nim-dagger/codex/blockexchange/protobuf/message.nim

200 lines
5.7 KiB
Nim

# Protocol of data exchange between Codex nodes
# and Protobuf encoder/decoder for these messages.
#
# Eventually all this code should be auto-generated from message.proto.
import pkg/libp2p/protobuf/minprotobuf
import ../../units
const
MaxBlockSize* = 100.MiBs.uint
MaxMessageSize* = 100.MiBs.uint
type
WantType* = enum
WantBlock = 0,
WantHave = 1
Entry* = object
`block`*: seq[byte] # The block cid
priority*: int32 # The priority (normalized). default to 1
cancel*: bool # Whether this revokes an entry
wantType*: WantType # Note: defaults to enum 0, ie Block
sendDontHave*: bool # Note: defaults to false
Wantlist* = object
entries*: seq[Entry] # A list of wantlist entries
full*: bool # Whether this is the full wantlist. default to false
Block* = object
prefix*: seq[byte] # CID prefix (cid version, multicodec and multihash prefix (type + length)
data*: seq[byte]
BlockPresenceType* = enum
Have = 0,
DontHave = 1
BlockPresence* = object
cid*: seq[byte] # The block cid
`type`*: BlockPresenceType
price*: seq[byte] # Amount of assets to pay for the block (UInt256)
AccountMessage* = object
address*: seq[byte] # Ethereum address to which payments should be made
StateChannelUpdate* = object
update*: seq[byte] # Signed Nitro state, serialized as JSON
Message* = object
wantlist*: Wantlist
payload*: seq[Block]
blockPresences*: seq[BlockPresence]
pendingBytes*: uint
account*: AccountMessage
payment*: StateChannelUpdate
#
# Encoding Message into seq[byte] in Protobuf format
#
proc write*(pb: var ProtoBuffer, field: int, value: Entry) =
var ipb = initProtoBuffer()
ipb.write(1, value.`block`)
ipb.write(2, value.priority.uint64)
ipb.write(3, value.cancel.uint)
ipb.write(4, value.wantType.uint)
ipb.write(5, value.sendDontHave.uint)
ipb.finish()
pb.write(field, ipb)
proc write*(pb: var ProtoBuffer, field: int, value: Wantlist) =
var ipb = initProtoBuffer()
for v in value.entries:
ipb.write(1, v)
ipb.write(2, value.full.uint)
ipb.finish()
pb.write(field, ipb)
proc write*(pb: var ProtoBuffer, field: int, value: Block) =
var ipb = initProtoBuffer(maxSize = MaxBlockSize)
ipb.write(1, value.prefix)
ipb.write(2, value.data)
ipb.finish()
pb.write(field, ipb)
proc write*(pb: var ProtoBuffer, field: int, value: BlockPresence) =
var ipb = initProtoBuffer()
ipb.write(1, value.cid)
ipb.write(2, value.`type`.uint)
ipb.write(3, value.price)
ipb.finish()
pb.write(field, ipb)
proc write*(pb: var ProtoBuffer, field: int, value: AccountMessage) =
var ipb = initProtoBuffer()
ipb.write(1, value.address)
ipb.finish()
pb.write(field, ipb)
proc write*(pb: var ProtoBuffer, field: int, value: StateChannelUpdate) =
var ipb = initProtoBuffer()
ipb.write(1, value.update)
ipb.finish()
pb.write(field, ipb)
proc protobufEncode*(value: Message): seq[byte] =
var ipb = initProtoBuffer(maxSize = MaxMessageSize)
ipb.write(1, value.wantlist)
for v in value.payload:
ipb.write(3, v)
for v in value.blockPresences:
ipb.write(4, v)
ipb.write(5, value.pendingBytes)
ipb.write(6, value.account)
ipb.write(7, value.payment)
ipb.finish()
ipb.buffer
#
# Decoding Message from seq[byte] in Protobuf format
#
proc decode*(_: type Entry, pb: ProtoBuffer): ProtoResult[Entry] =
var
value = Entry()
field: uint64
discard ? pb.getField(1, value.`block`)
if ? pb.getField(2, field):
value.priority = int32(field)
if ? pb.getField(3, field):
value.cancel = bool(field)
if ? pb.getField(4, field):
value.wantType = WantType(field)
if ? pb.getField(5, field):
value.sendDontHave = bool(field)
ok(value)
proc decode*(_: type Wantlist, pb: ProtoBuffer): ProtoResult[Wantlist] =
var
value = Wantlist()
field: uint64
sublist: seq[seq[byte]]
if ? pb.getRepeatedField(1, sublist):
for item in sublist:
value.entries.add(? Entry.decode(initProtoBuffer(item)))
if ? pb.getField(2, field):
value.full = bool(field)
ok(value)
proc decode*(_: type Block, pb: ProtoBuffer): ProtoResult[Block] =
var
value = Block()
discard ? pb.getField(1, value.prefix)
discard ? pb.getField(2, value.data)
ok(value)
proc decode*(_: type BlockPresence, pb: ProtoBuffer): ProtoResult[BlockPresence] =
var
value = BlockPresence()
field: uint64
discard ? pb.getField(1, value.cid)
if ? pb.getField(2, field):
value.`type` = BlockPresenceType(field)
discard ? pb.getField(3, value.price)
ok(value)
proc decode*(_: type AccountMessage, pb: ProtoBuffer): ProtoResult[AccountMessage] =
var
value = AccountMessage()
discard ? pb.getField(1, value.address)
ok(value)
proc decode*(_: type StateChannelUpdate, pb: ProtoBuffer): ProtoResult[StateChannelUpdate] =
var
value = StateChannelUpdate()
discard ? pb.getField(1, value.update)
ok(value)
proc protobufDecode*(_: type Message, msg: seq[byte]): ProtoResult[Message] =
var
value = Message()
pb = initProtoBuffer(msg, maxSize = MaxMessageSize)
ipb: ProtoBuffer
sublist: seq[seq[byte]]
if ? pb.getField(1, ipb):
value.wantlist = ? Wantlist.decode(ipb)
if ? pb.getRepeatedField(3, sublist):
for item in sublist:
value.payload.add(? Block.decode(initProtoBuffer(item, maxSize = MaxBlockSize)))
if ? pb.getRepeatedField(4, sublist):
for item in sublist:
value.blockPresences.add(? BlockPresence.decode(initProtoBuffer(item)))
discard ? pb.getField(5, value.pendingBytes)
if ? pb.getField(6, ipb):
value.account = ? AccountMessage.decode(ipb)
if ? pb.getField(7, ipb):
value.payment = ? StateChannelUpdate.decode(ipb)
ok(value)