# Copyright (c) 2018-2021 Status Research & Development GmbH # Licensed and distributed under either of # * MIT license (license terms in the root directory or at https://opensource.org/licenses/MIT). # * Apache v2 license (license terms in the root directory or at https://www.apache.org/licenses/LICENSE-2.0). # at your option. This file may not be copied, modified, or distributed except according to those terms. import std/typetraits import stew/[results, base10, byteutils, endians2], presto/common, libp2p/peerid, serialization, json_serialization, json_serialization/std/[options, net], nimcrypto/utils as ncrutils import ".."/forks, ".."/datatypes/[phase0, altair, merge], ".."/".."/ssz/ssz_serialization, "."/rest_types export results, peerid, common, serialization, json_serialization, options, net, rest_types Json.createFlavor RestJson const DecimalSet = {'0' .. '9'} # Base10 (decimal) set of chars ValidatorKeySize = RawPubKeySize * 2 # Size of `ValidatorPubKey` hexadecimal value (without 0x) ValidatorSigSize = RawSigSize * 2 # Size of `ValidatorSig` hexadecimal value (without 0x) RootHashSize = sizeof(Eth2Digest) * 2 # Size of `xxx_root` hexadecimal value (without 0x) Phase0Version = [byte('p'), byte('h'), byte('a'), byte('s'), byte('e'), byte('0')] AltairVersion = [byte('a'), byte('l'), byte('t'), byte('a'), byte('i'), byte('r')] type RestGenericError* = object code*: uint64 message*: string stacktraces*: Option[seq[string]] RestAttestationError* = object code*: uint64 message*: string failures*: seq[RestAttestationsFailure] EncodeTypes* = AttesterSlashing | ProposerSlashing | phase0.SignedBeaconBlock | altair.SignedBeaconBlock | SignedVoluntaryExit EncodeArrays* = seq[ValidatorIndex] | seq[Attestation] | seq[SignedAggregateAndProof] | seq[RestCommitteeSubscription] DecodeTypes* = DataEnclosedObject | GetBlockV2Response | ProduceBlockResponseV2 | DataMetaEnclosedObject | DataRootEnclosedObject | RestAttestationError | RestGenericError {.push raises: [Defect].} proc prepareJsonResponse*(t: typedesc[RestApiResponse], d: auto): seq[byte] = let res = block: var default: seq[byte] try: var stream = memoryOutput() var writer = JsonWriter[RestJson].init(stream) writer.beginRecord() writer.writeField("data", d) writer.endRecord() stream.getOutput(seq[byte]) except SerializationError: default except IOError: default res proc prepareJsonStringResponse*(t: typedesc[RestApiResponse], d: auto): string = let res = block: var default: string try: var stream = memoryOutput() var writer = JsonWriter[RestJson].init(stream) writer.writeValue(d) stream.getOutput(string) except SerializationError: default except IOError: default res proc jsonResponseWRoot*(t: typedesc[RestApiResponse], data: auto, dependent_root: Eth2Digest): RestApiResponse = let res = block: var default: seq[byte] try: var stream = memoryOutput() var writer = JsonWriter[RestJson].init(stream) writer.beginRecord() writer.writeField("dependent_root", dependent_root) writer.writeField("data", data) writer.endRecord() stream.getOutput(seq[byte]) except SerializationError: default except IOError: default RestApiResponse.response(res, Http200, "application/json") proc jsonResponse*(t: typedesc[RestApiResponse], data: auto): RestApiResponse = let res = block: var default: seq[byte] try: var stream = memoryOutput() var writer = JsonWriter[RestJson].init(stream) writer.beginRecord() writer.writeField("data", data) writer.endRecord() stream.getOutput(seq[byte]) except SerializationError: default except IOError: default RestApiResponse.response(res, Http200, "application/json") proc jsonResponsePlain*(t: typedesc[RestApiResponse], data: auto): RestApiResponse = let res = block: var default: seq[byte] try: var stream = memoryOutput() var writer = JsonWriter[RestJson].init(stream) writer.writeValue(data) stream.getOutput(seq[byte]) except SerializationError: default except IOError: default RestApiResponse.response(res, Http200, "application/json") proc jsonResponseWMeta*(t: typedesc[RestApiResponse], data: auto, meta: auto): RestApiResponse = let res = block: var default: seq[byte] try: var stream = memoryOutput() var writer = JsonWriter[RestJson].init(stream) writer.beginRecord() writer.writeField("data", data) writer.writeField("meta", meta) writer.endRecord() stream.getOutput(seq[byte]) except SerializationError: default except IOError: default RestApiResponse.response(res, Http200, "application/json") proc jsonMsgResponse*(t: typedesc[RestApiResponse], msg: string = ""): RestApiResponse = let data = block: var default: seq[byte] try: var defstrings: seq[string] var stream = memoryOutput() var writer = JsonWriter[RestJson].init(stream) writer.beginRecord() writer.writeField("code", "200") writer.writeField("message", msg) writer.writeField("stacktrace", defstrings) writer.endRecord() stream.getOutput(seq[byte]) except SerializationError: default except IOError: default RestApiResponse.response(data, Http200, "application/json") proc jsonError*(t: typedesc[RestApiResponse], status: HttpCode = Http200, msg: string = ""): RestApiResponse = let data = block: var default: string try: var defstrings: seq[string] var stream = memoryOutput() var writer = JsonWriter[RestJson].init(stream) writer.beginRecord() writer.writeField("code", Base10.toString(uint64(status.toInt()))) writer.writeField("message", msg) writer.writeField("stacktrace", defstrings) writer.endRecord() stream.getOutput(string) except SerializationError: default except IOError: default RestApiResponse.error(status, data, "application/json") proc jsonError*(t: typedesc[RestApiResponse], status: HttpCode = Http200, msg: string = "", stacktrace: string): RestApiResponse = let data = block: var default: string try: var defstrings: seq[string] var stream = memoryOutput() var writer = JsonWriter[RestJson].init(stream) writer.beginRecord() writer.writeField("code", Base10.toString(uint64(status.toInt()))) writer.writeField("message", msg) if len(stacktrace) > 0: writer.writeField("stacktrace", [stacktrace]) else: writer.writeField("stacktrace", defstrings) writer.endRecord() stream.getOutput(string) except SerializationError: default except IOError: default RestApiResponse.error(status, data, "application/json") proc jsonError*(t: typedesc[RestApiResponse], status: HttpCode = Http200, msg: string = "", stacktraces: openarray[string]): RestApiResponse = let data = block: var default: string try: var stream = memoryOutput() var writer = JsonWriter[RestJson].init(stream) writer.beginRecord() writer.writeField("code", Base10.toString(uint64(status.toInt()))) writer.writeField("message", msg) writer.writeField("stacktrace", stacktraces) writer.endRecord() stream.getOutput(string) except SerializationError: default except IOError: default RestApiResponse.error(status, data, "application/json") proc jsonErrorList*(t: typedesc[RestApiResponse], status: HttpCode = Http200, msg: string = "", failures: auto): RestApiResponse = let data = block: var default: string try: var stream = memoryOutput() var writer = JsonWriter[RestJson].init(stream) writer.beginRecord() writer.writeField("code", Base10.toString(uint64(status.toInt()))) writer.writeField("message", msg) writer.writeField("failures", failures) writer.endRecord() stream.getOutput(string) except SerializationError: default except IOError: default RestApiResponse.error(status, data, "application/json") proc sszResponse*(t: typedesc[RestApiResponse], data: auto): RestApiResponse = let res = block: var default: seq[byte] try: var stream = memoryOutput() var writer = SszWriter.init(stream) writer.writeValue(data) stream.getOutput(seq[byte]) except SerializationError: default except IOError: default RestApiResponse.response(res, Http200, "application/octet-stream") template hexOriginal(data: openarray[byte]): string = "0x" & ncrutils.toHex(data, true) ## uint64 proc writeValue*(w: var JsonWriter[RestJson], value: uint64) {. raises: [IOError, Defect].} = writeValue(w, Base10.toString(value)) proc readValue*(reader: var JsonReader[RestJson], value: var uint64) {. raises: [IOError, SerializationError, Defect].} = let svalue = reader.readValue(string) let res = Base10.decode(uint64, svalue) if res.isOk(): value = res.get() else: reader.raiseUnexpectedValue($res.error()) ## byte proc writeValue*(w: var JsonWriter[RestJson], value: byte) {. raises: [IOError, Defect].} = var data: array[1, byte] data[0] = value writeValue(w, hexOriginal(data)) proc readValue*(reader: var JsonReader[RestJson], value: var byte) {. raises: [IOError, SerializationError, Defect].} = var data: array[1, byte] try: hexToByteArray(reader.readValue(string), data) value = data[0] except ValueError: raiseUnexpectedValue(reader, "byte value should be a valid hex string") ## DomainType proc writeValue*(w: var JsonWriter[RestJson], value: DomainType) {. raises: [IOError, Defect].} = writeValue(w, hexOriginal(uint32(value).toBytesLE())) proc readValue*(reader: var JsonReader[RestJson], value: var DomainType) {. raises: [IOError, SerializationError, Defect].} = var data: array[4, byte] try: hexToByteArray(reader.readValue(string), data) let res = uint32.fromBytesLE(data) if res >= uint32(low(DomainType)) and res <= uint32(high(DomainType)): value = cast[DomainType](res) else: raiseUnexpectedValue(reader, "Incorrect DomainType value") except ValueError: raiseUnexpectedValue(reader, "DomainType value should be a valid hex string") ## Slot proc writeValue*(writer: var JsonWriter[RestJson], value: Slot) {. raises: [IOError, Defect].} = writeValue(writer, Base10.toString(uint64(value))) proc readValue*(reader: var JsonReader[RestJson], value: var Slot) {. raises: [IOError, SerializationError, Defect].} = let svalue = reader.readValue(string) let res = Base10.decode(uint64, svalue) if res.isOk(): value = Slot(res.get()) else: reader.raiseUnexpectedValue($res.error()) ## Epoch proc writeValue*(writer: var JsonWriter[RestJson], value: Epoch) {. raises: [IOError, Defect].} = writeValue(writer, Base10.toString(uint64(value))) proc readValue*(reader: var JsonReader[RestJson], value: var Epoch) {. raises: [IOError, SerializationError, Defect].} = let svalue = reader.readValue(string) let res = Base10.decode(uint64, svalue) if res.isOk(): value = Epoch(res.get()) else: reader.raiseUnexpectedValue($res.error()) ## ValidatorIndex proc writeValue*(writer: var JsonWriter[RestJson], value: ValidatorIndex) {. raises: [IOError, Defect].} = writeValue(writer, Base10.toString(uint64(value))) proc readValue*(reader: var JsonReader[RestJson], value: var ValidatorIndex) {. raises: [IOError, SerializationError, Defect].} = let svalue = reader.readValue(string) let res = Base10.decode(uint64, svalue) if res.isOk(): let v = res.get() if v < VALIDATOR_REGISTRY_LIMIT: value = ValidatorIndex(v) else: reader.raiseUnexpectedValue( "Validator index is bigger then VALIDATOR_REGISTRY_LIMIT") else: reader.raiseUnexpectedValue($res.error()) ## RestValidatorIndex proc writeValue*(writer: var JsonWriter[RestJson], value: RestValidatorIndex) {. raises: [IOError, Defect].} = writeValue(writer, Base10.toString(uint64(value))) proc readValue*(reader: var JsonReader[RestJson], value: var RestValidatorIndex) {. raises: [IOError, SerializationError, Defect].} = let svalue = reader.readValue(string) let res = Base10.decode(uint64, svalue) if res.isOk(): let v = res.get() value = RestValidatorIndex(v) else: reader.raiseUnexpectedValue($res.error()) ## CommitteeIndex proc writeValue*(writer: var JsonWriter[RestJson], value: CommitteeIndex) {. raises: [IOError, Defect].} = writeValue(writer, Base10.toString(uint64(value))) proc readValue*(reader: var JsonReader[RestJson], value: var CommitteeIndex) {. raises: [IOError, SerializationError, Defect].} = let svalue = reader.readValue(string) let res = Base10.decode(uint64, svalue) if res.isOk(): value = CommitteeIndex(res.get()) else: reader.raiseUnexpectedValue($res.error()) ## ValidatorSig proc writeValue*(writer: var JsonWriter[RestJson], value: ValidatorSig) {. raises: [IOError, Defect].} = writeValue(writer, hexOriginal(toRaw(value))) proc readValue*(reader: var JsonReader[RestJson], value: var ValidatorSig) {. raises: [IOError, SerializationError, Defect].} = let hexValue = reader.readValue(string) let res = ValidatorSig.fromHex(hexValue) if res.isOk(): value = res.get() else: reader.raiseUnexpectedValue($res.error()) ## TrustedSig proc writeValue*(writer: var JsonWriter[RestJson], value: TrustedSig) {. raises: [IOError, Defect].} = writeValue(writer, hexOriginal(toRaw(value))) proc readValue*(reader: var JsonReader[RestJson], value: var TrustedSig) {. raises: [IOError, SerializationError, Defect].} = let hexValue = reader.readValue(string) let res = ValidatorSig.fromHex(hexValue) if res.isOk(): value = cast[TrustedSig](res.get()) else: reader.raiseUnexpectedValue($res.error()) ## ValidatorPubKey proc writeValue*(writer: var JsonWriter[RestJson], value: ValidatorPubKey) {. raises: [IOError, Defect].} = writeValue(writer, hexOriginal(toRaw(value))) proc readValue*(reader: var JsonReader[RestJson], value: var ValidatorPubKey) {. raises: [IOError, SerializationError, Defect].} = let hexValue = reader.readValue(string) let res = ValidatorPubKey.fromHex(hexValue) if res.isOk(): value = res.get() else: reader.raiseUnexpectedValue($res.error()) ## BitSeq proc readValue*(reader: var JsonReader[RestJson], value: var BitSeq) {. raises: [IOError, SerializationError, Defect].} = try: value = BitSeq hexToSeqByte(reader.readValue(string)) except ValueError: raiseUnexpectedValue(reader, "A BitSeq value should be a valid hex string") proc writeValue*(writer: var JsonWriter[RestJson], value: BitSeq) {. raises: [IOError, Defect].} = writeValue(writer, hexOriginal(value.bytes())) ## BitList proc readValue*(reader: var JsonReader[RestJson], value: var BitList) {. raises: [IOError, SerializationError, Defect].} = type T = type(value) value = T readValue(reader, BitSeq) proc writeValue*(writer: var JsonWriter[RestJson], value: BitList) {. raises: [IOError, Defect].} = writeValue(writer, BitSeq value) ## BitArray proc readValue*(reader: var JsonReader[RestJson], value: var BitArray) {. raises: [IOError, SerializationError, Defect].} = try: hexToByteArray(readValue(reader, string), value.bytes) except ValueError: raiseUnexpectedValue(reader, "A BitArray value should be a valid hex string") proc writeValue*(writer: var JsonWriter[RestJson], value: BitArray) {. raises: [IOError, Defect].} = writeValue(writer, hexOriginal(value.bytes)) ## Eth2Digest proc readValue*(reader: var JsonReader[RestJson], value: var Eth2Digest) {. raises: [IOError, SerializationError, Defect].} = try: hexToByteArray(reader.readValue(string), value.data) except ValueError: raiseUnexpectedValue(reader, "Eth2Digest value should be a valid hex string") proc writeValue*(writer: var JsonWriter[RestJson], value: Eth2Digest) {. raises: [IOError, Defect].} = writeValue(writer, hexOriginal(value.data)) ## BloomLogs proc readValue*(reader: var JsonReader[RestJson], value: var BloomLogs) {. raises: [IOError, SerializationError, Defect].} = try: hexToByteArray(reader.readValue(string), value.data) except ValueError: raiseUnexpectedValue(reader, "BloomLogs value should be a valid hex string") proc writeValue*(writer: var JsonWriter[RestJson], value: BloomLogs) {. raises: [IOError, Defect].} = writeValue(writer, hexOriginal(value.data)) ## HashArray proc readValue*(reader: var JsonReader[RestJson], value: var HashArray) {. raises: [IOError, SerializationError, Defect].} = readValue(reader, value.data) proc writeValue*(writer: var JsonWriter[RestJson], value: HashArray) {. raises: [IOError, Defect].} = writeValue(writer, value.data) ## HashList proc readValue*(reader: var JsonReader[RestJson], value: var HashList) {. raises: [IOError, SerializationError, Defect].} = readValue(reader, value.data) value.resetCache() proc writeValue*(writer: var JsonWriter[RestJson], value: HashList) {. raises: [IOError, Defect].} = writeValue(writer, value.data) ## Eth1Address proc readValue*(reader: var JsonReader[RestJson], value: var Eth1Address) {. raises: [IOError, SerializationError, Defect].} = try: hexToByteArray(reader.readValue(string), distinctBase(value)) except ValueError: raiseUnexpectedValue(reader, "Eth1Address value should be a valid hex string") proc writeValue*(writer: var JsonWriter[RestJson], value: Eth1Address) {. raises: [IOError, Defect].} = writeValue(writer, hexOriginal(distinctBase(value))) ## Version proc readValue*(reader: var JsonReader[RestJson], value: var Version) {. raises: [IOError, SerializationError, Defect].} = try: hexToByteArray(reader.readValue(string), distinctBase(value)) except ValueError: raiseUnexpectedValue(reader, "Version value should be a valid hex string") proc writeValue*(writer: var JsonWriter[RestJson], value: Version) {. raises: [IOError, Defect].} = writeValue(writer, hexOriginal(distinctBase(value))) ## ForkDigest proc readValue*(reader: var JsonReader[RestJson], value: var ForkDigest) {. raises: [IOError, SerializationError, Defect].} = try: hexToByteArray(reader.readValue(string), distinctBase(value)) except ValueError: raiseUnexpectedValue(reader, "ForkDigest value should be a valid hex string") proc writeValue*(writer: var JsonWriter[RestJson], value: ForkDigest) {. raises: [IOError, Defect].} = writeValue(writer, hexOriginal(distinctBase(value))) ## GraffitiBytes proc readValue*(reader: var JsonReader[RestJson], value: var GraffitiBytes) {. raises: [IOError, SerializationError, Defect].} = try: hexToByteArray(reader.readValue(string), distinctBase(value)) except ValueError: raiseUnexpectedValue(reader, "GraffitiBytes value should be a valid hex string") proc writeValue*(writer: var JsonWriter[RestJson], value: GraffitiBytes) {. raises: [IOError, Defect].} = writeValue(writer, hexOriginal(distinctBase(value))) ## ForkedBeaconBlock proc readValue*(reader: var JsonReader[RestJson], value: var ForkedBeaconBlock) {. raises: [IOError, SerializationError, Defect].} = var version: Option[BeaconBlockFork] data: Option[JsonString] for fieldName in readObjectFields(reader): case fieldName of "version": if version.isSome(): reader.raiseUnexpectedField("Multiple version fields found", "ForkedBeaconBlock") let vres = reader.readValue(string) case vres of "phase0": version = some(BeaconBlockFork.Phase0) of "altair": version = some(BeaconBlockFork.Altair) else: reader.raiseUnexpectedValue("Incorrect version field value") of "data": if data.isSome(): reader.raiseUnexpectedField("Multiple data fields found", "ForkedBeaconBlock") data = some(reader.readValue(JsonString)) else: reader.raiseUnexpectedField(fieldName, "ForkedBeaconBlock") if version.isNone(): reader.raiseUnexpectedValue("Field version is missing") if data.isNone(): reader.raiseUnexpectedValue("Field data is missing") case version.get(): of BeaconBlockFork.Phase0: let res = try: some(RestJson.decode(string(data.get()), phase0.BeaconBlock, requireAllFields = true)) except SerializationError: none[phase0.BeaconBlock]() if res.isNone(): reader.raiseUnexpectedValue("Incorrect phase0 block format") value = ForkedBeaconBlock.init(res.get()) of BeaconBlockFork.Altair: let res = try: some(RestJson.decode(string(data.get()), altair.BeaconBlock, requireAllFields = true)) except SerializationError: none[altair.BeaconBlock]() if res.isNone(): reader.raiseUnexpectedValue("Incorrect altair block format") value = ForkedBeaconBlock.init(res.get()) proc writeValue*(writer: var JsonWriter[RestJson], value: ForkedBeaconBlock) {. raises: [IOError, Defect].} = writer.beginRecord() case value.kind of BeaconBlockFork.Phase0: writer.writeField("version", "phase0") writer.writeField("data", value.phase0Block) of BeaconBlockFork.Altair: writer.writeField("version", "altair") writer.writeField("data", value.altairBlock) writer.endRecord() ## ForkedSignedBeaconBlock proc readValue*(reader: var JsonReader[RestJson], value: var ForkedSignedBeaconBlock) {. raises: [IOError, SerializationError, Defect].} = var version: Option[BeaconBlockFork] data: Option[JsonString] for fieldName in readObjectFields(reader): case fieldName of "version": if version.isSome(): reader.raiseUnexpectedField("Multiple version fields found", "ForkedSignedBeaconBlock") let vres = reader.readValue(string) case vres of "phase0": version = some(BeaconBlockFork.Phase0) of "altair": version = some(BeaconBlockFork.Altair) else: reader.raiseUnexpectedValue("Incorrect version field value") of "data": if data.isSome(): reader.raiseUnexpectedField("Multiple data fields found", "ForkedSignedBeaconBlock") data = some(reader.readValue(JsonString)) else: reader.raiseUnexpectedField(fieldName, "ForkedSignedBeaconBlock") if version.isNone(): reader.raiseUnexpectedValue("Field version is missing") if data.isNone(): reader.raiseUnexpectedValue("Field data is missing") case version.get(): of BeaconBlockFork.Phase0: let res = try: some(RestJson.decode(string(data.get()), phase0.SignedBeaconBlock, requireAllFields = true)) except SerializationError: none[phase0.SignedBeaconBlock]() if res.isNone(): reader.raiseUnexpectedValue("Incorrect phase0 block format") value = ForkedSignedBeaconBlock.init(res.get()) of BeaconBlockFork.Altair: let res = try: some(RestJson.decode(string(data.get()), altair.SignedBeaconBlock, requireAllFields = true)) except SerializationError: none[altair.SignedBeaconBlock]() if res.isNone(): reader.raiseUnexpectedValue("Incorrect altair block format") value = ForkedSignedBeaconBlock.init(res.get()) proc writeValue*(writer: var JsonWriter[RestJson], value: ForkedSignedBeaconBlock) {. raises: [IOError, Defect].} = writer.beginRecord() case value.kind of BeaconBlockFork.Phase0: writer.writeField("version", "phase0") writer.writeField("data", value.phase0Block) of BeaconBlockFork.Altair: writer.writeField("version", "altair") writer.writeField("data", value.altairBlock) writer.endRecord() # ForkedBeaconState proc readValue*(reader: var JsonReader[RestJson], value: var ForkedBeaconState) {. raises: [IOError, SerializationError, Defect].} = var version: Option[BeaconStateFork] data: Option[JsonString] for fieldName in readObjectFields(reader): case fieldName of "version": if version.isSome(): reader.raiseUnexpectedField("Multiple version fields found", "ForkedBeaconState") let vres = reader.readValue(string) case vres of "phase0": version = some(BeaconStateFork.forkPhase0) of "altair": version = some(BeaconStateFork.forkAltair) else: reader.raiseUnexpectedValue("Incorrect version field value") of "data": if data.isSome(): reader.raiseUnexpectedField("Multiple data fields found", "ForkedBeaconState") data = some(reader.readValue(JsonString)) else: reader.raiseUnexpectedField(fieldName, "ForkedBeaconState") if version.isNone(): reader.raiseUnexpectedValue("Field version is missing") if data.isNone(): reader.raiseUnexpectedValue("Field data is missing") case version.get(): of BeaconStateFork.forkPhase0: let res = try: some(RestJson.decode(string(data.get()), phase0.BeaconState, requireAllFields = true)) except SerializationError: none[phase0.BeaconState]() if res.isNone(): reader.raiseUnexpectedValue("Incorrect phase0 beacon state format") value = ForkedBeaconState.init(res.get()) of BeaconStateFork.forkAltair: let res = try: some(RestJson.decode(string(data.get()), altair.BeaconState, requireAllFields = true)) except SerializationError: none[altair.BeaconState]() if res.isNone(): reader.raiseUnexpectedValue("Incorrect altair beacon state format") value = ForkedBeaconState.init(res.get()) proc writeValue*(writer: var JsonWriter[RestJson], value: ForkedBeaconState) {. raises: [IOError, Defect].} = writer.beginRecord() case value.beaconStateFork of BeaconStateFork.forkPhase0: writer.writeField("version", "phase0") writer.writeField("data", value.bsPhase0) of BeaconStateFork.forkAltair: writer.writeField("version", "altair") writer.writeField("data", value.bsAltair) writer.endRecord() template toSszType*(v: BeaconBlockFork): auto = case v of BeaconBlockFork.Phase0: Phase0Version of BeaconBlockFork.Altair: AltairVersion template toSszType*(v: BeaconStateFork): auto = case v of BeaconStateFork.forkPhase0: Phase0Version of BeaconStateFork.forkAltair: AltairVersion # SyncCommitteeIndex proc writeValue*(writer: var JsonWriter[RestJson], value: SyncCommitteeIndex) {. raises: [IOError, Defect].} = writeValue(writer, Base10.toString(uint8(value))) proc readValue*(reader: var JsonReader[RestJson], value: var SyncCommitteeIndex) {. raises: [IOError, SerializationError, Defect].} = let res = Base10.decode(uint8, reader.readValue(string)) if res.isOk(): # TODO (cheatfate): Here should be present check for maximum value. value = SyncCommitteeIndex(res.get()) else: reader.raiseUnexpectedValue($res.error()) proc parseRoot(value: string): Result[Eth2Digest, cstring] = try: ok(Eth2Digest(data: hexToByteArray[32](value))) except ValueError: err("Unable to decode root value") proc decodeBody*[T](t: typedesc[T], body: ContentBody): Result[T, cstring] = if body.contentType != "application/json": return err("Unsupported content type") let data = try: RestJson.decode(cast[string](body.data), T) except SerializationError: return err("Unable to deserialize data") except CatchableError: return err("Unexpected deserialization error") ok(data) RestJson.useCustomSerialization(phase0.BeaconState.justification_bits): read: let s = reader.readValue(string) if s.len != 4: raiseUnexpectedValue(reader, "A string with 4 characters expected") try: hexToByteArray(s, 1)[0] except ValueError: raiseUnexpectedValue(reader, "The `justification_bits` value must be a hex string") write: writer.writeValue "0x" & toHex([value]) proc encodeBytes*[T: EncodeTypes](value: T, contentType: string): RestResult[seq[byte]] = case contentType of "application/json": let data = block: try: var stream = memoryOutput() var writer = JsonWriter[RestJson].init(stream) writer.writeValue(value) stream.getOutput(seq[byte]) except IOError: return err("Input/output error") except SerializationError: return err("Serialization error") ok(data) else: err("Content-Type not supported") proc encodeBytes*[T: EncodeArrays](value: T, contentType: string): RestResult[seq[byte]] = case contentType of "application/json": let data = block: try: var stream = memoryOutput() var writer = JsonWriter[RestJson].init(stream) writer.writeArray(value) stream.getOutput(seq[byte]) except IOError: return err("Input/output error") except SerializationError: return err("Serialization error") ok(data) else: err("Content-Type not supported") proc decodeBytes*[T: DecodeTypes](t: typedesc[T], value: openarray[byte], contentType: string): RestResult[T] = case contentType of "application/json": try: ok RestJson.decode(value, T) except SerializationError as exc: err("Serialization error") else: err("Content-Type not supported") proc encodeString*(value: string): RestResult[string] = ok(value) proc encodeString*(value: Epoch|Slot|CommitteeIndex): RestResult[string] = ok(Base10.toString(uint64(value))) proc encodeString*(value: ValidatorSig): RestResult[string] = ok(hexOriginal(toRaw(value))) proc encodeString*(value: GraffitiBytes): RestResult[string] = ok(hexOriginal(distinctBase(value))) proc encodeString*(value: Eth2Digest): RestResult[string] = ok(hexOriginal(value.data)) proc encodeString*(value: ValidatorIdent): RestResult[string] = case value.kind of ValidatorQueryKind.Index: ok(Base10.toString(uint64(value.index))) of ValidatorQueryKind.Key: ok(hexOriginal(toRaw(value.key))) proc encodeString*(value: StateIdent): RestResult[string] = case value.kind of StateQueryKind.Slot: ok(Base10.toString(uint64(value.slot))) of StateQueryKind.Root: ok(hexOriginal(value.root.data)) of StateQueryKind.Named: case value.value of StateIdentType.Head: ok("head") of StateIdentType.Genesis: ok("genesis") of StateIdentType.Finalized: ok("finalized") of StateIdentType.Justified: ok("justified") proc encodeString*(value: BlockIdent): RestResult[string] = case value.kind of BlockQueryKind.Slot: ok(Base10.toString(uint64(value.slot))) of BlockQueryKind.Root: ok(hexOriginal(value.root.data)) of BlockQueryKind.Named: case value.value of BlockIdentType.Head: ok("head") of BlockIdentType.Genesis: ok("genesis") of BlockIdentType.Finalized: ok("finalized") proc decodeString*(t: typedesc[PeerStateKind], value: string): Result[PeerStateKind, cstring] = case value of "disconnected": ok(PeerStateKind.Disconnected) of "connecting": ok(PeerStateKind.Connecting) of "connected": ok(PeerStateKind.Connected) of "disconnecting": ok(PeerStateKind.Disconnecting) else: err("Incorrect peer's state value") proc encodeString*(value: PeerStateKind): Result[string, cstring] = case value of PeerStateKind.Disconnected: ok("disconnected") of PeerStateKind.Connecting: ok("connecting") of PeerStateKind.Connected: ok("connected") of PeerStateKind.Disconnecting: ok("disconnecting") proc decodeString*(t: typedesc[PeerDirectKind], value: string): Result[PeerDirectKind, cstring] = case value of "inbound": ok(PeerDirectKind.Inbound) of "outbound": ok(PeerDirectKind.Outbound) else: err("Incorrect peer's direction value") proc encodeString*(value: PeerDirectKind): Result[string, cstring] = case value of PeerDirectKind.Inbound: ok("inbound") of PeerDirectKind.Outbound: ok("outbound") proc encodeString*(peerid: PeerID): Result[string, cstring] = ok($peerid) proc decodeString*(t: typedesc[EventTopic], value: string): Result[EventTopic, cstring] = case value of "head": ok(EventTopic.Head) of "block": ok(EventTopic.Block) of "attestation": ok(EventTopic.Attestation) of "voluntary_exit": ok(EventTopic.VoluntaryExit) of "finalized_checkpoint": ok(EventTopic.FinalizedCheckpoint) of "chain_reorg": ok(EventTopic.ChainReorg) of "contribution_and_proof": ok(EventTopic.ContributionAndProof) else: err("Incorrect event's topic value") proc decodeString*(t: typedesc[ValidatorSig], value: string): Result[ValidatorSig, cstring] = if len(value) != ValidatorSigSize + 2: return err("Incorrect validator signature value length") if value[0] != '0' and value[1] != 'x': return err("Incorrect validator signature encoding") ValidatorSig.fromHex(value) proc decodeString*(t: typedesc[GraffitiBytes], value: string): Result[GraffitiBytes, cstring] = try: ok(GraffitiBytes.init(value)) except ValueError: err("Unable to decode graffiti value") proc decodeString*(t: typedesc[string], value: string): Result[string, cstring] = ok(value) proc decodeString*(t: typedesc[Slot], value: string): Result[Slot, cstring] = let res = ? Base10.decode(uint64, value) ok(Slot(res)) proc decodeString*(t: typedesc[Epoch], value: string): Result[Epoch, cstring] = let res = ? Base10.decode(uint64, value) ok(Epoch(res)) proc decodeString*(t: typedesc[uint64], value: string): Result[uint64, cstring] = Base10.decode(uint64, value) proc decodeString*(t: typedesc[StateIdent], value: string): Result[StateIdent, cstring] = if len(value) > 2: if (value[0] == '0') and (value[1] == 'x'): if len(value) != RootHashSize + 2: err("Incorrect state root value length") else: let res = ? parseRoot(value) ok(StateIdent(kind: StateQueryKind.Root, root: res)) elif (value[0] in DecimalSet) and (value[1] in DecimalSet): let res = ? Base10.decode(uint64, value) ok(StateIdent(kind: StateQueryKind.Slot, slot: Slot(res))) else: case value of "head": ok(StateIdent(kind: StateQueryKind.Named, value: StateIdentType.Head)) of "genesis": ok(StateIdent(kind: StateQueryKind.Named, value: StateIdentType.Genesis)) of "finalized": ok(StateIdent(kind: StateQueryKind.Named, value: StateIdentType.Finalized)) of "justified": ok(StateIdent(kind: StateQueryKind.Named, value: StateIdentType.Justified)) else: err("Incorrect state identifier value") else: let res = ? Base10.decode(uint64, value) ok(StateIdent(kind: StateQueryKind.Slot, slot: Slot(res))) proc decodeString*(t: typedesc[BlockIdent], value: string): Result[BlockIdent, cstring] = if len(value) > 2: if (value[0] == '0') and (value[1] == 'x'): if len(value) != RootHashSize + 2: err("Incorrect block root value length") else: let res = ? parseRoot(value) ok(BlockIdent(kind: BlockQueryKind.Root, root: res)) elif (value[0] in DecimalSet) and (value[1] in DecimalSet): let res = ? Base10.decode(uint64, value) ok(BlockIdent(kind: BlockQueryKind.Slot, slot: Slot(res))) else: case value of "head": ok(BlockIdent(kind: BlockQueryKind.Named, value: BlockIdentType.Head)) of "genesis": ok(BlockIdent(kind: BlockQueryKind.Named, value: BlockIdentType.Genesis)) of "finalized": ok(BlockIdent(kind: BlockQueryKind.Named, value: BlockIdentType.Finalized)) else: err("Incorrect block identifier value") else: let res = ? Base10.decode(uint64, value) ok(BlockIdent(kind: BlockQueryKind.Slot, slot: Slot(res))) proc decodeString*(t: typedesc[ValidatorIdent], value: string): Result[ValidatorIdent, cstring] = if len(value) > 2: if (value[0] == '0') and (value[1] == 'x'): if len(value) != ValidatorKeySize + 2: err("Incorrect validator's key value length") else: let res = ? ValidatorPubKey.fromHex(value) ok(ValidatorIdent(kind: ValidatorQueryKind.Key, key: res)) elif (value[0] in DecimalSet) and (value[1] in DecimalSet): let res = ? Base10.decode(uint64, value) ok(ValidatorIdent(kind: ValidatorQueryKind.Index, index: RestValidatorIndex(res))) else: err("Incorrect validator identifier value") else: let res = ? Base10.decode(uint64, value) ok(ValidatorIdent(kind: ValidatorQueryKind.Index, index: RestValidatorIndex(res))) proc decodeString*(t: typedesc[PeerID], value: string): Result[PeerID, cstring] = PeerID.init(value) proc decodeString*(t: typedesc[CommitteeIndex], value: string): Result[CommitteeIndex, cstring] = let res = ? Base10.decode(uint64, value) ok(CommitteeIndex(res)) proc decodeString*(t: typedesc[Eth2Digest], value: string): Result[Eth2Digest, cstring] = if len(value) != RootHashSize + 2: return err("Incorrect root value length") if value[0] != '0' and value[1] != 'x': return err("Incorrect root value encoding") parseRoot(value) proc decodeString*(t: typedesc[ValidatorFilter], value: string): Result[ValidatorFilter, cstring] = case value of "pending_initialized": ok({ValidatorFilterKind.PendingInitialized}) of "pending_queued": ok({ValidatorFilterKind.PendingQueued}) of "active_ongoing": ok({ValidatorFilterKind.ActiveOngoing}) of "active_exiting": ok({ValidatorFilterKind.ActiveExiting}) of "active_slashed": ok({ValidatorFilterKind.ActiveSlashed}) of "exited_unslashed": ok({ValidatorFilterKind.ExitedUnslashed}) of "exited_slashed": ok({ValidatorFilterKind.ExitedSlashed}) of "withdrawal_possible": ok({ValidatorFilterKind.WithdrawalPossible}) of "withdrawal_done": ok({ValidatorFilterKind.WithdrawalDone}) of "pending": ok({ ValidatorFilterKind.PendingInitialized, ValidatorFilterKind.PendingQueued }) of "active": ok({ ValidatorFilterKind.ActiveOngoing, ValidatorFilterKind.ActiveExiting, ValidatorFilterKind.ActiveSlashed }) of "exited": ok({ ValidatorFilterKind.ExitedUnslashed, ValidatorFilterKind.ExitedSlashed }) of "withdrawal": ok({ ValidatorFilterKind.WithdrawalPossible, ValidatorFilterKind.WithdrawalDone }) else: err("Incorrect validator state identifier value")