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#include "invoices.h"
#include "wallet.h"
#include <bitcoin/script.h>
#include <ccan/structeq/structeq.h>
#include <ccan/tal/str/str.h>
#include <common/key_derive.h>
#include <common/wireaddr.h>
#include <inttypes.h>
#include <lightningd/invoice.h>
#include <lightningd/lightningd.h>
#include <lightningd/log.h>
#include <lightningd/peer_control.h>
#include <lightningd/peer_htlcs.h>
#define SQLITE_MAX_UINT 0x7FFFFFFFFFFFFFFF
#define DIRECTION_INCOMING 0
#define DIRECTION_OUTGOING 1
/* How many blocks must a UTXO entry be buried under to be considered old enough
* to prune? */
#define UTXO_PRUNE_DEPTH 144
static void outpointfilters_init(struct wallet *w)
{
sqlite3_stmt *stmt;
struct utxo **utxos = wallet_get_utxos(NULL, w, output_state_any);
struct bitcoin_txid txid;
u32 outnum;
w->owned_outpoints = outpointfilter_new(w);
for (size_t i = 0; i < tal_count(utxos); i++)
outpointfilter_add(w->owned_outpoints, &utxos[i]->txid, utxos[i]->outnum);
tal_free(utxos);
w->utxoset_outpoints = outpointfilter_new(w);
stmt = db_prepare(w->db, "SELECT txid, outnum FROM utxoset WHERE spendheight is NULL");
while (sqlite3_step(stmt) == SQLITE_ROW) {
sqlite3_column_sha256_double(stmt, 0, &txid.shad);
outnum = sqlite3_column_int(stmt, 1);
outpointfilter_add(w->utxoset_outpoints, &txid, outnum);
}
sqlite3_finalize(stmt);
}
struct wallet *wallet_new(struct lightningd *ld,
struct log *log, struct timers *timers)
{
struct wallet *wallet = tal(ld, struct wallet);
wallet->ld = ld;
wallet->db = db_setup(wallet, log);
wallet->log = log;
wallet->bip32_base = NULL;
wallet->invoices = invoices_new(wallet, wallet->db, log, timers);
list_head_init(&wallet->unstored_payments);
db_begin_transaction(wallet->db);
outpointfilters_init(wallet);
db_commit_transaction(wallet->db);
return wallet;
}
/* We actually use the db constraints to uniquify, so OK if this fails. */
bool wallet_add_utxo(struct wallet *w, struct utxo *utxo,
enum wallet_output_type type)
{
sqlite3_stmt *stmt;
stmt = db_prepare(w->db, "INSERT INTO outputs ("
"prev_out_tx, "
"prev_out_index, "
"value, "
"type, "
"status, "
"keyindex, "
"channel_id, "
"peer_id, "
"commitment_point, "
"confirmation_height, "
"spend_height) VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?);");
sqlite3_bind_blob(stmt, 1, &utxo->txid, sizeof(utxo->txid), SQLITE_TRANSIENT);
sqlite3_bind_int(stmt, 2, utxo->outnum);
sqlite3_bind_int64(stmt, 3, utxo->amount);
sqlite3_bind_int(stmt, 4, type);
sqlite3_bind_int(stmt, 5, output_state_available);
sqlite3_bind_int(stmt, 6, utxo->keyindex);
if (utxo->close_info) {
sqlite3_bind_int64(stmt, 7, utxo->close_info->channel_id);
sqlite3_bind_pubkey(stmt, 8, &utxo->close_info->peer_id);
sqlite3_bind_pubkey(stmt, 9, &utxo->close_info->commitment_point);
} else {
sqlite3_bind_null(stmt, 7);
sqlite3_bind_null(stmt, 8);
sqlite3_bind_null(stmt, 9);
}
if (utxo->blockheight) {
sqlite3_bind_int(stmt, 10, *utxo->blockheight);
} else
sqlite3_bind_null(stmt, 10);
if (utxo->spendheight)
sqlite3_bind_int(stmt, 11, *utxo->spendheight);
else
sqlite3_bind_null(stmt, 11);
/* May fail if we already know about the tx, e.g., because
* it's change or some internal tx. */
return db_exec_prepared_mayfail(w->db, stmt);
}
/**
* wallet_stmt2output - Extract data from stmt and fill an UTXO
*
* Returns true on success.
*/
static bool wallet_stmt2output(sqlite3_stmt *stmt, struct utxo *utxo)
{
int *blockheight, *spendheight;
sqlite3_column_sha256_double(stmt, 0, &utxo->txid.shad);
utxo->outnum = sqlite3_column_int(stmt, 1);
utxo->amount = sqlite3_column_int64(stmt, 2);
utxo->is_p2sh = sqlite3_column_int(stmt, 3) == p2sh_wpkh;
utxo->status = sqlite3_column_int(stmt, 4);
utxo->keyindex = sqlite3_column_int(stmt, 5);
if (sqlite3_column_type(stmt, 6) != SQLITE_NULL) {
utxo->close_info = tal(utxo, struct unilateral_close_info);
utxo->close_info->channel_id = sqlite3_column_int64(stmt, 6);
sqlite3_column_pubkey(stmt, 7, &utxo->close_info->peer_id);
sqlite3_column_pubkey(stmt, 8, &utxo->close_info->commitment_point);
} else {
utxo->close_info = NULL;
}
utxo->blockheight = NULL;
utxo->spendheight = NULL;
if (sqlite3_column_type(stmt, 9) != SQLITE_NULL) {
blockheight = tal(utxo, int);
*blockheight = sqlite3_column_int(stmt, 9);
utxo->blockheight = blockheight;
}
if (sqlite3_column_type(stmt, 10) != SQLITE_NULL) {
spendheight = tal(utxo, int);
*spendheight = sqlite3_column_int(stmt, 10);
utxo->spendheight = spendheight;
}
return true;
}
bool wallet_update_output_status(struct wallet *w,
const struct bitcoin_txid *txid,
const u32 outnum, enum output_status oldstatus,
enum output_status newstatus)
{
sqlite3_stmt *stmt;
if (oldstatus != output_state_any) {
stmt = db_prepare(
w->db, "UPDATE outputs SET status=? WHERE status=? AND prev_out_tx=? AND prev_out_index=?");
sqlite3_bind_int(stmt, 1, newstatus);
sqlite3_bind_int(stmt, 2, oldstatus);
sqlite3_bind_blob(stmt, 3, txid, sizeof(*txid), SQLITE_TRANSIENT);
sqlite3_bind_int(stmt, 4, outnum);
} else {
stmt = db_prepare(
w->db, "UPDATE outputs SET status=? WHERE prev_out_tx=? AND prev_out_index=?");
sqlite3_bind_int(stmt, 1, newstatus);
sqlite3_bind_blob(stmt, 2, txid, sizeof(*txid), SQLITE_TRANSIENT);
sqlite3_bind_int(stmt, 3, outnum);
}
db_exec_prepared(w->db, stmt);
return sqlite3_changes(w->db->sql) > 0;
}
struct utxo **wallet_get_utxos(const tal_t *ctx, struct wallet *w, const enum output_status state)
{
struct utxo **results;
int i;
sqlite3_stmt *stmt = db_prepare(
w->db, "SELECT prev_out_tx, prev_out_index, value, type, status, keyindex, "
"channel_id, peer_id, commitment_point, confirmation_height, spend_height "
"FROM outputs WHERE status=?1 OR ?1=255");
sqlite3_bind_int(stmt, 1, state);
results = tal_arr(ctx, struct utxo*, 0);
for (i=0; sqlite3_step(stmt) == SQLITE_ROW; i++) {
tal_resize(&results, i+1);
results[i] = tal(results, struct utxo);
wallet_stmt2output(stmt, results[i]);
}
sqlite3_finalize(stmt);
return results;
}
/**
* unreserve_utxo - Mark a reserved UTXO as available again
*/
static void unreserve_utxo(struct wallet *w, const struct utxo *unres)
{
if (!wallet_update_output_status(w, &unres->txid, unres->outnum,
output_state_reserved,
output_state_available)) {
fatal("Unable to unreserve output");
}
}
/**
* destroy_utxos - Destructor for an array of pointers to utxo
*/
static void destroy_utxos(const struct utxo **utxos, struct wallet *w)
{
for (size_t i = 0; i < tal_count(utxos); i++)
unreserve_utxo(w, utxos[i]);
}
void wallet_confirm_utxos(struct wallet *w, const struct utxo **utxos)
{
tal_del_destructor2(utxos, destroy_utxos, w);
for (size_t i = 0; i < tal_count(utxos); i++) {
if (!wallet_update_output_status(
w, &utxos[i]->txid, utxos[i]->outnum,
output_state_reserved, output_state_spent)) {
fatal("Unable to mark output as spent");
}
}
}
static const struct utxo **wallet_select(const tal_t *ctx, struct wallet *w,
const u64 value,
const u32 feerate_per_kw,
size_t outscriptlen,
bool may_have_change,
u64 *satoshi_in,
u64 *fee_estimate)
{
size_t i = 0;
struct utxo **available;
u64 weight;
const struct utxo **utxos = tal_arr(ctx, const struct utxo *, 0);
tal_add_destructor2(utxos, destroy_utxos, w);
/* version, input count, output count, locktime */
weight = (4 + 1 + 1 + 4) * 4;
/* The main output: amount, len, scriptpubkey */
weight += (8 + 1 + outscriptlen) * 4;
/* Change output will be P2WPKH */
if (may_have_change)
weight += (8 + 1 + BITCOIN_SCRIPTPUBKEY_P2WPKH_LEN) * 4;
*fee_estimate = 0;
*satoshi_in = 0;
available = wallet_get_utxos(ctx, w, output_state_available);
for (i = 0; i < tal_count(available); i++) {
size_t input_weight;
tal_resize(&utxos, i + 1);
utxos[i] = tal_steal(utxos, available[i]);
if (!wallet_update_output_status(
w, &available[i]->txid, available[i]->outnum,
output_state_available, output_state_reserved))
fatal("Unable to reserve output");
/* Input weight: txid + index + sequence */
input_weight = (32 + 4 + 4) * 4;
/* We always encode the length of the script, even if empty */
input_weight += 1 * 4;
/* P2SH variants include push of <0 <20-byte-key-hash>> */
if (utxos[i]->is_p2sh)
input_weight += 23 * 4;
/* Account for witness (1 byte count + sig + key) */
input_weight += 1 + (1 + 73 + 1 + 33);
weight += input_weight;
*fee_estimate = weight * feerate_per_kw / 1000;
*satoshi_in += utxos[i]->amount;
if (*satoshi_in >= *fee_estimate + value)
break;
}
tal_free(available);
return utxos;
}
const struct utxo **wallet_select_coins(const tal_t *ctx, struct wallet *w,
const u64 value,
const u32 feerate_per_kw,
size_t outscriptlen,
u64 *fee_estimate, u64 *changesatoshi)
{
u64 satoshi_in;
const struct utxo **utxo;
utxo = wallet_select(ctx, w, value, feerate_per_kw,
outscriptlen, true,
&satoshi_in, fee_estimate);
/* Couldn't afford it? */
if (satoshi_in < *fee_estimate + value)
return tal_free(utxo);
*changesatoshi = satoshi_in - value - *fee_estimate;
return utxo;
}
const struct utxo **wallet_select_all(const tal_t *ctx, struct wallet *w,
const u32 feerate_per_kw,
size_t outscriptlen,
u64 *value,
u64 *fee_estimate)
{
u64 satoshi_in;
const struct utxo **utxo;
/* Huge value, but won't overflow on addition */
utxo = wallet_select(ctx, w, (1ULL << 56), feerate_per_kw,
outscriptlen, false,
&satoshi_in, fee_estimate);
/* Can't afford fees? */
if (*fee_estimate > satoshi_in)
return tal_free(utxo);
*value = satoshi_in - *fee_estimate;
return utxo;
}
bool wallet_can_spend(struct wallet *w, const u8 *script,
u32 *index, bool *output_is_p2sh)
{
struct ext_key ext;
u64 bip32_max_index = db_get_intvar(w->db, "bip32_max_index", 0);
u32 i;
/* If not one of these, can't be for us. */
if (is_p2sh(script, NULL))
*output_is_p2sh = true;
else if (is_p2wpkh(script, NULL))
*output_is_p2sh = false;
else
return false;
for (i = 0; i <= bip32_max_index; i++) {
u8 *s;
if (bip32_key_from_parent(w->bip32_base, i,
BIP32_FLAG_KEY_PUBLIC, &ext)
!= WALLY_OK) {
abort();
}
s = scriptpubkey_p2wpkh_derkey(w, ext.pub_key);
if (*output_is_p2sh) {
u8 *p2sh = scriptpubkey_p2sh(w, s);
tal_free(s);
s = p2sh;
}
if (scripteq(s, script)) {
tal_free(s);
*index = i;
return true;
}
tal_free(s);
}
return false;
}
s64 wallet_get_newindex(struct lightningd *ld)
{
u64 newidx = db_get_intvar(ld->wallet->db, "bip32_max_index", 0) + 1;
if (newidx == BIP32_INITIAL_HARDENED_CHILD)
return -1;
db_set_intvar(ld->wallet->db, "bip32_max_index", newidx);
return newidx;
}
static void wallet_shachain_init(struct wallet *wallet,
struct wallet_shachain *chain)
{
sqlite3_stmt *stmt;
assert(chain->id == 0);
/* Create shachain */
shachain_init(&chain->chain);
stmt = db_prepare(wallet->db, "INSERT INTO shachains (min_index, num_valid) VALUES (?, 0);");
sqlite3_bind_int64(stmt, 1, chain->chain.min_index);
db_exec_prepared(wallet->db, stmt);
chain->id = sqlite3_last_insert_rowid(wallet->db->sql);
}
/* TODO(cdecker) Stolen from shachain, move to some appropriate location */
static unsigned int count_trailing_zeroes(uint64_t index)
{
#if HAVE_BUILTIN_CTZLL
return index ? (unsigned int)__builtin_ctzll(index) : SHACHAIN_BITS;
#else
unsigned int i;
for (i = 0; i < SHACHAIN_BITS; i++) {
if (index & (1ULL << i))
break;
}
return i;
#endif
}
bool wallet_shachain_add_hash(struct wallet *wallet,
struct wallet_shachain *chain,
uint64_t index,
const struct sha256 *hash)
{
sqlite3_stmt *stmt;
u32 pos = count_trailing_zeroes(index);
assert(index < SQLITE_MAX_UINT);
if (!shachain_add_hash(&chain->chain, index, hash)) {
return false;
}
stmt = db_prepare(wallet->db, "UPDATE shachains SET num_valid=?, min_index=? WHERE id=?");
sqlite3_bind_int(stmt, 1, chain->chain.num_valid);
sqlite3_bind_int64(stmt, 2, index);
sqlite3_bind_int64(stmt, 3, chain->id);
db_exec_prepared(wallet->db, stmt);
stmt = db_prepare(
wallet->db,
"REPLACE INTO shachain_known (shachain_id, pos, idx, hash) VALUES (?, ?, ?, ?);");
sqlite3_bind_int64(stmt, 1, chain->id);
sqlite3_bind_int(stmt, 2, pos);
sqlite3_bind_int64(stmt, 3, index);
sqlite3_bind_blob(stmt, 4, hash, sizeof(*hash), SQLITE_TRANSIENT);
db_exec_prepared(wallet->db, stmt);
return true;
}
bool wallet_shachain_load(struct wallet *wallet, u64 id,
struct wallet_shachain *chain)
{
int err;
sqlite3_stmt *stmt;
chain->id = id;
shachain_init(&chain->chain);
/* Load shachain metadata */
stmt = db_prepare(wallet->db, "SELECT min_index, num_valid FROM shachains WHERE id=?");
sqlite3_bind_int64(stmt, 1, id);
err = sqlite3_step(stmt);
if (err != SQLITE_ROW) {
sqlite3_finalize(stmt);
return false;
}
chain->chain.min_index = sqlite3_column_int64(stmt, 0);
chain->chain.num_valid = sqlite3_column_int64(stmt, 1);
sqlite3_finalize(stmt);
/* Load shachain known entries */
stmt = db_prepare(wallet->db, "SELECT idx, hash, pos FROM shachain_known WHERE shachain_id=?");
sqlite3_bind_int64(stmt, 1, id);
while (sqlite3_step(stmt) == SQLITE_ROW) {
int pos = sqlite3_column_int(stmt, 2);
chain->chain.known[pos].index = sqlite3_column_int64(stmt, 0);
memcpy(&chain->chain.known[pos].hash, sqlite3_column_blob(stmt, 1), sqlite3_column_bytes(stmt, 1));
}
sqlite3_finalize(stmt);
return true;
}
static struct peer *wallet_peer_load(struct wallet *w, const u64 dbid)
{
const unsigned char *addrstr;
struct peer *peer;
struct pubkey id;
struct wireaddr *addrp, addr;
sqlite3_stmt *stmt =
db_query(__func__, w->db,
"SELECT id, node_id, address FROM peers WHERE id=%"PRIu64";", dbid);
if (!stmt || sqlite3_step(stmt) != SQLITE_ROW) {
sqlite3_finalize(stmt);
return NULL;
}
if (!sqlite3_column_pubkey(stmt, 1, &id)) {
sqlite3_finalize(stmt);
return NULL;
}
addrstr = sqlite3_column_text(stmt, 2);
if (addrstr) {
addrp = &addr;
if (!parse_wireaddr((const char*)addrstr, addrp, DEFAULT_PORT, NULL)) {
sqlite3_finalize(stmt);
return NULL;
}
} else
addrp = NULL;
peer = new_peer(w->ld, sqlite3_column_int64(stmt, 0),
&id, addrp);
sqlite3_finalize(stmt);
return peer;
}
bool wallet_peer_by_nodeid(struct wallet *w, const struct pubkey *nodeid,
struct peer *peer)
{
bool ok;
const unsigned char *addrstr;
sqlite3_stmt *stmt = db_prepare(w->db, "SELECT id, node_id, address FROM peers WHERE node_id=?;");
sqlite3_bind_pubkey(stmt, 1, nodeid);
ok = stmt != NULL && sqlite3_step(stmt) == SQLITE_ROW;
if (ok) {
peer->dbid = sqlite3_column_int64(stmt, 0);
ok &= sqlite3_column_pubkey(stmt, 1, &peer->id);
addrstr = sqlite3_column_text(stmt, 2);
if (addrstr)
parse_wireaddr((const char*)addrstr, &peer->addr, DEFAULT_PORT, NULL);
} else {
/* Make sure we mark this as a new peer */
peer->dbid = 0;
}
sqlite3_finalize(stmt);
return ok;
}
static secp256k1_ecdsa_signature *
wallet_htlc_sigs_load(const tal_t *ctx, struct wallet *w, u64 channelid)
{
sqlite3_stmt *stmt = db_prepare(w->db, "SELECT signature FROM htlc_sigs WHERE channelid = ?");
secp256k1_ecdsa_signature *htlc_sigs = tal_arr(ctx, secp256k1_ecdsa_signature, 0);
sqlite3_bind_int64(stmt, 1, channelid);
size_t n = 0;
while (stmt && sqlite3_step(stmt) == SQLITE_ROW) {
tal_resize(&htlc_sigs, n+1);
sqlite3_column_signature(stmt, 0, &htlc_sigs[n]);
n++;
}
sqlite3_finalize(stmt);
log_debug(w->log, "Loaded %zu HTLC signatures from DB", n);
return htlc_sigs;
}
/**
* wallet_stmt2channel - Helper to populate a wallet_channel from a sqlite3_stmt
*/
static struct channel *wallet_stmt2channel(const tal_t *ctx, struct wallet *w, sqlite3_stmt *stmt)
{
bool ok = true;
struct channel_info channel_info;
struct short_channel_id *scid;
struct channel *chan;
u64 peer_dbid;
struct peer *peer;
struct wallet_shachain wshachain;
struct channel_config our_config;
struct bitcoin_txid funding_txid;
secp256k1_ecdsa_signature last_sig;
u8 *remote_shutdown_scriptpubkey;
struct changed_htlc *last_sent_commit;
s64 final_key_idx;
peer_dbid = sqlite3_column_int64(stmt, 1);
peer = find_peer_by_dbid(w->ld, peer_dbid);
if (!peer) {
peer = wallet_peer_load(w, peer_dbid);
if (!peer) {
return NULL;
}
}
if (sqlite3_column_type(stmt, 2) != SQLITE_NULL) {
scid = tal(tmpctx, struct short_channel_id);
sqlite3_column_short_channel_id(stmt, 2, scid);
} else {
scid = NULL;
}
ok &= wallet_shachain_load(w, sqlite3_column_int64(stmt, 27),
&wshachain);
remote_shutdown_scriptpubkey = sqlite3_column_arr(tmpctx, stmt, 28, u8);
/* Do we have a last_sent_commit, if yes, populate */
if (sqlite3_column_type(stmt, 30) != SQLITE_NULL) {
last_sent_commit = tal(tmpctx, struct changed_htlc);
last_sent_commit->newstate = sqlite3_column_int64(stmt, 30);
last_sent_commit->id = sqlite3_column_int64(stmt, 31);
} else {
last_sent_commit = NULL;
}
ok &= wallet_channel_config_load(w, sqlite3_column_int64(stmt, 3),
&our_config);
ok &= sqlite3_column_sha256_double(stmt, 12, &funding_txid.shad);
ok &= sqlite3_column_signature(stmt, 33, &last_sig);
/* Populate channel_info */
ok &= sqlite3_column_pubkey(stmt, 18, &channel_info.remote_fundingkey);
ok &= sqlite3_column_pubkey(stmt, 19, &channel_info.theirbase.revocation);
ok &= sqlite3_column_pubkey(stmt, 20, &channel_info.theirbase.payment);
ok &= sqlite3_column_pubkey(stmt, 21, &channel_info.theirbase.htlc);
ok &= sqlite3_column_pubkey(stmt, 22, &channel_info.theirbase.delayed_payment);
ok &= sqlite3_column_pubkey(stmt, 23, &channel_info.remote_per_commit);
ok &= sqlite3_column_pubkey(stmt, 24, &channel_info.old_remote_per_commit);
channel_info.feerate_per_kw[LOCAL] = sqlite3_column_int(stmt, 25);
channel_info.feerate_per_kw[REMOTE] = sqlite3_column_int(stmt, 26);
wallet_channel_config_load(w, sqlite3_column_int64(stmt, 4),
&channel_info.their_config);
if (!ok) {
return NULL;
}
final_key_idx = sqlite3_column_int64(stmt, 29);
if (final_key_idx < 0) {
log_broken(w->log, "%s: Final key < 0", __func__);
return NULL;
}
chan = new_channel(peer, sqlite3_column_int64(stmt, 0),
&wshachain,
sqlite3_column_int(stmt, 5),
sqlite3_column_int(stmt, 6),
NULL, /* Set up fresh log */
"Loaded from database",
sqlite3_column_int(stmt, 7),
&our_config,
sqlite3_column_int(stmt, 8),
sqlite3_column_int64(stmt, 9),
sqlite3_column_int64(stmt, 10),
sqlite3_column_int64(stmt, 11),
&funding_txid,
sqlite3_column_int(stmt, 13),
sqlite3_column_int64(stmt, 14),
sqlite3_column_int64(stmt, 16),
sqlite3_column_int(stmt, 15) != 0,
scid,
sqlite3_column_int64(stmt, 17),
sqlite3_column_tx(tmpctx, stmt, 32),
&last_sig,
wallet_htlc_sigs_load(tmpctx, w,
sqlite3_column_int64(stmt, 0)),
&channel_info,
remote_shutdown_scriptpubkey,
final_key_idx,
sqlite3_column_int(stmt, 34) != 0,
last_sent_commit,
sqlite3_column_int64(stmt, 35));
return chan;
}
/* List of fields to retrieve from the channels DB table, in the order
* that wallet_stmt2channel understands and will parse correctly */
static const char *channel_fields =
"id, peer_id, short_channel_id, channel_config_local, "
"channel_config_remote, state, funder, channel_flags, "
"minimum_depth, "
"next_index_local, next_index_remote, "
"next_htlc_id, funding_tx_id, funding_tx_outnum, funding_satoshi, "
"funding_locked_remote, push_msatoshi, msatoshi_local, "
"fundingkey_remote, revocation_basepoint_remote, "
"payment_basepoint_remote, htlc_basepoint_remote, "
"delayed_payment_basepoint_remote, per_commit_remote, "
"old_per_commit_remote, local_feerate_per_kw, remote_feerate_per_kw, shachain_remote_id, "
"shutdown_scriptpubkey_remote, shutdown_keyidx_local, "
"last_sent_commit_state, last_sent_commit_id, "
"last_tx, last_sig, last_was_revoke, first_blocknum";
bool wallet_channels_load_active(const tal_t *ctx, struct wallet *w)
{
bool ok = true;
sqlite3_stmt *stmt;
/* We load all channels */
stmt = db_query(
__func__, w->db, "SELECT %s FROM channels;",
channel_fields);
w->max_channel_dbid = 0;
int count = 0;
while (ok && stmt && sqlite3_step(stmt) == SQLITE_ROW) {
struct channel *c = wallet_stmt2channel(ctx, w, stmt);
if (!c) {
ok = false;
break;
}
if (c->dbid > w->max_channel_dbid)
w->max_channel_dbid = c->dbid;
count++;
}
log_debug(w->log, "Loaded %d channels from DB", count);
sqlite3_finalize(stmt);
return ok;
}
#ifdef COMPAT_V052
/* Upgrade of db (or initial create): do we have anything to scan for? */
static bool wallet_ever_used(struct wallet *w)
{
sqlite3_stmt *stmt;
bool channel_utxos;
/* If we ever handed out an address. */
if (db_get_intvar(w->db, "bip32_max_index", 0) != 0)
return true;
/* Or if they do a unilateral close, the output to us provides a UTXO. */
stmt = db_query(__func__, w->db,
"SELECT COUNT(*) FROM outputs WHERE commitment_point IS NOT NULL;");
int ret = sqlite3_step(stmt);
assert(ret == SQLITE_ROW);
channel_utxos = (sqlite3_column_int(stmt, 0) != 0);
sqlite3_finalize(stmt);
return channel_utxos;
}
#endif
/* We want the earlier of either:
* 1. The first channel we're still watching (it might have closed),
* 2. The last block we scanned for UTXO (might have new incoming payments)
*
* chaintopology actually subtracts another 100 blocks to make sure we
* catch chain forks.
*/
u32 wallet_first_blocknum(struct wallet *w, u32 first_possible)
{
int err;
u32 first_channel, first_utxo;
sqlite3_stmt *stmt =
db_query(__func__, w->db,
"SELECT MIN(first_blocknum) FROM channels;");
/* If we ever opened a channel, this will give us the first block. */
err = sqlite3_step(stmt);
if (err == SQLITE_ROW && sqlite3_column_type(stmt, 0) != SQLITE_NULL)
first_channel = sqlite3_column_int(stmt, 0);
else
first_channel = UINT32_MAX;
sqlite3_finalize(stmt);
#ifdef COMPAT_V052
/* This field was missing in older databases. */
first_utxo = db_get_intvar(w->db, "last_processed_block", 0);
if (first_utxo == 0) {
/* Don't know? New db, or upgraded. */
if (wallet_ever_used(w))
/* Be conservative */
first_utxo = first_possible;
else
first_utxo = UINT32_MAX;
}
#else
first_utxo = db_get_intvar(w->db, "last_processed_block", UINT32_MAX);
#endif
if (first_utxo < first_channel)
return first_utxo;
else
return first_channel;
}
static void wallet_channel_config_insert(struct wallet *w,
struct channel_config *cc)
{
sqlite3_stmt *stmt;
assert(cc->id == 0);
stmt = db_prepare(w->db, "INSERT INTO channel_configs DEFAULT VALUES;");
db_exec_prepared(w->db, stmt);
cc->id = sqlite3_last_insert_rowid(w->db->sql);
}
static void wallet_channel_config_save(struct wallet *w,
const struct channel_config *cc)
{
sqlite3_stmt *stmt;
assert(cc->id != 0);
stmt = db_prepare(w->db, "UPDATE channel_configs SET"
" dust_limit_satoshis=?,"
" max_htlc_value_in_flight_msat=?,"
" channel_reserve_satoshis=?,"
" htlc_minimum_msat=?,"
" to_self_delay=?,"
" max_accepted_htlcs=?"
" WHERE id=?;");
sqlite3_bind_int64(stmt, 1, cc->dust_limit_satoshis);
sqlite3_bind_int64(stmt, 2, cc->max_htlc_value_in_flight_msat);
sqlite3_bind_int64(stmt, 3, cc->channel_reserve_satoshis);
sqlite3_bind_int64(stmt, 4, cc->htlc_minimum_msat);
sqlite3_bind_int(stmt, 5, cc->to_self_delay);
sqlite3_bind_int(stmt, 6, cc->max_accepted_htlcs);
sqlite3_bind_int64(stmt, 7, cc->id);
db_exec_prepared(w->db, stmt);
}
bool wallet_channel_config_load(struct wallet *w, const u64 id,
struct channel_config *cc)
{
bool ok = true;
int col = 1;
const char *query =
"SELECT id, dust_limit_satoshis, max_htlc_value_in_flight_msat, "
"channel_reserve_satoshis, htlc_minimum_msat, to_self_delay, "
"max_accepted_htlcs FROM channel_configs WHERE id=%" PRIu64 ";";
sqlite3_stmt *stmt = db_query(__func__, w->db, query, id);
if (!stmt || sqlite3_step(stmt) != SQLITE_ROW) {
sqlite3_finalize(stmt);
return false;
}
cc->id = id;
cc->dust_limit_satoshis = sqlite3_column_int64(stmt, col++);
cc->max_htlc_value_in_flight_msat = sqlite3_column_int64(stmt, col++);
cc->channel_reserve_satoshis = sqlite3_column_int64(stmt, col++);
cc->htlc_minimum_msat = sqlite3_column_int64(stmt, col++);
cc->to_self_delay = sqlite3_column_int(stmt, col++);
cc->max_accepted_htlcs = sqlite3_column_int(stmt, col++);
assert(col == 7);
sqlite3_finalize(stmt);
return ok;
}
u64 wallet_get_channel_dbid(struct wallet *wallet)
{
return ++wallet->max_channel_dbid;
}
void wallet_channel_save(struct wallet *w, struct channel *chan)
{
sqlite3_stmt *stmt;
assert(chan->first_blocknum);
wallet_channel_config_save(w, &chan->our_config);
stmt = db_prepare(w->db, "UPDATE channels SET"
" shachain_remote_id=?,"
" short_channel_id=?,"
" state=?,"
" funder=?,"
" channel_flags=?,"
" minimum_depth=?,"
" next_index_local=?,"
" next_index_remote=?,"
" next_htlc_id=?,"
" funding_tx_id=?,"
" funding_tx_outnum=?,"
" funding_satoshi=?,"
" funding_locked_remote=?,"
" push_msatoshi=?,"
" msatoshi_local=?,"
" shutdown_scriptpubkey_remote=?,"
" shutdown_keyidx_local=?,"
" channel_config_local=?,"
" last_tx=?, last_sig=?,"
" last_was_revoke=?"
" WHERE id=?");
sqlite3_bind_int64(stmt, 1, chan->their_shachain.id);
if (chan->scid)
sqlite3_bind_short_channel_id(stmt, 2, chan->scid);
sqlite3_bind_int(stmt, 3, chan->state);
sqlite3_bind_int(stmt, 4, chan->funder);
sqlite3_bind_int(stmt, 5, chan->channel_flags);
sqlite3_bind_int(stmt, 6, chan->minimum_depth);
sqlite3_bind_int64(stmt, 7, chan->next_index[LOCAL]);
sqlite3_bind_int64(stmt, 8, chan->next_index[REMOTE]);
sqlite3_bind_int64(stmt, 9, chan->next_htlc_id);
sqlite3_bind_sha256_double(stmt, 10, &chan->funding_txid.shad);
sqlite3_bind_int(stmt, 11, chan->funding_outnum);
sqlite3_bind_int64(stmt, 12, chan->funding_satoshi);
sqlite3_bind_int(stmt, 13, chan->remote_funding_locked);
sqlite3_bind_int64(stmt, 14, chan->push_msat);
sqlite3_bind_int64(stmt, 15, chan->our_msatoshi);
if (chan->remote_shutdown_scriptpubkey)
sqlite3_bind_blob(stmt, 16, chan->remote_shutdown_scriptpubkey,
tal_len(chan->remote_shutdown_scriptpubkey),
SQLITE_TRANSIENT);
sqlite3_bind_int64(stmt, 17, chan->final_key_idx);
sqlite3_bind_int64(stmt, 18, chan->our_config.id);
sqlite3_bind_tx(stmt, 19, chan->last_tx);
sqlite3_bind_signature(stmt, 20, &chan->last_sig);
sqlite3_bind_int(stmt, 21, chan->last_was_revoke);
sqlite3_bind_int64(stmt, 22, chan->dbid);
db_exec_prepared(w->db, stmt);
wallet_channel_config_save(w, &chan->channel_info.their_config);
stmt = db_prepare(w->db, "UPDATE channels SET"
" fundingkey_remote=?,"
" revocation_basepoint_remote=?,"
" payment_basepoint_remote=?,"
" htlc_basepoint_remote=?,"
" delayed_payment_basepoint_remote=?,"
" per_commit_remote=?,"
" old_per_commit_remote=?,"
" local_feerate_per_kw=?,"
" remote_feerate_per_kw=?,"
" channel_config_remote=?"
" WHERE id=?");
sqlite3_bind_pubkey(stmt, 1, &chan->channel_info.remote_fundingkey);
sqlite3_bind_pubkey(stmt, 2, &chan->channel_info.theirbase.revocation);
sqlite3_bind_pubkey(stmt, 3, &chan->channel_info.theirbase.payment);
sqlite3_bind_pubkey(stmt, 4, &chan->channel_info.theirbase.htlc);
sqlite3_bind_pubkey(stmt, 5, &chan->channel_info.theirbase.delayed_payment);
sqlite3_bind_pubkey(stmt, 6, &chan->channel_info.remote_per_commit);
sqlite3_bind_pubkey(stmt, 7, &chan->channel_info.old_remote_per_commit);
sqlite3_bind_int(stmt, 8, chan->channel_info.feerate_per_kw[LOCAL]);
sqlite3_bind_int(stmt, 9, chan->channel_info.feerate_per_kw[REMOTE]);
sqlite3_bind_int64(stmt, 10, chan->channel_info.their_config.id);
sqlite3_bind_int64(stmt, 11, chan->dbid);
db_exec_prepared(w->db, stmt);
/* If we have a last_sent_commit, store it */
if (chan->last_sent_commit) {
stmt = db_prepare(w->db,
"UPDATE channels SET"
" last_sent_commit_state=?,"
" last_sent_commit_id=?"
" WHERE id=?");
sqlite3_bind_int(stmt, 1, chan->last_sent_commit->newstate);
sqlite3_bind_int64(stmt, 2, chan->last_sent_commit->id);
sqlite3_bind_int64(stmt, 3, chan->dbid);
db_exec_prepared(w->db, stmt);
}
}
void wallet_channel_insert(struct wallet *w, struct channel *chan)
{
sqlite3_stmt *stmt;
if (chan->peer->dbid == 0) {
/* Need to create the peer first */
stmt = db_prepare(w->db, "INSERT INTO peers (node_id, address) VALUES (?, ?);");
sqlite3_bind_pubkey(stmt, 1, &chan->peer->id);
if (chan->peer->addr.type == ADDR_TYPE_PADDING)
sqlite3_bind_null(stmt, 2);
else
sqlite3_bind_text(stmt, 2,
type_to_string(tmpctx, struct wireaddr, &chan->peer->addr),
-1, SQLITE_TRANSIENT);
db_exec_prepared(w->db, stmt);
chan->peer->dbid = sqlite3_last_insert_rowid(w->db->sql);
}
/* Insert a stub, that we update, unifies INSERT and UPDATE paths */
stmt = db_prepare(w->db, "INSERT INTO channels ("
"peer_id, first_blocknum, id) VALUES (?, ?, ?);");
sqlite3_bind_int64(stmt, 1, chan->peer->dbid);
sqlite3_bind_int(stmt, 2, chan->first_blocknum);
sqlite3_bind_int(stmt, 3, chan->dbid);
db_exec_prepared(w->db, stmt);
wallet_channel_config_insert(w, &chan->our_config);
wallet_channel_config_insert(w, &chan->channel_info.their_config);
wallet_shachain_init(w, &chan->their_shachain);
/* Now save path as normal */
wallet_channel_save(w, chan);
}
void wallet_channel_delete(struct wallet *w, u64 wallet_id)
{
sqlite3_stmt *stmt;
stmt = db_prepare(w->db,
"DELETE FROM channels WHERE id=?");
sqlite3_bind_int64(stmt, 1, wallet_id);
db_exec_prepared(w->db, stmt);
}
void wallet_peer_delete(struct wallet *w, u64 peer_dbid)
{
sqlite3_stmt *stmt;
/* Must not have any channels still using this peer */
stmt = db_query(__func__, w->db,
"SELECT * FROM channels WHERE peer_id = %"PRIu64,
peer_dbid);
assert(sqlite3_step(stmt) == SQLITE_DONE);
sqlite3_finalize(stmt);
stmt = db_prepare(w->db, "DELETE FROM peers WHERE id=?");
sqlite3_bind_int64(stmt, 1, peer_dbid);
db_exec_prepared(w->db, stmt);
}
static void wallet_output_confirm(struct wallet *w,
const struct bitcoin_txid *txid,
const u32 outnum,
const u32 confirmation_height)
{
sqlite3_stmt *stmt;
assert(confirmation_height > 0);
stmt = db_prepare(w->db,
"UPDATE outputs "
"SET confirmation_height = ? "
"WHERE prev_out_tx = ? AND prev_out_index = ?");
sqlite3_bind_int(stmt, 1, confirmation_height);
sqlite3_bind_sha256_double(stmt, 2, &txid->shad);
sqlite3_bind_int(stmt, 3, outnum);
db_exec_prepared(w->db, stmt);
}
int wallet_extract_owned_outputs(struct wallet *w, const struct bitcoin_tx *tx,
const struct block *block, u64 *total_satoshi)
{
int num_utxos = 0;
for (size_t output = 0; output < tal_count(tx->output); output++) {
struct utxo *utxo;
u32 index;
bool is_p2sh;
if (!wallet_can_spend(w, tx->output[output].script, &index,
&is_p2sh))
continue;
utxo = tal(w, struct utxo);
utxo->keyindex = index;
utxo->is_p2sh = is_p2sh;
utxo->amount = tx->output[output].amount;
utxo->status = output_state_available;
bitcoin_txid(tx, &utxo->txid);
utxo->outnum = output;
utxo->close_info = NULL;
utxo->blockheight = block?&block->height:NULL;
utxo->spendheight = NULL;
log_debug(w->log, "Owning output %zu %"PRIu64" (%s) txid %s",
output, tx->output[output].amount,
is_p2sh ? "P2SH" : "SEGWIT",
type_to_string(tmpctx, struct bitcoin_txid,
&utxo->txid));
if (!wallet_add_utxo(w, utxo, is_p2sh ? p2sh_wpkh : our_change)) {
/* In case we already know the output, make
* sure we actually track its
* blockheight. This can happen when we grab
* the output from a transaction we created
* outselves. */
if (block)
wallet_output_confirm(w, &utxo->txid, utxo->outnum, block->height);
tal_free(utxo);
continue;
}
outpointfilter_add(w->owned_outpoints, &utxo->txid, utxo->outnum);
*total_satoshi += utxo->amount;
tal_free(utxo);
num_utxos++;
}
return num_utxos;
}
void wallet_htlc_save_in(struct wallet *wallet,
const struct channel *chan, struct htlc_in *in)
{
sqlite3_stmt *stmt;
stmt = db_prepare(
wallet->db,
"INSERT INTO channel_htlcs ("
" channel_id,"
" channel_htlc_id, "
" direction,"
" msatoshi,"
" cltv_expiry,"
" payment_hash, "
" payment_key,"
" hstate,"
" shared_secret,"
" routing_onion) VALUES "
"(?, ?, ?, ?, ?, ?, ?, ?, ?, ?);");
sqlite3_bind_int64(stmt, 1, chan->dbid);
sqlite3_bind_int64(stmt, 2, in->key.id);
sqlite3_bind_int(stmt, 3, DIRECTION_INCOMING);
sqlite3_bind_int64(stmt, 4, in->msatoshi);
sqlite3_bind_int(stmt, 5, in->cltv_expiry);
sqlite3_bind_sha256(stmt, 6, &in->payment_hash);
if (in->preimage)
sqlite3_bind_preimage(stmt, 7, in->preimage);
sqlite3_bind_int(stmt, 8, in->hstate);
sqlite3_bind_blob(stmt, 9, &in->shared_secret,
sizeof(in->shared_secret), SQLITE_TRANSIENT);
sqlite3_bind_blob(stmt, 10, &in->onion_routing_packet,
sizeof(in->onion_routing_packet), SQLITE_TRANSIENT);
db_exec_prepared(wallet->db, stmt);
in->dbid = sqlite3_last_insert_rowid(wallet->db->sql);
}
void wallet_htlc_save_out(struct wallet *wallet,
const struct channel *chan,
struct htlc_out *out)
{
sqlite3_stmt *stmt;
/* We absolutely need the incoming HTLC to be persisted before
* we can persist it's dependent */
assert(out->in == NULL || out->in->dbid != 0);
out->origin_htlc_id = out->in?out->in->dbid:0;
stmt = db_prepare(
wallet->db,
"INSERT INTO channel_htlcs ("
" channel_id,"
" channel_htlc_id,"
" direction,"
" origin_htlc,"
" msatoshi,"
" cltv_expiry,"
" payment_hash,"
" payment_key,"
" hstate,"
" routing_onion) VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?);");
sqlite3_bind_int64(stmt, 1, chan->dbid);
sqlite3_bind_int64(stmt, 2, out->key.id);
sqlite3_bind_int(stmt, 3, DIRECTION_OUTGOING);
if (out->in)
sqlite3_bind_int64(stmt, 4, out->in->dbid);
sqlite3_bind_int64(stmt, 5, out->msatoshi);
sqlite3_bind_int(stmt, 6, out->cltv_expiry);
sqlite3_bind_sha256(stmt, 7, &out->payment_hash);
if (out->preimage)
sqlite3_bind_preimage(stmt, 8,out->preimage);
sqlite3_bind_int(stmt, 9, out->hstate);
sqlite3_bind_blob(stmt, 10, &out->onion_routing_packet,
sizeof(out->onion_routing_packet), SQLITE_TRANSIENT);
db_exec_prepared(wallet->db, stmt);
out->dbid = sqlite3_last_insert_rowid(wallet->db->sql);
}
void wallet_htlc_update(struct wallet *wallet, const u64 htlc_dbid,
const enum htlc_state new_state,
const struct preimage *payment_key)
{
sqlite3_stmt *stmt;
/* The database ID must be set by a previous call to
* `wallet_htlc_save_*` */
assert(htlc_dbid);
stmt = db_prepare(
wallet->db,
"UPDATE channel_htlcs SET hstate=?, payment_key=? WHERE id=?");
sqlite3_bind_int(stmt, 1, new_state);
sqlite3_bind_int64(stmt, 3, htlc_dbid);
if (payment_key)
sqlite3_bind_preimage(stmt, 2, payment_key);
db_exec_prepared(wallet->db, stmt);
}
static bool wallet_stmt2htlc_in(struct channel *channel,
sqlite3_stmt *stmt, struct htlc_in *in)
{
bool ok = true;
in->dbid = sqlite3_column_int64(stmt, 0);
in->key.id = sqlite3_column_int64(stmt, 1);
in->key.channel = channel;
in->msatoshi = sqlite3_column_int64(stmt, 2);
in->cltv_expiry = sqlite3_column_int(stmt, 3);
in->hstate = sqlite3_column_int(stmt, 4);
sqlite3_column_sha256(stmt, 5, &in->payment_hash);
assert(sqlite3_column_bytes(stmt, 6) == sizeof(struct secret));
memcpy(&in->shared_secret, sqlite3_column_blob(stmt, 6),
sizeof(struct secret));
if (sqlite3_column_type(stmt, 7) != SQLITE_NULL) {
in->preimage = tal(in, struct preimage);
sqlite3_column_preimage(stmt, 7, in->preimage);
} else {
in->preimage = NULL;
}
assert(sqlite3_column_bytes(stmt, 8) == sizeof(in->onion_routing_packet));
memcpy(&in->onion_routing_packet, sqlite3_column_blob(stmt, 8),
sizeof(in->onion_routing_packet));
/* FIXME: These need to be saved in db! */
in->failuremsg = NULL;
in->failcode = 0;
return ok;
}
static bool wallet_stmt2htlc_out(struct channel *channel,
sqlite3_stmt *stmt, struct htlc_out *out)
{
bool ok = true;
out->dbid = sqlite3_column_int64(stmt, 0);
out->key.id = sqlite3_column_int64(stmt, 1);
out->key.channel = channel;
out->msatoshi = sqlite3_column_int64(stmt, 2);
out->cltv_expiry = sqlite3_column_int(stmt, 3);
out->hstate = sqlite3_column_int(stmt, 4);
sqlite3_column_sha256(stmt, 5, &out->payment_hash);
if (sqlite3_column_type(stmt, 6) != SQLITE_NULL) {
out->origin_htlc_id = sqlite3_column_int64(stmt, 6);
} else {
out->origin_htlc_id = 0;
}
if (sqlite3_column_type(stmt, 7) != SQLITE_NULL) {
out->preimage = tal(out, struct preimage);
sqlite3_column_preimage(stmt, 7, out->preimage);
} else {
out->preimage = NULL;
}
assert(sqlite3_column_bytes(stmt, 8) == sizeof(out->onion_routing_packet));
memcpy(&out->onion_routing_packet, sqlite3_column_blob(stmt, 8),
sizeof(out->onion_routing_packet));
out->failuremsg = NULL;
out->failcode = 0;
/* Need to defer wiring until we can look up all incoming
* htlcs, will wire using origin_htlc_id */
out->in = NULL;
return ok;
}
bool wallet_htlcs_load_for_channel(struct wallet *wallet,
struct channel *chan,
struct htlc_in_map *htlcs_in,
struct htlc_out_map *htlcs_out)
{
bool ok = true;
int incount = 0, outcount = 0;
log_debug(wallet->log, "Loading HTLCs for channel %"PRIu64, chan->dbid);
sqlite3_stmt *stmt = db_query(
__func__, wallet->db,
"SELECT id, channel_htlc_id, msatoshi, cltv_expiry, hstate, "
"payment_hash, shared_secret, payment_key, routing_onion FROM channel_htlcs WHERE "
"direction=%d AND channel_id=%" PRIu64 " AND hstate != %d",
DIRECTION_INCOMING, chan->dbid, SENT_REMOVE_ACK_REVOCATION);
if (!stmt) {
log_broken(wallet->log, "Could not select htlc_ins");
return false;
}
while (ok && stmt && sqlite3_step(stmt) == SQLITE_ROW) {
struct htlc_in *in = tal(chan, struct htlc_in);
ok &= wallet_stmt2htlc_in(chan, stmt, in);
connect_htlc_in(htlcs_in, in);
ok &= htlc_in_check(in, "wallet_htlcs_load") != NULL;
incount++;
}
sqlite3_finalize(stmt);
stmt = db_query(
__func__, wallet->db,
"SELECT id, channel_htlc_id, msatoshi, cltv_expiry, hstate, "
"payment_hash, origin_htlc, payment_key, routing_onion FROM channel_htlcs WHERE "
"direction=%d AND channel_id=%" PRIu64 " AND hstate != %d",
DIRECTION_OUTGOING, chan->dbid, RCVD_REMOVE_ACK_REVOCATION);
if (!stmt) {
log_broken(wallet->log, "Could not select htlc_outs");
return false;
}
while (ok && stmt && sqlite3_step(stmt) == SQLITE_ROW) {
struct htlc_out *out = tal(chan, struct htlc_out);
ok &= wallet_stmt2htlc_out(chan, stmt, out);
connect_htlc_out(htlcs_out, out);
/* Cannot htlc_out_check because we haven't wired the
* dependencies in yet */
outcount++;
}
sqlite3_finalize(stmt);
log_debug(wallet->log, "Restored %d incoming and %d outgoing HTLCS", incount, outcount);
return ok;
}
bool wallet_htlcs_reconnect(struct wallet *wallet,
struct htlc_in_map *htlcs_in,
struct htlc_out_map *htlcs_out)
{
struct htlc_in_map_iter ini;
struct htlc_out_map_iter outi;
struct htlc_in *hin;
struct htlc_out *hout;
for (hout = htlc_out_map_first(htlcs_out, &outi); hout;
hout = htlc_out_map_next(htlcs_out, &outi)) {
if (hout->origin_htlc_id == 0) {
continue;
}
for (hin = htlc_in_map_first(htlcs_in, &ini); hin;
hin = htlc_in_map_next(htlcs_in, &ini)) {
if (hout->origin_htlc_id == hin->dbid) {
log_debug(wallet->log,
"Found corresponding htlc_in %" PRIu64
" for htlc_out %" PRIu64,
hin->dbid, hout->dbid);
hout->in = hin;
break;
}
}
if (!hout->in) {
log_broken(
wallet->log,
"Unable to find corresponding htlc_in %"PRIu64" for htlc_out %"PRIu64,
hout->origin_htlc_id, hout->dbid);
}
}
return true;
}
/* Almost all wallet_invoice_* functions delegate to the
* appropriate invoices_* function. */
bool wallet_invoice_load(struct wallet *wallet)
{
return invoices_load(wallet->invoices);
}
bool wallet_invoice_create(struct wallet *wallet,
struct invoice *pinvoice,
u64 *msatoshi TAKES,
const char *label TAKES,
u64 expiry,
const char *b11enc,
const struct preimage *r,
const struct sha256 *rhash)
{
return invoices_create(wallet->invoices, pinvoice, msatoshi, label, expiry, b11enc, r, rhash);
}
bool wallet_invoice_find_by_label(struct wallet *wallet,
struct invoice *pinvoice,
const char *label)
{
return invoices_find_by_label(wallet->invoices, pinvoice, label);
}
bool wallet_invoice_find_unpaid(struct wallet *wallet,
struct invoice *pinvoice,
const struct sha256 *rhash)
{
return invoices_find_unpaid(wallet->invoices, pinvoice, rhash);
}
bool wallet_invoice_delete(struct wallet *wallet,
struct invoice invoice)
{
return invoices_delete(wallet->invoices, invoice);
}
void wallet_invoice_delete_expired(struct wallet *wallet, u64 e)
{
invoices_delete_expired(wallet->invoices, e);
}
void wallet_invoice_autoclean(struct wallet *wallet, u64 c, u64 e)
{
invoices_autoclean_set(wallet->invoices, c, e);
}
bool wallet_invoice_iterate(struct wallet *wallet,
struct invoice_iterator *it)
{
return invoices_iterate(wallet->invoices, it);
}
void wallet_invoice_iterator_deref(const tal_t *ctx,
struct wallet *wallet,
const struct invoice_iterator *it,
struct invoice_details *details)
{
return invoices_iterator_deref(ctx, wallet->invoices, it, details);
}
void wallet_invoice_resolve(struct wallet *wallet,
struct invoice invoice,
u64 msatoshi_received)
{
invoices_resolve(wallet->invoices, invoice, msatoshi_received);
}
void wallet_invoice_waitany(const tal_t *ctx,
struct wallet *wallet,
u64 lastpay_index,
void (*cb)(const struct invoice *, void*),
void *cbarg)
{
invoices_waitany(ctx, wallet->invoices, lastpay_index, cb, cbarg);
}
void wallet_invoice_waitone(const tal_t *ctx,
struct wallet *wallet,
struct invoice invoice,
void (*cb)(const struct invoice *, void*),
void *cbarg)
{
invoices_waitone(ctx, wallet->invoices, invoice, cb, cbarg);
}
void wallet_invoice_details(const tal_t *ctx,
struct wallet *wallet,
struct invoice invoice,
struct invoice_details *details)
{
invoices_get_details(ctx, wallet->invoices, invoice, details);
}
struct htlc_stub *wallet_htlc_stubs(const tal_t *ctx, struct wallet *wallet,
struct channel *chan)
{
struct htlc_stub *stubs;
struct sha256 payment_hash;
sqlite3_stmt *stmt = db_prepare(wallet->db,
"SELECT channel_id, direction, cltv_expiry, payment_hash "
"FROM channel_htlcs WHERE channel_id = ?;");
sqlite3_bind_int64(stmt, 1, chan->dbid);
stubs = tal_arr(ctx, struct htlc_stub, 0);
while (sqlite3_step(stmt) == SQLITE_ROW) {
int n = tal_count(stubs);
tal_resize(&stubs, n+1);
assert(sqlite3_column_int64(stmt, 0) == chan->dbid);
/* FIXME: merge these two enums */
stubs[n].owner = sqlite3_column_int(stmt, 1)==DIRECTION_INCOMING?REMOTE:LOCAL;
stubs[n].cltv_expiry = sqlite3_column_int(stmt, 2);
sqlite3_column_sha256(stmt, 3, &payment_hash);
ripemd160(&stubs[n].ripemd, payment_hash.u.u8, sizeof(payment_hash.u));
}
sqlite3_finalize(stmt);
return stubs;
}
void wallet_local_htlc_out_delete(struct wallet *wallet,
struct channel *chan,
const struct sha256 *payment_hash)
{
sqlite3_stmt *stmt;
stmt = db_prepare(wallet->db,
"DELETE FROM channel_htlcs"
" WHERE direction = ?"
" AND origin_htlc = ?"
" AND payment_hash = ?");
sqlite3_bind_int(stmt, 1, DIRECTION_OUTGOING);
sqlite3_bind_int(stmt, 2, 0);
sqlite3_bind_sha256(stmt, 3, payment_hash);
db_exec_prepared(wallet->db, stmt);
}
static struct wallet_payment *
find_unstored_payment(struct wallet *wallet, const struct sha256 *payment_hash)
{
struct wallet_payment *i;
list_for_each(&wallet->unstored_payments, i, list) {
if (structeq(payment_hash, &i->payment_hash))
return i;
}
return NULL;
}
static void destroy_unstored_payment(struct wallet_payment *payment)
{
list_del(&payment->list);
}
void wallet_payment_setup(struct wallet *wallet, struct wallet_payment *payment)
{
assert(!find_unstored_payment(wallet, &payment->payment_hash));
list_add_tail(&wallet->unstored_payments, &payment->list);
tal_add_destructor(payment, destroy_unstored_payment);
}
void wallet_payment_store(struct wallet *wallet,
const struct sha256 *payment_hash)
{
sqlite3_stmt *stmt;
struct wallet_payment *payment;
payment = find_unstored_payment(wallet, payment_hash);
if (!payment) {
/* Already stored on-disk */
#if DEVELOPER
/* Double-check that it is indeed stored to disk
* (catch bug, where we call this on a payment_hash
* we never paid to) */
int res;
stmt = db_prepare(wallet->db,
"SELECT status FROM payments"
" WHERE payment_hash=?;");
sqlite3_bind_sha256(stmt, 1, payment_hash);
res = sqlite3_step(stmt);
assert(res == SQLITE_ROW);
sqlite3_finalize(stmt);
#endif
return;
}
/* Don't attempt to add the same payment twice */
assert(!payment->id);
stmt = db_prepare(
wallet->db,
"INSERT INTO payments ("
" status,"
" payment_hash,"
" destination,"
" msatoshi,"
" timestamp,"
" path_secrets,"
" route_nodes,"
" route_channels"
") VALUES (?, ?, ?, ?, ?, ?, ?, ?);");
sqlite3_bind_int(stmt, 1, payment->status);
sqlite3_bind_sha256(stmt, 2, &payment->payment_hash);
sqlite3_bind_pubkey(stmt, 3, &payment->destination);
sqlite3_bind_int64(stmt, 4, payment->msatoshi);
sqlite3_bind_int(stmt, 5, payment->timestamp);
sqlite3_bind_blob(stmt, 6, payment->path_secrets,
tal_len(payment->path_secrets),
SQLITE_TRANSIENT);
sqlite3_bind_pubkey_array(stmt, 7, payment->route_nodes);
sqlite3_bind_short_channel_id_array(stmt, 8,
payment->route_channels);
db_exec_prepared(wallet->db, stmt);
tal_free(payment);
}
void wallet_payment_delete(struct wallet *wallet,
const struct sha256 *payment_hash)
{
sqlite3_stmt *stmt;
struct wallet_payment *payment;
payment = find_unstored_payment(wallet, payment_hash);
if (payment) {
tal_free(payment);
return;
}
stmt = db_prepare(
wallet->db,
"DELETE FROM payments WHERE payment_hash = ?");
sqlite3_bind_sha256(stmt, 1, payment_hash);
db_exec_prepared(wallet->db, stmt);
}
static struct wallet_payment *wallet_stmt2payment(const tal_t *ctx,
sqlite3_stmt *stmt)
{
struct wallet_payment *payment = tal(ctx, struct wallet_payment);
payment->id = sqlite3_column_int64(stmt, 0);
payment->status = sqlite3_column_int(stmt, 1);
sqlite3_column_pubkey(stmt, 2, &payment->destination);
payment->msatoshi = sqlite3_column_int64(stmt, 3);
sqlite3_column_sha256(stmt, 4, &payment->payment_hash);
payment->timestamp = sqlite3_column_int(stmt, 5);
if (sqlite3_column_type(stmt, 6) != SQLITE_NULL) {
payment->payment_preimage = tal(payment, struct preimage);
sqlite3_column_preimage(stmt, 6, payment->payment_preimage);
} else
payment->payment_preimage = NULL;
/* Can be NULL for old db! */
payment->path_secrets = sqlite3_column_secrets(payment, stmt, 7);
payment->route_nodes = sqlite3_column_pubkey_array(payment, stmt, 8);
payment->route_channels
= sqlite3_column_short_channel_id_array(payment, stmt, 9);
return payment;
}
struct wallet_payment *
wallet_payment_by_hash(const tal_t *ctx, struct wallet *wallet,
const struct sha256 *payment_hash)
{
sqlite3_stmt *stmt;
struct wallet_payment *payment;
/* Present the illusion that it's in the db... */
payment = find_unstored_payment(wallet, payment_hash);
if (payment)
return payment;
stmt = db_prepare(wallet->db,
"SELECT id, status, destination,"
"msatoshi, payment_hash, timestamp, payment_preimage, "
"path_secrets, route_nodes, route_channels "
"FROM payments "
"WHERE payment_hash = ?");
sqlite3_bind_sha256(stmt, 1, payment_hash);
if (sqlite3_step(stmt) == SQLITE_ROW) {
payment = wallet_stmt2payment(ctx, stmt);
}
sqlite3_finalize(stmt);
return payment;
}
struct secret *wallet_payment_get_secrets(const tal_t *ctx,
struct wallet *wallet,
const struct sha256 *payment_hash)
{
sqlite3_stmt *stmt;
struct secret *path_secrets = NULL;
stmt = db_prepare(wallet->db,
"SELECT path_secrets "
"FROM payments "
"WHERE payment_hash = ?");
sqlite3_bind_sha256(stmt, 1, payment_hash);
if (sqlite3_step(stmt) == SQLITE_ROW) {
path_secrets = sqlite3_column_secrets(ctx, stmt, 0);
}
sqlite3_finalize(stmt);
return path_secrets;
}
void wallet_payment_set_status(struct wallet *wallet,
const struct sha256 *payment_hash,
const enum wallet_payment_status newstatus,
const struct preimage *preimage)
{
sqlite3_stmt *stmt;
struct wallet_payment *payment;
/* We can only fail an unstored payment! */
payment = find_unstored_payment(wallet, payment_hash);
if (payment) {
assert(newstatus == PAYMENT_FAILED);
tal_free(payment);
return;
}
stmt = db_prepare(wallet->db,
"UPDATE payments SET status=? "
"WHERE payment_hash=?");
sqlite3_bind_int(stmt, 1, newstatus);
sqlite3_bind_sha256(stmt, 2, payment_hash);
db_exec_prepared(wallet->db, stmt);
if (preimage) {
stmt = db_prepare(wallet->db,
"UPDATE payments SET payment_preimage=? "
"WHERE payment_hash=?");
sqlite3_bind_preimage(stmt, 1, preimage);
sqlite3_bind_sha256(stmt, 2, payment_hash);
db_exec_prepared(wallet->db, stmt);
}
}
void wallet_payment_get_failinfo(const tal_t *ctx,
struct wallet *wallet,
const struct sha256 *payment_hash,
/* outputs */
u8 **failonionreply,
bool *faildestperm,
int *failindex,
enum onion_type *failcode,
struct pubkey **failnode,
struct short_channel_id **failchannel,
u8 **failupdate)
{
sqlite3_stmt *stmt;
int res;
bool resb;
size_t len;
stmt = db_prepare(wallet->db,
"SELECT failonionreply, faildestperm"
" , failindex, failcode"
" , failnode, failchannel"
" , failupdate"
" FROM payments"
" WHERE payment_hash=?;");
sqlite3_bind_sha256(stmt, 1, payment_hash);
res = sqlite3_step(stmt);
assert(res == SQLITE_ROW);
if (sqlite3_column_type(stmt, 0) == SQLITE_NULL)
*failonionreply = NULL;
else {
len = sqlite3_column_bytes(stmt, 0);
*failonionreply = tal_arr(ctx, u8, len);
memcpy(*failonionreply, sqlite3_column_blob(stmt, 0), len);
}
*faildestperm = sqlite3_column_int(stmt, 1) != 0;
*failindex = sqlite3_column_int(stmt, 2);
*failcode = (enum onion_type) sqlite3_column_int(stmt, 3);
if (sqlite3_column_type(stmt, 4) == SQLITE_NULL)
*failnode = NULL;
else {
*failnode = tal(ctx, struct pubkey);
resb = sqlite3_column_pubkey(stmt, 4, *failnode);
assert(resb);
}
if (sqlite3_column_type(stmt, 5) == SQLITE_NULL)
*failchannel = NULL;
else {
*failchannel = tal(ctx, struct short_channel_id);
resb = sqlite3_column_short_channel_id(stmt, 5, *failchannel);
assert(resb);
}
if (sqlite3_column_type(stmt, 6) == SQLITE_NULL)
*failupdate = NULL;
else {
len = sqlite3_column_bytes(stmt, 6);
*failupdate = tal_arr(ctx, u8, len);
memcpy(*failupdate, sqlite3_column_blob(stmt, 6), len);
}
sqlite3_finalize(stmt);
}
void wallet_payment_set_failinfo(struct wallet *wallet,
const struct sha256 *payment_hash,
const u8 *failonionreply /*tal_arr*/,
bool faildestperm,
int failindex,
enum onion_type failcode,
const struct pubkey *failnode,
const struct short_channel_id *failchannel,
const u8 *failupdate /*tal_arr*/)
{
sqlite3_stmt *stmt;
struct short_channel_id *scid;
stmt = db_prepare(wallet->db,
"UPDATE payments"
" SET failonionreply=?"
" , faildestperm=?"
" , failindex=?"
" , failcode=?"
" , failnode=?"
" , failchannel=?"
" , failupdate=?"
" WHERE payment_hash=?;");
if (failonionreply)
sqlite3_bind_blob(stmt, 1,
failonionreply, tal_count(failonionreply),
SQLITE_TRANSIENT);
else
sqlite3_bind_null(stmt, 1);
sqlite3_bind_int(stmt, 2, faildestperm ? 1 : 0);
sqlite3_bind_int(stmt, 3, failindex);
sqlite3_bind_int(stmt, 4, (int) failcode);
if (failnode)
sqlite3_bind_pubkey(stmt, 5, failnode);
else
sqlite3_bind_null(stmt, 5);
if (failchannel) {
/* sqlite3_bind_short_channel_id requires the input
* channel to be tal-allocated... */
scid = tal(tmpctx, struct short_channel_id);
*scid = *failchannel;
sqlite3_bind_short_channel_id(stmt, 6, scid);
} else
sqlite3_bind_null(stmt, 6);
if (failupdate)
sqlite3_bind_blob(stmt, 7,
failupdate, tal_count(failupdate),
SQLITE_TRANSIENT);
else
sqlite3_bind_null(stmt, 7);
sqlite3_bind_sha256(stmt, 8, payment_hash);
db_exec_prepared(wallet->db, stmt);
}
const struct wallet_payment **
wallet_payment_list(const tal_t *ctx,
struct wallet *wallet,
const struct sha256 *payment_hash)
{
const struct wallet_payment **payments;
sqlite3_stmt *stmt;
struct wallet_payment *p;
size_t i;
payments = tal_arr(ctx, const struct wallet_payment *, 0);
if (payment_hash) {
stmt = db_prepare(
wallet->db,
"SELECT id, status, destination, "
"msatoshi, payment_hash, timestamp, payment_preimage, "
"path_secrets, route_nodes, route_channels "
"FROM payments "
"WHERE payment_hash = ?;");
sqlite3_bind_sha256(stmt, 1, payment_hash);
} else {
stmt = db_prepare(
wallet->db,
"SELECT id, status, destination, "
"msatoshi, payment_hash, timestamp, payment_preimage, "
"path_secrets, route_nodes, route_channels "
"FROM payments;");
}
for (i = 0; sqlite3_step(stmt) == SQLITE_ROW; i++) {
tal_resize(&payments, i+1);
payments[i] = wallet_stmt2payment(payments, stmt);
}
sqlite3_finalize(stmt);
/* Now attach payments not yet in db. */
list_for_each(&wallet->unstored_payments, p, list) {
if (payment_hash && !structeq(&p->payment_hash, payment_hash))
continue;
tal_resize(&payments, i+1);
payments[i++] = p;
}
return payments;
}
void wallet_htlc_sigs_save(struct wallet *w, u64 channel_id,
secp256k1_ecdsa_signature *htlc_sigs)
{
/* Clear any existing HTLC sigs for this channel */
sqlite3_stmt *stmt =
db_prepare(w->db, "DELETE FROM htlc_sigs WHERE channelid = ?");
sqlite3_bind_int64(stmt, 1, channel_id);
db_exec_prepared(w->db, stmt);
/* Now insert the new ones */
for (size_t i=0; i<tal_count(htlc_sigs); i++) {
stmt = db_prepare(w->db, "INSERT INTO htlc_sigs (channelid, signature) VALUES (?, ?)");
sqlite3_bind_int64(stmt, 1, channel_id);
sqlite3_bind_signature(stmt, 2, &htlc_sigs[i]);
db_exec_prepared(w->db, stmt);
}
}
bool wallet_network_check(struct wallet *w,
const struct chainparams *chainparams)
{
sqlite3_stmt *stmt = db_query(__func__, w->db,
"SELECT val FROM vars WHERE name='genesis_hash'");
struct bitcoin_blkid chainhash;
if (stmt && sqlite3_step(stmt) == SQLITE_ROW) {
sqlite3_column_sha256_double(stmt, 0, &chainhash.shad);
sqlite3_finalize(stmt);
if (!structeq(&chainhash, &chainparams->genesis_blockhash)) {
log_broken(w->log, "Wallet blockchain hash does not "
"match network blockchain hash: %s "
"!= %s",
type_to_string(w, struct bitcoin_blkid,
&chainhash),
type_to_string(w, struct bitcoin_blkid,
&chainparams->genesis_blockhash));
return false;
}
} else {
/* Still a pristine wallet, claim it for the chain
* that we are running */
sqlite3_finalize(stmt);
stmt = db_prepare(w->db, "INSERT INTO vars (name, val) VALUES ('genesis_hash', ?);");
sqlite3_bind_sha256_double(stmt, 1, &chainparams->genesis_blockhash.shad);
db_exec_prepared(w->db, stmt);
}
return true;
}
/**
* wallet_utxoset_prune -- Remove spent UTXO entries that are old
*/
static void wallet_utxoset_prune(struct wallet *w, const u32 blockheight)
{
sqlite3_stmt *stmt;
stmt = db_prepare(w->db, "DELETE FROM utxoset WHERE spendheight < ?");
sqlite3_bind_int(stmt, 1, blockheight - UTXO_PRUNE_DEPTH);
db_exec_prepared(w->db, stmt);
}
void wallet_block_add(struct wallet *w, struct block *b)
{
sqlite3_stmt *stmt = db_prepare(w->db,
"INSERT INTO blocks "
"(height, hash, prev_hash) "
"VALUES (?, ?, ?);");
sqlite3_bind_int(stmt, 1, b->height);
sqlite3_bind_sha256_double(stmt, 2, &b->blkid.shad);
if (b->prev) {
sqlite3_bind_sha256_double(stmt, 3, &b->prev->blkid.shad);
}else {
sqlite3_bind_null(stmt, 3);
}
db_exec_prepared(w->db, stmt);
/* Now cleanup UTXOs that we don't care about anymore */
wallet_utxoset_prune(w, b->height);
}
void wallet_block_remove(struct wallet *w, struct block *b)
{
sqlite3_stmt *stmt = db_prepare(w->db,
"DELETE FROM blocks WHERE hash = ?");
sqlite3_bind_sha256_double(stmt, 1, &b->blkid.shad);
db_exec_prepared(w->db, stmt);
stmt = db_prepare(w->db, "SELECT * FROM blocks WHERE height >= ?;");
sqlite3_bind_int(stmt, 1, b->height);
assert(sqlite3_step(stmt) == SQLITE_DONE);
sqlite3_finalize(stmt);
}
void wallet_blocks_rollback(struct wallet *w, u32 height)
{
sqlite3_stmt *stmt = db_prepare(w->db, "DELETE FROM blocks "
"WHERE height >= ?");
sqlite3_bind_int(stmt, 1, height);
db_exec_prepared(w->db, stmt);
}
void wallet_outpoint_spend(struct wallet *w, const u32 blockheight,
const struct bitcoin_txid *txid, const u32 outnum)
{
sqlite3_stmt *stmt;
if (outpointfilter_matches(w->owned_outpoints, txid, outnum)) {
stmt = db_prepare(w->db,
"UPDATE outputs "
"SET spend_height = ? "
"WHERE prev_out_tx = ?"
" AND prev_out_index = ?");
sqlite3_bind_int(stmt, 1, blockheight);
sqlite3_bind_sha256_double(stmt, 2, &txid->shad);
sqlite3_bind_int(stmt, 3, outnum);
db_exec_prepared(w->db, stmt);
}
if (outpointfilter_matches(w->utxoset_outpoints, txid, outnum)) {
stmt = db_prepare(w->db,
"UPDATE utxoset "
"SET spendheight = ? "
"WHERE txid = ?"
" AND outnum = ?");
sqlite3_bind_int(stmt, 1, blockheight);
sqlite3_bind_sha256_double(stmt, 2, &txid->shad);
sqlite3_bind_int(stmt, 3, outnum);
db_exec_prepared(w->db, stmt);
}
}
void wallet_utxoset_add(struct wallet *w, const struct bitcoin_tx *tx,
const u32 outnum, const u32 blockheight,
const u32 txindex, const u8 *scriptpubkey,
const u64 satoshis)
{
sqlite3_stmt *stmt;
struct bitcoin_txid txid;
bitcoin_txid(tx, &txid);
stmt = db_prepare(w->db, "INSERT INTO utxoset ("
" txid,"
" outnum,"
" blockheight,"
" spendheight,"
" txindex,"
" scriptpubkey,"
" satoshis"
") VALUES(?, ?, ?, ?, ?, ?, ?);");
sqlite3_bind_sha256_double(stmt, 1, &txid.shad);
sqlite3_bind_int(stmt, 2, outnum);
sqlite3_bind_int(stmt, 3, blockheight);
sqlite3_bind_null(stmt, 4);
sqlite3_bind_int(stmt, 5, txindex);
sqlite3_bind_blob(stmt, 6, scriptpubkey, tal_len(scriptpubkey), SQLITE_TRANSIENT);
sqlite3_bind_int64(stmt, 7, satoshis);
db_exec_prepared(w->db, stmt);
outpointfilter_add(w->utxoset_outpoints, &txid, outnum);
}
struct outpoint *wallet_outpoint_for_scid(struct wallet *w, tal_t *ctx,
const struct short_channel_id *scid)
{
sqlite3_stmt *stmt;
struct outpoint *op;
stmt = db_prepare(w->db, "SELECT"
" txid,"
" spendheight,"
" scriptpubkey,"
" satoshis "
"FROM utxoset "
"WHERE blockheight = ?"
" AND txindex = ?"
" AND outnum = ?");
sqlite3_bind_int(stmt, 1, short_channel_id_blocknum(scid));
sqlite3_bind_int(stmt, 2, short_channel_id_txnum(scid));
sqlite3_bind_int(stmt, 3, short_channel_id_outnum(scid));
if (sqlite3_step(stmt) != SQLITE_ROW)
return NULL;
op = tal(ctx, struct outpoint);
op->blockheight = short_channel_id_blocknum(scid);
op->txindex = short_channel_id_txnum(scid);
op->outnum = short_channel_id_outnum(scid);
sqlite3_column_sha256_double(stmt, 0, &op->txid.shad);
op->spendheight = sqlite3_column_int(stmt, 1);
op->scriptpubkey = tal_arr(op, u8, sqlite3_column_bytes(stmt, 2));
memcpy(op->scriptpubkey, sqlite3_column_blob(stmt, 2), sqlite3_column_bytes(stmt, 2));
op->satoshis = sqlite3_column_int64(stmt, 3);
return op;
}