# nimbus-eth1 # Copyright (c) 2023-2024 Status Research & Development GmbH # Licensed under either of # * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or # http://www.apache.org/licenses/LICENSE-2.0) # * MIT license ([LICENSE-MIT](LICENSE-MIT) or # http://opensource.org/licenses/MIT) # at your option. This file may not be copied, modified, or distributed # except according to those terms. ## Aristo DB -- Transaction interface ## ================================== ## {.push raises: [].} import std/tables, results, "."/[aristo_desc, aristo_filter, aristo_get, aristo_layers, aristo_hashify] func isTop*(tx: AristoTxRef): bool {.gcsafe.} func level*(db: AristoDbRef): int {.gcsafe.} proc txBegin*(db: AristoDbRef): Result[AristoTxRef,AristoError] {.gcsafe.} # ------------------------------------------------------------------------------ # Private helpers # ------------------------------------------------------------------------------ func getDbDescFromTopTx(tx: AristoTxRef): Result[AristoDbRef,AristoError] = if not tx.isTop(): return err(TxNotTopTx) let db = tx.db if tx.level != db.stack.len: return err(TxStackGarbled) ok db proc getTxUid(db: AristoDbRef): uint = if db.txUidGen == high(uint): db.txUidGen = 0 db.txUidGen.inc db.txUidGen # ------------------------------------------------------------------------------ # Public functions, getters # ------------------------------------------------------------------------------ func txTop*(db: AristoDbRef): Result[AristoTxRef,AristoError] = ## Getter, returns top level transaction if there is any. if db.txRef.isNil: err(TxNoPendingTx) else: ok(db.txRef) func isTop*(tx: AristoTxRef): bool = ## Getter, returns `true` if the argument `tx` referes to the current top ## level transaction. tx.db.txRef == tx and tx.db.top.txUid == tx.txUid func level*(tx: AristoTxRef): int = ## Getter, positive nesting level of transaction argument `tx` tx.level func level*(db: AristoDbRef): int = ## Getter, non-negative nesting level (i.e. number of pending transactions) if not db.txRef.isNil: result = db.txRef.level # ------------------------------------------------------------------------------ # Public functions # ------------------------------------------------------------------------------ func to*(tx: AristoTxRef; T: type[AristoDbRef]): T = ## Getter, retrieves the parent database descriptor from argument `tx` tx.db proc forkTx*( tx: AristoTxRef; # Transaction descriptor dontHashify = false; # Process/fix MPT hashes ): Result[AristoDbRef,AristoError] = ## Clone a transaction into a new DB descriptor accessing the same backend ## database (if any) as the argument `db`. The new descriptor is linked to ## the transaction parent and is fully functional as a forked instance (see ## comments on `aristo_desc.reCentre()` for details.) ## ## Input situation: ## :: ## tx -> db0 with tx is top transaction, tx.level > 0 ## ## Output situation: ## :: ## tx -> db0 \ ## > share the same backend ## tx1 -> db1 / ## ## where `tx.level > 0`, `db1.level == 1` and `db1` is returned. The ## transaction `tx1` can be retrieved via `db1.txTop()`. ## ## The new DB descriptor will contain a copy of the argument transaction ## `tx` as top layer of level 1 (i.e. this is he only transaction.) Rolling ## back will end up at the backend layer (incl. backend filter.) ## ## If the arguent flag `dontHashify` is passed `true`, the clone descriptor ## will *NOT* be hashified right after construction. ## ## Use `aristo_desc.forget()` to clean up this descriptor. ## let db = tx.db # Verify `tx` argument if db.txRef == tx: if db.top.txUid != tx.txUid: return err(TxArgStaleTx) elif db.stack.len <= tx.level: return err(TxArgStaleTx) elif db.stack[tx.level].txUid != tx.txUid: return err(TxArgStaleTx) # Provide new empty stack layer let stackLayer = block: let rc = db.getIdgBE() if rc.isOk: LayerRef( delta: LayerDeltaRef(), final: LayerFinalRef(vGen: rc.value)) elif rc.error == GetIdgNotFound: LayerRef.init() else: return err(rc.error) # Set up clone associated to `db` let txClone = ? db.fork(noToplayer = true, noFilter = false) txClone.top = db.layersCc tx.level # Provide tx level 1 stack txClone.stack = @[stackLayer] # Zero level stack txClone.top.txUid = 1 txClone.txUidGen = 1 # Install transaction similar to `tx` on clone txClone.txRef = AristoTxRef( db: txClone, txUid: 1, level: 1) if not dontHashify: txClone.hashify().isOkOr: discard txClone.forget() return err(error[1]) ok(txClone) proc forkTop*( db: AristoDbRef; dontHashify = false; # Process/fix MPT hashes ): Result[AristoDbRef,AristoError] = ## Variant of `forkTx()` for the top transaction if there is any. Otherwise ## the top layer is cloned, and an empty transaction is set up. After ## successful fork the returned descriptor has transaction level 1. ## ## Use `aristo_desc.forget()` to clean up this descriptor. ## if db.txRef.isNil: let dbClone = ? db.fork(noToplayer = true, noFilter = false) dbClone.top = db.layersCc # Is a deep copy if not dontHashify: dbClone.hashify().isOkOr: discard dbClone.forget() return err(error[1]) discard dbClone.txBegin return ok(dbClone) # End if() db.txRef.forkTx dontHashify # ------------------------------------------------------------------------------ # Public functions: Transaction frame # ------------------------------------------------------------------------------ proc txBegin*(db: AristoDbRef): Result[AristoTxRef,AristoError] = ## Starts a new transaction. ## ## Example: ## :: ## proc doSomething(db: AristoDbRef) = ## let tx = db.begin ## defer: tx.rollback() ## ... continue using db ... ## tx.commit() ## if db.level != db.stack.len: return err(TxStackGarbled) db.stack.add db.top db.top = LayerRef( delta: LayerDeltaRef(), final: db.top.final.dup, txUid: db.getTxUid) db.txRef = AristoTxRef( db: db, txUid: db.top.txUid, parent: db.txRef, level: db.stack.len) ok db.txRef proc rollback*( tx: AristoTxRef; # Top transaction on database ): Result[void,AristoError] = ## Given a *top level* handle, this function discards all database operations ## performed for this transactio. The previous transaction is returned if ## there was any. ## let db = ? tx.getDbDescFromTopTx() # Roll back to previous layer. db.top = db.stack[^1] db.stack.setLen(db.stack.len-1) db.txRef = db.txRef.parent ok() proc commit*( tx: AristoTxRef; # Top transaction on database ): Result[void,AristoError] = ## Given a *top level* handle, this function accepts all database operations ## performed through this handle and merges it to the previous layer. The ## previous transaction is returned if there was any. ## let db = ? tx.getDbDescFromTopTx() db.hashify().isOkOr: return err(error[1]) # Pop layer from stack and merge database top layer onto it let merged = block: if db.top.delta.sTab.len == 0 and db.top.delta.kMap.len == 0: # Avoid `layersMergeOnto()` db.top.delta = db.stack[^1].delta db.stack.setLen(db.stack.len-1) db.top else: let layer = db.stack[^1] db.stack.setLen(db.stack.len-1) db.top.layersMergeOnto layer[] layer # Install `merged` stack top layer and update stack db.top = merged db.txRef = tx.parent if 0 < db.stack.len: db.txRef.txUid = db.getTxUid db.top.txUid = db.txRef.txUid ok() proc collapse*( tx: AristoTxRef; # Top transaction on database commit: bool; # Commit if `true`, otherwise roll back ): Result[void,AristoError] = ## Iterated application of `commit()` or `rollback()` performing the ## something similar to ## :: ## while true: ## discard tx.commit() # ditto for rollback() ## if db.topTx.isErr: break ## tx = db.topTx.value ## let db = ? tx.getDbDescFromTopTx() if commit: # For commit, hashify the current layer if requested and install it db.hashify().isOkOr: return err(error[1]) db.top.txUid = 0 db.stack.setLen(0) db.txRef = AristoTxRef(nil) ok() # ------------------------------------------------------------------------------ # Public functions: save database # ------------------------------------------------------------------------------ proc stow*( db: AristoDbRef; # Database persistent = false; # Stage only unless `true` chunkedMpt = false; # Partial data (e.g. from `snap`) ): Result[void,AristoError] = ## If there is no backend while the `persistent` argument is set `true`, ## the function returns immediately with an error. The same happens if there ## is a pending transaction. ## ## The function then merges the data from the top layer cache into the ## backend stage area. After that, the top layer cache is cleared. ## ## Staging the top layer cache might fail withh a partial MPT when it is ## set up from partial MPT chunks as it happens with `snap` sync processing. ## In this case, the `chunkedMpt` argument must be set `true` (see alse ## `fwdFilter`.) ## ## If the argument `persistent` is set `true`, all the staged data are merged ## into the physical backend database and the staged data area is cleared. ## if not db.txRef.isNil: return err(TxPendingTx) if 0 < db.stack.len: return err(TxStackGarbled) if persistent and not db.canResolveBackendFilter(): return err(TxBackendNotWritable) db.hashify().isOkOr: return err(error[1]) let fwd = db.fwdFilter(db.top, chunkedMpt).valueOr: return err(error[1]) if fwd.isValid: # Merge `top` layer into `roFilter` db.merge(fwd).isOkOr: return err(error[1]) db.top = LayerRef( delta: LayerDeltaRef(), final: LayerFinalRef()) if db.roFilter.isValid: db.top.final.vGen = db.roFilter.vGen else: let rc = db.getIdgUBE() if rc.isOk: db.top.final.vGen = rc.value else: # It is OK if there was no `Idg`. Otherwise something serious happened # and there is no way to recover easily. doAssert rc.error == GetIdgNotFound if persistent: ? db.resolveBackendFilter() db.roFilter = FilterRef(nil) # Delete/clear top db.top = LayerRef( delta: LayerDeltaRef(), final: LayerFinalRef(vGen: db.vGen), txUid: db.top.txUid) ok() # ------------------------------------------------------------------------------ # End # ------------------------------------------------------------------------------