core-lightning/lightningd/watch.c

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/* Code to talk to bitcoind to watch for various events.
*
* Here's what we want to know:
*
* - An anchor tx:
* - Reached given depth
* - Times out.
* - Is unspent after reaching given depth.
*
* - Our own commitment tx:
* - Reached a given depth.
*
* - HTLC spend tx:
* - Reached a given depth.
*
* - Anchor tx output:
* - Is spent by their current tx.
* - Is spent by a revoked tx.
*
* - Commitment tx HTLC outputs:
* - HTLC timed out
* - HTLC spent
*
* We do this by adding the P2SH address to the wallet, and then querying
* that using listtransactions.
*
* WE ASSUME NO MALLEABILITY! This requires segregated witness.
*/
#include "bitcoin/script.h"
#include "bitcoin/tx.h"
#include "bitcoind.h"
#include "chaintopology.h"
#include "lightningd.h"
#include "log.h"
#include "watch.h"
#include <ccan/crypto/siphash24/siphash24.h>
#include <ccan/ptrint/ptrint.h>
#include <ccan/structeq/structeq.h>
#include <common/pseudorand.h>
#include <common/timeout.h>
const struct txwatch_output *txowatch_keyof(const struct txowatch *w)
{
return &w->out;
}
size_t txo_hash(const struct txwatch_output *out)
{
/* This hash-in-one-go trick only works if they're consecutive. */
BUILD_ASSERT(offsetof(struct txwatch_output, index)
== sizeof(((struct txwatch_output *)NULL)->txid));
return siphash24(siphash_seed(), &out->txid,
sizeof(out->txid) + sizeof(out->index));
}
bool txowatch_eq(const struct txowatch *w, const struct txwatch_output *out)
{
return structeq(&w->out.txid, &out->txid)
&& w->out.index == out->index;
}
static void destroy_txowatch(struct txowatch *w)
{
txowatch_hash_del(&w->topo->txowatches, w);
}
const struct sha256_double *txwatch_keyof(const struct txwatch *w)
{
return &w->txid;
}
size_t txid_hash(const struct sha256_double *txid)
{
return siphash24(siphash_seed(), txid->sha.u.u8, sizeof(txid->sha.u.u8));
}
bool txwatch_eq(const struct txwatch *w, const struct sha256_double *txid)
{
return structeq(&w->txid, txid);
}
static void destroy_txwatch(struct txwatch *w)
{
txwatch_hash_del(&w->topo->txwatches, w);
}
struct txwatch *watch_txid_(const tal_t *ctx,
struct chain_topology *topo,
struct peer *peer,
const struct sha256_double *txid,
enum watch_result (*cb)(struct peer *peer,
const struct bitcoin_tx *,
unsigned int depth,
void *arg),
void *cb_arg)
{
struct txwatch *w;
w = tal(ctx, struct txwatch);
w->topo = topo;
w->depth = 0;
w->txid = *txid;
w->peer = peer;
w->cb = cb;
w->cbdata = cb_arg;
txwatch_hash_add(&w->topo->txwatches, w);
tal_add_destructor(w, destroy_txwatch);
return w;
}
bool watching_txid(const struct chain_topology *topo,
const struct sha256_double *txid)
{
return txwatch_hash_get(&topo->txwatches, txid) != NULL;
}
struct txwatch *watch_tx_(const tal_t *ctx,
struct chain_topology *topo,
struct peer *peer,
const struct bitcoin_tx *tx,
enum watch_result (*cb)(struct peer *peer,
const struct bitcoin_tx *,
unsigned int depth,
void *arg),
void *cb_arg)
{
struct sha256_double txid;
bitcoin_txid(tx, &txid);
return watch_txid(ctx, topo, peer, &txid, cb, cb_arg);
}
struct txowatch *watch_txo_(const tal_t *ctx,
struct chain_topology *topo,
struct peer *peer,
const struct sha256_double *txid,
unsigned int output,
enum watch_result (*cb)(struct peer *peer,
const struct bitcoin_tx *tx,
size_t input_num,
const struct block *block,
void *),
void *cbdata)
{
struct txowatch *w = tal(ctx, struct txowatch);
w->topo = topo;
w->out.txid = *txid;
w->out.index = output;
w->peer = peer;
w->cb = cb;
w->cbdata = cbdata;
txowatch_hash_add(&w->topo->txowatches, w);
tal_add_destructor(w, destroy_txowatch);
return w;
}
/* UNIFICATION FIXME */
void peer_debug(struct peer *peer, const char *fmt, ...);
/* Returns true if we fired a callback */
static bool txw_fire(struct chain_topology *topo,
struct txwatch *txw,
const struct bitcoin_tx *tx,
unsigned int depth)
{
enum watch_result r;
if (depth == txw->depth)
return false;
peer_debug(txw->peer,
"Got depth change %u->%u for %02x%02x%02x...\n",
txw->depth, depth,
txw->txid.sha.u.u8[0],
txw->txid.sha.u.u8[1],
txw->txid.sha.u.u8[2]);
txw->depth = depth;
r = txw->cb(txw->peer, tx, txw->depth, txw->cbdata);
switch (r) {
case DELETE_WATCH:
tal_free(txw);
return true;
case KEEP_WATCHING:
return true;
}
fatal("txwatch callback %p returned %i\n", txw->cb, r);
}
void txwatch_fire(struct chain_topology *topo,
const struct bitcoin_tx *tx,
unsigned int depth)
{
struct sha256_double txid;
struct txwatch *txw;
bitcoin_txid(tx, &txid);
txw = txwatch_hash_get(&topo->txwatches, &txid);
if (txw)
txw_fire(topo, txw, tx, depth);
}
void txowatch_fire(struct chain_topology *topo,
const struct txowatch *txow,
const struct bitcoin_tx *tx,
size_t input_num,
const struct block *block)
{
struct sha256_double txid;
enum watch_result r;
bitcoin_txid(tx, &txid);
peer_debug(txow->peer,
"Got UTXO spend for %02x%02x%02x:%u: %02x%02x%02x%02x...\n",
txow->out.txid.sha.u.u8[0],
txow->out.txid.sha.u.u8[1],
txow->out.txid.sha.u.u8[2],
txow->out.index,
txid.sha.u.u8[0],
txid.sha.u.u8[1],
txid.sha.u.u8[2],
txid.sha.u.u8[3]);
r = txow->cb(txow->peer, tx, input_num, block, txow->cbdata);
switch (r) {
case DELETE_WATCH:
tal_free(txow);
return;
case KEEP_WATCHING:
return;
}
fatal("txowatch callback %p returned %i\n", txow->cb, r);
}
void watch_topology_changed(struct chain_topology *topo)
{
struct txwatch_hash_iter i;
struct txwatch *w;
bool needs_rerun;
again:
/* Iterating a htable during deletes is safe, but might skip entries. */
needs_rerun = false;
for (w = txwatch_hash_first(&topo->txwatches, &i);
w;
w = txwatch_hash_next(&topo->txwatches, &i)) {
u32 depth;
const struct bitcoin_tx *tx;
depth = get_tx_depth(topo, &w->txid, &tx);
if (depth)
needs_rerun |= txw_fire(topo, w, tx, depth);
}
if (needs_rerun)
goto again;
}