core-lightning/onchaind/onchaind_wiregen.c
Rusty Russell 6dab04ebd5 tools/generate-wire.py: include digits in #ifndef idempotent header.
Otherwise check complains that it's '#ifndef LIGHTNING_WIRE_BOLT_WIREGEN_H':

wire/bolt12_wiregen.h seems to be missing the expected include guard:
  #ifndef LIGHTNING_WIRE_BOLT12_WIREGEN_H
  #define LIGHTNING_WIRE_BOLT12_WIREGEN_H
  ...
  #endif /* LIGHTNING_WIRE_BOLT12_WIREGEN_H */

make: *** [Makefile:458: check-includes] Error 1

Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2021-01-13 14:45:36 +01:00

639 lines
23 KiB
C
Generated

/* This file was generated by generate-wire.py */
/* Do not modify this file! Modify the .csv file it was generated from. */
/* Original template can be found at tools/gen/impl_template */
#include <onchaind/onchaind_wiregen.h>
#include <assert.h>
#include <ccan/array_size/array_size.h>
#include <ccan/mem/mem.h>
#include <ccan/tal/str/str.h>
#include <common/utils.h>
#include <stdio.h>
#ifndef SUPERVERBOSE
#define SUPERVERBOSE(...)
#endif
const char *onchaind_wire_name(int e)
{
static char invalidbuf[sizeof("INVALID ") + STR_MAX_CHARS(e)];
switch ((enum onchaind_wire)e) {
case WIRE_ONCHAIND_INIT: return "WIRE_ONCHAIND_INIT";
case WIRE_ONCHAIND_HTLC: return "WIRE_ONCHAIND_HTLC";
case WIRE_ONCHAIND_INIT_REPLY: return "WIRE_ONCHAIND_INIT_REPLY";
case WIRE_ONCHAIND_BROADCAST_TX: return "WIRE_ONCHAIND_BROADCAST_TX";
case WIRE_ONCHAIND_SPENT: return "WIRE_ONCHAIND_SPENT";
case WIRE_ONCHAIND_DEPTH: return "WIRE_ONCHAIND_DEPTH";
case WIRE_ONCHAIND_UNWATCH_TX: return "WIRE_ONCHAIND_UNWATCH_TX";
case WIRE_ONCHAIND_KNOWN_PREIMAGE: return "WIRE_ONCHAIND_KNOWN_PREIMAGE";
case WIRE_ONCHAIND_EXTRACTED_PREIMAGE: return "WIRE_ONCHAIND_EXTRACTED_PREIMAGE";
case WIRE_ONCHAIND_MISSING_HTLC_OUTPUT: return "WIRE_ONCHAIND_MISSING_HTLC_OUTPUT";
case WIRE_ONCHAIND_HTLC_TIMEOUT: return "WIRE_ONCHAIND_HTLC_TIMEOUT";
case WIRE_ONCHAIND_ALL_IRREVOCABLY_RESOLVED: return "WIRE_ONCHAIND_ALL_IRREVOCABLY_RESOLVED";
case WIRE_ONCHAIND_ADD_UTXO: return "WIRE_ONCHAIND_ADD_UTXO";
case WIRE_ONCHAIND_DEV_MEMLEAK: return "WIRE_ONCHAIND_DEV_MEMLEAK";
case WIRE_ONCHAIND_DEV_MEMLEAK_REPLY: return "WIRE_ONCHAIND_DEV_MEMLEAK_REPLY";
case WIRE_ONCHAIND_ANNOTATE_TXOUT: return "WIRE_ONCHAIND_ANNOTATE_TXOUT";
case WIRE_ONCHAIND_ANNOTATE_TXIN: return "WIRE_ONCHAIND_ANNOTATE_TXIN";
case WIRE_ONCHAIND_NOTIFY_COIN_MVT: return "WIRE_ONCHAIND_NOTIFY_COIN_MVT";
}
snprintf(invalidbuf, sizeof(invalidbuf), "INVALID %i", e);
return invalidbuf;
}
bool onchaind_wire_is_defined(u16 type)
{
switch ((enum onchaind_wire)type) {
case WIRE_ONCHAIND_INIT:;
case WIRE_ONCHAIND_HTLC:;
case WIRE_ONCHAIND_INIT_REPLY:;
case WIRE_ONCHAIND_BROADCAST_TX:;
case WIRE_ONCHAIND_SPENT:;
case WIRE_ONCHAIND_DEPTH:;
case WIRE_ONCHAIND_UNWATCH_TX:;
case WIRE_ONCHAIND_KNOWN_PREIMAGE:;
case WIRE_ONCHAIND_EXTRACTED_PREIMAGE:;
case WIRE_ONCHAIND_MISSING_HTLC_OUTPUT:;
case WIRE_ONCHAIND_HTLC_TIMEOUT:;
case WIRE_ONCHAIND_ALL_IRREVOCABLY_RESOLVED:;
case WIRE_ONCHAIND_ADD_UTXO:;
case WIRE_ONCHAIND_DEV_MEMLEAK:;
case WIRE_ONCHAIND_DEV_MEMLEAK_REPLY:;
case WIRE_ONCHAIND_ANNOTATE_TXOUT:;
case WIRE_ONCHAIND_ANNOTATE_TXIN:;
case WIRE_ONCHAIND_NOTIFY_COIN_MVT:;
return true;
}
return false;
}
/* WIRE: ONCHAIND_INIT */
/* Begin! Here's the onchain tx which spends funding tx */
u8 *towire_onchaind_init(const tal_t *ctx, const struct shachain *shachain, const struct chainparams *chainparams, struct amount_sat funding_amount_satoshi, struct amount_msat our_msat, const struct pubkey *old_remote_per_commitment_point, const struct pubkey *remote_per_commitment_point, u32 local_to_self_delay, u32 remote_to_self_delay, u32 delayed_to_us_feerate, u32 htlc_feerate, u32 penalty_feerate, struct amount_sat local_dust_limit_satoshi, const struct bitcoin_txid *our_broadcast_txid, const u8 *local_scriptpubkey, const u8 *remote_scriptpubkey, const struct pubkey *ourwallet_pubkey, enum side opener, const struct basepoints *local_basepoints, const struct basepoints *remote_basepoints, const struct tx_parts *tx_parts, u32 locktime, u32 tx_blockheight, u32 reasonable_depth, const struct bitcoin_signature *htlc_signature, u64 num_htlcs, u32 min_possible_feerate, u32 max_possible_feerate, const struct pubkey *possible_remote_per_commit_point, const struct pubkey *local_funding_pubkey, const struct pubkey *remote_funding_pubkey, bool option_static_remotekey, bool option_anchor_outputs, bool is_replay, u32 min_relay_feerate)
{
u16 local_scriptpubkey_len = tal_count(local_scriptpubkey);
u16 remote_scriptpubkey_len = tal_count(remote_scriptpubkey);
u16 num_htlc_sigs = tal_count(htlc_signature);
u8 *p = tal_arr(ctx, u8, 0);
towire_u16(&p, WIRE_ONCHAIND_INIT);
towire_shachain(&p, shachain);
/* This needs to be set explicitly since the same message also contains a */
/* transaction that we need to parse correctly. */
towire_chainparams(&p, chainparams);
towire_amount_sat(&p, funding_amount_satoshi);
/* Our current balance (of funding amount */
towire_amount_msat(&p, our_msat);
/* Remote per commit point for committed tx. */
towire_pubkey(&p, old_remote_per_commitment_point);
/* Remote per commit point for current tx (needed if we haven't got revoke_and_ack yet). */
towire_pubkey(&p, remote_per_commitment_point);
towire_u32(&p, local_to_self_delay);
towire_u32(&p, remote_to_self_delay);
towire_u32(&p, delayed_to_us_feerate);
towire_u32(&p, htlc_feerate);
towire_u32(&p, penalty_feerate);
towire_amount_sat(&p, local_dust_limit_satoshi);
/* Gives an easy way to tell if it's our unilateral close or theirs... */
towire_bitcoin_txid(&p, our_broadcast_txid);
towire_u16(&p, local_scriptpubkey_len);
towire_u8_array(&p, local_scriptpubkey, local_scriptpubkey_len);
towire_u16(&p, remote_scriptpubkey_len);
towire_u8_array(&p, remote_scriptpubkey, remote_scriptpubkey_len);
towire_pubkey(&p, ourwallet_pubkey);
/* We need these two for commit number obscurer */
towire_side(&p, opener);
towire_basepoints(&p, local_basepoints);
towire_basepoints(&p, remote_basepoints);
towire_tx_parts(&p, tx_parts);
towire_u32(&p, locktime);
towire_u32(&p, tx_blockheight);
towire_u32(&p, reasonable_depth);
towire_u16(&p, num_htlc_sigs);
for (size_t i = 0; i < num_htlc_sigs; i++)
towire_bitcoin_signature(&p, htlc_signature + i);
towire_u64(&p, num_htlcs);
towire_u32(&p, min_possible_feerate);
towire_u32(&p, max_possible_feerate);
if (!possible_remote_per_commit_point)
towire_bool(&p, false);
else {
towire_bool(&p, true);
towire_pubkey(&p, possible_remote_per_commit_point);
}
towire_pubkey(&p, local_funding_pubkey);
towire_pubkey(&p, remote_funding_pubkey);
towire_bool(&p, option_static_remotekey);
towire_bool(&p, option_anchor_outputs);
towire_bool(&p, is_replay);
/* We need this for BIP125 rule 4 */
towire_u32(&p, min_relay_feerate);
return memcheck(p, tal_count(p));
}
bool fromwire_onchaind_init(const tal_t *ctx, const void *p, struct shachain *shachain, const struct chainparams **chainparams, struct amount_sat *funding_amount_satoshi, struct amount_msat *our_msat, struct pubkey *old_remote_per_commitment_point, struct pubkey *remote_per_commitment_point, u32 *local_to_self_delay, u32 *remote_to_self_delay, u32 *delayed_to_us_feerate, u32 *htlc_feerate, u32 *penalty_feerate, struct amount_sat *local_dust_limit_satoshi, struct bitcoin_txid *our_broadcast_txid, u8 **local_scriptpubkey, u8 **remote_scriptpubkey, struct pubkey *ourwallet_pubkey, enum side *opener, struct basepoints *local_basepoints, struct basepoints *remote_basepoints, struct tx_parts **tx_parts, u32 *locktime, u32 *tx_blockheight, u32 *reasonable_depth, struct bitcoin_signature **htlc_signature, u64 *num_htlcs, u32 *min_possible_feerate, u32 *max_possible_feerate, struct pubkey **possible_remote_per_commit_point, struct pubkey *local_funding_pubkey, struct pubkey *remote_funding_pubkey, bool *option_static_remotekey, bool *option_anchor_outputs, bool *is_replay, u32 *min_relay_feerate)
{
u16 local_scriptpubkey_len;
u16 remote_scriptpubkey_len;
u16 num_htlc_sigs;
const u8 *cursor = p;
size_t plen = tal_count(p);
if (fromwire_u16(&cursor, &plen) != WIRE_ONCHAIND_INIT)
return false;
fromwire_shachain(&cursor, &plen, shachain);
/* This needs to be set explicitly since the same message also contains a */
/* transaction that we need to parse correctly. */
fromwire_chainparams(&cursor, &plen, chainparams);
*funding_amount_satoshi = fromwire_amount_sat(&cursor, &plen);
/* Our current balance (of funding amount */
*our_msat = fromwire_amount_msat(&cursor, &plen);
/* Remote per commit point for committed tx. */
fromwire_pubkey(&cursor, &plen, old_remote_per_commitment_point);
/* Remote per commit point for current tx (needed if we haven't got revoke_and_ack yet). */
fromwire_pubkey(&cursor, &plen, remote_per_commitment_point);
*local_to_self_delay = fromwire_u32(&cursor, &plen);
*remote_to_self_delay = fromwire_u32(&cursor, &plen);
*delayed_to_us_feerate = fromwire_u32(&cursor, &plen);
*htlc_feerate = fromwire_u32(&cursor, &plen);
*penalty_feerate = fromwire_u32(&cursor, &plen);
*local_dust_limit_satoshi = fromwire_amount_sat(&cursor, &plen);
/* Gives an easy way to tell if it's our unilateral close or theirs... */
fromwire_bitcoin_txid(&cursor, &plen, our_broadcast_txid);
local_scriptpubkey_len = fromwire_u16(&cursor, &plen);
// 2nd case local_scriptpubkey
*local_scriptpubkey = local_scriptpubkey_len ? tal_arr(ctx, u8, local_scriptpubkey_len) : NULL;
fromwire_u8_array(&cursor, &plen, *local_scriptpubkey, local_scriptpubkey_len);
remote_scriptpubkey_len = fromwire_u16(&cursor, &plen);
// 2nd case remote_scriptpubkey
*remote_scriptpubkey = remote_scriptpubkey_len ? tal_arr(ctx, u8, remote_scriptpubkey_len) : NULL;
fromwire_u8_array(&cursor, &plen, *remote_scriptpubkey, remote_scriptpubkey_len);
fromwire_pubkey(&cursor, &plen, ourwallet_pubkey);
/* We need these two for commit number obscurer */
*opener = fromwire_side(&cursor, &plen);
fromwire_basepoints(&cursor, &plen, local_basepoints);
fromwire_basepoints(&cursor, &plen, remote_basepoints);
*tx_parts = fromwire_tx_parts(ctx, &cursor, &plen);
*locktime = fromwire_u32(&cursor, &plen);
*tx_blockheight = fromwire_u32(&cursor, &plen);
*reasonable_depth = fromwire_u32(&cursor, &plen);
num_htlc_sigs = fromwire_u16(&cursor, &plen);
// 2nd case htlc_signature
*htlc_signature = num_htlc_sigs ? tal_arr(ctx, struct bitcoin_signature, num_htlc_sigs) : NULL;
for (size_t i = 0; i < num_htlc_sigs; i++)
fromwire_bitcoin_signature(&cursor, &plen, *htlc_signature + i);
*num_htlcs = fromwire_u64(&cursor, &plen);
*min_possible_feerate = fromwire_u32(&cursor, &plen);
*max_possible_feerate = fromwire_u32(&cursor, &plen);
if (!fromwire_bool(&cursor, &plen))
*possible_remote_per_commit_point = NULL;
else {
*possible_remote_per_commit_point = tal(ctx, struct pubkey);
fromwire_pubkey(&cursor, &plen, *possible_remote_per_commit_point);
}
fromwire_pubkey(&cursor, &plen, local_funding_pubkey);
fromwire_pubkey(&cursor, &plen, remote_funding_pubkey);
*option_static_remotekey = fromwire_bool(&cursor, &plen);
*option_anchor_outputs = fromwire_bool(&cursor, &plen);
*is_replay = fromwire_bool(&cursor, &plen);
/* We need this for BIP125 rule 4 */
*min_relay_feerate = fromwire_u32(&cursor, &plen);
return cursor != NULL;
}
/* WIRE: ONCHAIND_HTLC */
/* This is all the HTLCs: one per message */
u8 *towire_onchaind_htlc(const tal_t *ctx, const struct htlc_stub *htlc, bool tell_if_missing, bool tell_immediately)
{
u8 *p = tal_arr(ctx, u8, 0);
towire_u16(&p, WIRE_ONCHAIND_HTLC);
towire_htlc_stub(&p, htlc);
/* If it's not in the commitment tx */
towire_bool(&p, tell_if_missing);
towire_bool(&p, tell_immediately);
return memcheck(p, tal_count(p));
}
bool fromwire_onchaind_htlc(const void *p, struct htlc_stub *htlc, bool *tell_if_missing, bool *tell_immediately)
{
const u8 *cursor = p;
size_t plen = tal_count(p);
if (fromwire_u16(&cursor, &plen) != WIRE_ONCHAIND_HTLC)
return false;
fromwire_htlc_stub(&cursor, &plen, htlc);
/* If it's not in the commitment tx */
*tell_if_missing = fromwire_bool(&cursor, &plen);
*tell_immediately = fromwire_bool(&cursor, &plen);
return cursor != NULL;
}
/* WIRE: ONCHAIND_INIT_REPLY */
/* This says we're ready; give us preimages. */
u8 *towire_onchaind_init_reply(const tal_t *ctx)
{
u8 *p = tal_arr(ctx, u8, 0);
towire_u16(&p, WIRE_ONCHAIND_INIT_REPLY);
return memcheck(p, tal_count(p));
}
bool fromwire_onchaind_init_reply(const void *p)
{
const u8 *cursor = p;
size_t plen = tal_count(p);
if (fromwire_u16(&cursor, &plen) != WIRE_ONCHAIND_INIT_REPLY)
return false;
return cursor != NULL;
}
/* WIRE: ONCHAIND_BROADCAST_TX */
/* onchaind->master: Send out a tx. */
/* If is_rbf is false then master should rebroadcast the tx. */
/* If is_rbf is true then onchaind is responsible for rebroadcasting */
/* it with a higher fee. */
u8 *towire_onchaind_broadcast_tx(const tal_t *ctx, const struct bitcoin_tx *tx, enum wallet_tx_type type, bool is_rbf)
{
u8 *p = tal_arr(ctx, u8, 0);
towire_u16(&p, WIRE_ONCHAIND_BROADCAST_TX);
towire_bitcoin_tx(&p, tx);
towire_wallet_tx_type(&p, type);
towire_bool(&p, is_rbf);
return memcheck(p, tal_count(p));
}
bool fromwire_onchaind_broadcast_tx(const tal_t *ctx, const void *p, struct bitcoin_tx **tx, enum wallet_tx_type *type, bool *is_rbf)
{
const u8 *cursor = p;
size_t plen = tal_count(p);
if (fromwire_u16(&cursor, &plen) != WIRE_ONCHAIND_BROADCAST_TX)
return false;
*tx = fromwire_bitcoin_tx(ctx, &cursor, &plen);
*type = fromwire_wallet_tx_type(&cursor, &plen);
*is_rbf = fromwire_bool(&cursor, &plen);
return cursor != NULL;
}
/* WIRE: ONCHAIND_SPENT */
/* master->onchaind: Notifier that an output has been spent by input_num of tx. */
u8 *towire_onchaind_spent(const tal_t *ctx, const struct tx_parts *tx, u32 input_num, u32 blockheight, bool is_replay)
{
u8 *p = tal_arr(ctx, u8, 0);
towire_u16(&p, WIRE_ONCHAIND_SPENT);
towire_tx_parts(&p, tx);
towire_u32(&p, input_num);
towire_u32(&p, blockheight);
towire_bool(&p, is_replay);
return memcheck(p, tal_count(p));
}
bool fromwire_onchaind_spent(const tal_t *ctx, const void *p, struct tx_parts **tx, u32 *input_num, u32 *blockheight, bool *is_replay)
{
const u8 *cursor = p;
size_t plen = tal_count(p);
if (fromwire_u16(&cursor, &plen) != WIRE_ONCHAIND_SPENT)
return false;
*tx = fromwire_tx_parts(ctx, &cursor, &plen);
*input_num = fromwire_u32(&cursor, &plen);
*blockheight = fromwire_u32(&cursor, &plen);
*is_replay = fromwire_bool(&cursor, &plen);
return cursor != NULL;
}
/* WIRE: ONCHAIND_DEPTH */
/* master->onchaind: We will receive more than one of these */
u8 *towire_onchaind_depth(const tal_t *ctx, const struct bitcoin_txid *txid, u32 depth, bool is_replay)
{
u8 *p = tal_arr(ctx, u8, 0);
towire_u16(&p, WIRE_ONCHAIND_DEPTH);
towire_bitcoin_txid(&p, txid);
towire_u32(&p, depth);
towire_bool(&p, is_replay);
return memcheck(p, tal_count(p));
}
bool fromwire_onchaind_depth(const void *p, struct bitcoin_txid *txid, u32 *depth, bool *is_replay)
{
const u8 *cursor = p;
size_t plen = tal_count(p);
if (fromwire_u16(&cursor, &plen) != WIRE_ONCHAIND_DEPTH)
return false;
fromwire_bitcoin_txid(&cursor, &plen, txid);
*depth = fromwire_u32(&cursor, &plen);
*is_replay = fromwire_bool(&cursor, &plen);
return cursor != NULL;
}
/* WIRE: ONCHAIND_UNWATCH_TX */
/* onchaind->master: We don't want to watch this tx */
u8 *towire_onchaind_unwatch_tx(const tal_t *ctx, const struct bitcoin_txid *txid)
{
u8 *p = tal_arr(ctx, u8, 0);
towire_u16(&p, WIRE_ONCHAIND_UNWATCH_TX);
towire_bitcoin_txid(&p, txid);
return memcheck(p, tal_count(p));
}
bool fromwire_onchaind_unwatch_tx(const void *p, struct bitcoin_txid *txid)
{
const u8 *cursor = p;
size_t plen = tal_count(p);
if (fromwire_u16(&cursor, &plen) != WIRE_ONCHAIND_UNWATCH_TX)
return false;
fromwire_bitcoin_txid(&cursor, &plen, txid);
return cursor != NULL;
}
/* WIRE: ONCHAIND_KNOWN_PREIMAGE */
/* master->onchaind: We know HTLC preimage */
u8 *towire_onchaind_known_preimage(const tal_t *ctx, const struct preimage *preimage, bool is_replay)
{
u8 *p = tal_arr(ctx, u8, 0);
towire_u16(&p, WIRE_ONCHAIND_KNOWN_PREIMAGE);
towire_preimage(&p, preimage);
towire_bool(&p, is_replay);
return memcheck(p, tal_count(p));
}
bool fromwire_onchaind_known_preimage(const void *p, struct preimage *preimage, bool *is_replay)
{
const u8 *cursor = p;
size_t plen = tal_count(p);
if (fromwire_u16(&cursor, &plen) != WIRE_ONCHAIND_KNOWN_PREIMAGE)
return false;
fromwire_preimage(&cursor, &plen, preimage);
*is_replay = fromwire_bool(&cursor, &plen);
return cursor != NULL;
}
/* WIRE: ONCHAIND_EXTRACTED_PREIMAGE */
/* onchaind->master: We discovered HTLC preimage */
u8 *towire_onchaind_extracted_preimage(const tal_t *ctx, const struct preimage *preimage)
{
u8 *p = tal_arr(ctx, u8, 0);
towire_u16(&p, WIRE_ONCHAIND_EXTRACTED_PREIMAGE);
towire_preimage(&p, preimage);
return memcheck(p, tal_count(p));
}
bool fromwire_onchaind_extracted_preimage(const void *p, struct preimage *preimage)
{
const u8 *cursor = p;
size_t plen = tal_count(p);
if (fromwire_u16(&cursor, &plen) != WIRE_ONCHAIND_EXTRACTED_PREIMAGE)
return false;
fromwire_preimage(&cursor, &plen, preimage);
return cursor != NULL;
}
/* WIRE: ONCHAIND_MISSING_HTLC_OUTPUT */
/* onchaind->master: this HTLC was missing from commit tx. */
u8 *towire_onchaind_missing_htlc_output(const tal_t *ctx, const struct htlc_stub *htlc)
{
u8 *p = tal_arr(ctx, u8, 0);
towire_u16(&p, WIRE_ONCHAIND_MISSING_HTLC_OUTPUT);
towire_htlc_stub(&p, htlc);
return memcheck(p, tal_count(p));
}
bool fromwire_onchaind_missing_htlc_output(const void *p, struct htlc_stub *htlc)
{
const u8 *cursor = p;
size_t plen = tal_count(p);
if (fromwire_u16(&cursor, &plen) != WIRE_ONCHAIND_MISSING_HTLC_OUTPUT)
return false;
fromwire_htlc_stub(&cursor, &plen, htlc);
return cursor != NULL;
}
/* WIRE: ONCHAIND_HTLC_TIMEOUT */
/* onchaind->master: this HTLC has timed out (after reasonable_depth) */
u8 *towire_onchaind_htlc_timeout(const tal_t *ctx, const struct htlc_stub *htlc)
{
u8 *p = tal_arr(ctx, u8, 0);
towire_u16(&p, WIRE_ONCHAIND_HTLC_TIMEOUT);
towire_htlc_stub(&p, htlc);
return memcheck(p, tal_count(p));
}
bool fromwire_onchaind_htlc_timeout(const void *p, struct htlc_stub *htlc)
{
const u8 *cursor = p;
size_t plen = tal_count(p);
if (fromwire_u16(&cursor, &plen) != WIRE_ONCHAIND_HTLC_TIMEOUT)
return false;
fromwire_htlc_stub(&cursor, &plen, htlc);
return cursor != NULL;
}
/* WIRE: ONCHAIND_ALL_IRREVOCABLY_RESOLVED */
/* onchaind->master: this peer can be forgotten */
u8 *towire_onchaind_all_irrevocably_resolved(const tal_t *ctx)
{
u8 *p = tal_arr(ctx, u8, 0);
towire_u16(&p, WIRE_ONCHAIND_ALL_IRREVOCABLY_RESOLVED);
return memcheck(p, tal_count(p));
}
bool fromwire_onchaind_all_irrevocably_resolved(const void *p)
{
const u8 *cursor = p;
size_t plen = tal_count(p);
if (fromwire_u16(&cursor, &plen) != WIRE_ONCHAIND_ALL_IRREVOCABLY_RESOLVED)
return false;
return cursor != NULL;
}
/* WIRE: ONCHAIND_ADD_UTXO */
/* onchaind->master: hey */
u8 *towire_onchaind_add_utxo(const tal_t *ctx, const struct bitcoin_txid *prev_out_tx, u32 prev_out_index, const struct pubkey *per_commit_point, struct amount_sat value, u32 blockheight, const u8 *scriptpubkey)
{
u16 len = tal_count(scriptpubkey);
u8 *p = tal_arr(ctx, u8, 0);
towire_u16(&p, WIRE_ONCHAIND_ADD_UTXO);
towire_bitcoin_txid(&p, prev_out_tx);
towire_u32(&p, prev_out_index);
if (!per_commit_point)
towire_bool(&p, false);
else {
towire_bool(&p, true);
towire_pubkey(&p, per_commit_point);
}
towire_amount_sat(&p, value);
towire_u32(&p, blockheight);
towire_u16(&p, len);
towire_u8_array(&p, scriptpubkey, len);
return memcheck(p, tal_count(p));
}
bool fromwire_onchaind_add_utxo(const tal_t *ctx, const void *p, struct bitcoin_txid *prev_out_tx, u32 *prev_out_index, struct pubkey **per_commit_point, struct amount_sat *value, u32 *blockheight, u8 **scriptpubkey)
{
u16 len;
const u8 *cursor = p;
size_t plen = tal_count(p);
if (fromwire_u16(&cursor, &plen) != WIRE_ONCHAIND_ADD_UTXO)
return false;
fromwire_bitcoin_txid(&cursor, &plen, prev_out_tx);
*prev_out_index = fromwire_u32(&cursor, &plen);
if (!fromwire_bool(&cursor, &plen))
*per_commit_point = NULL;
else {
*per_commit_point = tal(ctx, struct pubkey);
fromwire_pubkey(&cursor, &plen, *per_commit_point);
}
*value = fromwire_amount_sat(&cursor, &plen);
*blockheight = fromwire_u32(&cursor, &plen);
len = fromwire_u16(&cursor, &plen);
// 2nd case scriptpubkey
*scriptpubkey = len ? tal_arr(ctx, u8, len) : NULL;
fromwire_u8_array(&cursor, &plen, *scriptpubkey, len);
return cursor != NULL;
}
/* WIRE: ONCHAIND_DEV_MEMLEAK */
/* master -> onchaind: do you have a memleak? */
u8 *towire_onchaind_dev_memleak(const tal_t *ctx)
{
u8 *p = tal_arr(ctx, u8, 0);
towire_u16(&p, WIRE_ONCHAIND_DEV_MEMLEAK);
return memcheck(p, tal_count(p));
}
bool fromwire_onchaind_dev_memleak(const void *p)
{
const u8 *cursor = p;
size_t plen = tal_count(p);
if (fromwire_u16(&cursor, &plen) != WIRE_ONCHAIND_DEV_MEMLEAK)
return false;
return cursor != NULL;
}
/* WIRE: ONCHAIND_DEV_MEMLEAK_REPLY */
u8 *towire_onchaind_dev_memleak_reply(const tal_t *ctx, bool leak)
{
u8 *p = tal_arr(ctx, u8, 0);
towire_u16(&p, WIRE_ONCHAIND_DEV_MEMLEAK_REPLY);
towire_bool(&p, leak);
return memcheck(p, tal_count(p));
}
bool fromwire_onchaind_dev_memleak_reply(const void *p, bool *leak)
{
const u8 *cursor = p;
size_t plen = tal_count(p);
if (fromwire_u16(&cursor, &plen) != WIRE_ONCHAIND_DEV_MEMLEAK_REPLY)
return false;
*leak = fromwire_bool(&cursor, &plen);
return cursor != NULL;
}
/* WIRE: ONCHAIND_ANNOTATE_TXOUT */
/* Tell the main daemon what we've been watching */
/* that we tracked automatically but only onchaind knows how to classify their */
/* transactions. */
u8 *towire_onchaind_annotate_txout(const tal_t *ctx, const struct bitcoin_txid *txid, u32 outnum, enum wallet_tx_type type)
{
u8 *p = tal_arr(ctx, u8, 0);
towire_u16(&p, WIRE_ONCHAIND_ANNOTATE_TXOUT);
towire_bitcoin_txid(&p, txid);
towire_u32(&p, outnum);
towire_wallet_tx_type(&p, type);
return memcheck(p, tal_count(p));
}
bool fromwire_onchaind_annotate_txout(const void *p, struct bitcoin_txid *txid, u32 *outnum, enum wallet_tx_type *type)
{
const u8 *cursor = p;
size_t plen = tal_count(p);
if (fromwire_u16(&cursor, &plen) != WIRE_ONCHAIND_ANNOTATE_TXOUT)
return false;
fromwire_bitcoin_txid(&cursor, &plen, txid);
*outnum = fromwire_u32(&cursor, &plen);
*type = fromwire_wallet_tx_type(&cursor, &plen);
return cursor != NULL;
}
/* WIRE: ONCHAIND_ANNOTATE_TXIN */
u8 *towire_onchaind_annotate_txin(const tal_t *ctx, const struct bitcoin_txid *txid, u32 innum, enum wallet_tx_type type)
{
u8 *p = tal_arr(ctx, u8, 0);
towire_u16(&p, WIRE_ONCHAIND_ANNOTATE_TXIN);
towire_bitcoin_txid(&p, txid);
towire_u32(&p, innum);
towire_wallet_tx_type(&p, type);
return memcheck(p, tal_count(p));
}
bool fromwire_onchaind_annotate_txin(const void *p, struct bitcoin_txid *txid, u32 *innum, enum wallet_tx_type *type)
{
const u8 *cursor = p;
size_t plen = tal_count(p);
if (fromwire_u16(&cursor, &plen) != WIRE_ONCHAIND_ANNOTATE_TXIN)
return false;
fromwire_bitcoin_txid(&cursor, &plen, txid);
*innum = fromwire_u32(&cursor, &plen);
*type = fromwire_wallet_tx_type(&cursor, &plen);
return cursor != NULL;
}
/* WIRE: ONCHAIND_NOTIFY_COIN_MVT */
u8 *towire_onchaind_notify_coin_mvt(const tal_t *ctx, const struct chain_coin_mvt *mvt)
{
u8 *p = tal_arr(ctx, u8, 0);
towire_u16(&p, WIRE_ONCHAIND_NOTIFY_COIN_MVT);
towire_chain_coin_mvt(&p, mvt);
return memcheck(p, tal_count(p));
}
bool fromwire_onchaind_notify_coin_mvt(const void *p, struct chain_coin_mvt *mvt)
{
const u8 *cursor = p;
size_t plen = tal_count(p);
if (fromwire_u16(&cursor, &plen) != WIRE_ONCHAIND_NOTIFY_COIN_MVT)
return false;
fromwire_chain_coin_mvt(&cursor, &plen, mvt);
return cursor != NULL;
}
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