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RIOT/sys/net/routing/nhdp/nhdp_address.c 4.23 KB
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  /*
   * Copyright (C) 2014 Freie Universitรคt Berlin
   *
   * This file is subject to the terms and conditions of the GNU Lesser
   * General Public License v2.1. See the file LICENSE in the top level
   * directory for more details.
   */
  
  /**
   * @ingroup     nhdp
   * @{
   *
   * @file
   * @brief       Centralized address storage implementation for NHDP
   *
   * @author      Fabian Nack <nack@inf.fu-berlin.de>
   *
   * @}
   */
  
  #include "mutex.h"
  #include "utlist.h"
  
  #include "nhdp.h"
  #include "nhdp_address.h"
  
  /* Internal variables */
  static mutex_t mtx_addr_access = MUTEX_INIT;
  static nhdp_addr_t *nhdp_addr_db_head = NULL;
  
  
  /*---------------------------------------------------------------------------*
   *                      Centralized Address Storage API                      *
   *---------------------------------------------------------------------------*/
  
  nhdp_addr_t *nhdp_addr_db_get_address(uint8_t *addr, size_t addr_size, uint8_t addr_type)
  {
      nhdp_addr_t *addr_elt;
  
      mutex_lock(&mtx_addr_access);
  
      LL_FOREACH(nhdp_addr_db_head, addr_elt) {
          if ((addr_elt->addr_size == addr_size) && (addr_elt->addr_type == addr_type)) {
              if (memcmp(addr_elt->addr, addr, addr_size) == 0) {
                  /* Found a matching entry */
                  break;
              }
          }
      }
  
      if (!addr_elt) {
          /* No matching entry, create a new one */
          addr_elt = (nhdp_addr_t *) malloc(sizeof(nhdp_addr_t));
  
          if (!addr_elt) {
              /* Insufficient memory */
              return NULL;
          }
  
          /* Allocate space for the address */
          addr_elt->addr = (uint8_t *) malloc(addr_size * sizeof(uint8_t));
  
          if (!addr_elt->addr) {
              /* Insufficient memory */
              free(addr_elt);
              return NULL;
          }
  
          memcpy(addr_elt->addr, addr, addr_size);
          addr_elt->addr_size = addr_size;
          addr_elt->addr_type = addr_type;
          addr_elt->usg_count = 0;
          addr_elt->in_tmp_table = NHDP_ADDR_TMP_NONE;
          addr_elt->tmp_metric_val = NHDP_METRIC_UNKNOWN;
          LL_PREPEND(nhdp_addr_db_head, addr_elt);
      }
  
      addr_elt->usg_count++;
  
      mutex_unlock(&mtx_addr_access);
  
      return addr_elt;
  }
  
  void nhdp_decrement_addr_usage(nhdp_addr_t *addr)
  {
      mutex_lock(&mtx_addr_access);
  
      /* Decrement usage count and delete address if no longer used */
      if (addr) {
          addr->usg_count--;
          if (addr->usg_count == 0) {
              /* Free address space if address is no longer used */
              LL_DELETE(nhdp_addr_db_head, addr);
              free(addr->addr);
              free(addr);
          }
      }
      mutex_unlock(&mtx_addr_access);
  }
  
  void nhdp_free_addr_list(nhdp_addr_entry_t *list_head)
  {
      nhdp_addr_entry_t *list_elt, *list_tmp;
  
      LL_FOREACH_SAFE(list_head, list_elt, list_tmp) {
          nhdp_free_addr_entry(list_elt);
      }
  }
  
  void nhdp_free_addr_entry(nhdp_addr_entry_t *addr_entry)
  {
      nhdp_decrement_addr_usage(addr_entry->address);
      free(addr_entry);
  }
  
  nhdp_addr_entry_t *nhdp_generate_addr_list_from_tmp(uint8_t tmp_type)
  {
      nhdp_addr_entry_t *new_list_head;
      nhdp_addr_t *addr_elt;
  
      new_list_head = NULL;
      LL_FOREACH(nhdp_addr_db_head, addr_elt) {
          if (addr_elt->in_tmp_table & tmp_type) {
              nhdp_addr_entry_t *new_entry = (nhdp_addr_entry_t *) malloc(sizeof(nhdp_addr_entry_t));
  
              if (!new_entry) {
                  /* Insufficient memory, free all previously allocated memory */
                  nhdp_free_addr_list(new_list_head);
                  return NULL;
              }
  
              new_entry->address = addr_elt;
              /* Increment usage counter of address in central NHDP address storage */
              addr_elt->usg_count++;
              LL_PREPEND(new_list_head, new_entry);
          }
      }
  
      return new_list_head;
  }
  
  void nhdp_reset_addresses_tmp_usg(uint8_t decr_usg)
  {
      nhdp_addr_t *addr_elt, *addr_tmp;
  
      LL_FOREACH_SAFE(nhdp_addr_db_head, addr_elt, addr_tmp) {
          addr_elt->tmp_metric_val = NHDP_METRIC_UNKNOWN;
          if (addr_elt->in_tmp_table) {
              addr_elt->in_tmp_table = NHDP_ADDR_TMP_NONE;
              if (decr_usg) {
                  nhdp_decrement_addr_usage(addr_elt);
              }
          }
      }
  }
  
  nhdp_addr_t *nhdp_get_addr_db_head(void)
  {
      return nhdp_addr_db_head;
  }