Garage v1.0 #683

Merged
lx merged 119 commits from next-0.10 into main 2024-04-10 15:23:13 +00:00
12 changed files with 228 additions and 60 deletions
Showing only changes of commit 8bfc16ba7d - Show all commits

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@ -35,6 +35,7 @@ steps:
- ./result/bin/garage_web-*
- ./result/bin/garage-*
- GARAGE_TEST_INTEGRATION_DB_ENGINE=lmdb ./result/bin/integration-* || (cat tmp-garage-integration/stderr.log; false)
- nix-shell --attr ci --run "killall -9 garage" || true
- GARAGE_TEST_INTEGRATION_DB_ENGINE=sqlite ./result/bin/integration-* || (cat tmp-garage-integration/stderr.log; false)
- rm result
- rm -rv tmp-garage-integration

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@ -21,6 +21,7 @@ metadata_auto_snapshot_interval = "6h"
db_engine = "lmdb"
block_size = "1M"
block_ram_buffer_max = "256MiB"
lmdb_map_size = "1T"
@ -87,6 +88,7 @@ The following gives details about each available configuration option.
Top-level configuration options:
[`allow_world_readable_secrets`](#allow_world_readable_secrets),
[`block_ram_buffer_max`](#block_ram_buffer_max),
[`block_size`](#block_size),
[`bootstrap_peers`](#bootstrap_peers),
[`compression_level`](#compression_level),
@ -434,6 +436,37 @@ files will remain available. This however means that chunks from existing files
will not be deduplicated with chunks from newly uploaded files, meaning you
might use more storage space that is optimally possible.
#### `block_ram_buffer_max` (since v0.9.4) {#block_ram_buffer_max}
A limit on the total size of data blocks kept in RAM by S3 API nodes awaiting
to be sent to storage nodes asynchronously.
Explanation: since Garage wants to tolerate node failures, it uses quorum
writes to send data blocks to storage nodes: try to write the block to three
nodes, and return ok as soon as two writes complete. So even if all three nodes
are online, the third write always completes asynchronously. In general, there
are not many writes to a cluster, and the third asynchronous write can
terminate early enough so as to not cause unbounded RAM growth. However, if
the S3 API node is continuously receiving large quantities of data and the
third node is never able to catch up, many data blocks will be kept buffered in
RAM as they are awaiting transfer to the third node.
The `block_ram_buffer_max` sets a limit to the size of buffers that can be kept
in RAM in this process. When the limit is reached, backpressure is applied
back to the S3 client.
Note that this only counts buffers that have arrived to a certain stage of
processing (received from the client + encrypted and/or compressed as
necessary) and are ready to send to the storage nodes. Many other buffers will
not be counted and this is not a hard limit on RAM consumption. In particular,
if many clients send requests simultaneously with large objects, the RAM
consumption will always grow linearly with the number of concurrent requests,
as each request will use a few buffers of size `block_size` for receiving and
intermediate processing before even trying to send the data to the storage
node.
The default value is 256MiB.
#### `lmdb_map_size` {#lmdb_map_size}
This parameters can be used to set the map size used by LMDB,

View file

@ -225,6 +225,17 @@ block_bytes_read 120586322022
block_bytes_written 3386618077
```
#### `block_ram_buffer_free_kb` (gauge)
Kibibytes available for buffering blocks that have to be sent to remote nodes.
When clients send too much data to this node and a storage node is not receiving
data fast enough due to slower network conditions, this will decrease down to
zero and backpressure will be applied.
```
block_ram_buffer_free_kb 219829
```
#### `block_compression_level` (counter)
Exposes the block compression level configured for the Garage node.

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@ -1,3 +1,4 @@
use std::convert::TryInto;
use std::path::PathBuf;
use std::sync::Arc;
use std::time::Duration;
@ -10,7 +11,7 @@ use serde::{Deserialize, Serialize};
use tokio::fs;
use tokio::io::{AsyncReadExt, AsyncWriteExt, BufReader};
use tokio::sync::{mpsc, Mutex, MutexGuard};
use tokio::sync::{mpsc, Mutex, MutexGuard, Semaphore};
use opentelemetry::{
trace::{FutureExt as OtelFutureExt, TraceContextExt, Tracer},
@ -93,6 +94,7 @@ pub struct BlockManager {
pub(crate) system: Arc<System>,
pub(crate) endpoint: Arc<Endpoint<BlockRpc, Self>>,
buffer_kb_semaphore: Arc<Semaphore>,
pub(crate) metrics: BlockManagerMetrics,
@ -152,11 +154,14 @@ impl BlockManager {
.netapp
.endpoint("garage_block/manager.rs/Rpc".to_string());
let buffer_kb_semaphore = Arc::new(Semaphore::new(config.block_ram_buffer_max / 1024));
let metrics = BlockManagerMetrics::new(
config.compression_level,
rc.rc_table.clone(),
resync.queue.clone(),
resync.errors.clone(),
buffer_kb_semaphore.clone(),
);
let scrub_persister = PersisterShared::new(&system.metadata_dir, "scrub_info");
@ -176,6 +181,7 @@ impl BlockManager {
resync,
system,
endpoint,
buffer_kb_semaphore,
metrics,
scrub_persister,
tx_scrub_command: ArcSwapOption::new(None),
@ -238,9 +244,15 @@ impl BlockManager {
async fn rpc_get_raw_block_streaming(
&self,
hash: &Hash,
priority: RequestPriority,
order_tag: Option<OrderTag>,
) -> Result<DataBlockStream, Error> {
self.rpc_get_raw_block_internal(hash, order_tag, |stream| async move { Ok(stream) })
self.rpc_get_raw_block_internal(
hash,
priority,
order_tag,
|stream| async move { Ok(stream) },
)
.await
}
@ -249,9 +261,10 @@ impl BlockManager {
pub(crate) async fn rpc_get_raw_block(
&self,
hash: &Hash,
priority: RequestPriority,
order_tag: Option<OrderTag>,
) -> Result<DataBlock, Error> {
self.rpc_get_raw_block_internal(hash, order_tag, |block_stream| async move {
self.rpc_get_raw_block_internal(hash, priority, order_tag, |block_stream| async move {
let (header, stream) = block_stream.into_parts();
read_stream_to_end(stream)
.await
@ -264,6 +277,7 @@ impl BlockManager {
async fn rpc_get_raw_block_internal<F, Fut, T>(
&self,
hash: &Hash,
priority: RequestPriority,
order_tag: Option<OrderTag>,
f: F,
) -> Result<T, Error>
@ -281,7 +295,7 @@ impl BlockManager {
let rpc = self.endpoint.call_streaming(
&node_id,
BlockRpc::GetBlock(*hash, order_tag),
PRIO_NORMAL | PRIO_SECONDARY,
priority,
);
tokio::select! {
res = rpc => {
@ -333,7 +347,9 @@ impl BlockManager {
hash: &Hash,
order_tag: Option<OrderTag>,
) -> Result<ByteStream, Error> {
let block_stream = self.rpc_get_raw_block_streaming(hash, order_tag).await?;
let block_stream = self
.rpc_get_raw_block_streaming(hash, PRIO_NORMAL | PRIO_SECONDARY, order_tag)
.await?;
let (header, stream) = block_stream.into_parts();
match header {
DataBlockHeader::Plain => Ok(stream),
@ -361,6 +377,14 @@ impl BlockManager {
let (header, bytes) = DataBlock::from_buffer(data, compression_level)
.await
.into_parts();
let permit = self
.buffer_kb_semaphore
.clone()
.acquire_many_owned((bytes.len() / 1024).try_into().unwrap())
.await
.ok_or_message("could not reserve space for buffer of data to send to remote nodes")?;
let put_block_rpc =
Req::new(BlockRpc::PutBlock { hash, header })?.with_stream_from_buffer(bytes);
let put_block_rpc = if let Some(tag) = order_tag {
@ -376,6 +400,7 @@ impl BlockManager {
who.as_ref(),
put_block_rpc,
RequestStrategy::with_priority(PRIO_NORMAL | PRIO_SECONDARY)
.with_drop_on_completion(permit)
.with_quorum(self.replication.write_quorum()),
)
.await?;

View file

@ -1,3 +1,7 @@
use std::sync::Arc;
use tokio::sync::Semaphore;
use opentelemetry::{global, metrics::*};
use garage_db as db;
@ -8,6 +12,7 @@ pub struct BlockManagerMetrics {
pub(crate) _rc_size: ValueObserver<u64>,
pub(crate) _resync_queue_len: ValueObserver<u64>,
pub(crate) _resync_errored_blocks: ValueObserver<u64>,
pub(crate) _buffer_free_kb: ValueObserver<u64>,
pub(crate) resync_counter: BoundCounter<u64>,
pub(crate) resync_error_counter: BoundCounter<u64>,
@ -30,6 +35,7 @@ impl BlockManagerMetrics {
rc_tree: db::Tree,
resync_queue: db::Tree,
resync_errors: db::Tree,
buffer_semaphore: Arc<Semaphore>,
) -> Self {
let meter = global::meter("garage_model/block");
Self {
@ -69,6 +75,15 @@ impl BlockManagerMetrics {
.with_description("Number of block hashes whose last resync resulted in an error")
.init(),
_buffer_free_kb: meter
.u64_value_observer("block.ram_buffer_free_kb", move |observer| {
observer.observe(buffer_semaphore.available_permits() as u64, &[])
})
.with_description(
"Available RAM in KiB to use for buffering data blocks to be written to remote nodes",
)
.init(),
resync_counter: meter
.u64_counter("block.resync_counter")
.with_description("Number of calls to resync_block")

View file

@ -436,7 +436,7 @@ impl BlockResyncManager {
&manager.endpoint,
&need_nodes,
put_block_message,
RequestStrategy::with_priority(PRIO_BACKGROUND)
RequestStrategy::with_priority(PRIO_BACKGROUND | PRIO_SECONDARY)
.with_quorum(need_nodes.len()),
)
.await
@ -460,7 +460,9 @@ impl BlockResyncManager {
hash
);
let block_data = manager.rpc_get_raw_block(hash, None).await;
let block_data = manager
.rpc_get_raw_block(hash, PRIO_BACKGROUND | PRIO_SECONDARY, None)
.await;
if matches!(block_data, Err(Error::MissingBlock(_))) {
warn!(
"Could not fetch needed block {:?}, no node returned valid data. Checking that refcount is correct.",

View file

@ -300,7 +300,7 @@ impl K2VRpcHandler {
.map(|node| {
self.system
.rpc_helper()
.call(&self.endpoint, *node, msg.clone(), rs)
.call(&self.endpoint, *node, msg.clone(), rs.clone())
})
.collect::<FuturesUnordered<_>>();

View file

@ -28,12 +28,30 @@ use crate::util::*;
/// The same priority value is given to a request and to its associated response.
pub type RequestPriority = u8;
// Usage of priority levels in Garage:
//
// PRIO_HIGH
// for liveness check events such as pings and important
// reconfiguration events such as layout changes
//
// PRIO_NORMAL
// for standard interactive requests to exchange metadata
//
// PRIO_NORMAL | PRIO_SECONDARY
// for standard interactive requests to exchange block data
//
// PRIO_BACKGROUND
// for background resync requests to exchange metadata
// PRIO_BACKGROUND | PRIO_SECONDARY
// for background resync requests to exchange block data
/// Priority class: high
pub const PRIO_HIGH: RequestPriority = 0x20;
/// Priority class: normal
pub const PRIO_NORMAL: RequestPriority = 0x40;
/// Priority class: background
pub const PRIO_BACKGROUND: RequestPriority = 0x80;
/// Priority: primary among given class
pub const PRIO_PRIMARY: RequestPriority = 0x00;
/// Priority: secondary among given class (ex: `PRIO_HIGH | PRIO_SECONDARY`)

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@ -109,7 +109,7 @@ impl SendQueuePriority {
let i = order_vec.iter().take_while(|o2| **o2 < order).count();
order_vec.insert(i, order);
}
self.items.push_front(item);
self.items.push_back(item);
}
fn remove(&mut self, id: RequestID) {
if let Some(i) = self.items.iter().position(|x| x.id == id) {
@ -128,6 +128,10 @@ impl SendQueuePriority {
self.items.is_empty()
}
fn poll_next_ready(&mut self, ctx: &mut Context<'_>) -> Poll<(RequestID, DataFrame)> {
// in step 1: poll only streams that have sent 0 bytes, we want to send them in priority
// as they most likely represent small requests to be sent first
// in step 2: poll all streams
for step in 0..2 {
for (j, item) in self.items.iter_mut().enumerate() {
if let Some(OrderTag(stream, order)) = item.order_tag {
if order > *self.order.get(&stream).unwrap().front().unwrap() {
@ -135,6 +139,10 @@ impl SendQueuePriority {
}
}
if step == 0 && item.sent > 0 {
continue;
}
let mut item_reader = item.data.read_exact_or_eos(MAX_CHUNK_LENGTH as usize);
if let Poll::Ready(bytes_or_err) = Pin::new(&mut item_reader).poll(ctx) {
let id = item.id;
@ -160,21 +168,18 @@ impl SendQueuePriority {
}
// Remove item from sending queue
self.items.remove(j);
} else {
// Move item later in send queue to implement LAS scheduling
// (LAS = Least Attained Service)
for k in j..self.items.len() - 1 {
if self.items[k].sent >= self.items[k + 1].sent {
self.items.swap(k, k + 1);
} else {
break;
}
}
} else if step == 0 {
// Step 0 means that this stream had not sent any bytes yet.
// Now that it has, and it was not an EOS, we know that it is bigger
// than one chunk so move it at the end of the queue.
let item = self.items.remove(j).unwrap();
self.items.push_back(item);
}
return Poll::Ready((id, data_frame));
}
}
}
Poll::Pending
}

View file

@ -190,7 +190,7 @@ impl RecvLoop for ServerConn {
let (prio, resp_enc_result) = match ReqEnc::decode(stream).await {
Ok(req_enc) => (req_enc.prio, self2.recv_handler_aux(req_enc).await),
Err(e) => (PRIO_HIGH, Err(e)),
Err(e) => (PRIO_NORMAL, Err(e)),
};
debug!("server: sending response to {}", id);

View file

@ -33,8 +33,7 @@ use crate::metrics::RpcMetrics;
const DEFAULT_TIMEOUT: Duration = Duration::from_secs(300);
/// Strategy to apply when making RPC
#[derive(Copy, Clone)]
pub struct RequestStrategy {
pub struct RequestStrategy<T> {
/// Min number of response to consider the request successful
rs_quorum: Option<usize>,
/// Send all requests at once
@ -43,6 +42,8 @@ pub struct RequestStrategy {
rs_priority: RequestPriority,
/// Custom timeout for this request
rs_timeout: Timeout,
/// Data to drop when everything completes
rs_drop_on_complete: T,
}
#[derive(Copy, Clone)]
@ -52,7 +53,19 @@ enum Timeout {
Custom(Duration),
}
impl RequestStrategy {
impl Clone for RequestStrategy<()> {
fn clone(&self) -> Self {
RequestStrategy {
rs_quorum: self.rs_quorum,
rs_send_all_at_once: self.rs_send_all_at_once,
rs_priority: self.rs_priority,
rs_timeout: self.rs_timeout,
rs_drop_on_complete: (),
}
}
}
impl RequestStrategy<()> {
/// Create a RequestStrategy with default timeout and not interrupting when quorum reached
pub fn with_priority(prio: RequestPriority) -> Self {
RequestStrategy {
@ -60,8 +73,22 @@ impl RequestStrategy {
rs_send_all_at_once: None,
rs_priority: prio,
rs_timeout: Timeout::Default,
rs_drop_on_complete: (),
}
}
/// Add an item to be dropped on completion
pub fn with_drop_on_completion<T>(self, drop_on_complete: T) -> RequestStrategy<T> {
RequestStrategy {
rs_quorum: self.rs_quorum,
rs_send_all_at_once: self.rs_send_all_at_once,
rs_priority: self.rs_priority,
rs_timeout: self.rs_timeout,
rs_drop_on_complete: drop_on_complete,
}
}
}
impl<T> RequestStrategy<T> {
/// Set quorum to be reached for request
pub fn with_quorum(mut self, quorum: usize) -> Self {
self.rs_quorum = Some(quorum);
@ -82,6 +109,19 @@ impl RequestStrategy {
self.rs_timeout = Timeout::Custom(timeout);
self
}
/// Extract drop_on_complete item
fn extract_drop_on_complete(self) -> (RequestStrategy<()>, T) {
(
RequestStrategy {
rs_quorum: self.rs_quorum,
rs_send_all_at_once: self.rs_send_all_at_once,
rs_priority: self.rs_priority,
rs_timeout: self.rs_timeout,
rs_drop_on_complete: (),
},
self.rs_drop_on_complete,
)
}
}
#[derive(Clone)]
@ -122,7 +162,7 @@ impl RpcHelper {
endpoint: &Endpoint<M, H>,
to: Uuid,
msg: N,
strat: RequestStrategy,
strat: RequestStrategy<()>,
) -> Result<S, Error>
where
M: Rpc<Response = Result<S, Error>>,
@ -182,7 +222,7 @@ impl RpcHelper {
endpoint: &Endpoint<M, H>,
to: &[Uuid],
msg: N,
strat: RequestStrategy,
strat: RequestStrategy<()>,
) -> Result<Vec<(Uuid, Result<S, Error>)>, Error>
where
M: Rpc<Response = Result<S, Error>>,
@ -197,7 +237,7 @@ impl RpcHelper {
let resps = join_all(
to.iter()
.map(|to| self.call(endpoint, *to, msg.clone(), strat)),
.map(|to| self.call(endpoint, *to, msg.clone(), strat.clone())),
)
.with_context(Context::current_with_span(span))
.await;
@ -212,7 +252,7 @@ impl RpcHelper {
&self,
endpoint: &Endpoint<M, H>,
msg: N,
strat: RequestStrategy,
strat: RequestStrategy<()>,
) -> Result<Vec<(Uuid, Result<S, Error>)>, Error>
where
M: Rpc<Response = Result<S, Error>>,
@ -252,7 +292,7 @@ impl RpcHelper {
endpoint: &Arc<Endpoint<M, H>>,
to: &[Uuid],
msg: N,
strategy: RequestStrategy,
strategy: RequestStrategy<()>,
) -> Result<Vec<S>, Error>
where
M: Rpc<Response = Result<S, Error>> + 'static,
@ -285,7 +325,7 @@ impl RpcHelper {
endpoint: &Arc<Endpoint<M, H>>,
to: &[Uuid],
msg: N,
strategy: RequestStrategy,
strategy: RequestStrategy<()>,
quorum: usize,
) -> Result<Vec<S>, Error>
where
@ -316,6 +356,7 @@ impl RpcHelper {
let self2 = self.clone();
let msg = msg.clone();
let endpoint2 = endpoint.clone();
let strategy = strategy.clone();
async move { self2.call(&endpoint2, to, msg, strategy).await }
});
@ -388,18 +429,19 @@ impl RpcHelper {
/// changes, where data has to be written both in the old layout and in the
/// new one as long as all nodes have not successfully tranisitionned and
/// moved all data to the new layout.
pub async fn try_write_many_sets<M, N, H, S>(
pub async fn try_write_many_sets<M, N, H, S, T>(
&self,
endpoint: &Arc<Endpoint<M, H>>,
to_sets: &[Vec<Uuid>],
msg: N,
strategy: RequestStrategy,
strategy: RequestStrategy<T>,
) -> Result<Vec<S>, Error>
where
M: Rpc<Response = Result<S, Error>> + 'static,
N: IntoReq<M>,
H: StreamingEndpointHandler<M> + 'static,
S: Send + 'static,
T: Send + 'static,
{
let quorum = strategy
.rs_quorum
@ -423,12 +465,12 @@ impl RpcHelper {
.await
}
async fn try_write_many_sets_inner<M, N, H, S>(
async fn try_write_many_sets_inner<M, N, H, S, T>(
&self,
endpoint: &Arc<Endpoint<M, H>>,
to_sets: &[Vec<Uuid>],
msg: N,
strategy: RequestStrategy,
strategy: RequestStrategy<T>,
quorum: usize,
) -> Result<Vec<S>, Error>
where
@ -436,11 +478,14 @@ impl RpcHelper {
N: IntoReq<M>,
H: StreamingEndpointHandler<M> + 'static,
S: Send + 'static,
T: Send + 'static,
{
// Peers may appear in many quorum sets. Here, build a list of peers,
// mapping to the index of the quorum sets in which they appear.
let mut result_tracker = QuorumSetResultTracker::new(to_sets, quorum);
let (strategy, drop_on_complete) = strategy.extract_drop_on_complete();
// Send one request to each peer of the quorum sets
let msg = msg.into_req().map_err(garage_net::error::Error::from)?;
let requests = result_tracker.nodes.keys().map(|peer| {
@ -448,6 +493,7 @@ impl RpcHelper {
let msg = msg.clone();
let endpoint2 = endpoint.clone();
let to = *peer;
let strategy = strategy.clone();
async move { (to, self2.call(&endpoint2, to, msg, strategy).await) }
});
let mut resp_stream = requests.collect::<FuturesUnordered<_>>();
@ -463,6 +509,7 @@ impl RpcHelper {
// Continue all other requets in background
tokio::spawn(async move {
resp_stream.collect::<Vec<(Uuid, Result<_, _>)>>().await;
drop(drop_on_complete);
});
return Ok(result_tracker.success_values());

View file

@ -60,6 +60,14 @@ pub struct Config {
)]
pub compression_level: Option<i32>,
/// Maximum amount of block data to buffer in RAM for sending to
/// remote nodes when these nodes are on slower links
#[serde(
deserialize_with = "deserialize_capacity",
default = "default_block_ram_buffer_max"
)]
pub block_ram_buffer_max: usize,
/// Skip the permission check of secret files. Useful when
/// POSIX ACLs (or more complex chmods) are used.
#[serde(default)]
@ -247,6 +255,9 @@ fn default_db_engine() -> String {
fn default_block_size() -> usize {
1048576
}
fn default_block_ram_buffer_max() -> usize {
256 * 1024 * 1024
}
fn default_consistency_mode() -> String {
"consistent".into()