nimbus-eth1/nimbus/p2p/clique/clique_cfg.nim

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Nim

# Nimbus
# Copyright (c) 2018 Status Research & Development GmbH
# Licensed under either of
# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or
# http://www.apache.org/licenses/LICENSE-2.0)
# * MIT license ([LICENSE-MIT](LICENSE-MIT) or
# http://opensource.org/licenses/MIT)
# at your option. This file may not be copied, modified, or distributed except
# according to those terms.
##
## Clique PoA Conmmon Config
## =========================
##
## Constants used by Clique proof-of-authority consensus protocol, see
## `EIP-225 <https://github.com/ethereum/EIPs/blob/master/EIPS/eip-225.md>`_
## and
## `go-ethereum <https://github.com/ethereum/EIPs/blob/master/EIPS/eip-225.md>`_
##
import
std/[random, sequtils, strutils, times],
../../db/db_chain,
../../utils/ec_recover,
./clique_defs,
eth/common,
ethash,
stew/results,
stint
const
prngSeed = 42
type
SimpleTypePP = BlockNonce|EthAddress|Blob|BlockHeader
SeqTypePP = EthAddress|BlockHeader
PrettyPrintDefect* = object of Defect
## Defect raised with `pp()` problems, should be used for debugging only
PrettyPrinters* = object ## Set of pretty printers for debugging
nonce*: proc(v: BlockNonce):
string {.gcsafe,raises: [Defect,CatchableError].}
address*: proc(v: EthAddress):
string {.gcsafe,raises: [Defect,CatchableError].}
extraData*: proc(v: Blob):
string {.gcsafe,raises: [Defect,CatchableError].}
blockHeader*: proc(v: BlockHeader; delim: string):
string {.gcsafe,raises: [Defect,CatchableError].}
CliqueCfg* = ref object of RootRef
db*: BaseChainDB ##\
## All purpose (incl. blockchain) database.
period: Duration ##\
## Time between blocks to enforce.
ckpInterval: int ##\
## Number of blocks after which to save the vote snapshot to the
## database.
roThreshold: int ##\
## Number of blocks after which a chain segment is considered immutable
## (ie. soft finality). It is used by the downloader as a hard limit
## against deep ancestors, by the blockchain against deep reorgs, by the
## freezer as the cutoff threshold and by clique as the snapshot trust
## limit.
prng: Rand ##\
## PRNG state for internal random generator. This PRNG is
## cryptographically insecure but with reproducible data stream.
signatures: EcRecover ##\
## Recent block signatures cached to speed up mining.
epoch: int ##\
## The number of blocks after which to checkpoint and reset the pending
## votes.Suggested 30000 for the testnet to remain analogous to the
## mainnet ethash epoch.
logInterval: Duration ##\
## Time interval after which the `snapshotApply()` function main loop
## produces logging entries.
debug*: bool ##\
## Debug mode flag
prettyPrint*: PrettyPrinters ##\
## debugging support
{.push raises: [Defect].}
# ------------------------------------------------------------------------------
# Public constructor
# ------------------------------------------------------------------------------
proc newCliqueCfg*(db: BaseChainDB): CliqueCfg =
result = CliqueCfg(
db: db,
epoch: EPOCH_LENGTH,
period: BLOCK_PERIOD,
ckpInterval: CHECKPOINT_INTERVAL,
roThreshold: FULL_IMMUTABILITY_THRESHOLD,
logInterval: SNAPS_LOG_INTERVAL_MICSECS,
signatures: EcRecover.init(),
prng: initRand(prngSeed),
prettyPrint: PrettyPrinters(
nonce: proc(v:BlockNonce): string = $v,
address: proc(v:EthAddress): string = $v,
extraData: proc(v:Blob): string = $v,
blockHeader: proc(v:BlockHeader; delim:string): string = $v))
# ------------------------------------------------------------------------------
# Public helper funcion
# ------------------------------------------------------------------------------
# clique/clique.go(145): func ecrecover(header [..]
proc ecRecover*(cfg: CliqueCfg; header: BlockHeader): auto
{.gcsafe, raises: [Defect,CatchableError].} =
cfg.signatures.ecRecover(header)
# ------------------------------------------------------------------------------
# Public setters
# ------------------------------------------------------------------------------
proc `epoch=`*(cfg: CliqueCfg; epoch: SomeInteger) {.inline.} =
## Setter
cfg.epoch = if 0 < epoch: epoch
else: EPOCH_LENGTH
proc `period=`*(cfg: CliqueCfg; period: Duration) {.inline.} =
## Setter
cfg.period = if period != Duration(): period
else: BLOCK_PERIOD
proc `ckpInterval=`*(cfg: CliqueCfg; numBlocks: SomeInteger) {.inline.} =
## Setter
cfg.ckpInterval = if 0 < numBlocks: numBlocks
else: CHECKPOINT_INTERVAL
proc `roThreshold=`*(cfg: CliqueCfg; numBlocks: SomeInteger) {.inline.} =
## Setter
cfg.roThreshold = if 0 < numBlocks: numBlocks
else: FULL_IMMUTABILITY_THRESHOLD
proc `logInterval=`*(cfg: CliqueCfg; duration: Duration) {.inline.} =
## Setter
cfg.logInterval = if duration != Duration(): duration
else: SNAPS_LOG_INTERVAL_MICSECS
# ------------------------------------------------------------------------------
# Public PRNG, may be overloaded
# ------------------------------------------------------------------------------
method rand*(cfg: CliqueCfg; max: Natural): int {.gcsafe,base.} =
## The method returns a random number base on an internal PRNG providing a
## reproducible stream of random data. This function is supposed to be used
## exactly when repeatability comes in handy. Never to be used for crypto key
## generation or like (except testing.)
cfg.prng.rand(max)
# ------------------------------------------------------------------------------
# Public getter
# ------------------------------------------------------------------------------
proc epoch*(cfg: CliqueCfg): auto {.inline.} =
## Getter
cfg.epoch.u256
proc period*(cfg: CliqueCfg): auto {.inline.} =
## Getter
cfg.period
proc ckpInterval*(cfg: CliqueCfg): auto {.inline.} =
## Getter
cfg.ckpInterval.u256
proc roThreshold*(cfg: CliqueCfg): auto {.inline.} =
## Getter
cfg.roThreshold
proc logInterval*(cfg: CliqueCfg): auto {.inline.} =
## Getter
cfg.logInterval
# ------------------------------------------------------------------------------
# Debugging
# ------------------------------------------------------------------------------
template ppExceptionWrap*(body: untyped) =
## Exception relay to `PrettyPrintDefect`, intended to be used with `pp()`
## related functions.
try:
body
except:
raise (ref PrettyPrintDefect)(msg: getCurrentException().msg)
proc say*(cfg: CliqueCfg; v: varargs[string,`$`]) {.inline.} =
## Debugging output
ppExceptionWrap:
if cfg.debug: stderr.write "*** " & v.join & "\n"
proc pp*(v: CliqueError): string =
## Pretty print error
result = $v[0]
if v[1] != "":
result &= " => " & v[1]
proc pp*(v: CliqueOkResult): string =
## Pretty print result
if v.isOk:
"OK"
else:
v.error.pp
proc pp*(p: var PrettyPrinters; v: BlockNonce): string =
## Pretty print nonce (for debugging)
ppExceptionWrap: p.nonce(v)
proc pp*(p: var PrettyPrinters; v: EthAddress): string =
## Pretty print address (for debugging)
ppExceptionWrap: p.address(v)
proc pp*(p: var PrettyPrinters; v: openArray[EthAddress]): seq[string] =
## Pretty print address list
toSeq(v).mapIt(p.pp(it))
proc pp*(p: var PrettyPrinters; v: Blob): string =
## Visualise `extraData` field
ppExceptionWrap: p.extraData(v)
proc pp*(p: var PrettyPrinters; v: BlockHeader; delim: string): string =
## Pretty print block header
ppExceptionWrap: p.blockHeader(v, delim)
proc pp*(p: var PrettyPrinters; v: BlockHeader; indent = 3): string =
## Pretty print block header, NL delimited, indented fields
let delim = if 0 < indent: "\n" & ' '.repeat(indent) else: " "
p.pp(v,delim)
proc pp*(p: var PrettyPrinters; v: openArray[BlockHeader]): seq[string] =
## Pretty print list of block headers
toSeq(v).mapIt(p.pp(it,","))
proc pp*[T;V: SimpleTypePP](t: T; v: V): string =
## Generic pretty printer, requires `getPrettyPrinters()` function:
## ::
## proc getPrettyPrinters(t: SomeLocalType): var PrettyPrinters
##
mixin getPrettyPrinters
ppExceptionWrap: t.getPrettyPrinters.pp(v)
proc pp*[T;V: var SimpleTypePP](t: var T; v: V): string =
## Generic pretty printer, requires `getPrettyPrinters()` function:
## ::
## proc getPrettyPrinters(t: var SomeLocalType): var PrettyPrinters
##
mixin getPrettyPrinters
ppExceptionWrap: t.getPrettyPrinters.pp(v)
proc pp*[T;V: SeqTypePP](t: T; v: openArray[V]): seq[string] =
## Generic pretty printer, requires `getPrettyPrinters()` function:
## ::
## proc getPrettyPrinters(t: SomeLocalType): var PrettyPrinters
##
mixin getPrettyPrinters
ppExceptionWrap: t.getPrettyPrinters.pp(v)
proc pp*[T;V: SeqTypePP](t: var T; v: openArray[V]): seq[string] =
## Generic pretty printer, requires `getPrettyPrinters()` function:
## ::
## proc getPrettyPrinters(t: var SomeLocalType): var PrettyPrinters
##
mixin getPrettyPrinters
ppExceptionWrap: t.getPrettyPrinters.pp(v)
proc pp*[T;X: int|string](t: T; v: BlockHeader; sep: X): string =
## Generic pretty printer, requires `getPrettyPrinters()` function:
## ::
## proc getPrettyPrinters(t: SomeLocalType): var PrettyPrinters
##
mixin getPrettyPrinters
ppExceptionWrap: t.getPrettyPrinters.pp(v,sep)
proc pp*[T;X: int|string](t: var T; v: BlockHeader; sep: X): string =
## Generic pretty printer, requires `getPrettyPrinters()` function:
## ::
## proc getPrettyPrinters(t: var SomeLocalType): var PrettyPrinters
##
mixin getPrettyPrinters
ppExceptionWrap: t.getPrettyPrinters.pp(v,sep)
# ------------------------------------------------------------------------------
# End
# ------------------------------------------------------------------------------