use crate::contact_info::ContactInfo;
use crate::crds_shards::CrdsShards;
use crate::crds_value::{CrdsData, CrdsValue, CrdsValueLabel, LowestSlot};
use bincode::serialize;
use indexmap::map::{rayon::ParValues, Entry, IndexMap, Values};
use indexmap::set::IndexSet;
use rayon::{prelude::*, ThreadPool};
use solana_sdk::hash::{hash, Hash};
use solana_sdk::pubkey::Pubkey;
use solana_sdk::signature::Keypair;
use solana_sdk::timing::timestamp;
use std::cmp;
use std::collections::{hash_map, HashMap};
use std::ops::{Index, IndexMut};
const CRDS_SHARDS_BITS: u32 = 8;
const MAX_CRDS_VALUES_PER_PUBKEY: usize = 32;
#[derive(Clone)]
pub struct Crds {
table: IndexMap<CrdsValueLabel, VersionedCrdsValue>,
pub num_inserts: usize,
shards: CrdsShards,
nodes: IndexSet<usize>,
votes: IndexSet<usize>,
records: HashMap<Pubkey, IndexSet<usize>>,
}
#[derive(PartialEq, Debug)]
pub enum CrdsError {
InsertFailed,
}
#[derive(PartialEq, Debug, Clone)]
pub struct VersionedCrdsValue {
pub value: CrdsValue,
pub insert_timestamp: u64,
pub local_timestamp: u64,
pub value_hash: Hash,
}
impl PartialOrd for VersionedCrdsValue {
fn partial_cmp(&self, other: &VersionedCrdsValue) -> Option<cmp::Ordering> {
if self.value.label() != other.value.label() {
None
} else if self.value.wallclock() == other.value.wallclock() {
Some(self.value_hash.cmp(&other.value_hash))
} else {
Some(self.value.wallclock().cmp(&other.value.wallclock()))
}
}
}
impl VersionedCrdsValue {
pub fn new(local_timestamp: u64, value: CrdsValue) -> Self {
let value_hash = hash(&serialize(&value).unwrap());
VersionedCrdsValue {
value,
insert_timestamp: local_timestamp,
local_timestamp,
value_hash,
}
}
pub fn new_rand<R: rand::Rng>(rng: &mut R, keypair: Option<&Keypair>) -> Self {
let delay = 10 * 60 * 1000;
let now = timestamp() - delay + rng.gen_range(0, 2 * delay);
Self::new(now, CrdsValue::new_rand(rng, keypair))
}
}
impl Default for Crds {
fn default() -> Self {
Crds {
table: IndexMap::default(),
num_inserts: 0,
shards: CrdsShards::new(CRDS_SHARDS_BITS),
nodes: IndexSet::default(),
votes: IndexSet::default(),
records: HashMap::default(),
}
}
}
impl Crds {
pub fn new_versioned(&self, local_timestamp: u64, value: CrdsValue) -> VersionedCrdsValue {
VersionedCrdsValue::new(local_timestamp, value)
}
pub fn would_insert(
&self,
value: CrdsValue,
local_timestamp: u64,
) -> (bool, VersionedCrdsValue) {
let new_value = self.new_versioned(local_timestamp, value);
let label = new_value.value.label();
let outdated = matches!(self.table.get(&label), Some(current) if new_value <= *current);
(!outdated, new_value)
}
pub fn insert_versioned(
&mut self,
new_value: VersionedCrdsValue,
) -> Result<Option<VersionedCrdsValue>, CrdsError> {
let label = new_value.value.label();
match self.table.entry(label) {
Entry::Vacant(entry) => {
let entry_index = entry.index();
self.shards.insert(entry_index, &new_value);
match new_value.value.data {
CrdsData::ContactInfo(_) => {
self.nodes.insert(entry_index);
}
CrdsData::Vote(_, _) => {
self.votes.insert(entry_index);
}
_ => (),
};
self.records
.entry(new_value.value.pubkey())
.or_default()
.insert(entry_index);
entry.insert(new_value);
self.num_inserts += 1;
Ok(None)
}
Entry::Occupied(mut entry) if *entry.get() < new_value => {
let index = entry.index();
self.shards.remove(index, entry.get());
self.shards.insert(index, &new_value);
self.num_inserts += 1;
debug_assert_eq!(entry.get().value.pubkey(), new_value.value.pubkey());
Ok(Some(entry.insert(new_value)))
}
_ => {
trace!(
"INSERT FAILED data: {} new.wallclock: {}",
new_value.value.label(),
new_value.value.wallclock(),
);
Err(CrdsError::InsertFailed)
}
}
}
pub fn insert(
&mut self,
value: CrdsValue,
local_timestamp: u64,
) -> Result<Option<VersionedCrdsValue>, CrdsError> {
let new_value = self.new_versioned(local_timestamp, value);
self.insert_versioned(new_value)
}
pub fn lookup(&self, label: &CrdsValueLabel) -> Option<&CrdsValue> {
self.table.get(label).map(|x| &x.value)
}
pub fn lookup_versioned(&self, label: &CrdsValueLabel) -> Option<&VersionedCrdsValue> {
self.table.get(label)
}
pub fn get(&self, label: &CrdsValueLabel) -> Option<&VersionedCrdsValue> {
self.table.get(label)
}
pub fn get_contact_info(&self, pubkey: Pubkey) -> Option<&ContactInfo> {
let label = CrdsValueLabel::ContactInfo(pubkey);
self.table.get(&label)?.value.contact_info()
}
pub fn get_lowest_slot(&self, pubkey: Pubkey) -> Option<&LowestSlot> {
let lable = CrdsValueLabel::LowestSlot(pubkey);
self.table.get(&lable)?.value.lowest_slot()
}
pub fn get_nodes(&self) -> impl Iterator<Item = &VersionedCrdsValue> {
self.nodes.iter().map(move |i| self.table.index(*i))
}
pub fn get_nodes_contact_info(&self) -> impl Iterator<Item = &ContactInfo> {
self.get_nodes().map(|v| match &v.value.data {
CrdsData::ContactInfo(info) => info,
_ => panic!("this should not happen!"),
})
}
pub(crate) fn get_votes(&self) -> impl Iterator<Item = &VersionedCrdsValue> {
self.votes.iter().map(move |i| self.table.index(*i))
}
pub(crate) fn get_records(&self, pubkey: &Pubkey) -> impl Iterator<Item = &VersionedCrdsValue> {
self.records
.get(pubkey)
.into_iter()
.flat_map(|records| records.into_iter())
.map(move |i| self.table.index(*i))
}
pub fn len(&self) -> usize {
self.table.len()
}
pub fn is_empty(&self) -> bool {
self.table.is_empty()
}
pub fn values(&self) -> Values<'_, CrdsValueLabel, VersionedCrdsValue> {
self.table.values()
}
pub fn par_values(&self) -> ParValues<'_, CrdsValueLabel, VersionedCrdsValue> {
self.table.par_values()
}
pub fn filter_bitmask(
&self,
mask: u64,
mask_bits: u32,
) -> impl Iterator<Item = &VersionedCrdsValue> {
self.shards
.find(mask, mask_bits)
.map(move |i| self.table.index(i))
}
pub fn update_record_timestamp(&mut self, pubkey: &Pubkey, now: u64) {
if let Some(indices) = self.records.get(pubkey) {
for index in indices {
let entry = self.table.index_mut(*index);
if entry.local_timestamp < now {
entry.local_timestamp = now;
}
}
}
}
pub fn find_old_labels(
&self,
thread_pool: &ThreadPool,
now: u64,
timeouts: &HashMap<Pubkey, u64>,
) -> Vec<CrdsValueLabel> {
#[rustversion::before(1.49.0)]
fn select_nth<T: Ord>(xs: &mut Vec<T>, _nth: usize) {
xs.sort_unstable();
}
#[rustversion::since(1.49.0)]
fn select_nth<T: Ord>(xs: &mut Vec<T>, nth: usize) {
xs.select_nth_unstable(nth);
}
let default_timeout = *timeouts
.get(&Pubkey::default())
.expect("must have default timeout");
let evict = |pubkey, index: &IndexSet<usize>| {
let timeout = *timeouts.get(pubkey).unwrap_or(&default_timeout);
let mut old_labels = Vec::new();
let mut recent_unlimited_labels: Vec<(u64 , usize )> = index
.into_iter()
.filter_map(|ix| {
let (label, value) = self.table.get_index(*ix).unwrap();
if value.local_timestamp.saturating_add(timeout) <= now {
old_labels.push(label.clone());
None
} else {
match label.value_space() {
Some(_) => None,
None => Some((value.value.wallclock(), *ix)),
}
}
})
.collect();
let nth = recent_unlimited_labels
.len()
.saturating_sub(MAX_CRDS_VALUES_PER_PUBKEY);
if nth > 0 && nth < recent_unlimited_labels.len() {
select_nth(&mut recent_unlimited_labels, nth);
}
old_labels.extend(
recent_unlimited_labels
.split_at(nth)
.0
.iter()
.map(|(_ , ix)| self.table.get_index(*ix).unwrap().0.clone()),
);
old_labels
};
thread_pool.install(|| {
self.records
.par_iter()
.flat_map(|(pubkey, index)| evict(pubkey, index))
.collect()
})
}
pub fn remove(&mut self, key: &CrdsValueLabel) -> Option<VersionedCrdsValue> {
let (index, _ , value) = self.table.swap_remove_full(key)?;
self.shards.remove(index, &value);
match value.value.data {
CrdsData::ContactInfo(_) => {
self.nodes.swap_remove(&index);
}
CrdsData::Vote(_, _) => {
self.votes.swap_remove(&index);
}
_ => (),
}
let pubkey = value.value.pubkey();
let mut records_entry = match self.records.entry(pubkey) {
hash_map::Entry::Vacant(_) => panic!("this should not happen!"),
hash_map::Entry::Occupied(entry) => entry,
};
records_entry.get_mut().swap_remove(&index);
if records_entry.get().is_empty() {
records_entry.remove();
}
let size = self.table.len();
if index < size {
let value = self.table.index(index);
self.shards.remove(size, value);
self.shards.insert(index, value);
match value.value.data {
CrdsData::ContactInfo(_) => {
self.nodes.swap_remove(&size);
self.nodes.insert(index);
}
CrdsData::Vote(_, _) => {
self.votes.swap_remove(&size);
self.votes.insert(index);
}
_ => (),
};
let pubkey = value.value.pubkey();
let records = self.records.get_mut(&pubkey).unwrap();
records.swap_remove(&size);
records.insert(index);
}
Some(value)
}
}
#[cfg(test)]
mod test {
use super::*;
use crate::{contact_info::ContactInfo, crds_value::NodeInstance};
use rand::{thread_rng, Rng};
use rayon::ThreadPoolBuilder;
use std::{collections::HashSet, iter::repeat_with};
#[test]
fn test_insert() {
let mut crds = Crds::default();
let val = CrdsValue::new_unsigned(CrdsData::ContactInfo(ContactInfo::default()));
assert_eq!(crds.insert(val.clone(), 0).ok(), Some(None));
assert_eq!(crds.table.len(), 1);
assert!(crds.table.contains_key(&val.label()));
assert_eq!(crds.table[&val.label()].local_timestamp, 0);
}
#[test]
fn test_update_old() {
let mut crds = Crds::default();
let val = CrdsValue::new_unsigned(CrdsData::ContactInfo(ContactInfo::default()));
assert_eq!(crds.insert(val.clone(), 0), Ok(None));
assert_eq!(crds.insert(val.clone(), 1), Err(CrdsError::InsertFailed));
assert_eq!(crds.table[&val.label()].local_timestamp, 0);
}
#[test]
fn test_update_new() {
let mut crds = Crds::default();
let original = CrdsValue::new_unsigned(CrdsData::ContactInfo(ContactInfo::new_localhost(
&Pubkey::default(),
0,
)));
assert_matches!(crds.insert(original.clone(), 0), Ok(_));
let val = CrdsValue::new_unsigned(CrdsData::ContactInfo(ContactInfo::new_localhost(
&Pubkey::default(),
1,
)));
assert_eq!(
crds.insert(val.clone(), 1).unwrap().unwrap().value,
original
);
assert_eq!(crds.table[&val.label()].local_timestamp, 1);
}
#[test]
fn test_update_timestamp() {
let mut crds = Crds::default();
let val = CrdsValue::new_unsigned(CrdsData::ContactInfo(ContactInfo::new_localhost(
&Pubkey::default(),
0,
)));
assert_eq!(crds.insert(val.clone(), 0), Ok(None));
assert_eq!(crds.table[&val.label()].insert_timestamp, 0);
let val2 = CrdsValue::new_unsigned(CrdsData::ContactInfo(ContactInfo::default()));
assert_eq!(val2.label().pubkey(), val.label().pubkey());
assert_matches!(crds.insert(val2.clone(), 0), Ok(Some(_)));
crds.update_record_timestamp(&val.label().pubkey(), 2);
assert_eq!(crds.table[&val.label()].local_timestamp, 2);
assert_eq!(crds.table[&val.label()].insert_timestamp, 0);
assert_eq!(crds.table[&val2.label()].local_timestamp, 2);
assert_eq!(crds.table[&val2.label()].insert_timestamp, 0);
crds.update_record_timestamp(&val.label().pubkey(), 1);
assert_eq!(crds.table[&val.label()].local_timestamp, 2);
assert_eq!(crds.table[&val.label()].insert_timestamp, 0);
let mut ci = ContactInfo::default();
ci.wallclock += 1;
let val3 = CrdsValue::new_unsigned(CrdsData::ContactInfo(ci));
assert_matches!(crds.insert(val3, 3), Ok(Some(_)));
assert_eq!(crds.table[&val2.label()].local_timestamp, 3);
assert_eq!(crds.table[&val2.label()].insert_timestamp, 3);
}
#[test]
fn test_find_old_records_default() {
let thread_pool = ThreadPoolBuilder::new().build().unwrap();
let mut crds = Crds::default();
let val = CrdsValue::new_unsigned(CrdsData::ContactInfo(ContactInfo::default()));
assert_eq!(crds.insert(val.clone(), 1), Ok(None));
let mut set = HashMap::new();
set.insert(Pubkey::default(), 0);
assert!(crds.find_old_labels(&thread_pool, 0, &set).is_empty());
set.insert(Pubkey::default(), 1);
assert_eq!(
crds.find_old_labels(&thread_pool, 2, &set),
vec![val.label()]
);
set.insert(Pubkey::default(), 2);
assert_eq!(
crds.find_old_labels(&thread_pool, 4, &set),
vec![val.label()]
);
}
#[test]
fn test_find_old_records_with_override() {
let thread_pool = ThreadPoolBuilder::new().build().unwrap();
let mut rng = thread_rng();
let mut crds = Crds::default();
let mut timeouts = HashMap::new();
let val = CrdsValue::new_rand(&mut rng, None);
timeouts.insert(Pubkey::default(), 3);
assert_eq!(crds.insert(val.clone(), 0), Ok(None));
assert!(crds.find_old_labels(&thread_pool, 2, &timeouts).is_empty());
timeouts.insert(val.pubkey(), 1);
assert_eq!(
crds.find_old_labels(&thread_pool, 2, &timeouts),
vec![val.label()]
);
timeouts.insert(val.pubkey(), u64::MAX);
assert!(crds.find_old_labels(&thread_pool, 2, &timeouts).is_empty());
timeouts.insert(Pubkey::default(), 1);
assert!(crds.find_old_labels(&thread_pool, 2, &timeouts).is_empty());
timeouts.remove(&val.pubkey());
assert_eq!(
crds.find_old_labels(&thread_pool, 2, &timeouts),
vec![val.label()]
);
}
#[test]
fn test_find_old_records_unlimited() {
let thread_pool = ThreadPoolBuilder::new().build().unwrap();
let mut rng = thread_rng();
let now = 1_610_034_423_000;
let pubkey = Pubkey::new_unique();
let mut crds = Crds::default();
let mut timeouts = HashMap::new();
timeouts.insert(Pubkey::default(), 1);
timeouts.insert(pubkey, 180);
for _ in 0..1024 {
let wallclock = now - rng.gen_range(0, 240);
let val = NodeInstance::new(&mut rng, pubkey, wallclock);
let val = CrdsData::NodeInstance(val);
let val = CrdsValue::new_unsigned(val);
assert_eq!(crds.insert(val, now), Ok(None));
}
let now = now + 1;
let labels = crds.find_old_labels(&thread_pool, now, &timeouts);
assert_eq!(crds.table.len() - labels.len(), MAX_CRDS_VALUES_PER_PUBKEY);
let max_wallclock = labels
.iter()
.map(|label| crds.lookup(label).unwrap().wallclock())
.max()
.unwrap();
assert!(max_wallclock > now - 180);
let labels: HashSet<_> = labels.into_iter().collect();
for (label, value) in crds.table.iter() {
if !labels.contains(label) {
assert!(max_wallclock <= value.value.wallclock());
}
}
}
#[test]
fn test_remove_default() {
let thread_pool = ThreadPoolBuilder::new().build().unwrap();
let mut crds = Crds::default();
let val = CrdsValue::new_unsigned(CrdsData::ContactInfo(ContactInfo::default()));
assert_matches!(crds.insert(val.clone(), 1), Ok(_));
let mut set = HashMap::new();
set.insert(Pubkey::default(), 1);
assert_eq!(
crds.find_old_labels(&thread_pool, 2, &set),
vec![val.label()]
);
crds.remove(&val.label());
assert!(crds.find_old_labels(&thread_pool, 2, &set).is_empty());
}
#[test]
fn test_find_old_records_staked() {
let thread_pool = ThreadPoolBuilder::new().build().unwrap();
let mut crds = Crds::default();
let val = CrdsValue::new_unsigned(CrdsData::ContactInfo(ContactInfo::default()));
assert_eq!(crds.insert(val.clone(), 1), Ok(None));
let mut set = HashMap::new();
set.insert(Pubkey::default(), 0);
set.insert(val.pubkey(), 0);
assert!(crds.find_old_labels(&thread_pool, 0, &set).is_empty());
set.insert(val.pubkey(), std::u64::MAX);
assert!(crds.find_old_labels(&thread_pool, 2, &set).is_empty());
set.insert(Pubkey::default(), std::u64::MAX);
set.insert(val.pubkey(), 1);
assert_eq!(
crds.find_old_labels(&thread_pool, 2, &set),
vec![val.label()]
);
set.insert(val.pubkey(), 2);
assert!(crds.find_old_labels(&thread_pool, 2, &set).is_empty());
assert_eq!(
crds.find_old_labels(&thread_pool, 3, &set),
vec![val.label()]
);
}
#[test]
fn test_crds_shards() {
fn check_crds_shards(crds: &Crds) {
crds.shards
.check(&crds.table.values().cloned().collect::<Vec<_>>());
}
let mut crds = Crds::default();
let keypairs: Vec<_> = std::iter::repeat_with(Keypair::new).take(256).collect();
let mut rng = thread_rng();
let mut num_inserts = 0;
let mut num_overrides = 0;
for _ in 0..4096 {
let keypair = &keypairs[rng.gen_range(0, keypairs.len())];
let value = VersionedCrdsValue::new_rand(&mut rng, Some(keypair));
match crds.insert_versioned(value) {
Ok(None) => {
num_inserts += 1;
check_crds_shards(&crds);
}
Ok(Some(_)) => {
num_inserts += 1;
num_overrides += 1;
check_crds_shards(&crds);
}
Err(_) => (),
}
}
assert_eq!(num_inserts, crds.num_inserts);
assert!(num_inserts > 700);
assert!(num_overrides > 500);
assert!(crds.table.len() > 200);
assert!(num_inserts > crds.table.len());
check_crds_shards(&crds);
while !crds.table.is_empty() {
let index = rng.gen_range(0, crds.table.len());
let key = crds.table.get_index(index).unwrap().0.clone();
crds.remove(&key);
check_crds_shards(&crds);
}
}
#[test]
fn test_crds_value_indices() {
fn check_crds_value_indices(crds: &Crds) -> (usize, usize) {
let num_nodes = crds
.table
.values()
.filter(|value| matches!(value.value.data, CrdsData::ContactInfo(_)))
.count();
let num_votes = crds
.table
.values()
.filter(|value| matches!(value.value.data, CrdsData::Vote(_, _)))
.count();
assert_eq!(num_nodes, crds.get_nodes_contact_info().count());
assert_eq!(num_votes, crds.get_votes().count());
for vote in crds.get_votes() {
match vote.value.data {
CrdsData::Vote(_, _) => (),
_ => panic!("not a vote!"),
}
}
(num_nodes, num_votes)
}
let mut rng = thread_rng();
let keypairs: Vec<_> = repeat_with(Keypair::new).take(128).collect();
let mut crds = Crds::default();
let mut num_inserts = 0;
let mut num_overrides = 0;
for k in 0..4096 {
let keypair = &keypairs[rng.gen_range(0, keypairs.len())];
let value = VersionedCrdsValue::new_rand(&mut rng, Some(keypair));
match crds.insert_versioned(value) {
Ok(None) => {
num_inserts += 1;
}
Ok(Some(_)) => {
num_inserts += 1;
num_overrides += 1;
}
Err(_) => (),
}
if k % 64 == 0 {
check_crds_value_indices(&crds);
}
}
assert_eq!(num_inserts, crds.num_inserts);
assert!(num_inserts > 700);
assert!(num_overrides > 500);
assert!(crds.table.len() > 200);
assert!(num_inserts > crds.table.len());
let (num_nodes, num_votes) = check_crds_value_indices(&crds);
assert!(num_nodes * 3 < crds.table.len());
assert!(num_nodes > 100, "num nodes: {}", num_nodes);
assert!(num_votes > 100, "num votes: {}", num_votes);
while !crds.table.is_empty() {
let index = rng.gen_range(0, crds.table.len());
let key = crds.table.get_index(index).unwrap().0.clone();
crds.remove(&key);
if crds.table.len() % 64 == 0 {
check_crds_value_indices(&crds);
}
}
}
#[test]
fn test_crds_records() {
fn check_crds_records(crds: &Crds) {
assert_eq!(
crds.table.len(),
crds.records.values().map(IndexSet::len).sum::<usize>()
);
for (pubkey, indices) in &crds.records {
for index in indices {
let value = crds.table.index(*index);
assert_eq!(*pubkey, value.value.pubkey());
}
}
}
let mut rng = thread_rng();
let keypairs: Vec<_> = repeat_with(Keypair::new).take(128).collect();
let mut crds = Crds::default();
for k in 0..4096 {
let keypair = &keypairs[rng.gen_range(0, keypairs.len())];
let value = VersionedCrdsValue::new_rand(&mut rng, Some(keypair));
let _ = crds.insert_versioned(value);
if k % 64 == 0 {
check_crds_records(&crds);
}
}
assert!(crds.records.len() > 96);
assert!(crds.records.len() <= keypairs.len());
while !crds.table.is_empty() {
let index = rng.gen_range(0, crds.table.len());
let key = crds.table.get_index(index).unwrap().0.clone();
crds.remove(&key);
if crds.table.len() % 64 == 0 {
check_crds_records(&crds);
}
}
assert!(crds.records.is_empty());
}
#[test]
fn test_remove_staked() {
let thread_pool = ThreadPoolBuilder::new().build().unwrap();
let mut crds = Crds::default();
let val = CrdsValue::new_unsigned(CrdsData::ContactInfo(ContactInfo::default()));
assert_matches!(crds.insert(val.clone(), 1), Ok(_));
let mut set = HashMap::new();
set.insert(Pubkey::default(), std::u64::MAX);
set.insert(val.pubkey(), 1);
assert_eq!(
crds.find_old_labels(&thread_pool, 2, &set),
vec![val.label()]
);
crds.remove(&val.label());
assert!(crds.find_old_labels(&thread_pool, 2, &set).is_empty());
}
#[test]
#[allow(clippy::neg_cmp_op_on_partial_ord)]
fn test_equal() {
let val = CrdsValue::new_unsigned(CrdsData::ContactInfo(ContactInfo::default()));
let v1 = VersionedCrdsValue::new(1, val.clone());
let v2 = VersionedCrdsValue::new(1, val);
assert_eq!(v1, v2);
assert!(!(v1 != v2));
assert_eq!(v1.partial_cmp(&v2), Some(cmp::Ordering::Equal));
assert_eq!(v2.partial_cmp(&v1), Some(cmp::Ordering::Equal));
}
#[test]
#[allow(clippy::neg_cmp_op_on_partial_ord)]
fn test_hash_order() {
let v1 = VersionedCrdsValue::new(
1,
CrdsValue::new_unsigned(CrdsData::ContactInfo(ContactInfo::new_localhost(
&Pubkey::default(),
0,
))),
);
let v2 = VersionedCrdsValue::new(1, {
let mut contact_info = ContactInfo::new_localhost(&Pubkey::default(), 0);
contact_info.rpc = socketaddr!("0.0.0.0:0");
CrdsValue::new_unsigned(CrdsData::ContactInfo(contact_info))
});
assert_eq!(v1.value.label(), v2.value.label());
assert_eq!(v1.value.wallclock(), v2.value.wallclock());
assert_ne!(v1.value_hash, v2.value_hash);
assert!(v1 != v2);
assert!(!(v1 == v2));
if v1 > v2 {
assert!(v1 > v2);
assert!(v2 < v1);
assert_eq!(v1.partial_cmp(&v2), Some(cmp::Ordering::Greater));
assert_eq!(v2.partial_cmp(&v1), Some(cmp::Ordering::Less));
} else if v2 > v1 {
assert!(v1 < v2);
assert!(v2 > v1);
assert_eq!(v1.partial_cmp(&v2), Some(cmp::Ordering::Less));
assert_eq!(v2.partial_cmp(&v1), Some(cmp::Ordering::Greater));
} else {
panic!("bad PartialOrd implementation?");
}
}
#[test]
#[allow(clippy::neg_cmp_op_on_partial_ord)]
fn test_wallclock_order() {
let v1 = VersionedCrdsValue::new(
1,
CrdsValue::new_unsigned(CrdsData::ContactInfo(ContactInfo::new_localhost(
&Pubkey::default(),
1,
))),
);
let v2 = VersionedCrdsValue::new(
1,
CrdsValue::new_unsigned(CrdsData::ContactInfo(ContactInfo::new_localhost(
&Pubkey::default(),
0,
))),
);
assert_eq!(v1.value.label(), v2.value.label());
assert!(v1 > v2);
assert!(!(v1 < v2));
assert!(v1 != v2);
assert!(!(v1 == v2));
assert_eq!(v1.partial_cmp(&v2), Some(cmp::Ordering::Greater));
assert_eq!(v2.partial_cmp(&v1), Some(cmp::Ordering::Less));
}
#[test]
#[allow(clippy::neg_cmp_op_on_partial_ord)]
fn test_label_order() {
let v1 = VersionedCrdsValue::new(
1,
CrdsValue::new_unsigned(CrdsData::ContactInfo(ContactInfo::new_localhost(
&solana_sdk::pubkey::new_rand(),
0,
))),
);
let v2 = VersionedCrdsValue::new(
1,
CrdsValue::new_unsigned(CrdsData::ContactInfo(ContactInfo::new_localhost(
&solana_sdk::pubkey::new_rand(),
0,
))),
);
assert_ne!(v1, v2);
assert!(!(v1 == v2));
assert!(!(v1 < v2));
assert!(!(v1 > v2));
assert!(!(v2 < v1));
assert!(!(v2 > v1));
assert_eq!(v1.partial_cmp(&v2), None);
assert_eq!(v2.partial_cmp(&v1), None);
}
}