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NetworkInterface.h
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NetworkInterface.h
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/*
*
* (C) 2013-18 - 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 _NETWORK_INTERFACE_H_
#define _NETWORK_INTERFACE_H_
#include "ntop_includes.h"
/** @defgroup NetworkInterface Network Interface
* ............
*/
class Flow;
class FlowHash;
class Host;
class HostHash;
class Mac;
class MacHash;
class Vlan;
class VlanHash;
class AutonomousSystem;
class AutonomousSystemHash;
class Country;
class CountriesHash;
class DB;
class Paginator;
class NetworkInterfaceTsPoint;
#ifdef NTOPNG_PRO
class AggregatedFlow;
class AggregatedFlowHash;
class L7Policer;
class FlowInterfacesStats;
class TrafficShaper;
class NIndexFlowDB;
#endif
typedef struct {
u_int32_t criteria; /* IP address, interface... */
NetworkInterface *iface;
UT_hash_handle hh; /* makes this structure hashable */
} FlowHashing;
/** @class NetworkInterface
* @brief Main class of network interface of ntopng.
* @details .......
*
* @ingroup NetworkInterface
*
*/
class NetworkInterface : public Checkpointable {
protected:
char *ifname, *ifDescription;
bpf_u_int32 ipv4_network_mask, ipv4_network;
const char *customIftype;
u_int8_t alertLevel, purgeRuns;
u_int32_t bridge_lan_interface_id, bridge_wan_interface_id;
u_int32_t num_hashes;
/* Disaggregations */
u_int16_t numVirtualInterfaces;
set<u_int32_t> flowHashingIgnoredInterfaces;
FlowHashingEnum flowHashingMode;
FlowHashing *flowHashing;
/* Network Discovery */
NetworkDiscovery *discovery;
MDNS *mdns;
#ifdef HAVE_EBPF
/* eBPF */
u_int16_t next_insert_idx, next_remove_idx;
eBPFevent **ebpfEvents;
#endif
/* Live Capture */
Mutex active_captures_lock;
u_int8_t num_live_captures;
struct ntopngLuaContext *live_captures[MAX_NUM_PCAP_CAPTURES];
static bool matchLiveCapture(struct ntopngLuaContext * const luactx,
const struct pcap_pkthdr * const h,
const u_char * const packet,
Flow * const f);
void deliverLiveCapture(const struct pcap_pkthdr * const h, const u_char * const packet, Flow * const f);
string ip_addresses;
int id;
bool bridge_interface, is_dynamic_interface, is_traffic_mirrored, is_loopback;
bool reload_custom_categories;
#ifdef NTOPNG_PRO
L7Policer *policer;
#ifndef HAVE_NEDGE
FlowProfiles *flow_profiles, *shadow_flow_profiles;
#endif
CustomAppStats *custom_app_stats;
FlowInterfacesStats *flow_interfaces_stats;
AggregatedFlowHash *aggregated_flows_hash; /**< Hash used to store aggregated flows information. */
#endif
EthStats ethStats;
std::map<u_int32_t, u_int64_t> ip_mac; /* IP (network byte order) <-> MAC association [2 bytes are unused] */
u_int32_t arp_requests, arp_replies;
ICMPstats icmp_v4, icmp_v6;
LocalTrafficStats localStats;
int pcap_datalink_type; /**< Datalink type of pcap. */
pthread_t pollLoop;
bool pollLoopCreated, has_too_many_hosts, has_too_many_flows, mtuWarningShown;
bool too_many_drops, slow_stats_update;
u_int32_t ifSpeed, numL2Devices, numHosts, numLocalHosts, scalingFactor;
u_int64_t checkpointPktCount, checkpointBytesCount, checkpointPktDropCount; /* Those will hold counters at checkpoints */
u_int16_t ifMTU;
int cpu_affinity; /**< Index of physical core where the network interface works. */
nDPIStats ndpiStats;
PacketStats pktStats;
FlowHash *flows_hash; /**< Hash used to store flows information. */
u_int32_t last_remote_pps, last_remote_bps;
u_int8_t packet_drops_alert_perc;
TimeseriesExporter *tsExporter;
TimeseriesRing *ts_ring;
/* Sub-interface views */
u_int8_t numSubInterfaces;
NetworkInterface *subInterfaces[MAX_NUM_VIEW_INTERFACES];
u_int nextFlowAggregation;
TcpFlowStats tcpFlowStats;
TcpPacketStats tcpPacketStats;
/* Frequent Items */
FrequentTrafficItems *frequentProtocols;
FrequentTrafficItems *frequentMacs;
struct timeval last_frequent_reset;
/* Mac */
MacHash *macs_hash; /**< Hash used to store MAC information. */
/* Autonomous Systems */
AutonomousSystemHash *ases_hash; /**< Hash used to store Autonomous Systems information. */
/* Countries */
CountriesHash *countries_hash;
/* Vlans */
VlanHash *vlans_hash; /**< Hash used to store Vlans information. */
/* Hosts */
HostHash *hosts_hash; /**< Hash used to store hosts information. */
bool purge_idle_flows_hosts, sprobe_interface, inline_interface;
DB *db;
StatsManager *statsManager;
AlertsManager *alertsManager;
HostPools *host_pools;
VlanAddressTree *hide_from_top, *hide_from_top_shadow;
bool has_vlan_packets, has_ebpf_events, has_mac_addresses;
struct ndpi_detection_module_struct *ndpi_struct;
time_t last_pkt_rcvd, last_pkt_rcvd_remote, /* Meaningful only for ZMQ interfaces */
next_idle_flow_purge, next_idle_host_purge;
bool running, is_idle;
NetworkStats *networkStats;
InterfaceStatsHash *interfaceStats;
char checkpoint_compression_buffer[CONST_MAX_NUM_CHECKPOINTS][MAX_CHECKPOINT_COMPRESSION_BUFFER_SIZE];
PROFILING_DECLARE(24);
void init();
void deleteDataStructures();
NetworkInterface* getSubInterface(u_int32_t criteria, bool parser_interface);
Flow* getFlow(Mac *srcMac, Mac *dstMac, u_int16_t vlan_id,
u_int32_t deviceIP, u_int16_t inIndex, u_int16_t outIndex,
IpAddress *src_ip, IpAddress *dst_ip,
u_int16_t src_port, u_int16_t dst_port,
u_int8_t l4_proto,
bool *src2dst_direction,
time_t first_seen, time_t last_seen,
u_int32_t rawsize,
bool *new_flow, bool create_if_missing);
int sortHosts(u_int32_t *begin_slot,
bool walk_all,
struct flowHostRetriever *retriever,
u_int8_t bridge_iface_idx,
AddressTree *allowed_hosts,
bool host_details,
LocationPolicy location,
char *countryFilter, char *mac_filter,
u_int16_t vlan_id, char *osFilter,
u_int32_t asnFilter, int16_t networkFilter,
u_int16_t pool_filter, bool filtered_hosts,
bool blacklisted_hosts, bool hide_top_hidden, bool anomalousOnly,
u_int8_t ipver_filter, int proto_filter,
TrafficType traffic_type_filter,
char *sortColumn);
int sortASes(struct flowHostRetriever *retriever,
char *sortColumn);
int sortCountries(struct flowHostRetriever *retriever,
char *sortColumn);
int sortVLANs(struct flowHostRetriever *retriever,
char *sortColumn);
int sortMacs(u_int32_t *begin_slot,
bool walk_all,
struct flowHostRetriever *retriever,
u_int8_t bridge_iface_idx,
bool sourceMacsOnly, bool dhcpMacsOnly,
const char *manufacturer,
char *sortColumn, u_int16_t pool_filter, u_int8_t devtype_filter,
u_int8_t location_filter);
int sortFlows(u_int32_t *begin_slot,
bool walk_all,
struct flowHostRetriever *retriever,
AddressTree *allowed_hosts,
Host *host,
Paginator *p,
const char *sortColumn);
bool isNumber(const char *str);
bool checkIdle();
void disablePurge(bool on_flows);
void enablePurge(bool on_flows);
void sumStats(TcpFlowStats *_tcpFlowStats, EthStats *_ethStats,
LocalTrafficStats *_localStats, nDPIStats *_ndpiStats,
PacketStats *_pktStats, TcpPacketStats *_tcpPacketStats);
void topItemsCommit(const struct timeval *when);
void checkMacIPAssociation(bool triggerEvent, u_char *_mac, u_int32_t ipv4);
void pollQueuedeBPFEvents();
void reloadCustomCategories();
public:
/**
* @brief A Constructor
* @details Creating a new NetworkInterface with all instance variables set to NULL.
*
* @return A new instance of NetworkInterface.
*/
NetworkInterface();
NetworkInterface(const char *name, const char *custom_interface_type = NULL);
virtual ~NetworkInterface();
void finishInitialization();
virtual u_int32_t getASesHashSize();
virtual u_int32_t getCountriesHashSize();
virtual u_int32_t getVLANsHashSize();
virtual u_int32_t getMacsHashSize();
virtual u_int32_t getHostsHashSize();
virtual u_int32_t getFlowsHashSize();
virtual bool walker(u_int32_t *begin_slot,
bool walk_all,
WalkerType wtype,
bool (*walker)(GenericHashEntry *h, void *user_data, bool *entryMatched),
void *user_data);
void checkAggregationMode();
inline void setCPUAffinity(int core_id) { cpu_affinity = core_id; };
inline void getIPv4Address(bpf_u_int32 *a, bpf_u_int32 *m) { *a = ipv4_network, *m = ipv4_network_mask; };
virtual void startPacketPolling();
virtual void shutdown();
virtual void cleanup();
virtual char *getEndpoint(u_int8_t id) { return NULL; };
virtual bool set_packet_filter(char *filter) { return(false); };
virtual void incrDrops(u_int32_t num) { ; }
/* calling virtual in constructors/destructors should be avoided
See C++ FAQ Lite covers this in section 23.7
*/
inline virtual bool isPacketInterface() { return(getIfType() != interface_type_FLOW); }
#if defined(linux) && !defined(HAVE_LIBCAP) && !defined(HAVE_NEDGE)
/* Note: if we miss the capabilities, we block the overriding of this method. */
inline bool
#else
virtual bool
#endif
isDiscoverableInterface(){ return(false); }
inline virtual char* altDiscoverableName() { return(NULL); }
inline virtual const char* get_type() { return(customIftype ? customIftype : CONST_INTERFACE_TYPE_UNKNOWN); }
virtual InterfaceType getIfType() { return(interface_type_UNKNOWN); }
inline FlowHash *get_flows_hash() { return flows_hash; }
inline TcpFlowStats* getTcpFlowStats() { return(&tcpFlowStats); }
inline virtual bool is_ndpi_enabled() { return(true); }
inline u_int getNumnDPIProtocols() { return(ndpi_get_num_supported_protocols(ndpi_struct)); };
inline time_t getTimeLastPktRcvd() { return(last_pkt_rcvd ? last_pkt_rcvd : last_pkt_rcvd_remote); };
inline void setTimeLastPktRcvd(time_t t) { if(t > last_pkt_rcvd) last_pkt_rcvd = t; };
inline ndpi_protocol_category_t get_ndpi_proto_category(ndpi_protocol proto) { return(ndpi_get_proto_category(ndpi_struct, proto)); };
inline const char* get_ndpi_category_name(ndpi_protocol_category_t category) { return(ndpi_category_get_name(ndpi_struct, category)); };
ndpi_protocol_category_t get_ndpi_proto_category(u_int protoid);
inline char* get_ndpi_proto_name(u_int id) { return(ndpi_get_proto_name(ndpi_struct, id)); };
inline int get_ndpi_proto_id(char *proto) { return(ndpi_get_protocol_id(ndpi_struct, proto)); };
inline int get_ndpi_category_id(char *cat) { return(ndpi_get_category_id(ndpi_struct, cat)); };
inline char* get_ndpi_proto_breed_name(u_int id) {
return(ndpi_get_proto_breed_name(ndpi_struct, ndpi_get_proto_breed(ndpi_struct, id))); };
inline u_int get_flow_size() { return(ndpi_detection_get_sizeof_ndpi_flow_struct()); };
inline u_int get_size_id() { return(ndpi_detection_get_sizeof_ndpi_id_struct()); };
inline char* get_name() { return(ifname); };
inline char* get_description() { return(ifDescription); };
inline int get_id() { return(id); };
inline bool get_sprobe_interface() { return sprobe_interface; }
inline bool get_inline_interface() { return inline_interface; }
inline bool hasSeenVlanTaggedPackets() { return(has_vlan_packets); }
inline void setSeenVlanTaggedPackets() { has_vlan_packets = true; }
inline bool hasSeenEBPFEvents() { return(has_ebpf_events); }
inline void setSeenEBPFEvents() { has_ebpf_events = true; }
inline bool hasSeenMacAddresses() { return(has_mac_addresses); }
inline void setSeenMacAddresses() { has_mac_addresses = true; }
inline struct ndpi_detection_module_struct* get_ndpi_struct() { return(ndpi_struct); };
inline bool is_sprobe_interface() { return(sprobe_interface); };
inline bool is_purge_idle_interface() { return(purge_idle_flows_hosts); };
inline void enable_sprobe() { sprobe_interface = true; };
int dumpFlow(time_t when, Flow *f);
#ifdef NTOPNG_PRO
void dumpAggregatedFlow(time_t when, AggregatedFlow *f);
void flushFlowDump();
#endif
int dumpDBFlow(time_t when, Flow *f);
int dumpEsFlow(time_t when, Flow *f);
int dumpLsFlow(time_t when, Flow *f);
#if defined(HAVE_NINDEX) && defined(NTOPNG_PRO)
inline bool dumpnIndexFlow(time_t when, Flow *f) { return(db ? db->dumpFlow(when, f, NULL) : false); };
#endif
int dumpLocalHosts2redis(bool disable_purge);
inline void incRetransmittedPkts(u_int32_t num) { tcpPacketStats.incRetr(num); };
inline void incOOOPkts(u_int32_t num) { tcpPacketStats.incOOO(num); };
inline void incLostPkts(u_int32_t num) { tcpPacketStats.incLost(num); };
bool checkPointHostCounters(lua_State* vm, u_int8_t checkpoint_id, char *host_ip, u_int16_t vlan_id, DetailsLevel details_level);
bool checkPointNetworkCounters(lua_State* vm, u_int8_t checkpoint_id, u_int8_t network_id, DetailsLevel details_level);
bool checkPointHostTalker(lua_State* vm, char *host_ip, u_int16_t vlan_id, bool saveCheckpoint);
inline bool checkPointInterfaceCounters(lua_State* vm, u_int8_t checkpoint_id, DetailsLevel details_level) { return checkpoint(vm, this, checkpoint_id, details_level); }
inline char* getCheckpointCompressionBuffer(u_int8_t checkpoint_id) { return (checkpoint_id<CONST_MAX_NUM_CHECKPOINTS) ? checkpoint_compression_buffer[checkpoint_id] : NULL; };
void checkPointCounters(bool drops_only);
bool serializeCheckpoint(json_object *my_object, DetailsLevel details_level);
virtual u_int64_t getCheckPointNumPackets();
virtual u_int64_t getCheckPointNumBytes();
virtual u_int32_t getCheckPointNumPacketDrops();
inline void _incStats(bool ingressPacket, time_t when,
u_int16_t eth_proto, u_int16_t ndpi_proto,
u_int pkt_len, u_int num_pkts, u_int pkt_overhead) {
ethStats.incStats(ingressPacket, eth_proto, num_pkts, pkt_len, pkt_overhead);
ndpiStats.incStats(when, ndpi_proto, 0, 0, num_pkts, pkt_len);
// Note: here we are not currently interested in packet direction, so we tell it is receive
ndpiStats.incCategoryStats(when, get_ndpi_proto_category(ndpi_proto), 0 /* see above comment */, pkt_len);
pktStats.incStats(pkt_len);
};
inline void incFlagsStats(u_int8_t flags) { pktStats.incFlagStats(flags); };
inline void incStats(bool ingressPacket, time_t when, u_int16_t eth_proto, u_int16_t ndpi_proto,
u_int pkt_len, u_int num_pkts, u_int pkt_overhead) {
#ifdef HAVE_NEDGE
/* In nedge, we only update the stats periodically with conntrack */
return;
#endif
_incStats(ingressPacket, when, eth_proto, ndpi_proto, pkt_len, num_pkts, pkt_overhead);
};
inline void incLocalStats(u_int num_pkts, u_int pkt_len, bool localsender, bool localreceiver) {
localStats.incStats(num_pkts, pkt_len, localsender, localreceiver);
};
inline EthStats* getStats() { return(ðStats); };
inline int get_datalink() { return(pcap_datalink_type); };
inline void set_datalink(int l) { pcap_datalink_type = l; };
inline int isRunning() { return running; };
inline bool isTrafficMirrored() { return is_traffic_mirrored; };
void updateTrafficMirrored();
bool restoreHost(char *host_ip, u_int16_t vlan_id);
u_int printAvailableInterfaces(bool printHelp, int idx, char *ifname, u_int ifname_len);
void findFlowHosts(u_int16_t vlan_id,
Mac *src_mac, IpAddress *_src_ip, Host **src,
Mac *dst_mac, IpAddress *_dst_ip, Host **dst);
virtual Flow* findFlowByKey(u_int32_t key, AddressTree *allowed_hosts);
bool findHostsByName(lua_State* vm, AddressTree *allowed_hosts, char *key);
bool findHostsByMac(lua_State* vm, u_int8_t *mac);
bool dissectPacket(u_int32_t bridge_iface_idx,
bool ingressPacket,
u_int8_t *sender_mac, /* Non NULL only for NFQUEUE interfaces */
const struct pcap_pkthdr *h, const u_char *packet,
u_int16_t *ndpiProtocol,
Host **srcHost, Host **dstHost, Flow **flow);
bool processPacket(u_int32_t bridge_iface_idx,
bool ingressPacket,
const struct bpf_timeval *when,
const u_int64_t time,
struct ndpi_ethhdr *eth,
u_int16_t vlan_id,
struct ndpi_iphdr *iph,
struct ndpi_ipv6hdr *ip6,
u_int16_t ipsize, u_int32_t rawsize,
const struct pcap_pkthdr *h,
const u_char *packet,
u_int16_t *ndpiProtocol,
Host **srcHost, Host **dstHost, Flow **flow);
void processFlow(ZMQ_Flow *zflow);
void processInterfaceStats(sFlowInterfaceStats *stats);
void getnDPIStats(nDPIStats *stats, AddressTree *allowed_hosts, const char *host_ip, u_int16_t vlan_id);
void periodicStatsUpdate();
virtual void lua(lua_State* vm);
void getnDPIProtocols(lua_State *vm, ndpi_protocol_category_t filter, bool skip_critical);
void setnDPIProtocolCategory(u_int16_t protoId, ndpi_protocol_category_t protoCategory);
int getActiveHostsList(lua_State* vm,
u_int32_t *begin_slot,
bool walk_all,
u_int8_t bridge_iface_idx,
AddressTree *allowed_hosts,
bool host_details, LocationPolicy location,
char *countryFilter, char *mac_filter,
u_int16_t vlan_id, char *osFilter,
u_int32_t asnFilter, int16_t networkFilter,
u_int16_t pool_filter, bool filtered_hosts, bool blacklisted_hosts, bool hide_top_hidden,
u_int8_t ipver_filter, int proto_filter,
TrafficType traffic_type_filter, bool tsLua, bool anomalousOnly,
char *sortColumn, u_int32_t maxHits,
u_int32_t toSkip, bool a2zSortOrder);
int getActiveHostsGroup(lua_State* vm,
u_int32_t *begin_slot,
bool walk_all,
AddressTree *allowed_hosts,
bool host_details, LocationPolicy location,
char *countryFilter,
u_int16_t vlan_id, char *osFilter,
u_int32_t asnFilter, int16_t networkFilter,
u_int16_t pool_filter, bool filtered_hosts, u_int8_t ipver_filter,
char *groupColumn);
int getActiveASList(lua_State* vm, const Paginator *p);
int getActiveCountriesList(lua_State* vm, const Paginator *p);
int getActiveVLANList(lua_State* vm,
char *sortColumn, u_int32_t maxHits,
u_int32_t toSkip, bool a2zSortOrder,
DetailsLevel details_level);
int getActiveMacList(lua_State* vm,
u_int32_t *begin_slot,
bool walk_all,
u_int8_t bridge_iface_idx,
bool sourceMacsOnly, bool dhcpMacsOnly,
const char *manufacturer,
char *sortColumn, u_int32_t maxHits,
u_int32_t toSkip, bool a2zSortOrder,
u_int16_t pool_filter, u_int8_t devtype_filter,
u_int8_t location_filter);
int getActiveMacManufacturers(lua_State* vm,
u_int8_t bridge_iface_idx,
bool sourceMacsOnly, bool dhcpMacsOnly,
u_int32_t maxHits, u_int8_t devtype_filter,
u_int8_t location_filter);
int getActiveDeviceTypes(lua_State* vm,
u_int8_t bridge_iface_idx,
bool sourceMacsOnly, bool dhcpMacsOnly,
u_int32_t maxHits, const char *manufacturer,
u_int8_t location_filter);
int getMacsIpAddresses(lua_State *vm, int idx);
void getFlowsStats(lua_State* vm);
void getNetworksStats(lua_State* vm);
#ifdef NOTUSED
int getFlows(lua_State* vm, AddressTree *allowed_hosts,
Host *host, int ndpi_proto, LocationPolicy location,
char *sortColumn, u_int32_t maxHits,
u_int32_t toSkip, bool a2zSortOrder);
#endif
int getFlows(lua_State* vm, AddressTree *allowed_hosts,
Host *host,
Paginator *p);
int getFlowsGroup(lua_State* vm,
AddressTree *allowed_hosts,
Paginator *p,
const char *groupColumn);
int dropFlowsTraffic(AddressTree *allowed_hosts, Paginator *p);
virtual void purgeIdle(time_t when);
u_int purgeIdleFlows();
u_int purgeIdleHostsMacsASesVlans();
virtual u_int64_t getNumPackets();
virtual u_int64_t getNumBytes();
virtual u_int32_t getNumDroppedPackets() { return 0; };
virtual u_int getNumPacketDrops();
virtual u_int getNumFlows();
virtual u_int getNumL2Devices();
virtual u_int getNumHosts();
virtual u_int getNumLocalHosts();
virtual u_int getNumMacs();
virtual u_int getNumHTTPHosts();
inline u_int64_t getNumPacketsSinceReset() { return getNumPackets() - getCheckPointNumPackets(); }
inline u_int64_t getNumBytesSinceReset() { return getNumBytes() - getCheckPointNumBytes(); }
inline u_int64_t getNumPacketDropsSinceReset() { return getNumPacketDrops() - getCheckPointNumPacketDrops(); }
void runHousekeepingTasks();
void runShutdownTasks();
Vlan* getVlan(u_int16_t vlanId, bool createIfNotPresent);
AutonomousSystem *getAS(IpAddress *ipa, bool createIfNotPresent);
Country* getCountry(const char *country_name, bool createIfNotPresent);
virtual Mac* getMac(u_int8_t _mac[6], bool createIfNotPresent);
virtual Host* getHost(char *host_ip, u_int16_t vlan_id);
bool getHostInfo(lua_State* vm, AddressTree *allowed_hosts, char *host_ip, u_int16_t vlan_id);
void findUserFlows(lua_State *vm, char *username);
void findPidFlows(lua_State *vm, u_int32_t pid);
void findFatherPidFlows(lua_State *vm, u_int32_t pid);
void findProcNameFlows(lua_State *vm, char *proc_name);
void addAllAvailableInterfaces();
inline bool idle() { return(is_idle); }
inline u_int16_t getMTU() { return(ifMTU); }
inline void setIdleState(bool new_state) { is_idle = new_state; }
inline StatsManager *getStatsManager() { return statsManager; }
inline AlertsManager *getAlertsManager() { return alertsManager; }
void listHTTPHosts(lua_State *vm, char *key);
#ifdef NTOPNG_PRO
void refreshL7Rules();
void refreshShapers();
inline L7Policer* getL7Policer() { return(policer); }
inline FlowInterfacesStats* getFlowInterfacesStats() { return(flow_interfaces_stats); }
#endif
inline HostPools* getHostPools() { return(host_pools); }
bool registerLiveCapture(struct ntopngLuaContext * const luactx, int *id);
bool deregisterLiveCapture(struct ntopngLuaContext * const luactx);
void dumpLiveCaptures(lua_State* vm);
bool stopLiveCapture(int capture_id);
#ifdef NTOPNG_PRO
#ifdef HAVE_NEDGE
void updateHostsL7Policy(u_int16_t host_pool_id);
void updateFlowsL7Policy();
#endif
void resetPoolsStats(u_int16_t pool_filter);
inline void luaHostPoolsStats(lua_State *vm) { if (host_pools) host_pools->luaStats(vm); };
inline void luaHostPoolsVolatileMembers(lua_State *vm) { if (host_pools) host_pools->luaVolatileMembers(vm); };
#endif
void refreshHostPools();
inline u_int16_t getHostPool(Host *h) { if(h && host_pools) return host_pools->getPool(h); return NO_HOST_POOL_ID; };
inline u_int16_t getHostPool(Mac *m) { if(m && host_pools) return host_pools->getPool(m); return NO_HOST_POOL_ID; };
void loadScalingFactorPrefs();
void loadPacketsDropsAlertPrefs();
void getnDPIFlowsCount(lua_State *vm);
inline void setBridgeLanInterfaceId(u_int32_t v) { bridge_lan_interface_id = v; };
inline u_int32_t getBridgeLanInterfaceId() { return(bridge_lan_interface_id); };
inline void setBridgeWanInterfaceId(u_int32_t v) { bridge_wan_interface_id = v; };
inline u_int32_t getBridgeWanInterfaceId() { return(bridge_wan_interface_id); };
inline HostHash* get_hosts_hash() { return(hosts_hash); }
inline MacHash* get_macs_hash() { return(macs_hash); }
inline VlanHash* get_vlans_hash() { return(vlans_hash); }
inline AutonomousSystemHash* get_ases_hash() { return(ases_hash); }
inline CountriesHash* get_countries_hash() { return(countries_hash); }
inline bool is_bridge_interface() { return(bridge_interface); }
inline const char* getLocalIPAddresses() { return(ip_addresses.c_str()); }
void addInterfaceAddress(char *addr);
inline int exec_sql_query(lua_State *vm, char *sql, bool limit_rows, bool wait_for_db_created = true) {
return(db ? db->exec_sql_query(vm, sql, limit_rows, wait_for_db_created) : -1);
};
NetworkStats* getNetworkStats(u_int8_t networkId);
void allocateNetworkStats();
void getsDPIStats(lua_State *vm);
#ifdef NTOPNG_PRO
void updateFlowProfiles();
#ifndef HAVE_NEDGE
inline FlowProfile* getFlowProfile(Flow *f) { return(flow_profiles ? flow_profiles->getFlowProfile(f) : NULL); }
inline bool checkProfileSyntax(char *filter) { return(flow_profiles ? flow_profiles->checkProfileSyntax(filter) : false); }
#endif
bool passShaperPacket(TrafficShaper *a_shaper, TrafficShaper *b_shaper, struct pcap_pkthdr *h);
void initL7Policer();
#endif
void getFlowsStatus(lua_State *vm);
void startDBLoop() { if(db) db->startDBLoop(); };
inline bool createDBSchema() { if(db) { return db->createDBSchema(); } return false; };
inline bool createNprobeDBView() { if(db) { return db->createNprobeDBView(); } return false; };
#ifdef NTOPNG_PRO
inline void getFlowDevices(lua_State *vm) {
if(flow_interfaces_stats) flow_interfaces_stats->luaDeviceList(vm); else lua_newtable(vm);
};
inline void getFlowDeviceInfo(lua_State *vm, u_int32_t deviceIP) {
if(flow_interfaces_stats) flow_interfaces_stats->luaDeviceInfo(vm, deviceIP); else lua_newtable(vm);
};
#endif
inline void getSFlowDevices(lua_State *vm) {
if(interfaceStats) interfaceStats->luaDeviceList(vm); else lua_newtable(vm);
};
inline void getSFlowDeviceInfo(lua_State *vm, u_int32_t deviceIP) {
if(interfaceStats) interfaceStats->luaDeviceInfo(vm, deviceIP); else lua_newtable(vm);
};
void refreshHostsAlertPrefs(bool full_refresh);
int updateHostTrafficPolicy(AddressTree* allowed_networks, char *host_ip, u_int16_t host_vlan);
void reloadHideFromTop(bool refreshHosts=true);
inline void requestReloadCustomCategories() { reload_custom_categories = true; }
inline bool customCategoriesReloadRequested() { return reload_custom_categories; }
void reloadHostsBlacklist();
bool isHiddenFromTop(Host *host);
inline virtual bool areTrafficDirectionsSupported() { return(false); };
inline virtual bool isView() { return(false); };
bool getMacInfo(lua_State* vm, char *mac);
bool setMacDeviceType(char *strmac, DeviceType dtype, bool alwaysOverwrite);
bool setMacOperatingSystem(lua_State* vm, char *mac, OperatingSystem os);
bool getASInfo(lua_State* vm, u_int32_t asn);
bool getVLANInfo(lua_State* vm, u_int16_t vlan_id);
inline void incNumHosts(bool local) { if(local) numLocalHosts++; numHosts++; };
inline void decNumHosts(bool local) { if(local) numLocalHosts--; numHosts--; };
inline void incNumL2Devices() { numL2Devices++; }
inline void decNumL2Devices() { numL2Devices--; }
inline u_int32_t getScalingFactor() { return(scalingFactor); }
inline void setScalingFactor(u_int32_t f) { scalingFactor = f; }
inline bool isSampledTraffic() { return((scalingFactor == 1) ? false : true); }
inline void incAlertLevel() { alertLevel++; }
inline void decAlertLevel() { if(--alertLevel < 0) alertLevel = 0; }
inline int8_t getAlertLevel() { return(alertLevel); }
#ifdef NTOPNG_PRO
virtual bool getCustomAppDetails(u_int32_t remapped_app_id, u_int32_t *const pen, u_int32_t *const app_field, u_int32_t *const app_id) { return false; };
virtual void addToNotifiedInformativeCaptivePortal(u_int32_t client_ip) { ; };
virtual void addIPToLRUMatches(u_int32_t client_ip, u_int16_t user_pool_id,
char *label, int32_t lifetime_sec) { ; };
void aggregatePartialFlow(Flow *flow);
#endif
inline char* mdnsResolveIPv4(u_int32_t ipv4addr /* network byte order */,
char *buf, u_int buf_len, u_int timeout_sec = 2) {
if(mdns)
return(mdns->resolveIPv4(ipv4addr, buf, buf_len, timeout_sec));
else {
buf[0] = '\0';
return(buf);
}
}
inline void mdnsSendAnyQuery(char *targetIPv4, char *query) {
if(mdns) mdns->sendAnyQuery(targetIPv4, query);
}
inline bool mdnsQueueResolveIPv4(u_int32_t ipv4addr, bool alsoUseGatewayDNS) {
return(mdns ? mdns->queueResolveIPv4(ipv4addr, alsoUseGatewayDNS) : false);
}
inline void mdnsFetchResolveResponses(lua_State* vm, int32_t timeout_sec = 2) {
if(mdns) mdns->fetchResolveResponses(vm, timeout_sec);
}
void topProtocolsAdd(u_int16_t pool_id, u_int16_t protocol, u_int32_t bytes);
inline void luaTopPoolsProtos(lua_State *vm) { frequentProtocols->luaTopPoolsProtocols(vm); }
void topMacsAdd(Mac *mac, u_int16_t protocol, u_int32_t bytes);
inline bool isDynamicInterface() { return(is_dynamic_interface); };
inline void setDynamicInterface() { is_dynamic_interface = true; };
inline void luaTopMacsProtos(lua_State *vm) { frequentMacs->luaTopMacsProtocols(vm); }
inline MDNS* getMDNS() { return(mdns); }
inline NetworkDiscovery* getNetworkDiscovery() { return(discovery); }
inline void incPoolNumHosts(u_int16_t id, bool isInlineCall) {
if (host_pools) host_pools->incNumHosts(id, isInlineCall);
};
inline void decPoolNumHosts(u_int16_t id, bool isInlineCall) {
if (host_pools) host_pools->decNumHosts(id, isInlineCall);
};
inline void incPoolNumL2Devices(u_int16_t id, bool isInlineCall) {
if (host_pools) host_pools->incNumL2Devices(id, isInlineCall);
};
inline void decPoolNumL2Devices(u_int16_t id, bool isInlineCall) {
if (host_pools) host_pools->decNumL2Devices(id, isInlineCall);
};
Host* findHostByIP(AddressTree *allowed_hosts, char *host_ip, u_int16_t vlan_id);
#ifdef HAVE_NINDEX
NIndexFlowDB* getNindex();
#endif
inline TimeseriesExporter* getTSExporter() { if(!tsExporter) tsExporter = new TimeseriesExporter(this); return(tsExporter); }
inline uint32_t getMaxSpeed() { return(ifSpeed); }
inline bool isLoopback() { return(is_loopback); }
virtual void sendTermination() { ; }
virtual bool read_from_pcap_dump() { return(false); };
void makeTsPoint(NetworkInterfaceTsPoint *pt);
void tsLua(lua_State* vm);
#ifdef HAVE_EBPF
inline bool iseBPFEventAvailable() { return((ebpfEvents && (ebpfEvents[next_remove_idx] != NULL)) ? true : false); }
bool enqueueeBPFEvent(eBPFevent *event);
bool dequeueeBPFEvent(eBPFevent **event);
void delivereBPFEvent(eBPFevent *event);
#endif
#ifdef PROFILING
inline void profiling_section_enter(const char *label, int id) { PROFILING_SECTION_ENTER(label, id); };
inline void profiling_section_exit(int id) { PROFILING_SECTION_EXIT(id); };
#endif
};
#endif /* _NETWORK_INTERFACE_H_ */