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Replace T_NEVER by DDS_NEVER, DDS_INFINITY

Browse source 
Signed-off-by: Erik Boasson <eb@ilities.com>
This commit is contained in:
Erik Boasson 2020-03-09 14:02:30 +01:00 committed by eboasson
parent 39c7997c67
commit 763ed67958
15 changed files with 76 additions and 84 deletions
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12
src/core/ddsi/include/dds/ddsi/ddsi_deadline.h
View file

@ -48,30 +48,30 @@ DDS_EXPORT void deadline_renew_instance_real (struct deadline_adm *deadline_adm,
inline void deadline_register_instance_locked (struct deadline_adm *deadline_adm, struct deadline_elem *elem, nn_mtime_t tnow) inline void deadline_register_instance_locked (struct deadline_adm *deadline_adm, struct deadline_elem *elem, nn_mtime_t tnow)
{ {
if (deadline_adm->dur != T_NEVER) if (deadline_adm->dur != DDS_INFINITY)
deadline_register_instance_real (deadline_adm, elem, tnow, tnow); deadline_register_instance_real (deadline_adm, elem, tnow, tnow);
} }
inline void deadline_reregister_instance_locked (struct deadline_adm *deadline_adm, struct deadline_elem *elem, nn_mtime_t tnow) inline void deadline_reregister_instance_locked (struct deadline_adm *deadline_adm, struct deadline_elem *elem, nn_mtime_t tnow)
{ {
if (deadline_adm->dur != T_NEVER) if (deadline_adm->dur != DDS_INFINITY)
deadline_register_instance_real (deadline_adm, elem, elem->t_deadline, tnow); deadline_register_instance_real (deadline_adm, elem, elem->t_deadline, tnow);
} }
inline void deadline_unregister_instance_locked (struct deadline_adm *deadline_adm, struct deadline_elem *elem) inline void deadline_unregister_instance_locked (struct deadline_adm *deadline_adm, struct deadline_elem *elem)
{ {
if (deadline_adm->dur != T_NEVER) if (deadline_adm->dur != DDS_INFINITY)
{ {
assert (elem->t_deadline.v != T_NEVER); assert (elem->t_deadline.v != DDS_NEVER);
deadline_unregister_instance_real (deadline_adm, elem); deadline_unregister_instance_real (deadline_adm, elem);
} }
} }
inline void deadline_renew_instance_locked (struct deadline_adm *deadline_adm, struct deadline_elem *elem) inline void deadline_renew_instance_locked (struct deadline_adm *deadline_adm, struct deadline_elem *elem)
{ {
if (deadline_adm->dur != T_NEVER) if (deadline_adm->dur != DDS_INFINITY)
{ {
assert (elem->t_deadline.v != T_NEVER); assert (elem->t_deadline.v != DDS_NEVER);
deadline_renew_instance_real (deadline_adm, elem); deadline_renew_instance_real (deadline_adm, elem);
} }
} }

4
src/core/ddsi/include/dds/ddsi/ddsi_lifespan.h
View file

@ -43,13 +43,13 @@ DDS_EXPORT void lifespan_unregister_sample_real (struct lifespan_adm *lifespan_a
inline void lifespan_register_sample_locked (struct lifespan_adm *lifespan_adm, struct lifespan_fhnode *node) inline void lifespan_register_sample_locked (struct lifespan_adm *lifespan_adm, struct lifespan_fhnode *node)
{ {
if (node->t_expire.v != T_NEVER) if (node->t_expire.v != DDS_NEVER)
lifespan_register_sample_real (lifespan_adm, node); lifespan_register_sample_real (lifespan_adm, node);
} }
inline void lifespan_unregister_sample_locked (struct lifespan_adm *lifespan_adm, struct lifespan_fhnode *node) inline void lifespan_unregister_sample_locked (struct lifespan_adm *lifespan_adm, struct lifespan_fhnode *node)
{ {
if (node->t_expire.v != T_NEVER) if (node->t_expire.v != DDS_NEVER)
lifespan_unregister_sample_real (lifespan_adm, node); lifespan_unregister_sample_real (lifespan_adm, node);
} }

7
src/core/ddsi/include/dds/ddsi/q_time.h
View file

@ -20,7 +20,6 @@
extern "C" { extern "C" {
#endif #endif
#define T_NEVER 0x7fffffffffffffffll
#define T_MILLISECOND 1000000ll #define T_MILLISECOND 1000000ll
#define T_SECOND (1000 * T_MILLISECOND) #define T_SECOND (1000 * T_MILLISECOND)
#define T_MICROSECOND (T_MILLISECOND/1000) #define T_MICROSECOND (T_MILLISECOND/1000)
@ -46,9 +45,9 @@ typedef struct {
int64_t v; int64_t v;
} nn_etime_t; } nn_etime_t;
#define NN_MTIME_NEVER ((nn_mtime_t) { T_NEVER }) #define NN_MTIME_NEVER ((nn_mtime_t) { DDS_NEVER })
#define NN_WCTIME_NEVER ((nn_wctime_t) { T_NEVER }) #define NN_WCTIME_NEVER ((nn_wctime_t) { DDS_NEVER })
#define NN_ETIME_NEVER ((nn_etime_t) { T_NEVER }) #define NN_ETIME_NEVER ((nn_etime_t) { DDS_NEVER })
#define NN_WCTIME_INVALID ((nn_wctime_t) { INT64_MIN }) #define NN_WCTIME_INVALID ((nn_wctime_t) { INT64_MIN })
int valid_ddsi_timestamp (ddsi_time_t t); int valid_ddsi_timestamp (ddsi_time_t t);

4
src/core/ddsi/include/dds/ddsi/q_xevent.h
View file

@ -43,7 +43,7 @@ struct xeventq *xeventq_new
uint32_t auxiliary_bandwidth_limit uint32_t auxiliary_bandwidth_limit
); );
/* xeventq_free calls callback handlers with t = T_NEVER, at which point they are required to free /* xeventq_free calls callback handlers with t = NEVER, at which point they are required to free
whatever memory is claimed for the argument and call delete_xevent. */ whatever memory is claimed for the argument and call delete_xevent. */
DDS_EXPORT void xeventq_free (struct xeventq *evq); DDS_EXPORT void xeventq_free (struct xeventq *evq);
DDS_EXPORT dds_return_t xeventq_start (struct xeventq *evq, const char *name); /* <0 => error, =0 => ok */ DDS_EXPORT dds_return_t xeventq_start (struct xeventq *evq, const char *name); /* <0 => error, =0 => ok */
@ -68,7 +68,7 @@ DDS_EXPORT struct xevent *qxev_spdp (struct xeventq *evq, nn_mtime_t tsched, con
DDS_EXPORT struct xevent *qxev_pmd_update (struct xeventq *evq, nn_mtime_t tsched, const ddsi_guid_t *pp_guid); DDS_EXPORT struct xevent *qxev_pmd_update (struct xeventq *evq, nn_mtime_t tsched, const ddsi_guid_t *pp_guid);
DDS_EXPORT struct xevent *qxev_delete_writer (struct xeventq *evq, nn_mtime_t tsched, const ddsi_guid_t *guid); DDS_EXPORT struct xevent *qxev_delete_writer (struct xeventq *evq, nn_mtime_t tsched, const ddsi_guid_t *guid);
/* cb will be called with now = T_NEVER if the event is still enqueued when when xeventq_free starts cleaning up */ /* cb will be called with now = NEVER if the event is still enqueued when when xeventq_free starts cleaning up */
DDS_EXPORT struct xevent *qxev_callback (struct xeventq *evq, nn_mtime_t tsched, void (*cb) (struct xevent *xev, void *arg, nn_mtime_t now), void *arg); DDS_EXPORT struct xevent *qxev_callback (struct xeventq *evq, nn_mtime_t tsched, void (*cb) (struct xevent *xev, void *arg, nn_mtime_t now), void *arg);
#if defined (__cplusplus) #if defined (__cplusplus)

14
src/core/ddsi/src/ddsi_plist.c
View file

@ -2803,14 +2803,14 @@ static void xqos_init_default_common (dds_qos_t *xqos)
xqos->durability.kind = DDS_DURABILITY_VOLATILE; xqos->durability.kind = DDS_DURABILITY_VOLATILE;
xqos->present |= QP_DEADLINE; xqos->present |= QP_DEADLINE;
xqos->deadline.deadline = T_NEVER; xqos->deadline.deadline = DDS_INFINITY;
xqos->present |= QP_LATENCY_BUDGET; xqos->present |= QP_LATENCY_BUDGET;
xqos->latency_budget.duration = 0; xqos->latency_budget.duration = 0;
xqos->present |= QP_LIVELINESS; xqos->present |= QP_LIVELINESS;
xqos->liveliness.kind = DDS_LIVELINESS_AUTOMATIC; xqos->liveliness.kind = DDS_LIVELINESS_AUTOMATIC;
xqos->liveliness.lease_duration = T_NEVER; xqos->liveliness.lease_duration = DDS_INFINITY;
xqos->present |= QP_DESTINATION_ORDER; xqos->present |= QP_DESTINATION_ORDER;
xqos->destination_order.kind = DDS_DESTINATIONORDER_BY_RECEPTION_TIMESTAMP; xqos->destination_order.kind = DDS_DESTINATIONORDER_BY_RECEPTION_TIMESTAMP;
@ -2866,12 +2866,12 @@ void ddsi_xqos_init_default_reader (dds_qos_t *xqos)
xqos->time_based_filter.minimum_separation = 0; xqos->time_based_filter.minimum_separation = 0;
xqos->present |= QP_PRISMTECH_READER_DATA_LIFECYCLE; xqos->present |= QP_PRISMTECH_READER_DATA_LIFECYCLE;
xqos->reader_data_lifecycle.autopurge_nowriter_samples_delay = T_NEVER; xqos->reader_data_lifecycle.autopurge_nowriter_samples_delay = DDS_INFINITY;
xqos->reader_data_lifecycle.autopurge_disposed_samples_delay = T_NEVER; xqos->reader_data_lifecycle.autopurge_disposed_samples_delay = DDS_INFINITY;
xqos->present |= QP_PRISMTECH_READER_LIFESPAN; xqos->present |= QP_PRISMTECH_READER_LIFESPAN;
xqos->reader_lifespan.use_lifespan = 0; xqos->reader_lifespan.use_lifespan = 0;
xqos->reader_lifespan.duration = T_NEVER; xqos->reader_lifespan.duration = DDS_INFINITY;
xqos->present |= QP_PRISMTECH_SUBSCRIPTION_KEYS; xqos->present |= QP_PRISMTECH_SUBSCRIPTION_KEYS;
xqos->subscription_keys.use_key_list = 0; xqos->subscription_keys.use_key_list = 0;
@ -2902,7 +2902,7 @@ void ddsi_xqos_init_default_writer (dds_qos_t *xqos)
xqos->transport_priority.value = 0; xqos->transport_priority.value = 0;
xqos->present |= QP_LIFESPAN; xqos->present |= QP_LIFESPAN;
xqos->lifespan.duration = T_NEVER; xqos->lifespan.duration = DDS_INFINITY;
xqos->present |= QP_PRISMTECH_WRITER_DATA_LIFECYCLE; xqos->present |= QP_PRISMTECH_WRITER_DATA_LIFECYCLE;
xqos->writer_data_lifecycle.autodispose_unregistered_instances = 1; xqos->writer_data_lifecycle.autodispose_unregistered_instances = 1;
@ -2934,7 +2934,7 @@ void ddsi_xqos_init_default_topic (dds_qos_t *xqos)
xqos->transport_priority.value = 0; xqos->transport_priority.value = 0;
xqos->present |= QP_LIFESPAN; xqos->present |= QP_LIFESPAN;
xqos->lifespan.duration = T_NEVER; xqos->lifespan.duration = DDS_INFINITY;
xqos->present |= QP_PRISMTECH_SUBSCRIPTION_KEYS; xqos->present |= QP_PRISMTECH_SUBSCRIPTION_KEYS;
xqos->subscription_keys.use_key_list = 0; xqos->subscription_keys.use_key_list = 0;

6
src/core/ddsi/src/q_config.c
View file

@ -1910,10 +1910,10 @@ static enum update_result uf_duration_inf (struct cfgst *cfgst, void *parent, st
{ {
if (ddsrt_strcasecmp (value, "inf") == 0) { if (ddsrt_strcasecmp (value, "inf") == 0) {
int64_t * const elem = cfg_address (cfgst, parent, cfgelem); int64_t * const elem = cfg_address (cfgst, parent, cfgelem);
*elem = T_NEVER; *elem = DDS_INFINITY;
return URES_SUCCESS; return URES_SUCCESS;
} else { } else {
return uf_duration_gen (cfgst, parent, cfgelem, value, 0, 0, T_NEVER - 1); return uf_duration_gen (cfgst, parent, cfgelem, value, 0, 0, DDS_INFINITY - 1);
} }
} }
@ -1940,7 +1940,7 @@ static enum update_result uf_duration_100ms_1hr (struct cfgst *cfgst, void *pare
static void pf_duration (struct cfgst *cfgst, void *parent, struct cfgelem const * const cfgelem, uint32_t sources) static void pf_duration (struct cfgst *cfgst, void *parent, struct cfgelem const * const cfgelem, uint32_t sources)
{ {
int64_t const * const elem = cfg_address (cfgst, parent, cfgelem); int64_t const * const elem = cfg_address (cfgst, parent, cfgelem);
if (*elem == T_NEVER) if (*elem == DDS_INFINITY)
cfg_logelem (cfgst, sources, "inf"); cfg_logelem (cfgst, sources, "inf");
else else
pf_int64_unit (cfgst, *elem, sources, unittab_duration, "s"); pf_int64_unit (cfgst, *elem, sources, unittab_duration, "s");

8
src/core/ddsi/src/q_ddsi_discovery.c
View file

@ -662,7 +662,7 @@ static int handle_SPDP_alive (const struct receiver_state *rst, seqno_t seq, nn_
GVLOGDISC (" (depends on "PGUIDFMT")", PGUID (privileged_pp_guid)); GVLOGDISC (" (depends on "PGUIDFMT")", PGUID (privileged_pp_guid));
/* never expire lease for this proxy: it won't actually expire /* never expire lease for this proxy: it won't actually expire
until the "privileged" one expires anyway */ until the "privileged" one expires anyway */
lease_duration = T_NEVER; lease_duration = DDS_INFINITY;
} }
else if (vendor_is_eclipse_or_opensplice (rst->vendor) && !(custom_flags & CF_PARTICIPANT_IS_DDSI2)) else if (vendor_is_eclipse_or_opensplice (rst->vendor) && !(custom_flags & CF_PARTICIPANT_IS_DDSI2))
{ {
@ -674,7 +674,7 @@ static int handle_SPDP_alive (const struct receiver_state *rst, seqno_t seq, nn_
else else
{ {
privileged_pp_guid.prefix = ddsi2->e.guid.prefix; privileged_pp_guid.prefix = ddsi2->e.guid.prefix;
lease_duration = T_NEVER; lease_duration = DDS_INFINITY;
GVLOGDISC (" (depends on "PGUIDFMT")", PGUID (privileged_pp_guid)); GVLOGDISC (" (depends on "PGUIDFMT")", PGUID (privileged_pp_guid));
} }
} }
@ -1086,7 +1086,7 @@ static struct proxy_participant *implicitly_create_proxypp (struct ddsi_domaingv
doing anything about (1). That means we fall back to the legacy mode of locally generating doing anything about (1). That means we fall back to the legacy mode of locally generating
GIDs but leaving the system id unchanged if the remote is OSPL. */ GIDs but leaving the system id unchanged if the remote is OSPL. */
actual_vendorid = (datap->present & PP_VENDORID) ? datap->vendorid : vendorid; actual_vendorid = (datap->present & PP_VENDORID) ? datap->vendorid : vendorid;
new_proxy_participant(gv, ppguid, 0, &privguid, new_addrset(), new_addrset(), &pp_plist, T_NEVER, actual_vendorid, CF_IMPLICITLY_CREATED_PROXYPP, timestamp, seq); new_proxy_participant(gv, ppguid, 0, &privguid, new_addrset(), new_addrset(), &pp_plist, DDS_INFINITY, actual_vendorid, CF_IMPLICITLY_CREATED_PROXYPP, timestamp, seq);
} }
else if (ppguid->prefix.u[0] == src_guid_prefix->u[0] && vendor_is_eclipse_or_opensplice (vendorid)) else if (ppguid->prefix.u[0] == src_guid_prefix->u[0] && vendor_is_eclipse_or_opensplice (vendorid))
{ {
@ -1120,7 +1120,7 @@ static struct proxy_participant *implicitly_create_proxypp (struct ddsi_domaingv
ddsrt_mutex_unlock (&privpp->e.lock); ddsrt_mutex_unlock (&privpp->e.lock);
pp_plist.prismtech_participant_version_info.flags &= ~NN_PRISMTECH_FL_PARTICIPANT_IS_DDSI2; pp_plist.prismtech_participant_version_info.flags &= ~NN_PRISMTECH_FL_PARTICIPANT_IS_DDSI2;
new_proxy_participant (gv, ppguid, 0, &privguid, as_default, as_meta, &pp_plist, T_NEVER, vendorid, CF_IMPLICITLY_CREATED_PROXYPP | CF_PROXYPP_NO_SPDP, timestamp, seq); new_proxy_participant (gv, ppguid, 0, &privguid, as_default, as_meta, &pp_plist, DDS_INFINITY, vendorid, CF_IMPLICITLY_CREATED_PROXYPP | CF_PROXYPP_NO_SPDP, timestamp, seq);
} }
} }

38
src/core/ddsi/src/q_entity.c
View file

@ -417,7 +417,7 @@ static void remember_deleted_participant_guid (struct deleted_participants_admin
if ((n = ddsrt_malloc (sizeof (*n))) != NULL) if ((n = ddsrt_malloc (sizeof (*n))) != NULL)
{ {
n->guid = *guid; n->guid = *guid;
n->t_prune.v = T_NEVER; n->t_prune = NN_MTIME_NEVER;
n->for_what = DPG_LOCAL | DPG_REMOTE; n->for_what = DPG_LOCAL | DPG_REMOTE;
ddsrt_avl_insert_ipath (&deleted_participants_treedef, &admin->deleted_participants, n, &path); ddsrt_avl_insert_ipath (&deleted_participants_treedef, &admin->deleted_participants, n, &path);
} }
@ -811,7 +811,7 @@ dds_return_t new_participant_guid (const ddsi_guid_t *ppguid, struct ddsi_domain
{ {
nn_mtime_t tsched; nn_mtime_t tsched;
tsched.v = (pp->lease_duration == T_NEVER) ? T_NEVER : 0; tsched = (pp->lease_duration == DDS_INFINITY) ? NN_MTIME_NEVER : (nn_mtime_t){0};
pp->pmd_update_xevent = qxev_pmd_update (gv->xevents, tsched, &pp->e.guid); pp->pmd_update_xevent = qxev_pmd_update (gv->xevents, tsched, &pp->e.guid);
} }
return 0; return 0;
@ -1089,7 +1089,7 @@ dds_duration_t pp_get_pmd_interval (struct participant *pp)
dds_duration_t intv; dds_duration_t intv;
ddsrt_mutex_lock (&pp->e.lock); ddsrt_mutex_lock (&pp->e.lock);
ldur_node = ddsrt_fibheap_min (&ldur_fhdef, &pp->ldur_auto_wr); ldur_node = ddsrt_fibheap_min (&ldur_fhdef, &pp->ldur_auto_wr);
intv = (ldur_node != NULL) ? ldur_node->ldur : T_NEVER; intv = (ldur_node != NULL) ? ldur_node->ldur : DDS_INFINITY;
if (pp->lease_duration < intv) if (pp->lease_duration < intv)
intv = pp->lease_duration; intv = pp->lease_duration;
ddsrt_mutex_unlock (&pp->e.lock); ddsrt_mutex_unlock (&pp->e.lock);
@ -2920,7 +2920,7 @@ void writer_set_alive_may_unlock (struct writer *wr, bool notify)
ddsrt_mutex_lock (&wr->c.pp->e.lock); ddsrt_mutex_lock (&wr->c.pp->e.lock);
wr->alive = true; wr->alive = true;
wr->alive_vclock++; wr->alive_vclock++;
if (wr->xqos->liveliness.lease_duration != T_NEVER) if (wr->xqos->liveliness.lease_duration != DDS_INFINITY)
{ {
if (wr->xqos->liveliness.kind == DDS_LIVELINESS_MANUAL_BY_PARTICIPANT) if (wr->xqos->liveliness.kind == DDS_LIVELINESS_MANUAL_BY_PARTICIPANT)
participant_add_wr_lease_locked (wr->c.pp, wr); participant_add_wr_lease_locked (wr->c.pp, wr);
@ -2943,7 +2943,7 @@ static int writer_set_notalive_locked (struct writer *wr, bool notify)
ddsrt_mutex_lock (&wr->c.pp->e.lock); ddsrt_mutex_lock (&wr->c.pp->e.lock);
wr->alive = false; wr->alive = false;
wr->alive_vclock++; wr->alive_vclock++;
if (wr->xqos->liveliness.lease_duration != T_NEVER && wr->xqos->liveliness.kind == DDS_LIVELINESS_MANUAL_BY_PARTICIPANT) if (wr->xqos->liveliness.lease_duration != DDS_INFINITY && wr->xqos->liveliness.kind == DDS_LIVELINESS_MANUAL_BY_PARTICIPANT)
participant_remove_wr_lease_locked (wr->c.pp, wr); participant_remove_wr_lease_locked (wr->c.pp, wr);
ddsrt_mutex_unlock (&wr->c.pp->e.lock); ddsrt_mutex_unlock (&wr->c.pp->e.lock);
@ -3089,22 +3089,16 @@ static void new_writer_guid_common_init (struct writer *wr, const struct ddsi_se
} }
/* heartbeat event will be deleted when the handler can't find a /* heartbeat event will be deleted when the handler can't find a
writer for it in the hash table. T_NEVER => won't ever be writer for it in the hash table. NEVER => won't ever be
scheduled, and this can only change by writing data, which won't scheduled, and this can only change by writing data, which won't
happen until after it becomes visible. */ happen until after it becomes visible. */
if (wr->reliable) if (wr->reliable)
{ wr->heartbeat_xevent = qxev_heartbeat (wr->evq, NN_MTIME_NEVER, &wr->e.guid);
nn_mtime_t tsched;
tsched.v = T_NEVER;
wr->heartbeat_xevent = qxev_heartbeat (wr->evq, tsched, &wr->e.guid);
}
else else
{
wr->heartbeat_xevent = NULL; wr->heartbeat_xevent = NULL;
}
assert (wr->xqos->present & QP_LIVELINESS); assert (wr->xqos->present & QP_LIVELINESS);
if (wr->xqos->liveliness.lease_duration != T_NEVER) if (wr->xqos->liveliness.lease_duration != DDS_INFINITY)
{ {
wr->lease_duration = ddsrt_malloc (sizeof(*wr->lease_duration)); wr->lease_duration = ddsrt_malloc (sizeof(*wr->lease_duration));
wr->lease_duration->ldur = wr->xqos->liveliness.lease_duration; wr->lease_duration->ldur = wr->xqos->liveliness.lease_duration;
@ -3181,7 +3175,7 @@ static dds_return_t new_writer_guid (struct writer **wr_out, const struct ddsi_g
if (wr->lease_duration != NULL) if (wr->lease_duration != NULL)
{ {
assert (wr->lease_duration->ldur != T_NEVER); assert (wr->lease_duration->ldur != DDS_INFINITY);
assert (!is_builtin_entityid (wr->e.guid.entityid, NN_VENDORID_ECLIPSE)); assert (!is_builtin_entityid (wr->e.guid.entityid, NN_VENDORID_ECLIPSE));
if (wr->xqos->liveliness.kind == DDS_LIVELINESS_AUTOMATIC) if (wr->xqos->liveliness.kind == DDS_LIVELINESS_AUTOMATIC)
{ {
@ -3278,7 +3272,7 @@ static void gc_delete_writer (struct gcreq *gcreq)
if (wr->heartbeat_xevent) if (wr->heartbeat_xevent)
{ {
wr->hbcontrol.tsched.v = T_NEVER; wr->hbcontrol.tsched = NN_MTIME_NEVER;
delete_xevent (wr->heartbeat_xevent); delete_xevent (wr->heartbeat_xevent);
} }
@ -4026,7 +4020,7 @@ void new_proxy_participant (struct ddsi_domaingv *gv, const struct ddsi_guid *pp
lease that doesn't expire now and that has a "reasonable" lease duration. That way the lease renewal in lease that doesn't expire now and that has a "reasonable" lease duration. That way the lease renewal in
the data path is fine, and we only need to do something special in SEDP handling. */ the data path is fine, and we only need to do something special in SEDP handling. */
nn_etime_t texp = add_duration_to_etime (now_et(), tlease_dur); nn_etime_t texp = add_duration_to_etime (now_et(), tlease_dur);
dds_duration_t dur = (tlease_dur == T_NEVER) ? gv->config.lease_duration : tlease_dur; dds_duration_t dur = (tlease_dur == DDS_INFINITY) ? gv->config.lease_duration : tlease_dur;
proxypp->lease = lease_new (texp, dur, &proxypp->e); proxypp->lease = lease_new (texp, dur, &proxypp->e);
proxypp->owns_lease = 1; proxypp->owns_lease = 1;
@ -4529,7 +4523,7 @@ int new_proxy_writer (struct ddsi_domaingv *gv, const struct ddsi_guid *ppguid,
#endif #endif
assert (pwr->c.xqos->present & QP_LIVELINESS); assert (pwr->c.xqos->present & QP_LIVELINESS);
if (pwr->c.xqos->liveliness.lease_duration != T_NEVER) if (pwr->c.xqos->liveliness.lease_duration != DDS_INFINITY)
{ {
nn_etime_t texpire = add_duration_to_etime (now_et (), pwr->c.xqos->liveliness.lease_duration); nn_etime_t texpire = add_duration_to_etime (now_et (), pwr->c.xqos->liveliness.lease_duration);
pwr->lease = lease_new (texpire, pwr->c.xqos->liveliness.lease_duration, &pwr->e); pwr->lease = lease_new (texpire, pwr->c.xqos->liveliness.lease_duration, &pwr->e);
@ -4689,7 +4683,7 @@ static void gc_delete_proxy_writer (struct gcreq *gcreq)
free_pwr_rd_match (m); free_pwr_rd_match (m);
} }
local_reader_ary_fini (&pwr->rdary); local_reader_ary_fini (&pwr->rdary);
if (pwr->c.xqos->liveliness.lease_duration != T_NEVER) if (pwr->c.xqos->liveliness.lease_duration != DDS_INFINITY)
lease_free (pwr->lease); lease_free (pwr->lease);
proxy_endpoint_common_fini (&pwr->e, &pwr->c); proxy_endpoint_common_fini (&pwr->e, &pwr->c);
nn_defrag_free (pwr->defrag); nn_defrag_free (pwr->defrag);
@ -4722,7 +4716,7 @@ int delete_proxy_writer (struct ddsi_domaingv *gv, const struct ddsi_guid *guid,
builtintopic_write (gv->builtin_topic_interface, &pwr->e, timestamp, false); builtintopic_write (gv->builtin_topic_interface, &pwr->e, timestamp, false);
entidx_remove_proxy_writer_guid (gv->entity_index, pwr); entidx_remove_proxy_writer_guid (gv->entity_index, pwr);
ddsrt_mutex_unlock (&gv->lock); ddsrt_mutex_unlock (&gv->lock);
if (pwr->c.xqos->liveliness.lease_duration != T_NEVER && if (pwr->c.xqos->liveliness.lease_duration != DDS_INFINITY &&
pwr->c.xqos->liveliness.kind == DDS_LIVELINESS_MANUAL_BY_TOPIC) pwr->c.xqos->liveliness.kind == DDS_LIVELINESS_MANUAL_BY_TOPIC)
lease_unregister (pwr->lease); lease_unregister (pwr->lease);
if (proxy_writer_set_notalive (pwr, false) != DDS_RETCODE_OK) if (proxy_writer_set_notalive (pwr, false) != DDS_RETCODE_OK)
@ -4768,7 +4762,7 @@ void proxy_writer_set_alive_may_unlock (struct proxy_writer *pwr, bool notify)
ddsrt_mutex_lock (&pwr->c.proxypp->e.lock); ddsrt_mutex_lock (&pwr->c.proxypp->e.lock);
pwr->alive = true; pwr->alive = true;
pwr->alive_vclock++; pwr->alive_vclock++;
if (pwr->c.xqos->liveliness.lease_duration != T_NEVER) if (pwr->c.xqos->liveliness.lease_duration != DDS_INFINITY)
{ {
if (pwr->c.xqos->liveliness.kind != DDS_LIVELINESS_MANUAL_BY_TOPIC) if (pwr->c.xqos->liveliness.kind != DDS_LIVELINESS_MANUAL_BY_TOPIC)
proxy_participant_add_pwr_lease_locked (pwr->c.proxypp, pwr); proxy_participant_add_pwr_lease_locked (pwr->c.proxypp, pwr);
@ -4795,7 +4789,7 @@ int proxy_writer_set_notalive (struct proxy_writer *pwr, bool notify)
ddsrt_mutex_lock (&pwr->c.proxypp->e.lock); ddsrt_mutex_lock (&pwr->c.proxypp->e.lock);
pwr->alive = false; pwr->alive = false;
pwr->alive_vclock++; pwr->alive_vclock++;
if (pwr->c.xqos->liveliness.lease_duration != T_NEVER && pwr->c.xqos->liveliness.kind != DDS_LIVELINESS_MANUAL_BY_TOPIC) if (pwr->c.xqos->liveliness.lease_duration != DDS_INFINITY && pwr->c.xqos->liveliness.kind != DDS_LIVELINESS_MANUAL_BY_TOPIC)
proxy_participant_remove_pwr_lease_locked (pwr->c.proxypp, pwr); proxy_participant_remove_pwr_lease_locked (pwr->c.proxypp, pwr);
ddsrt_mutex_unlock (&pwr->c.proxypp->e.lock); ddsrt_mutex_unlock (&pwr->c.proxypp->e.lock);

4
src/core/ddsi/src/q_init.c
View file

@ -952,7 +952,7 @@ int rtps_init (struct ddsi_domaingv *gv)
uint32_t port_disc_uc = 0; uint32_t port_disc_uc = 0;
uint32_t port_data_uc = 0; uint32_t port_data_uc = 0;
bool mc_available = true; bool mc_available = true;
nn_mtime_t reset_deaf_mute_time = { T_NEVER }; nn_mtime_t reset_deaf_mute_time = NN_MTIME_NEVER;
gv->tstart = now (); /* wall clock time, used in logs */ gv->tstart = now (); /* wall clock time, used in logs */
@ -1429,7 +1429,7 @@ int rtps_init (struct ddsi_domaingv *gv)
gv->user_dqueue = nn_dqueue_new ("user", gv, gv->config.delivery_queue_maxsamples, user_dqueue_handler, NULL); gv->user_dqueue = nn_dqueue_new ("user", gv, gv->config.delivery_queue_maxsamples, user_dqueue_handler, NULL);
#endif #endif
if (reset_deaf_mute_time.v < T_NEVER) if (reset_deaf_mute_time.v < DDS_NEVER)
qxev_callback (gv->xevents, reset_deaf_mute_time, reset_deaf_mute, gv); qxev_callback (gv->xevents, reset_deaf_mute_time, reset_deaf_mute, gv);
return 0; return 0;

10
src/core/ddsi/src/q_lease.c
View file

@ -110,7 +110,7 @@ void lease_register (struct lease *l) /* FIXME: make lease admin struct */
ddsrt_mutex_lock (&gv->leaseheap_lock); ddsrt_mutex_lock (&gv->leaseheap_lock);
assert (l->tsched.v == TSCHED_NOT_ON_HEAP); assert (l->tsched.v == TSCHED_NOT_ON_HEAP);
int64_t tend = (int64_t) ddsrt_atomic_ld64 (&l->tend); int64_t tend = (int64_t) ddsrt_atomic_ld64 (&l->tend);
if (tend != T_NEVER) if (tend != DDS_NEVER)
{ {
l->tsched.v = tend; l->tsched.v = tend;
ddsrt_fibheap_insert (&lease_fhdef, &gv->leaseheap, l); ddsrt_fibheap_insert (&lease_fhdef, &gv->leaseheap, l);
@ -175,7 +175,7 @@ void lease_renew (struct lease *l, nn_etime_t tnowE)
/* Only at this point we can assume that gv can be recovered from the entity in the /* Only at this point we can assume that gv can be recovered from the entity in the
* lease (i.e. the entity still exists). In cases where dereferencing l->entity->gv * lease (i.e. the entity still exists). In cases where dereferencing l->entity->gv
* is not safe (e.g. the deletion of entities), the early out in the loop above * is not safe (e.g. the deletion of entities), the early out in the loop above
* will be the case because tend is set to T_NEVER. */ * will be the case because tend is set to DDS_NEVER. */
trace_lease_renew (l, "", tend_new); trace_lease_renew (l, "", tend_new);
} }
@ -197,7 +197,7 @@ void lease_set_expiry (struct lease *l, nn_etime_t when)
trace_lease_renew (l, "earlier ", when); trace_lease_renew (l, "earlier ", when);
trigger = true; trigger = true;
} }
else if (l->tsched.v == TSCHED_NOT_ON_HEAP && when.v < T_NEVER) else if (l->tsched.v == TSCHED_NOT_ON_HEAP && when.v < DDS_NEVER)
{ {
/* not currently scheduled, with a finite new expiry time */ /* not currently scheduled, with a finite new expiry time */
l->tsched = when; l->tsched = when;
@ -229,7 +229,7 @@ int64_t check_and_handle_lease_expiration (struct ddsi_domaingv *gv, nn_etime_t
int64_t tend = (int64_t) ddsrt_atomic_ld64 (&l->tend); int64_t tend = (int64_t) ddsrt_atomic_ld64 (&l->tend);
if (tnowE.v < tend) if (tnowE.v < tend)
{ {
if (tend == T_NEVER) { if (tend == DDS_NEVER) {
/* don't reinsert if it won't expire */ /* don't reinsert if it won't expire */
l->tsched.v = TSCHED_NOT_ON_HEAP; l->tsched.v = TSCHED_NOT_ON_HEAP;
} else { } else {
@ -302,7 +302,7 @@ int64_t check_and_handle_lease_expiration (struct ddsi_domaingv *gv, nn_etime_t
ddsrt_mutex_lock (&gv->leaseheap_lock); ddsrt_mutex_lock (&gv->leaseheap_lock);
} }
delay = (l == NULL) ? T_NEVER : (l->tsched.v - tnowE.v); delay = (l == NULL) ? DDS_INFINITY : (l->tsched.v - tnowE.v);
ddsrt_mutex_unlock (&gv->leaseheap_lock); ddsrt_mutex_unlock (&gv->leaseheap_lock);
return delay; return delay;
} }

5
src/core/ddsi/src/q_receive.c
View file

@ -1072,8 +1072,7 @@ static void handle_Heartbeat_helper (struct pwr_rd_match * const wn, struct hand
once, regardless of which readers care about it. */ once, regardless of which readers care about it. */
if (wn->acknack_xevent) if (wn->acknack_xevent)
{ {
nn_mtime_t tsched; nn_mtime_t tsched = NN_MTIME_NEVER;
tsched.v = T_NEVER;
if (pwr->last_seq > refseq) if (pwr->last_seq > refseq)
{ {
RSTTRACE ("/NAK"); RSTTRACE ("/NAK");
@ -1142,7 +1141,7 @@ static int handle_Heartbeat (struct receiver_state *rst, nn_etime_t tnow, struct
ddsrt_mutex_lock (&pwr->e.lock); ddsrt_mutex_lock (&pwr->e.lock);
if (msg->smhdr.flags & HEARTBEAT_FLAG_LIVELINESS && if (msg->smhdr.flags & HEARTBEAT_FLAG_LIVELINESS &&
pwr->c.xqos->liveliness.kind != DDS_LIVELINESS_AUTOMATIC && pwr->c.xqos->liveliness.kind != DDS_LIVELINESS_AUTOMATIC &&
pwr->c.xqos->liveliness.lease_duration != T_NEVER) pwr->c.xqos->liveliness.lease_duration != DDS_INFINITY)
{ {
if ((lease = ddsrt_atomic_ldvoidp (&pwr->c.proxypp->minl_man)) != NULL) if ((lease = ddsrt_atomic_ldvoidp (&pwr->c.proxypp->minl_man)) != NULL)
lease_renew (lease, tnow); lease_renew (lease, tnow);

14
src/core/ddsi/src/q_time.c
View file

@ -75,7 +75,7 @@ nn_mtime_t mtime_round_up (nn_mtime_t t, int64_t round)
t is nanoseconds, round is milliseconds. Avoid functions from t is nanoseconds, round is milliseconds. Avoid functions from
maths libraries to keep code portable */ maths libraries to keep code portable */
assert (t.v >= 0 && round >= 0); assert (t.v >= 0 && round >= 0);
if (round == 0 || t.v == T_NEVER) if (round == 0 || t.v == DDS_INFINITY)
{ {
return t; return t;
} }
@ -100,12 +100,12 @@ static int64_t add_duration_to_time (int64_t t, int64_t d)
uint64_t sum; uint64_t sum;
assert (t >= 0 && d >= 0); assert (t >= 0 && d >= 0);
sum = (uint64_t)t + (uint64_t)d; sum = (uint64_t)t + (uint64_t)d;
return sum >= T_NEVER ? T_NEVER : (int64_t)sum; return sum >= DDS_NEVER ? DDS_NEVER : (int64_t)sum;
} }
nn_mtime_t add_duration_to_mtime (nn_mtime_t t, int64_t d) nn_mtime_t add_duration_to_mtime (nn_mtime_t t, int64_t d)
{ {
/* assumed T_NEVER <=> MAX_INT64 */ /* assumed DDS_NEVER <=> MAX_INT64 */
nn_mtime_t u; nn_mtime_t u;
u.v = add_duration_to_time (t.v, d); u.v = add_duration_to_time (t.v, d);
return u; return u;
@ -113,7 +113,7 @@ nn_mtime_t add_duration_to_mtime (nn_mtime_t t, int64_t d)
nn_wctime_t add_duration_to_wctime (nn_wctime_t t, int64_t d) nn_wctime_t add_duration_to_wctime (nn_wctime_t t, int64_t d)
{ {
/* assumed T_NEVER <=> MAX_INT64 */ /* assumed DDS_NEVER <=> MAX_INT64 */
nn_wctime_t u; nn_wctime_t u;
u.v = add_duration_to_time (t.v, d); u.v = add_duration_to_time (t.v, d);
return u; return u;
@ -121,7 +121,7 @@ nn_wctime_t add_duration_to_wctime (nn_wctime_t t, int64_t d)
nn_etime_t add_duration_to_etime (nn_etime_t t, int64_t d) nn_etime_t add_duration_to_etime (nn_etime_t t, int64_t d)
{ {
/* assumed T_NEVER <=> MAX_INT64 */ /* assumed DDS_NEVER <=> MAX_INT64 */
nn_etime_t u; nn_etime_t u;
u.v = add_duration_to_time (t.v, d); u.v = add_duration_to_time (t.v, d);
return u; return u;
@ -134,7 +134,7 @@ int valid_ddsi_timestamp (ddsi_time_t t)
static ddsi_time_t nn_to_ddsi_time (int64_t t) static ddsi_time_t nn_to_ddsi_time (int64_t t)
{ {
if (t == T_NEVER) if (t == DDS_NEVER)
return DDSI_TIME_INFINITE; return DDSI_TIME_INFINITE;
else else
{ {
@ -157,7 +157,7 @@ ddsi_time_t nn_wctime_to_ddsi_time (nn_wctime_t t)
static int64_t nn_from_ddsi_time (ddsi_time_t x) static int64_t nn_from_ddsi_time (ddsi_time_t x)
{ {
if (x.seconds == DDSI_TIME_INFINITE.seconds && x.fraction == DDSI_TIME_INFINITE.fraction) if (x.seconds == DDSI_TIME_INFINITE.seconds && x.fraction == DDSI_TIME_INFINITE.fraction)
return T_NEVER; return DDS_NEVER;
else else
{ {
/* Round-to-nearest conversion of DDSI time fraction to nanoseconds */ /* Round-to-nearest conversion of DDSI time fraction to nanoseconds */

4
src/core/ddsi/src/q_transmit.c
View file

@ -58,7 +58,7 @@ void writer_hbcontrol_init (struct hbcontrol *hbc)
hbc->t_of_last_write.v = 0; hbc->t_of_last_write.v = 0;
hbc->t_of_last_hb.v = 0; hbc->t_of_last_hb.v = 0;
hbc->t_of_last_ackhb.v = 0; hbc->t_of_last_ackhb.v = 0;
hbc->tsched.v = T_NEVER; hbc->tsched = NN_MTIME_NEVER;
hbc->hbs_since_last_write = 0; hbc->hbs_since_last_write = 0;
hbc->last_packetid = 0; hbc->last_packetid = 0;
} }
@ -306,7 +306,7 @@ struct nn_xmsg *writer_hbcontrol_piggyback (struct writer *wr, const struct whc_
ETRACE (wr, "heartbeat(wr "PGUIDFMT"%s) piggybacked, resched in %g s (min-ack %"PRId64"%s, avail-seq %"PRId64", xmit %"PRId64")\n", ETRACE (wr, "heartbeat(wr "PGUIDFMT"%s) piggybacked, resched in %g s (min-ack %"PRId64"%s, avail-seq %"PRId64", xmit %"PRId64")\n",
PGUID (wr->e.guid), PGUID (wr->e.guid),
*hbansreq ? "" : " final", *hbansreq ? "" : " final",
(hbc->tsched.v == T_NEVER) ? INFINITY : (double) (hbc->tsched.v - tnow.v) / 1e9, (hbc->tsched.v == DDS_NEVER) ? INFINITY : (double) (hbc->tsched.v - tnow.v) / 1e9,
ddsrt_avl_is_empty (&wr->readers) ? -1 : root_rdmatch (wr)->min_seq, ddsrt_avl_is_empty (&wr->readers) ? -1 : root_rdmatch (wr)->min_seq,
ddsrt_avl_is_empty (&wr->readers) || root_rdmatch (wr)->all_have_replied_to_hb ? "" : "!", ddsrt_avl_is_empty (&wr->readers) || root_rdmatch (wr)->all_have_replied_to_hb ? "" : "!",
whcst->max_seq, writer_read_seq_xmit (wr)); whcst->max_seq, writer_read_seq_xmit (wr));

28
src/core/ddsi/src/q_xevent.c
View file

@ -321,7 +321,7 @@ void delete_xevent (struct xevent *ev)
/* Can delete it only once, no matter how we implement it internally */ /* Can delete it only once, no matter how we implement it internally */
assert (ev->tsched.v != TSCHED_DELETE); assert (ev->tsched.v != TSCHED_DELETE);
assert (TSCHED_DELETE < ev->tsched.v); assert (TSCHED_DELETE < ev->tsched.v);
if (ev->tsched.v != T_NEVER) if (ev->tsched.v != DDS_NEVER)
{ {
ev->tsched.v = TSCHED_DELETE; ev->tsched.v = TSCHED_DELETE;
ddsrt_fibheap_decrease_key (&evq_xevents_fhdef, &evq->xevents, ev); ddsrt_fibheap_decrease_key (&evq_xevents_fhdef, &evq->xevents, ev);
@ -343,13 +343,13 @@ void delete_xevent_callback (struct xevent *ev)
assert (ev->kind == XEVK_CALLBACK); assert (ev->kind == XEVK_CALLBACK);
ddsrt_mutex_lock (&evq->lock); ddsrt_mutex_lock (&evq->lock);
/* wait until neither scheduled nor executing; loop in case the callback reschedules the event */ /* wait until neither scheduled nor executing; loop in case the callback reschedules the event */
while (ev->tsched.v != T_NEVER || ev->u.callback.executing) while (ev->tsched.v != DDS_NEVER || ev->u.callback.executing)
{ {
if (ev->tsched.v != T_NEVER) if (ev->tsched.v != DDS_NEVER)
{ {
assert (ev->tsched.v != TSCHED_DELETE); assert (ev->tsched.v != TSCHED_DELETE);
ddsrt_fibheap_delete (&evq_xevents_fhdef, &evq->xevents, ev); ddsrt_fibheap_delete (&evq_xevents_fhdef, &evq->xevents, ev);
ev->tsched.v = T_NEVER; ev->tsched.v = DDS_NEVER;
} }
if (ev->u.callback.executing) if (ev->u.callback.executing)
{ {
@ -364,7 +364,7 @@ int resched_xevent_if_earlier (struct xevent *ev, nn_mtime_t tsched)
{ {
struct xeventq *evq = ev->evq; struct xeventq *evq = ev->evq;
int is_resched; int is_resched;
if (tsched.v == T_NEVER) if (tsched.v == DDS_NEVER)
return 0; return 0;
ddsrt_mutex_lock (&evq->lock); ddsrt_mutex_lock (&evq->lock);
/* If you want to delete it, you to say so by calling the right /* If you want to delete it, you to say so by calling the right
@ -377,7 +377,7 @@ int resched_xevent_if_earlier (struct xevent *ev, nn_mtime_t tsched)
else else
{ {
nn_mtime_t tbefore = earliest_in_xeventq (evq); nn_mtime_t tbefore = earliest_in_xeventq (evq);
if (ev->tsched.v != T_NEVER) if (ev->tsched.v != DDS_NEVER)
{ {
ev->tsched = tsched; ev->tsched = tsched;
ddsrt_fibheap_decrease_key (&evq_xevents_fhdef, &evq->xevents, ev); ddsrt_fibheap_decrease_key (&evq_xevents_fhdef, &evq->xevents, ev);
@ -405,7 +405,7 @@ static struct xevent *qxev_common (struct xeventq *evq, nn_mtime_t tsched, enum
ASSERT_MUTEX_HELD (&evq->lock); ASSERT_MUTEX_HELD (&evq->lock);
/* round up the scheduled time if required */ /* round up the scheduled time if required */
if (tsched.v != T_NEVER && evq->gv->config.schedule_time_rounding != 0) if (tsched.v != DDS_NEVER && evq->gv->config.schedule_time_rounding != 0)
{ {
nn_mtime_t tsched_rounded = mtime_round_up (tsched, evq->gv->config.schedule_time_rounding); nn_mtime_t tsched_rounded = mtime_round_up (tsched, evq->gv->config.schedule_time_rounding);
EVQTRACE ("rounded event scheduled for %"PRId64" to %"PRId64"\n", tsched.v, tsched_rounded.v); EVQTRACE ("rounded event scheduled for %"PRId64" to %"PRId64"\n", tsched.v, tsched_rounded.v);
@ -440,7 +440,7 @@ static void qxev_insert (struct xevent *ev)
event administration. */ event administration. */
struct xeventq *evq = ev->evq; struct xeventq *evq = ev->evq;
ASSERT_MUTEX_HELD (&evq->lock); ASSERT_MUTEX_HELD (&evq->lock);
if (ev->tsched.v != T_NEVER) if (ev->tsched.v != DDS_NEVER)
{ {
nn_mtime_t tbefore = earliest_in_xeventq (evq); nn_mtime_t tbefore = earliest_in_xeventq (evq);
ddsrt_fibheap_insert (&evq_xevents_fhdef, &evq->xevents, ev); ddsrt_fibheap_insert (&evq_xevents_fhdef, &evq->xevents, ev);
@ -606,7 +606,7 @@ static void handle_xevk_heartbeat (struct nn_xpack *xp, struct xevent *ev, nn_mt
{ {
hbansreq = 1; /* just for trace */ hbansreq = 1; /* just for trace */
msg = NULL; /* Need not send it now, and no need to schedule it for the future */ msg = NULL; /* Need not send it now, and no need to schedule it for the future */
t_next.v = T_NEVER; t_next.v = DDS_NEVER;
} }
else if (!writer_hbcontrol_must_send (wr, &whcst, tnow)) else if (!writer_hbcontrol_must_send (wr, &whcst, tnow))
{ {
@ -625,7 +625,7 @@ static void handle_xevk_heartbeat (struct nn_xpack *xp, struct xevent *ev, nn_mt
PGUID (wr->e.guid), PGUID (wr->e.guid),
hbansreq ? "" : " final", hbansreq ? "" : " final",
msg ? "sent" : "suppressed", msg ? "sent" : "suppressed",
(t_next.v == T_NEVER) ? INFINITY : (double)(t_next.v - tnow.v) / 1e9, (t_next.v == DDS_NEVER) ? INFINITY : (double)(t_next.v - tnow.v) / 1e9,
ddsrt_avl_is_empty (&wr->readers) ? (seqno_t) -1 : ((struct wr_prd_match *) ddsrt_avl_root_non_empty (&wr_readers_treedef, &wr->readers))->min_seq, ddsrt_avl_is_empty (&wr->readers) ? (seqno_t) -1 : ((struct wr_prd_match *) ddsrt_avl_root_non_empty (&wr_readers_treedef, &wr->readers))->min_seq,
ddsrt_avl_is_empty (&wr->readers) || ((struct wr_prd_match *) ddsrt_avl_root_non_empty (&wr_readers_treedef, &wr->readers))->all_have_replied_to_hb ? "" : "!", ddsrt_avl_is_empty (&wr->readers) || ((struct wr_prd_match *) ddsrt_avl_root_non_empty (&wr_readers_treedef, &wr->readers))->all_have_replied_to_hb ? "" : "!",
whcst.max_seq, writer_read_seq_xmit (wr)); whcst.max_seq, writer_read_seq_xmit (wr));
@ -1111,9 +1111,9 @@ static void handle_xevk_pmd_update (struct thread_state1 * const ts1, struct nn_
write_pmd_message (ts1, xp, pp, PARTICIPANT_MESSAGE_DATA_KIND_AUTOMATIC_LIVELINESS_UPDATE); write_pmd_message (ts1, xp, pp, PARTICIPANT_MESSAGE_DATA_KIND_AUTOMATIC_LIVELINESS_UPDATE);
intv = pp_get_pmd_interval (pp); intv = pp_get_pmd_interval (pp);
if (intv == T_NEVER) if (intv == DDS_INFINITY)
{ {
tnext.v = T_NEVER; tnext.v = DDS_NEVER;
GVTRACE ("resched pmd("PGUIDFMT"): never\n", PGUID (pp->e.guid)); GVTRACE ("resched pmd("PGUIDFMT"): never\n", PGUID (pp->e.guid));
} }
else else
@ -1258,7 +1258,7 @@ static void handle_xevents (struct thread_state1 * const ts1, struct xeventq *xe
determine whether it is currently on the heap or not (i.e., determine whether it is currently on the heap or not (i.e.,
scheduled or not), so set to TSCHED_NEVER to indicate it scheduled or not), so set to TSCHED_NEVER to indicate it
currently isn't. */ currently isn't. */
xev->tsched.v = T_NEVER; xev->tsched.v = DDS_NEVER;
thread_state_awake_to_awake_no_nest (ts1); thread_state_awake_to_awake_no_nest (ts1);
handle_timed_xevent (ts1, xev, xp, tnow); handle_timed_xevent (ts1, xev, xp, tnow);
} }
@ -1314,7 +1314,7 @@ static uint32_t xevent_thread (struct xeventq * xevq)
else else
{ {
nn_mtime_t twakeup = earliest_in_xeventq (xevq); nn_mtime_t twakeup = earliest_in_xeventq (xevq);
if (twakeup.v == T_NEVER) if (twakeup.v == DDS_NEVER)
{ {
/* no scheduled events nor any non-timed events */ /* no scheduled events nor any non-timed events */
ddsrt_cond_wait (&xevq->cond, &xevq->lock); ddsrt_cond_wait (&xevq->cond, &xevq->lock);

2
src/core/ddsi/src/q_xmsg.c
View file

@ -952,7 +952,7 @@ static void nn_xpack_reinit (struct nn_xpack *xp)
xp->call_flags = 0; xp->call_flags = 0;
xp->msg_len.length = 0; xp->msg_len.length = 0;
xp->included_msgs.latest = NULL; xp->included_msgs.latest = NULL;
xp->maxdelay = T_NEVER; xp->maxdelay = DDS_INFINITY;
#ifdef DDSI_INCLUDE_NETWORK_PARTITIONS #ifdef DDSI_INCLUDE_NETWORK_PARTITIONS
xp->encoderId = 0; xp->encoderId = 0;
#endif #endif