use crate::{
journal::{
authenticated,
contiguous::variable::{self, Config as JournalConfig},
},
merkle::Family,
qmdb::{
any::value::{VariableEncoding, VariableValue},
keyless::operation::Operation as BaseOperation,
operation::Committable,
Error, ROOT_BAGGING,
},
Context,
};
use commonware_codec::Read;
use commonware_cryptography::Hasher;
use commonware_parallel::Strategy;
pub type Operation<F, V> = BaseOperation<F, VariableEncoding<V>>;
pub type Db<F, E, V, H, S> =
super::Keyless<F, E, VariableEncoding<V>, variable::Journal<E, Operation<F, V>>, H, S>;
pub type CompactDb<F, E, V, H, C, S> = super::CompactDb<F, E, VariableEncoding<V>, H, C, S>;
type Journal<F, E, V, H, S> =
authenticated::Journal<F, E, variable::Journal<E, Operation<F, V>>, H, S>;
pub type Config<C, S> = super::Config<JournalConfig<C>, S>;
pub type CompactConfig<C, S> = super::CompactConfig<C, S>;
impl<F: Family, E: Context, V: VariableValue, H: Hasher, S: Strategy> Db<F, E, V, H, S> {
pub async fn init(
context: E,
cfg: Config<<Operation<F, V> as Read>::Cfg, S>,
) -> Result<Self, Error<F>> {
let journal: Journal<F, E, V, H, S> = Journal::new(
context.child("journal"),
cfg.merkle,
cfg.log,
Operation::<F, V>::is_commit,
ROOT_BAGGING,
)
.await?;
Self::init_from_journal(journal, context).await
}
}
impl<
F: Family,
E: Context,
V: VariableValue,
H: Hasher,
C: Clone + Send + Sync + 'static,
S: Strategy,
> CompactDb<F, E, V, H, C, S>
where
Operation<F, V>: Read<Cfg = C>,
{
pub async fn init(context: E, cfg: CompactConfig<C, S>) -> Result<Self, Error<F>> {
let merkle = crate::merkle::compact::Merkle::new(cfg.strategy);
Self::init_from_merkle(
merkle,
context.child("witness"),
cfg.witness,
cfg.commit_codec_config,
)
.await
}
}
#[cfg(test)]
mod test {
use super::*;
use crate::{
merkle::{mmb, mmr},
qmdb::keyless::tests,
};
use commonware_cryptography::Sha256;
use commonware_macros::{boxed, test_traced};
use commonware_parallel::Sequential;
use commonware_runtime::{
buffer::paged::CacheRef, deterministic, BufferPooler, Runner as _, Supervisor as _,
};
use commonware_utils::{NZUsize, NZU16, NZU64};
use std::num::{NonZeroU16, NonZeroUsize};
const PAGE_SIZE: NonZeroU16 = NZU16!(101);
const PAGE_CACHE_SIZE: NonZeroUsize = NZUsize!(11);
fn db_config(
suffix: &str,
pooler: &impl BufferPooler,
) -> Config<(commonware_codec::RangeCfg<usize>, ()), Sequential> {
let page_cache = CacheRef::from_pooler(pooler, PAGE_SIZE, PAGE_CACHE_SIZE);
Config {
merkle: crate::merkle::full::Config {
journal_partition: format!("journal-{suffix}"),
metadata_partition: format!("metadata-{suffix}"),
items_per_blob: NZU64!(11),
write_buffer: NZUsize!(1024),
strategy: Sequential,
page_cache: page_cache.clone(),
},
log: JournalConfig {
partition: format!("log-journal-{suffix}"),
items_per_section: NZU64!(7),
compression: None,
codec_config: ((0..=10000).into(), ()),
page_cache,
write_buffer: NZUsize!(1024),
},
}
}
type TestDb<F> = Db<F, deterministic::Context, Vec<u8>, Sha256, Sequential>;
type TestCompactDb<F> = CompactDb<
F,
deterministic::Context,
Vec<u8>,
Sha256,
(commonware_codec::RangeCfg<usize>, ()),
Sequential,
>;
async fn open_db<F: Family>(context: deterministic::Context) -> TestDb<F> {
open_db_with_suffix("partition", context).await
}
async fn open_db_with_suffix<F: Family>(
suffix: &str,
context: deterministic::Context,
) -> TestDb<F> {
let cfg = db_config(suffix, &context);
TestDb::init(context, cfg).await.unwrap()
}
async fn open_compact<F: crate::merkle::Family>(
context: deterministic::Context,
) -> TestCompactDb<F> {
let cfg = CompactConfig {
strategy: Sequential,
witness: crate::journal::contiguous::variable::Config {
partition: "compact-keyless-variable-witness".into(),
items_per_section: NZU64!(64),
compression: None,
codec_config: (),
page_cache: CacheRef::from_pooler(&context, PAGE_SIZE, PAGE_CACHE_SIZE),
write_buffer: NZUsize!(1024),
},
commit_codec_config: ((0..=10000usize).into(), ()),
};
TestCompactDb::init(context, cfg).await.unwrap()
}
fn reopen<F: Family>() -> tests::Reopen<TestDb<F>> {
Box::new(|ctx| Box::pin(open_db(ctx)))
}
#[test_traced("INFO")]
fn test_keyless_db_empty() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db").with_attribute("index", 1)).await;
tests::test_keyless_db_empty(ctx, db, reopen::<mmr::Family>()).await;
});
}
#[test_traced("INFO")]
fn test_keyless_db_commit_after_sync_recovery() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db").with_attribute("index", 1)).await;
tests::test_keyless_db_commit_after_sync_recovery(ctx, db, reopen::<mmr::Family>())
.await;
});
}
#[test_traced("WARN")]
fn test_keyless_db_build_basic() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db").with_attribute("index", 1)).await;
tests::test_keyless_db_build_basic(ctx, db, reopen::<mmr::Family>()).await;
});
}
#[test_traced("WARN")]
fn test_keyless_db_recovery() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db").with_attribute("index", 1)).await;
tests::test_keyless_db_recovery(ctx, db, reopen::<mmr::Family>()).await;
});
}
#[test_traced("WARN")]
fn test_keyless_db_non_empty_recovery() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db").with_attribute("index", 1)).await;
tests::test_keyless_db_non_empty_recovery(ctx, db, reopen::<mmr::Family>()).await;
});
}
#[test_traced("INFO")]
fn test_keyless_db_proof() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("storage")).await;
tests::test_keyless_db_proof(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_db_proof_comprehensive() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("storage")).await;
tests::test_keyless_db_proof_comprehensive(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_db_proof_with_pruning() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db").with_attribute("index", 1)).await;
tests::test_keyless_db_proof_with_pruning(ctx, db, reopen::<mmr::Family>()).await;
});
}
#[test_traced("INFO")]
fn test_keyless_historical_proof_floor_pruned() {
use crate::merkle::Location;
deterministic::Runner::default().start(|ctx| async move {
let mut db = open_db::<mmr::Family>(ctx.child("db")).await;
for batch_idx in 0u64..15 {
let mut batch = db.new_batch();
for j in 0..3 {
batch =
batch.append(<Vec<u8> as crate::qmdb::keyless::tests::TestValue>::make(
batch_idx * 10 + j,
));
}
let new_commit_loc = Location::new(*db.last_commit_loc() + 1 + 3);
db.apply_batch(batch.merkleize(&db, None, new_commit_loc).await)
.await
.unwrap();
}
db.prune(Location::new(8)).await.unwrap();
let bounds = db.bounds();
assert_eq!(*bounds.start, 7);
let result = db
.historical_proof(Location::new(8), bounds.start, NZU64!(5))
.await;
assert!(
!matches!(result, Err(Error::UnexpectedData(_))),
"must not surface as UnexpectedData; got {result:?}",
);
assert!(
matches!(result, Err(Error::HistoricalFloorPruned(loc)) if loc == Location::new(8)),
"expected HistoricalFloorPruned(8), got {result:?}",
);
db.historical_proof(Location::new(9), Location::new(8), NZU64!(1))
.await
.expect("commit-boundary historical_proof should succeed");
db.destroy().await.unwrap();
});
}
#[test_traced("WARN")]
fn test_keyless_db_empty_db_recovery() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db").with_attribute("index", 1)).await;
tests::test_keyless_db_empty_db_recovery(ctx, db, reopen::<mmr::Family>()).await;
});
}
#[test_traced("WARN")]
fn test_keyless_db_replay_with_trailing_appends() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db").with_attribute("index", 1)).await;
tests::test_keyless_db_replay_with_trailing_appends(ctx, db, reopen::<mmr::Family>())
.await;
});
}
#[test_traced("INFO")]
fn test_keyless_db_get_out_of_bounds() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("storage")).await;
tests::test_keyless_db_get_out_of_bounds(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_db_metadata() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_db_metadata(db).await;
});
}
#[boxed]
async fn assert_compact_root_compatibility<F: crate::merkle::Family>(
ctx: deterministic::Context,
) {
let mut db = open_db::<F>(ctx.child("db")).await;
let mut compact = open_compact::<F>(ctx.child("compact")).await;
assert_eq!(db.root(), compact.root());
let v1 = b"hello".to_vec();
let v2 = b"world".to_vec();
let metadata = b"metadata".to_vec();
let floor = db.inactivity_floor_loc();
let retained = db
.new_batch()
.append(v1.clone())
.append(v2.clone())
.merkleize(&db, Some(metadata.clone()), floor)
.await;
let compact_batch = compact
.new_batch()
.append(v1)
.append(v2)
.merkleize(&compact, Some(metadata.clone()), floor)
.await;
assert_eq!(retained.root(), compact_batch.root());
db.apply_batch(retained).await.unwrap();
compact.apply_batch(compact_batch).unwrap();
db.commit().await.unwrap();
compact.sync().await.unwrap();
assert_eq!(db.root(), compact.root());
assert_eq!(compact.get_metadata(), Some(metadata.clone()));
drop(compact);
let reopened = open_compact::<F>(ctx.child("reopen")).await;
assert_eq!(db.root(), reopened.root());
assert_eq!(reopened.get_metadata(), Some(metadata));
reopened.destroy().await.unwrap();
db.destroy().await.unwrap();
}
#[test_traced("INFO")]
fn test_keyless_variable_compact_root_compatibility() {
deterministic::Runner::default().start(|ctx| async move {
assert_compact_root_compatibility::<mmr::Family>(ctx).await;
});
}
#[test_traced("INFO")]
fn test_keyless_variable_compact_root_compatibility_mmb() {
deterministic::Runner::default().start(|ctx| async move {
assert_compact_root_compatibility::<mmb::Family>(ctx).await;
});
}
#[test_traced("INFO")]
fn test_keyless_db_pruning() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_db_pruning(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_batch_get() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_batch_get(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_batch_stacked_get() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_batch_stacked_get(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_batch_speculative_root() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_batch_speculative_root(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_merkleized_batch_get() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_merkleized_batch_get(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_get_many() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_get_many(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_batch_chained() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_batch_chained(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_batch_chained_apply_sequential() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_batch_chained_apply_sequential(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_batch_many_sequential() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_batch_many_sequential(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_batch_empty() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_batch_empty(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_batch_chained_merkleized_get() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_batch_chained_merkleized_get(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_batch_large() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_batch_large(db).await;
});
}
#[test_traced]
fn test_keyless_stale_batch() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_stale_batch(db).await;
});
}
#[test_traced]
fn test_stale_batch_chained() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_stale_batch_chained(db).await;
});
}
#[test_traced]
fn test_sequential_commit_parent_then_child() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_sequential_commit_parent_then_child(db).await;
});
}
#[test_traced]
fn test_stale_batch_child_applied_before_parent() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_stale_batch_child_before_parent(db).await;
});
}
#[test_traced]
fn test_partial_ancestor_commit() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_partial_ancestor_commit(db).await;
});
}
#[test_traced]
fn test_keyless_to_batch() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_to_batch(db).await;
});
}
#[test_traced]
fn test_keyless_child_root_matches_pending_and_committed() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_child_root_matches_pending_and_committed(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_rewind_recovery() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_db_rewind_recovery(ctx, db, reopen::<mmr::Family>()).await;
});
}
#[test_traced("INFO")]
fn test_keyless_rewind_pruned_target_errors() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_db_rewind_pruned_target_errors(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_db_empty_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db").with_attribute("index", 1)).await;
tests::test_keyless_db_empty(ctx, db, reopen::<mmb::Family>()).await;
});
}
#[test_traced("WARN")]
fn test_keyless_db_build_basic_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db").with_attribute("index", 1)).await;
tests::test_keyless_db_build_basic(ctx, db, reopen::<mmb::Family>()).await;
});
}
#[test_traced("WARN")]
fn test_keyless_db_recovery_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db").with_attribute("index", 1)).await;
tests::test_keyless_db_recovery(ctx, db, reopen::<mmb::Family>()).await;
});
}
#[test_traced("WARN")]
fn test_keyless_db_non_empty_recovery_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db").with_attribute("index", 1)).await;
tests::test_keyless_db_non_empty_recovery(ctx, db, reopen::<mmb::Family>()).await;
});
}
#[test_traced("INFO")]
fn test_keyless_db_proof_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("storage")).await;
tests::test_keyless_db_proof(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_db_proof_comprehensive_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("storage")).await;
tests::test_keyless_db_proof_comprehensive(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_db_proof_with_pruning_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db").with_attribute("index", 1)).await;
tests::test_keyless_db_proof_with_pruning(ctx, db, reopen::<mmb::Family>()).await;
});
}
#[test_traced("WARN")]
fn test_keyless_db_empty_db_recovery_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db").with_attribute("index", 1)).await;
tests::test_keyless_db_empty_db_recovery(ctx, db, reopen::<mmb::Family>()).await;
});
}
#[test_traced("WARN")]
fn test_keyless_db_replay_with_trailing_appends_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db").with_attribute("index", 1)).await;
tests::test_keyless_db_replay_with_trailing_appends(ctx, db, reopen::<mmb::Family>())
.await;
});
}
#[test_traced("INFO")]
fn test_keyless_db_get_out_of_bounds_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("storage")).await;
tests::test_keyless_db_get_out_of_bounds(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_db_metadata_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_db_metadata(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_db_pruning_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_db_pruning(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_batch_get_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_batch_get(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_batch_stacked_get_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_batch_stacked_get(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_batch_speculative_root_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_batch_speculative_root(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_merkleized_batch_get_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_merkleized_batch_get(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_batch_chained_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_batch_chained(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_batch_chained_apply_sequential_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_batch_chained_apply_sequential(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_batch_many_sequential_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_batch_many_sequential(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_batch_empty_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_batch_empty(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_batch_chained_merkleized_get_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_batch_chained_merkleized_get(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_batch_large_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_batch_large(db).await;
});
}
#[test_traced]
fn test_keyless_stale_batch_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_stale_batch(db).await;
});
}
#[test_traced]
fn test_stale_batch_chained_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_stale_batch_chained(db).await;
});
}
#[test_traced]
fn test_sequential_commit_parent_then_child_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_sequential_commit_parent_then_child(db).await;
});
}
#[test_traced]
fn test_stale_batch_child_applied_before_parent_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_stale_batch_child_before_parent(db).await;
});
}
#[test_traced]
fn test_keyless_to_batch_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_to_batch(db).await;
});
}
#[test_traced]
fn test_keyless_child_root_matches_pending_and_committed_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_child_root_matches_pending_and_committed(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_rewind_recovery_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_db_rewind_recovery(ctx, db, reopen::<mmb::Family>()).await;
});
}
#[test_traced("INFO")]
fn test_keyless_rewind_pruned_target_errors_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_db_rewind_pruned_target_errors(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_variable_floor_tracking_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db").with_attribute("index", 1)).await;
tests::test_keyless_db_floor_tracking(ctx, db, reopen::<mmb::Family>()).await;
});
}
#[test_traced("INFO")]
fn test_keyless_variable_floor_regression_rejected_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_db_floor_regression_rejected(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_variable_floor_beyond_commit_loc_rejected_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_db_floor_beyond_commit_loc_rejected(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_variable_rewind_restores_floor_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_db_rewind_restores_floor(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_variable_floor_changes_root_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db_a = open_db_with_suffix::<mmb::Family>("root-a", ctx.child("a")).await;
let db_b = open_db_with_suffix::<mmb::Family>("root-b", ctx.child("b")).await;
tests::test_keyless_db_floor_changes_root(db_a, db_b).await;
});
}
#[test_traced("INFO")]
fn test_keyless_variable_floor_at_commit_loc_accepted_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_db_floor_at_commit_loc_accepted(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_variable_rewind_after_reopen_with_floor_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db").with_attribute("index", 1)).await;
tests::test_keyless_db_rewind_after_reopen_with_floor(ctx, db, reopen::<mmb::Family>())
.await;
});
}
#[test_traced("INFO")]
fn test_keyless_variable_ancestor_floor_regression_rejected_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_db_ancestor_floor_regression_rejected(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_variable_ancestor_floor_beyond_commit_loc_rejected_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_db_ancestor_floor_beyond_commit_loc_rejected(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_variable_chained_apply_with_valid_floors_succeeds_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db")).await;
tests::test_keyless_db_chained_apply_with_valid_floors_succeeds(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_variable_single_commit_live_set_mmb() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmb::Family>(ctx.child("db").with_attribute("index", 1)).await;
tests::test_keyless_db_single_commit_live_set(ctx, db, reopen::<mmb::Family>()).await;
});
}
#[test_traced("INFO")]
fn test_keyless_variable_floor_tracking() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db").with_attribute("index", 1)).await;
tests::test_keyless_db_floor_tracking(ctx, db, reopen::<mmr::Family>()).await;
});
}
#[test_traced("INFO")]
fn test_keyless_variable_floor_regression_rejected() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_db_floor_regression_rejected(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_variable_floor_beyond_commit_loc_rejected() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_db_floor_beyond_commit_loc_rejected(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_variable_rewind_restores_floor() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_db_rewind_restores_floor(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_variable_floor_changes_root() {
deterministic::Runner::default().start(|ctx| async move {
let db_a = open_db_with_suffix::<mmr::Family>("root-a", ctx.child("a")).await;
let db_b = open_db_with_suffix::<mmr::Family>("root-b", ctx.child("b")).await;
tests::test_keyless_db_floor_changes_root(db_a, db_b).await;
});
}
#[test_traced("INFO")]
fn test_keyless_variable_floor_at_commit_loc_accepted() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_db_floor_at_commit_loc_accepted(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_variable_rewind_after_reopen_with_floor() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db").with_attribute("index", 1)).await;
tests::test_keyless_db_rewind_after_reopen_with_floor(ctx, db, reopen::<mmr::Family>())
.await;
});
}
#[test_traced("INFO")]
fn test_keyless_variable_ancestor_floor_regression_rejected() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_db_ancestor_floor_regression_rejected(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_variable_ancestor_floor_beyond_commit_loc_rejected() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_db_ancestor_floor_beyond_commit_loc_rejected(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_variable_chained_apply_with_valid_floors_succeeds() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db")).await;
tests::test_keyless_db_chained_apply_with_valid_floors_succeeds(db).await;
});
}
#[test_traced("INFO")]
fn test_keyless_variable_single_commit_live_set() {
deterministic::Runner::default().start(|ctx| async move {
let db = open_db::<mmr::Family>(ctx.child("db").with_attribute("index", 1)).await;
tests::test_keyless_db_single_commit_live_set(ctx, db, reopen::<mmr::Family>()).await;
});
}
fn is_send<T: Send>(_: T) {}
#[allow(dead_code)]
fn assert_db_futures_are_send(
db: &mut TestDb<mmr::Family>,
loc: crate::merkle::Location<mmr::Family>,
) {
is_send(db.get_metadata());
is_send(db.proof(loc, NZU64!(1)));
is_send(db.sync());
is_send(db.get(loc));
is_send(db.rewind(loc));
}
}