#ifndef LIGHTNING_PKT_H #define LIGHTNING_PKT_H /* Simple (non-threadsafe!) wrapper for protobufs. * * This could be a simple set of macros, if the protobuf-c people hadn't * insisted on "prettifing" the names they generate into CamelCase. */ #include #include #include #include "lightning.pb-c.h" /* A packet, ready to be de-protobuf'ed. */ struct pkt { le32 len; u8 data[]; }; /* Utility helper: dies if there's a problem. */ Pkt *pkt_from_file(const char *filename, Pkt__PktCase expect); Pkt *any_pkt_from_file(const char *filename); /* Total length of packet, including header. */ size_t pkt_totlen(const struct pkt *pkt); struct sha256; struct bitcoin_compressed_pubkey; struct signature; struct pubkey; /** * open_channel_pkt - create an openchannel message * @ctx: tal context to allocate off. * @revocation_hash: first hash value generated from seed. * @commit: the pubkey for the anchor transactions' P2SH output. * @final: the pubkey for the commit transactions' P2SH output. * @rel_locktime_seconds: relative seconds for commitment locktime. * @offer_anchor: whether we will offer anchor. * @min_depth: minimum depth to insist on (if non-zero) * @commitment_fee: fee we would like for commitment txs. */ struct pkt *open_channel_pkt(const tal_t *ctx, const struct sha256 *revocation_hash, const struct pubkey *commit, const struct pubkey *final, u32 rel_locktime_seconds, bool offer_anchor, u32 min_depth, u64 commitment_fee); /** * open_anchor_pkt - create an open_anchor message packet * @ctx: tal context to allocate off. * @oa_msg: the OpenAnchor message. */ struct pkt *open_anchor_pkt(const tal_t *ctx, const OpenAnchor *oa_msg); /** * open_commit_sig_pkt - create an open_commit_sig message * @ctx: tal context to allocate off. * @sig: the signature for the commit transaction input. */ struct pkt *open_commit_sig_pkt(const tal_t *ctx, const struct signature *sig); /** * close_channel_pkt - create an close_channel message * @ctx: tal context to allocate off. * @sig: the signature for the close transaction input. */ struct pkt *close_channel_pkt(const tal_t *ctx, const struct signature *sig); /** * close_channel_complete_pkt - create an close_channel_complete message * @ctx: tal context to allocate off. * @sig: the signature for the close transaction input. */ struct pkt *close_channel_complete_pkt(const tal_t *ctx, const struct signature *sig); /** * update_pkt - create an update message * @ctx: tal context to allocate off. * @revocation_hash: the revocation hash for the next tx. * @delta: the change in satoshis (to me). */ struct pkt *update_pkt(const tal_t *ctx, const struct sha256 *revocation_hash, s64 delta); /** * update_accept_pkt - create an update_accept message * @ctx: tal context to allocate off. * @sig: the signature for the close transaction input. * @revocation_hash: hash to revoke the next tx. */ struct pkt *update_accept_pkt(const tal_t *ctx, struct signature *sig, const struct sha256 *revocation_hash); /** * update_signature_pkt - create an update_signature message * @ctx: tal context to allocate off. * @sig: the signature for the close transaction input. * @revocation_preimage: preimage to revoke existing (now-obsolete) tx. */ struct pkt *update_signature_pkt(const tal_t *ctx, const struct signature *sig, const struct sha256 *revocation_preimage); /** * update_complete_pkt - create an update_accept message * @ctx: tal context to allocate off. * @revocation_preimage: preimage to revoke existing (now-obsolete) tx. */ struct pkt *update_complete_pkt(const tal_t *ctx, const struct sha256 *revocation_preimage); #endif /* LIGHTNING_PKT_H */