import typing
import struct
from lbry.wallet.server.db import DB_PREFIXES
def length_encoded_name(name: str) -> bytes:
encoded = name.encode('utf-8')
return len(encoded).to_bytes(2, byteorder='big') + encoded
class PrefixRow:
prefix: bytes
key_struct: struct.Struct
value_struct: struct.Struct
@classmethod
def pack_key(cls, *args) -> bytes:
return cls.prefix + cls.key_struct.pack(*args)
@classmethod
def pack_value(cls, *args) -> bytes:
return cls.value_struct.pack(*args)
@classmethod
def unpack_key(cls, key: bytes):
assert key[:1] == cls.prefix
return cls.key_struct.unpack(key[1:])
@classmethod
def unpack_value(cls, data: bytes):
return cls.value_struct.unpack(data)
@classmethod
def unpack_item(cls, key: bytes, value: bytes):
return cls.unpack_key(key), cls.unpack_value(value)
class EffectiveAmountKey(typing.NamedTuple):
name: str
effective_amount: int
tx_num: int
position: int
class EffectiveAmountValue(typing.NamedTuple):
claim_hash: bytes
root_tx_num: int
root_position: int
class ClaimToTXOKey(typing.NamedTuple):
claim_hash: bytes
tx_num: int
position: int
class ClaimToTXOValue(typing.NamedTuple):
root_tx_num: int
root_position: int
amount: int
name: str
class TXOToClaimKey(typing.NamedTuple):
tx_num: int
position: int
class TXOToClaimValue(typing.NamedTuple):
claim_hash: bytes
name: str
class ClaimShortIDKey(typing.NamedTuple):
name: str
claim_hash: bytes
root_tx_num: int
root_position: int
class ClaimShortIDValue(typing.NamedTuple):
tx_num: int
position: int
class ClaimToChannelKey(typing.NamedTuple):
claim_hash: bytes
class ClaimToChannelValue(typing.NamedTuple):
signing_hash: bytes
class ChannelToClaimKey(typing.NamedTuple):
signing_hash: bytes
name: str
effective_amount: int
tx_num: int
position: int
class ChannelToClaimValue(typing.NamedTuple):
claim_hash: bytes
claims_in_channel: int
class ClaimToSupportKey(typing.NamedTuple):
claim_hash: bytes
tx_num: int
position: int
class ClaimToSupportValue(typing.NamedTuple):
amount: int
class SupportToClaimKey(typing.NamedTuple):
tx_num: int
position: int
class SupportToClaimValue(typing.NamedTuple):
claim_hash: bytes
class ClaimExpirationKey(typing.NamedTuple):
expiration: int
tx_num: int
position: int
class ClaimExpirationValue(typing.NamedTuple):
claim_hash: bytes
name: str
class EffectiveAmountPrefixRow(PrefixRow):
prefix = DB_PREFIXES.claim_effective_amount_prefix.value
key_struct = struct.Struct(b'>QLH')
value_struct = struct.Struct(b'>20sLH')
@classmethod
def pack_key(cls, name: str, effective_amount: int, tx_num: int, position: int):
return cls.prefix + length_encoded_name(name) + cls.key_struct.pack(
0xffffffffffffffff - effective_amount, tx_num, position
)
@classmethod
def unpack_key(cls, key: bytes) -> EffectiveAmountKey:
assert key[:1] == cls.prefix
name_len = int.from_bytes(key[1:3], byteorder='big')
name = key[3:3 + name_len].decode()
ones_comp_effective_amount, tx_num, position = cls.key_struct.unpack(key[3 + name_len:])
return EffectiveAmountKey(
name, 0xffffffffffffffff - ones_comp_effective_amount, tx_num, position
)
@classmethod
def unpack_value(cls, data: bytes) -> EffectiveAmountValue:
return EffectiveAmountValue(*super().unpack_value(data))
@classmethod
def pack_value(cls, claim_hash: bytes, root_tx_num: int, root_position: int) -> bytes:
return super().pack_value(claim_hash, root_tx_num, root_position)
@classmethod
def pack_item(cls, name: str, effective_amount: int, tx_num: int, position: int, claim_hash: bytes,
root_tx_num: int, root_position: int):
return cls.pack_key(name, effective_amount, tx_num, position), \
cls.pack_value(claim_hash, root_tx_num, root_position)
class ClaimToTXOPrefixRow(PrefixRow):
prefix = DB_PREFIXES.claim_to_txo.value
key_struct = struct.Struct(b'>20sLH')
value_struct = struct.Struct(b'>LHQ')
@classmethod
def pack_key(cls, claim_hash: bytes, tx_num: int, position: int):
return super().pack_key(
claim_hash, 0xffffffff - tx_num, 0xffff - position
)
@classmethod
def unpack_key(cls, key: bytes) -> ClaimToTXOKey:
assert key[:1] == cls.prefix
claim_hash, ones_comp_tx_num, ones_comp_position = cls.key_struct.unpack(key[1:])
return ClaimToTXOKey(
claim_hash, 0xffffffff - ones_comp_tx_num, 0xffff - ones_comp_position
)
@classmethod
def unpack_value(cls, data: bytes) ->ClaimToTXOValue:
root_tx_num, root_position, amount = cls.value_struct.unpack(data[:14])
name_len = int.from_bytes(data[14:16], byteorder='big')
name = data[16:16 + name_len].decode()
return ClaimToTXOValue(root_tx_num, root_position, amount, name)
@classmethod
def pack_value(cls, root_tx_num: int, root_position: int, amount: int, name: str) -> bytes:
return cls.value_struct.pack(root_tx_num, root_position, amount) + length_encoded_name(name)
@classmethod
def pack_item(cls, claim_hash: bytes, tx_num: int, position: int, root_tx_num: int, root_position: int,
amount: int, name: str):
return cls.pack_key(claim_hash, tx_num, position), \
cls.pack_value(root_tx_num, root_position, amount, name)
class TXOToClaimPrefixRow(PrefixRow):
prefix = DB_PREFIXES.txo_to_claim.value
key_struct = struct.Struct(b'>LH')
value_struct = struct.Struct(b'>20s')
@classmethod
def pack_key(cls, tx_num: int, position: int):
return super().pack_key(tx_num, position)
@classmethod
def unpack_key(cls, key: bytes) -> TXOToClaimKey:
return TXOToClaimKey(*super().unpack_key(key))
@classmethod
def unpack_value(cls, data: bytes) -> TXOToClaimValue:
claim_hash, = cls.value_struct.unpack(data[:20])
name_len = int.from_bytes(data[20:22], byteorder='big')
name = data[22:22 + name_len].decode()
return TXOToClaimValue(claim_hash, name)
@classmethod
def pack_value(cls, claim_hash: bytes, name: str) -> bytes:
return cls.value_struct.pack(claim_hash) + length_encoded_name(name)
@classmethod
def pack_item(cls, tx_num: int, position: int, claim_hash: bytes, name: str):
return cls.pack_key(tx_num, position), \
cls.pack_value(claim_hash, name)
class ClaimShortIDPrefixRow(PrefixRow):
prefix = DB_PREFIXES.claim_short_id_prefix.value
key_struct = struct.Struct(b'>20sLH')
value_struct = struct.Struct(b'>LH')
@classmethod
def pack_key(cls, name: str, claim_hash: bytes, root_tx_num: int, root_position: int):
return cls.prefix + length_encoded_name(name) + cls.key_struct.pack(claim_hash, root_tx_num, root_position)
@classmethod
def pack_value(cls, tx_num: int, position: int):
return super().pack_value(tx_num, position)
@classmethod
def unpack_key(cls, key: bytes) -> ClaimShortIDKey:
assert key[:1] == cls.prefix
name_len = int.from_bytes(key[1:3], byteorder='big')
name = key[3:3 + name_len].decode()
return ClaimShortIDKey(name, *cls.key_struct.unpack(key[3 + name_len:]))
@classmethod
def unpack_value(cls, data: bytes) -> ClaimShortIDValue:
return ClaimShortIDValue(*super().unpack_value(data))
@classmethod
def pack_item(cls, name: str, claim_hash: bytes, root_tx_num: int, root_position: int,
tx_num: int, position: int):
return cls.pack_key(name, claim_hash, root_tx_num, root_position), \
cls.pack_value(tx_num, position)
class ClaimToChannelPrefixRow(PrefixRow):
prefix = DB_PREFIXES.claim_to_channel.value
key_struct = struct.Struct(b'>20s')
value_struct = struct.Struct(b'>20s')
@classmethod
def pack_key(cls, claim_hash: bytes):
return super().pack_key(claim_hash)
@classmethod
def pack_value(cls, signing_hash: bytes):
return super().pack_value(signing_hash)
@classmethod
def unpack_key(cls, key: bytes) -> ClaimToChannelKey:
return ClaimToChannelKey(*super().unpack_key(key))
@classmethod
def unpack_value(cls, data: bytes) -> ClaimToChannelValue:
return ClaimToChannelValue(*super().unpack_value(data))
@classmethod
def pack_item(cls, claim_hash: bytes, signing_hash: bytes):
return cls.pack_key(claim_hash), cls.pack_value(signing_hash)
class ChannelToClaimPrefixRow(PrefixRow):
prefix = DB_PREFIXES.channel_to_claim.value
key_struct = struct.Struct(b'>QLH')
value_struct = struct.Struct(b'>20sL')
@classmethod
def pack_key(cls, signing_hash: bytes, name: str, effective_amount: int, tx_num: int, position: int):
return cls.prefix + signing_hash + length_encoded_name(name) + cls.key_struct.pack(
0xffffffffffffffff - effective_amount, tx_num, position
)
@classmethod
def unpack_key(cls, key: bytes) -> ChannelToClaimKey:
assert key[:1] == cls.prefix
signing_hash = key[1:21]
name_len = int.from_bytes(key[21:23], byteorder='big')
name = key[23:23 + name_len].decode()
ones_comp_effective_amount, tx_num, position = cls.key_struct.unpack(key[23 + name_len:])
return ChannelToClaimKey(
signing_hash, name, 0xffffffffffffffff - ones_comp_effective_amount, tx_num, position
)
@classmethod
def pack_value(cls, claim_hash: bytes, claims_in_channel: int) -> bytes:
return super().pack_value(claim_hash, claims_in_channel)
@classmethod
def unpack_value(cls, data: bytes) -> ChannelToClaimValue:
return ChannelToClaimValue(*cls.value_struct.unpack(data))
@classmethod
def pack_item(cls, signing_hash: bytes, name: str, effective_amount: int, tx_num: int, position: int,
claim_hash: bytes, claims_in_channel: int):
return cls.pack_key(signing_hash, name, effective_amount, tx_num, position), \
cls.pack_value(claim_hash, claims_in_channel)
class ClaimToSupportPrefixRow(PrefixRow):
prefix = DB_PREFIXES.claim_to_support.value
key_struct = struct.Struct(b'>20sLH')
value_struct = struct.Struct(b'>Q')
@classmethod
def pack_key(cls, claim_hash: bytes, tx_num: int, position: int):
return super().pack_key(claim_hash, tx_num, position)
@classmethod
def unpack_key(cls, key: bytes) -> ClaimToSupportKey:
return ClaimToSupportKey(*super().unpack_key(key))
@classmethod
def pack_value(cls, amount: int) -> bytes:
return super().pack_value(amount)
@classmethod
def unpack_value(cls, data: bytes) -> ClaimToSupportValue:
return ClaimToSupportValue(*super().unpack_value(data))
@classmethod
def pack_item(cls, claim_hash: bytes, tx_num: int, position: int, amount: int):
return cls.pack_key(claim_hash, tx_num, position), \
cls.pack_value(amount)
class SupportToClaimPrefixRow(PrefixRow):
prefix = DB_PREFIXES.support_to_claim.value
key_struct = struct.Struct(b'>LH')
value_struct = struct.Struct(b'>20s')
@classmethod
def pack_key(cls, tx_num: int, position: int):
return super().pack_key(tx_num, position)
@classmethod
def unpack_key(cls, key: bytes) -> SupportToClaimKey:
return SupportToClaimKey(*super().unpack_key(key))
@classmethod
def pack_value(cls, claim_hash: bytes) -> bytes:
return super().pack_value(claim_hash)
@classmethod
def unpack_value(cls, data: bytes) -> SupportToClaimValue:
return SupportToClaimValue(*super().unpack_value(data))
@classmethod
def pack_item(cls, tx_num: int, position: int, claim_hash: bytes):
return cls.pack_key(tx_num, position), \
cls.pack_value(claim_hash)
class ClaimExpirationPrefixRow(PrefixRow):
prefix = DB_PREFIXES.claim_expiration.value
key_struct = struct.Struct(b'>LLH')
value_struct = struct.Struct(b'>20s')
@classmethod
def pack_key(cls, expiration: int, tx_num: int, position: int) -> bytes:
return super().pack_key(expiration, tx_num, position)
@classmethod
def pack_value(cls, claim_hash: bytes, name: str) -> bytes:
return cls.value_struct.pack(claim_hash) + length_encoded_name(name)
@classmethod
def pack_item(cls, expiration: int, tx_num: int, position: int, claim_hash: bytes, name: str) -> typing.Tuple[bytes, bytes]:
return cls.pack_key(expiration, tx_num, position), cls.pack_value(claim_hash, name)
@classmethod
def unpack_key(cls, key: bytes) -> ClaimExpirationKey:
return ClaimExpirationKey(*super().unpack_key(key))
@classmethod
def unpack_value(cls, data: bytes) -> ClaimExpirationValue:
name_len = int.from_bytes(data[20:22], byteorder='big')
name = data[22:22 + name_len].decode()
claim_id, = cls.value_struct.unpack(data[:20])
return ClaimExpirationValue(claim_id, name)
@classmethod
def unpack_item(cls, key: bytes, value: bytes) -> typing.Tuple[ClaimExpirationKey, ClaimExpirationValue]:
return cls.unpack_key(key), cls.unpack_value(value)
class Prefixes:
claim_to_support = ClaimToSupportPrefixRow
support_to_claim = SupportToClaimPrefixRow
claim_to_txo = ClaimToTXOPrefixRow
txo_to_claim = TXOToClaimPrefixRow
claim_to_channel = ClaimToChannelPrefixRow
channel_to_claim = ChannelToClaimPrefixRow
claim_short_id = ClaimShortIDPrefixRow
claim_effective_amount = EffectiveAmountPrefixRow
claim_expiration = ClaimExpirationPrefixRow
# undo_claimtrie = b'M'