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599 lines
17 KiB
599 lines
17 KiB
#include "bitcoin/preimage.h"
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#include "bitcoin/script.h"
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#include "bitcoin/tx.h"
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#include "chaintopology.h"
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#include "close_tx.h"
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#include "commit_tx.h"
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#include "cryptopkt.h"
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#include "htlc.h"
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#include "lightningd.h"
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#include "log.h"
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#include "names.h"
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#include "packets.h"
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#include "peer.h"
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#include "peer_internal.h"
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#include "protobuf_convert.h"
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#include "secrets.h"
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#include "state.h"
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#include "utils.h"
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#include <ccan/array_size/array_size.h>
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#include <ccan/crypto/sha256/sha256.h>
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#include <ccan/io/io.h>
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#include <ccan/mem/mem.h>
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#include <ccan/ptrint/ptrint.h>
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#include <ccan/str/hex/hex.h>
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#include <ccan/structeq/structeq.h>
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#include <ccan/tal/str/str.h>
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#include <inttypes.h>
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/* Wrap (and own!) member inside Pkt */
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static Pkt *make_pkt(const tal_t *ctx, Pkt__PktCase type, const void *msg)
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{
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Pkt *pkt = tal(ctx, Pkt);
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pkt__init(pkt);
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pkt->pkt_case = type;
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/* This is a union, so doesn't matter which we assign. */
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pkt->error = (Error *)tal_steal(pkt, msg);
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/* This makes sure all packets are valid. */
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#ifndef NDEBUG
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{
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size_t len;
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u8 *packed;
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Pkt *cpy;
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len = pkt__get_packed_size(pkt);
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packed = tal_arr(pkt, u8, len);
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pkt__pack(pkt, packed);
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cpy = pkt__unpack(NULL, len, memcheck(packed, len));
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assert(cpy);
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pkt__free_unpacked(cpy, NULL);
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tal_free(packed);
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}
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#endif
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return pkt;
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}
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static void queue_raw_pkt(struct peer *peer, Pkt *pkt)
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{
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size_t n = tal_count(peer->outpkt);
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tal_resize(&peer->outpkt, n+1);
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peer->outpkt[n] = pkt;
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log_debug(peer->log, "Queued pkt %s (order=%"PRIu64")",
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pkt_name(pkt->pkt_case), peer->order_counter);
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/* In case it was waiting for output. */
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io_wake(peer);
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}
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static void queue_pkt(struct peer *peer, Pkt__PktCase type, const void *msg)
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{
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queue_raw_pkt(peer, make_pkt(peer, type, msg));
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}
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void queue_pkt_open(struct peer *peer, bool offer_anchor)
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{
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OpenChannel *o = tal(peer, OpenChannel);
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open_channel__init(o);
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o->revocation_hash = sha256_to_proto(o, &peer->local.commit->revocation_hash);
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o->next_revocation_hash = sha256_to_proto(o, &peer->local.next_revocation_hash);
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o->commit_key = pubkey_to_proto(o, &peer->local.commitkey);
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o->final_key = pubkey_to_proto(o, &peer->local.finalkey);
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o->delay = tal(o, Locktime);
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locktime__init(o->delay);
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o->delay->locktime_case = LOCKTIME__LOCKTIME_BLOCKS;
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o->delay->blocks = rel_locktime_to_blocks(&peer->local.locktime);
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o->initial_fee_rate = peer->local.commit_fee_rate;
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if (offer_anchor)
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o->anch = OPEN_CHANNEL__ANCHOR_OFFER__WILL_CREATE_ANCHOR;
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else
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o->anch = OPEN_CHANNEL__ANCHOR_OFFER__WONT_CREATE_ANCHOR;
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o->min_depth = peer->local.mindepth;
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queue_pkt(peer, PKT__PKT_OPEN, o);
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}
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void queue_pkt_anchor(struct peer *peer)
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{
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OpenAnchor *a = tal(peer, OpenAnchor);
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open_anchor__init(a);
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a->txid = sha256_to_proto(a, &peer->anchor.txid.sha);
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a->output_index = peer->anchor.index;
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a->amount = peer->anchor.satoshis;
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queue_pkt(peer, PKT__PKT_OPEN_ANCHOR, a);
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}
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void queue_pkt_open_commit_sig(struct peer *peer)
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{
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OpenCommitSig *s = tal(peer, OpenCommitSig);
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open_commit_sig__init(s);
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s->sig = signature_to_proto(s, peer->remote.commit->sig);
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queue_pkt(peer, PKT__PKT_OPEN_COMMIT_SIG, s);
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}
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void queue_pkt_open_complete(struct peer *peer)
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{
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OpenComplete *o = tal(peer, OpenComplete);
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open_complete__init(o);
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queue_pkt(peer, PKT__PKT_OPEN_COMPLETE, o);
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}
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void queue_pkt_htlc_add(struct peer *peer, struct htlc *htlc)
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{
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UpdateAddHtlc *u = tal(peer, UpdateAddHtlc);
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update_add_htlc__init(u);
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u->id = htlc->id;
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u->amount_msat = htlc->msatoshi;
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u->r_hash = sha256_to_proto(u, &htlc->rhash);
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u->expiry = abs_locktime_to_proto(u, &htlc->expiry);
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u->route = tal(u, Routing);
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routing__init(u->route);
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u->route->info.data = tal_dup_arr(u, u8,
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htlc->routing,
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tal_count(htlc->routing),
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0);
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u->route->info.len = tal_count(u->route->info.data);
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queue_pkt(peer, PKT__PKT_UPDATE_ADD_HTLC, u);
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}
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void queue_pkt_htlc_fulfill(struct peer *peer, struct htlc *htlc)
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{
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UpdateFulfillHtlc *f = tal(peer, UpdateFulfillHtlc);
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update_fulfill_htlc__init(f);
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f->id = htlc->id;
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f->r = preimage_to_proto(f, htlc->r);
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queue_pkt(peer, PKT__PKT_UPDATE_FULFILL_HTLC, f);
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}
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void queue_pkt_htlc_fail(struct peer *peer, struct htlc *htlc)
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{
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UpdateFailHtlc *f = tal(peer, UpdateFailHtlc);
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update_fail_htlc__init(f);
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f->id = htlc->id;
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f->reason = tal(f, FailReason);
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fail_reason__init(f->reason);
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f->reason->info.len = tal_count(htlc->fail);
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f->reason->info.data = tal_dup_arr(f->reason, u8,
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htlc->fail, f->reason->info.len, 0);
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queue_pkt(peer, PKT__PKT_UPDATE_FAIL_HTLC, f);
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}
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void queue_pkt_feechange(struct peer *peer, u64 feerate)
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{
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UpdateFee *f = tal(peer, UpdateFee);
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update_fee__init(f);
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f->fee_rate = feerate;
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queue_pkt(peer, PKT__PKT_UPDATE_FEE, f);
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}
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/* OK, we're sending a signature for their pending changes. */
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void queue_pkt_commit(struct peer *peer, const secp256k1_ecdsa_signature *sig)
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{
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UpdateCommit *u = tal(peer, UpdateCommit);
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/* Now send message */
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update_commit__init(u);
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if (sig)
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u->sig = signature_to_proto(u, sig);
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else
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u->sig = NULL;
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queue_pkt(peer, PKT__PKT_UPDATE_COMMIT, u);
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}
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/* Send a preimage for the old commit tx. The one we've just committed to is
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* in peer->local.commit. */
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void queue_pkt_revocation(struct peer *peer,
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const struct sha256 *preimage,
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const struct sha256 *next_hash)
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{
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UpdateRevocation *u = tal(peer, UpdateRevocation);
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update_revocation__init(u);
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u->revocation_preimage = sha256_to_proto(u, preimage);
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u->next_revocation_hash = sha256_to_proto(u, next_hash);
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queue_pkt(peer, PKT__PKT_UPDATE_REVOCATION, u);
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}
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/* Send a serialized nested packet. */
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void queue_pkt_nested(struct peer *peer,
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int type,
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const u8 *nested_pkt)
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{
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NestedPkt *pb = tal(peer, NestedPkt);
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nested_pkt__init(pb);
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pb->type = type;
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pb->inner_pkt.len = tal_count(nested_pkt);
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pb->inner_pkt.data = tal_dup_arr(pb, u8, nested_pkt, pb->inner_pkt.len, 0);
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queue_pkt(peer, PKT__PKT_NESTED, pb);
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}
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Pkt *pkt_err(struct peer *peer, const char *msg, ...)
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{
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Error *e = tal(peer, Error);
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va_list ap;
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error__init(e);
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va_start(ap, msg);
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e->problem = tal_vfmt(e, msg, ap);
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va_end(ap);
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log_unusual(peer->log, "Sending PKT_ERROR: %s", e->problem);
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return make_pkt(peer, PKT__PKT_ERROR, e);
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}
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Pkt *pkt_init(struct peer *peer, u64 ack)
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{
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Init *i = tal(peer, Init);
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init__init(i);
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i->ack = ack;
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/* FIXME-OLD #2:
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*
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* A node SHOULD set the `features` field of the `init`
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* message to a bitset representing features it supports.
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*/
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/* No features yet! */
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return make_pkt(peer, PKT__PKT_INIT, i);
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}
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void queue_pkt_err(struct peer *peer, Pkt *err)
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{
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queue_raw_pkt(peer, err);
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}
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void queue_pkt_close_shutdown(struct peer *peer)
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{
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CloseShutdown *c = tal(peer, CloseShutdown);
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close_shutdown__init(c);
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c->scriptpubkey.data = tal_dup_arr(c, u8,
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peer->closing.our_script,
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tal_count(peer->closing.our_script),
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0);
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c->scriptpubkey.len = tal_count(c->scriptpubkey.data);
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queue_pkt(peer, PKT__PKT_CLOSE_SHUTDOWN, c);
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}
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void queue_pkt_close_signature(struct peer *peer)
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{
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CloseSignature *c = tal(peer, CloseSignature);
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struct bitcoin_tx *close_tx;
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secp256k1_ecdsa_signature our_close_sig;
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close_signature__init(c);
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close_tx = peer_create_close_tx(c, peer, peer->closing.our_fee);
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peer_sign_mutual_close(peer, close_tx, &our_close_sig);
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c->sig = signature_to_proto(c, &our_close_sig);
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c->close_fee = peer->closing.our_fee;
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log_info(peer->log, "queue_pkt_close_signature: offered close fee %"
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PRIu64, c->close_fee);
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queue_pkt(peer, PKT__PKT_CLOSE_SIGNATURE, c);
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}
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Pkt *pkt_err_unexpected(struct peer *peer, const Pkt *pkt)
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{
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return pkt_err(peer, "Unexpected packet %s", pkt_name(pkt->pkt_case));
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}
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/* Process various packets: return an error packet on failure. */
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Pkt *accept_pkt_open(struct peer *peer, const Pkt *pkt,
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struct sha256 *revocation_hash,
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struct sha256 *next_revocation_hash)
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{
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struct rel_locktime locktime;
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const OpenChannel *o = pkt->open;
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u64 feerate = get_feerate(peer->dstate->topology);
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if (!proto_to_rel_locktime(o->delay, &locktime))
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return pkt_err(peer, "Invalid delay");
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if (o->delay->locktime_case != LOCKTIME__LOCKTIME_BLOCKS)
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return pkt_err(peer, "Delay in seconds not accepted");
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if (o->delay->blocks > peer->dstate->config.locktime_max)
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return pkt_err(peer, "Delay %u too great", o->delay->blocks);
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if (o->min_depth > peer->dstate->config.anchor_confirms_max)
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return pkt_err(peer, "min_depth %u too great", o->min_depth);
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if (o->initial_fee_rate
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< feerate * peer->dstate->config.commitment_fee_min_percent / 100)
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return pkt_err(peer, "Commitment fee %u below %"PRIu64" x %u%%",
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o->initial_fee_rate, feerate,
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peer->dstate->config.commitment_fee_min_percent);
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if (peer->dstate->config.commitment_fee_max_percent != 0
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&& (o->initial_fee_rate
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> feerate * peer->dstate->config.commitment_fee_max_percent/100))
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return pkt_err(peer, "Commitment fee %u above %"PRIu64" x %u%%",
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o->initial_fee_rate, feerate,
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peer->dstate->config.commitment_fee_max_percent);
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if (o->anch == OPEN_CHANNEL__ANCHOR_OFFER__WILL_CREATE_ANCHOR)
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peer->remote.offer_anchor = true;
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else if (o->anch == OPEN_CHANNEL__ANCHOR_OFFER__WONT_CREATE_ANCHOR)
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peer->remote.offer_anchor = false;
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else
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return pkt_err(peer, "Unknown offer anchor value %u",
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o->anch);
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if (peer->remote.offer_anchor == peer->local.offer_anchor)
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return pkt_err(peer, "Exactly one side can offer anchor (we %s)",
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peer->local.offer_anchor ? "do" : "don't");
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if (!proto_to_rel_locktime(o->delay, &peer->remote.locktime))
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return pkt_err(peer, "Malformed locktime");
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peer->remote.mindepth = o->min_depth;
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peer->remote.commit_fee_rate = o->initial_fee_rate;
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if (!proto_to_pubkey(o->commit_key, &peer->remote.commitkey))
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return pkt_err(peer, "Bad commitkey");
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if (!proto_to_pubkey(o->final_key, &peer->remote.finalkey))
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return pkt_err(peer, "Bad finalkey");
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proto_to_sha256(o->revocation_hash, revocation_hash);
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proto_to_sha256(o->next_revocation_hash, next_revocation_hash);
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return NULL;
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}
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Pkt *accept_pkt_anchor(struct peer *peer, const Pkt *pkt)
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{
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const OpenAnchor *a = pkt->open_anchor;
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/* They must be offering anchor for us to try accepting */
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assert(!peer->local.offer_anchor);
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assert(peer->remote.offer_anchor);
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if (anchor_too_large(a->amount))
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return pkt_err(peer, "Anchor millisatoshis exceeds 32 bits");
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proto_to_sha256(a->txid, &peer->anchor.txid.sha);
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peer->anchor.index = a->output_index;
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peer->anchor.satoshis = a->amount;
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return NULL;
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}
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Pkt *accept_pkt_open_commit_sig(struct peer *peer, const Pkt *pkt,
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secp256k1_ecdsa_signature *sig)
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{
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const OpenCommitSig *s = pkt->open_commit_sig;
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if (!proto_to_signature(s->sig, sig))
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return pkt_err(peer, "Malformed signature");
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return NULL;
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}
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Pkt *accept_pkt_open_complete(struct peer *peer, const Pkt *pkt)
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{
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return NULL;
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}
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/*
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* We add changes to both our staging cstate (as they did when they sent
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* it) and theirs (as they will when we ack it).
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*/
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Pkt *accept_pkt_htlc_add(struct peer *peer, const Pkt *pkt, struct htlc **h)
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{
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const UpdateAddHtlc *u = pkt->update_add_htlc;
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struct sha256 rhash;
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struct abs_locktime expiry;
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/* FIXME-OLD #2:
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*
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* `amount_msat` MUST BE greater than 0.
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*/
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if (u->amount_msat == 0)
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return pkt_err(peer, "Invalid amount_msat");
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proto_to_sha256(u->r_hash, &rhash);
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if (!proto_to_abs_locktime(u->expiry, &expiry))
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return pkt_err(peer, "Invalid HTLC expiry");
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if (abs_locktime_is_seconds(&expiry))
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return pkt_err(peer, "HTLC expiry in seconds not supported!");
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/* FIXME-OLD #2:
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*
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* A node MUST NOT add a HTLC if it would result in it
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* offering more than 300 HTLCs in the remote commitment transaction.
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*/
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if (peer->remote.staging_cstate->side[REMOTE].num_htlcs == 300)
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return pkt_err(peer, "Too many HTLCs");
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/* FIXME-OLD #2:
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*
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* A node MUST set `id` to a unique identifier for this HTLC
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* amongst all past or future `update_add_htlc` messages.
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*/
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/* Note that it's not *our* problem if they do this, it's
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* theirs (future confusion). Nonetheless, we detect and
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* error for them. */
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if (htlc_get(&peer->htlcs, u->id, REMOTE))
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return pkt_err(peer, "HTLC id %"PRIu64" clashes for you", u->id);
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/* FIXME-OLD #2:
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*
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* ...and the receiving node MUST add the HTLC addition to the
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* unacked changeset for its local commitment. */
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*h = peer_new_htlc(peer, u->id, u->amount_msat, &rhash,
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abs_locktime_to_blocks(&expiry),
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u->route->info.data, u->route->info.len,
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NULL, RCVD_ADD_HTLC);
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return NULL;
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}
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static Pkt *find_commited_htlc(struct peer *peer, uint64_t id,
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struct htlc **local_htlc)
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{
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*local_htlc = htlc_get(&peer->htlcs, id, LOCAL);
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/* FIXME-OLD #2:
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*
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* A node MUST check that `id` corresponds to an HTLC in its
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* current commitment transaction, and MUST fail the
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* connection if it does not.
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*/
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if (!(*local_htlc))
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return pkt_err(peer, "Did not find HTLC %"PRIu64, id);
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if ((*local_htlc)->state != SENT_ADD_ACK_REVOCATION)
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return pkt_err(peer, "HTLC %"PRIu64" state %s", id,
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htlc_state_name((*local_htlc)->state));
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return NULL;
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}
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Pkt *accept_pkt_htlc_fail(struct peer *peer, const Pkt *pkt, struct htlc **h,
|
|
u8 **fail)
|
|
{
|
|
const UpdateFailHtlc *f = pkt->update_fail_htlc;
|
|
Pkt *err;
|
|
|
|
err = find_commited_htlc(peer, f->id, h);
|
|
if (err)
|
|
return err;
|
|
|
|
if ((*h)->r)
|
|
return pkt_err(peer, "HTLC %"PRIu64" already fulfilled",
|
|
(*h)->id);
|
|
|
|
*fail = tal_dup_arr(*h, u8, f->reason->info.data, f->reason->info.len,0);
|
|
return NULL;
|
|
}
|
|
|
|
Pkt *accept_pkt_htlc_fulfill(struct peer *peer, const Pkt *pkt, struct htlc **h,
|
|
struct preimage *r)
|
|
{
|
|
const UpdateFulfillHtlc *f = pkt->update_fulfill_htlc;
|
|
struct sha256 rhash;
|
|
Pkt *err;
|
|
|
|
err = find_commited_htlc(peer, f->id, h);
|
|
if (err)
|
|
return err;
|
|
|
|
/* Now, it must solve the HTLC rhash puzzle. */
|
|
proto_to_preimage(f->r, r);
|
|
sha256(&rhash, r, sizeof(*r));
|
|
|
|
if (!structeq(&rhash, &(*h)->rhash))
|
|
return pkt_err(peer, "Invalid r for %"PRIu64, f->id);
|
|
|
|
return NULL;
|
|
}
|
|
|
|
Pkt *accept_pkt_update_fee(struct peer *peer, const Pkt *pkt, u64 *feerate)
|
|
{
|
|
const UpdateFee *f = pkt->update_fee;
|
|
|
|
*feerate = f->fee_rate;
|
|
return NULL;
|
|
}
|
|
|
|
Pkt *accept_pkt_commit(struct peer *peer, const Pkt *pkt,
|
|
secp256k1_ecdsa_signature *sig)
|
|
{
|
|
const UpdateCommit *c = pkt->update_commit;
|
|
|
|
if (!c->sig && sig)
|
|
return pkt_err(peer, "Expected signature");
|
|
|
|
if (!sig && c->sig)
|
|
return pkt_err(peer, "Unexpected signature");
|
|
|
|
if (!sig && !c->sig)
|
|
return NULL;
|
|
|
|
if (!proto_to_signature(c->sig, sig))
|
|
return pkt_err(peer, "Malformed signature");
|
|
return NULL;
|
|
}
|
|
|
|
Pkt *accept_pkt_revocation(struct peer *peer, const Pkt *pkt)
|
|
{
|
|
const UpdateRevocation *r = pkt->update_revocation;
|
|
struct sha256 h, preimage;
|
|
|
|
assert(peer->their_prev_revocation_hash);
|
|
proto_to_sha256(r->revocation_preimage, &preimage);
|
|
|
|
/* FIXME-OLD #2:
|
|
*
|
|
* The receiver of `update_revocation` MUST check that the
|
|
* SHA256 hash of `revocation_preimage` matches the previous commitment
|
|
* transaction, and MUST fail if it does not.
|
|
*/
|
|
sha256(&h, &preimage, sizeof(preimage));
|
|
if (!structeq(&h, peer->their_prev_revocation_hash)) {
|
|
log_unusual(peer->log, "Incorrect preimage for %"PRIu64,
|
|
peer->remote.commit->commit_num - 1);
|
|
return pkt_err(peer, "complete preimage incorrect");
|
|
}
|
|
|
|
// save revocation preimages in shachain
|
|
if (!shachain_add_hash(&peer->their_preimages,
|
|
0xFFFFFFFFFFFFFFFFL
|
|
- (peer->remote.commit->commit_num - 1),
|
|
&preimage))
|
|
return pkt_err(peer, "preimage not next in shachain");
|
|
|
|
log_debug(peer->log, "Got revocation preimage %"PRIu64,
|
|
peer->remote.commit->commit_num - 1);
|
|
|
|
/* Clear the previous revocation hash. */
|
|
peer->their_prev_revocation_hash
|
|
= tal_free(peer->their_prev_revocation_hash);
|
|
|
|
/* Save next revocation hash. */
|
|
proto_to_sha256(r->next_revocation_hash,
|
|
&peer->remote.next_revocation_hash);
|
|
return NULL;
|
|
}
|
|
|
|
Pkt *accept_pkt_close_shutdown(struct peer *peer, const Pkt *pkt)
|
|
{
|
|
const CloseShutdown *c = pkt->close_shutdown;
|
|
|
|
peer->closing.their_script = tal_dup_arr(peer, u8,
|
|
c->scriptpubkey.data,
|
|
c->scriptpubkey.len, 0);
|
|
|
|
/* FIXME-OLD #2:
|
|
*
|
|
* 1. `OP_DUP` `OP_HASH160` `20` 20-bytes `OP_EQUALVERIFY` `OP_CHECKSIG`
|
|
* (pay to pubkey hash), OR
|
|
* 2. `OP_HASH160` `20` 20-bytes `OP_EQUAL` (pay to script hash), OR
|
|
* 3. `OP_0` `20` 20-bytes (version 0 pay to witness pubkey), OR
|
|
* 4. `OP_0` `32` 32-bytes (version 0 pay to witness script hash)
|
|
*
|
|
* A node receiving `close_shutdown` SHOULD fail the connection
|
|
* `script_pubkey` is not one of those forms.
|
|
*/
|
|
if (!is_p2pkh(peer->closing.their_script)
|
|
&& !is_p2sh(peer->closing.their_script)
|
|
&& !is_p2wpkh(peer->closing.their_script)
|
|
&& !is_p2wsh(peer->closing.their_script)) {
|
|
log_broken_blob(peer->log, "Bad script_pubkey %s",
|
|
peer->closing.their_script,
|
|
tal_count(peer->closing.their_script));
|
|
return pkt_err(peer, "Bad script_pubkey");
|
|
}
|
|
|
|
return NULL;
|
|
}
|
|
|