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https://github.com/0glabs/0g-storage-node.git
synced 2024-11-20 15:05:19 +00:00
notify file announcement to sync layer only if shard config matches (#174)
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* notify file announcement to sync layer only if shard config matches * use FromStr trait
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75531a5878
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6685757a03
@ -681,6 +681,12 @@ impl Libp2pEventHandler {
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return MessageAcceptance::Reject;
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}
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// verify announced shard config
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let announced_shard_config = match ShardConfig::new(msg.shard_id, msg.num_shard) {
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Ok(v) => v,
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Err(_) => return MessageAcceptance::Reject,
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};
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// propagate gossip to peers
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let d = duration_since(
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msg.resend_timestamp,
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@ -692,7 +698,9 @@ impl Libp2pEventHandler {
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return MessageAcceptance::Ignore;
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}
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// notify sync layer
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// notify sync layer if shard config matches
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let my_shard_config = self.store.get_store().flow().get_shard_config();
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if my_shard_config.intersect(&announced_shard_config) {
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for tx_id in msg.tx_ids.iter() {
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self.send_to_sync(SyncMessage::AnnounceFileGossip {
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tx_id: *tx_id,
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@ -700,6 +708,7 @@ impl Libp2pEventHandler {
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addr: addr.clone(),
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});
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}
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}
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// insert message to cache
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self.file_location_cache.insert(msg);
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@ -253,6 +253,6 @@ impl ZgsConfig {
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}
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fn shard_config(&self) -> Result<ShardConfig, String> {
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ShardConfig::new(&self.shard_position)
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self.shard_position.clone().try_into()
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}
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}
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@ -1,6 +1,6 @@
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use serde::{Deserialize, Serialize};
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use ssz_derive::{Decode, Encode};
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use std::{cell::RefCell, path::PathBuf, rc::Rc};
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use std::{cell::RefCell, path::PathBuf, rc::Rc, str::FromStr};
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pub const SHARD_CONFIG_KEY: &str = "shard_config";
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@ -25,51 +25,11 @@ impl Default for ShardConfig {
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}
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}
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impl ShardConfig {
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pub fn new(shard_position: &Option<String>) -> Result<Self, String> {
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let (id, num) = if let Some(position) = shard_position {
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Self::parse_position(position)?
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} else {
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(0, 1)
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};
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impl FromStr for ShardConfig {
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type Err = String;
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if id >= num {
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return Err(format!(
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"Incorrect shard_id: expected [0, {}), actual {}",
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num, id
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));
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}
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if !num.is_power_of_two() {
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return Err(format!(
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"Incorrect shard group bytes: {}, should be power of two",
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num
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));
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}
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Ok(ShardConfig {
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shard_id: id,
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num_shard: num,
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})
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}
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pub fn miner_shard_mask(&self) -> u64 {
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!(self.num_shard - 1) as u64
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}
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pub fn miner_shard_id(&self) -> u64 {
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self.shard_id as u64
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}
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pub fn is_valid(&self) -> bool {
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self.num_shard > 0 && self.num_shard.is_power_of_two() && self.shard_id < self.num_shard
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}
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pub fn in_range(&self, segment_index: u64) -> bool {
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segment_index as usize % self.num_shard == self.shard_id
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}
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pub fn parse_position(input: &str) -> Result<(usize, usize), String> {
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let parts: Vec<&str> = input.trim().split('/').map(|s| s.trim()).collect();
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fn from_str(s: &str) -> Result<Self, Self::Err> {
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let parts: Vec<&str> = s.trim().split('/').map(|s| s.trim()).collect();
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if parts.len() != 2 {
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return Err("Incorrect format, expected like: '0 / 8'".into());
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@ -82,7 +42,66 @@ impl ShardConfig {
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.parse::<usize>()
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.map_err(|e| format!("Cannot parse shard position {:?}", e))?;
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Ok((numerator, denominator))
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Self::new(numerator, denominator)
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}
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}
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impl TryFrom<Option<String>> for ShardConfig {
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type Error = String;
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fn try_from(value: Option<String>) -> Result<Self, Self::Error> {
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if let Some(position) = value {
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Self::from_str(&position)
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} else {
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Ok(Self::default())
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}
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}
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}
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impl ShardConfig {
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pub fn new(id: usize, num: usize) -> Result<Self, String> {
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let config = ShardConfig {
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shard_id: id,
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num_shard: num,
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};
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config.validate()?;
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Ok(config)
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}
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pub fn miner_shard_mask(&self) -> u64 {
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!(self.num_shard - 1) as u64
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}
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pub fn miner_shard_id(&self) -> u64 {
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self.shard_id as u64
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}
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pub fn validate(&self) -> Result<(), String> {
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if self.shard_id >= self.num_shard {
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return Err(format!(
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"Incorrect shard_id: expected [0, {}), actual {}",
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self.num_shard, self.shard_id
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));
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}
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if self.num_shard == 0 {
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return Err("Shard num is 0".into());
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}
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if !self.num_shard.is_power_of_two() {
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return Err(format!(
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"Incorrect shard group bytes: {}, should be power of two",
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self.num_shard
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));
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}
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Ok(())
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}
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pub fn in_range(&self, segment_index: u64) -> bool {
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segment_index as usize % self.num_shard == self.shard_id
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}
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pub fn next_segment_index(&self, current: usize, start_index: usize) -> usize {
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@ -90,6 +109,30 @@ impl ShardConfig {
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let shift = (start_index + current + self.num_shard - self.shard_id) % self.num_shard;
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current + self.num_shard - shift
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}
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/// Whether `self` intersect with the `other` shard config.
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pub fn intersect(&self, other: &ShardConfig) -> bool {
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let ShardConfig {
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num_shard: mut left_num_shard,
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shard_id: mut left_shard_id,
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} = self;
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let ShardConfig {
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num_shard: mut right_num_shard,
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shard_id: mut right_shard_id,
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} = other;
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while left_num_shard != right_num_shard {
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if left_num_shard < right_num_shard {
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right_num_shard /= 2;
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right_shard_id /= 2;
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} else {
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left_num_shard /= 2;
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left_shard_id /= 2;
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}
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}
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left_shard_id == right_shard_id
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}
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}
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struct ShardSegmentTreeNode {
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@ -146,7 +189,7 @@ impl ShardSegmentTreeNode {
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pub fn all_shards_available(shard_configs: Vec<ShardConfig>) -> bool {
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let mut root = ShardSegmentTreeNode::new(1);
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for shard_config in shard_configs.iter() {
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if !shard_config.is_valid() {
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if shard_config.validate().is_err() {
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continue;
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}
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root.insert(shard_config.num_shard, shard_config.shard_id);
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@ -163,6 +206,10 @@ mod tests {
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use super::ShardConfig;
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fn new_config(id: usize, num: usize) -> ShardConfig {
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ShardConfig::new(id, num).unwrap()
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}
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#[test]
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fn test_all_shards_available() {
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assert!(all_shards_available(vec![
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@ -210,4 +257,34 @@ mod tests {
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},
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]));
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}
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#[test]
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fn test_shard_intersect() {
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// 1 shard
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assert_eq!(new_config(0, 1).intersect(&new_config(0, 1)), true);
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// either is 1 shard
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assert_eq!(new_config(0, 1).intersect(&new_config(0, 2)), true);
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assert_eq!(new_config(0, 1).intersect(&new_config(1, 2)), true);
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assert_eq!(new_config(0, 2).intersect(&new_config(0, 1)), true);
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assert_eq!(new_config(1, 2).intersect(&new_config(0, 1)), true);
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// same shards
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assert_eq!(new_config(1, 4).intersect(&new_config(0, 4)), false);
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assert_eq!(new_config(1, 4).intersect(&new_config(1, 4)), true);
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assert_eq!(new_config(1, 4).intersect(&new_config(2, 4)), false);
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assert_eq!(new_config(1, 4).intersect(&new_config(3, 4)), false);
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// left shards is less
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assert_eq!(new_config(1, 2).intersect(&new_config(0, 4)), false);
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assert_eq!(new_config(1, 2).intersect(&new_config(1, 4)), false);
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assert_eq!(new_config(1, 2).intersect(&new_config(2, 4)), true);
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assert_eq!(new_config(1, 2).intersect(&new_config(3, 4)), true);
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// right shards is less
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assert_eq!(new_config(1, 4).intersect(&new_config(0, 2)), true);
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assert_eq!(new_config(1, 4).intersect(&new_config(1, 2)), false);
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assert_eq!(new_config(2, 4).intersect(&new_config(0, 2)), false);
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assert_eq!(new_config(2, 4).intersect(&new_config(1, 2)), true);
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}
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}
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