core-lightning/wire/test/run-peer-wire.c
Christian Decker 7283efa5b5 elements: Add amount_asset to support more than just plain satoshis
Currently the only source for amount_asset is the value getter on a tx output,
and we don't hand it too far around (mainly ignoring it if it isn't the
chain's main currency). Eventually we could bubble them up to the wallet, use
them to select outputs or actually support assets in the channels.

Since we don't hand them around too widely I thought it was ok for them to be
pass-by-value rather than having to allocate them and pass them around by
reference. They're just 41 bytes currently so the overhead should be ok.

Signed-off-by: Christian Decker <@cdecker>
2019-10-03 04:32:57 +00:00

1148 lines
32 KiB
C

#include "../gen_peer_wire.c"
#include "../towire.c"
#include "../fromwire.c"
#include "../peer_wire.c"
#include <assert.h>
#include <stdio.h>
#include <common/amount.h>
#include <common/sphinx.h>
secp256k1_context *secp256k1_ctx;
/* AUTOGENERATED MOCKS START */
/* Generated stub for amount_asset_is_main */
bool amount_asset_is_main(struct amount_asset *asset UNNEEDED)
{ fprintf(stderr, "amount_asset_is_main called!\n"); abort(); }
/* Generated stub for amount_asset_to_sat */
struct amount_sat amount_asset_to_sat(struct amount_asset *asset UNNEEDED)
{ fprintf(stderr, "amount_asset_to_sat called!\n"); abort(); }
/* Generated stub for amount_sat_add */
bool amount_sat_add(struct amount_sat *val UNNEEDED,
struct amount_sat a UNNEEDED,
struct amount_sat b UNNEEDED)
{ fprintf(stderr, "amount_sat_add called!\n"); abort(); }
/* Generated stub for amount_sat_eq */
bool amount_sat_eq(struct amount_sat a UNNEEDED, struct amount_sat b UNNEEDED)
{ fprintf(stderr, "amount_sat_eq called!\n"); abort(); }
/* Generated stub for amount_sat_sub */
bool amount_sat_sub(struct amount_sat *val UNNEEDED,
struct amount_sat a UNNEEDED,
struct amount_sat b UNNEEDED)
{ fprintf(stderr, "amount_sat_sub called!\n"); abort(); }
/* Generated stub for bigsize_get */
size_t bigsize_get(const u8 *p UNNEEDED, size_t max UNNEEDED, bigsize_t *val UNNEEDED)
{ fprintf(stderr, "bigsize_get called!\n"); abort(); }
/* Generated stub for bigsize_put */
size_t bigsize_put(u8 buf[BIGSIZE_MAX_LEN] UNNEEDED, bigsize_t v UNNEEDED)
{ fprintf(stderr, "bigsize_put called!\n"); abort(); }
/* Generated stub for fromwire_tlvs */
bool fromwire_tlvs(const u8 **cursor UNNEEDED, size_t *max UNNEEDED,
const struct tlv_record_type types[] UNNEEDED,
size_t num_types UNNEEDED,
void *record UNNEEDED)
{ fprintf(stderr, "fromwire_tlvs called!\n"); abort(); }
/* Generated stub for towire_tlvs */
void towire_tlvs(u8 **pptr UNNEEDED,
const struct tlv_record_type types[] UNNEEDED,
size_t num_types UNNEEDED,
const void *record UNNEEDED)
{ fprintf(stderr, "towire_tlvs called!\n"); abort(); }
/* AUTOGENERATED MOCKS END */
/* memsetting pubkeys doesn't work */
static void set_pubkey(struct pubkey *key)
{
u8 der[PUBKEY_CMPR_LEN];
memset(der, 2, sizeof(der));
assert(pubkey_from_der(der, sizeof(der), key));
}
static void set_node_id(struct node_id *id)
{
memset(id->k, 2, sizeof(id->k));
}
/* Size up to field. */
#define upto_field(p, field) \
((char *)&(p)->field - (char *)(p))
/* Size including field. */
#define with_field(p, field) \
(upto_field((p), field) + sizeof((p)->field))
/* Equal up to this field */
#define eq_upto(p1, p2, field) \
(memcmp((p1), (p2), upto_field(p1, field)) == 0)
/* Equal up to and including this field */
#define eq_with(p1, p2, field) \
(memcmp((p1), (p2), with_field(p1, field)) == 0)
/* Equal from fields first to last inclusive. */
#define eq_between(p1, p2, first, last) \
(memcmp((char *)(p1) + upto_field((p1), first), \
(char *)(p2) + upto_field((p1), first), \
with_field(p1, last) - upto_field(p1, first)) == 0)
/* Equal in one field. */
#define eq_field(p1, p2, field) \
(memcmp((char *)(p1) + upto_field((p1), field), \
(char *)(p2) + upto_field((p1), field), \
sizeof((p1)->field)) == 0)
#define eq_var(p1, p2, field) \
(tal_count((p1)->field) == tal_count((p2)->field) \
&& (tal_count((p1)->field) == 0 || memcmp((p1)->field, (p2)->field, tal_bytelen((p1)->field)) == 0))
/* Convenience structs for everyone! */
struct msg_error {
struct channel_id channel_id;
u8 *data;
};
struct msg_closing_signed {
struct channel_id channel_id;
struct amount_sat fee_satoshis;
secp256k1_ecdsa_signature signature;
};
struct msg_funding_created {
struct channel_id temporary_channel_id;
struct bitcoin_txid txid;
u16 output_index;
secp256k1_ecdsa_signature signature;
};
struct msg_accept_channel {
struct channel_id temporary_channel_id;
struct amount_sat dust_limit_satoshis;
struct amount_msat max_htlc_value_in_flight_msat;
struct amount_sat channel_reserve_satoshis;
struct amount_msat htlc_minimum_msat;
u32 minimum_depth;
u16 to_self_delay;
u16 max_accepted_htlcs;
struct pubkey funding_pubkey;
struct pubkey revocation_basepoint;
struct pubkey payment_basepoint;
struct pubkey delayed_payment_basepoint;
struct pubkey htlc_basepoint;
struct pubkey first_per_commitment_point;
};
struct msg_update_fulfill_htlc {
struct channel_id channel_id;
u64 id;
struct preimage payment_preimage;
};
struct msg_shutdown {
struct channel_id channel_id;
u8 *scriptpubkey;
};
struct msg_funding_signed {
struct channel_id temporary_channel_id;
secp256k1_ecdsa_signature signature;
};
struct msg_revoke_and_ack {
struct channel_id channel_id;
struct secret per_commitment_secret;
struct pubkey next_per_commitment_point;
};
struct msg_channel_update {
secp256k1_ecdsa_signature signature;
u32 timestamp;
u8 message_flags;
u8 channel_flags;
u16 expiry;
struct amount_msat htlc_minimum_msat;
u32 fee_base_msat;
u32 fee_proportional_millionths;
struct bitcoin_blkid chain_hash;
struct short_channel_id short_channel_id;
};
struct msg_channel_update_opt_htlc_max {
secp256k1_ecdsa_signature signature;
u32 timestamp;
u8 message_flags;
u8 channel_flags;
u16 expiry;
struct amount_msat htlc_minimum_msat;
u32 fee_base_msat;
u32 fee_proportional_millionths;
struct amount_msat htlc_maximum_msat;
struct bitcoin_blkid chain_hash;
struct short_channel_id short_channel_id;
};
struct msg_funding_locked {
struct channel_id channel_id;
struct pubkey next_per_commitment_point;
};
struct msg_announcement_signatures {
struct channel_id channel_id;
secp256k1_ecdsa_signature announcement_node_signature;
secp256k1_ecdsa_signature announcement_bitcoin_signature;
struct short_channel_id short_channel_id;
};
struct msg_commitment_signed {
struct channel_id channel_id;
secp256k1_ecdsa_signature signature;
secp256k1_ecdsa_signature *htlc_signature;
};
struct msg_node_announcement {
secp256k1_ecdsa_signature signature;
u32 timestamp;
struct node_id node_id;
u8 rgb_color[3];
u8 alias[32];
u8 *features;
u8 *addresses;
};
struct msg_open_channel {
struct bitcoin_blkid chain_hash;
struct channel_id temporary_channel_id;
struct amount_sat funding_satoshis;
struct amount_msat push_msat;
struct amount_sat dust_limit_satoshis;
struct amount_msat max_htlc_value_in_flight_msat;
struct amount_sat channel_reserve_satoshis;
struct amount_msat htlc_minimum_msat;
u32 feerate_per_kw;
u16 to_self_delay;
u16 max_accepted_htlcs;
struct pubkey funding_pubkey;
struct pubkey revocation_basepoint;
struct pubkey payment_basepoint;
struct pubkey delayed_payment_basepoint;
struct pubkey htlc_basepoint;
struct pubkey first_per_commitment_point;
u8 channel_flags;
};
struct msg_update_fail_htlc {
struct channel_id channel_id;
u64 id;
u8 *reason;
};
struct msg_channel_announcement {
secp256k1_ecdsa_signature node_signature_1;
secp256k1_ecdsa_signature node_signature_2;
secp256k1_ecdsa_signature bitcoin_signature_1;
secp256k1_ecdsa_signature bitcoin_signature_2;
u8 *features;
struct bitcoin_blkid chain_hash;
struct short_channel_id short_channel_id;
struct node_id node_id_1;
struct node_id node_id_2;
struct pubkey bitcoin_key_1;
struct pubkey bitcoin_key_2;
};
struct msg_init {
u8 *globalfeatures;
u8 *localfeatures;
};
struct msg_update_add_htlc {
struct channel_id channel_id;
u64 id;
struct amount_msat amount_msat;
u32 expiry;
struct sha256 payment_hash;
u8 onion_routing_packet[TOTAL_PACKET_SIZE];
};
struct msg_update_fee {
struct channel_id channel_id;
u32 feerate_per_kw;
};
static void *towire_struct_channel_announcement(const tal_t *ctx,
const struct msg_channel_announcement *s)
{
return towire_channel_announcement(ctx,
&s->node_signature_1,
&s->node_signature_2,
&s->bitcoin_signature_1,
&s->bitcoin_signature_2,
s->features,
&s->chain_hash,
&s->short_channel_id,
&s->node_id_1,
&s->node_id_2,
&s->bitcoin_key_1,
&s->bitcoin_key_2);
}
static struct msg_channel_announcement *fromwire_struct_channel_announcement(const tal_t *ctx, const void *p)
{
struct msg_channel_announcement *s = tal(ctx, struct msg_channel_announcement);
if (!fromwire_channel_announcement(s, p,
&s->node_signature_1,
&s->node_signature_2,
&s->bitcoin_signature_1,
&s->bitcoin_signature_2,
&s->features,
&s->chain_hash,
&s->short_channel_id,
&s->node_id_1,
&s->node_id_2,
&s->bitcoin_key_1,
&s->bitcoin_key_2))
return tal_free(s);
return s;
}
static void *towire_struct_open_channel(const tal_t *ctx,
const struct msg_open_channel *s)
{
return towire_open_channel(ctx,
&s->chain_hash,
&s->temporary_channel_id,
s->funding_satoshis,
s->push_msat,
s->dust_limit_satoshis,
s->max_htlc_value_in_flight_msat,
s->channel_reserve_satoshis,
s->htlc_minimum_msat,
s->feerate_per_kw,
s->to_self_delay,
s->max_accepted_htlcs,
&s->funding_pubkey,
&s->revocation_basepoint,
&s->payment_basepoint,
&s->delayed_payment_basepoint,
&s->htlc_basepoint,
&s->first_per_commitment_point,
s->channel_flags);
}
static struct msg_open_channel *fromwire_struct_open_channel(const tal_t *ctx, const void *p)
{
struct msg_open_channel *s = tal(ctx, struct msg_open_channel);
if (fromwire_open_channel(p,
&s->chain_hash,
&s->temporary_channel_id,
&s->funding_satoshis,
&s->push_msat,
&s->dust_limit_satoshis,
&s->max_htlc_value_in_flight_msat,
&s->channel_reserve_satoshis,
&s->htlc_minimum_msat,
&s->feerate_per_kw,
&s->to_self_delay,
&s->max_accepted_htlcs,
&s->funding_pubkey,
&s->revocation_basepoint,
&s->payment_basepoint,
&s->delayed_payment_basepoint,
&s->htlc_basepoint,
&s->first_per_commitment_point,
&s->channel_flags))
return s;
return tal_free(s);
}
static void *towire_struct_accept_channel(const tal_t *ctx,
const struct msg_accept_channel *s)
{
return towire_accept_channel(ctx,
&s->temporary_channel_id,
s->dust_limit_satoshis,
s->max_htlc_value_in_flight_msat,
s->channel_reserve_satoshis,
s->htlc_minimum_msat,
s->minimum_depth,
s->to_self_delay,
s->max_accepted_htlcs,
&s->funding_pubkey,
&s->revocation_basepoint,
&s->payment_basepoint,
&s->htlc_basepoint,
&s->delayed_payment_basepoint,
&s->first_per_commitment_point);
}
static struct msg_accept_channel *fromwire_struct_accept_channel(const tal_t *ctx, const void *p)
{
struct msg_accept_channel *s = tal(ctx, struct msg_accept_channel);
if (fromwire_accept_channel(p,
&s->temporary_channel_id,
&s->dust_limit_satoshis,
&s->max_htlc_value_in_flight_msat,
&s->channel_reserve_satoshis,
&s->htlc_minimum_msat,
&s->minimum_depth,
&s->to_self_delay,
&s->max_accepted_htlcs,
&s->funding_pubkey,
&s->revocation_basepoint,
&s->payment_basepoint,
&s->htlc_basepoint,
&s->delayed_payment_basepoint,
&s->first_per_commitment_point))
return s;
return tal_free(s);
}
static void *towire_struct_node_announcement(const tal_t *ctx,
const struct msg_node_announcement *s)
{
return towire_node_announcement(ctx,
&s->signature,
s->features,
s->timestamp,
&s->node_id,
s->rgb_color,
s->alias,
s->addresses);
}
static struct msg_node_announcement *fromwire_struct_node_announcement(const tal_t *ctx, const void *p)
{
struct msg_node_announcement *s = tal(ctx, struct msg_node_announcement);
if (!fromwire_node_announcement(s, p,
&s->signature,
&s->features,
&s->timestamp,
&s->node_id,
s->rgb_color,
s->alias,
&s->addresses))
return tal_free(s);
return s;
}
static void *towire_struct_channel_update(const tal_t *ctx,
const struct msg_channel_update *s)
{
return towire_channel_update(ctx,
&s->signature,
&s->chain_hash,
&s->short_channel_id,
s->timestamp,
s->message_flags,
s->channel_flags,
s->expiry,
s->htlc_minimum_msat,
s->fee_base_msat,
s->fee_proportional_millionths);
}
static void *towire_struct_channel_update_opt_htlc_max(const tal_t *ctx,
const struct msg_channel_update_opt_htlc_max *s)
{
return towire_channel_update_option_channel_htlc_max(ctx,
&s->signature,
&s->chain_hash,
&s->short_channel_id,
s->timestamp,
s->message_flags,
s->channel_flags,
s->expiry,
s->htlc_minimum_msat,
s->fee_base_msat,
s->fee_proportional_millionths,
s->htlc_maximum_msat);
}
static struct msg_channel_update *fromwire_struct_channel_update(const tal_t *ctx, const void *p)
{
struct msg_channel_update *s = tal(ctx, struct msg_channel_update);
if (fromwire_channel_update(p,
&s->signature,
&s->chain_hash,
&s->short_channel_id,
&s->timestamp,
&s->message_flags,
&s->channel_flags,
&s->expiry,
&s->htlc_minimum_msat,
&s->fee_base_msat,
&s->fee_proportional_millionths))
return s;
return tal_free(s);
}
static struct msg_channel_update_opt_htlc_max
*fromwire_struct_channel_update_opt_htlc_max(const tal_t *ctx, const void *p)
{
struct msg_channel_update_opt_htlc_max *s = tal(ctx, struct msg_channel_update_opt_htlc_max);
if (fromwire_channel_update_option_channel_htlc_max(p,
&s->signature,
&s->chain_hash,
&s->short_channel_id,
&s->timestamp,
&s->message_flags,
&s->channel_flags,
&s->expiry,
&s->htlc_minimum_msat,
&s->fee_base_msat,
&s->fee_proportional_millionths,
&s->htlc_maximum_msat))
return s;
return tal_free(s);
}
static void *towire_struct_funding_locked(const tal_t *ctx,
const struct msg_funding_locked *s)
{
return towire_funding_locked(ctx,
&s->channel_id,
&s->next_per_commitment_point);
}
static struct msg_funding_locked *fromwire_struct_funding_locked(const tal_t *ctx, const void *p)
{
struct msg_funding_locked *s = tal(ctx, struct msg_funding_locked);
if (fromwire_funding_locked(p,
&s->channel_id,
&s->next_per_commitment_point))
return s;
return tal_free(s);
}
static void *towire_struct_announcement_signatures(const tal_t *ctx,
const struct msg_announcement_signatures *s)
{
return towire_announcement_signatures(ctx,
&s->channel_id,
&s->short_channel_id,
&s->announcement_node_signature,
&s->announcement_bitcoin_signature);
}
static struct msg_announcement_signatures *fromwire_struct_announcement_signatures(const tal_t *ctx, const void *p)
{
struct msg_announcement_signatures *s = tal(ctx, struct msg_announcement_signatures);
if (fromwire_announcement_signatures(p,
&s->channel_id,
&s->short_channel_id,
&s->announcement_node_signature,
&s->announcement_bitcoin_signature))
return s;
return tal_free(s);
}
static void *towire_struct_update_fail_htlc(const tal_t *ctx,
const struct msg_update_fail_htlc *s)
{
return towire_update_fail_htlc(ctx,
&s->channel_id,
s->id,
s->reason);
}
static struct msg_update_fail_htlc *fromwire_struct_update_fail_htlc(const tal_t *ctx, const void *p)
{
struct msg_update_fail_htlc *s = tal(ctx, struct msg_update_fail_htlc);
if (!fromwire_update_fail_htlc(ctx, p,
&s->channel_id,
&s->id,
&s->reason))
return tal_free(s);
return s;
}
static void *towire_struct_update_fulfill_htlc(const tal_t *ctx,
const struct msg_update_fulfill_htlc *s)
{
return towire_update_fulfill_htlc(ctx,
&s->channel_id,
s->id,
&s->payment_preimage);
}
static struct msg_update_fulfill_htlc *fromwire_struct_update_fulfill_htlc(const tal_t *ctx, const void *p)
{
struct msg_update_fulfill_htlc *s = tal(ctx, struct msg_update_fulfill_htlc);
if (fromwire_update_fulfill_htlc(p,
&s->channel_id,
&s->id,
&s->payment_preimage))
return s;
return tal_free(s);
}
static void *towire_struct_commitment_signed(const tal_t *ctx,
const struct msg_commitment_signed *s)
{
return towire_commitment_signed(ctx,
&s->channel_id,
&s->signature,
s->htlc_signature);
}
static struct msg_commitment_signed *fromwire_struct_commitment_signed(const tal_t *ctx, const void *p)
{
struct msg_commitment_signed *s = tal(ctx, struct msg_commitment_signed);
if (!fromwire_commitment_signed(s, p,
&s->channel_id,
&s->signature,
&s->htlc_signature))
return tal_free(s);
return s;
}
static void *towire_struct_revoke_and_ack(const tal_t *ctx,
const struct msg_revoke_and_ack *s)
{
return towire_revoke_and_ack(ctx,
&s->channel_id,
&s->per_commitment_secret,
&s->next_per_commitment_point);
}
static struct msg_revoke_and_ack *fromwire_struct_revoke_and_ack(const tal_t *ctx, const void *p)
{
struct msg_revoke_and_ack *s = tal(ctx, struct msg_revoke_and_ack);
if (!fromwire_revoke_and_ack(p,
&s->channel_id,
&s->per_commitment_secret,
&s->next_per_commitment_point))
return tal_free(s);
return s;
}
static void *towire_struct_funding_signed(const tal_t *ctx,
const struct msg_funding_signed *s)
{
return towire_funding_signed(ctx,
&s->temporary_channel_id,
&s->signature);
}
static struct msg_funding_signed *fromwire_struct_funding_signed(const tal_t *ctx, const void *p)
{
struct msg_funding_signed *s = tal(ctx, struct msg_funding_signed);
if (fromwire_funding_signed(p,
&s->temporary_channel_id,
&s->signature))
return s;
return tal_free(s);
}
static void *towire_struct_closing_signed(const tal_t *ctx,
const struct msg_closing_signed *s)
{
return towire_closing_signed(ctx,
&s->channel_id,
s->fee_satoshis,
&s->signature);
}
static struct msg_closing_signed *fromwire_struct_closing_signed(const tal_t *ctx, const void *p)
{
struct msg_closing_signed *s = tal(ctx, struct msg_closing_signed);
if (fromwire_closing_signed(p,
&s->channel_id,
&s->fee_satoshis,
&s->signature))
return s;
return tal_free(s);
}
static void *towire_struct_shutdown(const tal_t *ctx,
const struct msg_shutdown *s)
{
return towire_shutdown(ctx,
&s->channel_id,
s->scriptpubkey);
}
static struct msg_shutdown *fromwire_struct_shutdown(const tal_t *ctx, const void *p)
{
struct msg_shutdown *s = tal(ctx, struct msg_shutdown);
if (!fromwire_shutdown(s, p,
&s->channel_id,
&s->scriptpubkey))
return tal_free(s);
return s;
}
static void *towire_struct_funding_created(const tal_t *ctx,
const struct msg_funding_created *s)
{
return towire_funding_created(ctx,
&s->temporary_channel_id,
&s->txid,
s->output_index,
&s->signature);
}
static struct msg_funding_created *fromwire_struct_funding_created(const tal_t *ctx, const void *p)
{
struct msg_funding_created *s = tal(ctx, struct msg_funding_created);
if (fromwire_funding_created(p,
&s->temporary_channel_id,
&s->txid,
&s->output_index,
&s->signature))
return s;
return tal_free(s);
}
static void *towire_struct_error(const tal_t *ctx,
const struct msg_error *s)
{
return towire_error(ctx,
&s->channel_id,
s->data);
}
static struct msg_error *fromwire_struct_error(const tal_t *ctx, const void *p)
{
struct msg_error *s = tal(ctx, struct msg_error);
if (!fromwire_error(s, p,
&s->channel_id,
&s->data))
return tal_free(s);
return s;
}
static void *towire_struct_update_add_htlc(const tal_t *ctx,
const struct msg_update_add_htlc *s)
{
return towire_update_add_htlc(ctx,
&s->channel_id,
s->id,
s->amount_msat,
&s->payment_hash,
s->expiry,
s->onion_routing_packet);
}
static struct msg_update_add_htlc *fromwire_struct_update_add_htlc(const tal_t *ctx, const void *p)
{
struct msg_update_add_htlc *s = tal(ctx, struct msg_update_add_htlc);
if (fromwire_update_add_htlc(p,
&s->channel_id,
&s->id,
&s->amount_msat,
&s->payment_hash,
&s->expiry,
s->onion_routing_packet))
return s;
return tal_free(s);
}
static void *towire_struct_update_fee(const tal_t *ctx,
const struct msg_update_fee *s)
{
return towire_update_fee(ctx,
&s->channel_id,
s->feerate_per_kw);
}
static struct msg_update_fee *fromwire_struct_update_fee(const tal_t *ctx, const void *p)
{
struct msg_update_fee *s = tal(ctx, struct msg_update_fee);
if (fromwire_update_fee(p,
&s->channel_id,
&s->feerate_per_kw))
return s;
return tal_free(s);
}
static void *towire_struct_init(const tal_t *ctx,
const struct msg_init *s)
{
return towire_init(ctx,
s->globalfeatures,
s->localfeatures);
}
static struct msg_init *fromwire_struct_init(const tal_t *ctx, const void *p)
{
struct msg_init *s = tal(ctx, struct msg_init);
if (!fromwire_init(s, p,
&s->globalfeatures,
&s->localfeatures))
return tal_free(s);
return s;
}
static bool channel_announcement_eq(const struct msg_channel_announcement *a,
const struct msg_channel_announcement *b)
{
return eq_upto(a, b, features)
&& eq_var(a, b, features)
&& eq_field(a, b, chain_hash)
&& short_channel_id_eq(&a->short_channel_id,
&b->short_channel_id)
&& eq_field(a, b, node_id_1)
&& eq_field(a, b, node_id_2)
&& eq_between(a, b, bitcoin_key_1, bitcoin_key_2);
}
static bool funding_locked_eq(const struct msg_funding_locked *a,
const struct msg_funding_locked *b)
{
return memcmp(a, b, sizeof(*a)) == 0;
}
static bool announcement_signatures_eq(const struct msg_announcement_signatures *a,
const struct msg_announcement_signatures *b)
{
return eq_upto(a, b, short_channel_id) &&
short_channel_id_eq(&a->short_channel_id, &b->short_channel_id);
}
static bool update_fail_htlc_eq(const struct msg_update_fail_htlc *a,
const struct msg_update_fail_htlc *b)
{
return eq_with(a, b, id)
&& eq_var(a, b, reason);
}
static bool commitment_signed_eq(const struct msg_commitment_signed *a,
const struct msg_commitment_signed *b)
{
return eq_upto(a, b, htlc_signature)
&& eq_var(a, b, htlc_signature);
}
static bool funding_signed_eq(const struct msg_funding_signed *a,
const struct msg_funding_signed *b)
{
return memcmp(a, b, sizeof(*a)) == 0;
}
static bool closing_signed_eq(const struct msg_closing_signed *a,
const struct msg_closing_signed *b)
{
return memcmp(a, b, sizeof(*a)) == 0;
}
static bool update_fulfill_htlc_eq(const struct msg_update_fulfill_htlc *a,
const struct msg_update_fulfill_htlc *b)
{
return memcmp(a, b, sizeof(*a)) == 0;
}
static bool error_eq(const struct msg_error *a,
const struct msg_error *b)
{
return eq_upto(a, b, data)
&& eq_var(a, b, data);
}
static bool init_eq(const struct msg_init *a,
const struct msg_init *b)
{
return eq_var(a, b, globalfeatures)
&& eq_var(a, b, localfeatures);
}
static bool update_fee_eq(const struct msg_update_fee *a,
const struct msg_update_fee *b)
{
return memcmp(a, b, sizeof(*a)) == 0;
}
static bool shutdown_eq(const struct msg_shutdown *a,
const struct msg_shutdown *b)
{
return eq_upto(a, b, scriptpubkey)
&& eq_var(a, b, scriptpubkey);
}
static bool funding_created_eq(const struct msg_funding_created *a,
const struct msg_funding_created *b)
{
return eq_with(a, b, output_index)
&& eq_field(a, b, signature);
}
static bool revoke_and_ack_eq(const struct msg_revoke_and_ack *a,
const struct msg_revoke_and_ack *b)
{
return memcmp(a, b, sizeof(*a)) == 0;
}
static bool open_channel_eq(const struct msg_open_channel *a,
const struct msg_open_channel *b)
{
return eq_with(a, b, max_accepted_htlcs)
&& eq_between(a, b, funding_pubkey, channel_flags);
}
static bool channel_update_eq(const struct msg_channel_update *a,
const struct msg_channel_update *b)
{
return eq_upto(a, b, short_channel_id) &&
short_channel_id_eq(&a->short_channel_id, &b->short_channel_id);
}
static bool channel_update_opt_htlc_max_eq(const struct msg_channel_update_opt_htlc_max *a,
const struct msg_channel_update_opt_htlc_max *b)
{
return eq_upto(a, b, short_channel_id) &&
short_channel_id_eq(&a->short_channel_id, &b->short_channel_id);
}
static bool accept_channel_eq(const struct msg_accept_channel *a,
const struct msg_accept_channel *b)
{
return eq_with(a, b, max_accepted_htlcs)
&& eq_between(a, b, funding_pubkey, first_per_commitment_point);
}
static bool update_add_htlc_eq(const struct msg_update_add_htlc *a,
const struct msg_update_add_htlc *b)
{
return eq_with(a, b, onion_routing_packet);
}
static bool node_announcement_eq(const struct msg_node_announcement *a,
const struct msg_node_announcement *b)
{
return eq_with(a, b, node_id)
&& eq_field(a, b, rgb_color)
&& eq_field(a, b, alias)
&& eq_var(a, b, features)
&& eq_var(a, b, addresses);
}
/* Try flipping each bit, try running short. */
#define test_corruption(a, b, type) \
for (i = 0; i < tal_count(msg) * 8; i++) { \
msg[i / 8] ^= (1 << (i%8)); \
b = fromwire_struct_##type(ctx, msg); \
assert(!b || !type##_eq(a, b)); \
msg[i / 8] ^= (1 << (i%8)); \
} \
for (i = 0; i < tal_count(msg); i++) { \
u8 *trunc = tal_dup_arr(ctx, u8, msg, i, 0); \
b = fromwire_struct_##type(ctx, trunc); \
assert(!b); \
}
int main(void)
{
setup_locale();
struct msg_channel_announcement ca, *ca2;
struct msg_funding_locked fl, *fl2;
struct msg_announcement_signatures as, *as2;
struct msg_update_fail_htlc ufh, *ufh2;
struct msg_commitment_signed cs, *cs2;
struct msg_funding_signed fs, *fs2;
struct msg_closing_signed cls, *cls2;
struct msg_update_fulfill_htlc uflh, *uflh2;
struct msg_error e, *e2;
struct msg_init init, *init2;
struct msg_update_fee uf, *uf2;
struct msg_shutdown shutdown, *shutdown2;
struct msg_funding_created fc, *fc2;
struct msg_revoke_and_ack raa, *raa2;
struct msg_open_channel oc, *oc2;
struct msg_channel_update cu, *cu2;
struct msg_channel_update_opt_htlc_max cu_opt_htlc_max, *cu_opt_htlc_max2;
struct msg_accept_channel ac, *ac2;
struct msg_update_add_htlc uah, *uah2;
struct msg_node_announcement na, *na2;
void *ctx = tal(NULL, char);
size_t i;
u8 *msg;
secp256k1_ctx = secp256k1_context_create(SECP256K1_CONTEXT_VERIFY
| SECP256K1_CONTEXT_SIGN);
memset(&ca, 2, sizeof(ca));
set_node_id(&ca.node_id_1);
set_node_id(&ca.node_id_2);
set_pubkey(&ca.bitcoin_key_1);
set_pubkey(&ca.bitcoin_key_2);
ca.features = tal_arr(ctx, u8, 2);
memset(ca.features, 2, 2);
msg = towire_struct_channel_announcement(ctx, &ca);
ca2 = fromwire_struct_channel_announcement(ctx, msg);
assert(channel_announcement_eq(&ca, ca2));
test_corruption(&ca, ca2, channel_announcement);
memset(&fl, 2, sizeof(fl));
set_pubkey(&fl.next_per_commitment_point);
msg = towire_struct_funding_locked(ctx, &fl);
fl2 = fromwire_struct_funding_locked(ctx, msg);
assert(funding_locked_eq(&fl, fl2));
test_corruption(&fl, fl2, funding_locked);
memset(&as, 2, sizeof(as));
msg = towire_struct_announcement_signatures(ctx, &as);
as2 = fromwire_struct_announcement_signatures(ctx, msg);
assert(announcement_signatures_eq(&as, as2));
test_corruption(&as, as2, announcement_signatures);
memset(&ufh, 2, sizeof(ufh));
ufh.reason = tal_arr(ctx, u8, 2);
memset(ufh.reason, 2, 2);
msg = towire_struct_update_fail_htlc(ctx, &ufh);
ufh2 = fromwire_struct_update_fail_htlc(ctx, msg);
assert(update_fail_htlc_eq(&ufh, ufh2));
test_corruption(&ufh, ufh2, update_fail_htlc);
memset(&cs, 2, sizeof(cs));
cs.htlc_signature = tal_arr(ctx, secp256k1_ecdsa_signature, 2);
memset(cs.htlc_signature, 2, sizeof(secp256k1_ecdsa_signature)*2);
msg = towire_struct_commitment_signed(ctx, &cs);
cs2 = fromwire_struct_commitment_signed(ctx, msg);
assert(commitment_signed_eq(&cs, cs2));
test_corruption(&cs, cs2, commitment_signed);
memset(&fs, 2, sizeof(fs));
msg = towire_struct_funding_signed(ctx, &fs);
fs2 = fromwire_struct_funding_signed(ctx, msg);
assert(funding_signed_eq(&fs, fs2));
test_corruption(&fs, fs2, funding_signed);
memset(&cls, 2, sizeof(cls));
msg = towire_struct_closing_signed(ctx, &cls);
cls2 = fromwire_struct_closing_signed(ctx, msg);
assert(closing_signed_eq(&cls, cls2));
test_corruption(&cls, cls2, closing_signed);
memset(&uflh, 2, sizeof(uflh));
msg = towire_struct_update_fulfill_htlc(ctx, &uflh);
uflh2 = fromwire_struct_update_fulfill_htlc(ctx, msg);
assert(update_fulfill_htlc_eq(&uflh, uflh2));
test_corruption(&uflh, uflh2, update_fulfill_htlc);
memset(&e, 2, sizeof(e));
e.data = tal_arr(ctx, u8, 2);
memset(e.data, 2, 2);
msg = towire_struct_error(ctx, &e);
e2 = fromwire_struct_error(ctx, msg);
assert(error_eq(&e, e2));
test_corruption(&e, e2, error);
memset(&init, 2, sizeof(init));
init.globalfeatures = tal_arr(ctx, u8, 2);
memset(init.globalfeatures, 2, 2);
init.localfeatures = tal_arr(ctx, u8, 2);
memset(init.localfeatures, 2, 2);
msg = towire_struct_init(ctx, &init);
init2 = fromwire_struct_init(ctx, msg);
assert(init_eq(&init, init2));
test_corruption(&init, init2, init);
memset(&uf, 2, sizeof(uf));
msg = towire_struct_update_fee(ctx, &uf);
uf2 = fromwire_struct_update_fee(ctx, msg);
assert(update_fee_eq(&uf, uf2));
test_corruption(&uf, uf2, update_fee);
memset(&shutdown, 2, sizeof(shutdown));
shutdown.scriptpubkey = tal_arr(ctx, u8, 2);
memset(shutdown.scriptpubkey, 2, 2);
msg = towire_struct_shutdown(ctx, &shutdown);
shutdown2 = fromwire_struct_shutdown(ctx, msg);
assert(shutdown_eq(&shutdown, shutdown2));
test_corruption(&shutdown, shutdown2, shutdown);
memset(&fc, 2, sizeof(fc));
msg = towire_struct_funding_created(ctx, &fc);
fc2 = fromwire_struct_funding_created(ctx, msg);
assert(funding_created_eq(&fc, fc2));
test_corruption(&fc, fc2, funding_created);
memset(&raa, 2, sizeof(raa));
set_pubkey(&raa.next_per_commitment_point);
msg = towire_struct_revoke_and_ack(ctx, &raa);
raa2 = fromwire_struct_revoke_and_ack(ctx, msg);
assert(revoke_and_ack_eq(&raa, raa2));
test_corruption(&raa, raa2, revoke_and_ack);
memset(&oc, 2, sizeof(oc));
set_pubkey(&oc.funding_pubkey);
set_pubkey(&oc.revocation_basepoint);
set_pubkey(&oc.payment_basepoint);
set_pubkey(&oc.delayed_payment_basepoint);
set_pubkey(&oc.htlc_basepoint);
set_pubkey(&oc.first_per_commitment_point);
msg = towire_struct_open_channel(ctx, &oc);
oc2 = fromwire_struct_open_channel(ctx, msg);
assert(open_channel_eq(&oc, oc2));
test_corruption(&oc, oc2, open_channel);
memset(&cu, 2, sizeof(cu));
msg = towire_struct_channel_update(ctx, &cu);
cu2 = fromwire_struct_channel_update(ctx, msg);
assert(channel_update_eq(&cu, cu2));
test_corruption(&cu, cu2, channel_update);
memset(&cu_opt_htlc_max, 2, sizeof(cu_opt_htlc_max));
msg = towire_struct_channel_update_opt_htlc_max(ctx, &cu_opt_htlc_max);
cu_opt_htlc_max2 = fromwire_struct_channel_update_opt_htlc_max(ctx, msg);
assert(channel_update_opt_htlc_max_eq(&cu_opt_htlc_max, cu_opt_htlc_max2));
test_corruption(&cu_opt_htlc_max, cu_opt_htlc_max2, channel_update_opt_htlc_max);
memset(&ac, 2, sizeof(ac));
set_pubkey(&ac.funding_pubkey);
set_pubkey(&ac.revocation_basepoint);
set_pubkey(&ac.payment_basepoint);
set_pubkey(&ac.delayed_payment_basepoint);
set_pubkey(&ac.htlc_basepoint);
set_pubkey(&ac.first_per_commitment_point);
msg = towire_struct_accept_channel(ctx, &ac);
ac2 = fromwire_struct_accept_channel(ctx, msg);
assert(accept_channel_eq(&ac, ac2));
test_corruption(&ac, ac2, accept_channel);
memset(&uah, 2, sizeof(uah));
msg = towire_struct_update_add_htlc(ctx, &uah);
uah2 = fromwire_struct_update_add_htlc(ctx, msg);
assert(update_add_htlc_eq(&uah, uah2));
test_corruption(&uah, uah2, update_add_htlc);
memset(&na, 2, sizeof(na));
set_node_id(&na.node_id);
na.features = tal_arr(ctx, u8, 2);
memset(na.features, 2, 2);
na.addresses = tal_arr(ctx, u8, 2);
memset(na.addresses, 2, 2);
msg = towire_struct_node_announcement(ctx, &na);
na2 = fromwire_struct_node_announcement(ctx, msg);
assert(node_announcement_eq(&na, na2));
test_corruption(&na, na2, node_announcement);
/* No memory leaks please */
secp256k1_context_destroy(secp256k1_ctx);
tal_free(ctx);
return 0;
}