2018-12-12 15:18:46 +00:00
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# Nimbus
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2024-04-03 15:48:35 +00:00
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# Copyright (c) 2018-2024 Status Research & Development GmbH
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2018-12-12 15:18:46 +00:00
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# Licensed under either of
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2024-04-03 15:48:35 +00:00
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# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or
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# http://www.apache.org/licenses/LICENSE-2.0)
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# * MIT license ([LICENSE-MIT](LICENSE-MIT) or
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# http://opensource.org/licenses/MIT)
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# at your option. This file may not be copied, modified,
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# or distributed except according to those terms.
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2018-12-12 15:18:46 +00:00
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import
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2024-08-01 10:41:20 +00:00
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std/[json, os, tables, strutils],
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2024-06-14 07:31:08 +00:00
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stew/byteutils,
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2024-04-03 15:48:35 +00:00
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chronicles,
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2022-12-02 04:39:12 +00:00
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unittest2,
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results,
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./test_helpers,
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../nimbus/db/aristo,
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2024-11-07 01:24:21 +00:00
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../nimbus/db/aristo/[aristo_desc, aristo_layers, aristo_part],
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../nimbus/db/aristo/aristo_part/part_debug,
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../nimbus/db/kvt/kvt_utils,
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2024-06-17 07:56:39 +00:00
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../nimbus/[tracer, evm/types],
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../nimbus/common/common
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2018-12-12 15:18:46 +00:00
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2024-04-03 15:48:35 +00:00
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proc setErrorLevel {.used.} =
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when defined(chronicles_runtime_filtering) and loggingEnabled:
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setLogLevel(LogLevel.ERROR)
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proc preLoadAristoDb(cdb: CoreDbRef; jKvp: JsonNode; num: BlockNumber) =
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## Hack for `Aristo` pre-lading using the `snap` protocol proof-loader
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const
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info = "preLoadAristoDb"
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var
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proof: seq[seq[byte]] # for pre-loading MPT
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predRoot: Hash32 # from predecessor header
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txRoot: Hash32 # header with block number `num`
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rcptRoot: Hash32 # ditto
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let
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adb = cdb.ctx.mpt # `Aristo` db
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kdb = cdb.ctx.kvt # `Kvt` db
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ps = PartStateRef.init adb # Partial DB descriptor
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# Fill KVT and collect `proof` data
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for (k,v) in jKvp.pairs:
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let
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key = hexToSeqByte(k)
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val = hexToSeqByte(v.getStr())
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if key.len == 32:
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doAssert key == val.keccak256.data
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if val != @[0x80u8]: # Exclude empty item
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proof.add val
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else:
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if key[0] == 0:
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try:
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# Pull our particular header fields (if possible)
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let header = rlp.decode(val, Header)
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if header.number == num:
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txRoot = header.txRoot
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rcptRoot = header.receiptsRoot
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elif header.number == num-1:
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predRoot = header.stateRoot
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except RlpError:
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discard
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check kdb.put(key, val).isOk
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# Set up production MPT
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ps.partPut(proof, AutomaticPayload).isOkOr:
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raiseAssert info & ": partPut => " & $error
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2024-07-10 12:19:35 +00:00
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2024-11-02 09:29:16 +00:00
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# TODO code needs updating after removal of generic payloads
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# # Handle transaction sub-tree
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# if txRoot.isValid:
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# var txs: seq[Transaction]
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# for (key,pyl) in adb.rightPairs LeafTie(root: ps.partGetSubTree txRoot):
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# let
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# inx = key.path.to(UInt256).truncate(uint)
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# tx = rlp.decode(pyl.rawBlob, Transaction)
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# #
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# # FIXME: Is this might be a bug in the test data?
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# #
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# # The single item test key is always `128`. For non-single test
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# # lists, the keys are `1`,`2`, ..,`N`, `128` (some single digit
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# # number `N`.)
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# #
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# # Unless the `128` item value is put at the start of the argument
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# # list `txs[]` for `persistTransactions()`, the `tracer` module
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# # will throw an exception at
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# # `doAssert(transactions.calcTxRoot == header.txRoot)` in the
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# # function `traceTransactionImpl()`.
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# #
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# if (inx and 0x80) != 0:
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# txs = @[tx] & txs
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# else:
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# txs.add tx
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# cdb.persistTransactions(num, txRoot, txs)
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# # Handle receipts sub-tree
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# if rcptRoot.isValid:
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# var rcpts: seq[Receipt]
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# for (key,pyl) in adb.rightPairs LeafTie(root: ps.partGetSubTree rcptRoot):
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# let
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# inx = key.path.to(UInt256).truncate(uint)
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# rcpt = rlp.decode(pyl.rawBlob, Receipt)
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# # FIXME: See comment at `txRoot` section.
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# if (inx and 0x80) != 0:
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# rcpts = @[rcpt] & rcpts
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# else:
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# rcpts.add rcpt
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# cdb.persistReceipts(rcptRoot, rcpts)
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Store keys together with node data (#2849)
Currently, computed hash keys are stored in a separate column family
with respect to the MPT data they're generated from - this has several
disadvantages:
* A lot of space is wasted because the lookup key (`RootedVertexID`) is
repeated in both tables - this is 30% of the `AriKey` content!
* rocksdb must maintain in-memory bloom filters and LRU caches for said
keys, doubling its "minimal efficient cache size"
* An extra disk traversal must be made to check for existence of cached
hash key
* Doubles the amount of files on disk due to each column family being
its own set of files
Here, the two CFs are joined such that both key and data is stored in
`AriVtx`. This means:
* we save ~30% disk space on repeated lookup keys
* we save ~2gb of memory overhead that can be used to cache data instead
of indices
* we can skip storing hash keys for MPT leaf nodes - these are trivial
to compute and waste a lot of space - previously they had to present in
the `AriKey` CF to avoid having to look in two tables on the happy path.
* There is a small increase in write amplification because when a hash
value is updated for a branch node, we must write both key and branch
data - previously we would write only the key
* There's a small shift in CPU usage - instead of performing lookups in
the database, hashes for leaf nodes are (re)-computed on the fly
* We can return to slightly smaller on-disk SST files since there's
fewer of them, which should reduce disk traffic a bit
Internally, there are also other advantages:
* when clearing keys, we no longer have to store a zero hash in memory -
instead, we deduce staleness of the cached key from the presence of an
updated VertexRef - this saves ~1gb of mem overhead during import
* hash key cache becomes dedicated to branch keys since leaf keys are no
longer stored in memory, reducing churn
* key computation is a lot faster thanks to the skipped second disk
traversal - a key computation for mainnet can be completed in 11 hours
instead of ~2 days (!) thanks to better cache usage and less read
amplification - with additional improvements to the on-disk format, we
can probably get rid of the initial full traversal method of seeding the
key cache on first start after import
All in all, this PR reduces the size of a mainnet database from 160gb to
110gb and the peak memory footprint during import by ~1-2gb.
2024-11-20 08:56:27 +00:00
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# # Save keys to database
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# for (rvid,key) in ps.vkPairs:
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# adb.layersPutKey(rvid, key)
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ps.check().isOkOr:
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raiseAssert info & ": check => " & $error
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#echo ">>> preLoadAristoDb (9)",
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# "\n ps\n ", ps.pp(byKeyOk=false,byVidOk=false),
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# ""
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# -----------
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#if true: quit()
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# use tracerTestGen.nim to generate additional test data
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proc testFixtureImpl(node: JsonNode, testStatusIMPL: var TestStatus, memoryDB: CoreDbRef) {.deprecated: "needs fixing for non-generic payloads".} =
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block:
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return
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setErrorLevel()
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var
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blockNumberHex = node["blockNumber"].getStr()
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blockNumber = parseHexInt(blockNumberHex).uint64
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com = CommonRef.new(memoryDB, chainConfigForNetwork(MainNet))
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state = node["state"]
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receipts = node["receipts"]
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2022-11-12 04:12:17 +00:00
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# disable POS/post Merge feature
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com.setTTD Opt.none(DifficultyInt)
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# Import raw data into database
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# Some hack for `Aristo` using the `snap` protocol proof-loader
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memoryDB.preLoadAristoDb(state, blockNumber)
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2024-11-07 01:24:21 +00:00
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var blk = com.db.getEthBlock(blockNumber).expect("eth block exists")
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Consolidate block type for block processing (#2325)
This PR consolidates the split header-body sequences into a single EthBlock
sequence and cleans up the fallout from that which significantly reduces
block processing overhead during import thanks to less garbage collection
and fewer copies of things all around.
Notably, since the number of headers must always match the number of bodies,
we also get rid of a pointless degree of freedom that in the future could
introduce unnecessary bugs.
* only read header and body from era file
* avoid several unnecessary copies along the block processing way
* simplify signatures, cleaning up unused arguemnts and returns
* use `stew/assign2` in a few strategic places where the generated
nim assignent is slow and add a few `move` to work around poor
analysis in nim 1.6 (will need to be revisited for 2.0)
```
stats-20240607_2223-a814aa0b.csv vs stats-20240608_0714-21c1d0a9.csv
bps_x bps_y tps_x tps_y bpsd tpsd timed
block_number
(498305, 713245] 1,540.52 1,809.73 2,361.58 2775.340189 17.63% 17.63% -14.92%
(713245, 928185] 730.36 865.26 1,715.90 2028.973852 18.01% 18.01% -15.21%
(928185, 1143126] 663.03 789.10 2,529.26 3032.490771 19.79% 19.79% -16.28%
(1143126, 1358066] 393.46 508.05 2,152.50 2777.578119 29.13% 29.13% -22.50%
(1358066, 1573007] 370.88 440.72 2,351.31 2791.896052 18.81% 18.81% -15.80%
(1573007, 1787947] 283.65 335.11 2,068.93 2441.373402 17.60% 17.60% -14.91%
(1787947, 2002888] 287.29 342.11 2,078.39 2474.179448 18.99% 18.99% -15.91%
(2002888, 2217828] 293.38 343.16 2,208.83 2584.77457 17.16% 17.16% -14.61%
(2217828, 2432769] 140.09 167.86 1,081.87 1296.336926 18.82% 18.82% -15.80%
blocks: 1934464, baseline: 3h13m1s, contender: 2h43m47s
bpsd (mean): 19.55%
tpsd (mean): 19.55%
Time (total): -29m13s, -15.14%
```
2024-06-09 14:32:20 +00:00
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let txTraces = traceTransactions(com, blk.header, blk.transactions)
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let stateDump = dumpBlockState(com, blk)
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let blockTrace = traceBlock(com, blk, {DisableState})
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# Fix hex representation
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for inx in 0 ..< node["txTraces"].len:
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for key in ["beforeRoot", "afterRoot"]:
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# Here, `node["txTraces"]` stores a string while `txTraces` uses a
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# `Hash32` which might expand to a didfferent upper/lower case.
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var strHash = txTraces[inx]["stateDiff"][key].getStr.toUpperAscii
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if strHash.len < 64:
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strHash = '0'.repeat(64 - strHash.len) & strHash
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txTraces[inx]["stateDiff"][key] = %(strHash)
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check node["txTraces"] == txTraces
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check node["stateDump"] == stateDump
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check node["blockTrace"] == blockTrace
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for i in 0 ..< receipts.len:
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let receipt = receipts[i]
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let stateDiff = txTraces[i]["stateDiff"]
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check receipt["root"].getStr().toLowerAscii() == stateDiff["afterRoot"].getStr().toLowerAscii()
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2020-01-22 07:45:00 +00:00
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proc testFixtureAristo(node: JsonNode, testStatusIMPL: var TestStatus) =
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node.testFixtureImpl(testStatusIMPL, newCoreDbRef AristoDbMemory)
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proc tracerJsonMain*() =
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suite "tracer json tests for Aristo DB":
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jsonTest("TracerTests", testFixtureAristo)
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2020-01-22 07:45:00 +00:00
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when isMainModule:
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tracerJsonMain()
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