# 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. ## Kvt DB -- Transaction interface ## =============================== ## {.push raises: [].} import results, ./kvt_tx/[tx_fork, tx_frame, tx_stow], ./kvt_init/memory_only, ./kvt_desc # ------------------------------------------------------------------------------ # Public functions, getters # ------------------------------------------------------------------------------ func txTop*(db: KvtDbRef): Result[KvtTxRef,KvtError] = ## Getter, returns top level transaction if there is any. db.txFrameTop() func isTop*(tx: KvtTxRef): bool = ## Getter, returns `true` if the argument `tx` referes to the current top ## level transaction. tx.txFrameIsTop() func level*(tx: KvtTxRef): int = ## Getter, positive nesting level of transaction argument `tx` tx.txFrameLevel() func level*(db: KvtDbRef): int = ## Getter, non-negative nesting level (i.e. number of pending transactions) db.txFrameLevel() # ------------------------------------------------------------------------------ # Public functions # ------------------------------------------------------------------------------ func to*(tx: KvtTxRef; T: type[KvtDbRef]): T = ## Getter, retrieves the parent database descriptor from argument `tx` tx.db func toKvtDbRef*(tx: KvtTxRef): KvtDbRef = ## Same as `.to(KvtDbRef)` tx.db proc forkTx*( db: KvtDbRef; backLevel: int; # Backward location of transaction ): Result[KvtDbRef,KvtError] = ## Fork a new descriptor obtained from parts of the argument database ## as described by arguments `db` and `backLevel`. ## ## If the argument `backLevel` is non-negative, the forked descriptor will ## provide the database view where the first `backLevel` transaction layers ## are stripped and the remaing layers are squashed into a single transaction. ## ## If `backLevel` is `-1`, a database descriptor with empty transaction ## layers will be provided where the `roFilter` between database and ## transaction layers are kept in place. ## ## If `backLevel` is `-2`, a database descriptor with empty transaction ## layers will be provided without an `roFilter`. ## ## The returned database descriptor will always have transaction level one. ## If there were no transactions that could be squashed, an empty ## transaction is added. ## ## Use `kvt_desc.forget()` to clean up this descriptor. ## # Fork top layer (with or without pending transaction)? if backLevel == 0: return db.txForkTop() # Fork bottom layer (=> 0 < db.stack.len) if backLevel == db.stack.len: return db.txForkBase() # Inspect transaction stack if 0 < backLevel: var tx = db.txRef if tx.isNil or db.stack.len < backLevel: return err(TxLevelTooDeep) # Fetch tx of level `backLevel` (seed to skip some items) for _ in 0 ..< backLevel: tx = tx.parent if tx.isNil: return err(TxStackGarbled) return tx.txFork() # Plain fork, include `roFilter` if backLevel == -1: let xb = ? db.fork(noFilter=false) discard xb.txFrameBegin() return ok(xb) # Plain fork, unfiltered backend if backLevel == -2: let xb = ? db.fork(noFilter=true) discard xb.txFrameBegin() return ok(xb) err(TxLevelUseless) # ------------------------------------------------------------------------------ # Public functions: Transaction frame # ------------------------------------------------------------------------------ proc txBegin*(db: KvtDbRef): Result[KvtTxRef,KvtError] = ## Starts a new transaction. ## ## Example: ## :: ## proc doSomething(db: KvtDbRef) = ## let tx = db.txBegin ## defer: tx.rollback() ## ... continue using db ... ## tx.commit() ## db.txFrameBegin() proc rollback*( tx: KvtTxRef; # Top transaction on database ): Result[void,KvtError] = ## Given a *top level* handle, this function discards all database operations ## performed for this transactio. The previous transaction is returned if ## there was any. ## tx.txFrameRollback() proc commit*( tx: KvtTxRef; # Top transaction on database ): Result[void,KvtError] = ## 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. ## tx.txFrameCommit() proc collapse*( tx: KvtTxRef; # Top transaction on database commit: bool; # Commit if `true`, otherwise roll back ): Result[void,KvtError] = ## 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 ## tx.txFrameCollapse commit # ------------------------------------------------------------------------------ # Public functions: save database # ------------------------------------------------------------------------------ proc persist*( db: KvtDbRef; # Database ): Result[void,KvtError] = ## Persistently store data onto backend database. If the system is running ## without a database backend, the function returns immediately with an ## error. The same happens if there is a pending transaction. ## ## The function merges all staged data from the top layer cache onto the ## backend stage area. After that, the top layer cache is cleared. ## ## Finally, the staged data are merged into the physical backend database ## and the staged data area is cleared. Wile performing this last step, ## the recovery journal is updated (if available.) ## # Register for saving if piggybacked on remote database if db.backend.kind == BackendRdbTriggered: ? db.txStowOk(persistent=true) ? db.backend.setWrReqFn db return err(TxPersistDelayed) db.txStow(persistent=true) proc stow*( db: KvtDbRef; # Database ): Result[void,KvtError] = ## This function is similar to `persist()` stopping short of performing the ## final step storing on the persistent database. It fails if there is a ## pending transaction. ## ## The function merges all staged data from the top layer cache onto the ## backend stage area and leaves it there. This function can be seen as ## a sort of a bottom level transaction `commit()`. ## db.txStow(persistent=false) # ------------------------------------------------------------------------------ # End # ------------------------------------------------------------------------------