// You may not use this file except in accordance with one or both of these
// licenses.
+//! Utilities for creating and parsing short channel ids.
+
/// Maximum block height that can be used in a `short_channel_id`. This
/// value is based on the 3-bytes available for block height.
pub const MAX_SCID_BLOCK: u64 = 0x00ffffff;
pub const MAX_SCID_VOUT_INDEX: u64 = 0xffff;
/// A `short_channel_id` construction error
-#[derive(Debug, PartialEq)]
+#[derive(Debug, PartialEq, Eq)]
pub enum ShortChannelIdError {
+ /// Block height too high
BlockOverflow,
+ /// Tx index too high
TxIndexOverflow,
+ /// Vout index too high
VoutIndexOverflow,
}
/// Extracts the block height (most significant 3-bytes) from the `short_channel_id`
-pub fn block_from_scid(short_channel_id: &u64) -> u32 {
+pub fn block_from_scid(short_channel_id: u64) -> u32 {
return (short_channel_id >> 40) as u32;
}
/// Extracts the tx index (bytes [2..4]) from the `short_channel_id`
-pub fn tx_index_from_scid(short_channel_id: &u64) -> u32 {
+pub fn tx_index_from_scid(short_channel_id: u64) -> u32 {
return ((short_channel_id >> 16) & MAX_SCID_TX_INDEX) as u32;
}
/// Extracts the vout (bytes [0..2]) from the `short_channel_id`
-pub fn vout_from_scid(short_channel_id: &u64) -> u16 {
+pub fn vout_from_scid(short_channel_id: u64) -> u16 {
return ((short_channel_id) & MAX_SCID_VOUT_INDEX) as u16;
}
/// LDK has multiple reasons to generate fake short channel ids:
/// 1) outbound SCID aliases we use for private channels
/// 2) phantom node payments, to get an scid for the phantom node's phantom channel
+/// 3) payments intended to be intercepted will route using a fake scid (this is typically used so
+/// the forwarding node can open a JIT channel to the next hop)
pub(crate) mod fake_scid {
- use bitcoin::hash_types::BlockHash;
- use bitcoin::hashes::hex::FromHex;
- use chain::keysinterface::{Sign, KeysInterface};
- use util::chacha20::ChaCha20;
- use util::scid_utils;
+ use bitcoin::blockdata::constants::ChainHash;
+ use bitcoin::network::constants::Network;
+ use crate::sign::EntropySource;
+ use crate::crypto::chacha20::ChaCha20;
+ use crate::util::scid_utils;
+ use crate::prelude::*;
- use core::convert::TryInto;
use core::ops::Deref;
- const TEST_SEGWIT_ACTIVATION_HEIGHT: u32 = 0;
+ const TEST_SEGWIT_ACTIVATION_HEIGHT: u32 = 1;
const MAINNET_SEGWIT_ACTIVATION_HEIGHT: u32 = 481_824;
const MAX_TX_INDEX: u32 = 2_500;
const MAX_NAMESPACES: u8 = 8; // We allocate 3 bits for the namespace identifier.
/// into the fake scid.
#[derive(Copy, Clone)]
pub(crate) enum Namespace {
+ /// Phantom nodes namespace
Phantom,
+ /// SCID aliases for outbound private channels
OutboundAlias,
+ /// Payment interception namespace
+ Intercept
}
impl Namespace {
/// between segwit activation and the current best known height, and the tx index and output
/// index are also selected from a "reasonable" range. We add this logic because it makes it
/// non-obvious at a glance that the scid is fake, e.g. if it appears in invoice route hints.
- pub(crate) fn get_fake_scid<Signer: Sign, K: Deref>(&self, highest_seen_blockheight: u32, genesis_hash: &BlockHash, fake_scid_rand_bytes: &[u8; 32], keys_manager: &K) -> u64
- where K::Target: KeysInterface<Signer = Signer>,
+ pub(crate) fn get_fake_scid<ES: Deref>(&self, highest_seen_blockheight: u32, chain_hash: &ChainHash, fake_scid_rand_bytes: &[u8; 32], entropy_source: &ES) -> u64
+ where ES::Target: EntropySource,
{
// Ensure we haven't created a namespace that doesn't fit into the 3 bits we've allocated for
// namespaces.
assert!((*self as u8) < MAX_NAMESPACES);
- let rand_bytes = keys_manager.get_secure_random_bytes();
+ let rand_bytes = entropy_source.get_secure_random_bytes();
- let segwit_activation_height = segwit_activation_height(genesis_hash);
+ let segwit_activation_height = segwit_activation_height(chain_hash);
let mut blocks_since_segwit_activation = highest_seen_blockheight.saturating_sub(segwit_activation_height);
// We want to ensure that this fake channel won't conflict with any transactions we haven't
}
}
- fn segwit_activation_height(genesis: &BlockHash) -> u32 {
- const MAINNET_GENESIS_STR: &'static str = "000000000019d6689c085ae165831e934ff763ae46a2a6c172b3f1b60a8ce26f";
- if BlockHash::from_hex(MAINNET_GENESIS_STR).unwrap() == *genesis {
+ fn segwit_activation_height(chain_hash: &ChainHash) -> u32 {
+ if *chain_hash == ChainHash::using_genesis_block(Network::Bitcoin) {
MAINNET_SEGWIT_ACTIVATION_HEIGHT
} else {
TEST_SEGWIT_ACTIVATION_HEIGHT
}
}
- /// Returns whether the given fake scid falls into the given namespace.
- pub fn is_valid_phantom(fake_scid_rand_bytes: &[u8; 32], scid: u64) -> bool {
- let block_height = scid_utils::block_from_scid(&scid);
- let tx_index = scid_utils::tx_index_from_scid(&scid);
+ /// Returns whether the given fake scid falls into the phantom namespace.
+ pub fn is_valid_phantom(fake_scid_rand_bytes: &[u8; 32], scid: u64, chain_hash: &ChainHash) -> bool {
+ let block_height = scid_utils::block_from_scid(scid);
+ let tx_index = scid_utils::tx_index_from_scid(scid);
let namespace = Namespace::Phantom;
let valid_vout = namespace.get_encrypted_vout(block_height, tx_index, fake_scid_rand_bytes);
- valid_vout == scid_utils::vout_from_scid(&scid) as u8
+ block_height >= segwit_activation_height(chain_hash)
+ && valid_vout == scid_utils::vout_from_scid(scid) as u8
+ }
+
+ /// Returns whether the given fake scid falls into the intercept namespace.
+ pub fn is_valid_intercept(fake_scid_rand_bytes: &[u8; 32], scid: u64, chain_hash: &ChainHash) -> bool {
+ let block_height = scid_utils::block_from_scid(scid);
+ let tx_index = scid_utils::tx_index_from_scid(scid);
+ let namespace = Namespace::Intercept;
+ let valid_vout = namespace.get_encrypted_vout(block_height, tx_index, fake_scid_rand_bytes);
+ block_height >= segwit_activation_height(chain_hash)
+ && valid_vout == scid_utils::vout_from_scid(scid) as u8
}
#[cfg(test)]
mod tests {
- use bitcoin::blockdata::constants::genesis_block;
+ use bitcoin::blockdata::constants::ChainHash;
use bitcoin::network::constants::Network;
- use util::scid_utils::fake_scid::{is_valid_phantom, MAINNET_SEGWIT_ACTIVATION_HEIGHT, MAX_TX_INDEX, MAX_NAMESPACES, Namespace, NAMESPACE_ID_BITMASK, segwit_activation_height, TEST_SEGWIT_ACTIVATION_HEIGHT};
- use util::scid_utils;
- use util::test_utils;
- use sync::Arc;
+ use crate::util::scid_utils::fake_scid::{is_valid_intercept, is_valid_phantom, MAINNET_SEGWIT_ACTIVATION_HEIGHT, MAX_TX_INDEX, MAX_NAMESPACES, Namespace, NAMESPACE_ID_BITMASK, segwit_activation_height, TEST_SEGWIT_ACTIVATION_HEIGHT};
+ use crate::util::scid_utils;
+ use crate::util::test_utils;
+ use crate::sync::Arc;
#[test]
fn namespace_identifier_is_within_range() {
let phantom_namespace = Namespace::Phantom;
assert!((phantom_namespace as u8) < MAX_NAMESPACES);
assert!((phantom_namespace as u8) <= NAMESPACE_ID_BITMASK);
+
+ let intercept_namespace = Namespace::Intercept;
+ assert!((intercept_namespace as u8) < MAX_NAMESPACES);
+ assert!((intercept_namespace as u8) <= NAMESPACE_ID_BITMASK);
}
#[test]
fn test_segwit_activation_height() {
- let mainnet_genesis = genesis_block(Network::Bitcoin).header.block_hash();
+ let mainnet_genesis = ChainHash::using_genesis_block(Network::Bitcoin);
assert_eq!(segwit_activation_height(&mainnet_genesis), MAINNET_SEGWIT_ACTIVATION_HEIGHT);
- let testnet_genesis = genesis_block(Network::Testnet).header.block_hash();
+ let testnet_genesis = ChainHash::using_genesis_block(Network::Testnet);
assert_eq!(segwit_activation_height(&testnet_genesis), TEST_SEGWIT_ACTIVATION_HEIGHT);
- let signet_genesis = genesis_block(Network::Signet).header.block_hash();
+ let signet_genesis = ChainHash::using_genesis_block(Network::Signet);
assert_eq!(segwit_activation_height(&signet_genesis), TEST_SEGWIT_ACTIVATION_HEIGHT);
- let regtest_genesis = genesis_block(Network::Regtest).header.block_hash();
+ let regtest_genesis = ChainHash::using_genesis_block(Network::Regtest);
assert_eq!(segwit_activation_height(®test_genesis), TEST_SEGWIT_ACTIVATION_HEIGHT);
}
fn test_is_valid_phantom() {
let namespace = Namespace::Phantom;
let fake_scid_rand_bytes = [0; 32];
+ let testnet_genesis = ChainHash::using_genesis_block(Network::Testnet);
+ let valid_encrypted_vout = namespace.get_encrypted_vout(0, 0, &fake_scid_rand_bytes);
+ let valid_fake_scid = scid_utils::scid_from_parts(1, 0, valid_encrypted_vout as u64).unwrap();
+ assert!(is_valid_phantom(&fake_scid_rand_bytes, valid_fake_scid, &testnet_genesis));
+ let invalid_fake_scid = scid_utils::scid_from_parts(1, 0, 12).unwrap();
+ assert!(!is_valid_phantom(&fake_scid_rand_bytes, invalid_fake_scid, &testnet_genesis));
+ }
+
+ #[test]
+ fn test_is_valid_intercept() {
+ let namespace = Namespace::Intercept;
+ let fake_scid_rand_bytes = [0; 32];
+ let testnet_genesis = ChainHash::using_genesis_block(Network::Testnet);
let valid_encrypted_vout = namespace.get_encrypted_vout(0, 0, &fake_scid_rand_bytes);
- let valid_fake_scid = scid_utils::scid_from_parts(0, 0, valid_encrypted_vout as u64).unwrap();
- assert!(is_valid_phantom(&fake_scid_rand_bytes, valid_fake_scid));
- let invalid_fake_scid = scid_utils::scid_from_parts(0, 0, 12).unwrap();
- assert!(!is_valid_phantom(&fake_scid_rand_bytes, invalid_fake_scid));
+ let valid_fake_scid = scid_utils::scid_from_parts(1, 0, valid_encrypted_vout as u64).unwrap();
+ assert!(is_valid_intercept(&fake_scid_rand_bytes, valid_fake_scid, &testnet_genesis));
+ let invalid_fake_scid = scid_utils::scid_from_parts(1, 0, 12).unwrap();
+ assert!(!is_valid_intercept(&fake_scid_rand_bytes, invalid_fake_scid, &testnet_genesis));
}
#[test]
fn test_get_fake_scid() {
- let mainnet_genesis = genesis_block(Network::Bitcoin).header.block_hash();
+ let mainnet_genesis = ChainHash::using_genesis_block(Network::Bitcoin);
let seed = [0; 32];
let fake_scid_rand_bytes = [1; 32];
let keys_manager = Arc::new(test_utils::TestKeysInterface::new(&seed, Network::Testnet));
let namespace = Namespace::Phantom;
let fake_scid = namespace.get_fake_scid(500_000, &mainnet_genesis, &fake_scid_rand_bytes, &keys_manager);
- let fake_height = scid_utils::block_from_scid(&fake_scid);
+ let fake_height = scid_utils::block_from_scid(fake_scid);
assert!(fake_height >= MAINNET_SEGWIT_ACTIVATION_HEIGHT);
assert!(fake_height <= 500_000);
- let fake_tx_index = scid_utils::tx_index_from_scid(&fake_scid);
+ let fake_tx_index = scid_utils::tx_index_from_scid(fake_scid);
assert!(fake_tx_index <= MAX_TX_INDEX);
- let fake_vout = scid_utils::vout_from_scid(&fake_scid);
+ let fake_vout = scid_utils::vout_from_scid(fake_scid);
assert!(fake_vout < MAX_NAMESPACES as u16);
}
}
#[test]
fn test_block_from_scid() {
- assert_eq!(block_from_scid(&0x000000_000000_0000), 0);
- assert_eq!(block_from_scid(&0x000001_000000_0000), 1);
- assert_eq!(block_from_scid(&0x000001_ffffff_ffff), 1);
- assert_eq!(block_from_scid(&0x800000_ffffff_ffff), 0x800000);
- assert_eq!(block_from_scid(&0xffffff_ffffff_ffff), 0xffffff);
+ assert_eq!(block_from_scid(0x000000_000000_0000), 0);
+ assert_eq!(block_from_scid(0x000001_000000_0000), 1);
+ assert_eq!(block_from_scid(0x000001_ffffff_ffff), 1);
+ assert_eq!(block_from_scid(0x800000_ffffff_ffff), 0x800000);
+ assert_eq!(block_from_scid(0xffffff_ffffff_ffff), 0xffffff);
}
#[test]
fn test_tx_index_from_scid() {
- assert_eq!(tx_index_from_scid(&0x000000_000000_0000), 0);
- assert_eq!(tx_index_from_scid(&0x000000_000001_0000), 1);
- assert_eq!(tx_index_from_scid(&0xffffff_000001_ffff), 1);
- assert_eq!(tx_index_from_scid(&0xffffff_800000_ffff), 0x800000);
- assert_eq!(tx_index_from_scid(&0xffffff_ffffff_ffff), 0xffffff);
+ assert_eq!(tx_index_from_scid(0x000000_000000_0000), 0);
+ assert_eq!(tx_index_from_scid(0x000000_000001_0000), 1);
+ assert_eq!(tx_index_from_scid(0xffffff_000001_ffff), 1);
+ assert_eq!(tx_index_from_scid(0xffffff_800000_ffff), 0x800000);
+ assert_eq!(tx_index_from_scid(0xffffff_ffffff_ffff), 0xffffff);
}
#[test]
fn test_vout_from_scid() {
- assert_eq!(vout_from_scid(&0x000000_000000_0000), 0);
- assert_eq!(vout_from_scid(&0x000000_000000_0001), 1);
- assert_eq!(vout_from_scid(&0xffffff_ffffff_0001), 1);
- assert_eq!(vout_from_scid(&0xffffff_ffffff_8000), 0x8000);
- assert_eq!(vout_from_scid(&0xffffff_ffffff_ffff), 0xffff);
+ assert_eq!(vout_from_scid(0x000000_000000_0000), 0);
+ assert_eq!(vout_from_scid(0x000000_000000_0001), 1);
+ assert_eq!(vout_from_scid(0xffffff_ffffff_0001), 1);
+ assert_eq!(vout_from_scid(0xffffff_ffffff_8000), 0x8000);
+ assert_eq!(vout_from_scid(0xffffff_ffffff_ffff), 0xffff);
}
#[test]