use super::honey_badger_split::SplitExt; use super::types::{ ShardAndCommittee, ValidatorRecord, ValidatorStatus, ChainConfig, }; use super::TransitionError; use super::shuffle; use std::cmp::min; type DelegatedCycle = Vec>; /// Returns the indicies of each active validator in a given vec of validators. fn active_validator_indicies(validators: &[ValidatorRecord]) -> Vec { validators.iter() .enumerate() .filter_map(|(i, validator)| { match validator.status { x if x == ValidatorStatus::Active as u8 => Some(i), _ => None } }) .collect() } /// Delegates active validators into slots for a given cycle, given a random seed. /// Returns a vector or ShardAndComitte vectors representing the shards and committiees for /// each slot. /// References get_new_shuffling (ethereum 2.1 specification) pub fn delegate_validators( seed: &[u8], validators: &[ValidatorRecord], crosslinking_shard_start: u16, config: &ChainConfig) -> Result { let shuffled_validator_indices = { let mut validator_indices = active_validator_indicies(validators); match shuffle(seed, validator_indices) { Ok(shuffled) => shuffled, _ => return Err(TransitionError::InvalidInput( String::from("Shuffle list length exceed."))) } }; let shard_indices: Vec = (0_usize..config.shard_count as usize).into_iter().collect(); let crosslinking_shard_start = crosslinking_shard_start as usize; let cycle_length = config.cycle_length as usize; let min_committee_size = config.min_committee_size as usize; generate_cycle( &shuffled_validator_indices, &shard_indices, crosslinking_shard_start, cycle_length, min_committee_size) } /// Given the validator list, delegates the validators into slots and comittees for a given cycle. fn generate_cycle( validator_indices: &[usize], shard_indices: &[usize], crosslinking_shard_start: usize, cycle_length: usize, min_committee_size: usize) -> Result { let validator_count = validator_indices.len(); let shard_count = shard_indices.len(); if shard_count / cycle_length == 0 { return Err(TransitionError::InvalidInput(String::from("Number of shards needs to be greater than cycle length"))); } let (committees_per_slot, slots_per_committee) = { if validator_count >= cycle_length * min_committee_size { let committees_per_slot = min(validator_count / cycle_length / (min_committee_size * 2) + 1, shard_count / cycle_length); let slots_per_committee = 1; (committees_per_slot, slots_per_committee) } else { let committees_per_slot = 1; let mut slots_per_committee = 1; while (validator_count * slots_per_committee < cycle_length * min_committee_size) & (slots_per_committee < cycle_length) { slots_per_committee *= 2; } (committees_per_slot, slots_per_committee) } }; let cycle = validator_indices.honey_badger_split(cycle_length) .enumerate() .map(|(i, slot_indices)| { let shard_id_start = crosslinking_shard_start + i * committees_per_slot / slots_per_committee; slot_indices.honey_badger_split(committees_per_slot) .enumerate() .map(|(j, shard_indices)| { ShardAndCommittee{ shard_id: ((shard_id_start + j) % shard_count) as u16, committee: shard_indices.to_vec(), } }) .collect() }) .collect(); Ok(cycle) } #[cfg(test)] mod tests { use super::*; fn generate_cycle_helper( validator_count: &usize, shard_count: &usize, crosslinking_shard_start: usize, cycle_length: usize, min_committee_size: usize) -> (Vec, Vec, Result) { let validator_indices: Vec = (0_usize..*validator_count).into_iter().collect(); let shard_indices: Vec = (0_usize..*shard_count).into_iter().collect(); let result = generate_cycle( &validator_indices, &shard_indices, crosslinking_shard_start, cycle_length, min_committee_size); (validator_indices, shard_indices, result) } #[allow(dead_code)] fn print_cycle(cycle: &DelegatedCycle) { cycle.iter() .enumerate() .for_each(|(i, slot)| { println!("slot {:?}", &i); slot.iter() .enumerate() .for_each(|(i, sac)| { println!("#{:?}\tshard_id={}\tcommittee.len()={}", &i, &sac.shard_id, &sac.committee.len()) }) }); } fn flatten_validators(cycle: &DelegatedCycle) -> Vec { let mut flattened = vec![]; for slot in cycle.iter() { for sac in slot.iter() { for validator in sac.committee.iter() { flattened.push(*validator); } } } flattened } fn flatten_and_dedup_shards(cycle: &DelegatedCycle) -> Vec { let mut flattened = vec![]; for slot in cycle.iter() { for sac in slot.iter() { flattened.push(sac.shard_id as usize); } } flattened.dedup(); flattened } fn flatten_shards_in_slots(cycle: &DelegatedCycle) -> Vec> { let mut shards_in_slots: Vec> = vec![]; for slot in cycle.iter() { let mut shards: Vec = vec![]; for sac in slot.iter() { shards.push(sac.shard_id as usize); } shards_in_slots.push(shards); } shards_in_slots } // TODO: Improve these tests to check committee lengths #[test] fn test_generate_cycle() { let validator_count: usize = 100; let shard_count: usize = 20; let crosslinking_shard_start: usize = 0; let cycle_length: usize = 20; let min_committee_size: usize = 10; let (validators, shards, result) = generate_cycle_helper( &validator_count, &shard_count, crosslinking_shard_start, cycle_length, min_committee_size); let cycle = result.unwrap(); let assigned_validators = flatten_validators(&cycle); let assigned_shards = flatten_and_dedup_shards(&cycle); let shards_in_slots = flatten_shards_in_slots(&cycle); let expected_shards = shards.get(0..10).unwrap(); assert_eq!(assigned_validators, validators, "Validator assignment incorrect"); assert_eq!(assigned_shards, expected_shards, "Shard assignment incorrect"); let expected_shards_in_slots: Vec> = vec![ vec![0], vec![0], // Each line is 2 slots.. vec![1], vec![1], vec![2], vec![2], vec![3], vec![3], vec![4], vec![4], vec![5], vec![5], vec![6], vec![6], vec![7], vec![7], vec![8], vec![8], vec![9], vec![9], ]; // assert!(compare_shards_in_slots(&cycle, &expected_shards_in_slots)); assert_eq!(expected_shards_in_slots, shards_in_slots, "Shard assignment incorrect.") } #[test] // Check that the committees per slot is upper bounded by shard count fn test_generate_cycle_committees_bounded() { let validator_count: usize = 523; let shard_count: usize = 31; let crosslinking_shard_start: usize = 0; let cycle_length: usize = 11; let min_committee_size: usize = 5; let (validators, shards, result) = generate_cycle_helper( &validator_count, &shard_count, crosslinking_shard_start, cycle_length, min_committee_size); let cycle = result.unwrap(); let assigned_validators = flatten_validators(&cycle); let assigned_shards = flatten_and_dedup_shards(&cycle); let shards_in_slots = flatten_shards_in_slots(&cycle); let expected_shards = shards.get(0..22).unwrap(); let expected_shards_in_slots: Vec> = (0_usize..11_usize) .map(|x| vec![2*x,2*x+1]).collect(); assert_eq!(assigned_validators, validators, "Validator assignment incorrect"); assert_eq!(assigned_shards, expected_shards, "Shard assignment incorrect"); // assert!(compare_shards_in_slots(&cycle, &expected_shards_in_slots)); assert_eq!(expected_shards_in_slots, shards_in_slots, "Shard assignment incorrect.") } }