Core db and aristo updates for destructor and tx logic (#1894)
* Disable `TransactionID` related functions from `state_db.nim`
why:
Functions `getCommittedStorage()` and `updateOriginalRoot()` from
the `state_db` module are nowhere used. The emulation of a legacy
`TransactionID` type functionality is administratively expensive to
provide by `Aristo` (the legacy DB version is only partially
implemented, anyway).
As there is no other place where `TransactionID`s are used, they will
not be provided by the `Aristo` variant of the `CoreDb`. For the
legacy DB API, nothing will change.
* Fix copyright headers in source code
* Get rid of compiler warning
* Update Aristo code, remove unused `merge()` variant, export `hashify()`
why:
Adapt to upcoming `CoreDb` wrapper
* Remove synced tx feature from `Aristo`
why:
+ This feature allowed to synchronise transaction methods like begin,
commit, and rollback for a group of descriptors.
+ The feature is over engineered and not needed for `CoreDb`, neither
is it complete (some convergence features missing.)
* Add debugging helpers to `Kvt`
also:
Update database iterator, add count variable yield argument similar
to `Aristo`.
* Provide optional destructors for `CoreDb` API
why;
For the upcoming Aristo wrapper, this allows to control when certain
smart destruction and update can take place. The auto destructor works
fine in general when the storage/cache strategy is known and acceptable
when creating descriptors.
* Add update option for `CoreDb` API function `hash()`
why;
The hash function is typically used to get the state root of the MPT.
Due to lazy hashing, this might be not available on the `Aristo` DB.
So the `update` function asks for re-hashing the gurrent state changes
if needed.
* Update API tracking log mode: `info` => `debug
* Use shared `Kvt` descriptor in new Ledger API
why:
No need to create a new descriptor all the time
2023-11-16 19:35:03 +00:00
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# Nimbus
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2024-02-16 09:08:07 +00:00
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# Copyright (c) 2022-2024 Status Research & Development GmbH
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2023-01-23 16:09:12 +00:00
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# Licensed under either of
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# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or
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# http://www.apache.org/licenses/LICENSE-2.0)
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# * MIT license ([LICENSE-MIT](LICENSE-MIT) or
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# http://opensource.org/licenses/MIT)
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# at your option. This file may not be copied, modified, or
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# distributed except according to those terms.
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## Snap sync components tester and TDD environment
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import
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2023-08-04 11:10:09 +00:00
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std/sequtils,
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eth/[common, p2p],
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2023-01-23 16:09:12 +00:00
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unittest2,
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2023-08-04 11:10:09 +00:00
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../../nimbus/db/core_db,
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2023-01-23 16:09:12 +00:00
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../../nimbus/sync/snap/range_desc,
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../../nimbus/sync/snap/worker/db/[
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2023-09-26 09:21:13 +00:00
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hexary_desc, hexary_inspect, hexary_paths, snapdb_accounts, snapdb_desc],
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2023-01-23 16:09:12 +00:00
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../replay/[pp, undump_accounts],
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./test_helpers
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# ------------------------------------------------------------------------------
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# Public test function
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# ------------------------------------------------------------------------------
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proc test_inspectSingleAccountsMemDb*(
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inList: seq[seq[UndumpAccounts]];
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memBase: SnapDbRef;
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singleStats: var seq[(int,TrieNodeStat)];
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) =
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## Fingerprinting single accounts lists for in-memory-db (modifies
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## `singleStats`)
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for n,accList in inList:
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# Separate storage
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let
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root = accList[0].root
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rootKey = root.to(NodeKey)
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desc = SnapDbAccountsRef.init(memBase, root, Peer())
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for w in accList:
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check desc.importAccounts(w.base, w.data, persistent=false).isImportOk
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let stats = desc.hexaDb.hexaryInspectTrie(rootKey)
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check not stats.stopped
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let
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dangling = stats.dangling.mapIt(it.partialPath)
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keys = dangling.hexaryPathNodeKeys(
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rootKey, desc.hexaDb, missingOk=true)
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check dangling.len == keys.len
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singleStats.add (desc.hexaDb.tab.len,stats)
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# Verify piecemeal approach for `hexaryInspectTrie()` ...
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var
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ctx = TrieNodeStatCtxRef()
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piecemeal: HashSet[Blob]
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while not ctx.isNil:
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let stat2 = desc.hexaDb.hexaryInspectTrie(
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rootKey, resumeCtx=ctx, suspendAfter=128)
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check not stat2.stopped
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ctx = stat2.resumeCtx
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piecemeal.incl stat2.dangling.mapIt(it.partialPath).toHashSet
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# Must match earlier all-in-one result
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check dangling.len == piecemeal.len
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check dangling.toHashSet == piecemeal
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proc test_inspectSingleAccountsPersistent*(
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inList: seq[seq[UndumpAccounts]];
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dbSlotCb: proc(n: int): SnapDbRef;
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singleStats: seq[(int,TrieNodeStat)];
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) =
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## Fingerprinting single accounts listsfor persistent db"
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for n,accList in inList:
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let
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root = accList[0].root
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rootKey = root.to(NodeKey)
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dbBase = n.dbSlotCb
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if dbBase.isNil:
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break
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# Separate storage on persistent DB (leaving first db slot empty)
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let desc = SnapDbAccountsRef.init(dbBase, root, Peer())
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for w in accList:
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check desc.importAccounts(w.base,w.data, persistent=true).isImportOk
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let stats = desc.getAccountFn.hexaryInspectTrie(rootKey)
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check not stats.stopped
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let
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dangling = stats.dangling.mapIt(it.partialPath)
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keys = dangling.hexaryPathNodeKeys(
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rootKey, desc.hexaDb, missingOk=true)
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check dangling.len == keys.len
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# Must be the same as the in-memory fingerprint
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let ssn1 = singleStats[n][1].dangling.mapIt(it.partialPath)
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check ssn1.toHashSet == dangling.toHashSet
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# Verify piecemeal approach for `hexaryInspectTrie()` ...
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var
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ctx = TrieNodeStatCtxRef()
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piecemeal: HashSet[Blob]
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while not ctx.isNil:
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let stat2 = desc.getAccountFn.hexaryInspectTrie(
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rootKey, resumeCtx=ctx, suspendAfter=128)
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check not stat2.stopped
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ctx = stat2.resumeCtx
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piecemeal.incl stat2.dangling.mapIt(it.partialPath).toHashSet
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# Must match earlier all-in-one result
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check dangling.len == piecemeal.len
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check dangling.toHashSet == piecemeal
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2024-02-16 09:08:07 +00:00
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2023-01-23 16:09:12 +00:00
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proc test_inspectAccountsInMemDb*(
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inList: seq[seq[UndumpAccounts]];
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memBase: SnapDbRef;
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accuStats: var seq[(int,TrieNodeStat)];
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) =
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## Fingerprinting accumulated accounts for in-memory-db (updates `accuStats`)
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let memDesc = SnapDbAccountsRef.init(memBase, Hash256(), Peer())
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for n,accList in inList:
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# Accumulated storage
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let
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root = accList[0].root
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rootKey = root.to(NodeKey)
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desc = memDesc.dup(root,Peer())
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for w in accList:
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check desc.importAccounts(w.base, w.data, persistent=false).isImportOk
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let stats = desc.hexaDb.hexaryInspectTrie(rootKey)
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check not stats.stopped
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let
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dangling = stats.dangling.mapIt(it.partialPath)
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keys = dangling.hexaryPathNodeKeys(
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rootKey, desc.hexaDb, missingOk=true)
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check dangling.len == keys.len
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accuStats.add (desc.hexaDb.tab.len, stats)
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proc test_inspectAccountsPersistent*(
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inList: seq[seq[UndumpAccounts]];
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2023-08-04 11:10:09 +00:00
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cdb: CoreDbRef;
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2023-01-23 16:09:12 +00:00
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accuStats: seq[(int,TrieNodeStat)];
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) =
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## Fingerprinting accumulated accounts for persistent db
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let
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perBase = SnapDbRef.init(cdb)
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perDesc = SnapDbAccountsRef.init(perBase, Hash256(), Peer())
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for n,accList in inList:
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# Accumulated storage on persistent DB (using first db slot)
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let
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root = accList[0].root
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rootKey = root.to(NodeKey)
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desc = perDesc.dup(root,Peer())
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for w in accList:
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check desc.importAccounts(w.base, w.data, persistent=true).isImportOk
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let stats = desc.getAccountFn.hexaryInspectTrie(rootKey)
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check not stats.stopped
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let
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dangling = stats.dangling.mapIt(it.partialPath)
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keys = dangling.hexaryPathNodeKeys(
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rootKey, desc.hexaDb, missingOk=true)
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check dangling.len == keys.len
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check accuStats[n][1] == stats
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proc test_inspectCascadedMemDb*(
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inList: seq[seq[UndumpAccounts]];
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) =
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## Cascaded fingerprinting accounts for in-memory-db
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let
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2023-08-04 11:10:09 +00:00
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cscBase = SnapDbRef.init(newCoreDbRef LegacyDbMemory)
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2023-01-23 16:09:12 +00:00
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cscDesc = SnapDbAccountsRef.init(cscBase, Hash256(), Peer())
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var
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cscStep: Table[NodeKey,(int,seq[Blob])]
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for n,accList in inList:
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# Accumulated storage
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let
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root = accList[0].root
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rootKey = root.to(NodeKey)
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desc = cscDesc.dup(root,Peer())
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for w in accList:
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check desc.importAccounts(w.base, w.data, persistent=false).isImportOk
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if cscStep.hasKeyOrPut(rootKey, (1, seq[Blob].default)):
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cscStep[rootKey][0].inc
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let
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stat0 = desc.hexaDb.hexaryInspectTrie(rootKey)
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stats = desc.hexaDb.hexaryInspectTrie(rootKey, cscStep[rootKey][1])
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check not stat0.stopped
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check not stats.stopped
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let
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accumulated = stat0.dangling.mapIt(it.partialPath).toHashSet
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cascaded = stats.dangling.mapIt(it.partialPath).toHashSet
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check accumulated == cascaded
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# Make sure that there are no trivial cases
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let trivialCases = toSeq(cscStep.values).filterIt(it[0] <= 1).len
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check trivialCases == 0
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proc test_inspectCascadedPersistent*(
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inList: seq[seq[UndumpAccounts]];
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2023-08-04 11:10:09 +00:00
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cdb: CoreDbRef;
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2023-01-23 16:09:12 +00:00
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) =
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## Cascaded fingerprinting accounts for persistent db
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let
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cscBase = SnapDbRef.init(cdb)
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cscDesc = SnapDbAccountsRef.init(cscBase, Hash256(), Peer())
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var
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cscStep: Table[NodeKey,(int,seq[Blob])]
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for n,accList in inList:
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# Accumulated storage
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let
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root = accList[0].root
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rootKey = root.to(NodeKey)
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desc = cscDesc.dup(root, Peer())
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for w in accList:
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check desc.importAccounts(w.base, w.data, persistent=true).isImportOk
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if cscStep.hasKeyOrPut(rootKey, (1, seq[Blob].default)):
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cscStep[rootKey][0].inc
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let
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stat0 = desc.getAccountFn.hexaryInspectTrie(rootKey)
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stats = desc.getAccountFn.hexaryInspectTrie(rootKey, cscStep[rootKey][1])
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check not stat0.stopped
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check not stats.stopped
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let
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accumulated = stat0.dangling.mapIt(it.partialPath).toHashSet
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cascaded = stats.dangling.mapIt(it.partialPath).toHashSet
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check accumulated == cascaded
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# Make sure that there are no trivial cases
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let trivialCases = toSeq(cscStep.values).filterIt(it[0] <= 1).len
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check trivialCases == 0
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# ------------------------------------------------------------------------------
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# End
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# ------------------------------------------------------------------------------
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