nwaku/waku/v2/waku_enr/sharding.nim

when (NimMajor, NimMinor) < (1, 4):
  {.push raises: [Defect].}
else:
  {.push raises: [].}

import
  std/[options, bitops, sequtils],
  stew/[endians2, results],
  stew/shims/net,
  chronicles,
  eth/keys,
  libp2p/[multiaddress, multicodec],
  libp2p/crypto/crypto
import
  ../../common/enr,
  ../waku_message

logScope:
  topics = "waku enr sharding"


const MaxShardIndex: uint16 = 1023

const
  ShardingIndicesListEnrField* = "rs"
  ShardingBitVectorEnrField* = "rsv"


type
  RelayShards* = object
    cluster: uint16
    indices: seq[uint16]


func cluster*(rs: RelayShards): uint16 =
  rs.cluster

func indices*(rs: RelayShards): seq[uint16] =
  rs.indices

func topics*(rs: RelayShards): seq[NsPubsubTopic] =
  rs.indices.mapIt(NsPubsubTopic.staticSharding(rs.cluster, it))


func init*(T: type RelayShards, cluster, index: uint16): T =
  if index > MaxShardIndex:
    raise newException(Defect, "invalid index")

  RelayShards(cluster: cluster, indices: @[index])

func init*(T: type RelayShards, cluster: uint16, indices: varargs[uint16]): T =
  if toSeq(indices).anyIt(it > MaxShardIndex):
    raise newException(Defect, "invalid index")

  let indicesSeq = deduplicate(@indices)
  if indices.len < 1:
    raise newException(Defect, "invalid index count")

  RelayShards(cluster: cluster, indices: indicesSeq)

func init*(T: type RelayShards, cluster: uint16, indices: seq[uint16]): T =
  if indices.anyIt(it > MaxShardIndex):
    raise newException(Defect, "invalid index")

  let indicesSeq = deduplicate(indices)
  if indices.len < 1:
    raise newException(Defect, "invalid index count")

  RelayShards(cluster: cluster, indices: indicesSeq)


func contains*(rs: RelayShards, cluster, index: uint16): bool =
  rs.cluster == cluster and rs.indices.contains(index)

func contains*(rs: RelayShards, topic: NsPubsubTopic): bool =
  if topic.kind != NsPubsubTopicKind.StaticSharding:
    return false

  rs.contains(topic.cluster, topic.shard)

func contains*(rs: RelayShards, topic: PubsubTopic|string): bool =
  let parseRes = NsPubsubTopic.parse(topic)
  if parseRes.isErr():
    return false

  rs.contains(parseRes.value)


# ENR builder extension

func toIndicesList(rs: RelayShards): EnrResult[seq[byte]] =
  if rs.indices.len > high(uint8).int:
    return err("indices list too long")

  var res: seq[byte]
  res.add(rs.cluster.toBytesBE())

  res.add(rs.indices.len.uint8)
  for index in rs.indices:
    res.add(index.toBytesBE())

  ok(res)

func fromIndicesList(buf: seq[byte]): Result[RelayShards, string] =
  if buf.len < 3:
    return err("insufficient data: expected at least 3 bytes, got " & $buf.len & " bytes")

  let cluster = uint16.fromBytesBE(buf[0..1])
  let length = int(buf[2])

  if buf.len != 3 + 2 * length:
    return err("invalid data: `length` field is " & $length & " but " & $buf.len & " bytes were provided")

  var indices: seq[uint16]
  for i in 0..<length:
    indices.add(uint16.fromBytesBE(buf[3 + 2*i ..< 5 + 2*i]))

  ok(RelayShards(cluster: cluster, indices: indices))

func toBitVector(rs: RelayShards): seq[byte] =
  ## The value is comprised of a two-byte shard cluster index in network byte
  ## order concatenated with a 128-byte wide bit vector. The bit vector
  ## indicates which shards of the respective shard cluster the node is part
  ## of. The right-most bit in the bit vector represents shard 0, the left-most
  ## bit represents shard 1023.
  var res: seq[byte]
  res.add(rs.cluster.toBytesBE())

  var vec = newSeq[byte](128)
  for index in rs.indices:
    vec[index div 8].setBit(index mod 8)

  res.add(vec)

  res

func fromBitVector(buf: seq[byte]): EnrResult[RelayShards] =
  if buf.len != 130:
    return err("invalid data: expected 130 bytes")

  let cluster = uint16.fromBytesBE(buf[0..1])
  var indices: seq[uint16]

  for i in 0u16..<128u16:
    for j in 0u16..<8u16:
      if not buf[2 + i].testBit(j):
        continue

      indices.add(j + 8 * i)

  ok(RelayShards(cluster: cluster, indices: indices))


func withWakuRelayShardingIndicesList*(builder: var EnrBuilder, rs: RelayShards): EnrResult[void] =
  let value = ? rs.toIndicesList()
  builder.addFieldPair(ShardingIndicesListEnrField, value)
  ok()

func withWakuRelayShardingBitVector*(builder: var EnrBuilder, rs: RelayShards): EnrResult[void] =
  let value = rs.toBitVector()
  builder.addFieldPair(ShardingBitVectorEnrField, value)
  ok()

func withWakuRelaySharding*(builder: var EnrBuilder, rs: RelayShards): EnrResult[void] =
  if rs.indices.len >= 64:
    builder.withWakuRelayShardingBitVector(rs)
  else:
    builder.withWakuRelayShardingIndicesList(rs)


# ENR record accessors (e.g., Record, TypedRecord, etc.)

proc relayShardingIndicesList*(record: TypedRecord): Option[RelayShards] =
  let field = record.tryGet(ShardingIndicesListEnrField, seq[byte])
  if field.isNone():
    return none(RelayShards)

  let indexList = fromIndicesList(field.get())
  if indexList.isErr():
    debug "invalid sharding indices list", error = indexList.error
    return none(RelayShards)

  some(indexList.value)

proc relayShardingBitVector*(record: TypedRecord): Option[RelayShards] =
  let field = record.tryGet(ShardingBitVectorEnrField, seq[byte])
  if field.isNone():
    return none(RelayShards)

  let bitVector = fromBitVector(field.get())
  if bitVector.isErr():
    debug "invalid sharding bit vector", error = bitVector.error
    return none(RelayShards)

  some(bitVector.value)

proc relaySharding*(record: TypedRecord): Option[RelayShards] =
  let indexList = record.relayShardingIndicesList()
  if indexList.isSome():
    return indexList

  record.relayShardingBitVector()


## Utils

proc containsShard*(r: Record, cluster, index: uint16): bool =
  if index > MaxShardIndex:
    return false

  let recordRes = r.toTyped()
  if recordRes.isErr():
    debug "invalid ENR record", error = recordRes.error
    return false

  let rs = recordRes.value.relaySharding()
  if rs.isNone():
    return false

  rs.get().contains(cluster, index)

proc containsShard*(r: Record, topic: NsPubsubTopic): bool =
  if topic.kind != NsPubsubTopicKind.StaticSharding:
    return false

  containsShard(r, topic.cluster, topic.shard)

func containsShard*(r: Record, topic: PubsubTopic|string): bool =
  let parseRes = NsPubsubTopic.parse(topic)
  if parseRes.isErr():
    debug "invalid static sharding topic", topic = topic, error = parseRes.error
    return false

  containsShard(r, parseRes.value)
feat(enr): added support for relay shards field 2023-04-17 13:21:20 +00:00			`when (NimMajor, NimMinor) < (1, 4):`
			`{.push raises: [Defect].}`
			`else:`
			`{.push raises: [].}`

			`import`
			`std/[options, bitops, sequtils],`
			`stew/[endians2, results],`
			`stew/shims/net,`
			`chronicles,`
			`eth/keys,`
			`libp2p/[multiaddress, multicodec],`
			`libp2p/crypto/crypto`
			`import`
chore: flatten waku v2 protocols folder 2023-04-18 13:22:10 +00:00			`../../common/enr,`
feat(enr): added support for relay shards field 2023-04-17 13:21:20 +00:00			`../waku_message`

			`logScope:`
			`topics = "waku enr sharding"`


			`const MaxShardIndex: uint16 = 1023`

			`const`
			`ShardingIndicesListEnrField* = "rs"`
			`ShardingBitVectorEnrField* = "rsv"`


			`type`
			`RelayShards* = object`
			`cluster: uint16`
			`indices: seq[uint16]`


			`func cluster*(rs: RelayShards): uint16 =`
			`rs.cluster`

			`func indices*(rs: RelayShards): seq[uint16] =`
			`rs.indices`

			`func topics*(rs: RelayShards): seq[NsPubsubTopic] =`
			`rs.indices.mapIt(NsPubsubTopic.staticSharding(rs.cluster, it))`


			`func init*(T: type RelayShards, cluster, index: uint16): T =`
			`if index > MaxShardIndex:`
			`raise newException(Defect, "invalid index")`

			`RelayShards(cluster: cluster, indices: @[index])`

			`func init*(T: type RelayShards, cluster: uint16, indices: varargs[uint16]): T =`
			`if toSeq(indices).anyIt(it > MaxShardIndex):`
			`raise newException(Defect, "invalid index")`

			`let indicesSeq = deduplicate(@indices)`
			`if indices.len < 1:`
			`raise newException(Defect, "invalid index count")`

			`RelayShards(cluster: cluster, indices: indicesSeq)`

			`func init*(T: type RelayShards, cluster: uint16, indices: seq[uint16]): T =`
			`if indices.anyIt(it > MaxShardIndex):`
			`raise newException(Defect, "invalid index")`

			`let indicesSeq = deduplicate(indices)`
			`if indices.len < 1:`
			`raise newException(Defect, "invalid index count")`

			`RelayShards(cluster: cluster, indices: indicesSeq)`


			`func contains*(rs: RelayShards, cluster, index: uint16): bool =`
			`rs.cluster == cluster and rs.indices.contains(index)`

			`func contains*(rs: RelayShards, topic: NsPubsubTopic): bool =`
			`if topic.kind != NsPubsubTopicKind.StaticSharding:`
			`return false`

			`rs.contains(topic.cluster, topic.shard)`

			`func contains*(rs: RelayShards, topic: PubsubTopic\|string): bool =`
			`let parseRes = NsPubsubTopic.parse(topic)`
			`if parseRes.isErr():`
			`return false`

			`rs.contains(parseRes.value)`


			`# ENR builder extension`

			`func toIndicesList(rs: RelayShards): EnrResult[seq[byte]] =`
			`if rs.indices.len > high(uint8).int:`
			`return err("indices list too long")`

			`var res: seq[byte]`
			`res.add(rs.cluster.toBytesBE())`

			`res.add(rs.indices.len.uint8)`
			`for index in rs.indices:`
			`res.add(index.toBytesBE())`

			`ok(res)`

			`func fromIndicesList(buf: seq[byte]): Result[RelayShards, string] =`
			`if buf.len < 3:`
			`return err("insufficient data: expected at least 3 bytes, got " & $buf.len & " bytes")`

			`let cluster = uint16.fromBytesBE(buf[0..1])`
			`let length = int(buf[2])`

			`if buf.len != 3 + 2 * length:`
			return err("invalid data: `length` field is " & $length & " but " & $buf.len & " bytes were provided")

			`var indices: seq[uint16]`
			`for i in 0..<length:`
			`indices.add(uint16.fromBytesBE(buf[3 + 2i ..< 5 + 2i]))`

			`ok(RelayShards(cluster: cluster, indices: indices))`

			`func toBitVector(rs: RelayShards): seq[byte] =`
			`## The value is comprised of a two-byte shard cluster index in network byte`
			`## order concatenated with a 128-byte wide bit vector. The bit vector`
			`## indicates which shards of the respective shard cluster the node is part`
			`## of. The right-most bit in the bit vector represents shard 0, the left-most`
			`## bit represents shard 1023.`
			`var res: seq[byte]`
			`res.add(rs.cluster.toBytesBE())`

			`var vec = newSeq[byte](128)`
			`for index in rs.indices:`
			`vec[index div 8].setBit(index mod 8)`

			`res.add(vec)`

			`res`

			`func fromBitVector(buf: seq[byte]): EnrResult[RelayShards] =`
			`if buf.len != 130:`
			`return err("invalid data: expected 130 bytes")`

			`let cluster = uint16.fromBytesBE(buf[0..1])`
			`var indices: seq[uint16]`

			`for i in 0u16..<128u16:`
			`for j in 0u16..<8u16:`
			`if not buf[2 + i].testBit(j):`
			`continue`

			`indices.add(j + 8 * i)`

			`ok(RelayShards(cluster: cluster, indices: indices))`


			`func withWakuRelayShardingIndicesList*(builder: var EnrBuilder, rs: RelayShards): EnrResult[void] =`
			`let value = ? rs.toIndicesList()`
			`builder.addFieldPair(ShardingIndicesListEnrField, value)`
			`ok()`

			`func withWakuRelayShardingBitVector*(builder: var EnrBuilder, rs: RelayShards): EnrResult[void] =`
			`let value = rs.toBitVector()`
			`builder.addFieldPair(ShardingBitVectorEnrField, value)`
			`ok()`

			`func withWakuRelaySharding*(builder: var EnrBuilder, rs: RelayShards): EnrResult[void] =`
			`if rs.indices.len >= 64:`
			`builder.withWakuRelayShardingBitVector(rs)`
			`else:`
			`builder.withWakuRelayShardingIndicesList(rs)`


			`# ENR record accessors (e.g., Record, TypedRecord, etc.)`

			`proc relayShardingIndicesList*(record: TypedRecord): Option[RelayShards] =`
			`let field = record.tryGet(ShardingIndicesListEnrField, seq[byte])`
			`if field.isNone():`
			`return none(RelayShards)`

			`let indexList = fromIndicesList(field.get())`
			`if indexList.isErr():`
			`debug "invalid sharding indices list", error = indexList.error`
			`return none(RelayShards)`

			`some(indexList.value)`

			`proc relayShardingBitVector*(record: TypedRecord): Option[RelayShards] =`
			`let field = record.tryGet(ShardingBitVectorEnrField, seq[byte])`
			`if field.isNone():`
			`return none(RelayShards)`

			`let bitVector = fromBitVector(field.get())`
			`if bitVector.isErr():`
			`debug "invalid sharding bit vector", error = bitVector.error`
			`return none(RelayShards)`

			`some(bitVector.value)`

			`proc relaySharding*(record: TypedRecord): Option[RelayShards] =`
			`let indexList = record.relayShardingIndicesList()`
			`if indexList.isSome():`
			`return indexList`

			`record.relayShardingBitVector()`


			`## Utils`

			`proc containsShard*(r: Record, cluster, index: uint16): bool =`
			`if index > MaxShardIndex:`
			`return false`

			`let recordRes = r.toTyped()`
			`if recordRes.isErr():`
			`debug "invalid ENR record", error = recordRes.error`
			`return false`

			`let rs = recordRes.value.relaySharding()`
			`if rs.isNone():`
			`return false`

			`rs.get().contains(cluster, index)`

			`proc containsShard*(r: Record, topic: NsPubsubTopic): bool =`
			`if topic.kind != NsPubsubTopicKind.StaticSharding:`
			`return false`

			`containsShard(r, topic.cluster, topic.shard)`

			`func containsShard*(r: Record, topic: PubsubTopic\|string): bool =`
			`let parseRes = NsPubsubTopic.parse(topic)`
			`if parseRes.isErr():`
			`debug "invalid static sharding topic", topic = topic, error = parseRes.error`
			`return false`

			`containsShard(r, parseRes.value)`