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#include "bitcoind.h"
#include "commit_tx.h"
#include "cryptopkt.h"
#include "dns.h"
#include "find_p2sh_out.h"
#include "jsonrpc.h"
#include "lightningd.h"
#include "log.h"
#include "names.h"
#include "peer.h"
#include "secrets.h"
#include "state.h"
#include <bitcoin/base58.h>
#include <bitcoin/script.h>
#include <bitcoin/tx.h>
#include <ccan/array_size/array_size.h>
#include <ccan/io/io.h>
#include <ccan/list/list.h>
#include <ccan/noerr/noerr.h>
#include <ccan/structeq/structeq.h>
#include <ccan/tal/str/str.h>
#include <ccan/tal/tal.h>
#include <errno.h>
#include <netinet/in.h>
#include <stdlib.h>
#include <sys/socket.h>
#include <sys/types.h>
#define FIXME_STUB(peer) do { log_broken((peer)->dstate->base_log, "%s:%u: Implement %s!", __FILE__, __LINE__, __func__); abort(); } while(0)
struct json_connecting {
/* This owns us, so we're freed after command_fail or command_success */
struct command *cmd;
const char *name, *port;
u64 satoshis;
};
static void queue_output_pkt(struct peer *peer, Pkt *pkt)
{
peer->outpkt[peer->num_outpkt++] = pkt;
assert(peer->num_outpkt < ARRAY_SIZE(peer->outpkt));
/* In case it was waiting for output. */
io_wake(peer);
}
static struct json_result *null_response(const tal_t *ctx)
{
struct json_result *response;
response = new_json_result(ctx);
json_object_start(response, NULL);
json_object_end(response);
return response;
}
static void peer_cmd_complete(struct peer *peer, enum command_status status)
{
assert(peer->cmd != INPUT_NONE);
if (peer->jsoncmd) {
if (status == CMD_FAIL)
/* FIXME: y'know, details. */
command_fail(peer->jsoncmd, "Failed");
else {
assert(status == CMD_SUCCESS);
command_success(peer->jsoncmd,
null_response(peer->jsoncmd));
}
peer->jsoncmd = NULL;
}
peer->cmd = INPUT_NONE;
}
static void update_state(struct peer *peer,
const enum state_input input,
const union input *idata)
{
enum command_status status;
Pkt *outpkt;
const struct bitcoin_tx *broadcast;
status = state(peer, peer, input, idata, &outpkt, &broadcast);
log_debug(peer->log, "%s => %s",
input_name(input), state_name(peer->state));
switch (status) {
case CMD_NONE:
break;
case CMD_SUCCESS:
log_add(peer->log, " (command success)");
peer_cmd_complete(peer, CMD_SUCCESS);
break;
case CMD_FAIL:
log_add(peer->log, " (command FAIL)");
peer_cmd_complete(peer, CMD_FAIL);
break;
case CMD_REQUEUE:
log_add(peer->log, " (Command requeue)");
break;
}
if (outpkt) {
log_add(peer->log, " (out %s)", input_name(outpkt->pkt_case));
queue_output_pkt(peer, outpkt);
}
if (broadcast) {
struct sha256_double txid;
bitcoin_txid(broadcast, &txid);
/* FIXME: log_struct */
log_add(peer->log, " (tx %02x%02x%02x%02x...)",
txid.sha.u.u8[0], txid.sha.u.u8[1],
txid.sha.u.u8[2], txid.sha.u.u8[3]);
bitcoind_send_tx(peer->dstate, broadcast);
}
}
static struct io_plan *pkt_out(struct io_conn *conn, struct peer *peer)
{
Pkt *out;
if (peer->num_outpkt == 0)
return io_out_wait(conn, peer, pkt_out, peer);
out = peer->outpkt[--peer->num_outpkt];
return peer_write_packet(conn, peer, out, pkt_out);
}
static void try_command(struct peer *peer)
{
while (peer->cond == PEER_CMD_OK && peer->cmd != INPUT_NONE)
update_state(peer, peer->cmd, &peer->cmddata);
if (peer->cond == PEER_CLOSED)
io_close(peer->conn);
}
static struct io_plan *pkt_in(struct io_conn *conn, struct peer *peer)
{
union input idata;
const tal_t *ctx = tal(peer, char);
idata.pkt = tal_steal(ctx, peer->inpkt);
update_state(peer, peer->inpkt->pkt_case, &idata);
/* Free peer->inpkt unless stolen above. */
tal_free(ctx);
if (peer->cond == PEER_CLOSED)
return io_close(conn);
/* Ready for command? */
if (peer->cond == PEER_CMD_OK)
try_command(peer);
return peer_read_packet(conn, peer, pkt_in);
}
/* Crypto is on, we are live. */
static struct io_plan *peer_crypto_on(struct io_conn *conn, struct peer *peer)
{
peer_secrets_init(peer);
peer_get_revocation_hash(peer, 0, &peer->us.revocation_hash);
assert(peer->state == STATE_INIT);
peer->cmd = peer->us.offer_anchor;
try_command(peer);
return io_duplex(conn,
peer_read_packet(conn, peer, pkt_in),
pkt_out(conn, peer));
}
static void destroy_peer(struct peer *peer)
{
if (peer->conn)
io_close(peer->conn);
list_del_from(&peer->dstate->peers, &peer->list);
}
static void peer_disconnect(struct io_conn *conn, struct peer *peer)
{
Pkt *outpkt;
const struct bitcoin_tx *broadcast;
log_info(peer->log, "Disconnected");
/* No longer connected. */
peer->conn = NULL;
/* Not even set up yet? Simply free.*/
if (peer->state == STATE_INIT) {
tal_free(peer);
return;
}
/* FIXME: Try to reconnect. */
state(peer, peer, CMD_CLOSE, NULL, &outpkt, &broadcast);
/* Can't send packet, so ignore it. */
tal_free(outpkt);
if (broadcast) {
struct sha256_double txid;
bitcoin_txid(broadcast, &txid);
/* FIXME: log_struct */
log_debug(peer->log, "CMD_CLOSE: tx %02x%02x%02x%02x...",
txid.sha.u.u8[0], txid.sha.u.u8[1],
txid.sha.u.u8[2], txid.sha.u.u8[3]);
bitcoind_send_tx(peer->dstate, broadcast);
}
}
static struct peer *new_peer(struct lightningd_state *dstate,
struct io_conn *conn,
int addr_type, int addr_protocol,
enum state_input offer_anchor,
const char *in_or_out)
{
struct peer *peer = tal(dstate, struct peer);
assert(offer_anchor == CMD_OPEN_WITH_ANCHOR
|| offer_anchor == CMD_OPEN_WITHOUT_ANCHOR);
/* FIXME: Stop listening if too many peers? */
list_add(&dstate->peers, &peer->list);
peer->state = STATE_INIT;
peer->cond = PEER_CMD_OK;
peer->dstate = dstate;
peer->addr.type = addr_type;
peer->addr.protocol = addr_protocol;
peer->io_data = NULL;
peer->secrets = NULL;
list_head_init(&peer->watches);
peer->num_outpkt = 0;
peer->cmd = INPUT_NONE;
/* If we free peer, conn should be closed, but can't be freed
* immediately so don't make peer a parent. */
peer->conn = conn;
io_set_finish(conn, peer_disconnect, peer);
peer->us.offer_anchor = offer_anchor;
if (!seconds_to_rel_locktime(dstate->config.rel_locktime,
&peer->us.locktime))
fatal("Invalid locktime configuration %u",
dstate->config.rel_locktime);
peer->us.mindepth = dstate->config.anchor_confirms;
/* FIXME: Make this dynamic. */
peer->us.commit_fee = dstate->config.commitment_fee;
peer->us.commit = peer->them.commit = NULL;
/* FIXME: Attach IO logging for this peer. */
tal_add_destructor(peer, destroy_peer);
peer->addr.addrlen = sizeof(peer->addr.saddr);
if (getpeername(io_conn_fd(conn), &peer->addr.saddr.s,
&peer->addr.addrlen) != 0) {
log_unusual(dstate->base_log,
"Could not get address for peer: %s",
strerror(errno));
return tal_free(peer);
}
peer->log = new_log(peer, dstate->log_record, "%s%s:%s:",
log_prefix(dstate->base_log), in_or_out,
netaddr_name(peer, &peer->addr));
return peer;
}
static struct io_plan *peer_connected_out(struct io_conn *conn,
struct lightningd_state *dstate,
struct json_connecting *connect)
{
/* Initiator currently funds channel */
struct peer *peer = new_peer(dstate, conn, SOCK_STREAM, IPPROTO_TCP,
CMD_OPEN_WITH_ANCHOR, "out");
if (!peer) {
command_fail(connect->cmd, "Failed to make peer for %s:%s",
connect->name, connect->port);
return io_close(conn);
}
log_info(peer->log, "Connected out to %s:%s",
connect->name, connect->port);
peer->anchor.satoshis = connect->satoshis;
peer->jsoncmd = NULL;
command_success(connect->cmd, null_response(connect));
return peer_crypto_setup(conn, peer, peer_crypto_on);
}
static struct io_plan *peer_connected_in(struct io_conn *conn,
struct lightningd_state *dstate)
{
struct peer *peer = new_peer(dstate, conn, SOCK_STREAM, IPPROTO_TCP,
CMD_OPEN_WITHOUT_ANCHOR, "in");
if (!peer)
return io_close(conn);
log_info(peer->log, "Peer connected in");
peer->jsoncmd = NULL;
return peer_crypto_setup(conn, peer, peer_crypto_on);
}
static int make_listen_fd(struct lightningd_state *dstate,
int domain, void *addr, socklen_t len)
{
int fd = socket(domain, SOCK_STREAM, 0);
if (fd < 0) {
log_debug(dstate->base_log, "Failed to create %u socket: %s",
domain, strerror(errno));
return -1;
}
if (!addr || bind(fd, addr, len) == 0) {
if (listen(fd, 5) == 0)
return fd;
log_unusual(dstate->base_log,
"Failed to listen on %u socket: %s",
domain, strerror(errno));
} else
log_debug(dstate->base_log, "Failed to bind on %u socket: %s",
domain, strerror(errno));
close_noerr(fd);
return -1;
}
void setup_listeners(struct lightningd_state *dstate, unsigned int portnum)
{
struct sockaddr_in addr;
struct sockaddr_in6 addr6;
socklen_t len;
int fd1, fd2;
u16 listen_port;
addr.sin_family = AF_INET;
addr.sin_addr.s_addr = INADDR_ANY;
addr.sin_port = htons(portnum);
addr6.sin6_family = AF_INET6;
addr6.sin6_addr = in6addr_any;
addr6.sin6_port = htons(portnum);
/* IPv6, since on Linux that (usually) binds to IPv4 too. */
fd1 = make_listen_fd(dstate, AF_INET6, portnum ? &addr6 : NULL,
sizeof(addr6));
if (fd1 >= 0) {
struct sockaddr_in6 in6;
len = sizeof(in6);
if (getsockname(fd1, (void *)&in6, &len) != 0) {
log_unusual(dstate->base_log,
"Failed get IPv6 sockname: %s",
strerror(errno));
close_noerr(fd1);
} else {
addr.sin_port = in6.sin6_port;
listen_port = ntohs(addr.sin_port);
log_info(dstate->base_log,
"Creating IPv6 listener on port %u",
listen_port);
io_new_listener(dstate, fd1, peer_connected_in, dstate);
}
}
/* Just in case, aim for the same port... */
fd2 = make_listen_fd(dstate, AF_INET,
addr.sin_port ? &addr : NULL, sizeof(addr));
if (fd2 >= 0) {
len = sizeof(addr);
if (getsockname(fd2, (void *)&addr, &len) != 0) {
log_unusual(dstate->base_log,
"Failed get IPv4 sockname: %s",
strerror(errno));
close_noerr(fd2);
} else {
listen_port = ntohs(addr.sin_port);
log_info(dstate->base_log,
"Creating IPv4 listener on port %u",
listen_port);
io_new_listener(dstate, fd2, peer_connected_in, dstate);
}
}
if (fd1 < 0 && fd2 < 0)
fatal("Could not bind to a network address");
}
static void peer_failed(struct lightningd_state *dstate,
struct json_connecting *connect)
{
/* FIXME: Better diagnostics! */
command_fail(connect->cmd, "Failed to connect to peer %s:%s",
connect->name, connect->port);
}
static void json_connect(struct command *cmd,
const char *buffer, const jsmntok_t *params)
{
struct json_connecting *connect;
jsmntok_t *host, *port, *satoshis;
json_get_params(buffer, params,
"host", &host,
"port", &port,
"satoshis", &satoshis,
NULL);
if (!host || !port || !satoshis) {
command_fail(cmd, "Need host, port and satoshis");
return;
}
connect = tal(cmd, struct json_connecting);
connect->cmd = cmd;
connect->name = tal_strndup(connect, buffer + host->start,
host->end - host->start);
connect->port = tal_strndup(connect, buffer + port->start,
port->end - port->start);
if (!json_tok_u64(buffer, satoshis, &connect->satoshis))
command_fail(cmd, "'%.*s' is not a valid number",
(int)(satoshis->end - satoshis->start),
buffer + satoshis->start);
if (!dns_resolve_and_connect(cmd->dstate, connect->name, connect->port,
peer_connected_out, peer_failed, connect)) {
command_fail(cmd, "DNS failed");
return;
}
}
const struct json_command connect_command = {
"connect",
json_connect,
"Connect to a {host} at {port} offering anchor of {satoshis}",
"Returns an empty result on success"
};
struct anchor_watch {
enum state_input depthok;
enum state_input timeout;
enum state_input unspent;
enum state_input theyspent;
enum state_input otherspent;
};
static void anchor_depthchange(struct peer *peer, int depth,
struct anchor_watch *w)
{
/* Still waiting for it to reach depth? */
if (w->depthok != INPUT_NONE) {
/* Beware sign! */
if (depth >= (int)peer->us.mindepth) {
enum state_input in = w->depthok;
w->depthok = INPUT_NONE;
update_state(peer, in, NULL);
}
} else {
if (depth < 0 && w->unspent != INPUT_NONE) {
enum state_input in = w->unspent;
w->unspent = INPUT_NONE;
update_state(peer, in, NULL);
}
}
}
/* We don't compare scriptSigs: we don't know them anyway! */
static bool txmatch(const struct bitcoin_tx *txa, const struct bitcoin_tx *txb)
{
size_t i;
if (txa->version != txb->version
|| txa->input_count != txb->input_count
|| txa->output_count != txb->output_count
|| txa->lock_time != txb->lock_time)
return false;
for (i = 0; i < txa->input_count; i++) {
if (!structeq(&txa->input[i].txid, &txb->input[i].txid)
|| txa->input[i].index != txb->input[i].index
|| txa->input[i].sequence_number != txb->input[i].sequence_number)
return false;
}
for (i = 0; i < txa->output_count; i++) {
if (txa->output[i].amount != txb->output[i].amount
|| txa->output[i].script_length != txb->output[i].script_length
|| memcmp(txa->output[i].script, txb->output[i].script,
txa->output[i].script_length != 0))
return false;
}
return true;
}
/* We assume the tx is valid! Don't do a blockchain.info and feed this
* invalid transactions! */
static void anchor_spent(struct peer *peer,
const struct bitcoin_tx *tx,
struct anchor_watch *w)
{
union input idata;
/* FIXME: change type in idata? */
idata.btc = (struct bitcoin_event *)tx;
if (txmatch(tx, peer->them.commit))
update_state(peer, w->theyspent, &idata);
else
update_state(peer, w->otherspent, &idata);
}
void peer_watch_anchor(struct peer *peer,
enum state_input depthok,
enum state_input timeout,
enum state_input unspent,
enum state_input theyspent,
enum state_input otherspent)
{
struct anchor_watch *w = tal(peer, struct anchor_watch);
w->depthok = depthok;
w->timeout = timeout;
w->unspent = unspent;
w->theyspent = theyspent;
w->otherspent = otherspent;
add_anchor_watch(peer, &peer->anchor.txid, peer->anchor.index,
anchor_depthchange,
anchor_spent,
w);
/* FIXME: add timeout */
}
void peer_unwatch_anchor_depth(struct peer *peer,
enum state_input depthok,
enum state_input timeout)
{
FIXME_STUB(peer);
}
void peer_watch_delayed(struct peer *peer,
const struct bitcoin_tx *tx,
enum state_input canspend)
{
FIXME_STUB(peer);
}
void peer_watch_tx(struct peer *peer,
const struct bitcoin_tx *tx,
enum state_input done)
{
FIXME_STUB(peer);
}
void peer_watch_close(struct peer *peer,
enum state_input done, enum state_input timedout)
{
FIXME_STUB(peer);
}
void peer_unwatch_close_timeout(struct peer *peer, enum state_input timedout)
{
FIXME_STUB(peer);
}
bool peer_watch_our_htlc_outputs(struct peer *peer,
const struct bitcoin_tx *tx,
enum state_input tous_timeout,
enum state_input tothem_spent,
enum state_input tothem_timeout)
{
FIXME_STUB(peer);
}
bool peer_watch_their_htlc_outputs(struct peer *peer,
const struct bitcoin_event *tx,
enum state_input tous_timeout,
enum state_input tothem_spent,
enum state_input tothem_timeout)
{
FIXME_STUB(peer);
}
void peer_unwatch_htlc_output(struct peer *peer,
const struct htlc *htlc,
enum state_input all_done)
{
FIXME_STUB(peer);
}
void peer_unwatch_all_htlc_outputs(struct peer *peer)
{
FIXME_STUB(peer);
}
void peer_watch_htlc_spend(struct peer *peer,
const struct bitcoin_tx *tx,
const struct htlc *htlc,
enum state_input done)
{
/* FIXME! */
}
void peer_unwatch_htlc_spend(struct peer *peer,
const struct htlc *htlc,
enum state_input all_done)
{
FIXME_STUB(peer);
}
void peer_unexpected_pkt(struct peer *peer, const Pkt *pkt)
{
FIXME_STUB(peer);
}
/* Someone declined our HTLC: details in pkt (we will also get CMD_FAIL) */
void peer_htlc_declined(struct peer *peer, const Pkt *pkt)
{
FIXME_STUB(peer);
}
/* Called when their update overrides our update cmd. */
void peer_htlc_ours_deferred(struct peer *peer)
{
FIXME_STUB(peer);
}
/* Successfully added/fulfilled/timedout/routefail an HTLC. */
void peer_htlc_done(struct peer *peer)
{
FIXME_STUB(peer);
}
/* Someone aborted an existing HTLC. */
void peer_htlc_aborted(struct peer *peer)
{
FIXME_STUB(peer);
}
/* An on-chain transaction revealed an R value. */
const struct htlc *peer_tx_revealed_r_value(struct peer *peer,
const struct bitcoin_event *btc)
{
FIXME_STUB(peer);
}
bool committed_to_htlcs(const struct peer *peer)
{
/* FIXME */
return false;
}
/* Create a bitcoin close tx. */
const struct bitcoin_tx *bitcoin_close(const tal_t *ctx,
const struct peer *peer)
{
#if 0
struct bitcoin_tx *close_tx;
u8 *redeemscript;
close_tx = create_close_tx(ctx, peer->us.openpkt, peer->them.openpkt,
peer->anchorpkt,
peer->cstate.a.pay_msat / 1000,
peer->cstate.b.pay_msat / 1000);
/* This is what the anchor pays to. */
redeemscript = bitcoin_redeem_2of2(close_tx, &peer->us.commitkey,
&peer->them.commitkey);
/* Combined signatures must validate correctly. */
if (!check_2of2_sig(close_tx, 0, redeemscript, tal_count(redeemscript),
&peer->us.finalkey, &peer->them.finalkey,
&peer->us.closesig, &peer->them.closesig))
fatal("bitcoin_close signature failed");
/* Create p2sh input for close_tx */
close_tx->input[0].script = scriptsig_p2sh_2of2(close_tx,
&peer->us.closesig,
&peer->them.closesig,
&peer->us.finalkey,
&peer->them.finalkey);
close_tx->input[0].script_length = tal_count(close_tx->input[0].script);
return close_tx;
#endif
FIXME_STUB(peer);
}
/* Create a bitcoin spend tx (to spend our commit's outputs) */
const struct bitcoin_tx *bitcoin_spend_ours(const tal_t *ctx,
const struct peer *peer)
{
#if 0
u8 *redeemscript;
redeemscript = bitcoin_redeem_secret_or_delay(ctx,
&peer->us.commitkey,
&peer->them.locktime,
&peer->them.commitkey,
&peer->revocation_hash);
/* Now, create transaction to spend it. */
tx = bitcoin_tx(ctx, 1, 1);
bitcoin_txid(commit, &tx->input[0].txid);
p2sh_out = find_p2sh_out(commit, redeemscript);
tx->input[0].index = p2sh_out;
tx->input[0].input_amount = commit->output[p2sh_out].amount;
tx->fee = fee;
tx->input[0].sequence_number = bitcoin_nsequence(locktime);
if (commit->output[p2sh_out].amount <= fee)
errx(1, "Amount of %llu won't exceed fee",
(unsigned long long)commit->output[p2sh_out].amount);
tx->output[0].amount = commit->output[p2sh_out].amount - fee;
tx->output[0].script = scriptpubkey_p2sh(tx,
bitcoin_redeem_single(tx, &outpubkey));
tx->output[0].script_length = tal_count(tx->output[0].script);
/* Now get signature, to set up input script. */
if (!sign_tx_input(tx, 0, redeemscript, tal_count(redeemscript),
&privkey, &pubkey1, &sig.sig))
errx(1, "Could not sign tx");
sig.stype = SIGHASH_ALL;
tx->input[0].script = scriptsig_p2sh_secret(tx, NULL, 0, &sig,
redeemscript,
tal_count(redeemscript));
tx->input[0].script_length = tal_count(tx->input[0].script);
#endif
FIXME_STUB(peer);
}
/* Create a bitcoin spend tx (to spend their commit's outputs) */
const struct bitcoin_tx *bitcoin_spend_theirs(const tal_t *ctx,
const struct peer *peer,
const struct bitcoin_event *btc)
{
FIXME_STUB(peer);
}
/* Create a bitcoin steal tx (to steal all their commit's outputs) */
const struct bitcoin_tx *bitcoin_steal(const tal_t *ctx,
const struct peer *peer,
struct bitcoin_event *btc)
{
FIXME_STUB(peer);
}
/* Create our commit tx */
const struct bitcoin_tx *bitcoin_commit(const tal_t *ctx, struct peer *peer)
{
FIXME_STUB(peer);
}
/* Create a HTLC refund collection */
const struct bitcoin_tx *bitcoin_htlc_timeout(const tal_t *ctx,
const struct peer *peer,
const struct htlc *htlc)
{
FIXME_STUB(peer);
}
/* Create a HTLC collection */
const struct bitcoin_tx *bitcoin_htlc_spend(const tal_t *ctx,
const struct peer *peer,
const struct htlc *htlc)
{
FIXME_STUB(peer);
}
static void created_anchor(struct lightningd_state *dstate,
const struct bitcoin_tx *tx,
struct peer *peer)
{
size_t commitfee;
bitcoin_txid(tx, &peer->anchor.txid);
peer->anchor.index = find_p2sh_out(tx, peer->anchor.redeemscript);
assert(peer->anchor.satoshis == tx->output[peer->anchor.index].amount);
/* We'll need this later, when we're told to broadcast it. */
peer->anchor.tx = tal_steal(peer, tx);
commitfee = commit_fee(peer->them.commit_fee, peer->us.commit_fee);
peer->cstate = initial_funding(peer,
peer->us.offer_anchor,
peer->anchor.satoshis,
commitfee);
if (!peer->cstate)
fatal("Insufficient anchor funds for commitfee");
/* Now we can make initial (unsigned!) commit txs. */
make_commit_txs(peer, peer,
&peer->us.revocation_hash,
&peer->them.revocation_hash,
peer->cstate,
&peer->us.commit,
&peer->them.commit);
update_state(peer, BITCOIN_ANCHOR_CREATED, NULL);
}
/* Start creation of the bitcoin anchor tx. */
void bitcoin_create_anchor(struct peer *peer, enum state_input done)
{
struct sha256 h;
struct ripemd160 redeemhash;
char *p2shaddr;
/* We must be offering anchor for us to try creating it */
assert(peer->us.offer_anchor);
sha256(&h, peer->anchor.redeemscript,
tal_count(peer->anchor.redeemscript));
ripemd160(&redeemhash, h.u.u8, sizeof(h));
p2shaddr = p2sh_to_base58(peer, peer->dstate->config.testnet,
&redeemhash);
assert(done == BITCOIN_ANCHOR_CREATED);
bitcoind_create_payment(peer->dstate, p2shaddr, peer->anchor.satoshis,
created_anchor, peer);
}
/* We didn't end up broadcasting the anchor: release the utxos.
* If done != INPUT_NONE, remove existing create_anchor too. */
void bitcoin_release_anchor(struct peer *peer, enum state_input done)
{
/* FIXME: stop bitcoind command */
log_unusual(peer->log, "Anchor not spent, please -zapwallettxs");
}
/* Get the bitcoin anchor tx. */
const struct bitcoin_tx *bitcoin_anchor(const tal_t *ctx, struct peer *peer)
{
return peer->anchor.tx;
}
void make_commit_txs(const tal_t *ctx,
const struct peer *peer,
const struct sha256 *our_revocation_hash,
const struct sha256 *their_revocation_hash,
const struct channel_state *cstate,
struct bitcoin_tx **ours, struct bitcoin_tx **theirs)
{
struct channel_state their_cstate;
*ours = create_commit_tx(ctx,
&peer->us.finalkey,
&peer->them.finalkey,
&peer->them.locktime,
&peer->anchor.txid,
peer->anchor.index,
peer->anchor.satoshis,
our_revocation_hash,
cstate);
their_cstate = *cstate;
invert_cstate(&their_cstate);
*theirs = create_commit_tx(ctx,
&peer->them.finalkey,
&peer->us.finalkey,
&peer->us.locktime,
&peer->anchor.txid,
peer->anchor.index,
peer->anchor.satoshis,
their_revocation_hash,
&their_cstate);
}
/* FIXME: Somehow we should show running DNS lookups! */
/* FIXME: Show status of peers! */
static void json_getpeers(struct command *cmd,
const char *buffer, const jsmntok_t *params)
{
struct peer *p;
struct json_result *response = new_json_result(cmd);
json_object_start(response, NULL);
json_array_start(response, "peers");
list_for_each(&cmd->dstate->peers, p, list) {
json_object_start(response, NULL);
json_add_string(response, "name", log_prefix(p->log));
json_add_string(response, "state", state_name(p->state));
json_add_string(response, "cmd", input_name(p->cmd));
/* This is only valid after crypto setup. */
if (p->state != STATE_INIT)
json_add_hex(response, "id",
p->id.der, pubkey_derlen(&p->id));
json_object_end(response);
}
json_array_end(response);
json_object_end(response);
command_success(cmd, response);
}
const struct json_command getpeers_command = {
"getpeers",
json_getpeers,
"List the current peers",
"Returns a 'peers' array"
};