use s2_common::{
bash::Bash,
types::{
basin::{BasinInfo, BasinName, ListBasinsRequest},
config::{BasinConfig, BasinReconfiguration},
resources::{ListItemsRequestParts, Page, ProvisionMode, ProvisionResult, RequestToken},
stream::StreamNameStartAfter,
},
};
use slatedb::{
IsolationLevel,
config::{DurabilityLevel, ScanOptions},
};
use time::OffsetDateTime;
use super::{Backend, bgtasks::BgtaskTrigger, store::db_txn_get};
use crate::backend::{
error::{
BasinAlreadyExistsError, BasinDeletionPendingError, BasinNotFoundError, DeleteBasinError,
GetBasinConfigError, ListBasinsError, ProvisionBasinError, ReconfigureBasinError,
},
kv,
};
impl Backend {
pub async fn list_basins(
&self,
request: ListBasinsRequest,
) -> Result<Page<BasinInfo>, ListBasinsError> {
let ListItemsRequestParts {
prefix,
start_after,
limit,
} = request.into();
let key_range = kv::basin_meta::ser_key_range(&prefix, &start_after);
if key_range.is_empty() {
return Ok(Page::new_empty());
}
let scan_opts = ScanOptions {
durability_filter: DurabilityLevel::Remote,
..Default::default()
};
let mut it = self.db.scan_with_options(key_range, &scan_opts).await?;
let mut basins = Vec::with_capacity(limit.as_usize());
let mut has_more = false;
while let Some(kv) = it.next().await? {
let basin = kv::basin_meta::deser_key(kv.key)?;
assert!(basin.as_ref() > start_after.as_ref());
assert!(basin.as_ref() >= prefix.as_ref());
if basins.len() == limit.as_usize() {
has_more = true;
break;
}
let meta = kv::basin_meta::deser_value(kv.value)?;
basins.push(BasinInfo {
name: basin,
location: None,
created_at: meta.created_at,
deleted_at: meta.deleted_at,
});
}
Ok(Page::new(basins, has_more))
}
pub async fn provision_basin(
&self,
basin: BasinName,
config: BasinConfig,
mode: ProvisionMode,
) -> Result<ProvisionResult<BasinInfo>, ProvisionBasinError> {
let meta_key = kv::basin_meta::ser_key(&basin);
let txn = self.db.begin(IsolationLevel::SerializableSnapshot).await?;
let existing_meta = db_txn_get(&txn, &meta_key, kv::basin_meta::deser_value).await?;
if let Some(existing_meta) = &existing_meta
&& existing_meta.deleted_at.is_some()
{
return Err(BasinDeletionPendingError { basin }.into());
}
let outcome = match (existing_meta, mode) {
(Some(existing), ProvisionMode::CreateOnly { request_token }) => {
let new_creation_idempotency_key = request_token
.as_ref()
.map(|req_token| creation_idempotency_key(req_token, &config));
return if new_creation_idempotency_key.is_some()
&& existing.creation_idempotency_key == new_creation_idempotency_key
{
Ok(ProvisionResult::Noop(BasinInfo {
name: basin,
location: None,
created_at: existing.created_at,
deleted_at: None,
}))
} else {
Err(BasinAlreadyExistsError { basin }.into())
};
}
(Some(existing), ProvisionMode::Ensure) => {
let meta = kv::basin_meta::BasinMeta {
config,
created_at: existing.created_at,
deleted_at: None,
creation_idempotency_key: existing.creation_idempotency_key,
};
if existing.config == meta.config {
ProvisionResult::Noop(meta)
} else {
ProvisionResult::Updated(meta)
}
}
(None, ProvisionMode::CreateOnly { request_token }) => {
let new_creation_idempotency_key = request_token
.as_ref()
.map(|req_token| creation_idempotency_key(req_token, &config));
ProvisionResult::Created(kv::basin_meta::BasinMeta {
config,
created_at: OffsetDateTime::now_utc(),
deleted_at: None,
creation_idempotency_key: new_creation_idempotency_key,
})
}
(None, ProvisionMode::Ensure) => ProvisionResult::Created(kv::basin_meta::BasinMeta {
config,
created_at: OffsetDateTime::now_utc(),
deleted_at: None,
creation_idempotency_key: None,
}),
};
if !matches!(&outcome, ProvisionResult::Noop(_)) {
let meta = outcome.inner();
txn.put(&meta_key, kv::basin_meta::ser_value(meta))?;
txn.commit().await?;
}
Ok(outcome.map(|meta| BasinInfo {
name: basin,
location: None,
created_at: meta.created_at,
deleted_at: None,
}))
}
pub async fn get_basin_config(
&self,
basin: BasinName,
) -> Result<BasinConfig, GetBasinConfigError> {
let Some(meta) = self
.db_get(kv::basin_meta::ser_key(&basin), kv::basin_meta::deser_value)
.await?
else {
return Err(BasinNotFoundError { basin }.into());
};
Ok(meta.config)
}
pub async fn reconfigure_basin(
&self,
basin: BasinName,
reconfig: BasinReconfiguration,
) -> Result<BasinConfig, ReconfigureBasinError> {
let meta_key = kv::basin_meta::ser_key(&basin);
let txn = self.db.begin(IsolationLevel::SerializableSnapshot).await?;
let Some(mut meta) = db_txn_get(&txn, &meta_key, kv::basin_meta::deser_value).await? else {
return Err(BasinNotFoundError { basin }.into());
};
if meta.deleted_at.is_some() {
return Err(BasinDeletionPendingError { basin }.into());
}
meta.config = meta.config.reconfigure(reconfig);
txn.put(&meta_key, kv::basin_meta::ser_value(&meta))?;
txn.commit().await?;
Ok(meta.config)
}
pub async fn delete_basin(&self, basin: BasinName) -> Result<(), DeleteBasinError> {
let txn = self.db.begin(IsolationLevel::SerializableSnapshot).await?;
let meta_key = kv::basin_meta::ser_key(&basin);
let Some(mut meta) = db_txn_get(&txn, &meta_key, kv::basin_meta::deser_value).await? else {
return Err(BasinNotFoundError { basin }.into());
};
if meta.deleted_at.is_none() {
meta.deleted_at = Some(OffsetDateTime::now_utc());
txn.put(&meta_key, kv::basin_meta::ser_value(&meta))?;
txn.put(
kv::basin_deletion_pending::ser_key(&basin),
kv::basin_deletion_pending::ser_value(&StreamNameStartAfter::default()),
)?;
txn.commit().await?;
self.bgtask_trigger(BgtaskTrigger::BasinDeletion);
}
Ok(())
}
}
fn creation_idempotency_key(req_token: &RequestToken, config: &BasinConfig) -> Bash {
Bash::length_prefixed(&[
req_token.as_bytes(),
&serde_json::to_vec(&s2_api::v1::config::BasinConfig::from(config.clone()))
.expect("serializable"),
])
}