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use crate::com::*; use md5; use std::cmp::Ordering; use std::hash::Hasher; use std::marker::PhantomData; const POINTER_PER_SERVER: f64 = 160.0; #[derive(Eq, Ord, Debug)] struct NodeHash { pub node: String, pub hash: u64, } impl PartialEq for NodeHash { #[inline] fn eq(&self, other: &Self) -> bool { self.hash == other.hash } } impl PartialOrd for NodeHash { #[inline] fn partial_cmp(&self, other: &Self) -> Option<Ordering> { Some(self.hash.cmp(&other.hash)) } } pub struct HashRing<T: Hasher + Default> { nodes: Vec<String>, spots: Vec<usize>, ticks: Vec<NodeHash>, _hash: PhantomData<T>, } impl<T: Hasher + Default> HashRing<T> { pub fn new(nodes: Vec<String>, spots: Vec<usize>) -> AsResult<Self> { if nodes.len() != spots.len() { return Err(Error::BadConfig); } let mut ring = HashRing { nodes, spots, ticks: Vec::new(), _hash: PhantomData, }; ring.init(); Ok(ring) } fn node_hash(key: &str, align: usize) -> u64 { let md5::Digest(bs) = md5::compute(key.as_bytes()); ((u64::from(bs[3 + align * 4]) & 0xFF) << 24) | ((u64::from(bs[2 + align * 4]) & 0xFF) << 16) | ((u64::from(bs[1 + align * 4]) & 0xFF) << 8) | (u64::from(bs[align * 4]) & 0xFF) } fn init(&mut self) { self.ticks.clear(); let ptr_per_hash = 4; let servern = self.nodes.len() as f64; let totalw = self.spots.iter().sum::<usize>() as f64; for (i, node) in self.nodes.iter().enumerate() { let percent = (self.spots[i] as f64) / totalw; let per_servern = ((percent * POINTER_PER_SERVER / 4.0 * servern + 0.000_000_000_1) * 4.0) as u64; for pidx in 1..=(per_servern / ptr_per_hash) { let host = format!("{}-{}", node, pidx - 1); for x in 0..ptr_per_hash { let value = Self::node_hash(&host, x as usize); let n = NodeHash { node: node.clone(), hash: value, }; self.ticks.push(n); } } } self.ticks.sort(); debug!("ring init for with ticks {:?}", self.ticks); } pub fn add_node(&mut self, node: String, spot: usize) { let mut tmp_nodes = self.nodes.clone(); let mut tmp_spots = self.spots.clone(); if let Some(pos) = tmp_nodes.iter().position(|x| x == &node) { tmp_spots[pos] = spot; } else { tmp_nodes.push(node); tmp_spots.push(spot); } self.nodes = tmp_nodes; self.spots = tmp_spots; self.init(); } pub fn del_node(&mut self, node: &str) { if let Some(pos) = self.nodes.iter().position(|x| x == node) { self.nodes.remove(pos); self.spots.remove(pos); self.init(); } } #[inline] pub fn get_pos_by_hash(&self, hash: u64) -> usize { let find = self.ticks.binary_search_by(|x| x.hash.cmp(&hash)); match find { Ok(val) => val, Err(val) if self.ticks.len() == val => 0, Err(val) => val, } } pub fn get_node_ref_by_pos(&self, pos: usize) -> &str { &self.ticks.get(pos).unwrap().node } pub fn get_node<K: AsRef<[u8]>>(&self, key: K) -> String { let mut hash = T::default(); hash.write(key.as_ref()); let value = hash.finish(); let pos = self.get_pos_by_hash(value); let node = self.ticks[pos].node.clone(); node } } #[cfg(test)] mod test_ketama { use crate::proxy::fnv::Fnv1a64; use crate::proxy::*; #[test] fn ketama_dist() { let ring = HashRing::<Fnv1a64>::new( vec![ "mc-1".to_owned(), "mc-2".to_owned(), "mc-3".to_owned(), "mc-4".to_owned(), "mc-5".to_owned(), "mc-6".to_owned(), "mc-7".to_owned(), "mc-8".to_owned(), "mc-9".to_owned(), "mc-x".to_owned(), ], vec![10, 10, 10, 10, 10, 10, 10, 10, 10, 10], ) .expect("create new hash ring success"); let node = ring.get_node("a"); assert_eq!(&node, "mc-1"); assert_eq!(&ring.get_node("memtier-102"), "mc-x") } }