_set(opal_event_base, &sigterm_handler, SIGTERM,
signal_trap, &sigterm_handler);
opal_event_signal_add(&sigterm_handler, NULL);
opal_event_signal_set(opal_event_base, &sigint_handler, SIGINT,
signal_trap, &sigint_handler);
opal_event_signal_add(&sigint_handler, NULL);
/* for this application, register to hear messages sent to our input */
if (ORCM_SUCCESS != (rc = orcm_pnp.register_receive("client", "2.0", "beta",
ORCM_PNP_GROUP_INPUT_CHANNEL,
ORCM_TEST_CLIENT_SERVER_TAG, recv_input, NULL))) {
ORTE_ERROR_LOG(rc);
goto cleanup;
}
/* open a channel to any client 1.0 peers */
if (ORCM_SUCCESS != (rc = orcm_pnp.open_channel("client", "1.0", NULL, ORTE_JOBID_WILDCARD, found_channel))) {
ORTE_ERROR_LOG(rc);
goto cleanup;
}
/* announce our existence */
if (ORCM_SUCCESS != (rc = orcm_pnp.announce("CLIENT", "2.0", "beta", responses))) {
ORTE_ERROR_LOG(rc);
goto cleanup;
}
opal_output(0, "CLIENT2 %s ACTIVE", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME));
/* init the msg number */
msg_num = 0;
/* wake up every x seconds send something */
ORTE_TIMER_EVENT(ORTE_PROC_MY_NAME->vpid + 1, 0, send_data);
opal_event_dispatch(opal_event_base);
cleanup:
orcm_finalize();
return rc;
}
static void signal_trap(int signal, short flags, void *arg)
{
/* cannot directly call finalize and exit as
* we are in a signal handler - and the OS
* would be extremely upset with us!
*/
orte_abnormal_term_ordered = true;
ORTE_UPDATE_EXIT_STATUS(128+signal);
ORTE_TIMER_EVENT(0, 0, orcm_just_quit);
}
int main(int argc, char* argv[])
{
struct timespec tp;
int rc;
/* init the ORCM library - this includes registering
* a multicast recv so we hear announcements and
* their responses from other apps
*/
if (ORCM_SUCCESS != (rc = orcm_init(ORCM_APP))) {
fprintf(stderr, "Failed to init: error %d\n", rc);
exit(1);
}
opal_event_signal_set(opal_event_base, &sigterm_handler, SIGTERM,
signal_trap, &sigterm_handler);
opal_event_signal_add(&sigterm_handler, NULL);
opal_event_signal_set(opal_event_base, &sigint_handler, SIGINT,
signal_trap, &sigint_handler);
opal_event_signal_add(&sigint_handler, NULL);
/* announce our existence */
if (ORCM_SUCCESS != (rc = orcm_pnp.announce("TALKER_IOVEC", "1.0", "alpha", NULL))) {
ORTE_ERROR_LOG(rc);
goto cleanup;
}
/* for this application, there are no desired
* inputs, so we don't register any
*/
ORTE_TIMER_EVENT(ORTE_PROC_MY_NAME->vpid + 1, 0, send_data);
opal_event_dispatch(opal_event_base);
cleanup:
orcm_finalize();
return rc;
}
/* this is the read handler for my own child procs and stdin
*/
void orte_iof_mrhnp_read_local_handler(int fd, short event, void *cbdata)
{
orte_iof_read_event_t *rev = (orte_iof_read_event_t*)cbdata;
unsigned char data[ORTE_IOF_BASE_MSG_MAX];
int32_t numbytes;
opal_list_item_t *item;
orte_iof_proc_t *proct;
int i, j;
orte_ns_cmp_bitmask_t mask;
orte_job_t *jdata;
orte_iof_job_t *iofjob;
orte_node_t *node;
orte_proc_t *daemon;
orte_job_map_t *map;
bool write_out=false;
/* read up to the fragment size */
#if !defined(__WINDOWS__)
numbytes = read(fd, data, sizeof(data));
#else
{
DWORD readed;
HANDLE handle = (HANDLE)_get_osfhandle(fd);
ReadFile(handle, data, sizeof(data), &readed, NULL);
numbytes = (int)readed;
}
#endif /* !defined(__WINDOWS__) */
OPAL_OUTPUT_VERBOSE((1, orte_iof_base.iof_output,
"%s iof:mrhnp:read handler read %d bytes from %s:%d",
ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), numbytes,
ORTE_NAME_PRINT(&rev->name), fd));
if (numbytes < 0) {
/* either we have a connection error or it was a non-blocking read */
/* non-blocking, retry */
if (EAGAIN == errno || EINTR == errno) {
opal_event_add(rev->ev, 0);
return;
}
OPAL_OUTPUT_VERBOSE((1, orte_iof_base.iof_output,
"%s iof:mrhnp:read handler %s Error on connection:%d",
ORTE_NAME_PRINT(ORTE_PROC_MY_NAME),
ORTE_NAME_PRINT(&rev->name), fd));
/* Un-recoverable error. Allow the code to flow as usual in order to
* to send the zero bytes message up the stream, and then close the
* file descriptor and delete the event.
*/
numbytes = 0;
}
/* if job termination has been ordered, just ignore the
* data and delete the stdin read event, if that is what fired
*/
if (orte_job_term_ordered) {
if (ORTE_IOF_STDIN & rev->tag) {
OBJ_RELEASE(mca_iof_mr_hnp_component.stdinev);
}
return;
}
if (ORTE_IOF_STDIN & rev->tag) {
/* The event has fired, so it's no longer active until we
* re-add it
*/
mca_iof_mr_hnp_component.stdinev->active = false;
/* if this was read from my stdin, I need to send this input to all
* daemons who host mapper procs
*/
for (j=0; j < mca_iof_mr_hnp_component.stdin_jobs.size; j++) {
if (NULL == (iofjob = (orte_iof_job_t*)opal_pointer_array_get_item(&mca_iof_mr_hnp_component.stdin_jobs, j))) {
continue;
}
jdata = iofjob->jdata;
OPAL_OUTPUT_VERBOSE((1, orte_iof_base.iof_output,
"%s read %d bytes from stdin - writing to job %s",
ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), numbytes,
ORTE_JOBID_PRINT(jdata->jobid)));
map = jdata->map;
for (i=0; i < map->nodes->size; i++) {
if (NULL == (node = (orte_node_t*)opal_pointer_array_get_item(map->nodes, i))) {
continue;
}
daemon = node->daemon;
if (daemon->name.vpid == ORTE_PROC_MY_NAME->vpid) {
/* if it is me, then send the bytes down the stdin pipe
* for every local proc (they are all on my proct list) - we even send 0 byte events
* down the pipe so it forces out any preceding data before
* closing the output stream. We add a 0 byte message if
* numbytes < sizeof(data) as this means the chunk we read
* was the end of the file.
*/
for (item = opal_list_get_first(&mca_iof_mr_hnp_component.procs);
item != opal_list_get_end(&mca_iof_mr_hnp_component.procs);
item = opal_list_get_next(item)) {
proct = (orte_iof_proc_t*)item;
if (proct->name.jobid == jdata->jobid) {
if (NULL == proct->sink) {
opal_output(0, "NULL SINK FOR PROC %s", ORTE_NAME_PRINT(&proct->name));
continue;
}
if (ORTE_IOF_MAX_INPUT_BUFFERS < orte_iof_base_write_output(&proct->name, ORTE_IOF_STDIN, data, numbytes, proct->sink->wev)) {
/* getting too backed up - stop the read event for now if it is still active */
if (mca_iof_mr_hnp_component.stdinev->active) {
OPAL_OUTPUT_VERBOSE((1, orte_iof_base.iof_output,
"buffer backed up - holding"));
mca_iof_mr_hnp_component.stdinev->active = false;
}
return;
}
if (0 < numbytes && numbytes < (int)sizeof(data)) {
/* need to write a 0-byte event to clear the stream and close it */
orte_iof_base_write_output(&proct->name, ORTE_IOF_STDIN, data, 0, proct->sink->wev);
proct->sink = NULL;
}
}
}
} else {
OPAL_OUTPUT_VERBOSE((1, orte_iof_base.iof_output,
"%s sending %d bytes from stdin to daemon %s",
ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), numbytes,
ORTE_NAME_PRINT(&daemon->name)));
/* send the data to the daemon so it can
* write it to all local procs from this job.
* If the connection closed,
* numbytes will be zero so zero bytes will be
* sent - this will tell the daemon to close
* the fd for stdin to that proc
*/
send_data(&daemon->name, ORTE_IOF_STDIN, jdata->jobid, data, numbytes);
if (0 < numbytes && numbytes < (int)sizeof(data)) {
/* need to send a 0-byte message to clear the stream and close it */
send_data(&daemon->name, ORTE_IOF_STDIN, jdata->jobid, data, 0);
}
}
}
}
/* if num_bytes was zero, then we need to terminate the event */
if (0 == numbytes || numbytes < (int)sizeof(data)) {
/* this will also close our stdin file descriptor */
if (NULL != mca_iof_mr_hnp_component.stdinev) {
OBJ_RELEASE(mca_iof_mr_hnp_component.stdinev);
}
} else {
/* if we are looking at a tty, then we just go ahead and restart the
* read event assuming we are not backgrounded
*/
if (orte_iof_mrhnp_stdin_check(fd)) {
restart_stdin(fd, 0, NULL);
} else {
/* delay for awhile and then restart */
ORTE_TIMER_EVENT(0, 10000, restart_stdin, ORTE_INFO_PRI);
}
}
return;
}
if (ORTE_IOF_STDOUT & rev->tag && 0 < numbytes) {
/* see if we need to forward this output */
jdata = orte_get_job_data_object(rev->name.jobid);
if (ORTE_JOBID_INVALID == jdata->stdout_target) {
/* end of the chain - just output the info */
write_out = true;
goto PROCESS;
}
/* it goes to the next job in the chain */
jdata = orte_get_job_data_object(jdata->stdout_target);
map = jdata->map;
for (i=0; i < map->nodes->size; i++) {
if (NULL == (node = (orte_node_t*)opal_pointer_array_get_item(map->nodes, i))) {
continue;
}
daemon = node->daemon;
if (daemon->name.vpid == ORTE_PROC_MY_NAME->vpid) {
/* if it is me, then send the bytes down the stdin pipe
* for every local proc (they are all on my proct list)
*/
for (item = opal_list_get_first(&mca_iof_mr_hnp_component.procs);
item != opal_list_get_end(&mca_iof_mr_hnp_component.procs);
item = opal_list_get_next(item)) {
proct = (orte_iof_proc_t*)item;
if (proct->name.jobid == jdata->jobid) {
if (NULL == proct->sink) {
opal_output(0, "NULL SINK FOR PROC %s", ORTE_NAME_PRINT(&proct->name));
continue;
}
orte_iof_base_write_output(&proct->name, ORTE_IOF_STDIN, data, numbytes, proct->sink->wev);
}
}
} else {
OPAL_OUTPUT_VERBOSE((1, orte_iof_base.iof_output,
"%s sending %d bytes from stdout of %s to daemon %s",
ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), numbytes,
ORTE_NAME_PRINT(&rev->name),
ORTE_NAME_PRINT(&daemon->name)));
/* send the data to the daemon so it can
* write it to all local procs from this job
*/
send_data(&daemon->name, ORTE_IOF_STDIN, jdata->jobid, data, numbytes);
}
}
}
PROCESS:
OPAL_OUTPUT_VERBOSE((1, orte_iof_base.iof_output,
"%s read %d bytes from %s of %s",
ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), numbytes,
(ORTE_IOF_STDOUT & rev->tag) ? "stdout" : ((ORTE_IOF_STDERR & rev->tag) ? "stderr" : "stddiag"),
ORTE_NAME_PRINT(&rev->name)));
if (0 == numbytes) {
/* if we read 0 bytes from the stdout/err/diag, find this proc
* on our list and
* release the appropriate event. This will delete the
* read event and close the file descriptor
*/
for (item = opal_list_get_first(&mca_iof_mr_hnp_component.procs);
item != opal_list_get_end(&mca_iof_mr_hnp_component.procs);
item = opal_list_get_next(item)) {
proct = (orte_iof_proc_t*)item;
mask = ORTE_NS_CMP_ALL;
if (OPAL_EQUAL == orte_util_compare_name_fields(mask, &proct->name, &rev->name)) {
/* found it - release corresponding event. This deletes
* the read event and closes the file descriptor
*/
if (rev->tag & ORTE_IOF_STDOUT) {
OBJ_RELEASE(proct->revstdout);
} else if (rev->tag & ORTE_IOF_STDERR) {
OBJ_RELEASE(proct->revstderr);
} else if (rev->tag & ORTE_IOF_STDDIAG) {
OBJ_RELEASE(proct->revstddiag);
}
/* check to see if they are all done */
if (NULL == proct->revstdout &&
NULL == proct->revstderr &&
NULL == proct->revstddiag) {
/* this proc's iof is complete */
opal_list_remove_item(&mca_iof_mr_hnp_component.procs, item);
ORTE_ACTIVATE_PROC_STATE(&proct->name, ORTE_PROC_STATE_IOF_COMPLETE);
OBJ_RELEASE(proct);
}
break;
}
}
return;
} else {
/* output this to our local output */
if (ORTE_IOF_STDOUT & rev->tag) {
if (write_out) {
orte_iof_base_write_output(&rev->name, rev->tag, data, numbytes, orte_iof_base.iof_write_stdout->wev);
}
} else {
orte_iof_base_write_output(&rev->name, rev->tag, data, numbytes, orte_iof_base.iof_write_stderr->wev);
}
}
/* re-add the event */
opal_event_add(rev->ev, 0);
return;
}
int orte_daemon(int argc, char *argv[])
{
int ret = 0;
opal_cmd_line_t *cmd_line = NULL;
char *rml_uri;
int i;
opal_buffer_t *buffer;
char hostname[100];
char *tmp_env_var = NULL;
/* initialize the globals */
memset(&orted_globals, 0, sizeof(orted_globals));
/* initialize the singleton died pipe to an illegal value so we can detect it was set */
orted_globals.singleton_died_pipe = -1;
/* init the failure orted vpid to an invalid value */
orted_globals.fail = ORTE_VPID_INVALID;
/* setup to check common command line options that just report and die */
cmd_line = OBJ_NEW(opal_cmd_line_t);
if (OPAL_SUCCESS != opal_cmd_line_create(cmd_line, orte_cmd_line_opts)) {
OBJ_RELEASE(cmd_line);
exit(1);
}
mca_base_cmd_line_setup(cmd_line);
if (ORTE_SUCCESS != (ret = opal_cmd_line_parse(cmd_line, false,
argc, argv))) {
char *args = NULL;
args = opal_cmd_line_get_usage_msg(cmd_line);
fprintf(stderr, "Usage: %s [OPTION]...\n%s\n", argv[0], args);
free(args);
OBJ_RELEASE(cmd_line);
return ret;
}
/*
* Since this process can now handle MCA/GMCA parameters, make sure to
* process them.
*/
mca_base_cmd_line_process_args(cmd_line, &environ, &environ);
/* Ensure that enough of OPAL is setup for us to be able to run */
/*
* NOTE: (JJH)
* We need to allow 'mca_base_cmd_line_process_args()' to process command
* line arguments *before* calling opal_init_util() since the command
* line could contain MCA parameters that affect the way opal_init_util()
* functions. AMCA parameters are one such option normally received on the
* command line that affect the way opal_init_util() behaves.
* It is "safe" to call mca_base_cmd_line_process_args() before
* opal_init_util() since mca_base_cmd_line_process_args() does *not*
* depend upon opal_init_util() functionality.
*/
if (OPAL_SUCCESS != opal_init_util(&argc, &argv)) {
fprintf(stderr, "OPAL failed to initialize -- orted aborting\n");
exit(1);
}
/* save the environment for launch purposes. This MUST be
* done so that we can pass it to any local procs we
* spawn - otherwise, those local procs won't see any
* non-MCA envars that were set in the enviro when the
* orted was executed - e.g., by .csh
*/
orte_launch_environ = opal_argv_copy(environ);
/* purge any ess flag set in the environ when we were launched */
opal_unsetenv("OMPI_MCA_ess", &orte_launch_environ);
/* if orte_daemon_debug is set, let someone know we are alive right
* away just in case we have a problem along the way
*/
if (orted_globals.debug) {
gethostname(hostname, 100);
fprintf(stderr, "Daemon was launched on %s - beginning to initialize\n", hostname);
}
/* check for help request */
if (orted_globals.help) {
char *args = NULL;
args = opal_cmd_line_get_usage_msg(cmd_line);
orte_show_help("help-orted.txt", "orted:usage", false,
argv[0], args);
free(args);
return 1;
}
#if defined(HAVE_SETSID) && !defined(__WINDOWS__)
/* see if we were directed to separate from current session */
if (orted_globals.set_sid) {
setsid();
}
#endif /* !defined(__WINDOWS__) */
/* see if they want us to spin until they can connect a debugger to us */
i=0;
while (orted_spin_flag) {
i++;
if (1000 < i) i=0;
}
#if OPAL_ENABLE_FT_CR == 1
/* Mark as a tool program */
tmp_env_var = mca_base_param_env_var("opal_cr_is_tool");
opal_setenv(tmp_env_var,
"1",
true, &environ);
free(tmp_env_var);
#endif
tmp_env_var = NULL; /* Silence compiler warning */
/* if mapreduce set, flag it */
if (orted_globals.mapreduce) {
orte_map_reduce = true;
}
/* Set the flag telling OpenRTE that I am NOT a
* singleton, but am "infrastructure" - prevents setting
* up incorrect infrastructure that only a singleton would
* require.
*/
if (orted_globals.hnp) {
if (ORTE_SUCCESS != (ret = orte_init(&argc, &argv, ORTE_PROC_HNP))) {
ORTE_ERROR_LOG(ret);
return ret;
}
} else {
if (ORTE_SUCCESS != (ret = orte_init(&argc, &argv, ORTE_PROC_DAEMON))) {
ORTE_ERROR_LOG(ret);
return ret;
}
}
/* finalize the OPAL utils. As they are opened again from orte_init->opal_init
* we continue to have a reference count on them. So we have to finalize them twice...
*/
opal_finalize_util();
if ((int)ORTE_VPID_INVALID != orted_globals.fail) {
orted_globals.abort=false;
/* some vpid was ordered to fail. The value can be positive
* or negative, depending upon the desired method for failure,
* so need to check both here
*/
if (0 > orted_globals.fail) {
orted_globals.fail = -1*orted_globals.fail;
orted_globals.abort = true;
}
/* are we the specified vpid? */
if ((int)ORTE_PROC_MY_NAME->vpid == orted_globals.fail) {
/* if the user specified we delay, then setup a timer
* and have it kill us
*/
if (0 < orted_globals.fail_delay) {
ORTE_TIMER_EVENT(orted_globals.fail_delay, 0, shutdown_callback, ORTE_SYS_PRI);
} else {
opal_output(0, "%s is executing clean %s", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME),
orted_globals.abort ? "abort" : "abnormal termination");
/* do -not- call finalize as this will send a message to the HNP
* indicating clean termination! Instead, just forcibly cleanup
* the local session_dir tree and exit
*/
orte_session_dir_cleanup(ORTE_JOBID_WILDCARD);
/* if we were ordered to abort, do so */
if (orted_globals.abort) {
abort();
}
/* otherwise, return with non-zero status */
ret = ORTE_ERROR_DEFAULT_EXIT_CODE;
goto DONE;
}
}
}
/* detach from controlling terminal
* otherwise, remain attached so output can get to us
*/
if(!orte_debug_flag &&
!orte_debug_daemons_flag &&
orted_globals.daemonize) {
opal_daemon_init(NULL);
}
/* insert our contact info into our process_info struct so we
* have it for later use and set the local daemon field to our name
*/
orte_process_info.my_daemon_uri = orte_rml.get_contact_info();
ORTE_PROC_MY_DAEMON->jobid = ORTE_PROC_MY_NAME->jobid;
ORTE_PROC_MY_DAEMON->vpid = ORTE_PROC_MY_NAME->vpid;
/* if I am also the hnp, then update that contact info field too */
if (ORTE_PROC_IS_HNP) {
orte_process_info.my_hnp_uri = orte_rml.get_contact_info();
ORTE_PROC_MY_HNP->jobid = ORTE_PROC_MY_NAME->jobid;
ORTE_PROC_MY_HNP->vpid = ORTE_PROC_MY_NAME->vpid;
}
/* setup the primary daemon command receive function */
ret = orte_rml.recv_buffer_nb(ORTE_NAME_WILDCARD, ORTE_RML_TAG_DAEMON,
ORTE_RML_PERSISTENT, orte_daemon_recv, NULL);
if (ret != ORTE_SUCCESS && ret != ORTE_ERR_NOT_IMPLEMENTED) {
ORTE_ERROR_LOG(ret);
goto DONE;
}
/* output a message indicating we are alive, our name, and our pid
* for debugging purposes
*/
if (orte_debug_daemons_flag) {
fprintf(stderr, "Daemon %s checking in as pid %ld on host %s\n",
ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), (long)orte_process_info.pid,
orte_process_info.nodename);
}
/* We actually do *not* want the orted to voluntarily yield() the
processor more than necessary. The orted already blocks when
it is doing nothing, so it doesn't use any more CPU cycles than
it should; but when it *is* doing something, we do not want it
to be unnecessarily delayed because it voluntarily yielded the
processor in the middle of its work.
For example: when a message arrives at the orted, we want the
OS to wake up the orted in a timely fashion (which most OS's
seem good about doing) and then we want the orted to process
the message as fast as possible. If the orted yields and lets
aggressive MPI applications get the processor back, it may be a
long time before the OS schedules the orted to run again
(particularly if there is no IO event to wake it up). Hence,
routed OOB messages (for example) may be significantly delayed
before being delivered to MPI processes, which can be
problematic in some scenarios (e.g., COMM_SPAWN, BTL's that
require OOB messages for wireup, etc.). */
opal_progress_set_yield_when_idle(false);
/* Change the default behavior of libevent such that we want to
continually block rather than blocking for the default timeout
and then looping around the progress engine again. There
should be nothing in the orted that cannot block in libevent
until "something" happens (i.e., there's no need to keep
cycling through progress because the only things that should
happen will happen in libevent). This is a minor optimization,
but what the heck... :-) */
opal_progress_set_event_flag(OPAL_EVLOOP_ONCE);
/* if requested, obtain and report a new process name and my uri to the indicated pipe */
if (orted_globals.uri_pipe > 0) {
orte_job_t *jdata;
orte_proc_t *proc;
orte_node_t *node;
orte_app_context_t *app;
char *tmp, *nptr, *sysinfo;
int32_t ljob;
/* setup the singleton's job */
jdata = OBJ_NEW(orte_job_t);
orte_plm_base_create_jobid(jdata);
ljob = ORTE_LOCAL_JOBID(jdata->jobid);
opal_pointer_array_set_item(orte_job_data, ljob, jdata);
/* must create a map for it (even though it has no
* info in it) so that the job info will be picked
* up in subsequent pidmaps or other daemons won't
* know how to route
*/
jdata->map = OBJ_NEW(orte_job_map_t);
/* setup an app_context for the singleton */
app = OBJ_NEW(orte_app_context_t);
app->app = strdup("singleton");
app->num_procs = 1;
opal_pointer_array_add(jdata->apps, app);
#if 0
/* run our local allocator to read the available
* allocation in case this singleton decides to
* comm_spawn other procs
*/
if (ORTE_SUCCESS != (ret = orte_ras.allocate(jdata))) {
ORTE_ERROR_LOG(ret);
/* don't quit as this would cause the singleton
* to hang!
*/
}
#endif
/* setup a proc object for the singleton - since we
* -must- be the HNP, and therefore we stored our
* node on the global node pool, and since the singleton
* -must- be on the same node as us, indicate that
*/
proc = OBJ_NEW(orte_proc_t);
proc->name.jobid = jdata->jobid;
proc->name.vpid = 0;
proc->alive = true;
proc->state = ORTE_PROC_STATE_RUNNING;
proc->app_idx = 0;
/* obviously, it is on my node */
node = (orte_node_t*)opal_pointer_array_get_item(orte_node_pool, 0);
proc->node = node;
OBJ_RETAIN(node); /* keep accounting straight */
opal_pointer_array_add(jdata->procs, proc);
jdata->num_procs = 1;
/* and obviously it is one of my local procs */
OBJ_RETAIN(proc);
opal_pointer_array_add(orte_local_children, proc);
jdata->num_local_procs = 1;
/* set the trivial */
proc->local_rank = 0;
proc->node_rank = 0;
proc->app_rank = 0;
proc->state = ORTE_PROC_STATE_RUNNING;
proc->alive = true;
proc->app_idx = 0;
proc->local_proc = true;
#if OPAL_HAVE_HWLOC
proc->bind_idx = 0;
#endif
/* the singleton will use the first three collectives
* for its modex/barriers
*/
orte_grpcomm_base.coll_id += 3;
/* need to setup a pidmap for it */
jdata->pmap = (opal_byte_object_t*)malloc(sizeof(opal_byte_object_t));
if (ORTE_SUCCESS != (ret = orte_util_encode_pidmap(jdata->pmap))) {
ORTE_ERROR_LOG(ret);
goto DONE;
}
/* if we don't yet have a daemon map, then we have to generate one
* to pass back to it
*/
if (NULL == orte_odls_globals.dmap) {
orte_odls_globals.dmap = (opal_byte_object_t*)malloc(sizeof(opal_byte_object_t));
/* construct a nodemap */
if (ORTE_SUCCESS != (ret = orte_util_encode_nodemap(orte_odls_globals.dmap))) {
ORTE_ERROR_LOG(ret);
goto DONE;
}
}
/* create a string that contains our uri + the singleton's name + sysinfo */
orte_util_convert_process_name_to_string(&nptr, &proc->name);
orte_util_convert_sysinfo_to_string(&sysinfo, orte_local_cpu_type, orte_local_cpu_model);
asprintf(&tmp, "%s[%s][%s]", orte_process_info.my_daemon_uri, nptr, sysinfo);
free(nptr);
free(sysinfo);
/* pass that info to the singleton */
#ifndef __WINDOWS__
write(orted_globals.uri_pipe, tmp, strlen(tmp)+1); /* need to add 1 to get the NULL */
#else
send(orted_globals.uri_pipe, tmp, strlen(tmp)+1, 0); /* need to add 1 to get the NULL */
#endif
/* cleanup */
free(tmp);
}
/* if we were given a pipe to monitor for singleton termination, set that up */
if (orted_globals.singleton_died_pipe > 0) {
/* register shutdown handler */
pipe_handler = (opal_event_t*)malloc(sizeof(opal_event_t));
opal_event_set(orte_event_base, pipe_handler,
orted_globals.singleton_died_pipe,
OPAL_EV_READ,
pipe_closed,
pipe_handler);
opal_event_add(pipe_handler, NULL);
}
/* If I have a parent, then save his contact info so
* any messages we send can flow thru him.
*/
mca_base_param_reg_string_name("orte", "parent_uri",
"URI for the parent if tree launch is enabled.",
true, false, NULL, &rml_uri);
if (NULL != rml_uri) {
orte_process_name_t parent;
/* set the contact info into the hash table */
if (ORTE_SUCCESS != (ret = orte_rml.set_contact_info(rml_uri))) {
ORTE_ERROR_LOG(ret);
free(rml_uri);
goto DONE;
}
ret = orte_rml_base_parse_uris(rml_uri, &parent, NULL );
if( ORTE_SUCCESS != ret ) {
ORTE_ERROR_LOG(ret);
free(rml_uri);
goto DONE;
}
free(rml_uri);
/* tell the routed module that we have a path
* back to the HNP
*/
if (ORTE_SUCCESS != (ret = orte_routed.update_route(ORTE_PROC_MY_HNP, &parent))) {
ORTE_ERROR_LOG(ret);
goto DONE;
}
/* set the lifeline to point to our parent so that we
* can handle the situation if that lifeline goes away
*/
if (ORTE_SUCCESS != (ret = orte_routed.set_lifeline(&parent))) {
ORTE_ERROR_LOG(ret);
goto DONE;
}
}
/* if we are not the HNP...the only time we will be an HNP
* is if we are launched by a singleton to provide support
* for it
*/
if (!ORTE_PROC_IS_HNP) {
/* send the information to the orted report-back point - this function
* will process the data, but also counts the number of
* orteds that reported back so the launch procedure can continue.
* We need to do this at the last possible second as the HNP
* can turn right around and begin issuing orders to us
*/
buffer = OBJ_NEW(opal_buffer_t);
/* insert our name for rollup purposes */
if (ORTE_SUCCESS != (ret = opal_dss.pack(buffer, ORTE_PROC_MY_NAME, 1, ORTE_NAME))) {
ORTE_ERROR_LOG(ret);
OBJ_RELEASE(buffer);
goto DONE;
}
/* for now, always include our contact info, even if we are using
* static ports. Eventually, this will be removed
*/
rml_uri = orte_rml.get_contact_info();
if (ORTE_SUCCESS != (ret = opal_dss.pack(buffer, &rml_uri, 1, OPAL_STRING))) {
ORTE_ERROR_LOG(ret);
OBJ_RELEASE(buffer);
goto DONE;
}
/* include our node name */
opal_dss.pack(buffer, &orte_process_info.nodename, 1, OPAL_STRING);
#if OPAL_HAVE_HWLOC
/* add the local topology */
if (NULL != opal_hwloc_topology &&
(1 == ORTE_PROC_MY_NAME->vpid || orte_hetero_nodes)) {
if (ORTE_SUCCESS != (ret = opal_dss.pack(buffer, &opal_hwloc_topology, 1, OPAL_HWLOC_TOPO))) {
ORTE_ERROR_LOG(ret);
}
}
#endif
if ((orte_static_ports || orte_use_common_port) && !orted_globals.tree_spawn) {
/* use the rollup collective to send our data to the HNP
* so we minimize the HNP bottleneck
*/
orte_grpcomm_collective_t *coll;
coll = OBJ_NEW(orte_grpcomm_collective_t);
/* get the list of contributors we need from the routed module */
orte_routed.get_routing_list(ORTE_GRPCOMM_COLL_PEERS, coll);
/* add the collective to our list */
opal_list_append(&orte_grpcomm_base.active_colls, &coll->super);
/* send the buffer to ourselves to start the collective */
if (0 > (ret = orte_rml.send_buffer_nb(ORTE_PROC_MY_NAME, buffer,
ORTE_RML_TAG_ROLLUP, 0,
rml_cbfunc, NULL))) {
ORTE_ERROR_LOG(ret);
OBJ_RELEASE(buffer);
goto DONE;
}
} else {
/* send directly to the HNP's callback */
if (0 > (ret = orte_rml.send_buffer_nb(ORTE_PROC_MY_HNP, buffer,
ORTE_RML_TAG_ORTED_CALLBACK, 0,
rml_cbfunc, NULL))) {
ORTE_ERROR_LOG(ret);
OBJ_RELEASE(buffer);
goto DONE;
}
}
}
if (orte_debug_daemons_flag) {
opal_output(0, "%s orted: up and running - waiting for commands!", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME));
}
/* loop the event lib until an exit event is detected */
while (orte_event_base_active) {
opal_event_loop(orte_event_base, OPAL_EVLOOP_ONCE);
}
/* ensure all local procs are dead */
orte_odls.kill_local_procs(NULL);
DONE:
/* update the exit status, in case it wasn't done */
ORTE_UPDATE_EXIT_STATUS(orte_exit_status);
/* cleanup and leave */
orte_finalize();
if (orte_debug_flag) {
fprintf(stderr, "exiting with status %d\n", orte_exit_status);
}
exit(orte_exit_status);
}
int main(int argc, char* argv[])
{
int rc;
if (1 < argc) {
tp.tv_sec = strtol(argv[1], NULL, 10);
} else {
tp.tv_sec = 0;
}
if (2 < argc) {
tp.tv_usec = strtol(argv[2], NULL, 10);
} else {
tp.tv_usec = 10000;
}
/* init the ORCM library - this includes registering
* a multicast recv so we hear announcements and
* their responses from other apps
*/
if (ORCM_SUCCESS != (rc = orcm_init(ORCM_APP))) {
fprintf(stderr, "Failed to init: error %d\n", rc);
exit(1);
}
opal_event_signal_set(opal_event_base, &sigterm_handler, SIGTERM,
signal_trap, &sigterm_handler);
opal_event_signal_add(&sigterm_handler, NULL);
opal_event_signal_set(opal_event_base, &sigint_handler, SIGINT,
signal_trap, &sigint_handler);
opal_event_signal_add(&sigint_handler, NULL);
/* open a channel to send to the listener application */
if (ORCM_SUCCESS != (rc = orcm_pnp.open_channel("LISTENER_IOVEC", "1.0", "alpha",
ORTE_JOBID_WILDCARD, found_channel))) {
ORTE_ERROR_LOG(rc);
goto cleanup;
}
/* listen on my input channel for direct messages */
if (ORCM_SUCCESS != (rc = orcm_pnp.register_receive("TALKER_IOVEC", "1.0", "alpha",
ORCM_PNP_GROUP_INPUT_CHANNEL,
ORCM_PNP_TAG_WILDCARD, recv_input, NULL))) {
ORTE_ERROR_LOG(rc);
goto cleanup;
}
/* announce our existence */
if (ORCM_SUCCESS != (rc = orcm_pnp.announce("TALKER_IOVEC", "1.0", "alpha", NULL))) {
ORTE_ERROR_LOG(rc);
goto cleanup;
}
/* wake up every x seconds to send something */
ORTE_TIMER_EVENT(tp.tv_sec, tp.tv_usec, send_data);
opal_event_dispatch(opal_event_base);
cleanup:
orcm_finalize();
return rc;
}
int orte_daemon(int argc, char *argv[])
{
int ret = 0;
opal_cmd_line_t *cmd_line = NULL;
char *rml_uri;
int i;
opal_buffer_t *buffer;
char hostname[100];
#if OPAL_ENABLE_FT_CR == 1
char *tmp_env_var = NULL;
#endif
/* initialize the globals */
memset(&orted_globals, 0, sizeof(orted_globals));
/* initialize the singleton died pipe to an illegal value so we can detect it was set */
orted_globals.singleton_died_pipe = -1;
/* init the failure orted vpid to an invalid value */
orted_globals.fail = ORTE_VPID_INVALID;
/* setup to check common command line options that just report and die */
cmd_line = OBJ_NEW(opal_cmd_line_t);
if (OPAL_SUCCESS != opal_cmd_line_create(cmd_line, orte_cmd_line_opts)) {
OBJ_RELEASE(cmd_line);
exit(1);
}
mca_base_cmd_line_setup(cmd_line);
if (ORTE_SUCCESS != (ret = opal_cmd_line_parse(cmd_line, false,
argc, argv))) {
char *args = NULL;
args = opal_cmd_line_get_usage_msg(cmd_line);
fprintf(stderr, "Usage: %s [OPTION]...\n%s\n", argv[0], args);
free(args);
OBJ_RELEASE(cmd_line);
return ret;
}
/*
* Since this process can now handle MCA/GMCA parameters, make sure to
* process them.
*/
mca_base_cmd_line_process_args(cmd_line, &environ, &environ);
/* Ensure that enough of OPAL is setup for us to be able to run */
/*
* NOTE: (JJH)
* We need to allow 'mca_base_cmd_line_process_args()' to process command
* line arguments *before* calling opal_init_util() since the command
* line could contain MCA parameters that affect the way opal_init_util()
* functions. AMCA parameters are one such option normally received on the
* command line that affect the way opal_init_util() behaves.
* It is "safe" to call mca_base_cmd_line_process_args() before
* opal_init_util() since mca_base_cmd_line_process_args() does *not*
* depend upon opal_init_util() functionality.
*/
if (OPAL_SUCCESS != opal_init_util(&argc, &argv)) {
fprintf(stderr, "OPAL failed to initialize -- orted aborting\n");
exit(1);
}
/* save the environment for launch purposes. This MUST be
* done so that we can pass it to any local procs we
* spawn - otherwise, those local procs won't see any
* non-MCA envars that were set in the enviro when the
* orted was executed - e.g., by .csh
*/
orte_launch_environ = opal_argv_copy(environ);
/* purge any ess flag set in the environ when we were launched */
opal_unsetenv(OPAL_MCA_PREFIX"ess", &orte_launch_environ);
/* if orte_daemon_debug is set, let someone know we are alive right
* away just in case we have a problem along the way
*/
if (orted_globals.debug) {
gethostname(hostname, 100);
fprintf(stderr, "Daemon was launched on %s - beginning to initialize\n", hostname);
}
/* check for help request */
if (orted_globals.help) {
char *args = NULL;
args = opal_cmd_line_get_usage_msg(cmd_line);
orte_show_help("help-orted.txt", "orted:usage", false,
argv[0], args);
free(args);
return 1;
}
#if defined(HAVE_SETSID)
/* see if we were directed to separate from current session */
if (orted_globals.set_sid) {
setsid();
}
#endif
/* see if they want us to spin until they can connect a debugger to us */
i=0;
while (orted_spin_flag) {
i++;
if (1000 < i) i=0;
}
#if OPAL_ENABLE_FT_CR == 1
/* Mark as a tool program */
(void) mca_base_var_env_name ("opal_cr_is_tool", &tmp_env_var);
opal_setenv(tmp_env_var,
"1",
true, &environ);
free(tmp_env_var);
#endif
/* if mapreduce set, flag it */
if (orted_globals.mapreduce) {
orte_map_reduce = true;
}
/* detach from controlling terminal
* otherwise, remain attached so output can get to us
*/
if(!orte_debug_flag &&
!orte_debug_daemons_flag &&
orted_globals.daemonize) {
opal_daemon_init(NULL);
}
/* Set the flag telling OpenRTE that I am NOT a
* singleton, but am "infrastructure" - prevents setting
* up incorrect infrastructure that only a singleton would
* require.
*/
if (orted_globals.hnp) {
if (ORTE_SUCCESS != (ret = orte_init(&argc, &argv, ORTE_PROC_HNP))) {
ORTE_ERROR_LOG(ret);
return ret;
}
} else {
if (ORTE_SUCCESS != (ret = orte_init(&argc, &argv, ORTE_PROC_DAEMON))) {
ORTE_ERROR_LOG(ret);
return ret;
}
}
/* finalize the OPAL utils. As they are opened again from orte_init->opal_init
* we continue to have a reference count on them. So we have to finalize them twice...
*/
opal_finalize_util();
#if OPAL_HAVE_HWLOC
/* bind ourselves if so directed */
if (NULL != orte_daemon_cores) {
char **cores=NULL, tmp[128];
hwloc_obj_t pu;
hwloc_cpuset_t ours, pucpus, res;
int core;
/* could be a collection of comma-delimited ranges, so
* use our handy utility to parse it
*/
orte_util_parse_range_options(orte_daemon_cores, &cores);
if (NULL != cores) {
ours = hwloc_bitmap_alloc();
hwloc_bitmap_zero(ours);
pucpus = hwloc_bitmap_alloc();
res = hwloc_bitmap_alloc();
for (i=0; NULL != cores[i]; i++) {
core = strtoul(cores[i], NULL, 10);
if (NULL == (pu = opal_hwloc_base_get_pu(opal_hwloc_topology, core, OPAL_HWLOC_LOGICAL))) {
/* turn off the show help forwarding as we won't
* be able to cycle the event library to send
*/
orte_show_help_finalize();
/* the message will now come out locally */
orte_show_help("help-orted.txt", "orted:cannot-bind",
true, orte_process_info.nodename,
orte_daemon_cores);
ret = ORTE_ERR_NOT_SUPPORTED;
goto DONE;
}
hwloc_bitmap_and(pucpus, pu->online_cpuset, pu->allowed_cpuset);
hwloc_bitmap_or(res, ours, pucpus);
hwloc_bitmap_copy(ours, res);
}
/* if the result is all zeros, then don't bind */
if (!hwloc_bitmap_iszero(ours)) {
(void)hwloc_set_cpubind(opal_hwloc_topology, ours, 0);
if (opal_hwloc_report_bindings) {
opal_hwloc_base_cset2mapstr(tmp, sizeof(tmp), opal_hwloc_topology, ours);
opal_output(0, "Daemon %s is bound to cores %s",
ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), tmp);
}
}
/* cleanup */
hwloc_bitmap_free(ours);
hwloc_bitmap_free(pucpus);
hwloc_bitmap_free(res);
opal_argv_free(cores);
}
}
#endif
if ((int)ORTE_VPID_INVALID != orted_globals.fail) {
orted_globals.abort=false;
/* some vpid was ordered to fail. The value can be positive
* or negative, depending upon the desired method for failure,
* so need to check both here
*/
if (0 > orted_globals.fail) {
orted_globals.fail = -1*orted_globals.fail;
orted_globals.abort = true;
}
/* are we the specified vpid? */
if ((int)ORTE_PROC_MY_NAME->vpid == orted_globals.fail) {
/* if the user specified we delay, then setup a timer
* and have it kill us
*/
if (0 < orted_globals.fail_delay) {
ORTE_TIMER_EVENT(orted_globals.fail_delay, 0, shutdown_callback, ORTE_SYS_PRI);
} else {
opal_output(0, "%s is executing clean %s", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME),
orted_globals.abort ? "abort" : "abnormal termination");
/* do -not- call finalize as this will send a message to the HNP
* indicating clean termination! Instead, just forcibly cleanup
* the local session_dir tree and exit
*/
orte_session_dir_cleanup(ORTE_JOBID_WILDCARD);
/* if we were ordered to abort, do so */
if (orted_globals.abort) {
abort();
}
/* otherwise, return with non-zero status */
ret = ORTE_ERROR_DEFAULT_EXIT_CODE;
goto DONE;
}
}
}
/* insert our contact info into our process_info struct so we
* have it for later use and set the local daemon field to our name
*/
orte_process_info.my_daemon_uri = orte_rml.get_contact_info();
ORTE_PROC_MY_DAEMON->jobid = ORTE_PROC_MY_NAME->jobid;
ORTE_PROC_MY_DAEMON->vpid = ORTE_PROC_MY_NAME->vpid;
/* if I am also the hnp, then update that contact info field too */
if (ORTE_PROC_IS_HNP) {
orte_process_info.my_hnp_uri = orte_rml.get_contact_info();
ORTE_PROC_MY_HNP->jobid = ORTE_PROC_MY_NAME->jobid;
ORTE_PROC_MY_HNP->vpid = ORTE_PROC_MY_NAME->vpid;
}
/* setup the primary daemon command receive function */
orte_rml.recv_buffer_nb(ORTE_NAME_WILDCARD, ORTE_RML_TAG_DAEMON,
ORTE_RML_PERSISTENT, orte_daemon_recv, NULL);
/* output a message indicating we are alive, our name, and our pid
* for debugging purposes
*/
if (orte_debug_daemons_flag) {
fprintf(stderr, "Daemon %s checking in as pid %ld on host %s\n",
ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), (long)orte_process_info.pid,
orte_process_info.nodename);
}
/* We actually do *not* want the orted to voluntarily yield() the
processor more than necessary. The orted already blocks when
it is doing nothing, so it doesn't use any more CPU cycles than
it should; but when it *is* doing something, we do not want it
to be unnecessarily delayed because it voluntarily yielded the
processor in the middle of its work.
For example: when a message arrives at the orted, we want the
OS to wake up the orted in a timely fashion (which most OS's
seem good about doing) and then we want the orted to process
the message as fast as possible. If the orted yields and lets
aggressive MPI applications get the processor back, it may be a
long time before the OS schedules the orted to run again
(particularly if there is no IO event to wake it up). Hence,
routed OOB messages (for example) may be significantly delayed
before being delivered to MPI processes, which can be
problematic in some scenarios (e.g., COMM_SPAWN, BTL's that
require OOB messages for wireup, etc.). */
opal_progress_set_yield_when_idle(false);
/* Change the default behavior of libevent such that we want to
continually block rather than blocking for the default timeout
and then looping around the progress engine again. There
should be nothing in the orted that cannot block in libevent
until "something" happens (i.e., there's no need to keep
cycling through progress because the only things that should
happen will happen in libevent). This is a minor optimization,
but what the heck... :-) */
opal_progress_set_event_flag(OPAL_EVLOOP_ONCE);
/* if requested, report my uri to the indicated pipe */
if (orted_globals.uri_pipe > 0) {
orte_job_t *jdata;
orte_proc_t *proc;
orte_node_t *node;
orte_app_context_t *app;
char *tmp, *nptr, *sysinfo;
int32_t ljob;
/* setup the singleton's job */
jdata = OBJ_NEW(orte_job_t);
orte_plm_base_create_jobid(jdata);
ljob = ORTE_LOCAL_JOBID(jdata->jobid);
opal_pointer_array_set_item(orte_job_data, ljob, jdata);
/* must create a map for it (even though it has no
* info in it) so that the job info will be picked
* up in subsequent pidmaps or other daemons won't
* know how to route
*/
jdata->map = OBJ_NEW(orte_job_map_t);
/* setup an app_context for the singleton */
app = OBJ_NEW(orte_app_context_t);
app->app = strdup("singleton");
app->num_procs = 1;
opal_pointer_array_add(jdata->apps, app);
/* setup a proc object for the singleton - since we
* -must- be the HNP, and therefore we stored our
* node on the global node pool, and since the singleton
* -must- be on the same node as us, indicate that
*/
proc = OBJ_NEW(orte_proc_t);
proc->name.jobid = jdata->jobid;
proc->name.vpid = 0;
ORTE_FLAG_SET(proc, ORTE_PROC_FLAG_ALIVE);
proc->state = ORTE_PROC_STATE_RUNNING;
proc->app_idx = 0;
/* obviously, it is on my node */
node = (orte_node_t*)opal_pointer_array_get_item(orte_node_pool, 0);
proc->node = node;
OBJ_RETAIN(node); /* keep accounting straight */
opal_pointer_array_add(jdata->procs, proc);
jdata->num_procs = 1;
/* and it obviously is on the node */
OBJ_RETAIN(proc);
opal_pointer_array_add(node->procs, proc);
node->num_procs++;
/* and obviously it is one of my local procs */
OBJ_RETAIN(proc);
opal_pointer_array_add(orte_local_children, proc);
jdata->num_local_procs = 1;
/* set the trivial */
proc->local_rank = 0;
proc->node_rank = 0;
proc->app_rank = 0;
proc->state = ORTE_PROC_STATE_RUNNING;
proc->app_idx = 0;
ORTE_FLAG_SET(proc, ORTE_PROC_FLAG_LOCAL);
/* create a string that contains our uri + sysinfo + PMIx server URI */
orte_util_convert_sysinfo_to_string(&sysinfo, orte_local_cpu_type, orte_local_cpu_model);
asprintf(&tmp, "%s[%s]%s", orte_process_info.my_daemon_uri, sysinfo, pmix_server_uri);
free(sysinfo);
/* pass that info to the singleton */
write(orted_globals.uri_pipe, tmp, strlen(tmp)+1); /* need to add 1 to get the NULL */
/* cleanup */
free(tmp);
/* since a singleton spawned us, we need to harvest
* any MCA params from the local environment so
* we can pass them along to any subsequent daemons
* we may start as the result of a comm_spawn
*/
for (i=0; NULL != environ[i]; i++) {
if (0 == strncmp(environ[i], OPAL_MCA_PREFIX, 9)) {
/* make a copy to manipulate */
tmp = strdup(environ[i]);
/* find the equal sign */
nptr = strchr(tmp, '=');
*nptr = '\0';
nptr++;
/* add the mca param to the orted cmd line */
opal_argv_append_nosize(&orted_cmd_line, "-"OPAL_MCA_CMD_LINE_ID);
opal_argv_append_nosize(&orted_cmd_line, &tmp[9]);
opal_argv_append_nosize(&orted_cmd_line, nptr);
free(tmp);
}
}
}
/* if we were given a pipe to monitor for singleton termination, set that up */
if (orted_globals.singleton_died_pipe > 0) {
/* register shutdown handler */
pipe_handler = (opal_event_t*)malloc(sizeof(opal_event_t));
opal_event_set(orte_event_base, pipe_handler,
orted_globals.singleton_died_pipe,
OPAL_EV_READ,
pipe_closed,
pipe_handler);
opal_event_add(pipe_handler, NULL);
}
/* If I have a parent, then save his contact info so
* any messages we send can flow thru him.
*/
orte_parent_uri = NULL;
(void) mca_base_var_register ("orte", "orte", NULL, "parent_uri",
"URI for the parent if tree launch is enabled.",
MCA_BASE_VAR_TYPE_STRING, NULL, 0,
MCA_BASE_VAR_FLAG_INTERNAL,
OPAL_INFO_LVL_9,
MCA_BASE_VAR_SCOPE_CONSTANT,
&orte_parent_uri);
if (NULL != orte_parent_uri) {
orte_process_name_t parent;
/* set the contact info into the hash table */
orte_rml.set_contact_info(orte_parent_uri);
ret = orte_rml_base_parse_uris(orte_parent_uri, &parent, NULL);
if (ORTE_SUCCESS != ret) {
ORTE_ERROR_LOG(ret);
free (orte_parent_uri);
orte_parent_uri = NULL;
goto DONE;
}
/* don't need this value anymore */
free(orte_parent_uri);
orte_parent_uri = NULL;
/* tell the routed module that we have a path
* back to the HNP
*/
if (ORTE_SUCCESS != (ret = orte_routed.update_route(ORTE_PROC_MY_HNP, &parent))) {
ORTE_ERROR_LOG(ret);
goto DONE;
}
/* set the lifeline to point to our parent so that we
* can handle the situation if that lifeline goes away
*/
if (ORTE_SUCCESS != (ret = orte_routed.set_lifeline(&parent))) {
ORTE_ERROR_LOG(ret);
goto DONE;
}
}
/* if we are not the HNP...the only time we will be an HNP
* is if we are launched by a singleton to provide support
* for it
*/
if (!ORTE_PROC_IS_HNP) {
/* send the information to the orted report-back point - this function
* will process the data, but also counts the number of
* orteds that reported back so the launch procedure can continue.
* We need to do this at the last possible second as the HNP
* can turn right around and begin issuing orders to us
*/
buffer = OBJ_NEW(opal_buffer_t);
/* insert our name for rollup purposes */
if (ORTE_SUCCESS != (ret = opal_dss.pack(buffer, ORTE_PROC_MY_NAME, 1, ORTE_NAME))) {
ORTE_ERROR_LOG(ret);
OBJ_RELEASE(buffer);
goto DONE;
}
/* for now, always include our contact info, even if we are using
* static ports. Eventually, this will be removed
*/
rml_uri = orte_rml.get_contact_info();
if (ORTE_SUCCESS != (ret = opal_dss.pack(buffer, &rml_uri, 1, OPAL_STRING))) {
ORTE_ERROR_LOG(ret);
OBJ_RELEASE(buffer);
goto DONE;
}
/* include our node name */
opal_dss.pack(buffer, &orte_process_info.nodename, 1, OPAL_STRING);
/* if requested, include any non-loopback aliases for this node */
if (orte_retain_aliases) {
char **aliases=NULL;
uint8_t naliases, ni;
char hostname[ORTE_MAX_HOSTNAME_SIZE];
/* if we stripped the prefix or removed the fqdn,
* include full hostname as an alias
*/
gethostname(hostname, ORTE_MAX_HOSTNAME_SIZE);
if (strlen(orte_process_info.nodename) < strlen(hostname)) {
opal_argv_append_nosize(&aliases, hostname);
}
opal_ifgetaliases(&aliases);
naliases = opal_argv_count(aliases);
if (ORTE_SUCCESS != (ret = opal_dss.pack(buffer, &naliases, 1, OPAL_UINT8))) {
ORTE_ERROR_LOG(ret);
OBJ_RELEASE(buffer);
goto DONE;
}
for (ni=0; ni < naliases; ni++) {
if (ORTE_SUCCESS != (ret = opal_dss.pack(buffer, &aliases[ni], 1, OPAL_STRING))) {
ORTE_ERROR_LOG(ret);
OBJ_RELEASE(buffer);
goto DONE;
}
}
opal_argv_free(aliases);
}
#if OPAL_HAVE_HWLOC
{
char *coprocessors;
/* add the local topology */
if (NULL != opal_hwloc_topology &&
(1 == ORTE_PROC_MY_NAME->vpid || orte_hetero_nodes)) {
if (ORTE_SUCCESS != (ret = opal_dss.pack(buffer, &opal_hwloc_topology, 1, OPAL_HWLOC_TOPO))) {
ORTE_ERROR_LOG(ret);
}
}
/* detect and add any coprocessors */
coprocessors = opal_hwloc_base_find_coprocessors(opal_hwloc_topology);
if (ORTE_SUCCESS != (ret = opal_dss.pack(buffer, &coprocessors, 1, OPAL_STRING))) {
ORTE_ERROR_LOG(ret);
}
/* see if I am on a coprocessor */
coprocessors = opal_hwloc_base_check_on_coprocessor();
if (ORTE_SUCCESS != (ret = opal_dss.pack(buffer, &coprocessors, 1, OPAL_STRING))) {
ORTE_ERROR_LOG(ret);
}
}
#endif
/* send to the HNP's callback - will be routed if routes are available */
if (0 > (ret = orte_rml.send_buffer_nb(ORTE_PROC_MY_HNP, buffer,
ORTE_RML_TAG_ORTED_CALLBACK,
orte_rml_send_callback, NULL))) {
ORTE_ERROR_LOG(ret);
OBJ_RELEASE(buffer);
goto DONE;
}
}
/* if we are tree-spawning, then we need to capture the MCA params
* from our cmd line so we can pass them along to the daemons we spawn -
* otherwise, only the first layer of daemons will ever see them
*/
if (orted_globals.tree_spawn) {
int j, k;
bool ignore;
char *no_keep[] = {
"orte_hnp_uri",
"orte_ess_jobid",
"orte_ess_vpid",
"orte_ess_num_procs",
"orte_parent_uri",
"mca_base_env_list",
NULL
};
for (i=0; i < argc; i++) {
if (0 == strcmp("-"OPAL_MCA_CMD_LINE_ID, argv[i]) ||
0 == strcmp("--"OPAL_MCA_CMD_LINE_ID, argv[i]) ) {
ignore = false;
/* see if this is something we cannot pass along */
for (k=0; NULL != no_keep[k]; k++) {
if (0 == strcmp(no_keep[k], argv[i+1])) {
ignore = true;
break;
}
}
if (!ignore) {
/* see if this is already present so we at least can
* avoid growing the cmd line with duplicates
*/
if (NULL != orted_cmd_line) {
for (j=0; NULL != orted_cmd_line[j]; j++) {
if (0 == strcmp(argv[i+1], orted_cmd_line[j])) {
/* already here - ignore it */
ignore = true;
break;
}
}
}
if (!ignore) {
opal_argv_append_nosize(&orted_cmd_line, argv[i]);
opal_argv_append_nosize(&orted_cmd_line, argv[i+1]);
opal_argv_append_nosize(&orted_cmd_line, argv[i+2]);
}
}
i += 2;
}
}
}
if (orte_debug_daemons_flag) {
opal_output(0, "%s orted: up and running - waiting for commands!", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME));
}
ret = ORTE_SUCCESS;
/* loop the event lib until an exit event is detected */
while (orte_event_base_active) {
opal_event_loop(orte_event_base, OPAL_EVLOOP_ONCE);
}
/* ensure all local procs are dead */
orte_odls.kill_local_procs(NULL);
DONE:
/* update the exit status, in case it wasn't done */
ORTE_UPDATE_EXIT_STATUS(ret);
/* cleanup and leave */
orte_finalize();
if (orte_debug_flag) {
fprintf(stderr, "exiting with status %d\n", orte_exit_status);
}
exit(orte_exit_status);
}
int orte_daemon(int argc, char *argv[])
{
int ret = 0;
opal_cmd_line_t *cmd_line = NULL;
int i;
opal_buffer_t *buffer;
char hostname[OPAL_MAXHOSTNAMELEN];
#if OPAL_ENABLE_FT_CR == 1
char *tmp_env_var = NULL;
#endif
/* initialize the globals */
memset(&orted_globals, 0, sizeof(orted_globals));
/* initialize the singleton died pipe to an illegal value so we can detect it was set */
orted_globals.singleton_died_pipe = -1;
bucket = OBJ_NEW(opal_buffer_t);
/* setup to check common command line options that just report and die */
cmd_line = OBJ_NEW(opal_cmd_line_t);
if (OPAL_SUCCESS != opal_cmd_line_create(cmd_line, orte_cmd_line_opts)) {
OBJ_RELEASE(cmd_line);
exit(1);
}
mca_base_cmd_line_setup(cmd_line);
if (ORTE_SUCCESS != (ret = opal_cmd_line_parse(cmd_line, false, false,
argc, argv))) {
char *args = NULL;
args = opal_cmd_line_get_usage_msg(cmd_line);
fprintf(stderr, "Usage: %s [OPTION]...\n%s\n", argv[0], args);
free(args);
OBJ_RELEASE(cmd_line);
return ret;
}
/*
* Since this process can now handle MCA/GMCA parameters, make sure to
* process them.
*/
mca_base_cmd_line_process_args(cmd_line, &environ, &environ);
/* Ensure that enough of OPAL is setup for us to be able to run */
/*
* NOTE: (JJH)
* We need to allow 'mca_base_cmd_line_process_args()' to process command
* line arguments *before* calling opal_init_util() since the command
* line could contain MCA parameters that affect the way opal_init_util()
* functions. AMCA parameters are one such option normally received on the
* command line that affect the way opal_init_util() behaves.
* It is "safe" to call mca_base_cmd_line_process_args() before
* opal_init_util() since mca_base_cmd_line_process_args() does *not*
* depend upon opal_init_util() functionality.
*/
if (OPAL_SUCCESS != opal_init_util(&argc, &argv)) {
fprintf(stderr, "OPAL failed to initialize -- orted aborting\n");
exit(1);
}
/* save the environment for launch purposes. This MUST be
* done so that we can pass it to any local procs we
* spawn - otherwise, those local procs won't see any
* non-MCA envars that were set in the enviro when the
* orted was executed - e.g., by .csh
*/
orte_launch_environ = opal_argv_copy(environ);
/* purge any ess/pmix flags set in the environ when we were launched */
opal_unsetenv(OPAL_MCA_PREFIX"ess", &orte_launch_environ);
opal_unsetenv(OPAL_MCA_PREFIX"pmix", &orte_launch_environ);
/* if orte_daemon_debug is set, let someone know we are alive right
* away just in case we have a problem along the way
*/
if (orted_globals.debug) {
gethostname(hostname, sizeof(hostname));
fprintf(stderr, "Daemon was launched on %s - beginning to initialize\n", hostname);
}
/* check for help request */
if (orted_globals.help) {
char *args = NULL;
args = opal_cmd_line_get_usage_msg(cmd_line);
orte_show_help("help-orted.txt", "orted:usage", false,
argv[0], args);
free(args);
return 1;
}
#if defined(HAVE_SETSID)
/* see if we were directed to separate from current session */
if (orted_globals.set_sid) {
setsid();
}
#endif
/* see if they want us to spin until they can connect a debugger to us */
i=0;
while (orted_spin_flag) {
i++;
if (1000 < i) i=0;
}
#if OPAL_ENABLE_FT_CR == 1
/* Mark as a tool program */
(void) mca_base_var_env_name ("opal_cr_is_tool", &tmp_env_var);
opal_setenv(tmp_env_var,
"1",
true, &environ);
free(tmp_env_var);
#endif
/* detach from controlling terminal
* otherwise, remain attached so output can get to us
*/
if(!orte_debug_flag &&
!orte_debug_daemons_flag &&
orted_globals.daemonize) {
opal_daemon_init(NULL);
}
/* Set the flag telling OpenRTE that I am NOT a
* singleton, but am "infrastructure" - prevents setting
* up incorrect infrastructure that only a singleton would
* require.
*/
if (orted_globals.hnp) {
if (ORTE_SUCCESS != (ret = orte_init(&argc, &argv, ORTE_PROC_HNP))) {
ORTE_ERROR_LOG(ret);
return ret;
}
} else {
if (ORTE_SUCCESS != (ret = orte_init(&argc, &argv, ORTE_PROC_DAEMON))) {
ORTE_ERROR_LOG(ret);
return ret;
}
}
/* finalize the OPAL utils. As they are opened again from orte_init->opal_init
* we continue to have a reference count on them. So we have to finalize them twice...
*/
opal_finalize_util();
/* bind ourselves if so directed */
if (NULL != orte_daemon_cores) {
char **cores=NULL, tmp[128];
hwloc_obj_t pu;
hwloc_cpuset_t ours, res;
int core;
/* could be a collection of comma-delimited ranges, so
* use our handy utility to parse it
*/
orte_util_parse_range_options(orte_daemon_cores, &cores);
if (NULL != cores) {
ours = hwloc_bitmap_alloc();
hwloc_bitmap_zero(ours);
res = hwloc_bitmap_alloc();
for (i=0; NULL != cores[i]; i++) {
core = strtoul(cores[i], NULL, 10);
if (NULL == (pu = opal_hwloc_base_get_pu(opal_hwloc_topology, core, OPAL_HWLOC_LOGICAL))) {
/* turn off the show help forwarding as we won't
* be able to cycle the event library to send
*/
orte_show_help_finalize();
/* the message will now come out locally */
orte_show_help("help-orted.txt", "orted:cannot-bind",
true, orte_process_info.nodename,
orte_daemon_cores);
ret = ORTE_ERR_NOT_SUPPORTED;
hwloc_bitmap_free(ours);
hwloc_bitmap_free(res);
goto DONE;
}
hwloc_bitmap_or(res, ours, pu->cpuset);
hwloc_bitmap_copy(ours, res);
}
/* if the result is all zeros, then don't bind */
if (!hwloc_bitmap_iszero(ours)) {
(void)hwloc_set_cpubind(opal_hwloc_topology, ours, 0);
if (opal_hwloc_report_bindings) {
opal_hwloc_base_cset2mapstr(tmp, sizeof(tmp), opal_hwloc_topology, ours);
opal_output(0, "Daemon %s is bound to cores %s",
ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), tmp);
}
}
/* cleanup */
hwloc_bitmap_free(ours);
hwloc_bitmap_free(res);
opal_argv_free(cores);
}
}
if ((int)ORTE_VPID_INVALID != orted_debug_failure) {
orted_globals.abort=false;
/* some vpid was ordered to fail. The value can be positive
* or negative, depending upon the desired method for failure,
* so need to check both here
*/
if (0 > orted_debug_failure) {
orted_debug_failure = -1*orted_debug_failure;
orted_globals.abort = true;
}
/* are we the specified vpid? */
if ((int)ORTE_PROC_MY_NAME->vpid == orted_debug_failure) {
/* if the user specified we delay, then setup a timer
* and have it kill us
*/
if (0 < orted_debug_failure_delay) {
ORTE_TIMER_EVENT(orted_debug_failure_delay, 0, shutdown_callback, ORTE_SYS_PRI);
} else {
opal_output(0, "%s is executing clean %s", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME),
orted_globals.abort ? "abort" : "abnormal termination");
/* do -not- call finalize as this will send a message to the HNP
* indicating clean termination! Instead, just forcibly cleanup
* the local session_dir tree and exit
*/
orte_session_dir_cleanup(ORTE_JOBID_WILDCARD);
/* if we were ordered to abort, do so */
if (orted_globals.abort) {
abort();
}
/* otherwise, return with non-zero status */
ret = ORTE_ERROR_DEFAULT_EXIT_CODE;
goto DONE;
}
}
}
/* insert our contact info into our process_info struct so we
* have it for later use and set the local daemon field to our name
*/
orte_oob_base_get_addr(&orte_process_info.my_daemon_uri);
if (NULL == orte_process_info.my_daemon_uri) {
/* no way to communicate */
ret = ORTE_ERROR;
goto DONE;
}
ORTE_PROC_MY_DAEMON->jobid = ORTE_PROC_MY_NAME->jobid;
ORTE_PROC_MY_DAEMON->vpid = ORTE_PROC_MY_NAME->vpid;
/* if I am also the hnp, then update that contact info field too */
if (ORTE_PROC_IS_HNP) {
orte_process_info.my_hnp_uri = strdup(orte_process_info.my_daemon_uri);
ORTE_PROC_MY_HNP->jobid = ORTE_PROC_MY_NAME->jobid;
ORTE_PROC_MY_HNP->vpid = ORTE_PROC_MY_NAME->vpid;
}
/* setup the primary daemon command receive function */
orte_rml.recv_buffer_nb(ORTE_NAME_WILDCARD, ORTE_RML_TAG_DAEMON,
ORTE_RML_PERSISTENT, orte_daemon_recv, NULL);
/* output a message indicating we are alive, our name, and our pid
* for debugging purposes
*/
if (orte_debug_daemons_flag) {
fprintf(stderr, "Daemon %s checking in as pid %ld on host %s\n",
ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), (long)orte_process_info.pid,
orte_process_info.nodename);
}
/* We actually do *not* want the orted to voluntarily yield() the
processor more than necessary. The orted already blocks when
it is doing nothing, so it doesn't use any more CPU cycles than
it should; but when it *is* doing something, we do not want it
to be unnecessarily delayed because it voluntarily yielded the
processor in the middle of its work.
For example: when a message arrives at the orted, we want the
OS to wake up the orted in a timely fashion (which most OS's
seem good about doing) and then we want the orted to process
the message as fast as possible. If the orted yields and lets
aggressive MPI applications get the processor back, it may be a
long time before the OS schedules the orted to run again
(particularly if there is no IO event to wake it up). Hence,
routed OOB messages (for example) may be significantly delayed
before being delivered to MPI processes, which can be
problematic in some scenarios (e.g., COMM_SPAWN, BTL's that
require OOB messages for wireup, etc.). */
opal_progress_set_yield_when_idle(false);
/* Change the default behavior of libevent such that we want to
continually block rather than blocking for the default timeout
and then looping around the progress engine again. There
should be nothing in the orted that cannot block in libevent
until "something" happens (i.e., there's no need to keep
cycling through progress because the only things that should
happen will happen in libevent). This is a minor optimization,
but what the heck... :-) */
opal_progress_set_event_flag(OPAL_EVLOOP_ONCE);
/* if requested, report my uri to the indicated pipe */
if (orted_globals.uri_pipe > 0) {
orte_job_t *jdata;
orte_proc_t *proc;
orte_node_t *node;
orte_app_context_t *app;
char *tmp, *nptr, *sysinfo;
char **singenv=NULL, *string_key, *env_str;
/* setup the singleton's job */
jdata = OBJ_NEW(orte_job_t);
/* default to ompi for now */
opal_argv_append_nosize(&jdata->personality, "ompi");
orte_plm_base_create_jobid(jdata);
opal_hash_table_set_value_uint32(orte_job_data, jdata->jobid, jdata);
/* must create a map for it (even though it has no
* info in it) so that the job info will be picked
* up in subsequent pidmaps or other daemons won't
* know how to route
*/
jdata->map = OBJ_NEW(orte_job_map_t);
/* setup an app_context for the singleton */
app = OBJ_NEW(orte_app_context_t);
app->app = strdup("singleton");
app->num_procs = 1;
opal_pointer_array_add(jdata->apps, app);
jdata->num_apps = 1;
/* setup a proc object for the singleton - since we
* -must- be the HNP, and therefore we stored our
* node on the global node pool, and since the singleton
* -must- be on the same node as us, indicate that
*/
proc = OBJ_NEW(orte_proc_t);
proc->name.jobid = jdata->jobid;
proc->name.vpid = 0;
proc->parent = 0;
ORTE_FLAG_SET(proc, ORTE_PROC_FLAG_ALIVE);
proc->state = ORTE_PROC_STATE_RUNNING;
proc->app_idx = 0;
/* obviously, it is on my node */
node = (orte_node_t*)opal_pointer_array_get_item(orte_node_pool, 0);
proc->node = node;
OBJ_RETAIN(node); /* keep accounting straight */
opal_pointer_array_add(jdata->procs, proc);
jdata->num_procs = 1;
/* add the node to the job map */
OBJ_RETAIN(node);
opal_pointer_array_add(jdata->map->nodes, node);
jdata->map->num_nodes++;
/* and it obviously is on the node */
OBJ_RETAIN(proc);
opal_pointer_array_add(node->procs, proc);
node->num_procs++;
/* and obviously it is one of my local procs */
OBJ_RETAIN(proc);
opal_pointer_array_add(orte_local_children, proc);
jdata->num_local_procs = 1;
/* set the trivial */
proc->local_rank = 0;
proc->node_rank = 0;
proc->app_rank = 0;
proc->state = ORTE_PROC_STATE_RUNNING;
proc->app_idx = 0;
ORTE_FLAG_SET(proc, ORTE_PROC_FLAG_LOCAL);
/* set the ORTE_JOB_TRANSPORT_KEY from the environment */
orte_pre_condition_transports(jdata, NULL);
/* register the singleton's nspace with our PMIx server */
if (ORTE_SUCCESS != (ret = orte_pmix_server_register_nspace(jdata, false))) {
ORTE_ERROR_LOG(ret);
goto DONE;
}
/* use setup fork to create the envars needed by the singleton */
if (OPAL_SUCCESS != (ret = opal_pmix.server_setup_fork(&proc->name, &singenv))) {
ORTE_ERROR_LOG(ret);
goto DONE;
}
/* append the transport key to the envars needed by the singleton */
if (!orte_get_attribute(&jdata->attributes, ORTE_JOB_TRANSPORT_KEY, (void**)&string_key, OPAL_STRING) || NULL == string_key) {
ORTE_ERROR_LOG(ORTE_ERR_NOT_FOUND);
goto DONE;
}
asprintf(&env_str, OPAL_MCA_PREFIX"orte_precondition_transports=%s", string_key);
opal_argv_append_nosize(&singenv, env_str);
free(env_str);
nptr = opal_argv_join(singenv, '*');
opal_argv_free(singenv);
/* create a string that contains our uri + sysinfo + PMIx server URI envars */
orte_util_convert_sysinfo_to_string(&sysinfo, orte_local_cpu_type, orte_local_cpu_model);
asprintf(&tmp, "%s[%s]%s", orte_process_info.my_daemon_uri, sysinfo, nptr);
free(sysinfo);
free(nptr);
/* pass that info to the singleton */
if (OPAL_SUCCESS != (ret = opal_fd_write(orted_globals.uri_pipe, strlen(tmp)+1, tmp))) { ; /* need to add 1 to get the NULL */
ORTE_ERROR_LOG(ret);
goto DONE;
}
/* cleanup */
free(tmp);
close(orted_globals.uri_pipe);
/* since a singleton spawned us, we need to harvest
* any MCA params from the local environment so
* we can pass them along to any subsequent daemons
* we may start as the result of a comm_spawn
*/
for (i=0; NULL != environ[i]; i++) {
if (0 == strncmp(environ[i], OPAL_MCA_PREFIX, 9)) {
/* make a copy to manipulate */
tmp = strdup(environ[i]);
/* find the equal sign */
nptr = strchr(tmp, '=');
*nptr = '\0';
nptr++;
/* add the mca param to the orted cmd line */
opal_argv_append_nosize(&orted_cmd_line, "-"OPAL_MCA_CMD_LINE_ID);
opal_argv_append_nosize(&orted_cmd_line, &tmp[9]);
opal_argv_append_nosize(&orted_cmd_line, nptr);
free(tmp);
}
}
}
/* if we were given a pipe to monitor for singleton termination, set that up */
if (orted_globals.singleton_died_pipe > 0) {
/* register shutdown handler */
pipe_handler = (opal_event_t*)malloc(sizeof(opal_event_t));
opal_event_set(orte_event_base, pipe_handler,
orted_globals.singleton_died_pipe,
OPAL_EV_READ,
pipe_closed,
pipe_handler);
opal_event_add(pipe_handler, NULL);
}
/* If I have a parent, then save his contact info so
* any messages we send can flow thru him.
*/
orte_parent_uri = NULL;
(void) mca_base_var_register ("orte", "orte", NULL, "parent_uri",
"URI for the parent if tree launch is enabled.",
MCA_BASE_VAR_TYPE_STRING, NULL, 0,
MCA_BASE_VAR_FLAG_INTERNAL,
OPAL_INFO_LVL_9,
MCA_BASE_VAR_SCOPE_CONSTANT,
&orte_parent_uri);
if (NULL != orte_parent_uri) {
orte_process_name_t parent;
opal_value_t val;
/* set the contact info into our local database */
ret = orte_rml_base_parse_uris(orte_parent_uri, &parent, NULL);
if (ORTE_SUCCESS != ret) {
ORTE_ERROR_LOG(ret);
free (orte_parent_uri);
orte_parent_uri = NULL;
goto DONE;
}
OBJ_CONSTRUCT(&val, opal_value_t);
val.key = OPAL_PMIX_PROC_URI;
val.type = OPAL_STRING;
val.data.string = orte_parent_uri;
if (OPAL_SUCCESS != (ret = opal_pmix.store_local(&parent, &val))) {
ORTE_ERROR_LOG(ret);
OBJ_DESTRUCT(&val);
goto DONE;
}
val.key = NULL;
val.data.string = NULL;
OBJ_DESTRUCT(&val);
/* don't need this value anymore */
free(orte_parent_uri);
orte_parent_uri = NULL;
/* tell the routed module that we have a path
* back to the HNP
*/
if (ORTE_SUCCESS != (ret = orte_routed.update_route(NULL, ORTE_PROC_MY_HNP, &parent))) {
ORTE_ERROR_LOG(ret);
goto DONE;
}
/* set the lifeline to point to our parent so that we
* can handle the situation if that lifeline goes away
*/
if (ORTE_SUCCESS != (ret = orte_routed.set_lifeline(NULL, &parent))) {
ORTE_ERROR_LOG(ret);
goto DONE;
}
}
/* if we are not the HNP...the only time we will be an HNP
* is if we are launched by a singleton to provide support
* for it
*/
if (!ORTE_PROC_IS_HNP) {
orte_process_name_t target;
target.jobid = ORTE_PROC_MY_NAME->jobid;
if (orte_fwd_mpirun_port || orte_static_ports) {
/* setup the rollup callback */
orte_rml.recv_buffer_nb(ORTE_NAME_WILDCARD, ORTE_RML_TAG_ORTED_CALLBACK,
ORTE_RML_PERSISTENT, rollup, NULL);
target.vpid = ORTE_PROC_MY_NAME->vpid;
/* since we will be waiting for any children to send us
* their rollup info before sending to our parent, save
* a little time in the launch phase by "warming up" the
* connection to our parent while we wait for our children */
buffer = OBJ_NEW(opal_buffer_t); // zero-byte message
if (0 > (ret = orte_rml.send_buffer_nb(orte_mgmt_conduit,
ORTE_PROC_MY_PARENT, buffer,
ORTE_RML_TAG_WARMUP_CONNECTION,
orte_rml_send_callback, NULL))) {
ORTE_ERROR_LOG(ret);
OBJ_RELEASE(buffer);
goto DONE;
}
} else {
target.vpid = 0;
}
/* send the information to the orted report-back point - this function
* will process the data, but also counts the number of
* orteds that reported back so the launch procedure can continue.
* We need to do this at the last possible second as the HNP
* can turn right around and begin issuing orders to us
*/
buffer = OBJ_NEW(opal_buffer_t);
/* insert our name for rollup purposes */
if (ORTE_SUCCESS != (ret = opal_dss.pack(buffer, ORTE_PROC_MY_NAME, 1, ORTE_NAME))) {
ORTE_ERROR_LOG(ret);
OBJ_RELEASE(buffer);
goto DONE;
}
/* get any connection info we may have pushed */
{
opal_value_t *val = NULL, *kv;
opal_list_t *modex;
int32_t flag;
if (OPAL_SUCCESS != (ret = opal_pmix.get(ORTE_PROC_MY_NAME, NULL, NULL, &val)) || NULL == val) {
/* just pack a marker indicating we don't have any to share */
flag = 0;
if (ORTE_SUCCESS != (ret = opal_dss.pack(buffer, &flag, 1, OPAL_INT32))) {
ORTE_ERROR_LOG(ret);
OBJ_RELEASE(buffer);
goto DONE;
}
} else {
/* the data is returned as a list of key-value pairs in the opal_value_t */
if (OPAL_PTR == val->type) {
modex = (opal_list_t*)val->data.ptr;
flag = (int32_t)opal_list_get_size(modex);
if (ORTE_SUCCESS != (ret = opal_dss.pack(buffer, &flag, 1, OPAL_INT32))) {
ORTE_ERROR_LOG(ret);
OBJ_RELEASE(buffer);
goto DONE;
}
OPAL_LIST_FOREACH(kv, modex, opal_value_t) {
if (ORTE_SUCCESS != (ret = opal_dss.pack(buffer, &kv, 1, OPAL_VALUE))) {
ORTE_ERROR_LOG(ret);
OBJ_RELEASE(buffer);
goto DONE;
}
}
OPAL_LIST_RELEASE(modex);
} else {
opal_output(0, "VAL KEY: %s", (NULL == val->key) ? "NULL" : val->key);
/* single value */
flag = 1;
if (ORTE_SUCCESS != (ret = opal_dss.pack(buffer, &flag, 1, OPAL_INT32))) {
ORTE_ERROR_LOG(ret);
OBJ_RELEASE(buffer);
goto DONE;
}
if (ORTE_SUCCESS != (ret = opal_dss.pack(buffer, &val, 1, OPAL_VALUE))) {
ORTE_ERROR_LOG(ret);
OBJ_RELEASE(buffer);
goto DONE;
}
}
OBJ_RELEASE(val);
}
/* this is the read handler for my own child procs. In this case,
* the data is going nowhere - I just output it myself
*/
void orte_iof_hnp_read_local_handler(int fd, short event, void *cbdata)
{
orte_iof_read_event_t *rev = (orte_iof_read_event_t*)cbdata;
unsigned char data[ORTE_IOF_BASE_MSG_MAX];
int32_t numbytes;
opal_list_item_t *item;
orte_iof_proc_t *proct;
int rc;
OPAL_THREAD_LOCK(&mca_iof_hnp_component.lock);
/* read up to the fragment size */
#if !defined(__WINDOWS__)
numbytes = read(fd, data, sizeof(data));
#else
{
DWORD readed;
HANDLE handle = (HANDLE)_get_osfhandle(fd);
ReadFile(handle, data, sizeof(data), &readed, NULL);
numbytes = (int)readed;
}
#endif /* !defined(__WINDOWS__) */
if (numbytes < 0) {
/* either we have a connection error or it was a non-blocking read */
/* non-blocking, retry */
if (EAGAIN == errno || EINTR == errno) {
opal_event_add(&rev->ev, 0);
OPAL_THREAD_UNLOCK(&mca_iof_hnp_component.lock);
return;
}
OPAL_OUTPUT_VERBOSE((1, orte_iof_base.iof_output,
"%s iof:hnp:read handler %s Error on connection:%d",
ORTE_NAME_PRINT(ORTE_PROC_MY_NAME),
ORTE_NAME_PRINT(&rev->name), fd));
/* Un-recoverable error. Allow the code to flow as usual in order to
* to send the zero bytes message up the stream, and then close the
* file descriptor and delete the event.
*/
numbytes = 0;
}
/* is this read from our stdin? */
if (ORTE_IOF_STDIN & rev->tag) {
/* if job termination has been ordered, just ignore the
* data and delete the read event
*/
if (orte_job_term_ordered) {
OBJ_RELEASE(mca_iof_hnp_component.stdinev);
OPAL_THREAD_UNLOCK(&mca_iof_hnp_component.lock);
return;
}
/* cycle through our list of sinks */
for (item = opal_list_get_first(&mca_iof_hnp_component.sinks);
item != opal_list_get_end(&mca_iof_hnp_component.sinks);
item = opal_list_get_next(item)) {
orte_iof_sink_t* sink = (orte_iof_sink_t*)item;
/* only look at stdin sinks */
if (!(ORTE_IOF_STDIN & sink->tag)) {
continue;
}
/* if the daemon is me, then this is a local sink */
if (ORTE_PROC_MY_NAME->jobid == sink->daemon.jobid &&
ORTE_PROC_MY_NAME->vpid == sink->daemon.vpid) {
OPAL_OUTPUT_VERBOSE((1, orte_iof_base.iof_output,
"%s read %d bytes from stdin - writing to %s",
ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), numbytes,
ORTE_NAME_PRINT(&rev->name)));
/* send the bytes down the pipe - we even send 0 byte events
* down the pipe so it forces out any preceding data before
* closing the output stream
*/
if (NULL != sink->wev) {
if (ORTE_IOF_MAX_INPUT_BUFFERS < orte_iof_base_write_output(&rev->name, rev->tag, data, numbytes, sink->wev)) {
/* getting too backed up - stop the read event for now if it is still active */
if (mca_iof_hnp_component.stdinev->active) {
OPAL_OUTPUT_VERBOSE((1, orte_iof_base.iof_output,
"buffer backed up - holding"));
mca_iof_hnp_component.stdinev->active = false;
}
OPAL_THREAD_UNLOCK(&mca_iof_hnp_component.lock);
return;
}
}
} else {
OPAL_OUTPUT_VERBOSE((1, orte_iof_base.iof_output,
"%s sending %d bytes from stdin to daemon %s",
ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), numbytes,
ORTE_NAME_PRINT(&sink->daemon)));
/* send the data to the daemon so it can
* write it to the proc's fd - in this case,
* we pass sink->name to indicate who is to
* receive the data. If the connection closed,
* numbytes will be zero so zero bytes will be
* sent - this will tell the daemon to close
* the fd for stdin to that proc
*/
orte_iof_hnp_send_data_to_endpoint(&sink->daemon, &sink->name, ORTE_IOF_STDIN, data, numbytes);
}
}
/* if num_bytes was zero, then we need to terminate the event */
if (0 == numbytes) {
/* this will also close our stdin file descriptor */
OBJ_RELEASE(mca_iof_hnp_component.stdinev);
} else {
/* if we are looking at a tty, then we just go ahead and restart the
* read event assuming we are not backgrounded
*/
if (orte_iof_hnp_stdin_check(fd)) {
restart_stdin(fd, 0, NULL);
} else {
/* delay for awhile and then restart */
ORTE_TIMER_EVENT(0, 10000, restart_stdin);
}
}
/* nothing more to do */
OPAL_THREAD_UNLOCK(&mca_iof_hnp_component.lock);
return;
}
/* this must be output from one of my local procs - see
* if anyone else has requested a copy of this info
*/
for (item = opal_list_get_first(&mca_iof_hnp_component.sinks);
item != opal_list_get_end(&mca_iof_hnp_component.sinks);
item = opal_list_get_next(item)) {
orte_iof_sink_t *sink = (orte_iof_sink_t*)item;
/* if the target isn't set, then this sink is for another purpose - ignore it */
if (ORTE_JOBID_INVALID == sink->daemon.jobid) {
continue;
}
if ((sink->tag & rev->tag) &&
sink->name.jobid == rev->name.jobid &&
(ORTE_VPID_WILDCARD == sink->name.vpid || sink->name.vpid == rev->name.vpid)) {
/* need to send the data to the remote endpoint - if
* the connection closed, numbytes will be zero, so
* the remote endpoint will know to close its local fd.
* In this case, we pass rev->name to indicate who the
* data came from.
*/
OPAL_OUTPUT_VERBOSE((1, orte_iof_base.iof_output,
"%s sending data to tool %s",
ORTE_NAME_PRINT(ORTE_PROC_MY_NAME),
ORTE_NAME_PRINT(&sink->daemon)));
orte_iof_hnp_send_data_to_endpoint(&sink->daemon, &rev->name, rev->tag, data, numbytes);
}
}
OPAL_OUTPUT_VERBOSE((1, orte_iof_base.iof_output,
"%s read %d bytes from %s of %s",
ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), numbytes,
(ORTE_IOF_STDOUT & rev->tag) ? "stdout" : ((ORTE_IOF_STDERR & rev->tag) ? "stderr" : "stddiag"),
ORTE_NAME_PRINT(&rev->name)));
if (0 == numbytes) {
/* if we read 0 bytes from the stdout/err/diag, there is
* nothing to output - find this proc on our list and
* release the appropriate event. This will delete the
* read event and close the file descriptor
*/
for (item = opal_list_get_first(&mca_iof_hnp_component.procs);
item != opal_list_get_end(&mca_iof_hnp_component.procs);
item = opal_list_get_next(item)) {
proct = (orte_iof_proc_t*)item;
if (proct->name.jobid == rev->name.jobid &&
proct->name.vpid == rev->name.vpid) {
/* found it - release corresponding event. This deletes
* the read event and closes the file descriptor
*/
if (rev->tag & ORTE_IOF_STDOUT) {
OBJ_RELEASE(proct->revstdout);
} else if (rev->tag & ORTE_IOF_STDERR) {
OBJ_RELEASE(proct->revstderr);
} else if (rev->tag & ORTE_IOF_STDDIAG) {
OBJ_RELEASE(proct->revstddiag);
}
/* check to see if they are all done */
if (NULL == proct->revstdout &&
NULL == proct->revstderr &&
NULL == proct->revstddiag) {
opal_buffer_t cmdbuf;
orte_daemon_cmd_flag_t command;
/* this proc's iof is complete */
opal_list_remove_item(&mca_iof_hnp_component.procs, item);
/* setup a cmd to notify that the iof is complete */
OBJ_CONSTRUCT(&cmdbuf, opal_buffer_t);
command = ORTE_DAEMON_IOF_COMPLETE;
if (ORTE_SUCCESS != (rc = opal_dss.pack(&cmdbuf, &command, 1, ORTE_DAEMON_CMD))) {
ORTE_ERROR_LOG(rc);
goto CLEANUP;
}
if (ORTE_SUCCESS != (rc = opal_dss.pack(&cmdbuf, &proct->name, 1, ORTE_NAME))) {
ORTE_ERROR_LOG(rc);
goto CLEANUP;
}
ORTE_MESSAGE_EVENT(ORTE_PROC_MY_NAME, &cmdbuf, ORTE_RML_TAG_DAEMON, orte_daemon_cmd_processor);
CLEANUP:
OBJ_DESTRUCT(&cmdbuf);
OBJ_RELEASE(proct);
}
break;
}
}
OPAL_THREAD_UNLOCK(&mca_iof_hnp_component.lock);
return;
}
/* see if the user wanted the output directed to files */
if (NULL != orte_output_filename) {
/* find the sink for this rank */
for (item = opal_list_get_first(&mca_iof_hnp_component.sinks);
item != opal_list_get_end(&mca_iof_hnp_component.sinks);
item = opal_list_get_next(item)) {
orte_iof_sink_t *sink = (orte_iof_sink_t*)item;
/* if the target is set, then this sink is for another purpose - ignore it */
if (ORTE_JOBID_INVALID != sink->daemon.jobid) {
continue;
}
/* if this sink isn't for output, ignore it */
if (ORTE_IOF_STDIN & sink->tag) {
continue;
}
/* is this the desired proc? */
if (sink->name.jobid == rev->name.jobid &&
sink->name.vpid == rev->name.vpid) {
/* output to the corresponding file */
orte_iof_base_write_output(&rev->name, rev->tag, data, numbytes, sink->wev);
/* done */
break;
}
}
} else {
/* output this to our local output */
if (ORTE_IOF_STDOUT & rev->tag || orte_xml_output) {
orte_iof_base_write_output(&rev->name, rev->tag, data, numbytes, orte_iof_base.iof_write_stdout->wev);
} else {
orte_iof_base_write_output(&rev->name, rev->tag, data, numbytes, orte_iof_base.iof_write_stderr->wev);
}
}
/* re-add the event */
opal_event_add(&rev->ev, 0);
OPAL_THREAD_UNLOCK(&mca_iof_hnp_component.lock);
return;
}
static void attach_debugger(int fd, short event, void *arg)
{
orte_app_context_t *app;
unsigned char fifo_cmd;
int rc;
int32_t ljob;
orte_job_t *jdata;
/* read the file descriptor to clear that event, if necessary */
if (fifo_active) {
opal_event_del(&attach);
fifo_active = false;
rc = read(attach_fd, &fifo_cmd, sizeof(fifo_cmd));
if (!rc) {
/* reopen device to clear hangup */
open_fifo();
return;
}
if (1 != fifo_cmd) {
/* ignore the cmd */
goto RELEASE;
}
}
if (!MPIR_being_debugged && !orte_debugger_base.test_attach) {
/* false alarm */
goto RELEASE;
}
opal_output_verbose(1, orte_debugger_base.output,
"%s Attaching debugger %s", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME),
(NULL == orte_debugger_base.test_daemon) ? MPIR_executable_path : orte_debugger_base.test_daemon);
/* a debugger has attached! All the MPIR_Proctable
* data is already available, so we only need to
* check to see if we should spawn any daemons
*/
if ('\0' != MPIR_executable_path[0] || NULL != orte_debugger_base.test_daemon) {
/* can only have one debugger */
if (NULL != orte_debugger_daemon) {
opal_output(0, "-------------------------------------------\n"
"Only one debugger can be used on a job.\n"
"-------------------------------------------\n");
goto RELEASE;
}
opal_output_verbose(2, orte_debugger_base.output,
"%s Spawning debugger daemons %s",
ORTE_NAME_PRINT(ORTE_PROC_MY_NAME),
(NULL == orte_debugger_base.test_daemon) ?
MPIR_executable_path : orte_debugger_base.test_daemon);
/* this will be launched just like a regular job,
* so we do not use the global orte_debugger_daemon
* as this is reserved for co-location upon startup
*/
jdata = OBJ_NEW(orte_job_t);
/* create a jobid for these daemons - this is done solely
* to avoid confusing the rest of the system's bookkeeping
*/
orte_plm_base_create_jobid(jdata);
/* flag the job as being debugger daemons */
jdata->controls |= ORTE_JOB_CONTROL_DEBUGGER_DAEMON;
/* unless directed, we do not forward output */
if (!MPIR_forward_output) {
jdata->controls &= ~ORTE_JOB_CONTROL_FORWARD_OUTPUT;
}
/* add it to the global job pool */
ljob = ORTE_LOCAL_JOBID(jdata->jobid);
opal_pointer_array_set_item(orte_job_data, ljob, jdata);
/* create an app_context for the debugger daemon */
app = OBJ_NEW(orte_app_context_t);
if (NULL != orte_debugger_base.test_daemon) {
app->app = strdup(orte_debugger_base.test_daemon);
} else {
app->app = strdup((char*)MPIR_executable_path);
}
jdata->state = ORTE_JOB_STATE_INIT;
opal_argv_append_nosize(&app->argv, app->app);
build_debugger_args(app);
opal_pointer_array_add(jdata->apps, app);
jdata->num_apps = 1;
/* setup the mapping policy to bynode so we get one
* daemon on each node
*/
jdata->map = OBJ_NEW(orte_job_map_t);
jdata->map->policy = ORTE_MAPPING_BYNODE;
jdata->map->npernode = 1;
/* now go ahead and spawn this job */
if (ORTE_SUCCESS != (rc = orte_plm.spawn(jdata))) {
ORTE_ERROR_LOG(rc);
}
}
RELEASE:
/* reset the read or timer event */
if (0 == orte_debugger_mpirx_check_rate) {
fifo_active = true;
opal_event_add(&attach, 0);
} else if (!MPIR_being_debugged) {
ORTE_TIMER_EVENT(orte_debugger_mpirx_check_rate, 0, attach_debugger);
}
/* notify the debugger that all is ready */
MPIR_Breakpoint();
}
/**
* Initialization of data structures for running under a debugger
* using an extended MPICH/TotalView parallel debugger interface. Before the
* spawn we need to check if we are being run under a TotalView-like
* debugger; if so then inform applications via an MCA parameter.
*/
void init_before_spawn(orte_job_t *jdata)
{
char *env_name;
orte_app_context_t *app;
int i;
int32_t ljob;
char *attach_fifo;
if (!MPIR_being_debugged && !orte_in_parallel_debugger) {
/* if we were given a test debugger, then we still want to
* colaunch it
*/
if (NULL != orte_debugger_base.test_daemon) {
opal_output_verbose(2, orte_debugger_base.output,
"%s No debugger test daemon specified",
ORTE_NAME_PRINT(ORTE_PROC_MY_NAME));
goto launchit;
}
/* if we were given an auto-detect rate, then we want to setup
* an event so we periodically do the check
*/
if (0 < orte_debugger_mpirx_check_rate) {
opal_output_verbose(2, orte_debugger_base.output,
"%s Setting debugger attach check rate for %d seconds",
ORTE_NAME_PRINT(ORTE_PROC_MY_NAME),
orte_debugger_mpirx_check_rate);
ORTE_TIMER_EVENT(orte_debugger_mpirx_check_rate, 0, attach_debugger);
} else {
/* create the attachment FIFO and put it into MPIR, setup readevent */
/* create a FIFO name in the session dir */
attach_fifo = opal_os_path(false, orte_process_info.job_session_dir, "debugger_attach_fifo", NULL);
if ((mkfifo(attach_fifo, FILE_MODE) < 0) && errno != EEXIST) {
opal_output(0, "CANNOT CREATE FIFO %s: errno %d", attach_fifo, errno);
free(attach_fifo);
return;
}
strncpy(MPIR_attach_fifo, attach_fifo, MPIR_MAX_PATH_LENGTH - 1);
free (attach_fifo);
open_fifo ();
}
return;
}
launchit:
opal_output_verbose(2, orte_debugger_base.output,
"%s: Spawned by a debugger",
ORTE_NAME_PRINT(ORTE_PROC_MY_NAME));
/* tell the procs they are being debugged */
env_name = mca_base_param_environ_variable("orte",
"in_parallel_debugger", NULL);
for (i=0; i < jdata->apps->size; i++) {
if (NULL == (app = (orte_app_context_t*)opal_pointer_array_get_item(jdata->apps, i))) {
continue;
}
opal_setenv(env_name, "1", true, &app->env);
}
free(env_name);
/* check if we need to co-spawn the debugger daemons */
if ('\0' != MPIR_executable_path[0] || NULL != orte_debugger_base.test_daemon) {
/* can only have one debugger */
if (NULL != orte_debugger_daemon) {
opal_output(0, "-------------------------------------------\n"
"Only one debugger can be used on a job.\n"
"-------------------------------------------\n");
ORTE_UPDATE_EXIT_STATUS(ORTE_ERROR_DEFAULT_EXIT_CODE);
return;
}
opal_output_verbose(2, orte_debugger_base.output,
"%s Cospawning debugger daemons %s",
ORTE_NAME_PRINT(ORTE_PROC_MY_NAME),
(NULL == orte_debugger_base.test_daemon) ?
MPIR_executable_path : orte_debugger_base.test_daemon);
/* add debugger info to launch message */
orte_debugger_daemon = OBJ_NEW(orte_job_t);
/* create a jobid for these daemons - this is done solely
* to avoid confusing the rest of the system's bookkeeping
*/
orte_plm_base_create_jobid(orte_debugger_daemon);
/* flag the job as being debugger daemons */
orte_debugger_daemon->controls |= ORTE_JOB_CONTROL_DEBUGGER_DAEMON;
/* unless directed, we do not forward output */
if (!MPIR_forward_output) {
orte_debugger_daemon->controls &= ~ORTE_JOB_CONTROL_FORWARD_OUTPUT;
}
/* add it to the global job pool */
ljob = ORTE_LOCAL_JOBID(orte_debugger_daemon->jobid);
opal_pointer_array_set_item(orte_job_data, ljob, orte_debugger_daemon);
/* create an app_context for the debugger daemon */
app = OBJ_NEW(orte_app_context_t);
if (NULL != orte_debugger_base.test_daemon) {
app->app = strdup(orte_debugger_base.test_daemon);
} else {
app->app = strdup((char*)MPIR_executable_path);
}
opal_argv_append_nosize(&app->argv, app->app);
build_debugger_args(app);
opal_pointer_array_add(orte_debugger_daemon->apps, app);
orte_debugger_daemon->num_apps = 1;
}
return;
}
