nimbus-eth1/nimbus/db/core_db/base.nim

848 lines
28 KiB
Nim

# 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
std/typetraits,
eth/common,
"../.."/[constants, errors],
".."/[kvt, aristo],
./backend/aristo_db,
./base/[api_tracking, base_config, base_desc, base_helpers]
export
CoreDbAccRef,
CoreDbAccount,
CoreDbApiError,
CoreDbCtxRef,
CoreDbErrorCode,
CoreDbError,
CoreDbKvtRef,
CoreDbPersistentTypes,
CoreDbRef,
CoreDbTxRef,
CoreDbType
when CoreDbEnableApiTracking:
import
chronicles
logScope:
topics = "core_db"
const
logTxt = "API"
when CoreDbEnableProfiling:
export
CoreDbFnInx,
CoreDbProfListRef
when CoreDbEnableCaptJournal:
import
./backend/aristo_trace
type
CoreDbCaptRef* = distinct TraceLogInstRef
func `$`(p: CoreDbCaptRef): string =
if p.distinctBase.isNil: "<nil>" else: "<capt>"
else:
import
../aristo/[
aristo_delete, aristo_desc, aristo_fetch, aristo_merge, aristo_part,
aristo_tx],
../kvt/[kvt_desc, kvt_utils, kvt_tx]
# ------------------------------------------------------------------------------
# Public context constructors and administration
# ------------------------------------------------------------------------------
proc ctx*(db: CoreDbRef): CoreDbCtxRef =
## Get the defauly context. This is a base descriptor which provides the
## KVT, MPT, the accounts descriptors as well as the transaction descriptor.
## They are kept all in sync, i.e. `persistent()` will store exactly this
## context.
##
db.defCtx
proc newCtxByKey*(ctx: CoreDbCtxRef; root: Hash32): CoreDbRc[CoreDbCtxRef] =
## Create new context derived from a matching transaction of the currently
## active context. If successful, the resulting context has the following
## properties:
##
## * Transaction level is 1
## * The state of the accounts column is equal to the argument `root`
##
## If successful, the resulting descriptor **must** be manually released
## with `forget()` when it is not used, anymore.
##
## Note:
## The underlying `Aristo` backend uses lazy hashing so this function
## might fail simply because there is no computed state when nesting
## the next transaction. If the previous transaction needs to be found,
## then it must called like this:
## ::
## let db = .. # Instantiate CoreDb handle
## ...
## discard db.ctx.getAccounts.state() # Compute state hash
## db.ctx.newTransaction() # Enter new transaction
##
## However, remember that unused hash computations are contle relative
## to processing time.
##
ctx.setTrackNewApi CtxNewCtxByKeyFn
result = ctx.newCtxByKey(root, $api)
ctx.ifTrackNewApi: debug logTxt, api, elapsed, root=($$root), result
proc swapCtx*(ctx: CoreDbCtxRef; db: CoreDbRef): CoreDbCtxRef =
## Activate argument context `ctx` as default and return the previously
## active context. This function goes typically together with `forget()`.
## A valid scenario might look like
## ::
## let db = .. # Instantiate CoreDb handle
## ...
## let ctx = newCtxByKey(..).expect "ctx" # Create new context
## let saved = db.swapCtx ctx # Swap context dandles
## defer: db.swapCtx(saved).forget() # Restore
## ...
##
doAssert not ctx.isNil
assert db.defCtx != ctx # debugging only
db.setTrackNewApi CtxSwapCtxFn
# Swap default context with argument `ctx`
result = db.defCtx
db.defCtx = ctx
# Set read-write access and install
CoreDbAccRef(ctx).call(reCentre, db.ctx.mpt).isOkOr:
raiseAssert $api & " failed: " & $error
CoreDbKvtRef(ctx).call(reCentre, db.ctx.kvt).isOkOr:
raiseAssert $api & " failed: " & $error
doAssert db.defCtx != result
db.ifTrackNewApi: debug logTxt, api, elapsed
proc forget*(ctx: CoreDbCtxRef) =
## Dispose `ctx` argument context and related columns created with this
## context. This function throws an exception `ctx` is the default context.
##
ctx.setTrackNewApi CtxForgetFn
doAssert ctx != ctx.parent.defCtx
CoreDbAccRef(ctx).call(forget, ctx.mpt).isOkOr:
raiseAssert $api & ": " & $error
CoreDbKvtRef(ctx).call(forget, ctx.kvt).isOkOr:
raiseAssert $api & ": " & $error
ctx.ifTrackNewApi: debug logTxt, api, elapsed
# ------------------------------------------------------------------------------
# Public base descriptor methods
# ------------------------------------------------------------------------------
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
CoreDbKvtRef(db.ctx).call(finish, db.ctx.kvt, eradicate)
CoreDbAccRef(db.ctx).call(finish, db.ctx.mpt, eradicate)
db.ifTrackNewApi: debug logTxt, api, elapsed
proc `$$`*(e: CoreDbError): string =
## Pretty print error symbol, note that this directive may have side effects
## as it calls a backend function.
##
e.toStr()
proc persistent*(
db: CoreDbRef;
blockNumber: BlockNumber;
): CoreDbRc[void] =
## This function stored cached data from the default context (see `ctx()`
## below) to the persistent database.
##
## It also stores the argument block number `blockNumber` as a state record
## which can be retrieved via `stateBlockNumber()`.
##
db.setTrackNewApi BasePersistentFn
block body:
block:
let rc = CoreDbKvtRef(db.ctx).call(persist, db.ctx.kvt)
if rc.isOk or rc.error == TxPersistDelayed:
# The latter clause is OK: Piggybacking on `Aristo` backend
discard
elif CoreDbKvtRef(db.ctx).call(level, db.ctx.kvt) != 0:
result = err(rc.error.toError($api, TxPending))
break body
else:
result = err(rc.error.toError $api)
break body
# Having reached here `Aristo` must not fail as both `Kvt` and `Aristo`
# are kept in sync. So if there is a legit fail condition it mist be
# caught in the previous clause.
CoreDbAccRef(db.ctx).call(persist, db.ctx.mpt, blockNumber).isOkOr:
raiseAssert $api & ": " & $error
result = ok()
db.ifTrackNewApi: debug logTxt, api, elapsed, blockNumber, result
proc stateBlockNumber*(db: CoreDbRef): BlockNumber =
## Rhis function returns the block number stored with the latest `persist()`
## directive.
##
db.setTrackNewApi BaseStateBlockNumberFn
result = block:
let rc = CoreDbAccRef(db.ctx).call(fetchLastSavedState, db.ctx.mpt)
if rc.isOk:
rc.value.serial.BlockNumber
else:
0u64
db.ifTrackNewApi: debug logTxt, api, elapsed, result
proc verify*(
db: CoreDbRef | CoreDbAccRef;
proof: openArray[seq[byte]];
root: Hash32;
path: openArray[byte];
): CoreDbRc[Opt[seq[byte]]] =
## This function os the counterpart of any of the `proof()` functions. Given
## the argument chain of rlp-encoded nodes `proof`, this function verifies
## that the chain represents a partial MPT starting with a root node state
## `root` followig the path `key` leading to leaf node encapsulating a
## payload which is passed back as return code.
##
## Note: The `mpt` argument is used for administative purposes (e.g. logging)
## only. The functionality is provided by the `Aristo` database
## function `aristo_part.partUntwigGeneric()` with the same prototype
## arguments except the `db`.
##
template mpt: untyped =
when db is CoreDbRef:
CoreDbAccRef(db.defCtx)
else:
db
mpt.setTrackNewApi BaseVerifyFn
result = block:
let rc = mpt.call(partUntwigGeneric, proof, root, path)
if rc.isOk:
ok(rc.value)
else:
err(rc.error.toError($api, ProofVerify))
mpt.ifTrackNewApi: debug logTxt, api, elapsed, result
proc verifyOk*(
db: CoreDbRef | CoreDbAccRef;
proof: openArray[seq[byte]];
root: Hash32;
path: openArray[byte];
payload: Opt[seq[byte]];
): CoreDbRc[void] =
## Variant of `verify()` which directly checks the argument `payload`
## against what would be the return code in `verify()`.
##
template mpt: untyped =
when db is CoreDbRef:
CoreDbAccRef(db.defCtx)
else:
db
mpt.setTrackNewApi BaseVerifyOkFn
result = block:
let rc = mpt.call(partUntwigGenericOk, proof, root, path, payload)
if rc.isOk:
ok()
else:
err(rc.error.toError($api, ProofVerify))
mpt.ifTrackNewApi: debug logTxt, api, elapsed, result
proc verify*(
db: CoreDbRef | CoreDbAccRef;
proof: openArray[seq[byte]];
root: Hash32;
path: Hash32;
): CoreDbRc[Opt[seq[byte]]] =
## Variant of `verify()`.
template mpt: untyped =
when db is CoreDbRef:
CoreDbAccRef(db.defCtx)
else:
db
mpt.setTrackNewApi BaseVerifyFn
result = block:
let rc = mpt.call(partUntwigPath, proof, root, path)
if rc.isOk:
ok(rc.value)
else:
err(rc.error.toError($api, ProofVerify))
mpt.ifTrackNewApi: debug logTxt, api, elapsed, result
proc verifyOk*(
db: CoreDbRef | CoreDbAccRef;
proof: openArray[seq[byte]];
root: Hash32;
path: Hash32;
payload: Opt[seq[byte]];
): CoreDbRc[void] =
## Variant of `verifyOk()`.
template mpt: untyped =
when db is CoreDbRef:
CoreDbAccRef(db.defCtx)
else:
db
mpt.setTrackNewApi BaseVerifyOkFn
result = block:
let rc = mpt.call(partUntwigPathOk, proof, root, path, payload)
if rc.isOk:
ok()
else:
err(rc.error.toError($api, ProofVerify))
mpt.ifTrackNewApi: debug logTxt, api, elapsed, result
# ------------------------------------------------------------------------------
# Public key-value table methods
# ------------------------------------------------------------------------------
proc getKvt*(ctx: CoreDbCtxRef): CoreDbKvtRef =
## This function retrieves the common base object shared with other KVT
## descriptors. Any changes are immediately visible to subscribers.
## On destruction (when the constructed object gets out of scope), changes
## are not saved to the backend database but are still cached and available.
##
CoreDbKvtRef(ctx)
# ----------- KVT ---------------
proc get*(kvt: CoreDbKvtRef; key: openArray[byte]): CoreDbRc[seq[byte]] =
## This function always returns a non-empty `seq[byte]` or an error code.
kvt.setTrackNewApi KvtGetFn
result = block:
let rc = kvt.call(get, kvt.kvt, key)
if rc.isOk:
ok(rc.value)
elif rc.error == GetNotFound:
err(rc.error.toError($api, KvtNotFound))
else:
err(rc.error.toError $api)
kvt.ifTrackNewApi: debug logTxt, api, elapsed, key=key.toStr, result
proc getOrEmpty*(kvt: CoreDbKvtRef; key: openArray[byte]): CoreDbRc[seq[byte]] =
## Variant of `get()` returning an empty `seq[byte]` if the key is not found
## on the database.
##
kvt.setTrackNewApi KvtGetOrEmptyFn
result = block:
let rc = kvt.call(get, kvt.kvt, key)
if rc.isOk:
ok(rc.value)
elif rc.error == GetNotFound:
CoreDbRc[seq[byte]].ok(EmptyBlob)
else:
err(rc.error.toError $api)
kvt.ifTrackNewApi: debug logTxt, api, elapsed, key=key.toStr, result
proc len*(kvt: CoreDbKvtRef; key: openArray[byte]): CoreDbRc[int] =
## This function returns the size of the value associated with `key`.
kvt.setTrackNewApi KvtLenFn
result = block:
let rc = kvt.call(len, kvt.kvt, key)
if rc.isOk:
ok(rc.value)
elif rc.error == GetNotFound:
err(rc.error.toError($api, KvtNotFound))
else:
err(rc.error.toError $api)
kvt.ifTrackNewApi: debug logTxt, api, elapsed, key=key.toStr, result
proc del*(kvt: CoreDbKvtRef; key: openArray[byte]): CoreDbRc[void] =
kvt.setTrackNewApi KvtDelFn
result = block:
let rc = kvt.call(del, kvt.kvt, key)
if rc.isOk:
ok()
else:
err(rc.error.toError $api)
kvt.ifTrackNewApi: debug logTxt, api, elapsed, key=key.toStr, result
proc put*(
kvt: CoreDbKvtRef;
key: openArray[byte];
val: openArray[byte];
): CoreDbRc[void] =
kvt.setTrackNewApi KvtPutFn
result = block:
let rc = kvt.call(put, kvt.kvt, key, val)
if rc.isOk:
ok()
else:
err(rc.error.toError $api)
kvt.ifTrackNewApi:
debug logTxt, api, elapsed, key=key.toStr, val=val.toLenStr, result
proc hasKeyRc*(kvt: CoreDbKvtRef; key: openArray[byte]): CoreDbRc[bool] =
## For the argument `key` return `true` if `get()` returned a value on
## that argument, `false` if it returned `GetNotFound`, and an error
## otherwise.
##
kvt.setTrackNewApi KvtHasKeyRcFn
result = block:
let rc = kvt.call(hasKeyRc, kvt.kvt, key)
if rc.isOk:
ok(rc.value)
else:
err(rc.error.toError $api)
kvt.ifTrackNewApi: debug logTxt, api, elapsed, key=key.toStr, result
proc hasKey*(kvt: CoreDbKvtRef; key: openArray[byte]): bool =
## Simplified version of `hasKeyRc` where `false` is returned instead of
## an error.
##
## This function prototype is in line with the `hasKey` function for
## `Tables`.
##
kvt.setTrackNewApi KvtHasKeyFn
result = kvt.call(hasKeyRc, kvt.kvt, key).valueOr: false
kvt.ifTrackNewApi: debug logTxt, api, elapsed, key=key.toStr, result
# ------------------------------------------------------------------------------
# Public methods for accounts
# ------------------------------------------------------------------------------
proc getAccounts*(ctx: CoreDbCtxRef): CoreDbAccRef =
## Accounts column constructor, will defect on failure.
##
ctx.setTrackNewApi CtxGetAccountsFn
result = CoreDbAccRef(ctx)
ctx.ifTrackNewApi: debug logTxt, api, elapsed
# ----------- accounts ---------------
proc proof*(
acc: CoreDbAccRef;
accPath: Hash32;
): CoreDbRc[(seq[seq[byte]],bool)] =
## On the accounts MPT, collect the nodes along the `accPath` interpreted as
## path. Return these path nodes as a chain of rlp-encoded blobs followed
## by a bool value which is `true` if the `key` path exists in the database,
## and `false` otherwise. In the latter case, the chain of rlp-encoded blobs
## are the nodes proving that the `key` path does not exist.
##
acc.setTrackNewApi AccProofFn
result = block:
let rc = acc.call(partAccountTwig, acc.mpt, accPath)
if rc.isOk:
ok(rc.value)
else:
err(rc.error.toError($api, ProofCreate))
acc.ifTrackNewApi: debug logTxt, api, elapsed, result
proc fetch*(
acc: CoreDbAccRef;
accPath: Hash32;
): CoreDbRc[CoreDbAccount] =
## Fetch the account data record for the particular account indexed by
## the key `accPath`.
##
acc.setTrackNewApi AccFetchFn
result = block:
let rc = acc.call(fetchAccountRecord, acc.mpt, accPath)
if rc.isOk:
ok(rc.value)
elif rc.error == FetchPathNotFound:
err(rc.error.toError($api, AccNotFound))
else:
err(rc.error.toError $api)
acc.ifTrackNewApi: debug logTxt, api, elapsed, accPath=($$accPath), result
proc delete*(
acc: CoreDbAccRef;
accPath: Hash32;
): CoreDbRc[void] =
## Delete the particular account indexed by the key `accPath`. This
## will also destroy an associated storage area.
##
acc.setTrackNewApi AccDeleteFn
result = block:
let rc = acc.call(deleteAccountRecord, acc.mpt, accPath)
if rc.isOk:
ok()
elif rc.error == DelPathNotFound:
# TODO: Would it be conseqient to just return `ok()` here?
err(rc.error.toError($api, AccNotFound))
else:
err(rc.error.toError $api)
acc.ifTrackNewApi:
debug logTxt, api, elapsed, accPath=($$accPath), result
proc clearStorage*(
acc: CoreDbAccRef;
accPath: Hash32;
): CoreDbRc[void] =
## Delete all data slots from the storage area associated with the
## particular account indexed by the key `accPath`.
##
acc.setTrackNewApi AccClearStorageFn
result = block:
let rc = acc.call(deleteStorageTree, acc.mpt, accPath)
if rc.isOk or rc.error in {DelStoRootMissing,DelStoAccMissing}:
ok()
else:
err(rc.error.toError $api)
acc.ifTrackNewApi:
debug logTxt, api, elapsed, accPath=($$accPath), result
proc merge*(
acc: CoreDbAccRef;
accPath: Hash32;
accRec: CoreDbAccount;
): CoreDbRc[void] =
## Add or update the argument account data record `account`. Note that the
## `account` argument uniquely idendifies the particular account address.
##
acc.setTrackNewApi AccMergeFn
result = block:
let rc = acc.call(mergeAccountRecord, acc.mpt, accPath, accRec)
if rc.isOk:
ok()
else:
err(rc.error.toError $api)
acc.ifTrackNewApi:
debug logTxt, api, elapsed, accPath=($$accPath), result
proc hasPath*(
acc: CoreDbAccRef;
accPath: Hash32;
): CoreDbRc[bool] =
## Would be named `contains` if it returned `bool` rather than `Result[]`.
##
acc.setTrackNewApi AccHasPathFn
result = block:
let rc = acc.call(hasPathAccount, acc.mpt, accPath)
if rc.isOk:
ok(rc.value)
else:
err(rc.error.toError $api)
acc.ifTrackNewApi:
debug logTxt, api, elapsed, accPath=($$accPath), result
proc stateRoot*(acc: CoreDbAccRef; updateOk = false): CoreDbRc[Hash32] =
## This function retrieves the Merkle state hash of the accounts
## column (if available.)
##
## If the argument `updateOk` is set `true`, the Merkle hashes of the
## database will be updated first (if needed, at all).
##
acc.setTrackNewApi AccStateFn
result = block:
let rc = acc.call(fetchAccountStateRoot, acc.mpt, updateOk)
if rc.isOk:
ok(rc.value)
else:
err(rc.error.toError $api)
acc.ifTrackNewApi: debug logTxt, api, elapsed, updateOK, result
# ------------ storage ---------------
proc slotProof*(
acc: CoreDbAccRef;
accPath: Hash32;
stoPath: Hash32;
): CoreDbRc[(seq[seq[byte]],bool)] =
## On the storage MPT related to the argument account `acPath`, collect the
## nodes along the `stoPath` interpreted as path. Return these path nodes as
## a chain of rlp-encoded blobs followed by a bool value which is `true` if
## the `key` path exists in the database, and `false` otherwise. In the
## latter case, the chain of rlp-encoded blobs are the nodes proving that
## the `key` path does not exist.
##
## Note that the function always returns an error unless the `accPath` is
## valid.
##
acc.setTrackNewApi AccSlotProofFn
result = block:
let rc = acc.call(partStorageTwig, acc.mpt, accPath, stoPath)
if rc.isOk:
ok(rc.value)
else:
err(rc.error.toError($api, ProofCreate))
acc.ifTrackNewApi: debug logTxt, api, elapsed, result
proc slotFetch*(
acc: CoreDbAccRef;
accPath: Hash32;
stoPath: Hash32;
): CoreDbRc[UInt256] =
## Like `fetch()` but with cascaded index `(accPath,slot)`.
acc.setTrackNewApi AccSlotFetchFn
result = block:
let rc = acc.call(fetchStorageData, acc.mpt, accPath, stoPath)
if rc.isOk:
ok(rc.value)
elif rc.error == FetchPathNotFound:
err(rc.error.toError($api, StoNotFound))
else:
err(rc.error.toError $api)
acc.ifTrackNewApi:
debug logTxt, api, elapsed, accPath=($$accPath),
stoPath=($$stoPath), result
proc slotDelete*(
acc: CoreDbAccRef;
accPath: Hash32;
stoPath: Hash32;
): CoreDbRc[void] =
## Like `delete()` but with cascaded index `(accPath,slot)`.
acc.setTrackNewApi AccSlotDeleteFn
result = block:
let rc = acc.call(deleteStorageData, acc.mpt, accPath, stoPath)
if rc.isOk or rc.error == DelStoRootMissing:
# The second `if` clause is insane but legit: A storage column was
# announced for an account but no data have been added, yet.
ok()
elif rc.error == DelPathNotFound:
err(rc.error.toError($api, StoNotFound))
else:
err(rc.error.toError $api)
acc.ifTrackNewApi:
debug logTxt, api, elapsed, accPath=($$accPath),
stoPath=($$stoPath), result
proc slotHasPath*(
acc: CoreDbAccRef;
accPath: Hash32;
stoPath: Hash32;
): CoreDbRc[bool] =
## Like `hasPath()` but with cascaded index `(accPath,slot)`.
acc.setTrackNewApi AccSlotHasPathFn
result = block:
let rc = acc.call(hasPathStorage, acc.mpt, accPath, stoPath)
if rc.isOk:
ok(rc.value)
else:
err(rc.error.toError $api)
acc.ifTrackNewApi:
debug logTxt, api, elapsed, accPath=($$accPath),
stoPath=($$stoPath), result
proc slotMerge*(
acc: CoreDbAccRef;
accPath: Hash32;
stoPath: Hash32;
stoData: UInt256;
): CoreDbRc[void] =
## Like `merge()` but with cascaded index `(accPath,slot)`.
acc.setTrackNewApi AccSlotMergeFn
result = block:
let rc = acc.call(mergeStorageData, acc.mpt, accPath, stoPath, stoData)
if rc.isOk:
ok()
else:
err(rc.error.toError $api)
acc.ifTrackNewApi:
debug logTxt, api, elapsed, accPath=($$accPath),
stoPath=($$stoPath), stoData, result
proc slotState*(
acc: CoreDbAccRef;
accPath: Hash32;
updateOk = false;
): CoreDbRc[Hash32] =
## This function retrieves the Merkle state hash of the storage data
## column (if available) related to the account indexed by the key
## `accPath`.`.
##
## If the argument `updateOk` is set `true`, the Merkle hashes of the
## database will be updated first (if needed, at all).
##
acc.setTrackNewApi AccSlotStateFn
result = block:
let rc = acc.call(fetchStorageRoot, acc.mpt, accPath, updateOk)
if rc.isOk:
ok(rc.value)
else:
err(rc.error.toError $api)
acc.ifTrackNewApi:
debug logTxt, api, elapsed, accPath=($$accPath), updateOk, result
proc slotStateEmpty*(
acc: CoreDbAccRef;
accPath: Hash32;
): CoreDbRc[bool] =
## This function returns `true` if the storage data column is empty or
## missing.
##
acc.setTrackNewApi AccSlotStateEmptyFn
result = block:
let rc = acc.call(hasStorageData, acc.mpt, accPath)
if rc.isOk:
ok(not rc.value)
else:
err(rc.error.toError $api)
acc.ifTrackNewApi:
debug logTxt, api, elapsed, accPath=($$accPath), result
proc slotStateEmptyOrVoid*(
acc: CoreDbAccRef;
accPath: Hash32;
): bool =
## Convenience wrapper, returns `true` where `slotStateEmpty()` would fail.
acc.setTrackNewApi AccSlotStateEmptyOrVoidFn
result = block:
let rc = acc.call(hasStorageData, acc.mpt, accPath)
if rc.isOk:
not rc.value
else:
true
acc.ifTrackNewApi:
debug logTxt, api, elapsed, accPath=($$accPath), result
# ------------- other ----------------
proc recast*(
acc: CoreDbAccRef;
accPath: Hash32;
accRec: CoreDbAccount;
updateOk = false;
): CoreDbRc[Account] =
## Complete the argument `accRec` to the portable Ethereum representation
## of an account statement. This conversion may fail if the storage colState
## hash (see `slotState()` above) is currently unavailable.
##
acc.setTrackNewApi AccRecastFn
let rc = acc.call(fetchStorageRoot, acc.mpt, accPath, updateOk)
result = block:
if rc.isOk:
ok Account(
nonce: accRec.nonce,
balance: accRec.balance,
codeHash: accRec.codeHash,
storageRoot: rc.value)
else:
err(rc.error.toError $api)
acc.ifTrackNewApi:
let slotState = if rc.isOk: $$(rc.value) else: "n/a"
debug logTxt, api, elapsed, accPath=($$accPath), slotState, result
# ------------------------------------------------------------------------------
# Public transaction related methods
# ------------------------------------------------------------------------------
proc level*(db: CoreDbRef): int =
## Retrieve transaction level (zero if there is no pending transaction).
##
db.setTrackNewApi BaseLevelFn
result = CoreDbAccRef(db.ctx).call(level, db.ctx.mpt)
db.ifTrackNewApi: debug logTxt, api, elapsed, result
proc newTransaction*(ctx: CoreDbCtxRef): CoreDbTxRef =
## Constructor
##
ctx.setTrackNewApi BaseNewTxFn
let
kTx = CoreDbKvtRef(ctx).call(txBegin, ctx.kvt).valueOr:
raiseAssert $api & ": " & $error
aTx = CoreDbAccRef(ctx).call(txBegin, ctx.mpt).valueOr:
raiseAssert $api & ": " & $error
result = ctx.bless CoreDbTxRef(kTx: kTx, aTx: aTx)
ctx.ifTrackNewApi:
let newLevel = CoreDbAccRef(ctx).call(level, ctx.mpt)
debug logTxt, api, elapsed, newLevel
proc level*(tx: CoreDbTxRef): int =
## Print positive transaction level for argument `tx`
##
tx.setTrackNewApi TxLevelFn
result = CoreDbAccRef(tx.ctx).call(txLevel, tx.aTx)
tx.ifTrackNewApi: debug logTxt, api, elapsed, result
proc commit*(tx: CoreDbTxRef) =
tx.setTrackNewApi TxCommitFn:
let prvLevel {.used.} = CoreDbAccRef(tx.ctx).call(txLevel, tx.aTx)
CoreDbAccRef(tx.ctx).call(commit, tx.aTx).isOkOr:
raiseAssert $api & ": " & $error
CoreDbKvtRef(tx.ctx).call(commit, tx.kTx).isOkOr:
raiseAssert $api & ": " & $error
tx.ifTrackNewApi: debug logTxt, api, elapsed, prvLevel
proc rollback*(tx: CoreDbTxRef) =
tx.setTrackNewApi TxRollbackFn:
let prvLevel {.used.} = CoreDbAccRef(tx.ctx).call(txLevel, tx.aTx)
CoreDbAccRef(tx.ctx).call(rollback, tx.aTx).isOkOr:
raiseAssert $api & ": " & $error
CoreDbKvtRef(tx.ctx).call(rollback, tx.kTx).isOkOr:
raiseAssert $api & ": " & $error
tx.ifTrackNewApi: debug logTxt, api, elapsed, prvLevel
proc dispose*(tx: CoreDbTxRef) =
tx.setTrackNewApi TxDisposeFn:
let prvLevel {.used.} = CoreDbAccRef(tx.ctx).call(txLevel, tx.aTx)
if CoreDbAccRef(tx.ctx).call(isTop, tx.aTx):
CoreDbAccRef(tx.ctx).call(rollback, tx.aTx).isOkOr:
raiseAssert $api & ": " & $error
if CoreDbKvtRef(tx.ctx).call(isTop, tx.kTx):
CoreDbKvtRef(tx.ctx).call(rollback, tx.kTx).isOkOr:
raiseAssert $api & ": " & $error
tx.ifTrackNewApi: debug logTxt, api, elapsed, prvLevel
# ------------------------------------------------------------------------------
# Public tracer methods
# ------------------------------------------------------------------------------
when CoreDbEnableCaptJournal:
proc pushCapture*(db: CoreDbRef): CoreDbCaptRef =
## ..
##
db.setTrackNewApi BasePushCaptureFn
if db.tracerHook.isNil:
db.tracerHook = TraceRecorderRef.init(db)
else:
TraceRecorderRef(db.tracerHook).push()
result = TraceRecorderRef(db.tracerHook).topInst().CoreDbCaptRef
db.ifTrackNewApi: debug logTxt, api, elapsed, result
proc level*(cpt: CoreDbCaptRef): int =
## Getter, returns the positive number of stacked instances.
##
let log = cpt.distinctBase
log.db.setTrackNewApi CptLevelFn
result = log.level()
log.db.ifTrackNewApi: debug logTxt, api, elapsed, result
proc kvtLog*(cpt: CoreDbCaptRef): seq[(seq[byte],seq[byte])] =
## Getter, returns the `Kvt` logger list for the argument instance.
##
let log = cpt.distinctBase
log.db.setTrackNewApi CptKvtLogFn
result = log.kvtLogBlobs()
log.db.ifTrackNewApi: debug logTxt, api, elapsed
proc pop*(cpt: CoreDbCaptRef) =
## Explicitely stop recording the current tracer instance and reset to
## previous level.
##
let db = cpt.distinctBase.db
db.setTrackNewApi CptPopFn
if not cpt.distinctBase.pop():
TraceRecorderRef(db.tracerHook).restore()
db.tracerHook = TraceRecorderRef(nil)
db.ifTrackNewApi: debug logTxt, api, elapsed, cpt
proc stopCapture*(db: CoreDbRef) =
## Discard capture instances. This function is equivalent to `pop()`-ing
## all instances.
##
db.setTrackNewApi CptStopCaptureFn
if not db.tracerHook.isNil:
TraceRecorderRef(db.tracerHook).restore()
db.tracerHook = TraceRecorderRef(nil)
db.ifTrackNewApi: debug logTxt, api, elapsed
# ------------------------------------------------------------------------------
# End
# ------------------------------------------------------------------------------