/** * (C) 2007-21 - ntop.org and contributors * * 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 see see * */ #ifndef _N2N_TYPEDEFS_H_ #define _N2N_TYPEDEFS_H_ typedef uint8_t n2n_community_t[N2N_COMMUNITY_SIZE]; typedef uint8_t n2n_mac_t[N2N_MAC_SIZE]; typedef uint8_t n2n_cookie_t[N2N_COOKIE_SIZE]; typedef uint8_t n2n_desc_t[N2N_DESC_SIZE]; typedef char n2n_sock_str_t[N2N_SOCKBUF_SIZE]; /* tracing string buffer */ // those are definitely not typedefs (with a view to the filename) but neither are they defines static const n2n_mac_t broadcast_mac = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF }; static const n2n_mac_t multicast_mac = { 0x01, 0x00, 0x5E, 0x00, 0x00, 0x00 }; /* First 3 bytes are meaningful */ static const n2n_mac_t ipv6_multicast_mac = { 0x33, 0x33, 0x00, 0x00, 0x00, 0x00 }; /* First 2 bytes are meaningful */ static const n2n_mac_t null_mac = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; #if defined(_MSC_VER) || defined(__MINGW32__) #include "getopt.h" /* Other Win environments are expected to support stdint.h */ /* stdint.h typedefs (C99) (not present in Visual Studio) */ typedef unsigned int uint32_t; typedef unsigned short uint16_t; typedef unsigned char uint8_t; /* sys/types.h typedefs (not present in Visual Studio) */ typedef unsigned int u_int32_t; typedef unsigned short u_int16_t; typedef unsigned char u_int8_t; #ifndef __MINGW32__ typedef int ssize_t; #endif typedef unsigned long in_addr_t; #include "n2n_win32.h" #endif /* #if defined(_MSC_VER) || defined(__MINGW32__) */ #if defined(__FreeBSD__) || defined(__NetBSD__) || defined(__OpenBSD__) #include #endif #ifdef __OpenBSD__ #include #define __BYTE_ORDER BYTE_ORDER #if BYTE_ORDER == LITTLE_ENDIAN #ifndef __LITTLE_ENDIAN__ #define __LITTLE_ENDIAN__ #endif /* __LITTLE_ENDIAN__ */ #else #define __BIG_ENDIAN__ #endif/* BYTE_ORDER */ #endif/* __OPENBSD__ */ #if __BYTE_ORDER == __LITTLE_ENDIAN #ifndef __LITTLE_ENDIAN__ #define __LITTLE_ENDIAN__ #endif #else #ifndef __BIG_ENDIAN__ #define __BIG_ENDIAN__ #endif #endif #ifdef WIN32 #ifndef __LITTLE_ENDIAN__ #define __LITTLE_ENDIAN__ 1 #endif #endif #if !(defined(__LITTLE_ENDIAN__) || defined(__BIG_ENDIAN__)) #if defined(__mips__) #undef __LITTLE_ENDIAN__ #undef __LITTLE_ENDIAN #define __BIG_ENDIAN__ #endif /* Everything else */ #if (defined(__BYTE_ORDER__) && defined(__ORDER_LITTLE_ENDIAN__)) #if __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__ #define __LITTLE_ENDIAN__ #else #define __BIG_ENDIAN__ #endif #endif #endif /* *************************************** */ #ifdef __GNUC__ #define PACK_STRUCT __attribute__((__packed__)) #else #define PACK_STRUCT #endif #if defined(_MSC_VER) || defined(__MINGW32__) #pragma pack(push,1) #endif #define ETH_ADDR_LEN 6 struct ether_hdr { uint8_t dhost[ETH_ADDR_LEN]; uint8_t shost[ETH_ADDR_LEN]; uint16_t type; /* higher layer protocol encapsulated */ } PACK_STRUCT; typedef struct ether_hdr ether_hdr_t; struct n2n_iphdr { #if defined(__LITTLE_ENDIAN__) u_int8_t ihl:4, version:4; #elif defined(__BIG_ENDIAN__) u_int8_t version:4, ihl:4; #else # error "Byte order must be defined" #endif u_int8_t tos; u_int16_t tot_len; u_int16_t id; u_int16_t frag_off; u_int8_t ttl; u_int8_t protocol; u_int16_t check; u_int32_t saddr; u_int32_t daddr; } PACK_STRUCT; struct n2n_tcphdr { u_int16_t source; u_int16_t dest; u_int32_t seq; u_int32_t ack_seq; #if defined(__LITTLE_ENDIAN__) u_int16_t res1:4, doff:4, fin:1, syn:1, rst:1, psh:1, ack:1, urg:1, ece:1, cwr:1; #elif defined(__BIG_ENDIAN__) u_int16_t doff:4, res1:4, cwr:1, ece:1, urg:1, ack:1, psh:1, rst:1, syn:1, fin:1; #else # error "Byte order must be defined" #endif u_int16_t window; u_int16_t check; u_int16_t urg_ptr; } PACK_STRUCT; struct n2n_udphdr { u_int16_t source; u_int16_t dest; u_int16_t len; u_int16_t check; } PACK_STRUCT; #if defined(_MSC_VER) || defined(__MINGW32__) #pragma pack(pop) #endif typedef struct port_range { uint16_t start_port; // range contain 'start_port' self uint16_t end_port; // range contain 'end_port' self } port_range_t; typedef struct filter_rule_key { in_addr_t src_net_cidr; uint8_t src_net_bit_len; port_range_t src_port_range; in_addr_t dst_net_cidr; uint8_t dst_net_bit_len; port_range_t dst_port_range; uint8_t bool_tcp_configured; uint8_t bool_udp_configured; uint8_t bool_icmp_configured; } filter_rule_key_t; typedef struct filter_rule { filter_rule_key_t key; uint8_t bool_accept_icmp; uint8_t bool_accept_udp; uint8_t bool_accept_tcp; UT_hash_handle hh; /* makes this structure hashable */ } filter_rule_t; #ifndef WIN32 typedef struct tuntap_dev { int fd; int if_idx; n2n_mac_t mac_addr; uint32_t ip_addr; uint32_t device_mask; uint16_t mtu; char dev_name[N2N_IFNAMSIZ]; } tuntap_dev; #define SOCKET int #endif /* #ifndef WIN32 */ /** Uncomment this to enable the MTU check, then try to ssh to generate a fragmented packet. */ /** NOTE: see doc/MTU.md for an explanation on the 1400 value */ //#define MTU_ASSERT_VALUE 1400 /** Common type used to hold stringified IP addresses. */ typedef char ipstr_t[32]; /** Common type used to hold stringified MAC addresses. */ #define N2N_MACSTR_SIZE 32 typedef char macstr_t[N2N_MACSTR_SIZE]; typedef char dec_ip_str_t[N2N_NETMASK_STR_SIZE]; typedef char dec_ip_bit_str_t[N2N_NETMASK_STR_SIZE + 4]; typedef struct speck_context_t he_context_t; typedef char n2n_sn_name_t[N2N_EDGE_SN_HOST_SIZE]; typedef enum n2n_pc { n2n_ping = 0, /* Not used */ n2n_register = 1, /* Register edge to edge */ n2n_deregister = 2, /* Deregister this edge */ n2n_packet = 3, /* PACKET data content */ n2n_register_ack = 4, /* ACK of a registration from edge to edge */ n2n_register_super = 5, /* Register edge to supernode */ n2n_unregister_super = 6, /* Deregister edge from supernode */ n2n_register_super_ack = 7, /* ACK from supernode to edge */ n2n_register_super_nak = 8, /* NAK from supernode to edge - registration refused */ n2n_federation = 9, /* Not used by edge */ n2n_peer_info = 10, /* Send info on a peer from sn to edge */ n2n_query_peer = 11 /* ask supernode for info on a peer */ } n2n_pc_t; #define N2N_FLAGS_OPTIONS 0x0080 #define N2N_FLAGS_SOCKET 0x0040 #define N2N_FLAGS_FROM_SUPERNODE 0x0020 /* The bits in flag that are the packet type */ #define N2N_FLAGS_TYPE_MASK 0x001f /* 0 - 31 */ #define N2N_FLAGS_BITS_MASK 0xffe0 #define IPV4_SIZE 4 #define IPV6_SIZE 16 #define N2N_AUTH_TOKEN_SIZE 32 /* bytes */ #define N2N_EUNKNOWN -1 #define N2N_ENOTIMPL -2 #define N2N_EINVAL -3 #define N2N_ENOSPACE -4 typedef struct n2n_ip_subnet { uint32_t net_addr; /* Host order IP address. */ uint8_t net_bitlen; /* Subnet prefix. */ } n2n_ip_subnet_t; typedef struct n2n_sock { uint8_t family; /* AF_INET or AF_INET6; or 0 if invalid */ uint16_t port; /* host order */ union { uint8_t v6[IPV6_SIZE]; /* byte sequence */ uint8_t v4[IPV4_SIZE]; /* byte sequence */ } addr; } n2n_sock_t; typedef enum { n2n_auth_none = 0, n2n_auth_simple_id = 1 } n2n_auth_scheme_t; typedef enum { update_edge_no_change = 0, update_edge_sock_change = 1, update_edge_new_sn = 2, update_edge_auth_fail = -1 } update_edge_ret_value_t; typedef struct n2n_auth { uint16_t scheme; /* What kind of auth */ uint16_t toksize; /* Size of auth token */ uint8_t token[N2N_AUTH_TOKEN_SIZE]; /* Auth data interpreted based on scheme */ } n2n_auth_t; typedef struct n2n_common { /* NOTE: wire representation is different! */ /* int version; */ uint8_t ttl; uint8_t pc; uint16_t flags; n2n_community_t community; } n2n_common_t; typedef struct n2n_REGISTER { n2n_cookie_t cookie; /**< Link REGISTER and REGISTER_ACK */ n2n_mac_t srcMac; /**< MAC of registering party */ n2n_mac_t dstMac; /**< MAC of target edge */ n2n_sock_t sock; /**< REVISIT: unused? */ n2n_ip_subnet_t dev_addr; /**< IP address of the tuntap adapter. */ n2n_desc_t dev_desc; /**< Hint description correlated with the edge */ } n2n_REGISTER_t; typedef struct n2n_REGISTER_ACK { n2n_cookie_t cookie; /**< Return cookie from REGISTER */ n2n_mac_t srcMac; /**< MAC of acknowledging party (supernode or edge) */ n2n_mac_t dstMac; /**< Reflected MAC of registering edge from REGISTER */ n2n_sock_t sock; /**< Supernode's view of edge socket (IP Addr, port) */ } n2n_REGISTER_ACK_t; typedef struct n2n_PACKET { n2n_mac_t srcMac; n2n_mac_t dstMac; n2n_sock_t sock; uint8_t transform; uint8_t compression; } n2n_PACKET_t; /* Linked with n2n_register_super in n2n_pc_t. Only from edge to supernode. */ typedef struct n2n_REGISTER_SUPER { n2n_cookie_t cookie; /**< Link REGISTER_SUPER and REGISTER_SUPER_ACK */ n2n_mac_t edgeMac; /**< MAC to register with edge sending socket */ n2n_sock_t sock; /**< Sending socket associated with srcMac */ n2n_ip_subnet_t dev_addr; /**< IP address of the tuntap adapter. */ n2n_desc_t dev_desc; /**< Hint description correlated with the edge */ n2n_auth_t auth; /**< Authentication scheme and tokens */ } n2n_REGISTER_SUPER_t; /* Linked with n2n_register_super_ack in n2n_pc_t. Only from supernode to edge. */ typedef struct n2n_REGISTER_SUPER_ACK { n2n_cookie_t cookie; /**< Return cookie from REGISTER_SUPER */ n2n_mac_t edgeMac; /**< MAC registered to edge sending socket */ n2n_ip_subnet_t dev_addr; /**< Assign an IP address to the tuntap adapter of edge. */ uint16_t lifetime; /**< How long the registration will live */ n2n_sock_t sock; /**< Sending sockets associated with edgeMac */ n2n_auth_t auth; /**< Authentication scheme and tokens */ /** The packet format provides additional supernode definitions here. * uint8_t count, then for each count there is one * n2n_sock_t. */ uint8_t num_sn; /**< Number of supernodes that were send * even if we cannot store them all. If * non-zero then sn_bak is valid. */ } n2n_REGISTER_SUPER_ACK_t; /* Linked with n2n_register_super_ack in n2n_pc_t. Only from supernode to edge. */ typedef struct n2n_REGISTER_SUPER_NAK { n2n_cookie_t cookie; /* Return cookie from REGISTER_SUPER */ n2n_mac_t srcMac; } n2n_REGISTER_SUPER_NAK_t; /* REGISTER_SUPER_ACK may contain extra payload (their number given by num_sn) * of following type describing a(nother) supernode */ typedef struct n2n_REGISTER_SUPER_ACK_payload { n2n_sock_t sock; /**< socket of supernode */ n2n_mac_t mac; /**< MAC of supernode */ } n2n_REGISTER_SUPER_ACK_payload_t; /* Linked with n2n_unregister_super in n2n_pc_t. */ typedef struct n2n_UNREGISTER_SUPER { n2n_auth_t auth; n2n_mac_t srcMac; } n2n_UNREGISTER_SUPER_t; typedef struct n2n_PEER_INFO { uint16_t aflags; n2n_mac_t srcMac; n2n_mac_t mac; n2n_sock_t sock; SN_SELECTION_CRITERION_DATA_TYPE data; } n2n_PEER_INFO_t; typedef struct n2n_QUERY_PEER { n2n_mac_t srcMac; n2n_sock_t sock; n2n_mac_t targetMac; } n2n_QUERY_PEER_t; typedef struct n2n_buf n2n_buf_t; struct peer_info { n2n_mac_t mac_addr; n2n_ip_subnet_t dev_addr; n2n_desc_t dev_desc; n2n_sock_t sock; SOCKET socket_fd; n2n_cookie_t last_cookie; n2n_auth_t auth; int timeout; uint8_t purgeable; time_t last_seen; time_t last_p2p; time_t last_sent_query; SN_SELECTION_CRITERION_DATA_TYPE selection_criterion; uint64_t last_valid_time_stamp; char *ip_addr; uint8_t local; UT_hash_handle hh; /* makes this structure hashable */ }; typedef struct peer_info peer_info_t; typedef struct n2n_route { in_addr_t net_addr; uint8_t net_bitlen; in_addr_t gateway; } n2n_route_t; typedef struct n2n_edge n2n_edge_t; /* *************************************************** */ typedef enum { N2N_ACCEPT = 0, N2N_DROP = 1 } n2n_verdict; /* *************************************************** */ typedef enum { FPP_UNKNOWN = 0, FPP_ARP = 1, FPP_TCP = 2, FPP_UDP = 3, FPP_ICMP = 4, FPP_IGMP = 5 } filter_packet_proto; typedef struct packet_address_proto_info { in_addr_t src_ip; uint16_t src_port; in_addr_t dst_ip; uint16_t dst_port; filter_packet_proto proto; }packet_address_proto_info_t; typedef struct filter_rule_pair_cache { packet_address_proto_info_t key; uint8_t bool_allow_traffic; uint32_t active_count; UT_hash_handle hh; /* makes this structure hashable */ } filter_rule_pair_cache_t; struct network_traffic_filter; typedef struct network_traffic_filter network_traffic_filter_t; struct network_traffic_filter { n2n_verdict (*filter_packet_from_peer)(network_traffic_filter_t* filter, n2n_edge_t *eee, const n2n_sock_t *peer, uint8_t *payload, uint16_t payload_size); n2n_verdict (*filter_packet_from_tap)(network_traffic_filter_t* filter, n2n_edge_t *eee, uint8_t *payload, uint16_t payload_size); filter_rule_t *rules; filter_rule_pair_cache_t *connections_rule_cache; uint32_t work_count_scene_last_clear; }; /* *************************************************** */ /* Callbacks allow external programs to attach functions in response to * N2N events. */ typedef struct n2n_edge_callbacks { /* The supernode registration has been updated */ void (*sn_registration_updated)(n2n_edge_t *eee, time_t now, const n2n_sock_t *sn); /* A packet has been received from a peer. N2N_DROP can be returned to * drop the packet. The packet payload can be modified. This only allows * the packet size to be reduced */ n2n_verdict (*packet_from_peer)(n2n_edge_t *eee, const n2n_sock_t *peer, uint8_t *payload, uint16_t *payload_size); /* A packet has been received from the TAP interface. N2N_DROP can be * returned to drop the packet. The packet payload can be modified. * This only allows the packet size to be reduced */ n2n_verdict (*packet_from_tap)(n2n_edge_t *eee, uint8_t *payload, uint16_t *payload_size); /* Called whenever the IP address of the TAP interface changes. */ void (*ip_address_changed)(n2n_edge_t *eee, uint32_t old_ip, uint32_t new_ip); /* Called periodically in the main loop. */ void (*main_loop_period)(n2n_edge_t *eee, time_t now); } n2n_edge_callbacks_t; typedef struct n2n_tuntap_priv_config { char tuntap_dev_name[N2N_IFNAMSIZ]; char ip_mode[N2N_IF_MODE_SIZE]; dec_ip_str_t ip_addr; dec_ip_str_t netmask; char device_mac[N2N_MACNAMSIZ]; int mtu; int metric; uint8_t daemon; #ifndef WIN32 uid_t userid; gid_t groupid; #endif } n2n_tuntap_priv_config_t; /* *************************************************** */ typedef enum n2n_transform { N2N_TRANSFORM_ID_INVAL = 0, N2N_TRANSFORM_ID_NULL = 1, N2N_TRANSFORM_ID_TWOFISH = 2, N2N_TRANSFORM_ID_AES = 3, N2N_TRANSFORM_ID_CHACHA20 = 4, N2N_TRANSFORM_ID_SPECK = 5, } n2n_transform_t; struct n2n_trans_op; /* Circular definition */ typedef int (*n2n_transdeinit_f)(struct n2n_trans_op * arg); typedef void (*n2n_transtick_f)(struct n2n_trans_op * arg, time_t now); typedef int (*n2n_transform_f)(struct n2n_trans_op * arg, uint8_t * outbuf, size_t out_len, const uint8_t * inbuf, size_t in_len, const n2n_mac_t peer_mac); /** Holds the info associated with a data transform plugin. * * When a packet arrives the transform ID is extracted. This defines the code * to use to decode the packet content. The transform code then decodes the * packet and consults its internal key lookup. */ typedef struct n2n_trans_op { void * priv; /* opaque data. Key schedule goes here. */ uint8_t no_encryption; /* 1 if this transop does not perform encryption */ n2n_transform_t transform_id; size_t tx_cnt; size_t rx_cnt; n2n_transdeinit_f deinit; /* destructor function */ n2n_transtick_f tick; /* periodic maintenance */ n2n_transform_f fwd; /* encode a payload */ n2n_transform_f rev; /* decode a payload */ } n2n_trans_op_t; /* *************************************************** */ typedef struct n2n_edge_conf { struct peer_info *supernodes; /**< List of supernodes */ n2n_route_t *routes; /**< Networks to route through n2n */ n2n_community_t community_name; /**< The community. 16 full octets. */ n2n_desc_t dev_desc; /**< The device description (hint) */ uint8_t header_encryption; /**< Header encryption indicator. */ he_context_t *header_encryption_ctx; /**< Header encryption cipher context. */ he_context_t *header_iv_ctx; /**< Header IV ecnryption cipher context, REMOVE as soon as seperte fileds for checksum and replay protection available */ n2n_transform_t transop_id; /**< The transop to use. */ uint8_t compression; /**< Compress outgoing data packets before encryption */ uint16_t num_routes; /**< Number of routes in routes */ uint8_t tuntap_ip_mode; /**< Interface IP address allocated mode, eg. DHCP. */ uint8_t allow_routing; /**< Accept packet no to interface address. */ uint8_t drop_multicast; /**< Multicast ethernet addresses. */ uint8_t disable_pmtu_discovery; /**< Disable the Path MTU discovery. */ uint8_t allow_p2p; /**< Allow P2P connection */ uint8_t sn_num; /**< Number of supernode addresses defined. */ uint8_t tos; /** TOS for sent packets */ char *encrypt_key; int register_interval; /**< Interval for supernode registration, also used for UDP NAT hole punching. */ int register_ttl; /**< TTL for registration packet when UDP NAT hole punching through supernode. */ int local_port; int mgmt_port; uint8_t connect_tcp; /** connection to supernode 0 = UDP; 1 = TCP */ n2n_auth_t auth; filter_rule_t *network_traffic_filter_rules; int metric; /**< Network interface metric (Windows only). */ uint8_t number_max_sn_pings; /**< Number of maximum concurrently allowed supernode pings. */ } n2n_edge_conf_t; struct n2n_edge_stats { uint32_t tx_p2p; uint32_t rx_p2p; uint32_t tx_sup; uint32_t rx_sup; uint32_t tx_sup_broadcast; uint32_t rx_sup_broadcast; }; struct n2n_edge { n2n_edge_conf_t conf; /* Status */ struct peer_info *curr_sn; /**< Currently active supernode. */ uint8_t sn_wait; /**< Whether we are waiting for a supernode response. */ uint8_t sn_pong; /**< Whether we have seen a PONG since last time reset. */ size_t sup_attempts; /**< Number of remaining attempts to this supernode. */ tuntap_dev device; /**< All about the TUNTAP device */ n2n_trans_op_t transop; /**< The transop to use when encoding */ n2n_route_t *sn_route_to_clean; /**< Supernode route to clean */ n2n_edge_callbacks_t cb; /**< API callbacks */ void *user_data; /**< Can hold user data */ SN_SELECTION_CRITERION_DATA_TYPE sn_selection_criterion_common_data; /* Sockets */ /* supernode socket is in eee->curr_sn->sock (of type n2n_sock_t) */ int sock; int close_socket_counter; /**< counter for close-event before re-opening */ int udp_mgmt_sock; /**< socket for status info. */ #ifndef SKIP_MULTICAST_PEERS_DISCOVERY n2n_sock_t multicast_peer; /**< Multicast peer group (for local edges) */ int udp_multicast_sock; /**< socket for local multicast registrations. */ int multicast_joined; /**< 1 if the group has been joined.*/ #endif /* Peers */ struct peer_info * known_peers; /**< Edges we are connected to. */ struct peer_info * pending_peers; /**< Edges we have tried to register with. */ /* Timers */ time_t last_register_req; /**< Check if time to re-register with super*/ time_t last_p2p; /**< Last time p2p traffic was received. */ time_t last_sup; /**< Last time a packet arrived from supernode. */ time_t last_sweep; /**< Last time a sweep was performed. */ time_t start_time; /**< For calculating uptime */ struct n2n_edge_stats stats; /**< Statistics */ n2n_tuntap_priv_config_t tuntap_priv_conf; /**< Tuntap config */ network_traffic_filter_t *network_traffic_filter; }; typedef struct sn_stats { size_t errors; /* Number of errors encountered. */ size_t reg_super; /* Number of REGISTER_SUPER requests received. */ size_t reg_super_nak; /* Number of REGISTER_SUPER requests declined. */ size_t fwd; /* Number of messages forwarded. */ size_t broadcast; /* Number of messages broadcast to a community. */ time_t last_fwd; /* Time when last message was forwarded. */ time_t last_reg_super; /* Time when last REGISTER_SUPER was received. */ } sn_stats_t; typedef struct node_supernode_association { n2n_mac_t mac; /* mac address of an edge */ const struct sockaddr_in sock; /* network order socket of that edge's supernode */ time_t last_seen; /* time mark to keep track of purging requirements */ UT_hash_handle hh; /* makes this structure hashable */ } node_supernode_association_t; struct sn_community { char community[N2N_COMMUNITY_SIZE]; uint8_t is_federation; /* if not-zero, then the current community is the federation of supernodes */ uint8_t purgeable; /* indicates purgeable community (fixed-name, predetermined (-c parameter) communties usually are unpurgeable) */ uint8_t header_encryption; /* Header encryption indicator. */ he_context_t *header_encryption_ctx; /* Header encryption cipher context. */ he_context_t *header_iv_ctx; /* Header IV ecnryption cipher context, REMOVE as soon as seperate fields for checksum and replay protection available */ struct peer_info *edges; /* Link list of registered edges. */ node_supernode_association_t *assoc; /* list of other edges from this community and their supernodes */ int64_t number_enc_packets; /* Number of encrypted packets handled so far, required for sorting from time to time */ n2n_ip_subnet_t auto_ip_net; /* Address range of auto ip address service. */ UT_hash_handle hh; /* makes this structure hashable */ }; /* Typedef'd pointer to get abstract datatype. */ typedef struct regex_t* re_t; struct sn_community_regular_expression { re_t rule; /* compiles regular expression */ UT_hash_handle hh; /* makes this structure hashable */ }; typedef struct n2n_tcp_connection { int socket_fd; /* file descriptor for tcp socket */ struct sockaddr sock; /* network order socket */ uint16_t expected; /* number of bytes expected to be read */ uint16_t position; /* current position in the buffer*/ uint8_t buffer[N2N_PKT_BUF_SIZE + sizeof(uint16_t)]; /* buffer for data collected from tcp socket incl. prepended length */ UT_hash_handle hh; /* makes this structure hashable */ } n2n_tcp_connection_t; typedef struct n2n_sn { time_t start_time; /* Used to measure uptime. */ sn_stats_t stats; int daemon; /* If non-zero then daemonise. */ n2n_mac_t mac_addr; uint16_t lport; /* Local UDP port to bind to. */ uint16_t mport; /* Management UDP port to bind to. */ int sock; /* Main socket for UDP traffic with edges. */ int tcp_sock; /* auxiliary socket for optional TCP connections */ n2n_tcp_connection_t *tcp_connections;/* list of established TCP connections */ int mgmt_sock; /* management socket. */ n2n_ip_subnet_t min_auto_ip_net; /* Address range of auto_ip service. */ n2n_ip_subnet_t max_auto_ip_net; /* Address range of auto_ip service. */ #ifndef WIN32 uid_t userid; gid_t groupid; #endif int lock_communities; /* If true, only loaded and matching communities can be used. */ char *community_file; struct sn_community *communities; struct sn_community_regular_expression *rules; struct sn_community *federation; n2n_auth_t auth; } n2n_sn_t; #endif /* _N2N_TYPEDEFS_H_ */