nimbus-eth2/beacon_chain/beacon_chain_db.nim

1128 lines
43 KiB
Nim

# beacon_chain
# Copyright (c) 2018-2022 Status Research & Development GmbH
# Licensed and distributed under either of
# * MIT license (license terms in the root directory or at https://opensource.org/licenses/MIT).
# * Apache v2 license (license terms in the root directory or at https://www.apache.org/licenses/LICENSE-2.0).
# at your option. This file may not be copied, modified, or distributed except according to those terms.
{.push raises: [Defect].}
import
std/[typetraits, tables],
stew/[arrayops, assign2, byteutils, endians2, io2, objects, results],
serialization, chronicles, snappy,
eth/db/[kvstore, kvstore_sqlite3],
./networking/network_metadata, ./beacon_chain_db_immutable,
./spec/[eth2_ssz_serialization, eth2_merkleization, forks, state_transition],
./spec/datatypes/[phase0, altair, bellatrix],
./filepath
export
phase0, altair, eth2_ssz_serialization, eth2_merkleization, kvstore,
kvstore_sqlite3
logScope: topics = "bc_db"
type
DbSeq*[T] = object
insertStmt: SqliteStmt[openArray[byte], void]
selectStmt: SqliteStmt[int64, openArray[byte]]
recordCount: int64
FinalizedBlocks* = object
# A sparse version of DbSeq - can have holes but not duplicate entries
insertStmt: SqliteStmt[(int64, array[32, byte]), void]
selectStmt: SqliteStmt[int64, array[32, byte]]
selectAllStmt: SqliteStmt[NoParams, (int64, array[32, byte])]
low*: Opt[Slot]
high*: Opt[Slot]
DepositsSeq = DbSeq[DepositData]
DepositContractSnapshot* = object
eth1Block*: Eth2Digest
depositContractState*: DepositContractState
BeaconChainDBV0* = ref object
## BeaconChainDBV0 based on old kvstore table that sets the WITHOUT ROWID
## option which becomes unbearably slow with large blobs. It is used as a
## read-only store to support old versions - by freezing it at its current
## data set, downgrading remains possible since it's no longer touched -
## anyone downgrading will have to sync up whatever they missed.
##
## Newer versions read from the new tables first - if the data is not found,
## they turn to the old tables for reading. Writing is done only to the new
## tables.
##
## V0 stored most data in a single table, prefixing each key with a tag
## identifying the type of data.
##
## 1.1 introduced BeaconStateNoImmutableValidators storage where immutable
## validator data is stored in a separate table and only a partial
## BeaconState is written to kvstore
##
## 1.2 moved BeaconStateNoImmutableValidators to a separate table to
## alleviate some of the btree balancing issues - this doubled the speed but
## was still
##
## 1.3 creates `kvstore` with rowid, making it quite fast, but doesn't do
## anything about existing databases. Versions after that use a separate
## file instead (V1)
backend: KvStoreRef # kvstore
stateStore: KvStoreRef # state_no_validators
BeaconChainDB* = ref object
## Database storing resolved blocks and states - resolved blocks are such
## blocks that form a chain back to the tail block.
##
## We assume that the database backend is working / not corrupt - as such,
## we will raise a Defect any time there is an issue. This should be
## revisited in the future, when/if the calling code safely can handle
## corruption of this kind.
##
## The database follows an "mostly-consistent" model where it's possible
## that some data has been lost to crashes and restarts - for example,
## the state root table might contain entries that don't lead to a state
## etc - this makes it easier to defer certain operations such as pruning
## and cleanup, but also means that some amount of "junk" is left behind
## when the application is restarted or crashes in the wrong moment.
##
## Generally, sqlite performs a commit at the end of every write, meaning
## that data write order is respected - the strategy thus becomes to write
## bulk data first, then update pointers like the `head root` entry.
db*: SqStoreRef
v0: BeaconChainDBV0
genesisDeposits*: DepositsSeq
# immutableValidatorsDb only stores the total count; it's a proxy for SQL
# queries.
immutableValidatorsDb*: DbSeq[ImmutableValidatorDataDb2]
immutableValidators*: seq[ImmutableValidatorData2]
checkpoint*: proc() {.gcsafe, raises: [Defect].}
keyValues: KvStoreRef # Random stuff using DbKeyKind - suitable for small values mainly!
blocks: KvStoreRef # BlockRoot -> phase0.TrustedBeaconBlock
altairBlocks: KvStoreRef # BlockRoot -> altair.TrustedBeaconBlock
mergeBlocks: KvStoreRef # BlockRoot -> bellatrix.TrustedBeaconBlock
stateRoots: KvStoreRef # (Slot, BlockRoot) -> StateRoot
statesNoVal: KvStoreRef # StateRoot -> Phase0BeaconStateNoImmutableValidators
altairStatesNoVal: KvStoreRef # StateRoot -> AltairBeaconStateNoImmutableValidators
mergeStatesNoVal: KvStoreRef # StateRoot -> MergeBeaconStateNoImmutableValidators
stateDiffs: KvStoreRef ##\
## StateRoot -> BeaconStateDiff
## Instead of storing full BeaconStates, one can store only the diff from
## a different state. As 75% of a typical BeaconState's serialized form's
## the validators, which are mostly immutable and append-only, just using
## a simple append-diff representation helps significantly. Various roots
## are stored in a mod-increment pattern across fixed-sized arrays, which
## addresses most of the rest of the BeaconState sizes.
summaries: KvStoreRef # BlockRoot -> BeaconBlockSummary
finalizedBlocks*: FinalizedBlocks
DbKeyKind = enum
kHashToState
kHashToBlock
kHeadBlock
## Pointer to the most recent block selected by the fork choice
kTailBlock
## Pointer to the earliest finalized block - this is the genesis block when
## the chain starts, but might advance as the database gets pruned
## TODO: determine how aggressively the database should be pruned. For a
## healthy network sync, we probably need to store blocks at least
## past the weak subjectivity period.
kBlockSlotStateRoot
## BlockSlot -> state_root mapping
kGenesisBlock
## Immutable reference to the network genesis state
## (needed for satisfying requests to the beacon node API).
kEth1PersistedTo # Obsolete
kDepositsFinalizedByEth1 # Obsolete
kDepositsFinalizedByEth2
## A merkleizer checkpoint used for computing merkle proofs of
## deposits added to Eth2 blocks (it may lag behind the finalized
## eth1 deposits checkpoint).
kHashToBlockSummary # Block summaries for fast startup
kSpeculativeDeposits
## A merkelizer checkpoint created on the basis of deposit events
## that we were not able to verify against a `deposit_root` served
## by the web3 provider. This may happen on Geth nodes that serve
## only recent contract state data (i.e. only recent `deposit_roots`).
kHashToStateDiff # Obsolete
kHashToStateOnlyMutableValidators
kBackfillBlock # Obsolete, was in `unstable` for a while, but never released
BeaconBlockSummary* = object
## Cache of beacon block summaries - during startup when we construct the
## chain dag, loading full blocks takes a lot of time - the block
## summary contains a minimal snapshot of what's needed to instanciate
## the BlockRef tree.
slot*: Slot
parent_root*: Eth2Digest
const
# The largest object we're saving is the BeaconState, and by far, the largest
# part of it is the validator - each validator takes up at least 129 bytes
# in phase0, which means 100k validators is >12mb - in addition to this,
# there are several MB of hashes.
maxDecompressedDbRecordSize = 64*1024*1024
# Subkeys essentially create "tables" within the key-value store by prefixing
# each entry with a table id
func subkey(kind: DbKeyKind): array[1, byte] =
result[0] = byte ord(kind)
func subkey[N: static int](kind: DbKeyKind, key: array[N, byte]):
array[N + 1, byte] =
result[0] = byte ord(kind)
result[1 .. ^1] = key
func subkey(kind: type phase0.BeaconState, key: Eth2Digest): auto =
subkey(kHashToState, key.data)
func subkey(
kind: type Phase0BeaconStateNoImmutableValidators, key: Eth2Digest): auto =
subkey(kHashToStateOnlyMutableValidators, key.data)
func subkey(kind: type phase0.SignedBeaconBlock, key: Eth2Digest): auto =
subkey(kHashToBlock, key.data)
func subkey(kind: type BeaconBlockSummary, key: Eth2Digest): auto =
subkey(kHashToBlockSummary, key.data)
func subkey(root: Eth2Digest, slot: Slot): array[40, byte] =
var ret: array[40, byte]
# big endian to get a naturally ascending order on slots in sorted indices
ret[0..<8] = toBytesBE(slot.uint64)
# .. but 7 bytes should be enough for slots - in return, we get a nicely
# rounded key length
ret[0] = byte ord(kBlockSlotStateRoot)
ret[8..<40] = root.data
ret
template panic =
# TODO(zah): Could we recover from a corrupted database?
# Review all usages.
raiseAssert "The database should not be corrupted"
template expectDb(x: auto): untyped =
# There's no meaningful error handling implemented for a corrupt database or
# full disk - this requires manual intervention, so we'll panic for now
x.expect("working database (disk broken/full?)")
proc init*[T](Seq: type DbSeq[T], db: SqStoreRef, name: string): KvResult[Seq] =
? db.exec("""
CREATE TABLE IF NOT EXISTS """ & name & """(
id INTEGER PRIMARY KEY,
value BLOB
);
""")
let
insertStmt = db.prepareStmt(
"INSERT INTO " & name & "(value) VALUES (?);",
openArray[byte], void, managed = false).expect("this is a valid statement")
selectStmt = db.prepareStmt(
"SELECT value FROM " & name & " WHERE id = ?;",
int64, openArray[byte], managed = false).expect("this is a valid statement")
countStmt = db.prepareStmt(
"SELECT COUNT(1) FROM " & name & ";",
NoParams, int64, managed = false).expect("this is a valid statement")
var recordCount = int64 0
let countQueryRes = countStmt.exec do (res: int64):
recordCount = res
let found = ? countQueryRes
if not found:
return err("Cannot count existing items")
countStmt.dispose()
ok(Seq(insertStmt: insertStmt,
selectStmt: selectStmt,
recordCount: recordCount))
proc close*(s: DbSeq) =
s.insertStmt.dispose()
s.selectStmt.dispose()
proc add*[T](s: var DbSeq[T], val: T) =
var bytes = SSZ.encode(val)
s.insertStmt.exec(bytes).expectDb()
inc s.recordCount
template len*[T](s: DbSeq[T]): int64 =
s.recordCount
proc get*[T](s: DbSeq[T], idx: int64): T =
# This is used only locally
let resultAddr = addr result
let queryRes = s.selectStmt.exec(idx + 1) do (recordBytes: openArray[byte]):
try:
resultAddr[] = decode(SSZ, recordBytes, T)
except SerializationError:
panic()
let found = queryRes.expectDb()
if not found: panic()
proc init*(T: type FinalizedBlocks, db: SqStoreRef, name: string): KvResult[T] =
? db.exec("""
CREATE TABLE IF NOT EXISTS """ & name & """(
id INTEGER PRIMARY KEY,
value BLOB NOT NULL
);
""")
let
insertStmt = db.prepareStmt(
"REPLACE INTO " & name & "(id, value) VALUES (?, ?);",
(int64, array[32, byte]), void, managed = false).expect("this is a valid statement")
selectStmt = db.prepareStmt(
"SELECT value FROM " & name & " WHERE id = ?;",
int64, array[32, byte], managed = false).expect("this is a valid statement")
selectAllStmt = db.prepareStmt(
"SELECT id, value FROM " & name & " ORDER BY id;",
NoParams, (int64, array[32, byte]), managed = false).expect("this is a valid statement")
maxIdStmt = db.prepareStmt(
"SELECT MAX(id) FROM " & name & ";",
NoParams, Option[int64], managed = false).expect("this is a valid statement")
minIdStmt = db.prepareStmt(
"SELECT MIN(id) FROM " & name & ";",
NoParams, Option[int64], managed = false).expect("this is a valid statement")
var
low, high: Opt[Slot]
tmp: Option[int64]
for rowRes in minIdStmt.exec(tmp):
expectDb rowRes
if tmp.isSome():
low.ok(Slot(tmp.get()))
for rowRes in maxIdStmt.exec(tmp):
expectDb rowRes
if tmp.isSome():
high.ok(Slot(tmp.get()))
maxIdStmt.dispose()
minIdStmt.dispose()
ok(T(insertStmt: insertStmt,
selectStmt: selectStmt,
selectAllStmt: selectAllStmt,
low: low,
high: high))
proc close*(s: FinalizedBlocks) =
s.insertStmt.dispose()
s.selectStmt.dispose()
s.selectAllStmt.dispose()
proc insert*(s: var FinalizedBlocks, slot: Slot, val: Eth2Digest) =
doAssert slot.uint64 < int64.high.uint64, "Only reasonable slots supported"
s.insertStmt.exec((slot.int64, val.data)).expectDb()
s.low.ok(min(slot, s.low.get(slot)))
s.high.ok(max(slot, s.high.get(slot)))
proc get*(s: FinalizedBlocks, idx: Slot): Opt[Eth2Digest] =
var row: s.selectStmt.Result
for rowRes in s.selectStmt.exec(int64(idx), row):
expectDb rowRes
return ok(Eth2Digest(data: row))
err()
iterator pairs*(s: FinalizedBlocks): (Slot, Eth2Digest) =
var row: s.selectAllStmt.Result
for rowRes in s.selectAllStmt.exec(row):
expectDb rowRes
yield (Slot(row[0]), Eth2Digest(data: row[1]))
proc loadImmutableValidators(vals: DbSeq[ImmutableValidatorDataDb2]): seq[ImmutableValidatorData2] =
result = newSeqOfCap[ImmutableValidatorData2](vals.len())
for i in 0 ..< vals.len:
let tmp = vals.get(i)
result.add ImmutableValidatorData2(
pubkey: tmp.pubkey.loadValid(),
withdrawal_credentials: tmp.withdrawal_credentials)
template withManyWrites*(dbParam: BeaconChainDB, body: untyped) =
# We don't enforce strong ordering or atomicity requirements in the beacon
# chain db in general, relying instead on readers to be able to deal with
# minor inconsistencies - however, putting writes in a transaction is orders
# of magnitude faster when doing many small writes, so we use this as an
# optimization technique and the templace is named accordingly.
let db = dbParam
expectDb db.db.exec("BEGIN TRANSACTION;")
var commit = false
try:
body
commit = true
finally:
if commit:
expectDb db.db.exec("COMMIT TRANSACTION;")
else:
expectDb db.db.exec("ROLLBACK TRANSACTION;")
proc new*(T: type BeaconChainDB,
dir: string,
inMemory = false,
readOnly = false
): BeaconChainDB =
var db = if inMemory:
SqStoreRef.init("", "test", readOnly = readOnly, inMemory = true).expect(
"working database (out of memory?)")
else:
let s = secureCreatePath(dir)
doAssert s.isOk # TODO(zah) Handle this in a better way
SqStoreRef.init(
dir, "nbc", readOnly = readOnly, manualCheckpoint = true).expectDb()
if not readOnly:
# Remove the deposits table we used before we switched
# to storing only deposit contract checkpoints
if db.exec("DROP TABLE IF EXISTS deposits;").isErr:
debug "Failed to drop the deposits table"
# An old pubkey->index mapping that hasn't been used on any mainnet release
if db.exec("DROP TABLE IF EXISTS validatorIndexFromPubKey;").isErr:
debug "Failed to drop the validatorIndexFromPubKey table"
var
# V0 compatibility tables - these were created WITHOUT ROWID which is slow
# for large blobs
backend = kvStore db.openKvStore().expectDb()
# state_no_validators is similar to state_no_validators2 but uses a
# different key encoding and was created WITHOUT ROWID
stateStore = kvStore db.openKvStore("state_no_validators").expectDb()
genesisDepositsSeq =
DbSeq[DepositData].init(db, "genesis_deposits").expectDb()
immutableValidatorsDb =
DbSeq[ImmutableValidatorDataDb2].init(db, "immutable_validators2").expectDb()
# V1 - expected-to-be small rows get without rowid optimizations
keyValues = kvStore db.openKvStore("key_values", true).expectDb()
blocks = kvStore db.openKvStore("blocks").expectDb()
altairBlocks = kvStore db.openKvStore("altair_blocks").expectDb()
mergeBlocks = kvStore db.openKvStore("merge_blocks").expectDb()
stateRoots = kvStore db.openKvStore("state_roots", true).expectDb()
statesNoVal = kvStore db.openKvStore("state_no_validators2").expectDb()
altairStatesNoVal = kvStore db.openKvStore("altair_state_no_validators").expectDb()
mergeStatesNoVal = kvStore db.openKvStore("merge_state_no_validators").expectDb()
stateDiffs = kvStore db.openKvStore("state_diffs").expectDb()
summaries = kvStore db.openKvStore("beacon_block_summaries", true).expectDb()
finalizedBlocks = FinalizedBlocks.init(db, "finalized_blocks").expectDb()
# `immutable_validators` stores validator keys in compressed format - this is
# slow to load and has been superceded by `immutable_validators2` which uses
# uncompressed keys instead. The migration is lossless but the old table
# should not be removed until after altair, to permit downgrades.
let immutableValidatorsDb1 =
DbSeq[ImmutableValidatorData].init(db, "immutable_validators").expectDb()
if immutableValidatorsDb.len() < immutableValidatorsDb1.len():
notice "Migrating validator keys, this may take a minute",
len = immutableValidatorsDb1.len()
while immutableValidatorsDb.len() < immutableValidatorsDb1.len():
let val = immutableValidatorsDb1.get(immutableValidatorsDb.len())
immutableValidatorsDb.add(ImmutableValidatorDataDb2(
pubkey: val.pubkey.loadValid().toUncompressed(),
withdrawal_credentials: val.withdrawal_credentials
))
immutableValidatorsDb1.close()
T(
db: db,
v0: BeaconChainDBV0(
backend: backend,
stateStore: stateStore,
),
genesisDeposits: genesisDepositsSeq,
immutableValidatorsDb: immutableValidatorsDb,
immutableValidators: loadImmutableValidators(immutableValidatorsDb),
checkpoint: proc() = db.checkpoint(),
keyValues: keyValues,
blocks: blocks,
altair_blocks: altair_blocks,
merge_blocks: merge_blocks,
stateRoots: stateRoots,
statesNoVal: statesNoVal,
altairStatesNoVal: altairStatesNoVal,
mergeStatesNoVal: mergeStatesNoVal,
stateDiffs: stateDiffs,
summaries: summaries,
finalizedBlocks: finalizedBlocks,
)
proc decodeSSZ[T](data: openArray[byte], output: var T): bool =
try:
readSszBytes(data, output, updateRoot = false)
true
except SerializationError as e:
# If the data can't be deserialized, it could be because it's from a
# version of the software that uses a different SSZ encoding
warn "Unable to deserialize data, old database?",
err = e.msg, typ = name(T), dataLen = data.len
false
proc decodeSnappySSZ[T](data: openArray[byte], output: var T): bool =
try:
let decompressed = snappy.decode(data, maxDecompressedDbRecordSize)
readSszBytes(decompressed, output, updateRoot = false)
true
except SerializationError as e:
# If the data can't be deserialized, it could be because it's from a
# version of the software that uses a different SSZ encoding
warn "Unable to deserialize data, old database?",
err = e.msg, typ = name(T), dataLen = data.len
false
proc encodeSSZ(v: auto): seq[byte] =
try:
SSZ.encode(v)
except IOError as err:
raiseAssert err.msg
proc encodeSnappySSZ(v: auto): seq[byte] =
try:
snappy.encode(SSZ.encode(v))
except CatchableError as err:
# In-memory encode shouldn't fail!
raiseAssert err.msg
proc getRaw(db: KvStoreRef, key: openArray[byte], T: type Eth2Digest): Opt[T] =
var res: Opt[T]
proc decode(data: openArray[byte]) =
if data.len == sizeof(Eth2Digest):
res.ok Eth2Digest(data: toArray(sizeof(Eth2Digest), data))
else:
# If the data can't be deserialized, it could be because it's from a
# version of the software that uses a different SSZ encoding
warn "Unable to deserialize data, old database?",
typ = name(T), dataLen = data.len
discard
discard db.get(key, decode).expectDb()
res
proc putRaw(db: KvStoreRef, key: openArray[byte], v: Eth2Digest) =
db.put(key, v.data).expectDb()
type GetResult = enum
found = "Found"
notFound = "Not found"
corrupted = "Corrupted"
proc getSSZ[T](db: KvStoreRef, key: openArray[byte], output: var T): GetResult =
var status = GetResult.notFound
# TODO address is needed because there's no way to express lifetimes in nim
# we'll use unsafeAddr to find the code later
var outputPtr = unsafeAddr output # callback is local, ptr wont escape
proc decode(data: openArray[byte]) =
status =
if decodeSSZ(data, outputPtr[]): GetResult.found
else: GetResult.corrupted
discard db.get(key, decode).expectDb()
status
proc putSSZ(db: KvStoreRef, key: openArray[byte], v: auto) =
db.put(key, encodeSSZ(v)).expectDb()
proc getSnappySSZ[T](db: KvStoreRef, key: openArray[byte], output: var T): GetResult =
var status = GetResult.notFound
# TODO address is needed because there's no way to express lifetimes in nim
# we'll use unsafeAddr to find the code later
var outputPtr = unsafeAddr output # callback is local, ptr wont escape
proc decode(data: openArray[byte]) =
status =
if decodeSnappySSZ(data, outputPtr[]): GetResult.found
else: GetResult.corrupted
discard db.get(key, decode).expectDb()
status
proc putSnappySSZ(db: KvStoreRef, key: openArray[byte], v: auto) =
db.put(key, encodeSnappySSZ(v)).expectDb()
proc close*(db: BeaconChainDBV0) =
discard db.stateStore.close()
discard db.backend.close()
proc close*(db: BeaconchainDB) =
if db.db == nil: return
# Close things in reverse order
db.finalizedBlocks.close()
discard db.summaries.close()
discard db.stateDiffs.close()
discard db.mergeStatesNoVal.close()
discard db.altairStatesNoVal.close()
discard db.statesNoVal.close()
discard db.stateRoots.close()
discard db.mergeBlocks.close()
discard db.altairBlocks.close()
discard db.blocks.close()
discard db.keyValues.close()
db.immutableValidatorsDb.close()
db.genesisDeposits.close()
db.v0.close()
db.db.close()
db.db = nil
func toBeaconBlockSummary*(v: SomeForkyBeaconBlock): BeaconBlockSummary =
BeaconBlockSummary(
slot: v.slot,
parent_root: v.parent_root,
)
proc putBeaconBlockSummary(
db: BeaconChainDB, root: Eth2Digest, value: BeaconBlockSummary) =
# Summaries are too simple / small to compress, store them as plain SSZ
db.summaries.putSSZ(root.data, value)
proc putBlock*(db: BeaconChainDB, value: phase0.TrustedSignedBeaconBlock) =
db.withManyWrites:
db.blocks.putSnappySSZ(value.root.data, value)
db.putBeaconBlockSummary(value.root, value.message.toBeaconBlockSummary())
proc putBlock*(db: BeaconChainDB, value: altair.TrustedSignedBeaconBlock) =
db.withManyWrites:
db.altairBlocks.putSnappySSZ(value.root.data, value)
db.putBeaconBlockSummary(value.root, value.message.toBeaconBlockSummary())
proc putBlock*(db: BeaconChainDB, value: bellatrix.TrustedSignedBeaconBlock) =
db.withManyWrites:
db.mergeBlocks.putSnappySSZ(value.root.data, value)
db.putBeaconBlockSummary(value.root, value.message.toBeaconBlockSummary())
proc updateImmutableValidators*(
db: BeaconChainDB, validators: openArray[Validator]) =
# Must be called before storing a state that references the new validators
let numValidators = validators.len
while db.immutableValidators.len() < numValidators:
let immutableValidator =
getImmutableValidatorData(validators[db.immutableValidators.len()])
if not db.db.readOnly:
db.immutableValidatorsDb.add ImmutableValidatorDataDb2(
pubkey: immutableValidator.pubkey.toUncompressed(),
withdrawal_credentials: immutableValidator.withdrawal_credentials)
db.immutableValidators.add immutableValidator
template toBeaconStateNoImmutableValidators(state: phase0.BeaconState):
Phase0BeaconStateNoImmutableValidators =
isomorphicCast[Phase0BeaconStateNoImmutableValidators](state)
template toBeaconStateNoImmutableValidators(state: altair.BeaconState):
AltairBeaconStateNoImmutableValidators =
isomorphicCast[AltairBeaconStateNoImmutableValidators](state)
template toBeaconStateNoImmutableValidators(state: bellatrix.BeaconState):
MergeBeaconStateNoImmutableValidators =
isomorphicCast[MergeBeaconStateNoImmutableValidators](state)
proc putState*(db: BeaconChainDB, key: Eth2Digest, value: phase0.BeaconState) =
db.updateImmutableValidators(value.validators.asSeq())
db.statesNoVal.putSnappySSZ(
key.data, toBeaconStateNoImmutableValidators(value))
proc putState*(db: BeaconChainDB, key: Eth2Digest, value: altair.BeaconState) =
db.updateImmutableValidators(value.validators.asSeq())
db.altairStatesNoVal.putSnappySSZ(
key.data, toBeaconStateNoImmutableValidators(value))
proc putState*(db: BeaconChainDB, key: Eth2Digest, value: bellatrix.BeaconState) =
db.updateImmutableValidators(value.validators.asSeq())
db.mergeStatesNoVal.putSnappySSZ(
key.data, toBeaconStateNoImmutableValidators(value))
proc putState*(db: BeaconChainDB, state: ForkyHashedBeaconState) =
db.withManyWrites:
db.putStateRoot(state.latest_block_root(), state.data.slot, state.root)
db.putState(state.root, state.data)
# For testing rollback
proc putCorruptPhase0State*(db: BeaconChainDB, key: Eth2Digest) =
db.statesNoVal.putSnappySSZ(key.data, Validator())
proc putCorruptAltairState*(db: BeaconChainDB, key: Eth2Digest) =
db.altairStatesNoVal.putSnappySSZ(key.data, Validator())
proc putCorruptMergeState*(db: BeaconChainDB, key: Eth2Digest) =
db.mergeStatesNoVal.putSnappySSZ(key.data, Validator())
func stateRootKey(root: Eth2Digest, slot: Slot): array[40, byte] =
var ret: array[40, byte]
# big endian to get a naturally ascending order on slots in sorted indices
ret[0..<8] = toBytesBE(slot.uint64)
ret[8..<40] = root.data
ret
proc putStateRoot*(db: BeaconChainDB, root: Eth2Digest, slot: Slot,
value: Eth2Digest) =
db.stateRoots.putRaw(stateRootKey(root, slot), value)
proc putStateDiff*(db: BeaconChainDB, root: Eth2Digest, value: BeaconStateDiff) =
db.stateDiffs.putSnappySSZ(root.data, value)
proc delBlock*(db: BeaconChainDB, key: Eth2Digest) =
db.withManyWrites:
db.blocks.del(key.data).expectDb()
db.altairBlocks.del(key.data).expectDb()
db.mergeBlocks.del(key.data).expectDb()
db.summaries.del(key.data).expectDb()
proc delState*(db: BeaconChainDB, key: Eth2Digest) =
db.withManyWrites:
db.statesNoVal.del(key.data).expectDb()
db.altairStatesNoVal.del(key.data).expectDb()
db.mergeStatesNoVal.del(key.data).expectDb()
proc delStateRoot*(db: BeaconChainDB, root: Eth2Digest, slot: Slot) =
db.stateRoots.del(stateRootKey(root, slot)).expectDb()
proc delStateDiff*(db: BeaconChainDB, root: Eth2Digest) =
db.stateDiffs.del(root.data).expectDb()
proc putHeadBlock*(db: BeaconChainDB, key: Eth2Digest) =
db.keyValues.putRaw(subkey(kHeadBlock), key)
proc putTailBlock*(db: BeaconChainDB, key: Eth2Digest) =
db.keyValues.putRaw(subkey(kTailBlock), key)
proc putGenesisBlock*(db: BeaconChainDB, key: Eth2Digest) =
db.keyValues.putRaw(subkey(kGenesisBlock), key)
proc putEth2FinalizedTo*(db: BeaconChainDB,
eth1Checkpoint: DepositContractSnapshot) =
db.keyValues.putSnappySSZ(subkey(kDepositsFinalizedByEth2), eth1Checkpoint)
proc getPhase0Block(db: BeaconChainDBV0, key: Eth2Digest): Opt[phase0.TrustedSignedBeaconBlock] =
# We only store blocks that we trust in the database
result.ok(default(phase0.TrustedSignedBeaconBlock))
if db.backend.getSnappySSZ(
subkey(phase0.SignedBeaconBlock, key), result.get) != GetResult.found:
result.err()
else:
# set root after deserializing (so it doesn't get zeroed)
result.get().root = key
proc getPhase0Block*(db: BeaconChainDB, key: Eth2Digest):
Opt[phase0.TrustedSignedBeaconBlock] =
# We only store blocks that we trust in the database
result.ok(default(phase0.TrustedSignedBeaconBlock))
if db.blocks.getSnappySSZ(key.data, result.get) != GetResult.found:
result = db.v0.getPhase0Block(key)
else:
# set root after deserializing (so it doesn't get zeroed)
result.get().root = key
proc getAltairBlock*(db: BeaconChainDB, key: Eth2Digest):
Opt[altair.TrustedSignedBeaconBlock] =
# We only store blocks that we trust in the database
result.ok(default(altair.TrustedSignedBeaconBlock))
if db.altairBlocks.getSnappySSZ(key.data, result.get) == GetResult.found:
# set root after deserializing (so it doesn't get zeroed)
result.get().root = key
else:
result.err()
proc getMergeBlock*(db: BeaconChainDB, key: Eth2Digest):
Opt[bellatrix.TrustedSignedBeaconBlock] =
# We only store blocks that we trust in the database
result.ok(default(bellatrix.TrustedSignedBeaconBlock))
if db.mergeBlocks.getSnappySSZ(key.data, result.get) == GetResult.found:
# set root after deserializing (so it doesn't get zeroed)
result.get().root = key
else:
result.err()
proc getPhase0BlockSSZ(db: BeaconChainDBV0, key: Eth2Digest, data: var seq[byte]): bool =
let dataPtr = unsafeAddr data # Short-lived
var success = true
proc decode(data: openArray[byte]) =
try: dataPtr[] = snappy.decode(data, maxDecompressedDbRecordSize)
except CatchableError: success = false
db.backend.get(subkey(phase0.SignedBeaconBlock, key), decode).expectDb() and success
proc getPhase0BlockSSZ*(db: BeaconChainDB, key: Eth2Digest, data: var seq[byte]): bool =
let dataPtr = unsafeAddr data # Short-lived
var success = true
proc decode(data: openArray[byte]) =
try: dataPtr[] = snappy.decode(data, maxDecompressedDbRecordSize)
except CatchableError: success = false
db.blocks.get(key.data, decode).expectDb() and success or
db.v0.getPhase0BlockSSZ(key, data)
proc getAltairBlockSSZ*(db: BeaconChainDB, key: Eth2Digest, data: var seq[byte]): bool =
let dataPtr = unsafeAddr data # Short-lived
var success = true
proc decode(data: openArray[byte]) =
try: dataPtr[] = snappy.decode(data, maxDecompressedDbRecordSize)
except CatchableError: success = false
db.altairBlocks.get(key.data, decode).expectDb() and success
proc getMergeBlockSSZ*(db: BeaconChainDB, key: Eth2Digest, data: var seq[byte]): bool =
let dataPtr = unsafeAddr data # Short-lived
var success = true
proc decode(data: openArray[byte]) =
try: dataPtr[] = snappy.decode(data, maxDecompressedDbRecordSize)
except CatchableError: success = false
db.mergeBlocks.get(key.data, decode).expectDb() and success
proc getStateOnlyMutableValidators(
immutableValidators: openArray[ImmutableValidatorData2],
store: KvStoreRef, key: openArray[byte], output: var ForkyBeaconState,
rollback: RollbackProc): bool =
## Load state into `output` - BeaconState is large so we want to avoid
## re-allocating it if possible
## Return `true` iff the entry was found in the database and `output` was
## overwritten.
## Rollback will be called only if output was partially written - if it was
## not found at all, rollback will not be called
# TODO rollback is needed to deal with bug - use `noRollback` to ignore:
# https://github.com/nim-lang/Nim/issues/14126
# TODO RVO is inefficient for large objects:
# https://github.com/nim-lang/Nim/issues/13879
case store.getSnappySSZ(key, toBeaconStateNoImmutableValidators(output))
of GetResult.found:
let numValidators = output.validators.len
doAssert immutableValidators.len >= numValidators
for i in 0 ..< numValidators:
let
# Bypass hash cache invalidation
dstValidator = addr output.validators.data[i]
assign(
dstValidator.pubkey,
immutableValidators[i].pubkey.toPubKey())
assign(
dstValidator.withdrawal_credentials,
immutableValidators[i].withdrawal_credentials)
output.validators.resetCache()
true
of GetResult.notFound:
false
of GetResult.corrupted:
rollback()
false
proc getState(
db: BeaconChainDBV0,
immutableValidators: openArray[ImmutableValidatorData2],
key: Eth2Digest, output: var phase0.BeaconState,
rollback: RollbackProc): bool =
# Nimbus 1.0 reads and writes writes genesis BeaconState to `backend`
# Nimbus 1.1 writes a genesis BeaconStateNoImmutableValidators to `backend` and
# reads both BeaconState and BeaconStateNoImmutableValidators from `backend`
# Nimbus 1.2 writes a genesis BeaconStateNoImmutableValidators to `stateStore`
# and reads BeaconState from `backend` and BeaconStateNoImmutableValidators
# from `stateStore`. We will try to read the state from all these locations.
if getStateOnlyMutableValidators(
immutableValidators, db.stateStore,
subkey(Phase0BeaconStateNoImmutableValidators, key), output, rollback):
return true
if getStateOnlyMutableValidators(
immutableValidators, db.backend,
subkey(Phase0BeaconStateNoImmutableValidators, key), output, rollback):
return true
case db.backend.getSnappySSZ(subkey(phase0.BeaconState, key), output)
of GetResult.found:
true
of GetResult.notFound:
false
of GetResult.corrupted:
rollback()
false
proc getState*(
db: BeaconChainDB, key: Eth2Digest, output: var phase0.BeaconState,
rollback: RollbackProc): bool =
## Load state into `output` - BeaconState is large so we want to avoid
## re-allocating it if possible
## Return `true` iff the entry was found in the database and `output` was
## overwritten.
## Rollback will be called only if output was partially written - if it was
## not found at all, rollback will not be called
# TODO rollback is needed to deal with bug - use `noRollback` to ignore:
# https://github.com/nim-lang/Nim/issues/14126
# TODO RVO is inefficient for large objects:
# https://github.com/nim-lang/Nim/issues/13879
if not getStateOnlyMutableValidators(
db.immutableValidators, db.statesNoVal, key.data, output, rollback):
db.v0.getState(db.immutableValidators, key, output, rollback)
else:
true
proc getState*(
db: BeaconChainDB, key: Eth2Digest, output: var altair.BeaconState,
rollback: RollbackProc): bool =
## Load state into `output` - BeaconState is large so we want to avoid
## re-allocating it if possible
## Return `true` iff the entry was found in the database and `output` was
## overwritten.
## Rollback will be called only if output was partially written - if it was
## not found at all, rollback will not be called
# TODO rollback is needed to deal with bug - use `noRollback` to ignore:
# https://github.com/nim-lang/Nim/issues/14126
# TODO RVO is inefficient for large objects:
# https://github.com/nim-lang/Nim/issues/13879
getStateOnlyMutableValidators(
db.immutableValidators, db.altairStatesNoVal, key.data, output, rollback)
proc getState*(
db: BeaconChainDB, key: Eth2Digest, output: var bellatrix.BeaconState,
rollback: RollbackProc): bool =
## Load state into `output` - BeaconState is large so we want to avoid
## re-allocating it if possible
## Return `true` iff the entry was found in the database and `output` was
## overwritten.
## Rollback will be called only if output was partially written - if it was
## not found at all, rollback will not be called
# TODO rollback is needed to deal with bug - use `noRollback` to ignore:
# https://github.com/nim-lang/Nim/issues/14126
# TODO RVO is inefficient for large objects:
# https://github.com/nim-lang/Nim/issues/13879
getStateOnlyMutableValidators(
db.immutableValidators, db.mergeStatesNoVal, key.data, output, rollback)
proc getStateRoot(db: BeaconChainDBV0,
root: Eth2Digest,
slot: Slot): Opt[Eth2Digest] =
db.backend.getRaw(subkey(root, slot), Eth2Digest)
proc getStateRoot*(db: BeaconChainDB,
root: Eth2Digest,
slot: Slot): Opt[Eth2Digest] =
db.stateRoots.getRaw(stateRootKey(root, slot), Eth2Digest) or
db.v0.getStateRoot(root, slot)
proc getStateDiff*(db: BeaconChainDB,
root: Eth2Digest): Opt[BeaconStateDiff] =
result.ok(BeaconStateDiff())
if db.stateDiffs.getSnappySSZ(root.data, result.get) != GetResult.found:
result.err
proc getHeadBlock(db: BeaconChainDBV0): Opt[Eth2Digest] =
db.backend.getRaw(subkey(kHeadBlock), Eth2Digest)
proc getHeadBlock*(db: BeaconChainDB): Opt[Eth2Digest] =
db.keyValues.getRaw(subkey(kHeadBlock), Eth2Digest) or
db.v0.getHeadBlock()
proc getTailBlock(db: BeaconChainDBV0): Opt[Eth2Digest] =
db.backend.getRaw(subkey(kTailBlock), Eth2Digest)
proc getTailBlock*(db: BeaconChainDB): Opt[Eth2Digest] =
db.keyValues.getRaw(subkey(kTailBlock), Eth2Digest) or
db.v0.getTailBlock()
proc getGenesisBlock(db: BeaconChainDBV0): Opt[Eth2Digest] =
db.backend.getRaw(subkey(kGenesisBlock), Eth2Digest)
proc getGenesisBlock*(db: BeaconChainDB): Opt[Eth2Digest] =
db.keyValues.getRaw(subkey(kGenesisBlock), Eth2Digest) or
db.v0.getGenesisBlock()
proc getEth2FinalizedTo(db: BeaconChainDBV0): Opt[DepositContractSnapshot] =
result.ok(DepositContractSnapshot())
let r = db.backend.getSnappySSZ(subkey(kDepositsFinalizedByEth2), result.get)
if r != found: result.err()
proc getEth2FinalizedTo*(db: BeaconChainDB): Opt[DepositContractSnapshot] =
result.ok(DepositContractSnapshot())
let r = db.keyValues.getSnappySSZ(subkey(kDepositsFinalizedByEth2), result.get)
if r != found: return db.v0.getEth2FinalizedTo()
proc containsBlock*(db: BeaconChainDBV0, key: Eth2Digest): bool =
db.backend.contains(subkey(phase0.SignedBeaconBlock, key)).expectDb()
proc containsBlockPhase0*(db: BeaconChainDB, key: Eth2Digest): bool =
db.blocks.contains(key.data).expectDb() or
db.v0.containsBlock(key)
proc containsBlockAltair*(db: BeaconChainDB, key: Eth2Digest): bool =
db.altairBlocks.contains(key.data).expectDb()
proc containsBlockMerge*(db: BeaconChainDB, key: Eth2Digest): bool =
db.mergeBlocks.contains(key.data).expectDb()
proc containsBlock*(db: BeaconChainDB, key: Eth2Digest): bool =
db.containsBlockMerge(key) or db.containsBlockAltair(key) or
db.containsBlockPhase0(key)
proc containsState*(db: BeaconChainDBV0, key: Eth2Digest): bool =
let sk = subkey(Phase0BeaconStateNoImmutableValidators, key)
db.stateStore.contains(sk).expectDb() or
db.backend.contains(sk).expectDb() or
db.backend.contains(subkey(phase0.BeaconState, key)).expectDb()
proc containsState*(db: BeaconChainDB, key: Eth2Digest, legacy: bool = true): bool =
db.mergeStatesNoVal.contains(key.data).expectDb or
db.altairStatesNoVal.contains(key.data).expectDb or
db.statesNoVal.contains(key.data).expectDb or
(legacy and db.v0.containsState(key))
iterator getAncestors*(db: BeaconChainDB, root: Eth2Digest):
phase0.TrustedSignedBeaconBlock =
## Load a chain of ancestors for blck - returns a list of blocks with the
## oldest block last (blck will be at result[0]).
##
## The search will go on until the ancestor cannot be found.
var
res: phase0.TrustedSignedBeaconBlock
root = root
while db.blocks.getSnappySSZ(root.data, res) == GetResult.found or
db.v0.backend.getSnappySSZ(
subkey(phase0.SignedBeaconBlock, root), res) == GetResult.found:
res.root = root
yield res
root = res.message.parent_root
proc getBeaconBlockSummary*(db: BeaconChainDB, root: Eth2Digest):
Opt[BeaconBlockSummary] =
var summary: BeaconBlockSummary
if db.summaries.getSSZ(root.data, summary) == GetResult.found:
ok(summary)
else:
err()
proc loadSummaries*(db: BeaconChainDB): Table[Eth2Digest, BeaconBlockSummary] =
# Load summaries into table - there's no telling what order they're in so we
# load them all - bugs in nim prevent this code from living in the iterator.
var summaries = initTable[Eth2Digest, BeaconBlockSummary](1024*1024)
discard db.summaries.find([], proc(k, v: openArray[byte]) =
var output: BeaconBlockSummary
if k.len() == sizeof(Eth2Digest) and decodeSSz(v, output):
summaries[Eth2Digest(data: toArray(sizeof(Eth2Digest), k))] = output
else:
warn "Invalid summary in database", klen = k.len(), vlen = v.len()
)
summaries
type RootedSummary = tuple[root: Eth2Digest, summary: BeaconBlockSummary]
iterator getAncestorSummaries*(db: BeaconChainDB, root: Eth2Digest):
RootedSummary =
## Load a chain of ancestors for blck - iterates over the block starting from
## root and moving parent by parent
##
## The search will go on until an ancestor cannot be found.
var
res: RootedSummary
newSummaries: seq[RootedSummary]
res.root = root
# Yield summaries in reverse chain order by walking the parent references.
# If a summary is missing, try loading it from the older version or create one
# from block data.
const summariesQuery = """
WITH RECURSIVE
next(v) as (
SELECT value FROM beacon_block_summaries
WHERE `key` == ?
UNION ALL
SELECT value FROM beacon_block_summaries
INNER JOIN next ON `key` == substr(v, 9, 32)
)
SELECT v FROM next;
"""
let
stmt = expectDb db.db.prepareStmt(
summariesQuery, array[32, byte],
array[sizeof(BeaconBlockSummary), byte],
managed = false)
defer: # in case iteration is stopped along the way
# Write the newly found summaries in a single transaction - on first migration
# from the old format, this brings down the write from minutes to seconds
stmt.dispose()
if newSummaries.len() > 0:
db.withManyWrites:
for s in newSummaries:
db.putBeaconBlockSummary(s.root, s.summary)
# Clean up pre-altair summaries - by now, we will have moved them to the
# new table
db.db.exec(
"DELETE FROM kvstore WHERE key >= ? and key < ?",
([byte ord(kHashToBlockSummary)], [byte ord(kHashToBlockSummary) + 1])).expectDb()
var row: stmt.Result
for rowRes in exec(stmt, root.data, row):
expectDb rowRes
if decodeSSZ(row, res.summary):
yield res
res.root = res.summary.parent_root
# Backwards compat for reading old databases, or those that for whatever
# reason lost a summary along the way..
while true:
if db.v0.backend.getSnappySSZ(
subkey(BeaconBlockSummary, res.root), res.summary) == GetResult.found:
discard # Just yield below
elif (let blck = db.getPhase0Block(res.root); blck.isSome()):
res.summary = blck.get().message.toBeaconBlockSummary()
elif (let blck = db.getAltairBlock(res.root); blck.isSome()):
res.summary = blck.get().message.toBeaconBlockSummary()
elif (let blck = db.getMergeBlock(res.root); blck.isSome()):
res.summary = blck.get().message.toBeaconBlockSummary()
else:
break
yield res
# Next time, load them from the right place
newSummaries.add(res)
res.root = res.summary.parent_root
# Test operations used to create broken and/or legacy database
proc putStateV0*(db: BeaconChainDB, key: Eth2Digest, value: phase0.BeaconState) =
# Writes to KVStore, as done in 1.0.12 and earlier
db.v0.backend.putSnappySSZ(subkey(type value, key), value)
proc putBlockV0*(db: BeaconChainDB, value: phase0.TrustedSignedBeaconBlock) =
# Write to KVStore, as done in 1.0.12 and earlier
# In particular, no summary is written here - it should be recreated
# automatically
db.v0.backend.putSnappySSZ(subkey(phase0.SignedBeaconBlock, value.root), value)