303 lines
10 KiB
Nim
303 lines
10 KiB
Nim
# Nimbus
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# Copyright (c) 2018 Status Research & Development GmbH
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# Licensed under either of
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# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE))
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# * MIT license ([LICENSE-MIT](LICENSE-MIT))
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# at your option.
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# This file may not be copied, modified, or distributed except according to
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# those terms.
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## This module implements the Ethereum hexadecimal string formats for JSON
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## See: https://github.com/ethereum/wiki/wiki/JSON-RPC#hex-value-encoding
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#[
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Note:
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The following types are converted to hex strings when marshalled to JSON:
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* EthAddress
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* ref EthAddress
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* Hash256
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* UInt256
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* seq[byte]
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* openArray[seq]
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* ref BloomFilter
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* PublicKey
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* PrivateKey
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* Topic
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* Bytes
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]#
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import
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stint, stew/byteutils, eth/[keys, rlp], eth/common/eth_types
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type
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HexQuantityStr* = distinct string
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HexDataStr* = distinct string
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EthAddressStr* = distinct string # Same as HexDataStr but must be less <= 20 bytes
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EthHashStr* = distinct string # Same as HexDataStr but must be exactly 32 bytes
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HexStrings = HexQuantityStr | HexDataStr | EthAddressStr | EthHashStr
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template len*(value: HexStrings): int = value.string.len
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# Hex validation
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template stripLeadingZeros(value: string): string =
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var cidx = 0
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# ignore the last character so we retain '0' on zero value
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while cidx < value.len - 1 and value[cidx] == '0':
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cidx.inc
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value[cidx .. ^1]
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func encodeQuantity*(value: SomeUnsignedInt): HexQuantityStr {.inline.} =
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var hValue = value.toHex.stripLeadingZeros
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result = HexQuantityStr("0x" & hValue)
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func encodeQuantity*(value: UInt256): HexQuantityStr {.inline.} =
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var hValue = value.toHex
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result = HexQuantityStr("0x" & hValue)
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template hasHexHeader(value: string): bool =
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if value.len >= 2 and value[0] == '0' and value[1] in {'x', 'X'}: true
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else: false
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template isHexChar(c: char): bool =
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if c notin {'0'..'9'} and
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c notin {'a'..'f'} and
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c notin {'A'..'F'}: false
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else: true
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func `==`*(a, b: HexQuantityStr): bool {.inline.} =
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a.string == b.string
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func `==`*(a, b: EthAddressStr): bool {.inline.} =
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a.string == b.string
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func `==`*(a, b: HexDataStr): bool {.inline.} =
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a.string == b.string
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func isValidHexQuantity*(value: string): bool =
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if not value.hasHexHeader:
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return false
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# No leading zeros (but allow 0x0)
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if value.len < 3 or (value.len > 3 and value[2] == '0'): return false
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for i in 2 ..< value.len:
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let c = value[i]
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if not c.isHexChar:
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return false
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return true
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func isValidHexData*(value: string, header = true): bool =
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if header and not value.hasHexHeader:
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return false
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# Must be even number of digits
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if value.len mod 2 != 0: return false
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# Leading zeros are allowed
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for i in 2 ..< value.len:
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let c = value[i]
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if not c.isHexChar:
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return false
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return true
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template isValidHexData(value: string, hexLen: int, header = true): bool =
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value.len == hexLen and value.isValidHexData(header)
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func isValidEthAddress*(value: string): bool =
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# 20 bytes for EthAddress plus "0x"
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# Addresses are allowed to be shorter than 20 bytes for convenience
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result = value.len <= 42 and value.isValidHexData
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func isValidEthHash*(value: string): bool =
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# 32 bytes for EthAddress plus "0x"
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# Currently hashes are required to be exact lengths
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# TODO: Allow shorter hashes (pad with zeros) for convenience?
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result = value.isValidHexData(66)
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func isValidPublicKey*(value: string): bool =
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# 65 bytes for Public Key plus 1 byte for 0x prefix
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result = value.isValidHexData(132)
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func isValidPrivateKey*(value: string): bool =
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# 32 bytes for Private Key plus 1 byte for 0x prefix
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result = value.isValidHexData(66)
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func isValidHash256*(value: string): bool =
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# 32 bytes for Hash256 plus 1 byte for 0x prefix
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result = value.isValidHexData(66)
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func isValidTopic*(value: string): bool =
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# 4 bytes for Topic plus 1 byte for 0x prefix
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result = value.isValidHexData(10)
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const
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SInvalidQuantity = "Invalid hex quantity format for Ethereum"
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SInvalidData = "Invalid hex data format for Ethereum"
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SInvalidAddress = "Invalid address format for Ethereum"
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SInvalidHash = "Invalid hash format for Ethereum"
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proc validateHexQuantity*(value: string) {.inline.} =
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if unlikely(not value.isValidHexQuantity):
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raise newException(ValueError, SInvalidQuantity & ": " & value)
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proc validateHexData*(value: string) {.inline.} =
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if unlikely(not value.isValidHexData):
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raise newException(ValueError, SInvalidData & ": " & value)
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proc validateHexAddressStr*(value: string) {.inline.} =
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if unlikely(not value.isValidEthAddress):
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raise newException(ValueError, SInvalidAddress & ": " & value)
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proc validateHashStr*(value: string) {.inline.} =
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if unlikely(not value.isValidEthHash):
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raise newException(ValueError, SInvalidHash & ": " & value)
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# Initialisation
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proc hexQuantityStr*(value: string): HexQuantityStr {.inline.} =
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value.validateHexQuantity
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result = value.HexQuantityStr
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proc hexDataStr*(value: string): HexDataStr {.inline.} =
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value.validateHexData
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result = value.HexDataStr
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proc hexDataStr*(value: openArray[byte]): HexDataStr {.inline.} =
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result = HexDataStr("0x" & value.toHex)
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proc hexDataStr*(value: Uint256): HexDataStr {.inline.} =
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result = HexDataStr("0x" & toBytesBE(value).toHex)
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proc ethAddressStr*(value: string): EthAddressStr {.inline.} =
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value.validateHexAddressStr
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result = value.EthAddressStr
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func ethAddressStr*(x: EthAddress): EthAddressStr {.inline.} =
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result = EthAddressStr("0x" & toHex(x))
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proc ethHashStr*(value: string): EthHashStr {.inline.} =
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value.validateHashStr
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result = value.EthHashStr
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func ethHashStr*(value: Hash256): EthHashStr {.inline.} =
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result = EthHashStr("0x" & value.data.toHex)
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# Converters for use in RPC
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import json
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from json_rpc/rpcserver import expect
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proc `%`*(value: HexStrings): JsonNode =
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result = %(value.string)
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# Overloads to support expected representation of hex data
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proc `%`*(value: EthAddress): JsonNode =
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result = %("0x" & value.toHex)
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proc `%`*(value: ref EthAddress): JsonNode =
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result = %("0x" & value[].toHex)
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proc `%`*(value: Hash256): JsonNode =
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#result = %("0x" & $value) # More clean but no lowercase :(
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result = %("0x" & value.data.toHex)
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proc `%`*(value: UInt256): JsonNode =
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result = %("0x" & value.toString(16))
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proc `%`*(value: ref BloomFilter): JsonNode =
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result = %("0x" & toHex[256](value[]))
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proc `%`*(value: PublicKey): JsonNode =
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result = %("0x04" & $value)
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proc `%`*(value: PrivateKey): JsonNode =
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result = %("0x" & $value)
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proc `%`*(value: seq[byte]): JsonNode =
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result = %("0x" & value.toHex)
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# Helpers for the fromJson procs
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proc toPublicKey*(key: string): PublicKey {.inline.} =
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result = PublicKey.fromHex(key[4 .. ^1]).tryGet()
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proc toPrivateKey*(key: string): PrivateKey {.inline.} =
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result = PrivateKey.fromHex(key[2 .. ^1]).tryGet()
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# Marshalling from JSON to Nim types that includes format checking
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func invalidMsg(name: string): string = "When marshalling from JSON, parameter \"" & name & "\" is not valid"
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proc fromJson*(n: JsonNode, argName: string, result: var HexQuantityStr) =
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n.kind.expect(JString, argName)
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let hexStr = n.getStr()
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if not hexStr.isValidHexQuantity:
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raise newException(ValueError, invalidMsg(argName) & " as an Ethereum hex quantity \"" & hexStr & "\"")
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result = hexStr.hexQuantityStr
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proc fromJson*(n: JsonNode, argName: string, result: var HexDataStr) =
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n.kind.expect(JString, argName)
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let hexStr = n.getStr()
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if not hexStr.isValidHexData:
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raise newException(ValueError, invalidMsg(argName) & " as Ethereum data \"" & hexStr & "\"")
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result = hexStr.hexDataStr
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proc fromJson*(n: JsonNode, argName: string, result: var EthAddressStr) =
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n.kind.expect(JString, argName)
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let hexStr = n.getStr()
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if not hexStr.isValidEthAddress:
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raise newException(ValueError, invalidMsg(argName) & "\" as an Ethereum address \"" & hexStr & "\"")
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result = hexStr.EthAddressStr
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proc fromJson*(n: JsonNode, argName: string, result: var EthAddress) =
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n.kind.expect(JString, argName)
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let hexStr = n.getStr()
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if not hexStr.isValidEthAddress:
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raise newException(ValueError, invalidMsg(argName) & "\" as an Ethereum address \"" & hexStr & "\"")
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hexToByteArray(hexStr, result)
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proc fromJson*(n: JsonNode, argName: string, result: var EthHashStr) =
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n.kind.expect(JString, argName)
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let hexStr = n.getStr()
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if not hexStr.isValidEthHash:
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raise newException(ValueError, invalidMsg(argName) & " as an Ethereum hash \"" & hexStr & "\"")
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result = hexStr.EthHashStr
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proc fromJson*(n: JsonNode, argName: string, result: var UInt256) =
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n.kind.expect(JString, argName)
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let hexStr = n.getStr()
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if not (hexStr.len <= 66 and hexStr.isValidHexQuantity):
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raise newException(ValueError, invalidMsg(argName) & " as a UInt256 \"" & hexStr & "\"")
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result = readUintBE[256](hexToPaddedByteArray[32](hexStr))
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proc fromJson*(n: JsonNode, argName: string, result: var PublicKey) =
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n.kind.expect(JString, argName)
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let hexStr = n.getStr()
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if not hexStr.isValidPublicKey:
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raise newException(ValueError, invalidMsg(argName) & " as a public key \"" & hexStr & "\"")
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result = hexStr.toPublicKey
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proc fromJson*(n: JsonNode, argName: string, result: var PrivateKey) =
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n.kind.expect(JString, argName)
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let hexStr = n.getStr()
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if not hexStr.isValidPrivateKey:
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raise newException(ValueError, invalidMsg(argName) & " as a private key \"" & hexStr & "\"")
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result = hexStr.toPrivateKey
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# Following procs currently required only for testing, the `createRpcSigs` macro
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# requires it as it will convert the JSON results back to the original Nim
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# types, but it needs the `fromJson` calls for those specific Nim types to do so
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proc fromJson*(n: JsonNode, argName: string, result: var seq[byte]) =
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n.kind.expect(JString, argName)
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let hexStr = n.getStr()
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if not hexStr.isValidHexData:
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raise newException(ValueError, invalidMsg(argName) & " as a hex data \"" & hexStr & "\"")
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result = hexToSeqByte(hexStr)
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proc fromJson*(n: JsonNode, argName: string, result: var Hash256) =
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n.kind.expect(JString, argName)
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let hexStr = n.getStr()
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if not hexStr.isValidHash256:
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raise newException(ValueError, invalidMsg(argName) & " as a Hash256 \"" & hexStr & "\"")
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hexToByteArray(hexStr, result.data)
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proc fromJson*(n: JsonNode, argName: string, result: var JsonNode) =
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result = n
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