obsolete easiness et.al (#1750)

This commit is contained in:
John Tromp 2018-10-15 21:24:36 +02:00 committed by Yeastplume
parent 86c1d7683b
commit 45a5655cec
6 changed files with 71 additions and 90 deletions

View file

@ -19,7 +19,7 @@
use consensus::HeaderInfo; use consensus::HeaderInfo;
use consensus::{ use consensus::{
BLOCK_TIME_SEC, COINBASE_MATURITY, CUT_THROUGH_HORIZON, DEFAULT_MIN_SIZESHIFT, BLOCK_TIME_SEC, COINBASE_MATURITY, CUT_THROUGH_HORIZON, DEFAULT_MIN_SIZESHIFT,
DIFFICULTY_ADJUST_WINDOW, EASINESS, INITIAL_DIFFICULTY, MEDIAN_TIME_WINDOW, PROOFSIZE, DIFFICULTY_ADJUST_WINDOW, INITIAL_DIFFICULTY, MEDIAN_TIME_WINDOW, PROOFSIZE,
REFERENCE_SIZESHIFT, REFERENCE_SIZESHIFT,
}; };
use pow::{self, CuckatooContext, EdgeType, PoWContext}; use pow::{self, CuckatooContext, EdgeType, PoWContext};
@ -139,7 +139,7 @@ pub fn create_pow_context<T>(
where where
T: EdgeType, T: EdgeType,
{ {
CuckatooContext::<T>::new(edge_bits, proof_size, EASINESS, max_sols) CuckatooContext::<T>::new(edge_bits, proof_size, max_sols)
} }
/// Return the type of the pos /// Return the type of the pos

View file

@ -79,9 +79,9 @@ where
} }
pub fn set_header_nonce(header: Vec<u8>, nonce: Option<u32>) -> Result<[u64; 4], Error> { pub fn set_header_nonce(header: Vec<u8>, nonce: Option<u32>) -> Result<[u64; 4], Error> {
let len = header.len();
let mut header = header.clone();
if let Some(n) = nonce { if let Some(n) = nonce {
let len = header.len();
let mut header = header.clone();
header.truncate(len - mem::size_of::<u32>()); header.truncate(len - mem::size_of::<u32>());
header.write_u32::<LittleEndian>(n)?; header.write_u32::<LittleEndian>(n)?;
} }
@ -139,7 +139,6 @@ where
pub proof_size: usize, pub proof_size: usize,
pub num_edges: u64, pub num_edges: u64,
pub siphash_keys: [u64; 4], pub siphash_keys: [u64; 4],
pub easiness: T,
pub edge_mask: T, pub edge_mask: T,
} }
@ -147,32 +146,19 @@ impl<T> CuckooParams<T>
where where
T: EdgeType, T: EdgeType,
{ {
/// Instantiates new params and calculate easiness, edge mask, etc /// Instantiates new params and calculate edge mask, etc
pub fn new( pub fn new(
edge_bits: u8, edge_bits: u8,
proof_size: usize, proof_size: usize,
easiness_pct: u32,
cuckatoo: bool,
) -> Result<CuckooParams<T>, Error> { ) -> Result<CuckooParams<T>, Error> {
let num_edges = 1 << edge_bits; let num_edges = (1 as u64) << edge_bits;
let num_nodes = 2 * num_edges as u64; let edge_mask = to_edge!(num_edges - 1);
let easiness = if cuckatoo {
to_u64!(easiness_pct) * num_nodes / 100
} else {
to_u64!(easiness_pct) * num_edges / 100
};
let edge_mask = if cuckatoo {
to_edge!(num_edges - 1)
} else {
to_edge!(num_edges / 2 - 1)
};
Ok(CuckooParams { Ok(CuckooParams {
siphash_keys: [0; 4],
easiness: to_edge!(easiness),
proof_size,
edge_mask,
num_edges,
edge_bits, edge_bits,
proof_size,
num_edges,
siphash_keys: [0; 4],
edge_mask,
}) })
} }
@ -182,6 +168,7 @@ where
mut header: Vec<u8>, mut header: Vec<u8>,
nonce: Option<u32>, nonce: Option<u32>,
) -> Result<(), Error> { ) -> Result<(), Error> {
// THIS IF LOOKS REDUNDANT SINCE set_header_nonce DOES SAME THING
if let Some(n) = nonce { if let Some(n) = nonce {
let len = header.len(); let len = header.len();
header.truncate(len - mem::size_of::<u32>()); header.truncate(len - mem::size_of::<u32>());

View file

@ -168,13 +168,11 @@ where
fn new( fn new(
edge_bits: u8, edge_bits: u8,
proof_size: usize, proof_size: usize,
easiness_pct: u32,
max_sols: u32, max_sols: u32,
) -> Result<Box<Self>, Error> { ) -> Result<Box<Self>, Error> {
Ok(Box::new(CuckatooContext::<T>::new_impl( Ok(Box::new(CuckatooContext::<T>::new_impl(
edge_bits, edge_bits,
proof_size, proof_size,
easiness_pct,
max_sols, max_sols,
)?)) )?))
} }
@ -189,8 +187,8 @@ where
} }
fn find_cycles(&mut self) -> Result<Vec<Proof>, Error> { fn find_cycles(&mut self) -> Result<Vec<Proof>, Error> {
let ease = to_u64!(self.params.easiness); let num_edges = self.params.num_edges;
self.find_cycles_iter(0..ease) self.find_cycles_iter(0..num_edges)
} }
fn verify(&self, proof: &Proof) -> Result<(), Error> { fn verify(&self, proof: &Proof) -> Result<(), Error> {
@ -206,10 +204,9 @@ where
pub fn new_impl( pub fn new_impl(
edge_bits: u8, edge_bits: u8,
proof_size: usize, proof_size: usize,
easiness_pct: u32,
max_sols: u32, max_sols: u32,
) -> Result<CuckatooContext<T>, Error> { ) -> Result<CuckatooContext<T>, Error> {
let params = CuckooParams::new(edge_bits, proof_size, easiness_pct, true)?; let params = CuckooParams::new(edge_bits, proof_size)?;
let num_edges = to_edge!(params.num_edges); let num_edges = to_edge!(params.num_edges);
Ok(CuckatooContext { Ok(CuckatooContext {
params, params,
@ -384,7 +381,7 @@ mod test {
where where
T: EdgeType, T: EdgeType,
{ {
let mut ctx = CuckatooContext::<T>::new(29, 42, 50, 10)?; let mut ctx = CuckatooContext::<T>::new(29, 42, 10)?;
ctx.set_header_nonce([0u8; 80].to_vec(), Some(20), false)?; ctx.set_header_nonce([0u8; 80].to_vec(), Some(20), false)?;
assert!(ctx.verify(&Proof::new(V1_29.to_vec().clone())).is_ok()); assert!(ctx.verify(&Proof::new(V1_29.to_vec().clone())).is_ok());
Ok(()) Ok(())
@ -394,7 +391,7 @@ mod test {
where where
T: EdgeType, T: EdgeType,
{ {
let mut ctx = CuckatooContext::<T>::new(29, 42, 50, 10)?; let mut ctx = CuckatooContext::<T>::new(29, 42, 10)?;
let mut header = [0u8; 80]; let mut header = [0u8; 80];
header[0] = 1u8; header[0] = 1u8;
ctx.set_header_nonce(header.to_vec(), Some(20), false)?; ctx.set_header_nonce(header.to_vec(), Some(20), false)?;
@ -412,7 +409,6 @@ mod test {
where where
T: EdgeType, T: EdgeType,
{ {
let easiness_pct = 50;
let nonce = 1546569; let nonce = 1546569;
let _range = 1; let _range = 1;
let header = [0u8; 80].to_vec(); let header = [0u8; 80].to_vec();
@ -421,14 +417,13 @@ mod test {
let max_sols = 4; let max_sols = 4;
println!( println!(
"Looking for {}-cycle on cuckatoo{}(\"{}\",{}) with {}% edges", "Looking for {}-cycle on cuckatoo{}(\"{}\",{})",
proof_size, proof_size,
edge_bits, edge_bits,
String::from_utf8(header.clone()).unwrap(), String::from_utf8(header.clone()).unwrap(),
nonce, nonce
easiness_pct
); );
let mut ctx_u32 = CuckatooContext::<T>::new(edge_bits, proof_size, easiness_pct, max_sols)?; let mut ctx_u32 = CuckatooContext::<T>::new(edge_bits, proof_size, max_sols)?;
let mut bytes = ctx_u32.byte_count()?; let mut bytes = ctx_u32.byte_count()?;
let mut unit = 0; let mut unit = 0;
while bytes >= 10240 { while bytes >= 10240 {

View file

@ -43,13 +43,11 @@ where
fn new( fn new(
edge_bits: u8, edge_bits: u8,
proof_size: usize, proof_size: usize,
easiness_pct: u32,
max_sols: u32, max_sols: u32,
) -> Result<Box<Self>, Error> { ) -> Result<Box<Self>, Error> {
Ok(Box::new(CuckooContext::<T>::new_impl( Ok(Box::new(CuckooContext::<T>::new_impl(
edge_bits, edge_bits,
proof_size, proof_size,
easiness_pct,
max_sols, max_sols,
)?)) )?))
} }
@ -80,20 +78,20 @@ where
pub fn new_impl( pub fn new_impl(
edge_bits: u8, edge_bits: u8,
proof_size: usize, proof_size: usize,
easiness_pct: u32,
max_sols: u32, max_sols: u32,
) -> Result<CuckooContext<T>, Error> { ) -> Result<CuckooContext<T>, Error> {
let params = CuckooParams::new(edge_bits, proof_size, easiness_pct, false)?; let params = CuckooParams::new(edge_bits, proof_size)?;
let num_edges = params.num_edges as usize; let num_nodes = 2 * params.num_edges as usize;
Ok(CuckooContext { Ok(CuckooContext {
params: params, params: params,
graph: vec![T::zero(); num_edges + 1], graph: vec![T::zero(); num_nodes],
_max_sols: max_sols, _max_sols: max_sols,
}) })
} }
fn reset(&mut self) -> Result<(), Error> { fn reset(&mut self) -> Result<(), Error> {
self.graph = vec![T::zero(); self.params.num_edges as usize + 1]; let num_nodes = 2 * self.params.num_edges as usize;
self.graph = vec![T::zero(); num_nodes];
Ok(()) Ok(())
} }
@ -214,7 +212,7 @@ where
} }
let mut n = 0; let mut n = 0;
let mut sol = vec![T::zero(); self.params.proof_size]; let mut sol = vec![T::zero(); self.params.proof_size];
for nonce in 0..to_usize!(self.params.easiness) { for nonce in 0..self.params.num_edges {
let edge = self.new_edge(to_edge!(nonce))?; let edge = self.new_edge(to_edge!(nonce))?;
if cycle.contains(&edge) { if cycle.contains(&edge) {
sol[n] = to_edge!(nonce); sol[n] = to_edge!(nonce);
@ -233,7 +231,7 @@ where
pub fn find_cycles_impl(&mut self) -> Result<Vec<Proof>, Error> { pub fn find_cycles_impl(&mut self) -> Result<Vec<Proof>, Error> {
let mut us = [T::zero(); MAXPATHLEN]; let mut us = [T::zero(); MAXPATHLEN];
let mut vs = [T::zero(); MAXPATHLEN]; let mut vs = [T::zero(); MAXPATHLEN];
for nonce in 0..to_usize!(self.params.easiness) { for nonce in 0..self.params.num_edges {
us[0] = self.new_node(to_edge!(nonce), 0)?; us[0] = self.new_node(to_edge!(nonce), 0)?;
vs[0] = self.new_node(to_edge!(nonce), 1)?; vs[0] = self.new_node(to_edge!(nonce), 1)?;
let u = self.graph[to_usize!(us[0])]; let u = self.graph[to_usize!(us[0])];
@ -261,16 +259,16 @@ where
Err(ErrorKind::NoSolution)? Err(ErrorKind::NoSolution)?
} }
/// Assuming increasing nonces all smaller than easiness, verifies the /// Assuming increasing nonces all smaller than #edges, verifies the
/// nonces form a cycle in a Cuckoo graph. Each nonce generates an edge, we /// nonces form a cycle in a Cuckoo graph. Each nonce generates an edge, we
/// build the nodes on both side of that edge and count the connections. /// build the nodes on both side of that edge and count the connections.
pub fn verify_impl(&self, proof: &Proof) -> Result<(), Error> { pub fn verify_impl(&self, proof: &Proof) -> Result<(), Error> {
let easiness = to_u64!(self.params.easiness); let num_nonces = self.params.num_edges;
let nonces = &proof.nonces; let nonces = &proof.nonces;
let mut us = vec![T::zero(); proof.proof_size()]; let mut us = vec![T::zero(); proof.proof_size()];
let mut vs = vec![T::zero(); proof.proof_size()]; let mut vs = vec![T::zero(); proof.proof_size()];
for n in 0..proof.proof_size() { for n in 0..proof.proof_size() {
if nonces[n] >= easiness || (n != 0 && nonces[n] <= nonces[n - 1]) { if nonces[n] >= num_nonces || (n != 0 && nonces[n] <= nonces[n - 1]) {
return Err(ErrorKind::Verification("edge wrong size".to_owned()))?; return Err(ErrorKind::Verification("edge wrong size".to_owned()))?;
} }
us[n] = self.new_node(to_edge!(nonces[n]), 0)?; us[n] = self.new_node(to_edge!(nonces[n]), 0)?;
@ -322,25 +320,25 @@ mod test {
use super::*; use super::*;
static V1: [u64; 42] = [ static V1: [u64; 42] = [
0x3bbd, 0x4e96, 0x1013b, 0x1172b, 0x1371b, 0x13e6a, 0x1aaa6, 0x1b575, 0x1e237, 0x1ee88, 0x8702, 0x12003, 0x2043f, 0x24cf8, 0x27631, 0x2beda, 0x325e5, 0x345b4, 0x36f5c, 0x3b3bc,
0x22f94, 0x24223, 0x25b4f, 0x2e9f3, 0x33b49, 0x34063, 0x3454a, 0x3c081, 0x3d08e, 0x3d863, 0x4cef6, 0x4dfdf, 0x5036b, 0x5d528, 0x7d76b, 0x80958, 0x81649, 0x8a064, 0x935fe, 0x93c28,
0x4285a, 0x42f22, 0x43122, 0x4b853, 0x4cd0c, 0x4f280, 0x557d5, 0x562cf, 0x58e59, 0x59a62, 0x93fc9, 0x9aec5, 0x9c5c8, 0xa00a7, 0xa7256, 0xaa35e, 0xb9e04, 0xc8835, 0xcda49, 0xd72ea,
0x5b568, 0x644b9, 0x657e9, 0x66337, 0x6821c, 0x7866f, 0x7e14b, 0x7ec7c, 0x7eed7, 0x80643, 0xd7f80, 0xdaa3a, 0xdafce, 0xe03fe, 0xe55a2, 0xe6e60, 0xebb9d, 0xf5248, 0xf6a4b, 0xf6d32,
0x8628c, 0x8949e, 0xf7c61, 0xfd9e9
]; ];
static V2: [u64; 42] = [ static V2: [u64; 42] = [
0x5e3a, 0x8a8b, 0x103d8, 0x1374b, 0x14780, 0x16110, 0x1b571, 0x1c351, 0x1c826, 0x28228, 0xab0, 0x403c, 0x509c, 0x127c0, 0x1a0b3, 0x1ffe4, 0x26180, 0x2a20a, 0x35559, 0x36dd3,
0x2909f, 0x29516, 0x2c1c4, 0x334eb, 0x34cdd, 0x38a2c, 0x3ad23, 0x45ac5, 0x46afe, 0x50f43, 0x3cb20, 0x4992f, 0x55b20, 0x5b507, 0x66e58, 0x6784d, 0x6fda8, 0x7363d, 0x76dd6, 0x7f13b,
0x51ed6, 0x52ddd, 0x54a82, 0x5a46b, 0x5dbdb, 0x60f6f, 0x60fcd, 0x61c78, 0x63899, 0x64dab, 0x84672, 0x85724, 0x991cf, 0x9a6fe, 0x9b0c5, 0xa5019, 0xa7207, 0xaf32f, 0xc29f3, 0xc39d3,
0x6affc, 0x6b569, 0x72639, 0x73987, 0x78806, 0x7b98e, 0x7c7d7, 0x7ddd4, 0x7fa88, 0x8277c, 0xc78ed, 0xc9e75, 0xcd0db, 0xcd81e, 0xd02e0, 0xd05c4, 0xd8f99, 0xd9359, 0xdff3b, 0xea623,
0x832d9, 0x8ba6f, 0xf9100, 0xfc966
]; ];
static V3: [u64; 42] = [ static V3: [u64; 42] = [
0x308b, 0x9004, 0x91fc, 0x983e, 0x9d67, 0xa293, 0xb4cb, 0xb6c8, 0xccc8, 0xdddc, 0xf04d, 0x14ca, 0x1e80, 0x587c, 0xa2d4, 0x14f6b, 0x1b100, 0x1b74c, 0x2477d, 0x29ba4, 0x33f25,
0x1372f, 0x16ec9, 0x17b61, 0x17d03, 0x1e3bc, 0x1fb0f, 0x29e6e, 0x2a2ca, 0x2a719, 0x3a078, 0x4c55f, 0x4d280, 0x50ffa, 0x53900, 0x5cf62, 0x63f66, 0x65623, 0x6fb19, 0x7a19e, 0x82eef,
0x3b7cc, 0x3c71d, 0x40daa, 0x43e17, 0x46adc, 0x4b359, 0x4c3aa, 0x4ce92, 0x4d06e, 0x51140, 0x83d2d, 0x88015, 0x8e6c5, 0x91086, 0x97429, 0x9aa27, 0xa01b7, 0xa304b, 0xafa06, 0xb1cb3,
0x565ac, 0x56b1f, 0x58a8b, 0x5e410, 0x5e607, 0x5ebb5, 0x5f8ae, 0x7aeac, 0x7b902, 0x7d6af, 0xbb9fc, 0xbf345, 0xc0761, 0xc0e78, 0xc5b99, 0xc9f09, 0xcc62c, 0xceb6e, 0xd98ad, 0xeecb3,
0x7f400, 0xef966, 0xfef9b
]; ];
// cuckoo28 at 50% edges of letter 'u' // cuckoo28 at 50% edges of letter 'u'
static V4: [u64; 42] = [ static V4: [u64; 42] = [
@ -395,22 +393,23 @@ mod test {
where where
T: EdgeType, T: EdgeType,
{ {
let mut cuckoo_ctx = CuckooContext::<T>::new(20, 42, 75, 10)?; let header = [0; 4].to_vec();
cuckoo_ctx.set_header_nonce([49].to_vec(), None, true)?; let mut cuckoo_ctx = CuckooContext::<T>::new(20, 42, 10)?;
cuckoo_ctx.set_header_nonce(header.clone(), Some(39), true)?;
let res = cuckoo_ctx.find_cycles()?; let res = cuckoo_ctx.find_cycles()?;
let mut proof = Proof::new(V1.to_vec()); let mut proof = Proof::new(V1.to_vec());
proof.cuckoo_sizeshift = 20; proof.cuckoo_sizeshift = 20;
assert_eq!(proof, res[0]); assert_eq!(proof, res[0]);
let mut cuckoo_ctx = CuckooContext::<T>::new(20, 42, 70, 10)?; let mut cuckoo_ctx = CuckooContext::<T>::new(20, 42, 10)?;
cuckoo_ctx.set_header_nonce([50].to_vec(), None, true)?; cuckoo_ctx.set_header_nonce(header.clone(), Some(56), true)?;
let res = cuckoo_ctx.find_cycles()?; let res = cuckoo_ctx.find_cycles()?;
let mut proof = Proof::new(V2.to_vec()); let mut proof = Proof::new(V2.to_vec());
proof.cuckoo_sizeshift = 20; proof.cuckoo_sizeshift = 20;
assert_eq!(proof, res[0]); assert_eq!(proof, res[0]);
//re-use context //re-use context
cuckoo_ctx.set_header_nonce([51].to_vec(), None, true)?; cuckoo_ctx.set_header_nonce(header, Some(66), true)?;
let res = cuckoo_ctx.find_cycles()?; let res = cuckoo_ctx.find_cycles()?;
let mut proof = Proof::new(V3.to_vec()); let mut proof = Proof::new(V3.to_vec());
proof.cuckoo_sizeshift = 20; proof.cuckoo_sizeshift = 20;
@ -422,13 +421,14 @@ mod test {
where where
T: EdgeType, T: EdgeType,
{ {
let mut cuckoo_ctx = CuckooContext::<T>::new(20, 42, 75, 10)?; let header = [0; 4].to_vec();
cuckoo_ctx.set_header_nonce([49].to_vec(), None, false)?; let mut cuckoo_ctx = CuckooContext::<T>::new(20, 42, 10)?;
cuckoo_ctx.set_header_nonce(header.clone(), Some(39), false)?;
assert!(cuckoo_ctx.verify(&Proof::new(V1.to_vec().clone())).is_ok()); assert!(cuckoo_ctx.verify(&Proof::new(V1.to_vec().clone())).is_ok());
let mut cuckoo_ctx = CuckooContext::<T>::new(20, 42, 70, 10)?; let mut cuckoo_ctx = CuckooContext::<T>::new(20, 42, 10)?;
cuckoo_ctx.set_header_nonce([50].to_vec(), None, false)?; cuckoo_ctx.set_header_nonce(header.clone(), Some(56), false)?;
assert!(cuckoo_ctx.verify(&Proof::new(V2.to_vec().clone())).is_ok()); assert!(cuckoo_ctx.verify(&Proof::new(V2.to_vec().clone())).is_ok());
cuckoo_ctx.set_header_nonce([51].to_vec(), None, false)?; cuckoo_ctx.set_header_nonce(header.clone(), Some(66), false)?;
assert!(cuckoo_ctx.verify(&Proof::new(V3.to_vec().clone())).is_ok()); assert!(cuckoo_ctx.verify(&Proof::new(V3.to_vec().clone())).is_ok());
Ok(()) Ok(())
} }
@ -438,7 +438,7 @@ mod test {
T: EdgeType, T: EdgeType,
{ {
// edge checks // edge checks
let mut cuckoo_ctx = CuckooContext::<T>::new(20, 42, 75, 10)?; let mut cuckoo_ctx = CuckooContext::<T>::new(20, 42, 10)?;
cuckoo_ctx.set_header_nonce([49].to_vec(), None, false)?; cuckoo_ctx.set_header_nonce([49].to_vec(), None, false)?;
// edge checks // edge checks
assert!(!cuckoo_ctx.verify(&Proof::new(vec![0; 42])).is_ok()); assert!(!cuckoo_ctx.verify(&Proof::new(vec![0; 42])).is_ok());
@ -448,7 +448,7 @@ mod test {
assert!(!cuckoo_ctx.verify(&Proof::new(V1.to_vec().clone())).is_ok()); assert!(!cuckoo_ctx.verify(&Proof::new(V1.to_vec().clone())).is_ok());
let mut test_header = [0; 32]; let mut test_header = [0; 32];
test_header[0] = 24; test_header[0] = 24;
let mut cuckoo_ctx = CuckooContext::<T>::new(20, 42, 50, 10)?; let mut cuckoo_ctx = CuckooContext::<T>::new(20, 42, 10)?;
cuckoo_ctx.set_header_nonce(test_header.to_vec(), None, false)?; cuckoo_ctx.set_header_nonce(test_header.to_vec(), None, false)?;
assert!(!cuckoo_ctx.verify(&Proof::new(V4.to_vec().clone())).is_ok()); assert!(!cuckoo_ctx.verify(&Proof::new(V4.to_vec().clone())).is_ok());
Ok(()) Ok(())
@ -458,10 +458,10 @@ mod test {
where where
T: EdgeType, T: EdgeType,
{ {
for n in 1..5 { let h = [0 as u8; 32];
let h = [n; 32]; for n in [45 as u32, 49,131,143,151].iter() {
let mut cuckoo_ctx = CuckooContext::<T>::new(16, 42, 75, 10)?; let mut cuckoo_ctx = CuckooContext::<T>::new(16, 42, 10)?;
cuckoo_ctx.set_header_nonce(h.to_vec(), None, false)?; cuckoo_ctx.set_header_nonce(h.to_vec(), Some(*n), false)?;
let res = cuckoo_ctx.find_cycles()?; let res = cuckoo_ctx.find_cycles()?;
assert!(cuckoo_ctx.verify(&res[0]).is_ok()) assert!(cuckoo_ctx.verify(&res[0]).is_ok())
} }

View file

@ -31,13 +31,13 @@ pub struct Lean {
impl Lean { impl Lean {
/// Instantiates a new lean miner based on some Cuckatoo parameters /// Instantiates a new lean miner based on some Cuckatoo parameters
pub fn new(edge_bits: u8, easiness_pct: u32) -> Lean { pub fn new(edge_bits: u8) -> Lean {
// note that proof size doesn't matter to a lean miner // note that proof size doesn't matter to a lean miner
let params = CuckooParams::new(edge_bits, 42, easiness_pct, true).unwrap(); let params = CuckooParams::new(edge_bits, 42).unwrap();
// edge bitmap, before trimming all of them are on // edge bitmap, before trimming all of them are on
let mut edges = Bitmap::create_with_capacity(params.easiness); let mut edges = Bitmap::create_with_capacity(params.num_edges as u32);
edges.flip_inplace(0..params.easiness.into()); edges.flip_inplace(0..params.num_edges.into());
Lean { params, edges } Lean { params, edges }
} }
@ -51,7 +51,7 @@ impl Lean {
/// and works well for Cuckatoo size above 18. /// and works well for Cuckatoo size above 18.
pub fn trim(&mut self) { pub fn trim(&mut self) {
// trimming successively // trimming successively
while self.edges.cardinality() > (7 * (self.params.easiness >> 8) / 8) as u64 { while self.edges.cardinality() > (7 * (self.params.num_edges >> 8) / 8) as u64 {
self.count_and_kill(); self.count_and_kill();
} }
} }
@ -96,11 +96,11 @@ mod test {
let header = [0u8; 84].to_vec(); // with nonce let header = [0u8; 84].to_vec(); // with nonce
let edge_bits = 19; let edge_bits = 19;
let mut lean = Lean::new(edge_bits, 50); let mut lean = Lean::new(edge_bits);
lean.set_header_nonce(header.clone(), nonce); lean.set_header_nonce(header.clone(), nonce);
lean.trim(); lean.trim();
let mut ctx_u32 = CuckatooContext::<u32>::new_impl(edge_bits, 42, 50, 10).unwrap(); let mut ctx_u32 = CuckatooContext::<u32>::new_impl(edge_bits, 42, 10).unwrap();
ctx_u32.set_header_nonce(header, Some(nonce), true).unwrap(); ctx_u32.set_header_nonce(header, Some(nonce), true).unwrap();
lean.find_cycles(ctx_u32).unwrap(); lean.find_cycles(ctx_u32).unwrap();
} }

View file

@ -12,7 +12,7 @@
// See the License for the specific language governing permissions and // See the License for the specific language governing permissions and
// limitations under the License. // limitations under the License.
/// Types for a Cuckoo proof of work and its encapsulation as a fully usable /// Types for a Cuck(at)oo proof of work and its encapsulation as a fully usable
/// proof of work within a block header. /// proof of work within a block header.
use std::cmp::max; use std::cmp::max;
use std::ops::{Add, Div, Mul, Sub}; use std::ops::{Add, Div, Mul, Sub};
@ -39,7 +39,6 @@ where
fn new( fn new(
edge_bits: u8, edge_bits: u8,
proof_size: usize, proof_size: usize,
easiness_pct: u32,
max_sols: u32, max_sols: u32,
) -> Result<Box<Self>, Error>; ) -> Result<Box<Self>, Error>;
/// Sets the header along with an optional nonce at the end /// Sets the header along with an optional nonce at the end