#ifndef LIGHTNING_COMMON_WIREADDR_H #define LIGHTNING_COMMON_WIREADDR_H #include "config.h" #include #include #include #include #include #include struct in6_addr; struct in_addr; struct sockaddr_in6; struct sockaddr_in; struct sockaddr_un; /* BOLT #7: * * The following `address descriptor` types are defined: * * * `0`: padding. data = none (length 0). * * `1`: ipv4. data = `[4:ipv4_addr][2:port]` (length 6) * * `2`: ipv6. data = `[16:ipv6_addr][2:port]` (length 18) * * `3`: tor v2 onion service. data = `[10:onion_addr][2:port]` (length 12) * * Version 2 onion service addresses. Encodes an 80-bit truncated `SHA-1` hash * of a 1024-bit `RSA` public key for the onion service. * * `4`: tor v3 onion service. data `[35:onion_addr][2:port]` (length 37) * * Version 3 ([prop224](https://gitweb.torproject.org/torspec.git/tree/proposals/224-rend-spec-ng.txt)) * onion service addresses. Encodes: `[32:32_byte_ed25519_pubkey] || [2:checksum] || [1:version]`. * where `checksum = sha3(".onion checksum" | pubkey || version)[:2]` */ enum wire_addr_type { ADDR_TYPE_PADDING = 0, ADDR_TYPE_IPV4 = 1, ADDR_TYPE_IPV6 = 2, }; /* FIXME(cdecker) Extend this once we have defined how TOR addresses * should look like */ struct wireaddr { enum wire_addr_type type; u8 addrlen; u8 addr[16]; u16 port; }; /* We use wireaddr to tell gossipd both what to listen on, and what to * announce */ enum addr_listen_announce { ADDR_LISTEN = (1 << 0), ADDR_ANNOUNCE = (1 << 1), ADDR_LISTEN_AND_ANNOUNCE = ADDR_LISTEN|ADDR_ANNOUNCE }; /* Inserts a single ADDR_TYPE_PADDING if addr is NULL */ void towire_wireaddr(u8 **pptr, const struct wireaddr *addr); bool fromwire_wireaddr(const u8 **cursor, size_t *max, struct wireaddr *addr); enum addr_listen_announce fromwire_addr_listen_announce(const u8 **cursor, size_t *max); void towire_addr_listen_announce(u8 **pptr, enum addr_listen_announce ala); bool parse_wireaddr(const char *arg, struct wireaddr *addr, u16 port, const char **err_msg); char *fmt_wireaddr(const tal_t *ctx, const struct wireaddr *a); bool wireaddr_from_hostname(struct wireaddr *addr, const char *hostname, const u16 port, const char **err_msg); void wireaddr_from_ipv4(struct wireaddr *addr, const struct in_addr *ip4, const u16 port); void wireaddr_from_ipv6(struct wireaddr *addr, const struct in6_addr *ip6, const u16 port); bool wireaddr_to_ipv4(const struct wireaddr *addr, struct sockaddr_in *s4); bool wireaddr_to_ipv6(const struct wireaddr *addr, struct sockaddr_in6 *s6); bool wireaddr_is_wildcard(const struct wireaddr *addr); enum wireaddr_internal_type { ADDR_INTERNAL_SOCKNAME, ADDR_INTERNAL_ALLPROTO, ADDR_INTERNAL_WIREADDR, }; /* For internal use, where we can also supply a local socket, wildcard. */ struct wireaddr_internal { enum wireaddr_internal_type itype; union { /* ADDR_INTERNAL_WIREADDR */ struct wireaddr wireaddr; /* ADDR_INTERNAL_ALLPROTO */ u16 port; /* ADDR_INTERNAL_SOCKNAME */ char sockname[sizeof(((struct sockaddr_un *)0)->sun_path)]; } u; }; bool parse_wireaddr_internal(const char *arg, struct wireaddr_internal *addr, u16 port, bool wildcard_ok, const char **err_msg); void towire_wireaddr_internal(u8 **pptr, const struct wireaddr_internal *addr); bool fromwire_wireaddr_internal(const u8 **cursor, size_t *max, struct wireaddr_internal *addr); char *fmt_wireaddr_internal(const tal_t *ctx, const struct wireaddr_internal *a); void wireaddr_from_sockname(struct wireaddr_internal *addr, const char *sockname); bool wireaddr_to_sockname(const struct wireaddr_internal *addr, struct sockaddr_un *sun); #endif /* LIGHTNING_COMMON_WIREADDR_H */