core-lightning/wallet/walletrpc.c

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#include <bitcoin/address.h>
#include <bitcoin/base58.h>
#include <bitcoin/script.h>
#include <bitcoin/tx.h>
#include <ccan/cast/cast.h>
#include <ccan/tal/str/str.h>
#include <common/addr.h>
#include <common/bech32.h>
#include <common/json_command.h>
#include <common/json_helpers.h>
#include <common/jsonrpc_errors.h>
#include <common/key_derive.h>
#include <common/param.h>
#include <common/pseudorand.h>
#include <common/status.h>
#include <common/utils.h>
#include <common/utxo.h>
#include <errno.h>
#include <hsmd/hsmd_wiregen.h>
#include <inttypes.h>
#include <lightningd/bitcoind.h>
#include <lightningd/chaintopology.h>
#include <lightningd/hsm_control.h>
#include <lightningd/json.h>
#include <lightningd/jsonrpc.h>
#include <lightningd/lightningd.h>
#include <lightningd/log.h>
#include <lightningd/options.h>
#include <lightningd/peer_control.h>
#include <lightningd/subd.h>
#include <wallet/wallet.h>
#include <wallet/walletrpc.h>
#include <wally_bip32.h>
#include <wire/wire_sync.h>
/* May return NULL if encoding error occurs. */
static char *
encode_pubkey_to_addr(const tal_t *ctx,
const struct pubkey *pubkey,
bool is_p2sh_p2wpkh,
/* Output: redeemscript to use to redeem outputs
* paying to the address.
* May be NULL if redeemscript is do not care. */
u8 **out_redeemscript)
{
char *out;
const char *hrp;
struct sha256 h;
struct ripemd160 h160;
u8 *redeemscript;
bool ok;
if (is_p2sh_p2wpkh) {
redeemscript = bitcoin_redeem_p2sh_p2wpkh(ctx, pubkey);
sha256(&h, redeemscript, tal_count(redeemscript));
ripemd160(&h160, h.u.u8, sizeof(h));
out = p2sh_to_base58(ctx,
chainparams,
&h160);
} else {
hrp = chainparams->bip173_name;
/* out buffer is 73 + strlen(human readable part),
* see common/bech32.h*/
out = tal_arr(ctx, char, 73 + strlen(hrp));
pubkey_to_hash160(pubkey, &h160);
/* I am uncertain why this is so for direct SegWit
* outputs, but this is how listaddrs worked prior to
* this code being refactored. */
redeemscript = tal_dup_arr(ctx, u8,
(u8 *) &h160, sizeof(h160),
0);
ok = segwit_addr_encode(out, hrp, 0, h160.u.u8, sizeof(h160));
if (!ok)
out = tal_free(out);
}
if (out_redeemscript)
*out_redeemscript = redeemscript;
else
tal_free(redeemscript);
return out;
}
enum addrtype {
ADDR_P2SH_SEGWIT = 1,
ADDR_BECH32 = 2,
ADDR_ALL = (ADDR_P2SH_SEGWIT + ADDR_BECH32)
};
/* Extract bool indicating "p2sh-segwit" or "bech32" */
static struct command_result *param_newaddr(struct command *cmd,
const char *name,
const char *buffer,
const jsmntok_t *tok,
enum addrtype **addrtype)
{
*addrtype = tal(cmd, enum addrtype);
if (json_tok_streq(buffer, tok, "p2sh-segwit"))
**addrtype = ADDR_P2SH_SEGWIT;
else if (json_tok_streq(buffer, tok, "bech32"))
**addrtype = ADDR_BECH32;
else if (json_tok_streq(buffer, tok, "all"))
**addrtype = ADDR_ALL;
else
return command_fail(cmd, JSONRPC2_INVALID_PARAMS,
"'%s' should be 'bech32', 'p2sh-segwit' or 'all', not '%.*s'",
name, tok->end - tok->start, buffer + tok->start);
return NULL;
}
static struct command_result *json_newaddr(struct command *cmd,
const char *buffer,
const jsmntok_t *obj UNNEEDED,
const jsmntok_t *params)
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{
struct json_stream *response;
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struct pubkey pubkey;
enum addrtype *addrtype;
s64 keyidx;
char *p2sh, *bech32;
u8 *b32script;
if (!param(cmd, buffer, params,
p_opt_def("addresstype", param_newaddr, &addrtype, ADDR_BECH32),
NULL))
return command_param_failed();
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keyidx = wallet_get_newindex(cmd->ld);
if (keyidx < 0) {
return command_fail(cmd, LIGHTNINGD, "Keys exhausted ");
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}
if (!bip32_pubkey(cmd->ld->wallet->bip32_base, &pubkey, keyidx))
return command_fail(cmd, LIGHTNINGD, "Keys generation failure");
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b32script = scriptpubkey_p2wpkh(tmpctx, &pubkey);
if (*addrtype & ADDR_BECH32)
txfilter_add_scriptpubkey(cmd->ld->owned_txfilter, b32script);
if (*addrtype & ADDR_P2SH_SEGWIT)
txfilter_add_scriptpubkey(cmd->ld->owned_txfilter,
scriptpubkey_p2sh(tmpctx, b32script));
p2sh = encode_pubkey_to_addr(cmd, &pubkey, true, NULL);
bech32 = encode_pubkey_to_addr(cmd, &pubkey, false, NULL);
if (!p2sh || !bech32) {
return command_fail(cmd, LIGHTNINGD,
"p2wpkh address encoding failure.");
}
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response = json_stream_success(cmd);
if (*addrtype & ADDR_BECH32)
json_add_string(response, "bech32", bech32);
if (*addrtype & ADDR_P2SH_SEGWIT)
json_add_string(response, "p2sh-segwit", p2sh);
return command_success(cmd, response);
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}
static const struct json_command newaddr_command = {
"newaddr",
"bitcoin",
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json_newaddr,
"Get a new {bech32, p2sh-segwit} (or all) address to fund a channel (default is bech32)", false,
"Generates a new address (or both) that belongs to the internal wallet. Funds sent to these addresses will be managed by lightningd. Use `withdraw` to withdraw funds to an external wallet."
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};
AUTODATA(json_command, &newaddr_command);
static struct command_result *json_listaddrs(struct command *cmd,
const char *buffer,
const jsmntok_t *obj UNNEEDED,
const jsmntok_t *params)
{
struct json_stream *response;
struct pubkey pubkey;
u64 *bip32_max_index;
if (!param(cmd, buffer, params,
p_opt("bip32_max_index", param_u64, &bip32_max_index),
NULL))
return command_param_failed();
if (!bip32_max_index) {
bip32_max_index = tal(cmd, u64);
*bip32_max_index = db_get_intvar(cmd->ld->wallet->db,
"bip32_max_index", 0);
}
response = json_stream_success(cmd);
json_array_start(response, "addresses");
for (s64 keyidx = 0; keyidx <= *bip32_max_index; keyidx++) {
if (keyidx == BIP32_INITIAL_HARDENED_CHILD){
break;
}
if (!bip32_pubkey(cmd->ld->wallet->bip32_base, &pubkey, keyidx))
abort();
// p2sh
u8 *redeemscript_p2sh;
char *out_p2sh = encode_pubkey_to_addr(cmd,
&pubkey,
true,
&redeemscript_p2sh);
// bech32 : p2wpkh
u8 *redeemscript_p2wpkh;
char *out_p2wpkh = encode_pubkey_to_addr(cmd,
&pubkey,
false,
&redeemscript_p2wpkh);
if (!out_p2wpkh) {
abort();
}
// outputs
json_object_start(response, NULL);
json_add_u64(response, "keyidx", keyidx);
json_add_pubkey(response, "pubkey", &pubkey);
json_add_string(response, "p2sh", out_p2sh);
json_add_hex_talarr(response, "p2sh_redeemscript",
redeemscript_p2sh);
json_add_string(response, "bech32", out_p2wpkh);
json_add_hex_talarr(response, "bech32_redeemscript",
redeemscript_p2wpkh);
json_object_end(response);
}
json_array_end(response);
return command_success(cmd, response);
}
static const struct json_command listaddrs_command = {
"dev-listaddrs",
"developer",
json_listaddrs,
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"Show addresses list up to derivation {index} (default is the last bip32 index)",
false,
"Show addresses of your internal wallet. Use `newaddr` to generate a new address."
};
AUTODATA(json_command, &listaddrs_command);
static void json_add_utxo(struct json_stream *response,
const char *fieldname,
struct wallet *wallet,
const struct utxo *utxo)
{
const char *out;
bool reserved;
json_object_start(response, fieldname);
json_add_txid(response, "txid", &utxo->txid);
json_add_num(response, "output", utxo->outnum);
json_add_amount_sat_compat(response, utxo->amount,
"value", "amount_msat");
if (utxo->is_p2sh) {
struct pubkey key;
bip32_pubkey(wallet->bip32_base, &key, utxo->keyindex);
json_add_hex_talarr(response, "redeemscript",
bitcoin_redeem_p2sh_p2wpkh(tmpctx, &key));
}
json_add_hex_talarr(response, "scriptpubkey", utxo->scriptPubkey);
out = encode_scriptpubkey_to_addr(tmpctx, chainparams,
utxo->scriptPubkey);
if (!out)
log_broken(wallet->log,
"Could not encode utxo %s:%u%s!",
type_to_string(tmpctx,
struct bitcoin_txid,
&utxo->txid),
utxo->outnum,
utxo->close_info ? " (has close_info)" : "");
else
json_add_string(response, "address", out);
if (utxo->spendheight)
json_add_string(response, "status", "spent");
else if (utxo->blockheight) {
json_add_string(response, "status", "confirmed");
json_add_num(response, "blockheight", *utxo->blockheight);
} else
json_add_string(response, "status", "unconfirmed");
reserved = utxo_is_reserved(utxo,
get_block_height(wallet->ld->topology));
json_add_bool(response, "reserved", reserved);
if (reserved)
json_add_num(response, "reserved_to_block",
utxo->reserved_til);
json_object_end(response);
}
void json_add_utxos(struct json_stream *response,
struct wallet *wallet,
struct utxo **utxos)
{
for (size_t i = 0; i < tal_count(utxos); i++)
json_add_utxo(response, NULL, wallet, utxos[i]);
}
static struct command_result *json_listfunds(struct command *cmd,
const char *buffer,
const jsmntok_t *obj UNNEEDED,
const jsmntok_t *params)
{
struct json_stream *response;
struct peer *p;
struct utxo **utxos, **reserved_utxos, **spent_utxos;
bool *spent;
if (!param(cmd, buffer, params,
p_opt_def("spent", param_bool, &spent, false),
NULL))
return command_param_failed();
response = json_stream_success(cmd);
utxos = wallet_get_utxos(cmd, cmd->ld->wallet, OUTPUT_STATE_AVAILABLE);
reserved_utxos = wallet_get_utxos(cmd, cmd->ld->wallet, OUTPUT_STATE_RESERVED);
json_array_start(response, "outputs");
json_add_utxos(response, cmd->ld->wallet, utxos);
json_add_utxos(response, cmd->ld->wallet, reserved_utxos);
if (*spent) {
spent_utxos = wallet_get_utxos(cmd, cmd->ld->wallet, OUTPUT_STATE_SPENT);
json_add_utxos(response, cmd->ld->wallet, spent_utxos);
}
json_array_end(response);
/* Add funds that are allocated to channels */
json_array_start(response, "channels");
list_for_each(&cmd->ld->peers, p, list) {
struct channel *c;
list_for_each(&p->channels, c, list) {
/* We don't print out uncommitted channels */
if (channel_unsaved(c))
continue;
json_object_start(response, NULL);
json_add_node_id(response, "peer_id", &p->id);
/* Mirrors logic in listpeers */
json_add_bool(response, "connected",
channel_active(c) && c->connected);
json_add_string(response, "state",
channel_state_name(c));
if (c->scid)
json_add_short_channel_id(response,
"short_channel_id",
c->scid);
json_add_amount_sat_compat(response,
amount_msat_to_sat_round_down(c->our_msat),
"channel_sat",
"our_amount_msat");
json_add_amount_sat_compat(response, c->funding,
"channel_total_sat",
"amount_msat");
json_add_txid(response, "funding_txid",
&c->funding_txid);
json_add_num(response, "funding_output",
c->funding_outnum);
json_object_end(response);
}
}
json_array_end(response);
return command_success(cmd, response);
}
static const struct json_command listfunds_command = {
"listfunds",
"utility",
json_listfunds,
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"Show available funds from the internal wallet",
false,
"Returns a list of funds (outputs) that can be used "
"by the internal wallet to open new channels "
"or can be withdrawn, using the `withdraw` command, to another wallet. "
"Includes spent outputs if {spent} is set to true."
};
AUTODATA(json_command, &listfunds_command);
struct txo_rescan {
struct command *cmd;
struct utxo **utxos;
struct json_stream *response;
};
static void process_utxo_result(struct bitcoind *bitcoind,
const struct bitcoin_tx_output *txout,
void *arg)
{
struct txo_rescan *rescan = arg;
struct json_stream *response = rescan->response;
struct utxo *u = rescan->utxos[0];
enum output_status newstate =
txout == NULL ? OUTPUT_STATE_SPENT : OUTPUT_STATE_AVAILABLE;
json_object_start(rescan->response, NULL);
json_add_txid(response, "txid", &u->txid);
json_add_num(response, "output", u->outnum);
json_add_num(response, "oldstate", u->status);
json_add_num(response, "newstate", newstate);
json_object_end(rescan->response);
wallet_update_output_status(bitcoind->ld->wallet, &u->txid, u->outnum,
u->status, newstate);
/* Remove the utxo we just resolved */
rescan->utxos[0] = rescan->utxos[tal_count(rescan->utxos) - 1];
tal_resize(&rescan->utxos, tal_count(rescan->utxos) - 1);
if (tal_count(rescan->utxos) == 0) {
/* Complete the response */
json_array_end(rescan->response);
was_pending(command_success(rescan->cmd, rescan->response));
} else {
bitcoind_getutxout(
bitcoind->ld->topology->bitcoind, &rescan->utxos[0]->txid,
rescan->utxos[0]->outnum, process_utxo_result, rescan);
}
}
static struct command_result *json_dev_rescan_outputs(struct command *cmd,
const char *buffer,
const jsmntok_t *obj UNNEEDED,
const jsmntok_t *params)
{
struct txo_rescan *rescan = tal(cmd, struct txo_rescan);
if (!param(cmd, buffer, params, NULL))
return command_param_failed();
rescan->response = json_stream_success(cmd);
rescan->cmd = cmd;
/* Open the outputs structure so we can incrementally add results */
json_array_start(rescan->response, "outputs");
rescan->utxos = wallet_get_utxos(rescan, cmd->ld->wallet, OUTPUT_STATE_ANY);
if (tal_count(rescan->utxos) == 0) {
json_array_end(rescan->response);
return command_success(cmd, rescan->response);
}
bitcoind_getutxout(cmd->ld->topology->bitcoind, &rescan->utxos[0]->txid,
rescan->utxos[0]->outnum, process_utxo_result,
rescan);
return command_still_pending(cmd);
}
static const struct json_command dev_rescan_output_command = {
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"dev-rescan-outputs",
"developer",
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json_dev_rescan_outputs,
"Synchronize the state of our funds with bitcoind",
false,
"For each output stored in the internal wallet ask `bitcoind` whether we are in sync with its state (spent vs. unspent)"
};
AUTODATA(json_command, &dev_rescan_output_command);
struct {
enum wallet_tx_type t;
const char *name;
} wallet_tx_type_display_names[] = {
{TX_THEIRS, "theirs"},
{TX_WALLET_DEPOSIT, "deposit"},
{TX_WALLET_WITHDRAWAL, "withdraw"},
{TX_CHANNEL_FUNDING, "channel_funding"},
{TX_CHANNEL_CLOSE, "channel_mutual_close"},
{TX_CHANNEL_UNILATERAL, "channel_unilateral_close"},
{TX_CHANNEL_SWEEP, "channel_sweep"},
{TX_CHANNEL_HTLC_SUCCESS, "channel_htlc_success"},
{TX_CHANNEL_HTLC_TIMEOUT, "channel_htlc_timeout"},
{TX_CHANNEL_PENALTY, "channel_penalty"},
{TX_CHANNEL_CHEAT, "channel_unilateral_cheat"},
{0, NULL}
};
#if EXPERIMENTAL_FEATURES
static const char *txtype_to_string(enum wallet_tx_type t)
{
for (size_t i = 0; wallet_tx_type_display_names[i].name != NULL; i++)
if (t == wallet_tx_type_display_names[i].t)
return wallet_tx_type_display_names[i].name;
return NULL;
}
static void json_add_txtypes(struct json_stream *result, const char *fieldname, enum wallet_tx_type value)
{
json_array_start(result, fieldname);
for (size_t i = 0; wallet_tx_type_display_names[i].name != NULL; i++) {
if (value & wallet_tx_type_display_names[i].t)
json_add_string(result, NULL, wallet_tx_type_display_names[i].name);
}
json_array_end(result);
}
#endif
static void json_transaction_details(struct json_stream *response,
const struct wallet_transaction *tx)
{
struct wally_tx *wtx = tx->tx->wtx;
json_object_start(response, NULL);
json_add_txid(response, "hash", &tx->id);
json_add_hex_talarr(response, "rawtx", tx->rawtx);
json_add_u64(response, "blockheight", tx->blockheight);
json_add_num(response, "txindex", tx->txindex);
#if EXPERIMENTAL_FEATURES
if (tx->annotation.type != 0)
json_add_txtypes(response, "type", tx->annotation.type);
if (tx->annotation.channel.u64 != 0)
json_add_short_channel_id(response, "channel", &tx->annotation.channel);
#endif
json_add_u32(response, "locktime", wtx->locktime);
json_add_u32(response, "version", wtx->version);
json_array_start(response, "inputs");
for (size_t i = 0; i < wtx->num_inputs; i++) {
struct bitcoin_txid prevtxid;
struct wally_tx_input *in = &wtx->inputs[i];
bitcoin_tx_input_get_txid(tx->tx, i, &prevtxid);
json_object_start(response, NULL);
json_add_txid(response, "txid", &prevtxid);
json_add_u32(response, "index", in->index);
json_add_u32(response, "sequence", in->sequence);
#if EXPERIMENTAL_FEATURES
struct tx_annotation *ann = &tx->input_annotations[i];
const char *txtype = txtype_to_string(ann->type);
if (txtype != NULL)
json_add_string(response, "type", txtype);
if (ann->channel.u64 != 0)
json_add_short_channel_id(response, "channel", &ann->channel);
#endif
json_object_end(response);
}
json_array_end(response);
json_array_start(response, "outputs");
for (size_t i = 0; i < wtx->num_outputs; i++) {
struct wally_tx_output *out = &wtx->outputs[i];
struct amount_asset amt = bitcoin_tx_output_get_amount(tx->tx, i);
struct amount_sat sat;
/* TODO We should eventually handle non-bitcoin assets as well. */
if (amount_asset_is_main(&amt))
sat = amount_asset_to_sat(&amt);
else
sat = AMOUNT_SAT(0);
json_object_start(response, NULL);
json_add_u32(response, "index", i);
json_add_amount_sat_only(response, "satoshis", sat);
#if EXPERIMENTAL_FEATURES
struct tx_annotation *ann = &tx->output_annotations[i];
const char *txtype = txtype_to_string(ann->type);
if (txtype != NULL)
json_add_string(response, "type", txtype);
if (ann->channel.u64 != 0)
json_add_short_channel_id(response, "channel", &ann->channel);
#endif
json_add_hex(response, "scriptPubKey", out->script, out->script_len);
json_object_end(response);
}
json_array_end(response);
json_object_end(response);
}
static struct command_result *json_listtransactions(struct command *cmd,
const char *buffer,
const jsmntok_t *obj UNNEEDED,
const jsmntok_t *params)
{
struct json_stream *response;
struct wallet_transaction *txs;
if (!param(cmd, buffer, params, NULL))
return command_param_failed();
txs = wallet_transactions_get(cmd->ld->wallet, cmd);
response = json_stream_success(cmd);
json_array_start(response, "transactions");
for (size_t i = 0; i < tal_count(txs); i++)
json_transaction_details(response, &txs[i]);
json_array_end(response);
return command_success(cmd, response);
}
static const struct json_command listtransactions_command = {
"listtransactions",
"payment",
json_listtransactions,
"List transactions that we stored in the wallet",
false,
"Returns transactions tracked in the wallet. This includes deposits, "
"withdrawals and transactions related to channels. A transaction may have "
"multiple types, e.g., a transaction may both be a close and a deposit if "
"it closes the channel and returns funds to the wallet."
};
AUTODATA(json_command, &listtransactions_command);
static bool in_only_inputs(const u32 *only_inputs, u32 this)
{
for (size_t i = 0; i < tal_count(only_inputs); i++)
if (only_inputs[i] == this)
return true;
return false;
}
static struct command_result *match_psbt_inputs_to_utxos(struct command *cmd,
struct wally_psbt *psbt,
const u32 *only_inputs,
struct utxo ***utxos)
{
*utxos = tal_arr(cmd, struct utxo *, 0);
for (size_t i = 0; i < psbt->tx->num_inputs; i++) {
struct utxo *utxo;
struct bitcoin_txid txid;
if (only_inputs && !in_only_inputs(only_inputs, i))
continue;
wally_tx_input_get_txid(&psbt->tx->inputs[i], &txid);
utxo = wallet_utxo_get(*utxos, cmd->ld->wallet,
&txid, psbt->tx->inputs[i].index);
if (!utxo) {
if (only_inputs)
return command_fail(cmd, LIGHTNINGD,
"Aborting PSBT signing. UTXO %s:%u is unknown (and specified by signonly)",
type_to_string(tmpctx, struct bitcoin_txid,
&txid),
psbt->tx->inputs[i].index);
continue;
}
/* Oops we haven't reserved this utxo yet! */
if (!utxo_is_reserved(utxo, get_block_height(cmd->ld->topology)))
return command_fail(cmd, LIGHTNINGD,
"Aborting PSBT signing. UTXO %s:%u is not reserved",
type_to_string(tmpctx, struct bitcoin_txid,
&utxo->txid),
utxo->outnum);
tal_arr_expand(utxos, utxo);
}
return NULL;
}
static struct command_result *param_input_numbers(struct command *cmd,
const char *name,
const char *buffer,
const jsmntok_t *tok,
u32 **input_nums)
{
struct command_result *res;
const jsmntok_t *arr, *t;
size_t i;
res = param_array(cmd, name, buffer, tok, &arr);
if (res)
return res;
*input_nums = tal_arr(cmd, u32, arr->size);
json_for_each_arr(i, t, arr) {
u32 *num;
res = param_number(cmd, name, buffer, t, &num);
if (res)
return res;
(*input_nums)[i] = *num;
tal_free(num);
}
return NULL;
}
static struct command_result *json_signpsbt(struct command *cmd,
const char *buffer,
const jsmntok_t *obj UNNEEDED,
const jsmntok_t *params)
{
struct command_result *res;
struct json_stream *response;
struct wally_psbt *psbt, *signed_psbt;
struct utxo **utxos;
u32 *input_nums;
if (!param(cmd, buffer, params,
p_req("psbt", param_psbt, &psbt),
p_opt("signonly", param_input_numbers, &input_nums),
NULL))
return command_param_failed();
/* Sanity check! */
for (size_t i = 0; i < tal_count(input_nums); i++) {
if (input_nums[i] >= psbt->num_inputs)
return command_fail(cmd, JSONRPC2_INVALID_PARAMS,
"signonly[%zu]: %u out of range",
i, input_nums[i]);
}
/* We have to find/locate the utxos that are ours on this PSBT,
* so that the HSM knows how/what to sign for (it's possible some of
* our utxos require more complicated data to sign for e.g.
* closeinfo outputs */
res = match_psbt_inputs_to_utxos(cmd, psbt, input_nums, &utxos);
if (res)
return res;
if (tal_count(utxos) == 0)
return command_fail(cmd, LIGHTNINGD,
"No wallet inputs to sign");
/* FIXME: hsm will sign almost anything, but it should really
* fail cleanly (not abort!) and let us report the error here. */
u8 *msg = towire_hsmd_sign_withdrawal(cmd,
cast_const2(const struct utxo **, utxos),
psbt);
if (!wire_sync_write(cmd->ld->hsm_fd, take(msg)))
fatal("Could not write sign_withdrawal to HSM: %s",
strerror(errno));
msg = wire_sync_read(cmd, cmd->ld->hsm_fd);
if (!fromwire_hsmd_sign_withdrawal_reply(cmd, msg, &signed_psbt))
fatal("HSM gave bad sign_withdrawal_reply %s",
tal_hex(tmpctx, msg));
response = json_stream_success(cmd);
json_add_psbt(response, "signed_psbt", signed_psbt);
return command_success(cmd, response);
}
static const struct json_command signpsbt_command = {
"signpsbt",
"bitcoin",
json_signpsbt,
"Sign this wallet's inputs on a provided PSBT.",
false
};
AUTODATA(json_command, &signpsbt_command);
struct sending_psbt {
struct command *cmd;
struct utxo **utxos;
struct wally_tx *wtx;
u32 reserve_blocks;
};
static void sendpsbt_done(struct bitcoind *bitcoind UNUSED,
bool success, const char *msg,
struct sending_psbt *sending)
{
struct lightningd *ld = sending->cmd->ld;
struct json_stream *response;
struct bitcoin_txid txid;
struct amount_sat change;
if (!success) {
/* Unreserve the inputs again. */
for (size_t i = 0; i < tal_count(sending->utxos); i++) {
wallet_unreserve_utxo(ld->wallet,
sending->utxos[i],
get_block_height(ld->topology),
sending->reserve_blocks);
}
was_pending(command_fail(sending->cmd, LIGHTNINGD,
"Error broadcasting transaction: %s."
" Unsent tx discarded %s",
msg,
type_to_string(tmpctx, struct wally_tx,
sending->wtx)));
return;
}
wallet_transaction_add(ld->wallet, sending->wtx, 0, 0);
/* Extract the change output and add it to the DB */
wallet_extract_owned_outputs(ld->wallet, sending->wtx, NULL, &change);
response = json_stream_success(sending->cmd);
wally_txid(sending->wtx, &txid);
json_add_hex_talarr(response, "tx", linearize_wtx(tmpctx, sending->wtx));
json_add_txid(response, "txid", &txid);
was_pending(command_success(sending->cmd, response));
}
static struct command_result *json_sendpsbt(struct command *cmd,
const char *buffer,
const jsmntok_t *obj UNNEEDED,
const jsmntok_t *params)
{
struct command_result *res;
struct sending_psbt *sending;
struct wally_psbt *psbt;
struct lightningd *ld = cmd->ld;
u32 *reserve_blocks;
if (!param(cmd, buffer, params,
p_req("psbt", param_psbt, &psbt),
p_opt_def("reserve", param_number, &reserve_blocks, 12 * 6),
NULL))
return command_param_failed();
sending = tal(cmd, struct sending_psbt);
sending->cmd = cmd;
sending->reserve_blocks = *reserve_blocks;
psbt_finalize(psbt);
sending->wtx = psbt_final_tx(sending, psbt);
if (!sending->wtx)
return command_fail(cmd, LIGHTNINGD,
"PSBT not finalizeable %s",
type_to_string(tmpctx, struct wally_psbt,
psbt));
/* We have to find/locate the utxos that are ours on this PSBT,
* so that we know who to mark as used.
*/
res = match_psbt_inputs_to_utxos(cmd, psbt, NULL, &sending->utxos);
if (res)
return res;
for (size_t i = 0; i < tal_count(sending->utxos); i++) {
if (!wallet_reserve_utxo(ld->wallet, sending->utxos[i],
get_block_height(ld->topology),
sending->reserve_blocks))
fatal("UTXO not reservable?");
}
/* Now broadcast the transaction */
bitcoind_sendrawtx(cmd->ld->topology->bitcoind,
tal_hex(tmpctx,
linearize_wtx(tmpctx, sending->wtx)),
sendpsbt_done, sending);
return command_still_pending(cmd);
}
static const struct json_command sendpsbt_command = {
"sendpsbt",
"bitcoin",
json_sendpsbt,
"Finalize, extract and send a PSBT.",
false
};
AUTODATA(json_command, &sendpsbt_command);