use std::str::FromStr;
use std::sync::Arc;
use garage_net::NetworkKey;
use garage_db as db;
use garage_util::background::*;
use garage_util::config::*;
use garage_util::error::*;
use garage_util::persister::PersisterShared;
use garage_rpc::replication_mode::*;
use garage_rpc::system::System;
use garage_block::manager::*;
use garage_table::replication::TableFullReplication;
use garage_table::replication::TableShardedReplication;
use garage_table::*;
use crate::s3::block_ref_table::*;
use crate::s3::lifecycle_worker;
use crate::s3::mpu_table::*;
use crate::s3::object_table::*;
use crate::s3::version_table::*;
use crate::bucket_alias_table::*;
use crate::bucket_table::*;
use crate::helper;
use crate::index_counter::*;
use crate::key_table::*;
#[cfg(feature = "k2v")]
use crate::k2v::{item_table::*, rpc::*, sub::*};
/// An entire Garage full of data
pub struct Garage {
/// The parsed configuration Garage is running
pub config: Config,
/// The set of background variables that can be viewed/modified at runtime
pub bg_vars: vars::BgVars,
/// The replication factor of this cluster
pub replication_factor: ReplicationFactor,
/// The local database
pub db: db::Db,
/// The membership manager
pub system: Arc<System>,
/// The block manager
pub block_manager: Arc<BlockManager>,
/// Table containing buckets
pub bucket_table: Arc<Table<BucketTable, TableFullReplication>>,
/// Table containing bucket aliases
pub bucket_alias_table: Arc<Table<BucketAliasTable, TableFullReplication>>,
/// Table containing api keys
pub key_table: Arc<Table<KeyTable, TableFullReplication>>,
/// Lock to prevent concurrent modification of buckets and access keys
bucket_lock: tokio::sync::Mutex<()>,
/// Table containing S3 objects
pub object_table: Arc<Table<ObjectTable, TableShardedReplication>>,
/// Counting table containing object counters
pub object_counter_table: Arc<IndexCounter<Object>>,
/// Table containing S3 multipart uploads
pub mpu_table: Arc<Table<MultipartUploadTable, TableShardedReplication>>,
/// Counting table containing multipart object counters
pub mpu_counter_table: Arc<IndexCounter<MultipartUpload>>,
/// Table containing S3 object versions
pub version_table: Arc<Table<VersionTable, TableShardedReplication>>,
/// Table containing S3 block references (not blocks themselves)
pub block_ref_table: Arc<Table<BlockRefTable, TableShardedReplication>>,
/// Persister for lifecycle worker info
pub lifecycle_persister: PersisterShared<lifecycle_worker::LifecycleWorkerPersisted>,
#[cfg(feature = "k2v")]
pub k2v: GarageK2V,
}
#[cfg(feature = "k2v")]
pub struct GarageK2V {
/// Table containing K2V items
pub item_table: Arc<Table<K2VItemTable, TableShardedReplication>>,
/// Indexing table containing K2V item counters
pub counter_table: Arc<IndexCounter<K2VItem>>,
/// K2V RPC handler
pub rpc: Arc<K2VRpcHandler>,
}
impl Garage {
/// Create and run garage
pub fn new(config: Config) -> Result<Arc<Self>, Error> {
// Create meta dir and data dir if they don't exist already
std::fs::create_dir_all(&config.metadata_dir)
.ok_or_message("Unable to create Garage metadata directory")?;
match &config.data_dir {
DataDirEnum::Single(data_dir) => {
std::fs::create_dir_all(data_dir).ok_or_message(format!(
"Unable to create Garage data directory: {}",
data_dir.to_string_lossy()
))?;
}
DataDirEnum::Multiple(data_dirs) => {
for dir in data_dirs {
std::fs::create_dir_all(&dir.path).ok_or_message(format!(
"Unable to create Garage data directory: {}",
dir.path.to_string_lossy()
))?;
}
}
}
info!("Opening database...");
let db_engine = db::Engine::from_str(&config.db_engine)
.ok_or_message("Invalid `db_engine` value in configuration file")?;
let mut db_path = config.metadata_dir.clone();
match db_engine {
db::Engine::Sqlite => {
db_path.push("db.sqlite");
}
db::Engine::Lmdb => {
db_path.push("db.lmdb");
}
}
let db_opt = db::OpenOpt {
fsync: config.metadata_fsync,
lmdb_map_size: match config.lmdb_map_size {
v if v == usize::default() => None,
v => Some(v),
},
};
let db = db::open_db(&db_path, db_engine, &db_opt)
.ok_or_message("Unable to open metadata db")?;
info!("Initializing RPC...");
let network_key = hex::decode(config.rpc_secret.as_ref().ok_or_message(
"rpc_secret value is missing, not present in config file or in environment",
)?)
.ok()
.and_then(|x| NetworkKey::from_slice(&x))
.ok_or_message("Invalid RPC secret key: expected 32 bytes of random hex, please check the documentation for requirements")?;
let (replication_factor, consistency_mode) = parse_replication_mode(&config)?;
info!("Initialize background variable system...");
let mut bg_vars = vars::BgVars::new();
info!("Initialize membership management system...");
let system = System::new(network_key, replication_factor, consistency_mode, &config)?;
let data_rep_param = TableShardedReplication {
system: system.clone(),
replication_factor: replication_factor.into(),
write_quorum: replication_factor.write_quorum(consistency_mode),
read_quorum: 1,
};
let meta_rep_param = TableShardedReplication {
system: system.clone(),
replication_factor: replication_factor.into(),
write_quorum: replication_factor.write_quorum(consistency_mode),
read_quorum: replication_factor.read_quorum(consistency_mode),
};
let control_rep_param = TableFullReplication {
system: system.clone(),
};
info!("Initialize block manager...");
let block_manager = BlockManager::new(&db, &config, data_rep_param, system.clone())?;
block_manager.register_bg_vars(&mut bg_vars);
// ---- admin tables ----
info!("Initialize bucket_table...");
let bucket_table = Table::new(BucketTable, control_rep_param.clone(), system.clone(), &db);
info!("Initialize bucket_alias_table...");
let bucket_alias_table = Table::new(
BucketAliasTable,
control_rep_param.clone(),
system.clone(),
&db,
);
info!("Initialize key_table_table...");
let key_table = Table::new(KeyTable, control_rep_param, system.clone(), &db);
// ---- S3 tables ----
info!("Initialize block_ref_table...");
let block_ref_table = Table::new(
BlockRefTable {
block_manager: block_manager.clone(),
},
meta_rep_param.clone(),
system.clone(),
&db,
);
info!("Initialize version_table...");
let version_table = Table::new(
VersionTable {
block_ref_table: block_ref_table.clone(),
},
meta_rep_param.clone(),
system.clone(),
&db,
);
info!("Initialize multipart upload counter table...");
let mpu_counter_table = IndexCounter::new(system.clone(), meta_rep_param.clone(), &db);
info!("Initialize multipart upload table...");
let mpu_table = Table::new(
MultipartUploadTable {
version_table: version_table.clone(),
mpu_counter_table: mpu_counter_table.clone(),
},
meta_rep_param.clone(),
system.clone(),
&db,
);
info!("Initialize object counter table...");
let object_counter_table = IndexCounter::new(system.clone(), meta_rep_param.clone(), &db);
info!("Initialize object_table...");
#[allow(clippy::redundant_clone)]
let object_table = Table::new(
ObjectTable {
version_table: version_table.clone(),
mpu_table: mpu_table.clone(),
object_counter_table: object_counter_table.clone(),
},
meta_rep_param.clone(),
system.clone(),
&db,
);
info!("Load lifecycle worker state...");
let lifecycle_persister =
PersisterShared::new(&system.metadata_dir, "lifecycle_worker_state");
lifecycle_worker::register_bg_vars(&lifecycle_persister, &mut bg_vars);
// ---- K2V ----
#[cfg(feature = "k2v")]
let k2v = GarageK2V::new(system.clone(), &db, meta_rep_param);
// ---- setup block refcount recalculation ----
// this function can be used to fix inconsistencies in the RC table
block_manager.set_recalc_rc(vec![
block_ref_recount_fn(&block_ref_table),
// other functions could be added here if we had other tables
// that hold references to data blocks
]);
// -- done --
Ok(Arc::new(Self {
config,
bg_vars,
replication_factor,
db,
system,
block_manager,
bucket_table,
bucket_alias_table,
key_table,
bucket_lock: tokio::sync::Mutex::new(()),
object_table,
object_counter_table,
mpu_table,
mpu_counter_table,
version_table,
block_ref_table,
lifecycle_persister,
#[cfg(feature = "k2v")]
k2v,
}))
}
pub fn spawn_workers(self: &Arc<Self>, bg: &BackgroundRunner) -> Result<(), Error> {
self.block_manager.spawn_workers(bg);
self.bucket_table.spawn_workers(bg);
self.bucket_alias_table.spawn_workers(bg);
self.key_table.spawn_workers(bg);
self.object_table.spawn_workers(bg);
self.object_counter_table.spawn_workers(bg);
self.mpu_table.spawn_workers(bg);
self.mpu_counter_table.spawn_workers(bg);
self.version_table.spawn_workers(bg);
self.block_ref_table.spawn_workers(bg);
bg.spawn_worker(lifecycle_worker::LifecycleWorker::new(
self.clone(),
self.lifecycle_persister.clone(),
));
#[cfg(feature = "k2v")]
self.k2v.spawn_workers(bg);
if let Some(itv) = self.config.metadata_auto_snapshot_interval.as_deref() {
let interval = parse_duration::parse(itv)
.ok_or_message("Invalid `metadata_auto_snapshot_interval`")?;
if interval < std::time::Duration::from_secs(600) {
return Err(Error::Message(
"metadata_auto_snapshot_interval too small or negative".into(),
));
}
bg.spawn_worker(crate::snapshot::AutoSnapshotWorker::new(
self.clone(),
interval,
));
}
Ok(())
}
pub fn bucket_helper(&self) -> helper::bucket::BucketHelper {
helper::bucket::BucketHelper(self)
}
pub fn key_helper(&self) -> helper::key::KeyHelper {
helper::key::KeyHelper(self)
}
pub async fn locked_helper(&self) -> helper::locked::LockedHelper {
let lock = self.bucket_lock.lock().await;
helper::locked::LockedHelper(self, lock)
}
}
#[cfg(feature = "k2v")]
impl GarageK2V {
fn new(system: Arc<System>, db: &db::Db, meta_rep_param: TableShardedReplication) -> Self {
info!("Initialize K2V counter table...");
let counter_table = IndexCounter::new(system.clone(), meta_rep_param.clone(), db);
info!("Initialize K2V subscription manager...");
let subscriptions = Arc::new(SubscriptionManager::new());
info!("Initialize K2V item table...");
let item_table = Table::new(
K2VItemTable {
counter_table: counter_table.clone(),
subscriptions: subscriptions.clone(),
},
meta_rep_param,
system.clone(),
db,
);
info!("Initialize K2V RPC handler...");
let rpc = K2VRpcHandler::new(system, db, item_table.clone(), subscriptions);
Self {
item_table,
counter_table,
rpc,
}
}
pub fn spawn_workers(&self, bg: &BackgroundRunner) {
self.item_table.spawn_workers(bg);
self.counter_table.spawn_workers(bg);
}
}