# Nimbus # 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. {.push raises: [].} import chronicles, eth/common, "../.."/[constants, errors], ./base/[api_tracking, base_desc] from ../aristo import EmptyBlob, PayloadRef, isValid const EnableApiTracking = false ## When enabled, functions using this tracking facility need to import ## `chronicles`, as well. Tracking is enabled by setting `true` the flags ## `trackLegaApi` and/or `trackNewApi` in the `CoreDxTxRef` descriptor. EnableApiProfiling = true ## Enables functions profiling if `EnableApiTracking` is also set `true`. AutoValidateDescriptors = defined(release).not ## No validatinon needed for production suite. export CoreDbAccount, CoreDbApiError, CoreDbCaptFlags, CoreDbColType, CoreDbColRef, CoreDbCtxRef, CoreDbErrorCode, CoreDbErrorRef, CoreDbFnInx, CoreDbKvtBackendRef, CoreDbMptBackendRef, CoreDbPayloadRef, CoreDbPersistentTypes, CoreDbProfListRef, CoreDbRef, CoreDbType, CoreDxAccRef, CoreDxCaptRef, CoreDxKvtRef, CoreDxMptRef, CoreDxPhkRef, CoreDxTxRef, PayloadRef const CoreDbEnableApiTracking* = EnableApiTracking CoreDbEnableApiProfiling* = EnableApiTracking and EnableApiProfiling when AutoValidateDescriptors: import ./base/validate # More settings const logTxt = "CoreDb " newApiTxt = logTxt & "API" # Annotation helpers {.pragma: apiRaise, gcsafe, raises: [CoreDbApiError].} {.pragma: catchRaise, gcsafe, raises: [CatchableError].} # ------------------------------------------------------------------------------ # Private helpers # ------------------------------------------------------------------------------ when EnableApiTracking: when EnableApiProfiling: {.warning: "*** Provided API profiling for CoreDB (disabled by default)".} else: {.warning: "*** Provided API logging for CoreDB (disabled by default)".} import std/times proc `$`[T](rc: CoreDbRc[T]): string = rc.toStr proc `$`(q: set[CoreDbCaptFlags]): string = q.toStr proc `$`(t: Duration): string = t.toStr proc `$`(e: EthAddress): string = e.toStr proc `$`(v: CoreDbColRef): string = v.toStr proc `$`(h: Hash256): string = h.toStr template setTrackNewApi( w: CoreDxApiTrackRef; s: static[CoreDbFnInx]; code: untyped; ) = ## Template with code section that will be discarded if logging is ## disabled at compile time when `EnableApiTracking` is `false`. when EnableApiTracking: w.beginNewApi(s) code const api {.inject,used.} = s template setTrackNewApi*( w: CoreDxApiTrackRef; s: static[CoreDbFnInx]; ) = w.setTrackNewApi(s): discard template ifTrackNewApi*(w: CoreDxApiTrackRef; code: untyped) = when EnableApiTracking: w.endNewApiIf: code # --------- func toCoreDxPhkRef(mpt: CoreDxMptRef): CoreDxPhkRef = ## MPT => pre-hashed MPT (aka PHK) result = CoreDxPhkRef( toMpt: mpt, methods: mpt.methods) result.methods.fetchFn = proc(k: openArray[byte]): CoreDbRc[Blob] = mpt.methods.fetchFn(k.keccakHash.data) result.methods.deleteFn = proc(k: openArray[byte]): CoreDbRc[void] = mpt.methods.deleteFn(k.keccakHash.data) result.methods.mergeFn = proc(k:openArray[byte]; v: openArray[byte]): CoreDbRc[void] = mpt.methods.mergeFn(k.keccakHash.data, v) result.methods.hasPathFn = proc(k: openArray[byte]): CoreDbRc[bool] = mpt.methods.hasPathFn(k.keccakHash.data) when AutoValidateDescriptors: result.validate func parent(phk: CoreDxPhkRef): CoreDbRef = phk.toMpt.parent # ------------------------------------------------------------------------------ # Public constructor helper # ------------------------------------------------------------------------------ proc bless*(db: CoreDbRef): CoreDbRef = ## Verify descriptor when AutoValidateDescriptors: db.validate when CoreDbEnableApiProfiling: db.profTab = CoreDbProfListRef.init() db proc bless*(db: CoreDbRef; col: CoreDbColRef): CoreDbColRef = ## Complete sub-module descriptor, fill in `parent` and actvate it. col.parent = db col.ready = true when AutoValidateDescriptors: col.validate col proc bless*(db: CoreDbRef; kvt: CoreDxKvtRef): CoreDxKvtRef = ## Complete sub-module descriptor, fill in `parent`. kvt.parent = db when AutoValidateDescriptors: kvt.validate kvt proc bless*[T: CoreDxKvtRef | CoreDbCtxRef | CoreDxMptRef | CoreDxPhkRef | CoreDxAccRef | CoreDxTxRef | CoreDxCaptRef | CoreDbKvtBackendRef | CoreDbMptBackendRef]( db: CoreDbRef; dsc: T; ): auto = ## Complete sub-module descriptor, fill in `parent`. dsc.parent = db when AutoValidateDescriptors: dsc.validate dsc proc bless*( db: CoreDbRef; error: CoreDbErrorCode; dsc: CoreDbErrorRef; ): CoreDbErrorRef = dsc.parent = db dsc.error = error when AutoValidateDescriptors: dsc.validate dsc proc prettyText*(e: CoreDbErrorRef): string = ## Pretty print argument object (for tracking use `$$()`) if e.isNil: "$ø" else: e.toStr() proc prettyText*(col: CoreDbColRef): string = ## Pretty print argument object (for tracking use `$$()`) if col.isNil or not col.ready: "$ø" else: col.toStr() # ------------------------------------------------------------------------------ # Public main descriptor methods # ------------------------------------------------------------------------------ proc dbProfData*(db: CoreDbRef): CoreDbProfListRef = ## Return profiling data table (only available in profiling mode). If ## available (i.e. non-nil), result data can be organised by the functions ## available with `aristo_profile`. when CoreDbEnableApiProfiling: db.profTab proc dbType*(db: CoreDbRef): CoreDbType = ## Getter, print DB type identifier ## db.setTrackNewApi BaseDbTypeFn result = db.dbType db.ifTrackNewApi: debug newApiTxt, api, elapsed, result proc parent*[T: CoreDxKvtRef | CoreDbColRef | CoreDbCtxRef | CoreDxMptRef | CoreDxPhkRef | CoreDxAccRef | CoreDxTxRef | CoreDxCaptRef | CoreDbErrorRef]( child: T): CoreDbRef = ## Getter, common method for all sub-modules ## result = child.parent proc backend*(dsc: CoreDxKvtRef | CoreDxMptRef): auto = ## Getter, retrieves the *raw* backend object for special/localised support. ## dsc.setTrackNewApi AnyBackendFn result = dsc.methods.backendFn() dsc.ifTrackNewApi: debug newApiTxt, api, elapsed proc finish*(db: CoreDbRef; eradicate = false) = ## Database destructor. If the argument `eradicate` is set `false`, the ## database is left as-is and only the in-memory handlers are cleaned up. ## ## Otherwise the destructor is allowed to remove the database. This feature ## depends on the backend database. Currently, only the `AristoDbRocks` type ## backend removes the database on `true`. ## db.setTrackNewApi BaseFinishFn db.methods.destroyFn eradicate db.ifTrackNewApi: debug newApiTxt, api, elapsed proc `$$`*(e: CoreDbErrorRef): string = ## Pretty print error symbol, note that this directive may have side effects ## as it calls a backend function. ## e.setTrackNewApi ErrorPrintFn result = e.prettyText() e.ifTrackNewApi: debug newApiTxt, api, elapsed, result # ------------------------------------------------------------------------------ # Public key-value table methods # ------------------------------------------------------------------------------ proc newKvt*(db: CoreDbRef): CoreDxKvtRef = ## Constructor, will defect on failure. ## ## This function subscribes to the common base object shared with other ## KVT descriptors. Any changes are immediately visible to subscribers. ## On destruction (when the constructed object gets out of scope), changes ## are not saved to the backend database but are still cached and available. ## db.setTrackNewApi BaseNewKvtFn result = db.methods.newKvtFn().valueOr: raiseAssert error.prettyText() db.ifTrackNewApi: debug newApiTxt, api, elapsed proc get*(kvt: CoreDxKvtRef; key: openArray[byte]): CoreDbRc[Blob] = ## This function always returns a non-empty `Blob` or an error code. kvt.setTrackNewApi KvtGetFn result = kvt.methods.getFn key kvt.ifTrackNewApi: debug newApiTxt, api, elapsed, key=key.toStr, result proc getOrEmpty*(kvt: CoreDxKvtRef; key: openArray[byte]): CoreDbRc[Blob] = ## This function sort of mimics the behaviour of the legacy database ## returning an empty `Blob` if the argument `key` is not found on the ## database. ## kvt.setTrackNewApi KvtGetOrEmptyFn result = kvt.methods.getFn key if result.isErr and result.error.error == KvtNotFound: result = CoreDbRc[Blob].ok(EmptyBlob) kvt.ifTrackNewApi: debug newApiTxt, api, elapsed, key=key.toStr, result proc del*(kvt: CoreDxKvtRef; key: openArray[byte]): CoreDbRc[void] = kvt.setTrackNewApi KvtDelFn result = kvt.methods.delFn key kvt.ifTrackNewApi: debug newApiTxt, api, elapsed, key=key.toStr, result proc put*( kvt: CoreDxKvtRef; key: openArray[byte]; val: openArray[byte]; ): CoreDbRc[void] = kvt.setTrackNewApi KvtPutFn result = kvt.methods.putFn(key, val) kvt.ifTrackNewApi: debug newApiTxt, api, elapsed, key=key.toStr, val=val.toLenStr, result proc hasKey*(kvt: CoreDxKvtRef; key: openArray[byte]): CoreDbRc[bool] = ## Would be named `contains` if it returned `bool` rather than `Result[]`. ## kvt.setTrackNewApi KvtHasKeyFn result = kvt.methods.hasKeyFn key kvt.ifTrackNewApi: debug newApiTxt, api, elapsed, key=key.toStr, result # ------------------------------------------------------------------------------ # Public Merkle Patricia Tree context constructors and administration # ------------------------------------------------------------------------------ proc ctx*(db: CoreDbRef): CoreDbCtxRef = ## Get currently active column context. ## db.setTrackNewApi BaseNewCtxFn result = db.methods.newCtxFn() db.ifTrackNewApi: debug newApiTxt, api, elapsed proc ctxFromTx*( db: CoreDbRef; colState: Hash256; colType = CtAccounts; ): CoreDbRc[CoreDbCtxRef] = ## Create new context derived from matching transaction of the currently ## active column context. For the legacy backend, this function always ## returns the currently active context (i.e. the same as `db.ctx()`.) ## db.setTrackNewApi BaseNewCtxFromTxFn result = db.methods.newCtxFromTxFn(colState, colType) db.ifTrackNewApi: debug newApiTxt, api, elapsed, result proc swapCtx*(db: CoreDbRef; ctx: CoreDbCtxRef): CoreDbCtxRef = ## Activate argument context `ctx` and return the previously active column ## context. This function goes typically together with `forget()`. A valid ## scenario might look like ## :: ## proc doSomething(db: CoreDbRef; ctx: CoreDbCtxRef) = ## let saved = db.swapCtx ctx ## defer: db.swapCtx(saved).forget() ## ... ## db.setTrackNewApi BaseSwapCtxFn result = db.methods.swapCtxFn ctx db.ifTrackNewApi: debug newApiTxt, api, elapsed proc forget*(ctx: CoreDbCtxRef) = ## Dispose `ctx` argument context and related columns created with this ## context. This function fails if `ctx` is the default context. ## ctx.setTrackNewApi CtxForgetFn ctx.methods.forgetFn() ctx.ifTrackNewApi: debug newApiTxt, api, elapsed # ------------------------------------------------------------------------------ # Public Merkle Patricia Tree sub-trie abstaction management # ------------------------------------------------------------------------------ proc newColumn*( ctx: CoreDbCtxRef; colType: CoreDbColType; colState: Hash256; address = Opt.none(EthAddress); ): CoreDbRc[CoreDbColRef] = ## Retrieve a new column descriptor. ## ## The database is can be viewed as a matrix of rows and columns, potenially ## with values at their intersection. A row is identified by a lookup key ## and a column is identified by a state hash. ## ## Additionally, any column has a column type attribute given as `colType` ## argument. Only storage columns also have an address attribute which must ## be passed as argument `address` when the `colType` argument is `CtStorage`. ## ## If the state hash argument `colState` is passed as `EMPTY_ROOT_HASH`, this ## function always succeeds. The result is the equivalent of a potential ## column be incarnated later. If the column type is different from ## `CtStorage` and `CtAccounts`, then the returned column descriptor will be ## flagged to reset all column data when incarnated as MPT (see `newMpt()`.). ## ## Otherwise, the function will fail unless a column with the corresponding ## argument `colState` identifier exists and can be found on the database. ## Note that on a single state database like `Aristo`, the requested column ## might exist but is buried in some history journal (which needs an extra ## effort to unwrap.) ## ## This function is intended to open a column on the database as in: ## :: ## proc openAccountLedger(db: CoreDbRef, colState: Hash256): CoreDxMptRef = ## let col = db.ctx.newColumn(CtAccounts, colState).valueOr: ## # some error handling ## return ## db.getAcc col ## ctx.setTrackNewApi CtxNewColFn result = ctx.methods.newColFn(colType, colState, address) ctx.ifTrackNewApi: debug newApiTxt, api, elapsed, colType, colState, address, result proc newColumn*( ctx: CoreDbCtxRef; colState: Hash256; address: EthAddress; ): CoreDbRc[CoreDbColRef] = ## Shortcut for `ctx.newColumn(CtStorage,colState,some(address))`. ## ctx.setTrackNewApi CtxNewColFn result = ctx.methods.newColFn(CtStorage, colState, Opt.some(address)) ctx.ifTrackNewApi: debug newApiTxt, api, elapsed, colState, address, result proc newColumn*( ctx: CoreDbCtxRef; address: EthAddress; ): CoreDbColRef = ## Shortcut for `ctx.newColumn(EMPTY_ROOT_HASH,address).value`. The function ## will throw an exception on error. So the result will always be a valid ## descriptor. ## ctx.setTrackNewApi CtxNewColFn result = ctx.methods.newColFn( CtStorage, EMPTY_ROOT_HASH, Opt.some(address)).valueOr: raiseAssert error.prettyText() ctx.ifTrackNewApi: debug newApiTxt, api, elapsed, address, result proc `$$`*(col: CoreDbColRef): string = ## Pretty print the column descriptor. Note that this directive may have side ## effects as it calls a backend function. ## #col.setTrackNewApi ColPrintFn result = col.prettyText() #col.ifTrackNewApi: debug newApiTxt, api, elapsed, result proc stateEmpty*(col: CoreDbColRef): CoreDbRc[bool] = ## Getter (well, sort of). It retrieves the column state hash for the ## argument `col` descriptor. The function might fail unless the current ## state is available (e.g. on `Aristo`.) ## ## The value `EMPTY_ROOT_HASH` is returned on the void `col` descriptor ## argument `CoreDbColRef(nil)`. ## col.setTrackNewApi BaseColStateEmptyFn result = block: if not col.isNil and col.ready: col.parent.methods.colStateEmptyFn col else: ok true # Note: tracker will be silent if `vid` is NIL col.ifTrackNewApi: debug newApiTxt, api, elapsed, col, result proc state*(col: CoreDbColRef): CoreDbRc[Hash256] = ## Getter (well, sort of). It retrieves the column state hash for the ## argument `col` descriptor. The function might fail unless the current ## state is available (e.g. on `Aristo`.) ## ## The value `EMPTY_ROOT_HASH` is returned on the void `col` descriptor ## argument `CoreDbColRef(nil)`. ## col.setTrackNewApi BaseColStateFn result = block: if not col.isNil and col.ready: col.parent.methods.colStateFn col else: ok EMPTY_ROOT_HASH # Note: tracker will be silent if `vid` is NIL col.ifTrackNewApi: debug newApiTxt, api, elapsed, col, result proc stateOrVoid*(col: CoreDbColRef): Hash256 = ## Convenience wrapper, returns `EMPTY_ROOT_HASH` where `state()` would fail. col.state.valueOr: EMPTY_ROOT_HASH # ------------------------------------------------------------------------------ # Public Merkle Patricia Tree, hexary trie constructors # ------------------------------------------------------------------------------ proc getMpt*( ctx: CoreDbCtxRef; col: CoreDbColRef; ): CoreDbRc[CoreDxMptRef] = ## Get an MPT sub-trie view. ## ## If the `col` argument descriptor was created for an `EMPTY_ROOT_HASH` ## column state of type different form `CtStorage` or `CtAccounts`, all ## column will be flushed. There is no need to hold the `col` argument for ## later use. It can always be rerieved for this particular MPT using the ## function `getColumn()`. ## ctx.setTrackNewApi CtxGetMptFn result = ctx.methods.getMptFn col ctx.ifTrackNewApi: debug newApiTxt, api, elapsed, col, result proc getMpt*( ctx: CoreDbCtxRef; colType: CoreDbColType; address = Opt.none(EthAddress); ): CoreDxMptRef = ## Shortcut for `getMpt(col)` where the `col` argument is ## `db.getColumn(colType,EMPTY_ROOT_HASH).value`. This function will always ## return a non-nil descriptor or throw an exception. ## ctx.setTrackNewApi CtxGetMptFn let col = ctx.methods.newColFn(colType, EMPTY_ROOT_HASH, address).value result = ctx.methods.getMptFn(col).valueOr: raiseAssert error.prettyText() ctx.ifTrackNewApi: debug newApiTxt, api, colType, elapsed proc getMpt*(acc: CoreDxAccRef): CoreDxMptRef = ## Variant of `getMpt()`, will defect on failure. ## ## The needed sub-trie information is taken/implied from the current `acc` ## argument. ## acc.setTrackNewApi AccToMptFn result = acc.methods.getMptFn().valueOr: raiseAssert error.prettyText() acc.ifTrackNewApi: let colState = result.methods.getColFn() debug newApiTxt, api, elapsed, colState proc getAcc*( ctx: CoreDbCtxRef; col: CoreDbColRef; ): CoreDbRc[CoreDxAccRef] = ## Accounts trie constructor, will defect on failure. ## ## Example: ## :: ## let col = db.getColumn(CtAccounts,).valueOr: ## ... # No node available with ## return ## ## let acc = db.getAccMpt(col) ## ... # Was not the state root for the accounts column ## return ## ## This function works similar to `getMpt()` for handling accounts. Although ## one can emulate this function by means of `getMpt(..).toPhk()`, it is ## recommended using `CoreDxAccRef` methods for accounts. ## ctx.setTrackNewApi CtxGetAccFn result = ctx.methods.getAccFn col ctx.ifTrackNewApi: debug newApiTxt, api, elapsed, col, result proc toMpt*(phk: CoreDxPhkRef): CoreDxMptRef = ## Replaces the pre-hashed argument column `phk` by the non pre-hashed *MPT*. ## phk.setTrackNewApi PhkToMptFn result = phk.toMpt phk.ifTrackNewApi: let col = result.methods.getColFn() debug newApiTxt, api, elapsed, col proc toPhk*(mpt: CoreDxMptRef): CoreDxPhkRef = ## Replaces argument `mpt` by a pre-hashed *MPT*. ## mpt.setTrackNewApi MptToPhkFn result = mpt.toCoreDxPhkRef mpt.ifTrackNewApi: let col = result.methods.getColFn() debug newApiTxt, api, elapsed, col # ------------------------------------------------------------------------------ # Public common methods for all hexary trie databases (`mpt`, `phk`, or `acc`) # ------------------------------------------------------------------------------ proc getColumn*(acc: CoreDxAccRef): CoreDbColRef = ## Getter, result is not `nil` ## acc.setTrackNewApi AccGetColFn result = acc.methods.getColFn() acc.ifTrackNewApi: debug newApiTxt, api, elapsed, result proc getColumn*(mpt: CoreDxMptRef): CoreDbColRef = ## Variant of `getColumn()` ## mpt.setTrackNewApi MptGetColFn result = mpt.methods.getColFn() mpt.ifTrackNewApi: debug newApiTxt, api, elapsed, result proc getColumn*(phk: CoreDxPhkRef): CoreDbColRef = ## Variant of `getColumn()` ## phk.setTrackNewApi PhkGetColFn result = phk.methods.getColFn() phk.ifTrackNewApi: debug newApiTxt, api, elapsed, result # ------------------------------------------------------------------------------ # Public generic hexary trie database methods (`mpt` or `phk`) # ------------------------------------------------------------------------------ proc fetch*(mpt: CoreDxMptRef; key: openArray[byte]): CoreDbRc[Blob] = ## Fetch data from the argument `mpt`. The function always returns a ## non-empty `Blob` or an error code. ## mpt.setTrackNewApi MptFetchFn result = mpt.methods.fetchFn key mpt.ifTrackNewApi: let col = mpt.methods.getColFn() debug newApiTxt, api, elapsed, col, key=key.toStr, result proc fetch*(phk: CoreDxPhkRef; key: openArray[byte]): CoreDbRc[Blob] = ## Variant of `fetch()" phk.setTrackNewApi PhkFetchFn result = phk.methods.fetchFn key phk.ifTrackNewApi: let col = phk.methods.getColFn() debug newApiTxt, api, elapsed, col, key=key.toStr, result proc fetchOrEmpty*(mpt: CoreDxMptRef; key: openArray[byte]): CoreDbRc[Blob] = ## This function returns an empty `Blob` if the argument `key` is not found ## on the database. ## mpt.setTrackNewApi MptFetchOrEmptyFn result = mpt.methods.fetchFn key if result.isErr and result.error.error == MptNotFound: result = CoreDbRc[Blob].ok(EmptyBlob) mpt.ifTrackNewApi: let col = mpt.methods.getColFn() debug newApiTxt, api, elapsed, col, key=key.toStr, result proc fetchOrEmpty*(phk: CoreDxPhkRef; key: openArray[byte]): CoreDbRc[Blob] = ## Variant of `fetchOrEmpty()` phk.setTrackNewApi PhkFetchOrEmptyFn result = phk.methods.fetchFn key if result.isErr and result.error.error == MptNotFound: result = CoreDbRc[Blob].ok(EmptyBlob) phk.ifTrackNewApi: let col = phk.methods.getColFn() debug newApiTxt, api, elapsed, col, key=key.toStr, result proc delete*(mpt: CoreDxMptRef; key: openArray[byte]): CoreDbRc[void] = mpt.setTrackNewApi MptDeleteFn result = mpt.methods.deleteFn key mpt.ifTrackNewApi: let col = mpt.methods.getColFn() debug newApiTxt, api, elapsed, col, key=key.toStr, result proc delete*(phk: CoreDxPhkRef; key: openArray[byte]): CoreDbRc[void] = phk.setTrackNewApi PhkDeleteFn result = phk.methods.deleteFn key phk.ifTrackNewApi: let col = phk.methods.getColFn() debug newApiTxt, api, elapsed, col, key=key.toStr, result proc merge*( mpt: CoreDxMptRef; key: openArray[byte]; val: openArray[byte]; ): CoreDbRc[void] = mpt.setTrackNewApi MptMergeFn result = mpt.methods.mergeFn(key, val) mpt.ifTrackNewApi: let col = mpt.methods.getColFn() debug newApiTxt, api, elapsed, col, key=key.toStr, val=val.toLenStr, result proc merge*( phk: CoreDxPhkRef; key: openArray[byte]; val: openArray[byte]; ): CoreDbRc[void] = phk.setTrackNewApi PhkMergeFn result = phk.methods.mergeFn(key, val) phk.ifTrackNewApi: let col = phk.methods.getColFn() debug newApiTxt, api, elapsed, col, key=key.toStr, val=val.toLenStr, result proc hasPath*(mpt: CoreDxMptRef; key: openArray[byte]): CoreDbRc[bool] = ## This function would be named `contains()` if it returned `bool` rather ## than a `Result[]`. ## mpt.setTrackNewApi MptHasPathFn result = mpt.methods.hasPathFn key mpt.ifTrackNewApi: let col = mpt.methods.getColFn() debug newApiTxt, api, elapsed, col, key=key.toStr, result proc hasPath*(phk: CoreDxPhkRef; key: openArray[byte]): CoreDbRc[bool] = ## Variant of `hasPath()` phk.setTrackNewApi PhkHasPathFn result = phk.methods.hasPathFn key phk.ifTrackNewApi: let col = phk.methods.getColFn() debug newApiTxt, api, elapsed, col, key=key.toStr, result # ------------------------------------------------------------------------------ # Public trie database methods for accounts # ------------------------------------------------------------------------------ proc fetch*(acc: CoreDxAccRef; address: EthAddress): CoreDbRc[CoreDbAccount] = ## Fetch data from the argument `acc`. ## acc.setTrackNewApi AccFetchFn result = acc.methods.fetchFn address acc.ifTrackNewApi: let storage = if result.isErr: "n/a" else: result.value.storage.prettyText() debug newApiTxt, api, elapsed, address, storage, result proc delete*(acc: CoreDxAccRef; address: EthAddress): CoreDbRc[void] = acc.setTrackNewApi AccDeleteFn result = acc.methods.deleteFn address acc.ifTrackNewApi: debug newApiTxt, api, elapsed, address, result proc stoDelete*(acc: CoreDxAccRef; address: EthAddress): CoreDbRc[void] = ## Recursively delete all data elements from the storage trie associated to ## the account identified by the argument `address`. After successful run, ## the storage trie will be empty. ## ## Caveat: ## This function has no effect on the legacy backend so it must not be ## relied upon in general. On the legacy backend, storage tries might be ## shared by several accounts whereas they are unique on the `Aristo` ## backend. ## acc.setTrackNewApi AccStoDeleteFn result = acc.methods.stoDeleteFn address acc.ifTrackNewApi: debug newApiTxt, api, elapsed, address, result proc merge*( acc: CoreDxAccRef; account: CoreDbAccount; ): CoreDbRc[void] = acc.setTrackNewApi AccMergeFn result = acc.methods.mergeFn account acc.ifTrackNewApi: let address = account.address debug newApiTxt, api, elapsed, address, result proc hasPath*(acc: CoreDxAccRef; address: EthAddress): CoreDbRc[bool] = ## Would be named `contains` if it returned `bool` rather than `Result[]`. ## acc.setTrackNewApi AccHasPathFn result = acc.methods.hasPathFn address acc.ifTrackNewApi: debug newApiTxt, api, elapsed, address, result proc recast*(statement: CoreDbAccount): CoreDbRc[Account] = ## Convert the argument `statement` to the portable Ethereum representation ## of an account statement. This conversion may fail if the storage colState ## hash (see `hash()` above) is currently unavailable. ## ## Note: ## With the legacy backend, this function always succeeds. ## let storage = statement.storage storage.setTrackNewApi EthAccRecastFn let rc = if storage.isNil or not storage.ready: CoreDbRc[Hash256].ok(EMPTY_ROOT_HASH) else: storage.parent.methods.colStateFn storage result = if rc.isOk: ok Account( nonce: statement.nonce, balance: statement.balance, codeHash: statement.codeHash, storageRoot: rc.value) else: err(rc.error) storage.ifTrackNewApi: debug newApiTxt, api, elapsed, storage, result # ------------------------------------------------------------------------------ # Public transaction related methods # ------------------------------------------------------------------------------ proc level*(db: CoreDbRef): int = ## Retrieve transaction level (zero if there is no pending transaction). ## db.setTrackNewApi BaseLevelFn result = db.methods.levelFn() db.ifTrackNewApi: debug newApiTxt, api, elapsed, result proc persistent*( db: CoreDbRef; ): CoreDbRc[void] = ## For the legacy database, this function has no effect and succeeds always. ## It will nevertheless return a discardable error if there is a pending ## transaction (i.e. `db.level() == 0`.) ## ## Otherwise, cached data from the `Kvt`, `Mpt`, and `Acc` descriptors are ## stored on the persistent database (if any). This requires that that there ## is no transaction pending. ## db.setTrackNewApi BasePersistentFn result = db.methods.persistentFn Opt.none(BlockNumber) db.ifTrackNewApi: debug newApiTxt, api, elapsed, result proc persistent*( db: CoreDbRef; blockNumber: BlockNumber; ): CoreDbRc[void] {.discardable.} = ## Variant of `persistent()` which stores a block number within the recovery ## journal record. This recoed will be addressable by the `blockNumber` (e.g. ## for recovery.) The argument block number `blockNumber` must be greater ## than all previously stored block numbers. ## ## The function is intended to be used in a way so hat the argument block ## number `blockNumber` is associated with the state root to be recovered ## from a particular journal entry. This means that the correct block number ## will be the one of the state *before* a state change takes place. Using ## it that way, `pesistent()` must only be run after some blocks were fully ## executed. ## ## Example: ## :: ## # Save block number for the current state ## let stateBlockNumber = db.getCanonicalHead().blockNumber ## .. ## # Process blocks ## .. ## db.persistent(stateBlockNumber) ## db.setTrackNewApi BasePersistentFn result = db.methods.persistentFn Opt.some(blockNumber) db.ifTrackNewApi: debug newApiTxt, api, elapsed, blockNumber, result proc newTransaction*(db: CoreDbRef): CoreDxTxRef = ## Constructor ## db.setTrackNewApi BaseNewTxFn result = db.methods.beginFn() db.ifTrackNewApi: debug newApiTxt, api, elapsed, newLevel=db.methods.levelFn() proc level*(tx: CoreDxTxRef): int = ## Print positive transaction level for argument `tx` ## tx.setTrackNewApi TxLevelFn result = tx.methods.levelFn() tx.ifTrackNewApi: debug newApiTxt, api, elapsed, result proc commit*(tx: CoreDxTxRef) = tx.setTrackNewApi TxCommitFn: let prvLevel {.used.} = tx.methods.levelFn() tx.methods.commitFn() tx.ifTrackNewApi: debug newApiTxt, api, elapsed, prvLevel proc rollback*(tx: CoreDxTxRef) = tx.setTrackNewApi TxRollbackFn: let prvLevel {.used.} = tx.methods.levelFn() tx.methods.rollbackFn() tx.ifTrackNewApi: debug newApiTxt, api, elapsed, prvLevel proc dispose*(tx: CoreDxTxRef) = tx.setTrackNewApi TxDisposeFn: let prvLevel {.used.} = tx.methods.levelFn() tx.methods.disposeFn() tx.ifTrackNewApi: debug newApiTxt, api, elapsed, prvLevel # ------------------------------------------------------------------------------ # Public tracer methods # ------------------------------------------------------------------------------ proc newCapture*( db: CoreDbRef; flags: set[CoreDbCaptFlags] = {}; ): CoreDbRc[CoreDxCaptRef] = ## Trace constructor providing an overlay on top of the argument database ## `db`. This overlay provides a replacement database handle that can be ## retrieved via `db.recorder()` (which can in turn be ovelayed.) While ## running the overlay stores data in a log-table which can be retrieved ## via `db.logDb()`. ## ## Caveat: ## The original database argument `db` should not be used while the tracer ## is active (i.e. exists as overlay). The behaviour for this situation ## is undefined and depends on the backend implementation of the tracer. ## db.setTrackNewApi BaseNewCaptureFn result = db.methods.newCaptureFn flags db.ifTrackNewApi: debug newApiTxt, api, elapsed, result proc recorder*(cpt: CoreDxCaptRef): CoreDbRef = ## Getter, returns a tracer replacement handle to be used as new database. ## It records every action like fetch, store, hasKey, hasPath and delete. ## This descriptor can be superseded by a new overlay tracer (using ## `newCapture()`, again.) ## ## Caveat: ## Unless the desriptor `cpt` referes to the top level overlay tracer, the ## result is undefined and depends on the backend implementation of the ## tracer. ## cpt.setTrackNewApi CptRecorderFn result = cpt.methods.recorderFn() cpt.ifTrackNewApi: debug newApiTxt, api, elapsed proc logDb*(cp: CoreDxCaptRef): TableRef[Blob,Blob] = ## Getter, returns the logger table for the overlay tracer database. ## ## Caveat: ## Unless the desriptor `cpt` referes to the top level overlay tracer, the ## result is undefined and depends on the backend implementation of the ## tracer. ## cp.setTrackNewApi CptLogDbFn result = cp.methods.logDbFn() cp.ifTrackNewApi: debug newApiTxt, api, elapsed proc flags*(cp: CoreDxCaptRef):set[CoreDbCaptFlags] = ## Getter ## cp.setTrackNewApi CptFlagsFn result = cp.methods.getFlagsFn() cp.ifTrackNewApi: debug newApiTxt, api, elapsed, result proc forget*(cp: CoreDxCaptRef) = ## Explicitely stop recording the current tracer instance and reset to ## previous level. ## cp.setTrackNewApi CptForgetFn cp.methods.forgetFn() cp.ifTrackNewApi: debug newApiTxt, api, elapsed # ------------------------------------------------------------------------------ # End # ------------------------------------------------------------------------------