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#include <assert.h>
#include <bitcoin/chainparams.h>
#include <bitcoin/preimage.h>
#include <bitcoin/script.h>
#include <bitcoin/tx.h>
#include <ccan/array_size/array_size.h>
#include <ccan/mem/mem.h>
#include <ccan/tal/str/str.h>
#include <channeld/commit_tx.h>
#include <channeld/full_channel.h>
#include <common/channel_config.h>
#include <common/htlc.h>
#include <common/htlc_tx.h>
#include <common/htlc_wire.h>
#include <common/key_derive.h>
#include <common/keyset.h>
#include <common/status.h>
#include <common/type_to_string.h>
#include <inttypes.h>
#include <stdio.h>
#include <string.h>
/* Needs to be at end, since it doesn't include its own hdrs */
#include "gen_full_channel_error_names.h"
struct channel *new_full_channel(const tal_t *ctx,
const struct bitcoin_blkid *chain_hash,
const struct bitcoin_txid *funding_txid,
unsigned int funding_txout,
u64 funding_satoshis,
u64 local_msatoshi,
const u32 feerate_per_kw[NUM_SIDES],
const struct channel_config *local,
const struct channel_config *remote,
const struct basepoints *local_basepoints,
const struct basepoints *remote_basepoints,
const struct pubkey *local_funding_pubkey,
const struct pubkey *remote_funding_pubkey,
enum side funder)
{
struct channel *channel = new_initial_channel(ctx,
chain_hash,
funding_txid,
funding_txout,
funding_satoshis,
local_msatoshi,
feerate_per_kw[LOCAL],
local, remote,
local_basepoints,
remote_basepoints,
local_funding_pubkey,
remote_funding_pubkey,
funder);
if (channel) {
/* Feerates can be different. */
channel->view[REMOTE].feerate_per_kw = feerate_per_kw[REMOTE];
channel->htlcs = tal(channel, struct htlc_map);
htlc_map_init(channel->htlcs);
tal_add_destructor(channel->htlcs, htlc_map_clear);
}
return channel;
}
static void htlc_arr_append(const struct htlc ***arr, const struct htlc *htlc)
{
if (!arr)
return;
*tal_arr_expand(arr) = htlc;
}
/* What does adding the HTLC do to the balance for this side */
static s64 balance_adding_htlc(const struct htlc *htlc, enum side side)
{
if (htlc_owner(htlc) == side)
return -(s64)htlc->msatoshi;
return 0;
}
/* What does removing the HTLC do to the balance for this side */
static s64 balance_removing_htlc(const struct htlc *htlc, enum side side)
{
enum side paid_to;
/* Fulfilled HTLCs are paid to recipient, otherwise returns to owner */
if (htlc->r)
paid_to = !htlc_owner(htlc);
else
paid_to = htlc_owner(htlc);
if (side == paid_to)
return htlc->msatoshi;
return 0;
}
static void dump_htlc(const struct htlc *htlc, const char *prefix)
{
enum htlc_state remote_state;
if (htlc->state <= RCVD_REMOVE_ACK_REVOCATION)
remote_state = htlc->state + 10;
else
remote_state = htlc->state - 10;
status_trace("%s: HTLC %s %"PRIu64" = %s/%s %s",
prefix,
htlc_owner(htlc) == LOCAL ? "LOCAL" : "REMOTE",
htlc->id,
htlc_state_name(htlc->state),
htlc_state_name(remote_state),
htlc->r ? "FULFILLED" : htlc->fail ? "FAILED" :
htlc->failcode
? tal_fmt(tmpctx, "FAILCODE:%u", htlc->failcode) : "");
}
void dump_htlcs(const struct channel *channel, const char *prefix)
{
#ifdef SUPERVERBOSE
struct htlc_map_iter it;
const struct htlc *htlc;
for (htlc = htlc_map_first(channel->htlcs, &it);
htlc;
htlc = htlc_map_next(channel->htlcs, &it)) {
dump_htlc(htlc, prefix);
}
#endif
}
/* Returns up to three arrays:
* committed: HTLCs currently committed.
* pending_removal: HTLCs pending removal (subset of committed)
* pending_addition: HTLCs pending addition (no overlap with committed)
*/
static void gather_htlcs(const tal_t *ctx,
const struct channel *channel,
enum side side,
const struct htlc ***committed,
const struct htlc ***pending_removal,
const struct htlc ***pending_addition)
{
struct htlc_map_iter it;
const struct htlc *htlc;
const int committed_flag = HTLC_FLAG(side, HTLC_F_COMMITTED);
const int pending_flag = HTLC_FLAG(side, HTLC_F_PENDING);
*committed = tal_arr(ctx, const struct htlc *, 0);
if (pending_removal)
*pending_removal = tal_arr(ctx, const struct htlc *, 0);
if (pending_addition)
*pending_addition = tal_arr(ctx, const struct htlc *, 0);
if (!channel->htlcs)
return;
for (htlc = htlc_map_first(channel->htlcs, &it);
htlc;
htlc = htlc_map_next(channel->htlcs, &it)) {
if (htlc_has(htlc, committed_flag)) {
htlc_arr_append(committed, htlc);
if (htlc_has(htlc, pending_flag))
htlc_arr_append(pending_removal, htlc);
} else if (htlc_has(htlc, pending_flag))
htlc_arr_append(pending_addition, htlc);
}
}
static u64 total_offered_msatoshis(const struct htlc **htlcs, enum side side)
{
size_t i;
u64 total = 0;
for (i = 0; i < tal_count(htlcs); i++) {
if (htlc_owner(htlcs[i]) == side)
total += htlcs[i]->msatoshi;
}
return total;
}
static void add_htlcs(struct bitcoin_tx ***txs,
const u8 ***wscripts,
const struct htlc **htlcmap,
const struct channel *channel,
const struct keyset *keyset,
enum side side)
{
size_t i;
struct bitcoin_txid txid;
u32 feerate_per_kw = channel->view[side].feerate_per_kw;
/* Get txid of commitment transaction */
bitcoin_txid((*txs)[0], &txid);
for (i = 0; i < tal_count(htlcmap); i++) {
const struct htlc *htlc = htlcmap[i];
struct bitcoin_tx *tx;
u8 *wscript;
if (!htlc)
continue;
if (htlc_owner(htlc) == side) {
tx = htlc_timeout_tx(*txs, &txid, i,
htlc->msatoshi,
htlc->expiry.locktime,
channel->config[!side].to_self_delay,
feerate_per_kw,
keyset);
wscript = bitcoin_wscript_htlc_offer(*wscripts,
&keyset->self_htlc_key,
&keyset->other_htlc_key,
&htlc->rhash,
&keyset->self_revocation_key);
} else {
tx = htlc_success_tx(*txs, &txid, i,
htlc->msatoshi,
channel->config[!side].to_self_delay,
feerate_per_kw,
keyset);
wscript = bitcoin_wscript_htlc_receive(*wscripts,
&htlc->expiry,
&keyset->self_htlc_key,
&keyset->other_htlc_key,
&htlc->rhash,
&keyset->self_revocation_key);
}
/* Append to array. */
assert(tal_count(*txs) == tal_count(*wscripts));
*tal_arr_expand(wscripts) = wscript;
*tal_arr_expand(txs) = tx;
}
}
/* FIXME: We could cache these. */
struct bitcoin_tx **channel_txs(const tal_t *ctx,
const struct htlc ***htlcmap,
const u8 ***wscripts,
const struct channel *channel,
const struct pubkey *per_commitment_point,
u64 commitment_number,
enum side side)
{
struct bitcoin_tx **txs;
const struct htlc **committed;
struct keyset keyset;
if (!derive_keyset(per_commitment_point,
&channel->basepoints[side],
&channel->basepoints[!side],
&keyset))
return NULL;
/* Figure out what @side will already be committed to. */
gather_htlcs(ctx, channel, side, &committed, NULL, NULL);
txs = tal_arr(ctx, struct bitcoin_tx *, 1);
txs[0] = commit_tx(ctx, &channel->funding_txid,
channel->funding_txout,
channel->funding_msat / 1000,
channel->funder,
channel->config[!side].to_self_delay,
&keyset,
channel->view[side].feerate_per_kw,
channel->config[side].dust_limit_satoshis,
channel->view[side].owed_msat[side],
channel->view[side].owed_msat[!side],
committed,
htlcmap,
commitment_number ^ channel->commitment_number_obscurer,
side);
*wscripts = tal_arr(ctx, const u8 *, 1);
(*wscripts)[0] = bitcoin_redeem_2of2(*wscripts,
&channel->funding_pubkey[side],
&channel->funding_pubkey[!side]);
add_htlcs(&txs, wscripts, *htlcmap, channel, &keyset, side);
tal_free(committed);
return txs;
}
static enum channel_add_err add_htlc(struct channel *channel,
enum htlc_state state,
u64 id, u64 msatoshi, u32 cltv_expiry,
const struct sha256 *payment_hash,
const u8 routing[TOTAL_PACKET_SIZE],
struct htlc **htlcp,
bool enforce_aggregate_limits)
{
struct htlc *htlc, *old;
s64 msat_in_htlcs, fee_msat, balance_msat;
enum side sender = htlc_state_owner(state), recipient = !sender;
const struct htlc **committed, **adding, **removing;
const struct channel_view *view;
size_t i;
htlc = tal(tmpctx, struct htlc);
htlc->id = id;
htlc->msatoshi = msatoshi;
htlc->state = state;
htlc->shared_secret = NULL;
/* FIXME: Change expiry to simple u32 */
/* BOLT #2:
*
* A receiving node:
*...
* - if sending node sets `cltv_expiry` to greater or equal to
* 500000000:
* - SHOULD fail the channel.
*/
if (!blocks_to_abs_locktime(cltv_expiry, &htlc->expiry)) {
return CHANNEL_ERR_INVALID_EXPIRY;
}
htlc->rhash = *payment_hash;
htlc->fail = NULL;
htlc->failcode = 0;
htlc->failed_scid = NULL;
htlc->r = NULL;
htlc->routing = tal_dup_arr(htlc, u8, routing, TOTAL_PACKET_SIZE, 0);
old = htlc_get(channel->htlcs, htlc->id, htlc_owner(htlc));
if (old) {
if (old->state != htlc->state
|| old->msatoshi != htlc->msatoshi
|| old->expiry.locktime != htlc->expiry.locktime
|| !sha256_eq(&old->rhash, &htlc->rhash))
return CHANNEL_ERR_DUPLICATE_ID_DIFFERENT;
else
return CHANNEL_ERR_DUPLICATE;
}
/* We're always considering the recipient's view of the channel here */
view = &channel->view[recipient];
/* BOLT #2:
*
* A receiving node:
* - receiving an `amount_msat` equal to 0, OR less than its own
* `htlc_minimum_msat`:
* - SHOULD fail the channel.
*/
if (htlc->msatoshi == 0) {
return CHANNEL_ERR_HTLC_BELOW_MINIMUM;
}
if (htlc->msatoshi < channel->config[recipient].htlc_minimum_msat) {
return CHANNEL_ERR_HTLC_BELOW_MINIMUM;
}
/* BOLT #2:
*
* - for channels with `chain_hash` identifying the Bitcoin blockchain:
* - MUST set the four most significant bytes of `amount_msat` to 0.
*/
if (htlc->msatoshi > channel->chainparams->max_payment_msat) {
return CHANNEL_ERR_MAX_HTLC_VALUE_EXCEEDED;
}
/* Figure out what receiver will already be committed to. */
gather_htlcs(tmpctx, channel, recipient, &committed, &removing, &adding);
htlc_arr_append(&adding, htlc);
/* BOLT #2:
*
* - if a sending node adds more than its `max_accepted_htlcs` HTLCs to
* its local commitment transaction...
* - SHOULD fail the channel.
*/
if (enforce_aggregate_limits
&& tal_count(committed) - tal_count(removing) + tal_count(adding)
> channel->config[recipient].max_accepted_htlcs) {
return CHANNEL_ERR_TOO_MANY_HTLCS;
}
msat_in_htlcs = total_offered_msatoshis(committed, htlc_owner(htlc))
- total_offered_msatoshis(removing, htlc_owner(htlc))
+ total_offered_msatoshis(adding, htlc_owner(htlc));
/* BOLT #2:
*
* - if a sending node... adds more than its
* `max_htlc_value_in_flight_msat` worth of offered HTLCs to its
* local commitment transaction:
* - SHOULD fail the channel.
*/
if (enforce_aggregate_limits
&& msat_in_htlcs > channel->config[recipient].max_htlc_value_in_flight_msat) {
return CHANNEL_ERR_MAX_HTLC_VALUE_EXCEEDED;
}
/* BOLT #2:
*
* A receiving node:
*...
* - receiving an `amount_msat` that the sending node cannot afford at
* the current `feerate_per_kw` (while maintaining its channel
* reserve):
* - SHOULD fail the channel.
*/
if (channel->funder == htlc_owner(htlc)) {
u32 feerate = view->feerate_per_kw;
u64 dust = channel->config[recipient].dust_limit_satoshis;
size_t untrimmed;
untrimmed = commit_tx_num_untrimmed(committed, feerate, dust,
recipient)
+ commit_tx_num_untrimmed(adding, feerate, dust,
recipient)
- commit_tx_num_untrimmed(removing, feerate, dust,
recipient);
fee_msat = commit_tx_base_fee(feerate, untrimmed);
} else
fee_msat = 0;
assert(fee_msat >= 0);
/* Figure out what balance sender would have after applying all
* pending changes. */
balance_msat = view->owed_msat[sender];
assert(balance_msat >= 0);
for (i = 0; i < tal_count(removing); i++)
balance_msat += balance_removing_htlc(removing[i], sender);
assert(balance_msat >= 0);
for (i = 0; i < tal_count(adding); i++)
balance_msat += balance_adding_htlc(adding[i], sender);
/* This is a little subtle:
*
* The change is being applied to the receiver but it will
* come back to the sender after revoke_and_ack. So the check
* here is that the balance to the sender doesn't go below the
* sender's reserve. */
if (enforce_aggregate_limits
&& balance_msat - fee_msat < (s64)channel_reserve_msat(channel, sender)) {
status_trace("balance = %"PRIu64
", fee is %"PRIu64
", reserve is %"PRIu64,
balance_msat, fee_msat,
channel_reserve_msat(channel, sender));
return CHANNEL_ERR_CHANNEL_CAPACITY_EXCEEDED;
}
dump_htlc(htlc, "NEW:");
htlc_map_add(channel->htlcs, tal_steal(channel, htlc));
if (htlcp)
*htlcp = htlc;
/* This is simply setting changes_pending[receiver] unless it's
* an exotic state (i.e. channel_force_htlcs) */
if (htlc_state_flags(htlc->state) & HTLC_LOCAL_F_PENDING)
channel->changes_pending[LOCAL] = true;
if (htlc_state_flags(htlc->state) & HTLC_REMOTE_F_PENDING)
channel->changes_pending[REMOTE] = true;
return CHANNEL_ERR_ADD_OK;
}
enum channel_add_err channel_add_htlc(struct channel *channel,
enum side sender,
u64 id,
u64 msatoshi,
u32 cltv_expiry,
const struct sha256 *payment_hash,
const u8 routing[TOTAL_PACKET_SIZE],
struct htlc **htlcp)
{
enum htlc_state state;
if (sender == LOCAL)
state = SENT_ADD_HTLC;
else
state = RCVD_ADD_HTLC;
/* FIXME: check expiry etc. against config. */
return add_htlc(channel, state, id, msatoshi, cltv_expiry,
payment_hash, routing, htlcp, true);
}
struct htlc *channel_get_htlc(struct channel *channel, enum side sender, u64 id)
{
return htlc_get(channel->htlcs, id, sender);
}
enum channel_remove_err channel_fulfill_htlc(struct channel *channel,
enum side owner,
u64 id,
const struct preimage *preimage,
struct htlc **htlcp)
{
struct sha256 hash;
struct htlc *htlc;
htlc = channel_get_htlc(channel, owner, id);
if (!htlc)
return CHANNEL_ERR_NO_SUCH_ID;
if (htlc->r)
return CHANNEL_ERR_ALREADY_FULFILLED;
sha256(&hash, preimage, sizeof(*preimage));
/* BOLT #2:
*
* - if the `payment_preimage` value in `update_fulfill_htlc`
* doesn't SHA256 hash to the corresponding HTLC `payment_hash`:
* - MUST fail the channel.
*/
if (!sha256_eq(&hash, &htlc->rhash))
return CHANNEL_ERR_BAD_PREIMAGE;
htlc->r = tal_dup(htlc, struct preimage, preimage);
/* BOLT #2:
*
* - if the `id` does not correspond to an HTLC in its current
* commitment transaction:
* - MUST fail the channel.
*/
if (!htlc_has(htlc, HTLC_FLAG(!htlc_owner(htlc), HTLC_F_COMMITTED))) {
status_trace("channel_fulfill_htlc: %"PRIu64" in state %s",
htlc->id, htlc_state_name(htlc->state));
return CHANNEL_ERR_HTLC_UNCOMMITTED;
}
/* We enforce a stricter check, forcing state machine to be linear,
* based on: */
/* BOLT #2:
*
* A node:
*...
* - until the corresponding HTLC is irrevocably committed in both
* sides' commitment transactions:
* - MUST NOT send an `update_fulfill_htlc`, `update_fail_htlc`, or
* `update_fail_malformed_htlc`.
*/
if (htlc->state == SENT_ADD_ACK_REVOCATION)
htlc->state = RCVD_REMOVE_HTLC;
else if (htlc->state == RCVD_ADD_ACK_REVOCATION)
htlc->state = SENT_REMOVE_HTLC;
else {
status_trace("channel_fulfill_htlc: %"PRIu64" in state %s",
htlc->id, htlc_state_name(htlc->state));
return CHANNEL_ERR_HTLC_NOT_IRREVOCABLE;
}
/* The HTLC owner is the recipient of the fulfillment. */
channel->changes_pending[owner] = true;
dump_htlc(htlc, "FULFILL:");
if (htlcp)
*htlcp = htlc;
return CHANNEL_ERR_REMOVE_OK;
}
enum channel_remove_err channel_fail_htlc(struct channel *channel,
enum side owner, u64 id,
struct htlc **htlcp)
{
struct htlc *htlc;
htlc = channel_get_htlc(channel, owner, id);
if (!htlc)
return CHANNEL_ERR_NO_SUCH_ID;
/* BOLT #2:
*
* A receiving node:
* - if the `id` does not correspond to an HTLC in its current
* commitment transaction:
* - MUST fail the channel.
*/
if (!htlc_has(htlc, HTLC_FLAG(!htlc_owner(htlc), HTLC_F_COMMITTED))) {
status_trace("channel_fail_htlc: %"PRIu64" in state %s",
htlc->id, htlc_state_name(htlc->state));
return CHANNEL_ERR_HTLC_UNCOMMITTED;
}
/* FIXME: Technically, they can fail this before we're committed to
* it. This implies a non-linear state machine. */
if (htlc->state == SENT_ADD_ACK_REVOCATION)
htlc->state = RCVD_REMOVE_HTLC;
else if (htlc->state == RCVD_ADD_ACK_REVOCATION)
htlc->state = SENT_REMOVE_HTLC;
else {
status_trace("channel_fail_htlc: %"PRIu64" in state %s",
htlc->id, htlc_state_name(htlc->state));
return CHANNEL_ERR_HTLC_NOT_IRREVOCABLE;
}
/* The HTLC owner is the recipient of the failure. */
channel->changes_pending[owner] = true;
dump_htlc(htlc, "FAIL:");
if (htlcp)
*htlcp = htlc;
return CHANNEL_ERR_REMOVE_OK;
}
static void htlc_incstate(struct channel *channel,
struct htlc *htlc,
enum side sidechanged)
{
int preflags, postflags;
const int committed_f = HTLC_FLAG(sidechanged, HTLC_F_COMMITTED);
status_trace("htlc %"PRIu64": %s->%s", htlc->id,
htlc_state_name(htlc->state),
htlc_state_name(htlc->state+1));
preflags = htlc_state_flags(htlc->state);
postflags = htlc_state_flags(htlc->state + 1);
/* You can't change sides. */
assert((preflags & (HTLC_LOCAL_F_OWNER|HTLC_REMOTE_F_OWNER))
== (postflags & (HTLC_LOCAL_F_OWNER|HTLC_REMOTE_F_OWNER)));
htlc->state++;
/* If we've added or removed, adjust balances. */
if (!(preflags & committed_f) && (postflags & committed_f)) {
status_trace("htlc added %s: local %+"PRIi64" remote %+"PRIi64,
side_to_str(sidechanged),
balance_adding_htlc(htlc, LOCAL),
balance_adding_htlc(htlc, REMOTE));
channel->view[sidechanged].owed_msat[LOCAL]
+= balance_adding_htlc(htlc, LOCAL);
channel->view[sidechanged].owed_msat[REMOTE]
+= balance_adding_htlc(htlc, REMOTE);
} else if ((preflags & committed_f) && !(postflags & committed_f)) {
status_trace("htlc removed %s: local %+"PRIi64" remote %+"PRIi64,
side_to_str(sidechanged),
balance_removing_htlc(htlc, LOCAL),
balance_removing_htlc(htlc, REMOTE));
channel->view[sidechanged].owed_msat[LOCAL]
+= balance_removing_htlc(htlc, LOCAL);
channel->view[sidechanged].owed_msat[REMOTE]
+= balance_removing_htlc(htlc, REMOTE);
}
}
/* Returns flags which were changed. */
static int change_htlcs(struct channel *channel,
enum side sidechanged,
const enum htlc_state *htlc_states,
size_t n_hstates,
const struct htlc ***htlcs,
const char *prefix)
{
struct htlc_map_iter it;
struct htlc *h;
int cflags = 0;
size_t i;
for (h = htlc_map_first(channel->htlcs, &it);
h;
h = htlc_map_next(channel->htlcs, &it)) {
for (i = 0; i < n_hstates; i++) {
if (h->state == htlc_states[i]) {
htlc_incstate(channel, h, sidechanged);
dump_htlc(h, prefix);
htlc_arr_append(htlcs, h);
cflags |= (htlc_state_flags(htlc_states[i])
^ htlc_state_flags(h->state));
}
}
}
return cflags;
}
/* FIXME: The sender's requirements are *implied* by this, not stated! */
/* BOLT #2:
*
* A receiving node:
*...
* - if the sender cannot afford the new fee rate on the receiving node's
* current commitment transaction:
* - SHOULD fail the channel,
*/
u32 approx_max_feerate(const struct channel *channel)
{
size_t num;
u64 weight;
const struct htlc **committed, **adding, **removing;
gather_htlcs(tmpctx, channel, !channel->funder,
&committed, &removing, &adding);
/* Assume none are trimmed; this gives lower bound on feerate. */
num = tal_count(committed) + tal_count(adding) - tal_count(removing);
weight = 724 + 172 * num;
return channel->view[!channel->funder].owed_msat[channel->funder]
/ weight * 1000;
}
bool can_funder_afford_feerate(const struct channel *channel, u32 feerate_per_kw)
{
u64 fee_msat, dust = channel->config[!channel->funder].dust_limit_satoshis;
size_t untrimmed;
const struct htlc **committed, **adding, **removing;
gather_htlcs(tmpctx, channel, !channel->funder,
&committed, &removing, &adding);
untrimmed = commit_tx_num_untrimmed(committed, feerate_per_kw, dust,
!channel->funder)
+ commit_tx_num_untrimmed(adding, feerate_per_kw, dust,
!channel->funder)
- commit_tx_num_untrimmed(removing, feerate_per_kw, dust,
!channel->funder);
fee_msat = commit_tx_base_fee(feerate_per_kw, untrimmed);
/* BOLT #2:
*
* - if the sender cannot afford the new fee rate on the receiving
* node's current commitment transaction:
* - SHOULD fail the channel
*/
/* Note: sender == funder */
/* How much does it think it has? Must be >= reserve + fee */
return channel->view[!channel->funder].owed_msat[channel->funder]
>= channel_reserve_msat(channel, channel->funder) + fee_msat;
}
bool channel_update_feerate(struct channel *channel, u32 feerate_per_kw)
{
if (!can_funder_afford_feerate(channel, feerate_per_kw))
return false;
status_trace("Setting %s feerate to %u",
side_to_str(!channel->funder), feerate_per_kw);
channel->view[!channel->funder].feerate_per_kw = feerate_per_kw;
channel->changes_pending[!channel->funder] = true;
return true;
}
u32 channel_feerate(const struct channel *channel, enum side side)
{
return channel->view[side].feerate_per_kw;
}
bool channel_sending_commit(struct channel *channel,
const struct htlc ***htlcs)
{
const enum htlc_state states[] = { SENT_ADD_HTLC,
SENT_REMOVE_REVOCATION,
SENT_ADD_REVOCATION,
SENT_REMOVE_HTLC };
status_trace("Trying commit");
if (!channel->changes_pending[REMOTE]) {
assert(change_htlcs(channel, REMOTE, states, ARRAY_SIZE(states),
htlcs, "testing sending_commit") == 0);
return false;
}
change_htlcs(channel, REMOTE, states, ARRAY_SIZE(states),
htlcs, "sending_commit");
channel->changes_pending[REMOTE] = false;
return true;
}
bool channel_rcvd_revoke_and_ack(struct channel *channel,
const struct htlc ***htlcs)
{
int change;
const enum htlc_state states[] = { SENT_ADD_COMMIT,
SENT_REMOVE_ACK_COMMIT,
SENT_ADD_ACK_COMMIT,
SENT_REMOVE_COMMIT };
status_trace("Received revoke_and_ack");
change = change_htlcs(channel, LOCAL, states, ARRAY_SIZE(states),
htlcs, "rcvd_revoke_and_ack");
/* Their ack can queue changes on our side. */
if (change & HTLC_LOCAL_F_PENDING)
channel->changes_pending[LOCAL] = true;
/* For funder, ack also means time to apply new feerate locally. */
if (channel->funder == LOCAL &&
(channel->view[LOCAL].feerate_per_kw
!= channel->view[REMOTE].feerate_per_kw)) {
status_trace("Applying feerate %u to LOCAL",
channel->view[REMOTE].feerate_per_kw);
channel->view[LOCAL].feerate_per_kw
= channel->view[REMOTE].feerate_per_kw;
channel->changes_pending[LOCAL] = true;
}
return channel->changes_pending[LOCAL];
}
/* FIXME: We can actually merge these two... */
bool channel_rcvd_commit(struct channel *channel, const struct htlc ***htlcs)
{
const enum htlc_state states[] = { RCVD_ADD_REVOCATION,
RCVD_REMOVE_HTLC,
RCVD_ADD_HTLC,
RCVD_REMOVE_REVOCATION };
status_trace("Received commit");
if (!channel->changes_pending[LOCAL]) {
assert(change_htlcs(channel, LOCAL, states, ARRAY_SIZE(states),
htlcs, "testing rcvd_commit") == 0);
return false;
}
change_htlcs(channel, LOCAL, states, ARRAY_SIZE(states), htlcs,
"rcvd_commit");
channel->changes_pending[LOCAL] = false;
return true;
}
bool channel_sending_revoke_and_ack(struct channel *channel)
{
int change;
const enum htlc_state states[] = { RCVD_ADD_ACK_COMMIT,
RCVD_REMOVE_COMMIT,
RCVD_ADD_COMMIT,
RCVD_REMOVE_ACK_COMMIT };
status_trace("Sending revoke_and_ack");
change = change_htlcs(channel, REMOTE, states, ARRAY_SIZE(states), NULL,
"sending_revoke_and_ack");
/* Our ack can queue changes on their side. */
if (change & HTLC_REMOTE_F_PENDING)
channel->changes_pending[REMOTE] = true;
/* For non-funder, sending ack means we apply any fund changes to them */
if (channel->funder == REMOTE
&& (channel->view[LOCAL].feerate_per_kw
!= channel->view[REMOTE].feerate_per_kw)) {
status_trace("Applying feerate %u to REMOTE",
channel->view[LOCAL].feerate_per_kw);
channel->view[REMOTE].feerate_per_kw
= channel->view[LOCAL].feerate_per_kw;
channel->changes_pending[REMOTE] = true;
}
return channel->changes_pending[REMOTE];
}
size_t num_channel_htlcs(const struct channel *channel)
{
struct htlc_map_iter it;
const struct htlc *htlc;
size_t n = 0;
for (htlc = htlc_map_first(channel->htlcs, &it);
htlc;
htlc = htlc_map_next(channel->htlcs, &it)) {
/* FIXME: Clean these out! */
if (!htlc_is_dead(htlc))
n++;
}
return n;
}
static bool adjust_balance(struct channel *channel, struct htlc *htlc)
{
enum side side;
for (side = 0; side < NUM_SIDES; side++) {
/* Did it ever add it? */
if (!htlc_has(htlc, HTLC_FLAG(side, HTLC_F_WAS_COMMITTED)))
continue;
/* Add it. */
channel->view[side].owed_msat[LOCAL]
+= balance_adding_htlc(htlc, LOCAL);
channel->view[side].owed_msat[REMOTE]
+= balance_adding_htlc(htlc, REMOTE);
/* If it is no longer committed, remove it (depending
* on fail || fulfill). */
if (htlc_has(htlc, HTLC_FLAG(side, HTLC_F_COMMITTED)))
continue;
if (!htlc->fail && !htlc->failcode && !htlc->r) {
status_trace("%s HTLC %"PRIu64
" %s neither fail nor fulfill?",
htlc_state_owner(htlc->state) == LOCAL
? "out" : "in",
htlc->id,
htlc_state_name(htlc->state));
return false;
}
channel->view[side].owed_msat[LOCAL]
+= balance_removing_htlc(htlc, LOCAL);
channel->view[side].owed_msat[REMOTE]
+= balance_removing_htlc(htlc, REMOTE);
}
return true;
}
bool channel_force_htlcs(struct channel *channel,
const struct added_htlc *htlcs,
const enum htlc_state *hstates,
const struct fulfilled_htlc *fulfilled,
const enum side *fulfilled_sides,
const struct failed_htlc **failed,
const enum side *failed_sides)
{
size_t i;
if (tal_count(hstates) != tal_count(htlcs)) {
status_trace("#hstates %zu != #htlcs %zu",
tal_count(hstates), tal_count(htlcs));
return false;
}
if (tal_count(fulfilled) != tal_count(fulfilled_sides)) {
status_trace("#fulfilled sides %zu != #fulfilled %zu",
tal_count(fulfilled_sides), tal_count(fulfilled));
return false;
}
if (tal_count(failed) != tal_count(failed_sides)) {
status_trace("#failed sides %zu != #failed %zu",
tal_count(failed_sides), tal_count(failed));
return false;
}
for (i = 0; i < tal_count(htlcs); i++) {
enum channel_add_err e;
struct htlc *htlc;
status_trace("Restoring HTLC %zu/%zu:"
" id=%"PRIu64" msat=%"PRIu64" cltv=%u"
" payment_hash=%s",
i, tal_count(htlcs),
htlcs[i].id, htlcs[i].amount_msat,
htlcs[i].cltv_expiry,
type_to_string(tmpctx, struct sha256,
&htlcs[i].payment_hash));
e = add_htlc(channel, hstates[i],
htlcs[i].id, htlcs[i].amount_msat,
htlcs[i].cltv_expiry,
&htlcs[i].payment_hash,
htlcs[i].onion_routing_packet, &htlc, false);
if (e != CHANNEL_ERR_ADD_OK) {
status_trace("%s HTLC %"PRIu64" failed error %u",
htlc_state_owner(hstates[i]) == LOCAL
? "out" : "in", htlcs[i].id, e);
return false;
}
}
for (i = 0; i < tal_count(fulfilled); i++) {
struct htlc *htlc = channel_get_htlc(channel,
fulfilled_sides[i],
fulfilled[i].id);
if (!htlc) {
status_trace("Fulfill %s HTLC %"PRIu64" not found",
fulfilled_sides[i] == LOCAL ? "out" : "in",
fulfilled[i].id);
return false;
}
if (htlc->r) {
status_trace("Fulfill %s HTLC %"PRIu64" already fulfilled",
fulfilled_sides[i] == LOCAL ? "out" : "in",
fulfilled[i].id);
return false;
}
if (htlc->fail) {
status_trace("Fulfill %s HTLC %"PRIu64" already failed",
fulfilled_sides[i] == LOCAL ? "out" : "in",
fulfilled[i].id);
return false;
}
if (htlc->failcode) {
status_trace("Fulfill %s HTLC %"PRIu64" already fail %u",
fulfilled_sides[i] == LOCAL ? "out" : "in",
fulfilled[i].id, htlc->failcode);
return false;
}
if (!htlc_has(htlc, HTLC_REMOVING)) {
status_trace("Fulfill %s HTLC %"PRIu64" state %s",
fulfilled_sides[i] == LOCAL ? "out" : "in",
fulfilled[i].id,
htlc_state_name(htlc->state));
return false;
}
htlc->r = tal_dup(htlc, struct preimage,
&fulfilled[i].payment_preimage);
}
for (i = 0; i < tal_count(failed); i++) {
struct htlc *htlc;
htlc = channel_get_htlc(channel, failed_sides[i],
failed[i]->id);
if (!htlc) {
status_trace("Fail %s HTLC %"PRIu64" not found",
failed_sides[i] == LOCAL ? "out" : "in",
failed[i]->id);
return false;
}
if (htlc->r) {
status_trace("Fail %s HTLC %"PRIu64" already fulfilled",
failed_sides[i] == LOCAL ? "out" : "in",
failed[i]->id);
return false;
}
if (htlc->fail) {
status_trace("Fail %s HTLC %"PRIu64" already failed",
failed_sides[i] == LOCAL ? "out" : "in",
failed[i]->id);
return false;
}
if (htlc->failcode) {
status_trace("Fail %s HTLC %"PRIu64" already fail %u",
failed_sides[i] == LOCAL ? "out" : "in",
failed[i]->id, htlc->failcode);
return false;
}
if (!htlc_has(htlc, HTLC_REMOVING)) {
status_trace("Fail %s HTLC %"PRIu64" state %s",
failed_sides[i] == LOCAL ? "out" : "in",
fulfilled[i].id,
htlc_state_name(htlc->state));
return false;
}
htlc->failcode = failed[i]->failcode;
if (failed[i]->failreason)
htlc->fail = tal_dup_arr(htlc, u8,
failed[i]->failreason,
tal_count(failed[i]->failreason),
0);
else
htlc->fail = NULL;
if (failed[i]->scid)
htlc->failed_scid = tal_dup(htlc,
struct short_channel_id,
failed[i]->scid);
else
htlc->failed_scid = NULL;
}
for (i = 0; i < tal_count(htlcs); i++) {
struct htlc *htlc;
htlc = channel_get_htlc(channel,
htlc_state_owner(hstates[i]),
htlcs[i].id);
if (!adjust_balance(channel, htlc))
return false;
}
return true;
}
const char *channel_add_err_name(enum channel_add_err e)
{
static char invalidbuf[sizeof("INVALID ") + STR_MAX_CHARS(e)];
for (size_t i = 0; enum_channel_add_err_names[i].name; i++) {
if (enum_channel_add_err_names[i].v == e)
return enum_channel_add_err_names[i].name;
}
snprintf(invalidbuf, sizeof(invalidbuf), "INVALID %i", e);
return invalidbuf;
}
const char *channel_remove_err_name(enum channel_remove_err e)
{
static char invalidbuf[sizeof("INVALID ") + STR_MAX_CHARS(e)];
for (size_t i = 0; enum_channel_remove_err_names[i].name; i++) {
if (enum_channel_remove_err_names[i].v == e)
return enum_channel_remove_err_names[i].name;
}
snprintf(invalidbuf, sizeof(invalidbuf), "INVALID %i", e);
return invalidbuf;
}