embb_mtapi_priority_queue_t.c

/*
 * Copyright (c) 2014-2016, Siemens AG. All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are met:
 *
 * 1. Redistributions of source code must retain the above copyright notice,
 * this list of conditions and the following disclaimer.
 *
 * 2. Redistributions in binary form must reproduce the above copyright notice,
 * this list of conditions and the following disclaimer in the documentation
 * and/or other materials provided with the distribution.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
 * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 * POSSIBILITY OF SUCH DAMAGE.
 */

//#ifdef EMBB_HARD_REALTIME

#include <stdio.h>

#include <assert.h>

#include <embb/mtapi/c/mtapi.h>
#include <embb/base/c/atomic.h>

#include <embb/base/c/time.h>

#include <embb_mtapi_log.h>
#include <embb_mtapi_priority_queue_t.h>
#include <embb_mtapi_task_t.h>
#include <embb_mtapi_alloc.h>

#include <embb_mtapi_priority_queue_t_fwd.h>

/* ---- LOCAL HELPERS ------------------------------------------------------ */

static embb_time_t get_deadline(mtapi_task_hndl_t node) {
  mtapi_status_t status;
  embb_time_t deadline;
  mtapi_task_get_attribute(
    node,
    MTAPI_TASK_DEADLINE,
    &deadline,
    sizeof(deadline),
    &status);
  if(status != MTAPI_SUCCESS) {
    // TODO error handling
    embb_time_t ret;
    return ret;
  }
  return deadline;
}

/* ---- CLASS MEMBERS ------------------------------------------------------ */

void embb_mtapi_priority_queue_initialize(embb_mtapi_priority_queue_t* that) {
  assert(MTAPI_NULL != that);

  that->task_buffer = MTAPI_NULL;
  that->tasks_available = 0;
  mtapi_queueattr_init(&that->attributes, MTAPI_NULL);
  embb_spin_init(&that->lock);
}

void embb_mtapi_priority_queue_initialize_with_capacity(
  embb_mtapi_priority_queue_t* that,
  mtapi_uint_t capacity) {
  mtapi_uint_t ii;
  
  assert(MTAPI_NULL != that);

  that->task_buffer = (embb_mtapi_task_t **)
    embb_mtapi_alloc_allocate(sizeof(embb_mtapi_task_t *)*capacity);
  
  /* Nullify the array, just in case */
  for(ii = 0; ii < capacity; ii++) {
    that->task_buffer[ii] = MTAPI_NULL;
  }

  that->tasks_available = 0;
  mtapi_queueattr_init(&that->attributes, MTAPI_NULL);
  that->attributes.limit = capacity;
  embb_spin_init(&that->lock);
}

void embb_mtapi_priority_queue_finalize(embb_mtapi_priority_queue_t* that) {
  embb_mtapi_alloc_deallocate(that->task_buffer);
  that->task_buffer = MTAPI_NULL;

  embb_mtapi_priority_queue_initialize(that);

  embb_spin_destroy(&that->lock);
}

embb_mtapi_task_t * embb_mtapi_priority_queue_pop(embb_mtapi_priority_queue_t* that) {
  embb_mtapi_task_t * task = MTAPI_NULL;
  embb_mtapi_task_t * tmp_task = MTAPI_NULL;
  mtapi_uint_t ii;
  embb_time_t deadline;
  embb_time_t left_deadline;
  embb_time_t right_deadline;
  mtapi_uint64_t swap = 0;
  embb_time_t swap_deadline;

  assert(MTAPI_NULL != that);

  if (embb_spin_try_lock(&that->lock, 128) == EMBB_SUCCESS) {
    if (0 < that->tasks_available) {
      ii = 0;

      /* take away one task */
      task = that->task_buffer[0];
      that->task_buffer[0] = MTAPI_NULL;
      that->tasks_available--;

      /* move last task to head */
      that->task_buffer[0] = that->task_buffer[that->tasks_available];
      that->task_buffer[that->tasks_available] = MTAPI_NULL;

      /* recreate heap property */
      while(that->tasks_available > 0) {
        deadline = get_deadline(that->task_buffer[ii]->handle);

        if(that->task_buffer[ii + 1] != MTAPI_NULL) {
          left_deadline  = get_deadline(that->task_buffer[ii + 1]->handle);
        } else {
          /* set the time to an invalid value. */
          left_deadline.seconds     = ULLONG_MAX;
        }

        if(that->task_buffer[ii + 2] != MTAPI_NULL) {
          right_deadline = get_deadline(that->task_buffer[ii + 2]->handle);
        } else {
          /* set the time to an invalid value. */
          right_deadline.seconds     = ULLONG_MAX;
        }

        /* min Heap, swap with the smaller of both children. */
        if(embb_time_compare(&left_deadline, &right_deadline) <= 0) {
          swap = ii + 1;
          swap_deadline = left_deadline;
        } else if(embb_time_compare(&left_deadline, &right_deadline) > 0) {
          swap = ii + 2;
          swap_deadline = right_deadline;
        }

        /* abort if heap property is restored. */
        if(embb_time_compare(&deadline, &swap_deadline) <= 0) {
          break;
        }
        
        tmp_task = that->task_buffer[swap];
        that->task_buffer[swap] = that->task_buffer[ii];
        that->task_buffer[ii] = tmp_task;
        ii = swap;
      }
    }
    embb_spin_unlock(&that->lock);
  }

  return task;
}

mtapi_boolean_t embb_mtapi_priority_queue_push(
  embb_mtapi_priority_queue_t* that,
  embb_mtapi_task_t * task) {

  embb_mtapi_task_t * tmp_task = MTAPI_NULL;
  mtapi_uint_t ii;
  mtapi_uint_t kk;
  embb_time_t deadline;
  embb_time_t parent_deadline;
  mtapi_boolean_t result = MTAPI_FALSE;

  assert(MTAPI_NULL != that);

  if (embb_spin_lock(&that->lock) == EMBB_SUCCESS) {
    if (that->attributes.limit > that->tasks_available) {
      ii = that->tasks_available;
      kk = that->tasks_available;
      deadline = get_deadline(task->handle);

      /* add task to heap */ 
      that->task_buffer[that->tasks_available] = task;

      /* restore heap property */
      while(ii > 0) {
        /* get parent task */
        ii /= 2;
        parent_deadline = get_deadline(that->task_buffer[ii]->handle);
       
        /* abort if heap property is restored. */
        if(embb_time_compare(&deadline, &parent_deadline) >= 0) {
          break;
        }

        /* swap with parent task */
        tmp_task = that->task_buffer[ii];
        that->task_buffer[ii] = that->task_buffer[kk];
        that->task_buffer[kk] = tmp_task;

        kk = ii;
      }

      /* make task available */
      that->tasks_available++;

      result = MTAPI_TRUE;
    }
    embb_spin_unlock(&that->lock);
  }

  return result;
}

mtapi_boolean_t embb_mtapi_priority_queue_process(
  embb_mtapi_priority_queue_t * that,
  embb_mtapi_task_visitor_function_t process,
  void * user_data) {

  mtapi_boolean_t result = MTAPI_TRUE;
  mtapi_uint_t ii;

  assert(MTAPI_NULL != that);
  assert(MTAPI_NULL != process);

  if (embb_spin_lock(&that->lock) == EMBB_SUCCESS) {
    // Run from first to last
    for (ii = 0; ii < that->tasks_available; ii++) {
      result = process(that->task_buffer[ii], user_data);
      if (MTAPI_FALSE == result) {
        break;
      }
    }
    embb_spin_unlock(&that->lock);
  }

  return result;
}
//#endif // EMBB_HARD_REALTIME