Garage v1.0 #683
12 changed files with 228 additions and 60 deletions
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@ -35,6 +35,7 @@ steps:
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- ./result/bin/garage_web-*
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- ./result/bin/garage-*
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- GARAGE_TEST_INTEGRATION_DB_ENGINE=lmdb ./result/bin/integration-* || (cat tmp-garage-integration/stderr.log; false)
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- nix-shell --attr ci --run "killall -9 garage" || true
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- GARAGE_TEST_INTEGRATION_DB_ENGINE=sqlite ./result/bin/integration-* || (cat tmp-garage-integration/stderr.log; false)
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- rm result
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- rm -rv tmp-garage-integration
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@ -21,6 +21,7 @@ metadata_auto_snapshot_interval = "6h"
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db_engine = "lmdb"
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block_size = "1M"
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block_ram_buffer_max = "256MiB"
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lmdb_map_size = "1T"
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@ -87,6 +88,7 @@ The following gives details about each available configuration option.
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Top-level configuration options:
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[`allow_world_readable_secrets`](#allow_world_readable_secrets),
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[`block_ram_buffer_max`](#block_ram_buffer_max),
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[`block_size`](#block_size),
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[`bootstrap_peers`](#bootstrap_peers),
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[`compression_level`](#compression_level),
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@ -434,6 +436,37 @@ files will remain available. This however means that chunks from existing files
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will not be deduplicated with chunks from newly uploaded files, meaning you
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might use more storage space that is optimally possible.
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#### `block_ram_buffer_max` (since v0.9.4) {#block_ram_buffer_max}
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A limit on the total size of data blocks kept in RAM by S3 API nodes awaiting
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to be sent to storage nodes asynchronously.
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Explanation: since Garage wants to tolerate node failures, it uses quorum
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writes to send data blocks to storage nodes: try to write the block to three
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nodes, and return ok as soon as two writes complete. So even if all three nodes
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are online, the third write always completes asynchronously. In general, there
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are not many writes to a cluster, and the third asynchronous write can
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terminate early enough so as to not cause unbounded RAM growth. However, if
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the S3 API node is continuously receiving large quantities of data and the
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third node is never able to catch up, many data blocks will be kept buffered in
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RAM as they are awaiting transfer to the third node.
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The `block_ram_buffer_max` sets a limit to the size of buffers that can be kept
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in RAM in this process. When the limit is reached, backpressure is applied
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back to the S3 client.
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Note that this only counts buffers that have arrived to a certain stage of
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processing (received from the client + encrypted and/or compressed as
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necessary) and are ready to send to the storage nodes. Many other buffers will
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not be counted and this is not a hard limit on RAM consumption. In particular,
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if many clients send requests simultaneously with large objects, the RAM
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consumption will always grow linearly with the number of concurrent requests,
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as each request will use a few buffers of size `block_size` for receiving and
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intermediate processing before even trying to send the data to the storage
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node.
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The default value is 256MiB.
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#### `lmdb_map_size` {#lmdb_map_size}
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This parameters can be used to set the map size used by LMDB,
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@ -225,6 +225,17 @@ block_bytes_read 120586322022
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block_bytes_written 3386618077
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```
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#### `block_ram_buffer_free_kb` (gauge)
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Kibibytes available for buffering blocks that have to be sent to remote nodes.
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When clients send too much data to this node and a storage node is not receiving
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data fast enough due to slower network conditions, this will decrease down to
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zero and backpressure will be applied.
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```
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block_ram_buffer_free_kb 219829
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```
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#### `block_compression_level` (counter)
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Exposes the block compression level configured for the Garage node.
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@ -1,3 +1,4 @@
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use std::convert::TryInto;
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use std::path::PathBuf;
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use std::sync::Arc;
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use std::time::Duration;
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@ -10,7 +11,7 @@ use serde::{Deserialize, Serialize};
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use tokio::fs;
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use tokio::io::{AsyncReadExt, AsyncWriteExt, BufReader};
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use tokio::sync::{mpsc, Mutex, MutexGuard};
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use tokio::sync::{mpsc, Mutex, MutexGuard, Semaphore};
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use opentelemetry::{
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trace::{FutureExt as OtelFutureExt, TraceContextExt, Tracer},
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@ -93,6 +94,7 @@ pub struct BlockManager {
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pub(crate) system: Arc<System>,
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pub(crate) endpoint: Arc<Endpoint<BlockRpc, Self>>,
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buffer_kb_semaphore: Arc<Semaphore>,
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pub(crate) metrics: BlockManagerMetrics,
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@ -152,11 +154,14 @@ impl BlockManager {
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.netapp
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.endpoint("garage_block/manager.rs/Rpc".to_string());
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let buffer_kb_semaphore = Arc::new(Semaphore::new(config.block_ram_buffer_max / 1024));
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let metrics = BlockManagerMetrics::new(
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config.compression_level,
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rc.rc_table.clone(),
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resync.queue.clone(),
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resync.errors.clone(),
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buffer_kb_semaphore.clone(),
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);
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let scrub_persister = PersisterShared::new(&system.metadata_dir, "scrub_info");
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@ -176,6 +181,7 @@ impl BlockManager {
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resync,
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system,
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endpoint,
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buffer_kb_semaphore,
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metrics,
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scrub_persister,
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tx_scrub_command: ArcSwapOption::new(None),
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@ -238,9 +244,15 @@ impl BlockManager {
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async fn rpc_get_raw_block_streaming(
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&self,
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hash: &Hash,
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priority: RequestPriority,
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order_tag: Option<OrderTag>,
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) -> Result<DataBlockStream, Error> {
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self.rpc_get_raw_block_internal(hash, order_tag, |stream| async move { Ok(stream) })
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self.rpc_get_raw_block_internal(
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hash,
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priority,
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order_tag,
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|stream| async move { Ok(stream) },
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)
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.await
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}
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@ -249,9 +261,10 @@ impl BlockManager {
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pub(crate) async fn rpc_get_raw_block(
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&self,
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hash: &Hash,
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priority: RequestPriority,
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order_tag: Option<OrderTag>,
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) -> Result<DataBlock, Error> {
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self.rpc_get_raw_block_internal(hash, order_tag, |block_stream| async move {
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self.rpc_get_raw_block_internal(hash, priority, order_tag, |block_stream| async move {
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let (header, stream) = block_stream.into_parts();
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read_stream_to_end(stream)
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.await
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@ -264,6 +277,7 @@ impl BlockManager {
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async fn rpc_get_raw_block_internal<F, Fut, T>(
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&self,
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hash: &Hash,
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priority: RequestPriority,
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order_tag: Option<OrderTag>,
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f: F,
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) -> Result<T, Error>
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@ -281,7 +295,7 @@ impl BlockManager {
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let rpc = self.endpoint.call_streaming(
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&node_id,
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BlockRpc::GetBlock(*hash, order_tag),
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PRIO_NORMAL | PRIO_SECONDARY,
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priority,
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);
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tokio::select! {
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res = rpc => {
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@ -333,7 +347,9 @@ impl BlockManager {
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hash: &Hash,
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order_tag: Option<OrderTag>,
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) -> Result<ByteStream, Error> {
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let block_stream = self.rpc_get_raw_block_streaming(hash, order_tag).await?;
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let block_stream = self
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.rpc_get_raw_block_streaming(hash, PRIO_NORMAL | PRIO_SECONDARY, order_tag)
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.await?;
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let (header, stream) = block_stream.into_parts();
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match header {
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DataBlockHeader::Plain => Ok(stream),
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@ -361,6 +377,14 @@ impl BlockManager {
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let (header, bytes) = DataBlock::from_buffer(data, compression_level)
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.await
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.into_parts();
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let permit = self
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.buffer_kb_semaphore
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.clone()
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.acquire_many_owned((bytes.len() / 1024).try_into().unwrap())
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.await
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.ok_or_message("could not reserve space for buffer of data to send to remote nodes")?;
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let put_block_rpc =
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Req::new(BlockRpc::PutBlock { hash, header })?.with_stream_from_buffer(bytes);
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let put_block_rpc = if let Some(tag) = order_tag {
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@ -376,6 +400,7 @@ impl BlockManager {
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who.as_ref(),
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put_block_rpc,
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RequestStrategy::with_priority(PRIO_NORMAL | PRIO_SECONDARY)
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.with_drop_on_completion(permit)
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.with_quorum(self.replication.write_quorum()),
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)
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.await?;
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@ -1,3 +1,7 @@
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use std::sync::Arc;
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use tokio::sync::Semaphore;
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use opentelemetry::{global, metrics::*};
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use garage_db as db;
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@ -8,6 +12,7 @@ pub struct BlockManagerMetrics {
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pub(crate) _rc_size: ValueObserver<u64>,
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pub(crate) _resync_queue_len: ValueObserver<u64>,
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pub(crate) _resync_errored_blocks: ValueObserver<u64>,
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pub(crate) _buffer_free_kb: ValueObserver<u64>,
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pub(crate) resync_counter: BoundCounter<u64>,
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pub(crate) resync_error_counter: BoundCounter<u64>,
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@ -30,6 +35,7 @@ impl BlockManagerMetrics {
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rc_tree: db::Tree,
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resync_queue: db::Tree,
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resync_errors: db::Tree,
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buffer_semaphore: Arc<Semaphore>,
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) -> Self {
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let meter = global::meter("garage_model/block");
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Self {
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@ -69,6 +75,15 @@ impl BlockManagerMetrics {
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.with_description("Number of block hashes whose last resync resulted in an error")
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.init(),
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_buffer_free_kb: meter
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.u64_value_observer("block.ram_buffer_free_kb", move |observer| {
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observer.observe(buffer_semaphore.available_permits() as u64, &[])
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})
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.with_description(
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"Available RAM in KiB to use for buffering data blocks to be written to remote nodes",
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)
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.init(),
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resync_counter: meter
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.u64_counter("block.resync_counter")
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.with_description("Number of calls to resync_block")
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@ -436,7 +436,7 @@ impl BlockResyncManager {
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&manager.endpoint,
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&need_nodes,
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put_block_message,
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RequestStrategy::with_priority(PRIO_BACKGROUND)
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RequestStrategy::with_priority(PRIO_BACKGROUND | PRIO_SECONDARY)
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.with_quorum(need_nodes.len()),
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)
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.await
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@ -460,7 +460,9 @@ impl BlockResyncManager {
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hash
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);
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let block_data = manager.rpc_get_raw_block(hash, None).await;
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let block_data = manager
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.rpc_get_raw_block(hash, PRIO_BACKGROUND | PRIO_SECONDARY, None)
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.await;
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if matches!(block_data, Err(Error::MissingBlock(_))) {
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warn!(
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"Could not fetch needed block {:?}, no node returned valid data. Checking that refcount is correct.",
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@ -300,7 +300,7 @@ impl K2VRpcHandler {
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.map(|node| {
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self.system
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.rpc_helper()
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.call(&self.endpoint, *node, msg.clone(), rs)
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.call(&self.endpoint, *node, msg.clone(), rs.clone())
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})
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.collect::<FuturesUnordered<_>>();
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@ -28,12 +28,30 @@ use crate::util::*;
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/// The same priority value is given to a request and to its associated response.
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pub type RequestPriority = u8;
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// Usage of priority levels in Garage:
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//
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// PRIO_HIGH
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// for liveness check events such as pings and important
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// reconfiguration events such as layout changes
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//
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// PRIO_NORMAL
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// for standard interactive requests to exchange metadata
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//
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// PRIO_NORMAL | PRIO_SECONDARY
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// for standard interactive requests to exchange block data
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//
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// PRIO_BACKGROUND
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// for background resync requests to exchange metadata
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// PRIO_BACKGROUND | PRIO_SECONDARY
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// for background resync requests to exchange block data
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/// Priority class: high
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pub const PRIO_HIGH: RequestPriority = 0x20;
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/// Priority class: normal
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pub const PRIO_NORMAL: RequestPriority = 0x40;
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/// Priority class: background
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pub const PRIO_BACKGROUND: RequestPriority = 0x80;
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/// Priority: primary among given class
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pub const PRIO_PRIMARY: RequestPriority = 0x00;
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/// Priority: secondary among given class (ex: `PRIO_HIGH | PRIO_SECONDARY`)
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@ -109,7 +109,7 @@ impl SendQueuePriority {
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let i = order_vec.iter().take_while(|o2| **o2 < order).count();
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order_vec.insert(i, order);
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}
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self.items.push_front(item);
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self.items.push_back(item);
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}
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fn remove(&mut self, id: RequestID) {
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if let Some(i) = self.items.iter().position(|x| x.id == id) {
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@ -128,6 +128,10 @@ impl SendQueuePriority {
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self.items.is_empty()
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}
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fn poll_next_ready(&mut self, ctx: &mut Context<'_>) -> Poll<(RequestID, DataFrame)> {
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// in step 1: poll only streams that have sent 0 bytes, we want to send them in priority
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// as they most likely represent small requests to be sent first
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// in step 2: poll all streams
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for step in 0..2 {
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for (j, item) in self.items.iter_mut().enumerate() {
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if let Some(OrderTag(stream, order)) = item.order_tag {
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if order > *self.order.get(&stream).unwrap().front().unwrap() {
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@ -135,6 +139,10 @@ impl SendQueuePriority {
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}
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}
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if step == 0 && item.sent > 0 {
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continue;
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}
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let mut item_reader = item.data.read_exact_or_eos(MAX_CHUNK_LENGTH as usize);
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if let Poll::Ready(bytes_or_err) = Pin::new(&mut item_reader).poll(ctx) {
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let id = item.id;
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@ -160,21 +168,18 @@ impl SendQueuePriority {
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}
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// Remove item from sending queue
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self.items.remove(j);
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} else {
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// Move item later in send queue to implement LAS scheduling
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// (LAS = Least Attained Service)
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for k in j..self.items.len() - 1 {
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if self.items[k].sent >= self.items[k + 1].sent {
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self.items.swap(k, k + 1);
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} else {
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break;
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}
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}
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} else if step == 0 {
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// Step 0 means that this stream had not sent any bytes yet.
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// Now that it has, and it was not an EOS, we know that it is bigger
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// than one chunk so move it at the end of the queue.
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let item = self.items.remove(j).unwrap();
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self.items.push_back(item);
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}
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return Poll::Ready((id, data_frame));
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}
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}
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}
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Poll::Pending
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}
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|
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@ -190,7 +190,7 @@ impl RecvLoop for ServerConn {
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let (prio, resp_enc_result) = match ReqEnc::decode(stream).await {
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Ok(req_enc) => (req_enc.prio, self2.recv_handler_aux(req_enc).await),
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Err(e) => (PRIO_HIGH, Err(e)),
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Err(e) => (PRIO_NORMAL, Err(e)),
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};
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debug!("server: sending response to {}", id);
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|
|
|
@ -33,8 +33,7 @@ use crate::metrics::RpcMetrics;
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const DEFAULT_TIMEOUT: Duration = Duration::from_secs(300);
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/// Strategy to apply when making RPC
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#[derive(Copy, Clone)]
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pub struct RequestStrategy {
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pub struct RequestStrategy<T> {
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/// Min number of response to consider the request successful
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rs_quorum: Option<usize>,
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/// Send all requests at once
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|
@ -43,6 +42,8 @@ pub struct RequestStrategy {
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rs_priority: RequestPriority,
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/// Custom timeout for this request
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rs_timeout: Timeout,
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/// Data to drop when everything completes
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rs_drop_on_complete: T,
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}
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#[derive(Copy, Clone)]
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|
@ -52,7 +53,19 @@ enum Timeout {
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Custom(Duration),
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}
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impl RequestStrategy {
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impl Clone for RequestStrategy<()> {
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fn clone(&self) -> Self {
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RequestStrategy {
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rs_quorum: self.rs_quorum,
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rs_send_all_at_once: self.rs_send_all_at_once,
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rs_priority: self.rs_priority,
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rs_timeout: self.rs_timeout,
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rs_drop_on_complete: (),
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}
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}
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}
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impl RequestStrategy<()> {
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/// Create a RequestStrategy with default timeout and not interrupting when quorum reached
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pub fn with_priority(prio: RequestPriority) -> Self {
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RequestStrategy {
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|
@ -60,8 +73,22 @@ impl RequestStrategy {
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rs_send_all_at_once: None,
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rs_priority: prio,
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rs_timeout: Timeout::Default,
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rs_drop_on_complete: (),
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}
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}
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/// Add an item to be dropped on completion
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pub fn with_drop_on_completion<T>(self, drop_on_complete: T) -> RequestStrategy<T> {
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RequestStrategy {
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rs_quorum: self.rs_quorum,
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rs_send_all_at_once: self.rs_send_all_at_once,
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rs_priority: self.rs_priority,
|
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rs_timeout: self.rs_timeout,
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rs_drop_on_complete: drop_on_complete,
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}
|
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}
|
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}
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|
||||
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());
|
||||
|
|
|
@ -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()
|
||||
|
|
Loading…
Reference in a new issue