nimbus-eth2/beacon_chain/beacon_chain_db.nim

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{.push raises: [Defect].}
import
options, typetraits, stew/[results, endians2],
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serialization, chronicles,
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spec/[datatypes, digest, crypto],
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eth/db/kvstore, ssz
type
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.
##
## We do however make an effort not to crash on invalid data inside the
## database - this may have a number of "natural" causes such as switching
## between different versions of the client and accidentally using an old
## database.
backend: KvStoreRef
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DbKeyKind = enum
kHashToState
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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
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# 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)
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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 BeaconStateRef, key: Eth2Digest): auto =
subkey(kHashToState, key.data)
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func subkey(kind: type SignedBeaconBlock, key: Eth2Digest): auto =
subkey(kHashToBlock, key.data)
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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
proc init*(T: type BeaconChainDB, backend: KVStoreRef): BeaconChainDB =
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T(backend: backend)
proc put(db: BeaconChainDB, key: openArray[byte], v: auto) =
db.backend.put(key, SSZ.encode(v)).expect("working database")
proc get(db: BeaconChainDB, key: openArray[byte], T: typedesc): Opt[T] =
var res: Opt[T]
proc decode(data: openArray[byte]) =
try:
res.ok SSZ.decode(data, T)
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
discard
discard db.backend.get(key, decode).expect("working database")
res
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proc putBlock*(db: BeaconChainDB, key: Eth2Digest, value: SignedBeaconBlock) =
db.put(subkey(type value, key), value)
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proc putState*(db: BeaconChainDB, key: Eth2Digest, value: BeaconStateRef) =
# TODO prune old states - this is less easy than it seems as we never know
# when or if a particular state will become finalized.
db.put(subkey(type value, key), value)
proc putState*(db: BeaconChainDB, value: BeaconStateRef) =
db.putState(hash_tree_root(value), value)
proc putStateRoot*(db: BeaconChainDB, root: Eth2Digest, slot: Slot,
value: Eth2Digest) =
db.backend.put(subkey(root, slot), value.data).expect(
"working database")
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proc putBlock*(db: BeaconChainDB, value: SignedBeaconBlock) =
db.putBlock(hash_tree_root(value.message), value)
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proc delBlock*(db: BeaconChainDB, key: Eth2Digest) =
db.backend.del(subkey(SignedBeaconBlock, key)).expect(
"working database")
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proc delState*(db: BeaconChainDB, key: Eth2Digest) =
db.backend.del(subkey(BeaconStateRef, key)).expect("working database")
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proc delStateRoot*(db: BeaconChainDB, root: Eth2Digest, slot: Slot) =
db.backend.del(subkey(root, slot)).expect("working database")
proc putHeadBlock*(db: BeaconChainDB, key: Eth2Digest) =
db.backend.put(subkey(kHeadBlock), key.data).expect("working database")
proc putTailBlock*(db: BeaconChainDB, key: Eth2Digest) =
db.backend.put(subkey(kTailBlock), key.data).expect("working database")
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proc getBlock*(db: BeaconChainDB, key: Eth2Digest): Opt[SignedBeaconBlock] =
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db.get(subkey(SignedBeaconBlock, key), SignedBeaconBlock)
proc getState*(db: BeaconChainDB, key: Eth2Digest): Opt[BeaconStateRef] =
db.get(subkey(BeaconStateRef, key), BeaconStateRef)
proc getStateRoot*(db: BeaconChainDB,
root: Eth2Digest,
slot: Slot): Opt[Eth2Digest] =
db.get(subkey(root, slot), Eth2Digest)
proc getHeadBlock*(db: BeaconChainDB): Opt[Eth2Digest] =
db.get(subkey(kHeadBlock), Eth2Digest)
proc getTailBlock*(db: BeaconChainDB): Opt[Eth2Digest] =
db.get(subkey(kTailBlock), Eth2Digest)
proc containsBlock*(db: BeaconChainDB, key: Eth2Digest): bool =
db.backend.contains(subkey(SignedBeaconBlock, key)).expect("working database")
proc containsState*(db: BeaconChainDB, key: Eth2Digest): bool =
db.backend.contains(subkey(BeaconStateRef, key)).expect("working database")
iterator getAncestors*(db: BeaconChainDB, root: Eth2Digest):
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tuple[root: Eth2Digest, blck: SignedBeaconBlock] =
## 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 root = root
while (let blck = db.getBlock(root); blck.isOk()):
yield (root, blck.get())
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root = blck.get().message.parent_root