예제 #1
0
파일: xfeedback.c 프로젝트: ra-one/snet-rts
/* Terminate any kind of feedback landing. */
void SNetTermFeedback(landing_t *land, fifo_t *fifo)
{
  trace(__func__);
  if (land->type == LAND_feedback1) {
    landing_feedback1_t   *fb1 = LAND_SPEC(land, feedback1);
    landing_feedback3_t   *fb3 = LAND_SPEC(fb1->feedback3, feedback3);

    assert(fb3->terminate == FeedbackInitial);
    if (fb1->outdesc) {
      SNetFifoPut(fifo, fb1->outdesc);
    }
    if (fb1->instdesc) {
      snet_record_t *recdet = SNetRecCreate(REC_detref, -1L, fb1->feedback3, NULL);
      land->worker = SNetThreadGetSelf();
      SNetWrite(&fb1->instdesc, recdet, false);
      SNetFifoPut(fifo, fb1->instdesc);
    }
    SNetLandingDone(fb1->feedback2);
    SNetLandingDone(fb1->feedback4);
    SNetLandingDone(fb1->feedback3);
    SNetFreeLanding(land);
  }
  else if (land->type == LAND_feedback2) {
    landing_feedback2_t   *fb2 = LAND_SPEC(land, feedback2);

    if (fb2->instdesc) {
      SNetFifoPut(fifo, fb2->instdesc);
    }
    SNetLandingDone(fb2->feedback3);
    SNetFreeLanding(land);
  }
  else if (land->type == LAND_feedback3) {
    landing_feedback3_t   *fb3 = LAND_SPEC(land, feedback3);

    SNetLandingDone(fb3->feedback4);
    SNetFreeLanding(land);
  }
  else if (land->type == LAND_feedback4) {
    landing_feedback4_t   *fb4 = LAND_SPEC(land, feedback4);

    if (fb4->outdesc) {
      SNetFifoPut(fifo, fb4->outdesc);
    }
    SNetFreeLanding(land);
  }
  else {
    assert(0);
  }
}
예제 #2
0
/* Terminate any kind of dripback landing. */
void SNetTermDripBack(landing_t *land, fifo_t *fifo)
{
  trace(__func__);

  if (land->type == LAND_dripback1) {
    landing_dripback1_t   *db1 = LAND_SPEC(land, dripback1);

    if (db1->controldesc) {
      snet_record_t *rec = SNetRecCreate(REC_terminate);
      land->worker = SNetThreadGetSelf();
      SNetWrite(&db1->controldesc, rec, false);
      SNetFifoPut(fifo, db1->controldesc);
    } else {
      SNetLandingDone(db1->dripback2);
    }
    SNetFreeLanding(land);
  }
  else if (land->type == LAND_dripback2) {
    landing_dripback2_t   *db2 = LAND_SPEC(land, dripback2);

    if (db2->instdesc) {
      fprintf(stderr, "%s: Premature termination of dripback2\n", __func__);
      SNetFifoPut(fifo, db2->instdesc);
      db2->instdesc = NULL;
    }
    if (db2->outdesc) {
      SNetFifoPut(fifo, db2->outdesc);
      db2->outdesc = NULL;
    }
    SNetFreeLanding(land);
  }
  else {
    assert(0);
  }
}
예제 #3
0
파일: xstream.c 프로젝트: ra-one/snet-rts
/* Let go of multiple references to a stream descriptor. */
void SNetDescRelease(snet_stream_desc_t *desc, int count)
{
  trace(__func__);
  assert(desc->refs >= count);
  if (DESC_DECR_MULTI(desc, count) == 0) {
    landing_t *land = desc->landing;
    SNetStreamClose(desc);
    SNetLandingDone(land);
  }
}
예제 #4
0
파일: xstream.c 프로젝트: ra-one/snet-rts
/* Decrease the reference count of a stream descriptor by one. */
void SNetDescDone(snet_stream_desc_t *desc)
{
  trace(__func__);
  assert(desc->refs > 0);
  if (DESC_DECR(desc) == 0) {
    landing_t *land = desc->landing;
    SNetStreamClose(desc);
    SNetLandingDone(land);
  }
}
예제 #5
0
파일: xgarbage.c 프로젝트: ra-one/snet-rts
/* Terminate a garbage landing: decrease references to subsequent resources. */
void SNetTermGarbage(landing_t *land, fifo_t *fifo)
{
  snet_stream_desc_t    *desc = LAND_SPEC(land, siso)->outdesc;
  trace(__func__);
  assert(desc);
  assert(desc->refs > 0);
  SNetLandingDone(desc->landing);
  SNetFifoPut(fifo, desc);
  SNetFreeLanding(land);
}
예제 #6
0
/* Terminate a star landing. */
void SNetTermStar(landing_t *land, fifo_t *fifo)
{
  landing_star_t        *lstar = LAND_SPEC(land, star);

  trace(__func__);

  if (lstar->instdesc) {
    SNetFifoPut(fifo, lstar->instdesc);
  }
  if (lstar->colldesc) {
    SNetFifoPut(fifo, lstar->colldesc);
  }
  if (lstar->instland) {
    SNetLandingDone(lstar->instland);
  }

  SNetLandingDone(lstar->collland);
  SNetFreeLanding(land);
}
예제 #7
0
/* DripBack process a record. */
void SNetNodeDripBack(snet_stream_desc_t *desc, snet_record_t *rec)
{
  landing_t             *land = desc->landing;
  dripback_arg_t        *darg = LAND_NODE_SPEC(land, dripback);

  trace(__func__);

  if (land->type == LAND_dripback1) {
    landing_dripback1_t *db1 = LAND_SPEC(land, dripback1);
    landing_dripback2_t *db2 = LAND_SPEC(db1->dripback2, dripback2);
    SNetFifoPut(db1->recfifo, rec);
    if (FAA(&db2->queued, 1) == 0) {
      if (db1->controldesc == NULL) {
        SNetPushLanding(desc, db1->dripback2);
        db1->controldesc = SNetStreamOpen(darg->selfref, desc);
      }
      rec = SNetRecCreate(REC_wakeup);
      SNetWrite(&db1->controldesc, rec, true);
    }
  }
  else if (land->type == LAND_dripback2) {
    landing_dripback2_t *db2 = LAND_SPEC(land, dripback2);
    bool via_access = (DESC_STREAM(desc) == darg->selfref);

    assert(via_access || DESC_STREAM(desc) == darg->dripback);

    while (rec) {
      switch (REC_DESCR( rec)) {
        case REC_data:
          /* Test if record should go to the instance. */
          if (SNetFeedbackMatch( rec, darg->back_patterns, darg->guards)) {
            if (via_access) {
              /* Because record came from outside add a detref counter. */
              assert(db2->detfifo.head->next == NULL);
              SNetRecDetrefAdd(rec, ++(db2->entered), land, &db2->detfifo);
            } else {
              /* Record came from the instance. */
              assert(DATA_REC(rec, detref));
            }
            if (db2->instdesc == NULL) {
              /* Instance should come back to this landing. */
              if (SNetTopLanding(desc) != land) {
                SNetPushLanding(desc, land);
              }
              db2->instdesc = SNetStreamOpen(darg->instance, desc);
              if (SNetTopLanding(desc) == land) {
                SNetPopLanding(desc);
                SNetLandingDone(land);
              }
            }
            SNetWrite(&db2->instdesc, rec, false);
          } else {
            if (!via_access) {
              /* Record leaves the dripback loop. */
              assert(DATA_REC(rec, detref));
              SNetFeedbackLeave(rec, land, &db2->detfifo);
            }
            if (db2->outdesc == NULL) {
              db2->outdesc = SNetStreamOpen(darg->output, desc);
            }
            SNetWrite(&db2->outdesc, rec, false);
          }
          break;

        case REC_wakeup:
          assert(via_access);
          SNetRecDestroy(rec);
          break;

        case REC_terminate:
          assert(via_access);
          assert(db2->terminate == DripBackInitial);
          db2->terminate = DripBackDraining;
          SNetRecDestroy(rec);
          break;

        case REC_detref:
          if (DETREF_REC( rec, leave) == land &&
              DETREF_REC( rec, location) == SNetDistribGetNodeId())
          {
            assert(!via_access);
            SNetDetLeaveCheckDetref(rec, &db2->detfifo);
            if (DETREF_REC( rec, detref) == SNetFifoPeekFirst(&db2->detfifo)) {
              DripBackCheckBusy(db2);
            }
            SNetRecDestroy(rec);
          } else {
            assert(via_access);
            if (db2->outdesc == NULL) {
              db2->outdesc = SNetStreamOpen(darg->output, desc);
            }
            SNetWrite(&db2->outdesc, rec, false);
          }
          break;

        case REC_sync:
          SNetRecDestroy(rec);
          break;

        default:
          SNetRecUnknownEnt(__func__, rec, darg->entity);
      }
      rec = NULL;
      if (db2->state == DripBackBusy) {
        if (DripBackCheckBusy(db2) == false) {
          assert(db2->queued > 0);
          if (SAF(&db2->queued, 1) == 0) {
            db2->state = DripBackIdle;
          } else {
            rec = SNetFifoGet(&db2->recfifo);
            assert(rec);
            via_access = true;
          }
        }
      } else {
        assert(db2->state == DripBackIdle);
        assert(SNetFifoPeekFirst(&db2->detfifo) == NULL);
        if (db2->queued > 0) {
          rec = SNetFifoGet(&db2->recfifo);
          assert(rec);
          via_access = true;
          db2->state = DripBackBusy;
        }
      }
    }
    if (db2->terminate == DripBackDraining) {
      if (db2->state == DripBackIdle) {
        assert(db2->queued == 0 && DripBackCheckBusy(db2) == false);
        db2->terminate = DripBackTerminated;
      }
    }
    if (db2->terminate == DripBackTerminated) {
      if (db2->instdesc) {
        snet_stream_desc_t *desc = db2->instdesc;
        db2->instdesc = NULL;
        SNetDescDone(desc);
        SNetLandingDone(land);
      }
    }
  }
  else {
    assert(0);
  }
}
예제 #8
0
파일: xfeedback.c 프로젝트: ra-one/snet-rts
/* Feedback forward a record. */
void SNetNodeFeedback(snet_stream_desc_t *desc, snet_record_t *rec)
{
  landing_t             *land = desc->landing;
  feedback_arg_t        *farg = LAND_NODE_SPEC(land, feedback);

  trace(__func__);

  if (land->type == LAND_feedback1) {
    landing_feedback1_t *fb1 = LAND_SPEC(land, feedback1);

    switch (REC_DESCR( rec)) {
      case REC_data:
        /* Test if record should go into the feedback loop. */
        if (SNetFeedbackMatch( rec, farg->back_patterns, farg->guards)) {
          /* Because record came from outside add a detref counter. */
          SNetRecDetrefAdd(rec, ++(fb1->counter), fb1->feedback3, fb1->detfifo);
          if (fb1->instdesc == NULL) {
            SNetPushLanding(desc, fb1->feedback2);
            fb1->instdesc = SNetStreamOpen(farg->selfref2, desc);
          }
          SNetWrite(&fb1->instdesc, rec, true);
        } else {
          if (fb1->outdesc == NULL) {
            SNetPushLanding(desc, fb1->feedback4);
            fb1->outdesc = SNetStreamOpen(farg->selfref4, desc);
          }
          SNetWrite(&fb1->outdesc, rec, true);
        }
        break;

      case REC_detref:
        if (fb1->outdesc == NULL) {
          SNetPushLanding(desc, fb1->feedback4);
          fb1->outdesc = SNetStreamOpen(farg->selfref4, desc);
        }
        SNetWrite(&fb1->outdesc, rec, true);
        break;

      case REC_sync:
        SNetRecDestroy(rec);
        break;

      default:
        SNetRecUnknownEnt(__func__, rec, farg->entity);
    }
  }
  else if (land->type == LAND_feedback2) {
    landing_feedback2_t *fb2 = LAND_SPEC(land, feedback2);
    if (fb2->instdesc == NULL) {
      SNetPushLanding(desc, fb2->feedback3);
      fb2->instdesc = SNetStreamOpen(farg->instance, desc);
    }
    switch (REC_DESCR( rec)) {
      case REC_data:
      case REC_detref:
        SNetWrite(&fb2->instdesc, rec, true);
        break;

      default:
        SNetRecUnknownEnt(__func__, rec, farg->entity);
    }
  }
  else if (land->type == LAND_feedback4) {
    landing_feedback4_t *fb4 = LAND_SPEC(land, feedback4);
    if (fb4->outdesc == NULL) {
      fb4->outdesc = SNetStreamOpen(farg->output, desc);
    }
    switch (REC_DESCR( rec)) {
      case REC_data:
      case REC_detref:
        SNetWrite(&fb4->outdesc, rec, true);
        break;

      default:
        SNetRecUnknownEnt(__func__, rec, farg->entity);
    }
  }
  else if (land->type == LAND_feedback3) {
    landing_feedback3_t *fb3 = LAND_SPEC(land, feedback3);
    if (fb3->terminate == FeedbackTerminated) {
      assert(REC_DESCR( rec) != REC_data);
      SNetRecDestroy(rec);
    } else {
      switch (REC_DESCR( rec)) {
        case REC_data:
          /* Test if record should go into the feedback loop. */
          if (SNetFeedbackMatch( rec, farg->back_patterns, farg->guards)) {
            if (fb3->instdesc == NULL) {
              SNetPushLanding(desc, fb3->feedback2);
              fb3->instdesc = SNetStreamOpen(farg->selfref2, desc);
            }
            /* send the record to the instance */
            SNetWrite(&fb3->instdesc, rec, false);
          } else {
            /* record leaves the feedback loop. */
            SNetFeedbackLeave(rec, land, &fb3->detfifo);
            if (fb3->outdesc == NULL) {
              SNetPushLanding(desc, fb3->feedback4);
              fb3->outdesc = SNetStreamOpen(farg->selfref4, desc);
            }
            /* forward record outwards */
            SNetWrite(&fb3->outdesc, rec, false);
            if (fb3->terminate) {
              assert(fb3->terminate == FeedbackDraining);
              FeedbackCheckBusy(fb3);
            }
          }
          break;

        case REC_detref:
          if (DETREF_REC( rec, leave) == land) {
            if (DETREF_REC( rec, seqnr) == -1L) {
              assert(fb3->terminate == FeedbackInitial);
              fb3->terminate = FeedbackDraining;
            }
            SNetRecDestroy(rec);
            FeedbackCheckBusy(fb3);
          }
          break;

        case REC_sync:
          SNetRecDestroy(rec);
          break;

        default:
          SNetRecUnknownEnt(__func__, rec, farg->entity);
      }
      if (fb3->terminate == FeedbackTerminating) {
        if (fb3->outdesc) {
          SNetDescDone(fb3->outdesc);
        }
        if (fb3->instdesc) {
          SNetDescDone(fb3->instdesc);
        }
        SNetLandingDone(fb3->feedback2);
        fb3->terminate = FeedbackTerminated;
      }
    }
  }
  else {
    assert(0);
  }
}
예제 #9
0
/* Send a record to a stream which may need to be opened */
static void StarWrite(star_write_t kind, snet_record_t *rec, 
                      snet_stream_desc_t *desc)
{
  const star_arg_t      *sarg = DESC_NODE_SPEC(desc, star);
  landing_star_t        *land = DESC_LAND_SPEC(desc, star);

  switch (kind) {

    case WriteCollector:
      /* check if open */
      if (!land->colldesc) {
        /* first landing must be collector */
        if (SNetTopLanding(desc) != land->collland) {
          SNetPushLanding(desc, land->collland);
        }
        land->colldesc = SNetStreamOpen(sarg->collector, desc);
      }
      SNetWrite(&land->colldesc, rec, true);
      break;

    case WriteInstance:
      /* check if open */
      if (!land->instdesc) {
        /* first landing must be instance */
        if (SNetTopLanding(desc) != land->instland) {
          SNetPushLanding(desc, land->instland);
        }
        land->instdesc = SNetStreamOpen(sarg->instance, desc);
        /* remove instance landing */
        if (SNetTopLanding(desc) == land->instland) {
          SNetPopLanding(desc);
          SNetLandingDone(land->instland);
        }
        /* prevent double deallocation */
        land->instland = NULL;
        /* emit output record to instance */
        SNetWrite(&land->instdesc, rec, true);
      } else {
        /* A star is superfluous when the next landing is its incarnation. */
        bool superfluous = (desc->landing->node == land->instdesc->landing->node);

        /* emit output record to instance */
        SNetWrite(&land->instdesc, rec, (superfluous == false));

        /* If instance has been garbage collected then dissolve. */
        if (superfluous) {
          /* Possibly forward leader status to next incarnation. */
          rec = (land->star_leader && (sarg->is_det | sarg->is_detsup)) ?
                SNetRecCreate(REC_star_leader, land->detenter.counter,
                                               land->detenter.seqnr) : NULL;
          land->star_leader = false;

          /* Discard stream towards collector. */
          if (land->colldesc) {
            SNetDescDone(land->colldesc);
          }

          /* Discard collector landing. */
          SNetLandingDone(land->collland);

          /* Change landing into identity, which can be garbage collected. */
          SNetBecomeIdentity(desc->landing, land->instdesc);

          /* Finally, notify incarnation of new leader status. */
          if (rec) {
            SNetWrite(&(DESC_LAND_SPEC(desc, identity)->outdesc), rec, true);
          }
        }
      }
      break;

    default:
      assert(0);
  }
}