nimbus-eth2/beacon_chain/sync_protocol.nim.generated...

354 lines
14 KiB
Nim

## Generated at line 87
type
BeaconSync* = object
template State*(PROTO: type BeaconSync): type =
ref[BeaconSyncPeerState:ObjectType]
template NetworkState*(PROTO: type BeaconSync): type =
ref[BeaconSyncNetworkState:ObjectType]
type
statusObj* = distinct StatusMsg
template status*(PROTO: type BeaconSync): type =
StatusMsg
template msgProtocol*(MSG: type statusObj): type =
BeaconSync
template RecType*(MSG: type statusObj): untyped =
StatusMsg
type
pingObj* = distinct uint64
template ping*(PROTO: type BeaconSync): type =
uint64
template msgProtocol*(MSG: type pingObj): type =
BeaconSync
template RecType*(MSG: type pingObj): untyped =
uint64
type
getMetadataObj* = object
template getMetadata*(PROTO: type BeaconSync): type =
getMetadataObj
template msgProtocol*(MSG: type getMetadataObj): type =
BeaconSync
template RecType*(MSG: type getMetadataObj): untyped =
getMetadataObj
type
beaconBlocksByRangeObj* = object
startSlot*: Slot
count*: uint64
step*: uint64
template beaconBlocksByRange*(PROTO: type BeaconSync): type =
beaconBlocksByRangeObj
template msgProtocol*(MSG: type beaconBlocksByRangeObj): type =
BeaconSync
template RecType*(MSG: type beaconBlocksByRangeObj): untyped =
beaconBlocksByRangeObj
type
beaconBlocksByRootObj* = distinct BlockRootsList
template beaconBlocksByRoot*(PROTO: type BeaconSync): type =
BlockRootsList
template msgProtocol*(MSG: type beaconBlocksByRootObj): type =
BeaconSync
template RecType*(MSG: type beaconBlocksByRootObj): untyped =
BlockRootsList
type
goodbyeObj* = distinct uint64
template goodbye*(PROTO: type BeaconSync): type =
uint64
template msgProtocol*(MSG: type goodbyeObj): type =
BeaconSync
template RecType*(MSG: type goodbyeObj): untyped =
uint64
var BeaconSyncProtocolObj = initProtocol("BeaconSync", createPeerState[Peer,
ref[BeaconSyncPeerState:ObjectType]], createNetworkState[Eth2Node,
ref[BeaconSyncNetworkState:ObjectType]])
var BeaconSyncProtocol = addr BeaconSyncProtocolObj
template protocolInfo*(PROTO: type BeaconSync): auto =
BeaconSyncProtocol
proc status*(peer: Peer; theirStatus: StatusMsg;
timeout: Duration = milliseconds(10000'i64)): Future[NetRes[StatusMsg]] {.
gcsafe, libp2pProtocol("status", 1).} =
var outputStream = memoryOutput()
var writer = init(WriterType(SSZ), outputStream)
writeValue(writer, theirStatus)
let msgBytes = getOutput(outputStream)
makeEth2Request(peer, "/eth2/beacon_chain/req/status/1/", msgBytes, StatusMsg,
timeout)
proc ping*(peer: Peer; value: uint64; timeout: Duration = milliseconds(10000'i64)): Future[
NetRes[uint64]] {.gcsafe, libp2pProtocol("ping", 1).} =
var outputStream = memoryOutput()
var writer = init(WriterType(SSZ), outputStream)
writeValue(writer, value)
let msgBytes = getOutput(outputStream)
makeEth2Request(peer, "/eth2/beacon_chain/req/ping/1/", msgBytes, uint64, timeout)
proc getMetadata*(peer: Peer; timeout: Duration = milliseconds(10000'i64)): Future[
NetRes[Eth2Metadata]] {.gcsafe, libp2pProtocol("metadata", 1).} =
var msgBytes: seq[byte]
makeEth2Request(peer, "/eth2/beacon_chain/req/metadata/1/", msgBytes,
Eth2Metadata, timeout)
proc beaconBlocksByRange*(peer: Peer; startSlot: Slot; count: uint64; step: uint64;
timeout: Duration = milliseconds(10000'i64)): Future[
NetRes[seq[SignedBeaconBlock]]] {.gcsafe, libp2pProtocol(
"beacon_blocks_by_range", 1).} =
var outputStream = memoryOutput()
var writer = init(WriterType(SSZ), outputStream)
var recordWriterCtx = beginRecord(writer, beaconBlocksByRangeObj)
writeField(writer, recordWriterCtx, "startSlot", startSlot)
writeField(writer, recordWriterCtx, "count", count)
writeField(writer, recordWriterCtx, "step", step)
endRecord(writer, recordWriterCtx)
let msgBytes = getOutput(outputStream)
makeEth2Request(peer, "/eth2/beacon_chain/req/beacon_blocks_by_range/1/",
msgBytes, seq[SignedBeaconBlock], timeout)
proc beaconBlocksByRoot*(peer: Peer; blockRoots: BlockRootsList;
timeout: Duration = milliseconds(10000'i64)): Future[
NetRes[seq[SignedBeaconBlock]]] {.gcsafe,
libp2pProtocol("beacon_blocks_by_root", 1).} =
var outputStream = memoryOutput()
var writer = init(WriterType(SSZ), outputStream)
writeValue(writer, blockRoots)
let msgBytes = getOutput(outputStream)
makeEth2Request(peer, "/eth2/beacon_chain/req/beacon_blocks_by_root/1/",
msgBytes, seq[SignedBeaconBlock], timeout)
proc goodbye*(peer: Peer; reason: uint64): Future[void] {.gcsafe,
libp2pProtocol("goodbye", 1).} =
var outputStream = memoryOutput()
var writer = init(WriterType(SSZ), outputStream)
writeValue(writer, reason)
let msgBytes = getOutput(outputStream)
sendNotificationMsg(peer, "/eth2/beacon_chain/req/goodbye/1/", msgBytes)
proc statusUserHandler(peer: Peer; theirStatus: StatusMsg;
response: SingleChunkResponse[StatusMsg]) {.async,
libp2pProtocol("status", 1), gcsafe.} =
type
CurrentProtocol = BeaconSync
template state(peer: Peer): ref[BeaconSyncPeerState:ObjectType] =
cast[ref[BeaconSyncPeerState:ObjectType]](getState(peer, BeaconSyncProtocol))
template networkState(peer: Peer): ref[BeaconSyncNetworkState:ObjectType] =
cast[ref[BeaconSyncNetworkState:ObjectType]](getNetworkState(peer.network,
BeaconSyncProtocol))
let ourStatus = peer.networkState.getCurrentStatus()
trace "Sending status message", peer = peer, status = ourStatus
await response.send(ourStatus)
await peer.handleStatus(peer.networkState, ourStatus, theirStatus)
proc pingUserHandler(peer: Peer; value: uint64): uint64 {.libp2pProtocol("ping", 1),
gcsafe.} =
type
CurrentProtocol = BeaconSync
template state(peer: Peer): ref[BeaconSyncPeerState:ObjectType] =
cast[ref[BeaconSyncPeerState:ObjectType]](getState(peer, BeaconSyncProtocol))
template networkState(peer: Peer): ref[BeaconSyncNetworkState:ObjectType] =
cast[ref[BeaconSyncNetworkState:ObjectType]](getNetworkState(peer.network,
BeaconSyncProtocol))
return peer.network.metadata.seq_number
proc getMetadataUserHandler(peer: Peer): Eth2Metadata {.
libp2pProtocol("metadata", 1), gcsafe.} =
type
CurrentProtocol = BeaconSync
template state(peer: Peer): ref[BeaconSyncPeerState:ObjectType] =
cast[ref[BeaconSyncPeerState:ObjectType]](getState(peer, BeaconSyncProtocol))
template networkState(peer: Peer): ref[BeaconSyncNetworkState:ObjectType] =
cast[ref[BeaconSyncNetworkState:ObjectType]](getNetworkState(peer.network,
BeaconSyncProtocol))
return peer.network.metadata
proc beaconBlocksByRangeUserHandler(peer: Peer; startSlot: Slot; count: uint64;
step: uint64; response: MultipleChunksResponse[
SignedBeaconBlock]) {.async, libp2pProtocol("beacon_blocks_by_range", 1), gcsafe.} =
type
CurrentProtocol = BeaconSync
template state(peer: Peer): ref[BeaconSyncPeerState:ObjectType] =
cast[ref[BeaconSyncPeerState:ObjectType]](getState(peer, BeaconSyncProtocol))
template networkState(peer: Peer): ref[BeaconSyncNetworkState:ObjectType] =
cast[ref[BeaconSyncNetworkState:ObjectType]](getNetworkState(peer.network,
BeaconSyncProtocol))
trace "got range request", peer, startSlot, count, step
if count > 0'u64:
var blocks: array[MAX_REQUESTED_BLOCKS, BlockRef]
let
chainDag = peer.networkState.chainDag
count = min(count.Natural, blocks.len)
let
endIndex = count - 1
startIndex = chainDag.getBlockRange(startSlot, step,
blocks.toOpenArray(0, endIndex))
for b in blocks[startIndex .. endIndex]:
doAssert not b.isNil, "getBlockRange should return non-nil blocks only"
trace "wrote response block", slot = b.slot, roor = shortLog(b.root)
await response.write(chainDag.get(b).data)
debug "Block range request done", peer, startSlot, count, step,
found = count - startIndex
proc beaconBlocksByRootUserHandler(peer: Peer; blockRoots: BlockRootsList; response: MultipleChunksResponse[
SignedBeaconBlock]) {.async, libp2pProtocol("beacon_blocks_by_root", 1), gcsafe.} =
type
CurrentProtocol = BeaconSync
template state(peer: Peer): ref[BeaconSyncPeerState:ObjectType] =
cast[ref[BeaconSyncPeerState:ObjectType]](getState(peer, BeaconSyncProtocol))
template networkState(peer: Peer): ref[BeaconSyncNetworkState:ObjectType] =
cast[ref[BeaconSyncNetworkState:ObjectType]](getNetworkState(peer.network,
BeaconSyncProtocol))
let
chainDag = peer.networkState.chainDag
count = blockRoots.len
var found = 0
for root in blockRoots[0 ..< count]:
let blockRef = chainDag.getRef(root)
if not isNil(blockRef):
await response.write(chainDag.get(blockRef).data)
inc found
debug "Block root request done", peer, roots = blockRoots.len, count, found
proc goodbyeUserHandler(peer: Peer; reason: uint64) {.async,
libp2pProtocol("goodbye", 1), gcsafe.} =
type
CurrentProtocol = BeaconSync
template state(peer: Peer): ref[BeaconSyncPeerState:ObjectType] =
cast[ref[BeaconSyncPeerState:ObjectType]](getState(peer, BeaconSyncProtocol))
template networkState(peer: Peer): ref[BeaconSyncNetworkState:ObjectType] =
cast[ref[BeaconSyncNetworkState:ObjectType]](getNetworkState(peer.network,
BeaconSyncProtocol))
debug "Received Goodbye message", reason = disconnectReasonName(reason), peer
template callUserHandler(MSG: type statusObj; peer: Peer; stream: Connection;
msg: StatusMsg): untyped =
var response = init(SingleChunkResponse[StatusMsg], peer, stream)
statusUserHandler(peer, msg, response)
proc statusMounter(network: Eth2Node) =
proc snappyThunk(stream: Connection; protocol: string): Future[void] {.gcsafe.} =
return handleIncomingStream(network, stream, statusObj)
mount network.switch, LPProtocol(codec: "/eth2/beacon_chain/req/status/1/" &
"ssz_snappy", handler: snappyThunk)
template callUserHandler(MSG: type pingObj; peer: Peer; stream: Connection; msg: uint64): untyped =
sendUserHandlerResultAsChunkImpl(stream, pingUserHandler(peer, msg))
proc pingMounter(network: Eth2Node) =
proc snappyThunk(stream: Connection; protocol: string): Future[void] {.gcsafe.} =
return handleIncomingStream(network, stream, pingObj)
mount network.switch, LPProtocol(codec: "/eth2/beacon_chain/req/ping/1/" &
"ssz_snappy", handler: snappyThunk)
template callUserHandler(MSG: type getMetadataObj; peer: Peer; stream: Connection;
msg: getMetadataObj): untyped =
sendUserHandlerResultAsChunkImpl(stream, getMetadataUserHandler(peer))
proc getMetadataMounter(network: Eth2Node) =
proc snappyThunk(stream: Connection; protocol: string): Future[void] {.gcsafe.} =
return handleIncomingStream(network, stream, getMetadataObj)
mount network.switch, LPProtocol(codec: "/eth2/beacon_chain/req/metadata/1/" &
"ssz_snappy", handler: snappyThunk)
template callUserHandler(MSG: type beaconBlocksByRangeObj; peer: Peer;
stream: Connection; msg: beaconBlocksByRangeObj): untyped =
var response = init(MultipleChunksResponse[SignedBeaconBlock], peer, stream)
beaconBlocksByRangeUserHandler(peer, msg.startSlot, msg.count, msg.step, response)
proc beaconBlocksByRangeMounter(network: Eth2Node) =
proc snappyThunk(stream: Connection; protocol: string): Future[void] {.gcsafe.} =
return handleIncomingStream(network, stream, beaconBlocksByRangeObj)
mount network.switch, LPProtocol(codec: "/eth2/beacon_chain/req/beacon_blocks_by_range/1/" &
"ssz_snappy", handler: snappyThunk)
template callUserHandler(MSG: type beaconBlocksByRootObj; peer: Peer;
stream: Connection; msg: BlockRootsList): untyped =
var response = init(MultipleChunksResponse[SignedBeaconBlock], peer, stream)
beaconBlocksByRootUserHandler(peer, msg, response)
proc beaconBlocksByRootMounter(network: Eth2Node) =
proc snappyThunk(stream: Connection; protocol: string): Future[void] {.gcsafe.} =
return handleIncomingStream(network, stream, beaconBlocksByRootObj)
mount network.switch, LPProtocol(codec: "/eth2/beacon_chain/req/beacon_blocks_by_root/1/" &
"ssz_snappy", handler: snappyThunk)
template callUserHandler(MSG: type goodbyeObj; peer: Peer; stream: Connection;
msg: uint64): untyped =
goodbyeUserHandler(peer, msg)
proc goodbyeMounter(network: Eth2Node) =
proc snappyThunk(stream: Connection; protocol: string): Future[void] {.gcsafe.} =
return handleIncomingStream(network, stream, goodbyeObj)
mount network.switch, LPProtocol(codec: "/eth2/beacon_chain/req/goodbye/1/" &
"ssz_snappy", handler: snappyThunk)
registerMsg(BeaconSyncProtocol, "status", statusMounter,
"/eth2/beacon_chain/req/status/1/")
registerMsg(BeaconSyncProtocol, "ping", pingMounter,
"/eth2/beacon_chain/req/ping/1/")
registerMsg(BeaconSyncProtocol, "getMetadata", getMetadataMounter,
"/eth2/beacon_chain/req/metadata/1/")
registerMsg(BeaconSyncProtocol, "beaconBlocksByRange", beaconBlocksByRangeMounter,
"/eth2/beacon_chain/req/beacon_blocks_by_range/1/")
registerMsg(BeaconSyncProtocol, "beaconBlocksByRoot", beaconBlocksByRootMounter,
"/eth2/beacon_chain/req/beacon_blocks_by_root/1/")
registerMsg(BeaconSyncProtocol, "goodbye", goodbyeMounter,
"/eth2/beacon_chain/req/goodbye/1/")
proc BeaconSyncPeerConnected(peer: Peer; incoming: bool) {.async, gcsafe.} =
type
CurrentProtocol = BeaconSync
template state(peer: Peer): ref[BeaconSyncPeerState:ObjectType] =
cast[ref[BeaconSyncPeerState:ObjectType]](getState(peer, BeaconSyncProtocol))
template networkState(peer: Peer): ref[BeaconSyncNetworkState:ObjectType] =
cast[ref[BeaconSyncNetworkState:ObjectType]](getNetworkState(peer.network,
BeaconSyncProtocol))
debug "Peer connected", peer, peerInfo = shortLog(peer.info), incoming
let
ourStatus = peer.networkState.getCurrentStatus()
theirStatus = await peer.status(ourStatus, timeout = 60.seconds)
if theirStatus.isOk:
await peer.handleStatus(peer.networkState, ourStatus, theirStatus.get())
else:
warn "Status response not received in time", peer, error = theirStatus.error
setEventHandlers(BeaconSyncProtocol, BeaconSyncPeerConnected, nil)
registerProtocol(BeaconSyncProtocol)