Enum LockTime
pub enum LockTime {
Blocks(Height),
Seconds(Time),
}
Expand description
A lock time value, representing either a block height or a UNIX timestamp (seconds since epoch).
Used for transaction lock time (nLockTime
in Bitcoin Core and crate::Transaction::lock_time
in this library) and also for the argument to opcode ’OP_CHECKLOCKTIMEVERIFY`.
§Relevant BIPs
§Examples
// To compare lock times there are various `is_satisfied_*` methods, you may also use:
let is_satisfied = match (n, lock_time) {
(Blocks(n), Blocks(lock_time)) => n <= lock_time,
(Seconds(n), Seconds(lock_time)) => n <= lock_time,
_ => panic!("handle invalid comparison error"),
};
Variants§
Blocks(Height)
A block height lock time value.
§Examples
use bitcoin::LockTime;
let block: u32 = 741521;
let n = LockTime::from_height(block).expect("valid height");
assert!(n.is_block_height());
assert_eq!(n.to_consensus_u32(), block);
Seconds(Time)
A UNIX timestamp lock time value.
§Examples
use bitcoin::LockTime;
let seconds: u32 = 1653195600; // May 22nd, 5am UTC.
let n = LockTime::from_time(seconds).expect("valid time");
assert!(n.is_block_time());
assert_eq!(n.to_consensus_u32(), seconds);
Implementations§
§impl LockTime
impl LockTime
pub const ZERO: LockTime = _
pub const ZERO: LockTime = _
If crate::Transaction::lock_time
is set to zero it is ignored, in other words a
transaction with nLocktime==0 is able to be included immediately in any block.
pub fn from_consensus(n: u32) -> LockTime
pub fn from_consensus(n: u32) -> LockTime
Constructs a LockTime
from an nLockTime value or the argument to OP_CHEKCLOCKTIMEVERIFY.
§Examples
// `from_consensus` roundtrips as expected with `to_consensus_u32`.
let n_lock_time: u32 = 741521;
let lock_time = LockTime::from_consensus(n_lock_time);
assert_eq!(lock_time.to_consensus_u32(), n_lock_time);
pub fn from_height(n: u32) -> Result<LockTime, Error>
pub fn from_height(n: u32) -> Result<LockTime, Error>
Constructs a LockTime
from n
, expecting n
to be a valid block height.
See LOCK_TIME_THRESHOLD
for definition of a valid height value.
§Examples
assert!(LockTime::from_height(741521).is_ok());
assert!(LockTime::from_height(1653195600).is_err());
pub fn from_time(n: u32) -> Result<LockTime, Error>
pub fn from_time(n: u32) -> Result<LockTime, Error>
Constructs a LockTime
from n
, expecting n
to be a valid block time.
See LOCK_TIME_THRESHOLD
for definition of a valid time value.
§Examples
assert!(LockTime::from_time(1653195600).is_ok());
assert!(LockTime::from_time(741521).is_err());
pub fn is_same_unit(&self, other: LockTime) -> bool
pub fn is_same_unit(&self, other: LockTime) -> bool
Returns true if both lock times use the same unit i.e., both height based or both time based.
pub fn is_block_height(&self) -> bool
pub fn is_block_height(&self) -> bool
Returns true if this lock time value is a block height.
pub fn is_block_time(&self) -> bool
pub fn is_block_time(&self) -> bool
Returns true if this lock time value is a block time (UNIX timestamp).
pub fn is_satisfied_by(&self, height: Height, time: Time) -> bool
pub fn is_satisfied_by(&self, height: Height, time: Time) -> bool
Returns true if this timelock constraint is satisfied by the respective height
/time
.
If self
is a blockheight based lock then it is checked against height
and if self
is a
blocktime based lock it is checked against time
.
A ‘timelock constraint’ refers to the n
from n OP_CHEKCLOCKTIMEVERIFY
, this constraint
is satisfied if a transaction with nLockTime (crate::Transaction::lock_time
) set to
height
/time
is valid.
§Examples
// Can be implemented if block chain data is available.
fn get_height() -> Height { todo!("return the current block height") }
fn get_time() -> Time { todo!("return the current block time") }
let n = LockTime::from_consensus(741521); // `n OP_CHEKCLOCKTIMEVERIFY`.
if n.is_satisfied_by(get_height(), get_time()) {
// Can create and mine a transaction that satisfies the OP_CLTV timelock constraint.
}
pub fn to_consensus_u32(self) -> u32
pub fn to_consensus_u32(self) -> u32
Returns the inner u32
value. This is the value used when creating this LockTime
i.e., n OP_CHECKLOCKTIMEVERIFY
or nLockTime.
§Warning
Do not compare values return by this method. The whole point of the LockTime
type is to
assist in doing correct comparisons. Either use is_satisfied_by
or use the pattern below:
§Examples
let is_satisfied = match (n, lock_time) {
(Blocks(n), Blocks(lock_time)) => n <= lock_time,
(Seconds(n), Seconds(lock_time)) => n <= lock_time,
_ => panic!("invalid comparison"),
};
// Or, if you have Rust 1.53 or greater
// let is_satisfied = n.partial_cmp(&lock_time).expect("invalid comparison").is_le();
Trait Implementations§
§impl From<&LockTime> for PackedLockTime
impl From<&LockTime> for PackedLockTime
§fn from(n: &LockTime) -> PackedLockTime
fn from(n: &LockTime) -> PackedLockTime
§impl From<&PackedLockTime> for LockTime
impl From<&PackedLockTime> for LockTime
§fn from(n: &PackedLockTime) -> LockTime
fn from(n: &PackedLockTime) -> LockTime
§impl From<LockTime> for PackedLockTime
impl From<LockTime> for PackedLockTime
§fn from(n: LockTime) -> PackedLockTime
fn from(n: LockTime) -> PackedLockTime
§impl From<PackedLockTime> for LockTime
impl From<PackedLockTime> for LockTime
§fn from(n: PackedLockTime) -> LockTime
fn from(n: PackedLockTime) -> LockTime
§impl PartialOrd for LockTime
impl PartialOrd for LockTime
impl Copy for LockTime
impl Eq for LockTime
impl StructuralPartialEq for LockTime
Auto Trait Implementations§
impl Freeze for LockTime
impl RefUnwindSafe for LockTime
impl Send for LockTime
impl Sync for LockTime
impl Unpin for LockTime
impl UnwindSafe for LockTime
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