nimbus-eth1/nimbus/sync/snap/range_desc.nim

# Nimbus - Types, data structures and shared utilities used in network sync
#
# Copyright (c) 2018-2021 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.

import
  std/[math, hashes],
  eth/common/eth_types,
  nimcrypto/keccak,
  stew/[byteutils, interval_set],
  stint,
  ../../constants,
  ../protocol,
  ../types

{.push raises: [Defect].}

type
  NodeTag* = ##\
    ## Trie leaf item, account hash etc.
    distinct UInt256

  LeafRange* = ##\
    ## Interval `[minPt,maxPt]` of` NodeTag` elements, can be managed in an
    ## `IntervalSet` data type.
    Interval[NodeTag,UInt256]

  LeafRangeSet* = ##\
    ## Managed structure to handle non-adjacent `LeafRange` intervals
    IntervalSetRef[NodeTag,UInt256]

  PackedAccountRange* = object
    ## Re-packed version of `SnapAccountRange`. The reason why repacking is
    ## needed is that the `snap/1` protocol uses another RLP encoding than is
    ## used for storing in the database. So the `PackedAccount` is `BaseDB`
    ## trie compatible.
    accounts*: seq[PackedAccount]  ## List of re-packed accounts data
    proof*: SnapAccountProof       ## Boundary proofs

  PackedAccount* = object
    ## In fact, the `snap/1` driver returns the `Account` structure which is
    ## unwanted overhead, gere.
    accHash*: Hash256
    accBlob*: Blob

  AccountSlotsHeader* = object
    ## Storage root header
    accHash*: Hash256              ## Owner account, maybe unnecessary
    storageRoot*: Hash256          ## Start of storage tree
    firstSlot*: Hash256            ## Continuation if non-zero

  AccountStorageRange* = object
    ## List of storage descriptors, the last `AccountSlots` storage data might
    ## be incomplete and tthe `proof` is needed for proving validity.
    storages*: seq[AccountSlots]   ## List of accounts and storage data
    proof*: SnapStorageProof       ## Boundary proofs for last entry

  AccountSlots* = object
    ## Account storage descriptor
    account*: AccountSlotsHeader
    data*: seq[SnapStorage]

# ------------------------------------------------------------------------------
# Public helpers
# ------------------------------------------------------------------------------

proc to*(nid: NodeTag; T: type Hash256): T =
  ## Convert to serialised equivalent
  result.data = nid.UInt256.toBytesBE

proc to*(nid: NodeTag; T: type NodeHash): T =
  ## Syntactic sugar
  nid.to(Hash256).T

proc to*(h: Hash256; T: type NodeTag): T =
  ## Convert from serialised equivalent
  UInt256.fromBytesBE(h.data).T

proc to*(nh: NodeHash; T: type NodeTag): T =
  ## Syntactic sugar
  nh.Hash256.to(T)

proc to*(n: SomeUnsignedInt|UInt256; T: type NodeTag): T =
  ## Syntactic sugar
  n.u256.T

# ------------------------------------------------------------------------------
# Public constructors
# ------------------------------------------------------------------------------

proc init*(nh: var NodeHash; data: openArray[byte]): bool =
  ## Import argument `data` into `nh` which must have length either `32` or `0`.
  ## The latter case is equivalent to an all zero byte array of size `32`.
  if data.len == 32:
    (addr nh.Hash256.data[0]).copyMem(unsafeAddr data[0], 32)
    return true
  elif data.len == 0:
    nh.reset
    return true

proc init*(nt: var NodeTag; data: openArray[byte]): bool =
  ## Similar to `init(nh: var NodeHash; .)`.
  var h: NodeHash
  if h.init(data):
    nt = h.to(NodeTag)
    return true

# ------------------------------------------------------------------------------
# Public rlp support
# ------------------------------------------------------------------------------

proc read*(rlp: var Rlp, T: type NodeTag): T
    {.gcsafe, raises: [Defect,RlpError].} =
  rlp.read(Hash256).to(T)

proc append*(writer: var RlpWriter, nid: NodeTag) =
  writer.append(nid.to(Hash256))

# ------------------------------------------------------------------------------
# Public `NodeTag` and `LeafRange` functions
# ------------------------------------------------------------------------------

proc u256*(lp: NodeTag): UInt256 = lp.UInt256
proc low*(T: type NodeTag): T = low(UInt256).T
proc high*(T: type NodeTag): T = high(UInt256).T

proc `+`*(a: NodeTag; b: UInt256): NodeTag = (a.u256+b).NodeTag
proc `-`*(a: NodeTag; b: UInt256): NodeTag = (a.u256-b).NodeTag
proc `-`*(a, b: NodeTag): UInt256 = (a.u256 - b.u256)

proc `==`*(a, b: NodeTag): bool = a.u256 == b.u256
proc `<=`*(a, b: NodeTag): bool = a.u256 <= b.u256
proc `<`*(a, b: NodeTag): bool = a.u256 < b.u256

proc cmp*(x, y: NodeTag): int = cmp(x.UInt256, y.UInt256)

proc hash*(a: NodeTag): Hash =
  ## Mixin for `Table` or `keyedQueue`
  a.to(Hash256).data.hash

proc digestTo*(data: Blob; T: type NodeTag): T =
  ## Hash the `data` argument
  keccak256.digest(data).to(T)

proc freeFactor*(lrs: LeafRangeSet): float =
  ## Free factor, ie. `#items-free / 2^256` to be used in statistics
  if 0 < lrs.total:
    ((high(NodeTag) - lrs.total).u256 + 1).to(float) / (2.0^256)
  elif lrs.chunks == 0:
    1.0 # `total` represents the residue class `mod 2^256` from `0`..`(2^256-1)`
  else:
    0.0

proc fullFactor*(lrs: LeafRangeSet): float =
  ## Free factor, ie. `#items-contained / 2^256` to be used in statistics
  if 0 < lrs.total:
    lrs.total.u256.to(float) / (2.0^256)
  elif lrs.chunks == 0:
    0.0
  else:
    1.0 # `total` represents the residue class `mod 2^256` from `0`..`(2^256-1)`

# Printing & pretty printing
proc `$`*(nt: NodeTag): string =
  if nt == high(NodeTag):
    "high(NodeTag)"
  elif nt == 0.u256.NodeTag:
    "0"
  else:
    nt.to(Hash256).data.toHex

proc leafRangePp*(a, b: NodeTag): string =
  ## Needed for macro generated DSL files like `snap.nim` because the
  ## `distinct` flavour of `NodeTag` is discarded there.
  result = "[" & $a
  if a != b:
    result &= ',' & $b
  result &= "]"

proc `$`*(a, b: NodeTag): string =
  ## Prettyfied prototype
  leafRangePp(a,b)

proc `$`*(iv: LeafRange): string =
  leafRangePp(iv.minPt, iv.maxPt)

# ------------------------------------------------------------------------------
# End
# ------------------------------------------------------------------------------
Snap accounts bulk import preparer (#1183) * Provided common scheduler API, applied to `full` sync * Use hexary trie as storage for proofs_db records also: + Store metadata with account for keeping track of account state + add iterator over accounts * Common scheduler API applied to `snap` sync * Prepare for accounts bulk import details: + Added some ad-hoc checks for proving accounts data received from the snap/1 (will be replaced by proper database version when ready) + Added code that dumps some of the received snap/1 data into a file (turned of by default, see `worker_desc.nim`) 2022-08-04 08:04:30 +00:00			`# Nimbus - Types, data structures and shared utilities used in network sync`
			`#`
			`# Copyright (c) 2018-2021 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.`

			`import`
			`std/[math, hashes],`
			`eth/common/eth_types,`
			`nimcrypto/keccak,`
			`stew/[byteutils, interval_set],`
			`stint,`
			`../../constants,`
Update snap offline tests (#1199) * Re-implemented `hexaryFollow()` in a more general fashion details: + New name for re-implemented `hexaryFollow()` is `hexaryPath()` + Renamed `rTreeFollow()` as `hexaryPath()` why: Returning similarly organised structures, the results of the `hexaryPath()` functions become comparable when running over the persistent and the in-memory databases. * Added traversal functionality for persistent ChainDB * Using `Account` values as re-packed Blob * Repack samples as compressed data files * Produce test data details: + Can force pivot state root switch after minimal coverage. + For emulating certain network behaviour, downloading accounts stops for a particular pivot state root if 30% (some static number) coverage is reached. Following accounts are downloaded for a later pivot state root. 2022-08-24 13:44:18 +00:00			`../protocol,`
Snap accounts bulk import preparer (#1183) * Provided common scheduler API, applied to `full` sync * Use hexary trie as storage for proofs_db records also: + Store metadata with account for keeping track of account state + add iterator over accounts * Common scheduler API applied to `snap` sync * Prepare for accounts bulk import details: + Added some ad-hoc checks for proving accounts data received from the snap/1 (will be replaced by proper database version when ready) + Added code that dumps some of the received snap/1 data into a file (turned of by default, see `worker_desc.nim`) 2022-08-04 08:04:30 +00:00			`../types`

			`{.push raises: [Defect].}`

			`type`
			`NodeTag* = ##\`
			`## Trie leaf item, account hash etc.`
			`distinct UInt256`

			`LeafRange* = ##\`
			## Interval `[minPt,maxPt]` of` NodeTag` elements, can be managed in an
			## `IntervalSet` data type.
			`Interval[NodeTag,UInt256]`

			`LeafRangeSet* = ##\`
			## Managed structure to handle non-adjacent `LeafRange` intervals
			`IntervalSetRef[NodeTag,UInt256]`

Update snap offline tests (#1199) * Re-implemented `hexaryFollow()` in a more general fashion details: + New name for re-implemented `hexaryFollow()` is `hexaryPath()` + Renamed `rTreeFollow()` as `hexaryPath()` why: Returning similarly organised structures, the results of the `hexaryPath()` functions become comparable when running over the persistent and the in-memory databases. * Added traversal functionality for persistent ChainDB * Using `Account` values as re-packed Blob * Repack samples as compressed data files * Produce test data details: + Can force pivot state root switch after minimal coverage. + For emulating certain network behaviour, downloading accounts stops for a particular pivot state root if 30% (some static number) coverage is reached. Following accounts are downloaded for a later pivot state root. 2022-08-24 13:44:18 +00:00			`PackedAccountRange* = object`
			## Re-packed version of `SnapAccountRange`. The reason why repacking is
			## needed is that the `snap/1` protocol uses another RLP encoding than is
			## used for storing in the database. So the `PackedAccount` is `BaseDB`
			`## trie compatible.`
			`accounts*: seq[PackedAccount] ## List of re-packed accounts data`
			`proof*: SnapAccountProof ## Boundary proofs`

			`PackedAccount* = object`
			## In fact, the `snap/1` driver returns the `Account` structure which is
			`## unwanted overhead, gere.`
			`accHash*: Hash256`
			`accBlob*: Blob`

Snap fetch account storage data (#1211) * Removed database write comparison statistics * Provide life storage tests data details: database dumps on external repo `nimbus-eth1`-blobs` * Update hexary tree interpolation for storage bulk tests * fetch storage update 2022-09-02 18:16:09 +00:00			`AccountSlotsHeader* = object`
			`## Storage root header`
			`accHash*: Hash256 ## Owner account, maybe unnecessary`
			`storageRoot*: Hash256 ## Start of storage tree`
			`firstSlot*: Hash256 ## Continuation if non-zero`

			`AccountStorageRange* = object`
			## List of storage descriptors, the last `AccountSlots` storage data might
			## be incomplete and tthe `proof` is needed for proving validity.
			`storages*: seq[AccountSlots] ## List of accounts and storage data`
			`proof*: SnapStorageProof ## Boundary proofs for last entry`

			`AccountSlots* = object`
			`## Account storage descriptor`
			`account*: AccountSlotsHeader`
			`data*: seq[SnapStorage]`

Snap accounts bulk import preparer (#1183) * Provided common scheduler API, applied to `full` sync * Use hexary trie as storage for proofs_db records also: + Store metadata with account for keeping track of account state + add iterator over accounts * Common scheduler API applied to `snap` sync * Prepare for accounts bulk import details: + Added some ad-hoc checks for proving accounts data received from the snap/1 (will be replaced by proper database version when ready) + Added code that dumps some of the received snap/1 data into a file (turned of by default, see `worker_desc.nim`) 2022-08-04 08:04:30 +00:00			`# ------------------------------------------------------------------------------`
			`# Public helpers`
			`# ------------------------------------------------------------------------------`

			`proc to*(nid: NodeTag; T: type Hash256): T =`
			`## Convert to serialised equivalent`
			`result.data = nid.UInt256.toBytesBE`

			`proc to*(nid: NodeTag; T: type NodeHash): T =`
			`## Syntactic sugar`
			`nid.to(Hash256).T`

			`proc to*(h: Hash256; T: type NodeTag): T =`
			`## Convert from serialised equivalent`
			`UInt256.fromBytesBE(h.data).T`

			`proc to*(nh: NodeHash; T: type NodeTag): T =`
			`## Syntactic sugar`
			`nh.Hash256.to(T)`

			`proc to*(n: SomeUnsignedInt\|UInt256; T: type NodeTag): T =`
			`## Syntactic sugar`
			`n.u256.T`

			`# ------------------------------------------------------------------------------`
			`# Public constructors`
			`# ------------------------------------------------------------------------------`

			`proc init*(nh: var NodeHash; data: openArray[byte]): bool =`
			## Import argument `data` into `nh` which must have length either `32` or `0`.
			## The latter case is equivalent to an all zero byte array of size `32`.
			`if data.len == 32:`
Update snap offline tests (#1199) * Re-implemented `hexaryFollow()` in a more general fashion details: + New name for re-implemented `hexaryFollow()` is `hexaryPath()` + Renamed `rTreeFollow()` as `hexaryPath()` why: Returning similarly organised structures, the results of the `hexaryPath()` functions become comparable when running over the persistent and the in-memory databases. * Added traversal functionality for persistent ChainDB * Using `Account` values as re-packed Blob * Repack samples as compressed data files * Produce test data details: + Can force pivot state root switch after minimal coverage. + For emulating certain network behaviour, downloading accounts stops for a particular pivot state root if 30% (some static number) coverage is reached. Following accounts are downloaded for a later pivot state root. 2022-08-24 13:44:18 +00:00			`(addr nh.Hash256.data[0]).copyMem(unsafeAddr data[0], 32)`
Snap accounts bulk import preparer (#1183) * Provided common scheduler API, applied to `full` sync * Use hexary trie as storage for proofs_db records also: + Store metadata with account for keeping track of account state + add iterator over accounts * Common scheduler API applied to `snap` sync * Prepare for accounts bulk import details: + Added some ad-hoc checks for proving accounts data received from the snap/1 (will be replaced by proper database version when ready) + Added code that dumps some of the received snap/1 data into a file (turned of by default, see `worker_desc.nim`) 2022-08-04 08:04:30 +00:00			`return true`
			`elif data.len == 0:`
			`nh.reset`
			`return true`

			`proc init*(nt: var NodeTag; data: openArray[byte]): bool =`
			## Similar to `init(nh: var NodeHash; .)`.
			`var h: NodeHash`
			`if h.init(data):`
			`nt = h.to(NodeTag)`
			`return true`

			`# ------------------------------------------------------------------------------`
			`# Public rlp support`
			`# ------------------------------------------------------------------------------`

			`proc read*(rlp: var Rlp, T: type NodeTag): T`
Update snap offline tests (#1199) * Re-implemented `hexaryFollow()` in a more general fashion details: + New name for re-implemented `hexaryFollow()` is `hexaryPath()` + Renamed `rTreeFollow()` as `hexaryPath()` why: Returning similarly organised structures, the results of the `hexaryPath()` functions become comparable when running over the persistent and the in-memory databases. * Added traversal functionality for persistent ChainDB * Using `Account` values as re-packed Blob * Repack samples as compressed data files * Produce test data details: + Can force pivot state root switch after minimal coverage. + For emulating certain network behaviour, downloading accounts stops for a particular pivot state root if 30% (some static number) coverage is reached. Following accounts are downloaded for a later pivot state root. 2022-08-24 13:44:18 +00:00			`{.gcsafe, raises: [Defect,RlpError].} =`
Snap accounts bulk import preparer (#1183) * Provided common scheduler API, applied to `full` sync * Use hexary trie as storage for proofs_db records also: + Store metadata with account for keeping track of account state + add iterator over accounts * Common scheduler API applied to `snap` sync * Prepare for accounts bulk import details: + Added some ad-hoc checks for proving accounts data received from the snap/1 (will be replaced by proper database version when ready) + Added code that dumps some of the received snap/1 data into a file (turned of by default, see `worker_desc.nim`) 2022-08-04 08:04:30 +00:00			`rlp.read(Hash256).to(T)`

			`proc append*(writer: var RlpWriter, nid: NodeTag) =`
			`writer.append(nid.to(Hash256))`

			`# ------------------------------------------------------------------------------`
			# Public `NodeTag` and `LeafRange` functions
			`# ------------------------------------------------------------------------------`

			`proc u256*(lp: NodeTag): UInt256 = lp.UInt256`
			`proc low*(T: type NodeTag): T = low(UInt256).T`
			`proc high*(T: type NodeTag): T = high(UInt256).T`

			proc `+`*(a: NodeTag; b: UInt256): NodeTag = (a.u256+b).NodeTag
			proc `-`*(a: NodeTag; b: UInt256): NodeTag = (a.u256-b).NodeTag
			proc `-`*(a, b: NodeTag): UInt256 = (a.u256 - b.u256)

			proc `==`*(a, b: NodeTag): bool = a.u256 == b.u256
			proc `<=`*(a, b: NodeTag): bool = a.u256 <= b.u256
			proc `<`*(a, b: NodeTag): bool = a.u256 < b.u256

Experimental bulk loader tests (#1187) why: Rocksdb bulk loading might provide a slight advantage when loading larger data sets into the system 2022-08-12 15:42:07 +00:00			`proc cmp*(x, y: NodeTag): int = cmp(x.UInt256, y.UInt256)`

Snap accounts bulk import preparer (#1183) * Provided common scheduler API, applied to `full` sync * Use hexary trie as storage for proofs_db records also: + Store metadata with account for keeping track of account state + add iterator over accounts * Common scheduler API applied to `snap` sync * Prepare for accounts bulk import details: + Added some ad-hoc checks for proving accounts data received from the snap/1 (will be replaced by proper database version when ready) + Added code that dumps some of the received snap/1 data into a file (turned of by default, see `worker_desc.nim`) 2022-08-04 08:04:30 +00:00			`proc hash*(a: NodeTag): Hash =`
			## Mixin for `Table` or `keyedQueue`
			`a.to(Hash256).data.hash`

			`proc digestTo*(data: Blob; T: type NodeTag): T =`
			## Hash the `data` argument
			`keccak256.digest(data).to(T)`

			`proc freeFactor*(lrs: LeafRangeSet): float =`
			## Free factor, ie. `#items-free / 2^256` to be used in statistics
			`if 0 < lrs.total:`
			`((high(NodeTag) - lrs.total).u256 + 1).to(float) / (2.0^256)`
			`elif lrs.chunks == 0:`
Misc snap sync updates (#1192) * Bump nim-stew why: Need fixed interval set * Keep track of accumulated account ranges over all state roots * Added comments and explanations to unit tests * typo 2022-08-17 07:30:11 +00:00			1.0 # `total` represents the residue class `mod 2^256` from `0`..`(2^256-1)`
Snap accounts bulk import preparer (#1183) * Provided common scheduler API, applied to `full` sync * Use hexary trie as storage for proofs_db records also: + Store metadata with account for keeping track of account state + add iterator over accounts * Common scheduler API applied to `snap` sync * Prepare for accounts bulk import details: + Added some ad-hoc checks for proving accounts data received from the snap/1 (will be replaced by proper database version when ready) + Added code that dumps some of the received snap/1 data into a file (turned of by default, see `worker_desc.nim`) 2022-08-04 08:04:30 +00:00			`else:`
			`0.0`

Misc snap sync updates (#1192) * Bump nim-stew why: Need fixed interval set * Keep track of accumulated account ranges over all state roots * Added comments and explanations to unit tests * typo 2022-08-17 07:30:11 +00:00			`proc fullFactor*(lrs: LeafRangeSet): float =`
			## Free factor, ie. `#items-contained / 2^256` to be used in statistics
			`if 0 < lrs.total:`
			`lrs.total.u256.to(float) / (2.0^256)`
			`elif lrs.chunks == 0:`
			`0.0`
			`else:`
			1.0 # `total` represents the residue class `mod 2^256` from `0`..`(2^256-1)`

Snap accounts bulk import preparer (#1183) * Provided common scheduler API, applied to `full` sync * Use hexary trie as storage for proofs_db records also: + Store metadata with account for keeping track of account state + add iterator over accounts * Common scheduler API applied to `snap` sync * Prepare for accounts bulk import details: + Added some ad-hoc checks for proving accounts data received from the snap/1 (will be replaced by proper database version when ready) + Added code that dumps some of the received snap/1 data into a file (turned of by default, see `worker_desc.nim`) 2022-08-04 08:04:30 +00:00			`# Printing & pretty printing`
			proc `$`*(nt: NodeTag): string =
			`if nt == high(NodeTag):`
			`"high(NodeTag)"`
			`elif nt == 0.u256.NodeTag:`
			`"0"`
			`else:`
			`nt.to(Hash256).data.toHex`

			`proc leafRangePp*(a, b: NodeTag): string =`
			## Needed for macro generated DSL files like `snap.nim` because the
			## `distinct` flavour of `NodeTag` is discarded there.
			`result = "[" & $a`
			`if a != b:`
			`result &= ',' & $b`
			`result &= "]"`

			proc `$`*(a, b: NodeTag): string =
			`## Prettyfied prototype`
			`leafRangePp(a,b)`

			proc `$`*(iv: LeafRange): string =
			`leafRangePp(iv.minPt, iv.maxPt)`

			`# ------------------------------------------------------------------------------`
			`# End`
			`# ------------------------------------------------------------------------------`