layout: prepare for write sets
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866196750f
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3b361d2959
@ -354,7 +354,8 @@ impl BlockManager {
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/// Send block to nodes that should have it
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pub async fn rpc_put_block(&self, hash: Hash, data: Bytes) -> Result<(), Error> {
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let who = self.replication.write_nodes(&hash);
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// TODO: use quorums among latest write set
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let who = self.replication.storage_nodes(&hash);
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let (header, bytes) = DataBlock::from_buffer(data, self.compression_level)
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.await
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@ -377,7 +377,7 @@ impl BlockResyncManager {
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info!("Resync block {:?}: offloading and deleting", hash);
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let existing_path = existing_path.unwrap();
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let mut who = manager.replication.write_nodes(hash);
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let mut who = manager.replication.storage_nodes(hash);
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if who.len() < manager.replication.write_quorum() {
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return Err(Error::Message("Not trying to offload block because we don't have a quorum of nodes to write to".to_string()));
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}
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@ -127,7 +127,7 @@ impl K2VRpcHandler {
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.item_table
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.data
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.replication
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.write_nodes(&partition.hash());
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.storage_nodes(&partition.hash());
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who.sort();
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self.system
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@ -168,7 +168,7 @@ impl K2VRpcHandler {
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.item_table
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.data
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.replication
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.write_nodes(&partition.hash());
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.storage_nodes(&partition.hash());
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who.sort();
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call_list.entry(who).or_default().push(InsertedItem {
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@ -223,11 +223,12 @@ impl K2VRpcHandler {
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},
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sort_key,
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};
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// TODO figure this out with write sets, does it still work????
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let nodes = self
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.item_table
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.data
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.replication
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.write_nodes(&poll_key.partition.hash());
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.read_nodes(&poll_key.partition.hash());
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let rpc = self.system.rpc_helper().try_call_many(
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&self.endpoint,
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@ -284,11 +285,12 @@ impl K2VRpcHandler {
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seen.restrict(&range);
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// Prepare PollRange RPC to send to the storage nodes responsible for the parititon
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// TODO figure this out with write sets, does it still work????
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let nodes = self
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.item_table
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.data
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.replication
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.write_nodes(&range.partition.hash());
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.read_nodes(&range.partition.hash());
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let quorum = self.item_table.data.replication.read_quorum();
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let msg = K2VRpc::PollRange {
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range,
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@ -98,13 +98,26 @@ impl LayoutHistory {
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.find(|x| x.version == sync_min)
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.or(self.versions.last())
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.unwrap();
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version.nodes_of(position, version.replication_factor)
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version
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.nodes_of(position, version.replication_factor)
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.collect()
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}
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pub fn write_sets_of<'a>(&'a self, position: &'a Hash) -> impl Iterator<Item = Vec<Uuid>> + 'a {
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pub fn write_sets_of(&self, position: &Hash) -> Vec<Vec<Uuid>> {
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self.versions
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.iter()
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.map(move |x| x.nodes_of(position, x.replication_factor))
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.map(|x| x.nodes_of(position, x.replication_factor).collect())
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.collect()
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}
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pub fn storage_nodes_of(&self, position: &Hash) -> Vec<Uuid> {
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let mut ret = vec![];
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for version in self.versions.iter() {
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ret.extend(version.nodes_of(position, version.replication_factor));
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}
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ret.sort();
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ret.dedup();
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ret
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}
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// ------------------ update tracking ---------------
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@ -107,25 +107,24 @@ impl LayoutVersion {
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}
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/// Return the n servers in which data for this hash should be replicated
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pub fn nodes_of(&self, position: &Hash, n: usize) -> Vec<Uuid> {
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pub fn nodes_of(&self, position: &Hash, n: usize) -> impl Iterator<Item = Uuid> + '_ {
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assert_eq!(n, self.replication_factor);
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let data = &self.ring_assignment_data;
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if data.len() != self.replication_factor * (1 << PARTITION_BITS) {
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let partition_nodes = if data.len() == self.replication_factor * (1 << PARTITION_BITS) {
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let partition_idx = self.partition_of(position) as usize;
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let partition_start = partition_idx * self.replication_factor;
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let partition_end = (partition_idx + 1) * self.replication_factor;
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&data[partition_start..partition_end]
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} else {
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warn!("Ring not yet ready, read/writes will be lost!");
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return vec![];
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}
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let partition_idx = self.partition_of(position) as usize;
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let partition_start = partition_idx * self.replication_factor;
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let partition_end = (partition_idx + 1) * self.replication_factor;
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let partition_nodes = &data[partition_start..partition_end];
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&[]
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};
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partition_nodes
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.iter()
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.map(|i| self.node_id_vec[*i as usize])
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.collect::<Vec<_>>()
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.map(move |i| self.node_id_vec[*i as usize])
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}
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// ===================== internal information extractors ======================
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@ -449,8 +449,7 @@ impl System {
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.iter()
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.map(|(_, h)| {
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let pn = layout.current().nodes_of(h, replication_factor);
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pn.iter()
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.filter(|x| nodes.get(x).map(|n| n.is_up).unwrap_or(false))
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pn.filter(|x| nodes.get(x).map(|n| n.is_up).unwrap_or(false))
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.count()
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})
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.collect::<Vec<usize>>();
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@ -254,7 +254,8 @@ impl<F: TableSchema, R: TableReplication> TableData<F, R> {
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// of the GC algorithm, as in all cases GC is suspended if
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// any node of the partition is unavailable.
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let pk_hash = Hash::try_from(&tree_key[..32]).unwrap();
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let nodes = self.replication.write_nodes(&pk_hash);
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// TODO: this probably breaks when the layout changes
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let nodes = self.replication.storage_nodes(&pk_hash);
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if nodes.first() == Some(&self.system.id) {
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GcTodoEntry::new(tree_key, new_bytes_hash).save(&self.gc_todo)?;
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}
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@ -152,7 +152,7 @@ impl<F: TableSchema, R: TableReplication> TableGc<F, R> {
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let mut partitions = HashMap::new();
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for entry in entries {
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let pkh = Hash::try_from(&entry.key[..32]).unwrap();
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let mut nodes = self.data.replication.write_nodes(&pkh);
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let mut nodes = self.data.replication.storage_nodes(&pkh);
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nodes.retain(|x| *x != self.system.id);
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nodes.sort();
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@ -27,6 +27,11 @@ pub struct TableFullReplication {
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}
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impl TableReplication for TableFullReplication {
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fn storage_nodes(&self, _hash: &Hash) -> Vec<Uuid> {
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let layout = self.system.cluster_layout();
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layout.current().all_nodes().to_vec()
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}
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fn read_nodes(&self, _hash: &Hash) -> Vec<Uuid> {
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vec![self.system.id]
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}
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@ -34,8 +39,8 @@ impl TableReplication for TableFullReplication {
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1
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}
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fn write_nodes(&self, _hash: &Hash) -> Vec<Uuid> {
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self.system.cluster_layout().current().all_nodes().to_vec()
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fn write_sets(&self, hash: &Hash) -> Vec<Vec<Uuid>> {
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vec![self.storage_nodes(hash)]
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}
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fn write_quorum(&self) -> usize {
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let nmembers = self.system.cluster_layout().current().all_nodes().len();
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@ -6,21 +6,23 @@ pub trait TableReplication: Send + Sync + 'static {
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// See examples in table_sharded.rs and table_fullcopy.rs
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// To understand various replication methods
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/// The entire list of all nodes that store a partition
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fn storage_nodes(&self, hash: &Hash) -> Vec<Uuid>;
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/// Which nodes to send read requests to
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fn read_nodes(&self, hash: &Hash) -> Vec<Uuid>;
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/// Responses needed to consider a read succesfull
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fn read_quorum(&self) -> usize;
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/// Which nodes to send writes to
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fn write_nodes(&self, hash: &Hash) -> Vec<Uuid>;
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/// Responses needed to consider a write succesfull
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fn write_sets(&self, hash: &Hash) -> Vec<Vec<Uuid>>;
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/// Responses needed to consider a write succesfull in each set
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fn write_quorum(&self) -> usize;
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fn max_write_errors(&self) -> usize;
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// Accessing partitions, for Merkle tree & sync
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/// Get partition for data with given hash
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fn partition_of(&self, hash: &Hash) -> Partition;
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/// List of partitions and nodes to sync with in current layout
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fn sync_partitions(&self) -> SyncPartitions;
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}
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@ -25,21 +25,19 @@ pub struct TableShardedReplication {
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}
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impl TableReplication for TableShardedReplication {
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fn storage_nodes(&self, hash: &Hash) -> Vec<Uuid> {
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self.system.cluster_layout().storage_nodes_of(hash)
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}
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fn read_nodes(&self, hash: &Hash) -> Vec<Uuid> {
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self.system
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.cluster_layout()
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.current()
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.nodes_of(hash, self.replication_factor)
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self.system.cluster_layout().read_nodes_of(hash)
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}
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fn read_quorum(&self) -> usize {
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self.read_quorum
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}
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fn write_nodes(&self, hash: &Hash) -> Vec<Uuid> {
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self.system
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.cluster_layout()
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.current()
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.nodes_of(hash, self.replication_factor)
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fn write_sets(&self, hash: &Hash) -> Vec<Vec<Uuid>> {
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self.system.cluster_layout().write_sets_of(hash)
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}
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fn write_quorum(&self) -> usize {
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self.write_quorum
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@ -60,13 +58,7 @@ impl TableReplication for TableShardedReplication {
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.current()
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.partitions()
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.map(|(partition, first_hash)| {
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let mut storage_nodes = layout
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.write_sets_of(&first_hash)
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.map(|x| x.into_iter())
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.flatten()
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.collect::<Vec<_>>();
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storage_nodes.sort();
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storage_nodes.dedup();
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let storage_nodes = layout.storage_nodes_of(&first_hash);
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SyncPartition {
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partition,
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first_hash,
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@ -176,7 +176,7 @@ impl<F: TableSchema, R: TableReplication> TableSyncer<F, R> {
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let nodes = self
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.data
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.replication
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.write_nodes(begin)
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.storage_nodes(begin)
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.into_iter()
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.collect::<Vec<_>>();
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if nodes.contains(&self.system.id) {
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@ -119,7 +119,8 @@ impl<F: TableSchema, R: TableReplication> Table<F, R> {
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async fn insert_internal(&self, e: &F::E) -> Result<(), Error> {
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let hash = e.partition_key().hash();
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let who = self.data.replication.write_nodes(&hash);
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// TODO: use write sets
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let who = self.data.replication.storage_nodes(&hash);
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let e_enc = Arc::new(ByteBuf::from(e.encode()?));
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let rpc = TableRpc::<F>::Update(vec![e_enc]);
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@ -171,7 +172,8 @@ impl<F: TableSchema, R: TableReplication> Table<F, R> {
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for entry in entries.into_iter() {
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let entry = entry.borrow();
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let hash = entry.partition_key().hash();
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let who = self.data.replication.write_nodes(&hash);
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// TODO: use write sets
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let who = self.data.replication.storage_nodes(&hash);
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let e_enc = Arc::new(ByteBuf::from(entry.encode()?));
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for node in who {
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call_list.entry(node).or_default().push(e_enc.clone());
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