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|
use std::borrow::Borrow;
use std::collections::{BTreeMap, BTreeSet, HashMap};
use std::sync::Arc;
use async_trait::async_trait;
use futures::stream::*;
use serde::{Deserialize, Serialize};
use serde_bytes::ByteBuf;
use opentelemetry::{
trace::{FutureExt, TraceContextExt, Tracer},
Context,
};
use garage_db as db;
use garage_util::background::BackgroundRunner;
use garage_util::data::*;
use garage_util::error::Error;
use garage_util::metrics::RecordDuration;
use garage_util::migrate::Migrate;
use garage_rpc::system::System;
use garage_rpc::*;
use crate::crdt::Crdt;
use crate::data::*;
use crate::gc::*;
use crate::merkle::*;
use crate::queue::InsertQueueWorker;
use crate::replication::*;
use crate::schema::*;
use crate::sync::*;
use crate::util::*;
pub struct Table<F: TableSchema, R: TableReplication> {
pub system: Arc<System>,
pub data: Arc<TableData<F, R>>,
pub merkle_updater: Arc<MerkleUpdater<F, R>>,
pub syncer: Arc<TableSyncer<F, R>>,
gc: Arc<TableGc<F, R>>,
endpoint: Arc<Endpoint<TableRpc<F>, Self>>,
}
#[derive(Serialize, Deserialize)]
pub(crate) enum TableRpc<F: TableSchema> {
Ok,
ReadEntry(F::P, F::S),
ReadEntryResponse(Option<ByteBuf>),
// Read range: read all keys in partition P, possibly starting at a certain sort key offset
ReadRange {
partition: F::P,
begin_sort_key: Option<F::S>,
filter: Option<F::Filter>,
limit: usize,
enumeration_order: EnumerationOrder,
},
Update(Vec<Arc<ByteBuf>>),
}
impl<F: TableSchema> Rpc for TableRpc<F> {
type Response = Result<TableRpc<F>, Error>;
}
impl<F: TableSchema, R: TableReplication> Table<F, R> {
// =============== PUBLIC INTERFACE FUNCTIONS (new, insert, get, etc) ===============
pub fn new(instance: F, replication: R, system: Arc<System>, db: &db::Db) -> Arc<Self> {
let endpoint = system
.netapp
.endpoint(format!("garage_table/table.rs/Rpc:{}", F::TABLE_NAME));
let data = TableData::new(system.clone(), instance, replication, db);
let merkle_updater = MerkleUpdater::new(data.clone());
let syncer = TableSyncer::new(system.clone(), data.clone(), merkle_updater.clone());
let gc = TableGc::new(system.clone(), data.clone());
system.layout_manager.add_table(F::TABLE_NAME);
let table = Arc::new(Self {
system,
data,
merkle_updater,
gc,
syncer,
endpoint,
});
table.endpoint.set_handler(table.clone());
table
}
pub fn spawn_workers(self: &Arc<Self>, bg: &BackgroundRunner) {
self.merkle_updater.spawn_workers(bg);
self.syncer.spawn_workers(bg);
self.gc.spawn_workers(bg);
bg.spawn_worker(InsertQueueWorker(self.clone()));
}
pub async fn insert(&self, e: &F::E) -> Result<(), Error> {
let tracer = opentelemetry::global::tracer("garage_table");
let span = tracer.start(format!("{} insert", F::TABLE_NAME));
self.insert_internal(e)
.bound_record_duration(&self.data.metrics.put_request_duration)
.with_context(Context::current_with_span(span))
.await?;
self.data.metrics.put_request_counter.add(1);
Ok(())
}
async fn insert_internal(&self, e: &F::E) -> Result<(), Error> {
let hash = e.partition_key().hash();
let who = self.data.replication.write_sets(&hash);
let e_enc = Arc::new(ByteBuf::from(e.encode()?));
let rpc = TableRpc::<F>::Update(vec![e_enc]);
self.system
.rpc_helper()
.try_write_many_sets(
&self.endpoint,
who.as_ref(),
rpc,
RequestStrategy::with_priority(PRIO_NORMAL)
.with_quorum(self.data.replication.write_quorum()),
)
.await?;
Ok(())
}
/// Insert item locally
pub fn queue_insert(&self, tx: &mut db::Transaction, e: &F::E) -> db::TxResult<(), Error> {
self.data.queue_insert(tx, e)
}
pub async fn insert_many<I, IE>(self: &Arc<Self>, entries: I) -> Result<(), Error>
where
I: IntoIterator<Item = IE> + Send + Sync,
IE: Borrow<F::E> + Send + Sync,
{
let tracer = opentelemetry::global::tracer("garage_table");
let span = tracer.start(format!("{} insert_many", F::TABLE_NAME));
self.insert_many_internal(entries)
.bound_record_duration(&self.data.metrics.put_request_duration)
.with_context(Context::current_with_span(span))
.await?;
self.data.metrics.put_request_counter.add(1);
Ok(())
}
async fn insert_many_internal<I, IE>(self: &Arc<Self>, entries: I) -> Result<(), Error>
where
I: IntoIterator<Item = IE> + Send + Sync,
IE: Borrow<F::E> + Send + Sync,
{
// The different items will have to be stored on possibly different nodes.
// We will here batch all items into a single request for each concerned
// node, with all of the entries it must store within that request.
// Each entry has to be saved to a specific list of "write sets", i.e. a set
// of node within wich a quorum must be achieved. In normal operation, there
// is a single write set which corresponds to the quorum in the current
// cluster layout, but when the layout is updated, multiple write sets might
// have to be handled at once. Here, since we are sending many entries, we
// will have to handle many write sets in all cases. The algorihtm is thus
// to send one request to each node with all the items it must save,
// and keep track of the OK responses within each write set: if for all sets
// a quorum of nodes has answered OK, then the insert has succeeded and
// consistency properties (read-after-write) are preserved.
// Some code here might feel redundant with RpcHelper::try_write_many_sets,
// but I think deduplicating could lead to more spaghetti instead of
// improving the readability, so I'm leaving as is.
let quorum = self.data.replication.write_quorum();
// Serialize all entries and compute the write sets for each of them.
// In the case of sharded table replication, this also takes an "ack lock"
// to the layout manager to avoid ack'ing newer versions which are not
// taken into account by writes in progress (the ack can happen later, once
// all writes that didn't take the new layout into account are finished).
// These locks are released when entries_vec is dropped, i.e. when this
// function returns.
let mut entries_vec = Vec::new();
for entry in entries.into_iter() {
let entry = entry.borrow();
let hash = entry.partition_key().hash();
let write_sets = self.data.replication.write_sets(&hash);
let e_enc = Arc::new(ByteBuf::from(entry.encode()?));
entries_vec.push((write_sets, e_enc));
}
// Compute a deduplicated list of all of the write sets,
// and compute an index from each node to the position of the sets in which
// it takes part, to optimize the detection of a quorum.
let mut write_sets = entries_vec
.iter()
.map(|(wss, _)| wss.as_ref().iter().map(|ws| ws.as_slice()))
.flatten()
.collect::<Vec<&[Uuid]>>();
write_sets.sort();
write_sets.dedup();
let mut write_set_index = HashMap::<&Uuid, Vec<usize>>::new();
for (i, write_set) in write_sets.iter().enumerate() {
for node in write_set.iter() {
write_set_index.entry(node).or_default().push(i);
}
}
// Build a map of all nodes to the entries that must be sent to that node.
let mut call_list: HashMap<Uuid, Vec<_>> = HashMap::new();
for (write_sets, entry_enc) in entries_vec.iter() {
for write_set in write_sets.as_ref().iter() {
for node in write_set.iter() {
call_list.entry(*node).or_default().push(entry_enc.clone())
}
}
}
// Build futures to actually perform each of the corresponding RPC calls
let call_count = call_list.len();
let call_futures = call_list.into_iter().map(|(node, entries)| {
let this = self.clone();
let tracer = opentelemetry::global::tracer("garage");
let span = tracer.start(format!("RPC to {:?}", node));
let fut = async move {
let rpc = TableRpc::<F>::Update(entries);
let resp = this
.system
.rpc_helper()
.call(
&this.endpoint,
node,
rpc,
RequestStrategy::with_priority(PRIO_NORMAL).with_quorum(quorum),
)
.await;
(node, resp)
};
fut.with_context(Context::current_with_span(span))
});
// Run all requests in parallel thanks to FuturesUnordered, and collect results.
let mut resps = call_futures.collect::<FuturesUnordered<_>>();
let mut set_counters = vec![(0, 0); write_sets.len()];
let mut successes = 0;
let mut errors = vec![];
while let Some((node, resp)) = resps.next().await {
match resp {
Ok(_) => {
successes += 1;
for set in write_set_index.get(&node).unwrap().iter() {
set_counters[*set].0 += 1;
}
}
Err(e) => {
errors.push(e);
for set in write_set_index.get(&node).unwrap().iter() {
set_counters[*set].1 += 1;
}
}
}
if set_counters.iter().all(|(ok_cnt, _)| *ok_cnt >= quorum) {
// Success
// Continue all other requests in background
tokio::spawn(async move {
resps.collect::<Vec<(Uuid, Result<_, _>)>>().await;
});
return Ok(());
}
if set_counters
.iter()
.enumerate()
.any(|(i, (_, err_cnt))| err_cnt + quorum > write_sets[i].len())
{
// Too many errors in this set, we know we won't get a quorum
break;
}
}
// Failure, could not get quorum within at least one set
let errors = errors.iter().map(|e| format!("{}", e)).collect::<Vec<_>>();
Err(Error::Quorum(
quorum,
Some(write_sets.len()),
successes,
call_count,
errors,
))
}
pub async fn get(
self: &Arc<Self>,
partition_key: &F::P,
sort_key: &F::S,
) -> Result<Option<F::E>, Error> {
let tracer = opentelemetry::global::tracer("garage_table");
let span = tracer.start(format!("{} get", F::TABLE_NAME));
let res = self
.get_internal(partition_key, sort_key)
.bound_record_duration(&self.data.metrics.get_request_duration)
.with_context(Context::current_with_span(span))
.await?;
self.data.metrics.get_request_counter.add(1);
Ok(res)
}
async fn get_internal(
self: &Arc<Self>,
partition_key: &F::P,
sort_key: &F::S,
) -> Result<Option<F::E>, Error> {
let hash = partition_key.hash();
let who = self.data.replication.read_nodes(&hash);
let rpc = TableRpc::<F>::ReadEntry(partition_key.clone(), sort_key.clone());
let resps = self
.system
.rpc_helper()
.try_call_many(
&self.endpoint,
&who,
rpc,
RequestStrategy::with_priority(PRIO_NORMAL)
.with_quorum(self.data.replication.read_quorum()),
)
.await?;
let mut ret = None;
let mut not_all_same = false;
for resp in resps {
if let TableRpc::ReadEntryResponse(value) = resp {
if let Some(v_bytes) = value {
let v = self.data.decode_entry(v_bytes.as_slice())?;
ret = match ret {
None => Some(v),
Some(mut x) => {
if x != v {
not_all_same = true;
x.merge(&v);
}
Some(x)
}
}
}
} else {
return Err(Error::Message("Invalid return value to read".to_string()));
}
}
if let Some(ret_entry) = &ret {
if not_all_same {
let self2 = self.clone();
let ent2 = ret_entry.clone();
tokio::spawn(async move {
if let Err(e) = self2.repair_on_read(&who[..], ent2).await {
warn!("Error doing repair on read: {}", e);
}
});
}
}
Ok(ret)
}
pub async fn get_range(
self: &Arc<Self>,
partition_key: &F::P,
begin_sort_key: Option<F::S>,
filter: Option<F::Filter>,
limit: usize,
enumeration_order: EnumerationOrder,
) -> Result<Vec<F::E>, Error> {
let tracer = opentelemetry::global::tracer("garage_table");
let span = tracer.start(format!("{} get_range", F::TABLE_NAME));
let res = self
.get_range_internal(
partition_key,
begin_sort_key,
filter,
limit,
enumeration_order,
)
.bound_record_duration(&self.data.metrics.get_request_duration)
.with_context(Context::current_with_span(span))
.await?;
self.data.metrics.get_request_counter.add(1);
Ok(res)
}
async fn get_range_internal(
self: &Arc<Self>,
partition_key: &F::P,
begin_sort_key: Option<F::S>,
filter: Option<F::Filter>,
limit: usize,
enumeration_order: EnumerationOrder,
) -> Result<Vec<F::E>, Error> {
let hash = partition_key.hash();
let who = self.data.replication.read_nodes(&hash);
let rpc = TableRpc::<F>::ReadRange {
partition: partition_key.clone(),
begin_sort_key,
filter,
limit,
enumeration_order,
};
let resps = self
.system
.rpc_helper()
.try_call_many(
&self.endpoint,
&who,
rpc,
RequestStrategy::with_priority(PRIO_NORMAL)
.with_quorum(self.data.replication.read_quorum()),
)
.await?;
let mut ret: BTreeMap<Vec<u8>, F::E> = BTreeMap::new();
let mut to_repair = BTreeSet::new();
for resp in resps {
if let TableRpc::Update(entries) = resp {
for entry_bytes in entries.iter() {
let entry = self.data.decode_entry(entry_bytes.as_slice())?;
let entry_key = self.data.tree_key(entry.partition_key(), entry.sort_key());
match ret.get_mut(&entry_key) {
Some(e) => {
if *e != entry {
e.merge(&entry);
to_repair.insert(entry_key.clone());
}
}
None => {
ret.insert(entry_key, entry);
}
}
}
} else {
return Err(Error::unexpected_rpc_message(resp));
}
}
if !to_repair.is_empty() {
let self2 = self.clone();
let to_repair = to_repair
.into_iter()
.map(|k| ret.get(&k).unwrap().clone())
.collect::<Vec<_>>();
tokio::spawn(async move {
for v in to_repair {
if let Err(e) = self2.repair_on_read(&who[..], v).await {
warn!("Error doing repair on read: {}", e);
}
}
});
}
// At this point, the `ret` btreemap might contain more than `limit`
// items, because nodes might have returned us each `limit` items
// but for different keys. We have to take only the first `limit` items
// in this map, in the specified enumeration order, for two reasons:
// 1. To return to the user no more than the number of items that they requested
// 2. To return only items for which we have a read quorum: we do not know
// that we have a read quorum for the items after the first `limit`
// of them
let ret_vec = match enumeration_order {
EnumerationOrder::Forward => ret
.into_iter()
.take(limit)
.map(|(_k, v)| v)
.collect::<Vec<_>>(),
EnumerationOrder::Reverse => ret
.into_iter()
.rev()
.take(limit)
.map(|(_k, v)| v)
.collect::<Vec<_>>(),
};
Ok(ret_vec)
}
// =============== UTILITY FUNCTION FOR CLIENT OPERATIONS ===============
async fn repair_on_read(&self, who: &[Uuid], what: F::E) -> Result<(), Error> {
let what_enc = Arc::new(ByteBuf::from(what.encode()?));
self.system
.rpc_helper()
.try_call_many(
&self.endpoint,
who,
TableRpc::<F>::Update(vec![what_enc]),
RequestStrategy::with_priority(PRIO_NORMAL).with_quorum(who.len()),
)
.await?;
Ok(())
}
}
#[async_trait]
impl<F: TableSchema, R: TableReplication> EndpointHandler<TableRpc<F>> for Table<F, R> {
async fn handle(
self: &Arc<Self>,
msg: &TableRpc<F>,
_from: NodeID,
) -> Result<TableRpc<F>, Error> {
match msg {
TableRpc::ReadEntry(key, sort_key) => {
let value = self.data.read_entry(key, sort_key)?;
Ok(TableRpc::ReadEntryResponse(value))
}
TableRpc::ReadRange {
partition,
begin_sort_key,
filter,
limit,
enumeration_order,
} => {
let values = self.data.read_range(
partition,
begin_sort_key,
filter,
*limit,
*enumeration_order,
)?;
Ok(TableRpc::Update(values))
}
TableRpc::Update(pairs) => {
self.data.update_many(pairs)?;
Ok(TableRpc::Ok)
}
m => Err(Error::unexpected_rpc_message(m)),
}
}
}
|