ntopng/include/HostPools.h

/*
 *
 * (C) 2015-25 - ntop.org
 *
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation; either version 3 of the License, or
 * (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software Foundation,
 * Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
 *
 */

#ifndef _HOST_POOLS_H_
#define _HOST_POOLS_H_

#include "ntop_includes.h"

class NetworkInterface;
class Host;
class Mac;

class HostPools {
 private:
  VLANAddressTree *tree, *tree_shadow;
  NetworkInterface *iface;
  u_int16_t max_num_pools;
  int32_t *num_active_hosts_inline, *num_active_hosts_offline;
  int32_t *num_active_l2_devices_inline, *num_active_l2_devices_offline;
  HostPoolStats **stats, **stats_shadow;

#ifdef NTOPNG_PRO
  bool *children_safe;
  bool *forge_global_dns;
  bool *block_blacklisted_flows;
  bool *dynamic_blacklist_enabled;
  u_int8_t *routing_policy_id;
  u_int16_t *pool_shaper;
  u_int32_t *schedule_bitmap;
  u_int32_t *max_flow_size;
  bool *enforce_quotas_per_pool_member; /* quotas can be pool-wide or per pool
                                           member */
  bool *enforce_shapers_per_pool_member;
#endif
  inline HostPoolStats *getPoolStats(u_int16_t host_pool_id) {
    if ((host_pool_id >= max_num_pools) || (!stats)) return NULL;
    return stats[host_pool_id];
  }
  void reloadPoolStats();
  void storeStats(HostPoolStats **stats);
  static void deleteStats(HostPoolStats ***hps);

  void swap(VLANAddressTree *new_trees, HostPoolStats **new_stats);

  inline void incNumMembers(u_int16_t pool_id, int32_t *ctr) const {
    if (ctr && pool_id < max_num_pools) ctr[pool_id]++;
  };
  inline void decNumMembers(u_int16_t pool_id, int32_t *ctr) const {
    if (ctr && pool_id < max_num_pools) ctr[pool_id]--;
  };

 public:
  HostPools(NetworkInterface *_iface);
  virtual ~HostPools();

  void reloadPools();
  void reloadPool(u_int16_t _pool_id, VLANAddressTree *new_tree, HostPoolStats **new_stats);
  u_int16_t getPool(Host *h, bool *mac_match = NULL);
  u_int16_t getPool(Mac *m);
  u_int16_t getPoolByName(const char *pool_name);
  u_int16_t getCurrentHostPoolsNumber();
  u_int32_t getCurrentMaxHostPoolsMembers();

  bool findIpPool(IpAddress *ip, u_int16_t vlan_id, u_int16_t *found_pool,
                  ndpi_patricia_node_t **found_node);
  bool findMacPool(const u_int8_t *const mac, u_int16_t *found_pool);
  bool findMacPool(Mac *mac, u_int16_t *found_pool);
  void lua(lua_State *vm);

  inline int32_t getNumPoolHosts(u_int16_t pool_id) {
    if (pool_id >= max_num_pools) return NO_HOST_POOL_ID;
    return num_active_hosts_inline[pool_id] + num_active_hosts_offline[pool_id];
  }

  inline int32_t getNumPoolL2Devices(u_int16_t pool_id) {
    if (pool_id >= max_num_pools) return NO_HOST_POOL_ID;

    return num_active_l2_devices_inline[pool_id] +
           num_active_l2_devices_offline[pool_id];
  }

  inline void incNumHosts(u_int16_t pool_id, bool isInlineCall) {
    incNumMembers(pool_id, isInlineCall ? num_active_hosts_inline
                                        : num_active_hosts_offline);
  };
  inline void decNumHosts(u_int16_t pool_id, bool isInlineCall) {
    decNumMembers(pool_id, isInlineCall ? num_active_hosts_inline
                                        : num_active_hosts_offline);
  };
  inline void incNumL2Devices(u_int16_t pool_id, bool isInlineCall) {
    incNumMembers(pool_id, isInlineCall ? num_active_l2_devices_inline
                                        : num_active_l2_devices_offline);
  };
  inline void decNumL2Devices(u_int16_t pool_id, bool isInlineCall) {
    decNumMembers(pool_id, isInlineCall ? num_active_l2_devices_inline
                                        : num_active_l2_devices_offline);
  };

  void incPoolNumDroppedFlows(u_int16_t pool_id);
  void incPoolStats(u_int32_t when, u_int16_t host_pool_id,
                    u_int16_t ndpi_proto, ndpi_protocol_category_t category_id,
                    u_int64_t sent_packets, u_int64_t sent_bytes,
                    u_int64_t rcvd_packets, u_int64_t rcvd_bytes);
  void updateStats(const struct timeval *tv);
  void luaStats(lua_State *vm);
  void luaStats(lua_State *mv, u_int16_t pool_id);

  /* To be called on the same thread as incPoolStats */
  void checkPoolsStatsReset();

  inline bool getProtoStats(u_int16_t host_pool_id, u_int16_t ndpi_proto,
                            u_int64_t *bytes, u_int32_t *duration) {
    HostPoolStats *hps;
    if (!(hps = getPoolStats(host_pool_id))) return false;

    hps->getProtoStats(ndpi_proto, bytes, duration);
    return true;
  }

  inline bool getCategoryStats(u_int16_t host_pool_id,
                               ndpi_protocol_category_t category_id,
                               u_int64_t *bytes, u_int32_t *duration) {
    HostPoolStats *hps;
    if (!(hps = getPoolStats(host_pool_id))) return false;

    hps->getCategoryStats(category_id, bytes, duration);
    return true;
  }

  inline bool getStats(u_int16_t host_pool_id, u_int64_t *bytes,
                       u_int32_t *duration) {
    HostPoolStats *hps;
    if (!(hps = getPoolStats(host_pool_id))) return false;

    hps->getStats(bytes, duration);
    return true;
  }

  void resetPoolsStats(u_int16_t pool_filter);

#ifdef NTOPNG_PRO
  inline bool enforceQuotasPerPoolMember(u_int16_t pool_id) {
    return (((pool_id != NO_HOST_POOL_ID) && (pool_id < max_num_pools))
                ? enforce_quotas_per_pool_member[pool_id]
                : false);
  }
  inline bool enforceShapersPerPoolMember(u_int16_t pool_id) {
    return (((pool_id != NO_HOST_POOL_ID) && (pool_id < max_num_pools))
                ? enforce_shapers_per_pool_member[pool_id]
                : false);
  }
  inline u_int16_t getPoolShaper(u_int16_t pool_id) {
    return ((pool_id < max_num_pools) ? pool_shaper[pool_id]
                                      : DEFAULT_SHAPER_ID);
  }
  inline u_int32_t getPoolSchedule(u_int16_t pool_id) {
    return (((pool_id != NO_HOST_POOL_ID) && (pool_id < max_num_pools))
                ? schedule_bitmap[pool_id]
                : DEFAULT_TIME_SCHEDULE);
  }

  inline bool isChildrenSafePool(u_int16_t pool_id) {
    return ((pool_id < max_num_pools) ? children_safe[pool_id] : false);
  }

  inline bool forgeGlobalDns(u_int16_t pool_id) {
    return ((pool_id < max_num_pools) ? forge_global_dns[pool_id] : false);
  }

  inline u_int8_t getRoutingPolicy(u_int16_t pool_id) {
    return (((pool_id != NO_HOST_POOL_ID) && (pool_id < max_num_pools))
                ? routing_policy_id[pool_id]
                : DEFAULT_ROUTING_TABLE_ID);
  }

  inline bool doBlockBlacklistedFlows(u_int16_t pool_id) {
    return ((pool_id < max_num_pools) ? block_blacklisted_flows[pool_id] : false);
  }

  inline u_int32_t getMaxFlowSize(u_int16_t pool_id) {
    return ((pool_id < max_num_pools) ? max_flow_size[pool_id] : 0);
  }

  inline bool hasDynamicBlacklist(u_int16_t pool_id) {
    return ((pool_id < max_num_pools) ? dynamic_blacklist_enabled[pool_id] : false);
  }

#endif
};

#endif /* _HOST_POOLS_H_ */