core-lightning/channeld/full_channel.c
Rusty Russell 68a8eeea21 htlc_wire: rename malformed to failcode in struct failed_htlc.
I'm not completely convinced that it's only ever set to a failcode
with the BADONION bit set, especially after the previous patches in
this series.  Now that channeld can handle arbitrary failcodes passed
this way, simply rename it.

We add marshalling assertions that only one of failcode and failreason
is set, and we unmarshal an empty 'fail' to NULL (just the the
generated unmarshalling code does).

Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2018-07-08 15:56:34 +02:00

1097 lines
31 KiB
C

#include <assert.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_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, 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)
{
size_t n;
if (!arr)
return;
n = tal_count(*arr);
tal_resize(arr, n+1);
(*arr)[n] = 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 -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, n;
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,
to_self_delay(channel, side),
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,
to_self_delay(channel, side),
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. */
n = tal_count(*txs);
assert(n == tal_count(*wscripts));
tal_resize(wscripts, n+1);
tal_resize(txs, n+1);
(*wscripts)[n] = wscript;
(*txs)[n] = 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].payment,
&channel->basepoints[!side].payment,
&channel->basepoints[side].htlc,
&channel->basepoints[!side].htlc,
&channel->basepoints[side].delayed_payment,
&channel->basepoints[!side].revocation,
&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,
to_self_delay(channel, side),
&keyset,
channel->view[side].feerate_per_kw,
dust_limit_satoshis(channel, side),
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->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 < htlc_minimum_msat(channel, recipient)) {
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 & 0xFFFFFFFF00000000ULL) {
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)
> max_accepted_htlcs(channel, recipient)) {
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 > max_htlc_value_in_flight_msat(channel, recipient)) {
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 = dust_limit_satoshis(channel, recipient);
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);
}
}
static void append_htlc(const struct htlc ***htlcs, const struct htlc *h)
{
size_t n;
if (!htlcs)
return;
n = tal_count(*htlcs);
tal_resize(htlcs, n+1);
(*htlcs)[n] = h;
}
/* 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);
append_htlc(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 = dust_limit_satoshis(channel, !channel->funder);
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_len(failed[i]->failreason),
0);
else
htlc->fail = 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;
}
sprintf(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;
}
sprintf(invalidbuf, "INVALID %i", e);
return invalidbuf;
}